xref: /openbmc/linux/arch/alpha/kernel/smc37c669.c (revision e285d5bf)
1 /*
2  * SMC 37C669 initialization code
3  */
4 #include <linux/kernel.h>
5 
6 #include <linux/mm.h>
7 #include <linux/init.h>
8 #include <linux/delay.h>
9 #include <linux/spinlock.h>
10 
11 #include <asm/hwrpb.h>
12 #include <asm/io.h>
13 #include <asm/segment.h>
14 
15 #if 0
16 # define DBG_DEVS(args)         printk args
17 #else
18 # define DBG_DEVS(args)
19 #endif
20 
21 #define KB              1024
22 #define MB              (1024*KB)
23 #define GB              (1024*MB)
24 
25 #define SMC_DEBUG   0
26 
27 /* File:	smcc669_def.h
28  *
29  * Copyright (C) 1997 by
30  * Digital Equipment Corporation, Maynard, Massachusetts.
31  * All rights reserved.
32  *
33  * This software is furnished under a license and may be used and copied
34  * only  in  accordance  of  the  terms  of  such  license  and with the
35  * inclusion of the above copyright notice. This software or  any  other
36  * copies thereof may not be provided or otherwise made available to any
37  * other person.  No title to and  ownership of the  software is  hereby
38  * transferred.
39  *
40  * The information in this software is  subject to change without notice
41  * and  should  not  be  construed  as a commitment by Digital Equipment
42  * Corporation.
43  *
44  * Digital assumes no responsibility for the use  or  reliability of its
45  * software on equipment which is not supplied by Digital.
46  *
47  *
48  * Abstract:
49  *
50  *	This file contains header definitions for the SMC37c669
51  *	Super I/O controller.
52  *
53  * Author:
54  *
55  *	Eric Rasmussen
56  *
57  * Modification History:
58  *
59  *	er	28-Jan-1997	Initial Entry
60  */
61 
62 #ifndef __SMC37c669_H
63 #define __SMC37c669_H
64 
65 /*
66 ** Macros for handling device IRQs
67 **
68 ** The mask acts as a flag used in mapping actual ISA IRQs (0 - 15)
69 ** to device IRQs (A - H).
70 */
71 #define SMC37c669_DEVICE_IRQ_MASK	0x80000000
72 #define SMC37c669_DEVICE_IRQ( __i )	\
73 	((SMC37c669_DEVICE_IRQ_MASK) | (__i))
74 #define SMC37c669_IS_DEVICE_IRQ(__i)	\
75 	(((__i) & (SMC37c669_DEVICE_IRQ_MASK)) == (SMC37c669_DEVICE_IRQ_MASK))
76 #define SMC37c669_RAW_DEVICE_IRQ(__i)	\
77 	((__i) & ~(SMC37c669_DEVICE_IRQ_MASK))
78 
79 /*
80 ** Macros for handling device DRQs
81 **
82 ** The mask acts as a flag used in mapping actual ISA DMA
83 ** channels to device DMA channels (A - C).
84 */
85 #define SMC37c669_DEVICE_DRQ_MASK	0x80000000
86 #define SMC37c669_DEVICE_DRQ(__d)	\
87 	((SMC37c669_DEVICE_DRQ_MASK) | (__d))
88 #define SMC37c669_IS_DEVICE_DRQ(__d)	\
89 	(((__d) & (SMC37c669_DEVICE_DRQ_MASK)) == (SMC37c669_DEVICE_DRQ_MASK))
90 #define SMC37c669_RAW_DEVICE_DRQ(__d)	\
91 	((__d) & ~(SMC37c669_DEVICE_DRQ_MASK))
92 
93 #define SMC37c669_DEVICE_ID	0x3
94 
95 /*
96 ** SMC37c669 Device Function Definitions
97 */
98 #define SERIAL_0	0
99 #define SERIAL_1	1
100 #define PARALLEL_0	2
101 #define FLOPPY_0	3
102 #define IDE_0		4
103 #define NUM_FUNCS	5
104 
105 /*
106 ** Default Device Function Mappings
107 */
108 #define COM1_BASE	0x3F8
109 #define COM1_IRQ	4
110 #define COM2_BASE	0x2F8
111 #define COM2_IRQ	3
112 #define PARP_BASE	0x3BC
113 #define PARP_IRQ	7
114 #define PARP_DRQ	3
115 #define FDC_BASE	0x3F0
116 #define FDC_IRQ		6
117 #define FDC_DRQ		2
118 
119 /*
120 ** Configuration On/Off Key Definitions
121 */
122 #define SMC37c669_CONFIG_ON_KEY		0x55
123 #define SMC37c669_CONFIG_OFF_KEY	0xAA
124 
125 /*
126 ** SMC 37c669 Device IRQs
127 */
128 #define SMC37c669_DEVICE_IRQ_A	    ( SMC37c669_DEVICE_IRQ( 0x01 ) )
129 #define SMC37c669_DEVICE_IRQ_B	    ( SMC37c669_DEVICE_IRQ( 0x02 ) )
130 #define SMC37c669_DEVICE_IRQ_C	    ( SMC37c669_DEVICE_IRQ( 0x03 ) )
131 #define SMC37c669_DEVICE_IRQ_D	    ( SMC37c669_DEVICE_IRQ( 0x04 ) )
132 #define SMC37c669_DEVICE_IRQ_E	    ( SMC37c669_DEVICE_IRQ( 0x05 ) )
133 #define SMC37c669_DEVICE_IRQ_F	    ( SMC37c669_DEVICE_IRQ( 0x06 ) )
134 /*      SMC37c669_DEVICE_IRQ_G	    *** RESERVED ***/
135 #define SMC37c669_DEVICE_IRQ_H	    ( SMC37c669_DEVICE_IRQ( 0x08 ) )
136 
137 /*
138 ** SMC 37c669 Device DMA Channel Definitions
139 */
140 #define SMC37c669_DEVICE_DRQ_A		    ( SMC37c669_DEVICE_DRQ( 0x01 ) )
141 #define SMC37c669_DEVICE_DRQ_B		    ( SMC37c669_DEVICE_DRQ( 0x02 ) )
142 #define SMC37c669_DEVICE_DRQ_C		    ( SMC37c669_DEVICE_DRQ( 0x03 ) )
143 
144 /*
145 ** Configuration Register Index Definitions
146 */
147 #define SMC37c669_CR00_INDEX	    0x00
148 #define SMC37c669_CR01_INDEX	    0x01
149 #define SMC37c669_CR02_INDEX	    0x02
150 #define SMC37c669_CR03_INDEX	    0x03
151 #define SMC37c669_CR04_INDEX	    0x04
152 #define SMC37c669_CR05_INDEX	    0x05
153 #define SMC37c669_CR06_INDEX	    0x06
154 #define SMC37c669_CR07_INDEX	    0x07
155 #define SMC37c669_CR08_INDEX	    0x08
156 #define SMC37c669_CR09_INDEX	    0x09
157 #define SMC37c669_CR0A_INDEX	    0x0A
158 #define SMC37c669_CR0B_INDEX	    0x0B
159 #define SMC37c669_CR0C_INDEX	    0x0C
160 #define SMC37c669_CR0D_INDEX	    0x0D
161 #define SMC37c669_CR0E_INDEX	    0x0E
162 #define SMC37c669_CR0F_INDEX	    0x0F
163 #define SMC37c669_CR10_INDEX	    0x10
164 #define SMC37c669_CR11_INDEX	    0x11
165 #define SMC37c669_CR12_INDEX	    0x12
166 #define SMC37c669_CR13_INDEX	    0x13
167 #define SMC37c669_CR14_INDEX	    0x14
168 #define SMC37c669_CR15_INDEX	    0x15
169 #define SMC37c669_CR16_INDEX	    0x16
170 #define SMC37c669_CR17_INDEX	    0x17
171 #define SMC37c669_CR18_INDEX	    0x18
172 #define SMC37c669_CR19_INDEX	    0x19
173 #define SMC37c669_CR1A_INDEX	    0x1A
174 #define SMC37c669_CR1B_INDEX	    0x1B
175 #define SMC37c669_CR1C_INDEX	    0x1C
176 #define SMC37c669_CR1D_INDEX	    0x1D
177 #define SMC37c669_CR1E_INDEX	    0x1E
178 #define SMC37c669_CR1F_INDEX	    0x1F
179 #define SMC37c669_CR20_INDEX	    0x20
180 #define SMC37c669_CR21_INDEX	    0x21
181 #define SMC37c669_CR22_INDEX	    0x22
182 #define SMC37c669_CR23_INDEX	    0x23
183 #define SMC37c669_CR24_INDEX	    0x24
184 #define SMC37c669_CR25_INDEX	    0x25
185 #define SMC37c669_CR26_INDEX	    0x26
186 #define SMC37c669_CR27_INDEX	    0x27
187 #define SMC37c669_CR28_INDEX	    0x28
188 #define SMC37c669_CR29_INDEX	    0x29
189 
190 /*
191 ** Configuration Register Alias Definitions
192 */
193 #define SMC37c669_DEVICE_ID_INDEX		    SMC37c669_CR0D_INDEX
194 #define SMC37c669_DEVICE_REVISION_INDEX		    SMC37c669_CR0E_INDEX
195 #define SMC37c669_FDC_BASE_ADDRESS_INDEX	    SMC37c669_CR20_INDEX
196 #define SMC37c669_IDE_BASE_ADDRESS_INDEX	    SMC37c669_CR21_INDEX
197 #define SMC37c669_IDE_ALTERNATE_ADDRESS_INDEX	    SMC37c669_CR22_INDEX
198 #define SMC37c669_PARALLEL0_BASE_ADDRESS_INDEX	    SMC37c669_CR23_INDEX
199 #define SMC37c669_SERIAL0_BASE_ADDRESS_INDEX	    SMC37c669_CR24_INDEX
200 #define SMC37c669_SERIAL1_BASE_ADDRESS_INDEX	    SMC37c669_CR25_INDEX
201 #define SMC37c669_PARALLEL_FDC_DRQ_INDEX	    SMC37c669_CR26_INDEX
202 #define SMC37c669_PARALLEL_FDC_IRQ_INDEX	    SMC37c669_CR27_INDEX
203 #define SMC37c669_SERIAL_IRQ_INDEX		    SMC37c669_CR28_INDEX
204 
205 /*
206 ** Configuration Register Definitions
207 **
208 ** The INDEX (write only) and DATA (read/write) ports are effective
209 ** only when the chip is in the Configuration State.
210 */
211 typedef struct _SMC37c669_CONFIG_REGS {
212     unsigned char index_port;
213     unsigned char data_port;
214 } SMC37c669_CONFIG_REGS;
215 
216 /*
217 ** CR00 - default value 0x28
218 **
219 **  IDE_EN (CR00<1:0>):
220 **	0x - 30ua pull-ups on nIDEEN, nHDCS0, NHDCS1
221 **	11 - IRQ_H available as IRQ output,
222 **	     IRRX2, IRTX2 available as alternate IR pins
223 **	10 - nIDEEN, nHDCS0, nHDCS1 used to control IDE
224 **
225 **  VALID (CR00<7>):
226 **	A high level on this software controlled bit can
227 **	be used to indicate that a valid configuration
228 **	cycle has occurred.  The control software must
229 **	take care to set this bit at the appropriate times.
230 **	Set to zero after power up.  This bit has no
231 **	effect on any other hardware in the chip.
