2 * Copyright (C) 2007-2011 Andre Noll <maan@systemlinux.org>
4 * Licensed under the GPL v2. For licencing details see COPYING.
7 /** \file afs.c Paraslash's audio file selector. */
14 #include "server.cmdline.h"
22 #include <dirent.h> /* readdir() */
33 /** The osl tables used by afs. \sa blob.c. */
35 /** Contains audio file information. See aft.c. */
37 /** The table for the paraslash attributes. See attribute.c. */
40 * Paraslash's scoring system is based on Gaussian normal
41 * distributions, and the relevant data is stored in the rbtrees of an
42 * osl table containing only volatile columns. See score.c for
47 * A standard blob table containing the mood definitions. For details
51 /** A blob table containing lyrics on a per-song basis. */
53 /** Another blob table for images (for example album cover art). */
55 /** Yet another blob table for storing standard playlists. */
57 /** How many tables are in use? */
61 static struct afs_table afs_tables[NUM_AFS_TABLES] = {
62 [TBLNUM_AUDIO_FILES] = {.init = aft_init, .name = "audio_files"},
63 [TBLNUM_ATTRIBUTES] = {.init = attribute_init, .name = "attributes"},
64 [TBLNUM_SCORES] = {.init = score_init, .name = "scores"},
65 [TBLNUM_MOODS] = {.init = moods_init, .name = "moods"},
66 [TBLNUM_LYRICS] = {.init = lyrics_init, .name = "lyrics"},
67 [TBLNUM_IMAGES] = {.init = images_init, .name = "images"},
68 [TBLNUM_PLAYLIST] = {.init = playlists_init, .name = "playlists"},
72 /** The file descriptor for the local socket. */
75 * Value sent by the command handlers to identify themselves as
76 * children of the running para_server.
79 /** The associated task structure. */
84 extern struct misc_meta_data *mmd;
86 static int server_socket;
87 static struct command_task command_task_struct;
88 static struct signal_task signal_task_struct;
90 static enum play_mode current_play_mode;
91 static char *current_mop; /* mode or playlist specifier. NULL means dummy mooe */
94 * A random number used to "authenticate" the connection.
96 * para_server picks this number by random before forking the afs process. The
97 * command handlers write this number together with the id of the shared memory
98 * area containing the query. This way, a malicious local user has to know this
99 * number to be able to cause the afs process to crash by sending fake queries.
101 extern uint32_t afs_socket_cookie;
104 * Struct to let command handlers execute a callback in afs context.
106 * Commands that need to change the state of afs can't change the relevant data
107 * structures directly because commands are executed in a child process, i.e.
108 * they get their own virtual address space.
110 * This structure is used by \p send_callback_request() (executed from handler
111 * context) in order to let the afs process call the specified function. An
112 * instance of that structure is written to a shared memory area together with
113 * the arguments to the callback function. The identifier of the shared memory
114 * area is written to the command socket.
116 * The afs process accepts connections on the command socket and reads the
117 * shared memory id, attaches the corresponing area, calls the given handler to
118 * perform the desired action and to optionally compute a result.
120 * The result and a \p callback_result structure is then written to another
121 * shared memory area. The identifier for that area is written to the handler's
122 * command socket, so that the handler process can read the id, attach the
123 * shared memory area and use the result.
125 * \sa struct callback_result.
127 struct callback_query {
128 /** The function to be called. */
129 callback_function *handler;
130 /** The number of bytes of the query */
135 * Structure embedded in the result of a callback.
137 * If the callback produced a result, an instance of that structure is embeeded
138 * into the shared memory area holding the result, mainly to let the command
139 * handler know the size of the result.
141 * \sa struct callback_query.
