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*52610Storek * @(#)vm_map.c 7.5 (Berkeley) 02/19/92 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 mapping module. 4145748Smckusick */ 4245748Smckusick 4348383Skarels #include "param.h" 4445748Smckusick #include "malloc.h" 4548383Skarels #include "vm.h" 4648383Skarels #include "vm_page.h" 4748383Skarels #include "vm_object.h" 4845748Smckusick 4945748Smckusick /* 5045748Smckusick * Virtual memory maps provide for the mapping, protection, 5145748Smckusick * and sharing of virtual memory objects. In addition, 5245748Smckusick * this module provides for an efficient virtual copy of 5345748Smckusick * memory from one map to another. 5445748Smckusick * 5545748Smckusick * Synchronization is required prior to most operations. 5645748Smckusick * 5745748Smckusick * Maps consist of an ordered doubly-linked list of simple 5845748Smckusick * entries; a single hint is used to speed up lookups. 5945748Smckusick * 6045748Smckusick * In order to properly represent the sharing of virtual 6145748Smckusick * memory regions among maps, the map structure is bi-level. 6245748Smckusick * Top-level ("address") maps refer to regions of sharable 6345748Smckusick * virtual memory. These regions are implemented as 6445748Smckusick * ("sharing") maps, which then refer to the actual virtual 6545748Smckusick * memory objects. When two address maps "share" memory, 6645748Smckusick * their top-level maps both have references to the same 6745748Smckusick * sharing map. When memory is virtual-copied from one 6845748Smckusick * address map to another, the references in the sharing 6945748Smckusick * maps are actually copied -- no copying occurs at the 7045748Smckusick * virtual memory object level. 7145748Smckusick * 7245748Smckusick * Since portions of maps are specified by start/end addreses, 7345748Smckusick * which may not align with existing map entries, all 7445748Smckusick * routines merely "clip" entries to these start/end values. 7545748Smckusick * [That is, an entry is split into two, bordering at a 7645748Smckusick * start or end value.] Note that these clippings may not 7745748Smckusick * always be necessary (as the two resulting entries are then 7845748Smckusick * not changed); however, the clipping is done for convenience. 7945748Smckusick * No attempt is currently made to "glue back together" two 8045748Smckusick * abutting entries. 8145748Smckusick * 8245748Smckusick * As mentioned above, virtual copy operations are performed 8345748Smckusick * by copying VM object references from one sharing map to 8445748Smckusick * another, and then marking both regions as copy-on-write. 8545748Smckusick * It is important to note that only one writeable reference 8645748Smckusick * to a VM object region exists in any map -- this means that 8745748Smckusick * shadow object creation can be delayed until a write operation 8845748Smckusick * occurs. 8945748Smckusick */ 9045748Smckusick 9145748Smckusick /* 9248383Skarels * vm_map_startup: 9345748Smckusick * 9445748Smckusick * Initialize the vm_map module. Must be called before 9545748Smckusick * any other vm_map routines. 9645748Smckusick * 9745748Smckusick * Map and entry structures are allocated from the general 9845748Smckusick * purpose memory pool with some exceptions: 9945748Smckusick * 10045748Smckusick * - The kernel map and kmem submap are allocated statically. 10145748Smckusick * - Kernel map entries are allocated out of a static pool. 10245748Smckusick * 10345748Smckusick * These restrictions are necessary since malloc() uses the 10445748Smckusick * maps and requires map entries. 10545748Smckusick */ 10645748Smckusick 10745748Smckusick vm_offset_t kentry_data; 10845748Smckusick vm_size_t kentry_data_size; 10945748Smckusick vm_map_entry_t kentry_free; 11045748Smckusick vm_map_t kmap_free; 11145748Smckusick 11248383Skarels void vm_map_startup() 11345748Smckusick { 11445748Smckusick register int i; 11545748Smckusick register vm_map_entry_t mep; 11645748Smckusick vm_map_t mp; 11745748Smckusick 11845748Smckusick /* 11945748Smckusick * Static map structures for allocation before initialization of 12045748Smckusick * kernel map or kmem map. vm_map_create knows how to deal with them. 12145748Smckusick */ 12245748Smckusick kmap_free = mp = (vm_map_t) kentry_data; 12345748Smckusick i = MAX_KMAP; 12445748Smckusick while (--i > 0) { 12545748Smckusick mp->header.next = (vm_map_entry_t) (mp + 1); 12645748Smckusick mp++; 12745748Smckusick } 12848383Skarels mp++->header.next = NULL; 12945748Smckusick 13045748Smckusick /* 13145748Smckusick * Form a free list of statically allocated kernel map entries 13245748Smckusick * with the rest. 13345748Smckusick */ 13445748Smckusick kentry_free = mep = (vm_map_entry_t) mp; 13545748Smckusick i = (kentry_data_size - MAX_KMAP * sizeof *mp) / sizeof *mep; 13645748Smckusick while (--i > 0) { 13745748Smckusick mep->next = mep + 1; 13845748Smckusick mep++; 13945748Smckusick } 14048383Skarels mep->next = NULL; 14145748Smckusick } 14245748Smckusick 14345748Smckusick /* 14448383Skarels * Allocate a vmspace structure, including a vm_map and pmap, 14548383Skarels * and initialize those structures. The refcnt is set to 1. 14648383Skarels * The remaining fields must be initialized by the caller. 14748383Skarels */ 14848383Skarels struct vmspace * 14948383Skarels vmspace_alloc(min, max, pageable) 15048383Skarels vm_offset_t min, max; 15148383Skarels int pageable; 15248383Skarels { 15348383Skarels register struct vmspace *vm; 15448383Skarels 15548383Skarels MALLOC(vm, struct vmspace *, sizeof(struct vmspace), M_VMMAP, M_WAITOK); 15648383Skarels bzero(vm, (caddr_t) &vm->vm_startcopy - (caddr_t) vm); 15748383Skarels vm_map_init(&vm->vm_map, min, max, pageable); 15848383Skarels pmap_pinit(&vm->vm_pmap); 15948383Skarels vm->vm_map.pmap = &vm->vm_pmap; /* XXX */ 16048383Skarels vm->vm_refcnt = 1; 16148383Skarels return (vm); 16248383Skarels } 16348383Skarels 16448383Skarels void 16548383Skarels vmspace_free(vm) 16648383Skarels register struct vmspace *vm; 16748383Skarels { 16848383Skarels 16948383Skarels if (--vm->vm_refcnt == 0) { 17048383Skarels /* 17148383Skarels * Lock the map, to wait out all other references to it. 17248383Skarels * Delete all of the mappings and pages they hold, 17348383Skarels * then call the pmap module to reclaim anything left. 17448383Skarels */ 17548383Skarels vm_map_lock(&vm->vm_map); 17648383Skarels (void) vm_map_delete(&vm->vm_map, vm->vm_map.min_offset, 17748383Skarels vm->vm_map.max_offset); 17848383Skarels pmap_release(&vm->vm_pmap); 17948383Skarels FREE(vm, M_VMMAP); 18048383Skarels } 18148383Skarels } 18248383Skarels 18348383Skarels /* 18445748Smckusick * vm_map_create: 18545748Smckusick * 18645748Smckusick * Creates and returns a new empty VM map with 18745748Smckusick * the given physical map structure, and having 18845748Smckusick * the given lower and upper address bounds. 18945748Smckusick */ 19045748Smckusick vm_map_t vm_map_create(pmap, min, max, pageable) 19145748Smckusick pmap_t pmap; 19245748Smckusick vm_offset_t min, max; 19345748Smckusick boolean_t pageable; 19445748Smckusick { 19545748Smckusick register vm_map_t result; 19645748Smckusick extern vm_map_t kernel_map, kmem_map; 19745748Smckusick 19848383Skarels if (kmem_map == NULL) { 19945748Smckusick result = kmap_free; 20045748Smckusick kmap_free = (vm_map_t) result->header.next; 20148383Skarels if (result == NULL) 20248383Skarels panic("vm_map_create: out of maps"); 20345748Smckusick } else 20445748Smckusick MALLOC(result, vm_map_t, sizeof(struct vm_map), 20545748Smckusick M_VMMAP, M_WAITOK); 20645748Smckusick 20748383Skarels vm_map_init(result, min, max, pageable); 20845748Smckusick result->pmap = pmap; 20945748Smckusick return(result); 21045748Smckusick } 21145748Smckusick 21245748Smckusick /* 21348383Skarels * Initialize an existing vm_map structure 21448383Skarels * such as that in the vmspace structure. 21548383Skarels * The pmap is set elsewhere. 21648383Skarels */ 21748383Skarels void 21848383Skarels vm_map_init(map, min, max, pageable) 21948383Skarels register struct vm_map *map; 22048383Skarels vm_offset_t min, max; 22148383Skarels boolean_t pageable; 22248383Skarels { 22348383Skarels map->header.next = map->header.prev = &map->header; 22448383Skarels map->nentries = 0; 22548383Skarels map->size = 0; 22648383Skarels map->ref_count = 1; 22748383Skarels map->is_main_map = TRUE; 22848383Skarels map->min_offset = min; 22948383Skarels map->max_offset = max; 23048383Skarels map->entries_pageable = pageable; 23148383Skarels map->first_free = &map->header; 23248383Skarels map->hint = &map->header; 23348383Skarels map->timestamp = 0; 23448383Skarels lock_init(&map->lock, TRUE); 23548383Skarels simple_lock_init(&map->ref_lock); 23648383Skarels simple_lock_init(&map->hint_lock); 23748383Skarels } 23848383Skarels 23948383Skarels /* 24045748Smckusick * vm_map_entry_create: [ internal use only ] 24145748Smckusick * 24245748Smckusick * Allocates a VM map entry for insertion. 24345748Smckusick * No entry fields are filled in. This routine is 24445748Smckusick */ 24545748Smckusick vm_map_entry_t vm_map_entry_create(map) 24645748Smckusick vm_map_t map; 24745748Smckusick { 24845748Smckusick vm_map_entry_t entry; 24945748Smckusick extern vm_map_t kernel_map, kmem_map, mb_map; 25045748Smckusick 25145748Smckusick if (map == kernel_map || map == kmem_map || map == mb_map) { 25245748Smckusick if (entry = kentry_free) 25345748Smckusick kentry_free = kentry_free->next; 25445748Smckusick } else 25545748Smckusick MALLOC(entry, vm_map_entry_t, sizeof(struct vm_map_entry), 25645748Smckusick M_VMMAPENT, M_WAITOK); 25748383Skarels if (entry == NULL) 25845748Smckusick panic("vm_map_entry_create: out of map entries"); 25945748Smckusick 26045748Smckusick return(entry); 26145748Smckusick } 26245748Smckusick 26345748Smckusick /* 26445748Smckusick * vm_map_entry_dispose: [ internal use only ] 26545748Smckusick * 26645748Smckusick * Inverse of vm_map_entry_create. 26745748Smckusick */ 26845748Smckusick void vm_map_entry_dispose(map, entry) 26945748Smckusick vm_map_t map; 27045748Smckusick vm_map_entry_t entry; 27145748Smckusick { 27245748Smckusick extern vm_map_t kernel_map, kmem_map, mb_map; 27345748Smckusick 27445748Smckusick if (map == kernel_map || map == kmem_map || map == mb_map) { 27545748Smckusick entry->next = kentry_free; 27645748Smckusick kentry_free = entry; 27745748Smckusick } else 27845748Smckusick FREE(entry, M_VMMAPENT); 27945748Smckusick } 28045748Smckusick 28145748Smckusick /* 28245748Smckusick * vm_map_entry_{un,}link: 28345748Smckusick * 28445748Smckusick * Insert/remove entries from maps. 28545748Smckusick */ 28645748Smckusick #define vm_map_entry_link(map, after_where, entry) \ 28745748Smckusick { \ 28845748Smckusick (map)->nentries++; \ 28945748Smckusick (entry)->prev = (after_where); \ 29045748Smckusick (entry)->next = (after_where)->next; \ 29145748Smckusick (entry)->prev->next = (entry); \ 29245748Smckusick (entry)->next->prev = (entry); \ 29345748Smckusick } 29445748Smckusick #define vm_map_entry_unlink(map, entry) \ 29545748Smckusick { \ 29645748Smckusick (map)->nentries--; \ 29745748Smckusick (entry)->next->prev = (entry)->prev; \ 29845748Smckusick (entry)->prev->next = (entry)->next; \ 29945748Smckusick } 30045748Smckusick 30145748Smckusick /* 30245748Smckusick * vm_map_reference: 30345748Smckusick * 30445748Smckusick * Creates another valid reference to the given map. 30545748Smckusick * 30645748Smckusick */ 30745748Smckusick void vm_map_reference(map) 30845748Smckusick register vm_map_t map; 30945748Smckusick { 31048383Skarels if (map == NULL) 31145748Smckusick return; 31245748Smckusick 31345748Smckusick simple_lock(&map->ref_lock); 31445748Smckusick map->ref_count++; 31545748Smckusick simple_unlock(&map->ref_lock); 31645748Smckusick } 31745748Smckusick 31845748Smckusick /* 31945748Smckusick * vm_map_deallocate: 32045748Smckusick * 32145748Smckusick * Removes a reference from the specified map, 32245748Smckusick * destroying it if no references remain. 