/* ------------------------------------------------------------------ * Copyright (C) 2016 Matthias P. Braendli * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either * express or implied. * See the License for the specific language governing permissions * and limitations under the License. * ------------------------------------------------------------------- */ #include #include #include #include #include #include "VLCInput.h" #include "config.h" #if HAVE_VLC #include int check_vlc_uses_size_t(); using namespace std; // VLC Audio prerender callback void prepareRender_size_t( void* p_audio_data, uint8_t** pp_pcm_buffer, size_t size) { VLCInput* in = (VLCInput*)p_audio_data; in->preRender_cb(pp_pcm_buffer, size); } void prepareRender( void* p_audio_data, uint8_t** pp_pcm_buffer, unsigned int size) { VLCInput* in = (VLCInput*)p_audio_data; in->preRender_cb(pp_pcm_buffer, size); } // Audio postrender callback void handleStream_size_t( void* p_audio_data, uint8_t* p_pcm_buffer, unsigned int channels, unsigned int rate, unsigned int nb_samples, unsigned int bits_per_sample, size_t size, int64_t pts) { VLCInput* in = (VLCInput*)p_audio_data; assert(channels == in->getChannels()); assert(rate == in->getRate()); assert(bits_per_sample == 8*BYTES_PER_SAMPLE); // This assumes VLC always gives back the full // buffer it asked for. According to VLC code // smem.c for v2.2.0 this holds. in->postRender_cb(); } // convert from unsigned int size to size_t size void handleStream( void* p_audio_data, uint8_t* p_pcm_buffer, unsigned int channels, unsigned int rate, unsigned int nb_samples, unsigned int bits_per_sample, unsigned int size, int64_t pts) { handleStream_size_t( p_audio_data, p_pcm_buffer, channels, rate, nb_samples, bits_per_sample, size, pts); } // VLC Exit callback void handleVLCExit(void* opaque) { ((VLCInput*)opaque)->exit_cb(); } int VLCInput::prepare() { int err; fprintf(stderr, "Initialising VLC...\n"); long long int handleStream_address; long long int prepareRender_address; int vlc_version_check = check_vlc_uses_size_t(); if (vlc_version_check == 0) { fprintf(stderr, "You are using VLC with unsigned int size callbacks\n"); handleStream_address = (long long int)(intptr_t)(void*)&handleStream; prepareRender_address = (long long int)(intptr_t)(void*)&prepareRender; } else if (vlc_version_check == 1) { fprintf(stderr, "You are using VLC with size_t size callbacks\n"); handleStream_address = (long long int)(intptr_t)(void*)&handleStream_size_t; prepareRender_address = (long long int)(intptr_t)(void*)&prepareRender_size_t; } else { fprintf(stderr, "Error detecting VLC version!\n"); fprintf(stderr, " you are using %s\n", libvlc_get_version()); return -1; } // VLC options std::stringstream transcode_options_ss; transcode_options_ss << "acodec=s16l"; transcode_options_ss << ",samplerate=" << m_rate; if (not m_gain.empty()) { transcode_options_ss << ",afilter=compressor"; } string transcode_options = transcode_options_ss.str(); char smem_options[512]; snprintf(smem_options, sizeof(smem_options), "#transcode{%s}:" // We are using transcode because smem only support raw audio and // video formats "smem{" "audio-postrender-callback=%lld," "audio-prerender-callback=%lld," "audio-data=%lld" "}", transcode_options.c_str(), handleStream_address, prepareRender_address, (long long int)(intptr_t)this); #define VLC_ARGS_LEN 32 const char* vlc_args[VLC_ARGS_LEN]; size_t arg_ix = 0; std::stringstream arg_verbose; arg_verbose << "--verbose=" << m_verbosity; vlc_args[arg_ix++] = arg_verbose.str().c_str(); std::string arg_network_caching; if (not m_cache.empty()) { stringstream ss; ss << "--network-caching=" << m_cache; arg_network_caching = ss.str(); vlc_args[arg_ix++] = arg_network_caching.c_str(); } std::string arg_gain; if (not m_gain.empty()) { stringstream ss; ss << "--compressor-makeup=" << m_gain; arg_gain = ss.str(); vlc_args[arg_ix++] = arg_gain.c_str(); } vlc_args[arg_ix++] = "--sout"; vlc_args[arg_ix++] = smem_options; // Stream to memory for (const auto& opt : m_additional_opts) { if (arg_ix < VLC_ARGS_LEN) { vlc_args[arg_ix++] = opt.c_str(); } else { fprintf(stderr, "Too many VLC options given"); return 1; } } if (m_verbosity) { fprintf(stderr, "Initialising VLC with options:\n"); for (size_t i = 0; i < arg_ix; i++) { fprintf(stderr, " %s\n", vlc_args[i]); } } // Launch VLC m_vlc = libvlc_new(arg_ix, vlc_args); libvlc_set_exit_handler(m_vlc, handleVLCExit, this); // Load the media libvlc_media_t *m; m = libvlc_media_new_location(m_vlc, m_uri.c_str()); m_mp = libvlc_media_player_new_from_media(m); libvlc_media_release(m); // Start