859 lines
21 KiB
C
859 lines
21 KiB
C
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/* SPDX-License-Identifier: GPL-2.0-only */
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/*
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* Copyright (C) 2012 Regents of the University of California
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*/
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#ifndef _ASM_RISCV_PGTABLE_H
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#define _ASM_RISCV_PGTABLE_H
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#include <linux/mmzone.h>
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#include <linux/sizes.h>
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#include <asm/pgtable-bits.h>
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#ifndef CONFIG_MMU
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#define KERNEL_LINK_ADDR PAGE_OFFSET
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#define KERN_VIRT_SIZE (UL(-1))
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#else
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#define ADDRESS_SPACE_END (UL(-1))
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#ifdef CONFIG_64BIT
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/* Leave 2GB for kernel and BPF at the end of the address space */
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#define KERNEL_LINK_ADDR (ADDRESS_SPACE_END - SZ_2G + 1)
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#else
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#define KERNEL_LINK_ADDR PAGE_OFFSET
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#endif
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/* Number of entries in the page global directory */
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#define PTRS_PER_PGD (PAGE_SIZE / sizeof(pgd_t))
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/* Number of entries in the page table */
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#define PTRS_PER_PTE (PAGE_SIZE / sizeof(pte_t))
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/*
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* Half of the kernel address space (1/4 of the entries of the page global
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* directory) is for the direct mapping.
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*/
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#define KERN_VIRT_SIZE ((PTRS_PER_PGD / 2 * PGDIR_SIZE) / 2)
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#define VMALLOC_SIZE (KERN_VIRT_SIZE >> 1)
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#define VMALLOC_END PAGE_OFFSET
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#define VMALLOC_START (PAGE_OFFSET - VMALLOC_SIZE)
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#define BPF_JIT_REGION_SIZE (SZ_128M)
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#ifdef CONFIG_64BIT
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#define BPF_JIT_REGION_START (BPF_JIT_REGION_END - BPF_JIT_REGION_SIZE)
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#define BPF_JIT_REGION_END (MODULES_END)
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#else
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#define BPF_JIT_REGION_START (PAGE_OFFSET - BPF_JIT_REGION_SIZE)
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#define BPF_JIT_REGION_END (VMALLOC_END)
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#endif
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/* Modules always live before the kernel */
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#ifdef CONFIG_64BIT
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/* This is used to define the end of the KASAN shadow region */
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#define MODULES_LOWEST_VADDR (KERNEL_LINK_ADDR - SZ_2G)
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#define MODULES_VADDR (PFN_ALIGN((unsigned long)&_end) - SZ_2G)
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#define MODULES_END (PFN_ALIGN((unsigned long)&_start))
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#endif
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/*
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* Roughly size the vmemmap space to be large enough to fit enough
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* struct pages to map half the virtual address space. Then
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* position vmemmap directly below the VMALLOC region.
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*/
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#ifdef CONFIG_64BIT
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#define VA_BITS (pgtable_l5_enabled ? \
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57 : (pgtable_l4_enabled ? 48 : 39))
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#else
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#define VA_BITS 32
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#endif
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#define VMEMMAP_SHIFT \
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(VA_BITS - PAGE_SHIFT - 1 + STRUCT_PAGE_MAX_SHIFT)
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#define VMEMMAP_SIZE BIT(VMEMMAP_SHIFT)
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#define VMEMMAP_END VMALLOC_START
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#define VMEMMAP_START (VMALLOC_START - VMEMMAP_SIZE)
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/*
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* Define vmemmap for pfn_to_page & page_to_pfn calls. Needed if kernel
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* is configured with CONFIG_SPARSEMEM_VMEMMAP enabled.
