145748Smckusick /* 245748Smckusick * Copyright (c) 1991 Regents of the University of California. 345748Smckusick * All rights reserved. 445748Smckusick * 545748Smckusick * This code is derived from software contributed to Berkeley by 645748Smckusick * The Mach Operating System project at Carnegie-Mellon University. 745748Smckusick * 848493Smckusick * %sccs.include.redist.c% 945748Smckusick * 10*50917Smckusick * @(#)vm_object.c 7.7 (Berkeley) 08/28/91 1148493Smckusick * 1248493Smckusick * 1348493Smckusick * Copyright (c) 1987, 1990 Carnegie-Mellon University. 1448493Smckusick * All rights reserved. 1548493Smckusick * 1648493Smckusick * Authors: Avadis Tevanian, Jr., Michael Wayne Young 1748493Smckusick * 1848493Smckusick * Permission to use, copy, modify and distribute this software and 1948493Smckusick * its documentation is hereby granted, provided that both the copyright 2048493Smckusick * notice and this permission notice appear in all copies of the 2148493Smckusick * software, derivative works or modified versions, and any portions 2248493Smckusick * thereof, and that both notices appear in supporting documentation. 2348493Smckusick * 2448493Smckusick * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS" 2548493Smckusick * CONDITION. CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND 2648493Smckusick * FOR ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE. 2748493Smckusick * 2848493Smckusick * Carnegie Mellon requests users of this software to return to 2948493Smckusick * 3048493Smckusick * Software Distribution Coordinator or Software.Distribution@CS.CMU.EDU 3148493Smckusick * School of Computer Science 3248493Smckusick * Carnegie Mellon University 3348493Smckusick * Pittsburgh PA 15213-3890 3448493Smckusick * 3548493Smckusick * any improvements or extensions that they make and grant Carnegie the 3648493Smckusick * rights to redistribute these changes. 3745748Smckusick */ 3845748Smckusick 3945748Smckusick /* 4045748Smckusick * Virtual memory object module. 4145748Smckusick */ 4245748Smckusick 4345748Smckusick #include "param.h" 4445748Smckusick #include "malloc.h" 4545748Smckusick 4648386Skarels #include "vm.h" 4748386Skarels #include "vm_page.h" 4848386Skarels 4945748Smckusick /* 5045748Smckusick * Virtual memory objects maintain the actual data 5145748Smckusick * associated with allocated virtual memory. A given 5245748Smckusick * page of memory exists within exactly one object. 5345748Smckusick * 5445748Smckusick * An object is only deallocated when all "references" 5545748Smckusick * are given up. Only one "reference" to a given 5645748Smckusick * region of an object should be writeable. 5745748Smckusick * 5845748Smckusick * Associated with each object is a list of all resident 5945748Smckusick * memory pages belonging to that object; this list is 6045748Smckusick * maintained by the "vm_page" module, and locked by the object's 6145748Smckusick * lock. 6245748Smckusick * 6345748Smckusick * Each object also records a "pager" routine which is 6445748Smckusick * used to retrieve (and store) pages to the proper backing 6545748Smckusick * storage. In addition, objects may be backed by other 6645748Smckusick * objects from which they were virtual-copied. 6745748Smckusick * 6845748Smckusick * The only items within the object structure which are 6945748Smckusick * modified after time of creation are: 7045748Smckusick * reference count locked by object's lock 7145748Smckusick * pager routine locked by object's lock 7245748Smckusick * 7345748Smckusick */ 7445748Smckusick 7545748Smckusick struct vm_object kernel_object_store; 7645748Smckusick struct vm_object kmem_object_store; 7745748Smckusick 7845748Smckusick #define VM_OBJECT_HASH_COUNT 157 7945748Smckusick 8045748Smckusick int vm_cache_max = 100; /* can patch if necessary */ 8145748Smckusick queue_head_t vm_object_hashtable[VM_OBJECT_HASH_COUNT]; 8245748Smckusick 8345748Smckusick long object_collapses = 0; 8445748Smckusick long object_bypasses = 0; 8545748Smckusick 8645748Smckusick /* 8745748Smckusick * vm_object_init: 8845748Smckusick * 8945748Smckusick * Initialize the VM objects module. 9045748Smckusick */ 9145748Smckusick void vm_object_init() 9245748Smckusick { 9345748Smckusick register int i; 9445748Smckusick 9545748Smckusick queue_init(&vm_object_cached_list); 9645748Smckusick queue_init(&vm_object_list); 9745748Smckusick vm_object_count = 0; 9845748Smckusick simple_lock_init(&vm_cache_lock); 9945748Smckusick simple_lock_init(&vm_object_list_lock); 10045748Smckusick 10145748Smckusick for (i = 0; i < VM_OBJECT_HASH_COUNT; i++) 10245748Smckusick queue_init(&vm_object_hashtable[i]); 10345748Smckusick 10445748Smckusick kernel_object = &kernel_object_store; 10545748Smckusick _vm_object_allocate(VM_MAX_KERNEL_ADDRESS - VM_MIN_KERNEL_ADDRESS, 10645748Smckusick kernel_object); 10745748Smckusick 10845748Smckusick kmem_object = &kmem_object_store; 10945748Smckusick _vm_object_allocate(VM_KMEM_SIZE + VM_MBUF_SIZE, kmem_object); 11045748Smckusick } 11145748Smckusick 11245748Smckusick /* 11345748Smckusick * vm_object_allocate: 11445748Smckusick * 11545748Smckusick * Returns a new object with the given size. 11645748Smckusick */ 11745748Smckusick 11845748Smckusick vm_object_t vm_object_allocate(size) 11945748Smckusick vm_size_t size; 12045748Smckusick { 12145748Smckusick register vm_object_t result; 12245748Smckusick 12345748Smckusick result = (vm_object_t) 12445748Smckusick malloc((u_long)sizeof *result, M_VMOBJ, M_WAITOK); 12545748Smckusick 12645748Smckusick _vm_object_allocate(size, result); 12745748Smckusick 12845748Smckusick return(result); 12945748Smckusick } 13045748Smckusick 13145748Smckusick _vm_object_allocate(size, object) 13245748Smckusick vm_size_t size; 13345748Smckusick register vm_object_t object; 13445748Smckusick { 13545748Smckusick queue_init(&object->memq); 13645748Smckusick vm_object_lock_init(object); 13745748Smckusick object->ref_count = 1; 13845748Smckusick object->resident_page_count = 0; 13945748Smckusick object->size = size; 140*50917Smckusick object->flags = OBJ_INTERNAL; /* vm_allocate_with_pager will reset */ 14145748Smckusick object->paging_in_progress = 0; 14248386Skarels object->copy = NULL; 14345748Smckusick 14445748Smckusick /* 14545748Smckusick * Object starts out read-write, with no pager. 14645748Smckusick */ 14745748Smckusick 14848386Skarels object->pager = NULL; 14945748Smckusick object->paging_offset = 0; 15048386Skarels object->shadow = NULL; 15145748Smckusick object->shadow_offset = (vm_offset_t) 0; 15245748Smckusick 15345748Smckusick simple_lock(&vm_object_list_lock); 15445748Smckusick queue_enter(&vm_object_list, object, vm_object_t, object_list); 15545748Smckusick vm_object_count++; 15645748Smckusick simple_unlock(&vm_object_list_lock); 15745748Smckusick } 15845748Smckusick 15945748Smckusick /* 16045748Smckusick * vm_object_reference: 16145748Smckusick * 16245748Smckusick * Gets another reference to the given object. 