pgtable.h 32.8 KB
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/*
 *  include/asm-s390/pgtable.h
 *
 *  S390 version
 *    Copyright (C) 1999,2000 IBM Deutschland Entwicklung GmbH, IBM Corporation
 *    Author(s): Hartmut Penner (hp@de.ibm.com)
 *               Ulrich Weigand (weigand@de.ibm.com)
 *               Martin Schwidefsky (schwidefsky@de.ibm.com)
 *
 *  Derived from "include/asm-i386/pgtable.h"
 */

#ifndef _ASM_S390_PGTABLE_H
#define _ASM_S390_PGTABLE_H

/*
 * The Linux memory management assumes a three-level page table setup. For
 * s390 31 bit we "fold" the mid level into the top-level page table, so
 * that we physically have the same two-level page table as the s390 mmu
 * expects in 31 bit mode. For s390 64 bit we use three of the five levels
 * the hardware provides (region first and region second tables are not
 * used).
 *
 * The "pgd_xxx()" functions are trivial for a folded two-level
 * setup: the pgd is never bad, and a pmd always exists (as it's folded
 * into the pgd entry)
 *
 * This file contains the functions and defines necessary to modify and use
 * the S390 page table tree.
 */
#ifndef __ASSEMBLY__
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#include <linux/mm_types.h>
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#include <asm/bitops.h>
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#include <asm/bug.h>
#include <asm/processor.h>

extern pgd_t swapper_pg_dir[] __attribute__ ((aligned (4096)));
extern void paging_init(void);
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extern void vmem_map_init(void);
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/*
 * The S390 doesn't have any external MMU info: the kernel page
 * tables contain all the necessary information.
 */
#define update_mmu_cache(vma, address, pte)     do { } while (0)

/*
 * ZERO_PAGE is a global shared page that is always zero: used
 * for zero-mapped memory areas etc..
 */
extern char empty_zero_page[PAGE_SIZE];
#define ZERO_PAGE(vaddr) (virt_to_page(empty_zero_page))
#endif /* !__ASSEMBLY__ */

/*
 * PMD_SHIFT determines the size of the area a second-level page
 * table can map
 * PGDIR_SHIFT determines what a third-level page table entry can map
 */
#ifndef __s390x__
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# define PMD_SHIFT	20
# define PUD_SHIFT	20
# define PGDIR_SHIFT	20
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#else /* __s390x__ */
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# define PMD_SHIFT	20
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# define PUD_SHIFT	31
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# define PGDIR_SHIFT	42
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#endif /* __s390x__ */

#define PMD_SIZE        (1UL << PMD_SHIFT)
#define PMD_MASK        (~(PMD_SIZE-1))
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#define PUD_SIZE	(1UL << PUD_SHIFT)
#define PUD_MASK	(~(PUD_SIZE-1))
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#define PGDIR_SIZE	(1UL << PGDIR_SHIFT)
#define PGDIR_MASK	(~(PGDIR_SIZE-1))
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/*
 * entries per page directory level: the S390 is two-level, so
 * we don't really have any PMD directory physically.
 * for S390 segment-table entries are combined to one PGD
 * that leads to 1024 pte per pgd
 */
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#define PTRS_PER_PTE	256
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#ifndef __s390x__
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#define PTRS_PER_PMD	1
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#define PTRS_PER_PUD	1
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#else /* __s390x__ */
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#define PTRS_PER_PMD	2048
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#define PTRS_PER_PUD	2048
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#endif /* __s390x__ */
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#define PTRS_PER_PGD	2048
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#define FIRST_USER_ADDRESS  0

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#define pte_ERROR(e) \
	printk("%s:%d: bad pte %p.\n", __FILE__, __LINE__, (void *) pte_val(e))
#define pmd_ERROR(e) \
	printk("%s:%d: bad pmd %p.\n", __FILE__, __LINE__, (void *) pmd_val(e))
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#define pud_ERROR(e) \
	printk("%s:%d: bad pud %p.\n", __FILE__, __LINE__, (void *) pud_val(e))
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#define pgd_ERROR(e) \
	printk("%s:%d: bad pgd %p.\n", __FILE__, __LINE__, (void *) pgd_val(e))

#ifndef __ASSEMBLY__
/*
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 * The vmalloc area will always be on the topmost area of the kernel
 * mapping. We reserve 96MB (31bit) / 1GB (64bit) for vmalloc,
 * which should be enough for any sane case.
 * By putting vmalloc at the top, we maximise the gap between physical
 * memory and vmalloc to catch misplaced memory accesses. As a side
 * effect, this also makes sure that 64 bit module code cannot be used
 * as system call address.
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 */
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#ifndef __s390x__
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#define VMALLOC_START	0x78000000UL
#define VMALLOC_END	0x7e000000UL
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#define VMEM_MAP_END	0x80000000UL
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#else /* __s390x__ */
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#define VMALLOC_START	0x3e000000000UL
#define VMALLOC_END	0x3e040000000UL
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#define VMEM_MAP_END	0x40000000000UL
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#endif /* __s390x__ */

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/*
 * VMEM_MAX_PHYS is the highest physical address that can be added to the 1:1
 * mapping. This needs to be calculated at compile time since the size of the
 * VMEM_MAP is static but the size of struct page can change.
 */
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#define VMEM_MAX_PAGES	((VMEM_MAP_END - VMALLOC_END) / sizeof(struct page))
#define VMEM_MAX_PFN	min(VMALLOC_START >> PAGE_SHIFT, VMEM_MAX_PAGES)
#define VMEM_MAX_PHYS	((VMEM_MAX_PFN << PAGE_SHIFT) & ~((16 << 20) - 1))
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#define VMEM_MAP	((struct page *) VMALLOC_END)

