hppa/dev/apic.c

1.2.4.2  rmind /*	$NetBSD: apic.c,v 1.2.4.2 2014/05/18 17:45:10 rmind Exp $	*/
1.2.4.2  rmind
1.2.4.2  rmind /*	$OpenBSD: apic.c,v 1.14 2011/05/01 21:59:39 kettenis Exp $	*/
1.2.4.2  rmind
1.2.4.2  rmind /*
1.2.4.2  rmind  * Copyright (c) 2005 Michael Shalayeff
1.2.4.2  rmind  * Copyright (c) 2007 Mark Kettenis
1.2.4.2  rmind  * All rights reserved.
1.2.4.2  rmind  *
1.2.4.2  rmind  * Permission to use, copy, modify, and distribute this software for any
1.2.4.2  rmind  * purpose with or without fee is hereby granted, provided that the above
1.2.4.2  rmind  * copyright notice and this permission notice appear in all copies.
1.2.4.2  rmind  *
1.2.4.2  rmind  * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
1.2.4.2  rmind  * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
1.2.4.2  rmind  * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
1.2.4.2  rmind  * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
1.2.4.2  rmind  * WHATSOEVER RESULTING FROM LOSS OF MIND, USE, DATA OR PROFITS, WHETHER IN
1.2.4.2  rmind  * AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT
1.2.4.2  rmind  * OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */
1.2.4.2  rmind
1.2.4.2  rmind #include <sys/param.h>
1.2.4.2  rmind #include <sys/systm.h>
1.2.4.2  rmind #include <sys/device.h>
1.2.4.2  rmind #include <sys/malloc.h>
1.2.4.2  rmind
1.2.4.2  rmind #include <machine/autoconf.h>
1.2.4.2  rmind #include <machine/pdc.h>
1.2.4.2  rmind #include <machine/intr.h>
1.2.4.2  rmind
1.2.4.2  rmind #include <dev/pci/pcireg.h>
1.2.4.2  rmind #include <dev/pci/pcivar.h>
1.2.4.2  rmind #include <dev/pci/pcidevs.h>
1.2.4.2  rmind
1.2.4.2  rmind #include <hppa/dev/elroyreg.h>
1.2.4.2  rmind #include <hppa/dev/elroyvar.h>
1.2.4.2  rmind
1.2.4.2  rmind #define APIC_INT_LINE_MASK	0x0000ff00
1.2.4.2  rmind #define APIC_INT_LINE_SHIFT	8
1.2.4.2  rmind #define APIC_INT_IRQ_MASK	0x0000001f
1.2.4.2  rmind
1.2.4.2  rmind #define APIC_INT_LINE(x) (((x) & APIC_INT_LINE_MASK) >> APIC_INT_LINE_SHIFT)
1.2.4.2  rmind #define APIC_INT_IRQ(x) ((x) & APIC_INT_IRQ_MASK)
1.2.4.2  rmind
1.2.4.2  rmind /*
1.2.4.2  rmind  * Interrupt types match the Intel MP Specification.
1.2.4.2  rmind  */
1.2.4.2  rmind
1.2.4.2  rmind #define MPS_INTPO_DEF		0
1.2.4.2  rmind #define MPS_INTPO_ACTHI		1
1.2.4.2  rmind #define MPS_INTPO_ACTLO		3
1.2.4.2  rmind #define MPS_INTPO_SHIFT		0
1.2.4.2  rmind #define MPS_INTPO_MASK		3
1.2.4.2  rmind
1.2.4.2  rmind #define MPS_INTTR_DEF		0
1.2.4.2  rmind #define MPS_INTTR_EDGE		1
1.2.4.2  rmind #define MPS_INTTR_LEVEL		3
1.2.4.2  rmind #define MPS_INTTR_SHIFT		2
1.2.4.2  rmind #define MPS_INTTR_MASK		3
1.2.4.2  rmind
1.2.4.2  rmind #define MPS_INT(p,t) \
1.2.4.2  rmind     ((((p) & MPS_INTPO_MASK) << MPS_INTPO_SHIFT) | \
