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《操作系统》的实验代码。
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os_kernel_lab/labcodes_answer/lab6_result/kern/mm/memlayout.h

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  1. #ifndef __KERN_MM_MEMLAYOUT_H__

  2. #define __KERN_MM_MEMLAYOUT_H__

  3. 

  4. /* This file contains the definitions for memory management in our OS. */
  5. 

  6. /* global segment number */
  7. #define SEG_KTEXT   1

  8. #define SEG_KDATA   2

  9. #define SEG_UTEXT   3

  10. #define SEG_UDATA   4

  11. #define SEG_TSS     5

  12. 

  13. /* global descrptor numbers */
  14. #define GD_KTEXT    ((SEG_KTEXT) << 3)      // kernel text

  15. #define GD_KDATA    ((SEG_KDATA) << 3)      // kernel data

  16. #define GD_UTEXT    ((SEG_UTEXT) << 3)      // user text

  17. #define GD_UDATA    ((SEG_UDATA) << 3)      // user data

  18. #define GD_TSS      ((SEG_TSS) << 3)        // task segment selector

  19. 

  20. #define DPL_KERNEL  (0)

  21. #define DPL_USER    (3)

  22. 

  23. #define KERNEL_CS   ((GD_KTEXT) | DPL_KERNEL)

  24. #define KERNEL_DS   ((GD_KDATA) | DPL_KERNEL)

  25. #define USER_CS     ((GD_UTEXT) | DPL_USER)

  26. #define USER_DS     ((GD_UDATA) | DPL_USER)

  27. 

  28. /* *

  29.  * Virtual memory map:                                          Permissions
  30.  *                                                              kernel/user
  31.  *
  32.  *     4G ------------------> +---------------------------------+
  33.  *                            |                                 |
  34.  *                            |         Empty Memory (*)        |
  35.  *                            |                                 |
  36.  *                            +---------------------------------+ 0xFB000000
  37.  *                            |   Cur. Page Table (Kern, RW)    | RW/-- PTSIZE
  38.  *     VPT -----------------> +---------------------------------+ 0xFAC00000
  39.  *                            |        Invalid Memory (*)       | --/--
  40.  *     KERNTOP -------------> +---------------------------------+ 0xF8000000
  41.  *                            |                                 |
  42.  *                            |    Remapped Physical Memory     | RW/-- KMEMSIZE
  43.  *                            |                                 |
  44.  *     KERNBASE ------------> +---------------------------------+ 0xC0000000
  45.  *                            |        Invalid Memory (*)       | --/--
  46.  *     USERTOP -------------> +---------------------------------+ 0xB0000000
  47.  *                            |           User stack            |
  48.  *                            +---------------------------------+
  49.  *                            |                                 |
  50.  *                            :                                 :
  51.  *                            |         ~~~~~~~~~~~~~~~~        |
  52.  *                            :                                 :
  53.  *                            |                                 |
  54.  *                            ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
  55.  *                            |       User Program & Heap       |
  56.  *     UTEXT ---------------> +---------------------------------+ 0x00800000
  57.  *                            |        Invalid Memory (*)       | --/--
  58.  *                            |  - - - - - - - - - - - - - - -  |
  59.  *                            |    User STAB Data (optional)    |
  60.  *     USERBASE, USTAB------> +---------------------------------+ 0x00200000
  61.  *                            |        Invalid Memory (*)       | --/--
  62.  *     0 -------------------> +---------------------------------+ 0x00000000
  63.  * (*) Note: The kernel ensures that "Invalid Memory" is *never* mapped.
  64.  *     "Empty Memory" is normally unmapped, but user programs may map pages
  65.  *     there if desired.
  66.  *
  67.  * */
  68. 

  69. /* All physical memory mapped at this address */
  70. #define KERNBASE            0xC0000000

  71. #define KMEMSIZE            0x38000000                  // the maximum amount of physical memory

  72. #define KERNTOP             (KERNBASE + KMEMSIZE)

  73. 

  74. /* *

  75.  * Virtual page table. Entry PDX[VPT] in the PD (Page Directory) contains
  76.  * a pointer to the page directory itself, thereby turning the PD into a page
  77.  * table, which maps all the PTEs (Page Table Entry) containing the page mappings
  78.  * for the entire virtual address space into that 4 Meg region starting at VPT.
  79.  * */
  80. #define VPT                 0xFAC00000

  81. 

