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/*-
 * Copyright (c) 2003 Peter Wemm.
 * Copyright (c) 1991 Regents of the University of California.
 * All rights reserved.
 *
 * This code is derived from software contributed to Berkeley by
 * the Systems Programming Group of the University of Utah Computer
 * Science Department and William Jolitz of UUNET Technologies Inc.
 *
 * 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.
 * 4. 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.
 *
 * Derived from hp300 version by Mike Hibler, this version by William
 * Jolitz uses a recursive map [a pde points to the page directory] to
 * map the page tables using the pagetables themselves. This is done to
 * reduce the impact on kernel virtual memory for lots of sparse address
 * space, and to reduce the cost of memory to each process.
 *
 *	from: hp300: @(#)pmap.h	7.2 (Berkeley) 12/16/90
 *	from: @(#)pmap.h	7.4 (Berkeley) 5/12/91
 * $FreeBSD$
 */

#ifndef _MACHINE_PMAP_H_
#define	_MACHINE_PMAP_H_

/*
 * Page-directory and page-table entries follow this format, with a few
 * of the fields not present here and there, depending on a lot of things.
 */
				/* ---- Intel Nomenclature ---- */
#define	PG_V		0x001	/* P	Valid			*/
#define PG_RW		0x002	/* R/W	Read/Write		*/
#define PG_U		0x004	/* U/S  User/Supervisor		*/
#define	PG_NC_PWT	0x008	/* PWT	Write through		*/
#define	PG_NC_PCD	0x010	/* PCD	Cache disable		*/
#define PG_A		0x020	/* A	Accessed		*/
#define	PG_M		0x040	/* D	Dirty			*/
#define	PG_PS		0x080	/* PS	Page size (0=4k,1=4M)	*/
#define	PG_G		0x100	/* G	Global			*/
#define	PG_AVAIL1	0x200	/*    /	Available for system	*/
#define	PG_AVAIL2	0x400	/*   <	programmers use		*/
#define	PG_AVAIL3	0x800	/*    \				*/
#define	PG_NX		(1ul<<63) /* No-execute */


/* Our various interpretations of the above */
#define PG_W		PG_AVAIL1	/* "Wired" pseudoflag */
#define	PG_MANAGED	PG_AVAIL2
#define	PG_FRAME	(0x000ffffffffff000ul)
#define	PG_PROT		(PG_RW|PG_U)	/* all protection bits . */
#define PG_N		(PG_NC_PWT|PG_NC_PCD)	/* Non-cacheable */

/*
 * Page Protection Exception bits
 */

#define PGEX_P		0x01	/* Protection violation vs. not present */
#define PGEX_W		0x02	/* during a Write cycle */
#define PGEX_U		0x04	/* access from User mode (UPL) */

/*
 * Pte related macros.  This is complicated by having to deal with
 * the sign extension of the 48th bit.
 */
#define KVADDR(l4, l3, l2, l1) ( \
	((unsigned long)-1 << 47) | \
	((unsigned long)(l4) << PML4SHIFT) | \
	((unsigned long)(l3) << PDPSHIFT) | \
	((unsigned long)(l2) << PDRSHIFT) | \
	((unsigned long)(l1) << PAGE_SHIFT))

#define UVADDR(l4, l3, l2, l1) ( \
	((unsigned long)(l4) << PML4SHIFT) | \
	((unsigned long)(l3) << PDPSHIFT) | \
	((unsigned long)(l2) << PDRSHIFT) | \
	((unsigned long)(l1) << PAGE_SHIFT))

/* Initial number of kernel page tables */
#ifndef NKPT
#define	NKPT		240	/* Enough for 16GB (2MB page tables) */
#endif

#define NKPML4E		1		/* number of kernel PML4 slots */
#define NKPDPE		1		/* number of kernel PDP slots */
#define	NKPDE		(NKPDPE*NPDEPG)	/* number of kernel PD slots */