1.2.4.2  rmind      (((t) & MPS_INTTR_MASK) << MPS_INTTR_SHIFT))
1.2.4.2  rmind
1.2.4.2  rmind struct apic_iv {
1.2.4.2  rmind 	struct elroy_softc *sc;
1.2.4.2  rmind 	pci_intr_handle_t ih;
1.2.4.2  rmind 	int (*handler)(void *);
1.2.4.2  rmind 	void *arg;
1.2.4.2  rmind 	struct apic_iv *next;
1.2.4.2  rmind 	struct evcnt *cnt;
1.2.4.2  rmind 	char aiv_name[32];
1.2.4.2  rmind };
1.2.4.2  rmind
1.2.4.2  rmind struct apic_iv *apic_intr_list[CPU_NINTS];
1.2.4.2  rmind
1.2.4.2  rmind void apic_write(volatile struct elroy_regs *, uint32_t, uint32_t);
1.2.4.2  rmind uint32_t apic_read(volatile struct elroy_regs *, uint32_t reg);
1.2.4.2  rmind
1.2.4.2  rmind void	apic_get_int_tbl(struct elroy_softc *);
1.2.4.2  rmind uint32_t apic_get_int_ent0(struct elroy_softc *, int);
1.2.4.2  rmind #ifdef DEBUG
1.2.4.2  rmind void	apic_dump(struct elroy_softc *);
1.2.4.2  rmind #endif
1.2.4.2  rmind
1.2.4.2  rmind void
1.2.4.2  rmind apic_write(volatile struct elroy_regs *r, uint32_t reg, uint32_t val)
1.2.4.2  rmind {
1.2.4.2  rmind 	elroy_write32(&r->apic_addr, htole32(reg));
1.2.4.2  rmind 	elroy_write32(&r->apic_data, htole32(val));
1.2.4.2  rmind 	elroy_read32(&r->apic_data);
1.2.4.2  rmind }
1.2.4.2  rmind
1.2.4.2  rmind uint32_t
1.2.4.2  rmind apic_read(volatile struct elroy_regs *r, uint32_t reg)
1.2.4.2  rmind {
1.2.4.2  rmind 	elroy_write32(&r->apic_addr, htole32(reg));
1.2.4.2  rmind 	return le32toh(elroy_read32(&r->apic_data));
1.2.4.2  rmind }
1.2.4.2  rmind
1.2.4.2  rmind void
1.2.4.2  rmind apic_attach(struct elroy_softc *sc)
1.2.4.2  rmind {
1.2.4.2  rmind 	volatile struct elroy_regs *r = sc->sc_regs;
1.2.4.2  rmind 	uint32_t data;
1.2.4.2  rmind
1.2.4.2  rmind 	data = apic_read(r, APIC_VERSION);
1.2.4.2  rmind 	sc->sc_nints = (data & APIC_VERSION_NENT) >> APIC_VERSION_NENT_SHIFT;
1.2.4.2  rmind 	aprint_normal(" APIC ver %x, %d pins",
1.2.4.2  rmind 	    data & APIC_VERSION_MASK, sc->sc_nints);
1.2.4.2  rmind
1.2.4.2  rmind 	sc->sc_irq = malloc(sc->sc_nints * sizeof(int), M_DEVBUF,
1.2.4.2  rmind 	    M_NOWAIT | M_ZERO);
1.2.4.2  rmind 	if (sc->sc_irq == NULL)
1.2.4.2  rmind 		panic("apic_attach: can't allocate irq table\n");
1.2.4.2  rmind
1.2.4.2  rmind 	apic_get_int_tbl(sc);
1.2.4.2  rmind
1.2.4.2  rmind #ifdef DEBUG
1.2.4.2  rmind 	apic_dump(sc);
1.2.4.2  rmind #endif
1.2.4.2  rmind }
1.2.4.2  rmind
1.2.4.2  rmind int
1.2.4.2  rmind apic_intr_map(const struct pci_attach_args *pa, pci_intr_handle_t *ihp)
1.2.4.2  rmind {
1.2.4.2  rmind 	struct elroy_softc *sc = pa->pa_pc->_cookie;
1.2.4.2  rmind 	struct cpu_info *ci = &cpus[0];
1.2.4.2  rmind 	pci_chipset_tag_t pc = pa->pa_pc;
1.2.4.2  rmind 	pcitag_t tag = pa->pa_tag;
1.2.4.2  rmind 	pcireg_t reg;
1.2.4.2  rmind 	int line;
