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googlers / sop / jgit / 6f23210781666506bde36b48cf00ffc9506348b0 / . / org.eclipse.jgit / src / org / eclipse / jgit / internal / storage / file / RefDirectory.java
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/*
* Copyright (C) 2007, Dave Watson <dwatson@mimvista.com>
* Copyright (C) 2009-2010, Google Inc.
* Copyright (C) 2007, Robin Rosenberg <robin.rosenberg@dewire.com>
* Copyright (C) 2006, Shawn O. Pearce <spearce@spearce.org>
* and other copyright owners as documented in the project's IP log.
*
* This program and the accompanying materials are made available
* under the terms of the Eclipse Distribution License v1.0 which
* accompanies this distribution, is reproduced below, and is
* available at http://www.eclipse.org/org/documents/edl-v10.php
*
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or
* without modification, are permitted provided that the following
* conditions are met:
*
* - Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
*
* - Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials provided
* with the distribution.
*
* - Neither the name of the Eclipse Foundation, Inc. nor the
* names of its contributors may be used to endorse or promote
* products derived from this software without specific prior
* written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND
* CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES,
* INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
* CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
* STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
* ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
package org.eclipse.jgit.internal.storage.file;
import static org.eclipse.jgit.lib.Constants.CHARSET;
import static org.eclipse.jgit.lib.Constants.HEAD;
import static org.eclipse.jgit.lib.Constants.OBJECT_ID_STRING_LENGTH;
import static org.eclipse.jgit.lib.Constants.PACKED_REFS;
import static org.eclipse.jgit.lib.Constants.R_HEADS;
import static org.eclipse.jgit.lib.Constants.R_REFS;
import static org.eclipse.jgit.lib.Constants.R_TAGS;
import static org.eclipse.jgit.lib.Ref.Storage.LOOSE;
import static org.eclipse.jgit.lib.Ref.Storage.NEW;
import static org.eclipse.jgit.lib.Ref.Storage.PACKED;
import java.io.BufferedReader;
import java.io.File;
import java.io.FileInputStream;
import java.io.FileNotFoundException;
import java.io.IOException;
import java.io.InputStreamReader;
import java.io.InterruptedIOException;
import java.security.DigestInputStream;
import java.security.MessageDigest;
import java.text.MessageFormat;
import java.util.Arrays;
import java.util.Collection;
import java.util.Collections;
import java.util.LinkedList;
import java.util.List;
import java.util.Map;
import java.util.concurrent.atomic.AtomicInteger;
import java.util.concurrent.atomic.AtomicReference;
import org.eclipse.jgit.annotations.NonNull;
import org.eclipse.jgit.annotations.Nullable;
import org.eclipse.jgit.errors.InvalidObjectIdException;
import org.eclipse.jgit.errors.LockFailedException;
import org.eclipse.jgit.errors.MissingObjectException;
import org.eclipse.jgit.errors.ObjectWritingException;
import org.eclipse.jgit.events.RefsChangedEvent;
import org.eclipse.jgit.internal.JGitText;
import org.eclipse.jgit.lib.Constants;
import org.eclipse.jgit.lib.ObjectId;
import org.eclipse.jgit.lib.ObjectIdRef;
import org.eclipse.jgit.lib.Ref;
import org.eclipse.jgit.lib.RefComparator;
import org.eclipse.jgit.lib.RefDatabase;
import org.eclipse.jgit.lib.RefUpdate;
import org.eclipse.jgit.lib.RefWriter;
import org.eclipse.jgit.lib.Repository;
import org.eclipse.jgit.lib.SymbolicRef;
import org.eclipse.jgit.revwalk.RevObject;
import org.eclipse.jgit.revwalk.RevTag;
import org.eclipse.jgit.revwalk.RevWalk;
import org.eclipse.jgit.util.FS;
import org.eclipse.jgit.util.FileUtils;
import org.eclipse.jgit.util.IO;
import org.eclipse.jgit.util.RawParseUtils;
import org.eclipse.jgit.util.RefList;
import org.eclipse.jgit.util.RefMap;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
/**
* Traditional file system based {@link RefDatabase}.
* <p>
* This is the classical reference database representation for a Git repository.
* References are stored in two formats: loose, and packed.
* <p>
* Loose references are stored as individual files within the {@code refs/}
* directory. The file name matches the reference name and the file contents is
* the current {@link ObjectId} in string form.
* <p>
* Packed references are stored in a single text file named {@code packed-refs}.
* In the packed format, each reference is stored on its own line. This file
* reduces the number of files needed for large reference spaces, reducing the
* overall size of a Git repository on disk.
*/
public class RefDirectory extends RefDatabase {
private final static Logger LOG = LoggerFactory
.getLogger(RefDirectory.class);
/** Magic string denoting the start of a symbolic reference file. */
public static final String SYMREF = "ref: "; //$NON-NLS-1$
/** Magic string denoting the header of a packed-refs file. */
public static final String PACKED_REFS_HEADER = "# pack-refs with:"; //$NON-NLS-1$
/** If in the header, denotes the file has peeled data. */
public static final String PACKED_REFS_PEELED = " peeled"; //$NON-NLS-1$
/** The names of the additional refs supported by this class */
private static final String[] additionalRefsNames = new String[] {
Constants.MERGE_HEAD, Constants.FETCH_HEAD, Constants.ORIG_HEAD,
Constants.CHERRY_PICK_HEAD };
@SuppressWarnings("boxing")
private static final List<Integer> RETRY_SLEEP_MS =
Collections.unmodifiableList(Arrays.asList(0, 100, 200, 400, 800, 1600));
private final FileRepository parent;
private final File gitDir;
final File refsDir;
private final ReflogWriter logWriter;
final File packedRefsFile;
/**
* Immutable sorted list of loose references.
