/*
* Copyright (C) 2008-2010, Google Inc.
* 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.transport;
import java.io.EOFException;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.text.MessageFormat;
import java.util.ArrayList;
import java.util.Collections;
import java.util.HashSet;
import java.util.List;
import java.util.Map;
import java.util.Set;
import org.eclipse.jgit.JGitText;
import org.eclipse.jgit.errors.CorruptObjectException;
import org.eclipse.jgit.errors.IncorrectObjectTypeException;
import org.eclipse.jgit.errors.MissingObjectException;
import org.eclipse.jgit.errors.PackProtocolException;
import org.eclipse.jgit.lib.Constants;
import org.eclipse.jgit.lib.NullProgressMonitor;
import org.eclipse.jgit.lib.ObjectId;
import org.eclipse.jgit.lib.ProgressMonitor;
import org.eclipse.jgit.lib.Ref;
import org.eclipse.jgit.lib.Repository;
import org.eclipse.jgit.revwalk.AsyncRevObjectQueue;
import org.eclipse.jgit.revwalk.DepthWalk;
import org.eclipse.jgit.revwalk.ObjectWalk;
import org.eclipse.jgit.revwalk.RevCommit;
import org.eclipse.jgit.revwalk.RevFlag;
import org.eclipse.jgit.revwalk.RevFlagSet;
import org.eclipse.jgit.revwalk.RevObject;
import org.eclipse.jgit.revwalk.RevTag;
import org.eclipse.jgit.revwalk.RevWalk;
import org.eclipse.jgit.revwalk.filter.CommitTimeRevFilter;
import org.eclipse.jgit.storage.pack.PackConfig;
import org.eclipse.jgit.storage.pack.PackWriter;
import org.eclipse.jgit.transport.BasePackFetchConnection.MultiAck;
import org.eclipse.jgit.transport.RefAdvertiser.PacketLineOutRefAdvertiser;
import org.eclipse.jgit.util.io.InterruptTimer;
import org.eclipse.jgit.util.io.TimeoutInputStream;
import org.eclipse.jgit.util.io.TimeoutOutputStream;
/**
* Implements the server side of a fetch connection, transmitting objects.
*/
public class UploadPack {
static final String OPTION_INCLUDE_TAG = BasePackFetchConnection.OPTION_INCLUDE_TAG;
static final String OPTION_MULTI_ACK = BasePackFetchConnection.OPTION_MULTI_ACK;
static final String OPTION_MULTI_ACK_DETAILED = BasePackFetchConnection.OPTION_MULTI_ACK_DETAILED;
static final String OPTION_THIN_PACK = BasePackFetchConnection.OPTION_THIN_PACK;
static final String OPTION_SIDE_BAND = BasePackFetchConnection.OPTION_SIDE_BAND;
static final String OPTION_SIDE_BAND_64K = BasePackFetchConnection.OPTION_SIDE_BAND_64K;
static final String OPTION_OFS_DELTA = BasePackFetchConnection.OPTION_OFS_DELTA;
static final String OPTION_NO_PROGRESS = BasePackFetchConnection.OPTION_NO_PROGRESS;
static final String OPTION_NO_DONE = BasePackFetchConnection.OPTION_NO_DONE;
static final String OPTION_SHALLOW = BasePackFetchConnection.OPTION_SHALLOW;
/** Policy the server uses to validate client requests */
public static enum RequestPolicy {
/** Client may only ask for objects the server advertised a reference for. */
ADVERTISED,
/** Client may ask for any commit reachable from a reference. */
REACHABLE_COMMIT,
/** Client may ask for any SHA-1 in the repository. */
ANY;
}
/** Database we read the objects from. */
private final Repository db;
/** Revision traversal support over {@link #db}. */
private final RevWalk walk;
/** Configuration to pass into the PackWriter. */
private PackConfig packConfig;
/** Timeout in seconds to wait for client interaction. */
private int timeout;
/**
* Is the client connection a bi-directional socket or pipe?
