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eclipse / jgit / jgit / 8782bf3084380b722d07d5a56ec75f3081e33d63 / . / org.eclipse.jgit.test / tst / org / eclipse / jgit / internal / storage / file / BatchRefUpdateTest.java
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/*
* Copyright (C) 2017 Google Inc. and others
*
* This program and the accompanying materials are made available under the
* terms of the Eclipse Distribution License v. 1.0 which is available at
* https://www.eclipse.org/org/documents/edl-v10.php.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
package org.eclipse.jgit.internal.storage.file;
import static java.nio.charset.StandardCharsets.UTF_8;
import static java.util.concurrent.TimeUnit.NANOSECONDS;
import static java.util.concurrent.TimeUnit.SECONDS;
import static org.eclipse.jgit.internal.storage.file.BatchRefUpdateTest.Result.LOCK_FAILURE;
import static org.eclipse.jgit.internal.storage.file.BatchRefUpdateTest.Result.OK;
import static org.eclipse.jgit.internal.storage.file.BatchRefUpdateTest.Result.REJECTED_MISSING_OBJECT;
import static org.eclipse.jgit.internal.storage.file.BatchRefUpdateTest.Result.REJECTED_NONFASTFORWARD;
import static org.eclipse.jgit.internal.storage.file.BatchRefUpdateTest.Result.TRANSACTION_ABORTED;
import static org.eclipse.jgit.lib.ObjectId.zeroId;
import static org.eclipse.jgit.transport.ReceiveCommand.Type.CREATE;
import static org.eclipse.jgit.transport.ReceiveCommand.Type.DELETE;
import static org.eclipse.jgit.transport.ReceiveCommand.Type.UPDATE;
import static org.eclipse.jgit.transport.ReceiveCommand.Type.UPDATE_NONFASTFORWARD;
import static org.junit.Assert.assertEquals;
import static org.junit.Assert.assertFalse;
import static org.junit.Assert.assertNotNull;
import static org.junit.Assert.assertNull;
import static org.junit.Assert.assertTrue;
import static org.junit.Assume.assumeFalse;
import static org.junit.Assume.assumeTrue;
import java.io.File;
import java.io.IOException;
import java.nio.file.Files;
import java.util.Arrays;
import java.util.Collection;
import java.util.Collections;
import java.util.LinkedHashMap;
import java.util.List;
import java.util.Map;
import java.util.concurrent.locks.ReentrantLock;
import java.util.function.Predicate;
import java.util.function.Function;
import java.util.stream.Collectors;
import org.eclipse.jgit.events.ListenerHandle;
import org.eclipse.jgit.events.RefsChangedListener;
import org.eclipse.jgit.junit.LocalDiskRepositoryTestCase;
import org.eclipse.jgit.junit.StrictWorkMonitor;
import org.eclipse.jgit.junit.TestRepository;
import org.eclipse.jgit.lib.AnyObjectId;
import org.eclipse.jgit.lib.BatchRefUpdate;
import org.eclipse.jgit.lib.CheckoutEntry;
import org.eclipse.jgit.lib.ConfigConstants;
import org.eclipse.jgit.lib.Constants;
import org.eclipse.jgit.lib.NullProgressMonitor;
import org.eclipse.jgit.lib.ObjectId;
import org.eclipse.jgit.lib.PersonIdent;
import org.eclipse.jgit.lib.Ref;
import org.eclipse.jgit.lib.RefDatabase;
import org.eclipse.jgit.lib.RefUpdate;
import org.eclipse.jgit.lib.ReflogEntry;
import org.eclipse.jgit.lib.ReflogReader;
import org.eclipse.jgit.lib.Repository;
import org.eclipse.jgit.lib.StoredConfig;
import org.eclipse.jgit.revwalk.RevCommit;
import org.eclipse.jgit.revwalk.RevWalk;
import org.eclipse.jgit.transport.ReceiveCommand;
import org.junit.After;
import org.junit.Before;
import org.junit.Test;
import org.junit.runner.RunWith;
import org.junit.runners.Parameterized;
import org.junit.runners.Parameterized.Parameter;
import org.junit.runners.Parameterized.Parameters;
@SuppressWarnings("boxing")
@RunWith(Parameterized.class)
public class BatchRefUpdateTest extends LocalDiskRepositoryTestCase {
@Parameter(0)
public boolean atomic;
@Parameter(1)
public boolean useReftable;
@Parameters(name = "atomic={0} reftable={1}")
public static Collection<Object[]> data() {
return Arrays.asList(new Object[][] { { Boolean.FALSE, Boolean.FALSE },
{ Boolean.TRUE, Boolean.FALSE },
{ Boolean.FALSE, Boolean.TRUE },
{ Boolean.TRUE, Boolean.TRUE }, });
}
private Repository diskRepo;
private TestRepository<Repository> repo;
private RefDirectory refdir;
private RevCommit A;
private RevCommit B; // B descends from A.
/**
* When asserting the number of RefsChangedEvents you must account for one
* additional event due to the initial ref setup via a number of calls to
* {@link #writeLooseRef(String, AnyObjectId)} (will be fired in execute()
* when it is detected that the on-disk loose refs have changed), or for one
* additional event per {@link #writeRef(String, AnyObjectId)}.