16345748Smckusick */ 16445748Smckusick void vm_object_reference(object) 16545748Smckusick register vm_object_t object; 16645748Smckusick { 16748386Skarels if (object == NULL) 16845748Smckusick return; 16945748Smckusick 17045748Smckusick vm_object_lock(object); 17145748Smckusick object->ref_count++; 17245748Smckusick vm_object_unlock(object); 17345748Smckusick } 17445748Smckusick 17545748Smckusick /* 17645748Smckusick * vm_object_deallocate: 17745748Smckusick * 17845748Smckusick * Release a reference to the specified object, 17945748Smckusick * gained either through a vm_object_allocate 18045748Smckusick * or a vm_object_reference call. When all references 18145748Smckusick * are gone, storage associated with this object 18245748Smckusick * may be relinquished. 18345748Smckusick * 18445748Smckusick * No object may be locked. 18545748Smckusick */ 18645748Smckusick void vm_object_deallocate(object) 18745748Smckusick register vm_object_t object; 18845748Smckusick { 18945748Smckusick vm_object_t temp; 19045748Smckusick 19148386Skarels while (object != NULL) { 19245748Smckusick 19345748Smckusick /* 19445748Smckusick * The cache holds a reference (uncounted) to 19545748Smckusick * the object; we must lock it before removing 19645748Smckusick * the object. 19745748Smckusick */ 19845748Smckusick 19945748Smckusick vm_object_cache_lock(); 20045748Smckusick 20145748Smckusick /* 20245748Smckusick * Lose the reference 20345748Smckusick */ 20445748Smckusick vm_object_lock(object); 20545748Smckusick if (--(object->ref_count) != 0) { 20645748Smckusick 20745748Smckusick /* 20845748Smckusick * If there are still references, then 20945748Smckusick * we are done. 21045748Smckusick */ 21145748Smckusick vm_object_unlock(object); 21245748Smckusick vm_object_cache_unlock(); 21345748Smckusick return; 21445748Smckusick } 21545748Smckusick 21645748Smckusick /* 21745748Smckusick * See if this object can persist. If so, enter 21845748Smckusick * it in the cache, then deactivate all of its 21945748Smckusick * pages. 22045748Smckusick */ 22145748Smckusick 222*50917Smckusick if (object->flags & OBJ_CANPERSIST) { 22345748Smckusick 22445748Smckusick queue_enter(&vm_object_cached_list, object, 22545748Smckusick vm_object_t, cached_list); 22645748Smckusick vm_object_cached++; 22745748Smckusick vm_object_cache_unlock(); 22845748Smckusick 22945748Smckusick vm_object_deactivate_pages(object); 23045748Smckusick vm_object_unlock(object); 23145748Smckusick 23245748Smckusick vm_object_cache_trim(); 23345748Smckusick return; 23445748Smckusick } 23545748Smckusick 23645748Smckusick /* 23745748Smckusick * Make sure no one can look us up now. 23845748Smckusick */ 23945748Smckusick vm_object_remove(object->pager); 24045748Smckusick vm_object_cache_unlock(); 24145748Smckusick 24245748Smckusick temp = object->shadow; 24345748Smckusick vm_object_terminate(object); 24445748Smckusick /* unlocks and deallocates object */ 24545748Smckusick object = temp; 24645748Smckusick } 24745748Smckusick } 24845748Smckusick 24945748Smckusick 25045748Smckusick /* 25145748Smckusick * vm_object_terminate actually destroys the specified object, freeing 25245748Smckusick * up all previously used resources. 25345748Smckusick * 25445748Smckusick * The object must be locked. 25545748Smckusick */ 25645748Smckusick void vm_object_terminate(object) 25745748Smckusick register vm_object_t object; 25845748Smckusick { 25945748Smckusick register vm_page_t p; 26045748Smckusick vm_object_t shadow_object; 26145748Smckusick 26245748Smckusick /* 26345748Smckusick * Detach the object from its shadow if we are the shadow's 26445748Smckusick * copy. 26545748Smckusick */ 26648386Skarels if ((shadow_object = object->shadow) != NULL) { 26745748Smckusick vm_object_lock(shadow_object); 26845748Smckusick if (shadow_object->copy == object) 26948386Skarels shadow_object->copy = NULL; 27045748Smckusick #if 0 27148386Skarels else if (shadow_object->copy != NULL) 27245748Smckusick panic("vm_object_terminate: copy/shadow inconsistency"); 27345748Smckusick #endif 27445748Smckusick vm_object_unlock(shadow_object); 27545748Smckusick } 27645748Smckusick 27745748Smckusick /* 27845748Smckusick * Wait until the pageout daemon is through 27945748Smckusick * with the object. 28045748Smckusick */ 28145748Smckusick 28245748Smckusick while (object->paging_in_progress != 0) { 28350856Smckusick vm_object_sleep((int)object, object, FALSE); 28445748Smckusick vm_object_lock(object); 28545748Smckusick } 28645748Smckusick 28745748Smckusick 28845748Smckusick /* 28945748Smckusick * While the paging system is locked, 29045748Smckusick * pull the object's pages off the active 29145748Smckusick * and inactive queues. This keeps the 29245748Smckusick * pageout daemon from playing with them 29345748Smckusick * during vm_pager_deallocate. 29445748Smckusick * 29545748Smckusick * We can't free the pages yet, because the 29645748Smckusick * object's pager may have to write them out 29745748Smckusick * before deallocating the paging space. 29845748Smckusick */ 29945748Smckusick 30045748Smckusick p = (vm_page_t) queue_first(&object->memq); 30145748Smckusick while (!queue_end(&object->memq, (queue_entry_t) p)) { 30245748Smckusick VM_PAGE_CHECK(p); 30345748Smckusick 30445748Smckusick vm_page_lock_queues(); 30545748Smckusick if (p->active) { 30645748Smckusick queue_remove(&vm_page_queue_active, p, vm_page_t, 30745748Smckusick pageq); 30845748Smckusick p->active = FALSE; 309*50917Smckusick cnt.v_active_count--; 31045748Smckusick } 31145748Smckusick 31245748Smckusick if (p->inactive) { 31345748Smckusick queue_remove(&vm_page_queue_inactive, p, vm_page_t, 31445748Smckusick pageq); 31545748Smckusick p->inactive = FALSE; 316*50917Smckusick cnt.v_inactive_count--; 31745748Smckusick } 31845748Smckusick vm_page_unlock_queues(); 31945748Smckusick p = (vm_page_t) queue_next(&p->listq); 32045748Smckusick } 32145748Smckusick 32245748Smckusick vm_object_unlock(object); 32345748Smckusick 32445748Smckusick if (object->paging_in_progress != 0) 32545748Smckusick panic("vm_object_deallocate: pageout in progress"); 32645748Smckusick 32745748Smckusick /* 32845748Smckusick * Clean and free the pages, as appropriate. 32945748Smckusick * All references to the object are gone, 33045748Smckusick * so we don't need to lock it. 33145748Smckusick */ 33245748Smckusick 333*50917Smckusick if ((object->flags & OBJ_INTERNAL) == 0) { 33445748Smckusick vm_object_lock(object); 33545748Smckusick vm_object_page_clean(object, 0, 0); 33645748Smckusick vm_object_unlock(object); 33745748Smckusick } 33845748Smckusick while (!queue_empty(&object->memq)) { 33945748Smckusick p = (vm_page_t) queue_first(&object->memq); 34045748Smckusick 34145748Smckusick VM_PAGE_CHECK(p); 34245748Smckusick 34345748Smckusick vm_page_lock_queues(); 34445748Smckusick vm_page_free(p); 34545748Smckusick vm_page_unlock_queues(); 34645748Smckusick } 34745748Smckusick 34845748Smckusick /* 34945748Smckusick * Let the pager know object is dead. 35045748Smckusick */ 35145748Smckusick 35248386Skarels if (object->pager != NULL) 35345748Smckusick vm_pager_deallocate(object->pager); 35445748Smckusick 35545748Smckusick 35645748Smckusick simple_lock(&vm_object_list_lock); 35745748Smckusick queue_remove(&vm_object_list, object, vm_object_t, object_list); 35845748Smckusick vm_object_count--; 35945748Smckusick simple_unlock(&vm_object_list_lock); 36045748Smckusick 36145748Smckusick /* 36245748Smckusick * Free the space for the object. 