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|
// Copyright 2006-2008 the V8 project authors. 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 "v8.h"
#include "api.h"
#include "arguments.h"
#include "bootstrapper.h"
#include "code-stubs.h"
#include "codegen.h"
#include "compilation-cache.h"
#include "compiler.h"
#include "debug.h"
#include "execution.h"
#include "global-handles.h"
#include "ic.h"
#include "ic-inl.h"
#include "messages.h"
#include "natives.h"
#include "stub-cache.h"
#include "log.h"
#include "../include/v8-debug.h"
namespace v8 {
namespace internal {
#ifdef ENABLE_DEBUGGER_SUPPORT
static void PrintLn(v8::Local<v8::Value> value) {
v8::Local<v8::String> s = value->ToString();
char* data = NewArray<char>(s->Length() + 1);
if (data == NULL) {
V8::FatalProcessOutOfMemory("PrintLn");
return;
}
s->WriteAscii(data);
PrintF("%s\n", data);
DeleteArray(data);
}
static Handle<Code> ComputeCallDebugBreak(int argc) {
CALL_HEAP_FUNCTION(StubCache::ComputeCallDebugBreak(argc), Code);
}
static Handle<Code> ComputeCallDebugPrepareStepIn(int argc) {
CALL_HEAP_FUNCTION(StubCache::ComputeCallDebugPrepareStepIn(argc), Code);
}
BreakLocationIterator::BreakLocationIterator(Handle<DebugInfo> debug_info,
BreakLocatorType type) {
debug_info_ = debug_info;
type_ = type;
reloc_iterator_ = NULL;
reloc_iterator_original_ = NULL;
Reset(); // Initialize the rest of the member variables.
}
BreakLocationIterator::~BreakLocationIterator() {
ASSERT(reloc_iterator_ != NULL);
ASSERT(reloc_iterator_original_ != NULL);
delete reloc_iterator_;
delete reloc_iterator_original_;
}
void BreakLocationIterator::Next() {
AssertNoAllocation nogc;
ASSERT(!RinfoDone());
// Iterate through reloc info for code and original code stopping at each
// breakable code target.
bool first = break_point_ == -1;
while (!RinfoDone()) {
if (!first) RinfoNext();
first = false;
if (RinfoDone()) return;
// Whenever a statement position or (plain) position is passed update the
// current value of these.
if (RelocInfo::IsPosition(rmode())) {
if (RelocInfo::IsStatementPosition(rmode())) {
statement_position_ = static_cast<int>(
rinfo()->data() - debug_info_->shared()->start_position());
}
// Always update the position as we don't want that to be before the
// statement position.
position_ = static_cast<int>(
rinfo()->data() - debug_info_->shared()->start_position());
ASSERT(position_ >= 0);
ASSERT(statement_position_ >= 0);
}
// Check for breakable code target. Look in the original code as setting
// break points can cause the code targets in the running (debugged) code to
// be of a different kind than in the original code.
if (RelocInfo::IsCodeTarget(rmode())) {
Address target = original_rinfo()->target_address();
Code* code = Code::GetCodeFromTargetAddress(target);
if ((code->is_inline_cache_stub() &&
code->kind() != Code::BINARY_OP_IC) ||
RelocInfo::IsConstructCall(rmode())) {
break_point_++;
return;
}
if (code->kind() == Code::STUB) {
if (IsDebuggerStatement()) {
break_point_++;
return;
}
if (type_ == ALL_BREAK_LOCATIONS) {
if (Debug::IsBreakStub(code)) {
break_point_++;
return;
}
} else {
ASSERT(type_ == SOURCE_BREAK_LOCATIONS);
if (Debug::IsSourceBreakStub(code)) {
break_point_++;
return;
}
}
}
}
// Check for break at return.
if (RelocInfo::IsJSReturn(rmode())) {
// Set the positions to the end of the function.
if (debug_info_->shared()->HasSourceCode()) {
position_ = debug_info_->shared()->end_position() -
debug_info_->shared()->start_position();
} else {
position_ = 0;
}
statement_position_ = position_;
break_point_++;
return;
}
}
}
void BreakLocationIterator::Next(int count) {
while (count > 0) {
Next();
count--;
}
}
// Find the break point closest to the supplied address.
void BreakLocationIterator::FindBreakLocationFromAddress(Address pc) {
// Run through all break points to locate the one closest to the address.
int closest_break_point = 0;
int distance = kMaxInt;
while (!Done()) {
// Check if this break point is closer that what was previously found.
if (this->pc() < pc && pc - this->pc() < distance) {
closest_break_point = break_point();
distance = static_cast<int>(pc - this->pc());
// Check whether we can't get any closer.
if (distance == 0) break;
}
Next();
}
// Move to the break point found.
Reset();
Next(closest_break_point);
}
// Find the break point closest to the supplied source position.
void BreakLocationIterator::FindBreakLocationFromPosition(int position) {
// Run through all break points to locate the one closest to the source
// position.
int closest_break_point = 0;
int distance = kMaxInt;
while (!Done()) {
// Check if this break point is closer that what was previously found.
if (position <= statement_position() &&
statement_position() - position < distance) {
closest_break_point = break_point();
distance = statement_position() - position;
// Check whether we can't get any closer.
if (distance == 0) break;
}
Next();
}
// Move to the break point found.
Reset();
Next(closest_break_point);
}
void BreakLocationIterator::Reset() {
// Create relocation iterators for the two code objects.
if (reloc_iterator_ != NULL) delete reloc_iterator_;
if (reloc_iterator_original_ != NULL) delete reloc_iterator_original_;
reloc_iterator_ = new RelocIterator(debug_info_->code());
reloc_iterator_original_ = new RelocIterator(debug_info_->original_code());
// Position at the first break point.
break_point_ = -1;
position_ = 1;
statement_position_ = 1;
Next();
}
bool BreakLocationIterator::Done() const {
return RinfoDone();
}
void BreakLocationIterator::SetBreakPoint(Handle<Object> break_point_object) {
// If there is not already a real break point here patch code with debug
// break.
if (!HasBreakPoint()) {
SetDebugBreak();
}
ASSERT(IsDebugBreak() || IsDebuggerStatement());
// Set the break point information.
DebugInfo::SetBreakPoint(debug_info_, code_position(),
position(), statement_position(),
break_point_object);
}
void BreakLocationIterator::ClearBreakPoint(Handle<Object> break_point_object) {
// Clear the break point information.
DebugInfo::ClearBreakPoint(debug_info_, code_position(), break_point_object);
// If there are no more break points here remove the debug break.
if (!HasBreakPoint()) {
ClearDebugBreak();
ASSERT(!IsDebugBreak());
}
}
void BreakLocationIterator::SetOneShot() {
// Debugger statement always calls debugger. No need to modify it.
if (IsDebuggerStatement()) {
return;
}
// If there is a real break point here no more to do.
if (HasBreakPoint()) {
ASSERT(IsDebugBreak());
return;
}
// Patch code with debug break.
SetDebugBreak();
}
void BreakLocationIterator::ClearOneShot() {
// Debugger statement always calls debugger. No need to modify it.
if (IsDebuggerStatement()) {
return;
}
// If there is a real break point here no more to do.
if (HasBreakPoint()) {
ASSERT(IsDebugBreak());
return;
}
// Patch code removing debug break.
ClearDebugBreak();
ASSERT(!IsDebugBreak());
}
void BreakLocationIterator::SetDebugBreak() {
// Debugger statement always calls debugger. No need to modify it.
if (IsDebuggerStatement()) {
return;
}
// If there is already a break point here just return. This might happen if
// the same code is flooded with break points twice. Flooding the same
// function twice might happen when stepping in a function with an exception
// handler as the handler and the function is the same.
if (IsDebugBreak()) {
return;
}
if (RelocInfo::IsJSReturn(rmode())) {
// Patch the frame exit code with a break point.
SetDebugBreakAtReturn();
} else {
// Patch the IC call.
SetDebugBreakAtIC();
}
ASSERT(IsDebugBreak());
}
void BreakLocationIterator::ClearDebugBreak() {
// Debugger statement always calls debugger. No need to modify it.
if (IsDebuggerStatement()) {
return;
}
if (RelocInfo::IsJSReturn(rmode())) {
// Restore the frame exit code.
ClearDebugBreakAtReturn();
} else {
// Patch the IC call.
ClearDebugBreakAtIC();
}
ASSERT(!IsDebugBreak());
}
void BreakLocationIterator::PrepareStepIn() {
HandleScope scope;
// Step in can only be prepared if currently positioned on an IC call,
// construct call or CallFunction stub call.
Address target = rinfo()->target_address();
Handle<Code> code(Code::GetCodeFromTargetAddress(target));
if (code->is_call_stub()) {
// Step in through IC call is handled by the runtime system. Therefore make
// sure that the any current IC is cleared and the runtime system is
// called. If the executing code has a debug break at the location change
// the call in the original code as it is the code there that will be
// executed in place of the debug break call.
Handle<Code> stub = ComputeCallDebugPrepareStepIn(code->arguments_count());
if (IsDebugBreak()) {
original_rinfo()->set_target_address(stub->entry());
} else {
rinfo()->set_target_address(stub->entry());
}
} else {
#ifdef DEBUG
// All the following stuff is needed only for assertion checks so the code
// is wrapped in ifdef.
Handle<Code> maybe_call_function_stub = code;
if (IsDebugBreak()) {
Address original_target = original_rinfo()->target_address();
maybe_call_function_stub =
Handle<Code>(Code::GetCodeFromTargetAddress(original_target));
}
bool is_call_function_stub =
(maybe_call_function_stub->kind() == Code::STUB &&
maybe_call_function_stub->major_key() == CodeStub::CallFunction);
// Step in through construct call requires no changes to the running code.
// Step in through getters/setters should already be prepared as well
// because caller of this function (Debug::PrepareStep) is expected to
// flood the top frame's function with one shot breakpoints.
// Step in through CallFunction stub should also be prepared by caller of
// this function (Debug::PrepareStep) which should flood target function
// with breakpoints.
