/* Copyright (c) 2012 The Chromium OS Authors. All rights reserved. * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include #include #include "cras_dsp_ini.h" #define MAX_INI_KEY_LENGTH 64 /* names like "output_source:output_0" */ #define MAX_NR_PORT 128 /* the max number of ports for a plugin */ #define MAX_PORT_NAME_LENGTH 20 /* names like "output_32" */ /* Format of the ini file (See dsp.ini.sample for an example). - Each section in the ini file specifies a plugin. The section name is just an identifier. The "library" and "label" attributes in a section must be defined. The "library" attribute is the name of the shared library from which this plugin will be loaded, or a special value "builtin" for built-in plugins. The "label" attribute specify which plugin inside the shared library should be loaded. - Built-in plugins have an attribute "label" which has value "source" or "sink". It defines where the audio data flows into and flows out of the pipeline. Built-in plugins also have a attribute "purpose" which has the value "playback" or "capture". It defines which pipeline these plugins belong to. - Each plugin can have an optional "disable expression", which defines under which conditions the plugin is disabled. - Each plugin have some ports which specify the parameters for the plugin or to specify connections to other plugins. The ports in each plugin are numbered from 0. Each port is either an input port or an output port, and each port is either an audio port or a control port. The connections between two ports are expressed by giving the same value to both ports. For audio ports, the value should be "{identifier}". For control ports, the value shoule be "". For example, the following fragment [plugin1] ... output_4={audio_left} output_5={audio_right} [plugin2] ... input_0={audio_left} [plugin3] ... input_2={audio_right} specifies these connections: port 4 of plugin1 --> port 0 of plugin2 port 5 of plugin1 --> port 2 of plugin3 */ static const char *getstring(struct ini *ini, const char *sec_name, const char *key) { char full_key[MAX_INI_KEY_LENGTH]; snprintf(full_key, sizeof(full_key), "%s:%s", sec_name, key); return iniparser_getstring(ini->dict, full_key, NULL); } static int lookup_flow(struct ini *ini, const char *name) { int i; const struct flow *flow; FOR_ARRAY_ELEMENT(&ini->flows, i, flow) { if (strcmp(flow->name, name) == 0) return i; } return -1; } static int lookup_or_add_flow(struct ini *ini, const char *name) { struct flow *flow; int i = lookup_flow(ini, name); if (i != -1) return i; i = ARRAY_COUNT(&ini->flows); flow = ARRAY_APPEND_ZERO(&ini->flows); flow->name = name; return i; } static int parse_ports(struct ini *ini, const char *sec_name, struct plugin *plugin) { char key[MAX_PORT_NAME_LENGTH]; const char *str; int i; struct port *p; int direction; for (i = 0; i < MAX_NR_PORT; i++) { direction = PORT_INPUT; snprintf(key, sizeof(key), "input_%d", i); str = getstring(ini, sec_name, key); if (str == NULL) { direction = PORT_OUTPUT; snprintf(key, sizeof(key), "output_%d", i); str = getstring(ini, sec_name, key); if (str == NULL) break; /* no more ports */ } if (*str == '\0') { syslog(LOG_ERR, "empty value for %s:%s", sec_name, key); return -1; } if (str[0] == '<' || str[0] == '{') { p = ARRAY_APPEND_ZERO(&plugin->ports); p->type = (str[0] == '<') ? PORT_CONTROL : PORT_AUDIO; p->flow_id = lookup_or_add_flow(ini, str); p->init_value = 0; } else { char *endptr; float init_value = strtof(str, &endptr); if (endptr == str) { syslog(LOG_ERR, "cannot parse number from '%s'", str); } p = ARRAY_APPEND_ZERO(&plugin->ports); p->type = PORT_CONTROL; p->flow_id = INVALID_FLOW_ID; p->init_value = init_value; } p->direction = direction; } return 0; } static int parse_plugin_section(struct ini *ini, const char *sec_name, struct plugin *p) { p->title = sec_name; p->library = getstring(ini, sec_name, "library"); p->label = getstring(ini, sec_name, "label"); p->purpose = getstring(ini, sec_name, "purpose"); p->disable_expr = cras_expr_expression_parse( getstring(ini, sec_name, "disable")); if (p->library == NULL || p->label == NULL) { syslog(LOG_ERR, "A plugin must have library and label: %s", sec_name); return -1; } if (parse_ports(ini, sec_name, p) < 0) { syslog(LOG_ERR, "Failed to parse ports: %s", sec_name); return -1; } return 0; } static void fill_flow_info(struct ini *ini) { int i, j; struct plugin *plugin; struct port *port; struct flow *flow; struct plugin **pplugin; int *pport; FOR_ARRAY_ELEMENT(&ini->plugins, i, plugin) { FOR_ARRAY_ELEMENT(&plugin->ports, j, port) { int flow_id = port->flow_id; if (flow_id == INVALID_FLOW_ID) continue; flow = ARRAY_ELEMENT(&ini->flows, flow_id); flow->type = port->type; if (port->direction == PORT_INPUT) { pplugin = &flow->to; pport = &flow->to_port; } else { pplugin = &flow->from; pport = &flow->from_port; } *pplugin = plugin; *pport = j; } } } struct ini *cras_dsp_ini_create(const char *ini_filename) { struct ini *ini; dictionary *dict; int nsec, i; const char *sec_name; struct plugin *plugin; ini = calloc(1, sizeof(struct ini)); if (!ini) { syslog(LOG_ERR, "no memory for ini struct"); return NULL; } dict = iniparser_load((char *)ini_filename); if (!dict) { syslog(LOG_ERR, "no ini file %s", ini_filename); goto bail; } ini->dict = dict; /* Parse the plugin sections */ nsec = iniparser_getnsec(dict); for (i = 0; i < nsec; i++) { sec_name = iniparser_getsecname(dict, i); plugin = ARRAY_APPEND_ZERO(&ini->plugins); if (parse_plugin_section(ini, sec_name, plugin) < 0) goto bail; } /* Fill flow info now because now the plugin array won't change */ fill_flow_info(ini); return ini; bail: cras_dsp_ini_free(ini); return NULL; } void cras_dsp_ini_free(struct ini *ini) { struct plugin *p; int i; /* free plugins */ FOR_ARRAY_ELEMENT(&ini->plugins, i, p) { cras_expr_expression_free(p->disable_expr); ARRAY_FREE(&p->ports); } ARRAY_FREE(&ini->plugins); ARRAY_FREE(&ini->flows); if (ini->dict) { iniparser_freedict(ini->dict); ini->dict = NULL; } free(ini); } static const char *port_direction_str(enum port_direction port_direction) { switch (port_direction) { case PORT_INPUT: return "input"; case PORT_OUTPUT: return "output"; default: return "unknown"; } } static const char *port_type_str(enum port_type port_type) { switch (port_type) { case PORT_CONTROL: return "control"; case PORT_AUDIO: return "audio"; default: return "unknown"; } } static const char *plugin_title(struct plugin *plugin) { if (plugin == NULL) return "(null)"; return plugin->title; }