mirror of
https://github.com/klzgrad/naiveproxy.git
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717 lines
27 KiB
C++
717 lines
27 KiB
C++
//===--------------------------- DwarfParser.hpp --------------------------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is dual licensed under the MIT and the University of Illinois Open
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// Source Licenses. See LICENSE.TXT for details.
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//
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//
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// Parses DWARF CFIs (FDEs and CIEs).
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//
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//===----------------------------------------------------------------------===//
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#ifndef __DWARF_PARSER_HPP__
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#define __DWARF_PARSER_HPP__
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#include <inttypes.h>
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#include <stdint.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include "libunwind.h"
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#include "dwarf2.h"
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#include "config.h"
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namespace libunwind {
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/// CFI_Parser does basic parsing of a CFI (Call Frame Information) records.
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/// See DWARF Spec for details:
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/// http://refspecs.linuxbase.org/LSB_3.1.0/LSB-Core-generic/LSB-Core-generic/ehframechpt.html
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///
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template <typename A>
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class CFI_Parser {
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public:
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typedef typename A::pint_t pint_t;
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/// Information encoded in a CIE (Common Information Entry)
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struct CIE_Info {
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pint_t cieStart;
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pint_t cieLength;
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pint_t cieInstructions;
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uint8_t pointerEncoding;
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uint8_t lsdaEncoding;
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uint8_t personalityEncoding;
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uint8_t personalityOffsetInCIE;
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pint_t personality;
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uint32_t codeAlignFactor;
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int dataAlignFactor;
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bool isSignalFrame;
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bool fdesHaveAugmentationData;
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uint8_t returnAddressRegister;
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};
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/// Information about an FDE (Frame Description Entry)
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struct FDE_Info {
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pint_t fdeStart;
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pint_t fdeLength;
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pint_t fdeInstructions;
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pint_t pcStart;
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pint_t pcEnd;
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pint_t lsda;
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};
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enum {
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kMaxRegisterNumber = _LIBUNWIND_HIGHEST_DWARF_REGISTER
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};
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enum RegisterSavedWhere {
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kRegisterUnused,
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kRegisterInCFA,
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kRegisterOffsetFromCFA,
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kRegisterInRegister,
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kRegisterAtExpression,
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kRegisterIsExpression
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};
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struct RegisterLocation {
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RegisterSavedWhere location;
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int64_t value;
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};
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/// Information about a frame layout and registers saved determined
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/// by "running" the DWARF FDE "instructions"
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struct PrologInfo {
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uint32_t cfaRegister;
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int32_t cfaRegisterOffset; // CFA = (cfaRegister)+cfaRegisterOffset
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int64_t cfaExpression; // CFA = expression
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uint32_t spExtraArgSize;
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uint32_t codeOffsetAtStackDecrement;
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bool registersInOtherRegisters;
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bool sameValueUsed;
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RegisterLocation savedRegisters[kMaxRegisterNumber + 1];
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};
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struct PrologInfoStackEntry {
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PrologInfoStackEntry(PrologInfoStackEntry *n, const PrologInfo &i)
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: next(n), info(i) {}
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PrologInfoStackEntry *next;
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PrologInfo info;
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};
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static bool findFDE(A &addressSpace, pint_t pc, pint_t ehSectionStart,
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uint32_t sectionLength, pint_t fdeHint, FDE_Info *fdeInfo,
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CIE_Info *cieInfo);
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static const char *decodeFDE(A &addressSpace, pint_t fdeStart,
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FDE_Info *fdeInfo, CIE_Info *cieInfo);
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static bool parseFDEInstructions(A &addressSpace, const FDE_Info &fdeInfo,
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const CIE_Info &cieInfo, pint_t upToPC,
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PrologInfo *results);
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static const char *parseCIE(A &addressSpace, pint_t cie, CIE_Info *cieInfo);
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private:
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static bool parseInstructions(A &addressSpace, pint_t instructions,
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pint_t instructionsEnd, const CIE_Info &cieInfo,
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pint_t pcoffset,
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PrologInfoStackEntry *&rememberStack,
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PrologInfo *results);
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};
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/// Parse a FDE into a CIE_Info and an FDE_Info
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template <typename A>
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const char *CFI_Parser<A>::decodeFDE(A &addressSpace, pint_t fdeStart,
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FDE_Info *fdeInfo, CIE_Info *cieInfo) {
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pint_t p = fdeStart;
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pint_t cfiLength = (pint_t)addressSpace.get32(p);
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p += 4;
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if (cfiLength == 0xffffffff) {
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// 0xffffffff means length is really next 8 bytes
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cfiLength = (pint_t)addressSpace.get64(p);
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p += 8;
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}
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if (cfiLength == 0)
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return "FDE has zero length"; // end marker
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uint32_t ciePointer = addressSpace.get32(p);
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if (ciePointer == 0)
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return "FDE is really a CIE"; // this is a CIE not an FDE
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pint_t nextCFI = p + cfiLength;
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pint_t cieStart = p - ciePointer;
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const char *err = parseCIE(addressSpace, cieStart, cieInfo);
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if (err != NULL)
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return err;
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p += 4;
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// Parse pc begin and range.
