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//===--- GlobalCompilationDatabase.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 "GlobalCompilationDatabase.h"
#include "Config.h"
#include "FS.h"
#include "SourceCode.h"
#include "support/Logger.h"
#include "support/Path.h"
#include "support/Threading.h"
#include "support/ThreadsafeFS.h"
#include "clang/Frontend/CompilerInvocation.h"
#include "clang/Tooling/ArgumentsAdjusters.h"
#include "clang/Tooling/CompilationDatabase.h"
#include "clang/Tooling/CompilationDatabasePluginRegistry.h"
#include "clang/Tooling/JSONCompilationDatabase.h"
#include "llvm/ADT/None.h"
#include "llvm/ADT/Optional.h"
#include "llvm/ADT/PointerIntPair.h"
#include "llvm/ADT/STLExtras.h"
#include "llvm/ADT/ScopeExit.h"
#include "llvm/ADT/SmallString.h"
#include "llvm/ADT/StringMap.h"
#include "llvm/Support/FileSystem.h"
#include "llvm/Support/FileUtilities.h"
#include "llvm/Support/Path.h"
#include "llvm/Support/Program.h"
#include "llvm/Support/VirtualFileSystem.h"
#include <atomic>
#include <chrono>
#include <condition_variable>
#include <mutex>
#include <string>
#include <tuple>
#include <vector>
namespace clang {
namespace clangd {
namespace {
// Runs the given action on all parent directories of filename, starting from
// deepest directory and going up to root. Stops whenever action succeeds.
void actOnAllParentDirectories(PathRef FileName,
llvm::function_ref<bool(PathRef)> Action) {
for (auto Path = absoluteParent(FileName); !Path.empty() && !Action(Path);
Path = absoluteParent(Path))
;
}
} // namespace
tooling::CompileCommand
GlobalCompilationDatabase::getFallbackCommand(PathRef File) const {
std::vector<std::string> Argv = {"clang"};
// Clang treats .h files as C by default and files without extension as linker
// input, resulting in unhelpful diagnostics.
// Parsing as Objective C++ is friendly to more cases.
auto FileExtension = llvm::sys::path::extension(File);
if (FileExtension.empty() || FileExtension == ".h")
Argv.push_back("-xobjective-c++-header");
Argv.push_back(std::string(File));
tooling::CompileCommand Cmd(llvm::sys::path::parent_path(File),
llvm::sys::path::filename(File), std::move(Argv),
/*Output=*/"");
Cmd.Heuristic = "clangd fallback";
return Cmd;
}
// Loads and caches the CDB from a single directory.
//
// This class is threadsafe, which is to say we have independent locks for each
// directory we're searching for a CDB.
// Loading is deferred until first access.
//
// The DirectoryBasedCDB keeps a map from path => DirectoryCache.
// Typical usage is to:
// - 1) determine all the paths that might be searched
// - 2) acquire the map lock and get-or-create all the DirectoryCache entries
// - 3) release the map lock and query the caches as desired
class DirectoryBasedGlobalCompilationDatabase::DirectoryCache {
using stopwatch = std::chrono::steady_clock;
// CachedFile is used to read a CDB file on disk (e.g. compile_commands.json).
// It specializes in being able to quickly bail out if the file is unchanged,
// which is the common case.
// Internally, it stores file metadata so a stat() can verify it's unchanged.
// We don't actually cache the content as it's not needed - if the file is
// unchanged then the previous CDB is valid.
struct CachedFile {
CachedFile(llvm::StringRef Parent, llvm::StringRef Rel) {
llvm::SmallString<256> Path = Parent;
llvm::sys::path::append(Path, Rel);
this->Path = Path.str().str();
}
std::string Path;
size_t Size = NoFileCached;
llvm::sys::TimePoint<> ModifiedTime;
FileDigest ContentHash;
static constexpr size_t NoFileCached = -1;
struct LoadResult {
enum {
FileNotFound,
TransientError,
FoundSameData,
FoundNewData,
} Result;
std::unique_ptr<llvm::MemoryBuffer> Buffer; // Set only if FoundNewData
};
LoadResult load(llvm::vfs::FileSystem &FS, bool HasOldData);
};
// If we've looked for a CDB here and found none, the time when that happened.
