// Copyright (c) 2012 The Chromium Embedded Framework Authors. All rights // reserved. Use of this source code is governed by a BSD-style license that // can be found in the LICENSE file. #include #include #include "base/command_line.h" #include "base/compiler_specific.h" #include "third_party/WebKit/Source/WebCore/config.h" MSVC_PUSH_WARNING_LEVEL(0); #include "Frame.h" // NOLINT(build/include) #include "ScriptController.h" // NOLINT(build/include) #include "ScriptControllerBase.h" // NOLINT(build/include) #include "V8Binding.h" // NOLINT(build/include) #include "V8RecursionScope.h" // NOLINT(build/include) MSVC_POP_WARNING(); #undef LOG #include "libcef/renderer/v8_impl.h" #include "libcef/common/cef_switches.h" #include "libcef/common/content_client.h" #include "libcef/common/tracker.h" #include "libcef/renderer/browser_impl.h" #include "libcef/renderer/thread_util.h" #include "base/bind.h" #include "base/lazy_instance.h" #include "base/string_number_conversions.h" #include "third_party/WebKit/Source/WebKit/chromium/public/WebKit.h" #include "third_party/WebKit/Source/WebKit/chromium/public/WebFrame.h" #include "third_party/WebKit/Source/WebKit/chromium/public/WebScriptController.h" namespace { static const char kCefTrackObject[] = "Cef::TrackObject"; static const char kCefContextState[] = "Cef::ContextState"; // Memory manager. class CefV8TrackManager { public: CefV8TrackManager() : context_safety_impl_(IMPL_HASH) { const CommandLine& command_line = *CommandLine::ForCurrentProcess(); if (command_line.HasSwitch(switches::kContextSafetyImplementation)) { std::string value = command_line.GetSwitchValueASCII( switches::kContextSafetyImplementation); int mode; if (base::StringToInt(value, &mode)) { if (mode < 0) context_safety_impl_ = IMPL_DISABLED; else if (mode == 1) context_safety_impl_ = IMPL_VALUE; } } } scoped_refptr GetContextState( v8::Handle context) { if (context_safety_impl_ == IMPL_DISABLED) return scoped_refptr(); if (context.IsEmpty()) { if (v8::Context::InContext()) context = v8::Context::GetCurrent(); else return scoped_refptr(); } if (context_safety_impl_ == IMPL_HASH) { int hash = context->Global()->GetIdentityHash(); ContextMap::const_iterator it = context_map_.find(hash); if (it != context_map_.end()) return it->second; scoped_refptr state = new CefV8ContextState(); context_map_.insert(std::make_pair(hash, state)); return state; } else { if (context_state_key_.IsEmpty()) { context_state_key_ = v8::Persistent::New(v8::String::New(kCefContextState)); } v8::Handle object = context->Global(); v8::Handle value = object->GetHiddenValue(context_state_key_); if (!value.IsEmpty()) return static_cast(v8::External::Unwrap(value)); scoped_refptr state = new CefV8ContextState(); object->SetHiddenValue(context_state_key_, v8::External::New(state.get())); // Reference will be released in ReleaseContext. state->AddRef(); return state; } } void ReleaseContext(v8::Handle context) { if (context_safety_impl_ == IMPL_DISABLED) return; if (context_safety_impl_ == IMPL_HASH) { int hash = context->Global()->GetIdentityHash(); ContextMap::iterator it = context_map_.find(hash); if (it != context_map_.end()) { it->second->Detach(); context_map_.erase(it); } } else { if (context_state_key_.IsEmpty()) return; v8::Handle object = context->Global(); v8::Handle value = object->GetHiddenValue(context_state_key_); if (value.IsEmpty()) return; scoped_refptr state = static_cast(v8::External::Unwrap(value)); state->Detach(); object->DeleteHiddenValue(context_state_key_); // Match the AddRef in GetContextState. state->Release(); } } void AddGlobalTrackObject(CefTrackNode* object) { global_manager_.Add(object); } void DeleteGlobalTrackObject(CefTrackNode* object) { global_manager_.Delete(object); } private: enum ContextSafetyImpl { IMPL_DISABLED, IMPL_HASH, IMPL_VALUE, }; ContextSafetyImpl context_safety_impl_; // Used with IMPL_HASH. typedef std::map > ContextMap; ContextMap context_map_; // Used with IMPL_VALUE. v8::Persistent context_state_key_; // Used for globally tracked objects that are not associated with a particular // context. CefTrackManager global_manager_; }; base::LazyInstance g_v8_tracker = LAZY_INSTANCE_INITIALIZER; class V8TrackObject : public CefTrackNode { public: V8TrackObject() : external_memory_(0) { v8::V8::AdjustAmountOfExternalAllocatedMemory( static_cast(sizeof(V8TrackObject))); } ~V8TrackObject() { v8::V8::AdjustAmountOfExternalAllocatedMemory( -static_cast(sizeof(V8TrackObject)) - external_memory_); } inline int GetExternallyAllocatedMemory() { return external_memory_; } int AdjustExternallyAllocatedMemory(int change_in_bytes) { int new_value = external_memory_ + change_in_bytes; if (new_value < 0) { NOTREACHED() << "External memory usage cannot be less than 0 bytes"; change_in_bytes = -(external_memory_); new_value = 0; } if (change_in_bytes != 0) v8::V8::AdjustAmountOfExternalAllocatedMemory(change_in_bytes); external_memory_ = new_value; return new_value; } inline void SetAccessor(CefRefPtr accessor) { accessor_ = accessor; } inline CefRefPtr GetAccessor() { return accessor_; } inline void