1*ad1425b7Sthorpej /* $NetBSD: gdium_intr.c,v 1.10 2020/11/21 15:36:36 thorpej Exp $ */
274c9ebf3Smatt
374c9ebf3Smatt /*-
474c9ebf3Smatt * Copyright (c) 2001 The NetBSD Foundation, Inc.
574c9ebf3Smatt * All rights reserved.
674c9ebf3Smatt *
774c9ebf3Smatt * This code is derived from software contributed to The NetBSD Foundation
874c9ebf3Smatt * by Jason R. Thorpe.
974c9ebf3Smatt *
1074c9ebf3Smatt * Redistribution and use in source and binary forms, with or without
1174c9ebf3Smatt * modification, are permitted provided that the following conditions
1274c9ebf3Smatt * are met:
1374c9ebf3Smatt * 1. Redistributions of source code must retain the above copyright
1474c9ebf3Smatt * notice, this list of conditions and the following disclaimer.
1574c9ebf3Smatt * 2. Redistributions in binary form must reproduce the above copyright
1674c9ebf3Smatt * notice, this list of conditions and the following disclaimer in the
1774c9ebf3Smatt * documentation and/or other materials provided with the distribution.
1874c9ebf3Smatt *
1974c9ebf3Smatt * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
2074c9ebf3Smatt * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
2174c9ebf3Smatt * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
2274c9ebf3Smatt * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
2374c9ebf3Smatt * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
2474c9ebf3Smatt * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
2574c9ebf3Smatt * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
2674c9ebf3Smatt * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
2774c9ebf3Smatt * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
2874c9ebf3Smatt * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
2974c9ebf3Smatt * POSSIBILITY OF SUCH DAMAGE.
3074c9ebf3Smatt */
3174c9ebf3Smatt
3274c9ebf3Smatt /*
3374c9ebf3Smatt * Platform-specific interrupt support for the Algorithmics P-6032.
3474c9ebf3Smatt *
3574c9ebf3Smatt * The Algorithmics P-6032's interrupts are wired to GPIO pins
3674c9ebf3Smatt * on the BONITO system controller.
3774c9ebf3Smatt */
3874c9ebf3Smatt
3974c9ebf3Smatt #include <sys/cdefs.h>
40*ad1425b7Sthorpej __KERNEL_RCSID(0, "$NetBSD: gdium_intr.c,v 1.10 2020/11/21 15:36:36 thorpej Exp $");
413b0bc4ffSbouyer
423b0bc4ffSbouyer #define __INTR_PRIVATE
433b0bc4ffSbouyer
4474c9ebf3Smatt
4574c9ebf3Smatt #include "opt_ddb.h"
4674c9ebf3Smatt
4774c9ebf3Smatt #include <sys/param.h>
4851b4b9f7Smatt #include <sys/bus.h>
4951b4b9f7Smatt #include <sys/cpu.h>