36345748Smckusick */ 36445748Smckusick 36545748Smckusick free((caddr_t)object, M_VMOBJ); 36645748Smckusick } 36745748Smckusick 36845748Smckusick /* 36945748Smckusick * vm_object_page_clean 37045748Smckusick * 37145748Smckusick * Clean all dirty pages in the specified range of object. 37245748Smckusick * Leaves page on whatever queue it is currently on. 37345748Smckusick * 37445748Smckusick * Odd semantics: if start == end, we clean everything. 37545748Smckusick * 37645748Smckusick * The object must be locked. 37745748Smckusick */ 37845748Smckusick vm_object_page_clean(object, start, end) 37945748Smckusick register vm_object_t object; 38045748Smckusick register vm_offset_t start; 38145748Smckusick register vm_offset_t end; 38245748Smckusick { 38345748Smckusick register vm_page_t p; 38445748Smckusick 38548386Skarels if (object->pager == NULL) 38645748Smckusick return; 38745748Smckusick 38845748Smckusick again: 38945748Smckusick p = (vm_page_t) queue_first(&object->memq); 39045748Smckusick while (!queue_end(&object->memq, (queue_entry_t) p)) { 39145748Smckusick if (start == end || 39245748Smckusick p->offset >= start && p->offset < end) { 39345748Smckusick if (p->clean && pmap_is_modified(VM_PAGE_TO_PHYS(p))) 39445748Smckusick p->clean = FALSE; 39549292Shibler pmap_page_protect(VM_PAGE_TO_PHYS(p), VM_PROT_NONE); 39645748Smckusick if (!p->clean) { 39745748Smckusick p->busy = TRUE; 39845748Smckusick object->paging_in_progress++; 39945748Smckusick vm_object_unlock(object); 40045748Smckusick (void) vm_pager_put(object->pager, p, TRUE); 40145748Smckusick vm_object_lock(object); 40245748Smckusick object->paging_in_progress--; 40345748Smckusick p->busy = FALSE; 40445748Smckusick PAGE_WAKEUP(p); 40545748Smckusick goto again; 40645748Smckusick } 40745748Smckusick } 40845748Smckusick p = (vm_page_t) queue_next(&p->listq); 40945748Smckusick } 41045748Smckusick } 41145748Smckusick 41245748Smckusick /* 41345748Smckusick * vm_object_deactivate_pages 41445748Smckusick * 41545748Smckusick * Deactivate all pages in the specified object. (Keep its pages 41645748Smckusick * in memory even though it is no longer referenced.) 41745748Smckusick * 41845748Smckusick * The object must be locked. 41945748Smckusick */ 42045748Smckusick vm_object_deactivate_pages(object) 42145748Smckusick register vm_object_t object; 42245748Smckusick { 42345748Smckusick register vm_page_t p, next; 42445748Smckusick 42545748Smckusick p = (vm_page_t) queue_first(&object->memq); 42645748Smckusick while (!queue_end(&object->memq, (queue_entry_t) p)) { 42745748Smckusick next = (vm_page_t) queue_next(&p->listq); 42845748Smckusick vm_page_lock_queues(); 42945748Smckusick vm_page_deactivate(p); 43045748Smckusick vm_page_unlock_queues(); 43145748Smckusick p = next; 43245748Smckusick } 43345748Smckusick } 43445748Smckusick 43545748Smckusick /* 43645748Smckusick * Trim the object cache to size. 43745748Smckusick */ 43845748Smckusick vm_object_cache_trim() 43945748Smckusick { 44045748Smckusick register vm_object_t object; 44145748Smckusick 44245748Smckusick vm_object_cache_lock(); 44345748Smckusick while (vm_object_cached > vm_cache_max) { 44445748Smckusick object = (vm_object_t) queue_first(&vm_object_cached_list); 44545748Smckusick vm_object_cache_unlock(); 44645748Smckusick 44745748Smckusick if (object != vm_object_lookup(object->pager)) 44845748Smckusick panic("vm_object_deactivate: I'm sooo confused."); 44945748Smckusick 45045748Smckusick pager_cache(object, FALSE); 45145748Smckusick 45245748Smckusick vm_object_cache_lock(); 45345748Smckusick } 45445748Smckusick vm_object_cache_unlock(); 45545748Smckusick } 45645748Smckusick 45745748Smckusick 45845748Smckusick /* 45945748Smckusick * vm_object_shutdown() 46045748Smckusick * 46145748Smckusick * Shut down the object system. Unfortunately, while we 46245748Smckusick * may be trying to do this, init is happily waiting for 46345748Smckusick * processes to exit, and therefore will be causing some objects 46445748Smckusick * to be deallocated. To handle this, we gain a fake reference 46545748Smckusick * to all objects we release paging areas for. This will prevent 46645748Smckusick * a duplicate deallocation. This routine is probably full of 46745748Smckusick * race conditions! 46845748Smckusick */ 46945748Smckusick 47045748Smckusick void vm_object_shutdown() 47145748Smckusick { 47245748Smckusick register vm_object_t object; 47345748Smckusick 47445748Smckusick /* 47545748Smckusick * Clean up the object cache *before* we screw up the reference 47645748Smckusick * counts on all of the objects. 47745748Smckusick */ 47845748Smckusick 47945748Smckusick vm_object_cache_clear(); 48045748Smckusick 48145748Smckusick printf("free paging spaces: "); 48245748Smckusick 48345748Smckusick /* 48445748Smckusick * First we gain a reference to each object so that 48545748Smckusick * no one else will deallocate them. 48645748Smckusick */ 48745748Smckusick 48845748Smckusick simple_lock(&vm_object_list_lock); 48945748Smckusick object = (vm_object_t) queue_first(&vm_object_list); 49045748Smckusick while (!queue_end(&vm_object_list, (queue_entry_t) object)) { 49145748Smckusick vm_object_reference(object); 49245748Smckusick object = (vm_object_t) queue_next(&object->object_list); 49345748Smckusick } 49445748Smckusick simple_unlock(&vm_object_list_lock); 49545748Smckusick 49645748Smckusick /* 49745748Smckusick * Now we deallocate all the paging areas. We don't need 49845748Smckusick * to lock anything because we've reduced to a single 49945748Smckusick * processor while shutting down. This also assumes that 50045748Smckusick * no new objects are being created. 50145748Smckusick */ 50245748Smckusick 50345748Smckusick object = (vm_object_t) queue_first(&vm_object_list); 50445748Smckusick while (!queue_end(&vm_object_list, (queue_entry_t) object)) { 50548386Skarels if (object->pager != NULL) 50645748Smckusick vm_pager_deallocate(object->pager); 50745748Smckusick object = (vm_object_t) queue_next(&object->object_list); 50845748Smckusick printf("."); 50945748Smckusick } 51045748Smckusick printf("done.\n"); 51145748Smckusick } 51245748Smckusick 51345748Smckusick /* 51445748Smckusick * vm_object_pmap_copy: 51545748Smckusick * 51645748Smckusick * Makes all physical pages in the specified 51745748Smckusick * object range copy-on-write. No writeable 51845748Smckusick * references to these pages should remain. 51945748Smckusick * 52045748Smckusick * The object must *not* be locked. 