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1 /*
2  * System-specific setup, especially interrupts.
3  *
4  * This file is subject to the terms and conditions of the GNU General Public
5  * License.  See the file "COPYING" in the main directory of this archive
6  * for more details.
7  *
8  * Copyright (C) 1998 Harald Koerfgen
9  * Copyright (C) 2000, 2001, 2002, 2003, 2005  Maciej W. Rozycki
10  */
11 #include <linux/console.h>
12 #include <linux/init.h>
13 #include <linux/interrupt.h>
14 #include <linux/ioport.h>
15 #include <linux/module.h>
16 #include <linux/param.h>
17 #include <linux/sched.h>
18 #include <linux/spinlock.h>
19 #include <linux/types.h>
20 #include <linux/pm.h>
21 #include <linux/irq.h>
22 
23 #include <asm/bootinfo.h>
24 #include <asm/cpu.h>
25 #include <asm/cpu-features.h>
26 #include <asm/irq.h>
27 #include <asm/irq_cpu.h>
28 #include <asm/mipsregs.h>
29 #include <asm/reboot.h>
30 #include <asm/time.h>
31 #include <asm/traps.h>
32 #include <asm/wbflush.h>
33 
34 #include <asm/dec/interrupts.h>
35 #include <asm/dec/ioasic.h>
36 #include <asm/dec/ioasic_addrs.h>
37 #include <asm/dec/ioasic_ints.h>
38 #include <asm/dec/kn01.h>
39 #include <asm/dec/kn02.h>
40 #include <asm/dec/kn02ba.h>
41 #include <asm/dec/kn02ca.h>
42 #include <asm/dec/kn03.h>
43 #include <asm/dec/kn230.h>
44 #include <asm/dec/system.h>
45 
46 
47 extern void dec_machine_restart(char *command);
48 extern void dec_machine_halt(void);
49 extern void dec_machine_power_off(void);
50 extern irqreturn_t dec_intr_halt(int irq, void *dev_id);
51 
52 unsigned long dec_kn_slot_base, dec_kn_slot_size;
53 
54 EXPORT_SYMBOL(dec_kn_slot_base);
55 EXPORT_SYMBOL(dec_kn_slot_size);
56 
57 int dec_tc_bus;
58 
59 DEFINE_SPINLOCK(ioasic_ssr_lock);
60 
61 volatile u32 *ioasic_base;
62 
63 EXPORT_SYMBOL(ioasic_base);
64 
65 /*
66  * IRQ routing and priority tables.  Priorites are set as follows:
67  *
68  *		KN01	KN230	KN02	KN02-BA KN02-CA KN03
69  *
70  * MEMORY	CPU	CPU	CPU	ASIC	CPU	CPU
71  * RTC		CPU	CPU	CPU	ASIC	CPU	CPU
72  * DMA		-	-	-	ASIC	ASIC	ASIC
73  * SERIAL0	CPU	CPU	CSR	ASIC	ASIC	ASIC
74  * SERIAL1	-	-	-	ASIC	-	ASIC
75  * SCSI		CPU	CPU	CSR	ASIC	ASIC	ASIC
76  * ETHERNET	CPU	*	CSR	ASIC	ASIC	ASIC
77  * other	-	-	-	ASIC	-	-
78  * TC2		-	-	CSR	CPU	ASIC	ASIC
79  * TC1		-	-	CSR	CPU	ASIC	ASIC
80  * TC0		-	-	CSR	CPU	ASIC	ASIC
81  * other	-	CPU	-	CPU	ASIC	ASIC
82  * other	-	-	-	-	CPU	CPU
83  *
84  * * -- shared with SCSI
85  */
86 
87 int dec_interrupt[DEC_NR_INTS] = {
88 	[0 ... DEC_NR_INTS - 1] = -1
89 };
90 
91 EXPORT_SYMBOL(dec_interrupt);
92 
93 int_ptr cpu_mask_nr_tbl[DEC_MAX_CPU_INTS][2] = {
94 	{ { .i = ~0 }, { .p = dec_intr_unimplemented } },
95 };
96 int_ptr asic_mask_nr_tbl[DEC_MAX_ASIC_INTS][2] = {
97 	{ { .i = ~0 }, { .p = asic_intr_unimplemented } },
98 };
99 int cpu_fpu_mask = DEC_CPU_IRQ_MASK(DEC_CPU_INR_FPU);
100 
101 static struct irqaction ioirq = {
102 	.handler = no_action,
103 	.name = "cascade",
104 	.flags = IRQF_NO_THREAD,
105 };
106 static struct irqaction fpuirq = {
107 	.handler = no_action,
108 	.name = "fpu",
109 	.flags = IRQF_NO_THREAD,
110 };
111 
112 static struct irqaction busirq = {
113 	.name = "bus error",
114 	.flags = IRQF_NO_THREAD,
115 };
116 
117 static struct irqaction haltirq = {
118 	.handler = dec_intr_halt,
119 	.name = "halt",
120 	.flags = IRQF_NO_THREAD,
121 };
122 
123 
124 /*
125  * Bus error (DBE/IBE exceptions and bus interrupts) handling setup.
126  */
dec_be_init(void)127 static void __init dec_be_init(void)
128 {
129 	switch (mips_machtype) {
130 	case MACH_DS23100:	/* DS2100/DS3100 Pmin/Pmax */
131 		board_be_handler = dec_kn01_be_handler;
132 		busirq.handler = dec_kn01_be_interrupt;
133 		busirq.flags |= IRQF_SHARED;
134 		dec_kn01_be_init();
135 		break;
136 	case MACH_DS5000_1XX:	/* DS5000/1xx 3min */
137 	case MACH_DS5000_XX:	/* DS5000/xx Maxine */
138 		board_be_handler = dec_kn02xa_be_handler;
139 		busirq.handler = dec_kn02xa_be_interrupt;
140 		dec_kn02xa_be_init();
141 		break;
142 	case MACH_DS5000_200:	/* DS5000/200 3max */
143 	case MACH_DS5000_2X0:	/* DS5000/240 3max+ */
144 	case MACH_DS5900:	/* DS5900 bigmax */
145 		board_be_handler = dec_ecc_be_handler;
146 		busirq.handler = dec_ecc_be_interrupt;
147 		dec_ecc_be_init();
148 		break;
149 	}
150 }
151 
plat_mem_setup(void)152 void __init plat_mem_setup(void)
153 {
154 	board_be_init = dec_be_init;
155 
156 	wbflush_setup();
157 
158 	_machine_restart = dec_machine_restart;
159 	_machine_halt = dec_machine_halt;
160 	pm_power_off = dec_machine_power_off;
161 
162 	ioport_resource.start = ~0UL;
163 	ioport_resource.end = 0UL;
164 }
165 
166 /*
167  * Machine-specific initialisation for KN01, aka DS2100 (aka Pmin)
168  * or DS3100 (aka Pmax).
