v8/src/contexts.cc
yangguo 835b038331 [debugger] correctly find function context.
In the debugger we are interested in getting the context for the
current frame, which is usually a function context. To do that,
we used to call Context::declaration_context, which may also
return a block context. This is wrong and can lead to crashes.
Instead, we now use a newly introduced Context::closure_context,
which skips block contexts. This works fine for the debugger,
since we have other means to find and materialize block contexts.

R=rossberg@chromium.org
BUG=chromium:582051
LOG=N

Review URL: https://codereview.chromium.org/1648263002

Cr-Commit-Position: refs/heads/master@{#33627}
2016-02-01 07:03:44 +00:00

590 lines
19 KiB
C++

// Copyright 2011 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/contexts.h"
#include "src/ast/scopeinfo.h"
#include "src/bootstrapper.h"
#include "src/debug/debug.h"
#include "src/isolate-inl.h"
namespace v8 {
namespace internal {
Handle<ScriptContextTable> ScriptContextTable::Extend(
Handle<ScriptContextTable> table, Handle<Context> script_context) {
Handle<ScriptContextTable> result;
int used = table->used();
int length = table->length();
CHECK(used >= 0 && length > 0 && used < length);
if (used + kFirstContextSlot == length) {
CHECK(length < Smi::kMaxValue / 2);
Isolate* isolate = table->GetIsolate();
Handle<FixedArray> copy =
isolate->factory()->CopyFixedArrayAndGrow(table, length);
copy->set_map(isolate->heap()->script_context_table_map());
result = Handle<ScriptContextTable>::cast(copy);
} else {
result = table;
}
result->set_used(used + 1);
DCHECK(script_context->IsScriptContext());
result->set(used + kFirstContextSlot, *script_context);
return result;
}
bool ScriptContextTable::Lookup(Handle<ScriptContextTable> table,
Handle<String> name, LookupResult* result) {
for (int i = 0; i < table->used(); i++) {
Handle<Context> context = GetContext(table, i);
DCHECK(context->IsScriptContext());
Handle<ScopeInfo> scope_info(context->scope_info());
int slot_index = ScopeInfo::ContextSlotIndex(
scope_info, name, &result->mode, &result->init_flag,
&result->maybe_assigned_flag);
if (slot_index >= 0) {
result->context_index = i;
result->slot_index = slot_index;
return true;
}
}
return false;
}
bool Context::is_declaration_context() {
if (IsFunctionContext() || IsNativeContext() || IsScriptContext()) {
return true;
}
if (!IsBlockContext()) return false;
Object* ext = extension();
// If we have the special extension, we immediately know it must be a
// declaration scope. That's just a small performance shortcut.
return ext->IsSloppyBlockWithEvalContextExtension()
|| ScopeInfo::cast(ext)->is_declaration_scope();
}
Context* Context::declaration_context() {
Context* current = this;
while (!current->is_declaration_context()) {
current = current->previous();
DCHECK(current->closure() == closure());
}
return current;
}
Context* Context::closure_context() {
Context* current = this;
while (!current->IsFunctionContext() && !current->IsScriptContext() &&
!current->IsNativeContext()) {
current = current->previous();
DCHECK(current->closure() == closure());
}
return current;
}
JSObject* Context::extension_object() {
DCHECK(IsNativeContext() || IsFunctionContext() || IsBlockContext());
HeapObject* object = extension();
if (object->IsTheHole()) return nullptr;
if (IsBlockContext()) {
if (!object->IsSloppyBlockWithEvalContextExtension()) return nullptr;
object = SloppyBlockWithEvalContextExtension::cast(object)->extension();
}
DCHECK(object->IsJSContextExtensionObject() ||
(IsNativeContext() && object->IsJSGlobalObject()));
return JSObject::cast(object);
}
JSReceiver* Context::extension_receiver() {
DCHECK(IsNativeContext() || IsWithContext() ||
IsFunctionContext() || IsBlockContext());
return IsWithContext() ? JSReceiver::cast(extension()) : extension_object();
}
ScopeInfo* Context::scope_info() {
DCHECK(IsModuleContext() || IsScriptContext() || IsBlockContext());
HeapObject* object = extension();
if (object->IsSloppyBlockWithEvalContextExtension()) {
DCHECK(IsBlockContext());
object = SloppyBlockWithEvalContextExtension::cast(object)->scope_info();
}
return ScopeInfo::cast(object);
}
String* Context::catch_name() {
DCHECK(IsCatchContext());
return String::cast(extension());
}
JSGlobalObject* Context::global_object() {
return JSGlobalObject::cast(native_context()->extension());
}
Context* Context::script_context() {
Context* current = this;
while (!current->IsScriptContext()) {
current = current->previous();
}
return current;
}
JSObject* Context::global_proxy() {
return native_context()->global_proxy_object();
}
void Context::set_global_proxy(JSObject* object) {
native_context()->set_global_proxy_object(object);
}
/**
* Lookups a property in an object environment, taking the unscopables into
* account. This is used For HasBinding spec algorithms for ObjectEnvironment.