SetHandler(CefRefPtr handler) { handler_ = handler; } inline CefRefPtr GetHandler() { return handler_; } inline void SetUserData(CefRefPtr user_data) { user_data_ = user_data; } inline CefRefPtr GetUserData() { return user_data_; } // Attach this track object to the specified V8 object. void AttachTo(v8::Handle object) { object->SetHiddenValue(v8::String::New(kCefTrackObject), v8::External::Wrap(this)); } // Retrieve the track object for the specified V8 object. static V8TrackObject* Unwrap(v8::Handle object) { v8::Local value = object->GetHiddenValue(v8::String::New(kCefTrackObject)); if (!value.IsEmpty()) return static_cast(v8::External::Unwrap(value)); return NULL; } private: CefRefPtr accessor_; CefRefPtr handler_; CefRefPtr user_data_; int external_memory_; }; class V8TrackString : public CefTrackNode { public: explicit V8TrackString(const std::string& str) : string_(str) {} const char* GetString() { return string_.c_str(); } private: std::string string_; }; // Manages the life span of a CefTrackNode associated with a persistent Object // or Function. class CefV8MakeWeakParam { public: CefV8MakeWeakParam(scoped_refptr context_state, CefTrackNode* object) : context_state_(context_state), object_(object) { DCHECK(object_); v8::V8::AdjustAmountOfExternalAllocatedMemory( static_cast(sizeof(CefV8MakeWeakParam))); if (context_state_.get()) { // |object_| will be deleted when: // A. The associated context is released, or // B. TrackDestructor is called for the weak handle. DCHECK(context_state_->IsValid()); context_state_->AddTrackObject(object_); } else { // |object_| will be deleted when: // A. The process shuts down, or // B. TrackDestructor is called for the weak handle. g_v8_tracker.Pointer()->AddGlobalTrackObject(object_); } } ~CefV8MakeWeakParam() { if (context_state_.get()) { // If the associated context is still valid then delete |object_|. // Otherwise, |object_| will already have been deleted. if (context_state_->IsValid()) context_state_->DeleteTrackObject(object_); } else { g_v8_tracker.Pointer()->DeleteGlobalTrackObject(object_); } v8::V8::AdjustAmountOfExternalAllocatedMemory( -static_cast(sizeof(CefV8MakeWeakParam))); } private: scoped_refptr context_state_; CefTrackNode* object_; }; // Callback for weak persistent reference destruction. void TrackDestructor(v8::Persistent object, void* parameter) { if (parameter) delete static_cast(parameter); object.Dispose(); object.Clear(); } // Convert a CefString to a V8::String. v8::Handle GetV8String(const CefString& str) { #if defined(CEF_STRING_TYPE_UTF16) // Already a UTF16 string. return v8::String::New( reinterpret_cast( const_cast(str.c_str())), str.length()); #elif defined(CEF_STRING_TYPE_UTF8) // Already a UTF8 string. return v8::String::New(const_cast(str.c_str()), str.length()); #else // Convert the string to UTF8. std::string tmpStr = str; return v8::String::New(tmpStr.c_str(), tmpStr.length()); #endif } #if defined(CEF_STRING_TYPE_UTF16) void v8impl_string_dtor(char16* str) { delete [] str; } #elif defined(CEF_STRING_TYPE_UTF8) void v8impl_string_dtor(char* str) { delete [] str; } #endif // Convert a v8::String to CefString. void GetCefString(v8::Handle str, CefString& out) { if (str.IsEmpty()) return; #if defined(CEF_STRING_TYPE_WIDE) // Allocate enough space for a worst-case conversion. int len = str->Utf8Length(); if (len == 0) return; char* buf = new char[len + 1]; str->WriteUtf8(buf, len + 1); // Perform conversion to the wide type. cef_string_t* retws = out.GetWritableStruct(); cef_string_utf8_to_wide(buf, len, retws); delete [] buf; #else // !defined(CEF_STRING_TYPE_WIDE) #if defined(CEF_STRING_TYPE_UTF16) int len = str->Length(); if (len == 0) return; char16* buf = new char16[len + 1]; str->Write(reinterpret_cast(buf), 0, len + 1); #else // Allocate enough space for a worst-case conversion. int len = str->Utf8Length(); if (len == 0) return; char* buf = new char[len + 1]; str->WriteUtf8(buf, len + 1); #endif // Don't perform an extra string copy. out.clear(); cef_string_t* retws = out.GetWritableStruct(); retws->str = buf; retws->length = len; retws->dtor = v8impl_string_dtor; #endif // !defined(CEF_STRING_TYPE_WIDE) } // V8 function callback. v8::Handle FunctionCallbackImpl(const v8::Arguments& args) { v8::HandleScope handle_scope; WebCore::V8RecursionScope recursion_scope( WebCore::toScriptExecutionContext(v8::Context::GetCurrent())); CefV8Handler* handler = static_cast(v8::External::Unwrap(args.Data())); CefV8ValueList params; for (int i = 0; i < args.Length(); i++) params.push_back(new CefV8ValueImpl(args[i])); CefString func_name; GetCefString(v8::Handle::Cast(args.Callee()->GetName()), func_name); CefRefPtr object = new CefV8ValueImpl(args.This()); CefRefPtr retval; CefString exception; if (handler->Execute(func_name, object, params, retval, exception)) { if (!exception.empty()) { return v8::ThrowException(v8::Exception::Error(GetV8String(exception))); } else { CefV8ValueImpl* rv = static_cast(retval.get()); if (rv) return rv->GetHandle(true); } } return v8::Undefined(); } // V8 Accessor callbacks v8::Handle