include/arm32/pmap.h

1.137.2.6     skrll /*	$NetBSD: pmap.h,v 1.137.2.6 2017/08/28 17:51:31 skrll Exp $	*/
     1.46   thorpej
     1.46   thorpej /*
     1.65       scw  * Copyright (c) 2002, 2003 Wasabi Systems, Inc.
     1.46   thorpej  * All rights reserved.
     1.46   thorpej  *
     1.65       scw  * Written by Jason R. Thorpe & Steve C. Woodford for Wasabi Systems, Inc.
     1.46   thorpej  *
     1.46   thorpej  * Redistribution and use in source and binary forms, with or without
     1.46   thorpej  * modification, are permitted provided that the following conditions
     1.46   thorpej  * are met:
     1.46   thorpej  * 1. Redistributions of source code must retain the above copyright
     1.46   thorpej  *    notice, this list of conditions and the following disclaimer.
     1.46   thorpej  * 2. Redistributions in binary form must reproduce the above copyright
     1.46   thorpej  *    notice, this list of conditions and the following disclaimer in the
     1.46   thorpej  *    documentation and/or other materials provided with the distribution.
     1.46   thorpej  * 3. All advertising materials mentioning features or use of this software
     1.46   thorpej  *    must display the following acknowledgement:
     1.46   thorpej  *	This product includes software developed for the NetBSD Project by
     1.46   thorpej  *	Wasabi Systems, Inc.
     1.46   thorpej  * 4. The name of Wasabi Systems, Inc. may not be used to endorse
     1.46   thorpej  *    or promote products derived from this software without specific prior
     1.46   thorpej  *    written permission.
     1.46   thorpej  *
     1.46   thorpej  * THIS SOFTWARE IS PROVIDED BY WASABI SYSTEMS, INC. ``AS IS'' AND
     1.46   thorpej  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
     1.46   thorpej  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
     1.46   thorpej  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL WASABI SYSTEMS, INC
     1.46   thorpej  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
     1.46   thorpej  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
     1.46   thorpej  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
     1.46   thorpej  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
     1.46   thorpej  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
     1.46   thorpej  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
     1.46   thorpej  * POSSIBILITY OF SUCH DAMAGE.
     1.46   thorpej  */
      1.1   reinoud
      1.1   reinoud /*
      1.1   reinoud  * Copyright (c) 1994,1995 Mark Brinicombe.
      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 Mark Brinicombe
      1.1   reinoud  * 4. The name of the author may not be used to endorse or promote products
      1.1   reinoud  *    derived from this software without specific prior written permission.
      1.1   reinoud  *
      1.1   reinoud  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
      1.1   reinoud  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
      1.1   reinoud  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
      1.1   reinoud  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
      1.1   reinoud  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
      1.1   reinoud  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
      1.1   reinoud  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
      1.1   reinoud  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
      1.1   reinoud  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
      1.1   reinoud  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
      1.1   reinoud  */
      1.1   reinoud
      1.1   reinoud #ifndef	_ARM32_PMAP_H_
      1.1   reinoud #define	_ARM32_PMAP_H_
      1.1   reinoud
     1.18   thorpej #ifdef _KERNEL
     1.18   thorpej
     1.52   thorpej #include <arm/cpuconf.h>
     1.75       bsh #include <arm/arm32/pte.h>
     1.75       bsh #ifndef _LOCORE
     1.85      matt #if defined(_KERNEL_OPT)
     1.85      matt #include "opt_arm32_pmap.h"
    1.136     skrll #include "opt_multiprocessor.h"
     1.85      matt #endif
     1.19   thorpej #include <arm/cpufunc.h>
1.137.2.1     skrll #include <arm/locore.h>
     1.12     chris #include <uvm/uvm_object.h>
1.137.2.4     skrll #include <uvm/pmap/pmap_pvt.h>
     1.75       bsh #endif
      1.1   reinoud
    1.124      matt #ifdef ARM_MMU_EXTENDED
1.137.2.6     skrll #define PMAP_HWPAGEWALKER		1
    1.124      matt #define PMAP_TLB_MAX			1
    1.126      matt #if PMAP_TLB_MAX > 1
1.137.2.5     skrll #define PMAP_TLB_NEED_SHOOTDOWN		1
    1.126      matt #endif
    1.126      matt #define PMAP_TLB_FLUSH_ASID_ON_RESET	(arm_has_tlbiasid_p)
    1.124      matt #define PMAP_TLB_NUM_PIDS		256
    1.124      matt #define cpu_set_tlb_info(ci, ti)        ((void)((ci)->ci_tlb_info = (ti)))
    1.124      matt #if PMAP_TLB_MAX > 1
    1.124      matt #define cpu_tlb_info(ci)		((ci)->ci_tlb_info)
    1.124      matt #else
    1.124      matt #define cpu_tlb_info(ci)		(&pmap_tlb0_info)
    1.124      matt #endif
    1.124      matt #define pmap_md_tlb_asid_max()		(PMAP_TLB_NUM_PIDS - 1)
    1.124      matt #include <uvm/pmap/tlb.h>
    1.124      matt #include <uvm/pmap/pmap_tlb.h>
    1.124      matt
    1.135     skrll /*
    1.124      matt  * If we have an EXTENDED MMU and the address space is split evenly between
    1.124      matt  * user and kernel, we can use the TTBR0/TTBR1 to have separate L1 tables for
    1.124      matt  * user and kernel address spaces.
    1.135     skrll  */
    1.128      matt #if (KERNEL_BASE & 0x80000000) == 0
    1.128      matt #error ARMv6 or later systems must have a KERNEL_BASE >= 0x80000000
    1.135     skrll #endif
    1.124      matt #endif  /* ARM_MMU_EXTENDED */
    1.124      matt
      1.1   reinoud /*
     1.11     chris  * a pmap describes a processes' 4GB virtual address space.  this
     1.11     chris  * virtual address space can be broken up into 4096 1MB regions which
     1.38   thorpej  * are described by L1 PTEs in the L1 table.
     1.11     chris  *
     1.38   thorpej  * There is a line drawn at KERNEL_BASE.  Everything below that line
     1.38   thorpej  * changes when the VM context is switched.  Everything above that line
     1.38   thorpej  * is the same no matter which VM context is running.  This is achieved
     1.38   thorpej  * by making the L1 PTEs for those slots above KERNEL_BASE reference
     1.38   thorpej  * kernel L2 tables.
     1.11     chris  *
     1.38   thorpej  * The basic layout of the virtual address space thus looks like this:
     1.38   thorpej  *
     1.38   thorpej  *	0xffffffff
     1.38   thorpej  *	.
     1.38   thorpej  *	.
     1.38   thorpej  *	.
     1.38   thorpej  *	KERNEL_BASE
     1.38   thorpej  *	--------------------
     1.38   thorpej  *	.
     1.38   thorpej  *	.
     1.38   thorpej  *	.
     1.38   thorpej  *	0x00000000
     1.11     chris  */
     1.11     chris
     1.65       scw /*
     1.65       scw  * The number of L2 descriptor tables which can be tracked by an l2_dtable.
     1.65       scw  * A bucket size of 16 provides for 16MB of contiguous virtual address
     1.65       scw  * space per l2_dtable. Most processes will, therefore, require only two or
     1.65       scw  * three of these to map their whole working set.
     1.65       scw  */
    1.124      matt #define	L2_BUCKET_XLOG2	(L1_S_SHIFT)
    1.124      matt #define L2_BUCKET_XSIZE	(1 << L2_BUCKET_XLOG2)
     1.65       scw #define	L2_BUCKET_LOG2	4
     1.65       scw #define	L2_BUCKET_SIZE	(1 << L2_BUCKET_LOG2)
     1.65       scw
     1.65       scw /*
     1.65       scw  * Given the above "L2-descriptors-per-l2_dtable" constant, the number
     1.65       scw  * of l2_dtable structures required to track all possible page descriptors
     1.65       scw  * mappable by an L1 translation table is given by the following constants:
     1.65       scw  */
    1.124      matt #define	L2_LOG2		(32 - (L2_BUCKET_XLOG2 + L2_BUCKET_LOG2))
     1.65       scw #define	L2_SIZE		(1 << L2_LOG2)
     1.65       scw
     1.90      matt /*
     1.90      matt  * tell MI code that the cache is virtually-indexed.
     1.90      matt  * ARMv6 is physically-tagged but all others are virtually-tagged.
     1.90      matt  */
     1.95  jmcneill #if (ARM_MMU_V6 + ARM_MMU_V7) > 0
     1.90      matt #define PMAP_CACHE_VIPT
     1.90      matt #else
     1.90      matt #define PMAP_CACHE_VIVT
     1.90      matt #endif
     1.90      matt
     1.75       bsh #ifndef _LOCORE
     1.75       bsh
1.137.2.6     skrll #ifndef ARM_MMU_EXTENDED
     1.65       scw struct l1_ttable;
     1.65       scw struct l2_dtable;
     1.65       scw
     1.65       scw /*
     1.65       scw  * Track cache/tlb occupancy using the following structure
     1.65       scw  */
     1.65       scw union pmap_cache_state {
     1.65       scw 	struct {
     1.65       scw 		union {
    1.115     skrll 			uint8_t csu_cache_b[2];
    1.115     skrll 			uint16_t csu_cache;
     1.65       scw 		} cs_cache_u;
     1.65       scw
     1.65       scw 		union {
    1.115     skrll 			uint8_t csu_tlb_b[2];
    1.115     skrll 			uint16_t csu_tlb;
     1.65       scw 		} cs_tlb_u;
     1.65       scw 	} cs_s;
    1.115     skrll 	uint32_t cs_all;
     1.65       scw };
     1.65       scw #define	cs_cache_id	cs_s.cs_cache_u.csu_cache_b[0]
     1.65       scw #define	cs_cache_d	cs_s.cs_cache_u.csu_cache_b[1]
     1.65       scw #define	cs_cache	cs_s.cs_cache_u.csu_cache
     1.65       scw #define	cs_tlb_id	cs_s.cs_tlb_u.csu_tlb_b[0]
     1.65       scw #define	cs_tlb_d	cs_s.cs_tlb_u.csu_tlb_b[1]
     1.65       scw #define	cs_tlb		cs_s.cs_tlb_u.csu_tlb
     1.65       scw
     1.65       scw /*
     1.65       scw  * Assigned to cs_all to force cacheops to work for a particular pmap
     1.65       scw  */
     1.65       scw #define	PMAP_CACHE_STATE_ALL	0xffffffffu
    1.124      matt #endif /* !ARM_MMU_EXTENDED */
     1.65       scw
     1.65       scw /*
     1.73   thorpej  * This structure is used by machine-dependent code to describe
     1.73   thorpej  * static mappings of devices, created at bootstrap time.