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/*
 * A 31 bit pagetable entry of S390 has following format:
 *  |   PFRA          |    |  OS  |
 * 0                   0IP0
 * 00000000001111111111222222222233
 * 01234567890123456789012345678901
 *
 * I Page-Invalid Bit:    Page is not available for address-translation
 * P Page-Protection Bit: Store access not possible for page
 *
 * A 31 bit segmenttable entry of S390 has following format:
 *  |   P-table origin      |  |PTL
 * 0                         IC
 * 00000000001111111111222222222233
 * 01234567890123456789012345678901
 *
 * I Segment-Invalid Bit:    Segment is not available for address-translation
 * C Common-Segment Bit:     Segment is not private (PoP 3-30)
 * PTL Page-Table-Length:    Page-table length (PTL+1*16 entries -> up to 256)
 *
 * The 31 bit segmenttable origin of S390 has following format:
 *
 *  |S-table origin   |     | STL |
 * X                   **GPS
 * 00000000001111111111222222222233
 * 01234567890123456789012345678901
 *
 * X Space-Switch event:
 * G Segment-Invalid Bit:     *
 * P Private-Space Bit:       Segment is not private (PoP 3-30)
 * S Storage-Alteration:
 * STL Segment-Table-Length:  Segment-table length (STL+1*16 entries -> up to 2048)
 *
 * A 64 bit pagetable entry of S390 has following format:
 * |                     PFRA                         |0IP0|  OS  |
 * 0000000000111111111122222222223333333333444444444455555555556666
 * 0123456789012345678901234567890123456789012345678901234567890123
 *
 * I Page-Invalid Bit:    Page is not available for address-translation
 * P Page-Protection Bit: Store access not possible for page
 *
 * A 64 bit segmenttable entry of S390 has following format:
 * |        P-table origin                              |      TT
 * 0000000000111111111122222222223333333333444444444455555555556666
 * 0123456789012345678901234567890123456789012345678901234567890123
 *
 * I Segment-Invalid Bit:    Segment is not available for address-translation
 * C Common-Segment Bit:     Segment is not private (PoP 3-30)
 * P Page-Protection Bit: Store access not possible for page
 * TT Type 00
 *
 * A 64 bit region table entry of S390 has following format:
 * |        S-table origin                             |   TF  TTTL
 * 0000000000111111111122222222223333333333444444444455555555556666
 * 0123456789012345678901234567890123456789012345678901234567890123
 *
 * I Segment-Invalid Bit:    Segment is not available for address-translation
 * TT Type 01
 * TF
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 * TL Table length
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 *
 * The 64 bit regiontable origin of S390 has following format:
 * |      region table origon                          |       DTTL
 * 0000000000111111111122222222223333333333444444444455555555556666
 * 0123456789012345678901234567890123456789012345678901234567890123
 *
 * X Space-Switch event:
 * G Segment-Invalid Bit:  
 * P Private-Space Bit:    
 * S Storage-Alteration:
 * R Real space
 * TL Table-Length:
 *
 * A storage key has the following format:
 * | ACC |F|R|C|0|
 *  0   3 4 5 6 7
 * ACC: access key
 * F  : fetch protection bit
 * R  : referenced bit
 * C  : changed bit
 */

/* Hardware bits in the page table entry */
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#define _PAGE_RO	0x200		/* HW read-only bit  */
#define _PAGE_INVALID	0x400		/* HW invalid bit    */
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/* Software bits in the page table entry */
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#define _PAGE_SWT	0x001		/* SW pte type bit t */
#define _PAGE_SWX	0x002		/* SW pte type bit x */
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/* Six different types of pages. */
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#define _PAGE_TYPE_EMPTY	0x400
#define _PAGE_TYPE_NONE		0x401
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#define _PAGE_TYPE_SWAP		0x403
#define _PAGE_TYPE_FILE		0x601	/* bit 0x002 is used for offset !! */
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#define _PAGE_TYPE_RO		0x200
#define _PAGE_TYPE_RW		0x000
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#define _PAGE_TYPE_EX_RO	0x202
#define _PAGE_TYPE_EX_RW	0x002
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/*
 * PTE type bits are rather complicated. handle_pte_fault uses pte_present,
 * pte_none and pte_file to find out the pte type WITHOUT holding the page
 * table lock. ptep_clear_flush on the other hand uses ptep_clear_flush to
 * invalidate a given pte. ipte sets the hw invalid bit and clears all tlbs
 * for the page. The page table entry is set to _PAGE_TYPE_EMPTY afterwards.
 * This change is done while holding the lock, but the intermediate step
 * of a previously valid pte with the hw invalid bit set can be observed by
 * handle_pte_fault. That makes it necessary that all valid pte types with
 * the hw invalid bit set must be distinguishable from the four pte types
 * empty, none, swap and file.
 *
 *			irxt  ipte  irxt
 * _PAGE_TYPE_EMPTY	1000   ->   1000
 * _PAGE_TYPE_NONE	1001   ->   1001
 * _PAGE_TYPE_SWAP	1011   ->   1011
 * _PAGE_TYPE_FILE	11?1   ->   11?1
 * _PAGE_TYPE_RO	0100   ->   1100
 * _PAGE_TYPE_RW	0000   ->   1000
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 * _PAGE_TYPE_EX_RO	0110   ->   1110
 * _PAGE_TYPE_EX_RW	0010   ->   1010
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 *
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 * pte_none is true for bits combinations 1000, 1010, 1100, 1110
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 * pte_present is true for bits combinations 0000, 0010, 0100, 0110, 1001
 * pte_file is true for bits combinations 1101, 1111
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 * swap pte is 1011 and 0001, 0011, 0101, 0111 are invalid.
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 */

