Unify mux.cpp between Nageru and Futatabi.

[nageru] / nageru / kaeru.cpp

// Kaeru (換える), a simple transcoder intended for use with Nageru.

#include "audio_encoder.h"
#include "basic_stats.h"
#include "defs.h"
#include "flags.h"
#include "ffmpeg_capture.h"
#include "mixer.h"
#include "shared/mux.h"
#include "quittable_sleeper.h"
#include "shared/timebase.h"
#include "x264_encoder.h"

#include <assert.h>
#include <fcntl.h>
#include <signal.h>
#include <unistd.h>
#include <chrono>
#include <string>

using namespace bmusb;
using namespace movit;
using namespace std;
using namespace std::chrono;
using namespace std::placeholders;

Mixer *global_mixer = nullptr;
X264Encoder *global_x264_encoder = nullptr;
int frame_num = 0;
BasicStats *global_basic_stats = nullptr;
QuittableSleeper should_quit;
MuxMetrics stream_mux_metrics;

int write_packet(void *opaque, uint8_t *buf, int buf_size, AVIODataMarkerType type, int64_t time)
{
        static bool seen_sync_markers = false;
        static string stream_mux_header;
        HTTPD *httpd = (HTTPD *)opaque;

        if (type == AVIO_DATA_MARKER_SYNC_POINT || type == AVIO_DATA_MARKER_BOUNDARY_POINT) {
                seen_sync_markers = true;
        } else if (type == AVIO_DATA_MARKER_UNKNOWN && !seen_sync_markers) {
                // We don't know if this is a keyframe or not (the muxer could
                // avoid marking it), so we just have to make the best of it.
                type = AVIO_DATA_MARKER_SYNC_POINT;
        }

        if (type == AVIO_DATA_MARKER_HEADER) {
                stream_mux_header.append((char *)buf, buf_size);
                httpd->set_header(stream_mux_header);
        } else {
                httpd->add_data((char *)buf, buf_size, type == AVIO_DATA_MARKER_SYNC_POINT, time, AVRational{ AV_TIME_BASE, 1 });
        }
        return buf_size;
}

unique_ptr<Mux> create_mux(HTTPD *httpd, AVOutputFormat *oformat, X264Encoder *x264_encoder, AudioEncoder *audio_encoder)
{
        AVFormatContext *avctx = avformat_alloc_context();
        avctx->oformat = oformat;

        uint8_t *buf = (uint8_t *)av_malloc(MUX_BUFFER_SIZE);
        avctx->pb = avio_alloc_context(buf, MUX_BUFFER_SIZE, 1, httpd, nullptr, nullptr, nullptr);
        avctx->pb->write_data_type = &write_packet;
        avctx->pb->ignore_boundary_point = 1;
        avctx->flags = AVFMT_FLAG_CUSTOM_IO;

        string video_extradata = x264_encoder->get_global_headers();

        unique_ptr<Mux> mux;
        mux.reset(new Mux(avctx, global_flags.width, global_flags.height, Mux::CODEC_H264, video_extradata, audio_encoder->get_codec_parameters().get(),
                get_color_space(global_flags.ycbcr_rec709_coefficients), Mux::WITH_AUDIO, COARSE_TIMEBASE,
                /*write_callback=*/nullptr, Mux::WRITE_FOREGROUND, { &stream_mux_metrics }));
        stream_mux_metrics.init({{ "destination", "http" }});
        return mux;
}

void video_frame_callback(FFmpegCapture *video, X264Encoder *x264_encoder, AudioEncoder *audio_encoder,
                          int64_t video_pts, AVRational video_timebase,
                          int64_t audio_pts, AVRational audio_timebase,
                          uint16_t timecode,
                          FrameAllocator::Frame video_frame, size_t video_offset, VideoFormat video_format,
                          FrameAllocator::Frame audio_frame, size_t audio_offset, AudioFormat audio_format)
{
        if (video_pts >= 0 && video_frame.len > 0) {
                ReceivedTimestamps ts;
                ts.ts.push_back(steady_clock::now());

                video_pts = av_rescale_q(video_pts, video_timebase, AVRational{ 1, TIMEBASE });
                int64_t frame_duration = TIMEBASE * video_format.frame_rate_den / video_format.frame_rate_nom;
                x264_encoder->add_frame(video_pts, frame_duration, video->get_current_frame_ycbcr_format().luma_coefficients, video_frame.data + video_offset, ts);
                global_basic_stats->update(frame_num++, /*dropped_frames=*/0);
        }
        if (audio_frame.len > 0) {
                // FFmpegCapture takes care of this for us.
                assert(audio_format.num_channels == 2);
                assert(audio_format.sample_rate == OUTPUT_FREQUENCY);

