../linux/src/drivers/scsi/AM53C974.c

Bug Summary

File:	obj-scan-build/../linux/src/drivers/scsi/AM53C974.c
Location:	line 1455, column 8
Description:	Value stored to 'ret' is never read

Annotated Source Code

1	#include <linux/module.h>
2
3	#include <linux/config.h>
4	#include <linux/delay.h>
5	#include <linux/signal.h>
6	#include <linux/sched.h>
7	#include <linux/errno.h>
8	#include <linux/bios32.h>
9	#include <linux/pci.h>
10	#include <linux/string.h>
11	#include <linux/blk.h>
12
13	#include <asm/io.h>
14	#include <asm/system.h>
15
16	#include "scsi.h"
17	#include "hosts.h"
18	#include "AM53C974.h"
19	#include "constants.h"
20	#include "sd.h"
21
22	/* AM53/79C974 (PCscsi) driver release 0.5
23	*
24	* The architecture and much of the code of this device
25	* driver was originally developed by Drew Eckhardt for
26	* the NCR5380. The following copyrights apply:
27	* For the architecture and all pieces of code which can also be found
28	* in the NCR5380 device driver:
29	* Copyright 1993, Drew Eckhardt
30	* Visionary Computing
31	* (Unix and Linux consulting and custom programming)
32	* drew@colorado.edu
33	* +1 (303) 666-5836
34	*
35	* The AM53C974_nobios_detect code was originally developed by
36	* Robin Cutshaw (robin@xfree86.org) and is used here in a
37	* slightly modified form.
38	*
39	* For the remaining code:
40	* Copyright 1994, D. Frieauff
41	* EMail: fri@rsx42sun0.dofn.de
42	* Phone: x49-7545-8-2256 , x49-7541-42305
43	*/
44
45	#ifdef AM53C974_DEBUG
46	#define DEB(x) x
47	#ifdef AM53C974_DEBUG_KEYWAIT
48	#define KEYWAIT() AM53C974_keywait()
49	#else
50	#define KEYWAIT()
51	#endif
52	#ifdef AM53C974_DEBUG_INIT
53	#define DEB_INIT(x) x
54	#else
55	#define DEB_INIT(x)
56	#endif
57	#ifdef AM53C974_DEBUG_MSG
58	#define DEB_MSG(x) x
59	#else
60	#define DEB_MSG(x)
61	#endif
62	#ifdef AM53C974_DEB_RESEL
63	#define DEB_RESEL(x) x
64	#else
65	#define DEB_RESEL(x)
66	#endif
67	#ifdef AM53C974_DEBUG_QUEUE
68	#define DEB_QUEUE(x) x
69	#define LIST(x,y) {printk("LINE:%d Adding %p to %p\n", __LINE__69, (void)(x), (void)(y)); if ((x)==(y)) udelay(5)(__builtin_constant_p(5) ? __const_udelay((5) * 0x10c6ul) : __udelay (5)); }
70	#define REMOVE(w,x,y,z) {printk("LINE:%d Removing: %p->%p %p->%p \n", __LINE__70, (void)(w), (void)(x), (void)(y), (void)(z)); if ((x)==(y)) udelay(5)(__builtin_constant_p(5) ? __const_udelay((5) * 0x10c6ul) : __udelay (5)); }
71	#else
72	#define DEB_QUEUE(x)
73	#define LIST(x,y)
74	#define REMOVE(w,x,y,z)
75	#endif
76	#ifdef AM53C974_DEBUG_INFO
77	#define DEB_INFO(x) x
78	#else
79	#define DEB_INFO(x)
80	#endif
81	#ifdef AM53C974_DEBUG_LINKED
82	#define DEB_LINKED(x) x
83	#else
84	#define DEB_LINKED(x)
85	#endif
86	#ifdef AM53C974_DEBUG_INTR
87	#define DEB_INTR(x) x
88	#else
89	#define DEB_INTR(x)
90	#endif
91	#else
92	#define DEB_INIT(x)
93	#define DEB(x)
94	#define DEB_QUEUE(x)
95	#define LIST(x,y)
96	#define REMOVE(w,x,y,z)
97	#define DEB_INFO(x)
98	#define DEB_LINKED(x)
99	#define DEB_INTR(x)
100	#define DEB_MSG(x)
101	#define DEB_RESEL(x)
102	#define KEYWAIT()
103	#endif
104	#ifdef AM53C974_DEBUG_ABORT
105	#define DEB_ABORT(x)x x
106	#else
107	#define DEB_ABORT(x)x
108	#endif
109
110	#ifdef VERBOSE_AM53C974_DEBUG
111	#define VDEB(x) x
112	#else
113	#define VDEB(x)
114	#endif
115
116	#define INSIDE(x,l,h)( ((x) >= (l)) && ((x) <= (h)) ) ( ((x) >= (l)) && ((x) <= (h)) )
117
118	#ifdef AM53C974_DEBUG
119	static void AM53C974_print_pci(struct Scsi_Host *instance);
120	static void AM53C974_print_phase(struct Scsi_Host *instance);
121	static void AM53C974_print_queues(struct Scsi_Host *instance);
122	#endif /* AM53C974_DEBUG */
123	static void AM53C974_print(struct Scsi_Host *instance);
124	static void AM53C974_keywait(void);
125	static int AM53C974_bios_detect(Scsi_Host_Template *tpnt);
126	static int AM53C974_nobios_detect(Scsi_Host_Template *tpnt);
127	static int AM53C974_init(Scsi_Host_Template *tpnt, pci_config_t pci_config);
128	static void AM53C974_config_after_reset(struct Scsi_Host *instance);
129	static __inline____inline__ __attribute__((always_inline)) void initialize_SCp(Scsi_Cmnd *cmd);
130	static __inline____inline__ __attribute__((always_inline)) void run_main(void);
131	static void AM53C974_main (void);
132	static void AM53C974_intr(int irq, void dev_id, struct pt_regs regs);
133	static void AM53C974_intr_disconnect(struct Scsi_Host *instance);
134	static int AM53C974_sync_neg(struct Scsi_Host instance, int target, unsigned char msg);
135	static __inline____inline__ __attribute__((always_inline)) void AM53C974_set_async(struct Scsi_Host *instance, int target);
136	static __inline____inline__ __attribute__((always_inline)) void AM53C974_set_sync(struct Scsi_Host *instance, int target);
137	static void AM53C974_information_transfer(struct Scsi_Host *instance,
138	unsigned char statreg, unsigned char isreg,
139	unsigned char instreg, unsigned char cfifo,
140	unsigned char dmastatus);
141	static int AM53C974_message(struct Scsi_Host instance, Scsi_Cmnd cmd, unsigned char msg);
142	static void AM53C974_select(struct Scsi_Host instance, Scsi_Cmnd cmd, int tag);
143	static void AM53C974_intr_reselect(struct Scsi_Host *instance, unsigned char statreg);
144	static __inline____inline__ __attribute__((always_inline)) void AM53C974_transfer_dma(struct Scsi_Host *instance, short dir,
145	unsigned long length, char *data);
146	static void AM53C974_dma_blast(struct Scsi_Host *instance, unsigned char dmastatus,
147	unsigned char statreg);
148	static void AM53C974_intr_bus_reset(struct Scsi_Host *instance);
149
150	static struct Scsi_Host first_instance = NULL((void ) 0);
151	static Scsi_Host_Template the_template = NULL((void ) 0);
152	static struct Scsi_Host first_host = NULL((void ) 0); /* Head of list of AMD boards */
153	static volatile int main_running = 0;
154	static int commandline_current = 0;
155	override_t overrides[7] = { {-1, 0, 0, 0}, }; /* LILO overrides */
156
157	struct proc_dir_entry proc_scsi_am53c974 = {
158	PROC_SCSI_AM53C974, 8, "am53c974",
159	S_IFDIR0040000 \| S_IRUGO(00400\|00040\|00004) \| S_IXUGO(00100\|00010\|00001), 2
160	};
161
162	#ifdef AM53C974_DEBUG
163	static int deb_stop = 1;
164
165	/**************************************************************************
166	* Function : void AM53C974_print_pci(struct Scsi_Host *instance)
167	*
168	* Purpose : dump the PCI registers for debugging purposes
169	*
170	* Input : instance - which AM53C974
171	**************************************************************************/
172	static void AM53C974_print_pci(struct Scsi_Host *instance)
173	{
174	int i;
175	unsigned short vendor_id, device_id, command, status, scratch[8];
176	unsigned long class_revision, base;
177	unsigned char irq, cache_line_size, latency_timer, header_type;
178
179	AM53C974_PCIREG_OPEN()((__builtin_constant_p((0xCF8)) && (0xCF8) < 256) ? __outbc((0xF1),(0xCF8)) : __outb((0xF1),(0xCF8))); ((__builtin_constant_p ((0xCFA)) && (0xCFA) < 256) ? __outbc((0),(0xCFA)) : __outb((0),(0xCFA)));
180
181	for (i = 0; i < 8; i++) (scratch + i) = AM53C974_PCIREG_READ_WORD(instance, PCI_SCRATCH_REG_0 + 2i)( ((__builtin_constant_p(((0x40 + 2i) + (instance)->io_port )) && ((0x40 + 2i) + (instance)->io_port) < 256 ) ? __inwc((0x40 + 2i) + (instance)->io_port) : __inw((0x40 + 2i) + (instance)->io_port)) );
182	vendor_id = AM53C974_PCIREG_READ_WORD(instance, PCI_VENDOR_ID)( ((__builtin_constant_p(((0x00) + (instance)->io_port)) && ((0x00) + (instance)->io_port) < 256) ? __inwc((0x00) + (instance)->io_port) : __inw((0x00) + (instance)->io_port )) );
183	device_id = AM53C974_PCIREG_READ_WORD(instance, PCI_DEVICE_ID)( ((__builtin_constant_p(((0x02) + (instance)->io_port)) && ((0x02) + (instance)->io_port) < 256) ? __inwc((0x02) + (instance)->io_port) : __inw((0x02) + (instance)->io_port )) );
184	command = AM53C974_PCIREG_READ_WORD(instance, PCI_COMMAND)( ((__builtin_constant_p(((0x04) + (instance)->io_port)) && ((0x04) + (instance)->io_port) < 256) ? __inwc((0x04) + (instance)->io_port) : __inw((0x04) + (instance)->io_port )) );
185	status = AM53C974_PCIREG_READ_WORD(instance, PCI_STATUS)( ((__builtin_constant_p(((0x06) + (instance)->io_port)) && ((0x06) + (instance)->io_port) < 256) ? __inwc((0x06) + (instance)->io_port) : __inw((0x06) + (instance)->io_port )) );
186	class_revision = AM53C974_PCIREG_READ_DWORD(instance, PCI_CLASS_REVISION)( ((__builtin_constant_p(((0x08) + (instance)->io_port)) && ((0x08) + (instance)->io_port) < 256) ? __inlc((0x08) + (instance)->io_port) : __inl((0x08) + (instance)->io_port )) );
187	cache_line_size = AM53C974_PCIREG_READ_BYTE(instance, PCI_CACHE_LINE_SIZE)( ((__builtin_constant_p(((0x0c) + (instance)->io_port)) && ((0x0c) + (instance)->io_port) < 256) ? __inbc((0x0c) + (instance)->io_port) : __inb((0x0c) + (instance)->io_port )) );
188	latency_timer = AM53C974_PCIREG_READ_BYTE(instance, PCI_LATENCY_TIMER)( ((__builtin_constant_p(((0x0d) + (instance)->io_port)) && ((0x0d) + (instance)->io_port) < 256) ? __inbc((0x0d) + (instance)->io_port) : __inb((0x0d) + (instance)->io_port )) );
189	header_type = AM53C974_PCIREG_READ_BYTE(instance, PCI_HEADER_TYPE)( ((__builtin_constant_p(((0x0e) + (instance)->io_port)) && ((0x0e) + (instance)->io_port) < 256) ? __inbc((0x0e) + (instance)->io_port) : __inb((0x0e) + (instance)->io_port )) );
190	base = AM53C974_PCIREG_READ_DWORD(instance, PCI_BASE_ADDRESS_0)( ((__builtin_constant_p(((0x10) + (instance)->io_port)) && ((0x10) + (instance)->io_port) < 256) ? __inlc((0x10) + (instance)->io_port) : __inl((0x10) + (instance)->io_port )) );
191	irq = AM53C974_PCIREG_READ_BYTE(instance, PCI_INTERRUPT_LINE)( ((__builtin_constant_p(((0x3c) + (instance)->io_port)) && ((0x3c) + (instance)->io_port) < 256) ? __inbc((0x3c) + (instance)->io_port) : __inb((0x3c) + (instance)->io_port )) );
192
193	AM53C974_PCIREG_CLOSE()((__builtin_constant_p((0xCF8)) && (0xCF8) < 256) ? __outbc((0),(0xCF8)) : __outb((0),(0xCF8)));
194
195
196	printk("------------- start of PCI register dump -------------\n");
197	printk("PCI_VENDOR_ID: 0x%x\n", vendor_id);
198	printk("PCI_DEVICE_ID: 0x%x\n", device_id);
199	printk("PCI_COMMAND: 0x%x\n", command);
200	printk("PCI_STATUS: 0x%x\n", status);
201	printk("PCI_CLASS_REVISION: 0x%lx\n", class_revision);
202	printk("PCI_CACHE_LINE_SIZE: 0x%x\n", cache_line_size);
203	printk("PCI_LATENCY_TIMER: 0x%x\n", latency_timer);
204	printk("PCI_HEADER_TYPE: 0x%x\n", header_type);
205	printk("PCI_BASE_ADDRESS_0: 0x%lx\n", base);
206	printk("PCI_INTERRUPT_LINE: %d\n", irq);
207	for (i = 0; i < 8; i++) printk("PCI_SCRATCH_%d: 0x%x\n", i, scratch[i]);
208	printk("------------- end of PCI register dump -------------\n\n");
209	}
210
211	static struct {
212	unsigned char value;
213	char *name;
214	} phases[] = {
215	{PHASE_DATAOUT0x00, "DATAOUT"}, {PHASE_DATAIN0x01, "DATAIN"}, {PHASE_CMDOUT0x02, "CMDOUT"},
216	{PHASE_STATIN0x03, "STATIN"}, {PHASE_MSGOUT0x06, "MSGOUT"}, {PHASE_MSGIN0x07, "MSGIN"},
217	{PHASE_RES_00x04, "RESERVED 0"}, {PHASE_RES_10x05, "RESERVED 1"}};
218
219	/**************************************************************************
220	* Function : void AM53C974_print_phase(struct Scsi_Host *instance)
221	*
222	* Purpose : print the current SCSI phase for debugging purposes
223	*
224	* Input : instance - which AM53C974
225	**************************************************************************/
226	static void AM53C974_print_phase(struct Scsi_Host *instance)
227	{
228	AM53C974_local_declare()unsigned long io_port;
229	unsigned char statreg, latched;
230	int i;
231	AM53C974_setio(instance)io_port = instance->io_port;
232
233	latched = (AM53C974_read_8(CNTLREG2)((__builtin_constant_p((io_port + (0x2C))) && (io_port + (0x2C)) < 256) ? __inbc(io_port + (0x2C)) : __inb(io_port + (0x2C)))) & CNTLREG2_ENF0x40;
234	statreg = AM53C974_read_8(STATREG)((__builtin_constant_p((io_port + (0x10))) && (io_port + (0x10)) < 256) ? __inbc(io_port + (0x10)) : __inb(io_port + (0x10)));
235	for (i = 0; (phases[i].value != PHASE_RES_10x05) &&
236	(phases[i].value != (statreg & STATREG_PHASE0x07)); ++i);
237	if (latched)
238	printk("scsi%d : phase %s, latched at end of last command\n", instance->host_no, phases[i].name);
239	else
240	printk("scsi%d : phase %s, real time\n", instance->host_no, phases[i].name);
241	}
242
243	/**************************************************************************
244	* Function : void AM53C974_print_queues(struct Scsi_Host *instance)
245	*
246	* Purpose : print commands in the various queues
247	*
248	* Inputs : instance - which AM53C974
249	**************************************************************************/
250	static void AM53C974_print_queues(struct Scsi_Host *instance)
251	{
252	struct AM53C974_hostdata hostdata = (struct AM53C974_hostdata )instance->hostdata;
253	Scsi_Cmnd *ptr;
254
255	printk("AM53C974: coroutine is%s running.\n", main_running ? "" : "n't");
256
257	cli()__asm__ __volatile__ ("cli": : :"memory");
258
259	if (!hostdata->connected) {
260	printk ("scsi%d: no currently connected command\n", instance->host_no); }
261	else {
262	print_Scsi_Cmnd ((Scsi_Cmnd *)hostdata->connected); }
263	if (!hostdata->sel_cmd) {
264	printk ("scsi%d: no currently arbitrating command\n", instance->host_no); }
265	else {
266	print_Scsi_Cmnd ((Scsi_Cmnd *)hostdata->sel_cmd); }
267
268	printk ("scsi%d: issue_queue ", instance->host_no);
269	if (!hostdata->issue_queue)
270	printk("empty\n");
271	else {
272	printk(":\n");
273	for (ptr = (Scsi_Cmnd )hostdata->issue_queue; ptr; ptr = (Scsi_Cmnd )ptr->host_scribble)
274	print_Scsi_Cmnd (ptr); }
275
276	printk ("scsi%d: disconnected_queue ", instance->host_no);
277	if (!hostdata->disconnected_queue)
278	printk("empty\n");
279	else {
280	printk(":\n");
281	for (ptr = (Scsi_Cmnd ) hostdata->disconnected_queue; ptr; ptr = (Scsi_Cmnd )ptr->host_scribble)
282	print_Scsi_Cmnd (ptr); }
283
284	sti()__asm__ __volatile__ ("sti": : :"memory");
285	}
286
287	#endif /* AM53C974_DEBUG */
288
289	/**************************************************************************
290	* Function : void AM53C974_print(struct Scsi_Host *instance)
291	*
292	* Purpose : dump the chip registers for debugging purposes
293	*
294	* Input : instance - which AM53C974
295	**************************************************************************/
296	static void AM53C974_print(struct Scsi_Host *instance)
297	{
298	AM53C974_local_declare()unsigned long io_port;
299	unsigned long ctcreg, dmastc, dmaspa, dmawbc, dmawac;
300	unsigned char cmdreg, statreg, isreg, cfireg, cntlreg[4], dmacmd, dmastatus;
301	AM53C974_setio(instance)io_port = instance->io_port;
302
303	cli()__asm__ __volatile__ ("cli": : :"memory");
304	ctcreg = AM53C974_read_8(CTCHREG)((__builtin_constant_p((io_port + (0x38))) && (io_port + (0x38)) < 256) ? __inbc(io_port + (0x38)) : __inb(io_port + (0x38))) << 16;
305	ctcreg \|= AM53C974_read_8(CTCMREG)((__builtin_constant_p((io_port + (0x04))) && (io_port + (0x04)) < 256) ? __inbc(io_port + (0x04)) : __inb(io_port + (0x04))) << 8;
306	ctcreg \|= AM53C974_read_8(CTCLREG)((__builtin_constant_p((io_port + (0x00))) && (io_port + (0x00)) < 256) ? __inbc(io_port + (0x00)) : __inb(io_port + (0x00)));
307	cmdreg = AM53C974_read_8(CMDREG)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __inbc(io_port + (0x0C)) : __inb(io_port + (0x0C)));
308	statreg = AM53C974_read_8(STATREG)((__builtin_constant_p((io_port + (0x10))) && (io_port + (0x10)) < 256) ? __inbc(io_port + (0x10)) : __inb(io_port + (0x10)));
309	isreg = AM53C974_read_8(ISREG)((__builtin_constant_p((io_port + (0x18))) && (io_port + (0x18)) < 256) ? __inbc(io_port + (0x18)) : __inb(io_port + (0x18)));
310	cfireg = AM53C974_read_8(CFIREG)((__builtin_constant_p((io_port + (0x1C))) && (io_port + (0x1C)) < 256) ? __inbc(io_port + (0x1C)) : __inb(io_port + (0x1C)));
311	cntlreg[0] = AM53C974_read_8(CNTLREG1)((__builtin_constant_p((io_port + (0x20))) && (io_port + (0x20)) < 256) ? __inbc(io_port + (0x20)) : __inb(io_port + (0x20)));
312	cntlreg[1] = AM53C974_read_8(CNTLREG2)((__builtin_constant_p((io_port + (0x2C))) && (io_port + (0x2C)) < 256) ? __inbc(io_port + (0x2C)) : __inb(io_port + (0x2C)));
313	cntlreg[2] = AM53C974_read_8(CNTLREG3)((__builtin_constant_p((io_port + (0x30))) && (io_port + (0x30)) < 256) ? __inbc(io_port + (0x30)) : __inb(io_port + (0x30)));
314	cntlreg[3] = AM53C974_read_8(CNTLREG4)((__builtin_constant_p((io_port + (0x34))) && (io_port + (0x34)) < 256) ? __inbc(io_port + (0x34)) : __inb(io_port + (0x34)));
315	dmacmd = AM53C974_read_8(DMACMD)((__builtin_constant_p((io_port + (0x40))) && (io_port + (0x40)) < 256) ? __inbc(io_port + (0x40)) : __inb(io_port + (0x40)));
316	dmastc = AM53C974_read_32(DMASTC)((__builtin_constant_p((io_port + (0x44))) && (io_port + (0x44)) < 256) ? __inlc(io_port + (0x44)) : __inl(io_port + (0x44)));
317	dmaspa = AM53C974_read_32(DMASPA)((__builtin_constant_p((io_port + (0x48))) && (io_port + (0x48)) < 256) ? __inlc(io_port + (0x48)) : __inl(io_port + (0x48)));
318	dmawbc = AM53C974_read_32(DMAWBC)((__builtin_constant_p((io_port + (0x4C))) && (io_port + (0x4C)) < 256) ? __inlc(io_port + (0x4C)) : __inl(io_port + (0x4C)));
319	dmawac = AM53C974_read_32(DMAWAC)((__builtin_constant_p((io_port + (0x50))) && (io_port + (0x50)) < 256) ? __inlc(io_port + (0x50)) : __inl(io_port + (0x50)));
320	dmastatus = AM53C974_read_8(DMASTATUS)((__builtin_constant_p((io_port + (0x54))) && (io_port + (0x54)) < 256) ? __inbc(io_port + (0x54)) : __inb(io_port + (0x54)));
321	sti()__asm__ __volatile__ ("sti": : :"memory");
322
323	printk("AM53C974 register dump:\n");
324	printk("IO base: 0x%04lx; CTCREG: 0x%04lx; CMDREG: 0x%02x; STATREG: 0x%02x; ISREG: 0x%02x\n",
325	io_port, ctcreg, cmdreg, statreg, isreg);
326	printk("CFIREG: 0x%02x; CNTLREG1-4: 0x%02x; 0x%02x; 0x%02x; 0x%02x\n",
327	cfireg, cntlreg[0], cntlreg[1], cntlreg[2], cntlreg[3]);
328	printk("DMACMD: 0x%02x; DMASTC: 0x%04lx; DMASPA: 0x%04lx\n", dmacmd, dmastc, dmaspa);
329	printk("DMAWBC: 0x%04lx; DMAWAC: 0x%04lx; DMASTATUS: 0x%02x\n", dmawbc, dmawac, dmastatus);
330	printk("---------------------------------------------------------\n");
331	}
332
333	/**************************************************************************
334	* Function : void AM53C974_keywait(void)
335	*
336	* Purpose : wait until a key is pressed, if it was the 'r' key leave singlestep mode;
337	* this function is used for debugging only
338	*
339	* Input : none
340	**************************************************************************/
341	static void AM53C974_keywait(void)
342	{
343	#ifdef AM53C974_DEBUG
344	int key;
345
346	if (!deb_stop) return;
347	#endif
348
349	cli()__asm__ __volatile__ ("cli": : :"memory");
350	while ((inb_p(0x64)((__builtin_constant_p((0x64)) && (0x64) < 256) ? __inbc_p (0x64) : __inb_p(0x64)) & 0x01) != 0x01) ;
351	#ifdef AM53C974_DEBUG
352	key = inb(0x60)((__builtin_constant_p((0x60)) && (0x60) < 256) ? __inbc (0x60) : __inb(0x60));
353	if (key == 0x93) deb_stop = 0; /* don't stop if 'r' was pressed */
354	#endif
355	sti()__asm__ __volatile__ ("sti": : :"memory");
356	}
357
358	/**************************************************************************
359	* Function : AM53C974_setup(char str, int ints)
360	*
361	* Purpose : LILO command line initialization of the overrides array,
362	*
363	* Inputs : str - unused, ints - array of integer parameters with ints[0]
364	* equal to the number of ints.
