vm.c revision 1.30.4.4
1 1.30.4.4 yamt /* $NetBSD: vm.c,v 1.30.4.4 2010/03/11 15:04:38 yamt Exp $ */ 2 1.1 pooka 3 1.1 pooka /* 4 1.1 pooka * Copyright (c) 2007 Antti Kantee. All Rights Reserved. 5 1.1 pooka * 6 1.1 pooka * Development of this software was supported by Google Summer of Code. 7 1.1 pooka * 8 1.1 pooka * Redistribution and use in source and binary forms, with or without 9 1.1 pooka * modification, are permitted provided that the following conditions 10 1.1 pooka * are met: 11 1.1 pooka * 1. Redistributions of source code must retain the above copyright 12 1.1 pooka * notice, this list of conditions and the following disclaimer. 13 1.1 pooka * 2. Redistributions in binary form must reproduce the above copyright 14 1.1 pooka * notice, this list of conditions and the following disclaimer in the 15 1.1 pooka * documentation and/or other materials provided with the distribution. 16 1.1 pooka * 17 1.1 pooka * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS 18 1.1 pooka * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED 19 1.1 pooka * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE 20 1.1 pooka * DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 21 1.1 pooka * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 22 1.1 pooka * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR 23 1.1 pooka * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 24 1.1 pooka * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 25 1.1 pooka * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 26 1.1 pooka * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 27 1.1 pooka * SUCH DAMAGE. 28 1.1 pooka */ 29 1.1 pooka 30 1.1 pooka /* 31 1.1 pooka * Virtual memory emulation routines. Contents: 32 1.1 pooka * + anon objects & pager 33 1.1 pooka * + misc support routines 34 1.1 pooka */ 35 1.1 pooka 36 1.1 pooka /* 37 1.5 pooka * XXX: we abuse pg->uanon for the virtual address of the storage 38 1.1 pooka * for each page. phys_addr would fit the job description better, 39 1.1 pooka * except that it will create unnecessary lossage on some platforms 40 1.1 pooka * due to not being a pointer type. 41 1.1 pooka */ 42 1.1 pooka 43 1.30.4.1 yamt #include <sys/cdefs.h> 44 1.30.4.4 yamt __KERNEL_RCSID(0, "$NetBSD: vm.c,v 1.30.4.4 2010/03/11 15:04:38 yamt Exp $"); 45 1.30.4.1 yamt 46 1.1 pooka #include <sys/param.h> 47 1.30.4.1 yamt #include <sys/atomic.h> 48 1.30.4.4 yamt #include <sys/kmem.h> 49 1.30.4.4 yamt #include <sys/mman.h> 50 1.1 pooka #include <sys/null.h> 51 1.1 pooka #include <sys/vnode.h> 52 1.1 pooka #include <sys/buf.h> 53 1.1 pooka 54 1.30.4.1 yamt #include <machine/pmap.h> 55 1.30.4.1 yamt 56 1.30.4.1 yamt #include <rump/rumpuser.h> 57 1.30.4.1 yamt 58 1.1 pooka #include <uvm/uvm.h> 59 1.30.4.1 yamt #include <uvm/uvm_ddb.h> 60 1.1 pooka #include <uvm/uvm_prot.h> 61 1.30.4.2 yamt #include <uvm/uvm_readahead.h> 62 1.1 pooka 63 1.13 pooka #include "rump_private.h" 64 1.1 pooka 65 1.24 yamt static int ao_get(struct uvm_object *, voff_t, struct vm_page **, 66 1.24 yamt int *, int, vm_prot_t, int, int); 67 1.24 yamt