gecko-dev/tools/profiler/core/platform.cpp

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29 KiB
C++

/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#include <ostream>
#include <fstream>
#include <sstream>
#include <errno.h>
#include "platform.h"
#include "PlatformMacros.h"
#include "mozilla/ArrayUtils.h"
#include "mozilla/UniquePtr.h"
#include "GeckoProfiler.h"
#ifndef SPS_STANDALONE
#include "ProfilerIOInterposeObserver.h"
#include "mozilla/StaticPtr.h"
#endif
#include "mozilla/ThreadLocal.h"
#include "mozilla/TimeStamp.h"
#include "PseudoStack.h"
#include "GeckoSampler.h"
#ifndef SPS_STANDALONE
#include "nsIObserverService.h"
#include "nsDirectoryServiceUtils.h"
#include "nsDirectoryServiceDefs.h"
#include "nsXULAppAPI.h"
#include "nsProfilerStartParams.h"
#include "mozilla/Services.h"
#include "nsThreadUtils.h"
#endif
#include "ProfilerMarkers.h"
#if defined(SPS_OS_android) && !defined(MOZ_WIDGET_GONK)
#include "AndroidBridge.h"
#endif
#ifndef SPS_STANDALONE
#if defined(SPS_PLAT_amd64_linux) || defined(SPS_PLAT_x86_linux)
# define USE_LUL_STACKWALK
# include "lul/LulMain.h"
# include "lul/platform-linux-lul.h"
#endif
#endif
mozilla::ThreadLocal<PseudoStack *> tlsPseudoStack;
mozilla::ThreadLocal<GeckoSampler *> tlsTicker;
mozilla::ThreadLocal<void *> tlsStackTop;
// We need to track whether we've been initialized otherwise
// we end up using tlsStack without initializing it.
// Because tlsStack is totally opaque to us we can't reuse
// it as the flag itself.
bool stack_key_initialized;
mozilla::TimeStamp sLastTracerEvent; // is raced on
mozilla::TimeStamp sStartTime;
int sFrameNumber = 0;
int sLastFrameNumber = 0;
int sInitCount = 0; // Each init must have a matched shutdown.
static bool sIsProfiling = false; // is raced on
static bool sIsGPUProfiling = false; // is raced on
static bool sIsLayersDump = false; // is raced on
static bool sIsDisplayListDump = false; // is raced on
static bool sIsRestyleProfiling = false; // is raced on
// Environment variables to control the profiler
const char* PROFILER_HELP = "MOZ_PROFILER_HELP";
const char* PROFILER_INTERVAL = "MOZ_PROFILER_INTERVAL";
const char* PROFILER_ENTRIES = "MOZ_PROFILER_ENTRIES";
const char* PROFILER_STACK = "MOZ_PROFILER_STACK_SCAN";
const char* PROFILER_FEATURES = "MOZ_PROFILING_FEATURES";
/* we don't need to worry about overflow because we only treat the
* case of them being the same as special. i.e. we only run into
* a problem if 2^32 events happen between samples that we need
* to know are associated with different events */
// Values harvested from env vars, that control the profiler.
static int sUnwindInterval; /* in milliseconds */
static int sUnwindStackScan; /* max # of dubious frames allowed */
static int sProfileEntries; /* how many entries do we store? */
std::vector<ThreadInfo*>* Sampler::sRegisteredThreads = nullptr;
mozilla::UniquePtr< ::Mutex> Sampler::sRegisteredThreadsMutex;
GeckoSampler* Sampler::sActiveSampler;
#ifndef SPS_STANDALONE
static mozilla::StaticAutoPtr<mozilla::ProfilerIOInterposeObserver>
sInterposeObserver;
#endif
// The name that identifies the gecko thread for calls to
// profiler_register_thread.
static const char * gGeckoThreadName = "GeckoMain";
void Sampler::Startup() {
sRegisteredThreads = new std::vector<ThreadInfo*>();
sRegisteredThreadsMutex = OS::CreateMutex("sRegisteredThreads mutex");
// We could create the sLUL object and read unwind info into it at
// this point. That would match the lifetime implied by destruction
// of it in Sampler::Shutdown just below. However, that gives a big
// delay on startup, even if no profiling is actually to be done.