* <p>
* Symbolic references in this collection are stored unresolved, that is
* their target appears to be a new reference with no ObjectId. These are
* converted into resolved references during a get operation, ensuring the
* live value is always returned.
*/
private final AtomicReference<RefList<LooseRef>> looseRefs = new AtomicReference<>();
/** Immutable sorted list of packed references. */
final AtomicReference<PackedRefList> packedRefs = new AtomicReference<>();
/**
* Number of modifications made to this database.
* <p>
* This counter is incremented when a change is made, or detected from the
* filesystem during a read operation.
*/
private final AtomicInteger modCnt = new AtomicInteger();
/**
* Last {@link #modCnt} that we sent to listeners.
* <p>
* This value is compared to {@link #modCnt}, and a notification is sent to
* the listeners only when it differs.
*/
private final AtomicInteger lastNotifiedModCnt = new AtomicInteger();
private List<Integer> retrySleepMs = RETRY_SLEEP_MS;
RefDirectory(final FileRepository db) {
final FS fs = db.getFS();
parent = db;
gitDir = db.getDirectory();
logWriter = new ReflogWriter(db);
refsDir = fs.resolve(gitDir, R_REFS);
packedRefsFile = fs.resolve(gitDir, PACKED_REFS);
looseRefs.set(RefList.<LooseRef> emptyList());
packedRefs.set(NO_PACKED_REFS);
}
Repository getRepository() {
return parent;
}
ReflogWriter getLogWriter() {
return logWriter;
}
@Override
public void create() throws IOException {
FileUtils.mkdir(refsDir);
FileUtils.mkdir(new File(refsDir, R_HEADS.substring(R_REFS.length())));
FileUtils.mkdir(new File(refsDir, R_TAGS.substring(R_REFS.length())));
logWriter.create();
}
@Override
public void close() {
clearReferences();
}
private void clearReferences() {
looseRefs.set(RefList.<LooseRef> emptyList());
packedRefs.set(NO_PACKED_REFS);
}
@Override
public void refresh() {
super.refresh();
clearReferences();
}
@Override
public boolean isNameConflicting(String name) throws IOException {
RefList<Ref> packed = getPackedRefs();
RefList<LooseRef> loose = getLooseRefs();
// Cannot be nested within an existing reference.
int lastSlash = name.lastIndexOf('/');
while (0 < lastSlash) {
String needle = name.substring(0, lastSlash);
if (loose.contains(needle) || packed.contains(needle))
return true;
lastSlash = name.lastIndexOf('/', lastSlash - 1);
}
// Cannot be the container of an existing reference.
String prefix = name + '/';
int idx;
idx = -(packed.find(prefix) + 1);
if (idx < packed.size() && packed.get(idx).getName().startsWith(prefix))
return true;
idx = -(loose.find(prefix) + 1);
if (idx < loose.size() && loose.get(idx).getName().startsWith(prefix))
return true;
return false;
}
private RefList<LooseRef> getLooseRefs() {
final RefList<LooseRef> oldLoose = looseRefs.get();
LooseScanner scan = new LooseScanner(oldLoose);
scan.scan(ALL);
RefList<LooseRef> loose;
if (scan.newLoose != null) {
loose = scan.newLoose.toRefList();
if (looseRefs.compareAndSet(oldLoose, loose))
modCnt.incrementAndGet();
} else
loose = oldLoose;
return loose;
}
@Override
public Ref exactRef(String name) throws IOException {
RefList<Ref> packed = getPackedRefs();
Ref ref;
try {
ref = readRef(name, packed);
if (ref != null) {
ref = resolve(ref, 0, null, null, packed);
}
} catch (IOException e) {
if (name.contains("/") //$NON-NLS-1$
|| !(e.getCause() instanceof InvalidObjectIdException)) {
throw e;
}
// While looking for a ref outside of refs/ (e.g., 'config'), we
// found a non-ref file (e.g., a config file) instead. Treat this
// as a ref-not-found condition.