static int ao_put(struct uvm_object *, voff_t, voff_t, int); 68 1.24 yamt 69 1.24 yamt const struct uvm_pagerops aobj_pager = { 70 1.24 yamt .pgo_get = ao_get, 71 1.24 yamt .pgo_put = ao_put, 72 1.24 yamt }; 73 1.24 yamt 74 1.25 ad kmutex_t uvm_pageqlock; 75 1.25 ad 76 1.1 pooka struct uvmexp uvmexp; 77 1.7 pooka struct uvm uvm; 78 1.1 pooka 79 1.1 pooka struct vmspace rump_vmspace; 80 1.1 pooka struct vm_map rump_vmmap; 81 1.30.4.1 yamt static struct vm_map_kernel kmem_map_store; 82 1.30.4.1 yamt struct vm_map *kmem_map = &kmem_map_store.vmk_map; 83 1.30.4.1 yamt const struct rb_tree_ops uvm_page_tree_ops; 84 1.30.4.1 yamt 85 1.30.4.1 yamt static struct vm_map_kernel kernel_map_store; 86 1.30.4.1 yamt struct vm_map *kernel_map = &kernel_map_store.vmk_map; 87 1.1 pooka 88 1.1 pooka /* 89 1.1 pooka * vm pages 90 1.1 pooka */ 91 1.1 pooka 92 1.22 pooka /* called with the object locked */ 93 1.1 pooka struct vm_page * 94 1.6 pooka rumpvm_makepage(struct uvm_object *uobj, voff_t off) 95 1.1 pooka { 96 1.1 pooka struct vm_page *pg; 97 1.1 pooka 98 1.27 pooka pg = kmem_zalloc(sizeof(struct vm_page), KM_SLEEP); 99 1.1 pooka pg->offset = off; 100 1.5 pooka pg->uobject = uobj; 101 1.1 pooka 102 1.27 pooka pg->uanon = (void *)kmem_zalloc(PAGE_SIZE, KM_SLEEP); 103 1.22 pooka pg->flags = PG_CLEAN|PG_BUSY|PG_FAKE; 104 1.1 pooka 105 1.30.4.1 yamt TAILQ_INSERT_TAIL(&uobj->memq, pg, listq.queue); 106 1.30.4.3 yamt uobj->uo_npages++; 107 1.21 pooka 108 1.1 pooka return pg; 109 1.1 pooka } 110 1.1 pooka 111 1.30.4.3 yamt struct vm_page * 112 1.30.4.3 yamt uvm_pagealloc_strat(struct uvm_object *uobj, voff_t off, struct vm_anon *anon, 113 1.30.4.3 yamt int flags, int strat, int free_list) 114 1.30.4.3 yamt { 115 1.30.4.3 yamt 116 1.30.4.3 yamt return rumpvm_makepage(uobj, off); 117 1.30.4.3 yamt } 118 1.30.4.3 yamt 119 1.21 pooka /* 120 1.21 pooka * Release a page. 121 1.21 pooka * 122 1.22 pooka * Called with the vm object locked. 123 1.21 pooka */ 124 1.1 pooka void 125 1.22 pooka uvm_pagefree(struct vm_page *pg) 126 1.1 pooka { 127 1.5 pooka struct uvm_object *uobj = pg->uobject; 128 1.1 pooka 129 1.22 pooka if (pg->flags & PG_WANTED) 130 1.22 pooka wakeup(pg); 131 1.22 pooka 132 1.30.4.3 yamt uobj->uo_npages--; 133 1.30.4.1 yamt TAILQ_REMOVE(&uobj->memq, pg, listq.queue); 134 1.27 pooka kmem_free((void *)pg->uanon, PAGE_SIZE); 135 1.27 pooka kmem_free(pg, sizeof(*pg)); 136 1.1 pooka } 137 1.1 pooka 138 1.15 pooka void 139 1.30.4.3 yamt uvm_pagezero(struct vm_page *pg) 140 1.15 pooka { 141 1.15 pooka 142 1.30.4.3 yamt pg->flags &= ~PG_CLEAN; 143 1.30.4.3 yamt memset((void *)pg->uanon, 0, PAGE_SIZE); 144 1.15 pooka } 145 1.15 pooka 146 1.1 pooka /* 147 1.1 pooka * Anon object stuff 148 1.1 pooka */ 149 1.1 pooka 150 1.1 pooka static int 151 1.1 pooka ao_get(struct uvm_object *uobj, voff_t off, struct vm_page **pgs, 152 1.1 pooka int *npages, int centeridx, vm_prot_t access_type, 153 1.1 pooka int advice, int flags) 154 1.1 pooka { 155 1.1 pooka struct vm_page *pg; 156 1.1 pooka int i; 157 1.1 pooka 158 1.1 pooka if (centeridx) 159 1.1 pooka panic("%s: centeridx != 0 not supported", __func__); 160 1.1 pooka 161 1.1 pooka /* loop over pages */ 162 1.1 pooka off = trunc_page(off); 163 1.1 pooka for (i = 0; i < *npages; i++) { 164 1.23 pooka retrylookup: 165 1.10 pooka pg = uvm_pagelookup(uobj, off + (i << PAGE_SHIFT)); 166 1.1 pooka if (pg) { 167 1.23 pooka if (pg->flags & PG_BUSY) { 168 1.23 pooka pg->flags |= PG_WANTED; 169 1.23 pooka UVM_UNLOCK_AND_WAIT(pg, &uobj->vmobjlock, 0, 170 1.23 pooka "aogetpg", 0); 171 1.23 pooka goto retrylookup; 172 1.23 pooka } 173 1.23 pooka pg->flags |= PG_BUSY; 174 1.1 pooka pgs[i] = pg; 175 1.1 pooka } else { 176 1.6 pooka pg = rumpvm_makepage(uobj, off + (i << PAGE_SHIFT)); 177 1.1 pooka pgs[i] = pg; 178 1.1 pooka } 179 1.1 pooka } 180 1.26 pooka mutex_exit(&uobj->vmobjlock); 181 1.1 pooka 182 1.1 pooka return 0; 183 1.1 pooka 184 1.1 pooka } 185 1.1 pooka 186 1.1 pooka static int 187 1.1 pooka ao_put(struct uvm_object *uobj, voff_t start, voff_t stop, int flags) 188 1.1 pooka { 189 1.1 pooka struct vm_page *pg; 190 1.1 pooka 191 1.1 pooka /* we only free all pages for now */ 192 1.23 pooka if ((flags & PGO_FREE) == 0 || (flags & PGO_ALLPAGES) == 0) { 193 1.26 pooka mutex_exit(&uobj->vmobjlock); 194 1.1 pooka return 0; 195 1.23 pooka } 196 1.1 pooka 197 1.1 pooka while ((pg = TAILQ_FIRST(&uobj->memq)) != NULL) 198 1.22 pooka uvm_pagefree(pg); 199 1.26 pooka mutex_exit(&uobj->vmobjlock); 200 1.1 pooka 201 1.1 pooka return 0; 202 1.1 pooka } 203 1.1 pooka 204 1.1 pooka struct uvm_object * 205 1.1 pooka uao_create(vsize_t size, int flags) 206 1.1 pooka { 207 1.1 pooka struct uvm_object *uobj; 208 1.1 pooka 209 1.27 pooka uobj = kmem_zalloc(sizeof(struct uvm_object), KM_SLEEP); 210 1.1 pooka uobj->pgops = &aobj_pager; 211 1.1 pooka TAILQ_INIT(&uobj->memq); 212 1.26 pooka mutex_init(&uobj->vmobjlock, MUTEX_DEFAULT, IPL_NONE); 213 1.1 pooka 214 1.1 pooka return uobj; 215 1.1 pooka } 216 1.1 pooka 217 1.1 pooka void 218 1.1 pooka uao_detach(struct uvm_object *uobj) 219 1.1 pooka { 220 1.1 pooka 221 1.29 pooka mutex_enter(&uobj->vmobjlock); 222 1.1 pooka ao_put(uobj, 0, 0, PGO_ALLPAGES | PGO_FREE); 223 1.30.4.1 yamt mutex_destroy(&uobj->vmobjlock); 224 1.27 pooka kmem_free(uobj, sizeof(*uobj)); 225 1.1 pooka } 226 1.1 pooka 227 1.1 pooka /* 228 1.1 pooka * Misc routines 229 1.1 pooka */ 230 1.1 pooka 231 1.30.4.3 yamt static kmutex_t pagermtx; 232 1.30.4.1 yamt 233 1.1 pooka void 234 1.30.4.1 yamt rumpvm_init(void) 235 1.1 pooka { 236 1.1 pooka 237 1.1 pooka uvmexp.free = 1024*1024; /* XXX */ 238 1.7 pooka uvm.pagedaemon_lwp = NULL; /* doesn't match curlwp */ 239 1.30.4.1 yamt rump_vmspace.vm_map.pmap = pmap_kernel(); 240 1.21 pooka 241 1.30.4.3 yamt mutex_init(&pagermtx, MUTEX_DEFAULT, 0); 242 1.25 ad mutex_init(&uvm_pageqlock, MUTEX_DEFAULT, 0); 243 1.30.4.1 yamt 244 1.30.4.1 yamt kernel_map->pmap = pmap_kernel(); 245 1.30.4.1 yamt callback_head_init(&kernel_map_store.vmk_reclaim_callback, IPL_VM); 246 1.30.4.1 yamt kmem_map->pmap = pmap_kernel(); 247 1.30.4.1 yamt callback_head_init(&kmem_map_store.vmk_reclaim_callback, IPL_VM); 248 1.1 pooka } 249 1.1 pooka 250 1.1 pooka 251 1.1 pooka void 252 1.7 pooka uvm_pagewire(struct vm_page *pg) 253 1.7 pooka { 254 1.7 pooka 255 1.7 pooka /* nada */ 256 1.7 pooka } 257 1.7 pooka 258 1.7 pooka void 259 1.7 pooka uvm_pageunwire(struct vm_page *pg) 260 1.7 pooka { 261 1.7 pooka 262 1.7 pooka /* nada */ 263 1.7 pooka } 264 1.7 pooka 265 1.30.4.4 yamt /* 266 1.30.4.4 yamt * This satisfies the "disgusting mmap hack" used by proplib. 