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7029ce1a0c
teak-llvm/clang/lib/Serialization/GlobalModuleIndex.cpp
Douglas Gregor 7029ce1a0c <rdar://problem/13363214> Eliminate race condition between module rebuild and the global module index. 
The global module index was querying the file manager for each of the
module files it knows about at load time, to prune out any out-of-date
information. The file manager would then cache the results of the
stat() falls used to find that module file.

Later, the same translation unit could end up trying to import one of the
module files that had previously been ignored by the module cache, but
after some other Clang instance rebuilt the module file to bring it
up-to-date. The stale stat() results in the file manager would
trigger a second rebuild of the already-up-to-date module, causing
failures down the line.

The global module index now lazily resolves its module file references
to actual AST reader module files only after the module file has been
loaded, eliminating the stat-caching race. Moreover, the AST reader
can communicate to its caller that a module file is missing (rather
than simply being out-of-date), allowing us to simplify the
module-loading logic and allowing the compiler to recover if a
dependent module file ends up getting deleted.

llvm-svn: 177367
2013-03-19 00:28:20 +00:00

855 lines
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//===--- GlobalModuleIndex.cpp - Global Module Index ------------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file implements the GlobalModuleIndex class.
//
//===----------------------------------------------------------------------===//
#include "ASTReaderInternals.h"
#include "clang/Basic/FileManager.h"
#include "clang/Basic/OnDiskHashTable.h"
#include "clang/Serialization/ASTBitCodes.h"
#include "clang/Serialization/GlobalModuleIndex.h"
#include "llvm/ADT/DenseMap.h"
#include "llvm/ADT/MapVector.h"
#include "llvm/ADT/SmallString.h"
#include "llvm/ADT/StringExtras.h"
#include "llvm/Bitcode/BitstreamReader.h"
#include "llvm/Bitcode/BitstreamWriter.h"
#include "llvm/Support/FileSystem.h"
#include "llvm/Support/LockFileManager.h"
#include "llvm/Support/MemoryBuffer.h"
#include "llvm/Support/PathV2.h"
#include <cstdio>
using namespace clang;
using namespace serialization;
//----------------------------------------------------------------------------//
// Shared constants
//----------------------------------------------------------------------------//
namespace {
enum {
/// \brief The block containing the index.
GLOBAL_INDEX_BLOCK_ID = llvm::bitc::FIRST_APPLICATION_BLOCKID
};
/// \brief Describes the record types in the index.
enum IndexRecordTypes {
/// \brief Contains version information and potentially other metadata,
/// used to determine if we can read this global index file.
INDEX_METADATA,
/// \brief Describes a module, including its file name and dependencies.
MODULE,
/// \brief The index for identifiers.
IDENTIFIER_INDEX
};
}
/// \brief The name of the global index file.
static const char * const IndexFileName = "modules.idx";
/// \brief The global index file version.
static const unsigned CurrentVersion = 1;
ModuleFileNameResolver::~ModuleFileNameResolver() { }
//----------------------------------------------------------------------------//
// Global module index reader.
//----------------------------------------------------------------------------//
namespace {
/// \brief Trait used to read the identifier index from the on-disk hash
/// table.
class IdentifierIndexReaderTrait {
public:
typedef StringRef external_key_type;
typedef StringRef internal_key_type;
typedef SmallVector<unsigned, 2> data_type;
static bool EqualKey(const internal_key_type& a, const internal_key_type& b) {
return a == b;
}
static unsigned ComputeHash(const internal_key_type& a) {
return llvm::HashString(a);
}
static std::pair<unsigned, unsigned>
ReadKeyDataLength(const unsigned char*& d) {
using namespace clang::io;
unsigned KeyLen = ReadUnalignedLE16(d);
unsigned DataLen = ReadUnalignedLE16(d);
return std::make_pair(KeyLen, DataLen);
}
static const internal_key_type&
GetInternalKey(const external_key_type& x) { return x; }
static const external_key_type&
GetExternalKey(const internal_key_type& x) { return x; }
static internal_key_type ReadKey(const unsigned char* d, unsigned n) {
return StringRef((const char *)d, n);
}
static data_type ReadData(const internal_key_type& k,
const unsigned char* d,
unsigned DataLen) {
using namespace clang::io;
data_type Result;
while (DataLen > 0) {
unsigned ID = ReadUnalignedLE32(d);
Result.push_back(ID);
DataLen -= 4;
}
return Result;
}
};
typedef OnDiskChainedHashTable<IdentifierIndexReaderTrait> IdentifierIndexTable;
}
GlobalModuleIndex::GlobalModuleIndex(llvm::MemoryBuffer *Buffer,
llvm::BitstreamCursor Cursor)
: Buffer(Buffer), Resolver(), IdentifierIndex(),
NumIdentifierLookups(), NumIdentifierLookupHits()
{
// Read the global index.
