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llvm-mirror/tools/llvm-pdbutil/LinePrinter.cpp
Nico Weber fb12a4dfa5 Slightly simplify MappedBlockStream::createIndexedStream() calls 
All callers had a PDBFile object at hand, so call
Pdb.createIndexedStream() instead, which pre-populates all the arguments
(and returns nullptr for kInvalidStreamIndex).

Also change safelyCreateIndexedStream() to only take the string index,
and update callers. Make the method public and call it in two places
that manually did the bounds checking before.

No intended behavior change.

Differential Revision: https://reviews.llvm.org/D64633

llvm-svn: 365936
2019-07-12 18:24:38 +00:00

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//===- LinePrinter.cpp ------------------------------------------*- C++ -*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#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 = File.createIndexedStream(StreamIdx);
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;
}
}
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