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|
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*-
* vim: set ts=8 sts=2 et sw=2 tw=80:
* 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/. */
/* JS execution context. */
#ifndef vm_JSContext_h
#define vm_JSContext_h
#include "mozilla/Maybe.h"
#include "mozilla/MemoryReporting.h"
#include "jstypes.h" // JS_PUBLIC_API
#include "builtin/AtomicsObject.h"
#include "ds/TraceableFifo.h"
#include "frontend/NameCollections.h"
#include "gc/Memory.h"
#include "irregexp/RegExpTypes.h"
#include "jit/PcScriptCache.h"
#include "js/ContextOptions.h" // JS::ContextOptions
#include "js/Exception.h"
#include "js/GCVector.h"
#include "js/Interrupt.h"
#include "js/Promise.h"
#include "js/Result.h"
#include "js/Stack.h" // JS::NativeStackBase, JS::NativeStackLimit
#include "js/Utility.h"
#include "js/Vector.h"
#include "threading/ProtectedData.h"
#include "util/StructuredSpewer.h"
#include "vm/Activation.h" // js::Activation
#include "vm/MallocProvider.h"
#include "vm/Runtime.h"
#include "wasm/WasmContext.h"
struct JS_PUBLIC_API JSContext;
struct DtoaState;
namespace js {
class AutoAllocInAtomsZone;
class AutoMaybeLeaveAtomsZone;
class AutoRealm;
namespace jit {
class ICScript;
class JitActivation;
class JitContext;
class DebugModeOSRVolatileJitFrameIter;
} // namespace jit
/* Detects cycles when traversing an object graph. */
class MOZ_RAII AutoCycleDetector {
public:
using Vector = GCVector<JSObject*, 8>;
AutoCycleDetector(JSContext* cx, HandleObject objArg)
: cx(cx), obj(cx, objArg), cyclic(true) {}
~AutoCycleDetector();
bool init();
bool foundCycle() { return cyclic; }
private:
JSContext* cx;
RootedObject obj;
bool cyclic;
};
struct AutoResolving;
struct FrontendErrors; // vm/HelperThreadState.h
class InternalJobQueue : public JS::JobQueue {
public:
explicit InternalJobQueue(JSContext* cx)
: queue(cx, SystemAllocPolicy()), draining_(false), interrupted_(false) {}
~InternalJobQueue() = default;
// JS::JobQueue methods.
JSObject* getIncumbentGlobal(JSContext* cx) override;
bool enqueuePromiseJob(JSContext* cx, JS::HandleObject promise,
JS::HandleObject job, JS::HandleObject allocationSite,
JS::HandleObject incumbentGlobal) override;
void runJobs(JSContext* cx) override;
bool empty() const override;
// If we are currently in a call to runJobs(), make that call stop processing
// jobs once the current one finishes, and return. If we are not currently in
// a call to runJobs, make all future calls return immediately.
void interrupt() { interrupted_ = true; }
// Return the front element of the queue, or nullptr if the queue is empty.
// This is only used by shell testing functions.
JSObject* maybeFront() const;
#ifdef DEBUG
JSObject* copyJobs(JSContext* cx);
#endif
private:
using Queue = js::TraceableFifo<JSObject*, 0, SystemAllocPolicy>;
JS::PersistentRooted<Queue> queue;
// True if we are in the midst of draining jobs from this queue. We use this
// to avoid re-entry (nested calls simply return immediately).
bool draining_;
// True if we've been asked to interrupt draining jobs. Set by interrupt().
bool interrupted_;
class SavedQueue;
js::UniquePtr<JobQueue::SavedJobQueue> saveJobQueue(JSContext*) override;
};
class AutoLockScriptData;
/* Thread Local Storage slot for storing the context for a thread. */
extern MOZ_THREAD_LOCAL(JSContext*) TlsContext;
enum class ContextKind {
Uninitialized,
// Context for the main thread of a JSRuntime.
MainThread,
// Context for a helper thread.
HelperThread
};
#ifdef DEBUG
JSContext* MaybeGetJSContext();
bool CurrentThreadIsParseThread();
#endif
enum class InterruptReason : uint32_t {
GC = 1 << 0,
AttachIonCompilations = 1 << 1,
CallbackUrgent = 1 << 2,
CallbackCanWait = 1 << 3,
};
enum class ShouldCaptureStack { Maybe, Always };
} /* namespace js */
/*
* A JSContext encapsulates the thread local state used when using the JS
* runtime.
