1 /* 2 * CDDL HEADER START 3 * 4 * The contents of this file are subject to the terms of the 5 * Common Development and Distribution License (the "License"). 6 * You may not use this file except in compliance with the License. 7 * 8 * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE 9 * or http://www.opensolaris.org/os/licensing. 10 * See the License for the specific language governing permissions 11 * and limitations under the License. 12 * 13 * When distributing Covered Code, include this CDDL HEADER in each 14 * file and include the License file at usr/src/OPENSOLARIS.LICENSE. 15 * If applicable, add the following below this CDDL HEADER, with the 16 * fields enclosed by brackets "[]" replaced with your own identifying 17 * information: Portions Copyright [yyyy] [name of copyright owner] 18 * 19 * CDDL HEADER END 20 */ 21 /* 22 * Copyright 2008 Sun Microsystems, Inc. All rights reserved. 23 * Use is subject to license terms. 24 */ 25 26 /* Copyright (c) 1984, 1986, 1987, 1988, 1989 AT&T */ 27 /* All Rights Reserved */ 28 29 /* 30 * University Copyright- Copyright (c) 1982, 1986, 1988 31 * The Regents of the University of California 32 * All Rights Reserved 33 * 34 * University Acknowledgment- Portions of this document are derived from 35 * software developed by the University of California, Berkeley, and its 36 * contributors. 37 */ 38 39 #ifndef _VM_AS_H 40 #define _VM_AS_H 41 42 #pragma ident "%Z%%M% %I% %E% SMI" 43 44 #include <sys/watchpoint.h> 45 #include <vm/seg.h> 46 #include <vm/faultcode.h> 47 #include <vm/hat.h> 48 #include <sys/avl.h> 49 #include <sys/proc.h> 50 51 #ifdef __cplusplus 52 extern "C" { 53 #endif 54 55 /* 56 * VM - Address spaces. 57 */ 58 59 /* 60 * Each address space consists of a sorted list of segments 61 * and machine dependent address translation information. 62 * 63 * All the hard work is in the segment drivers and the 64 * hardware address translation code. 65 * 66 * The segment list is represented as an AVL tree. 67 * 68 * The address space lock (a_lock) is a long term lock which serializes 69 * access to certain operations (as_map, as_unmap) and protects the 70 * underlying generic segment data (seg.h) along with some fields in the 71 * address space structure as shown below: 72 * 73 * address space structure segment structure 74 * 75 * a_segtree s_base 76 * a_size s_size 77 * a_lastgap s_link 78 * a_seglast s_ops 79 * s_as 80 * s_data 81 * 82 * The address space contents lock (a_contents) is a short term 83 * lock that protects most of the data in the address space structure. 84 * This lock is always acquired after the "a_lock" in all situations 85 * except while dealing with AS_CLAIMGAP to avoid deadlocks. 86 * 87 * The following fields are protected by this lock: 88 * 89 * a_flags (AS_PAGLCK, AS_CLAIMGAP, etc.) 90 * a_unmapwait 91 * a_seglast 92 * 93 * The address space lock (a_lock) is always held prior to any segment 94 * operation. Some segment drivers use the address space lock to protect 95 * some or all of their segment private data, provided the version of 96 * "a_lock" (read vs. write) is consistent with the use of the data. 97 * 98 * The following fields are protected by the hat layer lock: 99 * 100 * a_vbits 101 * a_hat 102 * a_hrm 103 */ 104 105 struct as { 106 kmutex_t a_contents; /* protect certain fields in the structure */ 107 uchar_t a_flags; /* as attributes */ 108 uchar_t a_vbits; /* used for collecting statistics */ 109 kcondvar_t a_cv; /* used by as_rangelock */ 110 struct hat *a_hat; /* hat structure */ 111 struct hrmstat *a_hrm; /* ref and mod bits */ 112 caddr_t a_userlimit; /* highest allowable address in this as */ 113 struct seg *a_seglast; /* last segment hit on the addr space */ 114 krwlock_t a_lock; /* protects segment related fields */ 115 size_t a_size; /* size of address space */ 116 struct seg *a_lastgap; /* last seg found by as_gap() w/ AS_HI (mmap) */ 