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// Copyright 2021 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. #ifndef INCLUDE_V8_SCRIPT_H_ #define INCLUDE_V8_SCRIPT_H_ #include <stddef.h> #include <stdint.h> #include <memory> #include <vector> #include "v8-callbacks.h" // NOLINT(build/include_directory) #include "v8-data.h" // NOLINT(build/include_directory) #include "v8-local-handle.h" // NOLINT(build/include_directory) #include "v8-maybe.h" // NOLINT(build/include_directory) #include "v8-message.h" // NOLINT(build/include_directory) #include "v8config.h" // NOLINT(build/include_directory) namespace v8 { class Function; class Message; class Object; class PrimitiveArray; class Script; namespace internal { class BackgroundDeserializeTask; struct ScriptStreamingData; } // namespace internal /** * A container type that holds relevant metadata for module loading. * * This is passed back to the embedder as part of * HostImportModuleDynamicallyCallback for module loading. */ class V8_EXPORT ScriptOrModule { public: /** * The name that was passed by the embedder as ResourceName to the * ScriptOrigin. This can be either a v8::String or v8::Undefined. */ Local<Value> GetResourceName(); /** * The options that were passed by the embedder as HostDefinedOptions to * the ScriptOrigin. */ Local<Data> HostDefinedOptions(); }; /** * A compiled JavaScript script, not yet tied to a Context. */ class V8_EXPORT UnboundScript { public: /** * Binds the script to the currently entered context. */ Local<Script> BindToCurrentContext(); int GetId() const; Local<Value> GetScriptName(); /** * Data read from magic sourceURL comments. */ Local<Value> GetSourceURL(); /** * Data read from magic sourceMappingURL comments. */ Local<Value> GetSourceMappingURL(); /** * Returns zero based line number of the code_pos location in the script. * -1 will be returned if no information available. */ int GetLineNumber(int code_pos = 0); /** * Returns zero based column number of the code_pos location in the script. * -1 will be returned if no information available. */ int GetColumnNumber(int code_pos = 0); static const int kNoScriptId = 0; }; /** * A compiled JavaScript module, not yet tied to a Context. */ class V8_EXPORT UnboundModuleScript : public Data { public: /** * Data read from magic sourceURL comments. */ Local<Value> GetSourceURL(); /** * Data read from magic sourceMappingURL comments. */ Local<Value> GetSourceMappingURL(); }; /** * A location in JavaScript source. */ class V8_EXPORT Location { public: int GetLineNumber() { return line_number_; } int GetColumnNumber() { return column_number_; } Location(int line_number, int column_number) : line_number_(line_number), column_number_(column_number) {} private: int line_number_; int column_number_; }; class V8_EXPORT ModuleRequest : public Data { public: /** * Returns the module specifier for this ModuleRequest. */ Local<String> GetSpecifier() const; /** * Returns the source code offset of this module request. * Use Module::SourceOffsetToLocation to convert this to line/column numbers. */ int GetSourceOffset() const; /** * Contains the import assertions for this request in the form: * [key1, value1, source_offset1, key2, value2, source_offset2, ...]. * The keys and values are of type v8::String, and the source offsets are of * type Int32. Use Module::SourceOffsetToLocation to convert the source * offsets to Locations with line/column numbers. * * All assertions present in the module request will be supplied in this * list, regardless of whether they are supported by the host. Per * https://tc39.es/proposal-import-attributes/#sec-hostgetsupportedimportattributes, * hosts are expected to throw for assertions that they do not support (as * opposed to, for example, ignoring them). */ Local<FixedArray> GetImportAssertions() const; V8_INLINE static ModuleRequest* Cast(Data* data); private: static void CheckCast(Data* obj); }; /** * A compiled JavaScript module. */ class V8_EXPORT Module : public Data { public: /** * The different states a module can be in. * * This corresponds to the states used in ECMAScript except that "evaluated" * is split into kEvaluated and kErrored, indicating success and failure, * respectively. */ enum Status { kUninstantiated, kInstantiating, kInstantiated, kEvaluating, kEvaluated, kErrored }; /** * Returns the