Mercurial > hg > easyhg
view src/fswatcher.cpp @ 670:8f3075eeaac2 qt5
Attempt to fix library paths for PyQt libraries. Doesn't seem to be sufficient.
author | Chris Cannam |
---|---|
date | Fri, 27 May 2016 11:02:53 +0100 |
parents | a03264984ef8 |
children | 646e48a0d3a5 |
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/* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */ /* EasyMercurial Based on hgExplorer by Jari Korhonen Copyright (c) 2010 Jari Korhonen Copyright (c) 2013 Chris Cannam Copyright (c) 2013 Queen Mary, University of London This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. See the file COPYING included with this distribution for more information. */ #include <QMutexLocker> #include <QDir> #ifdef Q_OS_MAC // Must include this before debug.h #include <CoreServices/CoreServices.h> #endif #include "fswatcher.h" #include "debug.h" #include <deque> //#define DEBUG_FSWATCHER 1 /* * Watching the filesystem is trickier than it seems at first glance. * * We ideally should watch every directory, and every file that is * tracked by Hg. If a new file is created in a directory, then we * need to respond in order to show it as a potential candidate to be * added. * * Complicating matters though is that Hg itself might modify the * filesystem. This can happen even in "read-only" operations: for * example, hg stat creates files called hg-checklink and hg-checkexec * to test properties of the filesystem. So we need to know to ignore * those files; unfortunately, when watching a directory (which is how * we find out about the creation of new files) we are notified only * that the directory has changed -- we aren't told what changed. * * This means that, when a directory changes, we need to rescan the * directory to learn whether the set of files in it _excluding_ files * matching our ignore patterns differs from the previous scan, and * ignore the change if it doesn't. * */ /* * 20120312 -- Another complication. The documentation for * QFileSystemWatcher says: * * On Mac OS X 10.4 [...] an open file descriptor is required for * each monitored file. [...] This means that addPath() and * addPaths() will fail if your process tries to add more than 256 * files or directories to the file system monitor [...] Mac OS X * 10.5 and up use a different backend and do not suffer from this * issue. * * Unfortunately, the last sentence above is not true: * http://qt.gitorious.org/qt/qt/commit/6d1baf9979346d6f15da81a535becb4046278962 * ("Removing the usage of FSEvents-based backend for now as it has a * few bugs..."). It can't be restored without hacking the Qt source, * which we don't want to do in this context. The commit log doesn't * make clear how serious the bugs were -- an example is given but it * doesn't indicate whether it's an edge case or a common case and * whether the result was a crash or failure to notify. * * This means the Qt class uses kqueue instead on OS/X, but that * doesn't really work for us -- it can only monitor 256 files (or * whatever the fd ulimit is set to, but that's the default) and it * doesn't notify if a file within a directory is modified unless the * metadata changes. The main limitation of FSEvents is that it only * notifies with directory granularity, but that might be OK for us so * long as notifications are actually provoked by file changes as * well. (In OS/X 10.7 there appear to be file-level notifications * too, but that doesn't help us.) * * One other problem with FSEvents is that the API only exists on OS/X * 10.5 or newer -- on older versions we would have no option but to * use kqueue via QFileSystemWatcher. But we can't ship a binary * linked with the FSEvents API to run on 10.4 without some fiddling, * and I'm not really keen to do that either. That may be our cue to * drop 10.4 support for EasyMercurial. */ FsWatcher::FsWatcher() : m_lastToken(0), m_lastCounter(0) { #ifdef Q_OS_MAC m_stream = 0; // create when we have a path #else