// (Atomics make it possible for get() to return without taking a lock)
std::atomic<stopwatch::rep> NoCDBAt = {
stopwatch::time_point::min().time_since_epoch().count()};
// Guards the following cache state.
std::mutex Mu;
// When was the cache last known to be in sync with disk state?
stopwatch::time_point CachePopulatedAt = stopwatch::time_point::min();
// Whether a new CDB has been loaded but not broadcast yet.
bool NeedsBroadcast = false;
// Last loaded CDB, meaningful if CachePopulatedAt was ever set.
// shared_ptr so we can overwrite this when callers are still using the CDB.
std::shared_ptr<tooling::CompilationDatabase> CDB;
// File metadata for the CDB files we support tracking directly.
CachedFile CompileCommandsJson;
CachedFile BuildCompileCommandsJson;
CachedFile CompileFlagsTxt;
// CachedFile member corresponding to CDB.
// CDB | ACF | Scenario
// null | null | no CDB found, or initial empty cache
// set | null | CDB was loaded via generic plugin interface
// null | set | found known CDB file, but parsing it failed
// set | set | CDB was parsed from a known file
CachedFile *ActiveCachedFile = nullptr;
public:
DirectoryCache(llvm::StringRef Path)
: CompileCommandsJson(Path, "compile_commands.json"),
BuildCompileCommandsJson(Path, "build/compile_commands.json"),
CompileFlagsTxt(Path, "compile_flags.txt"), Path(Path) {
assert(llvm::sys::path::is_absolute(Path));
}
// Absolute canonical path that we're the cache for. (Not case-folded).
const std::string Path;
// Get the CDB associated with this directory.
// ShouldBroadcast:
// - as input, signals whether the caller is willing to broadcast a
// newly-discovered CDB. (e.g. to trigger background indexing)
// - as output, signals whether the caller should do so.
// (If a new CDB is discovered and ShouldBroadcast is false, we mark the
// CDB as needing broadcast, and broadcast it next time we can).
std::shared_ptr<const tooling::CompilationDatabase>
get(const ThreadsafeFS &TFS, bool &ShouldBroadcast,
stopwatch::time_point FreshTime, stopwatch::time_point FreshTimeMissing) {
// Fast path for common case without taking lock.
if (stopwatch::time_point(stopwatch::duration(NoCDBAt.load())) >
FreshTimeMissing) {
ShouldBroadcast = false;
return nullptr;
}
std::lock_guard<std::mutex> Lock(Mu);
auto RequestBroadcast = llvm::make_scope_exit([&, OldCDB(CDB.get())] {
// If we loaded a new CDB, it should be broadcast at some point.
if (CDB != nullptr && CDB.get() != OldCDB)
NeedsBroadcast = true;
else if (CDB == nullptr) // nothing to broadcast anymore!
NeedsBroadcast = false;
// If we have something to broadcast, then do so iff allowed.
if (!ShouldBroadcast)
return;
ShouldBroadcast = NeedsBroadcast;
NeedsBroadcast = false;
});
// If our cache is valid, serve from it.
if (CachePopulatedAt > FreshTime)
return CDB;
if (/*MayCache=*/load(*TFS.view(/*CWD=*/llvm::None))) {
// Use new timestamp, as loading may be slow.
