mirror of
https://codeberg.org/forgejo/forgejo.git
synced 2024-12-23 20:17:03 +01:00
e159297443
Without `case <-t.C`, the workers would stop incorrectly, the test won't pass. For the worse case, there might be only one running worker processing the queue items for long time because other workers are stopped. The root cause is related to the logic of doDispatchBatchToWorker. It isn't a serious problem at the moment, so keep it as-is. (cherry picked from commit 6465f94a2d26cdacc232fddc20f98d98df61ddac)
254 lines
7 KiB
Go
254 lines
7 KiB
Go
// Copyright 2023 The Gitea Authors. All rights reserved.
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// SPDX-License-Identifier: MIT
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package queue
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import (
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"context"
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"fmt"
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"sync"
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"sync/atomic"
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"time"
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"code.gitea.io/gitea/modules/json"
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"code.gitea.io/gitea/modules/log"
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"code.gitea.io/gitea/modules/process"
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"code.gitea.io/gitea/modules/setting"
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)
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// WorkerPoolQueue is a queue that uses a pool of workers to process items
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// It can use different underlying (base) queue types
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type WorkerPoolQueue[T any] struct {
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ctxRun context.Context
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ctxRunCancel context.CancelFunc
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shutdownDone chan struct{}
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shutdownTimeout atomic.Int64 // in case some buggy handlers (workers) would hang forever, "shutdown" should finish in predictable time
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origHandler HandlerFuncT[T]
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safeHandler HandlerFuncT[T]
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baseQueueType string
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baseConfig *BaseConfig
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baseQueue baseQueue
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batchChan chan []T
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flushChan chan flushType
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batchLength int
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workerNum int
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workerMaxNum int
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workerActiveNum int
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workerNumMu sync.Mutex
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workerStartedCounter int32
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}
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type flushType chan struct{}
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var _ ManagedWorkerPoolQueue = (*WorkerPoolQueue[any])(nil)
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func (q *WorkerPoolQueue[T]) GetName() string {
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return q.baseConfig.ManagedName
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}
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func (q *WorkerPoolQueue[T]) GetType() string {
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return q.baseQueueType
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}
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func (q *WorkerPoolQueue[T]) GetItemTypeName() string {
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var t T
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return fmt.Sprintf("%T", t)
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}
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func (q *WorkerPoolQueue[T]) GetWorkerNumber() int {
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q.workerNumMu.Lock()
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defer q.workerNumMu.Unlock()
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return q.workerNum
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}
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func (q *WorkerPoolQueue[T]) GetWorkerActiveNumber() int {
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q.workerNumMu.Lock()
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defer q.workerNumMu.Unlock()
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return q.workerActiveNum
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}
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func (q *WorkerPoolQueue[T]) GetWorkerMaxNumber() int {
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q.workerNumMu.Lock()
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defer q.workerNumMu.Unlock()
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return q.workerMaxNum
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}
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func (q *WorkerPoolQueue[T]) SetWorkerMaxNumber(num int) {
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q.workerNumMu.Lock()
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defer q.workerNumMu.Unlock()
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q.workerMaxNum = num
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}
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func (q *WorkerPoolQueue[T]) GetQueueItemNumber() int {
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cnt, err := q.baseQueue.Len(q.ctxRun)
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if err != nil {
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log.Error("Failed to get number of items in queue %q: %v", q.GetName(), err)
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}
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return cnt
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}
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func (q *WorkerPoolQueue[T]) FlushWithContext(ctx context.Context, timeout time.Duration) (err error) {
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if q.isBaseQueueDummy() {
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return nil
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}
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log.Debug("Try to flush queue %q with timeout %v", q.GetName(), timeout)
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defer log.Debug("Finish flushing queue %q, err: %v", q.GetName(), err)
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var after <-chan time.Time
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after = infiniteTimerC
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if timeout > 0 {
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after = time.After(timeout)
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}
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c := make(flushType)
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// send flush request
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// if it blocks, it means that there is a flush in progress or the queue hasn't been started yet
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select {
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case q.flushChan <- c:
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case <-ctx.Done():
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return ctx.Err()
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case <-q.ctxRun.Done():
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return q.ctxRun.Err()
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case <-after:
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return context.DeadlineExceeded
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}
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// wait for flush to finish
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select {
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case <-c:
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return nil
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case <-ctx.Done():
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return ctx.Err()
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case <-q.ctxRun.Done():
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return q.ctxRun.Err()
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case <-after:
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return context.DeadlineExceeded
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}
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}
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// RemoveAllItems removes all items in the baes queue
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func (q *WorkerPoolQueue[T]) RemoveAllItems(ctx context.Context) error {
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return q.baseQueue.RemoveAll(ctx)
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}
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func (q *WorkerPoolQueue[T]) marshal(data T) []byte {
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bs, err := json.Marshal(data)
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if err != nil {
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log.Error("Failed to marshal item for queue %q: %v", q.GetName(), err)
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return nil
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}
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return bs
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}
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func (q *WorkerPoolQueue[T]) unmarshal(data []byte) (t T, ok bool) {
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if err := json.Unmarshal(data, &t); err != nil {
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log.Error("Failed to unmarshal item from queue %q: %v", q.GetName(), err)
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return t, false
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}
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return t, true
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}
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func (q *WorkerPoolQueue[T]) isBaseQueueDummy() bool {
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_, isDummy := q.baseQueue.(*baseDummy)
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return isDummy
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}
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// Push adds an item to the queue, it may block for a while and then returns an error if the queue is full
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func (q *WorkerPoolQueue[T]) Push(data T) error {
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if q.isBaseQueueDummy() && q.safeHandler != nil {
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// FIXME: the "immediate" queue is only for testing, but it really causes problems because its behavior is different from a real queue.