365	*
366	* NOTE : this function needs to be declared as an external function
367	* in init/main.c and included there in the bootsetups list
368	***************************************************************************/
369	void AM53C974_setup(char str, int ints)
370	{
371	if (ints[0] < 4)
372	printk("AM53C974_setup: wrong number of parameters;\n correct syntax is: AM53C974=host-scsi-id, target-scsi-id, max-rate, max-offset\n");
373	else {
374	if (commandline_current < (sizeof(overrides) / sizeof(override_t))) {
375	if ((ints[1] < 0) \|\| (ints[1] > 7) \|\|
376	(ints[2] < 0) \|\| (ints[2] > 7) \|\|
377	(ints[1] == ints[2]) \|\|
378	(ints[3] < (DEF_CLK40 / MAX_PERIOD13)) \|\| (ints[3] > (DEF_CLK40 / MIN_PERIOD4)) \|\|
379	(ints[4] < 0) \|\| (ints[4] > MAX_OFFSET15))
380	printk("AM53C974_setup: illegal parameter\n");
381	else {
382	overrides[commandline_current].host_scsi_id = ints[1];
383	overrides[commandline_current].target_scsi_id = ints[2];
384	overrides[commandline_current].max_rate = ints[3];
385	overrides[commandline_current].max_offset = ints[4];
386	commandline_current++; }
387	}
388	else
389	printk("AM53C974_setup: too many overrides\n");
390	}
391	}
392
393	#if defined (CONFIG_PCI1)
394	/**************************************************************************
395	* Function : int AM53C974_bios_detect(Scsi_Host_Template *tpnt)
396	*
397	* Purpose : detects and initializes AM53C974 SCSI chips with PCI Bios
398	*
399	* Inputs : tpnt - host template
400	*
401	* Returns : number of host adapters detected
402	**************************************************************************/
403	int AM53C974_bios_detect(Scsi_Host_Template *tpnt)
404	{
405	int count = 0; /* number of boards detected */
406	int pci_index;
407	pci_config_t pci_config;
408
409	for (pci_index = 0; pci_index <= 16; ++pci_index) {
410	unsigned char pci_bus, pci_device_fn;
411	if (pcibios_find_device(PCI_VENDOR_ID_AMD0x1022, PCI_DEVICE_ID_AMD_SCSI0x2020, pci_index, &pci_bus, &pci_device_fn) != 0)
412	break;
413
414	pcibios_read_config_word(pci_bus, pci_device_fn, PCI_VENDOR_ID0x00, &pci_config._vendordv_id.dv.vendor);
415	pcibios_read_config_word(pci_bus, pci_device_fn, PCI_DEVICE_ID0x02, &pci_config._devicedv_id.dv.device);
416	pcibios_read_config_word(pci_bus, pci_device_fn, PCI_COMMAND0x04, &pci_config._commandstat_cmd.sc.command);
417	pcibios_read_config_word(pci_bus, pci_device_fn, PCI_STATUS0x06, &pci_config._statusstat_cmd.sc.status);
418	pcibios_read_config_dword(pci_bus, pci_device_fn, PCI_CLASS_REVISION0x08, &pci_config._class_revisionclass_rev.class_revision);
419	pcibios_read_config_byte(pci_bus, pci_device_fn, PCI_CACHE_LINE_SIZE0x0c, &pci_config._cache_line_sizebhlc.bhlc.cache_line_size);
420	pcibios_read_config_byte(pci_bus, pci_device_fn, PCI_LATENCY_TIMER0x0d, &pci_config._latency_timerbhlc.bhlc.latency_timer);
421	pcibios_read_config_byte(pci_bus, pci_device_fn, PCI_HEADER_TYPE0x0e, &pci_config._header_typebhlc.bhlc.header_type);
422	pcibios_read_config_byte(pci_bus, pci_device_fn, PCI_BIST0x0f, &pci_config._bistbhlc.bhlc.bist);
423	pcibios_read_config_dword(pci_bus, pci_device_fn, PCI_BASE_ADDRESS_00x10, &pci_config._base0);
424	pcibios_read_config_dword(pci_bus, pci_device_fn, PCI_BASE_ADDRESS_10x14, &pci_config._base1);
425	pcibios_read_config_dword(pci_bus, pci_device_fn, PCI_BASE_ADDRESS_20x18, &pci_config._base2);
426	pcibios_read_config_dword(pci_bus, pci_device_fn, PCI_BASE_ADDRESS_30x1c, &pci_config._base3);
427	pcibios_read_config_dword(pci_bus, pci_device_fn, PCI_BASE_ADDRESS_40x20, &pci_config._base4);
428	pcibios_read_config_dword(pci_bus, pci_device_fn, PCI_BASE_ADDRESS_50x24, &pci_config._base5);
429	pcibios_read_config_dword(pci_bus, pci_device_fn, PCI_ROM_ADDRESS0x30, &pci_config._baserom);
430	pcibios_read_config_byte(pci_bus, pci_device_fn, PCI_INTERRUPT_LINE0x3c, &pci_config._int_linemmii.mmii.int_line);
431	pcibios_read_config_byte(pci_bus, pci_device_fn, PCI_INTERRUPT_PIN0x3d, &pci_config._int_pinmmii.mmii.int_pin);
432	pcibios_read_config_byte(pci_bus, pci_device_fn, PCI_MIN_GNT0x3e, &pci_config._min_gntmmii.mmii.min_gnt);
433	pcibios_read_config_byte(pci_bus, pci_device_fn, PCI_MAX_LAT0x3f, &pci_config._max_latmmii.mmii.max_lat);
434	pci_config._pcibus = 0xFFFFFFFF;
435	pci_config._cardnum = 0xFFFFFFFF;
436
437	/* check whether device is I/O mapped -- should be */
438	if (!(pci_config._commandstat_cmd.sc.command & PCI_COMMAND_IO0x1)) continue;
439
440	/* PCI Spec 2.1 states that it is either the driver's or the PCI card's responsibility
441	to set the PCI Master Enable Bit if needed.
442	(from Mark Stockton <marks@schooner.sys.hou.compaq.com>) */
443	if (!(pci_config._commandstat_cmd.sc.command & PCI_COMMAND_MASTER0x4)) {
444	pci_config._commandstat_cmd.sc.command \|= PCI_COMMAND_MASTER0x4;
445	printk("PCI Master Bit has not been set. Setting...\n");
446	pcibios_write_config_word(pci_bus, pci_device_fn, PCI_COMMAND0x04, pci_config._commandstat_cmd.sc.command); }
447
448	/* everything seems OK now, so initialize */
449	if (AM53C974_init(tpnt, pci_config)) count++ ;
450	}
451	return (count);
452	}
453	#endif
454
455	/**************************************************************************
456	* Function : int AM53C974_nobios_detect(Scsi_Host_Template *tpnt)
457	*
458	* Purpose : detects and initializes AM53C974 SCSI chips using PCI config 2
459	*
460	* Inputs : tpnt - host template
461	*
462	* Returns : number of host adapters detected
463	*
464	* NOTE : This code assumes the controller on PCI bus 0.
465	*
466	* Origin: Robin Cutshaw (robin@xfree86.org)
467	**************************************************************************/
468	int AM53C974_nobios_detect(Scsi_Host_Template *tpnt)
469	{
470	int count = 0; /* number of boards detected */
471	pci_config_t pci_config;
472
473	/* first try PCI config method 1 */
474	for (pci_config._pcibus = 0; pci_config._pcibus < 0x10; pci_config._pcibus++) {
475	for (pci_config._cardnum = 0; pci_config._cardnum < 0x20; pci_config._cardnum++) {
476	unsigned long config_cmd;
477	config_cmd = 0x80000000 \| (pci_config._pcibus<<16) \| (pci_config._cardnum<<11);
478
479	outl(config_cmd, 0xCF8)((__builtin_constant_p((0xCF8)) && (0xCF8) < 256) ? __outlc((config_cmd),(0xCF8)) : __outl((config_cmd),(0xCF8)) ); /* ioreg 0 */
480	pci_config._device_vendordv_id.device_vendor = inl(0xCFC)((__builtin_constant_p((0xCFC)) && (0xCFC) < 256) ? __inlc(0xCFC) : __inl(0xCFC));
481
482	if ((pci_config._vendordv_id.dv.vendor == PCI_VENDOR_ID_AMD0x1022) && (pci_config._devicedv_id.dv.device == PCI_DEVICE_ID_AMD_SCSI0x2020)) {
483	outl(config_cmd \| PCI_COMMAND, 0xCF8)((__builtin_constant_p((0xCF8)) && (0xCF8) < 256) ? __outlc((config_cmd \| 0x04),(0xCF8)) : __outl((config_cmd \| 0x04 ),(0xCF8))); pci_config._status_commandstat_cmd.status_command = inl(0xCFC)((__builtin_constant_p((0xCFC)) && (0xCFC) < 256) ? __inlc(0xCFC) : __inl(0xCFC));
484	outl(config_cmd \| PCI_CLASS_REVISION, 0xCF8)((__builtin_constant_p((0xCF8)) && (0xCF8) < 256) ? __outlc((config_cmd \| 0x08),(0xCF8)) : __outl((config_cmd \| 0x08 ),(0xCF8))); pci_config._class_revisionclass_rev.class_revision = inl(0xCFC)((__builtin_constant_p((0xCFC)) && (0xCFC) < 256) ? __inlc(0xCFC) : __inl(0xCFC));
485	outl(config_cmd \| PCI_CACHE_LINE_SIZE, 0xCF8)((__builtin_constant_p((0xCF8)) && (0xCF8) < 256) ? __outlc((config_cmd \| 0x0c),(0xCF8)) : __outl((config_cmd \| 0x0c ),(0xCF8))); pci_config._bist_header_latency_cachebhlc.bist_header_latency_cache = inl(0xCFC)((__builtin_constant_p((0xCFC)) && (0xCFC) < 256) ? __inlc(0xCFC) : __inl(0xCFC));
486	outl(config_cmd \| PCI_BASE_ADDRESS_0, 0xCF8)((__builtin_constant_p((0xCF8)) && (0xCF8) < 256) ? __outlc((config_cmd \| 0x10),(0xCF8)) : __outl((config_cmd \| 0x10 ),(0xCF8))); pci_config._base0 = inl(0xCFC)((__builtin_constant_p((0xCFC)) && (0xCFC) < 256) ? __inlc(0xCFC) : __inl(0xCFC));
487	outl(config_cmd \| PCI_BASE_ADDRESS_1, 0xCF8)((__builtin_constant_p((0xCF8)) && (0xCF8) < 256) ? __outlc((config_cmd \| 0x14),(0xCF8)) : __outl((config_cmd \| 0x14 ),(0xCF8))); pci_config._base1 = inl(0xCFC)((__builtin_constant_p((0xCFC)) && (0xCFC) < 256) ? __inlc(0xCFC) : __inl(0xCFC));
488	outl(config_cmd \| PCI_BASE_ADDRESS_2, 0xCF8)((__builtin_constant_p((0xCF8)) && (0xCF8) < 256) ? __outlc((config_cmd \| 0x18),(0xCF8)) : __outl((config_cmd \| 0x18 ),(0xCF8))); pci_config._base2 = inl(0xCFC)((__builtin_constant_p((0xCFC)) && (0xCFC) < 256) ? __inlc(0xCFC) : __inl(0xCFC));
489	outl(config_cmd \| PCI_BASE_ADDRESS_3, 0xCF8)((__builtin_constant_p((0xCF8)) && (0xCF8) < 256) ? __outlc((config_cmd \| 0x1c),(0xCF8)) : __outl((config_cmd \| 0x1c ),(0xCF8))); pci_config._base3 = inl(0xCFC)((__builtin_constant_p((0xCFC)) && (0xCFC) < 256) ? __inlc(0xCFC) : __inl(0xCFC));
490	outl(config_cmd \| PCI_BASE_ADDRESS_4, 0xCF8)((__builtin_constant_p((0xCF8)) && (0xCF8) < 256) ? __outlc((config_cmd \| 0x20),(0xCF8)) : __outl((config_cmd \| 0x20 ),(0xCF8))); pci_config._base4 = inl(0xCFC)((__builtin_constant_p((0xCFC)) && (0xCFC) < 256) ? __inlc(0xCFC) : __inl(0xCFC));
491	outl(config_cmd \| PCI_BASE_ADDRESS_5, 0xCF8)((__builtin_constant_p((0xCF8)) && (0xCF8) < 256) ? __outlc((config_cmd \| 0x24),(0xCF8)) : __outl((config_cmd \| 0x24 ),(0xCF8))); pci_config._base5 = inl(0xCFC)((__builtin_constant_p((0xCFC)) && (0xCFC) < 256) ? __inlc(0xCFC) : __inl(0xCFC));
492	outl(config_cmd \| PCI_ROM_ADDRESS, 0xCF8)((__builtin_constant_p((0xCF8)) && (0xCF8) < 256) ? __outlc((config_cmd \| 0x30),(0xCF8)) : __outl((config_cmd \| 0x30 ),(0xCF8))); pci_config._baserom = inl(0xCFC)((__builtin_constant_p((0xCFC)) && (0xCFC) < 256) ? __inlc(0xCFC) : __inl(0xCFC));
493	outl(config_cmd \| PCI_INTERRUPT_LINE, 0xCF8)((__builtin_constant_p((0xCF8)) && (0xCF8) < 256) ? __outlc((config_cmd \| 0x3c),(0xCF8)) : __outl((config_cmd \| 0x3c ),(0xCF8))); pci_config._max_min_ipin_ilinemmii.max_min_ipin_iline = inl(0xCFC)((__builtin_constant_p((0xCFC)) && (0xCFC) < 256) ? __inlc(0xCFC) : __inl(0xCFC));
494
495	/* check whether device is I/O mapped -- should be */
496	if (!(pci_config._commandstat_cmd.sc.command & PCI_COMMAND_IO0x1)) continue;
497
498	/* PCI Spec 2.1 states that it is either the driver's or the PCI card's responsibility
499	to set the PCI Master Enable Bit if needed.
