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703 | jermar | 1 | /* |
2 | * Copyright (C) 2001-2006 Jakub Jermar |
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3 | * All rights reserved. |
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4 | * |
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5 | * Redistribution and use in source and binary forms, with or without |
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6 | * modification, are permitted provided that the following conditions |
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7 | * are met: |
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8 | * |
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9 | * - Redistributions of source code must retain the above copyright |
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10 | * notice, this list of conditions and the following disclaimer. |
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11 | * - Redistributions in binary form must reproduce the above copyright |
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12 | * notice, this list of conditions and the following disclaimer in the |
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13 | * documentation and/or other materials provided with the distribution. |
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14 | * - The name of the author may not be used to endorse or promote products |
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15 | * derived from this software without specific prior written permission. |
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16 | * |
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17 | * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR |
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18 | * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES |
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19 | * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. |
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20 | * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, |
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21 | * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT |
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22 | * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, |
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23 | * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY |
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24 | * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT |
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25 | * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF |
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26 | * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. |
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27 | */ |
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28 | |||
29 | /* |
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30 | * This file contains address space manipulation functions. |
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31 | * Roughly speaking, this is a higher-level client of |
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32 | * Virtual Address Translation (VAT) subsystem. |
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33 | */ |
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34 | |||
35 | #include <mm/as.h> |
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756 | jermar | 36 | #include <arch/mm/as.h> |
703 | jermar | 37 | #include <mm/page.h> |
38 | #include <mm/frame.h> |
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814 | palkovsky | 39 | #include <mm/slab.h> |
703 | jermar | 40 | #include <mm/tlb.h> |
41 | #include <arch/mm/page.h> |
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42 | #include <genarch/mm/page_pt.h> |
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1108 | jermar | 43 | #include <genarch/mm/page_ht.h> |
727 | jermar | 44 | #include <mm/asid.h> |
703 | jermar | 45 | #include <arch/mm/asid.h> |
46 | #include <arch/types.h> |
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47 | #include <typedefs.h> |
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48 | #include <synch/spinlock.h> |
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49 | #include <config.h> |
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788 | jermar | 50 | #include <adt/list.h> |
1147 | jermar | 51 | #include <adt/btree.h> |
703 | jermar | 52 | #include <panic.h> |
53 | #include <arch/asm.h> |
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54 | #include <debug.h> |
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55 | #include <memstr.h> |
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1070 | jermar | 56 | #include <macros.h> |
703 | jermar | 57 | #include <arch.h> |
58 | #include <print.h> |
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59 | |||
756 | jermar | 60 | as_operations_t *as_operations = NULL; |
703 | jermar | 61 | |
823 | jermar | 62 | /** Address space lock. It protects inactive_as_with_asid_head. */ |
63 | SPINLOCK_INITIALIZE(as_lock); |
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64 | |||
65 | /** |
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66 | * This list contains address spaces that are not active on any |
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67 | * processor and that have valid ASID. |
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68 | */ |
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69 | LIST_INITIALIZE(inactive_as_with_asid_head); |
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70 | |||
757 | jermar | 71 | /** Kernel address space. */ |
72 | as_t *AS_KERNEL = NULL; |
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73 | |||
754 | jermar | 74 | static int get_area_flags(as_area_t *a); |
