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/**************************************************************************************** DMLjellyfish-Menue: An innovative round menue Needs index array [ {"color": ,"text": , "link": } ... ] Title is center menue, same format ****************************************************************************************/ let mouseX = 0, mouseY = 0 window.onmousemove = (e) => { mouseX = e.clientX; mouseY = e.clientY; } function ifcol(col) { if (col) return "background-color: " + col + ";" else return "" } /**************************************************************************************** Moving Buton ****************************************************************************************/ /*------------------------------------------------------ Create a moving round button You can bring force to the button, it will return to the initial position ------------------------------------------------------*/ function movingButton(s, x, y, diameter, attr) { return new _movingButton(s, x, y, diameter, attr) } class _movingButton { constructor(s, x, y, diameter, attr) { this.offset = diameter / 2 this.p0 = { x: x, y: y } // Startpunkt this.d = { x: 0, y: 0 } // Auslenkung this.u = { x: 0, y: 0 } // Geschwindigkeit this.f = { x: 0, y: 0 } // Kraft this.button = rbutton(s, x, y, diameter, attr) } repaint() { // let f0 = {x: trunc(this.d.x*100), y: trunc(this.d.y*100)} // this.button.textContent = JSON.stringify(f0) this.u.x = this.u.x * 0.999 + (this.f.x / 100) - this.d.x / 1000; this.u.y = this.u.y * 0.999 + (this.f.y / 100) - this.d.y / 1000; this.d.x += this.u.x / 30; this.d.y += this.u.y / 30; this.button.style.transform = "translate(" + px(this.d.x - this.offset) + "," + px(this.d.y - this.offset) + ")" this.f.x = this.f.x * 0.99 this.f.y = this.f.y * 0.99 } // bring force to the button force(fx, fy) { this.f.x = fx; this.f.y = fy } // Momentanposition p() { return { x: this.p0.x + this.d.x, y: this.p0.y + this.d.y } } delta(mouseX, mouseY) { let ret = {}; let rect = this.button.getBoundingClientRect() ret.x = mouseX - (rect.left + rect.width / 2) ret.y = mouseY - (rect.top + rect.height / 2) ret.dist = Math.sqrt(ret.x * ret.x + ret.y * ret.y) return ret } } /**************************************************************************************** Jellyfish - Menue ****************************************************************************************/ function DMLjellyfish(title, width, height, props, cbattrib, btattrib, baseattrib) { return new _jellyfish(title, width, height, props, cbattrib, btattrib, baseattrib) } class _jellyfish { constructor(title, width, height, props, cbattrib = "", btattrib = "", baseattrib = "") { let x, y; this.props = props this.button = [] this.center = { x: trunc(width / 2), y: trunc(height / 2) } this.base = selectBase(div("", "width: " + width + "px; height: " + height + "px;" + _center)) setAttributes(this.base, baseattrib) this.canvas = canvas2D({ "width": width, "height": height }) this.canvas.ctx.lineWidth = 3 this.centerbutton = movingButton(title.text, this.center.x, this.center.y, height / 3.5, cbattrib + "border: solid 3px; " + ifcol(title.color)) this.centerbutton.button.classList.add("DMLjellyfish") this.centerbutton.button.classList.add("center") this.centerbutton.button.onclick = () => window.open(this.button[i].link) for (let i in props) { let phi = i / props.length * 2 * Math.PI x = this.center.x + Math.sin(phi) * width / 3 y = this.center.y - Math.cos(phi) * height / 3 this.canvas.line(this.center.x, this.center.y, x, y) this.button[i] = movingButton(props[i].text, x, y, height / 4, btattrib + "border: solid 3px;") this.button[i].button.classList.add("DMLjellyfish") this.button[i].button.link = props[i].link this.button[i].button.classList.add("jelly") this.button[i].button.center = { "x": x, "y:": y } if (props[i].color) this.button[i].button.style.backgroundColor = props[i].color this.button[i].button.onclick = () => window.open(this.button[i].button.link, "_self") } unselectBase(); setInterval(() => { this.mousePos(mouseX, mouseY) for (let i in this.props) { /* this (Math.random() > 0.99) { this.button[i].f.x += (Math.random() - 0.5) * 3 this.button[i].f.y += (Math.random() - 0.5) * 3 } */ this.repaint() } }, 20) return this } mousePos(mouseX, mouseY) { let delta; for (let i in this.props) { delta = this.button[i].delta(mouseX, mouseY) if (delta.dist < 150) this.button[i].force(delta.x / 50, delta.y / 50) else this.button[i].force(0, 0) } } repaint() { this.canvas.ctx.clearRect(0, 0, this.canvas.width, this.canvas.height); for (let i in this.props) { let p = this.button[i].p() this.canvas.line(this.center.x, this.center.y, p.x, p.y) this.button[i].repaint() } } }
{ "repo_name": "efpage/DML", "stars": "26", "repo_language": "JavaScript", "file_name": "DML_onlineEditor.js", "mime_type": "text/x-c++" }
/**************************************************************************************** Markdwon by Dr. Ecki Spezialversion für meine Bedürfnisse # h1 ## h2 ### h3 %%% Programmtext %%% &col &col &end Spaltenabschnitt 50% &center &end Zentrierter Abschnitt !IMG:name,(left|center|right),height px,offset x px, offset y px Erzeugt einen Index aus h1 und h2 mit [ {"level": level, "text":hp, "link":ref} ] ****************************************************************************************/ /*------------------------------------------------------ check if tag at start, than call function for the contents, return true or false ------------------------------------------------------*/ function mkHeadline(s, tag, f, index) { if (s.startsWith(tag)) { if (f) { let hp, level = tag.length; // headline-part oft content let content = s.slice(tag.length).trim() // trim tag and whitespaces if (content.includes("|")) { let tmp = content.split("|") // if line contains |, second is for index content = tmp[0] hp = tmp[1] } else hp = content; let ref = f("") ref.innerHTML = toHTML(content) if ((level < 4) && (hp)) if (Array.isArray(index)) index.push({ "level": level, "text": hp, "link": ref }) } return true } return false } /*------------------------------------------------------ Substitute DMLmarkdown b[]b, i[]i und u[]u ------------------------------------------------------*/ function toHTML(s) { let ar = ["b", "u", "i"] let tag1, tag2, flag for (i in ar) { c = ar[i] tag1 = c + "\\[" tag2 = "\\]" + c let r1 = new RegExp(tag1, 'g') let r2 = new RegExp(tag2, 'g') s = s.replace(r1, "<" + c + ">").replace(r2, "</" + c + ">") } if (s.includes("%%%")) { let out = s.split("%%%") for (let i = 1; i < out.length; i += 2) out[i] = "<pre class='prettyprint' style='display: inline; padding: 1px 4px'>" + out[i] + "</pre>" s = out.join("") } return s } /*------------------------------------------------------ Simple DMLmarkdown-style function call inp is a string, out is div headline is an array of menue entries ------------------------------------------------------*/ function DML_markdown(inp, out, index) { let output, iscol = false, attr, attr2; // *********** Funktonen **************** // subfunction Read Block til End /* function getblock(s) { let ret = s; while (true) { if (++n >= output.length) break // ------> s = getline() it (!t) break // ------> if (t.startsWith('&')) break // ------> ret += "\n" + s } n--; // jump back to allow evaluation of last line return ret } */ // get line n -> s: line, global t = s.trim() function getline() { if (n >= output.lenght) return "" return output[n++] } // Get first line and read until end or delimiter without trim() function getuntil(line, delimiter) { let ret = "" // Remove first line if empty if (line.trim() == "") line = getline().replace(/\t/g, " ") while (true) { if (line.includes(delimiter)) { while (line.includes(delimiter)) line = line.replace(delimiter, '') ret += line; return ret // ------> } else ret += line + "\n" if (n >= output.length) return ret // ------>; line = getline().replace(/\t/g, " ") } } // unselectBase if iscol was set function setcol() { if (iscol) unselectBase() iscol = true; } // *********** Programm **************** while (out.firstChild) out.removeChild(out.firstChild); //out.innerHTML = ""; // Clear output selectBase(out) // remove double linefeed, split source lines output = inp.replace(/(\r\n|\n|\r)/gm, "\n").split("\n") let n = 0, s, t; let buffer = "" const _br = "border-radius: 0px 10px 10px 0px;" while (n < output.length) { s = getline().replace(/\t/g, " ") // Line in s t = s.trim() if (mkHeadline(s, '######', h6, index)) continue if (mkHeadline(s, '#####', h5, index)) continue if (mkHeadline(s, '####', h4, index)) continue if (mkHeadline(s, '###', h3, index)) continue if (mkHeadline(s, '##', h2, index)) continue if (mkHeadline(s, '#', h1, index)) continue if (t == "---") { hr(); continue } if (t == "<") { br(); continue } // additional line break // ------> // Gray box heading if (s.startsWith('!!!')) { idiv(toHTML(s.slice(3).trim()), "padding: 2px 5px; margin-top: 25px; background-color: #ddd;"+_border+_bold); continue } // List ul if (s.startsWith('- ')) { let ar = [toHTML(s.slice(2).trim())] // Remember first line while (n < output.lenght - 1) { if (output[n].startsWith('- ')) { s = getline(); ar.push(toHTML(s.splice(2).trim())) } else break } ul(ar); continue } // 2-Colum side by side if (t.startsWith('&col')) { setcol() selectBase(div("", "display : inline-flex; width: 50%; padding: 0px 4px;")); continue } if (t.startsWith('&center')) { setcol() selectBase(div("", "text-align: center")); continue } if (t.startsWith('&end')) { unselectBase(); iscol = false; continue } // Place images, Parameter left/center/right, Scale, Positon dx,dy if (t.startsWith('!IMG:')) { let params = s.slice(5).split(","); // remove tag and get arguments attr2 = attr = "" if (params.length > 1) { if (params[1] == "center") attr2 = "text-align: center;" if (params[1] == "right") attr2 = "text-align: right;" } if (params.length > 2) // Scale if (params[2]) attr += "height:" + params[2] + ";" if (params.length > 4) { attr += "position: relative; left: " + params[3] + "; top: " + params[4] + ";" div(image(params[0], attr), attr2 + ' height: 0px; ') } else div(image(params[0], attr), attr2) continue } // Call js function if (t.startsWith('!CALL:')) { let params = s.slice(6).split(","); // remove tag and get arguments attr = "" if (params.length > 1) { if (params[1] == "center") attr = "text-align: center;" if (params[1] == "right") attr = "text-align: right;" } selectBase(div("", attr)) window[params[0]](); unselectBase(); continue } if (t == '!BEGIN:') { // Gather lines in buffer buffer = "" while (n < output.length) { s = getline().replace(/\t/g, " ") // Line in s t = s.trim() if (t.startsWith("!")) break if (buffer == "") buffer = s else buffer += "\n" + s } } // Format block with css if (t.startsWith('!FORMAT:')) { p("", s.slice(8)).innerHTML = toHTML(buffer) // print paragraph continue } // Format Block bigger if (t.startsWith('!BIG:')) { p("", "font-size: 120%; font-weight: 500;").innerHTML = toHTML(buffer) continue; } // Evaluate code block if (t.startsWith('!EVAL:')) { eval(buffer) continue; } if (t.startsWith('!CODE_EDITOR:')) { let param = s.slice(13); // remove tag and get arguments let attr = ""; if (param.trim()) { if (param == "left") attr = "text-align: left;" if (param == "right") attr = "text-align: right;" } codeEditor(buffer, "width: 100%; max-height: 700px; overflow: auto; " + _br + _bigshadow, "background-color: #ffd;" + _br + _border+attr); continue; } if (t.startsWith('!PAGE_EDITOR:')) { pageEditor(buffer, "width: 100%;" + _br + _bigshadow, "background-color: #ffd;" + _br + _border); continue; } if (t.startsWith('!CODE:')) { pre(buffer, { "class": "prettyprint ", "style": "overflow: auto; padding: 2px 5px; width: 100%; margin:0 auto;" + _shadow }) continue; } // Program text if (s.startsWith('%%%')) { s = getuntil(s.slice(3), '%%%') let el = pre(s, { "class": "prettyprint ", "style": "overflow: auto; padding: 2px 5px; width: 100%; max-height: 350px; margin:0 auto;" + _shadow }) // el.innerHTML = PR.prettyPrintOne(s) continue } // Program text light if (s.startsWith('$$$')) { s = getuntil(s.slice(3), '$$$') let el = pre(s, { "class": " ", "style": "overflow: auto; padding: 4px 10px; width: 100%; margin:0 auto; background-color: #FFC;" + _bold + _border + _radius + _shadow }) // el.innerHTML = PR.prettyPrintOne(s) continue } // Program text transparent if (s.startsWith('???')) { s = getuntil(s.slice(3), '???') let el = pre(s, { "class": " ", "style": "overflow: auto; width: 100%; margin:0 auto; " + _bold }) // el.innerHTML = PR.prettyPrintOne(s) continue } // Kommentare if (s.startsWith('///')) { s = getuntil(s.slice(3), '///') continue } // Paragraph if (t) { p().innerHTML = toHTML(s) } } unselectBase() PR.prettyPrint() }
{ "repo_name": "efpage/DML", "stars": "26", "repo_language": "JavaScript", "file_name": "DML_onlineEditor.js", "mime_type": "text/x-c++" }
/* * Date Format 1.2.3 * (c) 2007-2009 Steven Levithan <stevenlevithan.com> * MIT license * * Includes enhancements by Scott Trenda <scott.trenda.net> * and Kris Kowal <cixar.com/~kris.kowal/> * * Accepts a date, a mask, or a date and a mask. * Returns a formatted version of the given date. * The date defaults to the current date/time. * The mask defaults to dateFormat.masks.default. */ var dateFormat = function () { var token = /d{1,4}|m{1,4}|yy(?:yy)?|([HhMsTt])\1?|[LloSZ]|"[^"]*"|'[^']*'/g, timezone = /\b(?:[PMCEA][SDP]T|(?:Pacific|Mountain|Central|Eastern|Atlantic) (?:Standard|Daylight|Prevailing) Time|(?:GMT|UTC)(?:[-+]\d{4})?)\b/g, timezoneClip = /[^-+\dA-Z]/g, pad = function (val, len) { val = String(val); len = len || 2; while (val.length < len) val = "0" + val; return val; }; // Regexes and supporting functions are cached through closure return function (date, mask, utc) { var dF = dateFormat; // You can't provide utc if you skip other args (use the "UTC:" mask prefix) if (arguments.length == 1 && Object.prototype.toString.call(date) == "[object String]" && !/\d/.test(date)) { mask = date; date = undefined; } // Passing date through Date applies Date.parse, if necessary date = date ? new Date(date) : new Date; if (isNaN(date)) throw SyntaxError("invalid date"); mask = String(dF.masks[mask] || mask || dF.masks["default"]); // Allow setting the utc argument via the mask if (mask.slice(0, 4) == "UTC:") { mask = mask.slice(4); utc = true; } var _ = utc ? "getUTC" : "get", d = date[_ + "Date"](), D = date[_ + "Day"](), m = date[_ + "Month"](), y = date[_ + "FullYear"](), H = date[_ + "Hours"](), M = date[_ + "Minutes"](), s = date[_ + "Seconds"](), L = date[_ + "Milliseconds"](), o = utc ? 0 : date.getTimezoneOffset(), flags = { d: d, dd: pad(d), ddd: dF.i18n.dayNames[D], dddd: dF.i18n.dayNames[D + 7], m: m + 1, mm: pad(m + 1), mmm: dF.i18n.monthNames[m], mmmm: dF.i18n.monthNames[m + 12], yy: String(y).slice(2), yyyy: y, h: H % 12 || 12, hh: pad(H % 12 || 12), H: H, HH: pad(H), M: M, MM: pad(M), s: s, ss: pad(s), l: pad(L, 3), L: pad(L > 99 ? Math.round(L / 10) : L), t: H < 12 ? "a" : "p", tt: H < 12 ? "am" : "pm", T: H < 12 ? "A" : "P", TT: H < 12 ? "AM" : "PM", Z: utc ? "UTC" : (String(date).match(timezone) || [""]).pop().replace(timezoneClip, ""), o: (o > 0 ? "-" : "+") + pad(Math.floor(Math.abs(o) / 60) * 100 + Math.abs(o) % 60, 4), S: ["th", "st", "nd", "rd"][d % 10 > 3 ? 0 : (d % 100 - d % 10 != 10) * d % 10] }; return mask.replace(token, function ($0) { return $0 in flags ? flags[$0] : $0.slice(1, $0.length - 1); }); }; }(); // Some common format strings dateFormat.masks = { "default": "ddd mmm dd yyyy HH:MM:ss", shortDate: "m/d/yy", mediumDate: "mmm d, yyyy", longDate: "mmmm d, yyyy", fullDate: "dddd, mmmm d, yyyy", shortTime: "h:MM TT", mediumTime: "h:MM:ss TT", longTime: "h:MM:ss TT Z", isoDate: "yyyy-mm-dd", isoTime: "HH:MM:ss", isoDateTime: "yyyy-mm-dd'T'HH:MM:ss", isoUtcDateTime: "UTC:yyyy-mm-dd'T'HH:MM:ss'Z'" }; // Internationalization strings dateFormat.i18n = { dayNames: [ "Sun", "Mon", "Tue", "Wed", "Thu", "Fri", "Sat", "Sunday", "Monday", "Tuesday", "Wednesday", "Thursday", "Friday", "Saturday" ], monthNames: [ "Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep", "Oct", "Nov", "Dec", "January", "February", "March", "April", "May", "June", "July", "August", "September", "October", "November", "December" ] }; // For convenience... Date.prototype.format = function (mask, utc) { return dateFormat(this, mask, utc); };
{ "repo_name": "efpage/DML", "stars": "26", "repo_language": "JavaScript", "file_name": "DML_onlineEditor.js", "mime_type": "text/x-c++" }
/**************************************************************************************** DML-Table with extended fuctions (c) 30.5.2021 DML_table: extends the standard HTML tables can be used in HTML as <table is DML_table> Create Table of fixed size mx,my. If showHead==false, table head is not created supports a rowId, that contains a value for each row. Cell or row hover with CSS only properties read values table.rowCount table.colCount table.selectedRowid table.selectedRowvalue table.selectedCellvalue() Set or read values table.head = [...] table.body = [[.],[.],[.]], if only one column [...] table.rowid = [] table.rowValue = [] functions table.cell(x,y): full cell access table.colStyle(1, "width: 150px; color: green; ") table.colStyle(["width: 20px","width: 120px","width: 55px; background-color: green;"]) table.put(mx, my, head, body): rebuild buildTable(mx, my, showHead, attrib, headAttrib) setrowvalid(row,status) // set status for a row. Internal array : _rowvalid getrowvalid(row) options: head || [] // set header data [...] body || [] // set body data [[.],[.],[.]], if only one column [...] tableAttrib = {} or "" // Whole table attributes headAttrib = {} or "" // header line attributes bodyAttrib = {} or "" // TBody attributes for body 0 cellAttrib = {} or "" // TD-Attribute showHead = true onClick || null // Events onSelect || null canSelect || false rowSelect || true selectColor || "silver" invalidSelectColor: "#CC6060", invalidColor: "#FF8070", selectedRow || -1 selectedCol || -1 rowid || []; // Optional row Id rowvalue || []; // Optional content of a row ****************************************************************************************/ function table(mx, my, options = {}) { return new _table(mx, my, options) } class _table extends HTMLTableElement { constructor(mx, my, options) { super() // Create table element this._tabletimeout = {} if (options == false) { this.showHead = false options = {} } else { this.showHead = _init(options.showHead, true) // Tablehead } setOptions(this, options, { tableAttrib: "border: 1px solid black; ", headAttrib: "background-color: silver; ", bodyAttrib: "", cellAttrib: "", onCellClick: null, canSelect: false, selectColor: "silver", invalidSelectColor: "#CC6060", invalidColor: "#FF8070", selectedRow: -1, selectedCol: -1 }) this.rowSelect = _init(options.rowSelect, true) this._rowid = options.rowid || []; // Optional row array this._rowvalue = options.rowvalue || []; // Optional content of a array this._rowvalid = options.rowvalid || []; // Flag to make indicate row is valid array // Variablen // Select-Funktion this.onclick = (e) => { if (e.srcElement.cellIndex<0) return; let col = e.srcElement.cellIndex; let row = e.srcElement.parentElement.rowIndex; this.select(col, row) } // this.doSelect = (e) => { this.doSelect = (e) => { if (!this.canSelect) return let el = e.target let row = el.parentElement.rowIndex let col = el.cellIndex this.select(col, row) } // Create table setAttributes(this, this.tableAttrib) this.buildTable(mx, my) // set content if (options.head) this.head = options.head if (options.body) this.body = options.body // Select before setting onSelect this.select(this.selectedCol, this.selectedRow) if (options.onSelect) // wait til end to set this.onSelect = options.onSelect; this.colorize(); // autobind(this) appendBase(this) } // end table() /*------------------------------------------------------ set complete rwoId as array ar ------------------------------------------------------*/ getrowvalid(i) { return arrayvalue(this._rowvalid, i, true); // Optional row Id } setrowvalid(i, value) { this._rowvalid[i] = value clearTimeout(this._tabletimeout) this._tabletimeout = setTimeout(() => { this.colorize(); }, 10); } /*------------------------------------------------------ Set colors according to selectedRow and getrowvalid ------------------------------------------------------*/ colorize() { //this.rows //let rows = el.parentElement.parentElement.childNodes for (let r in this.rows) { let ri = this.rows[r] let valid = this.getrowvalid(r) // check, if row is valid for (let i = 0; i < ri.childElementCount; i++) { if ((ri.rowIndex === this.selectedRow) && (this.rowSelect || i == this.selectedCol)) { // ri.cells[i].style.border = "solid 3px gray" if (valid) ri.cells[i].style.backgroundColor = this.selectColor else ri.cells[i].style.backgroundColor = this.invalidSelectColor } else { //ri.cells[i].style.border = null if (valid) ri.cells[i].style.backgroundColor = null else ri.cells[i].style.backgroundColor = this.invalidColor } } } } /*------------------------------------------------------ ------------------------------------------------------*/ buildTable(mx, my) { let x, y, th, tb, td this.innerHTML = "" // delete Table if (this.showHead) { th = createAt(this, "THEAD"); for (x = 0; x < mx; x++) createAt(th, "th", this.headAttrib).innerHTML = "&nbsp" } tb = createAt(this, "TBODY", this.bodyAttrib) for (y = 0; y < my; y++) { let tr = createAt(tb, "TR") for (x = 0; x < mx; x++) { td = createAt(tr, "TD", this.cellAttrib) td.innerHTML = "&nbsp" td.onclick = this.onCellClick } } } put(mx, my, head, body) { this.buildTable(mx, my); if (head) this.head = head if (body) this.body = body } /*------------------------------------------------------ return cell reference ------------------------------------------------------*/ cell(x, y) { let r = this.rows[y] return r.cells[x] } /*------------------------------------------------------ set style for column ------------------------------------------------------*/ colStyle(c, w, includeHead = false) { if (Array.isArray(c)) { let n = Math.min(c.length, this.colCnt) for (let k = 0; k < n; k++) { let w2 = c[k] for (let i = 0; i < this.rows.length; i++) { this.rows[i].childNodes[k].style.cssText = w2 } if (includeHead) this.head[k].style.cssText = w2 } } else { for (let i = 0; i < this.rows.length; i++) { this.rows[i].childNodes[c].style.cssText = w } if (includeHead) if (this.tHead) this.tHead.childNodes[c].style.cssText += w } } /*------------------------------------------------------ Select one gol ------------------------------------------------------*/ select(col, row) { this.selectedRow = row this.selectedCol = col this.colorize() if (this.onSelect) this.onSelect(col, row, this) } /*------------------------------------------------------ Kurzform für Zeilen selektieren. Erfordert rowSelect=true ------------------------------------------------------*/ selectRow(row) { this.select(0, row) } /*======================================================== properties ========================================================*/ get rowCount() { if (this.rows) return this.rows.length return 0 } get colCount() { if (this.rows.length == 0) return 0 return this.rows[0].childElementCount } /*------------------------------------------------------ head ------------------------------------------------------*/ get head() { let ret = [] for (let i in this.tHead.childNodes) { let n = this.tHead.childNodes[i] ret.push(n.innerHTML) } return ret } set head(ar) { if (this.showHead) { this.tHead.innerHTML = "" for (let i in ar) createAt(this.tHead, "th", this.headAttrib).innerHTML = ar[i] } } /*------------------------------------------------------ cells: Get or set 2d-Array ------------------------------------------------------*/ get body() { let r, ret = [] for (let y = 0; y < this.rowCount; y++) { r = [] let n = Array.from(this.rows[y].childNodes) for (let i in n) { let x = n[i] r.push(x.innerHTML) } ret.push(r) } return ret } set body(ar) { if (1 == this.colCount) { for (let y = 0; y < ar.length; y++) { if (y < this.rowCount) this.cell(0, y).innerHTML = ar[y] } } else { for (let y = 0; y < Math.min(ar.length, this.rowCount); y++) { for (let x = 0; x < Math.min(ar[y].length, this.colCount); x++) { this.cell(x, y).innerHTML = ar[y][x] } } } } /*------------------------------------------------------ set complete rwoId as array ar, get rowid array referene get selectedrowid als value ------------------------------------------------------*/ get rowid() { return this._rowid; // Optional row Id } set rowid(ar) { this._rowid = ar } /*------------------------------------------------------ selectedRowid ------------------------------------------------------*/ get selectedRowid() { if (this.selectedRow < 0) return "" return this._rowid[this.selectedRow] } /*------------------------------------------------------ set complete rwoId as array ar ------------------------------------------------------*/ get rowvalue() { return this._rowvalue; // Optional row Id } set rowvalue(ar) { this._rowvalue = ar } /*------------------------------------------------------ selectedRowvalue ------------------------------------------------------*/ get selectedRowvalue() { return this._rowvalue[this.selectedRow] } /*------------------------------------------------------ selectedCellvalue ------------------------------------------------------*/ get selectedCellvalue() { if ((this.selectedCol < 0) || (this.selectedRow < 0)) { return "" } let c = this.cell(this.selectedCol, this.selectedRow) return c.textContent } /*------------------------------------------------------ selectedCell ------------------------------------------------------*/ get selectedCell() { return this.cell(this.selectedCol, this.selectedRow) } } customElements.define('dml-table', _table, { extends: "table" })
{ "repo_name": "efpage/DML", "stars": "26", "repo_language": "JavaScript", "file_name": "DML_onlineEditor.js", "mime_type": "text/x-c++" }
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{ "repo_name": "efpage/DML", "stars": "26", "repo_language": "JavaScript", "file_name": "DML_onlineEditor.js", "mime_type": "text/x-c++" }
/*------------------------------------------------------ Menue im aktuellen Kontext erzeugen Topics definiert die Struktur als JSON: sideMenue( { "Top1": { "Sub1": "test()", "Sub2": "#link2", "Sub3": "#link3" }, "Top2": "#link2", "Top3": { "Sub1": { "SubSub1": "#link1", "SubSub2": "#link2", }, "Sub2": "#link2", }, "Top4": "#link4", "Top5": "#link5" }); Key ist der Text es Menue-Eintrages, Value der Link Wird eine Klammer mit angegeben, dann wird der link als Funktionsaufruf interpretiert. ------------------------------------------------------*/ function sideMenue(topics, _style="") { return new _sideMenue(topics, _style); } class _sideMenue { /*------------------------------------------------------ constructor: Menue rekursiv aufbauen ------------------------------------------------------*/ constructor(topics, _style="") { this.base = div(""); // Invisible base area d = this.base; selectBase(this.base); this._mkMenue(topics, 0, _style); //--> Aufbau // Callback Mouse leaves area this.base.onmouseleave = (e) => { let src = this.base.firstElementChild; do { if (Number(src.name) > 0) { src.style.display = "none"; } src = src.nextSibling; } while (src); }; // return this.base; } /*------------------------------------------------------ Menuebaum rekursiv erzeugen ------------------------------------------------------*/ _mkMenue(topics, level,_style) { Object.keys(topics).map(key => { // alle Topics durchgehen let s = "text-align: left;" + "padding: 5px; " + "width: 100%;" + "display: inline-block; " + "text-decoration: none;" // + "transition: opacity 0.3s;" + _style if (level > 0) { s += "margin-left: " + 10 * level + "px;"; s += "display: none;" } // else s += "z-index: 0;" let lnk; let href = topics[key] if (typeof (href) == "string") { if (href.includes("()")){ lnk = link(key, "javascript:"+href,s); // Aktiven functions-Link erzeugen } else lnk = link(key, href, s); // URL link erzeugen } else { lnk = link(key, "javascript:void(0);", s); // Element für Submenue this._mkMenue(href, level + 1,_style); // ---> Rekursion } lnk.name = level; /*------------------------------------------------------ Mouse enter Callback function ------------------------------------------------------*/ lnk.onmouseenter = (e) => { let src = e.srcElement; let level = Number(src.name); while (src.nextSibling) { let sib = src.nextSibling; let newLevel = Number(sib.name); if (newLevel <= level) return; if (newLevel == level + 1) { sib.style.display = "inline-block"; } src = sib; } } }) } }
{ "repo_name": "efpage/DML", "stars": "26", "repo_language": "JavaScript", "file_name": "DML_onlineEditor.js", "mime_type": "text/x-c++" }
/*------------------------------------------------------ Menue im aktuellen Kontext erzeugen Topics definiert die Struktur als JSON: DML_indexMenue Key ist der Text es Menue-Eintrages, Value der Link Wird eine Klammer mit angegeben, dann wird der link als Funktionsaufruf interpretiert. ------------------------------------------------------*/ function DML_indexMenue(parent, mainpage, topics, _style = "") { return new _sideMenue(parent, mainpage,topics, _style); } class _sideMenue { /*------------------------------------------------------ constructor: Menue rekursiv aufbauen das Menue wird in parent aufgebaut, Zielseite für scrolling is mainpage ------------------------------------------------------*/ constructor(parent, mainpage, topics, _style = "") { this.base = selectBase(div("")); // Invisible base area mainpage.onscroll = () => { for (let i in this.items) { let t = this.items[i].link.getBoundingClientRect().top if (t > screen.height / 3) { this.select(Math.max(0, i - 1)) return } } } this._mkMenue(parent, topics, _style); //--> Aufbau // Callback Mouse leaves area this.base.onmouseleave = (e) => { return let src = this.base.firstElementChild; do { if (src.level > 1) { src.style.display = "none"; } src = src.nextSibling; } while (src); }; unselectBase(); } /*------------------------------------------------------ Menuebaum erzeugen ------------------------------------------------------*/ _mkMenue(parent, topics, _style) { // alle Topics durchgehen selectBase(parent) this.items = []; for (let i in topics) { let item = topics[i] let s = "text-align: left;" + "display: block; " + "text-decoration: none;" + "overflow: hidden;" +"margin-left: " + 10 * item.level + "px;"; // + "transition: opacity 0.3s;" if (item.level > 1) { // s += "display: none;" } let lnk = span(item.text, _style); // URL link erzeugen lnk.classList.add("Level" + item.level); lnk.Level = item.level lnk.link = item.link; lnk.level = item.level; lnk.nr = i; setAttributes(lnk, s) this.items[i] = lnk // save internal list for requests /*------------------------------------------------------ Mouse enter Callback function ------------------------------------------------------*/ /* lnk.onmouseenter = (e) => { let src = e.srcElement; this.select(src.nr) } */ lnk.onclick = (e) => { e.srcElement.link.scrollIntoView({ behavior: "smooth" }); } } unselectBase() } /*------------------------------------------------------ find list index of target ------------------------------------------------------*/ findIndex(target) { for (let i in this.items) { if (this.items[i].link == target) return (i) } return (-1) } /*------------------------------------------------------ Select one item ------------------------------------------------------*/ select(nr) { // Reset all items let item for (let _i in this.items) { item = this.items[_i] item.style.backgroundColor = "" } // Mark item[nr] this.items[nr].style.backgroundColor = "rgba(0,0,0,0.5)" let level = this.items[nr].level; return //search previous main item let i = nr while ((i > 0) && (this.items[i].level > 1)) i--; // hide tree above /* for (let k = 0; k < i; k++) if (this.items[k].level > 1) { this.items[k].style.display = "none" this.items[k].style.opacity = 0; } */ // Make tree visible until nr for (; i < nr; i++) { this.items[i].style.display = "block" this.items[i].style.opacity = 1; } // Make next lower level visibe while (this.items[++i].level > level) { this.items[i].style.display = "block" this.items[i].style.opacity = 1; } while (this.items[++i].level == level) { this.items[i].style.display = "block" this.items[i].style.opacity = 1; } // Hide all after for (; i < this.items.length; i++) if (this.items[i].level > 1) { this.items[i].style.display = "none" this.items[i].style.opacity = 0; } } }
{ "repo_name": "efpage/DML", "stars": "26", "repo_language": "JavaScript", "file_name": "DML_onlineEditor.js", "mime_type": "text/x-c++" }
/* DML.js (C) 28/07/2021 Eckehard Fiedler Create dynamic Websites on the fly. Content can be created completely or as a combination with standard HTML-Elemtents. General page structure should be: <head> <meta charset="utf-8"> <title>title</title> <style> ... some CSS stuff </style> <script type="text/javascript" src="create.js"></script> </head> <body> ... Your HTML-Content, referenced Element with ID: <h1 id="myHeader">My Header</h1> <script> // =============== references =============== let myHeader = elementById("myHeader"); // Get from HTML // =============== letiables =============== ... define global letiables here // =============== dynamic created HTML =============== ... create new contents // =============== functions =============== ... all actions defined here </script> </body> Object Creation =============== First, an html-Element can be selected as base element: selectBase(ID) (ID can be an element ID or en element reference) unselectBase() -> restor previous base point if no element was selected or se selection was remove with select(""), the document body is used, elements are appended to the end of the document. HTML Elements can be added by let c = appendBase(obj) New Objects can be created with: let c = create(typ,attr,content) Create element with contents (either text or other object) As most elements will be added to the document directly, there is a short form: let c = make(typ, attr ,content), that combines appendBase(create(...) Example: Create an h1-Object: ============================ make("h1","Hello World")) make/appendBase returns the object reference, so any DOM-Property can be set on the fly as make("h1","Hello World").style.color = "#aa0000" or: let c = make("h1","Hello World") c.style.color = "#aa0000" or let h = make("h1","Hello World") with (h.style) { color = "#A00000" border = "solid #006F00" backgroundColor = "#aaaaaa" width = "50%" borderRadius = "30px" textAlign = "center" } It´s easy to copy a comlete style set like this: v2.style.cssText = v1.style.cssText Some functions for list and table creation are provided, that create new or set already defined list/table elements from arrays. We also very proudly present the most simple AJAX-request: httpGet(url, par1...).response = function(s, par1...) { ...do something } As function(s) is called delayed, it may not be able to access dynamic elements (e.g. a loop counter). Therefore, parameters par1-par3 can be set to transfer state informations at the time, httpGet ist called. */ /* ---------------------------------------------------------------------------- global variables ---------------------------------------------------------------------------- */ var _base // Global element stores current insert position. If empty, elements are added at the end of document. var _baseStack = [] // Stack for storing _base positions var _block = false // global var for blocking loaders var _onresizeElements = [] // global list for onresize handlers /* ---------------------------------------------------------------------------- constants ---------------------------------------------------------------------------- */ const svgref = "http://www.w3.org/2000/svg"; const PI2 = 2 * Math.PI const _style = "style" const _bold = "font-weight: bold;" const _italic = "font-style: italic;" const _fs = "font-size: " const _bigtext = "font-size: 130%;" const _bg = "background-color: " const _bgred = "background-color: red;" const _bgred2 = "background-color: #f50;" const _bgy = "background-color: #ffc;" const _bggreen = "background-color: #695;" const _bgblue = "background-color: blue;" const _bgorange = "background-color: #fc0;" const _bgsilver = "background-color: silver;" const _bgyellow = "background-color: #ffffee;" const _bgwhite = "background-color: white;" const _bgblack = "background-color: black;" const _bgtrans = "background-color: rgba(0,0,0,0.05);" const _bgwtrans = "background-color: rgba(255,255,255,0.5);" const _red = "color: red;" const _blue = "color: blue;" const _navy = "color: navy;" const _white = "color: white;" const _yellow = "color: yellow;" const _center = "text-align: center;" const _right = "text-align: right;" const _top = "vertical-align: top;" const _bottom = "vertical-align: bottom;" const _middle = "vertical-align: middle;" const _flexmiddle = "display: flex; align-items: center;" const _blur = "filter: blur(2px);" const _shadow = "box-shadow: 3px 3px 4px gray;" const _bigshadow = "box-shadow: 6px 6px 8px gray;" const _smallShadow = "box-shadow: 2px 2px 3px gray;" const _txtShadow = "text-shadow: 5px 6px 4px rgba(0,0,0,0.44);" const _bigTxtShadow = "text-shadow: 8px 13px 5px rgba(0,0,0,0.44);" const _border = "border: thin solid silver;" const _noborder = "border: 0px;" const _radius = "border-radius: 8px;" const _miniRadius = "border-radius: 5px;" const _padding = "padding: 2px;" const _tpadding = "padding: 1px 5px 1px 5px;" const _bigPadding = "padding: 10px;" const _smallMargin = "margin: 2px;" const _margin = "margin: 5px;" const _marginLeft = "margin-left: 5px;" const _marginRight = "margin-right: 5px;" const _bigMarginLeft = "margin-left: 10px;" const _bigMarginRight = "margin-right: 10px;" const _inShadow = "-webkit-box-shadow: inset 5px 5px 3px -2px rgba(0,0,0,0.64);" + "-moz-box-shadow: inset 5px 5px 3px -2px rgba(0,0,0,0.64);" + "box-shadow: inset 5px 5px 3px -2px rgba(0,0,0,0.64);" // Combined styles const _box = _bgwhite + _border + _shadow const _ybox = _border + _shadow + _bg + "#ffc;" // Flex Layout definitions: At leas 3 columns without header const _bodyFlex = "display: flex; flex-flow: row nowrap; justify-content: space-between;" const _sideFlex = "flex-shrink: 0.5;" // side will shrink less const _columnFlex = "flex-grow: 0; display: flex; flex-flow: row nowrap;" const _flex = "display: flex;" const _flexSpaceAround = "display: flex; justify-content: space-around;" const _flexSpaceBetween = "display: flex; justify-content: space-around;" // Use width: calc(100% - 200px); for expandable element const _sticky = "position: -webkit-sticky; position: sticky; top: 0px;" const _btnstyle = "width: 100px; height: 24px;" + " display: inline-flex; align-items: center;" + " justify-content: center; margin: 8px;" const _flybox = "position: fixed;" + "padding: 6px;" + "box-shadow: 5px 5px 6px silver;" + "border-radius: 8px;" + "background-color: #ffffff;" + "border: thin solid gray;" + "left: 50%;" + "top: 50%;" + "transform: translate(-50%, -50%);" /**************************************************************************************** Spracheinstellung Voreinstellung ist Deutsch. Nach Aufruf von getLanguage(...) wird die Sprache umgestellt mit L(["de","en","fr"]) ****************************************************************************************/ let _language = 0 const de = 0 const en = 1 const fr = 2 let languages = ["de", "en", "fr"] // Get language number from string function getLanguage(s) { let s2 = s.toLowerCase(s).substr(1, 2) for (let i in languages) { if (s.toLowerCase(s) == languages[i]) return _language = i } } /*------------------------------------------------------ Deliver language specific string can be L(["de","en","fr"]) or L("de","en","fr") ------------------------------------------------------*/ function L(s, sen, sfr) { if (Array.isArray(s)) { return s[_language] } if (_language == 1) if (sen) return sen if (_language == 2) if (sfr) return sfr return s } /**************************************************************************************** Helper functions ****************************************************************************************/ /*------------------------------------------------------ automatically binds all methods to the class instance !!! important !!! // Fix autobind (function autobind(self, proto){ for(let key of Object.getOwnPropertyNames( proto )){ if(key !== 'constructor') self[key] = self[key].bind(self); } let parentProto = Object.getPrototypeOf(proto); if (parentProto !== Object.prototype){ autobind(self, parentProto); } })(this, this.constructor.prototype); ------------------------------------------------------*/ function autobind(instance) { let proto = Object.getPrototypeOf(instance); let propertyNames = Object.getOwnPropertyNames(proto); for (let name of propertyNames) { let value = proto[name]; if ((typeof value === 'function')) { if (name !== 'constructor') instance[name] = proto[name].bind(instance); } } } /*------------------------------------------------------ immediate call. Replaces (f())() can be used to check, if f is a function ------------------------------------------------------*/ function call(f, ...args) { if (f instanceof Function) return f(...args) } /*------------------------------------------------------ dynamic script import gets single moduleName or arra of Modulenames for dynamic import calls callback, after last module is loaded prevents double import by creating a semaphore variable from filename _import(["..\\lib\\DML_table.js","..."], callback) _import(["..\\lib\\DML_table.js","..."]).ready = () =>{ } ------------------------------------------------------*/ function _import(moduleNames, callback) { if (typeof (moduleNames) == 'string') moduleNames = [moduleNames] let count = moduleNames.length for (i in moduleNames) { let moduleName = moduleNames[i]; let varName = extractFilename(moduleName).replace('.', '_'); if (typeof (window[varName]) == 'undefined') { window[varName] = varName // define a semaphore let script = document.createElement('script'); script.src = moduleNames[i]; script.onload = () => { if (--count == 0) { if (callback) callback() } }; document.head.appendChild(script); //or something of the likes } else { // if one lib was defined, cancel import if (callback) { callback() return } } } } /*! loadCSS: load a CSS file asynchronously. [c]2014 @scottjehl, Filament Group, Inc. Licensed MIT */ function loadCSS(href, before, media) { "use strict"; // Arguments explained: // `href` is the URL for your CSS file. // `before` optionally defines the element we'll use as a reference for injecting our <link> // By default, `before` uses the first <script> element in the page. // However, since the order in which stylesheets are referenced matters, you might need a more specific location in your document. // If so, pass a different reference element to the `before` argument and it'll insert before that instead // note: `insertBefore` is used instead of `appendChild`, for safety re: http://www.paulirish.com/2011/surefire-dom-element-insertion/ var ss = window.document.createElement("link"); var ref = before || window.document.getElementsByTagName("script")[0]; ss.rel = "stylesheet"; ss.href = href; // temporarily, set media to something non-matching to ensure it'll fetch without blocking render ss.media = "only x"; // inject link ref.parentNode.insertBefore(ss, ref); // set media back to `all` so that the styleshet applies once it loads setTimeout(function () { ss.media = media || "all"; }); } /* ---------------------------------------------------------------------------- Create style Object {"style" : s} if either s1 or s2 is an object, style property is added to the object other parameter has to be a string "color: red; width: 100px" style("color: red;") -> {style: "color: red;"} style({"id":"test"},"color: red;") -> {"id":"test", style: "color: red;"} style("color: red;", {"id":"test"}) -> {"id":"test", style: "color: red;"} ----------------------------------------------------------------------------*/ function style(s1, s2) { let r = {} if (!s2) { r["style"] = s1 return r } if (typeof (s1) === "object") { r = s1 r["style"] = s2 } else { if (typeof (s2) === "object") r = s2 r["style"] = s1 } return r } /* ======================================================================= extract(): simplified version of jsonPath extracts an array of values from an array of objects, Simple subst for JsonPath filter is an object {"key1": "Value1", "key2": "Value2", ...} to define a subset where Key1=Value1 and Key2 = Value2... Result is an array of values from column resultKey if resultKey is an array, multiple keys can be extracted if filter is a string, extract returns array of values result = item[filter] =======================================================================*/ function extract(s, filter, resultKey) { // Parse result strings function strchk(k) { // if (k.constructor === String) // k=JSON.parse(k) return k } let t = [], k; // empty array as return let doArray = false; if (resultKey) doArray = Array.isArray(resultKey); // Check result key if (typeof (filter) == "object") { if (Object.keys(filter).length > 0) { // Filter was set let keys = Object.keys(filter) let values = Object.values(filter) let doPush = true s.forEach(function (item) { // Ceck, if all filters are in item doPush = true for (let i = 0; i < keys.length; i++) { if (item[keys[i]] != values[i]) doPush = false } if (doPush) { if (resultKey) { let o = {} // Output value if (doArray) { // 1: copy multiple keys for (let _i in resultKey) { let key = resultKey[_i] k = item[key] o[key] = strchk(k) } } else { k = item[resultKey] o = strchk(k) // 2: copy value of key element } t.push(o) } else t.push(item); // 3: no key, copy item } }) return (t) } else { // Filter empty -> Fast copy without filter s.forEach(function (item) { if (resultKey) { let o = {} // Output value if (doArray) { // 1: copy multiple keys for (let _i in resultKey) { let key = resultKey[_i] k = item[key] o[key] = strchk(k) } } else { k = item[resultKey] o = strchk(k) // 2: copy value of key element } t.push(o) } else t.push(item); // or copy item }) return t } } else { // if Filter == string, use as key for (let _i in s) { item = s[_i] t.push(item[filter]) // Copy s[resultKey] } return t } } /*------------------------------------------------------ fitSelector: return only elements of a that exist in b a = {...} and b {...} ------------------------------------------------------*/ function fitSelector(a, b) { if (a == null) return if (b == null) return let c = {} let ka = Object.keys(a) let kb = Object.keys(b) for (let i in ka) { let k = ka[i] if (kb.includes(k)) c[k] = a[k] } return (c) } /*------------------------------------------------------ extractFit(): like extract, but fits filter to existing keys in s[0] ------------------------------------------------------*/ function extractFit(s, filter, resultKey) { let fs = fitSelector(filter, s[0]) return extract(s, fs, resultKey) } /*------------------------------------------------------ joinOver: Join two objects overwriting same properties with second ------------------------------------------------------*/ function joinOver(first, second) { if (!second) return first if (!first) return second const keys = Object.keys(second) for (let i in keys) { let k = keys[i]; first[k] = second[k] } return first } /*------------------------------------------------------ My Pretty Printer Remove linebreaks in short arrays ------------------------------------------------------*/ function pretty(s) { let js = JSON.stringify(s, null, 4) let out = "", A = " " let mode = 0 for (let _B in js) { let B = js[_B] if (B == "[") mode = 1 if ("]{}".includes(B)) mode = 0 if (mode == 1) { if (B != '\n' && B != '\r') { if (B != ' ') out += B /* else if (A != ' ') out += B*/ } A = B } else out += B } return out } /*------------------------------------------------------ print with <pre> ------------------------------------------------------*/ function addPre(s) { return "<pre>" + pretty(s) + "</pre>" } /*------------------------------------------------------ Math-shortcuts ------------------------------------------------------*/ function round(f, n = 0) { m = Math.pow(10, n) return (Math.round(f * m) / m) } // trunc: integer value function trunc(x) { return Math.trunc(x) } // Floor: next lower value function floor(x) { return Math.floor(x) } function abs(x) { return Math.abs(x) } function exp10(r) { return Math.pow(10, r) } function log10(r) { return Math.log10(r) } /*------------------------------------------------------ check, if x in range L to H ------------------------------------------------------*/ function inRange(x, L, H) { if (x < L) return false if (x > H) return false return true } /*------------------------------------------------------ force result to range L to H ------------------------------------------------------*/ function constrain(x, L, H) { if (x < L) return L if (x > H) return H return x } /*------------------------------------------------------ Max/Min-Werte berechnen ------------------------------------------------------*/ function min(a, b) { return Math.min(a, b) } function max(a, b) { return Math.max(a, b) } function getMin(x0, xmin) { xmin = Number(xmin) if (x0) return Math.min(x0, xmin) else return xmin } function getMax(x1, xmax) { xmax = Number(xmax) if (x1) return Math.max(x1, xmax) else return xmax } /*------------------------------------------------------ make xy-object ------------------------------------------------------*/ function p(x, y) { return { x: x, y: y } } /*------------------------------------------------------ make pixel-coordinate, accepts "150px", 150 or 150.0 ------------------------------------------------------*/ function px(x) { if (typeof (x) == "string") return x return Math.round(x) + 'px' } /*------------------------------------------------------ read pixel coordinate as number ------------------------------------------------------*/ function getpx(x) { if (typeof (x) == "string") { x = x.replace('px', '').trim() return Number(x) } return x } /*------------------------------------------------------ get value from array of default, if not defined ------------------------------------------------------*/ function arrayvalue(ar, i, def) { let a = ar[i] if (typeof a === 'undefined') return def else return ar[i] } /**************************************************************************************** special functions ****************************************************************************************/ /*------------------------------------------------------ smooth transition 0..1, ------------------------------------------------------*/ function smooth(x) { if (x < 0) return 0 else if (x > 1) return 1 else return x * x * (3 - x - x); // 3.683 } /*------------------------------------------------------ quadratic transition 0..1, ------------------------------------------------------*/ function smooth2(x) { if (x < 0) return 0 else if (x > 1) return 1 else if (x < 0.5) return 2 * x * x else { x = 1 - x; return 1 - 2 * x * x; } } /*------------------------------------------------------ return the filename from full path ------------------------------------------------------*/ function extractFilename(name) { if (name.includes('\\')) return name.substring(name.lastIndexOf('\\') + 1) else return name.substring(name.lastIndexOf('/') + 1) } /*------------------------------------------------------ Returns a function, that, as long as it continues to be invoked, will not be triggered. The function will be called after it stops being called for N milliseconds. If `immediate` is passed, trigger the function on the leading edge, instead of the trailing. var myEfficientFn = debounce(function() { // All the taxing stuff you do }, 250); window.addEventListener('resize', myEfficientFn); ------------------------------------------------------*/ function debounce(func, wait, immediate) { var timeout; return function () { var context = this, args = arguments; var later = function () { timeout = null; if (!immediate) func.apply(context, args); }; var callNow = immediate && !timeout; clearTimeout(timeout); timeout = setTimeout(later, wait); if (callNow) func.apply(context, args); }; }; /*------------------------------------------------------ find out, if page is shown on touch device ------------------------------------------------------*/ function isTouchDevice() { return ('ontouchstart' in window) || (navigator.maxTouchPoints > 0) || (navigator.msMaxTouchPoints > 0); } /*------------------------------------------------------ check for mobile device ------------------------------------------------------*/ function isMobileDevice() { if (navigator.userAgent.indexOf("Mobile") > 0) { return true; } else { return false; } } /*------------------------------------------------------ use def if par is not defined, for initializations (as || is not working on zero params) ------------------------------------------------------*/ function _init(par, def) { if (typeof (par) == 'undefined') return def else return par } /*------------------------------------------------------ Quick default initialization Checks, if options are set. if not, defaults are used sets only values that are present in defaults call: setOptions(this,options,{low: 10, high: 100,...}) ------------------------------------------------------*/ function setOptions(target, options, defaults) { let keys = Object.keys(defaults) for (let i in keys) { let k = keys[i]; if (typeof (options[k]) != 'undefined') target[k] = options[k] else target[k] = defaults[k] } } /*------------------------------------------------------ Make Object Draggable ------------------------------------------------------*/ function dragElement(el, install = true) { let onAfterDrag = null let active = false let currentX, currentY let initialX, initialY let xOffset = 0, yOffset = 0 // if install == false -> remove event if (!install) { el.removeEventListener("touchstart", dragStart) el.removeEventListener("mousedown", dragStart) return } el.addEventListener("touchstart", dragStart, false) el.addEventListener("mousedown", dragStart, false) function dragStart(e) { e = e || window.event; if (el != e.target) return // Leave, if element is child of elmnt if (e.offsetY > 25) return // only top 20 Pixel active if (e.type === "touchstart") { initialX = e.touches[0].clientX - xOffset initialY = e.touches[0].clientY - yOffset } else { initialX = e.clientX - xOffset initialY = e.clientY - yOffset } // if (e.target === el) { active = true document.addEventListener("touchend", dragEnd, false) document.addEventListener("touchmove", drag, false) document.addEventListener("mouseup", dragEnd, false) document.addEventListener("mousemove", drag, false) document.body.style.cursor = "move"; // } } function dragEnd(e) { initialX = currentX initialY = currentY active = false document.removeEventListener("touchend", dragEnd, false) document.removeEventListener("touchmove", drag, false) document.removeEventListener("mouseup", dragEnd, false) document.removeEventListener("mousemove", drag, false) document.body.style.cursor = "default"; } function drag(e) { if (active) { e.preventDefault() if (e.type === "touchmove") { currentX = e.touches[0].clientX - initialX currentY = e.touches[0].clientY - initialY } else { currentX = e.clientX - initialX currentY = e.clientY - initialY } xOffset = currentX yOffset = currentY setTranslate(currentX, currentY, el) if (onAfterDrag) call(onAfterDrag) } } function setTranslate(xPos, yPos, el) { el.style.transform = "translate3d(" + xPos + "px, " + yPos + "px, 0)" } return this } /**************************************************************************************** General Functions: selectBase: select new base point for object creation popBase: restore previous base create: create free Elemtent appendBase: Add new element at base point make: appendBase(create(typ, attrib, c)) - typ: html-object type, e.g. "button" - attrib: array of attributes {"key":"value",...} - c: Text of object to appendBase, can be used for quick creation: make("div",{},"Hello world") => Div with content, c can be element ****************************************************************************************/ /*------------------------------------------------------ Select new base element for object creation returns the new base for further usage, e.g. let myDiv = selectBase(div()) saves old base with pushBase(), restore with popBase() Check Stack mismatch: let l = baseStackLength() SelectBase(...) .... unselectBase(l) ------------------------------------------------------*/ function selectBase(ID) { // Save old base _baseStack.push(_base) if (_baseStack.length > 100) { alert("DML error: _baseStackOverflow in bushBase()") _baseStack = [] } // select new base, either ID or element if (typeof (ID) === 'string') _base = document.getElementById(ID) else _base = ID return _base } function sb(ID) { selectBase(ID) } // Alias shortcut /*------------------------------------------------------ read curent _base ------------------------------------------------------*/ function getBase() { return _base } /*------------------------------------------------------ get current stack position ------------------------------------------------------*/ function DMLgetSP() { return _baseStack.length } /*------------------------------------------------------ set Stackpointer for stored value ------------------------------------------------------*/ function DMLsetSP(SP, msg = "DMLsetSP") { if (SP > _baseStack.length) alert("Error in " + msg + ", Stack pointer below desired SP") else while (_baseStack.length > SP) _base = _baseStack.pop() return _baseStack.length } /*------------------------------------------------------ check, if current position is equal to chk chk is the stacklength before push, gives stack mismatch alert ------------------------------------------------------*/ function DMLchkSP(oldCnt = 0, txt = "Missing unselectBase()") { if (DMLgetSP() != oldCnt) alert("DML error: _baseStack size mismatch - " + txt + ", before: " + oldCnt + ", after: " + DMLgetSP()) return _baseStack.length } /*------------------------------------------------------ Stack-Prüfung für Einzelfunktionen f: ()=>{return new construct(xyz) } ------------------------------------------------------*/ function checkSP(f, txt) { let sp = DMLgetSP() let ret = f() DMLchkSP(sp, txt) return ret } /*------------------------------------------------------ restore last base from stack, returns Stack position. if cnt set, unselectBase is called cnt times oldCnt is provided for test purpose. If SP after unselectBase is different, error message is displayed ------------------------------------------------------*/ function unselectBase(cnt = 1, oldCnt = -1, msg = "unselectBase") { for (let i = 0; i < cnt; i++) { if (_baseStack.length <= 0) { alert("DML error: _baseStack empty in popBase()") break } else _base = _baseStack.pop() // restore old stack if (oldCnt >= 0) { if (DMLgetSP() != oldCnt) alert("DML error: _baseStack size mismatch - " + msg + ", before: " + oldCnt + ", after: " + DMLgetSP()) } } // if chk, check Stacklength after pop == chk return _baseStack.length } /* ---------------------------------------------------------------------------- Check, if node is element or string create span from string if c is object, return Object only ----------------------------------------------------------------------------*/ function chk_node(c) { if (typeof (c) == "string") { let ret = create("span") ret.innerHTML = c return ret // return textNode(c) } else return c } function textNode(s) { return document.createTextNode(s) } /* ---------------------------------------------------------------------------- Set JSON array as element attributes: {"class":"test", "style":"color: red; display: none"} If only a string is provided as attrib, it is assumed to be a style definition so "color: red;" is converted to {"style":"color: red;"} style strings are disassembled and set via style.setProperty() to prevent unwanted overwrite of style attributes. Style properties are always added, to remove use style.removeProperty() ---------------------------------------------------------------------------- */ function setAttributes(el, attrib) { if (typeof (attrib) == "string") // Check for string attribute attrib = { "style": attrib } // Convert strings to {"style",attrib} // set attributes if (typeof (attrib) == "object") { // Slpit JSON, set attributes individually Object.keys(attrib).forEach(function (key) { let val = attrib[key] if (key != "style") { el.setAttribute(key, val); // Normal attributes } else { // set Style parameters individually let ar = val.split(';'); // Split style Elements ar.forEach(function (pair) { if (pair) { // If not empty let kv = pair.split(":") if (kv.length == 2) { let p = kv[0].trim() let v = kv[1].trim() el.style.setProperty(p, v); // Set property } } }) } }) } return (el) } /*------------------------------------------------------ general short cut function. Creates an element and appends to existing object. Type is string like 'div' ------------------------------------------------------*/ function createAt(obj, typ, attrib) { let ret = document.createElement(typ) setAttributes(ret, attrib) obj.appendChild(ret) return ret } // ---------------------------------------------------------------------------- // create object with content and attributes. Content can be text or object // attrib is an JSON-object {"id":"test", "class": myclass} // ---------------------------------------------------------------------------- function create(typ, attrib, c) { let el = document.createElement(typ) if (c) { if (typeof (c) == 'string') el.innerHTML = c else el.appendChild(c); // sicherstellen, daß c objekttyp ist } if (attrib) { setAttributes(el, attrib) } return el } // ---------------------------------------------------------------------------- // Append object at current base // ---------------------------------------------------------------------------- function appendBase(c) { let e = chk_node(c) if (_base) _base.appendChild(e) else { // if (document.body) document.body.append(e) if (document.body) document.body.appendChild(e) else { console.log("null Body found: " + c.textContent) return } } return (e) } // ---------------------------------------------------------------------------- // Append object at current base without check for String // ---------------------------------------------------------------------------- function _appendBase(c) { if (_base) _base.appendChild(c) else document.body.append(c) return (c) } // ---------------------------------------------------------------------------- // make: create element with content and appendBase at current base // attributes is an JSON-object {"id":"test", "class": myclass} // ---------------------------------------------------------------------------- function make(typ, attrib, c) { return appendBase(create(typ, attrib, c)) } /*------------------------------------------------------ Add an array of prperties to obj; can be array of string or array of object addProps(obj,"option",["a","b","c"]) addProps(obj,"option",[{text:"a", value: 2},{text: "b", value: 2},{text: "c", value: 3}]) all Object keys are set as attributes of the "option", Value of the first key ("text") is used as option value ------------------------------------------------------*/ function addProps(obj, prop, ar) { if (!typeof (obj) == "object") alert("Error in addProps: First Parameter should be object") let w // ar.forEach((item) => { ar.forEach(function (item) { if (typeof (item) == "string") { obj.add(create(prop, {}, item)) // If array of stirngs, set as text } else if (typeof (item) == "object") { let o = create(prop, item, Object.values(item)[0]) // if array of objects, first value is used as child node text obj.add(o) } else { obj.add(create(prop, {}, JSON.stringify(item))) // Convert anythig else to STRING } }) } // Set new Options function putProps(obj, prop, ar) { obj.innerHTML = "" addProps(obj, prop, ar) } // ---------------------------------------------------------------------------- // Appends an array of prperties to obj as childs; // if key is set, ar[i].key is used // ---------------------------------------------------------------------------- function appendChilds(obj, prop, ar) { if (typeof (obj) != "object") alert("Error in appendChilds: First Parameter should be object") for (let w in ar) { let item = ar[w] // w = item obj.appendChild(create(prop, {}, item)) } } // Get ElementById function elementById(ID) { return document.getElementById(ID) } /**************************************************************************************** DML shortcut function definitions ****************************************************************************************/ /* ============================================================================ following functions use their name as argument: h1(text) creates <h1> text </h1> return object reference let b = button("test") ============================================================================ */ function br(cnt) { let n = cnt || 1; let br; for (let i = 0; i < n; i++) br = make("br"); return br; } // br() or br(5) for one or multiple linebreaks function nbsp(n = 1) { let s = ""; for (let i = 0; i < n; i++) { s += "\xa0" } print(s) } function h1(s, attrib) { return make("h1", attrib, s) } function h2(s, attrib) { return make("h2", attrib, s) } function h3(s, attrib) { return make("h3", attrib, s) } function h4(s, attrib) { return make("h4", attrib, s) } function h5(s, attrib) { return make("h5", attrib, s) } function h6(s, attrib) { return make("h6", attrib, s) } function hr(attrib) { return make("hr", attrib) } function p(s, attrib) { return make("p", attrib, s) } // function slider(attrib) { let sl = make("input", attrib); sl.type = "range"; return sl } function image(s, attrib) { let d = make("img", attrib); d.src = s, d.alt = s; return d; } function span(s, attrib) { return make("span", attrib, s) } function link(s, link, attrib) { let lnk = make("a", attrib, s); lnk.href = link; return lnk; } // Create link function pre(s, attrib) { return make("pre", attrib, textNode(s)); } // Unformatted text //function txt(s, attrib) { let d = make("pre", attrib, textNode(s)); d.style.display = "inline-block"; return d; } /*------------------------------------------------------ Various DIV´s ------------------------------------------------------*/ function div(s, attrib) { return make("div", attrib, s) } function idiv(s, attrib) { let d = make("div", attrib, s); // if (d) if (d.style) d.style.display = "inline-block"; return d; } const inlineDiv = idiv; // Alias const inlinediv = idiv; // Alias // Create div and select as base function sdiv(s, attrib) { return selectBase(div(s, attrib)) } // create idiv and select as base function sidiv(s, attrib) { return selectBase(idiv(s, attrib)) } /*------------------------------------------------------ Create an overlay with an element of 0 px as an anchor returns the reference to the overlaying div requires unselectBase(2) ------------------------------------------------------*/ function overlay(s, attrib) { selectBase(div("", "position: relative; width: 0px; height: 0px;")) return selectBase(idiv(s, attrib)) } /*------------------------------------------------------ Create a button ------------------------------------------------------*/ function button(s, attrib) { return make("button", attrib, s) } /*------------------------------------------------------ Round button ------------------------------------------------------*/ function rbutton(s, x, y, diameter, attr) { let b = button(s, attr) let style = b.style b.parentElement.style.position = "relative" style.position = "absolute" style.left = px(x) style.top = px(y) style.height = b.style.width = diameter + "px" style.borderRadius = trunc(diameter / 2) + "px" style.transform = "translate(-50%, -50%)" return b }; /*------------------------------------------------------ normal textarea, not expanding ------------------------------------------------------*/ function textarea(content, attrib, placeholder) { let ta = make("textarea", attrib); if (placeholder) ta.placeholder = placeholder; if (content) ta.value = content; return ta } // multiline text input /*------------------------------------------------------ create textarea, that expands vertically ------------------------------------------------------*/ function expandableTextarea(content, attrib, placeholder) { let ta = textarea(content, attrib, placeholder) setAttributes(ta, { "rows": "1", "style": /*"border: none; background-color: rgba(0,0,0,0);"+*/ " box-sizing: border-box; overflow: hidden; min-height: 35px" }) setAttributes(ta, attrib) ta.onchange = ta.onkeyup = ta.doResize = ta.autosize ta.autosize() // ta.autosize(); // run once on startup return ta } /*------------------------------------------------------ rezise Textarea ------------------------------------------------------*/ HTMLTextAreaElement.prototype.autosize = function () { // Expand Textarea let el = this setTimeout(function () { el.style.height = "22px" el.style.height = (el.scrollHeight) + "px" }, 1); } /*------------------------------------------------------ Add text or element count times to current base count (optional) ------------------------------------------------------*/ function print(s, count = 1) { for (let i = 0; i < count; i++) { if (typeof (s) == 'string') appendBase(s) else if (i == 0) appendBase(s) else appendBase(s.cloneNode(true)) } } /*------------------------------------------------------ Add text or node + br() to the current base count (optional) ------------------------------------------------------*/ function println(s, count = 1) { for (let i = 0; i < count; i++) { print(s) br() } } // ---------------------------------------------------------------------------- // Create label with margins. Childbefore will insert element left of label // ---------------------------------------------------------------------------- function label(s, attrib, childbefore) { let lbl = make("label", attrib, childbefore) if (typeof (s) == "string") lbl.appendChild(textNode(s)) else lbl.appendChild(s) lbl.style.marginRight = "5px" lbl.style.marginLeft = "5px" return lbl } // ---------------------------------------------------------------------------- // Create a text of constant width // ---------------------------------------------------------------------------- function blocktext(s, width, attrib) { let sp = span(s) inlineDiv(sp, attrib).style.width = px(width) return (sp) } /* ---------------------------------------------------------------------------- inputSelect(options, attrib, def) Create an input slect field def is the default index Options can be two formats: inputSelect(["a","b","c"]) inputSelect([{text:"a", value: 2},{text: "b", value: 2},{text: "c", value: 3}]) ----------------------------------------------------------------------------*/ function inputSelect(options, attrib, def) { let s = make("select", attrib) setAttributes(s, attrib) s.addOptions(options) if (def) s.selectedIndex = def return s } HTMLSelectElement.prototype.addOptions = function (options) { addProps(this, "option", options) } HTMLSelectElement.prototype.selectOptionByValue = function (txt) { // Select Field that contains txt let o for (let i = 0; i < this.options.length; i++) { o = this.options[i].textContent if (o.includes(txt)) { this.options.selectedIndex = i return } } } // ---------------------------------------------------------------------------- // Create Checkbox with labgel s after CB, def is true/false // ---------------------------------------------------------------------------- function checkbox(s, attrib, def) { let sel if (s && (s != "")) { sel = create("INPUT", attrib) sel.type = "checkbox" let lbl = label(s, attrib, sel) } else { sel = make("INPUT", attrib) sel.type = "checkbox" } sel.style.marginRight = "5px" sel.style.marginLeft = "5px" if (def) sel.checked = def return sel } // ---------------------------------------------------------------------------- // Text Input with label: 1st Attribute for Label text, 2.nd Attrib for // Input field // ---------------------------------------------------------------------------- function inputText(s, options = {}) { return new _inputText(s, options) } class _inputText { constructor(s, options = {}) { options = joinOver({ baseAttrib: {}, labelAttrib: {}, inputAttrib: {}, fieldWidth: [], doBreak: true }, options) this.label = null this.base = sidiv("", options.baseAttrib) if (s != "") { this.label = idiv(s, options.labelAttrib) if (options.fieldWidth[0]) this.label.style.width = px(options.fieldWidth[0]) } this.input = create("input", options.inputAttrib) if (options.fieldWidth[1]) this.input.style.width = px(options.fieldWidth[1]) this.base.appendChild(this.input) unselectBase() if (options.doBreak) br(); this.input this.label this.base } get value() { return this.input.value } set value(w) { this.input.value = w } } // ---------------------------------------------------------------------------- // Number Input with label: 1st Attribute for Label text, 2.nd Attrib for // Input field // ---------------------------------------------------------------------------- function inputNumber(s, attrib, inpAttrib) { let result let d = inlineDiv() if (s != "") { let lbl = inlineDiv(s, attrib) d.appendChild(lbl) } result = make("input", inpAttrib) result.type = "number" d.appendChild(result) return result } /*------------------------------------------------------ Create a message box ------------------------------------------------------*/ function msgBox(s, attrib, callback) { let sp = DMLgetSP() let d = sidiv("", "text-align: center;" + "position: fixed;" + "padding: 6px;" + "box-shadow: 5px 5px 6px silver;" + "border-radius: 8px;" + "background-color: #ffffff;" + "border: thin solid gray;" + "left: 50%;" + "top: 50%;" + "transform: translate(-50%, -50%);" + "width: 250px") setAttributes(d, attrib) let workarea = sdiv(s) selectBase(d) button("ok", _btnstyle).onclick = () => { d.remove() if (callback) callback() } unselectBase(3) dragElement(d) DMLchkSP(sp, "msgBox") return workarea } /*------------------------------------------------------ Create a message box ------------------------------------------------------*/ function askBox(s, attrib, doYes, doNo) { let sp = DMLgetSP() let d = sidiv("", "text-align: center;" + _flybox + "width: 250px") setAttributes(d, attrib) let workarea = sdiv(s) selectBase(d) button("Yes", _btnstyle).onclick = () => { d.remove() if (doYes instanceof Function) doYes() } button("No", _btnstyle).onclick = () => { d.remove() if (doNo instanceof Function) doNo() } unselectBase(3) dragElement(d) DMLchkSP(sp, "msgBox") return workarea } /**************************************************************************************** html5-canvas: canvas2D this.canvas the canvas element. if attrib.visible = false, the canvas is not visible. Can be used for offscree-rendering this.ctx: 2D-context to draw this.points: internal array this.width/height: read/set canvas size stroke(): draw clear(): clear canvas clrPoints() addPoint(x,y) for painting without stroke use _line, _circle, _rect... line(x1,y1,x2,y2); draw line circle(x, y, d, options = {fill: false}) rect(x, y, w, h, options = {fill: false, center: false, angle: 0}) ployline(newPoints): draw polyline with internal or external array softline(newPoints): draw smooth polyline with internal or external array text(s, x, y, options = {angle: 0,hor: "center",vert: "middle"}) font(size, decoration = "", color = "black", family = "Arial") marker(x, y, d, type = 0, options = {}) type: 0: circle 1: rect 2: rhombus ****************************************************************************************/ function canvas2D(attrib) { return new _canvas2D(attrib) } class _canvas2D { constructor(attrib) { if (!attrib) attrib = { visible: true } else if (!attrib.hasOwnProperty("visible")) attrib.visible = true; if (attrib.visible) this.canvas = make("canvas", attrib) // create and append else this.canvas = create("canvas", attrib) // only create this.ctx = this.canvas.getContext("2d") this.points = [] // polyline buffer this.shadow = 0; } get width() { return this.canvas.width } set width(w) { this.canvas.width = w } get height() { return this.canvas.height } set height(h) { this.canvas.height = h } // start new path beginPath() { this.ctx.beginPath(); } // draw path stroke() { this.ctx.stroke(); } // Clear canvas clear() { this.ctx.clearRect(0, 0, this.width, this.height); } setLineType(width = 1, color = "black", dash = []) { if (typeof (dash) == 'number') dash = [dash] this.ctx.lineWidth = width; this.ctx.strokeStyle = color; this.ctx.setLineDash(dash); } setFillStyle(color = "white") { this.ctx.fillStyle = color; } // simplified standard shadow, dist=0 -> no shadow set shadow(dist = 0) { this._shadow = dist; if (dist) { this.ctx.shadowBlur = dist * 1.3; this.ctx.shadowColor = "rgba(0,0,0,0.5)"; this.ctx.shadowOffsetX = dist this.ctx.shadowOffsetY = dist } else this.ctx.shadowColor = "transparent"; } get shadow() { return this._shadow } // Draw single line line(x1, y1, x2, y2) { this.ctx.beginPath(); this.ctx.moveTo(x1, y1); this.ctx.lineTo(x2, y2); this.ctx.stroke(); } _line(x1, y1, x2, y2) { this.ctx.moveTo(x1, y1); this.ctx.lineTo(x2, y2); } // draw rectangle rect(x, y, w, h, options = {}) { setOptions(this, options, { fill: false, center: false, angle: 0 }) this.ctx.beginPath(); if (this.angle != 0) { this.ctx.save() this.ctx.translate(x, y) this.ctx.rotate(this.angle * Math.PI / 180); if (this.center) this.ctx.rect(-w / 2, -h / 2, w, h) else this.ctx.rect(0, 0, w, h) this.ctx.restore(); } else { if (this.center) this.ctx.rect(x - w / 2, y - h / 2, w, h) else this.ctx.rect(x, y, w, h) } if (this.fill) this.ctx.fill() this.ctx.stroke() } // rect without stroke _rect(x, y, w, h, options = {}) { setOptions(this, options, { fill: false, center: false, angle: 0 }) if (this.angle != 0) { this.ctx.save() this.ctx.translate(x, y) this.ctx.rotate(this.angle * Math.PI / 180); if (this.center) this.ctx.rect(-w / 2, -h / 2, w, h) else this.ctx.rect(0, 0, w, h) this.ctx.restore(); } else { if (this.center) this.ctx.rect(x - w / 2, y - h / 2, w, h) else this.ctx.rect(x, y, w, h) } if (this.fill) this.ctx.fill() } // draw a circle diameter d circle(x, y, d, options = {}) { setOptions(this, options, { fill: false }) this.ctx.beginPath(); this.ctx.arc(x, y, d / 2, 0, PI2) if (this.fill) this.ctx.fill() this.ctx.stroke() } // draw circle without stroke _circle(x, y, d, options = {}) { this.fill = options.fill || false this.ctx.moveTo(x, y) this.ctx.arc(x, y, d / 2, 0, PI2) if (this.fill) this.ctx.fill() } /*------------------------------------------------------ draw polyline, uses this.points or external array[{x,y}] if set ------------------------------------------------------*/ // clr internal polyline buffer clrPoints() { this.points = []; } // Polyline, uses this.points addPoint(x, y) { this.points.push({ x: x, y: y }) } // draw polyline polyline(newPoints, options = {}) { this.fill = options.fill || false this.ctx.beginPath(); //------------------------------ this._polyline(newPoints) //------------------------------ if (this.fill) this.ctx.fill() this.ctx.stroke(); } // only polyline, without stroke _polyline(newPoints) { let _points; if (newPoints) _points = newPoints else _points = this.points if (_points.length > 0) { this.ctx.moveTo(_points[0].x, _points[0].y) for (let i = 1; i < _points.length; i++) { this.ctx.lineTo(_points[i].x, _points[i].y); } } } // Soft polyline softline(newPoints, options = {}) { this.fill = options.fill || false let _points; if (newPoints) _points = newPoints else _points = this.points this.ctx.beginPath(); //------------------------------ this._softline(_points) //------------------------------ if (this.fill) this.ctx.fill(); this.ctx.stroke(); } // softline painting only _softline(_points) { this.ctx.moveTo(_points[0].x, _points[0].y); for (var i = 1; i < _points.length - 2; i++) { var xc = (_points[i].x + _points[i + 1].x) / 2; var yc = (_points[i].y + _points[i + 1].y) / 2; this.ctx.quadraticCurveTo(_points[i].x, _points[i].y, xc, yc); } this.ctx.quadraticCurveTo(_points[i].x, _points[i].y, _points[i + 1].x, _points[i + 1].y); } /*------------------------------------------------------ print rotated text: angle 0..360 hor: left, center, right vert: top, middle, alphabetic, bottom use - ctx.font - ctx.fillStyle ------------------------------------------------------*/ text(s, x, y, options = {}) { setOptions(this, options, { angle: 0, hor: "center", vert: "middle", }) this.ctx.save() this.ctx.textAlign = this.hor this.ctx.textBaseline = this.vert this.ctx.translate(x, y) this.ctx.rotate(this.angle * Math.PI / 180); /* if (this.bgcolor) { let w = this.ctx.measureText(s).width this.ctx.fillStyle = this.bgcolor this.ctx.fillRect(0, 0,w,-20) } this.ctx.fillStyle = this.txtcolor */ this.ctx.fillText(s, 0, 0) this.ctx.restore(); } font(size, decoration = "", color = "black", family = "Arial") { this.ctx.fillStyle = color this.ctx.font = decoration + " " + size + "px " + family } /*------------------------------------------------------ marker type 0: circle 1: rect 2: rhombus ------------------------------------------------------*/ marker(x, y, d, type = 0, options = {}) { let d2 switch (type) { case 0: this.circle(x, y, d, options); break; case 1: options[center] = true; this.rect(x, y, d, d, options) break; case 2: options[center] = true options[angle] = 45 this.rect(x, y, d, d, options) break; } } _marker(x, y, d, type = 0, options = {}) { let d2 switch (type) { case 0: this._circle(x, y, d, options); break; case 1: options[center] = true; this._rect(x, y, d, d, options) break; case 2: options[center] = true options[angle] = 45 this._rect(x, y, d, d, options) break; } } } /**************************************************************************************** SVG-Function ****************************************************************************************/ function svg(attrib) { let ret = document.createElementNS(svgref, "svg"); Object.keys(attrib).forEach(key => { ret.setAttributeNS(null, key, attrib[key]); }) appendBase(ret); return ret } function svg_line(attrib) { let ret = document.createElementNS('http://www.w3.org/2000/svg', 'line'); Object.keys(attrib).forEach(key => { ret.setAttributeNS(null, key, attrib[key]); }) appendBase(ret); return ret } /**************************************************************************************** Lists ****************************************************************************************/ /*------------------------------------------------------ ul() Gets array of string or array of object[key] ul([opts]) ul.items: get or set content ul.clear(): Clear list ul.add(): Add new elements to the list ul.put(): Clear list befor add ------------------------------------------------------*/ function ul(opts, attrib) { let lst = make("ul", attrib) lst.items = opts return lst } HTMLUListElement.prototype.add = function (opts) { if (opts) appendChilds(this, "li", opts) } HTMLUListElement.prototype.put = function (opts) { this.clear(); if (opts) appendChilds(this, "li", opts) } HTMLUListElement.prototype.clear = function () { this.innerHTML = "" } Object.defineProperty( HTMLUListElement.prototype, "items", { get: function () { let elem, ret = [] for (let i in this.childNodes) { let n = this.childNodes[i] elem = n.innerHTML ret.push(elem) } return ret }, set: function (opts) { this.clear() this.add(opts) } } ) // --------------- Ende ul ------------- /*------------------------------------------------------ ol() Getst array of string or array of object[key] ul([opts]) ol.items: get or set content ol.clear(): Clear list ol.add(): Add new elements to the list ol.put(): Clear list befor add ------------------------------------------------------*/ function ol(opts, attrib) { let lst = make("ol", attrib) lst.items = opts return lst } HTMLOListElement.prototype.add = function (opts) { if (opts) appendChilds(this, "li", opts) } HTMLOListElement.prototype.put = function (opts) { this.clear(); if (opts) appendChilds(this, "li", opts) } HTMLOListElement.prototype.clear = function () { this.innerHTML = "" } Object.defineProperty( HTMLOListElement.prototype, "items", { get: function () { let elem, ret = [] for (let i in this.childNodes) { let n = this.childNodes[i] elem = n.innerHTML ret.push(elem) } return ret }, set: function (opts) { this.clear() this.add(opts) } } ) // --------------- Ende oL ------------- //=========================================================================== // Fieldsets and radio groups //=========================================================================== // Create Fieldset function fieldset(s, options = {}) { setOptions(this, options, { legendAttrib: "", fieldsetAttrib: "" }) let fs = make("fieldset", fieldsetAttrib) fs.textAlign = "left" s = s.replace(/ /g, "\xa0"); // Add whitespaces fs.appendChild(create("legend", legendAttrib, s)) return fs } // Create a List of Radio buttons with text and value // Text and Value as array // Returns array of Radio-Buttons function radio(txt, value, groupname, onchange, def) { let i, rb, group = [] for (i = 0; i < txt.length; i++) { rb = create("input", { "type": "radio" }); // Create button group.push(rb) if (value[i]) rb.value = value[i] // Set Value or else rb.value = txt[i] // Text as value if (i === def) rb.checked = true // Set groupname, if not given, use global if (groupname) rb.name = groupname // Set onchange-Handler, if not given, use global if (onchange) rb.onchange = onchange // Embed RB in label // let lb = make("label", {}, rb) let lbl = label(rb) let tlb = label(txt[i]) // tlb.style.marginLeft = "5px" lbl.appendChild(tlb) br() } return group } // Radio group Value function RadioValue(groupName) { let group = document.getElementsByName(groupName) if (group) { for (let i in group) { let item = group[i] if (item.checked) { return item.value } } } } // Get selectedItem function selectedRadioItem(groupName) { let group = document.getElementsByName(groupName) if (group) { for (let i in group) { let item = group[i] if (item.checked) { return item } } } } // Set Value of a radio group function setRadioValue(groupName, value) { let group = document.getElementsByName(groupName) if (group) { for (let i in group) { let item = group[i] if (item.value === value) { item.checked = true return item } } } } // Set Radio-Button by Index, starting with 0 function setRadioIndex(groupName, idx) { let group = document.getElementsByName(groupName) if (group) group[idx].checked = true } // ********************************** Ajax Functions ********************************** /* Ajax Fetch asynchronous: url is the requested Adress with parameters par1-3 are call parameters forwarded to the response function returns a promise, that can be resolved by exec_async Multiple calls of dml_fetch can be combined in an array of promises exec_all is executed, if all promises are resolved for single call, use exec_async(dml_fetch(url, par1...)),(r) => { r.result... r.par1... }) for multiple calls pr[i] = dml_fetch(url, par1...) exec_async(pr, (r) => { for (let i in r) { r[i].result... r[i].par1... }) } */ async function dml_fetch(url, par1, par2, par3) { let response = await fetch(url, { method: "GET", //mode: 'no-cors', headers: { "Content-type": "application/json;charset=UTF-8" } }) if (response.ok) { let ret = await response.json() return { result: ret, par1: par1, par2: par2, par3: par3 } } throw new Error(`HTTP error! status: ${response.status}`); } /* Execute functions asycronous after all promises have been resolved exec_async([pr],f): wait for array of promises, execute function with array of results if only one promise is suplied, a single result is returned as f(result,par1,par2,par3) for multiple promises, multiple results are replied. f can be a function or an array of functions for single function f(r), r is an array of objects f(r) { for (let i in r) { r[i].result is the ajax answer of the first call r[i].par1-par3 are the call parameters } } if f is an array of functions [f1,f2,f3,f4], each function is called as f(result,par1,par2,par3) */ function exec_async(pr, f) { call(async () => { if (!Array.isArray(pr)) pr = [pr] // Make array from single promise const res = await Promise.all(pr) if (res.length == 1) { let r = res[0] f(r.result, r.par1, r.par2, r.par3) } else { if (!Array.isArray(f)) f(res) else { for (let i in res) { let r = res[i] f(r.result, r.par1, r.par2, r.par3) } } } }) } /**************************************************************************************** older Ajax functions ****************************************************************************************/ // Ajax HTTP-Get request, result is supplied by httpGet(url,par).response = function(s,par){} // url is the requested Adress, s is the response JSON object. // par1-3 are call parameters forwarded to the response function // httpGet(url, a,b,c).response = function (s,a,b,c) { ... do something } // Error-function not jet defined. May be defined as // with (httpGet...) // { resonse = function .... // error = function // } // This function is based on the fetch API function httpGet(url, par1, par2, par3) { let ret = { // define return functions error: function () { }, response: function () { } } fetch(url, { method: "GET", headers: { "Content-type": "application/json;charset=UTF-8" } }) .then(res => { // evaluate return object if (!res.ok) { console.log("Status: " + res.status + ", " + res.statusText) if (typeof (ret.error) == "function") { ret.error("File not found", res) } throw new Error(res.statusText); } return res.json() }) .then(data => { if (typeof (ret.response) == "function") ret.response(data, par1, par2, par3) }) return ret } // Ajax HTTP-Get request, result is supplied by httpGet(url,par).response = function(s,par){} // url is the requested Adress, s is the response JSON object. // par1-3 are call parameters forwarded to the response function // httpGet(url, a,b,c).response = function (s,a,b,c) { ... do something } // Error-function not jet defined. May be defined as // with (httpGet...) // { resonse = function .... // error = function // } function httpGet2(url, par1, par2, par3) { let ret = { error: function () { }, response: function () { } } let xhttp = new XMLHttpRequest() xhttp.onreadystatechange = function () { if (this.readyState == 4 && this.status == 200) { if (typeof (ret.response) == "function") { try { let t = JSON.parse(xhttp.responseText) ret.response(t, par1, par2, par3) } catch (e) { ret.response(xhttp.responseText, par1, par2, par3) } } } else ret.error("ReadyState == " + this.readyState) } xhttp.open("GET", url, true) // xhttp.setRequestHeader('Content-type','application/x-www-form-urlencoded') // xhttp.setRequestHeader('Accept', 'text/csv') // xhttp.setRequestHeader('Content-Type', 'application/json') xhttp.setRequestHeader('Accept', 'application/json') xhttp.send() return ret } // Request SQlite table names function sqliteGetTableNames(url, par1, par2, par3) { let ret = { response: function () { } } let s httpGet(url + '?q=SELECT name FROM sqlite_master WHERE type = "table"').response = function (s) { let t = extract(s, {}, "name") if (typeof (ret.response) == "function") ret.response(t, par1, par2, par3); // --> callback aufrufen } return ret } // Request SQlite table head keys function sqliteGetKeys(url, table, par1, par2, par3) { let ret = { response: function () { } } let s httpGet(url + "?q=select * from " + table + " LIMIT 1").response = function (s) { let t = Object.keys(s[0]) if (typeof (ret.response) == "function") ret.response(t, par1, par2, par3); // --> callback aufrufen } return ret } // Request SQlite table, filter: {"typId": "RA-N"} // Returns JSON result from + TableName request function sqliteGetTable(url, tableName, filter, par1, par2, par3) { let f = "", ret = { response: function () { } } // build Filterstring for SQL from object Key/Value pairs if (filter) if (Object.keys(filter).length > 0) { let k = Object.keys(filter) f = " where " for (let i = 0; i < k.length; i++) { if (i > 0) f += " and " f += k[i] + '="' + filter[k[i]] + '"' } } // Load Data httpGet(url + "?q=select * from " + tableName + f).response = function (s) { if (typeof (ret.response) == "function") ret.response(s, tableName, par1, par2, par3); // --> Request-Ergebnis zurück } return ret } /*------------------------------------------------------ slider with range marker. function slider({options...}) example: slider("width: 30px, height: 150px",{{vertical: true, showrange: true}}) Options:{ baseattrib || {} vertical || false // vertical slider showRange || false // show range marker min || 100 // slider range max || 0 value || 50 // current value sliderattrib // attributes for slider rangeattrib // attributes for range marler } Properties: slider.low (get) slider.high slider.setRange(low, high) slider.updateRange() ------------------------------------------------------*/ function slider(options = {}) { // Set a base object to determine size let base = selectBase(idiv("", options.baseattrib)) // Set div as a base, define width and height# let height = getpx(base.style.height) let width = getpx(base.style.width) // Create ancor let zero = div("", "width: 0px; height: 0px;") // 0px Range container // Create slider object let sl = make("input", options.sliderattrib) sl.type = "range" sl.style.position = "relative" sl.base = base; // Store values ins slider object, special late definition setOptions(sl, options, { vertical: false, showRange: false, rangeattrib: "", min: 0, max: 100, low: sl.min, high: sl.max, value: 50 }) sl.offx = 0; sl.offy = 0; // Set vertical slider if (sl.vertical) { sl.offy = 6; setAttributes(sl, { "orient": "vertical", "style": "-webkit-appearance: slider-vertical;left: 0px; top: 0px;" }) if ((width == 0) || (height == 0)) { width = 30; base.style.width = px(width) height = 150; base.style.height = px(height) } } else // set horizontal slider { sl.offx = 6; if ((base.style.width == "") || (base.style.height == "")) { width = 150; base.style.width = px(width) height = 30; base.style.height = px(height) } sl.style.top = "-1px"; } // Expand slider to client rect sl.style.width = "100%"; sl.style.height = "100%"; // Get measure for range let BC = sl.getBoundingClientRect(); sl.rangewidth = BC.width - 2 * sl.offx; sl.rangeheight = BC.height - 2 * sl.offy; // Create range marker sl.range = create("div", "position: relative;" + _bggreen) setAttributes(sl.range, sl.rangeattrib); unselectBase() // ************ Now, lets extend the new object: ******************************* sl.setRange = function (low, high) { sl.low = low; sl.high = high; sl.updateRange() } sl.updateRange = function () { // Show range object sl.low = constrain(Number(sl.low), Number(sl.min), Number(sl.max)) sl.high = constrain(Number(sl.high), Number(sl.min), Number(sl.max)) if (sl.vertical) { let ltot = sl.rangeheight; let f = ltot / (sl.max - sl.min) sl.range.style.height = px(f * (sl.high - sl.low)) sl.range.style.top = px(f * (sl.max - sl.high) + sl.offy) sl.range.style.left = px(sl.offx) sl.range.style.width = px(sl.rangewidth) } else { let ltot = sl.rangewidth let f = ltot / (sl.max - sl.min) sl.range.style.width = px(f * (sl.high - sl.low)) sl.range.style.left = px(f * (sl.low) + sl.offx) sl.range.style.top = px(sl.offy) sl.range.style.height = px(sl.rangeheight) } } // ********************************************************************************************** sl.updateRange() if (sl.showRange) { // only show range maker, if showRange == true zero.appendChild(sl.range) } return sl; } /**************************************************************************************** Unit specific code ****************************************************************************************/ /*------------------------------------------------------ Register onresize for some elements ------------------------------------------------------*/ function registerOnresize(el) { _onresizeElements.push(el) } let _oldOnResize = window.onresize window.onresize = () => { for (let i in _onresizeElements) { let el = _onresizeElements[i] if (el.onresize) el.onresize(el) } if (_oldOnResize) _oldOnResize() }
{ "repo_name": "efpage/DML", "stars": "26", "repo_language": "JavaScript", "file_name": "DML_onlineEditor.js", "mime_type": "text/x-c++" }
/**************************************************************************************** Online-Editor (c) Eckehard Fiedler Show online code Editor plus Full page result including HTML ICE.oninput = debounce(function () { pw.update(ICE.textContent) }) ****************************************************************************************/ const codefraction = 70; function inputCodeEditor(srctxt, attrib) { return new _inputCodeEditor(srctxt, attrib) } class _inputCodeEditor { constructor(srctxt, attrib) { this.editor = pre(srctxt, { "rows": "10", "class": "prettyprint ", "contenteditable": "true", "style": "overflow: auto; margin: 0px; padding: 5px 8px; width: " + (codefraction) + "%; text-align: left;" }) setAttributes(this.editor, attrib) //this.editor.textContent = srctxt; return (this.editor) } refresh() { this.editor.textContent = this.editor.value } } /**************************************************************************************** PageWindow: iframe to show a full page body content ta.oninput = debounce(function () { pw.update(ta.textContent) }, 250) ****************************************************************************************/ function pageWindow(txt, attrib) { return new _pageWindow(txt, attrib); } class _pageWindow { constructor(txt, attrib) { this.base = selectBase(div("", "width: " + (100 - codefraction) + "%; ")) this.error = div("", _bgsilver + "padding-left: 5px;") this.myFrame = make("iframe", { "frameBorder": "0", "seamless": "true", // "class": "pageFrame", "style": "width: 100%; height: 100%; text-align: center;" + _bgwhite }) this.doc = this.myFrame.contentDocument ? this.myFrame.contentDocument : this.myFrame.contentWindow.document; setAttributes(this.myFrame, attrib) let script = create("script", { "src": "..\\lib\\DML.js" }); this.doc.head.appendChild(script) script.onload = () => { this.update(txt) } window.onerror = (e) => { this.error.textContent = e; } this.doc.onerror = (e) => { this.error.textContent = e; } this.doc.onchange = () => { alert("doc") } this.myFrame.onchange = () => { alert("frame") } unselectBase() } update(txt) { let sp = DMLgetSP(); // get stack pointer this.txt = txt this.error.textContent = "" this.doc.open() this.doc.write("<style>@import url(https://fonts.googleapis.com/css?family=Lora);" + " * { font-family: Lora; } " + "body {font-size: 16px;} " + "h1{font-size: 24px; font-weight: bold;}" + "h2{font-size: 22px; font-weight: bold;}" + "h3{font-size: 20px; font-weight: bold;}" + "</style>") this.doc.write(txt) this.doc.close() if (sp != DMLgetSP()) { alert("Stack mismacth in function pageWindow: " + DMLgetSP() + " <> " + sp) while (DMLgetSP() > sp) unselectBase(); } } } /**************************************************************************************** codeWindow: Show result of code (DML only) ****************************************************************************************/ function codeWindow(txt, attrib) { return new _codeWindow(txt, attrib); } class _codeWindow { constructor(txt, attrib) { this.base = selectBase(div("", "width: " + (100 - codefraction) + "%;" + _bgwhite)) // outer div this.error = div("", _bgsilver + "padding-left: 5px;") this.innerdiv = div("", "overflow: auto; margin: 0px; padding: 8px 8px; text-align: center;")//white-space: nowrap;") setAttributes(this.base, attrib) if (this.base.style.textAlign) this.innerdiv.style.textAlign = this.base.style.textAlign // Copy text alignment from outer box window.onerror = (e) => { // this.error.textContent = e; } this.update(txt) unselectBase() return this } update(txt) { this.error.textContent = "" this.innerdiv.innerHTML = "" selectBase(this.innerdiv) // Open current base try { let sp = DMLgetSP(); // get stack pointer eval(txt) if (sp != DMLgetSP()) { alert("Stack mismacth in function codeWindow: " + DMLgetSP() + " <> " + sp) while (DMLgetSP() > sp) unselectBase(); } } catch (e) { var err = e.constructor('Error in Evaled Script: ' + e.message); // +3 because `err` has the line number of the `eval` line plus two. // err.lineNumber = e.lineNumber - err.lineNumber + 3; this.error.textContent = e.message; throw err; } unselectBase() } } /*======================================================== Combined Editor/View 60% Code, 40& Result ========================================================*/ function pageEditor(srctxt, baseattr, cwattrib) { new _pageEditor(srctxt, baseattr, cwattrib) } class _pageEditor { constructor(srctxt, baseattr, cwattrib) { this.base = selectBase(div("", "display: flex")) setAttributes(this.base, baseattr) this.ice = inputCodeEditor(srctxt) this.cw = pageWindow(srctxt, cwattrib) this.ice.oninput = debounce(() => { let SP = DMLgetSP() this.cw.update(this.ice.textContent) if (SP != DMLgetSP()) alert("Stack misalignment in PageEditor: " + srctxt) }, 250) unselectBase() this.ice.onfocus = () => { window.onerror = (e) => { this.cw.error.textContent = e.message; } } this.ice.onblur = () => { window.removeEventListener("error", window); } } } function codeEditor(srctxt, baseattr, cwattrib) { new _codeEditor(srctxt, baseattr, cwattrib) } class _codeEditor { constructor(srctxt, baseattr, cwattrib) { this.base = selectBase(div("", "display: flex;")) setAttributes(this.base, baseattr) this.ice = inputCodeEditor(srctxt) this.cw = codeWindow(srctxt, cwattrib) this.ice.oninput = debounce(() => { let SP = DMLgetSP() this.cw.update(this.ice.textContent) if (SP != DMLgetSP()) alert("Stack misalignment in CodeEditor: " + srctxt) }, 250) this.ice.onfocus = () => { window.onerror = (e) => { this.cw.error.textContent = e.message; } } this.ice.onblur = () => { window.removeEventListener("error", window); } unselectBase() } }
{ "repo_name": "efpage/DML", "stars": "26", "repo_language": "JavaScript", "file_name": "DML_onlineEditor.js", "mime_type": "text/x-c++" }
package metrics_test import ( "os" "testing" "github.com/pascaldekloe/metrics" ) // TestLabels verifies the codec roundtrip. func TestLabels(t *testing.T) { reg := metrics.NewRegister() switch got := reg.Must1LabelCounter("plain", "foo")("bar").Labels(); { case len(got) != 1, got["foo"] != "bar": t.Errorf(`got %q, want {"foo": "bar"}`, got) } switch got := reg.Must3LabelReal("escapes", "a", "b", "c")("\\", "\n", "\"").Labels(); { case len(got) != 3, got["a"] != "\\", got["b"] != "\n", got["c"] != "\"": t.Errorf(`got %q, want {"a": "\\", "b": "\n", "c": "\""}`, got) } // values may contain *any* byte sequence var all [256]byte for i := range all { all[i] = byte(i) } switch got := reg.Must1LabelCounter("raw", "foo")(string(all[:])).Labels(); { case len(got) != 1, got["foo"] != string(all[:]): t.Errorf(`got %q, want {"foo": %q}`, got, all) } } func Example_labels() { // setup demo := metrics.NewRegister() Building := demo.Must2LabelInteger("hitpoints_total", "ground", "building") Arsenal := demo.Must3LabelInteger("hitpoints_total", "ground", "arsenal", "side") demo.MustHelp("hitpoints_total", "Damage Capacity") // measures Building("Genesis Pit", "Civilian Hospital").Set(800) Arsenal("Genesis Pit", "Tech Center", "Nod").Set(500) Arsenal("Genesis Pit", "Cyborg", "Nod").Set(900) Arsenal("Genesis Pit", "Cyborg", "Nod").Add(-596) Building("Genesis Pit", "Civilian Hospital").Add(-490) Arsenal("Genesis Pit", "Cyborg", "Nod").Add(110) // print metrics.SkipTimestamp = true demo.WriteTo(os.Stdout) // Output: // # Prometheus Samples // // # TYPE hitpoints_total gauge // # HELP hitpoints_total Damage Capacity // hitpoints_total{building="Civilian Hospital",ground="Genesis Pit"} 310 // hitpoints_total{arsenal="Tech Center",ground="Genesis Pit",side="Nod"} 500 // hitpoints_total{arsenal="Cyborg",ground="Genesis Pit",side="Nod"} 414 } func BenchmarkLabel(b *testing.B) { values := [...]string{"one", "two", "three", "four"} label1 := metrics.NewRegister().Must1LabelReal("bench_label_unit", "first") label2 := metrics.NewRegister().Must2LabelReal("bench_label_unit", "first", "second") label3 := metrics.NewRegister().Must3LabelReal("bench_label_unit", "first", "second", "third") b.Run("sequential", func(b *testing.B) { b.Run("4", func(b *testing.B) { for i := 0; i < b.N; i += 4 { for _, v := range values { label1(v) } } }) b.Run("4x4", func(b *testing.B) { for i := 0; i < b.N; i += 4 * 4 { for _, v1 := range values { for _, v2 := range values { label2(v1, v2) } } } }) b.Run("4x4x4", func(b *testing.B) { for i := 0; i < b.N; i += 4 * 4 * 4 { for _, v1 := range values { for _, v2 := range values { for _, v3 := range values { label3(v1, v2, v3) } } } } }) }) b.Run("parallel", func(b *testing.B) { b.Run("4", func(b *testing.B) { b.RunParallel(func(pb *testing.PB) { for { for _, v := range values { if !pb.Next() { return } label1(v) } } }) }) b.Run("4x4", func(b *testing.B) { b.RunParallel(func(pb *testing.PB) { for { for _, v1 := range values { for _, v2 := range values { if !pb.Next() { return } label2(v1, v2) } } } }) }) b.Run("4x4x4", func(b *testing.B) { b.RunParallel(func(pb *testing.PB) { for { for _, v1 := range values { for _, v2 := range values { for _, v3 := range values { if !pb.Next() { return } label3(v1, v2, v3) } } } } }) }) }) }
{ "repo_name": "pascaldekloe/metrics", "stars": "26", "repo_language": "Go", "file_name": "gostat.go", "mime_type": "text/plain" }
package metrics_test import ( "bytes" "math" "mime" "net/http" "net/http/httptest" "strconv" "strings" "testing" "time" "github.com/pascaldekloe/metrics" ) func TestWriteTo(t *testing.T) { metrics.SkipTimestamp = true reg := metrics.NewRegister() var buf bytes.Buffer n, err := reg.WriteTo(&buf) if err != nil { t.Fatal("got error:", err) } if n != int64(buf.Len()) { t.Errorf("n = %d with %d bytes written", n, buf.Len()) } if got, want := buf.String(), "# Prometheus Samples\n"; got != want { t.Errorf("got %q, want %q", got, want) } reg.Must1LabelReal("v", "sign")("π").Set(math.Pi) buf.Reset() n, err = reg.WriteTo(&buf) if err != nil { t.Fatal("got error:", err) } if n != int64(buf.Len()) { t.Errorf("n = %d with %d bytes written", n, buf.Len()) } const want = `# Prometheus Samples # TYPE v gauge v{sign="π"} 3.141592653589793 ` if got := buf.String(); got != want { t.Errorf("got %q, want %q", got, want) } } func TestServeHTTP(t *testing.T) { metrics.SkipTimestamp = true reg := metrics.NewRegister() m1 := reg.MustReal("m1", "🆘") m1.Set(42) m2 := reg.MustCounter("m2", "escape\n… and \\") m2.Add(1) m2.Add(8) rec := httptest.NewRecorder() reg.ServeHTTP(rec, httptest.NewRequest("GET", "/metrics", nil)) contentType := rec.Result().Header.Get("Content-Type") if media, params, err := mime.ParseMediaType(contentType); err != nil { t.Errorf("malformed content type %q: %s", contentType, err) } else if media != "text/plain" { t.Errorf("got content type %q, want plain text", contentType) } else if params["version"] != "0.0.4" { t.Errorf("got content type %q, want version 0.0.4", contentType) } const want = `# Prometheus Samples # TYPE m1 gauge # HELP m1 🆘 m1 42 # TYPE m2 counter # HELP m2 escape\n… and \\ m2 9 ` if got := rec.Body.String(); got != want { t.Errorf("got %q", got) t.Errorf("want %q", want) } } func TestHTTPMethods(t *testing.T) { rec := httptest.NewRecorder() metrics.NewRegister().ServeHTTP(rec, httptest.NewRequest("POST", "/metrics", nil)) got := rec.Result() if got.StatusCode != 405 { t.Errorf("got status code %d, want 405", got.StatusCode) } allow := got.Header.Get("Allow") if !strings.Contains(allow, "OPTIONS") || !strings.Contains(allow, "GET") || !strings.Contains(allow, "HEAD") { t.Errorf("got allow %q, want OPTIONS, GET and HEAD", allow) } } type voidResponseWriter int64 func (w *voidResponseWriter) Header() http.Header { return http.Header{} } func (w *voidResponseWriter) WriteHeader(statusCode int) {} func (w *voidResponseWriter) Write(p []byte) (int, error) { *w += voidResponseWriter(len(p)) return len(p), nil } func (w *voidResponseWriter) WriteString(s string) (int, error) { *w += voidResponseWriter(len(s)) return len(s), nil } func BenchmarkServeHTTP(b *testing.B) { var reg *metrics.Register benchmarkHTTPHandler := func(b *testing.B) { req := httptest.NewRequest("GET", "/metrics", nil) var w voidResponseWriter for i := 0; i < b.N; i++ { reg.ServeHTTP(&w, req) } b.SetBytes(int64(w) / int64(b.N)) } for _, n := range []int{32, 1024, 32768} { b.Run(strconv.Itoa(n), func(b *testing.B) { reg = metrics.NewRegister() for i := n; i > 0; i-- { reg.MustCounter("integer"+strconv.Itoa(i)+"_bench_unit", "").Add(uint64(i)) } b.Run("counter", benchmarkHTTPHandler) reg = metrics.NewRegister() for i := n; i > 0; i-- { reg.MustReal("real"+strconv.Itoa(i)+"_bench_unit", "").Set(float64(i)) } b.Run("real", benchmarkHTTPHandler) reg = metrics.NewRegister() for i := n; i > 0; i-- { reg.MustInteger("integer"+strconv.Itoa(i)+"_bench_unit", "").Set(int64(i)) } b.Run("integer", benchmarkHTTPHandler) reg = metrics.NewRegister() for i := n; i > 0; i-- { reg.MustHistogram("histogram"+strconv.Itoa(i)+"_bench_unit", "", 1, 2, 3, 4).Add(3.14) } b.Run("histogram5", benchmarkHTTPHandler) reg = metrics.NewRegister() for i := n; i > 0; i-- { reg.Must1LabelReal("real"+strconv.Itoa(i)+"_label_bench_unit", "first")(strconv.Itoa(i % 5)).Set(float64(i)) } b.Run("label5", benchmarkHTTPHandler) reg = metrics.NewRegister() for i := n; i > 0; i-- { reg.Must3LabelReal("real"+strconv.Itoa(i)+"_3label_bench_unit", "first", "second", "third")(strconv.Itoa(i%2), strconv.Itoa(i%3), strconv.Itoa(i%5)).Set(float64(i)) } b.Run("label2x3x5", benchmarkHTTPHandler) reg = metrics.NewRegister() for i := n; i > 0; i-- { reg.MustRealSample("real"+strconv.Itoa(i)+"_bench_unit", "").Set(float64(i), time.Now()) } b.Run("sample", benchmarkHTTPHandler) }) } }
{ "repo_name": "pascaldekloe/metrics", "stars": "26", "repo_language": "Go", "file_name": "gostat.go", "mime_type": "text/plain" }
package metrics import "testing" func TestRegisterLabelClash(t *testing.T) { var labels = []string{"first", "another"} // test any order of the labels for _, label1 := range labels { for _, label2 := range labels { if label1 == label2 { // undefined in the specification continue } f := NewRegister().Must2LabelCounter f("test_metric", labels[0], labels[1]) func() { defer func() { if recover() == nil { t.Errorf("no panic for reuse with (%q, %q)", label1, label2) } }() f("test_metric", label1, label2) }() } } labels = append(labels, "last") for _, label1 := range labels { for _, label2 := range labels { for _, label3 := range labels { if label1 == label2 || label1 == label3 || label2 == label3 { // undefined in the specification continue } f := NewRegister().Must3LabelCounter f("test_metric", labels[0], labels[1], labels[2]) func() { defer func() { if recover() == nil { t.Errorf("no panic for reuse with (%q, %q, %q)", label1, label2, label3) } }() f("test_metric", label1, label2, label3) }() } } } } func TestSort3(t *testing.T) { golden := []struct { S1, S2, S3 string Order int Want1, Want2, Want3 string }{ {"a", "b", "c", order123, "a", "b", "c"}, {"a", "c", "b", order132, "a", "b", "c"}, {"b", "a", "c", order213, "a", "b", "c"}, {"b", "c", "a", order231, "a", "b", "c"}, {"c", "a", "b", order312, "a", "b", "c"}, {"c", "b", "a", order321, "a", "b", "c"}, } for _, gold := range golden { s1, s2, s3 := gold.S1, gold.S2, gold.S3 order := sort3(&s1, &s2, &s3) if order != gold.Order { t.Errorf("(%q, %q, %q) got order %d, want %d", gold.S1, gold.S2, gold.S3, order, gold.Order) } if s1 != gold.Want1 || s2 != gold.Want2 || s3 != gold.Want3 { t.Errorf("(%q, %q, %q) got (%q, %q, %q), want (%q, %q, %q)", gold.S1, gold.S2, gold.S3, s1, s2, s3, gold.Want1, gold.Want2, gold.Want3) } } }
{ "repo_name": "pascaldekloe/metrics", "stars": "26", "repo_language": "Go", "file_name": "gostat.go", "mime_type": "text/plain" }
package metrics import ( "strings" "sync" ) const ( counterID = iota counterSampleID integerID realID realSampleID histogramID ) // Help comments may have any [!] byte content, i.e., there is no illegal value. var helpEscapes = strings.NewReplacer("\n", `\n`, `\`, `\\`) // Metric is a named record. type metric struct { typeID uint comments string // TYPE + optional HELP counter *Counter integer *Integer real *Real histogram *Histogram sample *Sample labels []*labelMapping } func newMetric(name, help string, typeID uint) *metric { // compose comments var buf strings.Builder buf.Grow(len(name)*2 + len(help) + 27) buf.WriteString("\n# TYPE ") buf.WriteString(name) switch typeID { case counterID, counterSampleID: buf.WriteString(" counter") case integerID, realID, realSampleID: buf.WriteString(" gauge") case histogramID: buf.WriteString(" histogram") } if help != "" { buf.WriteString("\n# HELP ") buf.WriteString(name) buf.WriteByte(' ') helpEscapes.WriteString(&buf, help) } buf.WriteByte('\n') return &metric{typeID: typeID, comments: buf.String()} } func (m *metric) mustLabel(name, labelName1, labelName2, labelName3 string) *labelMapping { entry := &labelMapping{ name: name, labelNames: [...]string{labelName1, labelName2, labelName3}, } for _, o := range m.labels { if o.labelNames == entry.labelNames { panic("metrics: labels already in use") } } m.labels = append(m.labels, entry) return entry } var std = NewRegister() // Register is a metric bundle. type Register struct { mutex sync.RWMutex // mapping by name indices map[string]uint32 // consistent order metrics []*metric } // NewRegister returns an empty metric bundle. The corresponding functions // of each Register method operate on the (hidden) default instance. func NewRegister() *Register { return &Register{indices: make(map[string]uint32)} } func (reg *Register) mustGetOrSetMetric(name string, m *metric) *metric { if index, ok := reg.indices[name]; ok { // get it is got := reg.metrics[index] if got.typeID != m.typeID { panic("metrics: name already in use as another type") } return got } // set it is reg.indices[name] = uint32(len(reg.metrics)) reg.metrics = append(reg.metrics, m) return m } func (reg *Register) mustGetOrCreateMetric(name string, typeID uint) *metric { if index, ok := reg.indices[name]; ok { // get it is got := reg.metrics[index] if got.typeID != typeID { panic("metrics: name already in use as another type") } return got } // create it is m := newMetric(name, "", typeID) reg.indices[name] = uint32(len(reg.metrics)) reg.metrics = append(reg.metrics, m) return m } // MustCounter registers a new Counter. Registration panics when name // was registered before, or when name doesn't match regular expression // [a-zA-Z_:][a-zA-Z0-9_:]*. Help is an optional comment text. func MustCounter(name, help string) *Counter { return std.MustCounter(name, help) } // MustCounter registers a new Counter. Registration panics when name // was registered before, or when name doesn't match regular expression // [a-zA-Z_:][a-zA-Z0-9_:]*. Help is an optional comment text. func (reg *Register) MustCounter(name, help string) *Counter { mustValidMetricName(name) m := newMetric(name, help, counterID) reg.mutex.Lock() defer reg.mutex.Unlock() m = reg.mustGetOrSetMetric(name, m) if m.counter != nil { panic("metrics: name already in use") } m.counter = &Counter{prefix: name + " "} return m.counter } // MustInteger registers a new gauge. Registration panics when name // was registered before, or when name doesn't match regular expression // [a-zA-Z_:][a-zA-Z0-9_:]*. Help is an optional comment text. func MustInteger(name, help string) *Integer { return std.MustInteger(name, help) } // MustInteger registers a new gauge. Registration panics when name // was registered before, or when name doesn't match regular expression // [a-zA-Z_:][a-zA-Z0-9_:]*. Help is an optional comment text. func (reg *Register) MustInteger(name, help string) *Integer { mustValidMetricName(name) m := newMetric(name, help, integerID) reg.mutex.Lock() defer reg.mutex.Unlock() m = reg.mustGetOrSetMetric(name, m) if m.integer != nil { panic("metrics: name already in use") } m.integer = &Integer{prefix: name + " "} return m.integer } // MustReal registers a new gauge. Registration panics when name // was registered before, or when name doesn't match regular expression // [a-zA-Z_:][a-zA-Z0-9_:]*. Help is an optional comment text. func MustReal(name, help string) *Real { return std.MustReal(name, help) } // MustReal registers a new gauge. Registration panics when name // was registered before, or when name doesn't match regular expression // [a-zA-Z_:][a-zA-Z0-9_:]*. Help is an optional comment text. func (reg *Register) MustReal(name, help string) *Real { mustValidMetricName(name) m := newMetric(name, help, realID) reg.mutex.Lock() defer reg.mutex.Unlock() m = reg.mustGetOrSetMetric(name, m) if m.real != nil { panic("metrics: name already in use") } m.real = &Real{prefix: name + " "} return m.real } // MustHistogram registers a new Histogram. Registration panics when name // was registered before, or when name doesn't match regular expression // [a-zA-Z_:][a-zA-Z0-9_:]*. Help is an optional comment text. // // Buckets are defined as upper boundary values, with positive infinity // implied when absent. Any ∞ or not-a-number (NaN) value is ignored. func MustHistogram(name, help string, buckets ...float64) *Histogram { return std.MustHistogram(name, help, buckets...) } // MustHistogram registers a new Histogram. Registration panics when name // was registered before, or when name doesn't match regular expression // [a-zA-Z_:][a-zA-Z0-9_:]*. Help is an optional comment text. // // Buckets are defined as upper boundary values, with positive infinity // implied when absent. Any ∞ or not-a-number (NaN) value is ignored. func (reg *Register) MustHistogram(name, help string, buckets ...float64) *Histogram { mustValidMetricName(name) m := newMetric(name, help, histogramID) h := newHistogram(name, buckets) reg.mutex.Lock() defer reg.mutex.Unlock() m = reg.mustGetOrSetMetric(name, m) if m.histogram != nil { panic("metrics: name already in use") } m.histogram = h return h } // MustRealSample registers a new Sample. Registration panics when name // was registered before, or when name doesn't match regular expression // [a-zA-Z_:][a-zA-Z0-9_:]*. Help is an optional comment text. func MustRealSample(name, help string) *Sample { return std.MustRealSample(name, help) } // MustRealSample registers a new Sample. Registration panics when name // was registered before, or when name doesn't match regular expression // [a-zA-Z_:][a-zA-Z0-9_:]*. Help is an optional comment text. func (reg *Register) MustRealSample(name, help string) *Sample { mustValidMetricName(name) m := newMetric(name, help, realSampleID) reg.mutex.Lock() defer reg.mutex.Unlock() m = reg.mustGetOrSetMetric(name, m) if m.sample != nil { panic("metrics: name already in use") } m.sample = &Sample{prefix: name + " "} return m.sample } // MustCounterSample registers a new Sample. Registration panics when name // was registered before, or when name doesn't match regular expression // [a-zA-Z_:][a-zA-Z0-9_:]*. Help is an optional comment text. func MustCounterSample(name, help string) *Sample { return std.MustCounterSample(name, help) } // MustCounterSample registers a new Sample. Registration panics when name // was registered before, or when name doesn't match regular expression // [a-zA-Z_:][a-zA-Z0-9_:]*. Help is an optional comment text. func (reg *Register) MustCounterSample(name, help string) *Sample { mustValidMetricName(name) m := newMetric(name, help, counterSampleID) reg.mutex.Lock() defer reg.mutex.Unlock() m = reg.mustGetOrSetMetric(name, m) if m.sample != nil { panic("metrics: name already in use") } m.sample = &Sample{prefix: name + " "} return m.sample } // Must1LabelCounter returns a function which registers a dedicated Counter // for each unique label combination. Multiple goroutines may invoke the // returned simultaneously. Remember that each Counter represents a new time // series, which can dramatically increase the amount of data stored. // // Must panics on any of the following: // (1) name in use as another metric type, // (2) name doesn't match regular expression [a-zA-Z_:][a-zA-Z0-9_:]*, // (3) labelName does not match regular expression [a-zA-Z_][a-zA-Z0-9_]* or // (4) labelName is already in use. func Must1LabelCounter(name, labelName string) func(labelValue string) *Counter { return std.Must1LabelCounter(name, labelName) } // Must1LabelCounter returns a function which registers a dedicated Counter // for each unique label combination. Multiple goroutines may invoke the // returned simultaneously. Remember that each Counter represents a new time // series, which can dramatically increase the amount of data stored. // // Must panics on any of the following: // (1) name in use as another metric type, // (2) name doesn't match regular expression [a-zA-Z_:][a-zA-Z0-9_:]*, // (3) labelName does not match regular expression [a-zA-Z_][a-zA-Z0-9_]* or // (4) labelName is already in use. func (reg *Register) Must1LabelCounter(name, labelName string) func(labelValue string) *Counter { mustValidNames(name, labelName) reg.mutex.Lock() defer reg.mutex.Unlock() l := reg.mustGetOrCreateMetric(name, counterID).mustLabel(name, labelName, "", "") return l.counter1 } // Must2LabelCounter returns a function which registers a dedicated Counter // for each unique label combination. Multiple goroutines may invoke the // returned simultaneously. Remember that each Counter represents a new time // series, which can dramatically increase the amount of data stored. // // Must panics on any of the following: // (1) name in use as another metric type, // (2) name doesn't match regular expression [a-zA-Z_:][a-zA-Z0-9_:]*, // (3) label names don't match regular expression [a-zA-Z_][a-zA-Z0-9_]* or // (4) label names are already in use. func Must2LabelCounter(name, label1Name, label2Name string) func(label1Value, label2Value string) *Counter { return std.Must2LabelCounter(name, label1Name, label2Name) } // Must2LabelCounter returns a function which registers a dedicated Counter // for each unique label combination. Multiple goroutines may invoke the // returned simultaneously. Remember that each Counter represents a new time // series, which can dramatically increase the amount of data stored. // // Must panics on any of the following: // (1) name in use as another metric type, // (2) name doesn't match regular expression [a-zA-Z_:][a-zA-Z0-9_:]*, // (3) label names don't match regular expression [a-zA-Z_][a-zA-Z0-9_]* or // (4) label names are already in use. func (reg *Register) Must2LabelCounter(name, label1Name, label2Name string) func(label1Value, label2Value string) *Counter { mustValidNames(name, label1Name, label2Name) var flip bool if label1Name > label2Name { label1Name, label2Name = label2Name, label1Name flip = true } reg.mutex.Lock() defer reg.mutex.Unlock() l := reg.mustGetOrCreateMetric(name, counterID).mustLabel(name, label1Name, label2Name, "") if flip { return l.counter21 } return l.counter12 } // Must3LabelCounter returns a function which registers a dedicated Counter // for each unique label combination. Multiple goroutines may invoke the // returned simultaneously. Remember that each Counter represents a new time // series, which can dramatically increase the amount of data stored. // // Must panics on any of the following: // (1) name in use as another metric type, // (2) name doesn't match regular expression [a-zA-Z_:][a-zA-Z0-9_:]*, // (3) label names don't match regular expression [a-zA-Z_][a-zA-Z0-9_]* or // (4) label names are already in use. func Must3LabelCounter(name, label1Name, label2Name, label3Name string) func(label1Value, label2Value, label3Value string) *Counter { return std.Must3LabelCounter(name, label1Name, label2Name, label3Name) } // Must3LabelCounter returns a function which registers a dedicated Counter // for each unique label combination. Multiple goroutines may invoke the // returned simultaneously. Remember that each Counter represents a new time // series, which can dramatically increase the amount of data stored. // // Must panics on any of the following: // (1) name in use as another metric type, // (2) name doesn't match regular expression [a-zA-Z_:][a-zA-Z0-9_:]*, // (3) label names don't match regular expression [a-zA-Z_][a-zA-Z0-9_]* or // (4) label names are already in use. func (reg *Register) Must3LabelCounter(name, label1Name, label2Name, label3Name string) func(label1Value, label2Value, label3Value string) *Counter { mustValidNames(name, label1Name, label2Name, label3Name) order := sort3(&label1Name, &label2Name, &label3Name) reg.mutex.Lock() defer reg.mutex.Unlock() l := reg.mustGetOrCreateMetric(name, counterID).mustLabel(name, label1Name, label2Name, label3Name) switch order { case order123: return l.counter123 case order132: return l.counter132 case order213: return l.counter213 case order231: return l.counter231 case order312: return l.counter312 case order321: return l.counter321 default: panic(order) } } // Must1LabelInteger returns a function which registers a dedicated Integer // for each unique label combination. Multiple goroutines may invoke the // returned simultaneously. Remember that each Integer represents a new time // series, which can dramatically increase the amount of data stored. // // Must panics on any of the following: // (1) name in use as another metric type, // (2) name doesn't match regular expression [a-zA-Z_:][a-zA-Z0-9_:]*, // (3) labelName does not match regular expression [a-zA-Z_][a-zA-Z0-9_]* or // (4) labelName is already in use. func Must1LabelInteger(name, labelName string) func(labelValue string) *Integer { return std.Must1LabelInteger(name, labelName) } // Must1LabelInteger returns a function which registers a dedicated Integer // for each unique label combination. Multiple goroutines may invoke the // returned simultaneously. Remember that each Integer represents a new time // series, which can dramatically increase the amount of data stored. // // Must panics on any of the following: // (1) name in use as another metric type, // (2) name doesn't match regular expression [a-zA-Z_:][a-zA-Z0-9_:]*, // (3) labelName does not match regular expression [a-zA-Z_][a-zA-Z0-9_]* or // (4) labelName is already in use. func (reg *Register) Must1LabelInteger(name, labelName string) func(labelValue string) *Integer { mustValidNames(name, labelName) reg.mutex.Lock() defer reg.mutex.Unlock() l := reg.mustGetOrCreateMetric(name, integerID).mustLabel(name, labelName, "", "") return l.integer1 } // Must2LabelInteger returns a function which registers a dedicated Integer // for each unique label combination. Multiple goroutines may invoke the // returned simultaneously. Remember that each Integer represents a new time // series, which can dramatically increase the amount of data stored. // // Must panics on any of the following: // (1) name in use as another metric type, // (2) name doesn't match regular expression [a-zA-Z_:][a-zA-Z0-9_:]*, // (3) label names don't match regular expression [a-zA-Z_][a-zA-Z0-9_]* or // (4) label names are already in use. func Must2LabelInteger(name, label1Name, label2Name string) func(label1Value, label2Value string) *Integer { return std.Must2LabelInteger(name, label1Name, label2Name) } // Must2LabelInteger returns a function which registers a dedicated Integer // for each unique label combination. Multiple goroutines may invoke the // returned simultaneously. Remember that each Integer represents a new time // series, which can dramatically increase the amount of data stored. // // Must panics on any of the following: // (1) name in use as another metric type, // (2) name doesn't match regular expression [a-zA-Z_:][a-zA-Z0-9_:]*, // (3) label names don't match regular expression [a-zA-Z_][a-zA-Z0-9_]* or // (4) label names are already in use. func (reg *Register) Must2LabelInteger(name, label1Name, label2Name string) func(label1Value, label2Value string) *Integer { mustValidNames(name, label1Name, label2Name) var flip bool if label1Name > label2Name { label1Name, label2Name = label2Name, label1Name flip = true } reg.mutex.Lock() defer reg.mutex.Unlock() l := reg.mustGetOrCreateMetric(name, integerID).mustLabel(name, label1Name, label2Name, "") if flip { return l.integer21 } return l.integer12 } // Must3LabelInteger returns a function which registers a dedicated Integer // for each unique label combination. Multiple goroutines may invoke the // returned simultaneously. Remember that each Integer represents a new time // series, which can dramatically increase the amount of data stored. // // Must panics on any of the following: // (1) name in use as another metric type, // (2) name doesn't match regular expression [a-zA-Z_:][a-zA-Z0-9_:]*, // (3) label names don't match regular expression [a-zA-Z_][a-zA-Z0-9_]* or // (4) label names are already in use. func Must3LabelInteger(name, label1Name, label2Name, label3Name string) func(label1Value, label2Value, label3Value string) *Integer { return std.Must3LabelInteger(name, label1Name, label2Name, label3Name) } // Must3LabelInteger returns a function which registers a dedicated Integer // for each unique label combination. Multiple goroutines may invoke the // returned simultaneously. Remember that each Integer represents a new time // series, which can dramatically increase the amount of data stored. // // Must panics on any of the following: // (1) name in use as another metric type, // (2) name doesn't match regular expression [a-zA-Z_:][a-zA-Z0-9_:]*, // (3) label names don't match regular expression [a-zA-Z_][a-zA-Z0-9_]* or // (4) label names are already in use. func (reg *Register) Must3LabelInteger(name, label1Name, label2Name, label3Name string) func(label1Value, label2Value, label3Value string) *Integer { mustValidNames(name, label1Name, label2Name, label3Name) order := sort3(&label1Name, &label2Name, &label3Name) reg.mutex.Lock() defer reg.mutex.Unlock() l := reg.mustGetOrCreateMetric(name, integerID).mustLabel(name, label1Name, label2Name, label3Name) switch order { case order123: return l.integer123 case order132: return l.integer132 case order213: return l.integer213 case order231: return l.integer231 case order312: return l.integer312 case order321: return l.integer321 default: panic(order) } } // Must1LabelReal returns a function which registers a dedicated Real // for each unique label combination. Multiple goroutines may invoke the // returned simultaneously. Remember that each Real represents a new time // series, which can dramatically increase the amount of data stored. // // Must panics on any of the following: // (1) name in use as another metric type, // (2) name doesn't match regular expression [a-zA-Z_:][a-zA-Z0-9_:]*, // (3) labelName does not match regular expression [a-zA-Z_][a-zA-Z0-9_]* or // (4) labelName is already in use. func Must1LabelReal(name, labelName string) func(labelValue string) *Real { return std.Must1LabelReal(name, labelName) } // Must1LabelReal returns a function which registers a dedicated Real // for each unique label combination. Multiple goroutines may invoke the // returned simultaneously. Remember that each Real represents a new time // series, which can dramatically increase the amount of data stored. // // Must panics on any of the following: // (1) name in use as another metric type, // (2) name doesn't match regular expression [a-zA-Z_:][a-zA-Z0-9_:]*, // (3) labelName does not match regular expression [a-zA-Z_][a-zA-Z0-9_]* or // (4) labelName is already in use. func (reg *Register) Must1LabelReal(name, labelName string) func(labelValue string) *Real { mustValidNames(name, labelName) reg.mutex.Lock() defer reg.mutex.Unlock() l := reg.mustGetOrCreateMetric(name, realID).mustLabel(name, labelName, "", "") return l.real1 } // Must2LabelReal returns a function which registers a dedicated Real // for each unique label combination. Multiple goroutines may invoke the // returned simultaneously. Remember that each Real represents a new time // series, which can dramatically increase the amount of data stored. // // Must panics on any of the following: // (1) name in use as another metric type, // (2) name doesn't match regular expression [a-zA-Z_:][a-zA-Z0-9_:]*, // (3) label names don't match regular expression [a-zA-Z_][a-zA-Z0-9_]* or // (4) label names are already in use. func Must2LabelReal(name, label1Name, label2Name string) func(label1Value, label2Value string) *Real { return std.Must2LabelReal(name, label1Name, label2Name) } // Must2LabelReal returns a function which registers a dedicated Real // for each unique label combination. Multiple goroutines may invoke the // returned simultaneously. Remember that each Real represents a new time // series, which can dramatically increase the amount of data stored. // // Must panics on any of the following: // (1) name in use as another metric type, // (2) name doesn't match regular expression [a-zA-Z_:][a-zA-Z0-9_:]*, // (3) label names don't match regular expression [a-zA-Z_][a-zA-Z0-9_]* or // (4) label names are already in use. func (reg *Register) Must2LabelReal(name, label1Name, label2Name string) func(label1Value, label2Value string) *Real { mustValidNames(name, label1Name, label2Name) var flip bool if label1Name > label2Name { label1Name, label2Name = label2Name, label1Name flip = true } reg.mutex.Lock() defer reg.mutex.Unlock() l := reg.mustGetOrCreateMetric(name, realID).mustLabel(name, label1Name, label2Name, "") if flip { return l.real21 } return l.real12 } // Must3LabelReal returns a function which registers a dedicated Real // for each unique label combination. Multiple goroutines may invoke the // returned simultaneously. Remember that each Real represents a new time // series, which can dramatically increase the amount of data stored. // // Must panics on any of the following: // (1) name in use as another metric type, // (2) name doesn't match regular expression [a-zA-Z_:][a-zA-Z0-9_:]*, // (3) label names don't match regular expression [a-zA-Z_][a-zA-Z0-9_]* or // (4) label names are already in use. func Must3LabelReal(name, label1Name, label2Name, label3Name string) func(label1Value, label2Value, label3Value string) *Real { return std.Must3LabelReal(name, label1Name, label2Name, label3Name) } // Must3LabelReal returns a function which registers a dedicated Real // for each unique label combination. Multiple goroutines may invoke the // returned simultaneously. Remember that each Real represents a new time // series, which can dramatically increase the amount of data stored. // // Must panics on any of the following: // (1) name in use as another metric type, // (2) name doesn't match regular expression [a-zA-Z_:][a-zA-Z0-9_:]*, // (3) label names don't match regular expression [a-zA-Z_][a-zA-Z0-9_]* or // (4) label names are already in use. func (reg *Register) Must3LabelReal(name, label1Name, label2Name, label3Name string) func(label1Value, label2Value, label3Value string) *Real { mustValidNames(name, label1Name, label2Name, label3Name) order := sort3(&label1Name, &label2Name, &label3Name) reg.mutex.Lock() defer reg.mutex.Unlock() l := reg.mustGetOrCreateMetric(name, realID).mustLabel(name, label1Name, label2Name, label3Name) switch order { case order123: return l.real123 case order132: return l.real132 case order213: return l.real213 case order231: return l.real231 case order312: return l.real312 case order321: return l.real321 default: panic(order) } } // Must1LabelCounterSample returns a function which registers a dedicated Sample // for each unique label combination. Multiple goroutines may invoke the // returned simultaneously. Remember that each Sample represents a new time // series, which can dramatically increase the amount of data stored. // // Must panics on any of the following: // (1) name in use as another metric type, // (2) name doesn't match regular expression [a-zA-Z_:][a-zA-Z0-9_:]*, // (3) labelName does not match regular expression [a-zA-Z_][a-zA-Z0-9_]* or // (4) labelName is already in use. func Must1LabelCounterSample(name, labelName string) func(labelValue string) *Sample { return std.Must1LabelCounterSample(name, labelName) } // Must1LabelCounterSample returns a function which registers a dedicated Sample // for each unique label combination. Multiple goroutines may invoke the // returned simultaneously. Remember that each Sample represents a new time // series, which can dramatically increase the amount of data stored. // // Must panics on any of the following: // (1) name in use as another metric type, // (2) name doesn't match regular expression [a-zA-Z_:][a-zA-Z0-9_:]*, // (3) labelName does not match regular expression [a-zA-Z_][a-zA-Z0-9_]* or // (4) labelName is already in use. func (reg *Register) Must1LabelCounterSample(name, labelName string) func(labelValue string) *Sample { mustValidNames(name, labelName) reg.mutex.Lock() defer reg.mutex.Unlock() l := reg.mustGetOrCreateMetric(name, counterSampleID).mustLabel(name, labelName, "", "") return l.sample1 } // Must2LabelCounterSample returns a function which registers a dedicated Sample // for each unique label combination. Multiple goroutines may invoke the // returned simultaneously. Remember that each Sample represents a new time // series, which can dramatically increase the amount of data stored. // // Must panics on any of the following: // (1) name in use as another metric type, // (2) name doesn't match regular expression [a-zA-Z_:][a-zA-Z0-9_:]*, // (3) label names don't match regular expression [a-zA-Z_][a-zA-Z0-9_]* or // (4) label names are already in use. func Must2LabelCounterSample(name, label1Name, label2Name string) func(label1Value, label2Value string) *Sample { return std.Must2LabelCounterSample(name, label1Name, label2Name) } // Must2LabelCounterSample returns a function which registers a dedicated Sample // for each unique label combination. Multiple goroutines may invoke the // returned simultaneously. Remember that each Sample represents a new time // series, which can dramatically increase the amount of data stored. // // Must panics on any of the following: // (1) name in use as another metric type, // (2) name doesn't match regular expression [a-zA-Z_:][a-zA-Z0-9_:]*, // (3) label names don't match regular expression [a-zA-Z_][a-zA-Z0-9_]* or // (4) label names are already in use. func (reg *Register) Must2LabelCounterSample(name, label1Name, label2Name string) func(label1Value, label2Value string) *Sample { mustValidNames(name, label1Name, label2Name) var flip bool if label1Name > label2Name { label1Name, label2Name = label2Name, label1Name flip = true } reg.mutex.Lock() defer reg.mutex.Unlock() l := reg.mustGetOrCreateMetric(name, counterSampleID).mustLabel(name, label1Name, label2Name, "") if flip { return l.sample21 } return l.sample12 } // Must3LabelCounterSample returns a function which registers a dedicated Sample // for each unique label combination. Multiple goroutines may invoke the // returned simultaneously. Remember that each Sample represents a new time // series, which can dramatically increase the amount of data stored. // // Must panics on any of the following: // (1) name in use as another metric type, // (2) name doesn't match regular expression [a-zA-Z_:][a-zA-Z0-9_:]*, // (3) label names don't match regular expression [a-zA-Z_][a-zA-Z0-9_]* or // (4) label names are already in use. func Must3LabelCounterSample(name, label1Name, label2Name, label3Name string) func(label1Value, label2Value, label3Value string) *Sample { return std.Must3LabelCounterSample(name, label1Name, label2Name, label3Name) } // Must3LabelCounterSample returns a function which registers a dedicated Sample // for each unique label combination. Multiple goroutines may invoke the // returned simultaneously. Remember that each Sample represents a new time // series, which can dramatically increase the amount of data stored. // // Must panics on any of the following: // (1) name in use as another metric type, // (2) name doesn't match regular expression [a-zA-Z_:][a-zA-Z0-9_:]*, // (3) label names don't match regular expression [a-zA-Z_][a-zA-Z0-9_]* or // (4) label names are already in use. func (reg *Register) Must3LabelCounterSample(name, label1Name, label2Name, label3Name string) func(label1Value, label2Value, label3Value string) *Sample { mustValidNames(name, label1Name, label2Name, label3Name) order := sort3(&label1Name, &label2Name, &label3Name) reg.mutex.Lock() defer reg.mutex.Unlock() l := reg.mustGetOrCreateMetric(name, counterSampleID).mustLabel(name, label1Name, label2Name, label3Name) switch order { case order123: return l.sample123 case order132: return l.sample132 case order213: return l.sample213 case order231: return l.sample231 case order312: return l.sample312 case order321: return l.sample321 default: panic(order) } } // Must1LabelRealSample returns a function which registers a dedicated Sample // for each unique label combination. Multiple goroutines may invoke the // returned simultaneously. Remember that each Sample represents a new time // series, which can dramatically increase the amount of data stored. // // Must panics on any of the following: // (1) name in use as another metric type, // (2) name doesn't match regular expression [a-zA-Z_:][a-zA-Z0-9_:]*, // (3) labelName does not match regular expression [a-zA-Z_][a-zA-Z0-9_]* or // (4) labelName is already in use. func Must1LabelRealSample(name, labelName string) func(labelValue string) *Sample { return std.Must1LabelRealSample(name, labelName) } // Must1LabelRealSample returns a function which registers a dedicated Sample // for each unique label combination. Multiple goroutines may invoke the // returned simultaneously. Remember that each Sample represents a new time // series, which can dramatically increase the amount of data stored. // // Must panics on any of the following: // (1) name in use as another metric type, // (2) name doesn't match regular expression [a-zA-Z_:][a-zA-Z0-9_:]*, // (3) labelName does not match regular expression [a-zA-Z_][a-zA-Z0-9_]* or // (4) labelName is already in use. func (reg *Register) Must1LabelRealSample(name, labelName string) func(labelValue string) *Sample { mustValidNames(name, labelName) reg.mutex.Lock() defer reg.mutex.Unlock() l := reg.mustGetOrCreateMetric(name, realSampleID).mustLabel(name, labelName, "", "") return l.sample1 } // Must2LabelRealSample returns a function which registers a dedicated Sample // for each unique label combination. Multiple goroutines may invoke the // returned simultaneously. Remember that each Sample represents a new time // series, which can dramatically increase the amount of data stored. // // Must panics on any of the following: // (1) name in use as another metric type, // (2) name doesn't match regular expression [a-zA-Z_:][a-zA-Z0-9_:]*, // (3) label names don't match regular expression [a-zA-Z_][a-zA-Z0-9_]* or // (4) label names are already in use. func Must2LabelRealSample(name, label1Name, label2Name string) func(label1Value, label2Value string) *Sample { return std.Must2LabelRealSample(name, label1Name, label2Name) } // Must2LabelRealSample returns a function which registers a dedicated Sample // for each unique label combination. Multiple goroutines may invoke the // returned simultaneously. Remember that each Sample represents a new time // series, which can dramatically increase the amount of data stored. // // Must panics on any of the following: // (1) name in use as another metric type, // (2) name doesn't match regular expression [a-zA-Z_:][a-zA-Z0-9_:]*, // (3) label names don't match regular expression [a-zA-Z_][a-zA-Z0-9_]* or // (4) label names are already in use. func (reg *Register) Must2LabelRealSample(name, label1Name, label2Name string) func(label1Value, label2Value string) *Sample { mustValidNames(name, label1Name, label2Name) var flip bool if label1Name > label2Name { label1Name, label2Name = label2Name, label1Name flip = true } reg.mutex.Lock() defer reg.mutex.Unlock() l := reg.mustGetOrCreateMetric(name, realSampleID).mustLabel(name, label1Name, label2Name, "") if flip { return l.sample21 } return l.sample12 } // Must3LabelRealSample returns a function which registers a dedicated Sample // for each unique label combination. Multiple goroutines may invoke the // returned simultaneously. Remember that each Sample represents a new time // series, which can dramatically increase the amount of data stored. // // Must panics on any of the following: // (1) name in use as another metric type, // (2) name doesn't match regular expression [a-zA-Z_:][a-zA-Z0-9_:]*, // (3) label names don't match regular expression [a-zA-Z_][a-zA-Z0-9_]* or // (4) label names are already in use. func Must3LabelRealSample(name, label1Name, label2Name, label3Name string) func(label1Value, label2Value, label3Value string) *Sample { return std.Must3LabelRealSample(name, label1Name, label2Name, label3Name) } // Must3LabelRealSample returns a function which registers a dedicated Sample // for each unique label combination. Multiple goroutines may invoke the // returned simultaneously. Remember that each Sample represents a new time // series, which can dramatically increase the amount of data stored. // // Must panics on any of the following: // (1) name in use as another metric type, // (2) name doesn't match regular expression [a-zA-Z_:][a-zA-Z0-9_:]*, // (3) label names don't match regular expression [a-zA-Z_][a-zA-Z0-9_]* or // (4) label names are already in use. func (reg *Register) Must3LabelRealSample(name, label1Name, label2Name, label3Name string) func(label1Value, label2Value, label3Value string) *Sample { mustValidNames(name, label1Name, label2Name, label3Name) order := sort3(&label1Name, &label2Name, &label3Name) reg.mutex.Lock() defer reg.mutex.Unlock() l := reg.mustGetOrCreateMetric(name, realSampleID).mustLabel(name, label1Name, label2Name, label3Name) switch order { case order123: return l.sample123 case order132: return l.sample132 case order213: return l.sample213 case order231: return l.sample231 case order312: return l.sample312 case order321: return l.sample321 default: panic(order) } } // Must1LabelHistogram returns a function which registers a dedicated Histogram // for each unique label combination. Multiple goroutines may invoke the // returned simultaneously. Remember that each Histogram represents a new time // series, which can dramatically increase the amount of data stored. // // Must panics on any of the following: // (1) name in use as another metric type, // (2) name doesn't match regular expression [a-zA-Z_:][a-zA-Z0-9_:]*, // (3) labelName does not match regular expression [a-zA-Z_][a-zA-Z0-9_]* or // (4) labelName is already in use. // // Buckets are defined as upper boundary values, with positive infinity // implied when absent. Any ∞ or not-a-number (NaN) value is ignored. func Must1LabelHistogram(name, labelName string, buckets ...float64) func(labelValue string) *Histogram { return std.Must1LabelHistogram(name, labelName, buckets...) } // Must1LabelHistogram returns a function which registers a dedicated Histogram // for each unique label combination. Multiple goroutines may invoke the // returned simultaneously. Remember that each Histogram represents a new time // series, which can dramatically increase the amount of data stored. // // Must panics on any of the following: // (1) name in use as another metric type, // (2) name doesn't match regular expression [a-zA-Z_:][a-zA-Z0-9_:]*, // (3) labelName does not match regular expression [a-zA-Z_][a-zA-Z0-9_]* or // (4) labelName is already in use. // // Buckets are defined as upper boundary values, with positive infinity // implied when absent. Any ∞ or not-a-number (NaN) value is ignored. func (reg *Register) Must1LabelHistogram(name, labelName string, buckets ...float64) func(labelValue string) *Histogram { mustValidNames(name, labelName) reg.mutex.Lock() defer reg.mutex.Unlock() l := reg.mustGetOrCreateMetric(name, histogramID).mustLabel(name, labelName, "", "") l.buckets = buckets return l.histogram1 } // Must2LabelHistogram returns a function which registers a dedicated Histogram // for each unique label combination. Multiple goroutines may invoke the // returned simultaneously. Remember that each Histogram represents a new time // series, which can dramatically increase the amount of data stored. // // Must panics on any of the following: // (1) name in use as another metric type, // (2) name doesn't match regular expression [a-zA-Z_:][a-zA-Z0-9_:]*, // (3) label names don't match regular expression [a-zA-Z_][a-zA-Z0-9_]* or // (4) label names are already in use. // // Buckets are defined as upper boundary values, with positive infinity // implied when absent. Any ∞ or not-a-number (NaN) value is ignored. func Must2LabelHistogram(name, label1Name, label2Name string, buckets ...float64) func(label1Value, label2Value string) *Histogram { return std.Must2LabelHistogram(name, label1Name, label2Name, buckets...) } // Must2LabelHistogram returns a function which registers a dedicated Histogram // for each unique label combination. Multiple goroutines may invoke the // returned simultaneously. Remember that each Histogram represents a new time // series, which can dramatically increase the amount of data stored. // // Must panics on any of the following: // (1) name in use as another metric type, // (2) name doesn't match regular expression [a-zA-Z_:][a-zA-Z0-9_:]*, // (3) label names don't match regular expression [a-zA-Z_][a-zA-Z0-9_]* or // (4) label names are already in use. // // Buckets are defined as upper boundary values, with positive infinity // implied when absent. Any ∞ or not-a-number (NaN) value is ignored. func (reg *Register) Must2LabelHistogram(name, label1Name, label2Name string, buckets ...float64) func(label1Value, label2Value string) *Histogram { mustValidNames(name, label1Name, label2Name) var flip bool if label1Name > label2Name { label1Name, label2Name = label2Name, label1Name flip = true } reg.mutex.Lock() defer reg.mutex.Unlock() l := reg.mustGetOrCreateMetric(name, histogramID).mustLabel(name, label1Name, label2Name, "") l.buckets = buckets if flip { return l.histogram21 } return l.histogram12 } func mustValidNames(metricName string, labelNames ...string) { mustValidMetricName(metricName) for _, name := range labelNames { mustValidLabelName(name) } } func mustValidMetricName(s string) { if s == "" { panic("metrics: empty name") } for i := 0; i < len(s); i++ { c := s[i] if c >= 'a' && c <= 'z' || c >= 'A' && c <= 'Z' || c == '_' || c == ':' { continue } if i == 0 || c < '0' || c > '9' { panic("metrics: name doesn't match regular expression [a-zA-Z_:][a-zA-Z0-9_:]*") } } } func mustValidLabelName(s string) { if s == "" { panic("metrics: empty label name") } for i := 0; i < len(s); i++ { c := s[i] if c >= 'a' && c <= 'z' || c >= 'A' && c <= 'Z' || c == '_' { continue } if i == 0 || c < '0' || c > '9' { panic("metrics: label name doesn't match regular expression [a-zA-Z_][a-zA-Z0-9_]*") } } } // MustHelp sets the comment for the metric name. Any previous text is replaced. // The function panics when name is not in use. func MustHelp(name, text string) { std.MustHelp(name, text) } // MustHelp sets the comment for the metric name. Any previous text is replaced. // The function panics when name is not in use. func (reg *Register) MustHelp(name, text string) { reg.mutex.Lock() defer reg.mutex.Unlock() m := reg.metrics[reg.indices[name]] if m == nil { panic("metrics: name not in use") } // new-line characters are escaped in comments and label values i := strings.Index(m.comments, "\n# HELP ") if i >= 0 { // remove previous, but keep the new-line m.comments = m.comments[:i+1] } if text == "" { return // ommits HELP comment } var buf strings.Builder buf.Grow(len(m.comments) + len(name) + len(text) + 9) buf.WriteString(m.comments) buf.WriteString("# HELP ") buf.WriteString(name) buf.WriteByte(' ') helpEscapes.WriteString(&buf, text) buf.WriteByte('\n') m.comments = buf.String() } const ( order123 = iota order132 order213 order231 order312 order321 ) func sort3(s1, s2, s3 *string) (order int) { if *s1 < *s2 { if *s2 < *s3 { order = order123 } else if *s1 < *s3 { *s2, *s3 = *s3, *s2 order = order132 } else { *s1, *s2, *s3 = *s3, *s1, *s2 order = order231 } } else { if *s1 < *s3 { *s1, *s2 = *s2, *s1 order = order213 } else if *s2 < *s3 { *s1, *s2, *s3 = *s2, *s3, *s1 order = order312 } else { *s1, *s3 = *s3, *s1 order = order321 } } return }
