src/wasm/compilation-environment.h - v8/v8 - Git at Google

 // Copyright 2018 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 V8_WASM_COMPILATION_ENVIRONMENT_H_
 #define V8_WASM_COMPILATION_ENVIRONMENT_H_

 #include "src/wasm/wasm-limits.h"
 #include "src/wasm/wasm-module.h"

 namespace v8 {
 namespace internal {
 namespace wasm {

 class NativeModule;
 class ResultBase;

 enum RuntimeExceptionSupport : bool {
   kRuntimeExceptionSupport = true,
   kNoRuntimeExceptionSupport = false
 };

 enum UseTrapHandler : bool { kUseTrapHandler = true, kNoTrapHandler = false };

 enum LowerSimd : bool { kLowerSimd = true, kNoLowerSimd = false };

 // The {CompilationEnv} encapsulates the module data that is used during
 // compilation. CompilationEnvs are shareable across multiple compilations.
 struct CompilationEnv {
   // A pointer to the decoded module's static representation.
   const WasmModule* const module;

   // True if trap handling should be used in compiled code, rather than
   // compiling in bounds checks for each memory access.
   const UseTrapHandler use_trap_handler;

   // If the runtime doesn't support exception propagation,
   // we won't generate stack checks, and trap handling will also
   // be generated differently.
   const RuntimeExceptionSupport runtime_exception_support;

   // The smallest size of any memory that could be used with this module, in
   // bytes.
   const uint64_t min_memory_size;

   // The largest size of any memory that could be used with this module, in
   // bytes.
   const uint64_t max_memory_size;

   const LowerSimd lower_simd;

   constexpr CompilationEnv(const WasmModule* module,
                            UseTrapHandler use_trap_handler,
                            RuntimeExceptionSupport runtime_exception_support,
                            LowerSimd lower_simd = kNoLowerSimd)
       : module(module),
         use_trap_handler(use_trap_handler),
         runtime_exception_support(runtime_exception_support),
         min_memory_size(module ? module->initial_pages * uint64_t{kWasmPageSize}
                                : 0),
         max_memory_size((module && module->has_maximum_pages
                              ? module->maximum_pages
                              : kV8MaxWasmMemoryPages) *
                         uint64_t{kWasmPageSize}),
         lower_simd(lower_simd) {}
 };

 // The wire bytes are either owned by the StreamingDecoder, or (after streaming)
 // by the NativeModule. This class abstracts over the storage location.
 class WireBytesStorage {
  public:
   virtual ~WireBytesStorage() = default;
   virtual Vector<const uint8_t> GetCode(WireBytesRef) const = 0;
 };

 // Callbacks will receive either {kFailedCompilation} or both
 // {kFinishedBaselineCompilation} and {kFinishedTopTierCompilation}, in that
 // order. If tier up is off, both events are delivered right after each other.
 enum class CompilationEvent : uint8_t {
   kFinishedBaselineCompilation,
   kFinishedTopTierCompilation,
   kFailedCompilation,

   // Marker:
   // After an event >= kFirstFinalEvent, no further events are generated.
   kFirstFinalEvent = kFinishedTopTierCompilation
 };

 // The implementation of {CompilationState} lives in module-compiler.cc.
 // This is the PIMPL interface to that private class.
 class CompilationState {
  public:
   using callback_t = std::function<void(CompilationEvent, const ResultBase*)>;
   ~CompilationState();

   void CancelAndWait();

   void SetError(uint32_t func_index, const ResultBase& error_result);

   void SetWireBytesStorage(std::shared_ptr<WireBytesStorage>);

   std::shared_ptr<WireBytesStorage> GetWireBytesStorage() const;

   void AddCallback(callback_t);

   bool failed() const;

  private:
   friend class NativeModule;
   CompilationState() = delete;

   static std::unique_ptr<CompilationState> New(Isolate*, NativeModule*);
 };

