/**
* Yobi, Project Hosting SW
*
* Copyright 2012 NAVER Corp.
* http://yobi.io
*
* @author Ahn Hyeok Jun
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package playRepository;
import controllers.UserApp;
import controllers.routes;
import models.Project;
import models.PullRequest;
import models.User;
import models.enumeration.ResourceType;
import models.resource.Resource;
import models.support.ModelLock;
import org.apache.commons.collections.IteratorUtils;
import org.apache.commons.lang3.ArrayUtils;
import org.apache.commons.lang3.StringUtils;
import org.apache.tika.Tika;
import org.apache.tika.metadata.Metadata;
import com.fasterxml.jackson.databind.JsonNode;
import com.fasterxml.jackson.databind.node.ObjectNode;
import org.eclipse.jgit.api.Git;
import org.eclipse.jgit.api.LogCommand;
import org.eclipse.jgit.api.errors.GitAPIException;
import org.eclipse.jgit.blame.BlameResult;
import org.eclipse.jgit.diff.*;
import org.eclipse.jgit.diff.Edit.Type;
import org.eclipse.jgit.errors.MissingObjectException;
import org.eclipse.jgit.lib.*;
import org.eclipse.jgit.lib.RefUpdate.Result;
import org.eclipse.jgit.revwalk.RevCommit;
import org.eclipse.jgit.revwalk.RevSort;
import org.eclipse.jgit.revwalk.RevTree;
import org.eclipse.jgit.revwalk.RevWalk;
import org.eclipse.jgit.storage.file.WindowCacheConfig;
import org.eclipse.jgit.transport.UsernamePasswordCredentialsProvider;
import org.eclipse.jgit.treewalk.AbstractTreeIterator;
import org.eclipse.jgit.treewalk.CanonicalTreeParser;
import org.eclipse.jgit.treewalk.EmptyTreeIterator;
import org.eclipse.jgit.treewalk.TreeWalk;
import org.eclipse.jgit.treewalk.filter.PathFilter;
import org.eclipse.jgit.util.FileUtils;
import org.eclipse.jgit.util.io.NullOutputStream;
import org.tmatesoft.svn.core.SVNException;
import play.Logger;
import play.libs.Json;
import utils.FileUtil;
import utils.GravatarUtil;
import javax.naming.LimitExceededException;
import java.io.ByteArrayOutputStream;
import java.io.File;
import java.io.FileNotFoundException;
import java.io.IOException;
import java.nio.file.*;
import java.nio.file.attribute.BasicFileAttributes;
import java.util.*;
import static org.eclipse.jgit.diff.DiffEntry.ChangeType.*;
public class GitRepository implements PlayRepository {
private static final ModelLock<Project> PROJECT_LOCK = new ModelLock<>();
public static final int DIFF_SIZE_LIMIT = 3 * FileDiff.SIZE_LIMIT;
public static final int DIFF_LINE_LIMIT = 3 * FileDiff.LINE_LIMIT;
public static final int DIFF_FILE_LIMIT = 2000;
public static final int COMMIT_HISTORY_LIMIT = 1000 * 1000;
public static final int BLAME_FILE_LIMIT = 10;
/**
* The base directory of Git repository
*/
private static String repoPrefix = "repo/git/";
/**
* The base directory of Git pull-request repository
*/
private static String repoForMergingPrefix = "repo/git-merging/";
public static String getRepoPrefix() {
return repoPrefix;
}
public static void setRepoPrefix(String repoPrefix) {
GitRepository.repoPrefix = repoPrefix;
}
public static String getRepoForMergingPrefix() {
return repoForMergingPrefix;
}
private final Repository repository;
private final String ownerName;
private final String projectName;
/**
* @see #buildGitRepository(String, String, boolean)
*/
public GitRepository(String ownerName, String projectName, boolean alternatesMergeRepo) {
this.ownerName = ownerName;
this.projectName = projectName;
this.repository = buildGitRepository(ownerName, projectName, alternatesMergeRepo);
}
public GitRepository(String ownerName, String projectName) {
this(ownerName, projectName, true);
}
/**
* @see #GitRepository(String, String)
*/
public GitRepository(Project project) throws IOException {
this(project.owner, project.name, true);
}
public static Repository buildGitRepository(String ownerName, String projectName,
boolean alternatesMergeRepo) {
try {
RepositoryBuilder repo = new RepositoryBuilder()
.setGitDir(getGitDirectory(ownerName, projectName));
if (alternatesMergeRepo) {
repo.addAlternateObjectDirectory(getDirectoryForMergingObjects(ownerName,
projectName));
}
return repo.build();
} catch (IOException e) {
throw new RuntimeException(e);
}
}
public static Repository buildGitRepository(String ownerName, String projectName) {
return buildGitRepository(ownerName, projectName, true);
}
/**
* @see #buildGitRepository(String, String, boolean)
*/
public static Repository buildGitRepository(Project project) {
return buildGitRepository(project, true);
}
public static Repository buildGitRepository(Project project, boolean alternatesMergeRepo) {
return buildGitRepository(project.owner, project.name, alternatesMergeRepo);
}
public static void cloneLocalRepository(Project originalProject, Project forkProject)
throws Exception {
try {
cloneHardLinkedRepository(originalProject, forkProject);
} catch (Exception e) {
new GitRepository(forkProject).delete();
play.Logger.warn(
"Failed to clone a repository using hardlink. Fall back to straight copy", e);
cloneRepository(getGitDirectoryURL(originalProject), forkProject);
}
}
/**
* @see Repository#create()
*/
@Override
public void create() throws IOException {
this.repository.create(true);
}
/**
* @see #getMetaDataFromPath(String, String)
*/
@Override
public ObjectNode getMetaDataFromPath(String path) throws IOException, GitAPIException, SVNException {
return getMetaDataFromPath(null, path);
}
/**
* Returns the path extended so that empty intermediate folders
* are skipped.
