2000-07-01 02:58:01 +04:00
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/* $NetBSD: cpu.h,v 1.21 2000/06/30 22:58:01 eeh Exp $ */
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1998-06-20 08:58:50 +04:00
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/*
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* Copyright (c) 1992, 1993
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* The Regents of the University of California. All rights reserved.
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*
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* This software was developed by the Computer Systems Engineering group
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* at Lawrence Berkeley Laboratory under DARPA contract BG 91-66 and
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* contributed to Berkeley.
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*
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* All advertising materials mentioning features or use of this software
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* must display the following acknowledgement:
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* This product includes software developed by the University of
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* California, Lawrence Berkeley Laboratory.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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* 3. All advertising materials mentioning features or use of this software
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* must display the following acknowledgement:
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* This product includes software developed by the University of
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* California, Berkeley and its contributors.
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* 4. Neither the name of the University nor the names of its contributors
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* may be used to endorse or promote products derived from this software
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* without specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
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* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
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* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
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* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
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* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
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* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
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* SUCH DAMAGE.
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*
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* @(#)cpu.h 8.4 (Berkeley) 1/5/94
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*/
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#ifndef _CPU_H_
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#define _CPU_H_
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/*
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* CTL_MACHDEP definitions.
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*/
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1999-10-11 05:57:43 +04:00
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#define CPU_BOOTED_KERNEL 1 /* string: booted kernel name */
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#define CPU_MAXID 2 /* number of valid machdep ids */
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1998-06-20 08:58:50 +04:00
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1999-10-11 05:57:43 +04:00
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#define CTL_MACHDEP_NAMES { \
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{ 0, 0 }, \
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{ "booted_kernel", CTLTYPE_STRING }, \
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1998-06-20 08:58:50 +04:00
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}
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#ifdef _KERNEL
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/*
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* Exported definitions unique to SPARC cpu support.
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*/
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2000-05-27 01:19:19 +04:00
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#if !defined(_LKM)
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#include "opt_multiprocessor.h"
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#include "opt_lockdebug.h"
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#endif
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1998-06-20 08:58:50 +04:00
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#include <machine/psl.h>
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#include <machine/reg.h>
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1999-05-30 06:37:10 +04:00
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#include <machine/intr.h>
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1998-06-20 08:58:50 +04:00
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#include <sparc64/sparc64/intreg.h>
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2000-05-27 01:19:19 +04:00
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#include <sys/sched.h>
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2000-06-13 03:32:46 +04:00
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/*
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* The cpu_info structure is part of a 64KB structure mapped both the kernel
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* pmap and a single locked TTE a CPUINFO_VA for that particular processor.
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* Each processor's cpu_info is accessible at CPUINFO_VA only for that
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* processor. Other processors can access that through an additional mapping
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* in the kernel pmap.
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*
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* The 64KB page contains:
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*
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* cpu_info
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* interrupt stack (all remaining space)
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* idle PCB
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* idle stack (STACKSPACE - sizeof(PCB))
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* 32KB TSB
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*/
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2000-05-27 01:19:19 +04:00
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struct cpu_info {
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2000-06-20 03:30:32 +04:00
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/* Most important fields first */
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2000-06-13 03:32:46 +04:00
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struct proc *ci_curproc;
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2000-06-20 03:30:32 +04:00
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struct pcb *ci_cpcb; /* also initial stack */
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2000-06-13 03:32:46 +04:00
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struct cpu_info *ci_next;
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2000-06-20 03:30:32 +04:00
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struct proc *ci_fpproc;
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2000-06-13 03:32:46 +04:00
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int ci_number;
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2000-06-20 03:30:32 +04:00
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int ci_upaid;
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2000-05-27 01:19:19 +04:00
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struct schedstate_percpu ci_schedstate; /* scheduler state */
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2000-06-20 03:30:32 +04:00
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/* DEBUG/DIAGNOSTIC stuff */
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2000-06-13 03:32:46 +04:00
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u_long ci_spin_locks; /* # of spin locks held */
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u_long ci_simple_locks;/* # of simple locks held */
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2000-06-20 03:30:32 +04:00
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/* Spinning up the CPU */
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void (*ci_spinup) __P((void)); /* spinup routine */
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void *ci_initstack;
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paddr_t ci_paddr; /* Phys addr of this structure. */
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2000-05-27 01:19:19 +04:00
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};
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2000-06-13 03:32:46 +04:00
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extern struct cpu_info *cpus;
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2000-05-27 01:19:19 +04:00
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extern struct cpu_info cpu_info_store;
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2000-06-20 03:30:32 +04:00
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#if 1
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2000-05-27 01:19:19 +04:00
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#define curcpu() (&cpu_info_store)
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2000-06-20 03:30:32 +04:00
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#else
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#define curcpu() ((struct cpu_info *)CPUINFO_VA)
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#endif
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2000-05-27 01:19:19 +04:00
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1998-06-20 08:58:50 +04:00
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/*
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* definitions of cpu-dependent requirements
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* referenced in generic code
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*/
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#define cpu_swapin(p) /* nothing */
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#define cpu_swapout(p) /* nothing */
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#define cpu_wait(p) /* nothing */
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2000-06-20 03:30:32 +04:00
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#if 1
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#define cpu_number() 0
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#else
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2000-06-13 03:32:46 +04:00
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#define cpu_number() (curcpu()->ci_number)
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2000-06-20 03:30:32 +04:00
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#endif
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1998-06-20 08:58:50 +04:00
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/*
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* Arguments to hardclock, softclock and gatherstats encapsulate the
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* previous machine state in an opaque clockframe. The ipl is here
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* as well for strayintr (see locore.s:interrupt and intr.c:strayintr).
