/* * Copyright (C) 2007 Thiago Macieira * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ /* * Based on svn-fast-export by Chris Lee * License: MIT * URL: git://repo.or.cz/fast-import.git http://repo.or.cz/w/fast-export.git */ #define _XOPEN_SOURCE #define _LARGEFILE_SUPPORT #define _LARGEFILE64_SUPPORT #include "svn.h" #include "CommandLineParser.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "repository.h" #undef SVN_ERR #define SVN_ERR(expr) SVN_INT_ERR(expr) typedef QList MatchRuleList; typedef QHash RepositoryHash; typedef QHash IdentityHash; class AprAutoPool { apr_pool_t *pool; AprAutoPool(const AprAutoPool &); AprAutoPool &operator=(const AprAutoPool &); public: inline AprAutoPool(apr_pool_t *parent = NULL) { pool = svn_pool_create(parent); } inline ~AprAutoPool() { svn_pool_destroy(pool); } inline void clear() { svn_pool_clear(pool); } inline apr_pool_t *data() const { return pool; } inline operator apr_pool_t *() const { return pool; } }; class SvnPrivate { public: MatchRuleList matchRules; RepositoryHash repositories; IdentityHash identities; SvnPrivate(const QString &pathToRepository); ~SvnPrivate(); int youngestRevision(); int exportRevision(int revnum); int openRepository(const QString &pathToRepository); private: AprAutoPool global_pool; svn_fs_t *fs; svn_revnum_t youngest_rev; }; void Svn::initialize() { // initialize APR or exit if (apr_initialize() != APR_SUCCESS) { fprintf(stderr, "You lose at apr_initialize().\n"); exit(1); } // static destructor static struct Destructor { ~Destructor() { apr_terminate(); } } destructor; } Svn::Svn(const QString &pathToRepository) : d(new SvnPrivate(pathToRepository)) { } Svn::~Svn() { delete d; } void Svn::setMatchRules(const MatchRuleList &matchRules) { d->matchRules = matchRules; } void Svn::setRepositories(const RepositoryHash &repositories) { d->repositories = repositories; } void Svn::setIdentityMap(const IdentityHash &identityMap) { d->identities = identityMap; } int Svn::youngestRevision() { return d->youngestRevision(); } bool Svn::exportRevision(int revnum) { return d->exportRevision(revnum) == EXIT_SUCCESS; } SvnPrivate::SvnPrivate(const QString &pathToRepository) : global_pool(NULL) { if( openRepository(pathToRepository) != EXIT_SUCCESS) { qCritical() << "Failed to open repository"; exit(1); } // get the youngest revision svn_fs_youngest_rev(&youngest_rev, fs, global_pool); } SvnPrivate::~SvnPrivate() { svn_pool_destroy(global_pool); } int SvnPrivate::youngestRevision() { return youngest_rev; } int SvnPrivate::openRepository(const QString &pathToRepository) { svn_repos_t *repos; QString path = pathToRepository; while (path.endsWith('/')) // no trailing slash allowed path = path.mid(0, path.length()-1); SVN_ERR(svn_repos_open(&repos, QFile::encodeName(path), global_pool)); fs = svn_repos_fs(repos); return EXIT_SUCCESS; } enum RuleType { AnyRule = 0, NoIgnoreRule = 0x01, NoRecurseRule = 0x02 }; static MatchRuleList::ConstIterator findMatchRule(const MatchRuleList &matchRules, int revnum, const QString ¤t, int ruleMask = AnyRule) { MatchRuleList::ConstIterator it = matchRules.constBegin(), end = matchRules.constEnd(); for ( ; it != end; ++it) { if (it->minRevision > revnum) continue; if (it->maxRevision != -1 && it->maxRevision < revnum) continue; if (it->action == Rules::Match::Ignore && ruleMask & NoIgnoreRule) continue; if (it->action == Rules::Match::Recurse && ruleMask & NoRecurseRule) continue; if (it->rx.indexIn(current) == 0) { return it; } } // no match return end; } static void splitPathName(const Rules::Match &rule, const QString &pathName, QString *svnprefix_p, QString *repository_p, QString *branch_p, QString *path_p) { QString svnprefix = pathName; svnprefix.truncate(rule.rx.matchedLength()); if (svnprefix_p) { *svnprefix_p = svnprefix; } if (repository_p) { *repository_p = svnprefix; repository_p->replace(rule.rx, rule.repository); } if (branch_p) { *branch_p = svnprefix; branch_p->replace(rule.rx, rule.branch); } if (path_p) { QString prefix = svnprefix; prefix.replace(rule.rx, rule.prefix); *path_p = prefix + pathName.mid(svnprefix.length()); } } static int pathMode(svn_fs_root_t *fs_root, const char *pathname, apr_pool_t *pool) { svn_string_t *propvalue; SVN_ERR(svn_fs_node_prop(&propvalue, fs_root, pathname, "svn:executable", pool)); int mode = 0100644; if (propvalue) mode = 0100755; return mode; } svn_error_t *QIODevice_write(void *baton, const char *data, apr_size_t *len) { QIODevice *device = reinterpret_cast(baton); device->write(data, *len); while (device->bytesToWrite() > 32*1024) { if (!device->waitForBytesWritten(-1)) { qFatal("Failed to write to process: %s", qPrintable(device->errorString())); return svn_error_createf(APR_EOF, SVN_NO_ERROR, "Failed to write to process: %s", qPrintable(device->errorString())); } } return SVN_NO_ERROR; } static svn_stream_t *streamForDevice(QIODevice *device, apr_pool_t *pool) { svn_stream_t *stream = svn_stream_create(device, pool); svn_stream_set_write(stream, QIODevice_write); return stream; } static int dumpBlob(Repository::Transaction *txn, svn_fs_root_t *fs_root, const char *pathname, const QString &finalPathName, apr_pool_t *pool) { AprAutoPool dumppool(pool); // what type is it? int mode = pathMode(fs_root, pathname, dumppool); svn_filesize_t stream_length; SVN_ERR(svn_fs_file_length(&stream_length, fs_root, pathname, dumppool)); svn_stream_t *in_stream, *out_stream; if (!CommandLineParser::instance()->contains("dry-run")) { // open the file SVN_ERR(svn_fs_file_contents(&in_stream, fs_root, pathname, dumppool)); } // maybe it's a symlink? svn_string_t *propvalue; SVN_ERR(svn_fs_node_prop(&propvalue, fs_root, pathname, "svn:special", dumppool)); if (propvalue) { apr_size_t len = strlen("link "); if (!CommandLineParser::instance()->contains("dry-run")) { QByteArray buf; buf.reserve(len); SVN_ERR(svn_stream_read(in_stream, buf.data(), &len)); if (len != strlen("link ") || strncmp(buf, "link ", len) != 0) qFatal("file %s is svn:special but not a symlink", pathname); } mode = 0120000; stream_length -= len; } QIODevice *io = txn->addFile(finalPathName, mode, stream_length); if (!CommandLineParser::instance()->contains("dry-run")) { // open a generic svn_stream_t for the QIODevice out_stream = streamForDevice(io, dumppool); SVN_ERR(svn_stream_copy(in_stream, out_stream, dumppool)); svn_stream_close(out_stream); svn_stream_close(in_stream); // print an ending newline io->putChar('\n'); } return EXIT_SUCCESS; } static int recursiveDumpDir(Repository::Transaction *txn, svn_fs_root_t *fs_root, const QByteArray &pathname, const QString &finalPathName, apr_pool_t *pool) { // get the dir listing apr_hash_t *entries; SVN_ERR(svn_fs_dir_entries(&entries, fs_root, pathname, pool)); AprAutoPool dirpool(pool); for (apr_hash_index_t *i = apr_hash_first(pool, entries); i; i = apr_hash_next(i)) { dirpool.clear(); const void *vkey; void *value; apr_hash_this(i, &vkey, NULL, &value); svn_fs_dirent_t *dirent = reinterpret_cast(value); QByteArray entryName = pathname + '/' + dirent->name; QString entryFinalName = finalPathName + QString::fromUtf8(dirent->name); if (dirent->kind == svn_node_dir) { entryFinalName += '/'; if (recursiveDumpDir(txn, fs_root, entryName, entryFinalName, dirpool) == EXIT_FAILURE) return EXIT_FAILURE; } else if (dirent->kind == svn_node_file) { printf("+"); fflush(stdout); if (dumpBlob(txn, fs_root, entryName, entryFinalName, dirpool) == EXIT_FAILURE) return EXIT_FAILURE; } } return