1.2.4.2  rmind
1.2.4.2  rmind 	reg = pci_conf_read(pc, tag, PCI_INTERRUPT_REG);
1.2.4.2  rmind #ifdef DEBUG
1.2.4.2  rmind 	printf(" pin=%d line=%d ", PCI_INTERRUPT_PIN(reg),
1.2.4.2  rmind 	    PCI_INTERRUPT_LINE(reg));
1.2.4.2  rmind #endif
1.2.4.2  rmind 	line = PCI_INTERRUPT_LINE(reg);
1.2.4.2  rmind 	if (sc->sc_irq[line] == 0)
1.2.4.2  rmind 		sc->sc_irq[line] = hppa_intr_allocate_bit(&ci->ci_ir, -1);
1.2.4.2  rmind 	KASSERT(sc->sc_irq[line] != -1);
1.2.4.2  rmind 	*ihp = (line << APIC_INT_LINE_SHIFT) | sc->sc_irq[line];
1.2.4.2  rmind
1.2.4.2  rmind 	return APIC_INT_IRQ(*ihp) == 0;
1.2.4.2  rmind }
1.2.4.2  rmind
1.2.4.2  rmind const char *
1.2.4.2  rmind apic_intr_string(void *v, pci_intr_handle_t ih, char *buf, size_t len)
1.2.4.2  rmind {
1.2.4.2  rmind 	snprintf(buf, len, "line %ld irq %ld",
1.2.4.2  rmind 	    APIC_INT_LINE(ih), APIC_INT_IRQ(ih));
1.2.4.2  rmind
1.2.4.2  rmind 	return buf;
1.2.4.2  rmind }
1.2.4.2  rmind
1.2.4.2  rmind void *
1.2.4.2  rmind apic_intr_establish(void *v, pci_intr_handle_t ih,
1.2.4.2  rmind     int pri, int (*handler)(void *), void *arg)
1.2.4.2  rmind {
1.2.4.2  rmind 	struct elroy_softc *sc = v;
1.2.4.2  rmind 	volatile struct elroy_regs *r = sc->sc_regs;
1.2.4.2  rmind 	struct cpu_info *ci = &cpus[0];
1.2.4.2  rmind 	hppa_hpa_t hpa = ci->ci_hpa;
1.2.4.2  rmind 	struct evcnt *cnt;
1.2.4.2  rmind 	struct apic_iv *aiv, *biv;
1.2.4.2  rmind 	void *iv;
1.2.4.2  rmind 	int irq = APIC_INT_IRQ(ih);
1.2.4.2  rmind 	int line = APIC_INT_LINE(ih);
1.2.4.2  rmind 	uint32_t ent0;
1.2.4.2  rmind
1.2.4.2  rmind 	/* no mapping or bogus */
1.2.4.2  rmind 	if (irq <= 0 || irq > 31)
1.2.4.2  rmind 		return NULL;
1.2.4.2  rmind
1.2.4.2  rmind 	aiv = malloc(sizeof(struct apic_iv), M_DEVBUF, M_NOWAIT);
1.2.4.2  rmind 	if (aiv == NULL)
1.2.4.2  rmind 		return NULL;
1.2.4.2  rmind
1.2.4.2  rmind 	cnt = malloc(sizeof(struct evcnt), M_DEVBUF, M_NOWAIT);
1.2.4.2  rmind 	if (cnt == NULL) {
1.2.4.2  rmind 		free(aiv, M_DEVBUF);
1.2.4.2  rmind 		return NULL;
1.2.4.2  rmind 	}
1.2.4.2  rmind
1.2.4.2  rmind 	aiv->sc = sc;
1.2.4.2  rmind 	aiv->ih = ih;
1.2.4.2  rmind 	aiv->handler = handler;
1.2.4.2  rmind 	aiv->arg = arg;
1.2.4.2  rmind 	aiv->next = NULL;
1.2.4.2  rmind 	aiv->cnt = cnt;
1.2.4.2  rmind
1.2.4.2  rmind 	biv = apic_intr_list[irq];
1.2.4.2  rmind 	if (biv == NULL) {
1.2.4.2  rmind 		iv = hppa_intr_establish(pri, apic_intr, aiv, &ci->ci_ir, irq);
1.2.4.2  rmind 		if (iv == NULL) {
1.2.4.2  rmind 			free(aiv, M_DEVBUF);
1.2.4.2  rmind 			free(cnt, M_DEVBUF);
1.2.4.2  rmind
1.2.4.2  rmind 			return NULL;
1.2.4.2  rmind 		}
1.2.4.2  rmind 	}
1.2.4.2  rmind
1.2.4.2  rmind 	snprintf(aiv->aiv_name, sizeof(aiv->aiv_name), "line %d irq %d",
1.2.4.2  rmind 	    line, irq);
