/* * kernel internal memory management definitions for x86 */ #pragma once #ifdef _PAE_ #define _MI_PAGING_LEVELS 3 #else #define _MI_PAGING_LEVELS 2 #endif /* Memory layout base addresses */ #define MI_USER_PROBE_ADDRESS (PVOID)0x7FFF0000 #define MI_DEFAULT_SYSTEM_RANGE_START (PVOID)0x80000000 #ifndef PAE #define HYPER_SPACE 0xC0400000 #define HYPER_SPACE_END 0xC07FFFFF #else #define HYPER_SPACE 0xC0800000 #define HYPER_SPACE_END 0xC0BFFFFF #endif #define MI_SYSTEM_CACHE_WS_START (PVOID)0xC0C00000 #define MI_PAGED_POOL_START (PVOID)0xE1000000 #define MI_NONPAGED_POOL_END (PVOID)0xFFBE0000 #define MI_DEBUG_MAPPING (PVOID)0xFFBFF000 /* FIXME: These are different for PAE */ #define PTE_BASE 0xC0000000 #define PDE_BASE 0xC0300000 #define PDE_TOP 0xC0300FFF #define PTE_TOP 0xC03FFFFF #define PTE_PER_PAGE 0x400 #define PDE_PER_PAGE 0x400 #define PPE_PER_PAGE 1 /* Misc address definitions */ #define MI_SYSTEM_PTE_BASE (PVOID)MiAddressToPte(NULL) #define MM_HIGHEST_VAD_ADDRESS \ (PVOID)((ULONG_PTR)MM_HIGHEST_USER_ADDRESS - (16 * PAGE_SIZE)) #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)((ULONG_PTR)MI_MAPPING_RANGE_END + \ PAGE_SIZE) #define MI_VAD_BITMAP (PMMPTE)((ULONG_PTR)MI_DUMMY_PTE + \ PAGE_SIZE) #define MI_WORKING_SET_LIST (PMMPTE)((ULONG_PTR)MI_VAD_BITMAP + \ PAGE_SIZE) /* Memory sizes */ #define MI_MIN_PAGES_FOR_NONPAGED_POOL_TUNING ((255 * _1MB) >> PAGE_SHIFT) #define MI_MIN_PAGES_FOR_SYSPTE_TUNING ((19 * _1MB) >> PAGE_SHIFT) #define MI_MIN_PAGES_FOR_SYSPTE_BOOST ((32 * _1MB) >> PAGE_SHIFT) #define MI_MIN_PAGES_FOR_SYSPTE_BOOST_BOOST ((256 * _1MB) >> PAGE_SHIFT) #define MI_MIN_INIT_PAGED_POOLSIZE (32 * _1MB) #define MI_MAX_INIT_NONPAGED_POOL_SIZE (128 * _1MB) #define MI_MAX_NONPAGED_POOL_SIZE (128 * _1MB) #define MI_SYSTEM_VIEW_SIZE (32 * _1MB) #define MI_SESSION_VIEW_SIZE (48 * _1MB) #define MI_SESSION_POOL_SIZE (16 * _1MB) #define MI_SESSION_IMAGE_SIZE (8 * _1MB) #define MI_SESSION_WORKING_SET_SIZE (4 * _1MB) #define MI_SESSION_SIZE (MI_SESSION_VIEW_SIZE + \ MI_SESSION_POOL_SIZE + \ MI_SESSION_IMAGE_SIZE + \ MI_SESSION_WORKING_SET_SIZE) #define MI_MIN_ALLOCATION_FRAGMENT (4 * _1KB) #define MI_ALLOCATION_FRAGMENT (64 * _1KB) #define MI_MAX_ALLOCATION_FRAGMENT (2 * _1MB) /* Misc constants */ #define MM_PTE_SOFTWARE_PROTECTION_BITS 5 #define MI_MIN_SECONDARY_COLORS 8 #define MI_SECONDARY_COLORS 64 #define MI_MAX_SECONDARY_COLORS 1024 #define MI_MAX_FREE_PAGE_LISTS 4 #define MI_HYPERSPACE_PTES (256 - 1) #define MI_ZERO_PTES (32) #define MI_MAX_ZERO_BITS 