#define	NUPML4E		(NPML4EPG/2)	/* number of userland PML4 pages */
#define	NUPDPE		(NUPML4E*NPDPEPG)/* number of userland PDP pages */
#define	NUPDE		(NUPDPE*NPDEPG)	/* number of userland PD entries */

#define	NDMPML4E	1		/* number of dmap PML4 slots */

/*
 * The *PDI values control the layout of virtual memory
 */
#define	PML4PML4I	(NPML4EPG/2)	/* Index of recursive pml4 mapping */

#define	KPML4I		(NPML4EPG-1)	/* Top 512GB for KVM */
#define	DMPML4I		(KPML4I-1)	/* Next 512GB down for direct map */

#define	KPDPI		(NPDPEPG-2)	/* kernbase at -2GB */

/*
 * XXX doesn't really belong here I guess...
 */
#define ISA_HOLE_START    0xa0000
#define ISA_HOLE_LENGTH (0x100000-ISA_HOLE_START)

#ifndef LOCORE

#include <sys/queue.h>
#include <sys/_lock.h>
#include <sys/_mutex.h>

typedef u_int64_t pd_entry_t;
typedef u_int64_t pt_entry_t;
typedef u_int64_t pdp_entry_t;
typedef u_int64_t pml4_entry_t;

#define	PML4ESHIFT	(3)
#define	PDPESHIFT	(3)
#define	PTESHIFT	(3)
#define	PDESHIFT	(3)

/*
 * Address of current and alternate address space page table maps
 * and directories.
 * XXX it might be saner to just direct map all of physical memory
 * into the kernel using 2MB pages.  We have enough space to do
 * it (2^47 bits of KVM, while current max physical addressability
 * is 2^40 physical bits).  Then we can get rid of the evil hole
 * in the page tables and the evil overlapping.
 */
#ifdef _KERNEL
#define	addr_PTmap	(KVADDR(PML4PML4I, 0, 0, 0))
#define	addr_PDmap	(KVADDR(PML4PML4I, PML4PML4I, 0, 0))
#define	addr_PDPmap	(KVADDR(PML4PML4I, PML4PML4I, PML4PML4I, 0))
#define	addr_PML4map	(KVADDR(PML4PML4I, PML4PML4I, PML4PML4I, PML4PML4I))
#define	addr_PML4pml4e	(addr_PML4map + (PML4PML4I * sizeof(pml4_entry_t)))
#define	PTmap		((pt_entry_t *)(addr_PTmap))
#define	PDmap		((pd_entry_t *)(addr_PDmap))
#define	PDPmap		((pd_entry_t *)(addr_PDPmap))
#define	PML4map		((pd_entry_t *)(addr_PML4map))
#define	PML4pml4e	((pd_entry_t *)(addr_PML4pml4e))

extern u_int64_t KPML4phys;	/* physical address of kernel level 4 */
#endif

#ifdef _KERNEL
/*
 * virtual address to page table entry and
 * to physical address.
 * Note: these work recursively, thus vtopte of a pte will give
 * the corresponding pde that in turn maps it.
 */
pt_entry_t *vtopte(vm_offset_t);
#define	vtophys(va)	pmap_kextract((vm_offset_t)(va))

static __inline pt_entry_t
pte_load(pt_entry_t *ptep)
{
	pt_entry_t r;

	r = *ptep;
	return (r);
}

static __inline pt_entry_t
pte_load_store(pt_entry_t *ptep, pt_entry_t pte)
{
	pt_entry_t r;

	__asm __volatile(
	    "xchgq %0,%1"
	    : "=m" (*ptep),
	      "=r" (r)
	    : "1" (pte),
	      "m" (*ptep));
	return (r);
}

#define	pte_load_clear(pte)	atomic_readandclear_long(pte)

static __inline void
pte_store(pt_entry_t *ptep, pt_entry_t pte)
{

	*ptep = pte;
}

#define	pte_clear(ptep)		pte_store((ptep), (pt_entry_t)0ULL)