5051b4b9f7Smatt #include <sys/device.h>
5151b4b9f7Smatt #include <sys/intr.h>
5251b4b9f7Smatt #include <sys/kernel.h>
53*ad1425b7Sthorpej #include <sys/kmem.h>
5474c9ebf3Smatt #include <sys/systm.h>
5574c9ebf3Smatt
5674c9ebf3Smatt #include <mips/locore.h>
5774c9ebf3Smatt
5874c9ebf3Smatt #include <mips/bonito/bonitoreg.h>
5974c9ebf3Smatt #include <evbmips/gdium/gdiumvar.h>
6074c9ebf3Smatt
6174c9ebf3Smatt #include <dev/pci/pcireg.h>
6274c9ebf3Smatt #include <dev/pci/pcivar.h>
6374c9ebf3Smatt
6474c9ebf3Smatt /*
6574c9ebf3Smatt * The GDIUM interrupts are wired up in the following way:
6674c9ebf3Smatt *
6774c9ebf3Smatt * GPIN0 ISA_NMI (in)
6874c9ebf3Smatt * GPIN1 ISA_INTR (in)
6974c9ebf3Smatt * GPIN2 ETH_INT~ (in)
7074c9ebf3Smatt * GPIN3 BONIDE_INT (in)
7174c9ebf3Smatt *
7274c9ebf3Smatt * PCI_INTA
7374c9ebf3Smatt * GPIN4 ISA IRQ3 (in, also on piix4)
7474c9ebf3Smatt * GPIN5 ISA IRQ4 (in, also on piix4)
7574c9ebf3Smatt *
7674c9ebf3Smatt * GPIO0 PIRQ A~ (in)
7774c9ebf3Smatt * GPIO1 PIRQ B~ (in)
7874c9ebf3Smatt * GPIO2 PIRQ C~ (in)
7974c9ebf3Smatt * GPIO3 PIRQ D~ (in)
8074c9ebf3Smatt */
8174c9ebf3Smatt
8274c9ebf3Smatt struct gdium_irqmap {
8374c9ebf3Smatt const char *name;
8474c9ebf3Smatt uint8_t irqidx;
8574c9ebf3Smatt uint8_t flags;
8674c9ebf3Smatt };
8774c9ebf3Smatt
8874c9ebf3Smatt #define IRQ_F_INVERT 0x80 /* invert polarity */
8974c9ebf3Smatt #define IRQ_F_EDGE 0x40 /* edge trigger */
9074c9ebf3Smatt #define IRQ_F_INT0 0x00 /* INT0 */
9174c9ebf3Smatt #define IRQ_F_INT1 0x01 /* INT1 */
9274c9ebf3Smatt #define IRQ_F_INT2 0x02 /* INT2 */
9374c9ebf3Smatt #define IRQ_F_INT3 0x03 /* INT3 */
9474c9ebf3Smatt #define IRQ_F_INTMASK 0x07 /* INT mask */
9574c9ebf3Smatt
9674c9ebf3Smatt const struct gdium_irqmap gdium_irqmap[] = {
9774c9ebf3Smatt { "gpio0", GDIUM_IRQ_GPIO0, IRQ_F_INT0 },
9874c9ebf3Smatt { "gpio1", GDIUM_IRQ_GPIO1, IRQ_F_INT0 },
9974c9ebf3Smatt { "gpio2", GDIUM_IRQ_GPIO2, IRQ_F_INT0 },
10074c9ebf3Smatt { "gpio3", GDIUM_IRQ_GPIO3, IRQ_F_INT0 },
10174c9ebf3Smatt
10274c9ebf3Smatt { "pci inta", GDIUM_IRQ_PCI_INTA, IRQ_F_INT0 },
10374c9ebf3Smatt { "pci intb", GDIUM_IRQ_PCI_INTB, IRQ_F_INT0 },
10474c9ebf3Smatt { "pci intc", GDIUM_IRQ_PCI_INTC, IRQ_F_INT0 },
10574c9ebf3Smatt { "pci intd", GDIUM_IRQ_PCI_INTD, IRQ_F_INT0 },
10674c9ebf3Smatt
10774c9ebf3Smatt { "pci perr", GDIUM_IRQ_PCI_PERR, IRQ_F_EDGE|IRQ_F_INT1 },
10874c9ebf3Smatt { "pci serr", GDIUM_IRQ_PCI_SERR, IRQ_F_EDGE|IRQ_F_INT1 },
10974c9ebf3Smatt
11074c9ebf3Smatt { "denali", GDIUM_IRQ_DENALI, IRQ_F_INT1 },