{ "repo_name": "pascaldekloe/metrics", "stars": "26", "repo_language": "Go", "file_name": "gostat.go", "mime_type": "text/plain" }
package metrics import ( "io" "net/http" "strconv" "time" ) // SkipTimestamp controls time inclusion with sample serialisation. // When false, then live running values are stamped with the current // time and Samples provide their own time. var SkipTimestamp = false const headerLine = "# Prometheus Samples\n" // ServeHTTP provides a sample of each metric as an http.HandlerFunc. func ServeHTTP(resp http.ResponseWriter, req *http.Request) { std.ServeHTTP(resp, req) } // ServeHTTP provides a sample of each metric as an http.Handler. func (reg *Register) ServeHTTP(resp http.ResponseWriter, req *http.Request) { if req.Method != http.MethodGet && req.Method != http.MethodHead { resp.Header().Set("Allow", http.MethodOptions+", "+http.MethodGet+", "+http.MethodHead) if req.Method != http.MethodOptions { http.Error(resp, "read-only resource", http.StatusMethodNotAllowed) } return } resp.Header().Set("Content-Type", "text/plain;version=0.0.4") reg.WriteTo(resp) } // WriteText serialises a sample of each metric in a simple text // format. All errors returned by Writer are ignored by design. // Deprecated: Use WriteTo instead. func WriteText(w io.Writer) { std.WriteText(w) } // WriteText serialises a sample of each metric in a simple text // format. All errors returned by Writer are ignored by design. // Deprecated: Use WriteTo instead. func (reg *Register) WriteText(w io.Writer) { reg.WriteTo(w) } // WriteTo serialises a sample of each metric in a simple text // format as an io.WriterTo. func WriteTo(w io.Writer) (n int64, err error) { return std.WriteTo(w) } // WriteTo serialises a sample of each metric in a simple text // format as an io.WriterTo. func (reg *Register) WriteTo(w io.Writer) (n int64, err error) { wn, err := io.WriteString(w, headerLine) n = int64(wn) if err != nil { return n, err } buf := make([]byte, 0, 512) // snapshot reg.mutex.RLock() defer reg.mutex.RUnlock() // serialise samples in order of appearance for _, m := range reg.metrics { buf = append(buf, m.comments...) switch m.typeID { case counterID: if m.counter != nil { buf = append(buf, m.counter.prefix...) buf = strconv.AppendUint(buf, m.counter.Get(), 10) buf = appendTimestamp(buf) } for _, l := range m.labels { l.Lock() view := l.counters l.Unlock() for _, v := range view { buf = append(buf, v.prefix...) buf = strconv.AppendUint(buf, v.Get(), 10) buf = appendTimestamp(buf) } } case integerID: if m.integer != nil { buf = append(buf, m.integer.prefix...) buf = strconv.AppendInt(buf, m.integer.Get(), 10) buf = appendTimestamp(buf) } for _, l := range m.labels { l.Lock() view := l.integers l.Unlock() for _, v := range view { buf = append(buf, v.prefix...) buf = strconv.AppendInt(buf, v.Get(), 10) buf = appendTimestamp(buf) } } case realID: if m.real != nil { buf = append(buf, m.real.prefix...) buf = strconv.AppendFloat(buf, m.real.Get(), 'g', -1, 64) buf = appendTimestamp(buf) } for _, l := range m.labels { l.Lock() view := l.reals l.Unlock() for _, v := range view { buf = append(buf, v.prefix...) buf = strconv.AppendFloat(buf, v.Get(), 'g', -1, 64) buf = appendTimestamp(buf) } } case counterSampleID, realSampleID: if m.sample != nil { buf = m.sample.append(buf) } for _, l := range m.labels { l.Lock() view := l.samples l.Unlock() for _, v := range view { buf = v.append(buf) } } case histogramID: if m.histogram != nil { buf = m.histogram.append(buf) } for _, l := range m.labels { l.Lock() view := l.histograms l.Unlock() for _, v := range view { buf = v.append(buf) } } } wn, err = w.Write(buf) n += int64(wn) if err != nil { return n, err } buf = buf[:0] } return n, nil } func (m *Sample) append(buf []byte) []byte { if value, timestamp := m.Get(); timestamp != 0 { buf = append(buf, m.prefix...) buf = strconv.AppendFloat(buf, value, 'g', -1, 64) if !SkipTimestamp { buf = append(buf, ' ') buf = strconv.AppendUint(buf, timestamp, 10) } buf = append(buf, '\n') } return buf } func (h *Histogram) append(buf []byte) []byte { var stack [7]uint64 buckets, count, sum := h.Get(stack[:0]) buf = append(buf, h.countPrefix...) offset := len(buf) buf = strconv.AppendUint(buf, count, 10) countSerial := buf[offset:] timeOffset := len(buf) buf = appendTimestamp(buf) timestamp := buf[timeOffset:] // buckets var cum uint64 for i, prefix := range h.bucketPrefixes { if i >= len(buckets) { // (redundant) +Inf bucket buf = append(buf, prefix...) buf = append(buf, countSerial...) buf = append(buf, timestamp...) break } cum += buckets[i] buf = append(buf, prefix...) buf = strconv.AppendUint(buf, cum, 10) buf = append(buf, timestamp...) } // sum buf = append(buf, h.sumPrefix...) buf = strconv.AppendFloat(buf, sum, 'g', -1, 64) buf = append(buf, timestamp...) return buf } func appendTimestamp(buf []byte) []byte { if !SkipTimestamp { buf = append(buf, ' ') ms := time.Now().UnixNano() / 1e6 buf = strconv.AppendInt(buf, ms, 10) } buf = append(buf, '\n') return buf }
{ "repo_name": "pascaldekloe/metrics", "stars": "26", "repo_language": "Go", "file_name": "gostat.go", "mime_type": "text/plain" }
package metrics_test import ( "bytes" "io" "math" "net/http" "os" "reflect" "strconv" "strings" "testing" "time" "github.com/pascaldekloe/metrics" "github.com/pascaldekloe/metrics/gostat" ) func TestName(t *testing.T) { reg := metrics.NewRegister() if got := reg.MustCounter("c", "").Name(); got != "c" { t.Errorf(`counter got %q, want "c"`, got) } if got := reg.Must1LabelCounter("lc", "l")("v").Name(); got != "lc" { t.Errorf(`labeled counter got %q, want "lc"`, got) } if got := reg.MustInteger("i", "").Name(); got != "i" { t.Errorf(`integer got %q, want "i"`, got) } if got := reg.Must2LabelInteger("li", "l1", "l2")("v1", "v2").Name(); got != "li" { t.Errorf(`labeled integer got %q, want "li"`, got) } if got := reg.MustReal("r", "").Name(); got != "r" { t.Errorf(`real got %q, want "r"`, got) } if got := reg.Must3LabelReal("lr", "l1", "l2", "l3")("v1", "v2", "v3").Name(); got != "lr" { t.Errorf(`labeled real got %q, want "lr"`, got) } if got := reg.MustCounterSample("cs", "").Name(); got != "cs" { t.Errorf(`counter sample got %q, want "cs"`, got) } if got := reg.Must1LabelRealSample("lrs", "l")("v").Name(); got != "lrs" { t.Errorf(`labeled real sample got %q, want "lrs"`, got) } } func TestHelp(t *testing.T) { reg := metrics.NewRegister() reg.MustReal("g", "set on gauge") reg.Must1LabelReal("lm", "l") reg.MustHelp("lm", "set on map to override") reg.Must2LabelReal("lm", "l1", "l2") reg.MustHelp("lm", "override on map") reg.Must3LabelReal("lg", "l1", "l2", "l3")("v1", "v2", "v3") reg.MustHelp("lg", "set on labeled gauge to override") reg.Must3LabelReal("lg", "l4", "l5", "l6")("v4", "v5", "v6") reg.MustHelp("lg", "override on labeled gauge") want := map[string]string{ "g": "set on gauge", "lm": "override on map", "lg": "override on labeled gauge", } var buf bytes.Buffer reg.WriteTo(&buf) got := make(map[string]string) for { line, err := buf.ReadString('\n') if err == io.EOF { break } if err != nil { t.Fatal(err) } if !strings.HasPrefix(line, "# HELP ") { continue } split := strings.IndexByte(line[7:], ' ') if split < 0 { t.Errorf("malformed help comment %q", line) continue } got[line[7:7+split]] = line[8+split : len(line)-1] } for name, help := range want { if s := got[name]; s != help { t.Errorf("got %q for %q, want %q", s, name, help) } } } var ( LogSize = metrics.MustRealSample("log_bytes", "Size reported by the filesystem.") LogIdle = metrics.MustRealSample("log_idle_seconds", "Duration since last change.") ) func ExampleSample_lazy() { // mount exposition point http.HandleFunc("/metrics", func(w http.ResponseWriter, r *http.Request) { // update standard samples gostat.Capture() // update custom samples log, err := os.Stat("./mission.log") if err == nil { // ⚠️ reverse error check now := time.Now() LogSize.Set(float64(log.Size()), now) LogIdle.SetSeconds(now.Sub(log.ModTime()), now) } // serve serialized metrics.ServeHTTP(w, r) }) // Output: } func ExampleHistogram() { // setup demo := metrics.NewRegister() Duration := demo.Must2LabelHistogram("http_latency_seconds", "method", "status", 0.001, 0.005, 0.025, 0.125) demo.MustHelp("http_latency_seconds", "Time from request initiation until response body retrieval.") // measures Duration("GET", "2xx").Add(0.076875) Duration("GET", "3xx").Add(0.000141) Duration("OPTIONS", "2xx").Add(0.000009) Duration("GET", "2xx").Add(0.002277) Duration("GET", "2xx").Add(0.001871) Duration("GET", "2xx").Add(0.002378) // print metrics.SkipTimestamp = true demo.WriteTo(os.Stdout) // Output: // # Prometheus Samples // // # TYPE http_latency_seconds histogram // # HELP http_latency_seconds Time from request initiation until response body retrieval. // http_latency_seconds_count{method="GET",status="2xx"} 4 // http_latency_seconds{le="0.001",method="GET",status="2xx"} 0 // http_latency_seconds{le="0.005",method="GET",status="2xx"} 3 // http_latency_seconds{le="0.025",method="GET",status="2xx"} 3 // http_latency_seconds{le="0.125",method="GET",status="2xx"} 4 // http_latency_seconds{le="+Inf",method="GET",status="2xx"} 4 // http_latency_seconds_sum{method="GET",status="2xx"} 0.083401 // http_latency_seconds_count{method="GET",status="3xx"} 1 // http_latency_seconds{le="0.001",method="GET",status="3xx"} 1 // http_latency_seconds{le="0.005",method="GET",status="3xx"} 1 // http_latency_seconds{le="0.025",method="GET",status="3xx"} 1 // http_latency_seconds{le="0.125",method="GET",status="3xx"} 1 // http_latency_seconds{le="+Inf",method="GET",status="3xx"} 1 // http_latency_seconds_sum{method="GET",status="3xx"} 0.000141 // http_latency_seconds_count{method="OPTIONS",status="2xx"} 1 // http_latency_seconds{le="0.001",method="OPTIONS",status="2xx"} 1 // http_latency_seconds{le="0.005",method="OPTIONS",status="2xx"} 1 // http_latency_seconds{le="0.025",method="OPTIONS",status="2xx"} 1 // http_latency_seconds{le="0.125",method="OPTIONS",status="2xx"} 1 // http_latency_seconds{le="+Inf",method="OPTIONS",status="2xx"} 1 // http_latency_seconds_sum{method="OPTIONS",status="2xx"} 9e-06 } func TestHistogramBuckets(t *testing.T) { reg := metrics.NewRegister() var golden = []struct { feed []float64 want []float64 }{ {}, {[]float64{4, 1, 2}, []float64{1, 2, 4}}, {[]float64{8, math.Inf(1)}, []float64{8}}, {[]float64{math.NaN(), 7, math.Inf(1), 3}, []float64{3, 7}}, } for i, gold := range golden { h := reg.MustHistogram("h"+strconv.Itoa(i), "", gold.feed...) if !reflect.DeepEqual(h.BucketBounds, gold.want) { t.Errorf("%v: got buckets %v, want %v", gold.feed, h.BucketBounds, gold.want) } } } func BenchmarkGet(b *testing.B) { b.Run("histogram5", func(b *testing.B) { h := metrics.NewRegister().MustHistogram("bench_histogram_unit", "", .01, .02, .05, .1) b.Run("sequential", func(b *testing.B) { var buckets []uint64 for i := 0; i < b.N; i++ { buckets, _, _ = h.Get(buckets[:0]) } }) b.Run("2routines", func(b *testing.B) { done := make(chan []uint64) f := func() { var buckets []uint64 for i := b.N / 2; i >= 0; i-- { buckets, _, _ = h.Get(buckets[:0]) } done <- buckets } go f() go f() <-done <-done }) }) } func BenchmarkSet(b *testing.B) { b.Run("real", func(b *testing.B) { m := metrics.NewRegister().MustReal("bench_real_unit", "") b.Run("sequential", func(b *testing.B) { for i := 0; i < b.N; i++ { m.Set(42) } }) b.Run("2routines", func(b *testing.B) { done := make(chan struct{}) f := func() { for i := b.N / 2; i >= 0; i-- { m.Set(42) } done <- struct{}{} } go f() go f() <-done <-done }) }) b.Run("sample", func(b *testing.B) { m := metrics.NewRegister().MustRealSample("bench_sample_unit", "") timestamp := time.Now() b.Run("sequential", func(b *testing.B) { for i := 0; i < b.N; i++ { m.Set(42, timestamp) } }) b.Run("2routines", func(b *testing.B) { done := make(chan struct{}) f := func() { for i := b.N / 2; i >= 0; i-- { m.Set(42, timestamp) } done <- struct{}{} } go f() go f() <-done <-done }) }) } func BenchmarkAdd(b *testing.B) { b.Run("counter", func(b *testing.B) { m := metrics.NewRegister().MustCounter("bench_counter_unit", "") b.Run("sequential", func(b *testing.B) { for i := 0; i < b.N; i++ { m.Add(1) } }) b.Run("2routines", func(b *testing.B) { done := make(chan struct{}) f := func() { for i := b.N / 2; i >= 0; i-- { m.Add(1) } done <- struct{}{} } go f() go f() <-done <-done }) }) b.Run("integer", func(b *testing.B) { m := metrics.NewRegister().MustInteger("bench_gauge_unit", "") b.Run("sequential", func(b *testing.B) { for i := 0; i < b.N; i++ { m.Add(1) } }) b.Run("2routines", func(b *testing.B) { done := make(chan struct{}) f := func() { for i := b.N / 2; i >= 0; i-- { m.Add(1) } done <- struct{}{} } go f() go f() <-done <-done }) }) b.Run("histogram5", func(b *testing.B) { h := metrics.NewRegister().MustHistogram("bench_histogram_unit", "", 1, 2, 5, 6) b.Run("sequential", func(b *testing.B) { for i := 0; i < b.N; i++ { h.Add(float64(i & 7)) } }) b.Run("2routines", func(b *testing.B) { done := make(chan struct{}) f := func() { for i := b.N / 2; i >= 0; i-- { h.Add(float64(i & 7)) } done <- struct{}{} } go f() go f() <-done <-done }) }) }
{ "repo_name": "pascaldekloe/metrics", "stars": "26", "repo_language": "Go", "file_name": "gostat.go", "mime_type": "text/plain" }
module github.com/pascaldekloe/metrics go 1.19
{ "repo_name": "pascaldekloe/metrics", "stars": "26", "repo_language": "Go", "file_name": "gostat.go", "mime_type": "text/plain" }
package metrics import ( "strconv" "strings" "sync" ) type labelMapping struct { sync.Mutex name string labelNames [3]string labelHashes []uint64 counters []*Counter integers []*Integer reals []*Real samples []*Sample histograms []*Histogram buckets []float64 } func (mapping *labelMapping) counter1(value string) *Counter { i := mapping.lockIndex1(value) defer mapping.Unlock() if i < len(mapping.counters) { return mapping.counters[i] } m := &Counter{prefix: mapping.format1LabelPrefix(value)} mapping.counters = append(mapping.counters, m) return m } func (mapping *labelMapping) counter12(value1, value2 string) *Counter { i := mapping.lockIndex12(value1, value2) defer mapping.Unlock() if i < len(mapping.counters) { return mapping.counters[i] } m := &Counter{prefix: mapping.format2LabelPrefix(value1, value2)} mapping.counters = append(mapping.counters, m) return m } func (mapping *labelMapping) counter123(value1, value2, value3 string) *Counter { i := mapping.lockIndex123(value1, value2, value3) defer mapping.Unlock() if i < len(mapping.counters) { return mapping.counters[i] } m := &Counter{prefix: mapping.format3LabelPrefix(value1, value2, value3)} mapping.counters = append(mapping.counters, m) return m } func (mapping *labelMapping) integer1(value string) *Integer { i := mapping.lockIndex1(value) defer mapping.Unlock() if i < len(mapping.integers) { return mapping.integers[i] } m := &Integer{prefix: mapping.format1LabelPrefix(value)} mapping.integers = append(mapping.integers, m) return m } func (mapping *labelMapping) integer12(value1, value2 string) *Integer { i := mapping.lockIndex12(value1, value2) defer mapping.Unlock() if i < len(mapping.integers) { return mapping.integers[i] } m := &Integer{prefix: mapping.format2LabelPrefix(value1, value2)} mapping.integers = append(mapping.integers, m) return m } func (mapping *labelMapping) integer123(value1, value2, value3 string) *Integer { i := mapping.lockIndex123(value1, value2, value3) defer mapping.Unlock() if i < len(mapping.integers) { return mapping.integers[i] } m := &Integer{prefix: mapping.format3LabelPrefix(value1, value2, value3)} mapping.integers = append(mapping.integers, m) return m } func (mapping *labelMapping) real1(value string) *Real { i := mapping.lockIndex1(value) defer mapping.Unlock() if i < len(mapping.reals) { return mapping.reals[i] } m := &Real{prefix: mapping.format1LabelPrefix(value)} mapping.reals = append(mapping.reals, m) return m } func (mapping *labelMapping) real12(value1, value2 string) *Real { i := mapping.lockIndex12(value1, value2) defer mapping.Unlock() if i < len(mapping.reals) { return mapping.reals[i] } m := &Real{prefix: mapping.format2LabelPrefix(value1, value2)} mapping.reals = append(mapping.reals, m) return m } func (mapping *labelMapping) real123(value1, value2, value3 string) *Real { i := mapping.lockIndex123(value1, value2, value3) defer mapping.Unlock() if i < len(mapping.reals) { return mapping.reals[i] } m := &Real{prefix: mapping.format3LabelPrefix(value1, value2, value3)} mapping.reals = append(mapping.reals, m) return m } func (mapping *labelMapping) sample1(value string) *Sample { i := mapping.lockIndex1(value) defer mapping.Unlock() if i < len(mapping.samples) { return mapping.samples[i] } m := &Sample{prefix: mapping.format1LabelPrefix(value)} mapping.samples = append(mapping.samples, m) return m } func (mapping *labelMapping) sample12(value1, value2 string) *Sample { i := mapping.lockIndex12(value1, value2) defer mapping.Unlock() if i < len(mapping.samples) { return mapping.samples[i] } m := &Sample{prefix: mapping.format2LabelPrefix(value1, value2)} mapping.samples = append(mapping.samples, m) return m } func (mapping *labelMapping) sample123(value1, value2, value3 string) *Sample { i := mapping.lockIndex123(value1, value2, value3) defer mapping.Unlock() if i < len(mapping.samples) { return mapping.samples[i] } m := &Sample{prefix: mapping.format3LabelPrefix(value1, value2, value3)} mapping.samples = append(mapping.samples, m) return m } func (mapping *labelMapping) histogram1(value string) *Histogram { i := mapping.lockIndex1(value) defer mapping.Unlock() if i < len(mapping.histograms) { return mapping.histograms[i] } h := newHistogram(mapping.name, mapping.buckets) // set prefixes tail := `",` + mapping.labelNames[0] + `="` + valueEscapes.Replace(value) + `"} ` for i, f := range h.BucketBounds { h.bucketPrefixes[i] = mapping.name + `{le="` + strconv.FormatFloat(f, 'g', -1, 64) + tail } h.bucketPrefixes[len(h.BucketBounds)] = mapping.name + `{le="+Inf` + tail h.countPrefix = mapping.name + "_count{" + tail[2:] h.sumPrefix = mapping.name + "_sum{" + tail[2:] mapping.histograms = append(mapping.histograms, h) return h } func (mapping *labelMapping) histogram12(value1, value2 string) *Histogram { i := mapping.lockIndex12(value1, value2) defer mapping.Unlock() if i < len(mapping.histograms) { return mapping.histograms[i] } h := newHistogram(mapping.name, mapping.buckets) // set prefixes tail := `",` + mapping.labelNames[0] + `="` + valueEscapes.Replace(value1) tail += `",` + mapping.labelNames[1] + `="` + valueEscapes.Replace(value2) + `"} ` for i, f := range h.BucketBounds { h.bucketPrefixes[i] = mapping.name + `{le="` + strconv.FormatFloat(f, 'g', -1, 64) + tail } h.bucketPrefixes[len(h.BucketBounds)] = mapping.name + `{le="+Inf` + tail h.countPrefix = mapping.name + "_count{" + tail[2:] h.sumPrefix = mapping.name + "_sum{" + tail[2:] mapping.histograms = append(mapping.histograms, h) return h } // 64-Bit FNV const ( hashOffset = 14695981039346656037 hashPrime = 1099511628211 ) func (mapping *labelMapping) lockIndex1(value string) int { hash := uint64(hashOffset) hash ^= uint64(len(value)) hash *= hashPrime for i := 0; i < len(value); i++ { hash ^= uint64(value[i]) hash *= hashPrime } return mapping.lockIndex(hash) } func (mapping *labelMapping) lockIndex12(value1, value2 string) int { hash := uint64(hashOffset) hash ^= uint64(len(value1)) hash *= hashPrime hash ^= uint64(len(value2)) hash *= hashPrime for i := 0; i < len(value1); i++ { hash ^= uint64(value1[i]) hash *= hashPrime } for i := 0; i < len(value2); i++ { hash ^= uint64(value2[i]) hash *= hashPrime } return mapping.lockIndex(hash) } func (mapping *labelMapping) lockIndex123(value1, value2, value3 string) int { hash := uint64(hashOffset) hash ^= uint64(len(value1)) hash *= hashPrime hash ^= uint64(len(value2)) hash *= hashPrime hash ^= uint64(len(value3)) hash *= hashPrime for i := 0; i < len(value1); i++ { hash ^= uint64(value1[i]) hash *= hashPrime } for i := 0; i < len(value2); i++ { hash ^= uint64(value2[i]) hash *= hashPrime } for i := 0; i < len(value3); i++ { hash ^= uint64(value3[i]) hash *= hashPrime } return mapping.lockIndex(hash) } func (mapping *labelMapping) lockIndex(hash uint64) int { mapping.Lock() for i, h := range mapping.labelHashes { if h == hash { return i } } i := len(mapping.labelHashes) mapping.labelHashes = append(mapping.labelHashes, hash) return i } // Labels values may have any [!] byte content, i.e., there is no illegal value. var valueEscapes = strings.NewReplacer("\n", `\n`, `"`, `\"`, `\`, `\\`) func (mapping *labelMapping) format1LabelPrefix(labelValue string) string { var buf strings.Builder buf.Grow(6 + len(mapping.name) + len(mapping.labelNames[0]) + len(labelValue)) buf.WriteString(mapping.name) buf.WriteByte('{') buf.WriteString(mapping.labelNames[0]) buf.WriteString(`="`) valueEscapes.WriteString(&buf, labelValue) buf.WriteString(`"} `) return buf.String() } func (mapping *labelMapping) format2LabelPrefix(labelValue1, labelValue2 string) string { var buf strings.Builder buf.Grow(10 + len(mapping.name) + len(mapping.labelNames[0]) + len(mapping.labelNames[1]) + len(labelValue1) + len(labelValue2)) buf.WriteString(mapping.name) buf.WriteByte('{') buf.WriteString(mapping.labelNames[0]) buf.WriteString(`="`) valueEscapes.WriteString(&buf, labelValue1) buf.WriteString(`",`) buf.WriteString(mapping.labelNames[1]) buf.WriteString(`="`) valueEscapes.WriteString(&buf, labelValue2) buf.WriteString(`"} `) return buf.String() } func (mapping *labelMapping) format3LabelPrefix(labelValue1, labelValue2, labelValue3 string) string { var buf strings.Builder buf.Grow(14 + len(mapping.name) + len(mapping.labelNames[0]) + len(mapping.labelNames[1]) + len(mapping.labelNames[2]) + len(labelValue1) + len(labelValue2) + len(labelValue3)) buf.WriteString(mapping.name) buf.WriteByte('{') buf.WriteString(mapping.labelNames[0]) buf.WriteString(`="`) valueEscapes.WriteString(&buf, labelValue1) buf.WriteString(`",`) buf.WriteString(mapping.labelNames[1]) buf.WriteString(`="`) valueEscapes.WriteString(&buf, labelValue2) buf.WriteString(`",`) buf.WriteString(mapping.labelNames[2]) buf.WriteString(`="`) valueEscapes.WriteString(&buf, labelValue3) buf.WriteString(`"} `) return buf.String() } // ParseMetricLabels returns a new map if s has labels. func parseMetricLabels(s string) map[string]string { i := strings.IndexByte(s, '{') if i < 0 { return nil } s = s[i+1:] labels := make(map[string]string, 3) for { name := s[:strings.IndexByte(s, '=')] s = s[len(name)+2:] // skips double-quote check end := strings.IndexAny(s, `"\`) if s[end] == '"' { labels[name] = s[:end] } else { var buf strings.Builder for { buf.WriteString(s[:end]) if s[end] == '"' { break } if s[end+1] == 'n' { buf.WriteByte('\n') s = s[end+2:] end = strings.IndexAny(s, `"\`) } else { s = s[end+1:] end = 1 + strings.IndexAny(s[1:], `"\`) } } labels[name] = buf.String() } if s[end+1] == '}' { return labels } s = s[end+2:] // skips comma check } } ///////////////////////// // Label Order Remappings func (mapping *labelMapping) counter21(v2, v1 string) *Counter { return mapping.counter12(v1, v2) } func (mapping *labelMapping) counter132(v1, v3, v2 string) *Counter { return mapping.counter123(v1, v2, v3) } func (mapping *labelMapping) counter213(v2, v1, v3 string) *Counter { return mapping.counter123(v1, v2, v3) } func (mapping *labelMapping) counter231(v2, v3, v1 string) *Counter { return mapping.counter123(v1, v2, v3) } func (mapping *labelMapping) counter312(v3, v1, v2 string) *Counter { return mapping.counter123(v1, v2, v3) } func (mapping *labelMapping) counter321(v3, v2, v1 string) *Counter { return mapping.counter123(v1, v2, v3) } func (mapping *labelMapping) integer21(v2, v1 string) *Integer { return mapping.integer12(v1, v2) } func (mapping *labelMapping) integer132(v1, v3, v2 string) *Integer { return mapping.integer123(v1, v2, v3) } func (mapping *labelMapping) integer213(v2, v1, v3 string) *Integer { return mapping.integer123(v1, v2, v3) } func (mapping *labelMapping) integer231(v2, v3, v1 string) *Integer { return mapping.integer123(v1, v2, v3) } func (mapping *labelMapping) integer312(v3, v1, v2 string) *Integer { return mapping.integer123(v1, v2, v3) } func (mapping *labelMapping) integer321(v3, v2, v1 string) *Integer { return mapping.integer123(v1, v2, v3) } func (mapping *labelMapping) real21(v2, v1 string) *Real { return mapping.real12(v1, v2) } func (mapping *labelMapping) real132(v1, v3, v2 string) *Real { return mapping.real123(v1, v2, v3) } func (mapping *labelMapping) real213(v2, v1, v3 string) *Real { return mapping.real123(v1, v2, v3) } func (mapping *labelMapping) real231(v2, v3, v1 string) *Real { return mapping.real123(v1, v2, v3) } func (mapping *labelMapping) real312(v3, v1, v2 string) *Real { return mapping.real123(v1, v2, v3) } func (mapping *labelMapping) real321(v3, v2, v1 string) *Real { return mapping.real123(v1, v2, v3) } func (mapping *labelMapping) sample21(v2, v1 string) *Sample { return mapping.sample12(v1, v2) } func (mapping *labelMapping) sample132(v1, v3, v2 string) *Sample { return mapping.sample123(v1, v2, v3) } func (mapping *labelMapping) sample213(v2, v1, v3 string) *Sample { return mapping.sample123(v1, v2, v3) } func (mapping *labelMapping) sample231(v2, v3, v1 string) *Sample { return mapping.sample123(v1, v2, v3) } func (mapping *labelMapping) sample312(v3, v1, v2 string) *Sample { return mapping.sample123(v1, v2, v3) } func (mapping *labelMapping) sample321(v3, v2, v1 string) *Sample { return mapping.sample123(v1, v2, v3) } func (mapping *labelMapping) histogram21(v2, v1 string) *Histogram { return mapping.histogram12(v1, v2) }
{ "repo_name": "pascaldekloe/metrics", "stars": "26", "repo_language": "Go", "file_name": "gostat.go", "mime_type": "text/plain" }
[![API](https://pkg.go.dev/badge/github.com/pascaldekloe/metrics.svg)](https://pkg.go.dev/github.com/pascaldekloe/metrics) [![Build](https://github.com/pascaldekloe/metrics/actions/workflows/go.yml/badge.svg)](https://github.com/pascaldekloe/metrics/actions/workflows/go.yml) ## About Metrics are measures of quantitative assessment commonly used for comparing, and tracking performance or production. This library offers atomic counters, gauges and historgrams for the Go programming language. Users have the option to expose snapshots in the Prometheus text-format. This is free and unencumbered software released into the [public domain](https://creativecommons.org/publicdomain/zero/1.0). ## Use Static regisration on package level comes recommened. The declarations also help to document the funcionality that is covered in the code. ```go // Package Metrics var ( ConnectCount = metrics.MustCounter("db_connects_total", "Number of established initiations.") CacheBytes = metrics.MustInteger("db_cache_bytes", "Size of collective responses.") DiskUsage = metrics.Must1LabelRealSample("db_disk_usage_ratio", "device") ) ``` Update methods operate error free by design, e.g., `CacheBytes.Add(-72)` or `DiskUsage(dev.Name).Set(1 - dev.Free, time.Now())`. Serve HTTP with just `http.HandleFunc("/metrics", metrics.ServeHTTP)`. ``` < HTTP/1.1 200 OK < Content-Type: text/plain;version=0.0.4 < Date: Sun, 07 Mar 2021 15:22:47 GMT < Content-Length: 351 < # Prometheus Samples # TYPE db_connects_total counter # HELP db_connects_total Number of established initiations. db_connects_total 4 1615130567389 # TYPE db_cache_bytes gauge # HELP db_cache_bytes Size of collective responses. db_cache_bytes 7600 1615130567389 # TYPE db_disk_usage_ratio gauge db_disk_usage_ratio{device="sda"} 0.19 1615130563595 ``` Package `github.com/pascaldekloe/metrics/gostat` provides a standard collection of Go metrics which is similar to the setup as provided by the [original Prometheus library](https://github.com/prometheus/client_golang). Samples may be fetched in a lazy manner, like how the [lazy example](https://pkg.go.dev/github.com/pascaldekloe/metrics#example-Sample-Lazy) does. ## Performance The following results were measured on an Apple M1 with Go 1.20. ``` name time/op Label/sequential/4-8 14.4ns ± 0% Label/sequential/4x4-8 17.1ns ± 0% Label/sequential/4x4x4-8 29.6ns ± 0% Label/parallel/4-8 85.3ns ± 2% Label/parallel/4x4-8 89.2ns ± 1% Label/parallel/4x4x4-8 103ns ± 0% Get/histogram5/sequential-8 45.0ns ± 0% Get/histogram5/2routines-8 85.1ns ± 0% Set/real/sequential-8 5.64ns ± 0% Set/real/2routines-8 16.5ns ± 2% Set/sample/sequential-8 13.6ns ± 1% Set/sample/2routines-8 38.7ns ± 7% Add/counter/sequential-8 6.88ns ± 0% Add/counter/2routines-8 16.1ns ± 2% Add/integer/sequential-8 6.88ns ± 0% Add/integer/2routines-8 16.1ns ± 1% Add/histogram5/sequential-8 16.1ns ± 1% Add/histogram5/2routines-8 69.5ns ± 1% ServeHTTP/32/counter-8 687ns ± 0% ServeHTTP/32/real-8 1.87µs ± 0% ServeHTTP/32/integer-8 694ns ± 0% ServeHTTP/32/histogram5-8 6.05µs ± 0% ServeHTTP/32/label5-8 1.97µs ± 0% ServeHTTP/32/label2x3x5-8 1.98µs ± 0% ServeHTTP/32/sample-8 2.06µs ± 0% ServeHTTP/1024/counter-8 18.5µs ± 0% ServeHTTP/1024/real-8 50.9µs ± 0% ServeHTTP/1024/integer-8 18.8µs ± 0% ServeHTTP/1024/histogram5-8 192µs ± 0% ServeHTTP/1024/label5-8 54.4µs ± 0% ServeHTTP/1024/label2x3x5-8 54.4µs ± 0% ServeHTTP/1024/sample-8 57.6µs ± 0% ```
{ "repo_name": "pascaldekloe/metrics", "stars": "26", "repo_language": "Go", "file_name": "gostat.go", "mime_type": "text/plain" }
// Package metrics provides atomic measures and Prometheus exposition. // // Counter, Integer, Real and Histogram are live representations of events. // Value updates should be part of the respective implementation. Otherwise, // use Sample for captures with a timestamp. // // The Must functions deal with registration. Their use is intended for setup // during application launch only. // All metrics are permanent-the API offers no deletion by design. package metrics import ( "math" "runtime" "sort" "strconv" "strings" "sync" "sync/atomic" "time" ) // Serialisation Byte Limits const ( maxFloat64Text = 24 maxUint64Text = 20 maxInt64Text = 21 ) // Counter is a cumulative metric that represents a single monotonically // increasing counter whose value can only increase or be reset to zero on // restart. The default/initial value is zero. // Multiple goroutines may invoke methods on a Counter simultaneously. type Counter struct { value atomic.Uint64 // fixed start of serial line is <name> <label-map>? ' ' prefix string } // Integer gauge is a metric that represents a single numerical value that can // arbitrarily go up and down. The default/initial value is zero. // Multiple goroutines may invoke methods on a Integer simultaneously. type Integer struct { value atomic.Int64 // fixed start of serial line is <name> <label-map>? ' ' prefix string } // Real gauge is a metric that represents a single numerical value that can // arbitrarily go up and down. The default/initial value is zero. // Multiple goroutines may invoke methods on a Real simultaneously. type Real struct { valueBits atomic.Uint64 // fixed start of serial line is <name> <label-map>? ' ' prefix string } // Sample is a specialised metric for measurement captures, as opposed to // holding the current value at all times. The precision is enhanced with // a timestamp, at the cost of performance degradation. Serialisation // omits samples with a zero timestamp. The default/initial value is zero // with a zero timestamp. // Multiple goroutines may invoke methods on a Sample simultaneously. type Sample struct { mux sync.Mutex value float64 // current capture timestamp uint64 // capture moment // fixed start of serial line is <name> <label-map>? ' ' prefix string } func parseMetricName(s string) string { i := strings.IndexAny(s, " {") if i >= 0 { return s[:i] } return s } // Name returns the metric identifier. func (m *Counter) Name() string { return parseMetricName(m.prefix) } // Name returns the metric identifier. func (m *Integer) Name() string { return parseMetricName(m.prefix) } // Name returns the metric identifier. func (m *Real) Name() string { return parseMetricName(m.prefix) } // Name returns the metric identifier. func (m *Sample) Name() string { return parseMetricName(m.prefix) } // Name returns the metric identifier. func (m *Histogram) Name() string { return parseMetricName(m.bucketPrefixes[0]) } // Labels returns a new map if m has labels. func (m *Counter) Labels() map[string]string { return parseMetricLabels(m.prefix) } // Labels returns a new map if m has labels. func (m *Integer) Labels() map[string]string { return parseMetricLabels(m.prefix) } // Labels returns a new map if m has labels. func (m *Real) Labels() map[string]string { return parseMetricLabels(m.prefix) } // Labels returns a new map if m has labels. func (m *Sample) Labels() map[string]string { return parseMetricLabels(m.prefix) } // Labels returns a new map if m has labels. func (m *Histogram) Labels() map[string]string { return parseMetricLabels(m.bucketPrefixes[0]) } // Get returns the current value. func (m *Counter) Get() uint64 { return m.value.Load() } // Get returns the current value. func (m *Integer) Get() int64 { return m.value.Load() } // Get returns the current value. func (m *Real) Get() float64 { return math.Float64frombits(m.valueBits.Load()) } // Get returns the current value with its Unix time in milliseconds. func (m *Sample) Get() (value float64, timestamp uint64) { m.mux.Lock() defer m.mux.Unlock() return m.value, m.timestamp } // Set defines the current value. func (m *Integer) Set(update int64) { m.value.Store(update) } // Set defines the current value. func (m *Real) Set(update float64) { m.valueBits.Store(math.Float64bits(update)) } // SetSeconds defines the current value. func (m *Real) SetSeconds(update time.Duration) { m.Set(float64(update) / float64(time.Second)) } // Set defines the current value. func (m *Sample) Set(value float64, timestamp time.Time) { m.mux.Lock() defer m.mux.Unlock() m.value = value m.timestamp = uint64(timestamp.UnixNano()) / 1e6 } // SetSeconds defines the current value. func (m *Sample) SetSeconds(value time.Duration, timestamp time.Time) { m.Set(float64(value)/float64(time.Second), timestamp) } // Add increments the current value with n. func (m *Counter) Add(n uint64) { m.value.Add(n) } // Add summs the current value with n. // Note that n can be negative (for subtraction). func (m *Integer) Add(n int64) { m.value.Add(n) } // Histogram samples observations and counts them in configurable buckets. // It also provides a sum of all observed values. // Multiple goroutines may invoke methods on a Histogram simultaneously. type Histogram struct { // Counters are padded with 15 64-bit entries to ensure isolation // with CPU cache lines up to 128 bytes in size. // The total number of observations are stored at index 0 when the hot // index is 0. Otherwise, the index is 16 (when the hot index is 1). hotAndColdCounts [2 * 16]atomic.Uint64 // The sums of all observed values are stored at index 0 when the hot // index is 0. Otherwise, the index is 16 (when the hot index is 1). hotAndColdSumBits [2 * 16]atomic.Uint64 // CountAndHotIndex enables lock-free writes with use of atomic updates. // The most significant bit is the hot index [0 or 1] of each hotAndCold // field. Writes update the hot one. All remaining bits count the number // of writes initiated. Write transactions start by incrementing this // counter, and finish by incrementing the hotAndColdCounts field, as a // marker for completion. // // Reads swap the hot–cold in a switchMutex lock. A cooldown is awaited // (in such lock) by comparing the number of writes with the initiation // count. Once they match, then the last write transaction on the now // cool one completed. All cool fields must be merged into the new hot // before the unlock of switchMutex. countAndHotIndex atomic.Uint64 // counts for each BucketBounds, +Inf omitted hotAndColdBuckets [2][]atomic.Uint64 // Upper value for each bucket, sorted, +Inf omitted. // This field is read-only. BucketBounds []float64 // fixed start of each serial line is <name> '{le="' … '"} ' bucketPrefixes []string // including +Inf // fixed start of serial line is <name> '_sum ' sumPrefix string // fixed start of serial line is <name> '_count ' countPrefix string // locked on hotAndCold switch (by reads) switchMutex sync.Mutex } // Add applies value to the countings. func (h *Histogram) Add(value float64) { // define bucket index with padding pi := sort.SearchFloat64s(h.BucketBounds, value) * 16 // start transaction with count increment & resolve hot index [0 or 1] hotIndex := h.countAndHotIndex.Add(1) >> 63 // update hot buckets; skips +Inf if buckets := h.hotAndColdBuckets[hotIndex]; pi < len(buckets) { buckets[pi].Add(1) } // update hot sum for { oldBits := h.hotAndColdSumBits[hotIndex*16].Load() newBits := math.Float64bits(math.Float64frombits(oldBits) + value) if h.hotAndColdSumBits[hotIndex*16].CompareAndSwap(oldBits, newBits) { break } // lost race runtime.Gosched() } // end transaction by matching count(AndHotIndex). h.hotAndColdCounts[hotIndex*16].Add(1) } // AddSince applies the number of seconds since start to the countings. // The following one-liner measures the execution time of a function. // // defer DurationHistogram.AddSince(time.Now()) func (h *Histogram) AddSince(start time.Time) { h.Add(float64(time.Since(start)) * 1e-9) } func newHistogram(name string, bucketBounds []float64) *Histogram { // Use copy of bucketBounds to prevent unexpected mutations, // in case the variadic was invoked with a collapsed slice. var a []float64 for _, f := range bucketBounds { // skip NaN and ∞ if f == f && f <= math.MaxFloat64 { a = append(a, f) } } if len(a) < 2 { bucketBounds = a } else { sort.Float64s(a) bucketBounds = a[:1] for _, f := range a[1:] { if f > bucketBounds[len(bucketBounds)-1] { bucketBounds = append(bucketBounds, f) } } } // Counters are memory aligned for atomic access. // The 15 64-bit padding entries ensure isolation // with CPU cache lines up to 128 bytes in size. bucketCounts := make([]atomic.Uint64, 2*16*len(bucketBounds)) h := Histogram{ bucketPrefixes: make([]string, len(bucketBounds)+1), BucketBounds: bucketBounds, hotAndColdBuckets: [2][]atomic.Uint64{ bucketCounts[:len(bucketCounts)/2], bucketCounts[len(bucketCounts)/2:], }, } // install fixed start of serial lines for i, f := range h.BucketBounds { const suffixHead, suffixTail = `{le="`, `"} ` var buf strings.Builder buf.Grow(len(name) + len(suffixHead) + maxFloat64Text + len(suffixTail)) buf.WriteString(name) buf.WriteString(suffixHead) buf.WriteString(strconv.FormatFloat(f, 'g', -1, 64)) buf.WriteString(suffixTail) h.bucketPrefixes[i] = buf.String() } h.bucketPrefixes[len(h.BucketBounds)] = name + `{le="+Inf"} ` h.countPrefix = name + "_count " h.sumPrefix = name + "_sum " return &h } // Get appends the observation counts for each Histogram.BucketBounds to a and // returns the resulting slice (as buckets). The count return has the total // number of observations, a.k.a. the positive inifinity bucket. func (h *Histogram) Get(a []uint64) (buckets []uint64, count uint64, sum float64) { buckets = a // see struct comments for algorithm description h.switchMutex.Lock() defer h.switchMutex.Unlock() // Adding 1<<63 swaps the index of hotAndCold from 0 to 1, // or from 1 to 0, without touching the initiation counter. updated := h.countAndHotIndex.Add(1 << 63) // write destination after switch hotIndex := updated >> 63 coldIndex := hotIndex ^ 1 // number of writes to cold count = updated &^ (1 << 63) // cooldown: await initiated writes to complete for count > h.hotAndColdCounts[coldIndex*16].Load() { runtime.Gosched() } // merge count into hot and reset cold to zero h.hotAndColdCounts[coldIndex*16].Store(0) h.hotAndColdCounts[hotIndex*16].Add(count) // merge buckets into hot and reset cold to zero hotBuckets := h.hotAndColdBuckets[hotIndex] coldBuckets := h.hotAndColdBuckets[coldIndex] for i := 0; i < len(coldBuckets); i += 16 { n := coldBuckets[i].Load() coldBuckets[i].Store(0) hotBuckets[i].Add(n) buckets = append(buckets, n) } // merge sum into hot and reset cold to zero sum = math.Float64frombits(h.hotAndColdSumBits[coldIndex*16].Load()) h.hotAndColdSumBits[coldIndex*16].Store(0) for { oldBits := h.hotAndColdSumBits[hotIndex*16].Load() newBits := math.Float64bits(math.Float64frombits(oldBits) + sum) if h.hotAndColdSumBits[hotIndex*16].CompareAndSwap(oldBits, newBits) { break } // lost race runtime.Gosched() } return }
{ "repo_name": "pascaldekloe/metrics", "stars": "26", "repo_language": "Go", "file_name": "gostat.go", "mime_type": "text/plain" }
name: Go on: push: branches: [ "master" ] pull_request: branches: [ "master" ] jobs: build: runs-on: ubuntu-latest steps: - uses: actions/checkout@v3 - name: Set up Go uses: actions/setup-go@v3 with: go-version: 1.19 - name: Test run: go test -v ./...
{ "repo_name": "pascaldekloe/metrics", "stars": "26", "repo_language": "Go", "file_name": "gostat.go", "mime_type": "text/plain" }
package gostat import ( "bytes" "io" "strings" "testing" "time" "github.com/pascaldekloe/metrics" ) func TestCapture(t *testing.T) { close(CaptureEvery(time.Minute)) // await capture + cancel time.Sleep(10 * time.Millisecond) var buf bytes.Buffer metrics.WriteText(&buf) got := buf.String() // require each type present r := bytes.NewBufferString(sample) for { line, err := r.ReadString('\n') if err == io.EOF { break } if err != nil { t.Fatal(err) } if !strings.HasPrefix(line, "# TYPE ") { continue } if line == "# TYPE go_gc_duration_seconds summary\n" { continue } if !strings.Contains(got, line) { t.Errorf("missing %q", line) } } } // from https://docs.influxdata.com/influxdb/v1.7/administration/server_monitoring/ const sample = `# HELP go_gc_duration_seconds A summary of the GC invocation durations. # TYPE go_gc_duration_seconds summary go_gc_duration_seconds{quantile="0"} 6.4134e-05 go_gc_duration_seconds{quantile="0.25"} 8.8391e-05 go_gc_duration_seconds{quantile="0.5"} 0.000131335 go_gc_duration_seconds{quantile="0.75"} 0.000169204 go_gc_duration_seconds{quantile="1"} 0.000544705 go_gc_duration_seconds_sum 0.004619405 go_gc_duration_seconds_count 27 # HELP go_goroutines Number of goroutines that currently exist. # TYPE go_goroutines gauge go_goroutines 29 # HELP go_info Information about the Go environment. # TYPE go_info gauge go_info{version="go1.10"} 1 # HELP go_memstats_alloc_bytes Number of bytes allocated and still in use. # TYPE go_memstats_alloc_bytes gauge go_memstats_alloc_bytes 1.581062048e+09 # HELP go_memstats_alloc_bytes_total Total number of bytes allocated, even if freed. # TYPE go_memstats_alloc_bytes_total counter go_memstats_alloc_bytes_total 2.808293616e+09 # HELP go_memstats_buck_hash_sys_bytes Number of bytes used by the profiling bucket hash table. # TYPE go_memstats_buck_hash_sys_bytes gauge go_memstats_buck_hash_sys_bytes 1.494326e+06 # HELP go_memstats_frees_total Total number of frees. # TYPE go_memstats_frees_total counter go_memstats_frees_total 1.1279913e+07 # HELP go_memstats_gc_cpu_fraction The fraction of this program's available CPU time used by the GC since the program started. # TYPE go_memstats_gc_cpu_fraction gauge go_memstats_gc_cpu_fraction -0.00014404354379774563 # HELP go_memstats_gc_sys_bytes Number of bytes used for garbage collection system metadata. # TYPE go_memstats_gc_sys_bytes gauge go_memstats_gc_sys_bytes 6.0936192e+07 # HELP go_memstats_heap_alloc_bytes Number of heap bytes allocated and still in use. # TYPE go_memstats_heap_alloc_bytes gauge go_memstats_heap_alloc_bytes 1.581062048e+09 # HELP go_memstats_heap_idle_bytes Number of heap bytes waiting to be used. # TYPE go_memstats_heap_idle_bytes gauge go_memstats_heap_idle_bytes 3.8551552e+07 # HELP go_memstats_heap_inuse_bytes Number of heap bytes that are in use. # TYPE go_memstats_heap_inuse_bytes gauge go_memstats_heap_inuse_bytes 1.590673408e+09 # HELP go_memstats_heap_objects Number of allocated objects. # TYPE go_memstats_heap_objects gauge go_memstats_heap_objects 1.6924595e+07 # HELP go_memstats_heap_released_bytes Number of heap bytes released to OS. # TYPE go_memstats_heap_released_bytes gauge go_memstats_heap_released_bytes 0 # HELP go_memstats_heap_sys_bytes Number of heap bytes obtained from system. # 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{ "repo_name": "pascaldekloe/metrics", "stars": "26", "repo_language": "Go", "file_name": "gostat.go", "mime_type": "text/plain" }
// Package gostat provides Go statistics to the default registry. // // The bindings are equivalent to the standard client implementation. // See the prometheus.NewGoCollector function documentation for details. package gostat import ( "runtime" "runtime/debug" "time" "github.com/pascaldekloe/metrics" ) var modulePath, moduleVersion, moduleChecksum = getModulePathVersionChecksum() func getModulePathVersionChecksum() (string, string, string) { info, ok := debug.ReadBuildInfo() if !ok { return "unknown", "unknown", "unknown" } return info.Main.Path, info.Main.Version, info.Main.Sum } func init() { // fix go_info metrics.MustHelp("go_info", "Information about the Go environment.") GoInfo.Set(1) // fix go_build_info metrics.MustHelp("go_build_info", "Build information about the main Go module.") BuildInfo.Set(1) } // GoInfo is set to 1. var GoInfo = metrics.Must1LabelInteger("go_info", "version")(runtime.Version()) // BuildInfo is set to 1. var BuildInfo = metrics.Must3LabelInteger("go_build_info", "path", "version", "checksum")(modulePath, moduleVersion, moduleChecksum) // Runtime Samples var ( NumGoroutine = metrics.MustRealSample("go_goroutines", "Number of goroutines that currently exist.") ThreadCreate = metrics.MustRealSample("go_threads", "Number of OS threads created.") // BUG(pascaldekloe): go_gc_duration_seconds not implemented // GCPause = metrics.MustSummarySample("go_gc_duration_seconds", "A summary of the GC invocation durations.") ) // Memory Allocation Samples var ( Alloc = metrics.MustRealSample("go_memstats_alloc_bytes", "Number of bytes allocated and still in use.") TotalAlloc = metrics.MustCounterSample("go_memstats_alloc_bytes_total", "Total number of bytes allocated, even if freed.") Sys = metrics.MustRealSample("go_memstats_sys_bytes", "Number of bytes obtained from system.") Lookups = metrics.MustCounterSample("go_memstats_lookups_total", "Total number of pointer lookups.") Mallocs = metrics.MustCounterSample("go_memstats_mallocs_total", "Total number of mallocs.") Frees = metrics.MustCounterSample("go_memstats_frees_total", "Total number of frees.") HeapAlloc = metrics.MustRealSample("go_memstats_heap_alloc_bytes", "Number of heap bytes allocated and still in use.") HeapSys = metrics.MustRealSample("go_memstats_heap_sys_bytes", "Number of heap bytes obtained from system.") HeapIdle = metrics.MustRealSample("go_memstats_heap_idle_bytes", "Number of heap bytes waiting to be used.") HeapInuse = metrics.MustRealSample("go_memstats_heap_inuse_bytes", "Number of heap bytes that are in use.") HeapReleased = metrics.MustRealSample("go_memstats_heap_released_bytes", "Number of heap bytes released to OS.") HeapObjects = metrics.MustRealSample("go_memstats_heap_objects", "Number of allocated objects.") StackInuse = metrics.MustRealSample("go_memstats_stack_inuse_bytes", "Number of bytes in use by the stack allocator.") StackSys = metrics.MustRealSample("go_memstats_stack_sys_bytes", "Number of bytes obtained from system for stack allocator.") MSpanInuse = metrics.MustRealSample("go_memstats_mspan_inuse_bytes", "Number of bytes in use by mspan structures.") MSpanSys = metrics.MustRealSample("go_memstats_mspan_sys_bytes", "Number of bytes used for mspan structures obtained from system.") MCacheInuse = metrics.MustRealSample("go_memstats_mcache_inuse_bytes", "Number of bytes in use by mcache structures.") MCacheSys = metrics.MustRealSample("go_memstats_mcache_sys_bytes", "Number of bytes used for mcache structures obtained from system.") BuckHashSys = metrics.MustRealSample("go_memstats_buck_hash_sys_bytes", "Number of bytes used by the profiling bucket hash table.") GCSys = metrics.MustRealSample("go_memstats_gc_sys_bytes", "Number of bytes used for garbage collection system metadata.") OtherSys = metrics.MustRealSample("go_memstats_other_sys_bytes", "Number of bytes used for other system allocations.") NextGC = metrics.MustRealSample("go_memstats_next_gc_bytes", "Number of heap bytes when next garbage collection will take place.") LastGC = metrics.MustRealSample("go_memstats_last_gc_time_seconds", "Number of seconds since 1970 of last garbage collection.") GCCPUFraction = metrics.MustRealSample("go_memstats_gc_cpu_fraction", "The fraction of this program's available CPU time used by the GC since the program started.") ) // Capture updates the samples. func Capture() { NumGoroutine.Set(float64(runtime.NumGoroutine()), time.Now()) recordCount, _ := runtime.ThreadCreateProfile(nil) ThreadCreate.Set(float64(recordCount), time.Now()) stats := new(runtime.MemStats) runtime.ReadMemStats(stats) timestamp := time.Now() Alloc.Set(float64(stats.Alloc), timestamp) TotalAlloc.Set(float64(stats.TotalAlloc), timestamp) Sys.Set(float64(stats.Sys), timestamp) Lookups.Set(float64(stats.Lookups), timestamp) Mallocs.Set(float64(stats.Mallocs), timestamp) Frees.Set(float64(stats.Frees), timestamp) HeapAlloc.Set(float64(stats.HeapAlloc), timestamp) HeapSys.Set(float64(stats.HeapSys), timestamp) HeapIdle.Set(float64(stats.HeapIdle), timestamp) HeapInuse.Set(float64(stats.HeapInuse), timestamp) HeapReleased.Set(float64(stats.HeapReleased), timestamp) HeapObjects.Set(float64(stats.HeapObjects), timestamp) StackInuse.Set(float64(stats.StackInuse), timestamp) StackSys.Set(float64(stats.StackSys), timestamp) MSpanInuse.Set(float64(stats.MSpanInuse), timestamp) MSpanSys.Set(float64(stats.MSpanSys), timestamp) MCacheInuse.Set(float64(stats.MCacheInuse), timestamp) MCacheSys.Set(float64(stats.MCacheSys), timestamp) BuckHashSys.Set(float64(stats.BuckHashSys), timestamp) GCSys.Set(float64(stats.GCSys), timestamp) OtherSys.Set(float64(stats.OtherSys), timestamp) NextGC.Set(float64(stats.NextGC), timestamp) LastGC.Set(float64(stats.LastGC)/1e9, timestamp) GCCPUFraction.Set(stats.GCCPUFraction, timestamp) } // CaptureEvery updates the samples with an interval, starting now. // The routine terminates with a send or close on cancel. func CaptureEvery(interval time.Duration) (cancel chan<- struct{}) { ch := make(chan struct{}) go func() { Capture() ticker := time.NewTicker(interval) for { select { case <-ticker.C: Capture() case <-ch: ticker.Stop() return } } }() return ch }
{ "repo_name": "pascaldekloe/metrics", "stars": "26", "repo_language": "Go", "file_name": "gostat.go", "mime_type": "text/plain" }
#!/bin/bash set -e -o nounset DST_DIR="$1" VERSION="$2" mkdir -p "$DST_DIR" SRC_DIR="src/" NESTED_FILES=("c25519/f25519" "c25519/fprime" "c25519/sha512" "c25519/c25519" "c25519/ed25519" "c25519/edsign" ) COMPACT_FILES=(compact_wipe compact_x25519 compact_ed25519) DST_HEADER="$DST_DIR/compact25519.h" DST_SOURCE="$DST_DIR/compact25519.c" function remove_header_guard() { # we reverse lines so that it is easier to detect the last endif to drop tac | \ awk ' BEGIN{LAST_END_FOUND=0;} /#endif/ && !LAST_END_FOUND { LAST_END_FOUND=1; next; } /#.*_H_*$/ { next; } 42 ' | \ tac } function remove_local_imports() { sed 's/#include ".*h"//' } function merge_includes() { awk ' /#include .*/ { includes[$0] = 1; next;} { other[NR] = $0; next; } END { for (i in includes) { print i; } for (i in other) { print other[i]; } } ' } function remove_double_blank_lines() { cat -s } function make_everything_static() { sed \ -e 's/^\([^\ \t#{}()\/]\)/static \1/' \ -e 's/static static/static/' \ -e 's/static struct/struct/' \ -e 's/static extern/extern/' \ -e 's/static const/const/' } function add_decl_spec() { sed \ -e 's/^static /static COMPACT_25519_DECL /' \ -e 's/^\([^\ \t#{}()\/*s]\)/COMPACT_25519_DECL \1/' # non static stuff like global header } echo "// compact25519 $VERSION // Source: https://github.com/DavyLandman/compact25519 // Licensed under CC0-1.0 // Based on Daniel Beer's Public Domain c25519 implementation // https://www.dlbeer.co.nz/oss/c25519.html version: 2017-10-05 #ifndef __COMPACT_25519_H #define __COMPACT_25519_H #if defined(__cplusplus) extern \"C\" { #endif // provide your own decl specificier like "-DCOMPACT_25519_DECL=ICACHE_RAM_ATTR" #ifndef COMPACT_25519_DECL #define COMPACT_25519_DECL #endif " > "$DST_HEADER" for h in "${COMPACT_FILES[@]}"; do cat "$SRC_DIR/$h.h" | remove_header_guard done | merge_includes | remove_double_blank_lines | add_decl_spec >> "$DST_HEADER" echo "#if defined(__cplusplus) } #endif #endif" >> "$DST_HEADER" echo "// compact25519 $VERSION // Source: https://github.com/DavyLandman/compact25519 // Licensed under CC0-1.0 // Based on Daniel Beer's Public Domain c25519 implementation // https://www.dlbeer.co.nz/oss/c25519.html version: 2017-10-05 #include \"compact25519.h\" " > "$DST_SOURCE" for h in "${NESTED_FILES[@]}"; do echo "// ******* BEGIN: $h.h ********" cat "$SRC_DIR/$h.h" | remove_header_guard | \ remove_local_imports | remove_double_blank_lines | \ make_everything_static | add_decl_spec echo "// ******* END: $h.h ********" done >> "$DST_SOURCE" for h in "${NESTED_FILES[@]}"; do echo "// ******* BEGIN: $h.c ********" cat "$SRC_DIR/$h.c" | remove_local_imports | \ remove_double_blank_lines | make_everything_static | add_decl_spec echo "// ******* END: $h.c ********" done >> "$DST_SOURCE" for h in "${COMPACT_FILES[@]}"; do echo "// ******* BEGIN: $h.c ********" cat "$SRC_DIR/$h.c" | remove_local_imports | \ remove_double_blank_lines | add_decl_spec echo "// ******* END: $h.c ********" done >> "$DST_SOURCE"
{ "repo_name": "DavyLandman/compact25519", "stars": "28", "repo_language": "C", "file_name": "go.sum", "mime_type": "text/plain" }
.PHONY: clean test dist test-dist src = $(wildcard src/*.c) $(wildcard src/c25519/*.c) CFLAGS+=-std=gnu99 -pedantic -Wall -Wextra -Os -Isrc -Isrc/c25519 LDFLAGS = VERSION?=dev-version bin/run-tests: $(src) test/run-all.c mkdir -p bin/ $(CC) -o $@ $^ $(LDFLAGS) $(CFLAGS) test: bin/run-tests ./bin/run-tests test-dist: test/algamize-test.go dist cd test && go run algamize-test.go dist: bash algamize.sh dist/ "${VERSION}" cp README.md dist/ cp LICENSE dist/ PACKAGE_DIST="compact25519-${VERSION}" package-dist: dist rm -rf "${PACKAGE_DIST}" cp -r dist "${PACKAGE_DIST}" zip -r -9 -X dist.zip "${PACKAGE_DIST}" clean: rm -f bin/* unused: $(src) test/run-all.c $(CC) -o bin/unused $^ $(LDFLAGS) $(CFLAGS) -ffunction-sections -fdata-sections -Wl,--gc-sections,--print-gc-sections test-windows: test-dist docker run --rm -v "/$(PWD):/app" silkeh/clang bash -c 'cd /app && CC=clang CFLAGS="-fsanitize=undefined" make clean test' test-linux: test test-dist
{ "repo_name": "DavyLandman/compact25519", "stars": "28", "repo_language": "C", "file_name": "go.sum", "mime_type": "text/plain" }
# compact25519: A compact portable X25519 + Ed25519 implementation This library is a compact and portable (c99) implementation of two popular operations on the Curve25519: - X25519: Diffie-Hellman Key Exchange - Ed25519: EdDSA signature system There are quite some advantages over older RSA based algorithms: - compact key size (32 bytes for X25519 and 64bytes for Ed25519) - Less opportunities to introduce side-channels - Faster than other popular alternatives at the same 128bit security level compact25519 targets smaller embedded devices, binary size is modest and all operations are on a byte level, no assumption of fast int32/int64 operations. Since there is no single C package management system, compact25519 is released as a single pair of c & h file. Deployment options: - Download [release from Github](https://github.com/DavyLandman/compact25519/releases) and copy into your project directory - TODO: Use PlatformIO and take a dependency on compact25519 ## License and origins The implementation of the X25519 and Ed25519 is extracted from [Daniel Beer's c25519](https://www.dlbeer.co.nz/oss/c25519.html) version 2017-10-05. Daniel Beer released it under the Public Domain license. To remain in the same spirit, this library is also licensed as Public Domain using the CC0 license. ## Smaller binaries By default the library contains both X25519 and Ed25519. They share quite some code. compact25519 has several defines so that you can disable either one of the operations to reduce binary size. | Define Flag | Description | |----|----| | `COMPACT_DISABLE_ED25519` | Disable Ed25519 feature and the related code, shaves of 32% | | `COMPACT_DISABLE_X25519` | Disable X25519 feature and the related code, shaves of 25% | | `COMPACT_DISABLE_X25519_DERIVE` | Disable custom derive secret feature, extra useful combined with `COMPACT_DISABLE_ED25519`, in itself only saves 3%, combined with disabling Ed25519: 45%|
{ "repo_name": "DavyLandman/compact25519", "stars": "28", "repo_language": "C", "file_name": "go.sum", "mime_type": "text/plain" }
name: Publish Release on: push: # Sequence of patterns matched against refs/tags tags: - 'v*' # Push events to matching v*, i.e. v1.0, v20.15.10 jobs: build: name: Create Release runs-on: ubuntu-latest steps: - name: Checkout code uses: actions/checkout@master - name: Get tag name uses: olegtarasov/[email protected] id: tagName - name: build & package release env: VERSION: ${{ steps.tagName.outputs.tag }} run: make package-dist - name: Create Release id: create_release uses: actions/create-release@v1 env: GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }} # This token is provided by Actions, you do not need to create your own token with: tag_name: ${{ github.ref }} release_name: compact25519 ${{ github.ref }} body: | Changes in this Release - First Change - Second Change draft: false prerelease: false - name: Upload Release Asset id: upload-release-asset uses: actions/[email protected] env: GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }} with: upload_url: ${{ steps.create_release.outputs.upload_url }} asset_path: ./dist.zip asset_name: compact25519-${{ steps.tagName.outputs.tag }}.zip asset_content_type: application/zip
{ "repo_name": "DavyLandman/compact25519", "stars": "28", "repo_language": "C", "file_name": "go.sum", "mime_type": "text/plain" }
name: Test C code on: [push, pull_request] jobs: build: runs-on: ubuntu-latest steps: - uses: actions/checkout@v2 - name: compile run: make - name: test everything run: make test - name: test disable Ed25519 env: CFLAGS: "-DCOMPACT_DISABLE_ED25519" run: make clean test - name: test disable X25519 env: CFLAGS: "-DCOMPACT_DISABLE_X25519" run: make clean test - name: Set up Go 1.13 uses: actions/setup-go@v1 with: go-version: 1.13 id: go - name: integration test run: make test-dist
{ "repo_name": "DavyLandman/compact25519", "stars": "28", "repo_language": "C", "file_name": "go.sum", "mime_type": "text/plain" }
#ifndef _COMPACT_ED25519_H #define _COMPACT_ED25519_H #ifndef COMPACT_DISABLE_ED25519 /* Ed25519 signs messages using Curve25519. After pre-sharing a public key, it allows two parties to verify the other side is who they say they are and that the communication is not altered. A signature is a ED25519_SIGNATURE_SIZE size byte array that can be only be generated when you have the private key, but can be verified if you have the public key. As an example: two parties want to have rotating keys for their encryption. The only thing they need to know about eachother is their long term Ed25519 public key. Per session they perform a X25519 key exchange, but sign their "Ephemeral" public key with their long-term Ed25519 private key. Now they can share this public key (and the signature) over a cleartext channel, nobody can alter of impersonate this exchange. (this is roughly how TLS works) */ #include <stdbool.h> #include <stddef.h> #include <stdint.h> #define ED25519_SEED_SIZE (32) #define ED25519_PUBLIC_KEY_SIZE (32) #define ED25519_PRIVATE_KEY_SIZE (64) #define ED25519_SIGNATURE_SIZE (64) /* Generate a private signing key from a random seed. input: - random_seed = random bytes that need to be filled from a good source of random entropy, PLEASE research the options on your platform! output: - private_key = signing key than can be used for compact_ed25519_sign - public_key = key to share with other parties (internally the format of the private key is the seed + public key, this makes it compatible with keys coming from libsodium, golang, and implentations that derive from SUPERCOP/ref10) */ void compact_ed25519_keygen( uint8_t private_key[ED25519_PRIVATE_KEY_SIZE], uint8_t public_key[ED25519_PUBLIC_KEY_SIZE], uint8_t random_seed[ED25519_SEED_SIZE] ); /* Extract public key from private key input: - private_key = signing key generated with compact_ed25519_keygen output: - public_key = public key corresponding to this private key, share with interested parties */ void compact_ed25519_calc_public_key( uint8_t public_key[ED25519_PUBLIC_KEY_SIZE], const uint8_t private_key[ED25519_PRIVATE_KEY_SIZE] ); /* Sign a message with the private key. input: - private_key = signing key generated with compact_ed25519_keygen or from a compatible source - message = pointer to the data that needs to be signed - msg_length = how many bytes to read from the start of the message pointer output: - signature = the signature that proves you hold the private key and that nobody tried to change the message. (the second property only holds if the attacker cannot change the size of the message) */ void compact_ed25519_sign( uint8_t signature[ED25519_SIGNATURE_SIZE], const uint8_t private_key[ED25519_PRIVATE_KEY_SIZE], const void *message, size_t msg_length ); /* Verify a signature against a public key. input: - signature = which signature to verify - public_key = the public key that it should be verified against (should not have been part of the message that contained the signature) - message = message to verify - msg_length = size of the message to verify returns: true if verified */ bool compact_ed25519_verify( const uint8_t signature[ED25519_SIGNATURE_SIZE], const uint8_t public_key[ED25519_PUBLIC_KEY_SIZE], const void *message, size_t msg_length ); #endif #endif
{ "repo_name": "DavyLandman/compact25519", "stars": "28", "repo_language": "C", "file_name": "go.sum", "mime_type": "text/plain" }
#ifndef _COMPACT_X25519_H #define _COMPACT_X25519_H #ifndef COMPACT_DISABLE_X25519 /* X25519 is a DH key exchange over Curve25519. Two parties can share their public keys over an open channel and agree upon a shared secret, that a third party cannot derive. Security concern: if a third party can intercept and change your connection in some way, then X25519 is not enough. The third party could for example run two X25519 sessions, one between themselfs and you, and another one between themselfs and the server. X25519 has no protection against this. A possible solution is to use Ed25519 to sign the public keys exchanged, with a special set of keys that is known before hand. Depending on your scenario, this either means embedding a set of long-term keys in your application or setting up some kind of Public Key Infrastructure (PKI). If that sounds to complicated or would not work for your case, checkout the Noise framework. It is a bit less compact than X25519 + Ed25519 but much more flexible in the kind of session setup styles. */ #include <stddef.h> #include <stdint.h> #define X25519_KEY_SIZE (32) #define X25519_SHARED_SIZE (32) /* Calculate public & private keypair for X25519 key exchange. Never transmit the private_key! input: - random_seed = random bytes that need to be filled from a good source of random entropy, PLEASE research the options on your platform! output: - private_key = resulting private key, never share this with the other party - public_key = public key to be shared with the other party */ void compact_x25519_keygen( uint8_t private_key[X25519_KEY_SIZE], uint8_t public_key[X25519_KEY_SIZE], uint8_t random_seed[X25519_KEY_SIZE] ); /* Calculate shared secret based on the others side public key. The shared secret does not have a uniform distribution so common advice is to avoid using it directly as a key. You can use compact_x25519_derive_encryption_key to get a more suitable encryption key out of this shared secret input: - my_private_key = private key that came out of compact_x25519_keygen - their_public_key = public key that was shared by the other party output: - shared_secret = X25519_SHARED_SIZE bytes that both sides now share */ void compact_x25519_shared( uint8_t shared_secret[X25519_SHARED_SIZE], const uint8_t my_private_key[X25519_KEY_SIZE], const uint8_t their_public_key[X25519_KEY_SIZE] ); #ifndef COMPACT_DISABLE_X25519_DERIVE /* Derive an more suitable encryption key from the shared secret. This is not part of the normal X25519 specification, but the specifications does warn that the shared secret is less suited as symmetric encryption key. The encryption key is the result of sha512(concat(shared_secret, public_key1, public_key2))[0..key_size] You have to make sure both parties agree which public key goes in first. input: - key_size = number between 1 and 64, of how big your encryption_key needs to be, make sure there is enough room where the encryption_key points to - shared_secret = result of compact_x25519_shared - public_key1 = first public key to mix in with the key - public_key2 = second public key to mix in with the key output: - encryption_key = supplied buffer is filled with a encryption key */ void compact_x25519_derive_encryption_key( uint8_t *encryption_key, size_t key_size, const uint8_t shared_secret[X25519_SHARED_SIZE], const uint8_t public_key1[X25519_KEY_SIZE], const uint8_t public_key2[X25519_KEY_SIZE] ); #endif #endif #endif
