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[/] [openrisc/] [trunk/] [rtos/] [rtems/] [c/] [src/] [lib/] [libcpu/] [powerpc/] [shared/] [pgtable.h] - Rev 666
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/* * pgtable.h * * PowerPC memory management structures * * It is a stripped down version of linux ppc file... * * Copyright (C) 1999 Eric Valette (valette@crf.canon.fr) * Canon Centre Recherche France. * * The license and distribution terms for this file may be * found in found in the file LICENSE in this distribution or at * http://www.OARcorp.com/rtems/license.html. * * $Id: pgtable.h,v 1.2 2001-09-27 12:01:30 chris Exp $ */ #ifndef _PPC_PGTABLE_H #define _PPC_PGTABLE_H /* * The PowerPC MMU uses a hash table containing PTEs, together with * a set of 16 segment registers (on 32-bit implementations), to define * the virtual to physical address mapping. * * We use the hash table as an extended TLB, i.e. a cache of currently * active mappings. We maintain a two-level page table tree, much like * that used by the i386, for the sake of the Linux memory management code. * Low-level assembler code in head.S (procedure hash_page) is responsible * for extracting ptes from the tree and putting them into the hash table * when necessary, and updating the accessed and modified bits in the * page table tree. * * The PowerPC MPC8xx uses a TLB with hardware assisted, software tablewalk. * We also use the two level tables, but we can put the real bits in them * needed for the TLB and tablewalk. These definitions require Mx_CTR.PPM = 0, * Mx_CTR.PPCS = 0, and MD_CTR.TWAM = 1. The level 2 descriptor has * additional page protection (when Mx_CTR.PPCS = 1) that allows TLB hit * based upon user/super access. The TLB does not have accessed nor write * protect. We assume that if the TLB get loaded with an entry it is * accessed, and overload the changed bit for write protect. We use * two bits in the software pte that are supposed to be set to zero in * the TLB entry (24 and 25) for these indicators. Although the level 1 * descriptor contains the guarded and writethrough/copyback bits, we can * set these at the page level since they get copied from the Mx_TWC * register when the TLB entry is loaded. We will use bit 27 for guard, since * that is where it exists in the MD_TWC, and bit 26 for writethrough. * These will get masked from the level 2 descriptor at TLB load time, and * copied to the MD_TWC before it gets loaded. */ /* PMD_SHIFT determines the size of the area mapped by the second-level page tables */ #define PMD_SHIFT 22 #define PMD_SIZE (1UL << PMD_SHIFT) #define PMD_MASK (~(PMD_SIZE-1)) /* PGDIR_SHIFT determines what a third-level page table entry can map */ #define PGDIR_SHIFT 22 #define PGDIR_SIZE (1UL << PGDIR_SHIFT) #define PGDIR_MASK (~(PGDIR_SIZE-1)) /* * entries per page directory level: our page-table tree is two-level, so * we don't really have any PMD directory. */ #define PTRS_PER_PTE 1024 #define PTRS_PER_PMD 1 #define PTRS_PER_PGD 1024 #define USER_PTRS_PER_PGD (TASK_SIZE / PGDIR_SIZE) /* Just any arbitrary offset to the start of the vmalloc VM area: the * current 64MB value just means that there will be a 64MB "hole" after the * physical memory until the kernel virtual memory starts. That means that * any out-of-bounds memory accesses will hopefully be caught. * The vmalloc() routines leaves a hole of 4kB between each vmalloced * area for the same reason. ;) * * We no longer map larger than phys RAM with the BATs so we don't have * to worry about the VMALLOC_OFFSET causing problems. We do have to worry * about clashes between our early calls to ioremap() that start growing down * from ioremap_base being run into the VM area allocations (growing upwards * from VMALLOC_START). For this reason we have ioremap_bot to check when * we actually run into our mappings setup in the early boot with the VM * system. This really does become a problem for machines with good amounts * of RAM. -- Cort */ #define VMALLOC_OFFSET (0x4000000) /* 64M */ #define VMALLOC_START ((((long)high_memory + VMALLOC_OFFSET) & ~(VMALLOC_OFFSET-1))) #define VMALLOC_VMADDR(x) ((unsigned long)(x)) #define VMALLOC_END ioremap_bot /* * Bits in a linux-style PTE. These match the bits in the * (hardware-defined) PowerPC PTE as closely as possible. */ #define _PAGE_PRESENT 0x001 /* software: pte contains a translation */ #define _PAGE_USER 0x002 /* matches one of the PP bits */ #define _PAGE_RW 0x004 /* software: user write access allowed */ #define _PAGE_GUARDED 0x008 #define _PAGE_COHERENT 0x010 /* M: enforce memory coherence (SMP systems) */ #define _PAGE_NO_CACHE 0x020 /* I: cache inhibit */ #define _PAGE_WRITETHRU 0x040 /* W: cache write-through */ #define _PAGE_DIRTY 0x080 /* C: page changed */ #define _PAGE_ACCESSED 0x100 /* R: page referenced */ #define _PAGE_HWWRITE 0x200 /* software: _PAGE_RW & _PAGE_DIRTY */ #define _PAGE_SHARED 0 #define _PAGE_CHG_MASK (PAGE_MASK | _PAGE_ACCESSED | _PAGE_DIRTY) #define _PAGE_BASE _PAGE_PRESENT | _PAGE_ACCESSED #define _PAGE_WRENABLE _PAGE_RW | _PAGE_DIRTY | _PAGE_HWWRITE #define PAGE_NONE __pgprot(_PAGE_PRESENT | _PAGE_ACCESSED) #define PAGE_SHARED __pgprot(_PAGE_BASE | _PAGE_RW | _PAGE_USER | \ _PAGE_SHARED) #define PAGE_COPY __pgprot(_PAGE_BASE | _PAGE_USER) #define PAGE_READONLY __pgprot(_PAGE_BASE | _PAGE_USER) #define PAGE_KERNEL __pgprot(_PAGE_BASE | _PAGE_WRENABLE | _PAGE_SHARED) #define PAGE_KERNEL_CI __pgprot(_PAGE_BASE | _PAGE_WRENABLE | _PAGE_SHARED | \ _PAGE_NO_CACHE ) /* * The PowerPC can only do execute protection on a segment (256MB) basis, * not on a page basis. So we consider execute permission the same as read. * Also, write permissions imply read permissions. * This is the closest we can get.. */ #define __P000 PAGE_NONE #define __P001 PAGE_READONLY #define __P010 PAGE_COPY #define __P011 PAGE_COPY #define __P100 PAGE_READONLY #define __P101 PAGE_READONLY #define __P110 PAGE_COPY #define __P111 PAGE_COPY #define __S000 PAGE_NONE #define __S001 PAGE_READONLY #define __S010 PAGE_SHARED #define __S011 PAGE_SHARED #define __S100 PAGE_READONLY #define __S101 PAGE_READONLY #define __S110 PAGE_SHARED #define __S111 PAGE_SHARED #endif /* _PPC_PGTABLE_H */
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