*
* If true, this class assumes it can perform multiple read and write cycles
* with the client over the input and output streams. This matches the
* functionality available with a standard TCP/IP connection, or a local
* operating system or in-memory pipe.
*
* If false, this class runs in a read everything then output results mode,
* making it suitable for single round-trip systems RPCs such as HTTP.
*/
private boolean biDirectionalPipe = true;
/** Timer to manage {@link #timeout}. */
private InterruptTimer timer;
private InputStream rawIn;
private OutputStream rawOut;
private PacketLineIn pckIn;
private PacketLineOut pckOut;
/** The refs we advertised as existing at the start of the connection. */
private Map refs;
/** Filter used while advertising the refs to the client. */
private RefFilter refFilter;
/** Hook handling the various upload phases. */
private PreUploadHook preUploadHook = PreUploadHook.NULL;
/** Capabilities requested by the client. */
private final Set options = new HashSet();
/** Raw ObjectIds the client has asked for, before validating them. */
private final Set wantIds = new HashSet();
/** Objects the client wants to obtain. */
private final Set wantAll = new HashSet();
/** Objects on both sides, these don't have to be sent. */
private final Set commonBase = new HashSet();
/** Shallow commits the client already has. */
private final Set clientShallowCommits = new HashSet();
/** Shallow commits on the client which are now becoming unshallow */
private final List unshallowCommits = new ArrayList();
/** Desired depth from the client on a shallow request. */
private int depth;
/** Commit time of the oldest common commit, in seconds. */
private int oldestTime;
/** null if {@link #commonBase} should be examined again. */
private Boolean okToGiveUp;
private boolean sentReady;
/** Objects we sent in our advertisement list, clients can ask for these. */
private Set advertised;
/** Marked on objects the client has asked us to give them. */
private final RevFlag WANT;
/** Marked on objects both we and the client have. */
private final RevFlag PEER_HAS;
/** Marked on objects in {@link #commonBase}. */
private final RevFlag COMMON;
/** Objects where we found a path from the want list to a common base. */
private final RevFlag SATISFIED;
private final RevFlagSet SAVE;
private RequestPolicy requestPolicy = RequestPolicy.ADVERTISED;
private MultiAck multiAck = MultiAck.OFF;
private boolean noDone;
private PackWriter.Statistics statistics;
private UploadPackLogger logger;
/**
* Create a new pack upload for an open repository.
*
* @param copyFrom
* the source repository.
*/
public UploadPack(final Repository copyFrom) {
db = copyFrom;
walk = new RevWalk(db);
walk.setRetainBody(false);
WANT = walk.newFlag("WANT");
PEER_HAS = walk.newFlag("PEER_HAS");
COMMON = walk.newFlag("COMMON");
SATISFIED = walk.newFlag("SATISFIED");
walk.carry(PEER_HAS);
SAVE = new RevFlagSet();
SAVE.add(WANT);
SAVE.add(PEER_HAS);
SAVE.add(COMMON);
SAVE.add(SATISFIED);
refFilter = RefFilter.DEFAULT;
}
/** @return the repository this upload is reading from. */
public final Repository getRepository() {
return db;
}
/** @return the RevWalk instance used by this connection. */
public final RevWalk getRevWalk() {
return walk;
}
/** @return all refs which were advertised to the client. */
public final Map getAdvertisedRefs() {
if (refs == null)
setAdvertisedRefs(db.getAllRefs());
return refs;
}
/**
* @param allRefs
* explicit set of references to claim as advertised by this
* UploadPack instance. This overrides any references that
* may exist in the source repository. The map is passed
* to the configured {@link #getRefFilter()}.
*/
public void setAdvertisedRefs(Map allRefs) {
refs = refFilter.filter(allRefs);
}
/** @return timeout (in seconds) before aborting an IO operation. */
public int getTimeout() {
return timeout;
}
/**
* Set the timeout before willing to abort an IO call.
*
* @param seconds
* number of seconds to wait (with no data transfer occurring)
* before aborting an IO read or write operation with the
* connected client.
