// 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/bootstrapper.h" #include "src/debug/debug.h" #include "src/isolate-inl.h" namespace v8 { namespace internal { Handle ScriptContextTable::Extend( Handle table, Handle script_context) { Handle 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 copy = isolate->factory()->CopyFixedArrayAndGrow(table, length); copy->set_map(isolate->heap()->script_context_table_map()); result = Handle::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 table, Handle name, LookupResult* result) { for (int i = 0; i < table->used(); i++) { Handle context = GetContext(table, i); DCHECK(context->IsScriptContext()); Handle 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() || IsModuleContext()) { 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->IsContextExtension() || 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->IsModuleContext() && !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(GetIsolate())) return nullptr; if (IsBlockContext()) { if (!object->IsContextExtension()) return nullptr; object = JSObject::cast(ContextExtension::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( ContextExtension::cast(extension())->extension()) : extension_object(); } ScopeInfo* Context::scope_info() { DCHECK(!IsNativeContext()); if (IsFunctionContext() || IsModuleContext()) { return closure()->shared()->scope_info(); } HeapObject* object = extension(); if (object->IsContextExtension()) { DCHECK(IsBlockContext() || IsCatchContext() || IsWithContext() || IsDebugEvaluateContext()); object = ContextExtension::cast(object)->scope_info(); } return ScopeInfo::cast(object); } Module* Context::module() { Context* current = this; while (!current->IsModuleContext()) { current = current->previous(); } return Module::cast(current->extension()); } String* Context::catch_name() { DCHECK(IsCatchContext()); return String::cast(ContextExtension::cast(extension())->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 UnscopableLookup(LookupIterator* it) { Isolate* isolate = it->isolate(); Maybe found = JSReceiver::HasProperty(it); if (!found.IsJust() || !found.FromJust()) return found; Handle unscopables; ASSIGN_RETURN_ON_EXCEPTION_VALUE( isolate, unscopables, JSReceiver::GetProperty(Handle::cast(it->GetReceiver()), isolate->factory()->unscopables_symbol()), Nothing()); if (!unscopables->IsJSReceiver()) return Just(true); Handle blacklist; ASSIGN_RETURN_ON_EXCEPTION_VALUE( isolate, blacklist, JSReceiver::GetProperty(Handle::cast(unscopables), it->name()), Nothing()); return Just(!blacklist->BooleanValue()); } static PropertyAttributes GetAttributesForMode(VariableMode mode) { DCHECK(IsDeclaredVariableMode(mode)); return mode == CONST ? READ_ONLY : NONE; } Handle Context::Lookup(Handle name, ContextLookupFlags flags, int* index, PropertyAttributes* attributes, InitializationFlag* init_flag, VariableMode* variable_mode) { DCHECK(!IsModuleContext()); Isolate* isolate = GetIsolate(); Handle context(this, isolate); bool follow_context_chain = (flags & FOLLOW_CONTEXT_CHAIN) != 0; bool failed_whitelist = false; *index = kNotFound; *attributes = ABSENT; *init_flag = kCreatedInitialized; *variable_mode = VAR; if (FLAG_trace_contexts) { PrintF("Context::Lookup("); name->ShortPrint(); PrintF(")\n"); } do { if (FLAG_trace_contexts) { PrintF(" - looking in context %p", reinterpret_cast(*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 object(context->extension_receiver()); if (context->IsNativeContext()) { if (FLAG_trace_contexts) { PrintF(" - trying other script contexts\n"); } // Try other script contexts. Handle 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 c = ScriptContextTable::GetContext(script_contexts, r.context_index); PrintF("=> found property