232 **
233 */
234 typedef union _SMC37c669_CR00 {
235     unsigned char as_uchar;
236     struct {
237     	unsigned ide_en : 2;	    /* See note above		*/
238 	unsigned reserved1 : 1;	    /* RAZ			*/
239 	unsigned fdc_pwr : 1;	    /* 1 = supply power to FDC  */
240 	unsigned reserved2 : 3;	    /* Read as 010b		*/
241 	unsigned valid : 1;	    /* See note above		*/
242     }	by_field;
243 } SMC37c669_CR00;
244 
245 /*
246 ** CR01 - default value 0x9C
247 */
248 typedef union _SMC37c669_CR01 {
249     unsigned char as_uchar;
250     struct {
251     	unsigned reserved1 : 2;	    /* RAZ			    */
252 	unsigned ppt_pwr : 1;	    /* 1 = supply power to PPT	    */
253 	unsigned ppt_mode : 1;	    /* 1 = Printer mode, 0 = EPP    */
254 	unsigned reserved2 : 1;	    /* Read as 1		    */
255 	unsigned reserved3 : 2;	    /* RAZ			    */
256 	unsigned lock_crx: 1;	    /* Lock CR00 - CR18		    */
257     }	by_field;
258 } SMC37c669_CR01;
259 
260 /*
261 ** CR02 - default value 0x88
262 */
263 typedef union _SMC37c669_CR02 {
264     unsigned char as_uchar;
265     struct {
266     	unsigned reserved1 : 3;	    /* RAZ			    */
267 	unsigned uart1_pwr : 1;	    /* 1 = supply power to UART1    */
268 	unsigned reserved2 : 3;	    /* RAZ			    */
269 	unsigned uart2_pwr : 1;	    /* 1 = supply power to UART2    */
270     }	by_field;
271 } SMC37c669_CR02;
272 
273 /*
274 ** CR03 - default value 0x78
275 **
276 **  CR03<7>	CR03<2>	    Pin 94
277 **  -------	-------	    ------
278 **     0	   X	    DRV2 (input)
279 **     1	   0	    ADRX
280 **     1	   1	    IRQ_B
281 **
282 **  CR03<6>	CR03<5>	    Op Mode
283 **  -------	-------	    -------
284 **     0	   0	    Model 30
285 **     0	   1	    PS/2
286 **     1	   0	    Reserved
287 **     1	   1	    AT Mode
288 */
289 typedef union _SMC37c669_CR03 {
290     unsigned char as_uchar;
291     struct {
292     	unsigned pwrgd_gamecs : 1;  /* 1 = PWRGD, 0 = GAMECS	    */
293 	unsigned fdc_mode2 : 1;	    /* 1 = Enhanced Mode 2	    */
294 	unsigned pin94_0 : 1;	    /* See note above		    */
295 	unsigned reserved1 : 1;	    /* RAZ			    */
296 	unsigned drvden : 1;	    /* 1 = high, 0 - output	    */
297 	unsigned op_mode : 2;	    /* See note above		    */
298 	unsigned pin94_1 : 1;	    /* See note above		    */
299     }	by_field;
300 } SMC37c669_CR03;
301 
302 /*
303 ** CR04 - default value 0x00
304 **
305 **  PP_EXT_MODE:
306 **	If CR01<PP_MODE> = 0 and PP_EXT_MODE =
307 **	    00 - Standard and Bidirectional
308 **	    01 - EPP mode and SPP
309 **	    10 - ECP mode
310 **		 In this mode, 2 drives can be supported
311 **		 directly, 3 or 4 drives must use external
312 **		 4 drive support.  SPP can be selected
313 **		 through the ECR register of ECP as mode 000.
314 **	    11 - ECP mode and EPP mode
315 **		 In this mode, 2 drives can be supported
316 **		 directly, 3 or 4 drives must use external
317 **		 4 drive support.  SPP can be selected
318 **		 through the ECR register of ECP as mode 000.
319 **		 In this mode, EPP can be selected through
320 **		 the ECR register of ECP as mode 100.
321 **
322 **  PP_FDC:
323 **	00 - Normal
324 **	01 - PPFD1
325 **	10 - PPFD2
326 **	11 - Reserved
327 **
328 **  MIDI1:
329 **	Serial Clock Select:
330 **	    A low level on this bit disables MIDI support,
331 **	    clock = divide by 13.  A high level on this
332 **	    bit enables MIDI support, clock = divide by 12.
333 **
334 **	MIDI operates at 31.25 Kbps which can be derived
335 **	from 125 KHz (24 MHz / 12 = 2 MHz, 2 MHz / 16 = 125 KHz)
336 **
337 **  ALT_IO:
338 **	0 - Use pins IRRX, IRTX
339 **	1 - Use pins IRRX2, IRTX2
340 **
341 **	If this bit is set, the IR receive and transmit
342 **	functions will not be available on pins 25 and 26
343 **	unless CR00<IDE_EN> = 11.
344 */
345 typedef union _SMC37c669_CR04 {
346     unsigned char as_uchar;
347     struct {
348     	unsigned ppt_ext_mode : 2;  /* See note above		    */
349 	unsigned ppt_fdc : 2;	    /* See note above		    */
350 	unsigned midi1 : 1;	    /* See note above		    */
351 	unsigned midi2 : 1;	    /* See note above		    */
352 	unsigned epp_type : 1;	    /* 0 = EPP 1.9, 1 = EPP 1.7	    */
353 	unsigned alt_io : 1;	    /* See note above		    */
354     }	by_field;
355 } SMC37c669_CR04;
356 
357 /*
358 ** CR05 - default value 0x00
359 **
360 **  DEN_SEL:
361 **	00 - Densel output normal
362 **	01 - Reserved
363 **	10 - Densel output 1
364 **	11 - Densel output 0
365 **
366 */
367 typedef union _SMC37c669_CR05 {
368     unsigned char as_uchar;
369     struct {
370     	unsigned reserved1 : 2;	    /* RAZ					*/
371 	unsigned fdc_dma_mode : 1;  /* 0 = burst, 1 = non-burst			*/
372 	unsigned den_sel : 2;	    /* See note above				*/
373 	unsigned swap_drv : 1;	    /* Swap the FDC motor selects		*/
374 	unsigned extx4 : 1;	    /* 0 = 2 drive, 1 = external 4 drive decode	*/
375 	unsigned reserved2 : 1;	    /* RAZ					*/
376     }	by_field;
377 } SMC37c669_CR05;
378 
379 /*
380 ** CR06 - default value 0xFF
381 */
382 typedef union _SMC37c669_CR06 {
383     unsigned char as_uchar;
384     struct {
385     	unsigned floppy_a : 2;	    /* Type of floppy drive A	    */
386 	unsigned floppy_b : 2;	    /* Type of floppy drive B	    */
387 	unsigned floppy_c : 2;	    /* Type of floppy drive C	    */
388 	unsigned floppy_d : 2;	    /* Type of floppy drive D	    */
389     }	by_field;
390 } SMC37c669_CR06;
391 
392 /*
393 ** CR07 - default value 0x00
394 **
395 **  Auto Power Management CR07<7:4>:
396 **	0 - Auto Powerdown disabled (default)
397 **	1 - Auto Powerdown enabled
398 **
399 **	This bit is reset to the default state by POR or
400 **	a hardware reset.
401 **
402 */
403 typedef union _SMC37c669_CR07 {
404     unsigned char as_uchar;
405     struct {
406     	unsigned floppy_boot : 2;   /* 0 = A:, 1 = B:		    */
407 	unsigned reserved1 : 2;	    /* RAZ			    */
408 	unsigned ppt_en : 1;	    /* See note above		    */
409 	unsigned uart1_en : 1;	    /* See note above		    */
410 	unsigned uart2_en : 1;	    /* See note above		    */
411 	unsigned fdc_en : 1;	    /* See note above		    */
412     }	by_field;
413 } SMC37c669_CR07;
414 
415 /*
416 ** CR08 - default value 0x00
417 */
418 typedef union _SMC37c669_CR08 {
419     unsigned char as_uchar;
420     struct {
421     	unsigned zero : 4;	    /* 0			    */
422 	unsigned addrx7_4 : 4;	    /* ADR<7:3> for ADRx decode	    */
423     }	by_field;
424 } SMC37c669_CR08;
425 
426 /*
427 ** CR09 - default value 0x00
428 **
429 **  ADRx_CONFIG:
430 **	00 - ADRx disabled
431 **	01 - 1 byte decode A<3:0> = 0000b
432 **	10 - 8 byte block decode A<3:0> = 0XXXb
433 **	11 - 16 byte block decode A<3:0> = XXXXb
434 **
435 */
436 typedef union _SMC37c669_CR09 {
437     unsigned char as_uchar;
438     struct {
439     	unsigned adra8 : 3;	    /* ADR<10:8> for ADRx decode    */
440 	unsigned reserved1 : 3;
441 	unsigned adrx_config : 2;   /* See note above		    */
442     }	by_field;
443 } SMC37c669_CR09;
444 
445 /*
446 ** CR0A - default value 0x00
447 */
448 typedef union _SMC37c669_CR0A {
449     unsigned char as_uchar;
450     struct {
451     	unsigned ecp_fifo_threshold : 4;
452 	unsigned reserved1 : 4;
453     }	by_field;
454 } SMC37c669_CR0A;
455 
456 /*
457 ** CR0B - default value 0x00
458 */
459 typedef union _SMC37c669_CR0B {
460     unsigned char as_uchar;
461     struct {
462     	unsigned fdd0_drtx : 2;	    /* FDD0 Data Rate Table	    */
463 	unsigned fdd1_drtx : 2;	    /* FDD1 Data Rate Table	    */
464 	unsigned fdd2_drtx : 2;	    /* FDD2 Data Rate Table	    */
465 	unsigned fdd3_drtx : 2;	    /* FDD3 Data Rate Table	    */
466     }	by_field;
467 } SMC37c669_CR0B;
468 
469 /*
470 ** CR0C - default value 0x00
471 **
472 **  UART2_MODE:
473 **	000 - Standard (default)
474 **	001 - IrDA (HPSIR)
475 **	010 - Amplitude Shift Keyed IR @500 KHz
476 **	011 - Reserved
477 **	1xx - Reserved
478 **
479 */
480 typedef union _SMC37c669_CR0C {
481     unsigned char as_uchar;
482     struct {
483     	unsigned uart2_rcv_polarity : 1;    /* 1 = invert RX		*/
484 	unsigned uart2_xmit_polarity : 1;   /* 1 = invert TX		*/
485 	unsigned uart2_duplex : 1;	    /* 1 = full, 0 = half	*/
486 	unsigned uart2_mode : 3;	    /* See note above		*/
487 	unsigned uart1_speed : 1;	    /* 1 = high speed enabled	*/
488 	unsigned uart2_speed : 1;	    /* 1 = high speed enabled	*/
489     }	by_field;
490 } SMC37c669_CR0C;
491 
492 /*
493 ** CR0D - default value 0x03
494 **
495 **  Device ID Register - read only
496 */
497 typedef union _SMC37c669_CR0D {
498     unsigned char as_uchar;
499     struct {
500     	unsigned device_id : 8;	    /* Returns 0x3 in this field    */
501     }	by_field;
502 } SMC37c669_CR0D;
503 
504 /*
505 ** CR0E - default value 0x02
506 **
507 **  Device Revision Register - read only
508 */
509 typedef union _SMC37c669_CR0E {
510     unsigned char as_uchar;
511     struct {
512     	unsigned device_rev : 8;    /* Returns 0x2 in this field    */
513     }	by_field;
514 } SMC37c669_CR0E;
515 
516 /*
517 ** CR0F - default value 0x00
518 */
519 typedef union _SMC37c669_CR0F {
520     unsigned char as_uchar;
521     struct {
522     	unsigned test0 : 1;	    /* Reserved - set to 0	    */
523 	unsigned test1 : 1;	    /* Reserved - set to 0	    */
524 	unsigned test2 : 1;	    /* Reserved - set to 0	    */
525 	unsigned test3 : 1;	    /* Reserved - set t0 0	    */
526 	unsigned test4 : 1;	    /* Reserved - set to 0	    */
527 	unsigned test5 : 1;	    /* Reserved - set t0 0	    */
528 	unsigned test6 : 1;	    /* Reserved - set t0 0	    */
529 	unsigned test7 : 1;	    /* Reserved - set to 0	    */
530     }	by_field;
531 } SMC37c669_CR0F;
532 
533 /*
534 ** CR10 - default value 0x00
535 */
536 typedef union _SMC37c669_CR10 {
537     unsigned char as_uchar;
538     struct {
539     	unsigned reserved1 : 3;	     /* RAZ			    */
540 	unsigned pll_gain : 1;	     /* 1 = 3V, 2 = 5V operation    */
541 	unsigned pll_stop : 1;	     /* 1 = stop PLLs		    */
542 	unsigned ace_stop : 1;	     /* 1 = stop UART clocks	    */
543 	unsigned pll_clock_ctrl : 1; /* 0 = 14.318 MHz, 1 = 24 MHz  */
544 	unsigned ir_test : 1;	     /* Enable IR test mode	    */
545     }	by_field;
546 } SMC37c669_CR10;
547 
548 /*
549 ** CR11 - default value 0x00
550 */
551 typedef union _SMC37c669_CR11 {
552     unsigned char as_uchar;
553     struct {
554     	unsigned ir_loopback : 1;   /* Internal IR loop back		    */
555 	unsigned test_10ms : 1;	    /* Test 10ms autopowerdown FDC timeout  */
556 	unsigned reserved1 : 6;	    /* RAZ				    */
557     }	by_field;
558 } SMC37c669_CR11;
559 
560 /*
561 ** CR12 - CR1D are reserved registers
562 */
563 
564 /*
565 ** CR1E - default value 0x80
566 **
567 **  GAMECS:
568 **	00 - GAMECS disabled
569 **	01 - 1 byte decode ADR<3:0> = 0001b
570 **	10 - 8 byte block decode ADR<3:0> = 0XXXb
571 **	11 - 16 byte block decode ADR<3:0> = XXXXb
572 **
573 */
574 typedef union _SMC37c66_CR1E {
575     unsigned char as_uchar;
576     struct {
577     	unsigned gamecs_config: 2;   /* See note above		    */
578 	unsigned gamecs_addr9_4 : 6; /* GAMECS Addr<9:4>	    */
579     }	by_field;
580 } SMC37c669_CR1E;
581 
582 /*
583 ** CR1F - default value 0x00
584 **
585 **  DT0 DT1 DRVDEN0 DRVDEN1 Drive Type
586 **  --- --- ------- ------- ----------
587 **   0   0  DENSEL  DRATE0  4/2/1 MB 3.5"
588 **                          2/1 MB 5.25"
589 **                          2/1.6/1 MB 3.5" (3-mode)
590 **   0   1  DRATE1  DRATE0
591 **   1   0  nDENSEL DRATE0  PS/2
592 **   1   1  DRATE0  DRATE1
593 **
594 **  Note: DENSEL, DRATE1, and DRATE0 map onto two output
595 **	  pins - DRVDEN0 and DRVDEN1.
