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package tache
import (
"context"
"encoding/json"
"fmt"
"log/slog"
"os"
"runtime"
"sync/atomic"
"github.com/jaevor/go-nanoid"
"github.com/xhofe/gsync"
)
// Manager is the manager of all tasks
type Manager[T Task] struct {
tasks gsync.MapOf[string, T]
queue gsync.QueueOf[T]
workers *WorkerPool[T]
opts *Options
debouncePersist func()
running atomic.Bool
idGenerator func() string
logger *slog.Logger
}
// NewManager create a new manager
func NewManager[T Task](opts ...Option) *Manager[T] {
options := DefaultOptions()
for _, opt := range opts {
opt(options)
}
nanoID, err := nanoid.Standard(21)
if err != nil {
panic(err)
}
m := &Manager[T]{
workers: NewWorkerPool[T](options.Works),
opts: options,
idGenerator: nanoID,
logger: options.Logger,
}
m.running.Store(options.Running)
if m.opts.PersistPath != "" || (m.opts.PersistReadFunction != nil && m.opts.PersistWriteFunction != nil) {
m.debouncePersist = func() {
_ = m.persist()
}
if m.opts.PersistDebounce != nil {
m.debouncePersist = newDebounce(func() {
_ = m.persist()
}, *m.opts.PersistDebounce)
}
err := m.recover()
if err != nil {
m.logger.Error("recover error", "error", err)
}
} else {
m.debouncePersist = func() {}
}
return m
}
// Add a task to manager
func (m *Manager[T]) Add(task T) {
ctx, cancel := context.WithCancel(context.Background())
task.SetCtx(ctx)
task.SetCancelFunc(cancel)
task.SetPersist(m.debouncePersist)
if task.GetID() == "" {
task.SetID(m.idGenerator())
}
if _, maxRetry := task.GetRetry(); maxRetry == 0 {
task.SetRetry(0, m.opts.MaxRetry)
}
if sliceContains([]State{StateRunning}, task.GetState()) {
task.SetState(StatePending)
}
if sliceContains([]State{StateCanceling}, task.GetState()) {
task.SetState(StateCanceled)
task.SetErr(context.Canceled)
}
if task.GetState() == StateFailing {
task.SetState(StateFailed)
}
m.tasks.Store(task.GetID(), task)
if !sliceContains([]State{StateSucceeded, StateCanceled, StateErrored, StateFailed}, task.GetState()) {
m.queue.Push(task)
}
m.debouncePersist()
m.next()
}
// get next task from queue and execute it
func (m *Manager[T]) next() {
// if manager is not running, return
if !m.running.Load() {
return
}
// if workers is full, return
worker := m.workers.Get()
if worker == nil {
return
}
m.logger.Debug("got worker", "id", worker.ID)
task, err := m.queue.Pop()
// if cannot get task, return
if err != nil {
m.workers.Put(worker)
return
}
m.logger.Debug("got task", "id", task.GetID())
go func() {
defer func() {
if task.GetState() == StateWaitingRetry {
m.queue.Push(task)
}
m.workers.Put(worker)
m.next()
}()
if task.GetState() == StateCanceling {
task.SetState(StateCanceled)
task.SetErr(context.Canceled)
return
}
if m.opts.Timeout != nil {
ctx, cancel := context.WithTimeout(task.Ctx(), *m.opts.Timeout)
defer cancel()
task.SetCtx(ctx)
}
m.logger.Info("worker execute task", "worker", worker.ID, "task", task.GetID())
worker.Execute(task)
}()
}
// Wait wait all tasks done, just for test
func (m *Manager[T]) Wait() {
for {
tasks, running := m.queue.Len(), m.workers.working.Load()
if tasks == 0 && running == 0 {
return
}
runtime.Gosched()
}
}
// persist all tasks
func (m *Manager[T]) persist() error {
if m.opts.PersistPath == "" && m.opts.PersistReadFunction == nil && m.opts.PersistWriteFunction == nil {
return nil
}