267 1.30.4.4 yamt * We probably should grow some more assertables to make sure we're 268 1.30.4.4 yamt * not satisfying anything we shouldn't be satisfying. At least we 269 1.30.4.4 yamt * should make sure it's the local machine we're mmapping ... 270 1.30.4.4 yamt */ 271 1.30.4.1 yamt int 272 1.30.4.1 yamt uvm_mmap(struct vm_map *map, vaddr_t *addr, vsize_t size, vm_prot_t prot, 273 1.30.4.1 yamt vm_prot_t maxprot, int flags, void *handle, voff_t off, vsize_t locklim) 274 1.30.4.1 yamt { 275 1.30.4.4 yamt void *uaddr; 276 1.30.4.4 yamt int error; 277 1.30.4.1 yamt 278 1.30.4.4 yamt if (prot != (VM_PROT_READ | VM_PROT_WRITE)) 279 1.30.4.4 yamt panic("uvm_mmap() variant unsupported"); 280 1.30.4.4 yamt if (flags != (MAP_PRIVATE | MAP_ANON)) 281 1.30.4.4 yamt panic("uvm_mmap() variant unsupported"); 282 1.30.4.4 yamt /* no reason in particular, but cf. uvm_default_mapaddr() */ 283 1.30.4.4 yamt if (*addr != 0) 284 1.30.4.4 yamt panic("uvm_mmap() variant unsupported"); 285 1.30.4.4 yamt 286 1.30.4.4 yamt uaddr = rumpuser_anonmmap(size, 0, 0, &error); 287 1.30.4.4 yamt if (uaddr == NULL) 288 1.30.4.4 yamt return error; 289 1.30.4.4 yamt 290 1.30.4.4 yamt *addr = (vaddr_t)uaddr; 291 1.30.4.4 yamt return 0; 292 1.30.4.1 yamt } 293 1.30.4.1 yamt 294 1.30.4.3 yamt struct pagerinfo { 295 1.30.4.3 yamt vaddr_t pgr_kva; 296 1.30.4.3 yamt int pgr_npages; 297 1.30.4.3 yamt struct vm_page **pgr_pgs; 298 1.30.4.3 yamt bool pgr_read; 299 1.30.4.3 yamt 300 1.30.4.3 yamt LIST_ENTRY(pagerinfo) pgr_entries; 301 1.30.4.3 yamt }; 302 1.30.4.3 yamt static LIST_HEAD(, pagerinfo) pagerlist = LIST_HEAD_INITIALIZER(pagerlist); 303 1.30.4.3 yamt 304 1.30.4.3 yamt /* 305 1.30.4.3 yamt * Pager "map" in routine. Instead of mapping, we allocate memory 306 1.30.4.3 yamt * and copy page contents there. Not optimal or even strictly 307 1.30.4.3 yamt * correct (the caller might modify the page contents after mapping 308 1.30.4.3 yamt * them in), but what the heck. Assumes UVMPAGER_MAPIN_WAITOK. 309 1.30.4.3 yamt */ 310 1.7 pooka vaddr_t 311 1.30.4.3 yamt uvm_pagermapin(struct vm_page **pgs, int npages, int flags) 312 1.7 pooka { 313 1.30.4.3 yamt struct pagerinfo *pgri; 314 1.30.4.3 yamt vaddr_t curkva; 315 1.30.4.3 yamt int i; 316 1.7 pooka 317 1.30.4.3 yamt /* allocate structures */ 318 1.30.4.3 yamt pgri = kmem_alloc(sizeof(*pgri), KM_SLEEP); 319 1.30.4.3 yamt pgri->pgr_kva = (vaddr_t)kmem_alloc(npages * PAGE_SIZE, KM_SLEEP); 320 1.30.4.3 yamt pgri->pgr_npages = npages; 321 1.30.4.3 yamt pgri->pgr_pgs = kmem_alloc(sizeof(struct vm_page *) * npages, KM_SLEEP); 322 1.30.4.3 yamt pgri->pgr_read = (flags & UVMPAGER_MAPIN_READ) != 0; 323 1.30.4.3 