ASSERT(RelocInfo::IsConstructCall(rmode()) || code->is_inline_cache_stub()
|| is_call_function_stub);
#endif
}
}
// Check whether the break point is at a position which will exit the function.
bool BreakLocationIterator::IsExit() const {
return (RelocInfo::IsJSReturn(rmode()));
}
bool BreakLocationIterator::HasBreakPoint() {
return debug_info_->HasBreakPoint(code_position());
}
// Check whether there is a debug break at the current position.
bool BreakLocationIterator::IsDebugBreak() {
if (RelocInfo::IsJSReturn(rmode())) {
return IsDebugBreakAtReturn();
} else {
return Debug::IsDebugBreak(rinfo()->target_address());
}
}
void BreakLocationIterator::SetDebugBreakAtIC() {
// Patch the original code with the current address as the current address
// might have changed by the inline caching since the code was copied.
original_rinfo()->set_target_address(rinfo()->target_address());
RelocInfo::Mode mode = rmode();
if (RelocInfo::IsCodeTarget(mode)) {
Address target = rinfo()->target_address();
Handle<Code> code(Code::GetCodeFromTargetAddress(target));
// Patch the code to invoke the builtin debug break function matching the
// calling convention used by the call site.
Handle<Code> dbgbrk_code(Debug::FindDebugBreak(code, mode));
rinfo()->set_target_address(dbgbrk_code->entry());
// For stubs that refer back to an inlined version clear the cached map for
// the inlined case to always go through the IC. As long as the break point
// is set the patching performed by the runtime system will take place in
// the code copy and will therefore have no effect on the running code
// keeping it from using the inlined code.
if (code->is_keyed_load_stub()) KeyedLoadIC::ClearInlinedVersion(pc());
if (code->is_keyed_store_stub()) KeyedStoreIC::ClearInlinedVersion(pc());
}
}
void BreakLocationIterator::ClearDebugBreakAtIC() {
// Patch the code to the original invoke.
rinfo()->set_target_address(original_rinfo()->target_address());
RelocInfo::Mode mode = rmode();
if (RelocInfo::IsCodeTarget(mode)) {
Address target = original_rinfo()->target_address();
Handle<Code> code(Code::GetCodeFromTargetAddress(target));
// Restore the inlined version of keyed stores to get back to the
// fast case. We need to patch back the keyed store because no
// patching happens when running normally. For keyed loads, the
// map check will get patched back when running normally after ICs
// have been cleared at GC.
if (code->is_keyed_store_stub()) KeyedStoreIC::RestoreInlinedVersion(pc());
}
}
bool BreakLocationIterator::IsDebuggerStatement() {
return RelocInfo::DEBUG_BREAK == rmode();
}
Object* BreakLocationIterator::BreakPointObjects() {
return debug_info_->GetBreakPointObjects(code_position());
}
// Clear out all the debug break code. This is ONLY supposed to be used when
// shutting down the debugger as it will leave the break point information in
// DebugInfo even though the code is patched back to the non break point state.
void BreakLocationIterator::ClearAllDebugBreak() {
while (!Done()) {
ClearDebugBreak();
Next();
}
}
bool BreakLocationIterator::RinfoDone() const {
ASSERT(reloc_iterator_->done() == reloc_iterator_original_->done());
return reloc_iterator_->done();
}
void BreakLocationIterator::RinfoNext() {
reloc_iterator_->next();
reloc_iterator_original_->next();
#ifdef DEBUG
ASSERT(reloc_iterator_->done() == reloc_iterator_original_->done());
if (!reloc_iterator_->done()) {
ASSERT(rmode() == original_rmode());
}
#endif
}
bool Debug::has_break_points_ = false;
ScriptCache* Debug::script_cache_ = NULL;
DebugInfoListNode* Debug::debug_info_list_ = NULL;
// Threading support.
void Debug::ThreadInit() {
thread_local_.break_count_ = 0;
thread_local_.break_id_ = 0;
thread_local_.break_frame_id_ = StackFrame::NO_ID;
thread_local_.last_step_action_ = StepNone;
thread_local_.last_statement_position_ = RelocInfo::kNoPosition;
thread_local_.step_count_ = 0;
thread_local_.last_fp_ = 0;
thread_local_.step_into_fp_ = 0;
thread_local_.step_out_fp_ = 0;
thread_local_.after_break_target_ = 0;
thread_local_.debugger_entry_ = NULL;
thread_local_.pending_interrupts_ = 0;
}
JSCallerSavedBuffer Debug::registers_;
Debug::ThreadLocal Debug::thread_local_;
char* Debug::ArchiveDebug(char* storage) {
char* to = storage;
memcpy(to, reinterpret_cast<char*>(&thread_local_), sizeof(ThreadLocal));
to += sizeof(ThreadLocal);
memcpy(to, reinterpret_cast<char*>(®isters_), sizeof(registers_));
ThreadInit();
ASSERT(to <= storage + ArchiveSpacePerThread());
return storage + ArchiveSpacePerThread();
}
char* Debug::RestoreDebug(char* storage) {
char* from = storage;
memcpy(reinterpret_cast<char*>(&thread_local_), from, sizeof(ThreadLocal));
from += sizeof(ThreadLocal);
memcpy(reinterpret_cast<char*>(®isters_), from, sizeof(registers_));
ASSERT(from <= storage + ArchiveSpacePerThread());
return storage + ArchiveSpacePerThread();
}
int Debug::ArchiveSpacePerThread() {
return sizeof(ThreadLocal) + sizeof(registers_);
}
// Default break enabled.
bool Debug::disable_break_ = false;
// Default call debugger on uncaught exception.
bool Debug::break_on_exception_ = false;
bool Debug::break_on_uncaught_exception_ = true;
Handle<Context> Debug::debug_context_ = Handle<Context>();
Code* Debug::debug_break_return_ = NULL;
void ScriptCache::Add(Handle<Script> script) {
// Create an entry in the hash map for the script.
int id = Smi::cast(script->id())->value();
HashMap::Entry* entry =
HashMap::Lookup(reinterpret_cast<void*>(id), Hash(id), true);
if (entry->value != NULL) {
ASSERT(*script == *reinterpret_cast<Script**>(entry->value));
return;
}
// Globalize the script object, make it weak and use the location of the
// global handle as the value in the hash map.
Handle<Script> script_ =
Handle<Script>::cast((GlobalHandles::Create(*script)));
GlobalHandles::MakeWeak(reinterpret_cast<Object**>(script_.location()),
this, ScriptCache::HandleWeakScript);
entry->value = script_.location();
}
Handle<FixedArray> ScriptCache::GetScripts() {
Handle<FixedArray> instances = Factory::NewFixedArray(occupancy());
int count = 0;
for (HashMap::Entry* entry = Start(); entry != NULL; entry = Next(entry)) {
ASSERT(entry->value != NULL);
if (entry->value != NULL) {
instances->set(count, *reinterpret_cast<Script**>(entry->value));
count++;
}
}
return instances;
}
void ScriptCache::ProcessCollectedScripts() {
for (int i = 0; i < collected_scripts_.length(); i++) {
Debugger::OnScriptCollected(collected_scripts_[i]);
}
collected_scripts_.Clear();
}
void ScriptCache::Clear() {
// Iterate the script cache to get rid of all the weak handles.
for (HashMap::Entry* entry = Start(); entry != NULL; entry = Next(entry)) {
ASSERT(entry != NULL);
Object** location = reinterpret_cast<Object**>(entry->value);
ASSERT((*location)->IsScript());
GlobalHandles::ClearWeakness(location);
GlobalHandles::Destroy(location);
}
// Clear the content of the hash map.
HashMap::Clear();
}
void ScriptCache::HandleWeakScript(v8::Persistent<v8::Value> obj, void* data) {
ScriptCache* script_cache = reinterpret_cast<ScriptCache*>(data);
// Find the location of the global handle.
Script** location =
reinterpret_cast<Script**>(Utils::OpenHandle(*obj).location());
ASSERT((*location)->IsScript());
// Remove the entry from the cache.
int id = Smi::cast((*location)->id())->value();
script_cache->Remove(reinterpret_cast<void*>(id), Hash(id));
script_cache->collected_scripts_.Add(id);
// Clear the weak handle.
obj.Dispose();
obj.Clear();
}
void Debug::Setup(bool create_heap_objects) {
ThreadInit();
if (create_heap_objects) {
// Get code to handle debug break on return.
debug_break_return_ =
Builtins::builtin(Builtins::Return_DebugBreak);
ASSERT(debug_break_return_->IsCode());
}
}
void Debug::HandleWeakDebugInfo(v8::Persistent<v8::Value> obj, void* data) {
DebugInfoListNode* node = reinterpret_cast<DebugInfoListNode*>(data);
RemoveDebugInfo(node->debug_info());
#ifdef DEBUG
node = Debug::debug_info_list_;
while (node != NULL) {
ASSERT(node != reinterpret_cast<DebugInfoListNode*>(data));
node = node->next();
}
#endif
}
DebugInfoListNode::DebugInfoListNode(DebugInfo* debug_info): next_(NULL) {
// Globalize the request debug info object and make it weak.
debug_info_ = Handle<DebugInfo>::cast((GlobalHandles::Create(debug_info)));
GlobalHandles::MakeWeak(reinterpret_cast<Object**>(debug_info_.location()),
this, Debug::HandleWeakDebugInfo);
}
DebugInfoListNode::~DebugInfoListNode() {
GlobalHandles::Destroy(reinterpret_cast<Object**>(debug_info_.location()));
}
bool Debug::CompileDebuggerScript(int index) {
HandleScope scope;
// Bail out if the index is invalid.
if (index == -1) {
return false;
}
// Find source and name for the requested script.
Handle<String> source_code = Bootstrapper::NativesSourceLookup(index);
Vector<const char> name = Natives::GetScriptName(index);
Handle<String> script_name = Factory::NewStringFromAscii(name);
// Compile the script.
bool allow_natives_syntax = FLAG_allow_natives_syntax;
FLAG_allow_natives_syntax = true;
Handle<SharedFunctionInfo> function_info;
function_info = Compiler::Compile(source_code,
script_name,
0, 0, NULL, NULL,
Handle<String>::null(),
NATIVES_CODE);
FLAG_allow_natives_syntax = allow_natives_syntax;
// Silently ignore stack overflows during compilation.
if (function_info.is_null()) {
ASSERT(Top::has_pending_exception());
Top::clear_pending_exception();
return false;
}
// Execute the shared function in the debugger context.
