// Copyright 2011 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. // CPU profiling. // // The signal handler for the profiling clock tick adds a new stack trace // to a log of recent traces. The log is read by a user goroutine that // turns it into formatted profile data. If the reader does not keep up // with the log, those writes will be recorded as a count of lost records. // The actual profile buffer is in profbuf.go. package runtime import ( "runtime/internal/atomic" "runtime/internal/sys" "unsafe" ) const maxCPUProfStack = 64 type cpuProfile struct { lock mutex on bool // profiling is on log *profBuf // profile events written here // extra holds extra stacks accumulated in addNonGo // corresponding to profiling signals arriving on // non-Go-created threads. Those stacks are written // to log the next time a normal Go thread gets the // signal handler. // Assuming the stacks are 2 words each (we don't get // a full traceback from those threads), plus one word // size for framing, 100 Hz profiling would generate // 300 words per second. // Hopefully a normal Go thread will get the profiling // signal at least once every few seconds. extra [1000]uintptr numExtra int lostExtra uint64 // count of frames lost because extra is full } var cpuprof cpuProfile // SetCPUProfileRate sets the CPU profiling rate to hz samples per second. // If hz <= 0, SetCPUProfileRate turns off profiling. // If the profiler is on, the rate cannot be changed without first turning it off. // // Most clients should use the runtime/pprof package or // the testing package's -test.cpuprofile flag instead of calling // SetCPUProfileRate directly. func SetCPUProfileRate(hz int) { // Clamp hz to something reasonable. if hz < 0 { hz = 0 } if hz > 1000000 { hz = 1000000 } lock(&cpuprof.lock) if hz > 0 { if cpuprof.on || cpuprof.log != nil { print("runtime: cannot set cpu profile rate until previous profile has finished.\n") unlock(&cpuprof.lock) return } cpuprof.on = true cpuprof.log = newProfBuf(1, 1<<17, 1<<14) hdr := [1]uint64{uint64(hz)} cpuprof.log.write(nil, nanotime(), hdr[:], nil) setcpuprofilerate(int32(hz)) } else if cpuprof.on { setcpuprofilerate(0) cpuprof.on = false cpuprof.addExtra() cpuprof.log.close() } unlock(&cpuprof.lock) } // add adds the stack trace to the profile. // It is called from signal handlers and other limited environments // and cannot allocate memory or acquire locks that might be // held at the time of the signal, nor can it use substantial amounts // of stack. //go:nowritebarrierrec func (p *cpuProfile) add(gp *g, stk []uintptr) { // Simple cas-lock to coordinate with setcpuprofilerate. for !atomic.Cas(&prof.signalLock, 0, 1) { osyield() } if prof.hz != 0 { // implies cpuprof.log != nil if p.numExtra > 0 || p.lostExtra > 0 { p.addExtra() } hdr := [1]uint64{1} // Note: write "knows" that the argument is &gp.labels, // because otherwise its write barrier behavior may not // be correct. See the long comment there before // changing the argument here. cpuprof.log.write(&gp.labels, nanotime(), hdr[:], stk) } atomic.Store(&prof.signalLock, 0) } // addNonGo adds the non-Go stack trace to the profile. // It is called from a non-Go thread, so we cannot use much stack at all, // nor do anything that needs a g or an m. // In particular, we can't call cpuprof.log.write. // Instead, we copy the stack into cpuprof.extra, // which will be drained the next time a Go thread // gets the signal handling event. //go:nosplit //go:nowritebarrierrec func (p *cpuProfile) addNonGo(stk []uintptr) { // Simple cas-lock to coordinate with SetCPUProfileRate. // (Other calls to add or addNonGo should be blocked out // by the fact that only one SIGPROF can be handled by the // process at a time. If not, this lock will serialize those too.) for !atomic.Cas(&prof.signalLock, 0, 1) { osyield() } if cpuprof.numExtra+1+len(stk) < len(cpuprof.extra) { i := cpuprof.numExtra cpuprof.extra[i] = uintptr(1 + len(stk)) copy(cpuprof.extra[i+1:], stk) cpuprof.numExtra += 1 + len(stk) } else { cpuprof.lostExtra++ } atomic.Store(&prof.signalLock, 0) } // addExtra adds the "extra" profiling events, // queued by addNonGo, to the profile log. // addExtra is called either from a signal handler on a Go thread // or from an ordinary goroutine; either way it can use stack // and has a g. The world may be stopped, though. func (p *cpuProfile) addExtra() { // Copy accumulated non-Go profile events. hdr := [1]uint64{1} for i := 0; i < p.numExtra; { p.log.write(nil, 0, hdr[:], p.extra[i+1:i+int(p.extra[i])]) i += int(p.extra[i]) } p.numExtra = 0 // Report any lost events. if p.lostExtra > 0 { hdr := [1]uint64{p.lostExtra} lostStk := [2]uintptr{ _LostExternalCodePC + sys.PCQuantum, _ExternalCodePC + sys.PCQuantum, } cpuprof.log.write(nil, 0, hdr[:], lostStk[:]) p.lostExtra = 0 } } func (p *cpuProfile) addLostAtomic64(count uint64) { hdr := [1]uint64{count} lostStk := [2]uintptr{ _LostSIGPROFDuringAtomic64PC + sys.PCQuantum, _SystemPC + sys.PCQuantum, } cpuprof.log.write(nil, 0, hdr[:], lostStk[:]) } // CPUProfile panics. // It formerly provided raw access to chunks of // a pprof-format profile generated by the runtime. // The details of generating that format have changed, // so this functionality has been removed. // // Deprecated: use the runtime/pprof package, // or the handlers in the net/http/pprof package, // or the testing package's -test.cpuprofile flag instead. func CPUProfile() []byte { panic("CPUProfile no longer available") } //go:linkname runtime_pprof_runtime_cyclesPerSecond runtime_pprof.runtime_cyclesPerSecond func runtime_pprof_runtime_cyclesPerSecond() int64 { return tickspersecond() } // readProfile, provided to runtime/pprof, returns the next chunk of // binary CPU profiling stack trace data, blocking until data is available. // If profiling is turned off and all the profile data accumulated while it was // on has been returned, readProfile returns eof=true. // The caller must save the returned data and tags before calling readProfile again. // //go:linkname runtime_pprof_readProfile runtime_pprof.readProfile func runtime_pprof_readProfile() ([]uint64, []unsafe.Pointer, bool) { lock(&cpuprof.lock) log := cpuprof.log unlock(&cpuprof.lock) data, tags, eof := log.read(profBufBlocking) if len(data) == 0 && eof { lock(&cpuprof.lock) cpuprof.log = nil unlock(&cpuprof.lock) } return data, tags, eof }