977 | jermar | 75 | static as_area_t *find_area_and_lock(as_t *as, __address va); |
1048 | jermar | 76 | static bool check_area_conflicts(as_t *as, __address va, size_t size, as_area_t *avoid_area); |
703 | jermar | 77 | |
756 | jermar | 78 | /** Initialize address space subsystem. */ |
79 | void as_init(void) |
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80 | { |
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81 | as_arch_init(); |
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789 | palkovsky | 82 | AS_KERNEL = as_create(FLAG_AS_KERNEL); |
756 | jermar | 83 | if (!AS_KERNEL) |
84 | panic("can't create kernel address space\n"); |
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85 | } |
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86 | |||
757 | jermar | 87 | /** Create address space. |
88 | * |
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89 | * @param flags Flags that influence way in wich the address space is created. |
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90 | */ |
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756 | jermar | 91 | as_t *as_create(int flags) |
703 | jermar | 92 | { |
93 | as_t *as; |
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94 | |||
822 | palkovsky | 95 | as = (as_t *) malloc(sizeof(as_t), 0); |
823 | jermar | 96 | link_initialize(&as->inactive_as_with_asid_link); |
822 | palkovsky | 97 | spinlock_initialize(&as->lock, "as_lock"); |
1147 | jermar | 98 | btree_create(&as->as_area_btree); |
822 | palkovsky | 99 | |
100 | if (flags & FLAG_AS_KERNEL) |
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101 | as->asid = ASID_KERNEL; |
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102 | else |
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103 | as->asid = ASID_INVALID; |
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104 | |||
823 | jermar | 105 | as->refcount = 0; |
822 | palkovsky | 106 | as->page_table = page_table_create(flags); |
703 | jermar | 107 | |
108 | return as; |
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109 | } |
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110 | |||
973 | palkovsky | 111 | /** Free Adress space */ |
112 | void as_free(as_t *as) |
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113 | { |
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114 | ASSERT(as->refcount == 0); |
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115 | |||
116 | /* TODO: free as_areas and other resources held by as */ |
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117 | /* TODO: free page table */ |
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118 | free(as); |
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119 | } |
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120 | |||
703 | jermar | 121 | /** Create address space area of common attributes. |
122 | * |
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123 | * The created address space area is added to the target address space. |
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124 | * |
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125 | * @param as Target address space. |
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1026 | jermar | 126 | * @param flags Flags of the area. |
1048 | jermar | 127 | * @param size Size of area. |
703 | jermar | 128 | * @param base Base address of area. |
129 | * |
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130 | * @return Address space area on success or NULL on failure. |
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131 | */ |
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1026 | jermar | 132 | as_area_t *as_area_create(as_t *as, int flags, size_t size, __address base) |
703 | jermar | 133 | { |
134 | ipl_t ipl; |
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135 | as_area_t *a; |
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136 | |||
137 | if (base % PAGE_SIZE) |
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1048 | jermar | 138 | return NULL; |
139 | |||
140 | /* Writeable executable areas are not supported. */ |
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141 | if ((flags & AS_AREA_EXEC) && (flags & AS_AREA_WRITE)) |
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142 | return NULL; |
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703 | jermar | 143 | |
144 | ipl = interrupts_disable(); |
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145 | spinlock_lock(&as->lock); |
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146 | |||
1048 | jermar | 147 | if (!check_area_conflicts(as, base, size, NULL)) { |
148 | spinlock_unlock(&as->lock); |
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149 | interrupts_restore(ipl); |
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150 | return NULL; |
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151 | } |
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703 | jermar | 152 | |
822 | palkovsky | 153 | a = (as_area_t *) malloc(sizeof(as_area_t), 0); |
703 | jermar | 154 | |
822 | palkovsky | 155 | spinlock_initialize(&a->lock, "as_area_lock"); |
156 | |||
1026 | jermar | 157 | a->flags = flags; |
1048 | jermar | 158 | a->pages = SIZE2FRAMES(size); |
822 | palkovsky | 159 | a->base = base; |
160 | |||
1147 | jermar | 161 | btree_insert(&as->as_area_btree, base, (void *) a, NULL); |
822 | palkovsky | 162 | |
703 | jermar | 163 | spinlock_unlock(&as->lock); |
164 | interrupts_restore(ipl); |
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704 | jermar | 165 | |
703 | jermar | 166 | return a; |
167 | } |
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168 | |||
754 | jermar | 169 | /** Initialize mapping for one page of address space. |
703 | jermar | 170 | * |
