/** toxav.c * * Copyright (C) 2013 Tox project All Rights Reserved. * * This file is part of Tox. * * Tox 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. * * Tox 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 Tox. If not, see . * */ #ifdef HAVE_CONFIG_H #include "config.h" #endif /* HAVE_CONFIG_H */ #define _GNU_SOURCE /* implicit declaration warning */ #include "rtp.h" #include "codec.h" #include "msi.h" #include "toxav.h" #include "../toxcore/logger.h" #include #include #include /* Assume 24 fps*/ #define MAX_ENCODE_TIME_US ((1000 / 24) * 1000) #define MAX_DECODE_TIME_US 0 #define MAX_VIDEOFRAME_SIZE 0x40000 /* 256KiB */ #define VIDEOFRAME_PIECE_SIZE 0x500 /* 1.25 KiB*/ #define VIDEOFRAME_HEADER_SIZE 0x2 #define inline__ inline __attribute__((always_inline)) /* call index invalid: true if invalid */ #define cii(c_idx, session) (c_idx < 0 || c_idx >= session->max_calls) const ToxAvCSettings av_DefaultSettings = { TypeAudio, 500, 1280, 720, 64000, 20, 48000, 1 }; const uint32_t av_jbufdc = 3; const uint32_t av_VADd = 40; static const uint8_t audio_index = 0, video_index = 1; typedef struct { uint32_t size; uint8_t data[0]; } DECODE_PACKET; #define VIDEO_DECODE_QUEUE_SIZE 2 #define AUDIO_DECODE_QUEUE_SIZE 16 typedef struct _CallSpecific { RTPSession *crtps[2]; /** Audio is first and video is second */ CodecState *cs;/** Each call have its own encoders and decoders. * You can, but don't have to, reuse encoders for * multiple calls. If you choose to reuse encoders, * make sure to also reuse encoded payload for every call. * Decoders have to be unique for each call. FIXME: Now add refcounted encoders and * reuse them really. */ JitterBuffer *j_buf; /** Jitter buffer for audio */ uint32_t frame_limit; /* largest address written to in frame_buf for current input frame*/ uint8_t frame_id, frame_outid; /* id of input and output video frame */ void *frame_buf; /* buffer for split video payloads */ _Bool call_active; pthread_mutex_t mutex; /* used in the "decode on another thread" system */ volatile _Bool exit, decoding; uint8_t video_decode_read, video_decode_write, audio_decode_read, audio_decode_write; pthread_mutex_t decode_cond_mutex; pthread_cond_t decode_cond; DECODE_PACKET *volatile video_decode_queue[VIDEO_DECODE_QUEUE_SIZE]; DECODE_PACKET *volatile audio_decode_queue[AUDIO_DECODE_QUEUE_SIZE]; } CallSpecific; struct _ToxAv { Messenger *messenger; MSISession *msi_session; /** Main msi session */ CallSpecific *calls; /** Per-call params */ void (*audio_callback)(ToxAv *, int32_t, int16_t *, int, void *); void (*video_callback)(ToxAv *, int32_t, vpx_image_t *, void *); void *audio_callback_userdata; void *video_callback_userdata; uint32_t max_calls; }; static void *toxav_decoding(void *arg); static MSICSettings msicsettings_cast (const ToxAvCSettings *from) { MSICSettings csettings; csettings.call_type = from->call_type; csettings.video_bitrate = from->video_bitrate; csettings.max_video_width = from->max_video_width; csettings.max_video_height = from->max_video_height; csettings.audio_bitrate = from->audio_bitrate; csettings.audio_frame_duration = from->audio_frame_duration; csettings.audio_sample_rate = from->audio_sample_rate; csettings.audio_channels = from->audio_channels; return csettings; } static ToxAvCSettings toxavcsettings_cast (const MSICSettings *from) { ToxAvCSettings csettings; csettings.call_type = from->call_type; csettings.video_bitrate = from->video_bitrate; csettings.max_video_width = from->max_video_width; csettings.max_video_height = from->max_video_height; csettings.audio_bitrate = from->audio_bitrate; csettings.audio_frame_duration = from->audio_frame_duration; csettings.audio_sample_rate = from->audio_sample_rate; csettings.audio_channels = from->audio_channels; return csettings; } /** * @brief Start new A/V session. There can only be one session at the time. If you register more * it will result in undefined behaviour. * * @param messenger The messenger handle. * @param userdata The agent handling A/V session (i.e. phone). * @param video_width Width of video frame. * @param video_height Height of video frame. * @return ToxAv* * @retval NULL On error. */ ToxAv *toxav_new( Tox *messenger, int32_t max_calls) { ToxAv *av = calloc ( sizeof(ToxAv), 1); if (av == NULL) { LOGGER_WARNING("Allocation failed!"); return NULL; } av->messenger = (Messenger *)messenger; av->msi_session = msi_init_session(av->messenger, max_calls); av->msi_session->agent_handler = av; av->calls = calloc(sizeof(CallSpecific), max_calls); av->max_calls = max_calls; return av; } /** * @brief Remove A/V session. * * @param av Handler. * @return void */ void toxav_kill ( ToxAv *av ) { int i; for (i = 0; i < av->max_calls; i ++) { if ( av->calls[i].crtps[audio_index] ) rtp_terminate_session(av->calls[i].crtps[audio_index], av->msi_session->messenger_handle); if ( av->calls[i].crtps[video_index] ) rtp_terminate_session(av->calls[i].crtps[video_index], av->msi_session->messenger_handle); if ( av->calls[i].j_buf ) terminate_queue(av->calls[i].j_buf); if ( av->calls[i].cs ) codec_terminate_session(av->calls[i].cs); } msi_terminate_session(av->msi_session); free(av->calls); free(av); } /** * @brief Register callback for call state. * * @param av Handler. * @param callback The callback * @param id One of the ToxAvCallbackID values * @return void */ void toxav_register_callstate_callback ( ToxAv *av, ToxAVCallback callback, ToxAvCallbackID id, void *userdata ) { msi_register_callback(av->msi_session, (MSICallbackType)callback, (MSICallbackID) id, userdata); } /** * @brief Register callback for recieving audio data * * @param callback The callback * @return void */ void toxav_register_audio_recv_callback (ToxAv *av, void (*callback)(ToxAv *, int32_t, int16_t *, int, void *), void *user_data) { av->audio_callback = callback; av->audio_callback_userdata = user_data; } /** * @brief Register callback for recieving video data * * @param callback The callback * @return void */ void toxav_register_video_recv_callback (ToxAv *av, void (*callback)(ToxAv *, int32_t, vpx_image_t *, void *), void *user_data) { av->video_callback = callback; av->video_callback_userdata = user_data; } /** * @brief Call user. Use its friend_id. * * @param av Handler. * @param user The user. * @param call_type Call type. * @param ringing_seconds Ringing timeout. * @return int * @retval 0 Success. * @retval ToxAvError On error. */ int toxav_call (ToxAv *av, int32_t *call_index, int user, const ToxAvCSettings *csettings, int ringing_seconds ) { return msi_invite(av->msi_session, call_index, msicsettings_cast(csettings), ringing_seconds * 1000, user); } /** * @brief Hangup active call. * * @param av Handler. * @return int * @retval 0 Success. * @retval ToxAvError On error. */ int toxav_hangup ( ToxAv *av, int32_t call_index ) { if ( cii(call_index, av->msi_session) || !av->msi_session->calls[call_index] ) { return ErrorNoCall; } if ( av->msi_session->calls[call_index]->state != call_active ) { return ErrorInvalidState; } return msi_hangup(av->msi_session, call_index); } /** * @brief Answer incomming call. * * @param av Handler. * @param call_type Answer with... * @return int * @retval 0 Success. * @retval ToxAvError On error. */ int toxav_answer ( ToxAv *av, int32_t call_index, const ToxAvCSettings *csettings ) { if ( cii(call_index, av->msi_session) || !av->msi_session->calls[call_index] ) { return ErrorNoCall; } if ( av->msi_session->calls[call_index]->state != call_starting ) { return ErrorInvalidState; } return msi_answer(av->msi_session, call_index, msicsettings_cast(csettings)); } /** * @brief Reject incomming call. * * @param av Handler. * @param reason Optional reason. Set NULL if none. * @return int * @retval 0 Success. * @retval ToxAvError On error. */ int toxav_reject ( ToxAv *av, int32_t call_index, const char *reason ) { if ( cii(call_index, av->msi_session) || !av->msi_session->calls[call_index] ) { return ErrorNoCall; } if ( av->msi_session->calls[call_index]->state != call_starting ) { return ErrorInvalidState; } return msi_reject(av->msi_session, call_index, reason); } /** * @brief Cancel outgoing request. * * @param av Handler. * @param reason Optional reason. * @param peer_id peer friend_id * @return int * @retval 0 Success. * @retval ToxAvError On error. */ int toxav_cancel ( ToxAv *av, int32_t call_index, int peer_id, const char *reason ) { if ( cii(call_index, av->msi_session) || !av->msi_session->calls[call_index] ) { return ErrorNoCall; } if ( av->msi_session->calls[call_index]->state != call_inviting ) { return ErrorInvalidState; } return msi_cancel(av->msi_session, call_index, peer_id, reason); } /** * @brief Notify peer that we are changing call type * * @param av Handler. * @return int * @param call_type Change to... * @retval 0 Success. * @retval ToxAvError On error. */ int toxav_change_settings(ToxAv *av, int32_t call_index, const ToxAvCSettings *csettings) { if ( cii(call_index, av->msi_session) || !av->msi_session->calls[call_index] ) { return ErrorNoCall; } return msi_change_csettings(av->msi_session, call_index, msicsettings_cast(csettings)); } /** * @brief Terminate transmission. Note that transmission will be terminated without informing remote peer. * * @param av Handler. * @return int * @retval 0 Success. * @retval ToxAvError On error. */ int toxav_stop_call ( ToxAv *av, int32_t call_index ) { if ( cii(call_index, av->msi_session) || !av->msi_session->calls[call_index] ) { return ErrorNoCall; } return msi_stopcall(av->msi_session, call_index); } /** * @brief Must be call before any RTP transmission occurs. * * @param av Handler. * @return int * @retval 0 Success. * @retval ToxAvError On error. */ int toxav_prepare_transmission ( ToxAv *av, int32_t call_index, uint32_t jbuf_capacity, uint32_t VAD_treshold, int support_video ) { if ( !av->msi_session || cii(call_index, av->msi_session) || !av->msi_session->calls[call_index] || !av->msi_session->calls[call_index]->csettings_peer || av->calls[call_index].call_active) { LOGGER_ERROR("Error while starting RTP session: invalid call!\n"); return ErrorInternal; } CallSpecific *call = &av->calls[call_index]; call->crtps[audio_index] = rtp_init_session(type_audio, av->messenger, av->msi_session->calls[call_index]->peers[0]); if ( !call->crtps[audio_index] ) { LOGGER_ERROR("Error while starting audio RTP session!