*/
public void setTimeout(final int seconds) {
timeout = seconds;
}
/**
* @return true if this class expects a bi-directional pipe opened between
* the client and itself. The default is true.
*/
public boolean isBiDirectionalPipe() {
return biDirectionalPipe;
}
/**
* @param twoWay
* if true, this class will assume the socket is a fully
* bidirectional pipe between the two peers and takes advantage
* of that by first transmitting the known refs, then waiting to
* read commands. If false, this class assumes it must read the
* commands before writing output and does not perform the
* initial advertising.
*/
public void setBiDirectionalPipe(final boolean twoWay) {
biDirectionalPipe = twoWay;
if (!biDirectionalPipe && requestPolicy == RequestPolicy.ADVERTISED)
requestPolicy = RequestPolicy.REACHABLE_COMMIT;
}
/** @return policy used by the service to validate client requests. */
public RequestPolicy getRequestPolicy() {
return requestPolicy;
}
/**
* @param policy
* the policy used to enforce validation of a client's want list.
* By default the policy is {@link RequestPolicy#ADVERTISED},
* which is the Git default requiring clients to only ask for an
* object that a reference directly points to. This may be relaxed
* to {@link RequestPolicy#REACHABLE_COMMIT} when callers
* have {@link #setBiDirectionalPipe(boolean)} set to false.
*/
public void setRequestPolicy(RequestPolicy policy) {
requestPolicy = policy != null ? policy : RequestPolicy.ADVERTISED;
}
/** @return the filter used while advertising the refs to the client */
public RefFilter getRefFilter() {
return refFilter;
}
/**
* Set the filter used while advertising the refs to the client.
*
* Only refs allowed by this filter will be sent to the client. This can
* be used by a server to restrict the list of references the client can
* obtain through clone or fetch, effectively limiting the access to only
* certain refs.
*
* @param refFilter
* the filter; may be null to show all refs.
*/
public void setRefFilter(final RefFilter refFilter) {
this.refFilter = refFilter != null ? refFilter : RefFilter.DEFAULT;
}
/** @return the configured upload hook. */
public PreUploadHook getPreUploadHook() {
return preUploadHook;
}
/**
* Set the hook that controls how this instance will behave.
*
* @param hook
* the hook; if null no special actions are taken.
*/
public void setPreUploadHook(PreUploadHook hook) {
preUploadHook = hook != null ? hook : PreUploadHook.NULL;
}
/**
* Set the configuration used by the pack generator.
*
* @param pc
* configuration controlling packing parameters. If null the
* source repository's settings will be used.
*/
public void setPackConfig(PackConfig pc) {
this.packConfig = pc;
}
/**
* Set the logger.
*
* @param logger
* the logger instance. If null, no logging occurs.
*/
public void setLogger(UploadPackLogger logger) {
this.logger = logger;
}
/**
* Execute the upload task on the socket.
*
* @param input
* raw input to read client commands from. Caller must ensure the
* input is buffered, otherwise read performance may suffer.
* @param output
* response back to the Git network client, to write the pack
* data onto. Caller must ensure the output is buffered,
* otherwise write performance may suffer.
* @param messages
* secondary "notice" channel to send additional messages out
* through. When run over SSH this should be tied back to the
* standard error channel of the command execution. For most
* other network connections this should be null.
* @throws IOException
*/
public void upload(final InputStream input, final OutputStream output,
final OutputStream messages) throws IOException {
try {
rawIn = input;
rawOut = output;
if (timeout > 0) {
final Thread caller = Thread.currentThread();
timer = new InterruptTimer(caller.getName() + "-Timer");
TimeoutInputStream i = new TimeoutInputStream(rawIn, timer);
TimeoutOutputStream o = new TimeoutOutputStream(rawOut, timer);
i.setTimeout(timeout * 1000);
o.setTimeout(timeout * 1000);
rawIn = i;
rawOut = o;
}
pckIn = new PacketLineIn(rawIn);
pckOut = new PacketLineOut(rawOut);
service();
} finally {
walk.release();
if (timer != null) {
try {
timer.terminate();
} finally {
timer = null;
}
}
}
}
/**
* Get the PackWriter's statistics if a pack was sent to the client.
