1	// SPDX-License-Identifier: GPL-2.0-only
2	/*
3	* Copyright (C) 1997 Wu Ching Chen
4	* 2.1.x update (C) 1998 Krzysztof G. Baranowski
5	* 2.5.x update (C) 2002 Red Hat
6	* 2.6.x update (C) 2004 Red Hat
7	*
8	* Marcelo Tosatti <marcelo@conectiva.com.br> : SMP fixes
9	*
10	* Wu Ching Chen : NULL pointer fixes 2000/06/02
11	* support atp876 chip
12	* enable 32 bit fifo transfer
13	* support cdrom & remove device run ultra speed
14	* fix disconnect bug 2000/12/21
15	* support atp880 chip lvd u160 2001/05/15
16	* fix prd table bug 2001/09/12 (7.1)
17	*
18	* atp885 support add by ACARD Hao Ping Lian 2005/01/05
19	*/
20	#include <linux/module.h>
21	#include <linux/init.h>
22	#include <linux/interrupt.h>
23	#include <linux/kernel.h>
24	#include <linux/types.h>
25	#include <linux/string.h>
26	#include <linux/ioport.h>
27	#include <linux/delay.h>
28	#include <linux/proc_fs.h>
29	#include <linux/spinlock.h>
30	#include <linux/pci.h>
31	#include <linux/blkdev.h>
32	#include <linux/dma-mapping.h>
33	#include <linux/slab.h>
34	#include <asm/io.h>
35
36	#include <scsi/scsi.h>
37	#include <scsi/scsi_cmnd.h>
38	#include <scsi/scsi_device.h>
39	#include <scsi/scsi_host.h>
40
41	#include "atp870u.h"
42
43	static const struct scsi_host_template atp870u_template;
44	static void send_s870(struct atp_unit *dev,unsigned char c);
45	static void atp_is(struct atp_unit *dev, unsigned char c, bool wide_chip,
46	unsigned char lvdmode);
47
48	static inline void atp_writeb_base(struct atp_unit *atp, u8 reg, u8 val)
49	{
50	outb(value: val, port: atp->baseport + reg);
51	}
52
53	static inline void atp_writew_base(struct atp_unit *atp, u8 reg, u16 val)
54	{
55	outw(value: val, port: atp->baseport + reg);
56	}
57
58	static inline void atp_writeb_io(struct atp_unit *atp, u8 channel, u8 reg, u8 val)
59	{
60	outb(value: val, port: atp->ioport[channel] + reg);
61	}
62
63	static inline void atp_writew_io(struct atp_unit *atp, u8 channel, u8 reg, u16 val)
64	{
65	outw(value: val, port: atp->ioport[channel] + reg);
66	}
67
68	static inline void atp_writeb_pci(struct atp_unit *atp, u8 channel, u8 reg, u8 val)
69	{
70	outb(value: val, port: atp->pciport[channel] + reg);
71	}
72
73	static inline void atp_writel_pci(struct atp_unit *atp, u8 channel, u8 reg, u32 val)
74	{
75	outl(value: val, port: atp->pciport[channel] + reg);
76	}
77
78	static inline u8 atp_readb_base(struct atp_unit *atp, u8 reg)
79	{
80	return inb(port: atp->baseport + reg);
81	}
82
83	static inline u16 atp_readw_base(struct atp_unit *atp, u8 reg)
84	{
85	return inw(port: atp->baseport + reg);
86	}
87
88	static inline u32 atp_readl_base(struct atp_unit *atp, u8 reg)
89	{
90	return inl(port: atp->baseport + reg);
91	}
92
93	static inline u8 atp_readb_io(struct atp_unit *atp, u8 channel, u8 reg)
94	{
95	return inb(port: atp->ioport[channel] + reg);
96	}
97
98	static inline u16 atp_readw_io(struct atp_unit *atp, u8 channel, u8 reg)
99	{
100	return inw(port: atp->ioport[channel] + reg);
101	}
102
103	static inline u8 atp_readb_pci(struct atp_unit *atp, u8 channel, u8 reg)
104	{
105	return inb(port: atp->pciport[channel] + reg);
106	}
107
108	static inline bool is880(struct atp_unit *atp)
109	{
110	return atp->pdev->device == ATP880_DEVID1 ||
111	atp->pdev->device == ATP880_DEVID2;
112	}
113
114	static inline bool is885(struct atp_unit *atp)
115	{
116	return atp->pdev->device == ATP885_DEVID;
117	}
118
119	static irqreturn_t atp870u_intr_handle(int irq, void *dev_id)
120	{
121	unsigned long flags;
122	unsigned short int id;
123	unsigned char i, j, c, target_id, lun,cmdp;
124	unsigned char *prd;
125	struct scsi_cmnd *workreq;
126	unsigned long adrcnt, k;
127	#ifdef ED_DBGP
128	unsigned long l;
129	#endif
130	struct Scsi_Host *host = dev_id;
131	struct atp_unit *dev = (struct atp_unit *)&host->hostdata;
132
133	for (c = 0; c < 2; c++) {
134	j = atp_readb_io(atp: dev, channel: c, reg: 0x1f);
135	if ((j & 0x80) != 0)
136	break;
137	dev->in_int[c] = 0;
138	}
139	if ((j & 0x80) == 0)
140	return IRQ_NONE;
141	#ifdef ED_DBGP
142	printk("atp870u_intr_handle enter\n");
143	#endif
144	dev->in_int[c] = 1;
145	cmdp = atp_readb_io(atp: dev, channel: c, reg: 0x10);
146	if (dev->working[c] != 0) {
147	if (is885(atp: dev)) {
148	if ((atp_readb_io(atp: dev, channel: c, reg: 0x16) & 0x80) == 0)
149	atp_writeb_io(atp: dev, channel: c, reg: 0x16,
150	val: (atp_readb_io(atp: dev, channel: c, reg: 0x16) | 0x80));
151	}
152	if ((atp_readb_pci(atp: dev, channel: c, reg: 0x00) & 0x08) != 0)
153	{
154	for (k=0; k < 1000; k++) {
155	if ((atp_readb_pci(atp: dev, channel: c, reg: 2) & 0x08) == 0)
156	break;
157	if ((atp_readb_pci(atp: dev, channel: c, reg: 2) & 0x01) == 0)
158	break;
159	}
160	}
161	atp_writeb_pci(atp: dev, channel: c, reg: 0, val: 0x00);
162
163	i = atp_readb_io(atp: dev, channel: c, reg: 0x17);
164
165	if (is885(atp: dev))
166	atp_writeb_pci(atp: dev, channel: c, reg: 2, val: 0x06);
167
168	target_id = atp_readb_io(atp: dev, channel: c, reg: 0x15);
169
170	/*
171	* Remap wide devices onto id numbers
172	*/
173
174	if ((target_id & 0x40) != 0) {
175	target_id = (target_id & 0x07) | 0x08;
176	} else {
177	target_id &= 0x07;
178	}
179
180	if ((j & 0x40) != 0) {
181	if (dev->last_cmd[c] == 0xff) {
182	dev->last_cmd[c] = target_id;
183	}
184	dev->last_cmd[c] |= 0x40;
185	}
186	if (is885(atp: dev))
187	dev->r1f[c][target_id] |= j;
188	#ifdef ED_DBGP
189	printk("atp870u_intr_handle status = %x\n",i);
190	#endif
191	if (i == 0x85) {
192	if ((dev->last_cmd[c] & 0xf0) != 0x40) {
193	dev->last_cmd[c] = 0xff;
194	}
195	if (is885(atp: dev)) {
196	adrcnt = 0;
197	((unsigned char *) &adrcnt)[2] =
198	atp_readb_io(atp: dev, channel: c, reg: 0x12);
199	((unsigned char *) &adrcnt)[1] =
200	atp_readb_io(atp: dev, channel: c, reg: 0x13);
201	((unsigned char *) &adrcnt)[0] =
202	atp_readb_io(atp: dev, channel: c, reg: 0x14);
203	if (dev->id[c][target_id].last_len != adrcnt) {
204	k = dev->id[c][target_id].last_len;
205	k -= adrcnt;
206	dev->id[c][target_id].tran_len = k;
207	dev->id[c][target_id].last_len = adrcnt;
208	}
209	#ifdef ED_DBGP
210	printk("dev->id[c][target_id].last_len = %d "
211	"dev->id[c][target_id].tran_len = %d\n",
212	dev->id[c][target_id].last_len,
213	dev->id[c][target_id].tran_len);
214	#endif
215	}
216
217	/*
218	* Flip wide
219	*/
220	if (dev->wide_id[c] != 0) {
221	atp_writeb_io(atp: dev, channel: c, reg: 0x1b, val: 0x01);
222	while ((atp_readb_io(atp: dev, channel: c, reg: 0x1b) & 0x01) != 0x01)
223	atp_writeb_io(atp: dev, channel: c, reg: 0x1b, val: 0x01);
224	}
225	/*
226	* Issue more commands
227	*/
228	spin_lock_irqsave(dev->host->host_lock, flags);
229	if (((dev->quhd[c] != dev->quend[c]) ||
230	(dev->last_cmd[c] != 0xff)) &&
231	(dev->in_snd[c] == 0)) {
232	#ifdef ED_DBGP
233	printk("Call sent_s870\n");
234	#endif
235	send_s870(dev,c);
236	}
237	spin_unlock_irqrestore(lock: dev->host->host_lock, flags);
238	/*
239	* Done
240	*/
241	dev->in_int[c] = 0;
242	#ifdef ED_DBGP
243	printk("Status 0x85 return\n");
244	#endif
245	return IRQ_HANDLED;
246	}
247
248	if (i == 0x40) {
249	dev->last_cmd[c] |= 0x40;
250	dev->in_int[c] = 0;
251	return IRQ_HANDLED;
252	}
253
254	if (i == 0x21) {
255	if ((dev->last_cmd[c] & 0xf0) != 0x40) {
256	dev->last_cmd[c] = 0xff;
257	}
258	adrcnt = 0;
259	((unsigned char *) &adrcnt)[2] =
260	atp_readb_io(atp: dev, channel: c, reg: 0x12);
261	((unsigned char *) &adrcnt)[1] =
262	atp_readb_io(atp: dev, channel: c, reg: 0x13);
263	((unsigned char *) &adrcnt)[0] =
264	atp_readb_io(atp: dev, channel: c, reg: 0x14);
265	k = dev->id[c][target_id].last_len;
266	k -= adrcnt;
267	dev->id[c][target_id].tran_len = k;
268	dev->id[c][target_id].last_len = adrcnt;
269	atp_writeb_io(atp: dev, channel: c, reg: 0x10, val: 0x41);
270	atp_writeb_io(atp: dev, channel: c, reg: 0x18, val: 0x08);
271	dev->in_int[c] = 0;
272	return IRQ_HANDLED;
273	}
274
275	if (is885(atp: dev)) {
276	if ((i == 0x4c) || (i == 0x4d) || (i == 0x8c) || (i == 0x8d)) {
277	if ((i == 0x4c) || (i == 0x8c))
278	i=0x48;
279	else
280	i=0x49;
281	}
282	}
283	if ((i == 0x80) || (i == 0x8f)) {
284	#ifdef ED_DBGP
285	printk(KERN_DEBUG "Device reselect\n");
286	#endif
287	lun = 0;
288	if (cmdp == 0x44 || i == 0x80)
289	lun = atp_readb_io(atp: dev, channel: c, reg: 0x1d) & 0x07;
290	else {
291	if ((dev->last_cmd[c] & 0xf0) != 0x40) {
292	dev->last_cmd[c] = 0xff;
293	}
294	if (cmdp == 0x41) {
295	#ifdef ED_DBGP
296	printk("cmdp = 0x41\n");
297	#endif
298	adrcnt = 0;
299	((unsigned char *) &adrcnt)[2] =
300	atp_readb_io(atp: dev, channel: c, reg: 0x12);
301	((unsigned char *) &adrcnt)[1] =
302	atp_readb_io(atp: dev, channel: c, reg: 0x13);
303	((unsigned char *) &adrcnt)[0] =
304	atp_readb_io(atp: dev, channel: c, reg: 0x14);
305	k = dev->id[c][target_id].last_len;
306	k -= adrcnt;
307	dev->id[c][target_id].tran_len = k;
308	dev->id[c][target_id].last_len = adrcnt;
309	atp_writeb_io(atp: dev, channel: c, reg: 0x18, val: 0x08);
310	dev->in_int[c] = 0;
311	return IRQ_HANDLED;
312	} else {
313	#ifdef ED_DBGP
314	printk("cmdp != 0x41\n");
315	#endif
316	atp_writeb_io(atp: dev, channel: c, reg: 0x10, val: 0x46);
317	dev->id[c][target_id].dirct = 0x00;
318	atp_writeb_io(atp: dev, channel: c, reg: 0x12, val: 0x00);
319	atp_writeb_io(atp: dev, channel: c, reg: 0x13, val: 0x00);
320	atp_writeb_io(atp: dev, channel: c, reg: 0x14, val: 0x00);
321	atp_writeb_io(atp: dev, channel: c, reg: 0x18, val: 0x08);
322	dev->in_int[c] = 0;
323	return IRQ_HANDLED;
324	}
325	}
326	if (dev->last_cmd[c] != 0xff) {
327	dev->last_cmd[c] |= 0x40;
328	}
329	if (is885(atp: dev)) {
