/*
* Copyright (C) 2012, Robin Stocker <robin@nibor.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.merge;
import static org.junit.Assert.assertEquals;
import static org.junit.Assert.assertTrue;
import java.io.File;
import java.io.FileInputStream;
import java.io.IOException;
import org.eclipse.jgit.api.Git;
import org.eclipse.jgit.api.MergeResult;
import org.eclipse.jgit.api.MergeResult.MergeStatus;
import org.eclipse.jgit.api.errors.CheckoutConflictException;
import org.eclipse.jgit.api.errors.GitAPIException;
import org.eclipse.jgit.api.errors.JGitInternalException;
import org.eclipse.jgit.dircache.DirCache;
import org.eclipse.jgit.errors.NoMergeBaseException;
import org.eclipse.jgit.errors.NoMergeBaseException.MergeBaseFailureReason;
import org.eclipse.jgit.junit.RepositoryTestCase;
import org.eclipse.jgit.merge.ResolveMerger.MergeFailureReason;
import org.eclipse.jgit.revwalk.RevCommit;
import org.eclipse.jgit.treewalk.FileTreeIterator;
import org.eclipse.jgit.util.FileUtils;
import org.junit.Assert;
import org.junit.experimental.theories.DataPoint;
import org.junit.experimental.theories.Theories;
import org.junit.experimental.theories.Theory;
import org.junit.runner.RunWith;
@RunWith(Theories.class)
public class ResolveMergerTest extends RepositoryTestCase {
@DataPoint
public static MergeStrategy resolve = MergeStrategy.RESOLVE;
@DataPoint
public static MergeStrategy recursive = MergeStrategy.RECURSIVE;
@Theory
public void failingDeleteOfDirectoryWithUntrackedContent(
MergeStrategy strategy) throws Exception {
File folder1 = new File(db.getWorkTree(), "folder1");
FileUtils.mkdir(folder1);
File file = new File(folder1, "file1.txt");
write(file, "folder1--file1.txt");
file = new File(folder1, "file2.txt");
write(file, "folder1--file2.txt");
Git git = new Git(db);
git.add().addFilepattern(folder1.getName()).call();
RevCommit base = git.commit().setMessage("adding folder").call();
recursiveDelete(folder1);
git.rm().addFilepattern("folder1/file1.txt")
.addFilepattern("folder1/file2.txt").call();
RevCommit other = git.commit()
.setMessage("removing folders on 'other'").call();
git.checkout().setName(base.name()).call();
file = new File(db.getWorkTree(), "unrelated.txt");
write(file, "unrelated");
git.add().addFilepattern("unrelated.txt").call();
RevCommit head = git.commit().setMessage("Adding another file").call();
// Untracked file to cause failing path for delete() of folder1
// but that's ok.
file = new File(folder1, "file3.txt");
write(file, "folder1--file3.txt");
ResolveMerger merger = (ResolveMerger) strategy.newMerger(db, false);
merger.setCommitNames(new String[] { "BASE", "HEAD", "other" });
merger.setWorkingTreeIterator(new FileTreeIterator(db));
boolean ok = merger.merge(head.getId(), other.getId());
assertTrue(ok);
assertTrue(file.exists());
}
/**
* Merging two conflicting subtrees when the index does not contain any file
* in that subtree should lead to a conflicting state.
*
* @param strategy
* @throws Exception
*/
@Theory
public void checkMergeConflictingTreesWithoutIndex(MergeStrategy strategy)
throws Exception {
Git git = Git.wrap(db);
writeTrashFile("d/1", "orig");
git.add().addFilepattern("d/1").call();
RevCommit first = git.commit().setMessage("added d/1").call();
writeTrashFile("d/1", "master");
RevCommit masterCommit = git.commit().setAll(true)
.setMessage("modified d/1 on master").call();
git.checkout().setCreateBranch(true).setStartPoint(first)
.setName("side").call();
writeTrashFile("d/1", "side");
git.commit().setAll(true).setMessage("modified d/1 on side").call();
git.rm().addFilepattern("d/1").call();
git.rm().addFilepattern("d").call();
MergeResult mergeRes = git.merge().setStrategy(strategy)
.include(masterCommit).call();
assertEquals(MergeStatus.CONFLICTING, mergeRes.getMergeStatus());
assertEquals(
"[d/1, mode:100644, stage:1, content:orig][d/1, mode:100644, stage:2, content:side][d/1, mode:100644, stage:3, content:master]",
indexState(CONTENT));
}
/**
* Merging two different but mergeable subtrees when the index does not
* contain any file in that subtree should lead to a merged state.
