// rdcae.cpp
//
// Connection to the Rivendell Core Audio Engine
//
// (C) Copyright 2002-2019 Fred Gleason <fredg@paravelsystems.com>
//
// This program is free software; you can redistribute it and/or modify
// it under the terms of the GNU General Public License version 2 as
// published by the Free Software Foundation.
//
// 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., 675 Mass Ave, Cambridge, MA 02139, USA.
//
#include <unistd.h>
#include <errno.h>
#include <sys/types.h>
#include <syslog.h>
#include <qobject.h>
#include <ctype.h>
#include <q3socketdevice.h>
#include <qtimer.h>
#include <qstringlist.h>
#include <rdapplication.h>
#include <rddb.h>
#include <rdcae.h>
#include <rddebug.h>
#include <rdescape_string.h>
RDCae::RDCae(RDStation *station,RDConfig *config,QObject *parent)
: QObject(parent)
{
cae_station=station;
cae_config=config;
cae_connected=false;
argnum=0;
argptr=0;
//
// TCP Connection
//
cae_socket=new Q3SocketDevice(Q3SocketDevice::Stream);
cae_socket->setBlocking(false);
//
// Meter Connection
//
cae_meter_socket=new Q3SocketDevice(Q3SocketDevice::Datagram);
cae_meter_socket->setBlocking(false);
for(Q_INT16 i=30000;i<30100;i++) {
if(cae_meter_socket->bind(QHostAddress(),i)) {
i=31000;
}
}
//
// Initialize Data Structures
//
for(int i=0;i<RD_MAX_CARDS;i++) {
for(int j=0;j<RD_MAX_PORTS;j++) {
input_status[i][j]=false;
for(unsigned k=0;k<2;k++) {
cae_input_levels[i][j][k]=-10000;
cae_output_levels[i][j][k]=-10000;
cae_stream_output_levels[i][j][k]=-10000;
}
for(int k=0;k<RD_MAX_STREAMS;k++) {
cae_output_status_flags[i][j][k]=false;
}
}
for(int j=0;j<RD_MAX_STREAMS;j++) {
cae_handle[i][j]=-1;
cae_output_positions[i][j]=0;
}
}
//
// The Clock Timer
//
QTimer *timer=new QTimer(this,"clock_timer");
connect(timer,SIGNAL(timeout()),this,SLOT(clockData()));
timer->start(RD_METER_UPDATE_INTERVAL);
}
RDCae::~RDCae() {
delete cae_socket;
}
void RDCae::connectHost()
{
int count=10;
// QHostAddress addr;
QTimer *timer=new QTimer(this,"read_timer");
connect(timer,SIGNAL(timeout()),this,SLOT(readyData()));
timer->start(CAE_POLL_INTERVAL);
while((!cae_socket->connect(cae_station->caeAddress(cae_config),
CAED_TCP_PORT))&&(--count>0)) {
usleep(100000);
}
usleep(100000);
if(count>0) {
SendCommand(QString().sprintf("PW %s!",
(const char *)cae_config->password()));
for(int i=0;i<RD_MAX_CARDS;i++) {
SendCommand(QString().sprintf("TS %d!",i));
for(int j=0;j<RD_MAX_PORTS;j++) {
SendCommand(QString().sprintf("IS %d %d!",i,j));
}
}
}
}
void RDCae::enableMetering(QList<int> *cards)
{
QString cmd=QString().sprintf("ME %u",cae_meter_socket->port());
for(int i=0;i<cards->size();i++) {
if(cards->at(i)>=0) {
bool found=false;
for(int j=0;j<i;j++) {
if(cards->at(i)==cards->at(j)) {
found=true;
}
}
if(!found) {
cmd+=QString().sprintf(" %d",cards->at(i));
}
}
}
SendCommand(cmd+"!");
}
bool RDCae::loadPlay(int card,QString name,int *stream,int *handle)
{
int count=0;
SendCommand(QString().sprintf("LP %d %s!",
card,(const char *)name));
//
// This is really warty, but needed to make the method 'synchronous'
// with respect to CAE.
