ea718b0e08
Benjamin Kramer and Joerg Sonnenberger for their input and fixes.
256 lines
8.4 KiB
C++
256 lines
8.4 KiB
C++
//===-- DWARFCompileUnit.cpp ----------------------------------------------===//
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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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#include "DWARFCompileUnit.h"
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#include "DWARFContext.h"
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#include "DWARFFormValue.h"
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#include "llvm/Support/Dwarf.h"
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#include "llvm/Support/Format.h"
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#include "llvm/Support/raw_ostream.h"
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using namespace llvm;
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using namespace dwarf;
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DataExtractor DWARFCompileUnit::getDebugInfoExtractor() const {
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return DataExtractor(Context.getInfoSection(),
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Context.isLittleEndian(), getAddressByteSize());
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}
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bool DWARFCompileUnit::extract(DataExtractor debug_info, uint32_t *offset_ptr) {
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clear();
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Offset = *offset_ptr;
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if (debug_info.isValidOffset(*offset_ptr)) {
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uint64_t abbrOffset;
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const DWARFDebugAbbrev *abbr = Context.getDebugAbbrev();
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Length = debug_info.getU32(offset_ptr);
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Version = debug_info.getU16(offset_ptr);
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abbrOffset = debug_info.getU32(offset_ptr);
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AddrSize = debug_info.getU8(offset_ptr);
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bool lengthOK = debug_info.isValidOffset(getNextCompileUnitOffset()-1);
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bool versionOK = DWARFContext::isSupportedVersion(Version);
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bool abbrOffsetOK = Context.getAbbrevSection().size() > abbrOffset;
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bool addrSizeOK = AddrSize == 4 || AddrSize == 8;
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if (lengthOK && versionOK && addrSizeOK && abbrOffsetOK && abbr != NULL) {
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Abbrevs = abbr->getAbbreviationDeclarationSet(abbrOffset);
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return true;
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}
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// reset the offset to where we tried to parse from if anything went wrong
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*offset_ptr = Offset;
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}
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return false;
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}
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uint32_t
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DWARFCompileUnit::extract(uint32_t offset, DataExtractor debug_info_data,
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const DWARFAbbreviationDeclarationSet *abbrevs) {
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clear();
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Offset = offset;
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if (debug_info_data.isValidOffset(offset)) {
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Length = debug_info_data.getU32(&offset);
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Version = debug_info_data.getU16(&offset);
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bool abbrevsOK = debug_info_data.getU32(&offset) == abbrevs->getOffset();
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Abbrevs = abbrevs;
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AddrSize = debug_info_data.getU8 (&offset);
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bool versionOK = DWARFContext::isSupportedVersion(Version);
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bool addrSizeOK = AddrSize == 4 || AddrSize == 8;
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if (versionOK && addrSizeOK && abbrevsOK &&
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debug_info_data.isValidOffset(offset))
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return offset;
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}
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return 0;
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}
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void DWARFCompileUnit::clear() {
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Offset = 0;
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Length = 0;
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Version = 0;
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Abbrevs = 0;
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AddrSize = 0;
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BaseAddr = 0;
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clearDIEs(false);
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}
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void DWARFCompileUnit::dump(raw_ostream &OS) {
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OS << format("0x%08x", Offset) << ": Compile Unit:"
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<< " length = " << format("0x%08x", Length)
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<< " version = " << format("0x%04x", Version)
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<< " abbr_offset = " << format("0x%04x", Abbrevs->getOffset())
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<< " addr_size = " << format("0x%02x", AddrSize)
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<< " (next CU at " << format("0x%08x", getNextCompileUnitOffset())
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<< ")\n";
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getCompileUnitDIE(false)->dump(OS, this, -1U);
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}
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const char *DWARFCompileUnit::getCompilationDir() {
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extractDIEsIfNeeded(true);
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if (DieArray.empty())
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return 0;
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return DieArray[0].getAttributeValueAsString(this, DW_AT_comp_dir, 0);
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}
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void DWARFCompileUnit::setDIERelations() {
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if (DieArray.empty())
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return;
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DWARFDebugInfoEntryMinimal *die_array_begin = &DieArray.front();
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DWARFDebugInfoEntryMinimal *die_array_end = &DieArray.back();
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DWARFDebugInfoEntryMinimal *curr_die;
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// We purposely are skipping the last element in the array in the loop below
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// so that we can always have a valid next item
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for (curr_die = die_array_begin; curr_die < die_array_end; ++curr_die) {
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// Since our loop doesn't include the last element, we can always
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// safely access the next die in the array.