*
* @see <a href="https://github.com/blog/1877-folder-jumping">Folder Jumping on GitHub blog</a>
*/
public String extendPath(String basePath, String path) {
try {
ObjectId objectId = repository.resolve(Constants.HEAD);
RevWalk revWalk = new RevWalk(repository);
RevTree revTree = revWalk.parseTree(objectId);
while (true) {
String fullPath;
if (StringUtils.isEmpty(basePath)) {
fullPath = path;
} else {
fullPath = basePath + "/" + path;
}
TreeWalk treeWalk = TreeWalk.forPath(repository, fullPath, revTree);
// path is not a folder
if (treeWalk == null || !treeWalk.isSubtree()) return path;
treeWalk.enterSubtree();
treeWalk.next();
// path contains a file
if (!treeWalk.isSubtree()) return path;
String next = path + "/" + treeWalk.getNameString();
// path contains more than a single entry
if (treeWalk.next()) return path;
path = next;
}
} catch (IOException e) {
return path;
}
}
public boolean isIntermediateFolder(String path) {
try {
ObjectId objectId = repository.resolve(Constants.HEAD);
RevWalk revWalk = new RevWalk(repository);
RevTree revTree = revWalk.parseTree(objectId);
if (StringUtils.isEmpty(path)) {
return false;
}
TreeWalk treeWalk = TreeWalk.forPath(repository, path, revTree);
// path is not a folder
if (treeWalk == null || !treeWalk.isSubtree()) return false;
treeWalk.enterSubtree();
treeWalk.next();
// path contains a file
if (!treeWalk.isSubtree()) return false;
// patch contains more than a single entry
if (treeWalk.next()) return false;
return true;
} catch (IOException e) {
return false;
}
}
public boolean isFile(String path, String revStr) throws IOException {
ObjectId objectId = getObjectId(revStr);
if (objectId == null) {
return false;
}
RevWalk revWalk = new RevWalk(repository);
RevTree revTree = revWalk.parseTree(objectId);
TreeWalk treeWalk = new TreeWalk(repository);
treeWalk.addTree(revTree);
treeWalk.setRecursive(true);
treeWalk.setFilter(PathFilter.create(path));
return treeWalk.next();
}
@Override
public ObjectNode getMetaDataFromPath(String branch, String path) throws IOException, GitAPIException {
RevCommit headCommit = getRevCommit(branch);
if (headCommit == null) {
Logger.debug("GitRepository : init Project - No Head commit");
return null;
}
RevWalk revWalk = new RevWalk(repository);
RevTree revTree = revWalk.parseTree(headCommit);
TreeWalk treeWalk = new TreeWalk(repository);
treeWalk.addTree(revTree);
if (path.isEmpty()) {
return treeAsJson(path, treeWalk, headCommit);
}
PathFilter pathFilter = PathFilter.create(path);
treeWalk.setFilter(pathFilter);
while (treeWalk.next()) {
if (pathFilter.isDone(treeWalk)) {
break;
} else if (treeWalk.isSubtree()) {
treeWalk.enterSubtree();
}
}
if (treeWalk.isSubtree()) {
treeWalk.enterSubtree();
return treeAsJson(path, treeWalk, headCommit);
} else {
try {
return fileAsJson(treeWalk, headCommit);
} catch (MissingObjectException e) {
Logger.debug("Unavailable access. " + branch + "/" + path + " does not exist.");
return null;
}
}
}
/**
* @see <a href="https://www.kernel.org/pub/software/scm/git/docs/git-log.html">git log until</a>
*/
private ObjectNode fileAsJson(TreeWalk treeWalk, AnyObjectId untilCommitId) throws IOException, GitAPIException {
Git git = new Git(repository);
GitCommit commit = new GitCommit(git.log()
.add(untilCommitId)
.addPath(treeWalk.getPathString())
.call()
.iterator()
.next());
ObjectNode result = Json.newObject();
long commitTime = commit.getCommitTime() * 1000L;
User author = commit.getAuthor();
result.put("type", "file");
result.put("msg", commit.getShortMessage());
result.put("author", commit.getAuthorName());
result.put("avatar", getAvatar(author));
result.put("userName", author.name);
result.put("userLoginId", author.loginId);
result.put("createdDate", commitTime);
result.put("commitMessage", commit.getShortMessage());
result.put("commiter", commit.getCommitterName());
result.put("commitDate", commitTime);
result.put("commitId", untilCommitId.getName());
ObjectLoader file = repository.open(treeWalk.getObjectId(0));
result.put("size", file.getSize());
boolean isBinary = RawText.isBinary(file.openStream());
result.put("isBinary", isBinary);
if (!isBinary && file.getSize() <= MAX_FILE_SIZE_CAN_BE_VIEWED) {
byte[] bytes = file.getBytes();
String str = new String(bytes, FileUtil.detectCharset(bytes));
result.put("data", str);
}
Metadata meta = new Metadata();
meta.add(Metadata.RESOURCE_NAME_KEY, treeWalk.getNameString());
result.put("mimeType", new Tika().detect(file.openStream(), meta));
return result;
}
private String getAvatar(User user) {
if(user.isAnonymous() || user.avatarUrl().equals(UserApp.DEFAULT_AVATAR_URL)) {
return GravatarUtil.getAvatar(user.email, 34);
} else {
return user.avatarUrl();
}
}
/**
* Returns the metadata of a directory in which {@code treeWalk} is located
* and those of its subdirectories and all files under the directory.
*
* The metadata consist of a set of entries to describe all files and
* subdirectories of the current directory. Each entry also has information
* about the last commit made for files or directories.
*
* @param treeWalk
* @param untilCommitId
* @return the metadata of the directory in json
* @throws IOException
* @throws GitAPIException
* @see <a href="https://www.kernel.org/pub/software/scm/git/docs/git-log.html">git log until</a>
*/
private ObjectNode treeAsJson(String basePath, TreeWalk treeWalk, AnyObjectId untilCommitId) throws IOException, GitAPIException {
ObjectNode result = Json.newObject();
ObjectNode listData = Json.newObject();
listData.putAll(new ObjectFinder(basePath, treeWalk, untilCommitId).find());
result.put("type", "folder");
result.put("data", listData);
return (listData.size() == 0) ? null : result;
}
public class ObjectFinder {
private SortedMap<String, JsonNode> found = new TreeMap<>();
private Map<String, JsonNode> targets = new HashMap<>();
private String basePath;
private Iterator<RevCommit> commitIterator;
private AnyObjectId untilCommitId;
public ObjectFinder(String basePath, TreeWalk treeWalk, AnyObjectId untilCommitId) throws IOException, GitAPIException {
while (treeWalk.next()) {
String path = treeWalk.getNameString();
ObjectNode object = Json.newObject();
object.put("type", treeWalk.isSubtree() ? "folder" : "file");
targets.put(path, object);
}
this.basePath = basePath;
this.untilCommitId = untilCommitId;
this.commitIterator = getCommitIterator(untilCommitId);
}
public SortedMap<String, JsonNode> find() throws IOException {
RevCommit prev = null;
RevCommit curr = null;
int i = 0;
// Empty targets means we have found every interested objects and
// no need to continue.
for (; i < COMMIT_HISTORY_LIMIT; i++) {
if (targets.isEmpty()) {
break;
}
if (commitIterator.hasNext()) {
curr = commitIterator.next();
} else {
// ** Illegal state detected! (JGit bug?) **
//
// If targets still remain but there is no next commit,
// something is wrong because the directory contains the
// targets does not have any commit modified them. Sometimes
// it occurs and it seems a bug of JGit. For the bug report,
// see http://dev.eclipse.org/mhonarc/lists/jgit-dev/msg02461.html
try {
commitIterator = getCommitIterator(curr.getId());
// If the new iterator returns a same commit as the
// previous one, just skip it.
curr = commitIterator.next();
if (curr.equals(prev)) {
curr = commitIterator.next();
}
} catch (Exception e) {
play.Logger.warn("An exception occurred while traversing git history", e);
break;
}
}
found(curr, findObjects(curr));
prev = curr;
}
// Fall back in a slow way for the remainder of targets.
