kern_sysctl.c revision 1.93.2.1
1 1.93.2.1 thorpej /* $NetBSD: kern_sysctl.c,v 1.93.2.1 2001/09/07 04:45:37 thorpej Exp $ */ 2 1.2 cgd 3 1.1 cgd /*- 4 1.1 cgd * Copyright (c) 1982, 1986, 1989, 1993 5 1.1 cgd * The Regents of the University of California. All rights reserved. 6 1.1 cgd * 7 1.1 cgd * This code is derived from software contributed to Berkeley by 8 1.1 cgd * Mike Karels at Berkeley Software Design, Inc. 9 1.1 cgd * 10 1.1 cgd * Redistribution and use in source and binary forms, with or without 11 1.1 cgd * modification, are permitted provided that the following conditions 12 1.1 cgd * are met: 13 1.1 cgd * 1. Redistributions of source code must retain the above copyright 14 1.1 cgd * notice, this list of conditions and the following disclaimer. 15 1.1 cgd * 2. Redistributions in binary form must reproduce the above copyright 16 1.1 cgd * notice, this list of conditions and the following disclaimer in the 17 1.1 cgd * documentation and/or other materials provided with the distribution. 18 1.1 cgd * 3. All advertising materials mentioning features or use of this software 19 1.1 cgd * must display the following acknowledgement: 20 1.1 cgd * This product includes software developed by the University of 21 1.1 cgd * California, Berkeley and its contributors. 22 1.1 cgd * 4. Neither the name of the University nor the names of its contributors 23 1.1 cgd * may be used to endorse or promote products derived from this software 24 1.1 cgd * without specific prior written permission. 25 1.1 cgd * 26 1.1 cgd * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 27 1.1 cgd * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 28 1.1 cgd * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 29 1.1 cgd * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 30 1.1 cgd * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 31 1.1 cgd * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 32 1.1 cgd * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 33 1.1 cgd * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 34 1.1 cgd * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 35 1.1 cgd * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 36 1.1 cgd * SUCH DAMAGE. 37 1.1 cgd * 38 1.34 fvdl * @(#)kern_sysctl.c 8.9 (Berkeley) 5/20/95 39 1.1 cgd */ 40 1.1 cgd 41 1.1 cgd /* 42 1.1 cgd * sysctl system call. 43 1.1 cgd */ 44 1.30 thorpej 45 1.38 jonathan #include "opt_ddb.h" 46 1.30 thorpej #include "opt_insecure.h" 47 1.52 bouyer #include "opt_defcorename.h" 48 1.89 jdolecek #include "opt_new_pipe.h" 49 1.42 tron #include "opt_sysv.h" 50 1.77 jdolecek #include "pty.h" 51 1.1 cgd 52 1.1 cgd #include <sys/param.h> 53 1.1 cgd #include <sys/systm.h> 54 1.1 cgd #include <sys/kernel.h> 55 1.62 simonb #include <sys/buf.h> 56 1.62 simonb #include <sys/device.h> 