dec_3min.c revision 1.35 
11.35Snisimura/* $NetBSD: dec_3min.c,v 1.35 2000/02/29 04:41:52 nisimura Exp $ */
21.1Sjonathan
31.1Sjonathan/*
41.1Sjonathan * Copyright (c) 1998 Jonathan Stone.  All rights reserved.
51.1Sjonathan *
61.1Sjonathan * Redistribution and use in source and binary forms, with or without
71.1Sjonathan * modification, are permitted provided that the following conditions
81.1Sjonathan * are met:
91.1Sjonathan * 1. Redistributions of source code must retain the above copyright
101.1Sjonathan *    notice, this list of conditions and the following disclaimer.
111.1Sjonathan * 2. Redistributions in binary form must reproduce the above copyright
121.1Sjonathan *    notice, this list of conditions and the following disclaimer in the
131.1Sjonathan *    documentation and/or other materials provided with the distribution.
141.1Sjonathan * 3. All advertising materials mentioning features or use of this software
151.1Sjonathan *    must display the following acknowledgement:
161.1Sjonathan *	This product includes software developed by Jonathan Stone for
171.1Sjonathan *      the NetBSD Project.
181.1Sjonathan * 4. The name of the author may not be used to endorse or promote products
191.1Sjonathan *    derived from this software without specific prior written permission.
201.1Sjonathan *
211.1Sjonathan * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
221.1Sjonathan * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
231.1Sjonathan * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
241.1Sjonathan * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
251.1Sjonathan * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
261.1Sjonathan * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
271.1Sjonathan * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
281.1Sjonathan * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
291.1Sjonathan * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
301.1Sjonathan * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
311.1Sjonathan */
321.1Sjonathan
331.1Sjonathan/*
341.1Sjonathan * Copyright (c) 1988 University of Utah.
351.1Sjonathan * Copyright (c) 1992, 1993
361.1Sjonathan *	The Regents of the University of California.  All rights reserved.
371.1Sjonathan *
381.1Sjonathan * This code is derived from software contributed to Berkeley by
391.1Sjonathan * the Systems Programming Group of the University of Utah Computer
401.1Sjonathan * Science Department, The Mach Operating System project at
411.1Sjonathan * Carnegie-Mellon University and Ralph Campbell.
421.1Sjonathan *
431.1Sjonathan * Redistribution and use in source and binary forms, with or without
441.1Sjonathan * modification, are permitted provided that the following conditions
451.1Sjonathan * are met:
461.1Sjonathan * 1. Redistributions of source code must retain the above copyright
471.1Sjonathan *    notice, this list of conditions and the following disclaimer.
481.1Sjonathan * 2. Redistributions in binary form must reproduce the above copyright
491.1Sjonathan *    notice, this list of conditions and the following disclaimer in the
501.1Sjonathan *    documentation and/or other materials provided with the distribution.
511.1Sjonathan * 3. All advertising materials mentioning features or use of this software
521.1Sjonathan *    must display the following acknowledgement:
531.1Sjonathan *	This product includes software developed by the University of
541.1Sjonathan *	California, Berkeley and its contributors.
551.1Sjonathan * 4. Neither the name of the University nor the names of its contributors
561.1Sjonathan *    may be used to endorse or promote products derived from this software
571.1Sjonathan *    without specific prior written permission.
581.1Sjonathan *
591.1Sjonathan * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
601.1Sjonathan * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
611.1Sjonathan * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
621.1Sjonathan * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
631.1Sjonathan * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
641.1Sjonathan * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
651.1Sjonathan * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
661.1Sjonathan * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
671.1Sjonathan * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
681.1Sjonathan * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
691.1Sjonathan * SUCH DAMAGE.