*
* @param strategy
* @throws Exception
*/
@Theory
public void checkMergeMergeableTreesWithoutIndex(MergeStrategy strategy)
throws Exception {
Git git = Git.wrap(db);
writeTrashFile("d/1", "1\n2\n3");
git.add().addFilepattern("d/1").call();
RevCommit first = git.commit().setMessage("added d/1").call();
writeTrashFile("d/1", "1master\n2\n3");
RevCommit masterCommit = git.commit().setAll(true)
.setMessage("modified d/1 on master").call();
git.checkout().setCreateBranch(true).setStartPoint(first)
.setName("side").call();
writeTrashFile("d/1", "1\n2\n3side");
git.commit().setAll(true).setMessage("modified d/1 on side").call();
git.rm().addFilepattern("d/1").call();
git.rm().addFilepattern("d").call();
MergeResult mergeRes = git.merge().setStrategy(strategy)
.include(masterCommit).call();
assertEquals(MergeStatus.MERGED, mergeRes.getMergeStatus());
assertEquals("[d/1, mode:100644, content:1master\n2\n3side\n]",
indexState(CONTENT));
}
/**
* An existing directory without tracked content should not prevent merging
* a tree where that directory exists.
*
* @param strategy
* @throws Exception
*/
@Theory
public void checkUntrackedFolderIsNotAConflict(
MergeStrategy strategy) throws Exception {
Git git = Git.wrap(db);
writeTrashFile("d/1", "1");
git.add().addFilepattern("d/1").call();
RevCommit first = git.commit().setMessage("added d/1").call();
writeTrashFile("e/1", "4");
git.add().addFilepattern("e/1").call();
RevCommit masterCommit = git.commit().setMessage("added e/1").call();
git.checkout().setCreateBranch(true).setStartPoint(first)
.setName("side").call();
writeTrashFile("f/1", "5");
git.add().addFilepattern("f/1").call();
git.commit().setAll(true).setMessage("added f/1")
.call();
// Untracked directory e shall not conflict with merged e/1
writeTrashFile("e/2", "d two");
MergeResult mergeRes = git.merge().setStrategy(strategy)
.include(masterCommit).call();
assertEquals(MergeStatus.MERGED, mergeRes.getMergeStatus());
assertEquals(
"[d/1, mode:100644, content:1][e/1, mode:100644, content:4][f/1, mode:100644, content:5]",
indexState(CONTENT));
}
/**
* An existing directory without tracked content should not prevent merging
* a file with that name.
*
* @param strategy
* @throws Exception
*/
@Theory
public void checkUntrackedEmpytFolderIsNotAConflictWithFile(
MergeStrategy strategy)
throws Exception {
Git git = Git.wrap(db);
writeTrashFile("d/1", "1");
git.add().addFilepattern("d/1").call();
RevCommit first = git.commit().setMessage("added d/1").call();
writeTrashFile("e", "4");
git.add().addFilepattern("e").call();
RevCommit masterCommit = git.commit().setMessage("added e").call();
git.checkout().setCreateBranch(true).setStartPoint(first)
.setName("side").call();
writeTrashFile("f/1", "5");
git.add().addFilepattern("f/1").call();
git.commit().setAll(true).setMessage("added f/1").call();
// Untracked empty directory hierarcy e/1 shall not conflict with merged
// e/1
FileUtils.mkdirs(new File(trash, "e/1"), true);
MergeResult mergeRes = git.merge().setStrategy(strategy)
.include(masterCommit).call();
assertEquals(MergeStatus.MERGED, mergeRes.getMergeStatus());
assertEquals(
"[d/1, mode:100644, content:1][e, mode:100644, content:4][f/1, mode:100644, content:5]",
indexState(CONTENT));
}
@Theory
public void mergeWithCrlfInWT(MergeStrategy strategy) throws IOException,
GitAPIException {
Git git = Git.wrap(db);
db.getConfig().setString("core", null, "autocrlf", "false");
db.getConfig().save();
writeTrashFile("crlf.txt", "some\r\ndata\r\n");
git.add().addFilepattern("crlf.txt").call();
git.commit().setMessage("base").call();
git.branchCreate().setName("brancha").call();
writeTrashFile("crlf.txt", "some\r\nmore\r\ndata\r\n");
git.add().addFilepattern("crlf.txt").call();
git.commit().setMessage("on master").call();
git.checkout().setName("brancha").call();
writeTrashFile("crlf.txt", "some\r\ndata\r\ntoo\r\n");
git.add().addFilepattern("crlf.txt").call();
git.commit().setMessage("on brancha").call();
db.getConfig().setString("core", null, "autocrlf", "input");
db.getConfig().save();
MergeResult mergeResult = git.merge().setStrategy(strategy)
.include(db.resolve("master"))
.call();
assertEquals(MergeResult.MergeStatus.MERGED,
mergeResult.getMergeStatus());
}
/**
* Merging two equal subtrees when the index does not contain any file in
* that subtree should lead to a merged state.
