arm/include/cpufunc.h

1.14   thorpej /*	$NetBSD: cpufunc.h,v 1.14 2001/11/29 02:24:59 thorpej Exp $	*/
 1.1   reinoud
 1.1   reinoud /*
 1.1   reinoud  * Copyright (c) 1997 Mark Brinicombe.
 1.1   reinoud  * Copyright (c) 1997 Causality Limited
 1.1   reinoud  * All rights reserved.
 1.1   reinoud  *
 1.1   reinoud  * Redistribution and use in source and binary forms, with or without
 1.1   reinoud  * modification, are permitted provided that the following conditions
 1.1   reinoud  * are met:
 1.1   reinoud  * 1. Redistributions of source code must retain the above copyright
 1.1   reinoud  *    notice, this list of conditions and the following disclaimer.
 1.1   reinoud  * 2. Redistributions in binary form must reproduce the above copyright
 1.1   reinoud  *    notice, this list of conditions and the following disclaimer in the
 1.1   reinoud  *    documentation and/or other materials provided with the distribution.
 1.1   reinoud  * 3. All advertising materials mentioning features or use of this software
 1.1   reinoud  *    must display the following acknowledgement:
 1.1   reinoud  *	This product includes software developed by Causality Limited.
 1.1   reinoud  * 4. The name of Causality Limited may not be used to endorse or promote
 1.1   reinoud  *    products derived from this software without specific prior written
 1.1   reinoud  *    permission.
 1.1   reinoud  *
 1.1   reinoud  * THIS SOFTWARE IS PROVIDED BY CAUSALITY LIMITED ``AS IS'' AND ANY EXPRESS
 1.1   reinoud  * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
 1.1   reinoud  * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
 1.1   reinoud  * DISCLAIMED. IN NO EVENT SHALL CAUSALITY LIMITED BE LIABLE FOR ANY DIRECT,
 1.1   reinoud  * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
 1.1   reinoud  * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
 1.1   reinoud  * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
 1.1   reinoud  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
 1.1   reinoud  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
 1.1   reinoud  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
 1.1   reinoud  * SUCH DAMAGE.
 1.1   reinoud  *
 1.1   reinoud  * RiscBSD kernel project
 1.1   reinoud  *
 1.1   reinoud  * cpufunc.h
 1.1   reinoud  *
 1.1   reinoud  * Prototypes for cpu, mmu and tlb related functions.
 1.1   reinoud  */
 1.1   reinoud
 1.1   reinoud #ifndef _ARM32_CPUFUNC_H_
 1.1   reinoud #define _ARM32_CPUFUNC_H_
 1.1   reinoud
 1.1   reinoud #include <sys/types.h>
 1.1   reinoud
 1.1   reinoud #ifdef _KERNEL
 1.1   reinoud #ifndef _LKM
 1.1   reinoud #include "opt_cputypes.h"
 1.1   reinoud #endif
 1.1   reinoud
 1.1   reinoud struct cpu_functions {
 1.1   reinoud
 1.1   reinoud 	/* CPU functions */
 1.1   reinoud
