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[/] [or1k/] [trunk/] [linux/] [linux-2.4/] [drivers/] [char/] [pc_keyb.c] - Blame information for rev 1275

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1 1275 phoenix
/*
2
 * linux/drivers/char/pc_keyb.c
3
 *
4
 * Separation of the PC low-level part by Geert Uytterhoeven, May 1997
5
 * See keyboard.c for the whole history.
6
 *
7
 * Major cleanup by Martin Mares, May 1997
8
 *
9
 * Combined the keyboard and PS/2 mouse handling into one file,
10
 * because they share the same hardware.
11
 * Johan Myreen <jem@iki.fi> 1998-10-08.
12
 *
13
 * Code fixes to handle mouse ACKs properly.
14
 * C. Scott Ananian <cananian@alumni.princeton.edu> 1999-01-29.
15
 *
16
 */
17
 
18
#include <linux/config.h>
19
 
20
#include <linux/spinlock.h>
21
#include <linux/sched.h>
22
#include <linux/interrupt.h>
23
#include <linux/tty.h>
24
#include <linux/mm.h>
25
#include <linux/signal.h>
26
#include <linux/init.h>
27
#include <linux/kbd_ll.h>
28
#include <linux/delay.h>
29
#include <linux/random.h>
30
#include <linux/poll.h>
31
#include <linux/miscdevice.h>
32
#include <linux/slab.h>
33
#include <linux/kbd_kern.h>
34
#include <linux/vt_kern.h>
35
#include <linux/smp_lock.h>
36
#include <linux/kd.h>
37
#include <linux/pm.h>
38
 
39
#include <asm/keyboard.h>
40
#include <asm/bitops.h>
41
#include <asm/uaccess.h>
42
#include <asm/irq.h>
43
#include <asm/system.h>
44
 
45
#include <asm/io.h>
46
 
47
/* Some configuration switches are present in the include file... */
48
 
49
#include <linux/pc_keyb.h>
50
 
51
/* Simple translation table for the SysRq keys */
52
 
53
#ifdef CONFIG_MAGIC_SYSRQ
54
unsigned char pckbd_sysrq_xlate[128] =
55
        "\000\0331234567890-=\177\t"                    /* 0x00 - 0x0f */
56
        "qwertyuiop[]\r\000as"                          /* 0x10 - 0x1f */
57
        "dfghjkl;'`\000\\zxcv"                          /* 0x20 - 0x2f */
58
        "bnm,./\000*\000 \000\201\202\203\204\205"      /* 0x30 - 0x3f */
59
        "\206\207\210\211\212\000\000789-456+1"         /* 0x40 - 0x4f */
60
        "230\177\000\000\213\214\000\000\000\000\000\000\000\000\000\000" /* 0x50 - 0x5f */
61
        "\r\000/";                                      /* 0x60 - 0x6f */
62
#endif
63
 
64
static void kbd_write_command_w(int data);
65
static void kbd_write_output_w(int data);
66
#ifdef CONFIG_PSMOUSE
67
static void aux_write_ack(int val);
68
static void __aux_write_ack(int val);
69
static int aux_reconnect = 0;
70
#endif
71
 
72
#ifndef kbd_controller_present
73
#define kbd_controller_present()        1
74
#endif
75
static spinlock_t kbd_controller_lock = SPIN_LOCK_UNLOCKED;
76
static unsigned char handle_kbd_event(void);
77
 
78
/* used only by send_data - set by keyboard_interrupt */
79
static volatile unsigned char reply_expected;
80
static volatile unsigned char acknowledge;
81
static volatile unsigned char resend;
82
 
83
 
84
#if defined CONFIG_PSMOUSE
85
/*
86
 *      PS/2 Auxiliary Device
87
 */
88
 
89
static int __init psaux_init(void);
90
 
91
#define AUX_RECONNECT1 0xaa     /* scancode1 when ps2 device is plugged (back) in */
92
#define AUX_RECONNECT2 0x00     /* scancode2 when ps2 device is plugged (back) in */
93
 
94
static struct aux_queue *queue; /* Mouse data buffer. */
95
static int aux_count;
96
/* used when we send commands to the mouse that expect an ACK. */
97
static unsigned char mouse_reply_expected;
98
 
99
#define AUX_INTS_OFF (KBD_MODE_KCC | KBD_MODE_DISABLE_MOUSE | KBD_MODE_SYS | KBD_MODE_KBD_INT)
100
#define AUX_INTS_ON  (KBD_MODE_KCC | KBD_MODE_SYS | KBD_MODE_MOUSE_INT | KBD_MODE_KBD_INT)
101
 
102
#define MAX_RETRIES     60              /* some aux operations take long time*/
103
#endif /* CONFIG_PSMOUSE */
104
 
105
/*
106
 * Wait for keyboard controller input buffer to drain.
107
 *
108
 * Don't use 'jiffies' so that we don't depend on
109
 * interrupts..
110
 *
111
 * Quote from PS/2 System Reference Manual:
112
 *
113
 * "Address hex 0060 and address hex 0064 should be written only when
114
 * the input-buffer-full bit and output-buffer-full bit in the
115
 * Controller Status register are set 0."
116
 */
117
 
118
static void kb_wait(void)
119
{
120
        unsigned long timeout = KBC_TIMEOUT;
121
 
122
        do {
123
                /*
124
                 * "handle_kbd_event()" will handle any incoming events
125
                 * while we wait - keypresses or mouse movement.
126
                 */
127
                unsigned char status = handle_kbd_event();
128
 
129
                if (! (status & KBD_STAT_IBF))
130
                        return;
131
                mdelay(1);
132
                timeout--;
133
        } while (timeout);
134
#ifdef KBD_REPORT_TIMEOUTS
135
        printk(KERN_WARNING "Keyboard timed out[1]\n");
136
#endif
137
}
138
 
139
/*
140
 * Translation of escaped scancodes to keycodes.
141
 * This is now user-settable.
142
 * The keycodes 1-88,96-111,119 are fairly standard, and
143
 * should probably not be changed - changing might confuse X.
144
 * X also interprets scancode 0x5d (KEY_Begin).
145
 *
146
 * For 1-88 keycode equals scancode.
147
 */
148
 