Handle<Context> context = Top::global_context();
bool caught_exception = false;
Handle<JSFunction> function =
Factory::NewFunctionFromSharedFunctionInfo(function_info, context);
Handle<Object> result =
Execution::TryCall(function, Handle<Object>(context->global()),
0, NULL, &caught_exception);
// Check for caught exceptions.
if (caught_exception) {
Handle<Object> message = MessageHandler::MakeMessageObject(
"error_loading_debugger", NULL, Vector<Handle<Object> >::empty(),
Handle<String>());
MessageHandler::ReportMessage(NULL, message);
return false;
}
// Mark this script as native and return successfully.
Handle<Script> script(Script::cast(function->shared()->script()));
script->set_type(Smi::FromInt(Script::TYPE_NATIVE));
return true;
}
bool Debug::Load() {
// Return if debugger is already loaded.
if (IsLoaded()) return true;
// Bail out if we're already in the process of compiling the native
// JavaScript source code for the debugger.
if (Debugger::compiling_natives() || Debugger::is_loading_debugger())
return false;
Debugger::set_loading_debugger(true);
// Disable breakpoints and interrupts while compiling and running the
// debugger scripts including the context creation code.
DisableBreak disable(true);
PostponeInterruptsScope postpone;
// Create the debugger context.
HandleScope scope;
Handle<Context> context =
Bootstrapper::CreateEnvironment(Handle<Object>::null(),
v8::Handle<ObjectTemplate>(),
NULL);
// Use the debugger context.
SaveContext save;
Top::set_context(*context);
// Expose the builtins object in the debugger context.
Handle<String> key = Factory::LookupAsciiSymbol("builtins");
Handle<GlobalObject> global = Handle<GlobalObject>(context->global());
SetProperty(global, key, Handle<Object>(global->builtins()), NONE);
// Compile the JavaScript for the debugger in the debugger context.
Debugger::set_compiling_natives(true);
bool caught_exception =
!CompileDebuggerScript(Natives::GetIndex("mirror")) ||
!CompileDebuggerScript(Natives::GetIndex("debug"));
if (FLAG_enable_liveedit) {
caught_exception = caught_exception ||
!CompileDebuggerScript(Natives::GetIndex("liveedit"));
}
Debugger::set_compiling_natives(false);
// Make sure we mark the debugger as not loading before we might
// return.
Debugger::set_loading_debugger(false);
// Check for caught exceptions.
if (caught_exception) return false;
// Debugger loaded.
debug_context_ = Handle<Context>::cast(GlobalHandles::Create(*context));
return true;
}
void Debug::Unload() {
// Return debugger is not loaded.
if (!IsLoaded()) {
return;
}
// Clear the script cache.
DestroyScriptCache();
// Clear debugger context global handle.
GlobalHandles::Destroy(reinterpret_cast<Object**>(debug_context_.location()));
debug_context_ = Handle<Context>();
}
// Set the flag indicating that preemption happened during debugging.
void Debug::PreemptionWhileInDebugger() {
ASSERT(InDebugger());
Debug::set_interrupts_pending(PREEMPT);
}
void Debug::Iterate(ObjectVisitor* v) {
v->VisitPointer(BitCast<Object**, Code**>(&(debug_break_return_)));
}
Object* Debug::Break(Arguments args) {
HandleScope scope;
ASSERT(args.length() == 0);
// Get the top-most JavaScript frame.
JavaScriptFrameIterator it;
JavaScriptFrame* frame = it.frame();
// Just continue if breaks are disabled or debugger cannot be loaded.
if (disable_break() || !Load()) {
SetAfterBreakTarget(frame);
return Heap::undefined_value();
}
// Enter the debugger.
EnterDebugger debugger;
if (debugger.FailedToEnter()) {
return Heap::undefined_value();
}
// Postpone interrupt during breakpoint processing.
PostponeInterruptsScope postpone;
// Get the debug info (create it if it does not exist).
Handle<SharedFunctionInfo> shared =
Handle<SharedFunctionInfo>(JSFunction::cast(frame->function())->shared());
Handle<DebugInfo> debug_info = GetDebugInfo(shared);
// Find the break point where execution has stopped.
BreakLocationIterator break_location_iterator(debug_info,
ALL_BREAK_LOCATIONS);
break_location_iterator.FindBreakLocationFromAddress(frame->pc());
// Check whether step next reached a new statement.
if (!StepNextContinue(&break_location_iterator, frame)) {
// Decrease steps left if performing multiple steps.
if (thread_local_.step_count_ > 0) {
thread_local_.step_count_--;
}
}
// If there is one or more real break points check whether any of these are
// triggered.
Handle<Object> break_points_hit(Heap::undefined_value());
if (break_location_iterator.HasBreakPoint()) {
Handle<Object> break_point_objects =
Handle<Object>(break_location_iterator.BreakPointObjects());
break_points_hit = CheckBreakPoints(break_point_objects);
}
// If step out is active skip everything until the frame where we need to step
// out to is reached, unless real breakpoint is hit.
if (Debug::StepOutActive() && frame->fp() != Debug::step_out_fp() &&
break_points_hit->IsUndefined() ) {
// Step count should always be 0 for StepOut.
ASSERT(thread_local_.step_count_ == 0);
} else if (!break_points_hit->IsUndefined() ||
(thread_local_.last_step_action_ != StepNone &&
thread_local_.step_count_ == 0)) {
// Notify debugger if a real break point is triggered or if performing
// single stepping with no more steps to perform. Otherwise do another step.
// Clear all current stepping setup.
ClearStepping();
// Notify the debug event listeners.
Debugger::OnDebugBreak(break_points_hit, false);
} else if (thread_local_.last_step_action_ != StepNone) {
// Hold on to last step action as it is cleared by the call to
// ClearStepping.
StepAction step_action = thread_local_.last_step_action_;
int step_count = thread_local_.step_count_;
// Clear all current stepping setup.
ClearStepping();
// Set up for the remaining steps.
PrepareStep(step_action, step_count);
}
// Install jump to the call address which was overwritten.
SetAfterBreakTarget(frame);
return Heap::undefined_value();
}
// Check the break point objects for whether one or more are actually
// triggered. This function returns a JSArray with the break point objects
// which is triggered.
Handle<Object> Debug::CheckBreakPoints(Handle<Object> break_point_objects) {
int break_points_hit_count = 0;
Handle<JSArray> break_points_hit = Factory::NewJSArray(1);
// If there are multiple break points they are in a FixedArray.
ASSERT(!break_point_objects->IsUndefined());
if (break_point_objects->IsFixedArray()) {
Handle<FixedArray> array(FixedArray::cast(*break_point_objects));
for (int i = 0; i < array->length(); i++) {
Handle<Object> o(array->get(i));
if (CheckBreakPoint(o)) {
break_points_hit->SetElement(break_points_hit_count++, *o);
}
}
} else {
if (CheckBreakPoint(break_point_objects)) {
break_points_hit->SetElement(break_points_hit_count++,
*break_point_objects);
}
}
// Return undefined if no break points where triggered.
if (break_points_hit_count == 0) {
return Factory::undefined_value();
}
return break_points_hit;
}
// Check whether a single break point object is triggered.
bool Debug::CheckBreakPoint(Handle<Object> break_point_object) {
HandleScope scope;
// Ignore check if break point object is not a JSObject.
if (!break_point_object->IsJSObject()) return true;
// Get the function CheckBreakPoint (defined in debug.js).
Handle<JSFunction> check_break_point =
Handle<JSFunction>(JSFunction::cast(
debug_context()->global()->GetProperty(
*Factory::LookupAsciiSymbol("IsBreakPointTriggered"))));
// Get the break id as an object.
Handle<Object> break_id = Factory::NewNumberFromInt(Debug::break_id());
// Call HandleBreakPointx.
bool caught_exception = false;
const int argc = 2;
Object** argv[argc] = {
break_id.location(),
reinterpret_cast<Object**>(break_point_object.location())
};
Handle<Object> result = Execution::TryCall(check_break_point,
Top::builtins(), argc, argv,
&caught_exception);
// If exception or non boolean result handle as not triggered
if (caught_exception || !result->IsBoolean()) {
return false;
}
// Return whether the break point is triggered.
return *result == Heap::true_value();
}
// Check whether the function has debug information.
bool Debug::HasDebugInfo(Handle<SharedFunctionInfo> shared) {
return !shared->debug_info()->IsUndefined();
}
// Return the debug info for this function. EnsureDebugInfo must be called
// prior to ensure the debug info has been generated for shared.
Handle<DebugInfo> Debug::GetDebugInfo(Handle<SharedFunctionInfo> shared) {
ASSERT(HasDebugInfo(shared));
return Handle<DebugInfo>(DebugInfo::cast(shared->debug_info()));
}
void Debug::SetBreakPoint(Handle<SharedFunctionInfo> shared,
int source_position,
Handle<Object> break_point_object) {
HandleScope scope;
if (!EnsureDebugInfo(shared)) {
// Return if retrieving debug info failed.
return;
}
Handle<DebugInfo> debug_info = GetDebugInfo(shared);
// Source positions starts with zero.
ASSERT(source_position >= 0);
// Find the break point and change it.
BreakLocationIterator it(debug_info, SOURCE_BREAK_LOCATIONS);
it.FindBreakLocationFromPosition(source_position);
it.SetBreakPoint(break_point_object);
// At least one active break point now.
ASSERT(debug_info->GetBreakPointCount() > 0);
}
void Debug::ClearBreakPoint(Handle<Object> break_point_object) {
HandleScope scope;
DebugInfoListNode* node = debug_info_list_;
while (node != NULL) {
Object* result = DebugInfo::FindBreakPointInfo(node->debug_info(),
break_point_object);
if (!result->IsUndefined()) {
// Get information in the break point.
BreakPointInfo* break_point_info = BreakPointInfo::cast(result);
Handle<DebugInfo> debug_info = node->debug_info();
Handle<SharedFunctionInfo> shared(debug_info->shared());
int source_position = break_point_info->statement_position()->value();
// Source positions starts with zero.
ASSERT(source_position >= 0);
// Find the break point and clear it.
BreakLocationIterator it(debug_info, SOURCE_BREAK_LOCATIONS);
it.FindBreakLocationFromPosition(source_position);
it.ClearBreakPoint(break_point_object);
// If there are no more break points left remove the debug info for this
// function.
if (debug_info->GetBreakPointCount() == 0) {
RemoveDebugInfo(debug_info);
}
return;
}
node = node->next();
}
}
void Debug::ClearAllBreakPoints() {
DebugInfoListNode* node = debug_info_list_;
while (node != NULL) {
// Remove all debug break code.