{ "repo_name": "DavyLandman/compact25519", "stars": "28", "repo_language": "C", "file_name": "go.sum", "mime_type": "text/plain" }
#ifndef COMPACT_DISABLE_X25519 #include "compact_x25519.h" #include "c25519/c25519.h" #include "c25519/sha512.h" #include "compact_wipe.h" void compact_x25519_keygen( uint8_t private_key[X25519_KEY_SIZE], uint8_t public_key[X25519_KEY_SIZE], uint8_t random_seed[X25519_KEY_SIZE] ) { memcpy(private_key, random_seed, X25519_KEY_SIZE); compact_wipe(random_seed, X25519_KEY_SIZE); c25519_prepare(private_key); c25519_smult(public_key, c25519_base_x, private_key); } void compact_x25519_shared( uint8_t shared_secret[X25519_SHARED_SIZE], const uint8_t my_private_key[X25519_KEY_SIZE], const uint8_t their_public_key[X25519_KEY_SIZE] ) { // Ensure that supplied private key is clamped (fix issue #1). // Calling `c25519_prepare` multiple times for the same private key // is OK because it won't modify already clamped key. uint8_t clamped_private_key[X25519_KEY_SIZE]; memcpy(clamped_private_key, my_private_key, X25519_KEY_SIZE); c25519_prepare(clamped_private_key); c25519_smult(shared_secret, their_public_key, clamped_private_key); compact_wipe(clamped_private_key, X25519_KEY_SIZE); } #ifndef COMPACT_DISABLE_X25519_DERIVE #if (X25519_KEY_SIZE + (2 * X25519_KEY_SIZE)) > SHA512_BLOCK_SIZE #error "Unexpected key sizes" #endif static uint8_t* append(uint8_t *dst, const void * source, size_t length) { memcpy(dst, source, length); return dst + length; } void compact_x25519_derive_encryption_key( uint8_t *encryption_key, size_t key_size, const uint8_t shared_secret[X25519_SHARED_SIZE], const uint8_t public_key1[X25519_KEY_SIZE], const uint8_t public_key2[X25519_KEY_SIZE] ) { if (key_size > SHA512_HASH_SIZE) { key_size = SHA512_HASH_SIZE; } uint8_t key_data[X25519_SHARED_SIZE + 2 * X25519_KEY_SIZE]; uint8_t *p = key_data; p = append(p, shared_secret, X25519_SHARED_SIZE); p = append(p, public_key1, X25519_KEY_SIZE); append(p, public_key2, X25519_KEY_SIZE); struct sha512_state hasher; sha512_init(&hasher); sha512_final(&hasher, key_data, sizeof(key_data)); sha512_get(&hasher, encryption_key, 0, key_size); compact_wipe(key_data, X25519_SHARED_SIZE); // clear the session key at least } #endif #endif
{ "repo_name": "DavyLandman/compact25519", "stars": "28", "repo_language": "C", "file_name": "go.sum", "mime_type": "text/plain" }
#include "compact_wipe.h" #include <stdlib.h> #include <string.h> void *compact_wipe(void *data, size_t length) { // simplification of: https://www.cryptologie.net/article/419/zeroing-memory-compiler-optimizations-and-memset_s/ volatile unsigned char *p = data; while (length--){ *p++ = 0; } return data; }
{ "repo_name": "DavyLandman/compact25519", "stars": "28", "repo_language": "C", "file_name": "go.sum", "mime_type": "text/plain" }
#include "compact_ed25519.h" #ifndef COMPACT_DISABLE_ED25519 #include "c25519/edsign.h" #include "compact_wipe.h" #include <string.h> #define __PUBLIC_KEY_OFFSET (32) void compact_ed25519_keygen( uint8_t private_key[ED25519_PRIVATE_KEY_SIZE], uint8_t public_key[ED25519_PUBLIC_KEY_SIZE], uint8_t random_seed[ED25519_SEED_SIZE] ) { // private key is seed + public key, like golang and others edsign_sec_to_pub(public_key, random_seed); memcpy(private_key, random_seed, ED25519_SEED_SIZE); memcpy(private_key + __PUBLIC_KEY_OFFSET, public_key, ED25519_PUBLIC_KEY_SIZE); compact_wipe(random_seed, ED25519_SEED_SIZE); } void compact_ed25519_calc_public_key( uint8_t public_key[ED25519_PUBLIC_KEY_SIZE], const uint8_t private_key[ED25519_PRIVATE_KEY_SIZE] ) { memcpy(public_key, private_key + __PUBLIC_KEY_OFFSET, ED25519_PUBLIC_KEY_SIZE); } void compact_ed25519_sign( uint8_t signature[ED25519_SIGNATURE_SIZE], const uint8_t private_key[ED25519_PRIVATE_KEY_SIZE], const void *message, size_t msg_length ) { edsign_sign(signature, private_key + __PUBLIC_KEY_OFFSET, private_key, message, msg_length); } bool compact_ed25519_verify( const uint8_t signature[ED25519_SIGNATURE_SIZE], const uint8_t public_key[ED25519_PUBLIC_KEY_SIZE], const void *message, size_t msg_length ) { return edsign_verify(signature, public_key, message, msg_length) != 0; } #endif
{ "repo_name": "DavyLandman/compact25519", "stars": "28", "repo_language": "C", "file_name": "go.sum", "mime_type": "text/plain" }
#ifndef __COMPACT_WIPE_H #define __COMPACT_WIPE_H #include <stdint.h> #include <stddef.h> /* Try to wipe contents of a buffer, as best as we can. (memset can be ignored by the compiler) Use this to clear private key data if you do not need it anymore. returns the data pointer, makes for easier chaining */ void *compact_wipe(void *data, size_t length); #endif
{ "repo_name": "DavyLandman/compact25519", "stars": "28", "repo_language": "C", "file_name": "go.sum", "mime_type": "text/plain" }
/* Arithmetic mod p = 2^255-19 * Daniel Beer <[email protected]>, 5 Jan 2014 * * This file is in the public domain. */ #include "f25519.h" #ifdef FULL_C25519_CODE const uint8_t f25519_zero[F25519_SIZE] = {0}; #endif const uint8_t f25519_one[F25519_SIZE] = {1}; void f25519_load(uint8_t *x, uint32_t c) { unsigned int i; for (i = 0; i < sizeof(c); i++) { x[i] = c; c >>= 8; } for (; i < F25519_SIZE; i++) x[i] = 0; } void f25519_normalize(uint8_t *x) { uint8_t minusp[F25519_SIZE]; uint16_t c; int i; /* Reduce using 2^255 = 19 mod p */ c = (x[31] >> 7) * 19; x[31] &= 127; for (i = 0; i < F25519_SIZE; i++) { c += x[i]; x[i] = c; c >>= 8; } /* The number is now less than 2^255 + 18, and therefore less than * 2p. Try subtracting p, and conditionally load the subtracted * value if underflow did not occur. */ c = 19; for (i = 0; i + 1 < F25519_SIZE; i++) { c += x[i]; minusp[i] = c; c >>= 8; } c += ((uint16_t)x[i]) - 128; minusp[31] = c; /* Load x-p if no underflow */ f25519_select(x, minusp, x, (c >> 15) & 1); } uint8_t f25519_eq(const uint8_t *x, const uint8_t *y) { uint8_t sum = 0; int i; for (i = 0; i < F25519_SIZE; i++) sum |= x[i] ^ y[i]; sum |= (sum >> 4); sum |= (sum >> 2); sum |= (sum >> 1); return (sum ^ 1) & 1; } void f25519_select(uint8_t *dst, const uint8_t *zero, const uint8_t *one, uint8_t condition) { const uint8_t mask = -condition; int i; for (i = 0; i < F25519_SIZE; i++) dst[i] = zero[i] ^ (mask & (one[i] ^ zero[i])); } void f25519_add(uint8_t *r, const uint8_t *a, const uint8_t *b) { uint16_t c = 0; int i; /* Add */ for (i = 0; i < F25519_SIZE; i++) { c >>= 8; c += ((uint16_t)a[i]) + ((uint16_t)b[i]); r[i] = c; } /* Reduce with 2^255 = 19 mod p */ r[31] &= 127; c = (c >> 7) * 19; for (i = 0; i < F25519_SIZE; i++) { c += r[i]; r[i] = c; c >>= 8; } } void f25519_sub(uint8_t *r, const uint8_t *a, const uint8_t *b) { uint32_t c = 0; int i; /* Calculate a + 2p - b, to avoid underflow */ c = 218; for (i = 0; i + 1 < F25519_SIZE; i++) { c += 65280 + ((uint32_t)a[i]) - ((uint32_t)b[i]); r[i] = c; c >>= 8; } c += ((uint32_t)a[31]) - ((uint32_t)b[31]); r[31] = c & 127; c = (c >> 7) * 19; for (i = 0; i < F25519_SIZE; i++) { c += r[i]; r[i] = c; c >>= 8; } } void f25519_neg(uint8_t *r, const uint8_t *a) { uint32_t c = 0; int i; /* Calculate 2p - a, to avoid underflow */ c = 218; for (i = 0; i + 1 < F25519_SIZE; i++) { c += 65280 - ((uint32_t)a[i]); r[i] = c; c >>= 8; } c -= ((uint32_t)a[31]); r[31] = c & 127; c = (c >> 7) * 19; for (i = 0; i < F25519_SIZE; i++) { c += r[i]; r[i] = c; c >>= 8; } } void f25519_mul__distinct(uint8_t *r, const uint8_t *a, const uint8_t *b) { uint32_t c = 0; int i; for (i = 0; i < F25519_SIZE; i++) { int j; c >>= 8; for (j = 0; j <= i; j++) c += ((uint32_t)a[j]) * ((uint32_t)b[i - j]); for (; j < F25519_SIZE; j++) c += ((uint32_t)a[j]) * ((uint32_t)b[i + F25519_SIZE - j]) * 38; r[i] = c; } r[31] &= 127; c = (c >> 7) * 19; for (i = 0; i < F25519_SIZE; i++) { c += r[i]; r[i] = c; c >>= 8; } } #ifdef FULL_C25519_CODE void f25519_mul(uint8_t *r, const uint8_t *a, const uint8_t *b) { uint8_t tmp[F25519_SIZE]; f25519_mul__distinct(tmp, a, b); f25519_copy(r, tmp); } #endif void f25519_mul_c(uint8_t *r, const uint8_t *a, uint32_t b) { uint32_t c = 0; int i; for (i = 0; i < F25519_SIZE; i++) { c >>= 8; c += b * ((uint32_t)a[i]); r[i] = c; } r[31] &= 127; c >>= 7; c *= 19; for (i = 0; i < F25519_SIZE; i++) { c += r[i]; r[i] = c; c >>= 8; } } void f25519_inv__distinct(uint8_t *r, const uint8_t *x) { uint8_t s[F25519_SIZE]; int i; /* This is a prime field, so by Fermat's little theorem: * * x^(p-1) = 1 mod p * * Therefore, raise to (p-2) = 2^255-21 to get a multiplicative * inverse. * * This is a 255-bit binary number with the digits: * * 11111111... 01011 * * We compute the result by the usual binary chain, but * alternate between keeping the accumulator in r and s, so as * to avoid copying temporaries. */ /* 1 1 */ f25519_mul__distinct(s, x, x); f25519_mul__distinct(r, s, x); /* 1 x 248 */ for (i = 0; i < 248; i++) { f25519_mul__distinct(s, r, r); f25519_mul__distinct(r, s, x); } /* 0 */ f25519_mul__distinct(s, r, r); /* 1 */ f25519_mul__distinct(r, s, s); f25519_mul__distinct(s, r, x); /* 0 */ f25519_mul__distinct(r, s, s); /* 1 */ f25519_mul__distinct(s, r, r); f25519_mul__distinct(r, s, x); /* 1 */ f25519_mul__distinct(s, r, r); f25519_mul__distinct(r, s, x); } #ifdef FULL_C25519_CODE void f25519_inv(uint8_t *r, const uint8_t *x) { uint8_t tmp[F25519_SIZE]; f25519_inv__distinct(tmp, x); f25519_copy(r, tmp); } #endif /* Raise x to the power of (p-5)/8 = 2^252-3, using s for temporary * storage. */ static void exp2523(uint8_t *r, const uint8_t *x, uint8_t *s) { int i; /* This number is a 252-bit number with the binary expansion: * * 111111... 01 */ /* 1 1 */ f25519_mul__distinct(r, x, x); f25519_mul__distinct(s, r, x); /* 1 x 248 */ for (i = 0; i < 248; i++) { f25519_mul__distinct(r, s, s); f25519_mul__distinct(s, r, x); } /* 0 */ f25519_mul__distinct(r, s, s); /* 1 */ f25519_mul__distinct(s, r, r); f25519_mul__distinct(r, s, x); } void f25519_sqrt(uint8_t *r, const uint8_t *a) { uint8_t v[F25519_SIZE]; uint8_t i[F25519_SIZE]; uint8_t x[F25519_SIZE]; uint8_t y[F25519_SIZE]; /* v = (2a)^((p-5)/8) [x = 2a] */ f25519_mul_c(x, a, 2); exp2523(v, x, y); /* i = 2av^2 - 1 */ f25519_mul__distinct(y, v, v); f25519_mul__distinct(i, x, y); f25519_load(y, 1); f25519_sub(i, i, y); /* r = avi */ f25519_mul__distinct(x, v, a); f25519_mul__distinct(r, x, i); }
{ "repo_name": "DavyLandman/compact25519", "stars": "28", "repo_language": "C", "file_name": "go.sum", "mime_type": "text/plain" }
/* SHA512 * Daniel Beer <[email protected]>, 22 Apr 2014 * * This file is in the public domain. */ #ifndef SHA512_H_ #define SHA512_H_ #if !defined(COMPACT_DISABLE_ED25519) || !defined(COMPACT_DISABLE_X25519_DERIVE) #include <stdint.h> #include <stddef.h> #include <string.h> /* SHA512 state. State is updated as data is fed in, and then the final * hash can be read out in slices. * * Data is fed in as a sequence of full blocks terminated by a single * partial block. */ struct sha512_state { uint64_t h[8]; }; /* Initial state */ extern const struct sha512_state sha512_initial_state; /* Set up a new context */ static inline void sha512_init(struct sha512_state *s) { memcpy(s, &sha512_initial_state, sizeof(*s)); } /* Feed a full block in */ #define SHA512_BLOCK_SIZE 128 void sha512_block(struct sha512_state *s, const uint8_t *blk); /* Feed the last partial block in. The total stream size must be * specified. The size of the block given is assumed to be (total_size % * SHA512_BLOCK_SIZE). This might be zero, but you still need to call * this function to terminate the stream. */ void sha512_final(struct sha512_state *s, const uint8_t *blk, size_t total_size); /* Fetch a slice of the hash result. */ #define SHA512_HASH_SIZE 64 void sha512_get(const struct sha512_state *s, uint8_t *hash, unsigned int offset, unsigned int len); #endif #endif
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/* Arithmetic mod p = 2^255-19 * Daniel Beer <[email protected]>, 8 Jan 2014 * * This file is in the public domain. */ #ifndef F25519_H_ #define F25519_H_ #include <stdint.h> #include <string.h> /* Field elements are represented as little-endian byte strings. All * operations have timings which are independent of input data, so they * can be safely used for cryptography. * * Computation is performed on un-normalized elements. These are byte * strings which fall into the range 0 <= x < 2p. Use f25519_normalize() * to convert to a value 0 <= x < p. * * Elements received from the outside may greater even than 2p. * f25519_normalize() will correctly deal with these numbers too. */ #define F25519_SIZE 32 /* Identity constants */ #ifdef FULL_C25519_CODE extern const uint8_t f25519_zero[F25519_SIZE]; #endif extern const uint8_t f25519_one[F25519_SIZE]; /* Load a small constant */ void f25519_load(uint8_t *x, uint32_t c); /* Copy two points */ static inline void f25519_copy(uint8_t *x, const uint8_t *a) { memcpy(x, a, F25519_SIZE); } /* Normalize a field point x < 2*p by subtracting p if necessary */ void f25519_normalize(uint8_t *x); /* Compare two field points in constant time. Return one if equal, zero * otherwise. This should be performed only on normalized values. */ uint8_t f25519_eq(const uint8_t *x, const uint8_t *y); /* Conditional copy. If condition == 0, then zero is copied to dst. If * condition == 1, then one is copied to dst. Any other value results in * undefined behaviour. */ void f25519_select(uint8_t *dst, const uint8_t *zero, const uint8_t *one, uint8_t condition); /* Add/subtract two field points. The three pointers are not required to * be distinct. */ void f25519_add(uint8_t *r, const uint8_t *a, const uint8_t *b); void f25519_sub(uint8_t *r, const uint8_t *a, const uint8_t *b); /* Unary negation */ void f25519_neg(uint8_t *r, const uint8_t *a); /* Multiply two field points. The __distinct variant is used when r is * known to be in a different location to a and b. */ #ifdef FULL_C25519_CODE void f25519_mul(uint8_t *r, const uint8_t *a, const uint8_t *b); #endif void f25519_mul__distinct(uint8_t *r, const uint8_t *a, const uint8_t *b); /* Multiply a point by a small constant. The two pointers are not * required to be distinct. * * The constant must be less than 2^24. */ void f25519_mul_c(uint8_t *r, const uint8_t *a, uint32_t b); /* Take the reciprocal of a field point. The __distinct variant is used * when r is known to be in a different location to x. */ #ifdef FULL_C25519_CODE void f25519_inv(uint8_t *r, const uint8_t *x); #endif void f25519_inv__distinct(uint8_t *r, const uint8_t *x); /* Compute one of the square roots of the field element, if the element * is square. The other square is -r. * * If the input is not square, the returned value is a valid field * element, but not the correct answer. If you don't already know that * your element is square, you should square the return value and test. */ void f25519_sqrt(uint8_t *r, const uint8_t *x); #endif
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/* Arithmetic in prime fields * Daniel Beer <[email protected]>, 10 Jan 2014 * * This file is in the public domain. */ #include "fprime.h" #ifndef COMPACT_DISABLE_ED25519 #ifdef FULL_C25519_CODE const uint8_t fprime_zero[FPRIME_SIZE] = {0}; const uint8_t fprime_one[FPRIME_SIZE] = {1}; #endif static void raw_add(uint8_t *x, const uint8_t *p) { uint16_t c = 0; int i; for (i = 0; i < FPRIME_SIZE; i++) { c += ((uint16_t)x[i]) + ((uint16_t)p[i]); x[i] = c; c >>= 8; } } static void raw_try_sub(uint8_t *x, const uint8_t *p) { uint8_t minusp[FPRIME_SIZE]; uint16_t c = 0; int i; for (i = 0; i < FPRIME_SIZE; i++) { c = ((uint16_t)x[i]) - ((uint16_t)p[i]) - c; minusp[i] = c; c = (c >> 8) & 1; } fprime_select(x, minusp, x, c); } /* Warning: this function is variable-time */ static int prime_msb(const uint8_t *p) { int i; uint8_t x; for (i = FPRIME_SIZE - 1; i >= 0; i--) if (p[i]) break; x = p[i]; i <<= 3; while (x) { x >>= 1; i++; } return i - 1; } /* Warning: this function may be variable-time in the argument n */ static void shift_n_bits(uint8_t *x, int n) { uint16_t c = 0; int i; for (i = 0; i < FPRIME_SIZE; i++) { c |= ((uint16_t)x[i]) << n; x[i] = c; c >>= 8; } } #ifdef FULL_C25519_CODE void fprime_load(uint8_t *x, uint32_t c) { unsigned int i; for (i = 0; i < sizeof(c); i++) { x[i] = c; c >>= 8; } for (; i < FPRIME_SIZE; i++) x[i] = 0; } #endif static inline int min_int(int a, int b) { return a < b ? a : b; } void fprime_from_bytes(uint8_t *n, const uint8_t *x, size_t len, const uint8_t *modulus) { const int preload_total = min_int(prime_msb(modulus) - 1, len << 3); const int preload_bytes = preload_total >> 3; const int preload_bits = preload_total & 7; const int rbits = (len << 3) - preload_total; int i; memset(n, 0, FPRIME_SIZE); for (i = 0; i < preload_bytes; i++) n[i] = x[len - preload_bytes + i]; if (preload_bits) { shift_n_bits(n, preload_bits); n[0] |= x[len - preload_bytes - 1] >> (8 - preload_bits); } for (i = rbits - 1; i >= 0; i--) { const uint8_t bit = (x[i >> 3] >> (i & 7)) & 1; shift_n_bits(n, 1); n[0] |= bit; raw_try_sub(n, modulus); } } #ifdef FULL_C25519_CODE void fprime_normalize(uint8_t *x, const uint8_t *modulus) { uint8_t n[FPRIME_SIZE]; fprime_from_bytes(n, x, FPRIME_SIZE, modulus); fprime_copy(x, n); } uint8_t fprime_eq(const uint8_t *x, const uint8_t *y) { uint8_t sum = 0; int i; for (i = 0; i < FPRIME_SIZE; i++) sum |= x[i] ^ y[i]; sum |= (sum >> 4); sum |= (sum >> 2); sum |= (sum >> 1); return (sum ^ 1) & 1; } #endif void fprime_select(uint8_t *dst, const uint8_t *zero, const uint8_t *one, uint8_t condition) { const uint8_t mask = -condition; int i; for (i = 0; i < FPRIME_SIZE; i++) dst[i] = zero[i] ^ (mask & (one[i] ^ zero[i])); } void fprime_add(uint8_t *r, const uint8_t *a, const uint8_t *modulus) { raw_add(r, a); raw_try_sub(r, modulus); } #ifdef FULL_C25519_CODE void fprime_sub(uint8_t *r, const uint8_t *a, const uint8_t *modulus) { raw_add(r, modulus); raw_try_sub(r, a); raw_try_sub(r, modulus); } #endif void fprime_mul(uint8_t *r, const uint8_t *a, const uint8_t *b, const uint8_t *modulus) { int i; memset(r, 0, FPRIME_SIZE); for (i = prime_msb(modulus); i >= 0; i--) { const uint8_t bit = (b[i >> 3] >> (i & 7)) & 1; uint8_t plusa[FPRIME_SIZE]; shift_n_bits(r, 1); raw_try_sub(r, modulus); fprime_copy(plusa, r); fprime_add(plusa, a, modulus); fprime_select(r, r, plusa, bit); } } #ifdef FULL_C25519_CODE void fprime_inv(uint8_t *r, const uint8_t *a, const uint8_t *modulus) { uint8_t pm2[FPRIME_SIZE]; uint16_t c = 2; int i; /* Compute (p-2) */ fprime_copy(pm2, modulus); for (i = 0; i < FPRIME_SIZE; i++) { c = modulus[i] - c; pm2[i] = c; c >>= 8; } /* Binary exponentiation */ fprime_load(r, 1); for (i = prime_msb(modulus); i >= 0; i--) { uint8_t r2[FPRIME_SIZE]; fprime_mul(r2, r, r, modulus); if ((pm2[i >> 3] >> (i & 7)) & 1) fprime_mul(r, r2, a, modulus); else fprime_copy(r, r2); } } #endif #endif
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/* Curve25519 (Montgomery form) * Daniel Beer <[email protected]>, 18 Apr 2014 * * This file is in the public domain. */ #include "c25519.h" #ifndef COMPACT_DISABLE_X25519 const uint8_t c25519_base_x[F25519_SIZE] = {9}; /* Double an X-coordinate */ static void xc_double(uint8_t *x3, uint8_t *z3, const uint8_t *x1, const uint8_t *z1) { /* Explicit formulas database: dbl-1987-m * * source 1987 Montgomery "Speeding the Pollard and elliptic * curve methods of factorization", page 261, fourth display * compute X3 = (X1^2-Z1^2)^2 * compute Z3 = 4 X1 Z1 (X1^2 + a X1 Z1 + Z1^2) */ uint8_t x1sq[F25519_SIZE]; uint8_t z1sq[F25519_SIZE]; uint8_t x1z1[F25519_SIZE]; uint8_t a[F25519_SIZE]; f25519_mul__distinct(x1sq, x1, x1); f25519_mul__distinct(z1sq, z1, z1); f25519_mul__distinct(x1z1, x1, z1); f25519_sub(a, x1sq, z1sq); f25519_mul__distinct(x3, a, a); f25519_mul_c(a, x1z1, 486662); f25519_add(a, x1sq, a); f25519_add(a, z1sq, a); f25519_mul__distinct(x1sq, x1z1, a); f25519_mul_c(z3, x1sq, 4); } /* Differential addition */ static void xc_diffadd(uint8_t *x5, uint8_t *z5, const uint8_t *x1, const uint8_t *z1, const uint8_t *x2, const uint8_t *z2, const uint8_t *x3, const uint8_t *z3) { /* Explicit formulas database: dbl-1987-m3 * * source 1987 Montgomery "Speeding the Pollard and elliptic curve * methods of factorization", page 261, fifth display, plus * common-subexpression elimination * compute A = X2+Z2 * compute B = X2-Z2 * compute C = X3+Z3 * compute D = X3-Z3 * compute DA = D A * compute CB = C B * compute X5 = Z1(DA+CB)^2 * compute Z5 = X1(DA-CB)^2 */ uint8_t da[F25519_SIZE]; uint8_t cb[F25519_SIZE]; uint8_t a[F25519_SIZE]; uint8_t b[F25519_SIZE]; f25519_add(a, x2, z2); f25519_sub(b, x3, z3); /* D */ f25519_mul__distinct(da, a, b); f25519_sub(b, x2, z2); f25519_add(a, x3, z3); /* C */ f25519_mul__distinct(cb, a, b); f25519_add(a, da, cb); f25519_mul__distinct(b, a, a); f25519_mul__distinct(x5, z1, b); f25519_sub(a, da, cb); f25519_mul__distinct(b, a, a); f25519_mul__distinct(z5, x1, b); } void c25519_smult(uint8_t *result, const uint8_t *q, const uint8_t *e) { /* Current point: P_m */ uint8_t xm[F25519_SIZE]; uint8_t zm[F25519_SIZE] = {1}; /* Predecessor: P_(m-1) */ uint8_t xm1[F25519_SIZE] = {1}; uint8_t zm1[F25519_SIZE] = {0}; int i; /* Note: bit 254 is assumed to be 1 */ f25519_copy(xm, q); for (i = 253; i >= 0; i--) { const int bit = (e[i >> 3] >> (i & 7)) & 1; uint8_t xms[F25519_SIZE]; uint8_t zms[F25519_SIZE]; /* From P_m and P_(m-1), compute P_(2m) and P_(2m-1) */ xc_diffadd(xm1, zm1, q, f25519_one, xm, zm, xm1, zm1); xc_double(xm, zm, xm, zm); /* Compute P_(2m+1) */ xc_diffadd(xms, zms, xm1, zm1, xm, zm, q, f25519_one); /* Select: * bit = 1 --> (P_(2m+1), P_(2m)) * bit = 0 --> (P_(2m), P_(2m-1)) */ f25519_select(xm1, xm1, xm, bit); f25519_select(zm1, zm1, zm, bit); f25519_select(xm, xm, xms, bit); f25519_select(zm, zm, zms, bit); } /* Freeze out of projective coordinates */ f25519_inv__distinct(zm1, zm); f25519_mul__distinct(result, zm1, xm); f25519_normalize(result); } #endif
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/* Arithmetic in prime fields * Daniel Beer <[email protected]>, 10 Jan 2014 * * This file is in the public domain. */ #ifndef FPRIME_H_ #define FPRIME_H_ #ifndef COMPACT_DISABLE_ED25519 #include <stdint.h> #include <string.h> /* Maximum size of a field element (or a prime). Field elements are * always manipulated and stored in normalized form, with 0 <= x < p. * You can use normalize() to convert a denormalized bitstring to normal * form. * * Operations are constant with respect to the value of field elements, * but not with respect to the modulus. * * The modulus is a number p, such that 2p-1 fits in FPRIME_SIZE bytes. */ #define FPRIME_SIZE 32 #ifdef FULL_C25519_CODE /* Useful constants */ extern const uint8_t fprime_zero[FPRIME_SIZE]; extern const uint8_t fprime_one[FPRIME_SIZE]; #endif #ifdef FULL_C25519_CODE /* Load a small constant */ void fprime_load(uint8_t *x, uint32_t c); #endif /* Load a large constant */ void fprime_from_bytes(uint8_t *n, const uint8_t *x, size_t len, const uint8_t *modulus); /* Copy an element */ static inline void fprime_copy(uint8_t *x, const uint8_t *a) { memcpy(x, a, FPRIME_SIZE); } #ifdef FULL_C25519_CODE /* Normalize a field element */ void fprime_normalize(uint8_t *x, const uint8_t *modulus); /* Compare two field points in constant time. Return one if equal, zero * otherwise. This should be performed only on normalized values. */ uint8_t fprime_eq(const uint8_t *x, const uint8_t *y); #endif /* Conditional copy. If condition == 0, then zero is copied to dst. If * condition == 1, then one is copied to dst. Any other value results in * undefined behaviour. */ void fprime_select(uint8_t *dst, const uint8_t *zero, const uint8_t *one, uint8_t condition); /* Add one value to another. The two pointers must be distinct. */ void fprime_add(uint8_t *r, const uint8_t *a, const uint8_t *modulus); #ifdef FULL_C25519_CODE void fprime_sub(uint8_t *r, const uint8_t *a, const uint8_t *modulus); #endif /* Multiply two values to get a third. r must be distinct from a and b */ void fprime_mul(uint8_t *r, const uint8_t *a, const uint8_t *b, const uint8_t *modulus); #ifdef FULL_C25519_CODE /* Compute multiplicative inverse. r must be distinct from a */ void fprime_inv(uint8_t *r, const uint8_t *a, const uint8_t *modulus); #endif #endif #endif
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/* Edwards curve operations * Daniel Beer <[email protected]>, 9 Jan 2014 * * This file is in the public domain. */ #ifndef ED25519_H_ #define ED25519_H_ #ifndef COMPACT_DISABLE_ED25519 #include "f25519.h" /* This is not the Ed25519 signature system. Rather, we're implementing * basic operations on the twisted Edwards curve over (Z mod 2^255-19): * * -x^2 + y^2 = 1 - (121665/121666)x^2y^2 * * With the positive-x base point y = 4/5. * * These functions will not leak secret data through timing. * * For more information, see: * * Bernstein, D.J. & Lange, T. (2007) "Faster addition and doubling on * elliptic curves". Document ID: 95616567a6ba20f575c5f25e7cebaf83. * * Hisil, H. & Wong, K K. & Carter, G. & Dawson, E. (2008) "Twisted * Edwards curves revisited". Advances in Cryptology, ASIACRYPT 2008, * Vol. 5350, pp. 326-343. */ /* Projective coordinates */ struct ed25519_pt { uint8_t x[F25519_SIZE]; uint8_t y[F25519_SIZE]; uint8_t t[F25519_SIZE]; uint8_t z[F25519_SIZE]; }; extern const struct ed25519_pt ed25519_base; extern const struct ed25519_pt ed25519_neutral; /* Convert between projective and affine coordinates (x/y in F25519) */ void ed25519_project(struct ed25519_pt *p, const uint8_t *x, const uint8_t *y); void ed25519_unproject(uint8_t *x, uint8_t *y, const struct ed25519_pt *p); /* Compress/uncompress points. try_unpack() will check that the * compressed point is on the curve, returning 1 if the unpacked point * is valid, and 0 otherwise. */ #define ED25519_PACK_SIZE F25519_SIZE void ed25519_pack(uint8_t *c, const uint8_t *x, const uint8_t *y); uint8_t ed25519_try_unpack(uint8_t *x, uint8_t *y, const uint8_t *c); /* Add, double and scalar multiply */ #define ED25519_EXPONENT_SIZE 32 /* Prepare an exponent by clamping appropriate bits */ static inline void ed25519_prepare(uint8_t *e) { e[0] &= 0xf8; e[31] &= 0x7f; e[31] |= 0x40; } /* Order of the group generated by the base point */ static inline void ed25519_copy(struct ed25519_pt *dst, const struct ed25519_pt *src) { memcpy(dst, src, sizeof(*dst)); } void ed25519_add(struct ed25519_pt *r, const struct ed25519_pt *a, const struct ed25519_pt *b); void ed25519_double(struct ed25519_pt *r, const struct ed25519_pt *a); void ed25519_smult(struct ed25519_pt *r, const struct ed25519_pt *a, const uint8_t *e); #endif #endif
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/* Curve25519 (Montgomery form) * Daniel Beer <[email protected]>, 18 Apr 2014 * * This file is in the public domain. */ #ifndef C25519_H_ #define C25519_H_ #ifndef COMPACT_DISABLE_X25519 #include <stdint.h> #include "f25519.h" /* Curve25519 has the equation over F(p = 2^255-19): * * y^2 = x^3 + 486662x^2 + x * * 486662 = 4A+2, where A = 121665. This is a Montgomery curve. * * For more information, see: * * Bernstein, D.J. (2006) "Curve25519: New Diffie-Hellman speed * records". Document ID: 4230efdfa673480fc079449d90f322c0. */ /* This is the site of a Curve25519 exponent (private key) */ #define C25519_EXPONENT_SIZE 32 /* Having generated 32 random bytes, you should call this function to * finalize the generated key. */ static inline void c25519_prepare(uint8_t *key) { key[0] &= 0xf8; key[31] &= 0x7f; key[31] |= 0x40; } /* X-coordinate of the base point */ extern const uint8_t c25519_base_x[F25519_SIZE]; /* X-coordinate scalar multiply: given the X-coordinate of q, return the * X-coordinate of e*q. * * result and q are field elements. e is an exponent. */ void c25519_smult(uint8_t *result, const uint8_t *q, const uint8_t *e); #endif #endif
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/* Edwards curve signature system * Daniel Beer <[email protected]>, 22 Apr 2014 * * This file is in the public domain. */ #ifndef EDSIGN_H_ #define EDSIGN_H_ #ifndef COMPACT_DISABLE_ED25519 #include <stdint.h> #include <stddef.h> /* This is the Ed25519 signature system, as described in: * * Daniel J. Bernstein, Niels Duif, Tanja Lange, Peter Schwabe, Bo-Yin * Yang. High-speed high-security signatures. Journal of Cryptographic * Engineering 2 (2012), 77-89. Document ID: * a1a62a2f76d23f65d622484ddd09caf8. URL: * http://cr.yp.to/papers.html#ed25519. Date: 2011.09.26. * * The format and calculation of signatures is compatible with the * Ed25519 implementation in SUPERCOP. Note, however, that our secret * keys are half the size: we don't store a copy of the public key in * the secret key (we generate it on demand). */ /* Any string of 32 random bytes is a valid secret key. There is no * clamping of bits, because we don't use the key directly as an * exponent (the exponent is derived from part of a key expansion). */ #define EDSIGN_SECRET_KEY_SIZE 32 /* Given a secret key, produce the public key (a packed Edwards-curve * point). */ #define EDSIGN_PUBLIC_KEY_SIZE 32 void edsign_sec_to_pub(uint8_t *pub, const uint8_t *secret); /* Produce a signature for a message. */ #define EDSIGN_SIGNATURE_SIZE 64 void edsign_sign(uint8_t *signature, const uint8_t *pub, const uint8_t *secret, const uint8_t *message, size_t len); /* Verify a message signature. Returns non-zero if ok. */ uint8_t edsign_verify(const uint8_t *signature, const uint8_t *pub, const uint8_t *message, size_t len); #endif #endif
{ "repo_name": "DavyLandman/compact25519", "stars": "28", "repo_language": "C", "file_name": "go.sum", "mime_type": "text/plain" }
This directory contains [Daniel Beer's (Public Domain) c25519 implementation](https://www.dlbeer.co.nz/oss/c25519.html), with some minor adjustments to add define guards. Version: 2017-10-05
{ "repo_name": "DavyLandman/compact25519", "stars": "28", "repo_language": "C", "file_name": "go.sum", "mime_type": "text/plain" }
/* Edwards curve signature system * Daniel Beer <[email protected]>, 22 Apr 2014 * * This file is in the public domain. */ #include "ed25519.h" #ifndef COMPACT_DISABLE_ED25519 #include "sha512.h" #include "fprime.h" #include "edsign.h" #define EXPANDED_SIZE 64 static const uint8_t ed25519_order[FPRIME_SIZE] = { 0xed, 0xd3, 0xf5, 0x5c, 0x1a, 0x63, 0x12, 0x58, 0xd6, 0x9c, 0xf7, 0xa2, 0xde, 0xf9, 0xde, 0x14, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x10 }; static void expand_key(uint8_t *expanded, const uint8_t *secret) { struct sha512_state s; sha512_init(&s); sha512_final(&s, secret, EDSIGN_SECRET_KEY_SIZE); sha512_get(&s, expanded, 0, EXPANDED_SIZE); ed25519_prepare(expanded); } static uint8_t upp(struct ed25519_pt *p, const uint8_t *packed) { uint8_t x[F25519_SIZE]; uint8_t y[F25519_SIZE]; uint8_t ok = ed25519_try_unpack(x, y, packed); ed25519_project(p, x, y); return ok; } static void pp(uint8_t *packed, const struct ed25519_pt *p) { uint8_t x[F25519_SIZE]; uint8_t y[F25519_SIZE]; ed25519_unproject(x, y, p); ed25519_pack(packed, x, y); } static void sm_pack(uint8_t *r, const uint8_t *k) { struct ed25519_pt p; ed25519_smult(&p, &ed25519_base, k); pp(r, &p); } void edsign_sec_to_pub(uint8_t *pub, const uint8_t *secret) { uint8_t expanded[EXPANDED_SIZE]; expand_key(expanded, secret); sm_pack(pub, expanded); } static void hash_with_prefix(uint8_t *out_fp, uint8_t *init_block, unsigned int prefix_size, const uint8_t *message, size_t len) { struct sha512_state s; sha512_init(&s); if (len < SHA512_BLOCK_SIZE && len + prefix_size < SHA512_BLOCK_SIZE) { memcpy(init_block + prefix_size, message, len); sha512_final(&s, init_block, len + prefix_size); } else { size_t i; memcpy(init_block + prefix_size, message, SHA512_BLOCK_SIZE - prefix_size); sha512_block(&s, init_block); for (i = SHA512_BLOCK_SIZE - prefix_size; i + SHA512_BLOCK_SIZE <= len; i += SHA512_BLOCK_SIZE) sha512_block(&s, message + i); sha512_final(&s, message + i, len + prefix_size); } sha512_get(&s, init_block, 0, SHA512_HASH_SIZE); fprime_from_bytes(out_fp, init_block, SHA512_HASH_SIZE, ed25519_order); } static void generate_k(uint8_t *k, const uint8_t *kgen_key, const uint8_t *message, size_t len) { uint8_t block[SHA512_BLOCK_SIZE]; memcpy(block, kgen_key, 32); hash_with_prefix(k, block, 32, message, len); } static void hash_message(uint8_t *z, const uint8_t *r, const uint8_t *a, const uint8_t *m, size_t len) { uint8_t block[SHA512_BLOCK_SIZE]; memcpy(block, r, 32); memcpy(block + 32, a, 32); hash_with_prefix(z, block, 64, m, len); } void edsign_sign(uint8_t *signature, const uint8_t *pub, const uint8_t *secret, const uint8_t *message, size_t len) { uint8_t expanded[EXPANDED_SIZE]; uint8_t e[FPRIME_SIZE]; uint8_t s[FPRIME_SIZE]; uint8_t k[FPRIME_SIZE]; uint8_t z[FPRIME_SIZE]; expand_key(expanded, secret); /* Generate k and R = kB */ generate_k(k, expanded + 32, message, len); sm_pack(signature, k); /* Compute z = H(R, A, M) */ hash_message(z, signature, pub, message, len); /* Obtain e */ fprime_from_bytes(e, expanded, 32, ed25519_order); /* Compute s = ze + k */ fprime_mul(s, z, e, ed25519_order); fprime_add(s, k, ed25519_order); memcpy(signature + 32, s, 32); } uint8_t edsign_verify(const uint8_t *signature, const uint8_t *pub, const uint8_t *message, size_t len) { struct ed25519_pt p; struct ed25519_pt q; uint8_t lhs[F25519_SIZE]; uint8_t rhs[F25519_SIZE]; uint8_t z[FPRIME_SIZE]; uint8_t ok = 1; /* Compute z = H(R, A, M) */ hash_message(z, signature, pub, message, len); /* sB = (ze + k)B = ... */ sm_pack(lhs, signature + 32); /* ... = zA + R */ ok &= upp(&p, pub); ed25519_smult(&p, &p, z); ok &= upp(&q, signature); ed25519_add(&p, &p, &q); pp(rhs, &p); /* Equal? */ return ok & f25519_eq(lhs, rhs); } #endif
{ "repo_name": "DavyLandman/compact25519", "stars": "28", "repo_language": "C", "file_name": "go.sum", "mime_type": "text/plain" }
/* Edwards curve operations * Daniel Beer <[email protected]>, 9 Jan 2014 * * This file is in the public domain. */ #include "ed25519.h" #ifndef COMPACT_DISABLE_ED25519 /* Base point is (numbers wrapped): * * x = 151122213495354007725011514095885315114 * 54012693041857206046113283949847762202 * y = 463168356949264781694283940034751631413 * 07993866256225615783033603165251855960 * * y is derived by transforming the original Montgomery base (u=9). x * is the corresponding positive coordinate for the new curve equation. * t is x*y. */ const struct ed25519_pt ed25519_base = { .x = { 0x1a, 0xd5, 0x25, 0x8f, 0x60, 0x2d, 0x56, 0xc9, 0xb2, 0xa7, 0x25, 0x95, 0x60, 0xc7, 0x2c, 0x69, 0x5c, 0xdc, 0xd6, 0xfd, 0x31, 0xe2, 0xa4, 0xc0, 0xfe, 0x53, 0x6e, 0xcd, 0xd3, 0x36, 0x69, 0x21 }, .y = { 0x58, 0x66, 0x66, 0x66, 0x66, 0x66, 0x66, 0x66, 0x66, 0x66, 0x66, 0x66, 0x66, 0x66, 0x66, 0x66, 0x66, 0x66, 0x66, 0x66, 0x66, 0x66, 0x66, 0x66, 0x66, 0x66, 0x66, 0x66, 0x66, 0x66, 0x66, 0x66 }, .t = { 0xa3, 0xdd, 0xb7, 0xa5, 0xb3, 0x8a, 0xde, 0x6d, 0xf5, 0x52, 0x51, 0x77, 0x80, 0x9f, 0xf0, 0x20, 0x7d, 0xe3, 0xab, 0x64, 0x8e, 0x4e, 0xea, 0x66, 0x65, 0x76, 0x8b, 0xd7, 0x0f, 0x5f, 0x87, 0x67 }, .z = {1, 0} }; const struct ed25519_pt ed25519_neutral = { .x = {0}, .y = {1, 0}, .t = {0}, .z = {1, 0} }; /* Conversion to and from projective coordinates */ void ed25519_project(struct ed25519_pt *p, const uint8_t *x, const uint8_t *y) { f25519_copy(p->x, x); f25519_copy(p->y, y); f25519_load(p->z, 1); f25519_mul__distinct(p->t, x, y); } void ed25519_unproject(uint8_t *x, uint8_t *y, const struct ed25519_pt *p) { uint8_t z1[F25519_SIZE]; f25519_inv__distinct(z1, p->z); f25519_mul__distinct(x, p->x, z1); f25519_mul__distinct(y, p->y, z1); f25519_normalize(x); f25519_normalize(y); } /* Compress/uncompress points. We compress points by storing the x * coordinate and the parity of the y coordinate. * * Rearranging the curve equation, we obtain explicit formulae for the * coordinates: * * x = sqrt((y^2-1) / (1+dy^2)) * y = sqrt((x^2+1) / (1-dx^2)) * * Where d = (-121665/121666), or: * * d = 370957059346694393431380835087545651895 * 42113879843219016388785533085940283555 */ static const uint8_t ed25519_d[F25519_SIZE] = { 0xa3, 0x78, 0x59, 0x13, 0xca, 0x4d, 0xeb, 0x75, 0xab, 0xd8, 0x41, 0x41, 0x4d, 0x0a, 0x70, 0x00, 0x98, 0xe8, 0x79, 0x77, 0x79, 0x40, 0xc7, 0x8c, 0x73, 0xfe, 0x6f, 0x2b, 0xee, 0x6c, 0x03, 0x52 }; void ed25519_pack(uint8_t *c, const uint8_t *x, const uint8_t *y) { uint8_t tmp[F25519_SIZE]; uint8_t parity; f25519_copy(tmp, x); f25519_normalize(tmp); parity = (tmp[0] & 1) << 7; f25519_copy(c, y); f25519_normalize(c); c[31] |= parity; } uint8_t ed25519_try_unpack(uint8_t *x, uint8_t *y, const uint8_t *comp) { const int parity = comp[31] >> 7; uint8_t a[F25519_SIZE]; uint8_t b[F25519_SIZE]; uint8_t c[F25519_SIZE]; /* Unpack y */ f25519_copy(y, comp); y[31] &= 127; /* Compute c = y^2 */ f25519_mul__distinct(c, y, y); /* Compute b = (1+dy^2)^-1 */ f25519_mul__distinct(b, c, ed25519_d); f25519_add(a, b, f25519_one); f25519_inv__distinct(b, a); /* Compute a = y^2-1 */ f25519_sub(a, c, f25519_one); /* Compute c = a*b = (y^2-1)/(1-dy^2) */ f25519_mul__distinct(c, a, b); /* Compute a, b = +/-sqrt(c), if c is square */ f25519_sqrt(a, c); f25519_neg(b, a); /* Select one of them, based on the compressed parity bit */ f25519_select(x, a, b, (a[0] ^ parity) & 1); /* Verify that x^2 = c */ f25519_mul__distinct(a, x, x); f25519_normalize(a); f25519_normalize(c); return f25519_eq(a, c); } /* k = 2d */ static const uint8_t ed25519_k[F25519_SIZE] = { 0x59, 0xf1, 0xb2, 0x26, 0x94, 0x9b, 0xd6, 0xeb, 0x56, 0xb1, 0x83, 0x82, 0x9a, 0x14, 0xe0, 0x00, 0x30, 0xd1, 0xf3, 0xee, 0xf2, 0x80, 0x8e, 0x19, 0xe7, 0xfc, 0xdf, 0x56, 0xdc, 0xd9, 0x06, 0x24 }; void ed25519_add(struct ed25519_pt *r, const struct ed25519_pt *p1, const struct ed25519_pt *p2) { /* Explicit formulas database: add-2008-hwcd-3 * * source 2008 Hisil--Wong--Carter--Dawson, * http://eprint.iacr.org/2008/522, Section 3.1 * appliesto extended-1 * parameter k * assume k = 2 d * compute A = (Y1-X1)(Y2-X2) * compute B = (Y1+X1)(Y2+X2) * compute C = T1 k T2 * compute D = Z1 2 Z2 * compute E = B - A * compute F = D - C * compute G = D + C * compute H = B + A * compute X3 = E F * compute Y3 = G H * compute T3 = E H * compute Z3 = F G */ uint8_t a[F25519_SIZE]; uint8_t b[F25519_SIZE]; uint8_t c[F25519_SIZE]; uint8_t d[F25519_SIZE]; uint8_t e[F25519_SIZE]; uint8_t f[F25519_SIZE]; uint8_t g[F25519_SIZE]; uint8_t h[F25519_SIZE]; /* A = (Y1-X1)(Y2-X2) */ f25519_sub(c, p1->y, p1->x); f25519_sub(d, p2->y, p2->x); f25519_mul__distinct(a, c, d); /* B = (Y1+X1)(Y2+X2) */ f25519_add(c, p1->y, p1->x); f25519_add(d, p2->y, p2->x); f25519_mul__distinct(b, c, d); /* C = T1 k T2 */ f25519_mul__distinct(d, p1->t, p2->t); f25519_mul__distinct(c, d, ed25519_k); /* D = Z1 2 Z2 */ f25519_mul__distinct(d, p1->z, p2->z); f25519_add(d, d, d); /* E = B - A */ f25519_sub(e, b, a); /* F = D - C */ f25519_sub(f, d, c); /* G = D + C */ f25519_add(g, d, c); /* H = B + A */ f25519_add(h, b, a); /* X3 = E F */ f25519_mul__distinct(r->x, e, f); /* Y3 = G H */ f25519_mul__distinct(r->y, g, h); /* T3 = E H */ f25519_mul__distinct(r->t, e, h); /* Z3 = F G */ f25519_mul__distinct(r->z, f, g); } void ed25519_double(struct ed25519_pt *r, const struct ed25519_pt *p) { /* Explicit formulas database: dbl-2008-hwcd * * source 2008 Hisil--Wong--Carter--Dawson, * http://eprint.iacr.org/2008/522, Section 3.3 * compute A = X1^2 * compute B = Y1^2 * compute C = 2 Z1^2 * compute D = a A * compute E = (X1+Y1)^2-A-B * compute G = D + B * compute F = G - C * compute H = D - B * compute X3 = E F * compute Y3 = G H * compute T3 = E H * compute Z3 = F G */ uint8_t a[F25519_SIZE]; uint8_t b[F25519_SIZE]; uint8_t c[F25519_SIZE]; uint8_t e[F25519_SIZE]; uint8_t f[F25519_SIZE]; uint8_t g[F25519_SIZE]; uint8_t h[F25519_SIZE]; /* A = X1^2 */ f25519_mul__distinct(a, p->x, p->x); /* B = Y1^2 */ f25519_mul__distinct(b, p->y, p->y); /* C = 2 Z1^2 */ f25519_mul__distinct(c, p->z, p->z); f25519_add(c, c, c); /* D = a A (alter sign) */ /* E = (X1+Y1)^2-A-B */ f25519_add(f, p->x, p->y); f25519_mul__distinct(e, f, f); f25519_sub(e, e, a); f25519_sub(e, e, b); /* G = D + B */ f25519_sub(g, b, a); /* F = G - C */ f25519_sub(f, g, c); /* H = D - B */ f25519_neg(h, b); f25519_sub(h, h, a); /* X3 = E F */ f25519_mul__distinct(r->x, e, f); /* Y3 = G H */ f25519_mul__distinct(r->y, g, h); /* T3 = E H */ f25519_mul__distinct(r->t, e, h); /* Z3 = F G */ f25519_mul__distinct(r->z, f, g); } void ed25519_smult(struct ed25519_pt *r_out, const struct ed25519_pt *p, const uint8_t *e) { struct ed25519_pt r; int i; ed25519_copy(&r, &ed25519_neutral); for (i = 255; i >= 0; i--) { const uint8_t bit = (e[i >> 3] >> (i & 7)) & 1; struct ed25519_pt s; ed25519_double(&r, &r); ed25519_add(&s, &r, p); f25519_select(r.x, r.x, s.x, bit); f25519_select(r.y, r.y, s.y, bit); f25519_select(r.z, r.z, s.z, bit); f25519_select(r.t, r.t, s.t, bit); } ed25519_copy(r_out, &r); } #endif
{ "repo_name": "DavyLandman/compact25519", "stars": "28", "repo_language": "C", "file_name": "go.sum", "mime_type": "text/plain" }
/* SHA512 * Daniel Beer <[email protected]>, 22 Apr 2014 * * This file is in the public domain. */ #include "sha512.h" #if !defined(COMPACT_DISABLE_ED25519) || !defined(COMPACT_DISABLE_X25519_DERIVE) const struct sha512_state sha512_initial_state = { { 0x6a09e667f3bcc908LL, 0xbb67ae8584caa73bLL, 0x3c6ef372fe94f82bLL, 0xa54ff53a5f1d36f1LL, 0x510e527fade682d1LL, 0x9b05688c2b3e6c1fLL, 0x1f83d9abfb41bd6bLL, 0x5be0cd19137e2179LL, } }; static const uint64_t round_k[80] = { 0x428a2f98d728ae22LL, 0x7137449123ef65cdLL, 0xb5c0fbcfec4d3b2fLL, 0xe9b5dba58189dbbcLL, 0x3956c25bf348b538LL, 0x59f111f1b605d019LL, 0x923f82a4af194f9bLL, 0xab1c5ed5da6d8118LL, 0xd807aa98a3030242LL, 0x12835b0145706fbeLL, 0x243185be4ee4b28cLL, 0x550c7dc3d5ffb4e2LL, 0x72be5d74f27b896fLL, 0x80deb1fe3b1696b1LL, 0x9bdc06a725c71235LL, 0xc19bf174cf692694LL, 0xe49b69c19ef14ad2LL, 0xefbe4786384f25e3LL, 0x0fc19dc68b8cd5b5LL, 0x240ca1cc77ac9c65LL, 0x2de92c6f592b0275LL, 0x4a7484aa6ea6e483LL, 0x5cb0a9dcbd41fbd4LL, 0x76f988da831153b5LL, 0x983e5152ee66dfabLL, 0xa831c66d2db43210LL, 0xb00327c898fb213fLL, 0xbf597fc7beef0ee4LL, 0xc6e00bf33da88fc2LL, 0xd5a79147930aa725LL, 0x06ca6351e003826fLL, 0x142929670a0e6e70LL, 0x27b70a8546d22ffcLL, 0x2e1b21385c26c926LL, 0x4d2c6dfc5ac42aedLL, 0x53380d139d95b3dfLL, 0x650a73548baf63deLL, 0x766a0abb3c77b2a8LL, 0x81c2c92e47edaee6LL, 0x92722c851482353bLL, 0xa2bfe8a14cf10364LL, 0xa81a664bbc423001LL, 0xc24b8b70d0f89791LL, 0xc76c51a30654be30LL, 0xd192e819d6ef5218LL, 0xd69906245565a910LL, 0xf40e35855771202aLL, 0x106aa07032bbd1b8LL, 0x19a4c116b8d2d0c8LL, 0x1e376c085141ab53LL, 0x2748774cdf8eeb99LL, 0x34b0bcb5e19b48a8LL, 0x391c0cb3c5c95a63LL, 0x4ed8aa4ae3418acbLL, 0x5b9cca4f7763e373LL, 0x682e6ff3d6b2b8a3LL, 0x748f82ee5defb2fcLL, 0x78a5636f43172f60LL, 0x84c87814a1f0ab72LL, 0x8cc702081a6439ecLL, 0x90befffa23631e28LL, 0xa4506cebde82bde9LL, 0xbef9a3f7b2c67915LL, 0xc67178f2e372532bLL, 0xca273eceea26619cLL, 0xd186b8c721c0c207LL, 0xeada7dd6cde0eb1eLL, 0xf57d4f7fee6ed178LL, 0x06f067aa72176fbaLL, 0x0a637dc5a2c898a6LL, 0x113f9804bef90daeLL, 0x1b710b35131c471bLL, 0x28db77f523047d84LL, 0x32caab7b40c72493LL, 0x3c9ebe0a15c9bebcLL, 0x431d67c49c100d4cLL, 0x4cc5d4becb3e42b6LL, 0x597f299cfc657e2aLL, 0x5fcb6fab3ad6faecLL, 0x6c44198c4a475817LL, }; static inline uint64_t load64(const uint8_t *x) { uint64_t r; r = *(x++); r = (r << 8) | *(x++); r = (r << 8) | *(x++); r = (r << 8) | *(x++); r = (r << 8) | *(x++); r = (r << 8) | *(x++); r = (r << 8) | *(x++); r = (r << 8) | *(x++); return r; } static inline void store64(uint8_t *x, uint64_t v) { x += 7; *(x--) = v; v >>= 8; *(x--) = v; v >>= 8; *(x--) = v; v >>= 8; *(x--) = v; v >>= 8; *(x--) = v; v >>= 8; *(x--) = v; v >>= 8; *(x--) = v; v >>= 8; *(x--) = v; } static inline uint64_t rot64(uint64_t x, int bits) { return (x >> bits) | (x << (64 - bits)); } void sha512_block(struct sha512_state *s, const uint8_t *blk) { uint64_t w[16]; uint64_t a, b, c, d, e, f, g, h; int i; for (i = 0; i < 16; i++) { w[i] = load64(blk); blk += 8; } /* Load state */ a = s->h[0]; b = s->h[1]; c = s->h[2]; d = s->h[3]; e = s->h[4]; f = s->h[5]; g = s->h[6]; h = s->h[7]; for (i = 0; i < 80; i++) { /* Compute value of w[i + 16]. w[wrap(i)] is currently w[i] */ const uint64_t wi = w[i & 15]; const uint64_t wi15 = w[(i + 1) & 15]; const uint64_t wi2 = w[(i + 14) & 15]; const uint64_t wi7 = w[(i + 9) & 15]; const uint64_t s0 = rot64(wi15, 1) ^ rot64(wi15, 8) ^ (wi15 >> 7); const uint64_t s1 = rot64(wi2, 19) ^ rot64(wi2, 61) ^ (wi2 >> 6); /* Round calculations */ const uint64_t S0 = rot64(a, 28) ^ rot64(a, 34) ^ rot64(a, 39); const uint64_t S1 = rot64(e, 14) ^ rot64(e, 18) ^ rot64(e, 41); const uint64_t ch = (e & f) ^ ((~e) & g); const uint64_t temp1 = h + S1 + ch + round_k[i] + wi; const uint64_t maj = (a & b) ^ (a & c) ^ (b & c); const uint64_t temp2 = S0 + maj; /* Update round state */ h = g; g = f; f = e; e = d + temp1; d = c; c = b; b = a; a = temp1 + temp2; /* w[wrap(i)] becomes w[i + 16] */ w[i & 15] = wi + s0 + wi7 + s1; } /* Store state */ s->h[0] += a; s->h[1] += b; s->h[2] += c; s->h[3] += d; s->h[4] += e; s->h[5] += f; s->h[6] += g; s->h[7] += h; } void sha512_final(struct sha512_state *s, const uint8_t *blk, size_t total_size) { uint8_t temp[SHA512_BLOCK_SIZE] = {0}; const size_t last_size = total_size & (SHA512_BLOCK_SIZE - 1); if (last_size) memcpy(temp, blk, last_size); temp[last_size] = 0x80; if (last_size > 111) { sha512_block(s, temp); memset(temp, 0, sizeof(temp)); } /* Note: we assume total_size fits in 61 bits */ store64(temp + SHA512_BLOCK_SIZE - 8, total_size << 3); sha512_block(s, temp); } void sha512_get(const struct sha512_state *s, uint8_t *hash, unsigned int offset, unsigned int len) { int i; if (offset > SHA512_BLOCK_SIZE) return; if (len > SHA512_BLOCK_SIZE - offset) len = SHA512_BLOCK_SIZE - offset; /* Skip whole words */ i = offset >> 3; offset &= 7; /* Skip/read out bytes */ if (offset) { uint8_t tmp[8]; unsigned int c = 8 - offset; if (c > len) c = len; store64(tmp, s->h[i++]); memcpy(hash, tmp + offset, c); len -= c; hash += c; } /* Read out whole words */ while (len >= 8) { store64(hash, s->h[i++]); hash += 8; len -= 8; } /* Read out bytes */ if (len) { uint8_t tmp[8]; store64(tmp, s->h[i]); memcpy(hash, tmp, len); } } #endif
{ "repo_name": "DavyLandman/compact25519", "stars": "28", "repo_language": "C", "file_name": "go.sum", "mime_type": "text/plain" }
package main // #include "../dist/compact25519.h" // #include "../dist/compact25519.c" import "C" import ( "bytes" "crypto/ed25519" "crypto/rand" "fmt" "golang.org/x/crypto/curve25519" "log" "unsafe" ) func bytePointer(ar []byte) *C.uint8_t { return (*C.uint8_t)(&ar[0]) } func x25519FullCompact() { fmt.Print("testing X25519 compact: ") var seed1, seed2 [C.X25519_KEY_SIZE]byte rand.Read(seed1[:]) rand.Read(seed2[:]) var sec1, pub1, sec2, pub2 [C.X25519_KEY_SIZE]byte C.compact_x25519_keygen(bytePointer(sec1[:]), bytePointer(pub1[:]), bytePointer(seed1[:])) C.compact_x25519_keygen(bytePointer(sec2[:]), bytePointer(pub2[:]), bytePointer(seed2[:])) var shared1, shared2 [C.X25519_SHARED_SIZE]byte C.compact_x25519_shared(bytePointer(shared1[:]), bytePointer(sec1[:]), bytePointer(pub2[:])) C.compact_x25519_shared(bytePointer(shared2[:]), bytePointer(sec2[:]), bytePointer(pub1[:])) if bytes.Equal(shared1[:], shared2[:]) { fmt.Println("OK") } else { fmt.Println("** FAIL **") } } func x25519SharedKey(theirPublic, ourPrivate []byte) []byte { result, err := curve25519.X25519(ourPrivate, theirPublic) if err != nil { log.Fatalf("Failure to calculate common secret: %v", err) } return result } func x25519CalcPublic(privateKey []byte) []byte { result, err := curve25519.X25519(privateKey, curve25519.Basepoint) if err != nil { log.Fatalf("Unexpected basepoint failure: %v", err) } return result } func x25519Interop() { fmt.Print("testing X25519 interop: ") var seed1 [C.X25519_KEY_SIZE]byte rand.Read(seed1[:]) var sec1, pub1 [C.X25519_KEY_SIZE]byte C.compact_x25519_keygen(bytePointer(sec1[:]), bytePointer(pub1[:]), bytePointer(seed1[:])) sec2 := make([]byte, 32) rand.Read(sec2) pub2 := x25519CalcPublic(sec2) var shared1 [C.X25519_SHARED_SIZE]byte C.compact_x25519_shared(bytePointer(shared1[:]), bytePointer(sec1[:]), bytePointer(pub2)) shared2 := x25519SharedKey(pub1[:], sec2) if bytes.Equal(shared1[:], shared2) { fmt.Println("OK") } else { fmt.Println("** FAIL **") } } func ed25519Compact() { fmt.Print("Testing ed25519 compact: ") var seed [C.ED25519_SEED_SIZE]byte rand.Read(seed[:]) var sec [C.ED25519_PRIVATE_KEY_SIZE]byte var pub [C.ED25519_PUBLIC_KEY_SIZE]byte C.compact_ed25519_keygen(bytePointer(sec[:]), bytePointer(pub[:]), bytePointer(seed[:])) var msg [200]byte rand.Read(msg[:]) var sig [C.ED25519_SIGNATURE_SIZE]byte C.compact_ed25519_sign(bytePointer(sig[:]), bytePointer(sec[:]), unsafe.Pointer(&msg[0]), C.size_t(len(msg))) if !C.compact_ed25519_verify(bytePointer(sig[:]), bytePointer(pub[:]), unsafe.Pointer(&msg[0]), C.size_t(len(msg))) { fmt.Print("** Failed normal signature\n") return } msg[3] ^= 0x10 // flip a single bit if C.compact_ed25519_verify(bytePointer(sig[:]), bytePointer(pub[:]), unsafe.Pointer(&msg[0]), C.size_t(len(msg))) { fmt.Print("** Failed changed data\n") } else { fmt.Println("OK") } } func ed25519Interop() { fmt.Print("Testing ed25519 interop: ") var seed [C.ED25519_SEED_SIZE]byte rand.Read(seed[:]) var sec [C.ED25519_PRIVATE_KEY_SIZE]byte var pub [C.ED25519_PUBLIC_KEY_SIZE]byte C.compact_ed25519_keygen(bytePointer(sec[:]), bytePointer(pub[:]), bytePointer(seed[:])) var msg [200]byte rand.Read(msg[:]) var sig [C.ED25519_SIGNATURE_SIZE]byte C.compact_ed25519_sign(bytePointer(sig[:]), bytePointer(sec[:]), unsafe.Pointer(&msg[0]), C.size_t(len(msg))) if !ed25519.Verify(ed25519.PublicKey(pub[:]), msg[:], sig[:]) { fmt.Println("** Failure golang verify") return } goPublic, goPrivate, err := ed25519.GenerateKey(nil) if err != nil { log.Fatalf("Failure to generate key, %v", err) } goSignature := ed25519.Sign(goPrivate, msg[:]) if !C.compact_ed25519_verify(bytePointer(goSignature), bytePointer(goPublic), unsafe.Pointer(&msg[0]), C.size_t(len(msg))) { fmt.Println("** Failure to verify signature from golang") } var sig2 [C.ED25519_SIGNATURE_SIZE]byte C.compact_ed25519_sign(bytePointer(sig2[:]), bytePointer(goPrivate), unsafe.Pointer(&msg[0]), C.size_t(len(msg))) if bytes.Equal(goSignature, sig2[:]) { fmt.Println("OK") } else { fmt.Println("** Failure to use go generated keypair") } } func main() { x25519FullCompact() x25519Interop() ed25519Compact() ed25519Interop() }
{ "repo_name": "DavyLandman/compact25519", "stars": "28", "repo_language": "C", "file_name": "go.sum", "mime_type": "text/plain" }
#ifndef PCG_RANDOM_H #define PCG_RANDOM_H // WARNING: this is a BAD source for random data for this library // it is only used as an easy way to make the tests more cross platform. // Good randomness is platform specific, PLEASE USE THAT SOURCE, NOT THIS // *Really* minimal PCG32 code / (c) 2014 M.E. O'Neill / pcg-random.org // Licensed under Apache License 2.0 (NO WARRANTY, etc. see website) #include <stdint.h> typedef struct { uint64_t state; uint64_t inc; } pcg32_random_t; static uint32_t pcg32_random_r(pcg32_random_t* rng) { uint64_t oldstate = rng->state; // Advance internal state rng->state = oldstate * 6364136223846793005ULL + (rng->inc|1); // Calculate output function (XSH RR), uses old state for max ILP uint32_t xorshifted = ((oldstate >> 18u) ^ oldstate) >> 27u; uint32_t rot = oldstate >> 59u; return (xorshifted >> rot) | (xorshifted << ((-rot) & 31)); } #endif
{ "repo_name": "DavyLandman/compact25519", "stars": "28", "repo_language": "C", "file_name": "go.sum", "mime_type": "text/plain" }
#ifndef COMPACT_DISABLE_ED25519 #include "../src/compact_ed25519.h" #endif #ifndef COMPACT_DISABLE_X25519 #include "../src/compact_x25519.h" #endif #include <stdio.h> #include <stdint.h> #include <string.h> #include <time.h> #include <stdlib.h> #include "pcg_random.h" static void fill_crappy_random(void* target, size_t length, pcg32_random_t* rng) { if (length >= sizeof(uint32_t)) { uint32_t *p = target; uint32_t *last = p + (length / sizeof(uint32_t)); while (p < last) { *p++ = pcg32_random_r(rng); } } size_t tail_size = length % sizeof(uint32_t); if (tail_size != 0) { uint32_t tail = pcg32_random_r(rng); memcpy((((uint8_t*)target) + length) - tail_size, &tail, tail_size); } } #ifndef COMPACT_DISABLE_X25519 static int testX25519(pcg32_random_t* rng) { printf("Testing X25519: "); uint8_t seed1[X25519_KEY_SIZE]; uint8_t seed2[X25519_KEY_SIZE]; fill_crappy_random(seed1, X25519_KEY_SIZE, rng); fill_crappy_random(seed2, X25519_KEY_SIZE, rng); uint8_t sec1[X25519_KEY_SIZE]; uint8_t pub1[X25519_KEY_SIZE]; uint8_t sec2[X25519_KEY_SIZE]; uint8_t pub2[X25519_KEY_SIZE]; compact_x25519_keygen(sec1, pub1, seed1); compact_x25519_keygen(sec2, pub2, seed2); uint8_t shared1[X25519_SHARED_SIZE]; uint8_t shared2[X25519_SHARED_SIZE]; compact_x25519_shared(shared1, sec1, pub2); compact_x25519_shared(shared2, sec2, pub1); #ifndef COMPACT_DISABLE_X25519_DERIVE uint8_t derived[64]; compact_x25519_derive_encryption_key(derived, sizeof(derived), shared1, pub1, pub2); #endif if (memcmp(shared1, shared2, X25519_SHARED_SIZE) == 0) { printf("Success\n"); return 0; } else { printf("Fail\n"); return -1; } } int testX25519WithRfc7748Vectors(void) { printf("Testing X25519 using rfc7748 test vectors: "); int r = 0; uint8_t alice_sec[X25519_KEY_SIZE] = { 0x77, 0x07, 0x6d, 0x0a, 0x73, 0x18, 0xa5, 0x7d, 0x3c, 0x16, 0xc1, 0x72, 0x51, 0xb2, 0x66, 0x45, 0xdf, 0x4c, 0x2f, 0x87, 0xeb, 0xc0, 0x99, 0x2a, 0xb1, 0x77, 0xfb, 0xa5, 0x1d, 0xb9, 0x2c, 0x2a }; uint8_t alice_pub[X25519_KEY_SIZE] = { 0x85, 0x20, 0xf0, 0x09, 0x89, 0x30, 0xa7, 0x54, 0x74, 0x8b, 0x7d, 0xdc, 0xb4, 0x3e, 0xf7, 0x5a, 0x0d, 0xbf, 0x3a, 0x0d, 0x26, 0x38, 0x1a, 0xf4, 0xeb, 0xa4, 0xa9, 0x8e, 0xaa, 0x9b, 0x4e, 0x6a }; uint8_t bob_sec[X25519_KEY_SIZE] = { 0x5d, 0xab, 0x08, 0x7e, 0x62, 0x4a, 0x8a, 0x4b, 0x79, 0xe1, 0x7f, 0x8b, 0x83, 0x80, 0x0e, 0xe6, 0x6f, 0x3b, 0xb1, 0x29, 0x26, 0x18, 0xb6, 0xfd, 0x1c, 0x2f, 0x8b, 0x27, 0xff, 0x88, 0xe0, 0xeb }; uint8_t bob_pub[X25519_KEY_SIZE] = { 0xde, 0x9e, 0xdb, 0x7d, 0x7b, 0x7d, 0xc1, 0xb4, 0xd3, 0x5b, 0x61, 0xc2, 0xec, 0xe4, 0x35, 0x37, 0x3f, 0x83, 0x43, 0xc8, 0x5b, 0x78, 0x67, 0x4d, 0xad, 0xfc, 0x7e, 0x14, 0x6f, 0x88, 0x2b, 0x4f }; uint8_t expected_shared[X25519_KEY_SIZE] = { 0x4a, 0x5d, 0x9d, 0x5b, 0xa4, 0xce, 0x2d, 0xe1, 0x72, 0x8e, 0x3b, 0xf4, 0x80, 0x35, 0x0f, 0x25, 0xe0, 0x7e, 0x21, 0xc9, 0x47, 0xd1, 0x9e, 0x33, 0x76, 0xf0, 0x9b, 0x3c, 0x1e, 0x16, 0x17, 0x42 }; uint8_t shared1[X25519_SHARED_SIZE]; uint8_t shared2[X25519_SHARED_SIZE]; compact_x25519_shared(shared1, alice_sec, bob_pub); compact_x25519_shared(shared2, bob_sec, alice_pub); if (memcmp(shared1, shared2, X25519_SHARED_SIZE) != 0) { printf("Fail\n"); r--; } if (memcmp(shared1, expected_shared, X25519_KEY_SIZE) != 0) { printf("Fail\n"); r--; } if (r == 0) printf("Success\n"); return r; } #endif #ifndef COMPACT_DISABLE_ED25519 #define MSG_TEST_SIZE (ED25519_PRIVATE_KEY_SIZE * 2) static int testEd25519(pcg32_random_t* rng) { printf("Testing Ed25519: "); uint8_t seed[ED25519_SEED_SIZE]; fill_crappy_random(seed, ED25519_SEED_SIZE, rng); uint8_t sec[ED25519_PRIVATE_KEY_SIZE]; uint8_t pub[ED25519_PUBLIC_KEY_SIZE]; compact_ed25519_keygen(sec, pub, seed); uint8_t msg[MSG_TEST_SIZE]; fill_crappy_random(msg, MSG_TEST_SIZE, rng); uint8_t sig[ED25519_SIGNATURE_SIZE]; compact_ed25519_sign(sig, sec, msg, MSG_TEST_SIZE); if (!compact_ed25519_verify(sig, pub, msg, MSG_TEST_SIZE)) { printf("Failed normal signature\n"); return -1; } msg[3] ^= 0x10; // flip a single bit if (compact_ed25519_verify(sig, pub, msg, MSG_TEST_SIZE)) { printf("Failed on changed data\n"); return -1; } else { printf("Success\n"); } return 0; } #endif int main(void) { srand(time(NULL)); pcg32_random_t rng; rng.state = rand(); rng.inc = rand() | 1; int result = 0; #ifndef COMPACT_DISABLE_X25519 testX25519WithRfc7748Vectors(); for (int i = 0; i < 5; i++) { result += testX25519(&rng); } #endif #ifndef COMPACT_DISABLE_ED25519 for (int i = 0; i < 5; i++) { result += testEd25519(&rng); } #endif return result; }
{ "repo_name": "DavyLandman/compact25519", "stars": "28", "repo_language": "C", "file_name": "go.sum", "mime_type": "text/plain" }
module algamize-test go 1.13 require golang.org/x/crypto v0.0.0-20200117160349-530e935923ad // indirect
{ "repo_name": "DavyLandman/compact25519", "stars": "28", "repo_language": "C", "file_name": "go.sum", "mime_type": "text/plain" }
golang.org/x/crypto v0.0.0-20190308221718-c2843e01d9a2/go.mod h1:djNgcEr1/C05ACkg1iLfiJU5Ep61QUkGW8qpdssI0+w= golang.org/x/crypto v0.0.0-20200117160349-530e935923ad h1:Jh8cai0fqIK+f6nG0UgPW5wFk8wmiMhM3AyciDBdtQg= golang.org/x/crypto v0.0.0-20200117160349-530e935923ad/go.mod h1:LzIPMQfyMNhhGPhUkYOs5KpL4U8rLKemX1yGLhDgUto= golang.org/x/net v0.0.0-20190404232315-eb5bcb51f2a3/go.mod h1:t9HGtf8HONx5eT2rtn7q6eTqICYqUVnKs3thJo3Qplg= golang.org/x/sys v0.0.0-20190215142949-d0b11bdaac8a/go.mod h1:STP8DvDyc/dI5b8T5hshtkjS+E42TnysNCUPdjciGhY= golang.org/x/sys v0.0.0-20190412213103-97732733099d/go.mod h1:h1NjWce9XRLGQEsW7wpKNCjG9DtNlClVuFLEZdDNbEs= golang.org/x/text v0.3.0/go.mod h1:NqM8EUOU14njkJ3fqMW+pc6Ldnwhi/IjpwHt7yyuwOQ=
{ "repo_name": "DavyLandman/compact25519", "stars": "28", "repo_language": "C", "file_name": "go.sum", "mime_type": "text/plain" }
machine: ruby: version: rbx-2.2.6 dependencies: override: - gem install awesome_bot test: override: - awesome_bot README.md
{ "repo_name": "tmcw/awesome-geojson", "stars": "2052", "repo_language": "None", "file_name": "README.md", "mime_type": "text/html" }
# Contribution Guidelines Please ensure your pull request adheres to the following guidelines: - Search previous suggestions before making a new one, as yours may be a duplicate. - Make sure your list is useful before submitting. That implies it having enough content and every item a good succinct description. - A link back to this list from yours, so users can discover more lists, would be appreciated. - Make an individual pull request for each suggestion. - Titles should be [capitalized](http://grammar.yourdictionary.com/capitalization/rules-for-capitalization-in-titles.html). - Use the following format: `[List Name](link)` - New categories or improvements to the existing categorization are welcome. - Check your spelling and grammar. - Make sure your text editor is set to remove trailing whitespace. - The pull request and commit should have a useful title. Thank you for your suggestions!
{ "repo_name": "tmcw/awesome-geojson", "stars": "2052", "repo_language": "None", "file_name": "README.md", "mime_type": "text/html" }
# awesome geojson [![Awesome](https://cdn.rawgit.com/sindresorhus/awesome/d7305f38d29fed78fa85652e3a63e154dd8e8829/media/badge.svg)](https://github.com/sindresorhus/awesome) GeoJSON utilities that will make your life easier. <a href='https://www.placemark.io/'><i><img src='.github/placemark.png' width='16' alt='Placemark' height='16' /> Sponsored by Placemark, a collaborative editor for maps with great support for GeoJSON</i></a> ### operations * [CoGran](https://github.com/berlinermorgenpost/cogran): Resample statistics from one set of GeoJSON polygons to another * [geo_assigner](https://github.com/stadt-karlsruhe/geo_assigner): Copy a property to all intersecting features * [geojson-coords](https://github.com/mapbox/geojson-coords): Extract coordinates from GeoJSON * [geojson-extent](https://www.npmjs.com/package/geojson-extent): compute the bounding box of geojson features * [geojson-flatten](https://github.com/tmcw/geojson-flatten): flatten multi geometries into normal geometries * [geojson-multiply](https://github.com/haoliangyu/geojson-multiply): merge normal geojson features into one multi geometry type feature * [geojson-js-utils](https://github.com/maxogden/geojson-js-utils): JavaScript helper functions for manipulating GeoJSON * [geojson-merge](https://github.com/mapbox/geojson-merge): Merge multiple GeoJSON files into one FeatureCollection. * [geojson-normalize](https://github.com/mapbox/geojson-normalize): normalize any geojson object into a geojson featurecollection * [geojson-pick](https://www.npmjs.com/package/geojson-pick): remove all but specified properties from features in a geojson featurecollection * [geojson-random](https://github.com/tmcw/geojson-random): generate random geojson points, lines, and polygons * [geojson-rewind](https://github.com/mapbox/geojson-rewind): enforce ring winding order * [rfc7946-to-d3](https://github.com/tyrasd/rfc7946-to-d3): Converts polygon winding order between rfc7946 and [d3 compatible](https://github.com/d3/d3-geo#d3-geo) conventions. * [geojson-summary](https://github.com/mapbox/geojson-summary): get a plain-english summary of what's in a geojson file * [point-grouper](https://github.com/substack/point-grouper): group geojson points into containing polygons * [geojson-join](https://github.com/tmcw/geojson-join): join geojson against json, dbf, and csv files * [simplify-geojson](https://github.com/maxogden/simplify-geojson): apply the ramer-douglas-peucker line simplification to geojson features or feature collections in JS or on the CLI * [turf](https://github.com/Turfjs/turf): collection of functions for spatial operations and analysi * [turf_dart](https://github.com/dartclub/turf_dart): a turf.js port for Dart and Flutter * [de9im](https://github.com/dpmcmlxxvi/de9im): collection of fast functions for spatial javascript operations * [winnow](https://github.com/dmfenton/winnow): run sql queries against geojson with javascript * [geojson-id-streaming](https://github.com/andrewharvey/geojson-id-streaming): Add a unique id to each Feature * [geojson-mesh](https://github.com/andrewharvey/geojson-mesh): extract shared borders of Polygons in a GeoJSON * [geojson-polygon-labels](https://github.com/andrewharvey/geojson-polygon-labels): generate point labels from GeoJSON polygons * [geojsontools](https://github.com/micolous/geojsontools): Python tools for manipulating GeoJSON files * [geojson-indoor-tools](https://github.com/armanjr/geojson-indoor-tools): Python tools for editing indoor GeoJSON features: adding room heights, building walls and creating doors ### editors & viewers * [geojson.io](http://geojson.io/): web-based editor, supports many filetype imports & exports, operations, sharing via GitHub * [umap](http://umap.openstreetmap.fr/en/): web-based editor, supports sharing on-site * [geojson.tools](http://geojson.tools/): web-based editor from HERE XYZ * [mapstarter](http://mapstarter.com/): helps generate svg, images, and code from GeoJSON * [gjv](https://github.com/anandthakker/gjv): electron app enables viewing GeoJSON locally and hack on it with turf; works offline * [GeoJSON editor](https://tomscholz.github.io/geojson-editor/): a modified version of Google's simple geojson editor * [geojson2image](https://github.com/brycejohnston/geojson2image): library for generating images from GeoJSON * [dropchop](http://dropchop.io/): browser-based GIS based on Turf.js * [Web GIS](https://drewweth.github.io/geodebugger): tools to view, inspect, and manipulate geospatial data * [img2geojson](https://caseymm.github.io/img2geojson/): digitize images by overlaying on a web map and drawing ### validation * [geojsonhint](https://github.com/mapbox/geojsonhint): find errors in your geojson files * [check-geojson](https://github.com/placemark/check-geojson): alternative to geojsonhint * [geojson-validation](https://www.npmjs.com/package/geojson-validation): many validation functions, plus simple gjv command line tool * [gjf](https://github.com/yazeed44/gjf): A tool to fix invalid GeoJSON objects * [Jest-GeoJSON](https://github.com/M-Scott-Lassiter/jest-geojson): an extended set of matcher functions for the Jest Javascript unit testing framework tailored to evaluating GeoJSON data ### services * [geojsonio-cli](https://github.com/mapbox/geojsonio-cli): send geojson features to geojson.io from your command line * [geojsonio-extension](https://github.com/mapbox/geojsonio-extension): chrome extension for editing github files in geojson.io * [geojsonlint](http://geojsonlint.com/): REST interface for GeoJSON validation * [mapshaper](http://mapshaper.org/): Simple interface for simplification and conversion of GeoJSON and TopoJSON * [koop](https://koopjs.github.io): Server with plugins that recast Esri, GitHub, Socrata and other services as GeoJSON endpoints * [featureserver](https://github.com/featureserver/featureserver): An open source Esri-Style Feature Server * [geojson minify](https://open-innovations.github.io/geojson-minify/): Minifier (compressor) to reduce file sizes ### conversion * **CSV** * [csv2geojson](https://github.com/mapbox/csv2geojson): convert CSV to geojson * [geojson2dsv](https://github.com/tmcw/geojson2dsv): convert geojson to CSV and TSV * [geojson-mapnikify](https://github.com/mapbox/geojson-mapnikify): Transform GeoJSON objects into Mapnik XML stylesheets with embedded GeoJSON data and simplestyle-spec-derived styles. * [geojson-vt](https://github.com/mapbox/geojson-vt): Slice GeoJSON into vector tiles on the fly in the browser * [vt-geojson](https://github.com/developmentseed/vt-geojson): Extract GeoJSON from Mapbox vector tiles * [geojson2rtree](https://github.com/maxogden/geojson2rtree): generate a static rtree (using terraformer) from a set of geojson features * [ogr2ogr](http://www.gdal.org/ogr2ogr.html): convert anything to anything * [fiona](https://github.com/toblerity/fiona): nice python interface on top of ogr * [shp2json](https://github.com/substack/shp2json): convert shapefile zip archives to streaming GeoJSON * [togeojson](https://github.com/tmcw/togeojson): convert GPX & KML to geojson * [tokml](https://github.com/mapbox/tokml): convert GeoJSON to KML * [topojson](https://github.com/topojson/topojson): convert GeoJSON to & from TopoJSON, join data from CSV * [wellknown](https://github.com/mapbox/wellknown): convert WKT to GeoJSON * [betterknown](https://github.com/placemark/betterknown): convert WKT to GeoJSON (successor to wellknown) * [esri2open](https://github.com/project-open-data/esri2open) converts proprietary Esri formats to GeoJSON * [gtfs2geojson](https://github.com/tmcw/gtfs2geojson): convert GTFS transit data to GeoJSON * [geoxform](https://github.com/koopjs/geoxform): convert any size stream of geojson into a streaming CSV, Shapefile or KML, etc. * [supercluster](https://github.com/mapbox/supercluster): A fast GeoJSON clustering library for browsers and Node. * **SVG** * [geojson2svg](https://github.com/gagan-bansal/geojson2svg): Converts GeoJSON to SVG string given SVG view port size and maps extent. * [geojson-svgify](https://github.com/juliuste/geojson-svgify): Convert GeoJSON geometry paths to SVG polyline elements. * [geojson-to-svg-cli](https://github.com/derhuerst/geojson-to-svg-cli): Command line tool to convert GeoJSON to SVG. * [svg-to-geojson](https://github.com/mapbox/svg-to-geojson): Drag and drop SVG on the map and it returns GeoJSON back to you. * [geojson2ndjson](https://www.npmjs.com/package/geojson2ndjson): convert GeoJSON to/from newline-delimited GeoJSON * [geobuf](https://www.npmjs.com/package/geobuf/v/0.2.1): convert GeoJSON to/from GeoBuf * **OpenStreetMap** * [osmtogeojson](https://github.com/tyrasd/osmtogeojson): convert OpenStreetMap data to GeoJSON * [osm2geojson](https://github.com/rclark/osm2geojson): converts OSM XML to GeoJSON * [osm2geojson](https://github.com/aspectumapp/osm2geojson): (Python) converts OSM XML and Overpass XML/JSON to GeoJSON * [minjur](https://github.com/mapbox/minjur): converts OpenStreetMap data to GeoJSON faster than anything else * [geojsontoosm](https://github.com/tyrasd/geojsontoosm): convert GeoJSON to OSM XML * [geojson2osm](https://github.com/Rub21/geojson2osm): convert GeoJSON to OSM XML * [osm-and-geojson](https://github.com/aaronlidman/osm-and-geojson): convert GeoJSON to OSM XML and OSM XML to GeoJSON * [geojson2osm-es6](https://github.com/DenisCarriere/geojson2osm-es6/): convert GeoJSON to OSM XML * [query-overpass](https://github.com/perliedman/query-overpass) CLI to make Overpass query and transform result to GeoJSON. Based on [osmtogeojson](https://github.com/tyrasd/osmtogeojson) * [topojson for Python](https://github.com/mattijn/topojson): Topojson is a library that is capable of creating a topojson encoded format of merely any spatial object in Python. * [geomet](https://github.com/geomet/geomet): Pure Python conversion library for common geospatial data formats ### data * [natural earth](http://www.naturalearthdata.com/): country, province, and geographical data * [geojson.xyz](http://geojson.xyz/): natural earth data in web-friendly sizes with hotlinking * [world-atlas](https://github.com/topojson/world-atlas): customizable simplified versions of natural earth data * [geo-maps](https://github.com/simonepri/geo-maps): High Quality GeoJSON maps programmatically generated. * [openflights-geojson](https://github.com/tmcw/openflights-geojson): [openflights](http://openflights.org/) airports & airplane routes * [us-atlas](https://github.com/topojson/us-atlas): geojson & topojson for United States features * [metro-extracts](https://mapzen.com/data/metro-extracts/): regional OpenStreetMap data as GeoJSON * [whereonearth-airport](https://github.com/straup/whereonearth-airport): outlines of every airport * [whereonearth-building](https://github.com/straup/whereonearth-building/): building outlines * [whereonearth repos](https://github.com/search?q=user%3Astraup+whereonearth): other features output from GeoPlanet by Aaron Straup Cope * [tgn-geojson](https://github.com/straup/tgn-geojson): The Getty Thesaurus of Geographic Names (TGN) As GeoJSON. * [strava-to-geojsonio](https://github.com/taketime/strava-to-geojsonio): export runs & rides from Strava to GeoJSON * [strava-geojson](https://github.com/tmcw/strava-geojson): export _all_ strava data to geojson, in node & [on the web](http://www.macwright.org/strava-geojson/) * [gimme OSM](http://ustroetz.github.io/gimmeOSM/): Fetch geojson file by openstreetmap id * [country-levels](https://github.com/hyperknot/country-levels-export) Full planet GeoJSON extracts, based on ISO and FIPS codes. * [historical-basemaps](https://github.com/aourednik/historical-basemaps): Collection of georeferenced boundaries of world countries and cultural regions for use in mapping historical data on the world scale. * [99boundaries](https://github.com/TimMcCauley/nintynine-boundaries): Generate any maritime & land boundary in GeoJSON and other file formats or [download directly from the web](https://99boundaries.com) * [france-geojson](https://github.com/gregoiredavid/france-geojson): Outlines of regions, departments, arrondissements, cantons and communes of France (mainland and overseas departments) in GeoJSON format ### serialization * [python-geojson](https://github.com/frewsxcv/python-geojson): serialize geojson to/from python datatypes * [rgeo-geojson](https://github.com/rgeo/rgeo-geojson): serialize geojson to/from ruby RGeo datatypes * [rust-geojson](https://github.com/georust/rust-geojson): serialize geojson to/from rust datatypes * [geojson-jackson](https://github.com/opendatalab-de/geojson-jackson): serialize GeoJSON to and from Java datatypes (based on [Jackson](http://wiki.fasterxml.com/JacksonHome)) * [mapbox-java](https://github.com/mapbox/mapbox-java): serialize GeoJSON to and from Java datatypes (based on [Gson](https://github.com/google/gson)) * [geojson-serializer](https://github.com/ancore/geojson-serializer): serialize Java with annotations as GeoJSON ### resources * [RFC 7946 – The GeoJSON Format](https://tools.ietf.org/html/rfc7946): the current GeoJSON standard by IETF * [GeoJSON.org](http://geojson.org/): the first specification, defining all the rules for GeoJSON structures * [More than you ever wanted to know about GeoJSON](http://www.macwright.org/2015/03/23/geojson-second-bite.html): a review of the concepts behind the specification in a more narrative format. * [geojson-invalid-geometry](https://github.com/chrieke/geojson-invalid-geometry): List of GeoJSON invalid geometry issues with example files. ## License [![CC0](https://licensebuttons.net/p/zero/1.0/88x31.png)](https://creativecommons.org/publicdomain/zero/1.0/ ) To the extent possible under law, [Tom MacWright](http://www.macwright.org) has waived all copyright and related or neighboring rights to this work.
