1 /* $Id: isac.c,v 1.31.2.3 2004/01/13 14:31:25 keil Exp $
3 * ISAC specific routines
6 * Copyright by Karsten Keil <keil@isdn4linux.de>
8 * This software may be used and distributed according to the terms
9 * of the GNU General Public License, incorporated herein by reference.
11 * For changes and modifications please read
12 * Documentation/isdn/HiSax.cert
20 #include <linux/interrupt.h>
21 #include <linux/slab.h>
22 #include <linux/init.h>
24 #define DBUSY_TIMER_VALUE 80
27 static char *ISACVer
[] =
28 {"2086/2186 V1.1", "2085 B1", "2085 B2",
31 void ISACVersion(struct IsdnCardState
*cs
, char *s
)
35 val
= cs
->readisac(cs
, ISAC_RBCH
);
36 printk(KERN_INFO
"%s ISAC version (%x): %s\n", s
, val
, ISACVer
[(val
>> 5) & 3]);
40 ph_command(struct IsdnCardState
*cs
, unsigned int command
)
42 if (cs
->debug
& L1_DEB_ISAC
)
43 debugl1(cs
, "ph_command %x", command
);
44 cs
->writeisac(cs
, ISAC_CIX0
, (command
<< 2) | 3);
49 isac_new_ph(struct IsdnCardState
*cs
)
51 switch (cs
->dc
.isac
.ph_state
) {
54 ph_command(cs
, ISAC_CMD_DUI
);
55 l1_msg(cs
, HW_RESET
| INDICATION
, NULL
);
58 l1_msg(cs
, HW_DEACTIVATE
| CONFIRM
, NULL
);
61 l1_msg(cs
, HW_DEACTIVATE
| INDICATION
, NULL
);
64 l1_msg(cs
, HW_POWERUP
| CONFIRM
, NULL
);
67 l1_msg(cs
, HW_RSYNC
| INDICATION
, NULL
);
70 l1_msg(cs
, HW_INFO2
| INDICATION
, NULL
);
73 l1_msg(cs
, HW_INFO4_P8
| INDICATION
, NULL
);
76 l1_msg(cs
, HW_INFO4_P10
| INDICATION
, NULL
);
84 isac_bh(struct work_struct
*work
)
86 struct IsdnCardState
*cs
=
87 container_of(work
, struct IsdnCardState
, tqueue
);
90 if (test_and_clear_bit(D_CLEARBUSY
, &cs
->event
)) {
92 debugl1(cs
, "D-Channel Busy cleared");
94 while (stptr
!= NULL
) {
95 stptr
->l1
.l1l2(stptr
, PH_PAUSE
| CONFIRM
, NULL
);
99 if (test_and_clear_bit(D_L1STATECHANGE
, &cs
->event
))
101 if (test_and_clear_bit(D_RCVBUFREADY
, &cs
->event
))
102 DChannel_proc_rcv(cs
);
103 if (test_and_clear_bit(D_XMTBUFREADY
, &cs
->event
))
104 DChannel_proc_xmt(cs
);
106 if (!test_bit(HW_ARCOFI
, &cs
->HW_Flags
))
108 if (test_and_clear_bit(D_RX_MON1
, &cs
->event
))
109 arcofi_fsm(cs
, ARCOFI_RX_END
, NULL
);
110 if (test_and_clear_bit(D_TX_MON1
, &cs
->event
))
111 arcofi_fsm(cs
, ARCOFI_TX_END
, NULL
);
116 isac_empty_fifo(struct IsdnCardState
*cs
, int count
)
120 if ((cs
->debug
& L1_DEB_ISAC
) && !(cs
->debug
& L1_DEB_ISAC_FIFO
))
121 debugl1(cs