BreakLocationIterator it(node->debug_info(), ALL_BREAK_LOCATIONS);
it.ClearAllDebugBreak();
node = node->next();
}
// Remove all debug info.
while (debug_info_list_ != NULL) {
RemoveDebugInfo(debug_info_list_->debug_info());
}
}
void Debug::FloodWithOneShot(Handle<SharedFunctionInfo> shared) {
// Make sure the function has setup the debug info.
if (!EnsureDebugInfo(shared)) {
// Return if we failed to retrieve the debug info.
return;
}
// Flood the function with break points.
BreakLocationIterator it(GetDebugInfo(shared), ALL_BREAK_LOCATIONS);
while (!it.Done()) {
it.SetOneShot();
it.Next();
}
}
void Debug::FloodHandlerWithOneShot() {
// Iterate through the JavaScript stack looking for handlers.
StackFrame::Id id = break_frame_id();
if (id == StackFrame::NO_ID) {
// If there is no JavaScript stack don't do anything.
return;
}
for (JavaScriptFrameIterator it(id); !it.done(); it.Advance()) {
JavaScriptFrame* frame = it.frame();
if (frame->HasHandler()) {
Handle<SharedFunctionInfo> shared =
Handle<SharedFunctionInfo>(
JSFunction::cast(frame->function())->shared());
// Flood the function with the catch block with break points
FloodWithOneShot(shared);
return;
}
}
}
void Debug::ChangeBreakOnException(ExceptionBreakType type, bool enable) {
if (type == BreakUncaughtException) {
break_on_uncaught_exception_ = enable;
} else {
break_on_exception_ = enable;
}
}
void Debug::PrepareStep(StepAction step_action, int step_count) {
HandleScope scope;
ASSERT(Debug::InDebugger());
// Remember this step action and count.
thread_local_.last_step_action_ = step_action;
if (step_action == StepOut) {
// For step out target frame will be found on the stack so there is no need
// to set step counter for it. It's expected to always be 0 for StepOut.
thread_local_.step_count_ = 0;
} else {
thread_local_.step_count_ = step_count;
}
// Get the frame where the execution has stopped and skip the debug frame if
// any. The debug frame will only be present if execution was stopped due to
// hitting a break point. In other situations (e.g. unhandled exception) the
// debug frame is not present.
StackFrame::Id id = break_frame_id();
if (id == StackFrame::NO_ID) {
// If there is no JavaScript stack don't do anything.
return;
}
JavaScriptFrameIterator frames_it(id);
JavaScriptFrame* frame = frames_it.frame();
// First of all ensure there is one-shot break points in the top handler
// if any.
FloodHandlerWithOneShot();
// If the function on the top frame is unresolved perform step out. This will
// be the case when calling unknown functions and having the debugger stopped
// in an unhandled exception.
if (!frame->function()->IsJSFunction()) {
// Step out: Find the calling JavaScript frame and flood it with
// breakpoints.
frames_it.Advance();
// Fill the function to return to with one-shot break points.
JSFunction* function = JSFunction::cast(frames_it.frame()->function());
FloodWithOneShot(Handle<SharedFunctionInfo>(function->shared()));
return;
}
// Get the debug info (create it if it does not exist).
Handle<SharedFunctionInfo> shared =
Handle<SharedFunctionInfo>(JSFunction::cast(frame->function())->shared());
if (!EnsureDebugInfo(shared)) {
// Return if ensuring debug info failed.
return;
}
Handle<DebugInfo> debug_info = GetDebugInfo(shared);
// Find the break location where execution has stopped.
BreakLocationIterator it(debug_info, ALL_BREAK_LOCATIONS);
it.FindBreakLocationFromAddress(frame->pc());
// Compute whether or not the target is a call target.
bool is_call_target = false;
bool is_load_or_store = false;
bool is_inline_cache_stub = false;
Handle<Code> call_function_stub;
if (RelocInfo::IsCodeTarget(it.rinfo()->rmode())) {
Address target = it.rinfo()->target_address();
Code* code = Code::GetCodeFromTargetAddress(target);
if (code->is_call_stub()) {
is_call_target = true;
}
if (code->is_inline_cache_stub()) {
is_inline_cache_stub = true;
is_load_or_store = !is_call_target;
}
// Check if target code is CallFunction stub.
Code* maybe_call_function_stub = code;
// If there is a breakpoint at this line look at the original code to
// check if it is a CallFunction stub.
if (it.IsDebugBreak()) {
Address original_target = it.original_rinfo()->target_address();
maybe_call_function_stub =
Code::GetCodeFromTargetAddress(original_target);
}
if (maybe_call_function_stub->kind() == Code::STUB &&
maybe_call_function_stub->major_key() == CodeStub::CallFunction) {
// Save reference to the code as we may need it to find out arguments
// count for 'step in' later.
call_function_stub = Handle<Code>(maybe_call_function_stub);
}
}
// If this is the last break code target step out is the only possibility.
if (it.IsExit() || step_action == StepOut) {
if (step_action == StepOut) {
// Skip step_count frames starting with the current one.
while (step_count-- > 0 && !frames_it.done()) {
frames_it.Advance();
}
} else {
ASSERT(it.IsExit());
frames_it.Advance();
}
// Skip builtin functions on the stack.
while (!frames_it.done() &&
JSFunction::cast(frames_it.frame()->function())->IsBuiltin()) {
frames_it.Advance();
}
// Step out: If there is a JavaScript caller frame, we need to
// flood it with breakpoints.
if (!frames_it.done()) {
// Fill the function to return to with one-shot break points.
JSFunction* function = JSFunction::cast(frames_it.frame()->function());
FloodWithOneShot(Handle<SharedFunctionInfo>(function->shared()));
// Set target frame pointer.
ActivateStepOut(frames_it.frame());
}
} else if (!(is_inline_cache_stub || RelocInfo::IsConstructCall(it.rmode()) ||
!call_function_stub.is_null())
|| step_action == StepNext || step_action == StepMin) {
// Step next or step min.
// Fill the current function with one-shot break points.
FloodWithOneShot(shared);
// Remember source position and frame to handle step next.
thread_local_.last_statement_position_ =
debug_info->code()->SourceStatementPosition(frame->pc());
thread_local_.last_fp_ = frame->fp();
} else {
// If it's CallFunction stub ensure target function is compiled and flood
// it with one shot breakpoints.
if (!call_function_stub.is_null()) {
// Find out number of arguments from the stub minor key.
// Reverse lookup required as the minor key cannot be retrieved
// from the code object.
Handle<Object> obj(
Heap::code_stubs()->SlowReverseLookup(*call_function_stub));
ASSERT(*obj != Heap::undefined_value());
ASSERT(obj->IsSmi());
// Get the STUB key and extract major and minor key.
uint32_t key = Smi::cast(*obj)->value();
// Argc in the stub is the number of arguments passed - not the
// expected arguments of the called function.
int call_function_arg_count =
CallFunctionStub::ExtractArgcFromMinorKey(
CodeStub::MinorKeyFromKey(key));
ASSERT(call_function_stub->major_key() ==
CodeStub::MajorKeyFromKey(key));
// Find target function on the expression stack.
// Expression stack looks like this (top to bottom):
// argN
// ...
// arg0
// Receiver
// Function to call
int expressions_count = frame->ComputeExpressionsCount();
ASSERT(expressions_count - 2 - call_function_arg_count >= 0);
Object* fun = frame->GetExpression(
expressions_count - 2 - call_function_arg_count);
if (fun->IsJSFunction()) {
Handle<JSFunction> js_function(JSFunction::cast(fun));
// Don't step into builtins.
if (!js_function->IsBuiltin()) {
// It will also compile target function if it's not compiled yet.
FloodWithOneShot(Handle<SharedFunctionInfo>(js_function->shared()));
}
}
}
// Fill the current function with one-shot break points even for step in on
// a call target as the function called might be a native function for
// which step in will not stop. It also prepares for stepping in
// getters/setters.
FloodWithOneShot(shared);
if (is_load_or_store) {
// Remember source position and frame to handle step in getter/setter. If
// there is a custom getter/setter it will be handled in
// Object::Get/SetPropertyWithCallback, otherwise the step action will be
// propagated on the next Debug::Break.
thread_local_.last_statement_position_ =
debug_info->code()->SourceStatementPosition(frame->pc());
thread_local_.last_fp_ = frame->fp();
}
// Step in or Step in min
it.PrepareStepIn();
ActivateStepIn(frame);
}
}
// Check whether the current debug break should be reported to the debugger. It
// is used to have step next and step in only report break back to the debugger
// if on a different frame or in a different statement. In some situations
// there will be several break points in the same statement when the code is
// flooded with one-shot break points. This function helps to perform several
// steps before reporting break back to the debugger.
bool Debug::StepNextContinue(BreakLocationIterator* break_location_iterator,
JavaScriptFrame* frame) {
// If the step last action was step next or step in make sure that a new
// statement is hit.
if (thread_local_.last_step_action_ == StepNext ||
thread_local_.last_step_action_ == StepIn) {
// Never continue if returning from function.
if (break_location_iterator->IsExit()) return false;
// Continue if we are still on the same frame and in the same statement.
int current_statement_position =
break_location_iterator->code()->SourceStatementPosition(frame->pc());
return thread_local_.last_fp_ == frame->fp() &&
thread_local_.last_statement_position_ == current_statement_position;
}
// No step next action - don't continue.
return false;
}
// Check whether the code object at the specified address is a debug break code
// object.
bool Debug::IsDebugBreak(Address addr) {
Code* code = Code::GetCodeFromTargetAddress(addr);
return code->ic_state() == DEBUG_BREAK;
}
// Check whether a code stub with the specified major key is a possible break
// point location when looking for source break locations.
bool Debug::IsSourceBreakStub(Code* code) {
CodeStub::Major major_key = code->major_key();
return major_key == CodeStub::CallFunction;
}
// Check whether a code stub with the specified major key is a possible break
// location.
bool Debug::IsBreakStub(Code* code) {
CodeStub::Major major_key = code->major_key();
return major_key == CodeStub::CallFunction ||
major_key == CodeStub::StackCheck;
}
// Find the builtin to use for invoking the debug break
Handle<Code> Debug::FindDebugBreak(Handle<Code> code, RelocInfo::Mode mode) {
// Find the builtin debug break function matching the calling convention
// used by the call site.
if (code->is_inline_cache_stub()) {
switch (code->kind()) {
case Code::CALL_IC:
return ComputeCallDebugBreak(code->arguments_count());
case Code::LOAD_IC:
return Handle<Code>(Builtins::builtin(Builtins::LoadIC_DebugBreak));
case Code::STORE_IC:
return Handle<Code>(Builtins::builtin(Builtins::StoreIC_DebugBreak));
case Code::KEYED_LOAD_IC:
return Handle<Code>(
Builtins::builtin(Builtins::KeyedLoadIC_DebugBreak));
case Code::KEYED_STORE_IC:
return Handle<Code>(
Builtins::builtin(Builtins::KeyedStoreIC_DebugBreak));
default:
UNREACHABLE();
}
}
if (RelocInfo::IsConstructCall(mode)) {
Handle<Code> result =
Handle<Code>(Builtins::builtin(Builtins::ConstructCall_DebugBreak));
return result;
}
if (code->kind() == Code::STUB) {
ASSERT(code->major_key() == CodeStub::CallFunction ||
code->major_key() == CodeStub::StackCheck);
Handle<Code> result =
Handle<Code>(Builtins::builtin(Builtins::StubNoRegisters_DebugBreak));
return result;
}
UNREACHABLE();
return Handle<Code>::null();
}
// Simple function for returning the source positions for active break points.
