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gecko-dev/toolkit/xre/EventTracer.cpp
Nicholas Nethercote 8a68e6fb83 Bug 1403868 (part 4) - Reduce tools/profiler/public/*.h to almost nothing in non-MOZ_GECKO_PROFILER builds. r=mstange. 
Currently the Gecko Profiler defines a moderate amount of stuff when
MOZ_GECKO_PROFILER is undefined. It also #includes various headers, including
JS ones. This is making it difficult to separate Gecko's media stack for
inclusion in Servo.

This patch greatly simplifies how things are exposed. The starting point is:

- GeckoProfiler.h can be #included unconditionally;

- everything else from the profiler must be guarded by MOZ_GECKO_PROFILER.

In practice this introduces way too many #ifdefs, so the patch loosens it by
adding no-op macros for a number of the most common operations.

The net result is that #ifdefs and macros are used a bit more, but almost
nothing is exposed in non-MOZ_GECKO_PROFILER builds (including
ProfilerMarkerPayload.h and GeckoProfiler.h), and understanding what is exposed
is much simpler than before.

Note also that in BHR, ThreadStackHelper is now entirely absent in
non-MOZ_GECKO_PROFILER builds.
2017-10-04 09:11:18 +11:00

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/* 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/. */
/*
* Event loop instrumentation. This code attempts to measure the
* latency of the UI-thread event loop by firing native events at it from
* a background thread, and measuring how long it takes for them
* to be serviced. The measurement interval (kMeasureInterval, below)
* is also used as the upper bound of acceptable response time.
* When an event takes longer than that interval to be serviced,
* a sample will be written to the log.
*
* Usage:
*
* Set MOZ_INSTRUMENT_EVENT_LOOP=1 in the environment to enable
* this instrumentation. Currently only the UI process is instrumented.
*
* Set MOZ_INSTRUMENT_EVENT_LOOP_OUTPUT in the environment to a
* file path to contain the log output, the default is to log to stdout.
*
* Set MOZ_INSTRUMENT_EVENT_LOOP_THRESHOLD in the environment to an
* integer number of milliseconds to change the threshold for reporting.
* The default is 20 milliseconds. Unresponsive periods shorter than this
* threshold will not be reported.
*
* Set MOZ_INSTRUMENT_EVENT_LOOP_INTERVAL in the environment to an
* integer number of milliseconds to change the maximum sampling frequency.
* This variable controls how often events will be sent to the main
* thread's event loop to sample responsiveness. The sampler will not
* send events twice within LOOP_INTERVAL milliseconds.
* The default is 10 milliseconds.
*
* All logged output lines start with MOZ_EVENT_TRACE. All timestamps
* output are milliseconds since the epoch (PRTime / 1000).
*
* On startup, a line of the form:
* MOZ_EVENT_TRACE start <timestamp>
* will be output.
*
* On shutdown, a line of the form:
* MOZ_EVENT_TRACE stop <timestamp>
* will be output.
*
* When an event servicing time exceeds the threshold, a line of the form:
* MOZ_EVENT_TRACE sample <timestamp> <duration>
* will be output, where <duration> is the number of milliseconds that
* it took for the event to be serviced. Duration may contain a fractional
* component.
*/
#include "GeckoProfiler.h"
#include "EventTracer.h"
#include <stdio.h>
#include "mozilla/Preferences.h"
#include "mozilla/TimeStamp.h"
#include "mozilla/WidgetTraceEvent.h"
#include "nsDebug.h"
#include <limits.h>
#include <prenv.h>
#include <prinrval.h>
#include <prthread.h>
#include <prtime.h>
#include "nsThreadUtils.h"
using mozilla::TimeDuration;
using mozilla::TimeStamp;
using mozilla::FireAndWaitForTracerEvent;
namespace {
PRThread* sTracerThread = nullptr;
bool sExit = false;
struct TracerStartClosure {
bool mLogTracing;
int32_t mThresholdInterval;
};
/*
* The tracer thread fires events at the native event loop roughly
* every kMeasureInterval. It will sleep to attempt not to send them
