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cobalt / cobalt / 3933d9286b8c6b81e480dfbd894336405c89faa3 / . / src / third_party / mozjs-45 / js / src / vm / Runtime.cpp
blob: 475bf8902ccdf47f3a746134855021ddfddaad8d [file] [log] [blame]
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*-
* vim: set ts=8 sts=4 et sw=4 tw=99:
* 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 "vm/Runtime-inl.h"
#include "mozilla/ArrayUtils.h"
#include "mozilla/Atomics.h"
#include "mozilla/DebugOnly.h"
#include "mozilla/MemoryReporting.h"
#include "mozilla/ThreadLocal.h"
#if defined(XP_DARWIN)
#include <mach/mach.h>
#elif defined(XP_UNIX)
#include <sys/resource.h>
#elif defined(XP_WIN)
#include <processthreadsapi.h>
#include <windows.h>
#endif // defined(XP_DARWIN) || defined(XP_UNIX) || defined(XP_WIN)
#include <locale.h>
#include <string.h>
#if !defined(STARBOARD)
#ifdef JS_CAN_CHECK_THREADSAFE_ACCESSES
# include <sys/mman.h>
#endif
#endif // !defined(STARBOARD)
#include "jsatom.h"
#include "jsdtoa.h"
#include "jsgc.h"
#include "jsmath.h"
#include "jsnativestack.h"
#include "jsobj.h"
#include "jsscript.h"
#include "jswatchpoint.h"
#include "jswin.h"
#include "jswrapper.h"
#include "asmjs/AsmJSSignalHandlers.h"
#include "jit/arm/Simulator-arm.h"
#include "jit/arm64/vixl/Simulator-vixl.h"
#include "jit/JitCompartment.h"
#include "jit/mips32/Simulator-mips32.h"
#include "jit/mips64/Simulator-mips64.h"
#include "jit/PcScriptCache.h"
#include "js/Date.h"
#include "js/MemoryMetrics.h"
#include "js/SliceBudget.h"
#include "vm/Debugger.h"
#include "jscntxtinlines.h"
#include "jsgcinlines.h"
using namespace js;
using namespace js::gc;
using mozilla::Atomic;
using mozilla::DebugOnly;
using mozilla::NegativeInfinity;
using mozilla::PodZero;
using mozilla::PodArrayZero;
using mozilla::PositiveInfinity;
using mozilla::ThreadLocal;
using JS::GenericNaN;
using JS::DoubleNaNValue;
/* static */ ThreadLocal<PerThreadData*> js::TlsPerThreadData;
/* static */ Atomic<size_t> JSRuntime::liveRuntimesCount;
namespace js {
bool gCanUseExtraThreads = true;
} // namespace js
void
js::DisableExtraThreads()
{
gCanUseExtraThreads = false;
}
const JSSecurityCallbacks js::NullSecurityCallbacks = { };
PerThreadData::PerThreadData(JSRuntime* runtime)
: PerThreadDataFriendFields(),
runtime_(runtime),
#ifdef JS_TRACE_LOGGING
traceLogger(nullptr),
#endif
autoFlushICache_(nullptr),
dtoaState(nullptr),
suppressGC(0),
#ifdef DEBUG
ionCompiling(false),
ionCompilingSafeForMinorGC(false),
gcSweeping(false),
#endif
activeCompilations(0)
{}
PerThreadData::~PerThreadData()
{
if (dtoaState)
DestroyDtoaState(dtoaState);
}
bool
PerThreadData::init()
{
dtoaState = NewDtoaState();
if (!dtoaState)
return false;
return true;
}
static const JSWrapObjectCallbacks DefaultWrapObjectCallbacks = {
TransparentObjectWrapper,
nullptr
};
static size_t
ReturnZeroSize(const void* p)
{
return 0;
}
JSRuntime::JSRuntime(JSRuntime* parentRuntime)
: mainThread(this),
jitTop(nullptr),
jitJSContext(nullptr),
jitActivation(nullptr),
jitStackLimit_(0xbad),
jitStackLimitNoInterrupt_(0xbad),
activation_(nullptr),
profilingActivation_(nullptr),
profilerSampleBufferGen_(0),
profilerSampleBufferLapCount_(1),
