/* * Copyright (C) 2008, 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.treewalk; import static org.junit.Assert.assertEquals; import static org.junit.Assert.assertFalse; import static org.junit.Assert.assertNotNull; import static org.junit.Assert.assertTrue; import java.io.File; import java.io.IOException; import java.security.MessageDigest; import org.eclipse.jgit.api.Git; import org.eclipse.jgit.dircache.DirCache; import org.eclipse.jgit.dircache.DirCacheCheckout; import org.eclipse.jgit.dircache.DirCacheEditor; import org.eclipse.jgit.dircache.DirCacheEntry; import org.eclipse.jgit.dircache.DirCacheIterator; import org.eclipse.jgit.dircache.DirCacheEditor.PathEdit; import org.eclipse.jgit.errors.CorruptObjectException; import org.eclipse.jgit.errors.IncorrectObjectTypeException; import org.eclipse.jgit.errors.MissingObjectException; import org.eclipse.jgit.junit.RepositoryTestCase; import org.eclipse.jgit.lib.Constants; import org.eclipse.jgit.lib.FileMode; import org.eclipse.jgit.lib.ObjectId; import org.eclipse.jgit.lib.ObjectReader; import org.eclipse.jgit.revwalk.RevCommit; import org.eclipse.jgit.treewalk.WorkingTreeIterator.MetadataDiff; import org.eclipse.jgit.treewalk.filter.PathFilter; import org.eclipse.jgit.util.FileUtils; import org.eclipse.jgit.util.RawParseUtils; import org.junit.Before; import org.junit.Test; public class FileTreeIteratorTest extends RepositoryTestCase { private final String[] paths = { "a,", "a,b", "a/b", "a0b" }; private long[] mtime; @Before public void setUp() throws Exception { super.setUp(); // We build the entries backwards so that on POSIX systems we // are likely to get the entries in the trash directory in the // opposite order of what they should be in for the iteration. // This should stress the sorting code better than doing it in // the correct order. // mtime = new long[paths.length]; for (int i = paths.length - 1; i >= 0; i--) { final String s = paths[i]; writeTrashFile(s, s); mtime[i] = new File(trash, s).lastModified(); } } @Test public void testEmptyIfRootIsFile() throws Exception { final File r = new File(trash, paths[0]); assertTrue(r.isFile()); final FileTreeIterator fti = new FileTreeIterator(r, db.getFS(), db.getConfig().get(WorkingTreeOptions.KEY)); assertTrue(fti.first()); assertTrue(fti.eof()); } @Test public void testEmptyIfRootDoesNotExist() throws Exception { final File r = new File(trash, "not-existing-file"); assertFalse(r.exists()); final FileTreeIterator fti = new FileTreeIterator(r, db.getFS(), db.getConfig().get(WorkingTreeOptions.KEY)); assertTrue(fti.first()); assertTrue(fti.eof()); } @Test public void testEmptyIfRootIsEmpty() throws Exception { final File r = new File(trash, "not-existing-file"); assertFalse(r.exists()); FileUtils.mkdir(r); final FileTreeIterator fti = new FileTreeIterator(r, db.getFS(), db.getConfig().get(WorkingTreeOptions.KEY)); assertTrue(fti.first()); assertTrue(fti.eof()); } @Test public void testSimpleIterate() throws Exception { final FileTreeIterator top = new FileTreeIterator(trash, db.getFS(), db.getConfig().get(WorkingTreeOptions.KEY)); assertTrue(top.first()); assertFalse(top.eof()); assertEquals(FileMode.REGULAR_FILE.getBits(), top.mode); assertEquals(paths[0], nameOf(top)); assertEquals(paths[0].length(), top.getEntryLength()); assertEquals(mtime[0], top.getEntryLastModified()); top.next(1); assertFalse(top.first()); assertFalse(top.eof()); assertEquals(FileMode.REGULAR_FILE.getBits(), top.mode); assertEquals(paths[1], nameOf(top)); assertEquals(paths[1].length(), top.getEntryLength()); assertEquals(mtime[1], top.getEntryLastModified()); top.next(1); assertFalse(top.first()); assertFalse(top.eof()); assertEquals(FileMode.TREE.getBits(), top.mode); final