/* * audio filter for runtime AC-3 encoding with libavcodec. * * Copyright (C) 2007 Ulion * * This file is part of MPlayer. * * MPlayer 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. * * MPlayer 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 MPlayer; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #include #include #include #include #include #include #include #include #include #include #include "common/common.h" #include "af.h" #include "audio/audio_buffer.h" #include "audio/fmt-conversion.h" #define AC3_MAX_CHANNELS 6 #define AC3_MAX_CODED_FRAME_SIZE 3840 #define AC3_FRAME_SIZE (6 * 256) const uint16_t ac3_bitrate_tab[19] = { 32, 40, 48, 56, 64, 80, 96, 112, 128, 160, 192, 224, 256, 320, 384, 448, 512, 576, 640 }; // Data for specific instances of this filter typedef struct af_ac3enc_s { struct AVCodec *lavc_acodec; struct AVCodecContext *lavc_actx; AVPacket pkt; int bit_rate; struct mp_audio_buffer *pending; int in_samples; // samples of input per AC3 frame int out_samples; // upper bound on encoded output per AC3 frame int in_sampleformat; int cfg_add_iec61937_header; int cfg_bit_rate; int cfg_min_channel_num; } af_ac3enc_t; // Initialization and runtime control static int control(struct af_instance *af, int cmd, void *arg) { af_ac3enc_t *s = af->priv; static const int default_bit_rate[AC3_MAX_CHANNELS+1] = \ {0, 96000, 192000, 256000, 384000, 448000, 448000}; switch (cmd){ case AF_CONTROL_REINIT: { struct mp_audio *in = arg; struct mp_audio orig_in = *in; if (AF_FORMAT_IS_AC3(in->format) || in->nch < s->cfg_min_channel_num) return AF_DETACH; mp_audio_set_format(in, s->in_sampleformat); if (in->rate != 48000 && in->rate != 44100 && in->rate != 32000) in->rate = 48000; af->data->rate = in->rate; mp_chmap_reorder_to_lavc(&in->channels); if (in->nch > AC3_MAX_CHANNELS) mp_audio_set_num_channels(in, AC3_MAX_CHANNELS); mp_audio_set_format(af->data, AF_FORMAT_AC3_BE); mp_audio_set_num_channels(af->data, 2); if (!mp_audio_config_equals(in, &orig_in)) return AF_FALSE; s->in_samples = AC3_FRAME_SIZE; if (s->cfg_add_iec61937_header) { s->out_samples = AC3_FRAME_SIZE; } else { s->out_samples = AC3_MAX_CODED_FRAME_SIZE / af->data->sstride; } af->mul = s->out_samples / (double)s->in_samples; mp_audio_buffer_reinit(s->pending, in); MP_DBG(af, "af_lavcac3enc reinit: %d, %d, %f, %d.\n", in->nch, in->rate, af->mul, s->in_samples); int bit_rate = s->bit_rate ? s->bit_rate : default_bit_rate[in->nch]; if (s->lavc_actx->channels != in->nch || s->lavc_actx->sample_rate != in->rate || s->lavc_actx->bit_rate != bit_rate) { avcodec_close(s->lavc_actx); // Put sample parameters s->lavc_actx->channels = in->nch; s->lavc_actx->channel_layout = mp_chmap_to_lavc(&in->channels); s->lavc_actx->sample_rate = in->rate; s->lavc_actx->bit_rate = bit_rate; if (avcodec_open2(s->lavc_actx, s->lavc_acodec, NULL) < 0) { MP_ERR(af, "Couldn't open codec %s, br=%d.\n", "ac3", bit_rate); return AF_ERROR; } } if (s->lavc_actx->frame_size != AC3_FRAME_SIZE) { MP_ERR(af, "lavcac3enc: unexpected ac3 " "encoder frame size %d\n", s->lavc_actx->frame_size); return AF_ERROR; } return AF_OK; } } return AF_UNKNOWN; } // Deallocate memory static void uninit(struct af_instance* af) { af_ac3enc_t *s = af->priv; if (s) { av_free_packet(&s->pkt); if(s->lavc_actx) { avcodec_close(s->lavc_actx); av_free(s->lavc_actx); } } } // Filter data through filter static int filter(struct af_instance* af, struct mp_audio* audio, int flags) { struct mp_audio *out = af->data; af_ac3enc_t *s = af->priv; int num_frames = (audio->samples + mp_audio_buffer_samples(s->pending)) / s->in_samples; int max_out_samples = s->out_samples * num_frames; mp_audio_realloc_min(out, max_out_samples); out->samples = 0; while (audio->samples > 0) { int ret; int consumed_pending = 0; struct mp_audio in_frame; int pending = mp_audio_buffer_samples(s->pending); if (pending == 0 && audio->samples >= s->in_samples) { in_frame = *audio; mp_audio_skip_samples(audio, s->in_samples); } else { if (pending > 0 && pending < s->in_samples) { struct mp_audio tmp = *audio; tmp.samples = MPMIN(tmp.samples, s->in_samples); mp_audio_buffer_append(s->pending, &tmp); mp_audio_skip_samples(audio, tmp.samples); } mp_audio_buffer_peek(s->pending, &in_frame); if (in_frame.samples < s->in_samples) break; consumed_pending = s->in_samples; } in_frame.samples = s->in_samples; AVFrame *frame = avcodec_alloc_frame(); if (!frame) { MP_FATAL(af, "Could not allocate memory \n"); return -1; } frame->nb_samples = s->in_samples; frame->format = s->lavc_actx->sample_fmt; frame->channel_layout = s->lavc_actx->channel_layout; assert(in_frame.num_planes <= AV_NUM_DATA_POINTERS); for (int n = 0; n < in_frame.num_planes; n++) frame->data[n] = in_frame.planes[n]; frame->linesize[0] = s->in_samples * audio->sstride; int ok; ret = avcodec_encode_audio2(s->lavc_actx, &s->pkt, frame, &ok); if (ret < 0 || !ok) { MP_FATAL(af, "Encode failed.\n"); return -1; } avcodec_free_frame(&frame); mp_audio_buffer_skip(s->pending, consumed_pending); MP_DBG(af, "avcodec_encode_audio got %d, pending %d.\n", s->pkt.size, mp_audio_buffer_samples(s->pending)); int frame_size = s->pkt.size; int header_len = 0; char hdr[8]; if (s->cfg_add_iec61937_header && s->pkt.size > 5) { int bsmod = s->pkt.data[5] & 0x7; int len = frame_size; frame_size = AC3_FRAME_SIZE * 2 * 2; header_len = 8; AV_WB16(hdr, 0xF872); // iec 61937 syncword 1 AV_WB16(hdr + 2, 0x4E1F); // iec 61937 syncword 2 hdr[4] = bsmod; // bsmod hdr[5] = 0x01; // data-type ac3 AV_WB16(hdr + 6, len << 3); // number of bits in payload } size_t max_size = (max_out_samples - out->samples) * out->sstride; if (frame_size > max_size) abort(); char *buf = (char *)out->planes[0] + out->samples * out->sstride; memcpy(buf, hdr, header_len); memcpy(buf + header_len, s->pkt.data, s->pkt.size); memset(buf + header_len + s->pkt.size, 0, frame_size - (header_len + s->pkt.size)); out->samples += frame_size / out->sstride; } mp_audio_buffer_append(s->pending, audio); *audio = *out; return 0; } static int af_open(struct af_instance* af){ af_ac3enc_t *s = af->priv; af->control=control; af->uninit=uninit; af->filter=filter; s->lavc_acodec = avcodec_find_encoder_by_name("ac3"); if (!s->lavc_acodec) { MP_ERR(af, "Audio LAVC, couldn't find encoder for codec %s.\n", "ac3"); return AF_ERROR; } s->lavc_actx = avcodec_alloc_context3(s->lavc_acodec); if (!s->lavc_actx) { MP_ERR(af, "Audio LAVC, couldn't allocate context!\n"); return AF_ERROR; } const enum AVSampleFormat *fmts = s->lavc_acodec->sample_fmts; for (int i = 0; fmts[i] != AV_SAMPLE_FMT_NONE; i++) { s->in_sampleformat = af_from_avformat(fmts[i]); if (s->in_sampleformat) { s->lavc_actx->sample_fmt = fmts[i]; break; } } if (!s->in_sampleformat) { MP_ERR(af, "Audio LAVC, encoder doesn't " "support expected sample formats!\n"); return AF_ERROR; } MP_VERBOSE(af, "[af_lavcac3enc]: in sample format: %s\n", af_fmt_to_str(s->in_sampleformat)); av_init_packet(&s->pkt); s->pending = mp_audio_buffer_create(af); if (s->cfg_bit_rate) { int i; for (i = 0; i < 19; i++) { if (ac3_bitrate_tab[i] == s->cfg_bit_rate) break; } if (i >= 19) { MP_WARN(af, "af_lavcac3enc unable set unsupported " "bitrate %d, use default bitrate (check manpage to see " "supported bitrates).\n", s->cfg_bit_rate); s->cfg_bit_rate = 0; } } return AF_OK; } #define OPT_BASE_STRUCT struct af_ac3enc_s struct af_info af_info_lavcac3enc = { .info = "runtime encode to ac3 using libavcodec", .name = "lavcac3enc", .open = af_open, .priv_size = sizeof(struct af_ac3enc_s), .priv_defaults = &(const struct af_ac3enc_s){ .cfg_add_iec61937_header = 1, .cfg_min_channel_num = 5, }, .options = (const struct m_option[]) { OPT_FLAG("tospdif", cfg_add_iec61937_header, 0), OPT_CHOICE_OR_INT("bitrate", cfg_bit_rate, 0, 32, 640, ({"default", 0})), OPT_INTRANGE("minch", cfg_min_channel_num, 0, 2, 6), {0} }, };