/* $OpenBSD: intr.h,v 1.15 2006/07/09 22:10:05 mk Exp $ */ /* * Copyright (c) 2001-2004 Opsycon AB (www.opsycon.se / www.opsycon.com) * * 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 AUTHOR ``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 AUTHOR 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 _MACHINE_INTR_H_ #define _MACHINE_INTR_H_ /* * The interrupt mask cpl is a mask which can be used with the * CPU interrupt mask register or an external HW mask register. * If interrupts are masked by the CPU interrupt mask all external * masks should be enabled and any routing set up so that the * interrupt source is routed to the CPU interrupt corresponding * to the interrupts "priority level". In this case the generic * interrupt handler can be used. * * The IMASK_EXTERNAL define is used to select whether the CPU * interrupt mask should be controlled by the cpl mask value * or not. If the mask is external, the CPU mask is never changed * from the value it gets when interrupt dispatchers are registred. * When an external masking register is used dedicated interrupt * handlers must be written as well as ipending handlers. */ #define IMASK_EXTERNAL /* XXX move this to config */ /* This define controls whether splraise is inlined or not */ /* #define INLINE_SPLRAISE */ /* Interrupt priority `levels'; not mutually exclusive. */ #define IPL_BIO 0 /* block I/O */ #define IPL_AUDIO IPL_BIO #define IPL_NET 1 /* network */ #define IPL_TTY 2 /* terminal */ #define IPL_VM 3 /* memory allocation */ #define IPL_CLOCK 4 /* clock */ #define IPL_NONE 5 /* nothing */ #define IPL_HIGH 6 /* everything */ #define NIPLS 7 /* Number of levels */ /* Interrupt sharing types. */ #define IST_NONE 0 /* none */ #define IST_PULSE 1 /* pulsed */ #define IST_EDGE 2 /* edge-triggered */ #define IST_LEVEL 3 /* level-triggered */ /* Soft interrupt masks. */ #define SINT_CLOCK 31 #define SINT_CLOCKMASK (1 << SINT_CLOCK) #define SINT_NET 30 #define SINT_NETMASK ((1 << SINT_NET) | SINT_CLOCKMASK) #define SINT_TTY 29 #define SINT_TTYMASK ((1 << SINT_TTY) | SINT_CLOCKMASK) #define SINT_ALLMASK (SINT_CLOCKMASK | SINT_NETMASK | SINT_TTYMASK) #define SPL_CLOCK 28 #define SPL_CLOCKMASK (1 << SPL_CLOCK) #ifndef _LOCORE #if 1 #define splbio() splraise(imask[IPL_BIO]) #define splnet() splraise(imask[IPL_NET]) #define spltty() splraise(imask[IPL_TTY]) #define splaudio() splraise(imask[IPL_AUDIO]) #define splclock() splraise(SPL_CLOCKMASK|SINT_ALLMASK) #define splvm() splraise(imask[IPL_VM]) #define splsoftclock() splraise(SINT_CLOCKMASK) #define splsoftnet() splraise(SINT_NETMASK|SINT_CLOCKMASK) #define splsofttty() splraise(SINT_TTYMASK) #else #define splbio() splhigh() #define splnet() splhigh() #define spltty() splhigh() #define splclock() splhigh() #define splvm() splhigh() #define splsoftclock() splhigh() #define splsoftnet() splhigh() #define splsofttty() splhigh() #endif #define splstatclock() splhigh() #define splhigh() splraise(-1) #define spl0() spllower(0) #define setsoftclock() set_ipending(SINT_CLOCKMASK); #define setsoftnet() set_ipending(SINT_NETMASK); #define setsofttty() set_ipending(SINT_TTYMASK); void splinit(void); #define splassert(X) /* * Schedule prioritys for base interrupts (cpu) */ #define INTPRI_CLOCK 1 #define INTPRI_MACEIO 2 /* O2 I/O interrupt */ #define INTPRI_XBOWMUX 2 /* Origin 200/2000 I/O interrupt */ #define INTPRI_MACEAUX 3 /* * Define a type for interrupt masks. We may need 64 bits here. */ typedef u_int32_t intrmask_t; /* Type of var holding interrupt mask */ #define INTMASKSIZE (sizeof(intrmask_t) * 8) void clearsoftclock(void); void clearsoftnet(void); #if 0 void clearsofttty(void); #endif extern volatile intrmask_t cpl; extern volatile intrmask_t ipending; extern volatile intrmask_t astpending; extern intrmask_t imask[NIPLS]; /* * A note on clock interrupts. Clock interrupts are always * allowed to happen but will not be serviced if masked. * The reason for this is that clocks usually sits on INT5 * and can not be easily masked if external HW masking is used. */ /* Inlines */ static __inline void register_pending_int_handler(void (*)(int)); static __inline void splx(int newcpl); static __inline int spllower(int newcpl); typedef void (int_f) (int); extern int_f *pending_hand; static __inline void register_pending_int_handler(void(*pending)(int)) { pending_hand = pending; } /* */ #ifdef INLINE_SPLRAISE static __inline int splraise(int newcpl); static __inline int splraise(int newcpl) { int oldcpl; __asm__ (" .set noreorder\n"); oldcpl = cpl; cpl = oldcpl | newcpl; __asm__ (" sync\n .set reorder\n"); return (oldcpl); } #else int splraise(int newcpl); #endif static __inline void splx(int newcpl) { if (ipending & ~newcpl) (*pending_hand)(newcpl); else cpl = newcpl; } static __inline int spllower(int newcpl) { int oldcpl; oldcpl = cpl; if (ipending & ~newcpl) (*pending_hand)(newcpl); else cpl = newcpl; return (oldcpl); } /* * Atomically update ipending. */ void set_ipending(int); void clr_ipending(int); /* * Interrupt control struct used by interrupt dispatchers * to hold interrupt handler info. */ #include struct intrhand { struct intrhand *ih_next; int (*ih_fun)(void *); void *ih_arg; int ih_level; int ih_irq; char *ih_what; void *frame; struct evcount ih_count; }; extern struct intrhand *intrhand[INTMASKSIZE]; /* * Low level interrupt dispatcher registration data. */ #define NLOWINT 16 /* Number of low level registrations possible */ struct trap_frame; extern intrmask_t idle_mask; extern int last_low_int; void set_intr(int, intrmask_t, intrmask_t(*)(intrmask_t, struct trap_frame *)); #ifdef IMASK_EXTERNAL void hw_setintrmask(intrmask_t); extern void *hwmask_addr; #endif /* * Generic interrupt handling code that can be used for simple * interrupt hardware models. Functions can also be used by * more complex code especially the mask calculation code. */ void *generic_intr_establish(void *, u_long, int, int, int (*)(void *), void *, char *); void generic_intr_disestablish(void *, void *); void generic_intr_makemasks(void); void generic_do_pending_int(int); intrmask_t generic_iointr(intrmask_t, struct trap_frame *); #endif /* _LOCORE */ #endif /* _MACHINE_INTR_H_ */