module's current status. */ Status GetStatus() const; /** * For a module in kErrored status, this returns the corresponding exception. */ Local<Value> GetException() const; /** * Returns the ModuleRequests for this module. */ Local<FixedArray> GetModuleRequests() const; /** * For the given source text offset in this module, returns the corresponding * Location with line and column numbers. */ Location SourceOffsetToLocation(int offset) const; /** * Returns the identity hash for this object. */ int GetIdentityHash() const; using ResolveModuleCallback = MaybeLocal<Module> (*)( Local<Context> context, Local<String> specifier, Local<FixedArray> import_assertions, Local<Module> referrer); /** * Instantiates the module and its dependencies. * * Returns an empty Maybe<bool> if an exception occurred during * instantiation. (In the case where the callback throws an exception, that * exception is propagated.) */ V8_WARN_UNUSED_RESULT Maybe<bool> InstantiateModule( Local<Context> context, ResolveModuleCallback callback); /** * Evaluates the module and its dependencies. * * If status is kInstantiated, run the module's code and return a Promise * object. On success, set status to kEvaluated and resolve the Promise with * the completion value; on failure, set status to kErrored and reject the * Promise with the error. * * If IsGraphAsync() is false, the returned Promise is settled. */ V8_WARN_UNUSED_RESULT MaybeLocal<Value> Evaluate(Local<Context> context); /** * Returns the namespace object of this module. * * The module's status must be at least kInstantiated. */ Local<Value> GetModuleNamespace(); /** * Returns the corresponding context-unbound module script. * * The module must be unevaluated, i.e. its status must not be kEvaluating, * kEvaluated or kErrored. */ Local<UnboundModuleScript> GetUnboundModuleScript(); /** * Returns the underlying script's id. * * The module must be a SourceTextModule and must not have a kErrored status. */ int ScriptId() const; /** * Returns whether this module or any of its requested modules is async, * i.e. contains top-level await. * * The module's status must be at least kInstantiated. */ bool IsGraphAsync() const; /** * Returns whether the module is a SourceTextModule. */ bool IsSourceTextModule() const; /** * Returns whether the module is a SyntheticModule. */ bool IsSyntheticModule() const; /* * Callback defined in the embedder. This is responsible for setting * the module's exported values with calls to SetSyntheticModuleExport(). * The callback must return a resolved Promise to indicate success (where no * exception was thrown) and return an empy MaybeLocal to indicate falure * (where an exception was thrown). */ using SyntheticModuleEvaluationSteps = MaybeLocal<Value> (*)(Local<Context> context, Local<Module> module); /** * Creates a new SyntheticModule with the specified export names, where * evaluation_steps will be executed upon module evaluation. * export_names must not contain duplicates. * module_name is used solely for logging/debugging and doesn't affect module * behavior. */ static Local<Module> CreateSyntheticModule( Isolate* isolate, Local<String> module_name, const std::vector<Local<String>>& export_names, SyntheticModuleEvaluationSteps evaluation_steps); /** * Set this module's exported value for the name export_name to the specified * export_value. This method must be called only on Modules created via * CreateSyntheticModule. An error will be thrown if export_name is not one * of the export_names that were passed in that CreateSyntheticModule call. * Returns Just(true) on success, Nothing<bool>() if an error was thrown. */ V8_WARN_UNUSED_RESULT Maybe<bool> SetSyntheticModuleExport( Isolate* isolate, Local<String> export_name, Local<Value> export_value); /** * Search the modules requested directly or indirectly by the module for * any top-level await that has not yet resolved. If there is any, the * returned vector contains a tuple of the unresolved module and a message * with the pending top-level await. * An embedder may call this before exiting to improve error messages. */ std::vector<std::tuple<Local<Module>, Local<Message>>> GetStalledTopLevelAwaitMessage(Isolate* isolate); V8_INLINE static Module* Cast(Data* data); private: static void CheckCast(Data* obj); }; /** * A compiled JavaScript script, tied to a Context which