/* Copyright (C) 2014 J.F.Dockes
* 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.,
* 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*/
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <string>
#include <iostream>
#include <sstream>
#include <vector>
#include <functional>
#include <set>
using namespace std;
using namespace std::placeholders;
#include "libupnpp/upnpplib.hxx"
#include "libupnpp/soaphelp.hxx"
#include "libupnpp/device.hxx"
#include "libupnpp/log.hxx"
#include "mpdcli.hxx"
#include "upmpdutils.hxx"
static const string friendlyName("UpMpd");
// The UPnP MPD frontend device with its 2 services
class UpMpd : public UpnpDevice {
public:
UpMpd(const string& deviceid, const unordered_map<string, string>& xmlfiles,
MPDCli *mpdcli);
// RenderingControl
int setMute(const SoapArgs& sc, SoapData& data);
int getMute(const SoapArgs& sc, SoapData& data);
int setVolume(const SoapArgs& sc, SoapData& data, bool isDb);
int getVolume(const SoapArgs& sc, SoapData& data, bool isDb);
int listPresets(const SoapArgs& sc, SoapData& data);
int selectPreset(const SoapArgs& sc, SoapData& data);
int getVolumeDBRange(const SoapArgs& sc, SoapData& data);
virtual bool getEventDataRendering(bool all,
std::vector<std::string>& names,
std::vector<std::string>& values);
// AVTransport
int setAVTransportURI(const SoapArgs& sc, SoapData& data, bool setnext);
int getPositionInfo(const SoapArgs& sc, SoapData& data);
int getTransportInfo(const SoapArgs& sc, SoapData& data);
int getMediaInfo(const SoapArgs& sc, SoapData& data);
int getDeviceCapabilities(const SoapArgs& sc, SoapData& data);
int setPlayMode(const SoapArgs& sc, SoapData& data);
int getTransportSettings(const SoapArgs& sc, SoapData& data);
int getCurrentTransportActions(const SoapArgs& sc, SoapData& data);
int playcontrol(const SoapArgs& sc, SoapData& data, int what);
int seek(const SoapArgs& sc, SoapData& data);
int seqcontrol(const SoapArgs& sc, SoapData& data, int what);
virtual bool getEventDataTransport(bool all,
std::vector<std::string>& names,
std::vector<std::string>& values);
// Re-implemented from the base class and shared by both services
virtual bool getEventData(bool all, const string& serviceid,
std::vector<std::string>& names,
std::vector<std::string>& values);
private:
MPDCli *m_mpdcli;
// State variable storage
unordered_map<string, string> m_rdstate;
unordered_map<string, string> m_tpstate;
// Translate MPD state to Renderer state variables.
bool rdstateMToU(unordered_map<string, string>& state);
// Translate MPD state to AVTransport state variables.
bool tpstateMToU(unordered_map<string, string>& state);
// My track identifiers (for cleaning up)
set<int> m_songids;
// Desired volume target. We may delay executing small volume
// changes to avoid saturating with small requests.
int m_desiredvolume;
};
static const string serviceIdRender("urn:upnp-org:serviceId:RenderingControl");
static const string serviceIdTransport("urn:upnp-org:serviceId:AVTransport");
UpMpd::UpMpd(const string& deviceid,
const unordered_map<string, string>& xmlfiles,
MPDCli *mpdcli)
: UpnpDevice(deviceid, xmlfiles), m_mpdcli(mpdcli), m_desiredvolume(-1)
{
addServiceType(serviceIdRender,
"urn:schemas-upnp-org:service:RenderingControl:1");
{ auto bound = bind(&UpMpd::setMute, this, _1, _2);
addActionMapping("SetMute", bound);
}
{ auto bound = bind(&UpMpd::getMute, this, _1, _2);
addActionMapping("GetMute", bound);
}
{ auto bound = bind(&UpMpd::setVolume, this, _1, _2, false);
addActionMapping("SetVolume", bound);
}
{ auto bound = bind(&UpMpd::setVolume, this, _1, _2, true);
addActionMapping("SetVolumeDB", bound);
}
{ auto bound = bind(&UpMpd::getVolume, this, _1, _2, false);
addActionMapping("GetVolume", bound);
}
{ auto bound = bind(&UpMpd::getVolume, this, _1, _2, true);
addActionMapping("GetVolumeDB", bound);
}
{ auto bound = bind(&UpMpd::listPresets, this, _1, _2);
addActionMapping("ListPresets", bound);
}
{ auto bound = bind(&UpMpd::selectPreset, this, _1, _2);
addActionMapping("SelectPreset", bound);
}
{ auto bound = bind(&UpMpd::getVolumeDBRange, this, _1, _2);
addActionMapping("GetVolumeDBRange", bound);
}
addServiceType(serviceIdTransport,
"urn:schemas-upnp-org:service:AVTransport:1");
{ auto bound = bind(&UpMpd::setAVTransportURI, this, _1, _2, false);
addActionMapping("SetAVTransportURI", bound);
}
{ auto bound = bind(&UpMpd::setAVTransportURI, this, _1, _2, true);
addActionMapping("SetNextAVTransportURI", bound);
}
{ auto bound = bind(&UpMpd::getPositionInfo, this, _1, _2);
addActionMapping("GetPositionInfo", bound);
}
{ auto bound = bind(&UpMpd::getTransportInfo, this, _1, _2);
addActionMapping("GetTransportInfo", bound);
}
{ auto bound = bind(&UpMpd::getMediaInfo, this, _1, _2);
addActionMapping("GetMediaInfo", bound);
}
