示例#1
0
static int extract(const char *filename, int arglen, char *args[]) {
	xar_t x;
	xar_iter_t i;
	xar_file_t f;
	int files_extracted = 0;

	x = xar_open(filename, READ);
	if( !x ) {
		fprintf(stderr, "Error opening xar archive: %s\n", filename);
		exit(1);
	}

	xar_register_errhandler(x, err_callback, NULL);

	if( Perms == SYMBOLIC ) {
		xar_opt_set(x, XAR_OPT_OWNERSHIP, XAR_OPT_VAL_SYMBOLIC);
	}
	if( Perms == NUMERIC ) {
		xar_opt_set(x, XAR_OPT_OWNERSHIP, XAR_OPT_VAL_NUMERIC);
	}
	if ( Rsize != NULL ) {
		xar_opt_set(x, XAR_OPT_RSIZE, Rsize);
	}
	
	i = xar_iter_new();
	if( !i ) {
		fprintf(stderr, "Error creating xar iterator\n");
		exit(1);
	}

	for(f = xar_file_first(x, i); f; f = xar_file_next(i)) {
		int matched = 0;
		int exclude_match = 1;
		struct lnode *i;

		char *path = xar_get_path(f);

		if( args[0] ) {
			int i;
			for(i = 0; args[i]; i++) {
				if( strcmp(path, args[i]) == 0 ) {
					matched = 1;
					break;
				}
			}
		} else {
			matched = 1;
		}

		for( i = Exclude; i; i=i->next ) {
			exclude_match = regexec(&i->reg, path, 0, NULL, 0);
			if( !exclude_match )
				break;
		}
		if( !exclude_match ) {
			if( Verbose )
				printf("Excluding %s\n", path);
			free(path);
			continue;
		}
		
		if( matched ) {
			files_extracted++;
			print_file(f);
			xar_extract(x, f);
		}
		free(path);
	}
	if( args[0] && (files_extracted == 0) ) {
		fprintf(stderr, "No files matched extraction criteria.\n");
		Err = 3;
	}

	if( Subdoc )
		extract_subdoc(x, NULL);

	xar_iter_free(i);
	if( xar_close(x) != 0 ) {
		fprintf(stderr, "Error extracting the archive\n");
		if( !Err )
			Err = 42;
	}
	return Err;
}
示例#2
0
/* replace_sign: rip out all current signatures and certs and insert a new pair
		Since libxar is currently not capable of doing this directly, we have to create a new xar archive,
		copy all the files and options from the current archive, and sign the new archive
*/
static void replace_sign(const char *filename) {

	xar_t old_xar, new_xar;
	xar_signature_t sig;
	char *new_xar_path = (char *)malloc(15);
	strncpy(new_xar_path, "/tmp/xar.XXXXX", 15);
	new_xar_path = mktemp(new_xar_path);
	char *systemcall;
	int err;
	
	// open both archives
	old_xar = xar_open(filename, READ);
	if ( old_xar == NULL ) {
		fprintf(stderr, "Could not open archive %s!\n", filename);
		exit(1);
	}
	new_xar = xar_open(new_xar_path, WRITE);
	if( !new_xar ) {
		fprintf(stderr, "Error creating new archive %s\n", new_xar_path);
		exit(1);
	}
	
	// install new signature and new certs in new_xar
	sig = xar_signature_new(new_xar, "RSA", SigSize, &signingCallback, NULL);
	if ( LeafCertPath )
		insert_cert(sig, LeafCertPath);
	if ( IntermediateCertPath )
		insert_cert(sig, IntermediateCertPath);
	
	// copy options
	char *opts[6] = {XAR_OPT_TOCCKSUM, XAR_OPT_COMPRESSION, XAR_OPT_COALESCE, XAR_OPT_LINKSAME, XAR_OPT_RSIZE, XAR_OPT_OWNERSHIP};
	int i;
	const char *opt;
	for (i=0; i<6; i++) {
		opt = xar_opt_get(old_xar, opts[i]);
		if (opt)
			xar_opt_set(new_xar, opts[i], opt);
	}

