ni_atmio16d.c revision da91b2692e0939b307f9047192d2b9fe07793e7a
1/* 2 comedi/drivers/ni_atmio16d.c 3 Hardware driver for National Instruments AT-MIO16D board 4 Copyright (C) 2000 Chris R. Baugher <baugher@enteract.com> 5 6 This program is free software; you can redistribute it and/or modify 7 it under the terms of the GNU General Public License as published by 8 the Free Software Foundation; either version 2 of the License, or 9 (at your option) any later version. 10 11 This program is distributed in the hope that it will be useful, 12 but WITHOUT ANY WARRANTY; without even the implied warranty of 13 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the 14 GNU General Public License for more details. 15 16 You should have received a copy of the GNU General Public License 17 along with this program; if not, write to the Free Software 18 Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. 19 20 */ 21/* 22Driver: ni_atmio16d 23Description: National Instruments AT-MIO-16D 24Author: Chris R. Baugher <baugher@enteract.com> 25Status: unknown 26Devices: [National Instruments] AT-MIO-16 (atmio16), AT-MIO-16D (atmio16d) 27*/ 28/* 29 * I must give credit here to Michal Dobes <dobes@tesnet.cz> who 30 * wrote the driver for Advantec's pcl812 boards. I used the interrupt 31 * handling code from his driver as an example for this one. 32 * 33 * Chris Baugher 34 * 5/1/2000 35 * 36 */ 37 38#include "../comedidev.h" 39 40#include <linux/ioport.h> 41 42#include "8255.h" 43 44/* Configuration and Status Registers */ 45#define COM_REG_1 0x00 /* wo 16 */ 46#define STAT_REG 0x00 /* ro 16 */ 47#define COM_REG_2 0x02 /* wo 16 */ 48/* Event Strobe Registers */ 49#define START_CONVERT_REG 0x08 /* wo 16 */ 50#define START_DAQ_REG 0x0A /* wo 16 */ 51#define AD_CLEAR_REG 0x0C /* wo 16 */ 52#define EXT_STROBE_REG 0x0E /* wo 16 */ 53/* Analog Output Registers */ 54#define DAC0_REG 0x10 /* wo 16 */ 55#define DAC1_REG 0x12 /* wo 16 */ 56#define INT2CLR_REG 0x14 /* wo 16 */ 57/* Analog Input Registers */ 58#define MUX_CNTR_REG 0x04 /* wo 16 */ 59#define MUX_GAIN_REG 0x06 /* wo 16 */ 60#define AD_FIFO_REG 0x16 /* ro 16 */ 61#define DMA_TC_INT_CLR_REG 0x16 /* wo 16 */ 62/* AM9513A Counter/Timer Registers */ 63#define AM9513A_DATA_REG 0x18 /* rw 16 */ 64#define AM9513A_COM_REG 0x1A /* wo 16 */ 65#define AM9513A_STAT_REG 0x1A /* ro 16 */ 66/* MIO-16 Digital I/O Registers */ 67#define MIO_16_DIG_IN_REG 0x1C /* ro 16 */ 68#define MIO_16_DIG_OUT_REG 0x1C /* wo 16 */ 69/* RTSI Switch Registers */ 70#define RTSI_SW_SHIFT_REG 0x1E /* wo 8 */ 71#define RTSI_SW_STROBE_REG 0x1F /* wo 8 */ 72/* DIO-24 Registers */ 73#define DIO_24_PORTA_REG 0x00 /* rw 8 */ 74#define DIO_24_PORTB_REG 0x01 /* rw 8 */ 75#define DIO_24_PORTC_REG 0x02 /* rw 8 */ 76#define DIO_24_CNFG_REG 0x03 /* wo 8 */ 77 78/* Command Register bits */ 79#define COMREG1_2SCADC 0x0001 80#define COMREG1_1632CNT 0x0002 81#define COMREG1_SCANEN 0x0008 82#define COMREG1_DAQEN 0x0010 83#define COMREG1_DMAEN 0x0020 84#define COMREG1_CONVINTEN 0x0080 85#define COMREG2_SCN2 0x0010 86#define COMREG2_INTEN 0x0080 87#define COMREG2_DOUTEN0 0x0100 88#define COMREG2_DOUTEN1 0x0200 89/* Status Register bits */ 90#define STAT_AD_OVERRUN 0x0100 91#define STAT_AD_OVERFLOW 0x0200 92#define STAT_AD_DAQPROG 0x0800 93#define