// So, instead, sLUL is created on demand at the first call to
// Sampler::Start.
}
void Sampler::Shutdown() {
while (sRegisteredThreads->size() > 0) {
delete sRegisteredThreads->back();
sRegisteredThreads->pop_back();
}
sRegisteredThreadsMutex = nullptr;
delete sRegisteredThreads;
// UnregisterThread can be called after shutdown in XPCShell. Thus
// we need to point to null to ignore such a call after shutdown.
sRegisteredThreadsMutex = nullptr;
sRegisteredThreads = nullptr;
#if defined(USE_LUL_STACKWALK)
// Delete the sLUL object, if it actually got created.
if (sLUL) {
delete sLUL;
sLUL = nullptr;
}
#endif
}
StackOwningThreadInfo::StackOwningThreadInfo(const char* aName, int aThreadId,
bool aIsMainThread,
PseudoStack* aPseudoStack,
void* aStackTop)
: ThreadInfo(aName, aThreadId, aIsMainThread, aPseudoStack, aStackTop)
{
aPseudoStack->ref();
}
StackOwningThreadInfo::~StackOwningThreadInfo()
{
PseudoStack* stack = Stack();
if (stack) {
stack->deref();
}
}
void
StackOwningThreadInfo::SetPendingDelete()
{
PseudoStack* stack = Stack();
if (stack) {
stack->deref();
}
ThreadInfo::SetPendingDelete();
}
ProfilerMarker::ProfilerMarker(const char* aMarkerName,
ProfilerMarkerPayload* aPayload,
double aTime)
: mMarkerName(strdup(aMarkerName))
, mPayload(aPayload)
, mTime(aTime)
{
}
ProfilerMarker::~ProfilerMarker() {
free(mMarkerName);
delete mPayload;
}
void
ProfilerMarker::SetGeneration(uint32_t aGenID) {
mGenID = aGenID;
}
double
ProfilerMarker::GetTime() const {
return mTime;
}
void ProfilerMarker::StreamJSON(SpliceableJSONWriter& aWriter,
UniqueStacks& aUniqueStacks) const
{
// Schema:
// [name, time, data]
aWriter.StartArrayElement();
{
aUniqueStacks.mUniqueStrings.WriteElement(aWriter, GetMarkerName());
aWriter.DoubleElement(mTime);
// TODO: Store the callsite for this marker if available:
// if have location data
// b.NameValue(marker, "location", ...);
if (mPayload) {
aWriter.StartObjectElement();
{
mPayload->StreamPayload(aWriter, aUniqueStacks);
}
aWriter.EndObject();
}
}
aWriter.EndArray();
}
/* Has MOZ_PROFILER_VERBOSE been set? */
// Verbosity control for the profiler. The aim is to check env var
// MOZ_PROFILER_VERBOSE only once. However, we may need to temporarily
// override that so as to print the profiler's help message. That's
// what moz_profiler_set_verbosity is for.
enum class ProfilerVerbosity : int8_t { UNCHECKED, NOTVERBOSE, VERBOSE };
// Raced on, potentially
static ProfilerVerbosity profiler_verbosity = ProfilerVerbosity::UNCHECKED;
bool moz_profiler_verbose()
{
if (profiler_verbosity == ProfilerVerbosity::UNCHECKED) {
if (getenv("MOZ_PROFILER_VERBOSE") != nullptr)
profiler_verbosity = ProfilerVerbosity::VERBOSE;
else
profiler_verbosity = ProfilerVerbosity::NOTVERBOSE;
}
return profiler_verbosity == ProfilerVerbosity::VERBOSE;
}
void moz_profiler_set_verbosity(ProfilerVerbosity pv)
{
MOZ_ASSERT(pv == ProfilerVerbosity::UNCHECKED ||
pv == ProfilerVerbosity::VERBOSE);
profiler_verbosity = pv;
}
bool set_profiler_interval(const char* interval) {
if (interval) {
errno = 0;
long int n = strtol(interval, (char**)nullptr, 10);
if (errno == 0 && n >= 1 && n <= 1000) {
sUnwindInterval = n;
return true;
}
return false;
}
return true;
}
bool set_profiler_entries(const char* entries) {
if (entries) {
errno = 0;
long int n = strtol(entries, (char**)nullptr, 10);
if (errno == 0 && n > 0) {
sProfileEntries = n;
return true;
}
return false;
}
return true;
}
bool set_profiler_scan(const char* scanCount) {
if (scanCount) {
errno = 0;
long int n = strtol(scanCount, (char**)nullptr, 10);
if (errno == 0 && n >= 0 && n <= 100) {
sUnwindStackScan = n;
return true;
}
return false;
}
return true;
}
bool is_native_unwinding_avail() {
# if defined(HAVE_NATIVE_UNWIND)
return true;
#else
return false;
#endif
}
// Read env vars at startup, so as to set:
// sUnwindInterval, sProfileEntries, sUnwindStackScan.
