/** * osschan.cpp * This file is part of the YATE Project http://YATE.null.ro * * Oss driver * I have to thank you to Mark Spencer because some parts of the code have * been taken from chan_oss.c from asterisk. * * Yet Another Telephony Engine - a fully featured software PBX and IVR * Copyright (C) 2004-2006 Null Team * * 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 St, Fifth Floor, Boston, MA 02110-1301, USA. */ #include #include #include #include #include #if defined(__linux__) #include #elif defined (__FreeBSD__) #include #else #include #endif // How long (in usec) before we force I/O direction change #define MIN_SWITCH_TIME 600000 using namespace TelEngine; namespace { // anonymous class OssDevice; class OssSource : public ThreadedSource { public: OssSource(OssDevice* dev); ~OssSource(); bool init(); virtual void run(); virtual void cleanup(); private: OssDevice* m_device; unsigned m_brate; unsigned m_total; }; class OssConsumer : public DataConsumer { public: OssConsumer(OssDevice* dev); ~OssConsumer(); bool init(); virtual void Consume(const DataBlock &data, unsigned long tStamp); private: OssDevice* m_device; unsigned m_total; }; class OssDevice : public RefObject { public: OssDevice(const String& dev); ~OssDevice(); bool reOpen(int iomode); bool setPcmFormat(); int setInputMode(bool force); int setOutputMode(bool force); bool timePassed(void); inline int fd() const { return m_fd; } inline bool closed() const { return m_fd < 0; } inline bool fullDuplex() const { return m_fullDuplex; } private: String m_dev; bool m_fullDuplex; bool m_readMode; int m_fd; u_int64_t m_lastTime; }; class OssChan : public CallEndpoint { public: OssChan(const String& dev); ~OssChan(); bool init(); virtual void disconnected(bool final, const char *reason); void answer(); inline void setTarget(const char* target = 0) { m_target = target; } inline const String& getTarget() const { return m_target; } private: String m_dev; String m_target; }; class OssHandler : public MessageHandler { public: OssHandler(const char *name) : MessageHandler(name) { } virtual bool received(Message &msg); }; class StatusHandler : public MessageHandler { public: StatusHandler() : MessageHandler("engine.status") { } virtual bool received(Message &msg); }; class DropHandler : public MessageHandler { public: DropHandler(const char *name) : MessageHandler(name) { } virtual bool received(Message &msg); }; class MasqHandler : public MessageHandler { public: MasqHandler(const char *name, int prio) : MessageHandler(name,prio) { } virtual bool received(Message &msg); }; class AttachHandler : public MessageHandler { public: AttachHandler() : MessageHandler("chan.attach") { } virtual bool received(Message &msg); }; class OssPlugin : public Plugin { public: OssPlugin(); virtual void initialize(); virtual bool isBusy() const; private: OssHandler *m_handler; }; OssChan *s_chan = 0; bool OssSource::init() { m_brate = 16000; m_total = 0; if (m_device->setInputMode(false) < 0) { Debug(DebugWarn, "Unable to set input mode\n"); return false; } start("OssSource"); return true; } OssSource::OssSource(OssDevice* dev) : m_device(0) { Debug(DebugAll,"OssSource::OssSource(%p) [%p]",dev,this); dev->ref(); m_device = dev; } OssSource::~OssSource() { Debug(DebugAll,"OssSource::~OssSource() [%p] total=%u",this,m_total); m_device->deref(); } void OssSource::run() { int r = 0; u_int64_t tpos = Time::now(); do { if (m_device->closed()) { Thread::yield(); r = 1; continue; } DataBlock data(0,480); r = ::read(m_device->fd(), data.data(), data.length()); if (r < 0) { if (errno == EINTR || errno == EAGAIN) { Thread::yield(); r = 1; continue; } break; } else if (r == 0) { Thread::yield(); r = 1; continue; } if (r < (int)data.length()) data.assign(data.data(),r); int64_t dly = tpos - Time::now(); if (dly > 0) { XDebug("OssSource",DebugAll,"Sleeping for " FMT64 " usec",dly); Thread::usleep((unsigned long)dly); } Forward(data); m_total += r; tpos += (r*1000000ULL/m_brate); } while (r > 0); Debug(DebugAll,"OssSource [%p] end of data",this); } void OssSource::cleanup() { Debug(DebugAll,"OssSource [%p] cleanup, total=%u",this,m_total); } bool OssConsumer::init() { m_total = 0; if (!m_device->fullDuplex()) { /* If we're half duplex, we have to switch to read mode to honor immediate needs if necessary */ if (m_device->setInputMode(true) < 0) { Debug(DebugWarn, "Unable to set device to input mode"); return false; } return true; } int res = m_device->setOutputMode(false); if (res < 0) { Debug(DebugWarn, "Unable to set output device"); return false; } else if (res > 0) { /* The device is still in read mode, and it's too soon to change it, so just pretend we wrote it */ return true; } return true; } OssConsumer::OssConsumer(OssDevice* dev) : m_device(0) { Debug(DebugAll,"OssConsumer::OssConsumer(%p) [%p]",dev,this); dev->ref(); m_device = dev; } OssConsumer::~OssConsumer() { Debug(DebugAll,"OssConsumer::~OssConsumer() [%p] total=%u",this,m_total); m_device->deref(); } void OssConsumer::Consume(const DataBlock &data, unsigned long tStamp) { if (m_device->closed() || data.null()) return; ::write(m_device->fd(),data.data(),data.length()); m_total += data.length(); } OssChan::OssChan(const String& dev) : CallEndpoint("oss"), m_dev(dev) { Debug(DebugAll,"OssChan::OssChan dev [%s] [%p]",dev.c_str(),this); s_chan = this; } OssChan::~OssChan() { Debug(DebugAll,"OssChan::~OssChan() [%p]",this); setTarget(); setSource(); setConsumer(); s_chan = 0; } bool OssChan::init() { OssDevice* dev = new OssDevice(m_dev); if (dev->closed()) { dev->deref(); return false; } OssSource* source = new OssSource(dev); dev->deref(); if (!source->init()) { source->deref(); return false; } setSource(source); source->deref(); OssConsumer* cons = new OssConsumer(dev); if (!cons->init()) { cons->deref(); setSource(); return false; } setConsumer(cons); cons->deref(); return true; } OssDevice::OssDevice(const String& dev) : m_dev(dev), m_fullDuplex(false), m_readMode(true), m_fd(-1) { Debug(DebugAll,"OssDevice::OssDevice('%s') [%p]",dev.c_str(),this); m_fd = ::open(m_dev, O_RDWR|O_NONBLOCK); if (m_fd < 0) { Debug(DebugWarn, "Unable to open %s: %s\n", m_dev.c_str(), ::strerror(errno)); return; } m_lastTime = Time::now() + MIN_SWITCH_TIME; setPcmFormat(); if (!m_fullDuplex) setInputMode(true); } OssDevice::~OssDevice() { Debug(DebugAll,"OssDevice::~OssDevice [%p]",this); if (m_fd >= 0) { ::close(m_fd); m_fd = -1; } } // Check if we should force a mode change bool OssDevice::timePassed(void) { return Time::now() > m_lastTime; } bool OssDevice::setPcmFormat() { int fmt = AFMT_S16_LE; int res = ::ioctl(m_fd, SNDCTL_DSP_SETFMT, &fmt); if (res < 0) { Debug(DebugWarn, "Unable to set format to 16-bit signed"); return false; } res = ::ioctl(m_fd, SNDCTL_DSP_SETDUPLEX, 0); if (res >= 0) { Debug(DebugInfo,"OSS audio device is full duplex"); m_fullDuplex = true; } fmt = 0; res = ::ioctl(m_fd, SNDCTL_DSP_STEREO, &fmt); if (res < 0) { Debug(DebugWarn, "Failed to set audio device to mono"); return false; } int desired = 8000; fmt = desired; res = ::ioctl(m_fd, SNDCTL_DSP_SPEED, &fmt); if (res < 0) { Debug(DebugWarn, "Failed to set audio device speed"); return false; } if (fmt != desired) Debug(DebugWarn, "Requested %d Hz, got %d Hz - sound may be choppy", desired, fmt); fmt = (2 << 16) | 8; res = ::ioctl(m_fd, SNDCTL_DSP_SETFRAGMENT, &fmt); if (res < 0) Debug(DebugWarn, "Unable to set fragment size - sound may be choppy"); return true; } // Close and reopen the DSP device in a new mode bool OssDevice::reOpen(int iomode) { int fdesc = m_fd; m_fd = -1; ::ioctl(fdesc, SNDCTL_DSP_RESET); ::close(fdesc); fdesc = ::open(m_dev.c_str(), iomode | O_NONBLOCK); if (fdesc < 0) { Debug(DebugWarn, "Unable to re-open DSP device: %s\n", ::strerror(errno)); return false; } m_fd = fdesc; return true; } // Make sure at least input mode is available int OssDevice::setInputMode(bool force) { if (m_fullDuplex || (m_readMode && !force)) return 0; m_readMode = true; if (force || timePassed()) { if (reOpen(O_RDONLY) && setPcmFormat()) return 0; return -1; } return 1; } // Make sure at least output mode is available int OssDevice::setOutputMode(bool force) { if (m_fullDuplex || (!m_readMode && !force)) return 0; m_readMode = false; if (force || timePassed()) { if (reOpen(O_WRONLY) && setPcmFormat()) return 0; return -1; } return 1; } void OssChan::disconnected(bool final, const char *reason) { Debugger debug("OssChan::disconnected()"," '%s' [%p]",reason,this); setTarget(); } void OssChan::answer() { Message* m = new Message("call.answered"); m->addParam("module","oss"); String tmp("oss/"); tmp += m_dev; m->addParam("id",tmp); if (m_target) m->addParam("targetid",m_target); Engine::enqueue(m); } bool OssHandler::received(Message &msg) { String dest(msg.getValue("callto")); if (dest.null()) return false; Regexp r("^oss/\\(.