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06b9d553bc
* Timeout on flush in testing At the end of each test the queues are flushed. At present there is no limit on the length of time a flush can take which can lead to long flushes. However, if the CI task is cancelled we lose the log information as to where the long flush was taking place. This PR simply adds a default time limit of 2 minutes - at which point an error will be produced. This should allow us to more easily find the culprit. Signed-off-by: Andrew Thornton <art27@cantab.net> * return better error Signed-off-by: Andrew Thornton <art27@cantab.net> Co-authored-by: 6543 <6543@obermui.de>
389 lines
10 KiB
Go
389 lines
10 KiB
Go
// Copyright 2019 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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"reflect"
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"sort"
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"strings"
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"sync"
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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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)
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var manager *Manager
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// Manager is a queue manager
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type Manager struct {
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mutex sync.Mutex
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counter int64
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Queues map[int64]*ManagedQueue
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}
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// ManagedQueue represents a working queue with a Pool of workers.
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//
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// Although a ManagedQueue should really represent a Queue this does not
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// necessarily have to be the case. This could be used to describe any queue.WorkerPool.
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type ManagedQueue struct {
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mutex sync.Mutex
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QID int64
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Type Type
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Name string
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Configuration interface{}
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ExemplarType string
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Managed interface{}
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counter int64
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PoolWorkers map[int64]*PoolWorkers
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}
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// Flushable represents a pool or queue that is flushable
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type Flushable interface {
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// Flush will add a flush worker to the pool - the worker should be autoregistered with the manager
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Flush(time.Duration) error
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// FlushWithContext is very similar to Flush
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// NB: The worker will not be registered with the manager.
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FlushWithContext(ctx context.Context) error
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// IsEmpty will return if the managed pool is empty and has no work
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IsEmpty() bool
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}
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// ManagedPool is a simple interface to get certain details from a worker pool
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type ManagedPool interface {
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// AddWorkers adds a number of worker as group to the pool with the provided timeout. A CancelFunc is provided to cancel the group
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AddWorkers(number int, timeout time.Duration) context.CancelFunc
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// NumberOfWorkers returns the total number of workers in the pool
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NumberOfWorkers() int
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// MaxNumberOfWorkers returns the maximum number of workers the pool can dynamically grow to
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MaxNumberOfWorkers() int
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// SetMaxNumberOfWorkers sets the maximum number of workers the pool can dynamically grow to
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SetMaxNumberOfWorkers(int)
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// BoostTimeout returns the current timeout for worker groups created during a boost
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BoostTimeout() time.Duration
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// BlockTimeout returns the timeout the internal channel can block for before a boost would occur
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BlockTimeout() time.Duration
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// BoostWorkers sets the number of workers to be created during a boost
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BoostWorkers() int
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// SetPoolSettings sets the user updatable settings for the pool
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SetPoolSettings(maxNumberOfWorkers, boostWorkers int, timeout time.Duration)
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}
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// ManagedQueueList implements the sort.Interface
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type ManagedQueueList []*ManagedQueue
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// PoolWorkers represents a group of workers working on a queue
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type PoolWorkers struct {
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PID int64
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Workers int
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Start time.Time
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Timeout time.Time
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HasTimeout bool
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Cancel context.CancelFunc
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IsFlusher bool
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}
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// PoolWorkersList implements the sort.Interface for PoolWorkers
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type PoolWorkersList []*PoolWorkers
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func init() {
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_ = GetManager()
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}
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// GetManager returns a Manager and initializes one as singleton if there's none yet
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func GetManager() *Manager {
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if manager == nil {
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manager = &Manager{
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Queues: make(map[int64]*ManagedQueue),
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}
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}
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return manager
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}
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// Add adds a queue to this manager
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func (m *Manager) Add(managed interface{},