AccessorGetterCallbackImpl(v8::Local property, const v8::AccessorInfo& info) { v8::HandleScope handle_scope; WebCore::V8RecursionScope recursion_scope( WebCore::toScriptExecutionContext(v8::Context::GetCurrent())); v8::Handle obj = info.This(); CefRefPtr accessorPtr; V8TrackObject* tracker = V8TrackObject::Unwrap(obj); if (tracker) accessorPtr = tracker->GetAccessor(); if (accessorPtr.get()) { CefRefPtr retval; CefRefPtr object = new CefV8ValueImpl(obj); CefString name, exception; GetCefString(property, name); if (accessorPtr->Get(name, object, retval, exception)) { if (!exception.empty()) { return v8::ThrowException( v8::Exception::Error(GetV8String(exception))); } else { CefV8ValueImpl* rv = static_cast(retval.get()); if (rv) return rv->GetHandle(true); } } } return v8::Undefined(); } void AccessorSetterCallbackImpl(v8::Local property, v8::Local value, const v8::AccessorInfo& info) { v8::HandleScope handle_scope; WebCore::V8RecursionScope recursion_scope( WebCore::toScriptExecutionContext(v8::Context::GetCurrent())); v8::Handle obj = info.This(); CefRefPtr accessorPtr; V8TrackObject* tracker = V8TrackObject::Unwrap(obj); if (tracker) accessorPtr = tracker->GetAccessor(); if (accessorPtr.get()) { CefRefPtr object = new CefV8ValueImpl(obj); CefRefPtr cefValue = new CefV8ValueImpl(value); CefString name, exception; GetCefString(property, name); accessorPtr->Set(name, object, cefValue, exception); if (!exception.empty()) { v8::ThrowException(v8::Exception::Error(GetV8String(exception))); return; } } } // V8 extension registration. class ExtensionWrapper : public v8::Extension { public: ExtensionWrapper(const char* extension_name, const char* javascript_code, CefV8Handler* handler) : v8::Extension(extension_name, javascript_code), handler_(handler) { if (handler) { // The reference will be released when the process exits. V8TrackObject* object = new V8TrackObject; object->SetHandler(handler); g_v8_tracker.Pointer()->AddGlobalTrackObject(object); } } virtual v8::Handle GetNativeFunction( v8::Handle name) { if (!handler_) return v8::Handle(); return v8::FunctionTemplate::New(FunctionCallbackImpl, v8::External::Wrap(handler_)); } private: CefV8Handler* handler_; }; class CefV8ExceptionImpl : public CefV8Exception { public: explicit CefV8ExceptionImpl(v8::Handle message) : line_number_(0), start_position_(0), end_position_(0), start_column_(0), end_column_(0) { if (message.IsEmpty()) return; GetCefString(message->Get(), message_); GetCefString(message->GetSourceLine(), source_line_); if (!message->GetScriptResourceName().IsEmpty()) GetCefString(message->GetScriptResourceName()->ToString(), script_); line_number_ = message->GetLineNumber(); start_position_ = message->GetStartPosition(); end_position_ = message->GetEndPosition(); start_column_ = message->GetStartColumn(); end_column_ = message->GetEndColumn(); } virtual CefString GetMessage() OVERRIDE { return message_; } virtual CefString GetSourceLine() OVERRIDE { return source_line_; } virtual CefString GetScriptResourceName() OVERRIDE { return script_; } virtual int GetLineNumber() OVERRIDE { return line_number_; } virtual int GetStartPosition() OVERRIDE { return start_position_; } virtual int GetEndPosition() OVERRIDE { return end_position_; } virtual int GetStartColumn() OVERRIDE { return start_column_; } virtual int GetEndColumn() OVERRIDE { return end_column_; } protected: CefString message_; CefString source_line_; CefString script_; int line_number_; int start_position_; int end_position_; int start_column_; int end_column_; IMPLEMENT_REFCOUNTING(CefV8ExceptionImpl); }; } // namespace // Global functions. void CefV8ReleaseContext(v8::Handle context) { g_v8_tracker.Pointer()->ReleaseContext(context); } bool CefRegisterExtension(const CefString& extension_name, const CefString& javascript_code, CefRefPtr handler) { // Verify that this method was called on the correct thread. CEF_REQUIRE_RT_RETURN(false); V8TrackString* name = new V8TrackString(extension_name); g_v8_tracker.Pointer()->AddGlobalTrackObject(name); V8TrackString* code = new V8TrackString(javascript_code); g_v8_tracker.Pointer()->AddGlobalTrackObject(code); ExtensionWrapper* wrapper = new ExtensionWrapper(name->GetString(), code->GetString(), handler.get()); content::RenderThread::Get()->RegisterExtension(wrapper); return true; } // CefV8HandleBase CefV8HandleBase::CefV8HandleBase(v8::Handle context) { context_state_ = g_v8_tracker.Pointer()->GetContextState(context); } // CefV8Context // static CefRefPtr CefV8Context::GetCurrentContext() { CefRefPtr context; CEF_REQUIRE_RT_RETURN(context); if (v8::Context::InContext()) { v8::HandleScope handle_scope; context = new CefV8ContextImpl(v8::Context::GetCurrent()); } return context; } // static CefRefPtr CefV8Context::GetEnteredContext() { CefRefPtr context; CEF_REQUIRE_RT_RETURN(context); if (v8::Context::InContext()) { v8::HandleScope handle_scope; context = new CefV8ContextImpl(v8::Context::GetEntered()); } return context; } // static bool CefV8Context::InContext() { CEF_REQUIRE_RT_RETURN(false); return v8::Context::InContext(); } // CefV8ContextImpl #define CEF_V8_REQUIRE_VALID_RETURN(ret) \ if (!handle_->IsValid()) { \ NOTREACHED() << "V8 handle is not valid"; \ return ret; \ } #define CEF_V8_REQUIRE_OBJECT_RETURN(ret) \ CEF_V8_REQUIRE_VALID_RETURN(ret); \ if (!GetHandle(false)->IsObject()) { \ NOTREACHED() << "V8 value is not an object"; \ return ret; \ } #define CEF_V8_REQUIRE_ARRAY_RETURN(ret) \ CEF_V8_REQUIRE_VALID_RETURN(ret); \ if (!GetHandle(false)->IsArray()) { \ NOTREACHED() << "V8 value is not an array"; \ return ret; \ } #define CEF_V8_REQUIRE_FUNCTION_RETURN(ret) \ CEF_V8_REQUIRE_VALID_RETURN(ret); \ if (!GetHandle(false)->IsFunction()) { \ NOTREACHED() << "V8 value is not a function"; \ return ret; \ } CefV8ContextImpl::CefV8ContextImpl(v8::Handle context) : handle_(new Handle(context, context)) #ifndef NDEBUG , enter_count_(0) #endif { // NOLINT(whitespace/braces) } CefV8ContextImpl::~CefV8ContextImpl() { DLOG_ASSERT(0 == enter_count_); } bool CefV8ContextImpl::IsValid() { CEF_REQUIRE_RT_RETURN(false); return handle_->IsValid(); } CefRefPtr CefV8ContextImpl::GetBrowser() { CefRefPtr browser; CEF_REQUIRE_RT_RETURN(browser); CEF_V8_REQUIRE_VALID_RETURN(browser); WebKit::WebFrame* webframe = GetWebFrame(); if (webframe) browser = CefBrowserImpl::GetBrowserForMainFrame(webframe->top()); return browser; } CefRefPtr CefV8ContextImpl::GetFrame() { CefRefPtr frame; CEF_REQUIRE_RT_RETURN(frame); CEF_V8_REQUIRE_VALID_RETURN(frame); WebKit::WebFrame* webframe = GetWebFrame(); if (webframe) { CefRefPtr browser = CefBrowserImpl::GetBrowserForMainFrame(webframe->top()); frame = browser->GetFrame(webframe->identifier()); } return frame; } CefRefPtr CefV8ContextImpl::GetGlobal() { CEF_REQUIRE_RT_RETURN(NULL); CEF_V8_REQUIRE_VALID_RETURN(NULL); v8::HandleScope handle_scope; v8::Context::Scope context_scope(GetHandle()); return new CefV8ValueImpl(GetHandle()->Global()); } bool CefV8ContextImpl::Enter() { CEF_REQUIRE_RT_RETURN(false); CEF_V8_REQUIRE_VALID_RETURN(false); WebCore::V8PerIsolateData::current()->incrementRecursionLevel(); GetHandle()->Enter(); #ifndef NDEBUG ++enter_count_; #endif return true; } bool CefV8ContextImpl::Exit() { CEF_REQUIRE_RT_RETURN(false); CEF_V8_REQUIRE_VALID_RETURN(false); DLOG_ASSERT(enter_count_ > 0); GetHandle()->Exit(); WebCore::V8PerIsolateData::current()->decrementRecursionLevel(); #ifndef NDEBUG --enter_count_; #endif return true; } bool CefV8ContextImpl::IsSame(CefRefPtr that) { CEF_REQUIRE_RT_RETURN(false); CEF_V8_REQUIRE_VALID_RETURN(false); v8::HandleScope handle_scope; v8::Local thatHandle; v8::Local thisHandle = GetContext(); CefV8ContextImpl* impl = static_cast(that.get()); if (impl) thatHandle = impl->GetContext(); return (thisHandle == thatHandle); } bool CefV8ContextImpl::Eval(const CefString& code, CefRefPtr& retval, CefRefPtr& exception) { CEF_REQUIRE_RT_RETURN(false); CEF_V8_REQUIRE_VALID_RETURN(false); if (code.empty()) { NOTREACHED() << "invalid input parameter"; return false; } v8::HandleScope handle_scope; v8::Context::Scope context_scope(GetHandle()); v8::Local obj = GetHandle()->Global(); // Retrieve the eval function. v8::Local val = obj->Get(v8::String::New("eval")); if (val.IsEmpty() || !val->IsFunction()) return false; v8::Local func = v8::Local::Cast(val); v8::Handle code_val = GetV8String(code); v8::TryCatch try_catch; try_catch.SetVerbose(true); v8::Local func_rv; retval = NULL; exception = NULL; // Execute the function call using the ScriptController so that inspector // instrumentation works. RefPtr frame = WebCore::toFrameIfNotDetached(GetHandle()); DCHECK(frame); if (frame && frame->script()->canExecuteScripts(WebCore::AboutToExecuteScript)) { func_rv = frame->script()->callFunction(func, obj, 1, &code_val); } if (try_catch.HasCaught()) { exception = new CefV8ExceptionImpl(try_catch.Message()); return false; } else if (!func_rv.IsEmpty()) { retval = new CefV8ValueImpl(func_rv); } return true; } v8::Local CefV8ContextImpl::GetContext() { return v8::Local::New(GetHandle()); } WebKit::WebFrame* CefV8ContextImpl::GetWebFrame() { v8::HandleScope handle_scope; v8::Context::Scope context_scope(GetHandle()); WebKit::WebFrame* frame = WebKit::WebFrame::frameForCurrentContext(); return frame; } // CefV8ValueImpl::Handle CefV8ValueImpl::Handle::~Handle() { // Persist the |tracker_| object (call MakeWeak) if: // A. The value represents an Object or Function, and // B. The handle has been passed into a V8 function or used as a return value // from a V8 callback, and // C. The associated context, if any, is still valid. if (tracker_ && tracker_should_persist_ && (!context_state_.get() || context_state_->IsValid())) { handle_.MakeWeak(new CefV8MakeWeakParam(context_state_, tracker_), TrackDestructor); } else { handle_.Dispose(); handle_.Clear(); if (tracker_) delete tracker_; } tracker_ = NULL; } // CefV8Value // static CefRefPtr CefV8Value::CreateUndefined() { CEF_REQUIRE_RT_RETURN(NULL); v8::HandleScope handle_scope; return new CefV8ValueImpl(v8::Undefined()); } // static CefRefPtr CefV8Value::CreateNull() { CEF_REQUIRE_RT_RETURN(NULL); v8::HandleScope handle_scope; return new