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author | Mamadou DIOP <bossiel@yahoo.fr> | 2015-08-17 01:56:35 +0200 |
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committer | Mamadou DIOP <bossiel@yahoo.fr> | 2015-08-17 01:56:35 +0200 |
commit | 631fffee8a28b1bec5ed1f1d26a20e0135967f99 (patch) | |
tree | 74afe3bf3efe15aa82bcd0272b2b0f4d48c2d837 /tinyDAV/src/codecs/fec/tdav_codec_ulpfec.c | |
parent | 7908865936604036e6f200f1b5e069f8752f3a3a (diff) | |
download | doubango-631fffee8a28b1bec5ed1f1d26a20e0135967f99.zip doubango-631fffee8a28b1bec5ed1f1d26a20e0135967f99.tar.gz |
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Diffstat (limited to 'tinyDAV/src/codecs/fec/tdav_codec_ulpfec.c')
-rw-r--r-- | tinyDAV/src/codecs/fec/tdav_codec_ulpfec.c | 424 |
1 files changed, 424 insertions, 0 deletions
diff --git a/tinyDAV/src/codecs/fec/tdav_codec_ulpfec.c b/tinyDAV/src/codecs/fec/tdav_codec_ulpfec.c new file mode 100644 index 0000000..f492a52 --- /dev/null +++ b/tinyDAV/src/codecs/fec/tdav_codec_ulpfec.c @@ -0,0 +1,424 @@ +/* +* Copyright (C) 2012-2015 Doubango Telecom <http://www.doubango.org> +* +* This file is part of Open Source Doubango Framework. +* +* DOUBANGO 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 3 of the License, or +* (at your option) any later version. +* +* DOUBANGO 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 DOUBANGO. +* +*/ + +/**@file tdav_codec_ulpfec.c + * @brief Forward Error Correction (FEC) implementation as per RFC 5109 + */ +#include "tinydav/codecs/fec/tdav_codec_ulpfec.h" + +#include "tinyrtp/rtp/trtp_rtp_packet.h" + +#include "tsk_string.h" +#include "tsk_memory.h" +#include "tsk_debug.h" + +#define TDAV_FEC_PKT_HDR_SIZE 10 + +typedef struct tdav_codec_ulpfec_s +{ + TMEDIA_DECLARE_CODEC_VIDEO; + + struct{ + struct tdav_fec_pkt_s* pkt; + } encoder; +} +tdav_codec_ulpfec_t; + +// +// FEC LEVEL +// +typedef struct tdav_fec_level_s +{ + TSK_DECLARE_OBJECT; + + struct{ // 7.4. FEC Level Header for FEC Packets + uint16_t length; + uint64_t mask; + tsk_size_t mask_size; // in bits + } hdr; + struct{ + uint8_t* ptr; + tsk_size_t size; + }payload; +}tdav_fec_level_t; +typedef tsk_list_t tdav_fec_levels_L_t; +static tsk_object_t* tdav_fec_level_ctor(tsk_object_t * self, va_list * app) +{ + tdav_fec_level_t *level = self; + if (level){ + level->hdr.mask_size = 16; // L=0 + } + return self; +} +static tsk_object_t* tdav_fec_level_dtor(tsk_object_t * self) +{ + tdav_fec_level_t *level = self; + if (level){ + TSK_FREE(level->payload.ptr); + } + + return self; +} +static const tsk_object_def_t tdav_fec_level_def_s = +{ + sizeof(tdav_fec_level_t), + tdav_fec_level_ctor, + tdav_fec_level_dtor, + tsk_null, +}; +const tsk_object_def_t *tdav_fec_level_def_t = &tdav_fec_level_def_s; + + +// +// FEC PACKET +// +typedef struct tdav_fec_pkt_s +{ + TSK_DECLARE_OBJECT; + + struct{ // RFC 5109 - 7.3. FEC Header for FEC Packets + unsigned E : 1; + unsigned L : 1; + unsigned P : 1; + unsigned X : 1; + unsigned CC : 4; + unsigned M : 1; + unsigned PT : 7; + struct{ + uint16_t value; + unsigned set : 1; + }SN_base; + uint32_t TS; + uint16_t length; + }hdr; + + tdav_fec_levels_L_t* levels; +} +tdav_fec_pkt_t; +static tsk_object_t* tdav_fec_pkt_ctor(tsk_object_t * self, va_list * app) +{ + tdav_fec_pkt_t *pkt = self; + if (pkt){ + if (!