/* * Copyright (c) 2010-2011 Google 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: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 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. * * Neither the name of Google Inc. nor the names of its * contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "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 THE COPYRIGHT * OWNER 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 "src/inspector/v8-inspector-impl.h" #include #include "src/base/platform/mutex.h" #include "src/inspector/inspected-context.h" #include "src/inspector/string-util.h" #include "src/inspector/v8-console-agent-impl.h" #include "src/inspector/v8-console-message.h" #include "src/inspector/v8-console.h" #include "src/inspector/v8-debugger-agent-impl.h" #include "src/inspector/v8-debugger.h" #include "src/inspector/v8-inspector-session-impl.h" #include "src/inspector/v8-profiler-agent-impl.h" #include "src/inspector/v8-runtime-agent-impl.h" #include "src/inspector/v8-stack-trace-impl.h" #include "include/v8-platform.h" namespace v8_inspector { std::unique_ptr V8Inspector::create(v8::Isolate* isolate, V8InspectorClient* client) { return std::unique_ptr(new V8InspectorImpl(isolate, client)); } V8InspectorImpl::V8InspectorImpl(v8::Isolate* isolate, V8InspectorClient* client) : m_isolate(isolate), m_client(client), m_debugger(new V8Debugger(isolate, this)), m_capturingStackTracesCount(0), m_lastExceptionId(0), m_lastContextId(0), m_isolateId(v8::debug::GetNextRandomInt64(m_isolate)) { v8::debug::SetInspector(m_isolate, this); v8::debug::SetConsoleDelegate(m_isolate, console()); } V8InspectorImpl::~V8InspectorImpl() { v8::debug::SetInspector(m_isolate, nullptr); v8::debug::SetConsoleDelegate(m_isolate, nullptr); } int V8InspectorImpl::contextGroupId(v8::Local context) const { return contextGroupId(InspectedContext::contextId(context)); } int V8InspectorImpl::contextGroupId(int contextId) const { auto it = m_contextIdToGroupIdMap.find(contextId); return it != m_contextIdToGroupIdMap.end() ? it->second : 0; } v8::MaybeLocal V8InspectorImpl::compileAndRunInternalScript( v8::Local context, v8::Local source) { v8::Local unboundScript; if (!v8::debug::CompileInspectorScript(m_isolate, source) .ToLocal(&unboundScript)) return v8::MaybeLocal(); v8::MicrotasksScope microtasksScope(m_isolate, v8::MicrotasksScope::kDoNotRunMicrotasks); v8::Context::Scope contextScope(context); v8::Isolate::SafeForTerminationScope allowTermination(m_isolate); return unboundScript->BindToCurrentContext()->Run(context); } v8::MaybeLocal V8InspectorImpl::compileScript( v8::Local context, const String16& code, const String16& fileName) { v8::ScriptOrigin origin( toV8String(m_isolate, fileName), v8::Integer::New(m_isolate, 0), v8::Integer::New(m_isolate, 0), v8::False(m_isolate), // sharable v8::Local(), toV8String(m_isolate, String16()), // sourceMap v8::True(m_isolate)); // opaqueresource v8::ScriptCompiler::Source source(toV8String(m_isolate, code), origin); return v8::ScriptCompiler::Compile(context, &source, v8::ScriptCompiler::kNoCompileOptions); } void V8InspectorImpl::enableStackCapturingIfNeeded() { if (!m_capturingStackTracesCount) V8StackTraceImpl::setCaptureStackTraceForUncaughtExceptions(m_isolate, true); ++m_capturingStackTracesCount; } void V8InspectorImpl::disableStackCapturingIfNeeded() { if (!(--m_capturingStackTracesCount)) V8StackTraceImpl::setCaptureStackTraceForUncaughtExceptions(m_isolate, false); } void V8InspectorImpl::muteExceptions(int contextGroupId) { m_muteExceptionsMap[contextGroupId]++; } void V8InspectorImpl::unmuteExceptions(int contextGroupId) { m_muteExceptionsMap[contextGroupId]--; } V8ConsoleMessageStorage* V8InspectorImpl::ensureConsoleMessageStorage( int contextGroupId) { ConsoleStorageMap::iterator storageIt = m_consoleStorageMap.find(contextGroupId); if (storageIt == m_consoleStorageMap.end()) storageIt = m_consoleStorageMap .insert(std::make_pair( contextGroupId, std::unique_ptr( new V8ConsoleMessageStorage(this, contextGroupId)))) .first; return storageIt->second.get(); } bool V8InspectorImpl::hasConsoleMessageStorage(int contextGroupId) { ConsoleStorageMap::iterator storageIt = m_consoleStorageMap.find(contextGroupId); return storageIt != m_consoleStorageMap.end(); } std::unique_ptr V8InspectorImpl::createStackTrace( v8::Local stackTrace) { return m_debugger->createStackTrace(stackTrace); } std::unique_ptr V8InspectorImpl::connect( int contextGroupId, V8Inspector::Channel* channel, const StringView& state) { int