EXIT_SUCCESS; } static bool wasDir(svn_fs_t *fs, int revnum, const char *pathname, apr_pool_t *pool) { AprAutoPool subpool(pool); svn_fs_root_t *fs_root; if (svn_fs_revision_root(&fs_root, fs, revnum, subpool) != SVN_NO_ERROR) return false; svn_boolean_t is_dir; if (svn_fs_is_dir(&is_dir, fs_root, pathname, subpool) != SVN_NO_ERROR) return false; return is_dir; } time_t get_epoch(char *svn_date) { struct tm tm; memset(&tm, 0, sizeof tm); QByteArray date(svn_date, strlen(svn_date) - 8); strptime(date, "%Y-%m-%dT%H:%M:%S", &tm); return timegm(&tm); } class SvnRevision { public: AprAutoPool pool; QHash transactions; MatchRuleList matchRules; RepositoryHash repositories; IdentityHash identities; svn_fs_t *fs; svn_fs_root_t *fs_root; int revnum; // must call fetchRevProps first: QByteArray authorident; QByteArray log; uint epoch; bool ruledebug; SvnRevision(int revision, svn_fs_t *f, apr_pool_t *parent_pool) : pool(parent_pool), fs(f), fs_root(0), revnum(revision) { ruledebug = CommandLineParser::instance()->contains( QLatin1String("debug-rules")); } int open() { SVN_ERR(svn_fs_revision_root(&fs_root, fs, revnum, pool)); return EXIT_SUCCESS; } int prepareTransactions(); int fetchRevProps(); int commit(); int exportEntry(const char *path, const svn_fs_path_change_t *change, apr_hash_t *changes); int exportDispatch(const char *path, const svn_fs_path_change_t *change, const char *path_from, svn_revnum_t rev_from, apr_hash_t *changes, const QString ¤t, const Rules::Match &rule, apr_pool_t *pool); int exportInternal(const char *path, const svn_fs_path_change_t *change, const char *path_from, svn_revnum_t rev_from, const QString ¤t, const Rules::Match &rule); int recurse(const char *path, const svn_fs_path_change_t *change, const char *path_from, svn_revnum_t rev_from, apr_hash_t *changes, apr_pool_t *pool); }; int SvnPrivate::exportRevision(int revnum) { SvnRevision rev(revnum, fs, global_pool); rev.matchRules = matchRules; rev.repositories = repositories; rev.identities = identities; // open this revision: printf("Exporting revision %d ", revnum); fflush(stdout); if (rev.open() == EXIT_FAILURE) return EXIT_FAILURE; if (rev.prepareTransactions() == EXIT_FAILURE) return EXIT_FAILURE; if (rev.transactions.isEmpty()) { printf(" nothing to do\n"); return EXIT_SUCCESS; // no changes? } if (rev.commit() == EXIT_FAILURE) return EXIT_FAILURE; printf(" done\n"); return EXIT_SUCCESS; } int SvnRevision::prepareTransactions() { // find out what was changed in this revision: apr_hash_t *changes; SVN_ERR(svn_fs_paths_changed(&changes, fs_root, pool)); for (apr_hash_index_t *i = apr_hash_first(pool, changes); i; i = apr_hash_next(i)) { const void *vkey; void *value; apr_hash_this(i, &vkey, NULL, &value); const char *key = reinterpret_cast(vkey); svn_fs_path_change_t *change = reinterpret_cast(value); if (exportEntry(key, change, changes) == EXIT_FAILURE) return EXIT_FAILURE; } return EXIT_SUCCESS; } int SvnRevision::fetchRevProps() { apr_hash_t *revprops; SVN_ERR(svn_fs_revision_proplist(&revprops, fs, revnum, pool)); svn_string_t *svnauthor = (svn_string_t*)apr_hash_get(revprops, "svn:author", APR_HASH_KEY_STRING); svn_string_t *svndate = (svn_string_t*)apr_hash_get(revprops, "svn:date", APR_HASH_KEY_STRING); svn_string_t *svnlog = (svn_string_t*)apr_hash_get(revprops, "svn:log", APR_HASH_KEY_STRING); log = (char *)svnlog->data; authorident = svnauthor ? identities.value((char *)svnauthor->data) : QByteArray(); epoch = get_epoch((char*)svndate->data); if (authorident.isEmpty()) { if (!svnauthor || svn_string_isempty(svnauthor)) authorident = "nobody "; else authorident = svnauthor->data + QByteArray(" <") + svnauthor->data + QByteArray("@localhost>"); } return EXIT_SUCCESS; } int