754 | jermar | 171 | * This functions maps 'page' to 'frame' according |
172 | * to attributes of the address space area to |
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173 | * wich 'page' belongs. |
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703 | jermar | 174 | * |
840 | jermar | 175 | * @param as Target address space. |
754 | jermar | 176 | * @param page Virtual page within the area. |
177 | * @param frame Physical frame to which page will be mapped. |
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703 | jermar | 178 | */ |
754 | jermar | 179 | void as_set_mapping(as_t *as, __address page, __address frame) |
703 | jermar | 180 | { |
977 | jermar | 181 | as_area_t *area; |
703 | jermar | 182 | ipl_t ipl; |
183 | |||
184 | ipl = interrupts_disable(); |
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1044 | jermar | 185 | page_table_lock(as, true); |
703 | jermar | 186 | |
977 | jermar | 187 | area = find_area_and_lock(as, page); |
754 | jermar | 188 | if (!area) { |
189 | panic("page not part of any as_area\n"); |
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190 | } |
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191 | |||
756 | jermar | 192 | page_mapping_insert(as, page, frame, get_area_flags(area)); |
754 | jermar | 193 | |
194 | spinlock_unlock(&area->lock); |
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1044 | jermar | 195 | page_table_unlock(as, true); |
703 | jermar | 196 | interrupts_restore(ipl); |
197 | } |
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198 | |||
199 | /** Handle page fault within the current address space. |
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200 | * |
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201 | * This is the high-level page fault handler. |
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202 | * Interrupts are assumed disabled. |
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203 | * |
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204 | * @param page Faulting page. |
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205 | * |
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704 | jermar | 206 | * @return 0 on page fault, 1 on success. |
703 | jermar | 207 | */ |
208 | int as_page_fault(__address page) |
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209 | { |
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1044 | jermar | 210 | pte_t *pte; |
977 | jermar | 211 | as_area_t *area; |
703 | jermar | 212 | __address frame; |
213 | |||
214 | ASSERT(AS); |
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1044 | jermar | 215 | |
703 | jermar | 216 | spinlock_lock(&AS->lock); |
977 | jermar | 217 | area = find_area_and_lock(AS, page); |
703 | jermar | 218 | if (!area) { |
219 | /* |
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220 | * No area contained mapping for 'page'. |
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221 | * Signal page fault to low-level handler. |
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222 | */ |
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223 | spinlock_unlock(&AS->lock); |
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224 | return 0; |
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225 | } |
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226 | |||
1179 | jermar | 227 | ASSERT(!(area->flags & AS_AREA_DEVICE)); |
228 | |||
1044 | jermar | 229 | page_table_lock(AS, false); |
230 | |||
703 | jermar | 231 | /* |
1044 | jermar | 232 | * To avoid race condition between two page faults |
233 | * on the same address, we need to make sure |
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234 | * the mapping has not been already inserted. |
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235 | */ |
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236 | if ((pte = page_mapping_find(AS, page))) { |
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237 | if (PTE_PRESENT(pte)) { |
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238 | page_table_unlock(AS, false); |
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239 | spinlock_unlock(&area->lock); |
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240 | spinlock_unlock(&AS->lock); |
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241 | return 1; |
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242 | } |
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243 | } |
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244 | |||
245 | /* |
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754 | jermar | 246 | * In general, there can be several reasons that |
247 | * can have caused this fault. |
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248 | * |
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249 | * - non-existent mapping: the area is a scratch |
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250 | * area (e.g. stack) and so far has not been |
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251 | * allocated a frame for the faulting page |
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252 | * |
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253 | * - non-present mapping: another possibility, |
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254 | * currently not implemented, would be frame |
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255 | * reuse; when this becomes a possibility, |
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256 | * do not forget to distinguish between |
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257 | * the different causes |
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703 | jermar | 258 | */ |
814 | palkovsky | 259 | frame = PFN2ADDR(frame_alloc(ONE_FRAME, 0)); |
754 | jermar | 260 | memsetb(PA2KA(frame), FRAME_SIZE, 0); |
703 | jermar | 261 | |
262 | /* |
