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comedi/drivers/das16.c
DAS16 driver
COMEDI - Linux Control and Measurement Device Interface
Copyright (C) 2000 David A. Schleef <ds@schleef.org>
Copyright (C) 2000 Chris R. Baugher <baugher@enteract.com>
Copyright (C) 2001,2002 Frank Mori Hess <fmhess@users.sourceforge.net>
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., 675 Mass Ave, Cambridge, MA 02139, USA.
************************************************************************
*/
/*
Driver: das16
Description: DAS16 compatible boards
Author: Sam Moore, Warren Jasper, ds, Chris Baugher, Frank Hess, Roman Fietze
Devices: [Keithley Metrabyte] DAS-16 (das-16), DAS-16G (das-16g),
DAS-16F (das-16f), DAS-1201 (das-1201), DAS-1202 (das-1202),
DAS-1401 (das-1401), DAS-1402 (das-1402), DAS-1601 (das-1601),
DAS-1602 (das-1602),
[ComputerBoards] PC104-DAS16/JR (pc104-das16jr),
PC104-DAS16JR/16 (pc104-das16jr/16),
CIO-DAS16JR/16 (cio-das16jr/16),
CIO-DAS16/JR (cio-das16/jr), CIO-DAS1401/12 (cio-das1401/12),
CIO-DAS1402/12 (cio-das1402/12), CIO-DAS1402/16 (cio-das1402/16),
CIO-DAS1601/12 (cio-das1601/12), CIO-DAS1602/12 (cio-das1602/12),
CIO-DAS1602/16 (cio-das1602/16), CIO-DAS16/330 (cio-das16/330)
Status: works
Updated: 2003-10-12
A rewrite of the das16 and das1600 drivers.
Options:
[0] - base io address
[1] - irq (does nothing, irq is not used anymore)
[2] - dma (optional, required for comedi_command support)
[3] - master clock speed in MHz (optional, 1 or 10, ignored if
board can probe clock, defaults to 1)
[4] - analog input range lowest voltage in microvolts (optional,
only useful if your board does not have software
programmable gain)
[5] - analog input range highest voltage in microvolts (optional,
only useful if board does not have software programmable
gain)
[6] - analog output range lowest voltage in microvolts (optional)
[7] - analog output range highest voltage in microvolts (optional)
[8] - use timer mode for DMA. Timer mode is needed e.g. for
buggy DMA controllers in NS CS5530A (Geode Companion), and for
'jr' cards that lack a hardware fifo. This option is no
longer needed, since timer mode is _always_ used.
Passing a zero for an option is the same as leaving it unspecified.
*/
/*
Testing and debugging help provided by Daniel Koch.
Keithley Manuals:
2309.PDF (das16)
4919.PDF (das1400, 1600)
4922.PDF (das-1400)
4923.PDF (das1200, 1400, 1600)
Computer boards manuals also available from their website www.measurementcomputing.com
*/
#include <linux/pci.h>
#include <linux/interrupt.h>
#include <asm/dma.h>
#include "../comedidev.h"
#include "8253.h"
#include "8255.h"
#include "comedi_fc.h"
#undef DEBUG
/* #define DEBUG */
#ifdef DEBUG
#define DEBUG_PRINT(format, args...) printk("das16: " format, ## args)
#else
#define DEBUG_PRINT(format, args...)
#endif
#define DAS16_SIZE 20 /* number of ioports */
#define DAS16_DMA_SIZE 0xff00 /* size in bytes of allocated dma buffer */
/*
cio-das16.pdf
"das16"
"das16/f"
0 a/d bits 0-3 start 12 bit
1 a/d bits 4-11 unused
2 mux read mux set
3 di 4 bit do 4 bit
4 unused ao0_lsb
5 unused ao0_msb
6 unused ao1_lsb
7 unused ao1_msb
8 status eoc uni/bip interrupt reset
9 dma, int, trig ctrl set dma, int
a pacer control unused
b reserved reserved
cdef 8254
0123 8255
*/
/*
cio-das16jr.pdf
"das16jr"
0 a/d bits 0-3 start 12 bit
1 a/d bits 4-11 unused
2 mux read mux set
3 di 4 bit do 4 bit
4567 unused unused
8 status eoc uni/bip interrupt reset
9 dma, int, trig ctrl set dma, int
a pacer control unused
b gain status gain control
cdef 8254
*/
/*
cio-das16jr_16.pdf
"das16jr_16"
0 a/d bits 0-7 start 16 bit
1 a/d bits 8-15 unused
2 mux read mux set
3 di 4 bit do 4 bit
4567 unused unused
8 status eoc uni/bip interrupt reset
9 dma, int, trig ctrl set dma, int
a pacer control unused
b gain status gain control
cdef 8254
*/
/*
cio-das160x-1x.pdf
"das1601/12"
"das1602/12"
"das1602/16"
0 a/d bits 0-3 start 12 bit
1 a/d bits 4-11 unused
2 mux read mux set
3 di 4 bit do 4 bit
4 unused ao0_lsb
5 unused ao0_msb
6 unused ao1_lsb
7 unused ao1_msb
8 status eoc uni/bip interrupt reset
9 dma, int, trig ctrl set dma, int
a pacer control unused
b gain status gain control
cdef 8254
400 8255
404 unused conversion enable
405 unused burst enable
406 unused das1600 enable
407 status
*/
static const int sample_size = 2; /* size in bytes of a sample from board */
#define DAS16_TRIG 0
#define DAS16_AI_LSB 0
#define DAS16_AI_MSB 1
#define DAS16_MUX 2
#define DAS16_DIO 3
#define DAS16_AO_LSB(x) ((x)?6:4)
#define DAS16_AO_MSB(x) ((x)?7:5)
#define DAS16_STATUS 8
#define BUSY (1<<7)
#define UNIPOLAR (1<<6)
#define DAS16_MUXBIT (1<<5)
#define DAS16_INT (1<<4)
#define DAS16_CONTROL 9
#define DAS16_INTE (1<<7)
#define DAS16_IRQ(x) (((x) & 0x7) << 4)
#define DMA_ENABLE (1<<2)
#define PACING_MASK 0x3
#define INT_PACER 0x03
#define EXT_PACER 0x02
#define DAS16_SOFT 0x00
#define DAS16_PACER 0x0A
#define DAS16_CTR0 (1<<1)
#define DAS16_TRIG0 (1<<0)
#define BURST_LEN_BITS(x) (((x) & 0xf) << 4)
#define DAS16_GAIN 0x0B
#define DAS16_CNTR0_DATA 0x0C
#define DAS16_CNTR1_DATA 0x0D
#define DAS16_CNTR2_DATA 0x0E
#define DAS16_CNTR_CONTROL 0x0F
#define DAS16_TERM_CNT 0x00
#define DAS16_ONE_SHOT 0x02