*
* @param strategy
* @throws Exception
*/
@Theory
public void checkMergeEqualTreesWithoutIndex(MergeStrategy strategy)
throws Exception {
Git git = Git.wrap(db);
writeTrashFile("d/1", "orig");
git.add().addFilepattern("d/1").call();
RevCommit first = git.commit().setMessage("added d/1").call();
writeTrashFile("d/1", "modified");
RevCommit masterCommit = git.commit().setAll(true)
.setMessage("modified d/1 on master").call();
git.checkout().setCreateBranch(true).setStartPoint(first)
.setName("side").call();
writeTrashFile("d/1", "modified");
git.commit().setAll(true).setMessage("modified d/1 on side").call();
git.rm().addFilepattern("d/1").call();
git.rm().addFilepattern("d").call();
MergeResult mergeRes = git.merge().setStrategy(strategy)
.include(masterCommit).call();
assertEquals(MergeStatus.MERGED, mergeRes.getMergeStatus());
assertEquals("[d/1, mode:100644, content:modified]",
indexState(CONTENT));
}
/**
* Merging two equal subtrees with an incore merger should lead to a merged
* state (The 'Gerrit' use case).
*
* @param strategy
* @throws Exception
*/
@Theory
public void checkMergeEqualTreesInCore(MergeStrategy strategy)
throws Exception {
Git git = Git.wrap(db);
writeTrashFile("d/1", "orig");
git.add().addFilepattern("d/1").call();
RevCommit first = git.commit().setMessage("added d/1").call();
writeTrashFile("d/1", "modified");
RevCommit masterCommit = git.commit().setAll(true)
.setMessage("modified d/1 on master").call();
git.checkout().setCreateBranch(true).setStartPoint(first)
.setName("side").call();
writeTrashFile("d/1", "modified");
RevCommit sideCommit = git.commit().setAll(true)
.setMessage("modified d/1 on side").call();
git.rm().addFilepattern("d/1").call();
git.rm().addFilepattern("d").call();
ThreeWayMerger resolveMerger = (ThreeWayMerger) strategy.newMerger(db,
true);
boolean noProblems = resolveMerger.merge(masterCommit, sideCommit);
assertTrue(noProblems);
}
/**
* Merging two equal subtrees when the index and HEAD does not contain any
* file in that subtree should lead to a merged state.
*
* @param strategy
* @throws Exception
*/
@Theory
public void checkMergeEqualNewTrees(MergeStrategy strategy)
throws Exception {
Git git = Git.wrap(db);
writeTrashFile("2", "orig");
git.add().addFilepattern("2").call();
RevCommit first = git.commit().setMessage("added 2").call();
writeTrashFile("d/1", "orig");
git.add().addFilepattern("d/1").call();
RevCommit masterCommit = git.commit().setAll(true)
.setMessage("added d/1 on master").call();
git.checkout().setCreateBranch(true).setStartPoint(first)
.setName("side").call();
writeTrashFile("d/1", "orig");
git.add().addFilepattern("d/1").call();
git.commit().setAll(true).setMessage("added d/1 on side").call();
git.rm().addFilepattern("d/1").call();
git.rm().addFilepattern("d").call();
MergeResult mergeRes = git.merge().setStrategy(strategy)
.include(masterCommit).call();
assertEquals(MergeStatus.MERGED, mergeRes.getMergeStatus());
assertEquals(
"[2, mode:100644, content:orig][d/1, mode:100644, content:orig]",
indexState(CONTENT));
}
/**
* Merging two conflicting subtrees when the index and HEAD does not contain
* any file in that subtree should lead to a conflicting state.
