/* Spa * Copyright (C) 2016 Wim Taymans * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library 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 * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public * License along with this library; if not, write to the * Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, * Boston, MA 02110-1301, USA. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define SAMPLES_TO_TIME(this,s) ((s) * SPA_NSEC_PER_SEC / (this)->current_format.info.raw.rate) #define BYTES_TO_SAMPLES(this,b) ((b)/(this)->bpf) #define BYTES_TO_TIME(this,b) SAMPLES_TO_TIME(this, BYTES_TO_SAMPLES (this, b)) typedef struct { uint32_t node; uint32_t clock; uint32_t format; uint32_t props; uint32_t prop_live; uint32_t prop_wave; uint32_t prop_freq; uint32_t prop_volume; uint32_t wave_sine; uint32_t wave_square; SpaTypeMediaType media_type; SpaTypeMediaSubtype media_subtype; SpaTypeFormatAudio format_audio; SpaTypeAudioFormat audio_format; SpaTypeEventNode event_node; SpaTypeCommandNode command_node; SpaTypeAllocParamBuffers alloc_param_buffers; SpaTypeAllocParamMetaEnable alloc_param_meta_enable; } Type; static inline void init_type (Type *type, SpaTypeMap *map) { type->node = spa_type_map_get_id (map, SPA_TYPE__Node); type->clock = spa_type_map_get_id (map, SPA_TYPE__Clock); type->format = spa_type_map_get_id (map, SPA_TYPE__Format); type->props = spa_type_map_get_id (map, SPA_TYPE__Props); type->prop_live = spa_type_map_get_id (map, SPA_TYPE_PROPS__live); type->prop_wave = spa_type_map_get_id (map, SPA_TYPE_PROPS__waveType); type->prop_freq = spa_type_map_get_id (map, SPA_TYPE_PROPS__frequency); type->prop_volume = spa_type_map_get_id (map, SPA_TYPE_PROPS__volume); type->wave_sine = spa_type_map_get_id (map, SPA_TYPE_PROPS__waveType ":sine"); type->wave_square = spa_type_map_get_id (map, SPA_TYPE_PROPS__waveType ":square"); spa_type_media_type_map (map, &type->media_type); spa_type_media_subtype_map (map, &type->media_subtype); spa_type_format_audio_map (map, &type->format_audio); spa_type_audio_format_map (map, &type->audio_format); spa_type_event_node_map (map, &type->event_node); spa_type_command_node_map (map, &type->command_node); spa_type_alloc_param_buffers_map (map, &type->alloc_param_buffers); spa_type_alloc_param_meta_enable_map (map, &type->alloc_param_meta_enable); } typedef struct _SpaAudioTestSrc SpaAudioTestSrc; typedef struct { bool live; uint32_t wave; double freq; double volume; } SpaAudioTestSrcProps; #define MAX_BUFFERS 16 typedef struct _ATSBuffer ATSBuffer; struct _ATSBuffer { SpaBuffer *outbuf; bool outstanding; SpaMetaHeader *h; SpaList link; }; typedef SpaResult (*RenderFunc) (SpaAudioTestSrc *this, void *samples, size_t n_samples); struct _SpaAudioTestSrc { SpaHandle handle; SpaNode node; SpaClock clock; Type type; SpaTypeMap *map; SpaLog *log; SpaLoop *data_loop; bool async; uint8_t props_buffer[512]; SpaAudioTestSrcProps props; SpaEventNodeCallback event_cb; void *user_data; SpaSource timer_source; struct itimerspec timerspec; SpaPortInfo info; SpaAllocParam *params[2]; uint8_t params_buffer[1024]; SpaPortIO *io; bool have_format; SpaAudioInfo current_format; uint8_t format_buffer[1024]; size_t bpf; RenderFunc render_func; double accumulator; ATSBuffer