52145748Smckusick */ 52245748Smckusick void vm_object_pmap_copy(object, start, end) 52345748Smckusick register vm_object_t object; 52445748Smckusick register vm_offset_t start; 52545748Smckusick register vm_offset_t end; 52645748Smckusick { 52745748Smckusick register vm_page_t p; 52845748Smckusick 52948386Skarels if (object == NULL) 53045748Smckusick return; 53145748Smckusick 53245748Smckusick vm_object_lock(object); 53345748Smckusick p = (vm_page_t) queue_first(&object->memq); 53445748Smckusick while (!queue_end(&object->memq, (queue_entry_t) p)) { 53545748Smckusick if ((start <= p->offset) && (p->offset < end)) { 53649292Shibler pmap_page_protect(VM_PAGE_TO_PHYS(p), VM_PROT_READ); 53749292Shibler p->copy_on_write = TRUE; 53845748Smckusick } 53945748Smckusick p = (vm_page_t) queue_next(&p->listq); 54045748Smckusick } 54145748Smckusick vm_object_unlock(object); 54245748Smckusick } 54345748Smckusick 54445748Smckusick /* 54545748Smckusick * vm_object_pmap_remove: 54645748Smckusick * 54745748Smckusick * Removes all physical pages in the specified 54845748Smckusick * object range from all physical maps. 54945748Smckusick * 55045748Smckusick * The object must *not* be locked. 55145748Smckusick */ 55245748Smckusick void vm_object_pmap_remove(object, start, end) 55345748Smckusick register vm_object_t object; 55445748Smckusick register vm_offset_t start; 55545748Smckusick register vm_offset_t end; 55645748Smckusick { 55745748Smckusick register vm_page_t p; 55845748Smckusick 55948386Skarels if (object == NULL) 56045748Smckusick return; 56145748Smckusick 56245748Smckusick vm_object_lock(object); 56345748Smckusick p = (vm_page_t) queue_first(&object->memq); 56445748Smckusick while (!queue_end(&object->memq, (queue_entry_t) p)) { 56549292Shibler if ((start <= p->offset) && (p->offset < end)) 56649292Shibler pmap_page_protect(VM_PAGE_TO_PHYS(p), VM_PROT_NONE); 56745748Smckusick p = (vm_page_t) queue_next(&p->listq); 56845748Smckusick } 56945748Smckusick vm_object_unlock(object); 57045748Smckusick } 57145748Smckusick 57245748Smckusick /* 57345748Smckusick * vm_object_copy: 57445748Smckusick * 57545748Smckusick * Create a new object which is a copy of an existing 57645748Smckusick * object, and mark all of the pages in the existing 57745748Smckusick * object 'copy-on-write'. The new object has one reference. 57845748Smckusick * Returns the new object. 57945748Smckusick * 58045748Smckusick * May defer the copy until later if the object is not backed 58145748Smckusick * up by a non-default pager. 58245748Smckusick */ 58345748Smckusick void vm_object_copy(src_object, src_offset, size, 58445748Smckusick dst_object, dst_offset, src_needs_copy) 58545748Smckusick register vm_object_t src_object; 58645748Smckusick vm_offset_t src_offset; 58745748Smckusick vm_size_t size; 58845748Smckusick vm_object_t *dst_object; /* OUT */ 58945748Smckusick vm_offset_t *dst_offset; /* OUT */ 59045748Smckusick boolean_t *src_needs_copy; /* OUT */ 59145748Smckusick { 59245748Smckusick register vm_object_t new_copy; 59345748Smckusick register vm_object_t old_copy; 59445748Smckusick vm_offset_t new_start, new_end; 59545748Smckusick 59645748Smckusick register vm_page_t p; 59745748Smckusick 59848386Skarels if (src_object == NULL) { 59945748Smckusick /* 60045748Smckusick * Nothing to copy 60145748Smckusick */ 60248386Skarels *dst_object = NULL; 60345748Smckusick *dst_offset = 0; 60445748Smckusick *src_needs_copy = FALSE; 60545748Smckusick return; 60645748Smckusick } 60745748Smckusick 60845748Smckusick /* 60945748Smckusick * If the object's pager is null_pager or the 61045748Smckusick * default pager, we don't have to make a copy 61145748Smckusick * of it. Instead, we set the needs copy flag and 61245748Smckusick * make a shadow later. 61345748Smckusick */ 61445748Smckusick 61545748Smckusick vm_object_lock(src_object); 61648386Skarels if (src_object->pager == NULL || 617*50917Smckusick (src_object->flags & OBJ_INTERNAL)) { 61845748Smckusick 61945748Smckusick /* 62045748Smckusick * Make another reference to the object 62145748Smckusick */ 62245748Smckusick src_object->ref_count++; 62345748Smckusick 62445748Smckusick /* 62545748Smckusick * Mark all of the pages copy-on-write. 62645748Smckusick */ 62745748Smckusick for (p = (vm_page_t) queue_first(&src_object->memq); 62845748Smckusick !queue_end(&src_object->memq, (queue_entry_t)p); 62945748Smckusick p = (vm_page_t) queue_next(&p->listq)) { 63045748Smckusick if (src_offset <= p->offset && 63145748Smckusick p->offset < src_offset + size) 63245748Smckusick p->copy_on_write = TRUE; 63345748Smckusick } 63445748Smckusick vm_object_unlock(src_object); 63545748Smckusick 63645748Smckusick *dst_object = src_object; 63745748Smckusick *dst_offset = src_offset; 63845748Smckusick 63945748Smckusick /* 64045748Smckusick * Must make a shadow when write is desired 64145748Smckusick */ 64245748Smckusick *src_needs_copy = TRUE; 64345748Smckusick return; 64445748Smckusick } 64545748Smckusick 64645748Smckusick /* 64745748Smckusick * Try to collapse the object before copying it. 64845748Smckusick */ 64945748Smckusick vm_object_collapse(src_object); 65045748Smckusick 65145748Smckusick /* 65245748Smckusick * If the object has a pager, the pager wants to 65345748Smckusick * see all of the changes. We need a copy-object 65445748Smckusick * for the changed pages. 65545748Smckusick * 65645748Smckusick * If there is a copy-object, and it is empty, 65745748Smckusick * no changes have been made to the object since the 65845748Smckusick * copy-object was made. We can use the same copy- 65945748Smckusick * object. 66045748Smckusick */ 66145748Smckusick 66245748Smckusick Retry1: 66345748Smckusick old_copy = src_object->copy; 66448386Skarels if (old_copy != NULL) { 66545748Smckusick /* 66645748Smckusick * Try to get the locks (out of order) 66745748Smckusick */ 66845748Smckusick if (!vm_object_lock_try(old_copy)) { 66945748Smckusick vm_object_unlock(src_object); 67045748Smckusick 67145748Smckusick /* should spin a bit here... */ 67245748Smckusick vm_object_lock(src_object); 67345748Smckusick goto Retry1; 67445748Smckusick } 67545748Smckusick 67645748Smckusick if (old_copy->resident_page_count == 0 && 67748386Skarels old_copy->pager == NULL) { 67845748Smckusick /* 67945748Smckusick * Return another reference to 68045748Smckusick * the existing copy-object. 68145748Smckusick */ 68245748Smckusick old_copy->ref_count++; 68345748Smckusick vm_object_unlock(old_copy); 68445748Smckusick vm_object_unlock(src_object); 68545748Smckusick *dst_object = old_copy; 68645748Smckusick *dst_offset = src_offset; 68745748Smckusick *src_needs_copy = FALSE; 68845748Smckusick return; 68945748Smckusick } 69045748Smckusick vm_object_unlock(old_copy); 69145748Smckusick } 69245748Smckusick vm_object_unlock(src_object); 69345748Smckusick 69445748Smckusick /* 69545748Smckusick * If the object has a pager, the pager wants 69645748Smckusick * to see all of the changes. We must make 69745748Smckusick * a copy-object and put the changed pages there. 69845748Smckusick * 69945748Smckusick * The copy-object is always made large enough to 70045748Smckusick * completely shadow the original object, since 70145748Smckusick * it may have several users who want to shadow 70245748Smckusick * the original object at different points. 