330	j = atp_readb_base(atp: dev, reg: 0x29) & 0xfe;
331	atp_writeb_base(atp: dev, reg: 0x29, val: j);
332	} else
333	atp_writeb_io(atp: dev, channel: c, reg: 0x10, val: 0x45);
334
335	target_id = atp_readb_io(atp: dev, channel: c, reg: 0x16);
336	/*
337	* Remap wide identifiers
338	*/
339	if ((target_id & 0x10) != 0) {
340	target_id = (target_id & 0x07) | 0x08;
341	} else {
342	target_id &= 0x07;
343	}
344	if (is885(atp: dev))
345	atp_writeb_io(atp: dev, channel: c, reg: 0x10, val: 0x45);
346	workreq = dev->id[c][target_id].curr_req;
347	#ifdef ED_DBGP
348	scmd_printk(KERN_DEBUG, workreq, "CDB");
349	for (l = 0; l < workreq->cmd_len; l++)
350	printk(KERN_DEBUG " %x",workreq->cmnd[l]);
351	printk("\n");
352	#endif
353
354	atp_writeb_io(atp: dev, channel: c, reg: 0x0f, val: lun);
355	atp_writeb_io(atp: dev, channel: c, reg: 0x11, val: dev->id[c][target_id].devsp);
356	adrcnt = dev->id[c][target_id].tran_len;
357	k = dev->id[c][target_id].last_len;
358
359	atp_writeb_io(atp: dev, channel: c, reg: 0x12, val: ((unsigned char *) &k)[2]);
360	atp_writeb_io(atp: dev, channel: c, reg: 0x13, val: ((unsigned char *) &k)[1]);
361	atp_writeb_io(atp: dev, channel: c, reg: 0x14, val: ((unsigned char *) &k)[0]);
362	#ifdef ED_DBGP
363	printk("k %x, k[0] 0x%x k[1] 0x%x k[2] 0x%x\n", k,
364	atp_readb_io(dev, c, 0x14),
365	atp_readb_io(dev, c, 0x13),
366	atp_readb_io(dev, c, 0x12));
367	#endif
368	/* Remap wide */
369	j = target_id;
370	if (target_id > 7) {
371	j = (j & 0x07) | 0x40;
372	}
373	/* Add direction */
374	j |= dev->id[c][target_id].dirct;
375	atp_writeb_io(atp: dev, channel: c, reg: 0x15, val: j);
376	atp_writeb_io(atp: dev, channel: c, reg: 0x16, val: 0x80);
377
378	/* enable 32 bit fifo transfer */
379	if (is885(atp: dev)) {
380	i = atp_readb_pci(atp: dev, channel: c, reg: 1) & 0xf3;
381	//j=workreq->cmnd[0];
382	if ((workreq->cmnd[0] == READ_6) ||
383	(workreq->cmnd[0] == READ_10) ||
384	(workreq->cmnd[0] == WRITE_6) ||
385	(workreq->cmnd[0] == WRITE_10)) {
386	i |= 0x0c;
387	}
388	atp_writeb_pci(atp: dev, channel: c, reg: 1, val: i);
389	} else if (is880(atp: dev)) {
390	if ((workreq->cmnd[0] == READ_6) ||
391	(workreq->cmnd[0] == READ_10) ||
392	(workreq->cmnd[0] == WRITE_6) ||
393	(workreq->cmnd[0] == WRITE_10))
394	atp_writeb_base(atp: dev, reg: 0x3b,
395	val: (atp_readb_base(atp: dev, reg: 0x3b) & 0x3f) | 0xc0);
396	else
397	atp_writeb_base(atp: dev, reg: 0x3b,
398	val: atp_readb_base(atp: dev, reg: 0x3b) & 0x3f);
399	} else {
400	if ((workreq->cmnd[0] == READ_6) ||
401	(workreq->cmnd[0] == READ_10) ||
402	(workreq->cmnd[0] == WRITE_6) ||
403	(workreq->cmnd[0] == WRITE_10))
404	atp_writeb_base(atp: dev, reg: 0x3a,
405	val: (atp_readb_base(atp: dev, reg: 0x3a) & 0xf3) | 0x08);
406	else
407	atp_writeb_base(atp: dev, reg: 0x3a,
408	val: atp_readb_base(atp: dev, reg: 0x3a) & 0xf3);
409	}
410	j = 0;
411	id = 1;
412	id = id << target_id;
413	/*
414	* Is this a wide device
415	*/
416	if ((id & dev->wide_id[c]) != 0) {
417	j |= 0x01;
418	}
419	atp_writeb_io(atp: dev, channel: c, reg: 0x1b, val: j);
420	while ((atp_readb_io(atp: dev, channel: c, reg: 0x1b) & 0x01) != j)
421	atp_writeb_io(atp: dev, channel: c, reg: 0x1b, val: j);
422	if (dev->id[c][target_id].last_len == 0) {
423	atp_writeb_io(atp: dev, channel: c, reg: 0x18, val: 0x08);
424	dev->in_int[c] = 0;
425	#ifdef ED_DBGP
426	printk("dev->id[c][target_id].last_len = 0\n");
427	#endif
428	return IRQ_HANDLED;
429	}
430	#ifdef ED_DBGP
431	printk("target_id = %d adrcnt = %d\n",target_id,adrcnt);
432	#endif
433	prd = dev->id[c][target_id].prd_pos;
434	while (adrcnt != 0) {
435	id = ((unsigned short int *)prd)[2];
436	if (id == 0) {
437	k = 0x10000;
438	} else {
439	k = id;
440	}
441	if (k > adrcnt) {
442	((unsigned short int *)prd)[2] =
443	(unsigned short int)(k - adrcnt);
444	((unsigned long *)prd)[0] += adrcnt;
445	adrcnt = 0;
446	dev->id[c][target_id].prd_pos = prd;
447	} else {
448	adrcnt -= k;
449	dev->id[c][target_id].prdaddr += 0x08;
450	prd += 0x08;
451	if (adrcnt == 0) {
452	dev->id[c][target_id].prd_pos = prd;
453	}
454	}
455	}
456	atp_writel_pci(atp: dev, channel: c, reg: 0x04, val: dev->id[c][target_id].prdaddr);
457	#ifdef ED_DBGP
458	printk("dev->id[%d][%d].prdaddr 0x%8x\n",
459	c, target_id, dev->id[c][target_id].prdaddr);
460	#endif
461	if (!is885(atp: dev)) {
462	atp_writeb_pci(atp: dev, channel: c, reg: 2, val: 0x06);
463	atp_writeb_pci(atp: dev, channel: c, reg: 2, val: 0x00);
464	}
465	/*
466	* Check transfer direction
467	*/
468	if (dev->id[c][target_id].dirct != 0) {
469	atp_writeb_io(atp: dev, channel: c, reg: 0x18, val: 0x08);
470	atp_writeb_pci(atp: dev, channel: c, reg: 0, val: 0x01);
471	dev->in_int[c] = 0;
472	#ifdef ED_DBGP
473	printk("status 0x80 return dirct != 0\n");
474	#endif
475	return IRQ_HANDLED;
476	}
477	atp_writeb_io(atp: dev, channel: c, reg: 0x18, val: 0x08);
478	atp_writeb_pci(atp: dev, channel: c, reg: 0, val: 0x09);
479	dev->in_int[c] = 0;
480	#ifdef ED_DBGP
481	printk("status 0x80 return dirct = 0\n");
482	#endif
483	return IRQ_HANDLED;
484	}
485
486	/*
487	* Current scsi request on this target
488	*/
489
490	workreq = dev->id[c][target_id].curr_req;
491
492	if (i == 0x42 || i == 0x16) {
493	if ((dev->last_cmd[c] & 0xf0) != 0x40) {
494	dev->last_cmd[c] = 0xff;
495	}
496	if (i == 0x16) {
497	workreq->result = atp_readb_io(atp: dev, channel: c, reg: 0x0f);
498	if (((dev->r1f[c][target_id] & 0x10) != 0) && is885(atp: dev)) {
499	printk(KERN_WARNING "AEC67162 CRC ERROR !\n");
500	workreq->result = SAM_STAT_CHECK_CONDITION;
501	}
502	} else
503	workreq->result = SAM_STAT_CHECK_CONDITION;
504
505	if (is885(atp: dev)) {
506	j = atp_readb_base(atp: dev, reg: 0x29) | 0x01;
507	atp_writeb_base(atp: dev, reg: 0x29, val: j);
508	}
509	/*
510	* Complete the command
511	*/
512	scsi_dma_unmap(cmd: workreq);
513
514	spin_lock_irqsave(dev->host->host_lock, flags);
515	scsi_done(cmd: workreq);
516	#ifdef ED_DBGP
517	printk("workreq->scsi_done\n");
518	#endif
519	/*
520	* Clear it off the queue
521	*/
522	dev->id[c][target_id].curr_req = NULL;
523	dev->working[c]--;
524	spin_unlock_irqrestore(lock: dev->host->host_lock, flags);
525	/*
526	* Take it back wide
527	*/
528	if (dev->wide_id[c] != 0) {
529	atp_writeb_io(atp: dev, channel: c, reg: 0x1b, val: 0x01);
530	while ((atp_readb_io(atp: dev, channel: c, reg: 0x1b) & 0x01) != 0x01)
531	atp_writeb_io(atp: dev, channel: c, reg: 0x1b, val: 0x01);
532	}
533	/*
534	* If there is stuff to send and nothing going then send it
535	*/
536	spin_lock_irqsave(dev->host->host_lock, flags);
537	if (((dev->last_cmd[c] != 0xff) ||
538	(dev->quhd[c] != dev->quend[c])) &&
539	(dev->in_snd[c] == 0)) {
540	#ifdef ED_DBGP
541	printk("Call sent_s870(scsi_done)\n");
542	#endif
543	send_s870(dev,c);
544	}
545	spin_unlock_irqrestore(lock: dev->host->host_lock, flags);
546	dev->in_int[c] = 0;
547	return IRQ_HANDLED;
548	}
549	if ((dev->last_cmd[c] & 0xf0) != 0x40) {
550	dev->last_cmd[c] = 0xff;
551	}
552	if (i == 0x4f) {
553	i = 0x89;
554	}
555	i &= 0x0f;
556	if (i == 0x09) {
557	atp_writel_pci(atp: dev, channel: c, reg: 4, val: dev->id[c][target_id].prdaddr);
558	atp_writeb_pci(atp: dev, channel: c, reg: 2, val: 0x06);
559	atp_writeb_pci(atp: dev, channel: c, reg: 2, val: 0x00);
560	atp_writeb_io(atp: dev, channel: c, reg: 0x10, val: 0x41);
561	if (is885(atp: dev)) {
562	k = dev->id[c][target_id].last_len;
563	atp_writeb_io(atp: dev, channel: c, reg: 0x12,
564	val: ((unsigned char *) (&k))[2]);
565	atp_writeb_io(atp: dev, channel: c, reg: 0x13,
566	val: ((unsigned char *) (&k))[1]);
567	atp_writeb_io(atp: dev, channel: c, reg: 0x14,
568	val: ((unsigned char *) (&k))[0]);
569	dev->id[c][target_id].dirct = 0x00;
570	} else {
571	dev->id[c][target_id].dirct = 0x00;
572	}
573	atp_writeb_io(atp: dev, channel: c, reg: 0x18, val: 0x08);
574	atp_writeb_pci(atp: dev, channel: c, reg: 0, val: 0x09);
575	dev->in_int[c] = 0;
576	return IRQ_HANDLED;
577	}
578	if (i == 0x08) {
579	atp_writel_pci(atp: dev, channel: c, reg: 4, val: dev->id[c][target_id].prdaddr);
580	atp_writeb_pci(atp: dev, channel: c, reg: 2, val: 0x06);
581	atp_writeb_pci(atp: dev, channel: c, reg: 2, val: 0x00);
582	atp_writeb_io(atp: dev, channel: c, reg: 0x10, val: 0x41);
583	if (is885(atp: dev)) {
584	k = dev->id[c][target_id].last_len;
585	atp_writeb_io(atp: dev, channel: c, reg: 0x12,
586	val: ((unsigned char *) (&k))[2]);
587	atp_writeb_io(atp: dev, channel: c, reg: 0x13,
588	val: ((unsigned char *) (&k))[1]);
589	atp_writeb_io(atp: dev, channel: c, reg: 0x14,
590	val: ((unsigned char *) (&k))[0]);
591	}
592	atp_writeb_io(atp: dev, channel: c, reg: 0x15,
593	val: atp_readb_io(atp: dev, channel: c, reg: 0x15) | 0x20);
594	dev->id[c][target_id].dirct = 0x20;
595	atp_writeb_io(atp: dev, channel: c, reg: 0x18, val: 0x08);
596	atp_writeb_pci(atp: dev, channel: c, reg: 0, val: 0x01);
597	dev->in_int[c] = 0;
598	return IRQ_HANDLED;
599	}
600	if (i == 0x0a)
601	atp_writeb_io(atp: dev, channel: c, reg: 0x10, val: 0x30);
602	else
603	atp_writeb_io(atp: dev, channel: c, reg: 0x10, val: 0x46);
604	dev->id[c][target_id].dirct = 0x00;
605	atp_writeb_io(atp: dev, channel: c, reg: 0x12, val: 0x00);
606	atp_writeb_io(atp: dev, channel: c, reg: 0x13, val: 0x00);
607	atp_writeb_io(atp: dev, channel: c, reg: 0x14, val: 0x00);
608	atp_writeb_io(atp: dev, channel: c, reg: 0x18, val: 0x08);
609	}
610	dev->in_int[c] = 0;
611
612	return IRQ_HANDLED;
613	}
614	/**
615	* atp870u_queuecommand_lck - Queue SCSI command
616	* @req_p: request block
617	*
618	* Queue a command to the ATP queue. Called with the host lock held.
