145748Smckusick /* 247663Smckusick * Copyright (c) 1991 Regents of the University of California. 345748Smckusick * All rights reserved. 445748Smckusick * 547663Smckusick * This code is derived from software contributed to Berkeley by 647663Smckusick * The Mach Operating System project at Carnegie-Mellon University. 747663Smckusick * 847663Smckusick * %sccs.include.redist.c% 947663Smckusick * 10*56382Smckusick * @(#)vm_fault.c 7.15 (Berkeley) 10/01/92 1147663Smckusick * 1247663Smckusick * 1347663Smckusick * Copyright (c) 1987, 1990 Carnegie-Mellon University. 1447663Smckusick * All rights reserved. 1547663Smckusick * 1647592Smckusick * Authors: Avadis Tevanian, Jr., Michael Wayne Young 1747592Smckusick * 1847592Smckusick * Permission to use, copy, modify and distribute this software and 1947592Smckusick * its documentation is hereby granted, provided that both the copyright 2047592Smckusick * notice and this permission notice appear in all copies of the 2147592Smckusick * software, derivative works or modified versions, and any portions 2247592Smckusick * thereof, and that both notices appear in supporting documentation. 2347592Smckusick * 2447592Smckusick * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS" 2547592Smckusick * CONDITION. CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND 2647592Smckusick * FOR ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE. 2747592Smckusick * 2847663Smckusick * Carnegie Mellon requests users of this software to return to 2945748Smckusick * 3047663Smckusick * Software Distribution Coordinator or Software.Distribution@CS.CMU.EDU 3147663Smckusick * School of Computer Science 3247663Smckusick * Carnegie Mellon University 3347663Smckusick * Pittsburgh PA 15213-3890 3447662Smckusick * 3547663Smckusick * any improvements or extensions that they make and grant Carnegie the 3647663Smckusick * rights to redistribute these changes. 3745748Smckusick */ 3845748Smckusick 3945748Smckusick /* 4045748Smckusick * Page fault handling module. 4145748Smckusick */ 4245748Smckusick 4353348Sbostic #include <sys/param.h> 4453348Sbostic #include <sys/systm.h> 4545748Smckusick 4653348Sbostic #include <vm/vm.h> 4753348Sbostic #include <vm/vm_page.h> 4853348Sbostic #include <vm/vm_pageout.h> 4948386Skarels 5045748Smckusick /* 5145748Smckusick * vm_fault: 5245748Smckusick * 5345748Smckusick * Handle a page fault occuring at the given address, 5445748Smckusick * requiring the given permissions, in the map specified. 5545748Smckusick * If successful, the page is inserted into the 5645748Smckusick * associated physical map. 5745748Smckusick * 5845748Smckusick * NOTE: the given address should be truncated to the 5945748Smckusick * proper page address. 6045748Smckusick * 6145748Smckusick * KERN_SUCCESS is returned if the page fault is handled; otherwise, 6245748Smckusick * a standard error specifying why the fault is fatal is returned. 6345748Smckusick * 6445748Smckusick * 6545748Smckusick * The map in question must be referenced, and remains so. 6645748Smckusick * Caller may hold no locks. 6745748Smckusick */ 6853348Sbostic int 6945748Smckusick vm_fault(map, vaddr, fault_type, change_wiring) 7045748Smckusick vm_map_t map; 7145748Smckusick vm_offset_t vaddr; 7245748Smckusick vm_prot_t fault_type; 7345748Smckusick boolean_t change_wiring; 7445748Smckusick { 7545748Smckusick vm_object_t first_object; 7645748Smckusick vm_offset_t first_offset; 7745748Smckusick vm_map_entry_t entry; 7845748Smckusick register vm_object_t object; 7945748Smckusick register vm_offset_t offset; 8045748Smckusick register vm_page_t m; 8145748Smckusick vm_page_t first_m; 8245748Smckusick vm_prot_t prot; 8345748Smckusick int result; 8445748Smckusick boolean_t wired; 8545748Smckusick boolean_t su; 8645748Smckusick boolean_t lookup_still_valid; 8745748Smckusick boolean_t page_exists; 8845748Smckusick vm_page_t old_m; 8945748Smckusick vm_object_t next_object; 9045748Smckusick 9150911Smckusick cnt.v_vm_faults++; /* needs lock XXX */ 9245748Smckusick /* 9345748Smckusick * Recovery actions 9445748Smckusick */ 9545748Smckusick #define FREE_PAGE(m) { \ 9645748Smckusick PAGE_WAKEUP(m); \ 9745748Smckusick vm_page_lock_queues(); \ 9845748Smckusick vm_page_free(m); \ 9945748Smckusick vm_page_unlock_queues(); \ 10045748Smckusick } 10145748Smckusick 10245748Smckusick #define RELEASE_PAGE(m) { \ 10345748Smckusick PAGE_WAKEUP(m); \ 10445748Smckusick vm_page_lock_queues(); \ 10545748Smckusick vm_page_activate(m); \ 10645748Smckusick vm_page_unlock_queues(); \ 10745748Smckusick } 10845748Smckusick 10945748Smckusick #define UNLOCK_MAP { \ 11045748Smckusick if (lookup_still_valid) { \ 11145748Smckusick vm_map_lookup_done(map, entry); \ 11245748Smckusick lookup_still_valid = FALSE; \ 11345748Smckusick } \ 11445748Smckusick } 11545748Smckusick 11645748Smckusick #define UNLOCK_THINGS { \ 11745748Smckusick object->paging_in_progress--; \ 11845748Smckusick vm_object_unlock(object); \ 11945748Smckusick if (object != first_object) { \ 12045748Smckusick vm_object_lock(first_object); \ 12145748Smckusick FREE_PAGE(first_m); \ 12245748Smckusick first_object->paging_in_progress--; \ 12345748Smckusick vm_object_unlock(first_object); \ 12445748Smckusick } \ 12545748Smckusick UNLOCK_MAP; \ 12645748Smckusick } 12745748Smckusick 12845748Smckusick #define UNLOCK_AND_DEALLOCATE { \ 12945748Smckusick UNLOCK_THINGS; \ 13045748Smckusick vm_object_deallocate(first_object); \ 13145748Smckusick } 13245748Smckusick 13345748Smckusick RetryFault: ; 13445748Smckusick 13545748Smckusick /* 13645748Smckusick * Find the backing store object and offset into 13745748Smckusick * it to begin the search. 