// Copyright 2016 the V8 project 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 "src/inspector/v8-debugger.h" #include "src/inspector/inspected-context.h" #include "src/inspector/protocol/Protocol.h" #include "src/inspector/string-util.h" #include "src/inspector/v8-debugger-agent-impl.h" #include "src/inspector/v8-inspector-impl.h" #include "src/inspector/v8-inspector-session-impl.h" #include "src/inspector/v8-runtime-agent-impl.h" #include "src/inspector/v8-stack-trace-impl.h" #include "src/inspector/v8-value-utils.h" #include "include/v8-util.h" namespace v8_inspector { namespace { static const int kMaxAsyncTaskStacks = 128 * 1024; static const int kNoBreakpointId = 0; template void cleanupExpiredWeakPointers(Map& map) { // NOLINT(runtime/references) for (auto it = map.begin(); it != map.end();) { if (it->second.expired()) { it = map.erase(it); } else { ++it; } } } class MatchPrototypePredicate : public v8::debug::QueryObjectPredicate { public: MatchPrototypePredicate(V8InspectorImpl* inspector, v8::Local context, v8::Local prototype) : m_inspector(inspector), m_context(context), m_prototype(prototype) {} bool Filter(v8::Local object) override { if (object->IsModuleNamespaceObject()) return false; v8::Local objectContext = v8::debug::GetCreationContext(object); if (objectContext != m_context) return false; if (!m_inspector->client()->isInspectableHeapObject(object)) return false; // Get prototype chain for current object until first visited prototype. for (v8::Local prototype = object->GetPrototype(); prototype->IsObject(); prototype = prototype.As()->GetPrototype()) { if (m_prototype == prototype) return true; } return false; } private: V8InspectorImpl* m_inspector; v8::Local m_context; v8::Local m_prototype; }; } // namespace V8DebuggerId::V8DebuggerId(std::pair pair) : m_first(pair.first), m_second(pair.second) {} // static V8DebuggerId V8DebuggerId::generate(v8::Isolate* isolate) { V8DebuggerId debuggerId; debuggerId.m_first = v8::debug::GetNextRandomInt64(isolate); debuggerId.m_second = v8::debug::GetNextRandomInt64(isolate); if (!debuggerId.m_first && !debuggerId.m_second) ++debuggerId.m_first; return debuggerId; } V8DebuggerId::V8DebuggerId(const String16& debuggerId) { const UChar dot = '.'; size_t pos = debuggerId.find(dot); if (pos == String16::kNotFound) return; bool ok = false; int64_t first = debuggerId.substring(0, pos).toInteger64(&ok); if (!ok) return; int64_t second = debuggerId.substring(pos + 1).toInteger64(&ok); if (!ok) return; m_first = first; m_second = second; } String16 V8DebuggerId::toString() const { return String16::fromInteger64(m_first) + "." + String16::fromInteger64(m_second); } bool V8DebuggerId::isValid() const { return m_first || m_second; } std::pair V8DebuggerId::pair() const { return std::make_pair(m_first, m_second); } V8Debugger::V8Debugger(v8::Isolate* isolate, V8InspectorImpl* inspector) : m_isolate(isolate), m_inspector(inspector), m_enableCount(0), m_ignoreScriptParsedEventsCounter(0), m_continueToLocationBreakpointId(kNoBreakpointId), m_maxAsyncCallStacks(kMaxAsyncTaskStacks), m_maxAsyncCallStackDepth(0), m_pauseOnExceptionsState(v8::debug::NoBreakOnException) {} V8Debugger::~V8Debugger() { m_isolate->RemoveCallCompletedCallback( &V8Debugger::terminateExecutionCompletedCallback); m_isolate->RemoveMicrotasksCompletedCallback( &V8Debugger::terminateExecutionCompletedCallbackIgnoringData); } void V8Debugger::enable() { if (m_enableCount++) return; v8::HandleScope scope(m_isolate); v8::debug::SetDebugDelegate(m_isolate, this); m_isolate->AddNearHeapLimitCallback(&V8Debugger::nearHeapLimitCallback, this); v8::debug::ChangeBreakOnException(m_isolate, v8::debug::NoBreakOnException); m_pauseOnExceptionsState = v8::debug::NoBreakOnException; v8::debug::TierDownAllModulesPerIsolate(m_isolate); } void V8Debugger::disable() { if (isPaused()) { bool scheduledOOMBreak = m_scheduledOOMBreak; bool hasAgentAcceptsPause = false; m_inspector->forEachSession( m_pausedContextGroupId, [&scheduledOOMBreak, &hasAgentAcceptsPause]( V8InspectorSessionImpl* session) { if (session->debuggerAgent()->acceptsPause(scheduledOOMBreak)) { hasAgentAcceptsPause = true; } }); if (!hasAgentAcceptsPause) m_inspector->client()->quitMessageLoopOnPause(); } if (--m_enableCount) return; clearContinueToLocation(); m_taskWithScheduledBreak = nullptr; m_externalAsyncTaskPauseRequested = false; m_taskWithScheduledBreakPauseRequested = false; m_pauseOnNextCallRequested = false; m_pauseOnAsyncCall = false; v8::debug::TierUpAllModulesPerIsolate(m_isolate); v8::debug::SetDebugDelegate(m_isolate, nullptr); m_isolate->RemoveNearHeapLimitCallback(&V8Debugger::nearHeapLimitCallback, m_originalHeapLimit); m_originalHeapLimit = 0; } bool V8Debugger::isPausedInContextGroup(int contextGroupId) const { return isPaused() && m_pausedContextGroupId == contextGroupId; } bool V8Debugger::enabled() const { return m_enableCount > 0; } std::vector> V8Debugger::getCompiledScripts( int contextGroupId, V8DebuggerAgentImpl* agent) { std::vector> result; v8::HandleScope scope(m_isolate); v8::PersistentValueVector scripts(m_isolate); v8::debug::GetLoadedScripts(m_isolate, scripts); for (size_t i = 0; i < scripts.Size(); ++i) { v8::Local script = scripts.Get(i); if (!script->WasCompiled()) continue; if (!script->IsEmbedded()) { int contextId; if (!script->ContextId().To(&contextId)) continue; if (m_inspector->contextGroupId(contextId) != contextGroupId) continue; } result.push_back(V8DebuggerScript::Create(m_isolate, script, false, agent, m_inspector->client())); } return result; } void V8Debugger::setBreakpointsActive(bool active) { if (!enabled()) { UNREACHABLE(); return; } m_breakpointsActiveCount += active ? 1 : -1; v8::debug::SetBreakPointsActive(m_isolate, m_breakpointsActiveCount); } v8::debug::ExceptionBreakState V8Debugger::getPauseOnExceptionsState() { DCHECK(enabled()); return m_pauseOnExceptionsState; } void V8Debugger::setPauseOnExceptionsState( v8::debug::ExceptionBreakState pauseOnExceptionsState) { DCHECK(enabled()); if (m_pauseOnExceptionsState == pauseOnExceptionsState) return; v8::debug::ChangeBreakOnException(m_isolate, pauseOnExceptionsState); m_pauseOnExceptionsState = pauseOnExceptionsState; } void V8Debugger::setPauseOnNextCall(bool pause, int targetContextGroupId) { if (isPaused()) return; DCHECK(targetContextGroupId); if (!pause && m_targetContextGroupId && m_targetContextGroupId != targetContextGroupId) { return; } if (pause) { bool didHaveBreak = hasScheduledBreakOnNextFunctionCall(); m_pauseOnNextCallRequested = true; if (!didHaveBreak) { m_targetContextGroupId = targetContextGroupId; v8::debug::SetBreakOnNextFunctionCall(m_isolate); } } else { m_pauseOnNextCallRequested = false; if (!hasScheduledBreakOnNextFunctionCall()) { v8::debug::ClearBreakOnNextFunctionCall(m_isolate); } } } bool V8Debugger::canBreakProgram() { return !v8::debug::AllFramesOnStackAreBlackboxed(m_isolate); } void V8Debugger::breakProgram(int targetContextGroupId) { DCHECK(canBreakProgram()); // Don't allow nested breaks. if (isPaused()) return; DCHECK(targetContextGroupId); m_targetContextGroupId = targetContextGroupId; v8::debug::BreakRightNow(m_isolate); } void V8Debugger::interruptAndBreak(int targetContextGroupId) { // Don't allow nested breaks. if (isPaused()) return; DCHECK(targetContextGroupId); m_targetContextGroupId = targetContextGroupId; m_isolate->RequestInterrupt( [](v8::Isolate* isolate, void*) { v8::debug::BreakRightNow(isolate); }, nullptr); } void V8Debugger::continueProgram(int targetContextGroupId, bool terminateOnResume) { if (m_pausedContextGroupId != targetContextGroupId) return; if (isPaused()) { if (terminateOnResume) { v8::debug::SetTerminateOnResume(m_isolate); } m_inspector->client()->quitMessageLoopOnPause(); } } void V8Debugger::breakProgramOnAssert(int targetContextGroupId) { if (!enabled()) return; if (m_pauseOnExceptionsState == v8::debug::NoBreakOnException) return; // Don't allow nested breaks. if (isPaused()) return; if (!canBreakProgram()) return; DCHECK(targetContextGroupId); m_targetContextGroupId = targetContextGroupId; m_scheduledAssertBreak = true; v8::debug::BreakRightNow(m_isolate); } void V8Debugger::stepIntoStatement(int targetContextGroupId, bool breakOnAsyncCall) { DCHECK(isPaused()); DCHECK(targetContextGroupId); if (asyncStepOutOfFunction(targetContextGroupId, true)) return; m_targetContextGroupId = targetContextGroupId; m_pauseOnAsyncCall = breakOnAsyncCall; v8::debug::PrepareStep(m_isolate, v8::debug::StepIn); continueProgram(targetContextGroupId); } void V8Debugger::stepOverStatement(int targetContextGroupId) { DCHECK(isPaused()); DCHECK(targetContextGroupId); if (asyncStepOutOfFunction(targetContextGroupId, true)) return; m_targetContextGroupId = targetContextGroupId; v8::debug::PrepareStep(m_isolate, v8::debug::StepNext); continueProgram(targetContextGroupId); } void V8Debugger::stepOutOfFunction(int targetContextGroupId) { DCHECK(isPaused()); DCHECK(targetContextGroupId); if (asyncStepOutOfFunction(targetContextGroupId, false)) return; m_targetContextGroupId = targetContextGroupId; v8::debug::PrepareStep(m_isolate, v8::debug::StepOut); continueProgram(targetContextGroupId); } bool