619	*/
620	static int atp870u_queuecommand_lck(struct scsi_cmnd *req_p)
621	{
622	void (*done)(struct scsi_cmnd *) = scsi_done;
623	unsigned char c;
624	unsigned int m;
625	struct atp_unit *dev;
626	struct Scsi_Host *host;
627
628	c = scmd_channel(req_p);
629	req_p->sense_buffer[0]=0;
630	scsi_set_resid(cmd: req_p, resid: 0);
631	if (scmd_channel(req_p) > 1) {
632	req_p->result = DID_BAD_TARGET << 16;
633	done(req_p);
634	#ifdef ED_DBGP
635	printk("atp870u_queuecommand : req_p->device->channel > 1\n");
636	#endif
637	return 0;
638	}
639
640	host = req_p->device->host;
641	dev = (struct atp_unit *)&host->hostdata;
642
643	m = 1;
644	m = m << scmd_id(req_p);
645
646	/*
647	* Fake a timeout for missing targets
648	*/
649
650	if ((m & dev->active_id[c]) == 0) {
651	req_p->result = DID_BAD_TARGET << 16;
652	done(req_p);
653	return 0;
654	}
655
656	/*
657	* Count new command
658	*/
659	dev->quend[c]++;
660	if (dev->quend[c] >= qcnt) {
661	dev->quend[c] = 0;
662	}
663
664	/*
665	* Check queue state
666	*/
667	if (dev->quhd[c] == dev->quend[c]) {
668	if (dev->quend[c] == 0) {
669	dev->quend[c] = qcnt;
670	}
671	#ifdef ED_DBGP
672	printk("atp870u_queuecommand : dev->quhd[c] == dev->quend[c]\n");
673	#endif
674	dev->quend[c]--;
675	req_p->result = DID_BUS_BUSY << 16;
676	done(req_p);
677	return 0;
678	}
679	dev->quereq[c][dev->quend[c]] = req_p;
680	#ifdef ED_DBGP
681	printk("dev->ioport[c] = %x atp_readb_io(dev, c, 0x1c) = %x "
682	"dev->in_int[%d] = %d dev->in_snd[%d] = %d\n",
683	dev->ioport[c], atp_readb_io(dev, c, 0x1c), c,
684	dev->in_int[c],c,dev->in_snd[c]);
685	#endif
686	if ((atp_readb_io(atp: dev, channel: c, reg: 0x1c) == 0) &&
687	(dev->in_int[c] == 0) &&
688	(dev->in_snd[c] == 0)) {
689	#ifdef ED_DBGP
690	printk("Call sent_s870(atp870u_queuecommand)\n");
691	#endif
692	send_s870(dev,c);
693	}
694	#ifdef ED_DBGP
695	printk("atp870u_queuecommand : exit\n");
696	#endif
697	return 0;
698	}
699
700	static DEF_SCSI_QCMD(atp870u_queuecommand)
701
702	/*
703	* send_s870 - send a command to the controller
704	*
705	* On entry there is work queued to be done. We move some of that work to the
706	* controller itself.
707	*
708	* Caller holds the host lock.
709	*/
710	static void send_s870(struct atp_unit *dev, unsigned char c)
711	{
712	struct scsi_cmnd *workreq = NULL;
713	unsigned int i;//,k;
714	unsigned char j, target_id;
715	unsigned char *prd;
716	unsigned short int w;
717	unsigned long l, bttl = 0;
718	unsigned long sg_count;
719
720	if (dev->in_snd[c] != 0) {
721	#ifdef ED_DBGP
722	printk("cmnd in_snd\n");
723	#endif
724	return;
725	}
726	#ifdef ED_DBGP
727	printk("Sent_s870 enter\n");
728	#endif
729	dev->in_snd[c] = 1;
730	if ((dev->last_cmd[c] != 0xff) && ((dev->last_cmd[c] & 0x40) != 0)) {
731	dev->last_cmd[c] &= 0x0f;
732	workreq = dev->id[c][dev->last_cmd[c]].curr_req;
733	if (!workreq) {
734	dev->last_cmd[c] = 0xff;
735	if (dev->quhd[c] == dev->quend[c]) {
736	dev->in_snd[c] = 0;
737	return;
738	}
739	}
740	}
741	if (!workreq) {
742	if ((dev->last_cmd[c] != 0xff) && (dev->working[c] != 0)) {
743	dev->in_snd[c] = 0;
744	return;
745	}
746	dev->working[c]++;
747	j = dev->quhd[c];
748	dev->quhd[c]++;
749	if (dev->quhd[c] >= qcnt)
750	dev->quhd[c] = 0;
751	workreq = dev->quereq[c][dev->quhd[c]];
752	if (dev->id[c][scmd_id(workreq)].curr_req != NULL) {
753	dev->quhd[c] = j;
754	dev->working[c]--;
755	dev->in_snd[c] = 0;
756	return;
757	}
758	dev->id[c][scmd_id(workreq)].curr_req = workreq;
759	dev->last_cmd[c] = scmd_id(workreq);
760	}
761	if ((atp_readb_io(atp: dev, channel: c, reg: 0x1f) & 0xb0) != 0 ||
762	atp_readb_io(atp: dev, channel: c, reg: 0x1c) != 0) {
763	#ifdef ED_DBGP
764	printk("Abort to Send\n");
765	#endif
766	dev->last_cmd[c] |= 0x40;
767	dev->in_snd[c] = 0;
768	return;
769	}
770	#ifdef ED_DBGP
771	printk("OK to Send\n");
772	scmd_printk(KERN_DEBUG, workreq, "CDB");
773	for(i=0;i<workreq->cmd_len;i++) {
774	printk(" %x",workreq->cmnd[i]);
775	}
776	printk("\n");
777	#endif
778	l = scsi_bufflen(cmd: workreq);
779
780	if (is885(atp: dev)) {
781	j = atp_readb_base(atp: dev, reg: 0x29) & 0xfe;
782	atp_writeb_base(atp: dev, reg: 0x29, val: j);
783	dev->r1f[c][scmd_id(workreq)] = 0;
784	}
785
786	if (workreq->cmnd[0] == READ_CAPACITY) {
787	if (l > 8)
788	l = 8;
789	}
790	if (workreq->cmnd[0] == TEST_UNIT_READY) {
791	l = 0;
792	}
793
794	j = 0;
795	target_id = scmd_id(workreq);
796
797	/*
798	* Wide ?
799	*/
800	w = 1;
801	w = w << target_id;
802	if ((w & dev->wide_id[c]) != 0) {
803	j |= 0x01;
804	}
805	atp_writeb_io(atp: dev, channel: c, reg: 0x1b, val: j);
806	while ((atp_readb_io(atp: dev, channel: c, reg: 0x1b) & 0x01) != j) {
807	atp_writeb_pci(atp: dev, channel: c, reg: 0x1b, val: j);
808	#ifdef ED_DBGP
809	printk("send_s870 while loop 1\n");
810	#endif
811	}
812	/*
813	* Write the command
814	*/
815
816	atp_writeb_io(atp: dev, channel: c, reg: 0x00, val: workreq->cmd_len);
817	atp_writeb_io(atp: dev, channel: c, reg: 0x01, val: 0x2c);
818	if (is885(atp: dev))
819	atp_writeb_io(atp: dev, channel: c, reg: 0x02, val: 0x7f);
820	else
821	atp_writeb_io(atp: dev, channel: c, reg: 0x02, val: 0xcf);
822	for (i = 0; i < workreq->cmd_len; i++)
823	atp_writeb_io(atp: dev, channel: c, reg: 0x03 + i, val: workreq->cmnd[i]);
824	atp_writeb_io(atp: dev, channel: c, reg: 0x0f, val: workreq->device->lun);
825	/*
826	* Write the target
827	*/
828	atp_writeb_io(atp: dev, channel: c, reg: 0x11, val: dev->id[c][target_id].devsp);
829	#ifdef ED_DBGP
830	printk("dev->id[%d][%d].devsp = %2x\n",c,target_id,
831	dev->id[c][target_id].devsp);
832	#endif
833
834	sg_count = scsi_dma_map(cmd: workreq);
835	/*
836	* Write transfer size
837	*/
838	atp_writeb_io(atp: dev, channel: c, reg: 0x12, val: ((unsigned char *) (&l))[2]);
839	atp_writeb_io(atp: dev, channel: c, reg: 0x13, val: ((unsigned char *) (&l))[1]);
840	atp_writeb_io(atp: dev, channel: c, reg: 0x14, val: ((unsigned char *) (&l))[0]);
841	j = target_id;
842	dev->id[c][j].last_len = l;
843	dev->id[c][j].tran_len = 0;
844	#ifdef ED_DBGP
845	printk("dev->id[%2d][%2d].last_len = %d\n",c,j,dev->id[c][j].last_len);
846	#endif
847	/*
848	* Flip the wide bits
849	*/
850	if ((j & 0x08) != 0) {
851	j = (j & 0x07) | 0x40;
852	}
853	/*
854	* Check transfer direction
855	*/
856	if (workreq->sc_data_direction == DMA_TO_DEVICE)
857	atp_writeb_io(atp: dev, channel: c, reg: 0x15, val: j | 0x20);
858	else
859	atp_writeb_io(atp: dev, channel: c, reg: 0x15, val: j);
860	atp_writeb_io(atp: dev, channel: c, reg: 0x16, val: atp_readb_io(atp: dev, channel: c, reg: 0x16) | 0x80);
861	atp_writeb_io(atp: dev, channel: c, reg: 0x16, val: 0x80);
862	dev->id[c][target_id].dirct = 0;
863	if (l == 0) {
864	if (atp_readb_io(atp: dev, channel: c, reg: 0x1c) == 0) {
865	#ifdef ED_DBGP
866	printk("change SCSI_CMD_REG 0x08\n");
867	#endif
868	atp_writeb_io(atp: dev, channel: c, reg: 0x18, val: 0x08);
869	} else
870	dev->last_cmd[c] |= 0x40;
871	dev->in_snd[c] = 0;
872	return;
873	}
874	prd = dev->id[c][target_id].prd_table;
875	dev->id[c][target_id].prd_pos = prd;
876
877	/*
878	* Now write the request list. Either as scatter/gather or as
879	* a linear chain.
880	*/
881
882	if (l) {
883	struct scatterlist *sgpnt;
884	i = 0;
885	scsi_for_each_sg(workreq, sgpnt, sg_count, j) {
886	bttl = sg_dma_address(sgpnt);
887	l=sg_dma_len(sgpnt);
888	#ifdef ED_DBGP
889	printk("1. bttl %x, l %x\n",bttl, l);
890	#endif
891	while (l > 0x10000) {
892	(((u16 *) (prd))[i + 3]) = 0x0000;
893	(((u16 *) (prd))[i + 2]) = 0x0000;
894	(((u32 *) (prd))[i >> 1]) = cpu_to_le32(bttl);
895	l -= 0x10000;
896	bttl += 0x10000;
897	i += 0x04;
898	}
899	(((u32 *) (prd))[i >> 1]) = cpu_to_le32(bttl);
900	(((u16 *) (prd))[i + 2]) = cpu_to_le16(l);
901	(((u16 *) (prd))[i + 3]) = 0;
902	i += 0x04;
903	}
904	(((u16 *) (prd))[i - 1]) = cpu_to_le16(0x8000);
905	#ifdef ED_DBGP
906	printk("prd %4x %4x %4x %4x\n",
907	(((unsigned short int *)prd)[0]),
908	(((unsigned short int *)prd)[1]),
909	(((unsigned short int *)prd)[2]),
910	(((unsigned short int *)prd)[3]));
911	printk("2. bttl %x, l %x\n",bttl, l);
912	#endif
913	}
914	#ifdef ED_DBGP
915	printk("send_s870: prdaddr_2 0x%8x target_id %d\n",
916	dev->id[c][target_id].prdaddr,target_id);
917	#endif
918	dev->id[c][target_id].prdaddr = dev->id[c][target_id].prd_bus;
919	atp_writel_pci(atp: dev, channel: c, reg: 4, val: dev->id[c][target_id].prdaddr);
920	atp_writeb_pci(atp: dev, channel: c, reg: 2, val: 0x06);
921	atp_writeb_pci(atp: dev, channel: c, reg: 2, val: 0x00);
922	if (is885(atp: dev)) {
923	j = atp_readb_pci(atp: dev, channel: c, reg: 1) & 0xf3;
924	if ((workreq->cmnd[0] == READ_6) ||
925	(workreq->cmnd[0] == READ_10) ||
926	(workreq->cmnd[0] == WRITE_6) ||
927	(workreq->cmnd[0] == WRITE_10)) {
928	j |= 0x0c;
929	}
930	atp_writeb_pci(atp: dev, channel: c, reg: 1, val: j);
931	} else if (is880(atp: dev)) {
932	if ((workreq->cmnd[0] == READ_6) ||
933	(workreq->cmnd[0] == READ_10) ||
934	(workreq->cmnd[0] == WRITE_6) ||
935	(workreq->cmnd[0] == WRITE_10))
936	atp_writeb_base(atp: dev, reg: 0x3b,
937	val: (atp_readb_base(atp: dev, reg: 0x3b) & 0x3f) | 0xc0);
938	else
939	atp_writeb_base(atp: dev, reg: 0x3b,
940	val: atp_readb_base(atp: dev, reg: 0x3b) & 0x3f);
941	} else {
942	if ((workreq->cmnd[0] == READ_6) ||
943	(workreq->cmnd[0] == READ_10) ||
944	(workreq->cmnd[0] == WRITE_6) ||
945	(workreq->cmnd[0] == WRITE_10))
946	atp_writeb_base(atp: dev, reg: 0x3a,
947	val: (atp_readb_base(atp: dev, reg: 0x3a) & 0xf3) | 0x08);
948	else
949	atp_writeb_base(atp: dev, reg: 0x3a,
950	val: atp_readb_base(atp: dev, reg: 0x3a) & 0xf3);
951	}
952
953	if(workreq->sc_data_direction == DMA_TO_DEVICE) {
954	dev->id[c][target_id].dirct = 0x20;
955	if (atp_readb_io(atp: dev, channel: c, reg: 0x1c) == 0) {
956	atp_writeb_io(atp: dev, channel: c, reg: 0x18, val: 0x08);
957	atp_writeb_pci(atp: dev, channel: c, reg: 0, val: 0x01);
958	#ifdef ED_DBGP
959	printk( "start DMA(to target)\n");
960	#endif
961	} else {
962	dev->last_cmd[c] |= 0x40;
963	}
964	dev->in_snd[c] = 0;
965	return;
966	}
967	if (atp_readb_io(atp: dev, channel: c, reg: 0x1c) == 0) {
968	atp_writeb_io(atp: dev, channel: c, reg: 0x18, val: 0x08);
969	atp_writeb_pci(atp: dev, channel: c, reg: 0, val: 0x09);
970	#ifdef ED_DBGP
971	printk( "start DMA(to host)\n");
972	#endif
973	} else {
974	dev->last_cmd[c] |= 0x40;
975	}
976	dev->in_snd[c] = 0;
977	return;
978
979	}
980
981	static unsigned char fun_scam(struct atp_unit *dev, unsigned short int *val)
982	{
983	unsigned short int i, k;
984	unsigned char j;
985
986	atp_writew_io(atp: dev, channel: 0, reg: 0x1c, val: *val);
987	for (i = 0; i < 10; i++) { /* stable >= bus settle delay(400 ns) */
988	k = atp_readw_io(atp: dev, channel: 0, reg: 0x1c);
989	j = (unsigned char) (k >> 8);
990	if ((k & 0x8000) != 0) /* DB7 all release? */
991	i = 0;
992	}
993	*val |= 0x4000; /* assert DB6 */
994	atp_writew_io(atp: dev, channel: 0, reg: 0x1c, val: *val);
995	*val &= 0xdfff; /* assert DB5 */
996	atp_writew_io(atp: dev, channel: 0, reg: 0x1c, val: *val);
997	for (i = 0; i < 10; i++) { /* stable >= bus settle delay(400 ns) */
998	if ((atp_readw_io(atp: dev, channel: 0, reg: 0x1c) & 0x2000) != 0) /* DB5 all release? */
999	i = 0;
1000	}
1001	*val |= 0x8000; /* no DB4-0, assert DB7 */
1002	*val &= 0xe0ff;
1003	atp_writew_io(atp: dev, channel: 0, reg: 0x1c, val: *val);
1004	*val &= 0xbfff; /* release DB6 */
1005	atp_writew_io(atp: dev, channel: 0, reg: 0x1c, val: *val);
1006	for (i = 0; i < 10; i++) { /* stable >= bus settle delay(400 ns) */
1007	if ((atp_readw_io(atp: dev, channel: 0, reg: 0x1c) & 0x4000) != 0) /* DB6 all release? */
1008	i = 0;
1009	}
1010
1011	return j;
1012	}
1013
1014	static void tscam(struct Scsi_Host *host, bool wide_chip, u8 scam_on)
1015	{
1016
1017	unsigned char i, j, k;
1018	unsigned long n;
1019	unsigned short int m, assignid_map, val;
1020	unsigned char mbuf[33], quintet[2];
1021	struct atp_unit *dev = (struct atp_unit *)&host->hostdata;
1022	static unsigned char g2q_tab[8] = {
1023	0x38, 0x31, 0x32, 0x2b, 0x34, 0x2d, 0x2e, 0x27
1024	};
1025
1026	/* I can't believe we need this before we've even done anything. Remove it
1027	* and see if anyone bitches.