SvnRevision::commit() { // now create the commit if (fetchRevProps() != EXIT_SUCCESS) return EXIT_FAILURE; foreach (Repository::Transaction *txn, transactions) { txn->setAuthor(authorident); txn->setDateTime(epoch); txn->setLog(log); txn->commit(); delete txn; } return EXIT_SUCCESS; } int SvnRevision::exportEntry(const char *key, const svn_fs_path_change_t *change, apr_hash_t *changes) { AprAutoPool revpool(pool.data()); QString current = QString::fromUtf8(key); // was this copied from somewhere? svn_revnum_t rev_from; const char *path_from; SVN_ERR(svn_fs_copied_from(&rev_from, &path_from, fs_root, key, revpool)); // is this a directory? svn_boolean_t is_dir; SVN_ERR(svn_fs_is_dir(&is_dir, fs_root, key, revpool)); if (is_dir) { if (change->change_kind == svn_fs_path_change_modify || change->change_kind == svn_fs_path_change_add) { if (path_from == NULL) { // freshly added directory, or modified properties // Git doesn't handle directories, so we don't either //qDebug() << " mkdir ignored:" << key; return EXIT_SUCCESS; } qDebug() << " " << key << "was copied from" << path_from << "rev" << rev_from; } else if (change->change_kind == svn_fs_path_change_replace) { if (path_from == NULL) qDebug() << " " << key << "was replaced"; else qDebug() << " " << key << "was replaced from" << path_from << "rev" << rev_from; } else if (change->change_kind == svn_fs_path_change_reset) { qCritical() << " " << key << "was reset, panic!"; return EXIT_FAILURE; } else { // if change_kind == delete, it shouldn't come into this arm of the 'is_dir' test qCritical() << " " << key << "has unhandled change kind " << change->change_kind << ", panic!"; return EXIT_FAILURE; } } else if (change->change_kind == svn_fs_path_change_delete) { is_dir = wasDir(fs, revnum - 1, key, revpool); } if (is_dir) current += '/'; // find the first rule that matches this pathname MatchRuleList::ConstIterator match = findMatchRule(matchRules, revnum, current); if (match != matchRules.constEnd()) { const Rules::Match &rule = *match; return exportDispatch(key, change, path_from, rev_from, changes, current, rule, revpool); } if (is_dir && path_from != NULL) { qDebug() << current << "is a copy-with-history, auto-recursing"; return recurse(key, change, path_from, rev_from, changes, revpool); } else if (is_dir && change->change_kind == svn_fs_path_change_delete) { qDebug() << current << "deleted, auto-recursing"; return recurse(key, change, path_from, rev_from, changes, revpool); } else if (wasDir(fs, revnum - 1, key, revpool)) { qDebug() << current << "was a directory; ignoring"; } else if (change->change_kind == svn_fs_path_change_delete) { qDebug() << current << "is being deleted but I don't know anything about it; ignoring"; } else { qCritical() << current << "did not match any rules; cannot continue"; return EXIT_FAILURE; } return EXIT_SUCCESS; } int SvnRevision::exportDispatch(const char *key, const svn_fs_path_change_t *change, const char *path_from, svn_revnum_t rev_from, apr_hash_t *changes, const QString ¤t, const Rules::Match &rule, apr_pool_t *pool) { //if(ruledebug) // qDebug() << "rev" << revnum << qPrintable(current) << "matched rule:" << rule.lineNumber << "(" << rule.rx.pattern() << ")"; switch (rule.action) { case Rules::Match::Ignore: //if(ruledebug) // qDebug() << " " << "ignoring."; return EXIT_SUCCESS; case Rules::Match::Recurse: if(ruledebug) qDebug() << "rev" << revnum << qPrintable(current) << "matched rule:" << rule.info() << " " << "recursing."; return recurse(key, change, path_from, rev_from, changes, pool); case Rules::Match::Export: if(ruledebug) qDebug() << "rev" << revnum << qPrintable(current) << "matched rule:" << rule.info() << " " << "exporting."; if (exportInternal(key, change, path_from, rev_from, current, rule) == EXIT_SUCCESS) return EXIT_SUCCESS; if (change->change_kind != svn_fs_path_change_delete) { if(ruledebug) qDebug() << "rev" << revnum << qPrintable(current) << "matched rule:" << rule.info() << " " << "Unable to export non path removal."; return EXIT_FAILURE; } // we know that the default action inside recurse is to recurse further or to ignore, // either of which is reasonably safe for deletion qWarning() << "deleting unknown path" << current << "; auto-recursing"; return recurse(key, change, path_from, rev_from, changes, pool); } // never reached return EXIT_FAILURE; } int SvnRevision::exportInternal(const char *key, const svn_fs_path_change_t *change, const char *path_from, svn_revnum_t rev_from, const QString ¤t, const Rules::Match &rule) { QString svnprefix, repository, branch, path; splitPathName(rule, current, &svnprefix, &repository, &branch, &path); Repository *repo = repositories.value(repository, 0); if (!repo) { if (change->change_kind != svn_fs_path_change_delete) qCritical() << "Rule" << rule << "references unknown repository" << repository; return EXIT_FAILURE; } printf("."); fflush(stdout); // qDebug() << " " << qPrintable(current) << "rev" << revnum << "->" // << qPrintable(repository) << qPrintable(branch) << qPrintable(path); if (change->change_kind == svn_fs_path_change_delete && current == svnprefix && path.isEmpty()) { if(ruledebug) qDebug() << "repository" << repository << "branch" << branch << "deleted"; return repo->deleteBranch(branch, revnum); } QString previous; QString prevsvnprefix, prevrepository, prevbranch, prevpath; if (path_from != NULL) { previous = QString::fromUtf8(path_from); AprAutoPool revpool(pool.data()); svn_boolean_t is_dir; SVN_ERR(svn_fs_is_dir(&is_dir, fs_root, path_from, revpool)); if (is_dir) { previous += '/'; } MatchRuleList::ConstIterator prevmatch = findMatchRule(matchRules, rev_from, previous, NoIgnoreRule); if (prevmatch != matchRules.constEnd()) { splitPathName(*prevmatch, previous, &prevsvnprefix, &prevrepository, &prevbranch, &prevpath); } else { qWarning() << "SVN reports a \"copy from\" but no matching rules found! Ignoring copy, treating as a modification"; path_from = NULL; } } // current == svnprefix => we're dealing with the contents of the whole branch here if (path_from != NULL && current == svnprefix && path.isEmpty()) { if (previous != prevsvnprefix) { // source is not the whole of its branch qDebug() << qPrintable(current) << "is a partial branch of repository" << qPrintable(prevrepository) << "branch" << qPrintable(prevbranch) << "subdir" << qPrintable(prevpath); } else if (prevrepository != repository) { qWarning() << qPrintable(current) << "rev" << revnum << "is a cross-repository copy (from repository" << qPrintable(prevrepository) << "branch" << qPrintable(prevbranch) << "path" << qPrintable(prevpath) << "rev" << rev_from << ")"; } else if (path != prevpath) { qDebug() << qPrintable(current) << "is a branch copy which renames base directory of all contents" << qPrintable(prevpath) << "to" << qPrintable(path); // FIXME: Handle with fast-import 'file rename' facility // ??? Might need special handling when path == / or prevpath == / } else { if (prevbranch == branch) { // same branch and same repository qDebug() << qPrintable(current) << "rev" << revnum << "is reseating branch" << qPrintable(branch) << "to an earlier revision" << qPrintable(previous) << "rev" << rev_from; } else { // same repository but not same branch // this means this is a plain branch qDebug() << qPrintable(repository) << ": branch" << qPrintable(branch) << "is branching from" << qPrintable(prevbranch); } if (repo->createBranch(branch, revnum, prevbranch, rev_from) == EXIT_FAILURE) return