*
* @param strategy
* @throws Exception
*/
@Theory
public void checkMergeConflictingNewTrees(MergeStrategy strategy)
throws Exception {
Git git = Git.wrap(db);
writeTrashFile("2", "orig");
git.add().addFilepattern("2").call();
RevCommit first = git.commit().setMessage("added 2").call();
writeTrashFile("d/1", "master");
git.add().addFilepattern("d/1").call();
RevCommit masterCommit = git.commit().setAll(true)
.setMessage("added d/1 on master").call();
git.checkout().setCreateBranch(true).setStartPoint(first)
.setName("side").call();
writeTrashFile("d/1", "side");
git.add().addFilepattern("d/1").call();
git.commit().setAll(true).setMessage("added d/1 on side").call();
git.rm().addFilepattern("d/1").call();
git.rm().addFilepattern("d").call();
MergeResult mergeRes = git.merge().setStrategy(strategy)
.include(masterCommit).call();
assertEquals(MergeStatus.CONFLICTING, mergeRes.getMergeStatus());
assertEquals(
"[2, mode:100644, content:orig][d/1, mode:100644, stage:2, content:side][d/1, mode:100644, stage:3, content:master]",
indexState(CONTENT));
}
/**
* Merging two conflicting files when the index contains a tree for that
* path should lead to a failed state.
*
* @param strategy
* @throws Exception
*/
@Theory
public void checkMergeConflictingFilesWithTreeInIndex(MergeStrategy strategy)
throws Exception {
Git git = Git.wrap(db);
writeTrashFile("0", "orig");
git.add().addFilepattern("0").call();
RevCommit first = git.commit().setMessage("added 0").call();
writeTrashFile("0", "master");
RevCommit masterCommit = git.commit().setAll(true)
.setMessage("modified 0 on master").call();
git.checkout().setCreateBranch(true).setStartPoint(first)
.setName("side").call();
writeTrashFile("0", "side");
git.commit().setAll(true).setMessage("modified 0 on side").call();
git.rm().addFilepattern("0").call();
writeTrashFile("0/0", "side");
git.add().addFilepattern("0/0").call();
MergeResult mergeRes = git.merge().setStrategy(strategy)
.include(masterCommit).call();
assertEquals(MergeStatus.FAILED, mergeRes.getMergeStatus());
}
/**
* Merging two equal files when the index contains a tree for that path
* should lead to a failed state.
*
* @param strategy
* @throws Exception
*/
@Theory
public void checkMergeMergeableFilesWithTreeInIndex(MergeStrategy strategy)
throws Exception {
Git git = Git.wrap(db);
writeTrashFile("0", "orig");
writeTrashFile("1", "1\n2\n3");
git.add().addFilepattern("0").addFilepattern("1").call();
RevCommit first = git.commit().setMessage("added 0, 1").call();
writeTrashFile("1", "1master\n2\n3");
RevCommit masterCommit = git.commit().setAll(true)
.setMessage("modified 1 on master").call();
git.checkout().setCreateBranch(true).setStartPoint(first)
.setName("side").call();
writeTrashFile("1", "1\n2\n3side");
git.commit().setAll(true).setMessage("modified 1 on side").call();
git.rm().addFilepattern("0").call();
writeTrashFile("0/0", "modified");
git.add().addFilepattern("0/0").call();
try {
git.merge().setStrategy(strategy).include(masterCommit).call();
Assert.fail("Didn't get the expected exception");
} catch (CheckoutConflictException e) {
assertEquals(1, e.getConflictingPaths().size());
assertEquals("0/0", e.getConflictingPaths().get(0));
}
}
/**
* Merging after criss-cross merges. In this case we merge together two
* commits which have two equally good common ancestors
*
* @param strategy
* @throws Exception
*/
@Theory
public void checkMergeCrissCross(MergeStrategy strategy) throws Exception {