CachePopulatedAt = stopwatch::now();
NoCDBAt.store((CDB ? stopwatch::time_point::min() : CachePopulatedAt)
.time_since_epoch()
.count());
}
return CDB;
}
private:
// Updates `CDB` from disk state. Returns false on failure.
bool load(llvm::vfs::FileSystem &FS);
};
DirectoryBasedGlobalCompilationDatabase::DirectoryCache::CachedFile::LoadResult
DirectoryBasedGlobalCompilationDatabase::DirectoryCache::CachedFile::load(
llvm::vfs::FileSystem &FS, bool HasOldData) {
auto Stat = FS.status(Path);
if (!Stat || !Stat->isRegularFile()) {
Size = NoFileCached;
ContentHash = {};
return {LoadResult::FileNotFound, nullptr};
}
// If both the size and mtime match, presume unchanged without reading.
if (HasOldData && Stat->getLastModificationTime() == ModifiedTime &&
Stat->getSize() == Size)
return {LoadResult::FoundSameData, nullptr};
auto Buf = FS.getBufferForFile(Path);
if (!Buf || (*Buf)->getBufferSize() != Stat->getSize()) {
// Don't clear the cache - possible we're seeing inconsistent size as the
// file is being recreated. If it ends up identical later, great!
//
// This isn't a complete solution: if we see a partial file but stat/read
// agree on its size, we're ultimately going to have spurious CDB reloads.
// May be worth fixing if generators don't write atomically (CMake does).
elog("Failed to read {0}: {1}", Path,
Buf ? "size changed" : Buf.getError().message());
return {LoadResult::TransientError, nullptr};
}
FileDigest NewContentHash = digest((*Buf)->getBuffer());
if (HasOldData && NewContentHash == ContentHash) {
// mtime changed but data is the same: avoid rebuilding the CDB.
ModifiedTime = Stat->getLastModificationTime();
return {LoadResult::FoundSameData, nullptr};
}
Size = (*Buf)->getBufferSize();
ModifiedTime = Stat->getLastModificationTime();
ContentHash = NewContentHash;
return {LoadResult::FoundNewData, std::move(*Buf)};
}
// Adapt CDB-loading functions to a common interface for DirectoryCache::load().
static std::unique_ptr<tooling::CompilationDatabase>
parseJSON(PathRef Path, llvm::StringRef Data, std::string &Error) {
if (auto CDB = tooling::JSONCompilationDatabase::loadFromBuffer(
Data, Error, tooling::JSONCommandLineSyntax::AutoDetect)) {
// FS used for expanding response files.
// FIXME: ExpandResponseFilesDatabase appears not to provide the usual
// thread-safety guarantees, as the access to FS is not locked!
// For now, use the real FS, which is known to be threadsafe (if we don't
// use/change working directory, which ExpandResponseFilesDatabase doesn't).
auto FS = llvm::vfs::getRealFileSystem();
return tooling::inferTargetAndDriverMode(
tooling::inferMissingCompileCommands(
expandResponseFiles(std::move(CDB), std::move(FS))));
}
return nullptr;
}
static std::unique_ptr<tooling::CompilationDatabase>
parseFixed(PathRef Path, llvm::StringRef Data, std::string &Error) {
return tooling::FixedCompilationDatabase::loadFromBuffer(
llvm::sys::path::parent_path(Path), Data, Error);
}
bool DirectoryBasedGlobalCompilationDatabase::DirectoryCache::load(
llvm::vfs::FileSystem &FS) {
dlog("Probing directory {0}", Path);
std::string Error;
// Load from the specially-supported compilation databases (JSON + Fixed).
// For these, we know the files they read and cache their metadata so we can
// cheaply validate whether they've changed, and hot-reload if they have.
// (As a bonus, these are also VFS-clean)!
struct CDBFile {
CachedFile *File;
// Wrapper for {Fixed,JSON}CompilationDatabase::loadFromBuffer.
std::unique_ptr<tooling::CompilationDatabase> (*Parser)(
PathRef,
/*Data*/ llvm::StringRef,
/*ErrorMsg*/ std::string &);
};
for (const auto &Entry : {CDBFile{&CompileCommandsJson, parseJSON},
CDBFile{&BuildCompileCommandsJson, parseJSON},
CDBFile{&CompileFlagsTxt, parseFixed}}) {
bool Active = ActiveCachedFile == Entry.File;
auto Loaded = Entry.File->load(FS, Active);
switch (Loaded.Result) {
case CachedFile::LoadResult::FileNotFound:
if (Active) {
log("Unloaded compilation database from {0}", Entry.File->Path);
ActiveCachedFile = nullptr;
CDB = nullptr;
}
// Continue looking at other candidates.
break;
case CachedFile::LoadResult::TransientError:
// File existed but we couldn't read it. Reuse the cache, retry later.
return false; // Load again next time.
case CachedFile::LoadResult::FoundSameData:
assert(Active && "CachedFile may not return 'same data' if !HasOldData");
// This is the critical file, and it hasn't changed.
return true;
case CachedFile::LoadResult::FoundNewData:
// We have a new CDB!