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*/
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#define vmemmap ((struct page *)VMEMMAP_START)
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#define PCI_IO_SIZE SZ_16M
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#define PCI_IO_END VMEMMAP_START
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#define PCI_IO_START (PCI_IO_END - PCI_IO_SIZE)
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#define FIXADDR_TOP PCI_IO_START
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#ifdef CONFIG_64BIT
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#define MAX_FDT_SIZE PMD_SIZE
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#define FIX_FDT_SIZE (MAX_FDT_SIZE + SZ_2M)
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#define FIXADDR_SIZE (PMD_SIZE + FIX_FDT_SIZE)
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#else
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#define MAX_FDT_SIZE PGDIR_SIZE
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#define FIX_FDT_SIZE MAX_FDT_SIZE
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#define FIXADDR_SIZE (PGDIR_SIZE + FIX_FDT_SIZE)
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#endif
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#define FIXADDR_START (FIXADDR_TOP - FIXADDR_SIZE)
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#endif
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#ifdef CONFIG_XIP_KERNEL
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#define XIP_OFFSET SZ_32M
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#define XIP_OFFSET_MASK (SZ_32M - 1)
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#else
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#define XIP_OFFSET 0
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#endif
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#ifndef __ASSEMBLY__
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#include <asm/page.h>
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#include <asm/tlbflush.h>
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#include <linux/mm_types.h>
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#define __page_val_to_pfn(_val) (((_val) & _PAGE_PFN_MASK) >> _PAGE_PFN_SHIFT)
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#ifdef CONFIG_64BIT
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#include <asm/pgtable-64.h>
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#else
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#include <asm/pgtable-32.h>
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#endif /* CONFIG_64BIT */
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#include <linux/page_table_check.h>
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#ifdef CONFIG_XIP_KERNEL
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#define XIP_FIXUP(addr) ({ \
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uintptr_t __a = (uintptr_t)(addr); \
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(__a >= CONFIG_XIP_PHYS_ADDR && \
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__a < CONFIG_XIP_PHYS_ADDR + XIP_OFFSET * 2) ? \
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__a - CONFIG_XIP_PHYS_ADDR + CONFIG_PHYS_RAM_BASE - XIP_OFFSET :\
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__a; \
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})
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#else
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#define XIP_FIXUP(addr) (addr)
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#endif /* CONFIG_XIP_KERNEL */
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struct pt_alloc_ops {
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pte_t *(*get_pte_virt)(phys_addr_t pa);
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phys_addr_t (*alloc_pte)(uintptr_t va);
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#ifndef __PAGETABLE_PMD_FOLDED
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pmd_t *(*get_pmd_virt)(phys_addr_t pa);
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phys_addr_t (*alloc_pmd)(uintptr_t va);
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pud_t *(*get_pud_virt)(phys_addr_t pa);
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phys_addr_t (*alloc_pud)(uintptr_t va);
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p4d_t *(*get_p4d_virt)(phys_addr_t pa);
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phys_addr_t (*alloc_p4d)(uintptr_t va);
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#endif
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};
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extern struct pt_alloc_ops pt_ops __initdata;
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#ifdef CONFIG_MMU
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/* Number of PGD entries that a user-mode program can use */
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#define USER_PTRS_PER_PGD (TASK_SIZE / PGDIR_SIZE)
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/* Page protection bits */
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#define _PAGE_BASE (_PAGE_PRESENT | _PAGE_ACCESSED | _PAGE_USER)
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#define PAGE_NONE __pgprot(_PAGE_PROT_NONE | _PAGE_READ)
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#define PAGE_READ __pgprot(_PAGE_BASE | _PAGE_READ)
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#define PAGE_WRITE __pgprot(_PAGE_BASE | _PAGE_READ | _PAGE_WRITE)
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#define PAGE_EXEC __pgprot(_PAGE_BASE | _PAGE_EXEC)
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#define PAGE_READ_EXEC __pgprot(_PAGE_BASE | _PAGE_READ | _PAGE_EXEC)
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#define PAGE_WRITE_EXEC __pgprot(_PAGE_BASE | _PAGE_READ | \
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_PAGE_EXEC | _PAGE_WRITE)
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#define PAGE_COPY PAGE_READ
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#define PAGE_COPY_EXEC PAGE_READ_EXEC
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#define PAGE_SHARED PAGE_WRITE
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#define PAGE_SHARED_EXEC PAGE_WRITE_EXEC
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#define _PAGE_KERNEL (_PAGE_READ \
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| _PAGE_WRITE \
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| _PAGE_PRESENT \
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| _PAGE_ACCESSED \
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| _PAGE_DIRTY \
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| _PAGE_GLOBAL)
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#define PAGE_KERNEL __pgprot(_PAGE_KERNEL)
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#define PAGE_KERNEL_READ __pgprot(_PAGE_KERNEL & ~_PAGE_WRITE)
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#define PAGE_KERNEL_EXEC __pgprot(_PAGE_KERNEL | _PAGE_EXEC)
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#define PAGE_KERNEL_READ_EXEC __pgprot((_PAGE_KERNEL & ~_PAGE_WRITE) \
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| _PAGE_EXEC)
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#define PAGE_TABLE __pgprot(_PAGE_TABLE)
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#define _PAGE_IOREMAP ((_PAGE_KERNEL & ~_PAGE_MTMASK) | _PAGE_IO)
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#define PAGE_KERNEL_IO __pgprot(_PAGE_IOREMAP)
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extern pgd_t swapper_pg_dir[];
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#ifdef CONFIG_TRANSPARENT_HUGEPAGE
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static inline int pmd_present(pmd_t pmd)
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{
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/*
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* Checking for _PAGE_LEAF is needed too because:
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* When splitting a THP, split_huge_page() will temporarily clear
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* the present bit, in this situation, pmd_present() and
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* pmd_trans_huge() still needs to return true.