{ auto bound = bind(&UpMpd::getDeviceCapabilities, this, _1, _2);
addActionMapping("GetDeviceCapabilities", bound);
}
{ auto bound = bind(&UpMpd::setPlayMode, this, _1, _2);
addActionMapping("SetPlayMode", bound);
}
{ auto bound = bind(&UpMpd::getTransportSettings, this, _1, _2);
addActionMapping("GetTransportSettings", bound);
}
{ auto bound = bind(&UpMpd::getCurrentTransportActions, this, _1, _2);
addActionMapping("GetCurrentTransportActions", bound);
}
{ auto bound = bind(&UpMpd::playcontrol, this, _1, _2, 0);
addActionMapping("Stop", bound);
}
{ auto bound = bind(&UpMpd::playcontrol, this, _1, _2, 1);
addActionMapping("Play", bound);
}
{ auto bound = bind(&UpMpd::playcontrol, this, _1, _2, 2);
addActionMapping("Pause", bound);
}
{ auto bound = bind(&UpMpd::seek, this, _1, _2);
addActionMapping("Seek", bound);
}
{ auto bound = bind(&UpMpd::seqcontrol, this, _1, _2, 0);
addActionMapping("Next", bound);
}
{ auto bound = bind(&UpMpd::seqcontrol, this, _1, _2, 1);
addActionMapping("Previous", bound);
}
}
// This is called by the polling loop at regular intervals, or when
// triggered, to retrieve changed state variables for each of the
// services (the list of services was defined in the base class by the
// "addServiceTypes()" calls during construction).
//
// We might add a method for triggering an event from the action
// methods after changing state, which would really act only if the
// interval with the previous event is long enough. But things seem to
// work ok with the systematic delay.
bool UpMpd::getEventData(bool all, const string& serviceid,
std::vector<std::string>& names,
std::vector<std::string>& values)
{
if (!serviceid.compare(serviceIdRender)) {
return getEventDataRendering(all, names, values);
} else if (!serviceid.compare(serviceIdTransport)) {
return getEventDataTransport(all, names, values);
} else {
LOGERR("UpMpd::getEventData: servid? [" << serviceid << "]" << endl);
return UPNP_E_INVALID_PARAM;
}
}
////////////////////////////////////////////////////
/// RenderingControl methods
// State variables for the RenderingControl. All evented through LastChange
// PresetNameList
// Mute
// Volume
// VolumeDB
// LastChange contains all the variables that were changed since the last
// event. For us that's at most Mute, Volume, VolumeDB
// <Event xmlns=���urn:schemas-upnp-org:metadata-1-0/AVT_RCS">
// <InstanceID val=���0���>
// <Mute channel=���Master��� val=���0���/>
// <Volume channel=���Master��� val=���24���/>
// <VolumeDB channel=���Master��� val=���24���/>
// </InstanceID>
// </Event>
bool UpMpd::rdstateMToU(unordered_map<string, string>& status)
{
const struct MpdStatus &mpds = m_mpdcli->getStatus();
int volume = m_desiredvolume >= 0 ? m_desiredvolume : mpds.volume;
if (volume < 0)
volume = 0;
char cvalue[30];
sprintf(cvalue, "%d", volume);
status["Volume"] = cvalue;
sprintf(cvalue, "%d", percentodbvalue(volume));
status["VolumeDB"] = cvalue;
status["Mute"] = volume == 0 ? "1" : "0";
}
bool UpMpd::getEventDataRendering(bool all, std::vector<std::string>& names,
std::vector<std::string>& values)
{
//LOGDEB("UpMpd::getEventDataRendering. desiredvolume " <<
// m_desiredvolume << (all?" all " : "") << endl);
if (m_desiredvolume >= 0) {
m_mpdcli->setVolume(m_desiredvolume);
m_desiredvolume = -1;
}
unordered_map<string, string> newstate;
rdstateMToU(newstate);
if (all)
m_rdstate.clear();
string
chgdata("<Event xmlns=\"urn:schemas-upnp-org:metadata-1-0/AVT_RCS\">\n"
"<InstanceID val=\"0\">\n");
bool changefound = false;
for (unordered_map<string, string>::const_iterator it = newstate.begin();
it != newstate.end(); it++) {
const string& oldvalue = mapget(m_rdstate, it->first);
if (!it->second.compare(oldvalue))
continue;
changefound = true;
chgdata += "<";
chgdata += it->first;
chgdata += " val=\"";
chgdata += xmlquote(it->second);
chgdata += "\"/>\n";
}
chgdata += "</InstanceID>\n</Event>\n";
if (!changefound) {
return true;
}
names.push_back("LastChange");
values.push_back(chgdata);
m_rdstate = newstate;
return true;
}
// Actions:
// Note: we need to return all out arguments defined by the SOAP call even if
// they don't make sense (because there is no song playing). Ref upnp arch p.51:
//
// argumentName: Required if and only if action has out
// arguments. Value returned from action. Repeat once for each out
// argument. If action has an argument marked as retval, this
// argument must be the first element. (Element name not qualified
// by a namespace; element nesting context is sufficient.) Case
// sensitive. Single data type as defined by UPnP service
// description. Every ���out��� argument in the definition of the action
// in the service description must be included, in the same order as
// specified in the service description (SCPD) available from the
// device.