149
#define E0_KPENTER 96
150
#define E0_RCTRL   97
151
#define E0_KPSLASH 98
152
#define E0_PRSCR   99
153
#define E0_RALT    100
154
#define E0_BREAK   101  /* (control-pause) */
155
#define E0_HOME    102
156
#define E0_UP      103
157
#define E0_PGUP    104
158
#define E0_LEFT    105
159
#define E0_RIGHT   106
160
#define E0_END     107
161
#define E0_DOWN    108
162
#define E0_PGDN    109
163
#define E0_INS     110
164
#define E0_DEL     111
165
 
166
#define E1_PAUSE   119
167
 
168
/*
169
 * The keycodes below are randomly located in 89-95,112-118,120-127.
170
 * They could be thrown away (and all occurrences below replaced by 0),
171
 * but that would force many users to use the `setkeycodes' utility, where
172
 * they needed not before. It does not matter that there are duplicates, as
173
 * long as no duplication occurs for any single keyboard.
174
 */
175
#define SC_LIM 89
176
 
177
#define FOCUS_PF1 85           /* actual code! */
178
#define FOCUS_PF2 89
179
#define FOCUS_PF3 90
180
#define FOCUS_PF4 91
181
#define FOCUS_PF5 92
182
#define FOCUS_PF6 93
183
#define FOCUS_PF7 94
184
#define FOCUS_PF8 95
185
#define FOCUS_PF9 120
186
#define FOCUS_PF10 121
187
#define FOCUS_PF11 122
188
#define FOCUS_PF12 123
189
 
190
#define JAP_86     124
191
/* tfj@olivia.ping.dk:
192
 * The four keys are located over the numeric keypad, and are
193
 * labelled A1-A4. It's an rc930 keyboard, from
194
 * Regnecentralen/RC International, Now ICL.
195
 * Scancodes: 59, 5a, 5b, 5c.
196
 */
197
#define RGN1 124
198
#define RGN2 125
199
#define RGN3 126
200
#define RGN4 127
201
 
202
static unsigned char high_keys[128 - SC_LIM] = {
203
  RGN1, RGN2, RGN3, RGN4, 0, 0, 0,                   /* 0x59-0x5f */
204
  0, 0, 0, 0, 0, 0, 0, 0,                            /* 0x60-0x67 */
205
  0, 0, 0, 0, 0, FOCUS_PF11, 0, FOCUS_PF12,          /* 0x68-0x6f */
206
  0, 0, 0, FOCUS_PF2, FOCUS_PF9, 0, 0, FOCUS_PF3,    /* 0x70-0x77 */
207
  FOCUS_PF4, FOCUS_PF5, FOCUS_PF6, FOCUS_PF7,        /* 0x78-0x7b */
208
  FOCUS_PF8, JAP_86, FOCUS_PF10, 0                   /* 0x7c-0x7f */
209
};
210
 
211
/* BTC */
212
#define E0_MACRO   112
213
/* LK450 */
214
#define E0_F13     113
215
#define E0_F14     114
216
#define E0_HELP    115
217
#define E0_DO      116
218
#define E0_F17     117
219
#define E0_KPMINPLUS 118
220
/*
221
 * My OmniKey generates e0 4c for  the "OMNI" key and the
222
 * right alt key does nada. [kkoller@nyx10.cs.du.edu]
223
 */
224
#define E0_OK   124
225
/*
226
 * New microsoft keyboard is rumoured to have
227
 * e0 5b (left window button), e0 5c (right window button),
228
 * e0 5d (menu button). [or: LBANNER, RBANNER, RMENU]
229
 * [or: Windows_L, Windows_R, TaskMan]
230
 */
231
#define E0_MSLW 125
232
#define E0_MSRW 126
233
#define E0_MSTM 127
234
 
235
static unsigned char e0_keys[128] = {
236
  0, 0, 0, 0, 0, 0, 0, 0,                             /* 0x00-0x07 */
237
  0, 0, 0, 0, 0, 0, 0, 0,                             /* 0x08-0x0f */
238
  0, 0, 0, 0, 0, 0, 0, 0,                             /* 0x10-0x17 */
239
  0, 0, 0, 0, E0_KPENTER, E0_RCTRL, 0, 0,           /* 0x18-0x1f */
240
  0, 0, 0, 0, 0, 0, 0, 0,                             /* 0x20-0x27 */
241
  0, 0, 0, 0, 0, 0, 0, 0,                             /* 0x28-0x2f */
242
  0, 0, 0, 0, 0, E0_KPSLASH, 0, E0_PRSCR,           /* 0x30-0x37 */
243
  E0_RALT, 0, 0, 0, 0, E0_F13, E0_F14, E0_HELP,           /* 0x38-0x3f */
244
  E0_DO, E0_F17, 0, 0, 0, 0, E0_BREAK, E0_HOME,           /* 0x40-0x47 */
245
  E0_UP, E0_PGUP, 0, E0_LEFT, E0_OK, E0_RIGHT, E0_KPMINPLUS, E0_END,/* 0x48-0x4f */
246
  E0_DOWN, E0_PGDN, E0_INS, E0_DEL, 0, 0, 0, 0,           /* 0x50-0x57 */
247
  0, 0, 0, E0_MSLW, E0_MSRW, E0_MSTM, 0, 0,        /* 0x58-0x5f */
248
  0, 0, 0, 0, 0, 0, 0, 0,                             /* 0x60-0x67 */
249
  0, 0, 0, 0, 0, 0, 0, E0_MACRO,                     /* 0x68-0x6f */
250
  0, 0, 0, 0, 0, 0, 0, 0,                             /* 0x70-0x77 */
251
  0, 0, 0, 0, 0, 0, 0, 0                              /* 0x78-0x7f */
252
};
253
 
