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27276437ae
The .personalityindex directive is equivalent to the .personality directive with the ARM EABI personality with the specific index (0, 1, 2). Both of these directives indicate personality routines, so enhance the personality directive handling to take into account personalityindex. Bonus fix: flush the UnwindContext at the beginning of a new function. Thanks to Logan Chien for additional tests! git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@199706 91177308-0d34-0410-b5e6-96231b3b80d8
227 lines
6.8 KiB
C++
227 lines
6.8 KiB
C++
//===-- ARMUnwindOpAsm.cpp - ARM Unwind Opcodes Assembler -------*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file implements the unwind opcode assmebler for ARM exception handling
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// table.
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//
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//===----------------------------------------------------------------------===//
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#include "ARMUnwindOpAsm.h"
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#include "llvm/Support/ARMEHABI.h"
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#include "llvm/Support/ErrorHandling.h"
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#include "llvm/Support/LEB128.h"
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using namespace llvm;
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namespace {
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/// UnwindOpcodeStreamer - The simple wrapper over SmallVector to emit bytes
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/// with MSB to LSB per uint32_t ordering. For example, the first byte will
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/// be placed in Vec[3], and the following bytes will be placed in 2, 1, 0,
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/// 7, 6, 5, 4, 11, 10, 9, 8, and so on.
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class UnwindOpcodeStreamer {
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private:
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SmallVectorImpl<uint8_t> &Vec;
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size_t Pos;
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public:
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UnwindOpcodeStreamer(SmallVectorImpl<uint8_t> &V) : Vec(V), Pos(3) {
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}
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/// Emit the byte in MSB to LSB per uint32_t order.
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inline void EmitByte(uint8_t elem) {
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Vec[Pos] = elem;
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Pos = (((Pos ^ 0x3u) + 1) ^ 0x3u);
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}
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/// Emit the size prefix.
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inline void EmitSize(size_t Size) {
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size_t SizeInWords = (Size + 3) / 4;
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assert(SizeInWords <= 0x100u &&
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"Only 256 additional words are allowed for unwind opcodes");
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EmitByte(static_cast<uint8_t>(SizeInWords - 1));
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}
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/// Emit the personality index prefix.
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inline void EmitPersonalityIndex(unsigned PI) {
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assert(PI < ARM::EHABI::NUM_PERSONALITY_INDEX &&
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"Invalid personality prefix");
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EmitByte(ARM::EHABI::EHT_COMPACT | PI);
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}
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/// Fill the rest of bytes with FINISH opcode.
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inline void FillFinishOpcode() {
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while (Pos < Vec.size())
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EmitByte(ARM::EHABI::UNWIND_OPCODE_FINISH);
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}
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};
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}
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void UnwindOpcodeAssembler::EmitRegSave(uint32_t RegSave) {
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if (RegSave == 0u)
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return;
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// One byte opcode to save register r14 and r11-r4
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if (RegSave & (1u << 4)) {
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// The one byte opcode will always save r4, thus we can't use the one byte
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// opcode when r4 is not in .save directive.
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// Compute the consecutive registers from r4 to r11.
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uint32_t Range = 0;
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uint32_t Mask = (1u << 4);
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for (uint32_t Bit = (1u << 5); Bit < (1u << 12); Bit <<= 1) {
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if ((RegSave & Bit) == 0u)
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break;
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++Range;
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Mask |= Bit;
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}
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// Emit this opcode when the mask covers every registers.
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uint32_t UnmaskedReg = RegSave & 0xfff0u & (~Mask);
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if (UnmaskedReg == 0u) {
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// Pop r[4 : (4 + n)]
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EmitInt8(ARM::EHABI::UNWIND_OPCODE_POP_REG_RANGE_R4 | Range);
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RegSave &= 0x000fu;
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} else if (UnmaskedReg == (1u << 14)) {
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// Pop r[14] + r[4 : (4 + n)]
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EmitInt8(ARM::EHABI::UNWIND_OPCODE_POP_REG_RANGE_R4_R14 | Range);
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RegSave &= 0x000fu;
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}
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}
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// Two bytes opcode to save register r15-r4
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if ((RegSave & 0xfff0u) != 0)
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EmitInt16(ARM::EHABI::UNWIND_OPCODE_POP_REG_MASK_R4 | (RegSave >> 4));
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// Opcode to save register r3-r0
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if ((RegSave & 0x000fu) != 0)
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EmitInt16(ARM::EHABI::UNWIND_OPCODE_POP_REG_MASK | (RegSave & 0x000fu));
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}
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/// Emit unwind opcodes for .vsave directives
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void UnwindOpcodeAssembler::EmitVFPRegSave(uint32_t VFPRegSave) {
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size_t i = 32;
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while (i > 16) {
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uint32_t Bit = 1u << (i - 1);
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if ((VFPRegSave & Bit) == 0u) {
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--i;
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continue;
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}
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uint32_t Range = 0;
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--i;
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Bit >>= 1;
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while (i > 16 && (VFPRegSave & Bit)) {
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--i;
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++Range;
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Bit >>= 1;
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}
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EmitInt16(ARM::EHABI::UNWIND_OPCODE_POP_VFP_REG_RANGE_FSTMFDD_D16 |
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((i - 16) << 4) | Range);
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}
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while (i > 0) {
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uint32_t Bit = 1u << (i - 1);
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if ((VFPRegSave & Bit) == 0u) {
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--i;
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continue;
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}
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uint32_t Range = 0;
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--i;
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Bit >>= 1;
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while (i > 0 && (VFPRegSave & Bit)) {
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--i;
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++Range;
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Bit >>= 1;
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}
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EmitInt16(ARM::EHABI::UNWIND_OPCODE_POP_VFP_REG_RANGE_FSTMFDD | (i << 4) |
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Range);
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}
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}
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/// Emit unwind opcodes to copy address from source register to $sp.
