/* * Copyright (C) 2006, 2007, 2013 Apple Inc. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY APPLE INC. ``AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "config.h" #include "JSContextRef.h" #include "JSContextRefInternal.h" #include "APICast.h" #include "CallFrame.h" #include "InitializeThreading.h" #include "JSCallbackObject.h" #include "JSClassRef.h" #include "JSGlobalObject.h" #include "JSObject.h" #include "JSCInlines.h" #include "SourceProvider.h" #include "StackVisitor.h" #include "Watchdog.h" #include #include #if ENABLE(REMOTE_INSPECTOR) #include "JSGlobalObjectDebuggable.h" #include "JSGlobalObjectInspectorController.h" #include "JSRemoteInspector.h" #endif #if ENABLE(INSPECTOR_ALTERNATE_DISPATCHERS) #include "JSContextRefInspectorSupport.h" #endif #if OS(DARWIN) #include static const int32_t webkitFirstVersionWithConcurrentGlobalContexts = 0x2100500; // 528.5.0 #endif using namespace JSC; // From the API's perspective, a context group remains alive iff // (a) it has been JSContextGroupRetained // OR // (b) one of its contexts has been JSContextRetained JSContextGroupRef JSContextGroupCreate() { initializeThreading(); return toRef(&VM::createContextGroup().leakRef()); } JSContextGroupRef JSContextGroupRetain(JSContextGroupRef group) { toJS(group)->ref(); return group; } void JSContextGroupRelease(JSContextGroupRef group) { VM& vm = *toJS(group); JSLockHolder locker(&vm); vm.deref(); } static bool internalScriptTimeoutCallback(ExecState* exec, void* callbackPtr, void* callbackData) { JSShouldTerminateCallback callback = reinterpret_cast(callbackPtr); JSContextRef contextRef = toRef(exec); ASSERT(callback); return callback(contextRef, callbackData); } void JSContextGroupSetExecutionTimeLimit(JSContextGroupRef group, double limit, JSShouldTerminateCallback callback, void* callbackData) { VM& vm = *toJS(group); JSLockHolder locker(&vm); Watchdog& watchdog = vm.ensureWatchdog(); if (callback) { void* callbackPtr = reinterpret_cast(callback); watchdog.setTimeLimit(std::chrono::duration_cast(std::chrono::duration(limit)), internalScriptTimeoutCallback, callbackPtr, callbackData); } else watchdog.setTimeLimit(std::chrono::duration_cast(std::chrono::duration(limit))); } void JSContextGroupClearExecutionTimeLimit(JSContextGroupRef group) { VM& vm = *toJS(group); JSLockHolder locker(&vm); if (vm.watchdog()) vm.watchdog()->setTimeLimit(Watchdog::noTimeLimit); } // From the API's perspective, a global context remains alive iff it has been JSGlobalContextRetained. JSGlobalContextRef JSGlobalContextCreate(JSClassRef globalObjectClass) { initializeThreading(); #if OS(DARWIN) // If the application was linked before JSGlobalContextCreate was changed to use a unique VM, // we use a shared one for backwards compatibility. if (NSVersionOfLinkTimeLibrary("JavaScriptCore") <= webkitFirstVersionWithConcurrentGlobalContexts) { return JSGlobalContextCreateInGroup(toRef(&VM::sharedInstance()), globalObjectClass); } #endif // OS(DARWIN) return JSGlobalContextCreateInGroup(0, globalObjectClass); } JSGlobalContextRef JSGlobalContextCreateInGroup(JSContextGroupRef group, JSClassRef globalObjectClass) { initializeThreading(); RefPtr vm = group ? PassRefPtr(toJS(group)) : VM::createContextGroup(); JSLockHolder locker(vm.get()); if (!globalObjectClass) { JSGlobalObject* globalObject = JSGlobalObject::create(*vm, JSGlobalObject::createStructure(*vm, jsNull())); #if ENABLE(REMOTE_INSPECTOR) if (JSRemoteInspectorGetInspectionEnabledByDefault()) globalObject->setRemoteDebuggingEnabled(true); #endif return JSGlobalContextRetain(toGlobalRef(globalObject->globalExec())); } JSGlobalObject* globalObject = JSCallbackObject::create(*vm, globalObjectClass, JSCallbackObject::createStructure(*vm, 0, jsNull())); ExecState* exec = globalObject->globalExec(); JSValue prototype = globalObjectClass->prototype(exec); if (!prototype) prototype = jsNull(); globalObject->resetPrototype(*vm, prototype); #if ENABLE(REMOTE_INSPECTOR) if (JSRemoteInspectorGetInspectionEnabledByDefault()) globalObject->setRemoteDebuggingEnabled(true); #endif return JSGlobalContextRetain(toGlobalRef(exec)); } JSGlobalContextRef JSGlobalContextRetain(JSGlobalContextRef ctx) { ExecState* exec = toJS(ctx); JSLockHolder locker(exec); VM& vm = exec->vm(); gcProtect(exec->vmEntryGlobalObject()); vm.ref(); return ctx; } void JSGlobalContextRelease(JSGlobalContextRef ctx) { ExecState* exec = toJS(ctx); JSLockHolder locker(exec); VM& vm = exec->vm(); bool protectCountIsZero = Heap::heap(exec->vmEntryGlobalObject())->unprotect(exec->vmEntryGlobalObject()); if (protectCountIsZero) vm.heap.reportAbandonedObjectGraph(); vm.deref(); } JSObjectRef JSContextGetGlobalObject(JSContextRef ctx) { if (!ctx) { ASSERT_NOT_REACHED(); return 0; } ExecState* exec = toJS(ctx); JSLockHolder locker(exec); return toRef(jsCast(exec->lexicalGlobalObject()->methodTable()->toThis(exec->lexicalGlobalObject(), exec, NotStrictMode))); } JSContextGroupRef JSContextGetGroup(JSContextRef ctx) { if (!ctx) { ASSERT_NOT_REACHED(); return 0; } ExecState* exec = toJS(ctx); return toRef(&exec->vm()); } JSGlobalContextRef JSContextGetGlobalContext(JSContextRef ctx) { if (!ctx) { ASSERT_NOT_REACHED(); return 0; } ExecState* exec = toJS(ctx); JSLockHolder locker(exec); return toGlobalRef(exec->lexicalGlobalObject()->globalExec()); } JSStringRef JSGlobalContextCopyName(JSGlobalContextRef ctx) { if (!ctx) { ASSERT_NOT_REACHED(); return 0; } ExecState* exec = toJS(ctx); JSLockHolder locker(exec); String name = exec->vmEntryGlobalObject()->name(); if (name.isNull()) return 0; return OpaqueJSString::create(name).leakRef(); } void JSGlobalContextSetName(JSGlobalContextRef ctx, JSStringRef name) { if (!ctx) { ASSERT_NOT_REACHED(); return; } ExecState* exec = toJS(ctx); JSLockHolder locker(exec); exec->vmEntryGlobalObject()->setName(name ? name->string() : String()); } class BacktraceFunctor { public: BacktraceFunctor(StringBuilder& builder, unsigned remainingCapacityForFrameCapture) : m_builder(builder) , m_remainingCapacityForFrameCapture(remainingCapacityForFrameCapture) { } StackVisitor::Status operator()(StackVisitor& visitor) { if (m_remainingCapacityForFrameCapture) { // If callee is unknown, but we've not added any frame yet, we should // still add the frame, because something called us, and gave us arguments. JSObject* callee = visitor->callee(); if (!callee && visitor->index()) return StackVisitor::Done; StringBuilder& builder = m_builder; if (!builder.isEmpty()) builder.append('\n'); builder.append('#'); builder.appendNumber(visitor->index()); builder.append(' '); builder.append(visitor->functionName()); builder.appendLiteral("() at "); builder.append(visitor->sourceURL()); if (visitor->isJSFrame()) { builder.append(':'); unsigned lineNumber; unsigned unusedColumn; visitor->computeLineAndColumn(lineNumber, unusedColumn); builder.appendNumber(lineNumber); } if (!callee) return StackVisitor::Done; m_remainingCapacityForFrameCapture--; return StackVisitor::Continue; } return StackVisitor::Done; } private: StringBuilder& m_builder; unsigned m_remainingCapacityForFrameCapture; }; JSStringRef JSContextCreateBacktrace(JSContextRef ctx, unsigned maxStackSize) { if (!ctx) { ASSERT_NOT_REACHED(); return 0; } ExecState* exec = toJS(ctx); JSLockHolder lock(exec); StringBuilder builder; CallFrame* frame = exec->vm().topCallFrame; ASSERT(maxStackSize); BacktraceFunctor functor(builder, maxStackSize); frame->iterate(functor); return OpaqueJSString::create(builder.toString()).leakRef(); } bool JSGlobalContextGetRemoteInspectionEnabled(JSGlobalContextRef ctx) { if (!ctx) { ASSERT_NOT_REACHED(); return false; } ExecState* exec = toJS(ctx); JSLockHolder lock(exec); return exec->vmEntryGlobalObject()->remoteDebuggingEnabled(); } void JSGlobalContextSetRemoteInspectionEnabled(JSGlobalContextRef ctx, bool enabled) { if (!ctx) { ASSERT_NOT_REACHED(); return; } ExecState* exec = toJS(ctx); JSLockHolder lock(exec); exec->vmEntryGlobalObject()->setRemoteDebuggingEnabled(enabled); } bool JSGlobalContextGetIncludesNativeCallStackWhenReportingExceptions(JSGlobalContextRef ctx) { #if ENABLE(REMOTE_INSPECTOR) if (!ctx) { ASSERT_NOT_REACHED(); return false; } ExecState* exec = toJS(ctx); JSLockHolder lock(exec); JSGlobalObject* globalObject = exec->vmEntryGlobalObject(); return globalObject->inspectorController().includesNativeCallStackWhenReportingExceptions(); #else UNUSED_PARAM(ctx); return false; #endif } void JSGlobalContextSetIncludesNativeCallStackWhenReportingExceptions(JSGlobalContextRef ctx, bool includesNativeCallStack) { #if ENABLE(REMOTE_INSPECTOR) if (!ctx) { ASSERT_NOT_REACHED(); return; } ExecState* exec = toJS(ctx); JSLockHolder lock(exec); JSGlobalObject* globalObject = exec->vmEntryGlobalObject(); globalObject->inspectorController().setIncludesNativeCallStackWhenReportingExceptions(includesNativeCallStack); #else UNUSED_PARAM(ctx); UNUSED_PARAM(includesNativeCallStack); #endif } #if USE(CF) CFRunLoopRef JSGlobalContextGetDebuggerRunLoop(JSGlobalContextRef ctx) { #if ENABLE(REMOTE_INSPECTOR) if (!ctx) { ASSERT_NOT_REACHED(); return nullptr; } ExecState* exec = toJS(ctx); JSLockHolder lock(exec); return exec->vmEntryGlobalObject()->inspectorDebuggable().targetRunLoop(); #else UNUSED_PARAM(ctx); return nullptr; #endif } void JSGlobalContextSetDebuggerRunLoop(JSGlobalContextRef ctx, CFRunLoopRef runLoop) { #if ENABLE(REMOTE_INSPECTOR) if (!ctx) { ASSERT_NOT_REACHED(); return; } ExecState* exec = toJS(ctx); JSLockHolder lock(exec); exec->vmEntryGlobalObject()->inspectorDebuggable().setTargetRunLoop(runLoop); #else UNUSED_PARAM(ctx); UNUSED_PARAM(runLoop); #endif } #endif // USE(CF) #if ENABLE(INSPECTOR_ALTERNATE_DISPATCHERS) Inspector::AugmentableInspectorController* JSGlobalContextGetAugmentableInspectorController(JSGlobalContextRef ctx) { if (!ctx) { ASSERT_NOT_REACHED(); return nullptr; } ExecState* exec = toJS(ctx); JSLockHolder lock(exec); return &exec->vmEntryGlobalObject()->inspectorController(); } #endif