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/* $OpenBSD: cpu.h,v 1.75 2010/12/21 14:56:24 claudio Exp $ */
/* $NetBSD: cpu.h,v 1.28 2001/06/14 22:56:58 thorpej Exp $ */
/*
* Copyright (c) 1992, 1993
* The Regents of the University of California. All rights reserved.
*
* This software was developed by the Computer Systems Engineering group
* at Lawrence Berkeley Laboratory under DARPA contract BG 91-66 and
* contributed to Berkeley.
*
* All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by the University of
* California, Lawrence Berkeley Laboratory.
*
* 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.
* 3. Neither the name of the University nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS 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 REGENTS 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.
*
* @(#)cpu.h 8.4 (Berkeley) 1/5/94
*/
#ifndef _CPU_H_
#define _CPU_H_
/*
* CTL_MACHDEP definitions.
*/
#define CPU_LED_BLINK 2 /* int: blink leds? */
#define CPU_ALLOWAPERTURE 3 /* allow xf86 operations */
#define CPU_CPUTYPE 4 /* cpu type */
#define CPU_CECCERRORS 5 /* Correctable ECC errors */
#define CPU_CECCLAST 6 /* Correctable ECC last fault addr */
#define CPU_KBDRESET 7 /* soft reset via keyboard */
#define CPU_MAXID 8 /* number of valid machdep ids */
#define CTL_MACHDEP_NAMES { \
{ 0, 0 }, \
{ 0, 0 }, \
{ "led_blink", CTLTYPE_INT }, \
{ "allowaperture", CTLTYPE_INT }, \
{ "cputype", CTLTYPE_INT }, \
{ "ceccerrs", CTLTYPE_INT }, \
{ "cecclast", CTLTYPE_QUAD }, \
{ "kbdreset", CTLTYPE_INT }, \
}
#ifdef _KERNEL
/*
* Exported definitions unique to SPARC cpu support.
*/
#include <machine/ctlreg.h>
#include <machine/psl.h>
#include <machine/reg.h>
#include <machine/intr.h>
#include <sys/sched.h>
/*
* The cpu_info structure is part of a 64KB structure mapped both the kernel
* pmap and a single locked TTE a CPUINFO_VA for that particular processor.
* Each processor's cpu_info is accessible at CPUINFO_VA only for that
* processor. Other processors can access that through an additional mapping
* in the kernel pmap.
*
* The 64KB page contains:
*
* cpu_info
* interrupt stack (all remaining space)
* idle PCB
* idle stack (STACKSPACE - sizeof(PCB))
* 32KB TSB
*/
struct cpu_info {
/*
* SPARC cpu_info structures live at two VAs: one global
* VA (so each CPU can access any other CPU's cpu_info)
* and an alias VA CPUINFO_VA which is the same on each
* CPU and maps to that CPU's cpu_info. Since the alias
* CPUINFO_VA is how we locate our cpu_info, we have to
* self-reference the global VA so that we can return it
* in the curcpu() macro.
*/
struct cpu_info * volatile ci_self;
/* Most important fields first */
struct proc *ci_curproc;
struct pcb *ci_cpcb; /* also initial stack */
struct cpu_info *ci_next;
struct proc *ci_fpproc;
int ci_number;
int ci_flags;
int ci_upaid;
#ifdef MULTIPROCESSOR
int ci_itid;
#endif
int ci_node;
u_int32_t ci_randseed;
struct schedstate_percpu ci_schedstate; /* scheduler state */
int ci_want_resched;
int ci_handled_intr_level;
void *ci_intrpending[16][8];
u_int64_t ci_tick;
struct intrhand ci_tickintr;
/* DEBUG/DIAGNOSTIC stuff */
u_long ci_spin_locks; /* # of spin locks held */
u_long ci_simple_locks;/* # of simple locks held */
/* Spinning up the CPU */
void (*ci_spinup)(void); /* spinup routine */
void *ci_initstack;
paddr_t ci_paddr; /* Phys addr of this structure. */
#ifdef SUN4V
struct rwindow64 ci_rw;
u_int64_t ci_rwsp;
paddr_t ci_mmfsa;
paddr_t ci_cpumq;
paddr_t ci_devmq;
paddr_t ci_cpuset;
paddr_t ci_mondo;
#endif
#ifdef DIAGNOSTIC
int ci_mutex_level;
#endif
};
#define CPUF_RUNNING 0x0001 /* CPU is running */
extern struct cpu_info *cpus;
#define curpcb curcpu()->ci_cpcb
#define fpproc curcpu()->ci_fpproc
#ifdef MULTIPROCESSOR
#define cpu_number() (curcpu()->ci_number)
extern __inline struct cpu_info *curcpu(void);
extern __inline struct cpu_info *
curcpu(void)
{
struct cpu_info *ci;
__asm __volatile("mov %%g7, %0" : "=r"(ci));
return (ci->ci_self);
}
#define CPU_IS_PRIMARY(ci) ((ci)->ci_number == 0)
#define CPU_INFO_ITERATOR int
#define CPU_INFO_FOREACH(cii, ci) \
for (cii = 0, ci = cpus; ci != NULL; ci = ci->ci_next)
#define CPU_INFO_UNIT(ci) ((ci)->ci_number)
#define MAXCPUS 256
void cpu_boot_secondary_processors(void);
void sparc64_send_ipi(int, void (*)(void), u_int64_t, u_int64_t);
void sparc64_broadcast_ipi(void (*)(void), u_int64_t, u_int64_t);
void cpu_unidle(struct cpu_info *);
#else
#define cpu_number() 0
#define curcpu() ((struct cpu_info *)CPUINFO_VA)
#define CPU_IS_PRIMARY(ci) 1
#define CPU_INFO_ITERATOR int
#define CPU_INFO_FOREACH(cii, ci) \
for (cii = 0, ci = curcpu(); ci != NULL; ci = NULL)
#define CPU_INFO_UNIT(ci) 0
#define MAXCPUS 1
#define cpu_unidle(ci)
#endif
/*
* Arguments to hardclock, softclock and gatherstats encapsulate the
* previous machine state in an opaque clockframe. The ipl is here
* as well for strayintr (see locore.s:interrupt and intr.c:strayintr).