asmJSActivationStack_(nullptr),
asyncStackForNewActivations(this),
asyncCauseForNewActivations(this),
asyncCallIsExplicit(false),
entryMonitor(nullptr),
parentRuntime(parentRuntime),
interrupt_(false),
telemetryCallback(nullptr),
handlingSignal(false),
interruptCallback(nullptr),
exclusiveAccessLock(nullptr),
exclusiveAccessOwner(nullptr),
mainThreadHasExclusiveAccess(false),
numExclusiveThreads(0),
numCompartments(0),
localeCallbacks(nullptr),
defaultLocale(nullptr),
defaultVersion_(JSVERSION_DEFAULT),
ownerThread_(nullptr),
ownerThreadNative_(0),
tempLifoAlloc(TEMP_LIFO_ALLOC_PRIMARY_CHUNK_SIZE),
jitRuntime_(nullptr),
selfHostingGlobal_(nullptr),
nativeStackBase(GetNativeStackBase()),
cxCallback(nullptr),
destroyCompartmentCallback(nullptr),
destroyZoneCallback(nullptr),
sweepZoneCallback(nullptr),
compartmentNameCallback(nullptr),
activityCallback(nullptr),
activityCallbackArg(nullptr),
requestDepth(0),
#ifdef DEBUG
checkRequestDepth(0),
activeContext(nullptr),
#endif
gc(thisFromCtor()),
gcInitialized(false),
#ifdef JS_SIMULATOR
simulator_(nullptr),
#endif
scriptAndCountsVector(nullptr),
lcovOutput(),
NaNValue(DoubleNaNValue()),
negativeInfinityValue(DoubleValue(NegativeInfinity<double>())),
positiveInfinityValue(DoubleValue(PositiveInfinity<double>())),
emptyString(nullptr),
spsProfiler(thisFromCtor()),
profilingScripts(false),
suppressProfilerSampling(false),
hadOutOfMemory(false),
handlingInitFailure(false),
haveCreatedContext(false),
allowRelazificationForTesting(false),
data(nullptr),
signalHandlersInstalled_(false),
canUseSignalHandlers_(false),
defaultFreeOp_(thisFromCtor()),
debuggerMutations(0),
securityCallbacks(const_cast<JSSecurityCallbacks*>(&NullSecurityCallbacks)),
DOMcallbacks(nullptr),
destroyPrincipals(nullptr),
readPrincipals(nullptr),
errorReporter(nullptr),
linkedAsmJSModules(nullptr),
propertyRemovals(0),
#if !EXPOSE_INTL_API
thousandsSeparator(0),
decimalSeparator(0),
numGrouping(0),
#endif
mathCache_(nullptr),
activeCompilations_(0),
keepAtoms_(0),
trustedPrincipals_(nullptr),
beingDestroyed_(false),
atoms_(nullptr),
atomsCompartment_(nullptr),
staticStrings(nullptr),
commonNames(nullptr),
permanentAtoms(nullptr),
wellKnownSymbols(nullptr),
wrapObjectCallbacks(&DefaultWrapObjectCallbacks),
preserveWrapperCallback(nullptr),
jitSupportsFloatingPoint(false),
jitSupportsSimd(false),
ionPcScriptCache(nullptr),
scriptEnvironmentPreparer(nullptr),
ctypesActivityCallback(nullptr),
windowProxyClass_(nullptr),
offthreadIonCompilationEnabled_(true),
parallelParsingEnabled_(true),
autoWritableJitCodeActive_(false),
#ifdef DEBUG
enteredPolicy(nullptr),
#endif
largeAllocationFailureCallback(nullptr),
oomCallback(nullptr),
debuggerMallocSizeOf(ReturnZeroSize),
lastAnimationTime(0),
performanceMonitoring(thisFromCtor())
{
setGCStoreBufferPtr(&gc.storeBuffer);
liveRuntimesCount++;
/* Initialize infallibly first, so we can goto bad and JS_DestroyRuntime. */
JS_INIT_CLIST(&onNewGlobalObjectWatchers);
PodArrayZero(nativeStackQuota);
PodZero(&asmJSCacheOps);
lcovOutput.init();
}
static bool
SignalBasedTriggersDisabled()
{
// Don't bother trying to cache the js_sb_getenv lookup; this should be called
// infrequently.