ObjectReader reader = db.newObjectReader(); final AbstractTreeIterator sub = top.createSubtreeIterator(reader); assertTrue(sub instanceof FileTreeIterator); final FileTreeIterator subfti = (FileTreeIterator) sub; assertTrue(sub.first()); assertFalse(sub.eof()); assertEquals(paths[2], nameOf(sub)); assertEquals(paths[2].length(), subfti.getEntryLength()); assertEquals(mtime[2], subfti.getEntryLastModified()); sub.next(1); assertTrue(sub.eof()); top.next(1); assertFalse(top.first()); assertFalse(top.eof()); assertEquals(FileMode.REGULAR_FILE.getBits(), top.mode); assertEquals(paths[3], nameOf(top)); assertEquals(paths[3].length(), top.getEntryLength()); assertEquals(mtime[3], top.getEntryLastModified()); top.next(1); assertTrue(top.eof()); } @Test public void testComputeFileObjectId() throws Exception { final FileTreeIterator top = new FileTreeIterator(trash, db.getFS(), db.getConfig().get(WorkingTreeOptions.KEY)); final MessageDigest md = Constants.newMessageDigest(); md.update(Constants.encodeASCII(Constants.TYPE_BLOB)); md.update((byte) ' '); md.update(Constants.encodeASCII(paths[0].length())); md.update((byte) 0); md.update(Constants.encode(paths[0])); final ObjectId expect = ObjectId.fromRaw(md.digest()); assertEquals(expect, top.getEntryObjectId()); // Verify it was cached by removing the file and getting it again. // FileUtils.delete(new File(trash, paths[0])); assertEquals(expect, top.getEntryObjectId()); } @Test public void testDirCacheMatchingId() throws Exception { File f = writeTrashFile("file", "content"); Git git = new Git(db); writeTrashFile("file", "content"); fsTick(f); git.add().addFilepattern("file").call(); DirCacheEntry dce = db.readDirCache().getEntry("file"); TreeWalk tw = new TreeWalk(db); FileTreeIterator fti = new FileTreeIterator(trash, db.getFS(), db .getConfig().get(WorkingTreeOptions.KEY)); tw.addTree(fti); DirCacheIterator dci = new DirCacheIterator(db.readDirCache()); tw.addTree(dci); fti.setDirCacheIterator(tw, 1); while (tw.next() && !tw.getPathString().equals("file")) { // } assertEquals(MetadataDiff.EQUAL, fti.compareMetadata(dce)); ObjectId fromRaw = ObjectId.fromRaw(fti.idBuffer(), fti.idOffset()); assertEquals("6b584e8ece562ebffc15d38808cd6b98fc3d97ea", fromRaw.getName()); assertFalse(fti.isModified(dce, false)); } @Test public void testIsModifiedSymlink() throws Exception { File f = writeTrashFile("symlink", "content"); Git git = new Git(db); git.add().addFilepattern("symlink").call(); git.commit().setMessage("commit").call(); // Modify previously committed DirCacheEntry and write it back to disk DirCacheEntry dce = db.readDirCache().getEntry("symlink"); dce.setFileMode(FileMode.SYMLINK); DirCacheCheckout.checkoutEntry(db, f, dce); FileTreeIterator fti = new FileTreeIterator(trash, db.getFS(), db .getConfig().get(WorkingTreeOptions.KEY)); while (!fti.getEntryPathString().equals("symlink")) fti.next(1); assertFalse(fti.isModified(dce, false)); } @Test public void testIsModifiedFileSmudged() throws Exception { File f = writeTrashFile("file", "content"); Git git = new Git(db); // The idea of this test is to check the smudged handling // Hopefully fsTick will make sure our entry gets smudged fsTick(f); writeTrashFile("file", "content"); long lastModified = f.lastModified(); git.add().addFilepattern("file").call(); writeTrashFile("file", "conten2"); f.setLastModified(lastModified); DirCacheEntry