Handle<Object> Debug::GetSourceBreakLocations(
Handle<SharedFunctionInfo> shared) {
if (!HasDebugInfo(shared)) return Handle<Object>(Heap::undefined_value());
Handle<DebugInfo> debug_info = GetDebugInfo(shared);
if (debug_info->GetBreakPointCount() == 0) {
return Handle<Object>(Heap::undefined_value());
}
Handle<FixedArray> locations =
Factory::NewFixedArray(debug_info->GetBreakPointCount());
int count = 0;
for (int i = 0; i < debug_info->break_points()->length(); i++) {
if (!debug_info->break_points()->get(i)->IsUndefined()) {
BreakPointInfo* break_point_info =
BreakPointInfo::cast(debug_info->break_points()->get(i));
if (break_point_info->GetBreakPointCount() > 0) {
locations->set(count++, break_point_info->statement_position());
}
}
}
return locations;
}
void Debug::NewBreak(StackFrame::Id break_frame_id) {
thread_local_.break_frame_id_ = break_frame_id;
thread_local_.break_id_ = ++thread_local_.break_count_;
}
void Debug::SetBreak(StackFrame::Id break_frame_id, int break_id) {
thread_local_.break_frame_id_ = break_frame_id;
thread_local_.break_id_ = break_id;
}
// Handle stepping into a function.
void Debug::HandleStepIn(Handle<JSFunction> function,
Handle<Object> holder,
Address fp,
bool is_constructor) {
// If the frame pointer is not supplied by the caller find it.
if (fp == 0) {
StackFrameIterator it;
it.Advance();
// For constructor functions skip another frame.
if (is_constructor) {
ASSERT(it.frame()->is_construct());
it.Advance();
}
fp = it.frame()->fp();
}
// Flood the function with one-shot break points if it is called from where
// step into was requested.
if (fp == Debug::step_in_fp()) {
// Don't allow step into functions in the native context.
if (!function->IsBuiltin()) {
if (function->shared()->code() ==
Builtins::builtin(Builtins::FunctionApply) ||
function->shared()->code() ==
Builtins::builtin(Builtins::FunctionCall)) {
// Handle function.apply and function.call separately to flood the
// function to be called and not the code for Builtins::FunctionApply or
// Builtins::FunctionCall. The receiver of call/apply is the target
// function.
if (!holder.is_null() && holder->IsJSFunction() &&
!JSFunction::cast(*holder)->IsBuiltin()) {
Handle<SharedFunctionInfo> shared_info(
JSFunction::cast(*holder)->shared());
Debug::FloodWithOneShot(shared_info);
}
} else {
Debug::FloodWithOneShot(Handle<SharedFunctionInfo>(function->shared()));
}
}
}
}
void Debug::ClearStepping() {
// Clear the various stepping setup.
ClearOneShot();
ClearStepIn();
ClearStepOut();
ClearStepNext();
// Clear multiple step counter.
thread_local_.step_count_ = 0;
}
// Clears all the one-shot break points that are currently set. Normally this
// function is called each time a break point is hit as one shot break points
// are used to support stepping.
void Debug::ClearOneShot() {
// The current implementation just runs through all the breakpoints. When the
// last break point for a function is removed that function is automatically
// removed from the list.
DebugInfoListNode* node = debug_info_list_;
while (node != NULL) {
BreakLocationIterator it(node->debug_info(), ALL_BREAK_LOCATIONS);
while (!it.Done()) {
it.ClearOneShot();
it.Next();
}
node = node->next();
}
}
void Debug::ActivateStepIn(StackFrame* frame) {
ASSERT(!StepOutActive());
thread_local_.step_into_fp_ = frame->fp();
}
void Debug::ClearStepIn() {
thread_local_.step_into_fp_ = 0;
}
void Debug::ActivateStepOut(StackFrame* frame) {
ASSERT(!StepInActive());
thread_local_.step_out_fp_ = frame->fp();
}
void Debug::ClearStepOut() {
thread_local_.step_out_fp_ = 0;
}
void Debug::ClearStepNext() {
thread_local_.last_step_action_ = StepNone;
thread_local_.last_statement_position_ = RelocInfo::kNoPosition;
thread_local_.last_fp_ = 0;
}
// Ensures the debug information is present for shared.
bool Debug::EnsureDebugInfo(Handle<SharedFunctionInfo> shared) {
// Return if we already have the debug info for shared.
if (HasDebugInfo(shared)) return true;
// Ensure shared in compiled. Return false if this failed.
if (!EnsureCompiled(shared, CLEAR_EXCEPTION)) return false;
// Create the debug info object.
Handle<DebugInfo> debug_info = Factory::NewDebugInfo(shared);
// Add debug info to the list.
DebugInfoListNode* node = new DebugInfoListNode(*debug_info);
node->set_next(debug_info_list_);
debug_info_list_ = node;
// Now there is at least one break point.
has_break_points_ = true;
return true;
}
void Debug::RemoveDebugInfo(Handle<DebugInfo> debug_info) {
ASSERT(debug_info_list_ != NULL);
// Run through the debug info objects to find this one and remove it.
DebugInfoListNode* prev = NULL;
DebugInfoListNode* current = debug_info_list_;
while (current != NULL) {
if (*current->debug_info() == *debug_info) {
// Unlink from list. If prev is NULL we are looking at the first element.
if (prev == NULL) {
debug_info_list_ = current->next();
} else {
prev->set_next(current->next());
}
current->debug_info()->shared()->set_debug_info(Heap::undefined_value());
delete current;
// If there are no more debug info objects there are not more break
// points.
has_break_points_ = debug_info_list_ != NULL;
return;
}
// Move to next in list.
prev = current;
current = current->next();
}
UNREACHABLE();
}
void Debug::SetAfterBreakTarget(JavaScriptFrame* frame) {
HandleScope scope;
// Get the executing function in which the debug break occurred.
Handle<SharedFunctionInfo> shared =
Handle<SharedFunctionInfo>(JSFunction::cast(frame->function())->shared());
if (!EnsureDebugInfo(shared)) {
// Return if we failed to retrieve the debug info.
return;
}
Handle<DebugInfo> debug_info = GetDebugInfo(shared);
Handle<Code> code(debug_info->code());
Handle<Code> original_code(debug_info->original_code());
#ifdef DEBUG
// Get the code which is actually executing.
Handle<Code> frame_code(frame->code());
ASSERT(frame_code.is_identical_to(code));
#endif
// Find the call address in the running code. This address holds the call to
// either a DebugBreakXXX or to the debug break return entry code if the
// break point is still active after processing the break point.
Address addr = frame->pc() - Assembler::kCallTargetAddressOffset;
// Check if the location is at JS exit.
bool at_js_return = false;
bool break_at_js_return_active = false;
RelocIterator it(debug_info->code());
while (!it.done()) {
if (RelocInfo::IsJSReturn(it.rinfo()->rmode())) {
at_js_return = (it.rinfo()->pc() ==
addr - Assembler::kPatchReturnSequenceAddressOffset);
break_at_js_return_active = it.rinfo()->IsPatchedReturnSequence();
}
it.next();
}
// Handle the jump to continue execution after break point depending on the
// break location.
if (at_js_return) {
// If the break point as return is still active jump to the corresponding
// place in the original code. If not the break point was removed during
// break point processing.
if (break_at_js_return_active) {
addr += original_code->instruction_start() - code->instruction_start();
}
// Move back to where the call instruction sequence started.
thread_local_.after_break_target_ =
addr - Assembler::kPatchReturnSequenceAddressOffset;
} else {
// Check if there still is a debug break call at the target address. If the
// break point has been removed it will have disappeared. If it have
// disappeared don't try to look in the original code as the running code
// will have the right address. This takes care of the case where the last
// break point is removed from the function and therefore no "original code"
// is available. If the debug break call is still there find the address in
// the original code.
if (IsDebugBreak(Assembler::target_address_at(addr))) {
// If the break point is still there find the call address which was
// overwritten in the original code by the call to DebugBreakXXX.
// Find the corresponding address in the original code.
addr += original_code->instruction_start() - code->instruction_start();
}
// Install jump to the call address in the original code. This will be the
// call which was overwritten by the call to DebugBreakXXX.
thread_local_.after_break_target_ = Assembler::target_address_at(addr);
}
}
bool Debug::IsDebugGlobal(GlobalObject* global) {
return IsLoaded() && global == Debug::debug_context()->global();
}
void Debug::ClearMirrorCache() {
HandleScope scope;
ASSERT(Top::context() == *Debug::debug_context());
// Clear the mirror cache.
Handle<String> function_name =
Factory::LookupSymbol(CStrVector("ClearMirrorCache"));
Handle<Object> fun(Top::global()->GetProperty(*function_name));
ASSERT(fun->IsJSFunction());
bool caught_exception;
Handle<Object> js_object = Execution::TryCall(
Handle<JSFunction>::cast(fun),
Handle<JSObject>(Debug::debug_context()->global()),
0, NULL, &caught_exception);
}
void Debug::CreateScriptCache() {
HandleScope scope;
// Perform two GCs to get rid of all unreferenced scripts. The first GC gets
// rid of all the cached script wrappers and the second gets rid of the
// scripts which are no longer referenced.