	// skip copy subdocs for now since we don't use them yet
	
	// copy files
	xar_iter_t iter = xar_iter_new();
	xar_file_t f = xar_file_first(old_xar, iter);
		// xar_file_next iterates the archive depth-first, i.e. all children are enumerated before the siblings.
	const char *name;
	char *f_dirname, *stack_top_dirname;
	stack s_new = stack_new();
	stack s_old = stack_new();
	xar_file_t last_copied = NULL, last_added;
	
	xar_iter_t loopIter = xar_iter_new();
	xar_file_t current_xar_file;
	for (current_xar_file = xar_file_first(old_xar, loopIter); current_xar_file; current_xar_file = xar_file_next(loopIter))
	{
		printf("old_xar -> %s (parent: %s)\n",xar_get_path(current_xar_file),XAR_FILE(current_xar_file)->parent?xar_get_path(XAR_FILE(current_xar_file)->parent):"(nil)");
	}
	
	do {
		// parent is the parent in the new archive!
		// 3 cases:
		//  1. the file has no parent. Happens for every file at the top level of the archive.
		//  2. the file's parent is the last file we added. Happens while descending down a path
		//  3. the file's parent is one of the ancestors of the last file (and not NULL, that would be case 1)
		//		that means we either go back up the tree and add a sibling of one of the ancestors, or we add a
		//		sibling on the same level
		xar_prop_get(f, "name", &name);	// filename, without any path info
		if (!XAR_FILE(f)->parent) {	// case 1
			printf("root: %s\n",xar_get_path(f));
			last_added = xar_add_from_archive(new_xar, NULL, name, old_xar, f);
			last_copied = f;
			stack_push(s_new, (void *)last_added);
			stack_push(s_old, (void *)last_copied);
		} else if (f->parent == last_copied) {	// case 2			
			printf("child: %s -> %s\n",xar_get_path(f->parent),xar_get_path(f));
			last_added = xar_add_from_archive(new_xar, last_added, name, old_xar, f);
			last_copied = f;
			stack_push(s_new, (void *)last_added);
			stack_push(s_old, (void *)last_copied);
		} else {	// case 3
			printf("searching for parent: %s ?\n",xar_get_path(f));
			while (XAR_FILE(f)->parent != XAR_FILE(s_old->top->data)->parent) {
				printf("popping: %s\n",xar_get_path(XAR_FILE(s_old->top->data)));
				stack_pop(s_new);
				stack_pop(s_old);
			}
			printf("found: %s -> %s\n",xar_get_path(XAR_FILE(s_new->top->data)),xar_get_path(f));
			stack_pop(s_new);
			stack_pop(s_old);
			last_added = xar_add_from_archive(new_xar, (xar_file_t)(s_new->top->data), name, old_xar, f);
			last_copied = f;
			stack_push(s_new, (void *)last_added);
			stack_push(s_old, (void *)last_copied);
		}
	} while (f = xar_file_next(iter));
		
	loopIter = xar_iter_new();
	for (current_xar_file = xar_file_first(new_xar, loopIter); current_xar_file; current_xar_file = xar_file_next(loopIter))
	{
		char * current_path = xar_get_path(current_xar_file);
		printf("new_xar -> %s\n",current_path);
	}
	
	xar_iter_free(iter);
	stack_free(s_new);
	stack_free(s_old);
	if( xar_close(new_xar) != 0 ) {
		fprintf(stderr, "Error creating the archive\n");
		if( !Err )
			Err = 42;
	}
	xar_close(old_xar);
	
	// write signature offset to file (have to re-open so xar_close can figure out the correct offset)
	new_xar = xar_open(new_xar_path, READ);
	if( !new_xar ) {
		fprintf(stderr, "Error re-opening new archive %s\n", new_xar_path);
		unlink(new_xar_path);
		exit(1);
	}
	
	if (extract_sig_offset(new_xar, SigOffsetDumpPath)) {
		xar_close(new_xar);
		unlink(new_xar_path);
		exit(1);
	}
		
	xar_close(new_xar);
	
	// delete old archive, move new in its place
	unlink(filename);
	asprintf(&systemcall, "cp \"%s\" \"%s\"", new_xar_path, filename);
	err = system(systemcall);
	if (err) {
		fprintf(stderr, "Could not copy new archive to final location (system() returned %i)\n", err);
		unlink(new_xar_path);
		exit(1);
	}
	
	// Delete the tmp archive
	unlink(new_xar_path);
	
	free(systemcall);
}
示例#3
0
static int archive(const char *filename, int arglen, char *args[]) {
	xar_t x;
	FTS *fts;
	FTSENT *ent;
	int flags;
	struct lnode *i;
	const char *default_compression;

	x = xar_open(filename, WRITE);
	if( !x ) {
		fprintf(stderr, "Error creating archive %s\n", filename);
		exit(1);
	}

	if ( SigSize ) {
		xar_signature_t sig = xar_signature_new(x, "RSA", SigSize, &signingCallback, NULL);
		if ( LeafCertPath )
			insert_cert(sig, LeafCertPath);
		if ( IntermediateCertPath )
			insert_cert(sig, IntermediateCertPath);
	}
	
