private void executeDelete(@NotNull VirtualFile file) { if (!file.exists()) { LOG.error("Deleting a file, which does not exist: " + file.getPath()); return; } clearIdCache(); int id = getFileId(file); final VirtualFile parent = file.getParent(); final int parentId = parent == null ? 0 : getFileId(parent); if (parentId == 0) { String rootUrl = normalizeRootUrl(file.getPath(), (NewVirtualFileSystem) file.getFileSystem()); myRootsLock.writeLock().lock(); try { myRoots.remove(rootUrl); myRootsById.remove(id); FSRecords.deleteRootRecord(id); } finally { myRootsLock.writeLock().unlock(); } } else { removeIdFromParentList(parentId, id, parent, file); VirtualDirectoryImpl directory = (VirtualDirectoryImpl) file.getParent(); assert directory != null : file; directory.removeChild(file); } FSRecords.deleteRecordRecursively(id); invalidateSubtree(file); }
@Nullable private VirtualFileSystemEntry findFileById( int id, boolean cachedOnly, TIntArrayList visited, int mask) { VirtualFileSystemEntry cached = myIdToDirCache.get(id); if (cached != null) return cached; if (visited != null && (visited.size() >= DEPTH_LIMIT || (mask & id) == id && visited.contains(id))) { @NonNls String sb = "Dead loop detected in persistent FS (id=" + id + " cached-only=" + cachedOnly + "):"; for (int i = 0; i < visited.size(); i++) { int _id = visited.get(i); sb += "\n " + _id + " '" + getName(_id) + "' " + String.format("%02x", getFileAttributes(_id)) + ' ' + myIdToDirCache.containsKey(_id); } LOG.error(sb); return null; } int parentId = getParent(id); if (parentId >= id) { if (visited == null) visited = new TIntArrayList(DEPTH_LIMIT); } if (visited != null) visited.add(id); VirtualFileSystemEntry result; if (parentId == 0) { myRootsLock.readLock().lock(); try { result = myRootsById.get(id); } finally { myRootsLock.readLock().unlock(); } } else { VirtualFileSystemEntry parentFile = findFileById(parentId, cachedOnly, visited, mask | id); if (parentFile instanceof VirtualDirectoryImpl) { result = ((VirtualDirectoryImpl) parentFile).findChildById(id, cachedOnly); } else { result = null; } } if (result != null && result.isDirectory()) { VirtualFileSystemEntry old = myIdToDirCache.put(id, result); if (old != null) result = old; } return result; }
@Override @Nullable public VirtualFileSystemEntry findRoot( @NotNull String basePath, @NotNull NewVirtualFileSystem fs) { if (basePath.isEmpty()) { LOG.error("Invalid root, fs=" + fs); return null; } String rootUrl = normalizeRootUrl(basePath, fs); myRootsLock.readLock().lock(); try { VirtualFileSystemEntry root = myRoots.get(rootUrl); if (root != null) return root; } finally { myRootsLock.readLock().unlock(); } final VirtualFileSystemEntry newRoot; int rootId = FSRecords.findRootRecord(rootUrl); VfsData.Segment segment = VfsData.getSegment(rootId, true); VfsData.DirectoryData directoryData = new VfsData.DirectoryData(); if (fs instanceof ArchiveFileSystem) { String parentPath = basePath.substring(0, basePath.indexOf(ArchiveFileSystem.ARCHIVE_SEPARATOR)); VirtualFile parentFile = LocalFileSystem.getInstance().findFileByPath(parentPath); if (parentFile == null) return null; FileType type = FileTypeRegistry.getInstance().getFileTypeByFileName(parentFile.getName()); if (!(type instanceof ArchiveFileType)) return null; newRoot = new ArchiveRoot(fs, rootId, segment, directoryData, parentFile); } else { newRoot = new FsRoot(fs, rootId, segment, directoryData, basePath); } FileAttributes attributes = fs.getAttributes( new StubVirtualFile() { @NotNull @Override public String getPath() { return newRoot.getPath(); } @Nullable @Override public VirtualFile getParent() { return null; } }); if (attributes == null || !attributes.isDirectory()) { return null; } boolean mark = false; myRootsLock.writeLock().lock(); try { VirtualFileSystemEntry root = myRoots.get(rootUrl); if (root != null) return root; VfsData.initFile(rootId, segment, -1, directoryData); mark = writeAttributesToRecord(rootId, 0, newRoot, fs, attributes); myRoots.put(rootUrl, newRoot); myRootsById.put(rootId, newRoot); } finally { myRootsLock.writeLock().unlock(); } if (!mark && attributes.lastModified != FSRecords.getTimestamp(rootId)) { newRoot.markDirtyRecursively(); } LOG.assertTrue( rootId == newRoot.getId(), "root=" + newRoot + " expected=" + rootId + " actual=" + newRoot.getId()); return newRoot; }
@Override @Nullable public VirtualFileSystemEntry findRoot( @NotNull String basePath, @NotNull NewVirtualFileSystem fs) { String rootUrl = normalizeRootUrl(basePath, fs); boolean isFakeRoot = basePath.isEmpty(); VirtualFileSystemEntry root; myRootsLock.readLock().lock(); try { root = isFakeRoot ? mySuperRoot : myRoots.get(rootUrl); if (root != null) return root; } finally { myRootsLock.readLock().unlock(); } myRootsLock.writeLock().lock(); try { root = isFakeRoot ? mySuperRoot : myRoots.get(rootUrl); if (root != null) return root; int rootId = FSRecords.findRootRecord(rootUrl); root = myRootsById.get(rootId); if (root != null) return root; if (isFakeRoot) { // fake super-root root = new FakeRoot(fs, rootId); } else if (fs instanceof JarFileSystem) { // optimization: for jar roots do not store base path in the myName field, use local FS // file's getPath() String parentPath = basePath.substring(0, basePath.indexOf(JarFileSystem.JAR_SEPARATOR)); VirtualFile parentLocalFile = LocalFileSystem.getInstance().findFileByPath(parentPath); if (parentLocalFile == null) return null; // check one more time since the findFileByPath could have created the root (by reentering // the findRoot) root = myRoots.get(rootUrl); if (root != null) return root; root = myRootsById.get(rootId); if (root != null) return root; root = new JarRoot(fs, rootId, parentLocalFile); } else { root = new FsRoot(fs, rootId, basePath); } if (isFakeRoot) { mySuperRoot = root; } else { FileAttributes attributes = fs.getAttributes(root); if (attributes == null || !attributes.isDirectory()) { return null; } final boolean newRoot = writeAttributesToRecord(rootId, 0, root, fs, attributes); if (!newRoot && attributes.lastModified != FSRecords.getTimestamp(rootId)) { root.markDirtyRecursively(); } myRoots.put(rootUrl, root); myRootsById.put(rootId, root); if (rootId != root.getId()) throw new AssertionError(); } return root; } finally { myRootsLock.writeLock().unlock(); } }