/** @verbatim Copyright (C) 2004,2005 ADDI-DATA GmbH for the source code of this module. ADDI-DATA GmbH Dieselstrasse 3 D-77833 Ottersweier Tel: +19(0)7223/9493-0 Fax: +49(0)7223/9493-92 http://www.addi-data.com info@addi-data.com 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 You should also find the complete GPL in the COPYING file accompanying this source code. @endverbatim */ /* +-----------------------------------------------------------------------+ | (C) ADDI-DATA GmbH Dieselstrasse 3 D-77833 Ottersweier | +-----------------------------------------------------------------------+ | Tel : +49 (0) 7223/9493-0 | email : info@addi-data.com | | Fax : +49 (0) 7223/9493-92 | Internet : http://www.addi-data.com | +-----------------------------------------------------------------------+ | Project : APCI-3120 | Compiler : GCC | | Module name : hwdrv_apci3120.c| Version : 2.96 | +-------------------------------+---------------------------------------+ | Project manager: Eric Stolz | Date : 02/12/2002 | +-----------------------------------------------------------------------+ | Description :APCI3120 Module. Hardware abstraction Layer for APCI3120| +-----------------------------------------------------------------------+ | UPDATE'S | +-----------------------------------------------------------------------+ | Date | Author | Description of updates | +----------+-----------+------------------------------------------------+ | | | | | | | | +----------+-----------+------------------------------------------------+ */ #include "hwdrv_apci3120.h" static unsigned int ui_Temp; /* FUNCTION DEFINITIONS */ /* +----------------------------------------------------------------------------+ | ANALOG INPUT SUBDEVICE | +----------------------------------------------------------------------------+ */ /* +----------------------------------------------------------------------------+ | Function name :int i_APCI3120_InsnConfigAnalogInput(struct comedi_device *dev,| | struct comedi_subdevice *s,struct comedi_insn *insn,unsigned int *data) | | | +----------------------------------------------------------------------------+ | Task : Calls card specific function | | | +----------------------------------------------------------------------------+ | Input Parameters : struct comedi_device *dev | | struct comedi_subdevice *s | | struct comedi_insn *insn | | unsigned int *data | +----------------------------------------------------------------------------+ | Return Value : | | | +----------------------------------------------------------------------------+ */ int i_APCI3120_InsnConfigAnalogInput(struct comedi_device *dev, struct comedi_subdevice *s, struct comedi_insn *insn, unsigned int *data) { unsigned int i; if ((data[0] != APCI3120_EOC_MODE) && (data[0] != APCI3120_EOS_MODE)) return -1; /* Check for Conversion time to be added ?? */ devpriv->ui_EocEosConversionTime = data[2]; if (data[0] == APCI3120_EOS_MODE) { /* Test the number of the channel */ for (i = 0; i < data[3]; i++) { if (CR_CHAN(data[4 + i]) >= this_board->i_NbrAiChannel) { printk("bad channel list\n"); return -2; } } devpriv->b_InterruptMode = APCI3120_EOS_MODE; if (data[1]) devpriv->b_EocEosInterrupt = APCI3120_ENABLE; else devpriv->b_EocEosInterrupt = APCI3120_DISABLE; /* Copy channel list and Range List to devpriv */ devpriv->ui_AiNbrofChannels = data[3]; for (i = 0; i < devpriv->ui_AiNbrofChannels; i++) devpriv->ui_AiChannelList[i] = data[4 + i]; } else { /* EOC */ devpriv->b_InterruptMode = APCI3120_EOC_MODE; if (data[1]) devpriv->b_EocEosInterrupt = APCI3120_ENABLE; else devpriv->b_EocEosInterrupt = APCI3120_DISABLE; } return insn->n; } /* +----------------------------------------------------------------------------+ | Function name :int i_APCI3120_InsnReadAnalogInput(struct comedi_device *dev, | | struct comedi_subdevice *s,struct comedi_insn *insn, unsigned int *data) | | | +----------------------------------------------------------------------------+ | Task : card specific function | | Reads analog input in synchronous mode | | EOC and EOS is selected as per configured | | if no conversion time is set uses default conversion | | time 10 microsec. | | | +----------------------------------------------------------------------------+ | Input Parameters : struct comedi_device *dev | | struct comedi_subdevice *s | | struct comedi_insn *insn | | unsigned int *data | +----------------------------------------------------------------------------+ | Return Value : | | | +----------------------------------------------------------------------------+ */ int i_APCI3120_InsnReadAnalogInput(struct comedi_device *dev, struct comedi_subdevice *s, struct comedi_insn *insn, unsigned int *data) { unsigned short us_ConvertTiming, us_TmpValue, i; unsigned char b_Tmp; /* fix convertion time to 10 us */ if (!devpriv->ui_EocEosConversionTime) { printk("No timer0 Value using 10 us\n"); us_ConvertTiming = 10; } else us_ConvertTiming = (unsigned short) (devpriv->ui_EocEosConversionTime / 1000); /* nano to useconds */ /* this_board->i_hwdrv_InsnReadAnalogInput(dev,us_ConvertTiming,insn->n,&insn->chanspec,data,insn->unused[0]); */ /* Clear software registers */ devpriv->b_TimerSelectMode = 0; devpriv->b_ModeSelectRegister = 0; devpriv->us_OutputRegister = 0; /* devpriv->b_DigitalOutputRegister=0; */ if (insn->unused[0] == 222) { /* second insn read */ for (i = 0; i < insn->n; i++) data[i] = devpriv->ui_AiReadData[i]; } else { devpriv->tsk_Current = current; /* Save the current process task structure */ /* * Testing if board have the new Quartz and calculate the time value * to set in the timer */ us_TmpValue = (unsigned short) inw(devpriv->iobase + APCI3120_RD_STATUS); /* EL250804: Testing if board APCI3120 have the new Quartz or if it is an APCI3001 */ if ((us_TmpValue & 0x00B0) == 0x00B0 || !strcmp(this_board->pc_DriverName, "apci3001")) { us_ConvertTiming = (us_ConvertTiming * 2) - 2; } else { us_ConvertTiming = ((us_ConvertTiming * 12926) / 10000) - 1; } us_TmpValue = (unsigned short) devpriv->b_InterruptMode; switch (us_TmpValue) { case APCI3120_EOC_MODE: /* * Testing the interrupt flag and set the EOC bit Clears the FIFO */ inw(devpriv->iobase + APCI3120_RESET_FIFO); /* Initialize the sequence array */ /* if (!i_APCI3120_SetupChannelList(dev,s,1,chanlist,0)) return -EINVAL; */ if (!i_APCI3120_SetupChannelList(dev, s, 1, &insn->chanspec, 0)) return -EINVAL; /* Initialize Timer 0 mode 4 */ devpriv->b_TimerSelectMode = (devpriv-> b_TimerSelectMode & 0xFC) | APCI3120_TIMER_0_MODE_4; outb(devpriv->b_TimerSelectMode, devpriv->iobase + APCI3120_TIMER_CRT1); /* Reset the scan bit and Disables the EOS, DMA, EOC interrupt */ devpriv->b_ModeSelectRegister = devpriv-> b_ModeSelectRegister & APCI3120_DISABLE_SCAN; if (devpriv->b_EocEosInterrupt == APCI3120_ENABLE) { /* Disables the EOS,DMA and enables the EOC interrupt */ devpriv->b_ModeSelectRegister = (devpriv-> b_ModeSelectRegister & APCI3120_DISABLE_EOS_INT) | APCI3120_ENABLE_EOC_INT; inw(devpriv->iobase); } else { devpriv->b_ModeSelectRegister = devpriv-> b_ModeSelectRegister & APCI3120_DISABLE_ALL_INTERRUPT_WITHOUT_TIMER; } outb(devpriv->b_ModeSelectRegister, devpriv->iobase + APCI3120_WRITE_MODE_SELECT); /* Sets gate 0 */ devpriv->us_OutputRegister = (devpriv-> us_OutputRegister & APCI3120_CLEAR_PA_PR) | APCI3120_ENABLE_TIMER0; outw(devpriv->us_OutputRegister, devpriv->iobase + APCI3120_WR_ADDRESS); /* Select Timer 0 */ b_Tmp = ((devpriv-> b_DigitalOutputRegister) & 0xF0) | APCI3120_SELECT_TIMER_0_WORD; outb(b_Tmp, devpriv->iobase + APCI3120_TIMER_CRT0); /* Set the convertion time */ outw(us_ConvertTiming, devpriv->iobase + APCI3120_TIMER_VALUE); us_TmpValue = (unsigned short) inw(dev->iobase + APCI3120_RD_STATUS); if (devpriv->b_EocEosInterrupt == APCI3120_DISABLE) { do { /* Waiting for the end of conversion */ us_TmpValue = inw(devpriv->iobase + APCI3120_RD_STATUS); } while ((us_TmpValue & APCI3120_EOC) == APCI3120_EOC); /* Read the result in FIFO and put it in insn data pointer */ us_TmpValue = inw(devpriv->iobase + 0); *data = us_TmpValue; inw(devpriv->iobase + APCI3120_RESET_FIFO); } break; case APCI3120_EOS_MODE: inw(devpriv->iobase); /* Clears the FIFO */ inw(devpriv->iobase + APCI3120_RESET_FIFO); /* clear PA PR and disable timer 0 */ devpriv->us_OutputRegister = (devpriv-> us_OutputRegister & APCI3120_CLEAR_PA_PR) | APCI3120_DISABLE_TIMER0; outw(devpriv->us_OutputRegister, devpriv->iobase + APCI3120_WR_ADDRESS); if (!i_APCI3120_SetupChannelList(dev, s, devpriv->ui_AiNbrofChannels, devpriv->ui_AiChannelList, 0)) return -EINVAL; /* Initialize Timer 0 mode 2 */ devpriv->b_TimerSelectMode = (devpriv-> b_TimerSelectMode & 0xFC) | APCI3120_TIMER_0_MODE_2; outb(devpriv->b_TimerSelectMode, devpriv->iobase + APCI3120_TIMER_CRT1); /* Select Timer 0 */ b_Tmp = ((devpriv-> b_DigitalOutputRegister) & 0xF0) | APCI3120_SELECT_TIMER_0_WORD; outb(b_Tmp, devpriv->iobase + APCI3120_TIMER_CRT0); /* Set the convertion time */ outw(us_ConvertTiming, devpriv->iobase + APCI3120_TIMER_VALUE); /* Set the scan bit */ devpriv->b_ModeSelectRegister = devpriv-> b_ModeSelectRegister | APCI3120_ENABLE_SCAN; outb(devpriv->b_ModeSelectRegister, devpriv->iobase + APCI3120_WRITE_MODE_SELECT); /* If Interrupt function is loaded */ if (devpriv->b_EocEosInterrupt == APCI3120_ENABLE) { /* Disables the EOC,DMA and enables the EOS interrupt */ devpriv->b_ModeSelectRegister = (devpriv-> b_ModeSelectRegister & APCI3120_DISABLE_EOC_INT) | APCI3120_ENABLE_EOS_INT; inw(devpriv->iobase); } else devpriv->b_ModeSelectRegister = devpriv-> b_ModeSelectRegister & APCI3120_DISABLE_ALL_INTERRUPT_WITHOUT_TIMER; outb(devpriv->b_ModeSelectRegister, devpriv->iobase + APCI3120_WRITE_MODE_SELECT); inw(devpriv->iobase + APCI3120_RD_STATUS); /* Sets gate 0 */ devpriv->us_OutputRegister = devpriv-> us_OutputRegister | APCI3120_ENABLE_TIMER0; outw(devpriv->us_OutputRegister, devpriv->iobase + APCI3120_WR_ADDRESS); /* Start conversion */ outw(0, devpriv->iobase + APCI3120_START_CONVERSION); /* Waiting of end of convertion if interrupt is not installed */ if (devpriv->b_EocEosInterrupt == APCI3120_DISABLE) { /* Waiting the end of convertion */ do { us_TmpValue = inw(devpriv->iobase + APCI3120_RD_STATUS); } while ((us_TmpValue & APCI3120_EOS) != APCI3120_EOS); for (i = 0; i < devpriv->ui_AiNbrofChannels; i++) { /* Read the result in FIFO and write them in shared memory */ us_TmpValue = inw(devpriv->iobase); data[i] = (unsigned int) us_TmpValue; } devpriv->b_InterruptMode = APCI3120_EOC_MODE; /* Restore defaults. */ } break; default: printk("inputs wrong\n"); } devpriv->ui_EocEosConversionTime = 0; /* re initializing the variable; */ } return insn->n; } /* +----------------------------------------------------------------------------+ | Function name :int i_APCI3120_StopCyclicAcquisition(struct comedi_device *dev,| | struct comedi_subdevice *s)| | | +----------------------------------------------------------------------------+ | Task : Stops Cyclic acquisition | | | +----------------------------------------------------------------------------+ | Input Parameters : struct comedi_device *dev | | struct comedi_subdevice *s | | | +----------------------------------------------------------------------------+ | Return Value :0 | | | +----------------------------------------------------------------------------+ */ int i_APCI3120_StopCyclicAcquisition(struct comedi_device *dev, struct comedi_subdevice *s) { /* Disable A2P Fifo write and AMWEN signal */ outw(0, devpriv->i_IobaseAddon + 4); /* Disable Bus Master ADD ON */ outw(APCI3120_ADD_ON_AGCSTS_LOW, devpriv->i_IobaseAddon + 0); outw(0, devpriv->i_IobaseAddon + 2); outw(APCI3120_ADD_ON_AGCSTS_HIGH, devpriv->i_IobaseAddon + 0); outw(0, devpriv->i_IobaseAddon + 2); /* Disable BUS Master PCI */ outl(0, devpriv->i_IobaseAmcc + AMCC_OP_REG_MCSR); /* outl(inl(devpriv->i_IobaseAmcc+AMCC_OP_REG_INTCSR)&(~AINT_WRITE_COMPL), * devpriv->i_IobaseAmcc+AMCC_OP_REG_INTCSR); stop amcc irqs */ /* outl(inl(devpriv->i_IobaseAmcc+AMCC_OP_REG_MCSR)&(~EN_A2P_TRANSFERS), * devpriv->i_IobaseAmcc+AMCC_OP_REG_MCSR); stop DMA */ /* Disable ext trigger */ i_APCI3120_ExttrigDisable(dev); devpriv->us_OutputRegister = 0; /* stop counters */ outw(devpriv-> us_OutputRegister & APCI3120_DISABLE_TIMER0 & APCI3120_DISABLE_TIMER1, dev->iobase + APCI3120_WR_ADDRESS); outw(APCI3120_DISABLE_ALL_TIMER, dev->iobase + APCI3120_WR_ADDRESS); /* DISABLE_ALL_INTERRUPT */ outb(APCI3120_DISABLE_ALL_INTERRUPT, dev->iobase + APCI3120_WRITE_MODE_SELECT); /* Flush FIFO */ inb(dev->iobase + APCI3120_RESET_FIFO); inw(dev->iobase + APCI3120_RD_STATUS); devpriv->ui_AiActualScan = 0; devpriv->ui_AiActualScanPosition = 0; s->async->cur_chan = 0; devpriv->ui_AiBufferPtr = 0; devpriv->b_AiContinuous = 0; devpriv->ui_DmaActualBuffer = 0; devpriv->b_AiCyclicAcquisition = APCI3120_DISABLE; devpriv->b_InterruptMode = APCI3120_EOC_MODE; devpriv->b_EocEosInterrupt = APCI3120_DISABLE; i_APCI3120_Reset(dev); return 0; } /* +----------------------------------------------------------------------------+ | Function name :int i_APCI3120_CommandTestAnalogInput(struct comedi_device *dev| | ,struct comedi_subdevice *s,struct comedi_cmd *cmd) | | | +----------------------------------------------------------------------------+ | Task : Test validity for a command for cyclic anlog input | | acquisition | | | +----------------------------------------------------------------------------+ | Input Parameters : struct comedi_device *dev | | struct comedi_subdevice *s | | struct comedi_cmd *cmd | +----------------------------------------------------------------------------+ | Return Value :0 | | | +----------------------------------------------------------------------------+ */ int i_APCI3120_CommandTestAnalogInput(struct comedi_device *dev, struct comedi_subdevice *s, struct comedi_cmd *cmd) { int err = 0; int tmp; /* divisor1,divisor2; */ /* step 1: make sure trigger sources are trivially valid */ tmp = cmd->start_src; cmd->start_src &= TRIG_NOW | TRIG_EXT; if (!cmd->start_src || tmp != cmd->start_src) err++; tmp = cmd->scan_begin_src; cmd->scan_begin_src &= TRIG_TIMER | TRIG_FOLLOW; if (!cmd->scan_begin_src || tmp != cmd->scan_begin_src) err++; tmp = cmd->convert_src; cmd->convert_src &= TRIG_TIMER; if (!cmd->convert_src || tmp != cmd->convert_src) err++; tmp = cmd->scan_end_src; cmd->scan_end_src &= TRIG_COUNT; if (!cmd->scan_end_src || tmp != cmd->scan_end_src) err++; tmp = cmd->stop_src; cmd->stop_src &= TRIG_COUNT | TRIG_NONE; if (!cmd->stop_src || tmp != cmd->stop_src) err++; if (err) return 1; /* step 2: make sure trigger sources are unique and mutually compatible */ if (cmd->start_src != TRIG_NOW && cmd->start_src != TRIG_EXT) err++; if (cmd->scan_begin_src != TRIG_TIMER && cmd->scan_begin_src != TRIG_FOLLOW) err++; if (cmd->convert_src != TRIG_TIMER) err++; if (cmd->scan_end_src != TRIG_COUNT) { cmd->scan_end_src = TRIG_COUNT; err++; } if (cmd->stop_src != TRIG_NONE && cmd->stop_src != TRIG_COUNT) err++; if (err) return 2; /* step 3: make sure arguments are trivially compatible */ if (cmd->start_arg != 0) { cmd->start_arg = 0; err++; } if (cmd->scan_begin_src == TRIG_TIMER) { /* Test Delay timing */ if (cmd->scan_begin_arg < this_board->ui_MinDelaytimeNs) { cmd->scan_begin_arg = this_board->ui_MinDelaytimeNs; err++; } } if (cmd->convert_src == TRIG_TIMER) { /* Test Acquisition timing */ if (cmd->scan_begin_src == TRIG_TIMER) { if ((cmd->convert_arg) && (cmd->convert_arg < this_board->ui_MinAcquisitiontimeNs)) { cmd->convert_arg = this_board->ui_MinAcquisitiontimeNs; err++; } } else { if (cmd->convert_arg < this_board->ui_MinAcquisitiontimeNs) { cmd->convert_arg = this_board->ui_MinAcquisitiontimeNs; err++; } } } if (!cmd->chanlist_len) { cmd->chanlist_len = 1; err++; } if (cmd->chanlist_len > this_board->i_AiChannelList) { cmd->chanlist_len = this_board->i_AiChannelList; err++; } if (cmd->stop_src == TRIG_COUNT) { if (!cmd->stop_arg) { cmd->stop_arg = 1; err++; } } else { /* TRIG_NONE */ if (cmd->stop_arg != 0) { cmd->stop_arg = 0; err++; } } if (err) return 3; /* step 4: fix up any arguments */ if (cmd->convert_src == TRIG_TIMER) { if (cmd->scan_begin_src == TRIG_TIMER && cmd->scan_begin_arg < cmd->convert_arg * cmd->scan_end_arg) { cmd->scan_begin_arg = cmd->convert_arg * cmd->scan_end_arg; err++; } } if (err) return 4; return 0; } /* +----------------------------------------------------------------------------+ | Function name : int i_APCI3120_CommandAnalogInput(struct comedi_device *dev, | | struct comedi_subdevice *s) | | | +----------------------------------------------------------------------------+ | Task : Does asynchronous acquisition | | Determines the mode 1 or 2. | | | +----------------------------------------------------------------------------+ | Input Parameters : struct comedi_device *dev | | struct comedi_subdevice *s | | | +----------------------------------------------------------------------------+ | Return Value : | | | +----------------------------------------------------------------------------+ */ int i_APCI3120_CommandAnalogInput(struct comedi_device *dev, struct comedi_subdevice *s) { struct comedi_cmd *cmd = &s->async->cmd; /* loading private structure with cmd structure inputs */ devpriv->ui_AiFlags = cmd->flags; devpriv->ui_AiNbrofChannels = cmd->chanlist_len; devpriv->ui_AiScanLength = cmd->scan_end_arg; devpriv->pui_AiChannelList = cmd->chanlist; /* UPDATE-0.7.57->0.7.68devpriv->AiData=s->async->data; */ devpriv->AiData = s->async->prealloc_buf; /* UPDATE-0.7.57->0.7.68devpriv->ui_AiDataLength=s->async->data_len; */ devpriv->ui_AiDataLength = s->async->prealloc_bufsz; if (cmd->stop_src == TRIG_COUNT) devpriv->ui_AiNbrofScans = cmd->stop_arg; else devpriv->ui_AiNbrofScans = 0; devpriv->ui_AiTimer0 = 0; /* variables changed to timer0,timer1 */ devpriv->ui_AiTimer1 = 0; if ((devpriv->ui_AiNbrofScans == 0) || (devpriv->ui_AiNbrofScans == -1)) devpriv->b_AiContinuous = 1; /* user want neverending analog acquisition */ /* stopped using cancel */ if (cmd->start_src == TRIG_EXT) devpriv->b_ExttrigEnable = APCI3120_ENABLE; else devpriv->b_ExttrigEnable = APCI3120_DISABLE; if (cmd->scan_begin_src == TRIG_FOLLOW) { /* mode 1 or 3 */ if (cmd->convert_src == TRIG_TIMER) { /* mode 1 */ devpriv->ui_AiTimer0 = cmd->convert_arg; /* timer constant in nano seconds */ /* return this_board->i_hwdrv_CommandAnalogInput(1,dev,s); */ return i_APCI3120_CyclicAnalogInput(1, dev, s); } } if ((cmd->scan_begin_src == TRIG_TIMER) && (cmd->convert_src == TRIG_TIMER)) { /* mode 2 */ devpriv->ui_AiTimer1 = cmd->scan_begin_arg; devpriv->ui_AiTimer0 = cmd->convert_arg; /* variable changed timer2 to timer0 */ /* return this_board->i_hwdrv_CommandAnalogInput(2,dev,s); */ return i_APCI3120_CyclicAnalogInput(2, dev, s); } return -1; } /* +----------------------------------------------------------------------------+ | Function name : int i_APCI3120_CyclicAnalogInput(int mode, | | struct comedi_device * dev,struct comedi_subdevice * s) | +----------------------------------------------------------------------------+ | Task : This is used for analog input cyclic acquisition | | Performs the command operations. | | If DMA is configured does DMA initialization | | otherwise does the acquisition with EOS interrupt. | | | +----------------------------------------------------------------------------+ | Input Parameters : | | | | | +----------------------------------------------------------------------------+ | Return Value : | | | +----------------------------------------------------------------------------+ */ int i_APCI3120_CyclicAnalogInput(int mode, struct comedi_device *dev, struct comedi_subdevice *s) { unsigned char b_Tmp; unsigned int ui_Tmp, ui_DelayTiming = 0, ui_TimerValue1 = 0, dmalen0 = 0, dmalen1 = 0, ui_TimerValue2 = 0, ui_TimerValue0, ui_ConvertTiming; unsigned short us_TmpValue; /* BEGIN JK 07.05.04: Comparison between WIN32 and Linux driver */ /* devpriv->b_AiCyclicAcquisition=APCI3120_ENABLE; */ /* END JK 07.05.04: Comparison between WIN32 and Linux driver */ /*******************/ /* Resets the FIFO */ /*******************/ inb(dev->iobase + APCI3120_RESET_FIFO); /* BEGIN JK 07.05.04: Comparison between WIN32 and Linux driver */ /* inw(dev->iobase+APCI3120_RD_STATUS); */ /* END JK 07.05.04: Comparison between WIN32 and Linux driver */ /***************************/ /* Acquisition initialized */ /***************************/ /* BEGIN JK 07.05.04: Comparison between WIN32 and Linux driver */ devpriv->b_AiCyclicAcquisition = APCI3120_ENABLE; /* END JK 07.05.04: Comparison between WIN32 and Linux driver */ /* clear software registers */ devpriv->b_TimerSelectMode = 0; devpriv->us_OutputRegister = 0; devpriv->b_ModeSelectRegister = 0; /* devpriv->b_DigitalOutputRegister=0; */ /* COMMENT JK 07.05.04: Followings calls are in i_APCI3120_StartAnalogInputAcquisition */ /****************************/ /* Clear Timer Write TC int */ /****************************/ outl(APCI3120_CLEAR_WRITE_TC_INT, devpriv->i_IobaseAmcc + APCI3120_AMCC_OP_REG_INTCSR); /************************************/ /* Clears the timer status register */ /************************************/ /* BEGIN JK 07.05.04: Comparison between WIN32 and Linux driver */ /* inw(dev->iobase+APCI3120_TIMER_STATUS_REGISTER); */ /* inb(dev->iobase + APCI3120_TIMER_STATUS_REGISTER); */ /* END JK 07.05.04: Comparison between WIN32 and Linux driver */ /**************************/ /* Disables All Timer */ /* Sets PR and PA to 0 */ /**************************/ devpriv->us_OutputRegister = devpriv->us_OutputRegister & APCI3120_DISABLE_TIMER0 & APCI3120_DISABLE_TIMER1 & APCI3120_CLEAR_PA_PR; outw(devpriv->us_OutputRegister, dev->iobase + APCI3120_WR_ADDRESS); /*******************/ /* Resets the FIFO */ /*******************/ /* BEGIN JK 07.05.04: Comparison between WIN32 and Linux driver */ inb(devpriv->iobase + APCI3120_RESET_FIFO); /* END JK 07.05.04: Comparison between WIN32 and Linux driver */ devpriv->ui_AiActualScan = 0; devpriv->ui_AiActualScanPosition = 0; s->async->cur_chan = 0; devpriv->ui_AiBufferPtr = 0; devpriv->ui_DmaActualBuffer = 0; /* value for timer2 minus -2 has to be done .....dunno y?? */ ui_TimerValue2 = devpriv->ui_AiNbrofScans - 2; ui_ConvertTiming = devpriv->ui_AiTimer0; if (mode == 2) ui_DelayTiming = devpriv->ui_AiTimer1; /**********************************/ /* Initializes the sequence array */ /**********************************/ if (!i_APCI3120_SetupChannelList(dev, s, devpriv->ui_AiNbrofChannels, devpriv->pui_AiChannelList, 0)) return -EINVAL; us_TmpValue = (unsigned short) inw(dev->iobase + APCI3120_RD_STATUS); /*** EL241003 : add this section in comment because floats must not be used if((us_TmpValue & 0x00B0)==0x00B0) { f_ConvertValue=(((float)ui_ConvertTiming * 0.002) - 2); ui_TimerValue0=(unsigned int)f_ConvertValue; if (mode==2) { f_DelayValue = (((float)ui_DelayTiming * 0.00002) - 2); ui_TimerValue1 = (unsigned int) f_DelayValue; } } else { f_ConvertValue=(((float)ui_ConvertTiming * 0.0012926) - 1); ui_TimerValue0=(unsigned int)f_ConvertValue; if (mode == 2) { f_DelayValue = (((float)ui_DelayTiming * 0.000012926) - 1); ui_TimerValue1 = (unsigned int) f_DelayValue; } } ***********************************************************************************************/ /*** EL241003 Begin : add this section to replace floats calculation by integer calculations **/ /* EL250804: Testing if board APCI3120 have the new Quartz or if it is an APCI3001 */ if ((us_TmpValue & 0x00B0) == 0x00B0 || !strcmp(this_board->pc_DriverName, "apci3001")) { ui_TimerValue0 = ui_ConvertTiming * 2 - 2000; ui_TimerValue0 = ui_TimerValue0 / 1000; if (mode == 2) { ui_DelayTiming = ui_DelayTiming / 1000; ui_TimerValue1 = ui_DelayTiming * 2 - 200; ui_TimerValue1 = ui_TimerValue1 / 100; } } else { ui_ConvertTiming = ui_ConvertTiming / 1000; ui_TimerValue0 = ui_ConvertTiming * 12926 - 10000; ui_TimerValue0 = ui_TimerValue0 / 10000; if (mode == 2) { ui_DelayTiming = ui_DelayTiming / 1000; ui_TimerValue1 = ui_DelayTiming * 12926 - 1; ui_TimerValue1 = ui_TimerValue1 / 1000000; } } /*** EL241003 End ******************************************************************************/ if (devpriv->b_ExttrigEnable == APCI3120_ENABLE) i_APCI3120_ExttrigEnable(dev); /* activate EXT trigger */ switch (mode) { case 1: /* init timer0 in mode 2 */ devpriv->b_TimerSelectMode = (devpriv-> b_TimerSelectMode & 0xFC) | APCI3120_TIMER_0_MODE_2; outb(devpriv->b_TimerSelectMode, dev->iobase + APCI3120_TIMER_CRT1); /* Select Timer 0 */ b_Tmp = ((devpriv-> b_DigitalOutputRegister) & 0xF0) | APCI3120_SELECT_TIMER_0_WORD; outb(b_Tmp, dev->iobase + APCI3120_TIMER_CRT0); /* Set the convertion time */ outw(((unsigned short) ui_TimerValue0), dev->iobase + APCI3120_TIMER_VALUE); break; case 2: /* init timer1 in mode 2 */ devpriv->b_TimerSelectMode = (devpriv-> b_TimerSelectMode & 0xF3) | APCI3120_TIMER_1_MODE_2; outb(devpriv->b_TimerSelectMode, dev->iobase + APCI3120_TIMER_CRT1); /* Select Timer 1 */ b_Tmp = ((devpriv-> b_DigitalOutputRegister) & 0xF0) | APCI3120_SELECT_TIMER_1_WORD; outb(b_Tmp, dev->iobase + APCI3120_TIMER_CRT0); /* Set the convertion time */ outw(((unsigned short) ui_TimerValue1), dev->iobase + APCI3120_TIMER_VALUE); /* init timer0 in mode 2 */ devpriv->b_TimerSelectMode = (devpriv-> b_TimerSelectMode & 0xFC) | APCI3120_TIMER_0_MODE_2; outb(devpriv->b_TimerSelectMode, dev->iobase + APCI3120_TIMER_CRT1); /* Select Timer 0 */ b_Tmp = ((devpriv-> b_DigitalOutputRegister) & 0xF0) | APCI3120_SELECT_TIMER_0_WORD; outb(b_Tmp, dev->iobase + APCI3120_TIMER_CRT0); /* Set the convertion time */ outw(((unsigned short) ui_TimerValue0), dev->iobase + APCI3120_TIMER_VALUE); break; } /* ##########common for all modes################# */ /***********************/ /* Clears the SCAN bit */ /***********************/ /* BEGIN JK 07.05.04: Comparison between WIN32 and Linux driver */ /* devpriv->b_ModeSelectRegister=devpriv->b_ModeSelectRegister | APCI3120_DISABLE_SCAN; */ devpriv->b_ModeSelectRegister = devpriv->b_ModeSelectRegister & APCI3120_DISABLE_SCAN; /* END JK 07.05.04: Comparison between WIN32 and Linux driver */ outb(devpriv->b_ModeSelectRegister, dev->iobase + APCI3120_WRITE_MODE_SELECT); /* If DMA is disabled */ if (devpriv->us_UseDma == APCI3120_DISABLE) { /* disable EOC and enable EOS */ devpriv->b_InterruptMode = APCI3120_EOS_MODE; devpriv->b_EocEosInterrupt = APCI3120_ENABLE; devpriv->b_ModeSelectRegister = (devpriv-> b_ModeSelectRegister & APCI3120_DISABLE_EOC_INT) | APCI3120_ENABLE_EOS_INT; outb(devpriv->b_ModeSelectRegister, dev->iobase + APCI3120_WRITE_MODE_SELECT); if (!devpriv->b_AiContinuous) { /* * configure Timer2 For counting EOS Reset gate 2 of Timer 2 to * disable it (Set Bit D14 to 0) */ devpriv->us_OutputRegister = devpriv-> us_OutputRegister & APCI3120_DISABLE_TIMER2; outw(devpriv->us_OutputRegister, dev->iobase + APCI3120_WR_ADDRESS); /* DISABLE TIMER intERRUPT */ devpriv->b_ModeSelectRegister = devpriv-> b_ModeSelectRegister & APCI3120_DISABLE_TIMER_INT & 0xEF; outb(devpriv->b_ModeSelectRegister, dev->iobase + APCI3120_WRITE_MODE_SELECT); /* (1) Init timer 2 in mode 0 and write timer value */ devpriv->b_TimerSelectMode = (devpriv-> b_TimerSelectMode & 0x0F) | APCI3120_TIMER_2_MODE_0; outb(devpriv->b_TimerSelectMode, dev->iobase + APCI3120_TIMER_CRT1); /* Writing LOW unsigned short */ b_Tmp = ((devpriv-> b_DigitalOutputRegister) & 0xF0) | APCI3120_SELECT_TIMER_2_LOW_WORD; outb(b_Tmp, dev->iobase + APCI3120_TIMER_CRT0); outw(LOWORD(ui_TimerValue2), dev->iobase + APCI3120_TIMER_VALUE); /* Writing HIGH unsigned short */ b_Tmp = ((devpriv-> b_DigitalOutputRegister) & 0xF0) | APCI3120_SELECT_TIMER_2_HIGH_WORD; outb(b_Tmp, dev->iobase + APCI3120_TIMER_CRT0); outw(HIWORD(ui_TimerValue2), dev->iobase + APCI3120_TIMER_VALUE); /* (2) Reset FC_TIMER BIT Clearing timer status register */ inb(dev->iobase + APCI3120_TIMER_STATUS_REGISTER); /* enable timer counter and disable watch dog */ devpriv->b_ModeSelectRegister = (devpriv-> b_ModeSelectRegister | APCI3120_ENABLE_TIMER_COUNTER) & APCI3120_DISABLE_WATCHDOG; /* select EOS clock input for timer 2 */ devpriv->b_ModeSelectRegister = devpriv-> b_ModeSelectRegister | APCI3120_TIMER2_SELECT_EOS; /* Enable timer2 interrupt */ devpriv->b_ModeSelectRegister = devpriv-> b_ModeSelectRegister | APCI3120_ENABLE_TIMER_INT; outb(devpriv->b_ModeSelectRegister, dev->iobase + APCI3120_WRITE_MODE_SELECT); devpriv->b_Timer2Mode = APCI3120_COUNTER; devpriv->b_Timer2Interrupt = APCI3120_ENABLE; } } else { /* If DMA Enabled */ /* BEGIN JK 07.05.04: Comparison between WIN32 and Linux driver */ /* inw(dev->iobase+0); reset EOC bit */ /* END JK 07.05.04: Comparison between WIN32 and Linux driver */ devpriv->b_InterruptMode = APCI3120_DMA_MODE; /************************************/ /* Disables the EOC, EOS interrupt */ /************************************/ devpriv->b_ModeSelectRegister = devpriv->b_ModeSelectRegister & APCI3120_DISABLE_EOC_INT & APCI3120_DISABLE_EOS_INT; outb(devpriv->b_ModeSelectRegister, dev->iobase + APCI3120_WRITE_MODE_SELECT); dmalen0 = devpriv->ui_DmaBufferSize[0]; dmalen1 = devpriv->ui_DmaBufferSize[1]; if (!devpriv->b_AiContinuous) { if (dmalen0 > (devpriv->ui_AiNbrofScans * devpriv->ui_AiScanLength * 2)) { /* must we fill full first buffer? */ dmalen0 = devpriv->ui_AiNbrofScans * devpriv->ui_AiScanLength * 2; } else if (dmalen1 > (devpriv->ui_AiNbrofScans * devpriv->ui_AiScanLength * 2 - dmalen0)) /* and must we fill full second buffer when first is once