11174c9ebf3Smatt
112a26452b1Smatt { "mips int0", GDIUM_IRQ_INT0, IRQ_F_INT0 },
113a26452b1Smatt { "mips int1", GDIUM_IRQ_INT1, IRQ_F_INT1 },
114a26452b1Smatt { "mips int2", GDIUM_IRQ_INT2, IRQ_F_INT2 },
115a26452b1Smatt { "mips int3", GDIUM_IRQ_INT3, IRQ_F_INT3 },
11674c9ebf3Smatt };
11774c9ebf3Smatt
11874c9ebf3Smatt struct gdium_intrhead {
11974c9ebf3Smatt struct evcnt intr_count;
12074c9ebf3Smatt int intr_refcnt;
12174c9ebf3Smatt };
12274c9ebf3Smatt struct gdium_intrhead gdium_intrtab[__arraycount(gdium_irqmap)];
12374c9ebf3Smatt
12474c9ebf3Smatt #define NINTRS 2 /* MIPS INT0 - INT1 */
12574c9ebf3Smatt
12674c9ebf3Smatt struct gdium_cpuintr {
12774c9ebf3Smatt LIST_HEAD(, evbmips_intrhand) cintr_list;
12874c9ebf3Smatt struct evcnt cintr_count;
129a26452b1Smatt int cintr_refcnt;
13074c9ebf3Smatt };
13174c9ebf3Smatt
13274c9ebf3Smatt struct gdium_cpuintr gdium_cpuintrs[NINTRS];
1333b0bc4ffSbouyer const char * const gdium_cpuintrnames[NINTRS] = {
13474c9ebf3Smatt "int 0 (pci)",
135a26452b1Smatt "int 1 (errors)",
13674c9ebf3Smatt };
13774c9ebf3Smatt
13874c9ebf3Smatt /*
13974c9ebf3Smatt * This is a mask of bits to clear in the SR when we go to a
14074c9ebf3Smatt * given hardware interrupt priority level.
14174c9ebf3Smatt */
1423b0bc4ffSbouyer static const struct ipl_sr_map gdium_ipl_sr_map = {
1433b0bc4ffSbouyer .sr_bits = {
14474c9ebf3Smatt [IPL_NONE] = 0,
1453b0bc4ffSbouyer [IPL_SOFTCLOCK] = MIPS_SOFT_INT_MASK_0,
1463b0bc4ffSbouyer [IPL_SOFTNET] = MIPS_SOFT_INT_MASK_0 | MIPS_SOFT_INT_MASK_1,
14774c9ebf3Smatt [IPL_VM] =
14874c9ebf3Smatt MIPS_SOFT_INT_MASK_0 | MIPS_SOFT_INT_MASK_1 |
149a26452b1Smatt MIPS_INT_MASK_0 |
150a26452b1Smatt MIPS_INT_MASK_1 |
151a26452b1Smatt MIPS_INT_MASK_2 |
152a26452b1Smatt MIPS_INT_MASK_3 |
153a26452b1Smatt MIPS_INT_MASK_4,
15474c9ebf3Smatt [IPL_SCHED] =
15574c9ebf3Smatt MIPS_SOFT_INT_MASK_0 | MIPS_SOFT_INT_MASK_1 |
15674c9ebf3Smatt MIPS_INT_MASK_0 |
15774c9ebf3Smatt MIPS_INT_MASK_1 |
15874c9ebf3Smatt MIPS_INT_MASK_2 |
15974c9ebf3Smatt MIPS_INT_MASK_3 |
16074c9ebf3Smatt MIPS_INT_MASK_4 |
16174c9ebf3Smatt MIPS_INT_MASK_5,
1623b0bc4ffSbouyer [IPL_DDB] = MIPS_INT_MASK,
1633b0bc4ffSbouyer [IPL_HIGH] = MIPS_INT_MASK,
1643b0bc4ffSbouyer },
16574c9ebf3Smatt };
16674c9ebf3Smatt
1673b0bc4ffSbouyer int gdium_pci_intr_map(const struct pci_attach_args *, pci_intr_handle_t *);
168e58a356cSchristos const char *gdium_pci_intr_string(void *, pci_intr_handle_t, char *, size_t);
16974c9ebf3Smatt const struct evcnt *gdium_pci_intr_evcnt(void *, pci_intr_handle_t);