143 struct callback_result {
144 /** The number of bytes of the result. */
148 static int dispatch_result(int result_shmid, callback_result_handler *handler,
149 void *private_result_data)
151 struct osl_object result;
153 int ret2, ret = shm_attach(result_shmid, ATTACH_RO, &result_shm);
154 struct callback_result *cr = result_shm;
157 PARA_ERROR_LOG("attach failed: %s\n", para_strerror(-ret));
160 result.size = cr->result_size;
161 result.data = result_shm + sizeof(*cr);
164 ret = handler(&result, private_result_data);
166 PARA_NOTICE_LOG("result handler error: %s\n",
167 para_strerror(-ret));
169 ret2 = shm_detach(result_shm);
171 PARA_ERROR_LOG("detach failed: %s\n", para_strerror(-ret2));
179 * Ask the afs process to call a given function.
181 * \param f The function to be called.
182 * \param query Pointer to arbitrary data for the callback.
183 * \param result_handler Called for each shm area sent by the callback.
184 * \param private_result_data Passed verbatim to \a result_handler.
186 * This function creates a socket for communication with the afs process and a
187 * shared memory area (sma) to which the buffer pointed to by \a query is
188 * copied. It then notifies the afs process that the callback function \a f
189 * should be executed by sending the shared memory identifier (shmid) to the
192 * If the callback produces a result, it sends any number of shared memory
193 * identifiers back via the socket. For each such identifier received, \a
194 * result_handler is called. The contents of the sma identified by the received
195 * shmid are passed to that function as an osl object. The private_result_data
196 * pointer is passed as the second argument to \a result_handler.
200 * \sa send_option_arg_callback_request(), send_standard_callback_request().
202 int send_callback_request(callback_function *f, struct osl_object *query,
203 callback_result_handler *result_handler,
204 void *private_result_data)
206 struct callback_query *cq;
207 int ret, fd = -1, query_shmid, result_shmid;
209 char buf[sizeof(afs_socket_cookie) + sizeof(int)];
210 size_t query_shm_size = sizeof(*cq);
211 int dispatch_error = 0;
214 query_shm_size += query->size;
215 ret = shm_new(query_shm_size);
219 ret = shm_attach(query_shmid, ATTACH_RW, &query_shm);
224 cq->query_size = query_shm_size - sizeof(*cq);
227 memcpy(query_shm + sizeof(*cq), query->data, query->size);
228 ret = shm_detach(query_shm);
232 *(uint32_t *) buf = afs_socket_cookie;
233 *(int *) (buf + sizeof(afs_socket_cookie)) = query_shmid;
235 ret = connect_local_socket(conf.afs_socket_arg);
239 ret = send_bin_buffer(fd, buf, sizeof(buf));
243 * Read all shmids from afs.
245 * Even if the dispatcher returns an error we _must_ continue to read
246 * shmids from fd so that we can destroy all shared memory areas that
247 * have been created for us by the afs process.
250 ret = recv_bin_buffer(fd, buf, sizeof(int));
253 assert(ret == sizeof(int));
257 if (!dispatch_error) {
258 ret = dispatch_result(result_shmid, result_handler,
259 private_result_data);
263 ret = shm_destroy(result_shmid);
265 PARA_CRIT_LOG("destroy result failed: %s\n",
266 para_strerror(-ret));
269 if (shm_destroy(query_shmid) < 0)
270 PARA_CRIT_LOG("shm destroy error\n");
273 // PARA_DEBUG_LOG("callback_ret: %d\n", ret);
278 * Send a callback request passing an options structure and an argument vector.
280 * \param options pointer to an arbitrary data structure.
281 * \param argc Argument count.
282 * \param argv Standard argument vector.
283 * \param f The callback function.
284 * \param result_handler See \ref send_callback_request.
285 * \param private_result_data See \ref send_callback_request.
287 * Some commands have a couple of options that are parsed in child context for
288 * syntactic correctness and are stored in a special options structure for that
289 * command. This function allows to pass such a structure together with a list
290 * of further arguments (often a list of audio files) to the parent process.