for (String path : targets.keySet()) {
Git git = new Git(repository);
Iterator<RevCommit> iterator;
try {
String targetPath = new File(basePath, path).getPath();
iterator = git.log().add(untilCommitId).addPath(targetPath)
.setMaxCount(1).call().iterator();
} catch (GitAPIException e) {
play.Logger.warn("An exception occurred while traversing git history", e);
continue;
}
if (iterator.hasNext()) {
setLatestCommit(fixRevCommitNoParents(iterator.next()), path);
}
}
return found;
}
/*
* get commit logs with untilCommitId and basePath
*/
private Iterator<RevCommit> getCommitIterator(AnyObjectId untilCommitId) throws
IOException, GitAPIException {
Git git = new Git(repository);
LogCommand logCommand = git.log().add(untilCommitId);
if (StringUtils.isNotEmpty(basePath)) {
logCommand.addPath(basePath);
}
final Iterator<RevCommit> iterator = logCommand.call().iterator();
return new Iterator<RevCommit>() {
@Override
public void remove() {
iterator.remove();
}
@Override
public RevCommit next() {
// This may be a bug of JGit; RevWalk.iterator().next()
// should do this but doesn't.
if (!hasNext()) {
throw new NoSuchElementException();
}
return fixRevCommitNoParents(iterator.next());
}
@Override
public boolean hasNext() {
return iterator.hasNext();
}
};
}
private Map<String, ObjectId> findObjects(RevCommit commit) throws IOException {
final Map<String, ObjectId> objects = new HashMap<>();
// We want to find the latest commit for each of `targets`. We already know they have
// same `basePath`. So get every blobs and trees match one of `targets`, under the
// `basePath`, and put them into `objects`.
TreeWalkHandler objectCollector = new TreeWalkHandler() {
@Override
public void handle(TreeWalk treeWalk) {
if (targets.containsKey(treeWalk.getNameString())) {
objects.put(treeWalk.getNameString(), treeWalk.getObjectId(0));
}
}
};
// Remove every blob and tree from `objects` if any of parent commits have a
// object whose path and id is identical with the blob or the tree. It means the
// blob or tree is not changed so we are not interested in it.
TreeWalkHandler objectRemover = new TreeWalkHandler() {
@Override
public void handle(TreeWalk treeWalk) {
if (treeWalk.getObjectId(0).equals(objects.get(treeWalk.getNameString()))) {
objects.remove(treeWalk.getNameString());
}
}
};
// Choose only objects that interest us among blobs and trees. We are interested in
// blobs and trees which has change between the last commit and the current commit.
traverseTree(commit, objectCollector);
for(RevCommit parent : commit.getParents()) {
RevCommit fixedParent = fixRevCommitNoTree(parent);
traverseTree(fixedParent, objectRemover);
}
return objects;
}
private void traverseTree(RevCommit commit, TreeWalkHandler handler) throws IOException {
TreeWalk treeWalk;
if (StringUtils.isEmpty(basePath)) {
treeWalk = new TreeWalk(repository);
treeWalk.addTree(commit.getTree());
} else {
treeWalk = TreeWalk.forPath(repository, basePath, commit.getTree());
if (treeWalk == null) {
return;
}
treeWalk.enterSubtree();
}
while (treeWalk.next()) {
handler.handle(treeWalk);
}
}
private RevCommit fixRevCommitNoParents(RevCommit commit) {
if (commit.getParentCount() == 0) {
return fixRevCommit(commit);
}
return commit;
}
private RevCommit fixRevCommitNoTree(RevCommit commit) {
if (commit.getTree() == null) {
return fixRevCommit(commit);
}
return commit;
}
private RevCommit fixRevCommit(RevCommit commit) {
RevWalk revWalk = new RevWalk(repository);
try {
return revWalk.parseCommit(commit);
} catch (IOException e) {
throw new RuntimeException(e);
}
}
/*
* Now, all `objects` are interesting. Get metadata from the objects, put
* them into `found` and remove from `targets`.
*/
private void found(RevCommit revCommit, Map<String, ObjectId> objects) {
for (String path : objects.keySet()) {
setLatestCommit(revCommit, path);
targets.remove(path);
}
}
private void setLatestCommit(RevCommit revCommit, String path) {
GitCommit commit = new GitCommit(revCommit);
ObjectNode data = (ObjectNode) targets.get(path);
data.put("msg", commit.getShortMessage());
String emailAddress = commit.getAuthorEmail();
User user = User.findByEmail(emailAddress);
data.put("avatar", getAvatar(user));
data.put("userName", user.name);
data.put("userLoginId", user.loginId);
data.put("createdDate", revCommit.getCommitTime() * 1000l);
data.put("author", commit.getAuthorName());
data.put("commitId", commit.getShortId());
data.put("commitUrl", routes.CodeHistoryApp.show(ownerName, projectName, commit.getShortId()).url());
found.put(extendPath(basePath, path), data);
}
}
public static interface TreeWalkHandler {
void handle(TreeWalk treeWalk);
}
/**
* Returns the contents of a file matched up with the given revision and
* path.
*
* @param revision
* @param path
* @return null if the {@code path} denotes a directory; the contents otherwise.
* @throws IOException
*/
@Override
public byte[] getRawFile(String revision, String path) throws IOException {
RevTree tree = new RevWalk(repository).parseTree(repository.resolve(revision));
TreeWalk treeWalk = TreeWalk.forPath(repository, path, tree);
if (treeWalk == null || treeWalk.isSubtree()) {
throw new FileNotFoundException();
}
return repository.open(treeWalk.getObjectId(0)).getBytes();
}
/**
* Deletes the directory of this Git repository.
*
* This method will close the opened resources of the repository through
* {@code repository.close()} and remove the references from packFile by
* initializing {@code Cache} used in the repository.
*/
@Override
public void delete() throws Exception {
repository.close();
WindowCacheConfig config = new WindowCacheConfig();
config.install();
FileUtil.rm_rf(repository.getDirectory());
}
/**
* Returns changes made through the commit denoted by the given revision.
*
* The patch comes from the difference between the root tree of the commit
* denoted by the given revision and the root tree of the parent commit. If
* there is no parent commit, compare it with an empty tree.
*
* @param rev
* @return the string form of the patch in unified diff format
* @throws GitAPIException
* @throws IOException
*/
@Override
public String getPatch(String rev) throws IOException {
RevCommit commit = getRevCommit(rev);
if (commit == null) {
return null;
}
RevCommit parent = null;
if (commit.getParentCount() > 0) {
parent = parseCommit(commit.getParent(0));
}
return getPatch(parent, commit);
}
@Override
public String getPatch(String revA, String revB) throws IOException {
RevCommit commitA = getRevCommit(revA);
RevCommit commitB = getRevCommit(revB);
if (commitA == null || commitB == null) {
return null;
}
return getPatch(commitA, commitB);
}
/*
* Render the difference from treeWalk which has two trees.