32345748Smckusick * The map should not be locked. 32445748Smckusick */ 32545748Smckusick void vm_map_deallocate(map) 32645748Smckusick register vm_map_t map; 32745748Smckusick { 32845748Smckusick register int c; 32945748Smckusick 33048383Skarels if (map == NULL) 33145748Smckusick return; 33245748Smckusick 33345748Smckusick simple_lock(&map->ref_lock); 33445748Smckusick c = --map->ref_count; 33545748Smckusick simple_unlock(&map->ref_lock); 33645748Smckusick 33745748Smckusick if (c > 0) { 33845748Smckusick return; 33945748Smckusick } 34045748Smckusick 34145748Smckusick /* 34245748Smckusick * Lock the map, to wait out all other references 34345748Smckusick * to it. 34445748Smckusick */ 34545748Smckusick 34645748Smckusick vm_map_lock(map); 34745748Smckusick 34845748Smckusick (void) vm_map_delete(map, map->min_offset, map->max_offset); 34945748Smckusick 35045748Smckusick pmap_destroy(map->pmap); 35145748Smckusick 35245748Smckusick FREE(map, M_VMMAP); 35345748Smckusick } 35445748Smckusick 35545748Smckusick /* 35645748Smckusick * vm_map_insert: [ internal use only ] 35745748Smckusick * 35845748Smckusick * Inserts the given whole VM object into the target 35945748Smckusick * map at the specified address range. The object's 36045748Smckusick * size should match that of the address range. 36145748Smckusick * 36245748Smckusick * Requires that the map be locked, and leaves it so. 36345748Smckusick */ 36445748Smckusick vm_map_insert(map, object, offset, start, end) 36545748Smckusick vm_map_t map; 36645748Smckusick vm_object_t object; 36745748Smckusick vm_offset_t offset; 36845748Smckusick vm_offset_t start; 36945748Smckusick vm_offset_t end; 37045748Smckusick { 37145748Smckusick register vm_map_entry_t new_entry; 37245748Smckusick register vm_map_entry_t prev_entry; 37345748Smckusick vm_map_entry_t temp_entry; 37445748Smckusick 37545748Smckusick /* 37645748Smckusick * Check that the start and end points are not bogus. 37745748Smckusick */ 37845748Smckusick 37945748Smckusick if ((start < map->min_offset) || (end > map->max_offset) || 38045748Smckusick (start >= end)) 38145748Smckusick return(KERN_INVALID_ADDRESS); 38245748Smckusick 38345748Smckusick /* 38445748Smckusick * Find the entry prior to the proposed 38545748Smckusick * starting address; if it's part of an 38645748Smckusick * existing entry, this range is bogus. 38745748Smckusick */ 38845748Smckusick 38945748Smckusick if (vm_map_lookup_entry(map, start, &temp_entry)) 39045748Smckusick return(KERN_NO_SPACE); 39145748Smckusick 39245748Smckusick prev_entry = temp_entry; 39345748Smckusick 39445748Smckusick /* 39545748Smckusick * Assert that the next entry doesn't overlap the 39645748Smckusick * end point. 39745748Smckusick */ 39845748Smckusick 39945748Smckusick if ((prev_entry->next != &map->header) && 40045748Smckusick (prev_entry->next->start < end)) 40145748Smckusick return(KERN_NO_SPACE); 40245748Smckusick 40345748Smckusick /* 40445748Smckusick * See if we can avoid creating a new entry by 40545748Smckusick * extending one of our neighbors. 40645748Smckusick */ 40745748Smckusick 40848383Skarels if (object == NULL) { 40945748Smckusick if ((prev_entry != &map->header) && 41045748Smckusick (prev_entry->end == start) && 41145748Smckusick (map->is_main_map) && 41245748Smckusick (prev_entry->is_a_map == FALSE) && 41345748Smckusick (prev_entry->is_sub_map == FALSE) && 41445748Smckusick (prev_entry->inheritance == VM_INHERIT_DEFAULT) && 41545748Smckusick (prev_entry->protection == VM_PROT_DEFAULT) && 41645748Smckusick (prev_entry->max_protection == VM_PROT_DEFAULT) && 41745748Smckusick (prev_entry->wired_count == 0)) { 41845748Smckusick 41945748Smckusick if (vm_object_coalesce(prev_entry->object.vm_object, 42048383Skarels NULL, 42145748Smckusick prev_entry->offset, 42245748Smckusick (vm_offset_t) 0, 42345748Smckusick (vm_size_t)(prev_entry->end 42445748Smckusick - prev_entry->start), 42545748Smckusick (vm_size_t)(end - prev_entry->end))) { 42645748Smckusick /* 42745748Smckusick * Coalesced the two objects - can extend 42845748Smckusick * the previous map entry to include the 42945748Smckusick * new range. 43045748Smckusick */ 43145748Smckusick map->size += (end - prev_entry->end); 43245748Smckusick prev_entry->end = end; 43345748Smckusick return(KERN_SUCCESS); 43445748Smckusick } 43545748Smckusick } 43645748Smckusick } 43745748Smckusick 43845748Smckusick /* 43945748Smckusick * Create a new entry 44045748Smckusick */ 44145748Smckusick 44245748Smckusick new_entry = vm_map_entry_create(map); 44345748Smckusick new_entry->start = start; 44445748Smckusick new_entry->end = end; 44545748Smckusick 44645748Smckusick new_entry->is_a_map = FALSE; 44745748Smckusick new_entry->is_sub_map = FALSE; 44845748Smckusick new_entry->object.vm_object = object; 44945748Smckusick new_entry->offset = offset; 45045748Smckusick 45145748Smckusick new_entry->copy_on_write = FALSE; 45245748Smckusick new_entry->needs_copy = FALSE; 45345748Smckusick 45445748Smckusick if (map->is_main_map) { 45545748Smckusick new_entry->inheritance = VM_INHERIT_DEFAULT; 45645748Smckusick new_entry->protection = VM_PROT_DEFAULT; 45745748Smckusick new_entry->max_protection = VM_PROT_DEFAULT; 45845748Smckusick new_entry->wired_count = 0; 45945748Smckusick } 46045748Smckusick 46145748Smckusick /* 46245748Smckusick * Insert the new entry into the list 46345748Smckusick */ 46445748Smckusick 46545748Smckusick vm_map_entry_link(map, prev_entry, new_entry); 46645748Smckusick map->size += new_entry->end - new_entry->start; 46745748Smckusick 46845748Smckusick /* 46945748Smckusick * Update the free space hint 47045748Smckusick */ 47145748Smckusick 47245748Smckusick if ((map->first_free == prev_entry) && (prev_entry->end >= new_entry->start)) 47345748Smckusick map->first_free = new_entry; 47445748Smckusick 47545748Smckusick return(KERN_SUCCESS); 47645748Smckusick } 47745748Smckusick 47845748Smckusick /* 47945748Smckusick * SAVE_HINT: 48045748Smckusick * 48145748Smckusick * Saves the specified entry as the hint for 48245748Smckusick * future lookups. Performs necessary interlocks. 48345748Smckusick */ 48445748Smckusick #define SAVE_HINT(map,value) \ 48545748Smckusick simple_lock(&(map)->hint_lock); \ 48645748Smckusick (map)->hint = (value); \ 48745748Smckusick simple_unlock(&(map)->hint_lock); 48845748Smckusick 48945748Smckusick /* 49045748Smckusick * vm_map_lookup_entry: [ internal use only ] 49145748Smckusick * 49245748Smckusick * Finds the map entry containing (or 49345748Smckusick * immediately preceding) the specified address 49445748Smckusick * in the given map; the entry is returned 49545748Smckusick * in the "entry" parameter. The boolean 49645748Smckusick * result indicates whether the address is 49745748Smckusick * actually contained in the map. 49845748Smckusick */ 49945748Smckusick boolean_t vm_map_lookup_entry(map, address, entry) 50045748Smckusick register vm_map_t map; 50145748Smckusick register vm_offset_t address; 50245748Smckusick vm_map_entry_t *entry; /* OUT */ 50345748Smckusick { 50445748Smckusick register vm_map_entry_t cur; 50545748Smckusick register vm_map_entry_t last; 50645748Smckusick 50745748Smckusick /* 50845748Smckusick * Start looking either from the head of the 50945748Smckusick * list, or from the hint. 51045748Smckusick */ 51145748Smckusick 51245748Smckusick simple_lock(&map->hint_lock); 51345748Smckusick cur = map->hint; 51445748Smckusick simple_unlock(&map->hint_lock); 51545748Smckusick 51645748Smckusick if (cur == &map->header) 51745748Smckusick cur = cur->next; 51845748Smckusick 51945748Smckusick if (address >= cur->start) { 52045748Smckusick /* 52145748Smckusick * Go from hint to end of list. 52245748Smckusick * 52345748Smckusick * But first, make a quick check to see if 52445748Smckusick * we are already looking at the entry we 52545748Smckusick * want (which is usually the case). 52645748Smckusick * Note also that we don't need to save the hint 52745748Smckusick * here... it is the same hint (unless we are 52845748Smckusick * at the header, in which case the hint didn't 52945748Smckusick * buy us anything anyway). 53045748Smckusick */ 53145748Smckusick last = &map->header; 53245748Smckusick if ((cur != last) && (cur->end > address)) { 53345748Smckusick *entry = cur; 53445748Smckusick return(TRUE); 53545748Smckusick } 53645748Smckusick } 53745748Smckusick else { 53845748Smckusick /* 53945748Smckusick * Go from start to hint, *inclusively* 54045748Smckusick */ 54145748Smckusick last = cur->next; 54245748Smckusick cur = map->header.next; 54345748Smckusick } 54445748Smckusick 54545748Smckusick /* 54645748Smckusick * Search linearly 54745748Smckusick */ 54845748Smckusick 54945748Smckusick while (cur != last) { 55045748Smckusick if (cur->end > address) { 55145748Smckusick if (address >= cur->start) { 55245748Smckusick /* 55345748Smckusick * Save this lookup for future 55445748Smckusick * hints, and return 55545748Smckusick */ 55645748Smckusick 55745748Smckusick *entry = cur; 55845748Smckusick SAVE_HINT(map, cur); 55945748Smckusick return(TRUE); 56045748Smckusick } 56145748Smckusick break; 56245748Smckusick } 56345748Smckusick cur = cur->next; 56445748Smckusick } 56545748Smckusick *entry = cur->prev; 56645748Smckusick SAVE_HINT(map, *entry); 56745748Smckusick return(FALSE); 56845748Smckusick } 56945748Smckusick 57045748Smckusick /* 571*52610Storek * Find sufficient space for `length' bytes in the given map, starting at 572*52610Storek * `start'. The map must be locked. Returns 0 on success, 1 on no space. 573*52610Storek */ 574*52610Storek int 575*52610Storek vm_map_findspace(map, start, length, addr) 576*52610Storek register vm_map_t map; 577*52610Storek register vm_offset_t start; 578*52610Storek vm_size_t length; 579*52610Storek vm_offset_t *addr; 580*52610Storek { 581*52610Storek register vm_map_entry_t entry, next; 582*52610Storek register vm_offset_t end; 583*52610Storek 584*52610Storek if (start < map->min_offset) 585*52610Storek start = map->min_offset; 586*52610Storek if (start > map->max_offset) 587*52610Storek return (1); 588*52610Storek 589*52610Storek /* 590*52610Storek * Look for the first possible address; if there's already 591*52610Storek * something at this address, we have to start after it. 592*52610Storek */ 593*52610Storek if (start == map->min_offset) { 594*52610Storek if ((entry = map->first_free) != &map->header) 595*52610Storek start = entry->end; 596*52610Storek } else { 597*52610Storek vm_map_entry_t tmp; 598*52610Storek if (vm_map_lookup_entry(map, start, &tmp)) 599*52610Storek start = tmp->end; 600*52610Storek entry = tmp; 601*52610Storek } 602*52610Storek 603*52610Storek /* 604*52610Storek * Look through the rest of the map, trying to fit a new region in 605*52610Storek * the gap between existing regions, or after the very last region. 606*52610Storek */ 607*52610Storek for (;; start = (entry = next)->end) { 608*52610Storek /* 609*52610Storek * Find the end of the proposed new region. Be sure we didn't 610*52610Storek * go beyond the end of the map, or wrap around the address; 611*52610Storek * if so, we lose. Otherwise, if this is the last entry, or 612*52610Storek * if the proposed new region fits before the next entry, we 613*52610Storek * win. 614*52610Storek */ 615*52610Storek end = start + length; 616*52610Storek if (end > map->max_offset || end < start) 617*52610Storek return (1); 618*52610Storek next = entry->next; 619*52610Storek if (next == &map->header || next->start >= end) 620*52610Storek break; 621*52610Storek } 622*52610Storek SAVE_HINT(map, entry); 623*52610Storek *addr = start; 624*52610Storek return (0); 625*52610Storek } 626*52610Storek 627*52610Storek /* 62845748Smckusick * vm_map_find finds an unallocated region in the target address 62945748Smckusick * map with the given length. The search is defined to be 63045748Smckusick * first-fit from the specified address; the region found is 63145748Smckusick * returned in the same parameter. 