292 * \sa send_standard_callback_request(), send_callback_request().
294 int send_option_arg_callback_request(struct osl_object *options,
295 int argc, char * const * const argv, callback_function *f,
296 callback_result_handler *result_handler,
297 void *private_result_data)
301 struct osl_object query = {.size = options? options->size : 0};
303 for (i = 0; i < argc; i++)
304 query.size += strlen(argv[i]) + 1;
305 query.data = para_malloc(query.size);
308 memcpy(query.data, options->data, options->size);
311 for (i = 0; i < argc; i++) {
312 strcpy(p, argv[i]); /* OK */
313 p += strlen(argv[i]) + 1;
315 ret = send_callback_request(f, &query, result_handler,
316 private_result_data);
322 * Send a callback request with an argument vector only.
324 * \param argc The same meaning as in send_option_arg_callback_request().
325 * \param argv The same meaning as in send_option_arg_callback_request().
326 * \param f The same meaning as in send_option_arg_callback_request().
327 * \param result_handler See \ref send_callback_request.
328 * \param private_result_data See \ref send_callback_request.
330 * This is similar to send_option_arg_callback_request(), but no options buffer
331 * is passed to the parent process.
333 * \return The return value of the underlying call to
334 * send_option_arg_callback_request().
336 int send_standard_callback_request(int argc, char * const * const argv,
337 callback_function *f, callback_result_handler *result_handler,
338 void *private_result_data)
340 return send_option_arg_callback_request(NULL, argc, argv, f, result_handler,
341 private_result_data);
344 static int action_if_pattern_matches(struct osl_row *row, void *data)
346 struct pattern_match_data *pmd = data;
347 struct osl_object name_obj;
348 const char *p, *name;
349 int ret = osl(osl_get_object(pmd->table, row, pmd->match_col_num, &name_obj));
350 const char *pattern_txt = (const char *)pmd->patterns.data;
354 name = (char *)name_obj.data;
355 if ((!name || !*name) && (pmd->pm_flags & PM_SKIP_EMPTY_NAME))
357 if (!pmd->patterns.size && (pmd->pm_flags & PM_NO_PATTERN_MATCHES_EVERYTHING))
358 return pmd->action(pmd->table, row, name, pmd->data);
359 for (p = pattern_txt; p < pattern_txt + pmd->patterns.size;
360 p += strlen(p) + 1) {
361 ret = fnmatch(p, name, pmd->fnmatch_flags);
362 if (ret == FNM_NOMATCH)
366 return pmd->action(pmd->table, row, name, pmd->data);
372 * Execute the given function for each matching row.
374 * \param pmd Describes what to match and how.
378 int for_each_matching_row(struct pattern_match_data *pmd)
380 if (pmd->pm_flags & PM_REVERSE_LOOP)
381 return osl(osl_rbtree_loop_reverse(pmd->table, pmd->loop_col_num, pmd,
382 action_if_pattern_matches));
383 return osl(osl_rbtree_loop(pmd->table, pmd->loop_col_num, pmd,
384 action_if_pattern_matches));
388 * Compare two osl objects of string type.
390 * \param obj1 Pointer to the first object.
391 * \param obj2 Pointer to the second object.
393 * In any case, only \p MIN(obj1->size, obj2->size) characters of each string
394 * are taken into account.
396 * \return It returns an integer less than, equal to, or greater than zero if
397 * \a obj1 is found, respectively, to be less than, to match, or be greater than
400 * \sa strcmp(3), strncmp(3), osl_compare_func.