(pkt->levels = tsk_list_create())){ + TSK_DEBUG_ERROR("Failed to create levels"); + return tsk_null; + } + } + return self; +} +static tsk_object_t* tdav_fec_pkt_dtor(tsk_object_t * self) +{ + tdav_fec_pkt_t *pkt = self; + if (pkt){ + TSK_OBJECT_SAFE_FREE(pkt->levels); + } + + return self; +} +static int tdav_fec_pkt_cmp(const tsk_object_t *_p1, const tsk_object_t *_p2) +{ + const tdav_fec_pkt_t *p1 = _p1; + const tdav_fec_pkt_t *p2 = _p2; + + if (p1 && p2){ + return (int)(p1->hdr.SN_base.value - p2->hdr.SN_base.value); + } + else if (!p1 && !p2) return 0; + else return -1; +} +static const tsk_object_def_t tdav_fec_pkt_def_s = +{ + sizeof(tdav_fec_pkt_t), + tdav_fec_pkt_ctor, + tdav_fec_pkt_dtor, + tdav_fec_pkt_cmp, +}; +const tsk_object_def_t *tdav_fec_pkt_def_t = &tdav_fec_pkt_def_s; + + +tsk_size_t tdav_codec_ulpfec_guess_serialbuff_size(const tdav_codec_ulpfec_t* self) +{ + tsk_size_t size = TDAV_FEC_PKT_HDR_SIZE; + tsk_list_item_t *item; + tdav_fec_level_t* level; + + if (!self){ + TSK_DEBUG_ERROR("Invalid parameter"); + return 0; + } + + tsk_list_foreach(item, self->encoder.pkt->levels){ + if (!(level = item->data)){ + continue; + } + size += 2 /* Protection length */ + (level->hdr.mask_size >> 3) + level->hdr.length; + } + + return size; +} + +int tdav_codec_ulpfec_enc_reset(tdav_codec_ulpfec_t* self) +{ + tsk_list_item_t *item; + tdav_fec_level_t* level; + + if (!self || !self->encoder.pkt){ + TSK_DEBUG_ERROR("invalid parameter"); + return -1; + } + + // reset packet + memset(&self->encoder.pkt->hdr, 0, sizeof(self->encoder.pkt->hdr)); + + // reset levels + tsk_list_foreach(item, self->encoder.pkt->levels){ + if ((level = item->data)){ + memset(&level->hdr, 0, sizeof(level->hdr)); + if (level->payload.ptr){ + memset(level->payload.ptr, 0, level->payload.size); + } + } + } + return 0; +} + +int tdav_codec_ulpfec_enc_protect(tdav_codec_ulpfec_t* self, const trtp_rtp_packet_t* rtp_packet) +{ + if (!self || !self->encoder.pkt || !rtp_packet || !rtp_packet->header){ + TSK_DEBUG_ERROR("invalid parameter"); + return -1; + } + + // Packet + self->encoder.pkt->hdr.P ^= rtp_packet->header->padding; + self->encoder.pkt->hdr.X ^= rtp_packet->header->extension; + self->encoder.pkt->hdr.CC ^= rtp_packet->header->csrc_count; + self->encoder.pkt->hdr.M ^= rtp_packet->header->marker; + self->encoder.pkt->hdr.PT ^= rtp_packet->header->payload_type; + if (!self->encoder.pkt->hdr.SN_base.set){ + self->encoder.pkt->hdr.SN_base.value = rtp_packet->header->seq_num; + self->encoder.pkt->hdr.SN_base.set = 1; + } + else{ + self->encoder.pkt->hdr.SN_base.value = TSK_MIN(self->encoder.pkt->hdr.SN_base.value, rtp_packet->header->seq_num); + } + self->encoder.pkt->hdr.TS ^= rtp_packet->header->timestamp; + self->encoder.pkt->hdr.length ^= (trtp_rtp_packet_guess_serialbuff_size(rtp_packet) - TRTP_RTP_HEADER_MIN_SIZE); + + // Level + // For now, always single-level protection + { + tdav_fec_level_t* level0 = TSK_LIST_FIRST_DATA(self->encoder.pkt->levels); + const uint8_t* rtp_payload = (const uint8_t*)(rtp_packet->payload.data_const ? rtp_packet->payload.data_const : rtp_packet->payload.data); + tsk_size_t i; + if (!level0){ + tdav_fec_level_t* _level0; + if (!(_level0 = tsk_object_new(tdav_fec_level_def_t))){ + TSK_DEBUG_ERROR("Failed to create level"); + return -2; + } + level0 = _level0; + tsk_list_push_back_data(self->encoder.pkt->levels, (void**)&_level0); + } + if (level0->payload.size < rtp_packet->payload.size){ + if (!(level0->payload.ptr = tsk_realloc(level0->payload.ptr, rtp_packet->payload.size))){ + TSK_DEBUG_ERROR("Failed to realloc size %d", rtp_packet->payload.size); + level0->payload.size = 0; + return -3; + } + level0->payload.size = rtp_packet->payload.size; + } + for (i = 0; i < rtp_packet->payload.size; ++i){ + level0->payload.ptr[i] ^= rtp_payload[i]; + } + level0->hdr.mask_size = self->encoder.pkt->hdr.L ? 48 : 16; + level0->hdr.mask |= (uint64_t)((uint64_t)1 << (level0->hdr.mask_size - (rtp_packet->header->seq_num - self->encoder.pkt->hdr.SN_base.value))); + level0->hdr.length = (uint16_t)(TSK_MAX(level0->hdr.length, rtp_packet->payload.size)); + } + + return 0; +} + +tsk_size_t tdav_codec_ulpfec_enc_serialize(const tdav_codec_ulpfec_t* self, void** out_data, tsk_size_t* out_max_size) +{ + uint8_t* pdata; + tsk_size_t xsize; + int32_t i; + tsk_list_item_t* item; + tdav_fec_level_t* level; + + if (!self || !self->encoder.pkt || !out_data){ + TSK_DEBUG_ERROR("Invalid parameter"); + return 0; + } + xsize = tdav_codec_ulpfec_guess_serialbuff_size(self); + + if (*out_max_size < xsize){ + if (!(*out_data = tsk_realloc(*out_data, xsize))){ + TSK_DEBUG_ERROR("Failed to reallocate buffer with size =%d", xsize); + *out_max_size = 0; + return 0; + } + *out_max_size = xsize; + } + pdata = (uint8_t*)*out_data; + + // E(1), L(1), P(1), X(1), CC(4) + pdata[0] = + (self->encoder.pkt->hdr.E << 7) | + (self->encoder.pkt->hdr.L << 6) | + (self->encoder.pkt->hdr.P << 5) | + (self->encoder.pkt->hdr.X << 4) | + (self->encoder.pkt->hdr.CC & 0x0F); + // M(1), PT(7) + pdata[1] = (self->encoder.pkt->hdr.M << 7) | (self->encoder.pkt->hdr.PT & 0x7F); + // SN base (16) + pdata[2] = (self->encoder.pkt->hdr.SN_base.value >> 8); + pdata[3] = (self->encoder.pkt->hdr.SN_base.value & 0xFF); + // TS (32) + pdata[4] = self->encoder.pkt->hdr.TS >> 24; + pdata[5] = (self->encoder.pkt->hdr.TS >> 16) & 0xFF; + pdata[6] = (self->encoder.pkt->hdr.TS >> 8) & 0xFF; + pdata[7] = (self->encoder.pkt->hdr.TS & 0xFF); + // Length (16) + pdata[8] = (self->encoder.pkt->hdr.length >> 8); + pdata[9] = (self->encoder.pkt->hdr.length & 0xFF); + + pdata += 10; + + tsk_list_foreach(item, self->encoder.pkt->levels){ + if (!