596 **
597 */
598 typedef union _SMC37c669_CR1F {
599     unsigned char as_uchar;
600     struct {
601     	unsigned fdd0_drive_type : 2;	/* FDD0 drive type	    */
602 	unsigned fdd1_drive_type : 2;	/* FDD1 drive type	    */
603 	unsigned fdd2_drive_type : 2;	/* FDD2 drive type	    */
604 	unsigned fdd3_drive_type : 2;	/* FDD3 drive type	    */
605     }	by_field;
606 } SMC37c669_CR1F;
607 
608 /*
609 ** CR20 - default value 0x3C
610 **
611 **  FDC Base Address Register
612 **	- To disable this decode set Addr<9:8> = 0
613 **	- A<10> = 0, A<3:0> = 0XXXb to access.
614 **
615 */
616 typedef union _SMC37c669_CR20 {
617     unsigned char as_uchar;
618     struct {
619     	unsigned zero : 2;	    /* 0			    */
620 	unsigned addr9_4 : 6;	    /* FDC Addr<9:4>		    */
621     }	by_field;
622 } SMC37c669_CR20;
623 
624 /*
625 ** CR21 - default value 0x3C
626 **
627 **  IDE Base Address Register
628 **	- To disable this decode set Addr<9:8> = 0
629 **	- A<10> = 0, A<3:0> = 0XXXb to access.
630 **
631 */
632 typedef union _SMC37c669_CR21 {
633     unsigned char as_uchar;
634     struct {
635     	unsigned zero : 2;	    /* 0			    */
636 	unsigned addr9_4 : 6;	    /* IDE Addr<9:4>		    */
637     }	by_field;
638 } SMC37c669_CR21;
639 
640 /*
641 ** CR22 - default value 0x3D
642 **
643 **  IDE Alternate Status Base Address Register
644 **	- To disable this decode set Addr<9:8> = 0
645 **	- A<10> = 0, A<3:0> = 0110b to access.
646 **
647 */
648 typedef union _SMC37c669_CR22 {
649     unsigned char as_uchar;
650     struct {
651     	unsigned zero : 2;	    /* 0			    */
652 	unsigned addr9_4 : 6;	    /* IDE Alt Status Addr<9:4>	    */
653     }	by_field;
654 } SMC37c669_CR22;
655 
656 /*
657 ** CR23 - default value 0x00
658 **
659 **  Parallel Port Base Address Register
660 **	- To disable this decode set Addr<9:8> = 0
661 **	- A<10> = 0 to access.
662 **	- If EPP is enabled, A<2:0> = XXXb to access.
663 **	  If EPP is NOT enabled, A<1:0> = XXb to access
664 **
665 */
666 typedef union _SMC37c669_CR23 {
667     unsigned char as_uchar;
668     struct {
669 	unsigned addr9_2 : 8;	    /* Parallel Port Addr<9:2>	    */
670     }	by_field;
671 } SMC37c669_CR23;
672 
673 /*
674 ** CR24 - default value 0x00
675 **
676 **  UART1 Base Address Register
677 **	- To disable this decode set Addr<9:8> = 0
678 **	- A<10> = 0, A<2:0> = XXXb to access.
679 **
680 */
681 typedef union _SMC37c669_CR24 {
682     unsigned char as_uchar;
683     struct {
684     	unsigned zero : 1;	    /* 0			    */
685 	unsigned addr9_3 : 7;	    /* UART1 Addr<9:3>		    */
686     }	by_field;
687 } SMC37c669_CR24;
688 
689 /*
690 ** CR25 - default value 0x00
691 **
692 **  UART2 Base Address Register
693 **	- To disable this decode set Addr<9:8> = 0
694 **	- A<10> = 0, A<2:0> = XXXb to access.
695 **
696 */
697 typedef union _SMC37c669_CR25 {
698     unsigned char as_uchar;
699     struct {
700     	unsigned zero : 1;	    /* 0			    */
701 	unsigned addr9_3 : 7;	    /* UART2 Addr<9:3>		    */
702     }	by_field;
703 } SMC37c669_CR25;
704 
705 /*
706 ** CR26 - default value 0x00
707 **
708 **  Parallel Port / FDC DMA Select Register
709 **
710 **  D3 - D0	  DMA
711 **  D7 - D4	Selected
712 **  -------	--------
713 **   0000	 None
714 **   0001	 DMA_A
715 **   0010	 DMA_B
716 **   0011	 DMA_C
717 **
718 */
719 typedef union _SMC37c669_CR26 {
720     unsigned char as_uchar;
721     struct {
722     	unsigned ppt_drq : 4;	    /* See note above		    */
723 	unsigned fdc_drq : 4;	    /* See note above		    */
724     }	by_field;
725 } SMC37c669_CR26;
726 
727 /*
728 ** CR27 - default value 0x00
729 **
730 **  Parallel Port / FDC IRQ Select Register
731 **
732 **  D3 - D0	  IRQ
733 **  D7 - D4	Selected
734 **  -------	--------
735 **   0000	 None
736 **   0001	 IRQ_A
737 **   0010	 IRQ_B
738 **   0011	 IRQ_C
739 **   0100	 IRQ_D
740 **   0101	 IRQ_E
741 **   0110	 IRQ_F
742 **   0111	 Reserved
743 **   1000	 IRQ_H
744 **
745 **  Any unselected IRQ REQ is in tristate
746 **
747 */
748 typedef union _SMC37c669_CR27 {
749     unsigned char as_uchar;
750     struct {
751     	unsigned ppt_irq : 4;	    /* See note above		    */
752 	unsigned fdc_irq : 4;	    /* See note above		    */
753     }	by_field;
754 } SMC37c669_CR27;
755 
756 /*
757 ** CR28 - default value 0x00
758 **
759 **  UART IRQ Select Register
760 **
761 **  D3 - D0	  IRQ
762 **  D7 - D4	Selected
763 **  -------	--------
764 **   0000	 None
765 **   0001	 IRQ_A
766 **   0010	 IRQ_B
767 **   0011	 IRQ_C
768 **   0100	 IRQ_D
769 **   0101	 IRQ_E
770 **   0110	 IRQ_F
771 **   0111	 Reserved
772 **   1000	 IRQ_H
773 **   1111	 share with UART1 (only for UART2)
774 **
775 **  Any unselected IRQ REQ is in tristate
776 **
777 **  To share an IRQ between UART1 and UART2, set
778 **  UART1 to use the desired IRQ and set UART2 to
779 **  0xF to enable sharing mechanism.
780 **
781 */
782 typedef union _SMC37c669_CR28 {
783     unsigned char as_uchar;
784     struct {
785     	unsigned uart2_irq : 4;	    /* See note above		    */
786 	unsigned uart1_irq : 4;	    /* See note above		    */
787     }	by_field;
788 } SMC37c669_CR28;
789 
790 /*
791 ** CR29 - default value 0x00
792 **
793 **  IRQIN IRQ Select Register
794 **
795 **  D3 - D0	  IRQ
796 **  D7 - D4	Selected
797 **  -------	--------
798 **   0000	 None
799 **   0001	 IRQ_A
800 **   0010	 IRQ_B
801 **   0011	 IRQ_C
802 **   0100	 IRQ_D
803 **   0101	 IRQ_E
804 **   0110	 IRQ_F
805 **   0111	 Reserved
806 **   1000	 IRQ_H
807 **
808 **  Any unselected IRQ REQ is in tristate
809 **
810 */
811 typedef union _SMC37c669_CR29 {
812     unsigned char as_uchar;
813     struct {
814     	unsigned irqin_irq : 4;	    /* See note above		    */
815 	unsigned reserved1 : 4;	    /* RAZ			    */
816     }	by_field;
817 } SMC37c669_CR29;
818 
819 /*
820 ** Aliases of Configuration Register formats (should match
821 ** the set of index aliases).
822 **
823 ** Note that CR24 and CR25 have the same format and are the
824 ** base address registers for UART1 and UART2.  Because of
825 ** this we only define 1 alias here - for CR24 - as the serial
826 ** base address register.
827 **
828 ** Note that CR21 and CR22 have the same format and are the
829 ** base address and alternate status address registers for
830 ** the IDE controller.  Because of this we only define 1 alias
831 ** here - for CR21 - as the IDE address register.