//
*stream=-2;
*handle=-1;
while(*stream==-2) {
readyData(stream,handle,name);
usleep(1000);
count++;
}
if(count>1000) {
rda->syslog(LOG_ERR,
"*** LoadPlay: CAE took %d mS to return stream for %s ***",
count,(const char *)name);
}
cae_handle[card][*stream]=*handle;
cae_pos[card][*stream]=0xFFFFFFFF;
// CAE Daemon sends back a stream of -1 if there is an issue with allocating it
// such as file missing, etc.
if(*stream < 0) {
return false;
}
return true;
}
void RDCae::unloadPlay(int handle)
{
SendCommand(QString().sprintf("UP %d!",handle));
}
void RDCae::positionPlay(int handle,int pos)
{
if(pos<0) {
return;
}
SendCommand(QString().sprintf("PP %d %u!",handle,pos));
}
void RDCae::play(int handle,unsigned length,int speed,bool pitch)
{
int pitch_state=0;
if(pitch) {
pitch_state=1;
}
SendCommand(QString().sprintf("PY %d %u %d %d!",
handle,length,speed,pitch_state));
}
void RDCae::stopPlay(int handle)
{
SendCommand(QString().sprintf("SP %d!",handle));
}
void RDCae::loadRecord(int card,int stream,QString name,
AudioCoding coding,int chan,int samp_rate,
int bit_rate)
{
// printf("RDCae::loadRecord(%d,%d,%s,%d,%d,%d,%d)\n",
// card,stream,(const char *)name,coding,chan,samp_rate,bit_rate);
SendCommand(QString().sprintf("LR %d %d %d %d %d %d %s!",
card,stream,(int)coding,chan,samp_rate,
bit_rate,(const char *)name));
}
void RDCae::unloadRecord(int card,int stream)
{
SendCommand(QString().sprintf("UR %d %d!",card,stream));
}
void RDCae::record(int card,int stream,unsigned length,int threshold)
{
SendCommand(QString().sprintf("RD %d %d %u %d!",
card,stream,length,threshold));
}
void RDCae::stopRecord(int card,int stream)
{
SendCommand(QString().sprintf("SR %d %d!",card,stream));
}
void RDCae::setClockSource(int card,RDCae::ClockSource src)
{
SendCommand(QString().sprintf("CS %d %d!",card,src));
}
void RDCae::setInputVolume(int card,int stream,int level)
{
SendCommand(QString().sprintf("IV %d %d %d!",card,stream,level));
}
void RDCae::setOutputVolume(int card,int stream,int port,int level)
{
SendCommand(QString().sprintf("OV %d %d %d %d!",card,stream,port,level));
}
void RDCae::fadeOutputVolume(int card,int stream,int port,int level,int length)
{
SendCommand(QString().sprintf("FV %d %d %d %d %d!",
card,stream,port,level,length));
}
void RDCae::setInputLevel(int card,int port,int level)
{
SendCommand(QString().sprintf("IL %d %d %d!",card,port,level));
}
void RDCae::setOutputLevel(int card,int port,int level)
{
SendCommand(QString().sprintf("OL %d %d %d!",card,port,level));
}
void RDCae::setInputMode(int card,int stream,RDCae::ChannelMode mode)
{
SendCommand(QString().sprintf("IM %d %d %d!",card,stream,mode));
}
void RDCae::setOutputMode(int card,int stream,RDCae::ChannelMode mode)
{
SendCommand(QString().sprintf("OM %d %d %d!",card,stream,mode));
}
void RDCae::setInputVOXLevel(int card,int stream,int level)
{
SendCommand(QString().sprintf("IX %d %d %d!",card,stream,level));
}
void RDCae::setInputType(int card,int port,RDCae::SourceType type)
{
SendCommand(QString().sprintf("IT %d %d %d!",card,port,type));
}
void RDCae::setPassthroughVolume(int card,int in_port,int out_port,int level)
{
SendCommand(QString().