void read_profiler_env_vars()
{
/* Set defaults */
sUnwindInterval = 0; /* We'll have to look elsewhere */
sProfileEntries = 0;
const char* interval = getenv(PROFILER_INTERVAL);
const char* entries = getenv(PROFILER_ENTRIES);
const char* scanCount = getenv(PROFILER_STACK);
if (getenv(PROFILER_HELP)) {
// Enable verbose output
moz_profiler_set_verbosity(ProfilerVerbosity::VERBOSE);
profiler_usage();
// Now force the next enquiry of moz_profiler_verbose to re-query
// env var MOZ_PROFILER_VERBOSE.
moz_profiler_set_verbosity(ProfilerVerbosity::UNCHECKED);
}
if (!set_profiler_interval(interval) ||
!set_profiler_entries(entries) ||
!set_profiler_scan(scanCount)) {
profiler_usage();
} else {
LOG( "SPS:");
LOGF("SPS: Sampling interval = %d ms (zero means \"platform default\")",
(int)sUnwindInterval);
LOGF("SPS: Entry store size = %d (zero means \"platform default\")",
(int)sProfileEntries);
LOGF("SPS: UnwindStackScan = %d (max dubious frames per unwind).",
(int)sUnwindStackScan);
LOG( "SPS:");
}
}
void profiler_usage() {
LOG( "SPS: ");
LOG( "SPS: Environment variable usage:");
LOG( "SPS: ");
LOG( "SPS: MOZ_PROFILER_HELP");
LOG( "SPS: If set to any value, prints this message.");
LOG( "SPS: ");
LOG( "SPS: MOZ_PROFILER_INTERVAL=<number> (milliseconds, 1 to 1000)");
LOG( "SPS: If unset, platform default is used.");
LOG( "SPS: ");
LOG( "SPS: MOZ_PROFILER_ENTRIES=<number> (count, minimum of 1)");
LOG( "SPS: If unset, platform default is used.");
LOG( "SPS: ");
LOG( "SPS: MOZ_PROFILER_VERBOSE");
LOG( "SPS: If set to any value, increases verbosity (recommended).");
LOG( "SPS: ");
LOG( "SPS: MOZ_PROFILER_STACK_SCAN=<number> (default is zero)");
LOG( "SPS: The number of dubious (stack-scanned) frames allowed");
LOG( "SPS: ");
LOG( "SPS: MOZ_PROFILER_LUL_TEST");
LOG( "SPS: If set to any value, runs LUL unit tests at startup of");
LOG( "SPS: the unwinder thread, and prints a short summary of results.");
LOG( "SPS: ");
LOGF("SPS: This platform %s native unwinding.",
is_native_unwinding_avail() ? "supports" : "does not support");
LOG( "SPS: ");
/* Re-set defaults */
sUnwindInterval = 0; /* We'll have to look elsewhere */
sProfileEntries = 0;
sUnwindStackScan = 0;
LOG( "SPS:");
LOGF("SPS: Sampling interval = %d ms (zero means \"platform default\")",
(int)sUnwindInterval);
LOGF("SPS: Entry store size = %d (zero means \"platform default\")",
(int)sProfileEntries);
LOGF("SPS: UnwindStackScan = %d (max dubious frames per unwind).",
(int)sUnwindStackScan);
LOG( "SPS:");
return;
}
void set_tls_stack_top(void* stackTop)
{
// Round |stackTop| up to the end of the containing page. We may
// as well do this -- there's no danger of a fault, and we might
// get a few more base-of-the-stack frames as a result. This
// assumes that no target has a page size smaller than 4096.