169  */
170 static int kn01_interrupt[DEC_NR_INTS] __initdata = {
171 	[DEC_IRQ_CASCADE]	= -1,
172 	[DEC_IRQ_AB_RECV]	= -1,
173 	[DEC_IRQ_AB_XMIT]	= -1,
174 	[DEC_IRQ_DZ11]		= DEC_CPU_IRQ_NR(KN01_CPU_INR_DZ11),
175 	[DEC_IRQ_ASC]		= -1,
176 	[DEC_IRQ_FLOPPY]	= -1,
177 	[DEC_IRQ_FPU]		= DEC_CPU_IRQ_NR(DEC_CPU_INR_FPU),
178 	[DEC_IRQ_HALT]		= -1,
179 	[DEC_IRQ_ISDN]		= -1,
180 	[DEC_IRQ_LANCE]		= DEC_CPU_IRQ_NR(KN01_CPU_INR_LANCE),
181 	[DEC_IRQ_BUS]		= DEC_CPU_IRQ_NR(KN01_CPU_INR_BUS),
182 	[DEC_IRQ_PSU]		= -1,
183 	[DEC_IRQ_RTC]		= DEC_CPU_IRQ_NR(KN01_CPU_INR_RTC),
184 	[DEC_IRQ_SCC0]		= -1,
185 	[DEC_IRQ_SCC1]		= -1,
186 	[DEC_IRQ_SII]		= DEC_CPU_IRQ_NR(KN01_CPU_INR_SII),
187 	[DEC_IRQ_TC0]		= -1,
188 	[DEC_IRQ_TC1]		= -1,
189 	[DEC_IRQ_TC2]		= -1,
190 	[DEC_IRQ_TIMER]		= -1,
191 	[DEC_IRQ_VIDEO]		= DEC_CPU_IRQ_NR(KN01_CPU_INR_VIDEO),
192 	[DEC_IRQ_ASC_MERR]	= -1,
193 	[DEC_IRQ_ASC_ERR]	= -1,
194 	[DEC_IRQ_ASC_DMA]	= -1,
195 	[DEC_IRQ_FLOPPY_ERR]	= -1,
196 	[DEC_IRQ_ISDN_ERR]	= -1,
197 	[DEC_IRQ_ISDN_RXDMA]	= -1,
198 	[DEC_IRQ_ISDN_TXDMA]	= -1,
199 	[DEC_IRQ_LANCE_MERR]	= -1,
200 	[DEC_IRQ_SCC0A_RXERR]	= -1,
201 	[DEC_IRQ_SCC0A_RXDMA]	= -1,
202 	[DEC_IRQ_SCC0A_TXERR]	= -1,
203 	[DEC_IRQ_SCC0A_TXDMA]	= -1,
204 	[DEC_IRQ_AB_RXERR]	= -1,
205 	[DEC_IRQ_AB_RXDMA]	= -1,
206 	[DEC_IRQ_AB_TXERR]	= -1,
207 	[DEC_IRQ_AB_TXDMA]	= -1,
208 	[DEC_IRQ_SCC1A_RXERR]	= -1,
209 	[DEC_IRQ_SCC1A_RXDMA]	= -1,
210 	[DEC_IRQ_SCC1A_TXERR]	= -1,
211 	[DEC_IRQ_SCC1A_TXDMA]	= -1,
212 };
213 
214 static int_ptr kn01_cpu_mask_nr_tbl[][2] __initdata = {
215 	{ { .i = DEC_CPU_IRQ_MASK(KN01_CPU_INR_BUS) },
216 		{ .i = DEC_CPU_IRQ_NR(KN01_CPU_INR_BUS) } },
217 	{ { .i = DEC_CPU_IRQ_MASK(KN01_CPU_INR_RTC) },
218 		{ .i = DEC_CPU_IRQ_NR(KN01_CPU_INR_RTC) } },
219 	{ { .i = DEC_CPU_IRQ_MASK(KN01_CPU_INR_DZ11) },
220 		{ .i = DEC_CPU_IRQ_NR(KN01_CPU_INR_DZ11) } },
221 	{ { .i = DEC_CPU_IRQ_MASK(KN01_CPU_INR_SII) },
222 		{ .i = DEC_CPU_IRQ_NR(KN01_CPU_INR_SII) } },
223 	{ { .i = DEC_CPU_IRQ_MASK(KN01_CPU_INR_LANCE) },
224 		{ .i = DEC_CPU_IRQ_NR(KN01_CPU_INR_LANCE) } },
225 	{ { .i = DEC_CPU_IRQ_ALL },
226 		{ .p = cpu_all_int } },
227 };
228 
dec_init_kn01(void)229 static void __init dec_init_kn01(void)
230 {
231 	/* IRQ routing. */
232 	memcpy(&dec_interrupt, &kn01_interrupt,
233 		sizeof(kn01_interrupt));
234 
235 	/* CPU IRQ priorities. */
236 	memcpy(&cpu_mask_nr_tbl, &kn01_cpu_mask_nr_tbl,
237 		sizeof(kn01_cpu_mask_nr_tbl));
238 
239 	mips_cpu_irq_init();
240 
241 }				/* dec_init_kn01 */
242 
243 
244 /*
245  * Machine-specific initialisation for KN230, aka DS5100, aka MIPSmate.