sprintf("AL %d %d %d %d!",card,in_port,out_port,level));
}
bool RDCae::inputStatus(int card,int port) const
{
return input_status[card][port];
}
void RDCae::inputMeterUpdate(int card,int port,short levels[2])
{
UpdateMeters();
levels[0]=cae_input_levels[card][port][0];
levels[1]=cae_input_levels[card][port][1];
}
void RDCae::outputMeterUpdate(int card,int port,short levels[2])
{
UpdateMeters();
levels[0]=cae_output_levels[card][port][0];
levels[1]=cae_output_levels[card][port][1];
}
void RDCae::outputStreamMeterUpdate(int card,int stream,short levels[2])
{
UpdateMeters();
levels[0]=cae_stream_output_levels[card][stream][0];
levels[1]=cae_stream_output_levels[card][stream][1];
}
unsigned RDCae::playPosition(int handle)
{
for(int i=0;i<RD_MAX_CARDS;i++) {
for(int j=0;j<RD_MAX_STREAMS;j++) {
if(cae_handle[i][j]==handle) {
return cae_pos[i][j];
}
}
}
return 0;
}
void RDCae::requestTimescale(int card)
{
SendCommand(QString().sprintf("TS %d!",card));
}
bool RDCae::playPortActive(int card,int port,int except_stream)
{
for(int i=0;i<RD_MAX_STREAMS;i++) {
if(cae_output_status_flags[card][port][i]&&(i!=except_stream)) {
return true;
}
}
return false;
}
void RDCae::setPlayPortActive(int card,int port,int stream)
{
cae_output_status_flags[card][port][stream]=true;
}
void RDCae::readyData()
{
readyData(0,0,"");
}
void RDCae::readyData(int *stream,int *handle,QString name)
{
char buf[256];
int c;
RDCmdCache cmd;
if(stream==NULL) {
for(unsigned i=0;i<delayed_cmds.size();i++) {
DispatchCommand(&delayed_cmds[i]);
}
delayed_cmds.clear();
}
while((c=cae_socket->readBlock(buf,256))>0) {
buf[c]=0;
for(int i=0;i<c;i++) {
if(buf[i]==' ') {
if(argnum<CAE_MAX_ARGS) {
args[argnum][argptr]=0;
argnum++;
argptr=0;
}
else {
if(debug) {
printf("Argument list truncated!\n");
}
}
}
if(buf[i]=='!') {
args[argnum++][argptr]=0;
if(stream==NULL) {
cmd.load(args,argnum,argptr);
/*
// ************************************
printf("DISPATCHING: ");
for(int z=0;z<cmd.argNum();z++) {
printf(" %s",cmd.arg(z));
}
printf("\n");
// ************************************
*/
DispatchCommand(&cmd);
}
else {
if(!strcmp(args[0],"LP")) {
if(QString(args[2])==name) {
sscanf(args[3],"%d",stream);
sscanf(args[4],"%d",handle);
}
}
else {
cmd.load(args,argnum,argptr);
delayed_cmds.push_back(cmd);
}
}
argnum=0;
argptr=0;
if(cae_socket==NULL) {
return;
}
}
if((isgraph(buf[i]))&&(buf[i]!='!')) {
if(argptr<CAE_MAX_LENGTH) {
args[argnum][argptr]=buf[i];
argptr++;
}
else {
if(debug) {
printf("WARNING: argument truncated!\n");
}
}
}
}
}
}
void RDCae::clockData()
{
for(int i=0;i<RD_MAX_CARDS;i++) {
for(int j=0;j<RD_MAX_STREAMS;j++) {
if(cae_handle[i][j]>=0) {
if(cae_output_positions[i][j]!=cae_pos[i][j]) {
emit playPositionChanged(cae_handle[i][j],
cae_output_positions[i][j]);
cae_pos[i][j]=cae_output_positions[i][j];
}
}
}
}
}
void RDCae::SendCommand(QString cmd)
{
cae_socket->writeBlock((const char *)cmd,cmd.length());
}
void RDCae::DispatchCommand(RDCmdCache *cmd)
{
int pos;
int card;
if(!strcmp(cmd->arg(0),"PW")) { // Password Response
if(cmd->arg(1)[0]=='+') {
emit isConnected(true);
}
else {
emit isConnected(false);
}
}
if(!strcmp(cmd->arg(0),"LP")) { // Load Play
int handle=GetHandle(cmd->arg(4));
int card=CardNumber(cmd->arg(1));
int stream=StreamNumber(cmd->arg(3));
rda->syslog(LOG_ERR,"*** RDCae::DispatchCommand: received unhandled play stream from CAE, handle=%d, card=%d, stream=%d, name=\"%s\" ***",
