private void applyChildrenChangeEvents(VirtualFile parent, List<VFileEvent> events) {
final NewVirtualFileSystem delegate = getDelegate(parent);
TIntArrayList childrenIdsUpdated = new TIntArrayList();
List<VirtualFile> childrenToBeUpdated = new SmartList<VirtualFile>();
assert parent != null && parent != mySuperRoot;
final int parentId = getFileId(parent);
assert parentId != 0;
TIntHashSet parentChildrenIds = new TIntHashSet(FSRecords.list(parentId));
boolean hasRemovedChildren = false;
for (VFileEvent event : events) {
if (event instanceof VFileCreateEvent) {
String name = ((VFileCreateEvent) event).getChildName();
final VirtualFile fake = new FakeVirtualFile(parent, name);
final FileAttributes attributes = delegate.getAttributes(fake);
if (attributes != null) {
final int childId = createAndFillRecord(delegate, fake, parentId, attributes);
assert parent instanceof VirtualDirectoryImpl : parent;
final VirtualDirectoryImpl dir = (VirtualDirectoryImpl) parent;
VirtualFileSystemEntry child = dir.createChild(name, childId, dir.getFileSystem());
childrenToBeUpdated.add(child);
childrenIdsUpdated.add(childId);
parentChildrenIds.add(childId);
}
} else if (event instanceof VFileDeleteEvent) {
VirtualFile file = ((VFileDeleteEvent) event).getFile();
if (!file.exists()) {
LOG.error("Deleting a file, which does not exist: " + file.getPath());
continue;
}
hasRemovedChildren = true;
int id = getFileId(file);
childrenToBeUpdated.add(file);
childrenIdsUpdated.add(-id);
parentChildrenIds.remove(id);
}
}
FSRecords.updateList(parentId, parentChildrenIds.toArray());
if (hasRemovedChildren) clearIdCache();
VirtualDirectoryImpl parentImpl = (VirtualDirectoryImpl) parent;
for (int i = 0, len = childrenIdsUpdated.size(); i < len; ++i) {
final int childId = childrenIdsUpdated.get(i);
final VirtualFile childFile = childrenToBeUpdated.get(i);
if (childId > 0) {
parentImpl.addChild((VirtualFileSystemEntry) childFile);
} else {
FSRecords.deleteRecordRecursively(-childId);
parentImpl.removeChild(childFile);
invalidateSubtree(childFile);
}
}
}
@Override
public void deleteFile(final Object requestor, @NotNull final VirtualFile file)
throws IOException {
final NewVirtualFileSystem delegate = getDelegate(file);
delegate.deleteFile(requestor, file);
if (!delegate.exists(file)) {
processEvent(new VFileDeleteEvent(requestor, file, false));
}
}
private static void executeTouch(
@NotNull VirtualFile file, boolean reloadContentFromDelegate, long newModificationStamp) {
if (reloadContentFromDelegate) {
setFlag(file, MUST_RELOAD_CONTENT, true);
}
final NewVirtualFileSystem delegate = getDelegate(file);
final FileAttributes attributes = delegate.getAttributes(file);
FSRecords.setLength(getFileId(file), attributes != null ? attributes.length : DEFAULT_LENGTH);
FSRecords.setTimestamp(
getFileId(file), attributes != null ? attributes.lastModified : DEFAULT_TIMESTAMP);
((VirtualFileSystemEntry) file).setModificationStamp(newModificationStamp);
}
@Override
public int getId(
@NotNull VirtualFile parent, @NotNull String childName, @NotNull NewVirtualFileSystem fs) {
int parentId = getFileId(parent);
int[] children = FSRecords.list(parentId);
if (children.length > 0) {
// fast path, check that some child has same nameId as given name, this avoid O(N) on
// retrieving names for processing non-cached children
int nameId = FSRecords.getNameId(childName);
for (final int childId : children) {
if (nameId == FSRecords.getNameId(childId)) {
return childId;
}
}
// for case sensitive system the above check is exhaustive in consistent state of vfs
}
for (final int childId : children) {
if (namesEqual(fs, childName, FSRecords.getName(childId))) return childId;
}
final VirtualFile fake = new FakeVirtualFile(parent, childName);
final FileAttributes attributes = fs.getAttributes(fake);
if (attributes != null) {
final int child = createAndFillRecord(fs, fake, parentId, attributes);
FSRecords.updateList(parentId, ArrayUtil.append(children, child));
return child;
}
return 0;
}
@Override
@NotNull
public InputStream getInputStream(@NotNull final VirtualFile file) throws IOException {
synchronized (myInputLock) {
InputStream contentStream;
if (mustReloadContent(file) || (contentStream = readContent(file)) == null) {
NewVirtualFileSystem delegate = getDelegate(file);
long len = reloadLengthFromDelegate(file, delegate);
InputStream nativeStream = delegate.getInputStream(file);
if (len > PersistentFSConstants.FILE_LENGTH_TO_CACHE_THRESHOLD) return nativeStream;
return createReplicator(file, nativeStream, len, delegate.isReadOnly());