                // TODO: Reduce some duplication against AudioMixer here.
                size_t num_samples = audio_frame.len / (audio_format.bits_per_sample / 8);
                vector<float> float_samples;
                float_samples.resize(num_samples);
                if (audio_format.bits_per_sample == 16) {
                        const int16_t *src = (const int16_t *)audio_frame.data;
                        float *dst = &float_samples[0];
                        for (size_t i = 0; i < num_samples; ++i) {
                                *dst++ = le16toh(*src++) * (1.0f / 32768.0f);
                        }
                } else if (audio_format.bits_per_sample == 32) {
                        const int32_t *src = (const int32_t *)audio_frame.data;
                        float *dst = &float_samples[0];
                        for (size_t i = 0; i < num_samples; ++i) {
                                *dst++ = le32toh(*src++) * (1.0f / 2147483648.0f);
                        }
                } else {
                        assert(false);
                }
                audio_pts = av_rescale_q(audio_pts, audio_timebase, AVRational{ 1, TIMEBASE });
                audio_encoder->encode_audio(float_samples, audio_pts);
        }

        if (video_frame.owner) {
                video_frame.owner->release_frame(video_frame);
        }
        if (audio_frame.owner) {
                audio_frame.owner->release_frame(audio_frame);
        }
}

void audio_frame_callback(Mux *mux, const AVPacket *pkt, AVRational timebase)
{
        mux->add_packet(*pkt, pkt->pts, pkt->dts == AV_NOPTS_VALUE ? pkt->pts : pkt->dts, timebase, /*stream_index=*/1);
}

void adjust_bitrate(int signal)
{
        int new_bitrate = global_flags.x264_bitrate;
        if (signal == SIGUSR1) {
                new_bitrate += 100;
                if (new_bitrate > 100000) {
                        fprintf(stderr, "Ignoring SIGUSR1, can't increase bitrate below 100000 kbit/sec (currently at %d kbit/sec)\n",
                                global_flags.x264_bitrate);
                } else {
                        fprintf(stderr, "Increasing bitrate to %d kbit/sec due to SIGUSR1.\n", new_bitrate);
                        global_flags.x264_bitrate = new_bitrate;
                        global_x264_encoder->change_bitrate(new_bitrate);
                }
        } else if (signal == SIGUSR2) {
                new_bitrate -= 100;
                if (new_bitrate < 100) {
                        fprintf(stderr, "Ignoring SIGUSR2, can't decrease bitrate below 100 kbit/sec (currently at %d kbit/sec)\n",
                                global_flags.x264_bitrate);
                } else {
                        fprintf(stderr, "Decreasing bitrate to %d kbit/sec due to SIGUSR2.\n", new_bitrate);
                        global_flags.x264_bitrate = new_bitrate;
                        global_x264_encoder->change_bitrate(new_bitrate);
                }
        }
}

void request_quit(int signal)
{
        should_quit.quit();
}

int main(int argc, char *argv[])
{
        parse_flags(PROGRAM_KAERU, argc, argv);
        if (optind + 1 != argc) {
                usage(PROGRAM_KAERU);
                exit(1);
        }
        global_flags.num_cards = 1;  // For latency metrics.

#if LIBAVFORMAT_VERSION_INT < AV_VERSION_INT(58, 9, 100)
        av_register_all();
#endif
        avformat_network_init();

        HTTPD httpd;

        AVOutputFormat *oformat = av_guess_format(global_flags.stream_mux_name.c_str(), nullptr, nullptr);
        assert(oformat != nullptr);

        unique_ptr<AudioEncoder> audio_encoder;
        if (global_flags.stream_audio_codec_name.empty()) {
                audio_encoder.reset(new AudioEncoder(AUDIO_OUTPUT_CODEC_NAME, DEFAULT_AUDIO_OUTPUT_BIT_RATE, oformat));
        } else {
                audio_encoder.reset(new AudioEncoder(global_flags.stream_audio_codec_name, global_flags.stream_audio_codec_bitrate, oformat));
        }

        unique_ptr<X264Encoder> x264_encoder(new X264Encoder(oformat));
        unique_ptr<Mux> http_mux = create_mux(&httpd, oformat, x264_encoder.get(), audio_encoder.get());
        if (global_flags.transcode_audio) {
                audio_encoder->add_mux(http_mux.get());
        }
        x264_encoder->add_mux(http_mux.get());
        global_x264_encoder = x264_encoder.get();

        FFmpegCapture video(argv[optind], global_flags.width, global_flags.height);
        video.set_pixel_format(FFmpegCapture::PixelFormat_NV12);
        video.set_frame_callback(bind(video_frame_callback, &video, x264_encoder.get(), audio_encoder.get(), _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11));
        if (!global_flags.transcode_audio) {
                video.set_audio_callback(bind(audio_frame_callback, http_mux.get(), _1, _2));
        }
        video.configure_card();
        video.start_bm_capture();
        video.change_rate(2.0);  // Be sure never to really fall behind, but also don't dump huge amounts of stuff onto x264.

        BasicStats basic_stats(/*verbose=*/false, /*use_opengl=*/false);
        global_basic_stats = &basic_stats;
        httpd.start(global_flags.http_port);

        signal(SIGUSR1, adjust_bitrate);
        signal(SIGUSR2, adjust_bitrate);
        signal(SIGINT, request_quit);

        while (!should_quit.should_quit()) {
                should_quit.sleep_for(hours(1000));
        }

        video.stop_dequeue_thread();
        // Stop the x264 encoder before killing the mux it's writing to.
        x264_encoder.reset();
        return 0;
}