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29 #include <vm/vm_map_store_ll.h>
32 first_free_is_valid_ll( vm_map_t map
)
34 vm_map_entry_t entry
, next
;
35 entry
= vm_map_to_entry(map
);
36 next
= entry
->vme_next
;
37 while (vm_map_trunc_page(next
->vme_start
,
38 VM_MAP_PAGE_MASK(map
)) ==
39 vm_map_trunc_page(entry
->vme_end
,
40 VM_MAP_PAGE_MASK(map
)) ||
41 (vm_map_trunc_page(next
->vme_start
,
42 VM_MAP_PAGE_MASK(map
)) ==
43 vm_map_trunc_page(entry
->vme_start
,
44 VM_MAP_PAGE_MASK(map
)) &&
45 next
!= vm_map_to_entry(map
))) {
47 next
= entry
->vme_next
;
48 if (entry
== vm_map_to_entry(map
)) {
52 if (map
->first_free
!= entry
) {
53 printf("Bad first_free for map %p: %p should be %p\n",
54 map
, map
->first_free
, entry
);
63 * Updates the map->first_free pointer to the
64 * entry immediately before the first hole in the map.
65 * The map should be locked.
67 #define UPDATE_FIRST_FREE_LL(map, new_first_free) \
69 if( map->disable_vmentry_reuse == FALSE){ \
71 vm_map_entry_t UFF_first_free; \
72 vm_map_entry_t UFF_next_entry; \
74 UFF_first_free = (new_first_free); \
75 UFF_next_entry = UFF_first_free->vme_next; \
76 while (vm_map_trunc_page(UFF_next_entry->vme_start, \
77 VM_MAP_PAGE_MASK(UFF_map)) == \
78 vm_map_trunc_page(UFF_first_free->vme_end, \
79 VM_MAP_PAGE_MASK(UFF_map)) || \
80 (vm_map_trunc_page(UFF_next_entry->vme_start, \
81 VM_MAP_PAGE_MASK(UFF_map)) == \
82 vm_map_trunc_page(UFF_first_free->vme_start, \
83 VM_MAP_PAGE_MASK(UFF_map)) && \
84 UFF_next_entry != vm_map_to_entry(UFF_map))) { \
85 UFF_first_free = UFF_next_entry; \
86 UFF_next_entry = UFF_first_free->vme_next; \
87 if (UFF_first_free == vm_map_to_entry(UFF_map)) \
90 UFF_map->first_free = UFF_first_free; \
91 assert(first_free_is_valid(UFF_map)); \
95 #define _vm_map_entry_link_ll(hdr, after_where, entry) \
97 if (entry->map_aligned) { \
98 assert(VM_MAP_PAGE_ALIGNED((entry->vme_start), \
99 VM_MAP_HDR_PAGE_MASK((hdr))));\
100 assert(VM_MAP_PAGE_ALIGNED((entry->vme_end), \
101 VM_MAP_HDR_PAGE_MASK((hdr))));\
104 (entry)->vme_prev = (after_where); \
105 (entry)->vme_next = (after_where)->vme_next; \
106 (entry)->vme_prev->vme_next = (entry)->vme_next->vme_prev = (entry); \
109 #define _vm_map_entry_unlink_ll(hdr, entry) \
112 (entry)->vme_next->vme_prev = (entry)->vme_prev; \
113 (entry)->vme_prev->vme_next = (entry)->vme_next; \
116 * Macro: vm_map_copy_insert
119 * Link a copy chain ("copy") into a map at the
120 * specified location (after "where").
122 * The copy chain is destroyed.
124 * The arguments are evaluated multiple times.
126 #define _vm_map_copy_insert_ll(map, where, copy) \
129 vm_map_entry_t VMCI_where; \
130 vm_map_copy_t VMCI_copy; \
132 VMCI_where = (where); \
133 VMCI_copy = (copy); \
134 ((VMCI_where->vme_next)->vme_prev = vm_map_copy_last_entry(VMCI_copy))\
135 ->vme_next = (VMCI_where->vme_next); \
136 ((VMCI_where)->vme_next = vm_map_copy_first_entry(VMCI_copy)) \
137 ->vme_prev = VMCI_where; \
138 VMCI_map->hdr.nentries += VMCI_copy->cpy_hdr.nentries; \
139 update_first_free_ll(VMCI_map, VMCI_map->first_free); \
145 vm_map_store_init_ll( __unused
struct vm_map_header
*hdr
)
151 * vm_map_lookup_entry_ll: [ internal use only ]
152 * Use the linked list to find the map entry containing (or
153 * immediately preceding) the specified address
154 * in the given map; the entry is returned
155 * in the "entry" parameter. The boolean
156 * result indicates whether the address is
157 * actually contained in the map.
160 vm_map_store_lookup_entry_ll(
162 vm_map_offset_t address
,
163 vm_map_entry_t
*entry
) /* OUT */
169 * Start looking either from the head of the
170 * list, or from the hint.
174 if (cur
== vm_map_to_entry(map
)) {
178 if (address
>= cur
->vme_start
) {
180 * Go from hint to end of list.
182 * But first, make a quick check to see if
183 * we are already looking at the entry we
184 * want (which is usually the case).
185 * Note also that we don't need to save the hint
186 * here... it is the same hint (unless we are
187 * at the header, in which case the hint didn't
188 * buy us anything anyway).
190 last
= vm_map_to_entry(map
);
191 if ((cur
!= last
) && (cur
->vme_end
> address
)) {
197 * Go from start to hint, *inclusively*
199 last
= cur
->vme_next
;
200 cur
= vm_map_first_entry(map
);
207 while (cur
!= last
) {
208 if (cur
->vme_end
> address
) {
209 if (address
>= cur
->vme_start
) {
211 * Save this lookup for future
216 SAVE_HINT_MAP_READ(map
, cur
);
224 *entry
= cur
->vme_prev
;
225 SAVE_HINT_MAP_READ(map
, *entry
);
231 vm_map_store_entry_link_ll( struct vm_map_header
*mapHdr
, vm_map_entry_t after_where
, vm_map_entry_t entry
)
233 _vm_map_entry_link_ll( mapHdr
, after_where
, entry
);
237 vm_map_store_entry_unlink_ll( struct vm_map_header
*mapHdr
, vm_map_entry_t entry
)
239 _vm_map_entry_unlink_ll( mapHdr
, entry
);
243 vm_map_store_copy_reset_ll( vm_map_copy_t copy
, __unused vm_map_entry_t entry
, __unused
int nentries
)
245 copy
->cpy_hdr
.nentries
= 0;
246 vm_map_copy_first_entry(copy
) =
247 vm_map_copy_last_entry(copy
) =
248 vm_map_copy_to_entry(copy
);
252 update_first_free_ll( vm_map_t map
, vm_map_entry_t new_first_free
)
254 if (map
->holelistenabled
) {
258 UPDATE_FIRST_FREE_LL( map
, new_first_free
);