dce = db.readDirCache().getEntry("file"); FileTreeIterator fti = new FileTreeIterator(trash, db.getFS(), db .getConfig().get(WorkingTreeOptions.KEY)); while (!fti.getEntryPathString().equals("file")) fti.next(1); // If the rounding trick does not work we could skip the compareMetaData // test and hope that we are usually testing the intended code path. assertEquals(MetadataDiff.SMUDGED, fti.compareMetadata(dce)); assertTrue(fti.isModified(dce, false)); } @Test public void submoduleHeadMatchesIndex() throws Exception { Git git = new Git(db); writeTrashFile("file.txt", "content"); git.add().addFilepattern("file.txt").call(); final RevCommit id = git.commit().setMessage("create file").call(); final String path = "sub"; DirCache cache = db.lockDirCache(); DirCacheEditor editor = cache.editor(); editor.add(new PathEdit(path) { public void apply(DirCacheEntry ent) { ent.setFileMode(FileMode.GITLINK); ent.setObjectId(id); } }); editor.commit(); Git.cloneRepository().setURI(db.getDirectory().toURI().toString()) .setDirectory(new File(db.getWorkTree(), path)).call() .getRepository().close(); TreeWalk walk = new TreeWalk(db); DirCacheIterator indexIter = new DirCacheIterator(db.readDirCache()); FileTreeIterator workTreeIter = new FileTreeIterator(db); walk.addTree(indexIter); walk.addTree(workTreeIter); walk.setFilter(PathFilter.create(path)); assertTrue(walk.next()); assertTrue(indexIter.idEqual(workTreeIter)); } @Test public void submoduleWithNoGitDirectory() throws Exception { Git git = new Git(db); writeTrashFile("file.txt", "content"); git.add().addFilepattern("file.txt").call(); final RevCommit id = git.commit().setMessage("create file").call(); final String path = "sub"; DirCache cache = db.lockDirCache(); DirCacheEditor editor = cache.editor(); editor.add(new PathEdit(path) { public void apply(DirCacheEntry ent) { ent.setFileMode(FileMode.GITLINK); ent.setObjectId(id); } }); editor.commit(); File submoduleRoot = new File(db.getWorkTree(), path); assertTrue(submoduleRoot.mkdir()); assertTrue(new File(submoduleRoot, Constants.DOT_GIT).mkdir()); TreeWalk walk = new TreeWalk(db); DirCacheIterator indexIter = new DirCacheIterator(db.readDirCache()); FileTreeIterator workTreeIter = new FileTreeIterator(db); walk.addTree(indexIter); walk.addTree(workTreeIter); walk.setFilter(PathFilter.create(path)); assertTrue(walk.next()); assertFalse(indexIter.idEqual(workTreeIter)); assertEquals(ObjectId.zeroId(), workTreeIter.getEntryObjectId()); } @Test public void submoduleWithNoHead() throws Exception { Git git = new Git(db); writeTrashFile("file.txt", "content"); git.add().addFilepattern("file.txt").call(); final RevCommit id = git.commit().setMessage("create file").call(); final String path = "sub"; DirCache cache = db.lockDirCache(); DirCacheEditor editor = cache.editor(); editor.add(new PathEdit(path) { public void apply(DirCacheEntry ent) { ent.setFileMode(FileMode.GITLINK); ent.setObjectId(id); } }); editor.commit(); assertNotNull(Git.init().setDirectory(new File(db.getWorkTree(), path)) .call().getRepository()); TreeWalk walk = new TreeWalk(db); DirCacheIterator indexIter = new DirCacheIterator(db.readDirCache()); FileTreeIterator workTreeIter = new FileTreeIterator(db); walk.addTree(indexIter); walk.addTree(workTreeIter); walk.setFilter(PathFilter.create(path)); assertTrue(walk.next()); assertFalse(indexIter.idEqual(workTreeIter)); assertEquals(ObjectId.zeroId(), workTreeIter.getEntryObjectId()); } @Test public void submoduleDirectoryIterator() throws Exception { Git git = new Git(db); writeTrashFile("file.txt", "content"); git.add().addFilepattern("file.txt").call(); final RevCommit id = git.commit().setMessage("create file").call(); final String path = "sub"; DirCache cache = db.lockDirCache(); DirCacheEditor editor = cache.editor(); editor.add(new PathEdit(path) { public void apply(DirCacheEntry ent) { ent.setFileMode(FileMode.GITLINK); ent.setObjectId(id); } }); editor.commit(); Git.cloneRepository().setURI(db.getDirectory().toURI().toString()) .setDirectory(new File(db.getWorkTree(), path)).call() .getRepository().close(); TreeWalk walk = new TreeWalk(db); DirCacheIterator indexIter = new DirCacheIterator(db.readDirCache()); FileTreeIterator workTreeIter = new FileTreeIterator(db.getWorkTree(), db.getFS(), db.getConfig().get(WorkingTreeOptions.KEY)); walk.addTree(indexIter); walk.addTree(workTreeIter); walk.setFilter(PathFilter.create(path)); assertTrue(walk.next()); assertTrue(indexIter.idEqual(workTreeIter)); } @Test public void submoduleNestedWithHeadMatchingIndex() throws Exception { Git git = new Git(db); writeTrashFile("file.txt", "content"); git.add().addFilepattern("file.txt").call(); final RevCommit id = git.commit().setMessage("create file").call(); final String path = "sub/dir1/dir2"; DirCache cache = db.lockDirCache(); DirCacheEditor editor = cache.editor(); editor.add(new PathEdit(path) { public void apply(DirCacheEntry ent) { ent.setFileMode(FileMode.GITLINK); ent.setObjectId(id); } }); editor.commit(); Git.cloneRepository().setURI(db.getDirectory().toURI().toString()) .setDirectory(new File(db.getWorkTree(), path)).call() .getRepository().close(); TreeWalk walk = new TreeWalk(db); DirCacheIterator indexIter = new DirCacheIterator(db.readDirCache()); FileTreeIterator workTreeIter = new FileTreeIterator(db); walk.addTree(indexIter); walk.addTree(workTreeIter); walk.setFilter(PathFilter.create(path)); assertTrue(walk.next()); assertTrue(indexIter.idEqual(workTreeIter)); } @Test public void idOffset() throws Exception { Git git = new Git(db); writeTrashFile("fileAinfsonly", "A"); File fileBinindex = writeTrashFile("fileBinindex", "B"); fsTick(fileBinindex); git.add().addFilepattern("fileBinindex").call(); writeTrashFile("fileCinfsonly", "C"); TreeWalk tw = new TreeWalk(db); DirCacheIterator indexIter = new DirCacheIterator(db.readDirCache()); FileTreeIterator workTreeIter = new FileTreeIterator(db); tw.addTree(indexIter); tw.addTree(workTreeIter); workTreeIter.setDirCacheIterator(tw, 0); assertEntry("d46c305e85b630558ee19cc47e73d2e5c8c64cdc", "a,", tw); assertEntry("58ee403f98538ec02409538b3f80adf610accdec", "a,b", tw); assertEntry("0000000000000000000000000000000000000000", "a", tw); assertEntry("b8d30ff397626f0f1d3538d66067edf865e201d6", "a0b", tw); // The reason for adding this test. Check that the id is correct for // mixed assertEntry("8c7e5a667f1b771847fe88c01c3de34413a1b220", "fileAinfsonly", tw); assertEntry("7371f47a6f8bd23a8fa1a8b2a9479cdd76380e54", "fileBinindex", tw); assertEntry("96d80cd6c4e7158dbebd0849f4fb7ce513e5828c", "fileCinfsonly", tw); assertFalse(tw.next()); } private static void assertEntry(String sha1string, String path, TreeWalk tw) throws MissingObjectException, IncorrectObjectTypeException, CorruptObjectException, IOException { assertTrue(tw.next()); assertEquals(path, tw.getPathString()); assertEquals(sha1string, tw.getObjectId(1).getName() /* 1=filetree here */); } private static String nameOf(final AbstractTreeIterator i) { return RawParseUtils.decode(Constants.CHARSET, i.path, 0, i.pathLen); } }