bool InGlobalIndexBlock = false;
bool Done = false;
while (!Done) {
llvm::BitstreamEntry Entry = Cursor.advance();
switch (Entry.Kind) {
case llvm::BitstreamEntry::Error:
return;
case llvm::BitstreamEntry::EndBlock:
if (InGlobalIndexBlock) {
InGlobalIndexBlock = false;
Done = true;
continue;
}
return;
case llvm::BitstreamEntry::Record:
// Entries in the global index block are handled below.
if (InGlobalIndexBlock)
break;
return;
case llvm::BitstreamEntry::SubBlock:
if (!InGlobalIndexBlock && Entry.ID == GLOBAL_INDEX_BLOCK_ID) {
if (Cursor.EnterSubBlock(GLOBAL_INDEX_BLOCK_ID))
return;
InGlobalIndexBlock = true;
} else if (Cursor.SkipBlock()) {
return;
}
continue;
}
SmallVector<uint64_t, 64> Record;
StringRef Blob;
switch ((IndexRecordTypes)Cursor.readRecord(Entry.ID, Record, &Blob)) {
case INDEX_METADATA:
// Make sure that the version matches.
if (Record.size() < 1 || Record[0] != CurrentVersion)
return;
break;
case MODULE: {
unsigned Idx = 0;
unsigned ID = Record[Idx++];
// Make room for this module's information.
if (ID == Modules.size())
Modules.push_back(ModuleInfo());
else
Modules.resize(ID + 1);
// Size/modification time for this module file at the time the
// global index was built.
Modules[ID].Size = Record[Idx++];
Modules[ID].ModTime = Record[Idx++];
// File name.
unsigned NameLen = Record[Idx++];
Modules[ID].FileName.assign(Record.begin() + Idx,
Record.begin() + Idx + NameLen);
Idx += NameLen;
// Dependencies
unsigned NumDeps = Record[Idx++];
Modules[ID].Dependencies.insert(Modules[ID].Dependencies.end(),
Record.begin() + Idx,
Record.begin() + Idx + NumDeps);
Idx += NumDeps;
// Make sure we're at the end of the record.
assert(Idx == Record.size() && "More module info?");
break;
}
case IDENTIFIER_INDEX:
// Wire up the identifier index.
if (Record[0]) {
IdentifierIndex = IdentifierIndexTable::Create(
(const unsigned char *)Blob.data() + Record[0],
(const unsigned char *)Blob.data(),
IdentifierIndexReaderTrait());
}
break;
}
}
// Compute imported-by relation.
for (unsigned ID = 0, IDEnd = Modules.size(); ID != IDEnd; ++ID) {
for (unsigned D = 0, DEnd = Modules[ID].Dependencies.size();
D != DEnd; ++D) {
Modules[Modules[ID].Dependencies[D]].ImportedBy.push_back(ID);
}
}
}
GlobalModuleIndex::~GlobalModuleIndex() { }
std::pair<GlobalModuleIndex *, GlobalModuleIndex::ErrorCode>
GlobalModuleIndex::readIndex(StringRef Path) {
// Load the index file, if it's there.