ref = null;
}
fireRefsChanged();
return ref;
}
@Override
public Ref getRef(final String needle) throws IOException {
final RefList<Ref> packed = getPackedRefs();
Ref ref = null;
for (String prefix : SEARCH_PATH) {
try {
ref = readRef(prefix + needle, packed);
if (ref != null) {
ref = resolve(ref, 0, null, null, packed);
}
if (ref != null) {
break;
}
} catch (IOException e) {
if (!(!needle.contains("/") && "".equals(prefix) && e //$NON-NLS-1$ //$NON-NLS-2$
.getCause() instanceof InvalidObjectIdException)) {
throw e;
}
}
}
fireRefsChanged();
return ref;
}
@Override
public Map<String, Ref> getRefs(String prefix) throws IOException {
final RefList<LooseRef> oldLoose = looseRefs.get();
LooseScanner scan = new LooseScanner(oldLoose);
scan.scan(prefix);
final RefList<Ref> packed = getPackedRefs();
RefList<LooseRef> loose;
if (scan.newLoose != null) {
scan.newLoose.sort();
loose = scan.newLoose.toRefList();
if (looseRefs.compareAndSet(oldLoose, loose))
modCnt.incrementAndGet();
} else
loose = oldLoose;
fireRefsChanged();
RefList.Builder<Ref> symbolic = scan.symbolic;
for (int idx = 0; idx < symbolic.size();) {
final Ref symbolicRef = symbolic.get(idx);
final Ref resolvedRef = resolve(symbolicRef, 0, prefix, loose, packed);
if (resolvedRef != null && resolvedRef.getObjectId() != null) {
symbolic.set(idx, resolvedRef);
idx++;
} else {
// A broken symbolic reference, we have to drop it from the
// collections the client is about to receive. Should be a
// rare occurrence so pay a copy penalty.
symbolic.remove(idx);
final int toRemove = loose.find(symbolicRef.getName());
if (0 <= toRemove)
loose = loose.remove(toRemove);
}
}
symbolic.sort();
return new RefMap(prefix, packed, upcast(loose), symbolic.toRefList());
}
@Override
public List<Ref> getAdditionalRefs() throws IOException {
List<Ref> ret = new LinkedList<>();
for (String name : additionalRefsNames) {
Ref r = getRef(name);
if (r != null)
ret.add(r);
}
return ret;
}
@SuppressWarnings("unchecked")
private RefList<Ref> upcast(RefList<? extends Ref> loose) {
return (RefList<Ref>) loose;
}
private class LooseScanner {
private final RefList<LooseRef> curLoose;
private int curIdx;
final RefList.Builder<Ref> symbolic = new RefList.Builder<>(4);
RefList.Builder<LooseRef> newLoose;
LooseScanner(final RefList<LooseRef> curLoose) {
this.curLoose = curLoose;
}
void scan(String prefix) {
if (ALL.equals(prefix)) {
scanOne(HEAD);
scanTree(R_REFS, refsDir);
// If any entries remain, they are deleted, drop them.
if (newLoose == null && curIdx < curLoose.size())
newLoose = curLoose.copy(curIdx);
} else if (prefix.startsWith(R_REFS) && prefix.endsWith("/")) { //$NON-NLS-1$
curIdx = -(curLoose.find(prefix) + 1);
File dir = new File(refsDir, prefix.substring(R_REFS.length()));
scanTree(prefix, dir);
// Skip over entries still within the prefix; these have
// been removed from the directory.
while (curIdx < curLoose.size()) {
if (!curLoose.get(curIdx).getName().startsWith(prefix))
break;
if (newLoose == null)
newLoose = curLoose.copy(curIdx);
curIdx++;
}
// Keep any entries outside of the prefix space, we
// do not know anything about their status.
if (newLoose != null) {
while (curIdx < curLoose.size())
newLoose.add(curLoose.get(curIdx++));
}
}
}
private boolean scanTree(String prefix, File dir) {
final String[] entries = dir.list(LockFile.FILTER);
if (entries == null) // not a directory or an I/O error
return false;
if (0 < entries.length) {
for (int i = 0; i < entries.length; ++i) {
String e = entries[i];
File f = new File(dir, e);
if (f.isDirectory())
entries[i] += '/';
}
Arrays.sort(entries);
for (String name : entries) {
if (name.charAt(name.length() - 1) == '/')
scanTree(prefix + name, new File(dir, name));
else
scanOne(prefix + name);
}
}
return true;
}
private void scanOne(String name) {
LooseRef cur;
if (curIdx < curLoose.size()) {
do {
cur = curLoose.get(curIdx);
int cmp = RefComparator.compareTo(cur, name);
if (cmp < 0) {
// Reference is not loose anymore, its been deleted.
// Skip the name in the new result list.
if (newLoose == null)
newLoose = curLoose.copy(curIdx);
curIdx++;
cur = null;
continue;
}
if (cmp > 0) // Newly discovered loose reference.
cur = null;
break;
} while (curIdx < curLoose.size());
} else
cur = null; // Newly discovered loose reference.
LooseRef n;
try {
n = scanRef(cur, name);
} catch (IOException notValid) {
n = null;
}
if (n != null) {
if (cur != n && newLoose == null)
newLoose = curLoose.copy(curIdx);
if (newLoose != null)
newLoose.add(n);
if (n.isSymbolic())
symbolic.add(n);
} else if (cur != null) {
// Tragically, this file is no longer a loose reference.