701.1Sjonathan *
711.1Sjonathan *	@(#)machdep.c	8.3 (Berkeley) 1/12/94
721.1Sjonathan */
731.1Sjonathan
741.1Sjonathan#include <sys/cdefs.h>			/* RCS ID & Copyright macro defns */
751.1Sjonathan
761.35Snisimura__KERNEL_RCSID(0, "$NetBSD: dec_3min.c,v 1.35 2000/02/29 04:41:52 nisimura Exp $");
771.1Sjonathan
781.34Snisimura#include <sys/param.h>
791.1Sjonathan#include <sys/systm.h>
801.34Snisimura#include <sys/device.h>
811.1Sjonathan
821.1Sjonathan#include <machine/cpu.h>
831.1Sjonathan#include <machine/intr.h>
841.1Sjonathan#include <machine/sysconf.h>
851.1Sjonathan
861.1Sjonathan#include <mips/mips/mips_mcclock.h>	/* mcclock CPUspeed estimation */
871.2Sjonathan
881.2Sjonathan/* all these to get ioasic_base */
891.2Sjonathan#include <dev/tc/tcvar.h>		/* tc type definitions for.. */
901.7Sjonathan#include <dev/tc/ioasicreg.h>		/* ioasic interrrupt masks */
911.2Sjonathan#include <dev/tc/ioasicvar.h>		/* ioasic_base */
921.1Sjonathan
931.20Ssimonb#include <pmax/pmax/machdep.h>
941.1Sjonathan#include <pmax/pmax/kmin.h>		/* 3min baseboard addresses */
951.15Snisimura#include <pmax/pmax/memc.h>		/* 3min/maxine memory errors */
961.34Snisimura#include <pmax/tc/sccvar.h>
971.34Snisimura
981.34Snisimura#include "rasterconsole.h"
991.1Sjonathan
1001.31Ssimonbvoid		dec_3min_init __P((void));		/* XXX */
1011.31Ssimonbstatic void	dec_3min_bus_reset __P((void));
1021.33Ssimonbstatic void	dec_3min_cons_init __P((void));
1031.33Ssimonbstatic void	dec_3min_device_register __P((struct device *, void *));
1041.31Ssimonbstatic int	dec_3min_intr __P((unsigned, unsigned, unsigned, unsigned));
1051.33Ssimonbstatic void	dec_3min_intr_establish __P((struct device *, void *,
1061.33Ssimonb		    int, int (*)(void *), void *));
1071.1Sjonathan
1081.31Ssimonbstatic void	kn02ba_wbflush __P((void));
1091.31Ssimonbstatic unsigned	kn02ba_clkread __P((void));
1101.1Sjonathan
1111.1Sjonathan
1121.1Sjonathan/*
1131.1Sjonathan * Local declarations.
1141.1Sjonathan */
1151.22Snisimurastatic u_int32_t kmin_tc3_imask;
1161.18Snisimura
1171.18Snisimura#ifdef MIPS3
1181.31Ssimonbstatic unsigned latched_cycle_cnt;
1191.18Snisimura#endif
1201.18Snisimura
1211.1Sjonathan
1221.1Sjonathanvoid
1231.1Sjonathandec_3min_init()
1241.1Sjonathan{
1251.31Ssimonb	int physmem_boardmax;
1261.22Snisimura
1271.24Snisimura	platform.iobus = "tcbus";
1281.1Sjonathan	platform.bus_reset = dec_3min_bus_reset;
1291.1Sjonathan	platform.cons_init = dec_3min_cons_init;
1301.1Sjonathan	platform.device_register = dec_3min_device_register;
1311.22Snisimura	platform.iointr = dec_3min_intr;
1321.33Ssimonb	platform.intr_establish = dec_3min_intr_establish;
1331.26Ssimonb	platform.memsize = memsize_scan;
1341.22Snisimura	platform.clkread = kn02ba_clkread;
1351.1Sjonathan
1361.22Snisimura	/* clear any memory errors */
1371.17Snisimura	*(u_int32_t *)MIPS_PHYS_TO_KSEG1(KMIN_REG_TIMEOUT) = 0;
1381.14Snisimura	kn02ba_wbflush();
1391.1Sjonathan
1401.1Sjonathan	ioasic_base = MIPS_PHYS_TO_KSEG1(KMIN_SYS_ASIC);
1411.22Snisimura	mips_hardware_intr = dec_3min_intr;
1421.1Sjonathan
1431.1Sjonathan	/*
1441.22Snisimura	 * Since all the motherboard interrupts come through the
1451.22Snisimura	 * IOASIC, it has to be turned off for all the spls and
1461.22Snisimura	 * since we don't know what kinds of devices are in the
1471.22Snisimura	 * TURBOchannel option slots, just splhigh().