*/
struct JS_PUBLIC_API JSContext : public JS::RootingContext,
public js::MallocProvider<JSContext> {
JSContext(JSRuntime* runtime, const JS::ContextOptions& options);
~JSContext();
bool init(js::ContextKind kind);
private:
js::UnprotectedData<JSRuntime*> runtime_;
js::WriteOnceData<js::ContextKind> kind_;
js::ContextData<JS::ContextOptions> options_;
// Thread that the JSContext is currently running on, if in use.
js::ThreadId currentThread_;
js::FrontendErrors* errors_;
// When a helper thread is using a context, it may need to periodically
// free unused memory.
mozilla::Atomic<bool, mozilla::ReleaseAcquire> freeUnusedMemory;
// Are we currently timing execution? This flag ensures that we do not
// double-count execution time in reentrant situations.
js::ContextData<bool> measuringExecutionTime_;
// This variable is used by the HelperThread scheduling to update the priority
// of task based on whether JavaScript is being executed on the main thread.
mozilla::Atomic<bool, mozilla::ReleaseAcquire> isExecuting_;
public:
// This is used by helper threads to change the runtime their context is
// currently operating on.
void setRuntime(JSRuntime* rt);
void setHelperThread(const JS::ContextOptions& options,
const js::AutoLockHelperThreadState& locked);
void clearHelperThread(const js::AutoLockHelperThreadState& locked);
bool contextAvailable(js::AutoLockHelperThreadState& locked) {
MOZ_ASSERT(kind_ == js::ContextKind::HelperThread);
return currentThread_ == js::ThreadId();
}
void setFreeUnusedMemory(bool shouldFree) { freeUnusedMemory = shouldFree; }
bool shouldFreeUnusedMemory() const {
return kind_ == js::ContextKind::HelperThread && freeUnusedMemory;
}
bool isMeasuringExecutionTime() const { return measuringExecutionTime_; }
void setIsMeasuringExecutionTime(bool value) {
measuringExecutionTime_ = value;
}
// While JSContexts are meant to be used on a single thread, this reference is
// meant to be shared to helper thread tasks. This is used by helper threads
// to change the priority of tasks based on whether JavaScript is executed on
// the main thread.
const mozilla::Atomic<bool, mozilla::ReleaseAcquire>& isExecutingRef() const {
return isExecuting_;
}
void setIsExecuting(bool value) { isExecuting_ = value; }
#ifdef DEBUG
bool isInitialized() const { return kind_ != js::ContextKind::Uninitialized; }
#endif
bool isMainThreadContext() const {
return kind_ == js::ContextKind::MainThread;
}
bool isHelperThreadContext() const {
return kind_ == js::ContextKind::HelperThread;
}
template <typename T>
bool isInsideCurrentZone(T thing) const {
return thing->zoneFromAnyThread() == zone_;
}
template <typename T>
inline bool isInsideCurrentCompartment(T thing) const {
return thing->compartment() == compartment();
}
void onOutOfMemory();
void* onOutOfMemory(js::AllocFunction allocFunc, arena_id_t arena,
size_t nbytes, void* reallocPtr = nullptr) {
if (isHelperThreadContext()) {
addPendingOutOfMemory();
return nullptr;
}
return runtime_->onOutOfMemory(allocFunc, arena, nbytes, reallocPtr, this);
}
void onOverRecursed();
// Allocate a GC thing.
template <typename T, js::AllowGC allowGC = js::CanGC, typename... Args>
T* newCell(Args&&... args) {
return js::gc::CellAllocator::template NewCell<T, allowGC>(
this, std::forward<Args>(args)...);
}
/* Clear the pending exception (if any) due to OOM. */
void recoverFromOutOfMemory();
void reportAllocationOverflow();
// Accessors for immutable runtime data.
JSAtomState& names() { return *runtime_->commonNames; }
js::StaticStrings& staticStrings() { return *runtime_->staticStrings; }
bool permanentAtomsPopulated() { return runtime_->permanentAtomsPopulated(); }
const js::FrozenAtomSet& permanentAtoms() {
return *runtime_->permanentAtoms();
}
js::WellKnownSymbols& wellKnownSymbols() {
return *runtime_->wellKnownSymbols;
}
js::PropertyName* emptyString() { return runtime_->emptyString; }
JS::GCContext* gcContext() { return runtime_->gcContext(); }
JS::StackKind stackKindForCurrentPrincipal();
JS::NativeStackLimit stackLimitForCurrentPrincipal();
JS::NativeStackLimit stackLimit(JS::StackKind kind) {
MOZ_ASSERT(isMainThreadContext());
return nativeStackLimit[kind];
}
JS::NativeStackLimit stackLimitForJitCode(JS::StackKind kind);
size_t gcSystemPageSize() { return js::gc::SystemPageSize(); }
/*
* "Entering" a realm changes cx->realm (which changes cx->global). Note
* that this does not push an Activation so it's possible for the caller's
* realm to be != cx->realm(). This is not a problem since, in general, most
* places in the VM cannot know that they were called from script (e.g.,
* they may have been called through the JSAPI via JS_CallFunction) and thus
* cannot expect there is a scripted caller.
*
* Realms should be entered/left in a LIFO fasion. To enter a realm, code
* should prefer using AutoRealm over JS::EnterRealm/JS::LeaveRealm.
