uvm_device.c revision 1.24
1 1.24 pk /* $NetBSD: uvm_device.c,v 1.24 2000/06/24 21:47:28 pk Exp $ */ 2 1.4 mrg 3 1.1 mrg /* 4 1.1 mrg * 5 1.1 mrg * Copyright (c) 1997 Charles D. Cranor and Washington University. 6 1.1 mrg * All rights reserved. 7 1.1 mrg * 8 1.1 mrg * Redistribution and use in source and binary forms, with or without 9 1.1 mrg * modification, are permitted provided that the following conditions 10 1.1 mrg * are met: 11 1.1 mrg * 1. Redistributions of source code must retain the above copyright 12 1.1 mrg * notice, this list of conditions and the following disclaimer. 13 1.1 mrg * 2. Redistributions in binary form must reproduce the above copyright 14 1.1 mrg * notice, this list of conditions and the following disclaimer in the 15 1.1 mrg * documentation and/or other materials provided with the distribution. 16 1.1 mrg * 3. All advertising materials mentioning features or use of this software 17 1.1 mrg * must display the following acknowledgement: 18 1.1 mrg * This product includes software developed by Charles D. Cranor and 19 1.1 mrg * Washington University. 20 1.1 mrg * 4. The name of the author may not be used to endorse or promote products 21 1.1 mrg * derived from this software without specific prior written permission. 22 1.1 mrg * 23 1.1 mrg * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 24 1.1 mrg * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 25 1.1 mrg * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 26 1.1 mrg * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 27 1.1 mrg * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 28 1.1 mrg * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 29 1.1 mrg * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 30 1.1 mrg * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 31 1.1 mrg * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 32 1.1 mrg * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 33 1.4 mrg * 34 1.4 mrg * from: Id: uvm_device.c,v 1.1.2.9 1998/02/06 05:11:47 chs Exp 35 1.1 mrg */ 36 1.1 mrg 37 1.5 mrg #include "opt_uvmhist.h" 38 1.5 mrg 39 1.1 mrg /* 40 1.1 mrg * uvm_device.c: the device pager. 41 1.1 mrg */ 42 1.1 mrg 43 1.1 mrg #include <sys/param.h> 44 1.1 mrg #include <sys/systm.h> 45 1.1 mrg #include <sys/conf.h> 46 1.1 mrg #include <sys/proc.h> 47 1.1 mrg #include <sys/malloc.h> 48 1.1 mrg #include <sys/vnode.h> 49 1.1 mrg 50 1.1 mrg #include <vm/vm.h> 51 1.1 mrg #include <vm/vm_page.h> 52 1.1 mrg #include <vm/vm_kern.h> 53 1.1 mrg 54 1.1 mrg #include <uvm/uvm.h> 55 1.1 mrg #include <uvm/uvm_device.h> 56 1.1 mrg 57 1.1 mrg /* 58 1.1 mrg * private global data structure 59 1.1 mrg * 60 1.1 mrg * we keep a list of active device objects in the system. 