/* $Id$ */ /* * Copyright (C) 2012-2012 Teluu Inc. (http://www.teluu.com) * Contributed by Regis Montoya (aka r3gis - www.r3gis.fr) * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program 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 General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include #include #include #include #include #include #include #include #include #include #if defined(PJMEDIA_HAS_SILK_CODEC) && (PJMEDIA_HAS_SILK_CODEC!=0) #include "SKP_Silk_SDK_API.h" #define THIS_FILE "silk.c" #ifndef PJMEDIA_SILK_DELAY_BUF_OPTIONS #define PJMEDIA_SILK_DELAY_BUF_OPTIONS PJMEDIA_DELAY_BUF_SIMPLE_FIFO #endif #define FRAME_LENGTH_MS 20 #define SILK_ENC_CTL_PACKET_LOSS_PCT 10 #define SILK_MIN_BITRATE 5000 #define CALC_BITRATE_QUALITY(quality, max_br) \ (quality * max_br / 10) #define CALC_BITRATE(max_br) \ CALC_BITRATE_QUALITY(PJMEDIA_CODEC_SILK_DEFAULT_QUALITY, \ max_br); /* Prototypes for SILK factory */ static pj_status_t silk_test_alloc( pjmedia_codec_factory *factory, const pjmedia_codec_info *id ); static pj_status_t silk_default_attr( pjmedia_codec_factory *factory, const pjmedia_codec_info *id, pjmedia_codec_param *attr ); static pj_status_t silk_enum_codecs ( pjmedia_codec_factory *factory, unsigned *count, pjmedia_codec_info codecs[]); static pj_status_t silk_alloc_codec( pjmedia_codec_factory *factory, const pjmedia_codec_info *id, pjmedia_codec **p_codec); static pj_status_t silk_dealloc_codec( pjmedia_codec_factory *factory, pjmedia_codec *codec ); /* Prototypes for SILK implementation. */ static pj_status_t silk_codec_init( pjmedia_codec *codec, pj_pool_t *pool ); static pj_status_t silk_codec_open( pjmedia_codec *codec, pjmedia_codec_param *attr ); static pj_status_t silk_codec_close( pjmedia_codec *codec ); static pj_status_t silk_codec_modify( pjmedia_codec *codec, const pjmedia_codec_param *attr ); static pj_status_t silk_codec_parse( pjmedia_codec *codec, void *pkt, pj_size_t pkt_size, const pj_timestamp *timestamp, unsigned *frame_cnt, pjmedia_frame frames[]); static pj_status_t silk_codec_encode( pjmedia_codec *codec, const struct pjmedia_frame *input, unsigned output_buf_len, struct pjmedia_frame *output); static pj_status_t silk_codec_decode( pjmedia_codec *codec, const struct pjmedia_frame *input, unsigned output_buf_len, struct pjmedia_frame *output); static pj_status_t silk_codec_recover( pjmedia_codec *codec, unsigned output_buf_len, struct pjmedia_frame *output); typedef enum { PARAM_NB, /* Index for narrowband parameter. */ PARAM_MB, /* Index for medium parameter. */ PARAM_WB, /* Index for wideband parameter. */ PARAM_SWB, /* Index for super-wideband parameter */ } silk_mode; /* Silk default parameter */ typedef struct silk_param { int enabled; /* Is this mode enabled? */ int pt; /* Payload type. */ unsigned clock_rate; /* Default sampling rate to be used. */ pj_uint16_t ptime; /* packet length (in ms). */ pj_uint32_t bitrate; /* Bit rate for current mode. */ pj_uint32_t max_bitrate; /* Max bit rate for current mode. */ int complexity; /* Complexity mode: 0/lowest to 2. */ } silk_param; /* Definition for SILK codec operations. */ static pjmedia_codec_op silk_op = { &silk_codec_init, &silk_codec_open, &silk_codec_close, &silk_codec_modify, &silk_codec_parse, &silk_codec_encode, &silk_codec_decode, &silk_codec_recover }; /* Definition for SILK codec factory operations. */ static pjmedia_codec_factory_op silk_factory_op = { &silk_test_alloc, &silk_default_attr, &silk_enum_codecs, &silk_alloc_codec, &silk_dealloc_codec, &pjmedia_codec_silk_deinit }; /* SILK factory private data */ static struct silk_factory { pjmedia_codec_factory base; pjmedia_endpt *endpt; pj_pool_t *pool; pj_mutex_t *mutex; struct silk_param silk_param[4]; } silk_factory; /* SILK codec private data. */ typedef struct silk_private { silk_mode mode; /**< Silk mode. */ pj_pool_t *pool; /**< Pool for each instance. */ unsigned samples_per_frame; pj_uint8_t pcm_bytes_per_sample; pj_bool_t enc_ready; SKP_SILK_SDK_EncControlStruct enc_ctl; void *enc_st; pj_bool_t dec_ready; SKP_SILK_SDK_DecControlStruct dec_ctl; void *dec_st; /* Buffer to hold decoded frames. */ void *dec_buf[SILK_MAX_FRAMES_PER_PACKET-1]; SKP_int16 dec_buf_size[SILK_MAX_FRAMES_PER_PACKET-1]; pj_size_t dec_buf_sz; unsigned dec_buf_cnt; pj_uint32_t pkt_info; /**< Packet info for buffered frames. */ } silk_private; silk_mode silk_get_mode_from_clock_rate(unsigned clock_rate) { if (clock_rate <= silk_factory.silk_param[PARAM_NB].clock_rate) { return PARAM_NB; } else if (clock_rate <= silk_factory.silk_param[PARAM_MB].clock_rate) { return PARAM_MB; } else if (clock_rate <= silk_factory.silk_param[PARAM_WB].clock_rate) { return PARAM_WB; } return PARAM_SWB; } PJ_DEF(pj_status_t) pjmedia_codec_silk_init(pjmedia_endpt *endpt) { pjmedia_codec_mgr *codec_mgr; silk_param *sp; pj_status_t status; if (silk_factory.endpt != NULL) { /* Already initialized. */ return PJ_SUCCESS; } /* Init factory */ pj_bzero(&silk_factory, sizeof(silk_factory)); silk_factory.base.op = &silk_factory_op; silk_factory.base.factory_data = NULL; silk_factory.endpt = endpt; /* Create pool */ silk_factory.pool = pjmedia_endpt_create_pool(endpt, "silk", 4000, 4000); if (!silk_factory.pool) return PJ_ENOMEM; /* Create mutex. */ status = pj_mutex_create_simple(silk_factory.pool, "silk", &silk_factory.mutex); if (status != PJ_SUCCESS) goto on_error; /* Initialize default codec params */ /* From SILK docs: - SILK bitrate tables: +----------------+---------+-----------+ | | fs (Hz) | BR (kbps) | +----------------+---------+-----------+ | Narrowband | 8000 | 6 - 20 | | Mediumband | 12000 | 7 - 25 | | Wideband | 16000 | 8 - 30 | | Super Wideband | 24000 | 12 - 40 | +----------------+---------+-----------+ - The upper limits of the bit rate ranges in this table are recommended values. */ sp = &silk_factory.silk_param[PARAM_NB]; sp->pt = PJMEDIA_RTP_PT_SILK_NB; sp->clock_rate = 8000; sp->max_bitrate = 22000; sp->bitrate = CALC_BITRATE(sp->max_bitrate); sp->ptime = FRAME_LENGTH_MS; sp->complexity = PJMEDIA_CODEC_SILK_DEFAULT_COMPLEXITY; sp->enabled = 1; sp = &silk_factory.silk_param[PARAM_MB]; sp->pt = PJMEDIA_RTP_PT_SILK_MB; sp->clock_rate = 12000; sp->max_bitrate = 28000; sp->bitrate = CALC_BITRATE(sp->max_bitrate); sp->ptime = FRAME_LENGTH_MS; sp->complexity = PJMEDIA_CODEC_SILK_DEFAULT_COMPLEXITY; sp->enabled = 0; sp = &silk_factory.silk_param[PARAM_WB]; sp->pt = PJMEDIA_RTP_PT_SILK_WB; sp->clock_rate = 16000; sp->max_bitrate = 36000; sp->bitrate = CALC_BITRATE(sp->max_bitrate); sp->ptime = FRAME_LENGTH_MS; sp->complexity = PJMEDIA_CODEC_SILK_DEFAULT_COMPLEXITY; sp->enabled = 1; sp = &silk_factory.silk_param[PARAM_SWB]; sp->pt = PJMEDIA_RTP_PT_SILK_SWB; sp->clock_rate = 24000; sp->max_bitrate = 46000; sp->bitrate = CALC_BITRATE(sp->max_bitrate); sp->ptime = FRAME_LENGTH_MS; sp->complexity = PJMEDIA_CODEC_SILK_DEFAULT_COMPLEXITY; sp->enabled = 0; /* Get the codec manager. */ codec_mgr = pjmedia_endpt_get_codec_mgr(endpt); if (!codec_mgr) { return PJ_EINVALIDOP; } /* Register codec factory to endpoint. */ status = pjmedia_codec_mgr_register_factory(codec_mgr, &silk_factory.base); if (status != PJ_SUCCESS) return status; PJ_LOG(4,(THIS_FILE, "SILK codec version %s initialized", SKP_Silk_SDK_get_version())); return PJ_SUCCESS; on_error: if (silk_factory.mutex) { pj_mutex_destroy(silk_factory.mutex); silk_factory.mutex = NULL; } if (silk_factory.pool) { pj_pool_release(silk_factory.pool); silk_factory.pool = NULL; } return status; } /* * Change the configuration setting of the SILK codec for the specified * clock rate. */ PJ_DEF(pj_status_t) pjmedia_codec_silk_set_config( unsigned clock_rate, const pjmedia_codec_silk_setting *opt) { unsigned i; /* Look up in factory modes table */ for (i = 0; i < sizeof(silk_factory.silk_param)/ sizeof(silk_factory.silk_param[0]); ++i) { if (silk_factory.silk_param[i].clock_rate == clock_rate) { int quality = PJMEDIA_CODEC_SILK_DEFAULT_QUALITY; int complexity = PJMEDIA_CODEC_SILK_DEFAULT_COMPLEXITY; silk_factory.silk_param[i].enabled = opt->enabled; if (opt->complexity >= 0) complexity = opt->complexity; silk_factory.silk_param[i].complexity = complexity; if (opt->quality >= 0) quality = opt->quality; silk_factory.silk_param[i].bitrate = CALC_BITRATE_QUALITY(quality, silk_factory.silk_param[i].max_bitrate); if (silk_factory.silk_param[i].bitrate < SILK_MIN_BITRATE) silk_factory.silk_param[i].bitrate = SILK_MIN_BITRATE; return PJ_SUCCESS; } } return PJ_ENOTFOUND; } /* * Unregister SILK codec factory from pjmedia endpoint and deinitialize * the SILK codec library. */ PJ_DEF(pj_status_t) pjmedia_codec_silk_deinit(void) { pjmedia_codec_mgr *codec_mgr; pj_status_t status; if (silk_factory.endpt == NULL) { /* Not registered. */ return PJ_SUCCESS; } /* Lock mutex. */ pj_mutex_lock(silk_factory.mutex); /* Get the codec manager. */ codec_mgr = pjmedia_endpt_get_codec_mgr(silk_factory.endpt); if (!codec_mgr) { silk_factory.endpt = NULL; pj_mutex_unlock(silk_factory.mutex); return PJ_EINVALIDOP; } /* Unregister silk codec factory. */ status = pjmedia_codec_mgr_unregister_factory(codec_mgr, &silk_factory.base); silk_factory.endpt = NULL; /* Destroy mutex. */ pj_mutex_unlock(silk_factory.mutex); pj_mutex_destroy(silk_factory.mutex); silk_factory.mutex = NULL; /* Release pool. */ pj_pool_release(silk_factory.pool); silk_factory.pool = NULL; return status; } /* * Check if factory can allocate the specified codec. */ static pj_status_t silk_test_alloc(pjmedia_codec_factory *factory, const pjmedia_codec_info *info ) { const pj_str_t silk_tag = {"SILK", 4}; unsigned i; PJ_UNUSED_ARG(factory); PJ_ASSERT_RETURN(factory==&silk_factory.base, PJ_EINVAL); /* Type MUST be audio. */ if (info->type != PJMEDIA_TYPE_AUDIO) return PJMEDIA_CODEC_EUNSUP; /* Check encoding name. */ if (pj_stricmp(&info->encoding_name, &silk_tag) != 