uintptr_t stackTopR = (uintptr_t)stackTop;
if (stackTop) {
stackTopR = (stackTopR & ~(uintptr_t)4095) + (uintptr_t)4095;
}
tlsStackTop.set((void*)stackTopR);
}
bool is_main_thread_name(const char* aName) {
if (!aName) {
return false;
}
return strcmp(aName, gGeckoThreadName) == 0;
}
#ifndef SPS_STANDALONE
#ifdef HAVE_VA_COPY
#define VARARGS_ASSIGN(foo, bar) VA_COPY(foo,bar)
#elif defined(HAVE_VA_LIST_AS_ARRAY)
#define VARARGS_ASSIGN(foo, bar) foo[0] = bar[0]
#else
#define VARARGS_ASSIGN(foo, bar) (foo) = (bar)
#endif
void
mozilla_sampler_log(const char *fmt, va_list args)
{
if (profiler_is_active()) {
// nsAutoCString AppendPrintf would be nicer but
// this is mozilla external code
char buf[2048];
va_list argsCpy;
VARARGS_ASSIGN(argsCpy, args);
int required = vsnprintf(buf, sizeof(buf), fmt, argsCpy);
va_end(argsCpy);
if (required < 0) {
return; // silently drop for now
} else if (required < 2048) {
profiler_tracing("log", buf, TRACING_EVENT);
} else {
char* heapBuf = new char[required+1];
va_list argsCpy;
VARARGS_ASSIGN(argsCpy, args);
vsnprintf(heapBuf, required+1, fmt, argsCpy);
va_end(argsCpy);
// EVENT_BACKTRACE could be used to get a source
// for all log events. This could be a runtime
// flag later.
profiler_tracing("log", heapBuf, TRACING_EVENT);
delete[] heapBuf;
}
}
}
#endif
////////////////////////////////////////////////////////////////////////
// BEGIN externally visible functions
void mozilla_sampler_init(void* stackTop)
{
sInitCount++;
if (stack_key_initialized)
return;
#ifdef SPS_STANDALONE
mozilla::TimeStamp::Startup();
#endif
LOG("BEGIN mozilla_sampler_init");
if (!tlsPseudoStack.init() || !tlsTicker.init() || !tlsStackTop.init()) {
LOG("Failed to init.");
return;
}
bool ignore;
sStartTime = mozilla::TimeStamp::ProcessCreation(ignore);
stack_key_initialized = true;
Sampler::Startup();
PseudoStack *stack = PseudoStack::create();
tlsPseudoStack.set(stack);
bool isMainThread = true;
Sampler::RegisterCurrentThread(isMainThread ?
gGeckoThreadName : "Application Thread",
stack, isMainThread, stackTop);
// Read interval settings from MOZ_PROFILER_INTERVAL and stack-scan
// threshhold from MOZ_PROFILER_STACK_SCAN.
read_profiler_env_vars();
// platform specific initialization
OS::Startup();
#ifndef SPS_STANDALONE
set_stderr_callback(mozilla_sampler_log);
#endif
// We can't open pref so we use an environment variable
// to know if we should trigger the profiler on startup
// NOTE: Default
const char *val = getenv("MOZ_PROFILER_STARTUP");
if (!val || !*val) {
return;
}
const char* features[] = {"js"
, "leaf"
, "threads"
#if defined(XP_WIN) || defined(XP_MACOSX) \
|| (defined(SPS_ARCH_arm) && defined(linux)) \
|| defined(SPS_PLAT_amd64_linux) || defined(SPS_PLAT_x86_linux)
, "stackwalk"
#endif
#if defined(SPS_OS_android) && !defined(MOZ_WIDGET_GONK)
, "java"
#endif
};
const char* threadFilters[] = { "GeckoMain", "Compositor" };
profiler_start(PROFILE_DEFAULT_ENTRY, PROFILE_DEFAULT_INTERVAL,
features, MOZ_ARRAY_LENGTH(features),
threadFilters, MOZ_ARRAY_LENGTH(threadFilters));
LOG("END mozilla_sampler_init");
}
void mozilla_sampler_shutdown()
{
sInitCount--;
if (sInitCount > 0)
return;
// Save the profile on shutdown if requested.
