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|
/*
* joy-sidewinder.c Version 1.2
*
* Copyright (c) 1998-1999 Vojtech Pavlik
*
* Sponsored by SuSE
*/
/*
* This is a module for the Linux joystick driver, supporting
* Microsoft SideWinder digital joystick family.
*/
/*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*
* Should you need to contact me, the author, you can do so either by
* e-mail - mail your message to <vojtech@suse.cz>, or by paper mail:
* Vojtech Pavlik, Ucitelska 1576, Prague 8, 182 00 Czech Republic
*/
#include <asm/io.h>
#include <asm/system.h>
#include <linux/delay.h>
#include <linux/errno.h>
#include <linux/ioport.h>
#include <linux/joystick.h>
#include <linux/kernel.h>
#include <linux/module.h>
#include <linux/string.h>
#include <linux/init.h>
/*
* These are really magic values. Changing them can make a problem go away,
* as well as break everything.
*/
#undef JS_SW_DEBUG
#define JS_SW_START 400 /* The time we wait for the first bit [400 us] */
#define JS_SW_STROBE 45 /* Max time per bit [45 us] */
#define JS_SW_TIMEOUT 4000 /* Wait for everything to settle [4 ms] */
#define JS_SW_KICK 45 /* Wait after A0 fall till kick [45 us] */
#define JS_SW_END 8 /* Number of bits before end of packet to kick */
#define JS_SW_FAIL 16 /* Number of packet read errors to fail and reinitialize */
#define JS_SW_BAD 2 /* Number of packet read errors to switch off 3d Pro optimization */
#define JS_SW_OK 64 /* Number of packet read successes to switch optimization back on */
#define JS_SW_LENGTH 512 /* Max number of bits in a packet */
/*
* SideWinder joystick types ...
*/
#define JS_SW_TYPE_3DP 1
#define JS_SW_TYPE_F23 2
#define JS_SW_TYPE_GP 3
#define JS_SW_TYPE_PP 4
#define JS_SW_TYPE_FFP 5
#define JS_SW_TYPE_FSP 6
#define JS_SW_TYPE_FFW 7
static int js_sw_port_list[] __initdata = {0x201, 0};
static struct js_port* js_sw_port __initdata = NULL;
static struct {
int x;
int y;
} js_sw_hat_to_axis[] = {{ 0, 0}, { 0,-1}, { 1,-1}, { 1, 0}, { 1, 1}, { 0, 1}, {-1, 1}, {-1, 0}, {-1,-1}};
struct js_sw_info {
int io;
int length;
int speed;
unsigned char type;
unsigned char bits;
unsigned char number;
unsigned char fail;
unsigned char ok;
};
/*
* Gameport speed.
*/
unsigned int js_sw_io_speed = 0;
/*
* js_sw_measure_speed() measures the gameport i/o speed.
*/
static int __init js_sw_measure_speed(int io)
{
#ifdef __i386__
#define GET_TIME(x) do { outb(0, 0x43); x = inb(0x40); x |= inb(0x40) << 8; } while (0)
#define DELTA(x,y) ((y)-(x)+((y)<(x)?1193180L/HZ:0))
unsigned int i, t, t1, t2, t3, tx;
unsigned long flags;
tx = 1 << 30;
for(i = 0; i < 50; i++) {
save_flags(flags); /* Yes, all CPUs */
cli();
GET_TIME(t1);
for(t = 0; t < 50; t++) inb(io);
GET_TIME(t2);
GET_TIME(t3);
restore_flags(flags);
udelay(i * 10);
if ((t = DELTA(t2,t1) - DELTA(t3,t2)) < tx) tx = t;
}
return 59659 / t;
#else
unsigned int j, t = 0;
j = jiffies; while (j == jiffies);
j = jiffies; while (j == jiffies) { t++; inb(0x201); }
return t * HZ / 1000;
#endif
}
/*
* js_sw_read_packet() is a function which reads either a data packet, or an
* identification packet from a SideWinder joystick. Better don't try to
* understand this, since all the ugliness of the Microsoft Digital
* Overdrive protocol is concentrated in this function. If you really want
* to know how this works, first go watch a couple horror movies, so that
* you are well prepared, read US patent #5628686 and then e-mail me,
* and I'll send you an explanation.