*
* Also note that the JIT can enter (same-compartment) realms without going
* through these methods - it will update cx->realm_ directly.
*/
private:
inline void setRealm(JS::Realm* realm);
inline void enterRealm(JS::Realm* realm);
inline void enterAtomsZone();
inline void leaveAtomsZone(JS::Realm* oldRealm);
inline void setZone(js::Zone* zone);
friend class js::AutoAllocInAtomsZone;
friend class js::AutoMaybeLeaveAtomsZone;
friend class js::AutoRealm;
public:
inline void enterRealmOf(JSObject* target);
inline void enterRealmOf(JSScript* target);
inline void enterRealmOf(js::Shape* target);
inline void enterNullRealm();
inline void setRealmForJitExceptionHandler(JS::Realm* realm);
inline void leaveRealm(JS::Realm* oldRealm);
void setFrontendErrors(js::FrontendErrors* errors) { errors_ = errors; }
js::FrontendErrors* frontendErrors() const { return errors_; }
// Threads may freely access any data in their realm, compartment and zone.
JS::Compartment* compartment() const {
return realm_ ? JS::GetCompartmentForRealm(realm_) : nullptr;
}
JS::Realm* realm() const { return realm_; }
#ifdef DEBUG
bool inAtomsZone() const;
#endif
JS::Zone* zone() const {
MOZ_ASSERT_IF(!realm() && zone_, inAtomsZone());
MOZ_ASSERT_IF(realm(), js::GetRealmZone(realm()) == zone_);
return zoneRaw();
}
// For use when the context's zone is being read by another thread and the
// compartment and zone pointers might not be in sync.
JS::Zone* zoneRaw() const { return zone_; }
// For JIT use.
static size_t offsetOfZone() { return offsetof(JSContext, zone_); }
// Current global. This is only safe to use within the scope of the
// AutoRealm from which it's called.
inline js::Handle<js::GlobalObject*> global() const;
js::AtomsTable& atoms() { return runtime_->atoms(); }
js::SymbolRegistry& symbolRegistry() { return runtime_->symbolRegistry(); }
// Methods to access other runtime data that checks locking internally.
js::gc::AtomMarkingRuntime& atomMarking() { return runtime_->gc.atomMarking; }
void markAtom(JSAtom* atom) { atomMarking().markAtom(this, atom); }
void markAtom(JS::Symbol* symbol) { atomMarking().markAtom(this, symbol); }
void markId(jsid id) { atomMarking().markId(this, id); }
void markAtomValue(const js::Value& value) {
atomMarking().markAtomValue(this, value);
}
// Interface for recording telemetry metrics.
js::Metrics metrics() { return js::Metrics(runtime_); }
// Methods specific to any HelperThread for the context.
void addPendingOverRecursed();
void addPendingOutOfMemory();
JSRuntime* runtime() { return runtime_; }
const JSRuntime* runtime() const { return runtime_; }
static size_t offsetOfRealm() { return offsetof(JSContext, realm_); }
friend class JS::AutoSaveExceptionState;
friend class js::jit::DebugModeOSRVolatileJitFrameIter;
friend void js::ReportOutOfMemory(JSContext*);
friend void js::ReportOverRecursed(JSContext*);
friend void js::ReportOversizedAllocation(JSContext*, const unsigned);
public:
inline JS::Result<> boolToResult(bool ok);
/**
* Intentionally awkward signpost method that is stationed on the
* boundary between Result-using and non-Result-using code.
*/
template <typename V, typename E>
bool resultToBool(const JS::Result<V, E>& result) {
return result.isOk();
}
template <typename V, typename E>
V* resultToPtr(JS::Result<V*, E>& result) {
return result.isOk() ? result.unwrap() : nullptr;
}
mozilla::GenericErrorResult<JS::OOM> alreadyReportedOOM();
mozilla::GenericErrorResult<JS::Error> alreadyReportedError();
/*
* Points to the most recent JitActivation pushed on the thread.
* See JitActivation constructor in vm/Stack.cpp
*/
js::ContextData<js::jit::JitActivation*> jitActivation;
// Shim for V8 interfaces used by irregexp code
js::ContextData<js::irregexp::Isolate*> isolate;
/*
* Points to the most recent activation running on the thread.
* See Activation comment in vm/Stack.h.
*/
js::ContextData<js::Activation*> activation_;
/*
* Points to the most recent profiling activation running on the
* thread.
