kern_ras.c revision 1.19.10.1
1 1.19.10.1 jmcneill /* $NetBSD: kern_ras.c,v 1.19.10.1 2007/08/16 11:03:32 jmcneill Exp $ */ 2 1.1 gmcgarry 3 1.1 gmcgarry /*- 4 1.16 ad * Copyright (c) 2002, 2006 The NetBSD Foundation, Inc. 5 1.1 gmcgarry * All rights reserved. 6 1.1 gmcgarry * 7 1.1 gmcgarry * This code is derived from software contributed to The NetBSD Foundation 8 1.1 gmcgarry * by Gregory McGarry. 9 1.1 gmcgarry * 10 1.1 gmcgarry * Redistribution and use in source and binary forms, with or without 11 1.1 gmcgarry * modification, are permitted provided that the following conditions 12 1.1 gmcgarry * are met: 13 1.1 gmcgarry * 1. Redistributions of source code must retain the above copyright 14 1.1 gmcgarry * notice, this list of conditions and the following disclaimer. 15 1.1 gmcgarry * 2. Redistributions in binary form must reproduce the above copyright 16 1.1 gmcgarry * notice, this list of conditions and the following disclaimer in the 17 1.1 gmcgarry * documentation and/or other materials provided with the distribution. 18 1.1 gmcgarry * 3. All advertising materials mentioning features or use of this software 19 1.1 gmcgarry * must display the following acknowledgement: 20 1.1 gmcgarry * This product includes software developed by the NetBSD 21 1.1 gmcgarry * Foundation, Inc. and its contributors. 22 1.1 gmcgarry * 4. Neither the name of The NetBSD Foundation nor the names of its 23 1.1 gmcgarry * contributors may be used to endorse or promote products derived 24 1.1 gmcgarry * from this software without specific prior written permission. 25 1.1 gmcgarry * 26 1.1 gmcgarry * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 27 1.1 gmcgarry * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 28 1.1 gmcgarry * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 29 1.1 gmcgarry * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 30 1.1 gmcgarry * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 31 1.1 gmcgarry * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 32 1.1 gmcgarry * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 33 1.1 gmcgarry * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 34 1.1 gmcgarry * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 35 1.1 gmcgarry * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 36 1.1 gmcgarry * POSSIBILITY OF SUCH DAMAGE. 37 1.1 gmcgarry */ 38 1.1 gmcgarry 39 1.1 gmcgarry #include <sys/cdefs.h> 40 1.19.10.1 jmcneill __KERNEL_RCSID(0, "$NetBSD: kern_ras.c,v 1.19.10.1 2007/08/16 11:03:32 jmcneill Exp $"); 41 1.1 gmcgarry 42 1.1 gmcgarry #include <sys/param.h> 43 1.1 gmcgarry #include <sys/lock.h> 44 1.1 gmcgarry #include <sys/systm.h> 45 1.1 gmcgarry #include <sys/pool.h> 46 1.1 gmcgarry #include <sys/proc.h> 47 1.1 gmcgarry #include <sys/ras.h> 48 1.1 gmcgarry 49 1.1 gmcgarry #include <sys/mount.h> 50 1.1 gmcgarry #include <sys/syscallargs.h> 51 1.1 gmcgarry 52 1.1 gmcgarry #include <uvm/uvm_extern.h> 53 1.1 gmcgarry 54 1.13 