Heap::CollectAllGarbage(false);
Heap::CollectAllGarbage(false);
ASSERT(script_cache_ == NULL);
script_cache_ = new ScriptCache();
// Scan heap for Script objects.
int count = 0;
HeapIterator iterator;
for (HeapObject* obj = iterator.next(); obj != NULL; obj = iterator.next()) {
if (obj->IsScript() && Script::cast(obj)->HasValidSource()) {
script_cache_->Add(Handle<Script>(Script::cast(obj)));
count++;
}
}
}
void Debug::DestroyScriptCache() {
// Get rid of the script cache if it was created.
if (script_cache_ != NULL) {
delete script_cache_;
script_cache_ = NULL;
}
}
void Debug::AddScriptToScriptCache(Handle<Script> script) {
if (script_cache_ != NULL) {
script_cache_->Add(script);
}
}
Handle<FixedArray> Debug::GetLoadedScripts() {
// Create and fill the script cache when the loaded scripts is requested for
// the first time.
if (script_cache_ == NULL) {
CreateScriptCache();
}
// If the script cache is not active just return an empty array.
ASSERT(script_cache_ != NULL);
if (script_cache_ == NULL) {
Factory::NewFixedArray(0);
}
// Perform GC to get unreferenced scripts evicted from the cache before
// returning the content.
Heap::CollectAllGarbage(false);
// Get the scripts from the cache.
return script_cache_->GetScripts();
}
void Debug::AfterGarbageCollection() {
// Generate events for collected scripts.
if (script_cache_ != NULL) {
script_cache_->ProcessCollectedScripts();
}
}
Mutex* Debugger::debugger_access_ = OS::CreateMutex();
Handle<Object> Debugger::event_listener_ = Handle<Object>();
Handle<Object> Debugger::event_listener_data_ = Handle<Object>();
bool Debugger::compiling_natives_ = false;
bool Debugger::is_loading_debugger_ = false;
bool Debugger::never_unload_debugger_ = false;
v8::Debug::MessageHandler2 Debugger::message_handler_ = NULL;
bool Debugger::debugger_unload_pending_ = false;
v8::Debug::HostDispatchHandler Debugger::host_dispatch_handler_ = NULL;
Mutex* Debugger::dispatch_handler_access_ = OS::CreateMutex();
v8::Debug::DebugMessageDispatchHandler
Debugger::debug_message_dispatch_handler_ = NULL;
MessageDispatchHelperThread* Debugger::message_dispatch_helper_thread_ = NULL;
int Debugger::host_dispatch_micros_ = 100 * 1000;
DebuggerAgent* Debugger::agent_ = NULL;
LockingCommandMessageQueue Debugger::command_queue_(kQueueInitialSize);
Semaphore* Debugger::command_received_ = OS::CreateSemaphore(0);
Handle<Object> Debugger::MakeJSObject(Vector<const char> constructor_name,
int argc, Object*** argv,
bool* caught_exception) {
ASSERT(Top::context() == *Debug::debug_context());
// Create the execution state object.
Handle<String> constructor_str = Factory::LookupSymbol(constructor_name);
Handle<Object> constructor(Top::global()->GetProperty(*constructor_str));
ASSERT(constructor->IsJSFunction());
if (!constructor->IsJSFunction()) {
*caught_exception = true;
return Factory::undefined_value();
}
Handle<Object> js_object = Execution::TryCall(
Handle<JSFunction>::cast(constructor),
Handle<JSObject>(Debug::debug_context()->global()), argc, argv,
caught_exception);
return js_object;
}
Handle<Object> Debugger::MakeExecutionState(bool* caught_exception) {
// Create the execution state object.
Handle<Object> break_id = Factory::NewNumberFromInt(Debug::break_id());
const int argc = 1;
Object** argv[argc] = { break_id.location() };
return MakeJSObject(CStrVector("MakeExecutionState"),
argc, argv, caught_exception);
}
Handle<Object> Debugger::MakeBreakEvent(Handle<Object> exec_state,
Handle<Object> break_points_hit,
bool* caught_exception) {
// Create the new break event object.
const int argc = 2;
Object** argv[argc] = { exec_state.location(),
break_points_hit.location() };
return MakeJSObject(CStrVector("MakeBreakEvent"),
argc,
argv,
caught_exception);
}
Handle<Object> Debugger::MakeExceptionEvent(Handle<Object> exec_state,
Handle<Object> exception,
bool uncaught,
bool* caught_exception) {
// Create the new exception event object.
const int argc = 3;
Object** argv[argc] = { exec_state.location(),
exception.location(),
uncaught ? Factory::true_value().location() :
Factory::false_value().location()};
return MakeJSObject(CStrVector("MakeExceptionEvent"),
argc, argv, caught_exception);
}
Handle<Object> Debugger::MakeNewFunctionEvent(Handle<Object> function,
bool* caught_exception) {
// Create the new function event object.
const int argc = 1;
Object** argv[argc] = { function.location() };
return MakeJSObject(CStrVector("MakeNewFunctionEvent"),
argc, argv, caught_exception);
}
Handle<Object> Debugger::MakeCompileEvent(Handle<Script> script,
bool before,
bool* caught_exception) {
// Create the compile event object.
Handle<Object> exec_state = MakeExecutionState(caught_exception);
Handle<Object> script_wrapper = GetScriptWrapper(script);
const int argc = 3;
Object** argv[argc] = { exec_state.location(),
script_wrapper.location(),
before ? Factory::true_value().location() :
Factory::false_value().location() };
return MakeJSObject(CStrVector("MakeCompileEvent"),
argc,
argv,
caught_exception);
}
Handle<Object> Debugger::MakeScriptCollectedEvent(int id,
bool* caught_exception) {
// Create the script collected event object.
Handle<Object> exec_state = MakeExecutionState(caught_exception);
Handle<Object> id_object = Handle<Smi>(Smi::FromInt(id));
const int argc = 2;
Object** argv[argc] = { exec_state.location(), id_object.location() };
return MakeJSObject(CStrVector("MakeScriptCollectedEvent"),
argc,
argv,
caught_exception);
}
void Debugger::OnException(Handle<Object> exception, bool uncaught) {
HandleScope scope;
// Bail out based on state or if there is no listener for this event
if (Debug::InDebugger()) return;
if (!Debugger::EventActive(v8::Exception)) return;
// Bail out if exception breaks are not active
if (uncaught) {
// Uncaught exceptions are reported by either flags.
if (!(Debug::break_on_uncaught_exception() ||
Debug::break_on_exception())) return;
} else {
// Caught exceptions are reported is activated.
if (!Debug::break_on_exception()) return;
}
// Enter the debugger.
EnterDebugger debugger;
if (debugger.FailedToEnter()) return;
// Clear all current stepping setup.
Debug::ClearStepping();
// Create the event data object.
bool caught_exception = false;
Handle<Object> exec_state = MakeExecutionState(&caught_exception);
Handle<Object> event_data;
if (!caught_exception) {
event_data = MakeExceptionEvent(exec_state, exception, uncaught,
&caught_exception);
}
// Bail out and don't call debugger if exception.
if (caught_exception) {
return;
}
// Process debug event.
ProcessDebugEvent(v8::Exception, Handle<JSObject>::cast(event_data), false);
// Return to continue execution from where the exception was thrown.
}
void Debugger::OnDebugBreak(Handle<Object> break_points_hit,
bool auto_continue) {
HandleScope scope;
// Debugger has already been entered by caller.
ASSERT(Top::context() == *Debug::debug_context());
// Bail out if there is no listener for this event
if (!Debugger::EventActive(v8::Break)) return;
// Debugger must be entered in advance.
ASSERT(Top::context() == *Debug::debug_context());
// Create the event data object.
bool caught_exception = false;
Handle<Object> exec_state = MakeExecutionState(&caught_exception);
Handle<Object> event_data;
if (!caught_exception) {
event_data = MakeBreakEvent(exec_state, break_points_hit,
&caught_exception);
}
// Bail out and don't call debugger if exception.
if (caught_exception) {
return;
}
// Process debug event.
ProcessDebugEvent(v8::Break,
Handle<JSObject>::cast(event_data),
auto_continue);
}
void Debugger::OnBeforeCompile(Handle<Script> script) {
HandleScope scope;
// Bail out based on state or if there is no listener for this event
if (Debug::InDebugger()) return;
if (compiling_natives()) return;
if (!EventActive(v8::BeforeCompile)) return;
// Enter the debugger.
EnterDebugger debugger;
if (debugger.FailedToEnter()) return;
// Create the event data object.
bool caught_exception = false;
Handle<Object> event_data = MakeCompileEvent(script, true, &caught_exception);
// Bail out and don't call debugger if exception.
if (caught_exception) {
return;
}
// Process debug event.
ProcessDebugEvent(v8::BeforeCompile,
Handle<JSObject>::cast(event_data),
true);
}
// Handle debugger actions when a new script is compiled.
void Debugger::OnAfterCompile(Handle<Script> script,
AfterCompileFlags after_compile_flags) {
HandleScope scope;
// Add the newly compiled script to the script cache.
Debug::AddScriptToScriptCache(script);
// No more to do if not debugging.
if (!IsDebuggerActive()) return;
// No compile events while compiling natives.
if (compiling_natives()) return;
// Store whether in debugger before entering debugger.
bool in_debugger = Debug::InDebugger();
// Enter the debugger.
EnterDebugger debugger;
if (debugger.FailedToEnter()) return;
// If debugging there might be script break points registered for this
// script. Make sure that these break points are set.
// Get the function UpdateScriptBreakPoints (defined in debug-debugger.js).
Handle<Object> update_script_break_points =
Handle<Object>(Debug::debug_context()->global()->GetProperty(
*Factory::LookupAsciiSymbol("UpdateScriptBreakPoints")));
if (!update_script_break_points->IsJSFunction()) {
return;
}
ASSERT(update_script_break_points->IsJSFunction());
// Wrap the script object in a proper JS object before passing it
// to JavaScript.
