rti800.c revision 79a22d5c264f5ddfc8573aa7eb234fe62dd1ee32
1/* 2 comedi/drivers/rti800.c 3 Hardware driver for Analog Devices RTI-800/815 board 4 5 COMEDI - Linux Control and Measurement Device Interface 6 Copyright (C) 1998 David A. Schleef <ds@schleef.org> 7 8 This program is free software; you can redistribute it and/or modify 9 it under the terms of the GNU General Public License as published by 10 the Free Software Foundation; either version 2 of the License, or 11 (at your option) any later version. 12 13 This program is distributed in the hope that it will be useful, 14 but WITHOUT ANY WARRANTY; without even the implied warranty of 15 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the 16 GNU General Public License for more details. 17 18 You should have received a copy of the GNU General Public License 19 along with this program; if not, write to the Free Software 20 Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. 21 22 */ 23/* 24Driver: rti800 25Description: Analog Devices RTI-800/815 26Author: ds 27Status: unknown 28Updated: Fri, 05 Sep 2008 14:50:44 +0100 29Devices: [Analog Devices] RTI-800 (rti800), RTI-815 (rti815) 30 31Configuration options: 32 [0] - I/O port base address 33 [1] - IRQ 34 [2] - A/D reference 35 0 = differential 36 1 = pseudodifferential (common) 37 2 = single-ended 38 [3] - A/D range 39 0 = [-10,10] 40 1 = [-5,5] 41 2 = [0,10] 42 [4] - A/D encoding 43 0 = two's complement 44 1 = straight binary 45 [5] - DAC 0 range 46 0 = [-10,10] 47 1 = [0,10] 48 [6] - DAC 0 encoding 49 0 = two's complement 50 1 = straight binary 51 [7] - DAC 1 range (same as DAC 0) 52 [8] - DAC 1 encoding (same as DAC 0) 53*/ 54 55#include <linux/interrupt.h> 56#include "../comedidev.h" 57 58#include <linux/ioport.h> 59 60#define RTI800_SIZE 16 61 62#define RTI800_CSR 0 63#define RTI800_MUXGAIN 1 64#define RTI800_CONVERT 2 65#define RTI800_ADCLO 3 66#define RTI800_ADCHI 4 67#define RTI800_DAC0LO 5 68#define RTI800_DAC0HI 6 69#define RTI800_DAC1LO 7 70#define RTI800_DAC1HI 8 71#define RTI800_CLRFLAGS 9 72#define RTI800_DI 10 73#define RTI800_DO 11 74#define RTI800_9513A_DATA 12 75#define RTI800_9513A_CNTRL 13 76#define RTI800_9513A_STATUS 13 77 78/* 79 * flags for CSR register 80 */ 81 82#define RTI800_BUSY 0x80 83#define RTI800_DONE 0x40 84#define RTI800_OVERRUN 0x20 85#define RTI800_TCR 0x10 86#define RTI800_DMA_ENAB 0x08 87#define RTI800_INTR_TC 0x04 88#define RTI800_INTR_EC 0x02 89#define RTI800_INTR_OVRN 0x01 90 91#define Am9513_8BITBUS 92 93#define Am9513_output_control(a) outb(a, dev->iobase+RTI800_9513A_CNTRL) 94#define Am9513_output_data(a) outb(a, dev->iobase+RTI800_9513A_DATA) 95#define Am9513_input_data() inb(dev->iobase+RTI800_9513A_DATA) 96#define Am9513_input_status() inb(dev->iobase+RTI800_9513A_STATUS) 97 98#include "am9513.h" 99 100static const struct comedi_lrange range_rti800_ai_10_bipolar = { 4, { 101 BIP_RANGE 102 (10), 103 BIP_RANGE 104 (1), 105 BIP_RANGE 106 (0.1), 107 BIP_RANGE 108 (0.02) 109 } 110}; 111 112static const struct comedi_lrange