70345748Smckusick */ 70445748Smckusick 70545748Smckusick new_copy = vm_object_allocate(src_object->size); 70645748Smckusick 70745748Smckusick Retry2: 70845748Smckusick vm_object_lock(src_object); 70945748Smckusick /* 71045748Smckusick * Copy object may have changed while we were unlocked 71145748Smckusick */ 71245748Smckusick old_copy = src_object->copy; 71348386Skarels if (old_copy != NULL) { 71445748Smckusick /* 71545748Smckusick * Try to get the locks (out of order) 71645748Smckusick */ 71745748Smckusick if (!vm_object_lock_try(old_copy)) { 71845748Smckusick vm_object_unlock(src_object); 71945748Smckusick goto Retry2; 72045748Smckusick } 72145748Smckusick 72245748Smckusick /* 72345748Smckusick * Consistency check 72445748Smckusick */ 72545748Smckusick if (old_copy->shadow != src_object || 72645748Smckusick old_copy->shadow_offset != (vm_offset_t) 0) 72745748Smckusick panic("vm_object_copy: copy/shadow inconsistency"); 72845748Smckusick 72945748Smckusick /* 73045748Smckusick * Make the old copy-object shadow the new one. 73145748Smckusick * It will receive no more pages from the original 73245748Smckusick * object. 73345748Smckusick */ 73445748Smckusick 73545748Smckusick src_object->ref_count--; /* remove ref. from old_copy */ 73645748Smckusick old_copy->shadow = new_copy; 73745748Smckusick new_copy->ref_count++; /* locking not needed - we 73845748Smckusick have the only pointer */ 73945748Smckusick vm_object_unlock(old_copy); /* done with old_copy */ 74045748Smckusick } 74145748Smckusick 74245748Smckusick new_start = (vm_offset_t) 0; /* always shadow original at 0 */ 74345748Smckusick new_end = (vm_offset_t) new_copy->size; /* for the whole object */ 74445748Smckusick 74545748Smckusick /* 74645748Smckusick * Point the new copy at the existing object. 74745748Smckusick */ 74845748Smckusick 74945748Smckusick new_copy->shadow = src_object; 75045748Smckusick new_copy->shadow_offset = new_start; 75145748Smckusick src_object->ref_count++; 75245748Smckusick src_object->copy = new_copy; 75345748Smckusick 75445748Smckusick /* 75545748Smckusick * Mark all the affected pages of the existing object 75645748Smckusick * copy-on-write. 75745748Smckusick */ 75845748Smckusick p = (vm_page_t) queue_first(&src_object->memq); 75945748Smckusick while (!queue_end(&src_object->memq, (queue_entry_t) p)) { 76049292Shibler if ((new_start <= p->offset) && (p->offset < new_end)) 76145748Smckusick p->copy_on_write = TRUE; 76245748Smckusick p = (vm_page_t) queue_next(&p->listq); 76345748Smckusick } 76445748Smckusick 76545748Smckusick vm_object_unlock(src_object); 76645748Smckusick 76745748Smckusick *dst_object = new_copy; 76845748Smckusick *dst_offset = src_offset - new_start; 76945748Smckusick *src_needs_copy = FALSE; 77045748Smckusick } 77145748Smckusick 77245748Smckusick /* 77345748Smckusick * vm_object_shadow: 77445748Smckusick * 77545748Smckusick * Create a new object which is backed by the 77645748Smckusick * specified existing object range. The source 77745748Smckusick * object reference is deallocated. 77845748Smckusick * 77945748Smckusick * The new object and offset into that object 78045748Smckusick * are returned in the source parameters. 78145748Smckusick */ 78245748Smckusick 78345748Smckusick void vm_object_shadow(object, offset, length) 78445748Smckusick vm_object_t *object; /* IN/OUT */ 78545748Smckusick vm_offset_t *offset; /* IN/OUT */ 78645748Smckusick vm_size_t length; 78745748Smckusick { 78845748Smckusick register vm_object_t source; 78945748Smckusick register vm_object_t result; 79045748Smckusick 79145748Smckusick source = *object; 79245748Smckusick 79345748Smckusick /* 79445748Smckusick * Allocate a new object with the given length 79545748Smckusick */ 79645748Smckusick 79748386Skarels if ((result = vm_object_allocate(length)) == NULL) 79845748Smckusick panic("vm_object_shadow: no object for shadowing"); 79945748Smckusick 80045748Smckusick /* 80145748Smckusick * The new object shadows the source object, adding 80245748Smckusick * a reference to it. Our caller changes his reference 80345748Smckusick * to point to the new object, removing a reference to 80445748Smckusick * the source object. Net result: no change of reference 80545748Smckusick * count. 80645748Smckusick */ 80745748Smckusick result->shadow = source; 80845748Smckusick 80945748Smckusick /* 81045748Smckusick * Store the offset into the source object, 81145748Smckusick * and fix up the offset into the new object. 81245748Smckusick */ 81345748Smckusick 81445748Smckusick result->shadow_offset = *offset; 81545748Smckusick 81645748Smckusick /* 81745748Smckusick * Return the new things 81845748Smckusick */ 81945748Smckusick 82045748Smckusick *offset = 0; 82145748Smckusick *object = result; 82245748Smckusick } 82345748Smckusick 82445748Smckusick /* 82545748Smckusick * Set the specified object's pager to the specified pager. 82645748Smckusick */ 82745748Smckusick 82845748Smckusick void vm_object_setpager(object, pager, paging_offset, 82945748Smckusick read_only) 83045748Smckusick vm_object_t object; 83145748Smckusick vm_pager_t pager; 83245748Smckusick vm_offset_t paging_offset; 83345748Smckusick boolean_t read_only; 83445748Smckusick { 83545748Smckusick #ifdef lint 83645748Smckusick read_only++; /* No longer used */ 83745748Smckusick #endif lint 83845748Smckusick 83945748Smckusick vm_object_lock(object); /* XXX ? */ 84045748Smckusick object->pager = pager; 84145748Smckusick object->paging_offset = paging_offset; 84245748Smckusick vm_object_unlock(object); /* XXX ? */ 84345748Smckusick } 84445748Smckusick 84545748Smckusick /* 84645748Smckusick * vm_object_hash hashes the pager/id pair. 84745748Smckusick */ 84845748Smckusick 84945748Smckusick #define vm_object_hash(pager) \ 85045748Smckusick (((unsigned)pager)%VM_OBJECT_HASH_COUNT) 85145748Smckusick 85245748Smckusick /* 85345748Smckusick * vm_object_lookup looks in the object cache for an object with the 85445748Smckusick * specified pager and paging id. 85545748Smckusick */ 85645748Smckusick 85745748Smckusick vm_object_t vm_object_lookup(pager) 85845748Smckusick vm_pager_t pager; 85945748Smckusick { 86045748Smckusick register queue_t bucket; 86145748Smckusick register vm_object_hash_entry_t entry; 86245748Smckusick vm_object_t object; 86345748Smckusick 86445748Smckusick bucket = &vm_object_hashtable[vm_object_hash(pager)]; 86545748Smckusick 86645748Smckusick vm_object_cache_lock(); 86745748Smckusick 86845748Smckusick entry = (vm_object_hash_entry_t) queue_first(bucket); 86945748Smckusick while (!queue_end(bucket, (queue_entry_t) entry)) { 87045748Smckusick object = entry->object; 87145748Smckusick if (object->pager == pager) { 87245748Smckusick vm_object_lock(object); 87345748Smckusick if (object->ref_count == 0) { 87445748Smckusick queue_remove(&vm_object_cached_list, object, 87545748Smckusick vm_object_t, cached_list); 87645748Smckusick vm_object_cached--; 87745748Smckusick } 87845748Smckusick object->ref_count++; 87945748Smckusick vm_object_unlock(object); 88045748Smckusick vm_object_cache_unlock(); 88145748Smckusick return(object); 88245748Smckusick } 88345748Smckusick entry = (vm_object_hash_entry_t) queue_next(&entry->hash_links); 88445748Smckusick } 88545748Smckusick 88645748Smckusick vm_object_cache_unlock(); 88748386Skarels return(NULL); 88845748Smckusick } 88945748Smckusick 89045748Smckusick /* 89145748Smckusick * vm_object_enter enters the specified object/pager/id into 89245748Smckusick * the hash table. 