832 **
833 */
834 typedef SMC37c669_CR0D SMC37c669_DEVICE_ID_REGISTER;
835 typedef SMC37c669_CR0E SMC37c669_DEVICE_REVISION_REGISTER;
836 typedef SMC37c669_CR20 SMC37c669_FDC_BASE_ADDRESS_REGISTER;
837 typedef SMC37c669_CR21 SMC37c669_IDE_ADDRESS_REGISTER;
838 typedef SMC37c669_CR23 SMC37c669_PARALLEL_BASE_ADDRESS_REGISTER;
839 typedef SMC37c669_CR24 SMC37c669_SERIAL_BASE_ADDRESS_REGISTER;
840 typedef SMC37c669_CR26 SMC37c669_PARALLEL_FDC_DRQ_REGISTER;
841 typedef SMC37c669_CR27 SMC37c669_PARALLEL_FDC_IRQ_REGISTER;
842 typedef SMC37c669_CR28 SMC37c669_SERIAL_IRQ_REGISTER;
843 
844 /*
845 ** ISA/Device IRQ Translation Table Entry Definition
846 */
847 typedef struct _SMC37c669_IRQ_TRANSLATION_ENTRY {
848     int device_irq;
849     int isa_irq;
850 } SMC37c669_IRQ_TRANSLATION_ENTRY;
851 
852 /*
853 ** ISA/Device DMA Translation Table Entry Definition
854 */
855 typedef struct _SMC37c669_DRQ_TRANSLATION_ENTRY {
856     int device_drq;
857     int isa_drq;
858 } SMC37c669_DRQ_TRANSLATION_ENTRY;
859 
860 /*
861 ** External Interface Function Prototype Declarations
862 */
863 
864 SMC37c669_CONFIG_REGS *SMC37c669_detect(
865     int
866 );
867 
868 unsigned int SMC37c669_enable_device(
869     unsigned int func
870 );
871 
872 unsigned int SMC37c669_disable_device(
873     unsigned int func
874 );
875 
876 unsigned int SMC37c669_configure_device(
877     unsigned int func,
878     int port,
879     int irq,
880     int drq
881 );
882 
883 void SMC37c669_display_device_info(
884     void
885 );
886 
887 #endif	/* __SMC37c669_H */
888 
889 /* file:	smcc669.c
890  *
891  * Copyright (C) 1997 by
892  * Digital Equipment Corporation, Maynard, Massachusetts.
893  * All rights reserved.
894  *
895  * This software is furnished under a license and may be used and copied
896  * only  in  accordance  of  the  terms  of  such  license  and with the
897  * inclusion of the above copyright notice. This software or  any  other
898  * copies thereof may not be provided or otherwise made available to any
899  * other person.  No title to and  ownership of the  software is  hereby
900  * transferred.
901  *
902  * The information in this software is  subject to change without notice
903  * and  should  not  be  construed  as a commitment by digital equipment
904  * corporation.
905  *
906  * Digital assumes no responsibility for the use  or  reliability of its
907  * software on equipment which is not supplied by digital.
908  */
909 
910 /*
911  *++
912  *  FACILITY:
913  *
914  *      Alpha SRM Console Firmware
915  *
916  *  MODULE DESCRIPTION:
917  *
918  *	SMC37c669 Super I/O controller configuration routines.
919  *
920  *  AUTHORS:
921  *
922  *	Eric Rasmussen
923  *
924  *  CREATION DATE:
925  *
926  *	28-Jan-1997
927  *
928  *  MODIFICATION HISTORY:
929  *
930  *	er	01-May-1997	Fixed pointer conversion errors in
931  *				SMC37c669_get_device_config().
932  *      er	28-Jan-1997	Initial version.
933  *
934  *--
935  */
936 
937 #ifndef TRUE
938 #define TRUE 1
939 #endif
940 #ifndef FALSE
941 #define FALSE 0
942 #endif
943 
944 #define wb( _x_, _y_ )	outb( _y_, (unsigned int)((unsigned long)_x_) )
945 #define rb( _x_ )	inb( (unsigned int)((unsigned long)_x_) )
946 
947 /*
948 ** Local storage for device configuration information.
949 **
950 ** Since the SMC37c669 does not provide an explicit
951 ** mechanism for enabling/disabling individual device
952 ** functions, other than unmapping the device, local
953 ** storage for device configuration information is
954 ** allocated here for use in implementing our own
955 ** function enable/disable scheme.
956 */
957 static struct DEVICE_CONFIG {
958     unsigned int port1;
959     unsigned int port2;
960     int irq;
961     int drq;
962 } local_config [NUM_FUNCS];
963 
964 /*
965 ** List of all possible addresses for the Super I/O chip
966 */
967 static unsigned long SMC37c669_Addresses[] __initdata =
968     {
969 	0x3F0UL,	    /* Primary address	    */
970 	0x370UL,	    /* Secondary address    */
971 	0UL		    /* End of list	    */
972     };
973 
974 /*
975 ** Global Pointer to the Super I/O device
976 */
977 static SMC37c669_CONFIG_REGS *SMC37c669 __initdata = NULL;
978 
979 /*
980 ** IRQ Translation Table
981 **
982 ** The IRQ translation table is a list of SMC37c669 device
983 ** and standard ISA IRQs.
984 **
985 */
986 static SMC37c669_IRQ_TRANSLATION_ENTRY *SMC37c669_irq_table __initdata;
987 
988 /*
989 ** The following definition is for the default IRQ
990 ** translation table.
991 */
992 static SMC37c669_IRQ_TRANSLATION_ENTRY SMC37c669_default_irq_table[]
993 __initdata =
994     {
995 	{ SMC37c669_DEVICE_IRQ_A, -1 },
996 	{ SMC37c669_DEVICE_IRQ_B, -1 },
997 	{ SMC37c669_DEVICE_IRQ_C, 7 },
998 	{ SMC37c669_DEVICE_IRQ_D, 6 },
999 	{ SMC37c669_DEVICE_IRQ_E, 4 },
1000 	{ SMC37c669_DEVICE_IRQ_F, 3 },
1001 	{ SMC37c669_DEVICE_IRQ_H, -1 },
1002 	{ -1, -1 } /* End of table */
1003     };
1004 
1005 /*
1006 ** The following definition is for the MONET (XP1000) IRQ
1007 ** translation table.
1008 */
1009 static SMC37c669_IRQ_TRANSLATION_ENTRY SMC37c669_monet_irq_table[]
1010 __initdata =
1011     {
1012 	{ SMC37c669_DEVICE_IRQ_A, -1 },
1013 	{ SMC37c669_DEVICE_IRQ_B, -1 },
1014 	{ SMC37c669_DEVICE_IRQ_C, 6 },
1015 	{ SMC37c669_DEVICE_IRQ_D, 7 },
1016 	{ SMC37c669_DEVICE_IRQ_E, 4 },
1017 	{ SMC37c669_DEVICE_IRQ_F, 3 },
1018 	{ SMC37c669_DEVICE_IRQ_H, -1 },
1019 	{ -1, -1 } /* End of table */
1020     };
1021 
1022 static SMC37c669_IRQ_TRANSLATION_ENTRY *SMC37c669_irq_tables[] __initdata =
1023     {
1024 	SMC37c669_default_irq_table,
1025 	SMC37c669_monet_irq_table
1026     };
1027 
1028 /*
1029 ** DRQ Translation Table
1030 **
1031 ** The DRQ translation table is a list of SMC37c669 device and
1032 ** ISA DMA channels.
1033 **
1034 */
1035 static SMC37c669_DRQ_TRANSLATION_ENTRY *SMC37c669_drq_table __initdata;
1036 
1037 /*
1038 ** The following definition is the default DRQ
1039 ** translation table.
1040 */
1041 static SMC37c669_DRQ_TRANSLATION_ENTRY SMC37c669_default_drq_table[]
1042 __initdata =
1043     {
1044 	{ SMC37c669_DEVICE_DRQ_A, 2 },
1045 	{ SMC37c669_DEVICE_DRQ_B, 3 },
1046 	{ SMC37c669_DEVICE_DRQ_C, -1 },
1047 	{ -1, -1 } /* End of table */
1048     };
1049 
1050 /*
1051 ** Local Function Prototype Declarations
1052 */
1053 
1054 static unsigned int SMC37c669_is_device_enabled(
1055     unsigned int func
1056 );
1057 
1058 #if 0
1059 static unsigned int SMC37c669_get_device_config(
1060     unsigned int func,
1061     int *port,
1062     int *irq,
1063     int *drq
1064 );
1065 #endif
1066 
1067 static void SMC37c669_config_mode(
1068     unsigned int enable
1069 );
1070 
1071 static unsigned char SMC37c669_read_config(
1072     unsigned char index
1073 );
1074 
1075 static void SMC37c669_write_config(
1076     unsigned char index,
1077     unsigned char data
1078 );
1079 
1080 static void SMC37c669_init_local_config( void );
1081 
1082 static struct DEVICE_CONFIG *SMC37c669_get_config(
1083     unsigned int func
1084 );
1085 
1086 static int SMC37c669_xlate_irq(
1087     int irq
1088 );
1089 
1090 static int SMC37c669_xlate_drq(
1091     int drq
1092 );
1093 
1094 static  __cacheline_aligned DEFINE_SPINLOCK(smc_lock);
1095 
1096 /*
1097 **++
1098 **  FUNCTIONAL DESCRIPTION:
1099 **
1100 **      This function detects the presence of an SMC37c669 Super I/O
1101 **	controller.
1102 **
1103 **  FORMAL PARAMETERS:
1104 **
1105 **	None
1106 **
1107 **  RETURN VALUE:
1108 **
1109 **      Returns a pointer to the device if found, otherwise,
1110 **	the NULL pointer is returned.
1111 **
1112 **  SIDE EFFECTS:
1113 **
1114 **      None
1115 **
1116 **--
1117 */
1118 SMC37c669_CONFIG_REGS * __init SMC37c669_detect( int index )
1119 {
1120     int i;
1121     SMC37c669_DEVICE_ID_REGISTER id;
1122 
1123     for ( i = 0;  SMC37c669_Addresses[i] != 0;  i++ ) {
1124 /*
1125 ** Initialize the device pointer even though we don't yet know if
1126 ** the controller is at this address.  The support functions access
1127 ** the controller through this device pointer so we need to set it
1128 ** even when we are looking ...
1129 */
1130     	SMC37c669 = ( SMC37c669_CONFIG_REGS * )SMC37c669_Addresses[i];
1131 /*
1132 ** Enter configuration mode
1133 */
1134 	SMC37c669_config_mode( TRUE );
1135 /*
1136 ** Read the device id
1137 */
1138 	id.as_uchar = SMC37c669_read_config( SMC37c669_DEVICE_ID_INDEX );
1139 /*
1140 ** Exit configuration mode
1141 */
1142 	SMC37c669_config_mode( FALSE );
1143 /*
1144 ** Does the device id match?  If so, assume we have found an
1145 ** SMC37c669 controller at this address.
1146 */
1147 	if ( id.by_field.device_id == SMC37c669_DEVICE_ID ) {
1148 /*
1149 ** Initialize the IRQ and DRQ translation tables.
1150 */
1151     	    SMC37c669_irq_table = SMC37c669_irq_tables[ index ];
1152 	    SMC37c669_drq_table = SMC37c669_default_drq_table;
1153 /*
1154 ** erfix
1155 **
1156 ** If the platform can't use the IRQ and DRQ defaults set up in this
1157 ** file, it should call a platform-specific external routine at this
1158 ** point to reset the IRQ and DRQ translation table pointers to point
1159 ** at the appropriate tables for the platform.  If the defaults are
1160 ** acceptable, then the external routine should do nothing.
1161 */
1162 
1163 /*
1164 ** Put the chip back into configuration mode
1165 */
1166 	    SMC37c669_config_mode( TRUE );
1167 /*
1168 ** Initialize local storage for configuration information
1169 */
1170 	    SMC37c669_init_local_config( );
1171 /*
1172 ** Exit configuration mode
1173 */
1174 	    SMC37c669_config_mode( FALSE );
1175 /*
1176 ** SMC37c669 controller found, break out of search loop
1177 */
1178 	    break;
1179 	}
1180 	else {
1181 /*
1182 ** Otherwise, we did not find an SMC37c669 controller at this
1183 ** address so set the device pointer to NULL.
1184 */
1185 	    SMC37c669 = NULL;
1186 	}
1187     }
1188     return SMC37c669;
1189 }
1190 
1191 
1192 /*
1193 **++
1194 **  FUNCTIONAL DESCRIPTION:
1195 **
1196 **      This function enables an SMC37c669 device function.
1197 **
1198 **  FORMAL PARAMETERS:
1199 **
1200 **      func:
1201 **          Which device function to enable
1202 **
1203 **  RETURN VALUE:
1204 **
1205 **      Returns TRUE is the device function was enabled, otherwise, FALSE
1206 **
1207 **  SIDE EFFECTS:
1208 **
1209 **      {@description or none@}
1210 **
1211 **  DESIGN:
1212 **
1213 **      Enabling a device function in the SMC37c669 controller involves
1214 **	setting all of its mappings (port, irq, drq ...).  A local
1215 **	"shadow" copy of the device configuration is kept so we can
1216 **	just set each mapping to what the local copy says.