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pint_t pcStart =
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addressSpace.getEncodedP(p, nextCFI, cieInfo->pointerEncoding);
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pint_t pcRange =
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addressSpace.getEncodedP(p, nextCFI, cieInfo->pointerEncoding & 0x0F);
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// Parse rest of info.
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fdeInfo->lsda = 0;
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// Check for augmentation length.
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if (cieInfo->fdesHaveAugmentationData) {
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pint_t augLen = (pint_t)addressSpace.getULEB128(p, nextCFI);
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pint_t endOfAug = p + augLen;
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if (cieInfo->lsdaEncoding != DW_EH_PE_omit) {
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// Peek at value (without indirection). Zero means no LSDA.
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pint_t lsdaStart = p;
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if (addressSpace.getEncodedP(p, nextCFI, cieInfo->lsdaEncoding & 0x0F) !=
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0) {
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// Reset pointer and re-parse LSDA address.
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p = lsdaStart;
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fdeInfo->lsda =
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addressSpace.getEncodedP(p, nextCFI, cieInfo->lsdaEncoding);
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}
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}
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p = endOfAug;
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}
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fdeInfo->fdeStart = fdeStart;
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fdeInfo->fdeLength = nextCFI - fdeStart;
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fdeInfo->fdeInstructions = p;
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fdeInfo->pcStart = pcStart;
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fdeInfo->pcEnd = pcStart + pcRange;
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return NULL; // success
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}
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/// Scan an eh_frame section to find an FDE for a pc
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template <typename A>
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bool CFI_Parser<A>::findFDE(A &addressSpace, pint_t pc, pint_t ehSectionStart,
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uint32_t sectionLength, pint_t fdeHint,
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FDE_Info *fdeInfo, CIE_Info *cieInfo) {
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//fprintf(stderr, "findFDE(0x%llX)\n", (long long)pc);
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pint_t p = (fdeHint != 0) ? fdeHint : ehSectionStart;
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const pint_t ehSectionEnd = p + sectionLength;
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while (p < ehSectionEnd) {
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pint_t currentCFI = p;
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//fprintf(stderr, "findFDE() CFI at 0x%llX\n", (long long)p);
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pint_t cfiLength = addressSpace.get32(p);
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p += 4;
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if (cfiLength == 0xffffffff) {
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// 0xffffffff means length is really next 8 bytes
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cfiLength = (pint_t)addressSpace.get64(p);
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p += 8;
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}
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if (cfiLength == 0)
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return false; // end marker
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uint32_t id = addressSpace.get32(p);
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if (id == 0) {
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// Skip over CIEs.
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p += cfiLength;
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} else {
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// Process FDE to see if it covers pc.
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pint_t nextCFI = p + cfiLength;
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uint32_t ciePointer = addressSpace.get32(p);
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pint_t cieStart = p - ciePointer;
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// Validate pointer to CIE is within section.
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if ((ehSectionStart <= cieStart) && (cieStart < ehSectionEnd)) {
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if (parseCIE(addressSpace, cieStart, cieInfo) == NULL) {
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p += 4;
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// Parse pc begin and range.