*/
private int refsChangedEvents;
private ListenerHandle handle;
private RefsChangedListener refsChangedListener = event -> {
refsChangedEvents++;
};
@Override
@Before
public void setUp() throws Exception {
super.setUp();
FileRepository fileRepo = createBareRepository();
if (useReftable) {
fileRepo.convertToReftable(false, false);
}
diskRepo = fileRepo;
addRepoToClose(diskRepo);
setLogAllRefUpdates(true);
if (!useReftable) {
refdir = (RefDirectory) diskRepo.getRefDatabase();
refdir.setRetrySleepMs(Arrays.asList(0, 0));
}
repo = new TestRepository<>(diskRepo);
A = repo.commit().create();
B = repo.commit(repo.getRevWalk().parseCommit(A));
refsChangedEvents = 0;
handle = diskRepo.getListenerList()
.addRefsChangedListener(refsChangedListener);
}
@After
public void removeListener() {
handle.remove();
refsChangedEvents = 0;
}
@Test
public void packedRefsFileIsSorted() throws IOException {
assumeTrue(atomic);
assumeFalse(useReftable);
for (int i = 0; i < 2; i++) {
BatchRefUpdate bu = diskRepo.getRefDatabase().newBatchUpdate();
String b1 = String.format("refs/heads/a%d", i);
String b2 = String.format("refs/heads/b%d", i);
bu.setAtomic(atomic);
ReceiveCommand c1 = new ReceiveCommand(ObjectId.zeroId(), A, b1);
ReceiveCommand c2 = new ReceiveCommand(ObjectId.zeroId(), B, b2);
bu.addCommand(c1, c2);
try (RevWalk rw = new RevWalk(diskRepo)) {
bu.execute(rw, NullProgressMonitor.INSTANCE);
}
assertEquals(c1.getResult(), ReceiveCommand.Result.OK);
assertEquals(c2.getResult(), ReceiveCommand.Result.OK);
}
File packed = new File(diskRepo.getDirectory(), "packed-refs");
String packedStr = new String(Files.readAllBytes(packed.toPath()),
UTF_8);
int a2 = packedStr.indexOf("refs/heads/a1");
int b1 = packedStr.indexOf("refs/heads/b0");
assertTrue(a2 < b1);
}
@Test
public void simpleNoForce() throws IOException {
writeLooseRefs("refs/heads/master", A, "refs/heads/masters", B);
List<ReceiveCommand> cmds = Arrays.asList(
new ReceiveCommand(A, B, "refs/heads/master", UPDATE),
new ReceiveCommand(B, A, "refs/heads/masters",
UPDATE_NONFASTFORWARD));
execute(newBatchUpdate(cmds));
if (atomic) {
assertResults(cmds, TRANSACTION_ABORTED, REJECTED_NONFASTFORWARD);
assertRefs("refs/heads/master", A, "refs/heads/masters", B);
} else {
assertResults(cmds, OK, REJECTED_NONFASTFORWARD);
assertRefs("refs/heads/master", B, "refs/heads/masters", B);
}
}
@Test
public void simpleNoForceRefsChangedEvents() throws IOException {
writeLooseRefs("refs/heads/master", A, "refs/heads/masters", B);
int initialRefsChangedEvents = refsChangedEvents;
List<ReceiveCommand> cmds = Arrays.asList(
new ReceiveCommand(A, B, "refs/heads/master", UPDATE),
new ReceiveCommand(B, A, "refs/heads/masters",
UPDATE_NONFASTFORWARD));
execute(newBatchUpdate(cmds));
assertEquals(atomic ? initialRefsChangedEvents
: initialRefsChangedEvents + 1, refsChangedEvents);
}
@Test
public void simpleForce() throws IOException {
writeLooseRefs("refs/heads/master", A, "refs/heads/masters", B);
List<ReceiveCommand> cmds = Arrays.asList(
new ReceiveCommand(A, B, "refs/heads/master", UPDATE),
new ReceiveCommand(B, A, "refs/heads/masters",
UPDATE_NONFASTFORWARD));
execute(newBatchUpdate(cmds).setAllowNonFastForwards(true));
assertResults(cmds, OK, OK);
assertRefs("refs/heads/master", B, "refs/heads/masters", A);
}
@Test
public void simpleForceRefsChangedEvents() throws IOException {
writeLooseRefs("refs/heads/master", A, "refs/heads/masters", B);
int initialRefsChangedEvents = refsChangedEvents;
List<ReceiveCommand> cmds = Arrays.asList(
new ReceiveCommand(A, B, "refs/heads/master", UPDATE),
new ReceiveCommand(B, A, "refs/heads/masters",
UPDATE_NONFASTFORWARD));
execute(newBatchUpdate(cmds).setAllowNonFastForwards(true));
assertEquals(batchesRefUpdates() ? initialRefsChangedEvents + 1
: initialRefsChangedEvents + 2, refsChangedEvents);
}
@Test
public void nonFastForwardDoesNotDoExpensiveMergeCheck()
throws IOException {
writeLooseRef("refs/heads/master", B);
List<ReceiveCommand> cmds = Arrays.asList(new ReceiveCommand(B, A,
"refs/heads/master", UPDATE_NONFASTFORWARD));
try (RevWalk rw = new RevWalk(diskRepo) {
@Override
public boolean isMergedInto(RevCommit base, RevCommit tip) {
throw new AssertionError("isMergedInto() should not be called");
}
}) {
newBatchUpdate(cmds).setAllowNonFastForwards(true).execute(rw,
new StrictWorkMonitor());
}
assertResults(cmds, OK);
assertRefs("refs/heads/master", A);
}
@Test
public void nonFastForwardDoesNotDoExpensiveMergeCheckRefsChangedEvents()
throws IOException {
writeLooseRef("refs/heads/master", B);
int initialRefsChangedEvents = refsChangedEvents;
List<ReceiveCommand> cmds = Arrays.asList(new ReceiveCommand(B, A,
"refs/heads/master", UPDATE_NONFASTFORWARD));
try (RevWalk rw = new RevWalk(diskRepo) {
@Override
public boolean isMergedInto(RevCommit base, RevCommit tip) {
throw new AssertionError("isMergedInto() should not be called");
}
}) {
newBatchUpdate(cmds).setAllowNonFastForwards(true).execute(rw,
new StrictWorkMonitor());
}
assertEquals(initialRefsChangedEvents + 1, refsChangedEvents);
}
@Test
public void fileDirectoryConflict() throws IOException {
writeLooseRefs("refs/heads/master", A, "refs/heads/masters", B);
List<ReceiveCommand> cmds = Arrays.asList(
new ReceiveCommand(A, B, "refs/heads/master", UPDATE),
new ReceiveCommand(zeroId(), A, "refs/heads/master/x", CREATE),
new ReceiveCommand(zeroId(), A, "refs/heads", CREATE));
execute(newBatchUpdate(cmds).setAllowNonFastForwards(true), false);
if (atomic) {
// Atomic update sees that master and master/x are conflicting, then
// marks the first one in the list as LOCK_FAILURE and aborts the rest.
assertResults(cmds, LOCK_FAILURE, TRANSACTION_ABORTED,
TRANSACTION_ABORTED);
assertRefs("refs/heads/master", A, "refs/heads/masters", B);
} else {
// Non-atomic updates are applied in order: master succeeds, then
// master/x fails due to conflict.