llvm::SmallString<128> IndexPath;
IndexPath += Path;
llvm::sys::path::append(IndexPath, IndexFileName);
llvm::OwningPtr<llvm::MemoryBuffer> Buffer;
if (llvm::MemoryBuffer::getFile(IndexPath, Buffer) != llvm::errc::success)
return std::make_pair((GlobalModuleIndex *)0, EC_NotFound);
/// \brief The bitstream reader from which we'll read the AST file.
llvm::BitstreamReader Reader((const unsigned char *)Buffer->getBufferStart(),
(const unsigned char *)Buffer->getBufferEnd());
/// \brief The main bitstream cursor for the main block.
llvm::BitstreamCursor Cursor(Reader);
// Sniff for the signature.
if (Cursor.Read(8) != 'B' ||
Cursor.Read(8) != 'C' ||
Cursor.Read(8) != 'G' ||
Cursor.Read(8) != 'I') {
return std::make_pair((GlobalModuleIndex *)0, EC_IOError);
}
return std::make_pair(new GlobalModuleIndex(Buffer.take(), Cursor), EC_None);
}
void
GlobalModuleIndex::getKnownModules(SmallVectorImpl<ModuleFile *> &ModuleFiles) {
ModuleFiles.clear();
for (unsigned I = 0, N = Modules.size(); I != N; ++I) {
if (ModuleFile *File = resolveModuleFile(I))
ModuleFiles.push_back(File);
}
}
void GlobalModuleIndex::getModuleDependencies(
ModuleFile *File,
SmallVectorImpl<ModuleFile *> &Dependencies) {
// If the file -> index mapping is empty, populate it now.
if (ModulesByFile.empty()) {
for (unsigned I = 0, N = Modules.size(); I != N; ++I) {
resolveModuleFile(I);
}
}
// Look for information about this module file.
llvm::DenseMap<ModuleFile *, unsigned>::iterator Known
= ModulesByFile.find(File);
if (Known == ModulesByFile.end())
return;
// Record dependencies.
Dependencies.clear();
ArrayRef<unsigned> StoredDependencies = Modules[Known->second].Dependencies;
for (unsigned I = 0, N = StoredDependencies.size(); I != N; ++I) {
if (ModuleFile *MF = resolveModuleFile(I))
Dependencies.push_back(MF);
}
}
bool GlobalModuleIndex::lookupIdentifier(StringRef Name, HitSet &Hits) {
Hits.clear();
// If there's no identifier index, there is nothing we can do.
if (!IdentifierIndex)
return false;
// Look into the identifier index.
++NumIdentifierLookups;
IdentifierIndexTable &Table
= *static_cast<IdentifierIndexTable *>(IdentifierIndex);
IdentifierIndexTable::iterator Known = Table.find(Name);
if (Known == Table.end()) {
return true;
}
SmallVector<unsigned, 2> ModuleIDs = *Known;
for (unsigned I = 0, N = ModuleIDs.size(); I != N; ++I) {
if (ModuleFile *File = resolveModuleFile(ModuleIDs[I]))
Hits.insert(File);
}
++NumIdentifierLookupHits;
return true;
}
ModuleFile *GlobalModuleIndex::resolveModuleFile(unsigned ID) {
assert(ID < Modules.size() && "Out-of-bounds module index");
// If we already have a module file, return it.
if (Modules[ID].File)
return Modules[ID].File;
// If we don't have a file name, or if there is no resolver, we can't
// resolve this.
if (Modules[ID].FileName.empty() || !Resolver)
return 0;
// Try to resolve this module file.
ModuleFile *File;
if (Resolver->resolveModuleFileName(Modules[ID].FileName, Modules[ID].Size,
Modules[ID].ModTime, File)) {
// Clear out the module files for anything that depends on this module.
llvm::SmallVector<unsigned, 8> Stack;
Stack.push_back(ID);
while (!Stack.empty()) {
unsigned Victim = Stack.back();
Stack.pop_back();
// Mark this file as ignored.