return !!js_sb_getenv("JS_DISABLE_SLOW_SCRIPT_SIGNALS") || !!js_sb_getenv("JS_NO_SIGNALS");
}
bool
JSRuntime::init(uint32_t maxbytes, uint32_t maxNurseryBytes)
{
ownerThread_ = PR_GetCurrentThread();
// Get a platform-native handle for the owner thread, used by
// js::InterruptRunningJitCode to halt the runtime's main thread.
#if defined(STARBOARD)
static_assert(sizeof(SbThreadId) <= sizeof(ownerThreadNative_), "need bigger field");
ownerThreadNative_ = SbThreadGetId();
#elif defined(XP_WIN)
size_t openFlags = THREAD_GET_CONTEXT | THREAD_SET_CONTEXT | THREAD_SUSPEND_RESUME |
THREAD_QUERY_INFORMATION;
HANDLE self = OpenThread(openFlags, false, GetCurrentThreadId());
if (!self)
return false;
static_assert(sizeof(HANDLE) <= sizeof(ownerThreadNative_), "need bigger field");
ownerThreadNative_ = (size_t)self;
#else
static_assert(sizeof(pthread_t) <= sizeof(ownerThreadNative_), "need bigger field");
ownerThreadNative_ = (size_t)pthread_self();
#endif
exclusiveAccessLock = PR_NewLock();
if (!exclusiveAccessLock)
return false;
if (!mainThread.init())
return false;
if (!regexpStack.init())
return false;
if (CanUseExtraThreads() && !EnsureHelperThreadsInitialized())
return false;
js::TlsPerThreadData.set(&mainThread);
if (!gc.init(maxbytes, maxNurseryBytes))
return false;
ScopedJSDeletePtr<Zone> atomsZone(new_<Zone>(this));
if (!atomsZone || !atomsZone->init(true))
return false;
JS::CompartmentOptions options;
ScopedJSDeletePtr<JSCompartment> atomsCompartment(new_<JSCompartment>(atomsZone.get(), options));
if (!atomsCompartment || !atomsCompartment->init(nullptr))
return false;
if (!gc.zones.append(atomsZone.get()))
return false;
if (!atomsZone->compartments.append(atomsCompartment.get()))
return false;
atomsCompartment->setIsSystem(true);
atomsZone.forget();
this->atomsCompartment_ = atomsCompartment.forget();
if (!symbolRegistry_.init())
return false;
if (!scriptDataTable_.init())
return false;
if (!evalCache.init())
return false;
if (!compressedSourceSet.init())
return false;
/* The garbage collector depends on everything before this point being initialized. */
gcInitialized = true;
if (!InitRuntimeNumberState(this))
return false;
JS::ResetTimeZone();
#if defined(JS_SIMULATOR) && !defined(STARBOARD)
simulator_ = js::jit::Simulator::Create();
if (!simulator_)
return false;
#endif
jitSupportsFloatingPoint = js::jit::JitSupportsFloatingPoint();
jitSupportsSimd = js::jit::JitSupportsSimd();
signalHandlersInstalled_ = EnsureSignalHandlersInstalled(this);
canUseSignalHandlers_ = signalHandlersInstalled_ && !SignalBasedTriggersDisabled();
if (!spsProfiler.init())
return false;
if (!fx.initInstance())
return false;
return true;
}
JSRuntime::~JSRuntime()
{
MOZ_ASSERT(!isHeapBusy());
fx.destroyInstance();
if (gcInitialized) {
/* Free source hook early, as its destructor may want to delete roots. */
sourceHook = nullptr;
/*
* Cancel any pending, in progress or completed Ion compilations and
* parse tasks. Waiting for AsmJS and compression tasks is done
* synchronously (on the main thread or during parse tasks), so no
* explicit canceling is needed for these.