500	From Mark Stockton <marks@schooner.sys.hou.compaq.com> */
501	if (!(pci_config._commandstat_cmd.sc.command & PCI_COMMAND_MASTER0x4)) {
502	pci_config._commandstat_cmd.sc.command \|= PCI_COMMAND_MASTER0x4;
503	printk("Config 1; PCI Master Bit has not been set. Setting...\n");
504	outl(config_cmd \| PCI_COMMAND, 0xCF8)((__builtin_constant_p((0xCF8)) && (0xCF8) < 256) ? __outlc((config_cmd \| 0x04),(0xCF8)) : __outl((config_cmd \| 0x04 ),(0xCF8))); outw(pci_config._command, 0xCFC)((__builtin_constant_p((0xCFC)) && (0xCFC) < 256) ? __outwc((pci_config.stat_cmd.sc.command),(0xCFC)) : __outw(( pci_config.stat_cmd.sc.command),(0xCFC))); }
505
506	/* everything seems OK now, so initialize */
507	if (AM53C974_init(tpnt, pci_config)) count++ ;
508	}
509	}
510	}
511	outb(0, 0xCF8)((__builtin_constant_p((0xCF8)) && (0xCF8) < 256) ? __outbc((0),(0xCF8)) : __outb((0),(0xCF8))); /* is this really necessary? */
512
513	/* try PCI config method 2, if no device was detected by method 1 */
514	if (!count) {
515	AM53C974_PCIREG_OPEN()((__builtin_constant_p((0xCF8)) && (0xCF8) < 256) ? __outbc((0xF1),(0xCF8)) : __outb((0xF1),(0xCF8))); ((__builtin_constant_p ((0xCFA)) && (0xCFA) < 256) ? __outbc((0),(0xCFA)) : __outb((0),(0xCFA)));
516
517	pci_config._pcibus = 0xFFFFFFFF;
518	pci_config._cardnum = 0xFFFFFFFF;
519
520	for (pci_config._ioaddr = 0xC000; pci_config._ioaddr < 0xD000; pci_config._ioaddr += 0x0100) {
521	pci_config._device_vendordv_id.device_vendor = inl(pci_config._ioaddr)((__builtin_constant_p((pci_config._ioaddr)) && (pci_config ._ioaddr) < 256) ? __inlc(pci_config._ioaddr) : __inl(pci_config ._ioaddr));
522
523	if ((pci_config._vendordv_id.dv.vendor == PCI_VENDOR_ID_AMD0x1022) && (pci_config._devicedv_id.dv.device == PCI_DEVICE_ID_AMD_SCSI0x2020)) {
524	pci_config._status_commandstat_cmd.status_command = inl(pci_config._ioaddr + PCI_COMMAND)((__builtin_constant_p((pci_config._ioaddr + 0x04)) && (pci_config._ioaddr + 0x04) < 256) ? __inlc(pci_config._ioaddr + 0x04) : __inl(pci_config._ioaddr + 0x04));
525	pci_config._class_revisionclass_rev.class_revision = inl(pci_config._ioaddr + PCI_CLASS_REVISION)((__builtin_constant_p((pci_config._ioaddr + 0x08)) && (pci_config._ioaddr + 0x08) < 256) ? __inlc(pci_config._ioaddr + 0x08) : __inl(pci_config._ioaddr + 0x08));
526	pci_config._bist_header_latency_cachebhlc.bist_header_latency_cache = inl(pci_config._ioaddr + PCI_CACHE_LINE_SIZE)((__builtin_constant_p((pci_config._ioaddr + 0x0c)) && (pci_config._ioaddr + 0x0c) < 256) ? __inlc(pci_config._ioaddr + 0x0c) : __inl(pci_config._ioaddr + 0x0c));
527	pci_config._base0 = inl(pci_config._ioaddr + PCI_BASE_ADDRESS_0)((__builtin_constant_p((pci_config._ioaddr + 0x10)) && (pci_config._ioaddr + 0x10) < 256) ? __inlc(pci_config._ioaddr + 0x10) : __inl(pci_config._ioaddr + 0x10));
528	pci_config._base1 = inl(pci_config._ioaddr + PCI_BASE_ADDRESS_1)((__builtin_constant_p((pci_config._ioaddr + 0x14)) && (pci_config._ioaddr + 0x14) < 256) ? __inlc(pci_config._ioaddr + 0x14) : __inl(pci_config._ioaddr + 0x14));
529	pci_config._base2 = inl(pci_config._ioaddr + PCI_BASE_ADDRESS_2)((__builtin_constant_p((pci_config._ioaddr + 0x18)) && (pci_config._ioaddr + 0x18) < 256) ? __inlc(pci_config._ioaddr + 0x18) : __inl(pci_config._ioaddr + 0x18));
530	pci_config._base3 = inl(pci_config._ioaddr + PCI_BASE_ADDRESS_3)((__builtin_constant_p((pci_config._ioaddr + 0x1c)) && (pci_config._ioaddr + 0x1c) < 256) ? __inlc(pci_config._ioaddr + 0x1c) : __inl(pci_config._ioaddr + 0x1c));
531	pci_config._base4 = inl(pci_config._ioaddr + PCI_BASE_ADDRESS_4)((__builtin_constant_p((pci_config._ioaddr + 0x20)) && (pci_config._ioaddr + 0x20) < 256) ? __inlc(pci_config._ioaddr + 0x20) : __inl(pci_config._ioaddr + 0x20));
532	pci_config._base5 = inl(pci_config._ioaddr + PCI_BASE_ADDRESS_5)((__builtin_constant_p((pci_config._ioaddr + 0x24)) && (pci_config._ioaddr + 0x24) < 256) ? __inlc(pci_config._ioaddr + 0x24) : __inl(pci_config._ioaddr + 0x24));
533	pci_config._baserom = inl(pci_config._ioaddr + PCI_ROM_ADDRESS)((__builtin_constant_p((pci_config._ioaddr + 0x30)) && (pci_config._ioaddr + 0x30) < 256) ? __inlc(pci_config._ioaddr + 0x30) : __inl(pci_config._ioaddr + 0x30));
534	pci_config._max_min_ipin_ilinemmii.max_min_ipin_iline = inl(pci_config._ioaddr + PCI_INTERRUPT_LINE)((__builtin_constant_p((pci_config._ioaddr + 0x3c)) && (pci_config._ioaddr + 0x3c) < 256) ? __inlc(pci_config._ioaddr + 0x3c) : __inl(pci_config._ioaddr + 0x3c));
535
536	/* check whether device is I/O mapped -- should be */
537	if (!(pci_config._commandstat_cmd.sc.command & PCI_COMMAND_IO0x1)) continue;
538
539	/* PCI Spec 2.1 states that it is either the driver's or the PCI card's responsibility
540	to set the PCI Master Enable Bit if needed.
541	From Mark Stockton <marks@schooner.sys.hou.compaq.com> */
542	if (!(pci_config._commandstat_cmd.sc.command & PCI_COMMAND_MASTER0x4)) {
543	pci_config._commandstat_cmd.sc.command \|= PCI_COMMAND_MASTER0x4;
544	printk("Config 2; PCI Master Bit has not been set. Setting...\n");
545	outw(pci_config._command, pci_config._ioaddr + PCI_COMMAND)((__builtin_constant_p((pci_config._ioaddr + 0x04)) && (pci_config._ioaddr + 0x04) < 256) ? __outwc((pci_config. stat_cmd.sc.command),(pci_config._ioaddr + 0x04)) : __outw((pci_config .stat_cmd.sc.command),(pci_config._ioaddr + 0x04))); }
546
547	/* everything seems OK now, so initialize */
548	if (AM53C974_init(tpnt, pci_config)) count++ ;
549	}
550	}
551	AM53C974_PCIREG_CLOSE()((__builtin_constant_p((0xCF8)) && (0xCF8) < 256) ? __outbc((0),(0xCF8)) : __outb((0),(0xCF8)));
552	}
553
554	return(count);
555	}
556
557	/**************************************************************************
558	* Function : int AM53C974_detect(Scsi_Host_Template *tpnt)
559	*
560	* Purpose : detects and initializes AM53C974 SCSI chips
561	*
562	* Inputs : tpnt - host template
563	*
564	* Returns : number of host adapters detected
565	**************************************************************************/
566	int AM53C974_detect(Scsi_Host_Template *tpnt)
567	{
568	int count; /* number of boards detected */
569
570	tpnt->proc_dir = &proc_scsi_am53c974;
571
572	#if defined (CONFIG_PCI1)
573	if (pcibios_present())
574	count = AM53C974_bios_detect(tpnt);
575	else
576	#endif
577	count = AM53C974_nobios_detect(tpnt);
578	return (count);
579	}
580
581	/**************************************************************************
582	* Function : int AM53C974_init(Scsi_Host_Template *tpnt, pci_config_t pci_config)
583	*
584	* Purpose : initializes instance and corresponding AM53/79C974 chip,
585	*
586	* Inputs : tpnt - template, pci_config - PCI configuration,
587	*
588	* Returns : 1 on success, 0 on failure.
589	*
590	* NOTE: If no override for the controller's SCSI id is given and AM53C974_SCSI_ID
591	* is not defined we assume that the SCSI address of this controller is correctly
592	* set up by the BIOS (as reflected by contents of register CNTLREG1).
593	* This is the only BIOS assistance we need.
594	**************************************************************************/
595	static int AM53C974_init(Scsi_Host_Template *tpnt, pci_config_t pci_config)
596	{
597	AM53C974_local_declare()unsigned long io_port;
598	int i, j;
599	struct Scsi_Host instance, search;
600	struct AM53C974_hostdata *hostdata;
601
602	#ifdef AM53C974_OPTION_DEBUG_PROBE_ONLY
603	printk ("AM53C974: probe only enabled, aborting initialization\n");
604	return 0;
605	#endif
606
607	instance = scsi_register(tpnt, sizeof(struct AM53C974_hostdata));
608	hostdata = (struct AM53C974_hostdata *)instance->hostdata;
609	instance->base = NULL((void *) 0);
610	instance->io_port = pci_config._base0 & (pci_config._base0 & 0x1 ?
611	0xFFFFFFFC : 0xFFFFFFF0);
612	instance->irq = pci_config._int_linemmii.mmii.int_line;
613	instance->dma_channel = -1;
614	AM53C974_setio(instance)io_port = instance->io_port;
615
616	#ifdef AM53C974_SCSI_ID
617	instance->this_id = AM53C974_SCSI_ID;
618	AM53C974_write_8(CNTLREG1, instance->this_id & CNTLREG1_SID)((__builtin_constant_p((io_port + (0x20))) && (io_port + (0x20)) < 256) ? __outbc(((instance->this_id & 0x07 )),(io_port + (0x20))) : __outb(((instance->this_id & 0x07 )),(io_port + (0x20))));
619	#else
620	instance->this_id = AM53C974_read_8(CNTLREG1)((__builtin_constant_p((io_port + (0x20))) && (io_port + (0x20)) < 256) ? __inbc(io_port + (0x20)) : __inb(io_port + (0x20))) & CNTLREG1_SID0x07;
621	if (instance->this_id != 7)
622	printk("scsi%d: WARNING: unusual hostadapter SCSI id %d; please verify!\n",
623	instance->host_no, instance->this_id);
624	#endif
625
626	for (i = 0; i < sizeof(hostdata->msgout); i++) {
627	hostdata->msgout[i] = NOP0x08;
628	hostdata->last_message[i] = NOP0x08; }
629	for (i = 0; i < 8; i++) {
630	hostdata->busy[i] = 0;
631	hostdata->sync_per[i] = DEF_STP8;
632	hostdata->sync_off[i] = 0;
633	hostdata->sync_neg[i] = 0;
634	hostdata->sync_en[i] = DEFAULT_SYNC_NEGOTIATION_ENABLED0;
635	hostdata->max_rate[i] = DEFAULT_RATE5;
636	hostdata->max_offset[i] = DEFAULT_SYNC_OFFSET0; }
637
638	/* overwrite defaults by LILO overrides */
639	for (i = 0; i < commandline_current; i++) {
640	if (overrides[i].host_scsi_id == instance->this_id) {
641	j = overrides[i].target_scsi_id;
642	hostdata->sync_en[j] = 1;
643	hostdata->max_rate[j] = overrides[i].max_rate;
644	hostdata->max_offset[j] = overrides[i].max_offset;
645	}
646	}
647
648	hostdata->sel_cmd = NULL((void *) 0);
649	hostdata->connected = NULL((void *) 0);
650	hostdata->issue_queue = NULL((void *) 0);
651	hostdata->disconnected_queue = NULL((void *) 0);
652	hostdata->in_reset = 0;
653	hostdata->aborted = 0;
654	hostdata->selecting = 0;
655	hostdata->disconnecting = 0;
656	hostdata->dma_busy = 0;
657
658	/* Set up an interrupt handler if we aren't already sharing an IRQ with another board */
659	for (search = first_host;
660	search && ( ((the_template != NULL((void *) 0)) && (search->hostt != the_template)) \|\|
661	(search->irq != instance->irq) \|\| (search == instance) );
662	search = search->next);
663	if (!search) {
664	if (request_irq(instance->irq, AM53C974_intr, SA_INTERRUPT0x20000000, "AM53C974", NULL((void *) 0))) {
665	printk("scsi%d: IRQ%d not free, detaching\n", instance->host_no, instance->irq);
666	scsi_unregister(instance);
667	return 0; }
668	}
669	else {
670	printk("scsi%d: using interrupt handler previously installed for scsi%d\n",
671	instance->host_no, search->host_no); }
672
673	if (!the_template) {
674	the_template = instance->hostt;
675	first_instance = instance; }
676
677	/* do hard reset */
678	AM53C974_write_8(CMDREG, CMDREG_RDEV)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x02)),(io_port + (0x0C))) : __outb(((0x02)),(io_port + (0x0C)))); /* reset device */
679	udelay(5)(__builtin_constant_p(5) ? __const_udelay((5) * 0x10c6ul) : __udelay (5));
680	AM53C974_write_8(CMDREG, CMDREG_NOP)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x00)),(io_port + (0x0C))) : __outb(((0x00)),(io_port + (0x0C))));
681	AM53C974_write_8(CNTLREG1, CNTLREG1_DISR \| instance->this_id)((__builtin_constant_p((io_port + (0x20))) && (io_port + (0x20)) < 256) ? __outbc(((0x40 \| instance->this_id) ),(io_port + (0x20))) : __outb(((0x40 \| instance->this_id) ),(io_port + (0x20))));
682	AM53C974_write_8(CMDREG, CMDREG_RBUS)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x03)),(io_port + (0x0C))) : __outb(((0x03)),(io_port + (0x0C)))); /* reset SCSI bus */
683	udelay(10)(__builtin_constant_p(10) ? __const_udelay((10) * 0x10c6ul) : __udelay(10));
684	AM53C974_config_after_reset(instance);
685	udelay(500000)(__builtin_constant_p(500000) ? __const_udelay((500000) * 0x10c6ul ) : __udelay(500000));
686	return(1);
687	}
688
689	/*********************************************************************
690	* Function : AM53C974_config_after_reset(struct Scsi_Host instance)
691	* *
692	* Purpose : initializes chip registers after reset *
693	* *
694	* Inputs : instance - which AM53C974 *
695	* *
696	* Returns : nothing *
697	**********************************************************************/
698	static void AM53C974_config_after_reset(struct Scsi_Host *instance)
699	{
700	AM53C974_local_declare()unsigned long io_port;
701	AM53C974_setio(instance)io_port = instance->io_port;
702
703	/* clear SCSI FIFO */
704	AM53C974_write_8(CMDREG, CMDREG_CFIFO)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x01)),(io_port + (0x0C))) : __outb(((0x01)),(io_port + (0x0C))));
705
706	/* configure device */
707	AM53C974_write_8(STIMREG, DEF_SCSI_TIMEOUT)((__builtin_constant_p((io_port + (0x14))) && (io_port + (0x14)) < 256) ? __outbc(((245)),(io_port + (0x14))) : __outb (((245)),(io_port + (0x14))));
708	AM53C974_write_8(STPREG, DEF_STP & STPREG_STP)((__builtin_constant_p((io_port + (0x18))) && (io_port + (0x18)) < 256) ? __outbc(((8 & 0x1F)),(io_port + (0x18 ))) : __outb(((8 & 0x1F)),(io_port + (0x18))));
709	AM53C974_write_8(SOFREG, (DEF_SOF_RAD<<6) \| (DEF_SOF_RAA<<4))((__builtin_constant_p((io_port + (0x1C))) && (io_port + (0x1C)) < 256) ? __outbc((((0<<6) \| (0<<4)) ),(io_port + (0x1C))) : __outb((((0<<6) \| (0<<4)) ),(io_port + (0x1C))));
710	AM53C974_write_8(CLKFREG, DEF_CLKF & CLKFREG_MASK)((__builtin_constant_p((io_port + (0x24))) && (io_port + (0x24)) < 256) ? __outbc(((0 & 0x07)),(io_port + (0x24 ))) : __outb(((0 & 0x07)),(io_port + (0x24))));
711	AM53C974_write_8(CNTLREG1, (DEF_ETM<<7) \| CNTLREG1_DISR \| (DEF_PERE<<4) \| instance->this_id)((__builtin_constant_p((io_port + (0x20))) && (io_port + (0x20)) < 256) ? __outbc((((0<<7) \| 0x40 \| (1<< 4) \| instance->this_id)),(io_port + (0x20))) : __outb((((0 <<7) \| 0x40 \| (1<<4) \| instance->this_id)),(io_port + (0x20))));
712	AM53C974_write_8(CNTLREG2, (DEF_ENF<<6))((__builtin_constant_p((io_port + (0x2C))) && (io_port + (0x2C)) < 256) ? __outbc((((1<<6))),(io_port + (0x2C ))) : __outb((((1<<6))),(io_port + (0x2C))));
713	AM53C974_write_8(CNTLREG3, (DEF_ADIDCHK<<7) \| (DEF_FASTSCSI<<4) \| (DEF_FASTCLK<<3))((__builtin_constant_p((io_port + (0x30))) && (io_port + (0x30)) < 256) ? __outbc((((0<<7) \| (1<<4) \| (1<<3))),(io_port + (0x30))) : __outb((((0<<7) \| (1<<4) \| (1<<3))),(io_port + (0x30))));
714	AM53C974_write_8(CNTLREG4, (DEF_GLITCH<<6) \| (DEF_PWD<<5) \| (DEF_RAE<<3) \| (DEF_RADE<<2) \| CNTLREG4_RES)((__builtin_constant_p((io_port + (0x34))) && (io_port + (0x34)) < 256) ? __outbc((((1<<6) \| (0<<5) \| (0<<3) \| (1<<2) \| 0x10)),(io_port + (0x34))) : __outb ((((1<<6) \| (0<<5) \| (0<<3) \| (1<<2) \| 0x10)),(io_port + (0x34))));
715	}
716
717	/***********************************************************************
718	* Function : const char AM53C974_info(struct Scsi_Host instance) *
719	* *
720	* Purpose : return device driver information *
721	* *
722	* Inputs : instance - which AM53C974 *
723	* *
724	* Returns : info string *
725	************************************************************************/
726	const char AM53C974_info(struct Scsi_Host instance)
727	{
728	static char info[100];
729
730	sprintflinux_sprintf(info, "AM53/79C974 PCscsi driver rev. %d.%d; host I/O address: 0x%x; irq: %d\n",
731	AM53C974_DRIVER_REVISION_MAJOR0, AM53C974_DRIVER_REVISION_MINOR5,
732	instance->io_port, instance->irq);
733	return (info);
734	}
735
736	/**************************************************************************
737	* Function : int AM53C974_command (Scsi_Cmnd SCpnt)
738	* *
739	* Purpose : the unqueued SCSI command function, replaced by the *
740	* AM53C974_queue_command function *
741	* *
742	* Inputs : SCpnt - pointer to command structure *
743	* *
744	* Returns :status, see hosts.h for details *
745	***************************************************************************/
746	int AM53C974_command(Scsi_Cmnd *SCpnt)
747	{
748	DEB(printk("AM53C974_command called\n"));
749	return 0;
750	}
751
752	/**************************************************************************
753	* Function : void initialize_SCp(Scsi_Cmnd cmd)
754	* *
755	* Purpose : initialize the saved data pointers for cmd to point to the *
756	* start of the buffer. *
757	* *
758	* Inputs : cmd - Scsi_Cmnd structure to have pointers reset. *
759	* *
760	* Returns : nothing *
761	**************************************************************************/
762	static __inline____inline__ __attribute__((always_inline)) void initialize_SCp(Scsi_Cmnd *cmd)
763	{
764	if (cmd->use_sg) {
765	cmd->SCp.buffer = (struct scatterlist *)cmd->buffer;
766	cmd->SCp.buffers_residual = cmd->use_sg - 1;
767	cmd->SCp.ptr = (char *)cmd->SCp.buffer->address;
768	cmd->SCp.this_residual = cmd->SCp.buffer->length; }
769	else {
770	cmd->SCp.buffer = NULL((void *) 0);
771	cmd->SCp.buffers_residual = 0;
772	cmd->SCp.ptr = (char *)cmd->request_buffer;
773	cmd->SCp.this_residual = cmd->request_bufflen; }
774	}
775
776	/**************************************************************************
777	* Function : run_main(void) *
778	* *
779	* Purpose : insure that the coroutine is running and will process our *
780	* request. main_running is checked/set here (in an inline *
781	* function rather than in AM53C974_main itself to reduce the *
782	* chances of stack overflow. *
783	* *
784	* *
785	* Inputs : none *
786	* *
787	* Returns : nothing *
788	**************************************************************************/
789	static __inline____inline__ __attribute__((always_inline)) void run_main(void)
790	{
791	cli()__asm__ __volatile__ ("cli": : :"memory");
792	if (!main_running) {
793	/* main_running is cleared in AM53C974_main once it can't do
794	more work, and AM53C974_main exits with interrupts disabled. */
795	main_running = 1;
796	AM53C974_main();
797	sti()__asm__ __volatile__ ("sti": : :"memory"); }
798	else
799	sti()__asm__ __volatile__ ("sti": : :"memory");
800	}
801
802	/**************************************************************************
803	* Function : int AM53C974_queue_command(Scsi_Cmnd cmd, void (done)(Scsi_Cmnd *))
804	*
805	* Purpose : writes SCSI command into AM53C974 FIFO
806	*
807	* Inputs : cmd - SCSI command, done - function called on completion, with
808	* a pointer to the command descriptor.
809	*
810	* Returns : status, see hosts.h for details
811	*
812	* Side effects :
813	* cmd is added to the per instance issue_queue, with minor
814	* twiddling done to the host specific fields of cmd. If the
815	* main coroutine is not running, it is restarted.