CDB = Entry.Parser(Entry.File->Path, Loaded.Buffer->getBuffer(), Error);
if (CDB)
log("{0} compilation database from {1}", Active ? "Reloaded" : "Loaded",
Entry.File->Path);
else
elog("Failed to load compilation database from {0}: {1}",
Entry.File->Path, Error);
ActiveCachedFile = Entry.File;
return true;
}
}
// Fall back to generic handling of compilation databases.
// We don't know what files they read, so can't efficiently check whether
// they need to be reloaded. So we never do that.
// FIXME: the interface doesn't provide a way to virtualize FS access.
// Don't try these more than once. If we've scanned before, we're done.
if (CachePopulatedAt > stopwatch::time_point::min())
return true;
for (const auto &Entry :
tooling::CompilationDatabasePluginRegistry::entries()) {
// Avoid duplicating the special cases handled above.
if (Entry.getName() == "fixed-compilation-database" ||
Entry.getName() == "json-compilation-database")
continue;
auto Plugin = Entry.instantiate();
if (auto CDB = Plugin->loadFromDirectory(Path, Error)) {
log("Loaded compilation database from {0} with plugin {1}", Path,
Entry.getName());
this->CDB = std::move(CDB);
return true;
}
// Don't log Error here, it's usually just "couldn't find <file>".
}
dlog("No compilation database at {0}", Path);
return true;
}
DirectoryBasedGlobalCompilationDatabase::
DirectoryBasedGlobalCompilationDatabase(const Options &Opts)
: Opts(Opts), Broadcaster(std::make_unique<BroadcastThread>(*this)) {
if (!this->Opts.ContextProvider)
this->Opts.ContextProvider = [](llvm::StringRef) {
return Context::current().clone();
};
}
DirectoryBasedGlobalCompilationDatabase::
~DirectoryBasedGlobalCompilationDatabase() = default;
llvm::Optional<tooling::CompileCommand>
DirectoryBasedGlobalCompilationDatabase::getCompileCommand(PathRef File) const {
CDBLookupRequest Req;
Req.FileName = File;
Req.ShouldBroadcast = true;
auto Now = std::chrono::steady_clock::now();
Req.FreshTime = Now - Opts.RevalidateAfter;
Req.FreshTimeMissing = Now - Opts.RevalidateMissingAfter;
auto Res = lookupCDB(Req);
if (!Res) {
log("Failed to find compilation database for {0}", File);
return llvm::None;
}
auto Candidates = Res->CDB->getCompileCommands(File);
if (!Candidates.empty())
return std::move(Candidates.front());
return None;
}
std::vector<DirectoryBasedGlobalCompilationDatabase::DirectoryCache *>
DirectoryBasedGlobalCompilationDatabase::getDirectoryCaches(
llvm::ArrayRef<llvm::StringRef> Dirs) const {
std::vector<std::string> FoldedDirs;
FoldedDirs.reserve(Dirs.size());
for (const auto &Dir : Dirs) {
#ifndef NDEBUG
if (!llvm::sys::path::is_absolute(Dir))
elog("Trying to cache CDB for relative {0}");
#endif
FoldedDirs.push_back(maybeCaseFoldPath(Dir));
}
std::vector<DirectoryCache *> Ret;
Ret.reserve(Dirs.size());
std::lock_guard<std::mutex> Lock(DirCachesMutex);
for (unsigned I = 0; I < Dirs.size(); ++I)
Ret.push_back(&DirCaches.try_emplace(FoldedDirs[I], Dirs[I]).first->second);
return Ret;
}
llvm::Optional<DirectoryBasedGlobalCompilationDatabase::CDBLookupResult>
DirectoryBasedGlobalCompilationDatabase::lookupCDB(
CDBLookupRequest Request) const {
assert(llvm::sys::path::is_absolute(Request.FileName) &&
"path must be absolute");
std::string Storage;
std::vector<llvm::StringRef> SearchDirs;
if (Opts.CompileCommandsDir) // FIXME: unify this case with config.