 1.1   reinoud 	u_int	(*cf_id)		__P((void));
1.12   thorpej 	void	(*cf_cpwait)		__P((void));
 1.1   reinoud
 1.1   reinoud 	/* MMU functions */
 1.1   reinoud
 1.1   reinoud 	u_int	(*cf_control)		__P((u_int bic, u_int eor));
 1.1   reinoud 	void	(*cf_domains)		__P((u_int domains));
 1.1   reinoud 	void	(*cf_setttb)		__P((u_int ttb));
 1.1   reinoud 	u_int	(*cf_faultstatus)	__P((void));
 1.1   reinoud 	u_int	(*cf_faultaddress)	__P((void));
 1.1   reinoud
 1.1   reinoud 	/* TLB functions */
 1.1   reinoud
 1.1   reinoud 	void	(*cf_tlb_flushID)	__P((void));
 1.1   reinoud 	void	(*cf_tlb_flushID_SE)	__P((u_int va));
 1.1   reinoud 	void	(*cf_tlb_flushI)	__P((void));
 1.1   reinoud 	void	(*cf_tlb_flushI_SE)	__P((u_int va));
 1.1   reinoud 	void	(*cf_tlb_flushD)	__P((void));
 1.1   reinoud 	void	(*cf_tlb_flushD_SE)	__P((u_int va));
 1.1   reinoud
 1.1   reinoud 	/* Cache functions */
 1.1   reinoud
 1.1   reinoud 	void	(*cf_cache_flushID)	__P((void));
 1.1   reinoud 	void	(*cf_cache_flushID_SE)	__P((u_int va));
 1.1   reinoud 	void	(*cf_cache_flushI)	__P((void));
 1.1   reinoud 	void	(*cf_cache_flushI_SE)	__P((u_int va));
 1.1   reinoud 	void	(*cf_cache_flushD)	__P((void));
 1.1   reinoud 	void	(*cf_cache_flushD_SE)	__P((u_int va));
 1.1   reinoud
 1.1   reinoud 	void	(*cf_cache_cleanID)	__P((void));
 1.1   reinoud 	void	(*cf_cache_cleanID_E)	__P((u_int imp));
 1.1   reinoud 	void	(*cf_cache_cleanD)	__P((void));
 1.1   reinoud 	void	(*cf_cache_cleanD_E)	__P((u_int imp));
 1.1   reinoud
 1.1   reinoud 	void	(*cf_cache_purgeID)	__P((void));
 1.1   reinoud 	void	(*cf_cache_purgeID_E)	__P((u_int imp));
 1.1   reinoud 	void	(*cf_cache_purgeD)	__P((void));
 1.1   reinoud 	void	(*cf_cache_purgeD_E)	__P((u_int imp));
 1.1   reinoud
 1.1   reinoud 	/* Other functions */
 1.1   reinoud
 1.1   reinoud 	void	(*cf_flush_prefetchbuf)	__P((void));
 1.1   reinoud 	void	(*cf_drain_writebuf)	__P((void));
 1.1   reinoud 	void	(*cf_flush_brnchtgt_C)	__P((void));
 1.1   reinoud 	void	(*cf_flush_brnchtgt_E)	__P((u_int va));
 1.1   reinoud
 1.1   reinoud 	void	(*cf_sleep)		__P((int mode));
 1.1   reinoud
 1.1   reinoud 	/* Soft functions */
 1.1   reinoud
 1.1   reinoud 	void	(*cf_cache_syncI)	__P((void));
 1.1   reinoud 	void	(*cf_cache_cleanID_rng)	__P((u_int start, u_int len));
 1.1   reinoud 	void	(*cf_cache_cleanD_rng)	__P((u_int start, u_int len));
 1.1   reinoud 	void	(*cf_cache_purgeID_rng)	__P((u_int start, u_int len));
 1.1   reinoud 	void	(*cf_cache_purgeD_rng)	__P((u_int start, u_int len));
 1.1   reinoud 	void	(*cf_cache_syncI_rng)	__P((u_int start, u_int len));
 1.1   reinoud
 1.1   reinoud 	int	(*cf_dataabt_fixup)	__P((void *arg));
 1.1   reinoud 	int	(*cf_prefetchabt_fixup)	__P((void *arg));
 1.1   reinoud
 1.1   reinoud 	void	(*cf_context_switch)	__P((void));