1028	for (i = 0; i < 0x10; i++) {
1029	udelay(0xffff);
1030	}
1031	*/
1032
1033	atp_writeb_io(atp: dev, channel: 0, reg: 1, val: 0x08);
1034	atp_writeb_io(atp: dev, channel: 0, reg: 2, val: 0x7f);
1035	atp_writeb_io(atp: dev, channel: 0, reg: 0x11, val: 0x20);
1036
1037	if ((scam_on & 0x40) == 0) {
1038	return;
1039	}
1040	m = 1;
1041	m <<= dev->host_id[0];
1042	j = 16;
1043	if (!wide_chip) {
1044	m |= 0xff00;
1045	j = 8;
1046	}
1047	assignid_map = m;
1048	atp_writeb_io(atp: dev, channel: 0, reg: 0x02, val: 0x02); /* 2*2=4ms,3EH 2/32*3E=3.9ms */
1049	atp_writeb_io(atp: dev, channel: 0, reg: 0x03, val: 0);
1050	atp_writeb_io(atp: dev, channel: 0, reg: 0x04, val: 0);
1051	atp_writeb_io(atp: dev, channel: 0, reg: 0x05, val: 0);
1052	atp_writeb_io(atp: dev, channel: 0, reg: 0x06, val: 0);
1053	atp_writeb_io(atp: dev, channel: 0, reg: 0x07, val: 0);
1054	atp_writeb_io(atp: dev, channel: 0, reg: 0x08, val: 0);
1055
1056	for (i = 0; i < j; i++) {
1057	m = 1;
1058	m = m << i;
1059	if ((m & assignid_map) != 0) {
1060	continue;
1061	}
1062	atp_writeb_io(atp: dev, channel: 0, reg: 0x0f, val: 0);
1063	atp_writeb_io(atp: dev, channel: 0, reg: 0x12, val: 0);
1064	atp_writeb_io(atp: dev, channel: 0, reg: 0x13, val: 0);
1065	atp_writeb_io(atp: dev, channel: 0, reg: 0x14, val: 0);
1066	if (i > 7) {
1067	k = (i & 0x07) | 0x40;
1068	} else {
1069	k = i;
1070	}
1071	atp_writeb_io(atp: dev, channel: 0, reg: 0x15, val: k);
1072	if (wide_chip)
1073	atp_writeb_io(atp: dev, channel: 0, reg: 0x1b, val: 0x01);
1074	else
1075	atp_writeb_io(atp: dev, channel: 0, reg: 0x1b, val: 0x00);
1076	do {
1077	atp_writeb_io(atp: dev, channel: 0, reg: 0x18, val: 0x09);
1078
1079	while ((atp_readb_io(atp: dev, channel: 0, reg: 0x1f) & 0x80) == 0x00)
1080	cpu_relax();
1081	k = atp_readb_io(atp: dev, channel: 0, reg: 0x17);
1082	if ((k == 0x85) || (k == 0x42))
1083	break;
1084	if (k != 0x16)
1085	atp_writeb_io(atp: dev, channel: 0, reg: 0x10, val: 0x41);
1086	} while (k != 0x16);
1087	if ((k == 0x85) || (k == 0x42))
1088	continue;
1089	assignid_map |= m;
1090
1091	}
1092	atp_writeb_io(atp: dev, channel: 0, reg: 0x02, val: 0x7f);
1093	atp_writeb_io(atp: dev, channel: 0, reg: 0x1b, val: 0x02);
1094
1095	udelay(2);
1096
1097	val = 0x0080; /* bsy */
1098	atp_writew_io(atp: dev, channel: 0, reg: 0x1c, val);
1099	val |= 0x0040; /* sel */
1100	atp_writew_io(atp: dev, channel: 0, reg: 0x1c, val);
1101	val |= 0x0004; /* msg */
1102	atp_writew_io(atp: dev, channel: 0, reg: 0x1c, val);
1103	udelay(2); /* 2 deskew delay(45ns*2=90ns) */
1104	val &= 0x007f; /* no bsy */
1105	atp_writew_io(atp: dev, channel: 0, reg: 0x1c, val);
1106	msleep(msecs: 128);
1107	val &= 0x00fb; /* after 1ms no msg */
1108	atp_writew_io(atp: dev, channel: 0, reg: 0x1c, val);
1109	while ((atp_readb_io(atp: dev, channel: 0, reg: 0x1c) & 0x04) != 0)
1110	;
1111	udelay(2);
1112	udelay(100);
1113	for (n = 0; n < 0x30000; n++)
1114	if ((atp_readb_io(atp: dev, channel: 0, reg: 0x1c) & 0x80) != 0) /* bsy ? */
1115	break;
1116	if (n < 0x30000)
1117	for (n = 0; n < 0x30000; n++)
1118	if ((atp_readb_io(atp: dev, channel: 0, reg: 0x1c) & 0x81) == 0x0081) {
1119	udelay(2);
1120	val |= 0x8003; /* io,cd,db7 */
1121	atp_writew_io(atp: dev, channel: 0, reg: 0x1c, val);
1122	udelay(2);
1123	val &= 0x00bf; /* no sel */
1124	atp_writew_io(atp: dev, channel: 0, reg: 0x1c, val);
1125	udelay(2);
1126	break;
1127	}
1128	while (1) {
1129	/*
1130	* The funny division into multiple delays is to accomodate
1131	* arches like ARM where udelay() multiplies its argument by
1132	* a large number to initialize a loop counter. To avoid
1133	* overflow, the maximum supported udelay is 2000 microseconds.
1134	*
1135	* XXX it would be more polite to find a way to use msleep()
1136	*/
1137	mdelay(2);
1138	udelay(48);
1139	if ((atp_readb_io(atp: dev, channel: 0, reg: 0x1c) & 0x80) == 0x00) { /* bsy ? */
1140	atp_writew_io(atp: dev, channel: 0, reg: 0x1c, val: 0);
1141	atp_writeb_io(atp: dev, channel: 0, reg: 0x1b, val: 0);
1142	atp_writeb_io(atp: dev, channel: 0, reg: 0x15, val: 0);
1143	atp_writeb_io(atp: dev, channel: 0, reg: 0x18, val: 0x09);
1144	while ((atp_readb_io(atp: dev, channel: 0, reg: 0x1f) & 0x80) == 0)
1145	cpu_relax();
1146	atp_readb_io(atp: dev, channel: 0, reg: 0x17);
1147	return;
1148	}
1149	val &= 0x00ff; /* synchronization */
1150	val |= 0x3f00;
1151	fun_scam(dev, val: &val);
1152	udelay(2);
1153	val &= 0x00ff; /* isolation */
1154	val |= 0x2000;
1155	fun_scam(dev, val: &val);
1156	udelay(2);
1157	i = 8;
1158	j = 0;
1159
1160	while (1) {
1161	if ((atp_readw_io(atp: dev, channel: 0, reg: 0x1c) & 0x2000) == 0)
1162	continue;
1163	udelay(2);
1164	val &= 0x00ff; /* get ID_STRING */
1165	val |= 0x2000;
1166	k = fun_scam(dev, val: &val);
1167	if ((k & 0x03) == 0)
1168	break;
1169	mbuf[j] <<= 0x01;
1170	mbuf[j] &= 0xfe;
1171	if ((k & 0x02) != 0)
1172	mbuf[j] |= 0x01;
1173	i--;
1174	if (i > 0)
1175	continue;
1176	j++;
1177	i = 8;
1178	}
1179
1180	/* isolation complete.. */
1181	/* mbuf[32]=0;
1182	printk(" \n%x %x %x %s\n ",assignid_map,mbuf[0],mbuf[1],&mbuf[2]); */
1183	i = 15;
1184	j = mbuf[0];
1185	if ((j & 0x20) != 0) { /* bit5=1:ID up to 7 */
1186	i = 7;
1187	}
1188	if ((j & 0x06) != 0) { /* IDvalid? */
1189	k = mbuf[1];
1190	while (1) {
1191	m = 1;
1192	m <<= k;
1193	if ((m & assignid_map) == 0)
1194	break;
1195	if (k > 0)
1196	k--;
1197	else
1198	break;
1199	}
1200	}
1201	if ((m & assignid_map) != 0) { /* srch from max acceptable ID# */
1202	k = i; /* max acceptable ID# */
1203	while (1) {
1204	m = 1;
1205	m <<= k;
1206	if ((m & assignid_map) == 0)
1207	break;
1208	if (k > 0)
1209	k--;
1210	else
1211	break;
1212	}
1213	}
1214	/* k=binID#, */
1215	assignid_map |= m;
1216	if (k < 8) {
1217	quintet[0] = 0x38; /* 1st dft ID<8 */
1218	} else {
1219	quintet[0] = 0x31; /* 1st ID>=8 */
1220	}
1221	k &= 0x07;
1222	quintet[1] = g2q_tab[k];
1223
1224	val &= 0x00ff; /* AssignID 1stQuintet,AH=001xxxxx */
1225	m = quintet[0] << 8;
1226	val |= m;
1227	fun_scam(dev, val: &val);
1228	val &= 0x00ff; /* AssignID 2ndQuintet,AH=001xxxxx */
1229	m = quintet[1] << 8;
1230	val |= m;
1231	fun_scam(dev, val: &val);
1232
1233	}
1234	}
1235
1236	static void atp870u_free_tables(struct Scsi_Host *host)
1237	{
1238	struct atp_unit *atp_dev = (struct atp_unit *)&host->hostdata;
1239	int j, k;
1240	for (j=0; j < 2; j++) {
1241	for (k = 0; k < 16; k++) {
1242	if (!atp_dev->id[j][k].prd_table)
1243	continue;
1244	dma_free_coherent(dev: &atp_dev->pdev->dev, size: 1024,
1245	cpu_addr: atp_dev->id[j][k].prd_table,
1246	dma_handle: atp_dev->id[j][k].prd_bus);
1247	atp_dev->id[j][k].prd_table = NULL;
1248	}
1249	}
1250	}
1251
1252	static int atp870u_init_tables(struct Scsi_Host *host)
1253	{
1254	struct atp_unit *atp_dev = (struct atp_unit *)&host->hostdata;
1255	int c,k;
1256	for(c=0;c < 2;c++) {
1257	for(k=0;k<16;k++) {
1258	atp_dev->id[c][k].prd_table =
1259	dma_alloc_coherent(dev: &atp_dev->pdev->dev, size: 1024,
1260	dma_handle: &(atp_dev->id[c][k].prd_bus),
1261	GFP_KERNEL);
1262	if (!atp_dev->id[c][k].prd_table) {
1263	printk("atp870u_init_tables fail\n");
1264	atp870u_free_tables(host);
1265	return -ENOMEM;
1266	}
1267	atp_dev->id[c][k].prdaddr = atp_dev->id[c][k].prd_bus;
1268	atp_dev->id[c][k].devsp=0x20;
1269	atp_dev->id[c][k].devtype = 0x7f;
1270	atp_dev->id[c][k].curr_req = NULL;
1271	}
1272
1273	atp_dev->active_id[c] = 0;
1274	atp_dev->wide_id[c] = 0;
1275	atp_dev->host_id[c] = 0x07;
1276	atp_dev->quhd[c] = 0;
1277	atp_dev->quend[c] = 0;
1278	atp_dev->last_cmd[c] = 0xff;
1279	atp_dev->in_snd[c] = 0;
1280	atp_dev->in_int[c] = 0;
1281
1282	for (k = 0; k < qcnt; k++) {
1283	atp_dev->quereq[c][k] = NULL;
1284	}
1285	for (k = 0; k < 16; k++) {
1286	atp_dev->id[c][k].curr_req = NULL;
1287	atp_dev->sp[c][k] = 0x04;
1288	}
1289	}
1290	return 0;
1291	}
1292
1293	static void atp_set_host_id(struct atp_unit *atp, u8 c, u8 host_id)
1294	{
1295	atp_writeb_io(atp, channel: c, reg: 0, val: host_id | 0x08);
1296	atp_writeb_io(atp, channel: c, reg: 0x18, val: 0);
1297	while ((atp_readb_io(atp, channel: c, reg: 0x1f) & 0x80) == 0)
1298	mdelay(1);
1299	atp_readb_io(atp, channel: c, reg: 0x17);
1300	atp_writeb_io(atp, channel: c, reg: 1, val: 8);
1301	atp_writeb_io(atp, channel: c, reg: 2, val: 0x7f);
1302	atp_writeb_io(atp, channel: c, reg: 0x11, val: 0x20);
1303	}
1304
1305	static void atp870_init(struct Scsi_Host *shpnt)
1306	{
1307	struct atp_unit *atpdev = shost_priv(shost: shpnt);
1308	struct pci_dev *pdev = atpdev->pdev;
1309	unsigned char k, host_id;
1310	u8 scam_on;
1311	bool wide_chip =
1312	(pdev->device == PCI_DEVICE_ID_ARTOP_AEC7610 &&
1313	pdev->revision == 4) ||
1314	(pdev->device == PCI_DEVICE_ID_ARTOP_AEC7612UW) ||
1315	(pdev->device == PCI_DEVICE_ID_ARTOP_AEC7612SUW);
1316
1317	pci_read_config_byte(dev: pdev, where: 0x49, val: &host_id);
1318
1319	dev_info(&pdev->dev, "ACARD AEC-671X PCI Ultra/W SCSI-2/3 "
1320	"Host Adapter: IO:%lx, IRQ:%d.\n",
1321	shpnt->io_port, shpnt->irq);