*\\)$"); if (!dest.matches(r)) return false; if (s_chan) { msg.setParam("error","busy"); return false; } OssChan *chan = new OssChan(dest.matchString(1).c_str()); if (!chan->init()) { chan->destruct(); return false; } CallEndpoint* ch = static_cast(msg.userData()); Debug(DebugInfo,"We are routing to device '%s'",dest.matchString(1).c_str()); if (ch && chan->connect(ch,msg.getValue("reason"))) { chan->setTarget(msg.getValue("id")); msg.setParam("peerid",dest); msg.setParam("targetid",dest); chan->answer(); chan->deref(); } else { const char *direct = msg.getValue("direct"); if (direct) { Message m("call.execute"); m.addParam("module","oss"); m.addParam("id",dest); m.addParam("caller",dest); m.addParam("callto",direct); m.userData(chan); if (Engine::dispatch(m)) { chan->setTarget(m.getValue("targetid")); msg.addParam("targetid",chan->getTarget()); chan->deref(); return true; } Debug(DebugInfo,"OSS outgoing call not accepted!"); chan->destruct(); return false; } const char *targ = msg.getValue("target"); if (!targ) { Debug(DebugWarn,"OSS outgoing call with no target!"); chan->destruct(); return false; } Message m("call.route"); m.addParam("module","oss"); m.addParam("id",dest); m.addParam("caller",dest); m.addParam("called",targ); if (Engine::dispatch(m)) { m = "call.execute"; m.addParam("callto",m.retValue()); m.retValue() = 0; m.userData(chan); if (Engine::dispatch(m)) { chan->setTarget(m.getValue("targetid")); msg.addParam("targetid",chan->getTarget()); chan->deref(); return true; } Debug(DebugInfo,"OSS outgoing call not accepted!"); } else Debug(DebugWarn,"OSS outgoing call but no route!"); chan->destruct(); return false; } return true; } bool StatusHandler::received(Message &msg) { const char *sel = msg.getValue("module"); if (sel && ::strcmp(sel,"oss")) return false; msg.retValue() << "name=oss,type=misc;osschan=" << (s_chan != 0 ) << "\n"; return false; } bool DropHandler::received(Message &msg) { String id(msg.getValue("id")); if (id.null() || id.startsWith("oss/")) { if (s_chan) { Debug("OssDropper",DebugInfo,"Dropping call"); s_chan->disconnect(); } return !id.null(); } return false; } bool MasqHandler::received(Message &msg) { String id(msg.getValue("id")); if (msg.getParam("message") && id.startsWith("oss/")) { msg = msg.getValue("message"); msg.clearParam("message"); if (s_chan) { msg.addParam("targetid",s_chan->getTarget()); msg.userData(s_chan); } } return false; } bool AttachHandler::received(Message &msg) { int more = 2; String src(msg.getValue("source")); if (src.null()) more--; else { if (!src.startSkip("oss/",false)) src = ""; } String cons(msg.getValue("consumer")); if (cons.null()) more--; else { if (!cons.startSkip("oss/",false)) cons = ""; } if (src.null() && cons.null()) return false; if (src && cons && (src != cons)) { Debug(DebugWarn,"OSS asked to attach source '%s' and consumer '%s'",src.c_str(),cons.c_str()); return false; } DataEndpoint *dd = static_cast(msg.userObject("DataEndpoint")); if (!dd) { CallEndpoint *ch = static_cast(msg.userObject("CallEndpoint")); if (ch) dd = ch->setEndpoint(); } if (!dd) { Debug(DebugWarn,"OSS attach request with no control or data channel!"); return false; } OssDevice* dev = new OssDevice(src ? src : cons); if (dev->closed()) { dev->deref(); return false; } if (src) { OssSource* s = new OssSource(dev); if (s->init()) dd->setSource(s); s->deref(); } if (cons) { OssConsumer* c = new OssConsumer(dev); if (c->init()) dd->setConsumer(c); c->deref(); } dev->deref(); // Stop dispatching if we handled all requested return !more; } OssPlugin::OssPlugin() : m_handler(0) { Output("Loaded module OssChan"); } void OssPlugin::initialize() { Output("Initializing module OssChan"); if (!m_handler) { m_handler = new OssHandler("call.execute"); Engine::install(new DropHandler("call.drop")); Engine::install(new MasqHandler("chan.masquerade",10)); Engine::install(m_handler); Engine::install(new StatusHandler); Engine::install(new AttachHandler); } } bool OssPlugin::isBusy() const { return (s_chan != 0); } INIT_PLUGIN(OssPlugin); }; // anonymous namespace /* vi: set ts=8 sw=4 sts=4 noet: */