Modules[Victim].File = 0;
Modules[Victim].FileName.clear();
// Push any not-yet-ignored imported modules onto the stack.
for (unsigned I = 0, N = Modules[Victim].ImportedBy.size(); I != N; ++I) {
unsigned NextVictim = Modules[Victim].ImportedBy[I];
if (!Modules[NextVictim].FileName.empty())
Stack.push_back(NextVictim);
}
}
return 0;
}
// If we have a module file, record it.
if (File) {
Modules[ID].File = File;
ModulesByFile[File] = ID;
}
return File;
}
void GlobalModuleIndex::printStats() {
std::fprintf(stderr, "*** Global Module Index Statistics:\n");
if (NumIdentifierLookups) {
fprintf(stderr, " %u / %u identifier lookups succeeded (%f%%)\n",
NumIdentifierLookupHits, NumIdentifierLookups,
(double)NumIdentifierLookupHits*100.0/NumIdentifierLookups);
}
std::fprintf(stderr, "\n");
}
//----------------------------------------------------------------------------//
// Global module index writer.
//----------------------------------------------------------------------------//
namespace {
/// \brief Provides information about a specific module file.
struct ModuleFileInfo {
/// \brief The numberic ID for this module file.
unsigned ID;
/// \brief The set of modules on which this module depends. Each entry is
/// a module ID.
SmallVector<unsigned, 4> Dependencies;
};
/// \brief Builder that generates the global module index file.
class GlobalModuleIndexBuilder {
FileManager &FileMgr;
/// \brief Mapping from files to module file information.
typedef llvm::MapVector<const FileEntry *, ModuleFileInfo> ModuleFilesMap;
/// \brief Information about each of the known module files.
ModuleFilesMap ModuleFiles;
/// \brief Mapping from identifiers to the list of module file IDs that
/// consider this identifier to be interesting.
typedef llvm::StringMap<SmallVector<unsigned, 2> > InterestingIdentifierMap;
/// \brief A mapping from all interesting identifiers to the set of module
/// files in which those identifiers are considered interesting.
InterestingIdentifierMap InterestingIdentifiers;
/// \brief Write the block-info block for the global module index file.
void emitBlockInfoBlock(llvm::BitstreamWriter &Stream);
/// \brief Retrieve the module file information for the given file.
ModuleFileInfo &getModuleFileInfo(const FileEntry *File) {
llvm::MapVector<const FileEntry *, ModuleFileInfo>::iterator Known
= ModuleFiles.find(File);
if (Known != ModuleFiles.end())
return Known->second;
unsigned NewID = ModuleFiles.size();
ModuleFileInfo &Info = ModuleFiles[File];
Info.ID = NewID;
return Info;
}
public:
explicit GlobalModuleIndexBuilder(FileManager &FileMgr) : FileMgr(FileMgr){}
/// \brief Load the contents of the given module file into the builder.
///
/// \returns true if an error occurred, false otherwise.
bool loadModuleFile(const FileEntry *File);
/// \brief Write the index to the given bitstream.
void writeIndex(llvm::BitstreamWriter &Stream);
};
}
static void emitBlockID(unsigned ID, const char *Name,
llvm::BitstreamWriter &Stream,
SmallVectorImpl<uint64_t> &Record) {
Record.clear();
Record.push_back(ID);
Stream.EmitRecord(llvm::bitc::BLOCKINFO_CODE_SETBID, Record);
// Emit the block name if present.
if (Name == 0 || Name[0] == 0) return;
Record.clear();
while (*Name)
Record.push_back(*Name++);
Stream.EmitRecord(llvm::bitc::BLOCKINFO_CODE_BLOCKNAME, Record);
}
static void emitRecordID(unsigned ID, const char *Name,
llvm::BitstreamWriter &Stream,
SmallVectorImpl<uint64_t> &Record) {
Record.clear();
Record.push_back(ID);
while (*Name)
Record.push_back(*Name++);
Stream.EmitRecord(llvm::bitc::BLOCKINFO_CODE_SETRECORDNAME, Record);
}
void
GlobalModuleIndexBuilder::emitBlockInfoBlock(llvm::BitstreamWriter &Stream) {
SmallVector<uint64_t, 64> Record;
Stream.EnterSubblock(llvm::bitc::BLOCKINFO_BLOCK_ID, 3);
#define BLOCK(X) emitBlockID(X ## _ID, #X, Stream, Record)
#define RECORD(X) emitRecordID(X, #X, Stream, Record)
BLOCK(GLOBAL_INDEX_BLOCK);
RECORD(INDEX_METADATA);
RECORD(MODULE);
RECORD(IDENTIFIER_INDEX);
#undef RECORD
#undef BLOCK
Stream.ExitBlock();
}
namespace {
class InterestingASTIdentifierLookupTrait
: public serialization::reader::ASTIdentifierLookupTraitBase {
public:
/// \brief The identifier and whether it is "interesting".