#define DAS16_RATE_GEN 0x04
#define DAS16_CNTR_LSB_MSB 0x30
#define DAS16_CNTR0 0x00
#define DAS16_CNTR1 0x40
#define DAS16_CNTR2 0x80
#define DAS1600_CONV 0x404
#define DAS1600_CONV_DISABLE 0x40
#define DAS1600_BURST 0x405
#define DAS1600_BURST_VAL 0x40
#define DAS1600_ENABLE 0x406
#define DAS1600_ENABLE_VAL 0x40
#define DAS1600_STATUS_B 0x407
#define DAS1600_BME 0x40
#define DAS1600_ME 0x20
#define DAS1600_CD 0x10
#define DAS1600_WS 0x02
#define DAS1600_CLK_10MHZ 0x01
static const struct comedi_lrange range_das1x01_bip = { 4, {
BIP_RANGE(10),
BIP_RANGE(1),
BIP_RANGE(0.1),
BIP_RANGE(0.01),
}
};
static const struct comedi_lrange range_das1x01_unip = { 4, {
UNI_RANGE(10),
UNI_RANGE(1),
UNI_RANGE(0.1),
UNI_RANGE(0.01),
}
};
static const struct comedi_lrange range_das1x02_bip = { 4, {
BIP_RANGE(10),
BIP_RANGE(5),
BIP_RANGE(2.5),
BIP_RANGE(1.25),
}
};
static const struct comedi_lrange range_das1x02_unip = { 4, {
UNI_RANGE(10),
UNI_RANGE(5),
UNI_RANGE(2.5),
UNI_RANGE(1.25),
}
};
static const struct comedi_lrange range_das16jr = { 9, {
/* also used by 16/330 */
BIP_RANGE(10),
BIP_RANGE(5),
BIP_RANGE(2.5),
BIP_RANGE(1.25),
BIP_RANGE(0.625),
UNI_RANGE(10),
UNI_RANGE(5),
UNI_RANGE(2.5),
UNI_RANGE(1.25),
}
};
static const struct comedi_lrange range_das16jr_16 = { 8, {
BIP_RANGE(10),
BIP_RANGE(5),
BIP_RANGE(2.5),
BIP_RANGE(1.25),
UNI_RANGE(10),
UNI_RANGE(5),
UNI_RANGE(2.5),
UNI_RANGE(1.25),
}
};
static const int das16jr_gainlist[] = { 8, 0, 1, 2, 3, 4, 5, 6, 7 };
static const int das16jr_16_gainlist[] = { 0, 1, 2, 3, 4, 5, 6, 7 };
static const int das1600_gainlist[] = { 0, 1, 2, 3 };
enum {
das16_pg_none = 0,
das16_pg_16jr,
das16_pg_16jr_16,
das16_pg_1601,
das16_pg_1602,
};
static const int *const das16_gainlists[] = {
NULL,
das16jr_gainlist,
das16jr_16_gainlist,
das1600_gainlist,
das1600_gainlist,
};
static const struct comedi_lrange *const das16_ai_uni_lranges[] = {
&range_unknown,
&range_das16jr,
&range_das16jr_16,
&range_das1x01_unip,
&range_das1x02_unip,
};
static const struct comedi_lrange *const das16_ai_bip_lranges[] = {
&range_unknown,
&range_das16jr,
&range_das16jr_16,
&range_das1x01_bip,
&range_das1x02_bip,
};
struct munge_info {
uint8_t byte;
unsigned have_byte:1;
};
static int das16_ao_winsn(struct comedi_device *dev, struct comedi_subdevice *s,
struct comedi_insn *insn, unsigned int *data);
static int das16_do_wbits(struct comedi_device *dev, struct comedi_subdevice *s,
struct comedi_insn *insn, unsigned int *data);
static int das16_di_rbits(struct comedi_device *dev, struct comedi_subdevice *s,
struct comedi_insn *insn, unsigned int *data);
static int das16_ai_rinsn(struct comedi_device *dev, struct comedi_subdevice *s,
struct comedi_insn *insn, unsigned int *data);
static int das16_cmd_test(struct comedi_device *dev, struct comedi_subdevice *s,
struct comedi_cmd *cmd);
static int das16_cmd_exec(struct comedi_device *dev,
struct comedi_subdevice *s);
static int das16_cancel(struct comedi_device *dev, struct comedi_subdevice *s);
static void das16_ai_munge(struct comedi_device *dev,
struct comedi_subdevice *s, void *array,
unsigned int num_bytes,
unsigned int start_chan_index);
static void das16_reset(struct comedi_device *dev);
static irqreturn_t das16_dma_interrupt(int irq, void *d);
static void das16_timer_interrupt(unsigned long arg);
static void das16_interrupt(struct comedi_device *dev);
static unsigned int das16_set_pacer(struct comedi_device *dev, unsigned int ns,
int flags);
static int das1600_mode_detect(struct comedi_device *dev);
static unsigned int das16_suggest_transfer_size(struct comedi_device *dev,
struct comedi_cmd cmd);
static void reg_dump(struct comedi_device *dev);
struct das16_board {
const char *name;
void *ai;
unsigned int ai_nbits;
unsigned int ai_speed; /* max conversion speed in nanosec */
unsigned int ai_pg;
void *ao;
unsigned int ao_nbits;
void *di;
void *do_;
unsigned int i8255_offset;
unsigned int i8254_offset;
unsigned int size;
unsigned int id;
};
static const struct das16_board das16_boards[] = {
{
.name = "das-16",
.ai = das16_ai_rinsn,
.ai_nbits = 12,
.ai_speed = 15000,
.ai_pg = das16_pg_none,
.ao = das16_ao_winsn,
.ao_nbits = 12,
.di = das16_di_rbits,
.do_ = das16_do_wbits,
.i8255_offset = 0x10,
.i8254_offset = 0x0c,
.size = 0x14,
.id = 0x00,
},
{
.name = "das-16g",
.ai = das16_ai_rinsn,
.ai_nbits = 12,
.ai_speed = 15000,
.ai_pg = das16_pg_none,
.ao = das16_ao_winsn,
.ao_nbits = 12,
.di = das16_di_rbits,
.do_ = das16_do_wbits,
.i8255_offset = 0x10,
.i8254_offset = 0x0c,
.size = 0x14,
.id = 0x00,
},
{
.name = "das-16f",
.ai = das16_ai_rinsn,
.ai_nbits = 12,
.ai_speed = 8500,
.ai_pg = das16_pg_none,
.ao = das16_ao_winsn,
.ao_nbits = 12,
.di = das16_di_rbits,
.do_ = das16_do_wbits,
.i8255_offset = 0x10,
.i8254_offset = 0x0c,
.size = 0x14,
.id = 0x00,
},
{
.name = "cio-das16", /* cio-das16.pdf */
.ai = das16_ai_rinsn,
.ai_nbits = 12,
.ai_speed = 20000,
.ai_pg = das16_pg_none,
.ao = das16_ao_winsn,
.ao_nbits = 12,
.di = das16_di_rbits,
.do_ = das16_do_wbits,
.i8255_offset = 0x10,
.i8254_offset = 0x0c,
.size = 0x14,
.id = 0x80,
},
{
.name = "cio-das16/f", /* das16.pdf */
.ai = das16_ai_rinsn,
.ai_nbits = 12,
.ai_speed = 10000,
.ai_pg = das16_pg_none,