int UpMpd::getVolumeDBRange(const SoapArgs& sc, SoapData& data)
{
map<string, string>::const_iterator it;
it = sc.args.find("Channel");
if (it == sc.args.end() || it->second.compare("Master")) {
return UPNP_E_INVALID_PARAM;
}
data.addarg("MinValue", "-10240");
data.addarg("MaxValue", "0");
return UPNP_E_SUCCESS;
}
int UpMpd::setMute(const SoapArgs& sc, SoapData& data)
{
map<string, string>::const_iterator it;
it = sc.args.find("Channel");
if (it == sc.args.end() || it->second.compare("Master")) {
return UPNP_E_INVALID_PARAM;
}
it = sc.args.find("DesiredMute");
if (it == sc.args.end() || it->second.empty()) {
return UPNP_E_INVALID_PARAM;
}
if (it->second[0] == 'F' || it->second[0] == '0') {
// Restore pre-mute
m_mpdcli->setVolume(1, true);
} else if (it->second[0] == 'T' || it->second[0] == '1') {
if (m_desiredvolume >= 0) {
m_mpdcli->setVolume(m_desiredvolume);
m_desiredvolume = -1;
}
m_mpdcli->setVolume(0, true);
} else {
return UPNP_E_INVALID_PARAM;
}
loopWakeup();
return UPNP_E_SUCCESS;
}
int UpMpd::getMute(const SoapArgs& sc, SoapData& data)
{
map<string, string>::const_iterator it;
it = sc.args.find("Channel");
if (it == sc.args.end() || it->second.compare("Master")) {
return UPNP_E_INVALID_PARAM;
}
int volume = m_mpdcli->getVolume();
data.addarg("CurrentMute", volume == 0 ? "1" : "0");
return UPNP_E_SUCCESS;
}
int UpMpd::setVolume(const SoapArgs& sc, SoapData& data, bool isDb)
{
map<string, string>::const_iterator it;
it = sc.args.find("Channel");
if (it == sc.args.end() || it->second.compare("Master")) {
return UPNP_E_INVALID_PARAM;
}
it = sc.args.find("DesiredVolume");
if (it == sc.args.end() || it->second.empty()) {
return UPNP_E_INVALID_PARAM;
}
int volume = atoi(it->second.c_str());
if (isDb) {
volume = dbvaluetopercent(volume);
}
if (volume < 0 || volume > 100) {
return UPNP_E_INVALID_PARAM;
}
int previous_volume = m_mpdcli->getVolume();
int delta = previous_volume - volume;
if (delta < 0)
delta = -delta;
LOGDEB("UpMpd::setVolume: volume " << volume << " delta " << delta << endl);
if (delta >= 5) {
m_mpdcli->setVolume(volume);
m_desiredvolume = -1;
} else {
m_desiredvolume = volume;
}
loopWakeup();
return UPNP_E_SUCCESS;
}
int UpMpd::getVolume(const SoapArgs& sc, SoapData& data, bool isDb)
{
// LOGDEB("UpMpd::getVolume" << endl);
map<string, string>::const_iterator it;
it = sc.args.find("Channel");
if (it == sc.args.end() || it->second.compare("Master")) {
return UPNP_E_INVALID_PARAM;
}
int volume = m_mpdcli->getVolume();
if (isDb) {
volume = percentodbvalue(volume);
}
char svolume[30];
sprintf(svolume, "%d", volume);
data.addarg("CurrentVolume", svolume);
return UPNP_E_SUCCESS;
}
int UpMpd::listPresets(const SoapArgs& sc, SoapData& data)
{
// The 2nd arg is a comma-separated list of preset names
data.addarg("CurrentPresetNameList", "FactoryDefaults");
return UPNP_E_SUCCESS;
}
int UpMpd::selectPreset(const SoapArgs& sc, SoapData& data)
{
map<string, string>::const_iterator it;
it = sc.args.find("PresetName");
if (it == sc.args.end() || it->second.empty()) {
return UPNP_E_INVALID_PARAM;
}
if (it->second.compare("FactoryDefaults")) {
return UPNP_E_INVALID_PARAM;
}
// Well there is only the volume actually...