61 1.1 mrg */ 62 1.1 mrg 63 1.1 mrg LIST_HEAD(udv_list_struct, uvm_device); 64 1.1 mrg static struct udv_list_struct udv_list; 65 1.1 mrg static simple_lock_data_t udv_lock; 66 1.1 mrg 67 1.1 mrg /* 68 1.1 mrg * functions 69 1.1 mrg */ 70 1.1 mrg 71 1.1 mrg static void udv_init __P((void)); 72 1.1 mrg static void udv_reference __P((struct uvm_object *)); 73 1.1 mrg static void udv_detach __P((struct uvm_object *)); 74 1.9 eeh static int udv_fault __P((struct uvm_faultinfo *, vaddr_t, 75 1.1 mrg vm_page_t *, int, int, vm_fault_t, 76 1.1 mrg vm_prot_t, int)); 77 1.20 kleink static int udv_asyncget __P((struct uvm_object *, voff_t, 78 1.20 kleink int)); 79 1.20 kleink static boolean_t udv_flush __P((struct uvm_object *, voff_t, voff_t, 80 1.20 kleink int)); 81 1.1 mrg static int udv_put __P((struct uvm_object *, vm_page_t *, 82 1.1 mrg int, boolean_t)); 83 1.1 mrg 84 1.1 mrg /* 85 1.1 mrg * master pager structure 86 1.1 mrg */ 87 1.1 mrg 88 1.1 mrg struct uvm_pagerops uvm_deviceops = { 89 1.7 mrg udv_init, 90 1.7 mrg udv_reference, 91 1.7 mrg udv_detach, 92 1.7 mrg udv_fault, 93 1.7 mrg udv_flush, 94 1.7 mrg NULL, /* no get function since we have udv_fault */ 95 1.7 mrg udv_asyncget, 96 1.7 mrg udv_put, 97 1.7 mrg NULL, /* no cluster function */ 98 1.7 mrg NULL, /* no put cluster function */ 99 1.7 mrg NULL, /* no AIO-DONE function since no async i/o */ 100 1.7 mrg NULL, /* no releasepg function since no normal pages */ 101 1.1 mrg }; 102 1.1 mrg 103 1.1 mrg /* 104 1.1 mrg * the ops! 105 1.1 mrg */ 106 1.1 mrg 107 1.1 mrg /* 108 1.1 mrg * udv_init 109 1.1 mrg * 110 1.1 mrg * init pager private data structures. 111 1.1 mrg */ 112 1.1 mrg 113 1.7 mrg void 114 1.7 mrg udv_init() 115 1.7 mrg { 116 1.1 mrg 117 1.7 mrg LIST_INIT(&udv_list); 118 1.7 mrg simple_lock_init(&udv_lock); 119 1.1 mrg } 120 1.1 mrg 121 1.1 mrg /* 122 1.1 mrg * udv_attach 123 1.1 mrg * 124 1.1 mrg * get a VM object that is associated with a device. allocate a new 125 1.1 mrg * one if needed. 126 1.1 mrg * 127 1.1 mrg * => caller must _not_ already be holding the lock on the uvm_object. 128 1.1 mrg * => in fact, nothing should be locked so that we can sleep here. 129 1.1 mrg */ 130 1.7 mrg struct uvm_object * 131 1.13 cgd udv_attach(arg, accessprot, off, size) 132 1.7 mrg void *arg; 133 1.7 mrg vm_prot_t accessprot; 134 1.22 drochner voff_t off; /* used only for access check */ 135 1.13 cgd vsize_t size; /* used only for access check */ 136 1.1 mrg { 137 1.7 mrg dev_t device = *((dev_t *) arg); 138 1.7 mrg struct uvm_device *udv, *lcv; 139 1.7 mrg int (*mapfn) __P((dev_t, int, int)); 140 1.7 mrg UVMHIST_FUNC("udv_attach"); UVMHIST_CALLED(maphist); 141 1.7 mrg 142 1.7 mrg UVMHIST_LOG(maphist, "(device=0x%x)", device,0,0,0); 