 1.1   reinoud
 1.1   reinoud 	void	(*cf_setup)		__P((char *string));
 1.1   reinoud };
 1.1   reinoud
 1.1   reinoud extern struct cpu_functions cpufuncs;
 1.1   reinoud extern u_int cputype;
 1.1   reinoud
 1.1   reinoud #define cpu_id()		cpufuncs.cf_id()
1.12   thorpej #define	cpu_cpwait()		cpufuncs.cf_cpwait()
 1.1   reinoud
 1.1   reinoud #define cpu_control(c, e)	cpufuncs.cf_control(c, e)
 1.1   reinoud #define cpu_domains(d)		cpufuncs.cf_domains(d)
 1.1   reinoud #define cpu_setttb(t)		cpufuncs.cf_setttb(t)
 1.1   reinoud #define cpu_faultstatus()	cpufuncs.cf_faultstatus()
 1.1   reinoud #define cpu_faultaddress()	cpufuncs.cf_faultaddress()
 1.1   reinoud
 1.1   reinoud #define	cpu_tlb_flushID()	cpufuncs.cf_tlb_flushID()
 1.1   reinoud #define	cpu_tlb_flushID_SE(e)	cpufuncs.cf_tlb_flushID_SE(e)
 1.1   reinoud #define	cpu_tlb_flushI()	cpufuncs.cf_tlb_flushI()
 1.1   reinoud #define	cpu_tlb_flushI_SE(e)	cpufuncs.cf_tlb_flushI_SE(e)
 1.1   reinoud #define	cpu_tlb_flushD()	cpufuncs.cf_tlb_flushD()
 1.1   reinoud #define	cpu_tlb_flushD_SE(e)	cpufuncs.cf_tlb_flushD_SE(e)
 1.1   reinoud
 1.1   reinoud #define	cpu_cache_flushID()	cpufuncs.cf_cache_flushID()
 1.1   reinoud #define	cpu_cache_flushID_SE(e)	cpufuncs.cf_cache_flushID_SE(e)
 1.1   reinoud #define	cpu_cache_flushI()	cpufuncs.cf_cache_flushI()
 1.1   reinoud #define	cpu_cache_flushI_SE(e)	cpufuncs.cf_cache_flushI_SE(e)
 1.1   reinoud #define	cpu_cache_flushD()	cpufuncs.cf_cache_flushD()
 1.1   reinoud #define	cpu_cache_flushD_SE(e)	cpufuncs.cf_cache_flushD_SE(e)
 1.1   reinoud #define	cpu_cache_cleanID()	cpufuncs.cf_cache_cleanID()
 1.1   reinoud #define	cpu_cache_cleanID_E(e)	cpufuncs.cf_cache_cleanID_E(e)
 1.1   reinoud #define	cpu_cache_cleanD()	cpufuncs.cf_cache_cleanD()
 1.1   reinoud #define	cpu_cache_cleanD_E(e)	cpufuncs.cf_cache_cleanD_E(e)
 1.1   reinoud #define	cpu_cache_purgeID()	cpufuncs.cf_cache_purgeID()
 1.1   reinoud #define	cpu_cache_purgeID_E(e)	cpufuncs.cf_cache_purgeID_E(e)
 1.1   reinoud #define	cpu_cache_purgeD()	cpufuncs.cf_cache_purgeD()
 1.1   reinoud #define	cpu_cache_purgeD_E(e)	cpufuncs.cf_cache_purgeD_E(e)
 1.1   reinoud
 1.1   reinoud #define	cpu_flush_prefetchbuf()	cpufuncs.cf_flush_prefetchbuf()
 1.1   reinoud #define	cpu_drain_writebuf()	cpufuncs.cf_drain_writebuf()
 1.1   reinoud #define	cpu_flush_brnchtgt_C()	cpufuncs.cf_flush_brnchtgt_C()
 1.1   reinoud #define	cpu_flush_brnchtgt_E(e)	cpufuncs.cf_flush_brnchtgt_E(e)
 1.1   reinoud
 1.1   reinoud #define cpu_sleep(m)		cpufuncs.cf_sleep(m)
 1.1   reinoud
 1.1   reinoud #define	cpu_cache_syncI()		cpufuncs.cf_cache_syncI()
 1.1   reinoud #define	cpu_cache_cleanID_rng(s,l)	cpufuncs.cf_cache_cleanID_rng(s,l)
 1.1   reinoud #define	cpu_cache_cleanD_rng(s,l)	cpufuncs.cf_cache_cleanD_rng(s,l)