#define	pde_store(pdep, pde)	pte_store((pdep), (pde))

extern pt_entry_t pg_nx;

#endif /* _KERNEL */

/*
 * Pmap stuff
 */
struct	pv_entry;

struct md_page {
	int pv_list_count;
	TAILQ_HEAD(,pv_entry)	pv_list;
};

struct pmap {
	struct mtx		pm_mtx;
	pml4_entry_t		*pm_pml4;	/* KVA of level 4 page table */
	TAILQ_HEAD(,pv_entry)	pm_pvlist;	/* list of mappings in pmap */
	u_int			pm_active;	/* active on cpus */
	/* spare u_int here due to padding */
	struct pmap_statistics	pm_stats;	/* pmap statistics */
};

typedef struct pmap	*pmap_t;

#ifdef _KERNEL
extern struct pmap	kernel_pmap_store;
#define kernel_pmap	(&kernel_pmap_store)

#define	PMAP_LOCK(pmap)		mtx_lock(&(pmap)->pm_mtx)
#define	PMAP_LOCK_ASSERT(pmap, type) \
				mtx_assert(&(pmap)->pm_mtx, (type))
#define	PMAP_LOCK_DESTROY(pmap)	mtx_destroy(&(pmap)->pm_mtx)
#define	PMAP_LOCK_INIT(pmap)	mtx_init(&(pmap)->pm_mtx, "pmap", \
				    NULL, MTX_DEF | MTX_DUPOK)
#define	PMAP_LOCKED(pmap)	mtx_owned(&(pmap)->pm_mtx)
#define	PMAP_MTX(pmap)		(&(pmap)->pm_mtx)
#define	PMAP_TRYLOCK(pmap)	mtx_trylock(&(pmap)->pm_mtx)
#define	PMAP_UNLOCK(pmap)	mtx_unlock(&(pmap)->pm_mtx)
#endif

/*
 * For each vm_page_t, there is a list of all currently valid virtual
 * mappings of that page.  An entry is a pv_entry_t, the list is pv_table.
 */
typedef struct pv_entry {
	pmap_t		pv_pmap;	/* pmap where mapping lies */
	vm_offset_t	pv_va;		/* virtual address for mapping */
	TAILQ_ENTRY(pv_entry)	pv_list;
	TAILQ_ENTRY(pv_entry)	pv_plist;
} *pv_entry_t;

#ifdef	_KERNEL

#define NPPROVMTRR		8
#define PPRO_VMTRRphysBase0	0x200
#define PPRO_VMTRRphysMask0	0x201
struct ppro_vmtrr {
	u_int64_t base, mask;
};
extern struct ppro_vmtrr PPro_vmtrr[NPPROVMTRR];

extern caddr_t	CADDR1;
extern pt_entry_t *CMAP1;
extern vm_paddr_t avail_end;
extern vm_paddr_t phys_avail[];
extern vm_paddr_t dump_avail[];
extern vm_offset_t virtual_avail;
extern vm_offset_t virtual_end;

#define	pmap_page_is_mapped(m)	(!TAILQ_EMPTY(&(m)->md.pv_list))

void	pmap_bootstrap(vm_paddr_t *);
void	pmap_kenter(vm_offset_t va, vm_paddr_t pa);
void	*pmap_kenter_temporary(vm_paddr_t pa, int i);
vm_paddr_t pmap_kextract(vm_offset_t);
void	pmap_kremove(vm_offset_t);
void	*pmap_mapdev(vm_paddr_t, vm_size_t);
void	pmap_unmapdev(vm_offset_t, vm_size_t);
void	pmap_invalidate_page(pmap_t, vm_offset_t);
void	pmap_invalidate_range(pmap_t, vm_offset_t, vm_offset_t);
void	pmap_invalidate_all(pmap_t);

#endif /* _KERNEL */

#endif /* !LOCORE */

#endif /* !_MACHINE_PMAP_H_ */
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