// Kill our cached entry of it.
if (newLoose == null)
newLoose = curLoose.copy(curIdx);
}
if (cur != null)
curIdx++;
}
}
@Override
public Ref peel(final Ref ref) throws IOException {
final Ref leaf = ref.getLeaf();
if (leaf.isPeeled() || leaf.getObjectId() == null)
return ref;
ObjectIdRef newLeaf = doPeel(leaf);
// Try to remember this peeling in the cache, so we don't have to do
// it again in the future, but only if the reference is unchanged.
if (leaf.getStorage().isLoose()) {
RefList<LooseRef> curList = looseRefs.get();
int idx = curList.find(leaf.getName());
if (0 <= idx && curList.get(idx) == leaf) {
LooseRef asPeeled = ((LooseRef) leaf).peel(newLeaf);
RefList<LooseRef> newList = curList.set(idx, asPeeled);
looseRefs.compareAndSet(curList, newList);
}
}
return recreate(ref, newLeaf);
}
private ObjectIdRef doPeel(final Ref leaf) throws MissingObjectException,
IOException {
try (RevWalk rw = new RevWalk(getRepository())) {
RevObject obj = rw.parseAny(leaf.getObjectId());
if (obj instanceof RevTag) {
return new ObjectIdRef.PeeledTag(leaf.getStorage(), leaf
.getName(), leaf.getObjectId(), rw.peel(obj).copy());
} else {
return new ObjectIdRef.PeeledNonTag(leaf.getStorage(), leaf
.getName(), leaf.getObjectId());
}
}
}
private static Ref recreate(final Ref old, final ObjectIdRef leaf) {
if (old.isSymbolic()) {
Ref dst = recreate(old.getTarget(), leaf);
return new SymbolicRef(old.getName(), dst);
}
return leaf;
}
void storedSymbolicRef(RefDirectoryUpdate u, FileSnapshot snapshot,
String target) {
putLooseRef(newSymbolicRef(snapshot, u.getRef().getName(), target));
fireRefsChanged();
}
@Override
public RefDirectoryUpdate newUpdate(String name, boolean detach)
throws IOException {
boolean detachingSymbolicRef = false;
final RefList<Ref> packed = getPackedRefs();
Ref ref = readRef(name, packed);
if (ref != null)
ref = resolve(ref, 0, null, null, packed);
if (ref == null)
ref = new ObjectIdRef.Unpeeled(NEW, name, null);
else {
detachingSymbolicRef = detach && ref.isSymbolic();
}
RefDirectoryUpdate refDirUpdate = new RefDirectoryUpdate(this, ref);
if (detachingSymbolicRef)
refDirUpdate.setDetachingSymbolicRef();
return refDirUpdate;
}
@Override
public RefDirectoryRename newRename(String fromName, String toName)
throws IOException {
RefDirectoryUpdate from = newUpdate(fromName, false);
RefDirectoryUpdate to = newUpdate(toName, false);
return new RefDirectoryRename(from, to);
}
@Override
public PackedBatchRefUpdate newBatchUpdate() {
return new PackedBatchRefUpdate(this);
}
@Override
public boolean performsAtomicTransactions() {
return true;
}
void stored(RefDirectoryUpdate update, FileSnapshot snapshot) {
final ObjectId target = update.getNewObjectId().copy();
final Ref leaf = update.getRef().getLeaf();
putLooseRef(new LooseUnpeeled(snapshot, leaf.getName(), target));
}
private void putLooseRef(LooseRef ref) {
RefList<LooseRef> cList, nList;
do {
cList = looseRefs.get();
nList = cList.put(ref);
} while (!looseRefs.compareAndSet(cList, nList));
modCnt.incrementAndGet();
fireRefsChanged();
}
void delete(RefDirectoryUpdate update) throws IOException {
Ref dst = update.getRef();
if (!update.isDetachingSymbolicRef()) {
dst = dst.getLeaf();
}
String name = dst.getName();
// Write the packed-refs file using an atomic update. We might
// wind up reading it twice, before and after the lock, to ensure
// we don't miss an edit made externally.
final PackedRefList packed = getPackedRefs();
if (packed.contains(name)) {
LockFile lck = lockPackedRefsOrThrow();
try {
PackedRefList cur = readPackedRefs();
int idx = cur.find(name);
if (0 <= idx)
commitPackedRefs(lck, cur.remove(idx), packed);
} finally {
lck.unlock();
}
}
RefList<LooseRef> curLoose, newLoose;
do {
curLoose = looseRefs.get();
int idx = curLoose.find(name);
if (idx < 0)
break;
newLoose = curLoose.remove(idx);
} while (!looseRefs.compareAndSet(curLoose, newLoose));
int levels = levelsIn(name) - 2;
delete(logWriter.logFor(name), levels);
if (dst.getStorage().isLoose()) {
update.unlock();
delete(fileFor(name), levels);
}
modCnt.incrementAndGet();
fireRefsChanged();
}
/**
* Adds a set of refs to the set of packed-refs. Only non-symbolic refs are
* added. If a ref with the given name already existed in packed-refs it is
* updated with the new value. Each loose ref which was added to the
* packed-ref file is deleted. If a given ref can't be locked it will not be
* added to the pack file.
*
* @param refs
* the refs to be added. Must be fully qualified.