254
int pckbd_setkeycode(unsigned int scancode, unsigned int keycode)
255
{
256
        if (scancode < SC_LIM || scancode > 255 || keycode > 127)
257
          return -EINVAL;
258
        if (scancode < 128)
259
          high_keys[scancode - SC_LIM] = keycode;
260
        else
261
          e0_keys[scancode - 128] = keycode;
262
        return 0;
263
}
264
 
265
int pckbd_getkeycode(unsigned int scancode)
266
{
267
        return
268
          (scancode < SC_LIM || scancode > 255) ? -EINVAL :
269
          (scancode < 128) ? high_keys[scancode - SC_LIM] :
270
            e0_keys[scancode - 128];
271
}
272
 
273
static int do_acknowledge(unsigned char scancode)
274
{
275
        if (reply_expected) {
276
          /* Unfortunately, we must recognise these codes only if we know they
277
           * are known to be valid (i.e., after sending a command), because there
278
           * are some brain-damaged keyboards (yes, FOCUS 9000 again) which have
279
           * keys with such codes :(
280
           */
281
                if (scancode == KBD_REPLY_ACK) {
282
                        acknowledge = 1;
283
                        reply_expected = 0;
284
                        return 0;
285
                } else if (scancode == KBD_REPLY_RESEND) {
286
                        resend = 1;
287
                        reply_expected = 0;
288
                        return 0;
289
                }
290
                /* Should not happen... */
291
#if 0
292
                printk(KERN_DEBUG "keyboard reply expected - got %02x\n",
293
                       scancode);
294
#endif
295
        }
296
        return 1;
297
}
298
 
299
int pckbd_translate(unsigned char scancode, unsigned char *keycode,
300
                    char raw_mode)
301
{
302
        static int prev_scancode;
303
 
304
        /* special prefix scancodes.. */
305
        if (scancode == 0xe0 || scancode == 0xe1) {
306
                prev_scancode = scancode;
307
                return 0;
308
        }
309
 
310
        /* 0xFF is sent by a few keyboards, ignore it. 0x00 is error */
311
        if (scancode == 0x00 || scancode == 0xff) {
312
                prev_scancode = 0;
313
                return 0;
314
        }
315
 
316
        scancode &= 0x7f;
317
 
318
        if (prev_scancode) {
319
          /*
320
           * usually it will be 0xe0, but a Pause key generates
321
           * e1 1d 45 e1 9d c5 when pressed, and nothing when released
322
           */
323
          if (prev_scancode != 0xe0) {
324
              if (prev_scancode == 0xe1 && scancode == 0x1d) {
325
                  prev_scancode = 0x100;
326
                  return 0;
327
              } else if (prev_scancode == 0x100 && scancode == 0x45) {
328
                  *keycode = E1_PAUSE;
329
                  prev_scancode = 0;
330
              } else {
331
#ifdef KBD_REPORT_UNKN
332
                  if (!raw_mode)
333
                    printk(KERN_INFO "keyboard: unknown e1 escape sequence\n");
334
#endif
335
                  prev_scancode = 0;
336
                  return 0;
337
              }
338
          } else {
339
              prev_scancode = 0;
340
              /*
341
               *  The keyboard maintains its own internal caps lock and
342
               *  num lock statuses. In caps lock mode E0 AA precedes make
343
               *  code and E0 2A follows break code. In num lock mode,
344
               *  E0 2A precedes make code and E0 AA follows break code.
345
               *  We do our own book-keeping, so we will just ignore these.
346
               */
347
              /*
348
               *  For my keyboard there is no caps lock mode, but there are
349
               *  both Shift-L and Shift-R modes. The former mode generates
350
               *  E0 2A / E0 AA pairs, the latter E0 B6 / E0 36 pairs.
351
               *  So, we should also ignore the latter. - aeb@cwi.nl
352
               */
353
              if (scancode == 0x2a || scancode == 0x36)
354
                return 0;
355
 
356
              if (e0_keys[scancode])
357
                *keycode = e0_keys[scancode];
358
              else {
359
#ifdef KBD_REPORT_UNKN
360
                  if (!raw_mode)
361
                    printk(KERN_INFO "keyboard: unknown scancode e0 %02x\n",
362
                           scancode);
363
#endif
364
                  return 0;
365
              }
366
          }
367
        } else if (scancode >= SC_LIM) {
368
            /* This happens with the FOCUS 9000 keyboard
369
               Its keys PF1..PF12 are reported to generate
370
               55 73 77 78 79 7a 7b 7c 74 7e 6d 6f
371
               Moreover, unless repeated, they do not generate
372
               key-down events, so we have to zero up_flag below */
373
            /* Also, Japanese 86/106 keyboards are reported to
374
               generate 0x73 and 0x7d for \ - and \ | respectively. */
375
            /* Also, some Brazilian keyboard is reported to produce
376
               0x73 and 0x7e for \ ? and KP-dot, respectively. */
377
 
378
          *keycode = high_keys[scancode - SC_LIM];
379
 
380
          if (!*keycode) {
381
              if (!raw_mode) {
382
#ifdef KBD_REPORT_UNKN
383
                  printk(KERN_INFO "keyboard: unrecognized scancode (%02x)"
384
                         " - ignored\n", scancode);
385
#endif
386
              }
387
              return 0;
388
          }
389
        } else
390
          *keycode = scancode;
391
        return 1;
392
}
393
 
394
char pckbd_unexpected_up(unsigned char keycode)
395
{
396
        /* unexpected, but this can happen: maybe this was a key release for a
397
           FOCUS 9000 PF key; if we want to see it, we have to clear up_flag */
398
        if (keycode >= SC_LIM || keycode == 85)
399
            return 0;
400
        else
401
            return 0200;
402
}
403
 
404
int pckbd_pm_resume(struct pm_dev *dev, pm_request_t rqst, void *data)
405
{
406
#if defined CONFIG_PSMOUSE
407
       unsigned long flags;
408
 