89345748Smckusick */ 89445748Smckusick 89545748Smckusick void vm_object_enter(object, pager) 89645748Smckusick vm_object_t object; 89745748Smckusick vm_pager_t pager; 89845748Smckusick { 89945748Smckusick register queue_t bucket; 90045748Smckusick register vm_object_hash_entry_t entry; 90145748Smckusick 90245748Smckusick /* 90345748Smckusick * We don't cache null objects, and we can't cache 90445748Smckusick * objects with the null pager. 90545748Smckusick */ 90645748Smckusick 90748386Skarels if (object == NULL) 90845748Smckusick return; 90948386Skarels if (pager == NULL) 91045748Smckusick return; 91145748Smckusick 91245748Smckusick bucket = &vm_object_hashtable[vm_object_hash(pager)]; 91345748Smckusick entry = (vm_object_hash_entry_t) 91445748Smckusick malloc((u_long)sizeof *entry, M_VMOBJHASH, M_WAITOK); 91545748Smckusick entry->object = object; 916*50917Smckusick object->flags |= OBJ_CANPERSIST; 91745748Smckusick 91845748Smckusick vm_object_cache_lock(); 91945748Smckusick queue_enter(bucket, entry, vm_object_hash_entry_t, hash_links); 92045748Smckusick vm_object_cache_unlock(); 92145748Smckusick } 92245748Smckusick 92345748Smckusick /* 92445748Smckusick * vm_object_remove: 92545748Smckusick * 92645748Smckusick * Remove the pager from the hash table. 92745748Smckusick * Note: This assumes that the object cache 92845748Smckusick * is locked. XXX this should be fixed 92945748Smckusick * by reorganizing vm_object_deallocate. 93045748Smckusick */ 93145748Smckusick vm_object_remove(pager) 93245748Smckusick register vm_pager_t pager; 93345748Smckusick { 93445748Smckusick register queue_t bucket; 93545748Smckusick register vm_object_hash_entry_t entry; 93645748Smckusick register vm_object_t object; 93745748Smckusick 93845748Smckusick bucket = &vm_object_hashtable[vm_object_hash(pager)]; 93945748Smckusick 94045748Smckusick entry = (vm_object_hash_entry_t) queue_first(bucket); 94145748Smckusick while (!queue_end(bucket, (queue_entry_t) entry)) { 94245748Smckusick object = entry->object; 94345748Smckusick if (object->pager == pager) { 94445748Smckusick queue_remove(bucket, entry, vm_object_hash_entry_t, 94545748Smckusick hash_links); 94645748Smckusick free((caddr_t)entry, M_VMOBJHASH); 94745748Smckusick break; 94845748Smckusick } 94945748Smckusick entry = (vm_object_hash_entry_t) queue_next(&entry->hash_links); 95045748Smckusick } 95145748Smckusick } 95245748Smckusick 95345748Smckusick /* 95445748Smckusick * vm_object_cache_clear removes all objects from the cache. 95545748Smckusick * 95645748Smckusick */ 95745748Smckusick 95845748Smckusick void vm_object_cache_clear() 95945748Smckusick { 96045748Smckusick register vm_object_t object; 96145748Smckusick 96245748Smckusick /* 96345748Smckusick * Remove each object in the cache by scanning down the 96445748Smckusick * list of cached objects. 96545748Smckusick */ 96645748Smckusick vm_object_cache_lock(); 96745748Smckusick while (!queue_empty(&vm_object_cached_list)) { 96845748Smckusick object = (vm_object_t) queue_first(&vm_object_cached_list); 96945748Smckusick vm_object_cache_unlock(); 97045748Smckusick 97145748Smckusick /* 97245748Smckusick * Note: it is important that we use vm_object_lookup 97345748Smckusick * to gain a reference, and not vm_object_reference, because 97445748Smckusick * the logic for removing an object from the cache lies in 97545748Smckusick * lookup. 97645748Smckusick */ 97745748Smckusick if (object != vm_object_lookup(object->pager)) 97845748Smckusick panic("vm_object_cache_clear: I'm sooo confused."); 97945748Smckusick pager_cache(object, FALSE); 98045748Smckusick 98145748Smckusick vm_object_cache_lock(); 98245748Smckusick } 98345748Smckusick vm_object_cache_unlock(); 98445748Smckusick } 98545748Smckusick 98645748Smckusick boolean_t vm_object_collapse_allowed = TRUE; 98745748Smckusick /* 98845748Smckusick * vm_object_collapse: 98945748Smckusick * 99045748Smckusick * Collapse an object with the object backing it. 99145748Smckusick * Pages in the backing object are moved into the 99245748Smckusick * parent, and the backing object is deallocated. 99345748Smckusick * 99445748Smckusick * Requires that the object be locked and the page 99545748Smckusick * queues be unlocked. 99645748Smckusick * 99745748Smckusick */ 99845748Smckusick void vm_object_collapse(object) 99945748Smckusick register vm_object_t object; 100045748Smckusick 100145748Smckusick { 100245748Smckusick register vm_object_t backing_object; 100345748Smckusick register vm_offset_t backing_offset; 100445748Smckusick register vm_size_t size; 100545748Smckusick register vm_offset_t new_offset; 100645748Smckusick register vm_page_t p, pp; 100745748Smckusick 100845748Smckusick if (!vm_object_collapse_allowed) 100945748Smckusick return; 101045748Smckusick 101145748Smckusick while (TRUE) { 101245748Smckusick /* 101345748Smckusick * Verify that the conditions are right for collapse: 101445748Smckusick * 101545748Smckusick * The object exists and no pages in it are currently 101645748Smckusick * being paged out (or have ever been paged out). 101745748Smckusick */ 101848386Skarels if (object == NULL || 101945748Smckusick object->paging_in_progress != 0 || 102048386Skarels object->pager != NULL) 102145748Smckusick return; 102245748Smckusick 102345748Smckusick /* 102445748Smckusick * There is a backing object, and 102545748Smckusick */ 102645748Smckusick 102748386Skarels if ((backing_object = object->shadow) == NULL) 102845748Smckusick return; 102945748Smckusick 103045748Smckusick vm_object_lock(backing_object); 103145748Smckusick /* 103245748Smckusick * ... 103345748Smckusick * The backing object is not read_only, 103445748Smckusick * and no pages in the backing object are 103545748Smckusick * currently being paged out. 103645748Smckusick * The backing object is internal. 103745748Smckusick */ 103845748Smckusick 1039*50917Smckusick if ((backing_object->flags & OBJ_INTERNAL) == 0 || 104045748Smckusick backing_object->paging_in_progress != 0) { 104145748Smckusick vm_object_unlock(backing_object); 104245748Smckusick return; 104345748Smckusick } 104445748Smckusick 104545748Smckusick /* 104645748Smckusick * The backing object can't be a copy-object: 104745748Smckusick * the shadow_offset for the copy-object must stay 104845748Smckusick * as 0. Furthermore (for the 'we have all the 104945748Smckusick * pages' case), if we bypass backing_object and 105045748Smckusick * just shadow the next object in the chain, old 105145748Smckusick * pages from that object would then have to be copied 105245748Smckusick * BOTH into the (former) backing_object and into the 105345748Smckusick * parent object. 