1.2.4.2  rmind
1.2.4.2  rmind 	evcnt_attach_dynamic(cnt, EVCNT_TYPE_INTR, NULL,
1.2.4.2  rmind 	    device_xname(sc->sc_dv), aiv->aiv_name);
1.2.4.2  rmind
1.2.4.2  rmind 	if (biv) {
1.2.4.2  rmind 		while (biv->next)
1.2.4.2  rmind 			biv = biv->next;
1.2.4.2  rmind 		biv->next = aiv;
1.2.4.2  rmind 		return arg;
1.2.4.2  rmind 	}
1.2.4.2  rmind
1.2.4.2  rmind 	ent0 = (31 - irq) & APIC_ENT0_VEC;
1.2.4.2  rmind 	ent0 |= apic_get_int_ent0(sc, line);
1.2.4.2  rmind #if 0
1.2.4.2  rmind 	if (cold) {
1.2.4.2  rmind 		sc->sc_imr |= (1 << irq);
1.2.4.2  rmind 		ent0 |= APIC_ENT0_MASK;
1.2.4.2  rmind 	}
1.2.4.2  rmind #endif
1.2.4.2  rmind 	apic_write(sc->sc_regs, APIC_ENT0(line), APIC_ENT0_MASK);
1.2.4.2  rmind 	apic_write(sc->sc_regs, APIC_ENT1(line),
1.2.4.2  rmind 	    ((hpa & 0x0ff00000) >> 4) | ((hpa & 0x000ff000) << 12));
1.2.4.2  rmind 	apic_write(sc->sc_regs, APIC_ENT0(line), ent0);
1.2.4.2  rmind
1.2.4.2  rmind 	/* Signal EOI. */
1.2.4.2  rmind 	elroy_write32(&r->apic_eoi,
1.2.4.2  rmind 	    htole32((31 - irq) & APIC_ENT0_VEC));
1.2.4.2  rmind
1.2.4.2  rmind 	apic_intr_list[irq] = aiv;
1.2.4.2  rmind
1.2.4.2  rmind 	return arg;
1.2.4.2  rmind }
1.2.4.2  rmind
1.2.4.2  rmind void
1.2.4.2  rmind apic_intr_disestablish(void *v, void *cookie)
1.2.4.2  rmind {
1.2.4.2  rmind }
1.2.4.2  rmind
1.2.4.2  rmind int
1.2.4.2  rmind apic_intr(void *v)
1.2.4.2  rmind {
1.2.4.2  rmind 	struct apic_iv *iv = v;
1.2.4.2  rmind 	struct elroy_softc *sc = iv->sc;
1.2.4.2  rmind 	volatile struct elroy_regs *r = sc->sc_regs;
1.2.4.2  rmind 	uint32_t irq = APIC_INT_IRQ(iv->ih);
1.2.4.2  rmind 	int claimed = 0;
1.2.4.2  rmind
1.2.4.2  rmind 	while (iv) {
1.2.4.2  rmind 		claimed = iv->handler(iv->arg);
1.2.4.2  rmind 		if (claimed && iv->cnt)
1.2.4.2  rmind 			iv->cnt->ev_count++;
1.2.4.2  rmind 		if (claimed)
1.2.4.2  rmind 			break;
1.2.4.2  rmind 		iv = iv->next;
1.2.4.2  rmind 	}
1.2.4.2  rmind 	/* Signal EOI. */
1.2.4.2  rmind 	elroy_write32(&r->apic_eoi, htole32((31 - irq) & APIC_ENT0_VEC));
1.2.4.2  rmind
1.2.4.2  rmind 	return claimed;
1.2.4.2  rmind }
1.2.4.2  rmind
1.2.4.2  rmind void
1.2.4.2  rmind apic_get_int_tbl(struct elroy_softc *sc)
1.2.4.2  rmind {
1.2.4.2  rmind 	int nentries;
1.2.4.2  rmind 	size_t size;
1.2.4.2  rmind 	int err;
1.2.4.2  rmind
1.2.4.2  rmind 	err = pdcproc_pci_inttblsz(&nentries);
1.2.4.2  rmind 	if (err)
1.2.4.2  rmind 		return;
1.2.4.2  rmind
1.2.4.2  rmind 	size = nentries * sizeof(struct pdc_pat_pci_rt);
1.2.4.2  rmind 	sc->sc_int_tbl_sz = nentries;
1.2.4.2  rmind 	sc->sc_int_tbl = malloc(size, M_DEVBUF, M_NOWAIT);
1.2.4.2  rmind 	if (sc->sc_int_tbl == NULL)
1.2.4.2  rmind 		return;
1.2.4.2  rmind
1.2.4.2  rmind 	pdcproc_pci_gettable(nentries, size, sc->sc_int_tbl);
1.2.4.2  rmind }