was active when the * script was compiled. */ class V8_EXPORT Script { public: /** * A shorthand for ScriptCompiler::Compile(). */ static V8_WARN_UNUSED_RESULT MaybeLocal<Script> Compile( Local<Context> context, Local<String> source, ScriptOrigin* origin = nullptr); /** * Runs the script returning the resulting value. It will be run in the * context in which it was created (ScriptCompiler::CompileBound or * UnboundScript::BindToCurrentContext()). */ V8_WARN_UNUSED_RESULT MaybeLocal<Value> Run(Local<Context> context); V8_WARN_UNUSED_RESULT MaybeLocal<Value> Run(Local<Context> context, Local<Data> host_defined_options); /** * Returns the corresponding context-unbound script. */ Local<UnboundScript> GetUnboundScript(); /** * The name that was passed by the embedder as ResourceName to the * ScriptOrigin. This can be either a v8::String or v8::Undefined. */ Local<Value> GetResourceName(); /** * If the script was compiled, returns the positions of lazy functions which * were eventually compiled and executed. */ std::vector<int> GetProducedCompileHints() const; }; enum class ScriptType { kClassic, kModule }; /** * For compiling scripts. */ class V8_EXPORT ScriptCompiler { public: class ConsumeCodeCacheTask; /** * Compilation data that the embedder can cache and pass back to speed up * future compilations. The data is produced if the CompilerOptions passed to * the compilation functions in ScriptCompiler contains produce_data_to_cache * = true. The data to cache can then can be retrieved from * UnboundScript. */ struct V8_EXPORT CachedData { enum BufferPolicy { BufferNotOwned, BufferOwned }; CachedData() : data(nullptr), length(0), rejected(false), buffer_policy(BufferNotOwned) {} // If buffer_policy is BufferNotOwned, the caller keeps the ownership of // data and guarantees that it stays alive until the CachedData object is // destroyed. If the policy is BufferOwned, the given data will be deleted // (with delete[]) when the CachedData object is destroyed. CachedData(const uint8_t* data, int length, BufferPolicy buffer_policy = BufferNotOwned); ~CachedData(); // TODO(marja): Async compilation; add constructors which take a callback // which will be called when V8 no longer needs the data. const uint8_t* data; int length; bool rejected; BufferPolicy buffer_policy; // Prevent copying. CachedData(const CachedData&) = delete; CachedData& operator=(const CachedData&) = delete; }; /** * Source code which can be then compiled to a UnboundScript or Script. */ class Source { public: // Source takes ownership of both CachedData and CodeCacheConsumeTask. // The caller *must* ensure that the cached data is from a trusted source. V8_INLINE Source(Local<String> source_string, const ScriptOrigin& origin, CachedData* cached_data = nullptr, ConsumeCodeCacheTask* consume_cache_task = nullptr); // Source takes ownership of both CachedData and CodeCacheConsumeTask. V8_INLINE explicit Source( Local<String> source_string, CachedData* cached_data = nullptr, ConsumeCodeCacheTask* consume_cache_task = nullptr); V8_INLINE Source(Local<String> source_string, const ScriptOrigin& origin, CompileHintCallback callback, void* callback_data); V8_INLINE ~Source() = default; // Ownership of the CachedData or its buffers is *not* transferred to the // caller. The CachedData object is alive as long as the Source object is // alive. V8_INLINE const CachedData* GetCachedData() const; V8_INLINE const ScriptOriginOptions& GetResourceOptions() const; private: friend class ScriptCompiler; Local<String> source_string; // Origin information Local<Value> resource_name; int resource_line_offset; int resource_column_offset; ScriptOriginOptions resource_options; Local<Value> source_map_url; Local<Data> host_defined_options; // Cached data from previous compilation (if a kConsume*Cache flag is // set), or hold newly generated cache data (kProduce*Cache flags) are // set when calling a compile method. std::unique_ptr<CachedData> cached_data; std::unique_ptr<ConsumeCodeCacheTask> consume_cache_task; // For requesting compile hints from the embedder. CompileHintCallback compile_hint_callback = nullptr; void* compile_hint_callback_data = nullptr; }; /** * For streaming incomplete script data to V8. The embedder should implement a * subclass of this class. */ class V8_EXPORT ExternalSourceStream { public: virtual ~ExternalSourceStream() = default; /** * V8 calls this to request the next chunk of data from the embedder. This * function will be called on a background thread, so it's OK to block and * wait for the data, if the embedder doesn't have data yet. Returns the * length of the data returned. When the data ends, GetMoreData should * return 0. Caller takes ownership of the data. * * When streaming UTF-8 data, V8 handles multi-byte characters split between * two data chunks, but doesn't handle multi-byte characters split between * more than two data chunks. The embedder can avoid this problem by always * returning at least 2 bytes of data. * * When streaming UTF-16 data, V8 does not handle characters split between * two data chunks. The embedder has to make sure that chunks have an even * length. * * If the embedder wants to cancel the streaming, they should make the next * GetMoreData call return 0. V8 will interpret it as end of data (and most * probably, parsing will fail). The streaming task will return as soon as * V8 has parsed the data it received so far. */ virtual size_t GetMoreData(const uint8_t** src) = 0; }; /** * Source code which can be streamed into V8 in pieces. It will be parsed * while streaming and compiled after parsing has completed. StreamedSource * must be kept alive while the streaming task is run (see ScriptStreamingTask * below). */ class V8_EXPORT StreamedSource { public: enum Encoding { ONE_BYTE, TWO_BYTE, UTF8, WINDOWS_1252 }; StreamedSource(std::unique_ptr<ExternalSourceStream> source_stream, Encoding encoding); ~StreamedSource(); internal::ScriptStreamingData* impl() const { return impl_.get(); } // Prevent copying. StreamedSource(const StreamedSource&) = delete; StreamedSource& operator=(const StreamedSource&) = delete; private: std::unique_ptr<internal::ScriptStreamingData> impl_; }; /** * A streaming task which the embedder must run on a background thread to * stream scripts into V8. Returned by ScriptCompiler::StartStreaming. */ class V8_EXPORT ScriptStreamingTask final { public: void Run(); private: friend class ScriptCompiler; explicit ScriptStreamingTask(internal::ScriptStreamingData* data) : data_(data) {} internal::ScriptStreamingData* data_; }; /** * A task which the embedder must run on a background thread to * consume a V8 code cache. Returned by * ScriptCompiler::StartConsumingCodeCache. */ class V8_EXPORT ConsumeCodeCacheTask final { public: ~ConsumeCodeCacheTask(); void Run(); /** * Provides the source text string and origin information to the consumption * task. May be called before, during, or after Run(). This step checks * whether the script matches an existing script in the Isolate's * compilation cache. To check whether such a script was found, call * ShouldMergeWithExistingScript. * * The Isolate provided must be the same one used during * StartConsumingCodeCache and must be currently entered on the thread that * calls this function. The source text and origin provided in this step * must precisely match those used later in the ScriptCompiler::Source that * will contain this ConsumeCodeCacheTask. */ void SourceTextAvailable(Isolate* isolate, Local<String> source_text, const ScriptOrigin& origin); /** * Returns whether the embedder should call MergeWithExistingScript. This * function may be called from any thread, any number of times, but its * return value is only meaningful after SourceTextAvailable has completed. */ bool ShouldMergeWithExistingScript() const; /** * Merges newly deserialized data into an existing script which was found * during SourceTextAvailable. May be called only after Run() has completed. * Can execute on any thread, like Run(). */ void MergeWithExistingScript(); private: friend class ScriptCompiler; explicit ConsumeCodeCacheTask( std::unique_ptr<internal::BackgroundDeserializeTask> impl); std::unique_ptr<internal::BackgroundDeserializeTask> impl_; }; enum CompileOptions { kNoCompileOptions = 0, kConsumeCodeCache, kEagerCompile, kProduceCompileHints, kConsumeCompileHints }; /** * The reason for which we are not requesting or providing a code cache. */ enum NoCacheReason { kNoCacheNoReason = 0, kNoCacheBecauseCachingDisabled, kNoCacheBecauseNoResource, kNoCacheBecauseInlineScript, kNoCacheBecauseModule, kNoCacheBecauseStreamingSource, kNoCacheBecauseInspector, kNoCacheBecauseScriptTooSmall, kNoCacheBecauseCacheTooCold, kNoCacheBecauseV8Extension, kNoCacheBecauseExtensionModule, kNoCacheBecausePacScript, kNoCacheBecauseInDocumentWrite, kNoCacheBecauseResourceWithNoCacheHandler, kNoCacheBecauseDeferredProduceCodeCache }; /** * Compiles the specified script (context-independent). * Cached data as part of the source object can be optionally produced to be * consumed later to speed up compilation of identical source scripts. * * Note that when producing cached data, the source must point to NULL for * cached data. When consuming cached data, the cached data must have been * produced by the same version of V8, and the embedder needs to ensure the * cached data is the correct one for the given script. * * \param source Script source code. * \return Compiled script object (context independent; for running it must be * bound to a context). */ static V8_WARN_UNUSED_RESULT MaybeLocal<UnboundScript> CompileUnboundScript( Isolate* isolate, Source* source, CompileOptions options = kNoCompileOptions, NoCacheReason no_cache_reason = kNoCacheNoReason); /** * Compiles the specified script (bound to current context). * * \param source Script source code. * \param pre_data Pre-parsing data, as obtained by ScriptData::PreCompile() * using pre_data speeds compilation if it's done multiple times. * Owned by caller, no references are kept when this function returns. * \return Compiled script object, bound to the context that was active * when this function was called. When run it will always use this * context. */ static V8_WARN_UNUSED_RESULT MaybeLocal<Script> Compile( Local<Context> context, Source* source, CompileOptions options = kNoCompileOptions, NoCacheReason no_cache_reason = kNoCacheNoReason); /** * Returns a task which streams script data into V8, or NULL if the script * cannot be streamed. The user is responsible for running the task on a * background thread and deleting it. When ran, the task starts parsing the * script, and it will request data from the StreamedSource as needed. When * ScriptStreamingTask::Run exits, all data has been streamed and the script * can be compiled (see Compile below). * * This API allows to start the streaming with as little data as possible, and * the remaining data (for example, the ScriptOrigin) is passed to Compile. */ static ScriptStreamingTask* StartStreaming( Isolate* isolate, StreamedSource* source, ScriptType type = ScriptType::kClassic, CompileOptions options = kNoCompileOptions); static ConsumeCodeCacheTask* StartConsumingCodeCache( Isolate* isolate, std::unique_ptr<CachedData> source); /** * Compiles a streamed script (bound to current context). * * This can only be called after the streaming has finished * (ScriptStreamingTask has been run). V8 doesn't construct the source string * during streaming, so the embedder needs to pass the full source here. */ static V8_WARN_UNUSED_RESULT MaybeLocal<Script> Compile( Local<Context> context, StreamedSource* source, Local<String> full_source_string, const ScriptOrigin& origin); /** * Return a version tag for CachedData for the current V8 version & flags. * * This value is meant only for determining whether a previously generated * CachedData instance is still valid; the tag has no other meaing. * * Background: The data carried by CachedData may depend on the exact * V8 version number or current compiler flags. This means that when * persisting CachedData, the embedder must take care to not pass in * data from another V8 version, or the same version with different * features enabled. * * The easiest way to do so is to clear the embedder's cache on any * such change. * * Alternatively, this tag can be stored alongside the cached data and * compared when it is being used. */ static uint32_t CachedDataVersionTag(); /** * Compile an ES module, returning a Module that encapsulates * the compiled code. * * Corresponds to the ParseModule abstract operation in the * ECMAScript specification. */ static V8_WARN_UNUSED_RESULT MaybeLocal<Module> CompileModule( Isolate* isolate, Source* source, CompileOptions options = kNoCompileOptions, NoCacheReason no_cache_reason = kNoCacheNoReason); /** * Compiles a streamed module script. * * This can only be called after the streaming has finished * (ScriptStreamingTask has been run). V8 doesn't construct the source string * during streaming, so the embedder needs