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* Note that CLKF_INTR is valid only if CLKF_USERMODE is false.
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*/
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1999-12-30 19:26:18 +03:00
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extern int intstack[];
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1998-06-20 08:58:50 +04:00
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extern int eintstack[];
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struct clockframe {
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1999-11-06 23:13:49 +03:00
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struct trapframe64 t;
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1998-06-20 08:58:50 +04:00
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};
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#define CLKF_USERMODE(framep) (((framep)->t.tf_tstate & TSTATE_PRIV) == 0)
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#define CLKF_BASEPRI(framep) (((framep)->t.tf_oldpil) == 0)
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#define CLKF_PC(framep) ((framep)->t.tf_pc)
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1999-12-30 19:26:18 +03:00
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#define CLKF_INTR(framep) ((!CLKF_USERMODE(framep))&&\
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2000-06-20 03:30:32 +04:00
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(((framep)->t.tf_kstack < (vaddr_t)EINTSTACK)&&\
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((framep)->t.tf_kstack > (vaddr_t)INTSTACK)))
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1998-06-20 08:58:50 +04:00
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/*
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* Software interrupt request `register'.
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*/
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2000-06-20 03:30:32 +04:00
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#ifdef DEPRECATED
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1998-06-20 08:58:50 +04:00
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union sir {
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int sir_any;
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char sir_which[4];
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} sir;
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#define SIR_NET 0
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#define SIR_CLOCK 1
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2000-06-20 03:30:32 +04:00
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#endif
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1998-06-20 08:58:50 +04:00
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2000-03-16 05:36:56 +03:00
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extern struct intrhand soft01intr, soft01net, soft01clock;
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#if 0
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#define setsoftint() send_softint(-1, IPL_SOFTINT, &soft01intr)
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#define setsoftnet() send_softint(-1, IPL_SOFTNET, &soft01net)
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#define setsoftclock() send_softint(-1, IPL_SOFTCLOCK, &soft01clock)
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#else
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void setsoftint __P((void));
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void setsoftnet __P((void));
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void setsoftclock __P((void));
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#endif
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1998-06-20 08:58:50 +04:00
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int want_ast;
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/*
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* Preempt the current process if in interrupt from user mode,
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* or after the current trap/syscall if in system mode.
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*/
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int want_resched; /* resched() was called */
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#define need_resched() (want_resched = 1, want_ast = 1)
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/*
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* Give a profiling tick to the current process when the user profiling
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* buffer pages are invalid. On the sparc, request an ast to send us
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* through trap(), marking the proc as needing a profiling tick.
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*/
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#define need_proftick(p) ((p)->p_flag |= P_OWEUPC, want_ast = 1)
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/*
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* Notify the current process (p) that it has a signal pending,
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* process as soon as possible.
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*/
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#define signotify(p) (want_ast = 1)
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/*
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* Only one process may own the FPU state.
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*
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* XXX this must be per-cpu (eventually)
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*/
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struct proc *fpproc; /* FPU owner */
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int foundfpu; /* true => we have an FPU */
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/*
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* Interrupt handler chains. Interrupt handlers should return 0 for
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* ``not me'' or 1 (``I took care of it''). intr_establish() inserts a
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* handler into the list. The handler is called with its (single)
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* argument, or with a pointer to a clockframe if ih_arg is NULL.
