forked from OSchip/llvm-project
321 lines
11 KiB
C++
321 lines
11 KiB
C++
//===- GsymCreator.cpp ----------------------------------------------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//===----------------------------------------------------------------------===//
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#include "llvm/DebugInfo/GSYM/GsymCreator.h"
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#include "llvm/DebugInfo/GSYM/FileWriter.h"
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#include "llvm/DebugInfo/GSYM/Header.h"
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#include "llvm/DebugInfo/GSYM/LineTable.h"
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#include "llvm/MC/StringTableBuilder.h"
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#include "llvm/Support/raw_ostream.h"
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#include <algorithm>
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#include <cassert>
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#include <functional>
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#include <vector>
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using namespace llvm;
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using namespace gsym;
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GsymCreator::GsymCreator() : StrTab(StringTableBuilder::ELF) {
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insertFile(StringRef());
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}
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uint32_t GsymCreator::insertFile(StringRef Path,
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llvm::sys::path::Style Style) {
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llvm::StringRef directory = llvm::sys::path::parent_path(Path, Style);
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llvm::StringRef filename = llvm::sys::path::filename(Path, Style);
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// We must insert the strings first, then call the FileEntry constructor.
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// If we inline the insertString() function call into the constructor, the
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// call order is undefined due to parameter lists not having any ordering
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// requirements.
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const uint32_t Dir = insertString(directory);
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const uint32_t Base = insertString(filename);
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FileEntry FE(Dir, Base);
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std::lock_guard<std::recursive_mutex> Guard(Mutex);
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const auto NextIndex = Files.size();
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// Find FE in hash map and insert if not present.
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auto R = FileEntryToIndex.insert(std::make_pair(FE, NextIndex));
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if (R.second)
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Files.emplace_back(FE);
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return R.first->second;
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}
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llvm::Error GsymCreator::save(StringRef Path,
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llvm::support::endianness ByteOrder) const {
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std::error_code EC;
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raw_fd_ostream OutStrm(Path, EC);
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if (EC)
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return llvm::errorCodeToError(EC);
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FileWriter O(OutStrm, ByteOrder);
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return encode(O);
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}
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llvm::Error GsymCreator::encode(FileWriter &O) const {
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std::lock_guard<std::recursive_mutex> Guard(Mutex);
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if (Funcs.empty())
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return createStringError(std::errc::invalid_argument,
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"no functions to encode");
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if (!Finalized)
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return createStringError(std::errc::invalid_argument,
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"GsymCreator wasn't finalized prior to encoding");
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if (Funcs.size() > UINT32_MAX)
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return createStringError(std::errc::invalid_argument,
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"too many FunctionInfos");
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const uint64_t MinAddr = BaseAddress ? *BaseAddress : Funcs.front().startAddress();
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const uint64_t MaxAddr = Funcs.back().startAddress();
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const uint64_t AddrDelta = MaxAddr - MinAddr;
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Header Hdr;
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Hdr.Magic = GSYM_MAGIC;
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Hdr.Version = GSYM_VERSION;
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Hdr.AddrOffSize = 0;
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Hdr.UUIDSize = static_cast<uint8_t>(UUID.size());
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Hdr.BaseAddress = MinAddr;
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Hdr.NumAddresses = static_cast<uint32_t>(Funcs.size());
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Hdr.StrtabOffset = 0; // We will fix this up later.
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Hdr.StrtabSize = 0; // We will fix this up later.
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memset(Hdr.UUID, 0, sizeof(Hdr.UUID));
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if (UUID.size() > sizeof(Hdr.UUID))
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return createStringError(std::errc::invalid_argument,
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"invalid UUID size %u", (uint32_t)UUID.size());
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// Set the address offset size correctly in the GSYM header.
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if (AddrDelta <= UINT8_MAX)
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Hdr.AddrOffSize = 1;
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else if (AddrDelta <= UINT16_MAX)
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Hdr.AddrOffSize = 2;
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else if (AddrDelta <= UINT32_MAX)
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Hdr.AddrOffSize = 4;
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else
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Hdr.AddrOffSize = 8;
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// Copy the UUID value if we have one.
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if (UUID.size() > 0)
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memcpy(Hdr.UUID, UUID.data(), UUID.size());
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// Write out the header.