thorpej POOL_INIT(ras_pool, sizeof(struct ras), 0, 0, 0, "raspl", 55 1.18 ad &pool_allocator_nointr, IPL_NONE); 56 1.13 thorpej 57 1.1 gmcgarry #define MAX_RAS_PER_PROC 16 58 1.1 gmcgarry 59 1.3 thorpej u_int ras_per_proc = MAX_RAS_PER_PROC; 60 1.1 gmcgarry 61 1.1 gmcgarry #ifdef DEBUG 62 1.1 gmcgarry int ras_debug = 0; 63 1.1 gmcgarry #define DPRINTF(x) if (ras_debug) printf x 64 1.1 gmcgarry #else 65 1.1 gmcgarry #define DPRINTF(x) /* nothing */ 66 1.1 gmcgarry #endif 67 1.1 gmcgarry 68 1.1 gmcgarry /* 69 1.1 gmcgarry * Check the specified address to see if it is within the 70 1.1 gmcgarry * sequence. If it is found, we return the restart address, 71 1.1 gmcgarry * otherwise we return -1. If we do perform a restart, we 72 1.1 gmcgarry * mark the sequence as hit. 73 1.1 gmcgarry */ 74 1.17 christos void * 75 1.17 christos ras_lookup(struct proc *p, void *addr) 76 1.1 gmcgarry { 77 1.1 gmcgarry struct ras *rp; 78 1.17 christos void *startaddr; 79 1.16 ad 80 1.17 christos startaddr = (void *)-1; 81 1.1 gmcgarry 82 1.1 gmcgarry #ifdef DIAGNOSTIC 83 1.17 christos if (addr < (void *)VM_MIN_ADDRESS || 84 1.17 christos addr > (void *)VM_MAXUSER_ADDRESS) 85 1.16 ad return (startaddr); 86 1.1 gmcgarry #endif 87 1.1 gmcgarry 88 1.16 ad mutex_enter(&p->p_rasmutex); 89 1.1 gmcgarry LIST_FOREACH(rp, &p->p_raslist, ras_list) { 90 1.1 gmcgarry if (addr > rp->ras_startaddr && addr < rp->ras_endaddr) { 91 1.1 gmcgarry rp->ras_hits++; 92 1.16 ad startaddr = rp->ras_startaddr; 93 1.1 gmcgarry DPRINTF(("RAS hit: p=%p %p\n", p, addr)); 94 1.16 ad break; 95 1.1 gmcgarry } 96 1.1 gmcgarry } 97 1.16 ad mutex_exit(&p->p_rasmutex); 98 1.1 gmcgarry 99 1.16 ad return (startaddr); 100 1.1 gmcgarry } 101 1.1 gmcgarry 102 1.1 gmcgarry /* 103 1.1 gmcgarry * During a fork, we copy all of the sequences from parent p1 to 104 1.1 gmcgarry * the child p2. 105 1.1 gmcgarry */ 106 1.1 gmcgarry int 107 1.1 gmcgarry ras_fork(struct proc *p1, struct proc *p2) 108 1.1 gmcgarry { 109 1.1 gmcgarry struct ras *rp, *nrp; 110 1.9 yamt int nras; 111 1.9 yamt 112 1.9 yamt again: 113 1.9 yamt /* 114 1.9 yamt * first, try to shortcut. 115 1.9 yamt */ 116 1.9 yamt 117 1.9 yamt if (LIST_EMPTY(&p1->p_raslist)) 118 1.9 yamt return (0); 119 1.9 yamt 120 1.9 yamt /* 121 1.9 yamt * count entries. 122 1.9 yamt */ 123 1.1 gmcgarry 124 1.9 yamt nras = 0; 125 1.16 ad mutex_enter(&p1->p_rasmutex); 126 1.9 yamt LIST_FOREACH(rp, &p1->p_raslist, ras_list) 127 1.6 dsl nras++; 128 1.16 ad mutex_exit(&p1->p_rasmutex); 129 1.9 yamt 130 1.9 yamt /* 131 1.9 yamt * allocate entries. 132 1.9 yamt */ 133 1.9 yamt 134 1.9 yamt for ( ; nras > 0; nras--) { 135 1.7 pooka nrp = pool_get(&ras_pool, PR_WAITOK); 136 1.9 yamt nrp->ras_hits = 0; 137 1.9 yamt LIST_INSERT_HEAD(&p2->p_raslist, nrp, ras_list); 138 1.9 yamt } 139 1.9 yamt 140 1.9 yamt /* 141 1.9 yamt * copy entries. 