1481.1Sjonathan	 */
1491.16Snisimura	splvec.splbio = MIPS_SPL_0_1_2_3;
1501.22Snisimura	splvec.splnet = MIPS_SPL_0_1_2_3;
1511.16Snisimura	splvec.spltty = MIPS_SPL_0_1_2_3;
1521.16Snisimura	splvec.splimp = MIPS_SPL_0_1_2_3;
1531.16Snisimura	splvec.splclock = MIPS_SPL_0_1_2_3;
1541.16Snisimura	splvec.splstatclock = MIPS_SPL_0_1_2_3;
1551.16Snisimura
1561.28Snisimura	/* enable posting of MIPS_INT_MASK_3 to CAUSE register */
1571.28Snisimura	*(u_int32_t *)(ioasic_base + IOASIC_IMSK) = KMIN_INTR_CLOCK;
1581.22Snisimura	/* calibrate cpu_mhz value */
1591.29Snisimura	mc_cpuspeed(ioasic_base+IOASIC_SLOT_8_START, MIPS_INT_MASK_3);
1601.1Sjonathan
1611.17Snisimura	*(u_int32_t *)(ioasic_base + IOASIC_LANCE_DECODE) = 0x3;
1621.17Snisimura	*(u_int32_t *)(ioasic_base + IOASIC_SCSI_DECODE) = 0xe;
1631.22Snisimura#if 0
1641.17Snisimura	*(u_int32_t *)(ioasic_base + IOASIC_SCC0_DECODE) = (0x10|4);
1651.17Snisimura	*(u_int32_t *)(ioasic_base + IOASIC_SCC1_DECODE) = (0x10|6);
1661.17Snisimura	*(u_int32_t *)(ioasic_base + IOASIC_CSR) = 0x00000f00;
1671.22Snisimura#endif
1681.22Snisimura
1691.22Snisimura	/* sanitize interrupt mask */
1701.22Snisimura	kmin_tc3_imask = (KMIN_INTR_CLOCK|KMIN_INTR_PSWARN|KMIN_INTR_TIMEOUT);
1711.17Snisimura	*(u_int32_t *)(ioasic_base + IOASIC_INTR) = 0;
1721.22Snisimura	*(u_int32_t *)(ioasic_base + IOASIC_IMSK) = kmin_tc3_imask;
1731.1Sjonathan
1741.1Sjonathan	/*
1751.22Snisimura	 * The kmin memory hardware seems to wrap memory addresses
1761.1Sjonathan	 * with 4Mbyte SIMMs, which causes the physmem computation
1771.1Sjonathan	 * to lose.  Find out how big the SIMMS are and set
1781.22Snisimura	 * max_ physmem accordingly.
1791.22Snisimura	 * XXX Do MAXINEs lose the same way?
1801.1Sjonathan	 */
1811.1Sjonathan	physmem_boardmax = KMIN_PHYS_MEMORY_END + 1;
1821.22Snisimura	if ((KMIN_MSR_SIZE_16Mb & *(int *)MIPS_PHYS_TO_KSEG1(KMIN_REG_MSR))
1831.22Snisimura			== 0)
1841.1Sjonathan		physmem_boardmax = physmem_boardmax >> 2;
1851.1Sjonathan	physmem_boardmax = MIPS_PHYS_TO_KSEG1(physmem_boardmax);
1861.10Sjonathan
1871.22Snisimura	sprintf(cpu_model, "DECstation 5000/1%d (3MIN)", cpu_mhz);
1881.22Snisimura}
1891.22Snisimura
1901.22Snisimura/*
1911.22Snisimura * Initalize the memory system and I/O buses.