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*/
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return (pmd_val(pmd) & (_PAGE_PRESENT | _PAGE_PROT_NONE | _PAGE_LEAF));
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}
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#else
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static inline int pmd_present(pmd_t pmd)
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{
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return (pmd_val(pmd) & (_PAGE_PRESENT | _PAGE_PROT_NONE));
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}
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#endif
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static inline int pmd_none(pmd_t pmd)
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{
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return (pmd_val(pmd) == 0);
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}
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static inline int pmd_bad(pmd_t pmd)
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{
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return !pmd_present(pmd) || (pmd_val(pmd) & _PAGE_LEAF);
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}
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#define pmd_leaf pmd_leaf
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static inline int pmd_leaf(pmd_t pmd)
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{
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return pmd_present(pmd) && (pmd_val(pmd) & _PAGE_LEAF);
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}
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static inline void set_pmd(pmd_t *pmdp, pmd_t pmd)
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{
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*pmdp = pmd;
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}
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static inline void pmd_clear(pmd_t *pmdp)
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{
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set_pmd(pmdp, __pmd(0));
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}
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static inline pgd_t pfn_pgd(unsigned long pfn, pgprot_t prot)
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{
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unsigned long prot_val = pgprot_val(prot);
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ALT_THEAD_PMA(prot_val);
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return __pgd((pfn << _PAGE_PFN_SHIFT) | prot_val);
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}
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static inline unsigned long _pgd_pfn(pgd_t pgd)
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{
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return __page_val_to_pfn(pgd_val(pgd));
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}
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static inline struct page *pmd_page(pmd_t pmd)
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{
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return pfn_to_page(__page_val_to_pfn(pmd_val(pmd)));
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}
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static inline unsigned long pmd_page_vaddr(pmd_t pmd)
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{
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return (unsigned long)pfn_to_virt(__page_val_to_pfn(pmd_val(pmd)));
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}
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static inline pte_t pmd_pte(pmd_t pmd)
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{
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return __pte(pmd_val(pmd));
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}
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static inline pte_t pud_pte(pud_t pud)
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{
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return __pte(pud_val(pud));
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}
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/* Yields the page frame number (PFN) of a page table entry */
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static inline unsigned long pte_pfn(pte_t pte)
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{
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return __page_val_to_pfn(pte_val(pte));
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}
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#define pte_page(x) pfn_to_page(pte_pfn(x))
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/* Constructs a page table entry */
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static inline pte_t pfn_pte(unsigned long pfn, pgprot_t prot)
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{
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unsigned long prot_val = pgprot_val(prot);
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ALT_THEAD_PMA(prot_val);
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return __pte((pfn << _PAGE_PFN_SHIFT) | prot_val);
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}
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#define mk_pte(page, prot) pfn_pte(page_to_pfn(page), prot)
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static inline int pte_present(pte_t pte)
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{
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return (pte_val(pte) & (_PAGE_PRESENT | _PAGE_PROT_NONE));
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}
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static inline int pte_none(pte_t pte)
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{
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return (pte_val(pte) == 0);
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}
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static inline int pte_write(pte_t pte)
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{
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return pte_val(pte) & _PAGE_WRITE;
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}
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static inline int pte_exec(pte_t pte)
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{
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return pte_val(pte) & _PAGE_EXEC;
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}
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static inline int pte_user(pte_t pte)
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{
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return pte_val(pte) & _PAGE_USER;
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}
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static inline int pte_huge(pte_t pte)
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{
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return pte_present(pte) && (pte_val(pte) & _PAGE_LEAF);
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}
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static inline int pte_dirty(pte_t pte)
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{
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return pte_val(pte) & _PAGE_DIRTY;
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}
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static inline int pte_young(pte_t pte)
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{
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return pte_val(pte) & _PAGE_ACCESSED;
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}
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static inline int pte_special(pte_t pte)
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{
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return pte_val(pte) & _PAGE_SPECIAL;
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}
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/* static inline pte_t pte_rdprotect(pte_t pte) */
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static inline pte_t pte_wrprotect(pte_t pte)
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{
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return __pte(pte_val(pte) & ~(_PAGE_WRITE));
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}
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/* static inline pte_t pte_mkread(pte_t pte) */
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static inline pte_t pte_mkwrite(pte_t pte)
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{
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return __pte(pte_val(pte) | _PAGE_WRITE);
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}
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/* static inline pte_t pte_mkexec(pte_t pte) */
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static inline pte_t pte_mkdirty(pte_t pte)
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{
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return __pte(pte_val(pte) | _PAGE_DIRTY);
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}
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static inline pte_t pte_mkclean(pte_t pte)
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{
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return __pte(pte_val(pte) & ~(_PAGE_DIRTY));
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}
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static inline pte_t pte_mkyoung(pte_t pte)
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{
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return __pte(pte_val(pte) | _PAGE_ACCESSED);
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}
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static inline pte_t pte_mkold(pte_t pte)
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{
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return __pte(pte_val(pte) & ~(_PAGE_ACCESSED));
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}
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static inline pte_t pte_mkspecial(pte_t pte)
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{
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return __pte(pte_val(pte) | _PAGE_SPECIAL);
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}
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static inline pte_t pte_mkhuge(pte_t pte)
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{
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return pte;
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}
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#ifdef CONFIG_NUMA_BALANCING
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/*
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* See the comment in include/asm-generic/pgtable.h
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*/
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static inline int pte_protnone(pte_t pte)
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{
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return (pte_val(pte) & (_PAGE_PRESENT | _PAGE_PROT_NONE)) == _PAGE_PROT_NONE;
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}
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static inline int pmd_protnone(pmd_t pmd)
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{
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return pte_protnone(pmd_pte(pmd));
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}
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#endif
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/* Modify page protection bits */
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static inline pte_t pte_modify(pte_t pte, pgprot_t newprot)
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{
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unsigned long newprot_val = pgprot_val(newprot);
|
|||
|
|
|||
|
ALT_THEAD_PMA(newprot_val);
|
|||
|
|
|||
|
return __pte((pte_val(pte) & _PAGE_CHG_MASK) | newprot_val);
|
|||
|
}
|
|||
|
|
|||
|
#define pgd_ERROR(e) \
|
|||
|
pr_err("%s:%d: bad pgd " PTE_FMT ".\n", __FILE__, __LINE__, pgd_val(e))
|
|||
|
|
|||
|
|
|||
|
/* Commit new configuration to MMU hardware */
|
|||
|
static inline void update_mmu_cache(struct vm_area_struct *vma,
|
|||
|
unsigned long address, pte_t *ptep)
|
|||
|
{
|
|||
|
/*
|
|||
|
* The kernel assumes that TLBs don't cache invalid entries, but
|
|||
|
* in RISC-V, SFENCE.VMA specifies an ordering constraint, not a
|
|||
|
* cache flush; it is necessary even after writing invalid entries.
