#ifndef fooalsamixerhfoo #define fooalsamixerhfoo /*** This file is part of PulseAudio. Copyright 2004-2006 Lennart Poettering Copyright 2006 Pierre Ossman for Cendio AB PulseAudio is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. PulseAudio 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 Lesser General Public License along with PulseAudio; if not, see . ***/ #include typedef struct pa_alsa_mixer pa_alsa_mixer; typedef struct pa_alsa_setting pa_alsa_setting; typedef struct pa_alsa_mixer_id pa_alsa_mixer_id; typedef struct pa_alsa_option pa_alsa_option; typedef struct pa_alsa_element pa_alsa_element; typedef struct pa_alsa_jack pa_alsa_jack; typedef struct pa_alsa_path pa_alsa_path; typedef struct pa_alsa_path_set pa_alsa_path_set; typedef struct pa_alsa_mapping pa_alsa_mapping; typedef struct pa_alsa_profile pa_alsa_profile; typedef struct pa_alsa_decibel_fix pa_alsa_decibel_fix; typedef struct pa_alsa_profile_set pa_alsa_profile_set; typedef struct pa_alsa_port_data pa_alsa_port_data; typedef struct pa_alsa_profile pa_alsa_profile; typedef struct pa_alsa_profile pa_card_profile; typedef struct pa_alsa_device pa_alsa_device; #define POSITION_MASK_CHANNELS 8 typedef enum pa_alsa_switch_use { PA_ALSA_SWITCH_IGNORE, PA_ALSA_SWITCH_MUTE, /* make this switch follow mute status */ PA_ALSA_SWITCH_OFF, /* set this switch to 'off' unconditionally */ PA_ALSA_SWITCH_ON, /* set this switch to 'on' unconditionally */ PA_ALSA_SWITCH_SELECT /* allow the user to select switch status through a setting */ } pa_alsa_switch_use_t; typedef enum pa_alsa_volume_use { PA_ALSA_VOLUME_IGNORE, PA_ALSA_VOLUME_MERGE, /* merge this volume slider into the global volume slider */ PA_ALSA_VOLUME_OFF, /* set this volume to minimal unconditionally */ PA_ALSA_VOLUME_ZERO, /* set this volume to 0dB unconditionally */ PA_ALSA_VOLUME_CONSTANT /* set this volume to a constant value unconditionally */ } pa_alsa_volume_use_t; typedef enum pa_alsa_enumeration_use { PA_ALSA_ENUMERATION_IGNORE, PA_ALSA_ENUMERATION_SELECT } pa_alsa_enumeration_use_t; typedef enum pa_alsa_required { PA_ALSA_REQUIRED_IGNORE, PA_ALSA_REQUIRED_SWITCH, PA_ALSA_REQUIRED_VOLUME, PA_ALSA_REQUIRED_ENUMERATION, PA_ALSA_REQUIRED_ANY } pa_alsa_required_t; typedef enum pa_alsa_direction { PA_ALSA_DIRECTION_ANY, PA_ALSA_DIRECTION_OUTPUT, PA_ALSA_DIRECTION_INPUT } pa_alsa_direction_t; #include "acp.h" #include "device-port.h" #include "alsa-util.h" #include "alsa-ucm.h" #include "card.h" /* A setting combines a couple of options into a single entity that * may be selected. Only one setting can be active at the same * time. */ struct pa_alsa_setting { pa_alsa_path *path; PA_LLIST_FIELDS(pa_alsa_setting); pa_idxset *options; char *name; char *description; unsigned priority; }; /* An entry for one ALSA mixer */ struct pa_alsa_mixer { struct pa_alsa_mixer *alias; snd_mixer_t *mixer_handle; bool used_for_poll:1; bool used_for_probe_only:1; }; /* ALSA mixer element identifier */ struct pa_alsa_mixer_id { char *name; int index; }; char *pa_alsa_mixer_id_to_string(char *dst, size_t dst_len, pa_alsa_mixer_id *id); /* An option belongs to an element and refers to one enumeration item * of the element is an enumeration item, or a switch status if the * element is a switch item. */ struct pa_alsa_option { pa_alsa_element *element; PA_LLIST_FIELDS(pa_alsa_option); char *alsa_name; int alsa_idx; char *name; char *description; unsigned priority; pa_alsa_required_t required; pa_alsa_required_t required_any; pa_alsa_required_t required_absent; }; /* An element wraps one specific ALSA element. A series of elements * make up a path (see below). If the element is an enumeration or switch * element it may include a list of options. */ struct pa_alsa_element { pa_alsa_path *path; PA_LLIST_FIELDS(pa_alsa_element); struct pa_alsa_mixer_id alsa_id; pa_alsa_direction_t direction; pa_alsa_switch_use_t switch_use; pa_alsa_volume_use_t volume_use; pa_alsa_enumeration_use_t enumeration_use; pa_alsa_required_t required; pa_alsa_required_t required_any; pa_alsa_required_t required_absent; long constant_volume; unsigned int override_map; bool direction_try_other:1; bool has_dB:1; long min_volume, max_volume; long volume_limit; /* -1 for no configured limit */ double min_dB, max_dB; pa_channel_position_mask_t masks[SND_MIXER_SCHN_LAST + 1][POSITION_MASK_CHANNELS]; unsigned n_channels; pa_channel_position_mask_t merged_mask; PA_LLIST_HEAD(pa_alsa_option, options); pa_alsa_decibel_fix *db_fix; }; struct pa_alsa_jack { pa_alsa_path *path; PA_LLIST_FIELDS(pa_alsa_jack); snd_mixer_t *mixer_handle; char *mixer_device_name; struct pa_alsa_mixer_id alsa_id; char *name; /* E g "Headphone" */ bool has_control; /* is the jack itself present? */ bool plugged_in; /* is this jack currently plugged in? */ snd_mixer_elem_t *melem; /* Jack detection handle */ pa_available_t state_unplugged, state_plugged; pa_alsa_required_t required; pa_alsa_required_t required_any; pa_alsa_required_t required_absent; pa_dynarray *ucm_devices; /* pa_alsa_ucm_device */ pa_dynarray *ucm_hw_mute_devices; /* pa_alsa_ucm_device */ bool append_pcm_to_name; }; pa_alsa_jack *pa_alsa_jack_new(pa_alsa_path *path, const char *mixer_device_name, const char *name, int index); void pa_alsa_jack_free(pa_alsa_jack *jack); void pa_alsa_jack_set_has_control(pa_alsa_jack *jack, bool has_control); void pa_alsa_jack_set_plugged_in(pa_alsa_jack *jack, bool plugged_in); void pa_alsa_jack_add_ucm_device(pa_alsa_jack *jack, pa_alsa_ucm_device *device); void pa_alsa_jack_add_ucm_hw_mute_device(pa_alsa_jack *jack, pa_alsa_ucm_device *device); /* A path wraps a series of elements into a single entity which can be * used to control it as if it had a single volume slider, a single * mute switch and a single list of selectable options. */ struct pa_alsa_path { pa_alsa_direction_t direction; pa_device_port* port; char *name; char *description_key; char *description; char *availability_group; pa_device_port_type_t device_port_type; unsigned priority; bool autodetect_eld_device; pa_alsa_mixer *eld_mixer_handle; int eld_device; pa_proplist *proplist; bool probed:1; bool supported:1; bool has_mute:1; bool has_volume:1; bool has_dB:1; bool mute_during_activation:1; /* These two are used during probing only */ bool has_req_any:1; bool req_any_present:1; long min_volume, max_volume; double min_dB, max_dB; /* This is used during parsing only, as a shortcut so that we * don't have to iterate the list all the time */ pa_alsa_element *last_element; pa_alsa_option *last_option; pa_alsa_setting *last_setting; pa_alsa_jack *last_jack; PA_LLIST_HEAD(pa_alsa_element, elements); PA_LLIST_HEAD(pa_alsa_setting, settings); PA_LLIST_HEAD(pa_alsa_jack, jacks); }; /* A path set is simply a set of paths that are applicable to a * device */ struct pa_alsa_path_set { pa_hashmap *paths; pa_alsa_direction_t direction; }; void pa_alsa_setting_dump(pa_alsa_setting *s); void pa_alsa_option_dump(pa_alsa_option *o); void pa_alsa_jack_dump(pa_alsa_jack *j); void pa_alsa_element_dump(pa_alsa_element *e); pa_alsa_path *pa_alsa_path_new(const char *paths_dir, const char *fname, pa_alsa_direction_t direction); pa_alsa_path *pa_alsa_path_synthesize(const char *element, pa_alsa_direction_t direction); pa_alsa_element *pa_alsa_element_get(pa_alsa_path *p, const char *section, bool prefixed); int pa_alsa_path_probe(pa_alsa_path *p, pa_alsa_mapping *mapping, snd_mixer_t *m, bool ignore_dB); void pa_alsa_path_dump(pa_alsa_path *p); int pa_alsa_path_get_volume(pa_alsa_path *p, snd_mixer_t *m, const pa_channel_map *cm, pa_cvolume *v); int pa_alsa_path_get_mute(pa_alsa_path *path, snd_mixer_t *m, bool *muted); int pa_alsa_path_set_volume(pa_alsa_path *path, snd_mixer_t *m, const pa_channel_map *cm, pa_cvolume *v, bool deferred_volume, bool write_to_hw); int pa_alsa_path_set_mute(pa_alsa_path *path, snd_mixer_t *m, bool muted); int pa_alsa_path_select(pa_alsa_path *p, pa_alsa_setting *s, snd_mixer_t *m, bool device_is_muted); void pa_alsa_path_set_callback(pa_alsa_path *p, snd_mixer_t *m, snd_mixer_elem_callback_t cb, void *userdata); void pa_alsa_path_free(pa_alsa_path *p); pa_alsa_path_set *pa_alsa_path_set_new(pa_alsa_mapping *m, pa_alsa_direction_t direction, const char *paths_dir); void pa_alsa_path_set_dump(pa_alsa_path_set *s); void pa_alsa_path_set_set_callback(pa_alsa_path_set *ps, snd_mixer_t *m, snd_mixer_elem_callback_t cb, void *userdata); void pa_alsa_path_set_free(pa_alsa_path_set *s); int pa_alsa_path_set_is_empty(pa_alsa_path_set *s); struct pa_alsa_device { struct acp_device device; pa_card *card; pa_alsa_direction_t direction; pa_proplist *proplist; pa_alsa_mapping *mapping; pa_alsa_ucm_mapping_context *ucm_context; pa_hashmap *ports; pa_dynarray port_array; pa_device_port *active_port; snd_mixer_t *mixer_handle; pa_alsa_path_set *mixer_path_set; pa_alsa_path *mixer_path; snd_pcm_t *pcm_handle; unsigned muted:1; unsigned decibel_volume:1; pa_cvolume real_volume; pa_cvolume hardware_volume; pa_cvolume soft_volume; pa_volume_t base_volume; unsigned n_volume_steps; int (*read_volume)(pa_alsa_device *dev); int (*read_mute)(pa_alsa_device *dev); void (*set_volume)(pa_alsa_device *dev, const pa_cvolume *v); void (*set_mute)(pa_alsa_device *dev, bool m); }; struct pa_alsa_mapping { pa_alsa_profile_set *profile_set; char *name; char *description; char *description_key; unsigned priority; pa_alsa_direction_t direction; /* These are copied over to the resultant sink/source */ pa_proplist *proplist; pa_sample_spec sample_spec; pa_channel_map channel_map; char **device_strings; char **input_path_names; char **output_path_names; char **input_element; /* list of fallbacks */ char **output_element; pa_alsa_path_set *input_path_set; pa_alsa_path_set *output_path_set; unsigned supported; bool exact_channels:1; bool fallback:1; /* The "y" in "hw:x,y". This is set to -1 before