*/
static Maybe<bool> UnscopableLookup(LookupIterator* it) {
Isolate* isolate = it->isolate();
Maybe<bool> found = JSReceiver::HasProperty(it);
if (!found.IsJust() || !found.FromJust()) return found;
Handle<Object> unscopables;
ASSIGN_RETURN_ON_EXCEPTION_VALUE(
isolate, unscopables,
Object::GetProperty(it->GetReceiver(),
isolate->factory()->unscopables_symbol()),
Nothing<bool>());
if (!unscopables->IsJSReceiver()) return Just(true);
Handle<Object> blacklist;
ASSIGN_RETURN_ON_EXCEPTION_VALUE(isolate, blacklist,
Object::GetProperty(unscopables, it->name()),
Nothing<bool>());
return Just(!blacklist->BooleanValue());
}
static void GetAttributesAndBindingFlags(VariableMode mode,
InitializationFlag init_flag,
PropertyAttributes* attributes,
BindingFlags* binding_flags) {
switch (mode) {
case VAR:
*attributes = NONE;
*binding_flags = MUTABLE_IS_INITIALIZED;
break;
case LET:
*attributes = NONE;
*binding_flags = (init_flag == kNeedsInitialization)
? MUTABLE_CHECK_INITIALIZED
: MUTABLE_IS_INITIALIZED;
break;
case CONST_LEGACY:
*attributes = READ_ONLY;
*binding_flags = (init_flag == kNeedsInitialization)
? IMMUTABLE_CHECK_INITIALIZED
: IMMUTABLE_IS_INITIALIZED;
break;
case CONST:
*attributes = READ_ONLY;
*binding_flags = (init_flag == kNeedsInitialization)
? IMMUTABLE_CHECK_INITIALIZED_HARMONY
: IMMUTABLE_IS_INITIALIZED_HARMONY;
break;
case IMPORT:
// TODO(ES6)
UNREACHABLE();
break;
case DYNAMIC:
case DYNAMIC_GLOBAL:
case DYNAMIC_LOCAL:
case TEMPORARY:
// Note: Fixed context slots are statically allocated by the compiler.
// Statically allocated variables always have a statically known mode,
// which is the mode with which they were declared when added to the
// scope. Thus, the DYNAMIC mode (which corresponds to dynamically
// declared variables that were introduced through declaration nodes)
// must not appear here.
UNREACHABLE();
break;
}
}
Handle<Object> Context::Lookup(Handle<String> name,
ContextLookupFlags flags,
int* index,
PropertyAttributes* attributes,
BindingFlags* binding_flags) {
Isolate* isolate = GetIsolate();
Handle<Context> context(this, isolate);
bool follow_context_chain = (flags & FOLLOW_CONTEXT_CHAIN) != 0;
*index = kNotFound;
*attributes = ABSENT;
*binding_flags = MISSING_BINDING;
if (FLAG_trace_contexts) {
PrintF("Context::Lookup(");
name->ShortPrint();
PrintF(")\n");
}
do {
if (FLAG_trace_contexts) {
PrintF(" - looking in context %p", reinterpret_cast<void*>(*context));
if (context->IsScriptContext()) PrintF(" (script context)");
if (context->IsNativeContext()) PrintF(" (native context)");
PrintF("\n");
}
// 1. Check global objects, subjects of with, and extension objects.