to pass the full source here. */ static V8_WARN_UNUSED_RESULT MaybeLocal<Module> CompileModule( Local<Context> context, StreamedSource* v8_source, Local<String> full_source_string, const ScriptOrigin& origin); /** * Compile a function for a given context. This is equivalent to running * * with (obj) { * return function(args) { ... } * } * * It is possible to specify multiple context extensions (obj in the above * example). */ V8_DEPRECATED("Use CompileFunction") static V8_WARN_UNUSED_RESULT MaybeLocal<Function> CompileFunctionInContext( Local<Context> context, Source* source, size_t arguments_count, Local<String> arguments[], size_t context_extension_count, Local<Object> context_extensions[], CompileOptions options = kNoCompileOptions, NoCacheReason no_cache_reason = kNoCacheNoReason, Local<ScriptOrModule>* script_or_module_out = nullptr); static V8_WARN_UNUSED_RESULT MaybeLocal<Function> CompileFunction( Local<Context> context, Source* source, size_t arguments_count = 0, Local<String> arguments[] = nullptr, size_t context_extension_count = 0, Local<Object> context_extensions[] = nullptr, CompileOptions options = kNoCompileOptions, NoCacheReason no_cache_reason = kNoCacheNoReason); /** * Creates and returns code cache for the specified unbound_script. * This will return nullptr if the script cannot be serialized. The * CachedData returned by this function should be owned by the caller. */ static CachedData* CreateCodeCache(Local<UnboundScript> unbound_script); /** * Creates and returns code cache for the specified unbound_module_script. * This will return nullptr if the script cannot be serialized. The * CachedData returned by this function should be owned by the caller. */ static CachedData* CreateCodeCache( Local<UnboundModuleScript> unbound_module_script); /** * Creates and returns code cache for the specified function that was * previously produced by CompileFunction. * This will return nullptr if the script cannot be serialized. The * CachedData returned by this function should be owned by the caller. */ static CachedData* CreateCodeCacheForFunction(Local<Function> function); private: static V8_WARN_UNUSED_RESULT MaybeLocal<UnboundScript> CompileUnboundInternal( Isolate* isolate, Source* source, CompileOptions options, NoCacheReason no_cache_reason); static V8_WARN_UNUSED_RESULT MaybeLocal<Function> CompileFunctionInternal( Local<Context> context, Source* source, size_t arguments_count, Local<String> arguments[], size_t context_extension_count, Local<Object> context_extensions[], CompileOptions options, NoCacheReason no_cache_reason, Local<ScriptOrModule>* script_or_module_out); }; ScriptCompiler::Source::Source(Local<String> string, const ScriptOrigin& origin, CachedData* data, ConsumeCodeCacheTask* consume_cache_task) : source_string(string), resource_name(origin.ResourceName()), resource_line_offset(origin.LineOffset()), resource_column_offset(origin.ColumnOffset()), resource_options(origin.Options()), source_map_url(origin.SourceMapUrl()), host_defined_options(origin.GetHostDefinedOptions()), cached_data(data), consume_cache_task(consume_cache_task) {} ScriptCompiler::Source::Source(Local<String> string, CachedData* data, ConsumeCodeCacheTask* consume_cache_task) : source_string(string), cached_data(data), consume_cache_task(consume_cache_task) {} ScriptCompiler::Source::Source(Local<String> string, const ScriptOrigin& origin, CompileHintCallback callback, void* callback_data) : source_string(string), resource_name(origin.ResourceName()), resource_line_offset(origin.LineOffset()), resource_column_offset(origin.ColumnOffset()), resource_options(origin.Options()), source_map_url(origin.SourceMapUrl()), host_defined_options(origin.GetHostDefinedOptions()), compile_hint_callback(callback), compile_hint_callback_data(callback_data) {} const ScriptCompiler::CachedData* ScriptCompiler::Source::GetCachedData() const { return cached_data.get(); } const ScriptOriginOptions& ScriptCompiler::Source::GetResourceOptions() const { return resource_options; } ModuleRequest* ModuleRequest::Cast(Data* data) { #ifdef V8_ENABLE_CHECKS CheckCast(data); #endif return reinterpret_cast<ModuleRequest*>(data); } Module* Module::Cast(Data* data) { #ifdef V8_ENABLE_CHECKS CheckCast(data); #endif return reinterpret_cast<Module*>(data); } } // namespace v8 #endif // INCLUDE_V8_SCRIPT_H_