63245748Smckusick * 63345748Smckusick */ 63445748Smckusick vm_map_find(map, object, offset, addr, length, find_space) 63545748Smckusick vm_map_t map; 63645748Smckusick vm_object_t object; 63745748Smckusick vm_offset_t offset; 63845748Smckusick vm_offset_t *addr; /* IN/OUT */ 63945748Smckusick vm_size_t length; 64045748Smckusick boolean_t find_space; 64145748Smckusick { 64245748Smckusick register vm_offset_t start; 64345748Smckusick int result; 64445748Smckusick 64545748Smckusick start = *addr; 64645748Smckusick vm_map_lock(map); 64745748Smckusick if (find_space) { 648*52610Storek if (vm_map_findspace(map, start, length, addr)) { 64945748Smckusick vm_map_unlock(map); 65045748Smckusick return (KERN_NO_SPACE); 65145748Smckusick } 652*52610Storek start = *addr; 65345748Smckusick } 65445748Smckusick result = vm_map_insert(map, object, offset, start, start + length); 65545748Smckusick vm_map_unlock(map); 656*52610Storek return (result); 65745748Smckusick } 65845748Smckusick 65945748Smckusick /* 66045748Smckusick * vm_map_simplify_entry: [ internal use only ] 66145748Smckusick * 66245748Smckusick * Simplify the given map entry by: 66345748Smckusick * removing extra sharing maps 66445748Smckusick * [XXX maybe later] merging with a neighbor 66545748Smckusick */ 66645748Smckusick void vm_map_simplify_entry(map, entry) 66745748Smckusick vm_map_t map; 66845748Smckusick vm_map_entry_t entry; 66945748Smckusick { 67045748Smckusick #ifdef lint 67145748Smckusick map++; 67245748Smckusick #endif lint 67345748Smckusick 67445748Smckusick /* 67545748Smckusick * If this entry corresponds to a sharing map, then 67645748Smckusick * see if we can remove the level of indirection. 67745748Smckusick * If it's not a sharing map, then it points to 67845748Smckusick * a VM object, so see if we can merge with either 67945748Smckusick * of our neighbors. 68045748Smckusick */ 68145748Smckusick 68245748Smckusick if (entry->is_sub_map) 68345748Smckusick return; 68445748Smckusick if (entry->is_a_map) { 68545748Smckusick #if 0 68645748Smckusick vm_map_t my_share_map; 68745748Smckusick int count; 68845748Smckusick 68945748Smckusick my_share_map = entry->object.share_map; 69045748Smckusick simple_lock(&my_share_map->ref_lock); 69145748Smckusick count = my_share_map->ref_count; 69245748Smckusick simple_unlock(&my_share_map->ref_lock); 69345748Smckusick 69445748Smckusick if (count == 1) { 69545748Smckusick /* Can move the region from 69645748Smckusick * entry->start to entry->end (+ entry->offset) 69745748Smckusick * in my_share_map into place of entry. 69845748Smckusick * Later. 69945748Smckusick */ 70045748Smckusick } 70145748Smckusick #endif 0 70245748Smckusick } 70345748Smckusick else { 70445748Smckusick /* 70545748Smckusick * Try to merge with our neighbors. 70645748Smckusick * 70745748Smckusick * Conditions for merge are: 70845748Smckusick * 70945748Smckusick * 1. entries are adjacent. 71045748Smckusick * 2. both entries point to objects 71145748Smckusick * with null pagers. 71245748Smckusick * 71345748Smckusick * If a merge is possible, we replace the two 71445748Smckusick * entries with a single entry, then merge 71545748Smckusick * the two objects into a single object. 71645748Smckusick * 71745748Smckusick * Now, all that is left to do is write the 71845748Smckusick * code! 71945748Smckusick */ 72045748Smckusick } 72145748Smckusick } 72245748Smckusick 72345748Smckusick /* 72445748Smckusick * vm_map_clip_start: [ internal use only ] 72545748Smckusick * 72645748Smckusick * Asserts that the given entry begins at or after 72745748Smckusick * the specified address; if necessary, 72845748Smckusick * it splits the entry into two. 72945748Smckusick */ 73045748Smckusick #define vm_map_clip_start(map, entry, startaddr) \ 73145748Smckusick { \ 73245748Smckusick if (startaddr > entry->start) \ 73345748Smckusick _vm_map_clip_start(map, entry, startaddr); \ 73445748Smckusick } 73545748Smckusick 73645748Smckusick /* 73745748Smckusick * This routine is called only when it is known that 73845748Smckusick * the entry must be split. 73945748Smckusick */ 74045748Smckusick void _vm_map_clip_start(map, entry, start) 74145748Smckusick register vm_map_t map; 74245748Smckusick register vm_map_entry_t entry; 74345748Smckusick register vm_offset_t start; 74445748Smckusick { 74545748Smckusick register vm_map_entry_t new_entry; 74645748Smckusick 74745748Smckusick /* 74845748Smckusick * See if we can simplify this entry first 74945748Smckusick */ 75045748Smckusick 75145748Smckusick vm_map_simplify_entry(map, entry); 75245748Smckusick 75345748Smckusick /* 75445748Smckusick * Split off the front portion -- 75545748Smckusick * note that we must insert the new 75645748Smckusick * entry BEFORE this one, so that 75745748Smckusick * this entry has the specified starting 75845748Smckusick * address. 75945748Smckusick */ 76045748Smckusick 76145748Smckusick new_entry = vm_map_entry_create(map); 76245748Smckusick *new_entry = *entry; 76345748Smckusick 76445748Smckusick new_entry->end = start; 76545748Smckusick entry->offset += (start - entry->start); 76645748Smckusick entry->start = start; 76745748Smckusick 76845748Smckusick vm_map_entry_link(map, entry->prev, new_entry); 76945748Smckusick 77045748Smckusick if (entry->is_a_map || entry->is_sub_map) 77145748Smckusick vm_map_reference(new_entry->object.share_map); 77245748Smckusick else 77345748Smckusick vm_object_reference(new_entry->object.vm_object); 77445748Smckusick } 77545748Smckusick 77645748Smckusick /* 77745748Smckusick * vm_map_clip_end: [ internal use only ] 77845748Smckusick * 77945748Smckusick * Asserts that the given entry ends at or before 78045748Smckusick * the specified address; if necessary, 78145748Smckusick * it splits the entry into two. 78245748Smckusick */ 78345748Smckusick 78445748Smckusick void _vm_map_clip_end(); 78545748Smckusick #define vm_map_clip_end(map, entry, endaddr) \ 78645748Smckusick { \ 78745748Smckusick if (endaddr < entry->end) \ 78845748Smckusick _vm_map_clip_end(map, entry, endaddr); \ 78945748Smckusick } 79045748Smckusick 79145748Smckusick /* 79245748Smckusick * This routine is called only when it is known that 79345748Smckusick * the entry must be split. 79445748Smckusick */ 79545748Smckusick void _vm_map_clip_end(map, entry, end) 79645748Smckusick register vm_map_t map; 79745748Smckusick register vm_map_entry_t entry; 79845748Smckusick register vm_offset_t end; 79945748Smckusick { 80045748Smckusick register vm_map_entry_t new_entry; 80145748Smckusick 80245748Smckusick /* 80345748Smckusick * Create a new entry and insert it 80445748Smckusick * AFTER the specified entry 80545748Smckusick */ 80645748Smckusick 80745748Smckusick new_entry = vm_map_entry_create(map); 80845748Smckusick *new_entry = *entry; 80945748Smckusick 81045748Smckusick new_entry->start = entry->end = end; 81145748Smckusick new_entry->offset += (end - entry->start); 81245748Smckusick 81345748Smckusick vm_map_entry_link(map, entry, new_entry); 81445748Smckusick 81545748Smckusick if (entry->is_a_map || entry->is_sub_map) 81645748Smckusick vm_map_reference(new_entry->object.share_map); 81745748Smckusick else 81845748Smckusick vm_object_reference(new_entry->object.vm_object); 81945748Smckusick } 82045748Smckusick 82145748Smckusick /* 82245748Smckusick * VM_MAP_RANGE_CHECK: [ internal use only ] 82345748Smckusick * 82445748Smckusick * Asserts that the starting and ending region 82545748Smckusick * addresses fall within the valid range of the map. 82645748Smckusick */ 82745748Smckusick #define VM_MAP_RANGE_CHECK(map, start, end) \ 82845748Smckusick { \ 82945748Smckusick if (start < vm_map_min(map)) \ 83045748Smckusick start = vm_map_min(map); \ 83145748Smckusick if (end > vm_map_max(map)) \ 83245748Smckusick end = vm_map_max(map); \ 83345748Smckusick if (start > end) \ 83445748Smckusick start = end; \ 83545748Smckusick } 83645748Smckusick 83745748Smckusick /* 83845748Smckusick * vm_map_submap: [ kernel use only ] 83945748Smckusick * 84045748Smckusick * Mark the given range as handled by a subordinate map. 84145748Smckusick * 84245748Smckusick * This range must have been created with vm_map_find, 84345748Smckusick * and no other operations may have been performed on this 84445748Smckusick * range prior to calling vm_map_submap. 84545748Smckusick * 84645748Smckusick * Only a limited number of operations can be performed 84745748Smckusick * within this rage after calling vm_map_submap: 84845748Smckusick * vm_fault 84945748Smckusick * [Don't try vm_map_copy!] 85045748Smckusick * 85145748Smckusick * To remove a submapping, one must first remove the 85245748Smckusick * range from the superior map, and then destroy the 85345748Smckusick * submap (if desired). [Better yet, don't try it.] 85445748Smckusick */ 85545748Smckusick vm_map_submap(map, start, end, submap) 85645748Smckusick register vm_map_t map; 85745748Smckusick register vm_offset_t start; 85845748Smckusick register vm_offset_t end; 85945748Smckusick vm_map_t submap; 86045748Smckusick { 86145748Smckusick vm_map_entry_t entry; 86245748Smckusick register int result = KERN_INVALID_ARGUMENT; 86345748Smckusick 86445748Smckusick vm_map_lock(map); 86545748Smckusick 86645748Smckusick VM_MAP_RANGE_CHECK(map, start, end); 86745748Smckusick 86845748Smckusick if (vm_map_lookup_entry(map, start, &entry)) { 86945748Smckusick vm_map_clip_start(map, entry, start); 87045748Smckusick } 87145748Smckusick else 87245748Smckusick entry = entry->next; 87345748Smckusick 87445748Smckusick vm_map_clip_end(map, entry, end); 87545748Smckusick 87645748Smckusick if ((entry->start == start) && (entry->end == end) && 87745748Smckusick (!entry->is_a_map) && 87848383Skarels (entry->object.vm_object == NULL) && 87945748Smckusick (!entry->copy_on_write)) { 88045748Smckusick entry->is_a_map = FALSE; 88145748Smckusick entry->is_sub_map = TRUE; 88245748Smckusick vm_map_reference(entry->object.sub_map = submap); 88345748Smckusick result = KERN_SUCCESS; 88445748Smckusick } 88545748Smckusick vm_map_unlock(map); 88645748Smckusick 88745748Smckusick return(result); 88845748Smckusick } 88945748Smckusick 89045748Smckusick /* 89145748Smckusick * vm_map_protect: 89245748Smckusick * 89345748Smckusick * Sets the protection of the specified address 89445748Smckusick * region in the target map. If "set_max" is 89545748Smckusick * specified, the maximum protection is to be set; 89645748Smckusick * otherwise, only the current protection is affected. 89745748Smckusick */ 89845748Smckusick vm_map_protect(map, start, end, new_prot, set_max) 89945748Smckusick register vm_map_t map; 90045748Smckusick register vm_offset_t start; 90145748Smckusick register vm_offset_t end; 90245748Smckusick register vm_prot_t new_prot; 90345748Smckusick register boolean_t set_max; 90445748Smckusick { 90545748Smckusick register vm_map_entry_t current; 90645748Smckusick vm_map_entry_t entry; 90745748Smckusick 90845748Smckusick vm_map_lock(map); 90945748Smckusick 91045748Smckusick VM_MAP_RANGE_CHECK(map, start, end); 91145748Smckusick 91245748Smckusick if (vm_map_lookup_entry(map, start, &entry)) { 91345748Smckusick vm_map_clip_start(map, entry, start); 91445748Smckusick } 91545748Smckusick else 91645748Smckusick entry = entry->next; 91745748Smckusick 91845748Smckusick /* 91945748Smckusick * Make a first pass to check for protection 92045748Smckusick * violations. 92145748Smckusick */ 92245748Smckusick 92345748Smckusick current = entry; 92445748Smckusick while ((current != &map->header) && (current->start < end)) { 92545748Smckusick if (current->is_sub_map) 92645748Smckusick return(KERN_INVALID_ARGUMENT); 92745748Smckusick if ((new_prot & current->max_protection) != new_prot) { 92845748Smckusick vm_map_unlock(map); 92945748Smckusick return(KERN_PROTECTION_FAILURE); 93045748Smckusick } 93145748Smckusick 93245748Smckusick current = current->next; 93345748Smckusick } 93445748Smckusick 93545748Smckusick /* 93645748Smckusick * Go back and fix up protections. 