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45030f6970
This new version of clang 17 also slightly changed the formatting. # ignore-this-changeset Differential Revision: https://phabricator.services.mozilla.com/D215914
362 lines
9.5 KiB
C++
362 lines
9.5 KiB
C++
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
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/* vim: set ts=8 sts=2 et sw=2 tw=80: */
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/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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//
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// Implement TimeStamp::Now() with POSIX clocks.
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//
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// The "tick" unit for POSIX clocks is simply a nanosecond, as this is
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// the smallest unit of time representable by struct timespec. That
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// doesn't mean that a nanosecond is the resolution of TimeDurations
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// obtained with this API; see TimeDuration::Resolution;
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//
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#include <sys/syscall.h>
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#include <time.h>
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#include <unistd.h>
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#include <string.h>
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#if defined(__DragonFly__) || defined(__FreeBSD__) || defined(__NetBSD__) || \
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defined(__OpenBSD__)
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# include <sys/param.h>
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# include <sys/sysctl.h>
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#endif
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#if defined(__DragonFly__) || defined(__FreeBSD__)
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# include <sys/user.h>
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#endif
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#if defined(__NetBSD__)
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# undef KERN_PROC
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# define KERN_PROC KERN_PROC2
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# define KINFO_PROC struct kinfo_proc2
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#else
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# define KINFO_PROC struct kinfo_proc
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#endif
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#if defined(__DragonFly__)
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# define KP_START_SEC kp_start.tv_sec
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# define KP_START_USEC kp_start.tv_usec
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#elif defined(__FreeBSD__)
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# define KP_START_SEC ki_start.tv_sec
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# define KP_START_USEC ki_start.tv_usec
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#else
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# define KP_START_SEC p_ustart_sec
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# define KP_START_USEC p_ustart_usec
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#endif
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#include "mozilla/Sprintf.h"
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#include "mozilla/TimeStamp.h"
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#if !defined(__wasi__)
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# include <pthread.h>
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#endif
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// Estimate of the smallest duration of time we can measure.
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static uint64_t sResolution;
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static uint64_t sResolutionSigDigs;
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#ifdef CLOCK_MONOTONIC_COARSE
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static bool sSupportsMonotonicCoarseClock = false;
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#endif
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#if !defined(__wasi__)
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static const uint16_t kNsPerUs = 1000;
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#endif
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static const uint64_t kNsPerMs = 1000000;
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static const uint64_t kNsPerSec = 1000000000;
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static const double kNsPerMsd = 1000000.0;
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static const double kNsPerSecd = 1000000000.0;
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static uint64_t TimespecToNs(const struct timespec& aTs) {
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uint64_t baseNs = uint64_t(aTs.tv_sec) * kNsPerSec;
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return baseNs + uint64_t(aTs.tv_nsec);
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}
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static uint64_t ClockTimeNs(const clockid_t aClockId = CLOCK_MONOTONIC) {
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struct timespec ts;
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#ifdef CLOCK_MONOTONIC_COARSE
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MOZ_RELEASE_ASSERT(
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aClockId == CLOCK_MONOTONIC ||
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(sSupportsMonotonicCoarseClock && aClockId == CLOCK_MONOTONIC_COARSE));
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#else
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MOZ_RELEASE_ASSERT(aClockId == CLOCK_MONOTONIC);
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#endif
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// this can't fail: we know &ts is valid, and TimeStamp::Startup()
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// checks that CLOCK_MONOTONIC / CLOCK_MONOTONIC_COARSE are
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// supported (and aborts if the former is not).
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clock_gettime(aClockId, &ts);
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// tv_sec is defined to be relative to an arbitrary point in time,
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// but it would be madness for that point in time to be earlier than
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// the Epoch. So we can safely assume that even if time_t is 32
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// bits, tv_sec won't overflow while the browser is open. Revisit
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// this argument if we're still building with 32-bit time_t around
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// the year 2037.