 }  // namespace wasm
 }  // namespace internal
 }  // namespace v8

 #endif  // V8_WASM_COMPILATION_ENVIRONMENT_H_
	// Copyright 2018 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 V8_WASM_COMPILATION_ENVIRONMENT_H_
	#define V8_WASM_COMPILATION_ENVIRONMENT_H_

	#include "src/wasm/wasm-limits.h"
	#include "src/wasm/wasm-module.h"

	namespace v8 {
	namespace internal {
	namespace wasm {

	class NativeModule;
	class ResultBase;

	enum RuntimeExceptionSupport : bool {
	kRuntimeExceptionSupport = true,
	kNoRuntimeExceptionSupport = false
	};

	enum UseTrapHandler : bool { kUseTrapHandler = true, kNoTrapHandler = false };

	enum LowerSimd : bool { kLowerSimd = true, kNoLowerSimd = false };

	// The {CompilationEnv} encapsulates the module data that is used during
	// compilation. CompilationEnvs are shareable across multiple compilations.
	struct CompilationEnv {
	// A pointer to the decoded module's static representation.
	const WasmModule* const module;

	// True if trap handling should be used in compiled code, rather than
	// compiling in bounds checks for each memory access.
	const UseTrapHandler use_trap_handler;

	// If the runtime doesn't support exception propagation,
	// we won't generate stack checks, and trap handling will also
	// be generated differently.
	const RuntimeExceptionSupport runtime_exception_support;

	// The smallest size of any memory that could be used with this module, in
	// bytes.
	const uint64_t min_memory_size;

	// The largest size of any memory that could be used with this module, in
	// bytes.
	const uint64_t max_memory_size;

	const LowerSimd lower_simd;

	constexpr CompilationEnv(const WasmModule* module,
	UseTrapHandler use_trap_handler,
	RuntimeExceptionSupport runtime_exception_support,
	LowerSimd lower_simd = kNoLowerSimd)
	: module(module),
	use_trap_handler(use_trap_handler),
	runtime_exception_support(runtime_exception_support),
	min_memory_size(module ? module->initial_pages * uint64_t{kWasmPageSize}
	: 0),
	max_memory_size((module && module->has_maximum_pages
	? module->maximum_pages
	: kV8MaxWasmMemoryPages) *
	uint64_t{kWasmPageSize}),
	lower_simd(lower_simd) {}
	};

	// The wire bytes are either owned by the StreamingDecoder, or (after streaming)
	// by the NativeModule. This class abstracts over the storage location.
	class WireBytesStorage {
	public:
	virtual ~WireBytesStorage() = default;
	virtual Vector<const uint8_t> GetCode(WireBytesRef) const = 0;
	};

	// Callbacks will receive either {kFailedCompilation} or both
	// {kFinishedBaselineCompilation} and {kFinishedTopTierCompilation}, in that
	// order. If tier up is off, both events are delivered right after each other.
	enum class CompilationEvent : uint8_t {
	kFinishedBaselineCompilation,
	kFinishedTopTierCompilation,
	kFailedCompilation,

	// Marker:
	// After an event >= kFirstFinalEvent, no further events are generated.
	kFirstFinalEvent = kFinishedTopTierCompilation
	};

	// The implementation of {CompilationState} lives in module-compiler.cc.
	// This is the PIMPL interface to that private class.
	class CompilationState {
	public:
	using callback_t = std::function<void(CompilationEvent, const ResultBase*)>;
	~CompilationState();

	void CancelAndWait();

	void SetError(uint32_t func_index, const ResultBase& error_result);

	void SetWireBytesStorage(std::shared_ptr<WireBytesStorage>);

	std::shared_ptr<WireBytesStorage> GetWireBytesStorage() const;

	void AddCallback(callback_t);

	bool failed() const;

	private:
	friend class NativeModule;
	CompilationState() = delete;

	static std::unique_ptr<CompilationState> New(Isolate, NativeModule);
	};

	} // namespace wasm
	} // namespace internal
	} // namespace v8

	#endif // V8_WASM_COMPILATION_ENVIRONMENT_H_