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Contributing Guidelines Thank you for start reading the document. Currently, the repo has not strict contribution rules - just create PR with changes if it is useful it will be added.
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# Awesome Project Questions [![Awesome](https://awesome.re/badge.svg)](https://awesome.re) A list of questions that engineers / architects / managers should ask before the start of a project. ## Contents - [Background Research List](#background-research-list) - [Questions to CEO](#questions-to-ceo) - [Questions to technical specialists](#questions-to-technical-specialists) - [Functional Requirements](#functional-requirements) - [Non-Functional Requirements](#non-functional-requirements) - [Other](#other) ## Background Research List - Company Research - Investigate information about company in the Internet - News - IPO - History - Customer's feedbacks - Open analytycs and statistic - Information About Business - Business domain specific - Glossary - Big players & competitors - Typical technical solutions, services & integrations - CEO, CTO - Technical & business background - History of work - Areas of interests Sources for reasearch: company web site, google, linkedin, FB, articles, alexa. ## Questions to CEO - What are the goals of the project? - Project - What are the project parts, modules? - What are you expecting from our cooperation? - What is the problem that we should resolve? ## Questions to technical specialists - Architecture - What is the current architecture? - What are there main disadvantages and advantages of the architecture? - Infrastructure - What is the current infrastructure? - How to deploy the project? - Do you have any issues with the infrastructure? - What is the cost of infrastructure? - Technologies - Could you describe the tech stack? - Data - Current database - Data structures - Size of data - How to integrate or migrate data to new solution? - Development - Source - Deployment - Deployment tools and processes - Envs? - Testing - How to test the project? ## Functional Requirements - What are the goals of the project? - Project - What are the project parts, modules? - User - Who are the users of the project? - What are user roles? - What are the use cases? - Data - Where should the data of the system be stored? - Are there any legal and regulatory restrictions? - What are the data formats? - How long data should be persists? ## Non-Functional Requirements - General idea, how to measure quality attributes? - Conceptual integrity - Do we have part of the project which does not follow the goals of the project? - Performance - What is the daily usages? - What is the peaks of usages? - What is the behaviour of usages? - Usability - What is the list of supported devices, browsers? - Should there be separate versions for mobile and web? - Should the project be accessible for people with a different range of disabilities? - Security - Are there parts of the project with different access levels? - Scalability - Should the project have the high loads peak? - Reliability - Maintainability - What is expected and acceptable downtime of the project? - Are there any time periods when the project can be unavailable? - Testability - How test engineers can test the project? ## Other - Plans - What is the deadline? - What hast to be considered to meet the deadline? - When should the project be launched? - What are the risks if the project is delayed? - Are there any conditions, blockers, or anything else that may cause the project to fail? - Is there a growing plan for the project? - Budget - What is the budget for the project? - What is the payment model? - Stakeholders - Who is the project owner? - How the responsibilities are assigned for the project according to the [RAM](https://en.wikipedia.org/wiki/Responsibility_assignment_matrix)? - Are there availability dates for stakeholders from the matrix? - What are the best communication channels with stakeholders? - Risks - Are there any risks with project success? - History - Are there older versions of this project? - Is there an architecture of current project? - Are there list of tools used in the project? - Is there a dedicated development team for the project? - Are there any tasks in progress? - Are there any third-party services involved in the development of the project? - How to get source of the project?
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# PMW3360 breakout board This repository contains PCB design files for a breakout board for the PMW3360 optical mouse sensor. The board doesn't do any level shifting so it only works with 3.3V logic. The dimensions of the board are 22x34mm and the mounting holes are for M2 screws. The files in the [fabrication](fabrication) folder can be used to order this board from JLCPCB with SMT assembly. The board you get includes everything except the actual sensor. If some of the specific components are out of stock, try to find an equivalent with the same package and parameters. The sensor chip should be soldered on the top side (the side where all the other components are). The dot marks pin 1. The optic goes on the bottom side. ![a render of the PCB](PMW3360-breakout-render.png)
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#16024 = SURFACE_STYLE_FILL_AREA(#16025); #16025 = FILL_AREA_STYLE('',(#16026)); #16026 = FILL_AREA_STYLE_COLOUR('',#15977); #16027 = STYLED_ITEM('color',(#16028),#10652); #16028 = PRESENTATION_STYLE_ASSIGNMENT((#16029)); #16029 = SURFACE_STYLE_USAGE(.BOTH.,#16030); #16030 = SURFACE_SIDE_STYLE('',(#16031)); #16031 = SURFACE_STYLE_FILL_AREA(#16032); #16032 = FILL_AREA_STYLE('',(#16033)); #16033 = FILL_AREA_STYLE_COLOUR('',#15721); #16034 = STYLED_ITEM('color',(#16035),#10901); #16035 = PRESENTATION_STYLE_ASSIGNMENT((#16036)); #16036 = SURFACE_STYLE_USAGE(.BOTH.,#16037); #16037 = SURFACE_SIDE_STYLE('',(#16038)); #16038 = SURFACE_STYLE_FILL_AREA(#16039); #16039 = FILL_AREA_STYLE('',(#16040)); #16040 = FILL_AREA_STYLE_COLOUR('',#15721); #16041 = STYLED_ITEM('color',(#16042),#10977); #16042 = PRESENTATION_STYLE_ASSIGNMENT((#16043)); #16043 = SURFACE_STYLE_USAGE(.BOTH.,#16044); #16044 = SURFACE_SIDE_STYLE('',(#16045)); #16045 = SURFACE_STYLE_FILL_AREA(#16046); #16046 = FILL_AREA_STYLE('',(#16047)); #16047 = FILL_AREA_STYLE_COLOUR('',#15721); #16048 = STYLED_ITEM('color',(#16049),#11027); #16049 = PRESENTATION_STYLE_ASSIGNMENT((#16050)); #16050 = SURFACE_STYLE_USAGE(.BOTH.,#16051); #16051 = SURFACE_SIDE_STYLE('',(#16052)); #16052 = SURFACE_STYLE_FILL_AREA(#16053); #16053 = FILL_AREA_STYLE('',(#16054)); #16054 = FILL_AREA_STYLE_COLOUR('',#15721); #16055 = STYLED_ITEM('color',(#16056),#11081); #16056 = PRESENTATION_STYLE_ASSIGNMENT((#16057)); #16057 = SURFACE_STYLE_USAGE(.BOTH.,#16058); #16058 = SURFACE_SIDE_STYLE('',(#16059)); #16059 = SURFACE_STYLE_FILL_AREA(#16060); #16060 = FILL_AREA_STYLE('',(#16061)); #16061 = FILL_AREA_STYLE_COLOUR('',#15721); #16062 = STYLED_ITEM('color',(#16063),#11130); #16063 = PRESENTATION_STYLE_ASSIGNMENT((#16064)); #16064 = SURFACE_STYLE_USAGE(.BOTH.,#16065); #16065 = SURFACE_SIDE_STYLE('',(#16066)); #16066 = SURFACE_STYLE_FILL_AREA(#16067); #16067 = FILL_AREA_STYLE('',(#16068)); #16068 = FILL_AREA_STYLE_COLOUR('',#15721); #16069 = STYLED_ITEM('color',(#16070),#11179); #16070 = PRESENTATION_STYLE_ASSIGNMENT((#16071)); #16071 = SURFACE_STYLE_USAGE(.BOTH.,#16072); #16072 = SURFACE_SIDE_STYLE('',(#16073)); #16073 = SURFACE_STYLE_FILL_AREA(#16074); #16074 = FILL_AREA_STYLE('',(#16075)); #16075 = FILL_AREA_STYLE_COLOUR('',#15721); #16076 = STYLED_ITEM('color',(#16077),#11233); #16077 = PRESENTATION_STYLE_ASSIGNMENT((#16078)); #16078 = SURFACE_STYLE_USAGE(.BOTH.,#16079); #16079 = SURFACE_SIDE_STYLE('',(#16080)); #16080 = SURFACE_STYLE_FILL_AREA(#16081); #16081 = FILL_AREA_STYLE('',(#16082)); #16082 = FILL_AREA_STYLE_COLOUR('',#15721); #16083 = STYLED_ITEM('color',(#16084),#11283); #16084 = PRESENTATION_STYLE_ASSIGNMENT((#16085)); #16085 = SURFACE_STYLE_USAGE(.BOTH.,#16086); #16086 = SURFACE_SIDE_STYLE('',(#16087)); #16087 = SURFACE_STYLE_FILL_AREA(#16088); #16088 = FILL_AREA_STYLE('',(#16089)); #16089 = FILL_AREA_STYLE_COLOUR('',#15721); #16090 = STYLED_ITEM('color',(#16091),#11310); #16091 = PRESENTATION_STYLE_ASSIGNMENT((#16092)); #16092 = SURFACE_STYLE_USAGE(.BOTH.,#16093); #16093 = SURFACE_SIDE_STYLE('',(#16094)); #16094 = SURFACE_STYLE_FILL_AREA(#16095); #16095 = FILL_AREA_STYLE('',(#16096)); #16096 = FILL_AREA_STYLE_COLOUR('',#15721); ENDSEC; END-ISO-10303-21;
{ "repo_name": "jfedor2/pmw3360-breakout", "stars": "57", "repo_language": "None", "file_name": "PMW3360.dcm", "mime_type": "text/plain" }
(fp_lib_table (lib (name PMW3360)(type KiCad)(uri ${KIPRJMOD}/PMW3360.pretty)(options "")(descr "")) )
{ "repo_name": "jfedor2/pmw3360-breakout", "stars": "57", "repo_language": "None", "file_name": "PMW3360.dcm", "mime_type": "text/plain" }
(kicad_pcb (version 20171130) (host pcbnew "(5.1.10)-1") (general (thickness 1.6) (drawings 35) (tracks 87) (zones 0) (modules 12) (nets 18) ) (page A4) (layers (0 F.Cu signal) (31 B.Cu signal) (32 B.Adhes user) (33 F.Adhes user) (34 B.Paste user) (35 F.Paste user) (36 B.SilkS user) (37 F.SilkS user) (38 B.Mask user) (39 F.Mask user) (40 Dwgs.User user) (41 Cmts.User user) (42 Eco1.User user) (43 Eco2.User user) (44 Edge.Cuts user) (45 Margin user) (46 B.CrtYd user) (47 F.CrtYd user) (48 B.Fab user hide) (49 F.Fab user hide) ) (setup (last_trace_width 0.25) (trace_clearance 0.25) (zone_clearance 0.508) (zone_45_only no) (trace_min 0.2) (via_size 0.8) (via_drill 0.4) (via_min_size 0.4) (via_min_drill 0.3) (uvia_size 0.3) (uvia_drill 0.1) (uvias_allowed no) (uvia_min_size 0.2) (uvia_min_drill 0.1) (edge_width 0.05) (segment_width 0.2) (pcb_text_width 0.3) (pcb_text_size 1.5 1.5) (mod_edge_width 0.12) (mod_text_size 1 1) (mod_text_width 0.15) (pad_size 1.524 1.524) (pad_drill 0.762) (pad_to_mask_clearance 0) (aux_axis_origin 0 0) (visible_elements 7FFFFFFF) (pcbplotparams (layerselection 0x010fc_ffffffff) (usegerberextensions true) (usegerberattributes true) (usegerberadvancedattributes false) (creategerberjobfile false) (excludeedgelayer true) (linewidth 0.100000) (plotframeref false) (viasonmask false) (mode 1) (useauxorigin false) (hpglpennumber 1) (hpglpenspeed 20) (hpglpendiameter 15.000000) (psnegative false) (psa4output false) (plotreference true) (plotvalue false) (plotinvisibletext false) (padsonsilk false) (subtractmaskfromsilk true) (outputformat 1) (mirror false) (drillshape 0) (scaleselection 1) (outputdirectory "./")) ) (net 0 "") (net 1 "Net-(U1-Pad7)") (net 2 "Net-(U1-Pad6)") (net 3 "Net-(U1-Pad14)") (net 4 "Net-(U1-Pad2)") (net 5 "Net-(U1-Pad16)") (net 6 "Net-(U1-Pad1)") (net 7 +3V3) (net 8 GND) (net 9 +1V8) (net 10 "Net-(C3-Pad1)") (net 11 MOTION) (net 12 SCLK) (net 13 MOSI) (net 14 MISO) (net 15 NCS) (net 16 "Net-(R1-Pad2)") (net 17 "Net-(U2-Pad4)") (net_class Default "This is the default net class." (clearance 0.25) (trace_width 0.25) (via_dia 0.8) (via_drill 0.4) (uvia_dia 0.3) (uvia_drill 0.1) (add_net MISO) (add_net MOSI) (add_net MOTION) (add_net NCS) (add_net "Net-(C3-Pad1)") (add_net "Net-(U1-Pad1)") (add_net "Net-(U1-Pad14)") (add_net "Net-(U1-Pad16)") (add_net "Net-(U1-Pad2)") (add_net "Net-(U1-Pad6)") (add_net "Net-(U1-Pad7)") (add_net "Net-(U2-Pad4)") (add_net SCLK) ) (net_class power "" (clearance 0.25) (trace_width 0.375) (via_dia 0.8) (via_drill 0.4) (uvia_dia 0.3) (uvia_drill 0.1) (add_net +1V8) (add_net +3V3) (add_net GND) (add_net "Net-(R1-Pad2)") ) (module PMW3360:PMW3360 (layer F.Cu) (tedit 615E26BB) (tstamp 61218CE5) (at 143.65 100.25) (path /611FD0E7) (fp_text reference U1 (at 5.35 15.75) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.15))) ) (fp_text value PMW3360 (at 5.35 13.375) (layer F.Fab) (effects (font (size 1 1) (thickness 0.15))) ) (fp_line (start 4.35 5.66) (end 6.35 5.66) (layer Dwgs.User) (width 0.12)) (fp_line (start 5.35 4.66) (end 5.35 6.66) (layer Dwgs.User) (width 0.12)) (fp_circle (center 0 -1.3) (end 0.2 -1.3) (layer F.SilkS) (width 0.4)) (fp_line (start 14.775 1.84) (end 14.775 8.89) (layer B.CrtYd) (width 0.05)) (fp_line (start 2.975 15.94) (end 7.725 15.94) (layer B.CrtYd) (width 0.05)) (fp_line (start -4.075 1.84) (end -4.075 8.89) (layer B.CrtYd) (width 0.05)) (fp_line (start 2.975 -5.21) (end 7.725 -5.21) (layer B.CrtYd) (width 0.05)) (fp_line (start 1.05 -2.78) (end 9.65 -2.78) (layer Dwgs.User) (width 0.12)) (fp_line (start 9.65 -2.78) (end 9.65 14.48) (layer Dwgs.User) (width 0.12)) (fp_line (start 1.05 14.48) (end 9.65 14.48) (layer Dwgs.User) (width 0.12)) (fp_line (start 1.05 -2.78) (end 1.05 14.48) (layer Dwgs.User) (width 0.12)) (fp_arc (start 2.975 8.89) (end -4.075 8.89) (angle -90) (layer B.CrtYd) (width 0.05)) (fp_arc (start 2.975 1.84) (end -4.075 1.84) (angle 90) (layer B.CrtYd) (width 0.05)) (fp_arc (start 7.725 1.84) (end 14.775 1.84) (angle -90) (layer B.CrtYd) (width 0.05)) (fp_arc (start 7.725 8.89) (end 14.775 8.89) (angle 90) (layer B.CrtYd) (width 0.05)) (pad 9 thru_hole circle (at 10.7 13.35) (size 1.2 1.2) (drill 0.7) (layers *.Cu *.Mask) (net 11 MOTION)) (pad 10 thru_hole circle (at 10.7 11.57) (size 1.2 1.2) (drill 0.7) (layers *.Cu *.Mask) (net 12 SCLK)) (pad 11 thru_hole circle (at 10.7 9.79) (size 1.2 1.2) (drill 0.7) (layers *.Cu *.Mask) (net 13 MOSI)) (pad 12 thru_hole circle (at 10.7 8.01) (size 1.2 1.2) (drill 0.7) (layers *.Cu *.Mask) (net 14 MISO)) (pad 13 thru_hole circle (at 10.7 6.23) (size 1.2 1.2) (drill 0.7) (layers *.Cu *.Mask) (net 15 NCS)) (pad 14 thru_hole circle (at 10.7 4.45) (size 1.2 1.2) (drill 0.7) (layers *.Cu *.Mask) (net 3 "Net-(U1-Pad14)")) (pad 15 thru_hole circle (at 10.7 2.67) (size 1.2 1.2) (drill 0.7) (layers *.Cu *.Mask) (net 16 "Net-(R1-Pad2)")) (pad 16 thru_hole circle (at 10.7 0.89) (size 1.2 1.2) (drill 0.7) (layers *.Cu *.Mask) (net 5 "Net-(U1-Pad16)")) (pad 8 thru_hole circle (at 0 12.46) (size 1.2 1.2) (drill 0.7) (layers *.Cu *.Mask) (net 8 GND)) (pad 7 thru_hole circle (at 0 10.68) (size 1.2 1.2) (drill 0.7) (layers *.Cu *.Mask) (net 1 "Net-(U1-Pad7)")) (pad 6 thru_hole circle (at 0 8.9) (size 1.2 1.2) (drill 0.7) (layers *.Cu *.Mask) (net 2 "Net-(U1-Pad6)")) (pad 5 thru_hole circle (at 0 7.12) (size 1.2 1.2) (drill 0.7) (layers *.Cu *.Mask) (net 7 +3V3)) (pad 4 thru_hole circle (at 0 5.34) (size 1.2 1.2) (drill 0.7) (layers *.Cu *.Mask) (net 9 +1V8)) (pad 3 thru_hole circle (at 0 3.56) (size 1.2 1.2) (drill 0.7) (layers *.Cu *.Mask) (net 10 "Net-(C3-Pad1)")) (pad 2 thru_hole circle (at 0 1.78) (size 1.2 1.2) (drill 0.7) (layers *.Cu *.Mask) (net 4 "Net-(U1-Pad2)")) (pad 1 thru_hole rect (at 0 0) (size 1.2 1.2) (drill 0.7) (layers *.Cu *.Mask) (net 6 "Net-(U1-Pad1)")) ) (module MountingHole:MountingHole_2.2mm_M2 (layer F.Cu) (tedit 56D1B4CB) (tstamp 61219E26) (at 141 92.5) (descr "Mounting Hole 2.2mm, no annular, M2") (tags "mounting hole 2.2mm no annular m2") (attr virtual) (fp_text reference REF** (at 0 -3.2) (layer F.SilkS) hide (effects (font (size 1 1) (thickness 0.15))) ) (fp_text value MountingHole_2.2mm_M2 (at 0 3.2) (layer F.Fab) (effects (font (size 1 1) (thickness 0.15))) ) (fp_circle (center 0 0) (end 2.45 0) (layer F.CrtYd) (width 0.05)) (fp_circle (center 0 0) (end 2.2 0) (layer Cmts.User) (width 0.15)) (fp_text user %R (at 0.3 0) (layer F.Fab) (effects (font (size 1 1) (thickness 0.15))) ) (pad 1 np_thru_hole circle (at 0 0) (size 2.2 2.2) (drill 2.2) (layers *.Cu *.Mask)) ) (module Connector_PinHeader_2.54mm:PinHeader_1x07_P2.54mm_Vertical (layer F.Cu) (tedit 61218118) (tstamp 612088F6) (at 141.45 88 90) (descr "Through hole straight pin header, 1x07, 2.54mm pitch, single row") (tags "Through hole pin header THT 1x07 2.54mm single row") (path /61204584) (fp_text reference J1 (at 0 -2.33 90) (layer F.SilkS) hide (effects (font (size 1 1) (thickness 0.15))) ) (fp_text value Conn_01x07 (at 0 17.57 90) (layer F.Fab) (effects (font (size 1 1) (thickness 0.15))) ) (fp_line (start -0.635 -1.27) (end 1.27 -1.27) (layer F.Fab) (width 0.1)) (fp_line (start 1.27 -1.27) (end 1.27 16.51) (layer F.Fab) (width 0.1)) (fp_line (start 1.27 16.51) (end -1.27 16.51) (layer F.Fab) (width 0.1)) (fp_line (start -1.27 16.51) (end -1.27 -0.635) (layer F.Fab) (width 0.1)) (fp_line (start -1.27 -0.635) (end -0.635 -1.27) (layer F.Fab) (width 0.1)) (fp_line (start -1.8 -1.8) (end -1.8 17.05) (layer F.CrtYd) (width 0.05)) (fp_line (start -1.8 17.05) (end 1.8 17.05) (layer F.CrtYd) (width 0.05)) (fp_line (start 1.8 17.05) (end 1.8 -1.8) (layer F.CrtYd) (width 0.05)) (fp_line (start 1.8 -1.8) (end -1.8 -1.8) (layer F.CrtYd) (width 0.05)) (fp_text user %R (at 0 7.62) (layer F.Fab) (effects (font (size 1 1) (thickness 0.15))) ) (pad 7 thru_hole oval (at 0 15.24 90) (size 1.7 1.7) (drill 1) (layers *.Cu *.Mask) (net 11 MOTION)) (pad 6 thru_hole oval (at 0 12.7 90) (size 1.7 1.7) (drill 1) (layers *.Cu *.Mask) (net 12 SCLK)) (pad 5 thru_hole oval (at 0 10.16 90) (size 1.7 1.7) (drill 1) (layers *.Cu *.Mask) (net 13 MOSI)) (pad 4 thru_hole oval (at 0 7.62 90) (size 1.7 1.7) (drill 1) (layers *.Cu *.Mask) (net 14 MISO)) (pad 3 thru_hole oval (at 0 5.08 90) (size 1.7 1.7) (drill 1) (layers *.Cu *.Mask) (net 15 NCS)) (pad 2 thru_hole oval (at 0 2.54 90) (size 1.7 1.7) (drill 1) (layers *.Cu *.Mask) (net 7 +3V3)) (pad 1 thru_hole circle (at 0 0 90) (size 1.7 1.7) (drill 1) (layers *.Cu *.Mask) (net 8 GND)) ) (module MountingHole:MountingHole_2.2mm_M2 (layer F.Cu) (tedit 56D1B4CB) (tstamp 61217BF5) (at 157 117) (descr "Mounting Hole 2.2mm, no annular, M2") (tags "mounting hole 2.2mm no annular m2") (attr virtual) (fp_text reference REF** (at 0 -3.2) (layer F.SilkS) hide (effects (font (size 1 1) (thickness 0.15))) ) (fp_text value MountingHole_2.2mm_M2 (at 0 3.2) (layer F.Fab) (effects (font (size 1 1) (thickness 0.15))) ) (fp_circle (center 0 0) (end 2.45 0) (layer F.CrtYd) (width 0.05)) (fp_circle (center 0 0) (end 2.2 0) (layer Cmts.User) (width 0.15)) (fp_text user %R (at 0.3 0) (layer F.Fab) (effects (font (size 1 1) (thickness 0.15))) ) (pad 1 np_thru_hole circle (at 0 0) (size 2.2 2.2) (drill 2.2) (layers *.Cu *.Mask)) ) (module MountingHole:MountingHole_2.2mm_M2 (layer F.Cu) (tedit 56D1B4CB) (tstamp 61217B4F) (at 141 117) (descr "Mounting Hole 2.2mm, no annular, M2") (tags "mounting hole 2.2mm no annular m2") (attr virtual) (fp_text reference REF** (at 0 -3.2) (layer F.SilkS) hide (effects (font (size 1 1) (thickness 0.15))) ) (fp_text value MountingHole_2.2mm_M2 (at 0 3.2) (layer F.Fab) (effects (font (size 1 1) (thickness 0.15))) ) (fp_circle (center 0 0) (end 2.45 0) (layer F.CrtYd) (width 0.05)) (fp_circle (center 0 0) (end 2.2 0) (layer Cmts.User) (width 0.15)) (fp_text user %R (at 0.3 0) (layer F.Fab) (effects (font (size 1 1) (thickness 0.15))) ) (pad 1 np_thru_hole circle (at 0 0) (size 2.2 2.2) (drill 2.2) (layers *.Cu *.Mask)) ) (module MountingHole:MountingHole_2.2mm_M2 (layer F.Cu) (tedit 56D1B4CB) (tstamp 612178A2) (at 157 92.5) (descr "Mounting Hole 2.2mm, no annular, M2") (tags "mounting hole 2.2mm no annular m2") (attr virtual) (fp_text reference REF** (at 0 -3.2) (layer F.SilkS) hide (effects (font (size 1 1) (thickness 0.15))) ) (fp_text value MountingHole_2.2mm_M2 (at 0 3.2) (layer F.Fab) (effects (font (size 1 1) (thickness 0.15))) ) (fp_circle (center 0 0) (end 2.45 0) (layer F.CrtYd) (width 0.05)) (fp_circle (center 0 0) (end 2.2 0) (layer Cmts.User) (width 0.15)) (fp_text user %R (at 0.3 0) (layer F.Fab) (effects (font (size 1 1) (thickness 0.15))) ) (pad 1 np_thru_hole circle (at 0 0) (size 2.2 2.2) (drill 2.2) (layers *.Cu *.Mask)) ) (module Package_TO_SOT_SMD:SOT-23-5 (layer F.Cu) (tedit 5A02FF57) (tstamp 6122CBDC) (at 145.45 93.35 270) (descr "5-pin SOT23 package") (tags SOT-23-5) (path /61202164) (attr smd) (fp_text reference U2 (at 2.65 -0.05 180) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.15))) ) (fp_text value TCR2EF19 (at 0 2.9 90) (layer F.Fab) (effects (font (size 1 1) (thickness 0.15))) ) (fp_line (start -0.9 1.61) (end 0.9 1.61) (layer F.SilkS) (width 0.12)) (fp_line (start 0.9 -1.61) (end -1.55 -1.61) (layer F.SilkS) (width 0.12)) (fp_line (start -1.9 -1.8) (end 1.9 -1.8) (layer F.CrtYd) (width 0.05)) (fp_line (start 1.9 -1.8) (end 1.9 1.8) (layer F.CrtYd) (width 0.05)) (fp_line (start 1.9 1.8) (end -1.9 1.8) (layer F.CrtYd) (width 0.05)) (fp_line (start -1.9 1.8) (end -1.9 -1.8) (layer F.CrtYd) (width 0.05)) (fp_line (start -0.9 -0.9) (end -0.25 -1.55) (layer F.Fab) (width 0.1)) (fp_line (start 0.9 -1.55) (end -0.25 -1.55) (layer F.Fab) (width 0.1)) (fp_line (start -0.9 -0.9) (end -0.9 1.55) (layer F.Fab) (width 0.1)) (fp_line (start 0.9 1.55) (end -0.9 1.55) (layer F.Fab) (width 0.1)) (fp_line (start 0.9 -1.55) (end 0.9 1.55) (layer F.Fab) (width 0.1)) (fp_text user %R (at 0 0) (layer F.Fab) (effects (font (size 0.5 0.5) (thickness 0.075))) ) (pad 5 smd rect (at 1.1 -0.95 270) (size 1.06 0.65) (layers F.Cu F.Paste F.Mask) (net 9 +1V8)) (pad 4 smd rect (at 1.1 0.95 270) (size 1.06 0.65) (layers F.Cu F.Paste F.Mask) (net 17 "Net-(U2-Pad4)")) (pad 3 smd rect (at -1.1 0.95 270) (size 1.06 0.65) (layers F.Cu F.Paste F.Mask) (net 7 +3V3)) (pad 2 smd rect (at -1.1 0 270) (size 1.06 0.65) (layers F.Cu F.Paste F.Mask) (net 8 GND)) (pad 1 smd rect (at -1.1 -0.95 270) (size 1.06 0.65) (layers F.Cu F.Paste F.Mask) (net 7 +3V3)) (model ${KISYS3DMOD}/Package_TO_SOT_SMD.3dshapes/SOT-23-5.wrl (at (xyz 0 0 0)) (scale (xyz 1 1 1)) (rotate (xyz 0 0 0)) ) ) (module Resistor_SMD:R_0603_1608Metric (layer F.Cu) (tedit 5F68FEEE) (tstamp 61208918) (at 149 92.25) (descr "Resistor SMD 0603 (1608 Metric), square (rectangular) end terminal, IPC_7351 nominal, (Body size source: IPC-SM-782 page 72, https://www.pcb-3d.com/wordpress/wp-content/uploads/ipc-sm-782a_amendment_1_and_2.pdf), generated with kicad-footprint-generator") (tags resistor) (path /612233B2) (attr smd) (fp_text reference R2 (at 2.4 -0.05) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.15))) ) (fp_text value 10k (at 0 1.43) (layer F.Fab) (effects (font (size 1 1) (thickness 0.15))) ) (fp_line (start -0.8 0.4125) (end -0.8 -0.4125) (layer F.Fab) (width 0.1)) (fp_line (start -0.8 -0.4125) (end 0.8 -0.4125) (layer F.Fab) (width 0.1)) (fp_line (start 0.8 -0.4125) (end 0.8 0.4125) (layer F.Fab) (width 0.1)) (fp_line (start 0.8 0.4125) (end -0.8 0.4125) (layer F.Fab) (width 0.1)) (fp_line (start -0.237258 -0.5225) (end 0.237258 -0.5225) (layer F.SilkS) (width 0.12)) (fp_line (start -0.237258 0.5225) (end 0.237258 0.5225) (layer F.SilkS) (width 0.12)) (fp_line (start -1.48 0.73) (end -1.48 -0.73) (layer F.CrtYd) (width 0.05)) (fp_line (start -1.48 -0.73) (end 1.48 -0.73) (layer F.CrtYd) (width 0.05)) (fp_line (start 1.48 -0.73) (end 1.48 0.73) (layer F.CrtYd) (width 0.05)) (fp_line (start 1.48 0.73) (end -1.48 0.73) (layer F.CrtYd) (width 0.05)) (fp_text user %R (at 0 0) (layer F.Fab) (effects (font (size 0.4 0.4) (thickness 0.06))) ) (pad 2 smd roundrect (at 0.825 0) (size 0.8 0.95) (layers F.Cu F.Paste F.Mask) (roundrect_rratio 0.25) (net 14 MISO)) (pad 1 smd roundrect (at -0.825 0) (size 0.8 0.95) (layers F.Cu F.Paste F.Mask) (roundrect_rratio 0.25) (net 7 +3V3)) (model ${KISYS3DMOD}/Resistor_SMD.3dshapes/R_0603_1608Metric.wrl (at (xyz 0 0 0)) (scale (xyz 1 1 1)) (rotate (xyz 0 0 0)) ) ) (module Resistor_SMD:R_0603_1608Metric (layer F.Cu) (tedit 5F68FEEE) (tstamp 6121A67E) (at 150.8 95.85) (descr "Resistor SMD 0603 (1608 Metric), square (rectangular) end terminal, IPC_7351 nominal, (Body size source: IPC-SM-782 page 72, https://www.pcb-3d.com/wordpress/wp-content/uploads/ipc-sm-782a_amendment_1_and_2.pdf), generated with kicad-footprint-generator") (tags resistor) (path /61226765) (attr smd) (fp_text reference R1 (at 2.35 0.05) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.15))) ) (fp_text value 39 (at 0 1.43) (layer F.Fab) (effects (font (size 1 1) (thickness 0.15))) ) (fp_line (start -0.8 0.4125) (end -0.8 -0.4125) (layer F.Fab) (width 0.1)) (fp_line (start -0.8 -0.4125) (end 0.8 -0.4125) (layer F.Fab) (width 0.1)) (fp_line (start 0.8 -0.4125) (end 0.8 0.4125) (layer F.Fab) (width 0.1)) (fp_line (start 0.8 0.4125) (end -0.8 0.4125) (layer F.Fab) (width 0.1)) (fp_line (start -0.237258 -0.5225) (end 0.237258 -0.5225) (layer F.SilkS) (width 0.12)) (fp_line (start -0.237258 0.5225) (end 0.237258 0.5225) (layer F.SilkS) (width 0.12)) (fp_line (start -1.48 0.73) (end -1.48 -0.73) (layer F.CrtYd) (width 0.05)) (fp_line (start -1.48 -0.73) (end 1.48 -0.73) (layer F.CrtYd) (width 0.05)) (fp_line (start 1.48 -0.73) (end 1.48 0.73) (layer F.CrtYd) (width 0.05)) (fp_line (start 1.48 0.73) (end -1.48 0.73) (layer F.CrtYd) (width 0.05)) (fp_text user %R (at 0 0) (layer F.Fab) (effects (font (size 0.4 0.4) (thickness 0.06))) ) (pad 2 smd roundrect (at 0.825 0) (size 0.8 0.95) (layers F.Cu F.Paste F.Mask) (roundrect_rratio 0.25) (net 16 "Net-(R1-Pad2)")) (pad 1 smd roundrect (at -0.825 0) (size 0.8 0.95) (layers F.Cu F.Paste F.Mask) (roundrect_rratio 0.25) (net 9 +1V8)) (model ${KISYS3DMOD}/Resistor_SMD.3dshapes/R_0603_1608Metric.wrl (at (xyz 0 0 0)) (scale (xyz 1 1 1)) (rotate (xyz 0 0 0)) ) ) (module Capacitor_SMD:C_0603_1608Metric (layer F.Cu) (tedit 5F68FEEE) (tstamp 612088DB) (at 141.85 103.05 90) (descr "Capacitor SMD 0603 (1608 Metric), square (rectangular) end terminal, IPC_7351 nominal, (Body size source: IPC-SM-782 page 76, https://www.pcb-3d.com/wordpress/wp-content/uploads/ipc-sm-782a_amendment_1_and_2.pdf), generated with kicad-footprint-generator") (tags capacitor) (path /6120E816) (attr smd) (fp_text reference C3 (at 0 -1.75 180) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.15))) ) (fp_text value 4.7u (at 0 1.43 90) (layer F.Fab) (effects (font (size 1 1) (thickness 0.15))) ) (fp_line (start -0.8 0.4) (end -0.8 -0.4) (layer F.Fab) (width 0.1)) (fp_line (start -0.8 -0.4) (end 0.8 -0.4) (layer F.Fab) (width 0.1)) (fp_line (start 0.8 -0.4) (end 0.8 0.4) (layer F.Fab) (width 0.1)) (fp_line (start 0.8 0.4) (end -0.8 0.4) (layer F.Fab) (width 0.1)) (fp_line (start -0.14058 -0.51) (end 0.14058 -0.51) (layer F.SilkS) (width 0.12)) (fp_line (start -0.14058 0.51) (end 0.14058 0.51) (layer F.SilkS) (width 0.12)) (fp_line (start -1.48 0.73) (end -1.48 -0.73) (layer F.CrtYd) (width 0.05)) (fp_line (start -1.48 -0.73) (end 1.48 -0.73) (layer F.CrtYd) (width 0.05)) (fp_line (start 1.48 -0.73) (end 1.48 0.73) (layer F.CrtYd) (width 0.05)) (fp_line (start 1.48 0.73) (end -1.48 0.73) (layer F.CrtYd) (width 0.05)) (fp_text user %R (at 0 0 90) (layer F.Fab) (effects (font (size 0.4 0.4) (thickness 0.06))) ) (pad 2 smd roundrect (at 0.775 0 90) (size 0.9 0.95) (layers F.Cu F.Paste F.Mask) (roundrect_rratio 0.25) (net 8 GND)) (pad 1 smd roundrect (at -0.775 0 90) (size 0.9 0.95) (layers F.Cu F.Paste F.Mask) (roundrect_rratio 0.25) (net 10 "Net-(C3-Pad1)")) (model ${KISYS3DMOD}/Capacitor_SMD.3dshapes/C_0603_1608Metric.wrl (at (xyz 0 0 0)) (scale (xyz 1 1 1)) (rotate (xyz 0 0 0)) ) ) (module Capacitor_SMD:C_0603_1608Metric (layer F.Cu) (tedit 5F68FEEE) (tstamp 6122CE5B) (at 148.05 94.55 90) (descr "Capacitor SMD 0603 (1608 Metric), square (rectangular) end terminal, IPC_7351 nominal, (Body size source: IPC-SM-782 page 76, https://www.pcb-3d.com/wordpress/wp-content/uploads/ipc-sm-782a_amendment_1_and_2.pdf), generated with kicad-footprint-generator") (tags capacitor) (path /6120771D) (attr smd) (fp_text reference C2 (at -2.1 0 180) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.15))) ) (fp_text value 1u (at 0 1.43 90) (layer F.Fab) (effects (font (size 1 1) (thickness 0.15))) ) (fp_line (start -0.8 0.4) (end -0.8 -0.4) (layer F.Fab) (width 0.1)) (fp_line (start -0.8 -0.4) (end 0.8 -0.4) (layer F.Fab) (width 0.1)) (fp_line (start 0.8 -0.4) (end 0.8 0.4) (layer F.Fab) (width 0.1)) (fp_line (start 0.8 0.4) (end -0.8 0.4) (layer F.Fab) (width 0.1)) (fp_line (start -0.14058 -0.51) (end 0.14058 -0.51) (layer F.SilkS) (width 0.12)) (fp_line (start -0.14058 0.51) (end 0.14058 0.51) (layer F.SilkS) (width 0.12)) (fp_line (start -1.48 0.73) (end -1.48 -0.73) (layer F.CrtYd) (width 0.05)) (fp_line (start -1.48 -0.73) (end 1.48 -0.73) (layer F.CrtYd) (width 0.05)) (fp_line (start 1.48 -0.73) (end 1.48 0.73) (layer F.CrtYd) (width 0.05)) (fp_line (start 1.48 0.73) (end -1.48 0.73) (layer F.CrtYd) (width 0.05)) (fp_text user %R (at 0 0 90) (layer F.Fab) (effects (font (size 0.4 0.4) (thickness 0.06))) ) (pad 2 smd roundrect (at 0.775 0 90) (size 0.9 0.95) (layers F.Cu F.Paste F.Mask) (roundrect_rratio 0.25) (net 8 GND)) (pad 1 smd roundrect (at -0.775 0 90) (size 0.9 0.95) (layers F.Cu F.Paste F.Mask) (roundrect_rratio 0.25) (net 9 +1V8)) (model ${KISYS3DMOD}/Capacitor_SMD.3dshapes/C_0603_1608Metric.wrl (at (xyz 0 0 0)) (scale (xyz 1 1 1)) (rotate (xyz 0 0 0)) ) ) (module Capacitor_SMD:C_0603_1608Metric (layer F.Cu) (tedit 5F68FEEE) (tstamp 61219B75) (at 145.6 90.6) (descr "Capacitor SMD 0603 (1608 Metric), square (rectangular) end terminal, IPC_7351 nominal, (Body size source: IPC-SM-782 page 76, https://www.pcb-3d.com/wordpress/wp-content/uploads/ipc-sm-782a_amendment_1_and_2.pdf), generated with kicad-footprint-generator") (tags capacitor) (path /61207B3F) (attr smd) (fp_text reference C1 (at -2.3 0.05) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.15))) ) (fp_text value 0.1u (at 0 1.43) (layer F.Fab) (effects (font (size 1 1) (thickness 0.15))) ) (fp_line (start -0.8 0.4) (end -0.8 -0.4) (layer F.Fab) (width 0.1)) (fp_line (start -0.8 -0.4) (end 0.8 -0.4) (layer F.Fab) (width 0.1)) (fp_line (start 0.8 -0.4) (end 0.8 0.4) (layer F.Fab) (width 0.1)) (fp_line (start 0.8 0.4) (end -0.8 0.4) (layer F.Fab) (width 0.1)) (fp_line (start -0.14058 -0.51) (end 0.14058 -0.51) (layer F.SilkS) (width 0.12)) (fp_line (start -0.14058 0.51) (end 0.14058 0.51) (layer F.SilkS) (width 0.12)) (fp_line (start -1.48 0.73) (end -1.48 -0.73) (layer F.CrtYd) (width 0.05)) (fp_line (start -1.48 -0.73) (end 1.48 -0.73) (layer F.CrtYd) (width 0.05)) (fp_line (start 1.48 -0.73) (end 1.48 0.73) (layer F.CrtYd) (width 0.05)) (fp_line (start 1.48 0.73) (end -1.48 0.73) (layer F.CrtYd) (width 0.05)) (fp_text user %R (at 0 0) (layer F.Fab) (effects (font (size 0.4 0.4) (thickness 0.06))) ) (pad 2 smd roundrect (at 0.775 0) (size 0.9 0.95) (layers F.Cu F.Paste F.Mask) (roundrect_rratio 0.25) (net 7 +3V3)) (pad 1 smd roundrect (at -0.775 0) (size 0.9 0.95) (layers F.Cu F.Paste F.Mask) (roundrect_rratio 0.25) (net 8 GND)) (model ${KISYS3DMOD}/Capacitor_SMD.3dshapes/C_0603_1608Metric.wrl (at (xyz 0 0 0)) (scale (xyz 1 1 1)) (rotate (xyz 0 0 0)) ) ) (gr_text v2 (at 149 118.65) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.15))) ) (gr_text "3.3V LOGIC" (at 140.65 105.5 -90) (layer B.SilkS) (effects (font (size 1.5 1.5) (thickness 0.2)) (justify mirror)) ) (gr_text PMW3360 (at 157.5 106.2 90) (layer B.SilkS) (effects (font (size 2 2) (thickness 0.3)) (justify mirror)) ) (dimension 22 (width 0.15) (layer Cmts.User) (gr_text "22,000 mm" (at 149 122.3) (layer Cmts.User) (effects (font (size 1 1) (thickness 0.15))) ) (feature1 (pts (xy 160 119) (xy 160 121.586421))) (feature2 (pts (xy 138 119) (xy 138 121.586421))) (crossbar (pts (xy 138 121) (xy 160 121))) (arrow1a (pts (xy 160 121) (xy 158.873496 121.586421))) (arrow1b (pts (xy 160 121) (xy 158.873496 120.413579))) (arrow2a (pts (xy 138 121) (xy 139.126504 121.586421))) (arrow2b (pts (xy 138 121) (xy 139.126504 120.413579))) ) (dimension 34 (width 0.15) (layer Cmts.User) (gr_text "34,000 mm" (at 163.3 103 270) (layer Cmts.User) (effects (font (size 1 1) (thickness 0.15))) ) (feature1 (pts (xy 160 120) (xy 162.586421 120))) (feature2 (pts (xy 160 86) (xy 162.586421 86))) (crossbar (pts (xy 162 86) (xy 162 120))) (arrow1a (pts (xy 162 120) (xy 161.413579 118.873496))) (arrow1b (pts (xy 162 120) (xy 162.586421 118.873496))) (arrow2a (pts (xy 162 86) (xy 161.413579 87.126504))) (arrow2b (pts (xy 162 86) (xy 162.586421 87.126504))) ) (gr_text NCS (at 146.558 89.408 180) (layer F.SilkS) (tstamp 6121867A) (effects (font (size 0.5 0.5) (thickness 0.1))) ) (gr_text 3V3 (at 144.018 89.408 180) (layer F.SilkS) (tstamp 61218679) (effects (font (size 0.5 0.5) (thickness 0.1))) ) (gr_text GND (at 141.478 89.408 180) (layer F.SilkS) (tstamp 61218678) (effects (font (size 0.5 0.5) (thickness 0.1))) ) (gr_text MOSI (at 151.638 89.408 180) (layer F.SilkS) (tstamp 61218677) (effects (font (size 0.5 0.5) (thickness 0.1))) ) (gr_text MISO (at 149.098 89.408 180) (layer F.SilkS) (tstamp 61218676) (effects (font (size 0.5 0.5) (thickness 0.1))) ) (gr_text MOTION (at 156.718 89.408 180) (layer F.SilkS) (tstamp 61218675) (effects (font (size 0.5 0.5) (thickness 0.1))) ) (gr_text SCLK (at 154.178 89.408 180) (layer F.SilkS) (tstamp 61218674) (effects (font (size 0.5 0.5) (thickness 0.1))) ) (gr_text MOTION (at 157.05 90.1 180) (layer B.SilkS) (effects (font (size 0.75 0.75) (thickness 0.15)) (justify mirror)) ) (gr_text SCLK (at 154.178 89.408 90) (layer B.SilkS) (effects (font (size 1 1) (thickness 0.15)) (justify left mirror)) ) (gr_text MOSI (at 151.638 89.408 90) (layer B.SilkS) (effects (font (size 1 1) (thickness 0.15)) (justify left mirror)) ) (gr_text MISO (at 149.098 89.408 90) (layer B.SilkS) (effects (font (size 1 1) (thickness 0.15)) (justify left mirror)) ) (gr_text NCS (at 146.558 89.408 90) (layer B.SilkS) (effects (font (size 1 1) (thickness 0.15)) (justify left mirror)) ) (gr_text 3V3 (at 144.018 89.408 90) (layer B.SilkS) (tstamp 6121995E) (effects (font (size 1 1) (thickness 0.15)) (justify left mirror)) ) (gr_text GND (at 141.45 90.05 180) (layer B.SilkS) (tstamp 61219961) (effects (font (size 0.75 0.75) (thickness 0.15)) (justify mirror)) ) (gr_arc (start 140 118) (end 138 118) (angle -90) (layer Edge.Cuts) (width 0.05)) (gr_arc (start 158 118) (end 158 120) (angle -90) (layer Edge.Cuts) (width 0.05)) (gr_arc (start 140 88) (end 140 86) (angle -90) (layer Edge.Cuts) (width 0.05)) (gr_arc (start 158 88) (end 160 88) (angle -90) (layer Edge.Cuts) (width 0.05)) (gr_line (start 153 115.1) (end 145 115.1) (layer Edge.Cuts) (width 0.05) (tstamp 61218CCC)) (gr_line (start 153.5 97.9) (end 153.5 114.6) (layer Edge.Cuts) (width 0.05) (tstamp 61218CC9)) (gr_line (start 145 97.4) (end 153 97.4) (layer Edge.Cuts) (width 0.05) (tstamp 61218D17)) (gr_line (start 144.5 114.6) (end 144.5 97.9) (layer Edge.Cuts) (width 0.05) (tstamp 61218D1A)) (gr_arc (start 145 114.6) (end 144.5 114.6) (angle -90) (layer Edge.Cuts) (width 0.05) (tstamp 61218D14)) (gr_arc (start 153 114.6) (end 153 115.1) (angle -90) (layer Edge.Cuts) (width 0.05) (tstamp 61218D20)) (gr_arc (start 153 97.9) (end 153.5 97.9) (angle -90) (layer Edge.Cuts) (width 0.05) (tstamp 61218D1D)) (gr_arc (start 145 97.9) (end 145 97.4) (angle -90) (layer Edge.Cuts) (width 0.05) (tstamp 61218D23)) (gr_line (start 138 118) (end 138 88) (layer Edge.Cuts) (width 0.05) (tstamp 61202E3D)) (gr_line (start 158 120) (end 140 120) 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EESchema Schematic File Version 4 EELAYER 30 0 EELAYER END $Descr A4 11693 8268 encoding utf-8 Sheet 1 1 Title "" Date "" Rev "" Comp "" Comment1 "" Comment2 "" Comment3 "" Comment4 "" $EndDescr $Comp L PMW3360:PMW3360 U1 U 1 1 611FD0E7 P 5650 4000 F 0 "U1" H 5250 4600 50 0000 L CNN F 1 "PMW3360" H 6050 3500 50 0000 R CNN F 2 "PMW3360:PMW3360" H 5650 4550 50 0001 C CNN F 3 "" H 5650 4550 50 0001 C CNN 1 5650 4000 1 0 0 -1 $EndComp $Comp L Connector_Generic:Conn_01x07 J1 U 1 1 61204584 P 8500 3900 F 0 "J1" H 8580 3942 50 0000 L CNN F 1 "Conn_01x07" H 8580 3851 50 0000 L CNN F 2 "Connector_PinHeader_2.54mm:PinHeader_1x07_P2.54mm_Vertical" H 8500 3900 50 0001 C CNN F 3 "~" H 8500 3900 50 0001 C CNN 1 8500 3900 1 0 0 -1 $EndComp $Comp L Device:C_Small C2 U 1 1 6120771D P 3200 3850 F 0 "C2" H 3292 3896 50 0000 L CNN F 1 "1u" H 3292 3805 50 0000 L CNN F 2 "Capacitor_SMD:C_0603_1608Metric" H 3200 3850 50 0001 C CNN F 3 "~" H 3200 3850 50 0001 C CNN F 4 "C15849" H 3200 3850 50 0001 C CNN "LCSC" 1 3200 3850 1 0 0 -1 $EndComp $Comp L power:GND #PWR0101 U 1 1 612088D3 P 2750 4400 F 0 "#PWR0101" H 2750 4150 50 0001 C CNN F 1 "GND" H 2755 4227 50 0000 C CNN F 2 "" H 2750 4400 50 0001 C CNN F 3 "" H 2750 4400 50 0001 C CNN 1 2750 4400 1 0 0 -1 $EndComp $Comp L power:+1V8 #PWR0102 U 1 1 6120942E P 3500 3750 F 0 "#PWR0102" H 3500 3600 50 0001 C CNN F 1 "+1V8" H 3515 3923 50 0000 C CNN F 2 "" H 3500 3750 50 0001 C CNN F 3 "" H 3500 3750 50 0001 C CNN 1 3500 3750 1 0 0 -1 $EndComp $Comp L Regulator_Linear:TLV70218_SOT23-5 U2 U 1 1 61202164 P 2750 3850 F 0 "U2" H 2750 4192 50 0000 C CNN F 1 "TCR2EF19" H 2750 4101 50 0000 C CNN F 2 "Package_TO_SOT_SMD:SOT-23-5" H 2750 4175 50 0001 C CIN F 3 "" H 2750 3900 50 0001 C CNN F 4 "C146366" H 2750 3850 50 0001 C CNN "LCSC" 1 2750 3850 1 0 0 -1 $EndComp $Comp L Device:C_Small C1 U 1 1 61207B3F P 2300 3850 F 0 "C1" H 2209 3804 50 0000 R CNN F 1 "0.1u" H 2209 3895 50 0000 R CNN F 2 "Capacitor_SMD:C_0603_1608Metric" H 2300 3850 50 0001 C CNN F 3 "~" H 2300 3850 50 0001 C CNN F 4 "C14663" H 2300 3850 50 0001 C CNN "LCSC" 1 2300 3850 1 0 0 1 $EndComp Wire Wire Line 2750 4150 2750 4200 Wire Wire Line 2300 3750 2450 3750 Connection ~ 2300 3750 Wire Wire Line 2300 3950 2300 4200 Wire Wire Line 2300 4200 2750 4200 Connection ~ 2750 4200 Wire Wire Line 2750 4200 2750 4400 Wire Wire Line 3050 3750 3200 3750 Wire Wire Line 3200 3950 3200 4200 Wire Wire Line 3200 4200 2750 4200 $Comp L Device:C_Small C3 U 1 1 6120E816 P 4500 3900 F 0 "C3" H 4592 3946 50 0000 L CNN F 1 "4.7u" H 4592 3855 50 0000 L CNN F 2 "Capacitor_SMD:C_0603_1608Metric" H 4500 3900 50 0001 C CNN F 3 "~" H 4500 3900 50 0001 C CNN F 4 "C19666" H 4500 3900 50 0001 C CNN "LCSC" 1 4500 3900 1 0 0 -1 $EndComp $Comp L power:GND #PWR0103 U 1 1 6120F2F2 P 4500 4000 F 0 "#PWR0103" H 4500 3750 50 0001 C CNN F 1 "GND" H 4505 3827 50 0000 C CNN F 2 "" H 4500 4000 50 0001 C CNN F 3 "" H 4500 4000 50 0001 C CNN 1 4500 4000 1 0 0 -1 $EndComp $Comp L power:+3V3 #PWR0104 U 1 1 6121006F P 2000 3750 F 0 "#PWR0104" H 2000 3600 50 0001 C CNN F 1 "+3V3" H 2015 3923 50 0000 C CNN F 2 "" H 2000 3750 50 0001 C CNN F 3 "" H 2000 3750 50 0001 C CNN 1 2000 3750 1 0 0 -1 $EndComp Wire Wire Line 3500 3750 3200 3750 Connection ~ 3200 3750 Wire Wire Line 2450 3850 2450 3750 Connection ~ 2450 3750 $Comp L power:+3V3 #PWR0105 U 1 1 6121173D P 4800 3300 F 0 "#PWR0105" H 4800 3150 50 0001 C CNN F 1 "+3V3" H 4815 3473 50 0000 C CNN F 2 "" H 4800 3300 50 0001 C CNN F 3 "" H 4800 3300 50 0001 C CNN 1 4800 3300 1 0 0 -1 $EndComp $Comp L power:+1V8 #PWR0106 U 1 1 612120DD P 5050 3300 F 0 "#PWR0106" H 5050 3150 50 0001 C CNN F 1 "+1V8" H 5065 3473 50 0000 C CNN F 2 "" H 5050 3300 50 0001 C CNN F 3 "" H 5050 3300 50 0001 C CNN 1 5050 3300 1 0 0 -1 $EndComp Wire Wire Line 4500 3800 5150 3800 Wire Wire Line 5150 3900 5050 3900 Wire Wire Line 5050 3900 5050 3300 Wire Wire Line 5150 4000 4800 4000 Wire Wire Line 4800 4000 4800 3300 $Comp L power:GND #PWR0107 U 1 1 61214A13 P 5150 4300 F 0 "#PWR0107" H 5150 4050 50 0001 C CNN F 1 "GND" H 5155 4127 50 0000 C CNN F 2 "" H 5150 4300 50 0001 C CNN F 3 "" H 5150 4300 50 0001 C CNN 1 5150 4300 1 0 0 -1 $EndComp $Comp L power:+3V3 #PWR0108 U 1 1 61215295 P 7900 3700 F 0 "#PWR0108" H 7900 3550 50 0001 C CNN F 1 "+3V3" H 7915 3873 50 0000 C CNN F 2 "" H 7900 3700 50 0001 C CNN F 3 "" H 7900 3700 50 0001 C CNN 1 7900 3700 1 0 0 -1 $EndComp $Comp L power:GND #PWR0109 U 1 1 6121663E P 8150 3450 F 0 "#PWR0109" H 8150 3200 50 0001 C CNN F 1 "GND" H 8155 3277 50 0000 C CNN F 2 "" H 8150 3450 50 0001 C CNN F 3 "" H 8150 3450 50 0001 C CNN 1 8150 3450 1 0 0 -1 $EndComp Text GLabel 8300 3800 0 50 Input ~ 0 NCS Text GLabel 8300 3900 0 50 Input ~ 0 MISO Text GLabel 8300 4000 0 50 Input ~ 0 MOSI Text GLabel 8300 4100 0 50 Input ~ 0 SCLK Text GLabel 8300 4200 0 50 Input ~ 0 MOTION Text GLabel 6150 3900 2 50 Input ~ 0 NCS Text GLabel 6700 4000 2 50 Input ~ 0 MISO Text GLabel 6150 4100 2 50 Input ~ 0 MOSI Text GLabel 6150 4200 2 50 Input ~ 0 SCLK Text GLabel 6150 4300 2 50 Input ~ 0 MOTION NoConn ~ 5150 4200 Wire Wire Line 6150 4000 6600 4000 $Comp L Device:R_Small R2 U 1 1 612233B2 P 6600 3650 F 0 "R2" H 6659 3696 50 0000 L CNN F 1 "10k" H 6659 3605 50 0000 L CNN F 2 "Resistor_SMD:R_0603_1608Metric" H 6600 3650 50 0001 C CNN F 3 "~" H 6600 3650 50 0001 C CNN F 4 "C25804" H 6600 3650 50 0001 C CNN "LCSC" 1 6600 3650 1 0 0 -1 $EndComp Wire Wire Line 6600 3750 6600 4000 Connection ~ 6600 4000 Wire Wire Line 6600 4000 6700 4000 $Comp L power:+3V3 #PWR0110 U 1 1 61224199 P 6600 3300 F 0 "#PWR0110" H 6600 3150 50 0001 C CNN F 1 "+3V3" H 6615 3473 50 0000 C CNN F 2 "" H 6600 3300 50 0001 C CNN F 3 "" H 6600 3300 50 0001 C CNN 1 6600 3300 1 0 0 -1 $EndComp $Comp L power:+1V8 #PWR0111 U 1 1 61224A3F P 6350 3300 F 0 "#PWR0111" H 6350 3150 50 0001 C CNN F 1 "+1V8" H 6365 3473 50 0000 C CNN F 2 "" H 6350 3300 50 0001 C CNN F 3 "" H 6350 3300 50 0001 C CNN 1 6350 3300 1 0 0 -1 $EndComp Wire Wire Line 6600 3300 6600 3550 $Comp L Device:R_Small R1 U 1 1 61226765 P 6350 3500 F 0 "R1" H 6409 3546 50 0000 L CNN F 1 "39" H 6409 3455 50 0000 L CNN F 2 "Resistor_SMD:R_0603_1608Metric" H 6350 3500 50 0001 C CNN F 3 "~" H 6350 3500 50 0001 C CNN F 4 "C137733" H 6350 3500 50 0001 C CNN "LCSC" 1 6350 3500 1 0 0 -1 $EndComp Wire Wire Line 6150 3700 6350 3700 Wire Wire Line 6350 3700 6350 3600 Wire Wire Line 6350 3400 6350 3300 Wire Wire Line 2000 3750 2300 3750 Wire Wire Line 8300 3600 8300 3450 Wire Wire Line 8300 3450 8150 3450 Wire Wire Line 7900 3700 8300 3700 $EndSCHEMATC
{ "repo_name": "jfedor2/pmw3360-breakout", "stars": "57", "repo_language": "None", "file_name": "PMW3360.dcm", "mime_type": "text/plain" }
EESchema-LIBRARY Version 2.4 #encoding utf-8 # # Connector_Generic_Conn_01x07 # DEF Connector_Generic_Conn_01x07 J 0 40 Y N 1 F N F0 "J" 0 400 50 H V C CNN F1 "Connector_Generic_Conn_01x07" 0 -400 50 H V C CNN F2 "" 0 0 50 H I C CNN F3 "" 0 0 50 H I C CNN $FPLIST Connector*:*_1x??_* $ENDFPLIST DRAW S -50 -295 0 -305 1 1 6 N S -50 -195 0 -205 1 1 6 N S -50 -95 0 -105 1 1 6 N S -50 5 0 -5 1 1 6 N S -50 105 0 95 1 1 6 N S -50 205 0 195 1 1 6 N S -50 305 0 295 1 1 6 N S -50 350 50 -350 1 1 10 f X Pin_1 1 -200 300 150 R 50 50 1 1 P X Pin_2 2 -200 200 150 R 50 50 1 1 P X Pin_3 3 -200 100 150 R 50 50 1 1 P X Pin_4 4 -200 0 150 R 50 50 1 1 P X Pin_5 5 -200 -100 150 R 50 50 1 1 P X Pin_6 6 -200 -200 150 R 50 50 1 1 P X Pin_7 7 -200 -300 150 R 50 50 1 1 P ENDDRAW ENDDEF # # Device_C_Small # DEF Device_C_Small C 0 10 N N 1 F N F0 "C" 10 70 50 H V L CNN F1 "Device_C_Small" 10 -80 50 H V L CNN F2 "" 0 0 50 H I C CNN F3 "" 0 0 50 H I C CNN $FPLIST C_* $ENDFPLIST DRAW P 2 0 1 13 -60 -20 60 -20 N P 2 0 1 12 -60 20 60 20 N X ~ 1 0 100 80 D 50 50 1 1 P X ~ 2 0 -100 80 U 50 50 1 1 P ENDDRAW ENDDEF # # Device_R_Small # DEF Device_R_Small R 0 10 N N 1 F N F0 "R" 30 20 50 H V L CNN F1 "Device_R_Small" 30 -40 50 H V L CNN F2 "" 0 0 50 H I C CNN F3 "" 0 0 50 H I C CNN $FPLIST R_* $ENDFPLIST DRAW S -30 70 30 -70 0 1 8 N X ~ 1 0 100 30 D 50 50 1 1 P X ~ 2 0 -100 30 U 50 50 1 1 P ENDDRAW ENDDEF # # PMW3360_PMW3360 # DEF PMW3360_PMW3360 U 0 40 Y Y 1 F N F0 "U" -400 600 50 H V L CNN F1 "PMW3360_PMW3360" 400 -500 50 H V R CNN F2 "" -500 600 50 H I C CNN F3 "" -500 600 50 H I C CNN DRAW S -400 500 400 -400 0 1 0 f X NC 1 -500 400 100 R 50 50 0 0 N X SCLK 10 500 -200 100 L 50 50 0 0 U X MOSI 11 500 -100 100 L 50 50 0 0 U X MISO 12 500 0 100 L 50 50 0 0 U X NCS 13 500 100 100 L 50 50 0 0 U X NC 14 500 200 100 L 50 50 0 0 N X LED_P 15 500 300 100 L 50 50 0 0 U X NC 16 500 400 100 L 50 50 0 0 N X NC 2 -500 300 100 R 50 50 0 0 N X VDDPIX 3 -500 200 100 R 50 50 0 0 U X VDD 4 -500 100 100 R 50 50 0 0 U X VDDIO 5 -500 0 100 R 50 50 0 0 U X NC 6 -500 -100 100 R 50 50 0 0 N X NRESET 7 -500 -200 100 R 50 50 0 0 U X GND 8 -500 -300 100 R 50 50 0 0 U X MOTION 9 500 -300 100 L 50 50 0 0 U ENDDRAW ENDDEF # # Regulator_Linear_TLV70218_SOT23-5 # DEF Regulator_Linear_TLV70218_SOT23-5 U 0 10 Y Y 1 F N F0 "U" -150 225 50 H V C CNN F1 "Regulator_Linear_TLV70218_SOT23-5" 0 225 50 H V L CNN F2 "Package_TO_SOT_SMD:SOT-23-5" 0 325 50 H I C CIN F3 "" 0 50 50 H I C CNN ALIAS TLV70013_SOT23-5 TLV70015_SOT23-5 TLV70018_SOT23-5 TLV70019_SOT23-5 TLV70025_SOT23-5 TLV70030_SOT23-5 TLV70032_SOT23-5 TLV70033_SOT23-5 TLV70036_SOT23-5 TLV70212_SOT23-5 TLV70215_SOT23-5 TLV70218_SOT23-5 TLV70225_SOT23-5 TLV70228_SOT23-5 TLV70230_SOT23-5 TLV70231_SOT23-5 TLV70233_SOT23-5 TLV70235_SOT23-5 TLV70237_SOT23-5 TLV70245_SOT23-5 TLV71209_SOT23-5 TLV71210_SOT23-5 TLV71211_SOT23-5 TLV71310PDBV TLV71311PDBV TLV71312PDBV TLV71315PDBV TLV71318PDBV TLV713185PDBV TLV71325PDBV TLV71328PDBV TLV713285PDBV TLV71330PDBV TLV71333PDBV TLV75509PDBV TLV75510PDBV TLV75512PDBV TLV75515PDBV TLV75518PDBV TLV75519PDBV TLV75525PDBV TLV75528PDBV TLV75529PDBV TLV75530PDBV TLV75533PDBV TLV75709PDBV TLV75710PDBV TLV75712PDBV TLV75715PDBV TLV75718PDBV TLV75719PDBV TLV75725PDBV TLV75728PDBV TLV75729PDBV TLV75730PDBV TLV75733PDBV TLV702475_SOT23-5 $FPLIST SOT?23* $ENDFPLIST DRAW S -200 175 200 -200 0 1 10 f X IN 1 -300 100 100 R 50 50 1 1 W X GND 2 0 -300 100 U 50 50 1 1 W X EN 3 -300 0 100 R 50 50 1 1 I X NC 4 200 0 100 L 50 50 1 1 N N X OUT 5 300 100 100 L 50 50 1 1 w ENDDRAW ENDDEF # # power_+1V8 # DEF power_+1V8 #PWR 0 0 Y Y 1 F P F0 "#PWR" 0 -150 50 H I C CNN F1 "power_+1V8" 0 140 50 H V C CNN F2 "" 0 0 50 H I C CNN F3 "" 0 0 50 H I C CNN DRAW P 2 0 1 0 -30 50 0 100 N P 2 0 1 0 0 0 0 100 N P 2 0 1 0 0 100 30 50 N X +1V8 1 0 0 0 U 50 50 1 1 W N ENDDRAW ENDDEF # # power_+3V3 # DEF power_+3V3 #PWR 0 0 Y Y 1 F P F0 "#PWR" 0 -150 50 H I C CNN F1 "power_+3V3" 0 140 50 H V C CNN F2 "" 0 0 50 H I C CNN F3 "" 0 0 50 H I C CNN ALIAS +3.3V DRAW P 2 0 1 0 -30 50 0 100 N P 2 0 1 0 0 0 0 100 N P 2 0 1 0 0 100 30 50 N X +3V3 1 0 0 0 U 50 50 1 1 W N ENDDRAW ENDDEF # # power_GND # DEF power_GND #PWR 0 0 Y Y 1 F P F0 "#PWR" 0 -250 50 H I C CNN F1 "power_GND" 0 -150 50 H V C CNN F2 "" 0 0 50 H I C CNN F3 "" 0 0 50 H I C CNN DRAW P 6 0 1 0 0 0 0 -50 50 -50 0 -100 -50 -50 0 -50 N X GND 1 0 0 0 D 50 50 1 1 W N ENDDRAW ENDDEF # #End Library
{ "repo_name": "jfedor2/pmw3360-breakout", "stars": "57", "repo_language": "None", "file_name": "PMW3360.dcm", "mime_type": "text/plain" }
update=2021-10-07 01:08:09 version=1 last_client=kicad [general] version=1 RootSch= BoardNm= [cvpcb] version=1 NetIExt=net [eeschema] version=1 LibDir= [eeschema/libraries] [pcbnew] version=1 PageLayoutDescrFile= LastNetListRead= CopperLayerCount=2 BoardThickness=1.6 AllowMicroVias=0 AllowBlindVias=0 RequireCourtyardDefinitions=0 ProhibitOverlappingCourtyards=1 MinTrackWidth=0.2 MinViaDiameter=0.4 MinViaDrill=0.3 MinMicroViaDiameter=0.2 MinMicroViaDrill=0.09999999999999999 MinHoleToHole=0.25 TrackWidth1=0.25 ViaDiameter1=0.8 ViaDrill1=0.4 dPairWidth1=0.2 dPairGap1=0.25 dPairViaGap1=0.25 SilkLineWidth=0.12 SilkTextSizeV=1 SilkTextSizeH=1 SilkTextSizeThickness=0.15 SilkTextItalic=0 SilkTextUpright=1 CopperLineWidth=0.2 CopperTextSizeV=1.5 CopperTextSizeH=1.5 CopperTextThickness=0.3 CopperTextItalic=0 CopperTextUpright=1 EdgeCutLineWidth=0.05 CourtyardLineWidth=0.05 OthersLineWidth=0.15 OthersTextSizeV=1 OthersTextSizeH=1 OthersTextSizeThickness=0.15 OthersTextItalic=0 OthersTextUpright=1 SolderMaskClearance=0 SolderMaskMinWidth=0 SolderPasteClearance=0 SolderPasteRatio=-0 [pcbnew/Layer.F.Cu] Name=F.Cu Type=0 Enabled=1 [pcbnew/Layer.In1.Cu] Name=In1.Cu Type=0 Enabled=0 [pcbnew/Layer.In2.Cu] Name=In2.Cu Type=0 Enabled=0 [pcbnew/Layer.In3.Cu] Name=In3.Cu Type=0 Enabled=0 [pcbnew/Layer.In4.Cu] Name=In4.Cu Type=0 Enabled=0 [pcbnew/Layer.In5.Cu] Name=In5.Cu Type=0 Enabled=0 [pcbnew/Layer.In6.Cu] Name=In6.Cu Type=0 Enabled=0 [pcbnew/Layer.In7.Cu] Name=In7.Cu Type=0 Enabled=0 [pcbnew/Layer.In8.Cu] Name=In8.Cu Type=0 Enabled=0 [pcbnew/Layer.In9.Cu] Name=In9.Cu Type=0 Enabled=0 [pcbnew/Layer.In10.Cu] Name=In10.Cu Type=0 Enabled=0 [pcbnew/Layer.In11.Cu] Name=In11.Cu Type=0 Enabled=0 [pcbnew/Layer.In12.Cu] Name=In12.Cu Type=0 Enabled=0 [pcbnew/Layer.In13.Cu] Name=In13.Cu Type=0 Enabled=0 [pcbnew/Layer.In14.Cu] Name=In14.Cu Type=0 Enabled=0 [pcbnew/Layer.In15.Cu] Name=In15.Cu Type=0 Enabled=0 [pcbnew/Layer.In16.Cu] Name=In16.Cu Type=0 Enabled=0 [pcbnew/Layer.In17.Cu] Name=In17.Cu Type=0 Enabled=0 [pcbnew/Layer.In18.Cu] Name=In18.Cu Type=0 Enabled=0 [pcbnew/Layer.In19.Cu] Name=In19.Cu Type=0 Enabled=0 [pcbnew/Layer.In20.Cu] Name=In20.Cu Type=0 Enabled=0 [pcbnew/Layer.In21.Cu] Name=In21.Cu Type=0 Enabled=0 [pcbnew/Layer.In22.Cu] Name=In22.Cu Type=0 Enabled=0 [pcbnew/Layer.In23.Cu] Name=In23.Cu Type=0 Enabled=0 [pcbnew/Layer.In24.Cu] Name=In24.Cu Type=0 Enabled=0 [pcbnew/Layer.In25.Cu] Name=In25.Cu Type=0 Enabled=0 [pcbnew/Layer.In26.Cu] Name=In26.Cu Type=0 Enabled=0 [pcbnew/Layer.In27.Cu] Name=In27.Cu Type=0 Enabled=0 [pcbnew/Layer.In28.Cu] Name=In28.Cu Type=0 Enabled=0 [pcbnew/Layer.In29.Cu] Name=In29.Cu Type=0 Enabled=0 [pcbnew/Layer.In30.Cu] Name=In30.Cu Type=0 Enabled=0 [pcbnew/Layer.B.Cu] Name=B.Cu Type=0 Enabled=1 [pcbnew/Layer.B.Adhes] Enabled=1 [pcbnew/Layer.F.Adhes] Enabled=1 [pcbnew/Layer.B.Paste] Enabled=1 [pcbnew/Layer.F.Paste] Enabled=1 [pcbnew/Layer.B.SilkS] Enabled=1 [pcbnew/Layer.F.SilkS] Enabled=1 [pcbnew/Layer.B.Mask] Enabled=1 [pcbnew/Layer.F.Mask] Enabled=1 [pcbnew/Layer.Dwgs.User] Enabled=1 [pcbnew/Layer.Cmts.User] Enabled=1 [pcbnew/Layer.Eco1.User] Enabled=1 [pcbnew/Layer.Eco2.User] Enabled=1 [pcbnew/Layer.Edge.Cuts] Enabled=1 [pcbnew/Layer.Margin] Enabled=1 [pcbnew/Layer.B.CrtYd] Enabled=1 [pcbnew/Layer.F.CrtYd] Enabled=1 [pcbnew/Layer.B.Fab] Enabled=1 [pcbnew/Layer.F.Fab] Enabled=1 [pcbnew/Layer.Rescue] Enabled=0 [pcbnew/Netclasses] [pcbnew/Netclasses/Default] Name=Default Clearance=0.2 TrackWidth=0.25 ViaDiameter=0.8 ViaDrill=0.4 uViaDiameter=0.3 uViaDrill=0.1 dPairWidth=0.2 dPairGap=0.25 dPairViaGap=0.25 [schematic_editor] version=1 PageLayoutDescrFile= PlotDirectoryName= SubpartIdSeparator=0 SubpartFirstId=65 NetFmtName= SpiceAjustPassiveValues=0 LabSize=50 ERC_TestSimilarLabels=1
{ "repo_name": "jfedor2/pmw3360-breakout", "stars": "57", "repo_language": "None", "file_name": "PMW3360.dcm", "mime_type": "text/plain" }
(sym_lib_table (lib (name PMW3360)(type Legacy)(uri ${KIPRJMOD}/PMW3360.pretty/PMW3360.lib)(options "")(descr "")) )
{ "repo_name": "jfedor2/pmw3360-breakout", "stars": "57", "repo_language": "None", "file_name": "PMW3360.dcm", "mime_type": "text/plain" }
(module PMW3360 (layer F.Cu) (tedit 615CA4F0) (fp_text reference REF** (at 5.35 -3.925) (layer F.SilkS) (effects (font (size 1 1) (thickness 0.15))) ) (fp_text value PMW3360 (at 5.35 13.375) (layer F.Fab) (effects (font (size 1 1) (thickness 0.15))) ) (fp_line (start 1.05 -2.78) (end 1.05 14.48) (layer Dwgs.User) (width 0.12)) (fp_line (start 1.05 14.48) (end 9.65 14.48) (layer Dwgs.User) (width 0.12)) (fp_line (start 9.65 -2.78) (end 9.65 14.48) (layer Dwgs.User) (width 0.12)) (fp_line (start 1.05 -2.78) (end 9.65 -2.78) (layer Dwgs.User) (width 0.12)) (fp_line (start 2.975 -5.21) (end 7.725 -5.21) (layer B.CrtYd) (width 0.05)) (fp_line (start -4.075 1.84) (end -4.075 8.89) (layer B.CrtYd) (width 0.05)) (fp_line (start 2.975 15.94) (end 7.725 15.94) (layer B.CrtYd) (width 0.05)) (fp_line (start 14.775 1.84) (end 14.775 8.89) (layer B.CrtYd) (width 0.05)) (fp_circle (center -1.225 0) (end -1.025 0) (layer F.SilkS) (width 0.4)) (fp_line (start 5.35 4.66) (end 5.35 6.66) (layer Dwgs.User) (width 0.12)) (fp_line (start 4.35 5.66) (end 6.35 5.66) (layer Dwgs.User) (width 0.12)) (fp_arc (start 7.725 8.89) (end 14.775 8.89) (angle 90) (layer B.CrtYd) (width 0.05)) (fp_arc (start 7.725 1.84) (end 14.775 1.84) (angle -90) (layer B.CrtYd) (width 0.05)) (fp_arc (start 2.975 1.84) (end -4.075 1.84) (angle 90) (layer B.CrtYd) (width 0.05)) (fp_arc (start 2.975 8.89) (end -4.075 8.89) (angle -90) (layer B.CrtYd) (width 0.05)) (pad 1 thru_hole rect (at 0 0) (size 1.2 1.2) (drill 0.7) (layers *.Cu *.Mask)) (pad 2 thru_hole circle (at 0 1.78) (size 1.2 1.2) (drill 0.7) (layers *.Cu *.Mask)) (pad 3 thru_hole circle (at 0 3.56) (size 1.2 1.2) (drill 0.7) (layers *.Cu *.Mask)) (pad 4 thru_hole circle (at 0 5.34) (size 1.2 1.2) (drill 0.7) (layers *.Cu *.Mask)) (pad 5 thru_hole circle (at 0 7.12) (size 1.2 1.2) (drill 0.7) (layers *.Cu *.Mask)) (pad 6 thru_hole circle (at 0 8.9) (size 1.2 1.2) (drill 0.7) (layers *.Cu *.Mask)) (pad 7 thru_hole circle (at 0 10.68) (size 1.2 1.2) (drill 0.7) (layers *.Cu *.Mask)) (pad 8 thru_hole circle (at 0 12.46) (size 1.2 1.2) (drill 0.7) (layers *.Cu *.Mask)) (pad 16 thru_hole circle (at 10.7 0.89) (size 1.2 1.2) (drill 0.7) (layers *.Cu *.Mask)) (pad 15 thru_hole circle (at 10.7 2.67) (size 1.2 1.2) (drill 0.7) (layers *.Cu *.Mask)) (pad 14 thru_hole circle (at 10.7 4.45) (size 1.2 1.2) (drill 0.7) (layers *.Cu *.Mask)) (pad 13 thru_hole circle (at 10.7 6.23) (size 1.2 1.2) (drill 0.7) (layers *.Cu *.Mask)) (pad 12 thru_hole circle (at 10.7 8.01) (size 1.2 1.2) (drill 0.7) (layers *.Cu *.Mask)) (pad 11 thru_hole circle (at 10.7 9.79) (size 1.2 1.2) (drill 0.7) (layers *.Cu *.Mask)) (pad 10 thru_hole circle (at 10.7 11.57) (size 1.2 1.2) (drill 0.7) (layers *.Cu *.Mask)) (pad 9 thru_hole circle (at 10.7 13.35) (size 1.2 1.2) (drill 0.7) (layers *.Cu *.Mask)) )
{ "repo_name": "jfedor2/pmw3360-breakout", "stars": "57", "repo_language": "None", "file_name": "PMW3360.dcm", "mime_type": "text/plain" }
EESchema-LIBRARY Version 2.4 #encoding utf-8 # # PMW3360 # DEF PMW3360 U 0 40 Y Y 1 F N F0 "U" -400 600 50 H V L CNN F1 "PMW3360" 400 -500 50 H V R CNN F2 "" -500 600 50 H I C CNN F3 "" -500 600 50 H I C CNN DRAW S -400 500 400 -400 0 1 0 f X NC 1 -500 400 100 R 50 50 0 0 N X SCLK 10 500 -200 100 L 50 50 0 0 U X MOSI 11 500 -100 100 L 50 50 0 0 U X MISO 12 500 0 100 L 50 50 0 0 U X NCS 13 500 100 100 L 50 50 0 0 U X NC 14 500 200 100 L 50 50 0 0 N X LED_P 15 500 300 100 L 50 50 0 0 U X NC 16 500 400 100 L 50 50 0 0 N X NC 2 -500 300 100 R 50 50 0 0 N X VDDPIX 3 -500 200 100 R 50 50 0 0 U X VDD 4 -500 100 100 R 50 50 0 0 U X VDDIO 5 -500 0 100 R 50 50 0 0 U X NC 6 -500 -100 100 R 50 50 0 0 N X NRESET 7 -500 -200 100 R 50 50 0 0 U X GND 8 -500 -300 100 R 50 50 0 0 U X MOTION 9 500 -300 100 L 50 50 0 0 U ENDDRAW ENDDEF # #End Library
{ "repo_name": "jfedor2/pmw3360-breakout", "stars": "57", "repo_language": "None", "file_name": "PMW3360.dcm", "mime_type": "text/plain" }
EESchema-DOCLIB Version 2.0 # #End Doc Library
{ "repo_name": "jfedor2/pmw3360-breakout", "stars": "57", "repo_language": "None", "file_name": "PMW3360.dcm", "mime_type": "text/plain" }
[ generate sbox static const u8 m1[8][8] = { // S1 (AES) linear transform { 1, 0, 0, 0, 1, 1, 1, 1 }, { 1, 1, 0, 0, 0, 1, 1, 1 }, { 1, 1, 1, 0, 0, 0, 1, 1 }, { 1, 1, 1, 1, 0, 0, 0, 1 }, { 1, 1, 1, 1, 1, 0, 0, 0 }, { 0, 1, 1, 1, 1, 1, 0, 0 }, { 0, 0, 1, 1, 1, 1, 1, 0 }, { 0, 0, 0, 1, 1, 1, 1, 1 } }; static u8 matmul8(u8 x, const u8 m[8][8]) { int i, j; u8 y; y = 0; for (i = 0; i < 8; i++) { if (x & (1 << i)) { for (j = 0; j < 8; j++) y ^= m[j][i] << j; } } return y; } int i, x, j; u8 gf_log[256], gf_exp[256]; x = 1; for (i = 0; i < 256; i++) { // exp and log in GF(2^8) gf_exp[i] = x; gf_log[x] = i; x ^= x << 1; if (x & 0x100) x ^= 0x11B; // irreducible polynomial } for (i = 0; i < 256; i++) { x = i; if (x > 1) x = gf_exp[ 255 - gf_log[x] ]; // x^-1 sbox[i] = matmul8(x, m1) ^ 0x63; } [ Inverse using sbox. for (i=0; i<256; i++) { sbox_inv[sbox[i]] = i; }
{ "repo_name": "odzhan/aes_dust", "stars": "65", "repo_language": "Assembly", "file_name": "test.c", "mime_type": "text/x-c" }