\n"); return ErrorInternal; } call->crtps[audio_index]->call_index = call_index; call->crtps[audio_index]->av = av; if ( support_video ) { call->crtps[video_index] = rtp_init_session(type_video, av->messenger, av->msi_session->calls[call_index]->peers[0]); if ( !call->crtps[video_index] ) { LOGGER_ERROR("Error while starting video RTP session!\n"); goto error; } call->crtps[video_index]->call_index = call_index; call->crtps[video_index]->av = av; call->frame_limit = 0; call->frame_id = 0; call->frame_outid = 0; call->frame_buf = calloc(MAX_VIDEOFRAME_SIZE, 1); if (!call->frame_buf) { LOGGER_WARNING("Frame buffer allocation failed!"); goto error; } } if ( !(call->j_buf = create_queue(jbuf_capacity)) ) { LOGGER_WARNING("Jitter buffer creaton failed!"); goto error; } ToxAvCSettings csettings_peer = toxavcsettings_cast(&av->msi_session->calls[call_index]->csettings_peer[0]); ToxAvCSettings csettings_local = toxavcsettings_cast(&av->msi_session->calls[call_index]->csettings_local); LOGGER_DEBUG( "Type: %u \n" "Video bitrate: %u \n" "Video height: %u \n" "Video width: %u \n" "Audio bitrate: %u \n" "Audio framedur: %u \n" "Audio sample rate: %u \n" "Audio channels: %u \n", csettings_peer.call_type, csettings_peer.video_bitrate, csettings_peer.max_video_height, csettings_peer.max_video_width, csettings_peer.audio_bitrate, csettings_peer.audio_frame_duration, csettings_peer.audio_sample_rate, csettings_peer.audio_channels ); if ( (call->cs = codec_init_session(csettings_local.audio_bitrate, csettings_local.audio_frame_duration, csettings_local.audio_sample_rate, csettings_local.audio_channels, csettings_peer.audio_channels, VAD_treshold, csettings_local.max_video_width, csettings_local.max_video_height, csettings_local.video_bitrate) )) { if ( pthread_mutex_init(&call->mutex, NULL) != 0 ) goto error; //todo: add error checks pthread_mutex_init(&call->decode_cond_mutex, NULL); pthread_cond_init(&call->decode_cond, NULL); void **arg = malloc(2 * sizeof(void *)); arg[0] = av; arg[1] = call; pthread_t temp; pthread_attr_t attr; pthread_attr_init(&attr); pthread_attr_setstacksize(&attr, 1 << 18); pthread_create(&temp, &attr, toxav_decoding, arg); pthread_attr_destroy(&attr); LOGGER_WARNING("Got here"); call->call_active = 1; return ErrorNone; } error: rtp_terminate_session(call->crtps[audio_index], av->messenger); rtp_terminate_session(call->crtps[video_index], av->messenger); free(call->frame_buf); terminate_queue(call->j_buf); codec_terminate_session(call->cs); return ErrorInternal; } /** * @brief Call this at the end of the transmission. * * @param av Handler. * @return int * @retval 0 Success. * @retval ToxAvError On error. */ int toxav_kill_transmission ( ToxAv *av, int32_t call_index ) { if (cii(call_index, av->msi_session)) { LOGGER_WARNING("Invalid call index: %d", call_index); return ErrorNoCall; } CallSpecific *call = &av->calls[call_index]; pthread_mutex_lock(&call->mutex); if (!call->call_active) { pthread_mutex_unlock(&call->mutex); LOGGER_WARNING("Action on inactive call: %d", call_index); return ErrorNoCall; } call->call_active = 0; rtp_terminate_session(call->crtps[audio_index], av->messenger); call->crtps[audio_index] = NULL; rtp_terminate_session(call->crtps[video_index], av->messenger); call->crtps[video_index] = NULL; terminate_queue(call->j_buf); call->j_buf = NULL; int