filled? */ dmalen1 = devpriv->ui_AiNbrofScans * devpriv->ui_AiScanLength * 2 - dmalen0; } if (devpriv->ui_AiFlags & TRIG_WAKE_EOS) { /* don't we want wake up every scan? */ if (dmalen0 > (devpriv->ui_AiScanLength * 2)) { dmalen0 = devpriv->ui_AiScanLength * 2; if (devpriv->ui_AiScanLength & 1) dmalen0 += 2; } if (dmalen1 > (devpriv->ui_AiScanLength * 2)) { dmalen1 = devpriv->ui_AiScanLength * 2; if (devpriv->ui_AiScanLength & 1) dmalen1 -= 2; if (dmalen1 < 4) dmalen1 = 4; } } else { /* isn't output buff smaller that our DMA buff? */ if (dmalen0 > (devpriv->ui_AiDataLength)) dmalen0 = devpriv->ui_AiDataLength; if (dmalen1 > (devpriv->ui_AiDataLength)) dmalen1 = devpriv->ui_AiDataLength; } devpriv->ui_DmaBufferUsesize[0] = dmalen0; devpriv->ui_DmaBufferUsesize[1] = dmalen1; /* Initialize DMA */ /* * Set Transfer count enable bit and A2P_fifo reset bit in AGCSTS * register 1 */ ui_Tmp = AGCSTS_TC_ENABLE | AGCSTS_RESET_A2P_FIFO; outl(ui_Tmp, devpriv->i_IobaseAmcc + AMCC_OP_REG_AGCSTS); /* changed since 16 bit interface for add on */ /*********************/ /* ENABLE BUS MASTER */ /*********************/ outw(APCI3120_ADD_ON_AGCSTS_LOW, devpriv->i_IobaseAddon + 0); outw(APCI3120_ENABLE_TRANSFER_ADD_ON_LOW, devpriv->i_IobaseAddon + 2); outw(APCI3120_ADD_ON_AGCSTS_HIGH, devpriv->i_IobaseAddon + 0); outw(APCI3120_ENABLE_TRANSFER_ADD_ON_HIGH, devpriv->i_IobaseAddon + 2); /* * TO VERIFIED BEGIN JK 07.05.04: Comparison between WIN32 and Linux * driver */ outw(0x1000, devpriv->i_IobaseAddon + 2); /* END JK 07.05.04: Comparison between WIN32 and Linux driver */ /* 2 No change */ /* A2P FIFO MANAGEMENT */ /* A2P fifo reset & transfer control enable */ /***********************/ /* A2P FIFO MANAGEMENT */ /***********************/ outl(APCI3120_A2P_FIFO_MANAGEMENT, devpriv->i_IobaseAmcc + APCI3120_AMCC_OP_MCSR); /* * 3 * beginning address of dma buf The 32 bit address of dma buffer * is converted into two 16 bit addresses Can done by using _attach * and put into into an array array used may be for differnet pages */ /* DMA Start Address Low */ outw(APCI3120_ADD_ON_MWAR_LOW, devpriv->i_IobaseAddon + 0); outw((devpriv->ul_DmaBufferHw[0] & 0xFFFF), devpriv->i_IobaseAddon + 2); /*************************/ /* DMA Start Address High */ /*************************/ outw(APCI3120_ADD_ON_MWAR_HIGH, devpriv->i_IobaseAddon + 0); outw((devpriv->ul_DmaBufferHw[0] / 65536), devpriv->i_IobaseAddon + 2); /* * 4 * amount of bytes to be transfered set transfer count used ADDON * MWTC register commented testing * outl(devpriv->ui_DmaBufferUsesize[0], * devpriv->i_IobaseAddon+AMCC_OP_REG_AMWTC); */ /**************************/ /* Nbr of acquisition LOW */ /**************************/ outw(APCI3120_ADD_ON_MWTC_LOW, devpriv->i_IobaseAddon + 0); outw((devpriv->ui_DmaBufferUsesize[0] & 0xFFFF), devpriv->i_IobaseAddon + 2); /***************************/ /* Nbr of acquisition HIGH */ /***************************/ outw(APCI3120_ADD_ON_MWTC_HIGH, devpriv->i_IobaseAddon + 0); outw((devpriv->ui_DmaBufferUsesize[0] / 65536), devpriv->i_IobaseAddon + 2); /* * 5 * To configure A2P FIFO testing outl( * FIFO_ADVANCE_ON_BYTE_2,devpriv->i_IobaseAmcc+AMCC_OP_REG_INTCSR); */ /******************/ /* A2P FIFO RESET */ /******************/ /* * TO VERIFY BEGIN JK 07.05.04: Comparison between WIN32 and Linux * driver */ outl(0x04000000UL, devpriv->i_IobaseAmcc + AMCC_OP_REG_MCSR); /* END JK 07.05.04: Comparison between WIN32 and Linux driver */ /* * 6 * ENABLE A2P FIFO WRITE AND ENABLE AMWEN AMWEN_ENABLE | * A2P_FIFO_WRITE_ENABLE (0x01|0x02)=0x03 */ /* BEGIN JK 07.05.04: Comparison between WIN32 and Linux driver */ /* outw(3,devpriv->i_IobaseAddon + 4); */ /* END JK 07.05.04: Comparison between WIN32 and Linux driver */ /* * 7 * initialise end of dma interrupt AINT_WRITE_COMPL = * ENABLE_WRITE_TC_INT(ADDI) */ /***************************************************/ /* A2P FIFO CONFIGURATE, END OF DMA intERRUPT INIT */ /***************************************************/ outl((APCI3120_FIFO_ADVANCE_ON_BYTE_2 | APCI3120_ENABLE_WRITE_TC_INT), devpriv->i_IobaseAmcc + AMCC_OP_REG_INTCSR); /* BEGIN JK 07.05.04: Comparison between WIN32 and Linux driver */ /******************************************/ /* ENABLE A2P FIFO WRITE AND ENABLE AMWEN */ /******************************************/ outw(3, devpriv->i_IobaseAddon + 4); /* END JK 07.05.04: Comparison between WIN32 and Linux driver */ /******************/ /* A2P FIFO RESET */ /******************/ /* BEGIN JK 07.05.04: Comparison between WIN32 and Linux driver */ outl(0x04000000UL, devpriv->i_IobaseAmcc + APCI3120_AMCC_OP_MCSR); /* END JK 07.05.04: Comparison between WIN32 and Linux driver */ } if ((devpriv->us_UseDma == APCI3120_DISABLE) && !devpriv->b_AiContinuous) { /* set gate 2 to start conversion */ devpriv->us_OutputRegister = devpriv->us_OutputRegister | APCI3120_ENABLE_TIMER2; outw(devpriv->us_OutputRegister, dev->iobase + APCI3120_WR_ADDRESS); } switch (mode) { case 1: /* set gate 0 to start conversion */ devpriv->us_OutputRegister = devpriv->us_OutputRegister | APCI3120_ENABLE_TIMER0; outw(devpriv->us_OutputRegister, dev->iobase + APCI3120_WR_ADDRESS); break; case 2: /* set gate 0 and gate 1 */ devpriv->us_OutputRegister = devpriv->us_OutputRegister | APCI3120_ENABLE_TIMER1; devpriv->us_OutputRegister = devpriv->us_OutputRegister | APCI3120_ENABLE_TIMER0; outw(devpriv->us_OutputRegister, dev->iobase + APCI3120_WR_ADDRESS); break; } return 0; } /* +----------------------------------------------------------------------------+ | intERNAL FUNCTIONS | +----------------------------------------------------------------------------+ */ /* +----------------------------------------------------------------------------+ | Function name : int i_APCI3120_Reset(struct comedi_device *dev) | | | | | +----------------------------------------------------------------------------+ | Task : Hardware reset function | | | +----------------------------------------------------------------------------+ | Input Parameters : struct comedi_device *dev | | | | | +----------------------------------------------------------------------------+ | Return Value : | | | +----------------------------------------------------------------------------+ */ int i_APCI3120_Reset(struct comedi_device *dev) { unsigned int i; unsigned short us_TmpValue; devpriv->b_AiCyclicAcquisition = APCI3120_DISABLE; devpriv->b_EocEosInterrupt = APCI3120_DISABLE; devpriv->b_InterruptMode = APCI3120_EOC_MODE; devpriv->ui_EocEosConversionTime = 0; /* set eoc eos conv time to 0 */ devpriv->b_OutputMemoryStatus = 0; /* variables used in timer subdevice */ devpriv->b_Timer2Mode = 0; devpriv->b_Timer2Interrupt = 0; devpriv->b_ExttrigEnable = 0; /* Disable ext trigger */ /* Disable all interrupts, watchdog for the anolog output */ devpriv->b_ModeSelectRegister = 0; outb(devpriv->b_ModeSelectRegister, dev->iobase + APCI3120_WRITE_MODE_SELECT); /* Disables all counters, ext trigger and clears PA, PR */ devpriv->us_OutputRegister = 0; outw(devpriv->us_OutputRegister, dev->iobase + APCI3120_WR_ADDRESS); /* * Code to set the all anolog o/p channel to 0v 8191 is decimal * value for zero(0 v)volt in bipolar mode(default) */ outw(8191 | APCI3120_ANALOG_OP_CHANNEL_1, dev->iobase + APCI3120_ANALOG_OUTPUT_1); /* channel 1 */ outw(8191 | APCI3120_ANALOG_OP_CHANNEL_2, dev->iobase + APCI3120_ANALOG_OUTPUT_1); /* channel 2 */ outw(8191 | APCI3120_ANALOG_OP_CHANNEL_3, dev->iobase + APCI3120_ANALOG_OUTPUT_1); /* channel 3 */ outw(8191 | APCI3120_ANALOG_OP_CHANNEL_4, dev->iobase + APCI3120_ANALOG_OUTPUT_1); /* channel 4 */ outw(8191 | APCI3120_ANALOG_OP_CHANNEL_5, dev->iobase + APCI3120_ANALOG_OUTPUT_2); /* channel 5 */ outw(8191 | APCI3120_ANALOG_OP_CHANNEL_6, dev->iobase + APCI3120_ANALOG_OUTPUT_2); /* channel 6 */ outw(8191 | APCI3120_ANALOG_OP_CHANNEL_7, dev->iobase + APCI3120_ANALOG_OUTPUT_2); /* channel 7 */ outw(8191 | APCI3120_ANALOG_OP_CHANNEL_8, dev->iobase + APCI3120_ANALOG_OUTPUT_2); /* channel 8 */ /* Reset digital output to L0W */ /* ES05 outb(0x0,dev->iobase+APCI3120_DIGITAL_OUTPUT); */ udelay(10); inw(dev->iobase + 0); /* make a dummy read */ inb(dev->iobase + APCI3120_RESET_FIFO); /* flush FIFO */ inw(dev->iobase + APCI3120_RD_STATUS); /* flush A/D status register */ /* code to reset the RAM sequence */ for (i = 0; i < 16; i++) { us_TmpValue = i << 8; /* select the location */ outw(us_TmpValue, dev->iobase + APCI3120_SEQ_RAM_ADDRESS); } return 0; } /* +----------------------------------------------------------------------------+ | Function name : int i_APCI3120_SetupChannelList(struct comedi_device * dev, | | struct comedi_subdevice * s, int n_chan,unsigned int *chanlist| | ,char check) | | | +----------------------------------------------------------------------------+ | Task :This function will first check channel list is ok or not| |and then initialize the sequence RAM with the polarity, Gain,Channel number | |If the last argument of function "check"is 1 then it only checks the channel| |list is ok or not. | | | +----------------------------------------------------------------------------+ | Input Parameters : struct comedi_device * dev | | struct comedi_subdevice * s | | int n_chan | unsigned int *chanlist char check +----------------------------------------------------------------------------+ | Return Value : | | | +----------------------------------------------------------------------------+ */ int i_APCI3120_SetupChannelList(struct comedi_device *dev, struct comedi_subdevice *s, int n_chan, unsigned int *chanlist, char check) { unsigned int i; /* , differencial=0, bipolar=0; */ unsigned int gain; unsigned short us_TmpValue; /* correct channel and range number check itself comedi/range.c */ if (n_chan < 1) { if (!check) comedi_error(dev, "range/channel list is empty!"); return 0; } /* All is ok, so we can