* Vojtech <vojtech@suse.cz>
*/
static int js_sw_read_packet(int io, int speed, unsigned char *buf, int length, int id)
{
unsigned long flags;
int timeout, bitout, sched, i, kick, start, strobe;
unsigned char pending, u, v;
i = -id; /* Don't care about data, only want ID */
timeout = id ? (JS_SW_TIMEOUT * speed) >> 10 : 0; /* Set up global timeout for ID packet */
kick = id ? (JS_SW_KICK * speed) >> 10 : 0; /* Set up kick timeout for ID packet */
start = (JS_SW_START * speed) >> 10;
strobe = (JS_SW_STROBE * speed) >> 10;
bitout = start;
pending = 0;
sched = 0;
__save_flags(flags); /* Quiet, please */
__cli();
outb(0xff, io); /* Trigger */
v = inb(io);
do {
bitout--;
u = v;
v = inb(io);
} while (!(~v & u & 0x10) && (bitout > 0)); /* Wait for first falling edge on clock */
if (bitout > 0) bitout = strobe; /* Extend time if not timed out */
while ((timeout > 0 || bitout > 0) && (i < length)) {
timeout--;
bitout--; /* Decrement timers */
sched--;
u = v;
v = inb(io);
if ((~u & v & 0x10) && (bitout > 0)) { /* Rising edge on clock - data bit */
if (i >= 0) /* Want this data */
buf[i] = v >> 5; /* Store it */
i++; /* Advance index */
bitout = strobe; /* Extend timeout for next bit */
}
if (kick && (~v & u & 0x01)) { /* Falling edge on axis 0 */
sched = kick; /* Schedule second trigger */
kick = 0; /* Don't schedule next time on falling edge */
pending = 1; /* Mark schedule */
}
if (pending && sched < 0 && (i > -JS_SW_END)) { /* Second trigger time */
outb(0xff, io); /* Trigger */
bitout = start; /* Long bit timeout */
pending = 0; /* Unmark schedule */
timeout = 0; /* Switch from global to bit timeouts */
}
}
__restore_flags(flags); /* Done - relax */
#ifdef JS_SW_DEBUG
{
int j;
printk(KERN_DEBUG "joy-sidewinder: Read %d triplets. [", i);
for (j = 0; j < i; j++) printk("%d", buf[j]);
printk("]\n");
}
#endif
return i;
}
/*
* js_sw_get_bits() and GB() compose bits from the triplet buffer into a __u64.
* Parameter 'pos' is bit number inside packet where to start at, 'num' is number
* of bits to be read, 'shift' is offset in the resulting __u64 to start at, bits
* is number of bits per triplet.
*/
#define GB(pos,num,shift) js_sw_get_bits(buf, pos, num, shift, info->bits)
static __u64 js_sw_get_bits(unsigned char *buf, int pos, int num, char shift, char bits)
{
__u64 data = 0;
int tri = pos % bits; /* Start position */
int i = pos / bits;
int bit = shift;
while (num--) {
data |= (__u64)((buf[i] >> tri++) & 1) << bit++; /* Transfer bit */
if (tri == bits) {
i++; /* Next triplet */
tri = 0;
}
}
return data;
}
/*
* js_sw_init_digital() initializes a SideWinder 3D Pro joystick
* into digital mode.
