sys/uvm/uvm_fault_i.h

1.11.2.4  nathanw /*	$NetBSD: uvm_fault_i.h,v 1.11.2.4 2002/11/11 22:17:01 nathanw Exp $	*/
     1.1      mrg
     1.1      mrg /*
     1.1      mrg  *
     1.1      mrg  * Copyright (c) 1997 Charles D. Cranor and Washington University.
     1.1      mrg  * All rights reserved.
     1.1      mrg  *
     1.1      mrg  * Redistribution and use in source and binary forms, with or without
     1.1      mrg  * modification, are permitted provided that the following conditions
     1.1      mrg  * are met:
     1.1      mrg  * 1. Redistributions of source code must retain the above copyright
     1.1      mrg  *    notice, this list of conditions and the following disclaimer.
     1.1      mrg  * 2. Redistributions in binary form must reproduce the above copyright
     1.1      mrg  *    notice, this list of conditions and the following disclaimer in the
     1.1      mrg  *    documentation and/or other materials provided with the distribution.
     1.1      mrg  * 3. All advertising materials mentioning features or use of this software
     1.1      mrg  *    must display the following acknowledgement:
     1.1      mrg  *      This product includes software developed by Charles D. Cranor and
     1.1      mrg  *      Washington University.
     1.1      mrg  * 4. The name of the author may not be used to endorse or promote products
     1.1      mrg  *    derived from this software without specific prior written permission.
     1.1      mrg  *
     1.1      mrg  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
     1.1      mrg  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
     1.1      mrg  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
     1.1      mrg  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
     1.1      mrg  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
     1.1      mrg  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
     1.1      mrg  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
     1.1      mrg  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
     1.1      mrg  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
     1.1      mrg  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
     1.3      mrg  *
     1.3      mrg  * from: Id: uvm_fault_i.h,v 1.1.6.1 1997/12/08 16:07:12 chuck Exp
     1.1      mrg  */
     1.1      mrg
     1.4    perry #ifndef _UVM_UVM_FAULT_I_H_
     1.4    perry #define _UVM_UVM_FAULT_I_H_
     1.4    perry
     1.1      mrg /*
     1.1      mrg  * uvm_fault_i.h: fault inline functions
     1.1      mrg  */
    1.11      mrg static boolean_t uvmfault_lookup __P((struct uvm_faultinfo *, boolean_t));
    1.11      mrg static boolean_t uvmfault_relock __P((struct uvm_faultinfo *));
    1.11      mrg static void uvmfault_unlockall __P((struct uvm_faultinfo *, struct vm_amap *,
    1.11      mrg 			            struct uvm_object *, struct vm_anon *));
    1.11      mrg static void uvmfault_unlockmaps __P((struct uvm_faultinfo *, boolean_t));
     1.1      mrg
     1.1      mrg /*
     1.1      mrg  * uvmfault_unlockmaps: unlock the maps
     1.1      mrg  */
     1.1      mrg
     1.5      mrg static __inline void
     1.5      mrg uvmfault_unlockmaps(ufi, write_locked)
     1.5      mrg 	struct uvm_faultinfo *ufi;
     1.5      mrg 	boolean_t write_locked;
     1.5      mrg {
    1.10      chs 	/*
    1.10      chs 	 * ufi can be NULL when this isn't really a fault,
    1.10      chs 	 * but merely paging in anon data.
    1.10      chs 	 */
    1.10      chs
    1.10      chs 	if (ufi == NULL) {
    1.10      chs 		return;
    1.10      chs 	}
     1.1      mrg
     1.5      mrg 	if (write_locked) {
     1.5      mrg 		vm_map_unlock(ufi->map);
     1.5      mrg 	} else {
     1.5      mrg 		vm_map_unlock_read(ufi->map);
     1.5      mrg 	}
     1.1      mrg }
     1.1      mrg
     1.1      mrg /*
     1.1      mrg  * uvmfault_unlockall: unlock everything passed in.
     1.1      mrg  *
     1.1      mrg  * => maps must be read-locked (not write-locked).
     1.1      mrg  */
     1.1      mrg
     1.5      mrg static __inline void
     1.5      mrg uvmfault_unlockall(ufi, amap, uobj, anon)
     1.5      mrg 	struct uvm_faultinfo *ufi;
     1.5      mrg 	struct vm_amap *amap;
     1.5      mrg 	struct uvm_object *uobj;
     1.5      mrg 	struct vm_anon *anon;
     1.5      mrg {
     1.1      mrg
     1.5      mrg 	if (anon)
     1.5      mrg 		simple_unlock(&anon->an_lock);
     1.5      mrg 	if (uobj)
     1.5      mrg 		simple_unlock(&uobj->vmobjlock);
     1.5      mrg 	if (amap)
     1.7    chuck 		amap_unlock(amap);
     1.5      mrg 	uvmfault_unlockmaps(ufi, FALSE);
     1.9  thorpej }
     1.9  thorpej
     1.9  thorpej /*
     1.1      mrg  * uvmfault_lookup: lookup a virtual address in a map
     1.1      mrg  *
     1.6    chuck  * => caller must provide a uvm_faultinfo structure with the IN
     1.1      mrg  *	params properly filled in
     1.6    chuck  * => we will lookup the map entry (handling submaps) as we go
     1.1      mrg  * => if the lookup is a success we will return with the maps locked
     1.1      mrg  * => if "write_lock" is TRUE, we write_lock the map, otherwise we only
     1.1      mrg  *	get a read lock.
1.11.2.1  nathanw  * => note that submaps can only appear in the kernel and they are
     1.6    chuck  *	required to use the same virtual addresses as the map they
     1.6    chuck  *	are referenced by (thus address translation between the main
     1.6    chuck  *	map and the submap is unnecessary).