*
* @return statistics about pack output, if a pack was sent. Null if no pack
* was sent, such as during the negotation phase of a smart HTTP
* connection, or if the client was already up-to-date.
*/
public PackWriter.Statistics getPackStatistics() {
return statistics;
}
private void service() throws IOException {
if (biDirectionalPipe)
sendAdvertisedRefs(new PacketLineOutRefAdvertiser(pckOut));
else if (requestPolicy == RequestPolicy.ANY)
advertised = Collections.emptySet();
else {
advertised = new HashSet();
for (Ref ref : getAdvertisedRefs().values()) {
if (ref.getObjectId() != null)
advertised.add(ref.getObjectId());
}
}
boolean sendPack;
try {
recvWants();
if (wantIds.isEmpty()) {
preUploadHook.onBeginNegotiateRound(this, wantIds, 0);
preUploadHook.onEndNegotiateRound(this, wantIds, 0, 0, false);
return;
}
if (options.contains(OPTION_MULTI_ACK_DETAILED)) {
multiAck = MultiAck.DETAILED;
noDone = options.contains(OPTION_NO_DONE);
} else if (options.contains(OPTION_MULTI_ACK))
multiAck = MultiAck.CONTINUE;
else
multiAck = MultiAck.OFF;
if (depth != 0)
processShallow();
sendPack = negotiate();
} catch (PackProtocolException err) {
reportErrorDuringNegotiate(err.getMessage());
throw err;
} catch (UploadPackMayNotContinueException err) {
if (!err.isOutput() && err.getMessage() != null) {
try {
pckOut.writeString("ERR " + err.getMessage() + "\n");
err.setOutput();
} catch (Throwable err2) {
// Ignore this secondary failure (and not mark output).
}
}
throw err;
} catch (IOException err) {
reportErrorDuringNegotiate(JGitText.get().internalServerError);
throw err;
} catch (RuntimeException err) {
reportErrorDuringNegotiate(JGitText.get().internalServerError);
throw err;
} catch (Error err) {
reportErrorDuringNegotiate(JGitText.get().internalServerError);
throw err;
}
if (sendPack)
sendPack();
}
private void reportErrorDuringNegotiate(String msg) {
try {
pckOut.writeString("ERR " + msg + "\n");
} catch (Throwable err) {
// Ignore this secondary failure.
}
}
private void processShallow() throws IOException {
DepthWalk.RevWalk depthWalk =
new DepthWalk.RevWalk(walk.getObjectReader(), depth);
// Find all the commits which will be shallow
for (ObjectId o : wantIds) {
try {
depthWalk.markRoot(depthWalk.parseCommit(o));
} catch (IncorrectObjectTypeException notCommit) {
// Ignore non-commits in this loop.
}
}
RevCommit o;
while ((o = depthWalk.next()) != null) {
DepthWalk.Commit c = (DepthWalk.Commit) o;
// Commits at the boundary which aren't already shallow in
// the client need to be marked as such
if (c.getDepth() == depth && !clientShallowCommits.contains(c))
pckOut.writeString("shallow " + o.name());
// Commits not on the boundary which are shallow in the client
// need to become unshallowed
if (c.getDepth() < depth && clientShallowCommits.contains(c)) {
unshallowCommits.add(c.copy());
pckOut.writeString("unshallow " + c.name());
}
}
pckOut.end();
}
/**
* Generate an advertisement of available refs and capabilities.
*
* @param adv
* the advertisement formatter.
* @throws IOException
* the formatter failed to write an advertisement.
* @throws UploadPackMayNotContinueException
* the hook denied advertisement.