*/
for (CompartmentsIter comp(this, SkipAtoms); !comp.done(); comp.next())
CancelOffThreadIonCompile(comp, nullptr);
CancelOffThreadParses(this);
/* Clear debugging state to remove GC roots. */
for (CompartmentsIter comp(this, SkipAtoms); !comp.done(); comp.next()) {
if (WatchpointMap* wpmap = comp->watchpointMap)
wpmap->clear();
}
/*
* Clear script counts map, to remove the strong reference on the
* JSScript key.
*/
for (CompartmentsIter comp(this, SkipAtoms); !comp.done(); comp.next())
comp->clearScriptCounts();
/* Clear atoms to remove GC roots and heap allocations. */
finishAtoms();
/* Remove persistent GC roots. */
gc.finishRoots();
/*
* Flag us as being destroyed. This allows the GC to free things like
* interned atoms and Ion trampolines.
*/
beingDestroyed_ = true;
/* Allow the GC to release scripts that were being profiled. */
profilingScripts = false;
/* Set the profiler sampler buffer generation to invalid. */
profilerSampleBufferGen_ = UINT32_MAX;
JS::PrepareForFullGC(this);
gc.gc(GC_NORMAL, JS::gcreason::DESTROY_RUNTIME);
}
/*
* Clear the self-hosted global and delete self-hosted classes *after*
* GC, as finalizers for objects check for clasp->finalize during GC.
*/
finishSelfHosting();
MOZ_ASSERT(!exclusiveAccessOwner);
if (exclusiveAccessLock)
PR_DestroyLock(exclusiveAccessLock);
// Avoid bogus asserts during teardown.
MOZ_ASSERT(!numExclusiveThreads);
mainThreadHasExclusiveAccess = true;
/*
* Even though all objects in the compartment are dead, we may have keep
* some filenames around because of gcKeepAtoms.
*/
FreeScriptData(this);
#ifdef DEBUG
/* Don't hurt everyone in leaky ol' Mozilla with a fatal MOZ_ASSERT! */
if (hasContexts()) {
unsigned cxcount = 0;
for (ContextIter acx(this); !acx.done(); acx.next()) {
fprintf(stderr,
"JS API usage error: found live context at %p\n",
(void*) acx.get());
cxcount++;
}
fprintf(stderr,
"JS API usage error: %u context%s left in runtime upon JS_DestroyRuntime.\n",
cxcount, (cxcount == 1) ? "" : "s");
}
#endif
#if !EXPOSE_INTL_API
FinishRuntimeNumberState(this);
#endif
gc.finish();
atomsCompartment_ = nullptr;
js_free(defaultLocale);
js_delete(mathCache_);
js_delete(jitRuntime_);
js_delete(ionPcScriptCache);
gc.storeBuffer.disable();
gc.nursery.disable();
#if defined(JS_SIMULATOR) && !defined(STARBOARD)
js::jit::Simulator::Destroy(simulator_);
#endif
DebugOnly<size_t> oldCount = liveRuntimesCount--;
MOZ_ASSERT(oldCount > 0);
js::TlsPerThreadData.set(nullptr);
#ifdef XP_WIN
if (ownerThreadNative_)
CloseHandle((HANDLE)ownerThreadNative_);
#endif
}
void
JSRuntime::addTelemetry(int id, uint32_t sample, const char* key)
{
if (telemetryCallback)
(*telemetryCallback)(id, sample, key);
}
void
JSRuntime::setTelemetryCallback(JSRuntime* rt, JSAccumulateTelemetryDataCallback callback)
{
rt->telemetryCallback = callback;
}
void
NewObjectCache::clearNurseryObjects(JSRuntime* rt)
{
for (unsigned i = 0; i < mozilla::ArrayLength(entries); ++i) {
Entry& e = entries[i];
NativeObject* obj = reinterpret_cast<NativeObject*>(&e.templateObject);
if (IsInsideNursery(e.key) ||
rt->gc.nursery.isInside(obj->slots_) ||
rt->gc.nursery.isInside(obj->elements_))
{
PodZero(&e);
}
}
}
void
JSRuntime::addSizeOfIncludingThis(mozilla::MallocSizeOf mallocSizeOf, JS::RuntimeSizes* rtSizes)
{
// Several tables in the runtime enumerated below can be used off thread.