0) return PJMEDIA_CODEC_EUNSUP; /* Channel count must be one */ if (info->channel_cnt != 1) return PJMEDIA_CODEC_EUNSUP; /* Check clock-rate */ for (i=0; ienabled && info->clock_rate == sp->clock_rate) { return PJ_SUCCESS; } } /* Clock rate not supported */ return PJMEDIA_CODEC_EUNSUP; } /* * Generate default attribute. */ static pj_status_t silk_default_attr( pjmedia_codec_factory *factory, const pjmedia_codec_info *id, pjmedia_codec_param *attr ) { silk_param *sp; int i; PJ_ASSERT_RETURN(factory==&silk_factory.base, PJ_EINVAL); i = silk_get_mode_from_clock_rate(id->clock_rate); pj_assert(i >= PARAM_NB && i <= PARAM_SWB); sp = &silk_factory.silk_param[i]; pj_bzero(attr, sizeof(pjmedia_codec_param)); attr->info.channel_cnt = 1; attr->info.clock_rate = sp->clock_rate; attr->info.avg_bps = sp->bitrate; attr->info.max_bps = sp->max_bitrate; attr->info.frm_ptime = sp->ptime; attr->info.pcm_bits_per_sample = 16; attr->info.pt = (pj_uint8_t) sp->pt; attr->setting.frm_per_pkt = 1; attr->setting.vad = 0; /* DTX is not recommended for quality reason */ attr->setting.plc = 1; i = 0; attr->setting.dec_fmtp.param[i].name = pj_str("useinbandfec"); attr->setting.dec_fmtp.param[i++].val = pj_str("0"); /* attr->setting.dec_fmtp.param[i].name = pj_str("maxaveragebitrate"); attr->setting.dec_fmtp.param[i++].val = pj_str(mode->bitrate_str); */ attr->setting.dec_fmtp.cnt = (pj_uint8_t)i; return PJ_SUCCESS; } /* * Enum codecs supported by this factory. */ static pj_status_t silk_enum_codecs(pjmedia_codec_factory *factory, unsigned *count, pjmedia_codec_info codecs[]) { unsigned max; int i; PJ_ASSERT_RETURN(factory==&silk_factory.base, PJ_EINVAL); PJ_ASSERT_RETURN(codecs && *count > 0, PJ_EINVAL); max = *count; *count = 0; for (i = 0; ienabled) continue; pj_bzero(&codecs[*count], sizeof(pjmedia_codec_info)); codecs[*count].encoding_name = pj_str("SILK"); codecs[*count].pt = sp->pt; codecs[*count].type = PJMEDIA_TYPE_AUDIO; codecs[*count].clock_rate = sp->clock_rate; codecs[*count].channel_cnt = 1; ++*count; } return PJ_SUCCESS; } /* * Allocate a new SILK codec instance. */ static pj_status_t silk_alloc_codec(pjmedia_codec_factory *factory, const pjmedia_codec_info *id, pjmedia_codec **p_codec) { pj_pool_t *pool; pjmedia_codec *codec; silk_private *silk; PJ_ASSERT_RETURN(factory && id && p_codec, PJ_EINVAL); PJ_ASSERT_RETURN(factory == &silk_factory.base, PJ_EINVAL); /* Create pool for codec instance */ pool = pjmedia_endpt_create_pool(silk_factory.endpt, "silk", 512, 512); /* Allocate codec */ codec = PJ_POOL_ZALLOC_T(pool, pjmedia_codec); codec->op = &silk_op; codec->factory = factory; codec->codec_data = PJ_POOL_ZALLOC_T(pool, silk_private); silk = (silk_private*) codec->codec_data; silk->pool = pool; silk->enc_ready = PJ_FALSE; silk->dec_ready = PJ_FALSE; silk->mode = silk_get_mode_from_clock_rate(id->clock_rate); *p_codec = codec; return PJ_SUCCESS; } /* * Free codec. */ static pj_status_t silk_dealloc_codec( pjmedia_codec_factory *factory, pjmedia_codec *codec ) { silk_private *silk; PJ_ASSERT_RETURN(factory && codec, PJ_EINVAL); PJ_ASSERT_RETURN(factory == &silk_factory.base, PJ_EINVAL); silk = (silk_private*)codec->codec_data; /* Close codec, if it's not closed. */ if (silk->enc_ready == PJ_TRUE || silk->dec_ready == PJ_TRUE) { silk_codec_close(codec); } pj_pool_release(silk->pool); return PJ_SUCCESS; } /* * Init codec. */ static pj_status_t silk_codec_init(pjmedia_codec *codec, pj_pool_t *pool ) { PJ_UNUSED_ARG(codec); PJ_UNUSED_ARG(pool); return PJ_SUCCESS; } /* * Open codec. */ static pj_status_t silk_codec_open(pjmedia_codec *codec, pjmedia_codec_param *attr ) { silk_private *silk; silk_param *sp; SKP_int st_size, err; pj_bool_t enc_use_fec; unsigned enc_bitrate, i; PJ_ASSERT_RETURN(codec && attr, PJ_EINVAL); silk = (silk_private*)codec->codec_data; sp = &silk_factory.silk_param[silk->mode]; /* Already opened? */ if (silk->enc_ready || silk->dec_ready) return PJ_SUCCESS; /* Allocate and initialize encoder */ err = SKP_Silk_SDK_Get_Encoder_Size(&st_size); if (err) { PJ_LOG(3,(THIS_FILE, "Failed to get encoder state size (err=%d)", err)); return PJMEDIA_CODEC_EFAILED; } silk->enc_st = pj_pool_zalloc(silk->pool, st_size); err = SKP_Silk_SDK_InitEncoder(silk->enc_st, &silk->enc_ctl); if (err) { PJ_LOG(3,(THIS_FILE, "Failed to init encoder (err=%d)", err)); return PJMEDIA_CODEC_EFAILED; } /* Check fmtp params */ enc_use_fec = PJ_TRUE; enc_bitrate = sp->bitrate; for (i = 0; i < attr->setting.enc_fmtp.cnt; ++i) { pjmedia_codec_fmtp *fmtp = &attr->setting.enc_fmtp; const pj_str_t STR_USEINBANDFEC = {"useinbandfec", 12}; const pj_str_t STR_MAXAVERAGEBITRATE = {"maxaveragebitrate", 17}; if (!pj_stricmp(&fmtp->param[i].name, &STR_USEINBANDFEC)) { enc_use_fec = pj_strtoul(&fmtp->param[i].val) != 0; } else if (!pj_stricmp(&fmtp->param[i].name, &STR_MAXAVERAGEBITRATE)) { enc_bitrate = pj_strtoul(&fmtp->param[i].val); if (enc_bitrate > sp->max_bitrate) { enc_bitrate = sp->max_bitrate; } } } /* Setup encoder control for encoding process */ silk->enc_ready = PJ_TRUE; silk->samples_per_frame = FRAME_LENGTH_MS * attr->info.clock_rate / 1000; silk->pcm_bytes_per_sample = attr->info.pcm_bits_per_sample / 8; silk->enc_ctl.API_sampleRate = attr->info.clock_rate; silk->enc_ctl.maxInternalSampleRate = attr->info.clock_rate; silk->enc_ctl.packetSize = attr->setting.frm_per_pkt * silk->samples_per_frame; /* For useInBandFEC setting to be useful, we need to set * packetLossPercentage greater than LBRR_LOSS_THRES (1) */ silk->enc_ctl.packetLossPercentage = SILK_ENC_CTL_PACKET_LOSS_PCT; silk->enc_ctl.useInBandFEC = enc_use_fec; silk->enc_ctl.useDTX = attr->setting.vad; silk->enc_ctl.complexity = sp->complexity; silk->enc_ctl.bitRate = enc_bitrate; /* Allocate and initialize decoder */ err = SKP_Silk_SDK_Get_Decoder_Size(&st_size); if (err) { PJ_LOG(3,(THIS_FILE, "Failed to get decoder state size (err=%d)", err)); return PJMEDIA_CODEC_EFAILED; } silk->dec_st = pj_pool_zalloc(silk->pool, st_size); err = SKP_Silk_SDK_InitDecoder(silk->dec_st); if (err) { PJ_LOG(3,(THIS_FILE, "Failed to init decoder (err=%d)", err)); return PJMEDIA_CODEC_EFAILED; } /* Setup decoder control for decoding process */ silk->dec_ctl.API_sampleRate = attr->info.clock_rate; silk->dec_ctl.framesPerPacket = 1; /* for proper PLC at start */ silk->dec_ready = PJ_TRUE; silk->dec_buf_sz = attr->info.clock_rate * attr->info.channel_cnt * attr->info.frm_ptime / 1000 * silk->pcm_bytes_per_sample; /* Inform the stream to prepare a larger buffer since we cannot parse * SILK packets and split it