1217 **
1218 **	This function ALWAYS updates the local shadow configuration of
1219 **	the device function being enabled, even if the device is always
1220 **	enabled.  To avoid replication of code, functions such as
1221 **	configure_device set up the local copy and then call this
1222 **	function to the update the real device.
1223 **
1224 **--
1225 */
1226 unsigned int __init SMC37c669_enable_device ( unsigned int func )
1227 {
1228     unsigned int ret_val = FALSE;
1229 /*
1230 ** Put the device into configuration mode
1231 */
1232     SMC37c669_config_mode( TRUE );
1233     switch ( func ) {
1234     	case SERIAL_0:
1235 	    {
1236 	    	SMC37c669_SERIAL_BASE_ADDRESS_REGISTER base_addr;
1237 		SMC37c669_SERIAL_IRQ_REGISTER irq;
1238 /*
1239 ** Enable the serial 1 IRQ mapping
1240 */
1241 	    	irq.as_uchar =
1242 		    SMC37c669_read_config( SMC37c669_SERIAL_IRQ_INDEX );
1243 
1244 		irq.by_field.uart1_irq =
1245 		    SMC37c669_RAW_DEVICE_IRQ(
1246 			SMC37c669_xlate_irq( local_config[ func ].irq )
1247 		    );
1248 
1249 		SMC37c669_write_config( SMC37c669_SERIAL_IRQ_INDEX, irq.as_uchar );
1250 /*
1251 ** Enable the serial 1 port base address mapping
1252 */
1253 		base_addr.as_uchar = 0;
1254 		base_addr.by_field.addr9_3 = local_config[ func ].port1 >> 3;
1255 
1256 		SMC37c669_write_config(
1257 		    SMC37c669_SERIAL0_BASE_ADDRESS_INDEX,
1258 		    base_addr.as_uchar
1259 		);
1260 		ret_val = TRUE;
1261 		break;
1262 	    }
1263 	case SERIAL_1:
1264 	    {
1265 	    	SMC37c669_SERIAL_BASE_ADDRESS_REGISTER base_addr;
1266 		SMC37c669_SERIAL_IRQ_REGISTER irq;
1267 /*
1268 ** Enable the serial 2 IRQ mapping
1269 */
1270 	    	irq.as_uchar =
1271 		    SMC37c669_read_config( SMC37c669_SERIAL_IRQ_INDEX );
1272 
1273 		irq.by_field.uart2_irq =
1274 		    SMC37c669_RAW_DEVICE_IRQ(
1275 			SMC37c669_xlate_irq( local_config[ func ].irq )
1276 		    );
1277 
1278 		SMC37c669_write_config( SMC37c669_SERIAL_IRQ_INDEX, irq.as_uchar );
1279 /*
1280 ** Enable the serial 2 port base address mapping
1281 */
1282 		base_addr.as_uchar = 0;
1283 		base_addr.by_field.addr9_3 = local_config[ func ].port1 >> 3;
1284 
1285 		SMC37c669_write_config(
1286 		    SMC37c669_SERIAL1_BASE_ADDRESS_INDEX,
1287 		    base_addr.as_uchar
1288 		);
1289 		ret_val = TRUE;
1290 		break;
1291 	    }
1292 	case PARALLEL_0:
1293 	    {
1294 	    	SMC37c669_PARALLEL_BASE_ADDRESS_REGISTER base_addr;
1295 		SMC37c669_PARALLEL_FDC_IRQ_REGISTER irq;
1296 		SMC37c669_PARALLEL_FDC_DRQ_REGISTER drq;
1297 /*
1298 ** Enable the parallel port DMA channel mapping
1299 */
1300 	    	drq.as_uchar =
1301 		    SMC37c669_read_config( SMC37c669_PARALLEL_FDC_DRQ_INDEX );
1302 
1303 		drq.by_field.ppt_drq =
1304 		    SMC37c669_RAW_DEVICE_DRQ(
1305 			SMC37c669_xlate_drq( local_config[ func ].drq )
1306 		    );
1307 
1308 		SMC37c669_write_config(
1309 		    SMC37c669_PARALLEL_FDC_DRQ_INDEX,
1310 		    drq.as_uchar
1311 		);
1312 /*
1313 ** Enable the parallel port IRQ mapping
1314 */
1315 		irq.as_uchar =
1316 		    SMC37c669_read_config( SMC37c669_PARALLEL_FDC_IRQ_INDEX );
1317 
1318 		irq.by_field.ppt_irq =
1319 		    SMC37c669_RAW_DEVICE_IRQ(
1320 			SMC37c669_xlate_irq( local_config[ func ].irq )
1321 		    );
1322 
1323 		SMC37c669_write_config(
1324 		    SMC37c669_PARALLEL_FDC_IRQ_INDEX,
1325 		    irq.as_uchar
1326 		);
1327 /*
1328 ** Enable the parallel port base address mapping
1329 */
1330 		base_addr.as_uchar = 0;
1331 		base_addr.by_field.addr9_2 = local_config[ func ].port1 >> 2;
1332 
1333 		SMC37c669_write_config(
1334 		    SMC37c669_PARALLEL0_BASE_ADDRESS_INDEX,
1335 		    base_addr.as_uchar
1336 		);
1337 		ret_val = TRUE;
1338 		break;
1339 	    }
1340 	case FLOPPY_0:
1341 	    {
1342 	    	SMC37c669_FDC_BASE_ADDRESS_REGISTER base_addr;
1343 		SMC37c669_PARALLEL_FDC_IRQ_REGISTER irq;
1344 		SMC37c669_PARALLEL_FDC_DRQ_REGISTER drq;
1345 /*
1346 ** Enable the floppy controller DMA channel mapping
1347 */
1348 	    	drq.as_uchar =
1349 		    SMC37c669_read_config( SMC37c669_PARALLEL_FDC_DRQ_INDEX );
1350 
1351 		drq.by_field.fdc_drq =
1352 		    SMC37c669_RAW_DEVICE_DRQ(
1353 			SMC37c669_xlate_drq( local_config[ func ].drq )
1354 		    );
1355 
1356 		SMC37c669_write_config(
1357 		    SMC37c669_PARALLEL_FDC_DRQ_INDEX,
1358 		    drq.as_uchar
1359 		);
1360 /*
1361 ** Enable the floppy controller IRQ mapping
1362 */
1363 		irq.as_uchar =
1364 		    SMC37c669_read_config( SMC37c669_PARALLEL_FDC_IRQ_INDEX );
1365 
1366 		irq.by_field.fdc_irq =
1367 		    SMC37c669_RAW_DEVICE_IRQ(
1368 			SMC37c669_xlate_irq( local_config[ func ].irq )
1369 		    );
1370 
1371 		SMC37c669_write_config(
1372 		    SMC37c669_PARALLEL_FDC_IRQ_INDEX,
1373 		    irq.as_uchar
1374 		);
1375 /*
1376 ** Enable the floppy controller base address mapping
1377 */
1378 		base_addr.as_uchar = 0;
1379 		base_addr.by_field.addr9_4 = local_config[ func ].port1 >> 4;
1380 
1381 		SMC37c669_write_config(
1382 		    SMC37c669_FDC_BASE_ADDRESS_INDEX,
1383 		    base_addr.as_uchar
1384 		);
1385 		ret_val = TRUE;
1386 		break;
1387 	    }
1388 	case IDE_0:
1389 	    {
1390 	    	SMC37c669_IDE_ADDRESS_REGISTER ide_addr;
1391 /*
1392 ** Enable the IDE alternate status base address mapping
1393 */
1394 	    	ide_addr.as_uchar = 0;
1395 		ide_addr.by_field.addr9_4 = local_config[ func ].port2 >> 4;
1396 
1397 		SMC37c669_write_config(
1398 		    SMC37c669_IDE_ALTERNATE_ADDRESS_INDEX,
1399 		    ide_addr.as_uchar
1400 		);
1401 /*
1402 ** Enable the IDE controller base address mapping
1403 */
1404 		ide_addr.as_uchar = 0;
1405 		ide_addr.by_field.addr9_4 = local_config[ func ].port1 >> 4;
1406 
1407 		SMC37c669_write_config(
1408 		    SMC37c669_IDE_BASE_ADDRESS_INDEX,
1409 		    ide_addr.as_uchar
1410 		);
1411 		ret_val = TRUE;
1412 		break;
1413 	    }
1414     }
1415 /*
1416 ** Exit configuration mode and return
1417 */
1418     SMC37c669_config_mode( FALSE );
1419 
1420     return ret_val;
1421 }
1422 
1423 
1424 /*
1425 **++
1426 **  FUNCTIONAL DESCRIPTION:
1427 **
1428 **      This function disables a device function within the
1429 **	SMC37c669 Super I/O controller.
1430 **
1431 **  FORMAL PARAMETERS:
1432 **
1433 **      func:
1434 **          Which function to disable
1435 **
1436 **  RETURN VALUE:
1437 **
1438 **      Return TRUE if the device function was disabled, otherwise, FALSE
1439 **
1440 **  SIDE EFFECTS:
1441 **
1442 **      {@description or none@}
1443 **
1444 **  DESIGN:
1445 **
1446 **      Disabling a function in the SMC37c669 device involves
1447 **	disabling all the function's mappings (port, irq, drq ...).
1448 **	A shadow copy of the device configuration is maintained
1449 **	in local storage so we won't worry aboving saving the
1450 **	current configuration information.
