// Copyright 2018 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package trace import ( "context" "fmt" "sync/atomic" _ "unsafe" ) type traceContextKey struct{} // NewTask creates a task instance with the type taskType and returns // it along with a Context that carries the task. // If the input context contains a task, the new task is its subtask. // // The taskType is used to classify task instances. Analysis tools // like the Go execution tracer may assume there are only a bounded // number of unique task types in the system. // // The returned end function is used to mark the task's end. // The trace tool measures task latency as the time between task creation // and when the end function is called, and provides the latency // distribution per task type. // If the end function is called multiple times, only the first // call is used in the latency measurement. // // ctx, task := trace.NewTask(ctx, "awesomeTask") // trace.WithRegion(ctx, "preparation", prepWork) // // preparation of the task // go func() { // continue processing the task in a separate goroutine. // defer task.End() // trace.WithRegion(ctx, "remainingWork", remainingWork) // }() func NewTask(pctx context.Context, taskType string) (ctx context.Context, task *Task) { pid := fromContext(pctx).id id := newID() userTaskCreate(id, pid, taskType) s := &Task{id: id} return context.WithValue(pctx, traceContextKey{}, s), s // We allocate a new task and the end function even when // the tracing is disabled because the context and the detach // function can be used across trace enable/disable boundaries, // which complicates the problem. // // For example, consider the following scenario: // - trace is enabled. // - trace.WithRegion is called, so a new context ctx // with a new region is created. // - trace is disabled. // - trace is enabled again. // - trace APIs with the ctx is called. Is the ID in the task // a valid one to use? // // TODO(hyangah): reduce the overhead at least when // tracing is disabled. Maybe the id can embed a tracing // round number and ignore ids generated from previous // tracing round. } func fromContext(ctx context.Context) *Task { if s, ok := ctx.Value(traceContextKey{}).(*Task); ok { return s } return &bgTask } // Task is a data type for tracing a user-defined, logical operation. type Task struct { id uint64 // TODO(hyangah): record parent id? } // End marks the end of the operation represented by the Task. func (t *Task) End() { userTaskEnd(t.id) } var lastTaskID uint64 = 0 // task id issued last time func newID() uint64 { // TODO(hyangah): use per-P cache return atomic.AddUint64(&lastTaskID, 1) } var bgTask = Task{id: uint64(0)} // Log emits a one-off event with the given category and message. // Category can be empty and the API assumes there are only a handful of // unique categories in the system. func Log(ctx context.Context, category, message string) { id := fromContext(ctx).id userLog(id, category, message) } // Logf is like Log, but the value is formatted using the specified format spec. func Logf(ctx context.Context, category, format string, args ...any) { if IsEnabled() { // Ideally this should be just Log, but that will // add one more frame in the stack trace. id := fromContext(ctx).id userLog(id, category, fmt.Sprintf(format, args...)) } } const ( regionStartCode = uint64(0) regionEndCode = uint64(1) ) // WithRegion starts a region associated with its calling goroutine, runs fn, // and then ends the region. If the context carries a task, the region is // associated with the task. Otherwise, the region is attached to the background // task. // // The regionType is used to classify regions, so there should be only a // handful of unique region types. func WithRegion(ctx context.Context, regionType string, fn func()) { // NOTE: // WithRegion helps avoiding misuse of the API but in practice, // this is very restrictive: // - Use of WithRegion makes the stack traces captured from // region start and end are identical. // - Refactoring the existing code to use WithRegion is sometimes // hard and makes the code less readable. // e.g. code block nested deep in the loop with various // exit point with return values // - Refactoring the code to use this API with closure can // cause different GC behavior such as retaining some parameters // longer. // This causes more churns in code than I hoped, and sometimes // makes the code less readable. id := fromContext(ctx).id userRegion(id, regionStartCode, regionType) defer userRegion(id, regionEndCode, regionType) fn() } // StartRegion starts a region and returns a function for marking the // end of the region. The returned Region's End function must be called // from the same goroutine where the region was started. // Within each goroutine, regions must nest. That is, regions started // after this region must be ended before this region can be ended. // Recommended usage is // // defer trace.StartRegion(ctx, "myTracedRegion").End() func StartRegion(ctx context.Context, regionType string) *Region { if !IsEnabled() { return noopRegion } id := fromContext(ctx).id userRegion(id, regionStartCode, regionType) return &Region{id, regionType} } // Region is a region of code whose execution time interval is traced. type Region struct { id uint64 regionType string } var noopRegion = &Region{} // End marks the end of the traced code region. func (r *Region) End() { if r == noopRegion { return } userRegion(r.id, regionEndCode, r.regionType) } // IsEnabled reports whether tracing is enabled. // The information is advisory only. The tracing status // may have changed by the time this function returns. func IsEnabled() bool { return tracing.enabled.Load() } // // Function bodies are defined in runtime/trace.go // // emits UserTaskCreate event. func userTaskCreate(id, parentID uint64, taskType string) // emits UserTaskEnd event. func userTaskEnd(id uint64) // emits UserRegion event. func userRegion(id, mode uint64, regionType string) // emits UserLog event. func userLog(id uint64, category, message string)