AutoLockForExclusiveAccess lock(this);
rtSizes->object += mallocSizeOf(this);
rtSizes->atomsTable += atoms().sizeOfIncludingThis(mallocSizeOf);
if (!parentRuntime) {
rtSizes->atomsTable += mallocSizeOf(staticStrings);
rtSizes->atomsTable += mallocSizeOf(commonNames);
rtSizes->atomsTable += permanentAtoms->sizeOfIncludingThis(mallocSizeOf);
}
for (ContextIter acx(this); !acx.done(); acx.next())
rtSizes->contexts += acx->sizeOfIncludingThis(mallocSizeOf);
rtSizes->dtoa += mallocSizeOf(mainThread.dtoaState);
rtSizes->temporary += tempLifoAlloc.sizeOfExcludingThis(mallocSizeOf);
rtSizes->interpreterStack += interpreterStack_.sizeOfExcludingThis(mallocSizeOf);
rtSizes->mathCache += mathCache_ ? mathCache_->sizeOfIncludingThis(mallocSizeOf) : 0;
rtSizes->uncompressedSourceCache += uncompressedSourceCache.sizeOfExcludingThis(mallocSizeOf);
rtSizes->compressedSourceSet += compressedSourceSet.sizeOfExcludingThis(mallocSizeOf);
rtSizes->scriptData += scriptDataTable().sizeOfExcludingThis(mallocSizeOf);
for (ScriptDataTable::Range r = scriptDataTable().all(); !r.empty(); r.popFront())
rtSizes->scriptData += mallocSizeOf(r.front());
if (jitRuntime_)
jitRuntime_->execAlloc().addSizeOfCode(&rtSizes->code);
rtSizes->gc.marker += gc.marker.sizeOfExcludingThis(mallocSizeOf);
rtSizes->gc.nurseryCommitted += gc.nursery.sizeOfHeapCommitted();
rtSizes->gc.nurseryDecommitted += gc.nursery.sizeOfHeapDecommitted();
rtSizes->gc.nurseryMallocedBuffers += gc.nursery.sizeOfMallocedBuffers(mallocSizeOf);
gc.storeBuffer.addSizeOfExcludingThis(mallocSizeOf, &rtSizes->gc);
}
static bool
InvokeInterruptCallback(JSContext* cx)
{
MOZ_ASSERT(cx->runtime()->requestDepth >= 1);
cx->runtime()->gc.gcIfRequested();
// A worker thread may have requested an interrupt after finishing an Ion
// compilation.
jit::AttachFinishedCompilations(cx);
// Important: Additional callbacks can occur inside the callback handler
// if it re-enters the JS engine. The embedding must ensure that the
// callback is disconnected before attempting such re-entry.
JSInterruptCallback cb = cx->runtime()->interruptCallback;
if (!cb)
return true;
if (cb(cx)) {
// Debugger treats invoking the interrupt callback as a "step", so
// invoke the onStep handler.
if (cx->compartment()->isDebuggee()) {
ScriptFrameIter iter(cx);
if (iter.script()->stepModeEnabled()) {
RootedValue rval(cx);
switch (Debugger::onSingleStep(cx, &rval)) {
case JSTRAP_ERROR:
return false;
case JSTRAP_CONTINUE:
return true;
case JSTRAP_RETURN:
// See note in Debugger::propagateForcedReturn.
Debugger::propagateForcedReturn(cx, iter.abstractFramePtr(), rval);
return false;
case JSTRAP_THROW:
cx->setPendingException(rval);
return false;
default:;
}
}
}
return true;
}
// No need to set aside any pending exception here: ComputeStackString
// already does that.