V8Debugger::asyncStepOutOfFunction(int targetContextGroupId, bool onlyAtReturn) { v8::HandleScope handleScope(m_isolate); auto iterator = v8::debug::StackTraceIterator::Create(m_isolate); // When stepping through extensions code, it is possible that the // iterator doesn't have any frames, since we exclude all frames // that correspond to extension scripts. if (iterator->Done()) return false; bool atReturn = !iterator->GetReturnValue().IsEmpty(); iterator->Advance(); // Synchronous stack has more then one frame. if (!iterator->Done()) return false; // There is only one synchronous frame but we are not at return position and // user requests stepOver or stepInto. if (onlyAtReturn && !atReturn) return false; // If we are inside async function, current async parent was captured when // async function was suspended first time and we install that stack as // current before resume async function. So it represents current async // function. auto current = currentAsyncParent(); if (!current) return false; // Lookup for parent async function. auto parent = current->parent(); if (parent.expired()) return false; // Parent async stack will have suspended task id iff callee async function // is awaiting current async function. We can make stepOut there only in this // case. void* parentTask = std::shared_ptr(parent)->suspendedTaskId(); if (!parentTask) return false; m_targetContextGroupId = targetContextGroupId; m_taskWithScheduledBreak = parentTask; continueProgram(targetContextGroupId); return true; } void V8Debugger::terminateExecution( std::unique_ptr callback) { if (m_terminateExecutionCallback) { if (callback) { callback->sendFailure(Response::ServerError( "There is current termination request in progress")); } return; } m_terminateExecutionCallback = std::move(callback); m_isolate->AddCallCompletedCallback( &V8Debugger::terminateExecutionCompletedCallback); m_isolate->AddMicrotasksCompletedCallback( &V8Debugger::terminateExecutionCompletedCallbackIgnoringData); m_isolate->TerminateExecution(); } void V8Debugger::reportTermination() { if (!m_terminateExecutionCallback) return; m_isolate->RemoveCallCompletedCallback( &V8Debugger::terminateExecutionCompletedCallback); m_isolate->RemoveMicrotasksCompletedCallback( &V8Debugger::terminateExecutionCompletedCallbackIgnoringData); m_isolate->CancelTerminateExecution(); m_terminateExecutionCallback->sendSuccess(); m_terminateExecutionCallback.reset(); } void V8Debugger::terminateExecutionCompletedCallback(v8::Isolate* isolate) { V8InspectorImpl* inspector = static_cast(v8::debug::GetInspector(isolate)); V8Debugger* debugger = inspector->debugger(); debugger->reportTermination(); } void V8Debugger::terminateExecutionCompletedCallbackIgnoringData( v8::Isolate* isolate, void*) { terminateExecutionCompletedCallback(isolate); } Response V8Debugger::continueToLocation( int targetContextGroupId, V8DebuggerScript* script, std::unique_ptr location, const String16& targetCallFrames) { DCHECK(isPaused()); DCHECK(targetContextGroupId); m_targetContextGroupId = targetContextGroupId; v8::debug::Location v8Location(location->getLineNumber(), location->getColumnNumber(0)); if (script->setBreakpoint(String16(), &v8Location, &m_continueToLocationBreakpointId)) { m_continueToLocationTargetCallFrames = targetCallFrames; if (m_continueToLocationTargetCallFrames != protocol::Debugger::ContinueToLocation::TargetCallFramesEnum::Any) { m_continueToLocationStack = captureStackTrace(true); DCHECK(m_continueToLocationStack); } continueProgram(targetContextGroupId); // TODO(kozyatinskiy): Return actual line and column number. return Response::Success(); } else { return Response::ServerError("Cannot continue to specified location"); } } bool V8Debugger::shouldContinueToCurrentLocation() { if (m_continueToLocationTargetCallFrames == protocol::Debugger::ContinueToLocation::TargetCallFramesEnum::Any) { return true; } std::unique_ptr currentStack = captureStackTrace(true); if (m_continueToLocationTargetCallFrames == protocol::Debugger::ContinueToLocation::TargetCallFramesEnum::Current) { return m_continueToLocationStack->isEqualIgnoringTopFrame( currentStack.get()); } return true; } void V8Debugger::clearContinueToLocation() { if (m_continueToLocationBreakpointId == kNoBreakpointId) return; v8::debug::RemoveBreakpoint(m_isolate, m_continueToLocationBreakpointId); m_continueToLocationBreakpointId = kNoBreakpointId; m_continueToLocationTargetCallFrames = String16(); m_continueToLocationStack.reset(); } void V8Debugger::handleProgramBreak( v8::Local pausedContext, v8::Local exception, const std::vector& breakpointIds, v8::debug::ExceptionType