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llvm::Error Err = Hdr.encode(O);
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if (Err)
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return Err;
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// Write out the address offsets.
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O.alignTo(Hdr.AddrOffSize);
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for (const auto &FuncInfo : Funcs) {
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uint64_t AddrOffset = FuncInfo.startAddress() - Hdr.BaseAddress;
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switch(Hdr.AddrOffSize) {
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case 1: O.writeU8(static_cast<uint8_t>(AddrOffset)); break;
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case 2: O.writeU16(static_cast<uint16_t>(AddrOffset)); break;
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case 4: O.writeU32(static_cast<uint32_t>(AddrOffset)); break;
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case 8: O.writeU64(AddrOffset); break;
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}
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}
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// Write out all zeros for the AddrInfoOffsets.
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O.alignTo(4);
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const off_t AddrInfoOffsetsOffset = O.tell();
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for (size_t i = 0, n = Funcs.size(); i < n; ++i)
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O.writeU32(0);
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// Write out the file table
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O.alignTo(4);
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assert(!Files.empty());
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assert(Files[0].Dir == 0);
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assert(Files[0].Base == 0);
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size_t NumFiles = Files.size();
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if (NumFiles > UINT32_MAX)
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return createStringError(std::errc::invalid_argument,
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"too many files");
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O.writeU32(static_cast<uint32_t>(NumFiles));
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for (auto File: Files) {
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O.writeU32(File.Dir);
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O.writeU32(File.Base);
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}
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// Write out the sting table.
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const off_t StrtabOffset = O.tell();
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StrTab.write(O.get_stream());
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const off_t StrtabSize = O.tell() - StrtabOffset;
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std::vector<uint32_t> AddrInfoOffsets;
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// Write out the address infos for each function info.
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for (const auto &FuncInfo : Funcs) {
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if (Expected<uint64_t> OffsetOrErr = FuncInfo.encode(O))
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AddrInfoOffsets.push_back(OffsetOrErr.get());
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else
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return OffsetOrErr.takeError();
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}
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// Fixup the string table offset and size in the header
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O.fixup32((uint32_t)StrtabOffset, offsetof(Header, StrtabOffset));
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O.fixup32((uint32_t)StrtabSize, offsetof(Header, StrtabSize));
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// Fixup all address info offsets
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uint64_t Offset = 0;
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for (auto AddrInfoOffset: AddrInfoOffsets) {
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O.fixup32(AddrInfoOffset, AddrInfoOffsetsOffset + Offset);
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Offset += 4;
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}
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return ErrorSuccess();
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}
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llvm::Error GsymCreator::finalize(llvm::raw_ostream &OS) {
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std::lock_guard<std::recursive_mutex> Guard(Mutex);
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if (Finalized)
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return createStringError(std::errc::invalid_argument,
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"already finalized");
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Finalized = true;
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// Sort function infos so we can emit sorted functions.
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llvm::sort(Funcs);
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// Don't let the string table indexes change by finalizing in order.
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StrTab.finalizeInOrder();
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// Remove duplicates function infos that have both entries from debug info
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// (DWARF or Breakpad) and entries from the SymbolTable.
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//
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// Also handle overlapping function. Usually there shouldn't be any, but they
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// can and do happen in some rare cases.
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//
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// (a) (b) (c)
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// ^ ^ ^ ^
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// |X |Y |X ^ |X
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// | | | |Y | ^
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// | | | v v |Y
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// v v v v
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//
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// In (a) and (b), Y is ignored and X will be reported for the full range.
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// In (c), both functions will be included in the result and lookups for an
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// address in the intersection will return Y because of binary search.
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//
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// Note that in case of (b), we cannot include Y in the result because then
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// we wouldn't find any function for range (end of Y, end of X)
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// with binary search
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auto NumBefore = Funcs.size();
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auto Curr = Funcs.begin();
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auto Prev = Funcs.end();
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while (Curr != Funcs.end()) {
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// Can't check for overlaps or same address ranges if we don't have a
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// previous entry
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if (Prev != Funcs.end()) {
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if (Prev->Range.intersects(Curr->Range)) {
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// Overlapping address ranges.
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if (Prev->Range == Curr->Range) {
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// Same address range. Check if one is from debug info and the other
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// is from a symbol table. If so, then keep the one with debug info.