range_rti800_ai_5_bipolar = { 4, { 113 BIP_RANGE 114 (5), 115 BIP_RANGE 116 (0.5), 117 BIP_RANGE 118 (0.05), 119 BIP_RANGE 120 (0.01) 121 } 122}; 123 124static const struct comedi_lrange range_rti800_ai_unipolar = { 4, { 125 UNI_RANGE 126 (10), 127 UNI_RANGE(1), 128 UNI_RANGE 129 (0.1), 130 UNI_RANGE 131 (0.02) 132 } 133}; 134 135struct rti800_board { 136 137 const char *name; 138 int has_ao; 139}; 140 141static const struct rti800_board boardtypes[] = { 142 {"rti800", 0}, 143 {"rti815", 1}, 144}; 145 146#define this_board ((const struct rti800_board *)dev->board_ptr) 147 148static int rti800_attach(struct comedi_device *dev, 149 struct comedi_devconfig *it); 150static int rti800_detach(struct comedi_device *dev); 151static struct comedi_driver driver_rti800 = { 152 .driver_name = "rti800", 153 .module = THIS_MODULE, 154 .attach = rti800_attach, 155 .detach = rti800_detach, 156 .num_names = ARRAY_SIZE(boardtypes), 157 .board_name = &boardtypes[0].name, 158 .offset = sizeof(struct rti800_board), 159}; 160 161COMEDI_INITCLEANUP(driver_rti800); 162 163static irqreturn_t rti800_interrupt(int irq, void *dev); 164 165struct rti800_private { 166 enum { 167 adc_diff, adc_pseudodiff, adc_singleended 168 } adc_mux; 169 enum { 170 adc_bipolar10, adc_bipolar5, adc_unipolar10 171 } adc_range; 172 enum { 173 adc_2comp, adc_straight 174 } adc_coding; 175 enum { 176 dac_bipolar10, dac_unipolar10 177 } dac0_range, dac1_range; 178 enum { 179 dac_2comp, dac_straight 180 } dac0_coding, dac1_coding; 181 const struct comedi_lrange *ao_range_type_list[2]; 182 unsigned int ao_readback[2]; 183 int muxgain_bits; 184}; 185 186#define devpriv ((struct rti800_private *)dev->private) 187 188#define RTI800_TIMEOUT 100 189 190static irqreturn_t rti800_interrupt(int irq, void *dev) 191{ 192 return IRQ_HANDLED; 193} 194 195/* settling delay times in usec for different gains */ 196static const int gaindelay[] = { 10, 20, 40, 80 }; 197 198static int rti800_ai_insn_read(struct comedi_device *dev, 199 struct comedi_subdevice *s, 200 struct comedi_insn *insn, unsigned int *data) 201{ 202 int i, t; 203 int status; 204 int chan = CR_CHAN(insn->chanspec); 205 unsigned gain = CR_RANGE(insn->chanspec); 206 unsigned muxgain_bits; 207 208 inb(dev->iobase + RTI800_ADCHI); 209 outb(0, dev->iobase + RTI800_CLRFLAGS); 210 211 muxgain_bits = chan | (gain << 5); 212 if (muxgain_bits != devpriv->muxgain_bits) { 213 devpriv->muxgain_bits = muxgain_bits; 214 outb(devpriv->muxgain_bits, dev->iobase + RTI800_MUXGAIN); 215 /* without a delay here, the RTI_OVERRUN bit 216 * gets set, and you will have an error. */ 217 if (insn->n > 0) { 218 BUG_ON(gain >= ARRAY_SIZE(gaindelay)); 219 udelay(gaindelay[gain]); 220 } 221 } 222 223 for (i = 0; i < insn->n; i++) { 224 outb(0, dev->iobase + RTI800_CONVERT); 225 for (t = RTI800_TIMEOUT; t; t--) { 226 status = inb(dev->iobase + RTI800_CSR); 227 if (status & RTI800_OVERRUN) { 228 printk("rti800: a/d overrun\n"); 229 outb(0, dev->iobase + RTI800_CLRFLAGS); 230 return -EIO; 231 } 232 if (status & RTI800_DONE) 233 