mirror of
https://github.com/superseriousbusiness/gotosocial.git
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c097745c38
Bumps [go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc](https://github.com/open-telemetry/opentelemetry-go) from 1.24.0 to 1.25.0. - [Release notes](https://github.com/open-telemetry/opentelemetry-go/releases) - [Changelog](https://github.com/open-telemetry/opentelemetry-go/blob/main/CHANGELOG.md) - [Commits](https://github.com/open-telemetry/opentelemetry-go/compare/v1.24.0...v1.25.0) --- updated-dependencies: - dependency-name: go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc dependency-type: direct:production update-type: version-update:semver-minor ... Signed-off-by: dependabot[bot] <support@github.com> Co-authored-by: dependabot[bot] <49699333+dependabot[bot]@users.noreply.github.com>
331 lines
7.6 KiB
Go
331 lines
7.6 KiB
Go
// Copyright 2024 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package http2
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import (
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"context"
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"sync"
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"time"
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)
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// testSyncHooks coordinates goroutines in tests.
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//
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// For example, a call to ClientConn.RoundTrip involves several goroutines, including:
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// - the goroutine running RoundTrip;
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// - the clientStream.doRequest goroutine, which writes the request; and
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// - the clientStream.readLoop goroutine, which reads the response.
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//
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// Using testSyncHooks, a test can start a RoundTrip and identify when all these goroutines
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// are blocked waiting for some condition such as reading the Request.Body or waiting for
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// flow control to become available.
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//
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// The testSyncHooks also manage timers and synthetic time in tests.
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// This permits us to, for example, start a request and cause it to time out waiting for
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// response headers without resorting to time.Sleep calls.
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type testSyncHooks struct {
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// active/inactive act as a mutex and condition variable.
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//
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// - neither chan contains a value: testSyncHooks is locked.
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// - active contains a value: unlocked, and at least one goroutine is not blocked
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// - inactive contains a value: unlocked, and all goroutines are blocked
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active chan struct{}
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inactive chan struct{}
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// goroutine counts
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total int // total goroutines
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condwait map[*sync.Cond]int // blocked in sync.Cond.Wait
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blocked []*testBlockedGoroutine // otherwise blocked
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// fake time
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now time.Time
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timers []*fakeTimer
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// Transport testing: Report various events.
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newclientconn func(*ClientConn)
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newstream func(*clientStream)
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}
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// testBlockedGoroutine is a blocked goroutine.
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type testBlockedGoroutine struct {
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f func() bool // blocked until f returns true
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ch chan struct{} // closed when unblocked
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}
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func newTestSyncHooks() *testSyncHooks {
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h := &testSyncHooks{
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active: make(chan struct{}, 1),
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inactive: make(chan struct{}, 1),
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condwait: map[*sync.Cond]int{},
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}
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h.inactive <- struct{}{}
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h.now = time.Date(2000, 1, 1, 0, 0, 0, 0, time.UTC)
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return h
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}
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// lock acquires the testSyncHooks mutex.
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func (h *testSyncHooks) lock() {
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select {
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case <-h.active:
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case <-h.inactive:
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}
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}
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// waitInactive waits for all goroutines to become inactive.
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func (h *testSyncHooks) waitInactive() {
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for {
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<-h.inactive
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if !h.unlock() {
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break
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}
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}
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}
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// unlock releases the testSyncHooks mutex.
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// It reports whether any goroutines are active.
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func (h *testSyncHooks) unlock() (active bool) {
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// Look for a blocked goroutine which can be unblocked.
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blocked := h.blocked[:0]
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unblocked := false
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for _, b := range h.blocked {
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if !unblocked && b.f() {
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unblocked = true
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close(b.ch)
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} else {
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blocked = append(blocked, b)
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}
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}
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h.blocked = blocked
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// Count goroutines blocked on condition variables.
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condwait := 0
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for _, count := range h.condwait {
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condwait += count
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}
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if h.total > condwait+len(blocked) {
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h.active <- struct{}{}
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return true
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} else {
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h.inactive <- struct{}{}
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return false
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}
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}
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// goRun starts a new goroutine.
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func (h *testSyncHooks) goRun(f func()) {
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h.lock()
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h.total++
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h.unlock()
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go func() {
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defer func() {
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h.lock()
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h.total--
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h.unlock()
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}()
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f()
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}()
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}
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// blockUntil indicates that a goroutine is blocked waiting for some condition to become true.
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// It waits until f returns true before proceeding.
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//
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// Example usage:
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//
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// h.blockUntil(func() bool {
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// // Is the context done yet?
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// select {
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// case <-ctx.Done():
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// default:
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// return false
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// }
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// return true
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// })
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// // Wait for the context to become done.
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// <-ctx.Done()
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//
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// The function f passed to blockUntil must be non-blocking and idempotent.