 1.1   reinoud #define	cpu_cache_purgeID_rng(s,l)	cpufuncs.cf_cache_purgeID_rng(s,l)
 1.1   reinoud #define	cpu_cache_purgeD_rng(s,l)	cpufuncs.cf_cache_purgeD_rng(s,l)
 1.1   reinoud #define	cpu_cache_syncI_rng(s,l)	cpufuncs.cf_cache_syncI_rng(s,l)
 1.1   reinoud
 1.1   reinoud #define cpu_dataabt_fixup(a)		cpufuncs.cf_dataabt_fixup(a)
 1.1   reinoud #define cpu_prefetchabt_fixup(a)	cpufuncs.cf_prefetchabt_fixup(a)
 1.7       wiz #define ABORT_FIXUP_OK		0	/* fixup succeeded */
 1.1   reinoud #define ABORT_FIXUP_FAILED	1	/* fixup failed */
 1.1   reinoud #define ABORT_FIXUP_RETURN	2	/* abort handler should return */
 1.1   reinoud
 1.1   reinoud #define cpu_setup(a)			cpufuncs.cf_setup(a)
 1.1   reinoud
 1.1   reinoud int	set_cpufuncs		__P((void));
 1.1   reinoud #define ARCHITECTURE_NOT_PRESENT	1	/* known but not configured */
 1.1   reinoud #define ARCHITECTURE_NOT_SUPPORTED	2	/* not known */
 1.1   reinoud
 1.1   reinoud void	cpufunc_nullop		__P((void));
 1.2     bjh21 int	cpufunc_null_fixup	__P((void *));
 1.4     bjh21 int	early_abort_fixup	__P((void *));
 1.4     bjh21 int	late_abort_fixup	__P((void *));
 1.1   reinoud u_int	cpufunc_id		__P((void));
 1.1   reinoud u_int	cpufunc_control		__P((u_int clear, u_int bic));
 1.1   reinoud void	cpufunc_domains		__P((u_int domains));
 1.1   reinoud u_int	cpufunc_faultstatus	__P((void));
 1.1   reinoud u_int	cpufunc_faultaddress	__P((void));
 1.3     bjh21
 1.3     bjh21 #ifdef CPU_ARM3
 1.3     bjh21 u_int	arm3_control		__P((u_int clear, u_int bic));
 1.3     bjh21 void	arm3_cache_flush	__P((void));
 1.3     bjh21 #endif	/* CPU_ARM3 */
 1.1   reinoud
 1.1   reinoud #if defined(CPU_ARM6) || defined(CPU_ARM7)
 1.1   reinoud void	arm67_setttb		__P((u_int ttb));
 1.1   reinoud void	arm67_tlb_flush		__P((void));
 1.1   reinoud void	arm67_tlb_purge		__P((u_int va));
 1.1   reinoud void	arm67_cache_flush	__P((void));
 1.1   reinoud void	arm67_context_switch	__P((void));
 1.1   reinoud #endif	/* CPU_ARM6 || CPU_ARM7 */
 1.1   reinoud
 1.1   reinoud #ifdef CPU_ARM6
 1.1   reinoud void	arm6_setup		__P((char *string));
 1.1   reinoud #endif	/* CPU_ARM6 */
 1.1   reinoud
 1.1   reinoud #ifdef CPU_ARM7
 1.1   reinoud void	arm7_setup		__P((char *string));
 1.1   reinoud #endif	/* CPU_ARM7 */
 1.5     chris
 1.5     chris #ifdef CPU_ARM7TDMI
 1.5     chris int	arm7_dataabt_fixup	__P((void *arg));
 1.5     chris void	arm7tdmi_setup		__P((char *string));
 1.5     chris void	arm7tdmi_setttb		__P((u_int ttb));
 1.5     chris void	arm7tdmi_tlb_flushID	__P((void));
 1.5     chris void	arm7tdmi_tlb_flushID_SE	__P((u_int va));
 1.5     chris void	arm7tdmi_cache_flushID	__P((void));
 1.5     chris void	arm7tdmi_context_switch	__P((void));
 1.5     chris #endif /* CPU_ARM7TDMI */
 1.1   reinoud
 1.1   reinoud #ifdef CPU_ARM8