connect(&m_watcher, SIGNAL(directoryChanged(QString)), this, SLOT(fsDirectoryChanged(QString))); connect(&m_watcher, SIGNAL(fileChanged(QString)), this, SLOT(fsFileChanged(QString))); #endif } FsWatcher::~FsWatcher() { } void FsWatcher::setWorkDirPath(QString path) { QMutexLocker locker(&m_mutex); if (m_workDirPath == path) return; clearWatchedPaths(); m_workDirPath = path; addWorkDirectory(path); debugPrint(); } void FsWatcher::clearWatchedPaths() { #ifdef Q_OS_MAC FSEventStreamRef stream = (FSEventStreamRef)m_stream; if (stream) { FSEventStreamStop(stream); FSEventStreamInvalidate(stream); FSEventStreamRelease(stream); } m_stream = 0; #else // annoyingly, removePaths prints a warning if given an empty list if (!m_watcher.directories().empty()) { m_watcher.removePaths(m_watcher.directories()); } if (!m_watcher.files().empty()) { m_watcher.removePaths(m_watcher.files()); } #endif } #ifdef Q_OS_MAC static void fsEventsCallback(ConstFSEventStreamRef streamRef, void *clientCallBackInfo, size_t numEvents, void *paths, const FSEventStreamEventFlags eventFlags[], const FSEventStreamEventId eventIDs[]) { FsWatcher *watcher = reinterpret_cast<FsWatcher *>(clientCallBackInfo); const char *const *cpaths = reinterpret_cast<const char *const *>(paths); for (size_t i = 0; i < numEvents; ++i) { #ifdef DEBUG_FSWATCHER std::cerr << "path " << i << " = " << cpaths[i] << std::endl; #endif watcher->fsDirectoryChanged(QString::fromLocal8Bit(cpaths[i])); } } #endif void FsWatcher::addWorkDirectory(QString path) { #ifdef Q_OS_MAC CFStringRef cfPath = CFStringCreateWithCharacters (0, reinterpret_cast<const UniChar *>(path.unicode()), path.length()); CFArrayRef cfPaths = CFArrayCreate(0, (const void **)&cfPath, 1, 0); FSEventStreamContext ctx = { 0, 0, 0, 0, 0 }; ctx.info = this; FSEventStreamRef stream = FSEventStreamCreate(kCFAllocatorDefault, &fsEventsCallback, &ctx, cfPaths, kFSEventStreamEventIdSinceNow, 1.0, // latency, seconds kFSEventStreamCreateFlagNone); m_stream = stream; FSEventStreamScheduleWithRunLoop(stream, CFRunLoopGetCurrent(), kCFRunLoopDefaultMode); if (!FSEventStreamStart(stream)) { std::cerr << "ERROR: FsWatcher::addWorkDirectory: Failed to start FSEvent stream" << std::endl; } #else // QFileSystemWatcher will refuse to add a file or directory to // its watch list that it is already watching -- fine -- but it // prints a warning when this happens, which we wouldn't want. So // we'll check for duplicates ourselves. QSet<QString> alreadyWatched = QSet<QString>::fromList(m_watcher.directories()); std::deque<QString> pending; pending.push_back(path); while (!pending.empty()) { QString path = pending.front(); pending.pop_front(); if (!alreadyWatched.contains(path)) { m_watcher.addPath(path); m_dirContents[path] = scanDirectory(path); } QDir d(path); if (d.exists()) { d.setFilter(QDir::Dirs | QDir::NoDotAndDotDot | QDir::Readable | QDir::NoSymLinks); foreach (QString entry, d.entryList()) { if (entry.startsWith('.')) continue; QString entryPath = d.absoluteFilePath(entry); pending.push_back(entryPath); } } } #endif } void FsWatcher::setTrackedFilePaths(QStringList paths) { #ifdef Q_OS_MAC // FSEvents will notify when any file in the directory changes, // but we need to be able to check whether the file change was // meaningful to us if it didn't result in any files being added // or removed -- and we have to do that by examining timestamps on // the files we care about foreach (QString p, paths) { m_trackedFileUpdates[p] = QDateTime::currentDateTime(); } #else QMutexLocker locker(&m_mutex); QSet<QString> alreadyWatched = QSet<QString>::fromList(m_watcher.files()); foreach (QString path, paths) { path = m_workDirPath + QDir::separator() + path; if (!alreadyWatched.contains(path)) { m_watcher.addPath(path); } else { alreadyWatched.remove(path); } } // Remove the remaining paths, those that were being watched // before but that are not in the list we were given foreach (QString path, alreadyWatched) { m_watcher.removePath(path); } debugPrint(); #endif } void FsWatcher::setIgnoredFilePrefixes(QStringList prefixes) { QMutexLocker locker(&m_mutex); m_ignoredPrefixes = prefixes; } void FsWatcher::setIgnoredFileSuffixes(QStringList suffixes) { QMutexLocker locker(&m_mutex); m_ignoredSuffixes = suffixes; } int FsWatcher::getNewToken() { QMutexLocker locker(&m_mutex); int token = ++m_lastToken; m_tokenMap[token] = m_lastCounter; return token; } QSet<QString> FsWatcher::getChangedPaths(int token) { QMutexLocker locker(&m_mutex); size_t lastUpdatedAt = m_tokenMap[token]; QSet<QString> changed; for (QHash<QString, size_t>::const_iterator i = m_changes.begin(); i != m_changes.end(); ++i) { if (i.value() > lastUpdatedAt) { changed.insert(i.key()); } } m_tokenMap[token] = m_lastCounter; return changed; } void FsWatcher::fsDirectoryChanged(QString path) { bool haveChanges = false; { QMutexLocker locker(&m_mutex); if (shouldIgnore(path)) return; QSet<QString> files = scanDirectory(path); if (files == m_dirContents[path]) { #ifdef DEBUG_FSWATCHER std::cerr << "FsWatcher: Directory " << path << " has changed, but not in a way that we are monitoring -- doing manual check" << std::endl; #endif #ifdef Q_OS_MAC haveChanges = manuallyCheckTrackedFiles(); #endif } else { #ifdef DEBUG_FSWATCHER std::cerr << "FsWatcher: Directory " << path << " has changed" << std::endl; #endif m_dirContents[path] = files; size_t counter = ++m_lastCounter; m_changes[path] = counter; haveChanges = true; } } if (haveChanges) { emit changed(); } } void FsWatcher::fsFileChanged(QString path) { { QMutexLocker locker(&m_mutex); // We don't check whether the file matches an ignore pattern, // because we are only notified for file changes if we are // watching the file explicitly, i.e. the file is in the // tracked file paths list. So we never want to ignore these #ifdef DEBUG_FSWATCHER std::cerr << "FsWatcher: Tracked file " << path << " has changed" << std::endl; #endif size_t counter = ++m_lastCounter; m_changes[path] = counter; } emit changed(); } #ifdef Q_OS_MAC bool FsWatcher::manuallyCheckTrackedFiles() { #ifdef DEBUG_FSWATCHER std::cerr << "FsWatcher::manuallyCheckTrackedFiles" << std::endl; #endif bool foundChanges = false; for (PathTimeMap::iterator i = m_trackedFileUpdates.begin(); i != m_trackedFileUpdates.end(); ++i) { QString path = i.key(); QDateTime prevUpdate = i.value(); QFileInfo fi(m_workDirPath + QDir::separator() + path); QDateTime currUpdate = fi.lastModified(); // std::cerr << "FsWatcher: Tracked file " << path << " previously changed at " // << prevUpdate.toString().toStdString() // << ", currently at " << currUpdate.toString().toStdString() << std::endl; if (currUpdate > prevUpdate) { #ifdef DEBUG_FSWATCHER std::cerr << "FsWatcher: Tracked file " << path << " has been changed since last check" << std::endl; #endif i.value() = currUpdate; size_t counter = ++m_lastCounter; m_changes[path] = counter; foundChanges = true; } } return foundChanges; } #endif bool FsWatcher::shouldIgnore(QString path) { QFileInfo fi(path); QString fn(fi.fileName()); foreach (QString pfx, m_ignoredPrefixes) { if (fn.startsWith(pfx)) { #ifdef DEBUG_FSWATCHER std::cerr << "(ignoring: " << path << ")" << std::endl; #endif return true; } } foreach (QString sfx, m_ignoredSuffixes) { if (fn.endsWith(sfx)) { #ifdef DEBUG_FSWATCHER std::cerr << "(ignoring: " << path << ")" << std::endl; #endif return true; } } return false; } QSet<QString> FsWatcher::scanDirectory(QString path) { QSet<QString> files; QDir d(path); if (d.exists()) { d.setFilter(QDir::Files | QDir::NoDotAndDotDot | QDir::Readable | QDir::NoSymLinks); foreach (QString entry, d.entryList()) { if (entry.startsWith('.')) continue; if (shouldIgnore(entry)) continue; files.insert(entry); } } return files; } void FsWatcher::debugPrint() { #ifdef DEBUG_FSWATCHER #ifndef Q_OS_MAC std::cerr << "FsWatcher: Now watching " << m_watcher.directories().size() << " directories and " << m_watcher.files().size() << " files" << std::endl; #endif #endif }