1451 **
1452 **--
1453 */
1454 unsigned int __init SMC37c669_disable_device ( unsigned int func )
1455 {
1456     unsigned int ret_val = FALSE;
1457 
1458 /*
1459 ** Put the device into configuration mode
1460 */
1461     SMC37c669_config_mode( TRUE );
1462     switch ( func ) {
1463     	case SERIAL_0:
1464 	    {
1465 	    	SMC37c669_SERIAL_BASE_ADDRESS_REGISTER base_addr;
1466 		SMC37c669_SERIAL_IRQ_REGISTER irq;
1467 /*
1468 ** Disable the serial 1 IRQ mapping
1469 */
1470 	    	irq.as_uchar =
1471 		    SMC37c669_read_config( SMC37c669_SERIAL_IRQ_INDEX );
1472 
1473 		irq.by_field.uart1_irq = 0;
1474 
1475 		SMC37c669_write_config( SMC37c669_SERIAL_IRQ_INDEX, irq.as_uchar );
1476 /*
1477 ** Disable the serial 1 port base address mapping
1478 */
1479 		base_addr.as_uchar = 0;
1480 		SMC37c669_write_config(
1481 		    SMC37c669_SERIAL0_BASE_ADDRESS_INDEX,
1482 		    base_addr.as_uchar
1483 		);
1484 		ret_val = TRUE;
1485 		break;
1486 	    }
1487 	case SERIAL_1:
1488 	    {
1489 	    	SMC37c669_SERIAL_BASE_ADDRESS_REGISTER base_addr;
1490 		SMC37c669_SERIAL_IRQ_REGISTER irq;
1491 /*
1492 ** Disable the serial 2 IRQ mapping
1493 */
1494 	    	irq.as_uchar =
1495 		    SMC37c669_read_config( SMC37c669_SERIAL_IRQ_INDEX );
1496 
1497 		irq.by_field.uart2_irq = 0;
1498 
1499 		SMC37c669_write_config( SMC37c669_SERIAL_IRQ_INDEX, irq.as_uchar );
1500 /*
1501 ** Disable the serial 2 port base address mapping
1502 */
1503 		base_addr.as_uchar = 0;
1504 
1505 		SMC37c669_write_config(
1506 		    SMC37c669_SERIAL1_BASE_ADDRESS_INDEX,
1507 		    base_addr.as_uchar
1508 		);
1509 		ret_val = TRUE;
1510 		break;
1511 	    }
1512 	case PARALLEL_0:
1513 	    {
1514 	    	SMC37c669_PARALLEL_BASE_ADDRESS_REGISTER base_addr;
1515 		SMC37c669_PARALLEL_FDC_IRQ_REGISTER irq;
1516 		SMC37c669_PARALLEL_FDC_DRQ_REGISTER drq;
1517 /*
1518 ** Disable the parallel port DMA channel mapping
1519 */
1520 	    	drq.as_uchar =
1521 		    SMC37c669_read_config( SMC37c669_PARALLEL_FDC_DRQ_INDEX );
1522 
1523 		drq.by_field.ppt_drq = 0;
1524 
1525 		SMC37c669_write_config(
1526 		    SMC37c669_PARALLEL_FDC_DRQ_INDEX,
1527 		    drq.as_uchar
1528 		);
1529 /*
1530 ** Disable the parallel port IRQ mapping
1531 */
1532 		irq.as_uchar =
1533 		    SMC37c669_read_config( SMC37c669_PARALLEL_FDC_IRQ_INDEX );
1534 
1535 		irq.by_field.ppt_irq = 0;
1536 
1537 		SMC37c669_write_config(
1538 		    SMC37c669_PARALLEL_FDC_IRQ_INDEX,
1539 		    irq.as_uchar
1540 		);
1541 /*
1542 ** Disable the parallel port base address mapping
1543 */
1544 		base_addr.as_uchar = 0;
1545 
1546 		SMC37c669_write_config(
1547 		    SMC37c669_PARALLEL0_BASE_ADDRESS_INDEX,
1548 		    base_addr.as_uchar
1549 		);
1550 		ret_val = TRUE;
1551 		break;
1552 	    }
1553 	case FLOPPY_0:
1554 	    {
1555 	    	SMC37c669_FDC_BASE_ADDRESS_REGISTER base_addr;
1556 		SMC37c669_PARALLEL_FDC_IRQ_REGISTER irq;
1557 		SMC37c669_PARALLEL_FDC_DRQ_REGISTER drq;
1558 /*
1559 ** Disable the floppy controller DMA channel mapping
1560 */
1561 	    	drq.as_uchar =
1562 		    SMC37c669_read_config( SMC37c669_PARALLEL_FDC_DRQ_INDEX );
1563 
1564 		drq.by_field.fdc_drq = 0;
1565 
1566 		SMC37c669_write_config(
1567 		    SMC37c669_PARALLEL_FDC_DRQ_INDEX,
1568 		    drq.as_uchar
1569 		);
1570 /*
1571 ** Disable the floppy controller IRQ mapping
1572 */
1573 		irq.as_uchar =
1574 		    SMC37c669_read_config( SMC37c669_PARALLEL_FDC_IRQ_INDEX );
1575 
1576 		irq.by_field.fdc_irq = 0;
1577 
1578 		SMC37c669_write_config(
1579 		    SMC37c669_PARALLEL_FDC_IRQ_INDEX,
1580 		    irq.as_uchar
1581 		);
1582 /*
1583 ** Disable the floppy controller base address mapping
1584 */
1585 		base_addr.as_uchar = 0;
1586 
1587 		SMC37c669_write_config(
1588 		    SMC37c669_FDC_BASE_ADDRESS_INDEX,
1589 		    base_addr.as_uchar
1590 		);
1591 		ret_val = TRUE;
1592 		break;
1593 	    }
1594 	case IDE_0:
1595 	    {
1596 	    	SMC37c669_IDE_ADDRESS_REGISTER ide_addr;
1597 /*
1598 ** Disable the IDE alternate status base address mapping
1599 */
1600 	    	ide_addr.as_uchar = 0;
1601 
1602 		SMC37c669_write_config(
1603 		    SMC37c669_IDE_ALTERNATE_ADDRESS_INDEX,
1604 		    ide_addr.as_uchar
1605 		);
1606 /*
1607 ** Disable the IDE controller base address mapping
1608 */
1609 		ide_addr.as_uchar = 0;
1610 
1611 		SMC37c669_write_config(
1612 		    SMC37c669_IDE_BASE_ADDRESS_INDEX,
1613 		    ide_addr.as_uchar
1614 		);
1615 		ret_val = TRUE;
1616 		break;
1617 	    }
1618     }
1619 /*
1620 ** Exit configuration mode and return
1621 */
1622     SMC37c669_config_mode( FALSE );
1623 
1624     return ret_val;
1625 }
1626 
1627 
1628 /*
1629 **++
1630 **  FUNCTIONAL DESCRIPTION:
1631 **
1632 **      This function configures a device function within the
1633 **	SMC37c669 Super I/O controller.
1634 **
1635 **  FORMAL PARAMETERS:
1636 **
1637 **      func:
1638 **          Which device function
1639 **
1640 **      port:
1641 **          I/O port for the function to use
1642 **
1643 **      irq:
1644 **          IRQ for the device function to use
1645 **
1646 **      drq:
1647 **          DMA channel for the device function to use
1648 **
1649 **  RETURN VALUE:
1650 **
1651 **      Returns TRUE if the device function was configured,
1652 **	otherwise, FALSE.
1653 **
1654 **  SIDE EFFECTS:
1655 **
1656 **      {@description or none@}
1657 **
1658 **  DESIGN:
1659 **
1660 **	If this function returns TRUE, the local shadow copy of
1661 **	the configuration is also updated.  If the device function
1662 **	is currently disabled, only the local shadow copy is
1663 **	updated and the actual device function will be updated
1664 **	if/when it is enabled.
1665 **
1666 **--
1667 */
1668 unsigned int __init SMC37c669_configure_device (
1669     unsigned int func,
1670     int port,
1671     int irq,
1672     int drq )
1673 {
1674     struct DEVICE_CONFIG *cp;
1675 
1676 /*
1677 ** Check for a valid configuration
1678 */
1679     if ( ( cp = SMC37c669_get_config ( func ) ) != NULL ) {
1680 /*
1681 ** Configuration is valid, update the local shadow copy
1682 */
1683     	if ( ( drq & ~0xFF ) == 0 ) {
1684 	    cp->drq = drq;
1685 	}
1686 	if ( ( irq & ~0xFF ) == 0 ) {
1687 	    cp->irq = irq;
1688 	}
1689 	if ( ( port & ~0xFFFF ) == 0 ) {
1690 	    cp->port1 = port;
1691 	}
1692 /*
1693 ** If the device function is enabled, update the actual
1694 ** device configuration.
1695 */
1696 	if ( SMC37c669_is_device_enabled( func ) ) {
1697 	    SMC37c669_enable_device( func );
1698 	}
1699 	return TRUE;
1700     }
1701     return FALSE;
1702 }
1703 
1704 
1705 /*
1706 **++
1707 **  FUNCTIONAL DESCRIPTION:
1708 **
1709 **      This function determines whether a device function
1710 **	within the SMC37c669 controller is enabled.
1711 **
1712 **  FORMAL PARAMETERS:
1713 **
1714 **      func:
1715 **          Which device function
1716 **
1717 **  RETURN VALUE:
1718 **
1719 **      Returns TRUE if the device function is enabled, otherwise, FALSE
1720 **
1721 **  SIDE EFFECTS:
1722 **
1723 **      {@description or none@}
1724 **
1725 **  DESIGN:
1726 **
1727 **      To check whether a device is enabled we will only look at
1728 **	the port base address mapping.  According to the SMC37c669
1729 **	specification, all of the port base address mappings are
1730 **	disabled if the addr<9:8> (bits <7:6> of the register) are
1731 **	zero.
1732 **
1733 **--
1734 */
1735 static unsigned int __init SMC37c669_is_device_enabled ( unsigned int func )
1736 {
1737     unsigned char base_addr = 0;
1738     unsigned int dev_ok = FALSE;
1739     unsigned int ret_val = FALSE;
1740 /*
1741 ** Enter configuration mode
1742 */
1743     SMC37c669_config_mode( TRUE );
1744 
1745     switch ( func ) {
1746     	case SERIAL_0:
1747 	    base_addr =
1748 		SMC37c669_read_config( SMC37c669_SERIAL0_BASE_ADDRESS_INDEX );
1749 	    dev_ok = TRUE;
1750 	    break;
1751 	case SERIAL_1:
1752 	    base_addr =
1753 		SMC37c669_read_config( SMC37c669_SERIAL1_BASE_ADDRESS_INDEX );
1754 	    dev_ok = TRUE;
1755 	    break;
1756 	case PARALLEL_0:
1757 	    base_addr =
1758 		SMC37c669_read_config( SMC37c669_PARALLEL0_BASE_ADDRESS_INDEX );
1759 	    dev_ok = TRUE;
1760 	    break;
1761 	case FLOPPY_0:
1762 	    base_addr =
1763 		SMC37c669_read_config( SMC37c669_FDC_BASE_ADDRESS_INDEX );
1764 	    dev_ok = TRUE;
1765 	    break;
1766 	case IDE_0:
1767 	    base_addr =
1768 		SMC37c669_read_config( SMC37c669_IDE_BASE_ADDRESS_INDEX );
1769 	    dev_ok = TRUE;
1770 	    break;
1771     }
1772 /*
1773 ** If we have a valid device, check base_addr<7:6> to see if the
1774 ** device is enabled (mapped).
1775 */
1776     if ( ( dev_ok ) && ( ( base_addr & 0xC0 ) != 0 ) ) {
1777 /*
1778 ** The mapping is not disabled, so assume that the function is
1779 ** enabled.
1780 */
1781     	ret_val = TRUE;
1782     }
1783 /*
1784 ** Exit configuration mode
1785 */
1786     SMC37c669_config_mode( FALSE );
1787 
1788     return ret_val;
1789 }
1790 
1791 
1792 #if 0
1793 /*
1794 **++
1795 **  FUNCTIONAL DESCRIPTION:
1796 **
1797 **      This function retrieves the configuration information of a
1798 **	device function within the SMC37c699 Super I/O controller.
1799 **
1800 **  FORMAL PARAMETERS:
1801 **
1802 **      func:
1803 **          Which device function
1804 **
1805 **      port:
1806 **          I/O port returned
1807 **
1808 **      irq:
1809 **          IRQ returned
1810 **
1811 **      drq:
1812 **          DMA channel returned
1813 **
1814 **  RETURN VALUE:
1815 **
1816 **      Returns TRUE if the device configuration was successfully
1817 **	retrieved, otherwise, FALSE.
1818 **
1819 **  SIDE EFFECTS:
1820 **
1821 **      The data pointed to by the port, irq, and drq parameters
1822 **	my be modified even if the configuration is not successfully
1823 **	retrieved.
1824 **
1825 **  DESIGN:
1826 **
1827 **      The device configuration is fetched from the local shadow
1828 **	copy.  Any unused parameters will be set to -1.  Any
1829 **	parameter which is not desired can specify the NULL
1830 **	pointer.
1831 **
1832 **--
1833 */
1834 static unsigned int __init SMC37c669_get_device_config (
1835     unsigned int func,
1836     int *port,
1837     int *irq,
1838     int *drq )
1839 {
1840     struct DEVICE_CONFIG *cp;
1841     unsigned int ret_val = FALSE;
1842 /*
1843 ** Check for a valid device configuration
1844 */
1845     if ( ( cp = SMC37c669_get_config( func ) ) != NULL ) {
1846     	if ( drq != NULL ) {
1847 	    *drq = cp->drq;
1848 	    ret_val = TRUE;
1849 	}
1850 	if ( irq != NULL ) {
1851 	    *irq = cp->irq;
1852 	    ret_val = TRUE;
1853 	}
1854 	if ( port != NULL ) {
1855 	    *port = cp->port1;
1856 	    ret_val = TRUE;
1857 	}
1858     }
1859     return ret_val;
1860 }
1861 #endif
1862 
1863 
1864 /*
1865 **++
1866 **  FUNCTIONAL DESCRIPTION:
1867 **
1868 **      This function displays the current state of the SMC37c699
1869 **	Super I/O controller's device functions.