.ao = das16_ao_winsn,
.ao_nbits = 12,
.di = das16_di_rbits,
.do_ = das16_do_wbits,
.i8255_offset = 0x10,
.i8254_offset = 0x0c,
.size = 0x14,
.id = 0x80,
},
{
.name = "cio-das16/jr", /* cio-das16jr.pdf */
.ai = das16_ai_rinsn,
.ai_nbits = 12,
.ai_speed = 7692,
.ai_pg = das16_pg_16jr,
.ao = NULL,
.di = das16_di_rbits,
.do_ = das16_do_wbits,
.i8255_offset = 0,
.i8254_offset = 0x0c,
.size = 0x10,
.id = 0x00,
},
{
.name = "pc104-das16jr", /* pc104-das16jr_xx.pdf */
.ai = das16_ai_rinsn,
.ai_nbits = 12,
.ai_speed = 3300,
.ai_pg = das16_pg_16jr,
.ao = NULL,
.di = das16_di_rbits,
.do_ = das16_do_wbits,
.i8255_offset = 0,
.i8254_offset = 0x0c,
.size = 0x10,
.id = 0x00,
},
{
.name = "cio-das16jr/16", /* cio-das16jr_16.pdf */
.ai = das16_ai_rinsn,
.ai_nbits = 16,
.ai_speed = 10000,
.ai_pg = das16_pg_16jr_16,
.ao = NULL,
.di = das16_di_rbits,
.do_ = das16_do_wbits,
.i8255_offset = 0,
.i8254_offset = 0x0c,
.size = 0x10,
.id = 0x00,
},
{
.name = "pc104-das16jr/16", /* pc104-das16jr_xx.pdf */
.ai = das16_ai_rinsn,
.ai_nbits = 16,
.ai_speed = 10000,
.ai_pg = das16_pg_16jr_16,
.ao = NULL,
.di = das16_di_rbits,
.do_ = das16_do_wbits,
.i8255_offset = 0,
.i8254_offset = 0x0c,
.size = 0x10,
.id = 0x00,
},
{
.name = "das-1201", /* 4924.pdf (keithley user's manual) */
.ai = das16_ai_rinsn,
.ai_nbits = 12,
.ai_speed = 20000,
.ai_pg = das16_pg_none,
.ao = NULL,
.di = das16_di_rbits,
.do_ = das16_do_wbits,
.i8255_offset = 0x400,
.i8254_offset = 0x0c,
.size = 0x408,
.id = 0x20,
},
{
.name = "das-1202", /* 4924.pdf (keithley user's manual) */
.ai = das16_ai_rinsn,
.ai_nbits = 12,
.ai_speed = 10000,
.ai_pg = das16_pg_none,
.ao = NULL,
.di = das16_di_rbits,
.do_ = das16_do_wbits,
.i8255_offset = 0x400,
.i8254_offset = 0x0c,
.size = 0x408,
.id = 0x20,
},
{
.name = "das-1401", /* 4919.pdf and 4922.pdf (keithley user's manual) */
.ai = das16_ai_rinsn,
.ai_nbits = 12,
.ai_speed = 10000,
.ai_pg = das16_pg_1601,
.ao = NULL,
.di = das16_di_rbits,
.do_ = das16_do_wbits,
.i8255_offset = 0x0,
.i8254_offset = 0x0c,
.size = 0x408,
.id = 0xc0 /* 4919.pdf says id bits are 0xe0, 4922.pdf says 0xc0 */
},
{
.name = "das-1402", /* 4919.pdf and 4922.pdf (keithley user's manual) */
.ai = das16_ai_rinsn,
.ai_nbits = 12,
.ai_speed = 10000,
.ai_pg = das16_pg_1602,
.ao = NULL,
.di = das16_di_rbits,
.do_ = das16_do_wbits,
.i8255_offset = 0x0,
.i8254_offset = 0x0c,
.size = 0x408,
.id = 0xc0 /* 4919.pdf says id bits are 0xe0, 4922.pdf says 0xc0 */
},
{
.name = "das-1601", /* 4919.pdf */
.ai = das16_ai_rinsn,
.ai_nbits = 12,
.ai_speed = 10000,
.ai_pg = das16_pg_1601,
.ao = das16_ao_winsn,
.ao_nbits = 12,
.di = das16_di_rbits,
.do_ = das16_do_wbits,
.i8255_offset = 0x400,
.i8254_offset = 0x0c,
.size = 0x408,
.id = 0xc0},
{
.name = "das-1602", /* 4919.pdf */
.ai = das16_ai_rinsn,
.ai_nbits = 12,
.ai_speed = 10000,
.ai_pg = das16_pg_1602,
.ao = das16_ao_winsn,
.ao_nbits = 12,
.di = das16_di_rbits,
.do_ = das16_do_wbits,
.i8255_offset = 0x400,
.i8254_offset = 0x0c,
.size = 0x408,
.id = 0xc0},
{
.name = "cio-das1401/12", /* cio-das1400_series.pdf */
.ai = das16_ai_rinsn,
.ai_nbits = 12,
.ai_speed = 6250,
.ai_pg = das16_pg_1601,
.ao = NULL,
.di = das16_di_rbits,
.do_ = das16_do_wbits,
.i8255_offset = 0,
.i8254_offset = 0x0c,
.size = 0x408,
.id = 0xc0},
{
.name = "cio-das1402/12", /* cio-das1400_series.pdf */
.ai = das16_ai_rinsn,
.ai_nbits = 12,
.ai_speed = 6250,
.ai_pg = das16_pg_1602,
.ao = NULL,
.di = das16_di_rbits,
.do_ = das16_do_wbits,
.i8255_offset = 0,
.i8254_offset = 0x0c,
.size = 0x408,
.id = 0xc0},
{
.name = "cio-das1402/16", /* cio-das1400_series.pdf */
.ai = das16_ai_rinsn,
.ai_nbits = 16,
.ai_speed = 10000,
.ai_pg = das16_pg_1602,
.ao = NULL,
.di = das16_di_rbits,
.do_ = das16_do_wbits,
.i8255_offset = 0,
.i8254_offset = 0x0c,
.size = 0x408,
.id = 0xc0},
{
.name = "cio-das1601/12", /* cio-das160x-1x.pdf */
.ai = das16_ai_rinsn,
.ai_nbits = 12,
.ai_speed = 6250,
.ai_pg = das16_pg_1601,
.ao = das16_ao_winsn,
.ao_nbits = 12,
.di = das16_di_rbits,
.do_ = das16_do_wbits,
.i8255_offset = 0x400,
.i8254_offset = 0x0c,
.size = 0x408,
.id = 0xc0},
{
.name = "cio-das1602/12", /* cio-das160x-1x.pdf */
.ai = das16_ai_rinsn,
.ai_nbits = 12,
.ai_speed = 10000,
.ai_pg = das16_pg_1602,
.ao = das16_ao_winsn,
.ao_nbits = 12,
.di = das16_di_rbits,
.do_ = das16_do_wbits,
.i8255_offset = 0x400,
.i8254_offset = 0x0c,
.size = 0x408,
.id = 0xc0},
{
.name = "cio-das1602/16", /* cio-das160x-1x.pdf */
.ai = das16_ai_rinsn,
.ai_nbits = 16,
.ai_speed = 10000,
.ai_pg = das16_pg_1602,
.ao = das16_ao_winsn,
.ao_nbits = 12,
.di = das16_di_rbits,
.do_ = das16_do_wbits,
.i8255_offset = 0x400,
.i8254_offset = 0x0c,
.size = 0x408,
.id = 0xc0},
{
.name = "cio-das16/330", /* ? */
.ai = das16_ai_rinsn,
.ai_nbits = 12,
.ai_speed = 3030,
.ai_pg = das16_pg_16jr,
.ao = NULL,
.di = das16_di_rbits,
.do_ = das16_do_wbits,
.i8255_offset = 0,
.i8254_offset = 0x0c,
.size = 0x14,
.id = 0xf0},
#if 0
{
.name = "das16/330i", /* ? */
},
{
.name = "das16/jr/ctr5", /* ? */
},
{
.name = "cio-das16/m1/16", /* cio-das16_m1_16.pdf, this board is a bit quirky, no dma */
},
#endif
};
static int das16_attach(struct comedi_device *dev, struct comedi_devconfig *it);