246  */
247 static int kn230_interrupt[DEC_NR_INTS] __initdata = {
248 	[DEC_IRQ_CASCADE]	= -1,
249 	[DEC_IRQ_AB_RECV]	= -1,
250 	[DEC_IRQ_AB_XMIT]	= -1,
251 	[DEC_IRQ_DZ11]		= DEC_CPU_IRQ_NR(KN230_CPU_INR_DZ11),
252 	[DEC_IRQ_ASC]		= -1,
253 	[DEC_IRQ_FLOPPY]	= -1,
254 	[DEC_IRQ_FPU]		= DEC_CPU_IRQ_NR(DEC_CPU_INR_FPU),
255 	[DEC_IRQ_HALT]		= DEC_CPU_IRQ_NR(KN230_CPU_INR_HALT),
256 	[DEC_IRQ_ISDN]		= -1,
257 	[DEC_IRQ_LANCE]		= DEC_CPU_IRQ_NR(KN230_CPU_INR_LANCE),
258 	[DEC_IRQ_BUS]		= DEC_CPU_IRQ_NR(KN230_CPU_INR_BUS),
259 	[DEC_IRQ_PSU]		= -1,
260 	[DEC_IRQ_RTC]		= DEC_CPU_IRQ_NR(KN230_CPU_INR_RTC),
261 	[DEC_IRQ_SCC0]		= -1,
262 	[DEC_IRQ_SCC1]		= -1,
263 	[DEC_IRQ_SII]		= DEC_CPU_IRQ_NR(KN230_CPU_INR_SII),
264 	[DEC_IRQ_TC0]		= -1,
265 	[DEC_IRQ_TC1]		= -1,
266 	[DEC_IRQ_TC2]		= -1,
267 	[DEC_IRQ_TIMER]		= -1,
268 	[DEC_IRQ_VIDEO]		= -1,
269 	[DEC_IRQ_ASC_MERR]	= -1,
270 	[DEC_IRQ_ASC_ERR]	= -1,
271 	[DEC_IRQ_ASC_DMA]	= -1,
272 	[DEC_IRQ_FLOPPY_ERR]	= -1,
273 	[DEC_IRQ_ISDN_ERR]	= -1,
274 	[DEC_IRQ_ISDN_RXDMA]	= -1,
275 	[DEC_IRQ_ISDN_TXDMA]	= -1,
276 	[DEC_IRQ_LANCE_MERR]	= -1,
277 	[DEC_IRQ_SCC0A_RXERR]	= -1,
278 	[DEC_IRQ_SCC0A_RXDMA]	= -1,
279 	[DEC_IRQ_SCC0A_TXERR]	= -1,
280 	[DEC_IRQ_SCC0A_TXDMA]	= -1,
281 	[DEC_IRQ_AB_RXERR]	= -1,
282 	[DEC_IRQ_AB_RXDMA]	= -1,
283 	[DEC_IRQ_AB_TXERR]	= -1,
284 	[DEC_IRQ_AB_TXDMA]	= -1,
285 	[DEC_IRQ_SCC1A_RXERR]	= -1,
286 	[DEC_IRQ_SCC1A_RXDMA]	= -1,
287 	[DEC_IRQ_SCC1A_TXERR]	= -1,
288 	[DEC_IRQ_SCC1A_TXDMA]	= -1,
289 };
290 
291 static int_ptr kn230_cpu_mask_nr_tbl[][2] __initdata = {
292 	{ { .i = DEC_CPU_IRQ_MASK(KN230_CPU_INR_BUS) },
293 		{ .i = DEC_CPU_IRQ_NR(KN230_CPU_INR_BUS) } },
294 	{ { .i = DEC_CPU_IRQ_MASK(KN230_CPU_INR_RTC) },
295 		{ .i = DEC_CPU_IRQ_NR(KN230_CPU_INR_RTC) } },
296 	{ { .i = DEC_CPU_IRQ_MASK(KN230_CPU_INR_DZ11) },
297 		{ .i = DEC_CPU_IRQ_NR(KN230_CPU_INR_DZ11) } },
298 	{ { .i = DEC_CPU_IRQ_MASK(KN230_CPU_INR_SII) },
299 		{ .i = DEC_CPU_IRQ_NR(KN230_CPU_INR_SII) } },
300 	{ { .i = DEC_CPU_IRQ_ALL },
301 		{ .p = cpu_all_int } },
302 };
303 
dec_init_kn230(void)304 static void __init dec_init_kn230(void)
305 {
306 	/* IRQ routing. */
307 	memcpy(&dec_interrupt, &kn230_interrupt,
308 		sizeof(kn230_interrupt));
309 
310 	/* CPU IRQ priorities. */
311 	memcpy(&cpu_mask_nr_tbl, &kn230_cpu_mask_nr_tbl,
312 		sizeof(kn230_cpu_mask_nr_tbl));
313 
314 	mips_cpu_irq_init();
315 
316 }				/* dec_init_kn230 */
317 
318 
319 /*
320  * Machine-specific initialisation for KN02, aka DS5000/200, aka 3max.
