// Copyright 2023 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 main import ( "internal/trace" ) var _ generator = &goroutineGenerator{} type goroutineGenerator struct { globalRangeGenerator globalMetricGenerator stackSampleGenerator[trace.GoID] logEventGenerator[trace.GoID] gStates map[trace.GoID]*gState[trace.GoID] focus trace.GoID filter map[trace.GoID]struct{} } func newGoroutineGenerator(ctx *traceContext, focus trace.GoID, filter map[trace.GoID]struct{}) *goroutineGenerator { gg := new(goroutineGenerator) rg := func(ev *trace.Event) trace.GoID { return ev.Goroutine() } gg.stackSampleGenerator.getResource = rg gg.logEventGenerator.getResource = rg gg.gStates = make(map[trace.GoID]*gState[trace.GoID]) gg.focus = focus gg.filter = filter // Enable a filter on the emitter. if filter != nil { ctx.SetResourceFilter(func(resource uint64) bool { _, ok := filter[trace.GoID(resource)] return ok }) } return gg } func (g *goroutineGenerator) Sync() { g.globalRangeGenerator.Sync() } func (g *goroutineGenerator) GoroutineLabel(ctx *traceContext, ev *trace.Event) { l := ev.Label() g.gStates[l.Resource.Goroutine()].setLabel(l.Label) } func (g *goroutineGenerator) GoroutineRange(ctx *traceContext, ev *trace.Event) { r := ev.Range() switch ev.Kind() { case trace.EventRangeBegin: g.gStates[r.Scope.Goroutine()].rangeBegin(ev.Time(), r.Name, ev.Stack()) case trace.EventRangeActive: g.gStates[r.Scope.Goroutine()].rangeActive(r.Name) case trace.EventRangeEnd: gs := g.gStates[r.Scope.Goroutine()] gs.rangeEnd(ev.Time(), r.Name, ev.Stack(), ctx) } } func (g *goroutineGenerator) GoroutineTransition(ctx *traceContext, ev *trace.Event) { st := ev.StateTransition() goID := st.Resource.Goroutine() // If we haven't seen this goroutine before, create a new // gState for it. gs, ok := g.gStates[goID] if !ok { gs = newGState[trace.GoID](goID) g.gStates[goID] = gs } // Try to augment the name of the goroutine. gs.augmentName(st.Stack) // Handle the goroutine state transition. from, to := st.Goroutine() if from == to { // Filter out no-op events. return } if from.Executing() && !to.Executing() { if to == trace.GoWaiting { // Goroutine started blocking. gs.block(ev.Time(), ev.Stack(), st.Reason, ctx) } else { gs.stop(ev.Time(), ev.Stack(), ctx) } } if !from.Executing() && to.Executing() { start := ev.Time() if from == trace.GoUndetermined { // Back-date the event to the start of the trace. start = ctx.startTime } gs.start(start, goID, ctx) } if from == trace.GoWaiting { // Goroutine unblocked. gs.unblock(ev.Time(), ev.Stack(), ev.Goroutine(), ctx) } if from == trace.GoNotExist && to == trace.GoRunnable { // Goroutine was created. gs.created(ev.Time(), ev.Goroutine(), ev.Stack()) } if from == trace.GoSyscall && to != trace.GoRunning { // Exiting blocked syscall. gs.syscallEnd(ev.Time(), true, ctx) gs.blockedSyscallEnd(ev.Time(), ev.Stack(), ctx) } else if from == trace.GoSyscall { // Check if we're exiting a syscall in a non-blocking way. gs.syscallEnd(ev.Time(), false, ctx) } // Handle syscalls. if to == trace.GoSyscall { start := ev.Time() if from == trace.GoUndetermined { // Back-date the event to the start of the trace. start = ctx.startTime } // Write down that we've entered a syscall. Note: we might have no G or P here // if we're in a cgo callback or this is a transition from GoUndetermined // (i.e. the G has been blocked in a syscall). gs.syscallBegin(start, goID, ev.Stack()) } // Note down the goroutine transition. _, inMarkAssist := gs.activeRanges["GC mark assist"] ctx.GoroutineTransition(ctx.elapsed(ev.Time()), viewerGState(from, inMarkAssist), viewerGState(to, inMarkAssist)) } func (g *goroutineGenerator) ProcRange(ctx *traceContext, ev *trace.Event) { // TODO(mknyszek): Extend procRangeGenerator to support rendering proc ranges // that overlap with a goroutine's execution. } func (g *goroutineGenerator) ProcTransition(ctx *traceContext, ev *trace.Event) { // Not needed. All relevant information for goroutines can be derived from goroutine transitions. } func (g *goroutineGenerator) Finish(ctx *traceContext) { ctx.SetResourceType("G") // Finish off global ranges. g.globalRangeGenerator.Finish(ctx) // Finish off all the goroutine slices. for id, gs := range g.gStates { gs.finish(ctx) // Tell the emitter about the goroutines we want to render. ctx.Resource(uint64(id), gs.name()) } // Set the goroutine to focus on. if g.focus != trace.NoGoroutine { ctx.Focus(uint64(g.focus)) } }