1.2.4.2  rmind
1.2.4.2  rmind uint32_t
1.2.4.2  rmind apic_get_int_ent0(struct elroy_softc *sc, int line)
1.2.4.2  rmind {
1.2.4.2  rmind 	volatile struct elroy_regs *r = sc->sc_regs;
1.2.4.2  rmind 	int trigger = MPS_INT(MPS_INTPO_DEF, MPS_INTTR_DEF);
1.2.4.2  rmind 	uint32_t ent0 = APIC_ENT0_LOW | APIC_ENT0_LEV;
1.2.4.2  rmind 	int bus, mpspo, mpstr;
1.2.4.2  rmind 	int i;
1.2.4.2  rmind
1.2.4.2  rmind 	bus = le32toh(elroy_read32(&r->busnum)) & 0xff;
1.2.4.2  rmind 	for (i = 0; i < sc->sc_int_tbl_sz; i++) {
1.2.4.2  rmind 		if (bus == sc->sc_int_tbl[i].bus &&
1.2.4.2  rmind 		    line == sc->sc_int_tbl[i].line)
1.2.4.2  rmind 			trigger = sc->sc_int_tbl[i].trigger;
1.2.4.2  rmind 	}
1.2.4.2  rmind
1.2.4.2  rmind 	mpspo = (trigger >> MPS_INTPO_SHIFT) & MPS_INTPO_MASK;
1.2.4.2  rmind 	mpstr = (trigger >> MPS_INTTR_SHIFT) & MPS_INTTR_MASK;
1.2.4.2  rmind
1.2.4.2  rmind 	switch (mpspo) {
1.2.4.2  rmind 	case MPS_INTPO_DEF:
1.2.4.2  rmind 		break;
1.2.4.2  rmind 	case MPS_INTPO_ACTHI:
1.2.4.2  rmind 		ent0 &= ~APIC_ENT0_LOW;
1.2.4.2  rmind 		break;
1.2.4.2  rmind 	case MPS_INTPO_ACTLO:
1.2.4.2  rmind 		ent0 |= APIC_ENT0_LOW;
1.2.4.2  rmind 		break;
1.2.4.2  rmind 	default:
1.2.4.2  rmind 		panic("unknown MPS interrupt polarity %d", mpspo);
1.2.4.2  rmind 	}
1.2.4.2  rmind
1.2.4.2  rmind 	switch(mpstr) {
1.2.4.2  rmind 	case MPS_INTTR_DEF:
1.2.4.2  rmind 		break;
1.2.4.2  rmind 	case MPS_INTTR_LEVEL:
1.2.4.2  rmind 		ent0 |= APIC_ENT0_LEV;
1.2.4.2  rmind 		break;
1.2.4.2  rmind 	case MPS_INTTR_EDGE:
1.2.4.2  rmind 		ent0 &= ~APIC_ENT0_LEV;
1.2.4.2  rmind 		break;
1.2.4.2  rmind 	default:
1.2.4.2  rmind 		panic("unknown MPS interrupt trigger %d", mpstr);
1.2.4.2  rmind 	}
1.2.4.2  rmind
1.2.4.2  rmind 	return ent0;
1.2.4.2  rmind }
1.2.4.2  rmind
1.2.4.2  rmind #ifdef DEBUG
1.2.4.2  rmind void
1.2.4.2  rmind apic_dump(struct elroy_softc *sc)
1.2.4.2  rmind {
1.2.4.2  rmind 	int i;
1.2.4.2  rmind
1.2.4.2  rmind 	for (i = 0; i < sc->sc_nints; i++)
1.2.4.2  rmind 		printf("0x%04x 0x%04x\n", apic_read(sc->sc_regs, APIC_ENT0(i)),
1.2.4.2  rmind 		    apic_read(sc->sc_regs, APIC_ENT1(i)));
1.2.4.2  rmind
1.2.4.2  rmind 	for (i = 0; i < sc->sc_int_tbl_sz; i++) {
1.2.4.2  rmind 		printf("type=%x ", sc->sc_int_tbl[i].type);
1.2.4.2  rmind 		printf("len=%d ", sc->sc_int_tbl[i].len);
1.2.4.2  rmind 		printf("itype=%d ", sc->sc_int_tbl[i].itype);
1.2.4.2  rmind 		printf("trigger=%x ", sc->sc_int_tbl[i].trigger);
1.2.4.2  rmind 		printf("pin=%x ", sc->sc_int_tbl[i].pin);
1.2.4.2  rmind 		printf("bus=%d ", sc->sc_int_tbl[i].bus);
1.2.4.2  rmind 		printf("line=%d ", sc->sc_int_tbl[i].line);
1.2.4.2  rmind 		printf("addr=%llx\n", sc->sc_int_tbl[i].addr);
1.2.4.2  rmind 	}
1.2.4.2  rmind }
1.2.4.2  rmind #endif