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llvm-mirror/tools/llvm-pdbutil/LinePrinter.cpp
Zachary Turner 311adaa4ee [pdbutil] Add a command to dump the FPM.
Recently problems have been discovered in the way we write the FPM
(free page map).  In order to fix this, we first need to establish
a baseline about what a correct FPM looks like using an MSVC
generated PDB, so that we can then make our own generated PDBs
match.  And in order to do this, the dumper needs a mode where it
can dump an FPM so that we can write tests for it.

This patch adds a command to dump the FPM, as well as a test against
a known-good PDB.

llvm-svn: 309894
2017-08-02 22:25:52 +00:00

336 lines
10 KiB
C++

//===- LinePrinter.cpp ------------------------------------------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "LinePrinter.h"
#include "llvm-pdbutil.h"
#include "llvm/ADT/STLExtras.h"
#include "llvm/DebugInfo/MSF/MSFCommon.h"
#include "llvm/DebugInfo/MSF/MappedBlockStream.h"
#include "llvm/DebugInfo/PDB/Native/PDBFile.h"
#include "llvm/DebugInfo/PDB/UDTLayout.h"
#include "llvm/Support/BinaryStreamReader.h"
#include "llvm/Support/Format.h"
#include "llvm/Support/FormatAdapters.h"
#include "llvm/Support/FormatVariadic.h"
#include "llvm/Support/Regex.h"
#include <algorithm>
using namespace llvm;
using namespace llvm::msf;
using namespace llvm::pdb;
namespace {
bool IsItemExcluded(llvm::StringRef Item,
std::list<llvm::Regex> &IncludeFilters,
std::list<llvm::Regex> &ExcludeFilters) {
if (Item.empty())
return false;
auto match_pred = [Item](llvm::Regex &R) { return R.match(Item); };
// Include takes priority over exclude. If the user specified include
// filters, and none of them include this item, them item is gone.
if (!IncludeFilters.empty() && !any_of(IncludeFilters, match_pred))
return true;
if (any_of(ExcludeFilters, match_pred))
return true;
return false;
}
}
using namespace llvm;
LinePrinter::LinePrinter(int Indent, bool UseColor, llvm::raw_ostream &Stream)
: OS(Stream), IndentSpaces(Indent), CurrentIndent(0), UseColor(UseColor) {
SetFilters(ExcludeTypeFilters, opts::pretty::ExcludeTypes.begin(),
opts::pretty::ExcludeTypes.end());
SetFilters(ExcludeSymbolFilters, opts::pretty::ExcludeSymbols.begin(),
opts::pretty::ExcludeSymbols.end());
SetFilters(ExcludeCompilandFilters, opts::pretty::ExcludeCompilands.begin(),
opts::pretty::ExcludeCompilands.end());
SetFilters(IncludeTypeFilters, opts::pretty::IncludeTypes.begin(),
opts::pretty::IncludeTypes.end());
SetFilters(IncludeSymbolFilters, opts::pretty::IncludeSymbols.begin(),
opts::pretty::IncludeSymbols.end());
SetFilters(IncludeCompilandFilters, opts::pretty::IncludeCompilands.begin(),
opts::pretty::IncludeCompilands.end());
}
void LinePrinter::Indent(uint32_t Amount) {
if (Amount == 0)
Amount = IndentSpaces;
CurrentIndent += Amount;
}
void LinePrinter::Unindent(uint32_t Amount) {
if (Amount == 0)
Amount = IndentSpaces;
CurrentIndent = std::max<int>(0, CurrentIndent - Amount);
}
void LinePrinter::NewLine() {
OS << "\n";
OS.indent(CurrentIndent);
}
void LinePrinter::print(const Twine &T) { OS << T; }
void LinePrinter::printLine(const Twine &T) {
NewLine();
OS << T;
}