105445748Smckusick */ 105548386Skarels if (backing_object->shadow != NULL && 105648386Skarels backing_object->shadow->copy != NULL) { 105745748Smckusick vm_object_unlock(backing_object); 105845748Smckusick return; 105945748Smckusick } 106045748Smckusick 106145748Smckusick /* 106245748Smckusick * We know that we can either collapse the backing 106345748Smckusick * object (if the parent is the only reference to 106445748Smckusick * it) or (perhaps) remove the parent's reference 106545748Smckusick * to it. 106645748Smckusick */ 106745748Smckusick 106845748Smckusick backing_offset = object->shadow_offset; 106945748Smckusick size = object->size; 107045748Smckusick 107145748Smckusick /* 107245748Smckusick * If there is exactly one reference to the backing 107345748Smckusick * object, we can collapse it into the parent. 107445748Smckusick */ 107545748Smckusick 107645748Smckusick if (backing_object->ref_count == 1) { 107745748Smckusick 107845748Smckusick /* 107945748Smckusick * We can collapse the backing object. 108045748Smckusick * 108145748Smckusick * Move all in-memory pages from backing_object 108245748Smckusick * to the parent. Pages that have been paged out 108345748Smckusick * will be overwritten by any of the parent's 108445748Smckusick * pages that shadow them. 108545748Smckusick */ 108645748Smckusick 108745748Smckusick while (!queue_empty(&backing_object->memq)) { 108845748Smckusick 108945748Smckusick p = (vm_page_t) 109045748Smckusick queue_first(&backing_object->memq); 109145748Smckusick 109245748Smckusick new_offset = (p->offset - backing_offset); 109345748Smckusick 109445748Smckusick /* 109545748Smckusick * If the parent has a page here, or if 109645748Smckusick * this page falls outside the parent, 109745748Smckusick * dispose of it. 109845748Smckusick * 109945748Smckusick * Otherwise, move it as planned. 110045748Smckusick */ 110145748Smckusick 110245748Smckusick if (p->offset < backing_offset || 110345748Smckusick new_offset >= size) { 110445748Smckusick vm_page_lock_queues(); 110545748Smckusick vm_page_free(p); 110645748Smckusick vm_page_unlock_queues(); 110745748Smckusick } else { 110845748Smckusick pp = vm_page_lookup(object, new_offset); 110948386Skarels if (pp != NULL && !pp->fake) { 111045748Smckusick vm_page_lock_queues(); 111145748Smckusick vm_page_free(p); 111245748Smckusick vm_page_unlock_queues(); 111345748Smckusick } 111445748Smckusick else { 111545748Smckusick if (pp) { 111645748Smckusick /* may be someone waiting for it */ 111745748Smckusick PAGE_WAKEUP(pp); 111845748Smckusick vm_page_lock_queues(); 111945748Smckusick vm_page_free(pp); 112045748Smckusick vm_page_unlock_queues(); 112145748Smckusick } 112245748Smckusick vm_page_rename(p, object, new_offset); 112345748Smckusick } 112445748Smckusick } 112545748Smckusick } 112645748Smckusick 112745748Smckusick /* 112845748Smckusick * Move the pager from backing_object to object. 112945748Smckusick * 113045748Smckusick * XXX We're only using part of the paging space 113145748Smckusick * for keeps now... we ought to discard the 113245748Smckusick * unused portion. 113345748Smckusick */ 113445748Smckusick 113545748Smckusick object->pager = backing_object->pager; 113645748Smckusick object->paging_offset += backing_offset; 113745748Smckusick 113848386Skarels backing_object->pager = NULL; 113945748Smckusick 114045748Smckusick /* 114145748Smckusick * Object now shadows whatever backing_object did. 114245748Smckusick * Note that the reference to backing_object->shadow 114345748Smckusick * moves from within backing_object to within object. 114445748Smckusick */ 114545748Smckusick 114645748Smckusick object->shadow = backing_object->shadow; 114745748Smckusick object->shadow_offset += backing_object->shadow_offset; 114848386Skarels if (object->shadow != NULL && 114948386Skarels object->shadow->copy != NULL) { 115045748Smckusick panic("vm_object_collapse: we collapsed a copy-object!"); 115145748Smckusick } 115245748Smckusick /* 115345748Smckusick * Discard backing_object. 115445748Smckusick * 115545748Smckusick * Since the backing object has no pages, no 115645748Smckusick * pager left, and no object references within it, 115745748Smckusick * all that is necessary is to dispose of it. 115845748Smckusick */ 115945748Smckusick 116045748Smckusick vm_object_unlock(backing_object); 116145748Smckusick 116245748Smckusick simple_lock(&vm_object_list_lock); 116345748Smckusick queue_remove(&vm_object_list, backing_object, 116445748Smckusick vm_object_t, object_list); 116545748Smckusick vm_object_count--; 116645748Smckusick simple_unlock(&vm_object_list_lock); 116745748Smckusick 116845748Smckusick free((caddr_t)backing_object, M_VMOBJ); 116945748Smckusick 117045748Smckusick object_collapses++; 117145748Smckusick } 117245748Smckusick else { 117345748Smckusick /* 117445748Smckusick * If all of the pages in the backing object are 117545748Smckusick * shadowed by the parent object, the parent 117645748Smckusick * object no longer has to shadow the backing 117745748Smckusick * object; it can shadow the next one in the 117845748Smckusick * chain. 117945748Smckusick * 118045748Smckusick * The backing object must not be paged out - we'd 118145748Smckusick * have to check all of the paged-out pages, as 118245748Smckusick * well. 118345748Smckusick */ 118445748Smckusick 118548386Skarels if (backing_object->pager != NULL) { 118645748Smckusick vm_object_unlock(backing_object); 118745748Smckusick return; 118845748Smckusick } 118945748Smckusick 119045748Smckusick /* 119145748Smckusick * Should have a check for a 'small' number 119245748Smckusick * of pages here. 119345748Smckusick */ 119445748Smckusick 119545748Smckusick p = (vm_page_t) queue_first(&backing_object->memq); 119645748Smckusick while (!queue_end(&backing_object->memq, 119745748Smckusick (queue_entry_t) p)) { 119845748Smckusick 119945748Smckusick new_offset = (p->offset - backing_offset); 120045748Smckusick 120145748Smckusick /* 120245748Smckusick * If the parent has a page here, or if 120345748Smckusick * this page falls outside the parent, 120445748Smckusick * keep going. 120545748Smckusick * 120645748Smckusick * Otherwise, the backing_object must be 120745748Smckusick * left in the chain. 120845748Smckusick */ 120945748Smckusick 121045748Smckusick if (p->offset >= backing_offset && 121145748Smckusick new_offset <= size && 121245748Smckusick ((pp = vm_page_lookup(object, new_offset)) 121348386Skarels == NULL || 121445748Smckusick pp->fake)) { 121545748Smckusick /* 121645748Smckusick * Page still needed. 121745748Smckusick * Can't go any further. 121845748Smckusick */ 121945748Smckusick vm_object_unlock(backing_object); 122045748Smckusick return; 122145748Smckusick } 122245748Smckusick p = (vm_page_t) queue_next(&p->listq); 122345748Smckusick } 122445748Smckusick 122545748Smckusick /* 122645748Smckusick * Make the parent shadow the next object 122745748Smckusick * in the chain. Deallocating backing_object 122845748Smckusick * will not remove it, since its reference 122945748Smckusick * count is at least 2. 123045748Smckusick */ 123145748Smckusick 123245748Smckusick vm_object_reference(object->shadow = backing_object->shadow); 123345748Smckusick object->shadow_offset += backing_object->shadow_offset; 123445748Smckusick 123545748Smckusick /* Drop the reference count on backing_object. 123645748Smckusick * Since its ref_count was at least 2, it 123745748Smckusick * will not vanish; so we don't need to call 123845748Smckusick * vm_object_deallocate. 