Handle<JSValue> wrapper = GetScriptWrapper(script);
// Call UpdateScriptBreakPoints expect no exceptions.
bool caught_exception = false;
const int argc = 1;
Object** argv[argc] = { reinterpret_cast<Object**>(wrapper.location()) };
Handle<Object> result = Execution::TryCall(
Handle<JSFunction>::cast(update_script_break_points),
Top::builtins(), argc, argv,
&caught_exception);
if (caught_exception) {
return;
}
// Bail out based on state or if there is no listener for this event
if (in_debugger && (after_compile_flags & SEND_WHEN_DEBUGGING) == 0) return;
if (!Debugger::EventActive(v8::AfterCompile)) return;
// Create the compile state object.
Handle<Object> event_data = MakeCompileEvent(script,
false,
&caught_exception);
// Bail out and don't call debugger if exception.
if (caught_exception) {
return;
}
// Process debug event.
ProcessDebugEvent(v8::AfterCompile,
Handle<JSObject>::cast(event_data),
true);
}
void Debugger::OnScriptCollected(int id) {
HandleScope scope;
// No more to do if not debugging.
if (!IsDebuggerActive()) return;
if (!Debugger::EventActive(v8::ScriptCollected)) return;
// Enter the debugger.
EnterDebugger debugger;
if (debugger.FailedToEnter()) return;
// Create the script collected state object.
bool caught_exception = false;
Handle<Object> event_data = MakeScriptCollectedEvent(id,
&caught_exception);
// Bail out and don't call debugger if exception.
if (caught_exception) {
return;
}
// Process debug event.
ProcessDebugEvent(v8::ScriptCollected,
Handle<JSObject>::cast(event_data),
true);
}
void Debugger::ProcessDebugEvent(v8::DebugEvent event,
Handle<JSObject> event_data,
bool auto_continue) {
HandleScope scope;
// Clear any pending debug break if this is a real break.
if (!auto_continue) {
Debug::clear_interrupt_pending(DEBUGBREAK);
}
// Create the execution state.
bool caught_exception = false;
Handle<Object> exec_state = MakeExecutionState(&caught_exception);
if (caught_exception) {
return;
}
// First notify the message handler if any.
if (message_handler_ != NULL) {
NotifyMessageHandler(event,
Handle<JSObject>::cast(exec_state),
event_data,
auto_continue);
}
// Notify registered debug event listener. This can be either a C or a
// JavaScript function.
if (!event_listener_.is_null()) {
if (event_listener_->IsProxy()) {
// C debug event listener.
Handle<Proxy> callback_obj(Handle<Proxy>::cast(event_listener_));
v8::Debug::EventCallback callback =
FUNCTION_CAST<v8::Debug::EventCallback>(callback_obj->proxy());
callback(event,
v8::Utils::ToLocal(Handle<JSObject>::cast(exec_state)),
v8::Utils::ToLocal(event_data),
v8::Utils::ToLocal(Handle<Object>::cast(event_listener_data_)));
} else {
// JavaScript debug event listener.
ASSERT(event_listener_->IsJSFunction());
Handle<JSFunction> fun(Handle<JSFunction>::cast(event_listener_));
// Invoke the JavaScript debug event listener.
const int argc = 4;
Object** argv[argc] = { Handle<Object>(Smi::FromInt(event)).location(),
exec_state.location(),
Handle<Object>::cast(event_data).location(),
event_listener_data_.location() };
Handle<Object> result = Execution::TryCall(fun, Top::global(),
argc, argv, &caught_exception);
// Silently ignore exceptions from debug event listeners.
}
}
}
void Debugger::UnloadDebugger() {
// Make sure that there are no breakpoints left.
Debug::ClearAllBreakPoints();
// Unload the debugger if feasible.
if (!never_unload_debugger_) {
Debug::Unload();
}
// Clear the flag indicating that the debugger should be unloaded.
debugger_unload_pending_ = false;
}
void Debugger::NotifyMessageHandler(v8::DebugEvent event,
Handle<JSObject> exec_state,
Handle<JSObject> event_data,
bool auto_continue) {
HandleScope scope;
if (!Debug::Load()) return;
// Process the individual events.
bool sendEventMessage = false;
switch (event) {
case v8::Break:
sendEventMessage = !auto_continue;
break;
case v8::Exception:
sendEventMessage = true;
break;
case v8::BeforeCompile:
break;
case v8::AfterCompile:
sendEventMessage = true;
break;
case v8::ScriptCollected:
sendEventMessage = true;
break;
case v8::NewFunction:
break;
default:
UNREACHABLE();
}
// The debug command interrupt flag might have been set when the command was
// added. It should be enough to clear the flag only once while we are in the
// debugger.
ASSERT(Debug::InDebugger());
StackGuard::Continue(DEBUGCOMMAND);
// Notify the debugger that a debug event has occurred unless auto continue is
// active in which case no event is send.
if (sendEventMessage) {
MessageImpl message = MessageImpl::NewEvent(
event,
auto_continue,
Handle<JSObject>::cast(exec_state),
Handle<JSObject>::cast(event_data));
InvokeMessageHandler(message);
}
// If auto continue don't make the event cause a break, but process messages
// in the queue if any. For script collected events don't even process
// messages in the queue as the execution state might not be what is expected
// by the client.
if ((auto_continue && !HasCommands()) || event == v8::ScriptCollected) {
return;
}
v8::TryCatch try_catch;
// DebugCommandProcessor goes here.
v8::Local<v8::Object> cmd_processor;
{
v8::Local<v8::Object> api_exec_state =
v8::Utils::ToLocal(Handle<JSObject>::cast(exec_state));
v8::Local<v8::String> fun_name =
v8::String::New("debugCommandProcessor");
v8::Local<v8::Function> fun =
v8::Function::Cast(*api_exec_state->Get(fun_name));
v8::Handle<v8::Boolean> running =
auto_continue ? v8::True() : v8::False();
static const int kArgc = 1;
v8::Handle<Value> argv[kArgc] = { running };
cmd_processor = v8::Object::Cast(*fun->Call(api_exec_state, kArgc, argv));
if (try_catch.HasCaught()) {
PrintLn(try_catch.Exception());
return;
}
}
bool running = auto_continue;
// Process requests from the debugger.
while (true) {
// Wait for new command in the queue.
if (Debugger::host_dispatch_handler_) {
// In case there is a host dispatch - do periodic dispatches.
if (!command_received_->Wait(host_dispatch_micros_)) {
// Timout expired, do the dispatch.
Debugger::host_dispatch_handler_();
continue;
}
} else {
// In case there is no host dispatch - just wait.
command_received_->Wait();
}
// Get the command from the queue.
CommandMessage command = command_queue_.Get();
Logger::DebugTag("Got request from command queue, in interactive loop.");
if (!Debugger::IsDebuggerActive()) {
// Delete command text and user data.
command.Dispose();
return;
}
// Invoke JavaScript to process the debug request.
v8::Local<v8::String> fun_name;
v8::Local<v8::Function> fun;
v8::Local<v8::Value> request;
v8::TryCatch try_catch;
fun_name = v8::String::New("processDebugRequest");
fun = v8::Function::Cast(*cmd_processor->Get(fun_name));
request = v8::String::New(command.text().start(),
command.text().length());
static const int kArgc = 1;
v8::Handle<Value> argv[kArgc] = { request };
v8::Local<v8::Value> response_val = fun->Call(cmd_processor, kArgc, argv);
// Get the response.
v8::Local<v8::String> response;
if (!try_catch.HasCaught()) {
// Get response string.
if (!response_val->IsUndefined()) {
response = v8::String::Cast(*response_val);
} else {
response = v8::String::New("");
}
// Log the JSON request/response.
if (FLAG_trace_debug_json) {
PrintLn(request);
PrintLn(response);
}
// Get the running state.
fun_name = v8::String::New("isRunning");
fun = v8::Function::Cast(*cmd_processor->Get(fun_name));
static const int kArgc = 1;
v8::Handle<Value> argv[kArgc] = { response };
v8::Local<v8::Value> running_val = fun->Call(cmd_processor, kArgc, argv);
if (!try_catch.HasCaught()) {
running = running_val->ToBoolean()->Value();
}
} else {
// In case of failure the result text is the exception text.
response = try_catch.Exception()->ToString();
}
// Return the result.
MessageImpl message = MessageImpl::NewResponse(
event,
running,
Handle<JSObject>::cast(exec_state),
Handle<JSObject>::cast(event_data),
Handle<String>(Utils::OpenHandle(*response)),
command.client_data());
InvokeMessageHandler(message);
command.Dispose();
// Return from debug event processing if either the VM is put into the
// runnning state (through a continue command) or auto continue is active
// and there are no more commands queued.
if (running && !HasCommands()) {
return;
}
}
}
void Debugger::SetEventListener(Handle<Object> callback,
Handle<Object> data) {
HandleScope scope;
// Clear the global handles for the event listener and the event listener data
// object.
if (!event_listener_.is_null()) {
GlobalHandles::Destroy(
reinterpret_cast<Object**>(event_listener_.location()));
event_listener_ = Handle<Object>();
}
if (!event_listener_data_.is_null()) {
GlobalHandles::Destroy(
reinterpret_cast<Object**>(event_listener_data_.location()));
event_listener_data_ = Handle<Object>();
}
// If there is a new debug event listener register it together with its data
// object.
if (!callback->IsUndefined() && !callback->IsNull()) {
event_listener_ = Handle<Object>::cast(GlobalHandles::Create(*callback));
if (data.is_null()) {
data = Factory::undefined_value();
}
event_listener_data_ = Handle<Object>::cast(GlobalHandles::Create(*data));
}
ListenersChanged();
}
void Debugger::SetMessageHandler(v8::Debug::MessageHandler2 handler) {
ScopedLock with(debugger_access_);
message_handler_ = handler;
ListenersChanged();
if (handler == NULL) {
// Send an empty command to the debugger if in a break to make JavaScript
// run again if the debugger is closed.
if (Debug::InDebugger()) {
ProcessCommand(Vector<const uint16_t>::empty());
}
}
}
void Debugger::ListenersChanged() {
if (IsDebuggerActive()) {
// Disable the compilation cache when the debugger is active.
CompilationCache::Disable();
debugger_unload_pending_ = false;
} else {
CompilationCache::Enable();
// Unload the debugger if event listener and message handler cleared.