bool LinePrinter::IsClassExcluded(const ClassLayout &Class) {
if (IsTypeExcluded(Class.getName(), Class.getSize()))
return true;
if (Class.deepPaddingSize() < opts::pretty::PaddingThreshold)
return true;
return false;
}
void LinePrinter::formatBinary(StringRef Label, ArrayRef<uint8_t> Data,
uint32_t StartOffset) {
NewLine();
OS << Label << " (";
if (!Data.empty()) {
OS << "\n";
OS << format_bytes_with_ascii(Data, StartOffset, 32, 4,
CurrentIndent + IndentSpaces, true);
NewLine();
}
OS << ")";
}
void LinePrinter::formatBinary(StringRef Label, ArrayRef<uint8_t> Data,
uint64_t Base, uint32_t StartOffset) {
NewLine();
OS << Label << " (";
if (!Data.empty()) {
OS << "\n";
Base += StartOffset;
OS << format_bytes_with_ascii(Data, Base, 32, 4,
CurrentIndent + IndentSpaces, true);
NewLine();
}
OS << ")";
}
namespace {
struct Run {
Run() = default;
explicit Run(uint32_t Block) : Block(Block) {}
uint32_t Block = 0;
uint32_t ByteLen = 0;
};
} // namespace
static std::vector<Run> computeBlockRuns(uint32_t BlockSize,
const msf::MSFStreamLayout &Layout) {
std::vector<Run> Runs;
if (Layout.Length == 0)
return Runs;
ArrayRef<support::ulittle32_t> Blocks = Layout.Blocks;
assert(!Blocks.empty());
uint32_t StreamBytesRemaining = Layout.Length;
uint32_t CurrentBlock = Blocks[0];
Runs.emplace_back(CurrentBlock);
while (!Blocks.empty()) {
Run *CurrentRun = &Runs.back();
uint32_t NextBlock = Blocks.front();
if (NextBlock < CurrentBlock || (NextBlock - CurrentBlock > 1)) {
Runs.emplace_back(NextBlock);
CurrentRun = &Runs.back();
}
uint32_t Used = std::min(BlockSize, StreamBytesRemaining);
CurrentRun->ByteLen += Used;
StreamBytesRemaining -= Used;
CurrentBlock = NextBlock;
Blocks = Blocks.drop_front();
}
return Runs;
}
static std::pair<Run, uint32_t> findRun(uint32_t Offset, ArrayRef<Run> Runs) {
for (const auto &R : Runs) {
if (Offset < R.ByteLen)
return std::make_pair(R, Offset);
Offset -= R.ByteLen;
}
llvm_unreachable("Invalid offset!");
}
void LinePrinter::formatMsfStreamData(StringRef Label, PDBFile &File,
uint32_t StreamIdx,
StringRef StreamPurpose, uint32_t Offset,
uint32_t Size) {
if (StreamIdx >= File.getNumStreams()) {
formatLine("Stream {0}: Not present", StreamIdx);
return;
}
if (Size + Offset > File.getStreamByteSize(StreamIdx)) {
formatLine(
"Stream {0}: Invalid offset and size, range out of stream bounds",
StreamIdx);
return;
}
auto S = MappedBlockStream::createIndexedStream(
File.getMsfLayout(), File.getMsfBuffer(), StreamIdx, File.getAllocator());
if (!S) {
NewLine();
formatLine("Stream {0}: Not present", StreamIdx);
return;
}
uint32_t End =
(Size == 0) ? S->getLength() : std::min(Offset + Size, S->getLength());
Size = End - Offset;
formatLine("Stream {0}: {1} (dumping {2:N} / {3:N} bytes)", StreamIdx,
StreamPurpose, Size, S->getLength());
AutoIndent Indent(*this);
BinaryStreamRef Slice(*S);
BinarySubstreamRef Substream;
Substream.Offset = Offset;
Substream.StreamData = Slice.drop_front(Offset).keep_front(Size);
auto Layout = File.getStreamLayout(StreamIdx);
formatMsfStreamData(Label, File, Layout, Substream);
}
void LinePrinter::formatMsfStreamData(StringRef Label, PDBFile &File,
const msf::MSFStreamLayout &Stream,
