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https://codeberg.org/forgejo/forgejo.git
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c88547ce71
Continues on from #19202. Following the addition of pprof labels we can now more easily understand the relationship between a goroutine and the requests that spawn them. This PR takes advantage of the labels and adds a few others, then provides a mechanism for the monitoring page to query the pprof goroutine profile. The binary profile that results from this profile is immediately piped in to the google library for parsing this and then stack traces are formed for the goroutines. If the goroutine is within a context or has been created from a goroutine within a process context it will acquire the process description labels for that process. The goroutines are mapped with there associate pids and any that do not have an associated pid are placed in a group at the bottom as unbound. In this way we should be able to more easily examine goroutines that have been stuck. A manager command `gitea manager processes` is also provided that can export the processes (with or without stacktraces) to the command line. Signed-off-by: Andrew Thornton <art27@cantab.net>
420 lines
11 KiB
Go
420 lines
11 KiB
Go
// Copyright 2020 The Gitea Authors. All rights reserved.
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// Use of this source code is governed by a MIT-style
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// license that can be found in the LICENSE file.
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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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"runtime/pprof"
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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/util"
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)
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// ByteFIFOQueueConfiguration is the configuration for a ByteFIFOQueue
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type ByteFIFOQueueConfiguration struct {
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WorkerPoolConfiguration
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Workers int
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WaitOnEmpty bool
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}
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var _ Queue = &ByteFIFOQueue{}
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// ByteFIFOQueue is a Queue formed from a ByteFIFO and WorkerPool
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type ByteFIFOQueue struct {
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*WorkerPool
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byteFIFO ByteFIFO
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typ Type
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shutdownCtx context.Context
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shutdownCtxCancel context.CancelFunc
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terminateCtx context.Context
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terminateCtxCancel context.CancelFunc
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exemplar interface{}
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workers int
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name string
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lock sync.Mutex
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waitOnEmpty bool
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pushed chan struct{}
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}
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// NewByteFIFOQueue creates a new ByteFIFOQueue
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func NewByteFIFOQueue(typ Type, byteFIFO ByteFIFO, handle HandlerFunc, cfg, exemplar interface{}) (*ByteFIFOQueue, error) {
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configInterface, err := toConfig(ByteFIFOQueueConfiguration{}, cfg)
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if err != nil {
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return nil, err
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}
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config := configInterface.(ByteFIFOQueueConfiguration)
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terminateCtx, terminateCtxCancel := context.WithCancel(context.Background())
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shutdownCtx, shutdownCtxCancel := context.WithCancel(terminateCtx)
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q := &ByteFIFOQueue{
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byteFIFO: byteFIFO,
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typ: typ,
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shutdownCtx: shutdownCtx,
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shutdownCtxCancel: shutdownCtxCancel,
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terminateCtx: terminateCtx,
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terminateCtxCancel: terminateCtxCancel,
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exemplar: exemplar,
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workers: config.Workers,
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name: config.Name,
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waitOnEmpty: config.WaitOnEmpty,
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pushed: make(chan struct{}, 1),
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}
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q.WorkerPool = NewWorkerPool(func(data ...Data) (failed []Data) {
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for _, unhandled := range handle(data...) {
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if fail := q.PushBack(unhandled); fail != nil {
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failed = append(failed, fail)
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}
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}
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return
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}, config.WorkerPoolConfiguration)
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return q, nil
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}
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// Name returns the name of this queue
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func (q *ByteFIFOQueue) Name() string {
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return q.name
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}
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// Push pushes data to the fifo
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func (q *ByteFIFOQueue) Push(data Data) error {
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return q.PushFunc(data, nil)
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}
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// PushBack pushes data to the fifo
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func (q *ByteFIFOQueue) PushBack(data Data) error {
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if !assignableTo(data, q.exemplar) {
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return fmt.Errorf("unable to assign data: %v to same type as exemplar: %v in %s", data, q.exemplar, q.name)
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}
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bs, err := json.Marshal(data)
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if err != nil {
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return err
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}
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defer func() {
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select {
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case q.pushed <- struct{}{}:
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default:
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}
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}()
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return q.byteFIFO.PushBack(q.terminateCtx, bs)
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}
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// PushFunc pushes data to the fifo
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func (q *ByteFIFOQueue) PushFunc(data Data, fn func() error) error {
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if !assignableTo(data, q.exemplar) {
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return fmt.Errorf("unable to assign data: %v to same type as exemplar: %v in %s", data, q.exemplar, q.name)
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}
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bs, err := json.Marshal(data)
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if err != nil {
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return err
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}
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defer func() {
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select {
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case q.pushed <- struct{}{}:
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default:
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}
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}()
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return q.byteFIFO.PushFunc(q.terminateCtx, bs, fn)
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}
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// IsEmpty checks if the queue is empty
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func (q *ByteFIFOQueue) IsEmpty() bool {
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q.lock.Lock()
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defer q.lock.Unlock()
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if !q.WorkerPool.IsEmpty() {
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return false