setup channel/range list */ if (check) return 1; /* Code to set the PA and PR...Here it set PA to 0.. */ devpriv->us_OutputRegister = devpriv->us_OutputRegister & APCI3120_CLEAR_PA_PR; devpriv->us_OutputRegister = ((n_chan - 1) & 0xf) << 8; outw(devpriv->us_OutputRegister, dev->iobase + APCI3120_WR_ADDRESS); for (i = 0; i < n_chan; i++) { /* store range list to card */ us_TmpValue = CR_CHAN(chanlist[i]); /* get channel number; */ if (CR_RANGE(chanlist[i]) < APCI3120_BIPOLAR_RANGES) us_TmpValue &= ((~APCI3120_UNIPOLAR) & 0xff); /* set bipolar */ else us_TmpValue |= APCI3120_UNIPOLAR; /* enable unipolar...... */ gain = CR_RANGE(chanlist[i]); /* get gain number */ us_TmpValue |= ((gain & 0x03) << 4); /* <<4 for G0 and G1 bit in RAM */ us_TmpValue |= i << 8; /* To select the RAM LOCATION.... */ outw(us_TmpValue, dev->iobase + APCI3120_SEQ_RAM_ADDRESS); printk("\n Gain = %i", (((unsigned char)CR_RANGE(chanlist[i]) & 0x03) << 2)); printk("\n Channel = %i", CR_CHAN(chanlist[i])); printk("\n Polarity = %i", us_TmpValue & APCI3120_UNIPOLAR); } return 1; /* we can serve this with scan logic */ } /* +----------------------------------------------------------------------------+ | Function name : int i_APCI3120_ExttrigEnable(struct comedi_device * dev) | | | | | +----------------------------------------------------------------------------+ | Task : Enable the external trigger | | | +----------------------------------------------------------------------------+ | Input Parameters : struct comedi_device * dev | | | | | +----------------------------------------------------------------------------+ | Return Value : 0 | | | +----------------------------------------------------------------------------+ */ int i_APCI3120_ExttrigEnable(struct comedi_device *dev) { devpriv->us_OutputRegister |= APCI3120_ENABLE_EXT_TRIGGER; outw(devpriv->us_OutputRegister, dev->iobase + APCI3120_WR_ADDRESS); return 0; } /* +----------------------------------------------------------------------------+ | Function name : int i_APCI3120_ExttrigDisable(struct comedi_device * dev) | | | +----------------------------------------------------------------------------+ | Task : Disables the external trigger | | | +----------------------------------------------------------------------------+ | Input Parameters : struct comedi_device * dev | | | | | +----------------------------------------------------------------------------+ | Return Value : 0 | | | +----------------------------------------------------------------------------+ */ int i_APCI3120_ExttrigDisable(struct comedi_device *dev) { devpriv->us_OutputRegister &= ~APCI3120_ENABLE_EXT_TRIGGER; outw(devpriv->us_OutputRegister, dev->iobase + APCI3120_WR_ADDRESS); return 0; } /* +----------------------------------------------------------------------------+ | intERRUPT FUNCTIONS | +----------------------------------------------------------------------------+ */ /* +----------------------------------------------------------------------------+ | Function name : void v_APCI3120_Interrupt(int irq, void *d) | | | | | +----------------------------------------------------------------------------+ | Task :Interrupt handler for APCI3120 | | When interrupt occurs this gets called. | | First it finds which interrupt has been generated and | | handles corresponding interrupt | | | +----------------------------------------------------------------------------+ | Input Parameters : int irq | | void *d | | | +----------------------------------------------------------------------------+ | Return Value : void | | | +----------------------------------------------------------------------------+ */ void v_APCI3120_Interrupt(int irq, void *d) { struct comedi_device *dev = d; unsigned short int_daq; unsigned int int_amcc, ui_Check, i; unsigned short us_TmpValue; unsigned char b_DummyRead; struct comedi_subdevice *s = dev->subdevices + 0; ui_Check = 1; int_daq = inw(dev->iobase + APCI3120_RD_STATUS) & 0xf000; /* get IRQ reasons */ int_amcc = inl(devpriv->i_IobaseAmcc + AMCC_OP_REG_INTCSR); /* get AMCC int register */ if ((!int_daq) && (!(int_amcc & ANY_S593X_INT))) { comedi_error(dev, "IRQ from unknown source"); return; } outl(int_amcc | 0x00ff0000, devpriv->i_IobaseAmcc + AMCC_OP_REG_INTCSR); /* shutdown IRQ reasons in AMCC */ int_daq = (int_daq >> 12) & 0xF; if (devpriv->b_ExttrigEnable == APCI3120_ENABLE) { /* Disable ext trigger */ i_APCI3120_ExttrigDisable(dev); devpriv->b_ExttrigEnable = APCI3120_DISABLE; } /* clear the timer 2 interrupt */ inb(devpriv->i_IobaseAmcc + APCI3120_TIMER_STATUS_REGISTER); if (int_amcc & MASTER_ABORT_INT) comedi_error(dev, "AMCC IRQ - MASTER DMA ABORT!"); if (int_amcc & TARGET_ABORT_INT) comedi_error(dev, "AMCC IRQ - TARGET DMA ABORT!"); /* Ckeck if EOC interrupt */ if (((int_daq & 0x8) == 0) && (devpriv->b_InterruptMode == APCI3120_EOC_MODE)) { if (devpriv->b_EocEosInterrupt == APCI3120_ENABLE) { /* Read the AI Value */ devpriv->ui_AiReadData[0] = (unsigned int) inw(devpriv->iobase + 0); devpriv->b_EocEosInterrupt = APCI3120_DISABLE; send_sig(SIGIO, devpriv->tsk_Current, 0); /* send signal to the sample */ } else { /* Disable EOC Interrupt */ devpriv->b_ModeSelectRegister = devpriv-> b_ModeSelectRegister & APCI3120_DISABLE_EOC_INT; outb(devpriv->b_ModeSelectRegister, devpriv->iobase + APCI3120_WRITE_MODE_SELECT); } } /* Check If EOS interrupt */ if ((int_daq & 0x2) && (devpriv->b_InterruptMode == APCI3120_EOS_MODE)) { if (devpriv->b_EocEosInterrupt == APCI3120_ENABLE) { /* enable this in without DMA ??? */ if (devpriv->b_AiCyclicAcquisition == APCI3120_ENABLE) { ui_Check = 0; i_APCI3120_InterruptHandleEos(dev); devpriv->ui_AiActualScan++; devpriv->b_ModeSelectRegister = devpriv-> b_ModeSelectRegister | APCI3120_ENABLE_EOS_INT; outb(devpriv->b_ModeSelectRegister, dev->iobase + APCI3120_WRITE_MODE_SELECT); } else { ui_Check = 0; for (i = 0; i < devpriv->ui_AiNbrofChannels; i++) { us_TmpValue = inw(devpriv->iobase + 0); devpriv->ui_AiReadData[i] = (unsigned int) us_TmpValue; } devpriv->b_EocEosInterrupt = APCI3120_DISABLE; devpriv->b_InterruptMode = APCI3120_EOC_MODE; send_sig(SIGIO, devpriv->tsk_Current, 0); /* send signal to the sample */ } } else { devpriv->b_ModeSelectRegister = devpriv-> b_ModeSelectRegister & APCI3120_DISABLE_EOS_INT; outb(devpriv->b_ModeSelectRegister, dev->iobase + APCI3120_WRITE_MODE_SELECT); devpriv->b_EocEosInterrupt = APCI3120_DISABLE; /* Default settings */ devpriv->b_InterruptMode = APCI3120_EOC_MODE; } } /* Timer2 interrupt */ if (int_daq & 0x1) { switch (devpriv->b_Timer2Mode) { case APCI3120_COUNTER: devpriv->b_AiCyclicAcquisition = APCI3120_DISABLE; devpriv->b_ModeSelectRegister = devpriv-> b_ModeSelectRegister & APCI3120_DISABLE_EOS_INT; outb(devpriv->b_ModeSelectRegister, dev->iobase + APCI3120_WRITE_MODE_SELECT); /* stop timer 2 */ devpriv->us_OutputRegister = devpriv-> us_OutputRegister & APCI3120_DISABLE_ALL_TIMER; outw(devpriv->us_OutputRegister, dev->iobase + APCI3120_WR_ADDRESS); /* stop timer 0 and timer 1 */ i_APCI3120_StopCyclicAcquisition(dev, s); devpriv->b_AiCyclicAcquisition = APCI3120_DISABLE; /* UPDATE-0.7.57->0.7.68comedi_done(dev,s); */ s->async->events |= COMEDI_CB_EOA; comedi_event(dev, s); break; case APCI3120_TIMER: /* Send a signal to from kernel to user space */ send_sig(SIGIO, devpriv->tsk_Current, 0); break; case APCI3120_WATCHDOG: /* Send a signal to from kernel to user space */ send_sig(SIGIO, devpriv->tsk_Current, 0); break; default: /* disable Timer Interrupt */ devpriv->b_ModeSelectRegister = devpriv-> b_ModeSelectRegister & APCI3120_DISABLE_TIMER_INT; outb(devpriv->b_ModeSelectRegister, dev->iobase + APCI3120_WRITE_MODE_SELECT); } b_DummyRead = inb(dev->iobase + APCI3120_TIMER_STATUS_REGISTER); } if ((int_daq & 0x4) && (devpriv->b_InterruptMode == APCI3120_DMA_MODE)) { if (devpriv->b_AiCyclicAcquisition == APCI3120_ENABLE) { /****************************/ /* Clear Timer Write TC int */ /****************************/ outl(APCI3120_CLEAR_WRITE_TC_INT, devpriv->i_IobaseAmcc + APCI3120_AMCC_OP_REG_INTCSR); /************************************/ /* Clears the timer status register */ /************************************/ inw(dev->iobase + APCI3120_TIMER_STATUS_REGISTER); v_APCI3120_InterruptDma(irq, d); /* do some data transfer */ } else { /* Stops the Timer */ outw(devpriv-> us_OutputRegister & APCI3120_DISABLE_TIMER0 & APCI3120_DISABLE_TIMER1, dev->iobase + APCI3120_WR_ADDRESS); } } return; } /* +----------------------------------------------------------------------------+ | Function name :int i_APCI3120_InterruptHandleEos(struct comedi_device *dev) | | | | | +----------------------------------------------------------------------------+ | Task : This function handles EOS interrupt. | | This function copies the acquired data(from FIFO) | | to Comedi buffer. | | | +----------------------------------------------------------------------------+ | Input Parameters : struct comedi_device *dev | | | | | +----------------------------------------------------------------------------+ | Return Value : 0 | | | +----------------------------------------------------------------------------+ */ int i_APCI3120_InterruptHandleEos(struct comedi_device *dev) { int n_chan, i; struct comedi_subdevice *s = dev->subdevices + 0; int err = 1; n_chan = devpriv->ui_AiNbrofChannels; s->async->events = 0; for (i = 0; i < n_chan; i++) err &= comedi_buf_put(s->async, inw(dev->iobase + 0)); s->async->events |= COMEDI_CB_EOS; if (err == 0) s->async->events |= COMEDI_CB_OVERFLOW; comedi_event(dev, s); return 0; } /* +----------------------------------------------------------------------------+ | Function name : void v_APCI3120_InterruptDma(int irq, void *d) | | | +----------------------------------------------------------------------------+ | Task : This is a handler for the DMA interrupt | | This function