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source: roaraudio/roard/streams.c @ 1224:d66ef0e2143d

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Last change on this file since 1224:d66ef0e2143d was 1224:d66ef0e2143d, checked in by phi, 15 years ago
start of stream ctl implementation
File size: 24.1 KB

Rev	Line
[0]	1	//streams.c:
	2
[668]	3	/*
	4	* Copyright (C) Philipp 'ph3-der-loewe' Schafft - 2008
	5	*
	6	* This file is part of roard a part of RoarAudio,
	7	* a cross-platform sound system for both, home and professional use.
	8	* See README for details.
	9	*
	10	* This file is free software; you can redistribute it and/or modify
	11	* it under the terms of the GNU General Public License version 3
	12	* as published by the Free Software Foundation.
	13	*
	14	* RoarAudio is distributed in the hope that it will be useful,
	15	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	16	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	17	* GNU General Public License for more details.
	18	*
	19	* You should have received a copy of the GNU General Public License
	20	* along with this software; see the file COPYING. If not, write to
	21	* the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA.
	22	*
	23	*/
	24
[0]	25	#include "roard.h"
	26
	27	int streams_init (void) {
	28	int i;
	29
	30	for (i = 0; i < ROAR_STREAMS_MAX; i++)
	31	g_streams[i] = NULL;
	32
	33	return 0;
	34	}
	35
	36	int streams_free (void) {
	37	int i;
	38
	39	for (i = 0; i < ROAR_STREAMS_MAX; i++) {
	40	if ( g_streams[i] != NULL ) {
	41	streams_delete(i);
	42	}
	43	}
	44
	45	return 0;
	46	}
	47
	48
	49	int streams_new (void) {
[16]	50	int i, j;
[494]	51	struct roar_stream * n = NULL;
	52	struct roar_stream_server * s = NULL;
[0]	53
[1155]	54	if ( g_terminate && !g_no_listen ) // don't accept new streams in case of termination state
[1148]	55	return -1;
	56
[0]	57	for (i = 0; i < ROAR_STREAMS_MAX; i++) {
	58	if ( g_streams[i] == NULL ) {
[494]	59	s = ROAR_STREAM_SERVER(n = ROAR_STREAM(malloc(sizeof(struct roar_stream_server))));
[0]	60	if ( n == NULL ) {
	61	ROAR_ERR("streams_new(void): can not allocate memory for new stream: %s", strerror(errno));
	62	ROAR_DBG("streams_new(void) = -1");
	63	return -1;
	64	}
	65
	66	n->id = i;
	67	n->fh = -1;
	68	// n->pos_rel_id = i;
	69	n->database = NULL;
	70	n->dataoff = NULL;
	71	n->datalen = 0;
	72	n->offset = 0;
[381]	73	n->pos = 0;
[0]	74
[494]	75	s->client = -1;
	76	s->socktype = ROAR_SOCKET_TYPE_UNKNOWN;
	77	s->buffer = NULL;
	78	s->need_extra = 0;
	79	s->output = NULL;
	80	s->is_new = 1;
	81	s->codecfilter = -1;
[538]	82	s->pre_underruns = 0;
	83	s->post_underruns = 0;
[1137]	84	s->delay = 0;
[538]	85	s->codec_orgi = -1;
[643]	86	s->primary = 0;
[494]	87
	88	s->mixer.scale = 65535;
	89	s->mixer.rpg_mul = 1;
	90	s->mixer.rpg_div = 1;
[16]	91	for (j = 0; j < ROAR_MAX_CHANNELS; j++)
[494]	92	s->mixer.mixer[j] = 65535;
	93
[90]	94	for (j = 0; j < ROAR_META_MAX_PER_STREAM; j++) {
[494]	95	s->meta[j].type = ROAR_META_TYPE_NONE;
	96	s->meta[j].key[0] = 0;
	97	s->meta[j].value = NULL;
[90]	98	}
[0]	99
[592]	100	roar_vio_init_calls(&(s->vio));
[930]	101	s->driver_id = -1;
[1030]	102	s->flags = ROAR_FLAG_NONE;
[592]	103
[981]	104	roardsp_fchain_init(&(s->fc));
	105
[494]	106	g_streams[i] = s;
[491]	107	ROAR_DBG("streams_new(void): n->id=%i", n->id);
[0]	108	ROAR_DBG("streams_new(void) = %i", i);
	109	return i;
	110	}
	111	}
	112
	113	return -1;
	114	}
	115
	116	int streams_delete (int id) {
[643]	117	struct roar_stream_server * s;
[645]	118	int prim;
	119
[643]	120	if ( (s = g_streams[id]) == NULL )
[0]	121	return 0;
	122
	123	ROAR_DBG("streams_delete(id=%i) = ?", id);