if ((context->IsNativeContext() ||
(context->IsWithContext() && ((flags & SKIP_WITH_CONTEXT) == 0)) ||
context->IsFunctionContext() || context->IsBlockContext()) &&
context->extension_receiver() != nullptr) {
Handle<JSReceiver> object(context->extension_receiver());
if (context->IsNativeContext()) {
if (FLAG_trace_contexts) {
PrintF(" - trying other script contexts\n");
}
// Try other script contexts.
Handle<ScriptContextTable> script_contexts(
context->global_object()->native_context()->script_context_table());
ScriptContextTable::LookupResult r;
if (ScriptContextTable::Lookup(script_contexts, name, &r)) {
if (FLAG_trace_contexts) {
Handle<Context> c = ScriptContextTable::GetContext(script_contexts,
r.context_index);
PrintF("=> found property in script context %d: %p\n",
r.context_index, reinterpret_cast<void*>(*c));
}
*index = r.slot_index;
GetAttributesAndBindingFlags(r.mode, r.init_flag, attributes,
binding_flags);
return ScriptContextTable::GetContext(script_contexts,
r.context_index);
}
}
// Context extension objects needs to behave as if they have no
// prototype. So even if we want to follow prototype chains, we need
// to only do a local lookup for context extension objects.
Maybe<PropertyAttributes> maybe = Nothing<PropertyAttributes>();
if ((flags & FOLLOW_PROTOTYPE_CHAIN) == 0 ||
object->IsJSContextExtensionObject()) {
maybe = JSReceiver::GetOwnPropertyAttributes(object, name);
} else if (context->IsWithContext()) {
// A with context will never bind "this".
if (name->Equals(*isolate->factory()->this_string())) {
maybe = Just(ABSENT);
} else {
LookupIterator it(object, name);
Maybe<bool> found = UnscopableLookup(&it);
if (found.IsNothing()) {
maybe = Nothing<PropertyAttributes>();
} else {
// Luckily, consumers of |maybe| only care whether the property
// was absent or not, so we can return a dummy |NONE| value
// for its attributes when it was present.
maybe = Just(found.FromJust() ? NONE : ABSENT);
}
}
} else {
maybe = JSReceiver::GetPropertyAttributes(object, name);
}
if (!maybe.IsJust()) return Handle<Object>();
DCHECK(!isolate->has_pending_exception());
*attributes = maybe.FromJust();
if (maybe.FromJust() != ABSENT) {
if (FLAG_trace_contexts) {
PrintF("=> found property in context object %p\n",
reinterpret_cast<void*>(*object));
}
return object;
}
}
// 2. Check the context proper if it has slots.
if (context->IsFunctionContext() || context->IsBlockContext() ||
context->IsScriptContext()) {
// Use serialized scope information of functions and blocks to search
// for the context index.
Handle<ScopeInfo> scope_info(context->IsFunctionContext()
? context->closure()->shared()->scope_info()
: context->scope_info());
VariableMode mode;
InitializationFlag init_flag;
// TODO(sigurds) Figure out whether maybe_assigned_flag should
// be used to compute binding_flags.
MaybeAssignedFlag maybe_assigned_flag;
int slot_index = ScopeInfo::ContextSlotIndex(
scope_info, name, &mode, &init_flag, &maybe_assigned_flag);
DCHECK(slot_index < 0 || slot_index >= MIN_CONTEXT_SLOTS);
if (slot_index >= 0) {
if (FLAG_trace_contexts) {
PrintF("=> found local in context slot %d (mode = %d)\n",
slot_index, mode);
}
*index = slot_index;
GetAttributesAndBindingFlags(mode, init_flag, attributes,
binding_flags);
return context;
}
// Check the slot corresponding to the intermediate context holding
// only the function name variable.