93745748Smckusick * [Note that clipping is not necessary the second time.] 93845748Smckusick */ 93945748Smckusick 94045748Smckusick current = entry; 94145748Smckusick 94245748Smckusick while ((current != &map->header) && (current->start < end)) { 94345748Smckusick vm_prot_t old_prot; 94445748Smckusick 94545748Smckusick vm_map_clip_end(map, current, end); 94645748Smckusick 94745748Smckusick old_prot = current->protection; 94845748Smckusick if (set_max) 94945748Smckusick current->protection = 95045748Smckusick (current->max_protection = new_prot) & 95145748Smckusick old_prot; 95245748Smckusick else 95345748Smckusick current->protection = new_prot; 95445748Smckusick 95545748Smckusick /* 95645748Smckusick * Update physical map if necessary. 95745748Smckusick * Worry about copy-on-write here -- CHECK THIS XXX 95845748Smckusick */ 95945748Smckusick 96045748Smckusick if (current->protection != old_prot) { 96145748Smckusick 96245748Smckusick #define MASK(entry) ((entry)->copy_on_write ? ~VM_PROT_WRITE : \ 96345748Smckusick VM_PROT_ALL) 96445748Smckusick #define max(a,b) ((a) > (b) ? (a) : (b)) 96545748Smckusick 96645748Smckusick if (current->is_a_map) { 96745748Smckusick vm_map_entry_t share_entry; 96845748Smckusick vm_offset_t share_end; 96945748Smckusick 97045748Smckusick vm_map_lock(current->object.share_map); 97145748Smckusick (void) vm_map_lookup_entry( 97245748Smckusick current->object.share_map, 97345748Smckusick current->offset, 97445748Smckusick &share_entry); 97545748Smckusick share_end = current->offset + 97645748Smckusick (current->end - current->start); 97745748Smckusick while ((share_entry != 97845748Smckusick ¤t->object.share_map->header) && 97945748Smckusick (share_entry->start < share_end)) { 98045748Smckusick 98145748Smckusick pmap_protect(map->pmap, 98245748Smckusick (max(share_entry->start, 98345748Smckusick current->offset) - 98445748Smckusick current->offset + 98545748Smckusick current->start), 98645748Smckusick min(share_entry->end, 98745748Smckusick share_end) - 98845748Smckusick current->offset + 98945748Smckusick current->start, 99045748Smckusick current->protection & 99145748Smckusick MASK(share_entry)); 99245748Smckusick 99345748Smckusick share_entry = share_entry->next; 99445748Smckusick } 99545748Smckusick vm_map_unlock(current->object.share_map); 99645748Smckusick } 99745748Smckusick else 99845748Smckusick pmap_protect(map->pmap, current->start, 99945748Smckusick current->end, 100045748Smckusick current->protection & MASK(entry)); 100145748Smckusick #undef max 100245748Smckusick #undef MASK 100345748Smckusick } 100445748Smckusick current = current->next; 100545748Smckusick } 100645748Smckusick 100745748Smckusick vm_map_unlock(map); 100845748Smckusick return(KERN_SUCCESS); 100945748Smckusick } 101045748Smckusick 101145748Smckusick /* 101245748Smckusick * vm_map_inherit: 101345748Smckusick * 101445748Smckusick * Sets the inheritance of the specified address 101545748Smckusick * range in the target map. Inheritance 101645748Smckusick * affects how the map will be shared with 101745748Smckusick * child maps at the time of vm_map_fork. 101845748Smckusick */ 101945748Smckusick vm_map_inherit(map, start, end, new_inheritance) 102045748Smckusick register vm_map_t map; 102145748Smckusick register vm_offset_t start; 102245748Smckusick register vm_offset_t end; 102345748Smckusick register vm_inherit_t new_inheritance; 102445748Smckusick { 102545748Smckusick register vm_map_entry_t entry; 102645748Smckusick vm_map_entry_t temp_entry; 102745748Smckusick 102845748Smckusick switch (new_inheritance) { 102945748Smckusick case VM_INHERIT_NONE: 103045748Smckusick case VM_INHERIT_COPY: 103145748Smckusick case VM_INHERIT_SHARE: 103245748Smckusick break; 103345748Smckusick default: 103445748Smckusick return(KERN_INVALID_ARGUMENT); 103545748Smckusick } 103645748Smckusick 103745748Smckusick vm_map_lock(map); 103845748Smckusick 103945748Smckusick VM_MAP_RANGE_CHECK(map, start, end); 104045748Smckusick 104145748Smckusick if (vm_map_lookup_entry(map, start, &temp_entry)) { 104245748Smckusick entry = temp_entry; 104345748Smckusick vm_map_clip_start(map, entry, start); 104445748Smckusick } 104545748Smckusick else 104645748Smckusick entry = temp_entry->next; 104745748Smckusick 104845748Smckusick while ((entry != &map->header) && (entry->start < end)) { 104945748Smckusick vm_map_clip_end(map, entry, end); 105045748Smckusick 105145748Smckusick entry->inheritance = new_inheritance; 105245748Smckusick 105345748Smckusick entry = entry->next; 105445748Smckusick } 105545748Smckusick 105645748Smckusick vm_map_unlock(map); 105745748Smckusick return(KERN_SUCCESS); 105845748Smckusick } 105945748Smckusick 106045748Smckusick /* 106145748Smckusick * vm_map_pageable: 106245748Smckusick * 106345748Smckusick * Sets the pageability of the specified address 106445748Smckusick * range in the target map. Regions specified 106545748Smckusick * as not pageable require locked-down physical 106645748Smckusick * memory and physical page maps. 106745748Smckusick * 106845748Smckusick * The map must not be locked, but a reference 106945748Smckusick * must remain to the map throughout the call. 107045748Smckusick */ 107145748Smckusick vm_map_pageable(map, start, end, new_pageable) 107245748Smckusick register vm_map_t map; 107345748Smckusick register vm_offset_t start; 107445748Smckusick register vm_offset_t end; 107545748Smckusick register boolean_t new_pageable; 107645748Smckusick { 107745748Smckusick register vm_map_entry_t entry; 107845748Smckusick vm_map_entry_t temp_entry; 107945748Smckusick 108045748Smckusick vm_map_lock(map); 108145748Smckusick 108245748Smckusick VM_MAP_RANGE_CHECK(map, start, end); 108345748Smckusick 108445748Smckusick /* 108545748Smckusick * Only one pageability change may take place at one 108645748Smckusick * time, since vm_fault assumes it will be called 108745748Smckusick * only once for each wiring/unwiring. Therefore, we 108845748Smckusick * have to make sure we're actually changing the pageability 108945748Smckusick * for the entire region. We do so before making any changes. 109045748Smckusick */ 109145748Smckusick 109245748Smckusick if (vm_map_lookup_entry(map, start, &temp_entry)) { 109345748Smckusick entry = temp_entry; 109445748Smckusick vm_map_clip_start(map, entry, start); 109545748Smckusick } 109645748Smckusick else 109745748Smckusick entry = temp_entry->next; 109845748Smckusick temp_entry = entry; 109945748Smckusick 110045748Smckusick /* 110145748Smckusick * Actions are rather different for wiring and unwiring, 110245748Smckusick * so we have two separate cases. 110345748Smckusick */ 110445748Smckusick 110545748Smckusick if (new_pageable) { 110645748Smckusick 110745748Smckusick /* 110845748Smckusick * Unwiring. First ensure that the range to be 110945748Smckusick * unwired is really wired down. 111045748Smckusick */ 111145748Smckusick while ((entry != &map->header) && (entry->start < end)) { 111245748Smckusick 111345748Smckusick if (entry->wired_count == 0) { 111445748Smckusick vm_map_unlock(map); 111545748Smckusick return(KERN_INVALID_ARGUMENT); 111645748Smckusick } 111745748Smckusick entry = entry->next; 111845748Smckusick } 111945748Smckusick 112045748Smckusick /* 112145748Smckusick * Now decrement the wiring count for each region. 112245748Smckusick * If a region becomes completely unwired, 112345748Smckusick * unwire its physical pages and mappings. 112445748Smckusick */ 112545748Smckusick lock_set_recursive(&map->lock); 112645748Smckusick 112745748Smckusick entry = temp_entry; 112845748Smckusick while ((entry != &map->header) && (entry->start < end)) { 112945748Smckusick vm_map_clip_end(map, entry, end); 113045748Smckusick 113145748Smckusick entry->wired_count--; 113245748Smckusick if (entry->wired_count == 0) 113345748Smckusick vm_fault_unwire(map, entry->start, entry->end); 113445748Smckusick 113545748Smckusick entry = entry->next; 113645748Smckusick } 113745748Smckusick lock_clear_recursive(&map->lock); 113845748Smckusick } 113945748Smckusick 114045748Smckusick else { 114145748Smckusick /* 114245748Smckusick * Wiring. We must do this in two passes: 114345748Smckusick * 114445748Smckusick * 1. Holding the write lock, we increment the 114545748Smckusick * wiring count. For any area that is not already 114645748Smckusick * wired, we create any shadow objects that need 114745748Smckusick * to be created. 114845748Smckusick * 114945748Smckusick * 2. We downgrade to a read lock, and call 115045748Smckusick * vm_fault_wire to fault in the pages for any 115145748Smckusick * newly wired area (wired_count is 1). 115245748Smckusick * 115345748Smckusick * Downgrading to a read lock for vm_fault_wire avoids 115445748Smckusick * a possible deadlock with another thread that may have 115545748Smckusick * faulted on one of the pages to be wired (it would mark 115645748Smckusick * the page busy, blocking us, then in turn block on the 115745748Smckusick * map lock that we hold). Because of problems in the 115845748Smckusick * recursive lock package, we cannot upgrade to a write 115945748Smckusick * lock in vm_map_lookup. Thus, any actions that require 116045748Smckusick * the write lock must be done beforehand. Because we 116145748Smckusick * keep the read lock on the map, the copy-on-write status 116245748Smckusick * of the entries we modify here cannot change. 116345748Smckusick */ 116445748Smckusick 116545748Smckusick /* 116645748Smckusick * Pass 1. 116745748Smckusick */ 116845748Smckusick entry = temp_entry; 116945748Smckusick while ((entry != &map->header) && (entry->start < end)) { 117045748Smckusick vm_map_clip_end(map, entry, end); 117145748Smckusick 117245748Smckusick entry->wired_count++; 117345748Smckusick if (entry->wired_count == 1) { 117445748Smckusick 117545748Smckusick /* 117645748Smckusick * Perform actions of vm_map_lookup that need 117745748Smckusick * the write lock on the map: create a shadow 117845748Smckusick * object for a copy-on-write region, or an 117945748Smckusick * object for a zero-fill region. 118045748Smckusick * 118145748Smckusick * We don't have to do this for entries that 118245748Smckusick * point to sharing maps, because we won't hold 118345748Smckusick * the lock on the sharing map. 118445748Smckusick */ 118545748Smckusick if (!entry->is_a_map) { 118645748Smckusick if (entry->needs_copy && 118745748Smckusick ((entry->protection & VM_PROT_WRITE) != 0)) { 118845748Smckusick 118945748Smckusick vm_object_shadow(&entry->object.vm_object, 119045748Smckusick &entry->offset, 119145748Smckusick (vm_size_t)(entry->end 119245748Smckusick - entry->start)); 119345748Smckusick entry->needs_copy = FALSE; 119445748Smckusick } 119548383Skarels else if (entry->object.vm_object == NULL) { 119645748Smckusick entry->object.vm_object = 119745748Smckusick vm_object_allocate((vm_size_t)(entry->end 119845748Smckusick - entry->start)); 119945748Smckusick entry->offset = (vm_offset_t)0; 120045748Smckusick } 120145748Smckusick } 120245748Smckusick } 120345748Smckusick 120445748Smckusick entry = entry->next; 120545748Smckusick } 120645748Smckusick 120745748Smckusick /* 120845748Smckusick * Pass 2. 