13845748Smckusick */ 13945748Smckusick 14045748Smckusick if ((result = vm_map_lookup(&map, vaddr, fault_type, &entry, 14145748Smckusick &first_object, &first_offset, 14245748Smckusick &prot, &wired, &su)) != KERN_SUCCESS) { 14345748Smckusick return(result); 14445748Smckusick } 14545748Smckusick lookup_still_valid = TRUE; 14645748Smckusick 14745748Smckusick if (wired) 14845748Smckusick fault_type = prot; 14945748Smckusick 15048386Skarels first_m = NULL; 15145748Smckusick 15245748Smckusick /* 15345748Smckusick * Make a reference to this object to 15445748Smckusick * prevent its disposal while we are messing with 15545748Smckusick * it. Once we have the reference, the map is free 15645748Smckusick * to be diddled. Since objects reference their 15745748Smckusick * shadows (and copies), they will stay around as well. 15845748Smckusick */ 15945748Smckusick 16045748Smckusick vm_object_lock(first_object); 16145748Smckusick 16245748Smckusick first_object->ref_count++; 16345748Smckusick first_object->paging_in_progress++; 16445748Smckusick 16545748Smckusick /* 16645748Smckusick * INVARIANTS (through entire routine): 16745748Smckusick * 16845748Smckusick * 1) At all times, we must either have the object 16945748Smckusick * lock or a busy page in some object to prevent 17045748Smckusick * some other thread from trying to bring in 17145748Smckusick * the same page. 17245748Smckusick * 17345748Smckusick * Note that we cannot hold any locks during the 17445748Smckusick * pager access or when waiting for memory, so 17545748Smckusick * we use a busy page then. 17645748Smckusick * 17745748Smckusick * Note also that we aren't as concerned about 17845748Smckusick * more than one thead attempting to pager_data_unlock 17945748Smckusick * the same page at once, so we don't hold the page 18045748Smckusick * as busy then, but do record the highest unlock 18145748Smckusick * value so far. [Unlock requests may also be delivered 18245748Smckusick * out of order.] 18345748Smckusick * 18445748Smckusick * 2) Once we have a busy page, we must remove it from 18545748Smckusick * the pageout queues, so that the pageout daemon 18645748Smckusick * will not grab it away. 18745748Smckusick * 18845748Smckusick * 3) To prevent another thread from racing us down the 18945748Smckusick * shadow chain and entering a new page in the top 19045748Smckusick * object before we do, we must keep a busy page in 19145748Smckusick * the top object while following the shadow chain. 19245748Smckusick * 19345748Smckusick * 4) We must increment paging_in_progress on any object 19445748Smckusick * for which we have a busy page, to prevent 19545748Smckusick * vm_object_collapse from removing the busy page 19645748Smckusick * without our noticing. 19745748Smckusick */ 19845748Smckusick 19945748Smckusick /* 20045748Smckusick * Search for the page at object/offset. 20145748Smckusick */ 20245748Smckusick 20345748Smckusick object = first_object; 20445748Smckusick offset = first_offset; 20545748Smckusick 20645748Smckusick /* 20745748Smckusick * See whether this page is resident 20845748Smckusick */ 20945748Smckusick 21045748Smckusick while (TRUE) { 21145748Smckusick m = vm_page_lookup(object, offset); 21248386Skarels if (m != NULL) { 21345748Smckusick /* 21445748Smckusick * If the page is being brought in, 21545748Smckusick * wait for it and then retry. 21645748Smckusick */ 217*56382Smckusick if (m->flags & PG_BUSY) { 21845748Smckusick #ifdef DOTHREADS 21945748Smckusick int wait_result; 22045748Smckusick 22145748Smckusick PAGE_ASSERT_WAIT(m, !change_wiring); 22245748Smckusick UNLOCK_THINGS; 22345748Smckusick thread_block(); 22445748Smckusick wait_result = current_thread()->wait_result; 22545748Smckusick vm_object_deallocate(first_object); 22645748Smckusick if (wait_result != THREAD_AWAKENED) 22745748Smckusick return(KERN_SUCCESS); 22845748Smckusick goto RetryFault; 22945748Smckusick #else 23045748Smckusick PAGE_ASSERT_WAIT(m, !change_wiring); 23145748Smckusick UNLOCK_THINGS; 23245748Smckusick thread_block(); 23345748Smckusick vm_object_deallocate(first_object); 23445748Smckusick goto RetryFault; 23545748Smckusick #endif 23645748Smckusick } 23745748Smckusick 238*56382Smckusick if (m->flags & PG_ABSENT) 23945748Smckusick panic("vm_fault: absent"); 24045748Smckusick 24145748Smckusick /* 24245748Smckusick * If the desired access to this page has 24345748Smckusick * been locked out, request that it be unlocked. 