	if( Toccksum )
		xar_opt_set(x, XAR_OPT_TOCCKSUM, Toccksum);

	if( Compression )
		xar_opt_set(x, XAR_OPT_COMPRESSION, Compression);

	if( Coalesce )
		xar_opt_set(x, XAR_OPT_COALESCE, "true");

	if( LinkSame )
		xar_opt_set(x, XAR_OPT_LINKSAME, "true");

	if ( Rsize != NULL )
		xar_opt_set(x, XAR_OPT_RSIZE, Rsize);

	xar_register_errhandler(x, err_callback, NULL);

	if( Subdoc )
		add_subdoc(x);

	if( Perms == SYMBOLIC ) {
		xar_opt_set(x, XAR_OPT_OWNERSHIP, XAR_OPT_VAL_SYMBOLIC);
	}
	if( Perms == NUMERIC ) {
		xar_opt_set(x, XAR_OPT_OWNERSHIP, XAR_OPT_VAL_NUMERIC);
	}

	default_compression = strdup(xar_opt_get(x, XAR_OPT_COMPRESSION));
	if( !default_compression )
		default_compression = strdup(XAR_OPT_VAL_GZIP);

	flags = FTS_PHYSICAL|FTS_NOSTAT|FTS_NOCHDIR;
	if( Local )
		flags |= FTS_XDEV;
	fts = fts_open(args, flags, NULL);
	if( !fts ) {
		fprintf(stderr, "Error traversing file tree\n");
		exit(1);
	}

	while( (ent = fts_read(fts)) ) {
		xar_file_t f;
		int exclude_match = 1;
		int nocompress_match = 1;
		if( ent->fts_info == FTS_DP )
			continue;

		if( strcmp(ent->fts_path, "/") == 0 )
			continue;
		if( strcmp(ent->fts_path, ".") == 0 )
			continue;
		
		for( i = Exclude; i; i=i->next ) {
			exclude_match = regexec(&i->reg, ent->fts_path, 0, NULL, 0);
			if( !exclude_match )
				break;
		}
		if( !exclude_match ) {
			if( Verbose )
				printf("Excluding %s\n", ent->fts_path);
			continue;
		}

		for( i = NoCompress; i; i=i->next ) {
			nocompress_match = regexec(&i->reg, ent->fts_path, 0, NULL, 0);
			if( !nocompress_match ) {
				xar_opt_set(x, XAR_OPT_COMPRESSION, XAR_OPT_VAL_NONE);
				break;
			}
		}
		f = xar_add(x, ent->fts_path);
		if( !f ) {
			fprintf(stderr, "Error adding file %s\n", ent->fts_path);
		} else {
			print_file(f);
		}
		if( !nocompress_match )
			xar_opt_set(x, XAR_OPT_COMPRESSION, default_compression);
	}
	fts_close(fts);
	if( xar_close(x) != 0 ) {
		fprintf(stderr, "Error creating the archive\n");
		if( !Err )
			Err = 42;
	}

	free((char *)default_compression);
	for( i = Exclude; i; ) {
		struct lnode *tmp;
		regfree(&i->reg);
		tmp = i;
		i = i->next;
		free(tmp);
	}
	for( i = NoCompress; i; ) {
		struct lnode *tmp;
		regfree(&i->reg);
		tmp = i;
		i = i->next;
		free(tmp);
	}

	if ( SigOffsetDumpPath ) {
		x = xar_open(filename, READ);
		if( !x ) {
			fprintf(stderr, "Error re-opening archive %s\n", filename);
			exit(1);
		}
		if (extract_sig_offset(x, SigOffsetDumpPath)) 
			exit(1);
	}
	
	return Err;
}
示例#4
0
static int extract(const char *filename, int arglen, char *args[]) {
	xar_t x;
	xar_iter_t i;
	xar_file_t f;
	int files_extracted = 0;
	int argi;
	struct lnode *extract_files = NULL;
	struct lnode *extract_tail = NULL;
	struct lnode *lnodei = NULL;
	struct lnode *dirs = NULL;

	for(argi = 0; args[argi]; argi++) {
		struct lnode *tmp;
		int err;
		tmp = malloc(sizeof(struct lnode));
		tmp->str = strdup(args[argi]);
		tmp->next = NULL;
		err = regcomp(&tmp->reg, tmp->str, REG_NOSUB);
		if( err ) {
			char errstr[1024];
			regerror(err, &tmp->reg, errstr, sizeof(errstr));
			printf("Error with regular expression %s: %s\n", tmp->str, errstr);
			exit(1);
		}
		if( extract_files == NULL ) {
			extract_files = tmp;
			extract_tail = tmp;
		} else {
			extract_tail->next = tmp;
			extract_tail = tmp;
		}
		