*/
private String getPatch(RevCommit commitA, RevCommit commitB) throws IOException {
TreeWalk treeWalk = new TreeWalk(repository);
addTree(treeWalk, commitA);
addTree(treeWalk, commitB);
treeWalk.setRecursive(true);
ByteArrayOutputStream out = new ByteArrayOutputStream();
DiffFormatter diffFormatter = new DiffFormatter(out);
diffFormatter.setRepository(repository);
diffFormatter.format(DiffEntry.scan(treeWalk));
return out.toString("UTF-8");
}
private void addTree(TreeWalk treeWalk, RevCommit commit) throws IOException {
if (commit == null) {
treeWalk.addTree(new EmptyTreeIterator());
} else {
treeWalk.addTree(commit.getTree());
}
}
/**
* Returns the difference made by the commit denoted by the given revision.
*
* The patch comes from the difference between the root tree of the commit
* denoted by the given revision and the root tree of the parent commit. If
* there is no parent commit, compare it with an empty tree.
*
* @param rev the revision
* @return the list of differences of each file
* @throws GitAPIException
* @throws IOException
*/
public List<FileDiff> getDiff(String rev) throws IOException {
return getDiff(repository, rev);
}
static public List<FileDiff> getDiff(Repository repository, String rev) throws IOException {
return getDiff(repository, repository.resolve(rev));
}
public List<FileDiff> getDiff(ObjectId commitId) throws IOException {
return getDiff(repository, commitId);
}
static public List<FileDiff> getDiff(Repository repository, ObjectId commitId) throws
IOException {
if (commitId == null) {
return null;
}
// Get the trees, from current commit and its parent, as treeWalk.
RevWalk revWalk = new RevWalk(repository);
RevCommit commit = revWalk.parseCommit(commitId);
ObjectId commitIdA = null;
if (commit.getParentCount() > 0) {
commitIdA = commit.getParent(0).getId();
}
return getFileDiffs(repository, repository, commitIdA, commitId);
}
public List<FileDiff> getDiff(RevCommit commit) throws IOException {
ObjectId commitIdA = null;
if (commit.getParentCount() > 0) {
commitIdA = commit.getParent(0).getId();
}
return getFileDiffs(repository, repository, commitIdA, commit.getId());
}
public static List<FileDiff> getDiff(Repository repository, RevCommit commit) throws IOException {
ObjectId commitIdA = null;
if (commit.getParentCount() > 0) {
commitIdA = commit.getParent(0).getId();
}
return getFileDiffs(repository, repository, commitIdA, commit.getId());
}
/**
* Returns all commits up to the given revision.
*
* @param pageNumber a zero-based page number
* @param pageSize
* @param untilRevName a revision; If null, it refers to HEAD.
* @return a list of the commits
* @throws IOException
* @throws GitAPIException
*/
@Override
public List<Commit> getHistory(int pageNumber, int pageSize, String untilRevName, String path)
throws IOException, GitAPIException {
// Get the list of commits from HEAD to the given pageNumber.
LogCommand logCommand = new Git(repository).log();
if (path != null) {
logCommand.addPath(path);
}
RevCommit start = getRevCommit(untilRevName);
if (start == null) {
return null;
}
logCommand.add(start);
Iterable<RevCommit> iter = logCommand.setMaxCount(pageNumber * pageSize + pageSize).call();
List<RevCommit> list = new LinkedList<>();
for (RevCommit commit : iter) {
if (list.size() >= pageSize) {
list.remove(0);
}
list.add(commit);
}
List<Commit> result = new ArrayList<>();
for (RevCommit commit : list) {
result.add(new GitCommit(commit));
}
return result;
}
@Override
public Commit getCommit(String rev) throws IOException {
ObjectId commitId = repository.resolve(rev);
if (commitId == null) {
return null;
}
return new GitCommit(new RevWalk(repository).parseCommit(commitId));
}
/**
* Check if the given ref name is under a well-known namespace.
*
* @param refName
* @return true if the refName starts with "refs/heads/", "refs/tags/" or
* "refs/remotes/"
*/
private static boolean isWellKnownRef(String refName) {
return refName.startsWith(Constants.R_HEADS)
|| refName.startsWith(Constants.R_TAGS)
|| refName.startsWith(Constants.R_REMOTES);
}
/**
* Returns names of all branches.
*
* @return a list of the name strings
*/
@Override
public List<String> getRefNames() {
List<String> branches = new ArrayList<>();
for(String refName : repository.getAllRefs().keySet()) {
if (!isWellKnownRef(refName)) {
continue;
}
branches.add(refName);
}
return branches;
}
public List<GitBranch> getBranches() throws IOException, GitAPIException {
List<GitBranch> branches = new ArrayList<>();
for(Ref ref : repository.getAllRefs().values()) {
if (!isWellKnownRef(ref.getName())) {
continue;
}
GitCommit commit = new GitCommit(
new RevWalk(getRepository()).parseCommit(ref.getObjectId()));
GitBranch newBranch = new GitBranch(ref.getName(), commit);
setTheLatestPullRequest(newBranch);
branches.add(newBranch);
}
Collections.sort(branches, new Comparator<GitBranch>() {
@Override
public int compare(GitBranch b1, GitBranch b2) {
return b2.getHeadCommit().getCommitterDate().compareTo(b1.getHeadCommit().getCommitterDate());
}
});
return branches;
}
private void setTheLatestPullRequest(GitBranch gitBranch) {
Project project = Project.findByOwnerAndProjectName(ownerName, projectName);
gitBranch.setPullRequest(PullRequest.findTheLatestOneFrom(project, gitBranch.getName()));
}
@Override
public Resource asResource() {
return new Resource() {
@Override
public String getId() {
return null;
}
@Override
public Project getProject() {
return Project.findByOwnerAndProjectName(ownerName, projectName);
}
@Override
public ResourceType getType() {
return ResourceType.CODE;
}
};
}
@Override
public boolean isFile(String path) throws IOException {
return isFile(path, Constants.HEAD);
}
/**
* Returns a directory path of a Git repository.
*
* This method is used when creating {@link Repository} object that refers
* to a Git repository.
*
* @param project
* @return
* @see #getGitDirectory(String, String)
*/
public static File getGitDirectory(Project project) {
return getGitDirectory(project.owner, project.name);
}
/**
* Returns a url of a Git repository.
*
* This method is used when a URL to Git repository is required for clone,
* fetch and push command.
*
* @param project
* @return
* @throws IOException
*/
public static String getGitDirectoryURL(Project project) throws IOException {
return getGitDirectory(project).getCanonicalPath();
}
/**
* Returns the directory path of a Git repository.
*
* This method is used when creating {@link Repository} object that refers
* to a Git repository.
*
* @param ownerName
* @param projectName
* @return
*/
public static File getGitDirectory(String ownerName, String projectName) {
return new File(getRootDirectory(), ownerName + "/" + projectName + ".git");
}
private static File getRootDirectory() {
return new File(utils.Config.getYobiHome(), getRepoPrefix());
}
private static File getRootDirectoryForMerging() {
return new File(utils.Config.getYobiHome(), getRepoForMergingPrefix());
}
/**
* Clones a Git repository.
*
* Creates a bare repository and copies all branches from the origin
* repository into the bare repository.