static int das16_detach(struct comedi_device *dev);
static struct comedi_driver driver_das16 = {
.driver_name = "das16",
.module = THIS_MODULE,
.attach = das16_attach,
.detach = das16_detach,
.board_name = &das16_boards[0].name,
.num_names = ARRAY_SIZE(das16_boards),
.offset = sizeof(das16_boards[0]),
};
#define DAS16_TIMEOUT 1000
/* Period for timer interrupt in jiffies. It's a function
* to deal with possibility of dynamic HZ patches */
static inline int timer_period(void)
{
return HZ / 20;
}
struct das16_private_struct {
unsigned int ai_unipolar; /* unipolar flag */
unsigned int ai_singleended; /* single ended flag */
unsigned int clockbase; /* master clock speed in ns */
volatile unsigned int control_state; /* dma, interrupt and trigger control bits */
volatile unsigned long adc_byte_count; /* number of bytes remaining */
unsigned int divisor1; /* divisor dividing master clock to get conversion frequency */
unsigned int divisor2; /* divisor dividing master clock to get conversion frequency */
unsigned int dma_chan; /* dma channel */
uint16_t *dma_buffer[2];
dma_addr_t dma_buffer_addr[2];
unsigned int current_buffer;
volatile unsigned int dma_transfer_size; /* target number of bytes to transfer per dma shot */
/* user-defined analog input and output ranges defined from config options */
struct comedi_lrange *user_ai_range_table;
struct comedi_lrange *user_ao_range_table;
struct timer_list timer; /* for timed interrupt */
volatile short timer_running;
volatile short timer_mode; /* true if using timer mode */
};
#define devpriv ((struct das16_private_struct *)(dev->private))
#define thisboard ((struct das16_board *)(dev->board_ptr))
static int das16_cmd_test(struct comedi_device *dev, struct comedi_subdevice *s,
struct comedi_cmd *cmd)
{
int err = 0, tmp;
int gain, start_chan, i;
int mask;
/* make sure triggers are valid */
tmp = cmd->start_src;
cmd->start_src &= TRIG_NOW;
if (!cmd->start_src || tmp != cmd->start_src)
err++;
tmp = cmd->scan_begin_src;
mask = TRIG_FOLLOW;
/* if board supports burst mode */
if (thisboard->size > 0x400)
mask |= TRIG_TIMER | TRIG_EXT;
cmd->scan_begin_src &= mask;
if (!cmd->scan_begin_src || tmp != cmd->scan_begin_src)
err++;
tmp = cmd->convert_src;
mask = TRIG_TIMER | TRIG_EXT;
/* if board supports burst mode */
if (thisboard->size > 0x400)
mask |= TRIG_NOW;
cmd->convert_src &= mask;
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->scan_begin_src != TRIG_TIMER &&
cmd->scan_begin_src != TRIG_EXT &&
cmd->scan_begin_src != TRIG_FOLLOW)
err++;
if (cmd->convert_src != TRIG_TIMER &&
cmd->convert_src != TRIG_EXT && cmd->convert_src != TRIG_NOW)
err++;
if (cmd->stop_src != TRIG_NONE && cmd->stop_src != TRIG_COUNT)
err++;
/* make sure scan_begin_src and convert_src dont conflict */
if (cmd->scan_begin_src == TRIG_FOLLOW && cmd->convert_src == TRIG_NOW)
err++;
if (cmd->scan_begin_src != TRIG_FOLLOW && cmd->convert_src != TRIG_NOW)
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_FOLLOW) {
/* internal trigger */
if (cmd->scan_begin_arg != 0) {
cmd->scan_begin_arg = 0;
err++;
}
}
if (cmd->scan_end_arg != cmd->chanlist_len) {
cmd->scan_end_arg = cmd->chanlist_len;
err++;
}
/* check against maximum frequency */
if (cmd->scan_begin_src == TRIG_TIMER) {
if (cmd->scan_begin_arg <
thisboard->ai_speed * cmd->chanlist_len) {
cmd->scan_begin_arg =
thisboard->ai_speed * cmd->chanlist_len;
err++;
}
}
if (cmd->convert_src == TRIG_TIMER) {
if (cmd->convert_arg < thisboard->ai_speed) {
cmd->convert_arg = thisboard->ai_speed;
err++;
}
}
if (cmd->stop_src == TRIG_NONE) {
if (cmd->stop_arg != 0) {
cmd->stop_arg = 0;
err++;
}
}
if (err)
return 3;
/* step 4: fix up arguments */
if (cmd->scan_begin_src == TRIG_TIMER) {
unsigned int tmp = cmd->scan_begin_arg;
/* set divisors, correct timing arguments */
i8253_cascade_ns_to_timer_2div(devpriv->clockbase,
&(devpriv->divisor1),
&(devpriv->divisor2),
&(cmd->scan_begin_arg),
cmd->flags & TRIG_ROUND_MASK);
err += (tmp != cmd->scan_begin_arg);
}
if (cmd->convert_src == TRIG_TIMER) {
unsigned int tmp = cmd->convert_arg;
/* set divisors, correct timing arguments */
i8253_cascade_ns_to_timer_2div(devpriv->clockbase,
&(devpriv->divisor1),
&(devpriv->divisor2),
&(cmd->convert_arg),
cmd->flags & TRIG_ROUND_MASK);
err += (tmp != cmd->convert_arg);
}
if (err)
return 4;
/* check channel/gain list against card's limitations */
if (cmd->chanlist) {
gain = CR_RANGE(cmd->chanlist[0]);
start_chan = CR_CHAN(cmd->chanlist[0]);
for (i = 1; i < cmd->chanlist_len; i++) {
if (CR_CHAN(cmd->chanlist[i]) !=
(start_chan + i) % s->n_chan) {
comedi_error(dev,
"entries in chanlist must be consecutive channels, counting upwards\n");
err++;
}
if (CR_RANGE(cmd->chanlist[i]) != gain) {
comedi_error(dev,
"entries in chanlist must all have the same gain\n");
err++;
}
}
}
if (err)
return 5;
return 0;
}
static int das16_cmd_exec(struct comedi_device *dev, struct comedi_subdevice *s)
{
struct comedi_async *async = s->async;
struct comedi_cmd *cmd = &async->cmd;
unsigned int byte;
unsigned long flags;
int range;
if (devpriv->dma_chan == 0 || (dev->irq == 0
&& devpriv->timer_mode == 0)) {
comedi_error(dev,
"irq (or use of 'timer mode') dma required to execute comedi_cmd");
return -1;
}
