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* comedi/drivers/jr3_pci.c
* hardware driver for JR3/PCI force sensor board
*
* COMEDI - Linux Control and Measurement Device Interface
* Copyright (C) 2007 Anders Blomdell <anders.blomdell@control.lth.se>
*
* 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.
*/
/*
* Driver: jr3_pci
* Description: JR3/PCI force sensor board
* Author: Anders Blomdell <anders.blomdell@control.lth.se>
* Updated: Thu, 01 Nov 2012 17:34:55 +0000
* Status: works
* Devices: [JR3] PCI force sensor board (jr3_pci)
*
* Configuration options:
* None
*
* Manual configuration of comedi devices is not supported by this
* driver; supported PCI devices are configured as comedi devices
* automatically.
*
* The DSP on the board requires initialization code, which can be
* loaded by placing it in /lib/firmware/comedi. The initialization
* code should be somewhere on the media you got with your card. One
* version is available from http://www.comedi.org in the
* comedi_nonfree_firmware tarball. The file is called "jr3pci.idm".
*/
#include <linux/kernel.h>
#include <linux/module.h>
#include <linux/delay.h>
#include <linux/ctype.h>
#include <linux/jiffies.h>
#include <linux/slab.h>
#include <linux/timer.h>
#include "../comedi_pci.h"
#include "jr3_pci.h"
#define PCI_VENDOR_ID_JR3 0x1762
enum jr3_pci_boardid {
BOARD_JR3_1,
BOARD_JR3_2,
BOARD_JR3_3,
BOARD_JR3_4,
};
struct jr3_pci_board {
const char *name;
int n_subdevs;
};
static const struct jr3_pci_board jr3_pci_boards[] = {
[BOARD_JR3_1] = {
.name = "jr3_pci_1",
.n_subdevs = 1,
},
[BOARD_JR3_2] = {
.name = "jr3_pci_2",
.n_subdevs = 2,
},
[BOARD_JR3_3] = {
.name = "jr3_pci_3",
.n_subdevs = 3,
},
[BOARD_JR3_4] = {
.name = "jr3_pci_4",
.n_subdevs = 4,
},
};
struct jr3_pci_transform {
struct {
u16 link_type;
s16 link_amount;
} link[8];
};
struct jr3_pci_poll_delay {
int min;
int max;
};
struct jr3_pci_dev_private {
struct timer_list timer;
};
union jr3_pci_single_range {
struct comedi_lrange l;
char _reserved[offsetof(struct comedi_lrange, range[1])];
};
enum jr3_pci_poll_state {
state_jr3_poll,
state_jr3_init_wait_for_offset,
state_jr3_init_transform_complete,
state_jr3_init_set_full_scale_complete,
state_jr3_init_use_offset_complete,
state_jr3_done
};
struct jr3_pci_subdev_private {
struct jr3_sensor __iomem *sensor;
unsigned long next_time_min;
enum jr3_pci_poll_state state;
int serial_no;
int model_no;
union jr3_pci_single_range range[9];
const struct comedi_lrange *range_table_list[8 * 7 + 2];
unsigned int maxdata_list[8 * 7 + 2];
u16 errors;
int retries;
};
static struct jr3_pci_poll_delay poll_delay_min_max(int min, int max)
{
struct jr3_pci_poll_delay result;
result.min = min;
result.max = max;
return result;
}
static int is_complete(struct jr3_sensor __iomem *sensor)
{
return get_s16(&sensor->command_word0) == 0;
}
static void set_transforms(struct jr3_sensor __iomem *sensor,
const struct jr3_pci_transform *transf, short num)
{
int i;
num &= 0x000f; /* Make sure that 0 <= num <= 15 */
for (i = 0; i < 8; i++) {
set_u16(&sensor->transforms[num].link[i].link_type,
transf->link[i].link_type);
udelay(1);
set_s16(&sensor->transforms[num].link[i].link_amount,
transf->link[i].link_amount);
udelay(1);
if (transf->link[i].link_type == end_x_form)
break;
}
}
static void use_transform(struct jr3_sensor __iomem *sensor,
short transf_num)
{
set_s16(&sensor->command_word0, 0x0500 + (transf_num & 0x000f));