* @throws IOException
*/
public void pack(List<String> refs) throws IOException {
pack(refs, Collections.emptyMap());
}
PackedRefList pack(Map<String, LockFile> heldLocks) throws IOException {
return pack(heldLocks.keySet(), heldLocks);
}
private PackedRefList pack(Collection<String> refs,
Map<String, LockFile> heldLocks) throws IOException {
for (LockFile ol : heldLocks.values()) {
ol.requireLock();
}
if (refs.size() == 0) {
return null;
}
FS fs = parent.getFS();
// Lock the packed refs file and read the content
LockFile lck = lockPackedRefsOrThrow();
try {
final PackedRefList packed = getPackedRefs();
RefList<Ref> cur = readPackedRefs();
// Iterate over all refs to be packed
boolean dirty = false;
for (String refName : refs) {
Ref oldRef = readRef(refName, cur);
if (oldRef == null) {
continue; // A non-existent ref is already correctly packed.
}
if (oldRef.isSymbolic()) {
continue; // can't pack symbolic refs
}
// Add/Update it to packed-refs
Ref newRef = peeledPackedRef(oldRef);
if (newRef == oldRef) {
// No-op; peeledPackedRef returns the input ref only if it's already
// packed, and readRef returns a packed ref only if there is no loose
// ref.
continue;
}
dirty = true;
int idx = cur.find(refName);
if (idx >= 0) {
cur = cur.set(idx, newRef);
} else {
cur = cur.add(idx, newRef);
}
}
if (!dirty) {
// All requested refs were already packed accurately
return packed;
}
// The new content for packed-refs is collected. Persist it.
PackedRefList result = commitPackedRefs(lck, cur, packed);
// Now delete the loose refs which are now packed
for (String refName : refs) {
// Lock the loose ref
File refFile = fileFor(refName);
if (!fs.exists(refFile)) {
continue;
}
LockFile rLck = heldLocks.get(refName);
boolean shouldUnlock;
if (rLck == null) {
rLck = new LockFile(refFile);
if (!rLck.lock()) {
continue;
}
shouldUnlock = true;
} else {
shouldUnlock = false;
}
try {
LooseRef currentLooseRef = scanRef(null, refName);
if (currentLooseRef == null || currentLooseRef.isSymbolic()) {
continue;
}
Ref packedRef = cur.get(refName);
ObjectId clr_oid = currentLooseRef.getObjectId();
if (clr_oid != null
&& clr_oid.equals(packedRef.getObjectId())) {
RefList<LooseRef> curLoose, newLoose;
do {
curLoose = looseRefs.get();
int idx = curLoose.find(refName);
if (idx < 0) {
break;
}
newLoose = curLoose.remove(idx);
} while (!looseRefs.compareAndSet(curLoose, newLoose));
int levels = levelsIn(refName) - 2;
delete(refFile, levels, rLck);
}
} finally {
if (shouldUnlock) {
rLck.unlock();
}
}
}
// Don't fire refsChanged. The refs have not change, only their
// storage.
return result;
} finally {
lck.unlock();
}
}
@Nullable
LockFile lockPackedRefs() throws IOException {
LockFile lck = new LockFile(packedRefsFile);
for (int ms : getRetrySleepMs()) {
sleep(ms);
if (lck.lock()) {
return lck;
}
}
return null;
}
private LockFile lockPackedRefsOrThrow() throws IOException {
LockFile lck = lockPackedRefs();
if (lck == null) {
throw new LockFailedException(packedRefsFile);
}
return lck;
}
/**
* Make sure a ref is peeled and has the Storage PACKED. If the given ref
* has this attributes simply return it. Otherwise create a new peeled
* {@link ObjectIdRef} where Storage is set to PACKED.
*
* @param f
* @return a ref for Storage PACKED having the same name, id, peeledId as f
* @throws MissingObjectException
* @throws IOException
*/
private Ref peeledPackedRef(Ref f)
throws MissingObjectException, IOException {
if (f.getStorage().isPacked() && f.isPeeled()) {
return f;
}
if (!f.isPeeled()) {
f = peel(f);
}
ObjectId peeledObjectId = f.getPeeledObjectId();
if (peeledObjectId != null) {
return new ObjectIdRef.PeeledTag(PACKED, f.getName(),
f.getObjectId(), peeledObjectId);
} else {
return new ObjectIdRef.PeeledNonTag(PACKED, f.getName(),
f.getObjectId());
}
}
void log(final RefUpdate update, final String msg, final boolean deref)
throws IOException {
logWriter.log(update, msg, deref);
}
private Ref resolve(final Ref ref, int depth, String prefix,
RefList<LooseRef> loose, RefList<Ref> packed) throws IOException {
if (ref.isSymbolic()) {
Ref dst = ref.getTarget();
if (MAX_SYMBOLIC_REF_DEPTH <= depth)
return null; // claim it doesn't exist
// If the cached value can be assumed to be current due to a
// recent scan of the loose directory, use it.