copies the data to Comedi Buffer. | | For continuous DMA it reinitializes the DMA operation. | | For single mode DMA it stop the acquisition. | | | +----------------------------------------------------------------------------+ | Input Parameters : int irq, void *d | | | +----------------------------------------------------------------------------+ | Return Value : void | | | +----------------------------------------------------------------------------+ */ void v_APCI3120_InterruptDma(int irq, void *d) { struct comedi_device *dev = d; struct comedi_subdevice *s = dev->subdevices + 0; unsigned int next_dma_buf, samplesinbuf; unsigned long low_word, high_word, var; unsigned int ui_Tmp; samplesinbuf = devpriv->ui_DmaBufferUsesize[devpriv->ui_DmaActualBuffer] - inl(devpriv->i_IobaseAmcc + AMCC_OP_REG_MWTC); if (samplesinbuf < devpriv->ui_DmaBufferUsesize[devpriv->ui_DmaActualBuffer]) { comedi_error(dev, "Interrupted DMA transfer!"); } if (samplesinbuf & 1) { comedi_error(dev, "Odd count of bytes in DMA ring!"); i_APCI3120_StopCyclicAcquisition(dev, s); devpriv->b_AiCyclicAcquisition = APCI3120_DISABLE; return; } samplesinbuf = samplesinbuf >> 1; /* number of received samples */ if (devpriv->b_DmaDoubleBuffer) { /* switch DMA buffers if is used double buffering */ next_dma_buf = 1 - devpriv->ui_DmaActualBuffer; ui_Tmp = AGCSTS_TC_ENABLE | AGCSTS_RESET_A2P_FIFO; outl(ui_Tmp, devpriv->i_IobaseAddon + AMCC_OP_REG_AGCSTS); /* changed since 16 bit interface for add on */ outw(APCI3120_ADD_ON_AGCSTS_LOW, devpriv->i_IobaseAddon + 0); outw(APCI3120_ENABLE_TRANSFER_ADD_ON_LOW, devpriv->i_IobaseAddon + 2); outw(APCI3120_ADD_ON_AGCSTS_HIGH, devpriv->i_IobaseAddon + 0); outw(APCI3120_ENABLE_TRANSFER_ADD_ON_HIGH, devpriv->i_IobaseAddon + 2); /* 0x1000 is out putted in windows driver */ var = devpriv->ul_DmaBufferHw[next_dma_buf]; low_word = var & 0xffff; var = devpriv->ul_DmaBufferHw[next_dma_buf]; high_word = var / 65536; /* DMA Start Address Low */ outw(APCI3120_ADD_ON_MWAR_LOW, devpriv->i_IobaseAddon + 0); outw(low_word, devpriv->i_IobaseAddon + 2); /* DMA Start Address High */ outw(APCI3120_ADD_ON_MWAR_HIGH, devpriv->i_IobaseAddon + 0); outw(high_word, devpriv->i_IobaseAddon + 2); var = devpriv->ui_DmaBufferUsesize[next_dma_buf]; low_word = var & 0xffff; var = devpriv->ui_DmaBufferUsesize[next_dma_buf]; high_word = var / 65536; /* Nbr of acquisition LOW */ outw(APCI3120_ADD_ON_MWTC_LOW, devpriv->i_IobaseAddon + 0); outw(low_word, devpriv->i_IobaseAddon + 2); /* Nbr of acquisition HIGH */ outw(APCI3120_ADD_ON_MWTC_HIGH, devpriv->i_IobaseAddon + 0); outw(high_word, devpriv->i_IobaseAddon + 2); /* * To configure A2P FIFO * ENABLE A2P FIFO WRITE AND ENABLE AMWEN * AMWEN_ENABLE | A2P_FIFO_WRITE_ENABLE (0x01|0x02)=0x03 */ outw(3, devpriv->i_IobaseAddon + 4); /* initialise end of dma interrupt AINT_WRITE_COMPL = ENABLE_WRITE_TC_INT(ADDI) */ outl((APCI3120_FIFO_ADVANCE_ON_BYTE_2 | APCI3120_ENABLE_WRITE_TC_INT), devpriv->i_IobaseAmcc + AMCC_OP_REG_INTCSR); } if (samplesinbuf) { v_APCI3120_InterruptDmaMoveBlock16bit(dev, s, devpriv->ul_DmaBufferVirtual[devpriv-> ui_DmaActualBuffer], samplesinbuf); if (!(devpriv->ui_AiFlags & TRIG_WAKE_EOS)) { s->async->events |= COMEDI_CB_EOS; comedi_event(dev, s); } } if (!devpriv->b_AiContinuous) if (devpriv->ui_AiActualScan >= devpriv->ui_AiNbrofScans) { /* all data sampled */ i_APCI3120_StopCyclicAcquisition(dev, s); devpriv->b_AiCyclicAcquisition = APCI3120_DISABLE; s->async->events |= COMEDI_CB_EOA; comedi_event(dev, s); return; } if (devpriv->b_DmaDoubleBuffer) { /* switch dma buffers */ devpriv->ui_DmaActualBuffer = 1 - devpriv->ui_DmaActualBuffer; } else { /* * restart DMA if is not used double buffering * ADDED REINITIALISE THE DMA */ ui_Tmp = AGCSTS_TC_ENABLE | AGCSTS_RESET_A2P_FIFO; outl(ui_Tmp, devpriv->i_IobaseAddon + AMCC_OP_REG_AGCSTS); /* changed since 16 bit interface for add on */ outw(APCI3120_ADD_ON_AGCSTS_LOW, devpriv->i_IobaseAddon + 0); outw(APCI3120_ENABLE_TRANSFER_ADD_ON_LOW, devpriv->i_IobaseAddon + 2); outw(APCI3120_ADD_ON_AGCSTS_HIGH, devpriv->i_IobaseAddon + 0); outw(APCI3120_ENABLE_TRANSFER_ADD_ON_HIGH, devpriv->i_IobaseAddon + 2); /* */ /* * A2P FIFO MANAGEMENT * A2P fifo reset & transfer control enable */ outl(APCI3120_A2P_FIFO_MANAGEMENT, devpriv->i_IobaseAmcc + AMCC_OP_REG_MCSR); var = devpriv->ul_DmaBufferHw[0]; low_word = var & 0xffff; var = devpriv->ul_DmaBufferHw[0]; high_word = var / 65536; outw(APCI3120_ADD_ON_MWAR_LOW, devpriv->i_IobaseAddon + 0); outw(low_word, devpriv->i_IobaseAddon + 2); outw(APCI3120_ADD_ON_MWAR_HIGH, devpriv->i_IobaseAddon + 0); outw(high_word, devpriv->i_IobaseAddon + 2); var = devpriv->ui_DmaBufferUsesize[0]; low_word = var & 0xffff; /* changed */ var = devpriv->ui_DmaBufferUsesize[0]; high_word = var / 65536; outw(APCI3120_ADD_ON_MWTC_LOW, devpriv->i_IobaseAddon + 0); outw(low_word, devpriv->i_IobaseAddon + 2); outw(APCI3120_ADD_ON_MWTC_HIGH, devpriv->i_IobaseAddon + 0); outw(high_word, devpriv->i_IobaseAddon + 2); /* * To configure A2P FIFO * ENABLE A2P FIFO WRITE AND ENABLE AMWEN * AMWEN_ENABLE | A2P_FIFO_WRITE_ENABLE (0x01|0x02)=0x03 */ outw(3, devpriv->i_IobaseAddon + 4); /* initialise end of dma interrupt AINT_WRITE_COMPL = ENABLE_WRITE_TC_INT(ADDI) */ outl((APCI3120_FIFO_ADVANCE_ON_BYTE_2 | APCI3120_ENABLE_WRITE_TC_INT), devpriv->i_IobaseAmcc + AMCC_OP_REG_INTCSR); } } /* +----------------------------------------------------------------------------+ | Function name :void v_APCI3120_InterruptDmaMoveBlock16bit(comedi_device| |*dev,struct comedi_subdevice *s,short *dma,short *data,int n) | | | +----------------------------------------------------------------------------+ | Task : This function copies the data from DMA buffer to the | | Comedi buffer | | | +----------------------------------------------------------------------------+ | Input Parameters : struct comedi_device *dev | | struct comedi_subdevice *s | | short *dma | | short *data,int n | +----------------------------------------------------------------------------+ | Return Value : void | | | +----------------------------------------------------------------------------+ */ void v_APCI3120_InterruptDmaMoveBlock16bit(struct comedi_device *dev, struct comedi_subdevice *s, short *dma_buffer, unsigned int num_samples) { devpriv->ui_AiActualScan += (s->async->cur_chan + num_samples) / devpriv->ui_AiScanLength; s->async->cur_chan += num_samples; s->async->cur_chan %= devpriv->ui_AiScanLength; cfc_write_array_to_buffer(s, dma_buffer, num_samples * sizeof(short)); } /* +----------------------------------------------------------------------------+ | TIMER SUBDEVICE | +----------------------------------------------------------------------------+ */ /* +----------------------------------------------------------------------------+ | Function name :int i_APCI3120_InsnConfigTimer(struct comedi_device *dev, | | struct comedi_subdevice *s,struct comedi_insn *insn,unsigned int *data) | | | +----------------------------------------------------------------------------+ | Task :Configure Timer 2 | | | +----------------------------------------------------------------------------+ | Input Parameters : struct comedi_device *dev | | struct comedi_subdevice *s | | struct comedi_insn *insn | | unsigned int *data | | | | data[0]= TIMER configure as timer | | = WATCHDOG configure as watchdog | | data[1] = Timer constant | | data[2] = Timer2 interrupt (1)enable or(0) disable | | | +----------------------------------------------------------------------------+ | Return Value : | | | +----------------------------------------------------------------------------+ */ int i_APCI3120_InsnConfigTimer(struct comedi_device *dev, struct comedi_subdevice *s, struct comedi_insn *insn, unsigned int *data) { unsigned int ui_Timervalue2; unsigned short us_TmpValue; unsigned char b_Tmp; if (!data[1]) comedi_error(dev, "config:No timer constant !"); devpriv->b_Timer2Interrupt = (unsigned char) data[2]; /* save info whether to enable or disable interrupt */ ui_Timervalue2 = data[1] / 1000; /* convert nano seconds to u seconds */ /* this_board->i_hwdrv_InsnConfigTimer(dev, ui_Timervalue2,(unsigned char)data[0]); */ us_TmpValue = (unsigned short) inw(devpriv->iobase + APCI3120_RD_STATUS); /* * EL250804: Testing if board APCI3120 have the new Quartz or if it * is an APCI3001 and calculate the time value to set in the timer */ if ((us_TmpValue & 0x00B0) == 0x00B0 || !strcmp(this_board->pc_DriverName, "apci3001")) { /* Calculate the time value to set in the timer */ ui_Timervalue2 = ui_Timervalue2 / 50; } else { /* Calculate the time value to set in the timer */ ui_Timervalue2 = ui_Timervalue2 / 70; } /* Reset gate 2 of Timer 2 to disable it (Set Bit D14 to 0) */ devpriv->us_OutputRegister = devpriv->us_OutputRegister & APCI3120_DISABLE_TIMER2; outw(devpriv->us_OutputRegister, devpriv->iobase + APCI3120_WR_ADDRESS); /* Disable TIMER Interrupt */ devpriv->b_ModeSelectRegister = devpriv-> b_ModeSelectRegister & APCI3120_DISABLE_TIMER_INT & 0xEF; /* Disable Eoc and Eos Interrupts */ devpriv->b_ModeSelectRegister = devpriv-> b_ModeSelectRegister & APCI3120_DISABLE_EOC_INT & APCI3120_DISABLE_EOS_INT; outb(devpriv->b_ModeSelectRegister, devpriv->iobase + APCI3120_WRITE_MODE_SELECT); if (data[0] == APCI3120_TIMER) { /* initialize timer */ /* devpriv->b_ModeSelectRegister=devpriv->b_ModeSelectRegister | * APCI3120_ENABLE_TIMER_INT; */ /* outb(devpriv->b_ModeSelectRegister,devpriv->iobase+APCI3120_WRITE_MODE_SELECT); */ /* Set the Timer 2 in mode 2(Timer) */ devpriv->b_TimerSelectMode = (devpriv-> b_TimerSelectMode & 0x0F) | APCI3120_TIMER_2_MODE_2; outb(devpriv->b_TimerSelectMode, devpriv->iobase + APCI3120_TIMER_CRT1); /* * Configure the timer 2 for writing the LOW unsigned short of timer * is Delay value You must make a b_tmp variable with * DigitalOutPutRegister