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return TimespecToNs(ts);
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}
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static uint64_t ClockResolutionNs() {
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// NB: why not rely on clock_getres()? Two reasons: (i) it might
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// lie, and (ii) it might return an "ideal" resolution that while
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// theoretically true, could never be measured in practice. Since
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// clock_gettime() likely involves a system call on your platform,
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// the "actual" timing resolution shouldn't be lower than syscall
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// overhead.
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uint64_t start = ClockTimeNs();
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uint64_t end = ClockTimeNs();
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uint64_t minres = (end - start);
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// 10 total trials is arbitrary: what we're trying to avoid by
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// looping is getting unlucky and being interrupted by a context
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// switch or signal, or being bitten by paging/cache effects
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for (int i = 0; i < 9; ++i) {
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start = ClockTimeNs();
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end = ClockTimeNs();
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uint64_t candidate = (start - end);
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if (candidate < minres) {
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minres = candidate;
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}
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}
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if (0 == minres) {
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// measurable resolution is either incredibly low, ~1ns, or very
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// high. fall back on clock_getres()
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struct timespec ts;
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if (0 == clock_getres(CLOCK_MONOTONIC, &ts)) {
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minres = TimespecToNs(ts);
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}
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}
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if (0 == minres) {
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// clock_getres probably failed. fall back on NSPR's resolution
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// assumption
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minres = 1 * kNsPerMs;
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}
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return minres;
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}
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namespace mozilla {
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double BaseTimeDurationPlatformUtils::ToSeconds(int64_t aTicks) {
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return double(aTicks) / kNsPerSecd;
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}
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double BaseTimeDurationPlatformUtils::ToSecondsSigDigits(int64_t aTicks) {
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// don't report a value < mResolution ...
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int64_t valueSigDigs = sResolution * (aTicks / sResolution);
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// and chop off insignificant digits
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valueSigDigs = sResolutionSigDigs * (valueSigDigs / sResolutionSigDigs);
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return double(valueSigDigs) / kNsPerSecd;
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}
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int64_t BaseTimeDurationPlatformUtils::TicksFromMilliseconds(
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double aMilliseconds) {
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double result = aMilliseconds * kNsPerMsd;
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if (result > double(INT64_MAX)) {
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return INT64_MAX;
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}
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if (result < INT64_MIN) {
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return INT64_MIN;
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}
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return result;
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}
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int64_t BaseTimeDurationPlatformUtils::ResolutionInTicks() {
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return static_cast<int64_t>(sResolution);
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}
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static bool gInitialized = false;
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void TimeStamp::Startup() {
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if (gInitialized) {
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return;
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}
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struct timespec dummy;
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if (clock_gettime(CLOCK_MONOTONIC, &dummy) != 0) {
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MOZ_CRASH("CLOCK_MONOTONIC is absent!");
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}
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#ifdef CLOCK_MONOTONIC_COARSE
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if (clock_gettime(CLOCK_MONOTONIC_COARSE, &dummy) == 0) {
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sSupportsMonotonicCoarseClock = true;
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}
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#endif
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sResolution = ClockResolutionNs();
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// find the number of significant digits in sResolution, for the
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// sake of ToSecondsSigDigits()
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for (sResolutionSigDigs = 1; !(sResolutionSigDigs == sResolution ||
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10 * sResolutionSigDigs > sResolution);
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sResolutionSigDigs *= 10);
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gInitialized = true;
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}
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void TimeStamp::Shutdown() {}
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TimeStamp TimeStamp::Now(bool aHighResolution) {
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#ifdef CLOCK_MONOTONIC_COARSE
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if (!aHighResolution && sSupportsMonotonicCoarseClock) {
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return TimeStamp(ClockTimeNs(CLOCK_MONOTONIC_COARSE));
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}
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#endif
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return TimeStamp(ClockTimeNs(CLOCK_MONOTONIC));
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}
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#if defined(XP_LINUX) || defined(ANDROID)
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// Calculates the amount of jiffies that have elapsed since boot and up to the
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// starttime value of a specific process as found in its /proc/*/stat file.
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// Returns 0 if an error occurred.