321  */
322 static int kn02_interrupt[DEC_NR_INTS] __initdata = {
323 	[DEC_IRQ_CASCADE]	= DEC_CPU_IRQ_NR(KN02_CPU_INR_CASCADE),
324 	[DEC_IRQ_AB_RECV]	= -1,
325 	[DEC_IRQ_AB_XMIT]	= -1,
326 	[DEC_IRQ_DZ11]		= KN02_IRQ_NR(KN02_CSR_INR_DZ11),
327 	[DEC_IRQ_ASC]		= KN02_IRQ_NR(KN02_CSR_INR_ASC),
328 	[DEC_IRQ_FLOPPY]	= -1,
329 	[DEC_IRQ_FPU]		= DEC_CPU_IRQ_NR(DEC_CPU_INR_FPU),
330 	[DEC_IRQ_HALT]		= -1,
331 	[DEC_IRQ_ISDN]		= -1,
332 	[DEC_IRQ_LANCE]		= KN02_IRQ_NR(KN02_CSR_INR_LANCE),
333 	[DEC_IRQ_BUS]		= DEC_CPU_IRQ_NR(KN02_CPU_INR_BUS),
334 	[DEC_IRQ_PSU]		= -1,
335 	[DEC_IRQ_RTC]		= DEC_CPU_IRQ_NR(KN02_CPU_INR_RTC),
336 	[DEC_IRQ_SCC0]		= -1,
337 	[DEC_IRQ_SCC1]		= -1,
338 	[DEC_IRQ_SII]		= -1,
339 	[DEC_IRQ_TC0]		= KN02_IRQ_NR(KN02_CSR_INR_TC0),
340 	[DEC_IRQ_TC1]		= KN02_IRQ_NR(KN02_CSR_INR_TC1),
341 	[DEC_IRQ_TC2]		= KN02_IRQ_NR(KN02_CSR_INR_TC2),
342 	[DEC_IRQ_TIMER]		= -1,
343 	[DEC_IRQ_VIDEO]		= -1,
344 	[DEC_IRQ_ASC_MERR]	= -1,
345 	[DEC_IRQ_ASC_ERR]	= -1,
346 	[DEC_IRQ_ASC_DMA]	= -1,
347 	[DEC_IRQ_FLOPPY_ERR]	= -1,
348 	[DEC_IRQ_ISDN_ERR]	= -1,
349 	[DEC_IRQ_ISDN_RXDMA]	= -1,
350 	[DEC_IRQ_ISDN_TXDMA]	= -1,
351 	[DEC_IRQ_LANCE_MERR]	= -1,
352 	[DEC_IRQ_SCC0A_RXERR]	= -1,
353 	[DEC_IRQ_SCC0A_RXDMA]	= -1,
354 	[DEC_IRQ_SCC0A_TXERR]	= -1,
355 	[DEC_IRQ_SCC0A_TXDMA]	= -1,
356 	[DEC_IRQ_AB_RXERR]	= -1,
357 	[DEC_IRQ_AB_RXDMA]	= -1,
358 	[DEC_IRQ_AB_TXERR]	= -1,
359 	[DEC_IRQ_AB_TXDMA]	= -1,
360 	[DEC_IRQ_SCC1A_RXERR]	= -1,
361 	[DEC_IRQ_SCC1A_RXDMA]	= -1,
362 	[DEC_IRQ_SCC1A_TXERR]	= -1,
363 	[DEC_IRQ_SCC1A_TXDMA]	= -1,
364 };
365 
366 static int_ptr kn02_cpu_mask_nr_tbl[][2] __initdata = {
367 	{ { .i = DEC_CPU_IRQ_MASK(KN02_CPU_INR_BUS) },
368 		{ .i = DEC_CPU_IRQ_NR(KN02_CPU_INR_BUS) } },
369 	{ { .i = DEC_CPU_IRQ_MASK(KN02_CPU_INR_RTC) },
370 		{ .i = DEC_CPU_IRQ_NR(KN02_CPU_INR_RTC) } },
371 	{ { .i = DEC_CPU_IRQ_MASK(KN02_CPU_INR_CASCADE) },
372 		{ .p = kn02_io_int } },
373 	{ { .i = DEC_CPU_IRQ_ALL },
374 		{ .p = cpu_all_int } },
375 };
376 
377 static int_ptr kn02_asic_mask_nr_tbl[][2] __initdata = {
378 	{ { .i = KN02_IRQ_MASK(KN02_CSR_INR_DZ11) },
379 		{ .i = KN02_IRQ_NR(KN02_CSR_INR_DZ11) } },
380 	{ { .i = KN02_IRQ_MASK(KN02_CSR_INR_ASC) },
381 		{ .i = KN02_IRQ_NR(KN02_CSR_INR_ASC) } },
382 	{ { .i = KN02_IRQ_MASK(KN02_CSR_INR_LANCE) },
383 		{ .i = KN02_IRQ_NR(KN02_CSR_INR_LANCE) } },
384 	{ { .i = KN02_IRQ_MASK(KN02_CSR_INR_TC2) },
385 		{ .i = KN02_IRQ_NR(KN02_CSR_INR_TC2) } },
386 	{ { .i = KN02_IRQ_MASK(KN02_CSR_INR_TC1) },
387 		{ .i = KN02_IRQ_NR(KN02_CSR_INR_TC1) } },
388 	{ { .i = KN02_IRQ_MASK(KN02_CSR_INR_TC0) },
389 		{ .i = KN02_IRQ_NR(KN02_CSR_INR_TC0) } },
390 	{ { .i = KN02_IRQ_ALL },
391 		{ .p = kn02_all_int } },
392 };
393 
dec_init_kn02(void)394 static void __init dec_init_kn02(void)
395 {
396 	/* IRQ routing. */
397 	memcpy(&dec_interrupt, &kn02_interrupt,
398 		sizeof(kn02_interrupt));
399 
400 	/* CPU IRQ priorities. */
401 	memcpy(&cpu_mask_nr_tbl, &kn02_cpu_mask_nr_tbl,
402 		sizeof(kn02_cpu_mask_nr_tbl));
403 
404 	/* KN02 CSR IRQ priorities. */
405 	memcpy(&asic_mask_nr_tbl, &kn02_asic_mask_nr_tbl,
406 		sizeof(kn02_asic_mask_nr_tbl));
407 
408 	mips_cpu_irq_init();
409 	init_kn02_irqs(KN02_IRQ_BASE);
410 
411 }				/* dec_init_kn02 */
412 
413 
414 /*
415  * Machine-specific initialisation for KN02-BA, aka DS5000/1xx
416  * (xx = 20, 25, 33), aka 3min.	 Also applies to KN04(-BA), aka
417  * DS5000/150, aka 4min.