816	**************************************************************************/
817	int AM53C974_queue_command(Scsi_Cmnd cmd, void (done)(Scsi_Cmnd *))
818	{
819	struct Scsi_Host *instance = cmd->host;
820	struct AM53C974_hostdata hostdata = (struct AM53C974_hostdata )instance->hostdata;
821	Scsi_Cmnd *tmp;
822
823	cli()__asm__ __volatile__ ("cli": : :"memory");
824	DEB_QUEUE(printk(SEPARATOR_LINE));
825	DEB_QUEUE(printk("scsi%d: AM53C974_queue_command called\n", instance->host_no));
826	DEB_QUEUE(printk("cmd=%02x target=%02x lun=%02x bufflen=%d use_sg = %02x\n",
827	cmd->cmnd[0], cmd->target, cmd->lun, cmd->request_bufflen, cmd->use_sg));
828
829	/* We use the host_scribble field as a pointer to the next command in a queue */
830	cmd->host_scribble = NULL((void *) 0);
831	cmd->scsi_done = done;
832	cmd->result = 0;
833	cmd->device->disconnect = 0;
834
835	/* Insert the cmd into the issue queue. Note that REQUEST SENSE
836	* commands are added to the head of the queue since any command will
837	* clear the contingent allegiance condition that exists and the
838	* sense data is only guaranteed to be valid while the condition exists. */
839	if (!(hostdata->issue_queue) \|\| (cmd->cmnd[0] == REQUEST_SENSE0x03)) {
840	LIST(cmd, hostdata->issue_queue);
841	cmd->host_scribble = (unsigned char *)hostdata->issue_queue;
842	hostdata->issue_queue = cmd; }
843	else {
844	for (tmp = (Scsi_Cmnd *)hostdata->issue_queue; tmp->host_scribble;
845	tmp = (Scsi_Cmnd *)tmp->host_scribble);
846	LIST(cmd, tmp);
847	tmp->host_scribble = (unsigned char *)cmd; }
848
849	DEB_QUEUE(printk("scsi%d : command added to %s of queue\n", instance->host_no,
850	(cmd->cmnd[0] == REQUEST_SENSE) ? "head" : "tail"));
851
852	/* Run the coroutine if it isn't already running. */
853	run_main();
854	return 0;
855	}
856
857	/**************************************************************************
858	* Function : AM53C974_main (void)
859	*
860	* Purpose : AM53C974_main is a coroutine that runs as long as more work can
861	* be done on the AM53C974 host adapters in a system. Both
862	* AM53C974_queue_command() and AM53C974_intr() will try to start it
863	* in case it is not running.
864	*
865	* NOTE : AM53C974_main exits with interrupts disabled, the caller should
866	* reenable them. This prevents reentrancy and kernel stack overflow.
867	**************************************************************************/
868	static void AM53C974_main(void)
869	{
870	AM53C974_local_declare()unsigned long io_port;
871	Scsi_Cmnd tmp, prev;
872	struct Scsi_Host *instance;
873	struct AM53C974_hostdata *hostdata;
874	int done;
875
876	/* We run (with interrupts disabled) until we're sure that none of
877	* the host adapters have anything that can be done, at which point
878	* we set main_running to 0 and exit. */
879
880	do {
881	cli()__asm__ __volatile__ ("cli": : :"memory"); /* Freeze request queues */
882	done = 1;
883	for (instance = first_instance; instance && instance->hostt == the_template;
884	instance = instance->next) {
885	hostdata = (struct AM53C974_hostdata *)instance->hostdata;
886	AM53C974_setio(instance)io_port = instance->io_port;
887	/* start to select target if we are not connected and not in the
888	selection process */
889	if (!hostdata->connected && !hostdata->sel_cmd) {
890	/* Search through the issue_queue for a command destined for a target
891	that is not busy. */
892	for (tmp = (Scsi_Cmnd )hostdata->issue_queue, prev = NULL((void ) 0); tmp;
893	prev = tmp, tmp = (Scsi_Cmnd *)tmp->host_scribble) {
894	/* When we find one, remove it from the issue queue. */
895	if (!(hostdata->busy[tmp->target] & (1 << tmp->lun))) {
896	if (prev) {
897	REMOVE(prev, (Scsi_Cmnd *)(prev->host_scribble), tmp,
898	(Scsi_Cmnd *)(tmp->host_scribble));
899	prev->host_scribble = tmp->host_scribble; }
900	else {
901	REMOVE(-1, hostdata->issue_queue, tmp, tmp->host_scribble);
902	hostdata->issue_queue = (Scsi_Cmnd *)tmp->host_scribble; }
903	tmp->host_scribble = NULL((void *) 0);
904
905	/* go into selection mode, disable reselection and wait for
906	SO interrupt which will continue with the selection process */
907	hostdata->selecting = 1;
908	hostdata->sel_cmd = tmp;
909	AM53C974_write_8(CMDREG, CMDREG_DSR)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x45)),(io_port + (0x0C))) : __outb(((0x45)),(io_port + (0x0C))));
910	break;
911	} /* if target/lun is not busy */
912
913	} /* for */
914	} /* if (!hostdata->connected) */
915	else {
916	DEB(printk("main: connected; cmd = 0x%lx, sel_cmd = 0x%lx\n",
917	(long)hostdata->connected, (long)hostdata->sel_cmd));
918	}
919	} /* for instance */
920	} while (!done);
921	main_running = 0;
922	}
923
924	/************************************************************************
925	* Function : AM53C974_intr(int irq, void dev_id, struct pt_regs regs) *
926	* *
927	* Purpose : interrupt handler *
928	* *
929	* Inputs : irq - interrupt line, regs - ? *
930	* *
931	* Returns : nothing *
932	************************************************************************/
933	static void AM53C974_intr(int irq, void dev_id, struct pt_regs regs)
934	{
935	AM53C974_local_declare()unsigned long io_port;
936	struct Scsi_Host *instance;
937	struct AM53C974_hostdata *hostdata;
938	unsigned char cmdreg, dmastatus, statreg, isreg, instreg, cfifo;
939
940	/* find AM53C974 hostadapter responsible for this interrupt */
941	for (instance = first_instance; instance; instance = instance->next)
942	if ((instance->irq == irq) && (instance->hostt == the_template)) goto FOUND;
943	sti()__asm__ __volatile__ ("sti": : :"memory");
944	return;
945
946	/* found; now decode and process */
947	FOUND:
948	hostdata = (struct AM53C974_hostdata *)instance->hostdata;
949	AM53C974_setio(instance)io_port = instance->io_port;
950	dmastatus = AM53C974_read_8(DMASTATUS)((__builtin_constant_p((io_port + (0x54))) && (io_port + (0x54)) < 256) ? __inbc(io_port + (0x54)) : __inb(io_port + (0x54)));
951
952	DEB_INTR(printk(SEPARATOR_LINE));
953	DEB_INTR(printk("AM53C974 interrupt; dmastatus=0x%02x\n", dmastatus));
954	KEYWAIT();
955
956	/* DMA related interrupts */
957	if (hostdata->connected && (dmastatus & (DMASTATUS_ERROR0x02 \| DMASTATUS_PWDN0x02 \|
958	DMASTATUS_ABORT0x04))) {
959	/* DMA error or POWERDOWN */
960	printk("scsi%d: DMA error or powerdown; dmastatus: 0x%02x\n",
961	instance->host_no, dmastatus);
962	#ifdef AM53C974_DEBUG
963	deb_stop = 1;
964	#endif
965	panic("scsi%d: cannot recover\n", instance->host_no); }
966
967	if (hostdata->connected && (dmastatus & DMASTATUS_DONE0x08)) {
968	/* DMA transfer done */
969	unsigned long residual;
970	cli()__asm__ __volatile__ ("cli": : :"memory");
971	if (!(AM53C974_read_8(DMACMD)((__builtin_constant_p((io_port + (0x40))) && (io_port + (0x40)) < 256) ? __inbc(io_port + (0x40)) : __inb(io_port + (0x40))) & DMACMD_DIR0x80)) {
972	do {
973	dmastatus = AM53C974_read_8(DMASTATUS)((__builtin_constant_p((io_port + (0x54))) && (io_port + (0x54)) < 256) ? __inbc(io_port + (0x54)) : __inb(io_port + (0x54)));
974	residual = AM53C974_read_8(CTCLREG)((__builtin_constant_p((io_port + (0x00))) && (io_port + (0x00)) < 256) ? __inbc(io_port + (0x00)) : __inb(io_port + (0x00))) \| (AM53C974_read_8(CTCMREG)((__builtin_constant_p((io_port + (0x04))) && (io_port + (0x04)) < 256) ? __inbc(io_port + (0x04)) : __inb(io_port + (0x04))) << 8) \|
975	(AM53C974_read_8(CTCHREG)((__builtin_constant_p((io_port + (0x38))) && (io_port + (0x38)) < 256) ? __inbc(io_port + (0x38)) : __inb(io_port + (0x38))) << 16);
976	residual += AM53C974_read_8(CFIREG)((__builtin_constant_p((io_port + (0x1C))) && (io_port + (0x1C)) < 256) ? __inbc(io_port + (0x1C)) : __inb(io_port + (0x1C))) & CFIREG_CF0x1F;
977	} while (!(dmastatus & DMASTATUS_SCSIINT0x10) && residual);
978	residual = AM53C974_read_8(CTCLREG)((__builtin_constant_p((io_port + (0x00))) && (io_port + (0x00)) < 256) ? __inbc(io_port + (0x00)) : __inb(io_port + (0x00))) \| (AM53C974_read_8(CTCMREG)((__builtin_constant_p((io_port + (0x04))) && (io_port + (0x04)) < 256) ? __inbc(io_port + (0x04)) : __inb(io_port + (0x04))) << 8) \|
979	(AM53C974_read_8(CTCHREG)((__builtin_constant_p((io_port + (0x38))) && (io_port + (0x38)) < 256) ? __inbc(io_port + (0x38)) : __inb(io_port + (0x38))) << 16);
980	residual += AM53C974_read_8(CFIREG)((__builtin_constant_p((io_port + (0x1C))) && (io_port + (0x1C)) < 256) ? __inbc(io_port + (0x1C)) : __inb(io_port + (0x1C))) & CFIREG_CF0x1F;
981	}
982	else
983	residual = 0;
984	hostdata->connected->SCp.ptr += hostdata->connected->SCp.this_residual - residual;
985	hostdata->connected->SCp.this_residual = residual;
986
987	AM53C974_write_8(DMACMD, DMACMD_IDLE)((__builtin_constant_p((io_port + (0x40))) && (io_port + (0x40)) < 256) ? __outbc(((0x00)),(io_port + (0x40))) : __outb(((0x00)),(io_port + (0x40))));
988
989	/* if service request missed before, process it now (ugly) */
990	if (hostdata->dma_busy) {
991	hostdata->dma_busy = 0;
992	cmdreg = AM53C974_read_8(CMDREG)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __inbc(io_port + (0x0C)) : __inb(io_port + (0x0C)));
993	statreg = AM53C974_read_8(STATREG)((__builtin_constant_p((io_port + (0x10))) && (io_port + (0x10)) < 256) ? __inbc(io_port + (0x10)) : __inb(io_port + (0x10)));
994	isreg = AM53C974_read_8(ISREG)((__builtin_constant_p((io_port + (0x18))) && (io_port + (0x18)) < 256) ? __inbc(io_port + (0x18)) : __inb(io_port + (0x18)));
995	instreg = AM53C974_read_8(INSTREG)((__builtin_constant_p((io_port + (0x14))) && (io_port + (0x14)) < 256) ? __inbc(io_port + (0x14)) : __inb(io_port + (0x14)));
996	cfifo = AM53C974_cfifo()(((__builtin_constant_p((io_port + (0x1C))) && (io_port + (0x1C)) < 256) ? __inbc(io_port + (0x1C)) : __inb(io_port + (0x1C))) & 0x1F);
997	AM53C974_information_transfer(instance, statreg, isreg, instreg, cfifo,
998	dmastatus); }
999	sti()__asm__ __volatile__ ("sti": : :"memory");
1000	}
1001
1002	if (!(dmastatus & DMASTATUS_SCSIINT0x10)) {
1003	sti()__asm__ __volatile__ ("sti": : :"memory");
1004	return; }
1005
1006	/* SCSI related interrupts */
1007	cmdreg = AM53C974_read_8(CMDREG)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __inbc(io_port + (0x0C)) : __inb(io_port + (0x0C)));
1008	statreg = AM53C974_read_8(STATREG)((__builtin_constant_p((io_port + (0x10))) && (io_port + (0x10)) < 256) ? __inbc(io_port + (0x10)) : __inb(io_port + (0x10)));
1009	isreg = AM53C974_read_8(ISREG)((__builtin_constant_p((io_port + (0x18))) && (io_port + (0x18)) < 256) ? __inbc(io_port + (0x18)) : __inb(io_port + (0x18)));
1010	instreg = AM53C974_read_8(INSTREG)((__builtin_constant_p((io_port + (0x14))) && (io_port + (0x14)) < 256) ? __inbc(io_port + (0x14)) : __inb(io_port + (0x14)));
1011	cfifo = AM53C974_cfifo()(((__builtin_constant_p((io_port + (0x1C))) && (io_port + (0x1C)) < 256) ? __inbc(io_port + (0x1C)) : __inb(io_port + (0x1C))) & 0x1F);
1012
1013	DEB_INTR(printk("scsi%d: statreg: 0x%02x; isreg: 0x%02x; instreg: 0x%02x; cfifo: 0x%02x\n",
1014	instance->host_no, statreg, isreg, instreg, cfifo));
1015
1016	if (statreg & STATREG_PE0x20) {
1017	/* parity error */
1018	#ifdef AM53C974_DEBUG
1019	deb_stop = 1;
1020	#endif
1021	printk("scsi%d : PARITY error\n", instance->host_no);
1022	if (hostdata->connected) hostdata->sync_off[hostdata->connected->target] = 0; /* setup asynchronous transfer */
1023	hostdata->aborted = 1; }
1024
1025	if (statreg & STATREG_IOE0x40) {
1026	/* illegal operation error */
1027	#ifdef AM53C974_DEBUG
1028	deb_stop = 1;
1029	#endif
1030	printk("scsi%d : ILLEGAL OPERATION error\n", instance->host_no);
1031	printk("cmdreg: 0x%02x; dmacmd: 0x%02x; statreg: 0x%02x; \n"
1032	"isreg: 0x%02x; instreg: 0x%02x; cfifo: 0x%02x\n",
1033	cmdreg, AM53C974_read_8(DMACMD)((__builtin_constant_p((io_port + (0x40))) && (io_port + (0x40)) < 256) ? __inbc(io_port + (0x40)) : __inb(io_port + (0x40))), statreg, isreg, instreg, cfifo); }
1034	if (hostdata->in_reset && (instreg & INSTREG_SRST0x80)) {
1035	/* RESET INTERRUPT */
1036	#ifdef AM53C974_DEBUG
1037	deb_stop = 1;
1038	#endif
1039	DEB(printk("Bus reset interrupt received\n"));
1040	AM53C974_intr_bus_reset(instance);
1041	cli()__asm__ __volatile__ ("cli": : :"memory");
1042	if (hostdata->connected) {
1043	hostdata->connected->result = DID_RESET0x08 << 16;
1044	hostdata->connected->scsi_done((Scsi_Cmnd *)hostdata->connected);
1045	hostdata->connected = NULL((void *) 0); }
1046	else {
1047	if (hostdata->sel_cmd) {
1048	hostdata->sel_cmd->result = DID_RESET0x08 << 16;
1049	hostdata->sel_cmd->scsi_done((Scsi_Cmnd *)hostdata->sel_cmd);
1050	hostdata->sel_cmd = NULL((void *) 0); }
1051	}
1052	sti()__asm__ __volatile__ ("sti": : :"memory");
1053	if (hostdata->in_reset == 1) goto EXIT;
1054	else return;
1055	}
1056
1057	if (instreg & INSTREG_ICMD0x40) {
1058	/* INVALID COMMAND INTERRUPT */
1059	#ifdef AM53C974_DEBUG
1060	deb_stop = 1;
1061	#endif
1062	printk("scsi%d: Invalid command interrupt\n", instance->host_no);
1063	printk("cmdreg: 0x%02x; dmacmd: 0x%02x; statreg: 0x%02x; dmastatus: 0x%02x; \n"
1064	"isreg: 0x%02x; instreg: 0x%02x; cfifo: 0x%02x\n",
1065	cmdreg, AM53C974_read_8(DMACMD)((__builtin_constant_p((io_port + (0x40))) && (io_port + (0x40)) < 256) ? __inbc(io_port + (0x40)) : __inb(io_port + (0x40))), statreg, dmastatus, isreg, instreg, cfifo);
1066	panic("scsi%d: cannot recover\n", instance->host_no); }
1067
1068	if (instreg & INSTREG_DIS0x20) {
1069	/* DISCONNECT INTERRUPT */
1070	DEB_INTR(printk("Disconnect interrupt received; "));
1071	cli()__asm__ __volatile__ ("cli": : :"memory");
1072	AM53C974_intr_disconnect(instance);
1073	sti()__asm__ __volatile__ ("sti": : :"memory");
1074	goto EXIT; }
1075
1076	if (instreg & INSTREG_RESEL0x04) {
1077	/* RESELECTION INTERRUPT */
1078	DEB_INTR(printk("Reselection interrupt received\n"));
1079	cli()__asm__ __volatile__ ("cli": : :"memory");
1080	AM53C974_intr_reselect(instance, statreg);
1081	sti()__asm__ __volatile__ ("sti": : :"memory");
1082	goto EXIT; }
1083
1084	if (instreg & INSTREG_SO0x08) {
1085	DEB_INTR(printk("Successful operation interrupt received\n"));
1086	if (hostdata->selecting) {
1087	DEB_INTR(printk("DSR completed, starting select\n"));
1088	cli()__asm__ __volatile__ ("cli": : :"memory");
1089	AM53C974_select(instance, (Scsi_Cmnd *)hostdata->sel_cmd,
1090	(hostdata->sel_cmd->cmnd[0] == REQUEST_SENSE0x03) ?