57 1.62 simonb #include <sys/disklabel.h> 58 1.62 simonb #include <sys/dkstat.h> 59 1.62 simonb #include <sys/exec.h> 60 1.62 simonb #include <sys/file.h> 61 1.62 simonb #include <sys/ioctl.h> 62 1.1 cgd #include <sys/malloc.h> 63 1.62 simonb #include <sys/mount.h> 64 1.62 simonb #include <sys/msgbuf.h> 65 1.52 bouyer #include <sys/pool.h> 66 1.1 cgd #include <sys/proc.h> 67 1.62 simonb #include <sys/resource.h> 68 1.62 simonb #include <sys/resourcevar.h> 69 1.62 simonb #include <sys/syscallargs.h> 70 1.62 simonb #include <sys/tty.h> 71 1.62 simonb #include <sys/unistd.h> 72 1.1 cgd #include <sys/vnode.h> 73 1.93 thorpej #include <sys/socketvar.h> 74 1.75 thorpej #define __SYSCTL_PRIVATE 75 1.1 cgd #include <sys/sysctl.h> 76 1.75 thorpej #include <sys/lock.h> 77 1.38 jonathan 78 1.93.2.1 thorpej #include <miscfs/specfs/specdev.h> 79 1.93.2.1 thorpej 80 1.69 simonb #if defined(SYSVMSG) || defined(SYSVSEM) || defined(SYSVSHM) 81 1.69 simonb #include <sys/ipc.h> 82 1.69 simonb #endif 83 1.69 simonb #ifdef SYSVMSG 84 1.69 simonb #include <sys/msg.h> 85 1.69 simonb #endif 86 1.69 simonb #ifdef SYSVSEM 87 1.69 simonb #include <sys/sem.h> 88 1.69 simonb #endif 89 1.69 simonb #ifdef SYSVSHM 90 1.69 simonb #include <sys/shm.h> 91 1.69 simonb #endif 92 1.69 simonb 93 1.74 simonb #include <dev/cons.h> 94 1.74 simonb 95 1.38 jonathan #if defined(DDB) 96 1.38 jonathan #include <ddb/ddbvar.h> 97 1.90 jdolecek #endif 98 1.90 jdolecek 99 1.90 jdolecek #ifdef NEW_PIPE 100 1.90 jdolecek #include <sys/pipe.h> 101 1.31 mrg #endif 102 1.31 mrg 103 1.62 simonb #define PTRTOINT64(foo) ((u_int64_t)(uintptr_t)(foo)) 104 1.62 simonb 105 1.91 simonb static int sysctl_file(void *, size_t *); 106 1.69 simonb #if defined(SYSVMSG) || defined(SYSVSEM) || defined(SYSVSHM) 107 1.91 simonb static int sysctl_sysvipc(int *, u_int, void *, size_t *); 108 1.69 simonb #endif 109 1.91 simonb static int sysctl_msgbuf(void *, size_t *); 110 1.91 simonb static int sysctl_doeproc(int *, u_int, void *, size_t *); 111 1.83 sommerfe #ifdef MULTIPROCESSOR 112 1.91 simonb static int sysctl_docptime(void *, size_t *, void *); 113 1.91 simonb static int sysctl_ncpus(void); 114 1.83 sommerfe #endif 115 1.91 simonb static void fill_kproc2(struct proc *, struct kinfo_proc2 *); 116 1.91 simonb static int sysctl_procargs(int *, u_int, void *, size_t *, struct proc *); 117 1.80 bjh21 #if NPTY > 0 118 1.91 simonb static int sysctl_pty(void *, size_t *, void *, size_t); 119 1.80 bjh21 #endif 120 1.62 simonb 121 1.75 thorpej /* 122 1.75 thorpej * The `sysctl_memlock' is intended to keep too many processes from 123 1.75 thorpej * locking down memory by doing sysctls at once. Whether or not this 124 1.75 thorpej * is really a good idea to worry about it probably a subject of some 125 1.75 thorpej * debate. 