1322
1323	atpdev->ioport[0] = shpnt->io_port;
1324	atpdev->pciport[0] = shpnt->io_port + 0x20;
1325	host_id &= 0x07;
1326	atpdev->host_id[0] = host_id;
1327	scam_on = atp_readb_pci(atp: atpdev, channel: 0, reg: 2);
1328	atpdev->global_map[0] = atp_readb_base(atp: atpdev, reg: 0x2d);
1329	atpdev->ultra_map[0] = atp_readw_base(atp: atpdev, reg: 0x2e);
1330
1331	if (atpdev->ultra_map[0] == 0) {
1332	scam_on = 0x00;
1333	atpdev->global_map[0] = 0x20;
1334	atpdev->ultra_map[0] = 0xffff;
1335	}
1336
1337	if (pdev->revision > 0x07) /* check if atp876 chip */
1338	atp_writeb_base(atp: atpdev, reg: 0x3e, val: 0x00); /* enable terminator */
1339
1340	k = (atp_readb_base(atp: atpdev, reg: 0x3a) & 0xf3) | 0x10;
1341	atp_writeb_base(atp: atpdev, reg: 0x3a, val: k);
1342	atp_writeb_base(atp: atpdev, reg: 0x3a, val: k & 0xdf);
1343	msleep(msecs: 32);
1344	atp_writeb_base(atp: atpdev, reg: 0x3a, val: k);
1345	msleep(msecs: 32);
1346	atp_set_host_id(atp: atpdev, c: 0, host_id);
1347
1348	tscam(host: shpnt, wide_chip, scam_on);
1349	atp_writeb_base(atp: atpdev, reg: 0x3a, val: atp_readb_base(atp: atpdev, reg: 0x3a) | 0x10);
1350	atp_is(dev: atpdev, c: 0, wide_chip, lvdmode: 0);
1351	atp_writeb_base(atp: atpdev, reg: 0x3a, val: atp_readb_base(atp: atpdev, reg: 0x3a) & 0xef);
1352	atp_writeb_base(atp: atpdev, reg: 0x3b, val: atp_readb_base(atp: atpdev, reg: 0x3b) | 0x20);
1353	shpnt->max_id = wide_chip ? 16 : 8;
1354	shpnt->this_id = host_id;
1355	}
1356
1357	static void atp880_init(struct Scsi_Host *shpnt)
1358	{
1359	struct atp_unit *atpdev = shost_priv(shost: shpnt);
1360	struct pci_dev *pdev = atpdev->pdev;
1361	unsigned char k, m, host_id;
1362	unsigned int n;
1363
1364	pci_write_config_byte(dev: pdev, PCI_LATENCY_TIMER, val: 0x80);
1365
1366	atpdev->ioport[0] = shpnt->io_port + 0x40;
1367	atpdev->pciport[0] = shpnt->io_port + 0x28;
1368
1369	host_id = atp_readb_base(atp: atpdev, reg: 0x39) >> 4;
1370
1371	dev_info(&pdev->dev, "ACARD AEC-67160 PCI Ultra3 LVD "
1372	"Host Adapter: IO:%lx, IRQ:%d.\n",
1373	shpnt->io_port, shpnt->irq);
1374	atpdev->host_id[0] = host_id;
1375
1376	atpdev->global_map[0] = atp_readb_base(atp: atpdev, reg: 0x35);
1377	atpdev->ultra_map[0] = atp_readw_base(atp: atpdev, reg: 0x3c);
1378
1379	n = 0x3f09;
1380	while (n < 0x4000) {
1381	m = 0;
1382	atp_writew_base(atp: atpdev, reg: 0x34, val: n);
1383	n += 0x0002;
1384	if (atp_readb_base(atp: atpdev, reg: 0x30) == 0xff)
1385	break;
1386
1387	atpdev->sp[0][m++] = atp_readb_base(atp: atpdev, reg: 0x30);
1388	atpdev->sp[0][m++] = atp_readb_base(atp: atpdev, reg: 0x31);
1389	atpdev->sp[0][m++] = atp_readb_base(atp: atpdev, reg: 0x32);
1390	atpdev->sp[0][m++] = atp_readb_base(atp: atpdev, reg: 0x33);
1391	atp_writew_base(atp: atpdev, reg: 0x34, val: n);
1392	n += 0x0002;
1393	atpdev->sp[0][m++] = atp_readb_base(atp: atpdev, reg: 0x30);
1394	atpdev->sp[0][m++] = atp_readb_base(atp: atpdev, reg: 0x31);
1395	atpdev->sp[0][m++] = atp_readb_base(atp: atpdev, reg: 0x32);
1396	atpdev->sp[0][m++] = atp_readb_base(atp: atpdev, reg: 0x33);
1397	atp_writew_base(atp: atpdev, reg: 0x34, val: n);
1398	n += 0x0002;
1399	atpdev->sp[0][m++] = atp_readb_base(atp: atpdev, reg: 0x30);
1400	atpdev->sp[0][m++] = atp_readb_base(atp: atpdev, reg: 0x31);
1401	atpdev->sp[0][m++] = atp_readb_base(atp: atpdev, reg: 0x32);
1402	atpdev->sp[0][m++] = atp_readb_base(atp: atpdev, reg: 0x33);
1403	atp_writew_base(atp: atpdev, reg: 0x34, val: n);
1404	n += 0x0002;
1405	atpdev->sp[0][m++] = atp_readb_base(atp: atpdev, reg: 0x30);
1406	atpdev->sp[0][m++] = atp_readb_base(atp: atpdev, reg: 0x31);
1407	atpdev->sp[0][m++] = atp_readb_base(atp: atpdev, reg: 0x32);
1408	atpdev->sp[0][m++] = atp_readb_base(atp: atpdev, reg: 0x33);
1409	n += 0x0018;
1410	}
1411	atp_writew_base(atp: atpdev, reg: 0x34, val: 0);
1412	atpdev->ultra_map[0] = 0;
1413	atpdev->async[0] = 0;
1414	for (k = 0; k < 16; k++) {
1415	n = 1 << k;
1416	if (atpdev->sp[0][k] > 1)
1417	atpdev->ultra_map[0] |= n;
1418	else
1419	if (atpdev->sp[0][k] == 0)
1420	atpdev->async[0] |= n;
1421	}
1422	atpdev->async[0] = ~(atpdev->async[0]);
1423	atp_writeb_base(atp: atpdev, reg: 0x35, val: atpdev->global_map[0]);
1424
1425	k = atp_readb_base(atp: atpdev, reg: 0x38) & 0x80;
1426	atp_writeb_base(atp: atpdev, reg: 0x38, val: k);
1427	atp_writeb_base(atp: atpdev, reg: 0x3b, val: 0x20);
1428	msleep(msecs: 32);
1429	atp_writeb_base(atp: atpdev, reg: 0x3b, val: 0);
1430	msleep(msecs: 32);
1431	atp_readb_io(atp: atpdev, channel: 0, reg: 0x1b);
1432	atp_readb_io(atp: atpdev, channel: 0, reg: 0x17);
1433
1434	atp_set_host_id(atp: atpdev, c: 0, host_id);
1435
1436	tscam(host: shpnt, wide_chip: true, scam_on: atp_readb_base(atp: atpdev, reg: 0x22));
1437	atp_is(dev: atpdev, c: 0, wide_chip: true, lvdmode: atp_readb_base(atp: atpdev, reg: 0x3f) & 0x40);
1438	atp_writeb_base(atp: atpdev, reg: 0x38, val: 0xb0);
1439	shpnt->max_id = 16;
1440	shpnt->this_id = host_id;
1441	}
1442
1443	static void atp885_init(struct Scsi_Host *shpnt)
1444	{
1445	struct atp_unit *atpdev = shost_priv(shost: shpnt);
1446	struct pci_dev *pdev = atpdev->pdev;
1447	unsigned char k, m, c;
1448	unsigned int n;
1449	unsigned char setupdata[2][16];
1450
1451	dev_info(&pdev->dev, "ACARD AEC-67162 PCI Ultra3 LVD "
1452	"Host Adapter: IO:%lx, IRQ:%d.\n",
1453	shpnt->io_port, shpnt->irq);
1454
1455	atpdev->ioport[0] = shpnt->io_port + 0x80;
1456	atpdev->ioport[1] = shpnt->io_port + 0xc0;
1457	atpdev->pciport[0] = shpnt->io_port + 0x40;
1458	atpdev->pciport[1] = shpnt->io_port + 0x50;
1459
1460	c = atp_readb_base(atp: atpdev, reg: 0x29);
1461	atp_writeb_base(atp: atpdev, reg: 0x29, val: c | 0x04);
1462
1463	n = 0x1f80;
1464	while (n < 0x2000) {
1465	atp_writew_base(atp: atpdev, reg: 0x3c, val: n);
1466	if (atp_readl_base(atp: atpdev, reg: 0x38) == 0xffffffff)
1467	break;
1468	for (m = 0; m < 2; m++) {
1469	atpdev->global_map[m] = 0;
1470	for (k = 0; k < 4; k++) {
1471	atp_writew_base(atp: atpdev, reg: 0x3c, val: n++);
1472	((u32 *)&setupdata[m][0])[k] =
1473	atp_readl_base(atp: atpdev, reg: 0x38);
1474	}
1475	for (k = 0; k < 4; k++) {
1476	atp_writew_base(atp: atpdev, reg: 0x3c, val: n++);
1477	((u32 *)&atpdev->sp[m][0])[k] =
1478	atp_readl_base(atp: atpdev, reg: 0x38);
1479	}
1480	n += 8;
1481	}
1482	}
1483	c = atp_readb_base(atp: atpdev, reg: 0x29);
1484	atp_writeb_base(atp: atpdev, reg: 0x29, val: c & 0xfb);
1485	for (c = 0; c < 2; c++) {
1486	atpdev->ultra_map[c] = 0;
1487	atpdev->async[c] = 0;
1488	for (k = 0; k < 16; k++) {
1489	n = 1 << k;
1490	if (atpdev->sp[c][k] > 1)
1491	atpdev->ultra_map[c] |= n;
1492	else
1493	if (atpdev->sp[c][k] == 0)
1494	atpdev->async[c] |= n;
1495	}
1496	atpdev->async[c] = ~(atpdev->async[c]);
1497
1498	if (atpdev->global_map[c] == 0) {
1499	k = setupdata[c][1];
1500	if ((k & 0x40) != 0)
1501	atpdev->global_map[c] |= 0x20;
1502	k &= 0x07;
1503	atpdev->global_map[c] |= k;
1504	if ((setupdata[c][2] & 0x04) != 0)
1505	atpdev->global_map[c] |= 0x08;
1506	atpdev->host_id[c] = setupdata[c][0] & 0x07;
1507	}
1508	}
1509
1510	k = atp_readb_base(atp: atpdev, reg: 0x28) & 0x8f;
1511	k |= 0x10;
1512	atp_writeb_base(atp: atpdev, reg: 0x28, val: k);
1513	atp_writeb_pci(atp: atpdev, channel: 0, reg: 1, val: 0x80);
1514	atp_writeb_pci(atp: atpdev, channel: 1, reg: 1, val: 0x80);
1515	msleep(msecs: 100);
1516	atp_writeb_pci(atp: atpdev, channel: 0, reg: 1, val: 0);
1517	atp_writeb_pci(atp: atpdev, channel: 1, reg: 1, val: 0);
1518	msleep(msecs: 1000);
1519	atp_readb_io(atp: atpdev, channel: 0, reg: 0x1b);
1520	atp_readb_io(atp: atpdev, channel: 0, reg: 0x17);
1521	atp_readb_io(atp: atpdev, channel: 1, reg: 0x1b);
1522	atp_readb_io(atp: atpdev, channel: 1, reg: 0x17);
1523
1524	k = atpdev->host_id[0];
1525	if (k > 7)
1526	k = (k & 0x07) | 0x40;
1527	atp_set_host_id(atp: atpdev, c: 0, host_id: k);
1528
1529	k = atpdev->host_id[1];
1530	if (k > 7)
1531	k = (k & 0x07) | 0x40;
1532	atp_set_host_id(atp: atpdev, c: 1, host_id: k);
1533
1534	msleep(msecs: 600); /* this delay used to be called tscam_885() */
1535	dev_info(&pdev->dev, "Scanning Channel A SCSI Device ...\n");
1536	atp_is(dev: atpdev, c: 0, wide_chip: true, lvdmode: atp_readb_io(atp: atpdev, channel: 0, reg: 0x1b) >> 7);
1537	atp_writeb_io(atp: atpdev, channel: 0, reg: 0x16, val: 0x80);
1538	dev_info(&pdev->dev, "Scanning Channel B SCSI Device ...\n");
1539	atp_is(dev: atpdev, c: 1, wide_chip: true, lvdmode: atp_readb_io(atp: atpdev, channel: 1, reg: 0x1b) >> 7);
1540	atp_writeb_io(atp: atpdev, channel: 1, reg: 0x16, val: 0x80);
1541	k = atp_readb_base(atp: atpdev, reg: 0x28) & 0xcf;
1542	k |= 0xc0;
1543	atp_writeb_base(atp: atpdev, reg: 0x28, val: k);
1544	k = atp_readb_base(atp: atpdev, reg: 0x1f) | 0x80;
1545	atp_writeb_base(atp: atpdev, reg: 0x1f, val: k);
1546	k = atp_readb_base(atp: atpdev, reg: 0x29) | 0x01;
1547	atp_writeb_base(atp: atpdev, reg: 0x29, val: k);
1548	shpnt->max_id = 16;
1549	shpnt->max_lun = (atpdev->global_map[0] & 0x07) + 1;
