/* PipeWire * Copyright (C) 2018 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 "core-format.h" #include "internal.h" #define MIN_QUEUED 1 #define MAX_SIZE (4*1024*1024) #define BLOCK_SIZE (64*1024) static void dump_buffer_attr(pa_stream *s, pa_buffer_attr *attr) { pw_log_debug("stream %p: maxlength: %u", s, attr->maxlength); pw_log_debug("stream %p: tlength: %u", s, attr->tlength); pw_log_debug("stream %p: minreq: %u", s, attr->minreq); pw_log_debug("stream %p: prebuf: %u", s, attr->prebuf); pw_log_debug("stream %p: fragsize: %u", s, attr->fragsize); } static void configure_buffers(pa_stream *s) { s->buffer_attr.maxlength = MAX_SIZE; if (s->buffer_attr.prebuf == (uint32_t)-1) s->buffer_attr.prebuf = s->buffer_attr.minreq; s->buffer_attr.fragsize = s->buffer_attr.minreq; dump_buffer_attr(s, &s->buffer_attr); } static void configure_device(pa_stream *s) { struct global *g; const char *str; g = pa_context_find_linked(s->context, pa_stream_get_index(s)); if (g == NULL) { s->device_index = PA_INVALID_INDEX; s->device_name = NULL; } else { if (s->direction == PA_STREAM_RECORD) { if (g->mask == (PA_SUBSCRIPTION_MASK_SINK | PA_SUBSCRIPTION_MASK_SOURCE)) s->device_index = g->node_info.monitor; else s->device_index = g->id; } else { s->device_index = g->id; } if ((str = pw_properties_get(g->props, PW_KEY_NODE_NAME)) == NULL) s->device_name = strdup("unknown"); else s->device_name = strdup(str); } pw_log_debug("stream %p: linked to %d '%s'", s, s->device_index, s->device_name); } static void stream_destroy(void *data) { pa_stream *s = data; s->stream = NULL; } static void stream_state_changed(void *data, enum pw_stream_state old, enum pw_stream_state state, const char *error) { pa_stream *s = data; pa_context *c = s->context; pw_log_debug("stream %p: state '%s'->'%s' (%d)", s, pw_stream_state_as_string(old), pw_stream_state_as_string(state), s->state); if (s->state == PA_STREAM_TERMINATED || c == NULL) return; switch(state) { case PW_STREAM_STATE_ERROR: pa_stream_set_state(s, PA_STREAM_FAILED); break; case PW_STREAM_STATE_UNCONNECTED: if (!s->disconnecting) { pa_context_set_error(c, PA_ERR_KILLED); pa_stream_set_state(s, PA_STREAM_FAILED); } break; case PW_STREAM_STATE_CONNECTING: pa_stream_set_state(s, PA_STREAM_CREATING); break; case PW_STREAM_STATE_PAUSED: if (!s->suspended && !c->disconnect && s->suspended_callback) { s->suspended_callback(s, s->suspended_userdata); } s->suspended = true; break; case PW_STREAM_STATE_STREAMING: if (s->suspended && !c->disconnect && s->suspended_callback) { s->suspended_callback(s, s->suspended_userdata); } s->suspended = false; configure_device(s); configure_buffers(s); pa_stream_set_state(s, PA_STREAM_READY); break; } } static const struct spa_pod *get_buffers_param(pa_stream *s, pa_buffer_attr *attr, struct spa_pod_builder *b) { const struct spa_pod *param; uint32_t blocks, buffers, size, maxsize, stride; blocks = 1; stride = pa_frame_size(&s->sample_spec); if (attr->tlength == (uint32_t)-1 || attr->tlength == 0) maxsize = 1024; else maxsize = (attr->tlength / stride); if (attr->minreq == (uint32_t)-1 || attr->minreq == 0) size = maxsize; else size = SPA_MIN(attr->minreq / stride, maxsize); if (attr->maxlength == (uint32_t)-1) buffers = 3; else buffers = SPA_CLAMP(attr->maxlength / (size * stride), 3u, MAX_BUFFERS); pw_log_debug("stream %p: stride %d maxsize %d size %u buffers %d", s, stride, maxsize, size, buffers); param = spa_pod_builder_add_object(b, SPA_TYPE_OBJECT_ParamBuffers, SPA_PARAM_Buffers, SPA_PARAM_BUFFERS_buffers, SPA_POD_CHOICE_RANGE_Int(buffers, buffers, MAX_BUFFERS), SPA_PARAM_BUFFERS_blocks, SPA_POD_Int(blocks), SPA_PARAM_BUFFERS_size, SPA_POD_CHOICE_RANGE_Int( size * stride, size * stride, maxsize * stride), SPA_PARAM_BUFFERS_stride, SPA_POD_Int(stride), SPA_PARAM_BUFFERS_align, SPA_POD_Int(16)); return param; } static void patch_buffer_attr(pa_stream *s, pa_buffer_attr *attr, pa_stream_flags_t *flags) { const char *e, *str; char buf[100]; pa_assert(s); pa_assert(attr); e = getenv("PULSE_LATENCY_MSEC"); if (e == NULL) { str = getenv("PIPEWIRE_LATENCY"); if (str) { int num, denom; if (sscanf(str, "%u/%u", &num, &denom) == 2 && denom != 0) { snprintf(buf, sizeof(buf)-1, PRIu64, num * PA_MSEC_PER_SEC / denom); e = buf; } } } if (e) { uint32_t ms; pa_sample_spec ss; pa_sample_spec_init(&ss); if (pa_sample_spec_valid(&s->sample_spec)) ss = s->sample_spec; else if (s->n_formats == 1) pa_format_info_to_sample_spec(s->req_formats[0], &ss, NULL); if ((ms = atoi(e)) == 0) { pa_log_debug("Failed to parse $PULSE_LATENCY_MSEC: %s", e); } else if (!pa_sample_spec_valid(&ss)) { pa_log_debug("Ignoring $PULSE_LATENCY_MSEC: %s (invalid sample spec)", e); } else { attr->maxlength = (uint32_t) -1; attr->tlength = pa_usec_to_bytes(ms * PA_USEC_PER_MSEC, &ss); attr->minreq = (uint32_t) -1; attr->prebuf = (uint32_t) -1; attr->fragsize = attr->tlength; if (flags) *flags |= PA_STREAM_ADJUST_LATENCY; } } if (attr->maxlength == (uint32_t) -1) attr->maxlength = MAX_SIZE; /* 4MB is the maximum queue length PulseAudio <= 0.9.9 supported. */ if (attr->tlength == (uint32_t) -1) attr->tlength = (uint32_t) pa_usec_to_bytes(250*PA_USEC_PER_MSEC, &s->sample_spec); /* 250ms of buffering */ if (attr->minreq == (uint32_t) -1) attr->minreq = attr->tlength; /* Ask for more data when there are only 200ms left in the playback buffer */ if (attr->prebuf == (uint32_t) -1) attr->prebuf = attr->tlength; /* Start to play only when the playback is fully filled up once */ if (attr->fragsize == (uint32_t) -1) attr->fragsize = attr->tlength; /* Pass data to the app only when the buffer is filled up once */ dump_buffer_attr(s, attr); } static void stream_param_changed(void *data, uint32_t id, const struct spa_pod *param) { pa_stream *s = data; const struct spa_pod *params[4]; uint32_t n_params = 0; uint8_t buffer[4096]; struct spa_pod_builder b = SPA_POD_BUILDER_INIT(buffer, sizeof(buffer)); int res; if (param == NULL || id != SPA_PARAM_Format) return; if ((res = pa_format_parse_param(param, &s->sample_spec, &s->channel_map)) < 0) { pw_stream_set_error(s->stream, res, "unhandled format"); return; } if (s->format) pa_format_info_free(s->format); s->format = pa_format_info_from_sample_spec(&s->sample_spec, &s->channel_map); patch_buffer_attr(s, &s->buffer_attr, NULL); params[n_params++] = get_buffers_param(s, &s->buffer_attr, &b); pw_stream_update_params(s->stream, params, n_params); } static void stream_control_info(void *data, uint32_t id, const struct pw_stream_control *control) { pa_stream *s = data; pw_log_debug("stream %p: control %d", s, id); switch (id) { case SPA_PROP_mute: if (control->n_values > 0) s->mute = control->values[0] >= 0.5f; break; case SPA_PROP_channelVolumes: s->n_channel_volumes = SPA_MAX(SPA_AUDIO_MAX_CHANNELS, control->n_values); memcpy(s->channel_volumes, control->values, s->n_channel_volumes * sizeof(float)); break; default: break; } } static void stream_add_buffer(void *data, struct pw_buffer *buffer) { pa_stream *s = data; buffer->size = buffer->buffer->datas[0].maxsize; s->maxsize += buffer->size; s->maxblock = SPA_MIN(buffer->size, s->maxblock); } static void stream_remove_buffer(void *data, struct pw_buffer *buffer) { pa_stream *s = data; struct pa_mem *m = buffer->user_data; s->maxsize -= buffer->buffer->datas[0].maxsize; s->maxblock = INT_MAX; if (m != NULL) { spa_list_append(&s->free, &m->link); m->user_data = NULL; buffer->user_data = NULL; pw_log_trace("remove %p", m); } } static void update_timing_info(pa_stream *s) { struct pw_time pwt; pa_timing_info *ti = &s->timing_info; size_t stride = pa_frame_size(&s->sample_spec); int64_t delay, pos; pw_stream_get_time(s->stream, &pwt); s->timing_info_valid = false; pa_timeval_store(&ti->timestamp, pwt.now / SPA_NSEC_PER_USEC); ti->synchronized_clocks = true; ti->transport_usec = 0; ti->playing = 1; ti->write_index_corrupt = false; ti->read_index_corrupt = false; if (pwt.rate.denom > 0) { if (!s->have_time) s->ticks_base = pwt.ticks + pwt.delay; if (pwt.ticks > s->ticks_base) pos = ((pwt.ticks - s->ticks_base) * s->sample_spec.rate / pwt.rate.denom) * stride; else pos = 0; delay = pwt.delay * SPA_USEC_PER_SEC / pwt.rate.denom; s->have_time = true; } else { pos = delay = 0; s->have_time = false; } if (s->direction == PA_STREAM_PLAYBACK) { ti->sink_usec = delay; ti->configured_sink_usec = delay; ti->read_index = pos; } else { ti->source_usec = delay; ti->configured_source_usec = delay; ti->write_index = pos; } ti->since_underrun = 0; s->timing_info_valid = true; s->queued_bytes = pwt.queued; pw_log_debug("stream %p: %"PRIu64" rate:%d/%d ticks:%"PRIu64" pos:%"PRIu64" delay:%"PRIi64 " read:%"PRIu64 " write:%"PRIu64" queued:%"PRIi64, s, pwt.queued, s->sample_spec.rate, pwt.rate.denom, pwt.ticks, pos, delay, ti->read_index, ti->write_index, ti->read_index - ti->write_index); } static void queue_output(pa_stream *s) { struct pa_mem *m, *t, *old; struct pw_buffer *buf; spa_list_for_each_safe(m, t, &s->ready, link) { buf = pw_stream_dequeue_buffer(s->stream); if (buf == NULL) break; if ((old = buf->user_data) != NULL) { pw_log_trace("queue %p", old); spa_list_append(&s->free, &old->link); old->user_data = NULL; } pw_log_trace("queue %p", m); spa_list_remove(&m->link); s->ready_bytes -= m->size; buf->buffer->datas[0].maxsize = m->maxsize; buf->buffer->datas[0].data = m->data; buf->buffer->datas[0].chunk->offset = m->offset; buf->buffer->datas[0].chunk->size = m->size; buf->user_data = m; m->user_data = buf; pw_stream_queue_buffer(s->stream, buf); } } struct pa_mem *alloc_mem(pa_stream *s, size_t len) { struct pa_mem *m; if (spa_list_is_empty(&s->free)) { if (len > s->maxblock) len = s->maxblock; m = calloc(1, sizeof(struct pa_mem) + len); if (m == NULL) return NULL; m->data = SPA_MEMBER(m, sizeof(struct pa_mem), void); m->maxsize = len; pw_log_trace("alloc %p", m); } else { m = spa_list_first(&s->free, struct pa_mem, link); spa_list_remove(&m->link); pw_log_trace("reuse %p", m); } return m; } static void pull_input(pa_stream *s) { struct pw_buffer *buf; struct pa_mem *m; while ((buf = pw_stream_dequeue_buffer(s->stream)) != NULL) { if ((m = alloc_mem(s, 0)) == NULL) { pw_log_error("stream %p: Can't alloc mem: %m", s); pw_stream_queue_buffer(s->stream, buf); continue; } m->data = buf->buffer->datas[0].data; m->maxsize = buf->buffer->datas[0].maxsize; m->offset = buf->buffer->datas[0].chunk->offset; m->size = buf->buffer->datas[0].chunk->size; m->user_data = buf; buf->user_data = m; pw_log_trace("input %p", m); spa_list_append(&s->ready, &m->link); s->ready_bytes += m->size; } } static void stream_process(void *data) { pa_stream *s = data; pw_log_trace("stream %p:", s); update_timing_info(s); if (s->direction == PA_STREAM_PLAYBACK) { pa_timing_info *i = &s->timing_info; uint64_t queued, writable; queue_output(s); queued = i->write_index - SPA_MIN(i->read_index, i->write_index); writable = s->maxblock - SPA_MIN(queued, s->maxblock); if (s->write_callback && s->state == PA_STREAM_READY && writable > 0) s->write_callback(s, writable, s->write_userdata); } else { pull_input(s); if (s->read_callback && s->ready_bytes > 0 && s->state == PA_STREAM_READY) s->read_callback(s, s->ready_bytes, s->read_userdata); } } static void stream_drained(void *data) { pa_stream *s = data; if (s->drain) { pa_operation *o = s->drain; pa_operation_ref(o); if (o->callback) o->callback(o, o->userdata); pa_operation_unref(o); s->drain = NULL; } } static const struct pw_stream_events stream_events = { PW_VERSION_STREAM_EVENTS, .destroy = stream_destroy, .state_changed = stream_state_changed, .param_changed = stream_param_changed, .control_info = stream_control_info, .add_buffer = stream_add_buffer, .remove_buffer = stream_remove_buffer, .process = stream_process, .drained = stream_drained, }; static pa_stream* stream_new(pa_context *c, const char *name, const pa_sample_spec *ss, const pa_channel_map *map, pa_format_info * const * formats, unsigned int n_formats, pa_proplist *p) { pa_stream *s; char str[1024]; unsigned int i; spa_assert(c); spa_assert(c->refcount >= 1); pa_assert((ss == NULL && map == NULL) || (formats == NULL && n_formats == 0)); pa_assert(n_formats < PA_MAX_FORMATS); PA_CHECK_VALIDITY_RETURN_NULL(c, name || (p && pa_proplist_contains(p, PA_PROP_MEDIA_NAME)), PA_ERR_INVALID); s = calloc(1, sizeof(pa_stream)); if (s == NULL) return NULL; s->proplist = p ? pa_proplist_copy(p) : pa_proplist_new(); if (name) pa_proplist_sets(s->proplist, PA_PROP_MEDIA_NAME, name); else name = pa_proplist_gets(s->proplist, PA_PROP_MEDIA_NAME); s->refcount = 1; s->context = c; spa_list_init(&s->free); spa_list_init(&s->ready); s->direction = PA_STREAM_NODIRECTION; s->state = PA_STREAM_UNCONNECTED; s->flags = 0; s->have_time = false; if (ss) s->sample_spec = *ss; else pa_sample_spec_init(&s->sample_spec); if (map) s->channel_map = *map; else pa_channel_map_init(&s->channel_map); pw_log_debug("channel map: %p %s", map, pa_channel_map_snprint(str, sizeof(str), &s->channel_map)); s->n_formats = 0; if (formats) { s->n_formats = n_formats; for (i = 0; i < n_formats; i++) s->req_formats[i] = pa_format_info_copy(formats[i]); } s->format = NULL; s->direct_on_input = PA_INVALID_INDEX; s->stream_index = PA_INVALID_INDEX; s->buffer_attr.maxlength = (uint32_t) -1; if (ss) s->buffer_attr.tlength = (uint32_t) pa_usec_to_bytes(250*PA_USEC_PER_MSEC, ss); /* 250ms of buffering */ else { /* FIXME: We assume a worst-case compressed format corresponding to * 48000 Hz, 2 ch, S16 PCM, but this can very well be incorrect */ pa_sample_spec tmp_ss = { .format = PA_SAMPLE_S16NE, .rate = 48000, .channels = 2, }; s->buffer_attr.tlength = (uint32_t) pa_usec_to_bytes(250*PA_USEC_PER_MSEC, &tmp_ss); /* 250ms of buffering */ } s->buffer_attr.minreq = (uint32_t) -1; s->buffer_attr.prebuf = (uint32_t) -1; s->buffer_attr.fragsize = (uint32_t) -1; s->maxblock = INT_MAX; s->device_index = PA_INVALID_INDEX; s->device_name = NULL; spa_list_append(&c->streams, &s->link); pa_stream_ref(s); return s; } SPA_EXPORT pa_stream* pa_stream_new(pa_context *c, const char *name, const pa_sample_spec *ss, const pa_channel_map *map) { return stream_new(c, name, ss, map, NULL, 0, NULL); } SPA_EXPORT pa_stream* pa_stream_new_with_proplist(pa_context *c, const char *name, const pa_sample_spec *ss, const pa_channel_map *map, pa_proplist *p) { pa_channel_map tmap; if (!map) PA_CHECK_VALIDITY_RETURN_NULL(c, map = pa_channel_map_init_auto(&tmap, ss->channels, PA_CHANNEL_MAP_DEFAULT), PA_ERR_INVALID); return stream_new(c, name, ss, map, NULL, 0, p); } SPA_EXPORT pa_stream *pa_stream_new_extended(pa_context *c, const char *name, pa_format_info * const * formats, unsigned int n_formats, pa_proplist *p) { return stream_new(c, name, NULL, NULL, formats, n_formats, p); } static void stream_unlink(pa_stream *s) { pa_context *c = s->context; pa_operation *o, *t; if (c == NULL) return; pw_log_debug("stream %p: unlink %d", s, s->refcount); spa_list_for_each_safe(o, t, &c->operations, link) { if (o->stream == s) pa_operation_cancel(o); } spa_list_remove(&s->link); if (s->stream) pw_stream_set_active(s->stream, false); s->context = NULL; pa_stream_unref(s); } static void stream_free(pa_stream *s) { int i; struct pa_mem *m; pw_log_debug("stream %p", s); if (s->stream) { spa_hook_remove(&s->stream_listener); pw_stream_destroy(s->stream); } spa_list_consume(m, &s->free, link) { pw_log_trace("free %p", m); spa_list_remove(&m->link); free(m); } if (s->proplist) pa_proplist_free(s->proplist); for (i = 0; i < s->n_formats; i++) pa_format_info_free(s->req_formats[i]); if (s->format) pa_format_info_free(s->format); free(s->device_name); free(s); } SPA_EXPORT void pa_stream_unref(pa_stream *s) { spa_assert(s); spa_assert(s->refcount >= 1); pw_log_debug("stream %p: ref %d", s, s->refcount); if (--s->refcount == 0) stream_free(s); } SPA_EXPORT pa_stream *pa_stream_ref(pa_stream *s) { spa_assert(s); spa_assert(s->refcount >= 1); s->refcount++; pw_log_debug("stream %p: ref %d", s, s->refcount); return s; } SPA_EXPORT pa_stream_state_t pa_stream_get_state(PA_CONST pa_stream *s) { spa_assert(s); spa_assert(s->refcount >= 1); return s->state; } SPA_EXPORT pa_context* pa_stream_get_context(PA_CONST pa_stream *s) { spa_assert(s); spa_assert(s->refcount >= 1); return s->context; } SPA_EXPORT uint32_t pa_stream_get_index(PA_CONST pa_stream *s) { uint32_t idx; spa_assert(s); spa_assert(s->refcount >= 1); idx = s->stream ? pw_stream_get_node_id(s->stream) : PA_INVALID_INDEX; pw_log_debug("stream %p: index %u", s, idx); return idx; } void pa_stream_set_state(pa_stream *s, pa_stream_state_t st) { spa_assert(s); spa_assert(s->refcount >= 1); if (s->state == st) return; pa_stream_ref(s); pw_log_debug("stream %p: state %d -> %d", s, s->state, st); s->state = st; if (s->state_callback) s->state_callback(s, s->state_userdata); if ((st == PA_STREAM_FAILED || st == PA_STREAM_TERMINATED)) stream_unlink(s); pa_stream_unref(s); } SPA_EXPORT uint32_t pa_stream_get_device_index(PA_CONST pa_stream *s) { spa_assert(s); spa_assert(s->refcount >= 1); PA_CHECK_VALIDITY_RETURN_ANY(s->context, s->state == PA_STREAM_READY, PA_ERR_BADSTATE, PA_INVALID_INDEX); PA_CHECK_VALIDITY_RETURN_ANY(s->context, s->direction != PA_STREAM_UPLOAD, PA_ERR_BADSTATE, PA_INVALID_INDEX); PA_CHECK_VALIDITY_RETURN_ANY(s->context, s->device_index != PA_INVALID_INDEX, PA_ERR_BADSTATE, PA_INVALID_INDEX); pw_log_trace("stream %p: %d", s, s->device_index); return s->device_index; } SPA_EXPORT const char *pa_stream_get_device_name(PA_CONST pa_stream *s) { spa_assert(s); spa_assert(s->refcount >= 1); PA_CHECK_VALIDITY_RETURN_NULL(s->context, s->state == PA_STREAM_READY, PA_ERR_BADSTATE); PA_CHECK_VALIDITY_RETURN_NULL(s->context, s->direction != PA_STREAM_UPLOAD, PA_ERR_BADSTATE); PA_CHECK_VALIDITY_RETURN_NULL(s->context, s->device_name, PA_ERR_BADSTATE); pw_log_trace("stream %p: %s %d", s, s->device_name, s->device_index); return s->device_name; } SPA_EXPORT int pa_stream_is_suspended(PA_CONST pa_stream *s) { spa_assert(s); spa_assert(s->refcount >= 1); PA_CHECK_VALIDITY(s->context, s->state == PA_STREAM_READY, PA_ERR_BADSTATE); PA_CHECK_VALIDITY(s->context, s->direction != PA_STREAM_UPLOAD, PA_ERR_BADSTATE); return s->suspended; } SPA_EXPORT int pa_stream_is_corked(PA_CONST pa_stream *s) { spa_assert(s); spa_assert(s->refcount >= 1); PA_CHECK_VALIDITY(s->context, s->state == PA_STREAM_READY, PA_ERR_BADSTATE); PA_CHECK_VALIDITY(s->context, s->direction != PA_STREAM_UPLOAD, PA_ERR_BADSTATE); pw_log_trace("stream %p: corked %d", s, s->corked); return s->corked; } static int create_stream(pa_stream_direction_t direction, pa_stream *s, const char *dev, const pa_buffer_attr *attr, pa_stream_flags_t flags, const pa_cvolume *volume, pa_stream *sync_stream) { int res; enum pw_stream_flags fl; const struct spa_pod *params[16]; uint32_t i, n_params = 0; uint8_t buffer[4096]; struct spa_pod_builder b = SPA_POD_BUILDER_INIT(buffer, sizeof(buffer)); uint32_t sample_rate = 0, stride = 0, latency_num; const char *str; uint32_t devid, n_items; struct global *g; struct spa_dict_item items[7]; char latency[64]; bool monitor, no_remix; const char *name; pa_context *c = s->context; spa_assert(s); spa_assert(s->refcount >= 1); spa_assert(direction == PA_STREAM_PLAYBACK || direction == PA_STREAM_RECORD); PA_CHECK_VALIDITY(s->context, s->state == PA_STREAM_UNCONNECTED, PA_ERR_BADSTATE); PA_CHECK_VALIDITY(s->context, s->direct_on_input == PA_INVALID_INDEX || direction == PA_STREAM_RECORD, PA_ERR_BADSTATE); PA_CHECK_VALIDITY(s->context, !(flags & ~(PA_STREAM_START_CORKED| PA_STREAM_INTERPOLATE_TIMING| PA_STREAM_NOT_MONOTONIC| PA_STREAM_AUTO_TIMING_UPDATE| PA_STREAM_NO_REMAP_CHANNELS| PA_STREAM_NO_REMIX_CHANNELS| PA_STREAM_FIX_FORMAT| PA_STREAM_FIX_RATE| PA_STREAM_FIX_CHANNELS| PA_STREAM_DONT_MOVE| PA_STREAM_VARIABLE_RATE| PA_STREAM_PEAK_DETECT| PA_STREAM_START_MUTED| PA_STREAM_ADJUST_LATENCY| PA_STREAM_EARLY_REQUESTS| PA_STREAM_DONT_INHIBIT_AUTO_SUSPEND| PA_STREAM_START_UNMUTED| PA_STREAM_FAIL_ON_SUSPEND| PA_STREAM_RELATIVE_VOLUME| PA_STREAM_PASSTHROUGH)), PA_ERR_INVALID); PA_CHECK_VALIDITY(s->context, s->context->state == PA_CONTEXT_READY, PA_ERR_BADSTATE); PA_CHECK_VALIDITY(s->context, direction == PA_STREAM_RECORD || !(flags & (PA_STREAM_PEAK_DETECT)), PA_ERR_INVALID); PA_CHECK_VALIDITY(s->context, !sync_stream || (direction == PA_STREAM_PLAYBACK && sync_stream->direction == PA_STREAM_PLAYBACK), PA_ERR_INVALID); PA_CHECK_VALIDITY(s->context, (flags & (PA_STREAM_ADJUST_LATENCY|PA_STREAM_EARLY_REQUESTS)) != (PA_STREAM_ADJUST_LATENCY|PA_STREAM_EARLY_REQUESTS), PA_ERR_INVALID); pw_log_info("stream %p: connect %s %08x", s, dev, flags); name = pa_proplist_gets(s->proplist, PA_PROP_MEDIA_NAME); s->stream = pw_stream_new(c->core, name, pw_properties_copy(c->props)); pw_stream_add_listener(s->stream, &s->stream_listener, &stream_events, s); s->direction = direction; s->timing_info_valid = false; s->disconnecting = false; if (volume) { for (i = 0; i < volume->channels; i++) s->channel_volumes[i] = volume->values[i] / (float) PA_VOLUME_NORM; s->n_channel_volumes = volume->channels; } else { for (i = 0; i < SPA_AUDIO_MAX_CHANNELS; i++) s->channel_volumes[i] = 1.0; s->n_channel_volumes = 0; } s->mute = false; pa_stream_set_state(s, PA_STREAM_CREATING); fl = PW_STREAM_FLAG_AUTOCONNECT | PW_STREAM_FLAG_MAP_BUFFERS; s->corked = SPA_FLAG_IS_SET(flags, PA_STREAM_START_CORKED); if (s->corked) fl |= PW_STREAM_FLAG_INACTIVE; if (flags & PA_STREAM_PASSTHROUGH) fl |= PW_STREAM_FLAG_EXCLUSIVE; if (flags & PA_STREAM_DONT_MOVE) fl |= PW_STREAM_FLAG_DONT_RECONNECT; monitor = (flags & PA_STREAM_PEAK_DETECT); no_remix = (flags & PA_STREAM_NO_REMIX_CHANNELS); if (pa_sample_spec_valid(&s->sample_spec)) { params[n_params++] = pa_format_build_param(&b, SPA_PARAM_EnumFormat, &s->sample_spec, &s->channel_map); sample_rate = s->sample_spec.rate; stride = pa_frame_size(&s->sample_spec); } else { pa_sample_spec ss; pa_channel_map chmap; int i; for (i = 0; i < s->n_formats; i++) { if ((res = pa_format_info_to_sample_spec(s->req_formats[i], &ss, NULL)) < 0) { char buf[4096]; pw_log_warn("can't convert format %d %s", res, pa_format_info_snprint(buf,4096,s->req_formats[i])); continue; } if (pa_format_info_get_channel_map(s->req_formats[i], &chmap) < 0) pa_channel_map_init_auto(&chmap, ss.channels, PA_CHANNEL_MAP_DEFAULT); params[n_params++] = pa_format_build_param(&b, SPA_PARAM_EnumFormat, &ss, &chmap); if (ss.rate > sample_rate) { sample_rate = ss.rate; stride = pa_frame_size(&ss); } } } if (sample_rate == 0) { sample_rate = 48000; stride = sizeof(int16_t) * 2; } if (attr) s->buffer_attr = *attr; patch_buffer_attr(s, &s->buffer_attr, &flags); if (direction == PA_STREAM_RECORD) devid = s->direct_on_input; else devid = PW_ID_ANY; if (dev == NULL) { if ((str = getenv("PIPEWIRE_NODE")) != NULL) devid = atoi(str); } else if (devid == PW_ID_ANY) { uint32_t mask; if (direction == PA_STREAM_PLAYBACK) mask = PA_SUBSCRIPTION_MASK_SINK; else if (direction == PA_STREAM_RECORD) mask = PA_SUBSCRIPTION_MASK_SOURCE; else mask = 0; if ((g = pa_context_find_global_by_name(s->context, mask, dev)) != NULL) devid = g->id; else if ((devid = atoi(dev)) == 0) devid = PW_ID_ANY; } if ((str = pa_proplist_gets(s->proplist, PA_PROP_MEDIA_ROLE)) == NULL) str = "Music"; else if (strcmp(str, "video") == 0) str = "Movie"; else if (strcmp(str, "music") == 0) str = "Music"; else if (strcmp(str, "game") == 0) str = "Game"; else if (strcmp(str, "event") == 0) str = "Notification"; else if (strcmp(str, "phone") == 0) str = "Communication"; else if (strcmp(str, "animation") == 0) str = "Movie"; else if (strcmp(str, "production") == 0) str = "Production"; else if (strcmp(str, "a11y") == 0) str = "Accessibility"; else if (strcmp(str, "test") == 0) str = "Test"; else str = "Music"; latency_num = s->buffer_attr.minreq / stride; sprintf(latency, "%u/%u", SPA_MAX(latency_num, 1u), sample_rate); n_items = 0; items[n_items++] = SPA_DICT_ITEM_INIT(PW_KEY_NODE_LATENCY, latency); items[n_items++] = SPA_DICT_ITEM_INIT(PW_KEY_MEDIA_TYPE, "Audio"); items[n_items++] = SPA_DICT_ITEM_INIT(PW_KEY_MEDIA_CATEGORY, direction == PA_STREAM_PLAYBACK ? "Playback" : monitor ? "Monitor" : "Capture"); items[n_items++] = SPA_DICT_ITEM_INIT(PW_KEY_MEDIA_ROLE, str); if (monitor) items[n_items++] = SPA_DICT_ITEM_INIT(PW_KEY_STREAM_MONITOR, "true"); if (no_remix) items[n_items++] = SPA_DICT_ITEM_INIT(PW_KEY_STREAM_DONT_REMIX, "true"); if (devid == PW_ID_ANY && dev != NULL) items[n_items++] = SPA_DICT_ITEM_INIT(PW_KEY_NODE_TARGET, dev); pw_stream_update_properties(s->stream, &SPA_DICT_INIT(items, n_items)); res = pw_stream_connect(s->stream, direction == PA_STREAM_PLAYBACK ? PW_DIRECTION_OUTPUT : PW_DIRECTION_INPUT, devid, fl, params, n_params); return res; } SPA_EXPORT int pa_stream_connect_playback( pa_stream *s, const char *dev, const pa_buffer_attr *attr, pa_stream_flags_t flags, const pa_cvolume *volume, pa_stream *sync_stream) { return create_stream(PA_STREAM_PLAYBACK, s, dev, attr, flags, volume, sync_stream); } SPA_EXPORT int pa_stream_connect_record( pa_stream *s, const char *dev, const pa_buffer_attr *attr, pa_stream_flags_t flags) { return create_stream(PA_STREAM_RECORD, s, dev, attr, flags, NULL, NULL); } static void on_disconnected(pa_operation *o, void *userdata) { pa_stream *s = o->stream; pw_log_debug("stream %p", s); pa_stream_set_state(s, PA_STREAM_TERMINATED); } SPA_EXPORT int pa_stream_disconnect(pa_stream *s) { pa_operation *o; pa_context *c = s->context; spa_assert(s); spa_assert(s->refcount >= 1); PA_CHECK_VALIDITY(c, c != NULL, PA_ERR_BADSTATE); PA_CHECK_VALIDITY(c, c->state == PA_CONTEXT_READY, PA_ERR_BADSTATE); pw_log_debug("stream %p: disconnect", s); pa_stream_ref(s); s->disconnecting = true; pw_stream_disconnect(s->stream); o = pa_operation_new(c, s, on_disconnected, 0); pa_operation_sync(o); pa_operation_unref(o); pa_stream_unref(s); return 0; } SPA_EXPORT int pa_stream_begin_write( pa_stream *s, void **data, size_t *nbytes) { spa_assert(s); spa_assert(s->refcount >= 1); PA_CHECK_VALIDITY(s->context, s->state == PA_STREAM_READY, PA_ERR_BADSTATE); PA_CHECK_VALIDITY(s->context, s->direction == PA_STREAM_PLAYBACK || s->direction == PA_STREAM_UPLOAD, PA_ERR_BADSTATE); PA_CHECK_VALIDITY(s->context, data, PA_ERR_INVALID); PA_CHECK_VALIDITY(s->context, nbytes && *nbytes != 0, PA_ERR_INVALID); if (s->mem == NULL) s->mem = alloc_mem(s, *nbytes); if (s->mem == NULL) { *data = NULL; *nbytes = 0; return -errno; } s->mem->offset = s->mem->size = 0; *data = s->mem->data; *nbytes = *nbytes != (size_t)-1 ? SPA_MIN(*nbytes, s->mem->maxsize) : s->mem->maxsize; pw_log_trace("buffer %p %zd %p", *data, *nbytes, s->mem); return 0; } SPA_EXPORT int pa_stream_cancel_write(pa_stream *s) { spa_assert(s); spa_assert(s->refcount >= 1); PA_CHECK_VALIDITY(s->context, s->state == PA_STREAM_READY, PA_ERR_BADSTATE); PA_CHECK_VALIDITY(s->context, s->direction == PA_STREAM_PLAYBACK || s->direction == PA_STREAM_UPLOAD, PA_ERR_BADSTATE); if (s->mem == NULL) return 0; pw_log_trace("cancel %p %p %zd", s->mem, s->mem->data, s->mem->size); spa_list_prepend(&s->free, &s->mem->link); s->mem = NULL; return 0; } SPA_EXPORT int pa_stream_write(pa_stream *s, const void *data, size_t nbytes, pa_free_cb_t free_cb, int64_t offset, pa_seek_mode_t seek) { return pa_stream_write_ext_free(s, data, nbytes, free_cb, (void*) data, offset, seek); } SPA_EXPORT int pa_stream_write_ext_free(pa_stream *s, const void *data, size_t nbytes, pa_free_cb_t free_cb, void *free_cb_data, int64_t offset, pa_seek_mode_t seek) { const void *src = data; size_t towrite; spa_assert(s); spa_assert(s->refcount >= 1); spa_assert(data); PA_CHECK_VALIDITY(s->context, s->state == PA_STREAM_READY, PA_ERR_BADSTATE); PA_CHECK_VALIDITY(s->context, s->direction == PA_STREAM_PLAYBACK || s->direction == PA_STREAM_UPLOAD, PA_ERR_BADSTATE); PA_CHECK_VALIDITY(s->context, seek <= PA_SEEK_RELATIVE_END, PA_ERR_INVALID); PA_CHECK_VALIDITY(s->context, s->direction == PA_STREAM_PLAYBACK || (seek == PA_SEEK_RELATIVE && offset == 0), PA_ERR_INVALID); PA_CHECK_VALIDITY(s->context, s->mem == NULL || ((data >= s->mem->data) && ((const char*) data + nbytes <= (const char*) s->mem->data + s->mem->maxsize)), PA_ERR_INVALID); PA_CHECK_VALIDITY(s->context, offset % pa_frame_size(&s->sample_spec) == 0, PA_ERR_INVALID); PA_CHECK_VALIDITY(s->context, nbytes % pa_frame_size(&s->sample_spec) == 0, PA_ERR_INVALID); PA_CHECK_VALIDITY(s->context, !free_cb || !s->buffer, PA_ERR_INVALID); pw_log_trace("stream %p: write %zd bytes", s, nbytes); towrite = nbytes; while (towrite > 0) { size_t dsize = towrite; if (s->mem == NULL) { void *dst; if (pa_stream_begin_write(s, &dst, &dsize) < 0 || dst == NULL || dsize == 0) { pw_log_error("stream %p: out of buffers, wanted %zd bytes", s, nbytes); break; } memcpy(dst, src, dsize); src = SPA_MEMBER(src, dsize, void); } else { s->mem->offset = SPA_PTRDIFF(src, s->mem->data); } towrite -= dsize; s->mem->size = dsize; if (s->mem->size >= s->mem->maxsize || towrite == 0) { spa_list_append(&s->ready, &s->mem->link); s->ready_bytes += s->mem->size; s->mem = NULL; queue_output(s); } } if (free_cb) free_cb(free_cb_data); s->timing_info.write_index += nbytes; pw_log_debug("stream %p: written %zd bytes", s, nbytes); return 0; } SPA_EXPORT int pa_stream_peek(pa_stream *s, const void **data, size_t *nbytes) { spa_assert(s); spa_assert(s->refcount >= 1); spa_assert(data); spa_assert(nbytes); PA_CHECK_VALIDITY(s->context, s->state == PA_STREAM_READY, PA_ERR_BADSTATE); PA_CHECK_VALIDITY(s->context, s->direction == PA_STREAM_RECORD, PA_ERR_BADSTATE); if (spa_list_is_empty(&s->ready)) { pw_log_error("stream %p: no buffer: %m", s); *data = NULL; *nbytes = 0; return 0; } s->mem = spa_list_first(&s->ready, struct pa_mem, link); pw_log_trace("peek %p", s->mem); *data = SPA_MEMBER(s->mem->data, s->mem->offset, void); *nbytes = s->mem->size; pw_log_trace("stream %p: %p %zd", s, *data, *nbytes); return 0; } SPA_EXPORT int pa_stream_drop(pa_stream *s) { size_t nbytes; struct pw_buffer *buf; spa_assert(s); spa_assert(s->refcount >= 1); PA_CHECK_VALIDITY(s->context, s->state == PA_STREAM_READY, PA_ERR_BADSTATE); PA_CHECK_VALIDITY(s->context, s->direction == PA_STREAM_RECORD, PA_ERR_BADSTATE); PA_CHECK_VALIDITY(s->context, s->mem, PA_ERR_BADSTATE); nbytes = s->mem->size; pw_log_trace("stream %p %zd", s, nbytes); spa_list_remove(&s->mem->link); s->ready_bytes -= nbytes; s->timing_info.read_index += nbytes; buf = s->mem->user_data; pw_stream_queue_buffer(s->stream, buf); buf->user_data = NULL; pw_log_trace("drop %p", s->mem); spa_list_append(&s->free, &s->mem->link); s->mem->user_data = NULL; s->mem = NULL; return 0; } SPA_EXPORT size_t pa_stream_writable_size(PA_CONST pa_stream *s) { const pa_timing_info *i; uint64_t now, queued, writable, elapsed; struct timespec ts; spa_assert(s); spa_assert(s->refcount >= 1); PA_CHECK_VALIDITY_RETURN_ANY(s->context, s->state == PA_STREAM_READY, PA_ERR_BADSTATE, (size_t) -1); PA_CHECK_VALIDITY_RETURN_ANY(s->context, s->direction != PA_STREAM_RECORD, PA_ERR_BADSTATE, (size_t) -1); i = &s->timing_info; if (s->have_time) { clock_gettime(CLOCK_MONOTONIC, &ts); now = SPA_TIMESPEC_TO_USEC(&ts); elapsed = pa_usec_to_bytes(now - SPA_TIMEVAL_TO_USEC(&i->timestamp), &s->sample_spec); } else { elapsed = 0; } queued = i->write_index - SPA_MIN(i->read_index, i->write_index); queued -= SPA_MIN(queued, elapsed); writable = s->maxblock - SPA_MIN(queued, s->maxblock); pw_log_debug("stream %p: %"PRIu64, s, writable); return writable; } SPA_EXPORT size_t pa_stream_readable_size(PA_CONST pa_stream *s) { spa_assert(s); spa_assert(s->refcount >= 1); PA_CHECK_VALIDITY_RETURN_ANY(s->context, s->state == PA_STREAM_READY, PA_ERR_BADSTATE, (size_t) -1); PA_CHECK_VALIDITY_RETURN_ANY(s->context, s->direction == PA_STREAM_RECORD, PA_ERR_BADSTATE, (size_t) -1); pw_log_trace("stream %p: %zd", s, s->ready_bytes); return s->ready_bytes; } struct success_ack { pa_stream_success_cb_t cb; void *userdata; }; static void on_success(pa_operation *o, void *userdata) { struct success_ack *d = userdata; pa_stream *s = o->stream; pa_operation_done(o); if (d->cb) d->cb(s, 1, d->userdata); } SPA_EXPORT pa_operation* pa_stream_drain(pa_stream *s, pa_stream_success_cb_t cb, void *userdata) { pa_operation *o; struct success_ack *d; spa_assert(s); spa_assert(s->refcount >= 1); PA_CHECK_VALIDITY_RETURN_NULL(s->context, s->state == PA_STREAM_READY, PA_ERR_BADSTATE); PA_CHECK_VALIDITY_RETURN_NULL(s->context, s->direction == PA_STREAM_PLAYBACK, PA_ERR_BADSTATE); pw_log_debug("stream %p", s); pw_stream_flush(s->stream, true); o = pa_operation_new(s->context, s, on_success, sizeof(struct success_ack)); d = o->userdata; d->cb = cb; d->userdata = userdata; if (s->drain) pa_operation_cancel(s->drain); s->drain = o; return o; } static void on_timing_success(pa_operation *o, void *userdata) { struct success_ack *d = userdata; pa_stream *s = o->stream; update_timing_info(s); pa_operation_done(o); if (d->cb) d->cb(s, s->timing_info_valid, d->userdata); } SPA_EXPORT pa_operation* pa_stream_update_timing_info(pa_stream *s, pa_stream_success_cb_t cb, void *userdata) { pa_operation *o; struct success_ack *d; spa_assert(s); spa_assert(s->refcount >= 1); PA_CHECK_VALIDITY_RETURN_NULL(s->context, s->state == PA_STREAM_READY, PA_ERR_BADSTATE); PA_CHECK_VALIDITY_RETURN_NULL(s->context, s->direction != PA_STREAM_UPLOAD, PA_ERR_BADSTATE); o = pa_operation_new(s->context, s, on_timing_success, sizeof(struct success_ack)); d = o->userdata; d->cb = cb; d->userdata = userdata; pa_operation_sync(o); return o; } SPA_EXPORT void pa_stream_set_state_callback(pa_stream *s, pa_stream_notify_cb_t cb, void *userdata) { spa_assert(s); spa_assert(s->refcount >= 1); if (s->state == PA_STREAM_TERMINATED || s->state == PA_STREAM_FAILED) return; s->state_callback = cb; s->state_userdata = userdata; } SPA_EXPORT void pa_stream_set_write_callback(pa_stream *s, pa_stream_request_cb_t cb, void *userdata) { spa_assert(s); spa_assert(s->refcount >= 1); if (s->state == PA_STREAM_TERMINATED || s->state == PA_STREAM_FAILED) return; s->write_callback = cb; s->write_userdata = userdata; } SPA_EXPORT void pa_stream_set_read_callback(pa_stream *s, pa_stream_request_cb_t cb, void *userdata) { spa_assert(s); spa_assert(s->refcount >= 1); if (s->state == PA_STREAM_TERMINATED || s->state == PA_STREAM_FAILED) return; s->read_callback = cb; s->read_userdata = userdata; } SPA_EXPORT void pa_stream_set_overflow_callback(pa_stream *s, pa_stream_notify_cb_t cb, void *userdata) { spa_assert(s); spa_assert(s->refcount >= 1); if (s->state == PA_STREAM_TERMINATED || s->state == PA_STREAM_FAILED) return; s->overflow_callback = cb; s->overflow_userdata = userdata; } SPA_EXPORT int64_t pa_stream_get_underflow_index(PA_CONST pa_stream *s) { pw_log_warn("Not Implemented"); return 0; } SPA_EXPORT void pa_stream_set_underflow_callback(pa_stream *s, pa_stream_notify_cb_t cb, void *userdata) { spa_assert(s); spa_assert(s->refcount >= 1); if (s->state == PA_STREAM_TERMINATED || s->state == PA_STREAM_FAILED) return; s->underflow_callback = cb; s->underflow_userdata = userdata; } SPA_EXPORT void pa_stream_set_started_callback(pa_stream *s, pa_stream_notify_cb_t cb, void *userdata) { spa_assert(s); spa_assert(s->refcount >= 1); if (s->state == PA_STREAM_TERMINATED || s->state == PA_STREAM_FAILED) return; s->started_callback = cb; s->started_userdata = userdata; } SPA_EXPORT void pa_stream_set_latency_update_callback(pa_stream *s, pa_stream_notify_cb_t cb, void *userdata) { spa_assert(s); spa_assert(s->refcount >= 1); if (s->state == PA_STREAM_TERMINATED || s->state == PA_STREAM_FAILED) return; s->latency_update_callback = cb; s->latency_update_userdata = userdata; } SPA_EXPORT void pa_stream_set_moved_callback(pa_stream *s, pa_stream_notify_cb_t cb, void *userdata) { spa_assert(s); spa_assert(s->refcount >= 1); if (s->state == PA_STREAM_TERMINATED || s->state == PA_STREAM_FAILED) return; s->moved_callback = cb; s->moved_userdata = userdata; } SPA_EXPORT void pa_stream_set_suspended_callback(pa_stream *s, pa_stream_notify_cb_t cb, void *userdata) { spa_assert(s); spa_assert(s->refcount >= 1); if (s->state == PA_STREAM_TERMINATED || s->state == PA_STREAM_FAILED) return; s->suspended_callback = cb; s->suspended_userdata = userdata; } SPA_EXPORT void pa_stream_set_event_callback(pa_stream *s, pa_stream_event_cb_t cb, void *userdata) { spa_assert(s); spa_assert(s->refcount >= 1); if (s->state == PA_STREAM_TERMINATED || s->state == PA_STREAM_FAILED) return; s->event_callback = cb; s->event_userdata = userdata; } SPA_EXPORT void pa_stream_set_buffer_attr_callback(pa_stream *s, pa_stream_notify_cb_t cb, void *userdata) { spa_assert(s); spa_assert(s->refcount >= 1); if (s->state == PA_STREAM_TERMINATED || s->state == PA_STREAM_FAILED) return; s->buffer_attr_callback = cb; s->buffer_attr_userdata = userdata; } SPA_EXPORT pa_operation* pa_stream_cork(pa_stream *s, int b, pa_stream_success_cb_t cb, void *userdata) { pa_operation *o; struct success_ack *d; spa_assert(s); spa_assert(s->refcount >= 1); PA_CHECK_VALIDITY_RETURN_NULL(s->context, s->state == PA_STREAM_READY, PA_ERR_BADSTATE); PA_CHECK_VALIDITY_RETURN_NULL(s->context, s->direction != PA_STREAM_UPLOAD, PA_ERR_BADSTATE); pw_log_debug("stream %p: cork %d->%d", s, s->corked, b); s->corked = b; pw_stream_set_active(s->stream, !b); o = pa_operation_new(s->context, s, on_success, sizeof(struct success_ack)); d = o->userdata; d->cb = cb; d->userdata = userdata; pa_operation_sync(o); return o; } SPA_EXPORT pa_operation* pa_stream_flush(pa_stream *s, pa_stream_success_cb_t cb, void *userdata) { pa_operation *o; struct success_ack *d; struct pa_mem *m; spa_assert(s); spa_assert(s->refcount >= 1); PA_CHECK_VALIDITY_RETURN_NULL(s->context, s->state == PA_STREAM_READY, PA_ERR_BADSTATE); PA_CHECK_VALIDITY_RETURN_NULL(s->context, s->direction != PA_STREAM_UPLOAD, PA_ERR_BADSTATE); pw_log_debug("stream %p:", s); pw_stream_flush(s->stream, false); o = pa_operation_new(s->context, s, on_success, sizeof(struct success_ack)); d = o->userdata; d->cb = cb; d->userdata = userdata; spa_list_consume(m, &s->ready, link) { struct pw_buffer *b = m->user_data; pw_log_trace("flush %p", m); spa_list_remove(&m->link); spa_list_append(&s->free, &m->link); m->user_data = NULL; if (b) b->user_data = NULL; } s->ready_bytes = 0; s->timing_info.write_index = s->timing_info.read_index = 0; s->have_time = false; pa_operation_sync(o); return o; } SPA_EXPORT pa_operation* pa_stream_prebuf(pa_stream *s, pa_stream_success_cb_t cb, void *userdata) { pa_operation *o; struct success_ack *d; spa_assert(s); spa_assert(s->refcount >= 1); PA_CHECK_VALIDITY_RETURN_NULL(s->context, s->state == PA_STREAM_READY, PA_ERR_BADSTATE); PA_CHECK_VALIDITY_RETURN_NULL(s->context, s->direction == PA_STREAM_PLAYBACK, PA_ERR_BADSTATE); PA_CHECK_VALIDITY_RETURN_NULL(s->context, s->buffer_attr.prebuf > 0, PA_ERR_BADSTATE); pw_log_warn("Not Implemented"); o = pa_operation_new(s->context, s, on_success, sizeof(struct success_ack)); d = o->userdata; d->cb = cb; d->userdata = userdata; pa_operation_sync(o); return o; } SPA_EXPORT pa_operation* pa_stream_trigger(pa_stream *s, pa_stream_success_cb_t cb, void *userdata) { pa_operation *o; struct success_ack *d; spa_assert(s); spa_assert(s->refcount >= 1); PA_CHECK_VALIDITY_RETURN_NULL(s->context, s->state == PA_STREAM_READY, PA_ERR_BADSTATE); PA_CHECK_VALIDITY_RETURN_NULL(s->context, s->direction == PA_STREAM_PLAYBACK, PA_ERR_BADSTATE); PA_CHECK_VALIDITY_RETURN_NULL(s->context, s->buffer_attr.prebuf > 0, PA_ERR_BADSTATE); pw_log_warn("Not Implemented"); o = pa_operation_new(s->context, s, on_success, sizeof(struct success_ack)); d = o->userdata; d->cb = cb; d->userdata = userdata; pa_operation_sync(o); return o; } SPA_EXPORT pa_operation* pa_stream_set_name(pa_stream *s, const char *name, pa_stream_success_cb_t cb, void *userdata) { pa_operation *o; struct success_ack *d; struct spa_dict dict; struct spa_dict_item items[1]; spa_assert(s); spa_assert(s->refcount >= 1); spa_assert(name); PA_CHECK_VALIDITY_RETURN_NULL(s->context, s->state == PA_STREAM_READY, PA_ERR_BADSTATE); PA_CHECK_VALIDITY_RETURN_NULL(s->context, s->direction != PA_STREAM_UPLOAD, PA_ERR_BADSTATE); items[0] = SPA_DICT_ITEM_INIT(PW_KEY_MEDIA_NAME, name); dict = SPA_DICT_INIT(items, 1); pw_stream_update_properties(s->stream, &dict); o = pa_operation_new(s->context, s, on_success, sizeof(struct success_ack)); d = o->userdata; d->cb = cb; d->userdata = userdata; pa_operation_sync(o); return o; } SPA_EXPORT int pa_stream_get_time(pa_stream *s, pa_usec_t *r_usec) { struct timespec ts; uint64_t now, res; pa_timing_info *i; spa_assert(s); spa_assert(s->refcount >= 1); PA_CHECK_VALIDITY(s->context, s->state == PA_STREAM_READY, PA_ERR_BADSTATE); PA_CHECK_VALIDITY(s->context, s->direction != PA_STREAM_UPLOAD, PA_ERR_BADSTATE); i = &s->timing_info; if (s->direction == PA_STREAM_PLAYBACK) { res = pa_bytes_to_usec((uint64_t) i->read_index, &s->sample_spec); if (res > i->sink_usec) res -= i->sink_usec; else res = 0; } else { res = pa_bytes_to_usec((uint64_t) i->write_index, &s->sample_spec); res += i->source_usec; } clock_gettime(CLOCK_MONOTONIC, &ts); now = SPA_TIMESPEC_TO_USEC(&ts); if (s->have_time) res += now - SPA_TIMEVAL_TO_USEC(&i->timestamp); if (r_usec) *r_usec = res; pw_log_debug("stream %p: now:%"PRIu64" diff:%"PRIi64 " write-index:%"PRIi64" read_index:%"PRIi64" res:%"PRIu64, s, now, now - res, i->write_index, i->read_index, res); return 0; } static