gecko-dev/dom/base/ScriptSettings.cpp

793 строки
23 KiB
C++

/* -*- 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/. */
#include "mozilla/dom/ScriptSettings.h"
#include "mozilla/ThreadLocal.h"
#include "mozilla/Assertions.h"
#include "jsapi.h"
#include "xpcprivate.h" // For AutoCxPusher guts
#include "xpcpublic.h"
#include "nsIGlobalObject.h"
#include "nsIDocShell.h"
#include "nsIScriptGlobalObject.h"
#include "nsIScriptContext.h"
#include "nsContentUtils.h"
#include "nsGlobalWindow.h"
#include "nsPIDOMWindow.h"
#include "nsTArray.h"
#include "nsJSUtils.h"
#include "nsDOMJSUtils.h"
#include "WorkerPrivate.h"
namespace mozilla {
namespace dom {
static mozilla::ThreadLocal<ScriptSettingsStackEntry*> sScriptSettingsTLS;
class ScriptSettingsStack {
public:
static ScriptSettingsStackEntry* Top() {
return sScriptSettingsTLS.get();
}
static void Push(ScriptSettingsStackEntry *aEntry) {
MOZ_ASSERT(!aEntry->mOlder);
// Whenever JSAPI use is disabled, the next stack entry pushed must
// always be a candidate entry point.
MOZ_ASSERT_IF(!Top() || Top()->NoJSAPI(), aEntry->mIsCandidateEntryPoint);
aEntry->mOlder = Top();
sScriptSettingsTLS.set(aEntry);
}
static void Pop(ScriptSettingsStackEntry *aEntry) {
MOZ_ASSERT(aEntry == Top());
sScriptSettingsTLS.set(aEntry->mOlder);
}
static nsIGlobalObject* IncumbentGlobal() {
ScriptSettingsStackEntry *entry = Top();
return entry ? entry->mGlobalObject : nullptr;
}
static ScriptSettingsStackEntry* EntryPoint() {
ScriptSettingsStackEntry *entry = Top();
if (!entry) {
return nullptr;
}
while (entry) {
if (entry->mIsCandidateEntryPoint)
return entry;
entry = entry->mOlder;
}
MOZ_CRASH("Non-empty stack should always have an entry point");
}
static nsIGlobalObject* EntryGlobal() {
ScriptSettingsStackEntry *entry = EntryPoint();
return entry ? entry->mGlobalObject : nullptr;
}
};
static unsigned long gRunToCompletionListeners = 0;
void
UseEntryScriptProfiling()
{
MOZ_ASSERT(NS_IsMainThread());
++gRunToCompletionListeners;
}
void
UnuseEntryScriptProfiling()
{
MOZ_ASSERT(NS_IsMainThread());
MOZ_ASSERT(gRunToCompletionListeners > 0);
--gRunToCompletionListeners;
}
void
InitScriptSettings()
{
if (!sScriptSettingsTLS.initialized()) {
bool success = sScriptSettingsTLS.init();
if (!success) {
MOZ_CRASH();
}
}
sScriptSettingsTLS.set(nullptr);
}
void
DestroyScriptSettings()
{
MOZ_ASSERT(sScriptSettingsTLS.get() == nullptr);
}
bool
ScriptSettingsInitialized()
{
return sScriptSettingsTLS.initialized();
}
ScriptSettingsStackEntry::ScriptSettingsStackEntry(nsIGlobalObject *aGlobal,
bool aCandidate)
: mGlobalObject(aGlobal)
, mIsCandidateEntryPoint(aCandidate)
, mOlder(nullptr)
{
MOZ_ASSERT(mGlobalObject);
MOZ_ASSERT(mGlobalObject->GetGlobalJSObject(),
"Must have an actual JS global for the duration on the stack");
MOZ_ASSERT(JS_IsGlobalObject(mGlobalObject->GetGlobalJSObject()),
"No outer windows allowed");
ScriptSettingsStack::Push(this);
}
// This constructor is only for use by AutoNoJSAPI.