126 1.75 thorpej */ 127 1.75 thorpej struct lock sysctl_memlock; 128 1.75 thorpej 129 1.75 thorpej void 130 1.75 thorpej sysctl_init(void) 131 1.75 thorpej { 132 1.75 thorpej 133 1.75 thorpej lockinit(&sysctl_memlock, PRIBIO|PCATCH, "sysctl", 0, 0); 134 1.75 thorpej } 135 1.75 thorpej 136 1.1 cgd int 137 1.91 simonb sys___sysctl(struct proc *p, void *v, register_t *retval) 138 1.11 thorpej { 139 1.60 augustss struct sys___sysctl_args /* { 140 1.5 cgd syscallarg(int *) name; 141 1.5 cgd syscallarg(u_int) namelen; 142 1.5 cgd syscallarg(void *) old; 143 1.5 cgd syscallarg(size_t *) oldlenp; 144 1.5 cgd syscallarg(void *) new; 145 1.5 cgd syscallarg(size_t) newlen; 146 1.11 thorpej } */ *uap = v; 147 1.75 thorpej int error; 148 1.13 christos size_t savelen = 0, oldlen = 0; 149 1.1 cgd sysctlfn *fn; 150 1.1 cgd int name[CTL_MAXNAME]; 151 1.55 is size_t *oldlenp; 152 1.1 cgd 153 1.1 cgd /* 154 1.1 cgd * all top-level sysctl names are non-terminal 155 1.1 cgd */ 156 1.5 cgd if (SCARG(uap, namelen) > CTL_MAXNAME || SCARG(uap, namelen) < 2) 157 1.1 cgd return (EINVAL); 158 1.13 christos error = copyin(SCARG(uap, name), &name, 159 1.13 christos SCARG(uap, namelen) * sizeof(int)); 160 1.13 christos if (error) 161 1.1 cgd return (error); 162 1.1 cgd 163 1.52 bouyer /* 164 1.52 bouyer * For all but CTL_PROC, must be root to change a value. 165 1.52 bouyer * For CTL_PROC, must be root, or owner of the proc (and not suid), 166 1.52 bouyer * this is checked in proc_sysctl() (once we know the targer proc). 167 1.52 bouyer */ 168 1.52 bouyer if (SCARG(uap, new) != NULL && name[0] != CTL_PROC && 169 1.52 bouyer (error = suser(p->p_ucred, &p->p_acflag))) 170 1.52 bouyer return error; 171 1.52 bouyer 172 1.1 cgd switch (name[0]) { 173 1.1 cgd case CTL_KERN: 174 1.1 cgd fn = kern_sysctl; 175 1.1 cgd break; 176 1.1 cgd case CTL_HW: 177 1.1 cgd fn = hw_sysctl; 178 1.1 cgd break; 179 1.1 cgd case CTL_VM: 180 1.31 mrg fn = uvm_sysctl; 181 1.1 cgd break; 182 1.1 cgd case CTL_NET: 183 1.1 cgd fn = net_sysctl; 184 1.1 cgd break; 185 1.34 fvdl case CTL_VFS: 186 1.34 fvdl fn = vfs_sysctl; 187 1.1 cgd break; 188 1.1 cgd case CTL_MACHDEP: 189 1.1 cgd fn = cpu_sysctl; 190 1.1 cgd break; 191 1.1 cgd #ifdef DEBUG 192 1.1 cgd case CTL_DEBUG: 193 1.1 cgd fn = debug_sysctl; 194 1.20 thorpej break; 195 1.20 thorpej #endif 196 1.20 thorpej #ifdef DDB 197 1.20 thorpej case CTL_DDB: 198 1.20 thorpej fn = ddb_sysctl; 199 1.1 cgd break; 200 1.1 cgd #endif 201 1.52 bouyer case CTL_PROC: 202 1.52 bouyer fn = proc_sysctl; 203 1.52 bouyer break; 204 1.1 cgd default: 205 1.1 cgd return (EOPNOTSUPP); 206 1.1 cgd } 207 1.1 cgd 208 1.75 thorpej /* 209 1.75 thorpej * XXX Hey, we wire `old', but what about `new'? 