evbarm/ifpga/ifpga_intr.c

*d62a8962Sthorpej/*	$NetBSD: ifpga_intr.c,v 1.12 2020/11/21 15:30:06 thorpej Exp $	*/
256da36aSrearnsha
256da36aSrearnsha/*
256da36aSrearnsha * Copyright (c) 2001, 2002 Wasabi Systems, Inc.
256da36aSrearnsha * All rights reserved.
256da36aSrearnsha *
256da36aSrearnsha * Written by Jason R. Thorpe for Wasabi Systems, Inc.
256da36aSrearnsha *
256da36aSrearnsha * Redistribution and use in source and binary forms, with or without
256da36aSrearnsha * modification, are permitted provided that the following conditions
256da36aSrearnsha * are met:
256da36aSrearnsha * 1. Redistributions of source code must retain the above copyright
256da36aSrearnsha *    notice, this list of conditions and the following disclaimer.
256da36aSrearnsha * 2. Redistributions in binary form must reproduce the above copyright
256da36aSrearnsha *    notice, this list of conditions and the following disclaimer in the
256da36aSrearnsha *    documentation and/or other materials provided with the distribution.
256da36aSrearnsha * 3. All advertising materials mentioning features or use of this software
256da36aSrearnsha *    must display the following acknowledgement:
256da36aSrearnsha *	This product includes software developed for the NetBSD Project by
256da36aSrearnsha *	Wasabi Systems, Inc.
256da36aSrearnsha * 4. The name of Wasabi Systems, Inc. may not be used to endorse
256da36aSrearnsha *    or promote products derived from this software without specific prior
256da36aSrearnsha *    written permission.
256da36aSrearnsha *
256da36aSrearnsha * THIS SOFTWARE IS PROVIDED BY WASABI SYSTEMS, INC. ``AS IS'' AND
256da36aSrearnsha * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
256da36aSrearnsha * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
256da36aSrearnsha * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL WASABI SYSTEMS, INC
256da36aSrearnsha * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
256da36aSrearnsha * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
256da36aSrearnsha * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
256da36aSrearnsha * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
256da36aSrearnsha * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
256da36aSrearnsha * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
256da36aSrearnsha * POSSIBILITY OF SUCH DAMAGE.
256da36aSrearnsha */
256da36aSrearnsha
256da36aSrearnsha#ifndef EVBARM_SPL_NOINLINE
256da36aSrearnsha#define	EVBARM_SPL_NOINLINE
256da36aSrearnsha#endif
256da36aSrearnsha
256da36aSrearnsha/*
256da36aSrearnsha * Interrupt support for the Integrator FPGA.
256da36aSrearnsha */
256da36aSrearnsha
256da36aSrearnsha#include <sys/param.h>
256da36aSrearnsha#include <sys/systm.h>
*d62a8962Sthorpej#include <sys/kmem.h>
fbed3be2Sad#include <sys/bus.h>
fbed3be2Sad#include <sys/intr.h>
256da36aSrearnsha
256da36aSrearnsha#include <arm/cpufunc.h>
256da36aSrearnsha
256da36aSrearnsha#include <evbarm/ifpga/ifpgareg.h>
256da36aSrearnsha#include <evbarm/ifpga/ifpgavar.h>
256da36aSrearnsha
256da36aSrearnsha/* Interrupt handler queues. */
256da36aSrearnshastruct intrq intrq[NIRQ];
256da36aSrearnsha
256da36aSrearnsha/* Interrupts to mask at each level. */
256da36aSrearnshaint ifpga_imask[NIPL];
256da36aSrearnsha
256da36aSrearnsha/* Interrupts pending. */
5f1c88d7Sperryvolatile int ifpga_ipending;
256da36aSrearnsha
256da36aSrearnsha/* Software copy of the IRQs we have enabled. */
5f1c88d7Sperryvolatile uint32_t intr_enabled;
256da36aSrearnsha
256da36aSrearnsha/* Mask if interrupts steered to FIQs. */
256da36aSrearnshauint32_t intr_steer;
256da36aSrearnsha
256da36aSrearnsha/*
256da36aSrearnsha * Interrupt bit names.