     1.73   thorpej  */
     1.73   thorpej struct pmap_devmap {
     1.73   thorpej 	vaddr_t		pd_va;		/* virtual address */
     1.73   thorpej 	paddr_t		pd_pa;		/* physical address */
     1.73   thorpej 	psize_t		pd_size;	/* size of region */
     1.73   thorpej 	vm_prot_t	pd_prot;	/* protection code */
     1.73   thorpej 	int		pd_cache;	/* cache attributes */
     1.73   thorpej };
     1.73   thorpej
     1.73   thorpej /*
     1.65       scw  * The pmap structure itself
     1.65       scw  */
     1.65       scw struct pmap {
    1.124      matt 	struct uvm_object	pm_obj;
    1.124      matt 	kmutex_t		pm_obj_lock;
    1.124      matt #define	pm_lock pm_obj.vmobjlock
    1.120      matt #ifndef ARM_HAS_VBAR
     1.82       scw 	pd_entry_t		*pm_pl1vec;
    1.124      matt 	pd_entry_t		pm_l1vec;
    1.120      matt #endif
     1.65       scw 	struct l2_dtable	*pm_l2[L2_SIZE];
     1.65       scw 	struct pmap_statistics	pm_stats;
     1.65       scw 	LIST_ENTRY(pmap)	pm_list;
    1.124      matt #ifdef ARM_MMU_EXTENDED
    1.124      matt 	pd_entry_t		*pm_l1;
    1.124      matt 	paddr_t			pm_l1_pa;
    1.124      matt 	bool			pm_remove_all;
    1.124      matt #ifdef MULTIPROCESSOR
    1.124      matt 	kcpuset_t		*pm_onproc;
    1.124      matt 	kcpuset_t		*pm_active;
    1.126      matt #if PMAP_TLB_MAX > 1
    1.126      matt 	u_int			pm_shootdown_pending;
    1.126      matt #endif
    1.124      matt #endif
    1.126      matt 	struct pmap_asid_info	pm_pai[PMAP_TLB_MAX];
    1.124      matt #else
    1.124      matt 	struct l1_ttable	*pm_l1;
    1.124      matt 	union pmap_cache_state	pm_cstate;
    1.124      matt 	uint8_t			pm_domain;
    1.124      matt 	bool			pm_activated;
    1.124      matt 	bool			pm_remove_all;
    1.124      matt #endif
    1.124      matt };
    1.124      matt
    1.124      matt struct pmap_kernel {
    1.124      matt 	struct pmap		kernel_pmap;
     1.65       scw };
     1.65       scw
    1.106    martin /*
    1.106    martin  * Physical / virtual address structure. In a number of places (particularly
    1.106    martin  * during bootstrapping) we need to keep track of the physical and virtual
    1.106    martin  * addresses of various pages
    1.106    martin  */
    1.106    martin typedef struct pv_addr {
    1.106    martin 	SLIST_ENTRY(pv_addr) pv_list;
    1.106    martin 	paddr_t pv_pa;
    1.106    martin 	vaddr_t pv_va;
    1.106    martin 	vsize_t pv_size;
    1.106    martin 	uint8_t pv_cache;
    1.106    martin 	uint8_t pv_prot;
    1.106    martin } pv_addr_t;
    1.106    martin typedef SLIST_HEAD(, pv_addr) pv_addrqh_t;
    1.106    martin
     1.85      matt extern pv_addrqh_t pmap_freeq;
    1.102      matt extern pv_addr_t kernelstack;
    1.102      matt extern pv_addr_t abtstack;
    1.102      matt extern pv_addr_t fiqstack;
    1.102      matt extern pv_addr_t irqstack;
    1.102      matt extern pv_addr_t undstack;
    1.103      matt extern pv_addr_t idlestack;
     1.85      matt extern pv_addr_t systempage;
     1.85      matt extern pv_addr_t kernel_l1pt;
      1.1   reinoud
    1.126      matt #ifdef ARM_MMU_EXTENDED
    1.126      matt extern bool arm_has_tlbiasid_p;	/* also in <arm/locore.h> */
    1.126      matt #endif
    1.126      matt
      1.1   reinoud /*
     1.24   thorpej  * Determine various modes for PTEs (user vs. kernel, cacheable
     1.24   thorpej  * vs. non-cacheable).
     1.24   thorpej  */
     1.24   thorpej #define	PTE_KERNEL	0
     1.24   thorpej #define	PTE_USER	1
     1.24   thorpej #define	PTE_NOCACHE	0
     1.24   thorpej #define	PTE_CACHE	1
     1.65       scw #define	PTE_PAGETABLE	2
     1.24   thorpej
     1.24   thorpej /*
     1.43   thorpej  * Flags that indicate attributes of pages or mappings of pages.
     1.43   thorpej  *
     1.43   thorpej  * The PVF_MOD and PVF_REF flags are stored in the mdpage for each
     1.43   thorpej  * page.  PVF_WIRED, PVF_WRITE, and PVF_NC are kept in individual
     1.43   thorpej  * pv_entry's for each page.  They live in the same "namespace" so
     1.43   thorpej  * that we can clear multiple attributes at a time.
     1.43   thorpej  *
     1.43   thorpej  * Note the "non-cacheable" flag generally means the page has
     1.43   thorpej  * multiple mappings in a given address space.
     1.43   thorpej  */
     1.43   thorpej #define	PVF_MOD		0x01		/* page is modified */
     1.43   thorpej #define	PVF_REF		0x02		/* page is referenced */
     1.43   thorpej #define	PVF_WIRED	0x04		/* mapping is wired */
     1.43   thorpej #define	PVF_WRITE	0x08		/* mapping is writable */
     1.56   thorpej #define	PVF_EXEC	0x10		/* mapping is executable */
     1.90      matt #ifdef PMAP_CACHE_VIVT
     1.65       scw #define	PVF_UNC		0x20		/* mapping is 'user' non-cacheable */
     1.65       scw #define	PVF_KNC		0x40		/* mapping is 'kernel' non-cacheable */
     1.90      matt #define	PVF_NC		(PVF_UNC|PVF_KNC)
     1.90      matt #endif
     1.90      matt #ifdef PMAP_CACHE_VIPT
     1.90      matt #define	PVF_NC		0x20		/* mapping is 'kernel' non-cacheable */
     1.90      matt #define	PVF_MULTCLR	0x40		/* mapping is multi-colored */
     1.90      matt #endif
     1.85      matt #define	PVF_COLORED	0x80		/* page has or had a color */
     1.85      matt #define	PVF_KENTRY	0x0100		/* page entered via pmap_kenter_pa */
     1.86      matt #define	PVF_KMPAGE	0x0200		/* page is used for kmem */
     1.87      matt #define	PVF_DIRTY	0x0400		/* page may have dirty cache lines */
     1.88      matt #define	PVF_KMOD	0x0800		/* unmanaged page is modified  */
     1.88      matt #define	PVF_KWRITE	(PVF_KENTRY|PVF_WRITE)
     1.88      matt #define	PVF_DMOD	(PVF_MOD|PVF_KMOD|PVF_KMPAGE)
     1.43   thorpej
     1.43   thorpej /*
      1.1   reinoud  * Commonly referenced structures
      1.1   reinoud  */
      1.4      matt extern int		pmap_debug_level; /* Only exists if PMAP_DEBUG */
    1.113      matt extern int		arm_poolpage_vmfreelist;
      1.1   reinoud
      1.1   reinoud /*
      1.1   reinoud  * Macros that we need to export
      1.1   reinoud  */
      1.1   reinoud #define	pmap_resident_count(pmap)	((pmap)->pm_stats.resident_count)
      1.1   reinoud #define	pmap_wired_count(pmap)		((pmap)->pm_stats.wired_count)
     1.31   thorpej
     1.43   thorpej #define	pmap_is_modified(pg)	\
     1.43   thorpej 	(((pg)->mdpage.pvh_attrs & PVF_MOD) != 0)
     1.43   thorpej #define	pmap_is_referenced(pg)	\
     1.43   thorpej 	(((pg)->mdpage.pvh_attrs & PVF_REF) != 0)
     1.96  uebayasi #define	pmap_is_page_colored_p(md)	\
     1.96  uebayasi 	(((md)->pvh_attrs & PVF_COLORED) != 0)
     1.41   thorpej
     1.41   thorpej #define	pmap_copy(dp, sp, da, l, sa)	/* nothing */
     1.60       chs
     1.35   thorpej #define pmap_phys_address(ppn)		(arm_ptob((ppn)))
     1.98  macallan u_int arm32_mmap_flags(paddr_t);
    1.137     skrll #define ARM32_MMAP_WRITECOMBINE		0x40000000
     1.98  macallan #define ARM32_MMAP_CACHEABLE		0x20000000
    1.137     skrll #define pmap_mmap_flags(ppn)		arm32_mmap_flags(ppn)
      1.1   reinoud
    1.123      matt #define	PMAP_PTE			0x10000000 /* kenter_pa */
    1.123      matt
      1.1   reinoud /*