in script context %d: %p\n", r.context_index, reinterpret_cast(*c)); } *index = r.slot_index; *variable_mode = r.mode; *init_flag = r.init_flag; *attributes = GetAttributesForMode(r.mode); 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 maybe = Nothing(); if ((flags & FOLLOW_PROTOTYPE_CHAIN) == 0 || object->IsJSContextExtensionObject()) { maybe = JSReceiver::GetOwnPropertyAttributes(object, name); } else if (context->IsWithContext()) { // A with context will never bind "this", but debug-eval may look into // a with context when resolving "this". Other synthetic variables such // as new.target may be resolved as DYNAMIC_LOCAL due to bug v8:5405 , // skipping them here serves as a workaround until a more thorough // fix can be applied. // TODO(v8:5405): Replace this check with a DCHECK when resolution of // of synthetic variables does not go through this code path. if (ScopeInfo::VariableIsSynthetic(*name)) { maybe = Just(ABSENT); } else { LookupIterator it(object, name, object); Maybe found = UnscopableLookup(&it); if (found.IsNothing()) { maybe = Nothing(); } 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(); 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(*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 scope_info(context->IsFunctionContext() ? context->closure()->shared()->scope_info() : context->scope_info()); VariableMode mode; InitializationFlag flag; MaybeAssignedFlag maybe_assigned_flag; int slot_index = ScopeInfo::ContextSlotIndex(scope_info, name, &mode, &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; *variable_mode = mode; *init_flag = flag; *attributes = GetAttributesForMode(mode); return context; } // Check the slot corresponding to the intermediate context holding // only the function name variable. It's conceptually (and spec-wise) // in an outer scope of the function's declaration scope. if (follow_context_chain && (flags & STOP_AT_DECLARATION_SCOPE) == 0 && context->IsFunctionContext()) { int function_index = scope_info->FunctionContextSlotIndex(*name); 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; *init_flag = kCreatedInitialized; *variable_mode = CONST; 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; *init_flag = kCreatedInitialized; *variable_mode = VAR; return context; } } else if (context->IsDebugEvaluateContext()) { // Check materialized locals. Object* ext = context->get(EXTENSION_INDEX); if (ext->IsContextExtension()) { Object* obj = ContextExtension::cast(ext)->extension(); if (obj->IsJSReceiver()) { Handle extension(JSReceiver::cast(obj)); LookupIterator it(extension, name, extension); Maybe found = JSReceiver::HasProperty(&it); if (found.FromMaybe(false)) { *attributes = NONE; return extension; } } } // Check the original context, but do not follow its context chain. Object* obj = context->get(WRAPPED_CONTEXT_INDEX); if (obj->IsContext()) { Handle result = Context::cast(obj)->Lookup(name, DONT_FOLLOW_CHAINS, index, attributes, init_flag, variable_mode); if (!result.is_null()) return result; } // Check whitelist. Names that do not pass whitelist shall only resolve // to with, script or native contexts up the context chain. obj = context->get(WHITE_LIST_INDEX); if (obj->IsStringSet()) { failed_whitelist = failed_whitelist || !StringSet::cast(obj)->Has(name); } } // 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 { do { context = Handle(context->previous(), isolate); // If we come across a whitelist context, and the name is not // whitelisted, then only consider with, script or native contexts. } while (failed_whitelist && !context->IsScriptContext() && !context->IsNativeContext() && !context->IsWithContext()); } } while (follow_context_chain); if (FLAG_trace_contexts) { PrintF("=> no property/slot