ScriptSettingsStackEntry::ScriptSettingsStackEntry()
: mGlobalObject(nullptr)
, mIsCandidateEntryPoint(true)
, mOlder(nullptr)
{
ScriptSettingsStack::Push(this);
}
ScriptSettingsStackEntry::~ScriptSettingsStackEntry()
{
// We must have an actual JS global for the entire time this is on the stack.
MOZ_ASSERT_IF(mGlobalObject, mGlobalObject->GetGlobalJSObject());
ScriptSettingsStack::Pop(this);
}
// If the entry or incumbent global ends up being something that the subject
// principal doesn't subsume, we don't want to use it. This never happens on
// the web, but can happen with asymmetric privilege relationships (i.e.
// nsExpandedPrincipal and System Principal).
//
// The most correct thing to use instead would be the topmost global on the
// callstack whose principal is subsumed by the subject principal. But that's
// hard to compute, so we just substitute the global of the current
// compartment. In practice, this is fine.
//
// Note that in particular things like:
//
// |SpecialPowers.wrap(crossOriginWindow).eval(open())|
//
// trigger this case. Although both the entry global and the current global
// have normal principals, the use of Gecko-specific System-Principaled JS
// puts the code from two different origins on the callstack at once, which
// doesn't happen normally on the web.
static nsIGlobalObject*
ClampToSubject(nsIGlobalObject* aGlobalOrNull)
{
if (!aGlobalOrNull || !NS_IsMainThread()) {
return aGlobalOrNull;
}
nsIPrincipal* globalPrin = aGlobalOrNull->PrincipalOrNull();
NS_ENSURE_TRUE(globalPrin, GetCurrentGlobal());
if (!nsContentUtils::SubjectPrincipalOrSystemIfNativeCaller()->SubsumesConsideringDomain(globalPrin)) {
return GetCurrentGlobal();
}
return aGlobalOrNull;
}
nsIGlobalObject*
GetEntryGlobal()
{
return ClampToSubject(ScriptSettingsStack::EntryGlobal());
}
nsIDocument*
GetEntryDocument()
{
nsIGlobalObject* global = GetEntryGlobal();
nsCOMPtr<nsPIDOMWindow> entryWin = do_QueryInterface(global);
// If our entry global isn't a window, see if it's an addon scope associated
// with a window. If it is, the caller almost certainly wants that rather
// than null.
if (!entryWin && global) {
entryWin = xpc::AddonWindowOrNull(global->GetGlobalJSObject());
}
return entryWin ? entryWin->GetExtantDoc() : nullptr;
}
nsIGlobalObject*
GetIncumbentGlobal()
{
// We need the current JSContext in order to check the JS for
// scripted frames that may have appeared since anyone last
// manipulated the stack. If it's null, that means that there
// must be no entry global on the stack, and therefore no incumbent
// global either.
JSContext *cx = nsContentUtils::GetCurrentJSContextForThread();
if (!cx) {
MOZ_ASSERT(ScriptSettingsStack::EntryGlobal() == nullptr);
return nullptr;
}
// See what the JS engine has to say. If we've got a scripted caller
// override in place, the JS engine will lie to us and pretend that
// there's nothing on the JS stack, which will cause us to check the
// incumbent script stack below.
if (JSObject *global = JS::GetScriptedCallerGlobal(cx)) {
return ClampToSubject(xpc::NativeGlobal(global));
}
// Ok, nothing from the JS engine. Let's use whatever's on the
// explicit stack.
return ClampToSubject(ScriptSettingsStack::IncumbentGlobal());
}
nsIGlobalObject*
GetCurrentGlobal()
{
JSContext *cx = nsContentUtils::GetCurrentJSContextForThread();
if (!cx) {
return nullptr;
}
JSObject *global = JS::CurrentGlobalOrNull(cx);
if (!global) {
return nullptr;
}
return xpc::NativeGlobal(global);
}
nsIPrincipal*
GetWebIDLCallerPrincipal()
{
MOZ_ASSERT(NS_IsMainThread());
ScriptSettingsStackEntry *entry = ScriptSettingsStack::EntryPoint();
// If we have an entry point that is not NoJSAPI, we know it must be an
// AutoEntryScript.
