uvm_bio.c revision 1.19
1 1.19 chs /* $NetBSD: uvm_bio.c,v 1.19 2001/09/28 11:59:55 chs Exp $ */ 2 1.2 chs 3 1.13 chs /* 4 1.2 chs * Copyright (c) 1998 Chuck Silvers. 5 1.2 chs * All rights reserved. 6 1.2 chs * 7 1.2 chs * Redistribution and use in source and binary forms, with or without 8 1.2 chs * modification, are permitted provided that the following conditions 9 1.2 chs * are met: 10 1.2 chs * 1. Redistributions of source code must retain the above copyright 11 1.2 chs * notice, this list of conditions and the following disclaimer. 12 1.2 chs * 2. Redistributions in binary form must reproduce the above copyright 13 1.2 chs * notice, this list of conditions and the following disclaimer in the 14 1.2 chs * documentation and/or other materials provided with the distribution. 15 1.2 chs * 3. The name of the author may not be used to endorse or promote products 16 1.2 chs * derived from this software without specific prior written permission. 17 1.2 chs * 18 1.2 chs * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 19 1.2 chs * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 20 1.2 chs * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 21 1.2 chs * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 22 1.2 chs * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, 23 1.2 chs * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; 24 1.2 chs * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED 25 1.2 chs * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, 26 1.2 chs * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 27 1.2 chs * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 28 1.2 chs * SUCH DAMAGE. 29 1.2 chs * 30 1.2 chs */ 31 1.2 chs 32 1.2 chs #include "opt_uvmhist.h" 33 1.2 chs 34 1.2 chs /* 35 1.2 chs * uvm_bio.c: buffered i/o vnode mapping cache 36 1.2 chs */ 37 1.2 chs 38 1.2 chs 39 1.2 chs #include <sys/param.h> 40 1.2 chs #include <sys/systm.h> 41 1.2 chs #include <sys/malloc.h> 42 1.2 chs #include <sys/kernel.h> 43 1.2 chs #include <sys/vnode.h> 44 1.19 chs #include <sys/proc.h> 45 1.2 chs 46 1.2 chs #include <uvm/uvm.h> 47 1.2 chs 48 1.2 chs /* 49 1.2 chs * global data structures 50 1.2 chs */ 51 1.2 chs 52 1.2 chs /* 53 1.2 chs * local functions 54 1.2 chs */ 55 1.2 chs 56 1.18 chs int ubc_fault __P((struct uvm_faultinfo *, vaddr_t, struct vm_page **, int, 57 1.18 chs int, vm_fault_t, vm_prot_t, int)); 58 1.18 chs struct ubc_map *ubc_find_mapping __P((struct uvm_object *, voff_t)); 59 1.2 chs 60 1.2 chs /* 61 1.2 chs * local data structues 62 1.2 chs */ 63 1.2 chs 64 1.18 chs #define UBC_HASH(uobj, offset) \ 65 1.18 chs (((((u_long)(uobj)) >> 8) + (((u_long)(offset)) >> PAGE_SHIFT)) & \ 