exceptionType, bool isUncaught) { // Don't allow nested breaks. if (isPaused()) return; int contextGroupId = m_inspector->contextGroupId(pausedContext); if (m_targetContextGroupId && contextGroupId != m_targetContextGroupId) { v8::debug::PrepareStep(m_isolate, v8::debug::StepOut); return; } m_targetContextGroupId = 0; m_pauseOnNextCallRequested = false; m_pauseOnAsyncCall = false; m_taskWithScheduledBreak = nullptr; m_externalAsyncTaskPauseRequested = false; m_taskWithScheduledBreakPauseRequested = false; bool scheduledOOMBreak = m_scheduledOOMBreak; bool scheduledAssertBreak = m_scheduledAssertBreak; bool hasAgents = false; m_inspector->forEachSession( contextGroupId, [&scheduledOOMBreak, &hasAgents](V8InspectorSessionImpl* session) { if (session->debuggerAgent()->acceptsPause(scheduledOOMBreak)) hasAgents = true; }); if (!hasAgents) return; if (breakpointIds.size() == 1 && breakpointIds[0] == m_continueToLocationBreakpointId) { v8::Context::Scope contextScope(pausedContext); if (!shouldContinueToCurrentLocation()) return; } clearContinueToLocation(); DCHECK(contextGroupId); m_pausedContextGroupId = contextGroupId; m_inspector->forEachSession( contextGroupId, [&pausedContext, &exception, &breakpointIds, &exceptionType, &isUncaught, &scheduledOOMBreak, &scheduledAssertBreak](V8InspectorSessionImpl* session) { if (session->debuggerAgent()->acceptsPause(scheduledOOMBreak)) { session->debuggerAgent()->didPause( InspectedContext::contextId(pausedContext), exception, breakpointIds, exceptionType, isUncaught, scheduledOOMBreak, scheduledAssertBreak); } }); { v8::Context::Scope scope(pausedContext); m_inspector->client()->runMessageLoopOnPause(contextGroupId); m_pausedContextGroupId = 0; } m_inspector->forEachSession(contextGroupId, [](V8InspectorSessionImpl* session) { if (session->debuggerAgent()->enabled()) session->debuggerAgent()->didContinue(); }); if (m_scheduledOOMBreak) m_isolate->RestoreOriginalHeapLimit(); m_scheduledOOMBreak = false; m_scheduledAssertBreak = false; } namespace { size_t HeapLimitForDebugging(size_t initial_heap_limit) { const size_t kDebugHeapSizeFactor = 4; size_t max_limit = std::numeric_limits::max() / 4; return std::min(max_limit, initial_heap_limit * kDebugHeapSizeFactor); } } // anonymous namespace size_t V8Debugger::nearHeapLimitCallback(void* data, size_t current_heap_limit, size_t initial_heap_limit) { V8Debugger* thisPtr = static_cast(data); // TODO(solanes, v8:10876): Remove when bug is solved. #if DEBUG printf("nearHeapLimitCallback\n"); #endif thisPtr->m_originalHeapLimit = current_heap_limit; thisPtr->m_scheduledOOMBreak = true; v8::Local context = thisPtr->m_isolate->GetEnteredOrMicrotaskContext(); thisPtr->m_targetContextGroupId = context.IsEmpty() ? 0 : thisPtr->m_inspector->contextGroupId(context); thisPtr->m_isolate->RequestInterrupt( [](v8::Isolate* isolate, void*) { v8::debug::BreakRightNow(isolate); }, nullptr); return HeapLimitForDebugging(initial_heap_limit); } void V8Debugger::ScriptCompiled(v8::Local script, bool is_live_edited, bool has_compile_error) { if (m_ignoreScriptParsedEventsCounter != 0) return; int contextId; if (!script->ContextId().To(&contextId)) return; v8::Isolate* isolate = m_isolate; V8InspectorClient* client = m_inspector->client(); m_inspector->forEachSession( m_inspector->contextGroupId(contextId), [isolate, &script, has_compile_error, is_live_edited, client](V8InspectorSessionImpl* session) { auto agent = session->debuggerAgent(); if (!agent->enabled()) return; agent->didParseSource( V8DebuggerScript::Create(isolate, script, is_live_edited, agent, client), !has_compile_error); }); } void V8Debugger::BreakProgramRequested( v8::Local pausedContext, const std::vector& break_points_hit) { handleProgramBreak(pausedContext, v8::Local(), break_points_hit); } void V8Debugger::ExceptionThrown(v8::Local pausedContext, v8::Local exception, v8::Local promise, bool isUncaught, v8::debug::ExceptionType exceptionType) { std::vector break_points_hit; handleProgramBreak(pausedContext, exception, break_points_hit, exceptionType, isUncaught); } bool V8Debugger::IsFunctionBlackboxed(v8::Local script, const v8::debug::Location& start, const v8::debug::Location& end) { int contextId; if (!script->ContextId().To(&contextId)) return false; bool hasAgents = false; bool allBlackboxed = true; String16 scriptId = String16::fromInteger(script->Id()); m_inspector->forEachSession( m_inspector->contextGroupId(contextId), [&hasAgents, &allBlackboxed, &scriptId, &start, &end](V8InspectorSessionImpl* session) { V8DebuggerAgentImpl* agent = session->debuggerAgent(); if (!agent->enabled()) return; hasAgents = true; allBlackboxed &= agent->isFunctionBlackboxed(scriptId, start, end); }); return hasAgents && allBlackboxed; } bool V8Debugger::ShouldBeSkipped(v8::Local script, int line, int column) { int contextId; if (!script->ContextId().To(&contextId)) return false; bool hasAgents = false; bool allShouldBeSkipped = true; String16 scriptId = String16::fromInteger(script->Id()); m_inspector->forEachSession( m_inspector->contextGroupId(contextId), [&hasAgents, &allShouldBeSkipped, &scriptId, line, column](V8InspectorSessionImpl* session) { V8DebuggerAgentImpl* agent = session->debuggerAgent(); if (!agent->enabled()) return; hasAgents = true; const bool skip = agent->shouldBeSkipped(scriptId, line, column); allShouldBeSkipped &= skip; }); return hasAgents && allShouldBeSkipped; } void V8Debugger::AsyncEventOccurred(v8::debug::DebugAsyncActionType type, int id, bool isBlackboxed) { // Async task events from Promises are given misaligned pointers to prevent // from overlapping with other Blink task identifiers. void* task = reinterpret_cast(id * 2 + 1); switch (type) { case v8::debug::kDebugPromiseThen: asyncTaskScheduledForStack("Promise.then", task, false); if (!isBlackboxed) asyncTaskCandidateForStepping(task); break; case v8::debug::kDebugPromiseCatch: asyncTaskScheduledForStack("Promise.catch", task, false); if (!isBlackboxed) asyncTaskCandidateForStepping(task); break; case v8::debug::kDebugPromiseFinally: asyncTaskScheduledForStack("Promise.finally", task, false); if (!isBlackboxed) asyncTaskCandidateForStepping(task); break; case v8::debug::kDebugWillHandle: asyncTaskStartedForStack(task); asyncTaskStartedForStepping(task); break; case v8::debug::kDebugDidHandle: asyncTaskFinishedForStack(task); asyncTaskFinishedForStepping(task); break; case v8::debug::kAsyncFunctionSuspended: { if (m_asyncTaskStacks.find(task) == m_asyncTaskStacks.end()) { asyncTaskScheduledForStack("async function", task, true); } auto stackIt = m_asyncTaskStacks.find(task); if (stackIt != m_asyncTaskStacks.end() && !stackIt->second.expired()) { std::shared_ptr stack(stackIt->second); stack->setSuspendedTaskId(task); } break; } case v8::debug::kAsyncFunctionFinished: asyncTaskCanceledForStack(task); break; } } std::shared_ptr V8Debugger::currentAsyncParent() { return m_currentAsyncParent.empty() ? nullptr : m_currentAsyncParent.back(); } V8StackTraceId V8Debugger::currentExternalParent() { return m_currentExternalParent.empty() ? V8StackTraceId() : m_currentExternalParent.back(); } v8::MaybeLocal V8Debugger::getTargetScopes( v8::Local context, v8::Local value, ScopeTargetKind kind) { v8::Local scopesValue; std::unique_ptr iterator; switch (kind) { case FUNCTION: iterator = v8::debug::ScopeIterator::CreateForFunction( m_isolate, v8::Local::Cast(value)); break; case GENERATOR: v8::Local generatorObject = v8::debug::GeneratorObject::Cast(value); if (!generatorObject->IsSuspended()) return v8::MaybeLocal(); iterator = v8::debug::ScopeIterator::CreateForGeneratorObject( m_isolate, v8::Local::Cast(value)); break; } if (!iterator) return v8::MaybeLocal(); v8::Local result = v8::Array::New(m_isolate); if (!result->SetPrototype(context, v8::Null(m_isolate)).FromMaybe(false)) { return v8::MaybeLocal(); } for (; !iterator->Done(); iterator->Advance()) { v8::Local scope = v8::Object::New(m_isolate); if (!addInternalObject(context, scope, V8InternalValueType::kScope)) return v8::MaybeLocal(); String16 nameSuffix = toProtocolStringWithTypeCheck( m_isolate, iterator->GetFunctionDebugName()); String16 description; if (nameSuffix.length()) nameSuffix = " (" + nameSuffix + ")"; switch (iterator->GetType()) { case v8::debug::ScopeIterator::ScopeTypeGlobal: description = "Global" + nameSuffix; break; case v8::debug::ScopeIterator::ScopeTypeLocal: description = "Local" + nameSuffix; break; case v8::debug::ScopeIterator::ScopeTypeWith: description = "With Block" + nameSuffix; break; case v8::debug::ScopeIterator::ScopeTypeClosure: description = "Closure" + nameSuffix; break; case v8::debug::ScopeIterator::ScopeTypeCatch: description = "Catch" + nameSuffix; break; case v8::debug::ScopeIterator::ScopeTypeBlock: description = "Block" + nameSuffix; break; case v8::debug::ScopeIterator::ScopeTypeScript: description = "Script" + nameSuffix; break; case v8::debug::ScopeIterator::ScopeTypeEval: description = "Eval" + nameSuffix; break; case v8::debug::ScopeIterator::ScopeTypeModule: description = "Module" + nameSuffix; break; case v8::debug::ScopeIterator::ScopeTypeWasmExpressionStack: description = "Wasm Expression Stack" + nameSuffix; break; } v8::Local