assertResults(cmds, OK, LOCK_FAILURE, LOCK_FAILURE);
assertRefs("refs/heads/master", B, "refs/heads/masters", B);
}
}
@Test
public void fileDirectoryConflictRefsChangedEvents() throws IOException {
writeLooseRefs("refs/heads/master", A, "refs/heads/masters", B);
int initialRefsChangedEvents = refsChangedEvents;
List<ReceiveCommand> cmds = Arrays.asList(
new ReceiveCommand(A, B, "refs/heads/master", UPDATE),
new ReceiveCommand(zeroId(), A, "refs/heads/master/x", CREATE),
new ReceiveCommand(zeroId(), A, "refs/heads", CREATE));
execute(newBatchUpdate(cmds).setAllowNonFastForwards(true), false);
assertEquals(atomic ? initialRefsChangedEvents
: initialRefsChangedEvents + 1, refsChangedEvents);
}
@Test
public void conflictThanksToDelete() throws IOException {
writeLooseRefs("refs/heads/master", A, "refs/heads/masters", B);
List<ReceiveCommand> cmds = Arrays.asList(
new ReceiveCommand(A, B, "refs/heads/master", UPDATE),
new ReceiveCommand(zeroId(), A, "refs/heads/masters/x", CREATE),
new ReceiveCommand(B, zeroId(), "refs/heads/masters", DELETE));
execute(newBatchUpdate(cmds).setAllowNonFastForwards(true));
assertResults(cmds, OK, OK, OK);
assertRefs("refs/heads/master", B, "refs/heads/masters/x", A);
}
@Test
public void conflictThanksToDeleteRefsChangedEvents() throws IOException {
writeLooseRefs("refs/heads/master", A, "refs/heads/masters", B);
int initialRefsChangedEvents = refsChangedEvents;
List<ReceiveCommand> cmds = Arrays.asList(
new ReceiveCommand(A, B, "refs/heads/master", UPDATE),
new ReceiveCommand(zeroId(), A, "refs/heads/masters/x", CREATE),
new ReceiveCommand(B, zeroId(), "refs/heads/masters", DELETE));
execute(newBatchUpdate(cmds).setAllowNonFastForwards(true));
assertEquals(batchesRefUpdates() ? initialRefsChangedEvents + 1
: initialRefsChangedEvents + 3, refsChangedEvents);
}
@Test
public void updateToMissingObject() throws IOException {
writeLooseRef("refs/heads/master", A);
ObjectId bad = ObjectId
.fromString("deadbeefdeadbeefdeadbeefdeadbeefdeadbeef");
List<ReceiveCommand> cmds = Arrays.asList(
new ReceiveCommand(A, bad, "refs/heads/master", UPDATE),
new ReceiveCommand(zeroId(), B, "refs/heads/foo2", CREATE));
execute(newBatchUpdate(cmds).setAllowNonFastForwards(true), false);
if (atomic) {
assertResults(cmds, REJECTED_MISSING_OBJECT, TRANSACTION_ABORTED);
assertRefs("refs/heads/master", A);
} else {
assertResults(cmds, REJECTED_MISSING_OBJECT, OK);
assertRefs("refs/heads/master", A, "refs/heads/foo2", B);
}
}
@Test
public void updateToMissingObjectRefsChangedEvents() throws IOException {
writeLooseRef("refs/heads/master", A);
int initialRefsChangedEvents = refsChangedEvents;
ObjectId bad = ObjectId
.fromString("deadbeefdeadbeefdeadbeefdeadbeefdeadbeef");
List<ReceiveCommand> cmds = Arrays.asList(
new ReceiveCommand(A, bad, "refs/heads/master", UPDATE),
new ReceiveCommand(zeroId(), B, "refs/heads/foo2", CREATE));
execute(newBatchUpdate(cmds).setAllowNonFastForwards(true), false);
assertEquals(atomic ? initialRefsChangedEvents
: initialRefsChangedEvents + 1, refsChangedEvents);
}
@Test
public void addMissingObject() throws IOException {
writeLooseRef("refs/heads/master", A);
ObjectId bad = ObjectId
.fromString("deadbeefdeadbeefdeadbeefdeadbeefdeadbeef");
List<ReceiveCommand> cmds = Arrays.asList(
new ReceiveCommand(A, B, "refs/heads/master", UPDATE),
new ReceiveCommand(zeroId(), bad, "refs/heads/foo2", CREATE));
execute(newBatchUpdate(cmds).setAllowNonFastForwards(true), false);
if (atomic) {
assertResults(cmds, TRANSACTION_ABORTED, REJECTED_MISSING_OBJECT);
assertRefs("refs/heads/master", A);
} else {
assertResults(cmds, OK, REJECTED_MISSING_OBJECT);
assertRefs("refs/heads/master", B);
}
}
@Test
public void addMissingObjectRefsChangedEvents() throws IOException {
writeLooseRef("refs/heads/master", A);
int initialRefsChangedEvents = refsChangedEvents;
ObjectId bad = ObjectId
.fromString("deadbeefdeadbeefdeadbeefdeadbeefdeadbeef");
List<ReceiveCommand> cmds = Arrays.asList(
new ReceiveCommand(A, B, "refs/heads/master", UPDATE),
new ReceiveCommand(zeroId(), bad, "refs/heads/foo2", CREATE));
execute(newBatchUpdate(cmds).setAllowNonFastForwards(true), false);
assertEquals(atomic ? initialRefsChangedEvents
: initialRefsChangedEvents + 1, refsChangedEvents);
}
@Test
public void oneNonExistentRef() throws IOException {
List<ReceiveCommand> cmds = Arrays.asList(
new ReceiveCommand(A, B, "refs/heads/foo1", UPDATE),
new ReceiveCommand(zeroId(), B, "refs/heads/foo2", CREATE));
execute(newBatchUpdate(cmds).setAllowNonFastForwards(true));
if (atomic) {
assertResults(cmds, LOCK_FAILURE, TRANSACTION_ABORTED);
assertRefs();
assertEquals(0, refsChangedEvents);
} else {
assertResults(cmds, LOCK_FAILURE, OK);
assertRefs("refs/heads/foo2", B);
assertEquals(1, refsChangedEvents);
}