int volume = 50;
m_mpdcli->setVolume(volume);
return UPNP_E_SUCCESS;
}
///////////////// AVTransport methods
// Translate MPD mode flags to UPnP Play mode
static string mpdsToPlaymode(const struct MpdStatus& mpds)
{
string playmode = "NORMAL";
if (!mpds.rept && mpds.random && !mpds.single)
playmode = "SHUFFLE";
else if (mpds.rept && !mpds.random && mpds.single)
playmode = "REPEAT_ONE";
else if (mpds.rept && !mpds.random && !mpds.single)
playmode = "REPEAT_ALL";
else if (mpds.rept && mpds.random && !mpds.single)
playmode = "RANDOM";
else if (!mpds.rept && !mpds.random && mpds.single)
playmode = "DIRECT_1";
return playmode;
}
// AVTransport eventing
//
// Some state variables do not generate events and must be polled by
// the control point: RelativeTimePosition AbsoluteTimePosition
// RelativeCounterPosition AbsoluteCounterPosition.
// This leaves us with:
// TransportState
// TransportStatus
// PlaybackStorageMedium
// PossiblePlaybackStorageMedia
// RecordStorageMedium
// PossibleRecordStorageMedia
// CurrentPlayMode
// TransportPlaySpeed
// RecordMediumWriteStatus
// CurrentRecordQualityMode
// PossibleRecordQualityModes
// NumberOfTracks
// CurrentTrack
// CurrentTrackDuration
// CurrentMediaDuration
// CurrentTrackMetaData
// CurrentTrackURI
// AVTransportURI
// AVTransportURIMetaData
// NextAVTransportURI
// NextAVTransportURIMetaData
// RelativeTimePosition
// AbsoluteTimePosition
// RelativeCounterPosition
// AbsoluteCounterPosition
// CurrentTransportActions
//
// To be all bundled inside: LastChange
// Translate MPD state to UPnP AVTRansport state variables
bool UpMpd::tpstateMToU(unordered_map<string, string>& status)
{
const struct MpdStatus &mpds = m_mpdcli->getStatus();
//DEBOUT << "UpMpd::tpstateMToU: curpos: " << mpds.songpos <<
// " qlen " << mpds.qlen << endl;
bool is_song = (mpds.state == MpdStatus::MPDS_PLAY) ||
(mpds.state == MpdStatus::MPDS_PAUSE);
string tstate("STOPPED");
string tactions("Next,Previous");
switch(mpds.state) {
case MpdStatus::MPDS_PLAY:
tstate = "PLAYING";
tactions += ",Pause,Stop,Seek";
break;
case MpdStatus::MPDS_PAUSE:
tstate = "PAUSED_PLAYBACK";
tactions += ",Play,Stop,Seek";
break;
default:
tactions += ",Play";
}
status["TransportState"] = tstate;
status["CurrentTransportActions"] = tactions;
status["TransportStatus"] = m_mpdcli->ok() ? "OK" : "ERROR_OCCURRED";
status["TransportPlaySpeed"] = "1";
const string& uri = mapget(mpds.currentsong, "uri");
status["CurrentTrack"] = "1";
status["CurrentTrackURI"] = uri;
status["CurrentTrackMetaData"] = is_song?didlmake(mpds) : "";
string playmedium("NONE");
if (is_song)
playmedium = uri.find("http://") == 0 ? "HDD" : "NETWORK";
status["NumberOfTracks"] = "1";
status["CurrentMediaDuration"] = is_song?
upnpduration(mpds.songlenms):"00:00:00";
status["CurrentTrackDuration"] = is_song?
upnpduration(mpds.songlenms):"00:00:00";
status["AVTransportURI"] = uri;
status["AVTransportURIMetaData"] = is_song?didlmake(mpds) : "";
status["RelativeTimePosition"] = is_song?
upnpduration(mpds.songelapsedms):"0:00:00";
status["AbsoluteTimePosition"] = is_song?