256da36aSrearnsha */
0c0de807Smattconst char * const ifpga_irqnames[] = {
256da36aSrearnsha	"soft",		/* 0 */
256da36aSrearnsha	"uart 0",	/* 1 */
256da36aSrearnsha	"uart 1",	/* 2 */
256da36aSrearnsha	"kbd",		/* 3 */
256da36aSrearnsha	"mouse",	/* 4 */
256da36aSrearnsha	"tmr 0",	/* 5 */
256da36aSrearnsha	"tmr 1 hard",	/* 6 */
256da36aSrearnsha	"tmr 2 stat",	/* 7 */
256da36aSrearnsha	"rtc",		/* 8 */
256da36aSrearnsha	"exp 0",	/* 9 */
256da36aSrearnsha	"exp 1",	/* 10 */
256da36aSrearnsha	"exp 2",	/* 11 */
256da36aSrearnsha	"exp 3",	/* 12 */
256da36aSrearnsha	"pci 0",	/* 13 */
256da36aSrearnsha	"pci 1",	/* 14 */
256da36aSrearnsha	"pci 2",	/* 15 */
256da36aSrearnsha	"pci 3",	/* 16 */
256da36aSrearnsha	"V3 br",	/* 17 */
256da36aSrearnsha	"deg",		/* 18 */
256da36aSrearnsha	"enum",		/* 19 */
256da36aSrearnsha	"pci lb",	/* 20 */
256da36aSrearnsha	"autoPC",	/* 21 */
256da36aSrearnsha	"irq 22",	/* 22 */
90bfba80Sskrll	"mmc 0",	/* 23 */
90bfba80Sskrll	"mmc 1",	/* 24 */
256da36aSrearnsha	"irq 25",	/* 25 */
256da36aSrearnsha	"irq 26",	/* 26 */
256da36aSrearnsha	"irq 27",	/* 27 */
256da36aSrearnsha	"irq 28",	/* 28 */
256da36aSrearnsha	"irq 29",	/* 29 */
256da36aSrearnsha	"irq 30",	/* 30 */
256da36aSrearnsha	"irq 31",	/* 31 */
256da36aSrearnsha};
256da36aSrearnsha
256da36aSrearnshavoid	ifpga_intr_dispatch(struct clockframe *frame);
256da36aSrearnsha
256da36aSrearnshaextern struct ifpga_softc *ifpga_sc;
256da36aSrearnsha
5f1c88d7Sperrystatic inline uint32_t
256da36aSrearnshaifpga_iintsrc_read(void)
256da36aSrearnsha{
256da36aSrearnsha	return bus_space_read_4(ifpga_sc->sc_iot, ifpga_sc->sc_irq_ioh,
256da36aSrearnsha	    IFPGA_INTR_STATUS);
256da36aSrearnsha}
256da36aSrearnsha
5f1c88d7Sperrystatic inline void
256da36aSrearnshaifpga_enable_irq(int irq)
256da36aSrearnsha{
256da36aSrearnsha
256da36aSrearnsha	intr_enabled |= (1U << irq);
256da36aSrearnsha	ifpga_set_intrmask();
256da36aSrearnsha}
256da36aSrearnsha
5f1c88d7Sperrystatic inline void
256da36aSrearnshaifpga_disable_irq(int irq)
256da36aSrearnsha{
256da36aSrearnsha
256da36aSrearnsha	intr_enabled &= ~(1U << irq);
256da36aSrearnsha	ifpga_set_intrmask();
256da36aSrearnsha}
256da36aSrearnsha
256da36aSrearnsha/*
256da36aSrearnsha * NOTE: This routine must be called with interrupts disabled in the CPSR.
