/*** 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, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. ***/ #ifdef HAVE_CONFIG_H #include #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "endianmacros.h" #include "protocol-esound.h" /* Don't accept more connection than this */ #define MAX_CONNECTIONS 64 /* Kick a client if it doesn't authenticate within this time */ #define AUTH_TIMEOUT 5 #define DEFAULT_COOKIE_FILE ".esd_auth" #define PLAYBACK_BUFFER_SECONDS (.25) #define PLAYBACK_BUFFER_FRAGMENTS (10) #define RECORD_BUFFER_SECONDS (5) #define MAX_CACHE_SAMPLE_SIZE (2048000) #define DEFAULT_SINK_LATENCY (150*PA_USEC_PER_MSEC) #define DEFAULT_SOURCE_LATENCY (150*PA_USEC_PER_MSEC) #define SCACHE_PREFIX "esound." /* This is heavily based on esound's code */ typedef struct connection { pa_msgobject parent; uint32_t index; pa_bool_t dead; pa_esound_protocol *protocol; pa_esound_options *options; pa_iochannel *io; pa_client *client; pa_bool_t authorized, swap_byte_order; void *write_data; size_t write_data_alloc, write_data_index, write_data_length; void *read_data; size_t read_data_alloc, read_data_length; esd_proto_t request; esd_client_state_t state; pa_sink_input *sink_input; pa_source_output *source_output; pa_memblockq *input_memblockq, *output_memblockq; pa_defer_event *defer_event; char *original_name; struct { pa_memblock *current_memblock; size_t memblock_index; pa_atomic_t missing; pa_bool_t underrun; } playback; struct { pa_memchunk memchunk; char *name; pa_sample_spec sample_spec; } scache; pa_time_event *auth_timeout_event; } connection; PA_DECLARE_CLASS(connection); #define CONNECTION(o) (connection_cast(o)) static PA_DEFINE_CHECK_TYPE(connection, pa_msgobject); struct pa_esound_protocol { PA_REFCNT_DECLARE; pa_core *core; pa_idxset *connections; unsigned n_player; }; enum { SINK_INPUT_MESSAGE_POST_DATA = PA_SINK_INPUT_MESSAGE_MAX, /* data from main loop to sink input */ SINK_INPUT_MESSAGE_DISABLE_PREBUF }; enum { CONNECTION_MESSAGE_REQUEST_DATA, CONNECTION_MESSAGE_POST_DATA, CONNECTION_MESSAGE_UNLINK_CONNECTION }; typedef struct proto_handler { size_t data_length; int (*proc)(connection *c, esd_proto_t request, const void *data, size_t length); const char *description; } esd_proto_handler_info_t; static int sink_input_pop_cb(pa_sink_input *i, size_t length, pa_memchunk *chunk); static void sink_input_process_rewind_cb(pa_sink_input *i, size_t nbytes); static void sink_input_update_max_rewind_cb(pa_sink_input *i, size_t nbytes); static void sink_input_kill_cb(pa_sink_input *i); static int sink_input_process_msg(pa_msgobject *o, int code, void *userdata, int64_t offset, pa_memchunk *chunk); static pa_usec_t source_output_get_latency_cb(pa_source_output *o); static void source_output_push_cb(pa_source_output *o, const pa_memchunk *chunk); static void source_output_kill_cb(pa_source_output *o); static int esd_proto_connect(connection *c, esd_proto_t request, const void *data, size_t length); static int esd_proto_stream_play(connection *c, esd_proto_t request, const void *data, size_t length); static int esd_proto_stream_record(connection *c, esd_proto_t request, const void *data, size_t length); static int esd_proto_get_latency(connection *c, esd_proto_t request, const void *data, size_t length); static int esd_proto_server_info(connection *c, esd_proto_t request, const void *data, size_t length); static int esd_proto_all_info(connection *c, esd_proto_t request, const void *data, size_t length); static int esd_proto_stream_pan(connection *c, esd_proto_t request, const void *data, size_t length); static int esd_proto_sample_pan(connection *c, esd_proto_t request, const void *data, size_t length); static int esd_proto_sample_cache(connection *c, esd_proto_t request, const void *data, size_t length); static int esd_proto_sample_free_or_play(connection *c, esd_proto_t request, const void *data, size_t length); static int esd_proto_sample_get_id(connection *c, esd_proto_t request, const void *data, size_t length); static int esd_proto_standby_or_resume(connection *c, esd_proto_t request, const void *data, size_t length); static int esd_proto_standby_mode(connection *c, esd_proto_t request, const void *data, size_t length); /* the big map of protocol handler info */ static struct proto_handler proto_map[ESD_PROTO_MAX] = { { ESD_KEY_LEN + sizeof(int), esd_proto_connect, "connect" }, { ESD_KEY_LEN + sizeof(int), NULL, "lock" }, { ESD_KEY_LEN + sizeof(int), NULL, "unlock" }, { ESD_NAME_MAX + 2 * sizeof(int), esd_proto_stream_play, "stream play" }, { ESD_NAME_MAX + 2 * sizeof(int), esd_proto_stream_record, "stream rec" }, { ESD_NAME_MAX + 2 * sizeof(int), esd_proto_stream_record, "stream mon" }, { ESD_NAME_MAX + 3 * sizeof(int), esd_proto_sample_cache, "sample cache" }, /* 6 */ { sizeof(int), esd_proto_sample_free_or_play, "sample free" }, { sizeof(int), esd_proto_sample_free_or_play, "sample play" }, /* 8 */ { sizeof(int), NULL, "sample loop" }, { sizeof(int), NULL, "sample stop" }, { (size_t) -1, NULL, "TODO: sample kill" }, { ESD_KEY_LEN + sizeof(int), esd_proto_standby_or_resume, "standby" }, { ESD_KEY_LEN + sizeof(int), esd_proto_standby_or_resume, "resume" }, /* 13 */ { ESD_NAME_MAX, esd_proto_sample_get_id, "sample getid" }, /* 14 */ { ESD_NAME_MAX + 2 * sizeof(int), NULL, "stream filter" }, { sizeof(int), esd_proto_server_info, "server info" }, { sizeof(int), esd_proto_all_info, "all info" }, { (size_t) -1, NULL, "TODO: subscribe" }, { (size_t) -1, NULL, "TODO: unsubscribe" }, { 3 * sizeof(int), esd_proto_stream_pan, "stream pan"}, { 3 * sizeof(int), esd_proto_sample_pan, "sample pan" }, { sizeof(int), esd_proto_standby_mode, "standby mode" }, { 0, esd_proto_get_latency, "get latency" } }; static void connection_unlink(connection *c) { pa_assert(c); if (!c->protocol) return; if (c->options) { pa_esound_options_unref(c->options); c->options = NULL; } if (c->sink_input) { pa_sink_input_unlink(c->sink_input); pa_sink_input_unref(c->sink_input); c->sink_input = NULL; } if (c->source_output) { pa_source_output_unlink(c->source_output); pa_source_output_unref(c->source_output); c->source_output = NULL; } if (c->client) { pa_client_free(c->client); c->client = NULL; } if (c->state == ESD_STREAMING_DATA) c->protocol->n_player--; if (c->io) { pa_iochannel_free(c->io); c->io = NULL; } if (c->defer_event) { c->protocol->core->mainloop->defer_free(c->defer_event); c->defer_event = NULL; } if (c->auth_timeout_event) { c->protocol->core->mainloop->time_free(c->auth_timeout_event); c->auth_timeout_event = NULL; } pa_assert_se(pa_idxset_remove_by_data(c->protocol->connections, c, NULL) == c); c->protocol = NULL; connection_unref(c); } static void connection_free(pa_object *obj) { connection *c = CONNECTION(obj); pa_assert(c); if (c->input_memblockq) pa_memblockq_free(c->input_memblockq); if (c->output_memblockq) pa_memblockq_free(c->output_memblockq); if (c->playback.current_memblock) pa_memblock_unref(c->playback.current_memblock); pa_xfree(c->read_data); pa_xfree(c->write_data); if (c->scache.memchunk.memblock) pa_memblock_unref(c->scache.memchunk.memblock); pa_xfree(c->scache.name); pa_xfree(c->original_name); pa_xfree(c); } static void connection_write_prepare(connection *c, size_t length) { size_t t; pa_assert(c); t = c->write_data_length+length; if (c->write_data_alloc < t) c->write_data = pa_xrealloc(c->write_data, c->write_data_alloc = t); pa_assert(c->write_data); } static void connection_write(connection *c, const void *data, size_t length) { size_t i; pa_assert(c); c->protocol->core->mainloop->defer_enable(c->defer_event, 1); connection_write_prepare(c, length); pa_assert(c->write_data); i = c->write_data_length; c->write_data_length += length; memcpy((uint8_t*) c->write_data + i, data, length); } static void format_esd2native(int format, pa_bool_t swap_bytes, pa_sample_spec *ss) { pa_assert(ss); ss->channels = (uint8_t) (((format & ESD_MASK_CHAN) == ESD_STEREO) ? 2 : 1); if ((format & ESD_MASK_BITS) == ESD_BITS16) ss->format = swap_bytes ? PA_SAMPLE_S16RE : PA_SAMPLE_S16NE; else ss->format = PA_SAMPLE_U8; } static int format_native2esd(pa_sample_spec *ss) { int format = 0; format = (ss->format == PA_SAMPLE_U8) ? ESD_BITS8 : ESD_BITS16; format |= (ss->channels >= 2) ? ESD_STEREO : ESD_MONO; return format; } #define CHECK_VALIDITY(expression, ...) do { \ if (!(expression)) { \ pa_log_warn(__FILE__ ": " __VA_ARGS__); \ return -1; \ } \ } while(0); /*** esound commands ***/ static int esd_proto_connect(connection *c, esd_proto_t request, const void *data, size_t length) { uint32_t ekey; int ok; connection_assert_ref(c); pa_assert(data); pa_assert(length == (ESD_KEY_LEN + sizeof(uint32_t))); if (!c->authorized && c->options->auth_cookie) { const uint8_t*key; if ((key = pa_auth_cookie_read(c->options->auth_cookie, ESD_KEY_LEN))) if (memcmp(data, key, ESD_KEY_LEN) == 0) c->authorized = TRUE; } if (!c->authorized) { pa_log("Kicked client with invalid authorization key."); return -1; } if (c->auth_timeout_event) { c->protocol->core->mainloop->time_free(c->auth_timeout_event); c->auth_timeout_event = NULL; } data = (const char*)data + ESD_KEY_LEN; memcpy(&ekey, data, sizeof(uint32_t)); if (ekey == ESD_ENDIAN_KEY) c->swap_byte_order = FALSE; else if (ekey == ESD_SWAP_ENDIAN_KEY) c->swap_byte_order = TRUE; else { pa_log_warn("Client sent invalid endian key"); return -1; } pa_proplist_sets(c->client->proplist, "esound.byte_order", c->swap_byte_order ? "reverse" : "native"); ok = 1; connection_write(c, &ok, sizeof(int)); return 0; } static int esd_proto_stream_play(connection *c, esd_proto_t request, const void *data, size_t length) { char name[ESD_NAME_MAX], *utf8_name; int32_t format, rate; pa_sample_spec ss; size_t l; pa_sink *sink = NULL; pa_sink_input_new_data sdata; connection_assert_ref(c); pa_assert(data); pa_assert(length == (sizeof(int32_t)*2+ESD_NAME_MAX)); memcpy(&format, data, sizeof(int32_t)); format = PA_MAYBE_INT32_SWAP(c->swap_byte_order, format); data = (const char*) data + sizeof(int32_t); memcpy(&rate, data, sizeof(int32_t)); rate = PA_MAYBE_INT32_SWAP(c->swap_byte_order, rate); data = (const char*) data + sizeof(int32_t); ss.rate = (uint32_t) rate; format_esd2native(format, c->swap_byte_order, &ss); CHECK_VALIDITY(pa_sample_spec_valid(&ss), "Invalid sample specification"); if (c->options->default_sink) { sink = pa_namereg_get(c->protocol->core, c->options->default_sink, PA_NAMEREG_SINK); CHECK_VALIDITY(sink, "No such sink: %s", pa_strnull(c->options->default_sink)); } pa_strlcpy(name, data, sizeof(name)); utf8_name = pa_utf8_filter(name); pa_client_set_name(c->client, utf8_name); pa_xfree(utf8_name); c->original_name = pa_xstrdup(name); pa_assert(!c->sink_input && !c->input_memblockq); pa_sink_input_new_data_init(&sdata); sdata.driver = __FILE__; sdata.module = c->options->module; sdata.client = c->client; sdata.sink = sink; pa_sink_input_new_data_set_sample_spec(&sdata, &ss); pa_sink_input_new(&c->sink_input, c->protocol->core, &sdata, 