  82. #define KSTACKPAGE          2                           // # of pages in kernel stack

  83. #define KSTACKSIZE          (KSTACKPAGE * PGSIZE)       // sizeof kernel stack

  84. 

  85. #define USERTOP             0xB0000000

  86. #define USTACKTOP           USERTOP

  87. #define USTACKPAGE          256                         // # of pages in user stack

  88. #define USTACKSIZE          (USTACKPAGE * PGSIZE)       // sizeof user stack

  89. 

  90. #define USERBASE            0x00200000

  91. #define UTEXT               0x00800000                  // where user programs generally begin

  92. #define USTAB               USERBASE                    // the location of the user STABS data structure

  93. 

  94. #define USER_ACCESS(start, end)                     \

  95. (USERBASE <= (start) && (start) < (end) && (end) <= USERTOP)
  96. 

  97. #define KERN_ACCESS(start, end)                     \

  98. (KERNBASE <= (start) && (start) < (end) && (end) <= KERNTOP)
  99. 

  100. #ifndef __ASSEMBLER__

  101. 

  102. #include <defs.h>

  103. #include <atomic.h>

  104. #include <list.h>

  105. 

  106. typedef uintptr_t pte_t;
  107. typedef uintptr_t pde_t;
  108. typedef pte_t swap_entry_t; //the pte can also be a swap entry

  109. 

  110. // some constants for bios interrupt 15h AX = 0xE820

  111. #define E820MAX             20      // number of entries in E820MAP

  112. #define E820_ARM            1       // address range memory

  113. #define E820_ARR            2       // address range reserved

  114. 

  115. struct e820map {
  116.     int nr_map;
  117.     struct {
  118.         uint64_t addr;
  119.         uint64_t size;
  120.         uint32_t type;
  121.     } __attribute__((packed)) map[E820MAX];
  122. };
  123. 

  124. /* *

  125.  * struct Page - Page descriptor structures. Each Page describes one
  126.  * physical page. In kern/mm/pmm.h, you can find lots of useful functions
  127.  * that convert Page to other data types, such as phyical address.
  128.  * */
  129. struct Page {
  130.     int ref;                        // page frame's reference counter

  131.     uint32_t flags;                 // array of flags that describe the status of the page frame

  132.     unsigned int property;          // used in buddy system, stores the order (the X in 2^X) of the continuous memory block

  133.     int zone_num;                   // used in buddy system, the No. of zone which the page belongs to

  134.     list_entry_t page_link;         // free list link

  135.     list_entry_t pra_page_link;     // used for pra (page replace algorithm)

  136.     uintptr_t pra_vaddr;            // used for pra (page replace algorithm)

  137. };
  138. 

  139. /* Flags describing the status of a page frame */
  140. #define PG_reserved                 0       // the page descriptor is reserved for kernel or unusable

  141. #define PG_property                 1       // the member 'property' is valid

  142. 

  143. #define SetPageReserved(page)       set_bit(PG_reserved, &((page)->flags))

  144. #define ClearPageReserved(page)     clear_bit(PG_reserved, &((page)->flags))

  145. #define PageReserved(page)          test_bit(PG_reserved, &((page)->flags))

  146. #define SetPageProperty(page)       set_bit(PG_property, &((page)->flags))

  147. #define ClearPageProperty(page)     clear_bit(PG_property, &((page)->flags))

  148. #define PageProperty(page)          test_bit(PG_property, &((page)->flags))

  149. 

  150. // convert list entry to page

  151. #define le2page(le, member)                 \

  152.     to_struct((le), struct Page, member)
  153. 

  154. /* free_area_t - maintains a doubly linked list to record free (unused) pages */
  155. typedef struct {
  156.     list_entry_t free_list;         // the list header

  157.     unsigned int nr_free;           // # of free pages in this free list

  158. } free_area_t;
  159. 

  160. /* for slab style kmalloc */
  161. #define PG_slab                     2       // page frame is included in a slab

  162. #define SetPageSlab(page)           set_bit(PG_slab, &((page)->flags))

  163. #define ClearPageSlab(page)         clear_bit(PG_slab, &((page)->flags))

  164. #define PageSlab(page)              test_bit(PG_slab, &((page)->flags))

  165. 

  166. #endif /* !__ASSEMBLER__ */

  167. 

  168. #endif /* !__KERN_MM_MEMLAYOUT_H__ */

  169.