//===-- llvm/Support/Win64EH.h ---Win64 EH Constants-------------*- C++ -*-===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // // This file contains constants and structures used for implementing // exception handling on Win64 platforms. For more information, see // http://msdn.microsoft.com/en-us/library/1eyas8tf.aspx // //===----------------------------------------------------------------------===// #ifndef LLVM_SUPPORT_WIN64EH_H #define LLVM_SUPPORT_WIN64EH_H #include "llvm/Support/DataTypes.h" #include "llvm/Support/Endian.h" namespace llvm { namespace Win64EH { /// UnwindOpcodes - Enumeration whose values specify a single operation in /// the prolog of a function. enum UnwindOpcodes { // The following set of unwind opcodes is for x86_64. They are documented at // https://docs.microsoft.com/en-us/cpp/build/exception-handling-x64. // Some generic values from this set are used for other architectures too. UOP_PushNonVol = 0, UOP_AllocLarge, UOP_AllocSmall, UOP_SetFPReg, UOP_SaveNonVol, UOP_SaveNonVolBig, UOP_Epilog, UOP_SpareCode, UOP_SaveXMM128, UOP_SaveXMM128Big, UOP_PushMachFrame, // The following set of unwind opcodes is for ARM64. They are documented at // https://docs.microsoft.com/en-us/cpp/build/arm64-exception-handling UOP_AllocMedium, UOP_SaveR19R20X, UOP_SaveFPLRX, UOP_SaveFPLR, UOP_SaveReg, UOP_SaveRegX, UOP_SaveRegP, UOP_SaveRegPX, UOP_SaveLRPair, UOP_SaveFReg, UOP_SaveFRegX, UOP_SaveFRegP, UOP_SaveFRegPX, UOP_SetFP, UOP_AddFP, UOP_Nop, UOP_End, UOP_SaveNext, UOP_TrapFrame, UOP_Context, UOP_ECContext, UOP_ClearUnwoundToCall, UOP_PACSignLR, UOP_SaveAnyRegI, UOP_SaveAnyRegIP, UOP_SaveAnyRegD, UOP_SaveAnyRegDP, UOP_SaveAnyRegQ, UOP_SaveAnyRegQP, UOP_SaveAnyRegIX, UOP_SaveAnyRegIPX, UOP_SaveAnyRegDX, UOP_SaveAnyRegDPX, UOP_SaveAnyRegQX, UOP_SaveAnyRegQPX, // The following set of unwind opcodes is for ARM. They are documented at // https://docs.microsoft.com/en-us/cpp/build/arm-exception-handling // Stack allocations use UOP_AllocSmall, UOP_AllocLarge from above, plus // the following. AllocSmall, AllocLarge and AllocHuge represent a 16 bit // instruction, while the WideAlloc* opcodes represent a 32 bit instruction. // Small can represent a stack offset of 0x7f*4 (252) bytes, Medium can // represent up to 0x3ff*4 (4092) bytes, Large up to 0xffff*4 (262140) bytes, // and Huge up to 0xffffff*4 (67108860) bytes. UOP_AllocHuge, UOP_WideAllocMedium, UOP_WideAllocLarge, UOP_WideAllocHuge, UOP_WideSaveRegMask, UOP_SaveSP, UOP_SaveRegsR4R7LR, UOP_WideSaveRegsR4R11LR, UOP_SaveFRegD8D15, UOP_SaveRegMask, UOP_SaveLR, UOP_SaveFRegD0D15, UOP_SaveFRegD16D31, // Using UOP_Nop from above UOP_WideNop, // Using UOP_End from above UOP_EndNop, UOP_WideEndNop, // A custom unspecified opcode, consisting of one or more bytes. This // allows producing opcodes in the implementation defined/reserved range. UOP_Custom, }; /// UnwindCode - This union describes a single operation in a function prolog, /// or part thereof. union UnwindCode { struct { uint8_t CodeOffset; uint8_t UnwindOpAndOpInfo; } u; support::ulittle16_t FrameOffset; uint8_t getUnwindOp() const { return u.UnwindOpAndOpInfo & 0x0F; } uint8_t getOpInfo() const { return (u.UnwindOpAndOpInfo >> 4) & 0x0F; } }; enum { /// UNW_ExceptionHandler - Specifies that this function has an exception /// handler. UNW_ExceptionHandler = 0x01, /// UNW_TerminateHandler - Specifies that this function has a termination /// handler. UNW_TerminateHandler = 0x02, /// UNW_ChainInfo - Specifies that this UnwindInfo structure is chained to /// another one. UNW_ChainInfo = 0x04 }; /// RuntimeFunction - An entry in the table of functions with unwind info. struct RuntimeFunction { support::ulittle32_t StartAddress; support::ulittle32_t EndAddress; support::ulittle32_t UnwindInfoOffset; }; /// UnwindInfo - An entry in the exception table. struct UnwindInfo { uint8_t VersionAndFlags; uint8_t PrologSize; uint8_t NumCodes; uint8_t FrameRegisterAndOffset; UnwindCode UnwindCodes[1]; uint8_t getVersion() const { return VersionAndFlags & 0x07; } uint8_t getFlags() const { return (VersionAndFlags >> 3) & 0x1f; } uint8_t getFrameRegister() const { return FrameRegisterAndOffset & 0x0f; } uint8_t getFrameOffset() const { return (FrameRegisterAndOffset >> 4) & 0x0f; } // The data after unwindCodes depends on flags. // If UNW_ExceptionHandler or UNW_TerminateHandler is set then follows // the address of the language-specific exception handler. // If UNW_ChainInfo is set then follows a RuntimeFunction which defines // the chained unwind info. // For more information please see MSDN at: // http://msdn.microsoft.com/en-us/library/ddssxxy8.aspx /// Return pointer to language specific data part of UnwindInfo. void *getLanguageSpecificData() { return reinterpret_cast(&UnwindCodes[(NumCodes+1) & ~1]); } /// Return pointer to language specific data part of UnwindInfo. const void *getLanguageSpecificData() const { return reinterpret_cast(&UnwindCodes[(NumCodes + 1) & ~1]); } /// Return image-relative offset of language-specific exception handler. uint32_t getLanguageSpecificHandlerOffset() const { return *reinterpret_cast( getLanguageSpecificData()); } /// Set image-relative offset of language-specific exception handler. void setLanguageSpecificHandlerOffset(uint32_t offset) { *reinterpret_cast(getLanguageSpecificData()) = offset; } /// Return pointer to exception-specific data. void *getExceptionData() { return reinterpret_cast(reinterpret_cast( getLanguageSpecificData())+1); } /// Return pointer to chained unwind info. RuntimeFunction *getChainedFunctionEntry() { return reinterpret_cast(getLanguageSpecificData()); } /// Return pointer to chained unwind info. const RuntimeFunction *getChainedFunctionEntry() const { return reinterpret_cast(getLanguageSpecificData()); } }; } // End of namespace Win64EH } // End of namespace llvm #endif