256da36aSrearnsha */
256da36aSrearnshastatic void
256da36aSrearnshaifpga_intr_calculate_masks(void)
256da36aSrearnsha{
256da36aSrearnsha	struct intrq *iq;
256da36aSrearnsha	struct intrhand *ih;
256da36aSrearnsha	int irq, ipl;
256da36aSrearnsha
256da36aSrearnsha	/* First, figure out which IPLs each IRQ has. */
256da36aSrearnsha	for (irq = 0; irq < NIRQ; irq++) {
256da36aSrearnsha		int levels = 0;
256da36aSrearnsha		iq = &intrq[irq];
256da36aSrearnsha		ifpga_disable_irq(irq);
256da36aSrearnsha		for (ih = TAILQ_FIRST(&iq->iq_list); ih != NULL;
256da36aSrearnsha		     ih = TAILQ_NEXT(ih, ih_list))
256da36aSrearnsha			levels |= (1U << ih->ih_ipl);
256da36aSrearnsha		iq->iq_levels = levels;
256da36aSrearnsha	}
256da36aSrearnsha
256da36aSrearnsha	/* Next, figure out which IRQs are used by each IPL. */
256da36aSrearnsha	for (ipl = 0; ipl < NIPL; ipl++) {
256da36aSrearnsha		int irqs = 0;
256da36aSrearnsha		for (irq = 0; irq < NIRQ; irq++) {
256da36aSrearnsha			if (intrq[irq].iq_levels & (1U << ipl))
256da36aSrearnsha				irqs |= (1U << irq);
256da36aSrearnsha		}
256da36aSrearnsha		ifpga_imask[ipl] = irqs;
256da36aSrearnsha	}
256da36aSrearnsha
0c0de807Smatt	KASSERT(ifpga_imask[IPL_NONE] == 0);
256da36aSrearnsha
256da36aSrearnsha	/*
d6a98601Swiz	 * Enforce a hierarchy that gives "slow" device (or devices with
256da36aSrearnsha	 * limited input buffer space/"real-time" requirements) a better
256da36aSrearnsha	 * chance at not dropping data.
256da36aSrearnsha	 */
825088edSmatt	ifpga_imask[IPL_VM] |= 0;
fbed3be2Sad	ifpga_imask[IPL_SCHED] |= ifpga_imask[IPL_VM];
fbed3be2Sad	ifpga_imask[IPL_HIGH] |= ifpga_imask[IPL_SCHED];
256da36aSrearnsha
256da36aSrearnsha	/*
256da36aSrearnsha	 * Now compute which IRQs must be blocked when servicing any
256da36aSrearnsha	 * given IRQ.
256da36aSrearnsha	 */
256da36aSrearnsha	for (irq = 0; irq < NIRQ; irq++) {
256da36aSrearnsha		int irqs = (1U << irq);
256da36aSrearnsha		iq = &intrq[irq];
256da36aSrearnsha		if (TAILQ_FIRST(&iq->iq_list) != NULL)
256da36aSrearnsha			ifpga_enable_irq(irq);
256da36aSrearnsha		for (ih = TAILQ_FIRST(&iq->iq_list); ih != NULL;
256da36aSrearnsha		     ih = TAILQ_NEXT(ih, ih_list))
256da36aSrearnsha			irqs |= ifpga_imask[ih->ih_ipl];
256da36aSrearnsha		iq->iq_mask = irqs;
256da36aSrearnsha	}
256da36aSrearnsha}
256da36aSrearnsha
256da36aSrearnshavoid
256da36aSrearnshasplx(int new)
256da36aSrearnsha{
256da36aSrearnsha
256da36aSrearnsha	ifpga_splx(new);
256da36aSrearnsha}
256da36aSrearnsha
256da36aSrearnshaint
256da36aSrearnsha_spllower(int ipl)
256da36aSrearnsha{
256da36aSrearnsha
256da36aSrearnsha	return (ifpga_spllower(ipl));
256da36aSrearnsha}
256da36aSrearnsha
256da36aSrearnshaint
256da36aSrearnsha_splraise(int ipl)
256da36aSrearnsha{
256da36aSrearnsha
256da36aSrearnsha	return (ifpga_splraise(ipl));
256da36aSrearnsha}
256da36aSrearnsha
256da36aSrearnsha/*
256da36aSrearnsha * ifpga_intr_init:
256da36aSrearnsha *
256da36aSrearnsha *	Initialize the rest of the interrupt subsystem, making it
256da36aSrearnsha *	ready to handle interrupts from devices.