because at Address_1+APCI3120_TIMER_CRT0 * you can set the digital output and configure the timer 2,and if * you don't make this, digital output are erase (Set to 0) */ /* Writing LOW unsigned short */ b_Tmp = ((devpriv-> b_DigitalOutputRegister) & 0xF0) | APCI3120_SELECT_TIMER_2_LOW_WORD; outb(b_Tmp, devpriv->iobase + APCI3120_TIMER_CRT0); outw(LOWORD(ui_Timervalue2), devpriv->iobase + APCI3120_TIMER_VALUE); /* Writing HIGH unsigned short */ b_Tmp = ((devpriv-> b_DigitalOutputRegister) & 0xF0) | APCI3120_SELECT_TIMER_2_HIGH_WORD; outb(b_Tmp, devpriv->iobase + APCI3120_TIMER_CRT0); outw(HIWORD(ui_Timervalue2), devpriv->iobase + APCI3120_TIMER_VALUE); /* timer2 in Timer mode enabled */ devpriv->b_Timer2Mode = APCI3120_TIMER; } else { /* Initialize Watch dog */ /* Set the Timer 2 in mode 5(Watchdog) */ devpriv->b_TimerSelectMode = (devpriv-> b_TimerSelectMode & 0x0F) | APCI3120_TIMER_2_MODE_5; outb(devpriv->b_TimerSelectMode, devpriv->iobase + APCI3120_TIMER_CRT1); /* * Configure the timer 2 for writing the LOW unsigned short of timer * is Delay value You must make a b_tmp variable with * DigitalOutPutRegister because at Address_1+APCI3120_TIMER_CRT0 * you can set the digital output and configure the timer 2,and if * you don't make this, digital output are erase (Set to 0) */ /* Writing LOW unsigned short */ b_Tmp = ((devpriv-> b_DigitalOutputRegister) & 0xF0) | APCI3120_SELECT_TIMER_2_LOW_WORD; outb(b_Tmp, devpriv->iobase + APCI3120_TIMER_CRT0); outw(LOWORD(ui_Timervalue2), devpriv->iobase + APCI3120_TIMER_VALUE); /* Writing HIGH unsigned short */ b_Tmp = ((devpriv-> b_DigitalOutputRegister) & 0xF0) | APCI3120_SELECT_TIMER_2_HIGH_WORD; outb(b_Tmp, devpriv->iobase + APCI3120_TIMER_CRT0); outw(HIWORD(ui_Timervalue2), devpriv->iobase + APCI3120_TIMER_VALUE); /* watchdog enabled */ devpriv->b_Timer2Mode = APCI3120_WATCHDOG; } return insn->n; } /* +----------------------------------------------------------------------------+ | Function name :int i_APCI3120_InsnWriteTimer(struct comedi_device *dev, | | struct comedi_subdevice *s, struct comedi_insn *insn,unsigned int *data) | | | +----------------------------------------------------------------------------+ | Task : To start and stop the timer | +----------------------------------------------------------------------------+ | Input Parameters : struct comedi_device *dev | | struct comedi_subdevice *s | | struct comedi_insn *insn | | unsigned int *data | | | | data[0] = 1 (start) | | data[0] = 0 (stop ) | | data[0] = 2 (write new value) | | data[1]= new value | | | | devpriv->b_Timer2Mode = 0 DISABLE | | 1 Timer | | 2 Watch dog | | | +----------------------------------------------------------------------------+ | Return Value : | | | +----------------------------------------------------------------------------+ */ int i_APCI3120_InsnWriteTimer(struct comedi_device *dev, struct comedi_subdevice *s, struct comedi_insn *insn, unsigned int *data) { unsigned int ui_Timervalue2 = 0; unsigned short us_TmpValue; unsigned char b_Tmp; if ((devpriv->b_Timer2Mode != APCI3120_WATCHDOG) && (devpriv->b_Timer2Mode != APCI3120_TIMER)) { comedi_error(dev, "\nwrite:timer2 not configured "); return -EINVAL; } if (data[0] == 2) { /* write new value */ if (devpriv->b_Timer2Mode != APCI3120_TIMER) { comedi_error(dev, "write :timer2 not configured in TIMER MODE"); return -EINVAL; } if (data[1]) ui_Timervalue2 = data[1]; else ui_Timervalue2 = 0; } /* this_board->i_hwdrv_InsnWriteTimer(dev,data[0],ui_Timervalue2); */ switch (data[0]) { case APCI3120_START: /* Reset FC_TIMER BIT */ inb(devpriv->iobase + APCI3120_TIMER_STATUS_REGISTER); if (devpriv->b_Timer2Mode == APCI3120_TIMER) { /* start timer */ /* Enable Timer */ devpriv->b_ModeSelectRegister = devpriv->b_ModeSelectRegister & 0x0B; } else { /* start watch dog */ /* Enable WatchDog */ devpriv->b_ModeSelectRegister = (devpriv-> b_ModeSelectRegister & 0x0B) | APCI3120_ENABLE_WATCHDOG; } /* enable disable interrupt */ if ((devpriv->b_Timer2Interrupt) == APCI3120_ENABLE) { devpriv->b_ModeSelectRegister = devpriv-> b_ModeSelectRegister | APCI3120_ENABLE_TIMER_INT; /* save the task structure to pass info to user */ devpriv->tsk_Current = current; } else { devpriv->b_ModeSelectRegister = devpriv-> b_ModeSelectRegister & APCI3120_DISABLE_TIMER_INT; } outb(devpriv->b_ModeSelectRegister, devpriv->iobase + APCI3120_WRITE_MODE_SELECT); if (devpriv->b_Timer2Mode == APCI3120_TIMER) { /* start timer */ /* For Timer mode is Gate2 must be activated **timer started */ devpriv->us_OutputRegister = devpriv-> us_OutputRegister | APCI3120_ENABLE_TIMER2; outw(devpriv->us_OutputRegister, devpriv->iobase + APCI3120_WR_ADDRESS); } break; case APCI3120_STOP: if (devpriv->b_Timer2Mode == APCI3120_TIMER) { /* Disable timer */ devpriv->b_ModeSelectRegister = devpriv-> b_ModeSelectRegister & APCI3120_DISABLE_TIMER_COUNTER; } else { /* Disable WatchDog */ devpriv->b_ModeSelectRegister = devpriv-> b_ModeSelectRegister & APCI3120_DISABLE_WATCHDOG; } /* Disable timer interrupt */ devpriv->b_ModeSelectRegister = devpriv-> b_ModeSelectRegister & APCI3120_DISABLE_TIMER_INT; /* Write above states to register */ outb(devpriv->b_ModeSelectRegister, devpriv->iobase + APCI3120_WRITE_MODE_SELECT); /* Reset Gate 2 */ devpriv->us_OutputRegister = devpriv->us_OutputRegister & APCI3120_DISABLE_TIMER_INT; outw(devpriv->us_OutputRegister, devpriv->iobase + APCI3120_WR_ADDRESS); /* Reset FC_TIMER BIT */ inb(devpriv->iobase + APCI3120_TIMER_STATUS_REGISTER); /* Disable timer */ /* devpriv->b_Timer2Mode=APCI3120_DISABLE; */ break; case 2: /* write new value to Timer */ if (devpriv->b_Timer2Mode != APCI3120_TIMER) { comedi_error(dev, "write :timer2 not configured in TIMER MODE"); return -EINVAL; } /* ui_Timervalue2=data[1]; // passed as argument */ us_TmpValue = (unsigned short) inw(devpriv->iobase + APCI3120_RD_STATUS); /* * EL250804: Testing if board APCI3120 have the new Quartz or if it * is an APCI3001 and calculate the time value to set in the timer */ if ((us_TmpValue & 0x00B0) == 0x00B0 || !strcmp(this_board->pc_DriverName, "apci3001")) { /* Calculate the time value to set in the timer */ ui_Timervalue2 = ui_Timervalue2 / 50; } else { /* Calculate the time value to set in the timer */ ui_Timervalue2 = ui_Timervalue2 / 70; } /* Writing LOW unsigned short */ b_Tmp = ((devpriv-> b_DigitalOutputRegister) & 0xF0) | APCI3120_SELECT_TIMER_2_LOW_WORD; outb(b_Tmp, devpriv->iobase + APCI3120_TIMER_CRT0); outw(LOWORD(ui_Timervalue2), devpriv->iobase + APCI3120_TIMER_VALUE); /* Writing HIGH unsigned short */ b_Tmp = ((devpriv-> b_DigitalOutputRegister) & 0xF0) | APCI3120_SELECT_TIMER_2_HIGH_WORD; outb(b_Tmp, devpriv->iobase + APCI3120_TIMER_CRT0); outw(HIWORD(ui_Timervalue2), devpriv->iobase + APCI3120_TIMER_VALUE); break; default: return -EINVAL; /* Not a valid input */ } return insn->n; } /* +----------------------------------------------------------------------------+ | Function name : int i_APCI3120_InsnReadTimer(struct comedi_device *dev, | | struct comedi_subdevice *s,struct comedi_insn *insn, unsigned int *data) | | | | | +----------------------------------------------------------------------------+ | Task : read the Timer value | +----------------------------------------------------------------------------+ | Input Parameters : struct comedi_device *dev | | struct comedi_subdevice *s | | struct comedi_insn *insn | | unsigned int *data | | | +----------------------------------------------------------------------------+ | Return Value : | | for Timer: data[0]= Timer constant | | | | for watchdog: data[0]=0 (still running) | | data[0]=1 (run down) | | | +----------------------------------------------------------------------------+ */ int i_APCI3120_InsnReadTimer(struct comedi_device *dev, struct comedi_subdevice *s, struct comedi_insn *insn, unsigned int *data) { unsigned char b_Tmp; unsigned short us_TmpValue, us_TmpValue_2, us_StatusValue; if ((devpriv->b_Timer2Mode != APCI3120_WATCHDOG) && (devpriv->b_Timer2Mode != APCI3120_TIMER)) { comedi_error(dev, "\nread:timer2 not configured "); } /* this_board->i_hwdrv_InsnReadTimer(dev,data); */ if (devpriv->b_Timer2Mode == APCI3120_TIMER) { /* Read the LOW unsigned short of Timer 2 register */ b_Tmp = ((devpriv-> b_DigitalOutputRegister) & 0xF0) | APCI3120_SELECT_TIMER_2_LOW_WORD; outb(b_Tmp, devpriv->iobase + APCI3120_TIMER_CRT0); us_TmpValue = inw(devpriv->iobase + APCI3120_TIMER_VALUE); /* Read the HIGH unsigned short of Timer 2 register */ b_Tmp = ((devpriv-> b_DigitalOutputRegister) & 0xF0) | APCI3120_SELECT_TIMER_2_HIGH_WORD; outb(b_Tmp, devpriv->iobase + APCI3120_TIMER_CRT0); us_TmpValue_2 = inw(devpriv->iobase + APCI3120_TIMER_VALUE); /* combining both words */ data[0] = (unsigned int) ((us_TmpValue) | ((us_TmpValue_2) << 16)); } else { /* Read watch dog status */ us_StatusValue = inw(devpriv->iobase + APCI3120_RD_STATUS); us_StatusValue = ((us_StatusValue & APCI3120_FC_TIMER) >> 12) & 1; if (us_StatusValue == 1) { /* RESET FC_TIMER BIT */ inb(devpriv->iobase + APCI3120_TIMER_STATUS_REGISTER); } data[0] = us_StatusValue; /* when data[0] = 1 then the watch dog has rundown */ } return insn->n; } /* +----------------------------------------------------------------------------+ | DIGITAL INPUT SUBDEVICE | +----------------------------------------------------------------------------+ */ /* +----------------------------------------------------------------------------+ | Function name :int i_APCI3120_InsnReadDigitalInput(struct comedi_device *dev, | | struct comedi_subdevice *s, struct comedi_insn *insn,unsigned int *data) | | | | | +----------------------------------------------------------------------------+ | Task : Reads the value of the specified Digital input channel| | | +----------------------------------------------------------------------------+ | Input