if (loose != null && dst.getName().startsWith(prefix)) {
int idx;
if (0 <= (idx = loose.find(dst.getName())))
dst = loose.get(idx);
else if (0 <= (idx = packed.find(dst.getName())))
dst = packed.get(idx);
else
return ref;
} else {
dst = readRef(dst.getName(), packed);
if (dst == null)
return ref;
}
dst = resolve(dst, depth + 1, prefix, loose, packed);
if (dst == null)
return null;
return new SymbolicRef(ref.getName(), dst);
}
return ref;
}
private PackedRefList getPackedRefs() throws IOException {
final PackedRefList curList = packedRefs.get();
if (!curList.snapshot.isModified(packedRefsFile))
return curList;
final PackedRefList newList = readPackedRefs();
if (packedRefs.compareAndSet(curList, newList)
&& !curList.id.equals(newList.id))
modCnt.incrementAndGet();
return newList;
}
private PackedRefList readPackedRefs() throws IOException {
int maxStaleRetries = 5;
int retries = 0;
while (true) {
final FileSnapshot snapshot = FileSnapshot.save(packedRefsFile);
final BufferedReader br;
final MessageDigest digest = Constants.newMessageDigest();
try {
br = new BufferedReader(new InputStreamReader(
new DigestInputStream(new FileInputStream(packedRefsFile),
digest), CHARSET));
} catch (FileNotFoundException noPackedRefs) {
if (packedRefsFile.exists()) {
throw noPackedRefs;
}
// Ignore it and leave the new list empty.
return NO_PACKED_REFS;
}
try {
return new PackedRefList(parsePackedRefs(br), snapshot,
ObjectId.fromRaw(digest.digest()));
} catch (IOException e) {
if (FileUtils.isStaleFileHandleInCausalChain(e)
&& retries < maxStaleRetries) {
if (LOG.isDebugEnabled()) {
LOG.debug(MessageFormat.format(
JGitText.get().packedRefsHandleIsStale,
Integer.valueOf(retries)), e);
}
retries++;
continue;
}
throw e;
} finally {
br.close();
}
}
}
private RefList<Ref> parsePackedRefs(final BufferedReader br)
throws IOException {
RefList.Builder<Ref> all = new RefList.Builder<>();
Ref last = null;
boolean peeled = false;
boolean needSort = false;
String p;
while ((p = br.readLine()) != null) {
if (p.charAt(0) == '#') {
if (p.startsWith(PACKED_REFS_HEADER)) {
p = p.substring(PACKED_REFS_HEADER.length());
peeled = p.contains(PACKED_REFS_PEELED);
}
continue;
}
if (p.charAt(0) == '^') {
if (last == null)
throw new IOException(JGitText.get().peeledLineBeforeRef);
ObjectId id = ObjectId.fromString(p.substring(1));
last = new ObjectIdRef.PeeledTag(PACKED, last.getName(), last
.getObjectId(), id);
all.set(all.size() - 1, last);
continue;
}
int sp = p.indexOf(' ');
if (sp < 0) {
throw new IOException(MessageFormat.format(
JGitText.get().packedRefsCorruptionDetected,
packedRefsFile.getAbsolutePath()));
}
ObjectId id = ObjectId.fromString(p.substring(0, sp));
String name = copy(p, sp + 1, p.length());
ObjectIdRef cur;
if (peeled)
cur = new ObjectIdRef.PeeledNonTag(PACKED, name, id);
else
cur = new ObjectIdRef.Unpeeled(PACKED, name, id);
if (last != null && RefComparator.compareTo(last, cur) > 0)
needSort = true;
all.add(cur);
last = cur;
}
if (needSort)
all.sort();
return all.toRefList();
}
private static String copy(final String src, final int off, final int end) {
// Don't use substring since it could leave a reference to the much
// larger existing string. Force construction of a full new object.
return new StringBuilder(end - off).append(src, off, end).toString();
}
PackedRefList commitPackedRefs(final LockFile lck, final RefList<Ref> refs,
final PackedRefList oldPackedList) throws IOException {
// Can't just return packedRefs.get() from this method; it might have been
// updated again after writePackedRefs() returns.
AtomicReference<PackedRefList> result = new AtomicReference<>();
new RefWriter(refs) {
@Override
protected void writeFile(String name, byte[] content)
throws IOException {
lck.setFSync(true);
lck.setNeedSnapshot(true);
try {
lck.write(content);
} catch (IOException ioe) {
throw new ObjectWritingException(MessageFormat.format(JGitText.get().unableToWrite, name), ioe);
}
try {
lck.waitForStatChange();
} catch (InterruptedException e) {
lck.unlock();
throw new ObjectWritingException(MessageFormat.format(JGitText.get().interruptedWriting, name));
}
if (!lck.commit())
throw new ObjectWritingException(MessageFormat.format(JGitText.get().unableToWrite, name));
byte[] digest = Constants.newMessageDigest().digest(content);
PackedRefList newPackedList = new PackedRefList(
refs, lck.getCommitSnapshot(), ObjectId.fromRaw(digest));
// This thread holds the file lock, so no other thread or process should
// be able to modify the packed-refs file on disk. If the list changed,
// it means something is very wrong, so throw an exception.
//
// However, we can't use a naive compareAndSet to check whether the
// update was successful, because another thread might _read_ the
// packed refs file that was written out by this thread while holding
// the lock, and update the packedRefs reference to point to that. So
// compare the actual contents instead.