 1.1   reinoud void	arm8_setttb		__P((u_int ttb));
 1.1   reinoud void	arm8_tlb_flushID	__P((void));
 1.1   reinoud void	arm8_tlb_flushID_SE	__P((u_int va));
 1.1   reinoud void	arm8_cache_flushID	__P((void));
 1.1   reinoud void	arm8_cache_flushID_E	__P((u_int entry));
 1.1   reinoud void	arm8_cache_cleanID	__P((void));
 1.1   reinoud void	arm8_cache_cleanID_E	__P((u_int entry));
 1.1   reinoud void	arm8_cache_purgeID	__P((void));
 1.1   reinoud void	arm8_cache_purgeID_E	__P((u_int entry));
 1.1   reinoud
 1.1   reinoud void	arm8_cache_syncI	__P((void));
 1.1   reinoud void	arm8_cache_cleanID_rng	__P((u_int start, u_int end));
 1.1   reinoud void	arm8_cache_cleanD_rng	__P((u_int start, u_int end));
 1.1   reinoud void	arm8_cache_purgeID_rng	__P((u_int start, u_int end));
 1.1   reinoud void	arm8_cache_purgeD_rng	__P((u_int start, u_int end));
 1.1   reinoud void	arm8_cache_syncI_rng	__P((u_int start, u_int end));
 1.1   reinoud
 1.1   reinoud void	arm8_context_switch	__P((void));
 1.1   reinoud
 1.1   reinoud void	arm8_setup		__P((char *string));
 1.1   reinoud
 1.1   reinoud u_int	arm8_clock_config	__P((u_int, u_int));
 1.1   reinoud #endif
 1.1   reinoud
1.10  rearnsha #ifdef CPU_ARM9
1.10  rearnsha void	arm9_setttb		__P((u_int));
1.10  rearnsha
1.10  rearnsha void	arm9_tlb_flushID_SE	__P((u_int va));
1.10  rearnsha
1.10  rearnsha void	arm9_cache_flushID	__P((void));
1.10  rearnsha void	arm9_cache_flushID_SE	__P((u_int));
1.10  rearnsha void	arm9_cache_flushI	__P((void));
1.10  rearnsha void	arm9_cache_flushI_SE	__P((u_int));
1.10  rearnsha void	arm9_cache_flushD	__P((void));
1.10  rearnsha void	arm9_cache_flushD_SE	__P((u_int));
1.10  rearnsha
1.10  rearnsha void	arm9_cache_cleanID	__P((void));
1.10  rearnsha
1.10  rearnsha void	arm9_cache_syncI	__P((void));
1.10  rearnsha void	arm9_cache_flushID_rng	__P((u_int, u_int));
1.10  rearnsha void	arm9_cache_flushD_rng	__P((u_int, u_int));
1.10  rearnsha void	arm9_cache_syncI_rng	__P((u_int, u_int));
1.10  rearnsha
1.10  rearnsha void	arm9_context_switch	__P((void));
1.10  rearnsha
1.10  rearnsha void	arm9_setup		__P((char *string));
1.10  rearnsha #endif
1.10  rearnsha
1.10  rearnsha #if defined(CPU_ARM9) || defined(CPU_SA110) || defined(CPU_XSCALE)
1.10  rearnsha void	armv4_tlb_flushID	__P((void));
1.10  rearnsha void	armv4_tlb_flushI	__P((void));
1.10  rearnsha void	armv4_tlb_flushD	__P((void));
1.10  rearnsha void	armv4_tlb_flushD_SE	__P((u_int va));
1.10  rearnsha
1.10  rearnsha void	armv4_drain_writebuf	__P((void));
1.10  rearnsha #endif
1.10  rearnsha
 1.1   reinoud #ifdef CPU_SA110
 1.1   reinoud void	sa110_setttb		__P((u_int ttb));
1.10  rearnsha
 1.1   reinoud void	sa110_tlb_flushID_SE	__P((u_int va));
 1.1   reinoud
 1.1   reinoud void	sa110_cache_flushID	__P((void));