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void UnwindOpcodeAssembler::EmitSetSP(uint16_t Reg) {
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EmitInt8(ARM::EHABI::UNWIND_OPCODE_SET_VSP | Reg);
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}
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/// Emit unwind opcodes to add $sp with an offset.
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void UnwindOpcodeAssembler::EmitSPOffset(int64_t Offset) {
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if (Offset > 0x200) {
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uint8_t Buff[16];
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Buff[0] = ARM::EHABI::UNWIND_OPCODE_INC_VSP_ULEB128;
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size_t ULEBSize = encodeULEB128((Offset - 0x204) >> 2, Buff + 1);
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EmitBytes(Buff, ULEBSize + 1);
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} else if (Offset > 0) {
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if (Offset > 0x100) {
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EmitInt8(ARM::EHABI::UNWIND_OPCODE_INC_VSP | 0x3fu);
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Offset -= 0x100;
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}
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EmitInt8(ARM::EHABI::UNWIND_OPCODE_INC_VSP |
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static_cast<uint8_t>((Offset - 4) >> 2));
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} else if (Offset < 0) {
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while (Offset < -0x100) {
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EmitInt8(ARM::EHABI::UNWIND_OPCODE_DEC_VSP | 0x3fu);
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Offset += 0x100;
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}
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EmitInt8(ARM::EHABI::UNWIND_OPCODE_DEC_VSP |
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static_cast<uint8_t>(((-Offset) - 4) >> 2));
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}
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}
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void UnwindOpcodeAssembler::Finalize(unsigned &PersonalityIndex,
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SmallVectorImpl<uint8_t> &Result) {
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UnwindOpcodeStreamer OpStreamer(Result);
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if (HasPersonality) {
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// User-specifed personality routine: [ SIZE , OP1 , OP2 , ... ]
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PersonalityIndex = ARM::EHABI::NUM_PERSONALITY_INDEX;
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size_t TotalSize = Ops.size() + 1;
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size_t RoundUpSize = (TotalSize + 3) / 4 * 4;
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Result.resize(RoundUpSize);
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OpStreamer.EmitSize(RoundUpSize);
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} else {
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// If no personalityindex is specified, select ane
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if (PersonalityIndex == ARM::EHABI::NUM_PERSONALITY_INDEX)
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PersonalityIndex = (Ops.size() <= 3) ? ARM::EHABI::AEABI_UNWIND_CPP_PR0
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: ARM::EHABI::AEABI_UNWIND_CPP_PR1;
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if (PersonalityIndex == ARM::EHABI::AEABI_UNWIND_CPP_PR0) {
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// __aeabi_unwind_cpp_pr0: [ 0x80 , OP1 , OP2 , OP3 ]
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assert(Ops.size() <= 3 && "too many opcodes for __aeabi_unwind_cpp_pr0");
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Result.resize(4);
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OpStreamer.EmitPersonalityIndex(PersonalityIndex);
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} else {
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// __aeabi_unwind_cpp_pr{1,2}: [ {0x81,0x82} , SIZE , OP1 , OP2 , ... ]
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size_t TotalSize = Ops.size() + 2;
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size_t RoundUpSize = (TotalSize + 3) / 4 * 4;
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Result.resize(RoundUpSize);
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OpStreamer.EmitPersonalityIndex(PersonalityIndex);
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OpStreamer.EmitSize(RoundUpSize);
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}
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}
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// Copy the unwind opcodes
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for (size_t i = OpBegins.size() - 1; i > 0; --i)
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for (size_t j = OpBegins[i - 1], end = OpBegins[i]; j < end; ++j)
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OpStreamer.EmitByte(Ops[j]);
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// Emit the padding finish opcodes if the size is not multiple of 4.
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OpStreamer.FillFinishOpcode();
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// Reset the assembler state
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Reset();
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}
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