402 int string_compare(const struct osl_object *obj1, const struct osl_object *obj2)
404 const char *str1 = (const char *)obj1->data;
405 const char *str2 = (const char *)obj2->data;
406 return strncmp(str1, str2, PARA_MIN(obj1->size, obj2->size));
409 static int pass_afd(int fd, char *buf, size_t size)
411 struct msghdr msg = {.msg_iov = NULL};
412 struct cmsghdr *cmsg;
423 msg.msg_control = control;
424 msg.msg_controllen = sizeof(control);
426 cmsg = CMSG_FIRSTHDR(&msg);
427 cmsg->cmsg_level = SOL_SOCKET;
428 cmsg->cmsg_type = SCM_RIGHTS;
429 cmsg->cmsg_len = CMSG_LEN(sizeof(int));
430 *(int *)CMSG_DATA(cmsg) = fd;
432 /* Sum of the length of all control messages in the buffer */
433 msg.msg_controllen = cmsg->cmsg_len;
434 PARA_DEBUG_LOG("passing %zu bytes and fd %d\n", size, fd);
435 ret = sendmsg(server_socket, &msg, 0);
437 ret = -ERRNO_TO_PARA_ERROR(errno);
444 * Open the audio file with highest score.
446 * This stores all information for streaming the "best" audio file in a shared
447 * memory area. The id of that area and an open file descriptor for the next
448 * audio file are passed to the server process.
452 * \sa open_and_update_audio_file().
454 static int open_next_audio_file(void)
456 struct osl_row *aft_row;
457 struct audio_file_data afd;
462 PARA_NOTICE_LOG("getting next audio file\n");
463 ret = score_get_best(&aft_row, &score);
465 PARA_ERROR_LOG("%s\n", para_strerror(-ret));
466 goto no_admissible_files;
468 ret = open_and_update_audio_file(aft_row, score, &afd);
470 ret = score_delete(aft_row);
472 PARA_ERROR_LOG("%s\n", para_strerror(-ret));
473 goto no_admissible_files;
478 if (!write_ok(server_socket)) {
482 *(uint32_t *)buf = NEXT_AUDIO_FILE;
483 *(uint32_t *)(buf + 4) = (uint32_t)shmid;
484 ret = pass_afd(afd.fd, buf, 8);
492 *(uint32_t *)buf = NO_ADMISSIBLE_FILES;
493 *(uint32_t *)(buf + 4) = (uint32_t)0;
494 return send_bin_buffer(server_socket, buf, 8);
497 /* Never fails if arg == NULL */
498 static int activate_mood_or_playlist(char *arg, int *num_admissible)
504 ret = change_current_mood(NULL); /* always successful */
505 mode = PLAY_MODE_MOOD;
507 if (!strncmp(arg, "p/", 2)) {
508 ret = playlist_open(arg + 2);
509 mode = PLAY_MODE_PLAYLIST;
510 } else if (!strncmp(arg, "m/", 2)) {
511 ret = change_current_mood(arg + 2);
512 mode = PLAY_MODE_MOOD;
514 return -E_AFS_SYNTAX;
519 *num_admissible = ret;
520 current_play_mode = mode;
521 if (arg != current_mop) {
524 current_mop = para_strdup(arg);
525 mutex_lock(mmd_mutex);
526 strncpy(mmd->afs_mode_string, arg,
527 sizeof(mmd->afs_mode_string));
528 mmd->afs_mode_string[sizeof(mmd->afs_mode_string) - 1] = '\0';
529 mutex_unlock(mmd_mutex);
531 mutex_lock(mmd_mutex);
532 strcpy(mmd->afs_mode_string, "dummy");
533 mutex_unlock(mmd_mutex);
540 static void com_select_callback(int fd, const struct osl_object *query)
542 struct para_buffer pb = {
545 .max_size_handler = pass_buffer_as_shm
547 char *arg = query->data;
548 int num_admissible, ret, ret2;
550 ret = clear_score_table();
552 ret2 = para_printf(&pb, "%s\n", para_strerror(-ret));
555 if (current_play_mode == PLAY_MODE_MOOD)
556 close_current_mood();
559 ret = activate_mood_or_playlist(arg, &num_admissible);
561 ret2 = para_printf(&pb, "%s\nswitching back to %s\n",
562 para_strerror(-ret), current_mop?