}
static void use_offset(struct jr3_sensor __iomem *sensor, short offset_num)
{
set_s16(&sensor->command_word0, 0x0600 + (offset_num & 0x000f));
}
static void set_offset(struct jr3_sensor __iomem *sensor)
{
set_s16(&sensor->command_word0, 0x0700);
}
struct six_axis_t {
s16 fx;
s16 fy;
s16 fz;
s16 mx;
s16 my;
s16 mz;
};
static void set_full_scales(struct jr3_sensor __iomem *sensor,
struct six_axis_t full_scale)
{
set_s16(&sensor->full_scale.fx, full_scale.fx);
set_s16(&sensor->full_scale.fy, full_scale.fy);
set_s16(&sensor->full_scale.fz, full_scale.fz);
set_s16(&sensor->full_scale.mx, full_scale.mx);
set_s16(&sensor->full_scale.my, full_scale.my);
set_s16(&sensor->full_scale.mz, full_scale.mz);
set_s16(&sensor->command_word0, 0x0a00);
}
static struct six_axis_t get_min_full_scales(struct jr3_sensor __iomem *sensor)
{
struct six_axis_t result;
result.fx = get_s16(&sensor->min_full_scale.fx);
result.fy = get_s16(&sensor->min_full_scale.fy);
result.fz = get_s16(&sensor->min_full_scale.fz);
result.mx = get_s16(&sensor->min_full_scale.mx);
result.my = get_s16(&sensor->min_full_scale.my);
result.mz = get_s16(&sensor->min_full_scale.mz);
return result;
}
static struct six_axis_t get_max_full_scales(struct jr3_sensor __iomem *sensor)
{
struct six_axis_t result;
result.fx = get_s16(&sensor->max_full_scale.fx);
result.fy = get_s16(&sensor->max_full_scale.fy);
result.fz = get_s16(&sensor->max_full_scale.fz);
result.mx = get_s16(&sensor->max_full_scale.mx);
result.my = get_s16(&sensor->max_full_scale.my);
result.mz = get_s16(&sensor->max_full_scale.mz);
return result;
}
static unsigned int jr3_pci_ai_read_chan(struct comedi_device *dev,
struct comedi_subdevice *s,
unsigned int chan)
{
struct jr3_pci_subdev_private *spriv = s->private;
unsigned int val = 0;
if (spriv->state != state_jr3_done)
return 0;
if (chan < 56) {
unsigned int axis = chan % 8;
unsigned int filter = chan / 8;
switch (axis) {
case 0:
val = get_s16(&spriv->sensor->filter[filter].fx);
break;
case 1:
val = get_s16(&spriv->sensor->filter[filter].fy);
break;
case 2:
val = get_s16(&spriv->sensor->filter[filter].fz);
break;
case 3:
val = get_s16(&spriv->sensor->filter[filter].mx);
break;
case 4:
val = get_s16(&spriv->sensor->filter[filter].my);
break;
case 5:
val = get_s16(&spriv->sensor->filter[filter].mz);
break;
case 6:
val = get_s16(&spriv->sensor->filter[filter].v1);
break;
case 7:
val = get_s16(&spriv->sensor->filter[filter].v2);
break;
}
val += 0x4000;
} else if (chan == 56) {
val = get_u16(&spriv->sensor->model_no);
} else if (chan == 57) {
val = get_u16(&spriv->sensor->serial_no);
}
return val;
}
static int jr3_pci_ai_insn_read(struct comedi_device *dev,
struct comedi_subdevice *s,
struct comedi_insn *insn,
unsigned int *data)
{
struct jr3_pci_subdev_private *spriv = s->private;
unsigned int chan = CR_CHAN(insn->chanspec);
u16 errors;
int i;
errors = get_u16(&spriv->sensor->errors);
if (spriv->state != state_jr3_done ||
(errors & (watch_dog | watch_dog2 | sensor_change))) {
/* No sensor or sensor changed */
if (spriv->state == state_jr3_done) {
/* Restart polling */
spriv->state = state_jr3_poll;
}
return -EAGAIN;
}
for (i = 0; i < insn->n; i++)
data[i] = jr3_pci_ai_read_chan(dev, s, chan);
return insn->n;
}
static int jr3_pci_open(struct comedi_device *dev)
{
struct jr3_pci_subdev_private *spriv;
struct comedi_subdevice *s;
int i;