, "isac_empty_fifo");
123 if ((cs
->rcvidx
+ count
) >= MAX_DFRAME_LEN_L1
) {
124 if (cs
->debug
& L1_DEB_WARN
)
125 debugl1(cs
, "isac_empty_fifo overrun %d",
127 cs
->writeisac(cs
, ISAC_CMDR
, 0x80);
131 ptr
= cs
->rcvbuf
+ cs
->rcvidx
;
133 cs
->readisacfifo(cs
, ptr
, count
);
134 cs
->writeisac(cs
, ISAC_CMDR
, 0x80);
135 if (cs
->debug
& L1_DEB_ISAC_FIFO
) {
138 t
+= sprintf(t
, "isac_empty_fifo cnt %d", count
);
139 QuickHex(t
, ptr
, count
);
140 debugl1(cs
, cs
->dlog
);
145 isac_fill_fifo(struct IsdnCardState
*cs
)
150 if ((cs
->debug
& L1_DEB_ISAC
) && !(cs
->debug
& L1_DEB_ISAC_FIFO
))
151 debugl1(cs
, "isac_fill_fifo");
156 count
= cs
->tx_skb
->len
;
165 ptr
= cs
->tx_skb
->data
;
166 skb_pull(cs
->tx_skb
, count
);
168 cs
->writeisacfifo(cs
, ptr
, count
);
169 cs
->writeisac(cs
, ISAC_CMDR
, more
? 0x8 : 0xa);
170 if (test_and_set_bit(FLG_DBUSY_TIMER
, &cs
->HW_Flags
)) {
171 debugl1(cs
, "isac_fill_fifo dbusytimer running");
172 del_timer(&cs
->dbusytimer
);
174 init_timer(&cs
->dbusytimer
);
175 cs
->dbusytimer
.expires
= jiffies
+ ((DBUSY_TIMER_VALUE
* HZ
)/1000);
176 add_timer(&cs
->dbusytimer
);
177 if (cs
->debug
& L1_DEB_ISAC_FIFO
) {
180 t
+= sprintf(t
, "isac_fill_fifo cnt %d", count
);
181 QuickHex(t
, ptr
, count
);
182 debugl1(cs
, cs
->dlog
);
187 isac_interrupt(struct IsdnCardState
*cs
, u_char val
)
193 if (cs
->debug
& L1_DEB_ISAC
)
194 debugl1(cs
, "ISAC interrupt %x", val
);
195 if (val
& 0x80) { /* RME */
196 exval
= cs
->readisac(cs
, ISAC_RSTA
);
197 if ((exval
& 0x70) != 0x20) {
199 if (cs
->debug
& L1_DEB_WARN
)
200 debugl1(cs
, "ISAC RDO");
201 #ifdef ERROR_STATISTIC
205 if (!(exval
& 0x20)) {
206 if (cs
->debug
& L1_DEB_WARN
)
207 debugl1(cs
, "ISAC CRC error");
208 #ifdef ERROR_STATISTIC
212 cs
->writeisac(cs
, ISAC_CMDR
, 0x80);
214 count
= cs
->readisac(cs
, ISAC_RBCL
) & 0x1f;
217 isac_empty_fifo(cs
, count
);
218 if ((count
= cs
->rcvidx
) > 0) {
220 if (!(skb
= alloc_skb(count
, GFP_ATOMIC
)))
221 printk(KERN_WARNING
"HiSax: D receive out of memory\n");
223 memcpy(skb_put(skb
, count
), cs
->rcvbuf
, count
);
224 skb_queue_tail(&cs
->rq
, skb
);
229 schedule_event(cs
, D_RCVBUFREADY
);
231 if (val
& 0x40) { /* RPF */
232 isac_empty_fifo(cs
, 32);
234 if (val
& 0x20) { /* RSC */
236 if (cs
->debug
& L1_DEB_WARN
)
237 debugl1(cs
, "ISAC RSC interrupt");
239 if (val
& 0x10) { /* XPR */