66 1.2 chs ubc_object.hashmask) 67 1.2 chs 68 1.18 chs #define UBC_QUEUE(offset) \ 69 1.18 chs (&ubc_object.inactive[(((u_long)(offset)) >> ubc_winshift) & \ 70 1.18 chs (UBC_NQUEUES - 1)]) 71 1.18 chs 72 1.18 chs #define UBC_UMAP_ADDR(u) \ 73 1.18 chs (vaddr_t)(ubc_object.kva + (((u) - ubc_object.umap) << ubc_winshift)) 74 1.18 chs 75 1.18 chs 76 1.18 chs #define UMAP_PAGES_LOCKED 0x0001 77 1.18 chs #define UMAP_MAPPING_CACHED 0x0002 78 1.2 chs 79 1.2 chs struct ubc_map 80 1.2 chs { 81 1.2 chs struct uvm_object * uobj; /* mapped object */ 82 1.2 chs voff_t offset; /* offset into uobj */ 83 1.2 chs voff_t writeoff; /* overwrite offset */ 84 1.2 chs vsize_t writelen; /* overwrite len */ 85 1.18 chs int refcount; /* refcount on mapping */ 86 1.18 chs int flags; /* extra state */ 87 1.2 chs 88 1.2 chs LIST_ENTRY(ubc_map) hash; /* hash table */ 89 1.2 chs TAILQ_ENTRY(ubc_map) inactive; /* inactive queue */ 90 1.2 chs }; 91 1.2 chs 92 1.2 chs static struct ubc_object 93 1.2 chs { 94 1.2 chs struct uvm_object uobj; /* glue for uvm_map() */ 95 1.2 chs char *kva; /* where ubc_object is mapped */ 96 1.2 chs struct ubc_map *umap; /* array of ubc_map's */ 97 1.2 chs 98 1.2 chs LIST_HEAD(, ubc_map) *hash; /* hashtable for cached ubc_map's */ 99 1.2 chs u_long hashmask; /* mask for hashtable */ 100 1.2 chs 101 1.2 chs TAILQ_HEAD(ubc_inactive_head, ubc_map) *inactive; 102 1.2 chs /* inactive queues for ubc_map's */ 103 1.2 chs 104 1.2 chs } ubc_object; 105 1.2 chs 106 1.2 chs struct uvm_pagerops ubc_pager = 107 1.2 chs { 108 1.2 chs NULL, /* init */ 109 1.2 chs NULL, /* reference */ 110 1.2 chs NULL, /* detach */ 111 1.2 chs ubc_fault, /* fault */ 112 1.2 chs /* ... rest are NULL */ 113 1.2 chs }; 114 1.2 chs 115 1.2 chs int ubc_nwins = UBC_NWINS; 116 1.11 chs int ubc_winshift = UBC_WINSHIFT; 117 1.11 chs int ubc_winsize; 118 1.2 chs #ifdef PMAP_PREFER 119 1.2 chs int ubc_nqueues; 120 1.2 chs boolean_t ubc_release_unmap = FALSE; 121 1.2 chs #define UBC_NQUEUES ubc_nqueues 122 1.2 chs #define UBC_RELEASE_UNMAP ubc_release_unmap 123 1.2 chs #else 124 1.2 chs #define UBC_NQUEUES 1 125 1.2 chs #define UBC_RELEASE_UNMAP FALSE 126 1.2 chs #endif 127 1.2 chs 128 1.2 chs /* 129 1.2 chs * ubc_init 130 1.2 chs * 131 1.2 chs * init pager private data structures. 132 1.2 chs */ 133 1.2 chs 134 1.2 chs void 135 1.2 chs ubc_init(void) 136 1.2 chs { 137 1.2 chs struct ubc_map *umap; 138 1.2 chs vaddr_t va; 139 1.2 chs int i; 140 1.15 simonb 141 1.15 simonb /* 142 1.15 simonb * Make sure ubc_winshift is sane. 143 1.15 simonb */ 144 1.15 simonb if (ubc_winshift < PAGE_SHIFT) 145 1.15 simonb ubc_winshift = PAGE_SHIFT; 146 1.2 chs 147 1.2 chs /* 148 1.2 chs * init ubc_object. 