if (follow_context_chain && context->IsFunctionContext()) {
VariableMode mode;
int function_index = scope_info->FunctionContextSlotIndex(*name, &mode);
if (function_index >= 0) {
if (FLAG_trace_contexts) {
PrintF("=> found intermediate function in context slot %d\n",
function_index);
}
*index = function_index;
*attributes = READ_ONLY;
DCHECK(mode == CONST_LEGACY || mode == CONST);
*binding_flags = (mode == CONST_LEGACY)
? IMMUTABLE_IS_INITIALIZED : IMMUTABLE_IS_INITIALIZED_HARMONY;
return context;
}
}
} else if (context->IsCatchContext()) {
// Catch contexts have the variable name in the extension slot.
if (String::Equals(name, handle(context->catch_name()))) {
if (FLAG_trace_contexts) {
PrintF("=> found in catch context\n");
}
*index = Context::THROWN_OBJECT_INDEX;
*attributes = NONE;
*binding_flags = MUTABLE_IS_INITIALIZED;
return context;
}
}
// 3. Prepare to continue with the previous (next outermost) context.
if (context->IsNativeContext() ||
((flags & STOP_AT_DECLARATION_SCOPE) != 0 &&
context->is_declaration_context())) {
follow_context_chain = false;
} else {
context = Handle<Context>(context->previous(), isolate);
}
} while (follow_context_chain);
if (FLAG_trace_contexts) {
PrintF("=> no property/slot found\n");
}
return Handle<Object>::null();
}
void Context::InitializeGlobalSlots() {
DCHECK(IsScriptContext());
DisallowHeapAllocation no_gc;
ScopeInfo* scope_info = this->scope_info();
int context_globals = scope_info->ContextGlobalCount();
if (context_globals > 0) {
PropertyCell* empty_cell = GetHeap()->empty_property_cell();
int context_locals = scope_info->ContextLocalCount();
int index = Context::MIN_CONTEXT_SLOTS + context_locals;
for (int i = 0; i < context_globals; i++) {
set(index++, empty_cell);
}
}
}
void Context::AddOptimizedFunction(JSFunction* function) {
DCHECK(IsNativeContext());
#ifdef ENABLE_SLOW_DCHECKS
if (FLAG_enable_slow_asserts) {
Object* element = get(OPTIMIZED_FUNCTIONS_LIST);
while (!element->IsUndefined()) {
CHECK(element != function);
element = JSFunction::cast(element)->next_function_link();
}
}
// Check that the context belongs to the weak native contexts list.
bool found = false;
Object* context = GetHeap()->native_contexts_list();
while (!context->IsUndefined()) {
if (context == this) {
found = true;
break;
}
context = Context::cast(context)->get(Context::NEXT_CONTEXT_LINK);
}
CHECK(found);
#endif
// If the function link field is already used then the function was
// enqueued as a code flushing candidate and we remove it now.