}
@Test
public void oneRefWrongOldValue() throws IOException {
writeLooseRef("refs/heads/master", A);
List<ReceiveCommand> cmds = Arrays.asList(
new ReceiveCommand(B, B, "refs/heads/master", UPDATE),
new ReceiveCommand(zeroId(), B, "refs/heads/foo2", CREATE));
execute(newBatchUpdate(cmds).setAllowNonFastForwards(true));
if (atomic) {
assertResults(cmds, LOCK_FAILURE, TRANSACTION_ABORTED);
assertRefs("refs/heads/master", A);
} else {
assertResults(cmds, LOCK_FAILURE, OK);
assertRefs("refs/heads/master", A, "refs/heads/foo2", B);
}
}
@Test
public void oneRefWrongOldValueRefsChangedEvents() throws IOException {
writeLooseRef("refs/heads/master", A);
int initialRefsChangedEvents = refsChangedEvents;
List<ReceiveCommand> cmds = Arrays.asList(
new ReceiveCommand(B, B, "refs/heads/master", UPDATE),
new ReceiveCommand(zeroId(), B, "refs/heads/foo2", CREATE));
execute(newBatchUpdate(cmds).setAllowNonFastForwards(true));
assertEquals(atomic ? initialRefsChangedEvents
: initialRefsChangedEvents + 1, refsChangedEvents);
}
@Test
public void nonExistentRef() throws IOException {
writeLooseRef("refs/heads/master", A);
List<ReceiveCommand> cmds = Arrays.asList(
new ReceiveCommand(A, B, "refs/heads/master", UPDATE),
new ReceiveCommand(A, zeroId(), "refs/heads/foo2", DELETE));
execute(newBatchUpdate(cmds).setAllowNonFastForwards(true));
if (atomic) {
assertResults(cmds, TRANSACTION_ABORTED, LOCK_FAILURE);
assertRefs("refs/heads/master", A);
} else {
assertResults(cmds, OK, LOCK_FAILURE);
assertRefs("refs/heads/master", B);
}
}
@Test
public void nonExistentRefRefsChangedEvents() throws IOException {
writeLooseRef("refs/heads/master", A);
int initialRefsChangedEvents = refsChangedEvents;
List<ReceiveCommand> cmds = Arrays.asList(
new ReceiveCommand(A, B, "refs/heads/master", UPDATE),
new ReceiveCommand(A, zeroId(), "refs/heads/foo2", DELETE));
execute(newBatchUpdate(cmds).setAllowNonFastForwards(true));
assertEquals(atomic ? initialRefsChangedEvents
: initialRefsChangedEvents + 1, refsChangedEvents);
}
@Test
public void noRefLog() throws IOException {
writeRef("refs/heads/master", A);
int initialRefsChangedEvents = refsChangedEvents;
Map<String, ReflogEntry> oldLogs = getLastReflogs("refs/heads/master",
"refs/heads/branch");
assertEquals(Collections.singleton("refs/heads/master"),
oldLogs.keySet());
List<ReceiveCommand> cmds = Arrays.asList(
new ReceiveCommand(A, B, "refs/heads/master", UPDATE),
new ReceiveCommand(zeroId(), B, "refs/heads/branch", CREATE));
execute(newBatchUpdate(cmds).setAllowNonFastForwards(true));
assertResults(cmds, OK, OK);
assertRefs("refs/heads/master", B, "refs/heads/branch", B);
assertEquals(batchesRefUpdates() ? initialRefsChangedEvents + 1
: initialRefsChangedEvents + 2, refsChangedEvents);
assertReflogUnchanged(oldLogs, "refs/heads/master");
assertReflogUnchanged(oldLogs, "refs/heads/branch");
}
@Test
public void reflogDefaultIdent() throws IOException {
writeRef("refs/heads/master", A);
writeRef("refs/heads/branch2", A);
int initialRefsChangedEvents = refsChangedEvents;
Map<String, ReflogEntry> oldLogs = getLastReflogs("refs/heads/master",
"refs/heads/branch1", "refs/heads/branch2");
List<ReceiveCommand> cmds = Arrays.asList(
new ReceiveCommand(A, B, "refs/heads/master", UPDATE),
new ReceiveCommand(zeroId(), B, "refs/heads/branch1", CREATE));
execute(newBatchUpdate(cmds).setAllowNonFastForwards(true)
.setRefLogMessage("a reflog", false));
assertResults(cmds, OK, OK);
assertRefs("refs/heads/master", B, "refs/heads/branch1", B,
"refs/heads/branch2", A);
assertEquals(batchesRefUpdates() ? initialRefsChangedEvents + 1
: initialRefsChangedEvents + 2, refsChangedEvents);
assertReflogEquals(reflog(A, B, new PersonIdent(diskRepo), "a reflog"),
getLastReflog("refs/heads/master"));
assertReflogEquals(
reflog(zeroId(), B, new PersonIdent(diskRepo), "a reflog"),
getLastReflog("refs/heads/branch1"));
assertReflogUnchanged(oldLogs, "refs/heads/branch2");
}
@Test
public void reflogAppendStatusNoMessage() throws IOException {
writeRef("refs/heads/master", A);
writeRef("refs/heads/branch1", B);
int initialRefsChangedEvents = refsChangedEvents;
List<ReceiveCommand> cmds = Arrays.asList(
new ReceiveCommand(A, B, "refs/heads/master", UPDATE),
new ReceiveCommand(B, A, "refs/heads/branch1",
UPDATE_NONFASTFORWARD),
new ReceiveCommand(zeroId(), A, "refs/heads/branch2", CREATE));
execute(newBatchUpdate(cmds).setAllowNonFastForwards(true)
.setRefLogMessage(null, true));
assertResults(cmds, OK, OK, OK);
assertRefs("refs/heads/master", B, "refs/heads/branch1", A,
"refs/heads/branch2", A);
assertEquals(batchesRefUpdates() ? initialRefsChangedEvents + 1
: initialRefsChangedEvents + 3, refsChangedEvents);
assertReflogEquals(
// Always forced; setAllowNonFastForwards(true) bypasses the
// check.