*/
js::Activation* volatile profilingActivation_;
public:
js::Activation* activation() const { return activation_; }
static size_t offsetOfActivation() {
return offsetof(JSContext, activation_);
}
js::Activation* profilingActivation() const { return profilingActivation_; }
static size_t offsetOfProfilingActivation() {
return offsetof(JSContext, profilingActivation_);
}
static size_t offsetOfJitActivation() {
return offsetof(JSContext, jitActivation);
}
#ifdef DEBUG
static size_t offsetOfInUnsafeCallWithABI() {
return offsetof(JSContext, inUnsafeCallWithABI);
}
#endif
static size_t offsetOfInlinedICScript() {
return offsetof(JSContext, inlinedICScript_);
}
public:
js::InterpreterStack& interpreterStack() {
return runtime()->interpreterStack();
}
private:
// Base address of the native stack for the current thread.
mozilla::Maybe<JS::NativeStackBase> nativeStackBase_;
public:
JS::NativeStackBase nativeStackBase() const {
MOZ_ASSERT(isMainThreadContext());
return *nativeStackBase_;
}
public:
/* If non-null, report JavaScript entry points to this monitor. */
js::ContextData<JS::dbg::AutoEntryMonitor*> entryMonitor;
/*
* Stack of debuggers that currently disallow debuggee execution.
*
* When we check for NX we are inside the debuggee compartment, and thus a
* stack of Debuggers that have prevented execution need to be tracked to
* enter the correct Debugger compartment to report the error.
*/
js::ContextData<js::EnterDebuggeeNoExecute*> noExecuteDebuggerTop;
#ifdef DEBUG
js::ContextData<uint32_t> inUnsafeCallWithABI;
js::ContextData<bool> hasAutoUnsafeCallWithABI;
#endif
#ifdef JS_SIMULATOR
private:
js::ContextData<js::jit::Simulator*> simulator_;
public:
js::jit::Simulator* simulator() const;
JS::NativeStackLimit* addressOfSimulatorStackLimit();
#endif
public:
// State used by util/DoubleToString.cpp.
js::ContextData<DtoaState*> dtoaState;
/*
* When this flag is non-zero, any attempt to GC will be skipped. See the
* AutoSuppressGC class for for details.
*/
js::ContextData<int32_t> suppressGC;
#ifdef FUZZING_JS_FUZZILLI
uint32_t executionHash;
uint32_t executionHashInputs;
#endif
#ifdef DEBUG
js::ContextData<size_t> noNurseryAllocationCheck;
/*
* If this is 0, all cross-compartment proxies must be registered in the
* wrapper map. This checking must be disabled temporarily while creating
* new wrappers. When non-zero, this records the recursion depth of wrapper
* creation.
*/
js::ContextData<uintptr_t> disableStrictProxyCheckingCount;
bool isNurseryAllocAllowed() { return noNurseryAllocationCheck == 0; }
void disallowNurseryAlloc() { ++noNurseryAllocationCheck; }
void allowNurseryAlloc() {
MOZ_ASSERT(!isNurseryAllocAllowed());
--noNurseryAllocationCheck;
}
bool isStrictProxyCheckingEnabled() {
return disableStrictProxyCheckingCount == 0;
}
void disableStrictProxyChecking() { ++disableStrictProxyCheckingCount; }
void enableStrictProxyChecking() {
MOZ_ASSERT(disableStrictProxyCheckingCount > 0);
--disableStrictProxyCheckingCount;
}
#endif
#if defined(DEBUG) || defined(JS_OOM_BREAKPOINT)
// We are currently running a simulated OOM test.
js::ContextData<bool> runningOOMTest;
#endif
/*
* Some regions of code are hard for the static rooting hazard analysis to
* understand. In those cases, we trade the static analysis for a dynamic
* analysis. When this is non-zero, we should assert if we trigger, or
* might trigger, a GC.
*/
js::ContextData<int> inUnsafeRegion;
// Count of AutoDisableGenerationalGC instances on the thread's stack.
js::ContextData<unsigned> generationalDisabled;
// Some code cannot tolerate compacting GC so it can be disabled temporarily
// with AutoDisableCompactingGC which uses this counter.
js::ContextData<unsigned> compactingDisabledCount;
private:
// Pools used for recycling name maps and vectors when parsing and
// emitting bytecode. Purged on GC when there are no active script
// compilations.
js::ContextData<js::frontend::NameCollectionPool> frontendCollectionPool_;
public:
js::frontend::NameCollectionPool& frontendCollectionPool() {
return frontendCollectionPool_.ref();
}
void verifyIsSafeToGC() {
MOZ_DIAGNOSTIC_ASSERT(!inUnsafeRegion,
"[AutoAssertNoGC] possible GC in GC-unsafe region");
}
bool isInUnsafeRegion() const { return bool(inUnsafeRegion); }
// For JIT use.