CefV8ValueImpl(v8::Null()); } // static CefRefPtr CefV8Value::CreateBool(bool value) { CEF_REQUIRE_RT_RETURN(NULL); v8::HandleScope handle_scope; return new CefV8ValueImpl(v8::Boolean::New(value)); } // static CefRefPtr CefV8Value::CreateInt(int32 value) { CEF_REQUIRE_RT_RETURN(NULL); v8::HandleScope handle_scope; return new CefV8ValueImpl(v8::Int32::New(value)); } // static CefRefPtr CefV8Value::CreateUInt(uint32 value) { CEF_REQUIRE_RT_RETURN(NULL); v8::HandleScope handle_scope; return new CefV8ValueImpl(v8::Int32::NewFromUnsigned(value)); } // static CefRefPtr CefV8Value::CreateDouble(double value) { CEF_REQUIRE_RT_RETURN(NULL); v8::HandleScope handle_scope; return new CefV8ValueImpl(v8::Number::New(value)); } // static CefRefPtr CefV8Value::CreateDate(const CefTime& date) { CEF_REQUIRE_RT_RETURN(NULL); v8::HandleScope handle_scope; // Convert from seconds to milliseconds. return new CefV8ValueImpl(v8::Date::New(date.GetDoubleT() * 1000)); } // static CefRefPtr CefV8Value::CreateString(const CefString& value) { CEF_REQUIRE_RT_RETURN(NULL); v8::HandleScope handle_scope; return new CefV8ValueImpl(GetV8String(value)); } // static CefRefPtr CefV8Value::CreateObject( CefRefPtr accessor) { CEF_REQUIRE_RT_RETURN(NULL); v8::HandleScope handle_scope; v8::Local context = v8::Context::GetCurrent(); if (context.IsEmpty()) { NOTREACHED() << "not currently in a V8 context"; return NULL; } // Create the new V8 object. v8::Local obj = v8::Object::New(); // Create a tracker object that will cause the user data and/or accessor // reference to be released when the V8 object is destroyed. V8TrackObject* tracker = new V8TrackObject; tracker->SetAccessor(accessor); // Attach the tracker object. tracker->AttachTo(obj); return new CefV8ValueImpl(obj, tracker); } // static CefRefPtr CefV8Value::CreateArray(int length) { CEF_REQUIRE_RT_RETURN(NULL); v8::HandleScope handle_scope; v8::Local context = v8::Context::GetCurrent(); if (context.IsEmpty()) { NOTREACHED() << "not currently in a V8 context"; return NULL; } // Create a tracker object that will cause the user data reference to be // released when the V8 object is destroyed. V8TrackObject* tracker = new V8TrackObject; // Create the new V8 array. v8::Local arr = v8::Array::New(length); // Attach the tracker object. tracker->AttachTo(arr); return new CefV8ValueImpl(arr, tracker); } // static CefRefPtr CefV8Value::CreateFunction( const CefString& name, CefRefPtr handler) { CEF_REQUIRE_RT_RETURN(NULL); if (!handler.get()) { NOTREACHED() << "invalid parameter"; return NULL; } v8::HandleScope handle_scope; v8::Local context = v8::Context::GetCurrent(); if (context.IsEmpty()) { NOTREACHED() << "not currently in a V8 context"; return NULL; } // Create a new V8 function template. v8::Local tmpl = v8::FunctionTemplate::New(); v8::Local data = v8::External::Wrap(handler.get()); // Set the function handler callback. tmpl->SetCallHandler(FunctionCallbackImpl, data); // Retrieve the function object and set the name. v8::Local func = tmpl->GetFunction(); if (func.IsEmpty()) { NOTREACHED() << "failed to create V8 function"; return NULL; } func->SetName(GetV8String(name)); // Create a tracker object that will cause the user data and/or handler // reference to be released when the V8 object is destroyed. V8TrackObject* tracker = new V8TrackObject; tracker->SetHandler(handler); // Attach the tracker object. tracker->AttachTo(func); // Create the CefV8ValueImpl and provide a tracker object that will cause // the handler reference to be released when the V8 object is destroyed. return new CefV8ValueImpl(func, tracker); } // CefV8ValueImpl CefV8ValueImpl::CefV8ValueImpl(v8::Handle value, CefTrackNode* tracker) : handle_(new Handle(v8::Handle(), value, tracker)), rethrow_exceptions_(false) { } CefV8ValueImpl::~CefV8ValueImpl() { } bool CefV8ValueImpl::IsValid() { CEF_REQUIRE_RT_RETURN(false); return handle_->IsValid(); } bool CefV8ValueImpl::IsUndefined() { CEF_REQUIRE_RT_RETURN(false); CEF_V8_REQUIRE_VALID_RETURN(false); return GetHandle(false)->IsUndefined(); } bool CefV8ValueImpl::IsNull() { CEF_REQUIRE_RT_RETURN(false); CEF_V8_REQUIRE_VALID_RETURN(false); return GetHandle(false)->IsNull(); } bool CefV8ValueImpl::IsBool() { CEF_REQUIRE_RT_RETURN(false); CEF_V8_REQUIRE_VALID_RETURN(false); return (GetHandle(false)->IsBoolean() || GetHandle(false)->IsTrue() || GetHandle(false)->IsFalse()); } bool CefV8ValueImpl::IsInt() { CEF_REQUIRE_RT_RETURN(false); CEF_V8_REQUIRE_VALID_RETURN(false); return GetHandle(false)->IsInt32(); } bool CefV8ValueImpl::IsUInt() { CEF_REQUIRE_RT_RETURN(false); CEF_V8_REQUIRE_VALID_RETURN(false); return GetHandle(false)->IsUint32(); } bool CefV8ValueImpl::IsDouble() { CEF_REQUIRE_RT_RETURN(false); CEF_V8_REQUIRE_VALID_RETURN(false); return GetHandle(false)->IsNumber(); } bool CefV8ValueImpl::IsDate() { CEF_REQUIRE_RT_RETURN(false); CEF_V8_REQUIRE_VALID_RETURN(false); return GetHandle(false)->IsDate(); } bool CefV8ValueImpl::IsString() { CEF_REQUIRE_RT_RETURN(false); CEF_V8_REQUIRE_VALID_RETURN(false); return GetHandle(false)->IsString(); } bool