yamt 324 1.30.4.3 yamt /* copy contents to "mapped" memory */ 325 1.30.4.3 yamt for (i = 0, curkva = pgri->pgr_kva; 326 1.30.4.3 yamt i < npages; 327 1.30.4.3 yamt i++, curkva += PAGE_SIZE) { 328 1.30.4.3 yamt /* 329 1.30.4.3 yamt * We need to copy the previous contents of the pages to 330 1.30.4.3 yamt * the window even if we are reading from the 331 1.30.4.3 yamt * device, since the device might not fill the contents of 332 1.30.4.3 yamt * the full mapped range and we will end up corrupting 333 1.30.4.3 yamt * data when we unmap the window. 334 1.30.4.3 yamt */ 335 1.30.4.3 yamt memcpy((void*)curkva, pgs[i]->uanon, PAGE_SIZE); 336 1.30.4.3 yamt pgri->pgr_pgs[i] = pgs[i]; 337 1.30.4.3 yamt } 338 1.30.4.3 yamt 339 1.30.4.3 yamt mutex_enter(&pagermtx); 340 1.30.4.3 yamt LIST_INSERT_HEAD(&pagerlist, pgri, pgr_entries); 341 1.30.4.3 yamt mutex_exit(&pagermtx); 342 1.30.4.3 yamt 343 1.30.4.3 yamt return pgri->pgr_kva; 344 1.7 pooka } 345 1.7 pooka 346 1.30.4.3 yamt /* 347 1.30.4.3 yamt * map out the pager window. return contents from VA to page storage 348 1.30.4.3 yamt * and free structures. 349 1.30.4.3 yamt * 350 1.30.4.3 yamt * Note: does not currently support partial frees 351 1.30.4.3 yamt */ 352 1.30.4.3 yamt void 353 1.30.4.3 yamt uvm_pagermapout(vaddr_t kva, int npages) 354 1.7 pooka { 355 1.30.4.3 yamt struct pagerinfo *pgri; 356 1.30.4.3 yamt vaddr_t curkva; 357 1.30.4.3 yamt int i; 358 1.7 pooka 359 1.30.4.3 yamt mutex_enter(&pagermtx); 360 1.30.4.3 yamt LIST_FOREACH(pgri, &pagerlist, pgr_entries) { 361 1.30.4.3 yamt if (pgri->pgr_kva == kva) 362 1.30.4.3 yamt break; 363 1.30.4.3 yamt } 364 1.30.4.3 yamt KASSERT(pgri); 365 1.30.4.3 yamt if (pgri->pgr_npages != npages) 366 1.30.4.3 yamt panic("uvm_pagermapout: partial unmapping not supported"); 367 1.30.4.3 yamt LIST_REMOVE(pgri, pgr_entries); 368 1.30.4.3 yamt mutex_exit(&pagermtx); 369 1.30.4.3 yamt 370 1.30.4.3 yamt if (pgri->pgr_read) { 371 1.30.4.3 yamt for (i = 0, curkva = pgri->pgr_kva; 372 1.30.4.3 yamt i < pgri->pgr_npages; 373 1.30.4.3 yamt i++, curkva += PAGE_SIZE) { 374 1.30.4.3 yamt memcpy(pgri->pgr_pgs[i]->uanon,(void*)curkva,PAGE_SIZE); 375 1.21 pooka } 376 1.21 pooka } 377 1.10 pooka 378 1.30.4.3 yamt kmem_free(pgri->pgr_pgs, npages * sizeof(struct vm_page *)); 379 1.30.4.3 yamt kmem_free((void*)pgri->pgr_kva, npages * PAGE_SIZE); 380 1.30.4.3 yamt kmem_free(pgri, sizeof(*pgri)); 381 1.7 pooka } 382 1.7 pooka 383 1.30.4.3 yamt /* 384 1.30.4.3 yamt * convert va in pager window to page structure. 385 1.30.4.3 yamt * XXX: how expensive is this (global lock, list traversal)? 386 1.30.4.3 yamt */ 387 1.14 pooka struct vm_page * 388 1.14 pooka uvm_pageratop(vaddr_t va) 389 1.14 pooka { 390 1.30.4.3 yamt struct pagerinfo *pgri; 391 1.30.4.3 yamt struct vm_page *pg = NULL; 392 1.30.4.3 yamt int i; 393 1.14 pooka 394 1.30.4.3 yamt mutex_enter(&pagermtx); 395 1.30.4.3 yamt LIST_FOREACH(pgri, &pagerlist, pgr_entries) { 396 1.30.4.3 yamt if (pgri->pgr_kva <= va 397 1.30.4.3 yamt && va < pgri->pgr_kva + pgri->pgr_npages*PAGE_SIZE) 398 1.21 pooka break; 399 1.30.4.3 yamt } 