SearchDirs = {Opts.CompileCommandsDir.getValue()};
else {
WithContext WithProvidedContext(Opts.ContextProvider(Request.FileName));
const auto &Spec = Config::current().CompileFlags.CDBSearch;
switch (Spec.Policy) {
case Config::CDBSearchSpec::NoCDBSearch:
return llvm::None;
case Config::CDBSearchSpec::FixedDir:
Storage = Spec.FixedCDBPath.getValue();
SearchDirs = {Storage};
break;
case Config::CDBSearchSpec::Ancestors:
// Traverse the canonical version to prevent false positives. i.e.:
// src/build/../a.cc can detect a CDB in /src/build if not
// canonicalized.
Storage = removeDots(Request.FileName);
actOnAllParentDirectories(Storage, [&](llvm::StringRef Dir) {
SearchDirs.push_back(Dir);
return false;
});
}
}
std::shared_ptr<const tooling::CompilationDatabase> CDB = nullptr;
bool ShouldBroadcast = false;
DirectoryCache *DirCache = nullptr;
for (DirectoryCache *Candidate : getDirectoryCaches(SearchDirs)) {
bool CandidateShouldBroadcast = Request.ShouldBroadcast;
if ((CDB = Candidate->get(Opts.TFS, CandidateShouldBroadcast,
Request.FreshTime, Request.FreshTimeMissing))) {
DirCache = Candidate;
ShouldBroadcast = CandidateShouldBroadcast;
break;
}
}
if (!CDB)
return llvm::None;
CDBLookupResult Result;
Result.CDB = std::move(CDB);
Result.PI.SourceRoot = DirCache->Path;
if (ShouldBroadcast)
broadcastCDB(Result);
return Result;
}
// The broadcast thread announces files with new compile commands to the world.
// Primarily this is used to enqueue them for background indexing.
//
// It's on a separate thread because:
// - otherwise it would block the first parse of the initial file
// - we need to enumerate all files in the CDB, of which there are many
// - we (will) have to evaluate config for every file in the CDB, which is slow
class DirectoryBasedGlobalCompilationDatabase::BroadcastThread {
class Filter;
DirectoryBasedGlobalCompilationDatabase &Parent;
std::mutex Mu;
std::condition_variable CV;
// Shutdown flag (CV is notified after writing).
// This is atomic so that broadcasts can also observe it and abort early.
std::atomic<bool> ShouldStop = {false};
struct Task {
CDBLookupResult Lookup;
Context Ctx;
};
std::deque<Task> Queue;
llvm::Optional<Task> ActiveTask;
std::thread Thread; // Must be last member.
// Thread body: this is just the basic queue procesing boilerplate.
void run() {
std::unique_lock<std::mutex> Lock(Mu);
while (true) {
bool Stopping = false;
CV.wait(Lock, [&] {
return (Stopping = ShouldStop.load(std::memory_order_acquire)) ||
!Queue.empty();
});
if (Stopping) {
Queue.clear();
CV.notify_all();
return;
}
ActiveTask = std::move(Queue.front());
Queue.pop_front();
Lock.unlock();
{
WithContext WithCtx(std::move(ActiveTask->Ctx));
process(ActiveTask->Lookup);
}
Lock.lock();
ActiveTask.reset();
CV.notify_all();
}
}
// Inspects a new CDB and broadcasts the files it owns.