120945748Smckusick */ 121045748Smckusick 121145748Smckusick /* 121245748Smckusick * HACK HACK HACK HACK 121345748Smckusick * 121445748Smckusick * If we are wiring in the kernel map or a submap of it, 121545748Smckusick * unlock the map to avoid deadlocks. We trust that the 121645748Smckusick * kernel threads are well-behaved, and therefore will 121745748Smckusick * not do anything destructive to this region of the map 121845748Smckusick * while we have it unlocked. We cannot trust user threads 121945748Smckusick * to do the same. 122045748Smckusick * 122145748Smckusick * HACK HACK HACK HACK 122245748Smckusick */ 122345748Smckusick if (vm_map_pmap(map) == kernel_pmap) { 122445748Smckusick vm_map_unlock(map); /* trust me ... */ 122545748Smckusick } 122645748Smckusick else { 122745748Smckusick lock_set_recursive(&map->lock); 122845748Smckusick lock_write_to_read(&map->lock); 122945748Smckusick } 123045748Smckusick 123145748Smckusick entry = temp_entry; 123245748Smckusick while (entry != &map->header && entry->start < end) { 123345748Smckusick if (entry->wired_count == 1) { 123445748Smckusick vm_fault_wire(map, entry->start, entry->end); 123545748Smckusick } 123645748Smckusick entry = entry->next; 123745748Smckusick } 123845748Smckusick 123945748Smckusick if (vm_map_pmap(map) == kernel_pmap) { 124045748Smckusick vm_map_lock(map); 124145748Smckusick } 124245748Smckusick else { 124345748Smckusick lock_clear_recursive(&map->lock); 124445748Smckusick } 124545748Smckusick } 124645748Smckusick 124745748Smckusick vm_map_unlock(map); 124845748Smckusick 124945748Smckusick return(KERN_SUCCESS); 125045748Smckusick } 125145748Smckusick 125245748Smckusick /* 125345748Smckusick * vm_map_entry_unwire: [ internal use only ] 125445748Smckusick * 125545748Smckusick * Make the region specified by this entry pageable. 125645748Smckusick * 125745748Smckusick * The map in question should be locked. 125845748Smckusick * [This is the reason for this routine's existence.] 125945748Smckusick */ 126045748Smckusick void vm_map_entry_unwire(map, entry) 126145748Smckusick vm_map_t map; 126245748Smckusick register vm_map_entry_t entry; 126345748Smckusick { 126445748Smckusick vm_fault_unwire(map, entry->start, entry->end); 126545748Smckusick entry->wired_count = 0; 126645748Smckusick } 126745748Smckusick 126845748Smckusick /* 126945748Smckusick * vm_map_entry_delete: [ internal use only ] 127045748Smckusick * 127145748Smckusick * Deallocate the given entry from the target map. 127245748Smckusick */ 127345748Smckusick void vm_map_entry_delete(map, entry) 127445748Smckusick register vm_map_t map; 127545748Smckusick register vm_map_entry_t entry; 127645748Smckusick { 127745748Smckusick if (entry->wired_count != 0) 127845748Smckusick vm_map_entry_unwire(map, entry); 127945748Smckusick 128045748Smckusick vm_map_entry_unlink(map, entry); 128145748Smckusick map->size -= entry->end - entry->start; 128245748Smckusick 128345748Smckusick if (entry->is_a_map || entry->is_sub_map) 128445748Smckusick vm_map_deallocate(entry->object.share_map); 128545748Smckusick else 128645748Smckusick vm_object_deallocate(entry->object.vm_object); 128745748Smckusick 128845748Smckusick vm_map_entry_dispose(map, entry); 128945748Smckusick } 129045748Smckusick 129145748Smckusick /* 129245748Smckusick * vm_map_delete: [ internal use only ] 129345748Smckusick * 129445748Smckusick * Deallocates the given address range from the target 129545748Smckusick * map. 129645748Smckusick * 129745748Smckusick * When called with a sharing map, removes pages from 129845748Smckusick * that region from all physical maps. 129945748Smckusick */ 130045748Smckusick vm_map_delete(map, start, end) 130145748Smckusick register vm_map_t map; 130245748Smckusick vm_offset_t start; 130345748Smckusick register vm_offset_t end; 130445748Smckusick { 130545748Smckusick register vm_map_entry_t entry; 130645748Smckusick vm_map_entry_t first_entry; 130745748Smckusick 130845748Smckusick /* 130945748Smckusick * Find the start of the region, and clip it 131045748Smckusick */ 131145748Smckusick 131245748Smckusick if (!vm_map_lookup_entry(map, start, &first_entry)) 131345748Smckusick entry = first_entry->next; 131445748Smckusick else { 131545748Smckusick entry = first_entry; 131645748Smckusick vm_map_clip_start(map, entry, start); 131745748Smckusick 131845748Smckusick /* 131945748Smckusick * Fix the lookup hint now, rather than each 132045748Smckusick * time though the loop. 132145748Smckusick */ 132245748Smckusick 132345748Smckusick SAVE_HINT(map, entry->prev); 132445748Smckusick } 132545748Smckusick 132645748Smckusick /* 132745748Smckusick * Save the free space hint 132845748Smckusick */ 132945748Smckusick 133045748Smckusick if (map->first_free->start >= start) 133145748Smckusick map->first_free = entry->prev; 133245748Smckusick 133345748Smckusick /* 133445748Smckusick * Step through all entries in this region 133545748Smckusick */ 133645748Smckusick 133745748Smckusick while ((entry != &map->header) && (entry->start < end)) { 133845748Smckusick vm_map_entry_t next; 133945748Smckusick register vm_offset_t s, e; 134045748Smckusick register vm_object_t object; 134145748Smckusick 134245748Smckusick vm_map_clip_end(map, entry, end); 134345748Smckusick 134445748Smckusick next = entry->next; 134545748Smckusick s = entry->start; 134645748Smckusick e = entry->end; 134745748Smckusick 134845748Smckusick /* 134945748Smckusick * Unwire before removing addresses from the pmap; 135045748Smckusick * otherwise, unwiring will put the entries back in 135145748Smckusick * the pmap. 135245748Smckusick */ 135345748Smckusick 135445748Smckusick object = entry->object.vm_object; 135545748Smckusick if (entry->wired_count != 0) 135645748Smckusick vm_map_entry_unwire(map, entry); 135745748Smckusick 135845748Smckusick /* 135945748Smckusick * If this is a sharing map, we must remove 136045748Smckusick * *all* references to this data, since we can't 136145748Smckusick * find all of the physical maps which are sharing 136245748Smckusick * it. 136345748Smckusick */ 136445748Smckusick 136545748Smckusick if (object == kernel_object || object == kmem_object) 136645748Smckusick vm_object_page_remove(object, entry->offset, 136745748Smckusick entry->offset + (e - s)); 136845748Smckusick else if (!map->is_main_map) 136945748Smckusick vm_object_pmap_remove(object, 137045748Smckusick entry->offset, 137145748Smckusick entry->offset + (e - s)); 137245748Smckusick else 137345748Smckusick pmap_remove(map->pmap, s, e); 137445748Smckusick 137545748Smckusick /* 137645748Smckusick * Delete the entry (which may delete the object) 137745748Smckusick * only after removing all pmap entries pointing 137845748Smckusick * to its pages. (Otherwise, its page frames may 137945748Smckusick * be reallocated, and any modify bits will be 138045748Smckusick * set in the wrong object!) 138145748Smckusick */ 138245748Smckusick 138345748Smckusick vm_map_entry_delete(map, entry); 138445748Smckusick entry = next; 138545748Smckusick } 138645748Smckusick return(KERN_SUCCESS); 138745748Smckusick } 138845748Smckusick 138945748Smckusick /* 139045748Smckusick * vm_map_remove: 139145748Smckusick * 139245748Smckusick * Remove the given address range from the target map. 139345748Smckusick * This is the exported form of vm_map_delete. 139445748Smckusick */ 139545748Smckusick vm_map_remove(map, start, end) 139645748Smckusick register vm_map_t map; 139745748Smckusick register vm_offset_t start; 139845748Smckusick register vm_offset_t end; 139945748Smckusick { 140045748Smckusick register int result; 140145748Smckusick 140245748Smckusick vm_map_lock(map); 140345748Smckusick VM_MAP_RANGE_CHECK(map, start, end); 140445748Smckusick result = vm_map_delete(map, start, end); 140545748Smckusick vm_map_unlock(map); 140645748Smckusick 140745748Smckusick return(result); 140845748Smckusick } 140945748Smckusick 141045748Smckusick /* 141145748Smckusick * vm_map_check_protection: 141245748Smckusick * 141345748Smckusick * Assert that the target map allows the specified 141445748Smckusick * privilege on the entire address region given. 141545748Smckusick * The entire region must be allocated. 141645748Smckusick */ 141745748Smckusick boolean_t vm_map_check_protection(map, start, end, protection) 141845748Smckusick register vm_map_t map; 141945748Smckusick register vm_offset_t start; 142045748Smckusick register vm_offset_t end; 142145748Smckusick register vm_prot_t protection; 142245748Smckusick { 142345748Smckusick register vm_map_entry_t entry; 142445748Smckusick vm_map_entry_t tmp_entry; 142545748Smckusick 142645748Smckusick if (!vm_map_lookup_entry(map, start, &tmp_entry)) { 142745748Smckusick return(FALSE); 142845748Smckusick } 142945748Smckusick 143045748Smckusick entry = tmp_entry; 143145748Smckusick 143245748Smckusick while (start < end) { 143345748Smckusick if (entry == &map->header) { 143445748Smckusick return(FALSE); 143545748Smckusick } 143645748Smckusick 143745748Smckusick /* 143845748Smckusick * No holes allowed! 143945748Smckusick */ 144045748Smckusick 144145748Smckusick if (start < entry->start) { 144245748Smckusick return(FALSE); 144345748Smckusick } 144445748Smckusick 144545748Smckusick /* 144645748Smckusick * Check protection associated with entry. 144745748Smckusick */ 144845748Smckusick 144945748Smckusick if ((entry->protection & protection) != protection) { 145045748Smckusick return(FALSE); 145145748Smckusick } 145245748Smckusick 145345748Smckusick /* go to next entry */ 145445748Smckusick 145545748Smckusick start = entry->end; 145645748Smckusick entry = entry->next; 145745748Smckusick } 145845748Smckusick return(TRUE); 145945748Smckusick } 146045748Smckusick 146145748Smckusick /* 146245748Smckusick * vm_map_copy_entry: 146345748Smckusick * 146445748Smckusick * Copies the contents of the source entry to the destination 146545748Smckusick * entry. The entries *must* be aligned properly. 146645748Smckusick */ 146745748Smckusick void vm_map_copy_entry(src_map, dst_map, src_entry, dst_entry) 146845748Smckusick vm_map_t src_map, dst_map; 146945748Smckusick register vm_map_entry_t src_entry, dst_entry; 147045748Smckusick { 147145748Smckusick vm_object_t temp_object; 147245748Smckusick 147345748Smckusick if (src_entry->is_sub_map || dst_entry->is_sub_map) 147445748Smckusick return; 147545748Smckusick 147648383Skarels if (dst_entry->object.vm_object != NULL && 147750919Smckusick (dst_entry->object.vm_object->flags & OBJ_INTERNAL) == 0) 147845748Smckusick printf("vm_map_copy_entry: copying over permanent data!\n"); 147945748Smckusick 148045748Smckusick /* 148145748Smckusick * If our destination map was wired down, 148245748Smckusick * unwire it now. 148345748Smckusick */ 148445748Smckusick 148545748Smckusick if (dst_entry->wired_count != 0) 148645748Smckusick vm_map_entry_unwire(dst_map, dst_entry); 148745748Smckusick 148845748Smckusick /* 148945748Smckusick * If we're dealing with a sharing map, we 149045748Smckusick * must remove the destination pages from 149145748Smckusick * all maps (since we cannot know which maps 149245748Smckusick * this sharing map belongs in). 149345748Smckusick */ 149445748Smckusick 149545748Smckusick if (dst_map->is_main_map) 149645748Smckusick pmap_remove(dst_map->pmap, dst_entry->start, dst_entry->end); 149745748Smckusick else 149845748Smckusick vm_object_pmap_remove(dst_entry->object.vm_object, 149945748Smckusick dst_entry->offset, 150045748Smckusick dst_entry->offset + 150145748Smckusick (dst_entry->end - dst_entry->start)); 150245748Smckusick 150345748Smckusick if (src_entry->wired_count == 0) { 150445748Smckusick 150545748Smckusick boolean_t src_needs_copy; 150645748Smckusick 150745748Smckusick /* 150845748Smckusick * If the source entry is marked needs_copy, 150945748Smckusick * it is already write-protected. 151045748Smckusick */ 151145748Smckusick if (!src_entry->needs_copy) { 151245748Smckusick 151345748Smckusick boolean_t su; 151445748Smckusick 151545748Smckusick /* 151645748Smckusick * If the source entry has only one mapping, 151745748Smckusick * we can just protect the virtual address 151845748Smckusick * range. 151945748Smckusick */ 152045748Smckusick if (!(su = src_map->is_main_map)) { 152145748Smckusick simple_lock(&src_map->ref_lock); 152245748Smckusick su = (src_map->ref_count == 1); 152345748Smckusick simple_unlock(&src_map->ref_lock); 152445748Smckusick } 152545748Smckusick 152645748Smckusick if (su) { 152745748Smckusick pmap_protect(src_map->pmap, 152845748Smckusick src_entry->start, 152945748Smckusick src_entry->end, 153045748Smckusick src_entry->protection & ~VM_PROT_WRITE); 153145748Smckusick } 153245748Smckusick else { 153345748Smckusick vm_object_pmap_copy(src_entry->object.vm_object, 153445748Smckusick src_entry->offset, 153545748Smckusick src_entry->offset + (src_entry->end 153645748Smckusick -src_entry->start)); 153745748Smckusick } 153845748Smckusick } 153945748Smckusick 154045748Smckusick /* 154145748Smckusick * Make a copy of the object. 