if (!entry || entry->NoJSAPI()) {
return nullptr;
}
AutoEntryScript* aes = static_cast<AutoEntryScript*>(entry);
// We can't yet rely on the Script Settings Stack to properly determine the
// entry script, because there are still lots of places in the tree where we
// don't yet use an AutoEntryScript (bug 951991 tracks this work). In the
// mean time though, we can make some observations to hack around the
// problem:
//
// (1) All calls into JS-implemented WebIDL go through CallSetup, which goes
// through AutoEntryScript.
// (2) The top candidate entry point in the Script Settings Stack is the
// entry point if and only if no other JSContexts have been pushed on
// top of the push made by that entry's AutoEntryScript.
//
// Because of (1), all of the cases where we might return a non-null
// WebIDL Caller are guaranteed to have put an entry on the Script Settings
// Stack, so we can restrict our search to that. Moreover, (2) gives us a
// criterion to determine whether an entry in the Script Setting Stack means
// that we should return a non-null WebIDL Caller.
//
// Once we fix bug 951991, this can all be simplified.
if (!aes->CxPusherIsStackTop()) {
return nullptr;
}
return aes->mWebIDLCallerPrincipal;
}
static JSContext*
FindJSContext(nsIGlobalObject* aGlobalObject)
{
MOZ_ASSERT(NS_IsMainThread());
JSContext *cx = nullptr;
nsCOMPtr<nsIScriptGlobalObject> sgo = do_QueryInterface(aGlobalObject);
if (sgo && sgo->GetScriptContext()) {
cx = sgo->GetScriptContext()->GetNativeContext();
}
if (!cx) {
cx = nsContentUtils::GetSafeJSContext();
}
return cx;
}
AutoJSAPI::AutoJSAPI()
: mCx(nullptr)
, mOwnErrorReporting(false)
, mOldAutoJSAPIOwnsErrorReporting(false)
{
}
AutoJSAPI::~AutoJSAPI()
{
if (mOwnErrorReporting) {
MOZ_ASSERT(NS_IsMainThread(), "See corresponding assertion in TakeOwnershipOfErrorReporting()");
ReportException();
// We need to do this _after_ processing the existing exception, because the
// JS engine can throw while doing that, and uses this bit to determine what
// to do in that case: squelch the exception if the bit is set, otherwise
// call the error reporter. Calling WarningOnlyErrorReporter with a
// non-warning will assert, so we need to make sure we do the former.
JS::ContextOptionsRef(cx()).setAutoJSAPIOwnsErrorReporting(mOldAutoJSAPIOwnsErrorReporting);
}
if (mOldErrorReporter.isSome()) {
JS_SetErrorReporter(JS_GetRuntime(cx()), mOldErrorReporter.value());
}
}
void
AutoJSAPI::InitInternal(JSObject* aGlobal, JSContext* aCx, bool aIsMainThread)
{
MOZ_ASSERT(aCx);
mCx = aCx;
if (aIsMainThread) {
// This Rooted<> is necessary only as long as AutoCxPusher::AutoCxPusher
// can GC, which is only possible because XPCJSContextStack::Push calls
// nsIPrincipal.Equals. Once that is removed, the Rooted<> will no longer
// be necessary.