BinarySubstreamRef Substream) {
BinaryStreamReader Reader(Substream.StreamData);
auto Runs = computeBlockRuns(File.getBlockSize(), Stream);
NewLine();
OS << Label << " (";
while (Reader.bytesRemaining() > 0) {
OS << "\n";
Run FoundRun;
uint32_t RunOffset;
std::tie(FoundRun, RunOffset) = findRun(Substream.Offset, Runs);
assert(FoundRun.ByteLen >= RunOffset);
uint32_t Len = FoundRun.ByteLen - RunOffset;
Len = std::min(Len, Reader.bytesRemaining());
uint64_t Base = FoundRun.Block * File.getBlockSize() + RunOffset;
ArrayRef<uint8_t> Data;
consumeError(Reader.readBytes(Data, Len));
OS << format_bytes_with_ascii(Data, Base, 32, 4,
CurrentIndent + IndentSpaces, true);
if (Reader.bytesRemaining() > 0) {
NewLine();
OS << formatv(" {0}",
fmt_align("<discontinuity>", AlignStyle::Center, 114, '-'));
}
Substream.Offset += Len;
}
NewLine();
OS << ")";
}
void LinePrinter::formatMsfStreamBlocks(
PDBFile &File, const msf::MSFStreamLayout &StreamLayout) {
auto Blocks = makeArrayRef(StreamLayout.Blocks);
uint32_t L = StreamLayout.Length;
while (L > 0) {
NewLine();
assert(!Blocks.empty());
OS << formatv("Block {0} (\n", uint32_t(Blocks.front()));
uint32_t UsedBytes = std::min(L, File.getBlockSize());
ArrayRef<uint8_t> BlockData =
cantFail(File.getBlockData(Blocks.front(), File.getBlockSize()));
uint64_t BaseOffset = Blocks.front();
BaseOffset *= File.getBlockSize();
OS << format_bytes_with_ascii(BlockData, BaseOffset, 32, 4,
CurrentIndent + IndentSpaces, true);
NewLine();
OS << ")";
NewLine();
L -= UsedBytes;
Blocks = Blocks.drop_front();
}
}
bool LinePrinter::IsTypeExcluded(llvm::StringRef TypeName, uint32_t Size) {
if (IsItemExcluded(TypeName, IncludeTypeFilters, ExcludeTypeFilters))
return true;
if (Size < opts::pretty::SizeThreshold)
return true;
return false;
}
bool LinePrinter::IsSymbolExcluded(llvm::StringRef SymbolName) {
return IsItemExcluded(SymbolName, IncludeSymbolFilters, ExcludeSymbolFilters);
}
bool LinePrinter::IsCompilandExcluded(llvm::StringRef CompilandName) {
return IsItemExcluded(CompilandName, IncludeCompilandFilters,
ExcludeCompilandFilters);
}
WithColor::WithColor(LinePrinter &P, PDB_ColorItem C)
: OS(P.OS), UseColor(P.hasColor()) {
if (UseColor)
applyColor(C);
}
WithColor::~WithColor() {
if (UseColor)
OS.resetColor();
}
void WithColor::applyColor(PDB_ColorItem C) {
switch (C) {
case PDB_ColorItem::None:
OS.resetColor();
return;
case PDB_ColorItem::Comment:
OS.changeColor(raw_ostream::GREEN, false);
return;
case PDB_ColorItem::Address:
OS.changeColor(raw_ostream::YELLOW, /*bold=*/true);
return;
case PDB_ColorItem::Keyword:
OS.changeColor(raw_ostream::MAGENTA, true);
return;
case PDB_ColorItem::Register:
case PDB_ColorItem::Offset:
OS.changeColor(raw_ostream::YELLOW, false);
return;
case PDB_ColorItem::Type:
OS.changeColor(raw_ostream::CYAN, true);
return;
case PDB_ColorItem::Identifier:
OS.changeColor(raw_ostream::CYAN, false);
return;
case PDB_ColorItem::Path:
OS.changeColor(raw_ostream::CYAN, false);
return;
case PDB_ColorItem::Padding:
case PDB_ColorItem::SectionHeader:
OS.changeColor(raw_ostream::RED, true);
return;
case PDB_ColorItem::LiteralValue:
OS.changeColor(raw_ostream::GREEN, true);
return;
}
}