upnpduration(mpds.songelapsedms) : "0:00:00";
status["NextAVTransportURI"] = mapget(mpds.nextsong, "uri");
status["NextAVTransportURIMetaData"] = is_song?didlmake(mpds, true) : "";
status["PlaybackStorageMedium"] = playmedium;
status["PossiblePlaybackStorageMedium"] = "HDD,NETWORK";
status["RecordStorageMedium"] = "NOT_IMPLEMENTED";
status["RelativeCounterPosition"] = "0";
status["AbsoluteCounterPosition"] = "0";
status["CurrentPlayMode"] = mpdsToPlaymode(mpds);
status["PossibleRecordStorageMedium"] = "NOT_IMPLEMENTED";
status["RecordMediumWriteStatus"] = "NOT_IMPLEMENTED";
status["CurrentRecordQualityMode"] = "NOT_IMPLEMENTED";
status["PossibleRecordQualityModes"] = "NOT_IMPLEMENTED";
return true;
}
bool UpMpd::getEventDataTransport(bool all, std::vector<std::string>& names,
std::vector<std::string>& values)
{
unordered_map<string, string> newtpstate;
tpstateMToU(newtpstate);
if (all)
m_tpstate.clear();
bool changefound = false;
string
chgdata("<Event xmlns=\"urn:schemas-upnp-org:metadata-1-0/AVT_RCS\">\n"
"<InstanceID val=\"0\">\n");
for (unordered_map<string, string>::const_iterator it = newtpstate.begin();
it != newtpstate.end(); it++) {
const string& oldvalue = mapget(m_tpstate, it->first);
if (!it->second.compare(oldvalue))
continue;
if (it->first.compare("RelativeTimePosition") &&
it->first.compare("AbsoluteTimePosition")) {
//DEBOUT << "Transport state update for " << it->first <<
// " oldvalue [" << oldvalue << "] -> [" << it->second << endl;
changefound = true;
}
chgdata += "<";
chgdata += it->first;
chgdata += " val=\"";
chgdata += xmlquote(it->second);
chgdata += "\"/>\n";
}
chgdata += "</InstanceID>\n</Event>\n";
if (!changefound) {
// DEBOUT << "UpMpd::getEventDataTransport: no updates" << endl;
return true;
}
names.push_back("LastChange");
values.push_back(chgdata);
m_tpstate = newtpstate;
// DEBOUT << "UpMpd::getEventDataTransport: " << chgdata << endl;
return true;
}
// http://192.168.4.4:8200/MediaItems/246.mp3
int UpMpd::setAVTransportURI(const SoapArgs& sc, SoapData& data, bool setnext)
{
map<string, string>::const_iterator it;
it = setnext? sc.args.find("NextURI") : sc.args.find("CurrentURI");
if (it == sc.args.end() || it->second.empty()) {
return UPNP_E_INVALID_PARAM;
}
string uri = it->second;
string metadata;
it = setnext? sc.args.find("NextURIMetaData") :
sc.args.find("CurrentURIMetaData");
if (it != sc.args.end())
metadata = it->second;
const struct MpdStatus &mpds = m_mpdcli->getStatus();
bool is_song = (mpds.state == MpdStatus::MPDS_PLAY) ||
(mpds.state == MpdStatus::MPDS_PAUSE);
int curpos = mpds.songpos;
LOGDEB("UpMpd::set" << (setnext?"Next":"") <<
"AVTransportURI: curpos: " <<
curpos << " is_song " << is_song << " qlen " << mpds.qlen << endl);
// curpos == -1 means that the playlist was cleared or we just started. A
// play will use position 0, so it's actually equivalent to curpos == 0
if (curpos == -1)
curpos = 0;
if (mpds.qlen == 0 && setnext) {
LOGDEB("setNextAVTRansportURI invoked but empty queue!" << endl);
return UPNP_E_INVALID_PARAM;
}
int songid;
if ((songid = m_mpdcli->insert(uri, setnext?curpos+1:curpos)) < 0) {
return UPNP_E_INTERNAL_ERROR;
}
if (!setnext) {
MpdStatus::State st = mpds.state;
// Have to tell mpd which track to play, else it will keep on
// the previous despite of the insertion. The UPnP docs say
// that setAVTransportURI should not change the transport
// state (pause/stop stay pause/stop) but it seems that some clients
// expect that the track will start playing.
// Needs to be revisited after seeing more clients. For now try to
// preserve state as per standard.