if (cmd->flags & TRIG_RT) {
comedi_error(dev,
"isa dma transfers cannot be performed with TRIG_RT, aborting");
return -1;
}
devpriv->adc_byte_count =
cmd->stop_arg * cmd->chanlist_len * sizeof(uint16_t);
/* disable conversions for das1600 mode */
if (thisboard->size > 0x400) {
outb(DAS1600_CONV_DISABLE, dev->iobase + DAS1600_CONV);
}
/* set scan limits */
byte = CR_CHAN(cmd->chanlist[0]);
byte |= CR_CHAN(cmd->chanlist[cmd->chanlist_len - 1]) << 4;
outb(byte, dev->iobase + DAS16_MUX);
/* set gain (this is also burst rate register but according to
* computer boards manual, burst rate does nothing, even on keithley cards) */
if (thisboard->ai_pg != das16_pg_none) {
range = CR_RANGE(cmd->chanlist[0]);
outb((das16_gainlists[thisboard->ai_pg])[range],
dev->iobase + DAS16_GAIN);
}
/* set counter mode and counts */
cmd->convert_arg =
das16_set_pacer(dev, cmd->convert_arg,
cmd->flags & TRIG_ROUND_MASK);
DEBUG_PRINT("pacer period: %d ns\n", cmd->convert_arg);
/* enable counters */
byte = 0;
/* Enable burst mode if appropriate. */
if (thisboard->size > 0x400) {
if (cmd->convert_src == TRIG_NOW) {
outb(DAS1600_BURST_VAL, dev->iobase + DAS1600_BURST);
/* set burst length */
byte |= BURST_LEN_BITS(cmd->chanlist_len - 1);
} else {
outb(0, dev->iobase + DAS1600_BURST);
}
}
outb(byte, dev->iobase + DAS16_PACER);
/* set up dma transfer */
flags = claim_dma_lock();
disable_dma(devpriv->dma_chan);
/* clear flip-flop to make sure 2-byte registers for
* count and address get set correctly */
clear_dma_ff(devpriv->dma_chan);
devpriv->current_buffer = 0;
set_dma_addr(devpriv->dma_chan,
devpriv->dma_buffer_addr[devpriv->current_buffer]);
/* set appropriate size of transfer */
devpriv->dma_transfer_size = das16_suggest_transfer_size(dev, *cmd);
set_dma_count(devpriv->dma_chan, devpriv->dma_transfer_size);
enable_dma(devpriv->dma_chan);
release_dma_lock(flags);
/* set up interrupt */
if (devpriv->timer_mode) {
devpriv->timer_running = 1;
devpriv->timer.expires = jiffies + timer_period();
add_timer(&devpriv->timer);
devpriv->control_state &= ~DAS16_INTE;
} else {
/* clear interrupt bit */
outb(0x00, dev->iobase + DAS16_STATUS);
/* enable interrupts */
devpriv->control_state |= DAS16_INTE;
}
devpriv->control_state |= DMA_ENABLE;
devpriv->control_state &= ~PACING_MASK;
if (cmd->convert_src == TRIG_EXT)
devpriv->control_state |= EXT_PACER;
else
devpriv->control_state |= INT_PACER;
outb(devpriv->control_state, dev->iobase + DAS16_CONTROL);
/* Enable conversions if using das1600 mode */
if (thisboard->size > 0x400) {
outb(0, dev->iobase + DAS1600_CONV);
}
return 0;
}
static int das16_cancel(struct comedi_device *dev, struct comedi_subdevice *s)
{
unsigned long flags;
spin_lock_irqsave(&dev->spinlock, flags);
/* disable interrupts, dma and pacer clocked conversions */
devpriv->control_state &= ~DAS16_INTE & ~PACING_MASK & ~DMA_ENABLE;
outb(devpriv->control_state, dev->iobase + DAS16_CONTROL);
if (devpriv->dma_chan)
disable_dma(devpriv->dma_chan);
/* disable SW timer */
if (devpriv->timer_mode && devpriv->timer_running) {
devpriv->timer_running = 0;
del_timer(&devpriv->timer);
}
/* disable burst mode */
if (thisboard->size > 0x400) {
outb(0, dev->iobase + DAS1600_BURST);
}
spin_unlock_irqrestore(&dev->spinlock, flags);
return 0;
}
static void das16_reset(struct comedi_device *dev)
{
outb(0, dev->iobase + DAS16_STATUS);
outb(0, dev->iobase + DAS16_CONTROL);
outb(0, dev->iobase + DAS16_PACER);
outb(0, dev->iobase + DAS16_CNTR_CONTROL);
}
static int das16_ai_rinsn(struct comedi_device *dev, struct comedi_subdevice *s,
struct comedi_insn *insn, unsigned int *data)
{
int i, n;
int range;
int chan;
int msb, lsb;
/* disable interrupts and pacing */
devpriv->control_state &= ~DAS16_INTE & ~DMA_ENABLE & ~PACING_MASK;
outb(devpriv->control_state, dev->iobase + DAS16_CONTROL);
/* set multiplexer */
chan = CR_CHAN(insn->chanspec);
chan |= CR_CHAN(insn->chanspec) << 4;
outb(chan, dev->iobase + DAS16_MUX);
/* set gain */
if (thisboard->ai_pg != das16_pg_none) {
range = CR_RANGE(insn->chanspec);
outb((das16_gainlists[thisboard->ai_pg])[range],
dev->iobase + DAS16_GAIN);
}
for (n = 0; n < insn->n; n++) {
/* trigger conversion */
outb_p(0, dev->iobase + DAS16_TRIG);
for (i = 0; i < DAS16_TIMEOUT; i++) {
if (!(inb(dev->iobase + DAS16_STATUS) & BUSY))
break;
}
if (i == DAS16_TIMEOUT) {
printk("das16: timeout\n");
return -ETIME;
}
msb = inb(dev->iobase + DAS16_AI_MSB);
lsb = inb(dev->iobase + DAS16_AI_LSB);
if (thisboard->ai_nbits == 12) {
data[n] = ((lsb >> 4) & 0xf) | (msb << 4);
} else {
data[n] = lsb | (msb << 8);
}
}
return n;
}
static int das16_di_rbits(struct comedi_device *dev, struct comedi_subdevice *s,
struct comedi_insn *insn, unsigned int *data)
{
unsigned int bits;
bits = inb(dev->iobase + DAS16_DIO) & 0xf;
data[1] = bits;
data[0] = 0;
return 2;
}
static int das16_do_wbits(struct comedi_device *dev, struct comedi_subdevice *s,
struct comedi_insn *insn, unsigned int *data)
{
unsigned int wbits;
/* only set bits that have been masked */
data[0] &= 0xf;
wbits = s->state;
/* zero bits that have been masked */
wbits &= ~data[0];
/* set masked bits */
wbits |= data[0] & data[1];
s->state = wbits;
data[1] = wbits;