STAT_AD_CONVAVAIL 0x2000 94#define STAT_AD_DAQSTOPINT 0x4000 95/* AM9513A Counter/Timer defines */ 96#define CLOCK_1_MHZ 0x8B25 97#define CLOCK_100_KHZ 0x8C25 98#define CLOCK_10_KHZ 0x8D25 99#define CLOCK_1_KHZ 0x8E25 100#define CLOCK_100_HZ 0x8F25 101/* Other miscellaneous defines */ 102#define ATMIO16D_SIZE 32 /* bus address range */ 103#define devpriv ((struct atmio16d_private *)dev->private) 104#define ATMIO16D_TIMEOUT 10 105 106struct atmio16_board_t { 107 108 const char *name; 109 int has_8255; 110}; 111 112static const struct atmio16_board_t atmio16_boards[] = { 113 { 114 name: "atmio16", 115 has_8255:0, 116 }, 117 { 118 name: "atmio16d", 119 has_8255:1, 120 }, 121}; 122 123#define n_atmio16_boards sizeof(atmio16_boards)/sizeof(atmio16_boards[0]) 124 125#define boardtype ((const struct atmio16_board_t *)dev->board_ptr) 126 127/* function prototypes */ 128static int atmio16d_attach(struct comedi_device * dev, struct comedi_devconfig * it); 129static int atmio16d_detach(struct comedi_device * dev); 130static irqreturn_t atmio16d_interrupt(int irq, void *d); 131static int atmio16d_ai_cmdtest(struct comedi_device * dev, struct comedi_subdevice * s, 132 struct comedi_cmd * cmd); 133static int atmio16d_ai_cmd(struct comedi_device * dev, struct comedi_subdevice * s); 134static int atmio16d_ai_cancel(struct comedi_device * dev, struct comedi_subdevice * s); 135static void reset_counters(struct comedi_device * dev); 136static void reset_atmio16d(struct comedi_device * dev); 137 138/* main driver struct */ 139static struct comedi_driver driver_atmio16d = { 140 driver_name:"atmio16", 141 module:THIS_MODULE, 142 attach:atmio16d_attach, 143 detach:atmio16d_detach, 144 board_name:&atmio16_boards[0].name, 145 num_names:n_atmio16_boards, 146 offset:sizeof(struct atmio16_board_t), 147}; 148 149COMEDI_INITCLEANUP(driver_atmio16d); 150 151/* range structs */ 152static const struct comedi_lrange range_atmio16d_ai_10_bipolar = { 4, { 153 BIP_RANGE(10), 154 BIP_RANGE(1), 155 BIP_RANGE(0.1), 156 BIP_RANGE(0.02) 157 } 158}; 159 160static const struct comedi_lrange range_atmio16d_ai_5_bipolar = { 4, { 161 BIP_RANGE(5), 162 BIP_RANGE(0.5), 163 BIP_RANGE(0.05), 164 BIP_RANGE(0.01) 165 } 166}; 167 168static const struct comedi_lrange range_atmio16d_ai_unipolar = { 4, { 169 UNI_RANGE(10), 170 UNI_RANGE(1), 171 UNI_RANGE(0.1), 172 UNI_RANGE(0.02) 173 } 174}; 175 176/* private data struct */ 177struct atmio16d_private { 178 enum { adc_diff, adc_singleended } adc_mux; 179 enum { adc_bipolar10, adc_bipolar5, adc_unipolar10 } adc_range; 180 enum { adc_2comp, adc_straight } adc_coding; 181 enum { dac_bipolar, dac_unipolar } dac0_range, dac1_range; 182 enum { dac_internal, dac_external } dac0_reference, dac1_reference; 183 enum { dac_2comp, dac_straight } dac0_coding, dac1_coding; 184 const struct comedi_lrange *ao_range_type_list[2]; 185 unsigned int ao_readback[2]; 186 unsigned int com_reg_1_state; /* current state of command register 1 */ 187 unsigned int com_reg_2_state; /* current state of command register 2 */ 188}; 189 190static void reset_counters(struct comedi_device *dev) 191{ 192 /* Counter 2 */ 193 outw(0xFFC2, dev->iobase + AM9513A_COM_REG); 194 outw(0xFF02, dev->iobase + AM9513A_COM_REG); 195 outw(0x4, dev->iobase + AM9513A_DATA_REG); 196 outw(0xFF0A, dev->iobase + AM9513A_COM_REG); 197 outw(0x3, dev->iobase + AM9513A_DATA_REG); 198 outw(0xFF42, dev->iobase + AM9513A_COM_REG); 199 outw(0xFF42, dev->iobase + AM9513A_COM_REG); 200 /* Counter 3 */ 201 outw(0xFFC4, dev->iobase + AM9513A_COM_REG); 202 outw(0xFF03, dev->iobase + AM9513A_COM_REG); 203 outw(0x4, dev->iobase + AM9513A_DATA_REG); 204 outw(0xFF0B, dev->iobase + AM9513A_COM_REG); 205 outw(0x3, dev->iobase + AM9513A_DATA_REG); 206 outw(0xFF44, dev->iobase + AM9513A_COM_REG); 207 outw(0xFF44, dev->iobase + AM9513A_COM_REG); 208 /* Counter 4 */ 209 outw(0xFFC8, dev->iobase + AM9513A_COM_REG); 210 outw(0xFF04, dev->iobase + AM9513A_COM_REG); 211 outw(0x4, dev->iobase + AM9513A_DATA_REG); 212 outw(0xFF0C, dev->iobase + AM9513A_COM_REG); 213 outw(0x3, dev->iobase + AM9513A_DATA_REG); 214 outw(0xFF48, dev->iobase + AM9513A_COM_REG); 215 outw(0xFF48, dev->iobase + AM9513A_COM_REG); 216 /* Counter 5 */ 217 outw(0xFFD0, dev->iobase + AM9513A_COM_REG); 218 outw(0xFF05, dev->iobase + AM9513A_COM_REG); 219 outw(0x4, dev->iobase + AM9513A_DATA_REG); 220 outw(0xFF0D, dev->iobase + AM9513A_COM_REG); 221 outw(0x3, dev->iobase + AM9513A_DATA_REG); 222 outw(0xFF50, dev->iobase + AM9513A_COM_REG); 223 outw(0xFF50, dev->iobase + AM9513A_COM_REG); 224 225 outw(0, dev->iobase + AD_CLEAR_REG); 226} 227 228static void reset_atmio16d(struct comedi_device *dev) 229{ 230 int i; 231 232 /* now we need to initialize the board */ 233 outw(0, dev->iobase + COM_REG_1); 234 outw(0, dev->iobase + COM_REG_2); 235 outw(0, dev->iobase + MUX_GAIN_REG); 236 /* init AM9513A timer */ 237 outw(0xFFFF, dev->iobase + AM9513A_COM_REG); 238 outw(0xFFEF, dev->iobase + AM9513A_COM_REG); 239 outw(0xFF17, dev->iobase + AM9513A_COM_REG); 240 outw(0xF000, dev->iobase + AM9513A_DATA_REG); 241 for (i = 1; i <= 5; ++i) { 242 outw(0xFF00 + i, dev->iobase + AM9513A_COM_REG); 243 outw(0x0004, dev->iobase + AM9513A_DATA_REG); 244 outw(0xFF08 + i, dev->iobase + AM9513A_COM_REG); 245 outw(0x3, dev->iobase + AM9513A_DATA_REG); 246 } 247 outw(0xFF5F, dev->iobase + AM9513A_COM_REG); 248 /* timer init done */ 249 outw(0, dev->iobase + AD_CLEAR_REG); 250 outw(0, dev->iobase + INT2CLR_REG); 251 /* select straight binary mode for Analog Input */ 252 devpriv->com_reg_1_state |= 1; 253 outw(devpriv->com_reg_1_state, dev->iobase + COM_REG_1); 254 devpriv->adc_coding = adc_straight; 255 /* zero the analog outputs */ 256 outw(2048, dev->iobase + DAC0_REG); 257 outw(2048, dev->iobase + DAC1_REG); 258} 259 260static irqreturn_t atmio16d_interrupt(int irq, void *d) 261{ 262 struct comedi_device *dev = d; 263 struct comedi_subdevice *s = dev->subdevices + 0; 264 265/* printk("atmio16d_interrupt!\n"); */ 266 267 comedi_buf_put(s->async, inw(dev->iobase + AD_FIFO_REG)); 268 269 comedi_event(dev, s); 270 return IRQ_HANDLED; 271} 272 273static int atmio16d_ai_cmdtest(struct comedi_device *dev, struct comedi_subdevice *s, 274 struct comedi_cmd *cmd) 275{ 276 int err = 0, tmp; 277#ifdef DEBUG1 278 printk("atmio16d_ai_cmdtest\n"); 279#endif 280 /* make sure triggers are valid */ 281 tmp = cmd->start_src; 282 cmd->start_src &= TRIG_NOW; 283 if (!cmd->start_src || tmp != cmd->start_src) 284 err++; 285 286 tmp = cmd->scan_begin_src; 287 cmd->scan_begin_src &= TRIG_FOLLOW | TRIG_TIMER; 288 if (!cmd->scan_begin_src || tmp != cmd->scan_begin_src) 289 err++; 290 291 tmp = cmd->convert_src; 292 cmd->convert_src &= TRIG_TIMER; 293 if (!cmd->convert_src || tmp != cmd->convert_src) 294 err++; 295 296 tmp = cmd->scan_end_src; 297 cmd->scan_end_src &= TRIG_COUNT; 298 if (!cmd->scan_end_src || tmp != cmd->scan_end_src) 299 err++; 300 301 tmp = cmd->stop_src; 302 cmd->stop_src &= TRIG_COUNT | TRIG_NONE; 303 if (!cmd->stop_src || tmp != cmd->stop_src) 304 err++; 305 306 if (err) 307 return 1; 308 309 /* step 2: make sure trigger sources are unique and mutually compatible */ 310 /* note that mutual compatiblity is not an issue here */ 311 if (cmd->scan_begin_src != TRIG_FOLLOW && 312 cmd->scan_begin_src != TRIG_EXT && 313 cmd->scan_begin_src != TRIG_TIMER) 314 err++; 315 if (cmd->stop_src != TRIG_COUNT && cmd->stop_src != TRIG_NONE) 316 err++; 317 318 if (err) 319 return 2; 320 321 /* step 3: make sure arguments are trivially compatible */ 322 323 if (cmd->start_arg != 0) { 324 cmd->start_arg = 0; 325 err++; 326 } 327 if (cmd->scan_begin_src == TRIG_FOLLOW) { 328 /* internal trigger */ 329 if (cmd->scan_begin_arg != 0) { 330 cmd->scan_begin_arg = 0; 331 err++; 332 } 333 } else { 334#if 0 335 /* external trigger */ 336 /* should be level/edge, hi/lo specification here */ 337 if (cmd->scan_begin_arg != 0) { 338 cmd->scan_begin_arg = 0; 339 err++; 340 } 341#endif 342 } 343 344 if (cmd->convert_arg < 10000) { 345 cmd->convert_arg = 10000; 346 err++; 347 } 348#if 0 349 if (cmd->convert_arg > SLOWEST_TIMER) { 350 cmd->convert_arg = SLOWEST_TIMER; 351 err++; 352 } 353#endif 354 if (cmd->scan_end_arg != cmd->chanlist_len) { 355 cmd->scan_end_arg = cmd->chanlist_len; 356 err++; 357 } 358 if (cmd->stop_src == TRIG_COUNT) { 359 /* any count is allowed */ 360 } else { 361 /* TRIG_NONE */ 362 if (cmd->stop_arg != 0) { 363 cmd->stop_arg = 0; 364 err++; 365 } 366 } 367 368 if (err) 369 return 3; 370 371 return 0; 372} 373 374static int atmio16d_ai_cmd(struct comedi_device *dev, struct comedi_subdevice *s) 375{ 376 struct comedi_cmd *cmd = &s->async->cmd; 377 unsigned int timer, base_clock; 378 unsigned int sample_count, tmp, chan, gain; 379 int i; 380#ifdef DEBUG1 381 printk("atmio16d_ai_cmd\n"); 382#endif 383 /* This is slowly becoming a working command interface. * 384 * It is still uber-experimental */ 385 386 reset_counters(dev); 387 s->async->cur_chan = 0; 388 389 /* check if scanning multiple channels */ 390 if (cmd->chanlist_len < 2) { 391 devpriv->com_reg_1_state &= ~COMREG1_SCANEN; 392 outw(devpriv->com_reg_1_state, dev->iobase + COM_REG_1); 393 } else { 394 devpriv->com_reg_1_state |= COMREG1_SCANEN; 395 devpriv->com_reg_2_state |= COMREG2_SCN2; 396 outw(devpriv->com_reg_1_state, dev->iobase + COM_REG_1); 397 outw(devpriv->com_reg_2_state, dev->iobase + COM_REG_2); 398 } 399 400 /* Setup the Mux-Gain Counter */ 401 for (i = 0; i < cmd->chanlist_len; ++i) { 402 chan = CR_CHAN(cmd->chanlist[i]); 403 gain = CR_RANGE(cmd->chanlist[i]); 404 outw(i, dev->iobase + MUX_CNTR_REG); 405 tmp = chan | (gain << 6); 406 if (i == cmd->scan_end_arg - 1) 407 tmp |= 0x0010; /* set LASTONE bit */ 408 outw(tmp, dev->iobase + MUX_GAIN_REG); 409 } 410 411 /* Now program the sample interval timer */ 412 /* Figure out which clock to use then get an 413 * appropriate timer value */ 414 if (cmd->convert_arg < 65536000) { 415 base_clock = CLOCK_1_MHZ; 416 timer = cmd->convert_arg / 1000; 417 } else if (cmd->convert_arg < 655360000) { 418 base_clock = CLOCK_100_KHZ; 419 timer = cmd->convert_arg / 10000; 420 } else if (cmd->convert_arg <= 0xffffffff /* 6553600000 */ ) { 421 base_clock = CLOCK_10_KHZ; 422 timer = cmd->convert_arg / 100000; 423 } else if (cmd->convert_arg <= 0xffffffff /* 65536000000 */ ) { 424 base_clock = CLOCK_1_KHZ; 425 timer = cmd->convert_arg / 1000000; 426 } 427 outw(0xFF03, dev->iobase + AM9513A_COM_REG); 428 outw(base_clock, dev->iobase + AM9513A_DATA_REG); 429 outw(0xFF0B, dev->iobase + AM9513A_COM_REG); 430 outw(0x2, dev->iobase + AM9513A_DATA_REG); 431 outw(0xFF44, dev->iobase + AM9513A_COM_REG); 432 outw(0xFFF3, dev->iobase + AM9513A_COM_REG); 433 outw(timer, dev->iobase + AM9513A_DATA_REG); 434 outw(0xFF24, dev->iobase + AM9513A_COM_REG); 435 436 /* Now figure out how many samples to get */ 437 /* and program the sample counter */ 438 sample_count = cmd->stop_arg * cmd->scan_end_arg; 439 outw(0xFF04, dev->iobase + AM9513A_COM_REG); 440 outw(0x1025, dev->iobase + AM9513A_DATA_REG); 441 outw(0xFF0C, dev->iobase + AM9513A_COM_REG); 442 if (sample_count < 65536) { 443 /* use only Counter 4 */ 444 outw(sample_count, dev->iobase + AM9513A_DATA_REG); 445 outw(0xFF48, dev->iobase + AM9513A_COM_REG); 446 outw(0xFFF4, dev->iobase + AM9513A_COM_REG); 447 outw(0xFF28, dev->iobase + AM9513A_COM_REG); 448 devpriv->com_reg_1_state &= ~COMREG1_1632CNT; 449 outw(devpriv->com_reg_1_state, dev->iobase + COM_REG_1); 450 } else { 451 /* Counter 4 and 5 are needed */ 452 if ((tmp = sample_count & 0xFFFF)) { 453 outw(tmp - 1, dev->iobase + AM9513A_DATA_REG); 454 } else { 455 outw(0xFFFF, dev->iobase + AM9513A_DATA_REG); 456 } 457 outw(0xFF48, dev->iobase + AM9513A_COM_REG); 458 outw(0, dev->iobase + AM9513A_DATA_REG); 459 outw(0xFF28, dev->iobase + AM9513A_COM_REG); 460 outw(0xFF05, dev->iobase + AM9513A_COM_REG); 461 outw(0x25, dev->iobase + AM9513A_DATA_REG); 462 outw(0xFF0D, dev->iobase + AM9513A_COM_REG); 463 tmp = sample_count & 0xFFFF; 464 if ((tmp == 0) || (tmp == 1)) { 465 outw((sample_count >> 16) & 0xFFFF, 466 dev->iobase + AM9513A_DATA_REG); 467 } else { 468 outw(((sample_count >> 16) & 0xFFFF) + 1, 469 dev->iobase + AM9513A_DATA_REG); 470 } 471 outw(0xFF70, dev->iobase + AM9513A_COM_REG); 472 devpriv->com_reg_1_state |= COMREG1_1632CNT; 473 outw(devpriv->com_reg_1_state, dev->iobase + COM_REG_1); 474 } 475 476 /* Program the scan interval timer ONLY IF SCANNING IS ENABLED */ 477 /* Figure out which clock to use then get an 478 * appropriate timer value */ 479 if (cmd->chanlist_len > 1) { 480 if (cmd->scan_begin_arg < 65536000) { 481 base_clock = CLOCK_1_MHZ; 482 timer = cmd->scan_begin_arg / 1000; 483 } else if (cmd->scan_begin_arg < 655360000) { 484 base_clock = CLOCK_100_KHZ; 485 timer = cmd->scan_begin_arg / 10000; 486 } else if (cmd->scan_begin_arg < 0xffffffff /* 6553600000 */ ) { 487 base_clock = CLOCK_10_KHZ; 488 timer = cmd->scan_begin_arg / 100000; 489 } else if (cmd->scan_begin_arg < 0xffffffff /* 65536000000 */ ) { 490 base_clock = CLOCK_1_KHZ; 491 timer = cmd->scan_begin_arg / 1000000; 492 } 493 outw(0xFF02, dev->iobase + AM9513A_COM_REG); 494 outw(base_clock, dev->iobase + AM9513A_DATA_REG); 495 outw(0xFF0A, dev->iobase + AM9513A_COM_REG); 496 outw(0x2, dev->iobase + AM9513A_DATA_REG); 497 outw(0xFF42, dev->iobase + AM9513A_COM_REG); 498 outw(0xFFF2, dev->iobase + AM9513A_COM_REG); 499 outw(timer, dev->iobase + AM9513A_DATA_REG); 500 outw(0xFF22, dev->iobase + AM9513A_COM_REG); 501 } 502 503 /* Clear the A/D FIFO and reset the MUX counter */ 504 outw(0, dev->iobase + AD_CLEAR_REG); 505 outw(0, dev->iobase + MUX_CNTR_REG); 506 outw(0, dev->iobase + INT2CLR_REG); 507 /* enable this acquisition operation */ 508 devpriv->com_reg_1_state |= COMREG1_DAQEN; 509 outw(devpriv->com_reg_1_state, dev->iobase + COM_REG_1); 510 /* enable interrupts for conversion completion */ 511 devpriv->com_reg_1_state |= COMREG1_CONVINTEN; 512 devpriv->com_reg_2_state |= COMREG2_INTEN; 513 outw(devpriv->com_reg_1_state, dev->iobase + COM_REG_1); 514 outw(devpriv->com_reg_2_state, dev->iobase + COM_REG_2); 515 /* apply a trigger. this starts the counters! */ 516 outw(0, dev->iobase + START_DAQ_REG); 517 518 return 0; 519} 520 521/* This will cancel a running acquisition operation */ 522static int atmio16d_ai_cancel(struct comedi_device *dev, struct comedi_subdevice *s) 523{ 524 reset_atmio16d(dev); 525 526 return 0; 527} 528 529/* Mode 0 is used to get a single conversion on demand */ 530static int atmio16d_ai_insn_read(struct comedi_device *dev, struct comedi_subdevice *s, 531 struct comedi_insn *insn, unsigned int *data) 532{ 533 int i, t; 534 int chan; 535 int gain; 536 int status; 537 538#ifdef DEBUG1 539 printk("atmio16d_ai_insn_read\n"); 540#endif 541 chan = CR_CHAN(insn->chanspec); 542 gain = CR_RANGE(insn->chanspec); 543 544 /* reset the Analog input circuitry */ 545 /* outw( 0, dev->iobase+AD_CLEAR_REG ); */ 546 /* reset the Analog Input MUX Counter to 0 */ 547 /* outw( 0, dev->iobase+MUX_CNTR_REG ); */ 548 549 /* set the Input MUX gain */ 550 outw(chan | (gain << 6), dev->iobase + MUX_GAIN_REG); 551 552 for (i = 0; i < insn->n; i++) { 553 /* start the conversion */ 554 outw(0, dev->iobase + START_CONVERT_REG); 555 /* wait for it to finish */ 556 for (t = 0; t < ATMIO16D_TIMEOUT; t++) { 557 /* check conversion status */ 558 status = inw(dev->iobase + STAT_REG); 559#ifdef DEBUG1 560 printk("status=%x\n", status); 561#endif 562 if (status & STAT_AD_CONVAVAIL) { 563 /* read the data now */ 564 data[i] = inw(dev->iobase + AD_FIFO_REG); 565 /* change to two's complement if need be */ 566 if (devpriv->adc_coding == adc_2comp) { 567 data[i] ^= 0x800; 568 } 569 break; 570 } 571 if (status & STAT_AD_OVERFLOW) { 572 printk("atmio16d: a/d FIFO overflow\n"); 573 outw(0, dev->iobase + AD_CLEAR_REG); 574 575 return -ETIME; 576 } 577 } 578 /* end waiting, now check if it timed out */ 579 if (t == ATMIO16D_TIMEOUT) { 580 rt_printk("atmio16d: timeout\n"); 581 582 return -ETIME; 583 } 584 } 585 586 return i; 587} 588 589static int atmio16d_ao_insn_read(struct comedi_device *dev, struct comedi_subdevice *s, 590 struct comedi_insn *insn, unsigned int *data) 591{ 592 int i; 593#ifdef DEBUG1 594 printk("atmio16d_ao_insn_read\n"); 595#endif 596 597 for (i = 0; i < insn->n; i++) { 598 data[i] = devpriv->ao_readback[CR_CHAN(insn->chanspec)]; 599 } 600 601 return i; 602} 603 604static int atmio16d_ao_insn_write(struct comedi_device *dev, struct