mirror of
https://github.com/zrepl/zrepl.git
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10a14a8c50
package trace: - introduce the concept of tasks and spans, tracked as linked list within ctx - see package-level docs for an overview of the concepts - **main feature 1**: unique stack of task and span IDs - makes it easy to follow a series of log entries in concurrent code - **main feature 2**: ability to produce a chrome://tracing-compatible trace file - either via an env variable or a `zrepl pprof` subcommand - this is not a CPU profile, we already have go pprof for that - but it is very useful to visually inspect where the replication / snapshotter / pruner spends its time ( fixes #307 ) usage in package daemon/logging: - goal: every log entry should have a trace field with the ID stack from package trace - make `logging.GetLogger(ctx, Subsys)` the authoritative `logger.Logger` factory function - the context carries a linked list of injected fields which `logging.GetLogger` adds to the logger it returns - `logging.GetLogger` also uses package `trace` to get the task-and-span-stack and injects it into the returned logger's fields
167 lines
3.5 KiB
Go
167 lines
3.5 KiB
Go
package driver
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import (
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"container/heap"
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"context"
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"time"
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"github.com/zrepl/zrepl/daemon/logging/trace"
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"github.com/zrepl/zrepl/util/chainlock"
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)
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type stepQueueRec struct {
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ident interface{}
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targetDate time.Time
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wakeup chan StepCompletedFunc
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}
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type stepQueue struct {
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stop chan struct{}
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reqs chan stepQueueRec
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}
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type stepQueueHeapItem struct {
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idx int
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req stepQueueRec
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}
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type stepQueueHeap []*stepQueueHeapItem
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func (h stepQueueHeap) Less(i, j int) bool {
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return h[i].req.targetDate.Before(h[j].req.targetDate)
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}
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func (h stepQueueHeap) Swap(i, j int) {
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h[i], h[j] = h[j], h[i]
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h[i].idx = i
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h[j].idx = j
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}
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func (h stepQueueHeap) Len() int {
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return len(h)
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}
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func (h *stepQueueHeap) Push(elem interface{}) {
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hitem := elem.(*stepQueueHeapItem)
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hitem.idx = h.Len()
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*h = append(*h, hitem)
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}
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func (h *stepQueueHeap) Pop() interface{} {
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elem := (*h)[h.Len()-1]
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elem.idx = -1
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*h = (*h)[:h.Len()-1]
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return elem
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}
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// returned stepQueue must be closed with method Close
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func newStepQueue() *stepQueue {
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q := &stepQueue{
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stop: make(chan struct{}),
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reqs: make(chan stepQueueRec),
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}
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return q
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}
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// the returned done function must be called to free resources
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// allocated by the call to Start
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//
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// No WaitReady calls must be active at the time done is called
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// The behavior of calling WaitReady after done was called is undefined
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func (q *stepQueue) Start(concurrency int) (done func()) {
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if concurrency < 1 {
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panic("concurrency must be >= 1")
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}
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// l protects pending and queueItems
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l := chainlock.New()
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pendingCond := l.NewCond()
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// priority queue
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pending := &stepQueueHeap{}
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// ident => queueItem
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queueItems := make(map[interface{}]*stepQueueHeapItem)
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// stopped is used for cancellation of "wake" goroutine
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stopped := false
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active := 0
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go func() { // "stopper" goroutine
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<-q.stop
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defer l.Lock().Unlock()
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stopped = true
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pendingCond.Broadcast()
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}()
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go func() { // "reqs" goroutine
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for {
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select {
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case <-q.stop:
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select {
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case <-q.reqs:
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panic("WaitReady call active while calling Close")
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default:
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return
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}
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case req := <-q.reqs:
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func() {
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defer l.Lock().Unlock()
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if _, ok := queueItems[req.ident]; ok {
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panic("WaitReady must not be called twice for the same ident")
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}
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qitem := &stepQueueHeapItem{
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req: req,
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}
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queueItems[req.ident] = qitem
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heap.Push(pending, qitem)
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pendingCond.Broadcast()
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}()
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}
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}
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}()
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go func() { // "wake" goroutine
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defer l.Lock().Unlock()
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for {
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for !stopped && (active >= concurrency || pending.Len() == 0) {
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pendingCond.Wait()
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}
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if stopped {
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return
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}
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if pending.Len() <= 0 {
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return
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}
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active++
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next := heap.Pop(pending).(*stepQueueHeapItem).req
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delete(queueItems, next.ident)
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next.wakeup <- func() {
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defer l.Lock().Unlock()
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active--
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pendingCond.Broadcast()
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}
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}
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}()
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done = func() {
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close(q.stop)
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}
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return done
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}
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type StepCompletedFunc func()
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func (q *stepQueue) sendAndWaitForWakeup(ident interface{}, targetDate time.Time) StepCompletedFunc {
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req := stepQueueRec{
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ident,
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targetDate,
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make(chan StepCompletedFunc),
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}
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q.reqs <- req
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return <-req.wakeup
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}
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// Wait for the ident with targetDate to be selected to run.
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func (q *stepQueue) WaitReady(ctx context.Context, ident interface{}, targetDate time.Time) StepCompletedFunc {
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defer trace.WithSpanFromStackUpdateCtx(&ctx)()
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if targetDate.IsZero() {
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panic("targetDate of zero is reserved for marking Done")
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}
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return q.sendAndWaitForWakeup(ident, targetDate)
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}
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