// Schedule this for later, because we may be in non-V8 thread.
debugger_unload_pending_ = true;
}
}
void Debugger::SetHostDispatchHandler(v8::Debug::HostDispatchHandler handler,
int period) {
host_dispatch_handler_ = handler;
host_dispatch_micros_ = period * 1000;
}
void Debugger::SetDebugMessageDispatchHandler(
v8::Debug::DebugMessageDispatchHandler handler, bool provide_locker) {
ScopedLock with(dispatch_handler_access_);
debug_message_dispatch_handler_ = handler;
if (provide_locker && message_dispatch_helper_thread_ == NULL) {
message_dispatch_helper_thread_ = new MessageDispatchHelperThread;
message_dispatch_helper_thread_->Start();
}
}
// Calls the registered debug message handler. This callback is part of the
// public API.
void Debugger::InvokeMessageHandler(MessageImpl message) {
ScopedLock with(debugger_access_);
if (message_handler_ != NULL) {
message_handler_(message);
}
}
// Puts a command coming from the public API on the queue. Creates
// a copy of the command string managed by the debugger. Up to this
// point, the command data was managed by the API client. Called
// by the API client thread.
void Debugger::ProcessCommand(Vector<const uint16_t> command,
v8::Debug::ClientData* client_data) {
// Need to cast away const.
CommandMessage message = CommandMessage::New(
Vector<uint16_t>(const_cast<uint16_t*>(command.start()),
command.length()),
client_data);
Logger::DebugTag("Put command on command_queue.");
command_queue_.Put(message);
command_received_->Signal();
// Set the debug command break flag to have the command processed.
if (!Debug::InDebugger()) {
StackGuard::DebugCommand();
}
MessageDispatchHelperThread* dispatch_thread;
{
ScopedLock with(dispatch_handler_access_);
dispatch_thread = message_dispatch_helper_thread_;
}
if (dispatch_thread == NULL) {
CallMessageDispatchHandler();
} else {
dispatch_thread->Schedule();
}
}
bool Debugger::HasCommands() {
return !command_queue_.IsEmpty();
}
bool Debugger::IsDebuggerActive() {
ScopedLock with(debugger_access_);
return message_handler_ != NULL || !event_listener_.is_null();
}
Handle<Object> Debugger::Call(Handle<JSFunction> fun,
Handle<Object> data,
bool* pending_exception) {
// When calling functions in the debugger prevent it from beeing unloaded.
Debugger::never_unload_debugger_ = true;
// Enter the debugger.
EnterDebugger debugger;
if (debugger.FailedToEnter()) {
return Factory::undefined_value();
}
// Create the execution state.
bool caught_exception = false;
Handle<Object> exec_state = MakeExecutionState(&caught_exception);
if (caught_exception) {
return Factory::undefined_value();
}
static const int kArgc = 2;
Object** argv[kArgc] = { exec_state.location(), data.location() };
Handle<Object> result = Execution::Call(
fun,
Handle<Object>(Debug::debug_context_->global_proxy()),
kArgc,
argv,
pending_exception);
return result;
}
static void StubMessageHandler2(const v8::Debug::Message& message) {
// Simply ignore message.
}
bool Debugger::StartAgent(const char* name, int port,
bool wait_for_connection) {
if (wait_for_connection) {
// Suspend V8 if it is already running or set V8 to suspend whenever
// it starts.
// Provide stub message handler; V8 auto-continues each suspend
// when there is no message handler; we doesn't need it.
// Once become suspended, V8 will stay so indefinitely long, until remote
// debugger connects and issues "continue" command.
Debugger::message_handler_ = StubMessageHandler2;
v8::Debug::DebugBreak();
}
if (Socket::Setup()) {
agent_ = new DebuggerAgent(name, port);
agent_->Start();
return true;
}
return false;
}
void Debugger::StopAgent() {
if (agent_ != NULL) {
agent_->Shutdown();
agent_->Join();
delete agent_;
agent_ = NULL;
}
}
void Debugger::WaitForAgent() {
if (agent_ != NULL)
agent_->WaitUntilListening();
}
void Debugger::CallMessageDispatchHandler() {
v8::Debug::DebugMessageDispatchHandler handler;
{
ScopedLock with(dispatch_handler_access_);
handler = Debugger::debug_message_dispatch_handler_;
}
if (handler != NULL) {
handler();
}
}
MessageImpl MessageImpl::NewEvent(DebugEvent event,
bool running,
Handle<JSObject> exec_state,
Handle<JSObject> event_data) {
MessageImpl message(true, event, running,
exec_state, event_data, Handle<String>(), NULL);
return message;
}
MessageImpl MessageImpl::NewResponse(DebugEvent event,
bool running,
Handle<JSObject> exec_state,
Handle<JSObject> event_data,
Handle<String> response_json,
v8::Debug::ClientData* client_data) {
MessageImpl message(false, event, running,
exec_state, event_data, response_json, client_data);
return message;
}
MessageImpl::MessageImpl(bool is_event,
DebugEvent event,
bool running,
Handle<JSObject> exec_state,
Handle<JSObject> event_data,
Handle<String> response_json,
v8::Debug::ClientData* client_data)
: is_event_(is_event),
event_(event),
running_(running),
exec_state_(exec_state),
event_data_(event_data),
response_json_(response_json),
client_data_(client_data) {}
bool MessageImpl::IsEvent() const {
return is_event_;
}
bool MessageImpl::IsResponse() const {
return !is_event_;
}
DebugEvent MessageImpl::GetEvent() const {
return event_;
}
bool MessageImpl::WillStartRunning() const {
return running_;
}
v8::Handle<v8::Object> MessageImpl::GetExecutionState() const {
return v8::Utils::ToLocal(exec_state_);
}
v8::Handle<v8::Object> MessageImpl::GetEventData() const {
return v8::Utils::ToLocal(event_data_);
}
v8::Handle<v8::String> MessageImpl::GetJSON() const {
v8::HandleScope scope;
if (IsEvent()) {
// Call toJSONProtocol on the debug event object.
Handle<Object> fun = GetProperty(event_data_, "toJSONProtocol");
if (!fun->IsJSFunction()) {
return v8::Handle<v8::String>();
}
bool caught_exception;
Handle<Object> json = Execution::TryCall(Handle<JSFunction>::cast(fun),
event_data_,
0, NULL, &caught_exception);
if (caught_exception || !json->IsString()) {
return v8::Handle<v8::String>();
}
return scope.Close(v8::Utils::ToLocal(Handle<String>::cast(json)));
} else {
return v8::Utils::ToLocal(response_json_);
}
}
v8::Handle<v8::Context> MessageImpl::GetEventContext() const {
Handle<Context> context = Debug::debugger_entry()->GetContext();
// Top::context() may have been NULL when "script collected" event occured.
if (*context == NULL) {
ASSERT(event_ == v8::ScriptCollected);
return v8::Local<v8::Context>();
}
Handle<Context> global_context(context->global_context());
return v8::Utils::ToLocal(global_context);
}
v8::Debug::ClientData* MessageImpl::GetClientData() const {
return client_data_;
}
CommandMessage::CommandMessage() : text_(Vector<uint16_t>::empty()),
client_data_(NULL) {
}
CommandMessage::CommandMessage(const Vector<uint16_t>& text,
v8::Debug::ClientData* data)
: text_(text),
client_data_(data) {
}
CommandMessage::~CommandMessage() {
}
void CommandMessage::Dispose() {
text_.Dispose();
delete client_data_;
client_data_ = NULL;
}
CommandMessage CommandMessage::New(const Vector<uint16_t>& command,
v8::Debug::ClientData* data) {
return CommandMessage(command.Clone(), data);
}
CommandMessageQueue::CommandMessageQueue(int size) : start_(0), end_(0),
size_(size) {
messages_ = NewArray<CommandMessage>(size);
}
CommandMessageQueue::~CommandMessageQueue() {
while (!IsEmpty()) {
CommandMessage m = Get();
m.Dispose();
}
DeleteArray(messages_);
}
CommandMessage CommandMessageQueue::Get() {
ASSERT(!IsEmpty());
int result = start_;
start_ = (start_ + 1) % size_;
return messages_[result];
}
void CommandMessageQueue::Put(const CommandMessage& message) {
if ((end_ + 1) % size_ == start_) {
Expand();
}
messages_[end_] = message;
end_ = (end_ + 1) % size_;
}
void CommandMessageQueue::Expand() {
CommandMessageQueue new_queue(size_ * 2);
while (!IsEmpty()) {
new_queue.Put(Get());
}
CommandMessage* array_to_free = messages_;
*this = new_queue;
new_queue.messages_ = array_to_free;
// Make the new_queue empty so that it doesn't call Dispose on any messages.
new_queue.start_ = new_queue.end_;
// Automatic destructor called on new_queue, freeing array_to_free.
}
LockingCommandMessageQueue::LockingCommandMessageQueue(int size)
: queue_(size) {
lock_ = OS::CreateMutex();
}
LockingCommandMessageQueue::~LockingCommandMessageQueue() {
delete lock_;
}
bool LockingCommandMessageQueue::IsEmpty() const {
ScopedLock sl(lock_);
return queue_.IsEmpty();
}
CommandMessage LockingCommandMessageQueue::Get() {
ScopedLock sl(lock_);
CommandMessage result = queue_.Get();
Logger::DebugEvent("Get", result.text());
return result;
}
void LockingCommandMessageQueue::Put(const CommandMessage& message) {
ScopedLock sl(lock_);
queue_.Put(message);
Logger::DebugEvent("Put", message.text());
}
void LockingCommandMessageQueue::Clear() {
ScopedLock sl(lock_);
queue_.Clear();
}
MessageDispatchHelperThread::MessageDispatchHelperThread()
: sem_(OS::CreateSemaphore(0)), mutex_(OS::CreateMutex()),
already_signalled_(false) {
}
MessageDispatchHelperThread::~MessageDispatchHelperThread() {
delete mutex_;
delete sem_;
}
void MessageDispatchHelperThread::Schedule() {
{
ScopedLock lock(mutex_);
if (already_signalled_) {
return;
}
already_signalled_ = true;
}
sem_->Signal();
}
void MessageDispatchHelperThread::Run() {
while (true) {
sem_->Wait();
{
ScopedLock lock(mutex_);
already_signalled_ = false;
}
{
Locker locker;
Debugger::CallMessageDispatchHandler();
}
}
}
#endif // ENABLE_DEBUGGER_SUPPORT
} } // namespace v8::internal
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