*
* @param gitUrl the url of the origin repository
* @param forkingProject the project of the cloned repository
* @throws GitAPIException
* @throws IOException
* * @see <a href="https://www.kernel.org/pub/software/scm/git/docs/gitglossary.html#def_bare_repository">bare repository</a>
*/
public static void cloneRepository(String gitUrl, Project forkingProject) throws GitAPIException {
Git.cloneRepository()
.setURI(gitUrl)
.setDirectory(getGitDirectory(forkingProject))
.setCloneAllBranches(true)
.setBare(true)
.call();
}
public static void cloneRepository(String gitUrl, Project forkingProject, String authId, String authPw) throws GitAPIException {
Git.cloneRepository()
.setURI(gitUrl)
.setDirectory(getGitDirectory(forkingProject))
.setCloneAllBranches(true)
.setBare(true)
.setCredentialsProvider(new UsernamePasswordCredentialsProvider(authId, authPw))
.call();
}
/**
* Checks out the branch.
*
* @param repository
* @param branchName the name of a branch to be checked out
* @throws GitAPIException
*/
public static void checkout(Repository repository, String branchName) throws GitAPIException {
new Git(repository).checkout()
.setName(branchName)
.setCreateBranch(false)
.call();
}
/**
* Returns a path to a working tree.
*
* This method is used for merge.
*
* @param owner
* @param projectName
* @return
*/
public static File getDirectoryForMerging(String owner, String projectName) {
return new File(getRootDirectoryForMerging(), owner + "/" + projectName + ".git");
}
public static File getDirectoryForMergingObjects(String owner, String projectName) {
return new File(getDirectoryForMerging(owner, projectName), ".git/objects");
}
@SuppressWarnings("unchecked")
public static List<RevCommit> diffRevCommits(Repository repository, ObjectId from, ObjectId to) throws IOException, GitAPIException {
return IteratorUtils.toList(
new Git(repository).log().addRange(from, to).call().iterator());
}
public static List<GitCommit> diffCommits(Repository repository, ObjectId from, ObjectId to) throws IOException, GitAPIException {
return wrapInGitCommits(diffRevCommits(repository, from, to));
}
public static List<GitCommit> wrapInGitCommits(List<RevCommit> revCommits) throws IOException, GitAPIException {
List<GitCommit> commits = new ArrayList<>();
for (RevCommit revCommit : revCommits) {
commits.add(new GitCommit(revCommit));
}
return commits;
}
/**
* Finds authors who have made changes by comparing the differences in the
* revisions.
*
* This method retrieves authors by mapping author names to email addresses
* of the people who last modified the line.
*
* @param repository
* @param revA
* @param revB
* @return
* @throws IOException
* @throws GitAPIException
*/
public static Set<User> getRelatedAuthors(Repository repository, String revA, String revB)
throws IOException, GitAPIException, LimitExceededException {
Set<User> authors = new HashSet<>();
RevWalk revWalk = null;
try {
revWalk = new RevWalk(repository);
RevCommit commitA = revWalk.parseCommit(repository.resolve(revA));
RevCommit commitB = revWalk.parseCommit(repository.resolve(revB));
List<DiffEntry> diffs = getDiffEntries(repository, commitA, commitB);
if (diffs.size() > BLAME_FILE_LIMIT) {
String msg = String.format("Reject to get related authors " +
"from changes because of performance issue: The " +
"changes include %d files and it exceeds our limit " +
"of '%d' files.", diffs.size(), BLAME_FILE_LIMIT);
throw new LimitExceededException(msg);
}
for (DiffEntry diff : diffs) {
if (isTypeMatching(diff.getChangeType(), MODIFY, DELETE)) {
authors.addAll(getAuthorsFromDiffEntry(repository, diff, commitA));
}
if (isTypeMatching(diff.getChangeType(), RENAME)) {
authors.add(getAuthorFromFirstCommit(repository, diff.getOldPath(), commitA));
}
}
} finally {
if (revWalk != null) {
revWalk.dispose();
}
}
authors.remove(User.anonymous);
return authors;
}
/**
* Returns the difference between the given commits.
*
* @param repository
* @param commitA
* @param commitB
* @return a list of {@link org.eclipse.jgit.diff.DiffEntry}
* @throws IOException
*/
private static List<DiffEntry> getDiffEntries(Repository repository, RevCommit commitA,
RevCommit commitB) throws IOException {
DiffFormatter diffFormatter = new DiffFormatter(NullOutputStream.INSTANCE);
try {
diffFormatter.setRepository(repository);
diffFormatter.setDetectRenames(true);
return diffFormatter.scan(commitA, commitB);
} finally {
diffFormatter.release();
}
}
/**
* Checks if {@code types} contain the given {@code type}.
*
* @param type
* @param types
* @return
*/
private static boolean isTypeMatching(Object type, Object... types) {
return ArrayUtils.contains(types, type);
}
/**
* Finds authors who last modified or removed lines from the given edit
* list.
*
* @param repository
* @param diff an edit list
* @param start the oldest commit to be considered
* @return
* @throws GitAPIException
* @throws IOException
*/
private static Set<User> getAuthorsFromDiffEntry(Repository repository, DiffEntry diff,
RevCommit start) throws GitAPIException, IOException {
DiffFormatter diffFormatter = new DiffFormatter(NullOutputStream.INSTANCE);
try {
diffFormatter.setRepository(repository);
EditList edits = diffFormatter.toFileHeader(diff).toEditList();
BlameResult blameResult = new Git(repository).blame()
.setFilePath(diff.getOldPath())
.setFollowFileRenames(true)
.setStartCommit(start).call();
return getAuthorsFromBlameResult(edits, blameResult);
} finally {
diffFormatter.release();
}
}
/**
* Finds authors who modified or removed lines from the given edit list and
* the result of git blame.
*
* @param edits an edit list
* @param blameResult the result of blame
* @return a set of authors
*/
private static Set<User> getAuthorsFromBlameResult(EditList edits, BlameResult blameResult) {
Set<User> authors = new HashSet<>();
for (Edit edit : edits) {
if (isTypeMatching(edit.getType(), Type.REPLACE, Type.DELETE)) {
for (int i = edit.getBeginA(); i < edit.getEndA(); i++) {
authors.add(findAuthorByPersonIdent(blameResult.getSourceAuthor(i)));
}
}
}
return authors;
}
/**
* Finds the author of a file denoted by the given path.
*
* @param repository
* @param path
* @param start Considers only the commits made since {@code start}.
* @return
* @throws IOException
*/
private static User getAuthorFromFirstCommit(Repository repository, String path, RevCommit start)
throws IOException {
RevWalk revWalk = null;
try {
revWalk = new RevWalk(repository);
revWalk.markStart(start);
revWalk.setTreeFilter(PathFilter.create(path));
revWalk.sort(RevSort.REVERSE);
RevCommit commit = revWalk.next();
if (commit == null) {
return User.anonymous;
}
return findAuthorByPersonIdent(commit.getAuthorIdent());
} finally {
if (revWalk != null) {
revWalk.dispose();
}
}
}
/**
* Finds a user who matches up with the {@code personIdent}.