142 1.9 yamt */ 143 1.9 yamt 144 1.16 ad mutex_enter(&p1->p_rasmutex); 145 1.9 yamt nrp = LIST_FIRST(&p2->p_raslist); 146 1.9 yamt LIST_FOREACH(rp, &p1->p_raslist, ras_list) { 147 1.9 yamt if (nrp == NULL) 148 1.9 yamt break; 149 1.1 gmcgarry nrp->ras_startaddr = rp->ras_startaddr; 150 1.1 gmcgarry nrp->ras_endaddr = rp->ras_endaddr; 151 1.9 yamt nrp = LIST_NEXT(nrp, ras_list); 152 1.1 gmcgarry } 153 1.16 ad mutex_exit(&p1->p_rasmutex); 154 1.6 dsl 155 1.9 yamt /* 156 1.9 yamt * if we lose a race, retry. 157 1.9 yamt */ 158 1.9 yamt 159 1.9 yamt if (rp != NULL || nrp != NULL) { 160 1.9 yamt ras_purgeall(p2); 161 1.9 yamt goto again; 162 1.9 yamt } 163 1.9 yamt 164 1.6 dsl DPRINTF(("ras_fork: p1=%p, p2=%p, nras=%d\n", p1, p2, nras)); 165 1.1 gmcgarry 166 1.1 gmcgarry return (0); 167 1.1 gmcgarry } 168 1.1 gmcgarry 169 1.1 gmcgarry /* 170 1.1 gmcgarry * Nuke all sequences for this process. 171 1.1 gmcgarry */ 172 1.1 gmcgarry int 173 1.1 gmcgarry ras_purgeall(struct proc *p) 174 1.1 gmcgarry { 175 1.1 gmcgarry struct ras *rp; 176 1.1 gmcgarry 177 1.16 ad mutex_enter(&p->p_rasmutex); 178 1.1 gmcgarry while (!LIST_EMPTY(&p->p_raslist)) { 179 1.1 gmcgarry rp = LIST_FIRST(&p->p_raslist); 180 1.10 perry DPRINTF(("RAS %p-%p, hits %d\n", rp->ras_startaddr, 181 1.1 gmcgarry rp->ras_endaddr, rp->ras_hits)); 182 1.1 gmcgarry LIST_REMOVE(rp, ras_list); 183 1.18 ad mutex_exit(&p->p_rasmutex); 184 1.1 gmcgarry pool_put(&ras_pool, rp); 185 1.18 ad mutex_enter(&p->p_rasmutex); 186 1.1 gmcgarry } 187 1.16 ad mutex_exit(&p->p_rasmutex); 188 1.1 gmcgarry 189 1.1 gmcgarry return (0); 190 1.1 gmcgarry } 191 1.1 gmcgarry 192 1.12 hannken #if defined(__HAVE_RAS) 193 1.12 hannken 194 1.1 gmcgarry /* 195 1.1 gmcgarry * Install the new sequence. If it already exists, return 196 1.1 gmcgarry * an error. 197 1.1 gmcgarry */ 198 1.11 thorpej static int 199 1.17 christos ras_install(struct proc *p, void *addr, size_t len) 200 1.1 gmcgarry { 201 1.1 gmcgarry struct ras *rp; 202 1.8 yamt struct ras *newrp; 203 1.17 christos void *endaddr = (char *)addr + len; 204 1.6 dsl int nras = 0; 205 1.1 gmcgarry 206 1.17 christos if (addr < (void *)VM_MIN_ADDRESS || 207 1.17 christos endaddr > (void *)VM_MAXUSER_ADDRESS) 208 1.1 gmcgarry return (EINVAL); 209 1.1 gmcgarry 210 1.1 gmcgarry if (len <= 0) 211 1.1 gmcgarry return (EINVAL); 212 1.1 gmcgarry 213 1.8 yamt newrp = NULL; 214 1.8 yamt again: 215 1.16 ad mutex_enter(&p->p_rasmutex); 216 1.1 gmcgarry LIST_FOREACH(rp, &p->p_raslist, ras_list) { 217 1.19 thorpej if (++nras >= ras_per_proc) { 218 1.16 ad mutex_exit(&p->p_rasmutex); 219 1.1 gmcgarry return (EINVAL); 220 1.1 gmcgarry } 221 1.19 thorpej if (addr < rp->ras_endaddr && endaddr > rp->ras_startaddr) { 222 1.19 thorpej mutex_exit(&p->p_rasmutex); 223 1.19 thorpej return (EEXIST); 224 1.19 thorpej } 225 1.1 gmcgarry } 226 1.8 yamt if (newrp == NULL) { 227 1.16 ad mutex_exit(&p->p_rasmutex); 228 1.8 yamt newrp = pool_get(&ras_pool, PR_WAITOK); 229 1.8 yamt goto again; 230 1.8 yamt } 231 1.8 yamt newrp->ras_startaddr = addr; 232 1.8 yamt newrp->ras_endaddr = endaddr; 233 1.8 yamt newrp->ras_hits = 0; 234 1.8 yamt LIST_INSERT_HEAD(&p->p_raslist, newrp, ras_list); 235 1.16 ad mutex_exit(&p->p_rasmutex); 236 1.1 gmcgarry 237 1.1 gmcgarry return (0); 238 1.1 gmcgarry } 239 1.1 gmcgarry 240 1.1 gmcgarry /* 241 1.1 gmcgarry * Nuke the specified sequence. Both address and len must 242 1.1 gmcgarry * match, otherwise we return an error. 