*/
public void sendAdvertisedRefs(final RefAdvertiser adv) throws IOException,
UploadPackMayNotContinueException {
try {
preUploadHook.onPreAdvertiseRefs(this);
} catch (UploadPackMayNotContinueException fail) {
if (fail.getMessage() != null) {
adv.writeOne("ERR " + fail.getMessage());
fail.setOutput();
}
throw fail;
}
adv.init(db);
adv.advertiseCapability(OPTION_INCLUDE_TAG);
adv.advertiseCapability(OPTION_MULTI_ACK_DETAILED);
adv.advertiseCapability(OPTION_MULTI_ACK);
adv.advertiseCapability(OPTION_OFS_DELTA);
adv.advertiseCapability(OPTION_SIDE_BAND);
adv.advertiseCapability(OPTION_SIDE_BAND_64K);
adv.advertiseCapability(OPTION_THIN_PACK);
adv.advertiseCapability(OPTION_NO_PROGRESS);
adv.advertiseCapability(OPTION_SHALLOW);
if (!biDirectionalPipe)
adv.advertiseCapability(OPTION_NO_DONE);
adv.setDerefTags(true);
advertised = adv.send(getAdvertisedRefs());
adv.end();
}
private void recvWants() throws IOException {
boolean isFirst = true;
for (;;) {
String line;
try {
line = pckIn.readString();
} catch (EOFException eof) {
if (isFirst)
break;
throw eof;
}
if (line == PacketLineIn.END)
break;
if (line.startsWith("deepen ")) {
depth = Integer.parseInt(line.substring(7));
continue;
}
if (line.startsWith("shallow ")) {
clientShallowCommits.add(ObjectId.fromString(line.substring(8)));
continue;
}
if (!line.startsWith("want ") || line.length() < 45)
throw new PackProtocolException(MessageFormat.format(JGitText.get().expectedGot, "want", line));
if (isFirst && line.length() > 45) {
String opt = line.substring(45);
if (opt.startsWith(" "))
opt = opt.substring(1);
for (String c : opt.split(" "))
options.add(c);
line = line.substring(0, 45);
}
wantIds.add(ObjectId.fromString(line.substring(5)));
isFirst = false;
}
}
private boolean negotiate() throws IOException {
okToGiveUp = Boolean.FALSE;
ObjectId last = ObjectId.zeroId();
List peerHas = new ArrayList(64);
for (;;) {
String line;
try {
line = pckIn.readString();
} catch (EOFException eof) {
// EOF on stateless RPC (aka smart HTTP) and non-shallow request
// means the client asked for the updated shallow/unshallow data,
// disconnected, and will try another request with actual want/have.
// Don't report the EOF here, its a bug in the protocol that the client
// just disconnects without sending an END.
if (!biDirectionalPipe && depth > 0)
return false;
throw eof;
}
if (line == PacketLineIn.END) {
last = processHaveLines(peerHas, last);
if (commonBase.isEmpty() || multiAck != MultiAck.OFF)
pckOut.writeString("NAK\n");
if (noDone && sentReady) {
pckOut.writeString("ACK " + last.name() + "\n");
return true;
}
if (!biDirectionalPipe)
return false;
pckOut.flush();
} else if (line.startsWith("have ") && line.length() == 45) {
peerHas.add(ObjectId.fromString(line.substring(5)));
} else if (line.equals("done")) {
last = processHaveLines(peerHas, last);
if (commonBase.isEmpty())
pckOut.writeString("NAK\n");
else if (multiAck != MultiAck.OFF)
pckOut.writeString("ACK " + last.name() + "\n");
return true;
} else {
throw new PackProtocolException(MessageFormat.format(JGitText.get().expectedGot, "have", line));
}
}
}
private ObjectId processHaveLines(List peerHas, ObjectId last)
throws IOException {
preUploadHook.onBeginNegotiateRound(this, wantIds, peerHas.size());
if (peerHas.isEmpty())
return last;
List toParse = peerHas;
HashSet peerHasSet = null;
boolean needMissing = false;
sentReady = false;
if (wantAll.isEmpty() && !wantIds.isEmpty()) {
// We have not yet parsed the want list. Parse it now.