void resetInUnsafeRegion() {
MOZ_ASSERT(inUnsafeRegion >= 0);
inUnsafeRegion = 0;
}
static constexpr size_t offsetOfInUnsafeRegion() {
return offsetof(JSContext, inUnsafeRegion);
}
/* Whether sampling should be enabled or not. */
private:
mozilla::Atomic<bool, mozilla::SequentiallyConsistent>
suppressProfilerSampling;
public:
bool isProfilerSamplingEnabled() const { return !suppressProfilerSampling; }
void disableProfilerSampling() { suppressProfilerSampling = true; }
void enableProfilerSampling() { suppressProfilerSampling = false; }
private:
js::wasm::Context wasm_;
public:
js::wasm::Context& wasm() { return wasm_; }
/* Temporary arena pool used while compiling and decompiling. */
static const size_t TEMP_LIFO_ALLOC_PRIMARY_CHUNK_SIZE = 4 * 1024;
private:
js::ContextData<js::LifoAlloc> tempLifoAlloc_;
public:
js::LifoAlloc& tempLifoAlloc() { return tempLifoAlloc_.ref(); }
const js::LifoAlloc& tempLifoAlloc() const { return tempLifoAlloc_.ref(); }
js::LifoAlloc& tempLifoAllocNoCheck() { return tempLifoAlloc_.refNoCheck(); }
js::ContextData<uint32_t> debuggerMutations;
// Cache for jit::GetPcScript().
js::ContextData<js::UniquePtr<js::jit::PcScriptCache>> ionPcScriptCache;
private:
// Indicates if an exception is pending and the reason for it.
js::ContextData<JS::ExceptionStatus> status;
js::ContextData<JS::PersistentRooted<JS::Value>>
unwrappedException_; /* most-recently-thrown exception */
js::ContextData<JS::PersistentRooted<js::SavedFrame*>>
unwrappedExceptionStack_; /* stack when the exception was thrown */
JS::Value& unwrappedException() {
if (!unwrappedException_.ref().initialized()) {
unwrappedException_.ref().init(this);
}
return unwrappedException_.ref().get();
}
js::SavedFrame*& unwrappedExceptionStack() {
if (!unwrappedExceptionStack_.ref().initialized()) {
unwrappedExceptionStack_.ref().init(this);
}
return unwrappedExceptionStack_.ref().get();
}
#ifdef DEBUG
// True if this context has ever thrown an exception because of an exceeded
// limit: stack space (ReportOverRecursed), memory (ReportOutOfMemory), or
// some other self-imposed limit (eg ReportOversizedAllocation). Used when
// detecting bailout loops in WarpOracle: bailout loops involving resource
// exhaustion are generally not interesting.
js::ContextData<bool> hadResourceExhaustion_;
public:
bool hadResourceExhaustion() const {
return hadResourceExhaustion_ || js::oom::simulator.isThreadSimulatingAny();
}
#endif
public:
void reportResourceExhaustion() {
#ifdef DEBUG
hadResourceExhaustion_ = true;
#endif
}
js::ContextData<int32_t> reportGranularity; /* see vm/Probes.h */
js::ContextData<js::AutoResolving*> resolvingList;
#ifdef DEBUG
js::ContextData<js::AutoEnterPolicy*> enteredPolicy;
#endif
/* True if generating an error, to prevent runaway recursion. */
js::ContextData<bool> generatingError;
private:
/* State for object and array toSource conversion. */
js::ContextData<js::AutoCycleDetector::Vector> cycleDetectorVector_;
public:
js::AutoCycleDetector::Vector& cycleDetectorVector() {
return cycleDetectorVector_.ref();
}
const js::AutoCycleDetector::Vector& cycleDetectorVector() const {
return cycleDetectorVector_.ref();
}
/* Client opaque pointer. */
js::UnprotectedData<void*> data;
void initJitStackLimit();
void resetJitStackLimit();
public:
JS::ContextOptions& options() { return options_.ref(); }
bool runtimeMatches(JSRuntime* rt) const { return runtime_ == rt; }
private:
/*
* Youngest frame of a saved stack that will be picked up as an async stack
* by any new Activation, and is nullptr when no async stack should be used.
*
* The JS::AutoSetAsyncStackForNewCalls class can be used to set this.
*
* New activations will reset this to nullptr on construction after getting
* the current value, and will restore the previous value on destruction.
*/
js::ContextData<JS::PersistentRooted<js::SavedFrame*>>
asyncStackForNewActivations_;
public:
js::SavedFrame*& asyncStackForNewActivations() {
if (!asyncStackForNewActivations_.ref().initialized()) {
asyncStackForNewActivations_.ref().init(this);
}
return asyncStackForNewActivations_.ref().get();
}
/*
* Value of asyncCause to be attached to asyncStackForNewActivations.
*/
js::ContextData<const char*> asyncCauseForNewActivations;
/*
* True if the async call was explicitly requested, e.g. via
* callFunctionWithAsyncStack.