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pint_t pcStart =
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addressSpace.getEncodedP(p, nextCFI, cieInfo->pointerEncoding);
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pint_t pcRange = addressSpace.getEncodedP(
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p, nextCFI, cieInfo->pointerEncoding & 0x0F);
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// Test if pc is within the function this FDE covers.
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if ((pcStart < pc) && (pc <= pcStart + pcRange)) {
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// parse rest of info
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fdeInfo->lsda = 0;
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// check for augmentation length
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if (cieInfo->fdesHaveAugmentationData) {
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pint_t augLen = (pint_t)addressSpace.getULEB128(p, nextCFI);
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pint_t endOfAug = p + augLen;
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if (cieInfo->lsdaEncoding != DW_EH_PE_omit) {
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// Peek at value (without indirection). Zero means no LSDA.
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pint_t lsdaStart = p;
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if (addressSpace.getEncodedP(
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p, nextCFI, cieInfo->lsdaEncoding & 0x0F) != 0) {
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// Reset pointer and re-parse LSDA address.
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p = lsdaStart;
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fdeInfo->lsda = addressSpace
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.getEncodedP(p, nextCFI, cieInfo->lsdaEncoding);
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}
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}
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p = endOfAug;
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}
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fdeInfo->fdeStart = currentCFI;
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fdeInfo->fdeLength = nextCFI - currentCFI;
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fdeInfo->fdeInstructions = p;
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fdeInfo->pcStart = pcStart;
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fdeInfo->pcEnd = pcStart + pcRange;
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return true;
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} else {
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// pc is not in begin/range, skip this FDE
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}
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} else {
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// Malformed CIE, now augmentation describing pc range encoding.
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}
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} else {
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// malformed FDE. CIE is bad
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}
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p = nextCFI;
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}
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}
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return false;
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}
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/// Extract info from a CIE
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template <typename A>
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const char *CFI_Parser<A>::parseCIE(A &addressSpace, pint_t cie,
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CIE_Info *cieInfo) {
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cieInfo->pointerEncoding = 0;
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cieInfo->lsdaEncoding = DW_EH_PE_omit;
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cieInfo->personalityEncoding = 0;
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cieInfo->personalityOffsetInCIE = 0;
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cieInfo->personality = 0;
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cieInfo->codeAlignFactor = 0;
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cieInfo->dataAlignFactor = 0;
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cieInfo->isSignalFrame = false;
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cieInfo->fdesHaveAugmentationData = false;
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cieInfo->cieStart = cie;
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pint_t p = cie;
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pint_t cieLength = (pint_t)addressSpace.get32(p);
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p += 4;