handle,card,stream,cmd->arg(2));
unloadPlay(handle);
}
if(!strcmp(cmd->arg(0),"UP")) { // Unload Play
if(cmd->arg(2)[0]=='+') {
int handle=GetHandle(cmd->arg(1));
for(int i=0;i<RD_MAX_CARDS;i++) {
for(int j=0;j<RD_MAX_STREAMS;j++) {
if(cae_handle[i][j]==handle) {
cae_handle[i][j]=-1;
for(unsigned k=0;k<RD_MAX_PORTS;k++) {
cae_output_status_flags[i][k][j]=false;
}
}
}
}
emit playUnloaded(handle);
}
}
if(!strcmp(cmd->arg(0),"PP")) { // Position Play
if(cmd->arg(3)[0]=='+') {
int handle=GetHandle(cmd->arg(1));
sscanf(cmd->arg(2),"%u",&pos);
for(int i=0;i<RD_MAX_CARDS;i++) {
for(int j=0;j<RD_MAX_STREAMS;j++) {
if(cae_handle[i][j]==handle) {
emit playPositionChanged(handle,pos);
}
}
}
emit playPositioned(handle,pos);
}
}
if(!strcmp(cmd->arg(0),"PY")) { // Play
if(cmd->arg(4)[0]=='+') {
emit playing(GetHandle(cmd->arg(1)));
}
}
if(!strcmp(cmd->arg(0),"SP")) { // Stop Play
if(cmd->arg(2)[0]=='+') {
emit playStopped(GetHandle(cmd->arg(1)));
}
}
if(!strcmp(cmd->arg(0),"TS")) { // Timescale Supported
if(sscanf(cmd->arg(1),"%d",&card)==1) {
if(cmd->arg(2)[0]=='+') {
emit timescalingSupported(card,true);
}
else {
emit timescalingSupported(card,false);
}
}
}
if(!strcmp(cmd->arg(0),"LR")) { // Load Record
if(cmd->arg(8)[0]=='+') {
emit recordLoaded(CardNumber(cmd->arg(1)),StreamNumber(cmd->arg(2)));
}
}
if(!strcmp(cmd->arg(0),"UR")) { // Unload Record
if(cmd->arg(4)[0]=='+') {
emit recordUnloaded(CardNumber(cmd->arg(1)),StreamNumber(cmd->arg(2)),
QString(cmd->arg(3)).toUInt());
}
}
if(!strcmp(cmd->arg(0),"RD")) { // Record
}
if(!strcmp(cmd->arg(0),"RS")) { // Record Start
if(cmd->arg(3)[0]=='+') {
emit recording(CardNumber(cmd->arg(1)),StreamNumber(cmd->arg(2)));
}
}
if(!strcmp(cmd->arg(0),"SR")) { // Stop Record
if(cmd->arg(3)[0]=='+') {
emit recordStopped(CardNumber(cmd->arg(1)),StreamNumber(cmd->arg(2)));
}
}
if(!strcmp(cmd->arg(0),"IS")) { // Input Status
switch(cmd->arg(3)[0]) {
case '0':
emit inputStatusChanged(CardNumber(cmd->arg(1)),
StreamNumber(cmd->arg(2)),true);
input_status[CardNumber(cmd->arg(1))][StreamNumber(cmd->arg(2))]=
true;
break;
case '1':
emit inputStatusChanged(CardNumber(cmd->arg(1)),
StreamNumber(cmd->arg(2)),false);
input_status[CardNumber(cmd->arg(1))][StreamNumber(cmd->arg(2))]=
false;
break;
}
}
}
int RDCae::CardNumber(const char *arg)
{
int n=-1;
sscanf(arg,"%d",&n);
return n;
}
int RDCae::StreamNumber(const char *arg)
{
int n=-1;
sscanf(arg,"%d",&n);
return n;
}
int RDCae::GetHandle(const char *arg)
{
int n=-1;
sscanf(arg,"%d",&n);
return n;
}
void RDCae::UpdateMeters()
{
char msg[1501];
int n;
QStringList args;
while((n=cae_meter_socket->readBlock(msg,1500))>0) {
msg[n]=0;
args=QString(msg).split(" ");
if(args[0]=="ML") {
if(args.size()==6) {
if(args[1]=="I") {
cae_input_levels[args[2].toInt()][args[3].toInt()][0]=args[4].toInt();
cae_input_levels[args[2].toInt()][args[3].toInt()][1]=args[5].toInt();
}
if(args[1]=="O") {
cae_output_levels[args[2].toInt()][args[3].toInt()][0]=
args[4].toInt();
cae_output_levels[args[2].toInt()][args[3].toInt()][1]=
args[5].toInt();
}
}
}
if(args[0]=="MO") {
if(args.size()==5) {
cae_stream_output_levels[args[1].toInt()][args[2].toInt()][0]=
args[3].toInt();
cae_stream_output_levels[args[1].toInt()][args[2].toInt()][1]=
args[4].toInt();
}
}
if(args[0]=="MP") {
if(args.size()==4) {
cae_output_positions[args[1].toInt()][args[2].toInt()]=args[3].toUInt();
}
}
}
}