418  */
419 static int kn02ba_interrupt[DEC_NR_INTS] __initdata = {
420 	[DEC_IRQ_CASCADE]	= DEC_CPU_IRQ_NR(KN02BA_CPU_INR_CASCADE),
421 	[DEC_IRQ_AB_RECV]	= -1,
422 	[DEC_IRQ_AB_XMIT]	= -1,
423 	[DEC_IRQ_DZ11]		= -1,
424 	[DEC_IRQ_ASC]		= IO_IRQ_NR(KN02BA_IO_INR_ASC),
425 	[DEC_IRQ_FLOPPY]	= -1,
426 	[DEC_IRQ_FPU]		= DEC_CPU_IRQ_NR(DEC_CPU_INR_FPU),
427 	[DEC_IRQ_HALT]		= DEC_CPU_IRQ_NR(KN02BA_CPU_INR_HALT),
428 	[DEC_IRQ_ISDN]		= -1,
429 	[DEC_IRQ_LANCE]		= IO_IRQ_NR(KN02BA_IO_INR_LANCE),
430 	[DEC_IRQ_BUS]		= IO_IRQ_NR(KN02BA_IO_INR_BUS),
431 	[DEC_IRQ_PSU]		= IO_IRQ_NR(KN02BA_IO_INR_PSU),
432 	[DEC_IRQ_RTC]		= IO_IRQ_NR(KN02BA_IO_INR_RTC),
433 	[DEC_IRQ_SCC0]		= IO_IRQ_NR(KN02BA_IO_INR_SCC0),
434 	[DEC_IRQ_SCC1]		= IO_IRQ_NR(KN02BA_IO_INR_SCC1),
435 	[DEC_IRQ_SII]		= -1,
436 	[DEC_IRQ_TC0]		= DEC_CPU_IRQ_NR(KN02BA_CPU_INR_TC0),
437 	[DEC_IRQ_TC1]		= DEC_CPU_IRQ_NR(KN02BA_CPU_INR_TC1),
438 	[DEC_IRQ_TC2]		= DEC_CPU_IRQ_NR(KN02BA_CPU_INR_TC2),
439 	[DEC_IRQ_TIMER]		= -1,
440 	[DEC_IRQ_VIDEO]		= -1,
441 	[DEC_IRQ_ASC_MERR]	= IO_IRQ_NR(IO_INR_ASC_MERR),
442 	[DEC_IRQ_ASC_ERR]	= IO_IRQ_NR(IO_INR_ASC_ERR),
443 	[DEC_IRQ_ASC_DMA]	= IO_IRQ_NR(IO_INR_ASC_DMA),
444 	[DEC_IRQ_FLOPPY_ERR]	= -1,
445 	[DEC_IRQ_ISDN_ERR]	= -1,
446 	[DEC_IRQ_ISDN_RXDMA]	= -1,
447 	[DEC_IRQ_ISDN_TXDMA]	= -1,
448 	[DEC_IRQ_LANCE_MERR]	= IO_IRQ_NR(IO_INR_LANCE_MERR),
449 	[DEC_IRQ_SCC0A_RXERR]	= IO_IRQ_NR(IO_INR_SCC0A_RXERR),
450 	[DEC_IRQ_SCC0A_RXDMA]	= IO_IRQ_NR(IO_INR_SCC0A_RXDMA),
451 	[DEC_IRQ_SCC0A_TXERR]	= IO_IRQ_NR(IO_INR_SCC0A_TXERR),
452 	[DEC_IRQ_SCC0A_TXDMA]	= IO_IRQ_NR(IO_INR_SCC0A_TXDMA),
453 	[DEC_IRQ_AB_RXERR]	= -1,
454 	[DEC_IRQ_AB_RXDMA]	= -1,
455 	[DEC_IRQ_AB_TXERR]	= -1,
456 	[DEC_IRQ_AB_TXDMA]	= -1,
457 	[DEC_IRQ_SCC1A_RXERR]	= IO_IRQ_NR(IO_INR_SCC1A_RXERR),
458 	[DEC_IRQ_SCC1A_RXDMA]	= IO_IRQ_NR(IO_INR_SCC1A_RXDMA),
459 	[DEC_IRQ_SCC1A_TXERR]	= IO_IRQ_NR(IO_INR_SCC1A_TXERR),
460 	[DEC_IRQ_SCC1A_TXDMA]	= IO_IRQ_NR(IO_INR_SCC1A_TXDMA),
461 };
462 
463 static int_ptr kn02ba_cpu_mask_nr_tbl[][2] __initdata = {
464 	{ { .i = DEC_CPU_IRQ_MASK(KN02BA_CPU_INR_CASCADE) },
465 		{ .p = kn02xa_io_int } },
466 	{ { .i = DEC_CPU_IRQ_MASK(KN02BA_CPU_INR_TC2) },
467 		{ .i = DEC_CPU_IRQ_NR(KN02BA_CPU_INR_TC2) } },
468 	{ { .i = DEC_CPU_IRQ_MASK(KN02BA_CPU_INR_TC1) },
469 		{ .i = DEC_CPU_IRQ_NR(KN02BA_CPU_INR_TC1) } },
470 	{ { .i = DEC_CPU_IRQ_MASK(KN02BA_CPU_INR_TC0) },
471 		{ .i = DEC_CPU_IRQ_NR(KN02BA_CPU_INR_TC0) } },
472 	{ { .i = DEC_CPU_IRQ_ALL },
473 		{ .p = cpu_all_int } },
474 };
475 
476 static int_ptr kn02ba_asic_mask_nr_tbl[][2] __initdata = {
477 	{ { .i = IO_IRQ_MASK(KN02BA_IO_INR_BUS) },
478 		{ .i = IO_IRQ_NR(KN02BA_IO_INR_BUS) } },
479 	{ { .i = IO_IRQ_MASK(KN02BA_IO_INR_RTC) },
480 		{ .i = IO_IRQ_NR(KN02BA_IO_INR_RTC) } },
481 	{ { .i = IO_IRQ_DMA },
482 		{ .p = asic_dma_int } },
483 	{ { .i = IO_IRQ_MASK(KN02BA_IO_INR_SCC0) },
484 		{ .i = IO_IRQ_NR(KN02BA_IO_INR_SCC0) } },
485 	{ { .i = IO_IRQ_MASK(KN02BA_IO_INR_SCC1) },
486 		{ .i = IO_IRQ_NR(KN02BA_IO_INR_SCC1) } },
487 	{ { .i = IO_IRQ_MASK(KN02BA_IO_INR_ASC) },
488 		{ .i = IO_IRQ_NR(KN02BA_IO_INR_ASC) } },
489 	{ { .i = IO_IRQ_MASK(KN02BA_IO_INR_LANCE) },
490 		{ .i = IO_IRQ_NR(KN02BA_IO_INR_LANCE) } },
491 	{ { .i = IO_IRQ_ALL },
492 		{ .p = asic_all_int } },
493 };
494 
dec_init_kn02ba(void)495 static void __init dec_init_kn02ba(void)
496 {
497 	/* IRQ routing. */
498 	memcpy(&dec_interrupt, &kn02ba_interrupt,
499 		sizeof(kn02ba_interrupt));
500 
501 	/* CPU IRQ priorities. */
502 	memcpy(&cpu_mask_nr_tbl, &kn02ba_cpu_mask_nr_tbl,
503 		sizeof(kn02ba_cpu_mask_nr_tbl));
504 
505 	/* I/O ASIC IRQ priorities. */
506 	memcpy(&asic_mask_nr_tbl, &kn02ba_asic_mask_nr_tbl,
507 		sizeof(kn02ba_asic_mask_nr_tbl));
508 
509 	mips_cpu_irq_init();
510 	init_ioasic_irqs(IO_IRQ_BASE);
511 
512 }				/* dec_init_kn02ba */
513 
514 
515 /*
516  * Machine-specific initialisation for KN02-CA, aka DS5000/xx,
517  * (xx = 20, 25, 33), aka MAXine.  Also applies to KN04(-CA), aka
518  * DS5000/50, aka 4MAXine.
