// harlond.cpp
//
// A Rivendell switcher driver for the Harlond Virtual Mixer
//
// (C) Copyright 2002-2012,2016 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 <qstringlist.h>
#include "globals.h"
#include "harlond.h"
Harlond::Harlond(RDMatrix *matrix,QObject *parent)
: Switcher(matrix,parent)
{
bt_recv_buffer="";
//
// Get Matrix Parameters
//
bt_ip_address=matrix->ipAddress(RDMatrix::Primary);
bt_tcp_port=matrix->ipPort(RDMatrix::Primary);
bt_password=matrix->password(RDMatrix::Primary);
bt_matrix=matrix->matrix();
bt_inputs=matrix->inputs();
bt_outputs=matrix->outputs();
bt_start_cart=matrix->startCart(RDMatrix::Primary);
bt_stop_cart=matrix->stopCart(RDMatrix::Primary);
//
// Reset Timers
//
bt_reset_mapper=new QSignalMapper(this);
connect(bt_reset_mapper,SIGNAL(mapped(int)),this,SLOT(resetTimeoutData(int)));
for(int i=0;i<bt_inputs;i++) {
bt_reset_states.push_back(false);
bt_reset_timers.push_back(new QTimer(this));
bt_reset_mapper->setMapping(bt_reset_timers.back(),i);
connect(bt_reset_timers.back(),SIGNAL(timeout()),
bt_reset_mapper,SLOT(map()));
}
//
// Initialize TCP/IP Connection
//
bt_socket=new QSocket(this);
connect(bt_socket,SIGNAL(connected()),this,SLOT(socketConnectedData()));
connect(bt_socket,SIGNAL(disconnected()),this,SLOT(socketDisconnectedData()));
connect(bt_socket,SIGNAL(readyRead()),this,SLOT(socketReadyReadData()));
connect(bt_socket,SIGNAL(error(QAbstractSocket::SocketError)),
this,SLOT(socketErrorData(QAbstractSocket::SocketError)));
bt_watchdog_timer=new QTimer(this);
connect(bt_watchdog_timer,SIGNAL(timeout()),this,SLOT(watchdogTimeoutData()));
bt_watchdog_timer->start(5000,true);
}
Harlond::~Harlond()
{
for(unsigned i=0;i<bt_reset_timers.size();i++) {
delete bt_reset_timers[i];
}
delete bt_reset_mapper;
delete bt_socket;
}
RDMatrix::Type Harlond::type()
{
return RDMatrix::Harlond;
}
unsigned Harlond::gpiQuantity()
{
return 0;
}
unsigned Harlond::gpoQuantity()
{
return 0;
}
bool Harlond::primaryTtyActive()
{
return false;
}
bool Harlond::secondaryTtyActive()
{
return false;
}
void Harlond::processCommand(RDMacro *cmd)
{
switch(cmd->command()) {
case RDMacro::FS: // Fire Salvo
if(cmd->argQuantity()<2) {
cmd->acknowledge(false);
emit rmlEcho(cmd);
return;
}
if(!ProcessSalvo(cmd->rollupArgs(1))) {
cmd->acknowledge(false);
emit rmlEcho(cmd);
return;
}
cmd->acknowledge(true);
emit rmlEcho(cmd);
break;
case RDMacro::GO: // GPO Set
if(cmd->argQuantity()!=5) {
cmd->acknowledge(false);
emit rmlEcho(cmd);
return;
}
if(!ProcessGpo(cmd->arg(2).toInt(),cmd->arg(3).toBool(),
cmd->arg(4).toInt())) {
cmd->acknowledge(false);
emit rmlEcho(cmd);
return;
}
cmd->acknowledge(true);
emit rmlEcho(cmd);
break;
case RDMacro::SL: // Switch Level
if(cmd->argQuantity()!=3) {
cmd->acknowledge(false);
emit rmlEcho(cmd);
return;
}
if(!SetInputLevel(cmd->arg(1).toInt(),cmd->arg(2).toInt())) {
cmd->acknowledge(false);
emit rmlEcho(cmd);
return;
}
cmd->acknowledge(true);
emit rmlEcho(cmd);
break;
case RDMacro::SA: // Switch Add
case RDMacro::SR: // Switch Remove
case RDMacro::ST: // Switch Take
if(cmd->argQuantity()!=3) {
cmd->acknowledge(false);
emit rmlEcho(cmd);
return;
}
if(!ProcessCrosspoint(cmd->command(),cmd->arg(1).toInt(),
cmd->arg(2).toInt())) {
cmd->acknowledge(false);
emit rmlEcho(cmd);
return;
}
cmd->acknowledge(true);
emit rmlEcho(cmd);
break;
default:
break;
}
}
void Harlond::resetTimeoutData(int line)
{
ProcessGpo(line,!bt_reset_states[line],0);
}
void Harlond::socketConnectedData()
{
QString str=QString("PW ")+bt_password+"!";
bt_socket->writeBlock(str,str.length());
if(bt_start_cart>0) {
executeMacroCart(bt_start_cart);
}
}
void Harlond::socketDisconnectedData()
{
bt_watchdog_timer->start(HARLOND_RECONNECT_INTERVAL,true);
LogLine(RDConfig::LogWarning,tr("connection to harlond device at ")+
bt_ip_address.toString()+
QString().sprintf(":%d ",bt_tcp_port)+
tr("closed unexpectedly, attempting reconnect"));
if(bt_stop_cart>0) {
executeMacroCart(bt_stop_cart);
}
}
void Harlond::socketReadyReadData()