dev_dbg(dev->class_dev, "jr3_pci_open\n");
for (i = 0; i < dev->n_subdevices; i++) {
s = &dev->subdevices[i];
spriv = s->private;
dev_dbg(dev->class_dev, "serial[%d]: %d\n", s->index,
spriv->serial_no);
}
return 0;
}
static int read_idm_word(const u8 *data, size_t size, int *pos,
unsigned int *val)
{
int result = 0;
int value;
if (pos && val) {
/* Skip over non hex */
for (; *pos < size && !isxdigit(data[*pos]); (*pos)++)
;
/* Collect value */
*val = 0;
for (; *pos < size; (*pos)++) {
value = hex_to_bin(data[*pos]);
if (value >= 0) {
result = 1;
*val = (*val << 4) + value;
} else {
break;
}
}
}
return result;
}
static int jr3_check_firmware(struct comedi_device *dev,
const u8 *data, size_t size)
{
int more = 1;
int pos = 0;
/*
* IDM file format is:
* { count, address, data <count> } *
* ffff
*/
while (more) {
unsigned int count = 0;
unsigned int addr = 0;
more = more && read_idm_word(data, size, &pos, &count);
if (more && count == 0xffff)
return 0;
more = more && read_idm_word(data, size, &pos, &addr);
while (more && count > 0) {
unsigned int dummy = 0;
more = more && read_idm_word(data, size, &pos, &dummy);
count--;
}
}
return -ENODATA;
}
static void jr3_write_firmware(struct comedi_device *dev,
int subdev, const u8 *data, size_t size)
{
struct jr3_block __iomem *block = dev->mmio;
u32 __iomem *lo;
u32 __iomem *hi;
int more = 1;
int pos = 0;
while (more) {
unsigned int count = 0;
unsigned int addr = 0;
more = more && read_idm_word(data, size, &pos, &count);
if (more && count == 0xffff)
return;
more = more && read_idm_word(data, size, &pos, &addr);
dev_dbg(dev->class_dev, "Loading#%d %4.4x bytes at %4.4x\n",
subdev, count, addr);
while (more && count > 0) {
if (addr & 0x4000) {
/* 16 bit data, never seen in real life!! */
unsigned int data1 = 0;
more = more &&
read_idm_word(data, size, &pos, &data1);
count--;
/* jr3[addr + 0x20000 * pnum] = data1; */
} else {
/* Download 24 bit program */
unsigned int data1 = 0;
unsigned int data2 = 0;
lo = &block[subdev].program_lo[addr];
hi = &block[subdev].program_hi[addr];
more = more &&
read_idm_word(data, size, &pos, &data1);
more = more &&
read_idm_word(data, size, &pos, &data2);
count -= 2;
if (more) {
set_u16(lo, data1);
udelay(1);
set_u16(hi, data2);
udelay(1);
}
}
addr++;
}
}
}
static int jr3_download_firmware(struct comedi_device *dev,
const u8 *data, size_t size,
unsigned long context)
{
int subdev;
int ret;
/* verify IDM file format */
ret = jr3_check_firmware(dev, data, size);
if (ret)
return ret;
/* write firmware to each subdevice */
for (subdev = 0; subdev < dev->n_subdevices; subdev++)
jr3_write_firmware(dev, subdev, data, size);
return 0;
}
static struct jr3_pci_poll_delay
jr3_pci_poll_subdevice(struct comedi_subdevice *s)
{
struct jr3_pci_subdev_private *spriv = s->private;
struct jr3_pci_poll_delay result = poll_delay_min_max(1000, 2000);
struct jr3_sensor __iomem *sensor;
u16 model_no;
u16 serial_no;
int errors;
int i;
sensor = spriv->sensor;
errors = get_u16(&sensor->errors);
if (errors != spriv->errors)
spriv->errors = errors;
/* Sensor communication lost? force poll mode */
if (errors & (watch_dog | watch_dog2 | sensor_change))
spriv->state = state_jr3_poll;
switch (spriv->state) {
case state_jr3_poll:
model_no = get_u16(&sensor->model_no);
serial_no = get_u16(&sensor->serial_no);
if ((errors & (watch_dog | watch_dog2)) ||
model_no == 0 || serial_no == 0) {
/*
* Still no sensor, keep on polling.