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pint_t cieContentEnd = p + cieLength;
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if (cieLength == 0xffffffff) {
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// 0xffffffff means length is really next 8 bytes
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cieLength = (pint_t)addressSpace.get64(p);
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p += 8;
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cieContentEnd = p + cieLength;
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}
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if (cieLength == 0)
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return NULL;
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// CIE ID is always 0
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if (addressSpace.get32(p) != 0)
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return "CIE ID is not zero";
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p += 4;
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// Version is always 1 or 3
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uint8_t version = addressSpace.get8(p);
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if ((version != 1) && (version != 3))
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return "CIE version is not 1 or 3";
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++p;
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// save start of augmentation string and find end
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pint_t strStart = p;
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while (addressSpace.get8(p) != 0)
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++p;
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++p;
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// parse code aligment factor
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cieInfo->codeAlignFactor = (uint32_t)addressSpace.getULEB128(p, cieContentEnd);
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// parse data alignment factor
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cieInfo->dataAlignFactor = (int)addressSpace.getSLEB128(p, cieContentEnd);
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// parse return address register
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uint64_t raReg = addressSpace.getULEB128(p, cieContentEnd);
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assert(raReg < 255 && "return address register too large");
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cieInfo->returnAddressRegister = (uint8_t)raReg;
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// parse augmentation data based on augmentation string
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const char *result = NULL;
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if (addressSpace.get8(strStart) == 'z') {
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// parse augmentation data length
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addressSpace.getULEB128(p, cieContentEnd);
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for (pint_t s = strStart; addressSpace.get8(s) != '\0'; ++s) {
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switch (addressSpace.get8(s)) {
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case 'z':
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cieInfo->fdesHaveAugmentationData = true;
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break;
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case 'P':
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cieInfo->personalityEncoding = addressSpace.get8(p);
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++p;
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cieInfo->personalityOffsetInCIE = (uint8_t)(p - cie);
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cieInfo->personality = addressSpace
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.getEncodedP(p, cieContentEnd, cieInfo->personalityEncoding);
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break;
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case 'L':
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cieInfo->lsdaEncoding = addressSpace.get8(p);
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++p;
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break;
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case 'R':
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cieInfo->pointerEncoding = addressSpace.get8(p);
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++p;
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break;
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case 'S':
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cieInfo->isSignalFrame = true;
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break;
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default:
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// ignore unknown letters