outb(s->state, dev->iobase + DAS16_DIO);
return 2;
}
static int das16_ao_winsn(struct comedi_device *dev, struct comedi_subdevice *s,
struct comedi_insn *insn, unsigned int *data)
{
int i;
int lsb, msb;
int chan;
chan = CR_CHAN(insn->chanspec);
for (i = 0; i < insn->n; i++) {
if (thisboard->ao_nbits == 12) {
lsb = (data[i] << 4) & 0xff;
msb = (data[i] >> 4) & 0xff;
} else {
lsb = data[i] & 0xff;
msb = (data[i] >> 8) & 0xff;
}
outb(lsb, dev->iobase + DAS16_AO_LSB(chan));
outb(msb, dev->iobase + DAS16_AO_MSB(chan));
}
return i;
}
static irqreturn_t das16_dma_interrupt(int irq, void *d)
{
int status;
struct comedi_device *dev = d;
status = inb(dev->iobase + DAS16_STATUS);
if ((status & DAS16_INT) == 0) {
DEBUG_PRINT("spurious interrupt\n");
return IRQ_NONE;
}
/* clear interrupt */
outb(0x00, dev->iobase + DAS16_STATUS);
das16_interrupt(dev);
return IRQ_HANDLED;
}
static void das16_timer_interrupt(unsigned long arg)
{
struct comedi_device *dev = (struct comedi_device *)arg;
das16_interrupt(dev);
if (devpriv->timer_running)
mod_timer(&devpriv->timer, jiffies + timer_period());
}
/* the pc104-das16jr (at least) has problems if the dma
transfer is interrupted in the middle of transferring
a 16 bit sample, so this function takes care to get
an even transfer count after disabling dma
channel.
*/
static int disable_dma_on_even(struct comedi_device *dev)
{
int residue;
int i;
static const int disable_limit = 100;
static const int enable_timeout = 100;
disable_dma(devpriv->dma_chan);
residue = get_dma_residue(devpriv->dma_chan);
for (i = 0; i < disable_limit && (residue % 2); ++i) {
int j;
enable_dma(devpriv->dma_chan);
for (j = 0; j < enable_timeout; ++j) {
int new_residue;
udelay(2);
new_residue = get_dma_residue(devpriv->dma_chan);
if (new_residue != residue)
break;
}
disable_dma(devpriv->dma_chan);
residue = get_dma_residue(devpriv->dma_chan);
}
if (i == disable_limit) {
comedi_error(dev,
"failed to get an even dma transfer, could be trouble.");
}
return residue;
}
static void das16_interrupt(struct comedi_device *dev)
{
unsigned long dma_flags, spin_flags;
struct comedi_subdevice *s = dev->read_subdev;
struct comedi_async *async;
struct comedi_cmd *cmd;
int num_bytes, residue;
int buffer_index;
if (dev->attached == 0) {
comedi_error(dev, "premature interrupt");
return;
}
/* initialize async here to make sure it is not NULL */
async = s->async;
cmd = &async->cmd;
if (devpriv->dma_chan == 0) {
comedi_error(dev, "interrupt with no dma channel?");
return;
}
spin_lock_irqsave(&dev->spinlock, spin_flags);
if ((devpriv->control_state & DMA_ENABLE) == 0) {
spin_unlock_irqrestore(&dev->spinlock, spin_flags);
DEBUG_PRINT("interrupt while dma disabled?\n");
return;
}
dma_flags = claim_dma_lock();
clear_dma_ff(devpriv->dma_chan);
residue = disable_dma_on_even(dev);
/* figure out how many points to read */
if (residue > devpriv->dma_transfer_size) {
comedi_error(dev, "residue > transfer size!\n");
async->events |= COMEDI_CB_ERROR | COMEDI_CB_EOA;
num_bytes = 0;
} else
num_bytes = devpriv->dma_transfer_size - residue;
if (cmd->stop_src == TRIG_COUNT && num_bytes >= devpriv->adc_byte_count) {
num_bytes = devpriv->adc_byte_count;
async->events |= COMEDI_CB_EOA;
}
buffer_index = devpriv->current_buffer;
devpriv->current_buffer = (devpriv->current_buffer + 1) % 2;
devpriv->adc_byte_count -= num_bytes;
/* figure out how many bytes for next transfer */
if (cmd->stop_src == TRIG_COUNT && devpriv->timer_mode == 0 &&
devpriv->dma_transfer_size > devpriv->adc_byte_count)
devpriv->dma_transfer_size = devpriv->adc_byte_count;
/* re-enable dma */
if ((async->events & COMEDI_CB_EOA) == 0) {
set_dma_addr(devpriv->dma_chan,
devpriv->dma_buffer_addr[devpriv->current_buffer]);
set_dma_count(devpriv->dma_chan, devpriv->dma_transfer_size);
enable_dma(devpriv->dma_chan);
/* reenable conversions for das1600 mode, (stupid hardware) */
if (thisboard->size > 0x400 && devpriv->timer_mode == 0) {
outb(0x00, dev->iobase + DAS1600_CONV);
}
}
release_dma_lock(dma_flags);
spin_unlock_irqrestore(&dev->spinlock, spin_flags);
cfc_write_array_to_buffer(s,
devpriv->dma_buffer[buffer_index], num_bytes);
cfc_handle_events(dev, s);
}
static unsigned int das16_set_pacer(struct comedi_device *dev, unsigned int ns,
int rounding_flags)
{
i8253_cascade_ns_to_timer_2div(devpriv->clockbase, &(devpriv->divisor1),
&(devpriv->divisor2), &ns,
rounding_flags & TRIG_ROUND_MASK);
/* Write the values of ctr1 and ctr2 into counters 1 and 2 */
i8254_load(dev->iobase + DAS16_CNTR0_DATA, 0, 1, devpriv->divisor1, 2);
i8254_load(dev->iobase + DAS16_CNTR0_DATA, 0, 2, devpriv->divisor2, 2);
return ns;
}
static void reg_dump(struct comedi_device *dev)
{
DEBUG_PRINT("********DAS1600 REGISTER DUMP********\n");
DEBUG_PRINT("DAS16_MUX: %x\n", inb(dev->iobase + DAS16_MUX));
DEBUG_PRINT("DAS16_DIO: %x\n", inb(dev->iobase + DAS16_DIO));
DEBUG_PRINT("DAS16_STATUS: %x\n", inb(dev->iobase + DAS16_STATUS));
DEBUG_PRINT("DAS16_CONTROL: %x\n", inb(dev->iobase + DAS16_CONTROL));
DEBUG_PRINT("DAS16_PACER: %x\n", inb(dev->iobase + DAS16_PACER));
DEBUG_PRINT("DAS16_GAIN: %x\n", inb(dev->iobase + DAS16_GAIN));
DEBUG_PRINT("DAS16_CNTR_CONTROL: %x\n",
inb(dev->iobase + DAS16_CNTR_CONTROL));