|
|||
|
* Relying on flush_tlb_fix_spurious_fault would suffice, but
|
|||
|
* the extra traps reduce performance. So, eagerly SFENCE.VMA.
|
|||
|
*/
|
|||
|
local_flush_tlb_page(address);
|
|||
|
}
|
|||
|
|
|||
|
#define __HAVE_ARCH_UPDATE_MMU_TLB
|
|||
|
#define update_mmu_tlb update_mmu_cache
|
|||
|
|
|||
|
static inline void update_mmu_cache_pmd(struct vm_area_struct *vma,
|
|||
|
unsigned long address, pmd_t *pmdp)
|
|||
|
{
|
|||
|
pte_t *ptep = (pte_t *)pmdp;
|
|||
|
|
|||
|
update_mmu_cache(vma, address, ptep);
|
|||
|
}
|
|||
|
|
|||
|
#define __HAVE_ARCH_PTE_SAME
|
|||
|
static inline int pte_same(pte_t pte_a, pte_t pte_b)
|
|||
|
{
|
|||
|
return pte_val(pte_a) == pte_val(pte_b);
|
|||
|
}
|
|||
|
|
|||
|
/*
|
|||
|
* Certain architectures need to do special things when PTEs within
|
|||
|
* a page table are directly modified. Thus, the following hook is
|
|||
|
* made available.
|
|||
|
*/
|
|||
|
static inline void set_pte(pte_t *ptep, pte_t pteval)
|
|||
|
{
|
|||
|
*ptep = pteval;
|
|||
|
}
|
|||
|
|
|||
|
void flush_icache_pte(pte_t pte);
|
|||
|
|
|||
|
static inline void __set_pte_at(struct mm_struct *mm,
|
|||
|
unsigned long addr, pte_t *ptep, pte_t pteval)
|
|||
|
{
|
|||
|
if (pte_present(pteval) && pte_exec(pteval))
|
|||
|
flush_icache_pte(pteval);
|
|||
|
|
|||
|
set_pte(ptep, pteval);
|
|||
|
}
|
|||
|
|
|||
|
static inline void set_pte_at(struct mm_struct *mm,
|
|||
|
unsigned long addr, pte_t *ptep, pte_t pteval)
|
|||
|
{
|
|||
|
page_table_check_pte_set(mm, addr, ptep, pteval);
|
|||
|
__set_pte_at(mm, addr, ptep, pteval);
|
|||
|
}
|
|||
|
|
|||
|
static inline void pte_clear(struct mm_struct *mm,
|
|||
|
unsigned long addr, pte_t *ptep)
|
|||
|
{
|
|||
|
__set_pte_at(mm, addr, ptep, __pte(0));
|
|||
|
}
|
|||
|
|
|||
|
#define __HAVE_ARCH_PTEP_SET_ACCESS_FLAGS
|
|||
|
static inline int ptep_set_access_flags(struct vm_area_struct *vma,
|
|||
|
unsigned long address, pte_t *ptep,
|
|||
|
pte_t entry, int dirty)
|
|||
|
{
|
|||
|
if (!pte_same(*ptep, entry))
|
|||
|
set_pte_at(vma->vm_mm, address, ptep, entry);
|
|||
|
/*
|
|||
|
* update_mmu_cache will unconditionally execute, handling both
|
|||
|
* the case that the PTE changed and the spurious fault case.