      1.1   reinoud  * Functions that we need to export
      1.1   reinoud  */
     1.39   thorpej void	pmap_procwr(struct proc *, vaddr_t, int);
     1.65       scw void	pmap_remove_all(pmap_t);
     1.80   thorpej bool	pmap_extract(pmap_t, vaddr_t, paddr_t *);
     1.39   thorpej
      1.1   reinoud #define	PMAP_NEED_PROCWR
     1.29     chris #define PMAP_GROWKERNEL		/* turn on pmap_growkernel interface */
     1.92   thorpej #define	PMAP_ENABLE_PMAP_KMPAGE	/* enable the PMAP_KMPAGE flag */
      1.4      matt
     1.95  jmcneill #if (ARM_MMU_V6 + ARM_MMU_V7) > 0
     1.85      matt #define	PMAP_PREFER(hint, vap, sz, td)	pmap_prefer((hint), (vap), (td))
     1.85      matt void	pmap_prefer(vaddr_t, vaddr_t *, int);
     1.85      matt #endif
     1.85      matt
     1.85      matt void	pmap_icache_sync_range(pmap_t, vaddr_t, vaddr_t);
     1.85      matt
     1.39   thorpej /* Functions we use internally. */
     1.85      matt #ifdef PMAP_STEAL_MEMORY
     1.85      matt void	pmap_boot_pagealloc(psize_t, psize_t, psize_t, pv_addr_t *);
     1.85      matt void	pmap_boot_pageadd(pv_addr_t *);
     1.85      matt vaddr_t	pmap_steal_memory(vsize_t, vaddr_t *, vaddr_t *);
     1.85      matt #endif
     1.85      matt void	pmap_bootstrap(vaddr_t, vaddr_t);
     1.65       scw
     1.78       scw void	pmap_do_remove(pmap_t, vaddr_t, vaddr_t, int);
     1.70       scw int	pmap_fault_fixup(pmap_t, vaddr_t, vm_prot_t, int);
    1.124      matt int	pmap_prefetchabt_fixup(void *);
     1.80   thorpej bool	pmap_get_pde_pte(pmap_t, vaddr_t, pd_entry_t **, pt_entry_t **);
     1.80   thorpej bool	pmap_get_pde(pmap_t, vaddr_t, pd_entry_t **);
    1.122      matt struct pcb;
     1.65       scw void	pmap_set_pcb_pagedir(pmap_t, struct pcb *);
     1.65       scw
     1.65       scw void	pmap_debug(int);
     1.39   thorpej void	pmap_postinit(void);
     1.42   thorpej
     1.42   thorpej void	vector_page_setprot(int);
     1.24   thorpej
     1.73   thorpej const struct pmap_devmap *pmap_devmap_find_pa(paddr_t, psize_t);
     1.73   thorpej const struct pmap_devmap *pmap_devmap_find_va(vaddr_t, vsize_t);
     1.73   thorpej
     1.24   thorpej /* Bootstrapping routines. */
     1.24   thorpej void	pmap_map_section(vaddr_t, vaddr_t, paddr_t, int, int);
     1.25   thorpej void	pmap_map_entry(vaddr_t, vaddr_t, paddr_t, int, int);
     1.28   thorpej vsize_t	pmap_map_chunk(vaddr_t, vaddr_t, paddr_t, vsize_t, int, int);
     1.28   thorpej void	pmap_link_l2pt(vaddr_t, vaddr_t, pv_addr_t *);
     1.73   thorpej void	pmap_devmap_bootstrap(vaddr_t, const struct pmap_devmap *);
     1.74   thorpej void	pmap_devmap_register(const struct pmap_devmap *);
     1.13     chris
     1.13     chris /*
    1.135     skrll  * Special page zero routine for use by the idle loop (no cache cleans).
     1.13     chris  */
     1.80   thorpej bool	pmap_pageidlezero(paddr_t);
     1.13     chris #define PMAP_PAGEIDLEZERO(pa)	pmap_pageidlezero((pa))
      1.1   reinoud
    1.131      matt #ifdef __HAVE_MM_MD_DIRECT_MAPPED_PHYS
    1.131      matt /*
    1.131      matt  * For the pmap, this is a more useful way to map a direct mapped page.
    1.131      matt  * It returns either the direct-mapped VA or the VA supplied if it can't
    1.131      matt  * be direct mapped.
    1.131      matt  */
    1.131      matt vaddr_t	pmap_direct_mapped_phys(paddr_t, bool *, vaddr_t);
    1.131      matt #endif
    1.131      matt
     1.29     chris /*
     1.84     chris  * used by dumpsys to record the PA of the L1 table
     1.84     chris  */
     1.84     chris uint32_t pmap_kernel_L1_addr(void);
     1.84     chris /*
     1.29     chris  * The current top of kernel VM
     1.29     chris  */
     1.29     chris extern vaddr_t	pmap_curmaxkvaddr;
      1.1   reinoud
    1.131      matt #if defined(ARM_MMU_EXTENDED) && defined(__HAVE_MM_MD_DIRECT_MAPPED_PHYS)
    1.131      matt /*
1.137.2.2     skrll  * Ending VA of direct mapped memory (usually KERNEL_VM_BASE).
    1.131      matt  */
1.137.2.2     skrll extern vaddr_t pmap_directlimit;
    1.131      matt #endif
    1.131      matt
      1.1   reinoud /*
    1.135     skrll  * Useful macros and constants
      1.1   reinoud  */
     1.59   thorpej
     1.65       scw /* Virtual address to page table entry */
     1.79     perry static inline pt_entry_t *
     1.65       scw vtopte(vaddr_t va)
     1.65       scw {
     1.65       scw 	pd_entry_t *pdep;
     1.65       scw 	pt_entry_t *ptep;
     1.65       scw
    1.124      matt 	KASSERT(trunc_page(va) == va);
    1.124      matt
     1.81   thorpej 	if (pmap_get_pde_pte(pmap_kernel(), va, &pdep, &ptep) == false)
     1.65       scw 		return (NULL);
     1.65       scw 	return (ptep);
     1.65       scw }
     1.65       scw
     1.65       scw /*
     1.65       scw  * Virtual address to physical address
     1.65       scw  */
     1.79     perry static inline paddr_t
     1.65       scw vtophys(vaddr_t va)
     1.65       scw {
     1.65       scw 	paddr_t pa;
     1.65       scw
     1.81   thorpej 	if (pmap_extract(pmap_kernel(), va, &pa) == false)
     1.65       scw 		return (0);	/* XXXSCW: Panic? */
     1.65       scw
     1.65       scw 	return (pa);
     1.65       scw }
     1.65       scw
     1.65       scw /*
     1.65       scw  * The new pmap ensures that page-tables are always mapping Write-Thru.
     1.65       scw  * Thus, on some platforms we can run fast and loose and avoid syncing PTEs
     1.65       scw  * on every change.
     1.65       scw  *
     1.69   thorpej  * Unfortunately, not all CPUs have a write-through cache mode.  So we
     1.69   thorpej  * define PMAP_NEEDS_PTE_SYNC for C code to conditionally do PTE syncs,
     1.69   thorpej  * and if there is the chance for PTE syncs to be needed, we define
     1.69   thorpej  * PMAP_INCLUDE_PTE_SYNC so e.g. assembly code can include (and run)
     1.69   thorpej  * the code.
     1.69   thorpej  */
     1.69   thorpej extern int pmap_needs_pte_sync;
     1.69   thorpej #if defined(_KERNEL_OPT)
     1.69   thorpej /*
1.137.2.6     skrll  * Perform compile time evaluation of PMAP_NEEDS_PTE_SYNC when only a
1.137.2.6     skrll  * single MMU type is selected.
1.137.2.6     skrll  *
     1.69   thorpej  * StrongARM SA-1 caches do not have a write-through mode.  So, on these,
1.137.2.6     skrll  * we need to do PTE syncs. Additionally, V6 MMUs also need PTE syncs.
1.137.2.6     skrll  * Finally, MEMC, GENERIC and XSCALE MMUs do not need PTE syncs.
1.137.2.6     skrll  *
1.137.2.6     skrll  * Use run time evaluation for all other cases.
1.137.2.6     skrll  *
     1.69   thorpej  */
1.137.2.6     skrll #if (ARM_NMMUS == 1)
1.137.2.6     skrll #if (ARM_MMU_SA1 + ARM_MMU_V6 != 0)
    1.104      matt #define	PMAP_INCLUDE_PTE_SYNC
    1.109      matt #define	PMAP_NEEDS_PTE_SYNC	1
1.137.2.6     skrll #elif (ARM_MMU_MEMC + ARM_MMU_GENERIC + ARM_MMU_XSCALE != 0)
     1.69   thorpej #define	PMAP_NEEDS_PTE_SYNC	0
     1.69   thorpej #endif
    1.112      matt #endif
     1.69   thorpej #endif /* _KERNEL_OPT */
     1.69   thorpej
     1.69   thorpej /*
     1.69   thorpej  * Provide a fallback in case we were not able to determine it at
     1.69   thorpej  * compile-time.