1091	TAG_NONE-2 : TAG_NEXT-1);
1092	hostdata->selecting = 0;
1093	AM53C974_set_sync(instance, hostdata->sel_cmd->target);
1094	sti()__asm__ __volatile__ ("sti": : :"memory");
1095	return; }
1096
1097	if (hostdata->sel_cmd != NULL((void *) 0)) {
1098	if ( ((isreg & ISREG_IS0x07) != ISREG_OK_NO_STOP0x04) &&
1099	((isreg & ISREG_IS0x07) != ISREG_OK_STOP0x01) ) {
1100	/* UNSUCCESSFUL SELECTION */
1101	DEB_INTR(printk("unsuccessful selection\n"));
1102	cli()__asm__ __volatile__ ("cli": : :"memory");
1103	hostdata->dma_busy = 0;
1104	LIST(hostdata->sel_cmd, hostdata->issue_queue);
1105	hostdata->sel_cmd->host_scribble = (unsigned char *)hostdata->issue_queue;
1106	hostdata->issue_queue = hostdata->sel_cmd;
1107	hostdata->sel_cmd = NULL((void *) 0);
1108	hostdata->selecting = 0;
1109	sti()__asm__ __volatile__ ("sti": : :"memory");
1110	goto EXIT; }
1111	else {
1112	/* SUCCESSFUL SELECTION */
1113	DEB(printk("successful selection; cmd=0x%02lx\n", (long)hostdata->sel_cmd));
1114	cli()__asm__ __volatile__ ("cli": : :"memory");
1115	hostdata->dma_busy = 0;
1116	hostdata->disconnecting = 0;
1117	hostdata->connected = hostdata->sel_cmd;
1118	hostdata->sel_cmd = NULL((void *) 0);
1119	hostdata->selecting = 0;
1120	#ifdef SCSI2
1121	if (!hostdata->connected->device->tagged_queue)
1122	#endif
1123	hostdata->busy[hostdata->connected->target] \|= (1 << hostdata->connected->lun);
1124	/* very strange -- use_sg is sometimes nonzero for request sense commands !! */
1125	if ((hostdata->connected->cmnd[0] == REQUEST_SENSE0x03) && hostdata->connected->use_sg) {
1126	DEB(printk("scsi%d: REQUEST_SENSE command with nonzero use_sg\n", instance->host_no));
1127	KEYWAIT();
1128	hostdata->connected->use_sg = 0; }
1129	initialize_SCp((Scsi_Cmnd *)hostdata->connected);
1130	hostdata->connected->SCp.phase = PHASE_CMDOUT0x02;
1131	AM53C974_information_transfer(instance, statreg, isreg, instreg, cfifo, dmastatus);
1132	sti()__asm__ __volatile__ ("sti": : :"memory");
1133	return; }
1134	}
1135	else {
1136	cli()__asm__ __volatile__ ("cli": : :"memory");
1137	AM53C974_information_transfer(instance, statreg, isreg, instreg, cfifo, dmastatus);
1138	sti()__asm__ __volatile__ ("sti": : :"memory");
1139	return; }
1140	}
1141
1142	if (instreg & INSTREG_SR0x10) {
1143	DEB_INTR(printk("Service request interrupt received, "));
1144	if (hostdata->connected) {
1145	DEB_INTR(printk("calling information_transfer\n"));
1146	cli()__asm__ __volatile__ ("cli": : :"memory");
1147	AM53C974_information_transfer(instance, statreg, isreg, instreg, cfifo, dmastatus);
1148	sti()__asm__ __volatile__ ("sti": : :"memory"); }
1149	else {
1150	printk("scsi%d: weird: service request when no command connected\n", instance->host_no);
1151	AM53C974_write_8(CMDREG, CMDREG_CFIFO)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x01)),(io_port + (0x0C))) : __outb(((0x01)),(io_port + (0x0C)))); } /* clear FIFO */
1152	return;
1153	}
1154
1155	EXIT:
1156	DEB_INTR(printk("intr: starting main\n"));
1157	run_main();
1158	DEB_INTR(printk("end of intr\n"));
1159	}
1160
1161	/**************************************************************************
1162	* Function : AM53C974_intr_disconnect(struct Scsi_Host *instance)
1163	*
1164	* Purpose : manage target disconnection
1165	*
1166	* Inputs : instance -- which AM53C974
1167	*
1168	* Returns : nothing
1169	**************************************************************************/
1170	static void AM53C974_intr_disconnect(struct Scsi_Host *instance)
1171	{
1172	AM53C974_local_declare()unsigned long io_port;
1173	struct AM53C974_hostdata hostdata = (struct AM53C974_hostdata )instance->hostdata;
1174	Scsi_Cmnd *cmd;
1175	AM53C974_setio(instance)io_port = instance->io_port;
1176
1177	if (hostdata->sel_cmd != NULL((void *) 0)) {
1178	/* normal selection timeout, typical for nonexisting targets */
1179	cmd = (Scsi_Cmnd *)hostdata->sel_cmd;
1180	DEB_INTR(printk("bad target\n"));
1181	cmd->result = DID_BAD_TARGET0x04 << 16;
1182	goto EXIT_FINISHED; }
1183
1184	if (!hostdata->connected) {
1185	/* can happen if controller was reset, a device tried to reconnect,
1186	failed and disconnects now */
1187	AM53C974_write_8(CMDREG, CMDREG_CFIFO)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x01)),(io_port + (0x0C))) : __outb(((0x01)),(io_port + (0x0C))));
1188	return; }
1189
1190	if (hostdata->disconnecting) {
1191	/* target sent disconnect message, so we are prepared */
1192	cmd = (Scsi_Cmnd *)hostdata->connected;
1193	AM53C974_set_async(instance, cmd->target);
1194	DEB_INTR(printk("scsi%d : disc. from cmnd %d for ta %d, lun %d\n",
1195	instance->host_no, cmd->cmnd[0], cmd->target, cmd->lun));
1196	if (cmd->device->disconnect) {
1197	/* target wants to reselect later */
1198	DEB_INTR(printk("ok, re-enabling selection\n"));
1199	LIST(cmd,hostdata->disconnected_queue);
1200	cmd->host_scribble = (unsigned char *)hostdata->disconnected_queue;
1201	hostdata->disconnected_queue = cmd;
1202	DEB_QUEUE(printk("scsi%d : command for target %d lun %d this %d was moved from connected to"
1203	" the disconnected_queue\n", instance->host_no, cmd->target,
1204	cmd->lun, hostdata->disconnected_queue->SCp.this_residual));
1205	DEB_QUEUE(AM53C974_print_queues(instance));
1206	goto EXIT_UNFINISHED; }
1207	else {
1208	/* target does not want to reselect later, we are really finished */
1209	#ifdef AM53C974_DEBUG
1210	if (cmd->cmnd[0] == REQUEST_SENSE0x03) {
1211	int i;
1212	printk("Request sense data dump:\n");
1213	for (i = 0; i < cmd->request_bufflen; i++) {
1214	printk("%02x ", ((char )(cmd->request_buffer) + i));
1215	if (i && !(i % 16)) printk("\n"); }
1216	printk("\n"); }
1217	#endif
1218	goto EXIT_FINISHED; } /* !cmd->device->disconnect */
1219	} /* if (hostdata->disconnecting) */
1220
1221	/* no disconnect message received; unexpected disconnection */
1222	cmd = (Scsi_Cmnd *)hostdata->connected;
1223	if (cmd) {
1224	#ifdef AM53C974_DEBUG
1225	deb_stop = 1;
1226	#endif
1227	AM53C974_set_async(instance, cmd->target);
1228	printk("scsi%d: Unexpected disconnect; phase: %d; target: %d; this_residual: %d; buffers_residual: %d; message: %d\n",
1229	instance->host_no, cmd->SCp.phase, cmd->target, cmd->SCp.this_residual, cmd->SCp.buffers_residual,
1230	cmd->SCp.Message);
1231	printk("cmdreg: 0x%02x; statreg: 0x%02x; isreg: 0x%02x; cfifo: 0x%02x\n",
1232	AM53C974_read_8(CMDREG)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __inbc(io_port + (0x0C)) : __inb(io_port + (0x0C))), AM53C974_read_8(STATREG)((__builtin_constant_p((io_port + (0x10))) && (io_port + (0x10)) < 256) ? __inbc(io_port + (0x10)) : __inb(io_port + (0x10))), AM53C974_read_8(ISREG)((__builtin_constant_p((io_port + (0x18))) && (io_port + (0x18)) < 256) ? __inbc(io_port + (0x18)) : __inb(io_port + (0x18))),
1233	AM53C974_read_8(CFIREG)((__builtin_constant_p((io_port + (0x1C))) && (io_port + (0x1C)) < 256) ? __inbc(io_port + (0x1C)) : __inb(io_port + (0x1C))) & CFIREG_CF0x1F);
1234
1235	if ((hostdata->last_message[0] == EXTENDED_MESSAGE0x01) &&
1236	(hostdata->last_message[2] == EXTENDED_SDTR0x01)) {
1237	/* sync. negotiation was aborted, setup asynchronous transfer with target */
1238	hostdata->sync_off[cmd->target] = 0; }
1239	if (hostdata->aborted \|\| hostdata->msgout[0] == ABORT0x06)
1240	cmd->result = DID_ABORT0x05 << 16;
1241	else
1242	cmd->result = DID_ERROR0x07 << 16;
1243	goto EXIT_FINISHED; }
1244
1245	EXIT_FINISHED:
1246	hostdata->aborted = 0;
1247	hostdata->msgout[0] = NOP0x08;
1248	hostdata->sel_cmd = NULL((void *) 0);
1249	hostdata->connected = NULL((void *) 0);
1250	hostdata->selecting = 0;
1251	hostdata->disconnecting = 0;
1252	hostdata->dma_busy = 0;
1253	hostdata->busy[cmd->target] &= ~(1 << cmd->lun);
1254	AM53C974_write_8(CMDREG, CMDREG_CFIFO)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x01)),(io_port + (0x0C))) : __outb(((0x01)),(io_port + (0x0C))));
1255	DEB(printk("disconnect; issue_queue: 0x%lx, disconnected_queue: 0x%lx\n",
1256	(long)hostdata->issue_queue, (long)hostdata->disconnected_queue));
1257	cmd->scsi_done(cmd);
1258
1259	if (!hostdata->selecting) {
1260	AM53C974_set_async(instance, cmd->target);
1261	AM53C974_write_8(CMDREG, CMDREG_ESR)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x44)),(io_port + (0x0C))) : __outb(((0x44)),(io_port + (0x0C)))); } /* allow reselect */
1262	return;
1263
1264	EXIT_UNFINISHED:
1265	hostdata->msgout[0] = NOP0x08;
1266	hostdata->sel_cmd = NULL((void *) 0);
1267	hostdata->connected = NULL((void *) 0);
1268	hostdata->aborted = 0;
1269	hostdata->selecting = 0;
1270	hostdata->disconnecting = 0;
1271	hostdata->dma_busy = 0;
1272	DEB(printk("disconnect; issue_queue: 0x%lx, disconnected_queue: 0x%lx\n",
1273	(long)hostdata->issue_queue, (long)hostdata->disconnected_queue));
1274	if (!hostdata->selecting) {
1275	AM53C974_set_async(instance, cmd->target);
1276	AM53C974_write_8(CMDREG, CMDREG_ESR)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x44)),(io_port + (0x0C))) : __outb(((0x44)),(io_port + (0x0C)))); } /* allow reselect */
1277	return;
1278	}
1279
1280	/**************************************************************************
1281	* Function : int AM53C974_sync_neg(struct Scsi_Host instance, int target, unsigned char msg)
1282	*
1283	* Purpose : setup message string for sync. negotiation
1284	*
1285	* Inputs : instance -- which AM53C974
1286	* target -- which SCSI target to deal with
1287	* msg -- input message string
1288	*
1289	* Returns : 0 if parameters accepted or 1 if not accepted
1290	*
1291	* Side effects: hostdata is changed
1292	*
1293	* Note: we assume here that fastclk is enabled
1294	**************************************************************************/
1295	static int AM53C974_sync_neg(struct Scsi_Host instance, int target, unsigned char msg)
1296	{
1297	AM53C974_local_declare()unsigned long io_port;
1298	struct AM53C974_hostdata hostdata = (struct AM53C974_hostdata )instance->hostdata;
1299	int period, offset, i, rate, rate_rem;
1300	AM53C974_setio(instance)io_port = instance->io_port;
1301
1302	period = (DEF_CLK40 * msg[3] * 8 + 1000) / 2000;
1303	if (period < MIN_PERIOD4) {
1304	period = MIN_PERIOD4;
1305	hostdata->msgout[3] = period / 4; }
1306	else
1307	if (period > MAX_PERIOD13) {
1308	period = MAX_PERIOD13;
1309	hostdata->msgout[3] = period / 4; }
1310	else
1311	hostdata->msgout[3] = msg[3];
1312	offset = msg[4];
1313	if (offset > MAX_OFFSET15) offset = MAX_OFFSET15;
1314	hostdata->msgout[4] = offset;
1315	hostdata->sync_per[target] = period;
1316	hostdata->sync_off[target] = offset;
1317	for (i = 0; i < 3; i++) hostdata->msgout[i] = msg[i];
1318	if ((hostdata->msgout[3] != msg[3]) \|\| (msg[4] != offset)) return(1);
1319
1320	rate = DEF_CLK40 / period;
1321	rate_rem = 10 * (DEF_CLK40 - period * rate) / period;
1322
1323	if (offset)
1324	printk("\ntarget %d: rate=%d.%d Mhz, synchronous, sync offset=%d bytes\n",
1325	target, rate, rate_rem, offset);
1326	else
1327	printk("\ntarget %d: rate=%d.%d Mhz, asynchronous\n", target, rate, rate_rem);
1328
1329	return(0);
1330	}
1331
1332	/**************************************************************************
1333	* Function : AM53C974_set_async(struct Scsi_Host *instance, int target)
1334	*
1335	* Purpose : put controller into async. mode
1336	*
1337	* Inputs : instance -- which AM53C974
1338	* target -- which SCSI target to deal with
1339	*
1340	* Returns : nothing
1341	**************************************************************************/
1342	static __inline____inline__ __attribute__((always_inline)) void AM53C974_set_async(struct Scsi_Host *instance, int target)
1343	{
1344	AM53C974_local_declare()unsigned long io_port;
1345	struct AM53C974_hostdata hostdata = (struct AM53C974_hostdata )instance->hostdata;
1346	AM53C974_setio(instance)io_port = instance->io_port;
1347
1348	AM53C974_write_8(STPREG, hostdata->sync_per[target])((__builtin_constant_p((io_port + (0x18))) && (io_port + (0x18)) < 256) ? __outbc(((hostdata->sync_per[target ])),(io_port + (0x18))) : __outb(((hostdata->sync_per[target ])),(io_port + (0x18))));
1349	AM53C974_write_8(SOFREG, (DEF_SOF_RAD<<6) \| (DEF_SOF_RAA<<4))((__builtin_constant_p((io_port + (0x1C))) && (io_port + (0x1C)) < 256) ? __outbc((((0<<6) \| (0<<4)) ),(io_port + (0x1C))) : __outb((((0<<6) \| (0<<4)) ),(io_port + (0x1C))));
1350	}
1351
1352	/**************************************************************************
1353	* Function : AM53C974_set_sync(struct Scsi_Host *instance, int target)
1354	*
1355	* Purpose : put controller into sync. mode
1356	*
1357	* Inputs : instance -- which AM53C974
1358	* target -- which SCSI target to deal with
1359	*
1360	* Returns : nothing
1361	**************************************************************************/
1362	static __inline____inline__ __attribute__((always_inline)) void AM53C974_set_sync(struct Scsi_Host *instance, int target)
1363	{
1364	AM53C974_local_declare()unsigned long io_port;
1365	struct AM53C974_hostdata hostdata = (struct AM53C974_hostdata )instance->hostdata;
1366	AM53C974_setio(instance)io_port = instance->io_port;
1367
1368	AM53C974_write_8(STPREG, hostdata->sync_per[target])((__builtin_constant_p((io_port + (0x18))) && (io_port + (0x18)) < 256) ? __outbc(((hostdata->sync_per[target ])),(io_port + (0x18))) : __outb(((hostdata->sync_per[target ])),(io_port + (0x18))));
1369	AM53C974_write_8(SOFREG, (SOFREG_SO & hostdata->sync_off[target]) \|((__builtin_constant_p((io_port + (0x1C))) && (io_port + (0x1C)) < 256) ? __outbc((((0x0F & hostdata->sync_off [target]) \| (0<<6) \| (0<<4))),(io_port + (0x1C))) : __outb((((0x0F & hostdata->sync_off[target]) \| (0<< 6) \| (0<<4))),(io_port + (0x1C))))
1370	(DEF_SOF_RAD<<6) \| (DEF_SOF_RAA<<4))((__builtin_constant_p((io_port + (0x1C))) && (io_port + (0x1C)) < 256) ? __outbc((((0x0F & hostdata->sync_off [target]) \| (0<<6) \| (0<<4))),(io_port + (0x1C))) : __outb((((0x0F & hostdata->sync_off[target]) \| (0<< 6) \| (0<<4))),(io_port + (0x1C))));
1371	}
1372
1373	/***********************************************************************
1374	* Function : AM53C974_information_transfer(struct Scsi_Host instance,
1375	* unsigned char statreg, unsigned char isreg, *
1376	* unsigned char instreg, unsigned char cfifo, *
1377	* unsigned char dmastatus) *
1378	* *
1379	* Purpose : handle phase changes *
1380	* *
1381	* Inputs : instance - which AM53C974 *
1382	* statreg - status register *
1383	* isreg - internal state register *
1384	* instreg - interrupt status register *
1385	* cfifo - number of bytes in FIFO *
1386	* dmastatus - dma status register *
1387	* *
1388	* Returns : nothing *
1389	************************************************************************/
1390	static void AM53C974_information_transfer(struct Scsi_Host *instance,
1391	unsigned char statreg, unsigned char isreg,
1392	unsigned char instreg, unsigned char cfifo,
1393	unsigned char dmastatus)
1394	{
1395	AM53C974_local_declare()unsigned long io_port;
1396	struct AM53C974_hostdata hostdata = (struct AM53C974_hostdata )instance->hostdata;
1397	Scsi_Cmnd cmd = (Scsi_Cmnd )hostdata->connected;
1398	int ret, i, len, residual=-1;
1399	AM53C974_setio(instance)io_port = instance->io_port;
1400
1401	DEB_INFO(printk(SEPARATOR_LINE));
1402	switch (statreg & STATREG_PHASE0x07) { /* scsi phase */
1403	case PHASE_DATAOUT0x00:
1404	DEB_INFO(printk("Dataout phase; cmd=0x%lx, sel_cmd=0x%lx, this_residual=%d, buffers_residual=%d\n",
1405	(long)hostdata->connected, (long)hostdata->sel_cmd, cmd->SCp.this_residual, cmd->SCp.buffers_residual));
1406	cmd->SCp.phase = PHASE_DATAOUT0x00;
1407	goto PHASE_DATA_IO;
1408
1409	case PHASE_DATAIN0x01:
1410	DEB_INFO(printk("Datain phase; cmd=0x%lx, sel_cmd=0x%lx, this_residual=%d, buffers_residual=%d\n",
1411	(long)hostdata->connected, (long)hostdata->sel_cmd, cmd->SCp.this_residual, cmd->SCp.buffers_residual));
1412	cmd->SCp.phase = PHASE_DATAIN0x01;
1413	PHASE_DATA_IO:
1414	if (hostdata->aborted) {
1415	AM53C974_write_8(DMACMD, DMACMD_IDLE)((__builtin_constant_p((io_port + (0x40))) && (io_port + (0x40)) < 256) ? __outbc(((0x00)),(io_port + (0x40))) : __outb(((0x00)),(io_port + (0x40))));
1416	AM53C974_write_8(CMDREG, CMDREG_CFIFO)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x01)),(io_port + (0x0C))) : __outb(((0x01)),(io_port + (0x0C))));
1417	AM53C974_write_8(CMDREG, CMDREG_SATN)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x1A)),(io_port + (0x0C))) : __outb(((0x1A)),(io_port + (0x0C))));
1418	return; }
1419	if ((!cmd->SCp.this_residual) && cmd->SCp.buffers_residual) {
1420	cmd->SCp.buffer++;