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263 | * Map 'page' to 'frame'. |
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264 | * Note that TLB shootdown is not attempted as only new information is being |
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265 | * inserted into page tables. |
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266 | */ |
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756 | jermar | 267 | page_mapping_insert(AS, page, frame, get_area_flags(area)); |
1044 | jermar | 268 | page_table_unlock(AS, false); |
703 | jermar | 269 | |
270 | spinlock_unlock(&area->lock); |
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271 | spinlock_unlock(&AS->lock); |
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272 | return 1; |
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273 | } |
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274 | |||
823 | jermar | 275 | /** Switch address spaces. |
703 | jermar | 276 | * |
823 | jermar | 277 | * @param old Old address space or NULL. |
278 | * @param new New address space. |
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703 | jermar | 279 | */ |
823 | jermar | 280 | void as_switch(as_t *old, as_t *new) |
703 | jermar | 281 | { |
282 | ipl_t ipl; |
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823 | jermar | 283 | bool needs_asid = false; |
703 | jermar | 284 | |
285 | ipl = interrupts_disable(); |
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823 | jermar | 286 | spinlock_lock(&as_lock); |
703 | jermar | 287 | |
288 | /* |
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823 | jermar | 289 | * First, take care of the old address space. |
290 | */ |
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291 | if (old) { |
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292 | spinlock_lock(&old->lock); |
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293 | ASSERT(old->refcount); |
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294 | if((--old->refcount == 0) && (old != AS_KERNEL)) { |
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295 | /* |
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296 | * The old address space is no longer active on |
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297 | * any processor. It can be appended to the |
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298 | * list of inactive address spaces with assigned |
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299 | * ASID. |
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300 | */ |
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301 | ASSERT(old->asid != ASID_INVALID); |
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302 | list_append(&old->inactive_as_with_asid_link, &inactive_as_with_asid_head); |
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303 | } |
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304 | spinlock_unlock(&old->lock); |
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305 | } |
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306 | |||
307 | /* |
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308 | * Second, prepare the new address space. |
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309 | */ |
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310 | spinlock_lock(&new->lock); |
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311 | if ((new->refcount++ == 0) && (new != AS_KERNEL)) { |
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312 | if (new->asid != ASID_INVALID) |
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313 | list_remove(&new->inactive_as_with_asid_link); |
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314 | else |
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315 | needs_asid = true; /* defer call to asid_get() until new->lock is released */ |
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316 | } |
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317 | SET_PTL0_ADDRESS(new->page_table); |
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318 | spinlock_unlock(&new->lock); |
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319 | |||
320 | if (needs_asid) { |
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321 | /* |
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322 | * Allocation of new ASID was deferred |
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323 | * until now in order to avoid deadlock. |
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324 | */ |
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325 | asid_t asid; |
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326 | |||
327 | asid = asid_get(); |
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328 | spinlock_lock(&new->lock); |
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329 | new->asid = asid; |
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330 | spinlock_unlock(&new->lock); |
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331 | } |
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332 | spinlock_unlock(&as_lock); |
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333 | interrupts_restore(ipl); |
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334 | |||
335 | /* |
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703 | jermar | 336 | * Perform architecture-specific steps. |
727 | jermar | 337 | * (e.g. write ASID to hardware register etc.) |
703 | jermar | 338 | */ |
823 | jermar | 339 | as_install_arch(new); |
703 | jermar | 340 | |
823 | jermar | 341 | AS = new; |
703 | jermar | 342 | } |
754 | jermar | 343 | |
344 | /** Compute flags for virtual address translation subsytem. |
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345 | * |
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346 | * The address space area must be locked. |