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/* Page status table bits for virtualization */
#define RCP_PCL_BIT	55
#define RCP_HR_BIT	54
#define RCP_HC_BIT	53
#define RCP_GR_BIT	50
#define RCP_GC_BIT	49

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#ifndef __s390x__

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/* Bits in the segment table address-space-control-element */
#define _ASCE_SPACE_SWITCH	0x80000000UL	/* space switch event	    */
#define _ASCE_ORIGIN_MASK	0x7ffff000UL	/* segment table origin	    */
#define _ASCE_PRIVATE_SPACE	0x100	/* private space control	    */
#define _ASCE_ALT_EVENT		0x80	/* storage alteration event control */
#define _ASCE_TABLE_LENGTH	0x7f	/* 128 x 64 entries = 8k	    */
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/* Bits in the segment table entry */
#define _SEGMENT_ENTRY_ORIGIN	0x7fffffc0UL	/* page table origin	    */
#define _SEGMENT_ENTRY_INV	0x20	/* invalid segment table entry	    */
#define _SEGMENT_ENTRY_COMMON	0x10	/* common segment bit		    */
#define _SEGMENT_ENTRY_PTL	0x0f	/* page table length		    */
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#define _SEGMENT_ENTRY		(_SEGMENT_ENTRY_PTL)
#define _SEGMENT_ENTRY_EMPTY	(_SEGMENT_ENTRY_INV)
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#else /* __s390x__ */

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/* Bits in the segment/region table address-space-control-element */
#define _ASCE_ORIGIN		~0xfffUL/* segment table origin		    */
#define _ASCE_PRIVATE_SPACE	0x100	/* private space control	    */
#define _ASCE_ALT_EVENT		0x80	/* storage alteration event control */
#define _ASCE_SPACE_SWITCH	0x40	/* space switch event		    */
#define _ASCE_REAL_SPACE	0x20	/* real space control		    */
#define _ASCE_TYPE_MASK		0x0c	/* asce table type mask		    */
#define _ASCE_TYPE_REGION1	0x0c	/* region first table type	    */
#define _ASCE_TYPE_REGION2	0x08	/* region second table type	    */
#define _ASCE_TYPE_REGION3	0x04	/* region third table type	    */
#define _ASCE_TYPE_SEGMENT	0x00	/* segment table type		    */
#define _ASCE_TABLE_LENGTH	0x03	/* region table length		    */

/* Bits in the region table entry */
#define _REGION_ENTRY_ORIGIN	~0xfffUL/* region/segment table origin	    */
#define _REGION_ENTRY_INV	0x20	/* invalid region table entry	    */
#define _REGION_ENTRY_TYPE_MASK	0x0c	/* region/segment table type mask   */
#define _REGION_ENTRY_TYPE_R1	0x0c	/* region first table type	    */
#define _REGION_ENTRY_TYPE_R2	0x08	/* region second table type	    */
#define _REGION_ENTRY_TYPE_R3	0x04	/* region third table type	    */
#define _REGION_ENTRY_LENGTH	0x03	/* region third length		    */

#define _REGION1_ENTRY		(_REGION_ENTRY_TYPE_R1 | _REGION_ENTRY_LENGTH)
#define _REGION1_ENTRY_EMPTY	(_REGION_ENTRY_TYPE_R1 | _REGION_ENTRY_INV)
#define _REGION2_ENTRY		(_REGION_ENTRY_TYPE_R2 | _REGION_ENTRY_LENGTH)
#define _REGION2_ENTRY_EMPTY	(_REGION_ENTRY_TYPE_R2 | _REGION_ENTRY_INV)
#define _REGION3_ENTRY		(_REGION_ENTRY_TYPE_R3 | _REGION_ENTRY_LENGTH)
#define _REGION3_ENTRY_EMPTY	(_REGION_ENTRY_TYPE_R3 | _REGION_ENTRY_INV)

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/* Bits in the segment table entry */
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#define _SEGMENT_ENTRY_ORIGIN	~0x7ffUL/* segment table origin		    */
#define _SEGMENT_ENTRY_RO	0x200	/* page protection bit		    */
#define _SEGMENT_ENTRY_INV	0x20	/* invalid segment table entry	    */
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#define _SEGMENT_ENTRY		(0)
#define _SEGMENT_ENTRY_EMPTY	(_SEGMENT_ENTRY_INV)

#endif /* __s390x__ */
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/*
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 * A user page table pointer has the space-switch-event bit, the
 * private-space-control bit and the storage-alteration-event-control
 * bit set. A kernel page table pointer doesn't need them.
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 */
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#define _ASCE_USER_BITS		(_ASCE_SPACE_SWITCH | _ASCE_PRIVATE_SPACE | \
				 _ASCE_ALT_EVENT)
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/* Bits int the storage key */
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#define _PAGE_CHANGED    0x02          /* HW changed bit                   */
#define _PAGE_REFERENCED 0x04          /* HW referenced bit                */