409
       if (rqst == PM_RESUME) {
410
               if (queue) {                    /* Aux port detected */
411
                       if (aux_count == 0) {   /* Mouse not in use */
412
                               spin_lock_irqsave(&kbd_controller_lock, flags);
413
                               /*
414
                                * Dell Lat. C600 A06 enables mouse after resume.
415
                                * When user touches the pad, it posts IRQ 12
416
                                * (which we do not process), thus holding keyboard.
417
                                */
418
                               kbd_write_command(KBD_CCMD_MOUSE_DISABLE);
419
                               /* kbd_write_cmd(AUX_INTS_OFF); */ /* Config & lock */
420
                               kb_wait();
421
                               kbd_write_command(KBD_CCMD_WRITE_MODE);
422
                               kb_wait();
423
                               kbd_write_output(AUX_INTS_OFF);
424
                               spin_unlock_irqrestore(&kbd_controller_lock, flags);
425
                       }
426
               }
427
       }
428
#endif
429
       return 0;
430
}
431
 
432
 
433
static inline void handle_mouse_event(unsigned char scancode)
434
{
435
#ifdef CONFIG_PSMOUSE
436
        static unsigned char prev_code;
437
        if (mouse_reply_expected) {
438
                if (scancode == AUX_ACK) {
439
                        mouse_reply_expected--;
440
                        return;
441
                }
442
                mouse_reply_expected = 0;
443
        }
444
        else if(scancode == AUX_RECONNECT2 && prev_code == AUX_RECONNECT1
445
                && aux_reconnect) {
446
                printk (KERN_INFO "PS/2 mouse reconnect detected\n");
447
                queue->head = queue->tail = 0;   /* Flush input queue */
448
                __aux_write_ack(AUX_ENABLE_DEV);  /* ping the mouse :) */
449
                return;
450
        }
451
 
452
        prev_code = scancode;
453
        add_mouse_randomness(scancode);
454
        if (aux_count) {
455
                int head = queue->head;
456
 
457
                queue->buf[head] = scancode;
458
                head = (head + 1) & (AUX_BUF_SIZE-1);
459
                if (head != queue->tail) {
460
                        queue->head = head;
461
                        kill_fasync(&queue->fasync, SIGIO, POLL_IN);
462
                        wake_up_interruptible(&queue->proc_list);
463
                }
464
        }
465
#endif
466
}
467
 
468
static unsigned char kbd_exists = 1;
469
 
470
static inline void handle_keyboard_event(unsigned char scancode)
471
{
472
#ifdef CONFIG_VT
473
        kbd_exists = 1;
474
        if (do_acknowledge(scancode))
475
                handle_scancode(scancode, !(scancode & 0x80));
476
#endif                          
477
        tasklet_schedule(&keyboard_tasklet);
478
}
479
 
480
/*
481
 * This reads the keyboard status port, and does the
482
 * appropriate action.
483
 *
484
 * It requires that we hold the keyboard controller
485
 * spinlock.
486
 */
487
static unsigned char handle_kbd_event(void)
488
{
489
        unsigned char status = kbd_read_status();
490
        unsigned int work = 10000;
491
 
492
        while ((--work > 0) && (status & KBD_STAT_OBF)) {
493
                unsigned char scancode;
494
 
495
                scancode = kbd_read_input();
496
 
497
                /* Error bytes must be ignored to make the
498
                   Synaptics touchpads compaq use work */
499
#if 1
500
                /* Ignore error bytes */
501
                if (!(status & (KBD_STAT_GTO | KBD_STAT_PERR)))
502
#endif
503
                {
504
                        if (status & KBD_STAT_MOUSE_OBF)
505
                                handle_mouse_event(scancode);
506
                        else
507
                                handle_keyboard_event(scancode);
508
                }
509
 
510
                status = kbd_read_status();
511
        }
512
 
513
        if (!work)
514
                printk(KERN_ERR "pc_keyb: controller jammed (0x%02X).\n", status);
515
 
516
        return status;
517
}
518
 
519
 
520
static void keyboard_interrupt(int irq, void *dev_id, struct pt_regs *regs)
521
{
522
#ifdef CONFIG_VT
523
        kbd_pt_regs = regs;
524
#endif
525
 
526
        spin_lock_irq(&kbd_controller_lock);
527
        handle_kbd_event();
528
        spin_unlock_irq(&kbd_controller_lock);
529
}
530
 
531
/*
532
 * send_data sends a character to the keyboard and waits
533
 * for an acknowledge, possibly retrying if asked to. Returns
534
 * the success status.
535
 *
536
 * Don't use 'jiffies', so that we don't depend on interrupts
537
 */
538
static int send_data(unsigned char data)
539
{
540
        int retries = 3;
541
 
542
        do {
543
                unsigned long timeout = KBD_TIMEOUT;
544
 
545
                acknowledge = 0; /* Set by interrupt routine on receipt of ACK. */
546
                resend = 0;
547
                reply_expected = 1;
548
                kbd_write_output_w(data);
549
                for (;;) {
550
                        if (acknowledge)
551
                                return 1;
552
                        if (resend)
553
                                break;
554
                        mdelay(1);
555
                        if (!--timeout) {
556
#ifdef KBD_REPORT_TIMEOUTS
557
                                printk(KERN_WARNING "keyboard: Timeout - AT keyboard not present?(%02x)\n", data);
558
#endif
559
                                return 0;
560
                        }
561
                }
562
        } while (retries-- > 0);
563
#ifdef KBD_REPORT_TIMEOUTS
564
        printk(KERN_WARNING "keyboard: Too many NACKs -- noisy kbd cable?\n");
565
#endif
566
        return 0;
567
}
568
 
569
void pckbd_leds(unsigned char leds)
570
{
571
        if (kbd_exists && (!send_data(KBD_CMD_SET_LEDS) || !send_data(leds))) {
572
                send_data(KBD_CMD_ENABLE);      /* re-enable kbd if any errors */
573
                kbd_exists = 0;
574
        }
575
}
576
 
577
#define DEFAULT_KEYB_REP_DELAY  250
578
#define DEFAULT_KEYB_REP_RATE   30      /* cps */
579
 
580
static struct kbd_repeat kbdrate={
581
        DEFAULT_KEYB_REP_DELAY,
582
        DEFAULT_KEYB_REP_RATE
583
};
584
 