* Since it takes up to 10 seconds for offsets to
* stabilize, polling each second should suffice.
*/
} else {
spriv->retries = 0;
spriv->state = state_jr3_init_wait_for_offset;
}
break;
case state_jr3_init_wait_for_offset:
spriv->retries++;
if (spriv->retries < 10) {
/*
* Wait for offeset to stabilize
* (< 10 s according to manual)
*/
} else {
struct jr3_pci_transform transf;
spriv->model_no = get_u16(&sensor->model_no);
spriv->serial_no = get_u16(&sensor->serial_no);
/* Transformation all zeros */
for (i = 0; i < ARRAY_SIZE(transf.link); i++) {
transf.link[i].link_type = (enum link_types)0;
transf.link[i].link_amount = 0;
}
set_transforms(sensor, &transf, 0);
use_transform(sensor, 0);
spriv->state = state_jr3_init_transform_complete;
/* Allow 20 ms for completion */
result = poll_delay_min_max(20, 100);
}
break;
case state_jr3_init_transform_complete:
if (!is_complete(sensor)) {
result = poll_delay_min_max(20, 100);
} else {
/* Set full scale */
struct six_axis_t min_full_scale;
struct six_axis_t max_full_scale;
min_full_scale = get_min_full_scales(sensor);
max_full_scale = get_max_full_scales(sensor);
set_full_scales(sensor, max_full_scale);
spriv->state = state_jr3_init_set_full_scale_complete;
/* Allow 20 ms for completion */
result = poll_delay_min_max(20, 100);
}
break;
case state_jr3_init_set_full_scale_complete:
if (!is_complete(sensor)) {
result = poll_delay_min_max(20, 100);
} else {
struct force_array __iomem *fs = &sensor->full_scale;
union jr3_pci_single_range *r = spriv->range;
/* Use ranges in kN or we will overflow around 2000N! */
r[0].l.range[0].min = -get_s16(&fs->fx) * 1000;
r[0].l.range[0].max = get_s16(&fs->fx) * 1000;
r[1].l.range[0].min = -get_s16(&fs->fy) * 1000;
r[1].l.range[0].max = get_s16(&fs->fy) * 1000;
r[2].l.range[0].min = -get_s16(&fs->fz) * 1000;
r[2].l.range[0].max = get_s16(&fs->fz) * 1000;
r[3].l.range[0].min = -get_s16(&fs->mx) * 100;
r[3].l.range[0].max = get_s16(&fs->mx) * 100;
r[4].l.range[0].min = -get_s16(&fs->my) * 100;
r[4].l.range[0].max = get_s16(&fs->my) * 100;
r[5].l.range[0].min = -get_s16(&fs->mz) * 100;
/* the next five are questionable */
r[5].l.range[0].max = get_s16(&fs->mz) * 100;
r[6].l.range[0].min = -get_s16(&fs->v1) * 100;
r[6].l.range[0].max = get_s16(&fs->v1) * 100;
r[7].l.range[0].min = -get_s16(&fs->v2) * 100;
r[7].l.range[0].max = get_s16(&fs->v2) * 100;
r[8].l.range[0].min = 0;
r[8].l.range[0].max = 65535;
use_offset(sensor, 0);
spriv->state = state_jr3_init_use_offset_complete;
/* Allow 40 ms for completion */
result = poll_delay_min_max(40, 100);
}
break;
case state_jr3_init_use_offset_complete:
if (!is_complete(sensor)) {
result = poll_delay_min_max(20, 100);
} else {
set_s16(&sensor->offsets.fx, 0);
set_s16(&sensor->offsets.fy, 0);
set_s16(&sensor->offsets.fz, 0);
set_s16(&sensor->offsets.mx, 0);
set_s16(&sensor->offsets.my, 0);
set_s16(&sensor->offsets.mz, 0);
set_offset(sensor);
spriv->state = state_jr3_done;
}
break;
case state_jr3_done:
result = poll_delay_min_max(10000, 20000);
break;
default:
break;
}
return result;
}
static void jr3_pci_poll_dev(unsigned long data)
{
struct comedi_device *dev = (struct comedi_device *)data;
struct jr3_pci_dev_private *devpriv = dev->private;
struct jr3_pci_subdev_private *spriv;
struct comedi_subdevice *s;
unsigned long flags;
unsigned long now;
int delay;
int i;
spin_lock_irqsave(&dev->spinlock, flags);
delay = 1000;
now = jiffies;
/* Poll all sensors that are ready to be polled */
for (i = 0; i < dev->n_subdevices; i++) {
s = &dev->subdevices[i];
spriv = s->private;
if (time_after_eq(now, spriv->next_time_min)) {
struct jr3_pci_poll_delay sub_delay;
sub_delay = jr3_pci_poll_subdevice(s);
spriv->next_time_min = jiffies +
msecs_to_jiffies(sub_delay.min);
if (sub_delay.max && sub_delay.max < delay)
/*
* Wake up as late as possible ->
* poll as many sensors as possible at once.