/*
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 * Page protection definitions.
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 */
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#define PAGE_NONE	__pgprot(_PAGE_TYPE_NONE)
#define PAGE_RO		__pgprot(_PAGE_TYPE_RO)
#define PAGE_RW		__pgprot(_PAGE_TYPE_RW)
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#define PAGE_EX_RO	__pgprot(_PAGE_TYPE_EX_RO)
#define PAGE_EX_RW	__pgprot(_PAGE_TYPE_EX_RW)
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#define PAGE_KERNEL	PAGE_RW
#define PAGE_COPY	PAGE_RO
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/*
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 * Dependent on the EXEC_PROTECT option s390 can do execute protection.
 * Write permission always implies read permission. In theory with a
 * primary/secondary page table execute only can be implemented but
 * it would cost an additional bit in the pte to distinguish all the
 * different pte types. To avoid that execute permission currently
 * implies read permission as well.
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 */
         /*xwr*/
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#define __P000	PAGE_NONE
#define __P001	PAGE_RO
#define __P010	PAGE_RO
#define __P011	PAGE_RO
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#define __P100	PAGE_EX_RO
#define __P101	PAGE_EX_RO
#define __P110	PAGE_EX_RO
#define __P111	PAGE_EX_RO
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#define __S000	PAGE_NONE
#define __S001	PAGE_RO
#define __S010	PAGE_RW
#define __S011	PAGE_RW
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#define __S100	PAGE_EX_RO
#define __S101	PAGE_EX_RO
#define __S110	PAGE_EX_RW
#define __S111	PAGE_EX_RW

#ifndef __s390x__
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# define PxD_SHADOW_SHIFT	1
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#else /* __s390x__ */
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# define PxD_SHADOW_SHIFT	2
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#endif /* __s390x__ */

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static inline void *get_shadow_table(void *table)
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{
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	unsigned long addr, offset;
	struct page *page;

	addr = (unsigned long) table;
	offset = addr & ((PAGE_SIZE << PxD_SHADOW_SHIFT) - 1);
	page = virt_to_page((void *)(addr ^ offset));
	return (void *)(addr_t)(page->index ? (page->index | offset) : 0UL);
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}
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/*
 * Certain architectures need to do special things when PTEs
 * within a page table are directly modified.  Thus, the following
 * hook is made available.
 */
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static inline void set_pte_at(struct mm_struct *mm, unsigned long addr,
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			      pte_t *ptep, pte_t entry)
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{
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	*ptep = entry;
	if (mm->context.noexec) {
		if (!(pte_val(entry) & _PAGE_INVALID) &&
		    (pte_val(entry) & _PAGE_SWX))
			pte_val(entry) |= _PAGE_RO;
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		else
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			pte_val(entry) = _PAGE_TYPE_EMPTY;
		ptep[PTRS_PER_PTE] = entry;
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	}
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}

/*
 * pgd/pmd/pte query functions
 */
#ifndef __s390x__

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static inline int pgd_present(pgd_t pgd) { return 1; }
static inline int pgd_none(pgd_t pgd)    { return 0; }
static inline int pgd_bad(pgd_t pgd)     { return 0; }
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static inline int pud_present(pud_t pud) { return 1; }
static inline int pud_none(pud_t pud)	 { return 0; }
static inline int pud_bad(pud_t pud)	 { return 0; }

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#else /* __s390x__ */

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static inline int pgd_present(pgd_t pgd)
{
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	if ((pgd_val(pgd) & _REGION_ENTRY_TYPE_MASK) < _REGION_ENTRY_TYPE_R2)
		return 1;
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	return (pgd_val(pgd) & _REGION_ENTRY_ORIGIN) != 0UL;
}

static inline int pgd_none(pgd_t pgd)
{
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	if ((pgd_val(pgd) & _REGION_ENTRY_TYPE_MASK) < _REGION_ENTRY_TYPE_R2)
		return 0;
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	return (pgd_val(pgd) & _REGION_ENTRY_INV) != 0UL;
}

static inline int pgd_bad(pgd_t pgd)
{
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	/*
	 * With dynamic page table levels the pgd can be a region table
	 * entry or a segment table entry. Check for the bit that are
	 * invalid for either table entry.
	 */
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	unsigned long mask =
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		~_SEGMENT_ENTRY_ORIGIN & ~_REGION_ENTRY_INV &
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		~_REGION_ENTRY_TYPE_MASK & ~_REGION_ENTRY_LENGTH;
	return (pgd_val(pgd) & mask) != 0;
}
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static inline int pud_present(pud_t pud)
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{
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	if ((pud_val(pud) & _REGION_ENTRY_TYPE_MASK) < _REGION_ENTRY_TYPE_R3)
		return 1;
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	return (pud_val(pud) & _REGION_ENTRY_ORIGIN) != 0UL;
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}

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static inline int pud_none(pud_t pud)
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{
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	if ((pud_val(pud) & _REGION_ENTRY_TYPE_MASK) < _REGION_ENTRY_TYPE_R3)
		return 0;
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	return (pud_val(pud) & _REGION_ENTRY_INV) != 0UL;
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}

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static inline int pud_bad(pud_t pud)
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{
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	/*
	 * With dynamic page table levels the pud can be a region table
	 * entry or a segment table entry. Check for the bit that are
	 * invalid for either table entry.
	 */
478
	unsigned long mask =
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		~_SEGMENT_ENTRY_ORIGIN & ~_REGION_ENTRY_INV &
480 481
		~_REGION_ENTRY_TYPE_MASK & ~_REGION_ENTRY_LENGTH;
	return (pud_val(pud) & mask) != 0;
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}

484 485
#endif /* __s390x__ */

486
static inline int pmd_present(pmd_t pmd)
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{
488
	return (pmd_val(pmd) & _SEGMENT_ENTRY_ORIGIN) != 0UL;
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}

491
static inline int pmd_none(pmd_t pmd)
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{
493
	return (pmd_val(pmd) & _SEGMENT_ENTRY_INV) != 0UL;
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}

496
static inline int pmd_bad(pmd_t pmd)
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{
498 499
	unsigned long mask = ~_SEGMENT_ENTRY_ORIGIN & ~_SEGMENT_ENTRY_INV;
	return (pmd_val(pmd) & mask) != _SEGMENT_ENTRY;
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}

502
static inline int pte_none(pte_t pte)
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{
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	return (pte_val(pte) & _PAGE_INVALID) && !(pte_val(pte) & _PAGE_SWT);
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}