reflog(A, B, new PersonIdent(diskRepo), "forced-update"),
getLastReflog("refs/heads/master"));
assertReflogEquals(
reflog(B, A, new PersonIdent(diskRepo), "forced-update"),
getLastReflog("refs/heads/branch1"));
assertReflogEquals(
reflog(zeroId(), A, new PersonIdent(diskRepo), "created"),
getLastReflog("refs/heads/branch2"));
}
@Test
public void reflogAppendStatusFastForward() throws IOException {
writeRef("refs/heads/master", A);
int initialRefsChangedEvents = refsChangedEvents;
List<ReceiveCommand> cmds = Arrays
.asList(new ReceiveCommand(A, B, "refs/heads/master", UPDATE));
execute(newBatchUpdate(cmds).setRefLogMessage(null, true));
assertResults(cmds, OK);
assertRefs("refs/heads/master", B);
assertEquals(initialRefsChangedEvents + 1, refsChangedEvents);
assertReflogEquals(
reflog(A, B, new PersonIdent(diskRepo), "fast-forward"),
getLastReflog("refs/heads/master"));
}
@Test
public void reflogAppendStatusWithMessage() throws IOException {
writeRef("refs/heads/master", A);
int initialRefsChangedEvents = refsChangedEvents;
List<ReceiveCommand> cmds = Arrays.asList(
new ReceiveCommand(A, B, "refs/heads/master", UPDATE),
new ReceiveCommand(zeroId(), A, "refs/heads/branch", CREATE));
execute(newBatchUpdate(cmds).setRefLogMessage("a reflog", true));
assertResults(cmds, OK, OK);
assertRefs("refs/heads/master", B, "refs/heads/branch", A);
assertEquals(batchesRefUpdates() ? initialRefsChangedEvents + 1
: initialRefsChangedEvents + 2, refsChangedEvents);
assertReflogEquals(
reflog(A, B, new PersonIdent(diskRepo),
"a reflog: fast-forward"),
getLastReflog("refs/heads/master"));
assertReflogEquals(
reflog(zeroId(), A, new PersonIdent(diskRepo),
"a reflog: created"),
getLastReflog("refs/heads/branch"));
}
@Test
public void reflogCustomIdent() throws IOException {
writeRef("refs/heads/master", A);
int initialRefsChangedEvents = refsChangedEvents;
List<ReceiveCommand> cmds = Arrays.asList(
new ReceiveCommand(A, B, "refs/heads/master", UPDATE),
new ReceiveCommand(zeroId(), B, "refs/heads/branch", CREATE));
PersonIdent ident = new PersonIdent("A Reflog User",
"reflog@example.com");
execute(newBatchUpdate(cmds).setRefLogMessage("a reflog", false)
.setRefLogIdent(ident));
assertResults(cmds, OK, OK);
assertEquals(batchesRefUpdates() ? initialRefsChangedEvents + 1
: initialRefsChangedEvents + 2, refsChangedEvents);
assertRefs("refs/heads/master", B, "refs/heads/branch", B);
assertReflogEquals(reflog(A, B, ident, "a reflog"),
getLastReflog("refs/heads/master"), true);
assertReflogEquals(reflog(zeroId(), B, ident, "a reflog"),
getLastReflog("refs/heads/branch"), true);
}
@Test
public void reflogDelete() throws IOException {
writeRef("refs/heads/master", A);
writeRef("refs/heads/branch", A);
int initialRefsChangedEvents = refsChangedEvents;
assertEquals(2, getLastReflogs("refs/heads/master", "refs/heads/branch")
.size());
List<ReceiveCommand> cmds = Arrays.asList(
new ReceiveCommand(A, zeroId(), "refs/heads/master", DELETE),
new ReceiveCommand(A, B, "refs/heads/branch", UPDATE));
execute(newBatchUpdate(cmds).setRefLogMessage("a reflog", false));
assertResults(cmds, OK, OK);
assertRefs("refs/heads/branch", B);
assertEquals(batchesRefUpdates() ? initialRefsChangedEvents + 1
: initialRefsChangedEvents + 2, refsChangedEvents);
if (useReftable) {
// reftable retains reflog entries for deleted branches.
assertReflogEquals(
reflog(A, zeroId(), new PersonIdent(diskRepo), "a reflog"),
getLastReflog("refs/heads/master"));
} else {
assertNull(getLastReflog("refs/heads/master"));
}
assertReflogEquals(reflog(A, B, new PersonIdent(diskRepo), "a reflog"),
getLastReflog("refs/heads/branch"));
}
@Test
public void reflogFileDirectoryConflict() throws IOException {
writeRef("refs/heads/master", A);
int initialRefsChangedEvents = refsChangedEvents;
List<ReceiveCommand> cmds = Arrays.asList(
new ReceiveCommand(A, zeroId(), "refs/heads/master", DELETE),
new ReceiveCommand(zeroId(), A, "refs/heads/master/x", CREATE));
execute(newBatchUpdate(cmds).setRefLogMessage("a reflog", false));
assertResults(cmds, OK, OK);
assertRefs("refs/heads/master/x", A);
assertEquals(batchesRefUpdates() ? initialRefsChangedEvents + 1
: initialRefsChangedEvents + 2, refsChangedEvents);
if (!useReftable) {
// reftable retains reflog entries for deleted branches.
assertNull(getLastReflog("refs/heads/master"));
}
assertReflogEquals(
reflog(zeroId(), A, new PersonIdent(diskRepo), "a reflog"),
getLastReflog("refs/heads/master/x"));
}
@Test
public void reflogOnLockFailure() throws IOException {
writeRef("refs/heads/master", A);
int initialRefsChangedEvents = refsChangedEvents;
Map<String, ReflogEntry> oldLogs = getLastReflogs("refs/heads/master",
"refs/heads/branch");
List<ReceiveCommand> cmds = Arrays.asList(
new ReceiveCommand(A, B, "refs/heads/master", UPDATE),
new ReceiveCommand(A, B, "refs/heads/branch", UPDATE));
execute(newBatchUpdate(cmds).setRefLogMessage("a reflog", false));
if (atomic) {
assertResults(cmds, TRANSACTION_ABORTED, LOCK_FAILURE);