into individual frames. */ attr->info.max_rx_frame_size = attr->info.max_bps * attr->info.frm_ptime / 8 / 1000; if ((attr->info.max_bps * attr->info.frm_ptime) % 8000 != 0) { ++attr->info.max_rx_frame_size; } attr->info.max_rx_frame_size *= SILK_MAX_FRAMES_PER_PACKET; return PJ_SUCCESS; } /* * Close codec. */ static pj_status_t silk_codec_close( pjmedia_codec *codec ) { silk_private *silk; silk = (silk_private*)codec->codec_data; silk->enc_ready = PJ_FALSE; silk->dec_ready = PJ_FALSE; return PJ_SUCCESS; } /* * Modify codec settings. */ static pj_status_t silk_codec_modify(pjmedia_codec *codec, const pjmedia_codec_param *attr ) { PJ_TODO(implement_silk_codec_modify); PJ_UNUSED_ARG(codec); PJ_UNUSED_ARG(attr); return PJ_SUCCESS; } /* * Encode frame. */ static pj_status_t silk_codec_encode(pjmedia_codec *codec, const struct pjmedia_frame *input, unsigned output_buf_len, struct pjmedia_frame *output) { silk_private *silk; SKP_int err; unsigned nsamples; SKP_int16 out_size; PJ_ASSERT_RETURN(codec && input && output_buf_len && output, PJ_EINVAL); silk = (silk_private*)codec->codec_data; /* Check frame in size */ nsamples = input->size >> 1; PJ_ASSERT_RETURN(nsamples % silk->samples_per_frame == 0, PJMEDIA_CODEC_EPCMFRMINLEN); /* Encode */ output->size = 0; out_size = (SKP_int16)output_buf_len; err = SKP_Silk_SDK_Encode(silk->enc_st, &silk->enc_ctl, (SKP_int16*)input->buf, nsamples, (SKP_uint8*)output->buf, &out_size); if (err) { PJ_LOG(3, (THIS_FILE, "Failed to encode frame (err=%d)", err)); output->type = PJMEDIA_FRAME_TYPE_NONE; if (err == SKP_SILK_ENC_PAYLOAD_BUF_TOO_SHORT) return PJMEDIA_CODEC_EFRMTOOSHORT; return PJMEDIA_CODEC_EFAILED; } output->size = out_size; output->type = PJMEDIA_FRAME_TYPE_AUDIO; output->timestamp = input->timestamp; return PJ_SUCCESS; } /* * Get frames in the packet. */ static pj_status_t silk_codec_parse( pjmedia_codec *codec, void *pkt, pj_size_t pkt_size, const pj_timestamp *ts, unsigned *frame_cnt, pjmedia_frame frames[]) { silk_private *silk; SKP_Silk_TOC_struct toc; unsigned i, count; PJ_ASSERT_RETURN(codec && ts && frames && frame_cnt, PJ_EINVAL); silk = (silk_private*)codec->codec_data; SKP_Silk_SDK_get_TOC(pkt, pkt_size, &toc); count = toc.framesInPacket; pj_assert(count <= SILK_MAX_FRAMES_PER_PACKET); for (i = 0; i < count; i++) { frames[i].type = PJMEDIA_FRAME_TYPE_AUDIO; frames[i].bit_info = (((unsigned)ts->u64 & 0xFFFF) << 16) | (((pj_size_t)pkt & 0xFF) << 8) | (toc.framesInPacket << 4) | i; frames[i].buf = pkt; frames[i].size = pkt_size; frames[i].timestamp.u64 = ts->u64 + i * silk->samples_per_frame; } *frame_cnt = count; return PJ_SUCCESS; } static pj_status_t silk_codec_decode(pjmedia_codec *codec, const struct pjmedia_frame *input, unsigned output_buf_len, struct pjmedia_frame *output) { silk_private *silk; SKP_int16 out_size; SKP_Silk_TOC_struct toc; SKP_int err = 0; unsigned pkt_info, frm_info; PJ_ASSERT_RETURN(codec && input && output_buf_len && output, PJ_EINVAL); silk = (silk_private*)codec->codec_data; PJ_ASSERT_RETURN(output_buf_len >= silk->dec_buf_sz, PJ_ETOOSMALL); SKP_Silk_SDK_get_TOC(input->buf, input->size, &toc); pkt_info = input->bit_info & 0xFFFFFF00; frm_info = input->bit_info & 0xF; if (toc.framesInPacket == 0) { /* In SILK ARM version, the table of content