1421	cmd->SCp.buffers_residual--;
1422	cmd->SCp.ptr = (unsigned char *)cmd->SCp.buffer->address;
1423	cmd->SCp.this_residual = cmd->SCp.buffer->length; }
1424	if (cmd->SCp.this_residual) {
1425	if (!(AM53C974_read_8(DMACMD)((__builtin_constant_p((io_port + (0x40))) && (io_port + (0x40)) < 256) ? __inbc(io_port + (0x40)) : __inb(io_port + (0x40))) & DMACMD_START0x03)) {
1426	hostdata->dma_busy = 0;
1427	AM53C974_transfer_dma(instance, statreg & STATREG_IO0x01,
1428	(unsigned long)cmd->SCp.this_residual,
1429	cmd->SCp.ptr); }
1430	else
1431	hostdata->dma_busy = 1;
1432	}
1433	return;
1434
1435	case PHASE_MSGIN0x07:
1436	DEB_INFO(printk("Message-In phase; cmd=0x%lx, sel_cmd=0x%lx\n",
1437	(long)hostdata->connected, (long)hostdata->sel_cmd));
1438	AM53C974_set_async(instance, cmd->target);
1439	if (cmd->SCp.phase == PHASE_DATAIN0x01)
1440	AM53C974_dma_blast(instance, dmastatus, statreg);
1441	if ((cmd->SCp.phase == PHASE_DATAOUT0x00) && (AM53C974_read_8(DMACMD)((__builtin_constant_p((io_port + (0x40))) && (io_port + (0x40)) < 256) ? __inbc(io_port + (0x40)) : __inb(io_port + (0x40))) & DMACMD_START0x03)) {
1442	AM53C974_write_8(DMACMD, DMACMD_IDLE)((__builtin_constant_p((io_port + (0x40))) && (io_port + (0x40)) < 256) ? __outbc(((0x00)),(io_port + (0x40))) : __outb(((0x00)),(io_port + (0x40))));
1443	residual = cfifo + (AM53C974_read_8(CTCLREG)((__builtin_constant_p((io_port + (0x00))) && (io_port + (0x00)) < 256) ? __inbc(io_port + (0x00)) : __inb(io_port + (0x00))) \| (AM53C974_read_8(CTCMREG)((__builtin_constant_p((io_port + (0x04))) && (io_port + (0x04)) < 256) ? __inbc(io_port + (0x04)) : __inb(io_port + (0x04))) << 8) \|
1444	(AM53C974_read_8(CTCHREG)((__builtin_constant_p((io_port + (0x38))) && (io_port + (0x38)) < 256) ? __inbc(io_port + (0x38)) : __inb(io_port + (0x38))) << 16));
1445	cmd->SCp.ptr += cmd->SCp.this_residual - residual;
1446	cmd->SCp.this_residual = residual;
1447	if (cfifo) { AM53C974_write_8(CMDREG, CMDREG_CFIFO)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x01)),(io_port + (0x0C))) : __outb(((0x01)),(io_port + (0x0C)))); cfifo = 0; }
1448	}
1449	if (cmd->SCp.phase == PHASE_STATIN0x03) {
1450	while ((AM53C974_read_8(CFIREG)((__builtin_constant_p((io_port + (0x1C))) && (io_port + (0x1C)) < 256) ? __inbc(io_port + (0x1C)) : __inb(io_port + (0x1C))) & CFIREG_CF0x1F) < 2) ;
1451	cmd->SCp.Status = AM53C974_read_8(FFREG)((__builtin_constant_p((io_port + (0x08))) && (io_port + (0x08)) < 256) ? __inbc(io_port + (0x08)) : __inb(io_port + (0x08)));
1452	cmd->SCp.Message = AM53C974_read_8(FFREG)((__builtin_constant_p((io_port + (0x08))) && (io_port + (0x08)) < 256) ? __inbc(io_port + (0x08)) : __inb(io_port + (0x08)));
1453	DEB_INFO(printk("Message-In phase; status=0x%02x, message=0x%02x\n",
1454	cmd->SCp.Status, cmd->SCp.Message));
1455	ret = AM53C974_message(instance, cmd, cmd->SCp.Message); }
	Value stored to 'ret' is never read
1456	else {
1457	if (!cfifo) {
1458	AM53C974_write_8(CMDREG, CMDREG_IT)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x10)),(io_port + (0x0C))) : __outb(((0x10)),(io_port + (0x0C))));
1459	AM53C974_poll_int(){ do { statreg = ((__builtin_constant_p((io_port + (0x10))) && (io_port + (0x10)) < 256) ? __inbc(io_port + (0x10)) : __inb (io_port + (0x10))); } while (!(statreg & 0x80)) ; ((__builtin_constant_p ((io_port + (0x14))) && (io_port + (0x14)) < 256) ? __inbc(io_port + (0x14)) : __inb(io_port + (0x14))) ; };
1460	cmd->SCp.Message = AM53C974_read_8(FFREG)((__builtin_constant_p((io_port + (0x08))) && (io_port + (0x08)) < 256) ? __inbc(io_port + (0x08)) : __inb(io_port + (0x08)));
1461	}
1462	ret = AM53C974_message(instance, cmd, cmd->SCp.Message);
1463	}
1464	cmd->SCp.phase = PHASE_MSGIN0x07;
1465	AM53C974_set_sync(instance, cmd->target);
1466	break;
1467	case PHASE_MSGOUT0x06:
1468	DEB_INFO(printk("Message-Out phase; cfifo=%d; msgout[0]=0x%02x\n",
1469	AM53C974_read_8(CFIREG) & CFIREG_CF, hostdata->msgout[0]));
1470	AM53C974_write_8(DMACMD, DMACMD_IDLE)((__builtin_constant_p((io_port + (0x40))) && (io_port + (0x40)) < 256) ? __outbc(((0x00)),(io_port + (0x40))) : __outb(((0x00)),(io_port + (0x40))));
1471	AM53C974_set_async(instance, cmd->target);
1472	for (i = 0; i < sizeof(hostdata->last_message); i++)
1473	hostdata->last_message[i] = hostdata->msgout[i];
1474	if ((hostdata->msgout[0] == 0) \|\| INSIDE(hostdata->msgout[0], 0x02, 0x1F)( ((hostdata->msgout[0]) >= (0x02)) && ((hostdata ->msgout[0]) <= (0x1F)) ) \|\|
1475	INSIDE(hostdata->msgout[0], 0x80, 0xFF)( ((hostdata->msgout[0]) >= (0x80)) && ((hostdata ->msgout[0]) <= (0xFF)) ))
1476	len = 1;
1477	else {
1478	if (hostdata->msgout[0] == EXTENDED_MESSAGE0x01) {
1479	#ifdef AM53C974_DEBUG_INFO
1480	printk("Extended message dump:\n");
1481	for (i = 0; i < hostdata->msgout[1] + 2; i++) {
1482	printk("%02x ", hostdata->msgout[i]);
1483	if (i && !(i % 16)) printk("\n"); }
1484	printk("\n");
1485	#endif
1486	len = hostdata->msgout[1] + 2; }
1487	else
1488	len = 2;
1489	}
1490	for (i = 0; i < len; i++) AM53C974_write_8(FFREG, hostdata->msgout[i])((__builtin_constant_p((io_port + (0x08))) && (io_port + (0x08)) < 256) ? __outbc(((hostdata->msgout[i])),(io_port + (0x08))) : __outb(((hostdata->msgout[i])),(io_port + (0x08 ))));
1491	AM53C974_write_8(CMDREG, CMDREG_IT)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x10)),(io_port + (0x0C))) : __outb(((0x10)),(io_port + (0x0C))));
1492	cmd->SCp.phase = PHASE_MSGOUT0x06;
1493	hostdata->msgout[0] = NOP0x08;
1494	AM53C974_set_sync(instance, cmd->target);
1495	break;
1496
1497	case PHASE_CMDOUT0x02:
1498	DEB_INFO(printk("Command-Out phase\n"));
1499	AM53C974_set_async(instance, cmd->target);
1500	for (i = 0; i < cmd->cmd_len; i++) AM53C974_write_8(FFREG, cmd->cmnd[i])((__builtin_constant_p((io_port + (0x08))) && (io_port + (0x08)) < 256) ? __outbc(((cmd->cmnd[i])),(io_port + (0x08))) : __outb(((cmd->cmnd[i])),(io_port + (0x08))));
1501	AM53C974_write_8(CMDREG, CMDREG_IT)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x10)),(io_port + (0x0C))) : __outb(((0x10)),(io_port + (0x0C))));
1502	cmd->SCp.phase = PHASE_CMDOUT0x02;
1503	AM53C974_set_sync(instance, cmd->target);
1504	break;
1505
1506	case PHASE_STATIN0x03:
1507	DEB_INFO(printk("Status phase\n"));
1508	if (cmd->SCp.phase == PHASE_DATAIN0x01)
1509	AM53C974_dma_blast(instance, dmastatus, statreg);
1510	AM53C974_set_async(instance, cmd->target);
1511	if (cmd->SCp.phase == PHASE_DATAOUT0x00) {
1512	unsigned long residual;
1513
1514	if (AM53C974_read_8(DMACMD)((__builtin_constant_p((io_port + (0x40))) && (io_port + (0x40)) < 256) ? __inbc(io_port + (0x40)) : __inb(io_port + (0x40))) & DMACMD_START0x03) {
1515	AM53C974_write_8(DMACMD, DMACMD_IDLE)((__builtin_constant_p((io_port + (0x40))) && (io_port + (0x40)) < 256) ? __outbc(((0x00)),(io_port + (0x40))) : __outb(((0x00)),(io_port + (0x40))));
1516	residual = cfifo + (AM53C974_read_8(CTCLREG)((__builtin_constant_p((io_port + (0x00))) && (io_port + (0x00)) < 256) ? __inbc(io_port + (0x00)) : __inb(io_port + (0x00))) \| (AM53C974_read_8(CTCMREG)((__builtin_constant_p((io_port + (0x04))) && (io_port + (0x04)) < 256) ? __inbc(io_port + (0x04)) : __inb(io_port + (0x04))) << 8) \|
1517	(AM53C974_read_8(CTCHREG)((__builtin_constant_p((io_port + (0x38))) && (io_port + (0x38)) < 256) ? __inbc(io_port + (0x38)) : __inb(io_port + (0x38))) << 16));
1518	cmd->SCp.ptr += cmd->SCp.this_residual - residual;
1519	cmd->SCp.this_residual = residual; }
1520	if (cfifo) { AM53C974_write_8(CMDREG, CMDREG_CFIFO)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x01)),(io_port + (0x0C))) : __outb(((0x01)),(io_port + (0x0C)))); cfifo = 0; }
1521	}
1522	cmd->SCp.phase = PHASE_STATIN0x03;
1523	AM53C974_write_8(CMDREG, CMDREG_ICCS)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x11)),(io_port + (0x0C))) : __outb(((0x11)),(io_port + (0x0C)))); /* command complete */
1524	break;
1525
1526	case PHASE_RES_00x04:
1527	case PHASE_RES_10x05:
1528	#ifdef AM53C974_DEBUG
1529	deb_stop = 1;
1530	#endif
1531	DEB_INFO(printk("Reserved phase\n"));
1532	break;
1533	}
1534	KEYWAIT();
1535	}
1536
1537	/******************************************************************************
1538	* Function : int AM53C974_message(struct Scsi_Host instance, Scsi_Cmnd cmd,
1539	* unsigned char msg)
1540	*
1541	* Purpose : handle SCSI messages
1542	*
1543	* Inputs : instance -- which AM53C974
1544	* cmd -- SCSI command the message belongs to
1545	* msg -- message id byte
1546	*
1547	* Returns : 1 on success, 0 on failure.
1548	**************************************************************************/
1549	static int AM53C974_message(struct Scsi_Host instance, Scsi_Cmnd cmd,
1550	unsigned char msg)
1551	{
1552	AM53C974_local_declare()unsigned long io_port;
1553	static unsigned char extended_msg[10];
1554	unsigned char statreg;
1555	int len, ret = 0;
1556	unsigned char *p;
1557	#ifdef AM53C974_DEBUG_MSG
1558	int j;
1559	#endif
1560	struct AM53C974_hostdata hostdata = (struct AM53C974_hostdata )instance->hostdata;
1561	AM53C974_setio(instance)io_port = instance->io_port;
1562
1563	DEB_MSG(printk(SEPARATOR_LINE));
1564
1565	/* Linking lets us reduce the time required to get the
1566	* next command out to the device, hopefully this will
1567	* mean we don't waste another revolution due to the delays
1568	* required by ARBITRATION and another SELECTION.
1569	* In the current implementation proposal, low level drivers
1570	* merely have to start the next command, pointed to by
1571	* next_link, done() is called as with unlinked commands. */
1572	switch (msg) {
1573	#ifdef LINKED
1574	case LINKED_CMD_COMPLETE0x0a:
1575	case LINKED_FLG_CMD_COMPLETE0x0b:
1576	/* Accept message by releasing ACK */
1577	DEB_LINKED(printk("scsi%d : target %d lun %d linked command complete.\n",
1578	instance->host_no, cmd->target, cmd->lun));
1579	/* Sanity check : A linked command should only terminate with
1580	* one of these messages if there are more linked commands available. */
1581	if (!cmd->next_link) {
1582	printk("scsi%d : target %d lun %d linked command complete, no next_link\n"
1583	instance->host_no, cmd->target, cmd->lun);
1584	hostdata->aborted = 1;
1585	AM53C974_write_8(CMDREG, CMDREG_SATN)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x1A)),(io_port + (0x0C))) : __outb(((0x1A)),(io_port + (0x0C))));
1586	AM53C974_write_8(CMDREG, CMDREG_MA)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x12)),(io_port + (0x0C))) : __outb(((0x12)),(io_port + (0x0C))));
1587	break; }
1588	if (hostdata->aborted) {
1589	DEB_ABORT(printk("ATN set for cmnd %d upon reception of LINKED_CMD_COMPLETE or"printk("ATN set for cmnd %d upon reception of LINKED_CMD_COMPLETE or" "LINKED_FLG_CMD_COMPLETE message\n", cmd->cmnd[0])
1590	"LINKED_FLG_CMD_COMPLETE message\n", cmd->cmnd[0]))printk("ATN set for cmnd %d upon reception of LINKED_CMD_COMPLETE or" "LINKED_FLG_CMD_COMPLETE message\n", cmd->cmnd[0]);
1591	AM53C974_write_8(CMDREG, CMDREG_SATN)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x1A)),(io_port + (0x0C))) : __outb(((0x1A)),(io_port + (0x0C)))); }
1592	AM53C974_write_8(CMDREG, CMDREG_MA)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x12)),(io_port + (0x0C))) : __outb(((0x12)),(io_port + (0x0C))));
1593
1594	initialize_SCp(cmd->next_link);
1595	/* The next command is still part of this process */
1596	cmd->next_link->tag = cmd->tag;
1597	cmd->result = cmd->SCp.Status \| (cmd->SCp.Message << 8);
1598	DEB_LINKED(printk("scsi%d : target %d lun %d linked request done, calling scsi_done().\n",
1599	instance->host_no, cmd->target, cmd->lun));
1600	cmd->scsi_done(cmd);
1601	cmd = hostdata->connected;
1602	break;
1603
1604	#endif /* def LINKED */
1605
1606	case ABORT0x06:
1607	case COMMAND_COMPLETE0x00:
1608	DEB_MSG(printk("scsi%d: command complete message received; cmd %d for target %d, lun %d\n",
1609	instance->host_no, cmd->cmnd[0], cmd->target, cmd->lun));
1610	hostdata->disconnecting = 1;
1611	cmd->device->disconnect = 0;
1612
1613	/* I'm not sure what the correct thing to do here is :
1614	*
1615	* If the command that just executed is NOT a request
1616	* sense, the obvious thing to do is to set the result
1617	* code to the values of the stored parameters.
1618	* If it was a REQUEST SENSE command, we need some way
1619	* to differentiate between the failure code of the original
1620	* and the failure code of the REQUEST sense - the obvious
1621	* case is success, where we fall through and leave the result
1622	* code unchanged.
1623	*
1624	* The non-obvious place is where the REQUEST SENSE failed */
1625	if (cmd->cmnd[0] != REQUEST_SENSE0x03)
1626	cmd->result = cmd->SCp.Status \| (cmd->SCp.Message << 8);
1627	else if (cmd->SCp.Status != GOOD0x00)
1628	cmd->result = (cmd->result & 0x00ffff) \| (DID_ERROR0x07 << 16);
1629	if (hostdata->aborted) {
1630	AM53C974_write_8(CMDREG, CMDREG_SATN)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x1A)),(io_port + (0x0C))) : __outb(((0x1A)),(io_port + (0x0C))));
1631	AM53C974_write_8(CMDREG, CMDREG_MA)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x12)),(io_port + (0x0C))) : __outb(((0x12)),(io_port + (0x0C))));
1632	DEB_ABORT(printk("ATN set for cmnd %d upon reception of ABORT or"printk("ATN set for cmnd %d upon reception of ABORT or" "COMMAND_COMPLETE message\n" , cmd->cmnd[0])
1633	"COMMAND_COMPLETE message\n", cmd->cmnd[0]))printk("ATN set for cmnd %d upon reception of ABORT or" "COMMAND_COMPLETE message\n" , cmd->cmnd[0]);
1634	break; }
1635	if ((cmd->cmnd[0] != REQUEST_SENSE0x03) && (cmd->SCp.Status == CHECK_CONDITION0x01)) {
1636	DEB_MSG(printk("scsi%d : performing request sense\n", instance->host_no));
1637	cmd->cmnd[0] = REQUEST_SENSE0x03;
1638	cmd->cmnd[1] &= 0xe0;
1639	cmd->cmnd[2] = 0;
1640	cmd->cmnd[3] = 0;
1641	cmd->cmnd[4] = sizeof(cmd->sense_buffer);
1642	cmd->cmnd[5] = 0;
1643	cmd->SCp.buffer = NULL((void *) 0);
1644	cmd->SCp.buffers_residual = 0;
1645	cmd->SCp.ptr = (char *)cmd->sense_buffer;
1646	cmd->SCp.this_residual = sizeof(cmd->sense_buffer);
1647	LIST(cmd,hostdata->issue_queue);
1648	cmd->host_scribble = (unsigned char *)hostdata->issue_queue;
1649	hostdata->issue_queue = (Scsi_Cmnd *)cmd;
1650	DEB_MSG(printk("scsi%d : REQUEST SENSE added to head of issue queue\n",instance->host_no));
1651	}
1652
1653	/* Accept message by clearing ACK */
1654	AM53C974_write_8(CMDREG, CMDREG_MA)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x12)),(io_port + (0x0C))) : __outb(((0x12)),(io_port + (0x0C))));
1655	break;
1656
1657	case MESSAGE_REJECT0x07:
1658	DEB_MSG(printk("scsi%d: reject message received; cmd %d for target %d, lun %d\n",
1659	instance->host_no, cmd->cmnd[0], cmd->target, cmd->lun));
1660	switch (hostdata->last_message[0]) {
1661	case EXTENDED_MESSAGE0x01:
1662	if (hostdata->last_message[2] == EXTENDED_SDTR0x01) {
1663	/* sync. negotiation was rejected, setup asynchronous transfer with target */
1664	printk("\ntarget %d: rate=%d Mhz, asynchronous (sync. negotiation rejected)\n",
1665	cmd->target, DEF_CLK40 / DEF_STP8);
1666	hostdata->sync_off[cmd->target] = 0;
1667	hostdata->sync_per[cmd->target] = DEF_STP8; }
1668	break;
1669	case HEAD_OF_QUEUE_TAG0x21:
1670	case ORDERED_QUEUE_TAG0x22:
1671	case SIMPLE_QUEUE_TAG0x20:
1672	cmd->device->tagged_queue = 0;
1673	hostdata->busy[cmd->target] \|= (1 << cmd->lun);
1674	break;
1675	default:
1676	break;
1677	}
1678	if (hostdata->aborted) AM53C974_write_8(CMDREG, CMDREG_SATN)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x1A)),(io_port + (0x0C))) : __outb(((0x1A)),(io_port + (0x0C))));
1679	AM53C974_write_8(CMDREG, CMDREG_MA)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x12)),(io_port + (0x0C))) : __outb(((0x12)),(io_port + (0x0C))));
1680	break;
1681
1682	case DISCONNECT0x04:
1683	DEB_MSG(printk("scsi%d: disconnect message received; cmd %d for target %d, lun %d\n",
1684	instance->host_no, cmd->cmnd[0], cmd->target, cmd->lun));
1685	cmd->device->disconnect = 1;
1686	hostdata->disconnecting = 1;
1687	AM53C974_write_8(CMDREG, CMDREG_MA)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x12)),(io_port + (0x0C))) : __outb(((0x12)),(io_port + (0x0C)))); /* Accept message by clearing ACK */
1688	break;
1689
1690	case SAVE_POINTERS0x02:
1691	case RESTORE_POINTERS0x03:
1692	DEB_MSG(printk("scsi%d: save/restore pointers message received; cmd %d for target %d, lun %d\n",
1693	instance->host_no, cmd->cmnd[0], cmd->target, cmd->lun));
1694	/* The SCSI data pointer is IMPLICITLY saved on a disconnect
1695	* operation, in violation of the SCSI spec so we can safely
1696	* ignore SAVE/RESTORE pointers calls.