(level = item->data)){ + continue; + } + // Protection length (16) + pdata[0] = (level->hdr.length >> 8); + pdata[1] = (level->hdr.length & 0xFF); + pdata += 2; + // mask (16 or 48) + for (i = (int32_t)(level->hdr.mask_size - 8); i >= 0; i -= 8){ + *pdata = ((level->hdr.mask >> i) & 0xFF); ++pdata; + } + // payload + memcpy(pdata, level->payload.ptr, level->hdr.length); + } + + return xsize; +} + + + +static int tdav_codec_ulpfec_open(tmedia_codec_t* self) +{ + return 0; +} + +static int tdav_codec_ulpfec_close(tmedia_codec_t* self) +{ + return 0; +} + +static tsk_size_t tdav_codec_ulpfec_encode(tmedia_codec_t* self, const void* in_data, tsk_size_t in_size, void** out_data, tsk_size_t* out_max_size) +{ + TSK_DEBUG_ERROR("Not expected to be called"); + return 0; +} + +static tsk_size_t tdav_codec_ulpfec_decode(tmedia_codec_t* self, const void* in_data, tsk_size_t in_size, void** out_data, tsk_size_t* out_max_size, const tsk_object_t* proto_hdr) +{ + TSK_DEBUG_ERROR("Not expected to be called"); + return 0; +} + +static tsk_bool_t tdav_codec_ulpfec_sdp_att_match(const tmedia_codec_t* codec, const char* att_name, const char* att_value) +{ + return tsk_true; +} + +static char* tdav_codec_ulpfec_sdp_att_get(const tmedia_codec_t* self, const char* att_name) +{ + return tsk_null; +} + + +/* ============ ULPFEC object definition ================= */ + +/* constructor */ +static tsk_object_t* tdav_codec_ulpfec_ctor(tsk_object_t * self, va_list * app) +{ + tdav_codec_ulpfec_t *ulpfec = self; + if (ulpfec){ + /* init base: called by tmedia_codec_create() */ + /* init self */ + if (!(ulpfec->encoder.pkt = tsk_object_new(tdav_fec_pkt_def_t))){ + TSK_DEBUG_ERROR("Failed to create FEC packet"); + return tsk_null; + } + } + return self; +} +/* destructor */ +static tsk_object_t* tdav_codec_ulpfec_dtor(tsk_object_t * self) +{ + tdav_codec_ulpfec_t *ulpfec = self; + if (ulpfec){ + /* deinit base */ + tmedia_codec_video_deinit(ulpfec); + /* deinit self */ + TSK_OBJECT_SAFE_FREE(ulpfec->encoder.pkt); + } + + return self; +} +/* object definition */ +static const tsk_object_def_t tdav_codec_ulpfec_def_s = +{ + sizeof(tdav_codec_ulpfec_t), + tdav_codec_ulpfec_ctor, + tdav_codec_ulpfec_dtor, + tmedia_codec_cmp, +}; +/* plugin definition*/ +static const tmedia_codec_plugin_def_t tdav_codec_ulpfec_plugin_def_s = +{ + &tdav_codec_ulpfec_def_s, + + tmedia_video, + tmedia_codec_id_none, // fake codec + "ulpfec", + "ulpfec codec", + TMEDIA_CODEC_FORMAT_ULPFEC, + tsk_true, + 90000, // rate + + /* audio */ + { 0 }, + + /* video (defaul width,height,fps) */ + { 176, 144, 15 }, + + tsk_null, // set() + tdav_codec_ulpfec_open, + tdav_codec_ulpfec_close, + tdav_codec_ulpfec_encode, + tdav_codec_ulpfec_decode, + tdav_codec_ulpfec_sdp_att_match, + tdav_codec_ulpfec_sdp_att_get +}; +const tmedia_codec_plugin_def_t *tdav_codec_ulpfec_plugin_def_t = &tdav_codec_ulpfec_plugin_def_s;
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