buffers[MAX_BUFFERS]; uint32_t n_buffers; bool started; uint64_t start_time; uint64_t elapsed_time; uint64_t sample_count; SpaList empty; }; #define CHECK_PORT(this,d,p) ((d) == SPA_DIRECTION_OUTPUT && (p) == 0) #define DEFAULT_LIVE true #define DEFAULT_WAVE wave_sine #define DEFAULT_FREQ 440.0 #define DEFAULT_VOLUME 1.0 static void reset_audiotestsrc_props (SpaAudioTestSrc *this, SpaAudioTestSrcProps *props) { props->live = DEFAULT_LIVE; props->wave = this->type. DEFAULT_WAVE; props->freq = DEFAULT_FREQ; props->volume = DEFAULT_VOLUME; } #define PROP(f,key,type,...) \ SPA_POD_PROP (f,key,0,type,1,__VA_ARGS__) #define PROP_MM(f,key,type,...) \ SPA_POD_PROP (f,key,SPA_POD_PROP_RANGE_MIN_MAX,type,3,__VA_ARGS__) #define PROP_U_MM(f,key,type,...) \ SPA_POD_PROP (f,key,SPA_POD_PROP_FLAG_UNSET | \ SPA_POD_PROP_RANGE_MIN_MAX,type,3,__VA_ARGS__) #define PROP_EN(f,key,type,n,...) \ SPA_POD_PROP (f,key,SPA_POD_PROP_RANGE_ENUM,type,n,__VA_ARGS__) #define PROP_U_EN(f,key,type,n,...) \ SPA_POD_PROP (f,key,SPA_POD_PROP_FLAG_UNSET | \ SPA_POD_PROP_RANGE_ENUM,type,n,__VA_ARGS__) static SpaResult spa_audiotestsrc_node_get_props (SpaNode *node, SpaProps **props) { SpaAudioTestSrc *this; SpaPODBuilder b = { NULL, }; SpaPODFrame f[2]; spa_return_val_if_fail (node != NULL, SPA_RESULT_INVALID_ARGUMENTS); spa_return_val_if_fail (props != NULL, SPA_RESULT_INVALID_ARGUMENTS); this = SPA_CONTAINER_OF (node, SpaAudioTestSrc, node); spa_pod_builder_init (&b, this->props_buffer, sizeof (this->props_buffer)); spa_pod_builder_props (&b, &f[0], this->type.props, PROP (&f[1], this->type.prop_live, SPA_POD_TYPE_BOOL, this->props.live), PROP_EN (&f[1], this->type.prop_wave, SPA_POD_TYPE_ID, 3, this->props.wave, this->type.wave_sine, this->type.wave_square), PROP_MM (&f[1], this->type.prop_freq, SPA_POD_TYPE_DOUBLE, this->props.freq, 0.0, 50000000.0), PROP_MM (&f[1], this->type.prop_volume, SPA_POD_TYPE_DOUBLE, this->props.volume, 0.0, 10.0)); *props = SPA_POD_BUILDER_DEREF (&b, f[0].ref, SpaProps); return SPA_RESULT_OK; } static SpaResult spa_audiotestsrc_node_set_props (SpaNode *node, const SpaProps *props) { SpaAudioTestSrc *this; spa_return_val_if_fail (node != NULL, SPA_RESULT_INVALID_ARGUMENTS); this = SPA_CONTAINER_OF (node, SpaAudioTestSrc, node); if (props == NULL) { reset_audiotestsrc_props (this, &this->props); } else { spa_props_query (props, this->type.prop_live, SPA_POD_TYPE_BOOL, &this->props.live, this->type.prop_wave, SPA_POD_TYPE_ID, &this->props.wave, this->type.prop_freq, SPA_POD_TYPE_DOUBLE, &this->props.freq, this->type.prop_volume, SPA_POD_TYPE_DOUBLE, &this->props.volume, 0); } if (this->props.live) this->info.flags |= SPA_PORT_INFO_FLAG_LIVE; else this->info.flags &= ~SPA_PORT_INFO_FLAG_LIVE; return SPA_RESULT_OK; } static SpaResult send_have_output (SpaAudioTestSrc *this) { if (this->event_cb) { SpaEvent event = SPA_EVENT_INIT (this->type.event_node.HaveOutput); this->event_cb (&this->node, &event, this->user_data); } return SPA_RESULT_OK; } #include "render.c" static void set_timer (SpaAudioTestSrc *this, bool enabled) { if (this->async || this->props.live) { if (enabled) { if (this->props.live) { uint64_t next_time = this->start_time + this->elapsed_time; this->timerspec.it_value.tv_sec = next_time / SPA_NSEC_PER_SEC; this->timerspec.it_value.tv_nsec = next_time % SPA_NSEC_PER_SEC; } else { this->timerspec.it_value.tv_sec = 0; this->timerspec.it_value.tv_nsec = 1; } } else { this->timerspec.it_value.tv_sec = 0; this->timerspec.it_value.tv_nsec = 0; } timerfd_settime (this->timer_source.fd, TFD_TIMER_ABSTIME, &this->timerspec, NULL); } } static void read_timer (SpaAudioTestSrc *this) { uint64_t expirations; if (this->async || this->props.live) { if (read (this->timer_source.fd, &expirations, sizeof (uint64_t)) < sizeof (uint64_t)) perror ("read timerfd"); } } static SpaResult audiotestsrc_make_buffer (SpaAudioTestSrc *this) { ATSBuffer *b; SpaPortIO *io = this->io; int n_bytes, n_samples; read_timer (this); if (spa_list_is_empty (&this->empty)) { set_timer (this, false); return SPA_RESULT_OUT_OF_BUFFERS; } b = spa_list_first (&this->empty, ATSBuffer, link); spa_list_remove (&b->link); b->outstanding = true; n_bytes = b->outbuf->datas[0].maxsize; if (io->flags & SPA_PORT_IO_FLAG_RANGE) n_bytes = SPA_CLAMP (n_bytes, io->range.min_size, io->range.max_size); spa_log_trace (this->log, "audiotestsrc %p: dequeue buffer %d %d", this, b->outbuf->id, n_bytes); n_samples = n_bytes / this->bpf; this->render_func (this, b->outbuf->datas[0].data, n_samples); b->outbuf->datas[0].chunk->offset = 0; b->outbuf->datas[0].chunk->size = n_bytes; b->outbuf->datas[0].chunk->stride = 0; if (b->h) { b->h->seq = this->sample_count; b->h->pts = this->start_time + this->elapsed_time; b->h->dts_offset = 0; } this->sample_count += n_samples; this->elapsed_time = SAMPLES_TO_TIME (this, this->sample_count); set_timer (this, true); io->flags = 0; io->buffer_id = b->outbuf->id; io->status = SPA_RESULT_OK; return SPA_RESULT_HAVE_OUTPUT; } static void audiotestsrc_on_output (SpaSource *source) { SpaAudioTestSrc *this = source->data; SpaResult res; res = audiotestsrc_make_buffer (this); if (res == SPA_RESULT_HAVE_OUTPUT) send_have_output (this); } static SpaResult spa_audiotestsrc_node_send_command (SpaNode *node, SpaCommand *command) { SpaAudioTestSrc *this; spa_return_val_if_fail (node != NULL, SPA_RESULT_INVALID_ARGUMENTS); spa_return_val_if_fail (command != NULL, SPA_RESULT_INVALID_ARGUMENTS); this = SPA_CONTAINER_OF (node, SpaAudioTestSrc, node); if (SPA_COMMAND_TYPE (command) == this->type.command_node.Start) { struct timespec now; if (!this->have_format) return SPA_RESULT_NO_FORMAT; if (this->n_buffers == 0) return SPA_RESULT_NO_BUFFERS; if (this->started) return SPA_RESULT_OK; clock_gettime (CLOCK_MONOTONIC, &now); if (this->props.live) this->start_time = SPA_TIMESPEC_TO_TIME (&now); else this->start_time = 0; this->sample_count = 0; this->elapsed_time = 0; this->started = true; set_timer (this, true); } else if (SPA_COMMAND_TYPE (command) == this->type.command_node.Pause) { if (!this->have_format) return SPA_RESULT_NO_FORMAT; if (this->n_buffers == 0) return SPA_RESULT_NO_BUFFERS; if (!this->started) return SPA_RESULT_OK; this->started = false; set_timer (this, false); } else return SPA_RESULT_NOT_IMPLEMENTED; return SPA_RESULT_OK; } static SpaResult spa_audiotestsrc_node_set_event_callback (SpaNode *node, SpaEventNodeCallback event_cb, void *user_data) { SpaAudioTestSrc *this; spa_return_val_if_fail (node != NULL, SPA_RESULT_INVALID_ARGUMENTS); this = SPA_CONTAINER_OF (node, SpaAudioTestSrc, node); this->event_cb = event_cb; this->user_data = user_data; return SPA_RESULT_OK; } static SpaResult spa_audiotestsrc_node_get_n_ports (SpaNode *node, uint32_t *n_input_ports, uint32_t *max_input_ports, uint32_t *n_output_ports, uint32_t *max_output_ports) { spa_return_val_if_fail (node != NULL, SPA_RESULT_INVALID_ARGUMENTS); if (n_input_ports) *n_input_ports = 0; if (n_output_ports) *n_output_ports = 1; if (max_input_ports) *max_input_ports = 0; if (max_output_ports) *max_output_ports = 1; return SPA_RESULT_OK; } static SpaResult spa_audiotestsrc_node_get_port_ids (SpaNode *node, uint32_t n_input_ports, uint32_t *input_ids, uint32_t n_output_ports, uint32_t *output_ids) { spa_return_val_if_fail (node != NULL, SPA_RESULT_INVALID_ARGUMENTS); if (n_output_ports > 0 && output_ids != NULL) output_ids[0] = 0; return SPA_RESULT_OK; } static SpaResult spa_audiotestsrc_node_add_port (SpaNode *node, SpaDirection direction, uint32_t port_id) { return SPA_RESULT_NOT_IMPLEMENTED; } static SpaResult spa_audiotestsrc_node_remove_port (SpaNode *node, SpaDirection direction, uint32_t port_id) { return SPA_RESULT_NOT_IMPLEMENTED; } static SpaResult spa_audiotestsrc_node_port_enum_formats (SpaNode *node, SpaDirection direction, uint32_t port_id, SpaFormat **format, const SpaFormat *filter, uint32_t index) { SpaAudioTestSrc *this; SpaResult res; SpaFormat *fmt; uint8_t buffer[256]; SpaPODBuilder b = { NULL, }; SpaPODFrame f[2]; uint32_t count, match; spa_return_val_if_fail (node != NULL, SPA_RESULT_INVALID_ARGUMENTS); spa_return_val_if_fail (format != NULL, SPA_RESULT_INVALID_ARGUMENTS); this = SPA_CONTAINER_OF (node, SpaAudioTestSrc, node); spa_return_val_if_fail (CHECK_PORT (this, direction, port_id), SPA_RESULT_INVALID_PORT); count = match = filter ? 0 : index; next: spa_pod_builder_init (&b, buffer, sizeof (buffer)); switch (count++) { case 0: spa_pod_builder_format (&b, &f[0], this->type.format, this->type.media_type.audio, this->type.media_subtype.raw, PROP_U_EN (&f[1], this->type.format_audio.format, SPA_POD_TYPE_ID, 5, this->type.audio_format.S16, this->type.audio_format.S16, this->type.audio_format.S32, this->type.audio_format.F32, this->type.audio_format.F64), PROP_U_MM (&f[1], this->type.format_audio.rate, SPA_POD_TYPE_INT, 44100, 1, INT32_MAX), PROP_U_MM (&f[1], this->type.format_audio.channels, SPA_POD_TYPE_INT, 2, 1, INT32_MAX)); break; default: return SPA_RESULT_ENUM_END; } fmt = SPA_POD_BUILDER_DEREF (&b, f[0].ref, SpaFormat); spa_pod_builder_init (&b, this->format_buffer, sizeof (this->format_buffer)); if ((res = spa_format_filter (fmt, filter, &b)) != SPA_RESULT_OK || match++ != index) goto next; *format = SPA_POD_BUILDER_DEREF (&b, 0, SpaFormat); return SPA_RESULT_OK; } static SpaResult clear_buffers (SpaAudioTestSrc *this) { if (this->n_buffers > 0) { spa_log_info (this->log, "audiotestsrc %p: clear buffers", this); this->n_buffers = 0; spa_list_init (&this->empty); this->started = false; set_timer (this, false); } return SPA_RESULT_OK; } static SpaResult spa_audiotestsrc_node_port_set_format (SpaNode *node, SpaDirection direction, uint32_t port_id, SpaPortFormatFlags flags, const SpaFormat *format) { SpaAudioTestSrc *this; spa_return_val_if_fail (node != NULL, SPA_RESULT_INVALID_ARGUMENTS); this = SPA_CONTAINER_OF (node, SpaAudioTestSrc, node); spa_return_val_if_fail (CHECK_PORT (this, direction, port_id), SPA_RESULT_INVALID_PORT); if (format == NULL) { this->have_format = false; clear_buffers (this); } else { SpaAudioInfo info = { SPA_FORMAT_MEDIA_TYPE (format), SPA_FORMAT_MEDIA_SUBTYPE (format), }; int idx; int sizes[4] = { 2, 4, 4, 8 }; if (info.media_type != this->type.media_type.audio || info.media_subtype != this->type.media_subtype.raw) return SPA_RESULT_INVALID_MEDIA_TYPE; if (!spa_format_audio_raw_parse (format, &info.info.raw, &this->type.format_audio)) return SPA_RESULT_INVALID_MEDIA_TYPE; if (info.info.raw.format == this->type.audio_format.S16) idx = 0; else if (info.info.raw.format == this->type.audio_format.S32) idx = 1; else if (info.info.raw.format == this->type.audio_format.F32) idx = 2; else if (info.info.raw.format == this->type.audio_format.F64) idx = 3; else return SPA_RESULT_INVALID_MEDIA_TYPE; this->bpf = sizes[idx] * info.info.raw.channels; this->current_format = info; this->have_format = true; this->render_func = sine_funcs[idx]; } if (this->have_format) { SpaPODBuilder b = { NULL }; SpaPODFrame f[2]; this->info.maxbuffering = -1; this->info.latency = BYTES_TO_TIME (this, 1024); this->info.n_params = 2; this->info.params = this->params; spa_pod_builder_init (&b, this->params_buffer, sizeof (this->params_buffer)); spa_pod_builder_object (&b, &f[0], 0, this->type.alloc_param_buffers.Buffers, PROP (&f[1], this->type.alloc_param_buffers.size, SPA_POD_TYPE_INT, 1024 * this->bpf), PROP (&f[1], this->type.alloc_param_buffers.stride, SPA_POD_TYPE_INT, this->bpf), PROP_U_MM (&f[1], this->type.alloc_param_buffers.buffers, SPA_POD_TYPE_INT, 32, 2, 32), PROP (&f[1], this->type.alloc_param_buffers.align, SPA_POD_TYPE_INT, 16)); this->params[0] = SPA_POD_BUILDER_DEREF (&b, f[0].ref, SpaAllocParam); spa_pod_builder_object (&b, &f[0], 0, this->type.alloc_param_meta_enable.MetaEnable, PROP (&f[1], this->type.alloc_param_meta_enable.type, SPA_POD_TYPE_INT, SPA_META_TYPE_HEADER)); this->params[1] = SPA_POD_BUILDER_DEREF (&b, f[0].ref, SpaAllocParam); this->info.extra = NULL; } return SPA_RESULT_OK; } static SpaResult spa_audiotestsrc_node_port_get_format (SpaNode *node, SpaDirection direction, uint32_t port_id, const SpaFormat **format) { SpaAudioTestSrc *this; SpaPODBuilder b = { NULL, }; SpaPODFrame f[2]; spa_return_val_if_fail (node != NULL, SPA_RESULT_INVALID_ARGUMENTS); spa_return_val_if_fail (format != NULL, SPA_RESULT_INVALID_ARGUMENTS); this = SPA_CONTAINER_OF (node, SpaAudioTestSrc, node); spa_return_val_if_fail (CHECK_PORT (this, direction, port_id), SPA_RESULT_INVALID_PORT); if (!this->have_format) return SPA_RESULT_NO_FORMAT; spa_pod_builder_init (&b, this->format_buffer, sizeof (this->format_buffer)); spa_pod_builder_format (&b, &f[0], this->type.format, this->type.media_type.audio, this->type.media_subtype.raw, PROP (&f[1], this->type.format_audio.format, SPA_POD_TYPE_ID, this->current_format.info.raw.format), PROP (&f[1], this->type.format_audio.rate, SPA_POD_TYPE_INT, this->current_format.info.raw.rate), PROP (&f[1], this->type.format_audio.channels, SPA_POD_TYPE_INT, this->current_format.info.raw.channels)); *format = SPA_POD_BUILDER_DEREF (&b, f[0].ref, SpaFormat); return SPA_RESULT_OK; } static SpaResult spa_audiotestsrc_node_port_get_info (SpaNode *node, SpaDirection direction, uint32_t port_id, const SpaPortInfo **info) { SpaAudioTestSrc *this; spa_return_val_if_fail (node != NULL, SPA_RESULT_INVALID_ARGUMENTS); spa_return_val_if_fail (info != NULL, SPA_RESULT_INVALID_ARGUMENTS); this = SPA_CONTAINER_OF (node, SpaAudioTestSrc, node); spa_return_val_if_fail (CHECK_PORT (this, direction, port_id), SPA_RESULT_INVALID_PORT); *info = &this->info; return SPA_RESULT_OK; } static SpaResult spa_audiotestsrc_node_port_get_props (SpaNode *node, SpaDirection direction, uint32_t port_id, SpaProps **props) { return SPA_RESULT_NOT_IMPLEMENTED; } static SpaResult spa_audiotestsrc_node_port_set_props (SpaNode *node, SpaDirection direction, uint32_t port_id, const SpaProps *props) { return SPA_RESULT_NOT_IMPLEMENTED; } static SpaResult spa_audiotestsrc_node_port_use_buffers (SpaNode *node, SpaDirection direction, uint32_t port_id, SpaBuffer **buffers, uint32_t n_buffers) { SpaAudioTestSrc *this; uint32_t i; spa_return_val_if_fail (node != NULL, SPA_RESULT_INVALID_ARGUMENTS); this = SPA_CONTAINER_OF (node, SpaAudioTestSrc, node); spa_return_val_if_fail (CHECK_PORT (this, direction, port_id), SPA_RESULT_INVALID_PORT); if (!this->have_format) return SPA_RESULT_NO_FORMAT; clear_buffers (this); for (i = 0; i < n_buffers; i++) { ATSBuffer *b; SpaData *d = buffers[i]->datas; b = &this->buffers[i]; b->outbuf = buffers[i]; b->outstanding = false; b->h = spa_buffer_find_meta (buffers[i], SPA_META_TYPE_HEADER); switch (d[0].type) { case SPA_DATA_TYPE_MEMPTR: case SPA_DATA_TYPE_MEMFD: case SPA_DATA_TYPE_DMABUF: if (d[0].data == NULL) { spa_log_error (this->log, "audiotestsrc %p: invalid memory on buffer %p", this, buffers[i]); continue; } break; default: break; } spa_list_insert (this->empty.prev, &b->link); } this->n_buffers = n_buffers; return SPA_RESULT_OK; } static SpaResult spa_audiotestsrc_node_port_alloc_buffers (SpaNode *node, SpaDirection direction, uint32_t port_id, SpaAllocParam **params, uint32_t n_params, SpaBuffer **buffers, uint32_t *n_buffers) { SpaAudioTestSrc *this; spa_return_val_if_fail (node != NULL, SPA_RESULT_INVALID_ARGUMENTS); this = SPA_CONTAINER_OF (node, SpaAudioTestSrc, node); spa_return_val_if_fail (CHECK_PORT (this, direction, port_id), SPA_RESULT_INVALID_PORT); if (!this->have_format) return SPA_RESULT_NO_FORMAT; return SPA_RESULT_NOT_IMPLEMENTED; } static SpaResult spa_audiotestsrc_node_port_set_io (SpaNode *node, SpaDirection direction, uint32_t port_id, SpaPortIO *io) { SpaAudioTestSrc *this; spa_return_val_if_fail (node != NULL, SPA_RESULT_INVALID_ARGUMENTS); this = SPA_CONTAINER_OF (node, SpaAudioTestSrc, node); spa_return_val_if_fail (CHECK_PORT (this, direction, port_id), SPA_RESULT_INVALID_PORT); this->io = io; return SPA_RESULT_OK; } static inline void reuse_buffer (SpaAudioTestSrc *this, uint32_t id) { ATSBuffer *b = &this->buffers[id]; spa_return_if_fail (b->outstanding); spa_log_trace (this->log, "audiotestsrc %p: reuse buffer %d", this, id); b->outstanding = false; spa_list_insert (this->empty.prev, &b->link); if (!this->props.live) set_timer (this, true); } static SpaResult