*/
static void js_sw_init_digital(int io, int speed)
{
int seq[] = { 140, 140+725, 140+300, 0 };
unsigned long flags;
int i, t;
__save_flags(flags);
__cli();
i = 0;
do {
outb(0xff, io); /* Trigger */
t = (JS_SW_TIMEOUT * speed) >> 10;
while ((inb(io) & 1) && t) t--; /* Wait for axis to fall back to 0 */
udelay(seq[i]); /* Delay magic time */
} while (seq[++i]);
outb(0xff, io); /* Last trigger */
__restore_flags(flags);
}
/*
* js_sw_parity() computes parity of __u64
*/
static int js_sw_parity(__u64 t)
{
int x = t ^ (t >> 32);
x ^= x >> 16;
x ^= x >> 8;
x ^= x >> 4;
x ^= x >> 2;
x ^= x >> 1;
return x & 1;
}
/*
* js_sw_ccheck() checks synchronization bits and computes checksum of nibbles.
*/
static int js_sw_check(__u64 t)
{
char sum = 0;
if ((t & 0x8080808080808080ULL) ^ 0x80) /* Sync */
return -1;
while (t) { /* Sum */
sum += t & 0xf;
t >>= 4;
}
return sum & 0xf;
}
/*
* js_sw_parse() analyzes SideWinder joystick data, and writes the results into
* the axes and buttons arrays.
*/
static int js_sw_parse(unsigned char *buf, struct js_sw_info *info, int **axes, int **buttons)
{
int hat, i;
switch (info->type) {
case JS_SW_TYPE_3DP:
case JS_SW_TYPE_F23:
if (js_sw_check(GB(0,64,0)) || (hat = GB(6,1,3) | GB(60,3,0)) > 8) return -1;
axes[0][0] = GB( 3,3,7) | GB(16,7,0);
axes[0][1] = GB( 0,3,7) | GB(24,7,0);
axes[0][2] = GB(35,2,7) | GB(40,7,0);
axes[0][3] = GB(32,3,7) | GB(48,7,0);
axes[0][4] = js_sw_hat_to_axis[hat].x;
axes[0][5] = js_sw_hat_to_axis[hat].y;
buttons[0][0] = ~(GB(37,1,8) | GB(38,1,7) | GB(8,7,0));
return 0;
case JS_SW_TYPE_GP:
for (i = 0; i < info->number * 15; i += 15) {
if (js_sw_parity(GB(i,15,0))) return -1;
axes[i][0] = GB(i+3,1,0) - GB(i+2,1,0);
axes[i][1] = GB(i+0,1,0) - GB(i+1,1,0);
buttons[i][0] = ~GB(i+4,10,0);
}
return 0;
case JS_SW_TYPE_PP:
case JS_SW_TYPE_FFP:
if (!js_sw_parity(GB(0,48,0)) || (hat = GB(42,4,0)) > 8) return -1;
axes[0][0] = GB( 9,10,0);
axes[0][1] = GB(19,10,0);
axes[0][2] = GB(36, 6,0);
axes[0][3] = GB(29, 7,0);
axes[0][4] = js_sw_hat_to_axis[hat].x;
axes[0][5] = js_sw_hat_to_axis[hat].y;
buttons[0][0] = ~GB(0,9,0);
return 0;
case JS_SW_TYPE_FSP:
if (!js_sw_parity(GB(0,43,0)) || (hat = GB(28,4,0)) > 8) return -1;
axes[0][0] = GB( 0,10,0);
axes[0][1] = GB(16,10,0);
axes[0][2] = GB(32, 6,0);
axes[0][3] = js_sw_hat_to_axis[hat].x;
axes[0][4] = js_sw_hat_to_axis[hat].y;
buttons[0][0] = ~(GB(10,6,0) | GB(26,2,6) | GB(38,2,8));
return 0;
case JS_SW_TYPE_FFW:
if (!js_sw_parity(GB(0,33,0))) return -1;
axes[0][0] = GB( 0,10,0);
axes[0][1] = GB(10, 6,0);
axes[0][2] = GB(16, 6,0);
buttons[0][0] = ~GB(22,8,0);
return 0;
}
return -1;
}
/*
* js_sw_read() reads SideWinder joystick data, and reinitializes
* the joystick in case of persistent problems. This is the function that is
* called from the generic code to poll the joystick.