149 1.2 chs * alloc and init ubc_map's. 150 1.2 chs * init inactive queues. 151 1.2 chs * alloc and init hashtable. 152 1.2 chs * map in ubc_object. 153 1.2 chs */ 154 1.2 chs 155 1.2 chs simple_lock_init(&ubc_object.uobj.vmobjlock); 156 1.2 chs ubc_object.uobj.pgops = &ubc_pager; 157 1.2 chs TAILQ_INIT(&ubc_object.uobj.memq); 158 1.2 chs ubc_object.uobj.uo_npages = 0; 159 1.2 chs ubc_object.uobj.uo_refs = UVM_OBJ_KERN; 160 1.2 chs 161 1.2 chs ubc_object.umap = malloc(ubc_nwins * sizeof(struct ubc_map), 162 1.2 chs M_TEMP, M_NOWAIT); 163 1.7 enami if (ubc_object.umap == NULL) 164 1.7 enami panic("ubc_init: failed to allocate ubc_map"); 165 1.16 thorpej memset(ubc_object.umap, 0, ubc_nwins * sizeof(struct ubc_map)); 166 1.2 chs 167 1.18 chs if (ubc_winshift < PAGE_SHIFT) { 168 1.18 chs ubc_winshift = PAGE_SHIFT; 169 1.18 chs } 170 1.2 chs va = (vaddr_t)1L; 171 1.2 chs #ifdef PMAP_PREFER 172 1.2 chs PMAP_PREFER(0, &va); 173 1.11 chs ubc_nqueues = va >> ubc_winshift; 174 1.11 chs if (ubc_nqueues == 0) { 175 1.11 chs ubc_nqueues = 1; 176 1.2 chs } 177 1.2 chs if (ubc_nqueues != 1) { 178 1.2 chs ubc_release_unmap = TRUE; 179 1.2 chs } 180 1.2 chs #endif 181 1.11 chs ubc_winsize = 1 << ubc_winshift; 182 1.2 chs ubc_object.inactive = malloc(UBC_NQUEUES * 183 1.18 chs sizeof(struct ubc_inactive_head), M_TEMP, M_NOWAIT); 184 1.7 enami if (ubc_object.inactive == NULL) 185 1.7 enami panic("ubc_init: failed to allocate inactive queue heads"); 186 1.2 chs for (i = 0; i < UBC_NQUEUES; i++) { 187 1.2 chs TAILQ_INIT(&ubc_object.inactive[i]); 188 1.2 chs } 189 1.2 chs for (i = 0; i < ubc_nwins; i++) { 190 1.2 chs umap = &ubc_object.umap[i]; 191 1.2 chs TAILQ_INSERT_TAIL(&ubc_object.inactive[i & (UBC_NQUEUES - 1)], 192 1.2 chs umap, inactive); 193 1.2 chs } 194 1.2 chs 195 1.2 chs ubc_object.hash = hashinit(ubc_nwins, HASH_LIST, M_TEMP, M_NOWAIT, 196 1.2 chs &ubc_object.hashmask); 197 1.2 chs for (i = 0; i <= ubc_object.hashmask; i++) { 198 1.2 chs LIST_INIT(&ubc_object.hash[i]); 199 1.2 chs } 200 1.2 chs 201 1.2 chs if (uvm_map(kernel_map, (vaddr_t *)&ubc_object.kva, 202 1.11 chs ubc_nwins << ubc_winshift, &ubc_object.uobj, 0, (vsize_t)va, 203 1.2 chs UVM_MAPFLAG(UVM_PROT_ALL, UVM_PROT_ALL, UVM_INH_NONE, 204 1.9 chs UVM_ADV_RANDOM, UVM_FLAG_NOMERGE)) != 0) { 205 1.2 chs panic("ubc_init: failed to map ubc_object\n"); 206 1.2 chs } 207 1.2 chs UVMHIST_INIT(ubchist, 300); 208 1.2 chs } 209 1.2 chs 210 1.2 chs /* 211 1.2 chs * ubc_fault: fault routine for ubc mapping 212 1.2 chs */ 213 1.18 chs 214 1.11 chs int 215 1.2 chs ubc_fault(ufi, ign1, ign2, ign3, ign4, fault_type, access_type, flags) 216 1.2 chs struct uvm_faultinfo *ufi; 217 1.2 chs vaddr_t