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347 | * Interrupts must be disabled. |
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348 | * |
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349 | * @param a Address space area. |
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350 | * |
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351 | * @return Flags to be used in page_mapping_insert(). |
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352 | */ |
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353 | int get_area_flags(as_area_t *a) |
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354 | { |
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355 | int flags; |
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356 | |||
1178 | jermar | 357 | flags = PAGE_USER | PAGE_PRESENT; |
754 | jermar | 358 | |
1026 | jermar | 359 | if (a->flags & AS_AREA_READ) |
360 | flags |= PAGE_READ; |
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361 | |||
362 | if (a->flags & AS_AREA_WRITE) |
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363 | flags |= PAGE_WRITE; |
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364 | |||
365 | if (a->flags & AS_AREA_EXEC) |
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366 | flags |= PAGE_EXEC; |
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367 | |||
1178 | jermar | 368 | if (!(a->flags & AS_AREA_DEVICE)) |
369 | flags |= PAGE_CACHEABLE; |
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370 | |||
754 | jermar | 371 | return flags; |
372 | } |
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756 | jermar | 373 | |
374 | /** Create page table. |
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375 | * |
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376 | * Depending on architecture, create either address space |
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377 | * private or global page table. |
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378 | * |
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379 | * @param flags Flags saying whether the page table is for kernel address space. |
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380 | * |
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381 | * @return First entry of the page table. |
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382 | */ |
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383 | pte_t *page_table_create(int flags) |
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384 | { |
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385 | ASSERT(as_operations); |
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386 | ASSERT(as_operations->page_table_create); |
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387 | |||
388 | return as_operations->page_table_create(flags); |
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389 | } |
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977 | jermar | 390 | |
1044 | jermar | 391 | /** Lock page table. |
392 | * |
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393 | * This function should be called before any page_mapping_insert(), |
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394 | * page_mapping_remove() and page_mapping_find(). |
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395 | * |
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396 | * Locking order is such that address space areas must be locked |
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397 | * prior to this call. Address space can be locked prior to this |
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398 | * call in which case the lock argument is false. |
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399 | * |
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400 | * @param as Address space. |
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401 | * @param as_locked If false, do not attempt to lock as->lock. |
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402 | */ |
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403 | void page_table_lock(as_t *as, bool lock) |
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404 | { |
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405 | ASSERT(as_operations); |
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406 | ASSERT(as_operations->page_table_lock); |
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407 | |||
408 | as_operations->page_table_lock(as, lock); |
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409 | } |
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410 | |||
411 | /** Unlock page table. |
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412 | * |
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413 | * @param as Address space. |
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414 | * @param as_locked If false, do not attempt to unlock as->lock. |
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415 | */ |
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416 | void page_table_unlock(as_t *as, bool unlock) |
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417 | { |
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418 | ASSERT(as_operations); |
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419 | ASSERT(as_operations->page_table_unlock); |
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420 | |||
421 | as_operations->page_table_unlock(as, unlock); |
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422 | } |
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423 | |||
977 | jermar | 424 | /** Find address space area and change it. |
425 | * |
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426 | * @param as Address space. |