563 current_mop : "dummy");
564 ret = activate_mood_or_playlist(current_mop, &num_admissible);
567 ret2 = para_printf(&pb, "failed, switching to dummy\n");
568 activate_mood_or_playlist(NULL, &num_admissible);
571 ret2 = para_printf(&pb, "activated %s (%d admissible files)\n", current_mop?
572 current_mop : "dummy mood", num_admissible);
574 if (ret2 >= 0 && pb.offset)
575 pass_buffer_as_shm(pb.buf, pb.offset, &fd);
580 * Result handler for sending data to the para_client process.
582 * \param result The data to be sent.
583 * \param private Pointer to the context.
585 * \return The return value of the underlying call to sc_send_bin_buffer().
587 * \sa \ref callback_result_handler, \ref sc_send_bin_buffer().
589 int sc_send_result(struct osl_object *result, void *private)
591 struct stream_cipher_context *scc = private;
595 return sc_send_bin_buffer(scc, result->data, result->size);
598 int com_select(struct stream_cipher_context *scc, int argc, char * const * const argv)
600 struct osl_object query;
603 return -E_AFS_SYNTAX;
604 query.data = argv[1];
605 query.size = strlen(argv[1]) + 1;
606 return send_callback_request(com_select_callback, &query,
607 &sc_send_result, scc);
610 static void init_admissible_files(char *arg)
612 if (activate_mood_or_playlist(arg, NULL) < 0)
613 activate_mood_or_playlist(NULL, NULL); /* always successful */
616 static int setup_command_socket_or_die(void)
619 char *socket_name = conf.afs_socket_arg;
620 struct sockaddr_un unix_addr;
623 ret = create_local_socket(socket_name, &unix_addr,
624 S_IRUSR | S_IWUSR | S_IRGRP | S_IWGRP | S_IWOTH);
626 PARA_EMERG_LOG("%s: %s\n", para_strerror(-ret), socket_name);
630 if (listen(socket_fd , 5) < 0) {
631 PARA_EMERG_LOG("can not listen on socket\n");
634 ret = mark_fd_nonblocking(socket_fd);
639 PARA_INFO_LOG("listening on socket %s (fd %d)\n", socket_name,
644 static void close_afs_tables(void)
647 PARA_NOTICE_LOG("closing afs_tables\n");
648 for (i = 0; i < NUM_AFS_TABLES; i++)
649 afs_tables[i].close();
652 static char *database_dir;
654 static void get_database_dir(void)
657 if (conf.afs_database_dir_given)
658 database_dir = para_strdup(conf.afs_database_dir_arg);
660 char *home = para_homedir();
661 database_dir = make_message(
662 "%s/.paraslash/afs_database-0.4", home);
666 PARA_INFO_LOG("afs_database dir %s\n", database_dir);
669 static int make_database_dir(void)
674 ret = para_mkdir(database_dir, 0777);
675 if (ret >= 0 || is_errno(-ret, EEXIST))
680 static int open_afs_tables(void)
685 PARA_NOTICE_LOG("opening %u osl tables in %s\n", NUM_AFS_TABLES,
687 for (i = 0; i < NUM_AFS_TABLES; i++) {
688 ret = afs_tables[i].open(database_dir);
691 PARA_ERROR_LOG("%s init: %s\n", afs_tables[i].name,
692 para_strerror(-ret));
698 afs_tables[--i].close();
702 static void signal_pre_select(struct sched *s, struct task *t)
704 struct signal_task *st = container_of(t, struct signal_task, task);
705 para_fd_set(st->fd, &s->rfds, &s->max_fileno);