117 struct seg *a_lastgaphl; /* last seg saved in as_gap() either for */ 118 /* AS_HI or AS_LO used in as_addseg() */ 119 avl_tree_t a_segtree; /* segments in this address space. (AVL tree) */ 120 avl_tree_t a_wpage; /* watched pages (procfs) */ 121 uchar_t a_updatedir; /* mappings changed, rebuild a_objectdir */ 122 timespec_t a_updatetime; /* time when mappings last changed */ 123 vnode_t **a_objectdir; /* object directory (procfs) */ 124 size_t a_sizedir; /* size of object directory */ 125 struct as_callback *a_callbacks; /* callback list */ 126 void *a_xhat; /* list of xhat providers */ 127 proc_t *a_proc; /* back pointer to proc */ 128 }; 129 130 #define AS_PAGLCK 0x80 131 #define AS_CLAIMGAP 0x40 132 #define AS_UNMAPWAIT 0x20 133 #define AS_NEEDSPURGE 0x10 /* mostly for seg_nf, see as_purge() */ 134 #define AS_NOUNMAPWAIT 0x02 135 #define AS_BUSY 0x01 /* needed by XHAT framework */ 136 137 #define AS_ISPGLCK(as) ((as)->a_flags & AS_PAGLCK) 138 #define AS_ISCLAIMGAP(as) ((as)->a_flags & AS_CLAIMGAP) 139 #define AS_ISUNMAPWAIT(as) ((as)->a_flags & AS_UNMAPWAIT) 140 #define AS_ISBUSY(as) ((as)->a_flags & AS_BUSY) 141 #define AS_ISNOUNMAPWAIT(as) ((as)->a_flags & AS_NOUNMAPWAIT) 142 143 #define AS_SETPGLCK(as) ((as)->a_flags |= AS_PAGLCK) 144 #define AS_SETCLAIMGAP(as) ((as)->a_flags |= AS_CLAIMGAP) 145 #define AS_SETUNMAPWAIT(as) ((as)->a_flags |= AS_UNMAPWAIT) 146 #define AS_SETBUSY(as) ((as)->a_flags |= AS_BUSY) 147 #define AS_SETNOUNMAPWAIT(as) ((as)->a_flags |= AS_NOUNMAPWAIT) 148 149 #define AS_CLRPGLCK(as) ((as)->a_flags &= ~AS_PAGLCK) 150 #define AS_CLRCLAIMGAP(as) ((as)->a_flags &= ~AS_CLAIMGAP) 151 #define AS_CLRUNMAPWAIT(as) ((as)->a_flags &= ~AS_UNMAPWAIT) 152 #define AS_CLRBUSY(as) ((as)->a_flags &= ~AS_BUSY) 153 #define AS_CLRNOUNMAPWAIT(as) ((as)->a_flags &= ~AS_NOUNMAPWAIT) 154 155 #define AS_TYPE_64BIT(as) \ 156 (((as)->a_userlimit > (caddr_t)UINT32_MAX) ? 1 : 0) 157 158 /* 159 * Flags for as_map/as_map_ansegs 160 */ 161 #define AS_MAP_NO_LPOOB ((uint_t)-1) 162 #define AS_MAP_HEAP ((uint_t)-2) 163 #define AS_MAP_STACK ((uint_t)-3) 164 165 /* 166 * The as_callback is the basic structure which supports the ability to 167 * inform clients of specific events pertaining to address space management. 168 * A user calls as_add_callback to register an address space callback 169 * for a range of pages, specifying the events that need to occur. 170 * When as_do_callbacks is called and finds a 'matching' entry, the 171 * callback is called once, and the callback function MUST call 172 * as_delete_callback when all callback activities are complete. 173 * The thread calling as_do_callbacks blocks until the as_delete_callback 174 * is called. This allows for asynchorous events to subside before the 175 * as_do_callbacks thread continues. 176 * 177 * An example of the need for this is a driver which has done long-term 178 * locking of memory. Address space management operations (events) such 179 * as as_free, as_umap, and as_setprot will block indefinitely until the 180 * pertinent memory is unlocked. The callback mechanism provides the 181 * way to inform the driver of the event so that the driver may do the 182 * necessary unlocking. 183 * 184 * The contents of this structure is protected by a_contents lock 185 */ 186 typedef void (*callback_func_t)(struct as *, void *, uint_t); 187 struct as_callback { 188 struct as_callback *ascb_next; /* list link */ 189 uint_t ascb_events; /* event types */ 190 callback_func_t ascb_func; /* callback function */ 191 void *ascb_arg; /* callback argument */ 192 caddr_t ascb_saddr; /* start address */ 193 size_t ascb_len; /* address range */ 194 }; 195 /* 196 * Callback events 197 */ 198 #define AS_FREE_EVENT 0x1 199 #define AS_SETPROT_EVENT 0x2 200 #define AS_UNMAP_EVENT 0x4 201 #define AS_CALLBACK_CALLED ((uint_t)(1U << (8 * sizeof (uint_t) - 1U))) 202 #define AS_UNMAPWAIT_EVENT \ 203 (AS_FREE_EVENT | AS_SETPROT_EVENT | AS_UNMAP_EVENT) 204 #define AS_ALL_EVENT \ 205 (AS_FREE_EVENT | AS_SETPROT_EVENT | AS_UNMAP_EVENT) 206 207 208 /* Return code values for as_callback_delete */ 209 enum as_cbdelete_rc { 210 AS_CALLBACK_DELETED, 211 AS_CALLBACK_NOTFOUND, 212 AS_CALLBACK_DELETE_DEFERRED 213 }; 214 215 #ifdef _KERNEL 216 217 /* 218 * Flags for as_gap. 219 */ 220 #define AH_DIR 0x1 /* direction flag mask */ 221 #define AH_LO 0x0 /* find lowest hole */ 222 #define AH_HI 0x1 /* find highest hole */ 223 #define AH_CONTAIN 0x2 /* hole must contain `addr' */ 224 225 extern struct as kas; /* kernel's address space */ 226 227 /* 228 * Macros for address space locking. 229 */ 230 #define AS_LOCK_ENTER(as, lock, type) rw_enter((lock), (type)) 231 #define AS_LOCK_EXIT(as, lock) rw_exit((lock)) 232 #define AS_LOCK_DESTROY(as, lock) rw_destroy((lock)) 233 #define AS_LOCK_TRYENTER(as, lock, type) rw_tryenter((lock), (type)) 234 235 /* 236 * Macros to test lock states. 237 */ 238 #define AS_LOCK_HELD(as, lock) RW_LOCK_HELD((lock)) 239 #define AS_READ_HELD(as, lock) RW_READ_HELD((lock)) 240 #define AS_WRITE_HELD(as, lock) RW_WRITE_HELD((lock)) 241 242 /* 243 * macros to walk thru segment lists 244 */ 245 #define AS_SEGFIRST(as) avl_first(&(as)->a_segtree) 246 #define AS_SEGNEXT(as, seg) AVL_NEXT(&(as)->a_segtree, (seg)) 247 #define AS_SEGPREV(as, seg) AVL_PREV(&(as)->a_segtree, (seg)) 248 249 void as_init(void); 250 void as_avlinit(struct as *); 251 struct seg *as_segat(struct as *as, caddr_t addr); 252 void as_rangelock(struct as *as); 253 void as_rangeunlock(struct as *as); 254 struct as *as_alloc(); 255 void as_free(struct as *as); 256 int as_dup(struct as *as, struct as **outas); 257 struct seg *as_findseg(struct as *as, caddr_t addr, int tail); 258 int as_addseg(struct as *as, struct seg *newseg); 259 struct seg *as_removeseg(struct as *as, struct seg *seg); 260 faultcode_t as_fault(struct hat *hat, struct as *as, caddr_t addr, size_t size, 261 enum fault_type type, enum seg_rw rw); 262 faultcode_t as_faulta(struct as *as, caddr_t addr, size_t size); 263 int as_setprot(struct as *as, caddr_t addr, size_t size, uint_t prot); 264 int as_checkprot(struct as *as, caddr_t addr, size_t size, uint_t prot); 265 int as_unmap(struct as *as, caddr_t addr, size_t size); 266 int as_map(struct as *as, caddr_t addr, size_t size, int ((*crfp)()), 267 void *argsp); 268 void as_purge(struct as *as); 269 int as_gap(struct as *as, size_t minlen, caddr_t *basep, size_t *lenp, 270 uint_t flags, caddr_t addr); 271 int as_gap_aligned(struct as *as, size_t minlen, caddr_t *basep, 272 size_t *lenp, uint_t flags, caddr_t addr, size_t align, 273 size_t redzone, size_t off); 274 275 int as_memory(struct as *as, caddr_t *basep, size_t *lenp); 276 size_t as_swapout(struct as *as); 277 int as_incore(struct as *as, caddr_t addr, size_t size, char *vec, 278 size_t *sizep); 279 int as_ctl(struct as *as, caddr_t addr, size_t size, int func, int attr, 280 uintptr_t arg, ulong_t *lock_map, size_t pos); 281 int as_exec(struct as *oas, caddr_t ostka, size_t stksz, 282 struct as *nas, caddr_t nstka, uint_t hatflag); 283 int as_pagelock(struct as *as, struct page ***ppp, caddr_t addr, 284 size_t size, enum seg_rw rw); 285 void as_pageunlock(struct as *as, struct page **pp, caddr_t addr, 286 size_t size, enum seg_rw rw); 287 int as_setpagesize(struct as *as, caddr_t addr, size_t size, uint_t szc, 288 boolean_t wait); 289 int as_set_default_lpsize(struct as *as, caddr_t addr, size_t size); 290 void as_setwatch(struct as *as); 291 void as_clearwatch(struct as *as); 292 int as_getmemid(struct as *, caddr_t, memid_t *); 293 294 int as_add_callback(struct as *, void (*)(), void *, uint_t, 295 caddr_t, size_t, int); 296 uint_t as_delete_callback(struct as *, void *); 297 298 #endif /* _KERNEL */ 299 300 #ifdef __cplusplus 301 } 302 #endif 303 304 #endif /* _VM_AS_H */ 305