// serialize tasks
tasks := m.GetAll()
var toPersist []T
for _, task := range tasks {
// only persist task which is not persistable or persistable and need persist
if p, ok := Task(task).(Persistable); !ok || p.Persistable() {
toPersist = append(toPersist, task)
}
}
marshal, err := json.Marshal(toPersist)
if err != nil {
return err
}
if m.opts.PersistReadFunction != nil && m.opts.PersistWriteFunction != nil {
err = m.opts.PersistWriteFunction(marshal)
if err != nil {
return err
}
}
if m.opts.PersistPath != "" {
// write to file
err = os.WriteFile(m.opts.PersistPath, marshal, 0644)
if err != nil {
return err
}
}
return nil
}
// recover all tasks
func (m *Manager[T]) recover() error {
var data []byte
var err error
if m.opts.PersistPath != "" {
// read from file
data, err = os.ReadFile(m.opts.PersistPath)
} else if m.opts.PersistReadFunction != nil && m.opts.PersistWriteFunction != nil {
data, err = m.opts.PersistReadFunction()
} else {
return nil
}
if err != nil {
return err
}
// deserialize tasks
var tasks []T
err = json.Unmarshal(data, &tasks)
if err != nil {
return err
}
// add tasks
for _, task := range tasks {
// only recover task which is not recoverable or recoverable and need recover
if r, ok := Task(task).(Recoverable); !ok || r.Recoverable() {
m.Add(task)
} else {
task.SetState(StateFailed)
task.SetErr(fmt.Errorf("the task is interrupted and cannot be recovered"))
m.tasks.Store(task.GetID(), task)
}
}
return nil
}
// Cancel a task by ID
func (m *Manager[T]) Cancel(id string) {
if task, ok := m.tasks.Load(id); ok {
task.Cancel()
m.debouncePersist()
}
}
// CancelAll cancel all tasks
func (m *Manager[T]) CancelAll() {
m.tasks.Range(func(key string, value T) bool {
value.Cancel()
return true
})
m.debouncePersist()
}
// GetAll get all tasks
func (m *Manager[T]) GetAll() []T {
var tasks []T
m.tasks.Range(func(key string, value T) bool {
tasks = append(tasks, value)
return true
})
return tasks
}
// GetByID get task by ID
func (m *Manager[T]) GetByID(id string) (T, bool) {
return m.tasks.Load(id)
}
// GetByState get tasks by state
func (m *Manager[T]) GetByState(state ...State) []T {
var tasks []T
m.tasks.Range(func(key string, value T) bool {
if sliceContains(state, value.GetState()) {
tasks = append(tasks, value)
}
return true
})
return tasks
}
// Remove a task by ID
func (m *Manager[T]) Remove(id string) {
m.tasks.Delete(id)
m.debouncePersist()
}
// RemoveAll remove all tasks
func (m *Manager[T]) RemoveAll() {
tasks := m.GetAll()
for _, task := range tasks {
m.Remove(task.GetID())
}
}
// RemoveByState remove tasks by state
func (m *Manager[T]) RemoveByState(state ...State) {
tasks := m.GetByState(state...)
for _, task := range tasks {
m.Remove(task.GetID())
}
}
// Retry a task by ID
func (m *Manager[T]) Retry(id string) {
if task, ok := m.tasks.Load(id); ok {
task.SetState(StateWaitingRetry)
task.SetErr(nil)
task.SetRetry(0, m.opts.MaxRetry)
m.queue.Push(task)
m.next()
m.debouncePersist()
}
}
// RetryAllFailed retry all failed tasks
func (m *Manager[T]) RetryAllFailed() {
tasks := m.GetByState(StateFailed)
for _, task := range tasks {
m.Retry(task.GetID())
}
}
// Start manager
func (m *Manager[T]) Start() {
m.running.Store(true)
m.next()
}
// Pause manager
func (m *Manager[T]) Pause() {
m.running.Store(false)
}
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