2 * Copyright (C) 2005 Andre Noll <maan@tuebingen.mpg.de>
4 * Licensed under the GPL v2. For licencing details see COPYING.
7 /** \file filter_common.c Common helper functions for filter input/output. */
10 #include <sys/types.h>
13 #include "filter_cmd.lsg.h"
18 #include "buffer_tree.h"
23 /** Iterate over all filters. */
24 #define FOR_EACH_FILTER(j) for (j = 1; lls_cmd(j, filter_cmd_suite); j++)
27 * Obtain a reference to a filter structure.
29 * \param filter_num Between zero and NUM_SUPPORTED_FILTERS, inclusively.
31 * \return Pointer to the filter identified by the given filter number.
33 * It is a fatal error if the given number is out of range. In this case
34 * the function aborts.
36 const struct filter *filter_get(int filter_num)
38 assert(filter_num >= 1);
39 assert(filter_num <= LSG_NUM_FILTER_CMD_SUBCOMMANDS);
40 return lls_user_data(FILTER_CMD(filter_num));
43 static inline bool filter_supported(int filter_num)
45 return lls_user_data(FILTER_CMD(filter_num));
48 const char *filter_name(int filter_num)
50 return lls_command_name(FILTER_CMD(filter_num));
54 * Parse a filter command line and call the corresponding ->setup method.
56 * \param fa The filter argument.
57 * \param conf Points to filter-specific setup upon successful return.
58 * \param lprp Parsed command line options are returned here.
60 * Check if the given filter argument starts with the name of a supported
61 * filter, optionally followed by options for this filter. If yes, call the
62 * command line parser of that filter and its ->setup method.
64 * \return This function either succeeds or does not return. On success, the
65 * number of the filter is returned and conf is initialized to point to the
66 * filter configuration as returned by the filter's ->setup() method, if any.
67 * Moreover, *lprp is initialized to contain the parsed command line options.
68 * On errors, the function calls exit(EXIT_FAILURE).
70 int filter_setup(const char *fa, void **conf, struct lls_parse_result **lprp)
72 int ret, filter_num, argc;
73 char *errctx = NULL, **argv;
74 const struct lls_command *cmd;
75 const struct filter *f;
77 ret = create_argv(fa, " \t\n", &argv);
81 ret = lls(lls_lookup_subcmd(argv[0], filter_cmd_suite, &errctx));
85 cmd = FILTER_CMD(filter_num);
86 if (!filter_supported(filter_num)) {
87 ret = -E_UNSUPPORTED_FILTER;
88 errctx = make_message("bad filter name: %s",
89 lls_command_name(cmd));
92 ret = lls(lls_parse(argc, argv, cmd, lprp, &errctx));
95 f = filter_get(filter_num);
96 *conf = f->setup? f->setup(*lprp) : NULL;
104 PARA_ERROR_LOG("%s\n", errctx);
106 PARA_EMERG_LOG("%s\n", para_strerror(-ret));
111 * Print help text of each filter to stdout.
113 * \param detailed Whether to print short or long help.
115 void print_filter_helps(bool detailed)
119 printf("\nAvailable filters: ");
121 if (!filter_supported(i))
127 num += printf("%s%s", i? " " : "", filter_name(i));
132 const struct lls_command *cmd = FILTER_CMD(i);
135 if (!filter_supported(i))
137 help = detailed? lls_long_help(cmd) : lls_short_help(cmd);
140 printf("%s\n", help);
146 * Print a short summary of all available filters to stdout.
148 * For each supported filter, the filter name and the purpose text is printed
149 * in a single line. Since no options are shown, the filter list is more
150 * concise than the text obtained from print_filter_helps().
152 void print_filter_list(void)
156 printf("Available filters:\n");
158 const struct lls_command *cmd = FILTER_CMD(i);
159 if (!filter_supported(i))
161 printf("%-9s %s\n", filter_name(i), lls_purpose(cmd));
166 * Set select timeout of the scheduler.
168 * \param s The scheduler.
169 * \param context Pointer to the filter node (task context).
171 * This looks at the status of the btr node of the filter. If data is available
172 * in the input queue of the filter, or if an error occurred, a minimal timeout
173 * for the next select call is requested from the scheduler. Otherwise the
174 * scheduler timeout is left unchanged.
176 void generic_filter_pre_select(struct sched *s, void *context)
178 struct filter_node *fn = context;
180 if (btr_node_status(fn->btrn, fn->min_iqs, BTR_NT_INTERNAL) != 0)
184 #ifdef WORDS_BIGENDIAN
185 #define DECODER_SAMPLE_FORMAT SF_S16_BE
187 #define DECODER_SAMPLE_FORMAT SF_S16_LE
191 * Execute a btr command for a decoder.
193 * The buffer tree nodes of the writers ask the parent nodes about sample_rate,
194 * channels count and sample format. This function is called by all decoders to
195 * answer these queries.
197 * \param cmd The command to be executed by the child node.
198 * \param sample_rate Known to the decoder.
199 * \param channels Known to the decoder.
200 * \param result Ascii representation on the answer is stored here.
204 int decoder_execute(const char *cmd, unsigned sample_rate, unsigned channels,
207 if (!strcmp(cmd, "sample_rate")) {
208 if (sample_rate == 0)
209 return -E_BTR_NAVAIL;
210 *result = make_message("%u", sample_rate);
213 if (!strcmp(cmd, "channels")) {
215 return -E_BTR_NAVAIL;
216 *result = make_message("%u", channels);
219 if (!strcmp(cmd, "sample_format")) {
220 *result = make_message("%d", DECODER_SAMPLE_FORMAT);
223 return -ERRNO_TO_PARA_ERROR(ENOTSUP);