24445748Smckusick */ 24545748Smckusick 24645748Smckusick if (fault_type & m->page_lock) { 24745748Smckusick #ifdef DOTHREADS 24845748Smckusick int wait_result; 24945748Smckusick 25045748Smckusick if ((fault_type & m->unlock_request) != fault_type) 25145748Smckusick panic("vm_fault: pager_data_unlock"); 25245748Smckusick 25345748Smckusick PAGE_ASSERT_WAIT(m, !change_wiring); 25445748Smckusick UNLOCK_THINGS; 25545748Smckusick thread_block(); 25645748Smckusick wait_result = current_thread()->wait_result; 25745748Smckusick vm_object_deallocate(first_object); 25845748Smckusick if (wait_result != THREAD_AWAKENED) 25945748Smckusick return(KERN_SUCCESS); 26045748Smckusick goto RetryFault; 26145748Smckusick #else 26245748Smckusick if ((fault_type & m->unlock_request) != fault_type) 26345748Smckusick panic("vm_fault: pager_data_unlock"); 26445748Smckusick 26545748Smckusick PAGE_ASSERT_WAIT(m, !change_wiring); 26645748Smckusick UNLOCK_THINGS; 26745748Smckusick thread_block(); 26845748Smckusick vm_object_deallocate(first_object); 26945748Smckusick goto RetryFault; 27045748Smckusick #endif 27145748Smckusick } 27245748Smckusick 27345748Smckusick /* 27445748Smckusick * Remove the page from the pageout daemon's 27545748Smckusick * reach while we play with it. 27645748Smckusick */ 27745748Smckusick 27845748Smckusick vm_page_lock_queues(); 279*56382Smckusick if (m->flags & PG_INACTIVE) { 28045748Smckusick queue_remove(&vm_page_queue_inactive, m, 28145748Smckusick vm_page_t, pageq); 282*56382Smckusick m->flags &= ~PG_INACTIVE; 28350911Smckusick cnt.v_inactive_count--; 28450911Smckusick cnt.v_reactivated++; 28545748Smckusick } 28645748Smckusick 287*56382Smckusick if (m->flags & PG_ACTIVE) { 28845748Smckusick queue_remove(&vm_page_queue_active, m, 28945748Smckusick vm_page_t, pageq); 290*56382Smckusick m->flags &= ~PG_ACTIVE; 29150911Smckusick cnt.v_active_count--; 29245748Smckusick } 29345748Smckusick vm_page_unlock_queues(); 29445748Smckusick 29545748Smckusick /* 29645748Smckusick * Mark page busy for other threads. 29745748Smckusick */ 298*56382Smckusick m->flags |= PG_BUSY; 299*56382Smckusick m->flags &= ~PG_ABSENT; 30045748Smckusick break; 30145748Smckusick } 30245748Smckusick 30348386Skarels if (((object->pager != NULL) && 30445748Smckusick (!change_wiring || wired)) 30545748Smckusick || (object == first_object)) { 30645748Smckusick 30745748Smckusick /* 30845748Smckusick * Allocate a new page for this object/offset 30945748Smckusick * pair. 31045748Smckusick */ 31145748Smckusick 31245748Smckusick m = vm_page_alloc(object, offset); 31345748Smckusick 31448386Skarels if (m == NULL) { 31545748Smckusick UNLOCK_AND_DEALLOCATE; 31645748Smckusick VM_WAIT; 31745748Smckusick goto RetryFault; 31845748Smckusick } 31945748Smckusick } 32045748Smckusick 32156323Shibler if (object->pager != NULL && (!change_wiring || wired)) { 32245748Smckusick int rv; 32345748Smckusick 32445748Smckusick /* 32545748Smckusick * Now that we have a busy page, we can 32645748Smckusick * release the object lock. 32745748Smckusick */ 32845748Smckusick vm_object_unlock(object); 32945748Smckusick 33045748Smckusick /* 33145748Smckusick * Call the pager to retrieve the data, if any, 33245748Smckusick * after releasing the lock on the map. 33345748Smckusick */ 33445748Smckusick UNLOCK_MAP; 33556323Shibler rv = vm_pager_get(object->pager, m, TRUE); 33645748Smckusick 33756323Shibler /* 33856323Shibler * Reaquire the object lock to preserve our 33956323Shibler * invariant. 34056323Shibler */ 34156323Shibler vm_object_lock(object); 34256323Shibler 34356323Shibler /* 34456323Shibler * Found the page. 34556323Shibler * Leave it busy while we play with it. 34656323Shibler */ 34745748Smckusick if (rv == VM_PAGER_OK) { 34845748Smckusick /* 34945748Smckusick * Relookup in case pager changed page. 35045748Smckusick * Pager is responsible for disposition 35145748Smckusick * of old page if moved. 35245748Smckusick */ 35345748Smckusick m = vm_page_lookup(object, offset); 35445748Smckusick 35550911Smckusick cnt.v_pageins++; 356*56382Smckusick m->flags &= ~PG_FAKE; 357*56382Smckusick m->flags |= PG_CLEAN; 35845748Smckusick pmap_clear_modify(VM_PAGE_TO_PHYS(m)); 35945748Smckusick break; 36045748Smckusick } 36145748Smckusick 36245748Smckusick /* 36356323Shibler * IO error or page outside the range of the pager: 36456323Shibler * cleanup and return an error. 36545748Smckusick */ 36656323Shibler if (rv == VM_PAGER_ERROR || rv == VM_PAGER_BAD) { 36745748Smckusick FREE_PAGE(m); 36845748Smckusick UNLOCK_AND_DEALLOCATE; 36945748Smckusick return(KERN_PROTECTION_FAILURE); /* XXX */ 37045748Smckusick } 37156323Shibler /* 37256323Shibler * rv == VM_PAGER_FAIL: 37356323Shibler * 37456323Shibler * Page does not exist at this object/offset. 37556323Shibler * Free the bogus page (waking up anyone waiting 37656323Shibler * for it) and continue on to the next object. 