Parameters : struct comedi_device *dev | | struct comedi_subdevice *s | | struct comedi_insn *insn | | unsigned int *data | +----------------------------------------------------------------------------+ | Return Value : | | | +----------------------------------------------------------------------------+ */ int i_APCI3120_InsnReadDigitalInput(struct comedi_device *dev, struct comedi_subdevice *s, struct comedi_insn *insn, unsigned int *data) { unsigned int ui_Chan, ui_TmpValue; ui_Chan = CR_CHAN(insn->chanspec); /* channel specified */ /* this_board->i_hwdrv_InsnReadDigitalInput(dev,ui_Chan,data); */ if (ui_Chan <= 3) { ui_TmpValue = (unsigned int) inw(devpriv->iobase + APCI3120_RD_STATUS); /* * since only 1 channel reqd to bring it to last bit it is rotated 8 * +(chan - 1) times then ANDed with 1 for last bit. */ *data = (ui_TmpValue >> (ui_Chan + 8)) & 1; /* return 0; */ } else { /* comedi_error(dev," chan spec wrong"); */ return -EINVAL; /* "sorry channel spec wrong " */ } return insn->n; } /* +----------------------------------------------------------------------------+ | Function name :int i_APCI3120_InsnBitsDigitalInput(struct comedi_device *dev, | |struct comedi_subdevice *s, struct comedi_insn *insn,unsigned int *data) | | | +----------------------------------------------------------------------------+ | Task : Reads the value of the Digital input Port i.e.4channels| | value is returned in data[0] | | | +----------------------------------------------------------------------------+ | Input Parameters : struct comedi_device *dev | | struct comedi_subdevice *s | | struct comedi_insn *insn | | unsigned int *data | +----------------------------------------------------------------------------+ | Return Value : | | | +----------------------------------------------------------------------------+ */ int i_APCI3120_InsnBitsDigitalInput(struct comedi_device *dev, struct comedi_subdevice *s, struct comedi_insn *insn, unsigned int *data) { unsigned int ui_TmpValue; ui_TmpValue = (unsigned int) inw(devpriv->iobase + APCI3120_RD_STATUS); /***** state of 4 channels in the 11, 10, 9, 8 bits of status reg rotated right 8 times to bring them to last four bits ANDed with oxf for value. *****/ *data = (ui_TmpValue >> 8) & 0xf; /* this_board->i_hwdrv_InsnBitsDigitalInput(dev,data); */ return insn->n; } /* +----------------------------------------------------------------------------+ | DIGITAL OUTPUT SUBDEVICE | +----------------------------------------------------------------------------+ */ /* +----------------------------------------------------------------------------+ | Function name :int i_APCI3120_InsnConfigDigitalOutput(struct comedi_device | | *dev,struct comedi_subdevice *s,struct comedi_insn *insn,unsigned int *data) | | | +----------------------------------------------------------------------------+ | Task :Configure the output memory ON or OFF | | | +----------------------------------------------------------------------------+ | Input Parameters :struct comedi_device *dev | | struct comedi_subdevice *s | | struct comedi_insn *insn | | unsigned int *data | +----------------------------------------------------------------------------+ | Return Value : | | | +----------------------------------------------------------------------------+ */ int i_APCI3120_InsnConfigDigitalOutput(struct comedi_device *dev, struct comedi_subdevice *s, struct comedi_insn *insn, unsigned int *data) { if ((data[0] != 0) && (data[0] != 1)) { comedi_error(dev, "Not a valid Data !!! ,Data should be 1 or 0\n"); return -EINVAL; } if (data[0]) { devpriv->b_OutputMemoryStatus = APCI3120_ENABLE; } else { devpriv->b_OutputMemoryStatus = APCI3120_DISABLE; devpriv->b_DigitalOutputRegister = 0; } if (!devpriv->b_OutputMemoryStatus) ui_Temp = 0; /* if(!devpriv->b_OutputMemoryStatus ) */ return insn->n; } /* +----------------------------------------------------------------------------+ | Function name :int i_APCI3120_InsnBitsDigitalOutput(struct comedi_device *dev, | | struct comedi_subdevice *s, struct comedi_insn *insn,unsigned int *data) | | | +----------------------------------------------------------------------------+ | Task : write diatal output port | | | +----------------------------------------------------------------------------+ | Input Parameters : struct comedi_device *dev | | struct comedi_subdevice *s | | struct comedi_insn *insn | | unsigned int *data | | data[0] Value to be written | data[1] :1 Set digital o/p ON | data[1] 2 Set digital o/p OFF with memory ON +----------------------------------------------------------------------------+ | Return Value : | | | +----------------------------------------------------------------------------+ */ int i_APCI3120_InsnBitsDigitalOutput(struct comedi_device *dev, struct comedi_subdevice *s, struct comedi_insn *insn, unsigned int *data) { if ((data[0] > this_board->i_DoMaxdata) || (data[0] < 0)) { comedi_error(dev, "Data is not valid !!! \n"); return -EINVAL; } switch (data[1]) { case 1: data[0] = (data[0] << 4) | devpriv->b_DigitalOutputRegister; break; case 2: data[0] = data[0]; break; default: printk("\nThe parameter passed is in error \n"); return -EINVAL; } /* switch(data[1]) */ outb(data[0], devpriv->iobase + APCI3120_DIGITAL_OUTPUT); devpriv->b_DigitalOutputRegister = data[0] & 0xF0; return insn->n; } /* +----------------------------------------------------------------------------+ | Function name :int i_APCI3120_InsnWriteDigitalOutput(struct comedi_device *dev,| |struct comedi_subdevice *s,struct comedi_insn *insn,unsigned int *data) | | | +----------------------------------------------------------------------------+ | Task : Write digiatl output | | | +----------------------------------------------------------------------------+ | Input Parameters : struct comedi_device *dev | | struct comedi_subdevice *s | | struct comedi_insn *insn | | unsigned int *data | data[0] Value to be written data[1] :1 Set digital o/p ON data[1] 2 Set digital o/p OFF with memory ON +----------------------------------------------------------------------------+ | Return Value : | | | +----------------------------------------------------------------------------+ */ int i_APCI3120_InsnWriteDigitalOutput(struct comedi_device *dev, struct comedi_subdevice *s, struct comedi_insn *insn, unsigned int *data) { unsigned int ui_Temp1; unsigned int ui_NoOfChannel = CR_CHAN(insn->chanspec); /* get the channel */ if ((data[0] != 0) && (data[0] != 1)) { comedi_error(dev, "Not a valid Data !!! ,Data should be 1 or 0\n"); return -EINVAL; } if (ui_NoOfChannel > this_board->i_NbrDoChannel - 1) { comedi_error(dev, "This board doesn't have specified channel !!! \n"); return -EINVAL; } switch (data[1]) { case 1: data[0] = (data[0] << ui_NoOfChannel); /* ES05 data[0]=(data[0]<<4)|ui_Temp; */ data[0] = (data[0] << 4) | devpriv->b_DigitalOutputRegister; break; case 2: data[0] = ~data[0] & 0x1; ui_Temp1 = 1; ui_Temp1 = ui_Temp1 << ui_NoOfChannel; ui_Temp1 = ui_Temp1 << 4; /* ES05 ui_Temp=ui_Temp|ui_Temp1; */ devpriv->b_DigitalOutputRegister = devpriv->b_DigitalOutputRegister | ui_Temp1; data[0] = (data[0] << ui_NoOfChannel) ^ 0xf; data[0] = data[0] << 4; /* ES05 data[0]=data[0]& ui_Temp; */ data[0] = data[0] & devpriv->b_DigitalOutputRegister; break; default: printk("\nThe parameter passed is in error \n"); return -EINVAL; } /* switch(data[1]) */ outb(data[0], devpriv->iobase + APCI3120_DIGITAL_OUTPUT); /* ES05 ui_Temp=data[0] & 0xf0; */ devpriv->b_DigitalOutputRegister = data[0] & 0xf0; return insn->n; } /* +----------------------------------------------------------------------------+ | ANALOG OUTPUT SUBDEVICE | +----------------------------------------------------------------------------+ */ /* +----------------------------------------------------------------------------+ | Function name :int i_APCI3120_InsnWriteAnalogOutput(struct comedi_device *dev,| |struct comedi_subdevice *s, struct comedi_insn *insn,unsigned int *data) | | | +----------------------------------------------------------------------------+ | Task : Write analog output | | | +----------------------------------------------------------------------------+ | Input Parameters : struct comedi_device *dev | | struct comedi_subdevice *s | | struct comedi_insn *insn | | unsigned int *data | +----------------------------------------------------------------------------+ | Return Value : | | | +----------------------------------------------------------------------------+ */ int i_APCI3120_InsnWriteAnalogOutput(struct comedi_device *dev, struct comedi_subdevice *s, struct comedi_insn *insn, unsigned int *data) { unsigned int ui_Range, ui_Channel; unsigned short us_TmpValue; ui_Range = CR_RANGE(insn->chanspec); ui_Channel = CR_CHAN(insn->chanspec); /* this_board->i_hwdrv_InsnWriteAnalogOutput(dev, ui_Range, ui_Channel,data[0]); */ if (ui_Range) { /* if 1 then unipolar */ if (data[0] != 0) data[0] = ((((ui_Channel & 0x03) << 14) & 0xC000) | (1 << 13) | (data[0] + 8191)); else data[0] = ((((ui_Channel & 0x03) << 14) & 0xC000) | (1 << 13) | 8192); } else { /* if 0 then bipolar */ data[0] = ((((ui_Channel & 0x03) << 14) & 0xC000) | (0 << 13) | data[0]); } /* * out put n values at the given channel. printk("\nwaiting for * DA_READY BIT"); */ do { /* Waiting of DA_READY BIT */ us_TmpValue = ((unsigned short) inw(devpriv->iobase + APCI3120_RD_STATUS)) & 0x0001; } while (us_TmpValue != 0x0001); if (ui_Channel <= 3) /* * for channel 0-3 out at the register 1 (wrDac1-8) data[i] * typecasted to ushort since word write is to be done */ outw((unsigned short) data[0], devpriv->iobase + APCI3120_ANALOG_OUTPUT_1); else /* * for channel 4-7 out at the register 2 (wrDac5-8) data[i] * typecasted to ushort since word write is to be done */ outw((unsigned short) data[0], devpriv->iobase + APCI3120_ANALOG_OUTPUT_2); return insn->n; }