400 1.30.4.3 yamt if (pgri) { 401 1.30.4.3 yamt i = (va - pgri->pgr_kva) >> PAGE_SHIFT; 402 1.30.4.3 yamt pg = pgri->pgr_pgs[i]; 403 1.30.4.3 yamt } 404 1.30.4.3 yamt mutex_exit(&pagermtx); 405 1.21 pooka 406 1.30.4.3 yamt return pg; 407 1.30.4.3 yamt } 408 1.15 pooka 409 1.30.4.3 yamt /* Called with the vm object locked */ 410 1.30.4.3 yamt struct vm_page * 411 1.30.4.3 yamt uvm_pagelookup(struct uvm_object *uobj, voff_t off) 412 1.30.4.3 yamt { 413 1.30.4.3 yamt struct vm_page *pg; 414 1.30.4.3 yamt 415 1.30.4.3 yamt TAILQ_FOREACH(pg, &uobj->memq, listq.queue) { 416 1.30.4.3 yamt if (pg->offset == off) { 417 1.30.4.3 yamt return pg; 418 1.30.4.3 yamt } 419 1.30.4.3 yamt } 420 1.30.4.3 yamt 421 1.30.4.3 yamt return NULL; 422 1.14 pooka } 423 1.14 pooka 424 1.7 pooka void 425 1.22 pooka uvm_page_unbusy(struct vm_page **pgs, int npgs) 426 1.22 pooka { 427 1.22 pooka struct vm_page *pg; 428 1.22 pooka int i; 429 1.22 pooka 430 1.22 pooka for (i = 0; i < npgs; i++) { 431 1.22 pooka pg = pgs[i]; 432 1.22 pooka if (pg == NULL) 433 1.22 pooka continue; 434 1.22 pooka 435 1.22 pooka KASSERT(pg->flags & PG_BUSY); 436 1.22 pooka if (pg->flags & PG_WANTED) 437 1.22 pooka wakeup(pg); 438 1.30.4.1 yamt if (pg->flags & PG_RELEASED) 439 1.30.4.1 yamt uvm_pagefree(pg); 440 1.30.4.1 yamt else 441 1.30.4.1 yamt pg->flags &= ~(PG_WANTED|PG_BUSY); 442 1.22 pooka } 443 1.22 pooka } 444 1.22 pooka 445 1.22 pooka void 446 1.7 pooka uvm_estimatepageable(int *active, int *inactive) 447 1.7 pooka { 448 1.7 pooka 449 1.19 pooka /* XXX: guessing game */ 450 1.19 pooka *active = 1024; 451 1.19 pooka *inactive = 1024; 452 1.7 pooka } 453 1.7 pooka 454 1.30.4.1 yamt struct vm_map_kernel * 455 1.30.4.1 yamt vm_map_to_kernel(struct vm_map *map) 456 1.7 pooka { 457 1.7 pooka 458 1.30.4.1 yamt return (struct vm_map_kernel *)map; 459 1.7 pooka } 460 1.7 pooka 461 1.30.4.1 yamt bool 462 1.30.4.1 yamt vm_map_starved_p(struct vm_map *map) 463 1.7 pooka { 464 1.7 pooka 465 1.30.4.1 yamt return false; 466 1.15 pooka } 467 1.15 pooka 468 1.15 pooka void 469 1.30.4.1 yamt uvm_pageout_start(int npages) 470 1.15 pooka { 471 1.15 pooka 472 1.30.4.1 yamt uvmexp.paging += npages; 473 1.7 pooka } 474 1.7 pooka 475 1.7 pooka void 476 1.30.4.1 yamt uvm_pageout_done(int npages) 477 1.1 pooka { 478 1.1 pooka 479 1.30.4.1 yamt uvmexp.paging -= npages; 480 1.30.4.1 yamt 481 1.30.4.1 yamt /* 482 1.30.4.1 yamt * wake up either of pagedaemon or LWPs waiting for it. 483 1.30.4.1 yamt */ 484 1.30.4.1 yamt 485 1.30.4.1 yamt if (uvmexp.free <= uvmexp.reserve_kernel) { 486 1.30.4.1 yamt wakeup(&uvm.pagedaemon); 487 1.30.4.1 yamt } else { 488 1.30.4.1 yamt wakeup(&uvmexp.free); 489 1.30.4.1 yamt } 490 1.1 pooka } 491 1.1 pooka 492 1.30.4.1 yamt int 493 1.30.4.1 yamt uvm_loan(struct vm_map *map, vaddr_t start, vsize_t len, void *v, int flags) 494 1.30.4.1 yamt { 495 1.1 pooka 496 1.30.4.1 yamt panic("%s: unimplemented", __func__); 497 1.1 pooka } 498 1.1 pooka 499 1.30.4.1 yamt void 500 1.30.4.1 yamt uvm_unloan(void *v, int npages, int flags) 501 1.11 pooka { 502 1.11 pooka 503 1.30.4.1 yamt