JSString* stack = ComputeStackString(cx);
JSFlatString* flat = stack ? stack->ensureFlat(cx) : nullptr;
const char16_t* chars;
AutoStableStringChars stableChars(cx);
if (flat && stableChars.initTwoByte(cx, flat))
chars = stableChars.twoByteRange().start().get();
else
chars = MOZ_UTF16("(stack not available)");
JS_ReportErrorFlagsAndNumberUC(cx, JSREPORT_WARNING, GetErrorMessage, nullptr,
JSMSG_TERMINATED, chars);
return false;
}
void
JSRuntime::resetJitStackLimit()
{
// Note that, for now, we use the untrusted limit for ion. This is fine,
// because it's the most conservative limit, and if we hit it, we'll bail
// out of ion into the interpreter, which will do a proper recursion check.
#if defined(JS_SIMULATOR) && !defined(STARBOARD)
jitStackLimit_ = jit::Simulator::StackLimit();
#else
jitStackLimit_ = mainThread.nativeStackLimit[StackForUntrustedScript];
#endif
jitStackLimitNoInterrupt_ = jitStackLimit_;
}
void
JSRuntime::initJitStackLimit()
{
resetJitStackLimit();
}
void
JSRuntime::requestInterrupt(InterruptMode mode)
{
interrupt_ = true;
jitStackLimit_ = UINTPTR_MAX;
if (mode == JSRuntime::RequestInterruptUrgent) {
// If this interrupt is urgent (slow script dialog and garbage
// collection among others), take additional steps to
// interrupt corner cases where the above fields are not
// regularly polled. Wake both ilooping JIT code and
// futexWait.
fx.lock();
if (fx.isWaiting())
fx.wake(FutexRuntime::WakeForJSInterrupt);
fx.unlock();
InterruptRunningJitCode(this);
}
}
bool
JSRuntime::handleInterrupt(JSContext* cx)
{
MOZ_ASSERT(CurrentThreadCanAccessRuntime(cx->runtime()));
if (interrupt_ || jitStackLimit_ == UINTPTR_MAX) {
interrupt_ = false;
resetJitStackLimit();
return InvokeInterruptCallback(cx);
}
return true;
}
MathCache*
JSRuntime::createMathCache(JSContext* cx)
{
MOZ_ASSERT(!mathCache_);
MOZ_ASSERT(cx->runtime() == this);
MathCache* newMathCache = js_new<MathCache>();
if (!newMathCache) {
ReportOutOfMemory(cx);
return nullptr;
}
mathCache_ = newMathCache;
return mathCache_;
}
bool
JSRuntime::setDefaultLocale(const char* locale)
{
if (!locale)
return false;
resetDefaultLocale();
defaultLocale = JS_strdup(this, locale);
return defaultLocale != nullptr;
}
void
JSRuntime::resetDefaultLocale()
{
js_free(defaultLocale);
defaultLocale = nullptr;
}
const char*
JSRuntime::getDefaultLocale()
{
if (defaultLocale)
return defaultLocale;
char* locale;
char* lang;
char* p;
#ifdef HAVE_SETLOCALE
locale = setlocale(LC_ALL, nullptr);
#else
locale = js_sb_getenv("LANG");
#endif
// convert to a well-formed BCP 47 language tag
if (!locale || !strcmp(locale, "C"))
locale = const_cast<char*>("und");
lang = JS_strdup(this, locale);
if (!lang)
return nullptr;
if ((p = strchr(lang, '.')))
*p = '\0';
while ((p = strchr(lang, '_')))
*p = '-';
defaultLocale = lang;
return defaultLocale;
}
void
JSRuntime::triggerActivityCallback(bool active)
{
if (!activityCallback)
return;
/*
* The activity callback must not trigger a GC: it would create a cirular
* dependency between entering a request and Rooted's requirement of being
* in a request. In practice this callback already cannot trigger GC. The
* suppression serves to inform the exact rooting hazard analysis of this
* property and ensures that it remains true in the future.