GeckoSampler *t = tlsTicker.get();
if (t) {
const char *val = getenv("MOZ_PROFILER_SHUTDOWN");
if (val) {
std::ofstream stream;
stream.open(val);
if (stream.is_open()) {
t->ToStreamAsJSON(stream);
stream.close();
}
}
}
profiler_stop();
#ifndef SPS_STANDALONE
set_stderr_callback(nullptr);
#endif
Sampler::Shutdown();
#ifdef SPS_STANDALONE
mozilla::TimeStamp::Shutdown();
#endif
PseudoStack *stack = tlsPseudoStack.get();
stack->deref();
tlsPseudoStack.set(nullptr);
}
void mozilla_sampler_save()
{
GeckoSampler *t = tlsTicker.get();
if (!t) {
return;
}
t->RequestSave();
// We're on the main thread already so we don't
// have to wait to handle the save request.
t->HandleSaveRequest();
}
mozilla::UniquePtr<char[]> mozilla_sampler_get_profile(double aSinceTime)
{
GeckoSampler *t = tlsTicker.get();
if (!t) {
return nullptr;
}
return t->ToJSON(aSinceTime);
}
#ifndef SPS_STANDALONE
JSObject *mozilla_sampler_get_profile_data(JSContext *aCx, double aSinceTime)
{
GeckoSampler *t = tlsTicker.get();
if (!t) {
return nullptr;
}
return t->ToJSObject(aCx, aSinceTime);
}
void mozilla_sampler_get_profile_data_async(double aSinceTime,
mozilla::dom::Promise* aPromise)
{
GeckoSampler *t = tlsTicker.get();
if (NS_WARN_IF(!t)) {
return;
}
t->ToJSObjectAsync(aSinceTime, aPromise);
}
#endif
void mozilla_sampler_save_profile_to_file(const char* aFilename)
{
GeckoSampler *t = tlsTicker.get();
if (!t) {
return;
}
std::ofstream stream;
stream.open(aFilename);
if (stream.is_open()) {
t->ToStreamAsJSON(stream);
stream.close();
LOGF("Saved to %s", aFilename);
} else {
LOG("Fail to open profile log file.");
}
}
const char** mozilla_sampler_get_features()
{
static const char* features[] = {
#if defined(MOZ_PROFILING) && defined(HAVE_NATIVE_UNWIND)
// Walk the C++ stack.
"stackwalk",
#endif
#if defined(ENABLE_SPS_LEAF_DATA)
// Include the C++ leaf node if not stackwalking. DevTools
// profiler doesn't want the native addresses.
"leaf",
#endif
#if !defined(SPS_OS_windows)
// Use a seperate thread of walking the stack.
"unwinder",
#endif
"java",
// Only record samples during periods of bad responsiveness
"jank",
// Tell the JS engine to emmit pseudostack entries in the
// pro/epilogue.
"js",
// GPU Profiling (may not be supported by the GL)
"gpu",
// Profile the registered secondary threads.
"threads",
// Do not include user-identifiable information
"privacy",
// Dump the layer tree with the textures.
"layersdump",
// Dump the display list with the textures.
"displaylistdump",
// Add main thread I/O to the profile
"mainthreadio",
// Add RSS collection
"memory",
#ifdef MOZ_TASK_TRACER
// Start profiling with feature TaskTracer.