*/
struct clockframe {
struct trapframe64 t;
int saved_intr_level;
};
#define CLKF_USERMODE(framep) (((framep)->t.tf_tstate & TSTATE_PRIV) == 0)
#define CLKF_PC(framep) ((framep)->t.tf_pc)
#define CLKF_INTR(framep) ((framep)->saved_intr_level != 0)
extern void (*cpu_start_clock)(void);
#define aston(p) ((p)->p_md.md_astpending = 1)
/*
* Preempt the current process if in interrupt from user mode,
* or after the current trap/syscall if in system mode.
*/
extern void need_resched(struct cpu_info *);
#define clear_resched(ci) (ci)->ci_want_resched = 0
/*
* This is used during profiling to integrate system time.
*/
#define PROC_PC(p) ((p)->p_md.md_tf->tf_pc)
/*
* Give a profiling tick to the current process when the user profiling
* buffer pages are invalid. On the sparc, request an ast to send us
* through trap(), marking the proc as needing a profiling tick.
*/
#define need_proftick(p) aston(p)
void signotify(struct proc *);
/* cpu.c */
int cpu_myid(void);
/* machdep.c */
int ldcontrolb(caddr_t);
void dumpconf(void);
caddr_t reserve_dumppages(caddr_t);
/* clock.c */
struct timeval;
int clockintr(void *);/* level 10 (clock) interrupt code */
int statintr(void *); /* level 14 (statclock) interrupt code */
/* locore.s */
struct fpstate64;
void savefpstate(struct fpstate64 *);
void loadfpstate(struct fpstate64 *);
void clearfpstate(void);
u_int64_t probeget(paddr_t, int, int);
#define write_all_windows() __asm __volatile("flushw" : : )
void write_user_windows(void);
void proc_trampoline(void);
struct pcb;
void snapshot(struct pcb *);
struct frame *getfp(void);
int xldcontrolb(caddr_t, struct pcb *);
void copywords(const void *, void *, size_t);
void qcopy(const void *, void *, size_t);
void qzero(void *, size_t);
void switchtoctx(int);
/* trap.c */
void pmap_unuse_final(struct proc *);
int rwindow_save(struct proc *);
/* vm_machdep.c */
void fpusave_cpu(struct cpu_info *, int);
void fpusave_proc(struct proc *, int);
/* cons.c */
int cnrom(void);
/* zs.c */
void zsconsole(struct tty *, int, int, void (**)(struct tty *, int));
/* fb.c */
void fb_unblank(void);
/* tda.c */
void tda_full_blast(void);
/* emul.c */
int emulinstr(vaddr_t, struct trapframe64 *);
int emul_qf(int32_t, struct proc *, union sigval, struct trapframe64 *);
int emul_popc(int32_t, struct proc *, union sigval, struct trapframe64 *);
/*
*
* The SPARC has a Trap Base Register (TBR) which holds the upper 20 bits
* of the trap vector table. The next eight bits are supplied by the
* hardware when the trap occurs, and the bottom four bits are always
* zero (so that we can shove up to 16 bytes of executable code---exactly
* four instructions---into each trap vector).
*
* The hardware allocates half the trap vectors to hardware and half to
* software.
*
* Traps have priorities assigned (lower number => higher priority).
*/
struct trapvec {
int tv_instr[8]; /* the eight instructions */
};
extern struct trapvec trapbase[]; /* the 256 vectors */
extern void wzero(void *, u_int);
extern void wcopy(const void *, void *, u_int);
struct blink_led {
void (*bl_func)(void *, int);
void *bl_arg;
SLIST_ENTRY(blink_led) bl_next;
};
extern void blink_led_register(struct blink_led *);
#ifdef MULTIPROCESSOR
#include <sys/mplock.h>
#endif
#endif /* _KERNEL */
#endif /* _CPU_H_ */
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