// Audionet: issues a Play
// BubbleUpnp: issues a Play
// MediaHouse: no setnext, Play
m_mpdcli->play(curpos);
#if 1 || defined(upmpd_do_restore_play_state_after_add)
switch (st) {
case MpdStatus::MPDS_PAUSE: m_mpdcli->togglePause(); break;
case MpdStatus::MPDS_STOP: m_mpdcli->stop(); break;
}
#endif
// Clean up old song ids
for (set<int>::iterator it = m_songids.begin();
it != m_songids.end(); it++) {
// Can't just delete here. If the id does not exist, MPD
// gets into an apparently permanent error state, where even
// get_status does not work
if (m_mpdcli->statId(*it)) {
m_mpdcli->deleteId(*it);
}
}
m_songids.clear();
}
m_songids.insert(songid);
loopWakeup();
return UPNP_E_SUCCESS;
}
int UpMpd::getPositionInfo(const SoapArgs& sc, SoapData& data)
{
const struct MpdStatus &mpds = m_mpdcli->getStatus();
//LOGDEB("UpMpd::getPositionInfo. State: " << mpds.state << endl);
bool is_song = (mpds.state == MpdStatus::MPDS_PLAY) ||
(mpds.state == MpdStatus::MPDS_PAUSE);
if (is_song) {
data.addarg("Track", "1");
} else {
data.addarg("Track", "0");
}
if (is_song) {
data.addarg("TrackDuration", upnpduration(mpds.songlenms));
} else {
data.addarg("TrackDuration", "00:00:00");
}
if (is_song) {
data.addarg("TrackMetaData", didlmake(mpds));
} else {
data.addarg("TrackMetaData", "");
}
const string& uri = mapget(mpds.currentsong, "uri");
if (is_song && !uri.empty()) {
data.addarg("TrackURI", xmlquote(uri));
} else {
data.addarg("TrackURI", "");
}
if (is_song) {
data.addarg("RelTime", upnpduration(mpds.songelapsedms));
} else {
data.addarg("RelTime", "0:00:00");
}
if (is_song) {
data.addarg("AbsTime", upnpduration(mpds.songelapsedms));
} else {
data.addarg("AbsTime", "0:00:00");
}
data.addarg("RelCount", "0");
data.addarg("AbsCount", "0");
return UPNP_E_SUCCESS;
}
int UpMpd::getTransportInfo(const SoapArgs& sc, SoapData& data)
{
const struct MpdStatus &mpds = m_mpdcli->getStatus();
//LOGDEB("UpMpd::getTransportInfo. State: " << mpds.state << endl);
string tstate("STOPPED");
switch(mpds.state) {
case MpdStatus::MPDS_PLAY: tstate = "PLAYING"; break;
case MpdStatus::MPDS_PAUSE: tstate = "PAUSED_PLAYBACK"; break;
}
data.addarg("CurrentTransportState", tstate);
data.addarg("CurrentTransportStatus", m_mpdcli->ok() ? "OK" :
"ERROR_OCCURRED");
data.addarg("CurrentSpeed", "1");
return UPNP_E_SUCCESS;
}
int UpMpd::getDeviceCapabilities(const SoapArgs& sc, SoapData& data)
{
data.addarg("PlayMedia", "NETWORK,HDD");
data.addarg("RecMedia", "NOT_IMPLEMENTED");
data.addarg("RecQualityModes", "NOT_IMPLEMENTED");
return UPNP_E_SUCCESS;
}
int UpMpd::getMediaInfo(const SoapArgs& sc, SoapData& data)
{
const struct MpdStatus &mpds = m_mpdcli->getStatus();
LOGDEB("UpMpd::getMediaInfo. State: " << mpds.state << endl);
bool is_song = (mpds.state == MpdStatus::MPDS_PLAY) ||
(mpds.state == MpdStatus::MPDS_PAUSE);
data.addarg("NrTracks", "1");
if (is_song) {
data.addarg("MediaDuration", upnpduration(mpds.songlenms));
} else {
data.addarg("MediaDuration", "00:00:00");
}
const string& thisuri = mapget(mpds.currentsong, "uri");
if (is_song && !thisuri.empty()) {
data.addarg("CurrentURI", xmlquote(thisuri));
} else {
data.addarg("CurrentURI", "");
}
if (is_song) {
data.addarg("CurrentURIMetaData", didlmake(mpds));
} else {
data.addarg("CurrentURIMetaData", "");
}
data.addarg("NextURI", "NOT_IMPLEMENTED");
data.addarg("NextURIMetaData", "NOT_IMPLEMENTED");
string playmedium("NONE");
if (is_song)
playmedium = thisuri.find("http://") == 0 ? "HDD" : "NETWORK";
data.addarg("PlayMedium", playmedium);
data.addarg("RecordMedium", "NOT_IMPLEMENTED");
data.addarg("WriteStatus", "NOT_IMPLEMENTED");
return UPNP_E_SUCCESS;
}
int UpMpd::playcontrol(const SoapArgs& sc, SoapData& data, int what)
{
const struct MpdStatus &mpds = m_mpdcli->getStatus();
LOGDEB("UpMpd::playcontrol State: " << mpds.state <<" what "<<what<< endl);
if ((what & ~0x3)) {
LOGERR("UpMPd::playcontrol: bad control " << what << endl);
return UPNP_E_INVALID_PARAM;
}
bool ok = true;
switch (mpds.state) {
case MpdStatus::MPDS_PLAY:
switch (what) {
