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4b91428699
8xx uses a two level page table with two different linux page size support (4k and 16k). 8xx also support two different hugepage sizes 512k and 8M. In order to support them on linux we define two different page table layout. The size of pages is in the PGD entry, using PS field (bits 28-29): 00 : Small pages (4k or 16k) 01 : 512k pages 10 : reserved 11 : 8M pages For 512K hugepage size a pgd entry have the below format [<hugepte address >0101] . The hugepte table allocated will contain 8 entries pointing to 512K huge pte in 4k pages mode and 64 entries in 16k pages mode. For 8M in 16k mode, a pgd entry have the below format [<hugepte address >1101] . The hugepte table allocated will contain 8 entries pointing to 8M huge pte. For 8M in 4k mode, multiple pgd entries point to the same hugepte address and pgd entry will have the below format [<hugepte address>1101]. The hugepte table allocated will only have one entry. For the time being, we do not support CPU15 ERRATA when HUGETLB is selected Signed-off-by: Christophe Leroy <christophe.leroy@c-s.fr> Reviewed-by: Aneesh Kumar K.V <aneesh.kumar@linux.vnet.ibm.com> (v3, for the generic bits) Signed-off-by: Scott Wood <oss@buserror.net>
223 lines
8.4 KiB
C
223 lines
8.4 KiB
C
#ifndef _ASM_POWERPC_MMU_8XX_H_
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#define _ASM_POWERPC_MMU_8XX_H_
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/*
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* PPC8xx support
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*/
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/* Control/status registers for the MPC8xx.
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* A write operation to these registers causes serialized access.
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* During software tablewalk, the registers used perform mask/shift-add
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* operations when written/read. A TLB entry is created when the Mx_RPN
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* is written, and the contents of several registers are used to
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* create the entry.
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*/
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#define SPRN_MI_CTR 784 /* Instruction TLB control register */
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#define MI_GPM 0x80000000 /* Set domain manager mode */
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#define MI_PPM 0x40000000 /* Set subpage protection */
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#define MI_CIDEF 0x20000000 /* Set cache inhibit when MMU dis */
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#define MI_RSV4I 0x08000000 /* Reserve 4 TLB entries */
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#define MI_PPCS 0x02000000 /* Use MI_RPN prob/priv state */
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#define MI_IDXMASK 0x00001f00 /* TLB index to be loaded */
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#define MI_RESETVAL 0x00000000 /* Value of register at reset */
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/* These are the Ks and Kp from the PowerPC books. For proper operation,
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* Ks = 0, Kp = 1.
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*/
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#define SPRN_MI_AP 786
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#define MI_Ks 0x80000000 /* Should not be set */
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#define MI_Kp 0x40000000 /* Should always be set */
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/*
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* All pages' PP exec bits are set to 000, which means Execute for Supervisor
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* and no Execute for User.
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* Then we use the APG to say whether accesses are according to Page rules,
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* "all Supervisor" rules (Exec for all) and "all User" rules (Exec for noone)
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* Therefore, we define 4 APG groups. msb is _PAGE_EXEC, lsb is _PAGE_USER
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* 0 (00) => Not User, no exec => 11 (all accesses performed as user)
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* 1 (01) => User but no exec => 11 (all accesses performed as user)
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* 2 (10) => Not User, exec => 01 (rights according to page definition)
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* 3 (11) => User, exec => 00 (all accesses performed as supervisor)
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*/
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#define MI_APG_INIT 0xf4ffffff
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/* The effective page number register. When read, contains the information
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* about the last instruction TLB miss. When MI_RPN is written, bits in
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* this register are used to create the TLB entry.
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*/
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#define SPRN_MI_EPN 787
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#define MI_EPNMASK 0xfffff000 /* Effective page number for entry */
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#define MI_EVALID 0x00000200 /* Entry is valid */
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#define MI_ASIDMASK 0x0000000f /* ASID match value */
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/* Reset value is undefined */
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/* A "level 1" or "segment" or whatever you want to call it register.
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* For the instruction TLB, it contains bits that get loaded into the
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* TLB entry when the MI_RPN is written.
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*/
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#define SPRN_MI_TWC 789
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#define MI_APG 0x000001e0 /* Access protection group (0) */
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#define MI_GUARDED 0x00000010 /* Guarded storage */
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#define MI_PSMASK 0x0000000c /* Mask of page size bits */
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#define MI_PS8MEG 0x0000000c /* 8M page size */
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#define MI_PS512K 0x00000004 /* 512K page size */
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#define MI_PS4K_16K 0x00000000 /* 4K or 16K page size */
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#define MI_SVALID 0x00000001 /* Segment entry is valid */
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/* Reset value is undefined */
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/* Real page number. Defined by the pte. Writing this register
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* causes a TLB entry to be created for the instruction TLB, using
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* additional information from the MI_EPN, and MI_TWC registers.
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*/
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#define SPRN_MI_RPN 790
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#define MI_SPS16K 0x00000008 /* Small page size (0 = 4k, 1 = 16k) */
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/* Define an RPN value for mapping kernel memory to large virtual
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* pages for boot initialization. This has real page number of 0,
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* large page size, shared page, cache enabled, and valid.
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* Also mark all subpages valid and write access.