panic("%s: unimplemented", __func__); 504 1.11 pooka } 505 1.11 pooka 506 1.30.4.1 yamt int 507 1.30.4.1 yamt uvm_loanuobjpages(struct uvm_object *uobj, voff_t pgoff, int orignpages, 508 1.30.4.1 yamt struct vm_page **opp) 509 1.11 pooka { 510 1.11 pooka 511 1.30.4.1 yamt panic("%s: unimplemented", __func__); 512 1.11 pooka } 513 1.11 pooka 514 1.30.4.1 yamt void 515 1.30.4.1 yamt uvm_object_printit(struct uvm_object *uobj, bool full, 516 1.30.4.1 yamt void (*pr)(const char *, ...)) 517 1.1 pooka { 518 1.1 pooka 519 1.30.4.1 yamt /* nada for now */ 520 1.1 pooka } 521 1.9 pooka 522 1.30.4.4 yamt vaddr_t 523 1.30.4.4 yamt uvm_default_mapaddr(struct proc *p, vaddr_t base, vsize_t sz) 524 1.30.4.2 yamt { 525 1.30.4.2 yamt 526 1.30.4.2 yamt return 0; 527 1.30.4.2 yamt } 528 1.30.4.2 yamt 529 1.9 pooka /* 530 1.12 pooka * UVM km 531 1.12 pooka */ 532 1.12 pooka 533 1.12 pooka vaddr_t 534 1.12 pooka uvm_km_alloc(struct vm_map *map, vsize_t size, vsize_t align, uvm_flag_t flags) 535 1.12 pooka { 536 1.12 pooka void *rv; 537 1.30.4.1 yamt int alignbit, error; 538 1.30.4.1 yamt 539 1.30.4.1 yamt alignbit = 0; 540 1.30.4.1 yamt if (align) { 541 1.30.4.1 yamt alignbit = ffs(align)-1; 542 1.30.4.1 yamt } 543 1.12 pooka 544 1.30.4.1 yamt rv = rumpuser_anonmmap(size, alignbit, flags & UVM_KMF_EXEC, &error); 545 1.30.4.1 yamt if (rv == NULL) { 546 1.30.4.1 yamt if (flags & (UVM_KMF_CANFAIL | UVM_KMF_NOWAIT)) 547 1.30.4.1 yamt return 0; 548 1.30.4.1 yamt else 549 1.30.4.1 yamt panic("uvm_km_alloc failed"); 550 1.30.4.1 yamt } 551 1.30.4.1 yamt 552 1.30.4.1 yamt if (flags & UVM_KMF_ZERO) 553 1.12 pooka memset(rv, 0, size); 554 1.12 pooka 555 1.12 pooka return (vaddr_t)rv; 556 1.12 pooka } 557 1.12 pooka 558 1.12 pooka void 559 1.12 pooka uvm_km_free(struct vm_map *map, vaddr_t vaddr, vsize_t size, uvm_flag_t flags) 560 1.12 pooka { 561 1.12 pooka 562 1.30.4.1 yamt rumpuser_unmap((void *)vaddr, size); 563 1.12 pooka } 564 1.12 pooka 565 1.12 pooka struct vm_map * 566 1.12 pooka uvm_km_suballoc(struct vm_map *map, vaddr_t *minaddr, vaddr_t *maxaddr, 567 1.12 pooka vsize_t size, int pageable, bool fixed, struct vm_map_kernel *submap) 568 1.12 pooka { 569 1.12 pooka 570 1.12 pooka return (struct vm_map *)417416; 571 1.12 pooka } 572 1.25 ad 573 1.30.4.1 yamt vaddr_t 574 1.30.4.1 yamt uvm_km_alloc_poolpage(struct vm_map *map, bool waitok) 575 1.25 ad { 576 1.25 ad 577 1.30.4.1 yamt return (vaddr_t)rumpuser_malloc(PAGE_SIZE, !waitok); 578 1.25 ad } 579 1.25 ad 580 1.25 ad void 581 1.30.4.1 yamt uvm_km_free_poolpage(struct vm_map *map, vaddr_t addr) 582 1.25 ad { 583 1.25 ad 584 1.30.4.1 yamt rumpuser_unmap((void *)addr, PAGE_SIZE); 585 1.30.4.1 yamt } 586 1.25 ad 587 1.30.4.1 yamt vaddr_t 588 1.30.4.1 yamt uvm_km_alloc_poolpage_cache(struct vm_map *map, bool waitok) 589 1.30.4.1 yamt { 590 1.30.4.1 yamt void *rv; 591 1.30.4.1 yamt int error; 592 1.25 ad 593 1.30.4.1 yamt rv = rumpuser_anonmmap(PAGE_SIZE, PAGE_SHIFT, 0, &error); 594 1.30.4.1 yamt if (rv == NULL && waitok) 595 1.30.4.1 yamt panic("fixme: poolpage alloc failed"); 596 1.30.4.1 yamt 597 1.30.4.1 yamt return (vaddr_t)rv; 598 1.30.4.1 yamt } 599 1.30.4.1 yamt 600 1.30.4.1 yamt void 601 1.30.4.1 yamt uvm_km_free_poolpage_cache(struct vm_map *map, vaddr_t vaddr) 602 1.30.4.1 yamt { 603 1.30.4.1 yamt 604 1.30.4.1 yamt rumpuser_unmap((void *)vaddr, PAGE_SIZE); 605 1.25 ad } 606 1.30.4.2 yamt 607 1.30.4.2 yamt /* 608 1.30.4.2 yamt * Mapping and vm space locking routines. 