void process(const CDBLookupResult &T);
public:
BroadcastThread(DirectoryBasedGlobalCompilationDatabase &Parent)
: Parent(Parent), Thread([this] { run(); }) {}
void enqueue(CDBLookupResult Lookup) {
{
assert(!Lookup.PI.SourceRoot.empty());
std::lock_guard<std::mutex> Lock(Mu);
// New CDB takes precedence over any queued one for the same directory.
llvm::erase_if(Queue, [&](const Task &T) {
return T.Lookup.PI.SourceRoot == Lookup.PI.SourceRoot;
});
Queue.push_back({std::move(Lookup), Context::current().clone()});
}
CV.notify_all();
}
bool blockUntilIdle(Deadline Timeout) {
std::unique_lock<std::mutex> Lock(Mu);
return wait(Lock, CV, Timeout,
[&] { return Queue.empty() && !ActiveTask.hasValue(); });
}
~BroadcastThread() {
{
std::lock_guard<std::mutex> Lock(Mu);
ShouldStop.store(true, std::memory_order_release);
}
CV.notify_all();
Thread.join();
}
};
// The DirBasedCDB associates each file with a specific CDB.
// When a CDB is discovered, it may claim to describe files that we associate
// with a different CDB. We do not want to broadcast discovery of these, and
// trigger background indexing of them.
//
// We must filter the list, and check whether they are associated with this CDB.
// This class attempts to do so efficiently.
//
// Roughly, it:
// - loads the config for each file, and determines the relevant search path
// - gathers all directories that are part of any search path
// - (lazily) checks for a CDB in each such directory at most once
// - walks the search path for each file and determines whether to include it.
class DirectoryBasedGlobalCompilationDatabase::BroadcastThread::Filter {
llvm::StringRef ThisDir;
DirectoryBasedGlobalCompilationDatabase &Parent;
// Keep track of all directories we might check for CDBs.
struct DirInfo {
DirectoryCache *Cache = nullptr;
enum { Unknown, Missing, TargetCDB, OtherCDB } State = Unknown;
DirInfo *Parent = nullptr;
};
llvm::StringMap<DirInfo> Dirs;
// A search path starts at a directory, and either includes ancestors or not.
using SearchPath = llvm::PointerIntPair<DirInfo *, 1>;
// Add all ancestor directories of FilePath to the tracked set.
// Returns the immediate parent of the file.
DirInfo *addParents(llvm::StringRef FilePath) {
DirInfo *Leaf = nullptr;
DirInfo *Child = nullptr;
actOnAllParentDirectories(FilePath, [&](llvm::StringRef Dir) {
auto &Info = Dirs[Dir];
// If this is the first iteration, then this node is the overall result.
if (!Leaf)
Leaf = &Info;
// Fill in the parent link from the previous iteration to this parent.
if (Child)
Child->Parent = &Info;
// Keep walking, whether we inserted or not, if parent link is missing.
// (If it's present, parent links must be present up to the root, so stop)
Child = &Info;
return Info.Parent != nullptr;
});
return Leaf;
}
// Populates DirInfo::Cache (and State, if it is TargetCDB).
void grabCaches() {
// Fast path out if there were no files, or CDB loading is off.
if (Dirs.empty())
return;
std::vector<llvm::StringRef> DirKeys;
std::vector<DirInfo *> DirValues;
DirKeys.reserve(Dirs.size() + 1);
DirValues.reserve(Dirs.size());
for (auto &E : Dirs) {
DirKeys.push_back(E.first());
DirValues.push_back(&E.second);
}
// Also look up the cache entry for the CDB we're broadcasting.
// Comparing DirectoryCache pointers is more robust than checking string
// equality, e.g. reuses the case-sensitivity handling.