peerHasSet = new HashSet(peerHas);
int cnt = wantIds.size() + peerHasSet.size();
toParse = new ArrayList(cnt);
toParse.addAll(wantIds);
toParse.addAll(peerHasSet);
needMissing = true;
}
Set notAdvertisedWants = null;
int haveCnt = 0;
AsyncRevObjectQueue q = walk.parseAny(toParse, needMissing);
try {
for (;;) {
RevObject obj;
try {
obj = q.next();
} catch (MissingObjectException notFound) {
ObjectId id = notFound.getObjectId();
if (wantIds.contains(id)) {
String msg = MessageFormat.format(
JGitText.get().wantNotValid, id.name());
throw new PackProtocolException(msg, notFound);
}
continue;
}
if (obj == null)
break;
// If the object is still found in wantIds, the want
// list wasn't parsed earlier, and was done in this batch.
//
if (wantIds.remove(obj)) {
if (!advertised.contains(obj) && requestPolicy != RequestPolicy.ANY) {
if (notAdvertisedWants == null)
notAdvertisedWants = new HashSet();
notAdvertisedWants.add(obj);
}
if (!obj.has(WANT)) {
obj.add(WANT);
wantAll.add(obj);
}
if (!(obj instanceof RevCommit))
obj.add(SATISFIED);
if (obj instanceof RevTag) {
RevObject target = walk.peel(obj);
if (target instanceof RevCommit) {
if (!target.has(WANT)) {
target.add(WANT);
wantAll.add(target);
}
}
}
if (!peerHasSet.contains(obj))
continue;
}
last = obj;
haveCnt++;
if (obj instanceof RevCommit) {
RevCommit c = (RevCommit) obj;
if (oldestTime == 0 || c.getCommitTime() < oldestTime)
oldestTime = c.getCommitTime();
}
if (obj.has(PEER_HAS))
continue;
obj.add(PEER_HAS);
if (obj instanceof RevCommit)
((RevCommit) obj).carry(PEER_HAS);
addCommonBase(obj);
// If both sides have the same object; let the client know.
//
switch (multiAck) {
case OFF:
if (commonBase.size() == 1)
pckOut.writeString("ACK " + obj.name() + "\n");
break;
case CONTINUE:
pckOut.writeString("ACK " + obj.name() + " continue\n");
break;
case DETAILED:
pckOut.writeString("ACK " + obj.name() + " common\n");
break;
}
}
} finally {
q.release();
}
// If the client asked for non advertised object, check our policy.
if (notAdvertisedWants != null && !notAdvertisedWants.isEmpty()) {
switch (requestPolicy) {
case ADVERTISED:
default:
throw new PackProtocolException(MessageFormat.format(
JGitText.get().wantNotValid,
notAdvertisedWants.iterator().next().name()));
case REACHABLE_COMMIT:
checkNotAdvertisedWants(notAdvertisedWants);
break;
case ANY:
// Allow whatever was asked for.
break;
}
}
int missCnt = peerHas.size() - haveCnt;
// If we don't have one of the objects but we're also willing to
// create a pack at this point, let the client know so it stops
// telling us about its history.
//
boolean didOkToGiveUp = false;
if (0 < missCnt) {
for (int i = peerHas.size() - 1; i >= 0; i--) {
ObjectId id = peerHas.get(i);
if (walk.lookupOrNull(id) == null) {
didOkToGiveUp = true;
if (okToGiveUp()) {
switch (multiAck) {
case OFF:
break;
case CONTINUE:
pckOut.writeString("ACK " + id.name() + " continue\n");
break;
case DETAILED:
pckOut.writeString("ACK " + id.name() + " ready\n");
sentReady = true;
break;
}
}
break;
}
}
}
if (multiAck == MultiAck.DETAILED && !didOkToGiveUp && okToGiveUp()) {
ObjectId id = peerHas.get(peerHas.size() - 1);
sentReady = true;
pckOut.writeString("ACK " + id.name() + " ready\n");
sentReady = true;
}
preUploadHook.onEndNegotiateRound(this, wantAll, haveCnt, missCnt, sentReady);
peerHas.clear();
return last;
}
private void checkNotAdvertisedWants(Set notAdvertisedWants)
throws MissingObjectException, IncorrectObjectTypeException, IOException {
// Walk the requested commits back to the advertised commits.