154245748Smckusick */ 154345748Smckusick temp_object = dst_entry->object.vm_object; 154445748Smckusick vm_object_copy(src_entry->object.vm_object, 154545748Smckusick src_entry->offset, 154645748Smckusick (vm_size_t)(src_entry->end - 154745748Smckusick src_entry->start), 154845748Smckusick &dst_entry->object.vm_object, 154945748Smckusick &dst_entry->offset, 155045748Smckusick &src_needs_copy); 155145748Smckusick /* 155245748Smckusick * If we didn't get a copy-object now, mark the 155345748Smckusick * source map entry so that a shadow will be created 155445748Smckusick * to hold its changed pages. 155545748Smckusick */ 155645748Smckusick if (src_needs_copy) 155745748Smckusick src_entry->needs_copy = TRUE; 155845748Smckusick 155945748Smckusick /* 156045748Smckusick * The destination always needs to have a shadow 156145748Smckusick * created. 156245748Smckusick */ 156345748Smckusick dst_entry->needs_copy = TRUE; 156445748Smckusick 156545748Smckusick /* 156645748Smckusick * Mark the entries copy-on-write, so that write-enabling 156745748Smckusick * the entry won't make copy-on-write pages writable. 156845748Smckusick */ 156945748Smckusick src_entry->copy_on_write = TRUE; 157045748Smckusick dst_entry->copy_on_write = TRUE; 157145748Smckusick /* 157245748Smckusick * Get rid of the old object. 157345748Smckusick */ 157445748Smckusick vm_object_deallocate(temp_object); 157545748Smckusick 157645748Smckusick pmap_copy(dst_map->pmap, src_map->pmap, dst_entry->start, 157745748Smckusick dst_entry->end - dst_entry->start, src_entry->start); 157845748Smckusick } 157945748Smckusick else { 158045748Smckusick /* 158145748Smckusick * Of course, wired down pages can't be set copy-on-write. 158245748Smckusick * Cause wired pages to be copied into the new 158345748Smckusick * map by simulating faults (the new pages are 158445748Smckusick * pageable) 158545748Smckusick */ 158645748Smckusick vm_fault_copy_entry(dst_map, src_map, dst_entry, src_entry); 158745748Smckusick } 158845748Smckusick } 158945748Smckusick 159045748Smckusick /* 159145748Smckusick * vm_map_copy: 159245748Smckusick * 159345748Smckusick * Perform a virtual memory copy from the source 159445748Smckusick * address map/range to the destination map/range. 159545748Smckusick * 159645748Smckusick * If src_destroy or dst_alloc is requested, 159745748Smckusick * the source and destination regions should be 159845748Smckusick * disjoint, not only in the top-level map, but 159945748Smckusick * in the sharing maps as well. [The best way 160045748Smckusick * to guarantee this is to use a new intermediate 160145748Smckusick * map to make copies. This also reduces map 160245748Smckusick * fragmentation.] 160345748Smckusick */ 160445748Smckusick vm_map_copy(dst_map, src_map, 160545748Smckusick dst_addr, len, src_addr, 160645748Smckusick dst_alloc, src_destroy) 160745748Smckusick vm_map_t dst_map; 160845748Smckusick vm_map_t src_map; 160945748Smckusick vm_offset_t dst_addr; 161045748Smckusick vm_size_t len; 161145748Smckusick vm_offset_t src_addr; 161245748Smckusick boolean_t dst_alloc; 161345748Smckusick boolean_t src_destroy; 161445748Smckusick { 161545748Smckusick register 161645748Smckusick vm_map_entry_t src_entry; 161745748Smckusick register 161845748Smckusick vm_map_entry_t dst_entry; 161945748Smckusick vm_map_entry_t tmp_entry; 162045748Smckusick vm_offset_t src_start; 162145748Smckusick vm_offset_t src_end; 162245748Smckusick vm_offset_t dst_start; 162345748Smckusick vm_offset_t dst_end; 162445748Smckusick vm_offset_t src_clip; 162545748Smckusick vm_offset_t dst_clip; 162645748Smckusick int result; 162745748Smckusick boolean_t old_src_destroy; 162845748Smckusick 162945748Smckusick /* 163045748Smckusick * XXX While we figure out why src_destroy screws up, 163145748Smckusick * we'll do it by explicitly vm_map_delete'ing at the end. 163245748Smckusick */ 163345748Smckusick 163445748Smckusick old_src_destroy = src_destroy; 163545748Smckusick src_destroy = FALSE; 163645748Smckusick 163745748Smckusick /* 163845748Smckusick * Compute start and end of region in both maps 163945748Smckusick */ 164045748Smckusick 164145748Smckusick src_start = src_addr; 164245748Smckusick src_end = src_start + len; 164345748Smckusick dst_start = dst_addr; 164445748Smckusick dst_end = dst_start + len; 164545748Smckusick 164645748Smckusick /* 164745748Smckusick * Check that the region can exist in both source 164845748Smckusick * and destination. 164945748Smckusick */ 165045748Smckusick 165145748Smckusick if ((dst_end < dst_start) || (src_end < src_start)) 165245748Smckusick return(KERN_NO_SPACE); 165345748Smckusick 165445748Smckusick /* 165545748Smckusick * Lock the maps in question -- we avoid deadlock 165645748Smckusick * by ordering lock acquisition by map value 165745748Smckusick */ 165845748Smckusick 165945748Smckusick if (src_map == dst_map) { 166045748Smckusick vm_map_lock(src_map); 166145748Smckusick } 166245748Smckusick else if ((int) src_map < (int) dst_map) { 166345748Smckusick vm_map_lock(src_map); 166445748Smckusick vm_map_lock(dst_map); 166545748Smckusick } else { 166645748Smckusick vm_map_lock(dst_map); 166745748Smckusick vm_map_lock(src_map); 166845748Smckusick } 166945748Smckusick 167045748Smckusick result = KERN_SUCCESS; 167145748Smckusick 167245748Smckusick /* 167345748Smckusick * Check protections... source must be completely readable and 167445748Smckusick * destination must be completely writable. [Note that if we're 167545748Smckusick * allocating the destination region, we don't have to worry 167645748Smckusick * about protection, but instead about whether the region 167745748Smckusick * exists.] 167845748Smckusick */ 167945748Smckusick 168045748Smckusick if (src_map->is_main_map && dst_map->is_main_map) { 168145748Smckusick if (!vm_map_check_protection(src_map, src_start, src_end, 168245748Smckusick VM_PROT_READ)) { 168345748Smckusick result = KERN_PROTECTION_FAILURE; 168445748Smckusick goto Return; 168545748Smckusick } 168645748Smckusick 168745748Smckusick if (dst_alloc) { 168845748Smckusick /* XXX Consider making this a vm_map_find instead */ 168948383Skarels if ((result = vm_map_insert(dst_map, NULL, 169045748Smckusick (vm_offset_t) 0, dst_start, dst_end)) != KERN_SUCCESS) 169145748Smckusick goto Return; 169245748Smckusick } 169345748Smckusick else if (!vm_map_check_protection(dst_map, dst_start, dst_end, 169445748Smckusick VM_PROT_WRITE)) { 169545748Smckusick result = KERN_PROTECTION_FAILURE; 169645748Smckusick goto Return; 169745748Smckusick } 169845748Smckusick } 169945748Smckusick 170045748Smckusick /* 170145748Smckusick * Find the start entries and clip. 170245748Smckusick * 170345748Smckusick * Note that checking protection asserts that the 170445748Smckusick * lookup cannot fail. 170545748Smckusick * 170645748Smckusick * Also note that we wait to do the second lookup 170745748Smckusick * until we have done the first clip, as the clip 170845748Smckusick * may affect which entry we get! 170945748Smckusick */ 171045748Smckusick 171145748Smckusick (void) vm_map_lookup_entry(src_map, src_addr, &tmp_entry); 171245748Smckusick src_entry = tmp_entry; 171345748Smckusick vm_map_clip_start(src_map, src_entry, src_start); 171445748Smckusick 171545748Smckusick (void) vm_map_lookup_entry(dst_map, dst_addr, &tmp_entry); 171645748Smckusick dst_entry = tmp_entry; 171745748Smckusick vm_map_clip_start(dst_map, dst_entry, dst_start); 171845748Smckusick 171945748Smckusick /* 172045748Smckusick * If both source and destination entries are the same, 172145748Smckusick * retry the first lookup, as it may have changed. 172245748Smckusick */ 172345748Smckusick 172445748Smckusick if (src_entry == dst_entry) { 172545748Smckusick (void) vm_map_lookup_entry(src_map, src_addr, &tmp_entry); 172645748Smckusick src_entry = tmp_entry; 172745748Smckusick } 172845748Smckusick 172945748Smckusick /* 173045748Smckusick * If source and destination entries are still the same, 173145748Smckusick * a null copy is being performed. 173245748Smckusick */ 173345748Smckusick 173445748Smckusick if (src_entry == dst_entry) 173545748Smckusick goto Return; 173645748Smckusick 173745748Smckusick /* 173845748Smckusick * Go through entries until we get to the end of the 173945748Smckusick * region. 174045748Smckusick */ 174145748Smckusick 174245748Smckusick while (src_start < src_end) { 174345748Smckusick /* 174445748Smckusick * Clip the entries to the endpoint of the entire region. 174545748Smckusick */ 174645748Smckusick 174745748Smckusick vm_map_clip_end(src_map, src_entry, src_end); 174845748Smckusick vm_map_clip_end(dst_map, dst_entry, dst_end); 174945748Smckusick 175045748Smckusick /* 175145748Smckusick * Clip each entry to the endpoint of the other entry. 175245748Smckusick */ 175345748Smckusick 175445748Smckusick src_clip = src_entry->start + (dst_entry->end - dst_entry->start); 175545748Smckusick vm_map_clip_end(src_map, src_entry, src_clip); 175645748Smckusick 175745748Smckusick dst_clip = dst_entry->start + (src_entry->end - src_entry->start); 175845748Smckusick vm_map_clip_end(dst_map, dst_entry, dst_clip); 175945748Smckusick 176045748Smckusick /* 176145748Smckusick * Both entries now match in size and relative endpoints. 176245748Smckusick * 176345748Smckusick * If both entries refer to a VM object, we can 176445748Smckusick * deal with them now. 176545748Smckusick */ 176645748Smckusick 176745748Smckusick if (!src_entry->is_a_map && !dst_entry->is_a_map) { 176845748Smckusick vm_map_copy_entry(src_map, dst_map, src_entry, 176945748Smckusick dst_entry); 177045748Smckusick } 177145748Smckusick else { 177245748Smckusick register vm_map_t new_dst_map; 177345748Smckusick vm_offset_t new_dst_start; 177445748Smckusick vm_size_t new_size; 177545748Smckusick vm_map_t new_src_map; 177645748Smckusick vm_offset_t new_src_start; 177745748Smckusick 177845748Smckusick /* 177945748Smckusick * We have to follow at least one sharing map. 178045748Smckusick */ 178145748Smckusick 178245748Smckusick new_size = (dst_entry->end - dst_entry->start); 178345748Smckusick 178445748Smckusick if (src_entry->is_a_map) { 178545748Smckusick new_src_map = src_entry->object.share_map; 178645748Smckusick new_src_start = src_entry->offset; 178745748Smckusick } 178845748Smckusick else { 178945748Smckusick new_src_map = src_map; 179045748Smckusick new_src_start = src_entry->start; 179145748Smckusick lock_set_recursive(&src_map->lock); 179245748Smckusick } 179345748Smckusick 179445748Smckusick if (dst_entry->is_a_map) { 179545748Smckusick vm_offset_t new_dst_end; 179645748Smckusick 179745748Smckusick new_dst_map = dst_entry->object.share_map; 179845748Smckusick new_dst_start = dst_entry->offset; 179945748Smckusick 180045748Smckusick /* 180145748Smckusick * Since the destination sharing entries 180245748Smckusick * will be merely deallocated, we can 180345748Smckusick * do that now, and replace the region 180445748Smckusick * with a null object. [This prevents 180545748Smckusick * splitting the source map to match 180645748Smckusick * the form of the destination map.] 180745748Smckusick * Note that we can only do so if the 180845748Smckusick * source and destination do not overlap. 