     1.65       scw  */
     1.69   thorpej #ifndef PMAP_NEEDS_PTE_SYNC
     1.69   thorpej #define	PMAP_NEEDS_PTE_SYNC	pmap_needs_pte_sync
     1.69   thorpej #define	PMAP_INCLUDE_PTE_SYNC
     1.69   thorpej #endif
     1.65       scw
    1.104      matt static inline void
    1.104      matt pmap_ptesync(pt_entry_t *ptep, size_t cnt)
    1.104      matt {
    1.132      matt 	if (PMAP_NEEDS_PTE_SYNC) {
    1.104      matt 		cpu_dcache_wb_range((vaddr_t)ptep, cnt * sizeof(pt_entry_t));
    1.132      matt #ifdef SHEEVA_L2_CACHE
    1.132      matt 		cpu_sdcache_wb_range((vaddr_t)ptep, -1,
    1.132      matt 		    cnt * sizeof(pt_entry_t));
    1.132      matt #endif
    1.132      matt 	}
1.137.2.1     skrll 	arm_dsb();
    1.104      matt }
     1.69   thorpej
    1.124      matt #define	PDE_SYNC(pdep)			pmap_ptesync((pdep), 1)
    1.124      matt #define	PDE_SYNC_RANGE(pdep, cnt)	pmap_ptesync((pdep), (cnt))
    1.124      matt #define	PTE_SYNC(ptep)			pmap_ptesync((ptep), PAGE_SIZE / L2_S_SIZE)
    1.104      matt #define	PTE_SYNC_RANGE(ptep, cnt)	pmap_ptesync((ptep), (cnt))
     1.65       scw
    1.124      matt #define l1pte_valid_p(pde)	((pde) != 0)
    1.124      matt #define l1pte_section_p(pde)	(((pde) & L1_TYPE_MASK) == L1_TYPE_S)
    1.124      matt #define l1pte_supersection_p(pde) (l1pte_section_p(pde)	\
    1.104      matt 				&& ((pde) & L1_S_V6_SUPER) != 0)
    1.124      matt #define l1pte_page_p(pde)	(((pde) & L1_TYPE_MASK) == L1_TYPE_C)
    1.124      matt #define l1pte_fpage_p(pde)	(((pde) & L1_TYPE_MASK) == L1_TYPE_F)
    1.124      matt #define l1pte_pa(pde)		((pde) & L1_C_ADDR_MASK)
    1.124      matt #define l1pte_index(v)		((vaddr_t)(v) >> L1_S_SHIFT)
    1.124      matt #define l1pte_pgindex(v)	l1pte_index((v) & L1_ADDR_BITS \
    1.124      matt 		& ~(PAGE_SIZE * PAGE_SIZE / sizeof(pt_entry_t) - 1))
    1.124      matt
    1.124      matt static inline void
    1.124      matt l1pte_setone(pt_entry_t *pdep, pt_entry_t pde)
    1.124      matt {
    1.124      matt 	*pdep = pde;
    1.124      matt }
     1.36   thorpej
    1.124      matt static inline void
    1.124      matt l1pte_set(pt_entry_t *pdep, pt_entry_t pde)
    1.124      matt {
    1.124      matt 	*pdep = pde;
    1.124      matt 	if (l1pte_page_p(pde)) {
    1.124      matt 		KASSERTMSG((((uintptr_t)pdep / sizeof(pde)) & (PAGE_SIZE / L2_T_SIZE - 1)) == 0, "%p", pdep);
    1.124      matt 		for (size_t k = 1; k < PAGE_SIZE / L2_T_SIZE; k++) {
    1.124      matt 			pde += L2_T_SIZE;
    1.124      matt 			pdep[k] = pde;
    1.124      matt 		}
    1.124      matt 	} else if (l1pte_supersection_p(pde)) {
    1.124      matt 		KASSERTMSG((((uintptr_t)pdep / sizeof(pde)) & (L1_SS_SIZE / L1_S_SIZE - 1)) == 0, "%p", pdep);
    1.124      matt 		for (size_t k = 1; k < L1_SS_SIZE / L1_S_SIZE; k++) {
    1.124      matt 			pdep[k] = pde;
    1.124      matt 		}
    1.124      matt 	}
    1.124      matt }
    1.124      matt
    1.124      matt #define l2pte_index(v)		((((v) & L2_ADDR_BITS) >> PGSHIFT) << (PGSHIFT-L2_S_SHIFT))
    1.124      matt #define l2pte_valid_p(pte)	(((pte) & L2_TYPE_MASK) != L2_TYPE_INV)
    1.124      matt #define l2pte_pa(pte)		((pte) & L2_S_FRAME)
    1.124      matt #define l1pte_lpage_p(pte)	(((pte) & L2_TYPE_MASK) == L2_TYPE_L)
    1.124      matt #define l2pte_minidata_p(pte)	(((pte) & \
     1.85      matt 				 (L2_B | L2_C | L2_XS_T_TEX(TEX_XSCALE_X)))\
     1.85      matt 				 == (L2_C | L2_XS_T_TEX(TEX_XSCALE_X)))
     1.35   thorpej
    1.121      matt static inline void
    1.121      matt l2pte_set(pt_entry_t *ptep, pt_entry_t pte, pt_entry_t opte)
    1.121      matt {
    1.129     skrll 	if (l1pte_lpage_p(pte)) {
1.137.2.2     skrll 		KASSERTMSG((((uintptr_t)ptep / sizeof(pte)) & (L2_L_SIZE / L2_S_SIZE - 1)) == 0, "%p", ptep);
    1.129     skrll 		for (size_t k = 0; k < L2_L_SIZE / L2_S_SIZE; k++) {
    1.129     skrll 			*ptep++ = pte;
    1.129     skrll 		}
    1.129     skrll 	} else {
1.137.2.2     skrll 		KASSERTMSG((((uintptr_t)ptep / sizeof(pte)) & (PAGE_SIZE / L2_S_SIZE - 1)) == 0, "%p", ptep);
    1.129     skrll 		for (size_t k = 0; k < PAGE_SIZE / L2_S_SIZE; k++) {
    1.129     skrll 			KASSERTMSG(*ptep == opte, "%#x [*%p] != %#x", *ptep, ptep, opte);
    1.129     skrll 			*ptep++ = pte;
    1.129     skrll 			pte += L2_S_SIZE;
    1.129     skrll 			if (opte)
    1.129     skrll 				opte += L2_S_SIZE;
    1.129     skrll 		}
    1.121      matt 	}
    1.129     skrll }
    1.121      matt
    1.121      matt static inline void
    1.121      matt l2pte_reset(pt_entry_t *ptep)
    1.121      matt {
1.137.2.2     skrll 	KASSERTMSG((((uintptr_t)ptep / sizeof(*ptep)) & (PAGE_SIZE / L2_S_SIZE - 1)) == 0, "%p", ptep);
    1.121      matt 	*ptep = 0;
    1.121      matt 	for (vsize_t k = 1; k < PAGE_SIZE / L2_S_SIZE; k++) {
    1.121      matt 		ptep[k] = 0;
    1.121      matt 	}
    1.135     skrll }
    1.121      matt
      1.1   reinoud /* L1 and L2 page table macros */
     1.36   thorpej #define pmap_pde_v(pde)		l1pte_valid(*(pde))
     1.36   thorpej #define pmap_pde_section(pde)	l1pte_section_p(*(pde))
    1.107      matt #define pmap_pde_supersection(pde)	l1pte_supersection_p(*(pde))
     1.36   thorpej #define pmap_pde_page(pde)	l1pte_page_p(*(pde))
     1.36   thorpej #define pmap_pde_fpage(pde)	l1pte_fpage_p(*(pde))
     1.16  rearnsha
    1.124      matt #define	pmap_pte_v(pte)		l2pte_valid_p(*(pte))
     1.36   thorpej #define	pmap_pte_pa(pte)	l2pte_pa(*(pte))
     1.35   thorpej
      1.1   reinoud /* Size of the kernel part of the L1 page table */
      1.1   reinoud #define KERNEL_PD_SIZE	\
     1.44   thorpej 	(L1_TABLE_SIZE - (KERNEL_BASE >> L1_S_SHIFT) * sizeof(pd_entry_t))
     1.20       chs
    1.117      matt void	bzero_page(vaddr_t);
    1.117      matt void	bcopy_page(vaddr_t, vaddr_t);
     1.46   thorpej
    1.116      matt #ifdef FPU_VFP
    1.117      matt void	bzero_page_vfp(vaddr_t);
    1.117      matt void	bcopy_page_vfp(vaddr_t, vaddr_t);
    1.116      matt #endif
    1.116      matt
    1.117      matt /************************* ARM MMU configuration *****************************/
    1.117      matt
     1.95  jmcneill #if (ARM_MMU_GENERIC + ARM_MMU_SA1 + ARM_MMU_V6 + ARM_MMU_V7) != 0
     1.51   thorpej void	pmap_copy_page_generic(paddr_t, paddr_t);
     1.51   thorpej void	pmap_zero_page_generic(paddr_t);
     1.51   thorpej
     1.46   thorpej void	pmap_pte_init_generic(void);
     1.69   thorpej #if defined(CPU_ARM8)
     1.69   thorpej void	pmap_pte_init_arm8(void);
     1.69   thorpej #endif
     1.46   thorpej #if defined(CPU_ARM9)
     1.46   thorpej void	pmap_pte_init_arm9(void);
     1.46   thorpej #endif /* CPU_ARM9 */
     1.76  rearnsha #if defined(CPU_ARM10)
     1.76  rearnsha void	pmap_pte_init_arm10(void);