585
static unsigned char parse_kbd_rate(struct kbd_repeat *r)
586
{
587
        static struct r2v{
588
                int rate;
589
                unsigned char val;
590
        } kbd_rates[]={ {5,0x14},
591
                        {7,0x10},
592
                        {10,0x0c},
593
                        {15,0x08},
594
                        {20,0x04},
595
                        {25,0x02},
596
                        {30,0x00}
597
        };
598
        static struct d2v{
599
                int delay;
600
                unsigned char val;
601
        } kbd_delays[]={{250,0},
602
                        {500,1},
603
                        {750,2},
604
                        {1000,3}
605
        };
606
        int rate=0,delay=0;
607
        if (r != NULL){
608
                int i,new_rate=30,new_delay=250;
609
                if (r->rate <= 0)
610
                        r->rate=kbdrate.rate;
611
                if (r->delay <= 0)
612
                        r->delay=kbdrate.delay;
613
                for (i=0; i < sizeof(kbd_rates)/sizeof(struct r2v); i++)
614
                        if (kbd_rates[i].rate == r->rate){
615
                                new_rate=kbd_rates[i].rate;
616
                                rate=kbd_rates[i].val;
617
                                break;
618
                        }
619
                for (i=0; i < sizeof(kbd_delays)/sizeof(struct d2v); i++)
620
                        if (kbd_delays[i].delay == r->delay){
621
                                new_delay=kbd_delays[i].delay;
622
                                delay=kbd_delays[i].val;
623
                                break;
624
                        }
625
                r->rate=new_rate;
626
                r->delay=new_delay;
627
        }
628
        return (delay << 5) | rate;
629
}
630
 
631
static int write_kbd_rate(unsigned char r)
632
{
633
        if (!send_data(KBD_CMD_SET_RATE) || !send_data(r)){
634
                send_data(KBD_CMD_ENABLE);      /* re-enable kbd if any errors */
635
                return 0;
636
        }else
637
                return 1;
638
}
639
 
640
static int pckbd_rate(struct kbd_repeat *rep)
641
{
642
        if (rep == NULL)
643
                return -EINVAL;
644
        else{
645
                unsigned char r=parse_kbd_rate(rep);
646
                struct kbd_repeat old_rep;
647
                memcpy(&old_rep,&kbdrate,sizeof(struct kbd_repeat));
648
                if (write_kbd_rate(r)){
649
                        memcpy(&kbdrate,rep,sizeof(struct kbd_repeat));
650
                        memcpy(rep,&old_rep,sizeof(struct kbd_repeat));
651
                        return 0;
652
                }
653
        }
654
        return -EIO;
655
}
656
 
657
/*
658
 * In case we run on a non-x86 hardware we need to initialize both the
659
 * keyboard controller and the keyboard.  On a x86, the BIOS will
660
 * already have initialized them.
661
 *
662
 * Some x86 BIOSes do not correctly initialize the keyboard, so the
663
 * "kbd-reset" command line options can be given to force a reset.
664
 * [Ranger]
665
 */
666
#ifdef __i386__
667
 int kbd_startup_reset __initdata = 0;
668
#else
669
 int kbd_startup_reset __initdata = 1;
670
#endif
671
 
672
/* for "kbd-reset" cmdline param */
673
static int __init kbd_reset_setup(char *str)
674
{
675
        kbd_startup_reset = 1;
676
        return 1;
677
}
678
 
679
__setup("kbd-reset", kbd_reset_setup);
680
 
681
#define KBD_NO_DATA     (-1)    /* No data */
682
#define KBD_BAD_DATA    (-2)    /* Parity or other error */
683
 
684
static int __init kbd_read_data(void)
685
{
686
        int retval = KBD_NO_DATA;
687
        unsigned char status;
688
 
689
        status = kbd_read_status();
690
        if (status & KBD_STAT_OBF) {
691
                unsigned char data = kbd_read_input();
692
 
693
                retval = data;
694
                if (status & (KBD_STAT_GTO | KBD_STAT_PERR))
695
                        retval = KBD_BAD_DATA;
696
        }
697
        return retval;
698
}
699
 
700
static void __init kbd_clear_input(void)
701
{
702
        int maxread = 100;      /* Random number */
703
 
704
        do {
705
                if (kbd_read_data() == KBD_NO_DATA)
706
                        break;
707
        } while (--maxread);
708
}
709
 
710
static int __init kbd_wait_for_input(void)
711
{
712
        long timeout = KBD_INIT_TIMEOUT;
713
 
714
        do {
715
                int retval = kbd_read_data();
716
                if (retval >= 0)
717
                        return retval;
718
                mdelay(1);
719
        } while (--timeout);
720
        return -1;
721
}
722
 
723
static void kbd_write_command_w(int data)
724
{
725
        unsigned long flags;
726
 
727
        spin_lock_irqsave(&kbd_controller_lock, flags);
728
        kb_wait();
729
        kbd_write_command(data);
730
        spin_unlock_irqrestore(&kbd_controller_lock, flags);
731
}
732
 
733
static void kbd_write_output_w(int data)
734
{
735
        unsigned long flags;
736
 
737
        spin_lock_irqsave(&kbd_controller_lock, flags);
738
        kb_wait();
739
        kbd_write_output(data);
740
        spin_unlock_irqrestore(&kbd_controller_lock, flags);
741
}
742
 
743
#if defined(__alpha__)
744
/*
745
 * Some Alphas cannot mask some/all interrupts, so we have to
746
 * make sure not to allow interrupts AT ALL when polling for
747
 * specific return values from the keyboard.
748
 *
749
 * I think this should work on any architecture, but for now, only Alpha.
750
 */
751
static int kbd_write_command_w_and_wait(int data)
752
{
753
        unsigned long flags;
754
        int input;
755
 
756
        spin_lock_irqsave(&kbd_controller_lock, flags);
757
        kb_wait();
758
        kbd_write_command(data);
759
        input = kbd_wait_for_input();
760
        spin_unlock_irqrestore(&kbd_controller_lock, flags);
761
        return input;
762
}
763
 