*
* @param personIdent
* @return
*/
private static User findAuthorByPersonIdent(PersonIdent personIdent) {
if (personIdent == null) {
return User.anonymous;
}
return User.findByEmail(personIdent.getEmailAddress());
}
/**
* Deletes a branch denoted by the given name.
*
* @param repository
* @param branchName
* @throws GitAPIException
*/
public static void deleteBranch(Repository repository, String branchName) throws GitAPIException {
new Git(repository).branchDelete()
.setBranchNames(branchName)
.setForce(true)
.call();
}
public static Repository buildMergingRepository(PullRequest pullRequest) {
return buildMergingRepository(pullRequest.toProject);
}
public static Repository buildMergingRepository(Project project) {
File workingDirectory = GitRepository.getDirectoryForMerging(project.owner, project.name);
try {
File gitDir = new File(workingDirectory + "/.git");
if(!gitDir.exists()) {
return cloneRepository(project, workingDirectory).getRepository();
} else {
return new RepositoryBuilder().setGitDir(gitDir).build();
}
} catch (Exception e) {
throw new RuntimeException(e);
}
}
private static Git cloneRepository(Project project, File workingDirectory) throws GitAPIException, IOException {
return Git.cloneRepository()
.setURI(GitRepository.getGitDirectoryURL(project))
.setDirectory(workingDirectory)
.call();
}
public static boolean canDeleteFromBranch(PullRequest pullRequest) {
List<Ref> refs;
Repository fromRepo = null; // repository that sent the pull request
String currentBranch;
try {
fromRepo = buildGitRepository(pullRequest.fromProject);
currentBranch = fromRepo.getFullBranch();
refs = new Git(fromRepo).branchList().call();
for(Ref branchRef : refs) {
String branchName = branchRef.getName();
if(branchName.equals(pullRequest.fromBranch) && !branchName.equals(currentBranch)) {
RevWalk revWalk = new RevWalk(fromRepo);
RevCommit commit = revWalk.parseCommit(fromRepo.resolve(branchName));
String commitName = commit.name(); // fromBranch's head commit name
revWalk.release();
// check whether the target repository has the commit witch is the fromBranch's head commit.
Repository toRepo = buildGitRepository(pullRequest.toProject);
ObjectId toBranch = toRepo.resolve(commitName);
if(toBranch != null) {
return true;
}
}
}
} catch (Exception e) {
throw new RuntimeException(e);
} finally {
if(fromRepo != null) {
fromRepo.close();
}
}
return false;
}
public static String deleteFromBranch(PullRequest pullRequest) {
if(!canDeleteFromBranch(pullRequest)) {
return null;
}
RevWalk revWalk = null;
String lastCommitId;
Repository repo = null;
try {
repo = buildGitRepository(pullRequest.fromProject);
ObjectId branch = repo.resolve(pullRequest.fromBranch);
revWalk = new RevWalk(repo);
RevCommit commit = revWalk.parseCommit(branch);
lastCommitId = commit.getName();
deleteBranch(repo, pullRequest.fromBranch);
return lastCommitId;
} catch (Exception e) {
throw new RuntimeException(e);
} finally {
if(revWalk != null) {
revWalk.release();
}
if(repo != null) {
repo.close();
}
}
}
public static void restoreBranch(PullRequest pullRequest) {
if(!canRestoreBranch(pullRequest)) {
return;
}
Repository repo = null;
try {
repo = buildGitRepository(pullRequest.fromProject);
new Git(repo).branchCreate()
.setName(pullRequest.fromBranch.replaceAll("refs/heads/", ""))
.setStartPoint(pullRequest.lastCommitId)
.call();
} catch (Exception e) {
throw new RuntimeException(e);
} finally {
if(repo != null) {
repo.close();
}
}
}
public static boolean canRestoreBranch(PullRequest pullRequest) {
Repository repo = null;
try {
repo = buildGitRepository(pullRequest.fromProject);
ObjectId resolve = repo.resolve(pullRequest.fromBranch);
if(resolve == null && pullRequest.lastCommitId != null) {
return true;
}
} catch (Exception e) {
throw new RuntimeException(e);
} finally {
if(repo != null) {
repo.close();
}
}
return false;
}
public static List<GitCommit> diffCommits(PullRequest pullRequest) {
List<GitCommit> commits = new ArrayList<>();
if(pullRequest.mergedCommitIdFrom == null || pullRequest.mergedCommitIdTo == null) {
return commits;
}
Repository repo;
try {
if(pullRequest.isClosed()) {
repo = buildGitRepository(pullRequest.toProject);
} else {
repo = buildGitRepository(pullRequest.fromProject);
}
ObjectId untilId = repo.resolve(pullRequest.mergedCommitIdTo);
if(untilId == null) {
return commits;
}
ObjectId sinceId = repo.resolve(pullRequest.mergedCommitIdFrom);
if(sinceId == null) {
return commits;
}
Iterable<RevCommit> logIterator = new Git(repo).log().addRange(sinceId, untilId).call();
for(RevCommit commit : logIterator) {
commits.add(new GitCommit(commit));
}
return commits;
} catch (Exception e) {
throw new RuntimeException(e);
}
}
public static String getPatch(Repository repository, String fromBranch, String toBranch) {
TreeWalk treeWalk = new TreeWalk(repository);
RevWalk walk = new RevWalk(repository);
try {
ObjectId from = repository.resolve(fromBranch);
ObjectId to = repository.resolve(toBranch);
RevTree fromTree = walk.parseTree(from);
RevTree toTree = walk.parseTree(to);
treeWalk.addTree(toTree);
treeWalk.addTree(fromTree);
ByteArrayOutputStream out = new ByteArrayOutputStream();
DiffFormatter diffFormatter = new DiffFormatter(out);
diffFormatter.setRepository(repository);
treeWalk.setRecursive(true);
diffFormatter.format(DiffEntry.scan(treeWalk));
return out.toString("UTF-8");
} catch (Exception e) {
throw new RuntimeException(e);
} finally {
walk.dispose();
}
}
public static String getPatch(PullRequest pullRequest) {
if(pullRequest.mergedCommitIdFrom == null || pullRequest.mergedCommitIdTo == null) {
return "";
}
Repository repo;
try {
repo = buildGitRepository(pullRequest.toProject);
ObjectId untilId = repo.resolve(pullRequest.mergedCommitIdTo);
if(untilId == null) {
return "";
}
ObjectId sinceId = repo.resolve(pullRequest.mergedCommitIdFrom);
if(sinceId == null) {
return "";
}
return getPatch(repo, untilId.getName(), sinceId.getName());
} catch (Exception e) {
throw new RuntimeException(e);
}
}
public static List<FileDiff> getDiff(final Repository repository, String revA, String revB) throws IOException {
return getDiff(repository, revA, repository, revB);
}
@Override