     1.76  rearnsha #endif /* CPU_ARM10 */
    1.103      matt #if defined(CPU_ARM11)	/* ARM_MMU_V6 */
     1.94  uebayasi void	pmap_pte_init_arm11(void);
     1.94  uebayasi #endif /* CPU_ARM11 */
    1.103      matt #if defined(CPU_ARM11MPCORE)	/* ARM_MMU_V6 */
     1.99       bsh void	pmap_pte_init_arm11mpcore(void);
     1.99       bsh #endif
    1.103      matt #if ARM_MMU_V7 == 1
    1.103      matt void	pmap_pte_init_armv7(void);
    1.103      matt #endif /* ARM_MMU_V7 */
     1.69   thorpej #endif /* (ARM_MMU_GENERIC + ARM_MMU_SA1) != 0 */
     1.69   thorpej
     1.69   thorpej #if ARM_MMU_SA1 == 1
     1.69   thorpej void	pmap_pte_init_sa1(void);
     1.69   thorpej #endif /* ARM_MMU_SA1 == 1 */
     1.46   thorpej
     1.52   thorpej #if ARM_MMU_XSCALE == 1
     1.51   thorpej void	pmap_copy_page_xscale(paddr_t, paddr_t);
     1.51   thorpej void	pmap_zero_page_xscale(paddr_t);
     1.51   thorpej
     1.46   thorpej void	pmap_pte_init_xscale(void);
     1.50   thorpej
     1.50   thorpej void	xscale_setup_minidata(vaddr_t, vaddr_t, paddr_t);
     1.77       scw
     1.77       scw #define	PMAP_UAREA(va)		pmap_uarea(va)
     1.77       scw void	pmap_uarea(vaddr_t);
     1.52   thorpej #endif /* ARM_MMU_XSCALE == 1 */
     1.46   thorpej
     1.49   thorpej extern pt_entry_t		pte_l1_s_cache_mode;
     1.49   thorpej extern pt_entry_t		pte_l1_s_cache_mask;
     1.49   thorpej
     1.49   thorpej extern pt_entry_t		pte_l2_l_cache_mode;
     1.49   thorpej extern pt_entry_t		pte_l2_l_cache_mask;
     1.49   thorpej
     1.49   thorpej extern pt_entry_t		pte_l2_s_cache_mode;
     1.49   thorpej extern pt_entry_t		pte_l2_s_cache_mask;
     1.46   thorpej
     1.65       scw extern pt_entry_t		pte_l1_s_cache_mode_pt;
     1.65       scw extern pt_entry_t		pte_l2_l_cache_mode_pt;
     1.65       scw extern pt_entry_t		pte_l2_s_cache_mode_pt;
     1.65       scw
     1.98  macallan extern pt_entry_t		pte_l1_s_wc_mode;
     1.98  macallan extern pt_entry_t		pte_l2_l_wc_mode;
     1.98  macallan extern pt_entry_t		pte_l2_s_wc_mode;
     1.98  macallan
     1.95  jmcneill extern pt_entry_t		pte_l1_s_prot_u;
     1.95  jmcneill extern pt_entry_t		pte_l1_s_prot_w;
     1.95  jmcneill extern pt_entry_t		pte_l1_s_prot_ro;
     1.95  jmcneill extern pt_entry_t		pte_l1_s_prot_mask;
     1.95  jmcneill
     1.46   thorpej extern pt_entry_t		pte_l2_s_prot_u;
     1.46   thorpej extern pt_entry_t		pte_l2_s_prot_w;
     1.95  jmcneill extern pt_entry_t		pte_l2_s_prot_ro;
     1.46   thorpej extern pt_entry_t		pte_l2_s_prot_mask;
     1.95  jmcneill
     1.95  jmcneill extern pt_entry_t		pte_l2_l_prot_u;
     1.95  jmcneill extern pt_entry_t		pte_l2_l_prot_w;
     1.95  jmcneill extern pt_entry_t		pte_l2_l_prot_ro;
     1.95  jmcneill extern pt_entry_t		pte_l2_l_prot_mask;
     1.95  jmcneill
    1.103      matt extern pt_entry_t		pte_l1_ss_proto;
     1.46   thorpej extern pt_entry_t		pte_l1_s_proto;
     1.46   thorpej extern pt_entry_t		pte_l1_c_proto;
     1.46   thorpej extern pt_entry_t		pte_l2_s_proto;
     1.46   thorpej
     1.51   thorpej extern void (*pmap_copy_page_func)(paddr_t, paddr_t);
     1.51   thorpej extern void (*pmap_zero_page_func)(paddr_t);
     1.75       bsh
     1.75       bsh #endif /* !_LOCORE */
     1.51   thorpej
     1.46   thorpej /*****************************************************************************/
     1.46   thorpej
    1.124      matt #define	KERNEL_PID		0	/* The kernel uses ASID 0 */
    1.124      matt
     1.20       chs /*
     1.65       scw  * Definitions for MMU domains
     1.65       scw  */
    1.103      matt #define	PMAP_DOMAINS		15	/* 15 'user' domains (1-15) */
    1.124      matt #define	PMAP_DOMAIN_KERNEL	0	/* The kernel pmap uses domain #0 */
    1.124      matt #ifdef ARM_MMU_EXTENDED
    1.124      matt #define	PMAP_DOMAIN_USER	1	/* User pmaps use domain #1 */
    1.124      matt #endif
     1.45   thorpej
     1.45   thorpej /*
     1.45   thorpej  * These macros define the various bit masks in the PTE.
     1.45   thorpej  *
     1.45   thorpej  * We use these macros since we use different bits on different processor
     1.45   thorpej  * models.
     1.45   thorpej  */
     1.95  jmcneill #define	L1_S_PROT_U_generic	(L1_S_AP(AP_U))
     1.95  jmcneill #define	L1_S_PROT_W_generic	(L1_S_AP(AP_W))
1.137.2.6     skrll #define	L1_S_PROT_RO_generic	(L1_S_AP(AP_R))	/* AP_W == AP_R */
     1.95  jmcneill #define	L1_S_PROT_MASK_generic	(L1_S_PROT_U|L1_S_PROT_W|L1_S_PROT_RO)
     1.95  jmcneill
     1.95  jmcneill #define	L1_S_PROT_U_xscale	(L1_S_AP(AP_U))
     1.95  jmcneill #define	L1_S_PROT_W_xscale	(L1_S_AP(AP_W))
1.137.2.6     skrll #define	L1_S_PROT_RO_xscale	(L1_S_AP(AP_R))	/* AP_W == AP_R */
     1.95  jmcneill #define	L1_S_PROT_MASK_xscale	(L1_S_PROT_U|L1_S_PROT_W|L1_S_PROT_RO)
     1.95  jmcneill
     1.99       bsh #define	L1_S_PROT_U_armv6	(L1_S_AP(AP_R) | L1_S_AP(AP_U))
     1.99       bsh #define	L1_S_PROT_W_armv6	(L1_S_AP(AP_W))
     1.99       bsh #define	L1_S_PROT_RO_armv6	(L1_S_AP(AP_R) | L1_S_AP(AP_RO))
     1.99       bsh #define	L1_S_PROT_MASK_armv6	(L1_S_PROT_U|L1_S_PROT_W|L1_S_PROT_RO)
     1.99       bsh
     1.95  jmcneill #define	L1_S_PROT_U_armv7	(L1_S_AP(AP_R) | L1_S_AP(AP_U))
     1.95  jmcneill #define	L1_S_PROT_W_armv7	(L1_S_AP(AP_W))
     1.95  jmcneill #define	L1_S_PROT_RO_armv7	(L1_S_AP(AP_R) | L1_S_AP(AP_RO))
     1.95  jmcneill #define	L1_S_PROT_MASK_armv7	(L1_S_PROT_U|L1_S_PROT_W|L1_S_PROT_RO)
     1.45   thorpej
     1.49   thorpej #define	L1_S_CACHE_MASK_generic	(L1_S_B|L1_S_C)
     1.85      matt #define	L1_S_CACHE_MASK_xscale	(L1_S_B|L1_S_C|L1_S_XS_TEX(TEX_XSCALE_X))
     1.99       bsh #define	L1_S_CACHE_MASK_armv6	(L1_S_B|L1_S_C|L1_S_XS_TEX(TEX_ARMV6_TEX))
    1.134     skrll #define	L1_S_CACHE_MASK_armv6n	(L1_S_B|L1_S_C|L1_S_XS_TEX(TEX_ARMV6_TEX)|L1_S_V6_S)
    1.111      matt #define	L1_S_CACHE_MASK_armv7	(L1_S_B|L1_S_C|L1_S_XS_TEX(TEX_ARMV6_TEX)|L1_S_V6_S)
     1.45   thorpej
     1.95  jmcneill #define	L2_L_PROT_U_generic	(L2_AP(AP_U))
     1.95  jmcneill #define	L2_L_PROT_W_generic	(L2_AP(AP_W))
1.137.2.6     skrll #define	L2_L_PROT_RO_generic	(L2_AP(AP_R))
     1.95  jmcneill #define	L2_L_PROT_MASK_generic	(L2_L_PROT_U|L2_L_PROT_W|L2_L_PROT_RO)
     1.95  jmcneill
     1.95  jmcneill #define	L2_L_PROT_U_xscale	(L2_AP(AP_U))
     1.95  jmcneill #define	L2_L_PROT_W_xscale	(L2_AP(AP_W))
1.137.2.6     skrll #define	L2_L_PROT_RO_xscale	(L2_AP(AP_R))
     1.95  jmcneill #define	L2_L_PROT_MASK_xscale	(L2_L_PROT_U|L2_L_PROT_W|L2_L_PROT_RO)
     1.95  jmcneill
     1.99       bsh #define	L2_L_PROT_U_armv6n	(L2_AP0(AP_R) | L2_AP0(AP_U))
     1.99       bsh #define	L2_L_PROT_W_armv6n	(L2_AP0(AP_W))
     1.99       bsh #define	L2_L_PROT_RO_armv6n	(L2_AP0(AP_R) | L2_AP0(AP_RO))
