/* $OpenBSD: uvm_map.h,v 1.51 2014/07/11 16:35:40 jsg Exp $ */ /* $NetBSD: uvm_map.h,v 1.24 2001/02/18 21:19:08 chs Exp $ */ /* * Copyright (c) 2011 Ariane van der Steldt * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. * * * Copyright (c) 1997 Charles D. Cranor and Washington University. * Copyright (c) 1991, 1993, The Regents of the University of California. * * All rights reserved. * * This code is derived from software contributed to Berkeley by * The Mach Operating System project at Carnegie-Mellon University. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * @(#)vm_map.h 8.3 (Berkeley) 3/15/94 * from: Id: uvm_map.h,v 1.1.2.3 1998/02/07 01:16:55 chs Exp * * * Copyright (c) 1987, 1990 Carnegie-Mellon University. * All rights reserved. * * Permission to use, copy, modify and distribute this software and * its documentation is hereby granted, provided that both the copyright * notice and this permission notice appear in all copies of the * software, derivative works or modified versions, and any portions * thereof, and that both notices appear in supporting documentation. * * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS" * CONDITION. CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND * FOR ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE. * * Carnegie Mellon requests users of this software to return to * * Software Distribution Coordinator or Software.Distribution@CS.CMU.EDU * School of Computer Science * Carnegie Mellon University * Pittsburgh PA 15213-3890 * * any improvements or extensions that they make and grant Carnegie the * rights to redistribute these changes. */ #ifndef _UVM_UVM_MAP_H_ #define _UVM_UVM_MAP_H_ #include #ifdef _KERNEL /* * Internal functions. * * Required by clipping macros. */ void uvm_map_clip_end(struct vm_map*, struct vm_map_entry*, vaddr_t); void uvm_map_clip_start(struct vm_map*, struct vm_map_entry*, vaddr_t); /* * UVM_MAP_CLIP_START: ensure that the entry begins at or after * the starting address, if it doesn't we split the entry. * * => map must be locked by caller */ #define UVM_MAP_CLIP_START(_map, _entry, _addr) \ do { \ KASSERT((_entry)->end + (_entry)->fspace > (_addr)); \ if ((_entry)->start < (_addr)) \ uvm_map_clip_start((_map), (_entry), (_addr)); \ } while (0) /* * UVM_MAP_CLIP_END: ensure that the entry ends at or before * the ending address, if it does't we split the entry. * * => map must be locked by caller */ #define UVM_MAP_CLIP_END(_map, _entry, _addr) \ do { \ KASSERT((_entry)->start < (_addr)); \ if ((_entry)->end > (_addr)) \ uvm_map_clip_end((_map), (_entry), (_addr)); \ } while (0) /* * extract flags */ #define UVM_EXTRACT_FIXPROT 0x8 /* set prot to maxprot as we go */ #endif /* _KERNEL */ #include /* * types defined: * * vm_map_t the high-level address map data structure. * vm_map_entry_t an entry in an address map. * vm_map_version_t a timestamp of a map, for use with vm_map_lookup */ /* * Objects which live in maps may be either VM objects, or another map * (called a "sharing map") which denotes read-write sharing with other maps. * * XXXCDC: private pager data goes here now */ union vm_map_object { struct uvm_object *uvm_obj; /* UVM OBJECT */ struct vm_map *sub_map; /* belongs to another map */ }; /* * Address map entries consist of start and end addresses, * a VM object (or sharing map) and offset into that object, * and user-exported inheritance and protection information. * Also included is control information for virtual copy operations. */ struct vm_map_entry { union { RB_ENTRY(vm_map_entry) addr_entry; /* address tree */ } daddrs; union { RB_ENTRY(vm_map_entry) rbtree; /* Link freespace tree. */ TAILQ_ENTRY(vm_map_entry) tailq;/* Link freespace queue. */ TAILQ_ENTRY(vm_map_entry) deadq;/* dead entry queue */ } dfree; #define uvm_map_entry_start_copy start vaddr_t start; /* start address */ vaddr_t end; /* end address */ vsize_t guard; /* bytes in guard */ vsize_t fspace; /* free space */ union vm_map_object object; /* object I point to */ voff_t offset; /* offset into object */ struct vm_aref aref; /* anonymous overlay */ int etype; /* entry type */ vm_prot_t protection; /* protection code */ vm_prot_t max_protection; /* maximum protection */ vm_inherit_t inheritance; /* inheritance */ int wired_count; /* can be paged if == 0 */ int advice; /* madvise advice */ #define uvm_map_entry_stop_copy flags u_int8_t flags; /* flags */ #define UVM_MAP_STATIC 0x01 /* static map entry */ #define UVM_MAP_KMEM 0x02 /* from kmem entry pool */ vsize_t fspace_augment; /* max(fspace) in subtree */ }; #define VM_MAPENT_ISWIRED(entry) ((entry)->wired_count != 0) TAILQ_HEAD(uvm_map_deadq, vm_map_entry); /* dead entry queue */ RB_HEAD(uvm_map_addr, vm_map_entry); RB_PROTOTYPE(uvm_map_addr, vm_map_entry, daddrs.addr_entry, uvm_mapentry_addrcmp); /* * A Map is a rbtree of map entries, kept sorted by address. * In addition, free space entries are also kept in a rbtree, * indexed by free size. * * * * LOCKING PROTOCOL NOTES: * ----------------------- * * VM map locking is a little complicated. There are both shared * and exclusive locks on maps. However, it is sometimes required * to downgrade an exclusive lock to a shared lock, and upgrade to * an exclusive lock again (to perform error recovery). However, * another thread *must not* queue itself to receive an exclusive * lock while before we upgrade back to exclusive, otherwise the * error recovery becomes extremely difficult, if not impossible. * * In order to prevent this scenario, we introduce the notion of * a `busy' map. A `busy' map is read-locked, but other threads * attempting to write-lock wait for this flag to clear before * entering the lock manager. A map may only be marked busy * when the map is write-locked (and then the map must be downgraded * to read-locked), and may only be marked unbusy by the thread * which marked it busy (holding *either* a read-lock or a * write-lock, the latter being gained by an upgrade). * * Access to the map `flags' member is controlled by the `flags_lock' * simple lock. Note that some flags are static (set once at map * creation time, and never changed), and thus require no locking * to check those flags. All flags which are r/w must be set or * cleared while the `flags_lock' is asserted. Additional locking * requirements are: * * VM_MAP_PAGEABLE r/o static flag; no locking required * * VM_MAP_INTRSAFE r/o static flag; no locking required * * VM_MAP_WIREFUTURE r/w; may only be set or cleared when * map is write-locked. may be tested * without asserting `flags_lock'. * * VM_MAP_BUSY r/w; may only be set when map is * write-locked, may only be cleared by * thread which set it, map read-locked * or write-locked. must be tested * while `flags_lock' is asserted. * * VM_MAP_WANTLOCK r/w; may only be set when the map * is busy, and thread is attempting * to write-lock. must be tested * while `flags_lock' is asserted. * * VM_MAP_GUARDPAGES r/o; must be specified at map * initialization time. * If set, guards will appear between * automatic allocations. * No locking