17074c9ebf3Smatt void *gdium_pci_intr_establish(void *, pci_intr_handle_t, int,
17174c9ebf3Smatt int (*)(void *), void *);
17274c9ebf3Smatt void gdium_pci_intr_disestablish(void *, void *);
17374c9ebf3Smatt void gdium_pci_conf_interrupt(void *, int, int, int, int, int *);
17474c9ebf3Smatt
17574c9ebf3Smatt void
evbmips_intr_init(void)17674c9ebf3Smatt evbmips_intr_init(void)
17774c9ebf3Smatt {
1783b0bc4ffSbouyer struct gdium_config * const gc = &gdium_configuration;
17974c9ebf3Smatt struct bonito_config *bc = &gc->gc_bonito;
18074c9ebf3Smatt const struct gdium_irqmap *irqmap;
18174c9ebf3Smatt uint32_t intbit;
1823b0bc4ffSbouyer size_t i;
1833b0bc4ffSbouyer
1843b0bc4ffSbouyer ipl_sr_map = gdium_ipl_sr_map;
18574c9ebf3Smatt
18674c9ebf3Smatt for (i = 0; i < NINTRS; i++) {
18774c9ebf3Smatt LIST_INIT(&gdium_cpuintrs[i].cintr_list);
18874c9ebf3Smatt evcnt_attach_dynamic(&gdium_cpuintrs[i].cintr_count,
18974c9ebf3Smatt EVCNT_TYPE_INTR, NULL, "mips", gdium_cpuintrnames[i]);
19074c9ebf3Smatt }
19174c9ebf3Smatt //evcnt_attach_static(&mips_int5_evcnt);
19274c9ebf3Smatt
19374c9ebf3Smatt for (i = 0; i < __arraycount(gdium_irqmap); i++) {
19474c9ebf3Smatt irqmap = &gdium_irqmap[i];
19574c9ebf3Smatt intbit = 1 << irqmap->irqidx;
19674c9ebf3Smatt
19774c9ebf3Smatt evcnt_attach_dynamic(&gdium_intrtab[i].intr_count,
19874c9ebf3Smatt EVCNT_TYPE_INTR, NULL, "bonito", irqmap->name);
19974c9ebf3Smatt
20074c9ebf3Smatt if (irqmap->irqidx < 4)
20174c9ebf3Smatt bc->bc_gpioIE |= intbit;
20274c9ebf3Smatt if (irqmap->flags & IRQ_F_INVERT)
20374c9ebf3Smatt bc->bc_intPol |= intbit;
20474c9ebf3Smatt if (irqmap->flags & IRQ_F_EDGE)
20574c9ebf3Smatt bc->bc_intEdge |= intbit;
20674c9ebf3Smatt if ((irqmap->flags & IRQ_F_INTMASK) == IRQ_F_INT1)
20774c9ebf3Smatt bc->bc_intSteer |= intbit;
20874c9ebf3Smatt
20974c9ebf3Smatt REGVAL(BONITO_INTENCLR) = intbit;
21074c9ebf3Smatt }
21174c9ebf3Smatt
21274c9ebf3Smatt REGVAL(BONITO_GPIOIE) = bc->bc_gpioIE;
21374c9ebf3Smatt REGVAL(BONITO_INTEDGE) = bc->bc_intEdge;
21474c9ebf3Smatt REGVAL(BONITO_INTSTEER) = bc->bc_intSteer;
21574c9ebf3Smatt REGVAL(BONITO_INTPOL) = bc->bc_intPol;
21674c9ebf3Smatt
21774c9ebf3Smatt gc->gc_pc.pc_intr_v = NULL;
21874c9ebf3Smatt gc->gc_pc.pc_intr_map = gdium_pci_intr_map;
21974c9ebf3Smatt gc->gc_pc.pc_intr_string = gdium_pci_intr_string;
22074c9ebf3Smatt gc->gc_pc.pc_intr_evcnt = gdium_pci_intr_evcnt;
22174c9ebf3Smatt gc->gc_pc.pc_intr_establish = gdium_pci_intr_establish;