708 static void afs_signal_post_select(struct sched *s, struct task *t)
712 if (getppid() == 1) {
713 PARA_EMERG_LOG("para_server died\n");
716 signum = para_next_signal(&s->rfds);
719 if (signum == SIGHUP) {
721 parse_config_or_die(1);
722 t->error = open_afs_tables();
725 init_admissible_files(current_mop);
728 PARA_EMERG_LOG("terminating on signal %d\n", signum);
731 t->error = -E_AFS_SIGNAL;
734 static void register_signal_task(void)
736 struct signal_task *st = &signal_task_struct;
738 para_sigaction(SIGPIPE, SIG_IGN);
739 st->fd = para_signal_init();
740 PARA_INFO_LOG("signal pipe: fd %d\n", st->fd);
741 para_install_sighandler(SIGINT);
742 para_install_sighandler(SIGTERM);
743 para_install_sighandler(SIGHUP);
745 st->task.pre_select = signal_pre_select;
746 st->task.post_select = afs_signal_post_select;
747 sprintf(st->task.status, "signal task");
748 register_task(&st->task);
751 static struct list_head afs_client_list;
753 /** Describes on connected afs client. */
755 /** Position in the afs client list. */
756 struct list_head node;
757 /** The socket file descriptor for this client. */
759 /** The time the client connected. */
760 struct timeval connect_time;
763 static void command_pre_select(struct sched *s, struct task *t)
765 struct command_task *ct = container_of(t, struct command_task, task);
766 struct afs_client *client;
768 para_fd_set(server_socket, &s->rfds, &s->max_fileno);
769 para_fd_set(ct->fd, &s->rfds, &s->max_fileno);
770 list_for_each_entry(client, &afs_client_list, node)
771 para_fd_set(client->fd, &s->rfds, &s->max_fileno);
775 * Send data as shared memory to a file descriptor.
777 * \param buf The buffer holding the data to be sent.
778 * \param size The size of \a buf.
779 * \param fd_ptr A pointer to the file descriptor.
781 * This function is used as the \a max_size handler in a \ref para_buffer
782 * structure. If used this way, it is called by \ref para_printf() whenever
783 * the buffer passed to para_printf() is about to exceed its maximal size.
785 * This function creates a shared memory area large enough to hold
786 * the content given by \a buf and \a size and sends the identifier
787 * of this area to the file descriptor given by \a fd_ptr.
789 * \return Zero if \a buf is \p NULL or \a size is zero. Negative on errors,
790 * and positive on success.
792 int pass_buffer_as_shm(char *buf, size_t size, void *fd_ptr)
794 int ret, shmid, fd = *(int *)fd_ptr;
796 struct callback_result *cr;
800 ret = shm_new(size + sizeof(struct callback_result));
804 ret = shm_attach(shmid, ATTACH_RW, &shm);
808 cr->result_size = size;
809 memcpy(shm + sizeof(*cr), buf, size);
810 ret = shm_detach(shm);
813 ret = send_bin_buffer(fd, (char *)&shmid, sizeof(int));
817 if (shm_destroy(shmid) < 0)
818 PARA_ERROR_LOG("destroy result failed\n");
823 * On errors, negative value is written to fd.
824 * On success: If query produced a result, the result_shmid is written to fd.
825 * Otherwise, zero is written.