[643]	124	ROAR_DBG("streams_delete(id=%i): g_streams[id]->id=%i", id, ROAR_STREAM(s)->id);
[0]	125
[1045]	126	// delete meta data form other meta streams if needed
	127	if ( streams_get_flag(id, ROAR_FLAG_META) == 1 ) {
	128	ROAR_DBG("streams_delete(id=%i): deleting meta stream!", id);
	129	stream_meta_clear(id);
	130	stream_meta_finalize(id);
	131	}
	132
[643]	133	if ( s->codecfilter != -1 ) {
	134	codecfilter_close(s->codecfilter_inst, s->codecfilter);
	135	s->codecfilter_inst = NULL;
	136	s->codecfilter = -1;
	137	}
	138
[936]	139	if ( s->driver_id != -1 ) {
[937]	140	driver_closevio(&(s->vio), s->driver_id);
[936]	141	roar_vio_init_calls(&(s->vio));
	142	s->driver_id = -1;
	143	}
	144
[981]	145	roardsp_fchain_uninit(&(s->fc));
	146
[643]	147	if ( s->client != -1 ) {
	148	ROAR_DBG("streams_delete(id=%i): Stream is owned by client %i", id, g_streams[id]->client);
	149	client_stream_delete(s->client, id);
[269]	150	}
	151
[643]	152	if ( s->buffer != NULL )
	153	roar_buffer_free(s->buffer);
	154
	155	if ( s->output != NULL )
	156	free(s->output);
	157
	158	if ( ROAR_STREAM(s)->fh != -1 )
	159	close(ROAR_STREAM(s)->fh);
	160
[645]	161	prim = s->primary;
[0]	162
[643]	163	free(s);
[0]	164
	165	g_streams[id] = NULL;
	166
[645]	167	if ( prim ) {
	168	alive = 0;
	169	clean_quit();
	170	}
	171
[0]	172	ROAR_DBG("streams_delete(id=%i) = 0", id);
	173	return 0;
	174	}
	175
	176	int streams_set_client (int id, int client) {
	177	if ( g_streams[id] == NULL )
	178	return -1;
	179
[491]	180	ROAR_DBG("streams_set_client(id=%i): g_streams[id]->id=%i", id, ROAR_STREAM(g_streams[id])->id);
[0]	181	g_streams[id]->client = client;
	182
	183	return 0;
	184	}
	185
[766]	186	int streams_get_client (int id) {
	187	if ( g_streams[id] == NULL )
	188	return -1;
	189
	190	return g_streams[id]->client;
	191	}
	192
	193
[0]	194	int streams_set_fh (int id, int fh) {
[51]	195	int dir;
	196
[0]	197	if ( g_streams[id] == NULL )
	198	return -1;
	199
[491]	200	ROAR_DBG("streams_set_fh(id=%i): g_streams[id]->id=%i", id, ROAR_STREAM(g_streams[id])->id);
	201
[609]	202	ROAR_STREAM(g_streams[id])->fh = fh;
[0]	203
[571]	204	if ( codecfilter_open(&(g_streams[id]->codecfilter_inst), &(g_streams[id]->codecfilter), NULL,
	205	ROAR_STREAM(g_streams[id])->info.codec, g_streams[id]) == -1 ) {
	206	return streams_delete(id);
	207	}
[268]	208
[634]	209	if ( fh == -1 ) { // yes, this is valid, indecats full vio!
	210	return 0;
	211	}
	212
[971]	213	// roar_socket_recvbuf(fh, ROAR_OUTPUT_CALC_OUTBUFSIZE( &(ROAR_STREAM(g_streams[id])->info) )); // set recv buffer to minimum
[968]	214
[491]	215	dir = ROAR_STREAM(g_streams[id])->dir;
[51]	216
[634]	217	if ( dir == ROAR_DIR_MONITOR \|\| dir == ROAR_DIR_RECORD \|\| dir == ROAR_DIR_OUTPUT ) {
[53]	218	shutdown(fh, SHUT_RD);
[51]	219	}
	220
	221	if ( dir == ROAR_DIR_FILTER ) {
[0]	222	return 0;
	223	} else {
	224	return roar_socket_nonblock(fh, ROAR_SOCKET_NONBLOCK);
	225	}
	226	}
	227
[66]	228	int streams_get_fh (int id) {
[84]	229	if ( id < 0 )
	230	return -1;
	231
[66]	232	if ( g_streams[id] == NULL )
	233	return -1;
	234
[609]	235	return ROAR_STREAM(g_streams[id])->fh;
[66]	236	}
[0]	237
	238	int streams_get (int id, struct roar_stream_server ** stream) {
	239	if ( g_streams[id] == NULL )
	240	return -1;
	241
	242	*stream = g_streams[id];
	243
	244	return 0;
	245	}
	246
[377]	247	int streams_set_socktype (int id, int socktype) {
	248	if ( g_streams[id] == NULL )
	249	return -1;
	250
	251	g_streams[id]->socktype = socktype;
	252
	253	return 0;
	254	}
	255
	256	int streams_get_socktype (int id) {
	257	if ( g_streams[id] == NULL )
	258	return -1;
	259
	260	return g_streams[id]->socktype;