*/
js::ContextData<bool> asyncCallIsExplicit;
bool currentlyRunningInInterpreter() const {
return activation()->isInterpreter();
}
bool currentlyRunningInJit() const { return activation()->isJit(); }
js::InterpreterFrame* interpreterFrame() const {
return activation()->asInterpreter()->current();
}
js::InterpreterRegs& interpreterRegs() const {
return activation()->asInterpreter()->regs();
}
/*
* Get the topmost script and optional pc on the stack. By default, this
* function only returns a JSScript in the current realm, returning nullptr
* if the current script is in a different realm. This behavior can be
* overridden by passing AllowCrossRealm::Allow.
*/
enum class AllowCrossRealm { DontAllow = false, Allow = true };
inline JSScript* currentScript(
jsbytecode** pc = nullptr,
AllowCrossRealm allowCrossRealm = AllowCrossRealm::DontAllow) const;
inline js::Nursery& nursery();
inline void minorGC(JS::GCReason reason);
public:
bool isExceptionPending() const {
return JS::IsCatchableExceptionStatus(status);
}
[[nodiscard]] bool getPendingException(JS::MutableHandleValue rval);
js::SavedFrame* getPendingExceptionStack();
bool isThrowingDebuggeeWouldRun();
bool isClosingGenerator();
void setPendingException(JS::HandleValue v,
JS::Handle<js::SavedFrame*> stack);
void setPendingException(JS::HandleValue v,
js::ShouldCaptureStack captureStack);
void clearPendingException() {
status = JS::ExceptionStatus::None;
unwrappedException().setUndefined();
unwrappedExceptionStack() = nullptr;
}
bool isThrowingOutOfMemory() const {
return status == JS::ExceptionStatus::OutOfMemory;
}
bool isThrowingOverRecursed() const {
return status == JS::ExceptionStatus::OverRecursed;
}
bool isPropagatingForcedReturn() const {
return status == JS::ExceptionStatus::ForcedReturn;
}
void setPropagatingForcedReturn() {
MOZ_ASSERT(status == JS::ExceptionStatus::None);
status = JS::ExceptionStatus::ForcedReturn;
}
void clearPropagatingForcedReturn() {
MOZ_ASSERT(status == JS::ExceptionStatus::ForcedReturn);
status = JS::ExceptionStatus::None;
}
/*
* See JS_SetTrustedPrincipals in jsapi.h.
* Note: !cx->realm() is treated as trusted.
*/
inline bool runningWithTrustedPrincipals();
// Checks if the page's Content-Security-Policy (CSP) allows
// runtime code generation "unsafe-eval", or "wasm-unsafe-eval" for Wasm.
bool isRuntimeCodeGenEnabled(JS::RuntimeCode kind, js::HandleString code);
size_t sizeOfExcludingThis(mozilla::MallocSizeOf mallocSizeOf) const;
size_t sizeOfIncludingThis(mozilla::MallocSizeOf mallocSizeOf) const;
void trace(JSTracer* trc);
inline js::RuntimeCaches& caches();
public:
using InterruptCallbackVector =
js::Vector<JSInterruptCallback, 2, js::SystemAllocPolicy>;
private:
js::ContextData<InterruptCallbackVector> interruptCallbacks_;
public:
InterruptCallbackVector& interruptCallbacks() {
return interruptCallbacks_.ref();
}
js::ContextData<bool> interruptCallbackDisabled;
// Bitfield storing InterruptReason values.
mozilla::Atomic<uint32_t, mozilla::Relaxed> interruptBits_;
// Any thread can call requestInterrupt() to request that this thread
// stop running. To stop this thread, requestInterrupt sets two fields:
// interruptBits_ (a bitset of InterruptReasons) and jitStackLimit (set to
// JS::NativeStackLimitMin). The JS engine must continually poll one of these
// fields and call handleInterrupt if either field has the interrupt value.
//
// The point of setting jitStackLimit to JS::NativeStackLimitMin is that JIT
// code already needs to guard on jitStackLimit in every function prologue to
// avoid stack overflow, so we avoid a second branch on interruptBits_ by
// setting jitStackLimit to a value that is guaranteed to fail the guard.)
//
// Note that the writes to interruptBits_ and jitStackLimit use a Relaxed
// Atomic so, while the writes are guaranteed to eventually be visible to
// this thread, it can happen in any order. handleInterrupt calls the
// interrupt callback if either is set, so it really doesn't matter as long
// as the JS engine is continually polling at least one field. In corner
// cases, this relaxed ordering could lead to an interrupt handler being
// called twice in succession after a single requestInterrupt call, but
// that's fine.
void requestInterrupt(js::InterruptReason reason);
bool handleInterrupt();
MOZ_ALWAYS_INLINE bool hasAnyPendingInterrupt() const {
static_assert(sizeof(interruptBits_) == sizeof(uint32_t),
"Assumed by JIT callers");
return interruptBits_ != 0;
}
bool hasPendingInterrupt(js::InterruptReason reason) const {
return interruptBits_ & uint32_t(reason);
}
// For JIT use. Points to the inlined ICScript for a baseline script
// being invoked as part of a trial inlining. Contains nullptr at
// all times except for the brief moment between being set in the
// caller and read in the callee's prologue.