     1.1      mrg  */
     1.1      mrg
     1.5      mrg static __inline boolean_t
     1.5      mrg uvmfault_lookup(ufi, write_lock)
     1.5      mrg 	struct uvm_faultinfo *ufi;
     1.5      mrg 	boolean_t write_lock;
     1.1      mrg {
1.11.2.1  nathanw 	struct vm_map *tmpmap;
     1.1      mrg
     1.5      mrg 	/*
     1.5      mrg 	 * init ufi values for lookup.
     1.5      mrg 	 */
     1.5      mrg
     1.5      mrg 	ufi->map = ufi->orig_map;
     1.5      mrg 	ufi->size = ufi->orig_size;
     1.5      mrg
     1.5      mrg 	/*
     1.5      mrg 	 * keep going down levels until we are done.   note that there can
     1.5      mrg 	 * only be two levels so we won't loop very long.
     1.5      mrg 	 */
     1.5      mrg
1.11.2.4  nathanw 	/*CONSTCOND*/
     1.5      mrg 	while (1) {
1.11.2.2  nathanw 		/*
1.11.2.2  nathanw 		 * Make sure this is not an "interrupt safe" map.
1.11.2.2  nathanw 		 * Such maps are never supposed to be involved in
1.11.2.2  nathanw 		 * a fault.
1.11.2.2  nathanw 		 */
1.11.2.2  nathanw 		if (ufi->map->flags & VM_MAP_INTRSAFE)
1.11.2.2  nathanw 			return (FALSE);
     1.5      mrg
     1.5      mrg 		/*
     1.5      mrg 		 * lock map
     1.5      mrg 		 */
     1.5      mrg 		if (write_lock) {
     1.5      mrg 			vm_map_lock(ufi->map);
     1.5      mrg 		} else {
     1.5      mrg 			vm_map_lock_read(ufi->map);
     1.5      mrg 		}
     1.5      mrg
     1.5      mrg 		/*
     1.5      mrg 		 * lookup
     1.5      mrg 		 */
1.11.2.1  nathanw 		if (!uvm_map_lookup_entry(ufi->map, ufi->orig_rvaddr,
     1.6    chuck 								&ufi->entry)) {
     1.5      mrg 			uvmfault_unlockmaps(ufi, write_lock);
     1.5      mrg 			return(FALSE);
     1.5      mrg 		}
     1.5      mrg
     1.5      mrg 		/*
     1.5      mrg 		 * reduce size if necessary
     1.5      mrg 		 */
     1.6    chuck 		if (ufi->entry->end - ufi->orig_rvaddr < ufi->size)
     1.6    chuck 			ufi->size = ufi->entry->end - ufi->orig_rvaddr;
     1.5      mrg
     1.5      mrg 		/*
     1.5      mrg 		 * submap?    replace map with the submap and lookup again.
     1.5      mrg 		 * note: VAs in submaps must match VAs in main map.
     1.5      mrg 		 */
     1.5      mrg 		if (UVM_ET_ISSUBMAP(ufi->entry)) {
     1.5      mrg 			tmpmap = ufi->entry->object.sub_map;
     1.5      mrg 			if (write_lock) {
     1.5      mrg 				vm_map_unlock(ufi->map);
     1.5      mrg 			} else {
     1.5      mrg 				vm_map_unlock_read(ufi->map);
     1.5      mrg 			}
     1.5      mrg 			ufi->map = tmpmap;
     1.5      mrg 			continue;
     1.5      mrg 		}
     1.5      mrg
     1.5      mrg 		/*
     1.5      mrg 		 * got it!
     1.5      mrg 		 */
     1.1      mrg
     1.5      mrg 		ufi->mapv = ufi->map->timestamp;
     1.5      mrg 		return(TRUE);
     1.1      mrg
     1.5      mrg 	}	/* while loop */
     1.1      mrg
     1.5      mrg 	/*NOTREACHED*/
     1.1      mrg }
     1.1      mrg
     1.1      mrg /*
     1.1      mrg  * uvmfault_relock: attempt to relock the same version of the map
     1.1      mrg  *
     1.1      mrg  * => fault data structures should be unlocked before calling.
     1.1      mrg  * => if a success (TRUE) maps will be locked after call.
     1.1      mrg  */
     1.1      mrg
     1.5      mrg static __inline boolean_t
     1.5      mrg uvmfault_relock(ufi)
     1.5      mrg 	struct uvm_faultinfo *ufi;
     1.5      mrg {
    1.10      chs 	/*
    1.10      chs 	 * ufi can be NULL when this isn't really a fault,
    1.10      chs 	 * but merely paging in anon data.
    1.10      chs 	 */
    1.10      chs
    1.10      chs 	if (ufi == NULL) {
    1.10      chs 		return TRUE;
    1.10      chs 	}
     1.1      mrg
     1.5      mrg 	uvmexp.fltrelck++;
    1.10      chs
     1.5      mrg 	/*
1.11.2.1  nathanw 	 * relock map.   fail if version mismatch (in which case nothing
     1.6    chuck 	 * gets locked).
     1.5      mrg 	 */
     1.5      mrg
     1.5      mrg 	vm_map_lock_read(ufi->map);
     1.5      mrg 	if (ufi->mapv != ufi->map->timestamp) {
     1.5      mrg 		vm_map_unlock_read(ufi->map);
     1.5      mrg 		return(FALSE);
     1.5      mrg 	}
     1.1      mrg
     1.5      mrg 	uvmexp.fltrelckok++;
1.11.2.3  nathanw 	return(TRUE);
     1.1      mrg }
     1.4    perry
     1.4    perry #endif /* _UVM_UVM_FAULT_I_H_ */