JS::Rooted<JSObject*> global(JS_GetRuntime(aCx), aGlobal);
mCxPusher.emplace(mCx);
mAutoNullableCompartment.emplace(mCx, global);
} else {
mAutoNullableCompartment.emplace(mCx, aGlobal);
}
if (aIsMainThread) {
JSRuntime* rt = JS_GetRuntime(aCx);
mOldErrorReporter.emplace(JS_GetErrorReporter(rt));
JS_SetErrorReporter(rt, xpc::SystemErrorReporter);
}
}
AutoJSAPI::AutoJSAPI(nsIGlobalObject* aGlobalObject,
bool aIsMainThread,
JSContext* aCx)
: mOwnErrorReporting(false)
, mOldAutoJSAPIOwnsErrorReporting(false)
{
MOZ_ASSERT(aGlobalObject);
MOZ_ASSERT(aGlobalObject->GetGlobalJSObject(), "Must have a JS global");
MOZ_ASSERT(aCx);
MOZ_ASSERT_IF(aIsMainThread, NS_IsMainThread());
InitInternal(aGlobalObject->GetGlobalJSObject(), aCx, aIsMainThread);
}
void
AutoJSAPI::Init()
{
MOZ_ASSERT(!mCx, "An AutoJSAPI should only be initialised once");
InitInternal(/* aGlobal */ nullptr,
nsContentUtils::GetDefaultJSContextForThread(),
NS_IsMainThread());
}
bool
AutoJSAPI::Init(nsIGlobalObject* aGlobalObject, JSContext* aCx)
{
MOZ_ASSERT(!mCx, "An AutoJSAPI should only be initialised once");
MOZ_ASSERT(aCx);
if (NS_WARN_IF(!aGlobalObject)) {
return false;
}
JSObject* global = aGlobalObject->GetGlobalJSObject();
if (NS_WARN_IF(!global)) {
return false;
}
InitInternal(global, aCx, NS_IsMainThread());
return true;
}
bool
AutoJSAPI::Init(nsIGlobalObject* aGlobalObject)
{
return Init(aGlobalObject, nsContentUtils::GetDefaultJSContextForThread());
}
bool
AutoJSAPI::Init(JSObject* aObject)
{
return Init(xpc::NativeGlobal(aObject));
}
bool
AutoJSAPI::InitWithLegacyErrorReporting(nsIGlobalObject* aGlobalObject)
{
MOZ_ASSERT(NS_IsMainThread());
return Init(aGlobalObject, FindJSContext(aGlobalObject));
}
bool
AutoJSAPI::Init(nsPIDOMWindow* aWindow, JSContext* aCx)
{
return Init(static_cast<nsGlobalWindow*>(aWindow), aCx);
}
bool
AutoJSAPI::Init(nsPIDOMWindow* aWindow)
{
return Init(static_cast<nsGlobalWindow*>(aWindow));
}
bool
AutoJSAPI::Init(nsGlobalWindow* aWindow, JSContext* aCx)
{
return Init(static_cast<nsIGlobalObject*>(aWindow), aCx);
}
bool
AutoJSAPI::Init(nsGlobalWindow* aWindow)
{
return Init(static_cast<nsIGlobalObject*>(aWindow));
}
bool
AutoJSAPI::InitWithLegacyErrorReporting(nsPIDOMWindow* aWindow)
{
return InitWithLegacyErrorReporting(static_cast<nsGlobalWindow*>(aWindow));
}
bool
AutoJSAPI::InitWithLegacyErrorReporting(nsGlobalWindow* aWindow)
{
return InitWithLegacyErrorReporting(static_cast<nsIGlobalObject*>(aWindow));
}
// Even with autoJSAPIOwnsErrorReporting, the JS engine still sends warning
// reports to the JSErrorReporter as soon as they are generated. These go
// directly to the console, so we can handle them easily here.
//
// Eventually, SpiderMonkey will have a special-purpose callback for warnings
// only.