37756323Shibler * 37856323Shibler * If this is the top-level object, we must 37956323Shibler * leave the busy page to prevent another 38056323Shibler * thread from rushing past us, and inserting 38156323Shibler * the page in that object at the same time 38256323Shibler * that we are. 38356323Shibler */ 38445748Smckusick if (object != first_object) { 38545748Smckusick FREE_PAGE(m); 38653941Shibler /* note that `m' is not used after this */ 38745748Smckusick } 38845748Smckusick } 38945748Smckusick 39045748Smckusick /* 39145748Smckusick * We get here if the object has no pager (or unwiring) 39245748Smckusick * or the pager doesn't have the page. 39345748Smckusick */ 39445748Smckusick if (object == first_object) 39545748Smckusick first_m = m; 39645748Smckusick 39745748Smckusick /* 39845748Smckusick * Move on to the next object. Lock the next 39945748Smckusick * object before unlocking the current one. 40045748Smckusick */ 40145748Smckusick 40245748Smckusick offset += object->shadow_offset; 40345748Smckusick next_object = object->shadow; 40448386Skarels if (next_object == NULL) { 40545748Smckusick /* 40645748Smckusick * If there's no object left, fill the page 40745748Smckusick * in the top object with zeros. 40845748Smckusick */ 40945748Smckusick if (object != first_object) { 41045748Smckusick object->paging_in_progress--; 41145748Smckusick vm_object_unlock(object); 41245748Smckusick 41345748Smckusick object = first_object; 41445748Smckusick offset = first_offset; 41545748Smckusick m = first_m; 41645748Smckusick vm_object_lock(object); 41745748Smckusick } 41848386Skarels first_m = NULL; 41945748Smckusick 42045748Smckusick vm_page_zero_fill(m); 42150911Smckusick cnt.v_zfod++; 422*56382Smckusick m->flags &= ~(PG_FAKE | PG_ABSENT); 42345748Smckusick break; 42445748Smckusick } 42545748Smckusick else { 42645748Smckusick vm_object_lock(next_object); 42745748Smckusick if (object != first_object) 42845748Smckusick object->paging_in_progress--; 42945748Smckusick vm_object_unlock(object); 43045748Smckusick object = next_object; 43145748Smckusick object->paging_in_progress++; 43245748Smckusick } 43345748Smckusick } 43445748Smckusick 435*56382Smckusick if ((m->flags & (PG_ABSENT | PG_ACTIVE | PG_INACTIVE)) || 436*56382Smckusick !(m->flags & PG_BUSY)) 43745748Smckusick panic("vm_fault: absent or active or inactive or not busy after main loop"); 43845748Smckusick 43945748Smckusick /* 44045748Smckusick * PAGE HAS BEEN FOUND. 44145748Smckusick * [Loop invariant still holds -- the object lock 44245748Smckusick * is held.] 44345748Smckusick */ 44445748Smckusick 44545748Smckusick old_m = m; /* save page that would be copied */ 44645748Smckusick 44745748Smckusick /* 44845748Smckusick * If the page is being written, but isn't 44945748Smckusick * already owned by the top-level object, 45045748Smckusick * we have to copy it into a new page owned 45145748Smckusick * by the top-level object. 45245748Smckusick */ 45345748Smckusick 45445748Smckusick if (object != first_object) { 45545748Smckusick /* 45645748Smckusick * We only really need to copy if we 45745748Smckusick * want to write it. 45845748Smckusick */ 45945748Smckusick 46045748Smckusick if (fault_type & VM_PROT_WRITE) { 46145748Smckusick 46245748Smckusick /* 46345748Smckusick * If we try to collapse first_object at this 46445748Smckusick * point, we may deadlock when we try to get 46545748Smckusick * the lock on an intermediate object (since we 46645748Smckusick * have the bottom object locked). We can't 46745748Smckusick * unlock the bottom object, because the page 46845748Smckusick * we found may move (by collapse) if we do. 46945748Smckusick * 47045748Smckusick * Instead, we first copy the page. Then, when 47145748Smckusick * we have no more use for the bottom object, 47245748Smckusick * we unlock it and try to collapse. 47345748Smckusick * 47445748Smckusick * Note that we copy the page even if we didn't 47545748Smckusick * need to... that's the breaks. 47645748Smckusick */ 47745748Smckusick 47845748Smckusick /* 47945748Smckusick * We already have an empty page in 48045748Smckusick * first_object - use it. 48145748Smckusick */ 48245748Smckusick 48345748Smckusick vm_page_copy(m, first_m); 484*56382Smckusick first_m->flags &= ~(PG_FAKE | PG_ABSENT); 48545748Smckusick 48645748Smckusick /* 48745748Smckusick * If another map is truly sharing this 48845748Smckusick * page with us, we have to flush all 48945748Smckusick * uses of the original page, since we 49045748Smckusick * can't distinguish those which want the 49145748Smckusick * original from those which need the 49245748Smckusick * new copy. 49349288Shibler * 49449288Shibler * XXX If we know that only one map has 49549288Shibler * access to this page, then we could 49649288Shibler * avoid the pmap_page_protect() call. 49745748Smckusick */ 49845748Smckusick 49945748Smckusick vm_page_lock_queues(); 50052904Smckusick vm_page_activate(m); 50149288Shibler pmap_page_protect(VM_PAGE_TO_PHYS(m), VM_PROT_NONE); 50245748Smckusick vm_page_unlock_queues(); 50345748Smckusick 50445748Smckusick /* 50545748Smckusick * We no longer need the old page or object. 50645748Smckusick */ 50745748Smckusick PAGE_WAKEUP(m); 50845748Smckusick object->paging_in_progress--; 50945748Smckusick vm_object_unlock(object); 51045748Smckusick 51145748Smckusick /* 51245748Smckusick * Only use the new page below... 