		/* Add a clause for recursive extraction */
		tmp = malloc(sizeof(struct lnode));
		asprintf(&tmp->str, "%s/.*", args[argi]);
		tmp->next = NULL;
		err = regcomp(&tmp->reg, tmp->str, REG_NOSUB);
		if( err ) {
			char errstr[1024];
			regerror(err, &tmp->reg, errstr, sizeof(errstr));
			printf("Error with regular expression %s: %s\n", tmp->str, errstr);
			exit(1);
		}
		if( extract_files == NULL ) {
			extract_files = tmp;
			extract_tail = tmp;
		} else {
			extract_tail->next = tmp;
			extract_tail = tmp;
		}
	}

	x = xar_open(filename, READ);
	if( !x ) {
		fprintf(stderr, "Error opening xar archive: %s\n", filename);
		exit(1);
	}

	if(Chdir) {
		if( chdir(Chdir) != 0 ) {
			fprintf(stderr, "Unable to chdir to %s\n", Chdir);
			exit(1);
		}
	}

	xar_register_errhandler(x, err_callback, NULL);

	if( Perms == SYMBOLIC ) {
		xar_opt_set(x, XAR_OPT_OWNERSHIP, XAR_OPT_VAL_SYMBOLIC);
	}
	if( Perms == NUMERIC ) {
		xar_opt_set(x, XAR_OPT_OWNERSHIP, XAR_OPT_VAL_NUMERIC);
	}
	if ( Rsize != NULL ) {
		xar_opt_set(x, XAR_OPT_RSIZE, Rsize);
	}
	if( SaveSuid ) {
		xar_opt_set(x, XAR_OPT_SAVESUID, XAR_OPT_VAL_TRUE);
	}
	
	i = xar_iter_new();
	if( !i ) {
		fprintf(stderr, "Error creating xar iterator\n");
		exit(1);
	}

	for(f = xar_file_first(x, i); f; f = xar_file_next(i)) {
		int matched = 0;
		int exclude_match = 1;
		struct lnode *i;

		char *path = xar_get_path(f);

		if( args[0] ) {
			for(i = extract_files; i != NULL; i = i->next) {
				int extract_match = 1;

				extract_match = regexec(&i->reg, path, 0, NULL, 0);
				if( !extract_match ) {
					matched = 1;
					break;
				}
			}
		} else {
			matched = 1;
		}

		for( i = Exclude; i; i=i->next ) {
			exclude_match = regexec(&i->reg, path, 0, NULL, 0);
			if( !exclude_match )
				break;
		}
		if( !exclude_match ) {
			if( Verbose )
				printf("Excluding %s\n", path);
			free(path);
			continue;
		}
		
		if (!xar_path_issane(path)) {
			if (Verbose)
				printf("Warning, not extracting file \"%s\" because it's path is invalid.\n", path);
			free(path);
			continue;
		}
		
		if( matched ) {
			struct stat sb;
			if( NoOverwrite && (lstat(path, &sb) == 0) ) {
				printf("%s already exists, not overwriting\n", path);
			} else {
				const char *prop = NULL;
				int deferred = 0;
				if( xar_prop_get(f, "type", &prop) == 0 ) {
					if( strcmp(prop, "directory") == 0 ) {
						struct lnode *tmpl = calloc(sizeof(struct lnode),1);
						tmpl->str = (char *)f;
						tmpl->next = dirs;
						dirs = tmpl;
						deferred = 1;
					}
				}
				if( ! deferred ) {
					files_extracted++;
					print_file(x, f);
					xar_extract(x, f);
				}
			}
		}
		free(path);
	}
	for(lnodei = dirs; lnodei; lnodei = lnodei->next) {
		files_extracted++;
		print_file(x,(xar_file_t)lnodei->str);
		xar_extract(x, (xar_file_t)lnodei->str);
	}
	if( args[0] && (files_extracted == 0) ) {
		fprintf(stderr, "No files matched extraction criteria.\n");
		Err = 3;
	}

	if( Subdoc )
		extract_subdoc(x, NULL);

	xar_iter_free(i);
	if( xar_close(x) != 0 ) {
		fprintf(stderr, "Error extracting the archive\n");
		if( !Err )
			Err = 42;
	}

	for(lnodei = extract_files; lnodei != NULL; ) {
		struct lnode *tmp;
		free(lnodei->str);
		regfree(&lnodei->reg);
		tmp = lnodei;
		lnodei = lnodei->next;
		free(tmp);
	}
	return Err;
}