|
|||
|
*/
|
|||
|
return true;
|
|||
|
}
|
|||
|
|
|||
|
#define __HAVE_ARCH_PTEP_GET_AND_CLEAR
|
|||
|
static inline pte_t ptep_get_and_clear(struct mm_struct *mm,
|
|||
|
unsigned long address, pte_t *ptep)
|
|||
|
{
|
|||
|
pte_t pte = __pte(atomic_long_xchg((atomic_long_t *)ptep, 0));
|
|||
|
|
|||
|
page_table_check_pte_clear(mm, address, pte);
|
|||
|
|
|||
|
return pte;
|
|||
|
}
|
|||
|
|
|||
|
#define __HAVE_ARCH_PTEP_TEST_AND_CLEAR_YOUNG
|
|||
|
static inline int ptep_test_and_clear_young(struct vm_area_struct *vma,
|
|||
|
unsigned long address,
|
|||
|
pte_t *ptep)
|
|||
|
{
|
|||
|
if (!pte_young(*ptep))
|
|||
|
return 0;
|
|||
|
return test_and_clear_bit(_PAGE_ACCESSED_OFFSET, &pte_val(*ptep));
|
|||
|
}
|
|||
|
|
|||
|
#define __HAVE_ARCH_PTEP_SET_WRPROTECT
|
|||
|
static inline void ptep_set_wrprotect(struct mm_struct *mm,
|
|||
|
unsigned long address, pte_t *ptep)
|
|||
|
{
|
|||
|
atomic_long_and(~(unsigned long)_PAGE_WRITE, (atomic_long_t *)ptep);
|
|||
|
}
|
|||
|
|
|||
|
#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)
|
|||
|
{
|
|||
|
/*
|
|||
|
* This comment is borrowed from x86, but applies equally to RISC-V:
|
|||
|
*
|
|||
|
* Clearing the accessed bit without a TLB flush
|
|||
|
* doesn't cause data corruption. [ It could cause incorrect
|
|||
|
* page aging and the (mistaken) reclaim of hot pages, but the
|
|||
|
* chance of that should be relatively low. ]
|
|||
|
*
|
|||
|
* So as a performance optimization don't flush the TLB when
|
|||
|
* clearing the accessed bit, it will eventually be flushed by
|
|||
|
* a context switch or a VM operation anyway. [ In the rare
|
|||
|
* event of it not getting flushed for a long time the delay
|
|||
|
* shouldn't really matter because there's no real memory
|
|||
|
* pressure for swapout to react to. ]
|
|||
|
*/
|
|||
|
return ptep_test_and_clear_young(vma, address, ptep);
|
|||
|
}
|
|||
|
|
|||
|
#define pgprot_noncached pgprot_noncached
|
|||
|
static inline pgprot_t pgprot_noncached(pgprot_t _prot)
|
|||
|
{
|
|||
|
unsigned long prot = pgprot_val(_prot);
|
|||
|
|
|||
|
prot &= ~_PAGE_MTMASK;
|
|||
|
prot |= _PAGE_IO;
|
|||
|
|
|||
|
return __pgprot(prot);
|
|||
|
}
|
|||
|
|
|||
|
#define pgprot_writecombine pgprot_writecombine
|
|||
|
static inline pgprot_t pgprot_writecombine(pgprot_t _prot)
|
|||
|
{
|
|||
|
unsigned long prot = pgprot_val(_prot);
|
|||
|
|
|||
|
prot &= ~_PAGE_MTMASK;
|
|||
|
prot |= _PAGE_NOCACHE;
|
|||
|
|
|||
|
return __pgprot(prot);
|
|||
|
}
|
|||
|
|
|||
|
/*
|
|||
|
* THP functions
|
|||
|
*/
|
|||
|
static inline pmd_t pte_pmd(pte_t pte)
|
|||
|
{
|
|||
|
return __pmd(pte_val(pte));
|
|||
|
}
|
|||
|
|
|||
|
static inline pmd_t pmd_mkhuge(pmd_t pmd)
|
|||
|
{
|
|||
|
return pmd;
|
|||
|
}
|
|||
|
|
|||
|
static inline pmd_t pmd_mkinvalid(pmd_t pmd)
|
|||
|
{
|
|||
|
return __pmd(pmd_val(pmd) & ~(_PAGE_PRESENT|_PAGE_PROT_NONE));
|
|||
|
}
|
|||
|
|
|||
|
#define __pmd_to_phys(pmd) (__page_val_to_pfn(pmd_val(pmd)) << PAGE_SHIFT)
|
|||
|
|
|||
|
static inline unsigned long pmd_pfn(pmd_t pmd)
|
|||
|
{
|
|||
|
return ((__pmd_to_phys(pmd) & PMD_MASK) >> PAGE_SHIFT);
|
|||
|
}
|
|||
|
|
|||
|
#define __pud_to_phys(pud) (__page_val_to_pfn(pud_val(pud)) << PAGE_SHIFT)
|
|||
|
|
|||
|