51345748Smckusick */ 51445748Smckusick 51550911Smckusick cnt.v_cow_faults++; 51645748Smckusick m = first_m; 51745748Smckusick object = first_object; 51845748Smckusick offset = first_offset; 51945748Smckusick 52045748Smckusick /* 52145748Smckusick * Now that we've gotten the copy out of the 52245748Smckusick * way, let's try to collapse the top object. 52345748Smckusick */ 52445748Smckusick vm_object_lock(object); 52545748Smckusick /* 52645748Smckusick * But we have to play ugly games with 52745748Smckusick * paging_in_progress to do that... 52845748Smckusick */ 52945748Smckusick object->paging_in_progress--; 53045748Smckusick vm_object_collapse(object); 53145748Smckusick object->paging_in_progress++; 53245748Smckusick } 53345748Smckusick else { 53445748Smckusick prot &= (~VM_PROT_WRITE); 535*56382Smckusick m->flags |= PG_COPYONWRITE; 53645748Smckusick } 53745748Smckusick } 53845748Smckusick 539*56382Smckusick if (m->flags & (PG_ACTIVE | PG_INACTIVE)) 54045748Smckusick panic("vm_fault: active or inactive before copy object handling"); 54145748Smckusick 54245748Smckusick /* 54345748Smckusick * If the page is being written, but hasn't been 54445748Smckusick * copied to the copy-object, we have to copy it there. 54545748Smckusick */ 54645748Smckusick RetryCopy: 54748386Skarels if (first_object->copy != NULL) { 54848386Skarels vm_object_t copy_object = first_object->copy; 54948386Skarels vm_offset_t copy_offset; 55048386Skarels vm_page_t copy_m; 55145748Smckusick 55245748Smckusick /* 55345748Smckusick * We only need to copy if we want to write it. 55445748Smckusick */ 55545748Smckusick if ((fault_type & VM_PROT_WRITE) == 0) { 55645748Smckusick prot &= ~VM_PROT_WRITE; 557*56382Smckusick m->flags |= PG_COPYONWRITE; 55845748Smckusick } 55945748Smckusick else { 56045748Smckusick /* 56145748Smckusick * Try to get the lock on the copy_object. 56245748Smckusick */ 56345748Smckusick if (!vm_object_lock_try(copy_object)) { 56445748Smckusick vm_object_unlock(object); 56545748Smckusick /* should spin a bit here... */ 56645748Smckusick vm_object_lock(object); 56745748Smckusick goto RetryCopy; 56845748Smckusick } 56945748Smckusick 57045748Smckusick /* 57145748Smckusick * Make another reference to the copy-object, 57245748Smckusick * to keep it from disappearing during the 57345748Smckusick * copy. 57445748Smckusick */ 57545748Smckusick copy_object->ref_count++; 57645748Smckusick 57745748Smckusick /* 57845748Smckusick * Does the page exist in the copy? 57945748Smckusick */ 58045748Smckusick copy_offset = first_offset 58145748Smckusick - copy_object->shadow_offset; 58245748Smckusick copy_m = vm_page_lookup(copy_object, copy_offset); 58348386Skarels if (page_exists = (copy_m != NULL)) { 584*56382Smckusick if (copy_m->flags & PG_BUSY) { 58545748Smckusick #ifdef DOTHREADS 58645748Smckusick int wait_result; 58745748Smckusick 58845748Smckusick /* 58945748Smckusick * If the page is being brought 59045748Smckusick * in, wait for it and then retry. 59145748Smckusick */ 59245748Smckusick PAGE_ASSERT_WAIT(copy_m, !change_wiring); 59345748Smckusick RELEASE_PAGE(m); 59445748Smckusick copy_object->ref_count--; 59545748Smckusick vm_object_unlock(copy_object); 59645748Smckusick UNLOCK_THINGS; 59745748Smckusick thread_block(); 59845748Smckusick wait_result = current_thread()->wait_result; 59945748Smckusick vm_object_deallocate(first_object); 60045748Smckusick if (wait_result != THREAD_AWAKENED) 60145748Smckusick return(KERN_SUCCESS); 60245748Smckusick goto RetryFault; 60345748Smckusick #else 60445748Smckusick /* 60545748Smckusick * If the page is being brought 60645748Smckusick * in, wait for it and then retry. 60745748Smckusick */ 60845748Smckusick PAGE_ASSERT_WAIT(copy_m, !change_wiring); 60945748Smckusick RELEASE_PAGE(m); 61045748Smckusick copy_object->ref_count--; 61145748Smckusick vm_object_unlock(copy_object); 61245748Smckusick UNLOCK_THINGS; 61345748Smckusick thread_block(); 61445748Smckusick vm_object_deallocate(first_object); 61545748Smckusick goto RetryFault; 61645748Smckusick #endif 61745748Smckusick } 61845748Smckusick } 61945748Smckusick 62045748Smckusick /* 62145748Smckusick * If the page is not in memory (in the object) 62245748Smckusick * and the object has a pager, we have to check 62345748Smckusick * if the pager has the data in secondary 62445748Smckusick * storage. 62545748Smckusick */ 62645748Smckusick if (!page_exists) { 62745748Smckusick 62845748Smckusick /* 62945748Smckusick * If we don't allocate a (blank) page 63045748Smckusick * here... another thread could try 63145748Smckusick * to page it in, allocate a page, and 63245748Smckusick * then block on the busy page in its 63345748Smckusick * shadow (first_object). Then we'd 63445748Smckusick * trip over the busy page after we 63545748Smckusick * found that the copy_object's pager 63645748Smckusick * doesn't have the page... 63745748Smckusick */ 63845748Smckusick copy_m = vm_page_alloc(copy_object, 63945748Smckusick copy_offset); 64048386Skarels if (copy_m == NULL) { 64145748Smckusick /* 64245748Smckusick * Wait for a page, then retry. 