	261	}
[0]	262
[643]	263	int streams_set_primary (int id, int prim) {
	264	if ( g_streams[id] == NULL )
	265	return -1;
	266
	267	g_streams[id]->primary = prim;
	268
	269	return 0;
	270	}
	271
	272	int streams_mark_primary (int id) {
	273	return streams_set_primary(id, 1);
	274	}
[1029]	275
[1116]	276	int streams_set_sync (int id, int sync) {
[1117]	277	int fh = streams_get_fh(id);
[1116]	278
[1117]	279	if ( fh != -1 ) {
	280	if ( roar_socket_nonblock(fh, sync ? ROAR_SOCKET_BLOCK : ROAR_SOCKET_NONBLOCK) == -1 )
	281	return -1;
[1116]	282
[1171]	283	ROAR_FDATASYNC(fh);
[1125]	284
	285	return 0;
[1117]	286	} else {
	287	return roar_vio_nonblock(&(g_streams[id]->vio), sync);
	288	}
[1116]	289	}
	290
[1029]	291	int streams_set_flag (int id, int flag) {
	292	if ( g_streams[id] == NULL )
	293	return -1;
	294
[1043]	295	if ( flag & ROAR_FLAG_PRIMARY ) {
	296	streams_set_primary(id, 1);
	297	flag -= ROAR_FLAG_PRIMARY;
	298	}
	299
[1116]	300	if ( flag & ROAR_FLAG_SYNC ) {
[1125]	301	if ( streams_set_sync(id, 1) == -1 )
	302	flag -= ROAR_FLAG_SYNC;
[1116]	303	}
	304
[1029]	305	g_streams[id]->flags \|= flag;
	306
[1043]	307	if ( flag & ROAR_FLAG_META )
	308	stream_meta_finalize(id);
	309
[1029]	310	return 0;
	311	}
	312
	313	int streams_reset_flag (int id, int flag) {
	314	if ( g_streams[id] == NULL )
	315	return -1;
	316
[1043]	317	if ( flag & ROAR_FLAG_PRIMARY ) {
	318	streams_set_primary(id, 0);
	319	flag -= ROAR_FLAG_PRIMARY;
	320	}
	321
[1116]	322	if ( flag & ROAR_FLAG_SYNC ) {
	323	streams_set_sync(id, 0);
	324	}
	325
[1029]	326	g_streams[id]->flags \|= flag;
	327	g_streams[id]->flags -= flag;
	328
	329	return 0;
	330	}
	331
[1042]	332	int streams_get_flag (int id, int flag) {
	333	if ( g_streams[id] == NULL )
	334	return -1;
	335
	336	return g_streams[id]->flags & flag ? 1 : 0;
	337	}
	338
[1223]	339	int streams_calc_delay (int id) {
[1142]	340	struct roar_stream_server * ss;
[1151]	341	struct roar_stream * s;
[1142]	342	register uint_least32_t d = 0;
	343	uint_least32_t t[1];
[1151]	344	uint64_t tmp;
[1142]	345
[1151]	346	if ( (s = ROAR_STREAM(ss = g_streams[id])) == NULL )
[1142]	347	return -1;
	348
	349	if ( ss->codecfilter != -1 ) {
	350	if ( codecfilter_delay(ss->codecfilter_inst, ss->codecfilter, t) != -1 )
	351	d += *t;
	352	}
	353
[1151]	354	if ( ss->vio.ctl != NULL ) {
	355	if ( roar_vio_ctl(&(ss->vio), ROAR_VIO_CTL_GET_DELAY, t) != -1 ) { // *t is in byte
[1223]	356	ROAR_DBG("streams_calc_delay(id=%i): VIO delay in byte: %i", id, *t);
[1151]	357	tmp = *t;
	358	tmp *= 1000000; // musec per sec
	359	tmp /= s->info.rate * s->info.channels * (s->info.bits/8);
[1223]	360	ROAR_DBG("streams_calc_delay(id=%i): VIO delay in musec: %i", id, tmp);
[1151]	361
	362	d += tmp;
	363	}
	364	}
	365
[1223]	366	ROAR_DBG("streams_calc_delay(id=%i): delay in musec: %i", id, d);
[1151]	367
[1142]	368	ss->delay = d;
	369
	370	return 0;
	371	}
	372
[1224]	373	int streams_ctl (int id, int_least32_t cmd, void * data) {
	374	struct roar_stream_server * ss;
	375	int_least32_t comp;
	376
	377	if ( (ss = g_streams[id]) == NULL )
	378	return -1;
	379
	380	comp = cmd & ROAR_STREAM_CTL_COMPMASK;
	381
	382	cmd &= ~comp;
	383
	384	switch (comp) {
	385	case ROAR_STREAM_CTL_COMP_BASE:
	386	break;
	387	case ROAR_STREAM_CTL_COMP_CF:
	388	return codecfilter_ctl(ss->codecfilter_inst, ss->codecfilter, cmd, data);
	389	break;
	390	case ROAR_STREAM_CTL_COMP_DRV:
	391	break;
	392	default:
	393	return -1;
	394	}
	395
	396	return -1;
	397	}
	398
[0]	399	int streams_get_outputbuffer (int id, void ** buffer, size_t size) {
	400	if ( g_streams[id] == NULL )
	401	return -1;
	402
	403	// output buffer size does never change.