DirKeys.push_back(ThisDir);
auto DirCaches = Parent.getDirectoryCaches(DirKeys);
const DirectoryCache *ThisCache = DirCaches.back();
DirCaches.pop_back();
DirKeys.pop_back();
for (unsigned I = 0; I < DirKeys.size(); ++I) {
DirValues[I]->Cache = DirCaches[I];
if (DirCaches[I] == ThisCache)
DirValues[I]->State = DirInfo::TargetCDB;
}
}
// Should we include a file from this search path?
bool shouldInclude(SearchPath P) {
DirInfo *Info = P.getPointer();
if (!Info)
return false;
if (Info->State == DirInfo::Unknown) {
assert(Info->Cache && "grabCaches() should have filled this");
// Given that we know that CDBs have been moved/generated, don't trust
// caches. (This should be rare, so it's OK to add a little latency).
constexpr auto IgnoreCache = std::chrono::steady_clock::time_point::max();
// Don't broadcast CDBs discovered while broadcasting!
bool ShouldBroadcast = false;
bool Exists =
nullptr != Info->Cache->get(Parent.Opts.TFS, ShouldBroadcast,
/*FreshTime=*/IgnoreCache,
/*FreshTimeMissing=*/IgnoreCache);
Info->State = Exists ? DirInfo::OtherCDB : DirInfo::Missing;
}
// If we have a CDB, include the file if it's the target CDB only.
if (Info->State != DirInfo::Missing)
return Info->State == DirInfo::TargetCDB;
// If we have no CDB and no relevant parent, don't include the file.
if (!P.getInt() || !Info->Parent)
return false;
// Walk up to the next parent.
return shouldInclude(SearchPath(Info->Parent, 1));
}
public:
Filter(llvm::StringRef ThisDir,
DirectoryBasedGlobalCompilationDatabase &Parent)
: ThisDir(ThisDir), Parent(Parent) {}
std::vector<std::string> filter(std::vector<std::string> AllFiles,
std::atomic<bool> &ShouldStop) {
std::vector<std::string> Filtered;
// Allow for clean early-exit of the slow parts.
auto ExitEarly = [&] {
if (ShouldStop.load(std::memory_order_acquire)) {
log("Giving up on broadcasting CDB, as we're shutting down");
Filtered.clear();
return true;
}
return false;
};
// Compute search path for each file.
std::vector<SearchPath> SearchPaths(AllFiles.size());
for (unsigned I = 0; I < AllFiles.size(); ++I) {
if (Parent.Opts.CompileCommandsDir) { // FIXME: unify with config
SearchPaths[I].setPointer(
&Dirs[Parent.Opts.CompileCommandsDir.getValue()]);
continue;
}
if (ExitEarly()) // loading config may be slow
return Filtered;
WithContext WithProvidedContent(Parent.Opts.ContextProvider(AllFiles[I]));
const Config::CDBSearchSpec &Spec =
Config::current().CompileFlags.CDBSearch;
switch (Spec.Policy) {
case Config::CDBSearchSpec::NoCDBSearch:
break;
case Config::CDBSearchSpec::Ancestors:
SearchPaths[I].setInt(/*Recursive=*/1);
SearchPaths[I].setPointer(addParents(AllFiles[I]));
break;
case Config::CDBSearchSpec::FixedDir:
SearchPaths[I].setPointer(&Dirs[Spec.FixedCDBPath.getValue()]);
break;
}
}
// Get the CDB cache for each dir on the search path, but don't load yet.
grabCaches();
// Now work out which files we want to keep, loading CDBs where needed.
