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- Merge the remaining portion of the wlan-bringup branch
[reactos.git] / reactos / ntoskrnl / include / internal / i386 / mm.h
1 /*
2 * Lowlevel memory managment definitions
3 */
4
5 #pragma once
6
7 struct _EPROCESS;
8 PULONG MmGetPageDirectory(VOID);
9
10 #ifdef _PAE_
11 #define _MI_PAGING_LEVELS 3
12 #else
13 #define _MI_PAGING_LEVELS 2
14 #endif
15
16 #define PAGE_MASK(x) ((x)&(~0xfff))
17 #define PAE_PAGE_MASK(x) ((x)&(~0xfffLL))
18
19 /* MMPTE related defines */
20 #define MM_EMPTY_PTE_LIST ((ULONG)0xFFFFF)
21 #define MM_EMPTY_LIST ((ULONG_PTR)-1)
22
23 /* Base addresses of PTE and PDE */
24 #define PAGETABLE_MAP (0xc0000000)
25 #define PAGEDIRECTORY_MAP (0xc0000000 + (PAGETABLE_MAP / (1024)))
26
27 /* FIXME: These are different for PAE */
28 #define PTE_BASE 0xC0000000
29 #define PDE_BASE 0xC0300000
30 #define PDE_TOP 0xC0300FFF
31 #define PTE_TOP 0xC03FFFFF
32 #define HYPER_SPACE 0xC0400000
33
34 #define PTE_PER_PAGE 0x400
35
36 /* Converting address to a corresponding PDE or PTE entry */
37 #define MiAddressToPde(x) \
38 ((PMMPDE)(((((ULONG)(x)) >> 22) << 2) + PAGEDIRECTORY_MAP))
39 #define MiAddressToPte(x) \
40 ((PMMPTE)(((((ULONG)(x)) >> 12) << 2) + PAGETABLE_MAP))
41 #define MiAddressToPteOffset(x) \
42 ((((ULONG)(x)) << 10) >> 22)
43
44 //
45 // Convert a PTE into a corresponding address
46 //
47 #define MiPteToAddress(PTE) ((PVOID)((ULONG)(PTE) << 10))
48 #define MiPdeToAddress(PDE) ((PVOID)((ULONG)(PDE) << 20))
49 #define MiPdeToPte(PDE) ((PMMPTE)MiPteToAddress(PDE))
50 #define MiPteToPde(PTE) ((PMMPDE)MiAddressToPte(PTE))
51
52 #define ADDR_TO_PAGE_TABLE(v) (((ULONG)(v)) / (1024 * PAGE_SIZE))
53 #define ADDR_TO_PDE_OFFSET(v) (((ULONG)(v)) / (1024 * PAGE_SIZE))
54 #define ADDR_TO_PTE_OFFSET(v) ((((ULONG)(v)) % (1024 * PAGE_SIZE)) / PAGE_SIZE)
55
56 #define MiGetPdeOffset ADDR_TO_PDE_OFFSET
57
58 /* Easy accessing PFN in PTE */
59 #define PFN_FROM_PTE(v) ((v)->u.Hard.PageFrameNumber)
60
61 #define MI_MAKE_LOCAL_PAGE(x) ((x)->u.Hard.Global = 0)
62 #define MI_MAKE_DIRTY_PAGE(x) ((x)->u.Hard.Dirty = 1)
63 #define MI_MAKE_ACCESSED_PAGE(x) ((x)->u.Hard.Accessed = 1)
64 #define MI_PAGE_DISABLE_CACHE(x) ((x)->u.Hard.CacheDisable = 1)
65 #define MI_PAGE_WRITE_THROUGH(x) ((x)->u.Hard.WriteThrough = 1)
66 #define MI_PAGE_WRITE_COMBINED(x) ((x)->u.Hard.WriteThrough = 0)
67 #define MI_IS_PAGE_LARGE(x) ((x)->u.Hard.LargePage == 1)
68 #if !defined(CONFIG_SMP)
69 #define MI_IS_PAGE_WRITEABLE(x) ((x)->u.Hard.Write == 1)
70 #else
71 #define MI_IS_PAGE_WRITEABLE(x) ((x)->u.Hard.Writable == 1)
72 #endif
73 #define MI_IS_PAGE_COPY_ON_WRITE(x)((x)->u.Hard.CopyOnWrite == 1)
74 #define MI_IS_PAGE_DIRTY(x) ((x)->u.Hard.Dirty == 1)
75 #define MI_MAKE_OWNER_PAGE(x) ((x)->u.Hard.Owner = 1)
76 #if !defined(CONFIG_SMP)
77 #define MI_MAKE_WRITE_PAGE(x) ((x)->u.Hard.Write = 1)
78 #else
79 #define MI_MAKE_WRITE_PAGE(x) ((x)->u.Hard.Writable = 1)
80 #endif
81
82 #define PAGE_TO_SECTION_PAGE_DIRECTORY_OFFSET(x) \
83 ((x) / (4*1024*1024))
84
85 #define PAGE_TO_SECTION_PAGE_TABLE_OFFSET(x) \
86 ((((x)) % (4*1024*1024)) / (4*1024))
87
88 #define NR_SECTION_PAGE_TABLES 1024
89 #define NR_SECTION_PAGE_ENTRIES 1024
90
91 #define TEB_BASE 0x7FFDE000
92
93 #define MI_HYPERSPACE_PTES (256 - 1)
94 #define MI_ZERO_PTES (32)
95 #define MI_MAPPING_RANGE_START (ULONG)HYPER_SPACE
96 #define MI_MAPPING_RANGE_END (MI_MAPPING_RANGE_START + \
97 MI_HYPERSPACE_PTES * PAGE_SIZE)
98 #define MI_DUMMY_PTE (PMMPTE)(MI_MAPPING_RANGE_END + \
99 PAGE_SIZE)
100 #define MI_VAD_BITMAP (PMMPTE)(MI_DUMMY_PTE + \
101 PAGE_SIZE)
102 #define MI_WORKING_SET_LIST (PMMPTE)(MI_VAD_BITMAP + \
103 PAGE_SIZE)
104
105 /* On x86, these two are the same */
106 #define MMPDE MMPTE
107 #define PMMPDE PMMPTE
108
109 /*
110 * FIXME - different architectures have different cache line sizes...
111 */
112 #define MM_CACHE_LINE_SIZE 32
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