// Copyright 2019 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_DIAGNOSTICS_UNWINDING_INFO_WIN64_H_ #define V8_DIAGNOSTICS_UNWINDING_INFO_WIN64_H_ #include "include/v8.h" #include "include/v8config.h" #include "src/common/globals.h" #if defined(V8_OS_WIN64) #include "src/base/win32-headers.h" namespace v8 { namespace internal { namespace win64_unwindinfo { #define CRASH_HANDLER_FUNCTION_NAME CrashForExceptionInNonABICompliantCodeRange #define CRASH_HANDLER_FUNCTION_NAME_STRING \ "CrashForExceptionInNonABICompliantCodeRange" static const int kOSPageSize = 4096; /** * Returns true if V8 is configured to emit unwinding data for embedded in the * pdata/xdata sections of the executable. Currently, this happens when V8 is * built with "v8_win64_unwinding_info = true". */ bool CanEmitUnwindInfoForBuiltins(); /** * Returns true if V8 if we can register unwinding data for the whole code range * of an isolate or WASM module. The first page of the code range is reserved * and writable, to be used to store unwind data, as documented in: * https://docs.microsoft.com/en-us/cpp/build/exception-handling-x64. * In jitless mode V8 does not allocate any executable memory itself so the only * non-abi-compliant code range is in the embedded blob. */ bool CanRegisterUnwindInfoForNonABICompliantCodeRange(); /** * Registers a custom exception handler for exceptions in V8-generated code. */ void SetUnhandledExceptionCallback( v8::UnhandledExceptionCallback unhandled_exception_callback); void RegisterNonABICompliantCodeRange(void* start, size_t size_in_bytes); void UnregisterNonABICompliantCodeRange(void* start); /** * Default count of RUNTIME_FUNCTION needed. For Windows X64, 1 RUNTIME_FUNCTION * covers 4GB range which is sufficient to cover the whole code range of an * isolate or WASM module. For Windows ARM64, 1 RUNTIME_FUNCTION covers * kMaxFunctionLength bytes so multiple RUNTIME_FUNCTION structs could be needed * to cover the whole code range of an isolate or WASM module. The extra * RUNTIME_FUNCTIONs are assumed following the first one in the reserved page. */ static const uint32_t kDefaultRuntimeFunctionCount = 1; #if defined(V8_OS_WIN_X64) static const int kPushRbpInstructionLength = 1; static const int kMovRbpRspInstructionLength = 3; static const int kRbpPrefixCodes = 2; static const int kRbpPrefixLength = kPushRbpInstructionLength + kMovRbpRspInstructionLength; /** * Returns a vector of bytes that contains the Win X64 unwind data used for all * V8 builtin functions. */ std::vector GetUnwindInfoForBuiltinFunctions(); class BuiltinUnwindInfo { public: BuiltinUnwindInfo() : is_leaf_function_(true) {} explicit BuiltinUnwindInfo(const std::vector& fp_offsets) : is_leaf_function_(false), fp_offsets_(fp_offsets) {} bool is_leaf_function() const { return is_leaf_function_; } const std::vector& fp_offsets() const { return fp_offsets_; } private: bool is_leaf_function_; std::vector fp_offsets_; }; class XdataEncoder { public: explicit XdataEncoder(const Assembler& assembler) : assembler_(assembler), current_frame_code_offset_(-1) {} void onPushRbp(); void onMovRbpRsp(); BuiltinUnwindInfo unwinding_info() const { return BuiltinUnwindInfo(fp_offsets_); } private: const Assembler& assembler_; std::vector fp_offsets_; int current_frame_code_offset_; }; #elif defined(V8_OS_WIN_ARM64) /** * Base on below doc, unwind record has 18 bits (unsigned) to encode function * length, besides 2 LSB which are always 0. * https://docs.microsoft.com/en-us/cpp/build/arm64-exception-handling#xdata-records */ static const int kMaxFunctionLength = ((1 << 18) - 1) << 2; /** * Returns a vector of bytes that contains the Win ARM64 unwind data used for * all V8 builtin functions. * * func_len: length in bytes of current function/region to unwind. * fp_adjustment: offset of the saved caller's fp based on fp in current frame. * this is necessary to encode unwind data for Windows stack * unwinder to find correct caller's fp. */ std::vector GetUnwindInfoForBuiltinFunction(uint32_t func_len, int32_t fp_adjustment); class BuiltinUnwindInfo { public: BuiltinUnwindInfo() : is_leaf_function_(true) {} explicit BuiltinUnwindInfo(const std::vector& fp_offsets, const std::vector& fp_adjustments) : is_leaf_function_(false), fp_offsets_(fp_offsets), fp_adjustments_(fp_adjustments) {} const std::vector& fp_adjustments() const { return fp_adjustments_; } bool is_leaf_function() const { return is_leaf_function_; } const std::vector& fp_offsets() const { return fp_offsets_; } private: bool is_leaf_function_; std::vector fp_offsets_; std::vector fp_adjustments_; }; class XdataEncoder { public: explicit XdataEncoder(const Assembler& assembler) : assembler_(assembler), current_frame_code_offset_(-1), current_frame_adjustment_(0) {} void onSaveFpLr(); void onFramePointerAdjustment(int bytes); BuiltinUnwindInfo unwinding_info() const { return BuiltinUnwindInfo(fp_offsets_, fp_adjustments_); } private: const Assembler& assembler_; std::vector fp_offsets_; int current_frame_code_offset_; int current_frame_adjustment_; std::vector fp_adjustments_; }; #endif } // namespace win64_unwindinfo } // namespace internal } // namespace v8 #endif // V8_OS_WIN64 #endif // V8_DIAGNOSTICS_UNWINDING_INFO_WIN64_H_