public List<FileDiff> getDiff(String revA, String revB) throws IOException {
return getDiff(this.repository, revA, revB);
}
public static List<FileDiff> getDiff(final Repository repositoryA, String revA, Repository repositoryB, String revB) throws IOException {
ObjectId commitA = repositoryA.resolve(revA);
ObjectId commitB = repositoryB.resolve(revB);
return getFileDiffs(repositoryA, repositoryB, commitA, commitB);
}
private static List<FileDiff> getFileDiffs(final Repository repositoryA, Repository repositoryB, ObjectId commitA, ObjectId commitB) throws IOException {
class MultipleRepositoryObjectReader extends ObjectReader {
Collection<ObjectReader> readers = new HashSet<>();
@Override
public ObjectReader newReader() {
return new MultipleRepositoryObjectReader(readers);
}
public MultipleRepositoryObjectReader(Collection<ObjectReader> readers) {
this.readers = readers;
}
public MultipleRepositoryObjectReader() {
this.readers = new HashSet<>();
}
public void addObjectReader(ObjectReader reader) {
this.readers.add(reader);
}
@Override
public Collection<ObjectId> resolve(AbbreviatedObjectId id) throws IOException {
Set<ObjectId> result = new HashSet<>();
for (ObjectReader reader : readers) {
result.addAll(reader.resolve(id));
}
return result;
}
@Override
public ObjectLoader open(AnyObjectId objectId, int typeHint) throws IOException {
for (ObjectReader reader : readers) {
if (reader.has(objectId, typeHint)) {
return reader.open(objectId, typeHint);
}
}
return null;
}
@Override
public Set<ObjectId> getShallowCommits() throws IOException {
Set<ObjectId> union = new HashSet<>();
for (ObjectReader reader : readers) {
union.addAll(reader.getShallowCommits());
}
return union;
}
}
final MultipleRepositoryObjectReader reader = new MultipleRepositoryObjectReader();
reader.addObjectReader(repositoryA.newObjectReader());
reader.addObjectReader(repositoryB.newObjectReader());
@SuppressWarnings("rawtypes")
Repository fakeRepo = new Repository(new BaseRepositoryBuilder()) {
@Override
public void create(boolean bare) throws IOException {
throw new UnsupportedOperationException();
}
@Override
public ObjectDatabase getObjectDatabase() {
throw new UnsupportedOperationException();
}
@Override
public RefDatabase getRefDatabase() {
throw new UnsupportedOperationException();
}
@Override
public StoredConfig getConfig() {
return repositoryA.getConfig();
}
@Override
public void scanForRepoChanges() throws IOException {
throw new UnsupportedOperationException();
}
@Override
public void notifyIndexChanged() {
throw new UnsupportedOperationException();
}
@Override
public ReflogReader getReflogReader(String refName) throws IOException {
throw new UnsupportedOperationException();
}
public ObjectReader newObjectReader() {
return reader;
}
};
DiffFormatter formatter = new DiffFormatter(NullOutputStream.INSTANCE);
formatter.setRepository(fakeRepo);
formatter.setDetectRenames(true);
AbstractTreeIterator treeParserA, treeParserB;
RevTree treeA = null, treeB = null;
if (commitA != null) {
treeA = new RevWalk(repositoryA).parseTree(commitA);
treeParserA = new CanonicalTreeParser();
((CanonicalTreeParser) treeParserA).reset(reader, treeA);
} else {
treeParserA = new EmptyTreeIterator();
}
if (commitB != null) {
treeB = new RevWalk(repositoryB).parseTree(commitB);
treeParserB = new CanonicalTreeParser();
((CanonicalTreeParser) treeParserB).reset(reader, treeB);
} else {
treeParserB = new EmptyTreeIterator();
}
List<FileDiff> result = new ArrayList<>();
int size = 0;
int lines = 0;
for (DiffEntry diff : formatter.scan(treeParserA, treeParserB)) {
FileDiff fileDiff = new FileDiff();
fileDiff.commitA = commitA != null ? commitA.getName() : null;
fileDiff.commitB = commitB != null ? commitB.getName() : null;
fileDiff.changeType = diff.getChangeType();
fileDiff.oldMode = diff.getOldMode();
fileDiff.newMode = diff.getNewMode();
String pathA = diff.getPath(DiffEntry.Side.OLD);
String pathB = diff.getPath(DiffEntry.Side.NEW);
byte[] rawA = null;
if (treeA != null
&& Arrays.asList(DELETE, MODIFY, RENAME, COPY).contains(diff.getChangeType())) {
TreeWalk t1 = TreeWalk.forPath(repositoryA, pathA, treeA);
ObjectId blobA = t1.getObjectId(0);
fileDiff.pathA = pathA;
try {
rawA = repositoryA.open(blobA).getBytes();
fileDiff.isBinaryA = RawText.isBinary(rawA);
fileDiff.a = fileDiff.isBinaryA ? null : new RawText(rawA);
} catch (org.eclipse.jgit.errors.LargeObjectException e) {
fileDiff.addError(FileDiff.Error.A_SIZE_EXCEEDED);
}
}
byte[] rawB = null;
if (treeB != null
&& Arrays.asList(ADD, MODIFY, RENAME, COPY).contains(diff.getChangeType())) {
TreeWalk t2 = TreeWalk.forPath(repositoryB, pathB, treeB);
ObjectId blobB = t2.getObjectId(0);
fileDiff.pathB = pathB;
try {
rawB = repositoryB.open(blobB).getBytes();
fileDiff.isBinaryB = RawText.isBinary(rawB);
fileDiff.b = fileDiff.isBinaryB ? null : new RawText(rawB);
} catch (org.eclipse.jgit.errors.LargeObjectException e) {
fileDiff.addError(FileDiff.Error.B_SIZE_EXCEEDED);
}
}
if (size > DIFF_SIZE_LIMIT || lines > DIFF_LINE_LIMIT) {
fileDiff.addError(FileDiff.Error.OTHERS_SIZE_EXCEEDED);
result.add(fileDiff);
continue;
}
// Get diff if necessary
if (fileDiff.a != null
&& fileDiff.b != null
&& !(fileDiff.isBinaryA || fileDiff.isBinaryB)
&& Arrays.asList(MODIFY, RENAME).contains(diff.getChangeType())) {
DiffAlgorithm diffAlgorithm = DiffAlgorithm.getAlgorithm(
repositoryB.getConfig().getEnum(
ConfigConstants.CONFIG_DIFF_SECTION, null,
ConfigConstants.CONFIG_KEY_ALGORITHM,
DiffAlgorithm.SupportedAlgorithm.HISTOGRAM));
fileDiff.editList = diffAlgorithm.diff(RawTextComparator.DEFAULT, fileDiff.a,
fileDiff.b);
size += fileDiff.getHunks().size;
lines += fileDiff.getHunks().lines;
}
// update lines and sizes
if (fileDiff.b != null && !fileDiff.isBinaryB && diff.getChangeType().equals(ADD)) {
lines += fileDiff.b.size();
size += rawB.length;
}
// update lines and sizes
if (fileDiff.a != null && !fileDiff.isBinaryA && diff.getChangeType().equals(DELETE)) {
lines += fileDiff.a.size();
size += rawA.length;
}
// Stop if exceeds the limit for total number of files
if (result.size() > DIFF_FILE_LIMIT) {
break;
}
result.add(fileDiff);
}
return result;
}
/**
* Clones a local repository.