*/
AutoSuppressGC suppress(this);
activityCallback(activityCallbackArg, active);
}
void
JSRuntime::updateMallocCounter(size_t nbytes)
{
updateMallocCounter(nullptr, nbytes);
}
void
JSRuntime::updateMallocCounter(JS::Zone* zone, size_t nbytes)
{
gc.updateMallocCounter(zone, nbytes);
}
JS_FRIEND_API(void*)
JSRuntime::onOutOfMemory(AllocFunction allocFunc, size_t nbytes, void* reallocPtr,
JSContext* maybecx)
{
MOZ_ASSERT_IF(allocFunc != AllocFunction::Realloc, !reallocPtr);
MOZ_ASSERT(CurrentThreadCanAccessRuntime(this));
if (isHeapBusy())
return nullptr;
if (!oom::IsSimulatedOOMAllocation()) {
/*
* Retry when we are done with the background sweeping and have stopped
* all the allocations and released the empty GC chunks.
*/
gc.onOutOfMallocMemory();
void* p;
switch (allocFunc) {
case AllocFunction::Malloc:
p = js_malloc(nbytes);
break;
case AllocFunction::Calloc:
p = js_calloc(nbytes);
break;
case AllocFunction::Realloc:
p = js_realloc(reallocPtr, nbytes);
break;
default:
MOZ_CRASH();
}
if (p)
return p;
}
if (maybecx)
ReportOutOfMemory(maybecx);
return nullptr;
}
void*
JSRuntime::onOutOfMemoryCanGC(AllocFunction allocFunc, size_t bytes, void* reallocPtr)
{
if (largeAllocationFailureCallback && bytes >= LARGE_ALLOCATION)
largeAllocationFailureCallback(largeAllocationFailureCallbackData);
return onOutOfMemory(allocFunc, bytes, reallocPtr);
}
bool
JSRuntime::activeGCInAtomsZone()
{
Zone* zone = atomsCompartment_->zone();
return zone->needsIncrementalBarrier() || zone->isGCScheduled() || zone->wasGCStarted();
}
void
JSRuntime::setUsedByExclusiveThread(Zone* zone)
{
MOZ_ASSERT(!zone->usedByExclusiveThread);
zone->usedByExclusiveThread = true;
numExclusiveThreads++;
}
void
JSRuntime::clearUsedByExclusiveThread(Zone* zone)
{
MOZ_ASSERT(zone->usedByExclusiveThread);
zone->usedByExclusiveThread = false;
numExclusiveThreads--;
if (gc.fullGCForAtomsRequested() && !keepAtoms())
gc.triggerFullGCForAtoms();
}
bool
js::CurrentThreadCanAccessRuntime(JSRuntime* rt)
{
return rt->ownerThread_ == PR_GetCurrentThread();
}
bool
js::CurrentThreadCanAccessZone(Zone* zone)
{
if (CurrentThreadCanAccessRuntime(zone->runtime_))
return true;
// Only zones in use by an exclusive thread can be used off the main thread.
// We don't keep track of which thread owns such zones though, so this check
// is imperfect.
return zone->usedByExclusiveThread;
}
#ifdef DEBUG
void
JSRuntime::assertCanLock(RuntimeLock which)
{
// In the switch below, each case falls through to the one below it. None
// of the runtime locks are reentrant, and when multiple locks are acquired
// it must be done in the order below.
switch (which) {
case ExclusiveAccessLock:
MOZ_ASSERT(exclusiveAccessOwner != PR_GetCurrentThread());
case HelperThreadStateLock:
MOZ_ASSERT(!HelperThreadState().isLocked());
case GCLock:
gc.assertCanLock();
break;
default:
MOZ_CRASH();
}
}
void
js::AssertCurrentThreadCanLock(RuntimeLock which)
{
PerThreadData* pt = TlsPerThreadData.get();
if (pt && pt->runtime_)
pt->runtime_->assertCanLock(which);
}
#endif // DEBUG
JS_FRIEND_API(void)
JS::UpdateJSRuntimeProfilerSampleBufferGen(JSRuntime* runtime, uint32_t generation,
uint32_t lapCount)
{
runtime->setProfilerSampleBufferGen(generation);
runtime->updateProfilerSampleBufferLapCount(lapCount);
}
JS_FRIEND_API(bool)
JS::IsProfilingEnabledForRuntime(JSRuntime* runtime)
{
MOZ_ASSERT(runtime);
return runtime->spsProfiler.enabled();
}