static inline unsigned long pud_pfn(pud_t pud)
|
|||
|
{
|
|||
|
return ((__pud_to_phys(pud) & PUD_MASK) >> PAGE_SHIFT);
|
|||
|
}
|
|||
|
|
|||
|
static inline pmd_t pmd_modify(pmd_t pmd, pgprot_t newprot)
|
|||
|
{
|
|||
|
return pte_pmd(pte_modify(pmd_pte(pmd), newprot));
|
|||
|
}
|
|||
|
|
|||
|
#define pmd_write pmd_write
|
|||
|
static inline int pmd_write(pmd_t pmd)
|
|||
|
{
|
|||
|
return pte_write(pmd_pte(pmd));
|
|||
|
}
|
|||
|
|
|||
|
static inline int pmd_dirty(pmd_t pmd)
|
|||
|
{
|
|||
|
return pte_dirty(pmd_pte(pmd));
|
|||
|
}
|
|||
|
|
|||
|
#define pmd_young pmd_young
|
|||
|
static inline int pmd_young(pmd_t pmd)
|
|||
|
{
|
|||
|
return pte_young(pmd_pte(pmd));
|
|||
|
}
|
|||
|
|
|||
|
static inline int pmd_user(pmd_t pmd)
|
|||
|
{
|
|||
|
return pte_user(pmd_pte(pmd));
|
|||
|
}
|
|||
|
|
|||
|
static inline pmd_t pmd_mkold(pmd_t pmd)
|
|||
|
{
|
|||
|
return pte_pmd(pte_mkold(pmd_pte(pmd)));
|
|||
|
}
|
|||
|
|
|||
|
static inline pmd_t pmd_mkyoung(pmd_t pmd)
|
|||
|
{
|
|||
|
return pte_pmd(pte_mkyoung(pmd_pte(pmd)));
|
|||
|
}
|
|||
|
|
|||
|
static inline pmd_t pmd_mkwrite(pmd_t pmd)
|
|||
|
{
|
|||
|
return pte_pmd(pte_mkwrite(pmd_pte(pmd)));
|
|||
|
}
|
|||
|
|
|||
|
static inline pmd_t pmd_wrprotect(pmd_t pmd)
|
|||
|
{
|
|||
|
return pte_pmd(pte_wrprotect(pmd_pte(pmd)));
|
|||
|
}
|
|||
|
|
|||
|
static inline pmd_t pmd_mkclean(pmd_t pmd)
|
|||
|
{
|
|||
|
return pte_pmd(pte_mkclean(pmd_pte(pmd)));
|
|||
|
}
|
|||
|
|
|||
|
static inline pmd_t pmd_mkdirty(pmd_t pmd)
|
|||
|
{
|
|||
|
return pte_pmd(pte_mkdirty(pmd_pte(pmd)));
|
|||
|
}
|
|||
|
|
|||
|
static inline void set_pmd_at(struct mm_struct *mm, unsigned long addr,
|
|||
|
pmd_t *pmdp, pmd_t pmd)
|
|||
|
{
|
|||
|
page_table_check_pmd_set(mm, addr, pmdp, pmd);
|
|||
|
return __set_pte_at(mm, addr, (pte_t *)pmdp, pmd_pte(pmd));
|
|||
|
}
|
|||
|
|
|||
|
static inline void set_pud_at(struct mm_struct *mm, unsigned long addr,
|
|||
|
pud_t *pudp, pud_t pud)
|
|||
|
{
|
|||
|
page_table_check_pud_set(mm, addr, pudp, pud);
|
|||
|
return __set_pte_at(mm, addr, (pte_t *)pudp, pud_pte(pud));
|
|||
|
}
|
|||
|
|
|||
|
#ifdef CONFIG_PAGE_TABLE_CHECK
|
|||
|
static inline bool pte_user_accessible_page(pte_t pte)
|
|||
|
{
|
|||
|
return pte_present(pte) && pte_user(pte);
|
|||
|
}
|
|||
|
|
|||
|
static inline bool pmd_user_accessible_page(pmd_t pmd)
|
|||
|
{
|
|||
|
return pmd_leaf(pmd) && pmd_user(pmd);
|
|||
|
}
|
|||
|
|
|||
|
static inline bool pud_user_accessible_page(pud_t pud)
|
|||
|
{
|
|||
|
return pud_leaf(pud) && pud_user(pud);
|
|||
|
}
|
|||
|
#endif
|
|||
|
|
|||
|
#ifdef CONFIG_TRANSPARENT_HUGEPAGE
|
|||
|
static inline int pmd_trans_huge(pmd_t pmd)
|
|||
|
{
|
|||
|
return pmd_leaf(pmd);
|
|||
|
}
|
|||
|
|
|||
|
#define __HAVE_ARCH_PMDP_SET_ACCESS_FLAGS
|
|||
|
static inline int pmdp_set_access_flags(struct vm_area_struct *vma,
|
|||
|
unsigned long address, pmd_t *pmdp,
|
|||
|
pmd_t entry, int dirty)
|
|||
|
{
|
|||
|
return ptep_set_access_flags(vma, address, (pte_t *)pmdp, pmd_pte(entry), dirty);
|
|||
|
}
|
|||
|
|
|||
|
#define __HAVE_ARCH_PMDP_TEST_AND_CLEAR_YOUNG
|
|||
|
static inline int pmdp_test_and_clear_young(struct vm_area_struct *vma,
|
|||
|
unsigned long address, pmd_t *pmdp)
|
|||
|
{
|
|||
|
