/* $OpenBSD: intr.h,v 1.15 2008/12/06 19:59:38 tedu Exp $ */ /* $NetBSD: intr.h,v 1.2 2003/05/04 22:01:56 fvdl Exp $ */ /*- * Copyright (c) 1998, 2001 The NetBSD Foundation, Inc. * All rights reserved. * * This code is derived from software contributed to The NetBSD Foundation * by Charles M. Hannum, and by Jason R. Thorpe. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #ifndef _X86_INTR_H_ #define _X86_INTR_H_ #include #ifndef _LOCORE #include #include /* * Struct describing an interrupt source for a CPU. struct cpu_info * has an array of MAX_INTR_SOURCES of these. The index in the array * is equal to the stub number of the stubcode as present in vector.s * * The primary CPU's array of interrupt sources has its first 16 * entries reserved for legacy ISA irq handlers. This means that * they have a 1:1 mapping for arrayindex:irq_num. This is not * true for interrupts that come in through IO APICs, to find * their source, go through ci->ci_isources[index].is_pic * * It's possible to always maintain a 1:1 mapping, but that means * limiting the total number of interrupt sources to MAX_INTR_SOURCES * (32), instead of 32 per CPU. It also would mean that having multiple * IO APICs which deliver interrupts from an equal pin number would * overlap if they were to be sent to the same CPU. */ struct intrstub { void *ist_entry; void *ist_recurse; void *ist_resume; }; struct intrsource { int is_maxlevel; /* max. IPL for this source */ int is_pin; /* IRQ for legacy; pin for IO APIC */ struct intrhand *is_handlers; /* handler chain */ struct pic *is_pic; /* originating PIC */ void *is_recurse; /* entry for spllower */ void *is_resume; /* entry for doreti */ char is_evname[32]; /* event counter name */ int is_flags; /* see below */ int is_type; /* level, edge */ int is_idtvec; int is_minlevel; }; #define IS_LEGACY 0x0001 /* legacy ISA irq source */ #define IS_IPI 0x0002 #define IS_LOG 0x0004 /* * Interrupt handler chains. *_intr_establish() insert a handler into * the list. The handler is called with its (single) argument. */ struct intrhand { int (*ih_fun)(void *); void *ih_arg; int ih_level; struct intrhand *ih_next; int ih_pin; int ih_slot; struct cpu_info *ih_cpu; int ih_irq; struct evcount ih_count; }; #define IMASK(ci,level) (ci)->ci_imask[(level)] #define IUNMASK(ci,level) (ci)->ci_iunmask[(level)] extern void Xspllower(int); int splraise(int); int spllower(int); void softintr(int); /* * Convert spl level to local APIC level */ #define APIC_LEVEL(l) ((l) << 4) /* * compiler barrier: prevent reordering of instructions. * XXX something similar will move to * or thereabouts. * This prevents the compiler from reordering code around * this "instruction", acting as a sequence point for code generation. */ #define __splbarrier() __asm __volatile("":::"memory") /* * Hardware interrupt masks */ #define splbio() splraise(IPL_BIO) #define splnet() splraise(IPL_NET) #define spltty() splraise(IPL_TTY) #define splaudio() splraise(IPL_AUDIO) #define splclock() splraise(IPL_CLOCK) #define splstatclock() splclock() #define splipi() splraise(IPL_IPI) #define spllpt() spltty() #define spllpt() spltty() /* * Software interrupt masks */ #define splsoftclock() splraise(IPL_SOFTCLOCK) #define splsoftnet() splraise(IPL_SOFTNET) #define splsofttty() splraise(IPL_SOFTTTY) /* * Miscellaneous */ #define splvm() splraise(IPL_VM) #define