827 static int call_callback(int fd, int query_shmid)
830 struct callback_query *cq;
831 struct osl_object query;
834 ret = shm_attach(query_shmid, ATTACH_RW, &query_shm);
838 query.data = (char *)query_shm + sizeof(*cq);
839 query.size = cq->query_size;
840 cq->handler(fd, &query);
841 return shm_detach(query_shm);
844 static int execute_server_command(fd_set *rfds)
848 int ret = read_nonblock(server_socket, buf, sizeof(buf) - 1, rfds, &n);
850 if (ret < 0 || n == 0)
853 if (strcmp(buf, "new"))
855 return open_next_audio_file();
858 /* returns 0 if no data available, 1 else */
859 static int execute_afs_command(int fd, fd_set *rfds, uint32_t expected_cookie)
863 char buf[sizeof(cookie) + sizeof(query_shmid)];
865 int ret = read_nonblock(fd, buf, sizeof(buf), rfds, &n);
871 if (n != sizeof(buf)) {
872 PARA_NOTICE_LOG("short read (%d bytes, expected %lu)\n",
873 ret, (long unsigned) sizeof(buf));
876 cookie = *(uint32_t *)buf;
877 if (cookie != expected_cookie) {
878 PARA_NOTICE_LOG("received invalid cookie (got %u, expected %u)\n",
879 (unsigned)cookie, (unsigned)expected_cookie);
882 query_shmid = *(int *)(buf + sizeof(cookie));
883 if (query_shmid < 0) {
884 PARA_WARNING_LOG("received invalid query shmid %d)\n",
888 ret = call_callback(fd, query_shmid);
892 PARA_NOTICE_LOG("%s\n", para_strerror(-ret));
896 /** Shutdown connection if query has not arrived until this many seconds. */
897 #define AFS_CLIENT_TIMEOUT 3
899 static void command_post_select(struct sched *s, struct task *t)
901 struct command_task *ct = container_of(t, struct command_task, task);
902 struct sockaddr_un unix_addr;
903 struct afs_client *client, *tmp;
906 ret = execute_server_command(&s->rfds);
908 PARA_EMERG_LOG("%s\n", para_strerror(-ret));
912 /* Check the list of connected clients. */
913 list_for_each_entry_safe(client, tmp, &afs_client_list, node) {
914 ret = execute_afs_command(client->fd, &s->rfds, ct->cookie);
915 if (ret == 0) { /* prevent bogus connection flooding */
917 tv_diff(now, &client->connect_time, &diff);
918 if (diff.tv_sec < AFS_CLIENT_TIMEOUT)
920 PARA_WARNING_LOG("connection timeout\n");
923 list_del(&client->node);
926 /* Accept connections on the local socket. */
927 ret = para_accept(ct->fd, &s->rfds, &unix_addr, sizeof(unix_addr), &fd);
929 PARA_NOTICE_LOG("%s\n", para_strerror(-ret));
932 ret = mark_fd_nonblocking(fd);
934 PARA_NOTICE_LOG("%s\n", para_strerror(-ret));
938 client = para_malloc(sizeof(*client));
940 client->connect_time = *now;
941 para_list_add(&client->node, &afs_client_list);
944 static void register_command_task(uint32_t cookie)
946 struct command_task *ct = &command_task_struct;
947 ct->fd = setup_command_socket_or_die();
950 ct->task.pre_select = command_pre_select;
951 ct->task.post_select = command_post_select;
952 sprintf(ct->task.status, "afs command task");
953 register_task(&ct->task);
957 * Initialize the audio file selector process.
959 * \param cookie The value used for "authentication".
960 * \param socket_fd File descriptor used for communication with the server.