243 1.1 gmcgarry */ 244 1.11 thorpej static int 245 1.17 christos ras_purge(struct proc *p, void *addr, size_t len) 246 1.1 gmcgarry { 247 1.1 gmcgarry struct ras *rp; 248 1.17 christos void *endaddr = (char *)addr + len; 249 1.1 gmcgarry int error = ESRCH; 250 1.1 gmcgarry 251 1.16 ad mutex_enter(&p->p_rasmutex); 252 1.1 gmcgarry LIST_FOREACH(rp, &p->p_raslist, ras_list) { 253 1.1 gmcgarry if (addr == rp->ras_startaddr && endaddr == rp->ras_endaddr) { 254 1.1 gmcgarry LIST_REMOVE(rp, ras_list); 255 1.1 gmcgarry break; 256 1.1 gmcgarry } 257 1.1 gmcgarry } 258 1.16 ad mutex_exit(&p->p_rasmutex); 259 1.16 ad 260 1.16 ad if (rp != NULL) { 261 1.16 ad pool_put(&ras_pool, rp); 262 1.16 ad error = 0; 263 1.16 ad } 264 1.1 gmcgarry 265 1.1 gmcgarry return (error); 266 1.1 gmcgarry } 267 1.1 gmcgarry 268 1.12 hannken #endif /* defined(__HAVE_RAS) */ 269 1.12 hannken 270 1.1 gmcgarry /*ARGSUSED*/ 271 1.1 gmcgarry int 272 1.15 yamt sys_rasctl(struct lwp *l, void *v, register_t *retval) 273 1.1 gmcgarry { 274 1.1 gmcgarry 275 1.1 gmcgarry #if defined(__HAVE_RAS) 276 1.1 gmcgarry 277 1.1 gmcgarry struct sys_rasctl_args /* { 278 1.17 christos syscallarg(void *) addr; 279 1.1 gmcgarry syscallarg(size_t) len; 280 1.1 gmcgarry syscallarg(int) op; 281 1.1 gmcgarry } */ *uap = v; 282 1.4 thorpej struct proc *p = l->l_proc; 283 1.17 christos void *addr; 284 1.1 gmcgarry size_t len; 285 1.1 gmcgarry int op; 286 1.1 gmcgarry int error; 287 1.1 gmcgarry 288 1.1 gmcgarry /* 289 1.1 gmcgarry * first, extract syscall args from the uap. 290 1.1 gmcgarry */ 291 1.1 gmcgarry 292 1.17 christos addr = (void *)SCARG(uap, addr); 293 1.1 gmcgarry len = (size_t)SCARG(uap, len); 294 1.1 gmcgarry op = SCARG(uap, op); 295 1.1 gmcgarry 296 1.2 thorpej DPRINTF(("sys_rasctl: p=%p addr=%p, len=%ld, op=0x%x\n", 297 1.2 thorpej p, addr, (long)len, op)); 298 1.1 gmcgarry 299 1.1 gmcgarry switch (op) { 300 1.1 gmcgarry case RAS_INSTALL: 301 1.1 gmcgarry error = ras_install(p, addr, len); 302 1.1 gmcgarry break; 303 1.1 gmcgarry case RAS_PURGE: 304 1.1 gmcgarry error = ras_purge(p, addr, len); 305 1.1 gmcgarry break; 306 1.1 gmcgarry case RAS_PURGE_ALL: 307 1.1 gmcgarry error = ras_purgeall(p); 308 1.1 gmcgarry break; 309 1.1 gmcgarry default: 310 1.1 gmcgarry error = EINVAL; 311 1.1 gmcgarry break; 312 1.1 gmcgarry } 313 1.1 gmcgarry 314 1.1 gmcgarry return (error); 315 1.1 gmcgarry 316 1.1 gmcgarry #else 317 1.1 gmcgarry 318 1.1 gmcgarry return (EOPNOTSUPP); 319 1.1 gmcgarry 320 1.1 gmcgarry #endif 321 1.1 gmcgarry 322 1.1 gmcgarry } 323
Indexes created Sun Sep 28 16:09:52 GMT 2025