240 if (test_and_clear_bit(FLG_DBUSY_TIMER
, &cs
->HW_Flags
))
241 del_timer(&cs
->dbusytimer
);
242 if (test_and_clear_bit(FLG_L1_DBUSY
, &cs
->HW_Flags
))
243 schedule_event(cs
, D_CLEARBUSY
);
245 if (cs
->tx_skb
->len
) {
249 dev_kfree_skb_irq(cs
->tx_skb
);
254 if ((cs
->tx_skb
= skb_dequeue(&cs
->sq
))) {
258 schedule_event(cs
, D_XMTBUFREADY
);
261 if (val
& 0x04) { /* CISQ */
262 exval
= cs
->readisac(cs
, ISAC_CIR0
);
263 if (cs
->debug
& L1_DEB_ISAC
)
264 debugl1(cs
, "ISAC CIR0 %02X", exval
);
266 cs
->dc
.isac
.ph_state
= (exval
>> 2) & 0xf;
267 if (cs
->debug
& L1_DEB_ISAC
)
268 debugl1(cs
, "ph_state change %x", cs
->dc
.isac
.ph_state
);
269 schedule_event(cs
, D_L1STATECHANGE
);
272 exval
= cs
->readisac(cs
, ISAC_CIR1
);
273 if (cs
->debug
& L1_DEB_ISAC
)
274 debugl1(cs
, "ISAC CIR1 %02X", exval
);
277 if (val
& 0x02) { /* SIN */
279 if (cs
->debug
& L1_DEB_WARN
)
280 debugl1(cs
, "ISAC SIN interrupt");
282 if (val
& 0x01) { /* EXI */
283 exval
= cs
->readisac(cs
, ISAC_EXIR
);
284 if (cs
->debug
& L1_DEB_WARN
)
285 debugl1(cs
, "ISAC EXIR %02x", exval
);
286 if (exval
& 0x80) { /* XMR */
287 debugl1(cs
, "ISAC XMR");
288 printk(KERN_WARNING
"HiSax: ISAC XMR\n");
290 if (exval
& 0x40) { /* XDU */
291 debugl1(cs
, "ISAC XDU");
292 printk(KERN_WARNING
"HiSax: ISAC XDU\n");
293 #ifdef ERROR_STATISTIC
296 if (test_and_clear_bit(FLG_DBUSY_TIMER
, &cs
->HW_Flags
))
297 del_timer(&cs
->dbusytimer
);
298 if (test_and_clear_bit(FLG_L1_DBUSY
, &cs
->HW_Flags
))
299 schedule_event(cs
, D_CLEARBUSY
);
300 if (cs
->tx_skb
) { /* Restart frame */
301 skb_push(cs
->tx_skb
, cs
->tx_cnt
);
305 printk(KERN_WARNING
"HiSax: ISAC XDU no skb\n");
306 debugl1(cs
, "ISAC XDU no skb");
309 if (exval
& 0x04) { /* MOS */
310 v1
= cs
->readisac(cs
, ISAC_MOSR
);
311 if (cs
->debug
& L1_DEB_MONITOR
)
312 debugl1(cs
, "ISAC MOSR %02x", v1
);
315 if (!cs
->dc
.isac
.mon_rx
) {
316 if (!(cs
->dc
.isac
.mon_rx
= kmalloc(MAX_MON_FRAME
, GFP_ATOMIC
))) {
317 if (cs
->debug
& L1_DEB_WARN
)
318 debugl1(cs
, "ISAC MON RX out of memory!");
319 cs
->dc
.isac
.mocr
&= 0xf0;
320 cs
->dc
.isac
.mocr
|= 0x0a;
321 cs
->writeisac(cs
, ISAC_MOCR
, cs
->dc
.isac
.mocr
);
324 cs
->dc
.isac
.mon_rxp
= 0;
326 if (cs
->dc
.isac
.mon_rxp
>= MAX_MON_FRAME
) {
327 cs
->dc
.isac
.mocr
&= 0xf0;
328 cs
->dc
.isac
.mocr
|= 0x0a;
329 cs
->writeisac(cs
, ISAC_MOCR
, cs
->dc
.isac
.mocr
);
330 cs