playing int ret = libvlc_media_player_play(m_mp); if (ret == 0) { libvlc_media_t *media = libvlc_media_player_get_media(m_mp); libvlc_state_t st; ret = -1; for (int timeout = 0; timeout < 100; timeout++) { st = libvlc_media_get_state(media); std::this_thread::sleep_for(std::chrono::milliseconds(10)); if (st != libvlc_NothingSpecial) { ret = 0; break; } } } return ret; } void VLCInput::preRender_cb(uint8_t** pp_pcm_buffer, size_t size) { const size_t max_length = 20 * size; for (;;) { { std::lock_guard lock(m_queue_mutex); if (m_queue.size() < max_length) { m_current_buf.resize(size); *pp_pcm_buffer = &m_current_buf[0]; return; } } std::this_thread::sleep_for(std::chrono::milliseconds(1)); } } void VLCInput::exit_cb() { std::lock_guard lock(m_queue_mutex); fprintf(stderr, "VLC exit, restarting...\n"); cleanup(); m_current_buf.clear(); prepare(); } void VLCInput::cleanup() { if (m_mp) { /* Stop playing */ libvlc_media_player_stop(m_mp); /* Free the media_player */ libvlc_media_player_release(m_mp); } if (m_vlc) { libvlc_release(m_vlc); m_vlc = NULL; } } void VLCInput::postRender_cb() { std::lock_guard lock(m_queue_mutex); size_t queue_size = m_queue.size(); m_queue.resize(m_queue.size() + m_current_buf.size()); std::copy(m_current_buf.begin(), m_current_buf.end(), m_queue.begin() + queue_size); } ssize_t VLCInput::m_read(uint8_t* buf, size_t length) { ssize_t err = 0; while (m_running) { { std::lock_guard lock(m_queue_mutex); if (m_queue.size() >= length) { std::copy(m_queue.begin(), m_queue.begin() + length, buf); m_queue.erase(m_queue.begin(), m_queue.begin() + length); return length; } } std::this_thread::sleep_for(std::chrono::milliseconds(1)); libvlc_media_t *media = libvlc_media_player_get_media(m_mp); libvlc_state_t st = libvlc_media_get_state(media); if (!(st == libvlc_Opening || st == libvlc_Buffering || st == libvlc_Playing) ) { fprintf(stderr, "VLC state is %d\n", st); err = -1; break; } char* nowplaying_sz = libvlc_media_get_meta(media, libvlc_meta_NowPlaying); if (nowplaying_sz) { m_nowplaying = nowplaying_sz; free(nowplaying_sz); } } return err; } bool write_icy_to_file(const std::string& text, const std::string& filename, bool dl_plus) { FILE* fd = fopen(filename.c_str(), "wb"); if (fd) { bool ret = true; // if desired, prepend DL Plus information if (dl_plus) { std::stringstream ss; ss << "##### parameters { #####\n"; ss << "DL_PLUS=1\n"; // if non-empty text, add PROGRAMME.NOW tag if (!text.empty()) ss << "DL_PLUS_TAG=33 0 " << (strlen_utf8(text.c_str()) - 1) << "\n"; // -1 ! ss << "##### parameters } #####\n"; ret &= fputs(ss.str().c_str(), fd) >= 0; } ret &= fputs(text.c_str(), fd) >= 0; fclose(fd); return ret; } return false; } void VLCInput::write_icy_text(const std::string& filename, bool dl_plus) { if (icy_text_written.valid()) { auto status = icy_text_written.wait_for(std::chrono::microseconds(1)); if (status == std::future_status::ready) { if (not icy_text_written.get()) { fprintf(stderr, "Failed to write ICY Text to file!\n"); } } } else { if (m_nowplaying_previous != m_nowplaying) { icy_text_written = std::async(std::launch::async, std::bind(write_icy_to_file, m_nowplaying, filename, dl_plus)); } m_nowplaying_previous = m_nowplaying; } } void VLCInput::start() { if (m_fault) { fprintf(stderr, "Cannot start VLC input. Fault detected previsouly!\n"); } else { m_running = true; m_thread = std::thread(&VLCInput::process, this); } } // How many samples we insert into the queue each call // 10 samples @ 32kHz = 3.125ms #define NUM_BYTES_PER_CALL (10 * BYTES_PER_SAMPLE) void VLCInput::process() { uint8_t samplebuf[NUM_BYTES_PER_CALL]; while (m_running) { ssize_t n = m_read(samplebuf, NUM_BYTES_PER_CALL); if (n < 0) { m_running = false; m_fault = true; break; } m_samplequeue.push(samplebuf, n); } } /* VLC up to version 2.1.0 used a different callback function signature. * VLC 2.2.0 uses size_t * * \return 1 if the callback with size_t size should be used. * 0 if the callback with unsigned int size should be used. * -1 if there was an error. */ int check_vlc_uses_size_t() { int retval = -1; char libvlc_version[256]; strncpy(libvlc_version, libvlc_get_version(), 256); char *space_position = strstr(libvlc_version, " "); if (space_position) { *space_position = '\0'; } char *saveptr; char *major_ver_sz = strtok_r(libvlc_version, ".", &saveptr); if (major_ver_sz) { int major_ver = atoi(major_ver_sz); char *minor_ver_sz = strtok_r(NULL, ".", &saveptr); if (minor_ver_sz) { int minor_ver = atoi(minor_ver_sz); retval = (major_ver >= 2 && minor_ver >= 2) ? 1 : 0; } } return retval; } #endif // HAVE_VLC