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func (h *testSyncHooks) blockUntil(f func() bool) {
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if f() {
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return
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}
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ch := make(chan struct{})
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h.lock()
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h.blocked = append(h.blocked, &testBlockedGoroutine{
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f: f,
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ch: ch,
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})
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h.unlock()
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<-ch
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}
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// broadcast is sync.Cond.Broadcast.
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func (h *testSyncHooks) condBroadcast(cond *sync.Cond) {
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h.lock()
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delete(h.condwait, cond)
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h.unlock()
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cond.Broadcast()
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}
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// broadcast is sync.Cond.Wait.
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func (h *testSyncHooks) condWait(cond *sync.Cond) {
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h.lock()
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h.condwait[cond]++
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h.unlock()
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}
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// newTimer creates a new fake timer.
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func (h *testSyncHooks) newTimer(d time.Duration) timer {
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h.lock()
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defer h.unlock()
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t := &fakeTimer{
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hooks: h,
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when: h.now.Add(d),
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c: make(chan time.Time),
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}
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h.timers = append(h.timers, t)
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return t
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}
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// afterFunc creates a new fake AfterFunc timer.
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func (h *testSyncHooks) afterFunc(d time.Duration, f func()) timer {
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h.lock()
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defer h.unlock()
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t := &fakeTimer{
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hooks: h,
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when: h.now.Add(d),
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f: f,
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}
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h.timers = append(h.timers, t)
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return t
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}
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func (h *testSyncHooks) contextWithTimeout(ctx context.Context, d time.Duration) (context.Context, context.CancelFunc) {
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ctx, cancel := context.WithCancel(ctx)
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t := h.afterFunc(d, cancel)
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return ctx, func() {
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t.Stop()
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cancel()
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}
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}
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func (h *testSyncHooks) timeUntilEvent() time.Duration {
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h.lock()
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defer h.unlock()
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var next time.Time
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for _, t := range h.timers {
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if next.IsZero() || t.when.Before(next) {
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next = t.when
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}
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}
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if d := next.Sub(h.now); d > 0 {
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return d
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}
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return 0
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}
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// advance advances time and causes synthetic timers to fire.
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func (h *testSyncHooks) advance(d time.Duration) {
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h.lock()
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defer h.unlock()
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h.now = h.now.Add(d)
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timers := h.timers[:0]
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for _, t := range h.timers {
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t := t // remove after go.mod depends on go1.22
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t.mu.Lock()
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switch {
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case t.when.After(h.now):
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timers = append(timers, t)
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case t.when.IsZero():
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// stopped timer
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default:
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t.when = time.Time{}
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if t.c != nil {
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close(t.c)
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}
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if t.f != nil {
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h.total++
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go func() {
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defer func() {
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h.lock()
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h.total--
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h.unlock()
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}()
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t.f()
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}()
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}
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}
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t.mu.Unlock()
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}
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h.timers = timers
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}
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// A timer wraps a time.Timer, or a synthetic equivalent in tests.
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// Unlike time.Timer, timer is single-use: The timer channel is closed when the timer expires.
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type timer interface {
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C() <-chan time.Time
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Stop() bool
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Reset(d time.Duration) bool
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}
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// timeTimer implements timer using real time.
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type timeTimer struct {
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t *time.Timer
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c chan time.Time
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}
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// newTimeTimer creates a new timer using real time.
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func newTimeTimer(d time.Duration) timer {
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ch := make(chan time.Time)
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t := time.AfterFunc(d, func() {
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close(ch)
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})
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return &timeTimer{t, ch}
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}
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// newTimeAfterFunc creates an AfterFunc timer using real time.
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func newTimeAfterFunc(d time.Duration, f func()) timer {
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return &timeTimer{
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t: time.AfterFunc(d, f),
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}
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}
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func (t timeTimer) C() <-chan time.Time { return t.c }
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func (t timeTimer) Stop() bool { return t.t.Stop() }
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func (t timeTimer) Reset(d time.Duration) bool { return t.t.Reset(d) }
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// fakeTimer implements timer using fake time.
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type fakeTimer struct {
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hooks *testSyncHooks
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mu sync.Mutex
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when time.Time // when the timer will fire
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c chan time.Time // closed when the timer fires; mutually exclusive with f
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f func() // called when the timer fires; mutually exclusive with c
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}
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func (t *fakeTimer) C() <-chan time.Time { return t.c }
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func (t *fakeTimer) Stop() bool {
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t.mu.Lock()
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defer t.mu.Unlock()
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stopped := t.when.IsZero()
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t.when = time.Time{}
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return stopped
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}
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func (t *fakeTimer) Reset(d time.Duration) bool {
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if t.c != nil || t.f == nil {
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panic("fakeTimer only supports Reset on AfterFunc timers")
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}
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t.mu.Lock()
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defer t.mu.Unlock()
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t.hooks.lock()
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defer t.hooks.unlock()
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active := !t.when.IsZero()
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t.when = t.hooks.now.Add(d)
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if !active {
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t.hooks.timers = append(t.hooks.timers, t)
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}
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return active
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}
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