     1.99       bsh #define	L2_L_PROT_MASK_armv6n	(L2_L_PROT_U|L2_L_PROT_W|L2_L_PROT_RO)
     1.99       bsh
     1.95  jmcneill #define	L2_L_PROT_U_armv7	(L2_AP0(AP_R) | L2_AP0(AP_U))
     1.95  jmcneill #define	L2_L_PROT_W_armv7	(L2_AP0(AP_W))
     1.95  jmcneill #define	L2_L_PROT_RO_armv7	(L2_AP0(AP_R) | L2_AP0(AP_RO))
     1.95  jmcneill #define	L2_L_PROT_MASK_armv7	(L2_L_PROT_U|L2_L_PROT_W|L2_L_PROT_RO)
     1.45   thorpej
     1.49   thorpej #define	L2_L_CACHE_MASK_generic	(L2_B|L2_C)
     1.85      matt #define	L2_L_CACHE_MASK_xscale	(L2_B|L2_C|L2_XS_L_TEX(TEX_XSCALE_X))
     1.99       bsh #define	L2_L_CACHE_MASK_armv6	(L2_B|L2_C|L2_V6_L_TEX(TEX_ARMV6_TEX))
    1.134     skrll #define	L2_L_CACHE_MASK_armv6n	(L2_B|L2_C|L2_V6_L_TEX(TEX_ARMV6_TEX)|L2_XS_S)
    1.111      matt #define	L2_L_CACHE_MASK_armv7	(L2_B|L2_C|L2_V6_L_TEX(TEX_ARMV6_TEX)|L2_XS_S)
     1.49   thorpej
     1.46   thorpej #define	L2_S_PROT_U_generic	(L2_AP(AP_U))
     1.46   thorpej #define	L2_S_PROT_W_generic	(L2_AP(AP_W))
1.137.2.6     skrll #define	L2_S_PROT_RO_generic	(L2_AP(AP_R))
     1.95  jmcneill #define	L2_S_PROT_MASK_generic	(L2_S_PROT_U|L2_S_PROT_W|L2_S_PROT_RO)
     1.46   thorpej
     1.48   thorpej #define	L2_S_PROT_U_xscale	(L2_AP0(AP_U))
     1.48   thorpej #define	L2_S_PROT_W_xscale	(L2_AP0(AP_W))
1.137.2.6     skrll #define	L2_S_PROT_RO_xscale	(L2_AP(AP_R))
     1.95  jmcneill #define	L2_S_PROT_MASK_xscale	(L2_S_PROT_U|L2_S_PROT_W|L2_S_PROT_RO)
     1.95  jmcneill
     1.99       bsh #define	L2_S_PROT_U_armv6n	(L2_AP0(AP_R) | L2_AP0(AP_U))
     1.99       bsh #define	L2_S_PROT_W_armv6n	(L2_AP0(AP_W))
     1.99       bsh #define	L2_S_PROT_RO_armv6n	(L2_AP0(AP_R) | L2_AP0(AP_RO))
     1.99       bsh #define	L2_S_PROT_MASK_armv6n	(L2_S_PROT_U|L2_S_PROT_W|L2_S_PROT_RO)
     1.99       bsh
     1.95  jmcneill #define	L2_S_PROT_U_armv7	(L2_AP0(AP_R) | L2_AP0(AP_U))
     1.95  jmcneill #define	L2_S_PROT_W_armv7	(L2_AP0(AP_W))
     1.95  jmcneill #define	L2_S_PROT_RO_armv7	(L2_AP0(AP_R) | L2_AP0(AP_RO))
     1.95  jmcneill #define	L2_S_PROT_MASK_armv7	(L2_S_PROT_U|L2_S_PROT_W|L2_S_PROT_RO)
     1.46   thorpej
     1.49   thorpej #define	L2_S_CACHE_MASK_generic	(L2_B|L2_C)
     1.85      matt #define	L2_S_CACHE_MASK_xscale	(L2_B|L2_C|L2_XS_T_TEX(TEX_XSCALE_X))
     1.99       bsh #define	L2_XS_CACHE_MASK_armv6	(L2_B|L2_C|L2_V6_XS_TEX(TEX_ARMV6_TEX))
     1.99       bsh #ifdef	ARMV6_EXTENDED_SMALL_PAGE
     1.99       bsh #define	L2_S_CACHE_MASK_armv6c	L2_XS_CACHE_MASK_armv6
     1.99       bsh #else
     1.99       bsh #define	L2_S_CACHE_MASK_armv6c	L2_S_CACHE_MASK_generic
     1.99       bsh #endif
1.137.2.3     skrll #define	L2_S_CACHE_MASK_armv6n	(L2_B|L2_C|L2_V6_XS_TEX(TEX_ARMV6_TEX)|L2_XS_S)
    1.111      matt #define	L2_S_CACHE_MASK_armv7	(L2_B|L2_C|L2_V6_XS_TEX(TEX_ARMV6_TEX)|L2_XS_S)
     1.46   thorpej
     1.99       bsh
     1.46   thorpej #define	L1_S_PROTO_generic	(L1_TYPE_S | L1_S_IMP)
     1.47   thorpej #define	L1_S_PROTO_xscale	(L1_TYPE_S)
     1.99       bsh #define	L1_S_PROTO_armv6	(L1_TYPE_S)
     1.95  jmcneill #define	L1_S_PROTO_armv7	(L1_TYPE_S)
     1.46   thorpej
    1.103      matt #define	L1_SS_PROTO_generic	0
    1.103      matt #define	L1_SS_PROTO_xscale	0
    1.103      matt #define	L1_SS_PROTO_armv6	(L1_TYPE_S | L1_S_V6_SS)
    1.103      matt #define	L1_SS_PROTO_armv7	(L1_TYPE_S | L1_S_V6_SS)
    1.103      matt
     1.46   thorpej #define	L1_C_PROTO_generic	(L1_TYPE_C | L1_C_IMP2)
     1.47   thorpej #define	L1_C_PROTO_xscale	(L1_TYPE_C)
     1.99       bsh #define	L1_C_PROTO_armv6	(L1_TYPE_C)
     1.95  jmcneill #define	L1_C_PROTO_armv7	(L1_TYPE_C)
     1.46   thorpej
     1.46   thorpej #define	L2_L_PROTO		(L2_TYPE_L)
     1.46   thorpej
     1.46   thorpej #define	L2_S_PROTO_generic	(L2_TYPE_S)
     1.85      matt #define	L2_S_PROTO_xscale	(L2_TYPE_XS)
     1.99       bsh #ifdef	ARMV6_EXTENDED_SMALL_PAGE
     1.99       bsh #define	L2_S_PROTO_armv6c	(L2_TYPE_XS)    /* XP=0, extended small page */
     1.99       bsh #else
     1.99       bsh #define	L2_S_PROTO_armv6c	(L2_TYPE_S)	/* XP=0, subpage APs */
     1.99       bsh #endif
    1.134     skrll #ifdef ARM_MMU_EXTENDED
    1.134     skrll #define	L2_S_PROTO_armv6n	(L2_TYPE_S|L2_XS_XN)
    1.134     skrll #else
     1.99       bsh #define	L2_S_PROTO_armv6n	(L2_TYPE_S)	/* with XP=1 */
    1.134     skrll #endif
    1.124      matt #ifdef ARM_MMU_EXTENDED
    1.124      matt #define	L2_S_PROTO_armv7	(L2_TYPE_S|L2_XS_XN)
    1.124      matt #else
     1.95  jmcneill #define	L2_S_PROTO_armv7	(L2_TYPE_S)
    1.124      matt #endif
     1.45   thorpej
     1.46   thorpej /*
     1.46   thorpej  * User-visible names for the ones that vary with MMU class.
     1.46   thorpej  */
     1.46   thorpej
     1.46   thorpej #if ARM_NMMUS > 1
     1.46   thorpej /* More than one MMU class configured; use variables. */
     1.95  jmcneill #define	L1_S_PROT_U		pte_l1_s_prot_u
     1.95  jmcneill #define	L1_S_PROT_W		pte_l1_s_prot_w
     1.95  jmcneill #define	L1_S_PROT_RO		pte_l1_s_prot_ro
     1.95  jmcneill #define	L1_S_PROT_MASK		pte_l1_s_prot_mask
     1.95  jmcneill
     1.46   thorpej #define	L2_S_PROT_U		pte_l2_s_prot_u
     1.46   thorpej #define	L2_S_PROT_W		pte_l2_s_prot_w
     1.95  jmcneill #define	L2_S_PROT_RO		pte_l2_s_prot_ro
     1.46   thorpej #define	L2_S_PROT_MASK		pte_l2_s_prot_mask
     1.46   thorpej
     1.95  jmcneill #define	L2_L_PROT_U		pte_l2_l_prot_u
     1.95  jmcneill #define	L2_L_PROT_W		pte_l2_l_prot_w
     1.95  jmcneill #define	L2_L_PROT_RO		pte_l2_l_prot_ro
     1.95  jmcneill #define	L2_L_PROT_MASK		pte_l2_l_prot_mask
     1.95  jmcneill
     1.49   thorpej #define	L1_S_CACHE_MASK		pte_l1_s_cache_mask
     1.49   thorpej #define	L2_L_CACHE_MASK		pte_l2_l_cache_mask
     1.49   thorpej #define	L2_S_CACHE_MASK		pte_l2_s_cache_mask
     1.49   thorpej
    1.103      matt #define	L1_SS_PROTO		pte_l1_ss_proto
     1.46   thorpej #define	L1_S_PROTO		pte_l1_s_proto
     1.46   thorpej #define	L1_C_PROTO		pte_l1_c_proto
     1.46   thorpej #define	L2_S_PROTO		pte_l2_s_proto
     1.51   thorpej
     1.51   thorpej #define	pmap_copy_page(s, d)	(*pmap_copy_page_func)((s), (d))
     1.51   thorpej #define	pmap_zero_page(d)	(*pmap_zero_page_func)((d))
     1.99       bsh #elif (ARM_MMU_GENERIC + ARM_MMU_SA1) != 0
     1.99       bsh #define	L1_S_PROT_U		L1_S_PROT_U_generic
     1.99       bsh #define	L1_S_PROT_W		L1_S_PROT_W_generic
     1.99       bsh #define	L1_S_PROT_RO		L1_S_PROT_RO_generic
     1.99       bsh #define	L1_S_PROT_MASK		L1_S_PROT_MASK_generic
     1.99       bsh
     1.99       bsh #define	L2_S_PROT_U		L2_S_PROT_U_generic
     1.99       bsh #define	L2_S_PROT_W		L2_S_PROT_W_generic
     1.99       bsh #define	L2_S_PROT_RO		L2_S_PROT_RO_generic
     1.99       bsh #define	L2_S_PROT_MASK		L2_S_PROT_MASK_generic