{
char data[1500];
int n;
while((n=bt_socket->readBlock(data,1500))>0) {
for(int i=0;i<n;i++) {
if(data[i]=='!') {
ProcessResponse(bt_recv_buffer);
bt_recv_buffer="";
}
else {
bt_recv_buffer+=data[i];
}
}
}
}
void Harlond::socketErrorData(int err)
{
bt_watchdog_timer->start(HARLOND_RECONNECT_INTERVAL,true);
switch(err) {
case QSocket::ErrConnectionRefused:
LogLine(RDConfig::LogWarning,tr("connection to harlond device at ")+
bt_ip_address.toString()+QString().sprintf(":%d ",bt_tcp_port)+
tr("refused, attempting reconnect"));
break;
default:
LogLine(RDConfig::LogWarning,tr("received network error")+
QString().sprintf(" %d ",err)+tr("from harlond device at ")+
bt_ip_address.toString()+QString().sprintf(":%d ",bt_tcp_port)+", "+
tr("attempting reconnect"));
break;
}
}
void Harlond::watchdogTimeoutData()
{
if(bt_socket->state()!=QSocket::Connected) {
bt_socket->connectToHost(bt_ip_address.toString(),bt_tcp_port);
}
}
void Harlond::ProcessResponse(const QString &str)
{
// LogLine(RDConfig::LogNotice,str);
QStringList cmds=cmds.split(" ",str);
if(cmds[0]=="PW") {
if(cmds.size()==2) {
if(cmds[1]=="+") {
LogLine(RDConfig::LogInfo,tr("connection to harlond device at ")+
bt_ip_address.toString()+QString().sprintf(":%d ",bt_tcp_port)+
tr("established"));
bt_socket->writeBlock("SS!",3);
return;
}
}
LogLine(RDConfig::LogInfo,tr("connection to harlond device at ")+
bt_ip_address.toString()+QString().sprintf(":%d ",bt_tcp_port)+
tr("refused, invalid password"));
}
if(cmds[0]=="ON") {
if(cmds.size()==2) {
emit gpiChanged(bt_matrix,cmds[1].toInt()-1,true);
}
}
if(cmds[0]=="OF") {
if(cmds.size()==2) {
emit gpiChanged(bt_matrix,cmds[1].toInt()-1,false);
}
}
}
bool Harlond::ProcessSalvo(const QString &str)
{
QString arg=QString("LL ")+str+"!";
bt_socket->writeBlock(arg,arg.length());
return true;
}
bool Harlond::ProcessGpo(int line,bool state,int msecs)
{
QString code="OF";
QString str;
if((line<1)||(line>bt_inputs)) {
return false;
}
if(state) {
code="ON";
}
bt_reset_states[line]=state;
str=code+QString().sprintf(" %02d!",line);
bt_socket->writeBlock(str,str.length());
bt_reset_timers[line]->stop();
if(msecs>0) {
bt_reset_timers[line]->start(msecs,true);
}
return true;
}
bool Harlond::SetInputLevel(int input,int db)
{
QString str;
if((input<1)||(input>bt_inputs)) {
return false;
}
str=QString().sprintf("VL %02d %04d!",input,db);
bt_socket->writeBlock(str,str.length());
return true;
}
bool Harlond::ProcessCrosspoint(RDMacro::Command cmd,int input,int output)
{
bool ret=false;
if((input<1)||(input>bt_inputs)) {
return false;
}
switch(cmd) {
case RDMacro::ST:
ret=TakeCrosspoint(input,output);
break;
case RDMacro::SA:
ret=AddCrosspoint(input,output);
break;
case RDMacro::SR:
ret=RemoveCrosspoint(input,output);
break;
default:
break;
}
return ret;
}
bool Harlond::TakeCrosspoint(int input,int output)
{
QString str;
QString code=GetBussCode(output);
if(code.isEmpty()) {
return false;
}
AddCrosspoint(input,output);
for(int i=1;i<input;i++) {
RemoveCrosspoint(i,output);
}
LogLine(RDConfig::LogNotice,QString().sprintf("inputs: %d",bt_inputs));
for(int i=input+1;i<=bt_inputs;i++) {
RemoveCrosspoint(i,output);
}
return true;
}
bool Harlond::AddCrosspoint(int input,int output)
{
QString str;
QString code=GetBussCode(output);
if(code.isEmpty()) {
return false;
}
str=code+QString().sprintf(" %02d +!",input);
bt_socket->writeBlock(str,str.length());
return true;
}
bool Harlond::RemoveCrosspoint(int input,int output)
{
QString str;
QString code=GetBussCode(output);
if(code.isEmpty()) {
return false;
}
str=code+QString().sprintf(" %02d -!",input);
bt_socket->writeBlock(str,str.length());
return true;
}
QString Harlond::GetBussCode(int output)
{
QString code="";
QString str;
if((bt_outputs<1)||(output>=bt_outputs)) {
return QString();
}
switch(output) {
case 1: // Program
code="PG";
break;
case 2: // Audition
code="AU";
break;
case 3: // Utility
code="UT";
break;
case 4: // Cue
code="QU";
break;
default:
return QString();
}
return code;
}