64345748Smckusick */ 64445748Smckusick RELEASE_PAGE(m); 64545748Smckusick copy_object->ref_count--; 64645748Smckusick vm_object_unlock(copy_object); 64745748Smckusick UNLOCK_AND_DEALLOCATE; 64845748Smckusick VM_WAIT; 64945748Smckusick goto RetryFault; 65045748Smckusick } 65145748Smckusick 65248386Skarels if (copy_object->pager != NULL) { 65345748Smckusick vm_object_unlock(object); 65445748Smckusick vm_object_unlock(copy_object); 65545748Smckusick UNLOCK_MAP; 65645748Smckusick 65745748Smckusick page_exists = vm_pager_has_page( 65845748Smckusick copy_object->pager, 65945748Smckusick (copy_offset + copy_object->paging_offset)); 66045748Smckusick 66145748Smckusick vm_object_lock(copy_object); 66245748Smckusick 66345748Smckusick /* 66445748Smckusick * Since the map is unlocked, someone 66545748Smckusick * else could have copied this object 66645748Smckusick * and put a different copy_object 66745748Smckusick * between the two. Or, the last 66845748Smckusick * reference to the copy-object (other 66945748Smckusick * than the one we have) may have 67045748Smckusick * disappeared - if that has happened, 67145748Smckusick * we don't need to make the copy. 67245748Smckusick */ 67345748Smckusick if (copy_object->shadow != object || 67445748Smckusick copy_object->ref_count == 1) { 67545748Smckusick /* 67645748Smckusick * Gaah... start over! 67745748Smckusick */ 67845748Smckusick FREE_PAGE(copy_m); 67945748Smckusick vm_object_unlock(copy_object); 68045748Smckusick vm_object_deallocate(copy_object); 68145748Smckusick /* may block */ 68245748Smckusick vm_object_lock(object); 68345748Smckusick goto RetryCopy; 68445748Smckusick } 68545748Smckusick vm_object_lock(object); 68645748Smckusick 68745748Smckusick if (page_exists) { 68845748Smckusick /* 68945748Smckusick * We didn't need the page 69045748Smckusick */ 69145748Smckusick FREE_PAGE(copy_m); 69245748Smckusick } 69345748Smckusick } 69445748Smckusick } 69545748Smckusick if (!page_exists) { 69645748Smckusick /* 69745748Smckusick * Must copy page into copy-object. 69845748Smckusick */ 69945748Smckusick vm_page_copy(m, copy_m); 700*56382Smckusick copy_m->flags &= ~(PG_FAKE | PG_ABSENT); 70145748Smckusick 70245748Smckusick /* 70345748Smckusick * Things to remember: 70445748Smckusick * 1. The copied page must be marked 'dirty' 70545748Smckusick * so it will be paged out to the copy 70645748Smckusick * object. 70745748Smckusick * 2. If the old page was in use by any users 70845748Smckusick * of the copy-object, it must be removed 70945748Smckusick * from all pmaps. (We can't know which 71045748Smckusick * pmaps use it.) 71145748Smckusick */ 71245748Smckusick vm_page_lock_queues(); 71349288Shibler pmap_page_protect(VM_PAGE_TO_PHYS(old_m), 71449288Shibler VM_PROT_NONE); 715*56382Smckusick copy_m->flags &= ~PG_CLEAN; 71645748Smckusick vm_page_activate(copy_m); /* XXX */ 71745748Smckusick vm_page_unlock_queues(); 71845748Smckusick 71945748Smckusick PAGE_WAKEUP(copy_m); 72045748Smckusick } 72145748Smckusick /* 72245748Smckusick * The reference count on copy_object must be 72345748Smckusick * at least 2: one for our extra reference, 72445748Smckusick * and at least one from the outside world 72545748Smckusick * (we checked that when we last locked 72645748Smckusick * copy_object). 72745748Smckusick */ 72845748Smckusick copy_object->ref_count--; 72945748Smckusick vm_object_unlock(copy_object); 730*56382Smckusick m->flags &= ~PG_COPYONWRITE; 73145748Smckusick } 73245748Smckusick } 73345748Smckusick 734*56382Smckusick if (m->flags & (PG_ACTIVE | PG_INACTIVE)) 73545748Smckusick panic("vm_fault: active or inactive before retrying lookup"); 73645748Smckusick 73745748Smckusick /* 73845748Smckusick * We must verify that the maps have not changed 73945748Smckusick * since our last lookup. 74045748Smckusick */ 74145748Smckusick 74245748Smckusick if (!lookup_still_valid) { 74345748Smckusick vm_object_t retry_object; 74445748Smckusick vm_offset_t retry_offset; 74545748Smckusick vm_prot_t retry_prot; 74645748Smckusick 74745748Smckusick /* 74845748Smckusick * Since map entries may be pageable, make sure we can 74945748Smckusick * take a page fault on them. 75045748Smckusick */ 75145748Smckusick vm_object_unlock(object); 75245748Smckusick 75345748Smckusick /* 75445748Smckusick * To avoid trying to write_lock the map while another 75545748Smckusick * thread has it read_locked (in vm_map_pageable), we 75645748Smckusick * do not try for write permission. If the page is 75745748Smckusick * still writable, we will get write permission. If it 75845748Smckusick * is not, or has been marked needs_copy, we enter the 75945748Smckusick * mapping without write permission, and will merely 76045748Smckusick * take another fault. 76145748Smckusick */ 76245748Smckusick result = vm_map_lookup(&map, vaddr, 76345748Smckusick fault_type & ~VM_PROT_WRITE, &entry, 76445748Smckusick &retry_object, &retry_offset, &retry_prot, 76545748Smckusick &wired, &su); 76645748Smckusick 76745748Smckusick vm_object_lock(object); 76845748Smckusick 76945748Smckusick /* 77045748Smckusick * If we don't need the page any longer, put it on the 77145748Smckusick * active list (the easiest thing to do here). If no 77245748Smckusick * one needs it, pageout will grab it eventually. 