assertEquals(initialRefsChangedEvents, refsChangedEvents);
assertReflogUnchanged(oldLogs, "refs/heads/master");
assertReflogUnchanged(oldLogs, "refs/heads/branch");
} else {
assertResults(cmds, OK, LOCK_FAILURE);
assertEquals(initialRefsChangedEvents + 1, refsChangedEvents);
assertReflogEquals(
reflog(A, B, new PersonIdent(diskRepo), "a reflog"),
getLastReflog("refs/heads/master"));
assertReflogUnchanged(oldLogs, "refs/heads/branch");
}
}
@Test
public void overrideRefLogMessage() throws Exception {
writeRef("refs/heads/master", A);
int initialRefsChangedEvents = refsChangedEvents;
List<ReceiveCommand> cmds = Arrays.asList(
new ReceiveCommand(A, B, "refs/heads/master", UPDATE),
new ReceiveCommand(zeroId(), B, "refs/heads/branch", CREATE));
cmds.get(0).setRefLogMessage("custom log", false);
PersonIdent ident = new PersonIdent(diskRepo);
execute(newBatchUpdate(cmds).setRefLogIdent(ident)
.setRefLogMessage("a reflog", true));
assertResults(cmds, OK, OK);
assertEquals(batchesRefUpdates() ? initialRefsChangedEvents + 1
: initialRefsChangedEvents + 2, refsChangedEvents);
assertReflogEquals(reflog(A, B, ident, "custom log"),
getLastReflog("refs/heads/master"), true);
assertReflogEquals(reflog(zeroId(), B, ident, "a reflog: created"),
getLastReflog("refs/heads/branch"), true);
}
@Test
public void overrideDisableRefLog() throws Exception {
writeRef("refs/heads/master", A);
int initialRefsChangedEvents = refsChangedEvents;
Map<String, ReflogEntry> oldLogs = getLastReflogs("refs/heads/master",
"refs/heads/branch");
List<ReceiveCommand> cmds = Arrays.asList(
new ReceiveCommand(A, B, "refs/heads/master", UPDATE),
new ReceiveCommand(zeroId(), B, "refs/heads/branch", CREATE));
cmds.get(0).disableRefLog();
execute(newBatchUpdate(cmds).setRefLogMessage("a reflog", true));
assertResults(cmds, OK, OK);
assertEquals(batchesRefUpdates() ? initialRefsChangedEvents + 1
: initialRefsChangedEvents + 2, refsChangedEvents);
assertReflogUnchanged(oldLogs, "refs/heads/master");
assertReflogEquals(
reflog(zeroId(), B, new PersonIdent(diskRepo),
"a reflog: created"),
getLastReflog("refs/heads/branch"));
}
@Test
public void refLogNotWrittenWithoutConfigOption() throws Exception {
assumeFalse(useReftable);
setLogAllRefUpdates(false);
writeRef("refs/heads/master", A);
Map<String, ReflogEntry> oldLogs = getLastReflogs("refs/heads/master",
"refs/heads/branch");
assertTrue(oldLogs.isEmpty());
List<ReceiveCommand> cmds = Arrays.asList(
new ReceiveCommand(A, B, "refs/heads/master", UPDATE),
new ReceiveCommand(zeroId(), B, "refs/heads/branch", CREATE));
execute(newBatchUpdate(cmds).setRefLogMessage("a reflog", false));
assertResults(cmds, OK, OK);
assertReflogUnchanged(oldLogs, "refs/heads/master");
assertReflogUnchanged(oldLogs, "refs/heads/branch");
}
@Test
public void forceRefLogInUpdate() throws Exception {
assumeFalse(useReftable);
setLogAllRefUpdates(false);
writeRef("refs/heads/master", A);
assertTrue(getLastReflogs("refs/heads/master", "refs/heads/branch")
.isEmpty());
List<ReceiveCommand> cmds = Arrays.asList(
new ReceiveCommand(A, B, "refs/heads/master", UPDATE),
new ReceiveCommand(zeroId(), B, "refs/heads/branch", CREATE));
execute(newBatchUpdate(cmds).setRefLogMessage("a reflog", false)
.setForceRefLog(true));
assertResults(cmds, OK, OK);
assertReflogEquals(reflog(A, B, new PersonIdent(diskRepo), "a reflog"),
getLastReflog("refs/heads/master"));
assertReflogEquals(
reflog(zeroId(), B, new PersonIdent(diskRepo), "a reflog"),
getLastReflog("refs/heads/branch"));
}
@Test
public void forceRefLogInCommand() throws Exception {
assumeFalse(useReftable);
setLogAllRefUpdates(false);
writeRef("refs/heads/master", A);
Map<String, ReflogEntry> oldLogs = getLastReflogs("refs/heads/master",
"refs/heads/branch");
assertTrue(oldLogs.isEmpty());
List<ReceiveCommand> cmds = Arrays.asList(
new ReceiveCommand(A, B, "refs/heads/master", UPDATE),
new ReceiveCommand(zeroId(), B, "refs/heads/branch", CREATE));
cmds.get(1).setForceRefLog(true);
execute(newBatchUpdate(cmds).setRefLogMessage("a reflog", false));
assertResults(cmds, OK, OK);
assertReflogUnchanged(oldLogs, "refs/heads/master");
assertReflogEquals(
reflog(zeroId(), B, new PersonIdent(diskRepo), "a reflog"),
getLastReflog("refs/heads/branch"));
}
@Test
public void packedRefsLockFailure() throws Exception {
assumeFalse(useReftable);
writeLooseRef("refs/heads/master", A);
List<ReceiveCommand> cmds = Arrays.asList(
new ReceiveCommand(A, B, "refs/heads/master", UPDATE),
new ReceiveCommand(zeroId(), B, "refs/heads/branch", CREATE));
LockFile myLock = refdir.lockPackedRefs();
try {
execute(newBatchUpdate(cmds).setAllowNonFastForwards(true));
assertFalse(getLockFile("refs/heads/master").exists());
assertFalse(getLockFile("refs/heads/branch").exists());
if (atomic) {
assertResults(cmds, LOCK_FAILURE, TRANSACTION_ABORTED);
assertRefs("refs/heads/master", A);
} else {
// Only operates on loose refs, doesn't care that packed-refs is
// locked.