*/
static int js_sw_read(void *xinfo, int **axes, int **buttons)
{
struct js_sw_info *info = xinfo;
unsigned char buf[JS_SW_LENGTH];
int i;
i = js_sw_read_packet(info->io, info->speed, buf, info->length, 0);
if (info->type <= JS_SW_TYPE_F23 && info->length == 66 && i != 66) { /* Broken packet, try to fix */
if (i == 64 && !js_sw_check(js_sw_get_bits(buf,0,64,0,1))) { /* Last init failed, 1 bit mode */
printk(KERN_WARNING "joy-sidewinder: Joystick in wrong mode on %#x"
" - going to reinitialize.\n", info->io);
info->fail = JS_SW_FAIL; /* Reinitialize */
i = 128; /* Bogus value */
}
if (i < 66 && GB(0,64,0) == GB(i*3-66,64,0)) /* 1 == 3 */
i = 66; /* Everything is fine */
if (i < 66 && GB(0,64,0) == GB(66,64,0)) /* 1 == 2 */
i = 66; /* Everything is fine */
if (i < 66 && GB(i*3-132,64,0) == GB(i*3-66,64,0)) { /* 2 == 3 */
memmove(buf, buf + i - 22, 22); /* Move data */
i = 66; /* Carry on */
}
}
if (i == info->length && !js_sw_parse(buf, info, axes, buttons)) { /* Parse data */
info->fail = 0;
info->ok++;
if (info->type <= JS_SW_TYPE_F23 && info->length == 66 /* Many packets OK */
&& info->ok > JS_SW_OK) {
printk(KERN_INFO "joy-sidewinder: No more trouble on %#x"
" - enabling optimization again.\n", info->io);
info->length = 22;
}
return 0;
}
info->ok = 0;
info->fail++;
if (info->type <= JS_SW_TYPE_F23 && info->length == 22 /* Consecutive bad packets */
&& info->fail > JS_SW_BAD) {
printk(KERN_INFO "joy-sidewinder: Many bit errors on %#x"
" - disabling optimization.\n", info->io);
info->length = 66;
}
if (info->fail < JS_SW_FAIL) return -1; /* Not enough, don't reinitialize yet */
printk(KERN_WARNING "joy-sidewinder: Too many bit errors on %#x"
" - reinitializing joystick.\n", info->io);
if (!i && info->type <= JS_SW_TYPE_F23) { /* 3D Pro can be in analog mode */
udelay(3 * JS_SW_TIMEOUT);
js_sw_init_digital(info->io, info->speed);
}
udelay(JS_SW_TIMEOUT);
i = js_sw_read_packet(info->io, info->speed, buf, JS_SW_LENGTH, 0); /* Read normal data packet */
udelay(JS_SW_TIMEOUT);
js_sw_read_packet(info->io, info->speed, buf, JS_SW_LENGTH, i); /* Read ID packet, this initializes the stick */
info->fail = JS_SW_FAIL;
return -1;
}
/*
* js_sw_init_corr() initializes the correction values for
* SideWinders.