	404	if ( g_streams[id]->output != NULL ) {
	405	*buffer = g_streams[id]->output;
	406	return 0;
	407	}
	408
	409	if ( (g_streams[id]->output = malloc(size)) == NULL ) {
	410	ROAR_ERR("streams_get_outputbuffer(*): Can not alloc: %s", strerror(errno));
	411	return -1;
	412	}
	413
	414	*buffer = g_streams[id]->output;
	415
	416	return 0;
	417	}
	418
	419	int streams_fill_mixbuffer (int id, struct roar_audio_info * info) {
	420	// TODO: decide: is this the most complex, hacked, un-understadable,
	421	// un-writeable and even worse: un-readable
	422	// function in the whole project?
	423	size_t todo = ROAR_OUTPUT_CALC_OUTBUFSIZE(info);
[381]	424	size_t needed = todo;
[0]	425	size_t todo_in;
	426	size_t len, outlen;
[491]	427	size_t mul = 1, div = 1;
[0]	428	void * rest = NULL;
	429	void * in = NULL;
	430	struct roar_buffer * buf;
	431	struct roar_audio_info * stream_info;
[495]	432	struct roar_stream_server * stream = g_streams[id];
[0]	433	int is_the_same = 0;
	434
	435	if ( g_streams[id] == NULL )
	436	return -1;
	437
	438	if ( streams_get_outputbuffer(id, &rest, todo) == -1 ) {
	439	return -1;
	440	}
	441
	442	if ( rest == NULL ) {
	443	return -1;
	444	}
	445
	446	// set up stream_info
	447
[495]	448	stream_info = &(ROAR_STREAM(stream)->info);
[0]	449
	450	// calc todo_in
[491]	451	todo_in = ROAR_OUTPUT_CALC_OUTBUFSIZE(stream_info);
	452
	453	// calc mul and div:
	454	mul = todo / todo_in;
	455	div = todo_in / todo;
	456
	457	if ( mul == 0 ) {
	458	mul = 1;
	459	} else {
	460	div = 1;
	461	}
	462
	463	ROAR_DBG("streams_fill_mixbuffer(*): mul=%i, div=%i", mul, div);
[0]	464
	465	ROAR_DBG("streams_fill_mixbuffer(*): rest=%p, todo=%i->%i (in->out)", rest, todo_in, todo);
	466	// are both (input and output) of same format?
	467
	468
	469	ROAR_DBG("streams_fill_mixbuffer(*): stream_info:");
	470	roar_debug_audio_info_print(stream_info);
	471	ROAR_DBG("streams_fill_mixbuffer(*): info:");
	472	roar_debug_audio_info_print(info);
	473
	474	is_the_same = stream_info->rate == info->rate && stream_info->bits == info->bits &&
	475	stream_info->channels == info->channels && stream_info->codec == info->codec;
	476
	477	ROAR_DBG("streams_fill_mixbuffer(*): is_the_same=%i", is_the_same);
	478
	479	/* How it works:
	480	*
	481	* set a counter to the number of samples we need.
	482	* loop until we have all samples done or no samples are
	483	* left in our input buffer.
	484	* If there a no samples left in the input buffer: fill the rest
	485	* of the output buffer with zeros.
	486	*
	487	* The loop:
	488	* get a buffer from the input.
	489	* if it's bigger than needed, set an offset.
	490	* The rest of the data:
	491	* 0) convert endianness (codec) from remote to local...
	492	* 1) change bits in of the samples
	493	* 2) change sample rate
	494	* 3) change the nummber of channels
	495	* 4) insert into output buffer
	496	*/
	497
	498	/*
	499	// get our first buffer:
	500
	501	if ( stream_shift_buffer(id, &buf) == -1 ) {
	502	return -1;
	503	}
	504
	505	// first test for some basic simple cases...
	506
	507	if ( buf == NULL ) { // we habe nothing in input queue
	508	// we may memset() our output buffer OR
	509	// just return with -1 so we are going to
	510	// be ignored.
	511	return -1;
	512	}
	513	*/
	514
	515	while (todo) { // main loop
	516	ROAR_DBG("streams_fill_mixbuffer(*): looping...");
	517	// exit loop if nothing is left, even if we need more data..
	518	if ( stream_shift_buffer(id, &buf) == -1 )
	519	break;
	520	if ( buf == NULL )
	521	break;
	522
	523	// read the data for this loop...
	524	roar_buffer_get_data(buf, &in);
	525	roar_buffer_get_len(buf, &len);
	526
	527	ROAR_DBG("streams_fill_mixbuffer(*): len = %i", len);
	528
	529	if ( len > todo_in ) {
	530	roar_buffer_set_offset(buf, todo_in);
	531	len = todo_in;
	532	} else {
	533	roar_buffer_set_len(buf, 0); // queue for deletation
	534	}
	535
	536	// we now have 'len' bytes in 'in'
	537
	538	// calc how much outlen this has...