typedef std::pair<StringRef, bool> data_type;
data_type ReadData(const internal_key_type& k,
const unsigned char* d,
unsigned DataLen) {
// The first bit indicates whether this identifier is interesting.
// That's all we care about.
using namespace clang::io;
unsigned RawID = ReadUnalignedLE32(d);
bool IsInteresting = RawID & 0x01;
return std::make_pair(k, IsInteresting);
}
};
}
bool GlobalModuleIndexBuilder::loadModuleFile(const FileEntry *File) {
// Open the module file.
OwningPtr<llvm::MemoryBuffer> Buffer;
std::string ErrorStr;
Buffer.reset(FileMgr.getBufferForFile(File, &ErrorStr, /*isVolatile=*/true));
if (!Buffer) {
return true;
}
// Initialize the input stream
llvm::BitstreamReader InStreamFile;
llvm::BitstreamCursor InStream;
InStreamFile.init((const unsigned char *)Buffer->getBufferStart(),
(const unsigned char *)Buffer->getBufferEnd());
InStream.init(InStreamFile);
// Sniff for the signature.
if (InStream.Read(8) != 'C' ||
InStream.Read(8) != 'P' ||
InStream.Read(8) != 'C' ||
InStream.Read(8) != 'H') {
return true;
}
// Record this module file and assign it a unique ID (if it doesn't have
// one already).
unsigned ID = getModuleFileInfo(File).ID;
// Search for the blocks and records we care about.
enum { Other, ControlBlock, ASTBlock } State = Other;
bool Done = false;
while (!Done) {
llvm::BitstreamEntry Entry = InStream.advance();
switch (Entry.Kind) {
case llvm::BitstreamEntry::Error:
Done = true;
continue;
case llvm::BitstreamEntry::Record:
// In the 'other' state, just skip the record. We don't care.
if (State == Other) {
InStream.skipRecord(Entry.ID);
continue;
}
// Handle potentially-interesting records below.
break;
case llvm::BitstreamEntry::SubBlock:
if (Entry.ID == CONTROL_BLOCK_ID) {
if (InStream.EnterSubBlock(CONTROL_BLOCK_ID))
return true;
// Found the control block.
State = ControlBlock;
continue;
}
if (Entry.ID == AST_BLOCK_ID) {
if (InStream.EnterSubBlock(AST_BLOCK_ID))
return true;
// Found the AST block.
State = ASTBlock;
continue;
}
if (InStream.SkipBlock())
return true;
continue;
case llvm::BitstreamEntry::EndBlock:
State = Other;
continue;
}
// Read the given record.
SmallVector<uint64_t, 64> Record;
StringRef Blob;
unsigned Code = InStream.readRecord(Entry.ID, Record, &Blob);
// Handle module dependencies.
if (State == ControlBlock && Code == IMPORTS) {
// Load each of the imported PCH files.
unsigned Idx = 0, N = Record.size();
while (Idx < N) {
// Read information about the AST file.