*/
static void __init js_sw_init_corr(int num_axes, int type, int number, struct js_corr **corr)
{
int i, j;
for (i = 0; i < number; i++) {
for (j = 0; j < num_axes; j++) {
corr[i][j].type = JS_CORR_BROKEN;
corr[i][j].prec = 8;
corr[i][j].coef[0] = 511 - 32;
corr[i][j].coef[1] = 512 + 32;
corr[i][j].coef[2] = (1 << 29) / (511 - 32);
corr[i][j].coef[3] = (1 << 29) / (511 - 32);
}
switch (type) {
case JS_SW_TYPE_3DP:
case JS_SW_TYPE_F23:
corr[i][2].type = JS_CORR_BROKEN;
corr[i][2].prec = 4;
corr[i][2].coef[0] = 255 - 16;
corr[i][2].coef[1] = 256 + 16;
corr[i][2].coef[2] = (1 << 29) / (255 - 16);
corr[i][2].coef[3] = (1 << 29) / (255 - 16);
j = 4;
break;
case JS_SW_TYPE_PP:
case JS_SW_TYPE_FFP:
corr[i][2].type = JS_CORR_BROKEN;
corr[i][2].prec = 0;
corr[i][2].coef[0] = 31 - 2;
corr[i][2].coef[1] = 32 + 2;
corr[i][2].coef[2] = (1 << 29) / (31 - 2);
corr[i][2].coef[3] = (1 << 29) / (31 - 2);
corr[i][3].type = JS_CORR_BROKEN;
corr[i][3].prec = 1;
corr[i][3].coef[0] = 63 - 4;
corr[i][3].coef[1] = 64 + 4;
corr[i][3].coef[2] = (1 << 29) / (63 - 4);
corr[i][3].coef[3] = (1 << 29) / (63 - 4);
j = 4;
break;
case JS_SW_TYPE_FFW:
corr[i][0].type = JS_CORR_BROKEN;
corr[i][0].prec = 2;
corr[i][0].coef[0] = 511 - 8;
corr[i][0].coef[1] = 512 + 8;
corr[i][0].coef[2] = (1 << 29) / (511 - 8);
corr[i][0].coef[3] = (1 << 29) / (511 - 8);
corr[i][1].type = JS_CORR_BROKEN;
corr[i][1].prec = 1;
corr[i][1].coef[0] = 63;
corr[i][1].coef[1] = 63;
corr[i][1].coef[2] = (1 << 29) / -63;
corr[i][1].coef[3] = (1 << 29) / -63;
corr[i][2].type = JS_CORR_BROKEN;
corr[i][2].prec = 1;
corr[i][2].coef[0] = 63;
corr[i][2].coef[1] = 63;
corr[i][2].coef[2] = (1 << 29) / -63;
corr[i][2].coef[3] = (1 << 29) / -63;
j = 3;
break;
case JS_SW_TYPE_FSP:
corr[i][2].type = JS_CORR_BROKEN;
corr[i][2].prec = 0;
corr[i][2].coef[0] = 31 - 2;
corr[i][2].coef[1] = 32 + 2;
corr[i][2].coef[2] = (1 << 29) / (31 - 2);
corr[i][2].coef[3] = (1 << 29) / (31 - 2);
j = 3;
break;
default:
j = 0;
}
for (; j < num_axes; j++) { /* Hats & other binary axes */
corr[i][j].type = JS_CORR_BROKEN;
corr[i][j].prec = 0;
corr[i][j].coef[0] = 0;
corr[i][j].coef[1] = 0;
corr[i][j].coef[2] = (1 << 29);
corr[i][j].coef[3] = (1 << 29);
}
}
}
/*
* js_sw_print_packet() prints the contents of a SideWinder packet.
*/
static void js_sw_print_packet(char *name, int length, unsigned char *buf, char bits)
{
int i;
printk("joy-sidewinder: %s packet, %d bits. [", name, length);
for (i = (((length + 3) >> 2) - 1); i >= 0; i--)
printk("%x", (int)js_sw_get_bits(buf, i << 2, 4, 0, bits));
printk("]\n");
}
/*
* js_sw_3dp_id() translates the 3DP id into a human legible string.
* Unfortunately I don't know how to do this for the other SW types.