for (unsigned I = 0; I < AllFiles.size(); ++I) {
if (ExitEarly()) // loading CDBs may be slow
return Filtered;
if (shouldInclude(SearchPaths[I]))
Filtered.push_back(std::move(AllFiles[I]));
}
return Filtered;
}
};
void DirectoryBasedGlobalCompilationDatabase::BroadcastThread::process(
const CDBLookupResult &T) {
vlog("Broadcasting compilation database from {0}", T.PI.SourceRoot);
std::vector<std::string> GovernedFiles =
Filter(T.PI.SourceRoot, Parent).filter(T.CDB->getAllFiles(), ShouldStop);
if (!GovernedFiles.empty())
Parent.OnCommandChanged.broadcast(std::move(GovernedFiles));
}
void DirectoryBasedGlobalCompilationDatabase::broadcastCDB(
CDBLookupResult Result) const {
assert(Result.CDB && "Trying to broadcast an invalid CDB!");
Broadcaster->enqueue(Result);
}
bool DirectoryBasedGlobalCompilationDatabase::blockUntilIdle(
Deadline Timeout) const {
return Broadcaster->blockUntilIdle(Timeout);
}
llvm::Optional<ProjectInfo>
DirectoryBasedGlobalCompilationDatabase::getProjectInfo(PathRef File) const {
CDBLookupRequest Req;
Req.FileName = File;
Req.ShouldBroadcast = false;
Req.FreshTime = Req.FreshTimeMissing =
std::chrono::steady_clock::time_point::min();
auto Res = lookupCDB(Req);
if (!Res)
return llvm::None;
return Res->PI;
}
OverlayCDB::OverlayCDB(const GlobalCompilationDatabase *Base,
std::vector<std::string> FallbackFlags,
tooling::ArgumentsAdjuster Adjuster)
: DelegatingCDB(Base), ArgsAdjuster(std::move(Adjuster)),
FallbackFlags(std::move(FallbackFlags)) {}
llvm::Optional<tooling::CompileCommand>
OverlayCDB::getCompileCommand(PathRef File) const {
llvm::Optional<tooling::CompileCommand> Cmd;
{
std::lock_guard<std::mutex> Lock(Mutex);
auto It = Commands.find(removeDots(File));
if (It != Commands.end())
Cmd = It->second;
}
if (!Cmd)
Cmd = DelegatingCDB::getCompileCommand(File);
if (!Cmd)
return llvm::None;
if (ArgsAdjuster)
Cmd->CommandLine = ArgsAdjuster(Cmd->CommandLine, File);
return Cmd;
}
tooling::CompileCommand OverlayCDB::getFallbackCommand(PathRef File) const {
auto Cmd = DelegatingCDB::getFallbackCommand(File);
std::lock_guard<std::mutex> Lock(Mutex);
Cmd.CommandLine.insert(Cmd.CommandLine.end(), FallbackFlags.begin(),
FallbackFlags.end());
if (ArgsAdjuster)
Cmd.CommandLine = ArgsAdjuster(Cmd.CommandLine, File);
return Cmd;
}
void OverlayCDB::setCompileCommand(
PathRef File, llvm::Optional<tooling::CompileCommand> Cmd) {
// We store a canonical version internally to prevent mismatches between set
// and get compile commands. Also it assures clients listening to broadcasts
// doesn't receive different names for the same file.
std::string CanonPath = removeDots(File);
{
std::unique_lock<std::mutex> Lock(Mutex);
if (Cmd)
Commands[CanonPath] = std::move(*Cmd);
else
Commands.erase(CanonPath);
}
OnCommandChanged.broadcast({CanonPath});
}
DelegatingCDB::DelegatingCDB(const GlobalCompilationDatabase *Base)
: Base(Base) {
if (Base)
BaseChanged = Base->watch([this](const std::vector<std::string> Changes) {
OnCommandChanged.broadcast(Changes);
});
}
DelegatingCDB::DelegatingCDB(std::unique_ptr<GlobalCompilationDatabase> Base)
: DelegatingCDB(Base.get()) {
BaseOwner = std::move(Base);
}
llvm::Optional<tooling::CompileCommand>
DelegatingCDB::getCompileCommand(PathRef File) const {
if (!Base)
return llvm::None;
return Base->getCompileCommand(File);
}
llvm::Optional<ProjectInfo> DelegatingCDB::getProjectInfo(PathRef File) const {
if (!Base)
return llvm::None;
return Base->getProjectInfo(File);
}
tooling::CompileCommand DelegatingCDB::getFallbackCommand(PathRef File) const {
if (!Base)
return GlobalCompilationDatabase::getFallbackCommand(File);
return Base->getFallbackCommand(File);
}
bool DelegatingCDB::blockUntilIdle(Deadline D) const {
if (!Base)
return true;
return Base->blockUntilIdle(D);
}
} // namespace clangd
} // namespace clang