void
WarningOnlyErrorReporter(JSContext* aCx, const char* aMessage, JSErrorReport* aRep)
{
MOZ_ASSERT(JSREPORT_IS_WARNING(aRep->flags));
RefPtr<xpc::ErrorReport> xpcReport = new xpc::ErrorReport();
nsPIDOMWindow* win = xpc::CurrentWindowOrNull(aCx);
xpcReport->Init(aRep, aMessage, nsContentUtils::IsCallerChrome(),
win ? win->WindowID() : 0);
xpcReport->LogToConsole();
}
void
AutoJSAPI::TakeOwnershipOfErrorReporting()
{
MOZ_ASSERT(NS_IsMainThread(), "Can't own error reporting off-main-thread yet");
MOZ_ASSERT(!mOwnErrorReporting);
mOwnErrorReporting = true;
JSRuntime *rt = JS_GetRuntime(cx());
mOldAutoJSAPIOwnsErrorReporting = JS::ContextOptionsRef(cx()).autoJSAPIOwnsErrorReporting();
JS::ContextOptionsRef(cx()).setAutoJSAPIOwnsErrorReporting(true);
JS_SetErrorReporter(rt, WarningOnlyErrorReporter);
}
void
AutoJSAPI::ReportException()
{
MOZ_ASSERT(OwnsErrorReporting(), "This is not our exception to report!");
if (!HasException()) {
return;
}
// AutoJSAPI uses a JSAutoNullableCompartment, and may be in a null
// compartment when the destructor is called. However, the JS engine
// requires us to be in a compartment when we fetch the pending exception.
// In this case, we enter the privileged junk scope and don't dispatch any
// error events.
JS::Rooted<JSObject*> errorGlobal(cx(), JS::CurrentGlobalOrNull(cx()));
if (!errorGlobal)
errorGlobal = xpc::PrivilegedJunkScope();
JSAutoCompartment ac(cx(), errorGlobal);
nsCOMPtr<nsPIDOMWindow> win = xpc::WindowGlobalOrNull(errorGlobal);
JS::Rooted<JS::Value> exn(cx());
js::ErrorReport jsReport(cx());
if (StealException(&exn) && jsReport.init(cx(), exn)) {
RefPtr<xpc::ErrorReport> xpcReport = new xpc::ErrorReport();
xpcReport->Init(jsReport.report(), jsReport.message(),
nsContentUtils::IsCallerChrome(),
win ? win->WindowID() : 0);
if (win) {
DispatchScriptErrorEvent(win, JS_GetRuntime(cx()), xpcReport, exn);
} else {
xpcReport->LogToConsole();
}
} else {
NS_WARNING("OOMed while acquiring uncaught exception from JSAPI");
}
}
bool
AutoJSAPI::StealException(JS::MutableHandle<JS::Value> aVal)
{
MOZ_ASSERT(CxPusherIsStackTop());
MOZ_ASSERT(HasException());
MOZ_ASSERT(js::GetContextCompartment(cx()));
if (!JS_GetPendingException(cx(), aVal)) {
return false;
}
JS_ClearPendingException(cx());
return true;
}
AutoEntryScript::AutoEntryScript(nsIGlobalObject* aGlobalObject,
const char *aReason,
bool aIsMainThread,
JSContext* aCx)
: AutoJSAPI(aGlobalObject, aIsMainThread,
aCx ? aCx : FindJSContext(aGlobalObject))
, ScriptSettingsStackEntry(aGlobalObject, /* aCandidate = */ true)
, mWebIDLCallerPrincipal(nullptr)
{
MOZ_ASSERT(aGlobalObject);
MOZ_ASSERT_IF(!aCx, aIsMainThread); // cx is mandatory off-main-thread.
MOZ_ASSERT_IF(aCx && aIsMainThread, aCx == FindJSContext(aGlobalObject));
if (aIsMainThread && gRunToCompletionListeners > 0) {
mDocShellEntryMonitor.emplace(cx(), aReason);
}
}
AutoEntryScript::~AutoEntryScript()
{
// GC when we pop a script entry point. This is a useful heuristic that helps
// us out on certain (flawed) benchmarks like sunspider, because it lets us
// avoid GCing during the timing loop.