*
* This doesn't copy Git objects but hardlink them to save disk space.
*
* @param originalProject
* @param forkProject
* @throws IOException
*/
protected static void cloneHardLinkedRepository(Project originalProject,
Project forkProject) throws IOException {
Repository origin = GitRepository.buildGitRepository(originalProject);
Repository forked = GitRepository.buildGitRepository(forkProject);
forked.create();
final Path originObjectsPath =
Paths.get(new File(origin.getDirectory(), "objects").getAbsolutePath());
final Path forkedObjectsPath =
Paths.get(new File(forked.getDirectory(), "objects").getAbsolutePath());
// Hardlink files .git/objects/ directory to save disk space,
// but copy .git/info/alternates because the file can be modified.
SimpleFileVisitor<Path> visitor =
new SimpleFileVisitor<Path>() {
public FileVisitResult visitFile(Path file,
BasicFileAttributes attr) throws IOException {
Path newPath = forkedObjectsPath.resolve(
originObjectsPath.relativize(file.toAbsolutePath()));
if (file.equals(forkedObjectsPath.resolve("/info/alternates"))) {
Files.copy(file, newPath);
} else {
FileUtils.mkdirs(newPath.getParent().toFile(), true);
Files.createLink(newPath, file);
}
return java.nio.file.FileVisitResult.CONTINUE;
}
};
Files.walkFileTree(originObjectsPath, visitor);
// Import refs.
for (Map.Entry<String, Ref> entry : origin.getAllRefs().entrySet()) {
RefUpdate updateRef = forked.updateRef(entry.getKey());
Ref ref = entry.getValue();
if (ref.isSymbolic()) {
updateRef.link(ref.getTarget().getName());
} else {
updateRef.setNewObjectId(ref.getObjectId());
updateRef.update();
}
}
}
public GitBranch getHeadBranch() {
try {
String headBranchName = getDefaultBranch();
ObjectId branchObjectId = repository.resolve(headBranchName);
RevWalk walk = new RevWalk(repository);
RevCommit head = walk.parseCommit(branchObjectId);
walk.dispose();
return new GitBranch(headBranchName, new GitCommit(head));
} catch (IOException e) {
throw new RuntimeException(e);
}
}
public static class CloneAndFetch {
private Repository repository;
private String destToBranchName;
private String destFromBranchName;
private String mergingBranchName;
public Repository getRepository() {
return repository;
}
public String getDestToBranchName() {
return destToBranchName;
}
public String getDestFromBranchName() {
return destFromBranchName;
}
public String getMergingBranchName() {
return mergingBranchName;
}
private CloneAndFetch(Repository repository, String destToBranchName, String destFromBranchName, String mergingBranchName) {
this.repository = repository;
this.destToBranchName = destToBranchName;
this.destFromBranchName = destFromBranchName;
this.mergingBranchName = Constants.R_HEADS + mergingBranchName;
}
}
public static interface AfterCloneAndFetchOperation {
public void invoke(CloneAndFetch cloneAndFetch) throws IOException, GitAPIException;
}
public void close() {
repository.close();
}
/**
* @see playRepository.PlayRepository#renameTo(String)
*/
@Override
public boolean renameTo(String projectName) {
return move(this.ownerName, this.projectName, this.ownerName, projectName);
}
@Override
public String getDefaultBranch() throws IOException {
return repository.getRef(Constants.HEAD).getTarget().getName();
}
@Override
public void setDefaultBranch(String target) throws IOException {
Result result = repository.updateRef(Constants.HEAD).link(target);
switch (result) {
case NEW:
case FORCED:
case NO_CHANGE:
break;
default:
throw new IOException("Failed to update symbolic ref, got: " + result);
}
}
@Override
public Commit getParentCommitOf(String commitIdString) {
try {
ObjectId commitId = repository.resolve(commitIdString);
RevWalk revWalk = new RevWalk(repository);
RevCommit commit = revWalk.parseCommit(commitId);
if(commit.getParentCount() > 0) {
ObjectId parentId = commit.getParent(0).getId();
return new GitCommit(revWalk.parseCommit(parentId));
}
} catch (IOException e) {
throw new RuntimeException(e);
}
return null;
}
@Override
public boolean isEmpty() {
return this.getRefNames().isEmpty();
}
/*
* Finds a Git object denoted by the given revision.
*/
private ObjectId getObjectId(String revstr) throws IOException {
if (revstr == null) {
return repository.resolve(Constants.HEAD);
} else {
return repository.resolve(revstr);
}
}
/*
* Finds a RevCommit object denoted by the given revision.
*/
private RevCommit getRevCommit(String revstr) throws IOException {
ObjectId objectId = getObjectId(revstr);
return parseCommit(objectId);
}
/*
* Finds a RevCommit object with the given id.
*/
private RevCommit parseCommit(AnyObjectId objectId) throws IOException {
if (objectId == null) {
return null;
}
RevWalk revWalk = new RevWalk(repository);
return revWalk.parseCommit(objectId);
}
public boolean move(String srcProjectOwner, String srcProjectName, String desrProjectOwner, String destProjectName) {
repository.close();
WindowCacheConfig config = new WindowCacheConfig();
config.install();
File srcGitDirectory = getGitDirectory(srcProjectOwner, srcProjectName);
File destGitDirectory = getGitDirectory(desrProjectOwner, destProjectName);
File srcGitDirectoryForMerging = getDirectoryForMerging(srcProjectOwner, srcProjectName);
File destGitDirectoryForMerging = getDirectoryForMerging(desrProjectOwner, destProjectName);
srcGitDirectory.setWritable(true);
srcGitDirectoryForMerging.setWritable(true);
try {
if(srcGitDirectory.exists()) {
org.apache.commons.io.FileUtils.moveDirectory(srcGitDirectory, destGitDirectory);
play.Logger.debug("[Transfer] Move from: " + srcGitDirectory.getAbsolutePath()
+ "to " + destGitDirectory);
} else {
play.Logger.warn("[Transfer] Nothing to move from: " + srcGitDirectory.getAbsolutePath());
}
if(srcGitDirectoryForMerging.exists()) {
org.apache.commons.io.FileUtils.moveDirectory(srcGitDirectoryForMerging, destGitDirectoryForMerging);
play.Logger.debug("[Transfer] Move from: " + srcGitDirectoryForMerging.getAbsolutePath()
+ "to " + destGitDirectoryForMerging);
} else {
play.Logger.warn("[Transfer] Nothing to move from: " + srcGitDirectoryForMerging.getAbsolutePath());
}
return true;
} catch (IOException e) {
play.Logger.error("[Transfer] Move Failed", e);
return false;
}
}
@Override
public File getDirectory() {
return this.repository.getDirectory();
}
public Repository getRepository() {
return repository;
}
}