PackedRefList afterUpdate = packedRefs.updateAndGet(
p -> p.id.equals(oldPackedList.id) ? newPackedList : p);
if (!afterUpdate.id.equals(newPackedList.id)) {
throw new ObjectWritingException(
MessageFormat.format(JGitText.get().unableToWrite, name));
}
result.set(newPackedList);
}
}.writePackedRefs();
return result.get();
}
private Ref readRef(String name, RefList<Ref> packed) throws IOException {
final RefList<LooseRef> curList = looseRefs.get();
final int idx = curList.find(name);
if (0 <= idx) {
final LooseRef o = curList.get(idx);
final LooseRef n = scanRef(o, name);
if (n == null) {
if (looseRefs.compareAndSet(curList, curList.remove(idx)))
modCnt.incrementAndGet();
return packed.get(name);
}
if (o == n)
return n;
if (looseRefs.compareAndSet(curList, curList.set(idx, n)))
modCnt.incrementAndGet();
return n;
}
final LooseRef n = scanRef(null, name);
if (n == null)
return packed.get(name);
// check whether the found new ref is the an additional ref. These refs
// should not go into looseRefs
for (int i = 0; i < additionalRefsNames.length; i++)
if (name.equals(additionalRefsNames[i]))
return n;
if (looseRefs.compareAndSet(curList, curList.add(idx, n)))
modCnt.incrementAndGet();
return n;
}
LooseRef scanRef(LooseRef ref, String name) throws IOException {
final File path = fileFor(name);
FileSnapshot currentSnapshot = null;
if (ref != null) {
currentSnapshot = ref.getSnapShot();
if (!currentSnapshot.isModified(path))
return ref;
name = ref.getName();
}
final int limit = 4096;
final byte[] buf;
FileSnapshot otherSnapshot = FileSnapshot.save(path);
try {
buf = IO.readSome(path, limit);
} catch (FileNotFoundException noFile) {
if (path.exists() && path.isFile()) {
throw noFile;
}
return null; // doesn't exist or no file; not a reference.
}
int n = buf.length;
if (n == 0)
return null; // empty file; not a reference.
if (isSymRef(buf, n)) {
if (n == limit)
return null; // possibly truncated ref
// trim trailing whitespace
while (0 < n && Character.isWhitespace(buf[n - 1]))
n--;
if (n < 6) {
String content = RawParseUtils.decode(buf, 0, n);
throw new IOException(MessageFormat.format(JGitText.get().notARef, name, content));
}
final String target = RawParseUtils.decode(buf, 5, n);
if (ref != null && ref.isSymbolic()
&& ref.getTarget().getName().equals(target)) {
assert(currentSnapshot != null);
currentSnapshot.setClean(otherSnapshot);
return ref;
}
return newSymbolicRef(otherSnapshot, name, target);
}
if (n < OBJECT_ID_STRING_LENGTH)
return null; // impossibly short object identifier; not a reference.
final ObjectId id;
try {
id = ObjectId.fromString(buf, 0);
if (ref != null && !ref.isSymbolic()
&& id.equals(ref.getTarget().getObjectId())) {
assert(currentSnapshot != null);
currentSnapshot.setClean(otherSnapshot);
return ref;
}
} catch (IllegalArgumentException notRef) {
while (0 < n && Character.isWhitespace(buf[n - 1]))
n--;
String content = RawParseUtils.decode(buf, 0, n);
IOException ioException = new IOException(MessageFormat.format(JGitText.get().notARef,
name, content));
ioException.initCause(notRef);
throw ioException;
}
return new LooseUnpeeled(otherSnapshot, name, id);
}
private static boolean isSymRef(final byte[] buf, int n) {
if (n < 6)
return false;
return /**/buf[0] == 'r' //
&& buf[1] == 'e' //
&& buf[2] == 'f' //
&& buf[3] == ':' //
&& buf[4] == ' ';
}
/** If the parent should fire listeners, fires them. */
void fireRefsChanged() {
final int last = lastNotifiedModCnt.get();
final int curr = modCnt.get();
if (last != curr && lastNotifiedModCnt.compareAndSet(last, curr) && last != 0)
parent.fireEvent(new RefsChangedEvent());
}
/**
* Create a reference update to write a temporary reference.
*
* @return an update for a new temporary reference.
* @throws IOException
* a temporary name cannot be allocated.
*/
RefDirectoryUpdate newTemporaryUpdate() throws IOException {
File tmp = File.createTempFile("renamed_", "_ref", refsDir); //$NON-NLS-1$ //$NON-NLS-2$
String name = Constants.R_REFS + tmp.getName();
Ref ref = new ObjectIdRef.Unpeeled(NEW, name, null);
return new RefDirectoryUpdate(this, ref);
}
/**
* Locate the file on disk for a single reference name.
*
* @param name
* name of the ref, relative to the Git repository top level
* directory (so typically starts with refs/).
* @return the loose file location.
*/
File fileFor(String name) {
if (name.startsWith(R_REFS)) {
name = name.substring(R_REFS.length());
return new File(refsDir, name);
}
return new File(gitDir, name);
}
static int levelsIn(final String name) {
int count = 0;
for (int p = name.indexOf('/'); p >= 0; p = name.indexOf('/', p + 1))
count++;
return count;
}
static void delete(final File file, final int depth) throws IOException {
delete(file, depth, null);
}
private static void delete(final File file, final int depth, LockFile rLck)
throws IOException {
if (!file.delete() && file.isFile()) {
throw new IOException(MessageFormat.format(
JGitText.get().fileCannotBeDeleted, file));
}
if (rLck != null) {
rLck.unlock(); // otherwise cannot delete dir below
}
File dir = file.getParentFile();
for (int i = 0; i < depth; ++i) {
if (!dir.delete()) {
break; // ignore problem here
}
dir = dir.getParentFile();
}
}
/**
* Get times to sleep while retrying a possibly contentious operation.