JS_MaybeGC(cx());
}
AutoEntryScript::DocshellEntryMonitor::DocshellEntryMonitor(JSContext* aCx,
const char* aReason)
: JS::dbg::AutoEntryMonitor(aCx)
, mReason(aReason)
{
}
void
AutoEntryScript::DocshellEntryMonitor::Entry(JSContext* aCx, JSFunction* aFunction,
JSScript* aScript, JS::Handle<JS::Value> aAsyncStack,
JS::Handle<JSString*> aAsyncCause)
{
JS::Rooted<JSFunction*> rootedFunction(aCx);
if (aFunction) {
rootedFunction = aFunction;
}
JS::Rooted<JSScript*> rootedScript(aCx);
if (aScript) {
rootedScript = aScript;
}
nsCOMPtr<nsPIDOMWindow> window =
do_QueryInterface(xpc::NativeGlobal(JS::CurrentGlobalOrNull(aCx)));
if (!window || !window->GetDocShell() ||
!window->GetDocShell()->GetRecordProfileTimelineMarkers()) {
return;
}
nsCOMPtr<nsIDocShell> docShellForJSRunToCompletion = window->GetDocShell();
nsString filename;
uint32_t lineNumber = 0;
js::AutoStableStringChars functionName(aCx);
if (rootedFunction) {
JS::Rooted<JSString*> displayId(aCx, JS_GetFunctionDisplayId(rootedFunction));
if (displayId) {
if (!functionName.initTwoByte(aCx, displayId)) {
JS_ClearPendingException(aCx);
return;
}
}
}
if (!rootedScript) {
rootedScript = JS_GetFunctionScript(aCx, rootedFunction);
}
if (rootedScript) {
filename = NS_ConvertUTF8toUTF16(JS_GetScriptFilename(rootedScript));
lineNumber = JS_GetScriptBaseLineNumber(aCx, rootedScript);
}
if (!filename.IsEmpty() || functionName.isTwoByte()) {
const char16_t* functionNameChars = functionName.isTwoByte() ?
functionName.twoByteChars() : nullptr;
JS::Rooted<JS::Value> asyncCauseValue(aCx, aAsyncCause ? StringValue(aAsyncCause) :
JS::NullValue());
docShellForJSRunToCompletion->NotifyJSRunToCompletionStart(mReason,
functionNameChars,
filename.BeginReading(),
lineNumber, aAsyncStack,
asyncCauseValue);
}
}
void
AutoEntryScript::DocshellEntryMonitor::Exit(JSContext* aCx)
{
nsCOMPtr<nsPIDOMWindow> window =
do_QueryInterface(xpc::NativeGlobal(JS::CurrentGlobalOrNull(aCx)));
// Not really worth checking GetRecordProfileTimelineMarkers here.
if (window && window->GetDocShell()) {
nsCOMPtr<nsIDocShell> docShellForJSRunToCompletion = window->GetDocShell();
docShellForJSRunToCompletion->NotifyJSRunToCompletionStop();
}
}
AutoIncumbentScript::AutoIncumbentScript(nsIGlobalObject* aGlobalObject)
: ScriptSettingsStackEntry(aGlobalObject, /* aCandidate = */ false)
, mCallerOverride(nsContentUtils::GetCurrentJSContextForThread())
{
}
AutoNoJSAPI::AutoNoJSAPI(bool aIsMainThread)
: ScriptSettingsStackEntry()
{
if (aIsMainThread) {
mCxPusher.emplace(static_cast<JSContext*>(nullptr),
/* aAllowNull = */ true);
}
}
danger::AutoCxPusher::AutoCxPusher(JSContext* cx, bool allowNull)
{
MOZ_ASSERT_IF(!allowNull, cx);
// Hold a strong ref to the nsIScriptContext, if any. This ensures that we
// only destroy the mContext of an nsJSContext when it is not on the cx stack
// (and therefore not in use). See nsJSContext::DestroyJSContext().
if (cx)
mScx = GetScriptContextFromJSContext(cx);
XPCJSContextStack *stack = XPCJSRuntime::Get()->GetJSContextStack();
if (!stack->Push(cx)) {
MOZ_CRASH();
}
mStackDepthAfterPush = stack->Count();
#ifdef DEBUG
mPushedContext = cx;
mCompartmentDepthOnEntry = cx ? js::GetEnterCompartmentDepth(cx) : 0;
#endif
// Enter a request and a compartment for the duration that the cx is on the
// stack if non-null.
if (cx) {
mAutoRequest.emplace(cx);
}
}
danger::AutoCxPusher::~AutoCxPusher()
{
// Leave the request before popping.
mAutoRequest.reset();
// When we push a context, we may save the frame chain and pretend like we
// haven't entered any compartment. This gets restored on Pop(), but we can
// run into trouble if a Push/Pop are interleaved with a
// JSAutoEnterCompartment. Make sure the compartment depth right before we
// pop is the same as it was right after we pushed.