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t Type,
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configuration,
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exemplar interface{}) int64 {
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cfg, _ := json.Marshal(configuration)
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mq := &ManagedQueue{
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Type: t,
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Configuration: string(cfg),
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ExemplarType: reflect.TypeOf(exemplar).String(),
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PoolWorkers: make(map[int64]*PoolWorkers),
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Managed: managed,
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}
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m.mutex.Lock()
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m.counter++
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mq.QID = m.counter
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mq.Name = fmt.Sprintf("queue-%d", mq.QID)
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if named, ok := managed.(Named); ok {
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name := named.Name()
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if len(name) > 0 {
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mq.Name = name
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}
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}
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m.Queues[mq.QID] = mq
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m.mutex.Unlock()
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log.Trace("Queue Manager registered: %s (QID: %d)", mq.Name, mq.QID)
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return mq.QID
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}
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// Remove a queue from the Manager
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func (m *Manager) Remove(qid int64) {
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m.mutex.Lock()
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delete(m.Queues, qid)
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m.mutex.Unlock()
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log.Trace("Queue Manager removed: QID: %d", qid)
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}
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// GetManagedQueue by qid
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func (m *Manager) GetManagedQueue(qid int64) *ManagedQueue {
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m.mutex.Lock()
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defer m.mutex.Unlock()
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return m.Queues[qid]
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}
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// FlushAll flushes all the flushable queues attached to this manager
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func (m *Manager) FlushAll(baseCtx context.Context, timeout time.Duration) error {
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var ctx context.Context
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var cancel context.CancelFunc
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start := time.Now()
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end := start
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hasTimeout := false
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if timeout > 0 {
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ctx, cancel = context.WithTimeout(baseCtx, timeout)
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end = start.Add(timeout)
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hasTimeout = true
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} else {
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ctx, cancel = context.WithCancel(baseCtx)
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}
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defer cancel()
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for {
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select {
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case <-ctx.Done():
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mqs := m.ManagedQueues()
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nonEmptyQueues := []string{}
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for _, mq := range mqs {
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if !mq.IsEmpty() {
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nonEmptyQueues = append(nonEmptyQueues, mq.Name)
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}
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}
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if len(nonEmptyQueues) > 0 {
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return fmt.Errorf("flush timeout with non-empty queues: %s", strings.Join(nonEmptyQueues, ", "))
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}
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return nil
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default:
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}
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mqs := m.ManagedQueues()
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log.Debug("Found %d Managed Queues", len(mqs))
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wg := sync.WaitGroup{}
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wg.Add(len(mqs))
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allEmpty := true
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for _, mq := range mqs {
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if mq.IsEmpty() {
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wg.Done()
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continue
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}
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allEmpty = false
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if flushable, ok := mq.Managed.(Flushable); ok {
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log.Debug("Flushing (flushable) queue: %s", mq.Name)
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go func(q *ManagedQueue) {
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localCtx, localCtxCancel := context.WithCancel(ctx)
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pid := q.RegisterWorkers(1, start, hasTimeout, end, localCtxCancel, true)
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err := flushable.FlushWithContext(localCtx)
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if err != nil && err != ctx.Err() {
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cancel()
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}
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q.CancelWorkers(pid)
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localCtxCancel()
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wg.Done()
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}(mq)
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} else {
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log.Debug("Queue: %s is non-empty but is not flushable", mq.Name)
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wg.Done()
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}
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}
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if allEmpty {
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log.Debug("All queues are empty")
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break
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}
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// Ensure there are always at least 100ms between loops but not more if we've actually been doing some flushign
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// but don't delay cancellation here.