* more quickly, but if the response time is longer than kMeasureInterval
* it will not send another event until the previous response is received.
*
* The output defaults to stdout, but can be redirected to a file by
* settting the environment variable MOZ_INSTRUMENT_EVENT_LOOP_OUTPUT
* to the name of a file to use.
*/
void TracerThread(void *arg)
{
AUTO_PROFILER_REGISTER_THREAD("Event Tracer");
NS_SetCurrentThreadName("Event Tracer");
TracerStartClosure* threadArgs = static_cast<TracerStartClosure*>(arg);
// These are the defaults. They can be overridden by environment vars.
// This should be set to the maximum latency we'd like to allow
// for responsiveness.
int32_t thresholdInterval = threadArgs->mThresholdInterval;
PRIntervalTime threshold = PR_MillisecondsToInterval(thresholdInterval);
// This is the sampling interval.
PRIntervalTime interval = PR_MillisecondsToInterval(thresholdInterval / 2);
sExit = false;
FILE* log = nullptr;
char* envfile = PR_GetEnv("MOZ_INSTRUMENT_EVENT_LOOP_OUTPUT");
if (envfile) {
log = fopen(envfile, "w");
}
if (log == nullptr)
log = stdout;
char* thresholdenv = PR_GetEnv("MOZ_INSTRUMENT_EVENT_LOOP_THRESHOLD");
if (thresholdenv && *thresholdenv) {
int val = atoi(thresholdenv);
if (val != 0 && val != INT_MAX && val != INT_MIN) {
threshold = PR_MillisecondsToInterval(val);
}
}
char* intervalenv = PR_GetEnv("MOZ_INSTRUMENT_EVENT_LOOP_INTERVAL");
if (intervalenv && *intervalenv) {
int val = atoi(intervalenv);
if (val != 0 && val != INT_MAX && val != INT_MIN) {
interval = PR_MillisecondsToInterval(val);
}
}
if (threadArgs->mLogTracing) {
long long now = PR_Now() / PR_USEC_PER_MSEC;
fprintf(log, "MOZ_EVENT_TRACE start %llu\n", now);
}
while (!sExit) {
TimeStamp start(TimeStamp::Now());
PRIntervalTime next_sleep = interval;
//TODO: only wait up to a maximum of interval; return
// early if that threshold is exceeded and dump a stack trace
// or do something else useful.
if (FireAndWaitForTracerEvent()) {
TimeDuration duration = TimeStamp::Now() - start;
// Only report samples that exceed our measurement threshold.
long long now = PR_Now() / PR_USEC_PER_MSEC;
if (threadArgs->mLogTracing && duration.ToMilliseconds() > threshold) {
fprintf(log, "MOZ_EVENT_TRACE sample %llu %lf\n",
now,
duration.ToMilliseconds());
}
if (next_sleep > duration.ToMilliseconds()) {
next_sleep -= int(duration.ToMilliseconds());
}
else {
// Don't sleep at all if this event took longer than the measure
// interval to deliver.
next_sleep = 0;
}
}
if (next_sleep != 0 && !sExit) {
PR_Sleep(next_sleep);
}
}
if (threadArgs->mLogTracing) {
long long now = PR_Now() / PR_USEC_PER_MSEC;
fprintf(log, "MOZ_EVENT_TRACE stop %llu\n", now);
}
if (log != stdout)
fclose(log);
delete threadArgs;
}
} // namespace
namespace mozilla {
bool InitEventTracing(bool aLog)
{
if (sTracerThread)
return true;
// Initialize the widget backend.
if (!InitWidgetTracing())
return false;
// The tracer thread owns the object and will delete it.
TracerStartClosure* args = new TracerStartClosure();
args->mLogTracing = aLog;
// Pass the default threshold interval.
int32_t thresholdInterval = 20;
Preferences::GetInt("devtools.eventlooplag.threshold", &thresholdInterval);
args->mThresholdInterval = thresholdInterval;
// Create a thread that will fire events back at the
// main thread to measure responsiveness.
MOZ_ASSERT(!sTracerThread, "Event tracing already initialized!");
sTracerThread = PR_CreateThread(PR_USER_THREAD,
TracerThread,
args,
PR_PRIORITY_NORMAL,
PR_GLOBAL_THREAD,
PR_JOINABLE_THREAD,
0);
return sTracerThread != nullptr;
}
void ShutdownEventTracing()
{
if (!sTracerThread)
return;
sExit = true;
// Ensure that the tracer thread doesn't hang.
SignalTracerThread();
if (sTracerThread)
PR_JoinThread(sTracerThread);
sTracerThread = nullptr;
// Allow the widget backend to clean up.
CleanUpWidgetTracing();
}
} // namespace mozilla
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