1870 **
1871 **  FORMAL PARAMETERS:
1872 **
1873 **      None
1874 **
1875 **  RETURN VALUE:
1876 **
1877 **      None
1878 **
1879 **  SIDE EFFECTS:
1880 **
1881 **      None
1882 **
1883 **--
1884 */
1885 void __init SMC37c669_display_device_info ( void )
1886 {
1887     if ( SMC37c669_is_device_enabled( SERIAL_0 ) ) {
1888     	printk( "  Serial 0:    Enabled [ Port 0x%x, IRQ %d ]\n",
1889 		 local_config[ SERIAL_0 ].port1,
1890 		 local_config[ SERIAL_0 ].irq
1891 	);
1892     }
1893     else {
1894     	printk( "  Serial 0:    Disabled\n" );
1895     }
1896 
1897     if ( SMC37c669_is_device_enabled( SERIAL_1 ) ) {
1898     	printk( "  Serial 1:    Enabled [ Port 0x%x, IRQ %d ]\n",
1899 		 local_config[ SERIAL_1 ].port1,
1900 		 local_config[ SERIAL_1 ].irq
1901 	);
1902     }
1903     else {
1904     	printk( "  Serial 1:    Disabled\n" );
1905     }
1906 
1907     if ( SMC37c669_is_device_enabled( PARALLEL_0 ) ) {
1908     	printk( "  Parallel:    Enabled [ Port 0x%x, IRQ %d/%d ]\n",
1909 		 local_config[ PARALLEL_0 ].port1,
1910 		 local_config[ PARALLEL_0 ].irq,
1911 		 local_config[ PARALLEL_0 ].drq
1912 	);
1913     }
1914     else {
1915     	printk( "  Parallel:    Disabled\n" );
1916     }
1917 
1918     if ( SMC37c669_is_device_enabled( FLOPPY_0 ) ) {
1919     	printk( "  Floppy Ctrl: Enabled [ Port 0x%x, IRQ %d/%d ]\n",
1920 		 local_config[ FLOPPY_0 ].port1,
1921 		 local_config[ FLOPPY_0 ].irq,
1922 		 local_config[ FLOPPY_0 ].drq
1923 	);
1924     }
1925     else {
1926     	printk( "  Floppy Ctrl: Disabled\n" );
1927     }
1928 
1929     if ( SMC37c669_is_device_enabled( IDE_0 ) ) {
1930     	printk( "  IDE 0:       Enabled [ Port 0x%x, IRQ %d ]\n",
1931 		 local_config[ IDE_0 ].port1,
1932 		 local_config[ IDE_0 ].irq
1933 	);
1934     }
1935     else {
1936     	printk( "  IDE 0:       Disabled\n" );
1937     }
1938 }
1939 
1940 
1941 /*
1942 **++
1943 **  FUNCTIONAL DESCRIPTION:
1944 **
1945 **      This function puts the SMC37c669 Super I/O controller into,
1946 **	and takes it out of, configuration mode.
1947 **
1948 **  FORMAL PARAMETERS:
1949 **
1950 **      enable:
1951 **          TRUE to enter configuration mode, FALSE to exit.
1952 **
1953 **  RETURN VALUE:
1954 **
1955 **      None
1956 **
1957 **  SIDE EFFECTS:
1958 **
1959 **      The SMC37c669 controller may be left in configuration mode.
1960 **
1961 **--
1962 */
1963 static void __init SMC37c669_config_mode(
1964     unsigned int enable )
1965 {
1966     if ( enable ) {
1967 /*
1968 ** To enter configuration mode, two writes in succession to the index
1969 ** port are required.  If a write to another address or port occurs
1970 ** between these two writes, the chip does not enter configuration
1971 ** mode.  Therefore, a spinlock is placed around the two writes to
1972 ** guarantee that they complete uninterrupted.
1973 */
1974 	spin_lock(&smc_lock);
1975     	wb( &SMC37c669->index_port, SMC37c669_CONFIG_ON_KEY );
1976     	wb( &SMC37c669->index_port, SMC37c669_CONFIG_ON_KEY );
1977 	spin_unlock(&smc_lock);
1978     }
1979     else {
1980     	wb( &SMC37c669->index_port, SMC37c669_CONFIG_OFF_KEY );
1981     }
1982 }
1983 
1984 /*
1985 **++
1986 **  FUNCTIONAL DESCRIPTION:
1987 **
1988 **      This function reads an SMC37c669 Super I/O controller
1989 **	configuration register.  This function assumes that the
1990 **	device is already in configuration mode.
1991 **
1992 **  FORMAL PARAMETERS:
1993 **
1994 **      index:
1995 **          Index value of configuration register to read
1996 **
1997 **  RETURN VALUE:
1998 **
1999 **      Data read from configuration register
2000 **
2001 **  SIDE EFFECTS:
2002 **
2003 **      None
2004 **
2005 **--
2006 */
2007 static unsigned char __init SMC37c669_read_config(
2008     unsigned char index )
2009 {
2010 	wb(&SMC37c669->index_port, index);
2011 	return rb(&SMC37c669->data_port);
2012 }
2013 
2014 /*
2015 **++
2016 **  FUNCTIONAL DESCRIPTION:
2017 **
2018 **      This function writes an SMC37c669 Super I/O controller
2019 **	configuration register.  This function assumes that the
2020 **	device is already in configuration mode.
2021 **
2022 **  FORMAL PARAMETERS:
2023 **
2024 **      index:
2025 **          Index of configuration register to write
2026 **
2027 **      data:
2028 **          Data to be written
2029 **
2030 **  RETURN VALUE:
2031 **
2032 **      None
2033 **
2034 **  SIDE EFFECTS:
2035 **
2036 **      None
2037 **
2038 **--
2039 */
2040 static void __init SMC37c669_write_config(
2041     unsigned char index,
2042     unsigned char data )
2043 {
2044     wb( &SMC37c669->index_port, index );
2045     wb( &SMC37c669->data_port, data );
2046 }
2047 
2048 
2049 /*
2050 **++
2051 **  FUNCTIONAL DESCRIPTION:
2052 **
2053 **      This function initializes the local device
2054 **	configuration storage.  This function assumes
2055 **	that the device is already in configuration
2056 **	mode.
2057 **
2058 **  FORMAL PARAMETERS:
2059 **
2060 **      None
2061 **
2062 **  RETURN VALUE:
2063 **
2064 **      None
2065 **
2066 **  SIDE EFFECTS:
2067 **
2068 **      Local storage for device configuration information
2069 **	is initialized.
2070 **
2071 **--
2072 */
2073 static void __init SMC37c669_init_local_config ( void )
2074 {
2075     SMC37c669_SERIAL_BASE_ADDRESS_REGISTER uart_base;
2076     SMC37c669_SERIAL_IRQ_REGISTER uart_irqs;
2077     SMC37c669_PARALLEL_BASE_ADDRESS_REGISTER ppt_base;
2078     SMC37c669_PARALLEL_FDC_IRQ_REGISTER ppt_fdc_irqs;
2079     SMC37c669_PARALLEL_FDC_DRQ_REGISTER ppt_fdc_drqs;
2080     SMC37c669_FDC_BASE_ADDRESS_REGISTER fdc_base;
2081     SMC37c669_IDE_ADDRESS_REGISTER ide_base;
2082     SMC37c669_IDE_ADDRESS_REGISTER ide_alt;
2083 
2084 /*
2085 ** Get serial port 1 base address
2086 */
2087     uart_base.as_uchar =
2088 	SMC37c669_read_config( SMC37c669_SERIAL0_BASE_ADDRESS_INDEX );
2089 /*
2090 ** Get IRQs for serial ports 1 & 2
2091 */
2092     uart_irqs.as_uchar =
2093 	SMC37c669_read_config( SMC37c669_SERIAL_IRQ_INDEX );
2094 /*
2095 ** Store local configuration information for serial port 1
2096 */
2097     local_config[SERIAL_0].port1 = uart_base.by_field.addr9_3 << 3;
2098     local_config[SERIAL_0].irq =
2099 	SMC37c669_xlate_irq(
2100 	    SMC37c669_DEVICE_IRQ( uart_irqs.by_field.uart1_irq )
2101 	);
2102 /*
2103 ** Get serial port 2 base address
2104 */
2105     uart_base.as_uchar =
2106 	SMC37c669_read_config( SMC37c669_SERIAL1_BASE_ADDRESS_INDEX );
2107 /*
2108 ** Store local configuration information for serial port 2
2109 */
2110     local_config[SERIAL_1].port1 = uart_base.by_field.addr9_3 << 3;
2111     local_config[SERIAL_1].irq =
2112 	SMC37c669_xlate_irq(
2113 	    SMC37c669_DEVICE_IRQ( uart_irqs.by_field.uart2_irq )
2114 	);
2115 /*
2116 ** Get parallel port base address
2117 */
2118     ppt_base.as_uchar =
2119 	SMC37c669_read_config( SMC37c669_PARALLEL0_BASE_ADDRESS_INDEX );
2120 /*
2121 ** Get IRQs for parallel port and floppy controller
2122 */
2123     ppt_fdc_irqs.as_uchar =
2124 	SMC37c669_read_config( SMC37c669_PARALLEL_FDC_IRQ_INDEX );
2125 /*
2126 ** Get DRQs for parallel port and floppy controller
2127 */
2128     ppt_fdc_drqs.as_uchar =
2129 	SMC37c669_read_config( SMC37c669_PARALLEL_FDC_DRQ_INDEX );
2130 /*
2131 ** Store local configuration information for parallel port
2132 */
2133     local_config[PARALLEL_0].port1 = ppt_base.by_field.addr9_2 << 2;
2134     local_config[PARALLEL_0].irq =
2135 	SMC37c669_xlate_irq(
2136 	    SMC37c669_DEVICE_IRQ( ppt_fdc_irqs.by_field.ppt_irq )
2137 	);
2138     local_config[PARALLEL_0].drq =
2139 	SMC37c669_xlate_drq(
2140 	    SMC37c669_DEVICE_DRQ( ppt_fdc_drqs.by_field.ppt_drq )
2141 	);
2142 /*
2143 ** Get floppy controller base address
2144 */
2145     fdc_base.as_uchar =
2146 	SMC37c669_read_config( SMC37c669_FDC_BASE_ADDRESS_INDEX );
2147 /*
2148 ** Store local configuration information for floppy controller
2149 */
2150     local_config[FLOPPY_0].port1 = fdc_base.by_field.addr9_4 << 4;
2151     local_config[FLOPPY_0].irq =
2152 	SMC37c669_xlate_irq(
2153 	    SMC37c669_DEVICE_IRQ( ppt_fdc_irqs.by_field.fdc_irq )
2154 	);
2155     local_config[FLOPPY_0].drq =
2156 	SMC37c669_xlate_drq(
2157 	    SMC37c669_DEVICE_DRQ( ppt_fdc_drqs.by_field.fdc_drq )
2158 	);
2159 /*
2160 ** Get IDE controller base address
2161 */
2162     ide_base.as_uchar =
2163 	SMC37c669_read_config( SMC37c669_IDE_BASE_ADDRESS_INDEX );
2164 /*
2165 ** Get IDE alternate status base address
2166 */
2167     ide_alt.as_uchar =
2168 	SMC37c669_read_config( SMC37c669_IDE_ALTERNATE_ADDRESS_INDEX );
2169 /*
2170 ** Store local configuration information for IDE controller
2171 */
2172     local_config[IDE_0].port1 = ide_base.by_field.addr9_4 << 4;
2173     local_config[IDE_0].port2 = ide_alt.by_field.addr9_4 << 4;
2174     local_config[IDE_0].irq = 14;
2175 }
2176 
2177 
2178 /*
2179 **++
2180 **  FUNCTIONAL DESCRIPTION:
2181 **
2182 **      This function returns a pointer to the local shadow
2183 **	configuration of the requested device function.