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select {
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case <-ctx.Done():
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case <-time.After(100 * time.Millisecond):
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}
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wg.Wait()
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}
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return nil
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}
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// ManagedQueues returns the managed queues
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func (m *Manager) ManagedQueues() []*ManagedQueue {
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m.mutex.Lock()
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mqs := make([]*ManagedQueue, 0, len(m.Queues))
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for _, mq := range m.Queues {
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mqs = append(mqs, mq)
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}
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m.mutex.Unlock()
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sort.Sort(ManagedQueueList(mqs))
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return mqs
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}
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// Workers returns the poolworkers
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func (q *ManagedQueue) Workers() []*PoolWorkers {
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q.mutex.Lock()
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workers := make([]*PoolWorkers, 0, len(q.PoolWorkers))
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for _, worker := range q.PoolWorkers {
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workers = append(workers, worker)
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}
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q.mutex.Unlock()
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sort.Sort(PoolWorkersList(workers))
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return workers
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}
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// RegisterWorkers registers workers to this queue
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func (q *ManagedQueue) RegisterWorkers(number int, start time.Time, hasTimeout bool, timeout time.Time, cancel context.CancelFunc, isFlusher bool) int64 {
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q.mutex.Lock()
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defer q.mutex.Unlock()
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q.counter++
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q.PoolWorkers[q.counter] = &PoolWorkers{
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PID: q.counter,
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Workers: number,
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Start: start,
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Timeout: timeout,
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HasTimeout: hasTimeout,
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Cancel: cancel,
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IsFlusher: isFlusher,
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}
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return q.counter
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}
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// CancelWorkers cancels pooled workers with pid
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func (q *ManagedQueue) CancelWorkers(pid int64) {
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q.mutex.Lock()
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pw, ok := q.PoolWorkers[pid]
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q.mutex.Unlock()
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if !ok {
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return
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}
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pw.Cancel()
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}
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// RemoveWorkers deletes pooled workers with pid
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func (q *ManagedQueue) RemoveWorkers(pid int64) {
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q.mutex.Lock()
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pw, ok := q.PoolWorkers[pid]
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delete(q.PoolWorkers, pid)
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q.mutex.Unlock()
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if ok && pw.Cancel != nil {
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pw.Cancel()
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}
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}
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// AddWorkers adds workers to the queue if it has registered an add worker function
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func (q *ManagedQueue) AddWorkers(number int, timeout time.Duration) context.CancelFunc {
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if pool, ok := q.Managed.(ManagedPool); ok {
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// the cancel will be added to the pool workers description above
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return pool.AddWorkers(number, timeout)
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}
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return nil
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}
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// Flush flushes the queue with a timeout
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func (q *ManagedQueue) Flush(timeout time.Duration) error {
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if flushable, ok := q.Managed.(Flushable); ok {
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// the cancel will be added to the pool workers description above
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return flushable.Flush(timeout)
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}
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return nil
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}
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// IsEmpty returns if the queue is empty
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func (q *ManagedQueue) IsEmpty() bool {
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if flushable, ok := q.Managed.(Flushable); ok {
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return flushable.IsEmpty()
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}
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return true
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}
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// NumberOfWorkers returns the number of workers in the queue
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func (q *ManagedQueue) NumberOfWorkers() int {
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if pool, ok := q.Managed.(ManagedPool); ok {
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return pool.NumberOfWorkers()
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}
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return -1
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}
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// MaxNumberOfWorkers returns the maximum number of workers for the pool
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func (q *ManagedQueue) MaxNumberOfWorkers() int {
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if pool, ok := q.Managed.(ManagedPool); ok {
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return pool.MaxNumberOfWorkers()
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}
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return 0
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}
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// BoostWorkers returns the number of workers for a boost
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func (q *ManagedQueue) BoostWorkers() int {
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if pool, ok := q.Managed.(ManagedPool); ok {
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return pool.BoostWorkers()
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}
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return -1
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}
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// BoostTimeout returns the timeout of the next boost
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func (q *ManagedQueue) BoostTimeout() time.Duration {
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if pool, ok := q.Managed.(ManagedPool); ok {
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return pool.BoostTimeout()
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}
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return 0
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}
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// BlockTimeout returns the timeout til the next boost
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func (q *ManagedQueue) BlockTimeout() time.Duration {
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if pool, ok := q.Managed.(ManagedPool); ok {
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return pool.BlockTimeout()
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}
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return 0
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}
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// SetPoolSettings sets the setable boost values
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func (q *ManagedQueue) SetPoolSettings(maxNumberOfWorkers, boostWorkers int, timeout time.Duration) {
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if pool, ok := q.Managed.(ManagedPool); ok {
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pool.SetPoolSettings(maxNumberOfWorkers, boostWorkers, timeout)
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}
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}
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func (l ManagedQueueList) Len() int {
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return len(l)
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}
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func (l ManagedQueueList) Less(i, j int) bool {
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return l[i].Name < l[j].Name
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}
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func (l ManagedQueueList) Swap(i, j int) {
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l[i], l[j] = l[j], l[i]
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}
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func (l PoolWorkersList) Len() int {
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return len(l)
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}
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func (l PoolWorkersList) Less(i, j int) bool {
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return l[i].Start.Before(l[j].Start)
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}
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func (l PoolWorkersList) Swap(i, j int) {
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l[i], l[j] = l[j], l[i]
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}
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