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break;
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}
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}
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}
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cieInfo->cieLength = cieContentEnd - cieInfo->cieStart;
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cieInfo->cieInstructions = p;
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return result;
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}
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/// "run" the DWARF instructions and create the abstact PrologInfo for an FDE
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template <typename A>
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bool CFI_Parser<A>::parseFDEInstructions(A &addressSpace,
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const FDE_Info &fdeInfo,
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const CIE_Info &cieInfo, pint_t upToPC,
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PrologInfo *results) {
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// clear results
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memset(results, '\0', sizeof(PrologInfo));
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PrologInfoStackEntry *rememberStack = NULL;
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// parse CIE then FDE instructions
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return parseInstructions(addressSpace, cieInfo.cieInstructions,
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cieInfo.cieStart + cieInfo.cieLength, cieInfo,
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(pint_t)(-1), rememberStack, results) &&
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parseInstructions(addressSpace, fdeInfo.fdeInstructions,
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fdeInfo.fdeStart + fdeInfo.fdeLength, cieInfo,
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upToPC - fdeInfo.pcStart, rememberStack, results);
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}
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/// "run" the DWARF instructions
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template <typename A>
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bool CFI_Parser<A>::parseInstructions(A &addressSpace, pint_t instructions,
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pint_t instructionsEnd,
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const CIE_Info &cieInfo, pint_t pcoffset,
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PrologInfoStackEntry *&rememberStack,
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PrologInfo *results) {
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pint_t p = instructions;
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pint_t codeOffset = 0;
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PrologInfo initialState = *results;
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_LIBUNWIND_TRACE_DWARF("parseInstructions(instructions=0x%0" PRIx64 ")\n",
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static_cast<uint64_t>(instructionsEnd));
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// see DWARF Spec, section 6.4.2 for details on unwind opcodes
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while ((p < instructionsEnd) && (codeOffset < pcoffset)) {
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uint64_t reg;
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uint64_t reg2;
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int64_t offset;
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uint64_t length;
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uint8_t opcode = addressSpace.get8(p);
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uint8_t operand;
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#if !defined(_LIBUNWIND_NO_HEAP)
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PrologInfoStackEntry *entry;
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#endif
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++p;
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switch (opcode) {
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case DW_CFA_nop:
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_LIBUNWIND_TRACE_DWARF("DW_CFA_nop\n");
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break;
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case DW_CFA_set_loc:
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codeOffset =
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addressSpace.getEncodedP(p, instructionsEnd, cieInfo.pointerEncoding);
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_LIBUNWIND_TRACE_DWARF("DW_CFA_set_loc\n");
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break;
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case DW_CFA_advance_loc1:
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codeOffset += (addressSpace.get8(p) * cieInfo.codeAlignFactor);
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p += 1;
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_LIBUNWIND_TRACE_DWARF("DW_CFA_advance_loc1: new offset=%" PRIu64 "\n",
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static_cast<uint64_t>(codeOffset));
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break;
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case DW_CFA_advance_loc2:
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codeOffset += (addressSpace.get16(p) * cieInfo.codeAlignFactor);
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p += 2;
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_LIBUNWIND_TRACE_DWARF("DW_CFA_advance_loc2: new offset=%" PRIu64 "\n",
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static_cast<uint64_t>(codeOffset));
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break;
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case DW_CFA_advance_loc4:
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codeOffset += (addressSpace.get32(p) * cieInfo.codeAlignFactor);
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p += 4;
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_LIBUNWIND_TRACE_DWARF("DW_CFA_advance_loc4: new offset=%" PRIu64 "\n",
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static_cast<uint64_t>(codeOffset));
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break;
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case DW_CFA_offset_extended:
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reg = addressSpace.getULEB128(p, instructionsEnd);
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offset = (int64_t)addressSpace.getULEB128(p, instructionsEnd)
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* cieInfo.dataAlignFactor;
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if (reg > kMaxRegisterNumber) {
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_LIBUNWIND_LOG0(
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"malformed DW_CFA_offset_extended DWARF unwind, reg too big");
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return false;
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}
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results->savedRegisters[reg].location = kRegisterInCFA;
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results->savedRegisters[reg].value = offset;
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_LIBUNWIND_TRACE_DWARF("DW_CFA_offset_extended(reg=%" PRIu64 ", "
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"offset=%" PRId64 ")\n",
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reg, offset);
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break;
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case DW_CFA_restore_extended:
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reg = addressSpace.getULEB128(p, instructionsEnd);
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if (reg > kMaxRegisterNumber) {
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_LIBUNWIND_LOG0(
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"malformed DW_CFA_restore_extended DWARF unwind, reg too big");
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return false;
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}
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results->savedRegisters[reg] = initialState.savedRegisters[reg];
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_LIBUNWIND_TRACE_DWARF("DW_CFA_restore_extended(reg=%" PRIu64 ")\n", reg);
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break;
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case DW_CFA_undefined:
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reg = addressSpace.getULEB128(p, instructionsEnd);
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if (reg > kMaxRegisterNumber) {
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_LIBUNWIND_LOG0(
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"malformed DW_CFA_undefined DWARF unwind, reg too big");
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return false;
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}
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results->savedRegisters[reg].location = kRegisterUnused;
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_LIBUNWIND_TRACE_DWARF("DW_CFA_undefined(reg=%" PRIu64 ")\n", reg);
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break;
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case DW_CFA_same_value:
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reg = addressSpace.getULEB128(p, instructionsEnd);
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if (reg > kMaxRegisterNumber) {
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_LIBUNWIND_LOG0(
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"malformed DW_CFA_same_value DWARF unwind, reg too big");
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return false;