[491]	539	outlen = (len * mul) / div;
[0]	540
	541	ROAR_DBG("streams_fill_mixbuffer(*): outlen = %i, buf = %p, len = %i", outlen, in, len);
	542
	543	if ( is_the_same ) {
	544	/*
	545	* 0) convert endianness (codec) from remote to local...
	546	* 1) change bits in of the samples
	547	* 2) change sample rate
	548	* 3) change the nummber of channels
	549	\\==> skiping,...
	550	*/
	551	// * 4) insert into output buffer
	552	ROAR_DBG("streams_fill_mixbuffer(*): memcpy: in->rest: %p -> %p", in, rest);
	553	if ( memcpy(rest, in, len) != rest ) {
	554	ROAR_ERR("streams_fill_mixbuffer(*): memcpy returned invalid pointer.");
	555	}
	556
	557	} else {
	558
	559	/*
	560	// * 0) convert endianness (codec) from remote to local...
	561	if ( stream_info->codec != info->codec ) {
	562	// we neet to convert...
	563	return -1;
	564	}
	565
	566	// * 1) change bits in of the samples
	567	if ( stream_info->bits != info->bits ) {
	568	return -1;
	569	}
	570
	571	// * 2) change sample rate
	572	if ( stream_info->rate != info->rate ) {
	573	return -1;
	574	}
	575
	576	// * 3) change the nummber of channels
	577	if ( stream_info->channels != info->channels ) {
	578	return -1;
	579	}
	580
	581	// * 4) insert into output buffer
	582	*/
	583	// hey! we have roar_conv() :)
	584
[491]	585	if ( roar_conv(rest, in, 8*len / stream_info->bits, stream_info, info) == -1 )
	586	return -1;
	587	}
[0]	588
[495]	589	if ( change_vol(rest, info->bits, rest, 8*outlen / info->bits, info->channels, &(stream->mixer)) == -1 )
[491]	590	return -1;
[17]	591
[0]	592	// we habe outlen bytes more...
[491]	593	todo -= outlen;
	594	rest += outlen;
	595	todo_in -= len;
[0]	596
[491]	597	roar_buffer_get_len(buf, &len);
	598	ROAR_DBG("streams_fill_mixbuffer(*): New length of buffer %p is %i", buf, len);
	599	if ( len == 0 ) {
	600	roar_buffer_delete(buf, NULL);
	601	} else {
	602	stream_unshift_buffer(id, buf);
[271]	603	}
[0]	604	}
	605
[271]	606	//len = 0;
	607	//roar_buffer_get_len(buf, &len);
[0]	608
	609	/*
	610	if ( len > 0 ) // we still have some data in this buffer, re-inserting it to the input buffers...
	611	stream_unshift_buffer(id, buf);
	612	else
	613	buffer_delete(buf, NULL);
	614	*/
	615
[609]	616	ROAR_STREAM(g_streams[id])->pos =
	617	ROAR_MATH_OVERFLOW_ADD(ROAR_STREAM(g_streams[id])->pos,
[381]	618	ROAR_OUTPUT_CALC_OUTBUFSAMP(info, needed-todo));
	619	//ROAR_WARN("stream=%i, pos=%u", id, ((struct roar_stream*)g_streams[id])->pos);
	620
[495]	621	if ( todo > 0 ) { // zeroize the rest of the buffer
[0]	622	memset(rest, 0, todo);
[125]	623
	624	if ( todo != ROAR_OUTPUT_CALC_OUTBUFSIZE(info) ) {
[495]	625	if ( g_streams[id]->is_new ) {
	626	stream->pre_underruns++;
	627	} else {
[701]	628	ROAR_WARN("streams_fill_mixbuffer(*): Underrun in stream: %u bytes missing, filling with zeros", (unsigned int)todo);
[495]	629	stream->post_underruns++;
	630	}
[125]	631
[495]	632	stream->is_new = 0;
[125]	633	}
	634	} else {
[495]	635	stream->is_new = 0;
[0]	636	}
	637
	638	return 0;
	639	}
	640
[491]	641
[0]	642	int streams_get_mixbuffers (void *** bufferlist, struct roar_audio_info * info, unsigned int pos) {
[84]	643	static void * bufs[ROAR_STREAMS_MAX+1];
[0]	644	int i;
	645	int have = 0;
	646
	647	for (i = 0; i < ROAR_STREAMS_MAX; i++) {
	648	if ( g_streams[i] != NULL ) {
[826]	649	if ( ROAR_STREAM(g_streams[i])->dir != ROAR_DIR_PLAY && ROAR_STREAM(g_streams[i])->dir != ROAR_DIR_BIDIR )
[0]	650	continue;
	651
	652	if ( streams_get_outputbuffer(i, &bufs[have], ROAR_OUTPUT_CALC_OUTBUFSIZE(info)) == -1 ) {
	653	ROAR_ERR("streams_get_mixbuffer(*): Can not alloc output buffer for stream %i, BAD!", i);
	654	ROAR_ERR("streams_get_mixbuffer(*): Ignoring stream for this round.");
	655	continue;
	656	}
	657	if ( streams_fill_mixbuffer(i, info) == -1 ) {
	658	ROAR_ERR("streams_get_mixbuffer(*): Can not fill output buffer for stream %i, this should not happen", i);
	659	continue;
	660	}
	661
[139]	662	// printf("D: bufs[have=%i] = %p\n", have, bufs[have]);
	663
[0]	664	ROAR_DBG("streams_get_mixbuffers(*): bufs[have] = %p", bufs[have]);
	665	ROAR_DBG("streams_get_mixbuffers(): bufs[have] = 0x%08x...", (uint32_t)bufs[have]);
	666
	667	have++; // we have a new stream!