*/
static void js_sw_3dp_id(unsigned char *buf, char *comment)
{
int i;
char pnp[8], rev[9];
for (i = 0; i < 7; i++) /* ASCII PnP ID */
pnp[i] = js_sw_get_bits(buf, 24+8*i, 8, 0, 1);
for (i = 0; i < 8; i++) /* ASCII firmware revision */
rev[i] = js_sw_get_bits(buf, 88+8*i, 8, 0, 1);
pnp[7] = rev[8] = 0;
sprintf(comment, " [PnP %d.%02d id %s rev %s]",
(int) (js_sw_get_bits(buf, 8, 6, 6, 1) | /* Two 6-bit values */
js_sw_get_bits(buf, 16, 6, 0, 1)) / 100,
(int) (js_sw_get_bits(buf, 8, 6, 6, 1) |
js_sw_get_bits(buf, 16, 6, 0, 1)) % 100,
pnp, rev);
}
/*
* js_sw_guess_mode() checks the upper two button bits for toggling -
* indication of that the joystick is in 3-bit mode. This is documented
* behavior for 3DP ID packet, and for example the FSP does this in
* normal packets instead. Fun ...
*/
static int js_sw_guess_mode(unsigned char *buf, int len)
{
int i;
unsigned char xor = 0;
for (i = 1; i < len; i++) xor |= (buf[i - 1] ^ buf[i]) & 6;
return !!xor * 2 + 1;
}
/*
* js_sw_probe() probes for SideWinder type joysticks.
*/
static struct js_port __init *js_sw_probe(int io, struct js_port *port)
{
struct js_sw_info info;
char *names[] = {NULL, "SideWinder 3D Pro", "Flight2000 F-23", "SideWinder GamePad", "SideWinder Precision Pro",
"SideWinder Force Feedback Pro", "SideWinder FreeStyle Pro", "SideWinder Force Feedback Wheel" };
char axes[] = { 0, 6, 6, 2, 6, 6, 5, 3 };
char buttons[] = { 0, 9, 9, 10, 9, 9, 10, 8 };
int i, j, k, l, speed;
unsigned char buf[JS_SW_LENGTH];
unsigned char idbuf[JS_SW_LENGTH];
unsigned char m = 1;
char comment[40];
comment[0] = 0;
if (check_region(io, 1)) return port;
speed = js_sw_measure_speed(io);
i = js_sw_read_packet(io, speed, buf, JS_SW_LENGTH, 0); /* Read normal packet */
m |= js_sw_guess_mode(buf, i); /* Data packet (1-bit) can carry mode info [FSP] */
udelay(JS_SW_TIMEOUT);
#ifdef JS_SW_DEBUG
printk(KERN_DEBUG "joy-sidewinder: Init 1: Mode %d. Length %d.\n", m , i);
#endif
if (!i) { /* No data. 3d Pro analog mode? */
js_sw_init_digital(io, speed); /* Switch to digital */
udelay(JS_SW_TIMEOUT);
i = js_sw_read_packet(io, speed, buf, JS_SW_LENGTH, 0); /* Retry reading packet */
udelay(JS_SW_TIMEOUT);
#ifdef JS_SW_DEBUG
printk(KERN_DEBUG "joy-sidewinder: Init 1b: Length %d.\n", i);
#endif
if (!i) return port; /* No data -> FAIL */
}
j = js_sw_read_packet(io, speed, idbuf, JS_SW_LENGTH, i); /* Read ID. This initializes the stick */
m |= js_sw_guess_mode(idbuf, j); /* ID packet should carry mode info [3DP] */
#ifdef JS_SW_DEBUG
printk(KERN_DEBUG "joy-sidewinder: Init 2: Mode %d. ID Length %d.\n", m , j);
#endif
if (!j) { /* Read ID failed. Happens in 1-bit mode on PP */
udelay(JS_SW_TIMEOUT);
i = js_sw_read_packet(io, speed, buf, JS_SW_LENGTH, 0); /* Retry reading packet */
#ifdef JS_SW_DEBUG
printk(KERN_DEBUG "joy-sidewinder: Init 2b: Mode %d. Length %d.\n", m , i);
#endif
if (!i) return port;
udelay(JS_SW_TIMEOUT);