143 1.7 mrg 144 1.7 mrg /* 145 1.7 mrg * before we do anything, ensure this device supports mmap 146 1.7 mrg */ 147 1.7 mrg 148 1.7 mrg mapfn = cdevsw[major(device)].d_mmap; 149 1.7 mrg if (mapfn == NULL || 150 1.7 mrg mapfn == (int (*) __P((dev_t, int, int))) enodev || 151 1.7 mrg mapfn == (int (*) __P((dev_t, int, int))) nullop) 152 1.7 mrg return(NULL); 153 1.22 drochner 154 1.22 drochner /* 155 1.22 drochner * As long as the device d_mmap interface gets an "int" 156 1.22 drochner * offset, we have to watch out not to overflow its 157 1.22 drochner * numeric range. (assuming it will be interpreted as 158 1.22 drochner * "unsigned") 159 1.22 drochner */ 160 1.22 drochner if (((off + size - 1) & (u_int)-1) != off + size - 1) 161 1.22 drochner return (0); 162 1.13 cgd 163 1.13 cgd /* 164 1.13 cgd * Check that the specified range of the device allows the 165 1.13 cgd * desired protection. 166 1.13 cgd * 167 1.13 cgd * XXX assumes VM_PROT_* == PROT_* 168 1.13 cgd * XXX clobbers off and size, but nothing else here needs them. 169 1.13 cgd */ 170 1.13 cgd 171 1.13 cgd while (size != 0) { 172 1.13 cgd if ((*mapfn)(device, off, accessprot) == -1) 173 1.13 cgd return (NULL); 174 1.16 drochner off += PAGE_SIZE; size -= PAGE_SIZE; 175 1.13 cgd } 176 1.7 mrg 177 1.7 mrg /* 178 1.7 mrg * keep looping until we get it 179 1.7 mrg */ 180 1.7 mrg 181 1.7 mrg while (1) { 182 1.7 mrg 183 1.7 mrg /* 184 1.7 mrg * first, attempt to find it on the main list 185 1.7 mrg */ 186 1.7 mrg 187 1.7 mrg simple_lock(&udv_lock); 188 1.7 mrg for (lcv = udv_list.lh_first ; lcv != NULL ; lcv = lcv->u_list.le_next) { 189 1.7 mrg if (device == lcv->u_device) 190 1.7 mrg break; 191 1.7 mrg } 192 1.7 mrg 193 1.7 mrg /* 194 1.7 mrg * got it on main list. put a hold on it and unlock udv_lock. 195 1.7 mrg */ 196 1.7 mrg 197 1.7 mrg if (lcv) { 198 1.7 mrg 199 1.7 mrg /* 200 1.7 mrg * if someone else has a hold on it, sleep and start 201 1.7 mrg * over again. 202 1.7 mrg */ 203 1.7 mrg 204 1.7 mrg if (lcv->u_flags & UVM_DEVICE_HOLD) { 205 1.7 mrg lcv->u_flags |= UVM_DEVICE_WANTED; 206 1.7 mrg UVM_UNLOCK_AND_WAIT(lcv, &udv_lock, FALSE, 207 1.7 mrg "udv_attach",0); 208 1.7 mrg continue; 209 1.7 mrg } 210 1.7 mrg 211 1.7 mrg /* we are now holding it */ 212 1.7 mrg lcv->u_flags |= UVM_DEVICE_HOLD; 213 1.7 mrg simple_unlock(&udv_lock); 214 1.7 mrg 215 1.7 mrg /* 216 1.7 mrg * bump reference count, unhold, return. 