507
static inline int pte_present(pte_t pte)
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{
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	unsigned long mask = _PAGE_RO | _PAGE_INVALID | _PAGE_SWT | _PAGE_SWX;
	return (pte_val(pte) & mask) == _PAGE_TYPE_NONE ||
		(!(pte_val(pte) & _PAGE_INVALID) &&
		 !(pte_val(pte) & _PAGE_SWT));
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}

515
static inline int pte_file(pte_t pte)
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{
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	unsigned long mask = _PAGE_RO | _PAGE_INVALID | _PAGE_SWT;
	return (pte_val(pte) & mask) == _PAGE_TYPE_FILE;
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}

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static inline int pte_special(pte_t pte)
{
	return 0;
}

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#define __HAVE_ARCH_PTE_SAME
#define pte_same(a,b)  (pte_val(a) == pte_val(b))
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529 530 531 532 533 534 535 536 537 538 539 540 541 542 543 544 545 546 547 548 549 550 551 552 553 554 555 556 557 558 559 560
static inline void rcp_lock(pte_t *ptep)
{
#ifdef CONFIG_PGSTE
	unsigned long *pgste = (unsigned long *) (ptep + PTRS_PER_PTE);
	preempt_disable();
	while (test_and_set_bit(RCP_PCL_BIT, pgste))
		;
#endif
}

static inline void rcp_unlock(pte_t *ptep)
{
#ifdef CONFIG_PGSTE
	unsigned long *pgste = (unsigned long *) (ptep + PTRS_PER_PTE);
	clear_bit(RCP_PCL_BIT, pgste);
	preempt_enable();
#endif
}

/* forward declaration for SetPageUptodate in page-flags.h*/
static inline void page_clear_dirty(struct page *page);
#include <linux/page-flags.h>

static inline void ptep_rcp_copy(pte_t *ptep)
{
#ifdef CONFIG_PGSTE
	struct page *page = virt_to_page(pte_val(*ptep));
	unsigned int skey;
	unsigned long *pgste = (unsigned long *) (ptep + PTRS_PER_PTE);

	skey = page_get_storage_key(page_to_phys(page));
	if (skey & _PAGE_CHANGED)
561
		set_bit_simple(RCP_GC_BIT, pgste);
562
	if (skey & _PAGE_REFERENCED)
563 564
		set_bit_simple(RCP_GR_BIT, pgste);
	if (test_and_clear_bit_simple(RCP_HC_BIT, pgste))
565
		SetPageDirty(page);
566
	if (test_and_clear_bit_simple(RCP_HR_BIT, pgste))
567 568 569 570
		SetPageReferenced(page);
#endif
}

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/*
 * query functions pte_write/pte_dirty/pte_young only work if
 * pte_present() is true. Undefined behaviour if not..
 */
575
static inline int pte_write(pte_t pte)
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{
	return (pte_val(pte) & _PAGE_RO) == 0;
}

580
static inline int pte_dirty(pte_t pte)
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{
	/* A pte is neither clean nor dirty on s/390. The dirty bit
	 * is in the storage key. See page_test_and_clear_dirty for
	 * details.
	 */
	return 0;
}

589
static inline int pte_young(pte_t pte)
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{
	/* A pte is neither young nor old on s/390. The young bit
	 * is in the storage key. See page_test_and_clear_young for
	 * details.
	 */
	return 0;
}

/*
 * pgd/pmd/pte modification functions
 */

#ifndef __s390x__

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#define pgd_clear(pgd)		do { } while (0)
#define pud_clear(pud)		do { } while (0)
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#else /* __s390x__ */

609 610
static inline void pgd_clear_kernel(pgd_t * pgd)
{
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	if ((pgd_val(*pgd) & _REGION_ENTRY_TYPE_MASK) == _REGION_ENTRY_TYPE_R2)
		pgd_val(*pgd) = _REGION2_ENTRY_EMPTY;
613 614 615 616 617 618 619 620 621 622
}

static inline void pgd_clear(pgd_t * pgd)
{
	pgd_t *shadow = get_shadow_table(pgd);

	pgd_clear_kernel(pgd);
	if (shadow)
		pgd_clear_kernel(shadow);
}
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static inline void pud_clear_kernel(pud_t *pud)
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{
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	if ((pud_val(*pud) & _REGION_ENTRY_TYPE_MASK) == _REGION_ENTRY_TYPE_R3)
		pud_val(*pud) = _REGION3_ENTRY_EMPTY;
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}

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static inline void pud_clear(pud_t *pud)
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{
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	pud_t *shadow = get_shadow_table(pud);
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	pud_clear_kernel(pud);
	if (shadow)
		pud_clear_kernel(shadow);
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}

639 640
#endif /* __s390x__ */

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static inline void pmd_clear_kernel(pmd_t * pmdp)
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{
643
	pmd_val(*pmdp) = _SEGMENT_ENTRY_EMPTY;
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}

646
static inline void pmd_clear(pmd_t *pmd)
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{
648
	pmd_t *shadow = get_shadow_table(pmd);
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650 651 652
	pmd_clear_kernel(pmd);
	if (shadow)
		pmd_clear_kernel(shadow);
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}

655
static inline void pte_clear(struct mm_struct *mm, unsigned long addr, pte_t *ptep)
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{
657 658
	if (mm->context.pgstes)
		ptep_rcp_copy(ptep);
659
	pte_val(*ptep) = _PAGE_TYPE_EMPTY;
660 661
	if (mm->context.noexec)
		pte_val(ptep[PTRS_PER_PTE]) = _PAGE_TYPE_EMPTY;
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}