* <p>
* For retrying an operation that might have high contention, such as locking
* the {@code packed-refs} file, the caller may implement a retry loop using
* the returned values:
*
* <pre>
* for (int toSleepMs : getRetrySleepMs()) {
* sleep(toSleepMs);
* if (isSuccessful(doSomething())) {
* return success;
* }
* }
* return failure;
* </pre>
*
* The first value in the returned iterable is 0, and the caller should treat
* a fully-consumed iterator as a timeout.
*
* @return iterable of times, in milliseconds, that the caller should sleep
* before attempting an operation.
*/
Iterable<Integer> getRetrySleepMs() {
return retrySleepMs;
}
void setRetrySleepMs(List<Integer> retrySleepMs) {
if (retrySleepMs == null || retrySleepMs.isEmpty()
|| retrySleepMs.get(0).intValue() != 0) {
throw new IllegalArgumentException();
}
this.retrySleepMs = retrySleepMs;
}
/**
* Sleep with {@link Thread#sleep(long)}, converting {@link
* InterruptedException} to {@link InterruptedIOException}.
*
* @param ms
* time to sleep, in milliseconds; zero or negative is a no-op.
* @throws InterruptedIOException
* if sleeping was interrupted.
*/
static void sleep(long ms) throws InterruptedIOException {
if (ms <= 0) {
return;
}
try {
Thread.sleep(ms);
} catch (InterruptedException e) {
InterruptedIOException ie = new InterruptedIOException();
ie.initCause(e);
throw ie;
}
}
static class PackedRefList extends RefList<Ref> {
private final FileSnapshot snapshot;
private final ObjectId id;
private PackedRefList(RefList<Ref> src, FileSnapshot s, ObjectId i) {
super(src);
snapshot = s;
id = i;
}
}
private static final PackedRefList NO_PACKED_REFS = new PackedRefList(
RefList.emptyList(), FileSnapshot.MISSING_FILE,
ObjectId.zeroId());
private static LooseSymbolicRef newSymbolicRef(FileSnapshot snapshot,
String name, String target) {
Ref dst = new ObjectIdRef.Unpeeled(NEW, target, null);
return new LooseSymbolicRef(snapshot, name, dst);
}
private static interface LooseRef extends Ref {
FileSnapshot getSnapShot();
LooseRef peel(ObjectIdRef newLeaf);
}
private final static class LoosePeeledTag extends ObjectIdRef.PeeledTag
implements LooseRef {
private final FileSnapshot snapShot;
LoosePeeledTag(FileSnapshot snapshot, @NonNull String refName,
@NonNull ObjectId id, @NonNull ObjectId p) {
super(LOOSE, refName, id, p);
this.snapShot = snapshot;
}
@Override
public FileSnapshot getSnapShot() {
return snapShot;
}
@Override
public LooseRef peel(ObjectIdRef newLeaf) {
return this;
}
}
private final static class LooseNonTag extends ObjectIdRef.PeeledNonTag
implements LooseRef {
private final FileSnapshot snapShot;
LooseNonTag(FileSnapshot snapshot, @NonNull String refName,
@NonNull ObjectId id) {
super(LOOSE, refName, id);
this.snapShot = snapshot;
}
@Override
public FileSnapshot getSnapShot() {
return snapShot;
}
@Override
public LooseRef peel(ObjectIdRef newLeaf) {
return this;
}
}
private final static class LooseUnpeeled extends ObjectIdRef.Unpeeled
implements LooseRef {
private FileSnapshot snapShot;
LooseUnpeeled(FileSnapshot snapShot, @NonNull String refName,
@NonNull ObjectId id) {
super(LOOSE, refName, id);
this.snapShot = snapShot;
}
@Override
public FileSnapshot getSnapShot() {
return snapShot;
}
@NonNull
@Override
public ObjectId getObjectId() {
ObjectId id = super.getObjectId();
assert id != null; // checked in constructor
return id;
}
@Override
public LooseRef peel(ObjectIdRef newLeaf) {
ObjectId peeledObjectId = newLeaf.getPeeledObjectId();
ObjectId objectId = getObjectId();
if (peeledObjectId != null) {
return new LoosePeeledTag(snapShot, getName(),
objectId, peeledObjectId);
} else {
return new LooseNonTag(snapShot, getName(),
objectId);
}
}
}
private final static class LooseSymbolicRef extends SymbolicRef implements
LooseRef {
private final FileSnapshot snapShot;
LooseSymbolicRef(FileSnapshot snapshot, @NonNull String refName,
@NonNull Ref target) {
super(refName, target);
this.snapShot = snapshot;
}
@Override
public FileSnapshot getSnapShot() {
return snapShot;
}
@Override
public LooseRef peel(ObjectIdRef newLeaf) {
// We should never try to peel the symbolic references.
throw new UnsupportedOperationException();
}
}
}