arm/s3c2xx0/s3c2410_intr.c

1.3.4.3  skrll /* $NetBSD: s3c2410_intr.c,v 1.3.4.3 2004/09/18 14:32:38 skrll Exp $ */
1.3.4.2  skrll
1.3.4.2  skrll /*
1.3.4.2  skrll  * Copyright (c) 2003  Genetec corporation.  All rights reserved.
1.3.4.2  skrll  * Written by Hiroyuki Bessho for Genetec corporation.
1.3.4.2  skrll  *
1.3.4.2  skrll  * Redistribution and use in source and binary forms, with or without
1.3.4.2  skrll  * modification, are permitted provided that the following conditions
1.3.4.2  skrll  * are met:
1.3.4.2  skrll  * 1. Redistributions of source code must retain the above copyright
1.3.4.2  skrll  *    notice, this list of conditions and the following disclaimer.
1.3.4.2  skrll  * 2. Redistributions in binary form must reproduce the above copyright
1.3.4.2  skrll  *    notice, this list of conditions and the following disclaimer in the
1.3.4.2  skrll  *    documentation and/or other materials provided with the distribution.
1.3.4.2  skrll  * 3. The name of Genetec corporation may not be used to endorse
1.3.4.2  skrll  *    or promote products derived from this software without specific prior
1.3.4.2  skrll  *    written permission.
1.3.4.2  skrll  *
1.3.4.2  skrll  * THIS SOFTWARE IS PROVIDED BY GENETEC CORP. ``AS IS'' AND
1.3.4.2  skrll  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
1.3.4.2  skrll  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
1.3.4.2  skrll  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL GENETEC CORP.
1.3.4.2  skrll  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
1.3.4.2  skrll  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
1.3.4.2  skrll  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
1.3.4.2  skrll  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
1.3.4.2  skrll  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
1.3.4.2  skrll  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
1.3.4.2  skrll  * POSSIBILITY OF SUCH DAMAGE.
1.3.4.2  skrll  */
1.3.4.2  skrll
1.3.4.2  skrll /*
1.3.4.2  skrll  * IRQ handler for Samsung S3C2410 processor.
1.3.4.2  skrll  * It has integrated interrupt controller.
1.3.4.2  skrll  */
1.3.4.2  skrll
1.3.4.2  skrll #include <sys/cdefs.h>
1.3.4.3  skrll __KERNEL_RCSID(0, "$NetBSD: s3c2410_intr.c,v 1.3.4.3 2004/09/18 14:32:38 skrll Exp $");
1.3.4.2  skrll
1.3.4.2  skrll #include <sys/param.h>
1.3.4.2  skrll #include <sys/systm.h>
1.3.4.2  skrll #include <sys/malloc.h>
1.3.4.2  skrll #include <uvm/uvm_extern.h>
1.3.4.2  skrll #include <machine/bus.h>
1.3.4.2  skrll #include <machine/intr.h>
1.3.4.2  skrll #include <arm/cpufunc.h>
1.3.4.2  skrll
1.3.4.2  skrll #include <arm/s3c2xx0/s3c2410reg.h>
1.3.4.2  skrll #include <arm/s3c2xx0/s3c2410var.h>
1.3.4.2  skrll
1.3.4.2  skrll /*
1.3.4.2  skrll  * interrupt dispatch table.
1.3.4.2  skrll  */
1.3.4.2  skrll
1.3.4.2  skrll struct s3c2xx0_intr_dispatch handler[ICU_LEN];
1.3.4.2  skrll
1.3.4.2  skrll __volatile int softint_pending;
1.3.4.2  skrll
1.3.4.2  skrll __volatile int current_spl_level;
1.3.4.2  skrll __volatile int intr_mask;
1.3.4.2  skrll __volatile int soft_intr_mask;
1.3.4.2  skrll __volatile int global_intr_mask = 0; /* mask some interrupts at all spl level */
1.3.4.2  skrll
1.3.4.2  skrll /* interrupt masks for each level */
1.3.4.2  skrll int s3c2xx0_imask[NIPL];
1.3.4.2  skrll int s3c2xx0_ilevel[ICU_LEN];
1.3.4.2  skrll int s3c24x0_soft_imask[NIPL];
1.3.4.2  skrll
1.3.4.2  skrll vaddr_t intctl_base;		/* interrupt controller registers */
1.3.4.2  skrll #define icreg(offset) \
1.3.4.2  skrll 	(*(volatile uint32_t *)(intctl_base+(offset)))
1.3.4.2  skrll
1.3.4.2  skrll /*
1.3.4.2  skrll  * Map a software interrupt queue to an interrupt priority level.