     1.99       bsh
     1.99       bsh #define	L2_L_PROT_U		L2_L_PROT_U_generic
     1.99       bsh #define	L2_L_PROT_W		L2_L_PROT_W_generic
     1.99       bsh #define	L2_L_PROT_RO		L2_L_PROT_RO_generic
     1.99       bsh #define	L2_L_PROT_MASK		L2_L_PROT_MASK_generic
     1.99       bsh
     1.99       bsh #define	L1_S_CACHE_MASK		L1_S_CACHE_MASK_generic
     1.99       bsh #define	L2_L_CACHE_MASK		L2_L_CACHE_MASK_generic
     1.99       bsh #define	L2_S_CACHE_MASK		L2_S_CACHE_MASK_generic
     1.99       bsh
    1.103      matt #define	L1_SS_PROTO		L1_SS_PROTO_generic
     1.99       bsh #define	L1_S_PROTO		L1_S_PROTO_generic
     1.99       bsh #define	L1_C_PROTO		L1_C_PROTO_generic
     1.99       bsh #define	L2_S_PROTO		L2_S_PROTO_generic
     1.99       bsh
     1.99       bsh #define	pmap_copy_page(s, d)	pmap_copy_page_generic((s), (d))
     1.99       bsh #define	pmap_zero_page(d)	pmap_zero_page_generic((d))
     1.99       bsh #elif ARM_MMU_V6N != 0
     1.99       bsh #define	L1_S_PROT_U		L1_S_PROT_U_armv6
     1.99       bsh #define	L1_S_PROT_W		L1_S_PROT_W_armv6
     1.99       bsh #define	L1_S_PROT_RO		L1_S_PROT_RO_armv6
     1.99       bsh #define	L1_S_PROT_MASK		L1_S_PROT_MASK_armv6
     1.99       bsh
     1.99       bsh #define	L2_S_PROT_U		L2_S_PROT_U_armv6n
     1.99       bsh #define	L2_S_PROT_W		L2_S_PROT_W_armv6n
     1.99       bsh #define	L2_S_PROT_RO		L2_S_PROT_RO_armv6n
     1.99       bsh #define	L2_S_PROT_MASK		L2_S_PROT_MASK_armv6n
     1.99       bsh
     1.99       bsh #define	L2_L_PROT_U		L2_L_PROT_U_armv6n
     1.99       bsh #define	L2_L_PROT_W		L2_L_PROT_W_armv6n
     1.99       bsh #define	L2_L_PROT_RO		L2_L_PROT_RO_armv6n
     1.99       bsh #define	L2_L_PROT_MASK		L2_L_PROT_MASK_armv6n
     1.99       bsh
    1.134     skrll #define	L1_S_CACHE_MASK		L1_S_CACHE_MASK_armv6n
    1.134     skrll #define	L2_L_CACHE_MASK		L2_L_CACHE_MASK_armv6n
     1.99       bsh #define	L2_S_CACHE_MASK		L2_S_CACHE_MASK_armv6n
     1.99       bsh
1.137.2.6     skrll /*
1.137.2.6     skrll  * These prototypes make writeable mappings, while the other MMU types
1.137.2.6     skrll  * make read-only mappings.
1.137.2.6     skrll  */
    1.103      matt #define	L1_SS_PROTO		L1_SS_PROTO_armv6
     1.99       bsh #define	L1_S_PROTO		L1_S_PROTO_armv6
     1.99       bsh #define	L1_C_PROTO		L1_C_PROTO_armv6
     1.99       bsh #define	L2_S_PROTO		L2_S_PROTO_armv6n
     1.99       bsh
     1.99       bsh #define	pmap_copy_page(s, d)	pmap_copy_page_generic((s), (d))
     1.99       bsh #define	pmap_zero_page(d)	pmap_zero_page_generic((d))
     1.99       bsh #elif ARM_MMU_V6C != 0
     1.95  jmcneill #define	L1_S_PROT_U		L1_S_PROT_U_generic
     1.95  jmcneill #define	L1_S_PROT_W		L1_S_PROT_W_generic
     1.95  jmcneill #define	L1_S_PROT_RO		L1_S_PROT_RO_generic
     1.95  jmcneill #define	L1_S_PROT_MASK		L1_S_PROT_MASK_generic
     1.95  jmcneill
     1.46   thorpej #define	L2_S_PROT_U		L2_S_PROT_U_generic
     1.46   thorpej #define	L2_S_PROT_W		L2_S_PROT_W_generic
     1.95  jmcneill #define	L2_S_PROT_RO		L2_S_PROT_RO_generic
     1.46   thorpej #define	L2_S_PROT_MASK		L2_S_PROT_MASK_generic
     1.46   thorpej
     1.95  jmcneill #define	L2_L_PROT_U		L2_L_PROT_U_generic
     1.95  jmcneill #define	L2_L_PROT_W		L2_L_PROT_W_generic
     1.95  jmcneill #define	L2_L_PROT_RO		L2_L_PROT_RO_generic
     1.95  jmcneill #define	L2_L_PROT_MASK		L2_L_PROT_MASK_generic
     1.95  jmcneill
     1.49   thorpej #define	L1_S_CACHE_MASK		L1_S_CACHE_MASK_generic
     1.49   thorpej #define	L2_L_CACHE_MASK		L2_L_CACHE_MASK_generic
     1.49   thorpej #define	L2_S_CACHE_MASK		L2_S_CACHE_MASK_generic
     1.49   thorpej
    1.130      matt #define	L1_SS_PROTO		L1_SS_PROTO_armv6
     1.46   thorpej #define	L1_S_PROTO		L1_S_PROTO_generic
     1.46   thorpej #define	L1_C_PROTO		L1_C_PROTO_generic
     1.46   thorpej #define	L2_S_PROTO		L2_S_PROTO_generic
     1.51   thorpej
     1.51   thorpej #define	pmap_copy_page(s, d)	pmap_copy_page_generic((s), (d))
     1.51   thorpej #define	pmap_zero_page(d)	pmap_zero_page_generic((d))
     1.46   thorpej #elif ARM_MMU_XSCALE == 1
     1.95  jmcneill #define	L1_S_PROT_U		L1_S_PROT_U_generic
     1.95  jmcneill #define	L1_S_PROT_W		L1_S_PROT_W_generic
     1.95  jmcneill #define	L1_S_PROT_RO		L1_S_PROT_RO_generic
     1.95  jmcneill #define	L1_S_PROT_MASK		L1_S_PROT_MASK_generic
     1.95  jmcneill
     1.46   thorpej #define	L2_S_PROT_U		L2_S_PROT_U_xscale
     1.46   thorpej #define	L2_S_PROT_W		L2_S_PROT_W_xscale
     1.95  jmcneill #define	L2_S_PROT_RO		L2_S_PROT_RO_xscale
     1.46   thorpej #define	L2_S_PROT_MASK		L2_S_PROT_MASK_xscale
     1.49   thorpej
     1.95  jmcneill #define	L2_L_PROT_U		L2_L_PROT_U_generic
     1.95  jmcneill #define	L2_L_PROT_W		L2_L_PROT_W_generic
     1.95  jmcneill #define	L2_L_PROT_RO		L2_L_PROT_RO_generic
     1.95  jmcneill #define	L2_L_PROT_MASK		L2_L_PROT_MASK_generic
     1.95  jmcneill
     1.49   thorpej #define	L1_S_CACHE_MASK		L1_S_CACHE_MASK_xscale
     1.49   thorpej #define	L2_L_CACHE_MASK		L2_L_CACHE_MASK_xscale
     1.49   thorpej #define	L2_S_CACHE_MASK		L2_S_CACHE_MASK_xscale
     1.46   thorpej
    1.103      matt #define	L1_SS_PROTO		L1_SS_PROTO_xscale
     1.46   thorpej #define	L1_S_PROTO		L1_S_PROTO_xscale
     1.46   thorpej #define	L1_C_PROTO		L1_C_PROTO_xscale
     1.46   thorpej #define	L2_S_PROTO		L2_S_PROTO_xscale
     1.51   thorpej
     1.51   thorpej #define	pmap_copy_page(s, d)	pmap_copy_page_xscale((s), (d))
     1.51   thorpej #define	pmap_zero_page(d)	pmap_zero_page_xscale((d))
     1.95  jmcneill #elif ARM_MMU_V7 == 1
     1.95  jmcneill #define	L1_S_PROT_U		L1_S_PROT_U_armv7
     1.95  jmcneill #define	L1_S_PROT_W		L1_S_PROT_W_armv7
     1.95  jmcneill #define	L1_S_PROT_RO		L1_S_PROT_RO_armv7
     1.95  jmcneill #define	L1_S_PROT_MASK		L1_S_PROT_MASK_armv7
     1.95  jmcneill
     1.95  jmcneill #define	L2_S_PROT_U		L2_S_PROT_U_armv7
     1.95  jmcneill #define	L2_S_PROT_W		L2_S_PROT_W_armv7
     1.95  jmcneill #define	L2_S_PROT_RO		L2_S_PROT_RO_armv7
     1.95  jmcneill #define	L2_S_PROT_MASK		L2_S_PROT_MASK_armv7
     1.95  jmcneill
     1.95  jmcneill #define	L2_L_PROT_U		L2_L_PROT_U_armv7
     1.95  jmcneill #define	L2_L_PROT_W		L2_L_PROT_W_armv7
     1.95  jmcneill #define	L2_L_PROT_RO		L2_L_PROT_RO_armv7
     1.95  jmcneill #define	L2_L_PROT_MASK		L2_L_PROT_MASK_armv7
     1.95  jmcneill
     1.95  jmcneill #define	L1_S_CACHE_MASK		L1_S_CACHE_MASK_armv7
     1.95  jmcneill #define	L2_L_CACHE_MASK		L2_L_CACHE_MASK_armv7
     1.95  jmcneill #define	L2_S_CACHE_MASK		L2_S_CACHE_MASK_armv7
     1.95  jmcneill
1.137.2.6     skrll /*
1.137.2.6     skrll  * These prototypes make writeable mappings, while the other MMU types
1.137.2.6     skrll  * make read-only mappings.