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*/
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struct intrhand {
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2000-06-12 09:29:43 +04:00
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int (*ih_fun) __P((void *));
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void *ih_arg;
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short ih_number; /* interrupt number */
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/* the H/W provides */
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short ih_pil; /* interrupt priority */
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2000-07-01 02:58:01 +04:00
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struct intrhand *ih_next; /* global list */
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2000-06-12 09:29:43 +04:00
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volatile u_int64_t *ih_map; /* Interrupt map reg */
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volatile u_int64_t *ih_clr; /* clear interrupt reg */
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2000-07-01 02:58:01 +04:00
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struct intrhand *ih_pending; /* Used by interrupt
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* dispatch code
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* -- DON'T TOUCH
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*/
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1998-06-20 08:58:50 +04:00
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};
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extern struct intrhand *intrhand[15];
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extern struct intrhand *intrlev[MAXINTNUM];
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void intr_establish __P((int level, struct intrhand *));
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2000-06-13 03:32:46 +04:00
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/* cpu.c */
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2000-06-20 03:30:32 +04:00
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paddr_t cpu_alloc __P((void));
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u_int64_t cpu_init __P((paddr_t, int));
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1998-06-20 08:58:50 +04:00
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/* disksubr.c */
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struct dkbad;
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int isbad __P((struct dkbad *bt, int, int, int));
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/* machdep.c */
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int ldcontrolb __P((caddr_t));
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void dumpconf __P((void));
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caddr_t reserve_dumppages __P((caddr_t));
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/* clock.c */
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struct timeval;
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1999-05-30 23:13:33 +04:00
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int tickintr __P((void *)); /* level 10 (tick) interrupt code */
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1998-06-20 08:58:50 +04:00
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int clockintr __P((void *));/* level 10 (clock) interrupt code */
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int statintr __P((void *)); /* level 14 (statclock) interrupt code */
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/* locore.s */
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1999-11-06 23:13:49 +03:00
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struct fpstate64;
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void savefpstate __P((struct fpstate64 *));
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void loadfpstate __P((struct fpstate64 *));
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1999-06-06 01:58:16 +04:00
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int probeget __P((paddr_t, int, int));
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int probeset __P((paddr_t, int, int, u_int64_t));
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1998-06-20 08:58:50 +04:00
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#if 0
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void write_all_windows __P((void));
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void write_user_windows __P((void));
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#else
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#define write_all_windows() __asm __volatile("flushw" : : )
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#define write_user_windows() __asm __volatile("flushw" : : )
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#endif
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void proc_trampoline __P((void));
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struct pcb;
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void snapshot __P((struct pcb *));
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struct frame *getfp __P((void));
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int xldcontrolb __P((caddr_t, struct pcb *));
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void copywords __P((const void *, void *, size_t));
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void qcopy __P((const void *, void *, size_t));
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void qzero __P((void *, size_t));
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1998-11-24 15:49:14 +03:00
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void switchtoctx __P((int));
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1998-06-20 08:58:50 +04:00
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/* locore2.c */
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void remrq __P((struct proc *));
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/* trap.c */
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void kill_user_windows __P((struct proc *));
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int rwindow_save __P((struct proc *));
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1998-11-11 09:43:49 +03:00
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void child_return __P((void *));
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1998-06-20 08:58:50 +04:00
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/* amd7930intr.s */
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void amd7930_trap __P((void));
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/* cons.c */
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int cnrom __P((void));
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/* zs.c */
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void zsconsole __P((struct tty *, int, int, void (**)(struct tty *, int)));
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#ifdef KGDB
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void zs_kgdb_init __P((void));
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#endif
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/* fb.c */
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void fb_unblank __P((void));
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/* kgdb_stub.c */
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#ifdef KGDB
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void kgdb_attach __P((int (*)(void *), void (*)(void *, int), void *));
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void kgdb_connect __P((int));
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void kgdb_panic __P((void));
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#endif
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1998-11-24 15:49:14 +03:00
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/* emul.c */
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1999-11-06 23:13:49 +03:00
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int fixalign __P((struct proc *, struct trapframe64 *));
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int emulinstr __P((vaddr_t, struct trapframe64 *));
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1998-06-20 08:58:50 +04:00
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/*
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*
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* The SPARC has a Trap Base Register (TBR) which holds the upper 20 bits
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* of the trap vector table. The next eight bits are supplied by the
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* hardware when the trap occurs, and the bottom four bits are always
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* zero (so that we can shove up to 16 bytes of executable code---exactly
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* four instructions---into each trap vector).
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*
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* The hardware allocates half the trap vectors to hardware and half to
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* software.
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*
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* Traps have priorities assigned (lower number => higher priority).
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*/
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struct trapvec {
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int tv_instr[8]; /* the eight instructions */
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};
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extern struct trapvec *trapbase; /* the 256 vectors */
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extern void wzero __P((void *, u_int));
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extern void wcopy __P((const void *, void *, u_int));
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#endif /* _KERNEL */
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#endif /* _CPU_H_ */
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