"tasktracer",
#endif
#if defined(XP_WIN)
// Add power collection
"power",
#endif
nullptr
};
return features;
}
void mozilla_sampler_get_buffer_info(uint32_t *aCurrentPosition, uint32_t *aTotalSize,
uint32_t *aGeneration)
{
*aCurrentPosition = 0;
*aTotalSize = 0;
*aGeneration = 0;
if (!stack_key_initialized)
return;
GeckoSampler *t = tlsTicker.get();
if (!t)
return;
t->GetBufferInfo(aCurrentPosition, aTotalSize, aGeneration);
}
// Values are only honored on the first start
void mozilla_sampler_start(int aProfileEntries, double aInterval,
const char** aFeatures, uint32_t aFeatureCount,
const char** aThreadNameFilters, uint32_t aFilterCount)
{
LOG("BEGIN mozilla_sampler_start");
if (!stack_key_initialized)
profiler_init(nullptr);
/* If the sampling interval was set using env vars, use that
in preference to anything else. */
if (sUnwindInterval > 0)
aInterval = sUnwindInterval;
/* If the entry count was set using env vars, use that, too: */
if (sProfileEntries > 0)
aProfileEntries = sProfileEntries;
// Reset the current state if the profiler is running
profiler_stop();
GeckoSampler* t;
t = new GeckoSampler(aInterval ? aInterval : PROFILE_DEFAULT_INTERVAL,
aProfileEntries ? aProfileEntries : PROFILE_DEFAULT_ENTRY,
aFeatures, aFeatureCount,
aThreadNameFilters, aFilterCount);
tlsTicker.set(t);
t->Start();
if (t->ProfileJS() || t->InPrivacyMode()) {
::MutexAutoLock lock(*Sampler::sRegisteredThreadsMutex);
std::vector<ThreadInfo*> threads = t->GetRegisteredThreads();
for (uint32_t i = 0; i < threads.size(); i++) {
ThreadInfo* info = threads[i];
if (info->IsPendingDelete()) {
continue;
}
ThreadProfile* thread_profile = info->Profile();
if (!thread_profile) {
continue;
}
thread_profile->GetPseudoStack()->reinitializeOnResume();
#ifndef SPS_STANDALONE
if (t->ProfileJS()) {
thread_profile->GetPseudoStack()->enableJSSampling();
}
if (t->InPrivacyMode()) {
thread_profile->GetPseudoStack()->mPrivacyMode = true;
}
#endif
}
}
#if defined(SPS_OS_android) && !defined(MOZ_WIDGET_GONK)
if (t->ProfileJava()) {
int javaInterval = aInterval;
// Java sampling doesn't accuratly keep up with 1ms sampling
if (javaInterval < 10) {
aInterval = 10;
}
mozilla::widget::GeckoJavaSampler::StartJavaProfiling(javaInterval, 1000);
}
#endif
#ifndef SPS_STANDALONE
if (t->AddMainThreadIO()) {
if (!sInterposeObserver) {
// Lazily create IO interposer observer
sInterposeObserver = new mozilla::ProfilerIOInterposeObserver();
}
mozilla::IOInterposer::Register(mozilla::IOInterposeObserver::OpAll,
sInterposeObserver);
}
#endif
sIsProfiling = true;
#ifndef SPS_STANDALONE
sIsGPUProfiling = t->ProfileGPU();
sIsLayersDump = t->LayersDump();
sIsDisplayListDump = t->DisplayListDump();
sIsRestyleProfiling = t->ProfileRestyle();
if (Sampler::CanNotifyObservers()) {
nsCOMPtr<nsIObserverService> os = mozilla::services::GetObserverService();
if (os) {
nsTArray<nsCString> featuresArray;
nsTArray<nsCString> threadNameFiltersArray;
for (size_t i = 0; i < aFeatureCount; ++i) {
featuresArray.AppendElement(aFeatures[i]);
}
for (size_t i = 0; i < aFilterCount; ++i) {
threadNameFiltersArray.AppendElement(aThreadNameFilters[i]);
}
nsCOMPtr<nsIProfilerStartParams> params =
new nsProfilerStartParams(aProfileEntries, aInterval, featuresArray,