1.3.4.2  skrll  */
1.3.4.2  skrll static const int si_to_ipl[SI_NQUEUES] = {
1.3.4.2  skrll 	IPL_SOFT,		/* SI_SOFT */
1.3.4.2  skrll 	IPL_SOFTCLOCK,		/* SI_SOFTCLOCK */
1.3.4.2  skrll 	IPL_SOFTNET,		/* SI_SOFTNET */
1.3.4.2  skrll 	IPL_SOFTSERIAL,		/* SI_SOFTSERIAL */
1.3.4.2  skrll };
1.3.4.2  skrll
1.3.4.2  skrll #define PENDING_CLEAR_MASK	(~0)
1.3.4.2  skrll
1.3.4.2  skrll /*
1.3.4.2  skrll  * called from irq_entry.
1.3.4.2  skrll  */
1.3.4.2  skrll void s3c2410_irq_handler(struct clockframe *);
1.3.4.2  skrll void
1.3.4.2  skrll s3c2410_irq_handler(struct clockframe *frame)
1.3.4.2  skrll {
1.3.4.2  skrll 	uint32_t irqbits;
1.3.4.2  skrll 	int irqno;
1.3.4.2  skrll 	int saved_spl_level;
1.3.4.2  skrll
1.3.4.2  skrll 	saved_spl_level = current_spl_level;
1.3.4.2  skrll
1.3.4.2  skrll #ifdef	DIAGNOSTIC
1.3.4.2  skrll 	if (current_intr_depth > 10)
1.3.4.2  skrll 		panic("nested intr too deep");
1.3.4.2  skrll #endif
1.3.4.2  skrll
1.3.4.2  skrll 	while ((irqbits = icreg(INTCTL_INTPND)) != 0) {
1.3.4.2  skrll
1.3.4.2  skrll 		/* Note: Only one bit in INTPND register is set */
1.3.4.2  skrll
1.3.4.2  skrll 		irqno = icreg(INTCTL_INTOFFSET);
1.3.4.2  skrll
1.3.4.2  skrll #ifdef	DIAGNOSTIC
1.3.4.2  skrll 		if (__predict_false((irqbits & (1<<irqno)) == 0)) {
1.3.4.2  skrll 			/* This shouldn't happen */
1.3.4.2  skrll 			printf("INTOFFSET=%d, INTPND=%x\n", irqno, irqbits);
1.3.4.2  skrll 			break;
1.3.4.2  skrll 		}
1.3.4.2  skrll #endif
1.3.4.2  skrll 		/* raise spl to stop interrupts of lower priorities */
1.3.4.2  skrll 		if (saved_spl_level < handler[irqno].level)
1.3.4.2  skrll 			s3c2xx0_setipl(handler[irqno].level);
1.3.4.2  skrll
1.3.4.2  skrll 		/* clear pending bit */
1.3.4.2  skrll 		icreg(INTCTL_SRCPND) = PENDING_CLEAR_MASK & (1 << irqno);
1.3.4.2  skrll 		icreg(INTCTL_INTPND) = PENDING_CLEAR_MASK & (1 << irqno);
1.3.4.2  skrll
1.3.4.2  skrll 		enable_interrupts(I32_bit); /* allow nested interrupts */
1.3.4.2  skrll
1.3.4.2  skrll 		(*handler[irqno].func) (
1.3.4.2  skrll 		    handler[irqno].cookie == 0
1.3.4.2  skrll 		    ? frame : handler[irqno].cookie);
1.3.4.2  skrll
1.3.4.2  skrll 		disable_interrupts(I32_bit);
1.3.4.2  skrll
1.3.4.2  skrll 		/* restore spl to that was when this interrupt happen */
1.3.4.2  skrll 		s3c2xx0_setipl(saved_spl_level);
1.3.4.2  skrll
1.3.4.2  skrll 	}
1.3.4.2  skrll
1.3.4.2  skrll
1.3.4.2  skrll 	if (get_pending_softint())
1.3.4.2  skrll 		s3c2xx0_do_pending(1);
1.3.4.2  skrll
1.3.4.2  skrll }
1.3.4.2  skrll
1.3.4.2  skrll /*
1.3.4.2  skrll  * Handler for main IRQ of cascaded interrupts.