js::ContextData<js::jit::ICScript*> inlinedICScript_;
public:
void* addressOfInterruptBits() { return &interruptBits_; }
void* addressOfJitStackLimit() {
MOZ_ASSERT(isMainThreadContext());
return &jitStackLimit;
}
void* addressOfJitStackLimitNoInterrupt() {
MOZ_ASSERT(isMainThreadContext());
return &jitStackLimitNoInterrupt;
}
void* addressOfZone() { return &zone_; }
const void* addressOfRealm() const { return &realm_; }
void* addressOfInlinedICScript() { return &inlinedICScript_; }
// Futex state, used by Atomics.wait() and Atomics.wake() on the Atomics
// object.
js::FutexThread fx;
mozilla::Atomic<JS::NativeStackLimit, mozilla::Relaxed> jitStackLimit;
// Like jitStackLimit, but not reset to trigger interrupts.
js::ContextData<JS::NativeStackLimit> jitStackLimitNoInterrupt;
// Queue of pending jobs as described in ES2016 section 8.4.
//
// This is a non-owning pointer to either:
// - a JobQueue implementation the embedding provided by calling
// JS::SetJobQueue, owned by the embedding, or
// - our internal JobQueue implementation, established by calling
// js::UseInternalJobQueues, owned by JSContext::internalJobQueue below.
js::ContextData<JS::JobQueue*> jobQueue;
// If the embedding has called js::UseInternalJobQueues, this is the owning
// pointer to our internal JobQueue implementation, which JSContext::jobQueue
// borrows.
js::ContextData<js::UniquePtr<js::InternalJobQueue>> internalJobQueue;
// True if jobQueue is empty, or we are running the last job in the queue.
// Such conditions permit optimizations around `await` expressions.
js::ContextData<bool> canSkipEnqueuingJobs;
js::ContextData<JS::PromiseRejectionTrackerCallback>
promiseRejectionTrackerCallback;
js::ContextData<void*> promiseRejectionTrackerCallbackData;
JSObject* getIncumbentGlobal(JSContext* cx);
bool enqueuePromiseJob(JSContext* cx, js::HandleFunction job,
js::HandleObject promise,
js::HandleObject incumbentGlobal);
void addUnhandledRejectedPromise(JSContext* cx, js::HandleObject promise);
void removeUnhandledRejectedPromise(JSContext* cx, js::HandleObject promise);
private:
template <class... Args>
inline void checkImpl(const Args&... args);
bool contextChecksEnabled() const {
// Don't perform these checks when called from a finalizer. The checking
// depends on other objects not having been swept yet.
return !RuntimeHeapIsCollecting(runtime()->heapState());
}
public:
// Assert the arguments are in this context's realm (for scripts),
// compartment (for objects) or zone (for strings, symbols).
template <class... Args>
inline void check(const Args&... args);
template <class... Args>
inline void releaseCheck(const Args&... args);
template <class... Args>
MOZ_ALWAYS_INLINE void debugOnlyCheck(const Args&... args);
#ifdef JS_STRUCTURED_SPEW
private:
// Spewer for this thread
js::UnprotectedData<js::StructuredSpewer> structuredSpewer_;
public:
js::StructuredSpewer& spewer() { return structuredSpewer_.ref(); }
#endif
// During debugger evaluations which need to observe native calls, JITs are
// completely disabled. This flag indicates whether we are in this state, and
// the debugger which initiated the evaluation. This debugger has other
// references on the stack and does not need to be traced.
js::ContextData<js::Debugger*> insideDebuggerEvaluationWithOnNativeCallHook;
}; /* struct JSContext */
inline JS::Result<> JSContext::boolToResult(bool ok) {
if (MOZ_LIKELY(ok)) {
MOZ_ASSERT(!isExceptionPending());
MOZ_ASSERT(!isPropagatingForcedReturn());
return JS::Ok();
}
return JS::Result<>(JS::Error());
}
inline JSContext* JSRuntime::mainContextFromOwnThread() {
MOZ_ASSERT(mainContextFromAnyThread() == js::TlsContext.get());
return mainContextFromAnyThread();
}
namespace js {
struct MOZ_RAII AutoResolving {
public:
enum Kind { LOOKUP, WATCH };
AutoResolving(JSContext* cx, HandleObject obj, HandleId id,
Kind kind = LOOKUP)
: context(cx), object(obj), id(id), kind(kind), link(cx->resolvingList) {
MOZ_ASSERT(obj);
cx->resolvingList = this;
}
~AutoResolving() {
MOZ_ASSERT(context->resolvingList == this);
context->resolvingList = link;
}
bool alreadyStarted() const { return link && alreadyStartedSlow(); }
private:
bool alreadyStartedSlow() const;
JSContext* const context;
HandleObject object;
HandleId id;
Kind const kind;
AutoResolving* const link;
};
/*
* Create and destroy functions for JSContext, which is manually allocated
* and exclusively owned.