77345748Smckusick */ 77445748Smckusick 77545748Smckusick if (result != KERN_SUCCESS) { 77645748Smckusick RELEASE_PAGE(m); 77745748Smckusick UNLOCK_AND_DEALLOCATE; 77845748Smckusick return(result); 77945748Smckusick } 78045748Smckusick 78145748Smckusick lookup_still_valid = TRUE; 78245748Smckusick 78345748Smckusick if ((retry_object != first_object) || 78445748Smckusick (retry_offset != first_offset)) { 78545748Smckusick RELEASE_PAGE(m); 78645748Smckusick UNLOCK_AND_DEALLOCATE; 78745748Smckusick goto RetryFault; 78845748Smckusick } 78945748Smckusick 79045748Smckusick /* 79145748Smckusick * Check whether the protection has changed or the object 79245748Smckusick * has been copied while we left the map unlocked. 79345748Smckusick * Changing from read to write permission is OK - we leave 79445748Smckusick * the page write-protected, and catch the write fault. 79545748Smckusick * Changing from write to read permission means that we 79645748Smckusick * can't mark the page write-enabled after all. 79745748Smckusick */ 79845748Smckusick prot &= retry_prot; 799*56382Smckusick if (m->flags & PG_COPYONWRITE) 80045748Smckusick prot &= ~VM_PROT_WRITE; 80145748Smckusick } 80245748Smckusick 80345748Smckusick /* 80445748Smckusick * (the various bits we're fiddling with here are locked by 80545748Smckusick * the object's lock) 80645748Smckusick */ 80745748Smckusick 80845748Smckusick /* XXX This distorts the meaning of the copy_on_write bit */ 80945748Smckusick 81045748Smckusick if (prot & VM_PROT_WRITE) 811*56382Smckusick m->flags &= ~PG_COPYONWRITE; 81245748Smckusick 81345748Smckusick /* 81445748Smckusick * It's critically important that a wired-down page be faulted 81545748Smckusick * only once in each map for which it is wired. 81645748Smckusick */ 81745748Smckusick 818*56382Smckusick if (m->flags & (PG_ACTIVE | PG_INACTIVE)) 81945748Smckusick panic("vm_fault: active or inactive before pmap_enter"); 82045748Smckusick 82145748Smckusick vm_object_unlock(object); 82245748Smckusick 82345748Smckusick /* 82445748Smckusick * Put this page into the physical map. 82545748Smckusick * We had to do the unlock above because pmap_enter 82645748Smckusick * may cause other faults. We don't put the 82745748Smckusick * page back on the active queue until later so 82845748Smckusick * that the page-out daemon won't find us (yet). 82945748Smckusick */ 83045748Smckusick 83145748Smckusick pmap_enter(map->pmap, vaddr, VM_PAGE_TO_PHYS(m), 83245748Smckusick prot & ~(m->page_lock), wired); 83345748Smckusick 83445748Smckusick /* 83545748Smckusick * If the page is not wired down, then put it where the 83645748Smckusick * pageout daemon can find it. 83745748Smckusick */ 83845748Smckusick vm_object_lock(object); 83945748Smckusick vm_page_lock_queues(); 84045748Smckusick if (change_wiring) { 84145748Smckusick if (wired) 84245748Smckusick vm_page_wire(m); 84345748Smckusick else 84445748Smckusick vm_page_unwire(m); 84545748Smckusick } 84645748Smckusick else 84745748Smckusick vm_page_activate(m); 84845748Smckusick vm_page_unlock_queues(); 84945748Smckusick 85045748Smckusick /* 85145748Smckusick * Unlock everything, and return 85245748Smckusick */ 85345748Smckusick 85445748Smckusick PAGE_WAKEUP(m); 85545748Smckusick UNLOCK_AND_DEALLOCATE; 85645748Smckusick 85745748Smckusick return(KERN_SUCCESS); 85845748Smckusick 85945748Smckusick } 86045748Smckusick 86145748Smckusick /* 86245748Smckusick * vm_fault_wire: 86345748Smckusick * 86445748Smckusick * Wire down a range of virtual addresses in a map. 86545748Smckusick */ 86645748Smckusick void vm_fault_wire(map, start, end) 86745748Smckusick vm_map_t map; 86845748Smckusick vm_offset_t start, end; 86945748Smckusick { 87045748Smckusick 87145748Smckusick register vm_offset_t va; 87245748Smckusick register pmap_t pmap; 87345748Smckusick 87445748Smckusick pmap = vm_map_pmap(map); 87545748Smckusick 87645748Smckusick /* 87745748Smckusick * Inform the physical mapping system that the 87845748Smckusick * range of addresses may not fault, so that 87945748Smckusick * page tables and such can be locked down as well. 88045748Smckusick */ 88145748Smckusick 88245748Smckusick pmap_pageable(pmap, start, end, FALSE); 88345748Smckusick 88445748Smckusick /* 88545748Smckusick * We simulate a fault to get the page and enter it 88645748Smckusick * in the physical map. 88745748Smckusick */ 88845748Smckusick 88945748Smckusick for (va = start; va < end; va += PAGE_SIZE) { 89045748Smckusick (void) vm_fault(map, va, VM_PROT_NONE, TRUE); 89145748Smckusick } 89245748Smckusick } 89345748Smckusick 89445748Smckusick 89545748Smckusick /* 89645748Smckusick * vm_fault_unwire: 89745748Smckusick * 89845748Smckusick * Unwire a range of virtual addresses in a map. 89945748Smckusick */ 90045748Smckusick void vm_fault_unwire(map, start, end) 90145748Smckusick vm_map_t map; 90245748Smckusick vm_offset_t start, end; 90345748Smckusick { 90445748Smckusick 90545748Smckusick register vm_offset_t va, pa; 90645748Smckusick register pmap_t pmap; 90745748Smckusick 90845748Smckusick pmap = vm_map_pmap(map); 90945748Smckusick 91045748Smckusick /* 91145748Smckusick * Since the pages are wired down, we must be able to 91245748Smckusick * get their mappings from the physical map system. 