	668	}
	669	}
	670
	671	bufs[have] = NULL;
[139]	672	//printf("D: bufs[have=%i] = %p\n", have, bufs[have]);
[0]	673
	674	ROAR_DBG("streams_get_mixbuffers(*): have = %i", have);
	675
	676	*bufferlist = bufs;
[547]	677	return have;
[0]	678	}
	679
	680
	681	int stream_add_buffer (int id, struct roar_buffer * buf) {
	682	ROAR_DBG("stream_add_buffer(id=%i, buf=%p) = ?", id, buf);
	683
	684	if ( g_streams[id] == NULL )
	685	return -1;
	686
	687	if ( g_streams[id]->buffer == NULL ) {
	688	g_streams[id]->buffer = buf;
	689	ROAR_DBG("stream_add_buffer(id=%i, buf=%p) = 0", id, buf);
	690	return 0;
	691	}
	692
	693	ROAR_DBG("stream_add_buffer(id=%i, buf=%p) = ?", id, buf);
	694	return roar_buffer_add(g_streams[id]->buffer, buf);
	695	}
	696
	697	int stream_shift_buffer (int id, struct roar_buffer ** buf) {
	698	struct roar_buffer * next;
	699
	700	if ( g_streams[id] == NULL )
	701	return -1;
	702
	703	if ( g_streams[id]->buffer == NULL ) {
	704	*buf = NULL;
	705	return 0;
	706	}
	707
	708	roar_buffer_get_next(g_streams[id]->buffer, &next);
	709
	710	*buf = g_streams[id]->buffer;
	711	g_streams[id]->buffer = next;
	712
	713	return 0;
	714	}
	715	int stream_unshift_buffer (int id, struct roar_buffer * buf) {
	716	if ( g_streams[id] == NULL )
	717	return -1;
	718
	719	if ( g_streams[id]->buffer == NULL ) {
	720	g_streams[id]->buffer = buf;
	721	return 0;
	722	}
	723
[271]	724	buf->next = NULL;
	725
[0]	726	roar_buffer_add(buf, g_streams[id]->buffer);
	727
	728	g_streams[id]->buffer = buf;
	729
	730	return 0;
	731	}
	732
	733	int streams_check (int id) {
	734	int fh;
[508]	735	ssize_t req, realreq, done;
[0]	736	struct roar_stream * s;
	737	struct roar_stream_server * ss;
	738	struct roar_buffer * b;
	739	char * buf;
	740
	741	if ( g_streams[id] == NULL )
	742	return -1;
	743
	744	ROAR_DBG("streams_check(id=%i) = ?", id);
	745
[609]	746	s = ROAR_STREAM(ss = g_streams[id]);
[0]	747
	748	if ( (fh = s->fh) == -1 )
	749	return 0;
	750
[826]	751	if ( s->dir != ROAR_DIR_PLAY && s->dir != ROAR_DIR_BIDIR )
[0]	752	return 0;
	753
	754	ROAR_DBG("streams_check(id=%i): fh = %i", id, fh);
	755
	756	req = ROAR_OUTPUT_BUFFER_SAMPLES * s->info.channels * s->info.bits / 8; // optimal size
	757	req += ss->need_extra; // bytes left we sould get....
	758
	759	if ( roar_buffer_new(&b, req) == -1 ) {
	760	ROAR_ERR("streams_check(*): Can not alloc buffer space!");
	761	ROAR_DBG("streams_check(*) = -1");
	762	return -1;
	763	}
	764
	765	roar_buffer_get_data(b, (void **)&buf);
	766
	767	ROAR_DBG("streams_check(id=%i): buffer is up and ready ;)", id);
	768
[270]	769	if ( ss->codecfilter == -1 ) {
[508]	770	realreq = req;
	771	/*
[270]	772	req = read(fh, buf, req);
[508]	773	if ( req < realreq ) { // we can do this as the stream is in nonblocking mode!