1550	shpnt->max_channel = 1;
1551	shpnt->this_id = atpdev->host_id[0];
1552	}
1553
1554	/* return non-zero on detection */
1555	static int atp870u_probe(struct pci_dev *pdev, const struct pci_device_id *ent)
1556	{
1557	struct Scsi_Host *shpnt = NULL;
1558	struct atp_unit *atpdev;
1559	int err;
1560
1561	if (ent->device == PCI_DEVICE_ID_ARTOP_AEC7610 && pdev->revision < 2) {
1562	dev_err(&pdev->dev, "ATP850S chips (AEC6710L/F cards) are not supported.\n");
1563	return -ENODEV;
1564	}
1565
1566	err = pci_enable_device(dev: pdev);
1567	if (err)
1568	goto fail;
1569
1570	if (dma_set_mask(dev: &pdev->dev, DMA_BIT_MASK(32))) {
1571	printk(KERN_ERR "atp870u: DMA mask required but not available.\n");
1572	err = -EIO;
1573	goto disable_device;
1574	}
1575
1576	err = pci_request_regions(pdev, "atp870u");
1577	if (err)
1578	goto disable_device;
1579	pci_set_master(dev: pdev);
1580
1581	err = -ENOMEM;
1582	shpnt = scsi_host_alloc(&atp870u_template, sizeof(struct atp_unit));
1583	if (!shpnt)
1584	goto release_region;
1585
1586	atpdev = shost_priv(shost: shpnt);
1587
1588	atpdev->host = shpnt;
1589	atpdev->pdev = pdev;
1590	pci_set_drvdata(pdev, data: atpdev);
1591
1592	shpnt->io_port = pci_resource_start(pdev, 0);
1593	shpnt->io_port &= 0xfffffff8;
1594	shpnt->n_io_port = pci_resource_len(pdev, 0);
1595	atpdev->baseport = shpnt->io_port;
1596	shpnt->unique_id = shpnt->io_port;
1597	shpnt->irq = pdev->irq;
1598
1599	err = atp870u_init_tables(host: shpnt);
1600	if (err) {
1601	dev_err(&pdev->dev, "Unable to allocate tables for Acard controller\n");
1602	goto unregister;
1603	}
1604
1605	if (is880(atp: atpdev))
1606	atp880_init(shpnt);
1607	else if (is885(atp: atpdev))
1608	atp885_init(shpnt);
1609	else
1610	atp870_init(shpnt);
1611
1612	err = request_irq(irq: shpnt->irq, handler: atp870u_intr_handle, IRQF_SHARED, name: "atp870u", dev: shpnt);
1613	if (err) {
1614	dev_err(&pdev->dev, "Unable to allocate IRQ %d.\n", shpnt->irq);
1615	goto free_tables;
1616	}
1617
1618	err = scsi_add_host(host: shpnt, dev: &pdev->dev);
1619	if (err)
1620	goto scsi_add_fail;
1621	scsi_scan_host(shpnt);
1622
1623	return 0;
1624
1625	scsi_add_fail:
1626	free_irq(shpnt->irq, shpnt);
1627	free_tables:
1628	atp870u_free_tables(host: shpnt);
1629	unregister:
1630	scsi_host_put(t: shpnt);
1631	release_region:
1632	pci_release_regions(pdev);
1633	disable_device:
1634	pci_disable_device(dev: pdev);
1635	fail:
1636	return err;
1637	}
1638
1639	/* The abort command does not leave the device in a clean state where
1640	it is available to be used again. Until this gets worked out, we will
1641	leave it commented out. */
1642
1643	static int atp870u_abort(struct scsi_cmnd * SCpnt)
1644	{
1645	unsigned char j, k, c;
1646	struct scsi_cmnd *workrequ;
1647	struct atp_unit *dev;
1648	struct Scsi_Host *host;
1649	host = SCpnt->device->host;
1650
1651	dev = (struct atp_unit *)&host->hostdata;
1652	c = scmd_channel(SCpnt);
1653	printk(" atp870u: abort Channel = %x \n", c);
1654	printk("working=%x last_cmd=%x ", dev->working[c], dev->last_cmd[c]);
1655	printk(" quhdu=%x quendu=%x ", dev->quhd[c], dev->quend[c]);
1656	for (j = 0; j < 0x18; j++) {
1657	printk(" r%2x=%2x", j, atp_readb_io(dev, c, j));
1658	}
1659	printk(" r1c=%2x", atp_readb_io(dev, c, 0x1c));
1660	printk(" r1f=%2x in_snd=%2x ", atp_readb_io(dev, c, 0x1f), dev->in_snd[c]);
1661	printk(" d00=%2x", atp_readb_pci(dev, c, 0x00));
1662	printk(" d02=%2x", atp_readb_pci(dev, c, 0x02));
1663	for(j=0;j<16;j++) {
1664	if (dev->id[c][j].curr_req != NULL) {
1665	workrequ = dev->id[c][j].curr_req;
1666	printk("\n que cdb= ");
1667	for (k=0; k < workrequ->cmd_len; k++) {
1668	printk(" %2x ",workrequ->cmnd[k]);
1669	}
1670	printk(" last_lenu= %x ",(unsigned int)dev->id[c][j].last_len);
1671	}
1672	}
1673	return SUCCESS;
1674	}
1675
1676	static const char *atp870u_info(struct Scsi_Host *notused)
1677	{
1678	static char buffer[128];
1679
1680	strcpy(p: buffer, q: "ACARD AEC-6710/6712/67160 PCI Ultra/W/LVD SCSI-3 Adapter Driver V2.6+ac ");
1681
1682	return buffer;
1683	}
1684
1685	static int atp870u_show_info(struct seq_file *m, struct Scsi_Host *HBAptr)
1686	{
1687	seq_puts(m, s: "ACARD AEC-671X Driver Version: 2.6+ac\n\n"
1688	"Adapter Configuration:\n");
1689	seq_printf(m, fmt: " Base IO: %#.4lx\n", HBAptr->io_port);
1690	seq_printf(m, fmt: " IRQ: %d\n", HBAptr->irq);
1691	return 0;
1692	}
1693
1694
1695	static int atp870u_biosparam(struct scsi_device *disk, struct block_device *dev,
1696	sector_t capacity, int *ip)
1697	{
1698	int heads, sectors, cylinders;
1699
1700	heads = 64;
1701	sectors = 32;
1702	cylinders = (unsigned long)capacity / (heads * sectors);
1703	if (cylinders > 1024) {
1704	heads = 255;
1705	sectors = 63;
1706	cylinders = (unsigned long)capacity / (heads * sectors);
1707	}
1708	ip[0] = heads;
1709	ip[1] = sectors;
1710	ip[2] = cylinders;
1711
1712	return 0;
1713	}
1714
1715	static void atp870u_remove (struct pci_dev *pdev)
1716	{
1717	struct atp_unit *devext = pci_get_drvdata(pdev);
1718	struct Scsi_Host *pshost = devext->host;
1719
1720	scsi_remove_host(pshost);
1721	free_irq(pshost->irq, pshost);
1722	pci_release_regions(pdev);
1723	pci_disable_device(dev: pdev);
1724	atp870u_free_tables(host: pshost);
1725	scsi_host_put(t: pshost);
1726	}
1727	MODULE_LICENSE("GPL");
1728
1729	static const struct scsi_host_template atp870u_template = {
1730	.module = THIS_MODULE,
1731	.name = "atp870u" /* name */,
1732	.proc_name = "atp870u",
1733	.show_info = atp870u_show_info,
1734	.info = atp870u_info /* info */,
1735	.queuecommand = atp870u_queuecommand /* queuecommand */,
1736	.eh_abort_handler = atp870u_abort /* abort */,
1737	.bios_param = atp870u_biosparam /* biosparm */,
1738	.can_queue = qcnt /* can_queue */,
1739	.this_id = 7 /* SCSI ID */,
1740	.sg_tablesize = ATP870U_SCATTER /*SG_ALL*/,
1741	.max_sectors = ATP870U_MAX_SECTORS,
1742	};
1743
1744	static struct pci_device_id atp870u_id_table[] = {
1745	{ PCI_DEVICE(PCI_VENDOR_ID_ARTOP, ATP885_DEVID) },
1746	{ PCI_DEVICE(PCI_VENDOR_ID_ARTOP, ATP880_DEVID1) },
1747	{ PCI_DEVICE(PCI_VENDOR_ID_ARTOP, ATP880_DEVID2) },
1748	{ PCI_DEVICE(PCI_VENDOR_ID_ARTOP, PCI_DEVICE_ID_ARTOP_AEC7610) },
1749	{ PCI_DEVICE(PCI_VENDOR_ID_ARTOP, PCI_DEVICE_ID_ARTOP_AEC7612UW) },
1750	{ PCI_DEVICE(PCI_VENDOR_ID_ARTOP, PCI_DEVICE_ID_ARTOP_AEC7612U) },
1751	{ PCI_DEVICE(PCI_VENDOR_ID_ARTOP, PCI_DEVICE_ID_ARTOP_AEC7612S) },
1752	{ PCI_DEVICE(PCI_VENDOR_ID_ARTOP, PCI_DEVICE_ID_ARTOP_AEC7612D) },
1753	{ PCI_DEVICE(PCI_VENDOR_ID_ARTOP, PCI_DEVICE_ID_ARTOP_AEC7612SUW) },
1754	{ PCI_DEVICE(PCI_VENDOR_ID_ARTOP, PCI_DEVICE_ID_ARTOP_8060) },
1755	{ 0, },
1756	};
1757
1758	MODULE_DEVICE_TABLE(pci, atp870u_id_table);
1759
1760	static struct pci_driver atp870u_driver = {
1761	.id_table = atp870u_id_table,
1762	.name = "atp870u",
1763	.probe = atp870u_probe,
1764	.remove = atp870u_remove,
1765	};
1766
1767	module_pci_driver(atp870u_driver);
1768
1769	static void atp_is(struct atp_unit *dev, unsigned char c, bool wide_chip,
1770	unsigned char lvdmode)
1771	{
1772	unsigned char i, j, k, rmb, n;
1773	unsigned short int m;
1774	static unsigned char mbuf[512];
1775	static unsigned char satn[9] = { 0, 0, 0, 0, 0, 0, 0, 6, 6 };
1776	static unsigned char inqd[9] = { 0x12, 0, 0, 0, 0x24, 0, 0, 0x24, 6 };
1777	static unsigned char synn[6] = { 0x80, 1, 3, 1, 0x19, 0x0e };
1778	unsigned char synu[6] = { 0x80, 1, 3, 1, 0x0a, 0x0e };
1779	static unsigned char synw[6] = { 0x80, 1, 3, 1, 0x19, 0x0e };
1780	static unsigned char synw_870[6] = { 0x80, 1, 3, 1, 0x0c, 0x07 };
1781	unsigned char synuw[6] = { 0x80, 1, 3, 1, 0x0a, 0x0e };
1782	static unsigned char wide[6] = { 0x80, 1, 2, 3, 1, 0 };
1783	static unsigned char u3[9] = { 0x80, 1, 6, 4, 0x09, 00, 0x0e, 0x01, 0x02 };
1784
1785	for (i = 0; i < 16; i++) {
1786	if (!wide_chip && (i > 7))
1787	break;
1788	m = 1;
1789	m = m << i;
1790	if ((m & dev->active_id[c]) != 0) {
1791	continue;
1792	}
1793	if (i == dev->host_id[c]) {
1794	printk(KERN_INFO " ID: %2d Host Adapter\n", dev->host_id[c]);
1795	continue;
1796	}
1797	atp_writeb_io(atp: dev, channel: c, reg: 0x1b, val: wide_chip ? 0x01 : 0x00);
1798	atp_writeb_io(atp: dev, channel: c, reg: 1, val: 0x08);
1799	atp_writeb_io(atp: dev, channel: c, reg: 2, val: 0x7f);
1800	atp_writeb_io(atp: dev, channel: c, reg: 3, val: satn[0]);
1801	atp_writeb_io(atp: dev, channel: c, reg: 4, val: satn[1]);
1802	atp_writeb_io(atp: dev, channel: c, reg: 5, val: satn[2]);
1803	atp_writeb_io(atp: dev, channel: c, reg: 6, val: satn[3]);
1804	atp_writeb_io(atp: dev, channel: c, reg: 7, val: satn[4]);
1805	atp_writeb_io(atp: dev, channel: c, reg: 8, val: satn[5]);
1806	atp_writeb_io(atp: dev, channel: c, reg: 0x0f, val: 0);
1807	atp_writeb_io(atp: dev, channel: c, reg: 0x11, val: dev->id[c][i].devsp);
1808	atp_writeb_io(atp: dev, channel: c, reg: 0x12, val: 0);
1809	atp_writeb_io(atp: dev, channel: c, reg: 0x13, val: satn[6]);
1810	atp_writeb_io(atp: dev, channel: c, reg: 0x14, val: satn[7]);