comedi_subdevice *s, 605 struct comedi_insn *insn, unsigned int *data) 606{ 607 int i; 608 int chan; 609 int d; 610#ifdef DEBUG1 611 printk("atmio16d_ao_insn_write\n"); 612#endif 613 614 chan = CR_CHAN(insn->chanspec); 615 616 for (i = 0; i < insn->n; i++) { 617 d = data[i]; 618 switch (chan) { 619 case 0: 620 if (devpriv->dac0_coding == dac_2comp) { 621 d ^= 0x800; 622 } 623 outw(d, dev->iobase + DAC0_REG); 624 break; 625 case 1: 626 if (devpriv->dac1_coding == dac_2comp) { 627 d ^= 0x800; 628 } 629 outw(d, dev->iobase + DAC1_REG); 630 break; 631 default: 632 return -EINVAL; 633 } 634 devpriv->ao_readback[chan] = data[i]; 635 } 636 return i; 637} 638 639static int atmio16d_dio_insn_bits(struct comedi_device *dev, struct comedi_subdevice *s, 640 struct comedi_insn *insn, unsigned int *data) 641{ 642 if (insn->n != 2) 643 return -EINVAL; 644 645 if (data[0]) { 646 s->state &= ~data[0]; 647 s->state |= (data[0] | data[1]); 648 outw(s->state, dev->iobase + MIO_16_DIG_OUT_REG); 649 } 650 data[1] = inw(dev->iobase + MIO_16_DIG_IN_REG); 651 652 return 2; 653} 654 655static int atmio16d_dio_insn_config(struct comedi_device *dev, struct comedi_subdevice *s, 656 struct comedi_insn *insn, unsigned int *data) 657{ 658 int i; 659 int mask; 660 661 for (i = 0; i < insn->n; i++) { 662 mask = (CR_CHAN(insn->chanspec) < 4) ? 0x0f : 0xf0; 663 s->io_bits &= ~mask; 664 if (data[i]) 665 s->io_bits |= mask; 666 } 667 devpriv->com_reg_2_state &= ~(COMREG2_DOUTEN0 | COMREG2_DOUTEN1); 668 if (s->io_bits & 0x0f) 669 devpriv->com_reg_2_state |= COMREG2_DOUTEN0; 670 if (s->io_bits & 0xf0) 671 devpriv->com_reg_2_state |= COMREG2_DOUTEN1; 672 outw(devpriv->com_reg_2_state, dev->iobase + COM_REG_2); 673 674 return i; 675} 676 677/* 678 options[0] - I/O port 679 options[1] - MIO irq 680 0 == no irq 681 N == irq N {3,4,5,6,7,9,10,11,12,14,15} 682 options[2] - DIO irq 683 0 == no irq 684 N == irq N {3,4,5,6,7,9} 685 options[3] - DMA1 channel 686 0 == no DMA 687 N == DMA N {5,6,7} 688 options[4] - DMA2 channel 689 0 == no DMA 690 N == DMA N {5,6,7} 691 692 options[5] - a/d mux 693 0=differential, 1=single 694 options[6] - a/d range 695 0=bipolar10, 1=bipolar5, 2=unipolar10 696 697 options[7] - dac0 range 698 0=bipolar, 1=unipolar 699 options[8] - dac0 reference 700 0=internal, 1=external 701 options[9] - dac0 coding 702 0=2's comp, 1=straight binary 703 704 options[10] - dac1 range 705 options[11] - dac1 reference 706 options[12] - dac1 coding 707 */ 708 709static int atmio16d_attach(struct comedi_device *dev, struct comedi_devconfig *it) 710{ 711 unsigned int irq; 712 unsigned long iobase; 713 int ret; 714 715 struct comedi_subdevice *s; 716 717 /* make sure the address range is free and allocate it */ 718 iobase = it->options[0]; 719 printk("comedi%d: atmio16d: 0x%04lx ", dev->minor, iobase); 720 if (!request_region(iobase, ATMIO16D_SIZE, "ni_atmio16d")) { 721 printk("I/O port conflict\n"); 722 return -EIO; 723 } 724 dev->iobase = iobase; 725 726 /* board name */ 727 dev->board_name = boardtype->name; 728 729 if ((ret = alloc_subdevices(dev, 4)) < 0) 730 return ret; 731 if ((ret = alloc_private(dev, sizeof(struct atmio16d_private))) < 0) 732 return ret; 733 734 /* reset the atmio16d hardware */ 735 reset_atmio16d(dev); 736 737 /* check if our interrupt is available