// If any commit exists, a branch was deleted or rewound and
// the repository owner no longer exports that requested item.
// If the requested commit is merged into an advertised branch
// it will be marked UNINTERESTING and no commits return.
for (RevObject o : notAdvertisedWants) {
if (!(o instanceof RevCommit)) {
throw new PackProtocolException(MessageFormat.format(
JGitText.get().wantNotValid,
notAdvertisedWants.iterator().next().name()));
}
walk.markStart((RevCommit) o);
}
for (ObjectId id : advertised) {
try {
walk.markUninteresting(walk.parseCommit(id));
} catch (IncorrectObjectTypeException notCommit) {
continue;
}
}
RevCommit bad = walk.next();
if (bad != null) {
throw new PackProtocolException(MessageFormat.format(
JGitText.get().wantNotValid,
bad.name()));
}
walk.reset();
}
private void addCommonBase(final RevObject o) {
if (!o.has(COMMON)) {
o.add(COMMON);
commonBase.add(o);
okToGiveUp = null;
}
}
private boolean okToGiveUp() throws PackProtocolException {
if (okToGiveUp == null)
okToGiveUp = Boolean.valueOf(okToGiveUpImp());
return okToGiveUp.booleanValue();
}
private boolean okToGiveUpImp() throws PackProtocolException {
if (commonBase.isEmpty())
return false;
try {
for (RevObject obj : wantAll) {
if (!wantSatisfied(obj))
return false;
}
return true;
} catch (IOException e) {
throw new PackProtocolException(JGitText.get().internalRevisionError, e);
}
}
private boolean wantSatisfied(final RevObject want) throws IOException {
if (want.has(SATISFIED))
return true;
walk.resetRetain(SAVE);
walk.markStart((RevCommit) want);
if (oldestTime != 0)
walk.setRevFilter(CommitTimeRevFilter.after(oldestTime * 1000L));
for (;;) {
final RevCommit c = walk.next();
if (c == null)
break;
if (c.has(PEER_HAS)) {
addCommonBase(c);
want.add(SATISFIED);
return true;
}
}
return false;
}
private void sendPack() throws IOException {
final boolean sideband = options.contains(OPTION_SIDE_BAND)
|| options.contains(OPTION_SIDE_BAND_64K);
if (!biDirectionalPipe) {
// Ensure the request was fully consumed. Any remaining input must
// be a protocol error. If we aren't at EOF the implementation is broken.
int eof = rawIn.read();
if (0 <= eof)
throw new CorruptObjectException(MessageFormat.format(
JGitText.get().expectedEOFReceived,
"\\x" + Integer.toHexString(eof)));
}
if (sideband) {
try {
sendPack(true);
} catch (UploadPackMayNotContinueException noPack) {
// This was already reported on (below).
throw noPack;
} catch (IOException err) {
if (reportInternalServerErrorOverSideband())
throw new UploadPackInternalServerErrorException(err);
else
throw err;
} catch (RuntimeException err) {
if (reportInternalServerErrorOverSideband())
throw new UploadPackInternalServerErrorException(err);
else
throw err;
} catch (Error err) {
if (reportInternalServerErrorOverSideband())
throw new UploadPackInternalServerErrorException(err);
else
throw err;
}
} else {
sendPack(false);
}
}
private boolean reportInternalServerErrorOverSideband() {
try {
SideBandOutputStream err = new SideBandOutputStream(
SideBandOutputStream.CH_ERROR,
SideBandOutputStream.SMALL_BUF,
rawOut);
err.write(Constants.encode(JGitText.get().internalServerError));
err.flush();
return true;
} catch (Throwable cannotReport) {
// Ignore the reason. This is a secondary failure.