// Skip the imported kind
++Idx;
// Skip the import location
++Idx;
// Load stored size/modification time.
off_t StoredSize = (off_t)Record[Idx++];
time_t StoredModTime = (time_t)Record[Idx++];
// Retrieve the imported file name.
unsigned Length = Record[Idx++];
SmallString<128> ImportedFile(Record.begin() + Idx,
Record.begin() + Idx + Length);
Idx += Length;
// Find the imported module file.
const FileEntry *DependsOnFile
= FileMgr.getFile(ImportedFile, /*openFile=*/false,
/*cacheFailure=*/false);
if (!DependsOnFile ||
(StoredSize != DependsOnFile->getSize()) ||
(StoredModTime != DependsOnFile->getModificationTime()))
return true;
// Record the dependency.
unsigned DependsOnID = getModuleFileInfo(DependsOnFile).ID;
getModuleFileInfo(File).Dependencies.push_back(DependsOnID);
}
continue;
}
// Handle the identifier table
if (State == ASTBlock && Code == IDENTIFIER_TABLE && Record[0] > 0) {
typedef OnDiskChainedHashTable<InterestingASTIdentifierLookupTrait>
InterestingIdentifierTable;
llvm::OwningPtr<InterestingIdentifierTable>
Table(InterestingIdentifierTable::Create(
(const unsigned char *)Blob.data() + Record[0],
(const unsigned char *)Blob.data()));
for (InterestingIdentifierTable::data_iterator D = Table->data_begin(),
DEnd = Table->data_end();
D != DEnd; ++D) {
std::pair<StringRef, bool> Ident = *D;
if (Ident.second)
InterestingIdentifiers[Ident.first].push_back(ID);
else
(void)InterestingIdentifiers[Ident.first];
}
}
// We don't care about this record.
}
return false;
}
namespace {
/// \brief Trait used to generate the identifier index as an on-disk hash
/// table.
class IdentifierIndexWriterTrait {
public:
typedef StringRef key_type;
typedef StringRef key_type_ref;
typedef SmallVector<unsigned, 2> data_type;
typedef const SmallVector<unsigned, 2> &data_type_ref;
static unsigned ComputeHash(key_type_ref Key) {
return llvm::HashString(Key);
}
std::pair<unsigned,unsigned>
EmitKeyDataLength(raw_ostream& Out, key_type_ref Key, data_type_ref Data) {
unsigned KeyLen = Key.size();
unsigned DataLen = Data.size() * 4;
clang::io::Emit16(Out, KeyLen);
clang::io::Emit16(Out, DataLen);
return std::make_pair(KeyLen, DataLen);
}
void EmitKey(raw_ostream& Out, key_type_ref Key, unsigned KeyLen) {
Out.write(Key.data(), KeyLen);
}
void EmitData(raw_ostream& Out, key_type_ref Key, data_type_ref Data,
unsigned DataLen) {
for (unsigned I = 0, N = Data.size(); I != N; ++I)
clang::io::Emit32(Out, Data[I]);
}
};
}
void GlobalModuleIndexBuilder::writeIndex(llvm::BitstreamWriter &Stream) {
using namespace llvm;
// Emit the file header.
Stream.Emit((unsigned)'B', 8);
Stream.Emit((unsigned)'C', 8);
Stream.Emit((unsigned)'G', 8);
Stream.Emit((unsigned)'I', 8);
// Write the block-info block, which describes the records in this bitcode
// file.
emitBlockInfoBlock(Stream);
Stream.EnterSubblock(GLOBAL_INDEX_BLOCK_ID, 3);
// Write the metadata.
SmallVector<uint64_t, 2> Record;
Record.push_back(CurrentVersion);
Stream.EmitRecord(INDEX_METADATA, Record);
// Write the set of known module files.
for (ModuleFilesMap::iterator M = ModuleFiles.begin(),
MEnd = ModuleFiles.end();
M != MEnd; ++M) {
Record.clear();
Record.push_back(M->second.ID);
Record.push_back(M->first->getSize());
Record.push_back(M->first->getModificationTime());
// File name
StringRef Name(M->first->getName());
Record.push_back(Name.size());
Record.append(Name.begin(), Name.end());
// Dependencies
Record.push_back(M->second.Dependencies.size());
Record.append(M->second.Dependencies.begin(), M->second.Dependencies.end());
Stream.EmitRecord(MODULE, Record);
}
// Write the identifier -> module file mapping.