/** This is free and unencumbered software released into the public domain. Anyone is free to copy, modify, publish, use, compile, sell, or distribute this software, either in source code form or as a compiled binary, for any purpose, commercial or non-commercial, and by any means. In jurisdictions that recognize copyright laws, the author or authors of this software dedicate any and all copyright interest in the software to the public domain. We make this dedication for the benefit of the public at large and to the detriment of our heirs and successors. We intend this dedication to be an overt act of relinquishment in perpetuity of all present and future rights to this software under copyright law. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. For more information, please refer to <http://unlicense.org/> */ #include "aes.h" // Multiplication over GF(2**8) #if AES_INT_LEN == 1 #define M(x)(((x)<<1)^((-((x)>>7))&0x1b)) #else u32 M(u32 x) { u32 t=x&0x80808080; return((x^t)<<1)^((t>>7)*0x1b); } #endif // // Define DYNAMIC to use a function or generate the table at runtime. // Generating table at runtime works, but is mainly provided as a reference. // #ifndef DYNAMIC #ifdef RUNTIME static u8 sbox[256]={0}; static u8 S(u8 byte) { // already initialised? return byte if(sbox[0] != 0) return sbox[byte]; u32 x, i; u8 gf_exp[256]; x=1; for (i=0; i<256; i++) { gf_exp[i] = x; x ^= M(x); } sbox[0] = 0x63; for (i=0; i<255; i++) { x = gf_exp[255 - i]; x |= x << 8; x ^= (x >> 4) ^ (x >> 5) ^ (x >> 6) ^ (x >> 7); sbox[gf_exp[i]] = (x ^ 0x63) & 0xFF; } return sbox[byte]; } #else u8 sbox[256]= {0x63, 0x7c, 0x77, 0x7b, 0xf2, 0x6b, 0x6f, 0xc5, 0x30, 0x01, 0x67, 0x2b, 0xfe, 0xd7, 0xab, 0x76, 0xca, 0x82, 0xc9, 0x7d, 0xfa, 0x59, 0x47, 0xf0, 0xad, 0xd4, 0xa2, 0xaf, 0x9c, 0xa4, 0x72, 0xc0, 0xb7, 0xfd, 0x93, 0x26, 0x36, 0x3f, 0xf7, 0xcc, 0x34, 0xa5, 0xe5, 0xf1, 0x71, 0xd8, 0x31, 0x15, 0x04, 0xc7, 0x23, 0xc3, 0x18, 0x96, 0x05, 0x9a, 0x07, 0x12, 0x80, 0xe2, 0xeb, 0x27, 0xb2, 0x75, 0x09, 0x83, 0x2c, 0x1a, 0x1b, 0x6e, 0x5a, 0xa0, 0x52, 0x3b, 0xd6, 0xb3, 0x29, 0xe3, 0x2f, 0x84, 0x53, 0xd1, 0x00, 0xed, 0x20, 0xfc, 0xb1, 0x5b, 0x6a, 0xcb, 0xbe, 0x39, 0x4a, 0x4c, 0x58, 0xcf, 0xd0, 0xef, 0xaa, 0xfb, 0x43, 0x4d, 0x33, 0x85, 0x45, 0xf9, 0x02, 0x7f, 0x50, 0x3c, 0x9f, 0xa8, 0x51, 0xa3, 0x40, 0x8f, 0x92, 0x9d, 0x38, 0xf5, 0xbc, 0xb6, 0xda, 0x21, 0x10, 0xff, 0xf3, 0xd2, 0xcd, 0x0c, 0x13, 0xec, 0x5f, 0x97, 0x44, 0x17, 0xc4, 0xa7, 0x7e, 0x3d, 0x64, 0x5d, 0x19, 0x73, 0x60, 0x81, 0x4f, 0xdc, 0x22, 0x2a, 0x90, 0x88, 0x46, 0xee, 0xb8, 0x14, 0xde, 0x5e, 0x0b, 0xdb, 0xe0, 0x32, 0x3a, 0x0a, 0x49, 0x06, 0x24, 0x5c, 0xc2, 0xd3, 0xac, 0x62, 0x91, 0x95, 0xe4, 0x79, 0xe7, 0xc8, 0x37, 0x6d, 0x8d, 0xd5, 0x4e, 0xa9, 0x6c, 0x56, 0xf4, 0xea, 0x65, 0x7a, 0xae, 0x08, 0xba, 0x78, 0x25, 0x2e, 0x1c, 0xa6, 0xb4, 0xc6, 0xe8, 0xdd, 0x74, 0x1f, 0x4b, 0xbd, 0x8b, 0x8a, 0x70, 0x3e, 0xb5, 0x66, 0x48, 0x03, 0xf6, 0x0e, 0x61, 0x35, 0x57, 0xb9, 0x86, 0xc1, 0x1d, 0x9e, 0xe1, 0xf8, 0x98, 0x11, 0x69, 0xd9, 0x8e, 0x94, 0x9b, 0x1e, 0x87, 0xe9, 0xce, 0x55, 0x28, 0xdf, 0x8c, 0xa1, 0x89, 0x0d, 0xbf, 0xe6, 0x42, 0x68, 0x41, 0x99, 0x2d, 0x0f, 0xb0, 0x54, 0xbb, 0x16 }; #define S(x) sbox[x] #endif #else // SubByte as a function. Very slow! static u8 S(u8 x) { u8 i,y,c; if(x) { for(c=i=0,y=1;--i;y=(!c&&y==x)?c=1:y,y^=M(y)); x=y; for(i=0;i<4;i++) { x^=y=(y<<1)|(y>>7); } } return x^99; } #endif #if AES_INT_LEN == 1 // 128-bit version for 8-bit architectures void aes_ecb(void *mk, void *data) { u8 a,b,c,d,i,j,t,w,x[AES_BLK_LEN],k[AES_KEY_LEN],rc=1,*s=(u8*)data; // copy 128-bit plain text + 128-bit master key to x for(i=0;i<AES_BLK_LEN;i++) { x[i]=s[i], k[i]=((u8*)mk)[i]; } for(;;) { // AddRoundKey for(i=0;i<AES_BLK_LEN;i++) { s[i]=x[i]^k[i]; } // if round 11, stop if(rc==108)break; // AddConstant k[0]^=rc; rc=M(rc); // ExpandKey for(i=0;i<4;i++) { k[i]^=S(k[12+((i-3)&3)]); } for(i=0;i<12;i++) { k[i+4]^=k[i]; } // SubBytes and ShiftRows for(w=i=0;i<AES_BLK_LEN;i++) { ((u8*)x)[w]=S(((u8*)s)[i]),w=(w-3)&15; } // if not round 11 if(rc!=108) { // MixColumns for(i=0;i<AES_BLK_LEN;i+=4) { a=x[i],b=x[i+1],c=x[i+2],d=x[i+3]; for(j=0;j<4;j++) { x[i+j]^=a^b^c^d^M(a^b); t=a,a=b,b=c,c=d,d=t; } } } } } #else // 32-bit or 64-bit versions #if AES_KEY_LEN == 32 void aes_ecb(void *mk, void *data) { u32 c=1,i,r=0,w,x[4],k[8], *s=(u32*)data; // copy 128-bit plain text for(i=0;i<4;i++) { x[i] = s[i]; } // copy 256-bit master key for(i=0;i<8;i++) { k[i] = ((u32*)mk)[i]; } for(;;) { // 1st part of ExpandKey w=k[r?3:7]; for(i=0;i<4;i++) { w=(w&-256) | S(w&255),w=R(w,8); } // AddConstant, update constant if(!r)w=R(w,8)^(c<<SHF_C),c=M(c); // AddRoundKey, 2nd part of ExpandKey for(i=0;i<4;i++) { ((u32*)s)[i]=x[i]^k[r*4+i], w=k[r*4+i]^=w; } // if round 15, stop if(c==27) break; r=(r+1)&1; // SubBytes and ShiftRows for(w=i=0;i<AES_BLK_LEN;i++) { ((u8*)x)[w] = S(((u8*)s)[i]), w=(w-3)&15; } // if not round 15, MixColumns if((c!=128) | r) { for(i=0;i<4;i++) { w=x[i],x[i]=R(w,8)^R(w,16)^R(w,24)^M(R(w,8)^w); } } } } #else void aes_ecb(void *mk, void *data) { u32 c=1,i,w,x[4],k[4],*s=(u32*)data; // copy 128-bit plain text + 128-bit master key to x for(i=0;i<4;i++) { x[i]=s[i], k[i]=((u32*)mk)[i]; } for(;;) { // 1st part of ExpandKey w=k[3]; for(i=0;i<4;i++) { w=(w&-256)|S(w&255), w=R(w,8); } // AddConstant, AddRoundKey, 2nd part of ExpandKey w=R(w, 8)^(c<<SHF_C); for(i=0;i<4;i++) { ((u32*)s)[i]=x[i]^k[i], w=k[i]^=w; } // if round 11, stop if(c==108)break; // update constant c=M(c); // SubBytes and ShiftRows for(w=i=0;i<AES_BLK_LEN;i++) { ((u8*)x)[w] = S(((u8*)s)[i]), w=(w-3)&15; } // if not round 11, MixColumns if(c!=108) { for(i=0;i<4;i++) { w=x[i],x[i]=R(w,8)^R(w,16)^R(w,24)^M(R(w,8)^w); } } } } #endif #endif #ifdef CTR // Encrypt using Counter (CTR) mode void aes_ctr(u32 len, void *ctr, void *data, void *mk) { u8 i, r, t[AES_BLK_LEN], *p=data, *c=ctr; while(len) { // copy counter+nonce to local buffer for(i=0;i<AES_BLK_LEN;i++)t[i] = c[i]; // encrypt t aes_ecb(mk, t); // XOR plaintext with ciphertext r = len > AES_BLK_LEN ? AES_BLK_LEN : len; for(i=0;i<r;i++) p[i] ^= t[i]; // update length + position len -= r; p += r; // update counter. for(i=AES_BLK_LEN;i!=0;i--) if(++c[i-1]) break; } } #endif #ifdef OFB // Encrypt using Output feedback (OFB) mode. void aes_ofb(u32 len, void *iv, void *data, void *mk) { u8 i, r, t[AES_BLK_LEN], *p=data, *c=iv; // copy IV to local buffer for(i=0;i<AES_BLK_LEN;i++)t[i] = c[i]; while(len) { // encrypt t aes_ecb(mk, t); // XOR plaintext with ciphertext r = len > AES_BLK_LEN ? AES_BLK_LEN : len; for(i=0;i<r;i++) p[i] ^= t[i]; // update length + position len -= r; p += r; } } #endif
{ "repo_name": "odzhan/aes_dust", "stars": "65", "repo_language": "Assembly", "file_name": "test.c", "mime_type": "text/x-c" }
test: cl /DTEST /DOFB /DCTR /DYNAMIC /DRUNTIME test128.c aes.c mctest: cl /DTEST /DOFB /DCTR mctest.c aes.c clean: del mctest.exe test128.exe test128.obj mctest.obj aes.obj
{ "repo_name": "odzhan/aes_dust", "stars": "65", "repo_language": "Assembly", "file_name": "test.c", "mime_type": "text/x-c" }
/** This is free and unencumbered software released into the public domain. Anyone is free to copy, modify, publish, use, compile, sell, or distribute this software, either in source code form or as a compiled binary, for any purpose, commercial or non-commercial, and by any means. In jurisdictions that recognize copyright laws, the author or authors of this software dedicate any and all copyright interest in the software to the public domain. We make this dedication for the benefit of the public at large and to the detriment of our heirs and successors. We intend this dedication to be an overt act of relinquishment in perpetuity of all present and future rights to this software under copyright law. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. For more information, please refer to <http://unlicense.org/> */ #ifndef AES_H #define AES_H #define AES_INT_LEN 4 // 1 = 8-bit, 4 for anything else #define AES_KEY_LEN 16 // 16 = 128-bit, 32 = 256-bit #define AES_BLK_LEN 16 // always 16 for 128-bit blocks #if AES_INT_LEN == 1 && AES_KEY_LEN == 32 #error "AES-256 for 8-bit CPUs is currently unsupported." #endif #if AES_KEY_LEN == 32 && defined(ASM) #error "AES-256 is not supported by the assembly code." #endif #if !defined(__LITTLE_ENDIAN__) && !defined(__BIG_ENDIAN__) # if defined(__BYTE_ORDER__) && (__BYTE_ORDER__ == __ORDER_BIG_ENDIAN__) || \ defined(__BYTE_ORDER) && (__BYTE_ORDER == __BIG_ENDIAN) || \ defined(_BYTE_ORDER) && (_BYTE_ORDER == _BIG_ENDIAN) || \ defined(BYTE_ORDER) && (BYTE_ORDER) == BIG_ENDIAN || \ defined(_BIG_ENDIAN) || \ defined(__ARMEB__) || defined(__THUMBEB__) || defined(__AARCH64EB__) || \ defined(_MIBSEB) || defined(__MIBSEB) || defined(__MIBSEB__) || \ defined(_M_PPC) //#warning "__BIG_ENDIAN__" # define __BIG_ENDIAN__ # endif # if defined(__BYTE_ORDER__) && (__BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__) /* gcc */ || \ defined(__BYTE_ORDER) && (__BYTE_ORDER == __LITTLE_ENDIAN) /* linux header */ || \ defined(_BYTE_ORDER) && (_BYTE_ORDER == _LITTLE_ENDIAN) || \ defined(BYTE_ORDER) && (BYTE_ORDER == LITTLE_ENDIAN) /* mingw header */ || \ defined(_LITTLE_ENDIAN) || /* solaris */ \ defined(__ARMEL__) || defined(__THUMBEL__) || defined(__AARCH64EL__) || \ defined(_MIPSEL) || defined(__MIPSEL) || defined(__MIPSEL__) || \ defined(_M_IX86) || defined(_M_X64) || defined(_M_IA64) || /* msvc for intel processors */ \ defined(_M_ARM) /* msvc code on arm executes in little endian mode */ //#warning "__LITTLE_ENDIAN__" # define __LITTLE_ENDIAN__ # endif #endif #if defined(__LITTLE_ENDIAN__) && defined(__BIG_ENDIAN__) # error Both __LITTLE_ENDIAN__ and __BIG_ENDIAN__ have been defined!!! #endif typedef unsigned char u8; typedef char s8; #if AES_INT_LEN == 1 typedef unsigned char u32; #else #if defined(__BIG_ENDIAN__) #define R(v,n)(((v)<<(n))|((v)>>(32-(n)))) #define SHF_C 24 #else #define R(v,n)(((v)>>(n))|((v)<<(32-(n)))) #define SHF_C 0 #endif typedef unsigned int u32; #endif #ifdef __cplusplus extern "C" { #endif #ifdef ASM // s should point to 128-bit data and 128-bit key void aes_ecb(void *s); #else // mk should point to a 128-bit or 256-bit key // data should point to a 128-bit block of plaintext to encrypt void aes_ecb(void *mk, void *data); #endif // len is the amount of bytes to encrypt // ctr is the 128-bit counter and nonce // data is the plaintext or ciphertext // mk is the 128-bit or 256-bit master key void aes_ctr(u32 len, void *ctr, void *data, void *mk); // iv is the 128-bit initialisation vector. void aes_ofb(u32 len, void *iv, void *data, void *mk); #ifdef __cplusplus } #endif #endif
{ "repo_name": "odzhan/aes_dust", "stars": "65", "repo_language": "Assembly", "file_name": "test.c", "mime_type": "text/x-c" }
MACHINE := $(shell uname -m) ifeq ($(MACHINE), i386) SRC := asm/x86/ax.s else ifeq ($(MACHINE), x86_64) SRC := asm/amd64/ax.s else ifeq ($(MACHINE), armv7l) SRC := asm/arm32/ax.s else ifeq ($(MACHINE), aarch64) SRC := asm/arm64/ax.s endif all: clean gcc -Wall -Os -DCTR -DOFB test128.c aes.c -otest128 mc: clean gcc -Wall -Os mctest.c aes.c -omctest ecb: clean gcc -Wall -fPIC -DCTR -Os -c aes.c gcc -Wall -Os test128.c aes.o -otest128 ar rcs libaes.a aes.o ctr: clean gcc -Wall -fPIC -DCTR -Os -c aes.c gcc -Wall -DCTR -Os test128.c aes.o -otest128 ar rcs libaes.a aes.o ecb_asm: clean as $(SRC) -oax.o ar rcs libaes.a ax.o gcc -Wall -DASM -Os mctest.c ax.o -omctest gcc -Wall -DASM -Os test128.c ax.o -otest128 ctr_asm: clean as --defsym CTR=1 $(SRC) -oax.o ar rcs libaes.a ax.o gcc -Wall -DASM -Os mctest.c ax.o -omctest gcc -Wall -DCTR -DASM -Os test128.c ax.o -otest128 dyn_asm: clean as --defsym DYNAMIC=1 --defsym CTR=1 $(SRC) -oax.o ar rcs libaes.a ax.o gcc -Wall -fPIC -DASM -Os mctest.c ax.o -omctest gcc -Wall -fPIC -DCTR -DASM -Os test128.c ax.o -otest128 clean: rm -rf ax.o aes.o mctest.o test128.o mctest test128 libaes.a
{ "repo_name": "odzhan/aes_dust", "stars": "65", "repo_language": "Assembly", "file_name": "test.c", "mime_type": "text/x-c" }
/** This is free and unencumbered software released into the public domain. Anyone is free to copy, modify, publish, use, compile, sell, or distribute this software, either in source code form or as a compiled binary, for any purpose, commercial or non-commercial, and by any means. In jurisdictions that recognize copyright laws, the author or authors of this software dedicate any and all copyright interest in the software to the public domain. We make this dedication for the benefit of the public at large and to the detriment of our heirs and successors. We intend this dedication to be an overt act of relinquishment in perpetuity of all present and future rights to this software under copyright law. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. For more information, please refer to <http://unlicense.org/> */ // Test unit for AES-128 ECB and CTR mode // Odzhan #include <stdio.h> #include <string.h> #include <stdint.h> #include "aes.h" #if AES_KEY_LEN == 32 #error "Only AES-128 is supported by this test unit. Set AES_KEY_LEN in aes.h to 16." #endif // 4 128-bit keys uint8_t ecb_keys[4][16]={ {0x2b, 0x7e, 0x15, 0x16, 0x28, 0xae, 0xd2, 0xa6, 0xab, 0xf7, 0x15, 0x88, 0x09, 0xcf, 0x4f, 0x3c}, {0x2b, 0x7e, 0x15, 0x16, 0x28, 0xae, 0xd2, 0xa6, 0xab, 0xf7, 0x15, 0x88, 0x09, 0xcf, 0x4f, 0x3c}, {0x2b, 0x7e, 0x15, 0x16, 0x28, 0xae, 0xd2, 0xa6, 0xab, 0xf7, 0x15, 0x88, 0x09, 0xcf, 0x4f, 0x3c}, {0x2b, 0x7e, 0x15, 0x16, 0x28, 0xae, 0xd2, 0xa6, 0xab, 0xf7, 0x15, 0x88, 0x09, 0xcf, 0x4f, 0x3c} }; // 4 128-bit plain texts uint8_t ecb_plain[4][16]={ {0x6b, 0xc1, 0xbe, 0xe2, 0x2e, 0x40, 0x9f, 0x96, 0xe9, 0x3d, 0x7e, 0x11, 0x73, 0x93, 0x17, 0x2a}, {0xae, 0x2d, 0x8a, 0x57, 0x1e, 0x03, 0xac, 0x9c, 0x9e, 0xb7, 0x6f, 0xac, 0x45, 0xaf, 0x8e, 0x51}, {0x30, 0xc8, 0x1c, 0x46, 0xa3, 0x5c, 0xe4, 0x11, 0xe5, 0xfb, 0xc1, 0x19, 0x1a, 0x0a, 0x52, 0xef}, {0xf6, 0x9f, 0x24, 0x45, 0xdf, 0x4f, 0x9b, 0x17, 0xad, 0x2b, 0x41, 0x7b, 0xe6, 0x6c, 0x37, 0x10} }; // 4 128-bit cipher texts uint8_t ecb_cipher[4][16]={ {0x3a, 0xd7, 0x7b, 0xb4, 0x0d, 0x7a, 0x36, 0x60, 0xa8, 0x9e, 0xca, 0xf3, 0x24, 0x66, 0xef, 0x97}, {0xf5, 0xd3, 0xd5, 0x85, 0x03, 0xb9, 0x69, 0x9d, 0xe7, 0x85, 0x89, 0x5a, 0x96, 0xfd, 0xba, 0xaf}, {0x43, 0xb1, 0xcd, 0x7f, 0x59, 0x8e, 0xce, 0x23, 0x88, 0x1b, 0x00, 0xe3, 0xed, 0x03, 0x06, 0x88}, {0x7b, 0x0c, 0x78, 0x5e, 0x27, 0xe8, 0xad, 0x3f, 0x82, 0x23, 0x20, 0x71, 0x04, 0x72, 0x5d, 0xd4} }; uint8_t ctr_key[16]={0x2b,0x7e,0x15,0x16,0x28,0xae,0xd2,0xa6,0xab,0xf7,0x15,0x88,0x09,0xcf,0x4f,0x3c}; uint8_t ctr_tv[16]={0xf0,0xf1,0xf2,0xf3,0xf4,0xf5,0xf6,0xf7,0xf8,0xf9,0xfa,0xfb,0xfc,0xfd,0xfe,0xff}; uint8_t ctr_plain[4][16]={ {0x6b,0xc1,0xbe,0xe2,0x2e,0x40,0x9f,0x96,0xe9,0x3d,0x7e,0x11,0x73,0x93,0x17,0x2a}, {0xae,0x2d,0x8a,0x57,0x1e,0x03,0xac,0x9c,0x9e,0xb7,0x6f,0xac,0x45,0xaf,0x8e,0x51}, {0x30,0xc8,0x1c,0x46,0xa3,0x5c,0xe4,0x11,0xe5,0xfb,0xc1,0x19,0x1a,0x0a,0x52,0xef}, {0xf6,0x9f,0x24,0x45,0xdf,0x4f,0x9b,0x17,0xad,0x2b,0x41,0x7b,0xe6,0x6c,0x37,0x10}}; uint8_t ctr_cipher[4][16]={ {0x87,0x4d,0x61,0x91,0xb6,0x20,0xe3,0x26,0x1b,0xef,0x68,0x64,0x99,0x0d,0xb6,0xce}, {0x98,0x06,0xf6,0x6b,0x79,0x70,0xfd,0xff,0x86,0x17,0x18,0x7b,0xb9,0xff,0xfd,0xff}, {0x5a,0xe4,0xdf,0x3e,0xdb,0xd5,0xd3,0x5e,0x5b,0x4f,0x09,0x02,0x0d,0xb0,0x3e,0xab}, {0x1e,0x03,0x1d,0xda,0x2f,0xbe,0x03,0xd1,0x79,0x21,0x70,0xa0,0xf3,0x00,0x9c,0xee}}; // // OFB test vectors. // // echo -n -e '\x6b\xc1\xbe\xe2\x2e\x40\x9f\x96\xe9\x3d\x7e\x11\x73\x93\x17\x2a' | openssl enc -e -aes-128-ofb -nosalt -A -K // 2B7E151628AED2A6ABF7158809CF4F3C -iv 000102030405060708090A0B0C0D0E0F | xxd -i uint8_t ofb_key[2][16]={ { 0x2b,0x7e,0x15,0x16,0x28,0xae,0xd2,0xa6,0xab,0xf7,0x15,0x88,0x09,0xcf,0x4f,0x3c}, {0x1f,0x35,0x2c,0x07,0x3b,0x61,0x08,0xd7,0x2d,0x98,0x10,0xa3,0x09,0x14,0xdf,0xf4}}; uint8_t ofb_iv[2][16]={ { 0x00,0x01,0x02,0x03,0x04,0x05,0x06,0x07,0x08,0x09,0x0a,0x0b,0x0c,0x0d,0x0e,0x0f}, {0xb7,0xbf,0x3a,0x5d,0xf4,0x39,0x89,0xdd,0x97,0xf0,0xfa,0x97,0xeb,0xce,0x2f,0x4a}}; uint8_t ofb_plain[2][16]={ { 0x6b,0xc1,0xbe,0xe2,0x2e,0x40,0x9f,0x96,0xe9,0x3d,0x7e,0x11,0x73,0x93,0x17,0x2a}, {0xae,0x2d,0x8a,0x57,0x1e,0x03,0xac,0x9c,0x9e,0xb7,0x6f,0xac,0x45,0xaf,0x8e,0x51}}; uint8_t ofb_cipher[2][16]={ { 0x3b,0x3f,0xd9,0x2e,0xb7,0x2d,0xad,0x20,0x33,0x34,0x49,0xf8,0xe8,0x3c,0xfb,0x4a}, {0x7a,0x47,0x2d,0xe3,0x24,0x91,0xf9,0x2b,0x4b,0x2c,0x93,0x17,0x28,0x3b,0xb5,0xd4}}; static void bin2hex(char *s, void *p, int len) { int i; printf("%-10s : ", s); for (i=0; i<len; i++) { printf ("%02x ", ((uint8_t*)p)[i]); if ((i & 15) == 15) printf("\n"); } } int main (void) { int i, equ; uint8_t data[16], key[AES_KEY_LEN]; puts ("\n**** AES-128 ECB Test ****\n"); // ecb tests for (i=0; i<4; i++) { memcpy(data, ecb_plain[i], 16); memcpy(key, ecb_keys[i], AES_KEY_LEN); #ifdef ASM uint8_t s[32]; memcpy(s, data, 16); memcpy(&s[16], key, 16); aes_ecb(s); memcpy(data, s, 16); #else aes_ecb(key, data); #endif equ = (memcmp(data, ecb_cipher[i], 16) == 0); bin2hex("key", key, 16); bin2hex("cipher", data, 16); printf("AES-128 ECB Test #%i : %s\n\n", (i+1), equ ? "OK" : "FAILED"); } #ifdef CTR puts ("\n**** AES-128 CTR Test ****\n"); // ctr tests bin2hex("key", ctr_key, 16); for(i=0; i<4; i++) { bin2hex("ctr", ctr_tv, 16); bin2hex("plain", ctr_plain[i], 16); memcpy(data, ctr_plain[i], 16); aes_ctr(16, ctr_tv, data, ctr_key); equ = (memcmp(data, ctr_cipher[i], 16) == 0); bin2hex("cipher", data, 16); printf("AES-128 CTR Test #%i : %s\n\n", (i+1), equ ? "OK" : "FAILED"); } #endif #ifdef OFB puts ("\n**** AES-128 OFB Test ****\n"); for(i=0; i<2; i++) { bin2hex("key", ofb_key[i], 16); bin2hex("iv", ofb_iv[i], 16); bin2hex("plain", ofb_plain[i], 16); bin2hex("cipher", ofb_cipher[i], 16); memcpy(data, ofb_plain[i], 16); aes_ofb(16, ofb_iv[i], data, ofb_key[i]); equ = (memcmp(data, ofb_cipher[i], 16) == 0); bin2hex("result", data, 16); printf("AES-128 OFB Test #%i : %s\n\n", (i+1), equ ? "OK" : "FAILED" ); } #endif return 0; }
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// Monte Carlo test for AES-128 and AES-256 in ECB mode // odzhan #include <stdio.h> #include <string.h> #include <stdint.h> #include "aes.h" // 128-bit or 256-bit? #if AES_KEY_LEN == 32 uint8_t cipher[16]= {0x1F, 0x67, 0x63, 0xDF, 0x80, 0x7A, 0x7E, 0x70, 0x96, 0x0D, 0x4C, 0xD3, 0x11, 0x8E, 0x60, 0x1A }; #else uint8_t cipher[16]= {0xa0, 0x43, 0x77, 0xab, 0xe2, 0x59, 0xb0, 0xd0, 0xb5, 0xba, 0x2d, 0x40, 0xa5, 0x01, 0x97, 0x1b }; #endif void bin2hex(int iter, void *bin, int len) { int i; uint8_t *p=bin; printf("I=%i : ", iter); for(i=0;i<16;i++) printf("%02x", p[i]); putchar('\n'); } int main(void) { uint8_t key[AES_KEY_LEN], data[AES_BLK_LEN*2]; int i, j, equ; printf("Running Monte Carlo test...\n"); memset(key, 0, sizeof(key)); memset(data, 0, sizeof(data)); for(i=0;i<400;i++) { for(j=0;j<10000;j++) { #if AES_KEY_LEN == 32 memcpy(&data[16], data, 16); #endif #ifdef ASM uint8_t s[32]; memcpy(s, data, 16); memcpy(&s[16], key, 16); aes_ecb(s); memcpy(data, s, 16); #else aes_ecb(key, data); #endif } #if AES_KEY_LEN == 32 for(j=0;j<16;j++) key[j] ^= data[j+16]; for(j=0;j<16;j++) key[j+16] ^= data[j]; #else for(j=0;j<16;j++) key[j] ^= data[j]; #endif } equ = (memcmp(data, cipher, 16)==0); printf("AES-%i ECB mode for %i-bit CPU : %s\n", AES_KEY_LEN*8, AES_INT_LEN*8, equ ? "OK" : "FAILED"); return 0; }
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<h4>AES Block Cipher</h4> <p>AES-dust is a compact Implementation of the AES block cipher with support for 128 and 256-bit keys. The modes of encryption supported are Counter (CTR) and Electronic Code Book (ECB).</p> <p>All code is intentionally optimized for size rather than speed making it suitable for resource constrained environments. It has been tested successfully on 32 and 64-bit architectures (running in little-endian mode) and on an Arduino Uno.</p> <h4>Files</h4> <p>All files with .s and .asm extensions are compatible with the GNU assembler (GAS) except for the files in the MSVC folder that will assemble with either NASM or YASM.</p> <table> <tr> <th>File</th> <th>Description</th> </tr> <tr> <td>aes.c</td> <td>AES-128 and AES-256 in C for 8-bit, 32-bit and 64-bit architectures.</td> </tr> <tr> <td>mctest.c</td> <td>Monte Carlo test for AES-128 and AES-256 in ECB mode.</td> </tr> <tr> <td>test128.c</td> <td>Test unit for AES-128 in ECB and CTR mode.</td> </tr> <tr> <td>asm/x86/ax.s</td> <td>AES-128 in x86 assembly.</td> </tr> <tr> <td>asm/amd64/ax.s</td> <td>AES-128 in AMD64 assembly.</td> </tr> <tr> <td>asm/arm32/ax.s</td> <td>AES-128 in ARM32 assembly.</td> </tr> <tr> <td>asm/arm64/ax.s</td> <td>AES-128 in ARM64 assembly.</td> </tr> </table> <h4>Assembly</h4> <p>The below table shows code sizes for the hand written versions of AES-128</p> <table> <tr> <th>Architecture</th> <th>ECB</th> <th>CTR</th> </tr> <tr> <td>x86</td> <td>188</td> <td>255</td> </tr> <tr> <td>AMD64</td> <td>315</td> <td>339</td> </tr> <tr> <td>ARM32</td> <td>352</td> <td></td> </tr> <tr> <td>ARM64</td> <td>352</td> <td></td> </tr> </table> <h4>C generated assembly</h4> <p>The following table lists the size of assembly code generated by the GNU C compiler.</p> <table> <tr> <th>Architecture</th> <th>ECB</th> <th>CTR</th> </tr> <tr> <td>x86</td> <td>524</td> <td>701</td> </tr> <tr> <td>AMD64</td> <td>451</td> <td>682</td> </tr> <tr> <td>ARM32</td> <td>480</td> <td>668</td> </tr> <tr> <td>ARM64</td> <td>640</td> <td>940</td> </tr> </table> <p>The following table lists the size of assembly code generated by the Microsoft C compiler.</p> <table> <tr> <th>Architecture</th> <th>ECB</th> <th>CTR</th> </tr> <tr> <td>x86</td> <td>358</td> <td>493</td> </tr> <tr> <td>AMD64</td> <td>481</td> <td>693</td> </tr> <tr> <td>ARM32</td> <td>372</td> <td>502</td> </tr> <tr> <td>ARM64</td> <td>536</td> <td>880</td> </tr> </table> <h4>Side channel attacks</h4> <p>AES was never intended to be resistant against side channel attacks. However, if you decide to use this code for an embedded project that requires a high level of security, first evaluate whether the code is sufficient against such attacks before including in your project.</p> <h4>Acknowledgements</h4> <p>MarkC for optimizations.</p> <h4>Licensing information</h4> <p>Initially this was published with a BSD license. I decided to unlicense hoping more people would use and provide useful feedback.</p> <pre> This is free and unencumbered software released into the public domain. Anyone is free to copy, modify, publish, use, compile, sell, or distribute this software, either in source code form or as a compiled binary, for any purpose, commercial or non-commercial, and by any means. In jurisdictions that recognize copyright laws, the author or authors of this software dedicate any and all copyright interest in the software to the public domain. We make this dedication for the benefit of the public at large and to the detriment of our heirs and successors. We intend this dedication to be an overt act of relinquishment in perpetuity of all present and future rights to this software under copyright law. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. For more information, please refer to http://unlicense.org/ </pre>
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/** This is free and unencumbered software released into the public domain. Anyone is free to copy, modify, publish, use, compile, sell, or distribute this software, either in source code form or as a compiled binary, for any purpose, commercial or non-commercial, and by any means. In jurisdictions that recognize copyright laws, the author or authors of this software dedicate any and all copyright interest in the software to the public domain. We make this dedication for the benefit of the public at large and to the detriment of our heirs and successors. We intend this dedication to be an overt act of relinquishment in perpetuity of all present and future rights to this software under copyright law. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. For more information, please refer to <http://unlicense.org/> */ // // ----------------------------------------------- // AES-128 Encryption in AMD64 assembly // // ----------------------------------------------- // .arch generic64 .intel_syntax noprefix .global aes_ecb .global _aes_ecb .ifdef WIN .equ arg_0, rcx .equ arg_1, rdx .equ arg_2, r8 .equ arg_3, r9 .else .equ arg_0, rdi .equ arg_1, rsi .equ arg_2, rdx .equ arg_3, rcx .endif // ***************************** // void aes_ecb_asm(void *s) // ***************************** aes_ecb: _aes_ecb: push rax push rbx push rcx push rdx push rsi push rdi push rbp push arg_0 pop rsi xor ecx, ecx # ecx = 0 mul ecx # eax = 0, edx = 0 inc al # c = 1 mov cl, 4 sub rsp, 32 # alloca(32) // F(8)x[i]=((W*)s)[i] push rsp pop rdi push rcx push rsi push rdi rep movsq pop rdi pop rsi pop rcx // ***************************** // Multiplication over GF(2**8) // ***************************** call $+21 # save address M: push rcx # save ecx mov cl, 4 # 4 bytes add al, al # al <<= 1 jnc $+4 # xor al, 27 # ror eax, 8 # rotate for next byte loop $-9 # pop rcx # restore ecx ret pop rbp enc_main: // ***************************** // AddRoundKey, AddRoundConstant, ExpandRoundKey // ***************************** // w=k[3]//F(4)w=(w&-256)|S(w),w=R(w,8),((W*)s)[i]=x[i]^k[i] // w=R(w,8)^c//F(4)w=k[i]^=w push rax push rcx push rdx push rsi push rdi xchg eax, edx xchg rsi, rdi mov eax, [rsi+16+12] # w=R(k[3],8) ror eax, 8 push 4 pop rcx xor_key: mov ebx, [rsi+16] # t=k[i] xor [rsi], ebx # x[i]^=t movsd # s[i]=x[i] // w=(w&-256)|S(w) call S # al=S(al) ror eax, 8 # w=R(w,8) loop xor_key // w=R(w,8)^c; xor eax, edx # w^=c // F(4)w=k[i]^=w; mov cl, 4 exp_key: xor [rsi], eax # k[i]^=w lodsd # w=k[i] loop exp_key pop rdi pop rsi pop rdx pop rcx pop rax // **************************** // if(c==108) break; cmp al, 108 jne upd_con add rsp, 32 pop rbp pop rdi pop rsi pop rdx pop rcx pop rbx pop rax ret upd_con: call rbp // *************************** // ShiftRows and SubBytes // *************************** // F(16)((u8*)x)[w]=S(((u8*)s)[i]), w=(w-3)&15; push rax push rsi shift_rows: lodsb # al = S(s[i]) call S mov [rdi+rdx], al sub edx, 3 and edx, 15 jnz shift_rows pop rsi pop rax // ***************************** // if(c!=108){ cmp al, 108 je enc_main // ***************************** // MixColumns // ***************************** // F(4)w=x[i],x[i]=R(w,8)^R(w,16)^R(w,24)^M(R(w,8)^w) push rax push rdx push rdi mov cl, 4 mix_cols: mov eax, [rdi] mov edx, eax ror edx, 8 xor eax, edx call rbp xor eax, edx ror edx, 8 xor eax, edx ror edx, 8 xor eax, edx stosd loop mix_cols pop rdi pop rdx pop rax jmp enc_main // ***************************** // B SubByte(B x) // ***************************** S: .ifndef DYNAMIC push rbx call init_sbox .byte 0x63, 0x7c, 0x77, 0x7b, 0xf2, 0x6b, 0x6f, 0xc5 .byte 0x30, 0x01, 0x67, 0x2b, 0xfe, 0xd7, 0xab, 0x76 .byte 0xca, 0x82, 0xc9, 0x7d, 0xfa, 0x59, 0x47, 0xf0 .byte 0xad, 0xd4, 0xa2, 0xaf, 0x9c, 0xa4, 0x72, 0xc0 .byte 0xb7, 0xfd, 0x93, 0x26, 0x36, 0x3f, 0xf7, 0xcc .byte 0x34, 0xa5, 0xe5, 0xf1, 0x71, 0xd8, 0x31, 0x15 .byte 0x04, 0xc7, 0x23, 0xc3, 0x18, 0x96, 0x05, 0x9a .byte 0x07, 0x12, 0x80, 0xe2, 0xeb, 0x27, 0xb2, 0x75 .byte 0x09, 0x83, 0x2c, 0x1a, 0x1b, 0x6e, 0x5a, 0xa0 .byte 0x52, 0x3b, 0xd6, 0xb3, 0x29, 0xe3, 0x2f, 0x84 .byte 0x53, 0xd1, 0x00, 0xed, 0x20, 0xfc, 0xb1, 0x5b .byte 0x6a, 0xcb, 0xbe, 0x39, 0x4a, 0x4c, 0x58, 0xcf .byte 0xd0, 0xef, 0xaa, 0xfb, 0x43, 0x4d, 0x33, 0x85 .byte 0x45, 0xf9, 0x02, 0x7f, 0x50, 0x3c, 0x9f, 0xa8 .byte 0x51, 0xa3, 0x40, 0x8f, 0x92, 0x9d, 0x38, 0xf5 .byte 0xbc, 0xb6, 0xda, 0x21, 0x10, 0xff, 0xf3, 0xd2 .byte 0xcd, 0x0c, 0x13, 0xec, 0x5f, 0x97, 0x44, 0x17 .byte 0xc4, 0xa7, 0x7e, 0x3d, 0x64, 0x5d, 0x19, 0x73 .byte 0x60, 0x81, 0x4f, 0xdc, 0x22, 0x2a, 0x90, 0x88 .byte 0x46, 0xee, 0xb8, 0x14, 0xde, 0x5e, 0x0b, 0xdb .byte 0xe0, 0x32, 0x3a, 0x0a, 0x49, 0x06, 0x24, 0x5c .byte 0xc2, 0xd3, 0xac, 0x62, 0x91, 0x95, 0xe4, 0x79 .byte 0xe7, 0xc8, 0x37, 0x6d, 0x8d, 0xd5, 0x4e, 0xa9 .byte 0x6c, 0x56, 0xf4, 0xea, 0x65, 0x7a, 0xae, 0x08 .byte 0xba, 0x78, 0x25, 0x2e, 0x1c, 0xa6, 0xb4, 0xc6 .byte 0xe8, 0xdd, 0x74, 0x1f, 0x4b, 0xbd, 0x8b, 0x8a .byte 0x70, 0x3e, 0xb5, 0x66, 0x48, 0x03, 0xf6, 0x0e .byte 0x61, 0x35, 0x57, 0xb9, 0x86, 0xc1, 0x1d, 0x9e .byte 0xe1, 0xf8, 0x98, 0x11, 0x69, 0xd9, 0x8e, 0x94 .byte 0x9b, 0x1e, 0x87, 0xe9, 0xce, 0x55, 0x28, 0xdf .byte 0x8c, 0xa1, 0x89, 0x0d, 0xbf, 0xe6, 0x42, 0x68 .byte 0x41, 0x99, 0x2d, 0x0f, 0xb0, 0x54, 0xbb, 0x16 init_sbox: pop rbx xlatb pop rbx .else push rax push rcx push rdx test al, al # if(x){ jz sb_l6 xchg eax, edx mov cl, -1 # i=255 // for(c=i=0,y=1;--i;y=(!c&&y==x)?c=1:y,y^=M(y); sb_l0: mov al, 1 # y=1 sb_l1: test ah, ah # !c jnz sb_l2 cmp al, dl # y!=x setz ah jz sb_l0 sb_l2: mov dh, al # y^=M(y) call M # xor al, dh loop sb_l1 # --i // F(4)x^=y=(y<<1)|(y>>7); mov dl, al # dl=y mov cl, 4 # i=4 sb_l5: rol dl, 1 # y=R(y,1) xor al, dl # x^=y loop sb_l5 # i-- sb_l6: xor al, 99 # return x^99 mov [rsp+16], al pop rdx pop rcx pop rax .endif ret .ifdef CTR .global aes_ctr // void aes_ctr(W len, B *ctr, B *data, B *mk) aes_ctr: push rbx push rbp push rsi push rdi push arg_1 # rsi/rcx or ctr pop rbp push arg_3 # rcx/rdx or key pop rsi push arg_0 # rdi/r8 or len pop rcx push arg_2 # rdx/r9 or in pop rdx sub rsp, 32 # alloca(32) // copy master key to local buffer // F(16)t[i+16]=key[i]; lea rdi, [rsp+16] # edi = &t[16] movsq movsq aes_l0: xor eax, eax jecxz aes_l3 # while(len){ // copy counter+nonce to local buffer // F(16)t[i]=ctr[i] push rsp pop rdi push rbp pop rsi push rdi movsq movsq pop rdi // encrypt t call aes_ecb_asm aes_l1: // xor plaintext with ciphertext // r=len>16?16:len // F(r)in[i]^=t[i] mov bl, [rdi+rax] # xor [rdx], bl # *in++^=t[i] inc rdx add al, 1 cmp al, 16 # loopne aes_l1 # while(i!=16 && --ecx!=0) // update counter xchg eax, ecx # mov cl, 16 aes_l2: inc byte ptr[rbp+rcx-1] # loopz aes_l2 # while(++c[i]==0 && --ecx!=0) xchg eax, ecx jmp aes_l0 aes_l3: add rsp, 32 pop rdi pop rsi pop rbp pop rbx ret .endif
{ "repo_name": "odzhan/aes_dust", "stars": "65", "repo_language": "Assembly", "file_name": "test.c", "mime_type": "text/x-c" }
; ; This is free and unencumbered software released into the public domain. ; ; Anyone is free to copy, modify, publish, use, compile, sell, or ; distribute this software, either in source code form or as a compiled ; binary, for any purpose, commercial or non-commercial, and by any ; means. ; In jurisdictions that recognize copyright laws, the author or authors ; of this software dedicate any and all copyright interest in the ; software to the public domain. We make this dedication for the benefit ; of the public at large and to the detriment of our heirs and ; successors. We intend this dedication to be an overt act of ; relinquishment in perpetuity of all present and future rights to this ; software under copyright law. ; ; THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, ; EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF ; MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. ; IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR ; OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ; ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR ; OTHER DEALINGS IN THE SOFTWARE. ; ; For more information, please refer to <http://unlicense.org/> ; ; ----------------------------------------------- ; AES-128 Encryption in AMD64 assembly ; ; ----------------------------------------------- ; bits 64 global aes_ecb_asm ; windows is defined by default %define WIN %ifdef WIN ; Microsoft x64 fastcall convention %define arg_0 rcx %define arg_1 rdx %define arg_2 r8 %define arg_3 r9 %else ; Linux AMD64 calling convention %define arg_0 rdi %define arg_1 rsi %define arg_2 rdx %define arg_3 rcx %endif ; ***************************** ; void aes_ecb_asm(void *s) ; ***************************** aes_ecb_asm: push rax push rbx push rcx push rdx push rsi push rdi push rbp push arg_0 pop rsi xor ecx, ecx ; ecx = 0 mul ecx ; eax = 0, edx = 0 inc eax ; c = 1 mov cl, 4 sub rsp, 32 ; alloca(32) ; F(8)x[i]=((W*)s)[i] push rsp pop rdi push rcx push rsi push rdi rep movsq pop rdi pop rsi pop rcx ; ***************************** ; Multiplication over GF(2**8) ; ***************************** call $+21 ; save address gf_mul: push rcx ; save ecx mov cl, 4 ; 4 bytes add al, al ; al <<= 1 jnc $+4 ; xor al, 27 ; ror eax, 8 ; rotate for next byte loop $-9 ; pop rcx ; restore ecx ret pop rbp enc_main: ; ***************************** ; AddRoundKey, AddRoundConstant, ExpandRoundKey ; ***************************** ; w=k[3];F(4)w=(w&-256)|S(w),w=R(w,8),((W*)s)[i]=x[i]^k[i] ; w=R(w,8)^c;F(4)w=k[i]^=w push rax push rcx push rdx push rsi push rdi xchg eax, edx xchg rsi, rdi mov eax, [rsi+16+12] ; w=R(k[3],8) ror eax, 8 xor_key: mov ebx, [rsi+16] ; t=k[i] xor [rsi], ebx ; x[i]^=t movsd ; s[i]=x[i] ; w=(w&-256)|S(w) call S ; al=S(al) ror eax, 8 ; w=R(w,8) loop xor_key ; w=R(w,8)^c; xor eax, edx ; w^=c ; F(4)w=k[i]^=w; mov cl, 4 exp_key: xor [rsi], eax ; k[i]^=w lodsd ; w=k[i] loop exp_key pop rdi pop rsi pop rdx pop rcx pop rax ; **************************** ; if(c==108) break; cmp al, 108 jne upd_con add rsp, 32 pop rbp pop rdi pop rsi pop rdx pop rcx pop rbx pop rax ret upd_con: call rbp ; *************************** ; ShiftRows and SubBytes ; *************************** ; F(16)((B*)x)[(i%4)+(((i/4)-(i%4))%4)*4]=S(((B*)s)[i]) push rax push rsi shift_rows: lodsb ; al = S(s[i]) call S mov [rdi+rdx], al sub edx, 3 and edx, 15 jnz shift_rows pop rsi pop rax ; ***************************** ; if(c!=108){ cmp al, 108 je enc_main ; ***************************** ; MixColumns ; ***************************** ; F(4)w=x[i],x[i]=R(w,8)^R(w,16)^R(w,24)^M(R(w,8)^w) push rax push rcx push rdx push rdi mix_cols: mov eax, [rdi] ; w0 = x[i] mov ebx, eax ; w1 = w0 ror eax, 8 ; w0 = R(w0,8) mov edx, eax ; w2 = w0 xor eax, ebx ; w0^= w1 call rbp ; w0 = M(w0) xor eax, edx ; w0^= w2 ror ebx, 16 ; w1 = R(w1,16) xor eax, ebx ; w0^= w1 ror ebx, 8 ; w1 = R(w1,8) xor eax, ebx ; w0^= w1 stosd ; x[i] = w0 loop mix_cols pop rdi pop rdx pop rcx pop rax jmp enc_main ; ***************************** ; B SubByte(B x) ; ***************************** S: %ifndef DYNAMIC push rbx call init_sbox db 0x63, 0x7c, 0x77, 0x7b, 0xf2, 0x6b, 0x6f, 0xc5 db 0x30, 0x01, 0x67, 0x2b, 0xfe, 0xd7, 0xab, 0x76 db 0xca, 0x82, 0xc9, 0x7d, 0xfa, 0x59, 0x47, 0xf0 db 0xad, 0xd4, 0xa2, 0xaf, 0x9c, 0xa4, 0x72, 0xc0 db 0xb7, 0xfd, 0x93, 0x26, 0x36, 0x3f, 0xf7, 0xcc db 0x34, 0xa5, 0xe5, 0xf1, 0x71, 0xd8, 0x31, 0x15 db 0x04, 0xc7, 0x23, 0xc3, 0x18, 0x96, 0x05, 0x9a db 0x07, 0x12, 0x80, 0xe2, 0xeb, 0x27, 0xb2, 0x75 db 0x09, 0x83, 0x2c, 0x1a, 0x1b, 0x6e, 0x5a, 0xa0 db 0x52, 0x3b, 0xd6, 0xb3, 0x29, 0xe3, 0x2f, 0x84 db 0x53, 0xd1, 0x00, 0xed, 0x20, 0xfc, 0xb1, 0x5b db 0x6a, 0xcb, 0xbe, 0x39, 0x4a, 0x4c, 0x58, 0xcf db 0xd0, 0xef, 0xaa, 0xfb, 0x43, 0x4d, 0x33, 0x85 db 0x45, 0xf9, 0x02, 0x7f, 0x50, 0x3c, 0x9f, 0xa8 db 0x51, 0xa3, 0x40, 0x8f, 0x92, 0x9d, 0x38, 0xf5 db 0xbc, 0xb6, 0xda, 0x21, 0x10, 0xff, 0xf3, 0xd2 db 0xcd, 0x0c, 0x13, 0xec, 0x5f, 0x97, 0x44, 0x17 db 0xc4, 0xa7, 0x7e, 0x3d, 0x64, 0x5d, 0x19, 0x73 db 0x60, 0x81, 0x4f, 0xdc, 0x22, 0x2a, 0x90, 0x88 db 0x46, 0xee, 0xb8, 0x14, 0xde, 0x5e, 0x0b, 0xdb db 0xe0, 0x32, 0x3a, 0x0a, 0x49, 0x06, 0x24, 0x5c db 0xc2, 0xd3, 0xac, 0x62, 0x91, 0x95, 0xe4, 0x79 db 0xe7, 0xc8, 0x37, 0x6d, 0x8d, 0xd5, 0x4e, 0xa9 db 0x6c, 0x56, 0xf4, 0xea, 0x65, 0x7a, 0xae, 0x08 db 0xba, 0x78, 0x25, 0x2e, 0x1c, 0xa6, 0xb4, 0xc6 db 0xe8, 0xdd, 0x74, 0x1f, 0x4b, 0xbd, 0x8b, 0x8a db 0x70, 0x3e, 0xb5, 0x66, 0x48, 0x03, 0xf6, 0x0e db 0x61, 0x35, 0x57, 0xb9, 0x86, 0xc1, 0x1d, 0x9e db 0xe1, 0xf8, 0x98, 0x11, 0x69, 0xd9, 0x8e, 0x94 db 0x9b, 0x1e, 0x87, 0xe9, 0xce, 0x55, 0x28, 0xdf db 0x8c, 0xa1, 0x89, 0x0d, 0xbf, 0xe6, 0x42, 0x68 db 0x41, 0x99, 0x2d, 0x0f, 0xb0, 0x54, 0xbb, 0x16 init_sbox: pop rbx xlatb pop rbx %else push rax push rcx push rdx test al, al # if(x){ jz sb_l6 xchg eax, edx mov cl, -1 # i=255 ; for(c=i=0,y=1;--i;y=(!c&&y==x)?c=1:y,y^=M(y)) sb_l0: mov al, 1 # y=1 sb_l1: test ah, ah # !c jnz sb_l2 cmp al, dl # y!=x setz ah jz sb_l0 sb_l2: mov dh, al # y^=M(y) call M # xor al, dh loop sb_l1 # --i ; F(4)x^=y=(y<<1)|(y>>7); mov dl, al # dl=y mov cl, 4 # i=4 sb_l5: rol dl, 1 # y=R(y,1) xor al, dl # x^=y loop sb_l5 # i-- sb_l6: xor al, 99 # return x^99 mov [rsp+16], al pop rdx pop rcx pop rax %endif ret %ifdef CTR global aes_ctr ; void aes_ctr(W len, B *ctr, B *in, B *key) aes_ctr: push rbx push rbp push rsi push rdi push arg_1 ; rsi/rcx or ctr pop rbp push arg_3 ; rcx/rdx or key pop rsi push arg_0 ; rdi/r8 or len pop rcx push arg_2 ; rdx/r9 or in pop rdx sub rsp, 32 ; alloca(32) ; copy master key to local buffer ; F(16)t[i+16]=key[i]; lea rdi, [rsp+16] ; edi = &t[16] movsq movsq aes_l0: xor eax, eax jecxz aes_l3 ; while(len){ ; copy counter+nonce to local buffer ; F(16)t[i]=ctr[i] push rsp pop rdi push rbp pop rsi push rdi movsq movsq pop rdi ; encrypt t call aes_ecb_asm ; E(t) aes_l1: ; xor plaintext with ciphertext ; r=len>16?16:len ; F(r)in[i]^=t[i] mov bl, [rdi+rax] ; xor [rdx], bl ; *in++^=t[i] inc rdx add al, 1 cmp al, 16 ; loopne aes_l1 ; while(i!=16 && --ecx!=0) ; update counter xchg eax, ecx ; mov cl, 16 aes_l2: inc byte[rbp+rcx-1] ; loopz aes_l2 ; while(++c[i]==0 && --ecx!=0) xchg eax, ecx jmp aes_l0 aes_l3: add rsp, 32 pop rdi pop rsi pop rbp pop rbx ret %endif
{ "repo_name": "odzhan/aes_dust", "stars": "65", "repo_language": "Assembly", "file_name": "test.c", "mime_type": "text/x-c" }
; ; This is free and unencumbered software released into the public domain. ; ; Anyone is free to copy, modify, publish, use, compile, sell, or ; distribute this software, either in source code form or as a compiled ; binary, for any purpose, commercial or non-commercial, and by any ; means. ; In jurisdictions that recognize copyright laws, the author or authors ; of this software dedicate any and all copyright interest in the ; software to the public domain. We make this dedication for the benefit ; of the public at large and to the detriment of our heirs and ; successors. We intend this dedication to be an overt act of ; relinquishment in perpetuity of all present and future rights to this ; software under copyright law. ; ; THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, ; EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF ; MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. ; IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR ; OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ; ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR ; OTHER DEALINGS IN THE SOFTWARE. ; ; For more information, please refer to <http://unlicense.org/> ; ; ----------------------------------------------- ; AES-128 Encryption in x86 assembly ; ; size: 188 bytes for ECB, 255 for CTR ; ; global calls use cdecl convention ; ; ----------------------------------------------- bits 32 %ifndef BIN global _aes_ecb_asm global aes_ecb_asm %endif ; ***************************** ; void aes_ecb_asm(void *s); ; ***************************** _aes_ecb_asm: aes_ecb_asm: pusha xor ecx, ecx ; ecx = 0 mul ecx ; eax = 0, edx = 0 inc eax ; c = 1 mov cl, 4 pusha ; alloca(32) ; F(8)x[i]=((W*)s)[i] mov esi, [esp+64+4] ; esi = s mov edi, esp pusha add ecx, ecx ; copy state + master key to stack rep movsd popa ; ***************************** ; Multiplication over GF(2**8) ; ***************************** call $+21 ; save address push ecx ; save ecx mov cl, 4 ; 4 bytes add al, al ; al <<= 1 jnc $+4 ; xor al, 27 ; ror eax, 8 ; rotate for next byte loop $-9 ; pop ecx ; restore ecx ret pop ebp enc_main: ; ***************************** ; AddRoundKey, AddRoundConstant, ExpandRoundKey ; ***************************** ; w=k[3]; F(4)w=(w&-256)|S(w),w=R(w,8),((W*)s)[i]=x[i]^k[i]; ; w=R(w,8)^c;F(4)w=k[i]^=w; pusha xchg eax, edx xchg esi, edi mov eax, [esi+16+12] ; w=R(k[3],8) ror eax, 8 xor_key: mov ebx, [esi+16] ; t=k[i] xor [esi], ebx ; x[i]^=t movsd ; s[i]=x[i] ; w=(w&-256)|S(w) call S ; al=S(al) ror eax, 8 ; w=R(w,8) loop xor_key ; w=R(w,8)^c xor eax, edx ; w^=c ; F(4)w=k[i]^=w mov cl, 4 exp_key: xor [esi], eax ; k[i]^=w lodsd ; w=k[i] loop exp_key popa ; **************************** ; if(c==108) break; cmp al, 108 jne upd_con popa popa ret upd_con: call ebp ; *************************** ; ShiftRows and SubBytes ; *************************** ; F(16)((u8*)x)[w]=S(((u8*)s)[i]), w=(w-3)&15; pusha shift_rows: lodsb ; al = S(s[i]) call S mov [edi+edx], al sub edx, 3 and edx, 15 jnz shift_rows popa ; ***************************** ; if(c!=108){ cmp al, 108 je enc_main ; ***************************** ; MixColumns ; ***************************** ; F(4)w=x[i],x[i]=R(w,8)^R(w,16)^R(w,24)^M(R(w, 8)^w); pusha mix_cols: mov eax, [edi] ; w = x[i] mov edx, eax ; t = R(w, 8) ror edx, 8 ; xor eax, edx ; w ^= t call ebp ; xor eax, edx ror edx, 8 xor eax, edx ror edx, 8 xor eax, edx stosd loop mix_cols popa jmp enc_main ; ***************************** ; B SubByte(B x) ; ***************************** S: %ifndef DYNAMIC push ebx call init_sbox db 0x63, 0x7c, 0x77, 0x7b, 0xf2, 0x6b, 0x6f, 0xc5 db 0x30, 0x01, 0x67, 0x2b, 0xfe, 0xd7, 0xab, 0x76 db 0xca, 0x82, 0xc9, 0x7d, 0xfa, 0x59, 0x47, 0xf0 db 0xad, 0xd4, 0xa2, 0xaf, 0x9c, 0xa4, 0x72, 0xc0 db 0xb7, 0xfd, 0x93, 0x26, 0x36, 0x3f, 0xf7, 0xcc db 0x34, 0xa5, 0xe5, 0xf1, 0x71, 0xd8, 0x31, 0x15 db 0x04, 0xc7, 0x23, 0xc3, 0x18, 0x96, 0x05, 0x9a db 0x07, 0x12, 0x80, 0xe2, 0xeb, 0x27, 0xb2, 0x75 db 0x09, 0x83, 0x2c, 0x1a, 0x1b, 0x6e, 0x5a, 0xa0 db 0x52, 0x3b, 0xd6, 0xb3, 0x29, 0xe3, 0x2f, 0x84 db 0x53, 0xd1, 0x00, 0xed, 0x20, 0xfc, 0xb1, 0x5b db 0x6a, 0xcb, 0xbe, 0x39, 0x4a, 0x4c, 0x58, 0xcf db 0xd0, 0xef, 0xaa, 0xfb, 0x43, 0x4d, 0x33, 0x85 db 0x45, 0xf9, 0x02, 0x7f, 0x50, 0x3c, 0x9f, 0xa8 db 0x51, 0xa3, 0x40, 0x8f, 0x92, 0x9d, 0x38, 0xf5 db 0xbc, 0xb6, 0xda, 0x21, 0x10, 0xff, 0xf3, 0xd2 db 0xcd, 0x0c, 0x13, 0xec, 0x5f, 0x97, 0x44, 0x17 db 0xc4, 0xa7, 0x7e, 0x3d, 0x64, 0x5d, 0x19, 0x73 db 0x60, 0x81, 0x4f, 0xdc, 0x22, 0x2a, 0x90, 0x88 db 0x46, 0xee, 0xb8, 0x14, 0xde, 0x5e, 0x0b, 0xdb db 0xe0, 0x32, 0x3a, 0x0a, 0x49, 0x06, 0x24, 0x5c db 0xc2, 0xd3, 0xac, 0x62, 0x91, 0x95, 0xe4, 0x79 db 0xe7, 0xc8, 0x37, 0x6d, 0x8d, 0xd5, 0x4e, 0xa9 db 0x6c, 0x56, 0xf4, 0xea, 0x65, 0x7a, 0xae, 0x08 db 0xba, 0x78, 0x25, 0x2e, 0x1c, 0xa6, 0xb4, 0xc6 db 0xe8, 0xdd, 0x74, 0x1f, 0x4b, 0xbd, 0x8b, 0x8a db 0x70, 0x3e, 0xb5, 0x66, 0x48, 0x03, 0xf6, 0x0e db 0x61, 0x35, 0x57, 0xb9, 0x86, 0xc1, 0x1d, 0x9e db 0xe1, 0xf8, 0x98, 0x11, 0x69, 0xd9, 0x8e, 0x94 db 0x9b, 0x1e, 0x87, 0xe9, 0xce, 0x55, 0x28, 0xdf db 0x8c, 0xa1, 0x89, 0x0d, 0xbf, 0xe6, 0x42, 0x68 db 0x41, 0x99, 0x2d, 0x0f, 0xb0, 0x54, 0xbb, 0x16 init_sbox: pop ebx xlatb pop ebx %else pusha test al, al ; if(x){ jz sb_l6 xchg eax, edx mov cl, -1 ; i=255 ; for(c=i=0,y=1;--i;y=(!c&&y==x)?c=1:y,y^=M(y)) sb_l0: mov al, 1 ; y=1 sb_l1: test ah, ah ; !c jnz sb_l2 cmp al, dl ; y!=x setz ah jz sb_l0 sb_l2: mov dh, al ; y^=M(y) call ebp ; xor al, dh loop sb_l1 ; --i ; F(4)x^=y=(y<<1)|(y>>7); mov dl, al ; dl=y mov cl, 4 ; i=4 sb_l5: rol dl, 1 ; y=R(y,1) xor al, dl ; x^=y loop sb_l5 ; i-- sb_l6: xor al, 99 ; return x^99 mov [esp+28], al popa %endif ret %ifdef CTR global aes_ctr global _aes_ctr ; void aes_ctr(W len, B *ctr, B *in, B *key) _aes_ctr: aes_ctr: pusha lea esi,[esp+32+4] lodsd xchg eax, ecx ; ecx = len lodsd xchg eax, ebp ; ebp = ctr lodsd xchg eax, edx ; edx = in lodsd xchg esi, eax ; esi = key pusha ; alloca(32) ; copy master key to local buffer ; F(16)t[i+16]=key[i] lea edi, [esp+16] ; edi = &t[16] movsd movsd movsd movsd aes_l0: xor eax, eax jecxz aes_l3 ; while(len){ ; copy counter+nonce to local buffer ; F(16)t[i]=ctr[i] mov edi, esp ; edi = t mov esi, ebp ; esi = ctr push edi movsd movsd movsd movsd ; encrypt t call aes_ecb_asm ; E(t) pop edi aes_l1: ; xor plaintext with ciphertext ; r=len>16?16:len ; F(r)in[i]^=t[i] mov bl, [edi+eax] ; xor [edx], bl ; *in++^=t[i] inc edx ; inc eax ; i++ cmp al, 16 ; loopne aes_l1 ; while(i!=16 && --ecx!=0) ; update counter xchg eax, ecx ; mov cl, 16 aes_l2: inc byte[ebp+ecx-1] ; loopz aes_l2 ; while(++c[i]==0 && --ecx!=0) xchg eax, ecx jmp aes_l0 aes_l3: popa popa ret %endif
{ "repo_name": "odzhan/aes_dust", "stars": "65", "repo_language": "Assembly", "file_name": "test.c", "mime_type": "text/x-c" }
; ; This is free and unencumbered software released into the public domain. ; ; Anyone is free to copy, modify, publish, use, compile, sell, or ; distribute this software, either in source code form or as a compiled ; binary, for any purpose, commercial or non-commercial, and by any ; means. ; In jurisdictions that recognize copyright laws, the author or authors ; of this software dedicate any and all copyright interest in the ; software to the public domain. We make this dedication for the benefit ; of the public at large and to the detriment of our heirs and ; successors. We intend this dedication to be an overt act of ; relinquishment in perpetuity of all present and future rights to this ; software under copyright law. ; ; THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, ; EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF ; MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. ; IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR ; OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ; ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR ; OTHER DEALINGS IN THE SOFTWARE. ; ; For more information, please refer to <http://unlicense.org/> ; ; ----------------------------------------------- ; AES-128 Encryption in x86 assembly ; ; size: 205 bytes for ECB, 272 for CTR ; ; global calls use cdecl convention ; ; ----------------------------------------------- bits 32 global _E global E ; ***************************** ; void E(void *s); ; ***************************** _E: E: pusha xor ecx, ecx ; ecx = 0 mul ecx ; eax = 0, edx = 0 inc eax ; c = 1 mov cl, 16 pusha ; alloca(32) ; F(32)x[i]=s[i] mov esi, [esp+64+4] ; esi = s mov edi, esp pusha add ecx, ecx ; copy state + master key to stack rep movsd popa enc_main: ; AddRoundKey ; F(16)s[i]=x[i]^k[i]; ; **************************** ; if(c==108) break; cmp al, 108 jne upd_con popa popa ret ; ExpandKey ; F(4)k[i]^=S(k[12+((i-3)&3)]) exp_key: pusha mov cl, 4 xor_key: lea ebx, [edx-3] and ebx, 3 mov al, [esi+ebx+28] call S xor [esi+16], al movsb loop xor_key popa ; k[0]^=rc; xor [esi+16], al ; update round constant ; rc=M(rc); upd_con: add al, al jnc $+4 xor al, 27 ; SubBytes and ShiftRows ; F(16)k[i+4]^=k[i], ; x[(i&3)+(((W)(i/4)-(i&3))&3)*4]=S(s[i]); pusha shift_rows: lodsb ; al = S(s[i]) call S mov ebx, edx ; ebx = i%4 mov ebp, edx and ebp, 3 ; shr ebx, 2 ; (i/4 - ebx) % 4 sub ebx, ebp ; and ebx, 3 ; lea ebx, [ebp+ebx*4] ; ebx = (ebx+edx*4) mov [edi+ebx], al ; x[ebx] = al inc edx loop shift_rows popa ; ***************************** ; if(c!=108){ cmp al, 108 je enc_main ; ***************************** ; MixColumns ; ***************************** ; F(4)w=x[i],x[i]=R(w,8)^R(w,16)^R(w,24)^M(R(w,8)^w); pusha mix_cols: mov eax, [edi] ; w0 = x[i] mov ebx, eax ; w1 = w0 ror eax, 8 ; w0 = R(w0,8) mov edx, eax ; w2 = w0 xor eax, ebx ; w0^= w1 ; W t=x&0x80808080; ; return((x^t)*2)^((t>>7)*27); call ebp ; w0 = M(w0) xor eax, edx ; w0^= w2 ror ebx, 16 ; w1 = R(w1,16) xor eax, ebx ; w0^= w1 ror ebx, 8 ; w1 = R(w1,8) xor eax, ebx ; w0^= w1 stosd ; x[i] = w0 loop mix_cols popa jmp enc_main ; ***************************** ; B S(B x) ; ***************************** S: push ecx push edx test al, al ; if(x){ jz sb_l6 xchg eax, edx mov cl, -1 ; i=255 ; for(c=i=0,y=1;--i;y=(!c&&y==x)?c=1:y,y^=M(y)) sb_l0: mov al, 1 ; y=1 sb_l1: test ah, ah ; !c jnz sb_l2 cmp al, dl ; y!=x setz ah jz sb_l0 sb_l2: mov dh, al ; y^=M(y) add dh, dh ; dh <<= 1 jnc $+4 ; xor dh, 27 ; xor al, dh loop sb_l1 ; --i ; F(4)x^=y=(y<<1)|(y>>7); mov dl, al ; dl=y mov cl, 4 ; i=4 sb_l5: rol dl, 1 ; y=R(y,1) xor al, dl ; x^=y loop sb_l5 ; i-- sb_l6: xor al, 99 ; return x^99 pop edx pop ecx ret %ifdef CTR global encrypt global _encrypt ; void encrypt(W len, B *ctr, B *in, B *key) _encrypt: encrypt: pusha lea esi,[esp+32+4] lodsd xchg eax, ecx ; ecx = len lodsd xchg eax, ebp ; ebp = ctr lodsd xchg eax, edx ; edx = in lodsd xchg esi, eax ; esi = key pusha ; alloca(32) ; copy master key to local buffer ; F(16)t[i+16]=key[i] lea edi, [esp+16] ; edi = &t[16] movsd movsd movsd movsd aes_l0: xor eax, eax jecxz aes_l3 ; while(len){ ; copy counter+nonce to local buffer ; F(16)t[i]=ctr[i] mov edi, esp ; edi = t mov esi, ebp ; esi = ctr push edi movsd movsd movsd movsd ; encrypt t call _E ; E(t) pop edi aes_l1: ; xor plaintext with ciphertext ; r=len>16?16:len ; F(r)in[i]^=t[i] mov bl, [edi+eax] ; xor [edx], bl ; *in++^=t[i] inc edx ; inc eax ; i++ cmp al, 16 ; loopne aes_l1 ; while(i!=16 && --ecx!=0) ; update counter xchg eax, ecx ; mov cl, 16 aes_l2: inc byte[ebp+ecx-1] ; loopz aes_l2 ; while(++c[i]==0 && --ecx!=0) xchg eax, ecx jmp aes_l0 aes_l3: popa popa ret %endif
{ "repo_name": "odzhan/aes_dust", "stars": "65", "repo_language": "Assembly", "file_name": "test.c", "mime_type": "text/x-c" }
/** This is free and unencumbered software released into the public domain. Anyone is free to copy, modify, publish, use, compile, sell, or distribute this software, either in source code form or as a compiled binary, for any purpose, commercial or non-commercial, and by any means. In jurisdictions that recognize copyright laws, the author or authors of this software dedicate any and all copyright interest in the software to the public domain. We make this dedication for the benefit of the public at large and to the detriment of our heirs and successors. We intend this dedication to be an overt act of relinquishment in perpetuity of all present and future rights to this software under copyright law. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. For more information, please refer to <http://unlicense.org/> */ // AES-128 Encryption in ARM32 assembly // 352 bytes .arch armv7-a .text .global aes_ecb_asm // ***************************** // Multiplication over GF(2**8) // ***************************** M: ldr r7, =#0x80808080 and r7, r11, r7 mov r9, #27 lsr r6, r7, #7 mul r6, r6, r9 eor r7, r11, r7 eor r7, r6, r7, lsl #1 bx lr // ***************************** // B SubByte(B x); // ***************************** S: push {lr} ands r5, r10, #0xFF beq SB2 mov r11, #1 mov r12, #0 mov r3, #0xFF SB0: cmp r12, #0 cmpeq r11, r5 moveq r11, #1 moveq r12, #1 bl M eor r11, r11, r7 subs r3, r3, #1 bne SB0 and r5, r11, #255 mov r3, #4 SB1: lsr r7, r11, #7 orr r11, r7, r11, lsl #1 eor r5, r5, r11 subs r3, r3, #1 bne SB1 SB2: eor r5, r5, #99 uxtb r5, r5 bic r10, r10, #255 orr r10, r5, r10 pop {pc} // ***************************** // void aes_ecb(void *s); // ***************************** aes_ecb_asm: push {r0-r12,lr} sub sp, sp, #32 // copy plain text + master key to x // F(8)x[i]=((W*)s)[i]; ldm r0, {r4-r12} stm sp, {r4-r12} // c = 1 mov r4, #1 // AddRoundKey, 1st part of ExpandRoundKey // w=k[3];F(4)w=(w&-256)|S(w),w=R(w,8),((W*)s)[i]=x[i]^k[i]; L0: mov r2, #0 ldr r10, [sp, #16+3*4] add r1, sp, #16 L1: bl S ror r10, r10, #8 ldr r7, [sp, r2, lsl #2] ldr r8, [r1, r2, lsl #2] eor r7, r7, r8 str r7, [r0, r2, lsl #2] add r2, r2, #1 cmp r2, #4 bne L1 // AddRoundConstant, perform 2nd part of ExpandRoundKey // w=R(w,8)^c;F(4)w=k[i]^=w; eor r10, r4, r10, ror #8 L2: ldr r7, [r1] eor r10, r10, r7 str r10, [r1], #4 subs r2, r2, #1 bne L2 // if round 11, stop; // if(c==108)break; cmp r4, #108 beq L5 // update c // c=M(c); mov r11, r4 bl M mov r4, r7 // SubBytes and ShiftRows // F(16)((u8*)x)[w]=S(((u8*)s)[i]), w=(w-3)&15; L3: ldrb r10, [r0, r2] bl S and r7, r2, #3 lsr r8, r2, #2 sub r8, r8, r7 and r8, r8, #3 add r7, r7, r8, lsl #2 uxtb r7, r7 strb r10, [sp, r7] add r2, r2, #1 cmp r2, #16 bne L3 // if not round 11, MixColumns // if(c!=108) cmp r4, #108 L4: beq L0 subs r2, r2, #4 // F(4)w=x[i],x[i]=R(w,8)^R(w,16)^R(w,24)^M(R(w,8)^w); ldr r10, [sp, r2] eor r11, r10, r10, ror #8 bl M eor r11, r7, r10, ror #8 eor r11, r11, r10, ror #16 eor r11, r11, r10, ror #24 str r11, [sp, r2] b L4 L5: add sp, sp, #32 pop {r0-r12,pc}
{ "repo_name": "odzhan/aes_dust", "stars": "65", "repo_language": "Assembly", "file_name": "test.c", "mime_type": "text/x-c" }
/** This is free and unencumbered software released into the public domain. Anyone is free to copy, modify, publish, use, compile, sell, or distribute this software, either in source code form or as a compiled binary, for any purpose, commercial or non-commercial, and by any means. In jurisdictions that recognize copyright laws, the author or authors of this software dedicate any and all copyright interest in the software to the public domain. We make this dedication for the benefit of the public at large and to the detriment of our heirs and successors. We intend this dedication to be an overt act of relinquishment in perpetuity of all present and future rights to this software under copyright law. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. For more information, please refer to <http://unlicense.org/> */ // AES-128 Encryption in ARM64 assembly // 352 bytes .arch armv8-a .text .global aes_ecb // ***************************** // Multiplication over GF(2**8) // ***************************** M: and w10, w14, 0x80808080 mov w12, 27 lsr w8, w10, 7 mul w8, w8, w12 eor w10, w14, w10 eor w10, w8, w10, lsl 1 ret // ***************************** // B SubByte(B x); // ***************************** S: str x30, [sp, -16]! ands w7, w13, 0xFF beq SB2 mov w14, 1 mov w15, 1 mov x3, 0xFF SB0: cmp w15, 1 ccmp w14, w7, 0, eq csel w14, w15, w14, eq csel w15, wzr, w15, eq bl M eor w14, w14, w10 subs x3, x3, 1 bne SB0 and w7, w14, 0xFF mov x3, 4 SB1: lsr w10, w14, 7 orr w14, w10, w14, lsl 1 eor w7, w7, w14 subs x3, x3, 1 bne SB1 SB2: mov w10, 99 eor w7, w7, w10 bfxil w13, w7, 0, 8 ldr x30, [sp], 16 ret // ***************************** // void aes_ecb_asm(void *s); // ***************************** aes_ecb_asm: str x30, [sp, -16]! sub sp, sp, 32 // copy plain text + master key to x // F(8)x[i]=((W*)s)[i]; ldp x5, x6, [x0] ldp x7, x8, [x0, 16] stp x5, x6, [sp] stp x7, x8, [sp, 16] // c = 1 mov w4, 1 L0: // AddRoundKey, 1st part of ExpandRoundKey // w=k[3];F(4)w=(w&-256)|S(w),w=R(w,8),((W*)s)[i]=x[i]^k[i]; mov x2, xzr ldr w13, [sp, 16+3*4] add x1, sp, 16 L1: bl S ror w13, w13, 8 ldr w10, [sp, x2, lsl 2] ldr w11, [x1, x2, lsl 2] eor w10, w10, w11 str w10, [x0, x2, lsl 2] add x2, x2, 1 cmp x2, 4 bne L1 // AddRoundConstant, perform 2nd part of ExpandRoundKey // w=R(w,8)^c;F(4)w=k[i]^=w; eor w13, w4, w13, ror 8 L2: ldr w10, [x1] eor w13, w13, w10 str w13, [x1], 4 subs x2, x2, 1 bne L2 // if round 11, stop // if(c==108)break; cmp w4, 108 beq L5 // update round constant // c=M(c); mov w14, w4 bl M mov w4, w10 // SubBytes and ShiftRows // F(16)((u8*)x)[w]=S(((u8*)s)[i]), w=(w-3)&15; L3: ldrb w13, [x0, x2] bl S and w10, w2, 3 lsr w11, w2, 2 sub w11, w11, w10 and w11, w11, 3 add w10, w10, w11, lsl 2 strb w13, [sp, w10, uxtw] add x2, x2, 1 cmp x2, 16 bne L3 // if (c != 108) cmp w4, 108 L4: beq L0 subs x2, x2, 4 // MixColumns // F(4)w=x[i],x[i]=R(w,8)^R(w,16)^R(w,24)^M(R(w,8)^w); ldr w13, [sp, x2] eor w14, w13, w13, ror 8 bl M eor w14, w10, w13, ror 8 eor w14, w14, w13, ror 16 eor w14, w14, w13, ror 24 str w14, [sp, x2] b L4 L5: add sp, sp, 32 ldr x30, [sp], 16 ret
{ "repo_name": "odzhan/aes_dust", "stars": "65", "repo_language": "Assembly", "file_name": "test.c", "mime_type": "text/x-c" }