1697	*
1698	* Unfortunately, some disks violate the SCSI spec and
1699	* don't issue the required SAVE_POINTERS message before
1700	* disconnecting, and we have to break spec to remain
1701	* compatible. */
1702	if (hostdata->aborted) {
1703	DEB_ABORT(printk("ATN set for cmnd %d upon reception of SAVE/REST. POINTERS message\n",printk("ATN set for cmnd %d upon reception of SAVE/REST. POINTERS message\n" , cmd->cmnd[0])
1704	cmd->cmnd[0]))printk("ATN set for cmnd %d upon reception of SAVE/REST. POINTERS message\n" , cmd->cmnd[0]);
1705	AM53C974_write_8(CMDREG, CMDREG_SATN)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x1A)),(io_port + (0x0C))) : __outb(((0x1A)),(io_port + (0x0C)))); }
1706	AM53C974_write_8(CMDREG, CMDREG_MA)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x12)),(io_port + (0x0C))) : __outb(((0x12)),(io_port + (0x0C))));
1707	break;
1708
1709	case EXTENDED_MESSAGE0x01:
1710	DEB_MSG(printk("scsi%d: extended message received; cmd %d for target %d, lun %d\n",
1711	instance->host_no, cmd->cmnd[0], cmd->target, cmd->lun));
1712	/* Extended messages are sent in the following format :
1713	* Byte
1714	* 0 EXTENDED_MESSAGE == 1
1715	* 1 length (includes one byte for code, doesn't include first two bytes)
1716	* 2 code
1717	* 3..length+1 arguments
1718	*/
1719	/* BEWARE!! THIS CODE IS EXTREMELY UGLY */
1720	extended_msg[0] = EXTENDED_MESSAGE0x01;
1721	AM53C974_read_8(INSTREG)((__builtin_constant_p((io_port + (0x14))) && (io_port + (0x14)) < 256) ? __inbc(io_port + (0x14)) : __inb(io_port + (0x14))) ; /* clear int */
1722	AM53C974_write_8(CMDREG, CMDREG_MA)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x12)),(io_port + (0x0C))) : __outb(((0x12)),(io_port + (0x0C)))); /* ack. msg byte, then wait for SO */
1723	AM53C974_poll_int(){ do { statreg = ((__builtin_constant_p((io_port + (0x10))) && (io_port + (0x10)) < 256) ? __inbc(io_port + (0x10)) : __inb (io_port + (0x10))); } while (!(statreg & 0x80)) ; ((__builtin_constant_p ((io_port + (0x14))) && (io_port + (0x14)) < 256) ? __inbc(io_port + (0x14)) : __inb(io_port + (0x14))) ; };
1724	/* get length */
1725	AM53C974_write_8(CMDREG, CMDREG_IT)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x10)),(io_port + (0x0C))) : __outb(((0x10)),(io_port + (0x0C))));
1726	AM53C974_poll_int(){ do { statreg = ((__builtin_constant_p((io_port + (0x10))) && (io_port + (0x10)) < 256) ? __inbc(io_port + (0x10)) : __inb (io_port + (0x10))); } while (!(statreg & 0x80)) ; ((__builtin_constant_p ((io_port + (0x14))) && (io_port + (0x14)) < 256) ? __inbc(io_port + (0x14)) : __inb(io_port + (0x14))) ; };
1727	AM53C974_write_8(CMDREG, CMDREG_MA)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x12)),(io_port + (0x0C))) : __outb(((0x12)),(io_port + (0x0C)))); /* ack. msg byte, then wait for SO */
1728	AM53C974_poll_int(){ do { statreg = ((__builtin_constant_p((io_port + (0x10))) && (io_port + (0x10)) < 256) ? __inbc(io_port + (0x10)) : __inb (io_port + (0x10))); } while (!(statreg & 0x80)) ; ((__builtin_constant_p ((io_port + (0x14))) && (io_port + (0x14)) < 256) ? __inbc(io_port + (0x14)) : __inb(io_port + (0x14))) ; };
1729	extended_msg[1] = len = AM53C974_read_8(FFREG)((__builtin_constant_p((io_port + (0x08))) && (io_port + (0x08)) < 256) ? __inbc(io_port + (0x08)) : __inb(io_port + (0x08))); /* get length */
1730	p = extended_msg+2;
1731	/* read the remaining (len) bytes */
1732	while (len) {
1733	AM53C974_write_8(CMDREG, CMDREG_IT)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x10)),(io_port + (0x0C))) : __outb(((0x10)),(io_port + (0x0C))));
1734	AM53C974_poll_int(){ do { statreg = ((__builtin_constant_p((io_port + (0x10))) && (io_port + (0x10)) < 256) ? __inbc(io_port + (0x10)) : __inb (io_port + (0x10))); } while (!(statreg & 0x80)) ; ((__builtin_constant_p ((io_port + (0x14))) && (io_port + (0x14)) < 256) ? __inbc(io_port + (0x14)) : __inb(io_port + (0x14))) ; };
1735	if (len > 1) {
1736	AM53C974_write_8(CMDREG, CMDREG_MA)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x12)),(io_port + (0x0C))) : __outb(((0x12)),(io_port + (0x0C)))); /* ack. msg byte, then wait for SO */
1737	AM53C974_poll_int(){ do { statreg = ((__builtin_constant_p((io_port + (0x10))) && (io_port + (0x10)) < 256) ? __inbc(io_port + (0x10)) : __inb (io_port + (0x10))); } while (!(statreg & 0x80)) ; ((__builtin_constant_p ((io_port + (0x14))) && (io_port + (0x14)) < 256) ? __inbc(io_port + (0x14)) : __inb(io_port + (0x14))) ; }; }
1738	*p = AM53C974_read_8(FFREG)((__builtin_constant_p((io_port + (0x08))) && (io_port + (0x08)) < 256) ? __inbc(io_port + (0x08)) : __inb(io_port + (0x08)));
1739	p++; len--; }
1740
1741	#ifdef AM53C974_DEBUG_MSG
1742	printk("scsi%d: received extended message: ", instance->host_no);
1743	for (j = 0; j < extended_msg[1] + 2; j++) {
1744	printk("0x%02x ", extended_msg[j]);
1745	if (j && !(j % 16)) printk("\n"); }
1746	printk("\n");
1747	#endif
1748
1749	/* check message */
1750	if (extended_msg[2] == EXTENDED_SDTR0x01)
1751	ret = AM53C974_sync_neg(instance, cmd->target, extended_msg);
1752	if (ret \|\| hostdata->aborted) AM53C974_write_8(CMDREG, CMDREG_SATN)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x1A)),(io_port + (0x0C))) : __outb(((0x1A)),(io_port + (0x0C))));
1753
1754	AM53C974_write_8(CMDREG, CMDREG_MA)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x12)),(io_port + (0x0C))) : __outb(((0x12)),(io_port + (0x0C))));
1755	break;
1756
1757	default:
1758	printk("scsi%d: unknown message 0x%02x received\n",instance->host_no, msg);
1759	#ifdef AM53C974_DEBUG
1760	deb_stop = 1;
1761	#endif
1762	/* reject message */
1763	hostdata->msgout[0] = MESSAGE_REJECT0x07;
1764	AM53C974_write_8(CMDREG, CMDREG_SATN)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x1A)),(io_port + (0x0C))) : __outb(((0x1A)),(io_port + (0x0C))));
1765	AM53C974_write_8(CMDREG, CMDREG_MA)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x12)),(io_port + (0x0C))) : __outb(((0x12)),(io_port + (0x0C))));
1766	return(0);
1767	break;
1768
1769	} /* switch (msg) */
1770	KEYWAIT();
1771	return(1);
1772	}
1773
1774	/**************************************************************************
1775	* Function : AM53C974_select(struct Scsi_Host instance, Scsi_Cmnd cmd, int tag)
1776	*
1777	* Purpose : try to establish nexus for the command;
1778	* start sync negotiation via start stop and transfer the command in
1779	* cmdout phase in case of an inquiry or req. sense command with no
1780	* sync. neg. performed yet
1781	*
1782	* Inputs : instance -- which AM53C974
1783	* cmd -- command which requires the selection
1784	* tag -- tagged queueing
1785	*
1786	* Returns : nothing
1787	*
1788	* Note: this function initializes the selection process, which is continued
1789	* in the interrupt handler
1790	**************************************************************************/
1791	static void AM53C974_select(struct Scsi_Host instance, Scsi_Cmnd cmd, int tag)
1792	{
1793	AM53C974_local_declare()unsigned long io_port;
1794	struct AM53C974_hostdata hostdata = (struct AM53C974_hostdata )instance->hostdata;
1795	unsigned char cfifo, tmp[3];
1796	unsigned int i, len, cmd_size = COMMAND_SIZE(cmd->cmnd[0])scsi_command_size[((cmd->cmnd[0]) >> 5) & 7];
1797	AM53C974_setio(instance)io_port = instance->io_port;
1798
1799	cfifo = AM53C974_cfifo()(((__builtin_constant_p((io_port + (0x1C))) && (io_port + (0x1C)) < 256) ? __inbc(io_port + (0x1C)) : __inb(io_port + (0x1C))) & 0x1F);
1800	if (cfifo) {
1801	printk("scsi%d: select error; %d residual bytes in FIFO\n", instance->host_no, cfifo);
1802	AM53C974_write_8(CMDREG, CMDREG_CFIFO)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x01)),(io_port + (0x0C))) : __outb(((0x01)),(io_port + (0x0C)))); /* clear FIFO */
1803	}
1804
1805	tmp[0] = IDENTIFY(1, cmd->lun)(0x80 \| ((1) ? 0x40 : 0) \| ((cmd->lun) & 0x07));
1806
1807	#ifdef SCSI2
1808	if (cmd->device->tagged_queue && (tag != TAG_NONE-2)) {
1809	tmp[1] = SIMPLE_QUEUE_TAG0x20;
1810	if (tag == TAG_NEXT-1) {
1811	/* 0 is TAG_NONE, used to imply no tag for this command */
1812	if (cmd->device->current_tag == 0) cmd->device->current_tag = 1;
1813	cmd->tag = cmd->device->current_tag;
1814	cmd->device->current_tag++; }
1815	else
1816	cmd->tag = (unsigned char)tag;
1817	tmp[2] = cmd->tag;
1818	hostdata->last_message[0] = SIMPLE_QUEUE_TAG0x20;
1819	len = 3;
1820	AM53C974_write_8(FFREG, tmp[0])((__builtin_constant_p((io_port + (0x08))) && (io_port + (0x08)) < 256) ? __outbc(((tmp[0])),(io_port + (0x08))) : __outb(((tmp[0])),(io_port + (0x08))));
1821	AM53C974_write_8(FFREG, tmp[1])((__builtin_constant_p((io_port + (0x08))) && (io_port + (0x08)) < 256) ? __outbc(((tmp[1])),(io_port + (0x08))) : __outb(((tmp[1])),(io_port + (0x08))));
1822	AM53C974_write_8(FFREG, tmp[2])((__builtin_constant_p((io_port + (0x08))) && (io_port + (0x08)) < 256) ? __outbc(((tmp[2])),(io_port + (0x08))) : __outb(((tmp[2])),(io_port + (0x08))));
1823	}
1824	else
1825	#endif /* def SCSI2 */
1826	{
1827	len = 1;
1828	AM53C974_write_8(FFREG, tmp[0])((__builtin_constant_p((io_port + (0x08))) && (io_port + (0x08)) < 256) ? __outbc(((tmp[0])),(io_port + (0x08))) : __outb(((tmp[0])),(io_port + (0x08))));
1829	cmd->tag = 0; }
1830
1831	/* in case of an inquiry or req. sense command with no sync. neg performed yet, we start
1832	sync negotiation via start stops and transfer the command in cmdout phase */
1833	if (((cmd->cmnd[0] == INQUIRY0x12) \|\| (cmd->cmnd[0] == REQUEST_SENSE0x03)) &&
1834	!(hostdata->sync_neg[cmd->target]) && hostdata->sync_en[cmd->target]) {
1835	hostdata->sync_neg[cmd->target] = 1;
1836	hostdata->msgout[0] = EXTENDED_MESSAGE0x01;
1837	hostdata->msgout[1] = 3;
1838	hostdata->msgout[2] = EXTENDED_SDTR0x01;
1839	hostdata->msgout[3] = 250 / (int)hostdata->max_rate[cmd->target];
1840	hostdata->msgout[4] = hostdata->max_offset[cmd->target];
1841	len += 5; }
1842
1843	AM53C974_write_8(SDIDREG, SDIREG_MASK & cmd->target)((__builtin_constant_p((io_port + (0x10))) && (io_port + (0x10)) < 256) ? __outbc(((0x07 & cmd->target)), (io_port + (0x10))) : __outb(((0x07 & cmd->target)),(io_port + (0x10)))); /* setup dest. id */
1844	AM53C974_write_8(STIMREG, DEF_SCSI_TIMEOUT)((__builtin_constant_p((io_port + (0x14))) && (io_port + (0x14)) < 256) ? __outbc(((245)),(io_port + (0x14))) : __outb (((245)),(io_port + (0x14)))); /* setup timeout reg */
1845	switch (len) {
1846	case 1:
1847	for (i = 0; i < cmd_size; i++) AM53C974_write_8(FFREG, cmd->cmnd[i])((__builtin_constant_p((io_port + (0x08))) && (io_port + (0x08)) < 256) ? __outbc(((cmd->cmnd[i])),(io_port + (0x08))) : __outb(((cmd->cmnd[i])),(io_port + (0x08))));
1848	AM53C974_write_8(CMDREG, CMDREG_SAS)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x42)),(io_port + (0x0C))) : __outb(((0x42)),(io_port + (0x0C)))); /* select with ATN, 1 msg byte */
1849	hostdata->msgout[0] = NOP0x08;
1850	break;
1851	case 3:
1852	for (i = 0; i < cmd_size; i++) AM53C974_write_8(FFREG, cmd->cmnd[i])((__builtin_constant_p((io_port + (0x08))) && (io_port + (0x08)) < 256) ? __outbc(((cmd->cmnd[i])),(io_port + (0x08))) : __outb(((cmd->cmnd[i])),(io_port + (0x08))));
1853	AM53C974_write_8(CMDREG, CMDREG_SA3S)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x46)),(io_port + (0x0C))) : __outb(((0x46)),(io_port + (0x0C)))); /* select with ATN, 3 msg bytes */
1854	hostdata->msgout[0] = NOP0x08;
1855	break;
1856	default:
1857	AM53C974_write_8(CMDREG, CMDREG_SASS)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x43)),(io_port + (0x0C))) : __outb(((0x43)),(io_port + (0x0C)))); /* select with ATN, stop steps; continue in message out phase */
1858	break;
1859	}
1860	}
1861
1862	/**************************************************************************
1863	* Function : AM53C974_intr_select(struct Scsi_Host *instance, unsigned char statreg)
1864	*
1865	* Purpose : handle reselection
1866	*
1867	* Inputs : instance -- which AM53C974
1868	* statreg -- status register
1869	*
1870	* Returns : nothing
1871	*
1872	* side effects: manipulates hostdata
1873	**************************************************************************/
1874	static void AM53C974_intr_reselect(struct Scsi_Host *instance, unsigned char statreg)
1875	{
1876	AM53C974_local_declare()unsigned long io_port;
1877	struct AM53C974_hostdata hostdata = (struct AM53C974_hostdata )instance->hostdata;
1878	unsigned char cfifo, msg[3], lun, t, target = 0;
1879	#ifdef SCSI2
1880	unsigned char tag;
1881	#endif
1882	Scsi_Cmnd tmp = NULL((void ) 0), *prev;
1883	AM53C974_setio(instance)io_port = instance->io_port;
1884
1885	cfifo = AM53C974_cfifo()(((__builtin_constant_p((io_port + (0x1C))) && (io_port + (0x1C)) < 256) ? __inbc(io_port + (0x1C)) : __inb(io_port + (0x1C))) & 0x1F);
1886
1887	if (hostdata->selecting) {
1888	/* caught reselect interrupt in selection process;
1889	put selecting command back into the issue queue and continue with the
1890	reselecting command */
1891	DEB_RESEL(printk("AM53C974_intr_reselect: in selection process\n"));
1892	LIST(hostdata->sel_cmd, hostdata->issue_queue);
1893	hostdata->sel_cmd->host_scribble = (unsigned char *)hostdata->issue_queue;
1894	hostdata->issue_queue = hostdata->sel_cmd;
1895	hostdata->sel_cmd = NULL((void *) 0);
1896	hostdata->selecting = 0; }
1897
1898	/* 2 bytes must be in the FIFO now */
1899	if (cfifo != 2) {
1900	printk("scsi %d: error: %d bytes in fifo, 2 expected\n", instance->host_no, cfifo);
1901	hostdata->aborted = 1;
1902	goto EXIT_ABORT; }
1903
1904	/* determine target which reselected */
1905	t = AM53C974_read_8(FFREG)((__builtin_constant_p((io_port + (0x08))) && (io_port + (0x08)) < 256) ? __inbc(io_port + (0x08)) : __inb(io_port + (0x08)));
1906	if (!(t & (1 << instance->this_id))) {
1907	printk("scsi %d: error: invalid host id\n", instance->host_no);
1908	hostdata->aborted = 1;
1909	goto EXIT_ABORT; }
1910	t ^= (1 << instance->this_id);
1911	target = 0; while (t != 1) { t >>= 1; target++; }
1912	DEB_RESEL(printk("scsi %d: reselect; target: %d\n", instance->host_no, target));
1913
1914	if (hostdata->aborted) goto EXIT_ABORT;
1915
1916	if ((statreg & STATREG_PHASE0x07) != PHASE_MSGIN0x07) {
1917	printk("scsi %d: error: upon reselection interrupt not in MSGIN\n", instance->host_no);
1918	hostdata->aborted = 1;
1919	goto EXIT_ABORT; }
1920
1921	msg[0] = AM53C974_read_8(FFREG)((__builtin_constant_p((io_port + (0x08))) && (io_port + (0x08)) < 256) ? __inbc(io_port + (0x08)) : __inb(io_port + (0x08)));
1922	if (!(msg[0] & 0x80)) {
1923	printk("scsi%d: error: expecting IDENTIFY message, got ", instance->host_no);
1924	print_msg(msg);
1925	hostdata->aborted = 1;
1926	goto EXIT_ABORT; }
1927
1928	lun = (msg[0] & 0x07);
1929
1930	/* We need to add code for SCSI-II to track which devices have
1931	* I_T_L_Q nexuses established, and which have simple I_T_L
1932	* nexuses so we can chose to do additional data transfer. */
1933	#ifdef SCSI2
1934	#error "SCSI-II tagged queueing is not supported yet"
1935	#endif
1936
1937	/* Find the command corresponding to the I_T_L or I_T_L_Q nexus we
1938	* just reestablished, and remove it from the disconnected queue. */
1939	for (tmp = (Scsi_Cmnd )hostdata->disconnected_queue, prev = NULL((void ) 0);
1940	tmp; prev = tmp, tmp = (Scsi_Cmnd *)tmp->host_scribble)
1941	if ((target == tmp->target) && (lun == tmp->lun)
1942	#ifdef SCSI2
1943	&& (tag == tmp->tag)
1944	#endif
1945	) {
1946	if (prev) {
1947	REMOVE(prev, (Scsi_Cmnd *)(prev->host_scribble), tmp,
1948	(Scsi_Cmnd *)(tmp->host_scribble));
1949	prev->host_scribble = tmp->host_scribble; }
1950	else {
1951	REMOVE(-1, hostdata->disconnected_queue, tmp, tmp->host_scribble);
1952	hostdata->disconnected_queue = (Scsi_Cmnd *)tmp->host_scribble; }
1953	tmp->host_scribble = NULL((void *) 0);
1954	hostdata->connected = tmp;
1955	break; }
1956
1957	if (!tmp) {
1958	#ifdef SCSI2
1959	printk("scsi%d: warning : target %d lun %d tag %d not in disconnect_queue.\n",
1960	instance->host_no, target, lun, tag);
1961	#else
1962	printk("scsi%d: warning : target %d lun %d not in disconnect_queue.\n",
1963	instance->host_no, target, lun);
1964	#endif
1965	/* Since we have an established nexus that we can't do anything with, we must abort it. */
1966	hostdata->aborted = 1;
1967	DEB(AM53C974_keywait());
1968	goto EXIT_ABORT; }
1969	else
1970	goto EXIT_OK;
1971
1972	EXIT_ABORT:
1973	AM53C974_write_8(CMDREG, CMDREG_SATN)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x1A)),(io_port + (0x0C))) : __outb(((0x1A)),(io_port + (0x0C))));
1974	AM53C974_write_8(CMDREG, CMDREG_MA)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x12)),(io_port + (0x0C))) : __outb(((0x12)),(io_port + (0x0C))));
1975	return;
1976
1977	EXIT_OK:
1978	DEB_RESEL(printk("scsi%d: nexus established, target = %d, lun = %d, tag = %d\n",
1979	instance->host_no, target, tmp->lun, tmp->tag));
1980	AM53C974_set_sync(instance, target);
1981	AM53C974_write_8(SDIDREG, SDIREG_MASK & target)((__builtin_constant_p((io_port + (0x10))) && (io_port + (0x10)) < 256) ? __outbc(((0x07 & target)),(io_port + (0x10))) : __outb(((0x07 & target)),(io_port + (0x10)) )); /* setup dest. id */