splhigh() splraise(IPL_HIGH) #define spl0() spllower(IPL_NONE) #define splsched() splraise(IPL_SCHED) #define spllock() splhigh() #define splx(x) spllower(x) /* SPL asserts */ #ifdef DIAGNOSTIC /* * Although this function is implemented in MI code, it must be in this MD * header because we don't want this header to include MI includes. */ void splassert_fail(int, int, const char *); extern int splassert_ctl; void splassert_check(int, const char *); #define splassert(__wantipl) do { \ if (splassert_ctl > 0) { \ splassert_check(__wantipl, __func__); \ } \ } while (0) #else #define splassert(wantipl) do { /* nada */ } while (0) #endif /* * XXX */ #define setsoftnet() softintr(SIR_NET) #define IPLSHIFT 4 /* The upper nibble of vectors is the IPL. */ #define IPL(level) ((level) >> IPLSHIFT) /* Extract the IPL. */ #include /* * Stub declarations. */ extern void Xsoftclock(void); extern void Xsoftnet(void); extern void Xsofttty(void); extern struct intrstub i8259_stubs[]; extern struct intrstub ioapic_edge_stubs[]; extern struct intrstub ioapic_level_stubs[]; struct cpu_info; extern char idt_allocmap[]; void intr_default_setup(void); int x86_nmi(void); void intr_calculatemasks(struct cpu_info *); int intr_allocate_slot_cpu(struct cpu_info *, struct pic *, int, int *); int intr_allocate_slot(struct pic *, int, int, int, struct cpu_info **, int *, int *); void *intr_establish(int, struct pic *, int, int, int, int (*)(void *), void *, char *); void intr_disestablish(struct intrhand *); void cpu_intr_init(struct cpu_info *); int intr_find_mpmapping(int bus, int pin, int *handle); void intr_printconfig(void); #ifdef MULTIPROCESSOR int x86_send_ipi(struct cpu_info *, int); int x86_fast_ipi(struct cpu_info *, int); void x86_broadcast_ipi(int); void x86_multicast_ipi(int, int); void x86_ipi_handler(void); void x86_intlock(struct intrframe); void x86_intunlock(struct intrframe); void x86_softintlock(void); void x86_softintunlock(void); void x86_setperf_ipi(struct cpu_info *); extern void (*ipifunc[X86_NIPI])(struct cpu_info *); #endif #endif /* !_LOCORE */ /* * Generic software interrupt support. */ #define X86_SOFTINTR_SOFTCLOCK 0 #define X86_SOFTINTR_SOFTNET 1 #define X86_SOFTINTR_SOFTTTY 2 #define X86_NSOFTINTR 3 #ifndef _LOCORE #include struct x86_soft_intrhand { TAILQ_ENTRY(x86_soft_intrhand) sih_q; struct x86_soft_intr *sih_intrhead; void (*sih_fn)(void *); void *sih_arg; int sih_pending; }; struct x86_soft_intr { TAILQ_HEAD(, x86_soft_intrhand) softintr_q; int softintr_ssir; struct simplelock softintr_slock; }; #define x86_softintr_lock(si, s) \ do { \ (s) = splhigh(); \ simple_lock(&si->softintr_slock); \ } while (/*CONSTCOND*/ 0) #define x86_softintr_unlock(si, s) \ do { \ simple_unlock(&si->softintr_slock); \ splx((s)); \ } while (/*CONSTCOND*/ 0) void *softintr_establish(int, void (*)(void *), void *); void softintr_disestablish(void *); void softintr_init(void); void softintr_dispatch(int); #define softintr_schedule(arg) \ do { \ struct x86_soft_intrhand *__sih = (arg); \ struct x86_soft_intr *__si = __sih->sih_intrhead; \ int __s; \ \ x86_softintr_lock(__si, __s); \ if (__sih->sih_pending == 0) { \ TAILQ_INSERT_TAIL(&__si->softintr_q, __sih, sih_q); \ __sih->sih_pending = 1; \ softintr(__si->softintr_ssir); \ } \ x86_softintr_unlock(__si, __s); \ } while (/*CONSTCOND*/ 0) #endif /* _LOCORE */ #endif /* !_X86_INTR_H_ */