assertResults(cmds, OK, OK);
assertRefs("refs/heads/master", B, "refs/heads/branch", B);
}
} finally {
myLock.unlock();
}
}
@Test
public void packedRefsLockFailureRefsChangedEvents() throws Exception {
assumeFalse(useReftable);
writeLooseRef("refs/heads/master", A);
int initialRefsChangedEvents = refsChangedEvents;
List<ReceiveCommand> cmds = Arrays.asList(
new ReceiveCommand(A, B, "refs/heads/master", UPDATE),
new ReceiveCommand(zeroId(), B, "refs/heads/branch", CREATE));
LockFile myLock = refdir.lockPackedRefs();
try {
execute(newBatchUpdate(cmds).setAllowNonFastForwards(true));
assertEquals(atomic ? initialRefsChangedEvents
: initialRefsChangedEvents + 2, refsChangedEvents);
} finally {
myLock.unlock();
}
}
@Test
public void oneRefLockFailure() throws Exception {
assumeFalse(useReftable);
writeLooseRef("refs/heads/master", A);
List<ReceiveCommand> cmds = Arrays.asList(
new ReceiveCommand(zeroId(), B, "refs/heads/branch", CREATE),
new ReceiveCommand(A, B, "refs/heads/master", UPDATE));
LockFile myLock = new LockFile(refdir.fileFor("refs/heads/master"));
assertTrue(myLock.lock());
try {
execute(newBatchUpdate(cmds).setAllowNonFastForwards(true));
assertFalse(LockFile.getLockFile(refdir.packedRefsFile).exists());
assertFalse(getLockFile("refs/heads/branch").exists());
if (atomic) {
assertResults(cmds, TRANSACTION_ABORTED, LOCK_FAILURE);
assertRefs("refs/heads/master", A);
} else {
assertResults(cmds, OK, LOCK_FAILURE);
assertRefs("refs/heads/branch", B, "refs/heads/master", A);
}
} finally {
myLock.unlock();
}
}
@Test
public void oneRefLockFailureRefsChangedEvents() throws Exception {
assumeFalse(useReftable);
writeLooseRef("refs/heads/master", A);
int initialRefsChangedEvents = refsChangedEvents;
List<ReceiveCommand> cmds = Arrays.asList(
new ReceiveCommand(zeroId(), B, "refs/heads/branch", CREATE),
new ReceiveCommand(A, B, "refs/heads/master", UPDATE));
LockFile myLock = new LockFile(refdir.fileFor("refs/heads/master"));
assertTrue(myLock.lock());
try {
execute(newBatchUpdate(cmds).setAllowNonFastForwards(true));
assertEquals(atomic ? initialRefsChangedEvents
: initialRefsChangedEvents + 1, refsChangedEvents);
} finally {
myLock.unlock();
}
}
@Test
public void singleRefUpdateDoesNotRequirePackedRefsLock() throws Exception {
assumeFalse(useReftable);
writeLooseRef("refs/heads/master", A);
List<ReceiveCommand> cmds = Arrays
.asList(new ReceiveCommand(A, B, "refs/heads/master", UPDATE));
LockFile myLock = refdir.lockPackedRefs();
try {
execute(newBatchUpdate(cmds).setAllowNonFastForwards(true));
assertFalse(getLockFile("refs/heads/master").exists());
assertResults(cmds, OK);
assertRefs("refs/heads/master", B);
} finally {
myLock.unlock();
}
}
@Test
public void singleRefUpdateDoesNotRequirePackedRefsLockRefsChangedEvents()
throws Exception {
assumeFalse(useReftable);
writeLooseRef("refs/heads/master", A);
int initialRefsChangedEvents = refsChangedEvents;
List<ReceiveCommand> cmds = Arrays
.asList(new ReceiveCommand(A, B, "refs/heads/master", UPDATE));
LockFile myLock = refdir.lockPackedRefs();
try {
execute(newBatchUpdate(cmds).setAllowNonFastForwards(true));
assertEquals(initialRefsChangedEvents + 1, refsChangedEvents);
} finally {
myLock.unlock();
}
}
@Test
public void atomicUpdateRespectsInProcessLock() throws Exception {
assumeTrue(atomic);
assumeFalse(useReftable);
writeLooseRef("refs/heads/master", A);
List<ReceiveCommand> cmds = Arrays.asList(
new ReceiveCommand(A, B, "refs/heads/master", UPDATE),
new ReceiveCommand(zeroId(), B, "refs/heads/branch", CREATE));
Thread t = new Thread(() -> {
try {
execute(newBatchUpdate(cmds).setAllowNonFastForwards(true));
} catch (Exception e) {
throw new RuntimeException(e);
}
});
ReentrantLock l = refdir.inProcessPackedRefsLock;
l.lock();
try {
t.start();
long timeoutSecs = 10;
long startNanos = System.nanoTime();
// Hold onto the lock until we observe the worker thread has
// attempted to
// acquire it.
while (l.getQueueLength() == 0) {
long elapsedNanos = System.nanoTime() - startNanos;
assertTrue(
"timed out waiting for work thread to attempt to acquire lock",
NANOSECONDS.toSeconds(elapsedNanos) < timeoutSecs);
Thread.sleep(3);
}
// Once we unlock, the worker thread should finish the update
// promptly.
l.unlock();
t.join(SECONDS.toMillis(timeoutSecs));
assertFalse(t.isAlive());
} finally {
if (l.isHeldByCurrentThread()) {
l.unlock();
}
}
assertResults(cmds, OK, OK);
assertRefs("refs/heads/master", B, "refs/heads/branch", B);
}
@Test
public void atomicUpdateRespectsInProcessLockRefsChangedEvents()
throws Exception {
assumeTrue(atomic);
assumeFalse(useReftable);
writeLooseRef("refs/heads/master", A);
int initialRefsChangedEvents = refsChangedEvents;
List<ReceiveCommand> cmds = Arrays.asList(
new ReceiveCommand(A, B, "refs/heads/master", UPDATE),
new ReceiveCommand(zeroId(), B, "refs/heads/branch", CREATE));
Thread t = new Thread(() -> {
try {
execute(newBatchUpdate(cmds).setAllowNonFastForwards(true));
} catch (Exception e) {
throw new RuntimeException(e);
}
});
ReentrantLock l = refdir.inProcessPackedRefsLock;
l.lock();
try {
t.start();
long timeoutSecs = 10;
// Hold onto the lock until we observe the worker thread has
// attempted to
// acquire it.
while (l.getQueueLength() == 0) {
Thread.sleep(3);
}
// Once we unlock, the worker thread should finish the update
// promptly.
l.unlock();
t.join(SECONDS.toMillis(timeoutSecs));
} finally {
if (l.isHeldByCurrentThread()) {
l.unlock();
}
}
assertEquals(initialRefsChangedEvents + 1, refsChangedEvents);
}
private void setLogAllRefUpdates(boolean enable) throws Exception {
StoredConfig cfg = diskRepo.getConfig();
cfg.load();
cfg.setBoolean(ConfigConstants.CONFIG_CORE_SECTION, null,
ConfigConstants.CONFIG_KEY_LOGALLREFUPDATES, enable);
cfg.save();
}
private void writeLooseRef(String name, AnyObjectId id) throws IOException {
if (useReftable) {
writeRef(name, id);
} else {
write(new File(diskRepo.getDirectory(), name), id.name() + "\n");
// force the refs-changed event to be fired for the loose ref that
// was created. We do this to get the events fired during the test
// 'setup' out of the way and this allows us to now accurately
// assert only for the new events fired during the BatchRefUpdate.