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}
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return q.byteFIFO.Len(q.terminateCtx) == 0
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}
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// NumberInQueue returns the number in the queue
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func (q *ByteFIFOQueue) NumberInQueue() int64 {
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q.lock.Lock()
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defer q.lock.Unlock()
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return q.byteFIFO.Len(q.terminateCtx) + q.WorkerPool.NumberInQueue()
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}
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// Flush flushes the ByteFIFOQueue
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func (q *ByteFIFOQueue) Flush(timeout time.Duration) error {
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select {
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case q.pushed <- struct{}{}:
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default:
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}
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return q.WorkerPool.Flush(timeout)
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}
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// Run runs the bytefifo queue
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func (q *ByteFIFOQueue) Run(atShutdown, atTerminate func(func())) {
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pprof.SetGoroutineLabels(q.baseCtx)
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atShutdown(q.Shutdown)
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atTerminate(q.Terminate)
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log.Debug("%s: %s Starting", q.typ, q.name)
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_ = q.AddWorkers(q.workers, 0)
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log.Trace("%s: %s Now running", q.typ, q.name)
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q.readToChan()
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<-q.shutdownCtx.Done()
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log.Trace("%s: %s Waiting til done", q.typ, q.name)
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q.Wait()
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log.Trace("%s: %s Waiting til cleaned", q.typ, q.name)
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q.CleanUp(q.terminateCtx)
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q.terminateCtxCancel()
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}
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const maxBackOffTime = time.Second * 3
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func (q *ByteFIFOQueue) readToChan() {
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// handle quick cancels
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select {
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case <-q.shutdownCtx.Done():
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// tell the pool to shutdown.
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q.baseCtxCancel()
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return
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default:
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}
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// Default backoff values
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backOffTime := time.Millisecond * 100
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backOffTimer := time.NewTimer(0)
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util.StopTimer(backOffTimer)
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paused, _ := q.IsPausedIsResumed()
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loop:
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for {
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select {
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case <-paused:
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log.Trace("Queue %s pausing", q.name)
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_, resumed := q.IsPausedIsResumed()
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select {
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case <-resumed:
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paused, _ = q.IsPausedIsResumed()
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log.Trace("Queue %s resuming", q.name)
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if q.HasNoWorkerScaling() {
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log.Warn(
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"Queue: %s is configured to be non-scaling and has no workers - this configuration is likely incorrect.\n"+
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"The queue will be paused to prevent data-loss with the assumption that you will add workers and unpause as required.", q.name)
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q.Pause()
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continue loop
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}
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case <-q.shutdownCtx.Done():
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// tell the pool to shutdown.
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q.baseCtxCancel()
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return
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case data, ok := <-q.dataChan:
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if !ok {
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return
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}
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if err := q.PushBack(data); err != nil {
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log.Error("Unable to push back data into queue %s", q.name)
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}
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atomic.AddInt64(&q.numInQueue, -1)
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}
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default:
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}
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// empty the pushed channel
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select {
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case <-q.pushed:
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default:
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}
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err := q.doPop()
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util.StopTimer(backOffTimer)
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if err != nil {
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if err == errQueueEmpty && q.waitOnEmpty {
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log.Trace("%s: %s Waiting on Empty", q.typ, q.name)
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// reset the backoff time but don't set the timer
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backOffTime = 100 * time.Millisecond
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} else if err == errUnmarshal {
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// reset the timer and backoff
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backOffTime = 100 * time.Millisecond
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backOffTimer.Reset(backOffTime)
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} else {
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// backoff
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backOffTimer.Reset(backOffTime)
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}
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// Need to Backoff
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select {
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case <-q.shutdownCtx.Done():
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// Oops we've been shutdown whilst backing off
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// Make sure the worker pool is shutdown too
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q.baseCtxCancel()
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return
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case <-q.pushed:
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// Data has been pushed to the fifo (or flush has been called)
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// reset the backoff time
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backOffTime = 100 * time.Millisecond
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continue loop
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case <-backOffTimer.C:
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// Calculate the next backoff time
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backOffTime += backOffTime / 2
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if backOffTime > maxBackOffTime {
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backOffTime = maxBackOffTime
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}
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continue loop
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}
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}
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// Reset the backoff time
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backOffTime = 100 * time.Millisecond
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select {
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case <-q.shutdownCtx.Done():
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// Oops we've been shutdown
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// Make sure the worker pool is shutdown too
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q.baseCtxCancel()
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return