1.3.4.2  skrll  */
1.3.4.2  skrll static int
1.3.4.2  skrll cascade_irq_handler(void *cookie)
1.3.4.2  skrll {
1.3.4.2  skrll 	int index = (int)cookie - 1;
1.3.4.2  skrll 	uint32_t irqbits;
1.3.4.2  skrll 	int irqno, i;
1.3.4.2  skrll 	int save = disable_interrupts(I32_bit);
1.3.4.2  skrll
1.3.4.2  skrll 	KASSERT(0 <= index && index <= 3);
1.3.4.2  skrll
1.3.4.2  skrll 	irqbits = icreg(INTCTL_SUBSRCPND) &
1.3.4.2  skrll 	    ~icreg(INTCTL_INTSUBMSK) & (0x07 << (3*index));
1.3.4.2  skrll
1.3.4.2  skrll 	for (irqno = 3*index; irqbits; ++irqno) {
1.3.4.2  skrll 		if ((irqbits & (1<<irqno)) == 0)
1.3.4.2  skrll 			continue;
1.3.4.2  skrll
1.3.4.2  skrll 		/* clear pending bit */
1.3.4.2  skrll 		irqbits &= ~(1<<irqno);
1.3.4.2  skrll 		icreg(INTCTL_SUBSRCPND) = (1 << irqno);
1.3.4.2  skrll
1.3.4.2  skrll 		/* allow nested interrupts. SPL is already set
1.3.4.2  skrll 		 * correctly by main handler. */
1.3.4.2  skrll 		restore_interrupts(save);
1.3.4.2  skrll
1.3.4.2  skrll 		i = S3C2410_SUBIRQ_MIN + irqno;
1.3.4.2  skrll 		(* handler[i].func)(handler[i].cookie);
1.3.4.2  skrll
1.3.4.2  skrll 		disable_interrupts(I32_bit);
1.3.4.2  skrll 	}
1.3.4.2  skrll
1.3.4.2  skrll 	return 1;
1.3.4.2  skrll }
1.3.4.2  skrll
1.3.4.2  skrll
1.3.4.2  skrll static const uint8_t subirq_to_main[] = {
1.3.4.2  skrll 	S3C2410_INT_UART0,
1.3.4.2  skrll 	S3C2410_INT_UART0,
1.3.4.2  skrll 	S3C2410_INT_UART0,
1.3.4.2  skrll 	S3C2410_INT_UART1,
1.3.4.2  skrll 	S3C2410_INT_UART1,
1.3.4.2  skrll 	S3C2410_INT_UART1,
1.3.4.2  skrll 	S3C2410_INT_UART2,
1.3.4.2  skrll 	S3C2410_INT_UART2,
1.3.4.2  skrll 	S3C2410_INT_UART2,
1.3.4.2  skrll 	S3C24X0_INT_ADCTC,
1.3.4.2  skrll 	S3C24X0_INT_ADCTC,
1.3.4.2  skrll };
1.3.4.2  skrll
1.3.4.2  skrll void *
1.3.4.2  skrll s3c24x0_intr_establish(int irqno, int level, int type,
1.3.4.2  skrll     int (* func) (void *), void *cookie)
1.3.4.2  skrll {
1.3.4.2  skrll 	int save;
1.3.4.2  skrll
1.3.4.2  skrll 	if (irqno < 0 || irqno >= ICU_LEN ||
1.3.4.2  skrll 	    type < IST_NONE || IST_EDGE_BOTH < type)
1.3.4.2  skrll 		panic("intr_establish: bogus irq or type");
1.3.4.2  skrll
1.3.4.2  skrll 	save = disable_interrupts(I32_bit);
1.3.4.2  skrll
1.3.4.2  skrll 	handler[irqno].cookie = cookie;
1.3.4.2  skrll 	handler[irqno].func = func;
1.3.4.2  skrll 	handler[irqno].level = level;
1.3.4.2  skrll
1.3.4.2  skrll 	if (irqno >= S3C2410_SUBIRQ_MIN) {
1.3.4.2  skrll 		/* cascaded interrupts. */
1.3.4.2  skrll 		int main_irqno;
1.3.4.2  skrll 		int i = (irqno - S3C2410_SUBIRQ_MIN);