519  */
520 static int kn02ca_interrupt[DEC_NR_INTS] __initdata = {
521 	[DEC_IRQ_CASCADE]	= DEC_CPU_IRQ_NR(KN02CA_CPU_INR_CASCADE),
522 	[DEC_IRQ_AB_RECV]	= IO_IRQ_NR(KN02CA_IO_INR_AB_RECV),
523 	[DEC_IRQ_AB_XMIT]	= IO_IRQ_NR(KN02CA_IO_INR_AB_XMIT),
524 	[DEC_IRQ_DZ11]		= -1,
525 	[DEC_IRQ_ASC]		= IO_IRQ_NR(KN02CA_IO_INR_ASC),
526 	[DEC_IRQ_FLOPPY]	= IO_IRQ_NR(KN02CA_IO_INR_FLOPPY),
527 	[DEC_IRQ_FPU]		= DEC_CPU_IRQ_NR(DEC_CPU_INR_FPU),
528 	[DEC_IRQ_HALT]		= DEC_CPU_IRQ_NR(KN02CA_CPU_INR_HALT),
529 	[DEC_IRQ_ISDN]		= IO_IRQ_NR(KN02CA_IO_INR_ISDN),
530 	[DEC_IRQ_LANCE]		= IO_IRQ_NR(KN02CA_IO_INR_LANCE),
531 	[DEC_IRQ_BUS]		= DEC_CPU_IRQ_NR(KN02CA_CPU_INR_BUS),
532 	[DEC_IRQ_PSU]		= -1,
533 	[DEC_IRQ_RTC]		= DEC_CPU_IRQ_NR(KN02CA_CPU_INR_RTC),
534 	[DEC_IRQ_SCC0]		= IO_IRQ_NR(KN02CA_IO_INR_SCC0),
535 	[DEC_IRQ_SCC1]		= -1,
536 	[DEC_IRQ_SII]		= -1,
537 	[DEC_IRQ_TC0]		= IO_IRQ_NR(KN02CA_IO_INR_TC0),
538 	[DEC_IRQ_TC1]		= IO_IRQ_NR(KN02CA_IO_INR_TC1),
539 	[DEC_IRQ_TC2]		= -1,
540 	[DEC_IRQ_TIMER]		= DEC_CPU_IRQ_NR(KN02CA_CPU_INR_TIMER),
541 	[DEC_IRQ_VIDEO]		= IO_IRQ_NR(KN02CA_IO_INR_VIDEO),
542 	[DEC_IRQ_ASC_MERR]	= IO_IRQ_NR(IO_INR_ASC_MERR),
543 	[DEC_IRQ_ASC_ERR]	= IO_IRQ_NR(IO_INR_ASC_ERR),
544 	[DEC_IRQ_ASC_DMA]	= IO_IRQ_NR(IO_INR_ASC_DMA),
545 	[DEC_IRQ_FLOPPY_ERR]	= IO_IRQ_NR(IO_INR_FLOPPY_ERR),
546 	[DEC_IRQ_ISDN_ERR]	= IO_IRQ_NR(IO_INR_ISDN_ERR),
547 	[DEC_IRQ_ISDN_RXDMA]	= IO_IRQ_NR(IO_INR_ISDN_RXDMA),
548 	[DEC_IRQ_ISDN_TXDMA]	= IO_IRQ_NR(IO_INR_ISDN_TXDMA),
549 	[DEC_IRQ_LANCE_MERR]	= IO_IRQ_NR(IO_INR_LANCE_MERR),
550 	[DEC_IRQ_SCC0A_RXERR]	= IO_IRQ_NR(IO_INR_SCC0A_RXERR),
551 	[DEC_IRQ_SCC0A_RXDMA]	= IO_IRQ_NR(IO_INR_SCC0A_RXDMA),
552 	[DEC_IRQ_SCC0A_TXERR]	= IO_IRQ_NR(IO_INR_SCC0A_TXERR),
553 	[DEC_IRQ_SCC0A_TXDMA]	= IO_IRQ_NR(IO_INR_SCC0A_TXDMA),
554 	[DEC_IRQ_AB_RXERR]	= IO_IRQ_NR(IO_INR_AB_RXERR),
555 	[DEC_IRQ_AB_RXDMA]	= IO_IRQ_NR(IO_INR_AB_RXDMA),
556 	[DEC_IRQ_AB_TXERR]	= IO_IRQ_NR(IO_INR_AB_TXERR),
557 	[DEC_IRQ_AB_TXDMA]	= IO_IRQ_NR(IO_INR_AB_TXDMA),
558 	[DEC_IRQ_SCC1A_RXERR]	= -1,
559 	[DEC_IRQ_SCC1A_RXDMA]	= -1,
560 	[DEC_IRQ_SCC1A_TXERR]	= -1,
561 	[DEC_IRQ_SCC1A_TXDMA]	= -1,
562 };
563 
564 static int_ptr kn02ca_cpu_mask_nr_tbl[][2] __initdata = {
565 	{ { .i = DEC_CPU_IRQ_MASK(KN02CA_CPU_INR_BUS) },
566 		{ .i = DEC_CPU_IRQ_NR(KN02CA_CPU_INR_BUS) } },
567 	{ { .i = DEC_CPU_IRQ_MASK(KN02CA_CPU_INR_RTC) },
568 		{ .i = DEC_CPU_IRQ_NR(KN02CA_CPU_INR_RTC) } },
569 	{ { .i = DEC_CPU_IRQ_MASK(KN02CA_CPU_INR_CASCADE) },
570 		{ .p = kn02xa_io_int } },
571 	{ { .i = DEC_CPU_IRQ_ALL },
572 		{ .p = cpu_all_int } },
573 };
574 
575 static int_ptr kn02ca_asic_mask_nr_tbl[][2] __initdata = {
576 	{ { .i = IO_IRQ_DMA },
577 		{ .p = asic_dma_int } },
578 	{ { .i = IO_IRQ_MASK(KN02CA_IO_INR_SCC0) },
579 		{ .i = IO_IRQ_NR(KN02CA_IO_INR_SCC0) } },
580 	{ { .i = IO_IRQ_MASK(KN02CA_IO_INR_ASC) },
581 		{ .i = IO_IRQ_NR(KN02CA_IO_INR_ASC) } },
582 	{ { .i = IO_IRQ_MASK(KN02CA_IO_INR_LANCE) },
583 		{ .i = IO_IRQ_NR(KN02CA_IO_INR_LANCE) } },
584 	{ { .i = IO_IRQ_MASK(KN02CA_IO_INR_TC1) },
585 		{ .i = IO_IRQ_NR(KN02CA_IO_INR_TC1) } },
586 	{ { .i = IO_IRQ_MASK(KN02CA_IO_INR_TC0) },
587 		{ .i = IO_IRQ_NR(KN02CA_IO_INR_TC0) } },