1.137.2.6     skrll  */
    1.103      matt #define	L1_SS_PROTO		L1_SS_PROTO_armv7
     1.95  jmcneill #define	L1_S_PROTO		L1_S_PROTO_armv7
     1.95  jmcneill #define	L1_C_PROTO		L1_C_PROTO_armv7
     1.95  jmcneill #define	L2_S_PROTO		L2_S_PROTO_armv7
     1.95  jmcneill
     1.95  jmcneill #define	pmap_copy_page(s, d)	pmap_copy_page_generic((s), (d))
     1.95  jmcneill #define	pmap_zero_page(d)	pmap_zero_page_generic((d))
     1.46   thorpej #endif /* ARM_NMMUS > 1 */
     1.20       chs
     1.45   thorpej /*
     1.95  jmcneill  * Macros to set and query the write permission on page descriptors.
     1.95  jmcneill  */
     1.95  jmcneill #define l1pte_set_writable(pte)	(((pte) & ~L1_S_PROT_RO) | L1_S_PROT_W)
     1.95  jmcneill #define l1pte_set_readonly(pte)	(((pte) & ~L1_S_PROT_W) | L1_S_PROT_RO)
1.137.2.6     skrll
1.137.2.6     skrll #define l2pte_set_writable(pte)	(L2_S_PROT_W == L2_S_PROT_RO ? \
1.137.2.6     skrll     ((pte) | L2_S_PROT_W) : (((pte) & ~L2_S_PROT_RO) | L2_S_PROT_W))
1.137.2.6     skrll
1.137.2.6     skrll #define l2pte_set_readonly(pte)	(L2_S_PROT_W == L2_S_PROT_RO ? \
1.137.2.6     skrll     ((pte) & ~L2_S_PROT_RO) : (((pte) & ~L2_S_PROT_W) | L2_S_PROT_RO))
     1.95  jmcneill
     1.95  jmcneill #define l2pte_writable_p(pte)	(((pte) & L2_S_PROT_W) == L2_S_PROT_W && \
1.137.2.6     skrll 				 (L2_S_PROT_W == L2_S_PROT_RO || \
     1.95  jmcneill 				  ((pte) & L2_S_PROT_RO) != L2_S_PROT_RO))
     1.95  jmcneill
     1.95  jmcneill /*
     1.45   thorpej  * These macros return various bits based on kernel/user and protection.
     1.45   thorpej  * Note that the compiler will usually fold these at compile time.
     1.45   thorpej  */
     1.45   thorpej #define	L1_S_PROT(ku, pr)	((((ku) == PTE_USER) ? L1_S_PROT_U : 0) | \
1.137.2.6     skrll 	(((pr) & VM_PROT_WRITE) ? L1_S_PROT_W :				  \
1.137.2.6     skrll 	    (L1_S_PROT_W == L1_S_PROT_RO ? 0 : L1_S_PROT_RO)))
     1.45   thorpej
     1.45   thorpej #define	L2_L_PROT(ku, pr)	((((ku) == PTE_USER) ? L2_L_PROT_U : 0) | \
1.137.2.6     skrll 	(((pr) & VM_PROT_WRITE) ? L2_L_PROT_W :				  \
1.137.2.6     skrll 	    (L2_L_PROT_W == L2_L_PROT_RO ? 0 : L2_L_PROT_RO)))
     1.45   thorpej
     1.45   thorpej #define	L2_S_PROT(ku, pr)	((((ku) == PTE_USER) ? L2_S_PROT_U : 0) | \
1.137.2.6     skrll 	(((pr) & VM_PROT_WRITE) ? L2_S_PROT_W :				  \
1.137.2.6     skrll 	    (L2_S_PROT_W == L2_S_PROT_RO ? 0 : L2_S_PROT_RO)))
     1.66   thorpej
     1.66   thorpej /*
    1.103      matt  * Macros to test if a mapping is mappable with an L1 SuperSection,
    1.103      matt  * L1 Section, or an L2 Large Page mapping.
     1.66   thorpej  */
    1.103      matt #define	L1_SS_MAPPABLE_P(va, pa, size)					\
    1.103      matt 	((((va) | (pa)) & L1_SS_OFFSET) == 0 && (size) >= L1_SS_SIZE)
    1.103      matt
     1.66   thorpej #define	L1_S_MAPPABLE_P(va, pa, size)					\
     1.66   thorpej 	((((va) | (pa)) & L1_S_OFFSET) == 0 && (size) >= L1_S_SIZE)
     1.66   thorpej
     1.67   thorpej #define	L2_L_MAPPABLE_P(va, pa, size)					\
     1.68   thorpej 	((((va) | (pa)) & L2_L_OFFSET) == 0 && (size) >= L2_L_SIZE)
     1.64   thorpej
    1.119      matt #ifndef _LOCORE
     1.64   thorpej /*
     1.64   thorpej  * Hooks for the pool allocator.
     1.64   thorpej  */
     1.64   thorpej #define	POOL_VTOPHYS(va)	vtophys((vaddr_t) (va))
    1.117      matt extern paddr_t physical_start, physical_end;
    1.113      matt #ifdef PMAP_NEED_ALLOC_POOLPAGE
    1.114      matt struct vm_page *arm_pmap_alloc_poolpage(int);
    1.113      matt #define	PMAP_ALLOC_POOLPAGE	arm_pmap_alloc_poolpage
    1.118      matt #endif
    1.118      matt #if defined(PMAP_NEED_ALLOC_POOLPAGE) || defined(__HAVE_MM_MD_DIRECT_MAPPED_PHYS)
    1.131      matt vaddr_t	pmap_map_poolpage(paddr_t);
    1.131      matt paddr_t	pmap_unmap_poolpage(vaddr_t);
    1.131      matt #define	PMAP_MAP_POOLPAGE(pa)	pmap_map_poolpage(pa)
    1.131      matt #define PMAP_UNMAP_POOLPAGE(va)	pmap_unmap_poolpage(va)
    1.113      matt #endif
     1.18   thorpej
1.137.2.4     skrll #define __HAVE_PMAP_PV_TRACK	1
1.137.2.4     skrll
1.137.2.4     skrll void pmap_pv_protect(paddr_t, vm_prot_t);
1.137.2.4     skrll
1.137.2.4     skrll struct pmap_page {
     1.97  uebayasi 	SLIST_HEAD(,pv_entry) pvh_list;		/* pv_entry list */
     1.97  uebayasi 	int pvh_attrs;				/* page attributes */
     1.97  uebayasi 	u_int uro_mappings;
     1.97  uebayasi 	u_int urw_mappings;
     1.97  uebayasi 	union {
     1.97  uebayasi 		u_short s_mappings[2];	/* Assume kernel count <= 65535 */
     1.97  uebayasi 		u_int i_mappings;
     1.97  uebayasi 	} k_u;
     1.97  uebayasi };
     1.97  uebayasi
     1.97  uebayasi /*
1.137.2.4     skrll  * pmap-specific data store in the vm_page structure.
1.137.2.4     skrll  */
1.137.2.4     skrll #define	__HAVE_VM_PAGE_MD
1.137.2.4     skrll struct vm_page_md {
1.137.2.4     skrll 	struct pmap_page pp;
1.137.2.4     skrll #define	pvh_list	pp.pvh_list
1.137.2.4     skrll #define	pvh_attrs	pp.pvh_attrs
1.137.2.4     skrll #define	uro_mappings	pp.uro_mappings
1.137.2.4     skrll #define	urw_mappings	pp.urw_mappings
1.137.2.4     skrll #define	kro_mappings	pp.k_u.s_mappings[0]
1.137.2.4     skrll #define	krw_mappings	pp.k_u.s_mappings[1]
1.137.2.4     skrll #define	k_mappings	pp.k_u.i_mappings
1.137.2.4     skrll };
1.137.2.4     skrll
1.137.2.4     skrll #define PMAP_PAGE_TO_MD(ppage) container_of((ppage), struct vm_page_md, pp)
1.137.2.4     skrll
1.137.2.4     skrll /*
     1.97  uebayasi  * Set the default color of each page.
     1.97  uebayasi  */
     1.97  uebayasi #if ARM_MMU_V6 > 0
     1.97  uebayasi #define	VM_MDPAGE_PVH_ATTRS_INIT(pg) \
     1.97  uebayasi 	(pg)->mdpage.pvh_attrs = (pg)->phys_addr & arm_cache_prefer_mask
     1.97  uebayasi #else
     1.97  uebayasi #define	VM_MDPAGE_PVH_ATTRS_INIT(pg) \
     1.97  uebayasi 	(pg)->mdpage.pvh_attrs = 0
     1.97  uebayasi #endif
    1.135     skrll
     1.97  uebayasi #define	VM_MDPAGE_INIT(pg)						\
     1.97  uebayasi do {									\
     1.97  uebayasi 	SLIST_INIT(&(pg)->mdpage.pvh_list);				\
     1.97  uebayasi 	VM_MDPAGE_PVH_ATTRS_INIT(pg);					\
     1.97  uebayasi 	(pg)->mdpage.uro_mappings = 0;					\
     1.97  uebayasi 	(pg)->mdpage.urw_mappings = 0;					\
     1.97  uebayasi 	(pg)->mdpage.k_mappings = 0;					\
     1.97  uebayasi } while (/*CONSTCOND*/0)
     1.97  uebayasi
     1.97  uebayasi #endif /* !_LOCORE */
     1.97  uebayasi
     1.18   thorpej #endif /* _KERNEL */
      1.1   reinoud
      1.1   reinoud #endif	/* _ARM32_PMAP_H_ */