 1.1   reinoud void	sa110_cache_flushI	__P((void));
 1.1   reinoud void	sa110_cache_flushD	__P((void));
 1.1   reinoud void	sa110_cache_flushD_SE	__P((u_int entry));
 1.1   reinoud
 1.1   reinoud void	sa110_cache_cleanID	__P((void));
 1.1   reinoud void	sa110_cache_cleanD	__P((void));
 1.1   reinoud void	sa110_cache_cleanD_E	__P((u_int entry));
 1.1   reinoud
 1.1   reinoud void	sa110_cache_purgeID	__P((void));
 1.1   reinoud void	sa110_cache_purgeID_E	__P((u_int entry));
 1.1   reinoud void	sa110_cache_purgeD	__P((void));
 1.1   reinoud void	sa110_cache_purgeD_E	__P((u_int entry));
 1.1   reinoud
 1.1   reinoud void	sa110_cache_syncI	__P((void));
 1.1   reinoud void	sa110_cache_cleanID_rng	__P((u_int start, u_int end));
 1.1   reinoud void	sa110_cache_cleanD_rng	__P((u_int start, u_int end));
 1.1   reinoud void	sa110_cache_purgeID_rng	__P((u_int start, u_int end));
 1.1   reinoud void	sa110_cache_purgeD_rng	__P((u_int start, u_int end));
 1.1   reinoud void	sa110_cache_syncI_rng	__P((u_int start, u_int end));
 1.1   reinoud
 1.1   reinoud void	sa110_context_switch	__P((void));
 1.1   reinoud
 1.1   reinoud void	sa110_setup		__P((char *string));
 1.1   reinoud #endif	/* CPU_SA110 */
 1.1   reinoud
 1.8      matt #ifdef CPU_XSCALE
1.12   thorpej void	xscale_cpwait		__P((void));
1.12   thorpej
1.11   thorpej u_int	xscale_control		__P((u_int clear, u_int bic));
1.11   thorpej
 1.8      matt void	xscale_setttb		__P((u_int ttb));
1.10  rearnsha
 1.8      matt void	xscale_tlb_flushID_SE	__P((u_int va));
 1.8      matt
 1.8      matt void	xscale_cache_flushID	__P((void));
 1.8      matt void	xscale_cache_flushI	__P((void));
 1.8      matt void	xscale_cache_flushD	__P((void));
 1.8      matt void	xscale_cache_flushD_SE	__P((u_int entry));
 1.8      matt
 1.8      matt void	xscale_cache_cleanID	__P((void));
 1.8      matt void	xscale_cache_cleanD	__P((void));
 1.8      matt void	xscale_cache_cleanD_E	__P((u_int entry));
 1.8      matt
 1.8      matt void	xscale_cache_purgeID	__P((void));
 1.8      matt void	xscale_cache_purgeID_E	__P((u_int entry));
 1.8      matt void	xscale_cache_purgeD	__P((void));
 1.8      matt void	xscale_cache_purgeD_E	__P((u_int entry));
 1.8      matt
 1.8      matt void	xscale_cache_syncI	__P((void));
 1.8      matt void	xscale_cache_cleanID_rng	__P((u_int start, u_int end));
 1.8      matt void	xscale_cache_cleanD_rng	__P((u_int start, u_int end));
 1.8      matt void	xscale_cache_purgeID_rng	__P((u_int start, u_int end));
 1.8      matt void	xscale_cache_purgeD_rng	__P((u_int start, u_int end));
 1.8      matt void	xscale_cache_syncI_rng	__P((u_int start, u_int end));
1.13   thorpej
1.13   thorpej /* Used in write-through mode. */
1.13   thorpej void	xscale_cache_flushID_rng __P((u_int start, u_int end));