the device index has been * queried, or if the query failed. */ int hw_device_index; /* Temporarily used during probing */ snd_pcm_t *input_pcm; snd_pcm_t *output_pcm; pa_proplist *input_proplist; pa_proplist *output_proplist; pa_alsa_device output; pa_alsa_device input; /* ucm device context*/ pa_alsa_ucm_mapping_context ucm_context; }; struct pa_alsa_profile { struct acp_card_profile profile; pa_alsa_profile_set *profile_set; char *name; char *description; char *description_key; unsigned priority; char *input_name; char *output_name; bool supported:1; bool fallback_input:1; bool fallback_output:1; char **input_mapping_names; char **output_mapping_names; pa_idxset *input_mappings; pa_idxset *output_mappings; struct { pa_dynarray devices; } out; }; struct pa_alsa_decibel_fix { char *key; pa_alsa_profile_set *profile_set; char *name; /* Alsa volume element name. */ int index; /* Alsa volume element index. */ long min_step; long max_step; /* An array that maps alsa volume element steps to decibels. The steps can * be used as indices to this array, after subtracting min_step from the * real value. * * The values are actually stored as integers representing millibels, * because that's the format the alsa API uses. */ long *db_values; }; struct pa_alsa_profile_set { pa_hashmap *mappings; pa_hashmap *profiles; pa_hashmap *decibel_fixes; pa_hashmap *input_paths; pa_hashmap *output_paths; bool auto_profiles; bool ignore_dB:1; bool probed:1; }; void pa_alsa_mapping_dump(pa_alsa_mapping *m); void pa_alsa_profile_dump(pa_alsa_profile *p); void pa_alsa_decibel_fix_dump(pa_alsa_decibel_fix *db_fix); pa_alsa_mapping *pa_alsa_mapping_get(pa_alsa_profile_set *ps, const char *name); void pa_alsa_mapping_free (pa_alsa_mapping *m); void pa_alsa_profile_free (pa_alsa_profile *p); pa_alsa_profile_set* pa_alsa_profile_set_new(const char *fname, const pa_channel_map *bonus); void pa_alsa_profile_set_probe(pa_alsa_profile_set *ps, pa_hashmap *mixers, const char *dev_id, const pa_sample_spec *ss, unsigned default_n_fragments, unsigned default_fragment_size_msec); void pa_alsa_profile_set_free(pa_alsa_profile_set *s); void pa_alsa_profile_set_dump(pa_alsa_profile_set *s); void pa_alsa_profile_set_drop_unsupported(pa_alsa_profile_set *s); void pa_alsa_mixer_use_for_poll(pa_hashmap *mixers, snd_mixer_t *mixer_handle); #if 0 pa_alsa_fdlist *pa_alsa_fdlist_new(void); void pa_alsa_fdlist_free(pa_alsa_fdlist *fdl); int pa_alsa_fdlist_set_handle(pa_alsa_fdlist *fdl, snd_mixer_t *mixer_handle, snd_hctl_t *hctl_handle, pa_mainloop_api* m); /* Alternative for handling alsa mixer events in io-thread. */ pa_alsa_mixer_pdata *pa_alsa_mixer_pdata_new(void); void pa_alsa_mixer_pdata_free(pa_alsa_mixer_pdata *pd); int pa_alsa_set_mixer_rtpoll(struct pa_alsa_mixer_pdata *pd, snd_mixer_t *mixer, pa_rtpoll *rtp); #endif /* Data structure for inclusion in pa_device_port for alsa * sinks/sources. This contains nothing that needs to be freed * individually */ struct pa_alsa_port_data { pa_alsa_path *path; pa_alsa_setting *setting; bool suspend_when_unavailable; }; void pa_alsa_add_ports(pa_hashmap *ports, pa_alsa_path_set *ps, pa_card *card); void pa_alsa_path_set_add_ports(pa_alsa_path_set *ps, pa_alsa_profile *cp, pa_hashmap *ports, pa_hashmap *extra, pa_core *core); #endif