case 0: ok = m_mpdcli->stop(); break;
case 1:break;
case 2: ok = m_mpdcli->togglePause();break;
}
break;
case MpdStatus::MPDS_PAUSE:
switch (what) {
case 0: ok = m_mpdcli->stop(); break;
case 1: ok = m_mpdcli->togglePause();break;
case 2: break;
}
break;
case MpdStatus::MPDS_STOP:
default:
switch (what) {
case 0: break;
case 1: ok = m_mpdcli->play();break;
case 2: break;
}
break;
}
loopWakeup();
return ok ? UPNP_E_SUCCESS : UPNP_E_INTERNAL_ERROR;
}
int UpMpd::seqcontrol(const SoapArgs& sc, SoapData& data, int what)
{
const struct MpdStatus &mpds = m_mpdcli->getStatus();
LOGDEB("UpMpd::seqcontrol State: " << mpds.state << " what "<<what<< endl);
if ((what & ~0x1)) {
LOGERR("UpMPd::seqcontrol: bad control " << what << endl);
return UPNP_E_INVALID_PARAM;
}
bool ok = true;
switch (what) {
case 0: ok = m_mpdcli->next();break;
case 1: ok = m_mpdcli->previous();break;
}
loopWakeup();
return ok ? UPNP_E_SUCCESS : UPNP_E_INTERNAL_ERROR;
}
int UpMpd::setPlayMode(const SoapArgs& sc, SoapData& data)
{
map<string, string>::const_iterator it;
it = sc.args.find("NewPlayMode");
if (it == sc.args.end() || it->second.empty()) {
return UPNP_E_INVALID_PARAM;
}
string playmode(it->second);
bool ok;
if (!playmode.compare("NORMAL")) {
ok = m_mpdcli->repeat(false) && m_mpdcli->random(false) &&
m_mpdcli->single(false);
} else if (!playmode.compare("SHUFFLE")) {
ok = m_mpdcli->repeat(false) && m_mpdcli->random(true) &&
m_mpdcli->single(false);
} else if (!playmode.compare("REPEAT_ONE")) {
ok = m_mpdcli->repeat(true) && m_mpdcli->random(false) &&
m_mpdcli->single(true);
} else if (!playmode.compare("REPEAT_ALL")) {
ok = m_mpdcli->repeat(true) && m_mpdcli->random(false) &&
m_mpdcli->single(false);
} else if (!playmode.compare("RANDOM")) {
ok = m_mpdcli->repeat(true) && m_mpdcli->random(true) &&
m_mpdcli->single(false);
} else if (!playmode.compare("DIRECT_1")) {
ok = m_mpdcli->repeat(false) && m_mpdcli->random(false) &&
m_mpdcli->single(true);
} else {
return UPNP_E_INVALID_PARAM;
}
loopWakeup();
return ok ? UPNP_E_SUCCESS : UPNP_E_INTERNAL_ERROR;
}
int UpMpd::getTransportSettings(const SoapArgs& sc, SoapData& data)
{
const struct MpdStatus &mpds = m_mpdcli->getStatus();
string playmode = mpdsToPlaymode(mpds);
data.addarg("PlayMode", playmode);
data.addarg("RecQualityMode", "NOT_IMPLEMENTED");
return UPNP_E_SUCCESS;
}
int UpMpd::getCurrentTransportActions(const SoapArgs& sc, SoapData& data)
{
const struct MpdStatus &mpds = m_mpdcli->getStatus();
string tactions("Next,Previous");
switch(mpds.state) {
case MpdStatus::MPDS_PLAY:
tactions += ",Pause,Stop,Seek";
break;
case MpdStatus::MPDS_PAUSE:
tactions += ",Play,Stop,Seek";
break;
default:
tactions += ",Play";
}
data.addarg("CurrentTransportActions", tactions);
return UPNP_E_SUCCESS;
}
int UpMpd::seek(const SoapArgs& sc, SoapData& data)
{
map<string, string>::const_iterator it;
it = sc.args.find("Unit");
if (it == sc.args.end() || it->second.empty()) {
return UPNP_E_INVALID_PARAM;
}
string unit(it->second);
it = sc.args.find("Target");
if (it == sc.args.end() || it->second.empty()) {
return UPNP_E_INVALID_PARAM;
}
string target(it->second);
// LOGDEB("UpMpd::seek: unit " << unit << " target " << target);
const struct MpdStatus &mpds = m_mpdcli->getStatus();
int abs_seconds;
if (!unit.compare("ABS_TIME")) {
abs_seconds = upnpdurationtos(target);
} else if (!unit.compare("REL_TIME")) {
abs_seconds = mpds.songelapsedms / 1000;
abs_seconds += upnpdurationtos(target);
// } else if (!unit.compare("TRACK_NR")) {
} else {
return UPNP_E_INVALID_PARAM;
}
loopWakeup();
return m_mpdcli->seek(abs_seconds) ? UPNP_E_SUCCESS : UPNP_E_INTERNAL_ERROR;
}
/////////////////////////////////////////////////////////////////////
// Main program
#include "conftree.hxx"
static char *thisprog;
static int op_flags;
#define OPT_MOINS 0x1
#define OPT_h 0x2
#define OPT_p 0x4
#define OPT_d 0x8
#define OPT_D 0x10
#define OPT_c 0x20
#define OPT_l 0x40
static const char usage[] =
"-c configfile \t configuration file to use\n"
"-h host \t specify host MPD is running on\n"