threadNameFiltersArray);
os->NotifyObservers(params, "profiler-started", nullptr);
}
}
#endif
LOG("END mozilla_sampler_start");
}
void mozilla_sampler_stop()
{
LOG("BEGIN mozilla_sampler_stop");
if (!stack_key_initialized)
return;
GeckoSampler *t = tlsTicker.get();
if (!t) {
LOG("END mozilla_sampler_stop-early");
return;
}
bool disableJS = t->ProfileJS();
t->Stop();
delete t;
tlsTicker.set(nullptr);
#ifndef SPS_STANDALONE
if (disableJS) {
PseudoStack *stack = tlsPseudoStack.get();
ASSERT(stack != nullptr);
stack->disableJSSampling();
}
mozilla::IOInterposer::Unregister(mozilla::IOInterposeObserver::OpAll,
sInterposeObserver);
sInterposeObserver = nullptr;
#endif
sIsProfiling = false;
#ifndef SPS_STANDALONE
sIsGPUProfiling = false;
sIsLayersDump = false;
sIsDisplayListDump = false;
sIsRestyleProfiling = false;
if (Sampler::CanNotifyObservers()) {
nsCOMPtr<nsIObserverService> os = mozilla::services::GetObserverService();
if (os)
os->NotifyObservers(nullptr, "profiler-stopped", nullptr);
}
#endif
LOG("END mozilla_sampler_stop");
}
bool mozilla_sampler_is_paused() {
if (Sampler::GetActiveSampler()) {
return Sampler::GetActiveSampler()->IsPaused();
} else {
return false;
}
}
void mozilla_sampler_pause() {
if (Sampler::GetActiveSampler()) {
Sampler::GetActiveSampler()->SetPaused(true);
}
}
void mozilla_sampler_resume() {
if (Sampler::GetActiveSampler()) {
Sampler::GetActiveSampler()->SetPaused(false);
}
}
bool mozilla_sampler_feature_active(const char* aName)
{
if (!profiler_is_active()) {
return false;
}
if (strcmp(aName, "gpu") == 0) {
return sIsGPUProfiling;
}
if (strcmp(aName, "layersdump") == 0) {
return sIsLayersDump;
}
if (strcmp(aName, "displaylistdump") == 0) {
return sIsDisplayListDump;
}
if (strcmp(aName, "restyle") == 0) {
return sIsRestyleProfiling;
}
return false;
}
bool mozilla_sampler_is_active()
{
return sIsProfiling;
}
void mozilla_sampler_responsiveness(const mozilla::TimeStamp& aTime)
{
sLastTracerEvent = aTime;
}
void mozilla_sampler_frame_number(int frameNumber)
{
sFrameNumber = frameNumber;
}
void mozilla_sampler_lock()
{
profiler_stop();
#ifndef SPS_STANDALONE
nsCOMPtr<nsIObserverService> os = mozilla::services::GetObserverService();
if (os)
os->NotifyObservers(nullptr, "profiler-locked", nullptr);
#endif
}
void mozilla_sampler_unlock()
{
#ifndef SPS_STANDALONE
nsCOMPtr<nsIObserverService> os = mozilla::services::GetObserverService();
if (os)
os->NotifyObservers(nullptr, "profiler-unlocked", nullptr);
#endif
}
bool mozilla_sampler_register_thread(const char* aName, void* stackTop)
{
if (sInitCount == 0) {
return false;
}
#if defined(MOZ_WIDGET_GONK) && !defined(MOZ_PROFILING)
// The only way to profile secondary threads on b2g
// is to build with profiling OR have the profiler
// running on startup.
if (!profiler_is_active()) {
return false;
}
#endif
MOZ_ASSERT(tlsPseudoStack.get() == nullptr);
PseudoStack* stack = PseudoStack::create();
tlsPseudoStack.set(stack);
bool isMainThread = is_main_thread_name(aName);
return Sampler::RegisterCurrentThread(aName, stack, isMainThread, stackTop);
}
void mozilla_sampler_unregister_thread()
{
// Don't check sInitCount count here -- we may be unregistering the
// thread after the sampler was shut down.