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static uint64_t JiffiesSinceBoot(const char* aFile) {
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char stat[512];
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FILE* f = fopen(aFile, "r");
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if (!f) {
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return 0;
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}
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int n = fread(&stat, 1, sizeof(stat) - 1, f);
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fclose(f);
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if (n <= 0) {
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return 0;
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}
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stat[n] = 0;
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long long unsigned startTime = 0; // instead of uint64_t to keep GCC quiet
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char* s = strrchr(stat, ')');
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if (!s) {
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return 0;
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}
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int rv = sscanf(s + 2,
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"%*c %*d %*d %*d %*d %*d %*u %*u %*u %*u "
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"%*u %*u %*u %*d %*d %*d %*d %*d %*d %llu",
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&startTime);
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if (rv != 1 || !startTime) {
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return 0;
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}
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return startTime;
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}
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// Computes the interval that has elapsed between the thread creation and the
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// process creation by comparing the starttime fields in the respective
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// /proc/*/stat files. The resulting value will be a good approximation of the
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// process uptime. This value will be stored at the address pointed by aTime;
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// if an error occurred 0 will be stored instead.
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static void* ComputeProcessUptimeThread(void* aTime) {
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uint64_t* uptime = static_cast<uint64_t*>(aTime);
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long hz = sysconf(_SC_CLK_TCK);
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*uptime = 0;
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if (!hz) {
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return nullptr;
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}
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char threadStat[40];
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SprintfLiteral(threadStat, "/proc/self/task/%d/stat",
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(pid_t)syscall(__NR_gettid));
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uint64_t threadJiffies = JiffiesSinceBoot(threadStat);
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uint64_t selfJiffies = JiffiesSinceBoot("/proc/self/stat");
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if (!threadJiffies || !selfJiffies) {
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return nullptr;
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}
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*uptime = ((threadJiffies - selfJiffies) * kNsPerSec) / hz;
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return nullptr;
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}
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// Computes and returns the process uptime in us on Linux & its derivatives.
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// Returns 0 if an error was encountered.
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uint64_t TimeStamp::ComputeProcessUptime() {
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uint64_t uptime = 0;
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pthread_t uptime_pthread;
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if (pthread_create(&uptime_pthread, nullptr, ComputeProcessUptimeThread,
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&uptime)) {
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MOZ_CRASH("Failed to create process uptime thread.");
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return 0;
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}
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pthread_join(uptime_pthread, NULL);
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return uptime / kNsPerUs;
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}
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#elif defined(__DragonFly__) || defined(__FreeBSD__) || defined(__NetBSD__) || \
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defined(__OpenBSD__)
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// Computes and returns the process uptime in us on various BSD flavors.
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// Returns 0 if an error was encountered.
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uint64_t TimeStamp::ComputeProcessUptime() {
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struct timespec ts;
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int rv = clock_gettime(CLOCK_REALTIME, &ts);
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if (rv == -1) {
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return 0;
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}
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int mib[] = {
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// clang-format off
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CTL_KERN,
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KERN_PROC,
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KERN_PROC_PID,
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getpid(),
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# if defined(__NetBSD__) || defined(__OpenBSD__)
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sizeof(KINFO_PROC),
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1,
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# endif
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// clang-format on
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};
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u_int mibLen = sizeof(mib) / sizeof(mib[0]);
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KINFO_PROC proc;
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size_t bufferSize = sizeof(proc);
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rv = sysctl(mib, mibLen, &proc, &bufferSize, nullptr, 0);
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if (rv == -1) {
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return 0;
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}
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uint64_t startTime = ((uint64_t)proc.KP_START_SEC * kNsPerSec) +
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(proc.KP_START_USEC * kNsPerUs);
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uint64_t now = ((uint64_t)ts.tv_sec * kNsPerSec) + ts.tv_nsec;
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if (startTime > now) {
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return 0;
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}
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return (now - startTime) / kNsPerUs;
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}
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#else
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uint64_t TimeStamp::ComputeProcessUptime() { return 0; }
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#endif
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} // namespace mozilla
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