📄 page.h
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#ifndef __X86_32_PAGE_H__#define __X86_32_PAGE_H__#define L1_PAGETABLE_SHIFT 12#define L2_PAGETABLE_SHIFT 21#define L3_PAGETABLE_SHIFT 30#define PAGE_SHIFT L1_PAGETABLE_SHIFT#define ROOT_PAGETABLE_SHIFT L3_PAGETABLE_SHIFT#define PAGETABLE_ORDER 9#define L1_PAGETABLE_ENTRIES (1<<PAGETABLE_ORDER)#define L2_PAGETABLE_ENTRIES (1<<PAGETABLE_ORDER)#define L3_PAGETABLE_ENTRIES 4#define ROOT_PAGETABLE_ENTRIES L3_PAGETABLE_ENTRIES/* * Architecturally, physical addresses may be up to 52 bits. However, the * page-frame number (pfn) of a 52-bit address will not fit into a 32-bit * word. Instead we treat bits 44-51 of a pte as flag bits which are never * allowed to be set by a guest kernel. This 'limits' us to addressing 16TB * of physical memory on a 32-bit PAE system. */#define PADDR_BITS 44#define PADDR_MASK ((1ULL << PADDR_BITS)-1)#define __PAGE_OFFSET (0xFF000000)#define __XEN_VIRT_START __PAGE_OFFSET#define virt_to_maddr(va) ((unsigned long)(va)-DIRECTMAP_VIRT_START)#define maddr_to_virt(ma) ((void *)((unsigned long)(ma)+DIRECTMAP_VIRT_START))#define VADDR_BITS 32#define VADDR_MASK (~0UL)#define is_canonical_address(x) 1/* Given a virtual address, get an entry offset into a linear page table. */#define l1_linear_offset(_a) ((_a) >> L1_PAGETABLE_SHIFT)#define l2_linear_offset(_a) ((_a) >> L2_PAGETABLE_SHIFT)#ifndef __ASSEMBLY__#include <xen/config.h>#include <asm/types.h>/* read access (should only be used for debug printk's) */typedef u64 intpte_t;#define PRIpte "016llx"typedef struct { intpte_t l1; } l1_pgentry_t;typedef struct { intpte_t l2; } l2_pgentry_t;typedef struct { intpte_t l3; } l3_pgentry_t;typedef l3_pgentry_t root_pgentry_t;extern unsigned int PAGE_HYPERVISOR;extern unsigned int PAGE_HYPERVISOR_NOCACHE;#endif#define pte_read_atomic(ptep) ({ \ intpte_t __pte = *(ptep), __npte; \ while ( (__npte = cmpxchg(ptep, __pte, __pte)) != __pte ) \ __pte = __npte; \ __pte; })#define pte_write_atomic(ptep, pte) do { \ intpte_t __pte = *(ptep), __npte; \ while ( (__npte = cmpxchg(ptep, __pte, (pte))) != __pte ) \ __pte = __npte; \} while ( 0 )#define pte_write(ptep, pte) do { \ u32 *__ptep_words = (u32 *)(ptep); \ __ptep_words[0] = 0; \ wmb(); \ __ptep_words[1] = (pte) >> 32; \ wmb(); \ __ptep_words[0] = (pte) >> 0; \} while ( 0 )/* root table */#define root_get_pfn l3e_get_pfn#define root_get_flags l3e_get_flags#define root_get_intpte l3e_get_intpte#define root_empty l3e_empty#define root_from_paddr l3e_from_paddr#define PGT_root_page_table PGT_l3_page_table/* misc */#define is_guest_l1_slot(s) (1)#define is_guest_l2_slot(d,t,s) \ ( !((t) & PGT_pae_xen_l2) || \ ((s) < (L2_PAGETABLE_FIRST_XEN_SLOT & (L2_PAGETABLE_ENTRIES - 1))) )#define is_guest_l3_slot(s) (1)/* * PTE pfn and flags: * 32-bit pfn = (pte[43:12]) * 32-bit flags = (pte[63:44],pte[11:0]) */#define _PAGE_NX_BIT (1U<<31)#define _PAGE_NX (cpu_has_nx ? _PAGE_NX_BIT : 0)/* Extract flags into 32-bit integer, or turn 32-bit flags into a pte mask. */#define get_pte_flags(x) (((int)((x) >> 32) & ~0xFFF) | ((int)(x) & 0xFFF))#define put_pte_flags(x) (((intpte_t)((x) & ~0xFFF) << 32) | ((x) & 0xFFF))#define GRANT_PTE_FLAGS \ (_PAGE_PRESENT|_PAGE_ACCESSED|_PAGE_DIRTY|_PAGE_GNTTAB)/* * Disallow unused flag bits plus PAT/PSE, PCD, PWT and GLOBAL. * Permit the NX bit if the hardware supports it. */#define BASE_DISALLOW_MASK (0xFFFFF198U & ~_PAGE_NX)#define L1_DISALLOW_MASK (BASE_DISALLOW_MASK | _PAGE_GNTTAB)#define L2_DISALLOW_MASK (BASE_DISALLOW_MASK)#define L3_DISALLOW_MASK 0xFFFFF1FEU /* must-be-zero */#endif /* __X86_32_PAGE_H__ *//* * Local variables: * mode: C * c-set-style: "BSD" * c-basic-offset: 4 * tab-width: 4 * indent-tabs-mode: nil * End: */⌨️ 快捷键说明
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