/** This is free and unencumbered software released into the public domain. Anyone is free to copy, modify, publish, use, compile, sell, or distribute this software, either in source code form or as a compiled binary, for any purpose, commercial or non-commercial, and by any means. In jurisdictions that recognize copyright laws, the author or authors of this software dedicate any and all copyright interest in the software to the public domain. We make this dedication for the benefit of the public at large and to the detriment of our heirs and successors. We intend this dedication to be an overt act of relinquishment in perpetuity of all present and future rights to this software under copyright law. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. For more information, please refer to <http://unlicense.org/> */ // ----------------------------------------------- // AES-128 Encryption in x86 assembly // // size: 188 bytes for ECB, 255 for CTR // // global calls use cdecl convention // // ----------------------------------------------- .intel_syntax noprefix .global aes_ecb .global _aes_ecb // ***************************** // void aes_ecb(void *s); // ***************************** _aes_ecb: aes_ecb: pusha xor ecx, ecx # ecx = 0 mul ecx # eax = 0, edx = 0 inc eax # c = 1 mov cl, 4 pusha # alloca(32) // F(8)x[i]=((W*)s)[i] mov esi, [esp+64+4] # esi = s mov edi, esp pusha add ecx, ecx # copy state + master key to stack rep movsd popa // ***************************** // Multiplication over GF(2**8) // ***************************** call $+21 # save address push ecx # save ecx mov cl, 4 # 4 bytes add al, al # al <<= 1 jnc $+4 # xor al, 27 # ror eax, 8 # rotate for next byte loop $-9 # pop ecx # restore ecx ret pop ebp enc_main: // ***************************** // AddRoundKey, AddRoundConstant, ExpandRoundKey // ***************************** // w=k[3]; F(4)w=(w&-256)|S(w),w=R(w,8),((W*)s)[i]=x[i]^k[i]; // w=R(w,8)^c;F(4)w=k[i]^=w; pusha xchg eax, edx xchg esi, edi mov eax, [esi+16+12] # w=R(k[3],8) ror eax, 8 xor_key: mov ebx, [esi+16] # t=k[i] xor [esi], ebx # x[i]^=t movsd # s[i]=x[i] // w=(w&-256)|S(w) call S # al=S(al) ror eax, 8 # w=R(w,8) loop xor_key // w=R(w,8)^c xor eax, edx # w^=c // F(4)w=k[i]^=w mov cl, 4 exp_key: xor [esi], eax # k[i]^=w lodsd # w=k[i] loop exp_key popa // **************************** // if(c==108) break; cmp al, 108 jne upd_con popa popa ret upd_con: call ebp // *************************** // ShiftRows and SubBytes // *************************** // F(16)((u8*)x)[w]=S(((u8*)s)[i]), w=(w-3)&15; pusha shift_rows: lodsb # al = S(s[i]) call S mov [edi+edx], al sub edx, 3 and edx, 15 jnz shift_rows popa // ***************************** // if(c!=108){ cmp al, 108 je enc_main // ***************************** // MixColumns // ***************************** // F(4)w=x[i],x[i]=R(w,8)^R(w,16)^R(w,24)^M(R(w,8)^w); pusha mix_cols: mov eax, [edi] mov edx, eax ror edx, 8 xor eax, edx call ebp xor eax, edx ror edx, 8 xor eax, edx ror edx, 8 xor eax, edx stosd loop mix_cols popa jmp enc_main // ***************************** // B SubByte(B x) // ***************************** S: .ifndef DYNAMIC push ebx call init_sbox .byte 0x63, 0x7c, 0x77, 0x7b, 0xf2, 0x6b, 0x6f, 0xc5 .byte 0x30, 0x01, 0x67, 0x2b, 0xfe, 0xd7, 0xab, 0x76 .byte 0xca, 0x82, 0xc9, 0x7d, 0xfa, 0x59, 0x47, 0xf0 .byte 0xad, 0xd4, 0xa2, 0xaf, 0x9c, 0xa4, 0x72, 0xc0 .byte 0xb7, 0xfd, 0x93, 0x26, 0x36, 0x3f, 0xf7, 0xcc .byte 0x34, 0xa5, 0xe5, 0xf1, 0x71, 0xd8, 0x31, 0x15 .byte 0x04, 0xc7, 0x23, 0xc3, 0x18, 0x96, 0x05, 0x9a .byte 0x07, 0x12, 0x80, 0xe2, 0xeb, 0x27, 0xb2, 0x75 .byte 0x09, 0x83, 0x2c, 0x1a, 0x1b, 0x6e, 0x5a, 0xa0 .byte 0x52, 0x3b, 0xd6, 0xb3, 0x29, 0xe3, 0x2f, 0x84 .byte 0x53, 0xd1, 0x00, 0xed, 0x20, 0xfc, 0xb1, 0x5b .byte 0x6a, 0xcb, 0xbe, 0x39, 0x4a, 0x4c, 0x58, 0xcf .byte 0xd0, 0xef, 0xaa, 0xfb, 0x43, 0x4d, 0x33, 0x85 .byte 0x45, 0xf9, 0x02, 0x7f, 0x50, 0x3c, 0x9f, 0xa8 .byte 0x51, 0xa3, 0x40, 0x8f, 0x92, 0x9d, 0x38, 0xf5 .byte 0xbc, 0xb6, 0xda, 0x21, 0x10, 0xff, 0xf3, 0xd2 .byte 0xcd, 0x0c, 0x13, 0xec, 0x5f, 0x97, 0x44, 0x17 .byte 0xc4, 0xa7, 0x7e, 0x3d, 0x64, 0x5d, 0x19, 0x73 .byte 0x60, 0x81, 0x4f, 0xdc, 0x22, 0x2a, 0x90, 0x88 .byte 0x46, 0xee, 0xb8, 0x14, 0xde, 0x5e, 0x0b, 0xdb .byte 0xe0, 0x32, 0x3a, 0x0a, 0x49, 0x06, 0x24, 0x5c .byte 0xc2, 0xd3, 0xac, 0x62, 0x91, 0x95, 0xe4, 0x79 .byte 0xe7, 0xc8, 0x37, 0x6d, 0x8d, 0xd5, 0x4e, 0xa9 .byte 0x6c, 0x56, 0xf4, 0xea, 0x65, 0x7a, 0xae, 0x08 .byte 0xba, 0x78, 0x25, 0x2e, 0x1c, 0xa6, 0xb4, 0xc6 .byte 0xe8, 0xdd, 0x74, 0x1f, 0x4b, 0xbd, 0x8b, 0x8a .byte 0x70, 0x3e, 0xb5, 0x66, 0x48, 0x03, 0xf6, 0x0e .byte 0x61, 0x35, 0x57, 0xb9, 0x86, 0xc1, 0x1d, 0x9e .byte 0xe1, 0xf8, 0x98, 0x11, 0x69, 0xd9, 0x8e, 0x94 .byte 0x9b, 0x1e, 0x87, 0xe9, 0xce, 0x55, 0x28, 0xdf .byte 0x8c, 0xa1, 0x89, 0x0d, 0xbf, 0xe6, 0x42, 0x68 .byte 0x41, 0x99, 0x2d, 0x0f, 0xb0, 0x54, 0xbb, 0x16 init_sbox: pop ebx xlatb pop ebx .else pusha test al, al # if(x) { jz sb_l6 xchg eax, edx mov cl, -1 # i=255 // for(c=i=0,y=1;--i;y=(!c&&y==x)?c=1:y,y^=M(y)) sb_l0: mov al, 1 # y=1 sb_l1: test ah, ah # !c jnz sb_l2 cmp al, dl # y!=x setz ah jz sb_l0 sb_l2: mov dh, al # y^=M(y) call ebp # xor al, dh loop sb_l1 # --i // F(4)x^=y=(y<<1)|(y>>7) mov dl, al # dl=y mov cl, 4 # i=4 sb_l5: rol dl, 1 # y=R(y,1) xor al, dl # x^=y loop sb_l5 # i-- sb_l6: xor al, 99 # return x^99 mov [esp+28], al popa .endif ret .ifdef CTR .global aes_ctr .global _aes_ctr // void aes_ctr(W len, B *ctr, B *in, B *key) _aes_ctr: aes_ctr: pusha lea esi,[esp+32+4] lodsd xchg eax, ecx # ecx = len lodsd xchg eax, ebp # ebp = ctr lodsd xchg eax, edx # edx = in lodsd xchg esi, eax # esi = key pusha # alloca(32) // copy master key to local buffer // F(16)t[i+16]=key[i] lea edi, [esp+16] # edi = &t[16] movsd movsd movsd movsd aes_l0: xor eax, eax jecxz aes_l3 # while(len){ // copy counter+nonce to local buffer // F(16)t[i]=ctr[i] mov edi, esp # edi = t mov esi, ebp # esi = ctr push edi movsd movsd movsd movsd // encrypt t call aes_ecb_asm # E(t) pop edi aes_l1: // xor plaintext with ciphertext // r=len>16?16:len // F(r)in[i]^=t[i] mov bl, [edi+eax] # xor [edx], bl # *in++^=t[i] inc edx # inc eax # i++ cmp al, 16 # loopne aes_l1 # while(i!=16 && --ecx!=0) // update counter xchg eax, ecx # mov cl, 16 aes_l2: inc byte ptr[ebp+ecx-1] loopz aes_l2 # while(++c[i]==0 && --ecx!=0) xchg eax, ecx jmp aes_l0 aes_l3: popa popa ret .endif
{ "repo_name": "odzhan/aes_dust", "stars": "65", "repo_language": "Assembly", "file_name": "test.c", "mime_type": "text/x-c" }
// ser_print.h // 2015-09-04 Markku-Juhani O. Saarinen <[email protected]> // bits and pieces originally from various public domain sources #ifndef _SER_PRINT_H_ #define _SER_PRINT_H_ #include <stddef.h> #include <stdint.h> void ser_init(void); void ser_write(uint8_t c); void ser_print(const char *s); void ser_dec64(uint64_t x); void ser_hex8(uint8_t x); void ser_hex16(uint16_t x); void ser_end(); #endif
{ "repo_name": "odzhan/aes_dust", "stars": "65", "repo_language": "Assembly", "file_name": "test.c", "mime_type": "text/x-c" }
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{ "repo_name": "odzhan/aes_dust", "stars": "65", "repo_language": "Assembly", "file_name": "test.c", "mime_type": "text/x-c" }
/** This is free and unencumbered software released into the public domain. Anyone is free to copy, modify, publish, use, compile, sell, or distribute this software, either in source code form or as a compiled binary, for any purpose, commercial or non-commercial, and by any means. In jurisdictions that recognize copyright laws, the author or authors of this software dedicate any and all copyright interest in the software to the public domain. We make this dedication for the benefit of the public at large and to the detriment of our heirs and successors. We intend this dedication to be an overt act of relinquishment in perpetuity of all present and future rights to this software under copyright law. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. For more information, please refer to <http://unlicense.org/> */ #include "aes.h" // Multiplication over GF(2**8) #if AES_INT_LEN == 1 #define M(x)(((x)<<1)^((-((x)>>7))&0x1b)) #else u32 M(u32 x) { u32 t=x&0x80808080; return((x^t)<<1)^((t>>7)*0x1b); } #endif // the sbox array is used by default for optimal speed #ifndef DYNAMIC u8 sbox[256]= {0x63, 0x7c, 0x77, 0x7b, 0xf2, 0x6b, 0x6f, 0xc5, 0x30, 0x01, 0x67, 0x2b, 0xfe, 0xd7, 0xab, 0x76, 0xca, 0x82, 0xc9, 0x7d, 0xfa, 0x59, 0x47, 0xf0, 0xad, 0xd4, 0xa2, 0xaf, 0x9c, 0xa4, 0x72, 0xc0, 0xb7, 0xfd, 0x93, 0x26, 0x36, 0x3f, 0xf7, 0xcc, 0x34, 0xa5, 0xe5, 0xf1, 0x71, 0xd8, 0x31, 0x15, 0x04, 0xc7, 0x23, 0xc3, 0x18, 0x96, 0x05, 0x9a, 0x07, 0x12, 0x80, 0xe2, 0xeb, 0x27, 0xb2, 0x75, 0x09, 0x83, 0x2c, 0x1a, 0x1b, 0x6e, 0x5a, 0xa0, 0x52, 0x3b, 0xd6, 0xb3, 0x29, 0xe3, 0x2f, 0x84, 0x53, 0xd1, 0x00, 0xed, 0x20, 0xfc, 0xb1, 0x5b, 0x6a, 0xcb, 0xbe, 0x39, 0x4a, 0x4c, 0x58, 0xcf, 0xd0, 0xef, 0xaa, 0xfb, 0x43, 0x4d, 0x33, 0x85, 0x45, 0xf9, 0x02, 0x7f, 0x50, 0x3c, 0x9f, 0xa8, 0x51, 0xa3, 0x40, 0x8f, 0x92, 0x9d, 0x38, 0xf5, 0xbc, 0xb6, 0xda, 0x21, 0x10, 0xff, 0xf3, 0xd2, 0xcd, 0x0c, 0x13, 0xec, 0x5f, 0x97, 0x44, 0x17, 0xc4, 0xa7, 0x7e, 0x3d, 0x64, 0x5d, 0x19, 0x73, 0x60, 0x81, 0x4f, 0xdc, 0x22, 0x2a, 0x90, 0x88, 0x46, 0xee, 0xb8, 0x14, 0xde, 0x5e, 0x0b, 0xdb, 0xe0, 0x32, 0x3a, 0x0a, 0x49, 0x06, 0x24, 0x5c, 0xc2, 0xd3, 0xac, 0x62, 0x91, 0x95, 0xe4, 0x79, 0xe7, 0xc8, 0x37, 0x6d, 0x8d, 0xd5, 0x4e, 0xa9, 0x6c, 0x56, 0xf4, 0xea, 0x65, 0x7a, 0xae, 0x08, 0xba, 0x78, 0x25, 0x2e, 0x1c, 0xa6, 0xb4, 0xc6, 0xe8, 0xdd, 0x74, 0x1f, 0x4b, 0xbd, 0x8b, 0x8a, 0x70, 0x3e, 0xb5, 0x66, 0x48, 0x03, 0xf6, 0x0e, 0x61, 0x35, 0x57, 0xb9, 0x86, 0xc1, 0x1d, 0x9e, 0xe1, 0xf8, 0x98, 0x11, 0x69, 0xd9, 0x8e, 0x94, 0x9b, 0x1e, 0x87, 0xe9, 0xce, 0x55, 0x28, 0xdf, 0x8c, 0xa1, 0x89, 0x0d, 0xbf, 0xe6, 0x42, 0x68, 0x41, 0x99, 0x2d, 0x0f, 0xb0, 0x54, 0xbb, 0x16 }; #define S(x) sbox[x] #else // SubByte u8 S(u8 x) { u8 i,y,c; if(x) { for(c=i=0,y=1;--i;y=(!c&&y==x)?c=1:y,y^=M(y)); x=y; for(i=0;i<4;i++) { x^=y=(y<<1)|(y>>7); } } return x^99; } #endif #if AES_INT_LEN == 1 // 128-bit version for 8-bit architectures void aes_ecb(void *mk, void *data) { u8 a,b,c,d,i,j,t,w,x[AES_BLK_LEN],k[AES_KEY_LEN],rc=1,*s=(u8*)data; // copy 128-bit plain text + 128-bit master key to x for(i=0;i<AES_BLK_LEN;i++) { x[i]=s[i], k[i]=((u8*)mk)[i]; } for(;;) { // AddRoundKey for(i=0;i<AES_BLK_LEN;i++) { s[i]=x[i]^k[i]; } // if round 11, stop if(rc==108)break; // AddConstant k[0]^=rc; rc=M(rc); // ExpandKey for(i=0;i<4;i++) { k[i]^=S(k[12+((i-3)&3)]); } for(i=0;i<12;i++) { k[i+4]^=k[i]; } // SubBytes and ShiftRows for(w=i=0;i<AES_BLK_LEN;i++) { ((u8*)x)[w] = S(((u8*)s)[i]), w=(w-3)&15; } // if not round 11 if(rc!=108) { // MixColumns for(i=0;i<AES_BLK_LEN;i+=4) { a=x[i],b=x[i+1],c=x[i+2],d=x[i+3]; for(j=0;j<4;j++) { x[i+j]^=a^b^c^d^M(a^b); t=a,a=b,b=c,c=d,d=t; } } } } } #else // 32-bit or 64-bit versions #if AES_KEY_LEN == 32 void aes_ecb(void *mk, void *data) { u32 c=1,i,r=0,w,x[4],k[8], *s=(u32*)data; // copy 128-bit plain text for(i=0;i<4;i++) { x[i] = s[i]; } // copy 256-bit master key for(i=0;i<8;i++) { k[i] = ((u32*)mk)[i]; } for(;;) { // 1st part of ExpandKey w=k[r?3:7]; for(i=0;i<4;i++) { w=(w&-256) | S(w&255),w=R(w,8); } // AddConstant, update constant if(!r)w=R(w,8)^c,c=M(c); // AddRoundKey, 2nd part of ExpandKey for(i=0;i<4;i++) { ((u32*)s)[i]=x[i]^k[r*4+i], w=k[r*4+i]^=w; } // if round 15, stop if(c==27) break; r=(r+1)&1; // SubBytes and ShiftRows for(w=i=0;i<AES_BLK_LEN;i++) { ((u8*)x)[w] = S(((u8*)s)[i]), w = (w-3)&15; } // if not round 15, MixColumns if((c!=128) | r) { for(i=0;i<4;i++) { w=x[i],x[i]=R(w,8)^R(w,16)^R(w,24)^M(R(w,8)^w); } } } } #else void aes_ecb(void *mk, void *data) { u32 c=1,i,w,x[4],k[4],*s=(u32*)data; // copy 128-bit plain text + 128-bit master key to x for(i=0;i<4;i++) { x[i]=s[i], k[i]=((u32*)mk)[i]; } for(;;) { // 1st part of ExpandKey w=k[3]; for(i=0;i<4;i++) { w=(w&-256)|S(w&255), w=R(w,8); } // AddConstant, AddRoundKey, 2nd part of ExpandKey w=R(w, 8)^c; for(i=0;i<4;i++) { ((u32*)s)[i]=x[i]^k[i], w=k[i]^=w; } // if round 11, stop if(c==108)break; // update constant c=M(c); // SubBytes and ShiftRows for(w=i=0;i<AES_BLK_LEN;i++) { ((u8*)x)[w] = S(((u8*)s)[i]), w = (w-3)&15; } // if not round 11, MixColumns if(c!=108) { for(i=0;i<4;i++) { w=x[i],x[i]=R(w,8)^R(w,16)^R(w,24)^M(R(w,8)^w); } } } } #endif #endif #ifdef CTR // encrypt using Counter (CTR) mode void aes_ctr(u32 len, void *ctr, void *data, void *mk) { u8 i, r, t[AES_BLK_LEN], *p=data, *c=ctr; while(len) { // copy counter+nonce to local buffer for(i=0;i<AES_BLK_LEN;i++)t[i] = c[i]; // encrypt t aes_ecb(mk, t); // XOR plaintext with ciphertext r = len > AES_BLK_LEN ? AES_BLK_LEN : len; for(i=0;i<r;i++) p[i] ^= t[i]; // update length + position len -= r; p += r; // update counter. for(i=AES_BLK_LEN;i!=0;i--) if(++c[i-1]) break; } } #endif
{ "repo_name": "odzhan/aes_dust", "stars": "65", "repo_language": "Assembly", "file_name": "test.c", "mime_type": "text/x-c" }
/** This is free and unencumbered software released into the public domain. Anyone is free to copy, modify, publish, use, compile, sell, or distribute this software, either in source code form or as a compiled binary, for any purpose, commercial or non-commercial, and by any means. In jurisdictions that recognize copyright laws, the author or authors of this software dedicate any and all copyright interest in the software to the public domain. We make this dedication for the benefit of the public at large and to the detriment of our heirs and successors. We intend this dedication to be an overt act of relinquishment in perpetuity of all present and future rights to this software under copyright law. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. For more information, please refer to <http://unlicense.org/> */ #ifndef AES_H #define AES_H #define AES_INT_LEN 1 // 1 = 8-bit, 4 for anything else #define AES_KEY_LEN 16 // 16 = 128-bit, 32 = 256-bit #define AES_BLK_LEN 16 // always 16 for 128-bit blocks #if AES_INT_LEN == 1 && AES_KEY_LEN == 32 #error "AES-256 for 8-bit CPUs is currently unsupported." #endif typedef unsigned char u8; typedef char s8; #if AES_INT_LEN == 1 typedef unsigned char u32; #else #define R(v,n)(((v)>>(n))|((v)<<(32-(n)))) typedef unsigned int u32; #endif #ifdef __cplusplus extern "C" { #endif // mk should point to a 128-bit or 256-bit key // data should point to a 128-bit block of plaintext to encrypt void aes_ecb(void *mk, void *data); // len is the amount of bytes to encrypt // ctr is the 128-bit counter and nonce // data is the plaintext or ciphertext // mk is the 128-bit or 256-bit master key void aes_ctr(u32 len, void *ctr, void *data, void *mk); #ifdef __cplusplus } #endif #endif
{ "repo_name": "odzhan/aes_dust", "stars": "65", "repo_language": "Assembly", "file_name": "test.c", "mime_type": "text/x-c" }
# Makefile for Arduino Uno # 2019-24-02 odzhan PROJ = aes-avr TARGET = atmega328p CPUFREQ = 16000000 WIRE = arduino DEVICE = /dev/ttyACM1 CC = avr-gcc OBJCOPY = avr-objcopy AR = avr-ar STRIP = avr-strip AVRDUDE = avrdude CFLAGS = -DCTR -Wall -Ofast -mmcu=$(TARGET) -DF_CPU=$(CPUFREQ) OBJS = obj/aes.o $(PROJ): test.c ser_print.c obj/$(PROJ).a $(CC) $(CFLAGS) $^ -o $@ %.hex: % $(OBJCOPY) -O ihex -R .eeprom $^ $@ obj/$(PROJ).a: $(OBJS) $(AR) -ar cr $@ $^ obj/%.o: %.[cS] mkdir -p obj/ $(CC) $(CFLAGS) -c $^ -o $@ obj/%.S: %.c $(CC) $(CFLAGS) -S $^ -o $@ clean: rm -rf obj $(PROJ) $(PROJ).hex $(PROJ)-*.tgz dist: clean cd ..; \ tar cfvz $(PROJ)/$(PROJ)-`date "+%Y%m%d%H%M"`.tgz $(PROJ)/* # simulate with simavr sim: $(PROJ) simavr -v -v -v -m $(TARGET) $(PROJ) # flash on device, dump serial output flash: $(PROJ).hex $(AVRDUDE) -v -c $(WIRE) -p m328p -P $(DEVICE) \ -U flash:w:$(PROJ).hex stty -F $(DEVICE) raw icanon eof \^d 38400 cat < $(DEVICE)
{ "repo_name": "odzhan/aes_dust", "stars": "65", "repo_language": "Assembly", "file_name": "test.c", "mime_type": "text/x-c" }
// ser_print.c // 04-Sep-15 Markku-Juhani O. Saarinen <[email protected]> // bits and pieces originally from various public domain sources #include <stdio.h> #include <avr/io.h> #include "ser_print.h" #ifndef F_CPU #warning "F_CPU is not defined, set to 16MHz per default." #define F_CPU 16000000 #endif //#define BAUD 57600 #define BAUD 38400 #include <util/setbaud.h> #ifndef UCSRB # ifndef UDRE # define UDRE UDRE0 # define RXEN RXEN0 # define TXEN TXEN0 # endif # ifdef UCSR0A /* ATmega128 */ # define UCSRA UCSR0A # define UCSRB UCSR0B # define UBRRL UBRR0L # define UBRRH UBRR0H # define UDR UDR0 # else /* ATmega8 */ # define UCSRA USR # define UCSRB UCR # endif #endif #ifndef UBRR # define UBRR UBRRL #endif static char ser_initialized = 0; void ser_init(void) { UBRRH = UBRRH_VALUE; UBRRL = UBRRL_VALUE; /* Enable */ UCSRB = (1 << RXEN) | (1 << TXEN); } void ser_write(unsigned char c) { if (!ser_initialized) { ser_init(); ser_initialized = 1; } while (!(UCSRA & (1 << UDRE))) {}; UDR = c; } void ser_print(const char *s) { while (*s != 0) { ser_write(*s); s++; } } void ser_dec64(uint64_t x) { char buf[21]; int i; if (x == 0) { ser_print("0"); } else { i = 20; buf[i] = 0; while (x > 0 && i > 0) { buf[--i] = (char) ((x % 10) + '0'); x = x / 10; } ser_print(&buf[i]); } } void ser_hex8(uint8_t x) { char y; y = x >> 4; if (y < 10) y += '0'; else y += 'A' - 10; ser_write(y); y = x & 0xF; if (y < 10) y += '0'; else y += 'A' - 10; ser_write(y); } void ser_hex16(uint16_t x) { ser_hex8(x >> 8); ser_hex8(x & 0xFF); } void ser_end() { ser_write(4); while (1) {;} }
{ "repo_name": "odzhan/aes_dust", "stars": "65", "repo_language": "Assembly", "file_name": "test.c", "mime_type": "text/x-c" }
/** This is free and unencumbered software released into the public domain. Anyone is free to copy, modify, publish, use, compile, sell, or distribute this software, either in source code form or as a compiled binary, for any purpose, commercial or non-commercial, and by any means. In jurisdictions that recognize copyright laws, the author or authors of this software dedicate any and all copyright interest in the software to the public domain. We make this dedication for the benefit of the public at large and to the detriment of our heirs and successors. We intend this dedication to be an overt act of relinquishment in perpetuity of all present and future rights to this software under copyright law. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. For more information, please refer to <http://unlicense.org/> */ // Test unit for AES-128 ECB and CTR mode // Odzhan #include <avr/io.h> #include <avr/interrupt.h> #include <stdio.h> #include <string.h> #include <stdint.h> #include "aes.h" #include "ser_print.h" #undef AES_KEY_LEN #define AES_KEY_LEN 16 // 4 128-bit keys uint8_t ecb_keys[4][16]={ {0x2b, 0x7e, 0x15, 0x16, 0x28, 0xae, 0xd2, 0xa6, 0xab, 0xf7, 0x15, 0x88, 0x09, 0xcf, 0x4f, 0x3c}, {0x2b, 0x7e, 0x15, 0x16, 0x28, 0xae, 0xd2, 0xa6, 0xab, 0xf7, 0x15, 0x88, 0x09, 0xcf, 0x4f, 0x3c}, {0x2b, 0x7e, 0x15, 0x16, 0x28, 0xae, 0xd2, 0xa6, 0xab, 0xf7, 0x15, 0x88, 0x09, 0xcf, 0x4f, 0x3c}, {0x2b, 0x7e, 0x15, 0x16, 0x28, 0xae, 0xd2, 0xa6, 0xab, 0xf7, 0x15, 0x88, 0x09, 0xcf, 0x4f, 0x3c} }; // 4 128-bit plain texts uint8_t ecb_plain[4][16]={ {0x6b, 0xc1, 0xbe, 0xe2, 0x2e, 0x40, 0x9f, 0x96, 0xe9, 0x3d, 0x7e, 0x11, 0x73, 0x93, 0x17, 0x2a}, {0xae, 0x2d, 0x8a, 0x57, 0x1e, 0x03, 0xac, 0x9c, 0x9e, 0xb7, 0x6f, 0xac, 0x45, 0xaf, 0x8e, 0x51}, {0x30, 0xc8, 0x1c, 0x46, 0xa3, 0x5c, 0xe4, 0x11, 0xe5, 0xfb, 0xc1, 0x19, 0x1a, 0x0a, 0x52, 0xef}, {0xf6, 0x9f, 0x24, 0x45, 0xdf, 0x4f, 0x9b, 0x17, 0xad, 0x2b, 0x41, 0x7b, 0xe6, 0x6c, 0x37, 0x10} }; // 4 128-bit cipher texts uint8_t ecb_cipher[4][16]={ {0x3a, 0xd7, 0x7b, 0xb4, 0x0d, 0x7a, 0x36, 0x60, 0xa8, 0x9e, 0xca, 0xf3, 0x24, 0x66, 0xef, 0x97}, {0xf5, 0xd3, 0xd5, 0x85, 0x03, 0xb9, 0x69, 0x9d, 0xe7, 0x85, 0x89, 0x5a, 0x96, 0xfd, 0xba, 0xaf}, {0x43, 0xb1, 0xcd, 0x7f, 0x59, 0x8e, 0xce, 0x23, 0x88, 0x1b, 0x00, 0xe3, 0xed, 0x03, 0x06, 0x88}, {0x7b, 0x0c, 0x78, 0x5e, 0x27, 0xe8, 0xad, 0x3f, 0x82, 0x23, 0x20, 0x71, 0x04, 0x72, 0x5d, 0xd4} }; uint8_t ctr_key[16]={0x2b,0x7e,0x15,0x16,0x28,0xae,0xd2,0xa6,0xab,0xf7,0x15,0x88,0x09,0xcf,0x4f,0x3c}; uint8_t ctr_tv[16]={0xf0,0xf1,0xf2,0xf3,0xf4,0xf5,0xf6,0xf7,0xf8,0xf9,0xfa,0xfb,0xfc,0xfd,0xfe,0xff}; uint8_t ctr_plain[4][16]={ {0x6b,0xc1,0xbe,0xe2,0x2e,0x40,0x9f,0x96,0xe9,0x3d,0x7e,0x11,0x73,0x93,0x17,0x2a}, {0xae,0x2d,0x8a,0x57,0x1e,0x03,0xac,0x9c,0x9e,0xb7,0x6f,0xac,0x45,0xaf,0x8e,0x51}, {0x30,0xc8,0x1c,0x46,0xa3,0x5c,0xe4,0x11,0xe5,0xfb,0xc1,0x19,0x1a,0x0a,0x52,0xef}, {0xf6,0x9f,0x24,0x45,0xdf,0x4f,0x9b,0x17,0xad,0x2b,0x41,0x7b,0xe6,0x6c,0x37,0x10}}; uint8_t ctr_cipher[4][16]={ {0x87,0x4d,0x61,0x91,0xb6,0x20,0xe3,0x26,0x1b,0xef,0x68,0x64,0x99,0x0d,0xb6,0xce}, {0x98,0x06,0xf6,0x6b,0x79,0x70,0xfd,0xff,0x86,0x17,0x18,0x7b,0xb9,0xff,0xfd,0xff}, {0x5a,0xe4,0xdf,0x3e,0xdb,0xd5,0xd3,0x5e,0x5b,0x4f,0x09,0x02,0x0d,0xb0,0x3e,0xab}, {0x1e,0x03,0x1d,0xda,0x2f,0xbe,0x03,0xd1,0x79,0x21,0x70,0xa0,0xf3,0x00,0x9c,0xee}}; void bin2hex(char *s, void *p, int len) { int i; ser_print(s); ser_print(" : "); for (i=0; i<len; i++) { ser_hex8(((uint8_t*)p)[i]); } ser_print("\n"); } uint64_t tick_ticks; static uint8_t tick_init_done = 0; static void tick_init(void) { tick_ticks = 0; #ifdef __AVR_ATmega128__ TCCR1B = (1 << CS12); TIMSK |= (1 << TOIE1); #else TCCR0B = (1 << CS00); TCCR1B = (1 << CS12); TIMSK1 |= (1 << TOIE1); #endif TCNT0 = 0; TCNT1 = 0; sei(); // Enable global interrupts tick_init_done = 1; } // interrupt handler on TIMER1 overflow ISR(TIMER1_OVF_vect) { tick_ticks += (1UL << 24); } unsigned long long tick_cycles(void) { if (!tick_init_done) tick_init(); return tick_ticks | (((uint64_t) TCNT1) << 8) | ((uint64_t) TCNT0); } int main (void) { int run, i, equ; uint8_t data[16], key[AES_KEY_LEN]; uint64_t t; ser_print ("\n**** AES-128 ECB Test ****\n"); // ecb tests for (i=0; i<4; i++) { memcpy(data, ecb_plain[i], 16); memcpy(key, ecb_keys[i], AES_KEY_LEN); aes_ecb(key, data); equ=(memcmp(data, ecb_cipher[i],16)==0); bin2hex("key", key, 16); bin2hex("cipher", data, 16); ser_print("AES-128 ECB Test #"); ser_dec64(i+1); ser_print(" : "); if(equ) ser_print("OK\n\n"); else ser_print("FAILED.\n\n"); } #ifdef CTR ser_print ("\n**** AES-128 CTR Test ****\n"); // ctr tests bin2hex("key", ctr_key, 16); for(i=0;i<4;i++){ bin2hex("ctr", ctr_tv, 16); bin2hex("plain", ctr_plain[i], 16); memcpy(data, ctr_plain[i], 16); aes_ctr(16, ctr_tv, data, ctr_key); equ=(memcmp(data,ctr_cipher[i],16)==0); bin2hex("cipher", data, 16); ser_print("AES-128 CTR Test #"); ser_dec64(i+1); ser_print(" : "); if(equ) ser_print("OK\n\n"); else ser_print("FAILED.\n\n"); } #endif // time AES-128 tick_init(); for (run = 0; run < 10; run++) { ser_print("Run #"); ser_hex8(run); ser_print(" "); t = tick_cycles(); for (i = 1 << run; i > 0; i--) { aes_ecb(key, data); } t = tick_cycles() - t; t >>= run + 2; ser_dec64(t); ser_print(" ticks / block\n"); } ser_end(); return 0; }
{ "repo_name": "odzhan/aes_dust", "stars": "65", "repo_language": "Assembly", "file_name": "test.c", "mime_type": "text/x-c" }
<img width="1549" alt="ohno" src="https://user-images.githubusercontent.com/5906222/182972754-e3210024-4b22-4551-8658-8991190e5fb9.png"> [![Chat](https://img.shields.io/badge/chat-Discord-blueviolet)](https://discord.gg/cw4U3WHvpn) [![Support](https://img.shields.io/badge/Support-Patreon-FF424D)](https://www.patreon.com/oalabs) # The best theme for x64dbg! Don't blame me, the chat made me do it! Welcome to the best theme of x64dbg, guaranteed to immediately level up your debugging... because you will want to close this monstrosity as quickly as possible 😅 ## I want it! - Clone repository - Copy `/themes` to x64dbg directory - Copy `/translations` to x64dbg directory - Open x64dbg and choose Options->Themes->UwUdbg - What have you done?! - Choose Options->Languages->[af] Afrikaans and restart debugger - Weep as your debugger now speaks kawaii! ## Support Are you kidding?! 🤣
{ "repo_name": "OALabs/uwudbg-theme", "stars": "60", "repo_language": "CSS", "file_name": "style.css", "mime_type": "text/plain" }
[Colors] AbstractTableViewBackgroundColor=#ffbce2 AbstractTableViewHeaderTextColor=#E0E0E0 AbstractTableViewSelectionColor=#414141 AbstractTableViewSeparatorColor=#717171 AbstractTableViewTextColor=#000000 BackgroundFlickerColor=#FF6961 BreakpointSummaryKeywordColor=#8B671F BreakpointSummaryParenColor=#FF0000 BreakpointSummaryStringColor=#008000 DisassemblyAddressBackgroundColor=#XXXXXX DisassemblyAddressColor=#808080 DisassemblyAutoCommentBackgroundColor=#XXXXXX DisassemblyAutoCommentColor=#AA5500 DisassemblyBackgroundColor=#XXXXXX DisassemblyBookmarkBackgroundColor=#FEE970 DisassemblyBookmarkColor=#000000 DisassemblyBreakpointBackgroundColor=#FF0000 DisassemblyBreakpointColor=#000000 DisassemblyBytesBackgroundColor=#XXXXXX DisassemblyBytesColor=#000000 DisassemblyCipBackgroundColor=#000000 DisassemblyCipColor=#FFFFFF DisassemblyCommentBackgroundColor=#XXXXXX DisassemblyCommentColor=#000000 DisassemblyConditionalJumpLineFalseColor=#808080 DisassemblyConditionalJumpLineTrueColor=#FF0000 DisassemblyFunctionColor=#000000 DisassemblyHardwareBreakpointBackgroundColor=#XXXXXX DisassemblyHardwareBreakpointColor=#000000 DisassemblyLabelBackgroundColor=#XXXXXX DisassemblyLabelColor=#FF0000 DisassemblyLoopColor=#000000 DisassemblyMnemonicBriefBackgroundColor=#XXXXXX DisassemblyMnemonicBriefColor=#717171 DisassemblyModifiedBytesBackgroundColor=#XXXXXX DisassemblyModifiedBytesColor=#FF0000 DisassemblyRelocationUnderlineColor=#000000 DisassemblyRestoredBytesBackgroundColor=#XXXXXX DisassemblyRestoredBytesColor=#808080 DisassemblySelectedAddressBackgroundColor=#XXXXXX DisassemblySelectedAddressColor=#000000 DisassemblySelectionColor=#C0C0C0 DisassemblyTracedBackgroundColor=#C0FFC0 DisassemblyUnconditionalJumpLineColor=#FF0000 GraphBackgroundColor=#XXXXXX GraphBreakpointColor=#FF0000 GraphBrfalseColor=#ED4630 GraphBrtrueColor=#387804 GraphCipColor=#000000 GraphCurrentShadowColor=#473A3A GraphDisabledBreakpointColor=#00AA00 GraphIndirectcallShadowColor=#008080 GraphJmpColor=#0148FB GraphNodeBackgroundColor=#XXXXXX GraphNodeColor=#000000 GraphRetShadowColor=#900000 HexDumpAddressBackgroundColor=#XXXXXX HexDumpAddressColor=#000000 HexDumpBackgroundColor=#ffbce2 HexDumpByte00BackgroundColor=#XXXXXX HexDumpByte00Color=#008000 HexDumpByte7FBackgroundColor=#XXXXXX HexDumpByte7FColor=#808000 HexDumpByteFFBackgroundColor=#XXXXXX HexDumpByteFFColor=#800000 HexDumpByteIsPrintBackgroundColor=#XXXXXX HexDumpByteIsPrintColor=#800080 HexDumpLabelBackgroundColor=#XXXXXX HexDumpLabelColor=#FF0000 HexDumpModifiedBytesBackgroundColor=#XXXXXX HexDumpModifiedBytesColor=#FF0000 HexDumpRestoredBytesBackgroundColor=#XXXXXX HexDumpRestoredBytesColor=#808080 HexDumpSelectionColor=#C0C0C0 HexDumpSystemModuleCodePointerHighlightColor=#FF0000 HexDumpSystemModuleDataPointerHighlightColor=#800000 HexDumpTextColor=#000000 HexDumpUnknownCodePointerHighlightColor=#0000FF HexDumpUnknownDataPointerHighlightColor=#000080 HexDumpUserModuleCodePointerHighlightColor=#00FF00 HexDumpUserModuleDataPointerHighlightColor=#008000 HexEditBackgroundColor=#ffbce2 HexEditSelectionColor=#C0C0C0 HexEditTextColor=#000000 HexEditWildcardColor=#FF0000 InstructionAddressBackgroundColor=#FFFF00 InstructionAddressColor=#000000 InstructionCallBackgroundColor=#00FFFF InstructionCallColor=#000000 InstructionCommaBackgroundColor=#XXXXXX InstructionCommaColor=#000000 InstructionConditionalJumpBackgroundColor=#FFFF00 InstructionConditionalJumpColor=#FF0000 InstructionFarBackgroundColor=#XXXXXX InstructionFarColor=#000000 InstructionFpuRegisterBackgroundColor=#XXXXXX InstructionFpuRegisterColor=#000080 InstructionGeneralRegisterBackgroundColor=#XXXXXX InstructionGeneralRegisterColor=#008300 InstructionHighlightBackgroundColor=#CC0000 InstructionHighlightColor=#FFFFFF InstructionInt3BackgroundColor=#XXXXXX InstructionInt3Color=#000000 InstructionMemoryBaseRegisterBackgroundColor=#XXXXXX InstructionMemoryBaseRegisterColor=#B03434 InstructionMemoryBracketsBackgroundColor=#XXXXXX InstructionMemoryBracketsColor=#000000 InstructionMemoryIndexRegisterBackgroundColor=#XXXXXX InstructionMemoryIndexRegisterColor=#3838BC InstructionMemoryOperatorBackgroundColor=#XXXXXX InstructionMemoryOperatorColor=#F27711 InstructionMemoryScaleBackgroundColor=#XXXXXX InstructionMemoryScaleColor=#B30059 InstructionMemorySegmentBackgroundColor=#XXXXXX InstructionMemorySegmentColor=#FF00FF InstructionMemorySizeBackgroundColor=#XXXXXX InstructionMemorySizeColor=#000080 InstructionMemoryStackBracketsBackgroundColor=#00FFFF InstructionMemoryStackBracketsColor=#000000 InstructionMmxRegisterBackgroundColor=#XXXXXX InstructionMmxRegisterColor=#000080 InstructionMnemonicBackgroundColor=#XXXXXX InstructionMnemonicColor=#000000 InstructionNopBackgroundColor=#XXXXXX InstructionNopColor=#808080 InstructionPrefixBackgroundColor=#XXXXXX InstructionPrefixColor=#000000 InstructionPushPopBackgroundColor=#XXXXXX InstructionPushPopColor=#0000FF InstructionRetBackgroundColor=#00FFFF InstructionRetColor=#000000 InstructionUncategorizedBackgroundColor=#XXXXXX InstructionUncategorizedColor=#000000 InstructionUnconditionalJumpBackgroundColor=#FFFF00 InstructionUnconditionalJumpColor=#000000 InstructionUnusualBackgroundColor=#C00000 InstructionUnusualColor=#000000 InstructionValueBackgroundColor=#XXXXXX InstructionValueColor=#828200 InstructionXmmRegisterBackgroundColor=#XXXXXX InstructionXmmRegisterColor=#000080 InstructionYmmRegisterBackgroundColor=#XXXXXX InstructionYmmRegisterColor=#000080 InstructionZmmRegisterBackgroundColor=#XXXXXX InstructionZmmRegisterColor=#000080 LinkColor=#0000FF LogLinkBackgroundColor=#XXXXXX LogLinkColor=#00CC00 MemoryMapBreakpointBackgroundColor=#FF0000 MemoryMapBreakpointColor=#000000 MemoryMapCipBackgroundColor=#000000 MemoryMapCipColor=#FFFFFF MemoryMapSectionTextColor=#8B671F PatchRelocatedByteHighlightColor=#0000DD RegistersArgumentLabelColor=#008000 RegistersBackgroundColor=#ffbce2 RegistersColor=#000000 RegistersExtraInfoColor=#000000 RegistersHighlightReadColor=#00A000 RegistersHighlightReadWriteColor=#808000 RegistersHighlightWriteColor=#B00000 RegistersLabelColor=#000000 RegistersModifiedColor=#FF0000 RegistersSelectionColor=#EEEEEE SearchListViewHighlightBackgroundColor=#XXXXXX SearchListViewHighlightColor=#FF0000 SideBarBackgroundColor=#ffbce2 SideBarBulletBookmarkColor=#FEE970 SideBarBulletBreakpointColor=#FF0000 SideBarBulletColor=#808080 SideBarBulletDisabledBreakpointColor=#00AA00 SideBarCheckBoxBackColor=#FFFFFF SideBarCheckBoxForeColor=#000000 SideBarCipLabelBackgroundColor=#4040FF SideBarCipLabelColor=#FFFFFF SideBarConditionalJumpLineFalseBackwardsColor=#FFA500 SideBarConditionalJumpLineFalseColor=#00BBFF SideBarConditionalJumpLineTrueBackwardsColor=#FF0000 SideBarConditionalJumpLineTrueColor=#FF0000 SideBarUnconditionalJumpLineFalseBackwardsColor=#FFA500 SideBarUnconditionalJumpLineFalseColor=#00BBFF SideBarUnconditionalJumpLineTrueBackwardsColor=#FF0000 SideBarUnconditionalJumpLineTrueColor=#FF0000 StackAddressBackgroundColor=#XXXXXX StackAddressColor=#808080 StackBackgroundColor=#ffbce2 StackCspBackgroundColor=#000000 StackCspColor=#FFFFFF StackFrameColor=#000000 StackFrameSystemColor=#0000FF StackInactiveTextColor=#808080 StackLabelBackgroundColor=#XXXXXX StackLabelColor=#FF0000 StackReturnToColor=#FF0000 StackSEHChainColor=#AE81FF StackSelectedAddressBackgroundColor=#XXXXXX StackSelectedAddressColor=#000000 StackSelectionColor=#C0C0C0 StackTextColor=#000000 StructAlternateBackgroundColor=#DCD9CF StructBackgroundColor=#ffbce2 SymbolLoadedTextColor=#008000 SymbolLoadingTextColor=#8B671F SymbolSystemTextColor=#000000 SymbolUnloadedTextColor=#000000 SymbolUserTextColor=#000000 ThreadCurrentBackgroundColor=#000000 ThreadCurrentColor=#FFFFFF WatchTriggeredBackgroundColor=#ffbce2 WatchTriggeredColor=#FF0000
{ "repo_name": "OALabs/uwudbg-theme", "stars": "60", "repo_language": "CSS", "file_name": "style.css", "mime_type": "text/plain" }
/* Based on: https://github.com/radareorg/cutter/blob/48b84bfa5c7fd7c7aa8595b8f742c9d8081d09fc/src/themes/qdarkstyle/style.qss */ /* Modified for x64dbg by JustMagic: https://github.com/JustasMasiulis */ /* Use 'url(./xxxx)' for resources, it will be replaced with the right path at runtime */ ShortcutEdit[error="true"] { color: #EF5350; } QTabWidget::pane { border: 0px; } QTabBar::tear { width: 0px; border: none; } QToolTip { border: 1px solid #111111; background-color: #E041B1; color: white; padding: 0px; /*remove padding, for fix combobox tooltip.*/ /*opacity: 200;*/ color: #000000; } QWidget { color: #000000; background-color: #FF69B4; selection-background-color: #89a2f6; selection-color: #000000; background-clip: border; border-image: none; border: 0px transparent black; outline: 0; } /*noinspection ALL*/ QWidget:item:hover { background-color: #E041B1; color: #000001; } QWidget:item:selected { background-color: #E041B1; } QCheckBox { spacing: 5px; outline: none; color: #000001; margin-bottom: 2px; } QCheckBox:disabled { color: #FB48C4; } QCheckBox::indicator, QGroupBox::indicator { width: 18px; height: 18px; } QGroupBox::indicator { margin-left: 2px; } QCheckBox::indicator:unchecked { image: url(./rc/checkbox_unchecked.png); } QCheckBox::indicator:unchecked:hover, QCheckBox::indicator:unchecked:focus, QCheckBox::indicator:unchecked:pressed, QGroupBox::indicator:unchecked:hover, QGroupBox::indicator:unchecked:focus, QGroupBox::indicator:unchecked:pressed { border: none; image: url(./rc/checkbox_unchecked_focus.png); } QCheckBox::indicator:checked { image: url(./rc/checkbox_checked.png); } QCheckBox::indicator:checked:hover, QCheckBox::indicator:checked:focus, QCheckBox::indicator:checked:pressed, QGroupBox::indicator:checked:hover, QGroupBox::indicator:checked:focus, QGroupBox::indicator:checked:pressed { border: none; image: url(./rc/checkbox_checked_focus.png); } QCheckBox::indicator:indeterminate { image: url(./rc/checkbox_indeterminate.png); } QCheckBox::indicator:indeterminate:focus, QCheckBox::indicator:indeterminate:hover, QCheckBox::indicator:indeterminate:pressed { image: url(./rc/checkbox_indeterminate_focus.png); } QCheckBox::indicator:checked:disabled, QGroupBox::indicator:checked:disabled { image: url(./rc/checkbox_checked_disabled.png); } QCheckBox::indicator:unchecked:disabled, QGroupBox::indicator:unchecked:disabled { image: url(./rc/checkbox_unchecked_disabled.png); } QRadioButton { spacing: 5px; outline: none; color: #000001; margin-bottom: 2px; } QRadioButton:disabled { color: #2a2b2f; } QRadioButton::indicator { width: 21px; height: 21px; } QRadioButton::indicator:unchecked { image: url(./rc/radio_unchecked.png); } QRadioButton::indicator:unchecked:hover, QRadioButton::indicator:unchecked:focus, QRadioButton::indicator:unchecked:pressed { border: none; outline: none; image: url(./rc/radio_unchecked_focus.png); } QRadioButton::indicator:checked { border: none; outline: none; image: url(./rc/radio_checked.png); } QRadioButton::indicator:checked:hover, QRadioButton::indicator:checked:focus, QRadioButton::indicator:checked:pressed { border: none; outline: none; image: url(./rc/radio_checked_focus.png); } QRadioButton::indicator:checked:disabled { outline: none; image: url(./rc/radio_checked_disabled.png); } QRadioButton::indicator:unchecked:disabled { image: url(./rc/radio_unchecked_disabled.png); } QMenuBar { background-color: #FF69B4; color: #000001; } QMenuBar::item { background: transparent; } QMenuBar::item:selected { background: #E041B1; border: 1px solid #FF69B4; } QMenuBar::item:pressed { border: 1px solid #FF69B4; background-color: #E041B1; color: white; margin-bottom: -1px; padding-bottom: 1px; } QMenuBar::item:disabled { color: #666699; } QMenuBar::item:disabled:selected { background: transparent; color: #666699; } QMenu { border: 1px solid #FF69B4; color: #000001; margin: 2px; } QMenu::icon { margin: 5px; } QMenu::item { padding: 5px 30px 5px 30px; border: 1px solid transparent; /* reserve space for selection border */ } QMenu::item:selected { color: #000001; } QMenu::separator { height: 2px; background: lightblue; margin-left: 10px; margin-right: 5px; } QMenu::indicator { width: 18px; height: 18px; } /* non-exclusive indicator = check box style indicator (see QActionGroup::setExclusive) */ QMenu::indicator:non-exclusive:unchecked { image: url(./rc/checkbox_unchecked.png); } QMenu::indicator:non-exclusive:unchecked:selected { image: url(./rc/checkbox_unchecked_disabled.png); } QMenu::indicator:non-exclusive:checked { image: url(./rc/checkbox_checked.png); } QMenu::indicator:non-exclusive:checked:selected { image: url(./rc/checkbox_checked_disabled.png); } /* exclusive indicator = radio button style indicator (see QActionGroup::setExclusive) */ QMenu::indicator:exclusive:unchecked { image: url(./rc/radio_unchecked.png); } QMenu::indicator:exclusive:unchecked:selected { image: url(./rc/radio_unchecked_disabled.png); } QMenu::indicator:exclusive:checked { image: url(./rc/radio_checked.png); } QMenu::indicator:exclusive:checked:selected { image: url(./rc/radio_checked_disabled.png); } QMenu::right-arrow { margin: 5px; image: url(./rc/right_arrow.png) } QWidget:disabled { color: #E041B1; background-color: #FF69B4; } QAbstractItemView { alternate-background-color: #FF69B4; color: #000001; border: 1px solid #FF69B4; border-radius: 2px; } QWidget:focus, QMenuBar:focus { border: 1px solid #E041B1; } QTabWidget:focus, QCheckBox:focus, QRadioButton:focus, QSlider:focus { border: none; } QLineEdit { background-color: #FB48C4; padding: 1px; border-style: solid; border: 1px solid #FF69B4; border-radius: 2px; color: #000001; } QAbstractItemView QLineEdit { padding: 0; } QGroupBox { border: 1px solid #FF69B4; border-radius: 2px; margin-top: 20px; } QGroupBox::title { subcontrol-origin: margin; subcontrol-position: top center; padding-left: 5px; padding-right: 5px; padding-top: 5px; } QAbstractScrollArea { border-radius: 2px; border: 1px solid #FF69B4; background-color: transparent; } QScrollBar:horizontal { height: 18px; margin: 4px 16px 4px 16px; border: 0; border-radius: 4px; background-color: #E041B1; } QScrollBar::handle:horizontal { background-color: #717171; min-width: 5px; border-radius: 4px; } QScrollBar::add-line:horizontal { margin: 0px 3px 0px 3px; border-image: url(./rc/right_arrow_disabled.png); width: 10px; height: 10px; subcontrol-position: right; subcontrol-origin: margin; } QScrollBar::sub-line:horizontal { margin: 0px 3px 0px 3px; border-image: url(./rc/left_arrow_disabled.png); height: 10px; width: 10px; subcontrol-position: left; subcontrol-origin: margin; } QScrollBar::add-line:horizontal:hover, QScrollBar::add-line:horizontal:on { border-image: url(./rc/right_arrow.png); height: 10px; width: 10px; subcontrol-position: right; subcontrol-origin: margin; } QScrollBar::sub-line:horizontal:hover, QScrollBar::sub-line:horizontal:on { border-image: url(./rc/left_arrow.png); height: 10px; width: 10px; subcontrol-position: left; subcontrol-origin: margin; } QScrollBar::up-arrow:horizontal, QScrollBar::down-arrow:horizontal { background: none; } QScrollBar::add-page:horizontal, QScrollBar::sub-page:horizontal { background: none; } QScrollBar:vertical { background-color: #E041B1; width: 18px; margin: 16px 4px 16px 4px; border-radius: 4px; } QScrollBar::handle:vertical { background-color: #717171; min-height: 24px; border-radius: 4px; } QScrollBar::sub-line:vertical { margin: 3px 0px 3px 0px; border-image: url(./rc/up_arrow_disabled.png); height: 10px; width: 10px; subcontrol-position: top; subcontrol-origin: margin; } QScrollBar::add-line:vertical { margin: 3px 0px 3px 0px; border-image: url(./rc/down_arrow_disabled.png); height: 10px; width: 10px; subcontrol-position: bottom; subcontrol-origin: margin; } QScrollBar::sub-line:vertical:hover, QScrollBar::sub-line:vertical:on { border-image: url(./rc/up_arrow.png); height: 10px; width: 10px; subcontrol-position: top; subcontrol-origin: margin; } QScrollBar::add-line:vertical:hover, QScrollBar::add-line:vertical:on { border-image: url(./rc/down_arrow.png); height: 10px; width: 10px; subcontrol-position: bottom; subcontrol-origin: margin; } QScrollBar::up-arrow:vertical, QScrollBar::down-arrow:vertical { background: none; } QScrollBar::add-page:vertical, QScrollBar::sub-page:vertical { background: none; } QTextEdit { background-color: #FB48C4; color: #000001; border: 1px solid #FF69B4; } QPlainTextEdit { background-color: #FB48C4; ; color: #000001; border-radius: 2px; border: 1px solid #FF69B4; } QHeaderView::section { background-color: #2a2b2f; color: #000001; padding: 5px; border: 1px solid #FF69B4; } QSizeGrip { image: url(./rc/sizegrip.png); width: 12px; height: 12px; } QMainWindow::separator { background-color: #FF69B4; color: white; padding-left: 4px; spacing: 2px; } QMainWindow::separator:hover { background-color: #787876; color: white; padding-left: 4px; border: 1px solid #FF69B4; spacing: 2px; } QMenu::separator { height: 1px; background-color: #2a2b2f; color: white; padding-left: 4px; margin-left: 10px; margin-right: 5px; } QFrame { border: 1px solid #FF69B4; } QFrame[frameShape="0"] { border: 1px transparent #2a2b2f; } QStackedWidget { border: 1px transparent black; } QToolBar { border: 1px transparent #2a2b2f; background: 1px solid #FF69B4; font-weight: bold; qproperty-iconSize: 48px; } QToolBar::handle:horizontal { image: url(./rc/Hmovetoolbar.png); } QToolBar::handle:vertical { image: url(./rc/Vmovetoolbar.png); } QToolBar::separator:horizontal { image: url(./rc/Hsepartoolbar.png); } QToolBar::separator:vertical { image: url(./rc/Vsepartoolbar.png); } QToolButton#qt_toolbar_ext_button { background: #58595a } QPushButton { color: #000001; background-color: #FF69B4; border-width: 1px; border-color: #2a2b2f; border-style: solid; padding: 5px; border-radius: 2px; outline: none; } QPushButton:disabled { background-color: #FF69B4; border-width: 1px; border-color: #454545; border-style: solid; padding-top: 5px; padding-bottom: 5px; padding-left: 10px; padding-right: 10px; border-radius: 2px; color: grey; } QPushButton:focus { background-color: #E041B1; color: white; } QPushButton:pressed { background-color: #E041B1; padding-top: -15px; padding-bottom: -17px; } QComboBox { selection-background-color: #89a2f6; selection-color: #000000; border-style: solid; border: 1px solid #FF69B4; border-radius: 2px; padding: 5px; min-width: 75px; } QPushButton:checked { background-color: #2a2b2f; border-color: #2a2b2f; } QComboBox:hover, QPushButton:hover, QAbstractSpinBox:hover, QLineEdit:hover, QTextEdit:hover, QPlainTextEdit:hover, QAbstractView:hover, QTreeView:hover { border: 1px solid #E041B1; color: #000001; } QComboBox:on { padding-top: 3px; padding-left: 4px; selection-background-color: #4a4a4a; } QComboBox QAbstractItemView { background-color: #FB48C4; border-radius: 2px; border: 1px solid #FF69B4; selection-background-color: #E041B1; } QComboBox::drop-down { subcontrol-origin: padding; subcontrol-position: top right; width: 15px; border-left-width: 0px; border-left-color: darkgray; border-left-style: solid; border-top-right-radius: 3px; border-bottom-right-radius: 3px; } QComboBox::down-arrow { image: url(./rc/down_arrow_disabled.png); } QComboBox::down-arrow:on, QComboBox::down-arrow:hover, QComboBox::down-arrow:focus { image: url(./rc/down_arrow.png); } QAbstractSpinBox { padding: 5px; border: 0; background-color: #FB48C4; color: #000001; border-radius: 2px; min-width: 75px; } QAbstractSpinBox:up-button { background-color: transparent; subcontrol-origin: border; subcontrol-position: center right; } QAbstractSpinBox:down-button { background-color: transparent; subcontrol-origin: border; subcontrol-position: center left; } QAbstractSpinBox::up-arrow, QAbstractSpinBox::up-arrow:disabled, QAbstractSpinBox::up-arrow:off { image: url(./rc/up_arrow_disabled.png); width: 10px; height: 10px; } QAbstractSpinBox::up-arrow:hover { image: url(./rc/up_arrow.png); } QAbstractSpinBox::down-arrow, QAbstractSpinBox::down-arrow:disabled, QAbstractSpinBox::down-arrow:off { image: url(./rc/down_arrow_disabled.png); width: 10px; height: 10px; } QAbstractSpinBox::down-arrow:hover { image: url(./rc/down_arrow.png); } QLabel { border: 0px solid black; } QTabWidget { border: 0px transparent black; color: #000001; } QTabWidget::pane { border: 1px solid #FF69B4; padding: 1px; margin: 0px; color: #000001; } QTabWidget::tab-bar { /* left: 5px; move to the right by 5px */ } QTabBar { qproperty-drawBase: 0; } QTabBar:focus { } QTabBar::close-button { image: url(./rc/close.png); background: transparent; } QTabBar::close-button:hover { image: url(./rc/close-hover.png); background: transparent; } QTabBar::close-button:pressed { image: url(./rc/close-pressed.png); background: transparent; } QTabBar::tab { color: #000001; background-color: #FB48C4; padding: 3px; /*min-width: 50px;*/ padding: 4px 10px; border: 1px solid #FF69B4; border-top-left-radius: 3px; border-top-right-radius: 3px; } QTabBar::tab:selected { background-color: #E041B1; color: #89A2F6; border-bottom: 2px solid #89A2F6; } QTabBar::tab:hover { background-color: #E041B1; } /* Attempt at fixing an ugly bug: https://stackoverflow.com/a/55097717/1806760 */ QTabBar QToolButton { border-width: 1px; border-color: #515151; border-style: solid; border-radius: 2px; background: #FF69B4; padding: 0px; margin: 0px; margin-top: 2px; margin-bottom: 2px; } QTabBar QToolButton::hover { background: #FF69B4; border: 1px solid #717171; } QTabBar::scroller { width: 15px; } QTabBar QToolButton::right-arrow:enabled { image: url(./rc/right_arrow.png); } QTabBar QToolButton::left-arrow:enabled { image: url(./rc/left_arrow.png); } QTabBar QToolButton::right-arrow:disabled { image: url(./rc/right_arrow_disabled.png); } QTabBar QToolButton::left-arrow:disabled { image: url(./rc/left_arrow_disabled.png); } QDockWidget { background: #FF69B4; border: 1px solid #FF69B4; titlebar-close-icon: url(./rc/close.png); titlebar-normal-icon: url(./rc/undock.png); } QDockWidget::close-button, QDockWidget::float-button { border: 1px solid transparent; border-radius: 2px; background: transparent; } QDockWidget::close-button:hover, QDockWidget::float-button:hover { background: rgba(255, 255, 255, 10); } QDockWidget::close-button:pressed, QDockWidget::float-button:pressed { padding: 1px -1px -1px 1px; background: rgba(255, 255, 255, 10); } QTreeView, QListView { background-color: #FB48C4; } QTreeView:branch:selected, QTreeView:branch:hover { background: url(./rc/transparent.png); } QTreeView::branch:has-siblings:!adjoins-item { border-image: url(./rc/transparent.png); } QTreeView::branch:has-siblings:adjoins-item { border-image: url(./rc/transparent.png); } QTreeView::branch:!has-children:!has-siblings:adjoins-item { border-image: url(./rc/transparent.png); } QTreeView::branch:has-children:!has-siblings:closed, QTreeView::branch:closed:has-children:has-siblings { image: url(./rc/branch_closed.png); } QTreeView::branch:open:has-children:!has-siblings, QTreeView::branch:open:has-children:has-siblings { image: url(./rc/branch_open.png); } QTreeView::branch:has-children:!has-siblings:closed:hover, QTreeView::branch:closed:has-children:has-siblings:hover { image: url(./rc/branch_closed-on.png); } QTreeView::branch:open:has-children:!has-siblings:hover, QTreeView::branch:open:has-children:has-siblings:hover { image: url(./rc/branch_open-on.png); } QListView::item:!selected:hover, QTreeView::item:!selected:hover { background: #E041B1; outline: 0; color: #000001 } QListView::item:selected:hover, QTreeView::item:selected:hover { background: #E041B1; color: #000001; } QTreeView::indicator:checked, QListView::indicator:checked { image: url(./rc/checkbox_checked.png); } QTreeView::indicator:unchecked, QListView::indicator:unchecked { image: url(./rc/checkbox_unchecked.png); } QTreeView::indicator:checked:hover, QTreeView::indicator:checked:focus, QTreeView::indicator:checked:pressed, QListView::indicator:checked:hover, QListView::indicator:checked:focus, QListView::indicator:checked:pressed { image: url(./rc/checkbox_checked_focus.png); } QTreeView::indicator:unchecked:hover, QTreeView::indicator:unchecked:focus, QTreeView::indicator:unchecked:pressed, QListView::indicator:unchecked:hover, QListView::indicator:unchecked:focus, QListView::indicator:unchecked:pressed { image: url(./rc/checkbox_unchecked_focus.png); } QSlider::groove:horizontal { border: 1px solid #FF69B4; height: 4px; background: #2a2b2f; margin: 0px; border-radius: 2px; } QSlider::handle:horizontal { background: #FB48C4; border: 1px solid #FF69B4; width: 16px; height: 16px; margin: -8px 0; border-radius: 9px; } QSlider::groove:vertical { border: 1px solid #FF69B4; width: 4px; background: #2a2b2f; margin: 0px; border-radius: 3px; } QSlider::handle:vertical { background: #FB48C4; border: 1px solid #FF69B4; width: 16px; height: 16px; margin: 0 -8px; border-radius: 9px; } QToolButton { background-color: transparent; border: 1px transparent #2a2b2f; border-radius: 2px; margin: 3px; padding: 3px; } QToolButton:hover { background-color: transparent; border: 1px solid #E041B1; } QToolButton:checked, QToolButton:pressed { background-color: #E041B1; border: 1px solid #E041B1; } QHeaderView { border-radius: 0px; } QListView::item:pressed, QTreeView::item:pressed { background: #E041B1; color: #000001; } QTreeView::item:selected:active, QListView::item:selected:active { background: #E041B1; color: #000001; } QHeaderView { background-color: #FF69B4; margin: 0px; padding: 0px; } QHeaderView::section { background-color: #FB48C4; color: #000001; padding: 0 3px 0 3px; border: none; text-align: center; } QHeaderView::section::vertical::first, QHeaderView::section::vertical::only-one { border-top: 1px solid #FB48C4; } QHeaderView::section::vertical { border-top: transparent; } QHeaderView::section::horizontal::first, QHeaderView::section::horizontal::only-one { border-left: 1px solid #FB48C4; } QHeaderView::section::horizontal { border-left: transparent; } QHeaderView::section:checked { color: white; background-color: #E041B1; } QHeaderView::down-arrow { image: url(./rc/down_arrow.png); } QHeaderView::up-arrow { image: url(./rc/up_arrow.png); } QStatusBar::item { border: none; } QSplitter::handle { background-color: #515151; } QSplitter::handle:hover { background-color: #808080; } QProgressBar { border: 1px solid #FF69B4; border-radius: 4px; text-align: center; } QProgressBar::chunk { background-color: #89A2F6; } /* QStatusBar == DebugStatusLabel, LogStatusLabel, TimeWastedCounter */ /*QStatusBar QLabel { background-color: #c0c0c0; }*/ QStatusBar QFrame { qproperty-frameShape: Panel; qproperty-frameShadow: Sunken; } QStatusBar::item { border: none; } /*QStatusBar { background-color: #c0c0c0; }*/ DebugStatusLabel[state="initialized"] { color: #00dd00; /*background-color: #c0c0c0;*/ } DebugStatusLabel[state="paused"] { color: #828229; /*background-color: #ffff00;*/ } DebugStatusLabel[state="running"] { color: #000000; /*background-color: #c0c0c0;*/ } DebugStatusLabel[state="stopped"] { color: #ff0000; /*background-color: #c0c0c0;*/ } /*QPushButton#AbstractTableViewHeader { background-color: rgb(192, 192, 192); border-style: outset; border-width: 2px; border-color: rgb(128, 128, 128); }*/ QPushButton#AbstractTableViewHeader QPushButton:pressed { background-color: rgb(192, 192, 192); border-style: inset; } ShortcutEdit { color: #222222; } ShortcutEdit[error="true"] { color: #dd0000; } QTabWidget::pane { border: 0px; } QTabBar::tear { width: 0px; border: none; } Disassembly{ background-repeat: no-repeat; background-image: url(./rc/bellebackground.png) 0 0 0 0 stretch stretch; /*border-image: url(./rc/bellebackground.png) 0 0 0 0 stretch stretch;*/ background-attachment: fixed; background-position: bottom right; background-color: #ffbce2; }
{ "repo_name": "OALabs/uwudbg-theme", "stars": "60", "repo_language": "CSS", "file_name": "style.css", "mime_type": "text/plain" }
#!/bin/sh # shellcheck disable=SC3040 set -euo pipefail # Usage: hashupdate <FILE> <NAME> <VERSION> URL_TEMPLATE=$(grep "$2_URL=" "$1" | sed -E 's/.*="(.*)"/\1/') URL=$(echo "$URL_TEMPLATE" | sed "s/\$$2_VERSION/$3/g") SHA256=$(curl -sL "$URL" | sha256sum | sed -e 's/ -//g') sed -i -E "s/$2_SHA256=.*/$2_SHA256=$SHA256/" "$1"
{ "repo_name": "binoculars/ffmpeg-build-lambda", "stars": "34", "repo_language": "Dockerfile", "file_name": "docker.yml", "mime_type": "text/plain" }