0); pa_sink_input_new_data_done(&sdata); CHECK_VALIDITY(c->sink_input, "Failed to create sink input."); l = (size_t) ((double) pa_bytes_per_second(&ss)*PLAYBACK_BUFFER_SECONDS); c->input_memblockq = pa_memblockq_new( 0, l, l, pa_frame_size(&ss), (size_t) -1, l/PLAYBACK_BUFFER_FRAGMENTS, 0, NULL); pa_iochannel_socket_set_rcvbuf(c->io, l); c->sink_input->parent.process_msg = sink_input_process_msg; c->sink_input->pop = sink_input_pop_cb; c->sink_input->process_rewind = sink_input_process_rewind_cb; c->sink_input->update_max_rewind = sink_input_update_max_rewind_cb; c->sink_input->kill = sink_input_kill_cb; c->sink_input->userdata = c; pa_sink_input_set_requested_latency(c->sink_input, DEFAULT_SINK_LATENCY); c->state = ESD_STREAMING_DATA; c->protocol->n_player++; pa_atomic_store(&c->playback.missing, (int) pa_memblockq_missing(c->input_memblockq)); pa_sink_input_put(c->sink_input); return 0; } static int esd_proto_stream_record(connection *c, esd_proto_t request, const void *data, size_t length) { char name[ESD_NAME_MAX], *utf8_name; int32_t format, rate; pa_source *source = NULL; pa_sample_spec ss; size_t l; pa_source_output_new_data sdata; connection_assert_ref(c); pa_assert(data); pa_assert(length == (sizeof(int32_t)*2+ESD_NAME_MAX)); memcpy(&format, data, sizeof(int32_t)); format = PA_MAYBE_INT32_SWAP(c->swap_byte_order, format); data = (const char*) data + sizeof(int32_t); memcpy(&rate, data, sizeof(int32_t)); rate = PA_MAYBE_INT32_SWAP(c->swap_byte_order, rate); data = (const char*) data + sizeof(int32_t); ss.rate = (uint32_t) rate; format_esd2native(format, c->swap_byte_order, &ss); CHECK_VALIDITY(pa_sample_spec_valid(&ss), "Invalid sample specification."); if (request == ESD_PROTO_STREAM_MON) { pa_sink* sink; sink = pa_namereg_get(c->protocol->core, c->options->default_sink, PA_NAMEREG_SINK); CHECK_VALIDITY(sink, "No such sink: %s", pa_strnull(c->options->default_sink)); source = sink->monitor_source; CHECK_VALIDITY(source, "No such source."); } else { pa_assert(request == ESD_PROTO_STREAM_REC); if (c->options->default_source) { source = pa_namereg_get(c->protocol->core, c->options->default_source, PA_NAMEREG_SOURCE); CHECK_VALIDITY(source, "No such source: %s", pa_strnull(c->options->default_source)); } } pa_strlcpy(name, data, sizeof(name)); utf8_name = pa_utf8_filter(name); pa_client_set_name(c->client, utf8_name); pa_xfree(utf8_name); c->original_name = pa_xstrdup(name); pa_assert(!c->output_memblockq && !c->source_output); pa_source_output_new_data_init(&sdata); sdata.driver = __FILE__; sdata.module = c->options->module; sdata.client = c->client; sdata.source = source; pa_source_output_new_data_set_sample_spec(&sdata, &ss); pa_source_output_new(&c->source_output, c->protocol->core, &sdata, 0); pa_source_output_new_data_done(&sdata); CHECK_VALIDITY(c->source_output, "Failed to create source output."); l = (size_t) (pa_bytes_per_second(&ss)*RECORD_BUFFER_SECONDS); c->output_memblockq = pa_memblockq_new( 0, l, l, pa_frame_size(&ss), 1, 0, 0, NULL); pa_iochannel_socket_set_sndbuf(c->io, l); c->source_output->push = source_output_push_cb; c->source_output->kill = source_output_kill_cb; c->source_output->get_latency = source_output_get_latency_cb; c->source_output->userdata = c; pa_source_output_set_requested_latency(c->source_output, DEFAULT_SOURCE_LATENCY); c->state = ESD_STREAMING_DATA; c->protocol->n_player++; pa_source_output_put(c->source_output); return 0; } static int esd_proto_get_latency(connection *c, esd_proto_t request, const void *data, size_t length) { pa_sink *sink; int32_t latency; connection_assert_ref(c); pa_assert(!data); pa_assert(length == 0); if (!(sink = pa_namereg_get(c->protocol->core, c->options->default_sink, PA_NAMEREG_SINK))) latency = 0; else { double usec = (double) pa_sink_get_requested_latency(sink); latency = (int) ((usec*44100)/1000000); } latency = PA_MAYBE_INT32_SWAP(c->swap_byte_order, latency); connection_write(c, &latency, sizeof(int32_t)); return 0; } static int esd_proto_server_info(connection *c, esd_proto_t request, const void *data, size_t length) { int32_t rate = 44100, format = ESD_STEREO|ESD_BITS16; int32_t response; pa_sink *sink; connection_assert_ref(c); pa_assert(data); pa_assert(length == sizeof(int32_t)); if ((sink = pa_namereg_get(c->protocol->core, c->options->default_sink, PA_NAMEREG_SINK))) { rate = (int32_t) sink->sample_spec.rate; format = format_native2esd(&sink->sample_spec); } connection_write_prepare(c, sizeof(int32_t) * 3); response = 0; connection_write(c, &response, sizeof(int32_t)); rate = PA_MAYBE_INT32_SWAP(c->swap_byte_order, rate); connection_write(c, &rate, sizeof(int32_t)); format = PA_MAYBE_INT32_SWAP(c->swap_byte_order, format); connection_write(c, &format, sizeof(int32_t)); return 0; } static int esd_proto_all_info(connection *c, esd_proto_t request, const void *data, size_t length) { size_t t, k, s; connection *conn; uint32_t idx = PA_IDXSET_INVALID; unsigned nsamples; char terminator[sizeof(int32_t)*6+ESD_NAME_MAX]; connection_assert_ref(c); pa_assert(data); pa_assert(length == sizeof(int32_t)); if (esd_proto_server_info(c, request, data, length) < 0) return -1; k = sizeof(int32_t)*5+ESD_NAME_MAX; s = sizeof(int32_t)*6+ESD_NAME_MAX; nsamples = pa_idxset_size(c->protocol->core->scache); t = s*(nsamples+1) + k*(c->protocol->n_player+1); connection_write_prepare(c, t); memset(terminator, 0, sizeof(terminator)); for (conn = pa_idxset_first(c->protocol->connections, &idx); conn; conn = pa_idxset_next(c->protocol->connections, &idx)) { int32_t id, format = ESD_BITS16 | ESD_STEREO, rate = 44100, lvolume = ESD_VOLUME_BASE, rvolume = ESD_VOLUME_BASE; char name[ESD_NAME_MAX]; if (conn->state != ESD_STREAMING_DATA) continue; pa_assert(t >= k*2+s); if (conn->sink_input) { pa_cvolume volume; pa_sink_input_get_volume(conn->sink_input, &volume, TRUE); rate = (int32_t) conn->sink_input->sample_spec.rate; lvolume = (int32_t) ((volume.values[0]*ESD_VOLUME_BASE)/PA_VOLUME_NORM); rvolume = (int32_t) ((volume.values[volume.channels == 2 ? 