1811	j = i;
1812	if ((j & 0x08) != 0) {
1813	j = (j & 0x07) | 0x40;
1814	}
1815	atp_writeb_io(atp: dev, channel: c, reg: 0x15, val: j);
1816	atp_writeb_io(atp: dev, channel: c, reg: 0x18, val: satn[8]);
1817
1818	while ((atp_readb_io(atp: dev, channel: c, reg: 0x1f) & 0x80) == 0x00)
1819	cpu_relax();
1820
1821	if (atp_readb_io(atp: dev, channel: c, reg: 0x17) != 0x11 && atp_readb_io(atp: dev, channel: c, reg: 0x17) != 0x8e)
1822	continue;
1823
1824	while (atp_readb_io(atp: dev, channel: c, reg: 0x17) != 0x8e)
1825	cpu_relax();
1826
1827	dev->active_id[c] |= m;
1828
1829	atp_writeb_io(atp: dev, channel: c, reg: 0x10, val: 0x30);
1830	if (is885(atp: dev) || is880(atp: dev))
1831	atp_writeb_io(atp: dev, channel: c, reg: 0x14, val: 0x00);
1832	else /* result of is870() merge - is this a bug? */
1833	atp_writeb_io(atp: dev, channel: c, reg: 0x04, val: 0x00);
1834
1835	phase_cmd:
1836	atp_writeb_io(atp: dev, channel: c, reg: 0x18, val: 0x08);
1837
1838	while ((atp_readb_io(atp: dev, channel: c, reg: 0x1f) & 0x80) == 0x00)
1839	cpu_relax();
1840
1841	j = atp_readb_io(atp: dev, channel: c, reg: 0x17);
1842	if (j != 0x16) {
1843	atp_writeb_io(atp: dev, channel: c, reg: 0x10, val: 0x41);
1844	goto phase_cmd;
1845	}
1846	sel_ok:
1847	atp_writeb_io(atp: dev, channel: c, reg: 3, val: inqd[0]);
1848	atp_writeb_io(atp: dev, channel: c, reg: 4, val: inqd[1]);
1849	atp_writeb_io(atp: dev, channel: c, reg: 5, val: inqd[2]);
1850	atp_writeb_io(atp: dev, channel: c, reg: 6, val: inqd[3]);
1851	atp_writeb_io(atp: dev, channel: c, reg: 7, val: inqd[4]);
1852	atp_writeb_io(atp: dev, channel: c, reg: 8, val: inqd[5]);
1853	atp_writeb_io(atp: dev, channel: c, reg: 0x0f, val: 0);
1854	atp_writeb_io(atp: dev, channel: c, reg: 0x11, val: dev->id[c][i].devsp);
1855	atp_writeb_io(atp: dev, channel: c, reg: 0x12, val: 0);
1856	atp_writeb_io(atp: dev, channel: c, reg: 0x13, val: inqd[6]);
1857	atp_writeb_io(atp: dev, channel: c, reg: 0x14, val: inqd[7]);
1858	atp_writeb_io(atp: dev, channel: c, reg: 0x18, val: inqd[8]);
1859
1860	while ((atp_readb_io(atp: dev, channel: c, reg: 0x1f) & 0x80) == 0x00)
1861	cpu_relax();
1862
1863	if (atp_readb_io(atp: dev, channel: c, reg: 0x17) != 0x11 && atp_readb_io(atp: dev, channel: c, reg: 0x17) != 0x8e)
1864	continue;
1865
1866	while (atp_readb_io(atp: dev, channel: c, reg: 0x17) != 0x8e)
1867	cpu_relax();
1868
1869	if (wide_chip)
1870	atp_writeb_io(atp: dev, channel: c, reg: 0x1b, val: 0x00);
1871
1872	atp_writeb_io(atp: dev, channel: c, reg: 0x18, val: 0x08);
1873	j = 0;
1874	rd_inq_data:
1875	k = atp_readb_io(atp: dev, channel: c, reg: 0x1f);
1876	if ((k & 0x01) != 0) {
1877	mbuf[j++] = atp_readb_io(atp: dev, channel: c, reg: 0x19);
1878	goto rd_inq_data;
1879	}
1880	if ((k & 0x80) == 0) {
1881	goto rd_inq_data;
1882	}
1883	j = atp_readb_io(atp: dev, channel: c, reg: 0x17);
1884	if (j == 0x16) {
1885	goto inq_ok;
1886	}
1887	atp_writeb_io(atp: dev, channel: c, reg: 0x10, val: 0x46);
1888	atp_writeb_io(atp: dev, channel: c, reg: 0x12, val: 0);
1889	atp_writeb_io(atp: dev, channel: c, reg: 0x13, val: 0);
1890	atp_writeb_io(atp: dev, channel: c, reg: 0x14, val: 0);
1891	atp_writeb_io(atp: dev, channel: c, reg: 0x18, val: 0x08);
1892
1893	while ((atp_readb_io(atp: dev, channel: c, reg: 0x1f) & 0x80) == 0x00)
1894	cpu_relax();
1895
1896	if (atp_readb_io(atp: dev, channel: c, reg: 0x17) != 0x16)
1897	goto sel_ok;
1898
1899	inq_ok:
1900	mbuf[36] = 0;
1901	printk(KERN_INFO " ID: %2d %s\n", i, &mbuf[8]);
1902	dev->id[c][i].devtype = mbuf[0];
1903	rmb = mbuf[1];
1904	n = mbuf[7];
1905	if (!wide_chip)
1906	goto not_wide;
1907	if ((mbuf[7] & 0x60) == 0) {
1908	goto not_wide;
1909	}
1910	if (is885(atp: dev) || is880(atp: dev)) {
1911	if ((i < 8) && ((dev->global_map[c] & 0x20) == 0))
1912	goto not_wide;
1913	} else { /* result of is870() merge - is this a bug? */
1914	if ((dev->global_map[c] & 0x20) == 0)
1915	goto not_wide;
1916	}
1917	if (lvdmode == 0) {
1918	goto chg_wide;
1919	}
1920	if (dev->sp[c][i] != 0x04) // force u2
1921	{
1922	goto chg_wide;
1923	}
1924
1925	atp_writeb_io(atp: dev, channel: c, reg: 0x1b, val: 0x01);
1926	atp_writeb_io(atp: dev, channel: c, reg: 3, val: satn[0]);
1927	atp_writeb_io(atp: dev, channel: c, reg: 4, val: satn[1]);
1928	atp_writeb_io(atp: dev, channel: c, reg: 5, val: satn[2]);
1929	atp_writeb_io(atp: dev, channel: c, reg: 6, val: satn[3]);
1930	atp_writeb_io(atp: dev, channel: c, reg: 7, val: satn[4]);
1931	atp_writeb_io(atp: dev, channel: c, reg: 8, val: satn[5]);
1932	atp_writeb_io(atp: dev, channel: c, reg: 0x0f, val: 0);
1933	atp_writeb_io(atp: dev, channel: c, reg: 0x11, val: dev->id[c][i].devsp);
1934	atp_writeb_io(atp: dev, channel: c, reg: 0x12, val: 0);
1935	atp_writeb_io(atp: dev, channel: c, reg: 0x13, val: satn[6]);
1936	atp_writeb_io(atp: dev, channel: c, reg: 0x14, val: satn[7]);
1937	atp_writeb_io(atp: dev, channel: c, reg: 0x18, val: satn[8]);
1938
1939	while ((atp_readb_io(atp: dev, channel: c, reg: 0x1f) & 0x80) == 0x00)
1940	cpu_relax();
1941
1942	if (atp_readb_io(atp: dev, channel: c, reg: 0x17) != 0x11 && atp_readb_io(atp: dev, channel: c, reg: 0x17) != 0x8e)
1943	continue;
1944
1945	while (atp_readb_io(atp: dev, channel: c, reg: 0x17) != 0x8e)
1946	cpu_relax();
1947
1948	try_u3:
1949	j = 0;
1950	atp_writeb_io(atp: dev, channel: c, reg: 0x14, val: 0x09);
1951	atp_writeb_io(atp: dev, channel: c, reg: 0x18, val: 0x20);
1952
1953	while ((atp_readb_io(atp: dev, channel: c, reg: 0x1f) & 0x80) == 0) {
1954	if ((atp_readb_io(atp: dev, channel: c, reg: 0x1f) & 0x01) != 0)
1955	atp_writeb_io(atp: dev, channel: c, reg: 0x19, val: u3[j++]);
1956	cpu_relax();
1957	}
1958
1959	while ((atp_readb_io(atp: dev, channel: c, reg: 0x17) & 0x80) == 0x00)
1960	cpu_relax();
1961
1962	j = atp_readb_io(atp: dev, channel: c, reg: 0x17) & 0x0f;
1963	if (j == 0x0f) {
1964	goto u3p_in;
1965	}
1966	if (j == 0x0a) {
1967	goto u3p_cmd;
1968	}
1969	if (j == 0x0e) {
1970	goto try_u3;
1971	}
1972	continue;
1973	u3p_out:
1974	atp_writeb_io(atp: dev, channel: c, reg: 0x18, val: 0x20);
1975	while ((atp_readb_io(atp: dev, channel: c, reg: 0x1f) & 0x80) == 0) {
1976	if ((atp_readb_io(atp: dev, channel: c, reg: 0x1f) & 0x01) != 0)
1977	atp_writeb_io(atp: dev, channel: c, reg: 0x19, val: 0);
1978	cpu_relax();
1979	}
1980	j = atp_readb_io(atp: dev, channel: c, reg: 0x17) & 0x0f;
1981	if (j == 0x0f) {
1982	goto u3p_in;
1983	}
1984	if (j == 0x0a) {
1985	goto u3p_cmd;
1986	}
1987	if (j == 0x0e) {
1988	goto u3p_out;
1989	}
1990	continue;
1991	u3p_in:
1992	atp_writeb_io(atp: dev, channel: c, reg: 0x14, val: 0x09);
1993	atp_writeb_io(atp: dev, channel: c, reg: 0x18, val: 0x20);
1994	k = 0;
1995	u3p_in1:
1996	j = atp_readb_io(atp: dev, channel: c, reg: 0x1f);
1997	if ((j & 0x01) != 0) {
1998	mbuf[k++] = atp_readb_io(atp: dev, channel: c, reg: 0x19);
1999	goto u3p_in1;
2000	}
2001	if ((j & 0x80) == 0x00) {
2002	goto u3p_in1;
2003	}
2004	j = atp_readb_io(atp: dev, channel: c, reg: 0x17) & 0x0f;
2005	if (j == 0x0f) {
2006	goto u3p_in;
2007	}
2008	if (j == 0x0a) {
2009	goto u3p_cmd;
2010	}
2011	if (j == 0x0e) {
2012	goto u3p_out;
2013	}
2014	continue;
2015	u3p_cmd:
2016	atp_writeb_io(atp: dev, channel: c, reg: 0x10, val: 0x30);
2017	atp_writeb_io(atp: dev, channel: c, reg: 0x14, val: 0x00);
2018	atp_writeb_io(atp: dev, channel: c, reg: 0x18, val: 0x08);
2019
2020	while ((atp_readb_io(atp: dev, channel: c, reg: 0x1f) & 0x80) == 0x00);
2021
2022	j = atp_readb_io(atp: dev, channel: c, reg: 0x17);
2023	if (j != 0x16) {
2024	if (j == 0x4e) {
2025	goto u3p_out;
2026	}
2027	continue;
2028	}
2029	if (mbuf[0] != 0x01) {
2030	goto chg_wide;
2031	}
2032	if (mbuf[1] != 0x06) {
2033	goto chg_wide;
2034	}
2035	if (mbuf[2] != 0x04) {
2036	goto chg_wide;
2037	}
2038	if (mbuf[3] == 0x09) {
2039	m = 1;
2040	m = m << i;
2041	dev->wide_id[c] |= m;
2042	dev->id[c][i].devsp = 0xce;
2043	#ifdef ED_DBGP
2044	printk("dev->id[%2d][%2d].devsp = %2x\n",
2045	c, i, dev->id[c][i].devsp);
2046	#endif
2047	continue;
2048	}
2049	chg_wide:
2050	atp_writeb_io(atp: dev, channel: c, reg: 0x1b, val: 0x01);
2051	atp_writeb_io(atp: dev, channel: c, reg: 3, val: satn[0]);
2052	atp_writeb_io(atp: dev, channel: c, reg: 4, val: satn[1]);
2053	atp_writeb_io(atp: dev, channel: c, reg: 5, val: satn[2]);
2054	atp_writeb_io(atp: dev, channel: c, reg: 6, val: satn[3]);
2055	atp_writeb_io(atp: dev, channel: c, reg: 7, val: satn[4]);
2056	atp_writeb_io(atp: dev, channel: c, reg: 8, val: satn[5]);
2057	atp_writeb_io(atp: dev, channel: c, reg: 0x0f, val: 0);
2058	atp_writeb_io(atp: dev, channel: c, reg: 0x11, val: dev->id[c][i].devsp);
2059	atp_writeb_io(atp: dev, channel: c, reg: 0x12, val: 0);
2060	atp_writeb_io(atp: dev, channel: c, reg: 0x13, val: satn[6]);
2061	atp_writeb_io(atp: dev, channel: c, reg: 0x14, val: satn[7]);
2062	atp_writeb_io(atp: dev, channel: c, reg: 0x18, val: satn[8]);
2063
2064	while ((atp_readb_io(atp: dev, channel: c, reg: 0x1f) & 0x80) == 0x00)