256da36aSrearnsha */
256da36aSrearnshavoid
256da36aSrearnshaifpga_intr_init(void)
256da36aSrearnsha{
256da36aSrearnsha	struct intrq *iq;
256da36aSrearnsha	int i;
256da36aSrearnsha
256da36aSrearnsha	intr_enabled = 0;
256da36aSrearnsha
256da36aSrearnsha	for (i = 0; i < NIRQ; i++) {
256da36aSrearnsha		iq = &intrq[i];
256da36aSrearnsha		TAILQ_INIT(&iq->iq_list);
256da36aSrearnsha
256da36aSrearnsha		evcnt_attach_dynamic(&iq->iq_ev, EVCNT_TYPE_INTR,
256da36aSrearnsha		    NULL, "ifpga", ifpga_irqnames[i]);
256da36aSrearnsha	}
256da36aSrearnsha}
256da36aSrearnsha
256da36aSrearnshavoid
256da36aSrearnshaifpga_intr_postinit(void)
256da36aSrearnsha{
256da36aSrearnsha	ifpga_intr_calculate_masks();
256da36aSrearnsha
256da36aSrearnsha	/* Enable IRQs (don't yet use FIQs). */
256da36aSrearnsha	enable_interrupts(I32_bit);
256da36aSrearnsha}
256da36aSrearnsha
256da36aSrearnshavoid *
256da36aSrearnshaifpga_intr_establish(int irq, int ipl, int (*func)(void *), void *arg)
256da36aSrearnsha{
256da36aSrearnsha	struct intrq *iq;
256da36aSrearnsha	struct intrhand *ih;
256da36aSrearnsha	u_int oldirqstate;
256da36aSrearnsha
256da36aSrearnsha	if (irq < 0 || irq > NIRQ)
256da36aSrearnsha		panic("ifpga_intr_establish: IRQ %d out of range", irq);
256da36aSrearnsha
*d62a8962Sthorpej	ih = kmem_alloc(sizeof(*ih), KM_SLEEP);
256da36aSrearnsha	ih->ih_func = func;
256da36aSrearnsha	ih->ih_arg = arg;
256da36aSrearnsha	ih->ih_ipl = ipl;
256da36aSrearnsha	ih->ih_irq = irq;
256da36aSrearnsha
256da36aSrearnsha	iq = &intrq[irq];
256da36aSrearnsha
256da36aSrearnsha	/* All IOP321 interrupts are level-triggered. */
256da36aSrearnsha	iq->iq_ist = IST_LEVEL;
256da36aSrearnsha
256da36aSrearnsha	oldirqstate = disable_interrupts(I32_bit);
256da36aSrearnsha
256da36aSrearnsha	TAILQ_INSERT_TAIL(&iq->iq_list, ih, ih_list);
256da36aSrearnsha
256da36aSrearnsha	ifpga_intr_calculate_masks();
256da36aSrearnsha
256da36aSrearnsha	restore_interrupts(oldirqstate);
256da36aSrearnsha
256da36aSrearnsha	return (ih);
256da36aSrearnsha}
256da36aSrearnsha
256da36aSrearnshavoid
256da36aSrearnshaifpga_intr_disestablish(void *cookie)
256da36aSrearnsha{
256da36aSrearnsha	struct intrhand *ih = cookie;
256da36aSrearnsha	struct intrq *iq = &intrq[ih->ih_irq];
256da36aSrearnsha	int oldirqstate;
256da36aSrearnsha
256da36aSrearnsha	oldirqstate = disable_interrupts(I32_bit);
256da36aSrearnsha
256da36aSrearnsha	TAILQ_REMOVE(&iq->iq_list, ih, ih_list);
256da36aSrearnsha
256da36aSrearnsha	ifpga_intr_calculate_masks();
256da36aSrearnsha