/*
 * The following pte modification functions only work if
 * pte_present() is true. Undefined behaviour if not..
 */
668
static inline pte_t pte_modify(pte_t pte, pgprot_t newprot)
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{
	pte_val(pte) &= PAGE_MASK;
	pte_val(pte) |= pgprot_val(newprot);
	return pte;
}

675
static inline pte_t pte_wrprotect(pte_t pte)
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{
677
	/* Do not clobber _PAGE_TYPE_NONE pages!  */
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	if (!(pte_val(pte) & _PAGE_INVALID))
		pte_val(pte) |= _PAGE_RO;
	return pte;
}

683
static inline pte_t pte_mkwrite(pte_t pte)
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{
	pte_val(pte) &= ~_PAGE_RO;
	return pte;
}

689
static inline pte_t pte_mkclean(pte_t pte)
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{
	/* The only user of pte_mkclean is the fork() code.
	   We must *not* clear the *physical* page dirty bit
	   just because fork() wants to clear the dirty bit in
	   *one* of the page's mappings.  So we just do nothing. */
	return pte;
}

698
static inline pte_t pte_mkdirty(pte_t pte)
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{
	/* We do not explicitly set the dirty bit because the
	 * sske instruction is slow. It is faster to let the
	 * next instruction set the dirty bit.
	 */
	return pte;
}

707
static inline pte_t pte_mkold(pte_t pte)
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{
	/* S/390 doesn't keep its dirty/referenced bit in the pte.
	 * There is no point in clearing the real referenced bit.
	 */
	return pte;
}

715
static inline pte_t pte_mkyoung(pte_t pte)
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{
	/* S/390 doesn't keep its dirty/referenced bit in the pte.
	 * There is no point in setting the real referenced bit.
	 */
	return pte;
}

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static inline pte_t pte_mkspecial(pte_t pte)
{
	return pte;
}

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#define __HAVE_ARCH_PTEP_TEST_AND_CLEAR_YOUNG
static inline int ptep_test_and_clear_young(struct vm_area_struct *vma,
					    unsigned long addr, pte_t *ptep)
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{
732 733 734 735 736 737 738 739 740 741 742 743 744
#ifdef CONFIG_PGSTE
	unsigned long physpage;
	int young;
	unsigned long *pgste;

	if (!vma->vm_mm->context.pgstes)
		return 0;
	physpage = pte_val(*ptep) & PAGE_MASK;
	pgste = (unsigned long *) (ptep + PTRS_PER_PTE);

	young = ((page_get_storage_key(physpage) & _PAGE_REFERENCED) != 0);
	rcp_lock(ptep);
	if (young)
745 746
		set_bit_simple(RCP_GR_BIT, pgste);
	young |= test_and_clear_bit_simple(RCP_HR_BIT, pgste);
747 748 749
	rcp_unlock(ptep);
	return young;
#endif
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	return 0;
}

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#define __HAVE_ARCH_PTEP_CLEAR_YOUNG_FLUSH
static inline int ptep_clear_flush_young(struct vm_area_struct *vma,
					 unsigned long address, pte_t *ptep)
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{
757 758 759 760 761 762 763
	/* No need to flush TLB
	 * On s390 reference bits are in storage key and never in TLB
	 * With virtualization we handle the reference bit, without we
	 * we can simply return */
#ifdef CONFIG_PGSTE
	return ptep_test_and_clear_young(vma, address, ptep);
#endif
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	return 0;
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}

767
static inline void __ptep_ipte(unsigned long address, pte_t *ptep)
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{
769
	if (!(pte_val(*ptep) & _PAGE_INVALID)) {
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#ifndef __s390x__
771
		/* pto must point to the start of the segment table */
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		pte_t *pto = (pte_t *) (((unsigned long) ptep) & 0x7ffffc00);
773 774 775 776
#else
		/* ipte in zarch mode can do the math */
		pte_t *pto = ptep;
#endif
777 778 779 780
		asm volatile(
			"	ipte	%2,%3"
			: "=m" (*ptep) : "m" (*ptep),
			  "a" (pto), "a" (address));
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	}
782 783
}

784 785
static inline void ptep_invalidate(struct mm_struct *mm,
				   unsigned long address, pte_t *ptep)
786
{
787 788 789 790 791 792 793 794
	if (mm->context.pgstes) {
		rcp_lock(ptep);
		__ptep_ipte(address, ptep);
		ptep_rcp_copy(ptep);
		pte_val(*ptep) = _PAGE_TYPE_EMPTY;
		rcp_unlock(ptep);
		return;
	}
795
	__ptep_ipte(address, ptep);
796 797
	pte_val(*ptep) = _PAGE_TYPE_EMPTY;
	if (mm->context.noexec) {
798
		__ptep_ipte(address, ptep + PTRS_PER_PTE);
799 800
		pte_val(*(ptep + PTRS_PER_PTE)) = _PAGE_TYPE_EMPTY;
	}
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}

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/*
 * This is hard to understand. ptep_get_and_clear and ptep_clear_flush
 * both clear the TLB for the unmapped pte. The reason is that
 * ptep_get_and_clear is used in common code (e.g. change_pte_range)
 * to modify an active pte. The sequence is
 *   1) ptep_get_and_clear
 *   2) set_pte_at
 *   3) flush_tlb_range
 * On s390 the tlb needs to get flushed with the modification of the pte
 * if the pte is active. The only way how this can be implemented is to
 * have ptep_get_and_clear do the tlb flush. In exchange flush_tlb_range
 * is a nop.
 */
#define __HAVE_ARCH_PTEP_GET_AND_CLEAR
#define ptep_get_and_clear(__mm, __address, __ptep)			\
({									\
	pte_t __pte = *(__ptep);					\
	if (atomic_read(&(__mm)->mm_users) > 1 ||			\
	    (__mm) != current->active_mm)				\
822
		ptep_invalidate(__mm, __address, __ptep);		\
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	else								\
		pte_clear((__mm), (__address), (__ptep));		\
	__pte;								\
})