91345748Smckusick */ 91445748Smckusick 91545748Smckusick vm_page_lock_queues(); 91645748Smckusick 91745748Smckusick for (va = start; va < end; va += PAGE_SIZE) { 91845748Smckusick pa = pmap_extract(pmap, va); 91945748Smckusick if (pa == (vm_offset_t) 0) { 92045748Smckusick panic("unwire: page not in pmap"); 92145748Smckusick } 92245748Smckusick pmap_change_wiring(pmap, va, FALSE); 92345748Smckusick vm_page_unwire(PHYS_TO_VM_PAGE(pa)); 92445748Smckusick } 92545748Smckusick vm_page_unlock_queues(); 92645748Smckusick 92745748Smckusick /* 92845748Smckusick * Inform the physical mapping system that the range 92945748Smckusick * of addresses may fault, so that page tables and 93045748Smckusick * such may be unwired themselves. 93145748Smckusick */ 93245748Smckusick 93345748Smckusick pmap_pageable(pmap, start, end, TRUE); 93445748Smckusick 93545748Smckusick } 93645748Smckusick 93745748Smckusick /* 93845748Smckusick * Routine: 93945748Smckusick * vm_fault_copy_entry 94045748Smckusick * Function: 94145748Smckusick * Copy all of the pages from a wired-down map entry to another. 94245748Smckusick * 94345748Smckusick * In/out conditions: 94445748Smckusick * The source and destination maps must be locked for write. 94545748Smckusick * The source map entry must be wired down (or be a sharing map 94645748Smckusick * entry corresponding to a main map entry that is wired down). 94745748Smckusick */ 94845748Smckusick 94945748Smckusick void vm_fault_copy_entry(dst_map, src_map, dst_entry, src_entry) 95045748Smckusick vm_map_t dst_map; 95145748Smckusick vm_map_t src_map; 95245748Smckusick vm_map_entry_t dst_entry; 95345748Smckusick vm_map_entry_t src_entry; 95445748Smckusick { 95545748Smckusick 95645748Smckusick vm_object_t dst_object; 95745748Smckusick vm_object_t src_object; 95845748Smckusick vm_offset_t dst_offset; 95945748Smckusick vm_offset_t src_offset; 96045748Smckusick vm_prot_t prot; 96145748Smckusick vm_offset_t vaddr; 96245748Smckusick vm_page_t dst_m; 96345748Smckusick vm_page_t src_m; 96445748Smckusick 96545748Smckusick #ifdef lint 96645748Smckusick src_map++; 96745748Smckusick #endif lint 96845748Smckusick 96945748Smckusick src_object = src_entry->object.vm_object; 97045748Smckusick src_offset = src_entry->offset; 97145748Smckusick 97245748Smckusick /* 97345748Smckusick * Create the top-level object for the destination entry. 97445748Smckusick * (Doesn't actually shadow anything - we copy the pages 97545748Smckusick * directly.) 97645748Smckusick */ 97745748Smckusick dst_object = vm_object_allocate( 97845748Smckusick (vm_size_t) (dst_entry->end - dst_entry->start)); 97945748Smckusick 98045748Smckusick dst_entry->object.vm_object = dst_object; 98145748Smckusick dst_entry->offset = 0; 98245748Smckusick 98345748Smckusick prot = dst_entry->max_protection; 98445748Smckusick 98545748Smckusick /* 98645748Smckusick * Loop through all of the pages in the entry's range, copying 98745748Smckusick * each one from the source object (it should be there) to the 98845748Smckusick * destination object. 98945748Smckusick */ 99045748Smckusick for (vaddr = dst_entry->start, dst_offset = 0; 99145748Smckusick vaddr < dst_entry->end; 99245748Smckusick vaddr += PAGE_SIZE, dst_offset += PAGE_SIZE) { 99345748Smckusick 99445748Smckusick /* 99545748Smckusick * Allocate a page in the destination object 99645748Smckusick */ 99745748Smckusick vm_object_lock(dst_object); 99845748Smckusick do { 99945748Smckusick dst_m = vm_page_alloc(dst_object, dst_offset); 100048386Skarels if (dst_m == NULL) { 100145748Smckusick vm_object_unlock(dst_object); 100245748Smckusick VM_WAIT; 100345748Smckusick vm_object_lock(dst_object); 100445748Smckusick } 100548386Skarels } while (dst_m == NULL); 100645748Smckusick 100745748Smckusick /* 100845748Smckusick * Find the page in the source object, and copy it in. 100945748Smckusick * (Because the source is wired down, the page will be 101045748Smckusick * in memory.) 101145748Smckusick */ 101245748Smckusick vm_object_lock(src_object); 101345748Smckusick src_m = vm_page_lookup(src_object, dst_offset + src_offset); 101448386Skarels if (src_m == NULL) 101545748Smckusick panic("vm_fault_copy_wired: page missing"); 101645748Smckusick 101745748Smckusick vm_page_copy(src_m, dst_m); 101845748Smckusick 101945748Smckusick /* 102045748Smckusick * Enter it in the pmap... 102145748Smckusick */ 102245748Smckusick vm_object_unlock(src_object); 102345748Smckusick vm_object_unlock(dst_object); 102445748Smckusick 102545748Smckusick pmap_enter(dst_map->pmap, vaddr, VM_PAGE_TO_PHYS(dst_m), 102645748Smckusick prot, FALSE); 102745748Smckusick 102845748Smckusick /* 102945748Smckusick * Mark it no longer busy, and put it on the active list. 103045748Smckusick */ 103145748Smckusick vm_object_lock(dst_object); 103245748Smckusick vm_page_lock_queues(); 103345748Smckusick vm_page_activate(dst_m); 103445748Smckusick vm_page_unlock_queues(); 103545748Smckusick PAGE_WAKEUP(dst_m); 103645748Smckusick vm_object_unlock(dst_object); 103745748Smckusick } 103845748Smckusick 103945748Smckusick } 1040