217 1.7 mrg */ 218 1.7 mrg 219 1.7 mrg simple_lock(&lcv->u_obj.vmobjlock); 220 1.7 mrg lcv->u_obj.uo_refs++; 221 1.7 mrg simple_unlock(&lcv->u_obj.vmobjlock); 222 1.7 mrg 223 1.7 mrg simple_lock(&udv_lock); 224 1.7 mrg if (lcv->u_flags & UVM_DEVICE_WANTED) 225 1.7 mrg wakeup(lcv); 226 1.7 mrg lcv->u_flags &= ~(UVM_DEVICE_WANTED|UVM_DEVICE_HOLD); 227 1.7 mrg simple_unlock(&udv_lock); 228 1.7 mrg return(&lcv->u_obj); 229 1.7 mrg } 230 1.7 mrg 231 1.7 mrg /* 232 1.7 mrg * did not find it on main list. need to malloc a new one. 233 1.7 mrg */ 234 1.7 mrg 235 1.7 mrg simple_unlock(&udv_lock); 236 1.7 mrg /* NOTE: we could sleep in the following malloc() */ 237 1.7 mrg MALLOC(udv, struct uvm_device *, sizeof(*udv), M_TEMP, M_WAITOK); 238 1.7 mrg simple_lock(&udv_lock); 239 1.7 mrg 240 1.7 mrg /* 241 1.7 mrg * now we have to double check to make sure no one added it 242 1.7 mrg * to the list while we were sleeping... 243 1.7 mrg */ 244 1.7 mrg 245 1.7 mrg for (lcv = udv_list.lh_first ; lcv != NULL ; 246 1.7 mrg lcv = lcv->u_list.le_next) { 247 1.7 mrg if (device == lcv->u_device) 248 1.7 mrg break; 249 1.7 mrg } 250 1.7 mrg 251 1.7 mrg /* 252 1.7 mrg * did we lose a race to someone else? free our memory and retry. 253 1.7 mrg */ 254 1.7 mrg 255 1.7 mrg if (lcv) { 256 1.7 mrg simple_unlock(&udv_lock); 257 1.7 mrg FREE(udv, M_TEMP); 258 1.7 mrg continue; 259 1.7 mrg } 260 1.7 mrg 261 1.7 mrg /* 262 1.7 mrg * we have it! init the data structures, add to list 263 1.7 mrg * and return. 264 1.7 mrg */ 265 1.7 mrg 266 1.7 mrg simple_lock_init(&udv->u_obj.vmobjlock); 267 1.7 mrg udv->u_obj.pgops = &uvm_deviceops; 268 1.7 mrg TAILQ_INIT(&udv->u_obj.memq); /* not used, but be safe */ 269 1.7 mrg udv->u_obj.uo_npages = 0; 270 1.7 mrg udv->u_obj.uo_refs = 1; 271 1.7 mrg udv->u_flags = 0; 272 1.7 mrg udv->u_device = device; 273 1.7 mrg LIST_INSERT_HEAD(&udv_list, udv, u_list); 274 1.7 mrg simple_unlock(&udv_lock); 275 1.1 mrg 276 1.7 mrg return(&udv->u_obj); 277 1.1 mrg 278 1.7 mrg } /* while(1) loop */ 279 1.1 mrg 280 1.7 mrg /*NOTREACHED*/ 281 1.1 mrg } 282 1.7 mrg 283 1.1 mrg /* 284 1.1 mrg * udv_reference 285 1.1 mrg * 286 1.1 mrg * add a reference to a VM object. Note that the reference count must 287 1.1 mrg * already be one (the passed in reference) so there is no chance of the 288 1.1 mrg * udv being released or locked out here. 289 1.1 mrg * 290 1.1 mrg * => caller must call with object unlocked. 291 1.1 mrg */ 292 1.1 mrg 293 1.7 mrg static void 294 1.7 mrg udv_reference(uobj) 295 1.7 mrg struct uvm_object *uobj; 296 1.1 mrg { 297 1.7 mrg UVMHIST_FUNC("udv_reference"); UVMHIST_CALLED(maphist); 298 1.1 mrg 299 1.7 mrg simple_lock(&uobj->vmobjlock); 300 1.7 mrg uobj->uo_refs++; 301 1.7 mrg UVMHIST_LOG(maphist, "<- done (uobj=0x%x, ref = %d)", 302 1.1 mrg uobj, uobj->uo_refs,0,0); 303 1.7 mrg simple_unlock(&uobj->vmobjlock); 304 1.1 mrg } 305 1.1 mrg 306 1.1 mrg /* 307 1.1 mrg * udv_detach 308 1.1 mrg * 309 1.1 mrg * remove a reference to a VM object. 