1921.22Snisimura */
1931.31Ssimonbstatic void
1941.22Snisimuradec_3min_bus_reset()
1951.22Snisimura{
1961.22Snisimura
1971.22Snisimura	/*
1981.22Snisimura	 * Reset interrupts, clear any errors from newconf probes
1991.22Snisimura	 */
2001.22Snisimura
2011.17Snisimura	*(u_int32_t *)MIPS_PHYS_TO_KSEG1(KMIN_REG_TIMEOUT) = 0;
2021.17Snisimura	kn02ba_wbflush();
2031.17Snisimura
2041.22Snisimura	*(u_int32_t *)(ioasic_base + IOASIC_INTR) = 0;
2051.22Snisimura	kn02ba_wbflush();
2061.1Sjonathan}
2071.1Sjonathan
2081.31Ssimonbstatic void
2091.1Sjonathandec_3min_cons_init()
2101.1Sjonathan{
2111.34Snisimura	int kbd, crt, screen;
2121.34Snisimura	extern int tcfb_cnattach __P((int));		/* XXX */
2131.34Snisimura
2141.34Snisimura	kbd = crt = screen = 0;
2151.34Snisimura	prom_findcons(&kbd, &crt, &screen);
2161.34Snisimura
2171.34Snisimura	if (screen > 0) {
2181.34Snisimura#if NRASTERCONSOLE > 0
2191.34Snisimura		if (tcfb_cnattach(crt) > 0) {
2201.34Snisimura			scc_lk201_cnattach(ioasic_base, 0x180000);
2211.34Snisimura			return;
2221.34Snisimura		}
2231.34Snisimura#endif
2241.34Snisimura		printf("No framebuffer device configured for slot %d: ", crt);
2251.34Snisimura		printf("using serial console\n");
2261.34Snisimura	}
2271.34Snisimura	/*
2281.34Snisimura	 * Delay to allow PROM putchars to complete.
2291.34Snisimura	 * FIFO depth * character time,
2301.34Snisimura	 * character time = (1000000 / (defaultrate / 10))
2311.34Snisimura	 */
2321.34Snisimura	DELAY(160000000 / 9600);	/* XXX */
2331.34Snisimura
2341.34Snisimura	scc_cnattach(ioasic_base, 0x180000);
2351.1Sjonathan}
2361.1Sjonathan
2371.1Sjonathan
2381.31Ssimonbstatic void
2391.1Sjonathandec_3min_device_register(dev, aux)
2401.1Sjonathan	struct device *dev;
2411.1Sjonathan	void *aux;
2421.1Sjonathan{
2431.1Sjonathan	panic("dec_3min_device_register unimplemented");
2441.1Sjonathan}
2451.1Sjonathan
2461.1Sjonathan
2471.31Ssimonbstatic void
2481.33Ssimonbdec_3min_intr_establish(dev, cookie, level, handler, arg)
2491.33Ssimonb	struct device *dev;
2501.33Ssimonb	void *cookie;
2511.33Ssimonb	int level;
2521.24Snisimura	int (*handler) __P((void *));
2531.33Ssimonb	void *arg;
2541.1Sjonathan{
2551.13Ssimonb	unsigned mask;
2561.1Sjonathan
2571.35Snisimura	switch ((int)cookie) {
2581.1Sjonathan		/* slots 0-2 don't interrupt through the IOASIC. */
2591.35Snisimura	  case SYS_DEV_OPT0:
2601.33Ssimonb		mask = MIPS_INT_MASK_0;
2611.33Ssimonb		break;
2621.35Snisimura	  case SYS_DEV_OPT1:
2631.33Ssimonb		mask = MIPS_INT_MASK_1;
2641.33Ssimonb		break;
2651.35Snisimura	  case SYS_DEV_OPT2:
2661.33Ssimonb		mask = MIPS_INT_MASK_2;
2671.33Ssimonb		break;
2681.1Sjonathan
2691.35Snisimura	  case SYS_DEV_SCSI:
2701.7Sjonathan		mask = (IOASIC_INTR_SCSI | IOASIC_INTR_SCSI_PTR_LOAD |
2711.7Sjonathan			IOASIC_INTR_SCSI_OVRUN | IOASIC_INTR_SCSI_READ_E);
2721.1Sjonathan		break;
2731.35Snisimura	  case SYS_DEV_LANCE:
2741.1Sjonathan		mask = KMIN_INTR_LANCE;
2751.1Sjonathan		break;
2761.35Snisimura	  case SYS_DEV_SCC0:
2771.1Sjonathan		mask = KMIN_INTR_SCC_0;
2781.1Sjonathan		break;
2791.35Snisimura	  case SYS_DEV_SCC1:
2801.1Sjonathan		mask = KMIN_INTR_SCC_1;
2811.1Sjonathan		break;
2821.33Ssimonb	  default:
2831.33Ssimonb#ifdef DIAGNOSTIC
2841.35Snisimura		printf("warning: enabling unknown intr %x\n", (int)cookie);
2851.33Ssimonb#endif
2861.1Sjonathan		return;
2871.1Sjonathan	}
2881.1Sjonathan
2891.1Sjonathan#if defined(DEBUG) || defined(DIAGNOSTIC)
2901.25Snisimura	printf("3MIN: imask %x, %sabling slot %d, sc %p handler %p\n",
2911.35Snisimura	    kmin_tc3_imask, (on? "en" : "dis"), (int)cookie, sc, handler);
2921.1Sjonathan#endif
2931.1Sjonathan
2941.1Sjonathan	/*
2951.1Sjonathan	 * Enable the interrupt  handler, and if it's an IOASIC
2961.1Sjonathan	 * slot, set the IOASIC interrupt mask.