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// Our sorting guarantees that entries with matching address ranges
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// that have debug info are last in the sort.
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if (*Prev == *Curr) {
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// FunctionInfo entries match exactly (range, lines, inlines)
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OS << "warning: duplicate function info entries for range: "
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<< Curr->Range << '\n';
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Curr = Funcs.erase(Prev);
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} else {
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if (!Prev->hasRichInfo() && Curr->hasRichInfo()) {
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// Same address range, one with no debug info (symbol) and the
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// next with debug info. Keep the latter.
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Curr = Funcs.erase(Prev);
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} else {
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OS << "warning: same address range contains different debug "
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<< "info. Removing:\n"
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<< *Prev << "\nIn favor of this one:\n"
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<< *Curr << "\n";
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Curr = Funcs.erase(Prev);
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}
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}
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} else {
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// print warnings about overlaps
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OS << "warning: function ranges overlap:\n"
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<< *Prev << "\n"
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<< *Curr << "\n";
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}
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} else if (Prev->Range.size() == 0 &&
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Curr->Range.contains(Prev->Range.Start)) {
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OS << "warning: removing symbol:\n"
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<< *Prev << "\nKeeping:\n"
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<< *Curr << "\n";
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Curr = Funcs.erase(Prev);
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}
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}
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if (Curr == Funcs.end())
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break;
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Prev = Curr++;
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}
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// If our last function info entry doesn't have a size and if we have valid
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// text ranges, we should set the size of the last entry since any search for
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// a high address might match our last entry. By fixing up this size, we can
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// help ensure we don't cause lookups to always return the last symbol that
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// has no size when doing lookups.
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if (!Funcs.empty() && Funcs.back().Range.size() == 0 && ValidTextRanges) {
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if (auto Range = ValidTextRanges->getRangeThatContains(
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Funcs.back().Range.Start)) {
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Funcs.back().Range.End = Range->End;
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}
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}
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OS << "Pruned " << NumBefore - Funcs.size() << " functions, ended with "
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<< Funcs.size() << " total\n";
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return Error::success();
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}
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uint32_t GsymCreator::insertString(StringRef S, bool Copy) {
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if (S.empty())
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return 0;
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std::lock_guard<std::recursive_mutex> Guard(Mutex);
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if (Copy) {
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// We need to provide backing storage for the string if requested
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// since StringTableBuilder stores references to strings. Any string
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// that comes from a section in an object file doesn't need to be
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// copied, but any string created by code will need to be copied.
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// This allows GsymCreator to be really fast when parsing DWARF and
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// other object files as most strings don't need to be copied.
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CachedHashStringRef CHStr(S);
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if (!StrTab.contains(CHStr))
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S = StringStorage.insert(S).first->getKey();
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}
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return StrTab.add(S);
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}
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void GsymCreator::addFunctionInfo(FunctionInfo &&FI) {
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std::lock_guard<std::recursive_mutex> Guard(Mutex);
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Ranges.insert(FI.Range);
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Funcs.emplace_back(FI);
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}
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void GsymCreator::forEachFunctionInfo(
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std::function<bool(FunctionInfo &)> const &Callback) {
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std::lock_guard<std::recursive_mutex> Guard(Mutex);
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for (auto &FI : Funcs) {
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if (!Callback(FI))
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break;
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}
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}
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void GsymCreator::forEachFunctionInfo(
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std::function<bool(const FunctionInfo &)> const &Callback) const {
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std::lock_guard<std::recursive_mutex> Guard(Mutex);
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for (const auto &FI : Funcs) {
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if (!Callback(FI))
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break;
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}
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}
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size_t GsymCreator::getNumFunctionInfos() const{
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std::lock_guard<std::recursive_mutex> Guard(Mutex);
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return Funcs.size();
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}
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bool GsymCreator::IsValidTextAddress(uint64_t Addr) const {
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if (ValidTextRanges)
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return ValidTextRanges->contains(Addr);
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return true; // No valid text ranges has been set, so accept all ranges.
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}
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bool GsymCreator::hasFunctionInfoForAddress(uint64_t Addr) const {
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std::lock_guard<std::recursive_mutex> Guard(Mutex);
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return Ranges.contains(Addr);
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}
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