310 1.1 mrg * 311 1.1 mrg * => caller must call with object unlocked and map locked. 312 1.1 mrg */ 313 1.1 mrg 314 1.7 mrg static void 315 1.7 mrg udv_detach(uobj) 316 1.7 mrg struct uvm_object *uobj; 317 1.1 mrg { 318 1.7 mrg struct uvm_device *udv = (struct uvm_device *) uobj; 319 1.7 mrg UVMHIST_FUNC("udv_detach"); UVMHIST_CALLED(maphist); 320 1.1 mrg 321 1.24 pk 322 1.7 mrg /* 323 1.7 mrg * loop until done 324 1.7 mrg */ 325 1.24 pk again: 326 1.24 pk simple_lock(&uobj->vmobjlock); 327 1.24 pk 328 1.24 pk if (uobj->uo_refs > 1) { 329 1.24 pk uobj->uo_refs--; /* drop ref! */ 330 1.24 pk simple_unlock(&uobj->vmobjlock); 331 1.24 pk UVMHIST_LOG(maphist," <- done, uobj=0x%x, ref=%d", 332 1.24 pk uobj,uobj->uo_refs,0,0); 333 1.24 pk return; 334 1.24 pk } 335 1.1 mrg 336 1.1 mrg #ifdef DIAGNOSTIC 337 1.24 pk if (uobj->uo_npages || !TAILQ_EMPTY(&uobj->memq)) 338 1.24 pk panic("udv_detach: pages in a device object?"); 339 1.1 mrg #endif 340 1.1 mrg 341 1.24 pk /* 342 1.24 pk * now lock udv_lock 343 1.24 pk */ 344 1.24 pk simple_lock(&udv_lock); 345 1.7 mrg 346 1.24 pk /* 347 1.24 pk * is it being held? if so, wait until others are done. 348 1.24 pk */ 349 1.24 pk if (udv->u_flags & UVM_DEVICE_HOLD) { 350 1.24 pk udv->u_flags |= UVM_DEVICE_WANTED; 351 1.23 pk simple_unlock(&uobj->vmobjlock); 352 1.24 pk UVM_UNLOCK_AND_WAIT(udv, &udv_lock, FALSE, "udv_detach",0); 353 1.24 pk goto again; 354 1.24 pk } 355 1.1 mrg 356 1.24 pk /* 357 1.24 pk * got it! nuke it now. 358 1.24 pk */ 359 1.24 pk LIST_REMOVE(udv, u_list); 360 1.24 pk if (udv->u_flags & UVM_DEVICE_WANTED) 361 1.24 pk wakeup(udv); 362 1.24 pk simple_unlock(&udv_lock); 363 1.24 pk simple_unlock(&uobj->vmobjlock); 364 1.24 pk FREE(udv, M_TEMP); 365 1.1 mrg 366 1.7 mrg UVMHIST_LOG(maphist," <- done, freed uobj=0x%x", uobj,0,0,0); 367 1.7 mrg return; 368 1.1 mrg } 369 1.1 mrg 370 1.1 mrg 371 1.1 mrg /* 372 1.1 mrg * udv_flush 373 1.1 mrg * 374 1.1 mrg * flush pages out of a uvm object. a no-op for devices. 375 1.1 mrg */ 376 1.1 mrg 377 1.1 mrg static boolean_t udv_flush(uobj, start, stop, flags) 378 1.7 mrg struct uvm_object *uobj; 379 1.20 kleink voff_t start, stop; 380 1.7 mrg int flags; 381 1.7 mrg { 382 1.1 mrg 383 1.7 mrg return(TRUE); 384 1.1 mrg } 385 1.1 mrg 386 1.1 mrg /* 387 1.1 mrg * udv_fault: non-standard fault routine for device "pages" 388 1.1 mrg * 389 1.1 mrg * => rather than having a "get" function, we have a fault routine 390 1.1 mrg * since we don't return vm_pages we need full control over the 391 1.1 mrg * pmap_enter map in 392 1.1 mrg * => all the usual fault data structured are locked by the caller 393 1.1 mrg * (i.e. maps(read), amap (if any), uobj) 394 1.1 mrg * => on return, we unlock all fault data structures 395 1.1 mrg * => flags: PGO_ALLPAGES: get all of the pages 396 1.1 mrg * PGO_LOCKED: fault data structures are locked 397 1.1 mrg * XXX: currently PGO_LOCKED is always required ... consider removing 398 1.1 mrg * it as a flag 399 1.1 mrg * => NOTE: vaddr is the VA of pps[0] in ufi->entry, _NOT_ pps[centeridx] 400 1.1 mrg */ 401 1.1 mrg 402 1.7 mrg static int 403 1.7 mrg udv_fault(ufi, vaddr, pps, npages, centeridx, fault_type, access_type, flags) 404 1.7 mrg struct uvm_faultinfo *ufi; 405 1.9 eeh vaddr_t vaddr; 406 1.7 mrg vm_page_t *pps; 407 1.7 mrg int npages, centeridx, flags; 408 1.7 mrg vm_fault_t fault_type; 409 1.7 mrg vm_prot_t access_type; 410 1.1 mrg { 411 1.7 mrg struct vm_map_entry *entry = ufi->entry; 412 1.7 mrg struct uvm_object *uobj = entry->object.uvm_obj; 413 1.7 mrg struct uvm_device *udv = (struct uvm_device *)uobj; 414 1.20 kleink vaddr_t curr_va; 415 1.20 kleink int curr_offset; 416 1.9 eeh paddr_t paddr; 417 1.11 mrg int lcv, retval, mdpgno; 418 1.7 mrg dev_t device; 419 1.7 mrg int (*mapfn) __P((dev_t, int, int)); 420 1.17 ross vm_prot_t mapprot; 421 1.7 mrg UVMHIST_FUNC("udv_fault"); UVMHIST_CALLED(maphist); 422 1.7 mrg UVMHIST_LOG(maphist," flags=%d", flags,0,0,0); 423 1.7 mrg 424 1.7 mrg /* 425 1.7 mrg * XXX: !PGO_LOCKED calls are currently not allowed (or used) 426 1.7 mrg */ 427 1.7 mrg 428 1.7 mrg if ((flags & PGO_LOCKED) == 0) 429 1.7 mrg panic("udv_fault: !PGO_LOCKED fault"); 430 1.7 mrg 431 1.7 mrg /* 432 1.7 mrg * we do not allow device mappings to be mapped copy-on-write 433 1.7 mrg * so we kill any attempt to do so here. 434 1.7 mrg */ 435 1.7 mrg 436 1.7 mrg if (UVM_ET_ISCOPYONWRITE(entry)) { 437 1.7 mrg UVMHIST_LOG(maphist, "<- failed -- COW entry (etype=0x%x)", 438 1.1 mrg entry->etype, 0,0,0); 439 1.7 mrg uvmfault_unlockall(ufi, ufi->entry->aref.ar_amap, uobj, NULL); 440 1.7 mrg return(VM_PAGER_ERROR); 441 1.7 mrg } 442 1.7 mrg 443 1.7 mrg /* 444 1.7 mrg * get device map function. 445 1.7 mrg */ 446 1.7 mrg device = udv->u_device; 447 1.7 mrg mapfn = cdevsw[major(device)].d_mmap; 448 1.7 mrg 449 1.7 mrg /* 450 1.10 chuck * now we must determine the offset in udv to use and the VA to 451 1.10 chuck * use for pmap_enter. note that we always use orig_map's pmap 452 1.10 chuck * for pmap_enter (even if we have a submap). since virtual 453 1.10 chuck * addresses in a submap must match the main map, this is ok. 454 1.7 mrg */ 455 1.7 mrg /* udv offset = (offset from start of entry) + entry's offset */ 456 1.20 kleink curr_offset = (int)((vaddr - entry->start) + entry->offset); 457 1.10 chuck /* pmap va = vaddr (virtual address of pps[0]) */ 458 1.10 chuck curr_va = vaddr; 459 1.7 mrg 460 1.7 mrg /* 461 1.7 mrg * loop over the page range entering in as needed 462 1.7 mrg */ 