spa_audiotestsrc_node_port_reuse_buffer (SpaNode *node, uint32_t port_id, uint32_t buffer_id) { SpaAudioTestSrc *this; spa_return_val_if_fail (node != NULL, SPA_RESULT_INVALID_ARGUMENTS); this = SPA_CONTAINER_OF (node, SpaAudioTestSrc, node); spa_return_val_if_fail (port_id == 0, SPA_RESULT_INVALID_PORT); spa_return_val_if_fail (this->n_buffers > 0, SPA_RESULT_NO_BUFFERS); spa_return_val_if_fail (buffer_id < this->n_buffers, SPA_RESULT_INVALID_BUFFER_ID); reuse_buffer (this, buffer_id); return SPA_RESULT_OK; } static SpaResult spa_audiotestsrc_node_port_send_command (SpaNode *node, SpaDirection direction, uint32_t port_id, SpaCommand *command) { return SPA_RESULT_NOT_IMPLEMENTED; } static SpaResult spa_audiotestsrc_node_process_input (SpaNode *node) { return SPA_RESULT_NOT_IMPLEMENTED; } static SpaResult spa_audiotestsrc_node_process_output (SpaNode *node) { SpaAudioTestSrc *this; spa_return_val_if_fail (node != NULL, SPA_RESULT_INVALID_ARGUMENTS); this = SPA_CONTAINER_OF (node, SpaAudioTestSrc, node); if (this->io && this->io->buffer_id != SPA_ID_INVALID) { reuse_buffer (this, this->io->buffer_id); this->io->buffer_id = SPA_ID_INVALID; } if (!this->async) return audiotestsrc_make_buffer (this); else return SPA_RESULT_OK; } static const SpaNode audiotestsrc_node = { sizeof (SpaNode), NULL, spa_audiotestsrc_node_get_props, spa_audiotestsrc_node_set_props, spa_audiotestsrc_node_send_command, spa_audiotestsrc_node_set_event_callback, spa_audiotestsrc_node_get_n_ports, spa_audiotestsrc_node_get_port_ids, spa_audiotestsrc_node_add_port, spa_audiotestsrc_node_remove_port, spa_audiotestsrc_node_port_enum_formats, spa_audiotestsrc_node_port_set_format, spa_audiotestsrc_node_port_get_format, spa_audiotestsrc_node_port_get_info, spa_audiotestsrc_node_port_get_props, spa_audiotestsrc_node_port_set_props, spa_audiotestsrc_node_port_use_buffers, spa_audiotestsrc_node_port_alloc_buffers, spa_audiotestsrc_node_port_set_io, spa_audiotestsrc_node_port_reuse_buffer, spa_audiotestsrc_node_port_send_command, spa_audiotestsrc_node_process_input, spa_audiotestsrc_node_process_output, }; static SpaResult spa_audiotestsrc_clock_get_props (SpaClock *clock, SpaProps **props) { return SPA_RESULT_NOT_IMPLEMENTED; } static SpaResult spa_audiotestsrc_clock_set_props (SpaClock *clock, const SpaProps *props) { return SPA_RESULT_NOT_IMPLEMENTED; } static SpaResult spa_audiotestsrc_clock_get_time (SpaClock *clock, int32_t *rate, int64_t *ticks, int64_t *monotonic_time) { struct timespec now; uint64_t tnow; spa_return_val_if_fail (clock != NULL, SPA_RESULT_INVALID_ARGUMENTS); if (rate) *rate = SPA_NSEC_PER_SEC; clock_gettime (CLOCK_MONOTONIC, &now); tnow = SPA_TIMESPEC_TO_TIME (&now); if (ticks) *ticks = tnow; if (monotonic_time) *monotonic_time = tnow; return SPA_RESULT_OK; } static const SpaClock audiotestsrc_clock = { sizeof (SpaClock), NULL, SPA_CLOCK_STATE_STOPPED, spa_audiotestsrc_clock_get_props, spa_audiotestsrc_clock_set_props, spa_audiotestsrc_clock_get_time, }; static SpaResult spa_audiotestsrc_get_interface (SpaHandle *handle, uint32_t interface_id, void **interface) { SpaAudioTestSrc *this; spa_return_val_if_fail (handle != NULL, SPA_RESULT_INVALID_ARGUMENTS); spa_return_val_if_fail (interface != NULL, SPA_RESULT_INVALID_ARGUMENTS); this = (SpaAudioTestSrc *) handle; if (interface_id == this->type.node) *interface = &this->node; else if (interface_id == this->type.clock) *interface = &this->clock; else return SPA_RESULT_UNKNOWN_INTERFACE; return SPA_RESULT_OK; } static SpaResult audiotestsrc_clear (SpaHandle *handle) { SpaAudioTestSrc *this; spa_return_val_if_fail (handle != NULL, SPA_RESULT_INVALID_ARGUMENTS); this = (SpaAudioTestSrc *) handle; if (this->data_loop) spa_loop_remove_source (this->data_loop, &this->timer_source); close (this->timer_source.fd); return SPA_RESULT_OK; } static SpaResult audiotestsrc_init (const SpaHandleFactory *factory, SpaHandle *handle, const SpaDict *info, const SpaSupport *support, uint32_t n_support) { SpaAudioTestSrc *this; uint32_t i; const char *str; spa_return_val_if_fail (factory != NULL, SPA_RESULT_INVALID_ARGUMENTS); spa_return_val_if_fail (handle != NULL, SPA_RESULT_INVALID_ARGUMENTS); handle->get_interface = spa_audiotestsrc_get_interface; handle->clear = audiotestsrc_clear; this = (SpaAudioTestSrc *) handle; if (info && (str = spa_dict_lookup (info, "asynchronous"))) this->async = atoi (str) == 1; else this->async = false; for (i = 0; i < n_support; i++) { if (strcmp (support[i].type, SPA_TYPE__TypeMap) == 0) this->map = support[i].data; else if (strcmp (support[i].type, SPA_TYPE__Log) == 0) this->log = support[i].data; else if (strcmp (support[i].type, SPA_TYPE_LOOP__DataLoop) == 0) this->data_loop = support[i].data; } if (this->map == NULL) { spa_log_error (this->log, "a type-map is needed"); return SPA_RESULT_ERROR; } if (this->data_loop == NULL && this->async) { spa_log_error (this->log, "a data_loop is needed"); return SPA_RESULT_ERROR; } init_type (&this->type, this->map); this->node = audiotestsrc_node; this->clock = audiotestsrc_clock; reset_audiotestsrc_props (this, &this->props); spa_list_init (&this->empty); this->timer_source.func = audiotestsrc_on_output; this->timer_source.data = this; this->timer_source.fd = timerfd_create (CLOCK_MONOTONIC, TFD_CLOEXEC); this->timer_source.mask = SPA_IO_IN; this->timer_source.rmask = 0; this->timerspec.it_value.tv_sec = 0; this->timerspec.it_value.tv_nsec = 0; this->timerspec.it_interval.tv_sec = 0; this->timerspec.it_interval.tv_nsec = 0; if (this->data_loop) spa_loop_add_source (this->data_loop, &this->timer_source); this->info.flags = SPA_PORT_INFO_FLAG_CAN_USE_BUFFERS | SPA_PORT_INFO_FLAG_NO_REF; if (this->props.live) this->info.flags |= SPA_PORT_INFO_FLAG_LIVE; spa_log_info (this->log, "audiotestsrc %p: initialized, async=%d", this, this->async); return SPA_RESULT_OK; } static const SpaInterfaceInfo audiotestsrc_interfaces[] = { { SPA_TYPE__Node, }, { SPA_TYPE__Clock, }, }; static SpaResult audiotestsrc_enum_interface_info (const SpaHandleFactory *factory, const SpaInterfaceInfo **info, uint32_t index) { spa_return_val_if_fail (factory != NULL, SPA_RESULT_INVALID_ARGUMENTS); spa_return_val_if_fail (info != NULL, SPA_RESULT_INVALID_ARGUMENTS); switch (index) { case 0: *info = &audiotestsrc_interfaces[index]; break; default: return SPA_RESULT_ENUM_END; } return SPA_RESULT_OK; } const SpaHandleFactory spa_audiotestsrc_factory = { "audiotestsrc", NULL, sizeof (SpaAudioTestSrc), audiotestsrc_init, audiotestsrc_enum_interface_info, };