can indicate * that the number of frames in the packet is 0. * Try to get the number of frames in packet that we save * in the frame instead. */ toc.framesInPacket = (input->bit_info & 0xF0) >> 4; } if (toc.framesInPacket == 0) { output->size = 0; } else if (silk->pkt_info != pkt_info || input->bit_info == 0) { unsigned i; SKP_int16 nsamples; silk->pkt_info = pkt_info; nsamples = (SKP_int16)silk->dec_buf_sz / silk->pcm_bytes_per_sample; if (toc.framesInPacket-1 > (SKP_int)silk->dec_buf_cnt) { /* Grow the buffer */ for (i = silk->dec_buf_cnt+1; i < (unsigned)toc.framesInPacket; i++) { silk->dec_buf[i-1] = pj_pool_alloc(silk->pool, silk->dec_buf_sz); } silk->dec_buf_cnt = toc.framesInPacket-1; } /* We need to decode all the frames in the packet. */ for (i = 0; i < (unsigned)toc.framesInPacket;) { void *buf; SKP_int16 *size; if (i == 0 || i == frm_info) { buf = output->buf; size = &out_size; } else { buf = silk->dec_buf[i-1]; size = &silk->dec_buf_size[i-1]; } *size = nsamples; err = SKP_Silk_SDK_Decode(silk->dec_st, &silk->dec_ctl, 0, /* Normal frame flag */ input->buf, input->size, buf, size); if (err) { PJ_LOG(3, (THIS_FILE, "Failed to decode frame (err=%d)", err)); *size = 0; } else { *size = *size * silk->pcm_bytes_per_sample; } if (i == frm_info) { output->size = *size; } i++; if (!silk->dec_ctl.moreInternalDecoderFrames && i < (unsigned)toc.framesInPacket) { /* It turns out that the packet does not have * the number of frames as mentioned in the TOC. */ for (; i < (unsigned)toc.framesInPacket; i++) { silk->dec_buf_size[i-1] = 0; if (i == frm_info) { output->size = 0; } } } } } else { /* We have already decoded this packet. */ if (frm_info == 0 || silk->dec_buf_size[frm_info-1] == 0) { /* The decoding was a failure. */ output->size = 0; } else { /* Copy the decoded frame from the buffer. */ pj_assert(frm_info-1 < silk->dec_buf_cnt); if (frm_info-1 >= silk->dec_buf_cnt) { output->size = 0; } else { pj_memcpy(output->buf, silk->dec_buf[frm_info-1], silk->dec_buf_size[frm_info-1]); output->size = silk->dec_buf_size[frm_info-1]; } } } if (output->size == 0) { output->type = PJMEDIA_FRAME_TYPE_NONE; output->buf = NULL; return PJMEDIA_CODEC_EFAILED; } output->type = PJMEDIA_FRAME_TYPE_AUDIO; output->timestamp = input->timestamp; return PJ_SUCCESS; } /* * Recover lost frame. */ static pj_status_t silk_codec_recover(pjmedia_codec *codec, unsigned output_buf_len, struct pjmedia_frame *output) { silk_private *silk; SKP_int16 out_size; SKP_int err; PJ_ASSERT_RETURN(codec && output_buf_len && output, PJ_EINVAL); silk = (silk_private*)codec->codec_data; out_size = (SKP_int16)output_buf_len / silk->pcm_bytes_per_sample; err = SKP_Silk_SDK_Decode(silk->dec_st, &silk->dec_ctl, 1, /* Lost frame flag */ NULL, 0, output->buf, &out_size); if (err) { PJ_LOG(3, (THIS_FILE, "Failed to conceal lost frame (err=%d)", err)); output->type = PJMEDIA_FRAME_TYPE_NONE; output->buf = NULL; output->size = 0; return PJMEDIA_CODEC_EFAILED; } output->size = out_size * silk->pcm_bytes_per_sample; output->type = PJMEDIA_FRAME_TYPE_AUDIO; return PJ_SUCCESS; } #if defined(_MSC_VER) # if PJ_DEBUG # pragma comment(lib, "SKP_Silk_FLP_Win32_debug.lib") # else # pragma comment(lib, "SKP_Silk_FLP_Win32_mt.lib") # endif #endif #endif /* PJMEDIA_HAS_SILK_CODEC */