/* * Copyright (C) 2003-2014 The Music Player Daemon Project * http://www.musicpd.org * * This program 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. * * This program 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 this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #include "config.h" #include "HttpdOutputPlugin.hxx" #include "HttpdInternal.hxx" #include "HttpdClient.hxx" #include "../OutputAPI.hxx" #include "encoder/EncoderPlugin.hxx" #include "encoder/EncoderList.hxx" #include "system/Resolver.hxx" #include "Page.hxx" #include "IcyMetaDataServer.hxx" #include "system/fd_util.h" #include "IOThread.hxx" #include "event/Call.hxx" #include "util/Error.hxx" #include "util/Domain.hxx" #include "Log.hxx" #include #include #include #include #include #ifdef HAVE_LIBWRAP #include /* needed for AF_UNIX */ #include #endif const Domain httpd_output_domain("httpd_output"); inline HttpdOutput::HttpdOutput(EventLoop &_loop) :ServerSocket(_loop), DeferredMonitor(_loop), encoder(nullptr), unflushed_input(0), metadata(nullptr) { } HttpdOutput::~HttpdOutput() { if (metadata != nullptr) metadata->Unref(); if (encoder != nullptr) encoder_finish(encoder); } inline bool HttpdOutput::Bind(Error &error) { open = false; bool result = false; BlockingCall(GetEventLoop(), [this, &error, &result](){ result = ServerSocket::Open(error); }); return result; } inline void HttpdOutput::Unbind() { assert(!open); BlockingCall(GetEventLoop(), [this](){ ServerSocket::Close(); }); } inline bool HttpdOutput::Configure(const config_param ¶m, Error &error) { /* read configuration */ name = param.GetBlockValue("name", "Set name in config"); genre = param.GetBlockValue("genre", "Set genre in config"); website = param.GetBlockValue("website", "Set website in config"); unsigned port = param.GetBlockValue("port", 8000u); const char *encoder_name = param.GetBlockValue("encoder", "vorbis"); const auto encoder_plugin = encoder_plugin_get(encoder_name); if (encoder_plugin == nullptr) { error.Format(httpd_output_domain, "No such encoder: %s", encoder_name); return false; } clients_max = param.GetBlockValue("max_clients", 0u); /* set up bind_to_address */ const char *bind_to_address = param.GetBlockValue("bind_to_address"); bool success = bind_to_address != nullptr && strcmp(bind_to_address, "any") != 0 ? AddHost(bind_to_address, port, error) : AddPort(port, error); if (!success) return false; /* initialize encoder */ encoder = encoder_init(*encoder_plugin, param, error); if (encoder == nullptr) return false; /* determine content type */ content_type = encoder_get_mime_type(encoder); if (content_type == nullptr) content_type = "application/octet-stream"; return true; } inline bool HttpdOutput::Init(const config_param ¶m, Error &error) { return ao_base_init(&base, &httpd_output_plugin, param, error); } static struct audio_output * httpd_output_init(const config_param ¶m, Error &error) { HttpdOutput *httpd = new HttpdOutput(io_thread_get()); audio_output *result = httpd->InitAndConfigure(param, error); if (result == nullptr) delete httpd; return result; } static void httpd_output_finish(struct audio_output *ao) { HttpdOutput *httpd = HttpdOutput::Cast(ao); httpd->Finish(); delete httpd; } /** * Creates a new #HttpdClient object and adds it into the * HttpdOutput.clients linked list. */ inline void HttpdOutput::AddClient(int fd) { clients.emplace_front(*this, fd, GetEventLoop(), encoder->plugin.tag == nullptr); ++clients_cnt; /* pass metadata to client */ if (metadata != nullptr) clients.front().PushMetaData(metadata); } void HttpdOutput::RunDeferred() { /* this method runs in the IOThread; it broadcasts pages from our own queue to all clients */ const ScopeLock protect(mutex); while (!pages.empty()) { Page *page = pages.front(); pages.pop(); for (auto &client : clients) client.PushPage(page); page->Unref(); } /* wake up the client that may be waiting for the queue to be flushed */ cond.broadcast(); } void HttpdOutput::OnAccept(int fd, const sockaddr &address, size_t address_length, gcc_unused int uid) { /* the listener socket has become readable - a client has connected */ #ifdef HAVE_LIBWRAP if (address.sa_family != AF_UNIX) { const auto hostaddr = sockaddr_to_string(&address, address_length); // TODO: shall we obtain the program name from argv[0]? const char *progname = "mpd"; struct request_info req; request_init(&req, RQ_FILE, fd, RQ_DAEMON, progname, 0); fromhost(&req); if (!hosts_access(&req)) { /* tcp wrappers says no */ FormatWarning(httpd_output_domain, "libwrap refused connection (libwrap=%s) from %s", progname, hostaddr.c_str()); close_socket(fd); return; } } #else (void)address; (void)address_length; #endif /* HAVE_WRAP */ const ScopeLock protect(mutex); if (fd >= 0) { /* can we allow additional client */ if (open && (clients_max == 0 || clients_cnt < clients_max)) AddClient(fd); else close_socket(fd); } else if (fd < 0 && errno != EINTR) { LogErrno(httpd_output_domain, "accept() failed"); } } Page * HttpdOutput::ReadPage() { if (unflushed_input >= 65536) { /* we have fed a lot of input into the encoder, but it didn't give anything back yet - flush now to avoid buffer underruns */ encoder_flush(encoder, IgnoreError()); unflushed_input = 0; } size_t size = 0; do { size_t nbytes = encoder_read(encoder, buffer + size, sizeof(buffer) - size); if (nbytes == 0) break; unflushed_input = 0; size += nbytes; } while (size < sizeof(buffer)); if (size == 0) return nullptr; return Page::Copy(buffer, size); } static bool httpd_output_enable(struct audio_output *ao, Error &error) { HttpdOutput *httpd = HttpdOutput::Cast(ao); return httpd->Bind(error); } static void httpd_output_disable(struct audio_output *ao) { HttpdOutput *httpd = HttpdOutput::Cast(ao); httpd->Unbind(); } inline bool HttpdOutput::OpenEncoder(AudioFormat &audio_format, Error &error) { if (!encoder_open(encoder, audio_format, error)) return false; /* we have to remember the encoder header, i.e. the first bytes of encoder output after opening it, because it has to be sent to every new client */ header = ReadPage(); unflushed_input = 0; return true; } inline bool HttpdOutput::Open(AudioFormat &audio_format, Error &error) { assert(!open); assert(clients.empty()); /* open the encoder */ if (!OpenEncoder(audio_format, error)) return false; /* initialize other attributes */ clients_cnt = 0; timer = new Timer(audio_format); open = true; return true; } static bool httpd_output_open(struct audio_output *ao, AudioFormat &audio_format, Error &error) { HttpdOutput *httpd = HttpdOutput::Cast(ao); const ScopeLock protect(httpd->mutex); return httpd->Open(audio_format, error); } inline void HttpdOutput::Close() { assert(open); open = false; delete timer; BlockingCall(GetEventLoop(), [this](){ clients.clear(); }); if (header != nullptr) header->Unref(); encoder_close(encoder); } static void httpd_output_close(struct audio_output *ao) { HttpdOutput *httpd = HttpdOutput::Cast(ao); const ScopeLock protect(httpd->mutex); httpd->Close(); } void HttpdOutput::RemoveClient(HttpdClient &client) { assert(clients_cnt > 0); for (auto prev = clients.before_begin(), i = std::next(prev);; prev = i, i = std::next(prev)) { assert(i != clients.end()); if (&*i == &client) { clients.erase_after(prev); clients_cnt--; break; } } } void HttpdOutput::SendHeader(HttpdClient &client) const { if (header != nullptr) client.PushPage(header); } inline unsigned HttpdOutput::Delay() const { if (!LockHasClients() && base.pause) { /* if there's no client and this output is paused, then httpd_output_pause() will not do anything, it will not fill the buffer and it will not update the timer; therefore, we reset the timer here */ timer->Reset(); /* some arbitrary delay that is long enough to avoid consuming too much CPU, and short enough to notice new clients quickly enough */ return 1000; } return timer->IsStarted() ? timer->GetDelay() : 0; } static unsigned httpd_output_delay(struct audio_output *ao) { HttpdOutput *httpd = HttpdOutput::Cast(ao); return httpd->Delay(); } void HttpdOutput::BroadcastPage(Page *page) { assert(page != nullptr); mutex.lock(); pages.push(page); page->Ref(); mutex.unlock(); DeferredMonitor::Schedule(); } void HttpdOutput::BroadcastFromEncoder() { /* synchronize with the IOThread */ mutex.lock(); while (!pages.empty()) cond.wait(mutex); Page *page; while ((page = ReadPage()) != nullptr) pages.push(page); mutex.unlock(); DeferredMonitor::Schedule(); } inline bool HttpdOutput::EncodeAndPlay(const void *chunk, size_t size, Error &error) { if (!encoder_write(encoder, chunk, size, error)) return false; unflushed_input += size; BroadcastFromEncoder(); return true; } inline size_t HttpdOutput::Play(const void *chunk, size_t size, Error &error) { if (LockHasClients()) { if (!EncodeAndPlay(chunk, size, error)) return 0; } if (!timer->IsStarted()) timer->Start(); timer->Add(size); return size; } static size_t httpd_output_play(struct audio_output *ao, const void *chunk, size_t size, Error &error) { HttpdOutput *httpd = HttpdOutput::Cast(ao); return httpd->Play(chunk, size, error); } static bool httpd_output_pause(struct audio_output *ao) { HttpdOutput *httpd = HttpdOutput::Cast(ao); if (httpd->LockHasClients()) { static const char silence[1020] = { 0 }; return httpd_output_play(ao, silence, sizeof(silence), IgnoreError()) > 0; } else { return true; } } inline void HttpdOutput::SendTag(const Tag *tag) { assert(tag != nullptr); if (encoder->plugin.tag != nullptr) { /* embed encoder tags */ /* flush the current stream, and end it */ encoder_pre_tag(encoder, IgnoreError()); BroadcastFromEncoder(); /* send the tag to the encoder - which starts a new stream now */ encoder_tag(encoder, tag, IgnoreError()); /* the first page generated by the encoder will now be used as the new "header" page, which is sent to all new clients */ Page *page = ReadPage(); if (page != nullptr) { if (header != nullptr) header->Unref(); header = page; BroadcastPage(page); } } else { /* use Icy-Metadata */ if (metadata != nullptr) metadata->Unref(); static constexpr TagType types[] = { TAG_ALBUM, TAG_ARTIST, TAG_TITLE, TAG_NUM_OF_ITEM_TYPES }; metadata = icy_server_metadata_page(*tag, &types[0]); if (metadata != nullptr) { const ScopeLock protect(mutex); for (auto &client : clients) client.PushMetaData(metadata); } } } static void httpd_output_tag(struct audio_output *ao, const Tag *tag) { HttpdOutput *httpd = HttpdOutput::Cast(ao); httpd->SendTag(tag); } inline void HttpdOutput::CancelAllClients() { const ScopeLock protect(mutex); while (!pages.empty()) { Page *page = pages.front(); pages.pop(); page->Unref(); } for (auto &client : clients) client.CancelQueue(); cond.broadcast(); } static void httpd_output_cancel(struct audio_output *ao) { HttpdOutput *httpd = HttpdOutput::Cast(ao); BlockingCall(io_thread_get(), [httpd](){ httpd->CancelAllClients(); }); } const struct AudioOutputPlugin httpd_output_plugin = { "httpd", nullptr, httpd_output_init, httpd_output_finish, httpd_output_enable, httpd_output_disable, httpd_output_open, httpd_output_close, httpd_output_delay, httpd_output_tag, httpd_output_play, nullptr, httpd_output_cancel, httpd_output_pause, nullptr, };