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}
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// <rdar://problem/8456377> DW_CFA_same_value unsupported
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// "same value" means register was stored in frame, but its current
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// value has not changed, so no need to restore from frame.
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// We model this as if the register was never saved.
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results->savedRegisters[reg].location = kRegisterUnused;
|
|
// set flag to disable conversion to compact unwind
|
|
results->sameValueUsed = true;
|
|
_LIBUNWIND_TRACE_DWARF("DW_CFA_same_value(reg=%" PRIu64 ")\n", reg);
|
|
break;
|
|
case DW_CFA_register:
|
|
reg = addressSpace.getULEB128(p, instructionsEnd);
|
|
reg2 = addressSpace.getULEB128(p, instructionsEnd);
|
|
if (reg > kMaxRegisterNumber) {
|
|
_LIBUNWIND_LOG0(
|
|
"malformed DW_CFA_register DWARF unwind, reg too big");
|
|
return false;
|
|
}
|
|
if (reg2 > kMaxRegisterNumber) {
|
|
_LIBUNWIND_LOG0(
|
|
"malformed DW_CFA_register DWARF unwind, reg2 too big");
|
|
return false;
|
|
}
|
|
results->savedRegisters[reg].location = kRegisterInRegister;
|
|
results->savedRegisters[reg].value = (int64_t)reg2;
|
|
// set flag to disable conversion to compact unwind
|
|
results->registersInOtherRegisters = true;
|
|
_LIBUNWIND_TRACE_DWARF(
|
|
"DW_CFA_register(reg=%" PRIu64 ", reg2=%" PRIu64 ")\n", reg, reg2);
|
|
break;
|
|
#if !defined(_LIBUNWIND_NO_HEAP)
|
|
case DW_CFA_remember_state:
|
|
// avoid operator new, because that would be an upward dependency
|
|
entry = (PrologInfoStackEntry *)malloc(sizeof(PrologInfoStackEntry));
|
|
if (entry != NULL) {
|
|
entry->next = rememberStack;
|
|
entry->info = *results;
|
|
rememberStack = entry;
|
|
} else {
|
|
return false;
|
|
}
|
|
_LIBUNWIND_TRACE_DWARF("DW_CFA_remember_state\n");
|
|
break;
|
|
case DW_CFA_restore_state:
|
|
if (rememberStack != NULL) {
|
|
PrologInfoStackEntry *top = rememberStack;
|
|
*results = top->info;
|
|
rememberStack = top->next;
|
|
free((char *)top);
|
|
} else {
|
|
return false;
|
|
}
|
|
_LIBUNWIND_TRACE_DWARF("DW_CFA_restore_state\n");
|
|
break;
|
|
#endif
|
|
case DW_CFA_def_cfa:
|
|
reg = addressSpace.getULEB128(p, instructionsEnd);
|
|
offset = (int64_t)addressSpace.getULEB128(p, instructionsEnd);
|
|
if (reg > kMaxRegisterNumber) {
|
|
_LIBUNWIND_LOG0("malformed DW_CFA_def_cfa DWARF unwind, reg too big");
|
|
return false;
|
|
}
|
|
results->cfaRegister = (uint32_t)reg;
|
|
results->cfaRegisterOffset = (int32_t)offset;
|
|
_LIBUNWIND_TRACE_DWARF(
|
|
"DW_CFA_def_cfa(reg=%" PRIu64 ", offset=%" PRIu64 ")\n", reg, offset);
|
|
break;
|
|
case DW_CFA_def_cfa_register:
|
|
reg = addressSpace.getULEB128(p, instructionsEnd);
|
|
if (reg > kMaxRegisterNumber) {
|
|
_LIBUNWIND_LOG0(
|
|
"malformed DW_CFA_def_cfa_register DWARF unwind, reg too big");
|
|
return false;
|
|
}
|
|
results->cfaRegister = (uint32_t)reg;
|
|
_LIBUNWIND_TRACE_DWARF("DW_CFA_def_cfa_register(%" PRIu64 ")\n", reg);
|
|
break;
|
|
case DW_CFA_def_cfa_offset:
|
|
results->cfaRegisterOffset = (int32_t)
|
|
addressSpace.getULEB128(p, instructionsEnd);
|
|
results->codeOffsetAtStackDecrement = (uint32_t)codeOffset;
|
|
_LIBUNWIND_TRACE_DWARF("DW_CFA_def_cfa_offset(%d)\n",
|
|
results->cfaRegisterOffset);
|
|
break;
|
|
case DW_CFA_def_cfa_expression:
|
|
results->cfaRegister = 0;
|
|
results->cfaExpression = (int64_t)p;
|
|
length = addressSpace.getULEB128(p, instructionsEnd);
|
|
assert(length < static_cast<pint_t>(~0) && "pointer overflow");
|
|
p += static_cast<pint_t>(length);
|
|
_LIBUNWIND_TRACE_DWARF("DW_CFA_def_cfa_expression(expression=0x%" PRIx64
|
|
", length=%" PRIu64 ")\n",
|
|
results->cfaExpression, length);
|
|
break;
|
|
case DW_CFA_expression:
|
|
reg = addressSpace.getULEB128(p, instructionsEnd);
|
|
if (reg > kMaxRegisterNumber) {
|
|
_LIBUNWIND_LOG0(
|
|
"malformed DW_CFA_expression DWARF unwind, reg too big");
|
|
return false;
|
|
}
|
|
results->savedRegisters[reg].location = kRegisterAtExpression;
|
|
results->savedRegisters[reg].value = (int64_t)p;
|
|
length = addressSpace.getULEB128(p, instructionsEnd);
|
|
assert(length < static_cast<pint_t>(~0) && "pointer overflow");
|
|
p += static_cast<pint_t>(length);
|
|
_LIBUNWIND_TRACE_DWARF("DW_CFA_expression(reg=%" PRIu64 ", "
|
|
"expression=0x%" PRIx64 ", "
|
|
"length=%" PRIu64 ")\n",
|
|
reg, results->savedRegisters[reg].value, length);
|
|
break;
|
|
case DW_CFA_offset_extended_sf:
|
|
reg = addressSpace.getULEB128(p, instructionsEnd);
|
|
if (reg > kMaxRegisterNumber) {
|
|
_LIBUNWIND_LOG0(
|
|
"malformed DW_CFA_offset_extended_sf DWARF unwind, reg too big");
|
|
return false;
|
|
}
|
|
offset =
|
|
addressSpace.getSLEB128(p, instructionsEnd) * cieInfo.dataAlignFactor;
|
|
results->savedRegisters[reg].location = kRegisterInCFA;
|
|
results->savedRegisters[reg].value = offset;
|
|