1 : 0]*ESD_VOLUME_BASE)/PA_VOLUME_NORM); format = format_native2esd(&conn->sink_input->sample_spec); } /* id */ id = PA_MAYBE_INT32_SWAP(c->swap_byte_order, (int32_t) (conn->index+1)); connection_write(c, &id, sizeof(int32_t)); /* name */ memset(name, 0, ESD_NAME_MAX); /* don't leak old data */ if (conn->original_name) strncpy(name, conn->original_name, ESD_NAME_MAX); else if (conn->client && pa_proplist_gets(conn->client->proplist, PA_PROP_APPLICATION_NAME)) strncpy(name, pa_proplist_gets(conn->client->proplist, PA_PROP_APPLICATION_NAME), ESD_NAME_MAX); connection_write(c, name, ESD_NAME_MAX); /* rate */ rate = PA_MAYBE_INT32_SWAP(c->swap_byte_order, rate); connection_write(c, &rate, sizeof(int32_t)); /* left */ lvolume = PA_MAYBE_INT32_SWAP(c->swap_byte_order, lvolume); connection_write(c, &lvolume, sizeof(int32_t)); /*right*/ rvolume = PA_MAYBE_INT32_SWAP(c->swap_byte_order, rvolume); connection_write(c, &rvolume, sizeof(int32_t)); /*format*/ format = PA_MAYBE_INT32_SWAP(c->swap_byte_order, format); connection_write(c, &format, sizeof(int32_t)); t -= k; } pa_assert(t == s*(nsamples+1)+k); t -= k; connection_write(c, terminator, k); if (nsamples) { pa_scache_entry *ce; idx = PA_IDXSET_INVALID; for (ce = pa_idxset_first(c->protocol->core->scache, &idx); ce; ce = pa_idxset_next(c->protocol->core->scache, &idx)) { int32_t id, rate, lvolume, rvolume, format, len; char name[ESD_NAME_MAX]; pa_channel_map stereo = { .channels = 2, .map = { PA_CHANNEL_POSITION_LEFT, PA_CHANNEL_POSITION_RIGHT } }; pa_cvolume volume; pa_sample_spec ss; pa_assert(t >= s*2); if (ce->volume_is_set) { volume = ce->volume; pa_cvolume_remap(&volume, &ce->channel_map, &stereo); } else pa_cvolume_reset(&volume, 2); if (ce->memchunk.memblock) ss = ce->sample_spec; else { ss.format = PA_SAMPLE_S16NE; ss.rate = 44100; ss.channels = 2; } /* id */ id = PA_MAYBE_INT32_SWAP(c->swap_byte_order, (int) (ce->index+1)); connection_write(c, &id, sizeof(int32_t)); /* name */ memset(name, 0, ESD_NAME_MAX); /* don't leak old data */ if (strncmp(ce->name, SCACHE_PREFIX, sizeof(SCACHE_PREFIX)-1) == 0) strncpy(name, ce->name+sizeof(SCACHE_PREFIX)-1, ESD_NAME_MAX); else pa_snprintf(name, ESD_NAME_MAX, "native.%s", ce->name); connection_write(c, name, ESD_NAME_MAX); /* rate */ rate = PA_MAYBE_INT32_SWAP(c->swap_byte_order, (int32_t) ss.rate); connection_write(c, &rate, sizeof(int32_t)); /* left */ lvolume = PA_MAYBE_INT32_SWAP(c->swap_byte_order, (int32_t) ((volume.values[0]*ESD_VOLUME_BASE)/PA_VOLUME_NORM)); connection_write(c, &lvolume, sizeof(int32_t)); /*right*/ rvolume = PA_MAYBE_INT32_SWAP(c->swap_byte_order, (int32_t) ((volume.values[1]*ESD_VOLUME_BASE)/PA_VOLUME_NORM)); connection_write(c, &rvolume, sizeof(int32_t)); /*format*/ format = PA_MAYBE_INT32_SWAP(c->swap_byte_order, format_native2esd(&ss)); connection_write(c, &format, sizeof(int32_t)); /*length*/ len = PA_MAYBE_INT32_SWAP(c->swap_byte_order, (int) ce->memchunk.length); connection_write(c, &len, sizeof(int32_t)); t -= s; } } pa_assert(t == s); connection_write(c, terminator, s); return 0; } static int esd_proto_stream_pan(connection *c, esd_proto_t request, const void *data, size_t length) { int32_t ok; uint32_t idx, lvolume, rvolume; connection *conn; connection_assert_ref(c); pa_assert(data); pa_assert(length == sizeof(int32_t)*3); memcpy(&idx, data, sizeof(uint32_t)); idx = PA_MAYBE_UINT32_SWAP(c->swap_byte_order, idx) - 1; data = (const char*)data + sizeof(uint32_t); memcpy(&lvolume, data, sizeof(uint32_t)); lvolume = PA_MAYBE_UINT32_SWAP(c->swap_byte_order, lvolume); data = (const char*)data + sizeof(uint32_t); memcpy(&rvolume, data, sizeof(uint32_t)); rvolume = PA_MAYBE_UINT32_SWAP(c->swap_byte_order, rvolume); data = (const char*)data + sizeof(uint32_t); if ((conn = pa_idxset_get_by_index(c->protocol->connections, idx)) && conn->sink_input) { pa_cvolume volume; volume.values[0] = (lvolume*PA_VOLUME_NORM)/ESD_VOLUME_BASE; volume.values[1] = (rvolume*PA_VOLUME_NORM)/ESD_VOLUME_BASE; volume.channels = conn->sink_input->sample_spec.channels; pa_sink_input_set_volume(conn->sink_input, &volume, TRUE, TRUE); ok = 1; } else ok = 0; connection_write(c, &ok, sizeof(int32_t)); return 0; } static int esd_proto_sample_pan(connection *c, esd_proto_t request, const void *data, size_t length) { int32_t ok = 0; uint32_t idx, lvolume, rvolume; pa_cvolume volume; pa_scache_entry *ce; connection_assert_ref(c); pa_assert(data); pa_assert(length == sizeof(int32_t)*3); memcpy(&idx, data, sizeof(uint32_t)); idx = PA_MAYBE_UINT32_SWAP(c->swap_byte_order, idx) - 1; data = (const char*)data + sizeof(uint32_t); memcpy(&lvolume, data, sizeof(uint32_t)); lvolume = PA_MAYBE_UINT32_SWAP(c->swap_byte_order, lvolume); data = (const char*)data + sizeof(uint32_t); memcpy(&rvolume, data, sizeof(uint32_t)); rvolume = PA_MAYBE_UINT32_SWAP(c->swap_byte_order, rvolume); data = (const char*)data + sizeof(uint32_t); volume.values[0] = (lvolume*PA_VOLUME_NORM)/ESD_VOLUME_BASE; volume.values[1] = (rvolume*PA_VOLUME_NORM)/ESD_VOLUME_BASE; volume.channels = 2; if ((ce = pa_idxset_get_by_index(c->protocol->core->scache, idx))) { pa_channel_map stereo = { .channels = 2, .map = { PA_CHANNEL_POSITION_LEFT, PA_CHANNEL_POSITION_RIGHT } }; pa_cvolume_remap(&volume, &stereo, &ce->channel_map); ce->volume = volume; ce->volume_is_set = TRUE; ok = 1; } connection_write(c, &ok, sizeof(int32_t)); return 0; } static int esd_proto_sample_cache(connection *c, esd_proto_t request, const void *data, size_t length) { pa_sample_spec ss; int32_t format, rate, sc_length; uint32_t idx; char name[ESD_NAME_MAX+sizeof(SCACHE_PREFIX)-1]; connection_assert_ref(c); pa_assert(data); pa_assert(length == (ESD_NAME_MAX+3*sizeof(int32_t))); memcpy(&format, data, sizeof(int32_t)); format = PA_MAYBE_INT32_SWAP(c->swap_byte_order, format); data = (const char*)data + sizeof(int32_t); memcpy(&rate, data, sizeof(int32_t)); rate = PA_MAYBE_INT32_SWAP(c->swap_byte_order, rate); data = (const char*)data + sizeof(int32_t); ss.rate = (uint32_t) rate; format_esd2native(format, c->swap_byte_order, &ss); CHECK_VALIDITY(pa_sample_spec_valid(&ss), "Invalid sample specification."); memcpy(&sc_length, data, sizeof(int32_t)); sc_length = PA_MAYBE_INT32_SWAP(c->swap_byte_order, sc_length); data = (const char*)data + sizeof(int32_t); CHECK_VALIDITY(sc_length <= MAX_CACHE_SAMPLE_SIZE, "Sample too large (%d bytes).", (int)sc_length); strcpy(name, SCACHE_PREFIX); pa_strlcpy(name+sizeof(SCACHE_PREFIX)-1, data, ESD_NAME_MAX); CHECK_VALIDITY(pa_utf8_valid(name), "Invalid UTF8 in sample name."); pa_assert(!c->scache.memchunk.memblock); c->scache.memchunk.memblock = pa_memblock_new(c->protocol->core->mempool, (size_t) sc_length); c->scache.memchunk.index = 0; c->scache.memchunk.length = (size_t) sc_length; c->scache.sample_spec = ss; pa_assert(!c->scache.name); c->scache.name = pa_xstrdup(name); c->state = ESD_CACHING_SAMPLE; pa_scache_add_item(c->protocol->core, c->scache.name, NULL, NULL, NULL, c->client->proplist, &idx); idx += 1; connection_write(c, &idx, sizeof(uint32_t)); return 0; } static int esd_proto_sample_get_id(connection *c, esd_proto_t request, const void *data, size_t length) { int32_t ok; uint32_t idx; char name[ESD_NAME_MAX+sizeof(SCACHE_PREFIX)-1]; connection_assert_ref(c); pa_assert(data); pa_assert(length == ESD_NAME_MAX); strcpy(name, SCACHE_PREFIX); pa_strlcpy(name+sizeof(SCACHE_PREFIX)-1, data, ESD_NAME_MAX); CHECK_VALIDITY(pa_utf8_valid(name), "Invalid UTF8 in sample name."); ok = -1; if ((idx = pa_scache_get_id_by_name(c->protocol->core, name)) != PA_IDXSET_INVALID) ok = (int32_t) idx + 1; connection_write(c, &ok, sizeof(int32_t)); return 0; } static int esd_proto_sample_free_or_play(connection *c, esd_proto_t request, const void *data, size_t length) { int32_t ok; const char *name; uint32_t idx; connection_assert_ref(c); pa_assert(data); pa_assert(length == sizeof(int32_t)); memcpy(&idx, data, sizeof(uint32_t)); idx = PA_MAYBE_UINT32_SWAP(c->swap_byte_order, idx) - 1; ok = 0; if ((name = pa_scache_get_name_by_id(c->protocol->core, idx))) { if (request == ESD_PROTO_SAMPLE_PLAY) { pa_sink *sink; if ((sink = pa_namereg_get(c->protocol->core, c->options->default_sink, PA_NAMEREG_SINK))) if (pa_scache_play_item(c->protocol->core, name, sink, PA_VOLUME_NORM, c->client->proplist, NULL) >= 0) ok = (int32_t) idx + 1; } else { pa_assert(request == ESD_PROTO_SAMPLE_FREE); if (pa_scache_remove_item(c->protocol->core, name) >= 0) ok = (int32_t) idx + 1; } } connection_write(c, &ok, sizeof(int32_t)); return 0; } static int esd_proto_standby_or_resume(connection *c, esd_proto_t request, const void *data, size_t length) { int32_t ok = 1; connection_assert_ref(c); connection_write_prepare(c, sizeof(int32_t) * 2); connection_write(c, &ok, sizeof(int32_t)); if (request == ESD_PROTO_STANDBY) ok = pa_sink_suspend_all(c->protocol->core, TRUE) >= 0; else { pa_assert(request == ESD_PROTO_RESUME); ok = pa_sink_suspend_all(c->protocol->core, FALSE) >= 0; } connection_write(c, &ok, sizeof(int32_t)); return 0; } static int esd_proto_standby_mode(connection *c, esd_proto_t request, const void *data, size_t length) { int32_t mode; pa_sink *sink, *source; connection_assert_ref(c); mode = ESM_RUNNING; if ((sink = pa_namereg_get(c->protocol->core, c->options->default_sink, PA_NAMEREG_SINK))) if (pa_sink_get_state(sink) == PA_SINK_SUSPENDED) mode = ESM_ON_STANDBY; if ((source = pa_namereg_get(c->protocol->core, c->options->default_source, PA_NAMEREG_SOURCE))) if (pa_source_get_state(source) == PA_SOURCE_SUSPENDED) mode = ESM_ON_STANDBY; mode = PA_MAYBE_INT32_SWAP(c->swap_byte_order, mode); connection_write(c, &mode, sizeof(mode)); return 0; } /*** client callbacks ***/ static void client_kill_cb(pa_client *c) { pa_assert(c); connection_unlink(CONNECTION(c->userdata)); } /*** pa_iochannel callbacks ***/ static int do_read(connection *c) { connection_assert_ref(c); /* pa_log("READ"); */ if (c->state == ESD_NEXT_REQUEST) { ssize_t r; pa_assert(c->read_data_length < sizeof(c->request)); if ((r = pa_iochannel_read(c->io, ((uint8_t*) &c->request) + c->read_data_length, sizeof(c->request) - c->read_data_length)) <= 0) { if (r < 0 && (errno == EINTR || errno == EAGAIN)) return 0; pa_log_debug("read(): %s", r < 0 ? pa_cstrerror(errno) : "EOF"); return -1; } c->read_data_length += (size_t) r; if (c->read_data_length >= sizeof(c->request)) { struct proto_handler *handler; c->request = PA_MAYBE_INT32_SWAP(c->swap_byte_order, c->request); if (c->request < ESD_PROTO_CONNECT || c->request >= ESD_PROTO_MAX) { pa_log("recieved invalid request."); return -1; } handler = proto_map+c->request; /* pa_log("executing request #%u", c->request); */ if (!handler->proc) { pa_log("recieved unimplemented request #%u.", c->request); return -1; } if (handler->data_length == 0) { c->read_data_length = 0; if (handler->proc(c, c->request, NULL, 0) < 0) return -1; } else { if (c->read_data_alloc < handler->data_length) c->read_data = pa_xrealloc(c->read_data, c->read_data_alloc = handler->data_length); pa_assert(c->read_data); c->state = ESD_NEEDS_REQDATA; c->read_data_length = 0; } } } else if (c->state == ESD_NEEDS_REQDATA) { ssize_t r; struct proto_handler *handler = proto_map+c->request; pa_assert(handler->proc); pa_assert(c->read_data && c->read_data_length < handler->data_length); if ((r = pa_iochannel_read(c->io, (uint8_t*) c->read_data + c->read_data_length, handler->data_length - c->read_data_length)) <= 0) { if (r < 0 && (errno == EINTR || errno == EAGAIN)) return 0; pa_log_debug("read(): %s", r < 0 ? pa_cstrerror(errno) : "EOF"); return -1; } c->read_data_length += (size_t) r; if (c->read_data_length >= handler->data_length) { size_t l = c->read_data_length; pa_assert(handler->proc); c->state = ESD_NEXT_REQUEST; c->read_data_length = 0; if (handler->proc(c, c->request, c->read_data, l) < 0) return -1; } } else if (c->state == ESD_CACHING_SAMPLE) { ssize_t r; void *p; pa_assert(c->scache.memchunk.memblock); pa_assert(c->scache.name); pa_assert(c->scache.memchunk.index < c->scache.memchunk.length); p = pa_memblock_acquire(c->scache.memchunk.memblock); r = pa_iochannel_read(c->io, (uint8_t*) p+c->scache.memchunk.index, c->scache.memchunk.length-c->scache.memchunk.index); pa_memblock_release(c->scache.memchunk.memblock); if (r <= 0) { if (r < 0 && (errno == EINTR || errno == EAGAIN)) return 0; pa_log_debug("read(): %s", r < 0 ? pa_cstrerror(errno) : "EOF"); return -1; } c->scache.memchunk.index += (size_t) r; pa_assert(c->scache.memchunk.index <= c->scache.memchunk.length); if (c->scache.memchunk.index == c->scache.memchunk.length) { uint32_t idx; c->scache.memchunk.index = 0; pa_scache_add_item(c->protocol->core, c->scache.name, &c->scache.sample_spec, NULL, &c->scache.memchunk, c->client->proplist, &idx); pa_memblock_unref(c->scache.memchunk.memblock); pa_memchunk_reset(&c->scache.memchunk); pa_xfree(c->scache.name); c->scache.name = NULL; c->state = ESD_NEXT_REQUEST; idx += 1; connection_write(c, &idx, sizeof(uint32_t)); } } else if (c->state == ESD_STREAMING_DATA && c->sink_input) { pa_memchunk chunk; ssize_t r; size_t l; void *p; size_t space; pa_assert(c->input_memblockq); /* pa_log("STREAMING_DATA"); */ if (!(l = (size_t) pa_atomic_load(&c->playback.missing))) return 0; if (c->playback.current_memblock) { space = pa_memblock_get_length(c->playback.current_memblock) - c->playback.memblock_index; if (space <= 0) { pa_memblock_unref(c->playback.current_memblock); c->playback.current_memblock = NULL; } } if (!c->playback.current_memblock) { pa_assert_se(c->playback.current_memblock = pa_memblock_new(c->protocol->core->mempool, (size_t) -1)); c->playback.memblock_index = 0; space = pa_memblock_get_length(c->playback.current_memblock); } if (l > space) l = space; p = pa_memblock_acquire(c->playback.current_memblock); r = pa_iochannel_read(c->io, (uint8_t*) p+c->playback.memblock_index, l); pa_memblock_release(c->playback.current_memblock); if (r <= 0) { if (r < 0 && (errno == EINTR || errno == EAGAIN)) return 0; pa_log_debug("read(): %s", r < 0 ? pa_cstrerror(errno) : "EOF"); return -1; } chunk.memblock = c->playback.current_memblock; chunk.index = c->playback.memblock_index; chunk.length = (size_t) r; c->playback.memblock_index += (size_t) r; pa_asyncmsgq_post(c->sink_input->sink->asyncmsgq, PA_MSGOBJECT(c->sink_input), SINK_INPUT_MESSAGE_POST_DATA, NULL, 0, &chunk, NULL); pa_atomic_sub(&c->playback.missing, (int) r); } return 0; } static int do_write(connection *c) { connection_assert_ref(c); /* pa_log("WRITE"); */ if (c->write_data_length) { ssize_t r; pa_assert(c->write_data_index < c->write_data_length); if ((r = pa_iochannel_write(c->io, (uint8_t*) c->write_data+c->write_data_index, c->write_data_length-c->write_data_index)) < 0) { if (r < 0 && (errno == EINTR || errno == EAGAIN)) return 0; pa_log("write(): %s", pa_cstrerror(errno)); return -1; } c->write_data_index += (size_t) r; if (c->write_data_index >= c->write_data_length) c->write_data_length = c->write_data_index = 0; } else if (c->state == ESD_STREAMING_DATA && c->source_output) { pa_memchunk chunk; ssize_t r; void *p; if (pa_memblockq_peek(c->output_memblockq, &chunk) < 0) return 0; pa_assert(chunk.memblock); pa_assert(chunk.length); p = pa_memblock_acquire(chunk.memblock); r = pa_iochannel_write(c->io, (uint8_t*) p+chunk.index, chunk.length); pa_memblock_release(chunk.memblock); pa_memblock_unref(chunk.memblock); if (r < 0) { if (r < 0 && (errno == EINTR || errno == EAGAIN)) return 0; pa_log("write(): %s", pa_cstrerror(errno)); return -1; } pa_memblockq_drop(c->output_memblockq, (size_t) r); } return 0; } static void do_work(connection *c) { connection_assert_ref(c); c->protocol->core->mainloop->defer_enable(c->defer_event, 0); if (c->dead) return; if (pa_iochannel_is_readable(c->io)) if (do_read(c) < 0) goto fail; if (c->state == ESD_STREAMING_DATA && !c->sink_input && pa_iochannel_is_hungup(c->io)) /* In case we are in capture mode we will