123945748Smckusick */ 124045748Smckusick backing_object->ref_count--; 124145748Smckusick vm_object_unlock(backing_object); 124245748Smckusick 124345748Smckusick object_bypasses ++; 124445748Smckusick 124545748Smckusick } 124645748Smckusick 124745748Smckusick /* 124845748Smckusick * Try again with this object's new backing object. 124945748Smckusick */ 125045748Smckusick } 125145748Smckusick } 125245748Smckusick 125345748Smckusick /* 125445748Smckusick * vm_object_page_remove: [internal] 125545748Smckusick * 125645748Smckusick * Removes all physical pages in the specified 125745748Smckusick * object range from the object's list of pages. 125845748Smckusick * 125945748Smckusick * The object must be locked. 126045748Smckusick */ 126145748Smckusick void vm_object_page_remove(object, start, end) 126245748Smckusick register vm_object_t object; 126345748Smckusick register vm_offset_t start; 126445748Smckusick register vm_offset_t end; 126545748Smckusick { 126645748Smckusick register vm_page_t p, next; 126745748Smckusick 126848386Skarels if (object == NULL) 126945748Smckusick return; 127045748Smckusick 127145748Smckusick p = (vm_page_t) queue_first(&object->memq); 127245748Smckusick while (!queue_end(&object->memq, (queue_entry_t) p)) { 127345748Smckusick next = (vm_page_t) queue_next(&p->listq); 127445748Smckusick if ((start <= p->offset) && (p->offset < end)) { 127549292Shibler pmap_page_protect(VM_PAGE_TO_PHYS(p), VM_PROT_NONE); 127645748Smckusick vm_page_lock_queues(); 127745748Smckusick vm_page_free(p); 127845748Smckusick vm_page_unlock_queues(); 127945748Smckusick } 128045748Smckusick p = next; 128145748Smckusick } 128245748Smckusick } 128345748Smckusick 128445748Smckusick /* 128545748Smckusick * Routine: vm_object_coalesce 128645748Smckusick * Function: Coalesces two objects backing up adjoining 128745748Smckusick * regions of memory into a single object. 128845748Smckusick * 128945748Smckusick * returns TRUE if objects were combined. 129045748Smckusick * 129145748Smckusick * NOTE: Only works at the moment if the second object is NULL - 129245748Smckusick * if it's not, which object do we lock first? 129345748Smckusick * 129445748Smckusick * Parameters: 129545748Smckusick * prev_object First object to coalesce 129645748Smckusick * prev_offset Offset into prev_object 129745748Smckusick * next_object Second object into coalesce 129845748Smckusick * next_offset Offset into next_object 129945748Smckusick * 130045748Smckusick * prev_size Size of reference to prev_object 130145748Smckusick * next_size Size of reference to next_object 130245748Smckusick * 130345748Smckusick * Conditions: 130445748Smckusick * The object must *not* be locked. 130545748Smckusick */ 130645748Smckusick boolean_t vm_object_coalesce(prev_object, next_object, 130745748Smckusick prev_offset, next_offset, 130845748Smckusick prev_size, next_size) 130945748Smckusick 131045748Smckusick register vm_object_t prev_object; 131145748Smckusick vm_object_t next_object; 131245748Smckusick vm_offset_t prev_offset, next_offset; 131345748Smckusick vm_size_t prev_size, next_size; 131445748Smckusick { 131545748Smckusick vm_size_t newsize; 131645748Smckusick 131745748Smckusick #ifdef lint 131845748Smckusick next_offset++; 131945748Smckusick #endif lint 132045748Smckusick 132148386Skarels if (next_object != NULL) { 132245748Smckusick return(FALSE); 132345748Smckusick } 132445748Smckusick 132548386Skarels if (prev_object == NULL) { 132645748Smckusick return(TRUE); 132745748Smckusick } 132845748Smckusick 132945748Smckusick vm_object_lock(prev_object); 133045748Smckusick 133145748Smckusick /* 133245748Smckusick * Try to collapse the object first 133345748Smckusick */ 133445748Smckusick vm_object_collapse(prev_object); 133545748Smckusick 133645748Smckusick /* 133745748Smckusick * Can't coalesce if: 133845748Smckusick * . more than one reference 133945748Smckusick * . paged out 134045748Smckusick * . shadows another object 134145748Smckusick * . has a copy elsewhere 134245748Smckusick * (any of which mean that the pages not mapped to 134345748Smckusick * prev_entry may be in use anyway) 134445748Smckusick */ 134545748Smckusick 134645748Smckusick if (prev_object->ref_count > 1 || 134748386Skarels prev_object->pager != NULL || 134848386Skarels prev_object->shadow != NULL || 134948386Skarels prev_object->copy != NULL) { 135045748Smckusick vm_object_unlock(prev_object); 135145748Smckusick return(FALSE); 135245748Smckusick } 135345748Smckusick 135445748Smckusick /* 135545748Smckusick * Remove any pages that may still be in the object from 135645748Smckusick * a previous deallocation. 135745748Smckusick */ 135845748Smckusick 135945748Smckusick vm_object_page_remove(prev_object, 136045748Smckusick prev_offset + prev_size, 136145748Smckusick prev_offset + prev_size + next_size); 136245748Smckusick 136345748Smckusick /* 136445748Smckusick * Extend the object if necessary. 136545748Smckusick */ 136645748Smckusick newsize = prev_offset + prev_size + next_size; 136745748Smckusick if (newsize > prev_object->size) 136845748Smckusick prev_object->size = newsize; 136945748Smckusick 137045748Smckusick vm_object_unlock(prev_object); 137145748Smckusick return(TRUE); 137245748Smckusick } 137345748Smckusick 137445748Smckusick /* 137545748Smckusick * vm_object_print: [ debug ] 137645748Smckusick */ 137745748Smckusick void vm_object_print(object, full) 137845748Smckusick vm_object_t object; 137945748Smckusick boolean_t full; 138045748Smckusick { 138145748Smckusick register vm_page_t p; 138245748Smckusick extern indent; 138345748Smckusick 138445748Smckusick register int count; 138545748Smckusick 138648386Skarels if (object == NULL) 138745748Smckusick return; 138845748Smckusick 138945748Smckusick iprintf("Object 0x%x: size=0x%x, res=%d, ref=%d, ", 139045748Smckusick (int) object, (int) object->size, 139145748Smckusick object->resident_page_count, object->ref_count); 139245748Smckusick printf("pager=0x%x+0x%x, shadow=(0x%x)+0x%x\n", 139345748Smckusick (int) object->pager, (int) object->paging_offset, 139445748Smckusick (int) object->shadow, (int) object->shadow_offset); 139545748Smckusick printf("cache: next=0x%x, prev=0x%x\n", 139645748Smckusick object->cached_list.next, object->cached_list.prev); 139745748Smckusick 139845748Smckusick if (!full) 139945748Smckusick return; 140045748Smckusick 140145748Smckusick indent += 2; 140245748Smckusick count = 0; 140345748Smckusick p = (vm_page_t) queue_first(&object->memq); 140445748Smckusick while (!queue_end(&object->memq, (queue_entry_t) p)) { 140545748Smckusick if (count == 0) 140645748Smckusick iprintf("memory:="); 140745748Smckusick else if (count == 6) { 140845748Smckusick printf("\n"); 140945748Smckusick iprintf(" ..."); 141045748Smckusick count = 0; 141145748Smckusick } else 141245748Smckusick printf(","); 141345748Smckusick count++; 141445748Smckusick 141545748Smckusick printf("(off=0x%x,page=0x%x)", p->offset, VM_PAGE_TO_PHYS(p)); 141645748Smckusick p = (vm_page_t) queue_next(&p->listq); 141745748Smckusick } 141845748Smckusick if (count != 0) 141945748Smckusick printf("\n"); 142045748Smckusick indent -= 2; 142145748Smckusick } 1422