2971.1Sjonathan	 * Otherwise, set the appropriate spl level in the R3000
2981.1Sjonathan	 * register.
2991.35Snisimura	 * Be careful to set handlers before enabling, and disable
3001.1Sjonathan	 * interrupts before clearing handlers.
3011.1Sjonathan	 */
3021.1Sjonathan
3031.33Ssimonb	/* Set the interrupt handler and argument ... */
3041.35Snisimura	intrtab[(int)cookie].ih_func = handler;
3051.35Snisimura	intrtab[(int)cookie].ih_arg = arg;
3061.33Ssimonb	/* ... and set the relevant mask */
3071.35Snisimura	switch ((int)cookie) {
3081.35Snisimura	case SYS_DEV_OPT0:
3091.35Snisimura	case SYS_DEV_OPT1:
3101.35Snisimura	case SYS_DEV_OPT2:
3111.33Ssimonb		/* it's an option slot */
3121.35Snisimura		{
3131.33Ssimonb		int s = splhigh();
3141.33Ssimonb		s |= mask;
3151.33Ssimonb		splx(s);
3161.35Snisimura		}
3171.35Snisimura		break;
3181.35Snisimura	default:
3191.35Snisimura		/* it's a baseboard device going via the IOASIC */
3201.33Ssimonb		kmin_tc3_imask |= mask;
3211.35Snisimura		break;
3221.1Sjonathan	}
3231.33Ssimonb
3241.25Snisimura	*(u_int32_t *)(ioasic_base + IOASIC_IMSK) = kmin_tc3_imask;
3251.25Snisimura	kn02ba_wbflush();
3261.1Sjonathan}
3271.1Sjonathan
3281.1Sjonathan
3291.35Snisimura#define CHECKINTR(slot, bits)                                   \
3301.35Snisimura    do {							\
3311.35Snisimura        if (can_serve & (bits)) {                               \
3321.35Snisimura                intrcnt[slot] += 1;                             \
3331.35Snisimura                (*intrtab[slot].ih_func)(intrtab[slot].ih_arg); \
3341.35Snisimura        }							\
3351.35Snisimura    } while (0)
3361.1Sjonathan
3371.31Ssimonbstatic int
3381.17Snisimuradec_3min_intr(cpumask, pc, status, cause)
3391.17Snisimura	unsigned cpumask;
3401.1Sjonathan	unsigned pc;
3411.17Snisimura	unsigned status;
3421.17Snisimura	unsigned cause;
3431.1Sjonathan{
3441.1Sjonathan	static int user_warned = 0;
3451.17Snisimura	static int intr_depth = 0;
3461.17Snisimura	u_int32_t old_mask;
3471.1Sjonathan
3481.10Sjonathan	intr_depth++;
3491.17Snisimura	old_mask = *(u_int32_t *)(ioasic_base + IOASIC_IMSK);
3501.10Sjonathan
3511.17Snisimura	if (cpumask & MIPS_INT_MASK_4)
3521.1Sjonathan		prom_haltbutton();
3531.1Sjonathan
3541.17Snisimura	if (cpumask & MIPS_INT_MASK_3) {
3551.10Sjonathan		/* NB: status & MIPS_INT_MASK3 must also be set */
3561.10Sjonathan		/* masked interrupts are still observable */
3571.35Snisimura		u_int32_t intr, imsk, can_serve, turnoff;
3581.17Snisimura
3591.17Snisimura		turnoff = 0;
3601.17Snisimura		intr = *(u_int32_t *)(ioasic_base + IOASIC_INTR);
3611.17Snisimura		imsk = *(u_int32_t *)(ioasic_base + IOASIC_IMSK);
3621.35Snisimura		can_serve = intr & imsk;
3631.1Sjonathan