_LIBUNWIND_TRACE_DWARF("DW_CFA_offset_extended_sf(reg=%" PRIu64 ", "
|
|
"offset=%" PRId64 ")\n",
|
|
reg, offset);
|
|
break;
|
|
case DW_CFA_def_cfa_sf:
|
|
reg = addressSpace.getULEB128(p, instructionsEnd);
|
|
offset =
|
|
addressSpace.getSLEB128(p, instructionsEnd) * cieInfo.dataAlignFactor;
|
|
if (reg > kMaxRegisterNumber) {
|
|
_LIBUNWIND_LOG0(
|
|
"malformed DW_CFA_def_cfa_sf DWARF unwind, reg too big");
|
|
return false;
|
|
}
|
|
results->cfaRegister = (uint32_t)reg;
|
|
results->cfaRegisterOffset = (int32_t)offset;
|
|
_LIBUNWIND_TRACE_DWARF("DW_CFA_def_cfa_sf(reg=%" PRIu64 ", "
|
|
"offset=%" PRId64 ")\n",
|
|
reg, offset);
|
|
break;
|
|
case DW_CFA_def_cfa_offset_sf:
|
|
results->cfaRegisterOffset = (int32_t)
|
|
(addressSpace.getSLEB128(p, instructionsEnd) * cieInfo.dataAlignFactor);
|
|
results->codeOffsetAtStackDecrement = (uint32_t)codeOffset;
|
|
_LIBUNWIND_TRACE_DWARF("DW_CFA_def_cfa_offset_sf(%d)\n",
|
|
results->cfaRegisterOffset);
|
|
break;
|
|
case DW_CFA_val_offset:
|
|
reg = addressSpace.getULEB128(p, instructionsEnd);
|
|
if (reg > kMaxRegisterNumber) {
|
|
_LIBUNWIND_LOG(
|
|
"malformed DW_CFA_val_offset DWARF unwind, reg (%" PRIu64
|
|
") out of range\n",
|
|
reg);
|
|
return false;
|
|
}
|
|
offset = (int64_t)addressSpace.getULEB128(p, instructionsEnd)
|
|
* cieInfo.dataAlignFactor;
|
|
results->savedRegisters[reg].location = kRegisterOffsetFromCFA;
|
|
results->savedRegisters[reg].value = offset;
|
|
_LIBUNWIND_TRACE_DWARF("DW_CFA_val_offset(reg=%" PRIu64 ", "
|
|
"offset=%" PRId64 "\n",
|
|
reg, offset);
|
|
break;
|
|
case DW_CFA_val_offset_sf:
|
|
reg = addressSpace.getULEB128(p, instructionsEnd);
|
|
if (reg > kMaxRegisterNumber) {
|
|
_LIBUNWIND_LOG0(
|
|
"malformed DW_CFA_val_offset_sf DWARF unwind, reg too big");
|
|
return false;
|
|
}
|
|
offset =
|
|
addressSpace.getSLEB128(p, instructionsEnd) * cieInfo.dataAlignFactor;
|
|
results->savedRegisters[reg].location = kRegisterOffsetFromCFA;
|
|
results->savedRegisters[reg].value = offset;
|
|
_LIBUNWIND_TRACE_DWARF("DW_CFA_val_offset_sf(reg=%" PRIu64 ", "
|
|
"offset=%" PRId64 "\n",
|
|
reg, offset);
|
|
break;
|
|
case DW_CFA_val_expression:
|
|
reg = addressSpace.getULEB128(p, instructionsEnd);
|
|
if (reg > kMaxRegisterNumber) {
|
|
_LIBUNWIND_LOG0(
|
|
"malformed DW_CFA_val_expression DWARF unwind, reg too big");
|
|
return false;
|
|
}
|
|
results->savedRegisters[reg].location = kRegisterIsExpression;
|
|
results->savedRegisters[reg].value = (int64_t)p;
|
|
length = addressSpace.getULEB128(p, instructionsEnd);
|
|
assert(length < static_cast<pint_t>(~0) && "pointer overflow");
|
|
p += static_cast<pint_t>(length);
|
|
_LIBUNWIND_TRACE_DWARF("DW_CFA_val_expression(reg=%" PRIu64 ", "
|
|
"expression=0x%" PRIx64 ", length=%" PRIu64 ")\n",
|
|
reg, results->savedRegisters[reg].value, length);
|
|
break;
|
|
case DW_CFA_GNU_args_size:
|
|
length = addressSpace.getULEB128(p, instructionsEnd);
|
|
results->spExtraArgSize = (uint32_t)length;
|
|
_LIBUNWIND_TRACE_DWARF("DW_CFA_GNU_args_size(%" PRIu64 ")\n", length);
|
|
break;
|
|
case DW_CFA_GNU_negative_offset_extended:
|
|
reg = addressSpace.getULEB128(p, instructionsEnd);
|
|
if (reg > kMaxRegisterNumber) {
|
|
_LIBUNWIND_LOG0("malformed DW_CFA_GNU_negative_offset_extended DWARF "
|
|
"unwind, reg too big");
|
|
return false;
|
|
}
|
|
offset = (int64_t)addressSpace.getULEB128(p, instructionsEnd)
|
|
* cieInfo.dataAlignFactor;
|
|
results->savedRegisters[reg].location = kRegisterInCFA;
|
|
results->savedRegisters[reg].value = -offset;
|
|
_LIBUNWIND_TRACE_DWARF(
|
|
"DW_CFA_GNU_negative_offset_extended(%" PRId64 ")\n", offset);
|
|
break;
|
|
default:
|
|
operand = opcode & 0x3F;
|
|
switch (opcode & 0xC0) {
|
|
case DW_CFA_offset:
|
|
reg = operand;
|
|
if (reg > kMaxRegisterNumber) {
|
|
_LIBUNWIND_LOG("malformed DW_CFA_offset DWARF unwind, reg (%" PRIu64
|
|
") out of range",
|
|
reg);
|
|
return false;
|
|
}
|
|
offset = (int64_t)addressSpace.getULEB128(p, instructionsEnd)
|
|
* cieInfo.dataAlignFactor;
|
|
results->savedRegisters[reg].location = kRegisterInCFA;
|
|
results->savedRegisters[reg].value = offset;
|
|
_LIBUNWIND_TRACE_DWARF("DW_CFA_offset(reg=%d, offset=%" PRId64 ")\n",
|
|
operand, offset);
|
|
break;
|
|
case DW_CFA_advance_loc:
|
|
codeOffset += operand * cieInfo.codeAlignFactor;
|
|
_LIBUNWIND_TRACE_DWARF("DW_CFA_advance_loc: new offset=%" PRIu64 "\n",
|
|
static_cast<uint64_t>(codeOffset));
|
|
break;
|
|
case DW_CFA_restore:
|
|
reg = operand;
|
|
if (reg > kMaxRegisterNumber) {
|
|
_LIBUNWIND_LOG("malformed DW_CFA_restore DWARF unwind, reg (%" PRIu64
|
|
") out of range",
|
|
reg);
|
|
return false;
|
|
}
|
|
results->savedRegisters[reg] = initialState.savedRegisters[reg];
|
|
_LIBUNWIND_TRACE_DWARF("DW_CFA_restore(reg=%" PRIu64 ")\n",
|
|
static_cast<uint64_t>(operand));
|
|
break;
|
|
default:
|
|
_LIBUNWIND_TRACE_DWARF("unknown CFA opcode 0x%02X\n", opcode);
|
|
return false;
|
|
}
|
|
}
|
|
}
|
|
|
|
return true;
|
|
}
|
|
|
|
} // namespace libunwind
|
|
|
|
#endif // __DWARF_PARSER_HPP__
|