	774	if ( (realreq = read(fh, buf+req, realreq-req)) > 0 )
	775	req += realreq;
	776	}
	777	*/
	778	done = 0;
	779	while (req > 0 && done != realreq) {
[881]	780	if ( (req = stream_vio_s_read(ss, buf+done, realreq-done)) > 0 )
[508]	781	done += req;
	782	}
	783	req = done;
[270]	784	} else {
	785	req = codecfilter_read(ss->codecfilter_inst, ss->codecfilter, buf, req);
	786	}
	787
	788	if ( req > 0 ) {
[0]	789	ROAR_DBG("streams_check(id=%i): got %i bytes", id, req);
	790
	791	roar_buffer_set_len(b, req);
	792
	793	if ( stream_add_buffer(id, b) != -1 )
	794	return 0;
	795
	796	ROAR_ERR("streams_check(id=%i): something is wrong, could not add buffer to stream!", id);
	797	roar_buffer_free(b);
	798	} else {
[272]	799	ROAR_DBG("streams_check(id=%i): read() = %i // errno: %s", id, req, strerror(errno));
	800	#ifdef ROAR_HAVE_LIBVORBISFILE
	801	if ( errno != EAGAIN && errno != ESPIPE ) { // libvorbis file trys to seek a bit ofen :)
	802	#else
	803	if ( errno != EAGAIN ) {
	804	#endif
	805	ROAR_DBG("streams_check(id=%i): EOF!", id);
	806	streams_delete(id);
	807	ROAR_DBG("streams_check(id=%i) = 0", id);
	808	}
[334]	809	roar_buffer_free(b);
[0]	810	return 0;
	811	}
	812
	813
	814	ROAR_DBG("streams_check(id=%i) = -1", id);
	815	return -1;
	816	}
	817
	818
	819	int streams_send_mon (int id) {
[936]	820	// int fh;
[0]	821	struct roar_stream * s;
	822	struct roar_stream_server * ss;
[1157]	823	void * obuf;
	824	int olen;
	825	int need_to_free = 0;
	826	ssize_t ret;
[0]	827
	828	if ( g_streams[id] == NULL )
	829	return -1;
	830
	831	ROAR_DBG("streams_send_mon(id=%i) = ?", id);
	832
[585]	833	s = ROAR_STREAM((ss = g_streams[id]));
[0]	834
[934]	835	/*
[0]	836	if ( (fh = s->fh) == -1 )
	837	return 0;
[934]	838	*/
[0]	839
[826]	840	if ( s->dir != ROAR_DIR_MONITOR && s->dir != ROAR_DIR_OUTPUT && s->dir != ROAR_DIR_BIDIR )
[0]	841	return 0;
	842
[930]	843	if ( s->dir == ROAR_DIR_OUTPUT && g_standby )
	844	return 0;
	845
[1042]	846	ROAR_DBG("streams_send_mon(id=%i): fh = %i", id, s->fh);
[0]	847
[625]	848	if ( s->info.channels != g_sa->channels \|\| s->info.bits != g_sa->bits \|\|
	849	s->info.rate != g_sa->rate \|\| s->info.codec != g_sa->codec ) {
	850	olen = ROAR_OUTPUT_CALC_OUTBUFSIZE(&(s->info)); // we hope g_output_buffer_len
	851	// is ROAR_OUTPUT_CALC_OUTBUFSIZE(g_sa) here
	852	if ( (obuf = malloc(olen)) == NULL )
	853	return -1;
	854
	855	need_to_free = 1;
	856
	857	ROAR_DBG("streams_send_mon(id=%i): obuf=%p, olen=%i", id, obuf, olen);
	858
	859	if ( roar_conv(obuf, g_output_buffer, ROAR_OUTPUT_BUFFER_SAMPLES*g_sa->channels, g_sa, &(s->info)) == -1 ) {
	860	free(obuf);
	861	return -1;
	862	}
	863	} else {
	864	obuf = g_output_buffer;
	865	olen = g_output_buffer_len;
	866	}
	867
[585]	868	errno = 0;
	869
	870	if ( ss->codecfilter == -1 ) {
[1042]	871	ROAR_DBG("streams_send_mon(id=%i): not a CF stream", id);
	872	if ( s->fh == -1 && roar_vio_get_fh(&(ss->vio)) == -1 )
[1014]	873	return 0;
	874
[1157]	875	if ( (ret = stream_vio_s_write(ss, obuf, olen)) == olen ) {
[625]	876	if ( need_to_free ) free(obuf);
[981]	877	s->pos = ROAR_MATH_OVERFLOW_ADD(s->pos, ROAR_OUTPUT_CALC_OUTBUFSAMP(&(s->info), olen)*s->info.channels);
[585]	878	return 0;
[625]	879	}
[1157]	880
	881	if ( ret > 0 && errno == 0 ) {
[1159]	882	ROAR_WARN("streams_send_mon(id=%i): Overrun in stream: wrote %i of %i bytes, %i bytes missing", id, ret, olen, olen-ret);
[1157]	883	if ( need_to_free ) free(obuf);
	884	s->pos = ROAR_MATH_OVERFLOW_ADD(s->pos, ROAR_OUTPUT_CALC_OUTBUFSAMP(&(s->info), ret)*s->info.channels);
	885	return 0;
	886	}
[585]	887	} else {
[1012]	888	errno = 0;
[625]	889	if ( codecfilter_write(ss->codecfilter_inst, ss->codecfilter, obuf, olen)
	890	== olen ) {
	891	if ( need_to_free ) free(obuf);
[981]	892	s->pos = ROAR_MATH_OVERFLOW_ADD(s->pos, ROAR_OUTPUT_CALC_OUTBUFSAMP(&(s->info), olen)*s->info.channels);
[585]	893	return 0;
	894	} else { // we cann't retry on codec filetered streams
[1012]	895	if ( errno != EAGAIN ) {
	896	if ( need_to_free ) free(obuf);
	897	streams_delete(id);
	898	return -1;
	899	}
[585]	900	}
	901	}
[0]	902
[129]	903	if ( errno == EAGAIN ) {
	904	// ok, the client blocks for a moment, we try to sleep a bit an retry in the hope not to
	905	// make any gapes in any output because of this
	906
	907	usleep(100); // 0.1ms
	908
[881]	909	if ( stream_vio_s_write(ss, obuf, olen) == olen ) {
[625]	910	if ( need_to_free ) free(obuf);
[981]	911	s->pos = ROAR_MATH_OVERFLOW_ADD(s->pos, ROAR_OUTPUT_CALC_OUTBUFSAMP(&(s->info), olen)*s->info.channels);
[129]	912	return 0;
[1015]	913	} else if ( errno == EAGAIN ) {
	914	ROAR_WARN("streams_send_mon(id=%i): Can not send data to client: %s", id, strerror(errno));
	915	return 0;
[625]	916	}
[129]	917	}
	918
[0]	919	// ug... error... delete stream!