->dc
.isac
.mon_rxp
= 0;
331 if (cs
->debug
& L1_DEB_WARN
)
332 debugl1(cs
, "ISAC MON RX overflow!");
335 cs
->dc
.isac
.mon_rx
[cs
->dc
.isac
.mon_rxp
++] = cs
->readisac(cs
, ISAC_MOR0
);
336 if (cs
->debug
& L1_DEB_MONITOR
)
337 debugl1(cs
, "ISAC MOR0 %02x", cs
->dc
.isac
.mon_rx
[cs
->dc
.isac
.mon_rxp
- 1]);
338 if (cs
->dc
.isac
.mon_rxp
== 1) {
339 cs
->dc
.isac
.mocr
|= 0x04;
340 cs
->writeisac(cs
, ISAC_MOCR
, cs
->dc
.isac
.mocr
);
345 if (!cs
->dc
.isac
.mon_rx
) {
346 if (!(cs
->dc
.isac
.mon_rx
= kmalloc(MAX_MON_FRAME
, GFP_ATOMIC
))) {
347 if (cs
->debug
& L1_DEB_WARN
)
348 debugl1(cs
, "ISAC MON RX out of memory!");
349 cs
->dc
.isac
.mocr
&= 0x0f;
350 cs
->dc
.isac
.mocr
|= 0xa0;
351 cs
->writeisac(cs
, ISAC_MOCR
, cs
->dc
.isac
.mocr
);
354 cs
->dc
.isac
.mon_rxp
= 0;
356 if (cs
->dc
.isac
.mon_rxp
>= MAX_MON_FRAME
) {
357 cs
->dc
.isac
.mocr
&= 0x0f;
358 cs
->dc
.isac
.mocr
|= 0xa0;
359 cs
->writeisac(cs
, ISAC_MOCR
, cs
->dc
.isac
.mocr
);
360 cs
->dc
.isac
.mon_rxp
= 0;
361 if (cs
->debug
& L1_DEB_WARN
)
362 debugl1(cs
, "ISAC MON RX overflow!");
365 cs
->dc
.isac
.mon_rx
[cs
->dc
.isac
.mon_rxp
++] = cs
->readisac(cs
, ISAC_MOR1
);
366 if (cs
->debug
& L1_DEB_MONITOR
)
367 debugl1(cs
, "ISAC MOR1 %02x", cs
->dc
.isac
.mon_rx
[cs
->dc
.isac
.mon_rxp
- 1]);
368 cs
->dc
.isac
.mocr
|= 0x40;
369 cs
->writeisac(cs
, ISAC_MOCR
, cs
->dc
.isac
.mocr
);
373 cs
->dc
.isac
.mocr
&= 0xf0;
374 cs
->writeisac(cs
, ISAC_MOCR
, cs
->dc
.isac
.mocr
);
375 cs
->dc
.isac
.mocr
|= 0x0a;
376 cs
->writeisac(cs
, ISAC_MOCR
, cs
->dc
.isac
.mocr
);
377 schedule_event(cs
, D_RX_MON0
);
380 cs
->dc
.isac
.mocr
&= 0x0f;
381 cs
->writeisac(cs
, ISAC_MOCR
, cs
->dc
.isac
.mocr
);
382 cs
->dc
.isac
.mocr
|= 0xa0;
383 cs
->writeisac(cs
, ISAC_MOCR
, cs
->dc
.isac
.mocr
);
384 schedule_event(cs
, D_RX_MON1
);
387 if ((!cs
->dc
.isac
.mon_tx
) || (cs
->dc
.isac
.mon_txc
&&
388 (cs
->dc
.isac
.mon_txp
>= cs
->dc
.isac
.mon_txc
) &&
390 cs
->dc
.isac
.mocr
&= 0xf0;
391 cs
->writeisac(cs
, ISAC_MOCR
, cs
->dc
.isac
.mocr
);
392 cs
->dc
.isac
.mocr
|= 0x0a;
393 cs
->writeisac(cs
, ISAC_MOCR
, cs
->dc
.isac
.mocr
);
394 if (cs
->dc
.isac
.mon_txc
&&
395 (cs
->dc
.isac
.mon_txp
>= cs
->dc
.isac
.mon_txc
))
396 schedule_event(cs
, D_TX_MON0
);
399 if (cs
->dc
.isac
.mon_txc
&& (cs
->dc
.isac
.mon_txp
>= cs
->dc
.isac
.mon_txc
)) {
400 schedule_event(cs