pa_usec_t time_counter_diff(const pa_stream *s, pa_usec_t a, pa_usec_t b, int *negative) { pa_assert(s); pa_assert(s->refcount >= 1); if (negative) *negative = 0; if (a >= b) return a-b; else { if (negative && s->direction == PA_STREAM_RECORD) { *negative = 1; return b-a; } else return 0; } } SPA_EXPORT int pa_stream_get_latency(pa_stream *s, pa_usec_t *r_usec, int *negative) { pa_usec_t t, c; int64_t cindex; spa_assert(s); spa_assert(s->refcount >= 1); spa_assert(r_usec); PA_CHECK_VALIDITY(s->context, s->state == PA_STREAM_READY, PA_ERR_BADSTATE); PA_CHECK_VALIDITY(s->context, s->direction != PA_STREAM_UPLOAD, PA_ERR_BADSTATE); pa_stream_get_time(s, &t); if (s->direction == PA_STREAM_PLAYBACK) cindex = s->timing_info.write_index; else cindex = s->timing_info.read_index; if (cindex < 0) cindex = 0; c = pa_bytes_to_usec((uint64_t) cindex, &s->sample_spec); if (s->direction == PA_STREAM_PLAYBACK) *r_usec = time_counter_diff(s, c, t, negative); else *r_usec = time_counter_diff(s, t, c, negative); pw_log_debug("stream %p: now:%"PRIu64" stream:%"PRIu64 " res:%"PRIu64, s, t, c, *r_usec); return 0; } SPA_EXPORT const pa_timing_info* pa_stream_get_timing_info(pa_stream *s) { spa_assert(s); spa_assert(s->refcount >= 1); PA_CHECK_VALIDITY_RETURN_NULL(s->context, s->state == PA_STREAM_READY, PA_ERR_BADSTATE); PA_CHECK_VALIDITY_RETURN_NULL(s->context, s->direction != PA_STREAM_UPLOAD, PA_ERR_BADSTATE); pw_log_trace("stream %p: %"PRIi64" %"PRIi64" %"PRIi64, s, s->timing_info.write_index, s->timing_info.read_index, (s->timing_info.write_index - s->timing_info.read_index)); return &s->timing_info; } SPA_EXPORT const pa_sample_spec* pa_stream_get_sample_spec(pa_stream *s) { spa_assert(s); spa_assert(s->refcount >= 1); return &s->sample_spec; } SPA_EXPORT const pa_channel_map* pa_stream_get_channel_map(pa_stream *s) { spa_assert(s); spa_assert(s->refcount >= 1); return &s->channel_map; } SPA_EXPORT const pa_format_info* pa_stream_get_format_info(PA_CONST pa_stream *s) { spa_assert(s); spa_assert(s->refcount >= 1); PA_CHECK_VALIDITY_RETURN_NULL(s->context, s->state == PA_STREAM_READY, PA_ERR_BADSTATE); return s->format; } SPA_EXPORT const pa_buffer_attr* pa_stream_get_buffer_attr(pa_stream *s) { spa_assert(s); spa_assert(s->refcount >= 1); PA_CHECK_VALIDITY_RETURN_NULL(s->context, s->state == PA_STREAM_READY, PA_ERR_BADSTATE); PA_CHECK_VALIDITY_RETURN_NULL(s->context, s->direction != PA_STREAM_UPLOAD, PA_ERR_BADSTATE); return &s->buffer_attr; } SPA_EXPORT pa_operation *pa_stream_set_buffer_attr(pa_stream *s, const pa_buffer_attr *attr, pa_stream_success_cb_t cb, void *userdata) { pa_operation *o; struct success_ack *d; spa_assert(s); spa_assert(s->refcount >= 1); spa_assert(attr); PA_CHECK_VALIDITY_RETURN_NULL(s->context, s->state == PA_STREAM_READY, PA_ERR_BADSTATE); PA_CHECK_VALIDITY_RETURN_NULL(s->context, s->direction != PA_STREAM_UPLOAD, PA_ERR_BADSTATE); pw_log_warn("Not Implemented"); o = pa_operation_new(s->context, s, on_success, sizeof(struct success_ack)); d = o->userdata; d->cb = cb; d->userdata = userdata; pa_operation_sync(o); return o; } SPA_EXPORT pa_operation *pa_stream_update_sample_rate(pa_stream *s, uint32_t rate, pa_stream_success_cb_t cb, void *userdata) { pa_operation *o; struct success_ack *d; spa_assert(s); spa_assert(s->refcount >= 1); PA_CHECK_VALIDITY_RETURN_NULL(s->context, pa_sample_rate_valid(rate), PA_ERR_INVALID); PA_CHECK_VALIDITY_RETURN_NULL(s->context, s->state == PA_STREAM_READY, PA_ERR_BADSTATE); PA_CHECK_VALIDITY_RETURN_NULL(s->context, s->direction != PA_STREAM_UPLOAD, PA_ERR_BADSTATE); PA_CHECK_VALIDITY_RETURN_NULL(s->context, s->flags & PA_STREAM_VARIABLE_RATE, PA_ERR_BADSTATE); pw_log_warn("Not Implemented"); o = pa_operation_new(s->context, s, on_success, sizeof(struct success_ack)); d = o->userdata; d->cb = cb; d->userdata = userdata; pa_operation_sync(o); return o; } SPA_EXPORT pa_operation *pa_stream_proplist_update(pa_stream *s, pa_update_mode_t mode, pa_proplist *p, pa_stream_success_cb_t cb, void *userdata) { pa_operation *o; struct success_ack *d; spa_assert(s); spa_assert(s->refcount >= 1); PA_CHECK_VALIDITY_RETURN_NULL(s->context, mode == PA_UPDATE_SET || mode == PA_UPDATE_MERGE || mode == PA_UPDATE_REPLACE, PA_ERR_INVALID); PA_CHECK_VALIDITY_RETURN_NULL(s->context, s->state == PA_STREAM_READY, PA_ERR_BADSTATE); PA_CHECK_VALIDITY_RETURN_NULL(s->context, s->direction != PA_STREAM_UPLOAD, PA_ERR_BADSTATE); pa_proplist_update(s->proplist, mode, p); o = pa_operation_new(s->context, s, on_success, sizeof(struct success_ack)); d = o->userdata; d->cb = cb; d->userdata = userdata; pa_operation_sync(o); return o; } SPA_EXPORT pa_operation *pa_stream_proplist_remove(pa_stream *s, const char *const keys[], pa_stream_success_cb_t cb, void *userdata) { pa_operation *o; struct success_ack *d; spa_assert(s); spa_assert(s->refcount >= 1); PA_CHECK_VALIDITY_RETURN_NULL(s->context, keys && keys[0], PA_ERR_INVALID); PA_CHECK_VALIDITY_RETURN_NULL(s->context, s->state == PA_STREAM_READY, PA_ERR_BADSTATE); PA_CHECK_VALIDITY_RETURN_NULL(s->context, s->direction != PA_STREAM_UPLOAD, PA_ERR_BADSTATE); pw_log_warn("Not Implemented"); o = pa_operation_new(s->context, s, on_success, sizeof(struct success_ack)); d = o->userdata; d->cb = cb; d->userdata = userdata; pa_operation_sync(o); return o; } SPA_EXPORT int pa_stream_set_monitor_stream(pa_stream *s, uint32_t sink_input_idx) { spa_assert(s); spa_assert(s->refcount >= 1); PA_CHECK_VALIDITY(s->context, sink_input_idx != PA_INVALID_INDEX, PA_ERR_INVALID); PA_CHECK_VALIDITY(s->context, s->state == PA_STREAM_UNCONNECTED, PA_ERR_BADSTATE); s->direct_on_input = sink_input_idx; return 0; } SPA_EXPORT uint32_t pa_stream_get_monitor_stream(PA_CONST pa_stream *s) { spa_assert(s); spa_assert(s->refcount >= 1); PA_CHECK_VALIDITY_RETURN_ANY(s->context, s->direct_on_input != PA_INVALID_INDEX, PA_ERR_BADSTATE, PA_INVALID_INDEX); return s->direct_on_input; }