refdir.exactRef(name);
}
}
private void writeLooseRefs(String name1, AnyObjectId id1, String name2,
AnyObjectId id2) throws IOException {
if (useReftable) {
BatchRefUpdate bru = diskRepo.getRefDatabase().newBatchUpdate();
Ref r1 = diskRepo.exactRef(name1);
ReceiveCommand c1 = new ReceiveCommand(
r1 != null ? r1.getObjectId() : ObjectId.zeroId(),
id1.toObjectId(), name1, r1 == null ? CREATE : UPDATE);
Ref r2 = diskRepo.exactRef(name2);
ReceiveCommand c2 = new ReceiveCommand(
r2 != null ? r2.getObjectId() : ObjectId.zeroId(),
id2.toObjectId(), name2, r2 == null ? CREATE : UPDATE);
bru.addCommand(c1, c2);
try (RevWalk rw = new RevWalk(diskRepo)) {
bru.execute(rw, NullProgressMonitor.INSTANCE);
}
assertEquals(c2.getResult(), ReceiveCommand.Result.OK);
assertEquals(c1.getResult(), ReceiveCommand.Result.OK);
} else {
writeLooseRef(name1, id1);
writeLooseRef(name2, id2);
}
}
private void writeRef(String name, AnyObjectId id) throws IOException {
RefUpdate u = diskRepo.updateRef(name);
u.setRefLogMessage(getClass().getSimpleName(), false);
u.setForceUpdate(true);
u.setNewObjectId(id);
RefUpdate.Result r = u.update();
switch (r) {
case NEW:
case FORCED:
return;
default:
throw new IOException("Got " + r + " while updating " + name);
}
}
private BatchRefUpdate newBatchUpdate(List<ReceiveCommand> cmds) {
BatchRefUpdate u = diskRepo.getRefDatabase().newBatchUpdate();
if (atomic) {
assertTrue(u.isAtomic());
} else {
u.setAtomic(false);
}
u.addCommand(cmds);
return u;
}
private void execute(BatchRefUpdate u) throws IOException {
execute(u, false);
}
private void execute(BatchRefUpdate u, boolean strictWork)
throws IOException {
try (RevWalk rw = new RevWalk(diskRepo)) {
u.execute(rw, strictWork ? new StrictWorkMonitor()
: NullProgressMonitor.INSTANCE);
}
}
private void assertRefs(Object... args) throws IOException {
if (args.length % 2 != 0) {
throw new IllegalArgumentException(
"expected even number of args: " + Arrays.toString(args));
}
Map<String, AnyObjectId> expected = new LinkedHashMap<>();
for (int i = 0; i < args.length; i += 2) {
expected.put((String) args[i], (AnyObjectId) args[i + 1]);
}
Map<String, Ref> refs = diskRepo.getRefDatabase()
.getRefsByPrefix(RefDatabase.ALL).stream()
.collect(Collectors.toMap(Ref::getName, Function.identity()));
Ref actualHead = refs.remove(Constants.HEAD);
if (actualHead != null) {
String actualLeafName = actualHead.getLeaf().getName();
assertEquals(
"expected HEAD to point to refs/heads/master, got: "
+ actualLeafName,
"refs/heads/master", actualLeafName);
AnyObjectId expectedMaster = expected.get("refs/heads/master");
assertNotNull("expected master ref since HEAD exists",
expectedMaster);
assertEquals(expectedMaster, actualHead.getObjectId());
}
Map<String, AnyObjectId> actual = new LinkedHashMap<>();
refs.forEach((n, r) -> actual.put(n, r.getObjectId()));
assertEquals(expected.keySet(), actual.keySet());
actual.forEach((n, a) -> assertEquals(n, expected.get(n), a));
}
enum Result {
OK(ReceiveCommand.Result.OK),
LOCK_FAILURE(ReceiveCommand.Result.LOCK_FAILURE),
REJECTED_NONFASTFORWARD(ReceiveCommand.Result.REJECTED_NONFASTFORWARD),
REJECTED_MISSING_OBJECT(ReceiveCommand.Result.REJECTED_MISSING_OBJECT),
TRANSACTION_ABORTED(ReceiveCommand::isTransactionAborted);
@SuppressWarnings("ImmutableEnumChecker")
final Predicate<? super ReceiveCommand> p;
private Result(Predicate<? super ReceiveCommand> p) {
this.p = p;
}
private Result(ReceiveCommand.Result result) {
this(c -> c.getResult() == result);
}
}
private void assertResults(List<ReceiveCommand> cmds, Result... expected) {
if (expected.length != cmds.size()) {
throw new IllegalArgumentException(
"expected " + cmds.size() + " result args");
}
for (int i = 0; i < cmds.size(); i++) {
ReceiveCommand c = cmds.get(i);
Result r = expected[i];
assertTrue(String.format(
"result of command (%d) should be %s, got %s %s%s",
Integer.valueOf(i), r, c, c.getResult(),
c.getMessage() != null ? " (" + c.getMessage() + ")" : ""),
r.p.test(c));
}
}
private Map<String, ReflogEntry> getLastReflogs(String... names)
throws IOException {
Map<String, ReflogEntry> result = new LinkedHashMap<>();
for (String name : names) {
ReflogEntry e = getLastReflog(name);
if (e != null) {
result.put(name, e);
}
}
return result;
}
private ReflogEntry getLastReflog(String name) throws IOException {
ReflogReader r = diskRepo.getReflogReader(name);
if (r == null) {
return null;
}
return r.getLastEntry();
}
private File getLockFile(String refName) {
return LockFile.getLockFile(refdir.fileFor(refName));
}
private void assertReflogUnchanged(Map<String, ReflogEntry> old,
String name) throws IOException {
assertReflogEquals(old.get(name), getLastReflog(name), true);
}
private static void assertReflogEquals(ReflogEntry expected,
ReflogEntry actual) {
assertReflogEquals(expected, actual, false);
}
private static void assertReflogEquals(ReflogEntry expected,
ReflogEntry actual, boolean strictTime) {
if (expected == null) {
assertNull(actual);
return;
}
assertNotNull(actual);
assertEquals(expected.getOldId(), actual.getOldId());
assertEquals(expected.getNewId(), actual.getNewId());
if (strictTime) {
assertEquals(expected.getWho(), actual.getWho());
} else {
assertEquals(expected.getWho().getName(),
actual.getWho().getName());
assertEquals(expected.getWho().getEmailAddress(),
actual.getWho().getEmailAddress());
}
assertEquals(expected.getComment(), actual.getComment());
}
private static ReflogEntry reflog(ObjectId oldId, ObjectId newId,
PersonIdent who, String comment) {
return new ReflogEntry() {
@Override
public ObjectId getOldId() {
return oldId;
}
@Override
public ObjectId getNewId() {
return newId;
}
@Override
public PersonIdent getWho() {
return who;
}
@Override
public String getComment() {
return comment;
}
@Override
public CheckoutEntry parseCheckout() {
throw new UnsupportedOperationException();
}
};
}
private boolean batchesRefUpdates() {
return atomic || useReftable;
}
}