, D_TX_MON0
);
403 cs
->writeisac(cs
, ISAC_MOX0
,
404 cs
->dc
.isac
.mon_tx
[cs
->dc
.isac
.mon_txp
++]);
405 if (cs
->debug
& L1_DEB_MONITOR
)
406 debugl1(cs
, "ISAC %02x -> MOX0", cs
->dc
.isac
.mon_tx
[cs
->dc
.isac
.mon_txp
- 1]);
410 if ((!cs
->dc
.isac
.mon_tx
) || (cs
->dc
.isac
.mon_txc
&&
411 (cs
->dc
.isac
.mon_txp
>= cs
->dc
.isac
.mon_txc
) &&
413 cs
->dc
.isac
.mocr
&= 0x0f;
414 cs
->writeisac(cs
, ISAC_MOCR
, cs
->dc
.isac
.mocr
);
415 cs
->dc
.isac
.mocr
|= 0xa0;
416 cs
->writeisac(cs
, ISAC_MOCR
, cs
->dc
.isac
.mocr
);
417 if (cs
->dc
.isac
.mon_txc
&&
418 (cs
->dc
.isac
.mon_txp
>= cs
->dc
.isac
.mon_txc
))
419 schedule_event(cs
, D_TX_MON1
);
422 if (cs
->dc
.isac
.mon_txc
&& (cs
->dc
.isac
.mon_txp
>= cs
->dc
.isac
.mon_txc
)) {
423 schedule_event(cs
, D_TX_MON1
);
426 cs
->writeisac(cs
, ISAC_MOX1
,
427 cs
->dc
.isac
.mon_tx
[cs
->dc
.isac
.mon_txp
++]);
428 if (cs
->debug
& L1_DEB_MONITOR
)
429 debugl1(cs
, "ISAC %02x -> MOX1", cs
->dc
.isac
.mon_tx
[cs
->dc
.isac
.mon_txp
- 1]);
438 ISAC_l1hw(struct PStack
*st
, int pr
, void *arg
)
440 struct IsdnCardState
*cs
= (struct IsdnCardState
*) st
->l1
.hardware
;
441 struct sk_buff
*skb
= arg
;
446 case (PH_DATA
| REQUEST
):
447 if (cs
->debug
& DEB_DLOG_HEX
)
448 LogFrame(cs
, skb
->data
, skb
->len
);
449 if (cs
->debug
& DEB_DLOG_VERBOSE
)
450 dlogframe(cs
, skb
, 0);
451 spin_lock_irqsave(&cs
->lock
, flags
);
453 skb_queue_tail(&cs
->sq
, skb
);
454 #ifdef L2FRAME_DEBUG /* psa */
455 if (cs
->debug
& L1_DEB_LAPD
)
456 Logl2Frame(cs
, skb
, "PH_DATA Queued", 0);
461 #ifdef L2FRAME_DEBUG /* psa */
462 if (cs
->debug
& L1_DEB_LAPD
)
463 Logl2Frame(cs
, skb
, "PH_DATA", 0);
467 spin_unlock_irqrestore(&cs
->lock
, flags
);
469 case (PH_PULL
| INDICATION
):
470 spin_lock_irqsave(&cs
->lock
, flags
);
472 if (cs
->debug
& L1_DEB_WARN
)
473 debugl1(cs
, " l2l1 tx_skb exist this shouldn't happen");
474 skb_queue_tail(&cs
->sq
, skb
);
476 if (cs
->debug
& DEB_DLOG_HEX
)
477 LogFrame(cs
, skb
->data
, skb
->len
);
478 if (cs
->debug
& DEB_DLOG_VERBOSE
)
479 dlogframe(cs
, skb
, 0);
482 #ifdef L2FRAME_DEBUG /* psa */
483 if (cs
->debug
& L1_DEB_LAPD
)
484 Logl2Frame(cs
, skb
, "PH_DATA_PULLED", 0);
488 spin_unlock_irqrestore(&cs
->lock
, flags
);
490 case (PH_PULL
| REQUEST
):
491 #ifdef L2FRAME_DEBUG /* psa */
492 if (cs
->debug
& L1_DEB_LAPD
)
493 debugl1(cs
, "-> PH_REQUEST_PULL");
