//===- DirectoryWatcher-linux.cpp - Linux-platform directory watching -----===// // // 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 "DirectoryScanner.h" #include "clang/DirectoryWatcher/DirectoryWatcher.h" #include "llvm/ADT/STLExtras.h" #include "llvm/ADT/ScopeExit.h" #include "llvm/Support/AlignOf.h" #include "llvm/Support/Errno.h" #include "llvm/Support/Mutex.h" #include "llvm/Support/Path.h" #include #include #include #include #include #include #include #include #include #include #include #include namespace { using namespace llvm; using namespace clang; /// Pipe for inter-thread synchronization - for epoll-ing on multiple /// conditions. It is meant for uni-directional 1:1 signalling - specifically: /// no multiple consumers, no data passing. Thread waiting for signal should /// poll the FDRead. Signalling thread should call signal() which writes single /// character to FDRead. struct SemaphorePipe { // Expects two file-descriptors opened as a pipe in the canonical POSIX // order: pipefd[0] refers to the read end of the pipe. pipefd[1] refers to // the write end of the pipe. SemaphorePipe(int pipefd[2]) : FDRead(pipefd[0]), FDWrite(pipefd[1]), OwnsFDs(true) {} SemaphorePipe(const SemaphorePipe &) = delete; void operator=(const SemaphorePipe &) = delete; SemaphorePipe(SemaphorePipe &&other) : FDRead(other.FDRead), FDWrite(other.FDWrite), OwnsFDs(other.OwnsFDs) // Someone could have moved from the other // instance before. { other.OwnsFDs = false; }; void signal() { #ifndef NDEBUG ssize_t Result = #endif llvm::sys::RetryAfterSignal(-1, write, FDWrite, "A", 1); assert(Result != -1); } ~SemaphorePipe() { if (OwnsFDs) { close(FDWrite); close(FDRead); } } const int FDRead; const int FDWrite; bool OwnsFDs; static llvm::Optional create() { int InotifyPollingStopperFDs[2]; if (pipe2(InotifyPollingStopperFDs, O_CLOEXEC) == -1) return llvm::None; return SemaphorePipe(InotifyPollingStopperFDs); } }; /// Mutex-protected queue of Events. class EventQueue { std::mutex Mtx; std::condition_variable NonEmpty; std::queue Events; public: void push_back(const DirectoryWatcher::Event::EventKind K, StringRef Filename) { { std::unique_lock L(Mtx); Events.emplace(K, Filename); } NonEmpty.notify_one(); } // Blocks on caller thread and uses codition_variable to wait until there's an // event to return. DirectoryWatcher::Event pop_front_blocking() { std::unique_lock L(Mtx); while (true) { // Since we might have missed all the prior notifications on NonEmpty we // have to check the queue first (under lock). if (!Events.empty()) { DirectoryWatcher::Event Front = Events.front(); Events.pop(); return Front; } NonEmpty.wait(L, [this]() { return !Events.empty(); }); } } }; class DirectoryWatcherLinux : public clang::DirectoryWatcher { public: DirectoryWatcherLinux( llvm::StringRef WatchedDirPath, std::function, bool)> Receiver, bool WaitForInitialSync, int InotifyFD, int InotifyWD, SemaphorePipe &&InotifyPollingStopSignal); ~DirectoryWatcherLinux() override { StopWork(); InotifyPollingThread.join(); EventsReceivingThread.join(); inotify_rm_watch(InotifyFD, InotifyWD); llvm::sys::RetryAfterSignal(-1, close, InotifyFD); } private: const std::string WatchedDirPath; // inotify file descriptor int InotifyFD = -1; // inotify watch descriptor int InotifyWD = -1; EventQueue Queue; // Make sure lifetime of Receiver fully contains lifetime of // EventsReceivingThread. std::function, bool)> Receiver; // Consumes inotify events and pushes directory watcher events to the Queue. void InotifyPollingLoop(); std::thread InotifyPollingThread; // Using pipe so we can epoll two file descriptors at once - inotify and // stopping condition. SemaphorePipe InotifyPollingStopSignal; // Does the initial scan of the directory - directly calling Receiver, // bypassing the Queue. Both InitialScan and EventReceivingLoop use Receiver // which isn't necessarily thread-safe. void InitialScan(); // Processing events from the Queue. // In case client doesn't want to do the initial scan synchronously // (WaitForInitialSync=false in ctor) we do the initial scan at the beginning // of this thread. std::thread EventsReceivingThread; // Push event of WatcherGotInvalidated kind to the Queue to stop the loop. // Both InitialScan and EventReceivingLoop use Receiver which isn't // necessarily thread-safe. void EventReceivingLoop(); // Stops all the async work. Reentrant. void StopWork() { Queue.push_back(DirectoryWatcher::Event::EventKind::WatcherGotInvalidated, ""); InotifyPollingStopSignal.signal(); } }; void DirectoryWatcherLinux::InotifyPollingLoop() { // We want to be able to read ~30 events at once even in the worst case // (obscenely long filenames). constexpr size_t EventBufferLength = 30 * (sizeof(struct inotify_event) + NAME_MAX + 