22274c9ebf3Smatt gc->gc_pc.pc_intr_disestablish = gdium_pci_intr_disestablish;
22374c9ebf3Smatt gc->gc_pc.pc_conf_interrupt = gdium_pci_conf_interrupt;
22474c9ebf3Smatt
22574c9ebf3Smatt /* We let the PCI-ISA bridge code handle this. */
22674c9ebf3Smatt gc->gc_pc.pc_pciide_compat_intr_establish = NULL;
22774c9ebf3Smatt }
22874c9ebf3Smatt
22974c9ebf3Smatt void *
evbmips_intr_establish(int irq,int (* func)(void *),void * arg)230a26452b1Smatt evbmips_intr_establish(int irq, int (*func)(void *), void *arg)
23174c9ebf3Smatt {
23274c9ebf3Smatt const struct gdium_irqmap *irqmap;
23374c9ebf3Smatt struct evbmips_intrhand *ih;
234a26452b1Smatt int level;
23574c9ebf3Smatt int s;
23674c9ebf3Smatt
23774c9ebf3Smatt irqmap = &gdium_irqmap[irq];
23874c9ebf3Smatt KASSERT(irq < __arraycount(gdium_irqmap));
23974c9ebf3Smatt
24074c9ebf3Smatt KASSERT(irq == irqmap->irqidx);
24174c9ebf3Smatt
242*ad1425b7Sthorpej ih = kmem_zalloc(sizeof(*ih), KM_SLEEP);
24374c9ebf3Smatt ih->ih_func = func;
24474c9ebf3Smatt ih->ih_arg = arg;
24574c9ebf3Smatt ih->ih_irq = irq;
24674c9ebf3Smatt
24774c9ebf3Smatt s = splhigh();
24874c9ebf3Smatt
24974c9ebf3Smatt /*
25074c9ebf3Smatt * First, link it into the tables.
25174c9ebf3Smatt */
252a26452b1Smatt level = (irqmap->flags & IRQ_F_INT1) != 0;
253a26452b1Smatt LIST_INSERT_HEAD(&gdium_cpuintrs[level].cintr_list, ih, ih_q);
254a26452b1Smatt gdium_cpuintrs[level].cintr_refcnt++;
25574c9ebf3Smatt
25674c9ebf3Smatt /*
25774c9ebf3Smatt * Now enable it.
25874c9ebf3Smatt */
259a26452b1Smatt if (gdium_intrtab[ih->ih_irq].intr_refcnt++ == 0)
260a26452b1Smatt REGVAL(BONITO_INTENSET) = (1 << ih->ih_irq);
26174c9ebf3Smatt
26274c9ebf3Smatt splx(s);
26374c9ebf3Smatt
26474c9ebf3Smatt return (ih);
26574c9ebf3Smatt }
26674c9ebf3Smatt
26774c9ebf3Smatt void
evbmips_intr_disestablish(void * cookie)268a26452b1Smatt evbmips_intr_disestablish(void *cookie)
26974c9ebf3Smatt {
27074c9ebf3Smatt const struct gdium_irqmap *irqmap;
27174c9ebf3Smatt struct evbmips_intrhand *ih = cookie;
27274c9ebf3Smatt int s;
27374c9ebf3Smatt
27474c9ebf3Smatt irqmap = &gdium_irqmap[ih->ih_irq];
27574c9ebf3Smatt
27674c9ebf3Smatt s = splhigh();
27774c9ebf3Smatt
27874c9ebf3Smatt /*
27974c9ebf3Smatt * First, remove it from the table.
28074c9ebf3Smatt */
28174c9ebf3Smatt LIST_REMOVE(ih, ih_q);
282a26452b1Smatt gdium_cpuintrs[(irqmap->flags & IRQ_F_INT1) != 0].cintr_refcnt--;
28374c9ebf3Smatt
28474c9ebf3Smatt /*
28574c9ebf3Smatt * Now, disable it, if there is nothing remaining on the
28674c9ebf3Smatt * list.