object = iterator->GetObject(); createDataProperty(context, scope, toV8StringInternalized(m_isolate, "description"), toV8String(m_isolate, description)); createDataProperty(context, scope, toV8StringInternalized(m_isolate, "object"), object); createDataProperty(context, result, result->Length(), scope); } if (!addInternalObject(context, result, V8InternalValueType::kScopeList)) return v8::MaybeLocal(); return result; } v8::MaybeLocal V8Debugger::functionScopes( v8::Local context, v8::Local function) { return getTargetScopes(context, function, FUNCTION); } v8::MaybeLocal V8Debugger::generatorScopes( v8::Local context, v8::Local generator) { return getTargetScopes(context, generator, GENERATOR); } v8::MaybeLocal V8Debugger::collectionsEntries( v8::Local context, v8::Local value) { v8::Isolate* isolate = context->GetIsolate(); v8::Local entries; bool isKeyValue = false; if (!value->IsObject() || !value.As()->PreviewEntries(&isKeyValue).ToLocal(&entries)) { return v8::MaybeLocal(); } v8::Local wrappedEntries = v8::Array::New(isolate); CHECK(!isKeyValue || wrappedEntries->Length() % 2 == 0); if (!wrappedEntries->SetPrototype(context, v8::Null(isolate)) .FromMaybe(false)) return v8::MaybeLocal(); for (uint32_t i = 0; i < entries->Length(); i += isKeyValue ? 2 : 1) { v8::Local item; if (!entries->Get(context, i).ToLocal(&item)) continue; v8::Local value; if (isKeyValue && !entries->Get(context, i + 1).ToLocal(&value)) continue; v8::Local wrapper = v8::Object::New(isolate); if (!wrapper->SetPrototype(context, v8::Null(isolate)).FromMaybe(false)) continue; createDataProperty( context, wrapper, toV8StringInternalized(isolate, isKeyValue ? "key" : "value"), item); if (isKeyValue) { createDataProperty(context, wrapper, toV8StringInternalized(isolate, "value"), value); } if (!addInternalObject(context, wrapper, V8InternalValueType::kEntry)) continue; createDataProperty(context, wrappedEntries, wrappedEntries->Length(), wrapper); } return wrappedEntries; } v8::MaybeLocal V8Debugger::internalProperties( v8::Local context, v8::Local value) { v8::Local properties; if (!v8::debug::GetInternalProperties(m_isolate, value).ToLocal(&properties)) return v8::MaybeLocal(); v8::Local entries; if (collectionsEntries(context, value).ToLocal(&entries)) { createDataProperty(context, properties, properties->Length(), toV8StringInternalized(m_isolate, "[[Entries]]")); createDataProperty(context, properties, properties->Length(), entries); } if (value->IsGeneratorObject()) { v8::Local scopes; if (generatorScopes(context, value).ToLocal(&scopes)) { createDataProperty(context, properties, properties->Length(), toV8StringInternalized(m_isolate, "[[Scopes]]")); createDataProperty(context, properties, properties->Length(), scopes); } } if (value->IsFunction()) { v8::Local function = value.As(); v8::Local scopes; if (functionScopes(context, function).ToLocal(&scopes)) { createDataProperty(context, properties, properties->Length(), toV8StringInternalized(m_isolate, "[[Scopes]]")); createDataProperty(context, properties, properties->Length(), scopes); } } return properties; } v8::Local V8Debugger::queryObjects(v8::Local context, v8::Local prototype) { v8::Isolate* isolate = context->GetIsolate(); v8::PersistentValueVector v8Objects(isolate); MatchPrototypePredicate predicate(m_inspector, context, prototype); v8::debug::QueryObjects(context, &predicate, &v8Objects); v8::MicrotasksScope microtasksScope(isolate, v8::MicrotasksScope::kDoNotRunMicrotasks); v8::Local resultArray = v8::Array::New( m_inspector->isolate(), static_cast(v8Objects.Size())); for (size_t i = 0; i < v8Objects.Size(); ++i) { createDataProperty(context, resultArray, static_cast(i), v8Objects.Get(i)); } return resultArray; } std::unique_ptr V8Debugger::createStackTrace( v8::Local v8StackTrace) { return V8StackTraceImpl::create(this, currentContextGroupId(), v8StackTrace, V8StackTraceImpl::maxCallStackSizeToCapture); } void V8Debugger::setAsyncCallStackDepth(V8DebuggerAgentImpl* agent, int depth) { if (depth <= 0) m_maxAsyncCallStackDepthMap.erase(agent); else m_maxAsyncCallStackDepthMap[agent] = depth; int maxAsyncCallStackDepth = 0; for (const auto& pair : m_maxAsyncCallStackDepthMap) { if (pair.second > maxAsyncCallStackDepth) maxAsyncCallStackDepth = pair.second; } if (m_maxAsyncCallStackDepth == maxAsyncCallStackDepth) return; // TODO(dgozman): ideally, this should be per context group. m_maxAsyncCallStackDepth = maxAsyncCallStackDepth; m_inspector->client()->maxAsyncCallStackDepthChanged( m_maxAsyncCallStackDepth); if (!maxAsyncCallStackDepth) allAsyncTasksCanceled(); v8::debug::SetAsyncEventDelegate(m_isolate, maxAsyncCallStackDepth ? this : nullptr); } std::shared_ptr V8Debugger::stackTraceFor( int contextGroupId, const V8StackTraceId& id) { if (debuggerIdFor(contextGroupId).pair() != id.debugger_id) return nullptr; auto it = m_storedStackTraces.find(id.id); if (it == m_storedStackTraces.end()) return nullptr; return it->second.lock(); } V8StackTraceId V8Debugger::storeCurrentStackTrace( const StringView& description) { if (!m_maxAsyncCallStackDepth) return V8StackTraceId(); v8::HandleScope scope(m_isolate); int contextGroupId = currentContextGroupId(); if (!contextGroupId) return V8StackTraceId(); std::shared_ptr asyncStack = AsyncStackTrace::capture(this, contextGroupId, toString16(description), V8StackTraceImpl::maxCallStackSizeToCapture); if (!asyncStack) return V8StackTraceId(); uintptr_t id = AsyncStackTrace::store(this, asyncStack); m_allAsyncStacks.push_back(std::move(asyncStack)); ++m_asyncStacksCount; collectOldAsyncStacksIfNeeded(); bool shouldPause = m_pauseOnAsyncCall && contextGroupId == m_targetContextGroupId; if (shouldPause) { m_pauseOnAsyncCall = false; v8::debug::ClearStepping(m_isolate); // Cancel step into. } return V8StackTraceId(id, debuggerIdFor(contextGroupId).pair(), shouldPause); } uintptr_t V8Debugger::storeStackTrace( std::shared_ptr asyncStack) { uintptr_t id = ++m_lastStackTraceId; m_storedStackTraces[id] = asyncStack; return id; } void V8Debugger::externalAsyncTaskStarted(const V8StackTraceId& parent) { if (!m_maxAsyncCallStackDepth || parent.IsInvalid()) return; m_currentExternalParent.push_back(parent); m_currentAsyncParent.emplace_back(); m_currentTasks.push_back(reinterpret_cast(parent.id)); if (!parent.should_pause) return; bool didHaveBreak = hasScheduledBreakOnNextFunctionCall(); m_externalAsyncTaskPauseRequested = true; if (didHaveBreak) return; m_targetContextGroupId = currentContextGroupId(); v8::debug::SetBreakOnNextFunctionCall(m_isolate); } void V8Debugger::externalAsyncTaskFinished(const V8StackTraceId& parent) { if (!m_maxAsyncCallStackDepth || m_currentExternalParent.empty()) return; m_currentExternalParent.pop_back(); m_currentAsyncParent.pop_back(); DCHECK(m_currentTasks.back() == reinterpret_cast(parent.id)); m_currentTasks.pop_back(); if (!parent.should_pause) return; m_externalAsyncTaskPauseRequested = false; if (hasScheduledBreakOnNextFunctionCall()) return; v8::debug::ClearBreakOnNextFunctionCall(m_isolate); } void V8Debugger::asyncTaskScheduled(const StringView& taskName, void* task, bool recurring) { asyncTaskScheduledForStack(toString16(taskName), task, recurring); asyncTaskCandidateForStepping(task); } void V8Debugger::asyncTaskCanceled(void* task) { asyncTaskCanceledForStack(task); asyncTaskCanceledForStepping(task); } void V8Debugger::asyncTaskStarted(void* task) { asyncTaskStartedForStack(task); asyncTaskStartedForStepping(task); } void V8Debugger::asyncTaskFinished(void* task) { asyncTaskFinishedForStepping(task); asyncTaskFinishedForStack(task); } void V8Debugger::asyncTaskScheduledForStack(const String16& taskName, void* task, bool recurring) { if (!m_maxAsyncCallStackDepth) return; v8::HandleScope scope(m_isolate); std::shared_ptr asyncStack = AsyncStackTrace::capture(this, currentContextGroupId(), taskName, V8StackTraceImpl::maxCallStackSizeToCapture); if (asyncStack) { m_asyncTaskStacks[task] = asyncStack; if (recurring) m_recurringTasks.insert(task); m_allAsyncStacks.push_back(std::move(asyncStack)); ++m_asyncStacksCount; collectOldAsyncStacksIfNeeded(); } } void V8Debugger::asyncTaskCanceledForStack(void* task) { if (!m_maxAsyncCallStackDepth) return; m_asyncTaskStacks.erase(task); m_recurringTasks.erase(task); } void V8Debugger::asyncTaskStartedForStack(void* task) { if (!m_maxAsyncCallStackDepth) return; // Needs to support following order of events: // - asyncTaskScheduled // <-- attached here --> // - asyncTaskStarted // - asyncTaskCanceled <-- canceled before finished // <-- async stack requested here --> // - asyncTaskFinished m_currentTasks.push_back(task); AsyncTaskToStackTrace::iterator stackIt = m_asyncTaskStacks.find(task); if (stackIt != m_asyncTaskStacks.end() && !stackIt->second.expired()) { std::shared_ptr stack(stackIt->second); stack->setSuspendedTaskId(nullptr); m_currentAsyncParent.push_back(stack); } else { m_currentAsyncParent.emplace_back(); } m_currentExternalParent.emplace_back(); } void V8Debugger::asyncTaskFinishedForStack(void* task) { if (!m_maxAsyncCallStackDepth) return; // We could start instrumenting half way and the stack is empty. if (!m_currentTasks.size()) return; DCHECK(m_currentTasks.back() == task); m_currentTasks.pop_back(); m_currentAsyncParent.pop_back(); m_currentExternalParent.pop_back(); if (m_recurringTasks.find(task) == m_recurringTasks.end()) { asyncTaskCanceledForStack(task); } } void V8Debugger::asyncTaskCandidateForStepping(void* task) { if (!m_pauseOnAsyncCall) return; int contextGroupId = currentContextGroupId(); if (contextGroupId != m_targetContextGroupId) return; m_taskWithScheduledBreak = task; m_pauseOnAsyncCall = false; v8::debug::ClearStepping(m_isolate); // Cancel step into. } void V8Debugger::asyncTaskStartedForStepping(void* task) { // TODO(kozyatinskiy): we should search task in async chain to support // blackboxing. if (task != m_taskWithScheduledBreak) return; bool didHaveBreak = hasScheduledBreakOnNextFunctionCall(); m_taskWithScheduledBreakPauseRequested = true; if (didHaveBreak) return; m_targetContextGroupId = currentContextGroupId(); v8::debug::SetBreakOnNextFunctionCall(m_isolate); } void V8Debugger::asyncTaskFinishedForStepping(void* task) { if (task != m_taskWithScheduledBreak) return; m_taskWithScheduledBreak = nullptr; m_taskWithScheduledBreakPauseRequested = false; if (hasScheduledBreakOnNextFunctionCall()) return; v8::debug::ClearBreakOnNextFunctionCall(m_isolate); } void V8Debugger::asyncTaskCanceledForStepping(void* task) { asyncTaskFinishedForStepping(task); } void V8Debugger::allAsyncTasksCanceled() { m_asyncTaskStacks.clear(); m_recurringTasks.clear(); m_currentAsyncParent.clear(); m_currentExternalParent.clear(); m_currentTasks.clear(); m_allAsyncStacks.clear(); m_asyncStacksCount = 0; } void V8Debugger::muteScriptParsedEvents() { ++m_ignoreScriptParsedEventsCounter; } void V8Debugger::unmuteScriptParsedEvents() { --m_ignoreScriptParsedEventsCounter; DCHECK_GE(m_ignoreScriptParsedEventsCounter, 0); } std::unique_ptr V8Debugger::captureStackTrace( bool fullStack) { if (!m_isolate->InContext()) return nullptr; v8::HandleScope handles(m_isolate); int contextGroupId = currentContextGroupId(); if (!contextGroupId) return nullptr; int stackSize = 1; if (fullStack) { stackSize = V8StackTraceImpl::maxCallStackSizeToCapture; } else { m_inspector->forEachSession( contextGroupId, [&stackSize](V8InspectorSessionImpl* session) { if (session->runtimeAgent()->enabled()) stackSize = V8StackTraceImpl::maxCallStackSizeToCapture; }); } return V8StackTraceImpl::capture(this, contextGroupId, stackSize); } int V8Debugger::currentContextGroupId() { if (!m_isolate->InContext()) return 0; v8::HandleScope handleScope(m_isolate); return m_inspector->contextGroupId(m_isolate->GetCurrentContext()); } void V8Debugger::collectOldAsyncStacksIfNeeded() { if (m_asyncStacksCount <= m_maxAsyncCallStacks) return; int halfOfLimitRoundedUp = m_maxAsyncCallStacks / 2 + m_maxAsyncCallStacks % 2; while (m_asyncStacksCount > halfOfLimitRoundedUp) { m_allAsyncStacks.pop_front(); --m_asyncStacksCount; } cleanupExpiredWeakPointers(m_asyncTaskStacks); cleanupExpiredWeakPointers(m_storedStackTraces); for (auto it = m_recurringTasks.begin(); it != m_recurringTasks.end();) { if (m_asyncTaskStacks.find(*it) == m_asyncTaskStacks.end()) { it = m_recurringTasks.erase(it); } else { ++it; } } } std::shared_ptr V8Debugger::symbolize( v8::Local v8Frame) { CHECK(!v8Frame.IsEmpty()); return std::make_shared(isolate(), v8Frame); } void V8Debugger::setMaxAsyncTaskStacksForTest(int limit) { m_maxAsyncCallStacks = 0; collectOldAsyncStacksIfNeeded(); m_maxAsyncCallStacks = limit; } V8DebuggerId V8Debugger::debuggerIdFor(int contextGroupId) { auto it = m_contextGroupIdToDebuggerId.find(contextGroupId); if (it != m_contextGroupIdToDebuggerId.end()) return it->second; V8DebuggerId debuggerId = V8DebuggerId::generate(m_isolate); m_contextGroupIdToDebuggerId.insert( it, std::make_pair(contextGroupId, debuggerId)); return debuggerId; } bool V8Debugger::addInternalObject(v8::Local context, v8::Local object, V8InternalValueType type) { int contextId = InspectedContext::contextId(context); InspectedContext* inspectedContext = m_inspector->getContext(contextId); return inspectedContext ? inspectedContext->addInternalObject(object, type) : false; } void V8Debugger::dumpAsyncTaskStacksStateForTest() { fprintf(stdout, "Async stacks count: %d\n", m_asyncStacksCount); fprintf(stdout, "Scheduled async tasks: %zu\n", m_asyncTaskStacks.size()); fprintf(stdout, "Recurring async tasks: %zu\n", m_recurringTasks.size()); fprintf(stdout, "\n"); } bool V8Debugger::hasScheduledBreakOnNextFunctionCall() const { return m_pauseOnNextCallRequested || m_taskWithScheduledBreakPauseRequested || m_externalAsyncTaskPauseRequested; } } // namespace v8_inspector