ign1; 218 1.14 chs struct vm_page **ign2; 219 1.2 chs int ign3, ign4; 220 1.2 chs vm_fault_t fault_type; 221 1.2 chs vm_prot_t access_type; 222 1.2 chs int flags; 223 1.2 chs { 224 1.2 chs struct uvm_object *uobj; 225 1.2 chs struct vnode *vp; 226 1.2 chs struct ubc_map *umap; 227 1.2 chs vaddr_t va, eva, ubc_offset, slot_offset; 228 1.18 chs int i, error, npages; 229 1.18 chs struct vm_page *pgs[ubc_winsize >> PAGE_SHIFT], *pg; 230 1.2 chs UVMHIST_FUNC("ubc_fault"); UVMHIST_CALLED(ubchist); 231 1.2 chs 232 1.2 chs /* 233 1.2 chs * no need to try with PGO_LOCKED... 234 1.2 chs * we don't need to have the map locked since we know that 235 1.2 chs * no one will mess with it until our reference is released. 236 1.2 chs */ 237 1.18 chs 238 1.2 chs if (flags & PGO_LOCKED) { 239 1.2 chs uvmfault_unlockall(ufi, NULL, &ubc_object.uobj, NULL); 240 1.2 chs flags &= ~PGO_LOCKED; 241 1.2 chs } 242 1.2 chs 243 1.2 chs va = ufi->orig_rvaddr; 244 1.2 chs ubc_offset = va - (vaddr_t)ubc_object.kva; 245 1.2 chs 246 1.2 chs UVMHIST_LOG(ubchist, "va 0x%lx ubc_offset 0x%lx at %d", 247 1.18 chs va, ubc_offset, access_type,0); 248 1.2 chs 249 1.11 chs umap = &ubc_object.umap[ubc_offset >> ubc_winshift]; 250 1.2 chs KASSERT(umap->refcount != 0); 251 1.18 chs slot_offset = ubc_offset & (ubc_winsize - 1); 252 1.2 chs 253 1.2 chs /* no umap locking needed since we have a ref on the umap */ 254 1.2 chs uobj = umap->uobj; 255 1.2 chs vp = (struct vnode *)uobj; 256 1.18 chs KASSERT(vp != NULL); 257 1.2 chs 258 1.18 chs npages = MIN(ubc_winsize - slot_offset, 259 1.18 chs (int)(round_page(MAX(vp->v_size, umap->offset + 260 1.18 chs umap->writeoff + umap->writelen)) - 261 1.18 chs umap->offset)) >> PAGE_SHIFT; 262 1.2 chs 263 1.2 chs again: 264 1.2 chs memset(pgs, 0, sizeof (pgs)); 265 1.2 chs simple_lock(&uobj->vmobjlock); 266 1.2 chs 267 1.2 chs UVMHIST_LOG(ubchist, "slot_offset 0x%x writeoff 0x%x writelen 0x%x " 268 1.18 chs "v_size 0x%x", slot_offset, umap->writeoff, umap->writelen, 269 1.18 chs vp->v_size); 270 1.2 chs UVMHIST_LOG(ubchist, "getpages vp %p offset 0x%x npages %d", 271 1.18 chs uobj, umap->offset + slot_offset, npages, 0); 272 1.2 chs 273 1.18 chs flags |= PGO_PASTEOF; 274 1.5 chs error = VOP_GETPAGES(vp, umap->offset + slot_offset, pgs, &npages, 0, 275 1.5 chs access_type, 0, flags); 276 1.5 chs UVMHIST_LOG(ubchist, "getpages error %d npages %d", error, npages,0,0); 277 1.2 chs 278 1.5 chs if (error == EAGAIN) { 279 1.2 chs tsleep(&lbolt, PVM, "ubc_fault", 0); 280 1.2 chs goto again; 281 1.2 chs } 282 1.5 chs if (error) { 283 1.10 chs return error; 284 1.5 chs } 285 1.2 chs 286 1.2 chs va = ufi->orig_rvaddr; 287 1.2 chs eva = ufi->orig_rvaddr + (npages << PAGE_SHIFT); 288 1.2 chs 289 1.2 chs UVMHIST_LOG(ubchist, "va 0x%lx eva 0x%lx", va, eva, 0,0); 290 1.2 chs simple_lock(&uobj->vmobjlock); 291 1.18 chs uvm_lock_pageq(); 292 1.2 chs for (i = 0; va < eva; i++, va += PAGE_SIZE) { 293 1.2 chs UVMHIST_LOG(ubchist, "pgs[%d] = %p", i, pgs[i],0,0); 294 1.2 chs pg = pgs[i]; 295 1.2 chs 296 1.2 chs if (pg == NULL || pg == PGO_DONTCARE) { 297 1.2 chs continue; 298 1.2 chs } 299 1.2 chs if (pg->flags & PG_WANTED) { 300 1.2 chs wakeup(pg); 301 1.2 chs } 302 1.2 chs KASSERT((pg->flags & PG_FAKE) == 0); 303 1.2 chs if (pg->flags & PG_RELEASED) { 304 1.18 chs uvm_pagefree(pg); 305 1.2 chs continue; 306 1.2 chs } 307 1.2 chs KASSERT(access_type == VM_PROT_READ || 308 1.18 chs (pg->flags & PG_RDONLY) == 0); 309 1.18 chs pmap_enter(ufi->orig_map->pmap, va, VM_PAGE_TO_PHYS(pg), 310 1.18 chs VM_PROT_READ | VM_PROT_WRITE, access_type); 311 1.2 chs uvm_pageactivate(pg); 312 1.2 chs pg->flags &= ~(PG_BUSY); 313 1.2 chs UVM_PAGE_OWN(pg, NULL); 314 1.2 chs } 315 1.18 chs uvm_unlock_pageq(); 316 1.2 chs simple_unlock(&uobj->vmobjlock); 317 1.17 chris pmap_update(ufi->orig_map->pmap); 318 1.8 chs return 0; 319 1.2 chs } 320 1.2 chs 321 1.2 chs /* 322 1.2 chs * local functions 323 1.2 chs */ 324 1.2 chs 325 1.11 chs struct ubc_map * 326 1.2 chs ubc_find_mapping(uobj, offset) 327 1.2 chs struct uvm_object *uobj; 328 1.2 chs voff_t offset; 329 1.2 chs { 330 1.2 chs struct ubc_map *umap; 331 1.2 chs 332 1.2 chs LIST_FOREACH(umap, &ubc_object.hash[UBC_HASH(uobj, offset)], hash) { 333 1.2 chs if (umap->uobj == uobj && umap->offset == offset) { 334 1.2 chs return umap; 335 1.2 chs } 336 1.2 chs } 337 1.2 chs return NULL; 338 1.2 chs } 339 1.2 chs 340 1.2 chs 341 1.2 chs /* 342 1.2 chs * ubc interface functions 343 1.2 chs */ 344 1.2 chs 345 1.2 chs /* 346 1.18 chs * ubc_alloc: allocate a file mapping window 347 1.2 chs */ 348 1.18 chs 349 1.2 chs void * 350 1.2 chs ubc_alloc(uobj, offset, lenp, flags) 351 1.2 chs struct uvm_object *uobj; 352 1.2 chs voff_t offset; 353 1.2 chs vsize_t *lenp; 354 1.2 chs int flags; 355 1.2 chs { 356 1.18 chs struct vnode *vp = (struct vnode *)uobj; 357 1.6 chs vaddr_t slot_offset, va; 358 1.2 chs struct ubc_map *umap; 359 1.6 chs voff_t umap_offset; 360 1.18 chs int error; 361 1.2 chs UVMHIST_FUNC("ubc_alloc"); UVMHIST_CALLED(ubchist); 362 1.2 chs 363 1.2 chs UVMHIST_LOG(ubchist, "uobj %p offset 0x%lx len 0x%lx filesize 0x%x", 364 1.18 chs uobj, offset, *lenp, vp->v_size); 365 1.2 chs 366 1.6 chs umap_offset = (offset & ~((voff_t)ubc_winsize - 1)); 367 1.4 enami slot_offset = (vaddr_t)(offset & ((voff_t)ubc_winsize - 1)); 368 1.18 chs *lenp = MIN(*lenp, ubc_winsize - slot_offset); 