588 	{ { .i = IO_IRQ_ALL },
589 		{ .p = asic_all_int } },
590 };
591 
dec_init_kn02ca(void)592 static void __init dec_init_kn02ca(void)
593 {
594 	/* IRQ routing. */
595 	memcpy(&dec_interrupt, &kn02ca_interrupt,
596 		sizeof(kn02ca_interrupt));
597 
598 	/* CPU IRQ priorities. */
599 	memcpy(&cpu_mask_nr_tbl, &kn02ca_cpu_mask_nr_tbl,
600 		sizeof(kn02ca_cpu_mask_nr_tbl));
601 
602 	/* I/O ASIC IRQ priorities. */
603 	memcpy(&asic_mask_nr_tbl, &kn02ca_asic_mask_nr_tbl,
604 		sizeof(kn02ca_asic_mask_nr_tbl));
605 
606 	mips_cpu_irq_init();
607 	init_ioasic_irqs(IO_IRQ_BASE);
608 
609 }				/* dec_init_kn02ca */
610 
611 
612 /*
613  * Machine-specific initialisation for KN03, aka DS5000/240,
614  * aka 3max+ and DS5900, aka BIGmax.  Also applies to KN05, aka
615  * DS5000/260, aka 4max+ and DS5900/260.
616  */
617 static int kn03_interrupt[DEC_NR_INTS] __initdata = {
618 	[DEC_IRQ_CASCADE]	= DEC_CPU_IRQ_NR(KN03_CPU_INR_CASCADE),
619 	[DEC_IRQ_AB_RECV]	= -1,
620 	[DEC_IRQ_AB_XMIT]	= -1,
621 	[DEC_IRQ_DZ11]		= -1,
622 	[DEC_IRQ_ASC]		= IO_IRQ_NR(KN03_IO_INR_ASC),
623 	[DEC_IRQ_FLOPPY]	= -1,
624 	[DEC_IRQ_FPU]		= DEC_CPU_IRQ_NR(DEC_CPU_INR_FPU),
625 	[DEC_IRQ_HALT]		= DEC_CPU_IRQ_NR(KN03_CPU_INR_HALT),
626 	[DEC_IRQ_ISDN]		= -1,
627 	[DEC_IRQ_LANCE]		= IO_IRQ_NR(KN03_IO_INR_LANCE),
628 	[DEC_IRQ_BUS]		= DEC_CPU_IRQ_NR(KN03_CPU_INR_BUS),
629 	[DEC_IRQ_PSU]		= IO_IRQ_NR(KN03_IO_INR_PSU),
630 	[DEC_IRQ_RTC]		= DEC_CPU_IRQ_NR(KN03_CPU_INR_RTC),
631 	[DEC_IRQ_SCC0]		= IO_IRQ_NR(KN03_IO_INR_SCC0),
632 	[DEC_IRQ_SCC1]		= IO_IRQ_NR(KN03_IO_INR_SCC1),
633 	[DEC_IRQ_SII]		= -1,
634 	[DEC_IRQ_TC0]		= IO_IRQ_NR(KN03_IO_INR_TC0),
635 	[DEC_IRQ_TC1]		= IO_IRQ_NR(KN03_IO_INR_TC1),
636 	[DEC_IRQ_TC2]		= IO_IRQ_NR(KN03_IO_INR_TC2),
637 	[DEC_IRQ_TIMER]		= -1,
638 	[DEC_IRQ_VIDEO]		= -1,
639 	[DEC_IRQ_ASC_MERR]	= IO_IRQ_NR(IO_INR_ASC_MERR),
640 	[DEC_IRQ_ASC_ERR]	= IO_IRQ_NR(IO_INR_ASC_ERR),
641 	[DEC_IRQ_ASC_DMA]	= IO_IRQ_NR(IO_INR_ASC_DMA),
642 	[DEC_IRQ_FLOPPY_ERR]	= -1,
643 	[DEC_IRQ_ISDN_ERR]	= -1,
644 	[DEC_IRQ_ISDN_RXDMA]	= -1,
645 	[DEC_IRQ_ISDN_TXDMA]	= -1,
646 	[DEC_IRQ_LANCE_MERR]	= IO_IRQ_NR(IO_INR_LANCE_MERR),
647 	[DEC_IRQ_SCC0A_RXERR]	= IO_IRQ_NR(IO_INR_SCC0A_RXERR),
648 	[DEC_IRQ_SCC0A_RXDMA]	= IO_IRQ_NR(IO_INR_SCC0A_RXDMA),
649 	[DEC_IRQ_SCC0A_TXERR]	= IO_IRQ_NR(IO_INR_SCC0A_TXERR),
650 	[DEC_IRQ_SCC0A_TXDMA]	= IO_IRQ_NR(IO_INR_SCC0A_TXDMA),
651 	[DEC_IRQ_AB_RXERR]	= -1,
652 	[DEC_IRQ_AB_RXDMA]	= -1,
653 	[DEC_IRQ_AB_TXERR]	= -1,
654 	[DEC_IRQ_AB_TXDMA]	= -1,
655 	[DEC_IRQ_SCC1A_RXERR]	= IO_IRQ_NR(IO_INR_SCC1A_RXERR),
656 	[DEC_IRQ_SCC1A_RXDMA]	= IO_IRQ_NR(IO_INR_SCC1A_RXDMA),
657 	[DEC_IRQ_SCC1A_TXERR]	= IO_IRQ_NR(IO_INR_SCC1A_TXERR),
658 	[DEC_IRQ_SCC1A_TXDMA]	= IO_IRQ_NR(IO_INR_SCC1A_TXDMA),
659 };
660 
661 static int_ptr kn03_cpu_mask_nr_tbl[][2] __initdata = {
662 	{ { .i = DEC_CPU_IRQ_MASK(KN03_CPU_INR_BUS) },
663 		{ .i = DEC_CPU_IRQ_NR(KN03_CPU_INR_BUS) } },
664 	{ { .i = DEC_CPU_IRQ_MASK(KN03_CPU_INR_RTC) },
665 		{ .i = DEC_CPU_IRQ_NR(KN03_CPU_INR_RTC) } },
666 	{ { .i = DEC_CPU_IRQ_MASK(KN03_CPU_INR_CASCADE) },
667 		{ .p = kn03_io_int } },
668 	{ { .i = DEC_CPU_IRQ_ALL },
669 		{ .p = cpu_all_int } },
670 };
671 
672 static int_ptr kn03_asic_mask_nr_tbl[][2] __initdata = {