#define __HAVE_ARCH_PTEP_CLEAR_FLUSH
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static inline pte_t ptep_clear_flush(struct vm_area_struct *vma,
				     unsigned long address, pte_t *ptep)
{
	pte_t pte = *ptep;
833
	ptep_invalidate(vma->vm_mm, address, ptep);
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	return pte;
}

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/*
 * The batched pte unmap code uses ptep_get_and_clear_full to clear the
 * ptes. Here an optimization is possible. tlb_gather_mmu flushes all
 * tlbs of an mm if it can guarantee that the ptes of the mm_struct
 * cannot be accessed while the batched unmap is running. In this case
 * full==1 and a simple pte_clear is enough. See tlb.h.
 */
#define __HAVE_ARCH_PTEP_GET_AND_CLEAR_FULL
static inline pte_t ptep_get_and_clear_full(struct mm_struct *mm,
					    unsigned long addr,
					    pte_t *ptep, int full)
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{
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	pte_t pte = *ptep;

	if (full)
		pte_clear(mm, addr, ptep);
	else
854
		ptep_invalidate(mm, addr, ptep);
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	return pte;
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}

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#define __HAVE_ARCH_PTEP_SET_WRPROTECT
#define ptep_set_wrprotect(__mm, __addr, __ptep)			\
({									\
	pte_t __pte = *(__ptep);					\
	if (pte_write(__pte)) {						\
		if (atomic_read(&(__mm)->mm_users) > 1 ||		\
		    (__mm) != current->active_mm)			\
865
			ptep_invalidate(__mm, __addr, __ptep);		\
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		set_pte_at(__mm, __addr, __ptep, pte_wrprotect(__pte));	\
	}								\
})

#define __HAVE_ARCH_PTEP_SET_ACCESS_FLAGS
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#define ptep_set_access_flags(__vma, __addr, __ptep, __entry, __dirty)	\
({									\
	int __changed = !pte_same(*(__ptep), __entry);			\
	if (__changed) {						\
875
		ptep_invalidate((__vma)->vm_mm, __addr, __ptep);	\
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		set_pte_at((__vma)->vm_mm, __addr, __ptep, __entry);	\
	}								\
	__changed;							\
879
})
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/*
 * Test and clear dirty bit in storage key.
 * We can't clear the changed bit atomically. This is a potential
 * race against modification of the referenced bit. This function
 * should therefore only be called if it is not mapped in any
 * address space.
 */
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#define __HAVE_ARCH_PAGE_TEST_DIRTY
889
static inline int page_test_dirty(struct page *page)
890
{
891 892
	return (page_get_storage_key(page_to_phys(page)) & _PAGE_CHANGED) != 0;
}
893

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#define __HAVE_ARCH_PAGE_CLEAR_DIRTY
895 896 897
static inline void page_clear_dirty(struct page *page)
{
	page_set_storage_key(page_to_phys(page), PAGE_DEFAULT_KEY);
898
}
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/*
 * Test and clear referenced bit in storage key.
 */
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#define __HAVE_ARCH_PAGE_TEST_AND_CLEAR_YOUNG
904 905
static inline int page_test_and_clear_young(struct page *page)
{
906
	unsigned long physpage = page_to_phys(page);
907 908
	int ccode;

909 910 911 912
	asm volatile(
		"	rrbe	0,%1\n"
		"	ipm	%0\n"
		"	srl	%0,28\n"
913 914 915
		: "=d" (ccode) : "a" (physpage) : "cc" );
	return ccode & 2;
}
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/*
 * Conversion functions: convert a page and protection to a page entry,
 * and a page entry and page directory to the page they refer to.
 */
static inline pte_t mk_pte_phys(unsigned long physpage, pgprot_t pgprot)
{
	pte_t __pte;
	pte_val(__pte) = physpage + pgprot_val(pgprot);
	return __pte;
}

928 929
static inline pte_t mk_pte(struct page *page, pgprot_t pgprot)
{
930
	unsigned long physpage = page_to_phys(page);
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932 933 934
	return mk_pte_phys(physpage, pgprot);
}

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#define pgd_index(address) (((address) >> PGDIR_SHIFT) & (PTRS_PER_PGD-1))
#define pud_index(address) (((address) >> PUD_SHIFT) & (PTRS_PER_PUD-1))
#define pmd_index(address) (((address) >> PMD_SHIFT) & (PTRS_PER_PMD-1))
#define pte_index(address) (((address) >> PAGE_SHIFT) & (PTRS_PER_PTE-1))
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#define pgd_offset(mm, address) ((mm)->pgd + pgd_index(address))
#define pgd_offset_k(address) pgd_offset(&init_mm, address)
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#ifndef __s390x__
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#define pmd_deref(pmd) (pmd_val(pmd) & _SEGMENT_ENTRY_ORIGIN)
#define pud_deref(pmd) ({ BUG(); 0UL; })
#define pgd_deref(pmd) ({ BUG(); 0UL; })
948