256da36aSrearnsha	restore_interrupts(oldirqstate);
256da36aSrearnsha}
256da36aSrearnsha
256da36aSrearnshavoid
256da36aSrearnshaifpga_intr_dispatch(struct clockframe *frame)
256da36aSrearnsha{
256da36aSrearnsha	struct intrq *iq;
256da36aSrearnsha	struct intrhand *ih;
256da36aSrearnsha	int oldirqstate, pcpl, irq, ibit, hwpend;
825088edSmatt	struct cpu_info * const ci = curcpu();
fbed3be2Sad
825088edSmatt	pcpl = ci->ci_cpl;
256da36aSrearnsha
256da36aSrearnsha	hwpend = ifpga_iintsrc_read();
256da36aSrearnsha
256da36aSrearnsha	/*
256da36aSrearnsha	 * Disable all the interrupts that are pending.  We will
256da36aSrearnsha	 * reenable them once they are processed and not masked.
256da36aSrearnsha	 */
256da36aSrearnsha	intr_enabled &= ~hwpend;
256da36aSrearnsha	ifpga_set_intrmask();
256da36aSrearnsha
256da36aSrearnsha	/* Wait for these interrupts to be suppressed.  */
256da36aSrearnsha	while ((ifpga_iintsrc_read() & hwpend) != 0)
256da36aSrearnsha	    ;
256da36aSrearnsha
256da36aSrearnsha	while (hwpend != 0) {
256da36aSrearnsha		irq = ffs(hwpend) - 1;
256da36aSrearnsha		ibit = (1U << irq);
256da36aSrearnsha
256da36aSrearnsha		hwpend &= ~ibit;
256da36aSrearnsha
256da36aSrearnsha		if (pcpl & ibit) {
256da36aSrearnsha			/*
256da36aSrearnsha			 * IRQ is masked; mark it as pending and check
256da36aSrearnsha			 * the next one.  Note: the IRQ is already disabled.
256da36aSrearnsha			 */
256da36aSrearnsha			ifpga_ipending |= ibit;
256da36aSrearnsha			continue;
256da36aSrearnsha		}
256da36aSrearnsha
256da36aSrearnsha		ifpga_ipending &= ~ibit;
256da36aSrearnsha
256da36aSrearnsha		iq = &intrq[irq];
256da36aSrearnsha		iq->iq_ev.ev_count++;
6a66466fSmatt		ci->ci_data.cpu_nintr++;
825088edSmatt		ci->ci_cpl |= iq->iq_mask;
256da36aSrearnsha		oldirqstate = enable_interrupts(I32_bit);
256da36aSrearnsha		for (ih = TAILQ_FIRST(&iq->iq_list); ih != NULL;
256da36aSrearnsha		     ih = TAILQ_NEXT(ih, ih_list)) {
256da36aSrearnsha			(void) (*ih->ih_func)(ih->ih_arg ? ih->ih_arg : frame);
256da36aSrearnsha		}
256da36aSrearnsha		restore_interrupts(oldirqstate);
825088edSmatt		ci->ci_cpl = pcpl;
256da36aSrearnsha
256da36aSrearnsha		hwpend |= (ifpga_ipending & IFPGA_INTR_HWMASK) & ~pcpl;
256da36aSrearnsha
256da36aSrearnsha		/* Re-enable this interrupt now that's it's cleared. */
256da36aSrearnsha		intr_enabled |= ibit;
256da36aSrearnsha		ifpga_set_intrmask();
256da36aSrearnsha	}
256da36aSrearnsha
0c0de807Smatt#ifdef __HAVE_FAST_SOFTINTS
825088edSmatt	cpu_dosoftints();
0c0de807Smatt#endif
256da36aSrearnsha}