EXIT_FAILURE; if (rule.annotate) { // create an annotated tag fetchRevProps(); repo->createAnnotatedTag(branch, svnprefix, revnum, authorident, epoch, log); } return EXIT_SUCCESS; } } Repository::Transaction *txn = transactions.value(repository + branch, 0); if (!txn) { txn = repo->newTransaction(branch, svnprefix, revnum); if (!txn) return EXIT_FAILURE; transactions.insert(repository + branch, txn); } // // If this path was copied from elsewhere, use it to infer _some_ // merge points. This heuristic is fairly useful for tracking // changes across directory re-organizations and wholesale branch // imports. // if (path_from != NULL && prevrepository == repository && prevbranch != branch) { if(ruledebug) qDebug() << "copy from branch" << prevbranch << "to branch" << branch << "@rev" << rev_from; txn->noteCopyFromBranch (prevbranch, rev_from); } if (change->change_kind == svn_fs_path_change_replace && path_from == NULL) { if(ruledebug) qDebug() << "replaced with empty path (" << branch << path << ")"; txn->deleteFile(path); } if (change->change_kind == svn_fs_path_change_delete) { if(ruledebug) qDebug() << "delete (" << branch << path << ")"; txn->deleteFile(path); } else if (!current.endsWith('/')) { if(ruledebug) qDebug() << "add/change file (" << key << "->" << branch << path << ")"; dumpBlob(txn, fs_root, key, path, pool); } else { if(ruledebug) qDebug() << "add/change dir (" << key << "->" << branch << path << ")"; txn->deleteFile(path); recursiveDumpDir(txn, fs_root, key, path, pool); } return EXIT_SUCCESS; } int SvnRevision::recurse(const char *path, const svn_fs_path_change_t *change, const char *path_from, svn_revnum_t rev_from, apr_hash_t *changes, apr_pool_t *pool) { svn_fs_root_t *fs_root = this->fs_root; if (change->change_kind == svn_fs_path_change_delete) SVN_ERR(svn_fs_revision_root(&fs_root, fs, revnum - 1, pool)); // get the dir listing apr_hash_t *entries; svn_node_kind_t kind; SVN_ERR(svn_fs_check_path(&kind, fs_root, path, pool)); if(kind == svn_node_none) { qWarning() << "Trying to recurse using a nonexistant path" << path << ", ignoring"; return EXIT_SUCCESS; } SVN_ERR(svn_fs_dir_entries(&entries, fs_root, path, pool)); AprAutoPool dirpool(pool); for (apr_hash_index_t *i = apr_hash_first(pool, entries); i; i = apr_hash_next(i)) { dirpool.clear(); const void *vkey; void *value; apr_hash_this(i, &vkey, NULL, &value); svn_fs_dirent_t *dirent = reinterpret_cast(value); if (dirent->kind != svn_node_dir) continue; // not a directory, so can't recurse; skip QByteArray entry = path + QByteArray("/") + dirent->name; QByteArray entryFrom; if (path_from) entryFrom = path_from + QByteArray("/") + dirent->name; // check if this entry is in the changelist for this revision already svn_fs_path_change_t *otherchange = (svn_fs_path_change_t*)apr_hash_get(changes, entry.constData(), APR_HASH_KEY_STRING); if (otherchange && otherchange->change_kind == svn_fs_path_change_add) { qDebug() << entry << "rev" << revnum << "is in the change-list, deferring to that one"; continue; } QString current = QString::fromUtf8(entry); if (dirent->kind == svn_node_dir) current += '/'; // find the first rule that matches this pathname MatchRuleList::ConstIterator match = findMatchRule(matchRules, revnum, current); if (match != matchRules.constEnd()) { if (exportDispatch(entry, change, entryFrom.isNull() ? 0 : entryFrom.constData(), rev_from, changes, current, *match, dirpool) == EXIT_FAILURE) return EXIT_FAILURE; } else { qDebug() << current << "rev" << revnum << "did not match any rules; auto-recursing"; if (recurse(entry, change, entryFrom.isNull() ? 0 : entryFrom.constData(), rev_from, changes, dirpool) == EXIT_FAILURE) return EXIT_FAILURE; } } return EXIT_SUCCESS; }