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DWARFDebugInfoEntryMinimal *next_die = curr_die + 1;
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const DWARFAbbreviationDeclaration *curr_die_abbrev =
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curr_die->getAbbreviationDeclarationPtr();
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if (curr_die_abbrev) {
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// Normal DIE
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if (curr_die_abbrev->hasChildren())
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next_die->setParent(curr_die);
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else
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curr_die->setSibling(next_die);
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} else {
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// NULL DIE that terminates a sibling chain
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DWARFDebugInfoEntryMinimal *parent = curr_die->getParent();
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if (parent)
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parent->setSibling(next_die);
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}
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}
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// Since we skipped the last element, we need to fix it up!
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if (die_array_begin < die_array_end)
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curr_die->setParent(die_array_begin);
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}
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size_t DWARFCompileUnit::extractDIEsIfNeeded(bool cu_die_only) {
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const size_t initial_die_array_size = DieArray.size();
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if ((cu_die_only && initial_die_array_size > 0) ||
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initial_die_array_size > 1)
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return 0; // Already parsed
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// Set the offset to that of the first DIE and calculate the start of the
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// next compilation unit header.
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uint32_t offset = getFirstDIEOffset();
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uint32_t next_cu_offset = getNextCompileUnitOffset();
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DWARFDebugInfoEntryMinimal die;
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// Keep a flat array of the DIE for binary lookup by DIE offset
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uint32_t depth = 0;
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// We are in our compile unit, parse starting at the offset
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// we were told to parse
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const uint8_t *fixed_form_sizes =
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DWARFFormValue::getFixedFormSizesForAddressSize(getAddressByteSize());
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while (offset < next_cu_offset &&
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die.extractFast(this, fixed_form_sizes, &offset)) {
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if (depth == 0) {
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uint64_t base_addr =
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die.getAttributeValueAsUnsigned(this, DW_AT_low_pc, -1U);
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if (base_addr == -1U)
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base_addr = die.getAttributeValueAsUnsigned(this, DW_AT_entry_pc, 0);
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setBaseAddress(base_addr);
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}
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if (cu_die_only) {
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addDIE(die);
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return 1;
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}
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else if (depth == 0 && initial_die_array_size == 1) {
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// Don't append the CU die as we already did that
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} else {
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addDIE (die);
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}
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const DWARFAbbreviationDeclaration *abbrDecl =
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die.getAbbreviationDeclarationPtr();
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if (abbrDecl) {
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// Normal DIE
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if (abbrDecl->hasChildren())
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++depth;
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} else {
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// NULL DIE.
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if (depth > 0)
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--depth;
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if (depth == 0)
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break; // We are done with this compile unit!
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}
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}
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// Give a little bit of info if we encounter corrupt DWARF (our offset
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// should always terminate at or before the start of the next compilation
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// unit header).
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if (offset > next_cu_offset) {
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fprintf (stderr, "warning: DWARF compile unit extends beyond its bounds cu 0x%8.8x at 0x%8.8x'\n", getOffset(), offset);
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}
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setDIERelations();
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return DieArray.size();
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}
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void DWARFCompileUnit::clearDIEs(bool keep_compile_unit_die) {
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if (DieArray.size() > (unsigned)keep_compile_unit_die) {
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// std::vectors never get any smaller when resized to a smaller size,
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// or when clear() or erase() are called, the size will report that it
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// is smaller, but the memory allocated remains intact (call capacity()
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// to see this). So we need to create a temporary vector and swap the
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// contents which will cause just the internal pointers to be swapped
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// so that when "tmp_array" goes out of scope, it will destroy the
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// contents.
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// Save at least the compile unit DIE
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std::vector<DWARFDebugInfoEntryMinimal> tmpArray;
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DieArray.swap(tmpArray);
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if (keep_compile_unit_die)
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DieArray.push_back(tmpArray.front());
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}
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}
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void
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DWARFCompileUnit::buildAddressRangeTable(DWARFDebugAranges *debug_aranges,
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bool clear_dies_if_already_not_parsed){
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// This function is usually called if there in no .debug_aranges section
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// in order to produce a compile unit level set of address ranges that
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// is accurate. If the DIEs weren't parsed, then we don't want all dies for
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// all compile units to stay loaded when they weren't needed. So we can end
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// up parsing the DWARF and then throwing them all away to keep memory usage
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// down.
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const bool clear_dies = extractDIEsIfNeeded(false) > 1 &&
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clear_dies_if_already_not_parsed;
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DieArray[0].buildAddressRangeTable(this, debug_aranges);
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// Keep memory down by clearing DIEs if this generate function
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// caused them to be parsed.
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if (clear_dies)
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clearDIEs(true);
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}
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const DWARFDebugInfoEntryMinimal*
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DWARFCompileUnit::getFunctionDIEForAddress(int64_t address) {
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extractDIEsIfNeeded(false);
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for (size_t i = 0, n = DieArray.size(); i != n; i++) {
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if (DieArray[i].addressRangeContainsAddress(this, address))
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return &DieArray[i];
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}
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return 0;
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}
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