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*/
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#define MI_BOOTINIT 0x000001fd
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#define SPRN_MD_CTR 792 /* Data TLB control register */
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#define MD_GPM 0x80000000 /* Set domain manager mode */
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#define MD_PPM 0x40000000 /* Set subpage protection */
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#define MD_CIDEF 0x20000000 /* Set cache inhibit when MMU dis */
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#define MD_WTDEF 0x10000000 /* Set writethrough when MMU dis */
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#define MD_RSV4I 0x08000000 /* Reserve 4 TLB entries */
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#define MD_TWAM 0x04000000 /* Use 4K page hardware assist */
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#define MD_PPCS 0x02000000 /* Use MI_RPN prob/priv state */
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#define MD_IDXMASK 0x00001f00 /* TLB index to be loaded */
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#define MD_RESETVAL 0x04000000 /* Value of register at reset */
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#define SPRN_M_CASID 793 /* Address space ID (context) to match */
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#define MC_ASIDMASK 0x0000000f /* Bits used for ASID value */
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/* These are the Ks and Kp from the PowerPC books. For proper operation,
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* Ks = 0, Kp = 1.
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*/
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#define SPRN_MD_AP 794
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#define MD_Ks 0x80000000 /* Should not be set */
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#define MD_Kp 0x40000000 /* Should always be set */
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/*
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* All pages' PP data bits are set to either 000 or 011, which means
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* respectively RW for Supervisor and no access for User, or RO for
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* Supervisor and no access for user.
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* Then we use the APG to say whether accesses are according to Page rules or
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* "all Supervisor" rules (Access to all)
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* Therefore, we define 2 APG groups. lsb is _PAGE_USER
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* 0 => No user => 01 (all accesses performed according to page definition)
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* 1 => User => 00 (all accesses performed as supervisor
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* according to page definition)
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*/
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#define MD_APG_INIT 0x4fffffff
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/* The effective page number register. When read, contains the information
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* about the last instruction TLB miss. When MD_RPN is written, bits in
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* this register are used to create the TLB entry.
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*/
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#define SPRN_MD_EPN 795
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#define MD_EPNMASK 0xfffff000 /* Effective page number for entry */
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#define MD_EVALID 0x00000200 /* Entry is valid */
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#define MD_ASIDMASK 0x0000000f /* ASID match value */
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/* Reset value is undefined */
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/* The pointer to the base address of the first level page table.
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* During a software tablewalk, reading this register provides the address
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* of the entry associated with MD_EPN.
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*/
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#define SPRN_M_TWB 796
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#define M_L1TB 0xfffff000 /* Level 1 table base address */
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#define M_L1INDX 0x00000ffc /* Level 1 index, when read */
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/* Reset value is undefined */
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/* A "level 1" or "segment" or whatever you want to call it register.
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* For the data TLB, it contains bits that get loaded into the TLB entry
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* when the MD_RPN is written. It is also provides the hardware assist
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* for finding the PTE address during software tablewalk.
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*/
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#define SPRN_MD_TWC 797
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#define MD_L2TB 0xfffff000 /* Level 2 table base address */
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#define MD_L2INDX 0xfffffe00 /* Level 2 index (*pte), when read */
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#define MD_APG 0x000001e0 /* Access protection group (0) */
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#define MD_GUARDED 0x00000010 /* Guarded storage */
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#define MD_PSMASK 0x0000000c /* Mask of page size bits */
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#define MD_PS8MEG 0x0000000c /* 8M page size */
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#define MD_PS512K 0x00000004 /* 512K page size */
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#define MD_PS4K_16K 0x00000000 /* 4K or 16K page size */
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#define MD_WT 0x00000002 /* Use writethrough page attribute */
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#define MD_SVALID 0x00000001 /* Segment entry is valid */
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/* Reset value is undefined */
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/* Real page number. Defined by the pte. Writing this register
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* causes a TLB entry to be created for the data TLB, using
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* additional information from the MD_EPN, and MD_TWC registers.
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*/
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#define SPRN_MD_RPN 798
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#define MD_SPS16K 0x00000008 /* Small page size (0 = 4k, 1 = 16k) */
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/* This is a temporary storage register that could be used to save
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* a processor working register during a tablewalk.
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*/
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#define SPRN_M_TW 799
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#ifndef __ASSEMBLY__
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typedef struct {
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unsigned int id;
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unsigned int active;
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unsigned long vdso_base;
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} mm_context_t;
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#define PHYS_IMMR_BASE (mfspr(SPRN_IMMR) & 0xfff80000)
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#define VIRT_IMMR_BASE (__fix_to_virt(FIX_IMMR_BASE))
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/* Page size definitions, common between 32 and 64-bit
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*
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* shift : is the "PAGE_SHIFT" value for that page size
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* penc : is the pte encoding mask
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*
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*/
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struct mmu_psize_def {
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unsigned int shift; /* number of bits */
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unsigned int enc; /* PTE encoding */
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unsigned int ind; /* Corresponding indirect page size shift */
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unsigned int flags;
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#define MMU_PAGE_SIZE_DIRECT 0x1 /* Supported as a direct size */
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#define MMU_PAGE_SIZE_INDIRECT 0x2 /* Supported as an indirect size */
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};
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extern struct mmu_psize_def mmu_psize_defs[MMU_PAGE_COUNT];
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static inline int shift_to_mmu_psize(unsigned int shift)
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{
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int psize;
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for (psize = 0; psize < MMU_PAGE_COUNT; ++psize)
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if (mmu_psize_defs[psize].shift == shift)
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return psize;
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return -1;
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}
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static inline unsigned int mmu_psize_to_shift(unsigned int mmu_psize)
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{
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if (mmu_psize_defs[mmu_psize].shift)
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return mmu_psize_defs[mmu_psize].shift;
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BUG();
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}
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#endif /* !__ASSEMBLY__ */
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#if defined(CONFIG_PPC_4K_PAGES)
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#define mmu_virtual_psize MMU_PAGE_4K
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#elif defined(CONFIG_PPC_16K_PAGES)
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#define mmu_virtual_psize MMU_PAGE_16K
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#else
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#error "Unsupported PAGE_SIZE"
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#endif
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#define mmu_linear_psize MMU_PAGE_8M
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#endif /* _ASM_POWERPC_MMU_8XX_H_ */
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