return false;
}
}
private void sendPack(final boolean sideband) throws IOException {
ProgressMonitor pm = NullProgressMonitor.INSTANCE;
OutputStream packOut = rawOut;
SideBandOutputStream msgOut = null;
if (sideband) {
int bufsz = SideBandOutputStream.SMALL_BUF;
if (options.contains(OPTION_SIDE_BAND_64K))
bufsz = SideBandOutputStream.MAX_BUF;
packOut = new SideBandOutputStream(SideBandOutputStream.CH_DATA,
bufsz, rawOut);
if (!options.contains(OPTION_NO_PROGRESS)) {
msgOut = new SideBandOutputStream(
SideBandOutputStream.CH_PROGRESS, bufsz, rawOut);
pm = new SideBandProgressMonitor(msgOut);
}
}
try {
if (wantAll.isEmpty()) {
preUploadHook.onSendPack(this, wantIds, commonBase);
} else {
preUploadHook.onSendPack(this, wantAll, commonBase);
}
} catch (UploadPackMayNotContinueException noPack) {
if (sideband && noPack.getMessage() != null) {
noPack.setOutput();
SideBandOutputStream err = new SideBandOutputStream(
SideBandOutputStream.CH_ERROR,
SideBandOutputStream.SMALL_BUF, rawOut);
err.write(Constants.encode(noPack.getMessage()));
err.flush();
}
throw noPack;
}
PackConfig cfg = packConfig;
if (cfg == null)
cfg = new PackConfig(db);
final PackWriter pw = new PackWriter(cfg, walk.getObjectReader());
try {
pw.setUseCachedPacks(true);
pw.setReuseDeltaCommits(true);
pw.setDeltaBaseAsOffset(options.contains(OPTION_OFS_DELTA));
pw.setThin(options.contains(OPTION_THIN_PACK));
pw.setReuseValidatingObjects(false);
if (commonBase.isEmpty() && refs != null) {
Set tagTargets = new HashSet();
for (Ref ref : refs.values()) {
if (ref.getPeeledObjectId() != null)
tagTargets.add(ref.getPeeledObjectId());
else if (ref.getObjectId() == null)
continue;
else if (ref.getName().startsWith(Constants.R_HEADS))
tagTargets.add(ref.getObjectId());
}
pw.setTagTargets(tagTargets);
}
if (depth > 0)
pw.setShallowPack(depth, unshallowCommits);
RevWalk rw = walk;
if (wantAll.isEmpty()) {
pw.preparePack(pm, wantIds, commonBase);
} else {
walk.reset();
ObjectWalk ow = walk.toObjectWalkWithSameObjects();
pw.preparePack(pm, ow, wantAll, commonBase);
rw = ow;
}
if (options.contains(OPTION_INCLUDE_TAG) && refs != null) {
for (Ref ref : refs.values()) {
ObjectId objectId = ref.getObjectId();
// If the object was already requested, skip it.
if (wantAll.isEmpty()) {
if (wantIds.contains(objectId))
continue;
} else {
RevObject obj = rw.lookupOrNull(objectId);
if (obj != null && obj.has(WANT))
continue;
}
if (!ref.isPeeled())
ref = db.peel(ref);
ObjectId peeledId = ref.getPeeledObjectId();
if (peeledId == null)
continue;
objectId = ref.getObjectId();
if (pw.willInclude(peeledId) && !pw.willInclude(objectId))
pw.addObject(rw.parseAny(objectId));
}
}
pw.writePack(pm, NullProgressMonitor.INSTANCE, packOut);
statistics = pw.getStatistics();
if (msgOut != null) {
String msg = pw.getStatistics().getMessage() + '\n';
msgOut.write(Constants.encode(msg));
msgOut.flush();
}
} finally {
pw.release();
}
if (sideband)
pckOut.end();
if (logger != null && statistics != null)
logger.onPackStatistics(statistics);
}
}