2184 **
2185 **  FORMAL PARAMETERS:
2186 **
2187 **      func:
2188 **          Which device function
2189 **
2190 **  RETURN VALUE:
2191 **
2192 **      Returns a pointer to the DEVICE_CONFIG structure for the
2193 **	requested function, otherwise, NULL.
2194 **
2195 **  SIDE EFFECTS:
2196 **
2197 **      {@description or none@}
2198 **
2199 **--
2200 */
2201 static struct DEVICE_CONFIG * __init SMC37c669_get_config( unsigned int func )
2202 {
2203     struct DEVICE_CONFIG *cp = NULL;
2204 
2205     switch ( func ) {
2206     	case SERIAL_0:
2207 	    cp = &local_config[ SERIAL_0 ];
2208 	    break;
2209 	case SERIAL_1:
2210 	    cp = &local_config[ SERIAL_1 ];
2211 	    break;
2212 	case PARALLEL_0:
2213 	    cp = &local_config[ PARALLEL_0 ];
2214 	    break;
2215 	case FLOPPY_0:
2216 	    cp = &local_config[ FLOPPY_0 ];
2217 	    break;
2218 	case IDE_0:
2219 	    cp = &local_config[ IDE_0 ];
2220 	    break;
2221     }
2222     return cp;
2223 }
2224 
2225 /*
2226 **++
2227 **  FUNCTIONAL DESCRIPTION:
2228 **
2229 **      This function translates IRQs back and forth between ISA
2230 **	IRQs and SMC37c669 device IRQs.
2231 **
2232 **  FORMAL PARAMETERS:
2233 **
2234 **      irq:
2235 **          The IRQ to translate
2236 **
2237 **  RETURN VALUE:
2238 **
2239 **      Returns the translated IRQ, otherwise, returns -1.
2240 **
2241 **  SIDE EFFECTS:
2242 **
2243 **      {@description or none@}
2244 **
2245 **--
2246 */
2247 static int __init SMC37c669_xlate_irq ( int irq )
2248 {
2249     int i, translated_irq = -1;
2250 
2251     if ( SMC37c669_IS_DEVICE_IRQ( irq ) ) {
2252 /*
2253 ** We are translating a device IRQ to an ISA IRQ
2254 */
2255     	for ( i = 0; ( SMC37c669_irq_table[i].device_irq != -1 ) || ( SMC37c669_irq_table[i].isa_irq != -1 ); i++ ) {
2256 	    if ( irq == SMC37c669_irq_table[i].device_irq ) {
2257 	    	translated_irq = SMC37c669_irq_table[i].isa_irq;
2258 		break;
2259 	    }
2260 	}
2261     }
2262     else {
2263 /*
2264 ** We are translating an ISA IRQ to a device IRQ
2265 */
2266     	for ( i = 0; ( SMC37c669_irq_table[i].isa_irq != -1 ) || ( SMC37c669_irq_table[i].device_irq != -1 ); i++ ) {
2267 	    if ( irq == SMC37c669_irq_table[i].isa_irq ) {
2268 	    	translated_irq = SMC37c669_irq_table[i].device_irq;
2269 		break;
2270 	    }
2271 	}
2272     }
2273     return translated_irq;
2274 }
2275 
2276 
2277 /*
2278 **++
2279 **  FUNCTIONAL DESCRIPTION:
2280 **
2281 **      This function translates DMA channels back and forth between
2282 **	ISA DMA channels and SMC37c669 device DMA channels.
2283 **
2284 **  FORMAL PARAMETERS:
2285 **
2286 **      drq:
2287 **          The DMA channel to translate
2288 **
2289 **  RETURN VALUE:
2290 **
2291 **      Returns the translated DMA channel, otherwise, returns -1
2292 **
2293 **  SIDE EFFECTS:
2294 **
2295 **      {@description or none@}
2296 **
2297 **--
2298 */
2299 static int __init SMC37c669_xlate_drq ( int drq )
2300 {
2301     int i, translated_drq = -1;
2302 
2303     if ( SMC37c669_IS_DEVICE_DRQ( drq ) ) {
2304 /*
2305 ** We are translating a device DMA channel to an ISA DMA channel
2306 */
2307     	for ( i = 0; ( SMC37c669_drq_table[i].device_drq != -1 ) || ( SMC37c669_drq_table[i].isa_drq != -1 ); i++ ) {
2308 	    if ( drq == SMC37c669_drq_table[i].device_drq ) {
2309 	    	translated_drq = SMC37c669_drq_table[i].isa_drq;
2310 		break;
2311 	    }
2312 	}
2313     }
2314     else {
2315 /*
2316 ** We are translating an ISA DMA channel to a device DMA channel
2317 */
2318     	for ( i = 0; ( SMC37c669_drq_table[i].isa_drq != -1 ) || ( SMC37c669_drq_table[i].device_drq != -1 ); i++ ) {
2319 	    if ( drq == SMC37c669_drq_table[i].isa_drq ) {
2320 	    	translated_drq = SMC37c669_drq_table[i].device_drq;
2321 		break;
2322 	    }
2323 	}
2324     }
2325     return translated_drq;
2326 }
2327 
2328 #if 0
2329 int __init smcc669_init ( void )
2330 {
2331     struct INODE *ip;
2332 
2333     allocinode( smc_ddb.name, 1, &ip );
2334     ip->dva = &smc_ddb;
2335     ip->attr = ATTR$M_WRITE | ATTR$M_READ;
2336     ip->len[0] = 0x30;
2337     ip->misc = 0;
2338     INODE_UNLOCK( ip );
2339 
2340     return msg_success;
2341 }
2342 
2343 int __init smcc669_open( struct FILE *fp, char *info, char *next, char *mode )
2344 {
2345     struct INODE *ip;
2346 /*
2347 ** Allow multiple readers but only one writer.  ip->misc keeps track
2348 ** of the number of writers
2349 */
2350     ip = fp->ip;
2351     INODE_LOCK( ip );
2352     if ( fp->mode & ATTR$M_WRITE ) {
2353 	if ( ip->misc ) {
2354 	    INODE_UNLOCK( ip );
2355 	    return msg_failure;	    /* too many writers */
2356 	}
2357 	ip->misc++;
2358     }
2359 /*
2360 ** Treat the information field as a byte offset
2361 */
2362     *fp->offset = xtoi( info );
2363     INODE_UNLOCK( ip );
2364 
2365     return msg_success;
2366 }
2367 
2368 int __init smcc669_close( struct FILE *fp )
2369 {
2370     struct INODE *ip;
2371 
2372     ip = fp->ip;
2373     if ( fp->mode & ATTR$M_WRITE ) {
2374 	INODE_LOCK( ip );
2375 	ip->misc--;
2376 	INODE_UNLOCK( ip );
2377     }
2378     return msg_success;
2379 }
2380 
2381 int __init smcc669_read( struct FILE *fp, int size, int number, unsigned char *buf )
2382 {
2383     int i;
2384     int length;
2385     int nbytes;
2386     struct INODE *ip;
2387 
2388 /*
2389 ** Always access a byte at a time
2390 */
2391     ip = fp->ip;
2392     length = size * number;
2393     nbytes = 0;
2394 
2395     SMC37c669_config_mode( TRUE );
2396     for ( i = 0; i < length; i++ ) {
2397 	if ( !inrange( *fp->offset, 0, ip->len[0] ) )
2398 	    break;
2399 	*buf++ = SMC37c669_read_config( *fp->offset );
2400 	*fp->offset += 1;
2401 	nbytes++;
2402     }
2403     SMC37c669_config_mode( FALSE );
2404     return nbytes;
2405 }
2406 
2407 int __init smcc669_write( struct FILE *fp, int size, int number, unsigned char *buf )
2408 {
2409     int i;
2410     int length;
2411     int nbytes;
2412     struct INODE *ip;
2413 /*
2414 ** Always access a byte at a time
2415 */
2416     ip = fp->ip;
2417     length = size * number;
2418     nbytes = 0;
2419 
2420     SMC37c669_config_mode( TRUE );
2421     for ( i = 0; i < length; i++ ) {
2422 	if ( !inrange( *fp->offset, 0, ip->len[0] ) )
2423 	    break;
2424 	SMC37c669_write_config( *fp->offset, *buf );
2425 	*fp->offset += 1;
2426 	buf++;
2427 	nbytes++;
2428     }
2429     SMC37c669_config_mode( FALSE );
2430     return nbytes;
2431 }
2432 #endif
2433 
2434 void __init
2435 SMC37c669_dump_registers(void)
2436 {
2437   int i;
2438   for (i = 0; i <= 0x29; i++)
2439     printk("-- CR%02x : %02x\n", i, SMC37c669_read_config(i));
2440 }
2441 /*+
2442  * ============================================================================
2443  * = SMC_init - SMC37c669 Super I/O controller initialization                 =
2444  * ============================================================================
2445  *
2446  * OVERVIEW:
2447  *
2448  *      This routine configures and enables device functions on the
2449  *      SMC37c669 Super I/O controller.
2450  *
2451  * FORM OF CALL:
2452  *
2453  *      SMC_init( );
2454  *
2455  * RETURNS:
2456  *
2457  *      Nothing
2458  *
2459  * ARGUMENTS:
2460  *
2461  *      None
2462  *
2463  * SIDE EFFECTS:
2464  *
2465  *      None
2466  *
2467  */
2468 void __init SMC669_Init ( int index )
2469 {
2470     SMC37c669_CONFIG_REGS *SMC_base;
2471     unsigned long flags;
2472 
2473     local_irq_save(flags);
2474     if ( ( SMC_base = SMC37c669_detect( index ) ) != NULL ) {
2475 #if SMC_DEBUG
2476 	SMC37c669_config_mode( TRUE );
2477 	SMC37c669_dump_registers( );
2478 	SMC37c669_config_mode( FALSE );
2479         SMC37c669_display_device_info( );
2480 #endif
2481         SMC37c669_disable_device( SERIAL_0 );
2482         SMC37c669_configure_device(
2483             SERIAL_0,
2484             COM1_BASE,
2485             COM1_IRQ,
2486             -1
2487         );
2488         SMC37c669_enable_device( SERIAL_0 );
2489 
2490         SMC37c669_disable_device( SERIAL_1 );
2491         SMC37c669_configure_device(
2492             SERIAL_1,
2493             COM2_BASE,
2494             COM2_IRQ,
2495             -1
2496         );
2497         SMC37c669_enable_device( SERIAL_1 );
2498 
2499         SMC37c669_disable_device( PARALLEL_0 );
2500         SMC37c669_configure_device(
2501             PARALLEL_0,
2502             PARP_BASE,
2503             PARP_IRQ,
2504             PARP_DRQ
2505         );
2506         SMC37c669_enable_device( PARALLEL_0 );
2507 
2508         SMC37c669_disable_device( FLOPPY_0 );
2509         SMC37c669_configure_device(
2510             FLOPPY_0,
2511             FDC_BASE,
2512             FDC_IRQ,
2513             FDC_DRQ
2514         );
2515         SMC37c669_enable_device( FLOPPY_0 );
2516 
2517 	/* Wake up sometimes forgotten floppy, especially on DP264. */
2518 	outb(0xc, 0x3f2);
2519 
2520         SMC37c669_disable_device( IDE_0 );
2521 
2522 #if SMC_DEBUG
2523 	SMC37c669_config_mode( TRUE );
2524 	SMC37c669_dump_registers( );
2525 	SMC37c669_config_mode( FALSE );
2526         SMC37c669_display_device_info( );
2527 #endif
2528 	local_irq_restore(flags);
2529         printk( "SMC37c669 Super I/O Controller found @ 0x%p\n",
2530 		SMC_base );
2531     }
2532     else {
2533 	local_irq_restore(flags);
2534 #if SMC_DEBUG
2535         printk( "No SMC37c669 Super I/O Controller found\n" );
2536 #endif
2537     }
2538 }
2539