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#define pud_offset(pgd, address) ((pud_t *) pgd)
#define pmd_offset(pud, address) ((pmd_t *) pud + pmd_index(address))
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#else /* __s390x__ */
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#define pmd_deref(pmd) (pmd_val(pmd) & _SEGMENT_ENTRY_ORIGIN)
#define pud_deref(pud) (pud_val(pud) & _REGION_ENTRY_ORIGIN)
956
#define pgd_deref(pgd) (pgd_val(pgd) & _REGION_ENTRY_ORIGIN)
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958 959
static inline pud_t *pud_offset(pgd_t *pgd, unsigned long address)
{
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	pud_t *pud = (pud_t *) pgd;
	if ((pgd_val(*pgd) & _REGION_ENTRY_TYPE_MASK) == _REGION_ENTRY_TYPE_R2)
		pud = (pud_t *) pgd_deref(*pgd);
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	return pud  + pud_index(address);
}
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static inline pmd_t *pmd_offset(pud_t *pud, unsigned long address)
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{
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	pmd_t *pmd = (pmd_t *) pud;
	if ((pud_val(*pud) & _REGION_ENTRY_TYPE_MASK) == _REGION_ENTRY_TYPE_R3)
		pmd = (pmd_t *) pud_deref(*pud);
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	return pmd + pmd_index(address);
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}

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#endif /* __s390x__ */
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#define pfn_pte(pfn,pgprot) mk_pte_phys(__pa((pfn) << PAGE_SHIFT),(pgprot))
#define pte_pfn(x) (pte_val(x) >> PAGE_SHIFT)
#define pte_page(x) pfn_to_page(pte_pfn(x))
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#define pmd_page(pmd) pfn_to_page(pmd_val(pmd) >> PAGE_SHIFT)
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/* Find an entry in the lowest level page table.. */
#define pte_offset(pmd, addr) ((pte_t *) pmd_deref(*(pmd)) + pte_index(addr))
#define pte_offset_kernel(pmd, address) pte_offset(pmd,address)
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#define pte_offset_map(pmd, address) pte_offset_kernel(pmd, address)
#define pte_offset_map_nested(pmd, address) pte_offset_kernel(pmd, address)
#define pte_unmap(pte) do { } while (0)
#define pte_unmap_nested(pte) do { } while (0)

/*
 * 31 bit swap entry format:
 * A page-table entry has some bits we have to treat in a special way.
 * Bits 0, 20 and bit 23 have to be zero, otherwise an specification
 * exception will occur instead of a page translation exception. The
 * specifiation exception has the bad habit not to store necessary
 * information in the lowcore.
 * Bit 21 and bit 22 are the page invalid bit and the page protection
 * bit. We set both to indicate a swapped page.
 * Bit 30 and 31 are used to distinguish the different page types. For
 * a swapped page these bits need to be zero.
 * This leaves the bits 1-19 and bits 24-29 to store type and offset.
 * We use the 5 bits from 25-29 for the type and the 20 bits from 1-19
 * plus 24 for the offset.
 * 0|     offset        |0110|o|type |00|
 * 0 0000000001111111111 2222 2 22222 33
 * 0 1234567890123456789 0123 4 56789 01
 *
 * 64 bit swap entry format:
 * A page-table entry has some bits we have to treat in a special way.
 * Bits 52 and bit 55 have to be zero, otherwise an specification
 * exception will occur instead of a page translation exception. The
 * specifiation exception has the bad habit not to store necessary
 * information in the lowcore.
 * Bit 53 and bit 54 are the page invalid bit and the page protection
 * bit. We set both to indicate a swapped page.
 * Bit 62 and 63 are used to distinguish the different page types. For
 * a swapped page these bits need to be zero.
 * This leaves the bits 0-51 and bits 56-61 to store type and offset.
 * We use the 5 bits from 57-61 for the type and the 53 bits from 0-51
 * plus 56 for the offset.
 * |                      offset                        |0110|o|type |00|
 *  0000000000111111111122222222223333333333444444444455 5555 5 55566 66
 *  0123456789012345678901234567890123456789012345678901 2345 6 78901 23
 */
#ifndef __s390x__
#define __SWP_OFFSET_MASK (~0UL >> 12)
#else
#define __SWP_OFFSET_MASK (~0UL >> 11)
#endif
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static inline pte_t mk_swap_pte(unsigned long type, unsigned long offset)
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{
	pte_t pte;
	offset &= __SWP_OFFSET_MASK;
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	pte_val(pte) = _PAGE_TYPE_SWAP | ((type & 0x1f) << 2) |
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		((offset & 1UL) << 7) | ((offset & ~1UL) << 11);
	return pte;
}

#define __swp_type(entry)	(((entry).val >> 2) & 0x1f)
#define __swp_offset(entry)	(((entry).val >> 11) | (((entry).val >> 7) & 1))
#define __swp_entry(type,offset) ((swp_entry_t) { pte_val(mk_swap_pte((type),(offset))) })

#define __pte_to_swp_entry(pte)	((swp_entry_t) { pte_val(pte) })
#define __swp_entry_to_pte(x)	((pte_t) { (x).val })

#ifndef __s390x__
# define PTE_FILE_MAX_BITS	26
#else /* __s390x__ */
# define PTE_FILE_MAX_BITS	59
#endif /* __s390x__ */

#define pte_to_pgoff(__pte) \
	((((__pte).pte >> 12) << 7) + (((__pte).pte >> 1) & 0x7f))

#define pgoff_to_pte(__off) \
	((pte_t) { ((((__off) & 0x7f) << 1) + (((__off) >> 7) << 12)) \
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		   | _PAGE_TYPE_FILE })
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#endif /* !__ASSEMBLY__ */

#define kern_addr_valid(addr)   (1)

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extern int add_shared_memory(unsigned long start, unsigned long size);
extern int remove_shared_memory(unsigned long start, unsigned long size);
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extern int s390_enable_sie(void);
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/*
 * No page table caches to initialise
 */
#define pgtable_cache_init()	do { } while (0)

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#define __HAVE_ARCH_MEMMAP_INIT
extern void memmap_init(unsigned long, int, unsigned long, unsigned long);

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#include <asm-generic/pgtable.h>

#endif /* _S390_PAGE_H */