{
OnDiskChainedHashTableGenerator<IdentifierIndexWriterTrait> Generator;
IdentifierIndexWriterTrait Trait;
// Populate the hash table.
for (InterestingIdentifierMap::iterator I = InterestingIdentifiers.begin(),
IEnd = InterestingIdentifiers.end();
I != IEnd; ++I) {
Generator.insert(I->first(), I->second, Trait);
}
// Create the on-disk hash table in a buffer.
SmallString<4096> IdentifierTable;
uint32_t BucketOffset;
{
llvm::raw_svector_ostream Out(IdentifierTable);
// Make sure that no bucket is at offset 0
clang::io::Emit32(Out, 0);
BucketOffset = Generator.Emit(Out, Trait);
}
// Create a blob abbreviation
BitCodeAbbrev *Abbrev = new BitCodeAbbrev();
Abbrev->Add(BitCodeAbbrevOp(IDENTIFIER_INDEX));
Abbrev->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 32));
Abbrev->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Blob));
unsigned IDTableAbbrev = Stream.EmitAbbrev(Abbrev);
// Write the identifier table
Record.clear();
Record.push_back(IDENTIFIER_INDEX);
Record.push_back(BucketOffset);
Stream.EmitRecordWithBlob(IDTableAbbrev, Record, IdentifierTable.str());
}
Stream.ExitBlock();
}
GlobalModuleIndex::ErrorCode
GlobalModuleIndex::writeIndex(FileManager &FileMgr, StringRef Path) {
llvm::SmallString<128> IndexPath;
IndexPath += Path;
llvm::sys::path::append(IndexPath, IndexFileName);
// Coordinate building the global index file with other processes that might
// try to do the same.
llvm::LockFileManager Locked(IndexPath);
switch (Locked) {
case llvm::LockFileManager::LFS_Error:
return EC_IOError;
case llvm::LockFileManager::LFS_Owned:
// We're responsible for building the index ourselves. Do so below.
break;
case llvm::LockFileManager::LFS_Shared:
// Someone else is responsible for building the index. We don't care
// when they finish, so we're done.
return EC_Building;
}
// The module index builder.
GlobalModuleIndexBuilder Builder(FileMgr);
// Load each of the module files.
llvm::error_code EC;
for (llvm::sys::fs::directory_iterator D(Path, EC), DEnd;
D != DEnd && !EC;
D.increment(EC)) {
// If this isn't a module file, we don't care.
if (llvm::sys::path::extension(D->path()) != ".pcm") {
// ... unless it's a .pcm.lock file, which indicates that someone is
// in the process of rebuilding a module. They'll rebuild the index
// at the end of that translation unit, so we don't have to.
if (llvm::sys::path::extension(D->path()) == ".pcm.lock")
return EC_Building;
continue;
}
// If we can't find the module file, skip it.
const FileEntry *ModuleFile = FileMgr.getFile(D->path());
if (!ModuleFile)
continue;
// Load this module file.
if (Builder.loadModuleFile(ModuleFile))
return EC_IOError;
}
// The output buffer, into which the global index will be written.
SmallVector<char, 16> OutputBuffer;
{
llvm::BitstreamWriter OutputStream(OutputBuffer);
Builder.writeIndex(OutputStream);
}
// Write the global index file to a temporary file.
llvm::SmallString<128> IndexTmpPath;
int TmpFD;
if (llvm::sys::fs::unique_file(IndexPath + "-%%%%%%%%", TmpFD, IndexTmpPath))
return EC_IOError;
// Open the temporary global index file for output.
llvm::raw_fd_ostream Out(TmpFD, true);
if (Out.has_error())
return EC_IOError;
// Write the index.
Out.write(OutputBuffer.data(), OutputBuffer.size());
Out.close();
if (Out.has_error())
return EC_IOError;
// Remove the old index file. It isn't relevant any more.
bool OldIndexExisted;
llvm::sys::fs::remove(IndexPath.str(), OldIndexExisted);
// Rename the newly-written index file to the proper name.
if (llvm::sys::fs::rename(IndexTmpPath.str(), IndexPath.str())) {
// Rename failed; just remove the
llvm::sys::fs::remove(IndexTmpPath.str(), OldIndexExisted);
return EC_IOError;
}
// We're done.
return EC_None;
}
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