*/
delay = sub_delay.max;
}
}
spin_unlock_irqrestore(&dev->spinlock, flags);
devpriv->timer.expires = jiffies + msecs_to_jiffies(delay);
add_timer(&devpriv->timer);
}
static struct jr3_pci_subdev_private *
jr3_pci_alloc_spriv(struct comedi_device *dev, struct comedi_subdevice *s)
{
struct jr3_block __iomem *block = dev->mmio;
struct jr3_pci_subdev_private *spriv;
int j;
int k;
spriv = comedi_alloc_spriv(s, sizeof(*spriv));
if (!spriv)
return NULL;
spriv->sensor = &block[s->index].sensor;
for (j = 0; j < 8; j++) {
spriv->range[j].l.length = 1;
spriv->range[j].l.range[0].min = -1000000;
spriv->range[j].l.range[0].max = 1000000;
for (k = 0; k < 7; k++) {
spriv->range_table_list[j + k * 8] = &spriv->range[j].l;
spriv->maxdata_list[j + k * 8] = 0x7fff;
}
}
spriv->range[8].l.length = 1;
spriv->range[8].l.range[0].min = 0;
spriv->range[8].l.range[0].max = 65535;
spriv->range_table_list[56] = &spriv->range[8].l;
spriv->range_table_list[57] = &spriv->range[8].l;
spriv->maxdata_list[56] = 0xffff;
spriv->maxdata_list[57] = 0xffff;
return spriv;
}
static void jr3_pci_show_copyright(struct comedi_device *dev)
{
struct jr3_block __iomem *block = dev->mmio;
struct jr3_sensor __iomem *sensor0 = &block[0].sensor;
char copy[ARRAY_SIZE(sensor0->copyright) + 1];
int i;
for (i = 0; i < ARRAY_SIZE(sensor0->copyright); i++)
copy[i] = (char)(get_u16(&sensor0->copyright[i]) >> 8);
copy[i] = '\0';
dev_dbg(dev->class_dev, "Firmware copyright: %s\n", copy);
}
static int jr3_pci_auto_attach(struct comedi_device *dev,
unsigned long context)
{
struct pci_dev *pcidev = comedi_to_pci_dev(dev);
static const struct jr3_pci_board *board;
struct jr3_pci_dev_private *devpriv;
struct jr3_pci_subdev_private *spriv;
struct jr3_block __iomem *block;
struct comedi_subdevice *s;
int ret;
int i;
BUILD_BUG_ON(sizeof(struct jr3_block) != 0x80000);
if (context < ARRAY_SIZE(jr3_pci_boards))
board = &jr3_pci_boards[context];
if (!board)
return -ENODEV;
dev->board_ptr = board;
dev->board_name = board->name;
devpriv = comedi_alloc_devpriv(dev, sizeof(*devpriv));
if (!devpriv)
return -ENOMEM;
ret = comedi_pci_enable(dev);
if (ret)
return ret;
if (pci_resource_len(pcidev, 0) < board->n_subdevs * sizeof(*block))
return -ENXIO;
dev->mmio = pci_ioremap_bar(pcidev, 0);
if (!dev->mmio)
return -ENOMEM;
block = dev->mmio;
ret = comedi_alloc_subdevices(dev, board->n_subdevs);
if (ret)
return ret;
dev->open = jr3_pci_open;
for (i = 0; i < dev->n_subdevices; i++) {
s = &dev->subdevices[i];
s->type = COMEDI_SUBD_AI;
s->subdev_flags = SDF_READABLE | SDF_GROUND;