463 1.7 mrg 464 1.7 mrg retval = VM_PAGER_OK; 465 1.7 mrg for (lcv = 0 ; lcv < npages ; lcv++, curr_offset += PAGE_SIZE, 466 1.7 mrg curr_va += PAGE_SIZE) { 467 1.7 mrg if ((flags & PGO_ALLPAGES) == 0 && lcv != centeridx) 468 1.7 mrg continue; 469 1.7 mrg 470 1.7 mrg if (pps[lcv] == PGO_DONTCARE) 471 1.7 mrg continue; 472 1.7 mrg 473 1.20 kleink mdpgno = (*mapfn)(device, curr_offset, access_type); 474 1.11 mrg if (mdpgno == -1) { 475 1.7 mrg retval = VM_PAGER_ERROR; 476 1.7 mrg break; 477 1.7 mrg } 478 1.11 mrg paddr = pmap_phys_address(mdpgno); 479 1.17 ross mapprot = ufi->entry->protection; 480 1.7 mrg UVMHIST_LOG(maphist, 481 1.7 mrg " MAPPING: device: pm=0x%x, va=0x%x, pa=0x%x, at=%d", 482 1.17 ross ufi->orig_map->pmap, curr_va, (int)paddr, mapprot); 483 1.18 thorpej if (pmap_enter(ufi->orig_map->pmap, curr_va, paddr, 484 1.18 thorpej mapprot, PMAP_CANFAIL | mapprot) != KERN_SUCCESS) { 485 1.18 thorpej /* 486 1.18 thorpej * pmap_enter() didn't have the resource to 487 1.18 thorpej * enter this mapping. Unlock everything, 488 1.18 thorpej * wait for the pagedaemon to free up some 489 1.18 thorpej * pages, and then tell uvm_fault() to start 490 1.18 thorpej * the fault again. 491 1.18 thorpej * 492 1.18 thorpej * XXX Needs some rethinking for the PGO_ALLPAGES 493 1.18 thorpej * XXX case. 494 1.18 thorpej */ 495 1.18 thorpej uvmfault_unlockall(ufi, ufi->entry->aref.ar_amap, 496 1.18 thorpej uobj, NULL); 497 1.18 thorpej uvm_wait("udv_fault"); 498 1.18 thorpej return (VM_PAGER_REFAULT); 499 1.18 thorpej } 500 1.7 mrg } 501 1.1 mrg 502 1.7 mrg uvmfault_unlockall(ufi, ufi->entry->aref.ar_amap, uobj, NULL); 503 1.18 thorpej return (retval); 504 1.1 mrg } 505 1.1 mrg 506 1.1 mrg /* 507 1.1 mrg * udv_asyncget: start async I/O to bring pages into ram 508 1.1 mrg * 509 1.1 mrg * => caller must lock object(???XXX: see if this is best) 510 1.1 mrg * => a no-op for devices 511 1.1 mrg */ 512 1.1 mrg 513 1.7 mrg static int 514 1.7 mrg udv_asyncget(uobj, offset, npages) 515 1.7 mrg struct uvm_object *uobj; 516 1.20 kleink voff_t offset; 517 1.7 mrg int npages; 518 1.7 mrg { 519 1.1 mrg 520 1.7 mrg return(KERN_SUCCESS); 521 1.1 mrg } 522 1.1 mrg 523 1.1 mrg /* 524 1.1 mrg * udv_put: flush page data to backing store. 525 1.1 mrg * 526 1.1 mrg * => this function should never be called (since we never have any 527 1.1 mrg * page structures to "put") 528 1.1 mrg */ 529 1.1 mrg 530 1.7 mrg static int 531 1.7 mrg udv_put(uobj, pps, npages, flags) 532 1.7 mrg struct uvm_object *uobj; 533 1.7 mrg struct vm_page **pps; 534 1.7 mrg int npages, flags; 535 1.7 mrg { 536 1.1 mrg 537 1.7 mrg panic("udv_put: trying to page out to a device!"); 538 1.1 mrg } 539
Indexes created Mon Sep 29 21:09:56 GMT 2025