sessionId = ++m_lastSessionId; std::unique_ptr session = V8InspectorSessionImpl::create(this, contextGroupId, sessionId, channel, state); m_sessions[contextGroupId][sessionId] = session.get(); return std::move(session); } void V8InspectorImpl::disconnect(V8InspectorSessionImpl* session) { auto& map = m_sessions[session->contextGroupId()]; map.erase(session->sessionId()); if (map.empty()) m_sessions.erase(session->contextGroupId()); } InspectedContext* V8InspectorImpl::getContext(int groupId, int contextId) const { if (!groupId || !contextId) return nullptr; ContextsByGroupMap::const_iterator contextGroupIt = m_contexts.find(groupId); if (contextGroupIt == m_contexts.end()) return nullptr; ContextByIdMap::iterator contextIt = contextGroupIt->second->find(contextId); if (contextIt == contextGroupIt->second->end()) return nullptr; return contextIt->second.get(); } InspectedContext* V8InspectorImpl::getContext(int contextId) const { return getContext(contextGroupId(contextId), contextId); } v8::MaybeLocal V8InspectorImpl::contextById( int groupId, v8::Maybe contextId) { if (contextId.IsNothing()) { v8::Local context = client()->ensureDefaultContextInGroup(groupId); return context.IsEmpty() ? v8::MaybeLocal() : context; } InspectedContext* context = getContext(contextId.FromJust()); return context ? context->context() : v8::MaybeLocal(); } void V8InspectorImpl::contextCreated(const V8ContextInfo& info) { int contextId = ++m_lastContextId; InspectedContext* context = new InspectedContext(this, info, contextId); m_contextIdToGroupIdMap[contextId] = info.contextGroupId; ContextsByGroupMap::iterator contextIt = m_contexts.find(info.contextGroupId); if (contextIt == m_contexts.end()) contextIt = m_contexts .insert(std::make_pair( info.contextGroupId, std::unique_ptr(new ContextByIdMap()))) .first; const auto& contextById = contextIt->second; DCHECK(contextById->find(contextId) == contextById->cend()); (*contextById)[contextId].reset(context); forEachSession( info.contextGroupId, [&context](V8InspectorSessionImpl* session) { session->runtimeAgent()->addBindings(context); session->runtimeAgent()->reportExecutionContextCreated(context); }); } void V8InspectorImpl::contextDestroyed(v8::Local context) { int contextId = InspectedContext::contextId(context); int groupId = contextGroupId(context); contextCollected(groupId, contextId); } void V8InspectorImpl::contextCollected(int groupId, int contextId) { m_contextIdToGroupIdMap.erase(contextId); ConsoleStorageMap::iterator storageIt = m_consoleStorageMap.find(groupId); if (storageIt != m_consoleStorageMap.end()) storageIt->second->contextDestroyed(contextId); InspectedContext* inspectedContext = getContext(groupId, contextId); if (!inspectedContext) return; forEachSession(groupId, [&inspectedContext](V8InspectorSessionImpl* session) { session->runtimeAgent()->reportExecutionContextDestroyed(inspectedContext); }); discardInspectedContext(groupId, contextId); } void V8InspectorImpl::resetContextGroup(int contextGroupId) { m_consoleStorageMap.erase(contextGroupId); m_muteExceptionsMap.erase(contextGroupId); forEachSession(contextGroupId, [](V8InspectorSessionImpl* session) { session->reset(); }); m_contexts.erase(contextGroupId); m_debugger->wasmTranslation()->Clear(); } void V8InspectorImpl::idleStarted() { m_isolate->SetIdle(true); } void V8InspectorImpl::idleFinished() { m_isolate->SetIdle(false); } unsigned V8InspectorImpl::exceptionThrown( v8::Local context, const StringView& message, v8::Local exception, const StringView& detailedMessage, const StringView& url, unsigned lineNumber, unsigned columnNumber, std::unique_ptr stackTrace, int scriptId) { int groupId = contextGroupId(context); if (!groupId || m_muteExceptionsMap[groupId]) return 0; std::unique_ptr stackTraceImpl( static_cast(stackTrace.release())); unsigned exceptionId = nextExceptionId(); std::unique_ptr consoleMessage = V8ConsoleMessage::createForException( m_client->currentTimeMS(), toString16(detailedMessage), toString16(url), lineNumber, columnNumber, std::move(stackTraceImpl), scriptId, m_isolate, toString16(message), InspectedContext::contextId(context), exception, exceptionId); ensureConsoleMessageStorage(groupId)->addMessage(std::move(consoleMessage)); return exceptionId; } void V8InspectorImpl::exceptionRevoked(v8::Local context, unsigned exceptionId, const StringView& message) { int groupId = contextGroupId(context); if (!groupId) return; std::unique_ptr consoleMessage = V8ConsoleMessage::createForRevokedException( m_client->currentTimeMS(), toString16(message), exceptionId); ensureConsoleMessageStorage(groupId)->addMessage(std::move(consoleMessage)); } std::unique_ptr V8InspectorImpl::captureStackTrace( bool fullStack) { return m_debugger->captureStackTrace(fullStack); } V8StackTraceId V8InspectorImpl::storeCurrentStackTrace( const StringView& description) { return m_debugger->storeCurrentStackTrace(description); } void V8InspectorImpl::externalAsyncTaskStarted(const V8StackTraceId& parent) { m_debugger->externalAsyncTaskStarted(parent); } void V8InspectorImpl::externalAsyncTaskFinished(const V8StackTraceId& parent) { m_debugger->externalAsyncTaskFinished(parent); } void V8InspectorImpl::asyncTaskScheduled(const StringView& taskName, void* task, bool recurring) { if (!task) return; m_debugger->asyncTaskScheduled(taskName, task, recurring); } void V8InspectorImpl::asyncTaskCanceled(void* task) { if (!task) return; m_debugger->asyncTaskCanceled(task); } void V8InspectorImpl::asyncTaskStarted(void* task) { if (!task) return; m_debugger->asyncTaskStarted(task); } void V8InspectorImpl::asyncTaskFinished(void* task) { if (!task) return; m_debugger->asyncTaskFinished(task); } void V8InspectorImpl::allAsyncTasksCanceled() { m_debugger->allAsyncTasksCanceled(); } v8::Local V8InspectorImpl::regexContext() { if (m_regexContext.IsEmpty()) m_regexContext.Reset(m_isolate, v8::Context::New(m_isolate)); return m_regexContext.Get(m_isolate); } void V8InspectorImpl::discardInspectedContext(int contextGroupId, int contextId) { if (!getContext(contextGroupId, contextId)) return; m_contexts[contextGroupId]->erase(contextId); if (m_contexts[contextGroupId]->empty()) m_contexts.erase(contextGroupId); } V8InspectorSessionImpl* V8InspectorImpl::sessionById(int contextGroupId, int sessionId) { auto it = m_sessions.find(contextGroupId); if (it == m_sessions.end()) return nullptr; auto it2 = it->second.find(sessionId); return it2 == it->second.end() ? nullptr : it2->second; } V8Console* V8InspectorImpl::console() { if (!m_console) m_console.reset(new V8Console(this)); return m_console.get(); } void V8InspectorImpl::forEachContext( int contextGroupId, std::function callback) { auto it = m_contexts.find(contextGroupId); if (it == m_contexts.end()) return; std::vector ids; ids.reserve(it->second->size()); for (auto& contextIt : *(it->second)) ids.push_back(contextIt.first); // Retrieve by ids each time since |callback| may destroy some contexts. for (auto& contextId : ids) { it = m_contexts.find(contextGroupId); if (it == m_contexts.end()) continue; auto contextIt = it->second->find(contextId); if (contextIt != it->second->end()) callback(contextIt->second.get()); } } void V8InspectorImpl::forEachSession( int contextGroupId, std::function callback) { auto it = m_sessions.find(contextGroupId); if (it == m_sessions.end()) return; std::vector ids; ids.reserve(it->second.size()); for (auto& sessionIt : it->second) ids.push_back(sessionIt.first); // Retrieve by ids each time since |callback| may destroy some contexts. for (auto& sessionId : ids) { it = m_sessions.find(contextGroupId); if (it == m_sessions.end()) continue; auto sessionIt = it->second.find(sessionId); if (sessionIt != it->second.end()) callback(sessionIt->second); } } V8InspectorImpl::EvaluateScope::EvaluateScope(v8::Isolate* isolate) : m_isolate(isolate), m_safeForTerminationScope(isolate) {} struct V8InspectorImpl::EvaluateScope::CancelToken { v8::base::Mutex m_mutex; bool m_canceled = false; }; V8InspectorImpl::EvaluateScope::~EvaluateScope() { if (m_cancelToken) { v8::base::LockGuard lock(&m_cancelToken->m_mutex); m_cancelToken->m_canceled = true; m_isolate->CancelTerminateExecution(); } } class V8InspectorImpl::EvaluateScope::TerminateTask : public v8::Task { public: TerminateTask(v8::Isolate* isolate, std::shared_ptr token) : m_isolate(isolate), m_token(token) {} void Run() { // CancelToken contains m_canceled bool which may be changed from main // thread, so lock mutex first. v8::base::LockGuard lock(&m_token->m_mutex); if (m_token->m_canceled) return; m_isolate->TerminateExecution(); } private: v8::Isolate* m_isolate; std::shared_ptr m_token; }; protocol::Response V8InspectorImpl::EvaluateScope::setTimeout(double timeout) { if (m_isolate->IsExecutionTerminating()) { return protocol::Response::Error("Execution was terminated"); } m_cancelToken.reset(new CancelToken()); v8::debug::GetCurrentPlatform()->CallDelayedOnWorkerThread( v8::base::make_unique(m_isolate, m_cancelToken), timeout); return protocol::Response::OK(); } } // namespace v8_inspector