Git git = Git.wrap(db);
writeTrashFile("1", "1\n2\n3");
git.add().addFilepattern("1").call();
RevCommit first = git.commit().setMessage("added 1").call();
writeTrashFile("1", "1master\n2\n3");
RevCommit masterCommit = git.commit().setAll(true)
.setMessage("modified 1 on master").call();
writeTrashFile("1", "1master2\n2\n3");
git.commit().setAll(true)
.setMessage("modified 1 on master again").call();
git.checkout().setCreateBranch(true).setStartPoint(first)
.setName("side").call();
writeTrashFile("1", "1\n2\na\nb\nc\n3side");
RevCommit sideCommit = git.commit().setAll(true)
.setMessage("modified 1 on side").call();
writeTrashFile("1", "1\n2\n3side2");
git.commit().setAll(true)
.setMessage("modified 1 on side again").call();
MergeResult result = git.merge().setStrategy(strategy)
.include(masterCommit).call();
assertEquals(MergeStatus.MERGED, result.getMergeStatus());
result.getNewHead();
git.checkout().setName("master").call();
result = git.merge().setStrategy(strategy).include(sideCommit).call();
assertEquals(MergeStatus.MERGED, result.getMergeStatus());
// we have two branches which are criss-cross merged. Try to merge the
// tips. This should succeed with RecursiveMerge and fail with
// ResolveMerge
try {
MergeResult mergeResult = git.merge().setStrategy(strategy)
.include(git.getRepository().getRef("refs/heads/side"))
.call();
assertEquals(MergeStrategy.RECURSIVE, strategy);
assertEquals(MergeResult.MergeStatus.MERGED,
mergeResult.getMergeStatus());
assertEquals("1master2\n2\n3side2\n", read("1"));
} catch (JGitInternalException e) {
assertEquals(MergeStrategy.RESOLVE, strategy);
assertTrue(e.getCause() instanceof NoMergeBaseException);
assertEquals(((NoMergeBaseException) e.getCause()).getReason(),
MergeBaseFailureReason.MULTIPLE_MERGE_BASES_NOT_SUPPORTED);
}
}
@Theory
public void checkLockedFilesToBeDeleted(MergeStrategy strategy)
throws Exception {
Git git = Git.wrap(db);
writeTrashFile("a.txt", "orig");
writeTrashFile("b.txt", "orig");
git.add().addFilepattern("a.txt").addFilepattern("b.txt").call();
RevCommit first = git.commit().setMessage("added a.txt, b.txt").call();
// modify and delete files on the master branch
writeTrashFile("a.txt", "master");
git.rm().addFilepattern("b.txt").call();
RevCommit masterCommit = git.commit()
.setMessage("modified a.txt, deleted b.txt").setAll(true)
.call();
// switch back to a side branch
git.checkout().setCreateBranch(true).setStartPoint(first)
.setName("side").call();
writeTrashFile("c.txt", "side");
git.add().addFilepattern("c.txt").call();
git.commit().setMessage("added c.txt").call();
// Get a handle to the the file so on windows it can't be deleted.
FileInputStream fis = new FileInputStream(new File(db.getWorkTree(),
"b.txt"));
MergeResult mergeRes = git.merge().setStrategy(strategy)
.include(masterCommit).call();
if (mergeRes.getMergeStatus().equals(MergeStatus.FAILED)) {
// probably windows
assertEquals(1, mergeRes.getFailingPaths().size());
assertEquals(MergeFailureReason.COULD_NOT_DELETE, mergeRes
.getFailingPaths().get("b.txt"));
}
assertEquals("[a.txt, mode:100644, content:master]"
+ "[c.txt, mode:100644, content:side]", indexState(CONTENT));
fis.close();
}
@Theory
public void checkForCorrectIndex(MergeStrategy strategy) throws Exception {
File f;
long lastTs4, lastTsIndex;
Git git = Git.wrap(db);
File indexFile = db.getIndexFile();
// Create initial content and remember when the last file was written.