1); // http://man7.org/linux/man-pages/man7/inotify.7.html // Some systems cannot read integer variables if they are not // properly aligned. On other systems, incorrect alignment may // decrease performance. Hence, the buffer used for reading from // the inotify file descriptor should have the same alignment as // struct inotify_event. auto ManagedBuffer = llvm::make_unique>(); char *const Buf = ManagedBuffer->buffer; const int EpollFD = epoll_create1(EPOLL_CLOEXEC); if (EpollFD == -1) { StopWork(); return; } auto EpollFDGuard = llvm::make_scope_exit([EpollFD]() { close(EpollFD); }); struct epoll_event EventSpec; EventSpec.events = EPOLLIN; EventSpec.data.fd = InotifyFD; if (epoll_ctl(EpollFD, EPOLL_CTL_ADD, InotifyFD, &EventSpec) == -1) { StopWork(); return; } EventSpec.data.fd = InotifyPollingStopSignal.FDRead; if (epoll_ctl(EpollFD, EPOLL_CTL_ADD, InotifyPollingStopSignal.FDRead, &EventSpec) == -1) { StopWork(); return; } std::array EpollEventBuffer; while (true) { const int EpollWaitResult = llvm::sys::RetryAfterSignal( -1, epoll_wait, EpollFD, EpollEventBuffer.data(), EpollEventBuffer.size(), /*timeout=*/-1 /*== infinity*/); if (EpollWaitResult == -1) { StopWork(); return; } // Multiple epoll_events can be received for a single file descriptor per // epoll_wait call. for (int i = 0; i < EpollWaitResult; ++i) { if (EpollEventBuffer[i].data.fd == InotifyPollingStopSignal.FDRead) { StopWork(); return; } } // epoll_wait() always return either error or >0 events. Since there was no // event for stopping, it must be an inotify event ready for reading. ssize_t NumRead = llvm::sys::RetryAfterSignal(-1, read, InotifyFD, Buf, EventBufferLength); for (char *P = Buf; P < Buf + NumRead;) { if (P + sizeof(struct inotify_event) > Buf + NumRead) { StopWork(); llvm_unreachable("an incomplete inotify_event was read"); return; } struct inotify_event *Event = reinterpret_cast(P); P += sizeof(struct inotify_event) + Event->len; if (Event->mask & (IN_CREATE | IN_MODIFY | IN_MOVED_TO | IN_DELETE) && Event->len <= 0) { StopWork(); llvm_unreachable("expected a filename from inotify"); return; } if (Event->mask & (IN_CREATE | IN_MOVED_TO | IN_MODIFY)) { Queue.push_back(DirectoryWatcher::Event::EventKind::Modified, Event->name); } else if (Event->mask & (IN_DELETE | IN_MOVED_FROM)) { Queue.push_back(DirectoryWatcher::Event::EventKind::Removed, Event->name); } else if (Event->mask & (IN_DELETE_SELF | IN_MOVE_SELF)) { Queue.push_back(DirectoryWatcher::Event::EventKind::WatchedDirRemoved, ""); StopWork(); return; } else if (Event->mask & IN_IGNORED) { StopWork(); return; } else { StopWork(); llvm_unreachable("Unknown event type."); return; } } } } void DirectoryWatcherLinux::InitialScan() { this->Receiver(getAsFileEvents(scanDirectory(WatchedDirPath)), /*IsInitial=*/true); } void DirectoryWatcherLinux::EventReceivingLoop() { while (true) { DirectoryWatcher::Event Event = this->Queue.pop_front_blocking(); this->Receiver(Event, false); if (Event.Kind == DirectoryWatcher::Event::EventKind::WatcherGotInvalidated) { StopWork(); return; } } } DirectoryWatcherLinux::DirectoryWatcherLinux( StringRef WatchedDirPath, std::function, bool)> Receiver, bool WaitForInitialSync, int InotifyFD, int InotifyWD, SemaphorePipe &&InotifyPollingStopSignal) : WatchedDirPath(WatchedDirPath), InotifyFD(InotifyFD), InotifyWD(InotifyWD), Receiver(Receiver), InotifyPollingStopSignal(std::move(InotifyPollingStopSignal)) { InotifyPollingThread = std::thread([this]() { InotifyPollingLoop(); }); // We have no guarantees about thread safety of the Receiver which is being // used in both InitialScan and EventReceivingLoop. We shouldn't run these // only synchronously. if (WaitForInitialSync) { InitialScan(); EventsReceivingThread = std::thread([this]() { EventReceivingLoop(); }); } else { EventsReceivingThread = std::thread([this]() { // FIXME: We might want to terminate an async initial scan early in case // of a failure in EventsReceivingThread. InitialScan(); EventReceivingLoop(); }); } } } // namespace std::unique_ptr clang::DirectoryWatcher::create( StringRef Path, std::function, bool)> Receiver, bool WaitForInitialSync) { if (Path.empty()) return nullptr; const int InotifyFD = inotify_init1(IN_CLOEXEC); if (InotifyFD == -1) return nullptr; const int InotifyWD = inotify_add_watch( InotifyFD, Path.str().c_str(), IN_CREATE | IN_DELETE | IN_DELETE_SELF | IN_MODIFY | IN_MOVED_FROM | IN_MOVE_SELF | IN_MOVED_TO | IN_ONLYDIR | IN_IGNORED #if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,36) | IN_EXCL_UNLINK #endif ); if (InotifyWD == -1) return nullptr; auto InotifyPollingStopper = SemaphorePipe::create(); if (!InotifyPollingStopper) return nullptr; return llvm::make_unique( Path, Receiver, WaitForInitialSync, InotifyFD, InotifyWD, std::move(*InotifyPollingStopper)); }