"-p port \t specify MPD port\n"
"-d logfilename\t debug messages to\n"
"-l loglevel\t log level (0-6)\n"
"-D \t run as a daemon\n"
" \n\n"
;
static void
Usage(void)
{
fprintf(stderr, "%s: usage:\n%s", thisprog, usage);
exit(1);
}
static string myDeviceUUID;
static string datadir(DATADIR "/");
static string configdir(CONFIGDIR "/");
int main(int argc, char *argv[])
{
string mpdhost("localhost");
int mpdport = 6600;
// string upnplogfilename("/tmp/upmpd_libupnp.log");
string logfilename;
int loglevel(upnppdebug::Logger::LLINF);
string configfile;
const char *cp;
if (cp = getenv("UPMPD_HOST"))
mpdhost = cp;
if (cp = getenv("UPMPD_PORT"))
mpdport = atoi(cp);
if (cp = getenv("UPMPD_CONFIG"))
configfile = cp;
thisprog = argv[0];
argc--; argv++;
while (argc > 0 && **argv == '-') {
(*argv)++;
if (!(**argv))
Usage();
while (**argv)
switch (*(*argv)++) {
case 'D': op_flags |= OPT_D; break;
case 'c': op_flags |= OPT_c; if (argc < 2) Usage();
configfile = *(++argv); argc--; goto b1;
case 'd': op_flags |= OPT_d; if (argc < 2) Usage();
logfilename = *(++argv); argc--; goto b1;
case 'h': op_flags |= OPT_h; if (argc < 2) Usage();
mpdhost = *(++argv); argc--; goto b1;
case 'l': op_flags |= OPT_l; if (argc < 2) Usage();
loglevel = atoi(*(++argv)); argc--; goto b1;
case 'p': op_flags |= OPT_p; if (argc < 2) Usage();
mpdport = atoi(*(++argv)); argc--; goto b1;
default: Usage(); break;
}
b1: argc--; argv++;
}
if (argc != 0)
Usage();
if (!configfile.empty()) {
ConfSimple config(configfile.c_str(), 1, true);
if (!config.ok()) {
cerr << "Could not open config: " << configfile << endl;
return 1;
}
string value;
if (!(op_flags & OPT_d))
config.get("logfilename", logfilename);
if (!(op_flags & OPT_l) && config.get("loglevel", value))
loglevel = atoi(value.c_str());
if (!(op_flags & OPT_h))
config.get("mpdhost", mpdhost);
if (!(op_flags & OPT_p) && config.get("mpdport", value)) {
mpdport = atoi(value.c_str());
}
}
if (upnppdebug::Logger::getTheLog(logfilename) == 0) {
cerr << "Can't initialize log" << endl;
return 1;
}
upnppdebug::Logger::getTheLog("")->setLogLevel(upnppdebug::Logger::LogLevel(loglevel));
if ((op_flags & OPT_D)) {
if (daemon(1, 0)) {
LOGFAT("Daemon failed: errno " << errno << endl);
return 1;
}
}
// Initialize libupnpp, and check health
LibUPnP *mylib = LibUPnP::getLibUPnP(true);
if (!mylib) {
LOGFAT("Can't get LibUPnP" << endl);
return 1;
}
if (!mylib->ok()) {
LOGFAT("Lib init failed: " <<
mylib->errAsString("main", mylib->getInitError()) << endl);
return 1;
}
// mylib->setLogFileName(upnplogfilename);
// Initialize MPD client module
MPDCli mpdcli(mpdhost, mpdport);
if (!mpdcli.ok()) {
LOGFAT("MPD connection failed" << endl);
return 1;
}
// Create unique ID
string UUID = LibUPnP::makeDevUUID(friendlyName);
// Read our XML data.
string reason;
string description;
string filename = datadir + "description.xml";
if (!file_to_string(filename, description, &reason)) {
LOGFAT("Failed reading " << filename << " : " << reason << endl);
return 1;
}
// Update device description with UUID
description = regsub1("@UUID@", description, UUID);
string rdc_scdp;
filename = datadir + "RenderingControl.xml";
if (!file_to_string(filename, rdc_scdp, &reason)) {
LOGFAT("Failed reading " << filename << " : " << reason << endl);
return 1;
}
string avt_scdp;
filename = datadir + "AVTransport.xml";
if (!file_to_string(filename, avt_scdp, &reason)) {
LOGFAT("Failed reading " << filename << " : " << reason << endl);
return 1;
}
// List the XML files to be served through http (all will live in '/')
unordered_map<string, string> xmlfiles;
xmlfiles["description.xml"] = description;
xmlfiles["RenderingControl.xml"] = rdc_scdp;
xmlfiles["AVTransport.xml"] = avt_scdp;
// Initialize the UPnP device object.
UpMpd device(string("uuid:") + UUID, xmlfiles, &mpdcli);
LOGDEB("Entering event loop" << endl);
// And forever generate state change events.
device.eventloop();
return 0;
}
/* Local Variables: */
/* mode: c++ */
/* c-basic-offset: 4 */
/* tab-width: 4 */
/* indent-tabs-mode: t */
/* End: */