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default:
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continue loop
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}
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}
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}
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var (
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errQueueEmpty = fmt.Errorf("empty queue")
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errEmptyBytes = fmt.Errorf("empty bytes")
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errUnmarshal = fmt.Errorf("failed to unmarshal")
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)
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func (q *ByteFIFOQueue) doPop() error {
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q.lock.Lock()
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defer q.lock.Unlock()
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bs, err := q.byteFIFO.Pop(q.shutdownCtx)
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if err != nil {
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if err == context.Canceled {
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q.baseCtxCancel()
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return err
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}
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log.Error("%s: %s Error on Pop: %v", q.typ, q.name, err)
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return err
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}
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if len(bs) == 0 {
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if q.waitOnEmpty && q.byteFIFO.Len(q.shutdownCtx) == 0 {
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return errQueueEmpty
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}
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return errEmptyBytes
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}
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data, err := unmarshalAs(bs, q.exemplar)
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if err != nil {
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log.Error("%s: %s Failed to unmarshal with error: %v", q.typ, q.name, err)
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return errUnmarshal
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}
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log.Trace("%s %s: Task found: %#v", q.typ, q.name, data)
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q.WorkerPool.Push(data)
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return nil
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}
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// Shutdown processing from this queue
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func (q *ByteFIFOQueue) Shutdown() {
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log.Trace("%s: %s Shutting down", q.typ, q.name)
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select {
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case <-q.shutdownCtx.Done():
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return
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default:
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}
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q.shutdownCtxCancel()
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log.Debug("%s: %s Shutdown", q.typ, q.name)
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}
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// IsShutdown returns a channel which is closed when this Queue is shutdown
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func (q *ByteFIFOQueue) IsShutdown() <-chan struct{} {
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return q.shutdownCtx.Done()
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}
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// Terminate this queue and close the queue
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func (q *ByteFIFOQueue) Terminate() {
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log.Trace("%s: %s Terminating", q.typ, q.name)
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q.Shutdown()
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select {
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case <-q.terminateCtx.Done():
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return
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default:
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}
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if log.IsDebug() {
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log.Debug("%s: %s Closing with %d tasks left in queue", q.typ, q.name, q.byteFIFO.Len(q.terminateCtx))
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}
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q.terminateCtxCancel()
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if err := q.byteFIFO.Close(); err != nil {
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log.Error("Error whilst closing internal byte fifo in %s: %s: %v", q.typ, q.name, err)
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}
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q.baseCtxFinished()
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log.Debug("%s: %s Terminated", q.typ, q.name)
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}
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// IsTerminated returns a channel which is closed when this Queue is terminated
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func (q *ByteFIFOQueue) IsTerminated() <-chan struct{} {
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return q.terminateCtx.Done()
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}
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var _ UniqueQueue = &ByteFIFOUniqueQueue{}
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// ByteFIFOUniqueQueue represents a UniqueQueue formed from a UniqueByteFifo
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type ByteFIFOUniqueQueue struct {
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ByteFIFOQueue
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}
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// NewByteFIFOUniqueQueue creates a new ByteFIFOUniqueQueue
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func NewByteFIFOUniqueQueue(typ Type, byteFIFO UniqueByteFIFO, handle HandlerFunc, cfg, exemplar interface{}) (*ByteFIFOUniqueQueue, error) {
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configInterface, err := toConfig(ByteFIFOQueueConfiguration{}, cfg)
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if err != nil {
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return nil, err
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}
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config := configInterface.(ByteFIFOQueueConfiguration)
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terminateCtx, terminateCtxCancel := context.WithCancel(context.Background())
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shutdownCtx, shutdownCtxCancel := context.WithCancel(terminateCtx)
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q := &ByteFIFOUniqueQueue{
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ByteFIFOQueue: ByteFIFOQueue{
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byteFIFO: byteFIFO,
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typ: typ,
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shutdownCtx: shutdownCtx,
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shutdownCtxCancel: shutdownCtxCancel,
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terminateCtx: terminateCtx,
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terminateCtxCancel: terminateCtxCancel,
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exemplar: exemplar,
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workers: config.Workers,
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name: config.Name,
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},
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}
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q.WorkerPool = NewWorkerPool(func(data ...Data) (failed []Data) {
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for _, unhandled := range handle(data...) {
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if fail := q.PushBack(unhandled); fail != nil {
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failed = append(failed, fail)
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}
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}
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return
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}, config.WorkerPoolConfiguration)
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return q, nil
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}
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// Has checks if the provided data is in the queue
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func (q *ByteFIFOUniqueQueue) Has(data Data) (bool, error) {
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if !assignableTo(data, q.exemplar) {
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return false, fmt.Errorf("unable to assign data: %v to same type as exemplar: %v in %s", data, q.exemplar, q.name)
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}
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bs, err := json.Marshal(data)
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if err != nil {
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return false, err
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}
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return q.byteFIFO.(UniqueByteFIFO).Has(q.terminateCtx, bs)
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}
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