CefV8ValueImpl::IsObject() { CEF_REQUIRE_RT_RETURN(false); CEF_V8_REQUIRE_VALID_RETURN(false); return GetHandle(false)->IsObject(); } bool CefV8ValueImpl::IsArray() { CEF_REQUIRE_RT_RETURN(false); CEF_V8_REQUIRE_VALID_RETURN(false); return GetHandle(false)->IsArray(); } bool CefV8ValueImpl::IsFunction() { CEF_REQUIRE_RT_RETURN(false); CEF_V8_REQUIRE_VALID_RETURN(false); return GetHandle(false)->IsFunction(); } bool CefV8ValueImpl::IsSame(CefRefPtr that) { CEF_REQUIRE_RT_RETURN(false); CEF_V8_REQUIRE_VALID_RETURN(false); v8::HandleScope handle_scope; v8::Handle thatHandle; v8::Handle thisHandle = GetHandle(false); CefV8ValueImpl* impl = static_cast(that.get()); if (impl) thatHandle = impl->GetHandle(false); return (thisHandle == thatHandle); } bool CefV8ValueImpl::GetBoolValue() { CEF_REQUIRE_RT_RETURN(false); CEF_V8_REQUIRE_VALID_RETURN(false); if (GetHandle(false)->IsTrue()) { return true; } else if (GetHandle(false)->IsFalse()) { return false; } else { v8::HandleScope handle_scope; v8::Local val = GetHandle(false)->ToBoolean(); return val->Value(); } } int32 CefV8ValueImpl::GetIntValue() { CEF_REQUIRE_RT_RETURN(0); CEF_V8_REQUIRE_VALID_RETURN(0); v8::HandleScope handle_scope; v8::Local val = GetHandle(false)->ToInt32(); return val->Value(); } uint32 CefV8ValueImpl::GetUIntValue() { CEF_REQUIRE_RT_RETURN(0); CEF_V8_REQUIRE_VALID_RETURN(0); v8::HandleScope handle_scope; v8::Local val = GetHandle(false)->ToUint32(); return val->Value(); } double CefV8ValueImpl::GetDoubleValue() { CEF_REQUIRE_RT_RETURN(0.); CEF_V8_REQUIRE_VALID_RETURN(0.); v8::HandleScope handle_scope; v8::Local val = GetHandle(false)->ToNumber(); return val->Value(); } CefTime CefV8ValueImpl::GetDateValue() { CEF_REQUIRE_RT_RETURN(CefTime(0.)); CEF_V8_REQUIRE_VALID_RETURN(CefTime(0.)); v8::HandleScope handle_scope; v8::Local val = GetHandle(false)->ToNumber(); // Convert from milliseconds to seconds. return CefTime(val->Value() / 1000); } CefString CefV8ValueImpl::GetStringValue() { CefString rv; CEF_REQUIRE_RT_RETURN(rv); CEF_V8_REQUIRE_VALID_RETURN(rv); v8::HandleScope handle_scope; GetCefString(GetHandle(false)->ToString(), rv); return rv; } bool CefV8ValueImpl::IsUserCreated() { CEF_REQUIRE_RT_RETURN(false); CEF_V8_REQUIRE_OBJECT_RETURN(false); v8::HandleScope handle_scope; v8::Local obj = GetHandle(false)->ToObject(); V8TrackObject* tracker = V8TrackObject::Unwrap(obj); return (tracker != NULL); } bool CefV8ValueImpl::HasException() { CEF_REQUIRE_RT_RETURN(false); CEF_V8_REQUIRE_OBJECT_RETURN(false); return (last_exception_.get() != NULL); } CefRefPtr CefV8ValueImpl::GetException() { CEF_REQUIRE_RT_RETURN(NULL); CEF_V8_REQUIRE_OBJECT_RETURN(NULL); return last_exception_; } bool CefV8ValueImpl::ClearException() { CEF_REQUIRE_RT_RETURN(false); CEF_V8_REQUIRE_OBJECT_RETURN(false); last_exception_ = NULL; return true; } bool CefV8ValueImpl::WillRethrowExceptions() { CEF_REQUIRE_RT_RETURN(false); CEF_V8_REQUIRE_OBJECT_RETURN(false); return rethrow_exceptions_; } bool CefV8ValueImpl::SetRethrowExceptions(bool rethrow) { CEF_REQUIRE_RT_RETURN(false); CEF_V8_REQUIRE_OBJECT_RETURN(false); rethrow_exceptions_ = rethrow; return true; } bool CefV8ValueImpl::HasValue(const CefString& key) { CEF_REQUIRE_RT_RETURN(false); CEF_V8_REQUIRE_OBJECT_RETURN(false); v8::HandleScope handle_scope; v8::Local obj = GetHandle(false)->ToObject(); return obj->Has(GetV8String(key)); } bool CefV8ValueImpl::HasValue(int index) { CEF_REQUIRE_RT_RETURN(false); CEF_V8_REQUIRE_OBJECT_RETURN(false); if (index < 0) { NOTREACHED() << "invalid input parameter"; return false; } v8::HandleScope handle_scope; v8::Local obj = GetHandle(false)->ToObject(); return obj->Has(index); } bool CefV8ValueImpl::DeleteValue(const CefString& key) { CEF_REQUIRE_RT_RETURN(false); CEF_V8_REQUIRE_OBJECT_RETURN(false); v8::HandleScope handle_scope; v8::Local obj = GetHandle(false)->ToObject(); v8::TryCatch try_catch; try_catch.SetVerbose(true); bool del = obj->Delete(GetV8String(key)); return (!HasCaught(try_catch) && del); } bool CefV8ValueImpl::DeleteValue(int index) { CEF_REQUIRE_RT_RETURN(false); CEF_V8_REQUIRE_OBJECT_RETURN(false); if (index < 0) { NOTREACHED() << "invalid input parameter"; return false; } v8::HandleScope handle_scope; v8::Local obj = GetHandle(false)->ToObject(); v8::TryCatch try_catch; try_catch.SetVerbose(true); bool del = obj->Delete(index); return (!HasCaught(try_catch) && del); } CefRefPtr CefV8ValueImpl::GetValue(const CefString& key) { CEF_REQUIRE_RT_RETURN(NULL); CEF_V8_REQUIRE_OBJECT_RETURN(NULL); v8::HandleScope handle_scope; v8::Local obj = GetHandle(false)->ToObject(); v8::TryCatch try_catch; try_catch.SetVerbose(true); v8::Local value = obj->Get(GetV8String(key)); if (!HasCaught(try_catch) && !value.IsEmpty()) return new CefV8ValueImpl(value); return NULL; } CefRefPtr CefV8ValueImpl::GetValue(int index) { CEF_REQUIRE_RT_RETURN(NULL); CEF_V8_REQUIRE_OBJECT_RETURN(NULL); if (index < 0) { NOTREACHED() << "invalid input parameter"; return NULL; } v8::HandleScope handle_scope; v8::Local obj = GetHandle(false)->ToObject(); v8::TryCatch try_catch; try_catch.SetVerbose(true); v8::Local value = obj->Get(v8::Number::New(index)); if (!HasCaught(try_catch) && !value.IsEmpty()) return new CefV8ValueImpl(value); return NULL; } bool CefV8ValueImpl::SetValue(const CefString& key, CefRefPtr value, PropertyAttribute attribute) { CEF_REQUIRE_RT_RETURN(false); CEF_V8_REQUIRE_OBJECT_RETURN(false); CefV8ValueImpl* impl = static_cast(value.get()); if (impl) { v8::HandleScope handle_scope; v8::Local obj = GetHandle(false)->ToObject(); v8::TryCatch try_catch; try_catch.SetVerbose(true); bool set = obj->Set(GetV8String(key), impl->GetHandle(true), static_cast(attribute)); return (!HasCaught(try_catch) && set); } else { NOTREACHED() << "invalid input parameter"; return false; } } bool CefV8ValueImpl::SetValue(int index, CefRefPtr value) { CEF_REQUIRE_RT_RETURN(false); CEF_V8_REQUIRE_OBJECT_RETURN(false); if (index < 0) { NOTREACHED() << "invalid input parameter"; return false; } CefV8ValueImpl* impl = static_cast(value.get()); if (impl) { v8::HandleScope handle_scope; v8::Local obj = GetHandle(false)->ToObject(); v8::TryCatch try_catch; try_catch.SetVerbose(true); bool set = obj->Set(index, impl->GetHandle(true)); return (!HasCaught(try_catch) && set); } else { NOTREACHED() << "invalid input parameter"; return false; } } bool CefV8ValueImpl::SetValue(const CefString& key, AccessControl settings, PropertyAttribute attribute) { CEF_REQUIRE_RT_RETURN(false); CEF_V8_REQUIRE_OBJECT_RETURN(false); v8::HandleScope handle_scope; v8::Local obj = GetHandle(false)->ToObject(); CefRefPtr accessorPtr; V8TrackObject* tracker = V8TrackObject::Unwrap(obj); if (tracker) accessorPtr = tracker->GetAccessor(); // Verify that an accessor exists for this object. if (!accessorPtr.get()) return false; v8::AccessorGetter getter = AccessorGetterCallbackImpl; v8::AccessorSetter setter = (attribute & V8_PROPERTY_ATTRIBUTE_READONLY) ? NULL : AccessorSetterCallbackImpl; v8::TryCatch try_catch; try_catch.SetVerbose(true); bool set = obj->SetAccessor(GetV8String(key), getter, setter, obj, static_cast(settings), static_cast(attribute)); return (!HasCaught(try_catch) && set); } bool CefV8ValueImpl::GetKeys(std::vector& keys) { CEF_REQUIRE_RT_RETURN(false); CEF_V8_REQUIRE_OBJECT_RETURN(false); v8::HandleScope handle_scope; v8::Local obj = GetHandle(false)->ToObject(); v8::Local arr_keys = obj->GetPropertyNames(); uint32_t len = arr_keys->Length(); for (uint32_t i = 0; i < len; ++i) { v8::Local value = arr_keys->Get(v8::Integer::New(i)); CefString str; GetCefString(value->ToString(), str); keys.push_back(str); } return true; } bool CefV8ValueImpl::SetUserData(CefRefPtr user_data) { CEF_REQUIRE_RT_RETURN(false); CEF_V8_REQUIRE_OBJECT_RETURN(false); v8::HandleScope handle_scope; v8::Local obj = GetHandle(false)->ToObject(); V8TrackObject* tracker = V8TrackObject::Unwrap(obj); if (tracker) { tracker->SetUserData(user_data); return true; } return false; } CefRefPtr CefV8ValueImpl::GetUserData() { CEF_REQUIRE_RT_RETURN(NULL); CEF_V8_REQUIRE_OBJECT_RETURN(NULL); v8::HandleScope handle_scope; v8::Local obj = GetHandle(false)->ToObject(); V8TrackObject* tracker = V8TrackObject::Unwrap(obj); if (tracker) return tracker->GetUserData(); return NULL; } int CefV8ValueImpl::GetExternallyAllocatedMemory() { CEF_REQUIRE_RT_RETURN(0); CEF_V8_REQUIRE_OBJECT_RETURN(0); v8::HandleScope handle_scope; v8::Local obj = GetHandle(false)->ToObject(); V8TrackObject* tracker = V8TrackObject::Unwrap(obj); if (tracker) return tracker->GetExternallyAllocatedMemory(); return 0; } int CefV8ValueImpl::AdjustExternallyAllocatedMemory(int change_in_bytes) { CEF_REQUIRE_RT_RETURN(0); CEF_V8_REQUIRE_OBJECT_RETURN(0); v8::HandleScope handle_scope; v8::Local obj = GetHandle(false)->ToObject(); V8TrackObject* tracker = V8TrackObject::Unwrap(obj); if (tracker) return tracker->AdjustExternallyAllocatedMemory(change_in_bytes); return 0; } int CefV8ValueImpl::GetArrayLength() { CEF_REQUIRE_RT_RETURN(0); CEF_V8_REQUIRE_ARRAY_RETURN(0); v8::HandleScope handle_scope; v8::Local obj = GetHandle(false)->ToObject(); v8::Local arr = v8::Local::Cast(obj); return arr->Length(); } CefString CefV8ValueImpl::GetFunctionName() { CefString rv; CEF_REQUIRE_RT_RETURN(rv); CEF_V8_REQUIRE_FUNCTION_RETURN(rv); v8::HandleScope handle_scope; v8::Local obj = GetHandle(false)->ToObject(); v8::Local func = v8::Local::Cast(obj); GetCefString(v8::Handle::Cast(func->GetName()), rv); return rv; } CefRefPtr CefV8ValueImpl::GetFunctionHandler() { CEF_REQUIRE_RT_RETURN(NULL); CEF_V8_REQUIRE_FUNCTION_RETURN(NULL); v8::HandleScope handle_scope; v8::Local obj = GetHandle(false)->ToObject(); V8TrackObject* tracker = V8TrackObject::Unwrap(obj); if (tracker) return tracker->GetHandler(); return NULL; } CefRefPtr CefV8ValueImpl::ExecuteFunction( CefRefPtr object, const CefV8ValueList& arguments) { // An empty context value defaults to the current context. CefRefPtr context; return ExecuteFunctionWithContext(context, object, arguments); } CefRefPtr CefV8ValueImpl::ExecuteFunctionWithContext( CefRefPtr context, CefRefPtr object, const CefV8ValueList& arguments) { CEF_REQUIRE_RT_RETURN(NULL); CEF_V8_REQUIRE_FUNCTION_RETURN(NULL); v8::HandleScope