i; DECODE_PACKET *p; call->exit = 1; pthread_mutex_lock(&call->decode_cond_mutex); pthread_cond_signal(&call->decode_cond); pthread_cond_wait(&call->decode_cond, &call->decode_cond_mutex); pthread_mutex_unlock(&call->decode_cond_mutex); pthread_mutex_destroy(&call->decode_cond_mutex); pthread_cond_destroy(&call->decode_cond); for (i = 0; i != VIDEO_DECODE_QUEUE_SIZE; i++) { p = call->video_decode_queue[i]; if (p) { free(p); } } for (i = 0; i != AUDIO_DECODE_QUEUE_SIZE; i++) { p = call->audio_decode_queue[i]; if (p) { free(p); } } codec_terminate_session(call->cs); call->cs = NULL; pthread_mutex_unlock(&call->mutex); pthread_mutex_destroy(&call->mutex); return ErrorNone; } /** * @brief Send RTP payload. * * @param av Handler. * @param type Type of payload. * @param payload The payload. * @param length Size of it. * @return int * @retval 0 Success. * @retval -1 Failure. */ static int toxav_send_rtp_payload(ToxAv *av, int32_t call_index, ToxAvCallType type, const uint8_t *payload, unsigned int length) { CallSpecific *call = &av->calls[call_index]; if (call->crtps[type - TypeAudio]) { if (type == TypeAudio) { return rtp_send_msg(call->crtps[type - TypeAudio], av->messenger, payload, length); } else { if (length == 0 || length > MAX_VIDEOFRAME_SIZE) { LOGGER_ERROR("Invalid video frame size: %u\n", length); return ErrorInternal; } /* number of pieces - 1*/ uint8_t numparts = (length - 1) / VIDEOFRAME_PIECE_SIZE; uint8_t load[2 + VIDEOFRAME_PIECE_SIZE]; load[0] = call->frame_outid++; load[1] = 0; int i; for (i = 0; i < numparts; i++) { memcpy(load + VIDEOFRAME_HEADER_SIZE, payload, VIDEOFRAME_PIECE_SIZE); payload += VIDEOFRAME_PIECE_SIZE; if (rtp_send_msg(call->crtps[type - TypeAudio], av->messenger, load, VIDEOFRAME_HEADER_SIZE + VIDEOFRAME_PIECE_SIZE) != 0) { return ErrorInternal; } load[1]++; } /* remainder = length % VIDEOFRAME_PIECE_SIZE, VIDEOFRAME_PIECE_SIZE if = 0 */ length = ((length - 1) % VIDEOFRAME_PIECE_SIZE) + 1; memcpy(load + VIDEOFRAME_HEADER_SIZE, payload, length); return rtp_send_msg(call->crtps[type - TypeAudio], av->messenger, load, VIDEOFRAME_HEADER_SIZE + length); } } else { return ErrorNoRtpSession; } } /** * @brief Encode and send video packet. * * @param av Handler. * @param input The packet. * @return int * @retval 0 Success. * @retval ToxAvError On error. */ int toxav_send_video ( ToxAv *av, int32_t call_index, const uint8_t *frame, unsigned int frame_size) { if (cii(call_index, av->msi_session)) { LOGGER_WARNING("Invalid call index: %d", call_index); return ErrorNoCall; } CallSpecific *call = &av->calls[call_index]; pthread_mutex_lock(&call->mutex); if (!call->call_active) { pthread_mutex_unlock(&call->mutex); LOGGER_WARNING("Action on inactive call: %d", call_index); return ErrorNoCall; } int rc = toxav_send_rtp_payload(av, call_index, TypeVideo, frame, frame_size); pthread_mutex_unlock(&call->mutex); return rc; } /** * @brief Encode video frame * * @param av Handler * @param dest Where to * @param dest_max Max size * @param input What to encode * @return int * @retval ToxAvError On error. * @retval >0 On success */ int toxav_prepare_video_frame(ToxAv *av, int32_t call_index, uint8_t *dest, int dest_max, vpx_image_t *input) { if (cii(call_index, av->msi_session)) { LOGGER_WARNING("Invalid call index: %d", call_index); return ErrorNoCall; } CallSpecific *call = &av->calls[call_index]; pthread_mutex_lock(&call->mutex); if (!call->call_active) { pthread_mutex_unlock(&call->mutex); LOGGER_WARNING("Action on inactive call: %d", call_index); return ErrorNoCall; } if (reconfigure_video_encoder_resolution(call->cs, input->d_w, input->d_h) != 0) { pthread_mutex_unlock(&call->mutex); return ErrorInternal; } int rc = vpx_codec_encode(&call->cs->v_encoder, input, call->cs->frame_counter, 1, 0, MAX_ENCODE_TIME_US); if ( rc != VPX_CODEC_OK) { LOGGER_ERROR("Could not encode video frame: %s\n", vpx_codec_err_to_string(rc)); pthread_mutex_unlock(&call->mutex); return ErrorInternal; } ++call->cs->frame_counter; vpx_codec_iter_t iter = NULL; const vpx_codec_cx_pkt_t *pkt; int copied = 0; while ( (pkt = vpx_codec_get_cx_data(&call->cs->v_encoder, &iter)) ) { if (pkt->kind == VPX_CODEC_CX_FRAME_PKT) { if ( copied + pkt->data.frame.sz > dest_max ) { pthread_mutex_unlock(&call->mutex); return ErrorPacketTooLarge; } memcpy(dest + copied, pkt->data.frame.buf, pkt->data.frame.sz); copied += pkt->data.frame.sz; } } pthread_mutex_unlock(&call->mutex); return copied; } /** * @brief Send audio frame. * * @param av Handler. * @param data The audio data encoded with toxav_prepare_audio_frame(). * @param size Its size in number of bytes. * @return int * @retval 0 Success. * @retval ToxAvError On error. */ int toxav_send_audio ( ToxAv *av, int32_t call_index, const uint8_t *data, unsigned int size) { if (size > MAX_CRYPTO_DATA_SIZE) return ErrorInternal; if (cii(call_index, av->msi_session) || !av->calls[call_index].call_active) { LOGGER_WARNING("Action on inactive call: %d", call_index); return ErrorNoCall; } CallSpecific *call = &av->calls[call_index]; pthread_mutex_lock(&call->mutex); if (!call->call_active) { pthread_mutex_unlock(&call->mutex); LOGGER_WARNING("Action on inactive call: %d", call_index); return ErrorNoCall; } int rc = toxav_send_rtp_payload(av, call_index, TypeAudio, data, size); pthread_mutex_unlock(&call->mutex); return rc; } /** * @brief Encode audio frame * * @param av Handler * @param dest dest * @param dest_max Max dest size * @param frame The frame * @param frame_size The frame size * @return int * @retval ToxAvError On error. * @retval >0 On success */ int toxav_prepare_audio_frame ( ToxAv *av, int32_t call_index, uint8_t *dest, int dest_max, const int16_t *frame, int frame_size) { if (cii(call_index, av->msi_session) || !av->calls[call_index].call_active) { LOGGER_WARNING("Action on inactive call: %d", call_index); return ErrorNoCall; } CallSpecific *call = &av->calls[call_index]; pthread_mutex_lock(&call->mutex); if (!call->call_active) { pthread_mutex_unlock(&call->mutex); LOGGER_WARNING("Action on inactive call: %d", call_index); return ErrorNoCall; } int32_t rc = opus_encode(call->cs->audio_encoder, frame, frame_size, dest, dest_max); pthread_mutex_unlock(&call->mutex); if (rc < 0) { LOGGER_ERROR("Failed to encode payload: %s\n", opus_strerror(rc)); return ErrorInternal; } return rc; } /** * @brief Get peer transmission type. It can either be audio or video. * * @param av Handler. * @param peer The peer * @return int * @retval ToxAvCallType On success. * @retval ToxAvError On error. */ int toxav_get_peer_csettings ( ToxAv *av, int32_t call_index, int peer, ToxAvCSettings *dest ) { if ( peer < 0 || cii(call_index, av->msi_session) || !av->msi_session->calls[call_index] || av->msi_session->calls[call_index]->peer_count <= peer ) return ErrorInternal; *dest = toxavcsettings_cast(&av->msi_session->calls[call_index]->csettings_peer[peer]); return ErrorNone; } /** * @brief Get id of peer participating in conversation * * @param av Handler * @param peer peer index * @return int * @retval ToxAvError No peer id */ int toxav_get_peer_id ( ToxAv *av, int32_t call_index, int peer ) { if ( peer < 0 || cii(call_index, av->msi_session) || !av->msi_session->calls[call_index] || av->msi_session->calls[call_index]->peer_count <= peer ) return ErrorInternal; return av->msi_session->calls[call_index]->peers[peer]; } /** * @brief Get id of peer participating in conversation * * @param av Handler * @param peer peer index * @return int * @retval ToxAvError No peer id */ ToxAvCallState toxav_get_call_state(ToxAv *av, int32_t call_index) { if ( cii(call_index, av->msi_session) || !av->msi_session->calls[call_index] ) return av_CallNonExistant; return av->msi_session->calls[call_index]->state; } /** * @brief Is certain capability supported * * @param av Handler * @return int * @retval 1 Yes. * @retval 0 No. */ inline__ int toxav_capability_supported ( ToxAv *av, int32_t call_index, ToxAvCapabilities capability ) { return av->calls[call_index].cs ? av->calls[call_index].cs->capabilities & (Capabilities) capability : 0; /* 0 is error here */ } inline__ Tox *toxav_get_tox(ToxAv *av) { return (Tox *)av->messenger; } int toxav_has_activity(ToxAv *av, int32_t call_index, int16_t *PCM, uint16_t frame_size, float ref_energy) { if ( !av->calls[call_index].cs ) return ErrorInvalidCodecState; return energy_VAD(av->calls[call_index].cs, PCM, frame_size, ref_energy); } static void decode_video(ToxAv *av, CallSpecific *call, DECODE_PACKET *p) { int32_t call_index = call - av->calls; int rc = vpx_codec_decode(&call->cs->v_decoder, p->data, p->size, NULL, MAX_DECODE_TIME_US); if (rc != VPX_CODEC_OK) { LOGGER_ERROR("Error decoding video: %s\n", vpx_codec_err_to_string(rc)); } vpx_codec_iter_t iter = NULL; vpx_image_t *img; img = vpx_codec_get_frame(&call->cs->v_decoder, &iter); if (img && av->video_callback) { av->video_callback(av, call_index, img, av->video_callback_userdata); } else { LOGGER_WARNING("Video packet dropped due to missing callback or no image!"); } free(p); } static void decode_audio(ToxAv *av, CallSpecific *call, DECODE_PACKET *p) { int32_t call_index = call - av->calls; // ToxAvCSettings csettings; // toxav_get_peer_csettings(av, call_index, 0, &csettings); int frame_size = 10000; /* FIXME: not static? */ int16_t dest[frame_size]; int dec_size = opus_decode(call->cs->audio_decoder, p->data, p->size, dest, frame_size, (p->size == 0)); free(p); if (dec_size < 0) { LOGGER_WARNING("Decoding error: %s", opus_strerror(dec_size)); return; } if ( av->audio_callback ) av->audio_callback(av, call_index, dest, dec_size, av->audio_callback_userdata); else LOGGER_WARNING("Audio packet dropped due to missing callback!"); } static void *toxav_decoding(void *arg) { void **pp = arg; ToxAv *av = pp[0]; CallSpecific *call = pp[1]; free(pp); while (1) { DECODE_PACKET *p; _Bool video = 0; pthread_mutex_lock(&call->decode_cond_mutex); if (call->exit) { break; } uint8_t r; /* first check for available packets, otherwise wait for condition*/ r = call->audio_decode_read; p = call->audio_decode_queue[r]; if (!p) { r = call->video_decode_read; p = call->video_decode_queue[r]; if (!p) { pthread_cond_wait(&call->decode_cond, &call->decode_cond_mutex); r = call->audio_decode_read; p = call->audio_decode_queue[r]; if (!p) { r = call->video_decode_read; p = call->video_decode_queue[r]; video = 1; } } else { video = 1; } } if (video) { if (p) { call->video_decode_queue[r] = NULL; call->video_decode_read = (r + 1) % VIDEO_DECODE_QUEUE_SIZE; } } else { call->audio_decode_queue[r] = NULL; call->audio_decode_read = (r + 1) % AUDIO_DECODE_QUEUE_SIZE; } pthread_mutex_unlock(&call->decode_cond_mutex); if (p) { if (video) { decode_video(av, call, p); } else { decode_audio(av, call, p); } } } call->exit = 0; pthread_cond_signal(&call->decode_cond); pthread_mutex_unlock(&call->decode_cond_mutex); return NULL; } void toxav_handle_packet(RTPSession *_session, RTPMessage *_msg) { ToxAv *av = _session->av; int32_t call_index = _session->call_index; CallSpecific *call = &av->calls[call_index]; if (!call->call_active) return; if (_session->payload_type == type_audio % 128) { queue(call->j_buf, _msg); int success = 0; while ((_msg = dequeue(call->j_buf, &success)) || success == 2) { DECODE_PACKET *p; if (success == 2) { p = malloc(sizeof(DECODE_PACKET)); if (p) { p->size = 0; } } else { p = malloc(sizeof(DECODE_PACKET) + _msg->length); if (p) { p->size = _msg->length; memcpy(p->data, _msg->data, _msg->length); } rtp_free_msg(NULL, _msg); } if (p) { /* do the decoding on another thread */ pthread_mutex_lock(&call->decode_cond_mutex); uint8_t w = call->audio_decode_write; if (call->audio_decode_queue[w] == NULL) { call->audio_decode_queue[w] = p; call->audio_decode_write = (w + 1) % AUDIO_DECODE_QUEUE_SIZE; pthread_cond_signal(&call->decode_cond); } else { LOGGER_DEBUG("Dropped audio frame\n"); free(p); } pthread_mutex_unlock(&call->decode_cond_mutex); } else { //malloc failed } } } else { uint8_t *packet = _msg->data; int recved_size = _msg->length; if (recved_size < VIDEOFRAME_HEADER_SIZE) { goto end; } uint8_t i = packet[0] - call->frame_id; if (i == 0) { /* piece of current frame */ } else if (i > 0 && i < 128) { /* recieved a piece of a frame ahead, flush current frame and start reading this new frame */ DECODE_PACKET *p = malloc(sizeof(DECODE_PACKET) + call->frame_limit); if (p) { p->size = call->frame_limit; memcpy(p->data, call->frame_buf, call->frame_limit); /* do the decoding on another thread */ pthread_mutex_lock(&call->decode_cond_mutex); uint8_t w = call->video_decode_write; if (call->video_decode_queue[w] == NULL) { call->video_decode_queue[w] = p; call->video_decode_write = (w + 1) % VIDEO_DECODE_QUEUE_SIZE; pthread_cond_signal(&call->decode_cond); } else { LOGGER_DEBUG("Dropped video frame\n"); free(p); } pthread_mutex_unlock(&call->decode_cond_mutex); } else { //malloc failed } call->frame_id = packet[0]; memset(call->frame_buf, 0, call->frame_limit); call->frame_limit = 0; } else { /* old packet, dont read */ LOGGER_DEBUG("Old packet: %u\n", i); goto end; } if (packet[1] > (MAX_VIDEOFRAME_SIZE - VIDEOFRAME_PIECE_SIZE + 1) / VIDEOFRAME_PIECE_SIZE) { //TODO, fix this check? not sure /* packet out of buffer range */ goto end; } LOGGER_DEBUG("Video Packet: %u %u\n", packet[0], packet[1]); memcpy(call->frame_buf + packet[1] * VIDEOFRAME_PIECE_SIZE, packet + VIDEOFRAME_HEADER_SIZE, recved_size - VIDEOFRAME_HEADER_SIZE); uint32_t limit = packet[1] * VIDEOFRAME_PIECE_SIZE + recved_size - VIDEOFRAME_HEADER_SIZE; if (limit > call->frame_limit) { call->frame_limit = limit; LOGGER_DEBUG("Limit: %u\n", call->frame_limit); } end: ; rtp_free_msg(NULL, _msg); } }