28774c9ebf3Smatt */
288a26452b1Smatt if (gdium_intrtab[ih->ih_irq].intr_refcnt-- == 1)
289a26452b1Smatt REGVAL(BONITO_INTENCLR) = (1 << ih->ih_irq);
29074c9ebf3Smatt
29174c9ebf3Smatt splx(s);
29274c9ebf3Smatt
293*ad1425b7Sthorpej kmem_free(ih, sizeof(*ih));
29474c9ebf3Smatt }
29574c9ebf3Smatt
29674c9ebf3Smatt void
evbmips_iointr(int ipl,uint32_t ipending,struct clockframe * cf)2974e8b65a1Sskrll evbmips_iointr(int ipl, uint32_t ipending, struct clockframe *cf)
29874c9ebf3Smatt {
29974c9ebf3Smatt struct evbmips_intrhand *ih;
30074c9ebf3Smatt int level;
30174c9ebf3Smatt uint32_t isr;
30274c9ebf3Smatt
30374c9ebf3Smatt /*
30474c9ebf3Smatt * Read the interrupt pending registers, mask them with the
30574c9ebf3Smatt * ones we have enabled, and service them in order of decreasing
30674c9ebf3Smatt * priority.
30774c9ebf3Smatt */
30874c9ebf3Smatt isr = REGVAL(BONITO_INTISR) & REGVAL(BONITO_INTEN);
30974c9ebf3Smatt for (level = 1; level >= 0; level--) {
310a26452b1Smatt if ((ipending & (MIPS_INT_MASK_4 << level)) == 0)
31174c9ebf3Smatt continue;
31274c9ebf3Smatt gdium_cpuintrs[level].cintr_count.ev_count++;
313a26452b1Smatt LIST_FOREACH (ih, &gdium_cpuintrs[level].cintr_list, ih_q) {
31474c9ebf3Smatt if (isr & (1 << ih->ih_irq)) {
31574c9ebf3Smatt gdium_intrtab[ih->ih_irq].intr_count.ev_count++;
31674c9ebf3Smatt (*ih->ih_func)(ih->ih_arg);
31774c9ebf3Smatt }
31874c9ebf3Smatt }
31974c9ebf3Smatt }
32074c9ebf3Smatt }
32174c9ebf3Smatt
32274c9ebf3Smatt /*****************************************************************************
32374c9ebf3Smatt * PCI interrupt support
32474c9ebf3Smatt *****************************************************************************/
32574c9ebf3Smatt
32674c9ebf3Smatt int
gdium_pci_intr_map(const struct pci_attach_args * pa,pci_intr_handle_t * ihp)3273b0bc4ffSbouyer gdium_pci_intr_map(const struct pci_attach_args *pa,
32874c9ebf3Smatt pci_intr_handle_t *ihp)
32974c9ebf3Smatt {
33074c9ebf3Smatt static const int8_t pciirqmap[5/*device*/] = {
33174c9ebf3Smatt GDIUM_IRQ_PCI_INTC, /* 13: PCI 802.11 */
33274c9ebf3Smatt GDIUM_IRQ_PCI_INTA, /* 14: SM501 */
33374c9ebf3Smatt GDIUM_IRQ_PCI_INTB, /* 15: NEC USB (2 func) */
33474c9ebf3Smatt GDIUM_IRQ_PCI_INTD, /* 16: Ethernet */
33574c9ebf3Smatt GDIUM_IRQ_PCI_INTC, /* 17: NEC USB (2 func) */
33674c9ebf3Smatt };
33774c9ebf3Smatt pcitag_t bustag = pa->pa_intrtag;
33874c9ebf3Smatt int buspin = pa->pa_intrpin;
33974c9ebf3Smatt pci_chipset_tag_t pc = pa->pa_pc;
34074c9ebf3Smatt int device;
34174c9ebf3Smatt
34274c9ebf3Smatt if (buspin == 0) {
34374c9ebf3Smatt /* No IRQ used. */
34474c9ebf3Smatt return (1);
34574c9ebf3Smatt }
34674c9ebf3Smatt