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427 | * @param address Virtual address belonging to the area to be changed. Must be page-aligned. |
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428 | * @param size New size of the virtual memory block starting at address. |
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429 | * @param flags Flags influencing the remap operation. Currently unused. |
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430 | * |
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431 | * @return address on success, (__address) -1 otherwise. |
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432 | */ |
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1227 | jermar | 433 | __address as_area_resize(as_t *as, __address address, size_t size, int flags) |
977 | jermar | 434 | { |
435 | as_area_t *area = NULL; |
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436 | ipl_t ipl; |
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437 | size_t pages; |
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438 | |||
439 | ipl = interrupts_disable(); |
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440 | spinlock_lock(&as->lock); |
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441 | |||
442 | /* |
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443 | * Locate the area. |
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444 | */ |
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445 | area = find_area_and_lock(as, address); |
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446 | if (!area) { |
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447 | spinlock_unlock(&as->lock); |
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1048 | jermar | 448 | interrupts_restore(ipl); |
977 | jermar | 449 | return (__address) -1; |
450 | } |
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451 | |||
1179 | jermar | 452 | if (area->flags & AS_AREA_DEVICE) { |
453 | /* |
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454 | * Remapping of address space areas associated |
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455 | * with memory mapped devices is not supported. |
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456 | */ |
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457 | spinlock_unlock(&area->lock); |
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458 | spinlock_unlock(&as->lock); |
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459 | interrupts_restore(ipl); |
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460 | return (__address) -1; |
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461 | } |
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462 | |||
977 | jermar | 463 | pages = SIZE2FRAMES((address - area->base) + size); |
1048 | jermar | 464 | if (pages < area->pages) { |
977 | jermar | 465 | int i; |
466 | |||
467 | /* |
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468 | * Shrinking the area. |
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1147 | jermar | 469 | * No need to check for overlaps. |
977 | jermar | 470 | */ |
1048 | jermar | 471 | for (i = pages; i < area->pages; i++) { |
977 | jermar | 472 | pte_t *pte; |
473 | |||
474 | /* |
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475 | * Releasing physical memory. |
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476 | * This depends on the fact that the memory was allocated using frame_alloc(). |
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1044 | jermar | 477 | */ |
478 | page_table_lock(as, false); |
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977 | jermar | 479 | pte = page_mapping_find(as, area->base + i*PAGE_SIZE); |
980 | palkovsky | 480 | if (pte && PTE_VALID(pte)) { |
1044 | jermar | 481 | __address frame; |
482 | |||
977 | jermar | 483 | ASSERT(PTE_PRESENT(pte)); |
1044 | jermar | 484 | frame = PTE_GET_FRAME(pte); |
983 | palkovsky | 485 | page_mapping_remove(as, area->base + i*PAGE_SIZE); |
1044 | jermar | 486 | page_table_unlock(as, false); |
487 | |||
488 | frame_free(ADDR2PFN(frame)); |
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489 | } else { |
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490 | page_table_unlock(as, false); |
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977 | jermar | 491 | } |
492 | } |
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493 | /* |
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494 | * Invalidate TLB's. |
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495 | */ |
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1048 | jermar | 496 | tlb_shootdown_start(TLB_INVL_PAGES, AS->asid, area->base + pages*PAGE_SIZE, area->pages - pages); |
497 | tlb_invalidate_pages(AS->asid, area->base + pages*PAGE_SIZE, area->pages - pages); |
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977 | jermar | 498 | tlb_shootdown_finalize(); |
1147 | jermar | 499 | } else { |
500 | /* |
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501 | * Growing the area. |
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502 | * Check for overlaps with other address space areas. |
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503 | */ |
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504 | if (!check_area_conflicts(as, address, pages * PAGE_SIZE, area)) { |
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505 | spinlock_unlock(&area->lock); |
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506 | spinlock_unlock(&as->lock); |
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507 | interrupts_restore(ipl); |
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508 | return (__address) -1; |
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509 | } |
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983 | palkovsky | 510 | } |
511 | |||