3641.7Sjonathan		if (intr & IOASIC_INTR_SCSI_PTR_LOAD) {
3651.17Snisimura			turnoff |= IOASIC_INTR_SCSI_PTR_LOAD;
3661.1Sjonathan#ifdef notdef
3671.1Sjonathan			asc_dma_intr();
3681.1Sjonathan#endif
3691.1Sjonathan		}
3701.12Ssimonb
3711.7Sjonathan		if (intr & (IOASIC_INTR_SCSI_OVRUN | IOASIC_INTR_SCSI_READ_E))
3721.17Snisimura			turnoff |= IOASIC_INTR_SCSI_OVRUN | IOASIC_INTR_SCSI_READ_E;
3731.1Sjonathan
3741.7Sjonathan		if (intr & IOASIC_INTR_LANCE_READ_E)
3751.17Snisimura			turnoff |= IOASIC_INTR_LANCE_READ_E;
3761.17Snisimura
3771.17Snisimura		if (turnoff)
3781.17Snisimura			*(u_int32_t *)(ioasic_base + IOASIC_INTR) = ~turnoff;
3791.1Sjonathan
3801.1Sjonathan		if (intr & KMIN_INTR_TIMEOUT)
3811.1Sjonathan			kn02ba_errintr();
3821.12Ssimonb
3831.1Sjonathan		if (intr & KMIN_INTR_CLOCK) {
3841.17Snisimura			struct clockframe cf;
3851.17Snisimura
3861.22Snisimura			__asm __volatile("lbu $0,48(%0)" ::
3871.22Snisimura				"r"(ioasic_base + IOASIC_SLOT_8_START));
3881.6Sjonathan#ifdef MIPS3
3891.6Sjonathan			if (CPUISMIPS3) {
3901.6Sjonathan				latched_cycle_cnt = mips3_cycle_count();
3911.6Sjonathan			}
3921.6Sjonathan#endif
3931.17Snisimura			cf.pc = pc;
3941.17Snisimura			cf.sr = status;
3951.1Sjonathan			hardclock(&cf);
3961.1Sjonathan			intrcnt[HARDCLOCK]++;
3971.1Sjonathan		}
3981.10Sjonathan
3991.10Sjonathan		/* If clock interrups were enabled, re-enable them ASAP. */
4001.10Sjonathan		if (old_mask & KMIN_INTR_CLOCK) {
4011.17Snisimura			/* ioctl interrupt mask to splclock and higher */
4021.17Snisimura			*(u_int32_t *)(ioasic_base + IOASIC_IMSK)
4031.17Snisimura				= old_mask &
4041.17Snisimura					~(KMIN_INTR_SCC_0|KMIN_INTR_SCC_1 |
4051.17Snisimura					  IOASIC_INTR_LANCE|IOASIC_INTR_SCSI);
4061.14Snisimura			kn02ba_wbflush();
4071.17Snisimura			_splset(MIPS_SR_INT_IE | (status & MIPS_INT_MASK_3));
4081.10Sjonathan		}
4091.10Sjonathan
4101.11Sjonathan		if (intr_depth > 1)
4111.11Sjonathan			 goto done;
4121.11Sjonathan
4131.35Snisimura		CHECKINTR(SYS_DEV_SCC0, IOASIC_INTR_SCC_0);
4141.35Snisimura		CHECKINTR(SYS_DEV_SCC1, IOASIC_INTR_SCC_1);
4151.10Sjonathan
4161.10Sjonathan#ifdef notyet /* untested */
4171.10Sjonathan		/* If tty interrupts were enabled, re-enable them ASAP. */
4181.10Sjonathan		if ((old_mask & (KMIN_INTR_SCC_1|KMIN_INTR_SCC_0)) ==
4191.10Sjonathan		     (KMIN_INTR_SCC_1|KMIN_INTR_SCC_0)) {
4201.12Ssimonb			*imaskp = old_mask &
4211.10Sjonathan			  ~(KMIN_INTR_SCC_0|KMIN_INTR_SCC_1 |
4221.10Sjonathan			  IOASIC_INTR_LANCE|IOASIC_INTR_SCSI);
4231.14Snisimura			kn02ba_wbflush();
4241.10Sjonathan		}
4251.10Sjonathan
4261.10Sjonathan		/* XXX until we know about SPLs of TC options. */
4271.10Sjonathan		if (intr_depth > 1)
4281.10Sjonathan			 goto done;
4291.10Sjonathan#endif