*/
extern JSContext* NewContext(uint32_t maxBytes, JSRuntime* parentRuntime);
extern void DestroyContext(JSContext* cx);
/* |callee| requires a usage string provided by JS_DefineFunctionsWithHelp. */
extern void ReportUsageErrorASCII(JSContext* cx, HandleObject callee,
const char* msg);
extern void ReportIsNotDefined(JSContext* cx, Handle<PropertyName*> name);
extern void ReportIsNotDefined(JSContext* cx, HandleId id);
/*
* Report an attempt to access the property of a null or undefined value (v).
*/
extern void ReportIsNullOrUndefinedForPropertyAccess(JSContext* cx,
HandleValue v, int vIndex);
extern void ReportIsNullOrUndefinedForPropertyAccess(JSContext* cx,
HandleValue v, int vIndex,
HandleId key);
/*
* Report error using js::DecompileValueGenerator(cx, spindex, v, fallback) as
* the first argument for the error message.
*/
extern bool ReportValueError(JSContext* cx, const unsigned errorNumber,
int spindex, HandleValue v, HandleString fallback,
const char* arg1 = nullptr,
const char* arg2 = nullptr);
JSObject* CreateErrorNotesArray(JSContext* cx, JSErrorReport* report);
/************************************************************************/
/*
* Encapsulates an external array of values and adds a trace method, for use in
* Rooted.
*/
class MOZ_STACK_CLASS ExternalValueArray {
public:
ExternalValueArray(size_t len, Value* vec) : array_(vec), length_(len) {}
Value* begin() { return array_; }
size_t length() { return length_; }
void trace(JSTracer* trc);
private:
Value* array_;
size_t length_;
};
/* RootedExternalValueArray roots an external array of Values. */
class MOZ_RAII RootedExternalValueArray
: public JS::Rooted<ExternalValueArray> {
public:
RootedExternalValueArray(JSContext* cx, size_t len, Value* vec)
: JS::Rooted<ExternalValueArray>(cx, ExternalValueArray(len, vec)) {}
private:
};
class AutoAssertNoPendingException {
#ifdef DEBUG
JSContext* cx_;
public:
explicit AutoAssertNoPendingException(JSContext* cxArg) : cx_(cxArg) {
MOZ_ASSERT(!JS_IsExceptionPending(cx_));
}
~AutoAssertNoPendingException() { MOZ_ASSERT(!JS_IsExceptionPending(cx_)); }
#else
public:
explicit AutoAssertNoPendingException(JSContext* cxArg) {}
#endif
};
class MOZ_RAII AutoNoteDebuggerEvaluationWithOnNativeCallHook {
JSContext* cx;
Debugger* oldValue;
public:
AutoNoteDebuggerEvaluationWithOnNativeCallHook(JSContext* cx, Debugger* dbg)
: cx(cx), oldValue(cx->insideDebuggerEvaluationWithOnNativeCallHook) {
cx->insideDebuggerEvaluationWithOnNativeCallHook = dbg;
}
~AutoNoteDebuggerEvaluationWithOnNativeCallHook() {
cx->insideDebuggerEvaluationWithOnNativeCallHook = oldValue;
}
};
enum UnsafeABIStrictness {
NoExceptions,
AllowPendingExceptions,
AllowThrownExceptions
};
// Should be used in functions called directly from JIT code (with
// masm.callWithABI) to assert invariants in debug builds.
// In debug mode, masm.callWithABI inserts code to verify that the
// callee function uses AutoUnsafeCallWithABI.
// While this object is live:
// 1. cx->hasAutoUnsafeCallWithABI must be true.
// 2. We can't GC.
// 3. Exceptions should not be pending/thrown.
//
// Note that #3 is a precaution, not a requirement. By default, we
// assert that the function is not called with a pending exception,
// and that it does not throw an exception itself.
class MOZ_RAII AutoUnsafeCallWithABI {
#ifdef DEBUG
JSContext* cx_;
bool nested_;
bool checkForPendingException_;
#endif
JS::AutoCheckCannotGC nogc;
public:
#ifdef DEBUG
explicit AutoUnsafeCallWithABI(
UnsafeABIStrictness strictness = UnsafeABIStrictness::NoExceptions);
~AutoUnsafeCallWithABI();
#else
explicit AutoUnsafeCallWithABI(
UnsafeABIStrictness unused_ = UnsafeABIStrictness::NoExceptions) {}
#endif
};
} /* namespace js */
#define CHECK_THREAD(cx) \
MOZ_ASSERT_IF(cx, !cx->isHelperThreadContext() && \
js::CurrentThreadCanAccessRuntime(cx->runtime()))
#endif /* vm_JSContext_h */
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