2065	cpu_relax();
2066
2067	if (atp_readb_io(atp: dev, channel: c, reg: 0x17) != 0x11 &&
2068	atp_readb_io(atp: dev, channel: c, reg: 0x17) != 0x8e)
2069	continue;
2070
2071	while (atp_readb_io(atp: dev, channel: c, reg: 0x17) != 0x8e)
2072	cpu_relax();
2073
2074	try_wide:
2075	j = 0;
2076	atp_writeb_io(atp: dev, channel: c, reg: 0x14, val: 0x05);
2077	atp_writeb_io(atp: dev, channel: c, reg: 0x18, val: 0x20);
2078
2079	while ((atp_readb_io(atp: dev, channel: c, reg: 0x1f) & 0x80) == 0) {
2080	if ((atp_readb_io(atp: dev, channel: c, reg: 0x1f) & 0x01) != 0)
2081	atp_writeb_io(atp: dev, channel: c, reg: 0x19, val: wide[j++]);
2082	cpu_relax();
2083	}
2084
2085	while ((atp_readb_io(atp: dev, channel: c, reg: 0x17) & 0x80) == 0x00)
2086	cpu_relax();
2087
2088	j = atp_readb_io(atp: dev, channel: c, reg: 0x17) & 0x0f;
2089	if (j == 0x0f) {
2090	goto widep_in;
2091	}
2092	if (j == 0x0a) {
2093	goto widep_cmd;
2094	}
2095	if (j == 0x0e) {
2096	goto try_wide;
2097	}
2098	continue;
2099	widep_out:
2100	atp_writeb_io(atp: dev, channel: c, reg: 0x18, val: 0x20);
2101	while ((atp_readb_io(atp: dev, channel: c, reg: 0x1f) & 0x80) == 0) {
2102	if ((atp_readb_io(atp: dev, channel: c, reg: 0x1f) & 0x01) != 0)
2103	atp_writeb_io(atp: dev, channel: c, reg: 0x19, val: 0);
2104	cpu_relax();
2105	}
2106	j = atp_readb_io(atp: dev, channel: c, reg: 0x17) & 0x0f;
2107	if (j == 0x0f) {
2108	goto widep_in;
2109	}
2110	if (j == 0x0a) {
2111	goto widep_cmd;
2112	}
2113	if (j == 0x0e) {
2114	goto widep_out;
2115	}
2116	continue;
2117	widep_in:
2118	atp_writeb_io(atp: dev, channel: c, reg: 0x14, val: 0xff);
2119	atp_writeb_io(atp: dev, channel: c, reg: 0x18, val: 0x20);
2120	k = 0;
2121	widep_in1:
2122	j = atp_readb_io(atp: dev, channel: c, reg: 0x1f);
2123	if ((j & 0x01) != 0) {
2124	mbuf[k++] = atp_readb_io(atp: dev, channel: c, reg: 0x19);
2125	goto widep_in1;
2126	}
2127	if ((j & 0x80) == 0x00) {
2128	goto widep_in1;
2129	}
2130	j = atp_readb_io(atp: dev, channel: c, reg: 0x17) & 0x0f;
2131	if (j == 0x0f) {
2132	goto widep_in;
2133	}
2134	if (j == 0x0a) {
2135	goto widep_cmd;
2136	}
2137	if (j == 0x0e) {
2138	goto widep_out;
2139	}
2140	continue;
2141	widep_cmd:
2142	atp_writeb_io(atp: dev, channel: c, reg: 0x10, val: 0x30);
2143	atp_writeb_io(atp: dev, channel: c, reg: 0x14, val: 0x00);
2144	atp_writeb_io(atp: dev, channel: c, reg: 0x18, val: 0x08);
2145
2146	while ((atp_readb_io(atp: dev, channel: c, reg: 0x1f) & 0x80) == 0x00)
2147	cpu_relax();
2148
2149	j = atp_readb_io(atp: dev, channel: c, reg: 0x17);
2150	if (j != 0x16) {
2151	if (j == 0x4e) {
2152	goto widep_out;
2153	}
2154	continue;
2155	}
2156	if (mbuf[0] != 0x01) {
2157	goto not_wide;
2158	}
2159	if (mbuf[1] != 0x02) {
2160	goto not_wide;
2161	}
2162	if (mbuf[2] != 0x03) {
2163	goto not_wide;
2164	}
2165	if (mbuf[3] != 0x01) {
2166	goto not_wide;
2167	}
2168	m = 1;
2169	m = m << i;
2170	dev->wide_id[c] |= m;
2171	not_wide:
2172	if ((dev->id[c][i].devtype == 0x00) ||
2173	(dev->id[c][i].devtype == 0x07) ||
2174	((dev->id[c][i].devtype == 0x05) && ((n & 0x10) != 0))) {
2175	m = 1;
2176	m = m << i;
2177	if ((dev->async[c] & m) != 0) {
2178	goto set_sync;
2179	}
2180	}
2181	continue;
2182	set_sync:
2183	if ((!is885(atp: dev) && !is880(atp: dev)) || (dev->sp[c][i] == 0x02)) {
2184	synu[4] = 0x0c;
2185	synuw[4] = 0x0c;
2186	} else {
2187	if (dev->sp[c][i] >= 0x03) {
2188	synu[4] = 0x0a;
2189	synuw[4] = 0x0a;
2190	}
2191	}
2192	j = 0;
2193	if ((m & dev->wide_id[c]) != 0) {
2194	j |= 0x01;
2195	}
2196	atp_writeb_io(atp: dev, channel: c, reg: 0x1b, val: j);
2197	atp_writeb_io(atp: dev, channel: c, reg: 3, val: satn[0]);
2198	atp_writeb_io(atp: dev, channel: c, reg: 4, val: satn[1]);
2199	atp_writeb_io(atp: dev, channel: c, reg: 5, val: satn[2]);
2200	atp_writeb_io(atp: dev, channel: c, reg: 6, val: satn[3]);
2201	atp_writeb_io(atp: dev, channel: c, reg: 7, val: satn[4]);
2202	atp_writeb_io(atp: dev, channel: c, reg: 8, val: satn[5]);
2203	atp_writeb_io(atp: dev, channel: c, reg: 0x0f, val: 0);
2204	atp_writeb_io(atp: dev, channel: c, reg: 0x11, val: dev->id[c][i].devsp);
2205	atp_writeb_io(atp: dev, channel: c, reg: 0x12, val: 0);
2206	atp_writeb_io(atp: dev, channel: c, reg: 0x13, val: satn[6]);
2207	atp_writeb_io(atp: dev, channel: c, reg: 0x14, val: satn[7]);
2208	atp_writeb_io(atp: dev, channel: c, reg: 0x18, val: satn[8]);
2209
2210	while ((atp_readb_io(atp: dev, channel: c, reg: 0x1f) & 0x80) == 0x00)
2211	cpu_relax();
2212
2213	if (atp_readb_io(atp: dev, channel: c, reg: 0x17) != 0x11 &&
2214	atp_readb_io(atp: dev, channel: c, reg: 0x17) != 0x8e)
2215	continue;
2216
2217	while (atp_readb_io(atp: dev, channel: c, reg: 0x17) != 0x8e)
2218	cpu_relax();
2219
2220	try_sync:
2221	j = 0;
2222	atp_writeb_io(atp: dev, channel: c, reg: 0x14, val: 0x06);
2223	atp_writeb_io(atp: dev, channel: c, reg: 0x18, val: 0x20);
2224
2225	while ((atp_readb_io(atp: dev, channel: c, reg: 0x1f) & 0x80) == 0) {
2226	if ((atp_readb_io(atp: dev, channel: c, reg: 0x1f) & 0x01) != 0) {
2227	if ((m & dev->wide_id[c]) != 0) {
2228	if (is885(atp: dev) || is880(atp: dev)) {
2229	if ((m & dev->ultra_map[c]) != 0) {
2230	atp_writeb_io(atp: dev, channel: c, reg: 0x19, val: synuw[j++]);
2231	} else {
2232	atp_writeb_io(atp: dev, channel: c, reg: 0x19, val: synw[j++]);
2233	}
2234	} else
2235	atp_writeb_io(atp: dev, channel: c, reg: 0x19, val: synw_870[j++]);
2236	} else {
2237	if ((m & dev->ultra_map[c]) != 0) {
2238	atp_writeb_io(atp: dev, channel: c, reg: 0x19, val: synu[j++]);
2239	} else {
2240	atp_writeb_io(atp: dev, channel: c, reg: 0x19, val: synn[j++]);
2241	}
2242	}
2243	}
2244	}
2245
2246	while ((atp_readb_io(atp: dev, channel: c, reg: 0x17) & 0x80) == 0x00)
2247	cpu_relax();
2248
2249	j = atp_readb_io(atp: dev, channel: c, reg: 0x17) & 0x0f;
2250	if (j == 0x0f) {
2251	goto phase_ins;
2252	}
2253	if (j == 0x0a) {
2254	goto phase_cmds;
2255	}
2256	if (j == 0x0e) {
2257	goto try_sync;
2258	}
2259	continue;
2260	phase_outs:
2261	atp_writeb_io(atp: dev, channel: c, reg: 0x18, val: 0x20);
2262	while ((atp_readb_io(atp: dev, channel: c, reg: 0x1f) & 0x80) == 0x00) {
2263	if ((atp_readb_io(atp: dev, channel: c, reg: 0x1f) & 0x01) != 0x00)
2264	atp_writeb_io(atp: dev, channel: c, reg: 0x19, val: 0x00);
2265	cpu_relax();
2266	}
2267	j = atp_readb_io(atp: dev, channel: c, reg: 0x17);
2268	if (j == 0x85) {
2269	goto tar_dcons;
2270	}
2271	j &= 0x0f;
2272	if (j == 0x0f) {
2273	goto phase_ins;
2274	}
2275	if (j == 0x0a) {
2276	goto phase_cmds;
2277	}
2278	if (j == 0x0e) {
2279	goto phase_outs;
2280	}
2281	continue;
2282	phase_ins:
2283	if (is885(atp: dev) || is880(atp: dev))
2284	atp_writeb_io(atp: dev, channel: c, reg: 0x14, val: 0x06);
2285	else
2286	atp_writeb_io(atp: dev, channel: c, reg: 0x14, val: 0xff);
2287	atp_writeb_io(atp: dev, channel: c, reg: 0x18, val: 0x20);
2288	k = 0;
2289	phase_ins1:
2290	j = atp_readb_io(atp: dev, channel: c, reg: 0x1f);
2291	if ((j & 0x01) != 0x00) {
2292	mbuf[k++] = atp_readb_io(atp: dev, channel: c, reg: 0x19);
2293	goto phase_ins1;
2294	}
2295	if ((j & 0x80) == 0x00) {
2296	goto phase_ins1;
2297	}
2298
2299	while ((atp_readb_io(atp: dev, channel: c, reg: 0x17) & 0x80) == 0x00);
2300
2301	j = atp_readb_io(atp: dev, channel: c, reg: 0x17);
2302	if (j == 0x85) {
2303	goto tar_dcons;
2304	}
2305	j &= 0x0f;
2306	if (j == 0x0f) {
2307	goto phase_ins;
2308	}
2309	if (j == 0x0a) {
2310	goto phase_cmds;
2311	}
2312	if (j == 0x0e) {
2313	goto phase_outs;
2314	}
2315	continue;
2316	phase_cmds:
2317	atp_writeb_io(atp: dev, channel: c, reg: 0x10, val: 0x30);
2318	tar_dcons:
2319	atp_writeb_io(atp: dev, channel: c, reg: 0x14, val: 0x00);
2320	atp_writeb_io(atp: dev, channel: c, reg: 0x18, val: 0x08);
2321
2322	while ((atp_readb_io(atp: dev, channel: c, reg: 0x1f) & 0x80) == 0x00)
2323	cpu_relax();
2324
2325	j = atp_readb_io(atp: dev, channel: c, reg: 0x17);
2326	if (j != 0x16) {
2327	continue;
2328	}
2329	if (mbuf[0] != 0x01) {
2330	continue;
2331	}
2332	if (mbuf[1] != 0x03) {
2333	continue;
2334	}
2335	if (mbuf[4] == 0x00) {
2336	continue;
2337	}
2338	if (mbuf[3] > 0x64) {
2339	continue;
2340	}
2341	if (is885(atp: dev) || is880(atp: dev)) {
2342	if (mbuf[4] > 0x0e) {
2343	mbuf[4] = 0x0e;
2344	}
2345	} else {
2346	if (mbuf[4] > 0x0c) {
2347	mbuf[4] = 0x0c;
2348	}
2349	}
2350	dev->id[c][i].devsp = mbuf[4];
2351	if (is885(atp: dev) || is880(atp: dev))
2352	if (mbuf[3] < 0x0c) {
2353	j = 0xb0;
2354	goto set_syn_ok;
2355	}
2356	if ((mbuf[3] < 0x0d) && (rmb == 0)) {
2357	j = 0xa0;
2358	goto set_syn_ok;
2359	}
2360	if (mbuf[3] < 0x1a) {
2361	j = 0x20;
2362	goto set_syn_ok;
2363	}
2364	if (mbuf[3] < 0x33) {
2365	j = 0x40;
2366	goto set_syn_ok;
2367	}
2368	if (mbuf[3] < 0x4c) {
2369	j = 0x50;
2370	goto set_syn_ok;
2371	}
2372	j = 0x60;
2373	set_syn_ok:
2374	dev->id[c][i].devsp = (dev->id[c][i].devsp & 0x0f) | j;
2375	#ifdef ED_DBGP
2376	printk("dev->id[%2d][%2d].devsp = %2x\n",
2377	c,i,dev->id[c][i].devsp);
2378	#endif
2379	}
2380	}
2381