962 __noreturn void afs_init(uint32_t cookie, int socket_fd)
964 static struct sched s;
967 register_signal_task();
968 INIT_LIST_HEAD(&afs_client_list);
969 for (i = 0; i < NUM_AFS_TABLES; i++)
970 afs_tables[i].init(&afs_tables[i]);
971 ret = open_afs_tables();
974 server_socket = socket_fd;
975 ret = mark_fd_nonblocking(server_socket);
978 PARA_INFO_LOG("server_socket: %d, afs_socket_cookie: %u\n",
979 server_socket, (unsigned) cookie);
980 init_admissible_files(conf.afs_initial_mode_arg);
981 register_command_task(cookie);
982 s.default_timeout.tv_sec = 0;
983 s.default_timeout.tv_usec = 999 * 1000;
989 PARA_EMERG_LOG("%s\n", para_strerror(-ret));
993 static void create_tables_callback(int fd, const struct osl_object *query)
995 uint32_t table_mask = *(uint32_t *)query->data;
997 struct para_buffer pb = {.buf = NULL};
1000 for (i = 0; i < NUM_AFS_TABLES; i++) {
1001 struct afs_table *t = &afs_tables[i];
1003 if (!(table_mask & (1 << i)))
1007 ret = t->create(database_dir);
1010 para_printf(&pb, "successfully created %s table\n", t->name);
1012 ret = open_afs_tables();
1015 para_printf(&pb, "%s\n", para_strerror(-ret));
1017 pass_buffer_as_shm(pb.buf, pb.offset, &fd);
1021 int com_init(struct stream_cipher_context *scc, int argc, char * const * const argv)
1024 uint32_t table_mask = (1 << (NUM_AFS_TABLES + 1)) - 1;
1025 struct osl_object query = {.data = &table_mask,
1026 .size = sizeof(table_mask)};
1028 ret = make_database_dir();
1033 for (i = 1; i < argc; i++) {
1034 for (j = 0; j < NUM_AFS_TABLES; j++) {
1035 struct afs_table *t = &afs_tables[j];
1037 if (strcmp(argv[i], t->name))
1039 table_mask |= (1 << j);
1042 if (j == NUM_AFS_TABLES)
1043 return -E_BAD_TABLE_NAME;
1046 ret = send_callback_request(create_tables_callback, &query,
1047 sc_send_result, scc);
1049 return sc_send_va_buffer(scc, "%s\n", para_strerror(-ret));
1054 * Flags for the check command.
1058 enum com_check_flags {
1059 /** Check the audio file table. */
1061 /** Check the mood table. */
1063 /** Check the playlist table. */
1067 int com_check(struct stream_cipher_context *scc, int argc, char * const * const argv)
1072 for (i = 1; i < argc; i++) {
1073 const char *arg = argv[i];
1076 if (!strcmp(arg, "--")) {
1080 if (!strcmp(arg, "-a")) {
1084 if (!strcmp(arg, "-p")) {
1085 flags |= CHECK_PLAYLISTS;
1088 if (!strcmp(arg, "-m")) {
1089 flags |= CHECK_MOODS;
1092 return -E_AFS_SYNTAX;
1095 return -E_AFS_SYNTAX;
1098 if (flags & CHECK_AFT) {
1099 ret = send_callback_request(aft_check_callback, NULL,
1100 sc_send_result, scc);
1104 if (flags & CHECK_PLAYLISTS) {
1105 ret = send_callback_request(playlist_check_callback,
1106 NULL, sc_send_result, scc);
1110 if (flags & CHECK_MOODS) {
1111 ret = send_callback_request(mood_check_callback, NULL,
1112 sc_send_result, scc);
1120 * The afs event dispatcher.
1122 * \param event Type of the event.
1123 * \param pb May be \p NULL.
1124 * \param data Type depends on \a event.
1126 * This function calls the table handlers of all tables and passes \a pb and \a
1127 * data verbatim. It's up to the handlers to interpret the \a data pointer.
1129 void afs_event(enum afs_events event, struct para_buffer *pb,
1134 for (i = 0; i < NUM_AFS_TABLES; i++) {
1135 struct afs_table *t = &afs_tables[i];
1136 if (!t->event_handler)
1138 ret = t->event_handler(event, pb, data);
1140 PARA_CRIT_LOG("table %s, event %d: %s\n", t->name,
1141 event, para_strerror(-ret));
1146 * Dummy event handler for the images table.
1148 * \param event Unused.
1150 * \param data Unused.
1152 * This table does not honor events.
1154 int images_event_handler(__a_unused enum afs_events event,
1155 __a_unused struct para_buffer *pb, __a_unused void *data)
1161 * Dummy event handler for the lyrics table.
1163 * \param event Unused.
1165 * \param data Unused.
1167 * This table does not honor events.
1169 int lyrics_event_handler(__a_unused enum afs_events event,
1170 __a_unused struct para_buffer *pb, __a_unused void *data)