and get it */ 738 irq = it->options[1]; 739 if (irq) { 740 if ((ret = comedi_request_irq(irq, atmio16d_interrupt, 741 0, "atmio16d", dev)) < 0) { 742 printk("failed to allocate irq %u\n", irq); 743 return ret; 744 } 745 dev->irq = irq; 746 printk("( irq = %u )\n", irq); 747 } else { 748 printk("( no irq )"); 749 } 750 751 /* set device options */ 752 devpriv->adc_mux = it->options[5]; 753 devpriv->adc_range = it->options[6]; 754 755 devpriv->dac0_range = it->options[7]; 756 devpriv->dac0_reference = it->options[8]; 757 devpriv->dac0_coding = it->options[9]; 758 devpriv->dac1_range = it->options[10]; 759 devpriv->dac1_reference = it->options[11]; 760 devpriv->dac1_coding = it->options[12]; 761 762 /* setup sub-devices */ 763 s = dev->subdevices + 0; 764 dev->read_subdev = s; 765 /* ai subdevice */ 766 s->type = COMEDI_SUBD_AI; 767 s->subdev_flags = SDF_READABLE | SDF_GROUND | SDF_CMD_READ; 768 s->n_chan = (devpriv->adc_mux ? 16 : 8); 769 s->len_chanlist = 16; 770 s->insn_read = atmio16d_ai_insn_read; 771 s->do_cmdtest = atmio16d_ai_cmdtest; 772 s->do_cmd = atmio16d_ai_cmd; 773 s->cancel = atmio16d_ai_cancel; 774 s->maxdata = 0xfff; /* 4095 decimal */ 775 switch (devpriv->adc_range) { 776 case adc_bipolar10: 777 s->range_table = &range_atmio16d_ai_10_bipolar; 778 break; 779 case adc_bipolar5: 780 s->range_table = &range_atmio16d_ai_5_bipolar; 781 break; 782 case adc_unipolar10: 783 s->range_table = &range_atmio16d_ai_unipolar; 784 break; 785 } 786 787 /* ao subdevice */ 788 s++; 789 s->type = COMEDI_SUBD_AO; 790 s->subdev_flags = SDF_WRITABLE; 791 s->n_chan = 2; 792 s->insn_read = atmio16d_ao_insn_read; 793 s->insn_write = atmio16d_ao_insn_write; 794 s->maxdata = 0xfff; /* 4095 decimal */ 795 s->range_table_list = devpriv->ao_range_type_list; 796 switch (devpriv->dac0_range) { 797 case dac_bipolar: 798 devpriv->ao_range_type_list[0] = &range_bipolar10; 799 break; 800 case dac_unipolar: 801 devpriv->ao_range_type_list[0] = &range_unipolar10; 802 break; 803 } 804 switch (devpriv->dac1_range) { 805 case dac_bipolar: 806 devpriv->ao_range_type_list[1] = &range_bipolar10; 807 break; 808 case dac_unipolar: 809 devpriv->ao_range_type_list[1] = &range_unipolar10; 810 break; 811 } 812 813 /* Digital I/O */ 814 s++; 815 s->type = COMEDI_SUBD_DIO; 816 s->subdev_flags = SDF_WRITABLE | SDF_READABLE; 817 s->n_chan = 8; 818 s->insn_bits = atmio16d_dio_insn_bits; 819 s->insn_config = atmio16d_dio_insn_config; 820 s->maxdata = 1; 821 s->range_table = &range_digital; 822 823 /* 8255 subdevice */ 824 s++; 825 if (boardtype->has_8255) { 826 subdev_8255_init(dev, s, NULL, dev->iobase); 827 } else { 828 s->type = COMEDI_SUBD_UNUSED; 829 } 830 831/* don't yet know how to deal with counter/timers */ 832#if 0 833 s++; 834 /* do */ 835 s->type = COMEDI_SUBD_TIMER; 836 s->n_chan = 0; 837 s->maxdata = 0 838#endif 839 printk("\n"); 840 841 return 0; 842} 843 844static int atmio16d_detach(struct comedi_device *dev) 845{ 846 printk("comedi%d: atmio16d: remove\n", dev->minor); 847 848 if (dev->subdevices && boardtype->has_8255) 849 subdev_8255_cleanup(dev, dev->subdevices + 3); 850 851 if (dev->irq) 852 comedi_free_irq(dev->irq, dev); 853 854 reset_atmio16d(dev); 855 856 if (dev->iobase) 857 release_region(dev->iobase, ATMIO16D_SIZE); 858 859 return 0; 860} 861