764
static int kbd_write_output_w_and_wait(int data)
765
{
766
        unsigned long flags;
767
        int input;
768
 
769
        spin_lock_irqsave(&kbd_controller_lock, flags);
770
        kb_wait();
771
        kbd_write_output(data);
772
        input = kbd_wait_for_input();
773
        spin_unlock_irqrestore(&kbd_controller_lock, flags);
774
        return input;
775
}
776
#else
777
static int kbd_write_command_w_and_wait(int data)
778
{
779
        kbd_write_command_w(data);
780
        return kbd_wait_for_input();
781
}
782
 
783
static int kbd_write_output_w_and_wait(int data)
784
{
785
        kbd_write_output_w(data);
786
        return kbd_wait_for_input();
787
}
788
#endif /* __alpha__ */
789
 
790
#if defined CONFIG_PSMOUSE
791
static void kbd_write_cmd(int cmd)
792
{
793
        unsigned long flags;
794
 
795
        spin_lock_irqsave(&kbd_controller_lock, flags);
796
        kb_wait();
797
        kbd_write_command(KBD_CCMD_WRITE_MODE);
798
        kb_wait();
799
        kbd_write_output(cmd);
800
        spin_unlock_irqrestore(&kbd_controller_lock, flags);
801
}
802
#endif /* CONFIG_PSMOUSE */
803
 
804
static char * __init initialize_kbd(void)
805
{
806
        int status;
807
 
808
        /*
809
         * Test the keyboard interface.
810
         * This seems to be the only way to get it going.
811
         * If the test is successful a x55 is placed in the input buffer.
812
         */
813
        kbd_write_command_w(KBD_CCMD_SELF_TEST);
814
        if (kbd_wait_for_input() != 0x55)
815
                return "Keyboard failed self test";
816
 
817
        /*
818
         * Perform a keyboard interface test.  This causes the controller
819
         * to test the keyboard clock and data lines.  The results of the
820
         * test are placed in the input buffer.
821
         */
822
        kbd_write_command_w(KBD_CCMD_KBD_TEST);
823
        if (kbd_wait_for_input() != 0x00)
824
                return "Keyboard interface failed self test";
825
 
826
        /*
827
         * Enable the keyboard by allowing the keyboard clock to run.
828
         */
829
        kbd_write_command_w(KBD_CCMD_KBD_ENABLE);
830
 
831
        /*
832
         * Reset keyboard. If the read times out
833
         * then the assumption is that no keyboard is
834
         * plugged into the machine.
835
         * This defaults the keyboard to scan-code set 2.
836
         *
837
         * Set up to try again if the keyboard asks for RESEND.
838
         */
839
        do {
840
                kbd_write_output_w(KBD_CMD_RESET);
841
                status = kbd_wait_for_input();
842
                if (status == KBD_REPLY_ACK)
843
                        break;
844
                if (status != KBD_REPLY_RESEND)
845
                        return "Keyboard reset failed, no ACK";
846
        } while (1);
847
 
848
        if (kbd_wait_for_input() != KBD_REPLY_POR)
849
                return "Keyboard reset failed, no POR";
850
 
851
        /*
852
         * Set keyboard controller mode. During this, the keyboard should be
853
         * in the disabled state.
854
         *
855
         * Set up to try again if the keyboard asks for RESEND.
856
         */
857
        do {
858
                kbd_write_output_w(KBD_CMD_DISABLE);
859
                status = kbd_wait_for_input();
860
                if (status == KBD_REPLY_ACK)
861
                        break;
862
                if (status != KBD_REPLY_RESEND)
863
                        return "Disable keyboard: no ACK";
864
        } while (1);
865
 
866
        kbd_write_command_w(KBD_CCMD_WRITE_MODE);
867
        kbd_write_output_w(KBD_MODE_KBD_INT
868
                              | KBD_MODE_SYS
869
                              | KBD_MODE_DISABLE_MOUSE
870
                              | KBD_MODE_KCC);
871
 
872
        /* ibm powerpc portables need this to use scan-code set 1 -- Cort */
873
        if (!(kbd_write_command_w_and_wait(KBD_CCMD_READ_MODE) & KBD_MODE_KCC))
874
        {
875
                /*
876
                 * If the controller does not support conversion,
877
                 * Set the keyboard to scan-code set 1.
878
                 */
879
                kbd_write_output_w(0xF0);
880
                kbd_wait_for_input();
881
                kbd_write_output_w(0x01);
882
                kbd_wait_for_input();
883
        }
884
 
885
        if (kbd_write_output_w_and_wait(KBD_CMD_ENABLE) != KBD_REPLY_ACK)
886
                return "Enable keyboard: no ACK";
887
 
888
        /*
889
         * Finally, set the typematic rate to maximum.
890
         */
891
        if (kbd_write_output_w_and_wait(KBD_CMD_SET_RATE) != KBD_REPLY_ACK)
892
                return "Set rate: no ACK";
893
        if (kbd_write_output_w_and_wait(0x00) != KBD_REPLY_ACK)
894
                return "Set rate: no 2nd ACK";
895
 
896
        return NULL;
897
}
898
 
899
void __init pckbd_init_hw(void)
900
{
901
        if (!kbd_controller_present()) {
902
                kbd_exists = 0;
903
                return;
904
        }
905
 
906
        kbd_request_region();
907
 
908
        /* Flush any pending input. */
909
        kbd_clear_input();
910
 
911
        if (kbd_startup_reset) {
912
                char *msg = initialize_kbd();
913
                if (msg)
914
                        printk(KERN_WARNING "initialize_kbd: %s\n", msg);
915
        }
916
 
917
#if defined CONFIG_PSMOUSE
918
        psaux_init();
919
#endif
920
 
921
        kbd_rate = pckbd_rate;
922
 
923
        /* Ok, finally allocate the IRQ, and off we go.. */
924
        kbd_request_irq(keyboard_interrupt);
925
}
926
 
927
#if defined CONFIG_PSMOUSE
928
 
929
static int __init aux_reconnect_setup (char *str)
930
{
931
        aux_reconnect = 1;
932
        return 1;
933
}
934
 