673 	{ { .i = IO_IRQ_DMA },
674 		{ .p = asic_dma_int } },
675 	{ { .i = IO_IRQ_MASK(KN03_IO_INR_SCC0) },
676 		{ .i = IO_IRQ_NR(KN03_IO_INR_SCC0) } },
677 	{ { .i = IO_IRQ_MASK(KN03_IO_INR_SCC1) },
678 		{ .i = IO_IRQ_NR(KN03_IO_INR_SCC1) } },
679 	{ { .i = IO_IRQ_MASK(KN03_IO_INR_ASC) },
680 		{ .i = IO_IRQ_NR(KN03_IO_INR_ASC) } },
681 	{ { .i = IO_IRQ_MASK(KN03_IO_INR_LANCE) },
682 		{ .i = IO_IRQ_NR(KN03_IO_INR_LANCE) } },
683 	{ { .i = IO_IRQ_MASK(KN03_IO_INR_TC2) },
684 		{ .i = IO_IRQ_NR(KN03_IO_INR_TC2) } },
685 	{ { .i = IO_IRQ_MASK(KN03_IO_INR_TC1) },
686 		{ .i = IO_IRQ_NR(KN03_IO_INR_TC1) } },
687 	{ { .i = IO_IRQ_MASK(KN03_IO_INR_TC0) },
688 		{ .i = IO_IRQ_NR(KN03_IO_INR_TC0) } },
689 	{ { .i = IO_IRQ_ALL },
690 		{ .p = asic_all_int } },
691 };
692 
dec_init_kn03(void)693 static void __init dec_init_kn03(void)
694 {
695 	/* IRQ routing. */
696 	memcpy(&dec_interrupt, &kn03_interrupt,
697 		sizeof(kn03_interrupt));
698 
699 	/* CPU IRQ priorities. */
700 	memcpy(&cpu_mask_nr_tbl, &kn03_cpu_mask_nr_tbl,
701 		sizeof(kn03_cpu_mask_nr_tbl));
702 
703 	/* I/O ASIC IRQ priorities. */
704 	memcpy(&asic_mask_nr_tbl, &kn03_asic_mask_nr_tbl,
705 		sizeof(kn03_asic_mask_nr_tbl));
706 
707 	mips_cpu_irq_init();
708 	init_ioasic_irqs(IO_IRQ_BASE);
709 
710 }				/* dec_init_kn03 */
711 
712 
arch_init_irq(void)713 void __init arch_init_irq(void)
714 {
715 	switch (mips_machtype) {
716 	case MACH_DS23100:	/* DS2100/DS3100 Pmin/Pmax */
717 		dec_init_kn01();
718 		break;
719 	case MACH_DS5100:	/* DS5100 MIPSmate */
720 		dec_init_kn230();
721 		break;
722 	case MACH_DS5000_200:	/* DS5000/200 3max */
723 		dec_init_kn02();
724 		break;
725 	case MACH_DS5000_1XX:	/* DS5000/1xx 3min */
726 		dec_init_kn02ba();
727 		break;
728 	case MACH_DS5000_2X0:	/* DS5000/240 3max+ */
729 	case MACH_DS5900:	/* DS5900 bigmax */
730 		dec_init_kn03();
731 		break;
732 	case MACH_DS5000_XX:	/* Personal DS5000/xx */
733 		dec_init_kn02ca();
734 		break;
735 	case MACH_DS5800:	/* DS5800 Isis */
736 		panic("Don't know how to set this up!");
737 		break;
738 	case MACH_DS5400:	/* DS5400 MIPSfair */
739 		panic("Don't know how to set this up!");
740 		break;
741 	case MACH_DS5500:	/* DS5500 MIPSfair-2 */
742 		panic("Don't know how to set this up!");
743 		break;
744 	}
745 
746 	/* Free the FPU interrupt if the exception is present. */
747 	if (!cpu_has_nofpuex) {
748 		cpu_fpu_mask = 0;
749 		dec_interrupt[DEC_IRQ_FPU] = -1;
750 	}
751 
752 	/* Register board interrupts: FPU and cascade. */
753 	if (dec_interrupt[DEC_IRQ_FPU] >= 0)
754 		setup_irq(dec_interrupt[DEC_IRQ_FPU], &fpuirq);
755 	if (dec_interrupt[DEC_IRQ_CASCADE] >= 0)
756 		setup_irq(dec_interrupt[DEC_IRQ_CASCADE], &ioirq);
757 
758 	/* Register the bus error interrupt. */
759 	if (dec_interrupt[DEC_IRQ_BUS] >= 0 && busirq.handler)
760 		setup_irq(dec_interrupt[DEC_IRQ_BUS], &busirq);
761 
762 	/* Register the HALT interrupt. */
763 	if (dec_interrupt[DEC_IRQ_HALT] >= 0)
764 		setup_irq(dec_interrupt[DEC_IRQ_HALT], &haltirq);
765 }
766 
dec_irq_dispatch(unsigned int irq)767 asmlinkage unsigned int dec_irq_dispatch(unsigned int irq)
768 {
769 	do_IRQ(irq);
770 	return 0;
771 }
772