1.3.4.2  skrll
1.3.4.2  skrll 		main_irqno = subirq_to_main[i];
1.3.4.2  skrll
1.3.4.2  skrll 		/* establish main irq if first time
1.3.4.2  skrll 		 * be careful that cookie shouldn't be 0 */
1.3.4.2  skrll 		if (handler[main_irqno].func != cascade_irq_handler)
1.3.4.2  skrll 			s3c24x0_intr_establish(main_irqno, level, type,
1.3.4.2  skrll 			    cascade_irq_handler, (void *)((i/3) + 1));
1.3.4.2  skrll
1.3.4.2  skrll 		/* unmask it in submask register */
1.3.4.2  skrll 		icreg(INTCTL_INTSUBMSK) &= ~(1<<i);
1.3.4.2  skrll
1.3.4.2  skrll 		restore_interrupts(save);
1.3.4.2  skrll 		return &handler[irqno];
1.3.4.2  skrll 	}
1.3.4.2  skrll
1.3.4.2  skrll 	s3c2xx0_update_intr_masks(irqno, level);
1.3.4.2  skrll
1.3.4.2  skrll 	/*
1.3.4.2  skrll 	 * set trigger type for external interrupts 0..3
1.3.4.2  skrll 	 */
1.3.4.2  skrll 	if (irqno <= S3C24X0_INT_EXT(3)) {
1.3.4.2  skrll 		/*
1.3.4.2  skrll 		 * Update external interrupt control
1.3.4.2  skrll 		 */
1.3.4.2  skrll 		s3c2410_setup_extint(irqno, type);
1.3.4.2  skrll 	}
1.3.4.2  skrll
1.3.4.2  skrll 	s3c2xx0_setipl(current_spl_level);
1.3.4.2  skrll
1.3.4.2  skrll 	restore_interrupts(save);
1.3.4.2  skrll
1.3.4.2  skrll 	return &handler[irqno];
1.3.4.2  skrll }
1.3.4.2  skrll
1.3.4.2  skrll
1.3.4.2  skrll static void
1.3.4.2  skrll init_interrupt_masks(void)
1.3.4.2  skrll {
1.3.4.2  skrll 	int i;
1.3.4.2  skrll
1.3.4.2  skrll 	for (i=0; i < NIPL; ++i)
1.3.4.2  skrll 		s3c2xx0_imask[i] = 0;
1.3.4.2  skrll
1.3.4.2  skrll 	s3c24x0_soft_imask[IPL_NONE] = SI_TO_IRQBIT(SI_SOFTSERIAL) |
1.3.4.2  skrll 		SI_TO_IRQBIT(SI_SOFTNET) | SI_TO_IRQBIT(SI_SOFTCLOCK) |
1.3.4.2  skrll 		SI_TO_IRQBIT(SI_SOFT);
1.3.4.2  skrll
1.3.4.2  skrll 	s3c24x0_soft_imask[IPL_SOFT] = SI_TO_IRQBIT(SI_SOFTSERIAL) |
1.3.4.2  skrll 		SI_TO_IRQBIT(SI_SOFTNET) | SI_TO_IRQBIT(SI_SOFTCLOCK);
1.3.4.2  skrll
1.3.4.2  skrll 	/*
1.3.4.2  skrll 	 * splsoftclock() is the only interface that users of the
1.3.4.2  skrll 	 * generic software interrupt facility have to block their
1.3.4.2  skrll 	 * soft intrs, so splsoftclock() must also block IPL_SOFT.
1.3.4.2  skrll 	 */
1.3.4.2  skrll 	s3c24x0_soft_imask[IPL_SOFTCLOCK] = SI_TO_IRQBIT(SI_SOFTSERIAL) |
1.3.4.2  skrll 		SI_TO_IRQBIT(SI_SOFTNET);
1.3.4.2  skrll
1.3.4.2  skrll 	/*
1.3.4.2  skrll 	 * splsoftnet() must also block splsoftclock(), since we don't
1.3.4.2  skrll 	 * want timer-driven network events to occur while we're
1.3.4.2  skrll 	 * processing incoming packets.