required. * * VM_MAP_ISVMSPACE r/o; set by uvmspace_alloc. * Signifies that this map is a vmspace. * (The implementation treats all maps * without this bit as kernel maps.) * No locking required. * * * All automatic allocations (uvm_map without MAP_FIXED) will allocate * from vm_map.free. * If that allocation fails: * - vmspace maps will spill over into vm_map.bfree, * - all other maps will call uvm_map_kmem_grow() to increase the arena. * * vmspace maps have their data, brk() and stack arenas automatically * updated when uvm_map() is invoked without MAP_FIXED. * The spill over arena (vm_map.bfree) will contain the space in the brk() * and stack ranges. * Kernel maps never have a bfree arena and this tree will always be empty. * * * read_locks and write_locks are used in lock debugging code. */ struct vm_map { struct pmap * pmap; /* Physical map */ struct rwlock lock; /* Lock for map data */ struct uvm_map_addr addr; /* Entry tree, by addr */ vsize_t size; /* virtual size */ int ref_count; /* Reference count */ int flags; /* flags */ unsigned int timestamp; /* Version number */ vaddr_t min_offset; /* First address in map. */ vaddr_t max_offset; /* Last address in map. */ /* * Allocation overflow regions. */ vaddr_t b_start; /* Start for brk() alloc. */ vaddr_t b_end; /* End for brk() alloc. */ vaddr_t s_start; /* Start for stack alloc. */ vaddr_t s_end; /* End for stack alloc. */ /* * Special address selectors. * * The uaddr_exe mapping is used if: * - protX is selected * - the pointer is not NULL * * If uaddr_exe is not used, the other mappings are checked in * order of appearance. * If a hint is given, the selection will only be used if the hint * falls in the range described by the mapping. * * The states are pointers because: * - they may not all be in use * - the struct size for different schemes is variable * * The uaddr_brk_stack selector will select addresses that are in * the brk/stack area of the map. */ struct uvm_addr_state *uaddr_exe; /* Executable selector. */ struct uvm_addr_state *uaddr_any[4]; /* More selectors. */ struct uvm_addr_state *uaddr_brk_stack; /* Brk/stack selector. */ }; /* vm_map flags */ #define VM_MAP_PAGEABLE 0x01 /* ro: entries are pageable */ #define VM_MAP_INTRSAFE 0x02 /* ro: interrupt safe map */ #define VM_MAP_WIREFUTURE 0x04 /* rw: wire future mappings */ #define VM_MAP_BUSY 0x08 /* rw: map is busy */ #define VM_MAP_WANTLOCK 0x10 /* rw: want to write-lock */ #define VM_MAP_GUARDPAGES 0x20 /* rw: add guard pgs to map */ #define VM_MAP_ISVMSPACE 0x40 /* ro: map is a vmspace */ /* XXX: number of kernel maps and entries to statically allocate */ #if !defined(MAX_KMAPENT) #define MAX_KMAPENT 1024 /* Sufficient to make it to the scheduler. */ #endif /* !defined MAX_KMAPENT */ #ifdef _KERNEL #define vm_map_modflags(map, set, clear) \ do { \ (map)->flags = ((map)->flags | (set)) & ~(clear); \ } while (0) #endif /* _KERNEL */ /* * Interrupt-safe maps must also be kept on a special list, * to assist uvm_fault() in avoiding locking problems. */ struct vm_map_intrsafe { struct vm_map vmi_map; LIST_ENTRY(vm_map_intrsafe) vmi_list; }; /* * globals: */ #ifdef _KERNEL extern vaddr_t uvm_maxkaddr; /* * protos: the following prototypes define the interface to vm_map */ void uvm_map_deallocate(vm_map_t); int uvm_map_clean(vm_map_t, vaddr_t, vaddr_t, int); vm_map_t uvm_map_create(pmap_t, vaddr_t, vaddr_t, int); int uvm_map_extract(struct vm_map*, vaddr_t, vsize_t, vaddr_t*, int); vaddr_t uvm_map_pie(vaddr_t); vaddr_t uvm_map_hint(struct vmspace *, vm_prot_t); int uvm_map_inherit(vm_map_t, vaddr_t, vaddr_t, vm_inherit_t); int uvm_map_advice(vm_map_t, vaddr_t, vaddr_t, int); void uvm_map_init(void); boolean_t uvm_map_lookup_entry(vm_map_t, vaddr_t, vm_map_entry_t *); int uvm_map_replace(vm_map_t, vaddr_t, vaddr_t, vm_map_entry_t, int); int uvm_map_reserve(vm_map_t, vsize_t, vaddr_t, vsize_t, vaddr_t *); void uvm_map_setup(vm_map_t, vaddr_t, vaddr_t, int); int uvm_map_submap(vm_map_t, vaddr_t, vaddr_t, vm_map_t); void uvm_unmap(vm_map_t, vaddr_t, vaddr_t); void uvm_map_set_uaddr(struct vm_map*, struct uvm_addr_state**, struct uvm_addr_state*); int uvm_map_mquery(struct vm_map*, vaddr_t*, vsize_t, voff_t, int); void uvm_unmap_detach(struct uvm_map_deadq*, int); void uvm_unmap_remove(struct vm_map*, vaddr_t, vaddr_t, struct uvm_map_deadq*, boolean_t, boolean_t); #endif /* _KERNEL */ /* * VM map locking operations: * * These operations perform locking on the data portion of the * map. * * vm_map_lock_try: try to lock a map, failing if it is already locked. * * vm_map_lock: acquire an exclusive (write) lock on a map. * * vm_map_lock_read: acquire a shared (read) lock on a map. * * vm_map_unlock: release an exclusive lock on a map. * * vm_map_unlock_read: release a shared lock on a map. * * vm_map_downgrade: downgrade an exclusive lock to a shared lock. * * vm_map_upgrade: upgrade a shared lock to an exclusive lock. * * vm_map_busy: mark a map as busy. * * vm_map_unbusy: clear busy status on a map. * */ #ifdef _KERNEL /* * XXX: clean up later * Half the kernel seems to depend on them being included here. */ #include #include /* for panic() */ boolean_t vm_map_lock_try_ln(struct vm_map*, char*, int); void vm_map_lock_ln(struct vm_map*, char*, int); void vm_map_lock_read_ln(struct vm_map*, char*, int); void vm_map_unlock_ln(struct vm_map*, char*, int); void vm_map_unlock_read_ln(struct vm_map*, char*, int); void vm_map_downgrade_ln(struct vm_map*, char*, int); void vm_map_upgrade_ln(struct vm_map*, char*, int); void vm_map_busy_ln(struct vm_map*, char*, int); void vm_map_unbusy_ln(struct vm_map*, char*, int); #ifdef DIAGNOSTIC #define vm_map_lock_try(map) vm_map_lock_try_ln(map, __FILE__, __LINE__) #define vm_map_lock(map) vm_map_lock_ln(map, __FILE__, __LINE__) #define vm_map_lock_read(map) vm_map_lock_read_ln(map, __FILE__, __LINE__) #define vm_map_unlock(map) vm_map_unlock_ln(map, __FILE__, __LINE__) #define vm_map_unlock_read(map) vm_map_unlock_read_ln(map, __FILE__, __LINE__) #define vm_map_downgrade(map) vm_map_downgrade_ln(map, __FILE__, __LINE__) #define vm_map_upgrade(map) vm_map_upgrade_ln(map, __FILE__, __LINE__) #define vm_map_busy(map) vm_map_busy_ln(map, __FILE__, __LINE__) #define vm_map_unbusy(map) vm_map_unbusy_ln(map, __FILE__, __LINE__) #else #define vm_map_lock_try(map) vm_map_lock_try_ln(map, NULL, 0) #define vm_map_lock(map) vm_map_lock_ln(map, NULL, 0) #define vm_map_lock_read(map) vm_map_lock_read_ln(map, NULL, 0) #define vm_map_unlock(map) vm_map_unlock_ln(map, NULL, 0) #define vm_map_unlock_read(map) vm_map_unlock_read_ln(map, NULL, 0) #define vm_map_downgrade(map) vm_map_downgrade_ln(map, NULL, 0) #define vm_map_upgrade(map) vm_map_upgrade_ln(map, NULL, 0) #define vm_map_busy(map) vm_map_busy_ln(map, NULL, 0) #define vm_map_unbusy(map) vm_map_unbusy_ln(map, NULL, 0) #endif #endif /* _KERNEL */ /* * Functions implemented as macros */ #define vm_map_min(map) ((map)->min_offset) #define vm_map_max(map) ((map)->max_offset) #define vm_map_pmap(map) ((map)->pmap) #endif /* _UVM_UVM_MAP_H_ */