609 1.30.4.2 yamt * XXX: these don't work for non-local vmspaces 610 1.30.4.2 yamt */ 611 1.30.4.2 yamt int 612 1.30.4.2 yamt uvm_vslock(struct vmspace *vs, void *addr, size_t len, vm_prot_t access) 613 1.30.4.2 yamt { 614 1.30.4.2 yamt 615 1.30.4.2 yamt KASSERT(vs == &rump_vmspace); 616 1.30.4.2 yamt return 0; 617 1.30.4.2 yamt } 618 1.30.4.2 yamt 619 1.30.4.2 yamt void 620 1.30.4.2 yamt uvm_vsunlock(struct vmspace *vs, void *addr, size_t len) 621 1.30.4.2 yamt { 622 1.30.4.2 yamt 623 1.30.4.2 yamt KASSERT(vs == &rump_vmspace); 624 1.30.4.2 yamt } 625 1.30.4.2 yamt 626 1.30.4.2 yamt void 627 1.30.4.2 yamt vmapbuf(struct buf *bp, vsize_t len) 628 1.30.4.2 yamt { 629 1.30.4.2 yamt 630 1.30.4.2 yamt bp->b_saveaddr = bp->b_data; 631 1.30.4.2 yamt } 632 1.30.4.2 yamt 633 1.30.4.2 yamt void 634 1.30.4.2 yamt vunmapbuf(struct buf *bp, vsize_t len) 635 1.30.4.2 yamt { 636 1.30.4.2 yamt 637 1.30.4.2 yamt bp->b_data = bp->b_saveaddr; 638 1.30.4.2 yamt bp->b_saveaddr = 0; 639 1.30.4.2 yamt } 640 1.30.4.3 yamt 641 1.30.4.3 yamt void 642 1.30.4.3 yamt uvm_wait(const char *msg) 643 1.30.4.3 yamt { 644 1.30.4.3 yamt 645 1.30.4.3 yamt /* nothing to wait for */ 646 1.30.4.3 yamt } 647 1.30.4.3 yamt 648 1.30.4.4 yamt void 649 1.30.4.4 yamt uvmspace_free(struct vmspace *vm) 650 1.30.4.4 yamt { 651 1.30.4.4 yamt 652 1.30.4.4 yamt /* nothing for now */ 653 1.30.4.4 yamt } 654 1.30.4.4 yamt 655 1.30.4.4 yamt int 656 1.30.4.4 yamt uvm_io(struct vm_map *map, struct uio *uio) 657 1.30.4.4 yamt { 658 1.30.4.4 yamt 659 1.30.4.4 yamt /* 660 1.30.4.4 yamt * just do direct uio for now. but this needs some vmspace 661 1.30.4.4 yamt * olympics for rump_sysproxy. 662 1.30.4.4 yamt */ 663 1.30.4.4 yamt return uiomove((void *)(vaddr_t)uio->uio_offset, uio->uio_resid, uio); 664 1.30.4.4 yamt } 665 1.30.4.4 yamt 666 1.30.4.3 yamt /* 667 1.30.4.3 yamt * page life cycle stuff. it really doesn't exist, so just stubs. 668 1.30.4.3 yamt */ 669 1.30.4.3 yamt 670 1.30.4.3 yamt void 671 1.30.4.3 yamt uvm_pageactivate(struct vm_page *pg) 672 1.30.4.3 yamt { 673 1.30.4.3 yamt 674 1.30.4.3 yamt /* nada */ 675 1.30.4.3 yamt } 676 1.30.4.3 yamt 677 1.30.4.3 yamt void 678 1.30.4.3 yamt uvm_pagedeactivate(struct vm_page *pg) 679 1.30.4.3 yamt { 680 1.30.4.3 yamt 681 1.30.4.3 yamt /* nada */ 682 1.30.4.3 yamt } 683 1.30.4.3 yamt 684 1.30.4.3 yamt void 685 1.30.4.3 yamt uvm_pagedequeue(struct vm_page *pg) 686 1.30.4.3 yamt { 687 1.30.4.3 yamt 688 1.30.4.3 yamt /* nada*/ 689 1.30.4.3 yamt } 690 1.30.4.3 yamt 691 1.30.4.3 yamt void 692 1.30.4.3 yamt uvm_pageenqueue(struct vm_page *pg) 693 1.30.4.3 yamt { 694 1.30.4.3 yamt 695 1.30.4.3 yamt /* nada */ 696 1.30.4.3 yamt } 697
Indexes created Thu Oct 02 01:09:59 GMT 2025