f = writeTrashFiles(false, "orig", "orig", "1\n2\n3", "orig", "orig");
lastTs4 = f.lastModified();
// add all files, commit and check this doesn't update any working tree
// files and that the index is in a new file system timer tick. Make
// sure to wait long enough before adding so the index doesn't contain
// racily clean entries
fsTick(f);
git.add().addFilepattern(".").call();
RevCommit firstCommit = git.commit().setMessage("initial commit")
.call();
checkConsistentLastModified("0", "1", "2", "3", "4");
checkModificationTimeStampOrder("1", "2", "3", "4", "<.git/index");
assertEquals("Commit should not touch working tree file 4", lastTs4,
new File(db.getWorkTree(), "4").lastModified());
lastTsIndex = indexFile.lastModified();
// Do modifications on the master branch. Then add and commit. This
// should touch only "0", "2 and "3"
fsTick(indexFile);
f = writeTrashFiles(false, "master", null, "1master\n2\n3", "master",
null);
fsTick(f);
git.add().addFilepattern(".").call();
RevCommit masterCommit = git.commit().setMessage("master commit")
.call();
checkConsistentLastModified("0", "1", "2", "3", "4");
checkModificationTimeStampOrder("1", "4", "*" + lastTs4, "<*"
+ lastTsIndex, "<0", "2", "3", "<.git/index");
lastTsIndex = indexFile.lastModified();
// Checkout a side branch. This should touch only "0", "2 and "3"
fsTick(indexFile);
git.checkout().setCreateBranch(true).setStartPoint(firstCommit)
.setName("side").call();
checkConsistentLastModified("0", "1", "2", "3", "4");
checkModificationTimeStampOrder("1", "4", "*" + lastTs4, "<*"
+ lastTsIndex, "<0", "2", "3", ".git/index");
lastTsIndex = indexFile.lastModified();
// This checkout may have populated worktree and index so fast that we
// may have smudged entries now. Check that we have the right content
// and then rewrite the index to get rid of smudged state
assertEquals("[0, mode:100644, content:orig]" //
+ "[1, mode:100644, content:orig]" //
+ "[2, mode:100644, content:1\n2\n3]" //
+ "[3, mode:100644, content:orig]" //
+ "[4, mode:100644, content:orig]", //
indexState(CONTENT));
fsTick(indexFile);
f = writeTrashFiles(false, "orig", "orig", "1\n2\n3", "orig", "orig");
lastTs4 = f.lastModified();
fsTick(f);
git.add().addFilepattern(".").call();
checkConsistentLastModified("0", "1", "2", "3", "4");
checkModificationTimeStampOrder("*" + lastTsIndex, "<0", "1", "2", "3",
"4", "<.git/index");
lastTsIndex = indexFile.lastModified();
// Do modifications on the side branch. Touch only "1", "2 and "3"
fsTick(indexFile);
f = writeTrashFiles(false, null, "side", "1\n2\n3side", "side", null);
fsTick(f);
git.add().addFilepattern(".").call();
git.commit().setMessage("side commit").call();
checkConsistentLastModified("0", "1", "2", "3", "4");
checkModificationTimeStampOrder("0", "4", "*" + lastTs4, "<*"
+ lastTsIndex, "<1", "2", "3", "<.git/index");
lastTsIndex = indexFile.lastModified();
// merge master and side. Should only touch "0," "2" and "3"
fsTick(indexFile);
git.merge().setStrategy(strategy).include(masterCommit).call();
checkConsistentLastModified("0", "1", "2", "4");
checkModificationTimeStampOrder("4", "*" + lastTs4, "<1", "<*"
+ lastTsIndex, "<0", "2", "3", ".git/index");
assertEquals(
"[0, mode:100644, content:master]" //
+ "[1, mode:100644, content:side]" //
+ "[2, mode:100644, content:1master\n2\n3side\n]" //
+ "[3, mode:100644, stage:1, content:orig][3, mode:100644, stage:2, content:side][3, mode:100644, stage:3, content:master]" //
+ "[4, mode:100644, content:orig]", //
indexState(CONTENT));
}
// Assert that every specified index entry has the same last modification
// timestamp as the associated file
private void checkConsistentLastModified(String... pathes)
throws IOException {
DirCache dc = db.readDirCache();
File workTree = db.getWorkTree();
for (String path : pathes)
assertEquals(
"IndexEntry with path "
+ path
+ " has lastmodified with is different from the worktree file",
new File(workTree, path).lastModified(), dc.getEntry(path)
.getLastModified());
}
// Assert that modification timestamps of working tree files are as
// expected. You may specify n files. It is asserted that every file
// i+1 is not older than file i. If a path of file i+1 is prefixed with "<"
// then this file must be younger then file i. A path "*<modtime>"
// represents a file with a modification time of <modtime>
// E.g. ("a", "b", "<c", "f/a.txt") means: a<=b<c<=f/a.txt
private void checkModificationTimeStampOrder(String... pathes) {
long lastMod = Long.MIN_VALUE;
for (String p : pathes) {
boolean strong = p.startsWith("<");
boolean fixed = p.charAt(strong ? 1 : 0) == '*';
p = p.substring((strong ? 1 : 0) + (fixed ? 1 : 0));
long curMod = fixed ? Long.valueOf(p).longValue() : new File(
db.getWorkTree(), p).lastModified();
if (strong)
assertTrue("path " + p + " is not younger than predecesssor",
curMod > lastMod);
else
assertTrue("path " + p + " is older than predecesssor",
curMod >= lastMod);
}
}
}