369 1.2 chs 370 1.2 chs /* 371 1.2 chs * the vnode is always locked here, so we don't need to add a ref. 372 1.2 chs */ 373 1.2 chs 374 1.2 chs again: 375 1.2 chs simple_lock(&ubc_object.uobj.vmobjlock); 376 1.2 chs umap = ubc_find_mapping(uobj, umap_offset); 377 1.2 chs if (umap == NULL) { 378 1.2 chs umap = TAILQ_FIRST(UBC_QUEUE(offset)); 379 1.2 chs if (umap == NULL) { 380 1.2 chs simple_unlock(&ubc_object.uobj.vmobjlock); 381 1.2 chs tsleep(&lbolt, PVM, "ubc_alloc", 0); 382 1.2 chs goto again; 383 1.2 chs } 384 1.2 chs 385 1.2 chs /* 386 1.18 chs * remove from old hash (if any), add to new hash. 387 1.2 chs */ 388 1.2 chs 389 1.2 chs if (umap->uobj != NULL) { 390 1.2 chs LIST_REMOVE(umap, hash); 391 1.2 chs } 392 1.2 chs umap->uobj = uobj; 393 1.2 chs umap->offset = umap_offset; 394 1.2 chs LIST_INSERT_HEAD(&ubc_object.hash[UBC_HASH(uobj, umap_offset)], 395 1.18 chs umap, hash); 396 1.18 chs va = UBC_UMAP_ADDR(umap); 397 1.18 chs if (umap->flags & UMAP_MAPPING_CACHED) { 398 1.18 chs umap->flags &= ~UMAP_MAPPING_CACHED; 399 1.18 chs pmap_remove(pmap_kernel(), va, va + ubc_winsize); 400 1.18 chs pmap_update(pmap_kernel()); 401 1.18 chs } 402 1.18 chs } else { 403 1.18 chs va = UBC_UMAP_ADDR(umap); 404 1.2 chs } 405 1.2 chs 406 1.2 chs if (umap->refcount == 0) { 407 1.2 chs TAILQ_REMOVE(UBC_QUEUE(offset), umap, inactive); 408 1.2 chs } 409 1.2 chs 410 1.2 chs #ifdef DIAGNOSTIC 411 1.18 chs if ((flags & UBC_WRITE) && (umap->writeoff || umap->writelen)) { 412 1.2 chs panic("ubc_fault: concurrent writes vp %p", uobj); 413 1.2 chs } 414 1.2 chs #endif 415 1.2 chs if (flags & UBC_WRITE) { 416 1.2 chs umap->writeoff = slot_offset; 417 1.2 chs umap->writelen = *lenp; 418 1.2 chs } 419 1.2 chs 420 1.2 chs umap->refcount++; 421 1.2 chs simple_unlock(&ubc_object.uobj.vmobjlock); 422 1.18 chs UVMHIST_LOG(ubchist, "umap %p refs %d va %p flags 0x%x", 423 1.18 chs umap, umap->refcount, va, flags); 424 1.18 chs 425 1.18 chs if (flags & UBC_FAULTBUSY) { 426 1.18 chs int npages = (*lenp + PAGE_SIZE - 1) >> PAGE_SHIFT; 427 1.18 chs struct vm_page *pgs[npages]; 428 1.18 chs int gpflags = PGO_SYNCIO|PGO_OVERWRITE|PGO_PASTEOF; 429 1.18 chs int i; 430 1.2 chs 431 1.18 chs if (umap->flags & UMAP_MAPPING_CACHED) { 432 1.18 chs umap->flags &= ~UMAP_MAPPING_CACHED; 433 1.18 chs pmap_remove(pmap_kernel(), va, va + ubc_winsize); 434 1.18 chs } 435 1.18 chs simple_lock(&uobj->vmobjlock); 436 1.18 chs error = VOP_GETPAGES(vp, trunc_page(offset), pgs, &npages, 0, 437 1.18 chs VM_PROT_READ|VM_PROT_WRITE, 0, gpflags); 438 1.18 chs UVMHIST_LOG(ubchist, "faultbusy getpages %d", error,0,0,0); 439 1.18 chs if (error) { 440 1.18 chs goto out; 441 1.18 chs } 442 1.18 chs for (i = 0; i < npages; i++) { 443 1.18 chs pmap_kenter_pa(va + slot_offset + (i << PAGE_SHIFT), 444 1.18 chs VM_PAGE_TO_PHYS(pgs[i]), 445 1.18 chs VM_PROT_READ | VM_PROT_WRITE); 446 1.18 chs } 447 1.18 chs pmap_update(pmap_kernel()); 448 1.18 chs umap->flags |= UMAP_PAGES_LOCKED; 449 1.18 chs } 450 1.18 chs 451 1.18 chs out: 452 1.18 chs return (void *)(va + slot_offset); 453 1.2 chs } 454 1.2 chs 455 1.18 chs /* 456 1.18 chs * ubc_release: free a file mapping window. 457 1.18 chs */ 458 1.2 chs 459 1.2 chs void 460 1.18 chs ubc_release(va, flags) 461 1.2 chs void *va; 462 1.18 chs int flags; 463 1.2 chs { 464 1.2 chs struct ubc_map *umap; 465 1.2 chs struct uvm_object *uobj; 466 1.18 chs vaddr_t umapva; 467 1.18 chs boolean_t unmapped; 468 1.2 chs UVMHIST_FUNC("ubc_release"); UVMHIST_CALLED(ubchist); 469 1.2 chs 470 1.2 chs UVMHIST_LOG(ubchist, "va %p", va,0,0,0); 471 1.11 chs umap = &ubc_object.umap[((char *)va - ubc_object.kva) >> ubc_winshift]; 472 1.18 chs umapva = UBC_UMAP_ADDR(umap); 473 1.2 chs uobj = umap->uobj; 474 1.2 chs KASSERT(uobj != NULL); 475 1.2 chs 476 1.18 chs if (umap->flags & UMAP_PAGES_LOCKED) { 477 1.18 chs int slot_offset = umap->writeoff; 478 1.18 chs int endoff = umap->writeoff + umap->writelen; 479 1.18 chs int zerolen = round_page(endoff) - endoff; 480 1.18 chs int npages = (int)(round_page(umap->writeoff + umap->writelen) 481 1.18 chs - trunc_page(umap->writeoff)) >> PAGE_SHIFT; 482 1.18 chs struct vm_page *pgs[npages]; 483 1.18 chs paddr_t pa; 484 1.18 chs int i; 485 1.18 chs boolean_t rv; 486 1.18 chs 487 1.18 chs if (zerolen) { 488 1.18 chs memset((char *)umapva + endoff, 0, zerolen); 489 1.18 chs } 490 1.18 chs umap->flags &= ~UMAP_PAGES_LOCKED; 491 1.18 chs uvm_lock_pageq(); 492 1.18 chs for (i = 0; i < npages; i++) { 493 1.18 chs rv = pmap_extract(pmap_kernel(), 494 1.18 chs umapva + slot_offset + (i << PAGE_SHIFT), &pa); 495 1.18 chs KASSERT(rv); 496 1.18 chs pgs[i] = PHYS_TO_VM_PAGE(pa); 497 1.18 chs pgs[i]->flags &= ~(PG_FAKE|PG_CLEAN); 498 1.18 chs uvm_pageactivate(pgs[i]); 499 1.18 chs } 500 1.18 chs uvm_unlock_pageq(); 501 1.18 chs pmap_kremove(umapva, ubc_winsize); 502 1.18 chs pmap_update(pmap_kernel()); 503 1.18 chs uvm_page_unbusy(pgs, npages); 504 1.18 chs unmapped = TRUE; 505 1.18 chs } else { 506 1.18 chs unmapped = FALSE; 507 1.18 chs } 508 1.18 chs 509 1.18 chs simple_lock(&ubc_object.uobj.vmobjlock); 510 1.2 chs umap->writeoff = 0; 511 1.2 chs umap->writelen = 0; 512 1.2 chs umap->refcount--; 513 1.2 chs if (umap->refcount == 0) { 514 1.2 chs if (UBC_RELEASE_UNMAP && 515 1.2 chs (((struct vnode *)uobj)->v_flag & VTEXT)) { 516 1.2 chs 517 1.2 chs /* 518 1.2 chs * if this file is the executable image of 519 1.2 chs * some process, that process will likely have 520 1.2 chs * the file mapped at an alignment other than 521 1.2 chs * what PMAP_PREFER() would like. we'd like 522 1.2 chs * to have process text be able to use the 523 1.2 chs * cache even if someone is also reading the 524 1.2 chs * file, so invalidate mappings of such files 525 1.2 chs * as soon as possible. 