DEBUG_PRINT("DAS1600_CONV: %x\n", inb(dev->iobase + DAS1600_CONV));
DEBUG_PRINT("DAS1600_BURST: %x\n", inb(dev->iobase + DAS1600_BURST));
DEBUG_PRINT("DAS1600_ENABLE: %x\n", inb(dev->iobase + DAS1600_ENABLE));
DEBUG_PRINT("DAS1600_STATUS_B: %x\n",
inb(dev->iobase + DAS1600_STATUS_B));
}
static int das16_probe(struct comedi_device *dev, struct comedi_devconfig *it)
{
int status;
int diobits;
/* status is available on all boards */
status = inb(dev->iobase + DAS16_STATUS);
if ((status & UNIPOLAR)) {
devpriv->ai_unipolar = 1;
} else {
devpriv->ai_unipolar = 0;
}
if ((status & DAS16_MUXBIT)) {
devpriv->ai_singleended = 1;
} else {
devpriv->ai_singleended = 0;
}
/* diobits indicates boards */
diobits = inb(dev->iobase + DAS16_DIO) & 0xf0;
printk(" id bits are 0x%02x\n", diobits);
if (thisboard->id != diobits) {
printk(" requested board's id bits are 0x%x (ignore)\n",
thisboard->id);
}
return 0;
}
static int das1600_mode_detect(struct comedi_device *dev)
{
int status = 0;
status = inb(dev->iobase + DAS1600_STATUS_B);
if (status & DAS1600_CLK_10MHZ) {
devpriv->clockbase = 100;
printk(" 10MHz pacer clock\n");
} else {
devpriv->clockbase = 1000;
printk(" 1MHz pacer clock\n");
}
reg_dump(dev);
return 0;
}
/*
*
* Options list:
* 0 I/O base
* 1 IRQ
* 2 DMA
* 3 Clock speed (in MHz)
*/
static int das16_attach(struct comedi_device *dev, struct comedi_devconfig *it)
{
struct comedi_subdevice *s;
int ret;
unsigned int irq;
unsigned long iobase;
unsigned int dma_chan;
int timer_mode;
unsigned long flags;
struct comedi_krange *user_ai_range, *user_ao_range;
iobase = it->options[0];
#if 0
irq = it->options[1];
timer_mode = it->options[8];
#endif
/* always use time_mode since using irq can drop samples while
* waiting for dma done interrupt (due to hardware limitations) */
irq = 0;
timer_mode = 1;
if (timer_mode)
irq = 0;
printk("comedi%d: das16:", dev->minor);
/* check that clock setting is valid */
if (it->options[3]) {
if (it->options[3] != 0 &&
it->options[3] != 1 && it->options[3] != 10) {
printk
("\n Invalid option. Master clock must be set to 1 or 10 (MHz)\n");
return -EINVAL;
}
}
ret = alloc_private(dev, sizeof(struct das16_private_struct));
if (ret < 0)
return ret;
if (thisboard->size < 0x400) {
printk(" 0x%04lx-0x%04lx\n", iobase, iobase + thisboard->size);
if (!request_region(iobase, thisboard->size, "das16")) {
printk(" I/O port conflict\n");
return -EIO;
}
} else {
printk(" 0x%04lx-0x%04lx 0x%04lx-0x%04lx\n",
iobase, iobase + 0x0f,
iobase + 0x400,
iobase + 0x400 + (thisboard->size & 0x3ff));
if (!request_region(iobase, 0x10, "das16")) {
printk(" I/O port conflict: 0x%04lx-0x%04lx\n",
iobase, iobase + 0x0f);
return -EIO;
}
if (!request_region(iobase + 0x400, thisboard->size & 0x3ff,
"das16")) {
release_region(iobase, 0x10);
printk(" I/O port conflict: 0x%04lx-0x%04lx\n",
iobase + 0x400,
iobase + 0x400 + (thisboard->size & 0x3ff));
return -EIO;
}
}
dev->iobase = iobase;
/* probe id bits to make sure they are consistent */
if (das16_probe(dev, it)) {
printk(" id bits do not match selected board, aborting\n");
return -EINVAL;
}
dev->board_name = thisboard->name;
/* get master clock speed */
if (thisboard->size < 0x400) {
if (it->options[3])
devpriv->clockbase = 1000 / it->options[3];
else
devpriv->clockbase = 1000; /* 1 MHz default */
} else {
das1600_mode_detect(dev);
}
/* now for the irq */
if (irq > 1 && irq < 8) {
ret = request_irq(irq, das16_dma_interrupt, 0, "das16", dev);
if (ret < 0)
return ret;
dev->irq = irq;
printk(" ( irq = %u )", irq);
} else if (irq == 0) {
printk(" ( no irq )");
} else {
printk(" invalid irq\n");
return -EINVAL;
}
/* initialize dma */
dma_chan = it->options[2];
if (dma_chan == 1 || dma_chan == 3) {
/* allocate dma buffers */
int i;
for (i = 0; i < 2; i++) {
devpriv->dma_buffer[i] = pci_alloc_consistent(NULL,
DAS16_DMA_SIZE,
&devpriv->
dma_buffer_addr
[i]);
if (devpriv->dma_buffer[i] == NULL)
return -ENOMEM;
}
if (request_dma(dma_chan, "das16")) {
printk(" failed to allocate dma channel %i\n",
dma_chan);
return -EINVAL;
}
devpriv->dma_chan = dma_chan;
flags = claim_dma_lock();
disable_dma(devpriv->dma_chan);
set_dma_mode(devpriv->dma_chan, DMA_MODE_READ);
release_dma_lock(flags);
printk(" ( dma = %u)\n", dma_chan);
} else if (dma_chan == 0) {
printk(" ( no dma )\n");
} else {
printk(" invalid dma channel\n");
return -EINVAL;
}
/* get any user-defined input range */
if (thisboard->ai_pg == das16_pg_none &&
(it->options[4] || it->options[5])) {
/* allocate single-range range table */
devpriv->user_ai_range_table =
kmalloc(sizeof(struct comedi_lrange) +
sizeof(struct comedi_krange), GFP_KERNEL);
/* initialize ai range */
devpriv->user_ai_range_table->length = 1;
user_ai_range = devpriv->user_ai_range_table->range;
user_ai_range->min = it->options[4];
user_ai_range->max = it->options[5];
user_ai_range->flags = UNIT_volt;
}
/* get any user-defined output range */
if (it->options[6] || it->options[7]) {
/* allocate single-range range table */
devpriv->user_ao_range_table =
kmalloc(sizeof(struct comedi_lrange) +
sizeof(struct comedi_krange), GFP_KERNEL);
/* initialize ao range */
devpriv->user_ao_range_table->length = 1;
user_ao_range = devpriv->user_ao_range_table->range;