1.13   thorpej void	xscale_cache_flushD_rng	__P((u_int start, u_int end));
1.13   thorpej void	xscale_cache_flushI_rng	__P((u_int start, u_int end));
 1.8      matt
 1.8      matt void	xscale_context_switch	__P((void));
 1.8      matt
 1.8      matt void	xscale_setup		__P((char *string));
 1.8      matt #endif	/* CPU_XSCALE */
 1.8      matt
 1.1   reinoud #define tlb_flush	cpu_tlb_flushID
 1.1   reinoud #define setttb		cpu_setttb
 1.1   reinoud #define cache_clean	cpu_cache_purgeID
 1.1   reinoud #define sync_caches	cpu_cache_syncI
 1.1   reinoud #define sync_icache	cpu_cache_syncI
 1.1   reinoud #define drain_writebuf	cpu_drain_writebuf
 1.1   reinoud
 1.1   reinoud /*
 1.1   reinoud  * Macros for manipulating CPU interrupts
 1.1   reinoud  */
 1.1   reinoud
 1.1   reinoud #define disable_interrupts(mask) \
 1.1   reinoud 	(SetCPSR((mask) & (I32_bit | F32_bit), (mask) & (I32_bit | F32_bit)))
 1.1   reinoud
 1.1   reinoud #define enable_interrupts(mask) \
 1.1   reinoud 	(SetCPSR((mask) & (I32_bit | F32_bit), 0))
 1.1   reinoud
 1.1   reinoud #define restore_interrupts(old_cpsr) \
 1.1   reinoud 	(SetCPSR((I32_bit | F32_bit), (old_cpsr) & (I32_bit | F32_bit)))
 1.1   reinoud
 1.1   reinoud /*
 1.1   reinoud  * Functions to manipulate the CPSR
 1.8      matt  * (in arm/arm32/setcpsr.S)
 1.1   reinoud  */
 1.1   reinoud
 1.1   reinoud u_int SetCPSR		__P((u_int bic, u_int eor));
 1.1   reinoud u_int GetCPSR		__P((void));
 1.1   reinoud
 1.1   reinoud /*
 1.1   reinoud  * Functions to manipulate cpu r13
 1.8      matt  * (in arm/arm32/setstack.S)
 1.1   reinoud  */
 1.1   reinoud
 1.1   reinoud void set_stackptr	__P((u_int mode, u_int address));
 1.1   reinoud u_int get_stackptr	__P((u_int mode));
 1.6     bjh21
 1.6     bjh21 /*
 1.6     bjh21  * Miscellany
 1.6     bjh21  */
 1.6     bjh21
 1.9     bjh21 int get_pc_str_offset	__P((void));
 1.1   reinoud
 1.1   reinoud /*
 1.1   reinoud  * CPU functions from locore.S
 1.1   reinoud  */
 1.1   reinoud
 1.1   reinoud void cpu_reset		__P((void)) __attribute__((__noreturn__));
1.14   thorpej
1.14   thorpej /*
1.14   thorpej  * Cache info variables.
1.14   thorpej  */
1.14   thorpej
1.14   thorpej /* PRIMARY CACHE VARIABLES */
1.14   thorpej int	arm_picache_size;
1.14   thorpej int	arm_picache_line_size;
1.14   thorpej int	arm_picache_ways;
1.14   thorpej
1.14   thorpej int	arm_pdcache_size;	/* and unified */
1.14   thorpej int	arm_pdcache_line_size;
1.14   thorpej int	arm_pdcache_ways;
1.14   thorpej
1.14   thorpej int	arm_pcache_type;
1.14   thorpej int	arm_pcache_unified;
1.14   thorpej
1.14   thorpej int	arm_dcache_align;
1.14   thorpej int	arm_dcache_align_mask;
 1.1   reinoud
 1.1   reinoud #endif	/* _KERNEL */
 1.1   reinoud #endif	/* _ARM32_CPUFUNC_H_ */
 1.1   reinoud
 1.1   reinoud /* End of cpufunc.h */