// local_gpio.cpp // // A Rivendell switcher driver for MeasurementComputing GPIO cards. // // (C) Copyright 2002-2003,2016 Fred Gleason // // 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 #include #include LocalGpio::LocalGpio(RDMatrix *matrix,QObject *parent) : Switcher(matrix,parent) { // // Get Matrix Parameters // gpio_matrix=matrix->matrix(); gpio_gpis=matrix->gpis(); gpio_gpos=matrix->gpos(); // // Initialize data structures // for(int i=0;isetDevice(matrix->gpioDevice()); if((gpio_open=gpio_gpio->open())) { if(gpio_gpis==0) { gpio_gpio->setMode(RDGpio::Output); } if(gpio_gpos==0) { gpio_gpio->setMode(RDGpio::Input); } connect(gpio_gpio,SIGNAL(inputChanged(int,bool)), this,SLOT(gpiChangedData(int,bool))); connect(gpio_gpio,SIGNAL(outputChanged(int,bool)), this,SLOT(gpoChangedData(int,bool))); } // // Interval OneShot // gpio_gpi_oneshot=new RDOneShot(this); connect(gpio_gpi_oneshot,SIGNAL(timeout(int)),this,SLOT(gpiOneshotData(int))); } LocalGpio::~LocalGpio() { delete gpio_gpio; delete gpio_gpi_oneshot; } RDMatrix::Type LocalGpio::type() { return RDMatrix::LocalGpio; } unsigned LocalGpio::gpiQuantity() { return gpio_gpis; } unsigned LocalGpio::gpoQuantity() { return gpio_gpos; } bool LocalGpio::primaryTtyActive() { return false; } bool LocalGpio::secondaryTtyActive() { return false; } void LocalGpio::processCommand(RDMacro *cmd) { switch(cmd->command()) { case RDMacro::GO: if((!gpio_open)||(cmd->argQuantity()!=5)|| ((cmd->arg(1).lower()!="i")&& (cmd->arg(1).lower()!="o"))|| (cmd->arg(2).toInt()<1)||(cmd->arg(2).toInt()>gpio_gpos)|| ((cmd->arg(3).toInt()!=1)&&(cmd->arg(3).toInt()!=0)&& (cmd->arg(3).toInt()!=-1))||(cmd->arg(4).toInt()<0)) { cmd->acknowledge(false); emit rmlEcho(cmd); return; } if(cmd->arg(1).lower()=="i") { if(cmd->arg(3).toInt()==0) { emit gpiChanged(gpio_matrix,cmd->arg(2).toInt()-1,false); gpio_gpi_mask[cmd->arg(2).toInt()-1]=true; if(cmd->arg(4).toInt()>0) { gpio_gpi_oneshot-> start(cmd->arg(2).toInt()-1,cmd->arg(4).toInt()); } } else { if(cmd->arg(3).toInt()==1) { emit gpiChanged(gpio_matrix,cmd->arg(2).toInt()-1,true); gpio_gpi_mask[cmd->arg(2).toInt()-1]=true; if(cmd->arg(4).toInt()>0) { gpio_gpi_oneshot-> start(cmd->arg(2).toInt()-1,cmd->arg(4).toInt()); } } else { gpiOneshotData(cmd->arg(2).toInt()-1); } } cmd->acknowledge(true); emit rmlEcho(cmd); return; } if(cmd->arg(1).lower()=="o") { if(cmd->arg(3).toInt()==0) { gpio_gpio->gpoReset(cmd->arg(2).toInt()-1,cmd->arg(4).toInt()); } else { if(cmd->arg(3).toInt()==1) { gpio_gpio->gpoSet(cmd->arg(2).toInt()-1,cmd->arg(4).toInt()); } else { cmd->acknowledge(false); emit rmlEcho(cmd); return; } } cmd->acknowledge(true); emit rmlEcho(cmd); return; } break; default: cmd->acknowledge(false); emit rmlEcho(cmd); break; } } void LocalGpio::gpiChangedData(int line,bool state) { emit gpiChanged(gpio_matrix,line,state); } void LocalGpio::gpoChangedData(int line,bool state) { emit gpoChanged(gpio_matrix,line,state); } void LocalGpio::gpiOneshotData(int value) { gpio_gpi_mask[value]=false; gpiChangedData(value,gpio_gpio->inputState(value)); }