user_ao_range->min = it->options[6];
user_ao_range->max = it->options[7];
user_ao_range->flags = UNIT_volt;
}
if (timer_mode) {
init_timer(&(devpriv->timer));
devpriv->timer.function = das16_timer_interrupt;
devpriv->timer.data = (unsigned long)dev;
}
devpriv->timer_mode = timer_mode ? 1 : 0;
ret = alloc_subdevices(dev, 5);
if (ret < 0)
return ret;
s = dev->subdevices + 0;
dev->read_subdev = s;
/* ai */
if (thisboard->ai) {
s->type = COMEDI_SUBD_AI;
s->subdev_flags = SDF_READABLE | SDF_CMD_READ;
if (devpriv->ai_singleended) {
s->n_chan = 16;
s->len_chanlist = 16;
s->subdev_flags |= SDF_GROUND;
} else {
s->n_chan = 8;
s->len_chanlist = 8;
s->subdev_flags |= SDF_DIFF;
}
s->maxdata = (1 << thisboard->ai_nbits) - 1;
if (devpriv->user_ai_range_table) { /* user defined ai range */
s->range_table = devpriv->user_ai_range_table;
} else if (devpriv->ai_unipolar) {
s->range_table = das16_ai_uni_lranges[thisboard->ai_pg];
} else {
s->range_table = das16_ai_bip_lranges[thisboard->ai_pg];
}
s->insn_read = thisboard->ai;
s->do_cmdtest = das16_cmd_test;
s->do_cmd = das16_cmd_exec;
s->cancel = das16_cancel;
s->munge = das16_ai_munge;
} else {
s->type = COMEDI_SUBD_UNUSED;
}
s = dev->subdevices + 1;
/* ao */
if (thisboard->ao) {
s->type = COMEDI_SUBD_AO;
s->subdev_flags = SDF_WRITABLE;
s->n_chan = 2;
s->maxdata = (1 << thisboard->ao_nbits) - 1;
if (devpriv->user_ao_range_table) { /* user defined ao range */
s->range_table = devpriv->user_ao_range_table;
} else {
s->range_table = &range_unknown;
}
s->insn_write = thisboard->ao;
} else {
s->type = COMEDI_SUBD_UNUSED;
}
s = dev->subdevices + 2;
/* di */
if (thisboard->di) {
s->type = COMEDI_SUBD_DI;
s->subdev_flags = SDF_READABLE;
s->n_chan = 4;
s->maxdata = 1;
s->range_table = &range_digital;
s->insn_bits = thisboard->di;
} else {
s->type = COMEDI_SUBD_UNUSED;
}
s = dev->subdevices + 3;
/* do */
if (thisboard->do_) {
s->type = COMEDI_SUBD_DO;
s->subdev_flags = SDF_WRITABLE | SDF_READABLE;
s->n_chan = 4;
s->maxdata = 1;
s->range_table = &range_digital;
s->insn_bits = thisboard->do_;
/* initialize digital output lines */
outb(s->state, dev->iobase + DAS16_DIO);
} else {
s->type = COMEDI_SUBD_UNUSED;
}
s = dev->subdevices + 4;
/* 8255 */
if (thisboard->i8255_offset != 0) {
subdev_8255_init(dev, s, NULL, (dev->iobase +
thisboard->i8255_offset));
} else {
s->type = COMEDI_SUBD_UNUSED;
}
das16_reset(dev);
/* set the interrupt level */
devpriv->control_state = DAS16_IRQ(dev->irq);
outb(devpriv->control_state, dev->iobase + DAS16_CONTROL);
/* turn on das1600 mode if available */
if (thisboard->size > 0x400) {
outb(DAS1600_ENABLE_VAL, dev->iobase + DAS1600_ENABLE);
outb(0, dev->iobase + DAS1600_CONV);
outb(0, dev->iobase + DAS1600_BURST);
}
return 0;
}
static int das16_detach(struct comedi_device *dev)
{
printk("comedi%d: das16: remove\n", dev->minor);
das16_reset(dev);
if (dev->subdevices)
subdev_8255_cleanup(dev, dev->subdevices + 4);
if (devpriv) {
int i;
for (i = 0; i < 2; i++) {
if (devpriv->dma_buffer[i])
pci_free_consistent(NULL, DAS16_DMA_SIZE,
devpriv->dma_buffer[i],
devpriv->
dma_buffer_addr[i]);
}
if (devpriv->dma_chan)
free_dma(devpriv->dma_chan);
if (devpriv->user_ai_range_table)
kfree(devpriv->user_ai_range_table);
if (devpriv->user_ao_range_table)
kfree(devpriv->user_ao_range_table);
}
if (dev->irq)
free_irq(dev->irq, dev);
if (dev->iobase) {
if (thisboard->size < 0x400) {
release_region(dev->iobase, thisboard->size);
} else {
release_region(dev->iobase, 0x10);
release_region(dev->iobase + 0x400,
thisboard->size & 0x3ff);
}
}
return 0;
}
COMEDI_INITCLEANUP(driver_das16);
/* utility function that suggests a dma transfer size in bytes */
static unsigned int das16_suggest_transfer_size(struct comedi_device *dev,
struct comedi_cmd cmd)
{
unsigned int size;
unsigned int freq;
/* if we are using timer interrupt, we don't care how long it
* will take to complete transfer since it will be interrupted
* by timer interrupt */
if (devpriv->timer_mode)
return DAS16_DMA_SIZE;
/* otherwise, we are relying on dma terminal count interrupt,
* so pick a reasonable size */
if (cmd.convert_src == TRIG_TIMER)
freq = 1000000000 / cmd.convert_arg;
else if (cmd.scan_begin_src == TRIG_TIMER)
freq = (1000000000 / cmd.scan_begin_arg) * cmd.chanlist_len;
/* return some default value */
else
freq = 0xffffffff;
if (cmd.flags & TRIG_WAKE_EOS) {
size = sample_size * cmd.chanlist_len;
} else {
/* make buffer fill in no more than 1/3 second */
size = (freq / 3) * sample_size;
}
/* set a minimum and maximum size allowed */
if (size > DAS16_DMA_SIZE)
size = DAS16_DMA_SIZE - DAS16_DMA_SIZE % sample_size;
else if (size < sample_size)
size = sample_size;
if (cmd.stop_src == TRIG_COUNT && size > devpriv->adc_byte_count)
size = devpriv->adc_byte_count;
return size;
}
static void das16_ai_munge(struct comedi_device *dev,
struct comedi_subdevice *s, void *array,
unsigned int num_bytes,
unsigned int start_chan_index)
{
unsigned int i, num_samples = num_bytes / sizeof(short);
short *data = array;
for (i = 0; i < num_samples; i++) {
data[i] = le16_to_cpu(data[i]);
if (thisboard->ai_nbits == 12) {
data[i] = (data[i] >> 4) & 0xfff;
}
}
}
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