935
__setup("psaux-reconnect", aux_reconnect_setup);
936
 
937
/*
938
 * Check if this is a dual port controller.
939
 */
940
static int __init detect_auxiliary_port(void)
941
{
942
        unsigned long flags;
943
        int loops = 10;
944
        int retval = 0;
945
 
946
        /* Check if the BIOS detected a device on the auxiliary port. */
947
        if (aux_device_present == 0xaa)
948
                return 1;
949
 
950
        spin_lock_irqsave(&kbd_controller_lock, flags);
951
 
952
        /* Put the value 0x5A in the output buffer using the "Write
953
         * Auxiliary Device Output Buffer" command (0xD3). Poll the
954
         * Status Register for a while to see if the value really
955
         * turns up in the Data Register. If the KBD_STAT_MOUSE_OBF
956
         * bit is also set to 1 in the Status Register, we assume this
957
         * controller has an Auxiliary Port (a.k.a. Mouse Port).
958
         */
959
        kb_wait();
960
        kbd_write_command(KBD_CCMD_WRITE_AUX_OBUF);
961
 
962
        kb_wait();
963
        kbd_write_output(0x5a); /* 0x5a is a random dummy value. */
964
 
965
        do {
966
                unsigned char status = kbd_read_status();
967
 
968
                if (status & KBD_STAT_OBF) {
969
                        (void) kbd_read_input();
970
                        if (status & KBD_STAT_MOUSE_OBF) {
971
                                printk(KERN_INFO "Detected PS/2 Mouse Port.\n");
972
                                retval = 1;
973
                        }
974
                        break;
975
                }
976
                mdelay(1);
977
        } while (--loops);
978
        spin_unlock_irqrestore(&kbd_controller_lock, flags);
979
 
980
        return retval;
981
}
982
 
983
/*
984
 * Send a byte to the mouse.
985
 */
986
static void aux_write_dev(int val)
987
{
988
        unsigned long flags;
989
 
990
        spin_lock_irqsave(&kbd_controller_lock, flags);
991
        kb_wait();
992
        kbd_write_command(KBD_CCMD_WRITE_MOUSE);
993
        kb_wait();
994
        kbd_write_output(val);
995
        spin_unlock_irqrestore(&kbd_controller_lock, flags);
996
}
997
 
998
/*
999
 * Send a byte to the mouse & handle returned ack
1000
 */
1001
static void __aux_write_ack(int val)
1002
{
1003
        kb_wait();
1004
        kbd_write_command(KBD_CCMD_WRITE_MOUSE);
1005
        kb_wait();
1006
        kbd_write_output(val);
1007
        /* we expect an ACK in response. */
1008
        mouse_reply_expected++;
1009
        kb_wait();
1010
}
1011
 
1012
static void aux_write_ack(int val)
1013
{
1014
        unsigned long flags;
1015
 
1016
        spin_lock_irqsave(&kbd_controller_lock, flags);
1017
        __aux_write_ack(val);
1018
        spin_unlock_irqrestore(&kbd_controller_lock, flags);
1019
}
1020
 
1021
static unsigned char get_from_queue(void)
1022
{
1023
        unsigned char result;
1024
        unsigned long flags;
1025
 
1026
        spin_lock_irqsave(&kbd_controller_lock, flags);
1027
        result = queue->buf[queue->tail];
1028
        queue->tail = (queue->tail + 1) & (AUX_BUF_SIZE-1);
1029
        spin_unlock_irqrestore(&kbd_controller_lock, flags);
1030
        return result;
1031
}
1032
 
1033
 
1034
static inline int queue_empty(void)
1035
{
1036
        return queue->head == queue->tail;
1037
}
1038
 
1039
static int fasync_aux(int fd, struct file *filp, int on)
1040
{
1041
        int retval;
1042
 
1043
        retval = fasync_helper(fd, filp, on, &queue->fasync);
1044
        if (retval < 0)
1045
                return retval;
1046
        return 0;
1047
}
1048
 
1049
 
1050
/*
1051
 * Random magic cookie for the aux device
1052
 */
1053
#define AUX_DEV ((void *)queue)
1054
 
1055
static int release_aux(struct inode * inode, struct file * file)
1056
{
1057
        lock_kernel();
1058
        fasync_aux(-1, file, 0);
1059
        if (--aux_count) {
1060
                unlock_kernel();
1061
                return 0;
1062
        }
1063
        kbd_write_cmd(AUX_INTS_OFF);                        /* Disable controller ints */
1064
        kbd_write_command_w(KBD_CCMD_MOUSE_DISABLE);
1065
        aux_free_irq(AUX_DEV);
1066
        unlock_kernel();
1067
        return 0;
1068
}
1069
 
1070
/*
1071
 * Install interrupt handler.
1072
 * Enable auxiliary device.
1073
 */
1074
 
1075
static int open_aux(struct inode * inode, struct file * file)
1076
{
1077
        if (aux_count++) {
1078
                return 0;
1079
        }
1080
        queue->head = queue->tail = 0;           /* Flush input queue */
1081
        if (aux_request_irq(keyboard_interrupt, AUX_DEV)) {
1082
                aux_count--;
1083
                return -EBUSY;
1084
        }
1085
        kbd_write_command_w(KBD_CCMD_MOUSE_ENABLE);     /* Enable the
1086
                                                           auxiliary port on
1087
                                                           controller. */
1088
        aux_write_ack(AUX_ENABLE_DEV); /* Enable aux device */
1089
        kbd_write_cmd(AUX_INTS_ON); /* Enable controller ints */
1090
 
1091
        mdelay(2);                      /* Ensure we follow the kbc access delay rules.. */
1092
 
1093
        send_data(KBD_CMD_ENABLE);      /* try to workaround toshiba4030cdt problem */
1094
 
1095
        return 0;
1096
}
1097
 
1098
/*
1099
 * Put bytes from input queue to buffer.
1100
 */
1101
 
1102
static ssize_t read_aux(struct file * file, char * buffer,
1103
                        size_t count, loff_t *ppos)
1104
{
1105
        DECLARE_WAITQUEUE(wait, current);
1106
        ssize_t i = count;
1107
        unsigned char c;
1108
 