496 test_and_clear_bit(FLG_L1_PULL_REQ
, &st
->l1
.Flags
);
497 st
->l1
.l1l2(st
, PH_PULL
| CONFIRM
, NULL
);
499 test_and_set_bit(FLG_L1_PULL_REQ
, &st
->l1
.Flags
);
501 case (HW_RESET
| REQUEST
):
502 spin_lock_irqsave(&cs
->lock
, flags
);
503 if ((cs
->dc
.isac
.ph_state
== ISAC_IND_EI
) ||
504 (cs
->dc
.isac
.ph_state
== ISAC_IND_DR
) ||
505 (cs
->dc
.isac
.ph_state
== ISAC_IND_RS
))
506 ph_command(cs
, ISAC_CMD_TIM
);
508 ph_command(cs
, ISAC_CMD_RS
);
509 spin_unlock_irqrestore(&cs
->lock
, flags
);
511 case (HW_ENABLE
| REQUEST
):
512 spin_lock_irqsave(&cs
->lock
, flags
);
513 ph_command(cs
, ISAC_CMD_TIM
);
514 spin_unlock_irqrestore(&cs
->lock
, flags
);
516 case (HW_INFO3
| REQUEST
):
517 spin_lock_irqsave(&cs
->lock
, flags
);
518 ph_command(cs
, ISAC_CMD_AR8
);
519 spin_unlock_irqrestore(&cs
->lock
, flags
);
521 case (HW_TESTLOOP
| REQUEST
):
522 spin_lock_irqsave(&cs
->lock
, flags
);
528 if (test_bit(HW_IOM1
, &cs
->HW_Flags
)) {
531 cs
->writeisac(cs
, ISAC_SPCR
, 0xa);
532 cs
->writeisac(cs
, ISAC_ADF1
, 0x2);
534 cs
->writeisac(cs
, ISAC_SPCR
, val
);
535 cs
->writeisac(cs
, ISAC_ADF1
, 0xa);
539 cs
->writeisac(cs
, ISAC_SPCR
, val
);
541 cs
->writeisac(cs
, ISAC_ADF1
, 0x8);
543 cs
->writeisac(cs
, ISAC_ADF1
, 0x0);
545 spin_unlock_irqrestore(&cs
->lock
, flags
);
547 case (HW_DEACTIVATE
| RESPONSE
):
548 skb_queue_purge(&cs
->rq
);
549 skb_queue_purge(&cs
->sq
);
551 dev_kfree_skb_any(cs
->tx_skb
);
554 if (test_and_clear_bit(FLG_DBUSY_TIMER
, &cs
->HW_Flags
))
555 del_timer(&cs
->dbusytimer
);
556 if (test_and_clear_bit(FLG_L1_DBUSY
, &cs
->HW_Flags
))
557 schedule_event(cs
, D_CLEARBUSY
);
560 if (cs
->debug
& L1_DEB_WARN
)
561 debugl1(cs
, "isac_l1hw unknown %04x", pr
);
567 setstack_isac(struct PStack
*st
, struct IsdnCardState
*cs
)
569 st
->l1
.l1hw
= ISAC_l1hw
;
573 DC_Close_isac(struct IsdnCardState
*cs
)
575 kfree(cs
->dc
.isac
.mon_rx
);
576 cs
->dc
.isac
.mon_rx
= NULL
;
577 kfree(cs
->dc
.isac
.mon_tx
);
578 cs
->dc
.isac
.mon_tx
= NULL
;
582 dbusy_timer_handler(struct IsdnCardState
*cs
)
584 struct PStack
*stptr
;
587 if (test_bit(FLG_DBUSY_TIMER
, &cs
->HW_Flags
)) {
588 rbch
= cs
->readisac(cs
, ISAC_RBCH
);
589 star
= cs
->readisac(cs
, ISAC_STAR
);
591 debugl1(cs
, "D-Channel Busy RBCH %02x STAR %02x",
593 if (rbch
& ISAC_RBCH_XAC
) { /* D-Channel Busy */
594 test_and_set_bit(FLG_L1_DBUSY