MOZ_ASSERT_IF(mPushedContext, mCompartmentDepthOnEntry ==
js::GetEnterCompartmentDepth(mPushedContext));
DebugOnly<JSContext*> stackTop;
MOZ_ASSERT(mPushedContext == nsXPConnect::XPConnect()->GetCurrentJSContext());
XPCJSRuntime::Get()->GetJSContextStack()->Pop();
mScx = nullptr;
}
bool
danger::AutoCxPusher::IsStackTop() const
{
uint32_t currentDepth = XPCJSRuntime::Get()->GetJSContextStack()->Count();
MOZ_ASSERT(currentDepth >= mStackDepthAfterPush);
return currentDepth == mStackDepthAfterPush;
}
} // namespace dom
AutoJSContext::AutoJSContext(MOZ_GUARD_OBJECT_NOTIFIER_ONLY_PARAM_IN_IMPL)
: mCx(nullptr)
{
Init(false MOZ_GUARD_OBJECT_NOTIFIER_PARAM_TO_PARENT);
}
AutoJSContext::AutoJSContext(bool aSafe MOZ_GUARD_OBJECT_NOTIFIER_PARAM_IN_IMPL)
: mCx(nullptr)
{
Init(aSafe MOZ_GUARD_OBJECT_NOTIFIER_PARAM_TO_PARENT);
}
void
AutoJSContext::Init(bool aSafe MOZ_GUARD_OBJECT_NOTIFIER_PARAM_IN_IMPL)
{
JS::AutoSuppressGCAnalysis nogc;
MOZ_ASSERT(!mCx, "mCx should not be initialized!");
MOZ_GUARD_OBJECT_NOTIFIER_INIT;
nsXPConnect *xpc = nsXPConnect::XPConnect();
if (!aSafe) {
mCx = xpc->GetCurrentJSContext();
}
if (!mCx) {
mJSAPI.Init();
mCx = mJSAPI.cx();
}
}
AutoJSContext::operator JSContext*() const
{
return mCx;
}
ThreadsafeAutoJSContext::ThreadsafeAutoJSContext(MOZ_GUARD_OBJECT_NOTIFIER_ONLY_PARAM_IN_IMPL)
{
MOZ_GUARD_OBJECT_NOTIFIER_INIT;
if (NS_IsMainThread()) {
mCx = nullptr;
mAutoJSContext.emplace();
} else {
mCx = mozilla::dom::workers::GetCurrentThreadJSContext();
mRequest.emplace(mCx);
}
}
ThreadsafeAutoJSContext::operator JSContext*() const
{
if (mCx) {
return mCx;
} else {
return *mAutoJSContext;
}
}
AutoSafeJSContext::AutoSafeJSContext(MOZ_GUARD_OBJECT_NOTIFIER_ONLY_PARAM_IN_IMPL)
: AutoJSContext(true MOZ_GUARD_OBJECT_NOTIFIER_PARAM_TO_PARENT)
, mAc(mCx, xpc::UnprivilegedJunkScope())
{
}
ThreadsafeAutoSafeJSContext::ThreadsafeAutoSafeJSContext(MOZ_GUARD_OBJECT_NOTIFIER_ONLY_PARAM_IN_IMPL)
{
MOZ_GUARD_OBJECT_NOTIFIER_INIT;
if (NS_IsMainThread()) {
mCx = nullptr;
mAutoSafeJSContext.emplace();
} else {
mCx = mozilla::dom::workers::GetCurrentThreadJSContext();
mRequest.emplace(mCx);
}
}
ThreadsafeAutoSafeJSContext::operator JSContext*() const
{
if (mCx) {
return mCx;
} else {
return *mAutoSafeJSContext;
}
}
} // namespace mozilla