	920
[625]	921	if ( need_to_free ) free(obuf);
[0]	922	streams_delete(id);
	923
	924	return -1;
	925	}
	926
	927	int streams_send_filter(int id) {
	928	int fh;
[127]	929	int have = 0;
	930	int len;
[0]	931	struct roar_stream * s;
	932	struct roar_stream_server * ss;
	933
	934	if ( g_streams[id] == NULL )
	935	return -1;
	936
	937	ROAR_DBG("streams_send_filter(id=%i) = ?", id);
	938
[609]	939	s = ROAR_STREAM(ss = g_streams[id]);
[0]	940
	941	if ( (fh = s->fh) == -1 )
	942	return 0;
	943
	944	if ( s->dir != ROAR_DIR_FILTER )
	945	return 0;
	946
	947	ROAR_DBG("streams_send_filter(id=%i): fh = %i", id, fh);
	948
[881]	949	if ( stream_vio_s_write(ss, g_output_buffer, g_output_buffer_len) == g_output_buffer_len ) {
[127]	950	while ( have < g_output_buffer_len ) {
[881]	951	if ( (len = stream_vio_s_read(ss, g_output_buffer+have, g_output_buffer_len-have)) < 1 ) {
[127]	952	streams_delete(id);
	953	return -1;
	954	}
	955	have += len;
[0]	956	}
[127]	957	return 0;
[0]	958	}
	959
	960	// ug... error... delete stream!
	961
	962	streams_delete(id);
	963
	964	return -1;
	965	}
	966
[596]	967
	968	// VIO:
	969
	970	ssize_t stream_vio_read (int stream, void *buf, size_t count) {
	971	struct roar_stream_server * s = g_streams[stream];
	972
	973	if ( !s )
	974	return -1;
	975
	976	return stream_vio_s_read(s, buf, count);
	977	}
	978
	979	ssize_t stream_vio_write(int stream, void *buf, size_t count) {
	980	struct roar_stream_server * s = g_streams[stream];
	981
	982	if ( !s )
	983	return -1;
	984
	985	return stream_vio_s_write(s, buf, count);
	986	}
	987
	988
	989	ssize_t stream_vio_s_read (struct roar_stream_server * stream, void *buf, size_t count) {
[741]	990	size_t len = 0;
	991	ssize_t r = -1;
[739]	992
[596]	993	errno = 0;
	994
	995	if ( !stream )
	996	return -1;
	997
[881]	998	roar_vio_set_fh(&(stream->vio), ROAR_STREAM(stream)->fh);
	999
[596]	1000	if ( ! stream->vio.read )
	1001	return -1;
	1002
[881]	1003	while ( (r = roar_vio_read(&(stream->vio), buf, count)) > 0 ) {
[739]	1004	len += r;
	1005	buf += r;
	1006	count -= r;
	1007	if ( count == 0 )
	1008	break;
	1009	}
	1010
[740]	1011	if ( len == 0 && r == -1 )
	1012	return -1;
	1013
[739]	1014	return len;
[596]	1015	}
	1016
	1017	ssize_t stream_vio_s_write(struct roar_stream_server * stream, void *buf, size_t count) {
	1018	errno = 0;
	1019
	1020	if ( !stream )
	1021	return -1;
	1022
[934]	1023	if ( roar_vio_get_fh(&(stream->vio)) == -1 && ROAR_STREAM(stream)->fh != -1 )
	1024	roar_vio_set_fh(&(stream->vio), ROAR_STREAM(stream)->fh);
	1025
	1026	// ROAR_WARN("stream_vio_s_write(*): writing...");
[596]	1027
[881]	1028	return roar_vio_write(&(stream->vio), buf, count);
[596]	1029	}
	1030
[0]	1031	//ll

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