1982	AM53C974_write_8(CMDREG, CMDREG_MA)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x12)),(io_port + (0x0C))) : __outb(((0x12)),(io_port + (0x0C))));
1983	hostdata->dma_busy = 0;
1984	hostdata->connected->SCp.phase = PHASE_CMDOUT0x02;
1985	}
1986
1987	/**************************************************************************
1988	* Function : AM53C974_transfer_dma(struct Scsi_Host *instance, short dir,
1989	* unsigned long length, char *data)
1990	*
1991	* Purpose : setup DMA transfer
1992	*
1993	* Inputs : instance -- which AM53C974
1994	* dir -- direction flag, 0: write to device, read from memory;
1995	* 1: read from device, write to memory
1996	* length -- number of bytes to transfer to from buffer
1997	* data -- pointer to data buffer
1998	*
1999	* Returns : nothing
2000	**************************************************************************/
2001	static __inline____inline__ __attribute__((always_inline)) void AM53C974_transfer_dma(struct Scsi_Host *instance, short dir,
2002	unsigned long length, char *data)
2003	{
2004	AM53C974_local_declare()unsigned long io_port;
2005	AM53C974_setio(instance)io_port = instance->io_port;
2006
2007	AM53C974_write_8(CMDREG, CMDREG_NOP)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x00)),(io_port + (0x0C))) : __outb(((0x00)),(io_port + (0x0C))));
2008	AM53C974_write_8(DMACMD, (dir << 7) \| DMACMD_INTE_D)((__builtin_constant_p((io_port + (0x40))) && (io_port + (0x40)) < 256) ? __outbc((((dir << 7) \| 0x40)),(io_port + (0x40))) : __outb((((dir << 7) \| 0x40)),(io_port + ( 0x40)))); /* idle command */
2009	AM53C974_write_8(STCLREG, (unsigned char)(length & 0xff))((__builtin_constant_p((io_port + (0x00))) && (io_port + (0x00)) < 256) ? __outbc((((unsigned char)(length & 0xff))),(io_port + (0x00))) : __outb((((unsigned char)(length & 0xff))),(io_port + (0x00))));
2010	AM53C974_write_8(STCMREG, (unsigned char)((length & 0xff00) >> 8))((__builtin_constant_p((io_port + (0x04))) && (io_port + (0x04)) < 256) ? __outbc((((unsigned char)((length & 0xff00) >> 8))),(io_port + (0x04))) : __outb((((unsigned char)((length & 0xff00) >> 8))),(io_port + (0x04)) ));
2011	AM53C974_write_8(STCHREG, (unsigned char)((length & 0xff0000) >> 16))((__builtin_constant_p((io_port + (0x38))) && (io_port + (0x38)) < 256) ? __outbc((((unsigned char)((length & 0xff0000) >> 16))),(io_port + (0x38))) : __outb((((unsigned char)((length & 0xff0000) >> 16))),(io_port + (0x38 ))));
2012	AM53C974_write_32(DMASTC, length & 0xffffff)((__builtin_constant_p((io_port + (0x44))) && (io_port + (0x44)) < 256) ? __outlc(((length & 0xffffff)),(io_port + (0x44))) : __outl(((length & 0xffffff)),(io_port + (0x44 ))));
2013	AM53C974_write_32(DMASPA, virt_to_bus(data))((__builtin_constant_p((io_port + (0x48))) && (io_port + (0x48)) < 256) ? __outlc(((virt_to_phys(data))),(io_port + (0x48))) : __outl(((virt_to_phys(data))),(io_port + (0x48) )));
2014	AM53C974_write_8(CMDREG, CMDREG_IT \| CMDREG_DMA)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x10 \| 0x80)),(io_port + (0x0C ))) : __outb(((0x10 \| 0x80)),(io_port + (0x0C))));
2015	AM53C974_write_8(DMACMD, (dir << 7) \| DMACMD_INTE_D \| DMACMD_START)((__builtin_constant_p((io_port + (0x40))) && (io_port + (0x40)) < 256) ? __outbc((((dir << 7) \| 0x40 \| 0x03 )),(io_port + (0x40))) : __outb((((dir << 7) \| 0x40 \| 0x03 )),(io_port + (0x40))));
2016	}
2017
2018	/**************************************************************************
2019	* Function : AM53C974_dma_blast(struct Scsi_Host *instance, unsigned char dmastatus,
2020	* unsigned char statreg)
2021	*
2022	* Purpose : cleanup DMA transfer
2023	*
2024	* Inputs : instance -- which AM53C974
2025	* dmastatus -- dma status register
2026	* statreg -- status register
2027	*
2028	* Returns : nothing
2029	**************************************************************************/
2030	static void AM53C974_dma_blast(struct Scsi_Host *instance, unsigned char dmastatus,
2031	unsigned char statreg)
2032	{
2033	AM53C974_local_declare()unsigned long io_port;
2034	struct AM53C974_hostdata hostdata = (struct AM53C974_hostdata )instance->hostdata;
2035	unsigned long ctcreg;
2036	int dir = statreg & STATREG_IO0x01;
2037	int cfifo, pio, i = 0;
2038	AM53C974_setio(instance)io_port = instance->io_port;
2039
2040	do {
2041	cfifo = AM53C974_cfifo()(((__builtin_constant_p((io_port + (0x1C))) && (io_port + (0x1C)) < 256) ? __inbc(io_port + (0x1C)) : __inb(io_port + (0x1C))) & 0x1F);
2042	i++;
2043	} while (cfifo && (i < 50000));
2044	pio = (i == 50000) ? 1: 0;
2045
2046	if (statreg & STATREG_CTZ0x10) { AM53C974_write_8(DMACMD, DMACMD_IDLE)((__builtin_constant_p((io_port + (0x40))) && (io_port + (0x40)) < 256) ? __outbc(((0x00)),(io_port + (0x40))) : __outb(((0x00)),(io_port + (0x40)))); return; }
2047
2048	if (dmastatus & DMASTATUS_DONE0x08) { AM53C974_write_8(DMACMD, DMACMD_IDLE)((__builtin_constant_p((io_port + (0x40))) && (io_port + (0x40)) < 256) ? __outbc(((0x00)),(io_port + (0x40))) : __outb(((0x00)),(io_port + (0x40)))); return; }
2049
2050	AM53C974_write_8(DMACMD, ((dir << 7) & DMACMD_DIR) \| DMACMD_BLAST)((__builtin_constant_p((io_port + (0x40))) && (io_port + (0x40)) < 256) ? __outbc(((((dir << 7) & 0x80 ) \| 0x01)),(io_port + (0x40))) : __outb(((((dir << 7) & 0x80) \| 0x01)),(io_port + (0x40))));
2051	while(!(AM53C974_read_8(DMASTATUS)((__builtin_constant_p((io_port + (0x54))) && (io_port + (0x54)) < 256) ? __inbc(io_port + (0x54)) : __inb(io_port + (0x54))) & DMASTATUS_BCMPLT0x20)) ;
2052	AM53C974_write_8(DMACMD, DMACMD_IDLE)((__builtin_constant_p((io_port + (0x40))) && (io_port + (0x40)) < 256) ? __outbc(((0x00)),(io_port + (0x40))) : __outb(((0x00)),(io_port + (0x40))));
2053
2054	if (pio) {
2055	/* transfer residual bytes via PIO */
2056	unsigned char wac = (unsigned char )AM53C974_read_32(DMAWAC)((__builtin_constant_p((io_port + (0x50))) && (io_port + (0x50)) < 256) ? __inlc(io_port + (0x50)) : __inl(io_port + (0x50)));
2057	printk("pio mode, residual=%d\n", AM53C974_read_8(CFIREG)((__builtin_constant_p((io_port + (0x1C))) && (io_port + (0x1C)) < 256) ? __inbc(io_port + (0x1C)) : __inb(io_port + (0x1C))) & CFIREG_CF0x1F);
2058	while (AM53C974_read_8(CFIREG)((__builtin_constant_p((io_port + (0x1C))) && (io_port + (0x1C)) < 256) ? __inbc(io_port + (0x1C)) : __inb(io_port + (0x1C))) & CFIREG_CF0x1F) *(wac++) = AM53C974_read_8(FFREG)((__builtin_constant_p((io_port + (0x08))) && (io_port + (0x08)) < 256) ? __inbc(io_port + (0x08)) : __inb(io_port + (0x08)));
2059	}
2060
2061	ctcreg = AM53C974_read_8(CTCLREG)((__builtin_constant_p((io_port + (0x00))) && (io_port + (0x00)) < 256) ? __inbc(io_port + (0x00)) : __inb(io_port + (0x00))) \| (AM53C974_read_8(CTCMREG)((__builtin_constant_p((io_port + (0x04))) && (io_port + (0x04)) < 256) ? __inbc(io_port + (0x04)) : __inb(io_port + (0x04))) << 8) \|
2062	(AM53C974_read_8(CTCHREG)((__builtin_constant_p((io_port + (0x38))) && (io_port + (0x38)) < 256) ? __inbc(io_port + (0x38)) : __inb(io_port + (0x38))) << 16);
2063
2064	hostdata->connected->SCp.ptr += hostdata->connected->SCp.this_residual - ctcreg;
2065	hostdata->connected->SCp.this_residual = ctcreg;
2066	}
2067
2068	/**************************************************************************
2069	* Function : AM53C974_intr_bus_reset(struct Scsi_Host *instance)
2070	*
2071	* Purpose : handle bus reset interrupt
2072	*
2073	* Inputs : instance -- which AM53C974
2074	*
2075	* Returns : nothing
2076	**************************************************************************/
2077	static void AM53C974_intr_bus_reset(struct Scsi_Host *instance)
2078	{
2079	AM53C974_local_declare()unsigned long io_port;
2080	unsigned char cntlreg1;
2081	AM53C974_setio(instance)io_port = instance->io_port;
2082
2083	AM53C974_write_8(CMDREG, CMDREG_CFIFO)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x01)),(io_port + (0x0C))) : __outb(((0x01)),(io_port + (0x0C))));
2084	AM53C974_write_8(CMDREG, CMDREG_NOP)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x00)),(io_port + (0x0C))) : __outb(((0x00)),(io_port + (0x0C))));
2085
2086	cntlreg1 = AM53C974_read_8(CNTLREG1)((__builtin_constant_p((io_port + (0x20))) && (io_port + (0x20)) < 256) ? __inbc(io_port + (0x20)) : __inb(io_port + (0x20)));
2087	AM53C974_write_8(CNTLREG1, cntlreg1 \| CNTLREG1_DISR)((__builtin_constant_p((io_port + (0x20))) && (io_port + (0x20)) < 256) ? __outbc(((cntlreg1 \| 0x40)),(io_port + (0x20))) : __outb(((cntlreg1 \| 0x40)),(io_port + (0x20))));
2088	}
2089
2090	/**************************************************************************
2091	* Function : int AM53C974_abort(Scsi_Cmnd *cmd)
2092	*
2093	* Purpose : abort a command
2094	*
2095	* Inputs : cmd - the Scsi_Cmnd to abort, code - code to set the
2096	* host byte of the result field to, if zero DID_ABORTED is
2097	* used.
2098	*
2099	* Returns : 0 - success, -1 on failure.
2100	**************************************************************************/
2101	int AM53C974_abort(Scsi_Cmnd *cmd)
2102	{
2103	AM53C974_local_declare()unsigned long io_port;
2104	struct Scsi_Host *instance = cmd->host;
2105	struct AM53C974_hostdata hostdata = (struct AM53C974_hostdata )instance->hostdata;
2106	Scsi_Cmnd tmp, *prev;
2107
2108	#ifdef AM53C974_DEBUG
2109	deb_stop = 1;
2110	#endif
2111	cli()__asm__ __volatile__ ("cli": : :"memory");
2112	AM53C974_setio(instance)io_port = instance->io_port;
2113
2114	DEB_ABORT(printk(SEPARATOR_LINE))printk("--------------------------------------------------------------------------\n" );
2115	DEB_ABORT(printk("scsi%d : AM53C974_abort called -- trouble starts!!\n", instance->host_no))printk("scsi%d : AM53C974_abort called -- trouble starts!!\n" , instance->host_no);
2116	DEB_ABORT(AM53C974_print(instance))AM53C974_print(instance);
2117	DEB_ABORT(AM53C974_keywait())AM53C974_keywait();
2118
2119	/* Case 1 : If the command is the currently executing command,
2120	we'll set the aborted flag and return control so that the
2121	information transfer routine can exit cleanly. */
2122	if ((hostdata->connected == cmd) \|\| (hostdata->sel_cmd == cmd)) {
2123	DEB_ABORT(printk("scsi%d: aborting connected command\n", instance->host_no))printk("scsi%d: aborting connected command\n", instance->host_no );
2124	hostdata->aborted = 1;
2125	hostdata->msgout[0] = ABORT0x06;
2126	sti()__asm__ __volatile__ ("sti": : :"memory");
2127	return(SCSI_ABORT_PENDING2); }
2128
2129	/* Case 2 : If the command hasn't been issued yet,
2130	we simply remove it from the issue queue. */
2131	for (prev = (Scsi_Cmnd **)&(hostdata->issue_queue),
2132	tmp = (Scsi_Cmnd *)hostdata->issue_queue; tmp;
2133	prev = (Scsi_Cmnd **)&(tmp->host_scribble),
2134	tmp = (Scsi_Cmnd *)tmp->host_scribble) {
2135	if (cmd == tmp) {
2136	DEB_ABORT(printk("scsi%d : abort removed command from issue queue.\n", instance->host_no))printk("scsi%d : abort removed command from issue queue.\n", instance ->host_no);
2137	REMOVE(5, *prev, tmp, tmp->host_scribble);
2138	(prev) = (Scsi_Cmnd )tmp->host_scribble;
2139	tmp->host_scribble = NULL((void *) 0);
2140	tmp->result = DID_ABORT0x05 << 16;
2141	sti()__asm__ __volatile__ ("sti": : :"memory");
2142	tmp->done(tmp);
2143	return(SCSI_ABORT_SUCCESS1); }
2144	#ifdef AM53C974_DEBUG_ABORT
2145	else {
2146	if (prev == (Scsi_Cmnd **)tmp)
2147	printk("scsi%d : LOOP\n", instance->host_no);
2148	}
2149	#endif
2150	}
2151
2152	/* Case 3 : If any commands are connected, we're going to fail the abort
2153	* and let the high level SCSI driver retry at a later time or
2154	* issue a reset.
2155	*
2156	* Timeouts, and therefore aborted commands, will be highly unlikely
2157	* and handling them cleanly in this situation would make the common
2158	* case of noresets less efficient, and would pollute our code. So,
2159	* we fail. */
2160	if (hostdata->connected \|\| hostdata->sel_cmd) {
2161	DEB_ABORT(printk("scsi%d : abort failed, other command connected.\n", instance->host_no))printk("scsi%d : abort failed, other command connected.\n", instance ->host_no);
2162	sti()__asm__ __volatile__ ("sti": : :"memory");
2163	return(SCSI_ABORT_NOT_RUNNING4); }
2164
2165	/* Case 4: If the command is currently disconnected from the bus, and
2166	* there are no connected commands, we reconnect the I_T_L or
2167	* I_T_L_Q nexus associated with it, go into message out, and send
2168	* an abort message. */
2169	for (tmp = (Scsi_Cmnd *)hostdata->disconnected_queue; tmp;
2170	tmp = (Scsi_Cmnd *)tmp->host_scribble) {
2171	if (cmd == tmp) {
2172	DEB_ABORT(printk("scsi%d: aborting disconnected command\n", instance->host_no))printk("scsi%d: aborting disconnected command\n", instance-> host_no);
2173	hostdata->aborted = 1;
2174	hostdata->msgout[0] = ABORT0x06;
2175	hostdata->selecting = 1;
2176	hostdata->sel_cmd = tmp;
2177	AM53C974_write_8(CMDREG, CMDREG_DSR)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x45)),(io_port + (0x0C))) : __outb(((0x45)),(io_port + (0x0C))));
2178	sti()__asm__ __volatile__ ("sti": : :"memory");
2179	return(SCSI_ABORT_PENDING2); }
2180	}
2181
2182	/* Case 5 : If we reached this point, the command was not found in any of
2183	* the queues.
2184	*
2185	* We probably reached this point because of an unlikely race condition
2186	* between the command completing successfully and the abortion code,
2187	* so we won't panic, but we will notify the user in case something really
2188	* broke. */
2189	DEB_ABORT(printk("scsi%d : abort failed, command not found.\n", instance->host_no))printk("scsi%d : abort failed, command not found.\n", instance ->host_no);
2190	sti()__asm__ __volatile__ ("sti": : :"memory");
2191	return(SCSI_ABORT_NOT_RUNNING4);
2192	}
2193
2194	/**************************************************************************
2195	* Function : int AM53C974_reset(Scsi_Cmnd *cmd)
2196	*
2197	* Purpose : reset the SCSI controller and bus
2198	*
2199	* Inputs : cmd -- which command within the command block was responsible for the reset
2200	*
2201	* Returns : status (SCSI_ABORT_SUCCESS)
2202	**************************************************************************/
2203	int AM53C974_reset(Scsi_Cmnd *cmd, unsigned int flags)
2204	{
2205	AM53C974_local_declare()unsigned long io_port;
2206	int i;
2207	struct Scsi_Host *instance = cmd->host;
2208	struct AM53C974_hostdata hostdata = (struct AM53C974_hostdata )instance->hostdata;
2209	AM53C974_setio(instance)io_port = instance->io_port;
2210
2211	cli()__asm__ __volatile__ ("cli": : :"memory");
2212	DEB(printk("AM53C974_reset called; "));
2213
2214	printk("AM53C974_reset called\n");
2215	AM53C974_print(instance);
2216	AM53C974_keywait();
2217
2218	/* do hard reset */
2219	AM53C974_write_8(CMDREG, CMDREG_RDEV)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x02)),(io_port + (0x0C))) : __outb(((0x02)),(io_port + (0x0C))));
2220	AM53C974_write_8(CMDREG, CMDREG_NOP)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x00)),(io_port + (0x0C))) : __outb(((0x00)),(io_port + (0x0C))));
2221	hostdata->msgout[0] = NOP0x08;
2222	for (i = 0; i < 8; i++) {
2223	hostdata->busy[i] = 0;
2224	hostdata->sync_per[i] = DEF_STP8;
2225	hostdata->sync_off[i] = 0;
2226	hostdata->sync_neg[i] = 0; }
2227	hostdata->last_message[0] = NOP0x08;
2228	hostdata->sel_cmd = NULL((void *) 0);
2229	hostdata->connected = NULL((void *) 0);
2230	hostdata->issue_queue = NULL((void *) 0);
2231	hostdata->disconnected_queue = NULL((void *) 0);
2232	hostdata->in_reset = 0;
2233	hostdata->aborted = 0;
2234	hostdata->selecting = 0;
2235	hostdata->disconnecting = 0;
2236	hostdata->dma_busy = 0;
2237
2238	/* reset bus */
2239	AM53C974_write_8(CNTLREG1, CNTLREG1_DISR \| instance->this_id)((__builtin_constant_p((io_port + (0x20))) && (io_port + (0x20)) < 256) ? __outbc(((0x40 \| instance->this_id) ),(io_port + (0x20))) : __outb(((0x40 \| instance->this_id) ),(io_port + (0x20)))); /* disable interrupt upon SCSI RESET */
2240	AM53C974_write_8(CMDREG, CMDREG_RBUS)((__builtin_constant_p((io_port + (0x0C))) && (io_port + (0x0C)) < 256) ? __outbc(((0x03)),(io_port + (0x0C))) : __outb(((0x03)),(io_port + (0x0C)))); /* reset SCSI bus */
2241	udelay(40)(__builtin_constant_p(40) ? __const_udelay((40) * 0x10c6ul) : __udelay(40));
2242	AM53C974_config_after_reset(instance);
2243
2244	sti()__asm__ __volatile__ ("sti": : :"memory");
2245	cmd->result = DID_RESET0x08 << 16;
2246	cmd->scsi_done(cmd);
2247	return SCSI_ABORT_SUCCESS1;
2248	}
2249
2250
2251	/*
2252	* AM53C974_release()
2253	*
2254	* Release resources allocated for a single AM53C974 adapter.
2255	*/
2256	int
2257	AM53C974_release(struct Scsi_Host *shp)
2258	{
2259	free_irq(shp->irq, NULL((void *) 0));
2260	scsi_unregister(shp);
2261	return 0;
2262	}
2263
2264
2265	#ifdef MODULE
2266	/* Eventually this will go into an include file, but this will be later */
2267	Scsi_Host_Template driver_template = AM53C974{ ((void ) 0), ((void ) 0), ((void ) 0), ((void ) 0), "AM53C974" , AM53C974_detect, ((void ) 0), AM53C974_info, AM53C974_command , AM53C974_queue_command, AM53C974_abort, AM53C974_reset, ((void ) 0), scsicam_bios_param, 12, -1, 0xff, 1, 0, 0, 0 };
2268
2269	#include "scsi_module.c"
2270	#endif