j = js_sw_read_packet(io, speed, idbuf, JS_SW_LENGTH, i);/* Retry reading ID */
#ifdef JS_SW_DEBUG
printk(KERN_DEBUG "joy-sidewinder: Init 2c: ID Length %d.\n", j);
#endif
}
k = JS_SW_FAIL; /* Try JS_SW_FAIL times */
l = 0;
do {
k--;
udelay(JS_SW_TIMEOUT);
i = js_sw_read_packet(io, speed, buf, JS_SW_LENGTH, 0); /* Read data packet */
#ifdef JS_SW_DEBUG
printk(KERN_DEBUG "joy-sidewinder: Init 3: Length %d.\n", i);
#endif
if (i > l) { /* Longer? As we can only lose bits, it makes */
/* no sense to try detection for a packet shorter */
l = i; /* than the previous one */
info.number = 1;
info.io = io;
info.speed = speed;
info.length = i;
info.bits = m;
info.fail = 0;
info.ok = 0;
info.type = 0;
switch (i * m) {
case 60:
info.number++;
case 45: /* Ambiguous packet length */
if (j <= 40) { /* ID length less or eq 40 -> FSP */
case 43:
info.type = JS_SW_TYPE_FSP;
break;
}
info.number++;
case 30:
info.number++;
case 15:
info.type = JS_SW_TYPE_GP;
break;
case 33:
case 31:
info.type = JS_SW_TYPE_FFW;
break;
case 48: /* Ambiguous */
if (j == 14) { /* ID lenght 14*3 -> FFP */
info.type = JS_SW_TYPE_FFP;
sprintf(comment, " [AC %s]", js_sw_get_bits(idbuf,38,1,0,3) ? "off" : "on");
} else
info.type = JS_SW_TYPE_PP;
break;
case 198:
info.length = 22;
case 64:
info.type = JS_SW_TYPE_3DP;
if (j == 160) js_sw_3dp_id(idbuf, comment);
break;
}
}
} while (k && !info.type);
if (!info.type) {
printk(KERN_WARNING "joy-sidewinder: unknown joystick device detected "
"(io=%#x), contact <vojtech@suse.cz>\n", io);
js_sw_print_packet("ID", j * 3, idbuf, 3);
js_sw_print_packet("Data", i * m, buf, m);
return port;
}
#ifdef JS_SW_DEBUG
js_sw_print_packet("ID", j * 3, idbuf, 3);
js_sw_print_packet("Data", i * m, buf, m);
#endif
k = i;
request_region(io, 1, "joystick (sidewinder)");
port = js_register_port(port, &info, info.number, sizeof(struct js_sw_info), js_sw_read);
for (i = 0; i < info.number; i++)
printk(KERN_INFO "js%d: %s%s at %#x [%d ns res %d-bit id %d data %d]\n",
js_register_device(port, i, axes[info.type], buttons[info.type],
names[info.type], THIS_MODULE, NULL, NULL), names[info.type], comment, io,
1000000 / speed, m, j, k);
js_sw_init_corr(axes[info.type], info.type, info.number, port->corr);
return port;
}
#ifdef MODULE
int init_module(void)
#else
int __init js_sw_init(void)
#endif
{
int *p;
for (p = js_sw_port_list; *p; p++) js_sw_port = js_sw_probe(*p, js_sw_port);
if (js_sw_port) return 0;
#ifdef MODULE
printk(KERN_WARNING "joy-sidewinder: no joysticks found\n");
#endif
return -ENODEV;
}
#ifdef MODULE
void cleanup_module(void)
{
int i;
struct js_sw_info *info;
while (js_sw_port) {
for (i = 0; i < js_sw_port->ndevs; i++)
if (js_sw_port->devs[i])
js_unregister_device(js_sw_port->devs[i]);
info = js_sw_port->info;
release_region(info->io, 1);
js_sw_port = js_unregister_port(js_sw_port);
}
}
#endif
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