if (!stack_key_initialized) {
return;
}
PseudoStack *stack = tlsPseudoStack.get();
if (!stack) {
return;
}
stack->deref();
tlsPseudoStack.set(nullptr);
Sampler::UnregisterCurrentThread();
}
void mozilla_sampler_sleep_start() {
if (sInitCount == 0) {
return;
}
PseudoStack *stack = tlsPseudoStack.get();
if (stack == nullptr) {
return;
}
stack->setSleeping(1);
}
void mozilla_sampler_sleep_end() {
if (sInitCount == 0) {
return;
}
PseudoStack *stack = tlsPseudoStack.get();
if (stack == nullptr) {
return;
}
stack->setSleeping(0);
}
double mozilla_sampler_time(const mozilla::TimeStamp& aTime)
{
mozilla::TimeDuration delta = aTime - sStartTime;
return delta.ToMilliseconds();
}
double mozilla_sampler_time()
{
return mozilla_sampler_time(mozilla::TimeStamp::Now());
}
ProfilerBacktrace* mozilla_sampler_get_backtrace()
{
if (!stack_key_initialized)
return nullptr;
// Don't capture a stack if we're not profiling
if (!profiler_is_active()) {
return nullptr;
}
// Don't capture a stack if we don't want to include personal information
if (profiler_in_privacy_mode()) {
return nullptr;
}
GeckoSampler* t = tlsTicker.get();
if (!t) {
return nullptr;
}
return new ProfilerBacktrace(t->GetBacktrace());
}
void mozilla_sampler_free_backtrace(ProfilerBacktrace* aBacktrace)
{
delete aBacktrace;
}
void mozilla_sampler_tracing(const char* aCategory, const char* aInfo,
TracingMetadata aMetaData)
{
mozilla_sampler_add_marker(aInfo, new ProfilerMarkerTracing(aCategory, aMetaData));
}
void mozilla_sampler_tracing(const char* aCategory, const char* aInfo,
ProfilerBacktrace* aCause,
TracingMetadata aMetaData)
{
mozilla_sampler_add_marker(aInfo, new ProfilerMarkerTracing(aCategory, aMetaData, aCause));
}
void mozilla_sampler_add_marker(const char *aMarker, ProfilerMarkerPayload *aPayload)
{
// Note that aPayload may be allocated by the caller, so we need to make sure
// that we free it at some point.
mozilla::UniquePtr<ProfilerMarkerPayload> payload(aPayload);
if (!stack_key_initialized)
return;
// Don't insert a marker if we're not profiling to avoid
// the heap copy (malloc).
if (!profiler_is_active()) {
return;
}
// Don't add a marker if we don't want to include personal information
if (profiler_in_privacy_mode()) {
return;
}
PseudoStack *stack = tlsPseudoStack.get();
if (!stack) {
return;
}
mozilla::TimeStamp origin = (aPayload && !aPayload->GetStartTime().IsNull()) ?
aPayload->GetStartTime() : mozilla::TimeStamp::Now();
mozilla::TimeDuration delta = origin - sStartTime;
stack->addMarker(aMarker, payload.release(), delta.ToMilliseconds());
}
#ifndef SPS_STANDALONE
#include "mozilla/Mutex.h"
class GeckoMutex : public ::Mutex {
public:
explicit GeckoMutex(const char* aDesc) :
mMutex(aDesc)
{}
virtual ~GeckoMutex() {}
virtual int Lock() {
mMutex.Lock();
return 0;
}
virtual int Unlock() {
mMutex.Unlock();
return 0;
}
private:
mozilla::Mutex mMutex;
};
mozilla::UniquePtr< ::Mutex> OS::CreateMutex(const char* aDesc) {
return mozilla::MakeUnique<GeckoMutex>(aDesc);
}
#else
// Otherwise use c++11 Mutex
#include <mutex>
class OSXMutex : public ::Mutex {
public:
OSXMutex(const char* aDesc) :
mMutex()
{}
virtual ~OSXMutex() {}
virtual int Lock() {
mMutex.lock();
return 0;
}
virtual int Unlock() {
mMutex.unlock();
return 0;
}
private:
std::mutex mMutex;
};
mozilla::UniquePtr< ::Mutex> OS::CreateMutex(const char* aDesc) {
return mozilla::MakeUnique<GeckoMutex>(aDesc);
}
#endif
// END externally visible functions
////////////////////////////////////////////////////////////////////////