4301.35Snisimura		CHECKINTR(SYS_DEV_LANCE, IOASIC_INTR_LANCE);
4311.35Snisimura		CHECKINTR(SYS_DEV_SCSI, IOASIC_INTR_SCSI);
4321.1Sjonathan
4331.1Sjonathan		if (user_warned && ((intr & KMIN_INTR_PSWARN) == 0)) {
4341.1Sjonathan			printf("%s\n", "Power supply ok now.");
4351.1Sjonathan			user_warned = 0;
4361.1Sjonathan		}
4371.1Sjonathan		if ((intr & KMIN_INTR_PSWARN) && (user_warned < 3)) {
4381.1Sjonathan			user_warned++;
4391.1Sjonathan			printf("%s\n", "Power supply overheating");
4401.1Sjonathan		}
4411.1Sjonathan	}
4421.35Snisimura	if ((cpumask & MIPS_INT_MASK_0) && intrtab[SYS_DEV_OPT0].ih_func) {
4431.35Snisimura		(*intrtab[SYS_DEV_OPT0].ih_func)(intrtab[SYS_DEV_OPT0].ih_arg);
4441.35Snisimura		intrcnt[SYS_DEV_OPT0]++;
4451.1Sjonathan 	}
4461.12Ssimonb
4471.35Snisimura	if ((cpumask & MIPS_INT_MASK_1) && intrtab[SYS_DEV_OPT1].ih_func) {
4481.35Snisimura		(*intrtab[SYS_DEV_OPT1].ih_func)(intrtab[SYS_DEV_OPT1].ih_arg);
4491.35Snisimura		intrcnt[SYS_DEV_OPT1]++;
4501.1Sjonathan	}
4511.35Snisimura	if ((cpumask & MIPS_INT_MASK_2) && intrtab[SYS_DEV_OPT2].ih_func) {
4521.35Snisimura		(*intrtab[SYS_DEV_OPT2].ih_func)(intrtab[SYS_DEV_OPT2].ih_arg);
4531.35Snisimura		intrcnt[SYS_DEV_OPT2]++;
4541.1Sjonathan	}
4551.1Sjonathan
4561.10Sjonathandone:
4571.10Sjonathan	/* restore entry state */
4581.10Sjonathan	splhigh();
4591.10Sjonathan	intr_depth--;
4601.17Snisimura	*(u_int32_t *)(ioasic_base + IOASIC_IMSK) = old_mask;
4611.10Sjonathan
4621.14Snisimura
4631.17Snisimura	return (MIPS_SR_INT_IE | (status & ~cause & MIPS_HARD_INT_MASK));
4641.1Sjonathan}
4651.1Sjonathan
4661.1Sjonathan
4671.1Sjonathan
4681.1Sjonathan/*
4691.1Sjonathan ************************************************************************
4701.1Sjonathan * Extra functions
4711.1Sjonathan ************************************************************************
4721.1Sjonathan */
4731.14Snisimura
4741.31Ssimonbstatic void
4751.14Snisimurakn02ba_wbflush()
4761.14Snisimura{
4771.21Snisimura	/* read twice IOASIC_IMSK */
4781.27Ssimonb	__asm __volatile("lw $0,%0; lw $0,%0" ::
4791.27Ssimonb	    "i"(MIPS_PHYS_TO_KSEG1(KMIN_REG_IMSK)));
4801.14Snisimura}
4811.14Snisimura
4821.31Ssimonbstatic unsigned
4831.14Snisimurakn02ba_clkread()
4841.14Snisimura{
4851.14Snisimura#ifdef MIPS3
4861.14Snisimura	if (CPUISMIPS3) {
4871.14Snisimura		u_int32_t mips3_cycles;
4881.14Snisimura
4891.14Snisimura		mips3_cycles = mips3_cycle_count() - latched_cycle_cnt;
4901.14Snisimura		/* XXX divides take 78 cycles: approximate with * 41/2048 */
4911.14Snisimura		return((mips3_cycles >> 6) + (mips3_cycles >> 8) +
4921.14Snisimura		       (mips3_cycles >> 11));
4931.14Snisimura	}
4941.14Snisimura#endif
4951.14Snisimura	return 0;
4961.1Sjonathan}
497