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// Even if tests pass, it doesn't mean that there is no bug in code.
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if data, ok := q.unmarshal(q.marshal(data)); ok {
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q.safeHandler(data)
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}
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}
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return q.baseQueue.PushItem(q.ctxRun, q.marshal(data))
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}
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// Has only works for unique queues. Keep in mind that this check may not be reliable (due to lacking of proper transaction support)
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// There could be a small chance that duplicate items appear in the queue
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func (q *WorkerPoolQueue[T]) Has(data T) (bool, error) {
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return q.baseQueue.HasItem(q.ctxRun, q.marshal(data))
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}
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func (q *WorkerPoolQueue[T]) Run() {
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q.doRun()
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}
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func (q *WorkerPoolQueue[T]) Cancel() {
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q.ctxRunCancel()
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}
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// ShutdownWait shuts down the queue, waits for all workers to finish their jobs, and pushes the unhandled items back to the base queue
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// It waits for all workers (handlers) to finish their jobs, in case some buggy handlers would hang forever, a reasonable timeout is needed
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func (q *WorkerPoolQueue[T]) ShutdownWait(timeout time.Duration) {
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q.shutdownTimeout.Store(int64(timeout))
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q.ctxRunCancel()
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<-q.shutdownDone
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}
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func getNewQueueFn(t string) (string, func(cfg *BaseConfig, unique bool) (baseQueue, error)) {
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switch t {
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case "dummy", "immediate":
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return t, newBaseDummy
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case "channel":
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return t, newBaseChannelGeneric
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case "redis":
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return t, newBaseRedisGeneric
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default: // level(leveldb,levelqueue,persistable-channel)
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return "level", newBaseLevelQueueGeneric
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}
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}
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func newWorkerPoolQueueForTest[T any](name string, queueSetting setting.QueueSettings, handler HandlerFuncT[T], unique bool) (*WorkerPoolQueue[T], error) {
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return NewWorkerPoolQueueWithContext(context.Background(), name, queueSetting, handler, unique)
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}
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func NewWorkerPoolQueueWithContext[T any](ctx context.Context, name string, queueSetting setting.QueueSettings, handler HandlerFuncT[T], unique bool) (*WorkerPoolQueue[T], error) {
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if handler == nil {
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log.Debug("Use dummy queue for %q because handler is nil and caller doesn't want to process the queue items", name)
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queueSetting.Type = "dummy"
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}
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var w WorkerPoolQueue[T]
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var err error
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queueType, newQueueFn := getNewQueueFn(queueSetting.Type)
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w.baseQueueType = queueType
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w.baseConfig = toBaseConfig(name, queueSetting)
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w.baseQueue, err = newQueueFn(w.baseConfig, unique)
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if err != nil {
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return nil, err
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}
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log.Trace("Created queue %q of type %q", name, queueType)
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w.ctxRun, _, w.ctxRunCancel = process.GetManager().AddTypedContext(ctx, "Queue: "+w.GetName(), process.SystemProcessType, false)
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w.batchChan = make(chan []T)
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w.flushChan = make(chan flushType)
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w.shutdownDone = make(chan struct{})
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w.shutdownTimeout.Store(int64(shutdownDefaultTimeout))
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w.workerMaxNum = queueSetting.MaxWorkers
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w.batchLength = queueSetting.BatchLength
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w.origHandler = handler
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w.safeHandler = func(t ...T) (unhandled []T) {
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defer func() {
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err := recover()
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if err != nil {
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log.Error("Recovered from panic in queue %q handler: %v\n%s", name, err, log.Stack(2))
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}
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}()
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if w.origHandler != nil {
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return w.origHandler(t...)
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}
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return nil
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}
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return &w, nil
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}
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