} else {
return contentStream;
}
}
}
private static VirtualFileSystemEntry executeCreateChild(
@NotNull VirtualFile parent, @NotNull String name) {
final NewVirtualFileSystem delegate = getDelegate(parent);
final VirtualFile fake = new FakeVirtualFile(parent, name);
final FileAttributes attributes = delegate.getAttributes(fake);
if (attributes != null) {
final int parentId = getFileId(parent);
final int childId = createAndFillRecord(delegate, fake, parentId, attributes);
appendIdToParentList(parentId, childId);
assert parent instanceof VirtualDirectoryImpl : parent;
final VirtualDirectoryImpl dir = (VirtualDirectoryImpl) parent;
VirtualFileSystemEntry child = dir.createChild(name, childId, dir.getFileSystem());
dir.addChild(child);
return child;
}
return null;
}
@NotNull
private static String normalizeRootUrl(
@NotNull String basePath, @NotNull NewVirtualFileSystem fs) {
// need to protect against relative path of the form "/x/../y"
return UriUtil.trimTrailingSlashes(
fs.getProtocol()
+ URLUtil.SCHEME_SEPARATOR
+ VfsImplUtil.normalize(fs, FileUtil.toCanonicalPath(basePath)));
}
@NotNull
private FSRecords.NameId[] persistAllChildren(
@NotNull final VirtualFile file, final int id, @NotNull FSRecords.NameId[] current) {
assert file != mySuperRoot;
final NewVirtualFileSystem fs = replaceWithNativeFS(getDelegate(file));
String[] delegateNames = VfsUtil.filterNames(fs.list(file));
if (delegateNames.length == 0 && current.length > 0) {
return current;
}
Set<String> toAdd = ContainerUtil.newHashSet(delegateNames);
for (FSRecords.NameId nameId : current) {
toAdd.remove(nameId.name);
}
final TIntArrayList childrenIds = new TIntArrayList(current.length + toAdd.size());
final List<FSRecords.NameId> nameIds =
ContainerUtil.newArrayListWithExpectedSize(current.length + toAdd.size());
for (FSRecords.NameId nameId : current) {
childrenIds.add(nameId.id);
nameIds.add(nameId);
}
for (String newName : toAdd) {
FakeVirtualFile child = new FakeVirtualFile(file, newName);
FileAttributes attributes = fs.getAttributes(child);
if (attributes != null) {
int childId = createAndFillRecord(fs, child, id, attributes);
childrenIds.add(childId);
nameIds.add(new FSRecords.NameId(childId, FileNameCache.storeName(newName), newName));
}
}
FSRecords.updateList(id, childrenIds.toNativeArray());
setChildrenCached(id);
return nameIds.toArray(new FSRecords.NameId[nameIds.size()]);
}
@Override
@NotNull
public byte[] contentsToByteArray(@NotNull final VirtualFile file, boolean cacheContent)
throws IOException {
InputStream contentStream = null;
boolean reloadFromDelegate;
boolean outdated;
int fileId;
synchronized (myInputLock) {
fileId = getFileId(file);
outdated = checkFlag(fileId, MUST_RELOAD_CONTENT) || FSRecords.getLength(fileId) == -1L;
reloadFromDelegate = outdated || (contentStream = readContent(file)) == null;
}
if (reloadFromDelegate) {
final NewVirtualFileSystem delegate = getDelegate(file);
final byte[] content;
if (outdated) {
// in this case, file can have out-of-date length. so, update it first (it's needed for
// correct contentsToByteArray() work)
// see IDEA-90813 for possible bugs
FSRecords.setLength(fileId, delegate.getLength(file));
content = delegate.contentsToByteArray(file);
} else {
// a bit of optimization
content = delegate.contentsToByteArray(file);
FSRecords.setLength(fileId, content.length);
}
ApplicationEx application = (ApplicationEx) ApplicationManager.getApplication();
// we should cache every local files content
// because the local history feature is currently depends on this cache,
// perforce offline mode as well
if ((!delegate.isReadOnly()
||
// do not cache archive content unless asked
cacheContent && !application.isInternal() && !application.isUnitTestMode())
&& content.length <= PersistentFSConstants.FILE_LENGTH_TO_CACHE_THRESHOLD) {
synchronized (myInputLock) {
writeContent(file, new ByteSequence(content), delegate.isReadOnly());
setFlag(file, MUST_RELOAD_CONTENT, false);
}
}
return content;
} else {
try {
final int length = (int) file.getLength();
assert length >= 0 : file;
return FileUtil.loadBytes(contentStream, length);
} catch (IOException e) {
throw FSRecords.handleError(e);
}
}
}
@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;
}
private static long reloadLengthFromDelegate(
@NotNull VirtualFile file, @NotNull NewVirtualFileSystem delegate) {
final long len = delegate.getLength(file);
FSRecords.setLength(getFileId(file), len);
return len;
}
@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();
}
}