1048 | jermar | 512 | area->pages = pages; |
977 | jermar | 513 | |
514 | spinlock_unlock(&area->lock); |
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515 | spinlock_unlock(&as->lock); |
||
516 | interrupts_restore(ipl); |
||
517 | |||
518 | return address; |
||
519 | } |
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520 | |||
521 | /** Find address space area and lock it. |
||
522 | * |
||
523 | * The address space must be locked and interrupts must be disabled. |
||
524 | * |
||
525 | * @param as Address space. |
||
526 | * @param va Virtual address. |
||
527 | * |
||
528 | * @return Locked address space area containing va on success or NULL on failure. |
||
529 | */ |
||
530 | as_area_t *find_area_and_lock(as_t *as, __address va) |
||
531 | { |
||
532 | as_area_t *a; |
||
1147 | jermar | 533 | btree_node_t *leaf, *lnode; |
534 | int i; |
||
977 | jermar | 535 | |
1147 | jermar | 536 | a = (as_area_t *) btree_search(&as->as_area_btree, va, &leaf); |
537 | if (a) { |
||
538 | /* va is the base address of an address space area */ |
||
977 | jermar | 539 | spinlock_lock(&a->lock); |
1147 | jermar | 540 | return a; |
541 | } |
||
542 | |||
543 | /* |
||
1150 | jermar | 544 | * Search the leaf node and the righmost record of its left neighbour |
1147 | jermar | 545 | * to find out whether this is a miss or va belongs to an address |
546 | * space area found there. |
||
547 | */ |
||
548 | |||
549 | /* First, search the leaf node itself. */ |
||
550 | for (i = 0; i < leaf->keys; i++) { |
||
551 | a = (as_area_t *) leaf->value[i]; |
||
552 | spinlock_lock(&a->lock); |
||
553 | if ((a->base <= va) && (va < a->base + a->pages * PAGE_SIZE)) { |
||
554 | return a; |
||
555 | } |
||
556 | spinlock_unlock(&a->lock); |
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557 | } |
||
977 | jermar | 558 | |
1147 | jermar | 559 | /* |
1150 | jermar | 560 | * Second, locate the left neighbour and test its last record. |
1148 | jermar | 561 | * Because of its position in the B+tree, it must have base < va. |
1147 | jermar | 562 | */ |
1150 | jermar | 563 | if ((lnode = btree_leaf_node_left_neighbour(&as->as_area_btree, leaf))) { |
1147 | jermar | 564 | a = (as_area_t *) lnode->value[lnode->keys - 1]; |
565 | spinlock_lock(&a->lock); |
||
566 | if (va < a->base + a->pages * PAGE_SIZE) { |
||
1048 | jermar | 567 | return a; |
1147 | jermar | 568 | } |
977 | jermar | 569 | spinlock_unlock(&a->lock); |
570 | } |
||
571 | |||
572 | return NULL; |
||
573 | } |
||
1048 | jermar | 574 | |
575 | /** Check area conflicts with other areas. |
||
576 | * |
||
577 | * The address space must be locked and interrupts must be disabled. |
||
578 | * |
||
579 | * @param as Address space. |
||
580 | * @param va Starting virtual address of the area being tested. |
||
581 | * @param size Size of the area being tested. |
||
582 | * @param avoid_area Do not touch this area. |
||
583 | * |
||
584 | * @return True if there is no conflict, false otherwise. |
||
585 | */ |
||
586 | bool check_area_conflicts(as_t *as, __address va, size_t size, as_area_t *avoid_area) |
||
587 | { |
||
588 | as_area_t *a; |
||
1147 | jermar | 589 | btree_node_t *leaf, *node; |
590 | int i; |
||
1048 | jermar | 591 | |
1070 | jermar | 592 | /* |
593 | * We don't want any area to have conflicts with NULL page. |
||
594 | */ |
||
595 | if (overlaps(va, size, NULL, PAGE_SIZE)) |
||
596 | return false; |
||
597 | |||
1147 | jermar | 598 | /* |
599 | * The leaf node is found in O(log n), where n is proportional to |
||
600 | * the number of address space areas belonging to as. |
||
601 | * The check for conflicts is then attempted on the rightmost |
||
1150 | jermar | 602 | * record in the left neighbour, the leftmost record in the right |
603 | * neighbour and all records in the leaf node itself. |
||
1147 | jermar | 604 | */ |
1048 | jermar | 605 | |
1147 | jermar | 606 | if ((a = (as_area_t *) btree_search(&as->as_area_btree, va, &leaf))) { |
607 | if (a != avoid_area) |
||
608 | return false; |
||
609 | } |
||
610 | |||
611 | /* First, check the two border cases. */ |
||
1150 | jermar | 612 | if ((node = btree_leaf_node_left_neighbour(&as->as_area_btree, leaf))) { |
1147 | jermar | 613 | a = (as_area_t *) node->value[node->keys - 1]; |
614 | spinlock_lock(&a->lock); |
||
615 | if (overlaps(va, size, a->base, a->pages * PAGE_SIZE)) { |
||
616 | spinlock_unlock(&a->lock); |
||
617 | return false; |
||
618 | } |
||
619 | spinlock_unlock(&a->lock); |
||
620 | } |
||
1150 | jermar | 621 | if ((node = btree_leaf_node_right_neighbour(&as->as_area_btree, leaf))) { |
1147 | jermar | 622 | a = (as_area_t *) node->value[0]; |
623 | spinlock_lock(&a->lock); |
||
624 | if (overlaps(va, size, a->base, a->pages * PAGE_SIZE)) { |
||
625 | spinlock_unlock(&a->lock); |
||
626 | return false; |
||
627 | } |
||
628 | spinlock_unlock(&a->lock); |
||
629 | } |
||
630 | |||
631 | /* Second, check the leaf node. */ |
||
632 | for (i = 0; i < leaf->keys; i++) { |
||
633 | a = (as_area_t *) leaf->value[i]; |
||
634 | |||
1048 | jermar | 635 | if (a == avoid_area) |
636 | continue; |
||
1147 | jermar | 637 | |
1048 | jermar | 638 | spinlock_lock(&a->lock); |
1147 | jermar | 639 | if (overlaps(va, size, a->base, a->pages * PAGE_SIZE)) { |
640 | spinlock_unlock(&a->lock); |
||
641 | return false; |
||
642 | } |
||
1048 | jermar | 643 | spinlock_unlock(&a->lock); |
644 | } |
||
645 | |||
1070 | jermar | 646 | /* |
647 | * So far, the area does not conflict with other areas. |
||
648 | * Check if it doesn't conflict with kernel address space. |
||
649 | */ |
||
650 | if (!KERNEL_ADDRESS_SPACE_SHADOWED) { |
||
651 | return !overlaps(va, size, |
||
652 | KERNEL_ADDRESS_SPACE_START, KERNEL_ADDRESS_SPACE_END-KERNEL_ADDRESS_SPACE_START); |
||
653 | } |
||
654 | |||
1048 | jermar | 655 | return true; |
656 | } |