return ptep_test_and_clear_young(vma, address, (pte_t *)pmdp);
|
|||
|
}
|
|||
|
|
|||
|
#define __HAVE_ARCH_PMDP_HUGE_GET_AND_CLEAR
|
|||
|
static inline pmd_t pmdp_huge_get_and_clear(struct mm_struct *mm,
|
|||
|
unsigned long address, pmd_t *pmdp)
|
|||
|
{
|
|||
|
pmd_t pmd = __pmd(atomic_long_xchg((atomic_long_t *)pmdp, 0));
|
|||
|
|
|||
|
page_table_check_pmd_clear(mm, address, pmd);
|
|||
|
|
|||
|
return pmd;
|
|||
|
}
|
|||
|
|
|||
|
#define __HAVE_ARCH_PMDP_SET_WRPROTECT
|
|||
|
static inline void pmdp_set_wrprotect(struct mm_struct *mm,
|
|||
|
unsigned long address, pmd_t *pmdp)
|
|||
|
{
|
|||
|
ptep_set_wrprotect(mm, address, (pte_t *)pmdp);
|
|||
|
}
|
|||
|
|
|||
|
#define pmdp_establish pmdp_establish
|
|||
|
static inline pmd_t pmdp_establish(struct vm_area_struct *vma,
|
|||
|
unsigned long address, pmd_t *pmdp, pmd_t pmd)
|
|||
|
{
|
|||
|
page_table_check_pmd_set(vma->vm_mm, address, pmdp, pmd);
|
|||
|
return __pmd(atomic_long_xchg((atomic_long_t *)pmdp, pmd_val(pmd)));
|
|||
|
}
|
|||
|
|
|||
|
#define pmdp_collapse_flush pmdp_collapse_flush
|
|||
|
extern pmd_t pmdp_collapse_flush(struct vm_area_struct *vma,
|
|||
|
unsigned long address, pmd_t *pmdp);
|
|||
|
#endif /* CONFIG_TRANSPARENT_HUGEPAGE */
|
|||
|
|
|||
|
/*
|
|||
|
* Encode/decode swap entries and swap PTEs. Swap PTEs are all PTEs that
|
|||
|
* are !pte_none() && !pte_present().
|
|||
|
*
|
|||
|
* Format of swap PTE:
|
|||
|
* bit 0: _PAGE_PRESENT (zero)
|
|||
|
* bit 1 to 3: _PAGE_LEAF (zero)
|
|||
|
* bit 5: _PAGE_PROT_NONE (zero)
|
|||
|
* bit 6: exclusive marker
|
|||
|
* bits 7 to 11: swap type
|
|||
|
* bits 11 to XLEN-1: swap offset
|
|||
|
*/
|
|||
|
#define __SWP_TYPE_SHIFT 7
|
|||
|
#define __SWP_TYPE_BITS 5
|
|||
|
#define __SWP_TYPE_MASK ((1UL << __SWP_TYPE_BITS) - 1)
|
|||
|
#define __SWP_OFFSET_SHIFT (__SWP_TYPE_BITS + __SWP_TYPE_SHIFT)
|
|||
|
|
|||
|
#define MAX_SWAPFILES_CHECK() \
|
|||
|
BUILD_BUG_ON(MAX_SWAPFILES_SHIFT > __SWP_TYPE_BITS)
|
|||
|
|
|||
|
#define __swp_type(x) (((x).val >> __SWP_TYPE_SHIFT) & __SWP_TYPE_MASK)
|
|||
|
#define __swp_offset(x) ((x).val >> __SWP_OFFSET_SHIFT)
|
|||
|
#define __swp_entry(type, offset) ((swp_entry_t) \
|
|||
|
{ (((type) & __SWP_TYPE_MASK) << __SWP_TYPE_SHIFT) | \
|
|||
|
((offset) << __SWP_OFFSET_SHIFT) })
|
|||
|
|
|||
|
#define __pte_to_swp_entry(pte) ((swp_entry_t) { pte_val(pte) })
|
|||
|
#define __swp_entry_to_pte(x) ((pte_t) { (x).val })
|
|||
|
|
|||
|
static inline int pte_swp_exclusive(pte_t pte)
|
|||
|
{
|
|||
|
return pte_val(pte) & _PAGE_SWP_EXCLUSIVE;
|
|||
|
}
|
|||
|
|
|||
|
static inline pte_t pte_swp_mkexclusive(pte_t pte)
|
|||
|
{
|
|||
|
return __pte(pte_val(pte) | _PAGE_SWP_EXCLUSIVE);
|
|||
|
}
|
|||
|
|
|||
|
static inline pte_t pte_swp_clear_exclusive(pte_t pte)
|
|||
|
{
|
|||
|
return __pte(pte_val(pte) & ~_PAGE_SWP_EXCLUSIVE);
|
|||
|
}
|
|||
|
|
|||
|
#ifdef CONFIG_ARCH_ENABLE_THP_MIGRATION
|
|||
|
#define __pmd_to_swp_entry(pmd) ((swp_entry_t) { pmd_val(pmd) })
|
|||
|
#define __swp_entry_to_pmd(swp) __pmd((swp).val)
|
|||
|
#endif /* CONFIG_ARCH_ENABLE_THP_MIGRATION */
|
|||
|
|
|||
|
/*
|
|||
|
* In the RV64 Linux scheme, we give the user half of the virtual-address space
|
|||
|
* and give the kernel the other (upper) half.