180945748Smckusick */ 181045748Smckusick 181145748Smckusick new_dst_end = new_dst_start + new_size; 181245748Smckusick 181345748Smckusick if (new_dst_map != new_src_map) { 181445748Smckusick vm_map_lock(new_dst_map); 181545748Smckusick (void) vm_map_delete(new_dst_map, 181645748Smckusick new_dst_start, 181745748Smckusick new_dst_end); 181845748Smckusick (void) vm_map_insert(new_dst_map, 181948383Skarels NULL, 182045748Smckusick (vm_offset_t) 0, 182145748Smckusick new_dst_start, 182245748Smckusick new_dst_end); 182345748Smckusick vm_map_unlock(new_dst_map); 182445748Smckusick } 182545748Smckusick } 182645748Smckusick else { 182745748Smckusick new_dst_map = dst_map; 182845748Smckusick new_dst_start = dst_entry->start; 182945748Smckusick lock_set_recursive(&dst_map->lock); 183045748Smckusick } 183145748Smckusick 183245748Smckusick /* 183345748Smckusick * Recursively copy the sharing map. 183445748Smckusick */ 183545748Smckusick 183645748Smckusick (void) vm_map_copy(new_dst_map, new_src_map, 183745748Smckusick new_dst_start, new_size, new_src_start, 183845748Smckusick FALSE, FALSE); 183945748Smckusick 184045748Smckusick if (dst_map == new_dst_map) 184145748Smckusick lock_clear_recursive(&dst_map->lock); 184245748Smckusick if (src_map == new_src_map) 184345748Smckusick lock_clear_recursive(&src_map->lock); 184445748Smckusick } 184545748Smckusick 184645748Smckusick /* 184745748Smckusick * Update variables for next pass through the loop. 184845748Smckusick */ 184945748Smckusick 185045748Smckusick src_start = src_entry->end; 185145748Smckusick src_entry = src_entry->next; 185245748Smckusick dst_start = dst_entry->end; 185345748Smckusick dst_entry = dst_entry->next; 185445748Smckusick 185545748Smckusick /* 185645748Smckusick * If the source is to be destroyed, here is the 185745748Smckusick * place to do it. 185845748Smckusick */ 185945748Smckusick 186045748Smckusick if (src_destroy && src_map->is_main_map && 186145748Smckusick dst_map->is_main_map) 186245748Smckusick vm_map_entry_delete(src_map, src_entry->prev); 186345748Smckusick } 186445748Smckusick 186545748Smckusick /* 186645748Smckusick * Update the physical maps as appropriate 186745748Smckusick */ 186845748Smckusick 186945748Smckusick if (src_map->is_main_map && dst_map->is_main_map) { 187045748Smckusick if (src_destroy) 187145748Smckusick pmap_remove(src_map->pmap, src_addr, src_addr + len); 187245748Smckusick } 187345748Smckusick 187445748Smckusick /* 187545748Smckusick * Unlock the maps 187645748Smckusick */ 187745748Smckusick 187845748Smckusick Return: ; 187945748Smckusick 188045748Smckusick if (old_src_destroy) 188145748Smckusick vm_map_delete(src_map, src_addr, src_addr + len); 188245748Smckusick 188345748Smckusick vm_map_unlock(src_map); 188445748Smckusick if (src_map != dst_map) 188545748Smckusick vm_map_unlock(dst_map); 188645748Smckusick 188745748Smckusick return(result); 188845748Smckusick } 188945748Smckusick 189045748Smckusick /* 189148383Skarels * vmspace_fork: 189248383Skarels * Create a new process vmspace structure and vm_map 189348383Skarels * based on those of an existing process. The new map 189448383Skarels * is based on the old map, according to the inheritance 189548383Skarels * values on the regions in that map. 189645748Smckusick * 189748383Skarels * The source map must not be locked. 189845748Smckusick */ 189948383Skarels struct vmspace * 190048383Skarels vmspace_fork(vm1) 190148383Skarels register struct vmspace *vm1; 190245748Smckusick { 190348383Skarels register struct vmspace *vm2; 190448383Skarels vm_map_t old_map = &vm1->vm_map; 190545748Smckusick vm_map_t new_map; 190645748Smckusick vm_map_entry_t old_entry; 190745748Smckusick vm_map_entry_t new_entry; 190845748Smckusick pmap_t new_pmap; 190945748Smckusick 191045748Smckusick vm_map_lock(old_map); 191145748Smckusick 191248383Skarels vm2 = vmspace_alloc(old_map->min_offset, old_map->max_offset, 191348383Skarels old_map->entries_pageable); 191448383Skarels bcopy(&vm1->vm_startcopy, &vm2->vm_startcopy, 191548383Skarels (caddr_t) (vm1 + 1) - (caddr_t) &vm1->vm_startcopy); 191648383Skarels new_pmap = &vm2->vm_pmap; /* XXX */ 191748383Skarels new_map = &vm2->vm_map; /* XXX */ 191845748Smckusick 191945748Smckusick old_entry = old_map->header.next; 192045748Smckusick 192145748Smckusick while (old_entry != &old_map->header) { 192245748Smckusick if (old_entry->is_sub_map) 192345748Smckusick panic("vm_map_fork: encountered a submap"); 192445748Smckusick 192545748Smckusick switch (old_entry->inheritance) { 192645748Smckusick case VM_INHERIT_NONE: 192745748Smckusick break; 192845748Smckusick 192945748Smckusick case VM_INHERIT_SHARE: 193045748Smckusick /* 193145748Smckusick * If we don't already have a sharing map: 193245748Smckusick */ 193345748Smckusick 193445748Smckusick if (!old_entry->is_a_map) { 193545748Smckusick vm_map_t new_share_map; 193645748Smckusick vm_map_entry_t new_share_entry; 193745748Smckusick 193845748Smckusick /* 193945748Smckusick * Create a new sharing map 194045748Smckusick */ 194145748Smckusick 194248383Skarels new_share_map = vm_map_create(NULL, 194345748Smckusick old_entry->start, 194445748Smckusick old_entry->end, 194545748Smckusick TRUE); 194645748Smckusick new_share_map->is_main_map = FALSE; 194745748Smckusick 194845748Smckusick /* 194945748Smckusick * Create the only sharing entry from the 195045748Smckusick * old task map entry. 195145748Smckusick */ 195245748Smckusick 195345748Smckusick new_share_entry = 195445748Smckusick vm_map_entry_create(new_share_map); 195545748Smckusick *new_share_entry = *old_entry; 195645748Smckusick 195745748Smckusick /* 195845748Smckusick * Insert the entry into the new sharing 195945748Smckusick * map 196045748Smckusick */ 196145748Smckusick 196245748Smckusick vm_map_entry_link(new_share_map, 196345748Smckusick new_share_map->header.prev, 196445748Smckusick new_share_entry); 196545748Smckusick 196645748Smckusick /* 196745748Smckusick * Fix up the task map entry to refer 196845748Smckusick * to the sharing map now. 196945748Smckusick */ 197045748Smckusick 197145748Smckusick old_entry->is_a_map = TRUE; 197245748Smckusick old_entry->object.share_map = new_share_map; 197345748Smckusick old_entry->offset = old_entry->start; 197445748Smckusick } 197545748Smckusick 197645748Smckusick /* 197745748Smckusick * Clone the entry, referencing the sharing map. 197845748Smckusick */ 197945748Smckusick 198045748Smckusick new_entry = vm_map_entry_create(new_map); 198145748Smckusick *new_entry = *old_entry; 198245748Smckusick vm_map_reference(new_entry->object.share_map); 198345748Smckusick 198445748Smckusick /* 198545748Smckusick * Insert the entry into the new map -- we 198645748Smckusick * know we're inserting at the end of the new 198745748Smckusick * map. 198845748Smckusick */ 198945748Smckusick 199045748Smckusick vm_map_entry_link(new_map, new_map->header.prev, 199145748Smckusick new_entry); 199245748Smckusick 199345748Smckusick /* 199445748Smckusick * Update the physical map 199545748Smckusick */ 199645748Smckusick 199745748Smckusick pmap_copy(new_map->pmap, old_map->pmap, 199845748Smckusick new_entry->start, 199945748Smckusick (old_entry->end - old_entry->start), 200045748Smckusick old_entry->start); 200145748Smckusick break; 200245748Smckusick 200345748Smckusick case VM_INHERIT_COPY: 200445748Smckusick /* 200545748Smckusick * Clone the entry and link into the map. 200645748Smckusick */ 200745748Smckusick 200845748Smckusick new_entry = vm_map_entry_create(new_map); 200945748Smckusick *new_entry = *old_entry; 201045748Smckusick new_entry->wired_count = 0; 201148383Skarels new_entry->object.vm_object = NULL; 201245748Smckusick new_entry->is_a_map = FALSE; 201345748Smckusick vm_map_entry_link(new_map, new_map->header.prev, 201445748Smckusick new_entry); 201545748Smckusick if (old_entry->is_a_map) { 201645748Smckusick int check; 201745748Smckusick 201845748Smckusick check = vm_map_copy(new_map, 201945748Smckusick old_entry->object.share_map, 202045748Smckusick new_entry->start, 202145748Smckusick (vm_size_t)(new_entry->end - 202245748Smckusick new_entry->start), 202345748Smckusick old_entry->offset, 202445748Smckusick FALSE, FALSE); 202545748Smckusick if (check != KERN_SUCCESS) 202645748Smckusick printf("vm_map_fork: copy in share_map region failed\n"); 202745748Smckusick } 202845748Smckusick else { 202945748Smckusick vm_map_copy_entry(old_map, new_map, old_entry, 203045748Smckusick new_entry); 203145748Smckusick } 203245748Smckusick break; 203345748Smckusick } 203445748Smckusick old_entry = old_entry->next; 203545748Smckusick } 203645748Smckusick 203745748Smckusick new_map->size = old_map->size; 203845748Smckusick vm_map_unlock(old_map); 203945748Smckusick 204048383Skarels return(vm2); 204145748Smckusick } 204245748Smckusick 204345748Smckusick /* 204445748Smckusick * vm_map_lookup: 204545748Smckusick * 204645748Smckusick * Finds the VM object, offset, and 204745748Smckusick * protection for a given virtual address in the 204845748Smckusick * specified map, assuming a page fault of the 204945748Smckusick * type specified. 205045748Smckusick * 205145748Smckusick * Leaves the map in question locked for read; return 205245748Smckusick * values are guaranteed until a vm_map_lookup_done 205345748Smckusick * call is performed. Note that the map argument 205445748Smckusick * is in/out; the returned map must be used in 205545748Smckusick * the call to vm_map_lookup_done. 205645748Smckusick * 205745748Smckusick * A handle (out_entry) is returned for use in 205845748Smckusick * vm_map_lookup_done, to make that fast. 205945748Smckusick * 206045748Smckusick * If a lookup is requested with "write protection" 206145748Smckusick * specified, the map may be changed to perform virtual 206245748Smckusick * copying operations, although the data referenced will 206345748Smckusick * remain the same. 206445748Smckusick */ 206545748Smckusick vm_map_lookup(var_map, vaddr, fault_type, out_entry, 206645748Smckusick object, offset, out_prot, wired, single_use) 206745748Smckusick vm_map_t *var_map; /* IN/OUT */ 206845748Smckusick register vm_offset_t vaddr; 206945748Smckusick register vm_prot_t fault_type; 207045748Smckusick 207145748Smckusick vm_map_entry_t *out_entry; /* OUT */ 207245748Smckusick vm_object_t *object; /* OUT */ 207345748Smckusick vm_offset_t *offset; /* OUT */ 207445748Smckusick vm_prot_t *out_prot; /* OUT */ 207545748Smckusick boolean_t *wired; /* OUT */ 207645748Smckusick boolean_t *single_use; /* OUT */ 207745748Smckusick { 207845748Smckusick vm_map_t share_map; 207945748Smckusick vm_offset_t share_offset; 208045748Smckusick register vm_map_entry_t entry; 208145748Smckusick register vm_map_t map = *var_map; 208245748Smckusick register vm_prot_t prot; 208345748Smckusick register boolean_t su; 208445748Smckusick 208545748Smckusick RetryLookup: ; 208645748Smckusick 208745748Smckusick /* 208845748Smckusick * Lookup the faulting address. 208945748Smckusick */ 209045748Smckusick 209145748Smckusick vm_map_lock_read(map); 209245748Smckusick 209345748Smckusick #define RETURN(why) \ 209445748Smckusick { \ 209545748Smckusick vm_map_unlock_read(map); \ 209645748Smckusick return(why); \ 209745748Smckusick } 209845748Smckusick 209945748Smckusick /* 210045748Smckusick * If the map has an interesting hint, try it before calling 210145748Smckusick * full blown lookup routine. 210245748Smckusick */ 210345748Smckusick 210445748Smckusick simple_lock(&map->hint_lock); 210545748Smckusick entry = map->hint; 210645748Smckusick simple_unlock(&map->hint_lock); 210745748Smckusick 210845748Smckusick *out_entry = entry; 210945748Smckusick 211045748Smckusick if ((entry == &map->header) || 211145748Smckusick (vaddr < entry->start) || (vaddr >= entry->end)) { 211245748Smckusick vm_map_entry_t tmp_entry; 211345748Smckusick 211445748Smckusick /* 211545748Smckusick * Entry was either not a valid hint, or the vaddr 211645748Smckusick * was not contained in the entry, so do a full lookup. 211745748Smckusick */ 211845748Smckusick if (!vm_map_lookup_entry(map, vaddr, &tmp_entry)) 211945748Smckusick RETURN(KERN_INVALID_ADDRESS); 212045748Smckusick 212145748Smckusick entry = tmp_entry; 212245748Smckusick *out_entry = entry; 212345748Smckusick } 212445748Smckusick 212545748Smckusick /* 212645748Smckusick * Handle submaps. 