if (!function->next_function_link()->IsUndefined()) {
CodeFlusher* flusher = GetHeap()->mark_compact_collector()->code_flusher();
flusher->EvictCandidate(function);
}
DCHECK(function->next_function_link()->IsUndefined());
function->set_next_function_link(get(OPTIMIZED_FUNCTIONS_LIST),
UPDATE_WEAK_WRITE_BARRIER);
set(OPTIMIZED_FUNCTIONS_LIST, function, UPDATE_WEAK_WRITE_BARRIER);
}
void Context::RemoveOptimizedFunction(JSFunction* function) {
DCHECK(IsNativeContext());
Object* element = get(OPTIMIZED_FUNCTIONS_LIST);
JSFunction* prev = NULL;
while (!element->IsUndefined()) {
JSFunction* element_function = JSFunction::cast(element);
DCHECK(element_function->next_function_link()->IsUndefined() ||
element_function->next_function_link()->IsJSFunction());
if (element_function == function) {
if (prev == NULL) {
set(OPTIMIZED_FUNCTIONS_LIST, element_function->next_function_link(),
UPDATE_WEAK_WRITE_BARRIER);
} else {
prev->set_next_function_link(element_function->next_function_link(),
UPDATE_WEAK_WRITE_BARRIER);
}
element_function->set_next_function_link(GetHeap()->undefined_value(),
UPDATE_WEAK_WRITE_BARRIER);
return;
}
prev = element_function;
element = element_function->next_function_link();
}
UNREACHABLE();
}
void Context::SetOptimizedFunctionsListHead(Object* head) {
DCHECK(IsNativeContext());
set(OPTIMIZED_FUNCTIONS_LIST, head, UPDATE_WEAK_WRITE_BARRIER);
}
Object* Context::OptimizedFunctionsListHead() {
DCHECK(IsNativeContext());
return get(OPTIMIZED_FUNCTIONS_LIST);
}
void Context::AddOptimizedCode(Code* code) {
DCHECK(IsNativeContext());
DCHECK(code->kind() == Code::OPTIMIZED_FUNCTION);
DCHECK(code->next_code_link()->IsUndefined());
code->set_next_code_link(get(OPTIMIZED_CODE_LIST));
set(OPTIMIZED_CODE_LIST, code, UPDATE_WEAK_WRITE_BARRIER);
}
void Context::SetOptimizedCodeListHead(Object* head) {
DCHECK(IsNativeContext());
set(OPTIMIZED_CODE_LIST, head, UPDATE_WEAK_WRITE_BARRIER);
}
Object* Context::OptimizedCodeListHead() {
DCHECK(IsNativeContext());
return get(OPTIMIZED_CODE_LIST);
}
void Context::SetDeoptimizedCodeListHead(Object* head) {
DCHECK(IsNativeContext());
set(DEOPTIMIZED_CODE_LIST, head, UPDATE_WEAK_WRITE_BARRIER);
}
Object* Context::DeoptimizedCodeListHead() {
DCHECK(IsNativeContext());
return get(DEOPTIMIZED_CODE_LIST);
}
Handle<Object> Context::ErrorMessageForCodeGenerationFromStrings() {
Isolate* isolate = GetIsolate();
Handle<Object> result(error_message_for_code_gen_from_strings(), isolate);
if (!result->IsUndefined()) return result;
return isolate->factory()->NewStringFromStaticChars(
"Code generation from strings disallowed for this context");
}
#define COMPARE_NAME(index, type, name) \
if (string->IsOneByteEqualTo(STATIC_CHAR_VECTOR(#name))) return index;
int Context::ImportedFieldIndexForName(Handle<String> string) {
NATIVE_CONTEXT_IMPORTED_FIELDS(COMPARE_NAME)
return kNotFound;
}
int Context::IntrinsicIndexForName(Handle<String> string) {
NATIVE_CONTEXT_INTRINSIC_FUNCTIONS(COMPARE_NAME);
return kNotFound;
}
#undef COMPARE_NAME
#ifdef DEBUG
bool Context::IsBootstrappingOrNativeContext(Isolate* isolate, Object* object) {
// During bootstrapping we allow all objects to pass as global
// objects. This is necessary to fix circular dependencies.
return isolate->heap()->gc_state() != Heap::NOT_IN_GC ||
isolate->bootstrapper()->IsActive() || object->IsNativeContext();
}
bool Context::IsBootstrappingOrValidParentContext(
Object* object, Context* child) {
// During bootstrapping we allow all objects to pass as
// contexts. This is necessary to fix circular dependencies.
if (child->GetIsolate()->bootstrapper()->IsActive()) return true;
if (!object->IsContext()) return false;
Context* context = Context::cast(object);
return context->IsNativeContext() || context->IsScriptContext() ||
context->IsModuleContext() || !child->IsModuleContext();
}
#endif
void Context::IncrementErrorsThrown() {
DCHECK(IsNativeContext());
int previous_value = errors_thrown()->value();
set_errors_thrown(Smi::FromInt(previous_value + 1));
}
int Context::GetErrorsThrown() { return errors_thrown()->value(); }
} // namespace internal
} // namespace v8