|
|||
|
*/
|
|||
|
#ifdef CONFIG_64BIT
|
|||
|
#define KERN_VIRT_START (-(BIT(VA_BITS)) + TASK_SIZE)
|
|||
|
#else
|
|||
|
#define KERN_VIRT_START FIXADDR_START
|
|||
|
#endif
|
|||
|
|
|||
|
/*
|
|||
|
* Task size is 0x4000000000 for RV64 or 0x9fc00000 for RV32.
|
|||
|
* Note that PGDIR_SIZE must evenly divide TASK_SIZE.
|
|||
|
* Task size is:
|
|||
|
* - 0x9fc00000 (~2.5GB) for RV32.
|
|||
|
* - 0x4000000000 ( 256GB) for RV64 using SV39 mmu
|
|||
|
* - 0x800000000000 ( 128TB) for RV64 using SV48 mmu
|
|||
|
*
|
|||
|
* Note that PGDIR_SIZE must evenly divide TASK_SIZE since "RISC-V
|
|||
|
* Instruction Set Manual Volume II: Privileged Architecture" states that
|
|||
|
* "load and store effective addresses, which are 64bits, must have bits
|
|||
|
* 63–48 all equal to bit 47, or else a page-fault exception will occur."
|
|||
|
*/
|
|||
|
#ifdef CONFIG_64BIT
|
|||
|
#define TASK_SIZE_64 (PGDIR_SIZE * PTRS_PER_PGD / 2)
|
|||
|
#define TASK_SIZE_MIN (PGDIR_SIZE_L3 * PTRS_PER_PGD / 2)
|
|||
|
|
|||
|
#ifdef CONFIG_COMPAT
|
|||
|
#define TASK_SIZE_32 (_AC(0x80000000, UL) - PAGE_SIZE)
|
|||
|
#define TASK_SIZE (test_thread_flag(TIF_32BIT) ? \
|
|||
|
TASK_SIZE_32 : TASK_SIZE_64)
|
|||
|
#else
|
|||
|
#define TASK_SIZE TASK_SIZE_64
|
|||
|
#endif
|
|||
|
|
|||
|
#else
|
|||
|
#define TASK_SIZE FIXADDR_START
|
|||
|
#define TASK_SIZE_MIN TASK_SIZE
|
|||
|
#endif
|
|||
|
|
|||
|
#else /* CONFIG_MMU */
|
|||
|
|
|||
|
#define PAGE_SHARED __pgprot(0)
|
|||
|
#define PAGE_KERNEL __pgprot(0)
|
|||
|
#define swapper_pg_dir NULL
|
|||
|
#define TASK_SIZE 0xffffffffUL
|
|||
|
#define VMALLOC_START 0
|
|||
|
#define VMALLOC_END TASK_SIZE
|
|||
|
|
|||
|
#endif /* !CONFIG_MMU */
|
|||
|
|
|||
|
extern char _start[];
|
|||
|
extern void *_dtb_early_va;
|
|||
|
extern uintptr_t _dtb_early_pa;
|
|||
|
#if defined(CONFIG_XIP_KERNEL) && defined(CONFIG_MMU)
|
|||
|
#define dtb_early_va (*(void **)XIP_FIXUP(&_dtb_early_va))
|
|||
|
#define dtb_early_pa (*(uintptr_t *)XIP_FIXUP(&_dtb_early_pa))
|
|||
|
#else
|
|||
|
#define dtb_early_va _dtb_early_va
|
|||
|
#define dtb_early_pa _dtb_early_pa
|
|||
|
#endif /* CONFIG_XIP_KERNEL */
|
|||
|
extern u64 satp_mode;
|
|||
|
extern bool pgtable_l4_enabled;
|
|||
|
|
|||
|
void paging_init(void);
|
|||
|
void misc_mem_init(void);
|
|||
|
|
|||
|
/*
|
|||
|
* ZERO_PAGE is a global shared page that is always zero,
|
|||
|
* used for zero-mapped memory areas, etc.
|
|||
|
*/
|
|||
|
extern unsigned long empty_zero_page[PAGE_SIZE / sizeof(unsigned long)];
|
|||
|
#define ZERO_PAGE(vaddr) (virt_to_page(empty_zero_page))
|
|||
|
|
|||
|
#endif /* !__ASSEMBLY__ */
|
|||
|
|
|||
|
#endif /* _ASM_RISCV_PGTABLE_H */
|