, &cs
->HW_Flags
);
596 while (stptr
!= NULL
) {
597 stptr
->l1
.l1l2(stptr
, PH_PAUSE
| INDICATION
, NULL
);
601 /* discard frame; reset transceiver */
602 test_and_clear_bit(FLG_DBUSY_TIMER
, &cs
->HW_Flags
);
604 dev_kfree_skb_any(cs
->tx_skb
);
608 printk(KERN_WARNING
"HiSax: ISAC D-Channel Busy no skb\n");
609 debugl1(cs
, "D-Channel Busy no skb");
611 cs
->writeisac(cs
, ISAC_CMDR
, 0x01); /* Transmitter reset */
612 cs
->irq_func(cs
->irq
, cs
);
617 void initisac(struct IsdnCardState
*cs
)
619 cs
->setstack_d
= setstack_isac
;
620 cs
->DC_Close
= DC_Close_isac
;
621 cs
->dc
.isac
.mon_tx
= NULL
;
622 cs
->dc
.isac
.mon_rx
= NULL
;
623 cs
->writeisac(cs
, ISAC_MASK
, 0xff);
624 cs
->dc
.isac
.mocr
= 0xaa;
625 if (test_bit(HW_IOM1
, &cs
->HW_Flags
)) {
627 cs
->writeisac(cs
, ISAC_ADF2
, 0x0);
628 cs
->writeisac(cs
, ISAC_SPCR
, 0xa);
629 cs
->writeisac(cs
, ISAC_ADF1
, 0x2);
630 cs
->writeisac(cs
, ISAC_STCR
, 0x70);
631 cs
->writeisac(cs
, ISAC_MODE
, 0xc9);
634 if (!cs
->dc
.isac
.adf2
)
635 cs
->dc
.isac
.adf2
= 0x80;
636 cs
->writeisac(cs
, ISAC_ADF2
, cs
->dc
.isac
.adf2
);
637 cs
->writeisac(cs
, ISAC_SQXR
, 0x2f);
638 cs
->writeisac(cs
, ISAC_SPCR
, 0x00);
639 cs
->writeisac(cs
, ISAC_STCR
, 0x70);
640 cs
->writeisac(cs
, ISAC_MODE
, 0xc9);
641 cs
->writeisac(cs
, ISAC_TIMR
, 0x00);
642 cs
->writeisac(cs
, ISAC_ADF1
, 0x00);
644 ph_command(cs
, ISAC_CMD_RS
);
645 cs
->writeisac(cs
, ISAC_MASK
, 0x0);
648 void clear_pending_isac_ints(struct IsdnCardState
*cs
)
652 val
= cs
->readisac(cs
, ISAC_STAR
);
653 debugl1(cs
, "ISAC STAR %x", val
);
654 val
= cs
->readisac(cs
, ISAC_MODE
);
655 debugl1(cs
, "ISAC MODE %x", val
);
656 val
= cs
->readisac(cs
, ISAC_ADF2
);
657 debugl1(cs
, "ISAC ADF2 %x", val
);
658 val
= cs
->readisac(cs
, ISAC_ISTA
);
659 debugl1(cs
, "ISAC ISTA %x", val
);
661 eval
= cs
->readisac(cs
, ISAC_EXIR
);
662 debugl1(cs
, "ISAC EXIR %x", eval
);
664 val
= cs
->readisac(cs
, ISAC_CIR0
);
665 debugl1(cs
, "ISAC CIR0 %x", val
);
666 cs
->dc
.isac
.ph_state
= (val
>> 2) & 0xf;
667 schedule_event(cs
, D_L1STATECHANGE
);
668 /* Disable all IRQ */
669 cs
->writeisac(cs
, ISAC_MASK
, 0xFF);
672 void setup_isac(struct IsdnCardState
*cs
)
674 INIT_WORK(&cs
->tqueue
, isac_bh
);
675 cs
->dbusytimer
.function
= (void *) dbusy_timer_handler
;
676 cs
->dbusytimer
.data
= (long) cs
;
677 init_timer(&cs
->dbusytimer
);