never call read() * on the socket, hence we need to detect the hangup manually * here, instead of simply waiting for read() to return 0. */ goto fail; if (pa_iochannel_is_writable(c->io)) if (do_write(c) < 0) goto fail; return; fail: if (c->state == ESD_STREAMING_DATA && c->sink_input) { c->dead = TRUE; pa_iochannel_free(c->io); c->io = NULL; pa_asyncmsgq_post(c->sink_input->sink->asyncmsgq, PA_MSGOBJECT(c->sink_input), SINK_INPUT_MESSAGE_DISABLE_PREBUF, NULL, 0, NULL, NULL); } else connection_unlink(c); } static void io_callback(pa_iochannel*io, void *userdata) { connection *c = CONNECTION(userdata); connection_assert_ref(c); pa_assert(io); do_work(c); } static void defer_callback(pa_mainloop_api*a, pa_defer_event *e, void *userdata) { connection *c = CONNECTION(userdata); connection_assert_ref(c); pa_assert(e); do_work(c); } static int connection_process_msg(pa_msgobject *o, int code, void*userdata, int64_t offset, pa_memchunk *chunk) { connection *c = CONNECTION(o); connection_assert_ref(c); if (!c->protocol) return -1; switch (code) { case CONNECTION_MESSAGE_REQUEST_DATA: do_work(c); break; case CONNECTION_MESSAGE_POST_DATA: /* pa_log("got data %u", chunk->length); */ pa_memblockq_push_align(c->output_memblockq, chunk); do_work(c); break; case CONNECTION_MESSAGE_UNLINK_CONNECTION: connection_unlink(c); break; } return 0; } /*** sink_input callbacks ***/ /* Called from thread context */ static int sink_input_process_msg(pa_msgobject *o, int code, void *userdata, int64_t offset, pa_memchunk *chunk) { pa_sink_input *i = PA_SINK_INPUT(o); connection*c; pa_sink_input_assert_ref(i); c = CONNECTION(i->userdata); connection_assert_ref(c); switch (code) { case SINK_INPUT_MESSAGE_POST_DATA: { pa_assert(chunk); /* New data from the main loop */ pa_memblockq_push_align(c->input_memblockq, chunk); if (pa_memblockq_is_readable(c->input_memblockq) && c->playback.underrun) { pa_log_debug("Requesting rewind due to end of underrun."); pa_sink_input_request_rewind(c->sink_input, 0, FALSE, TRUE, FALSE); } /* pa_log("got data, %u", pa_memblockq_get_length(c->input_memblockq)); */ return 0; } case SINK_INPUT_MESSAGE_DISABLE_PREBUF: pa_memblockq_prebuf_disable(c->input_memblockq); return 0; case PA_SINK_INPUT_MESSAGE_GET_LATENCY: { pa_usec_t *r = userdata; *r = pa_bytes_to_usec(pa_memblockq_get_length(c->input_memblockq), &c->sink_input->sample_spec); /* Fall through, the default handler will add in the extra * latency added by the resampler */ } default: return pa_sink_input_process_msg(o, code, userdata, offset, chunk); } } /* Called from thread context */ static int sink_input_pop_cb(pa_sink_input *i, size_t length, pa_memchunk *chunk) { connection*c; pa_sink_input_assert_ref(i); c = CONNECTION(i->userdata); connection_assert_ref(c); pa_assert(chunk); if (pa_memblockq_peek(c->input_memblockq, chunk) < 0) { c->playback.underrun = TRUE; if (c->dead && pa_sink_input_safe_to_remove(i)) pa_asyncmsgq_post(pa_thread_mq_get()->outq, PA_MSGOBJECT(c), CONNECTION_MESSAGE_UNLINK_CONNECTION, NULL, 0, NULL, NULL); return -1; } else { size_t m; chunk->length = PA_MIN(length, chunk->length); c->playback.underrun = FALSE; pa_memblockq_drop(c->input_memblockq, chunk->length); m = pa_memblockq_pop_missing(c->input_memblockq); if (m > 0) if (pa_atomic_add(&c->playback.missing, (int) m) <= 0) pa_asyncmsgq_post(pa_thread_mq_get()->outq, PA_MSGOBJECT(c), CONNECTION_MESSAGE_REQUEST_DATA, NULL, 0, NULL, NULL); return 0; } } /* Called from thread context */ static void sink_input_process_rewind_cb(pa_sink_input *i, size_t nbytes) { connection *c; pa_sink_input_assert_ref(i); c = CONNECTION(i->userdata); connection_assert_ref(c); /* If we are in an underrun, then we don't rewind */ if (i->thread_info.underrun_for > 0) return; pa_memblockq_rewind(c->input_memblockq, nbytes); } /* Called from thread context */ static void sink_input_update_max_rewind_cb(pa_sink_input *i, size_t nbytes) { connection *c; pa_sink_input_assert_ref(i); c = CONNECTION(i->userdata); connection_assert_ref(c); pa_memblockq_set_maxrewind(c->input_memblockq, nbytes); } static void sink_input_kill_cb(pa_sink_input *i) { pa_sink_input_assert_ref(i); connection_unlink(CONNECTION(i->userdata)); } /*** source_output callbacks ***/ /* Called from thread context */ static void source_output_push_cb(pa_source_output *o, const pa_memchunk *chunk) { connection *c; pa_source_output_assert_ref(o); c = CONNECTION(o->userdata); pa_assert(c); pa_assert(chunk); pa_asyncmsgq_post(pa_thread_mq_get()->outq, PA_MSGOBJECT(c), CONNECTION_MESSAGE_POST_DATA, NULL, 0, chunk, NULL); } static void source_output_kill_cb(pa_source_output *o) { pa_source_output_assert_ref(o); connection_unlink(CONNECTION(o->userdata)); } static pa_usec_t source_output_get_latency_cb(pa_source_output *o) { connection*c; pa_source_output_assert_ref(o); c = CONNECTION(o->userdata); pa_assert(c); return pa_bytes_to_usec(pa_memblockq_get_length(c->output_memblockq), &c->source_output->sample_spec); } /*** entry points ***/ static void auth_timeout(pa_mainloop_api*m, pa_time_event *e, const struct timeval *tv, void *userdata) { connection *c = CONNECTION(userdata); pa_assert(m); pa_assert(tv); connection_assert_ref(c); pa_assert(c->auth_timeout_event == e); if (!c->authorized) connection_unlink(c); } void pa_esound_protocol_connect(pa_esound_protocol *p, pa_iochannel *io, pa_esound_options *o) { connection *c; char pname[128]; pa_client_new_data data; pa_client *client; pa_assert(p); pa_assert(io); pa_assert(o); if (pa_idxset_size(p->connections)+1 > MAX_CONNECTIONS) { pa_log("Warning! Too many connections (%u), dropping incoming connection.", MAX_CONNECTIONS); pa_iochannel_free(io); return; } pa_client_new_data_init(&data); data.module = o->module; data.driver = __FILE__; pa_iochannel_socket_peer_to_string(io, pname, sizeof(pname)); pa_proplist_setf(data.proplist, PA_PROP_APPLICATION_NAME, "EsounD client (%s)", pname); pa_proplist_sets(data.proplist, "esound-protocol.peer", pname); client = pa_client_new(p->core, &data); pa_client_new_data_done(&data); if (!client) return; c = pa_msgobject_new(connection); c->parent.parent.free = connection_free; c->parent.process_msg = connection_process_msg; c->protocol = p; c->io = io; pa_iochannel_set_callback(c->io, io_callback, c); c->client = client; c->client->kill = client_kill_cb; c->client->userdata = c; c->options = pa_esound_options_ref(o); c->authorized = FALSE; c->swap_byte_order = FALSE; c->dead = FALSE; c->read_data_length = 0; c->read_data = pa_xmalloc(c->read_data_alloc = proto_map[ESD_PROTO_CONNECT].data_length); c->write_data_length = c->write_data_index = c->write_data_alloc = 0; c->write_data = NULL; c->state = ESD_NEEDS_REQDATA; c->request = ESD_PROTO_CONNECT; c->sink_input = NULL; c->input_memblockq = NULL; c->source_output = NULL; c->output_memblockq = NULL; c->playback.current_memblock = NULL; c->playback.memblock_index = 0; c->playback.underrun = TRUE; pa_atomic_store(&c->playback.missing, 0); pa_memchunk_reset(&c->scache.memchunk); c->scache.name = NULL; c->original_name = NULL; if (o->auth_anonymous) { pa_log_info("Client authenticated anonymously."); c->authorized = TRUE; } if (!c->authorized && o->auth_ip_acl && pa_ip_acl_check(o->auth_ip_acl, pa_iochannel_get_recv_fd(io)) > 0) { pa_log_info("Client authenticated by IP ACL."); c->authorized = TRUE; } if (!c->authorized) { struct timeval tv; pa_gettimeofday(&tv); tv.tv_sec += AUTH_TIMEOUT; c->auth_timeout_event = p->core->mainloop->time_new(p->core->mainloop, &tv, auth_timeout, c); } else c->auth_timeout_event = NULL; c->defer_event = p->core->mainloop->defer_new(p->core->mainloop, defer_callback, c); p->core->mainloop->defer_enable(c->defer_event, 0); pa_idxset_put(p->connections, c, &c->index); } void pa_esound_protocol_disconnect(pa_esound_protocol *p, pa_module *m) { connection *c; void *state = NULL; pa_assert(p); pa_assert(m); while ((c = pa_idxset_iterate(p->connections, &state, NULL))) if (c->options->module == m) connection_unlink(c); } static pa_esound_protocol* esound_protocol_new(pa_core *c) { pa_esound_protocol *p; pa_assert(c); p = pa_xnew(pa_esound_protocol, 1); PA_REFCNT_INIT(p); p->core = c; p->connections = pa_idxset_new(NULL, NULL); p->n_player = 0; pa_assert_se(pa_shared_set(c, "esound-protocol", p) >= 0); return p; } pa_esound_protocol* pa_esound_protocol_get(pa_core *c) { pa_esound_protocol *p; if ((p = pa_shared_get(c, "esound-protocol"))) return pa_esound_protocol_ref(p); return esound_protocol_new(c); } pa_esound_protocol* pa_esound_protocol_ref(pa_esound_protocol *p) { pa_assert(p); pa_assert(PA_REFCNT_VALUE(p) >= 1); PA_REFCNT_INC(p); return p; } void pa_esound_protocol_unref(pa_esound_protocol *p) { connection *c; pa_assert(p); pa_assert(PA_REFCNT_VALUE(p) >= 1); if (PA_REFCNT_DEC(p) > 0) return; while ((c = pa_idxset_first(p->connections, NULL))) connection_unlink(c); pa_idxset_free(p->connections, NULL, NULL); pa_assert_se(pa_shared_remove(p->core, "esound-protocol") >= 0); pa_xfree(p); } pa_esound_options* pa_esound_options_new(void) { pa_esound_options *o; o = pa_xnew0(pa_esound_options, 1); PA_REFCNT_INIT(o); return o; } pa_esound_options* pa_esound_options_ref(pa_esound_options *o) { pa_assert(o); pa_assert(PA_REFCNT_VALUE(o) >= 1); PA_REFCNT_INC(o); return o; } void pa_esound_options_unref(pa_esound_options *o) { pa_assert(o); pa_assert(PA_REFCNT_VALUE(o) >= 1); if (PA_REFCNT_DEC(o) > 0) return; if (o->auth_ip_acl) pa_ip_acl_free(o->auth_ip_acl); if (o->auth_cookie) pa_auth_cookie_unref(o->auth_cookie); pa_xfree(o->default_sink); pa_xfree(o->default_source); pa_xfree(o); } int pa_esound_options_parse(pa_esound_options *o, pa_core *c, pa_modargs *ma) { pa_bool_t enabled; const char *acl; pa_assert(o); pa_assert(PA_REFCNT_VALUE(o) >= 1); pa_assert(ma); if (pa_modargs_get_value_boolean(ma, "auth-anonymous", &o->auth_anonymous) < 0) { pa_log("auth-anonymous= expects a boolean argument."); return -1; } if ((acl = pa_modargs_get_value(ma, "auth-ip-acl", NULL))) { pa_ip_acl *ipa; if (!(ipa = pa_ip_acl_new(acl))) { pa_log("Failed to parse IP ACL '%s'", acl); return -1; } if (o->auth_ip_acl) pa_ip_acl_free(o->auth_ip_acl); o->auth_ip_acl = ipa; } enabled = TRUE; if (pa_modargs_get_value_boolean(ma, "auth-cookie-enabled", &enabled) < 0) { pa_log("auth-cookie-enabled= expects a boolean argument."); return -1; } if (o->auth_cookie) pa_auth_cookie_unref(o->auth_cookie); if (enabled) { const char *cn; /* The new name for this is 'auth-cookie', for compat reasons * we check the old name too */ if (!(cn = pa_modargs_get_value(ma, "auth-cookie", NULL))) if (!(cn = pa_modargs_get_value(ma, "cookie", NULL))) cn = DEFAULT_COOKIE_FILE; if (!(o->auth_cookie = pa_auth_cookie_get(c, cn, ESD_KEY_LEN))) return -1; } else o->auth_cookie = NULL; pa_xfree(o->default_sink); o->default_sink = pa_xstrdup(pa_modargs_get_value(ma, "sink", NULL)); pa_xfree(o->default_source); o->default_source = pa_xstrdup(pa_modargs_get_value(ma, "source", NULL)); return 0; }