handle_scope; v8::Local context_local; if (context.get()) { CefV8ContextImpl* context_impl = static_cast(context.get()); context_local = context_impl->GetContext(); } else { context_local = v8::Context::GetCurrent(); } v8::Context::Scope context_scope(context_local); v8::Local obj = GetHandle(false)->ToObject(); v8::Local func = v8::Local::Cast(obj); v8::Handle recv; // Default to the global object if no object or a non-object was provided. if (object.get() && object->IsObject()) { CefV8ValueImpl* recv_impl = static_cast(object.get()); recv = v8::Handle::Cast(recv_impl->GetHandle(true)); } else { recv = context_local->Global(); } int argc = arguments.size(); v8::Handle *argv = NULL; if (argc > 0) { argv = new v8::Handle[argc]; for (int i = 0; i < argc; ++i) { argv[i] = static_cast(arguments[i].get())->GetHandle(true); } } CefRefPtr retval; { v8::TryCatch try_catch; try_catch.SetVerbose(true); v8::Local func_rv; // Execute the function call using the ScriptController so that inspector // instrumentation works. RefPtr frame = WebCore::toFrameIfNotDetached(context_local); DCHECK(frame); if (frame && frame->script()->canExecuteScripts(WebCore::AboutToExecuteScript)) { func_rv = frame->script()->callFunction(func, recv, argc, argv); } if (!HasCaught(try_catch) && !func_rv.IsEmpty()) retval = new CefV8ValueImpl(func_rv); } if (argv) delete [] argv; return retval; } bool CefV8ValueImpl::HasCaught(v8::TryCatch& try_catch) { if (try_catch.HasCaught()) { last_exception_ = new CefV8ExceptionImpl(try_catch.Message()); if (rethrow_exceptions_) try_catch.ReThrow(); return true; } else { if (last_exception_.get()) last_exception_ = NULL; return false; } } // CefV8StackTrace // static CefRefPtr CefV8StackTrace::GetCurrent(int frame_limit) { CEF_REQUIRE_RT_RETURN(NULL); v8::HandleScope handle_scope; v8::Handle stackTrace = v8::StackTrace::CurrentStackTrace( frame_limit, v8::StackTrace::kDetailed); if (stackTrace.IsEmpty()) return NULL; return new CefV8StackTraceImpl(stackTrace); } // CefV8StackTraceImpl CefV8StackTraceImpl::CefV8StackTraceImpl(v8::Handle handle) : handle_(new Handle(v8::Handle(), handle)) { } CefV8StackTraceImpl::~CefV8StackTraceImpl() { } bool CefV8StackTraceImpl::IsValid() { CEF_REQUIRE_RT_RETURN(false); return handle_->IsValid(); } int CefV8StackTraceImpl::GetFrameCount() { CEF_REQUIRE_RT_RETURN(0); CEF_V8_REQUIRE_VALID_RETURN(0); v8::HandleScope handle_scope; return GetHandle()->GetFrameCount(); } CefRefPtr CefV8StackTraceImpl::GetFrame(int index) { CEF_REQUIRE_RT_RETURN(NULL); CEF_V8_REQUIRE_VALID_RETURN(NULL); v8::HandleScope handle_scope; v8::Handle stackFrame = GetHandle()->GetFrame(index); if (stackFrame.IsEmpty()) return NULL; return new CefV8StackFrameImpl(stackFrame); } // CefV8StackFrameImpl CefV8StackFrameImpl::CefV8StackFrameImpl(v8::Handle handle) : handle_(new Handle(v8::Handle(), handle)) { } CefV8StackFrameImpl::~CefV8StackFrameImpl() { } bool CefV8StackFrameImpl::IsValid() { CEF_REQUIRE_RT_RETURN(false); return handle_->IsValid(); } CefString CefV8StackFrameImpl::GetScriptName() { CefString rv; CEF_REQUIRE_RT_RETURN(rv); CEF_V8_REQUIRE_VALID_RETURN(rv); v8::HandleScope handle_scope; GetCefString(v8::Handle::Cast(GetHandle()->GetScriptName()), rv); return rv; } CefString CefV8StackFrameImpl::GetScriptNameOrSourceURL() { CefString rv; CEF_REQUIRE_RT_RETURN(rv); CEF_V8_REQUIRE_VALID_RETURN(rv); v8::HandleScope handle_scope; GetCefString( v8::Handle::Cast(GetHandle()->GetScriptNameOrSourceURL()), rv); return rv; } CefString CefV8StackFrameImpl::GetFunctionName() { CefString rv; CEF_REQUIRE_RT_RETURN(rv); CEF_V8_REQUIRE_VALID_RETURN(rv); v8::HandleScope handle_scope; GetCefString( v8::Handle::Cast(GetHandle()->GetFunctionName()), rv); return rv; } int CefV8StackFrameImpl::GetLineNumber() { CEF_REQUIRE_RT_RETURN(0); CEF_V8_REQUIRE_VALID_RETURN(0); v8::HandleScope handle_scope; return GetHandle()->GetLineNumber(); } int CefV8StackFrameImpl::GetColumn() { CEF_REQUIRE_RT_RETURN(0); CEF_V8_REQUIRE_VALID_RETURN(0); v8::HandleScope handle_scope; return GetHandle()->GetColumn(); } bool CefV8StackFrameImpl::IsEval() { CEF_REQUIRE_RT_RETURN(false); CEF_V8_REQUIRE_VALID_RETURN(false); v8::HandleScope handle_scope; return GetHandle()->IsEval(); } bool CefV8StackFrameImpl::IsConstructor() { CEF_REQUIRE_RT_RETURN(false); CEF_V8_REQUIRE_VALID_RETURN(false); v8::HandleScope handle_scope; return GetHandle()->IsConstructor(); } void CefV8MessageHandler(v8::Handle message, v8::Handle data) { CEF_REQUIRE_RT_RETURN(void()); CefRefPtr context = CefV8Context::GetCurrentContext(); CefRefPtr browser = context->GetBrowser(); CefRefPtr frame = context->GetFrame(); v8::Handle v8Stack = message->GetStackTrace(); DCHECK(!v8Stack.IsEmpty()); CefRefPtr stackTrace = new CefV8StackTraceImpl(v8Stack); CefRefPtr application = CefContentClient::Get()->application(); if (!application.get()) return; CefRefPtr handler = application->GetRenderProcessHandler(); if (!handler.get()) return; CefRefPtr exception = new CefV8ExceptionImpl(message); handler->OnUncaughtException(browser, frame, context, exception, stackTrace); }