21 #define SESSION_POOL_LOOKASIDES 26 /* MMPTE related defines */ #define MM_EMPTY_PTE_LIST ((ULONG)0xFFFFF) #define MM_EMPTY_LIST ((ULONG_PTR)-1) /* Easy accessing PFN in PTE */ #define PFN_FROM_PTE(v) ((v)->u.Hard.PageFrameNumber) /* Macros for portable PTE modification */ #define MI_MAKE_DIRTY_PAGE(x) ((x)->u.Hard.Dirty = 1) #define MI_MAKE_CLEAN_PAGE(x) ((x)->u.Hard.Dirty = 0) #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_IS_PAGE_WRITEABLE(x) ((x)->u.Hard.Writable == 1) #endif #define MI_IS_PAGE_COPY_ON_WRITE(x)((x)->u.Hard.CopyOnWrite == 1) #define MI_IS_PAGE_DIRTY(x) ((x)->u.Hard.Dirty == 1) #define MI_MAKE_OWNER_PAGE(x) ((x)->u.Hard.Owner = 1) #if !defined(CONFIG_SMP) #define MI_MAKE_WRITE_PAGE(x) ((x)->u.Hard.Write = 1) #else #define MI_MAKE_WRITE_PAGE(x) ((x)->u.Hard.Writable = 1) #endif /* On x86, these two are the same */ #define MI_WRITE_VALID_PPE MI_WRITE_VALID_PTE /* Convert an address to a corresponding PTE */ #define MiAddressToPte(x) \ ((PMMPTE)(((((ULONG)(x)) >> 12) << 2) + PTE_BASE)) /* Convert an address to a corresponding PDE */ #define MiAddressToPde(x) \ ((PMMPDE)(((((ULONG)(x)) >> 22) << 2) + PDE_BASE)) /* Convert an address to a corresponding PTE offset/index */ #define MiAddressToPteOffset(x) \ ((((ULONG)(x)) << 10) >> 22) /* Convert an address to a corresponding PDE offset/index */ #define MiAddressToPdeOffset(x) \ (((ULONG)(x)) / (1024 * PAGE_SIZE)) #define MiGetPdeOffset MiAddressToPdeOffset /* Convert a PTE/PDE into a corresponding address */ #define MiPteToAddress(_Pte) ((PVOID)((ULONG)(_Pte) << 10)) #define MiPdeToAddress(_Pde) ((PVOID)((ULONG)(_Pde) << 20)) /* Translate between P*Es */ #define MiPdeToPte(_Pde) ((PMMPTE)MiPteToAddress(_Pde)) #define MiPteToPde(_Pte) ((PMMPDE)MiAddressToPte(_Pte)) /* Check P*E boundaries */ #define MiIsPteOnPdeBoundary(PointerPte) \ ((((ULONG_PTR)PointerPte) & (PAGE_SIZE - 1)) == 0) // // Decodes a Prototype PTE into the underlying PTE // #define MiProtoPteToPte(x) \ (PMMPTE)((ULONG_PTR)MmPagedPoolStart + \ (((x)->u.Proto.ProtoAddressHigh << 9) | (x)->u.Proto.ProtoAddressLow << 2)) // // Decodes a Prototype PTE into the underlying PTE // #define MiSubsectionPteToSubsection(x) \ ((x)->u.Subsect.WhichPool == PagedPool) ? \ (PMMPTE)((ULONG_PTR)MmSubsectionBase + \ (((x)->u.Subsect.SubsectionAddressHigh << 7) | \ (x)->u.Subsect.SubsectionAddressLow << 3)) : \ (PMMPTE)((ULONG_PTR)MmNonPagedPoolEnd - \ (((x)->u.Subsect.SubsectionAddressHigh << 7) | \ (x)->u.Subsect.SubsectionAddressLow << 3))