s->n_chan = 8 * 7 + 2;
s->insn_read = jr3_pci_ai_insn_read;
spriv = jr3_pci_alloc_spriv(dev, s);
if (!spriv)
return -ENOMEM;
/* Channel specific range and maxdata */
s->range_table_list = spriv->range_table_list;
s->maxdata_list = spriv->maxdata_list;
}
/* Reset DSP card */
for (i = 0; i < dev->n_subdevices; i++)
writel(0, &block[i].reset);
ret = comedi_load_firmware(dev, &comedi_to_pci_dev(dev)->dev,
"comedi/jr3pci.idm",
jr3_download_firmware, 0);
dev_dbg(dev->class_dev, "Firmware load %d\n", ret);
if (ret < 0)
return ret;
/*
* TODO: use firmware to load preferred offset tables. Suggested
* format:
* model serial Fx Fy Fz Mx My Mz\n
*
* comedi_load_firmware(dev, &comedi_to_pci_dev(dev)->dev,
* "comedi/jr3_offsets_table",
* jr3_download_firmware, 1);
*/
/*
* It takes a few milliseconds for software to settle as much as we
* can read firmware version
*/
msleep_interruptible(25);
jr3_pci_show_copyright(dev);
/* Start card timer */
for (i = 0; i < dev->n_subdevices; i++) {
s = &dev->subdevices[i];
spriv = s->private;
spriv->next_time_min = jiffies + msecs_to_jiffies(500);
}
setup_timer(&devpriv->timer, jr3_pci_poll_dev, (unsigned long)dev);
devpriv->timer.expires = jiffies + msecs_to_jiffies(1000);
add_timer(&devpriv->timer);
return 0;
}
static void jr3_pci_detach(struct comedi_device *dev)
{
struct jr3_pci_dev_private *devpriv = dev->private;
if (devpriv)
del_timer_sync(&devpriv->timer);
comedi_pci_detach(dev);
}
static struct comedi_driver jr3_pci_driver = {
.driver_name = "jr3_pci",
.module = THIS_MODULE,
.auto_attach = jr3_pci_auto_attach,
.detach = jr3_pci_detach,
};
static int jr3_pci_pci_probe(struct pci_dev *dev,
const struct pci_device_id *id)
{
return comedi_pci_auto_config(dev, &jr3_pci_driver, id->driver_data);
}
static const struct pci_device_id jr3_pci_pci_table[] = {
{ PCI_VDEVICE(JR3, 0x1111), BOARD_JR3_1 },
{ PCI_VDEVICE(JR3, 0x3111), BOARD_JR3_1 },
{ PCI_VDEVICE(JR3, 0x3112), BOARD_JR3_2 },
{ PCI_VDEVICE(JR3, 0x3113), BOARD_JR3_3 },
{ PCI_VDEVICE(JR3, 0x3114), BOARD_JR3_4 },
{ 0 }
};
MODULE_DEVICE_TABLE(pci, jr3_pci_pci_table);
static struct pci_driver jr3_pci_pci_driver = {
.name = "jr3_pci",
.id_table = jr3_pci_pci_table,
.probe = jr3_pci_pci_probe,
.remove = comedi_pci_auto_unconfig,
};
module_comedi_pci_driver(jr3_pci_driver, jr3_pci_pci_driver);
MODULE_AUTHOR("Comedi http://www.comedi.org");
MODULE_DESCRIPTION("Comedi driver for JR3/PCI force sensor board");
MODULE_LICENSE("GPL");
MODULE_FIRMWARE("comedi/jr3pci.idm");
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