# bump: vmaf /VMAF_VERSION=([\d.]+)/ https://github.com/Netflix/vmaf.git|* # bump: vmaf after ./hashupdate Dockerfile VMAF $LATEST # bump: vmaf link "Release" https://github.com/Netflix/vmaf/releases/tag/v$LATEST # bump: vmaf link "Source diff $CURRENT..$LATEST" https://github.com/Netflix/vmaf/compare/v$CURRENT..v$LATEST ARG VMAF_VERSION=2.3.1 ARG VMAF_URL="https://github.com/Netflix/vmaf/archive/refs/tags/v$VMAF_VERSION.tar.gz" ARG VMAF_SHA256=8d60b1ddab043ada25ff11ced821da6e0c37fd7730dd81c24f1fc12be7293ef2 # bump: aom /AOM_VERSION=([\d.]+)/ git:https://aomedia.googlesource.com/aom|* # bump: aom after ./hashupdate Dockerfile AOM $LATEST # bump: aom after COMMIT=$(git ls-remote https://aomedia.googlesource.com/aom v$LATEST^{} | awk '{print $1}') && sed -i -E "s/^ARG AOM_COMMIT=.*/ARG AOM_COMMIT=$COMMIT/" Dockerfile # bump: aom link "CHANGELOG" https://aomedia.googlesource.com/aom/+/refs/tags/v$LATEST/CHANGELOG ARG AOM_VERSION=3.5.0 ARG AOM_URL="https://aomedia.googlesource.com/aom" ARG AOM_COMMIT=bcfe6fbfed315f83ee8a95465c654ee8078dbff9 # bump: libaribb24 /LIBARIBB24_VERSION=([\d.]+)/ https://github.com/nkoriyama/aribb24.git|* # bump: libaribb24 after ./hashupdate Dockerfile LIBARIBB24 $LATEST # bump: libaribb24 link "Release notes" https://github.com/nkoriyama/aribb24/releases/tag/$LATEST ARG LIBARIBB24_VERSION=1.0.3 ARG LIBARIBB24_URL="https://github.com/nkoriyama/aribb24/archive/v$LIBARIBB24_VERSION.tar.gz" ARG LIBARIBB24_SHA256=f61560738926e57f9173510389634d8c06cabedfa857db4b28fb7704707ff128 # bump: libass /LIBASS_VERSION=([\d.]+)/ https://github.com/libass/libass.git|* # bump: libass after ./hashupdate Dockerfile LIBASS $LATEST # bump: libass link "Release notes" https://github.com/libass/libass/releases/tag/$LATEST ARG LIBASS_VERSION=0.16.0 ARG LIBASS_URL="https://github.com/libass/libass/releases/download/$LIBASS_VERSION/libass-$LIBASS_VERSION.tar.gz" ARG LIBASS_SHA256=fea8019b1887cab9ab00c1e58614b4ec2b1cee339b3f7e446f5fab01b032d430 # bump: libbluray /LIBBLURAY_VERSION=([\d.]+)/ https://code.videolan.org/videolan/libbluray.git|* # bump: libbluray after ./hashupdate Dockerfile LIBBLURAY $LATEST # bump: libbluray link "ChangeLog" https://code.videolan.org/videolan/libbluray/-/blob/master/ChangeLog ARG LIBBLURAY_VERSION=1.3.3 ARG LIBBLURAY_URL="https://code.videolan.org/videolan/libbluray/-/archive/$LIBBLURAY_VERSION/libbluray-$LIBBLURAY_VERSION.tar.gz" ARG LIBBLURAY_SHA256=b29ead1050c8a75729eef645d1d94c112845bbce7cf507cad7bc8edf4d04ebe7 # bump: dav1d /DAV1D_VERSION=([\d.]+)/ https://code.videolan.org/videolan/dav1d.git|* # bump: dav1d after ./hashupdate Dockerfile DAV1D $LATEST # bump: dav1d link "Release notes" https://code.videolan.org/videolan/dav1d/-/tags/$LATEST ARG DAV1D_VERSION=1.0.0 ARG DAV1D_URL="https://code.videolan.org/videolan/dav1d/-/archive/$DAV1D_VERSION/dav1d-$DAV1D_VERSION.tar.gz" ARG DAV1D_SHA256=047b8229511a82b5718a1d34c86c067b078efd02f602986d2ed09b23182ec136 # bump: davs2 /DAVS2_VERSION=([\d.]+)/ https://github.com/pkuvcl/davs2.git|^1 # bump: davs2 after ./hashupdate Dockerfile DAVS2 $LATEST # bump: davs2 link "Release" https://github.com/pkuvcl/davs2/releases/tag/$LATEST # bump: davs2 link "Source diff $CURRENT..$LATEST" https://github.com/pkuvcl/davs2/compare/v$CURRENT..v$LATEST ARG DAVS2_VERSION=1.7 ARG DAVS2_URL="https://github.com/pkuvcl/davs2/archive/refs/tags/$DAVS2_VERSION.tar.gz" ARG DAVS2_SHA256=b697d0b376a1c7f7eda3a4cc6d29707c8154c4774358303653f0a9727f923cc8 # bump: libgme /LIBGME_COMMIT=([[:xdigit:]]+)/ gitrefs:https://bitbucket.org/mpyne/game-music-emu.git|re:#^refs/heads/master$#|@commit # bump: libgme after ./hashupdate Dockerfile LIBGME $LATEST # bump: libgme link "Source diff $CURRENT..$LATEST" https://bitbucket.org/mpyne/game-music-emu/branches/compare/$CURRENT..$LATEST ARG LIBGME_URL="https://bitbucket.org/mpyne/game-music-emu.git" ARG LIBGME_COMMIT=6cd4bdb69be304f58c9253fb08b8362f541b3b4b # bump: libgsm /LIBGSM_COMMIT=([[:xdigit:]]+)/ gitrefs:https://github.com/timothytylee/libgsm.git|re:#^refs/heads/master$#|@commit # bump: libgsm after ./hashupdate Dockerfile LIBGSM $LATEST # bump: libgsm link "Changelog" https://github.com/timothytylee/libgsm/blob/master/ChangeLog ARG LIBGSM_URL="https://github.com/timothytylee/libgsm.git" ARG LIBGSM_COMMIT=98f1708fb5e06a0dfebd58a3b40d610823db9715 # bump: kvazaar /KVAZAAR_VERSION=([\d.]+)/ https://github.com/ultravideo/kvazaar.git|^2 # bump: kvazaar after ./hashupdate Dockerfile KVAZAAR $LATEST # bump: kvazaar link "Release notes" https://github.com/ultravideo/kvazaar/releases/tag/v$LATEST ARG KVAZAAR_VERSION=2.1.0 ARG KVAZAAR_URL="https://github.com/ultravideo/kvazaar/archive/v$KVAZAAR_VERSION.tar.gz" ARG KVAZAAR_SHA256=bbdd3112182e5660a1c339e30677f871b6eac1e5b4ff1292ee1ae38ecbe11029 # bump: libmodplug /LIBMODPLUG_VERSION=([\d.]+)/ fetch:https://sourceforge.net/projects/modplug-xmms/files/|/libmodplug-([\d.]+).tar.gz/ # bump: libmodplug after ./hashupdate Dockerfile LIBMODPLUG $LATEST # bump: libmodplug link "NEWS" https://sourceforge.net/p/modplug-xmms/git/ci/master/tree/libmodplug/NEWS ARG LIBMODPLUG_VERSION=0.8.9.0 ARG LIBMODPLUG_URL="https://downloads.sourceforge.net/modplug-xmms/libmodplug-$LIBMODPLUG_VERSION.tar.gz" ARG LIBMODPLUG_SHA256=457ca5a6c179656d66c01505c0d95fafaead4329b9dbaa0f997d00a3508ad9de # bump: mp3lame /MP3LAME_VERSION=([\d.]+)/ svn:http://svn.code.sf.net/p/lame/svn|/^RELEASE__(.*)$/|/_/./|* # bump: mp3lame after ./hashupdate Dockerfile MP3LAME $LATEST # bump: mp3lame link "ChangeLog" http://svn.code.sf.net/p/lame/svn/trunk/lame/ChangeLog ARG MP3LAME_VERSION=3.100 ARG MP3LAME_URL="https://sourceforge.net/projects/lame/files/lame/$MP3LAME_VERSION/lame-$MP3LAME_VERSION.tar.gz/download" ARG MP3LAME_SHA256=ddfe36cab873794038ae2c1210557ad34857a4b6bdc515785d1da9e175b1da1e # bump: libmysofa /LIBMYSOFA_VERSION=([\d.]+)/ https://github.com/hoene/libmysofa.git|^1 # bump: libmysofa after ./hashupdate Dockerfile LIBMYSOFA $LATEST # bump: libmysofa link "Release" https://github.com/hoene/libmysofa/releases/tag/$LATEST # bump: libmysofa link "Source diff $CURRENT..$LATEST" https://github.com/hoene/libmysofa/compare/v$CURRENT..v$LATEST ARG LIBMYSOFA_VERSION=1.3.1 ARG LIBMYSOFA_URL="https://github.com/hoene/libmysofa/archive/refs/tags/v$LIBMYSOFA_VERSION.tar.gz" ARG LIBMYSOFA_SHA256=a8a8cbf7b0b2508a6932278799b9bf5c63d833d9e7d651aea4622f3bc6b992aa # bump: opencoreamr /OPENCOREAMR_VERSION=([\d.]+)/ fetch:https://sourceforge.net/projects/opencore-amr/files/opencore-amr/|/opencore-amr-([\d.]+).tar.gz/ # bump: opencoreamr after ./hashupdate Dockerfile OPENCOREAMR $LATEST # bump: opencoreamr link "ChangeLog" https://sourceforge.net/p/opencore-amr/code/ci/master/tree/ChangeLog ARG OPENCOREAMR_VERSION=0.1.6 ARG OPENCOREAMR_URL="https://sourceforge.net/projects/opencore-amr/files/opencore-amr/opencore-amr-$OPENCOREAMR_VERSION.tar.gz" ARG OPENCOREAMR_SHA256=483eb4061088e2b34b358e47540b5d495a96cd468e361050fae615b1809dc4a1 # bump: openjpeg /OPENJPEG_VERSION=([\d.]+)/ https://github.com/uclouvain/openjpeg.git|* # bump: openjpeg after ./hashupdate Dockerfile OPENJPEG $LATEST # bump: openjpeg link "CHANGELOG" https://github.com/uclouvain/openjpeg/blob/master/CHANGELOG.md ARG OPENJPEG_VERSION=2.5.0 ARG OPENJPEG_URL="https://github.com/uclouvain/openjpeg/archive/v$OPENJPEG_VERSION.tar.gz" ARG OPENJPEG_SHA256=0333806d6adecc6f7a91243b2b839ff4d2053823634d4f6ed7a59bc87409122a # bump: opus /OPUS_VERSION=([\d.]+)/ https://github.com/xiph/opus.git|^1 # bump: opus after ./hashupdate Dockerfile OPUS $LATEST # bump: opus link "Release notes" https://github.com/xiph/opus/releases/tag/v$LATEST # bump: opus link "Source diff $CURRENT..$LATEST" https://github.com/xiph/opus/compare/v$CURRENT..v$LATEST ARG OPUS_VERSION=1.3.1 ARG OPUS_URL="https://archive.mozilla.org/pub/opus/opus-$OPUS_VERSION.tar.gz" ARG OPUS_SHA256=65b58e1e25b2a114157014736a3d9dfeaad8d41be1c8179866f144a2fb44ff9d # bump: rav1e /RAV1E_VERSION=([\d.]+)/ https://github.com/xiph/rav1e.git|/\d+\./|* # bump: rav1e after ./hashupdate Dockerfile RAV1E $LATEST # bump: rav1e link "Release notes" https://github.com/xiph/rav1e/releases/tag/v$LATEST ARG RAV1E_VERSION=0.5.1 ARG RAV1E_URL="https://github.com/xiph/rav1e/archive/v$RAV1E_VERSION.tar.gz" ARG RAV1E_SHA256=7b3060e8305e47f10b79f3a3b3b6adc3a56d7a58b2cb14e86951cc28e1b089fd # bump: rubberband /RUBBERBAND_VERSION=([\d.]+)/ https://github.com/breakfastquay/rubberband.git|^2 # bump: rubberband after ./hashupdate Dockerfile RUBBERBAND $LATEST # bump: rubberband link "CHANGELOG" https://github.com/breakfastquay/rubberband/blob/default/CHANGELOG # bump: rubberband link "Source diff $CURRENT..$LATEST" https://github.com/breakfastquay/rubberband/compare/$CURRENT..$LATEST ARG RUBBERBAND_VERSION=2.0.2 ARG RUBBERBAND_URL="https://breakfastquay.com/files/releases/rubberband-$RUBBERBAND_VERSION.tar.bz2" ARG RUBBERBAND_SHA256=b9eac027e797789ae99611c9eaeaf1c3a44cc804f9c8a0441a0d1d26f3d6bdf9 # bump: LIBSHINE /LIBSHINE_VERSION=([\d.]+)/ https://github.com/toots/shine.git|* # bump: LIBSHINE after ./hashupdate Dockerfile LIBSHINE $LATEST # bump: LIBSHINE link "CHANGELOG" https://github.com/toots/shine/blob/master/ChangeLog # bump: LIBSHINE link "Source diff $CURRENT..$LATEST" https://github.com/toots/shine/compare/$CURRENT..$LATEST ARG LIBSHINE_VERSION=3.1.1 ARG LIBSHINE_URL="https://github.com/toots/shine/releases/download/$LIBSHINE_VERSION/shine-$LIBSHINE_VERSION.tar.gz" ARG LIBSHINE_SHA256=58e61e70128cf73f88635db495bfc17f0dde3ce9c9ac070d505a0cd75b93d384 # bump: speex /SPEEX_VERSION=([\d.]+)/ https://github.com/xiph/speex.git|* # bump: speex after ./hashupdate Dockerfile SPEEX $LATEST # bump: speex link "ChangeLog" https://github.com/xiph/speex//blob/master/ChangeLog # bump: speex link "Source diff $CURRENT..$LATEST" https://github.com/xiph/speex/compare/$CURRENT..$LATEST ARG SPEEX_VERSION=1.2.1 ARG SPEEX_URL="https://github.com/xiph/speex/archive/Speex-$SPEEX_VERSION.tar.gz" ARG SPEEX_SHA256=beaf2642e81a822eaade4d9ebf92e1678f301abfc74a29159c4e721ee70fdce0 # bump: svtav1 /SVTAV1_VERSION=([\d.]+)/ https://gitlab.com/AOMediaCodec/SVT-AV1.git|* # bump: svtav1 after ./hashupdate Dockerfile SVTAV1 $LATEST # bump: svtav1 link "Release notes" https://gitlab.com/AOMediaCodec/SVT-AV1/-/releases/v$LATEST ARG SVTAV1_VERSION=1.2.1 ARG SVTAV1_URL="https://gitlab.com/AOMediaCodec/SVT-AV1/-/archive/v$SVTAV1_VERSION/SVT-AV1-v$SVTAV1_VERSION.tar.bz2" ARG SVTAV1_SHA256=805827daa8aedec4f1362b959f377075e2a811680bfc76b6f4fbf2ef4e7101d4 # bump: ogg /OGG_VERSION=([\d.]+)/ https://github.com/xiph/ogg.git|* # bump: ogg after ./hashupdate Dockerfile OGG $LATEST # bump: ogg link "CHANGES" https://github.com/xiph/ogg/blob/master/CHANGES # bump: ogg link "Source diff $CURRENT..$LATEST" https://github.com/xiph/ogg/compare/v$CURRENT..v$LATEST ARG OGG_VERSION=1.3.5 ARG OGG_URL="https://downloads.xiph.org/releases/ogg/libogg-$OGG_VERSION.tar.gz" ARG OGG_SHA256=0eb4b4b9420a0f51db142ba3f9c64b333f826532dc0f48c6410ae51f4799b664 # bump: theora /THEORA_VERSION=([\d.]+)/ https://github.com/xiph/theora.git|* # bump: theora after ./hashupdate Dockerfile THEORA $LATEST # bump: theora link "Release notes" https://github.com/xiph/theora/releases/tag/v$LATEST # bump: theora link "Source diff $CURRENT..$LATEST" https://github.com/xiph/theora/compare/v$CURRENT..v$LATEST ARG THEORA_VERSION=1.1.1 ARG THEORA_URL="https://downloads.xiph.org/releases/theora/libtheora-$THEORA_VERSION.tar.bz2" ARG THEORA_SHA256=b6ae1ee2fa3d42ac489287d3ec34c5885730b1296f0801ae577a35193d3affbc # bump: twolame /TWOLAME_VERSION=([\d.]+)/ https://github.com/njh/twolame.git|* # bump: twolame after ./hashupdate Dockerfile TWOLAME $LATEST # bump: twolame link "Source diff $CURRENT..$LATEST" https://github.com/njh/twolame/compare/v$CURRENT..v$LATEST ARG TWOLAME_VERSION=0.4.0 ARG TWOLAME_URL="https://github.com/njh/twolame/releases/download/$TWOLAME_VERSION/twolame-$TWOLAME_VERSION.tar.gz" ARG TWOLAME_SHA256=cc35424f6019a88c6f52570b63e1baf50f62963a3eac52a03a800bb070d7c87d # bump: uavs3d /UAVS3D_COMMIT=([[:xdigit:]]+)/ gitrefs:https://github.com/uavs3/uavs3d.git|re:#^refs/heads/master$#|@commit # bump: uavs3d after ./hashupdate Dockerfile UAVS3D $LATEST # bump: uavs3d link "Source diff $CURRENT..$LATEST" https://github.com/uavs3/uavs3d/compare/$CURRENT..$LATEST ARG UAVS3D_URL="https://github.com/uavs3/uavs3d.git" ARG UAVS3D_COMMIT=0133ee4b4bbbef7b88802e7ad019b14b9b852c2b # bump: vid.stab /VIDSTAB_VERSION=([\d.]+)/ https://github.com/georgmartius/vid.stab.git|* # bump: vid.stab after ./hashupdate Dockerfile VIDSTAB $LATEST # bump: vid.stab link "Changelog" https://github.com/georgmartius/vid.stab/blob/master/Changelog ARG VIDSTAB_VERSION=1.1.0 ARG VIDSTAB_URL="https://github.com/georgmartius/vid.stab/archive/v$VIDSTAB_VERSION.tar.gz" ARG VIDSTAB_SHA256=14d2a053e56edad4f397be0cb3ef8eb1ec3150404ce99a426c4eb641861dc0bb # bump: vorbis /VORBIS_VERSION=([\d.]+)/ https://github.com/xiph/vorbis.git|* # bump: vorbis after ./hashupdate Dockerfile VORBIS $LATEST # bump: vorbis link "CHANGES" https://github.com/xiph/vorbis/blob/master/CHANGES # bump: vorbis link "Source diff $CURRENT..$LATEST" https://github.com/xiph/vorbis/compare/v$CURRENT..v$LATEST ARG VORBIS_VERSION=1.3.7 ARG VORBIS_URL="https://downloads.xiph.org/releases/vorbis/libvorbis-$VORBIS_VERSION.tar.gz" ARG VORBIS_SHA256=0e982409a9c3fc82ee06e08205b1355e5c6aa4c36bca58146ef399621b0ce5ab # bump: libvpx /VPX_VERSION=([\d.]+)/ https://github.com/webmproject/libvpx.git|* # bump: libvpx after ./hashupdate Dockerfile VPX $LATEST # bump: libvpx link "CHANGELOG" https://github.com/webmproject/libvpx/blob/master/CHANGELOG # bump: libvpx link "Source diff $CURRENT..$LATEST" https://github.com/webmproject/libvpx/compare/v$CURRENT..v$LATEST ARG VPX_VERSION=1.12.0 ARG VPX_URL="https://github.com/webmproject/libvpx/archive/v$VPX_VERSION.tar.gz" ARG VPX_SHA256=f1acc15d0fd0cb431f4bf6eac32d5e932e40ea1186fe78e074254d6d003957bb # bump: libwebp /LIBWEBP_VERSION=([\d.]+)/ https://github.com/webmproject/libwebp.git|* # bump: libwebp after ./hashupdate Dockerfile LIBWEBP $LATEST # bump: libwebp link "Release notes" https://github.com/webmproject/libwebp/releases/tag/v$LATEST # bump: libwebp link "Source diff $CURRENT..$LATEST" https://github.com/webmproject/libwebp/compare/v$CURRENT..v$LATEST ARG LIBWEBP_VERSION=1.2.4 ARG LIBWEBP_URL="https://github.com/webmproject/libwebp/archive/v$LIBWEBP_VERSION.tar.gz" ARG LIBWEBP_SHA256=dfe7bff3390cd4958da11e760b65318f0a48c32913e4d5bc5e8d55abaaa2d32e # x264 only have a stable branch no tags and we checkout commit so no hash is needed # bump: x264 /X264_VERSION=([[:xdigit:]]+)/ gitrefs:https://code.videolan.org/videolan/x264.git|re:#^refs/heads/stable$#|@commit # bump: x264 after ./hashupdate Dockerfile X264 $LATEST # bump: x264 link "Source diff $CURRENT..$LATEST" https://code.videolan.org/videolan/x264/-/compare/$CURRENT...$LATEST ARG X264_URL="https://code.videolan.org/videolan/x264.git" ARG X264_VERSION=baee400fa9ced6f5481a728138fed6e867b0ff7f # x265 release is over 1 years old and master branch has a lot of fixes and improvements, so we checkout commit so no hash is needed # bump: x265 /X265_VERSION=([[:xdigit:]]+)/ gitrefs:https://bitbucket.org/multicoreware/x265_git.git|re:#^refs/heads/master$#|@commit # bump: x265 after ./hashupdate Dockerfile X265 $LATEST # bump: x265 link "Source diff $CURRENT..$LATEST" https://bitbucket.org/multicoreware/x265_git/branches/compare/$LATEST..$CURRENT#diff ARG X265_VERSION=0b75c44c10e605fe9e9ebed58f04a46271131827 ARG X265_URL="https://bitbucket.org/multicoreware/x265_git/get/$X265_VERSION.tar.bz2" ARG X265_SHA256=8aaf96bae0025c3678c3c04cf2e645af4ae0acb5520c890b80474e96b868f545 # bump: xavs2 /XAVS2_VERSION=([\d.]+)/ https://github.com/pkuvcl/xavs2.git|^1 # bump: xavs2 after ./hashupdate Dockerfile XAVS2 $LATEST # bump: xavs2 link "Release" https://github.com/pkuvcl/xavs2/releases/tag/$LATEST # bump: xavs2 link "Source diff $CURRENT..$LATEST" https://github.com/pkuvcl/xavs2/compare/v$CURRENT..v$LATEST ARG XAVS2_VERSION=1.4 ARG XAVS2_URL="https://github.com/pkuvcl/xavs2/archive/refs/tags/$XAVS2_VERSION.tar.gz" ARG XAVS2_SHA256=1e6d731cd64cb2a8940a0a3fd24f9c2ac3bb39357d802432a47bc20bad52c6ce # http://websvn.xvid.org/cvs/viewvc.cgi/trunk/xvidcore/build/generic/configure.in?revision=2146&view=markup # bump: xvid /XVID_VERSION=([\d.]+)/ svn:http://anonymous:@svn.xvid.org|/^release-(.*)$/|/_/./|^1 # bump: xvid after ./hashupdate Dockerfile XVID $LATEST # add extra CFLAGS that are not enabled by -O3 ARG XVID_VERSION=1.3.7 ARG XVID_URL="https://downloads.xvid.com/downloads/xvidcore-$XVID_VERSION.tar.gz" ARG XVID_SHA256=abbdcbd39555691dd1c9b4d08f0a031376a3b211652c0d8b3b8aa9be1303ce2d # bump: zimg /ZIMG_VERSION=([\d.]+)/ https://github.com/sekrit-twc/zimg.git|* # bump: zimg after ./hashupdate Dockerfile ZIMG $LATEST # bump: zimg link "ChangeLog" https://github.com/sekrit-twc/zimg/blob/master/ChangeLog ARG ZIMG_VERSION=3.0.4 ARG ZIMG_URL="https://github.com/sekrit-twc/zimg/archive/release-$ZIMG_VERSION.tar.gz" ARG ZIMG_SHA256=219d1bc6b7fde1355d72c9b406ebd730a4aed9c21da779660f0a4c851243e32f # bump: ffmpeg /FFMPEG_VERSION=([\d.]+)/ https://github.com/FFmpeg/FFmpeg.git|^5 # bump: ffmpeg after ./hashupdate Dockerfile FFMPEG $LATEST # bump: ffmpeg link "Changelog" https://github.com/FFmpeg/FFmpeg/blob/n$LATEST/Changelog # bump: ffmpeg link "Source diff $CURRENT..$LATEST" https://github.com/FFmpeg/FFmpeg/compare/n$CURRENT..n$LATEST ARG FFMPEG_VERSION=5.1.2 ARG FFMPEG_URL="https://ffmpeg.org/releases/ffmpeg-$FFMPEG_VERSION.tar.bz2" ARG FFMPEG_SHA256=39a0bcc8d98549f16c570624678246a6ac736c066cebdb409f9502e915b22f2b # bump: alpine /FROM alpine:([\d.]+)/ docker:alpine|^3 # bump: alpine link "Release notes" https://alpinelinux.org/posts/Alpine-$LATEST-released.html FROM alpine:3.16.2 AS base FROM base AS download WORKDIR /tmp RUN apk add --no-cache \ coreutils \ wget \ git \ tar ARG WGET_OPTS="--retry-on-host-error --retry-on-http-error=429,500,502,503 -nv" FROM base AS builder WORKDIR /tmp RUN apk add --no-cache \ coreutils \ openssl-dev openssl-libs-static \ bash \ build-base \ autoconf automake \ libtool \ diffutils \ cmake meson ninja \ yasm nasm \ texinfo \ xxd # -O3 makes sure we compile with optimization. setting CFLAGS/CXXFLAGS seems to override # default automake cflags. # -static-libgcc is needed to make gcc not include gcc_s as "as-needed" shared library which # cmake will include as a implicit library. # other options to get hardened build (same as ffmpeg hardened) ARG CFLAGS="-O3 -s -static-libgcc -fno-strict-overflow -fstack-protector-all -fPIC" ARG CXXFLAGS="-O3 -s -static-libgcc -fno-strict-overflow -fstack-protector-all -fPIC" ARG LDFLAGS="-Wl,-z,relro,-z,now" FROM download AS vmaf_download ARG VMAF_URL ARG VMAF_SHA256 RUN \ wget $WGET_OPTS -O vmaf.tar.gz "$VMAF_URL" && \ echo "$VMAF_SHA256 vmaf.tar.gz" | sha256sum --status -c - && \ mkdir vmaf && \ tar xf vmaf.tar.gz -C vmaf --strip-components=1 && \ rm vmaf.tar.gz # before aom as libvmaf uses it FROM builder AS vmaf COPY --from=vmaf_download /tmp/vmaf/ /tmp/vmaf/ WORKDIR /tmp/vmaf/libvmaf RUN \ meson build --buildtype=release -Ddefault_library=static -Dbuilt_in_models=true -Denable_tests=false -Denable_docs=false -Denable_avx512=true -Denable_float=true && \ ninja -j$(nproc) -vC build install # extra libs stdc++ is for vmaf https://github.com/Netflix/vmaf/issues/788 RUN sed -i 's/-lvmaf /-lvmaf -lstdc++ /' /usr/local/lib/pkgconfig/libvmaf.pc FROM download AS aom_download ARG AOM_VERSION ARG AOM_URL ARG AOM_COMMIT RUN \ git clone --depth 1 --branch v$AOM_VERSION "$AOM_URL" && \ cd aom && test $(git rev-parse HEAD) = $AOM_COMMIT # build after libvmaf FROM builder AS aom COPY --from=aom_download /tmp/aom/ /tmp/aom/ COPY --from=vmaf /usr/local/lib/pkgconfig/libvmaf.pc /usr/local/lib/pkgconfig/libvmaf.pc COPY --from=vmaf /usr/local/lib/libvmaf.a /usr/local/lib/libvmaf.a COPY --from=vmaf /usr/local/include/libvmaf/ /usr/local/include/libvmaf/ WORKDIR /tmp/aom/build_tmp RUN \ cmake \ -G"Unix Makefiles" \ -DCMAKE_VERBOSE_MAKEFILE=ON \ -DCMAKE_BUILD_TYPE=Release \ -DBUILD_SHARED_LIBS=OFF \ -DENABLE_EXAMPLES=NO \ -DENABLE_DOCS=NO \ -DENABLE_TESTS=NO \ -DENABLE_TOOLS=NO \ -DCONFIG_TUNE_VMAF=1 \ -DENABLE_NASM=ON \ -DCMAKE_INSTALL_LIBDIR=lib \ .. && \ make -j$(nproc) install FROM download AS libaribb24_download ARG LIBARIBB24_URL ARG LIBARIBB24_SHA256 RUN \ wget $WGET_OPTS -O libaribb24.tar.gz ${LIBARIBB24_URL} && \ echo "$LIBARIBB24_SHA256 libaribb24.tar.gz" | sha256sum --status -c - && \ mkdir libaribb24 && \ tar xf libaribb24.tar.gz -C libaribb24 --strip-components=1 && \ rm libaribb24.tar.gz FROM builder AS libaribb24 COPY --from=libaribb24_download /tmp/libaribb24/ /tmp/libaribb24/ WORKDIR /tmp/libaribb24 RUN apk add --no-cache \ libpng-dev RUN \ autoreconf -fiv && \ ./configure --enable-static --disable-shared && \ make -j$(nproc) && make install FROM download AS libass_download ARG LIBASS_URL ARG LIBASS_SHA256 RUN \ wget $WGET_OPTS -O libass.tar.gz "$LIBASS_URL" && \ echo "$LIBASS_SHA256 libass.tar.gz" | sha256sum --status -c - && \ mkdir libass && \ tar xf libass.tar.gz -C libass --strip-components=1 && \ rm libass.tar.gz FROM builder AS libass COPY --from=libass_download /tmp/libass/ /tmp/libass/ WORKDIR /tmp/libass RUN apk add --no-cache \ freetype freetype-dev freetype-static \ fribidi-dev fribidi-static \ harfbuzz-dev harfbuzz-static \ fontconfig-dev fontconfig-static RUN \ ./configure --disable-shared --enable-static && \ make -j$(nproc) && make install FROM download AS libbluray_download ARG LIBBLURAY_URL ARG LIBBLURAY_SHA256 RUN \ wget $WGET_OPTS -O libbluray.tar.gz "$LIBBLURAY_URL" && \ echo "$LIBBLURAY_SHA256 libbluray.tar.gz" | sha256sum --status -c - && \ mkdir libbluray && \ tar xf libbluray.tar.gz -C libbluray --strip-components=1 && \ cd libbluray && \ git clone https://code.videolan.org/videolan/libudfread.git contrib/libudfread && \ rm /tmp/libbluray.tar.gz FROM builder AS libbluray COPY --from=libbluray_download /tmp/libbluray/ /tmp/libbluray/ WORKDIR /tmp/libbluray RUN apk add --no-cache \ libxml2-dev \ freetype freetype-dev freetype-static \ fontconfig-dev fontconfig-static RUN \ autoreconf -fiv && ./configure --with-pic --disable-doxygen-doc --disable-doxygen-dot --enable-static --disable-shared --disable-examples --disable-bdjava-jar && \ make -j$(nproc) install FROM download AS dav1d_download ARG DAV1D_URL ARG DAV1D_SHA256 RUN \ wget $WGET_OPTS -O dav1d.tar.gz "$DAV1D_URL" && \ echo "$DAV1D_SHA256 dav1d.tar.gz" | sha256sum --status -c - && \ mkdir dav1d && \ tar xf dav1d.tar.gz -C dav1d --strip-components=1 && \ rm dav1d.tar.gz FROM builder AS dav1d COPY --from=dav1d_download /tmp/dav1d/ /tmp/dav1d/ WORKDIR /tmp/dav1d RUN \ meson build --buildtype release -Ddefault_library=static && \ ninja -j$(nproc) -C build install FROM download AS davs2_download ARG DAVS2_URL ARG DAVS2_SHA256 RUN \ wget $WGET_OPTS -O davs2.tar.gz "$DAVS2_URL" && \ echo "$DAVS2_SHA256 davs2.tar.gz" | sha256sum --status -c - && \ mkdir davs2 && \ tar xf davs2.tar.gz -C davs2 --strip-components=1 && \ rm davs2.tar.gz FROM builder AS davs2 COPY --from=davs2_download /tmp/davs2/ /tmp/davs2/ WORKDIR /tmp/davs2/build/linux RUN \ # TODO: seems to be issues with asm on musl ./configure --disable-asm --enable-pic --enable-strip --disable-cli && \ make -j$(nproc) install FROM download AS libgme_download ARG LIBGME_URL ARG LIBGME_COMMIT RUN \ git clone "$LIBGME_URL" libgme && \ cd libgme && git checkout $LIBGME_COMMIT FROM builder AS libgme COPY --from=libgme_download /tmp/libgme/ /tmp/libgme/ WORKDIR /tmp/libgme/build RUN \ cmake \ -G"Unix Makefiles" \ -DCMAKE_VERBOSE_MAKEFILE=ON \ -DCMAKE_BUILD_TYPE=Release \ -DBUILD_SHARED_LIBS=OFF \ -DENABLE_UBSAN=OFF \ .. && \ make -j$(nproc) install FROM download AS libgsm_download ARG LIBGSM_URL ARG LIBGSM_COMMIT RUN \ git clone "$LIBGSM_URL" && \ cd libgsm && git checkout $LIBGSM_COMMIT FROM builder AS libgsm COPY --from=libgsm_download /tmp/libgsm/ /tmp/libgsm/ WORKDIR /tmp/libgsm RUN \ # Makefile is garbage, hence use specific compile arguments and flags # no need to build toast cli tool \ rm src/toast* && \ SRC=$(echo src/*.c) && \ gcc ${CFLAGS} -c -ansi -pedantic -s -DNeedFunctionPrototypes=1 -Wall -Wno-comment -DSASR -DWAV49 -DNDEBUG -I./inc ${SRC} && \ ar cr libgsm.a *.o && ranlib libgsm.a && \ mkdir -p /usr/local/include/gsm && \ cp inc/*.h /usr/local/include/gsm && \ cp libgsm.a /usr/local/lib FROM download AS kvazaar_download ARG KVAZAAR_URL ARG KVAZAAR_SHA256 RUN \ wget $WGET_OPTS -O kvazaar.tar.gz "$KVAZAAR_URL" && \ echo "$KVAZAAR_SHA256 kvazaar.tar.gz" | sha256sum --status -c - && \ mkdir kvazaar && \ tar xf kvazaar.tar.gz -C kvazaar --strip-components=1 && \ rm kvazaar.tar.gz FROM builder AS kvazaar COPY --from=kvazaar_download /tmp/kvazaar/ /tmp/kvazaar/ WORKDIR /tmp/kvazaar RUN \ ./autogen.sh && \ ./configure --disable-shared --enable-static && \ make -j$(nproc) install FROM download AS libmodplug_download ARG LIBMODPLUG_URL ARG LIBMODPLUG_SHA256 RUN \ wget $WGET_OPTS -O libmodplug.tar.gz "$LIBMODPLUG_URL" && \ echo "$LIBMODPLUG_SHA256 libmodplug.tar.gz" | sha256sum --status -c - && \ mkdir libmodplug && \ tar xf libmodplug.tar.gz -C libmodplug --strip-components=1 && \ rm libmodplug.tar.gz FROM builder AS libmodplug COPY --from=libmodplug_download /tmp/libmodplug/ /tmp/libmodplug/ WORKDIR /tmp/libmodplug RUN \ ./configure --disable-shared --enable-static && \ make -j$(nproc) install FROM download AS mp3lame_download ARG MP3LAME_URL ARG MP3LAME_SHA256 RUN \ wget $WGET_OPTS -O lame.tar.gz "$MP3LAME_URL" && \ echo "$MP3LAME_SHA256 lame.tar.gz" | sha256sum --status -c - && \ mkdir lame && \ tar xf lame.tar.gz -C lame --strip-components=1 && \ rm lame.tar.gz FROM builder AS mp3lame COPY --from=mp3lame_download /tmp/lame/ /tmp/lame/ WORKDIR /tmp/lame RUN \ ./configure --disable-shared --enable-static --enable-nasm --disable-gtktest --disable-cpml --disable-frontend && \ make -j$(nproc) install FROM download AS libmysofa_download ARG LIBMYSOFA_URL ARG LIBMYSOFA_SHA256 RUN \ wget $WGET_OPTS -O libmysofa.tar.gz "$LIBMYSOFA_URL" && \ echo "$LIBMYSOFA_SHA256 libmysofa.tar.gz" | sha256sum --status -c - && \ mkdir libmysofa && \ tar xf libmysofa.tar.gz -C libmysofa --strip-components=1 && \ rm libmysofa.tar.gz FROM builder AS libmysofa COPY --from=libmysofa_download /tmp/libmysofa/ /tmp/libmysofa/ WORKDIR /tmp/libmysofa/build RUN apk add --no-cache \ zlib-dev zlib-static RUN \ cmake \ -G"Unix Makefiles" \ -DCMAKE_VERBOSE_MAKEFILE=ON \ -DCMAKE_INSTALL_LIBDIR=lib \ -DBUILD_SHARED_LIBS=OFF \ -DCMAKE_BUILD_TYPE=Release \ -DBUILD_TESTS=OFF \ .. && \ make -j$(nproc) install FROM download AS opencoreamr_download ARG OPENCOREAMR_URL ARG OPENCOREAMR_SHA256 RUN \ wget $WGET_OPTS -O opencoreamr.tar.gz "$OPENCOREAMR_URL" && \ echo "$OPENCOREAMR_SHA256 opencoreamr.tar.gz" | sha256sum --status -c - && \ mkdir opencoreamr && \ tar xf opencoreamr.tar.gz -C opencoreamr --strip-components=1 && \ rm opencoreamr.tar.gz FROM builder AS opencoreamr COPY --from=opencoreamr_download /tmp/opencoreamr/ /tmp/opencoreamr/ WORKDIR /tmp/opencoreamr RUN \ ./configure --enable-static --disable-shared && \ make -j$(nproc) install FROM download AS openjpeg_download ARG OPENJPEG_URL ARG OPENJPEG_SHA256 RUN \ wget $WGET_OPTS -O openjpeg.tar.gz "$OPENJPEG_URL" && \ echo "$OPENJPEG_SHA256 openjpeg.tar.gz" | sha256sum --status -c - && \ mkdir openjpeg && \ tar xf openjpeg.tar.gz -C openjpeg --strip-components=1 && \ rm openjpeg.tar.gz FROM builder AS openjpeg COPY --from=openjpeg_download /tmp/openjpeg/ /tmp/openjpeg/ WORKDIR /tmp/openjpeg/build RUN \ cmake \ -G"Unix Makefiles" \ -DCMAKE_VERBOSE_MAKEFILE=ON \ -DCMAKE_BUILD_TYPE=Release \ -DBUILD_SHARED_LIBS=OFF \ -DBUILD_PKGCONFIG_FILES=ON \ -DBUILD_CODEC=OFF \ -DWITH_ASTYLE=OFF \ -DBUILD_TESTING=OFF \ .. && \ make -j$(nproc) install FROM download AS opus_download ARG OPUS_URL ARG OPUS_SHA256 RUN \ wget $WGET_OPTS -O opus.tar.gz "$OPUS_URL" && \ echo "$OPUS_SHA256 opus.tar.gz" | sha256sum --status -c - && \ mkdir opus && \ tar xf opus.tar.gz -C opus --strip-components=1 && \ rm opus.tar.gz FROM builder AS opus COPY --from=opus_download /tmp/opus/ /tmp/opus/ WORKDIR /tmp/opus RUN \ ./configure --disable-shared --enable-static --disable-extra-programs --disable-doc && \ make -j$(nproc) install FROM download AS rav1e_download ARG RAV1E_URL ARG RAV1E_SHA256 RUN \ wget $WGET_OPTS -O rav1e.tar.gz "$RAV1E_URL" && \ echo "$RAV1E_SHA256 rav1e.tar.gz" | sha256sum --status -c - && \ mkdir rav1e && \ tar xf rav1e.tar.gz -C rav1e --strip-components=1 && \ rm rav1e.tar.gz FROM builder AS rav1e COPY --from=rav1e_download /tmp/rav1e/ /tmp/rav1e/ WORKDIR /tmp/rav1e RUN apk add --no-cache \ rust cargo # debug builds a bit faster and we don't care about runtime speed RUN cargo install --debug --version 0.9.5 cargo-c RUN \ cargo cinstall --release # cargo-c/alpine rustc results in Libs.private depend on gcc_s # https://gitlab.alpinelinux.org/alpine/aports/-/issues/11806 RUN sed -i 's/-lgcc_s//' /usr/local/lib/pkgconfig/rav1e.pc FROM download AS rubberband_download ARG RUBBERBAND_URL ARG RUBBERBAND_SHA256 RUN \ wget $WGET_OPTS -O rubberband.tar.bz2 "$RUBBERBAND_URL" && \ echo "$RUBBERBAND_SHA256 rubberband.tar.bz2" | sha256sum --status -c - && \ mkdir rubberband && \ tar xf rubberband.tar.bz2 -C rubberband --strip-components=1 && \ rm rubberband.tar.bz2 FROM builder AS rubberband COPY --from=rubberband_download /tmp/rubberband/ /tmp/rubberband/ WORKDIR /tmp/rubberband RUN apk add --no-cache \ fftw-dev \ libsamplerate-dev RUN \ meson -Ddefault_library=static -Dfft=fftw -Dresampler=libsamplerate build && \ ninja -j$(nproc) -vC build install && \ echo "Requires.private: fftw3 samplerate" >> /usr/local/lib/pkgconfig/rubberband.pc FROM download AS libshine_download ARG LIBSHINE_URL ARG LIBSHINE_SHA256 RUN \ wget $WGET_OPTS -O libshine.tar.gz "$LIBSHINE_URL" && \ echo "$LIBSHINE_SHA256 libshine.tar.gz" | sha256sum --status -c - && \ mkdir libshine && \ tar xf libshine.tar.gz -C libshine --strip-components=1 && \ rm libshine.tar.gz FROM builder AS libshine COPY --from=libshine_download /tmp/libshine/ /tmp/libshine/ WORKDIR /tmp/libshine RUN \ ./configure --with-pic --enable-static --disable-shared --disable-fast-install && \ make -j$(nproc) install FROM download AS speex_download ARG SPEEX_URL ARG SPEEX_SHA256 RUN \ wget $WGET_OPTS -O speex.tar.gz "$SPEEX_URL" && \ echo "$SPEEX_SHA256 speex.tar.gz" | sha256sum --status -c - && \ mkdir speex && \ tar xf speex.tar.gz -C speex --strip-components=1 && \ rm speex.tar.gz FROM builder AS speex COPY --from=speex_download /tmp/speex/ /tmp/speex/ WORKDIR /tmp/speex RUN \ ./autogen.sh && \ ./configure --disable-shared --enable-static && \ make -j$(nproc) install FROM download AS svtav1_download ARG SVTAV1_URL ARG SVTAV1_SHA256 RUN \ wget $WGET_OPTS -O svtav1.tar.bz2 "$SVTAV1_URL" && \ echo "$SVTAV1_SHA256 svtav1.tar.bz2" | sha256sum --status -c - && \ mkdir svtav1 && \ tar xf svtav1.tar.bz2 -C svtav1 --strip-components=1 && \ rm svtav1.tar.bz2 FROM builder AS svtav1 COPY --from=svtav1_download /tmp/svtav1/ /tmp/svtav1/ WORKDIR /tmp/svtav1/Build RUN \ cmake \ -G"Unix Makefiles" \ -DCMAKE_VERBOSE_MAKEFILE=ON \ -DCMAKE_INSTALL_LIBDIR=lib \ -DBUILD_SHARED_LIBS=OFF \ -DCMAKE_BUILD_TYPE=Release \ .. && \ make -j$(nproc) install FROM download AS ogg_download ARG OGG_URL ARG OGG_SHA256 RUN \ wget $WGET_OPTS -O libogg.tar.gz "$OGG_URL" && \ echo "$OGG_SHA256 libogg.tar.gz" | sha256sum --status -c - && \ mkdir ogg && \ tar xf libogg.tar.gz -C ogg --strip-components=1 && \ rm libogg.tar.gz # has to be before theora and vorbis FROM builder AS ogg COPY --from=ogg_download /tmp/ogg/ /tmp/ogg/ WORKDIR /tmp/ogg RUN \ ./configure --disable-shared --enable-static && \ make -j$(nproc) install FROM download AS theora_download ARG THEORA_URL ARG THEORA_SHA256 RUN \ wget $WGET_OPTS -O libtheora.tar.bz2 "$THEORA_URL" && \ echo "$THEORA_SHA256 libtheora.tar.bz2" | sha256sum --status -c - && \ mkdir theora && \ tar xf libtheora.tar.bz2 -C theora --strip-components=1 && \ rm libtheora.tar.bz2 FROM builder AS theora COPY --from=theora_download /tmp/theora/ /tmp/theora/ COPY --from=ogg /usr/local/lib/pkgconfig/ogg.pc /usr/local/lib/pkgconfig/ogg.pc COPY --from=ogg /usr/local/lib/libogg.a /usr/local/lib/libogg.a COPY --from=ogg /usr/local/include/ogg/ /usr/local/include/ogg/ WORKDIR /tmp/theora RUN \ # --build=$(arch)-unknown-linux-gnu helps with guessing the correct build. For some reason, # build script can't guess the build type in arm64 (hardware and emulated) environment. ./configure --build=$(arch)-unknown-linux-gnu --disable-examples --disable-oggtest --disable-shared --enable-static && \ make -j$(nproc) install FROM download AS twolame_download ARG TWOLAME_URL ARG TWOLAME_SHA256 RUN \ wget $WGET_OPTS -O twolame.tar.gz "$TWOLAME_URL" && \ echo "$TWOLAME_SHA256 twolame.tar.gz" | sha256sum --status -c - && \ mkdir twolame && \ tar xf twolame.tar.gz -C twolame --strip-components=1 && \ rm twolame.tar.gz FROM builder AS twolame COPY --from=twolame_download /tmp/twolame/ /tmp/twolame/ WORKDIR /tmp/twolame RUN \ ./configure --disable-shared --enable-static --disable-sndfile --with-pic && \ make -j$(nproc) install FROM download AS uavs3d_download ARG UAVS3D_URL ARG UAVS3D_COMMIT RUN \ git clone "$UAVS3D_URL" && \ cd uavs3d && git checkout $UAVS3D_COMMIT FROM builder AS uavs3d COPY --from=uavs3d_download /tmp/uavs3d/ /tmp/uavs3d/ WORKDIR /tmp/uavs3d/build/linux RUN \ # Removes BIT_DEPTH 10 to be able to build on other platforms. 10 was overkill anyways. # sed -i 's/define BIT_DEPTH 8/define BIT_DEPTH 10/' source/decore/com_def.h && \ cmake \ -G"Unix Makefiles" \ -DCMAKE_VERBOSE_MAKEFILE=ON \ -DCMAKE_BUILD_TYPE=Release \ -DBUILD_SHARED_LIBS=OFF \ ../.. && \ make -j$(nproc) install FROM download AS vidstab_download ARG VIDSTAB_URL ARG VIDSTAB_SHA256 RUN \ wget $WGET_OPTS -O vid.stab.tar.gz "$VIDSTAB_URL" && \ echo "$VIDSTAB_SHA256 vid.stab.tar.gz" | sha256sum --status -c - && \ mkdir vidstab && \ tar xf vid.stab.tar.gz -C vidstab --strip-components=1 && \ rm vid.stab.tar.gz FROM builder AS vidstab COPY --from=vidstab_download /tmp/vidstab/ /tmp/vidstab/ WORKDIR /tmp/vidstab/build RUN \ # This line workarounds the issue that happens when the image builds in emulated (buildx) arm64 environment. # Since in emulated container the /proc is mounted from the host, the cmake not able to detect CPU features correctly. sed -i 's/include (FindSSE)/if(CMAKE_SYSTEM_ARCH MATCHES "amd64")\ninclude (FindSSE)\nendif()/' ../CMakeLists.txt && \ cmake \ -G"Unix Makefiles" \ -DCMAKE_VERBOSE_MAKEFILE=ON \ -DCMAKE_SYSTEM_ARCH=$(arch) \ -DCMAKE_BUILD_TYPE=Release \ -DBUILD_SHARED_LIBS=OFF \ -DUSE_OMP=ON \ .. && \ make -j$(nproc) install RUN echo "Libs.private: -ldl" >> /usr/local/lib/pkgconfig/vidstab.pc FROM download AS vorbis_download ARG VORBIS_URL ARG VORBIS_SHA256 RUN \ wget $WGET_OPTS -O libvorbis.tar.gz "$VORBIS_URL" && \ echo "$VORBIS_SHA256 libvorbis.tar.gz" | sha256sum --status -c - && \ mkdir vorbis && \ tar xf libvorbis.tar.gz -C vorbis --strip-components=1 && \ rm libvorbis.tar.gz FROM builder AS vorbis COPY --from=vorbis_download /tmp/vorbis/ /tmp/vorbis/ COPY --from=ogg /usr/local/lib/pkgconfig/ogg.pc /usr/local/lib/pkgconfig/ogg.pc COPY --from=ogg /usr/local/lib/libogg.a /usr/local/lib/libogg.a COPY --from=ogg /usr/local/include/ogg/ /usr/local/include/ogg/ WORKDIR /tmp/vorbis RUN \ ./configure --disable-shared --enable-static --disable-oggtest && \ make -j$(nproc) install FROM download AS libvpx_download ARG VPX_URL ARG VPX_SHA256 RUN \ wget $WGET_OPTS -O libvpx.tar.gz "$VPX_URL" && \ echo "$VPX_SHA256 libvpx.tar.gz" | sha256sum --status -c - && \ mkdir libvpx && \ tar xf libvpx.tar.gz -C libvpx --strip-components=1 && \ rm libvpx.tar.gz FROM builder AS libvpx COPY --from=libvpx_download /tmp/libvpx/ /tmp/libvpx/ WORKDIR /tmp/libvpx RUN \ ./configure --enable-static --enable-vp9-highbitdepth --disable-shared --disable-unit-tests --disable-examples && \ make -j$(nproc) install FROM download AS libwebp_download ARG LIBWEBP_URL ARG LIBWEBP_SHA256 RUN \ wget $WGET_OPTS -O libwebp.tar.gz "$LIBWEBP_URL" && \ echo "$LIBWEBP_SHA256 libwebp.tar.gz" | sha256sum --status -c - && \ mkdir libwebp && \ tar xf libwebp.tar.gz -C libwebp --strip-components=1 && \ rm libwebp.tar.gz FROM builder AS libwebp COPY --from=libwebp_download /tmp/libwebp/ /tmp/libwebp/ WORKDIR /tmp/libwebp RUN \ ./autogen.sh && \ ./configure --disable-shared --enable-static --with-pic --enable-libwebpmux --disable-libwebpextras --disable-libwebpdemux --disable-sdl --disable-gl --disable-png --disable-jpeg --disable-tiff --disable-gif && \ make -j$(nproc) install FROM download AS x264_download ARG X264_URL ARG X264_VERSION RUN \ git clone "$X264_URL" && \ cd x264 && \ git checkout $X264_VERSION FROM builder AS x264 COPY --from=x264_download /tmp/x264/ /tmp/x264/ WORKDIR /tmp/x264 RUN \ ./configure --enable-pic --enable-static --disable-cli --disable-lavf --disable-swscale && \ make -j$(nproc) install FROM download AS x265_download ARG X265_URL ARG X265_SHA256 RUN \ wget $WGET_OPTS -O x265_git.tar.bz2 "$X265_URL" && \ echo "$X265_SHA256 x265_git.tar.bz2" | sha256sum --status -c - && \ mkdir x265 && \ tar xf x265_git.tar.bz2 -C x265 --strip-components=1 && \ rm x265_git.tar.bz2 FROM builder AS x265 COPY --from=x265_download /tmp/x265/ /tmp/x265/ WORKDIR /tmp/x265/build/linux # -w-macro-params-legacy to not log lots of asm warnings # https://bitbucket.org/multicoreware/x265_git/issues/559/warnings-when-assembling-with-nasm-215 # TODO: remove 'sed' hack when upstream (x265) fixes the issue and adds '-DPIC' to ARM_ARGS # https://bitbucket.org/multicoreware/x265_git/issues/619/missing-dpic-for-arm-causes-link-error-on # CMAKEFLAGS issue # https://bitbucket.org/multicoreware/x265_git/issues/620/support-passing-cmake-flags-to-multilibsh RUN apk add --no-cache \ git \ numactl-dev RUN \ sed -i '/^cmake / s/$/ -G "Unix Makefiles" ${CMAKEFLAGS}/' ./multilib.sh && \ sed -i 's/ -DENABLE_SHARED=OFF//g' ./multilib.sh && \ sed -i 's/set(ARM_ARGS -fPIC -flax-vector-conversions)/set(ARM_ARGS -DPIC -fPIC -flax-vector-conversions)/' ../../source/CMakeLists.txt && \ MAKEFLAGS="-j$(nproc)" \ CMAKEFLAGS="-DENABLE_SHARED=OFF -DCMAKE_VERBOSE_MAKEFILE=ON -DENABLE_AGGRESSIVE_CHECKS=ON -DCMAKE_ASM_NASM_FLAGS=-w-macro-params-legacy -DENABLE_NASM=ON -DCMAKE_BUILD_TYPE=Release" \ ./multilib.sh && \ make -C 8bit -j$(nproc) install FROM download AS xavs2_download ARG XAVS2_URL ARG XAVS2_SHA256 RUN \ wget $WGET_OPTS -O xavs2.tar.gz "$XAVS2_URL" && \ echo "$XAVS2_SHA256 xavs2.tar.gz" | sha256sum --status -c - && \ mkdir xavs2 && \ tar xf xavs2.tar.gz -C xavs2 --strip-components=1 && \ rm xavs2.tar.gz FROM builder AS xavs2 COPY --from=xavs2_download /tmp/xavs2/ /tmp/xavs2/ WORKDIR /tmp/xavs2/build/linux RUN \ # TODO: seems to be issues with asm on musl ./configure --disable-asm --enable-pic --disable-cli && \ make -j$(nproc) install FROM download AS xvid_download ARG XVID_URL ARG XVID_SHA256 RUN \ wget $WGET_OPTS -O libxvid.tar.gz "$XVID_URL" && \ echo "$XVID_SHA256 libxvid.tar.gz" | sha256sum --status -c - && \ mkdir xvid && \ tar xf libxvid.tar.gz -C xvid --strip-components=1 && \ rm libxvid.tar.gz FROM builder AS xvid COPY --from=xvid_download /tmp/xvid/ /tmp/xvid/ WORKDIR /tmp/xvid/build/generic RUN \ CFLAGS="$CFLAGS -fstrength-reduce -ffast-math" ./configure && \ make -j$(nproc) && make install FROM download AS zimg_download ARG ZIMG_URL ARG ZIMG_SHA256 RUN \ wget $WGET_OPTS -O zimg.tar.gz "$ZIMG_URL" && \ echo "$ZIMG_SHA256 zimg.tar.gz" | sha256sum --status -c - && \ mkdir zimg && \ tar xf zimg.tar.gz -C zimg --strip-components=1 && \ rm zimg.tar.gz FROM builder AS zimg COPY --from=zimg_download /tmp/zimg/ /tmp/zimg/ WORKDIR /tmp/zimg RUN \ ./autogen.sh && \ ./configure --disable-shared --enable-static && \ make -j$(nproc) install FROM download AS ffmpeg_download ARG FFMPEG_URL ARG FFMPEG_SHA256 RUN \ wget $WGET_OPTS -O ffmpeg.tar.bz2 "$FFMPEG_URL" && \ echo "$FFMPEG_SHA256 ffmpeg.tar.bz2" | sha256sum --status -c - && \ mkdir ffmpeg && \ tar xf ffmpeg.tar.bz2 -C ffmpeg --strip-components=1 && \ rm ffmpeg.tar.bz2 FROM builder AS ffmpeg RUN apk add --no-cache \ zlib-dev zlib-static \ bzip2-dev bzip2-static \ libxml2-dev \ expat-dev expat-static \ graphite2-static \ glib-static \ tiff tiff-dev \ libjpeg-turbo libjpeg-turbo-dev \ libpng-dev libpng-static \ giflib giflib-dev \ brotli-dev brotli-static \ soxr-dev soxr-static \ tcl \ numactl-dev \ cunit cunit-dev \ fftw-dev \ libsamplerate-dev \ freetype-dev freetype-static \ fribidi-dev fribidi-static \ harfbuzz-dev harfbuzz-static \ fontconfig-dev fontconfig-static \ vo-amrwbenc-dev vo-amrwbenc-static \ snappy-dev snappy-static COPY --from=vmaf /usr/local/lib/pkgconfig/libvmaf.pc /usr/local/lib/pkgconfig/libvmaf.pc COPY --from=vmaf /usr/local/lib/libvmaf.a /usr/local/lib/libvmaf.a COPY --from=vmaf /usr/local/include/libvmaf/ /usr/local/include/libvmaf/ COPY --from=aom /usr/local/lib/pkgconfig/aom.pc /usr/local/lib/pkgconfig/aom.pc COPY --from=aom /usr/local/lib/libaom.a /usr/local/lib/libaom.a COPY --from=aom /usr/local/include/aom/ /usr/local/include/aom/ COPY --from=libaribb24 /usr/local/lib/pkgconfig/aribb24.pc /usr/local/lib/pkgconfig/aribb24.pc COPY --from=libaribb24 /usr/local/lib/libaribb24.a /usr/local/lib/libaribb24.a COPY --from=libaribb24 /usr/local/include/aribb24/ /usr/local/include/aribb24/ COPY --from=libass /usr/local/lib/pkgconfig/libass.pc /usr/local/lib/pkgconfig/libass.pc COPY --from=libass /usr/local/lib/libass.a /usr/local/lib/libass.a COPY --from=libass /usr/local/include/ass/ /usr/local/include/ass/ COPY --from=libbluray /usr/local/lib/pkgconfig/libbluray.pc /usr/local/lib/pkgconfig/libbluray.pc COPY --from=libbluray /usr/local/lib/libbluray.a /usr/local/lib/libbluray.a COPY --from=libbluray /usr/local/include/libbluray/ /usr/local/include/libbluray/ COPY --from=dav1d /usr/local/lib/pkgconfig/dav1d.pc /usr/local/lib/pkgconfig/dav1d.pc COPY --from=dav1d /usr/local/lib/libdav1d.a /usr/local/lib/libdav1d.a COPY --from=dav1d /usr/local/include/dav1d/ /usr/local/include/dav1d/ COPY --from=davs2 /usr/local/lib/pkgconfig/davs2.pc /usr/local/lib/pkgconfig/davs2.pc COPY --from=davs2 /usr/local/lib/libdavs2.a /usr/local/lib/libdavs2.a COPY --from=davs2 /usr/local/include/davs2* /usr/local/include/ COPY --from=libgme /usr/local/lib/pkgconfig/libgme.pc /usr/local/lib/pkgconfig/libgme.pc COPY --from=libgme /usr/local/lib/libgme.a /usr/local/lib/libgme.a COPY --from=libgme /usr/local/include/gme/ /usr/local/include/gme/ COPY --from=libgsm /usr/local/lib/libgsm.a /usr/local/lib/libgsm.a COPY --from=libgsm /usr/local/include/gsm/ /usr/local/include/gsm/ COPY --from=kvazaar /usr/local/lib/pkgconfig/kvazaar.pc /usr/local/lib/pkgconfig/kvazaar.pc COPY --from=kvazaar /usr/local/lib/libkvazaar.a /usr/local/lib/libkvazaar.a COPY --from=kvazaar /usr/local/include/kvazaar.h /usr/local/include/kvazaar.h COPY --from=libmodplug /usr/local/lib/pkgconfig/libmodplug.pc /usr/local/lib/pkgconfig/libmodplug.pc COPY --from=libmodplug /usr/local/lib/libmodplug.a /usr/local/lib/libmodplug.a COPY --from=libmodplug /usr/local/include/libmodplug/ /usr/local/include/libmodplug/ COPY --from=mp3lame /usr/local/lib/libmp3lame.a /usr/local/lib/libmp3lame.a COPY --from=mp3lame /usr/local/include/lame/ /usr/local/include/lame/ COPY --from=libmysofa /usr/local/lib/pkgconfig/libmysofa.pc /usr/local/lib/pkgconfig/libmysofa.pc COPY --from=libmysofa /usr/local/lib/libmysofa.a /usr/local/lib/libmysofa.a COPY --from=libmysofa /usr/local/include/mysofa.h /usr/local/include/mysofa.h COPY --from=opencoreamr /usr/local/lib/libopencore-amr* /usr/local/lib/ COPY --from=opencoreamr /usr/local/lib/pkgconfig/opencore-amr* /usr/local/lib/pkgconfig/ COPY --from=opencoreamr /usr/local/include/opencore-amrnb/ /usr/local/include/opencore-amrnb/ COPY --from=opencoreamr /usr/local/include/opencore-amrwb/ /usr/local/include/opencore-amrwb/ COPY --from=openjpeg /usr/local/lib/pkgconfig/libopenjp2.pc /usr/local/lib/pkgconfig/libopenjp2.pc COPY --from=openjpeg /usr/local/lib/libopenjp2.a /usr/local/lib/libopenjp2.a COPY --from=openjpeg /usr/local/include/openjpeg-2.5/ /usr/local/include/openjpeg-2.5/ COPY --from=opus /usr/local/lib/pkgconfig/opus.pc /usr/local/lib/pkgconfig/opus.pc COPY --from=opus /usr/local/lib/libopus.a /usr/local/lib/libopus.a COPY --from=opus /usr/local/include/opus/ /usr/local/include/opus/ COPY --from=rav1e /usr/local/lib/pkgconfig/rav1e.pc /usr/local/lib/pkgconfig/rav1e.pc COPY --from=rav1e /usr/local/lib/librav1e.a /usr/local/lib/librav1e.a COPY --from=rav1e /usr/local/include/rav1e/ /usr/local/include/rav1e/ COPY --from=rubberband /usr/local/lib/pkgconfig/rubberband.pc /usr/local/lib/pkgconfig/rubberband.pc COPY --from=rubberband /usr/local/lib/librubberband.a /usr/local/lib/librubberband.a COPY --from=rubberband /usr/local/include/rubberband/ /usr/local/include/rubberband/ COPY --from=libshine /usr/local/lib/pkgconfig/shine.pc /usr/local/lib/pkgconfig/shine.pc COPY --from=libshine /usr/local/lib/libshine.a /usr/local/lib/libshine.a COPY --from=libshine /usr/local/include/shine/ /usr/local/include/shine/ COPY --from=speex /usr/local/lib/pkgconfig/speex.pc /usr/local/lib/pkgconfig/speex.pc COPY --from=speex /usr/local/lib/libspeex.a /usr/local/lib/libspeex.a COPY --from=speex /usr/local/include/speex/ /usr/local/include/speex/ COPY --from=svtav1 /usr/local/lib/pkgconfig/SvtAv1*.pc /usr/local/lib/pkgconfig/ COPY --from=svtav1 /usr/local/lib/libSvtAv1*.a /usr/local/lib/ COPY --from=svtav1 /usr/local/include/svt-av1/ /usr/local/include/svt-av1/ COPY --from=ogg /usr/local/lib/pkgconfig/ogg.pc /usr/local/lib/pkgconfig/ogg.pc COPY --from=ogg /usr/local/lib/libogg.a /usr/local/lib/libogg.a COPY --from=ogg /usr/local/include/ogg/ /usr/local/include/ogg/ COPY --from=theora /usr/local/lib/pkgconfig/theora*.pc /usr/local/lib/pkgconfig/ COPY --from=theora /usr/local/lib/libtheora*.a /usr/local/lib/ COPY --from=theora /usr/local/include/theora/ /usr/local/include/theora/ COPY --from=twolame /usr/local/lib/pkgconfig/twolame.pc /usr/local/lib/pkgconfig/twolame.pc COPY --from=twolame /usr/local/lib/libtwolame.a /usr/local/lib/libtwolame.a COPY --from=twolame /usr/local/include/twolame.h /usr/local/include/twolame.h COPY --from=uavs3d /usr/local/lib/pkgconfig/uavs3d.pc /usr/local/lib/pkgconfig/uavs3d.pc COPY --from=uavs3d /usr/local/lib/libuavs3d.a /usr/local/lib/libuavs3d.a COPY --from=uavs3d /usr/local/include/uavs3d.h /usr/local/include/uavs3d.h COPY --from=vidstab /usr/local/lib/pkgconfig/vidstab.pc /usr/local/lib/pkgconfig/vidstab.pc COPY --from=vidstab /usr/local/lib/libvidstab.a /usr/local/lib/libvidstab.a COPY --from=vidstab /usr/local/include/vid.stab/ /usr/local/include/vid.stab/ COPY --from=vorbis /usr/local/lib/pkgconfig/vorbis*.pc /usr/local/lib/pkgconfig/ COPY --from=vorbis /usr/local/lib/libvorbis*.a /usr/local/lib/ COPY --from=vorbis /usr/local/include/vorbis/ /usr/local/include/vorbis/ COPY --from=libvpx /usr/local/lib/pkgconfig/vpx.pc /usr/local/lib/pkgconfig/vpx.pc COPY --from=libvpx /usr/local/lib/libvpx.a /usr/local/lib/libvpx.a COPY --from=libvpx /usr/local/include/vpx/ /usr/local/include/vpx/ COPY --from=libwebp /usr/local/lib/pkgconfig/libwebp*.pc /usr/local/lib/pkgconfig/ COPY --from=libwebp /usr/local/lib/libwebp*.a /usr/local/lib/ COPY --from=libwebp /usr/local/include/webp/ /usr/local/include/webp/ COPY --from=x264 /usr/local/lib/pkgconfig/x264.pc /usr/local/lib/pkgconfig/x264.pc COPY --from=x264 /usr/local/lib/libx264.a /usr/local/lib/libx264.a COPY --from=x264 /usr/local/include/x264*.h /usr/local/include/ COPY --from=x265 /usr/local/lib/pkgconfig/x265.pc /usr/local/lib/pkgconfig/x265.pc COPY --from=x265 /usr/local/lib/libx265.a /usr/local/lib/libx265.a COPY --from=x265 /usr/local/include/x265*.h /usr/local/include/ COPY --from=xavs2 /usr/local/lib/pkgconfig/xavs2.pc /usr/local/lib/pkgconfig/xavs2.pc COPY --from=xavs2 /usr/local/lib/libxavs2.a /usr/local/lib/libxavs2.a COPY --from=xavs2 /usr/local/include/xavs2*.h /usr/local/include/ COPY --from=xvid /usr/local/lib/libxvidcore.* /usr/local/lib/ COPY --from=xvid /usr/local/include/xvid.h /usr/local/include/xvid.h COPY --from=zimg /usr/local/lib/pkgconfig/zimg.pc /usr/local/lib/pkgconfig/zimg.pc COPY --from=zimg /usr/local/lib/libzimg.a /usr/local/lib/libzimg.a COPY --from=zimg /usr/local/include/zimg* /usr/local/include/ COPY --from=ffmpeg_download /tmp/ffmpeg/ /tmp/ffmpeg/ WORKDIR /tmp/ffmpeg RUN \ # sed changes --toolchain=hardened -pie to -static-pie # extra ldflags stack-size=2097152 is to increase default stack size from 128KB (musl default) to something # more similar to glibc (2MB). This fixing segfault with libaom-av1 and libsvtav1 as they seems to pass # large things on the stack. sed -i 's/add_ldexeflags -fPIE -pie/add_ldexeflags -fPIE -static-pie/' configure && \ ./configure \ --pkg-config-flags="--static" \ --extra-cflags="-fopenmp" \ --extra-ldflags="-fopenmp -Wl,-z,stack-size=2097152" \ --toolchain=hardened \ --disable-debug \ --disable-doc \ --disable-shared \ --disable-ffplay \ --enable-static \ --enable-small \ --cpu="sandybridge" \ --disable-runtime-cpudetect \ --enable-gpl \ --enable-version3 \ --enable-fontconfig \ --enable-gray \ --enable-iconv \ --enable-libaom \ --enable-libaribb24 \ --enable-libass \ --enable-libbluray \ --enable-libdav1d \ --enable-libdavs2 \ --enable-libfreetype \ --enable-libfribidi \ --enable-libgme \ --enable-libgsm \ --enable-libkvazaar \ --enable-libmodplug \ --enable-libmp3lame \ --enable-libmysofa \ --enable-libopencore-amrnb \ --enable-libopencore-amrwb \ --enable-libopenjpeg \ --enable-libopus \ --enable-librav1e \ --enable-librubberband \ --enable-libshine \ --enable-libsnappy \ --enable-libsoxr \ --enable-libspeex \ --enable-libsvtav1 \ --enable-libtheora \ --enable-libtwolame \ --enable-libuavs3d \ --enable-libvidstab \ --enable-libvmaf \ --enable-libvo-amrwbenc \ --enable-libvorbis \ --enable-libvpx \ --enable-libwebp \ --enable-libx264 \ --enable-libx265 \ --enable-libxavs2 \ --enable-libxml2 \ --enable-libxvid \ --enable-libzimg \ || (cat ffbuild/config.log ; false) \ && make -j$(nproc) install FROM ffmpeg AS versions ARG VMAF_VERSION ARG AOM_VERSION ARG LIBARIBB24_VERSION ARG LIBASS_VERSION ARG LIBBLURAY_VERSION ARG DAV1D_VERSION ARG DAVS2_VERSION ARG LIBGME_COMMIT ARG LIBGSM_COMMIT ARG KVAZAAR_VERSION ARG LIBMODPLUG_VERSION ARG MP3LAME_VERSION ARG LIBMYSOFA_VERSION ARG OPENCOREAMR_VERSION ARG OPENJPEG_VERSION ARG OPUS_VERSION ARG RAV1E_VERSION ARG RUBBERBAND_VERSION ARG LIBSHINE_VERSION ARG SPEEX_VERSION ARG SVTAV1_VERSION ARG OGG_VERSION ARG THEORA_VERSION ARG TWOLAME_VERSION ARG UAVS3D_COMMIT ARG VIDSTAB_VERSION ARG VORBIS_VERSION ARG VPX_VERSION ARG LIBWEBP_VERSION ARG X264_VERSION ARG X265_VERSION ARG XAVS2_VERSION ARG XVID_VERSION ARG ZIMG_VERSION ARG FFMPEG_VERSION RUN apk add --no-cache \ jq RUN \ EXPAT_VERSION=$(pkg-config --modversion expat) \ FFTW_VERSION=$(pkg-config --modversion fftw3) \ FONTCONFIG_VERSION=$(pkg-config --modversion fontconfig) \ FREETYPE_VERSION=$(pkg-config --modversion freetype2) \ FRIBIDI_VERSION=$(pkg-config --modversion fribidi) \ LIBSAMPLERATE_VERSION=$(pkg-config --modversion samplerate) \ LIBXML2_VERSION=$(pkg-config --modversion libxml-2.0) \ SOXR_VERSION=$(pkg-config --modversion soxr) \ LIBVO_AMRWBENC_VERSION=$(pkg-config --modversion vo-amrwbenc) \ SNAPPY_VERSION=$(apk info -a snappy | head -n1 | awk '{print $1}' | sed -e 's/snappy-//') \ jq -n \ '{ \ expat: env.EXPAT_VERSION, \ ffmpeg: env.FFMPEG_VERSION, \ fftw: env.FFTW_VERSION, \ fontconfig: env.FONTCONFIG_VERSION, \ libaom: env.AOM_VERSION, \ libaribb24: env.LIBARIBB24_VERSION, \ libass: env.LIBASS_VERSION, \ libbluray: env.LIBBLURAY_VERSION, \ libdav1d: env.DAV1D_VERSION, \ libdavs2: env.DAVS2_VERSION, \ libfreetype: env.FREETYPE_VERSION, \ libfribidi: env.FRIBIDI_VERSION, \ libgme: env.LIBGME_COMMIT, \ libgsm: env.LIBGSM_COMMIT, \ libkvazaar: env.KVAZAAR_VERSION, \ libmodplug: env.LIBMODPLUG_VERSION, \ libmp3lame: env.MP3LAME_VERSION, \ libmysofa: env.LIBMYSOFA_VERSION, \ libogg: env.OGG_VERSION, \ libopencoreamr: env.OPENCOREAMR_VERSION, \ libopenjpeg: env.OPENJPEG_VERSION, \ libopus: env.OPUS_VERSION, \ librav1e: env.RAV1E_VERSION, \ librubberband: env.RUBBERBAND_VERSION, \ libsamplerate: env.LIBSAMPLERATE_VERSION, \ libshine: env.LIBSHINE_VERSION, \ libsoxr: env.SOXR_VERSION, \ libsnappy: env.SNAPPY_VERSION, \ libspeex: env.SPEEX_VERSION, \ libsvtav1: env.SVTAV1_VERSION, \ libtheora: env.THEORA_VERSION, \ libtwolame: env.TWOLAME_VERSION, \ libuavs3d: env.UAVS3D_COMMIT, \ libvidstab: env.VIDSTAB_VERSION, \ libvmaf: env.VMAF_VERSION, \ libvo_amrwbenc: env.LIBVO_AMRWBENC_VERSION, \ libvorbis: env.VORBIS_VERSION, \ libvpx: env.VPX_VERSION, \ libwebp: env.LIBWEBP_VERSION, \ libx264: env.X264_VERSION, \ libx265: env.X265_VERSION, \ libxavs2: env.XAVS2_VERSION, \ libxml2: env.LIBXML2_VERSION, \ libxvid: env.XVID_VERSION, \ libzimg: env.ZIMG_VERSION, \ }' > /versions.json && \ cat /versions.json FROM scratch AS final COPY --from=ffmpeg /usr/local/bin/ffmpeg /usr/local/bin/ffprobe / COPY --from=versions /versions.json / # sanity tests RUN ["/ffmpeg", "-version"] RUN ["/ffprobe", "-version"] RUN ["/ffmpeg", "-hide_banner", "-buildconf"] # stack size RUN ["/ffmpeg", "-f", "lavfi", "-i", "testsrc", "-c:v", "libsvtav1", "-t", "100ms", "-f", "null", "-"] FROM final ENTRYPOINT ["/ffmpeg"]
{ "repo_name": "binoculars/ffmpeg-build-lambda", "stars": "34", "repo_language": "Dockerfile", "file_name": "docker.yml", "mime_type": "text/plain" }
‼ This repository is no longer maintained. Please see [ffbuilds/static-ffmpeg-gplv3](https://github.com/ffbuilds/static-ffmpeg-gplv3) ‼ # ffmpeg-build-lambda > Docker-based 🐳 [FFmpeg](https://ffmpeg.org/) build configuration for use on [AWS Lambda](https://aws.amazon.com/lambda/) based on [wader/static-ffmpeg](https://github.com/wader/static-ffmpeg) ## License All of the code solely contained in this repository is licensed under the Unlicense. In the current configuration, Specific builds of FFmpeg are licensed under the GPLv3. Modification of the Dockerfile may result in unredistributable binaries. Please be mindful of this when forking. If you find this useful, please :star2:
{ "repo_name": "binoculars/ffmpeg-build-lambda", "stars": "34", "repo_language": "Dockerfile", "file_name": "docker.yml", "mime_type": "text/plain" }
version: 2 updates: - package-ecosystem: docker directory: / schedule: interval: daily - package-ecosystem: github-actions directory: / schedule: interval: daily
{ "repo_name": "binoculars/ffmpeg-build-lambda", "stars": "34", "repo_language": "Dockerfile", "file_name": "docker.yml", "mime_type": "text/plain" }
name: 'Automatic version updates' on: schedule: # minute hour dom month dow (UTC) - cron: '0 9 * * *' # enable manual trigger of version updates workflow_dispatch: jobs: bump: runs-on: ubuntu-latest steps: - uses: actions/[email protected] - uses: wader/bump/action@master env: GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
{ "repo_name": "binoculars/ffmpeg-build-lambda", "stars": "34", "repo_language": "Dockerfile", "file_name": "docker.yml", "mime_type": "text/plain" }
--- ################################# ################################# ## Super Linter GitHub Actions ## ################################# ################################# name: Lint Code Base ############################# # Start the job on all push # ############################# on: push: branches: [master] pull_request: branches: [master] ############### # Set the Job # ############### jobs: build: # Name the Job name: Lint Code Base # Set the agent to run on runs-on: ubuntu-latest ################## # Load all steps # ################## steps: ########################## # Checkout the code base # ########################## - name: Checkout Code uses: actions/[email protected] with: # Full git history is needed to get a proper # list of changed files within `super-linter` fetch-depth: 0 ################################ # Run Linter against code base # ################################ - name: Lint Code Base uses: github/super-linter@v4 env: VALIDATE_ALL_CODEBASE: false DEFAULT_BRANCH: master GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }} LINTER_RULES_PATH: .
{ "repo_name": "binoculars/ffmpeg-build-lambda", "stars": "34", "repo_language": "Dockerfile", "file_name": "docker.yml", "mime_type": "text/plain" }
name: Create and publish a Docker image on: push: branches: [master] pull_request: branches: [master] env: REGISTRY: ghcr.io IMAGE_NAME: ${{ github.repository }} jobs: build-and-push-image: runs-on: ubuntu-latest permissions: contents: read packages: write steps: - name: Checkout repository uses: actions/[email protected] - name: Set up Docker Buildx uses: docker/setup-buildx-action@v2 - name: Log in to the Container registry uses: docker/login-action@v2 with: registry: ${{ env.REGISTRY }} username: ${{ github.actor }} password: ${{ secrets.GITHUB_TOKEN }} - name: Extract metadata (tags, labels) for Docker id: meta uses: docker/metadata-action@12cce9efe0d49980455aaaca9b071c0befcdd702 with: images: ${{ env.REGISTRY }}/${{ env.IMAGE_NAME }} - name: Build and push Docker image uses: docker/build-push-action@v3 with: context: . push: ${{ github.event_name == 'push' }} tags: ${{ steps.meta.outputs.tags }} labels: ${{ steps.meta.outputs.labels }} cache-from: type=gha cache-to: type=gha,mode=max
{ "repo_name": "binoculars/ffmpeg-build-lambda", "stars": "34", "repo_language": "Dockerfile", "file_name": "docker.yml", "mime_type": "text/plain" }
/* The MIT License (MIT) Copyright (c) 2014 Mustafa Ahmed Abduljabbar Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #import <CoreFoundation/CoreFoundation.h> #import <Foundation/Foundation.h> #include <dlfcn.h> @interface WirelessAPI : NSObject { NSMutableArray *networks; NSMutableDictionary *network; void *libHandle; void *airportHandle; int (*apple80211Open)(void *); int (*apple80211Bind)(void *, NSString *); int (*apple80211Close)(void *); int (*associate)(void *, NSDictionary*, NSString*); int (*apple80211Scan)(void *, NSArray **, void *); } +(id)getSharedInstance; -(NSArray *)fatchWifiSignles; -(NSDictionary *)networkInfo:(NSString *)bssid; -(void)turnDown; @end
{ "repo_name": "mustafa96m/iOS-Wireless-Scanner-API", "stars": "30", "repo_language": "Objective-C", "file_name": "README.md", "mime_type": "text/plain" }