break; 234 udelay(1); 235 } 236 if (t == 0) { 237 printk("rti800: timeout\n"); 238 return -ETIME; 239 } 240 data[i] = inb(dev->iobase + RTI800_ADCLO); 241 data[i] |= (0xf & inb(dev->iobase + RTI800_ADCHI)) << 8; 242 243 if (devpriv->adc_coding == adc_2comp) 244 data[i] ^= 0x800; 245 } 246 247 return i; 248} 249 250static int rti800_ao_insn_read(struct comedi_device *dev, 251 struct comedi_subdevice *s, 252 struct comedi_insn *insn, unsigned int *data) 253{ 254 int i; 255 int chan = CR_CHAN(insn->chanspec); 256 257 for (i = 0; i < insn->n; i++) 258 data[i] = devpriv->ao_readback[chan]; 259 260 return i; 261} 262 263static int rti800_ao_insn_write(struct comedi_device *dev, 264 struct comedi_subdevice *s, 265 struct comedi_insn *insn, unsigned int *data) 266{ 267 int chan = CR_CHAN(insn->chanspec); 268 int d; 269 int i; 270 271 for (i = 0; i < insn->n; i++) { 272 devpriv->ao_readback[chan] = d = data[i]; 273 if (devpriv->dac0_coding == dac_2comp) 274 d ^= 0x800; 275 276 outb(d & 0xff, 277 dev->iobase + (chan ? RTI800_DAC1LO : RTI800_DAC0LO)); 278 outb(d >> 8, 279 dev->iobase + (chan ? RTI800_DAC1HI : RTI800_DAC0HI)); 280 } 281 return i; 282} 283 284static int rti800_di_insn_bits(struct comedi_device *dev, 285 struct comedi_subdevice *s, 286 struct comedi_insn *insn, unsigned int *data) 287{ 288 if (insn->n != 2) 289 return -EINVAL; 290 data[1] = inb(dev->iobase + RTI800_DI); 291 return 2; 292} 293 294static int rti800_do_insn_bits(struct comedi_device *dev, 295 struct comedi_subdevice *s, 296 struct comedi_insn *insn, unsigned int *data) 297{ 298 if (insn->n != 2) 299 return -EINVAL; 300 301 if (data[0]) { 302 s->state &= ~data[0]; 303 s->state |= data[0] & data[1]; 304 /* Outputs are inverted... */ 305 outb(s->state ^ 0xff, dev->iobase + RTI800_DO); 306 } 307 308 data[1] = s->state; 309 310 return 2; 311} 312 313/* 314 options[0] - I/O port 315 options[1] - irq 316 options[2] - a/d mux 317 0=differential, 1=pseudodiff, 2=single 318 options[3] - a/d range 319 0=bipolar10, 1=bipolar5, 2=unipolar10 320 options[4] - a/d coding 321 0=2's comp, 1=straight binary 322 options[5] - dac0 range 323 0=bipolar10, 1=unipolar10 324 options[6] - dac0 coding 325 0=2's comp, 1=straight binary 326 options[7] - dac1 range 327 options[8] - dac1 coding 328 */ 329 330static int rti800_attach(struct comedi_device *dev, struct comedi_devconfig *it) 331{ 332 unsigned int irq; 333 unsigned long iobase; 334 int ret; 335 struct comedi_subdevice *s; 336 337 iobase = it->options[0]; 338 printk("comedi%d: rti800: 0x%04lx ", dev->minor, iobase); 339 if (!request_region(iobase, RTI800_SIZE, "rti800")) { 340 printk("I/O port conflict\n"); 341 return -EIO; 342 } 343 dev->iobase = iobase; 344 345#ifdef DEBUG 346 printk("fingerprint=%x,%x,%x,%x,%x ", 347 inb(dev->iobase + 0), 348 inb(dev->iobase + 1), 349 inb(dev->iobase + 2), 350 inb(dev->iobase + 3), inb(dev->iobase + 4)); 351#endif 352 353 outb(0, dev->iobase + RTI800_CSR); 354 inb(dev->iobase + RTI800_ADCHI); 355 outb(0, dev->iobase + RTI800_CLRFLAGS); 356 357 irq = it->options[1]; 358 if (irq) { 359 printk("( irq = %u )", irq); 360 ret = request_irq(irq, rti800_interrupt, 0, "rti800", dev); 361 if (ret < 0) { 362 printk(" Failed to allocate IRQ\n"); 363 return ret; 364 } 365 dev->irq = irq; 366 } else { 367 printk("( no irq )"); 368 } 369 370 dev->board_name = this_board->name; 371 372 ret = alloc_subdevices(dev, 4); 373 if (ret < 0) 374 return ret; 375 376 ret = alloc_private(dev, sizeof(struct rti800_private)); 377 if (ret < 0) 378 return ret; 379 380 devpriv->adc_mux = it->options[2]; 381 devpriv->adc_range = it->options[3]; 382 devpriv->adc_coding = it->options[4]; 383 devpriv->dac0_range = it->options[5]; 384 devpriv->dac0_coding = it->options[6]; 385 devpriv->dac1_range = it->options[7]; 386 devpriv->dac1_coding = it->options[8]; 387 devpriv->muxgain_bits = -1; 388 389 s = dev->subdevices + 0; 390 /* ai subdevice */ 391 s->type = COMEDI_SUBD_AI; 392 s->subdev_flags = SDF_READABLE | SDF_GROUND; 393 s->n_chan = (devpriv->adc_mux ? 16 : 8); 394 s->insn_read = rti800_ai_insn_read; 395 s->maxdata = 0xfff; 396 switch (devpriv->adc_range) { 397 case adc_bipolar10: 398 s->range_table = &range_rti800_ai_10_bipolar; 399 break; 400 case adc_bipolar5: 401 s->range_table = &range_rti800_ai_5_bipolar; 402 break; 403 case adc_unipolar10: 404 s->range_table = &range_rti800_ai_unipolar; 405 break; 406 } 407 408 s++; 409 if (this_board->has_ao) { 410 /* ao subdevice (only on rti815) */ 411 s->type = COMEDI_SUBD_AO; 412 s->subdev_flags = SDF_WRITABLE; 413 s->n_chan = 2; 414 s->insn_read = rti800_ao_insn_read; 415 s->insn_write = rti800_ao_insn_write; 416 s->maxdata = 0xfff; 417 s->range_table_list = devpriv->ao_range_type_list; 418 switch (devpriv->dac0_range) { 419 case dac_bipolar10: 420 devpriv->ao_range_type_list[0] = &range_bipolar10; 421 break; 422 case dac_unipolar10: 423 devpriv->ao_range_type_list[0] = &range_unipolar10; 424 break; 425 } 426 switch (devpriv->dac1_range) { 427 case dac_bipolar10: 428 devpriv->ao_range_type_list[1] = &range_bipolar10; 429 break; 430 case dac_unipolar10: 431 devpriv->ao_range_type_list[1] = &range_unipolar10; 432 break; 433 } 434 } else { 435 s->type = COMEDI_SUBD_UNUSED; 436 } 437 438 s++; 439 /* di */ 440 s->type = COMEDI_SUBD_DI; 441 s->subdev_flags = SDF_READABLE; 442 s->n_chan = 8; 443 s->insn_bits = rti800_di_insn_bits; 444 s->maxdata = 1; 445 s->range_table = &range_digital; 446 447 s++; 448 /* do */ 449 s->type = COMEDI_SUBD_DO; 450 s->subdev_flags = SDF_WRITABLE; 451 s->n_chan = 8; 452 s->insn_bits = rti800_do_insn_bits; 453 s->maxdata = 1; 454 s->range_table = &range_digital; 455 456/* don't yet know how to deal with counter/timers */ 457#if 0 458 s++; 459 /* do */ 460 s->type = COMEDI_SUBD_TIMER; 461#endif 462 463 printk("\n"); 464 465 return 0; 466} 467 468static int rti800_detach(struct comedi_device *dev) 469{ 470 printk("comedi%d: rti800: remove\n", dev->minor); 471 472 if (dev->iobase) 473 release_region(dev->iobase, RTI800_SIZE); 474 475 if (dev->irq) 476 free_irq(dev->irq, dev); 477 478 return 0; 479} 480