found\n"); } return Handle::null(); } static const int kSharedOffset = 0; static const int kCachedCodeOffset = 1; static const int kLiteralsOffset = 2; static const int kOsrAstIdOffset = 3; static const int kEntryLength = 4; static const int kInitialLength = kEntryLength; int Context::SearchOptimizedCodeMapEntry(SharedFunctionInfo* shared, BailoutId osr_ast_id) { DisallowHeapAllocation no_gc; DCHECK(this->IsNativeContext()); if (!OptimizedCodeMapIsCleared()) { FixedArray* optimized_code_map = this->osr_code_table(); int length = optimized_code_map->length(); Smi* osr_ast_id_smi = Smi::FromInt(osr_ast_id.ToInt()); for (int i = 0; i < length; i += kEntryLength) { if (WeakCell::cast(optimized_code_map->get(i + kSharedOffset))->value() == shared && optimized_code_map->get(i + kOsrAstIdOffset) == osr_ast_id_smi) { return i; } } } return -1; } void Context::SearchOptimizedCodeMap(SharedFunctionInfo* shared, BailoutId osr_ast_id, Code** pcode, LiteralsArray** pliterals) { DCHECK(this->IsNativeContext()); int entry = SearchOptimizedCodeMapEntry(shared, osr_ast_id); if (entry != -1) { FixedArray* code_map = osr_code_table(); DCHECK_LE(entry + kEntryLength, code_map->length()); WeakCell* cell = WeakCell::cast(code_map->get(entry + kCachedCodeOffset)); WeakCell* literals_cell = WeakCell::cast(code_map->get(entry + kLiteralsOffset)); *pcode = cell->cleared() ? nullptr : Code::cast(cell->value()); *pliterals = literals_cell->cleared() ? nullptr : LiteralsArray::cast(literals_cell->value()); } else { *pcode = nullptr; *pliterals = nullptr; } } void Context::AddToOptimizedCodeMap(Handle native_context, Handle shared, Handle code, Handle literals, BailoutId osr_ast_id) { DCHECK(native_context->IsNativeContext()); Isolate* isolate = native_context->GetIsolate(); if (isolate->serializer_enabled()) return; STATIC_ASSERT(kEntryLength == 4); Handle new_code_map; int entry; if (native_context->OptimizedCodeMapIsCleared()) { new_code_map = isolate->factory()->NewFixedArray(kInitialLength, TENURED); entry = 0; } else { Handle old_code_map(native_context->osr_code_table(), isolate); entry = native_context->SearchOptimizedCodeMapEntry(*shared, osr_ast_id); if (entry >= 0) { // Just set the code and literals of the entry. Handle code_cell = isolate->factory()->NewWeakCell(code); old_code_map->set(entry + kCachedCodeOffset, *code_cell); Handle literals_cell = isolate->factory()->NewWeakCell(literals); old_code_map->set(entry + kLiteralsOffset, *literals_cell); return; } // Can we reuse an entry? DCHECK(entry < 0); int length = old_code_map->length(); for (int i = 0; i < length; i += kEntryLength) { if (WeakCell::cast(old_code_map->get(i + kSharedOffset))->cleared()) { new_code_map = old_code_map; entry = i; break; } } if (entry < 0) { // Copy old optimized code map and append one new entry. new_code_map = isolate->factory()->CopyFixedArrayAndGrow( old_code_map, kEntryLength, TENURED); entry = old_code_map->length(); } } Handle code_cell = isolate->factory()->NewWeakCell(code); Handle literals_cell = isolate->factory()->NewWeakCell(literals); Handle shared_cell = isolate->factory()->NewWeakCell(shared); new_code_map->set(entry + kSharedOffset, *shared_cell); new_code_map->set(entry + kCachedCodeOffset, *code_cell); new_code_map->set(entry + kLiteralsOffset, *literals_cell); new_code_map->set(entry + kOsrAstIdOffset, Smi::FromInt(osr_ast_id.ToInt())); #ifdef DEBUG for (int i = 0; i < new_code_map->length(); i += kEntryLength) { WeakCell* cell = WeakCell::cast(new_code_map->get(i + kSharedOffset)); DCHECK(cell->cleared() || cell->value()->IsSharedFunctionInfo()); cell = WeakCell::cast(new_code_map->get(i + kCachedCodeOffset)); DCHECK(cell->cleared() || (cell->value()->IsCode() && Code::cast(cell->value())->kind() == Code::OPTIMIZED_FUNCTION)); cell = WeakCell::cast(new_code_map->get(i + kLiteralsOffset)); DCHECK(cell->cleared() || cell->value()->IsFixedArray()); DCHECK(new_code_map->get(i + kOsrAstIdOffset)->IsSmi()); } #endif FixedArray* old_code_map = native_context->osr_code_table(); if (old_code_map != *new_code_map) { native_context->set_osr_code_table(*new_code_map); } } void Context::EvictFromOptimizedCodeMap(Code* optimized_code, const char* reason) { DCHECK(IsNativeContext()); DisallowHeapAllocation no_gc; if (OptimizedCodeMapIsCleared()) return; Heap* heap = GetHeap(); FixedArray* code_map = osr_code_table(); int dst = 0; int length = code_map->length(); for (int src = 0; src < length; src += kEntryLength) { if (WeakCell::cast(code_map->get(src + kCachedCodeOffset))->value() == optimized_code) { BailoutId osr(Smi::cast(code_map->get(src + kOsrAstIdOffset))->value()); if (FLAG_trace_opt) { PrintF( "[evicting entry from native context optimizing code map (%s) for ", reason); ShortPrint(); DCHECK(!osr.IsNone()); PrintF(" (osr ast id %d)]\n", osr.ToInt()); } // Evict the src entry by not copying it to the dst entry. continue; } // Keep the src entry by copying it to the dst entry. if (dst != src) { code_map->set(dst + kSharedOffset, code_map->get(src + kSharedOffset)); code_map->set(dst + kCachedCodeOffset, code_map->get(src + kCachedCodeOffset)); code_map->set(dst + kLiteralsOffset, code_map->get(src + kLiteralsOffset)); code_map->set(dst + kOsrAstIdOffset, code_map->get(src + kOsrAstIdOffset)); } dst += kEntryLength; } if (dst != length) { // Always trim even when array is cleared because of heap verifier. heap->RightTrimFixedArray(code_map, length - dst); if (code_map->length() == 0) { ClearOptimizedCodeMap(); } } } void Context::ClearOptimizedCodeMap() { DCHECK(IsNativeContext()); FixedArray* empty_fixed_array = GetHeap()->empty_fixed_array(); set_osr_code_table(empty_fixed_array); } void Context::AddOptimizedFunction(JSFunction* function) { DCHECK(IsNativeContext()); Isolate* isolate = GetIsolate(); #ifdef ENABLE_SLOW_DCHECKS if (FLAG_enable_slow_asserts) { Object* element = get(OPTIMIZED_FUNCTIONS_LIST); while (!element->IsUndefined(isolate)) { 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 = isolate->heap()->native_contexts_list(); while (!context->IsUndefined(isolate)) { if (context == this) { found = true; break; } context = Context::cast(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(isolate)) { CodeFlusher* flusher = GetHeap()->mark_compact_collector()->code_flusher(); flusher->EvictCandidate(function); } DCHECK(function->next_function_link()->IsUndefined(isolate)); 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; Isolate* isolate = function->GetIsolate(); while (!element->IsUndefined(isolate)) { JSFunction* element_function = JSFunction::cast(element); DCHECK(element_function->next_function_link()->IsUndefined(isolate) || 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(GetIsolate())); 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 Context::ErrorMessageForCodeGenerationFromStrings() { Isolate* isolate = GetIsolate(); Handle result(error_message_for_code_gen_from_strings(), isolate); if (!result->IsUndefined(isolate)) 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) { NATIVE_CONTEXT_IMPORTED_FIELDS(COMPARE_NAME) return kNotFound; } int Context::IntrinsicIndexForName(Handle string) { NATIVE_CONTEXT_INTRINSIC_FUNCTIONS(COMPARE_NAME); return kNotFound; } #undef COMPARE_NAME #define COMPARE_NAME(index, type, name) \ if (strncmp(string, #name, length) == 0) return index; int Context::IntrinsicIndexForName(const unsigned char* unsigned_string, int length) { const char* string = reinterpret_cast(unsigned_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