212745748Smckusick */ 212845748Smckusick 212945748Smckusick if (entry->is_sub_map) { 213045748Smckusick vm_map_t old_map = map; 213145748Smckusick 213245748Smckusick *var_map = map = entry->object.sub_map; 213345748Smckusick vm_map_unlock_read(old_map); 213445748Smckusick goto RetryLookup; 213545748Smckusick } 213645748Smckusick 213745748Smckusick /* 213845748Smckusick * Check whether this task is allowed to have 213945748Smckusick * this page. 214045748Smckusick */ 214145748Smckusick 214245748Smckusick prot = entry->protection; 214345748Smckusick if ((fault_type & (prot)) != fault_type) 214445748Smckusick RETURN(KERN_PROTECTION_FAILURE); 214545748Smckusick 214645748Smckusick /* 214745748Smckusick * If this page is not pageable, we have to get 214845748Smckusick * it for all possible accesses. 214945748Smckusick */ 215045748Smckusick 215145748Smckusick if (*wired = (entry->wired_count != 0)) 215245748Smckusick prot = fault_type = entry->protection; 215345748Smckusick 215445748Smckusick /* 215545748Smckusick * If we don't already have a VM object, track 215645748Smckusick * it down. 215745748Smckusick */ 215845748Smckusick 215945748Smckusick if (su = !entry->is_a_map) { 216045748Smckusick share_map = map; 216145748Smckusick share_offset = vaddr; 216245748Smckusick } 216345748Smckusick else { 216445748Smckusick vm_map_entry_t share_entry; 216545748Smckusick 216645748Smckusick /* 216745748Smckusick * Compute the sharing map, and offset into it. 216845748Smckusick */ 216945748Smckusick 217045748Smckusick share_map = entry->object.share_map; 217145748Smckusick share_offset = (vaddr - entry->start) + entry->offset; 217245748Smckusick 217345748Smckusick /* 217445748Smckusick * Look for the backing store object and offset 217545748Smckusick */ 217645748Smckusick 217745748Smckusick vm_map_lock_read(share_map); 217845748Smckusick 217945748Smckusick if (!vm_map_lookup_entry(share_map, share_offset, 218045748Smckusick &share_entry)) { 218145748Smckusick vm_map_unlock_read(share_map); 218245748Smckusick RETURN(KERN_INVALID_ADDRESS); 218345748Smckusick } 218445748Smckusick entry = share_entry; 218545748Smckusick } 218645748Smckusick 218745748Smckusick /* 218845748Smckusick * If the entry was copy-on-write, we either ... 218945748Smckusick */ 219045748Smckusick 219145748Smckusick if (entry->needs_copy) { 219245748Smckusick /* 219345748Smckusick * If we want to write the page, we may as well 219445748Smckusick * handle that now since we've got the sharing 219545748Smckusick * map locked. 219645748Smckusick * 219745748Smckusick * If we don't need to write the page, we just 219845748Smckusick * demote the permissions allowed. 219945748Smckusick */ 220045748Smckusick 220145748Smckusick if (fault_type & VM_PROT_WRITE) { 220245748Smckusick /* 220345748Smckusick * Make a new object, and place it in the 220445748Smckusick * object chain. Note that no new references 220545748Smckusick * have appeared -- one just moved from the 220645748Smckusick * share map to the new object. 220745748Smckusick */ 220845748Smckusick 220945748Smckusick if (lock_read_to_write(&share_map->lock)) { 221045748Smckusick if (share_map != map) 221145748Smckusick vm_map_unlock_read(map); 221245748Smckusick goto RetryLookup; 221345748Smckusick } 221445748Smckusick 221545748Smckusick vm_object_shadow( 221645748Smckusick &entry->object.vm_object, 221745748Smckusick &entry->offset, 221845748Smckusick (vm_size_t) (entry->end - entry->start)); 221945748Smckusick 222045748Smckusick entry->needs_copy = FALSE; 222145748Smckusick 222245748Smckusick lock_write_to_read(&share_map->lock); 222345748Smckusick } 222445748Smckusick else { 222545748Smckusick /* 222645748Smckusick * We're attempting to read a copy-on-write 222745748Smckusick * page -- don't allow writes. 222845748Smckusick */ 222945748Smckusick 223045748Smckusick prot &= (~VM_PROT_WRITE); 223145748Smckusick } 223245748Smckusick } 223345748Smckusick 223445748Smckusick /* 223545748Smckusick * Create an object if necessary. 223645748Smckusick */ 223748383Skarels if (entry->object.vm_object == NULL) { 223845748Smckusick 223945748Smckusick if (lock_read_to_write(&share_map->lock)) { 224045748Smckusick if (share_map != map) 224145748Smckusick vm_map_unlock_read(map); 224245748Smckusick goto RetryLookup; 224345748Smckusick } 224445748Smckusick 224545748Smckusick entry->object.vm_object = vm_object_allocate( 224645748Smckusick (vm_size_t)(entry->end - entry->start)); 224745748Smckusick entry->offset = 0; 224845748Smckusick lock_write_to_read(&share_map->lock); 224945748Smckusick } 225045748Smckusick 225145748Smckusick /* 225245748Smckusick * Return the object/offset from this entry. If the entry 225345748Smckusick * was copy-on-write or empty, it has been fixed up. 225445748Smckusick */ 225545748Smckusick 225645748Smckusick *offset = (share_offset - entry->start) + entry->offset; 225745748Smckusick *object = entry->object.vm_object; 225845748Smckusick 225945748Smckusick /* 226045748Smckusick * Return whether this is the only map sharing this data. 226145748Smckusick */ 226245748Smckusick 226345748Smckusick if (!su) { 226445748Smckusick simple_lock(&share_map->ref_lock); 226545748Smckusick su = (share_map->ref_count == 1); 226645748Smckusick simple_unlock(&share_map->ref_lock); 226745748Smckusick } 226845748Smckusick 226945748Smckusick *out_prot = prot; 227045748Smckusick *single_use = su; 227145748Smckusick 227245748Smckusick return(KERN_SUCCESS); 227345748Smckusick 227445748Smckusick #undef RETURN 227545748Smckusick } 227645748Smckusick 227745748Smckusick /* 227845748Smckusick * vm_map_lookup_done: 227945748Smckusick * 228045748Smckusick * Releases locks acquired by a vm_map_lookup 228145748Smckusick * (according to the handle returned by that lookup). 228245748Smckusick */ 228345748Smckusick 228445748Smckusick void vm_map_lookup_done(map, entry) 228545748Smckusick register vm_map_t map; 228645748Smckusick vm_map_entry_t entry; 228745748Smckusick { 228845748Smckusick /* 228945748Smckusick * If this entry references a map, unlock it first. 229045748Smckusick */ 229145748Smckusick 229245748Smckusick if (entry->is_a_map) 229345748Smckusick vm_map_unlock_read(entry->object.share_map); 229445748Smckusick 229545748Smckusick /* 229645748Smckusick * Unlock the main-level map 229745748Smckusick */ 229845748Smckusick 229945748Smckusick vm_map_unlock_read(map); 230045748Smckusick } 230145748Smckusick 230245748Smckusick /* 230345748Smckusick * Routine: vm_map_simplify 230445748Smckusick * Purpose: 230545748Smckusick * Attempt to simplify the map representation in 230645748Smckusick * the vicinity of the given starting address. 230745748Smckusick * Note: 230845748Smckusick * This routine is intended primarily to keep the 230945748Smckusick * kernel maps more compact -- they generally don't 231045748Smckusick * benefit from the "expand a map entry" technology 231145748Smckusick * at allocation time because the adjacent entry 231245748Smckusick * is often wired down. 231345748Smckusick */ 231445748Smckusick void vm_map_simplify(map, start) 231545748Smckusick vm_map_t map; 231645748Smckusick vm_offset_t start; 231745748Smckusick { 231845748Smckusick vm_map_entry_t this_entry; 231945748Smckusick vm_map_entry_t prev_entry; 232045748Smckusick 232145748Smckusick vm_map_lock(map); 232245748Smckusick if ( 232345748Smckusick (vm_map_lookup_entry(map, start, &this_entry)) && 232445748Smckusick ((prev_entry = this_entry->prev) != &map->header) && 232545748Smckusick 232645748Smckusick (prev_entry->end == start) && 232745748Smckusick (map->is_main_map) && 232845748Smckusick 232945748Smckusick (prev_entry->is_a_map == FALSE) && 233045748Smckusick (prev_entry->is_sub_map == FALSE) && 233145748Smckusick 233245748Smckusick (this_entry->is_a_map == FALSE) && 233345748Smckusick (this_entry->is_sub_map == FALSE) && 233445748Smckusick 233545748Smckusick (prev_entry->inheritance == this_entry->inheritance) && 233645748Smckusick (prev_entry->protection == this_entry->protection) && 233745748Smckusick (prev_entry->max_protection == this_entry->max_protection) && 233845748Smckusick (prev_entry->wired_count == this_entry->wired_count) && 233945748Smckusick 234045748Smckusick (prev_entry->copy_on_write == this_entry->copy_on_write) && 234145748Smckusick (prev_entry->needs_copy == this_entry->needs_copy) && 234245748Smckusick 234345748Smckusick (prev_entry->object.vm_object == this_entry->object.vm_object) && 234445748Smckusick ((prev_entry->offset + (prev_entry->end - prev_entry->start)) 234545748Smckusick == this_entry->offset) 234645748Smckusick ) { 234745748Smckusick if (map->first_free == this_entry) 234845748Smckusick map->first_free = prev_entry; 234945748Smckusick 235045748Smckusick SAVE_HINT(map, prev_entry); 235145748Smckusick vm_map_entry_unlink(map, this_entry); 235245748Smckusick prev_entry->end = this_entry->end; 235345748Smckusick vm_object_deallocate(this_entry->object.vm_object); 235445748Smckusick vm_map_entry_dispose(map, this_entry); 235545748Smckusick } 235645748Smckusick vm_map_unlock(map); 235745748Smckusick } 235845748Smckusick 235945748Smckusick /* 236045748Smckusick * vm_map_print: [ debug ] 236145748Smckusick */ 236245748Smckusick void vm_map_print(map, full) 236345748Smckusick register vm_map_t map; 236445748Smckusick boolean_t full; 236545748Smckusick { 236645748Smckusick register vm_map_entry_t entry; 236745748Smckusick extern int indent; 236845748Smckusick 236945748Smckusick iprintf("%s map 0x%x: pmap=0x%x,ref=%d,nentries=%d,version=%d\n", 237045748Smckusick (map->is_main_map ? "Task" : "Share"), 237145748Smckusick (int) map, (int) (map->pmap), map->ref_count, map->nentries, 237245748Smckusick map->timestamp); 237345748Smckusick 237445748Smckusick if (!full && indent) 237545748Smckusick return; 237645748Smckusick 237745748Smckusick indent += 2; 237845748Smckusick for (entry = map->header.next; entry != &map->header; 237945748Smckusick entry = entry->next) { 238045748Smckusick iprintf("map entry 0x%x: start=0x%x, end=0x%x, ", 238145748Smckusick (int) entry, (int) entry->start, (int) entry->end); 238245748Smckusick if (map->is_main_map) { 238345748Smckusick static char *inheritance_name[4] = 238445748Smckusick { "share", "copy", "none", "donate_copy"}; 238545748Smckusick printf("prot=%x/%x/%s, ", 238645748Smckusick entry->protection, 238745748Smckusick entry->max_protection, 238845748Smckusick inheritance_name[entry->inheritance]); 238945748Smckusick if (entry->wired_count != 0) 239045748Smckusick printf("wired, "); 239145748Smckusick } 239245748Smckusick 239345748Smckusick if (entry->is_a_map || entry->is_sub_map) { 239445748Smckusick printf("share=0x%x, offset=0x%x\n", 239545748Smckusick (int) entry->object.share_map, 239645748Smckusick (int) entry->offset); 239745748Smckusick if ((entry->prev == &map->header) || 239845748Smckusick (!entry->prev->is_a_map) || 239945748Smckusick (entry->prev->object.share_map != 240045748Smckusick entry->object.share_map)) { 240145748Smckusick indent += 2; 240245748Smckusick vm_map_print(entry->object.share_map, full); 240345748Smckusick indent -= 2; 240445748Smckusick } 240545748Smckusick 240645748Smckusick } 240745748Smckusick else { 240845748Smckusick printf("object=0x%x, offset=0x%x", 240945748Smckusick (int) entry->object.vm_object, 241045748Smckusick (int) entry->offset); 241145748Smckusick if (entry->copy_on_write) 241245748Smckusick printf(", copy (%s)", 241345748Smckusick entry->needs_copy ? "needed" : "done"); 241445748Smckusick printf("\n"); 241545748Smckusick 241645748Smckusick if ((entry->prev == &map->header) || 241745748Smckusick (entry->prev->is_a_map) || 241845748Smckusick (entry->prev->object.vm_object != 241945748Smckusick entry->object.vm_object)) { 242045748Smckusick indent += 2; 242145748Smckusick vm_object_print(entry->object.vm_object, full); 242245748Smckusick indent -= 2; 242345748Smckusick } 242445748Smckusick } 242545748Smckusick } 242645748Smckusick indent -= 2; 242745748Smckusick } 2428