1.3.4.2  skrll 	 */
1.3.4.2  skrll 	s3c24x0_soft_imask[IPL_SOFTNET] = SI_TO_IRQBIT(SI_SOFTSERIAL);
1.3.4.2  skrll
1.3.4.2  skrll 	for (i = IPL_BIO; i < IPL_SOFTSERIAL; ++i)
1.3.4.2  skrll 		s3c24x0_soft_imask[i] = SI_TO_IRQBIT(SI_SOFTSERIAL);
1.3.4.2  skrll }
1.3.4.2  skrll
1.3.4.2  skrll void
1.3.4.2  skrll s3c2410_intr_init(struct s3c24x0_softc *sc)
1.3.4.2  skrll {
1.3.4.2  skrll 	intctl_base = (vaddr_t) bus_space_vaddr(sc->sc_sx.sc_iot,
1.3.4.2  skrll 	    sc->sc_sx.sc_intctl_ioh);
1.3.4.2  skrll
1.3.4.2  skrll 	s3c2xx0_intr_mask_reg = (uint32_t *)(intctl_base + INTCTL_INTMSK);
1.3.4.2  skrll
1.3.4.2  skrll 	/* clear all pending interrupt */
1.3.4.2  skrll 	icreg(INTCTL_SRCPND) = ~0;
1.3.4.2  skrll 	icreg(INTCTL_INTPND) = ~0;
1.3.4.2  skrll
1.3.4.2  skrll 	/* mask all sub interrupts */
1.3.4.2  skrll 	icreg(INTCTL_INTSUBMSK) = 0x7ff;
1.3.4.2  skrll
1.3.4.2  skrll 	init_interrupt_masks();
1.3.4.2  skrll
1.3.4.2  skrll 	s3c2xx0_intr_init(handler, ICU_LEN);
1.3.4.2  skrll
1.3.4.2  skrll }
1.3.4.2  skrll
1.3.4.2  skrll
1.3.4.2  skrll /*
1.3.4.2  skrll  * mask/unmask sub interrupts
1.3.4.2  skrll  */
1.3.4.2  skrll void
1.3.4.2  skrll s3c2410_mask_subinterrupts(int bits)
1.3.4.2  skrll {
1.3.4.2  skrll 	atomic_set_bit((uint32_t *)&icreg(INTCTL_INTSUBMSK), bits);
1.3.4.2  skrll }
1.3.4.2  skrll
1.3.4.2  skrll void
1.3.4.2  skrll s3c2410_unmask_subinterrupts(int bits)
1.3.4.2  skrll {
1.3.4.2  skrll 	atomic_clear_bit((uint32_t *)&icreg(INTCTL_INTSUBMSK), bits);
1.3.4.2  skrll }
1.3.4.2  skrll
1.3.4.2  skrll /*
1.3.4.2  skrll  * Update external interrupt control
1.3.4.2  skrll  */
1.3.4.2  skrll static const u_char s3c24x0_ist[] = {
1.3.4.2  skrll 	EXTINTR_LOW,		/* NONE */
1.3.4.2  skrll 	EXTINTR_FALLING,	/* PULSE */
1.3.4.2  skrll 	EXTINTR_FALLING,	/* EDGE */
1.3.4.2  skrll 	EXTINTR_LOW,		/* LEVEL */
1.3.4.2  skrll 	EXTINTR_HIGH,
1.3.4.2  skrll 	EXTINTR_RISING,
1.3.4.2  skrll 	EXTINTR_BOTH,
1.3.4.2  skrll };
1.3.4.2  skrll
1.3.4.2  skrll void
1.3.4.2  skrll s3c2410_setup_extint(int extint, int type)
1.3.4.2  skrll {
1.3.4.2  skrll         uint32_t reg;
1.3.4.2  skrll         u_int   trig;
1.3.4.2  skrll         int     i = extint % 8;
1.3.4.2  skrll         int     regidx = extint/8;      /* GPIO_EXTINT[0:2] */
1.3.4.2  skrll 	int	save;
1.3.4.2  skrll
1.3.4.2  skrll         trig = s3c24x0_ist[type];
1.3.4.2  skrll
1.3.4.2  skrll 	save = disable_interrupts(I32_bit);
1.3.4.2  skrll
1.3.4.2  skrll         reg = bus_space_read_4(s3c2xx0_softc->sc_iot,
1.3.4.2  skrll             s3c2xx0_softc->sc_gpio_ioh,
1.3.4.2  skrll             GPIO_EXTINT(regidx));
1.3.4.2  skrll
1.3.4.2  skrll         reg = reg & ~(0x07 << (4*i));
1.3.4.2  skrll         reg |= trig << (4*i);
1.3.4.2  skrll
1.3.4.2  skrll         bus_space_write_4(s3c2xx0_softc->sc_iot, s3c2xx0_softc->sc_gpio_ioh,
1.3.4.2  skrll             GPIO_EXTINT(regidx), reg);
1.3.4.2  skrll
1.3.4.2  skrll 	restore_interrupts(save);
1.3.4.2  skrll }