526 1.2 chs */ 527 1.2 chs 528 1.18 chs pmap_remove(pmap_kernel(), umapva, 529 1.18 chs umapva + ubc_winsize); 530 1.18 chs umap->flags &= ~UMAP_MAPPING_CACHED; 531 1.17 chris pmap_update(pmap_kernel()); 532 1.2 chs LIST_REMOVE(umap, hash); 533 1.2 chs umap->uobj = NULL; 534 1.2 chs TAILQ_INSERT_HEAD(UBC_QUEUE(umap->offset), umap, 535 1.2 chs inactive); 536 1.2 chs } else { 537 1.18 chs if (!unmapped) { 538 1.18 chs umap->flags |= UMAP_MAPPING_CACHED; 539 1.18 chs } 540 1.2 chs TAILQ_INSERT_TAIL(UBC_QUEUE(umap->offset), umap, 541 1.2 chs inactive); 542 1.2 chs } 543 1.2 chs } 544 1.2 chs UVMHIST_LOG(ubchist, "umap %p refs %d", umap, umap->refcount,0,0); 545 1.2 chs simple_unlock(&ubc_object.uobj.vmobjlock); 546 1.2 chs } 547 1.2 chs 548 1.2 chs 549 1.2 chs /* 550 1.2 chs * removing a range of mappings from the ubc mapping cache. 551 1.2 chs */ 552 1.2 chs 553 1.2 chs void 554 1.2 chs ubc_flush(uobj, start, end) 555 1.2 chs struct uvm_object *uobj; 556 1.2 chs voff_t start, end; 557 1.2 chs { 558 1.2 chs struct ubc_map *umap; 559 1.2 chs vaddr_t va; 560 1.2 chs UVMHIST_FUNC("ubc_flush"); UVMHIST_CALLED(ubchist); 561 1.2 chs 562 1.2 chs UVMHIST_LOG(ubchist, "uobj %p start 0x%lx end 0x%lx", 563 1.2 chs uobj, start, end,0); 564 1.2 chs 565 1.2 chs simple_lock(&ubc_object.uobj.vmobjlock); 566 1.2 chs for (umap = ubc_object.umap; 567 1.2 chs umap < &ubc_object.umap[ubc_nwins]; 568 1.2 chs umap++) { 569 1.2 chs 570 1.18 chs if (umap->uobj != uobj || umap->offset < start || 571 1.2 chs (umap->offset >= end && end != 0) || 572 1.2 chs umap->refcount > 0) { 573 1.2 chs continue; 574 1.2 chs } 575 1.2 chs 576 1.2 chs /* 577 1.2 chs * remove from hash, 578 1.2 chs * move to head of inactive queue. 579 1.2 chs */ 580 1.2 chs 581 1.2 chs va = (vaddr_t)(ubc_object.kva + 582 1.18 chs ((umap - ubc_object.umap) << ubc_winshift)); 583 1.4 enami pmap_remove(pmap_kernel(), va, va + ubc_winsize); 584 1.2 chs 585 1.2 chs LIST_REMOVE(umap, hash); 586 1.2 chs umap->uobj = NULL; 587 1.2 chs TAILQ_REMOVE(UBC_QUEUE(umap->offset), umap, inactive); 588 1.2 chs TAILQ_INSERT_HEAD(UBC_QUEUE(umap->offset), umap, inactive); 589 1.2 chs } 590 1.18 chs pmap_update(pmap_kernel()); 591 1.2 chs simple_unlock(&ubc_object.uobj.vmobjlock); 592 1.2 chs } 593
Indexes created Thu Sep 25 16:09:42 GMT 2025