1109
        if (queue_empty()) {
1110
                if (file->f_flags & O_NONBLOCK)
1111
                        return -EAGAIN;
1112
                add_wait_queue(&queue->proc_list, &wait);
1113
repeat:
1114
                set_current_state(TASK_INTERRUPTIBLE);
1115
                if (queue_empty() && !signal_pending(current)) {
1116
                        schedule();
1117
                        goto repeat;
1118
                }
1119
                current->state = TASK_RUNNING;
1120
                remove_wait_queue(&queue->proc_list, &wait);
1121
        }
1122
        while (i > 0 && !queue_empty()) {
1123
                c = get_from_queue();
1124
                put_user(c, buffer++);
1125
                i--;
1126
        }
1127
        if (count-i) {
1128
                file->f_dentry->d_inode->i_atime = CURRENT_TIME;
1129
                return count-i;
1130
        }
1131
        if (signal_pending(current))
1132
                return -ERESTARTSYS;
1133
        return 0;
1134
}
1135
 
1136
/*
1137
 * Write to the aux device.
1138
 */
1139
 
1140
static ssize_t write_aux(struct file * file, const char * buffer,
1141
                         size_t count, loff_t *ppos)
1142
{
1143
        ssize_t retval = 0;
1144
 
1145
        if (count) {
1146
                ssize_t written = 0;
1147
 
1148
                if (count > 32)
1149
                        count = 32; /* Limit to 32 bytes. */
1150
                do {
1151
                        char c;
1152
                        get_user(c, buffer++);
1153
                        aux_write_dev(c);
1154
                        written++;
1155
                } while (--count);
1156
                retval = -EIO;
1157
                if (written) {
1158
                        retval = written;
1159
                        file->f_dentry->d_inode->i_mtime = CURRENT_TIME;
1160
                }
1161
        }
1162
 
1163
        return retval;
1164
}
1165
 
1166
/* No kernel lock held - fine */
1167
static unsigned int aux_poll(struct file *file, poll_table * wait)
1168
{
1169
        poll_wait(file, &queue->proc_list, wait);
1170
        if (!queue_empty())
1171
                return POLLIN | POLLRDNORM;
1172
        return 0;
1173
}
1174
 
1175
struct file_operations psaux_fops = {
1176
        read:           read_aux,
1177
        write:          write_aux,
1178
        poll:           aux_poll,
1179
        open:           open_aux,
1180
        release:        release_aux,
1181
        fasync:         fasync_aux,
1182
};
1183
 
1184
/*
1185
 * Initialize driver.
1186
 */
1187
static struct miscdevice psaux_mouse = {
1188
        PSMOUSE_MINOR, "psaux", &psaux_fops
1189
};
1190
 
1191
static int __init psaux_init(void)
1192
{
1193
        int retval;
1194
 
1195
        if (!detect_auxiliary_port())
1196
                return -EIO;
1197
 
1198
        if ((retval = misc_register(&psaux_mouse)))
1199
                return retval;
1200
 
1201
        queue = (struct aux_queue *) kmalloc(sizeof(*queue), GFP_KERNEL);
1202
        if (queue == NULL) {
1203
                printk(KERN_ERR "psaux_init(): out of memory\n");
1204
                misc_deregister(&psaux_mouse);
1205
                return -ENOMEM;
1206
        }
1207
        memset(queue, 0, sizeof(*queue));
1208
        queue->head = queue->tail = 0;
1209
        init_waitqueue_head(&queue->proc_list);
1210
 
1211
#ifdef INITIALIZE_MOUSE
1212
        kbd_write_command_w(KBD_CCMD_MOUSE_ENABLE); /* Enable Aux. */
1213
        aux_write_ack(AUX_SET_SAMPLE);
1214
        aux_write_ack(100);                     /* 100 samples/sec */
1215
        aux_write_ack(AUX_SET_RES);
1216
        aux_write_ack(3);                       /* 8 counts per mm */
1217
        aux_write_ack(AUX_SET_SCALE21);         /* 2:1 scaling */
1218
#endif /* INITIALIZE_MOUSE */
1219
        kbd_write_command(KBD_CCMD_MOUSE_DISABLE); /* Disable aux device. */
1220
        kbd_write_cmd(AUX_INTS_OFF); /* Disable controller ints. */
1221
 
1222
        return 0;
1223
}
1224
 
1225
#endif /* CONFIG_PSMOUSE */
1226
 
1227
 
1228
static int blink_frequency = HZ/2;
1229
 
1230
/* Tell the user who may be running in X and not see the console that we have
1231
   panic'ed. This is to distingush panics from "real" lockups.
1232
   Could in theory send the panic message as morse, but that is left as an
1233
   exercise for the reader.  */
1234
void panic_blink(void)
1235
{
1236
        static unsigned long last_jiffie;
1237
        static char led;
1238
        /* Roughly 1/2s frequency. KDB uses about 1s. Make sure it is
1239
           different. */
1240
        if (!blink_frequency)
1241
                return;
1242
        if (jiffies - last_jiffie > blink_frequency) {
1243
                led ^= 0x01 | 0x04;
1244
                while (kbd_read_status() & KBD_STAT_IBF) mdelay(1);
1245
                kbd_write_output(KBD_CMD_SET_LEDS);
1246
                mdelay(1);
1247
                while (kbd_read_status() & KBD_STAT_IBF) mdelay(1);
1248
                mdelay(1);
1249
                kbd_write_output(led);
1250
                last_jiffie = jiffies;
1251
        }
1252
}
1253
 
1254
static int __init panicblink_setup(char *str)
1255
{
1256
    int par;
1257
    if (get_option(&str,&par))
1258
            blink_frequency = par*(1000/HZ);
1259
    return 1;
1260
}
1261
 
1262
/* panicblink=0 disables the blinking as it caused problems with some console
1263
   switches. otherwise argument is ms of a blink period. */
1264
__setup("panicblink=", panicblink_setup);
1265
 

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