// Convert a PTE into a corresponding address
//
#define MiPteToAddress(PTE) ((PVOID)((ULONG)(PTE) << 10))
-#define MiPdeToAddress(PDE) ((PVOID)((ULONG)(PDE) << 10))
#define ADDR_TO_PAGE_TABLE(v) (((ULONG)(v)) / (1024 * PAGE_SIZE))
#define ADDR_TO_PDE_OFFSET(v) ((((ULONG)(v)) / (1024 * PAGE_SIZE)))
#define MI_MAKE_LOCAL_PAGE(x) ((x)->u.Hard.Global = 0)
#define MI_MAKE_DIRTY_PAGE(x) ((x)->u.Hard.Dirty = 1)
-#define MI_MAKE_ACCESSED_PAGE(x) ((x)->u.Hard.Accessed = 1)
#define MI_PAGE_DISABLE_CACHE(x) ((x)->u.Hard.CacheDisable = 1)
#define MI_PAGE_WRITE_THROUGH(x) ((x)->u.Hard.WriteThrough = 1)
#define MI_PAGE_WRITE_COMBINED(x) ((x)->u.Hard.WriteThrough = 0)
-#define MI_IS_PAGE_LARGE(x) ((x)->u.Hard.LargePage == 1)
#if !defined(CONFIG_SMP)
#define MI_IS_PAGE_WRITEABLE(x) ((x)->u.Hard.Write == 1)
#else
#define MI_ZERO_PTES (32)
#define MI_MAPPING_RANGE_START (ULONG)HYPER_SPACE
#define MI_MAPPING_RANGE_END (MI_MAPPING_RANGE_START + \
- MI_HYPERSPACE_PTES * PAGE_SIZE)
-#define MI_DUMMY_PTE (PMMPTE)(MI_MAPPING_RANGE_END + \
- PAGE_SIZE)
-#define MI_VAD_BITMAP (PMMPTE)(MI_DUMMY_PTE + \
- PAGE_SIZE)
-#define MI_WORKING_SET_LIST (PMMPTE)(MI_VAD_BITMAP + \
- PAGE_SIZE)
+ MI_HYPERSPACE_PTES * PAGE_SIZE)
+#define MI_ZERO_PTE (PMMPTE)(MI_MAPPING_RANGE_END + \
+ PAGE_SIZE)
/* On x86, these two are the same */
#define MMPDE MMPTE