34774c9ebf3Smatt if (buspin > 4) {
34874c9ebf3Smatt printf("gdium_pci_intr_map: bad interrupt pin %d\n",
34974c9ebf3Smatt buspin);
35074c9ebf3Smatt return (1);
35174c9ebf3Smatt }
35274c9ebf3Smatt
35374c9ebf3Smatt pci_decompose_tag(pc, bustag, NULL, &device, NULL);
35474c9ebf3Smatt if (device < 13 || device > 17) {
35574c9ebf3Smatt printf("gdium_pci_intr_map: bad device %d\n",
35674c9ebf3Smatt device);
35774c9ebf3Smatt return (1);
35874c9ebf3Smatt }
35974c9ebf3Smatt
36074c9ebf3Smatt *ihp = pciirqmap[device - 13];
36174c9ebf3Smatt return (0);
36274c9ebf3Smatt }
36374c9ebf3Smatt
36474c9ebf3Smatt const char *
gdium_pci_intr_string(void * v,pci_intr_handle_t ih,char * buf,size_t len)365e58a356cSchristos gdium_pci_intr_string(void *v, pci_intr_handle_t ih, char *buf, size_t len)
36674c9ebf3Smatt {
36774c9ebf3Smatt
36874c9ebf3Smatt if (ih >= __arraycount(gdium_irqmap))
36974c9ebf3Smatt panic("gdium_intr_string: bogus IRQ %ld", ih);
37074c9ebf3Smatt
371e58a356cSchristos strlcpy(buf, gdium_irqmap[ih].name, len);
372e58a356cSchristos return buf;
37374c9ebf3Smatt }
37474c9ebf3Smatt
37574c9ebf3Smatt const struct evcnt *
gdium_pci_intr_evcnt(void * v,pci_intr_handle_t ih)37674c9ebf3Smatt gdium_pci_intr_evcnt(void *v, pci_intr_handle_t ih)
37774c9ebf3Smatt {
37874c9ebf3Smatt
37974c9ebf3Smatt return &gdium_intrtab[ih].intr_count;
38074c9ebf3Smatt }
38174c9ebf3Smatt
38274c9ebf3Smatt void *
gdium_pci_intr_establish(void * v,pci_intr_handle_t ih,int level,int (* func)(void *),void * arg)38374c9ebf3Smatt gdium_pci_intr_establish(void *v, pci_intr_handle_t ih, int level,
38474c9ebf3Smatt int (*func)(void *), void *arg)
38574c9ebf3Smatt {
38674c9ebf3Smatt
38774c9ebf3Smatt if (ih >= __arraycount(gdium_irqmap))
388a26452b1Smatt panic("gdium_pci_intr_establish: bogus IRQ %ld", ih);
38974c9ebf3Smatt
390a26452b1Smatt return evbmips_intr_establish(ih, func, arg);
39174c9ebf3Smatt }
39274c9ebf3Smatt
39374c9ebf3Smatt void
gdium_pci_intr_disestablish(void * v,void * cookie)39474c9ebf3Smatt gdium_pci_intr_disestablish(void *v, void *cookie)
39574c9ebf3Smatt {
39674c9ebf3Smatt
397a26452b1Smatt return (evbmips_intr_disestablish(cookie));
39874c9ebf3Smatt }
39974c9ebf3Smatt
40074c9ebf3Smatt void
gdium_pci_conf_interrupt(void * v,int bus,int dev,int pin,int swiz,int * iline)40174c9ebf3Smatt gdium_pci_conf_interrupt(void *v, int bus, int dev, int pin, int swiz,
40274c9ebf3Smatt int *iline)
40374c9ebf3Smatt {
40474c9ebf3Smatt
40574c9ebf3Smatt /*
40674c9ebf3Smatt * We actually don't need to do anything; everything is handled
40774c9ebf3Smatt * in pci_intr_map().
40874c9ebf3Smatt */
40974c9ebf3Smatt *iline = 0;
41074c9ebf3Smatt }
411