210 1.75 thorpej */ 211 1.75 thorpej 212 1.55 is oldlenp = SCARG(uap, oldlenp); 213 1.55 is if (oldlenp) { 214 1.55 is if ((error = copyin(oldlenp, &oldlen, sizeof(oldlen)))) 215 1.55 is return (error); 216 1.55 is oldlenp = &oldlen; 217 1.55 is } 218 1.5 cgd if (SCARG(uap, old) != NULL) { 219 1.75 thorpej error = lockmgr(&sysctl_memlock, LK_EXCLUSIVE, NULL); 220 1.75 thorpej if (error) 221 1.75 thorpej return (error); 222 1.87 chs error = uvm_vslock(p, SCARG(uap, old), oldlen, 223 1.87 chs VM_PROT_READ|VM_PROT_WRITE); 224 1.87 chs if (error) { 225 1.75 thorpej (void) lockmgr(&sysctl_memlock, LK_RELEASE, NULL); 226 1.87 chs return error; 227 1.45 thorpej } 228 1.1 cgd savelen = oldlen; 229 1.1 cgd } 230 1.5 cgd error = (*fn)(name + 1, SCARG(uap, namelen) - 1, SCARG(uap, old), 231 1.55 is oldlenp, SCARG(uap, new), SCARG(uap, newlen), p); 232 1.5 cgd if (SCARG(uap, old) != NULL) { 233 1.75 thorpej uvm_vsunlock(p, SCARG(uap, old), savelen); 234 1.75 thorpej (void) lockmgr(&sysctl_memlock, LK_RELEASE, NULL); 235 1.1 cgd } 236 1.1 cgd if (error) 237 1.1 cgd return (error); 238 1.5 cgd if (SCARG(uap, oldlenp)) 239 1.5 cgd error = copyout(&oldlen, SCARG(uap, oldlenp), sizeof(oldlen)); 240 1.16 thorpej return (error); 241 1.1 cgd } 242 1.1 cgd 243 1.1 cgd /* 244 1.1 cgd * Attributes stored in the kernel. 245 1.1 cgd */ 246 1.1 cgd char hostname[MAXHOSTNAMELEN]; 247 1.1 cgd int hostnamelen; 248 1.75 thorpej 249 1.1 cgd char domainname[MAXHOSTNAMELEN]; 250 1.1 cgd int domainnamelen; 251 1.75 thorpej 252 1.1 cgd long hostid; 253 1.75 thorpej 254 1.8 cgd #ifdef INSECURE 255 1.8 cgd int securelevel = -1; 256 1.8 cgd #else 257 1.17 mrg int securelevel = 0; 258 1.8 cgd #endif 259 1.75 thorpej 260 1.75 thorpej #ifndef DEFCORENAME 261 1.75 thorpej #define DEFCORENAME "%n.core" 262 1.75 thorpej #endif 263 1.52 bouyer char defcorename[MAXPATHLEN] = DEFCORENAME; 264 1.52 bouyer int defcorenamelen = sizeof(DEFCORENAME); 265 1.75 thorpej 266 1.57 fair extern int kern_logsigexit; 267 1.62 simonb extern fixpt_t ccpu; 268 1.1 cgd 269 1.84 sommerfe #ifndef MULTIPROCESSOR 270 1.84 sommerfe #define sysctl_ncpus() 1 271 1.84 sommerfe #endif 272 1.84 sommerfe 273 1.83 sommerfe #ifdef MULTIPROCESSOR 274 1.83 sommerfe 275 1.83 sommerfe #ifndef CPU_INFO_FOREACH 276 1.83 sommerfe #define CPU_INFO_ITERATOR int 277 1.83 sommerfe #define CPU_INFO_FOREACH(cii, ci) cii = 0, ci = curcpu(); ci != NULL; ci = NULL 278 1.83 sommerfe #endif 279 1.83 sommerfe 280 1.83 sommerfe static int 281 1.91 simonb sysctl_docptime(void *oldp, size_t *oldlenp, void *newp) 282 1.83 sommerfe { 283 1.83 sommerfe u_int64_t cp_time[CPUSTATES]; 284 1.83 sommerfe int i; 285 1.83 sommerfe struct cpu_info *ci; 286 1.83 sommerfe CPU_INFO_ITERATOR cii; 287 1.83 sommerfe 288 1.83 sommerfe for (i=0; i<CPUSTATES; i++) 289 1.83 sommerfe cp_time[i] = 0; 290 1.83 sommerfe 291 1.83 sommerfe for (CPU_INFO_FOREACH(cii, ci)) { 292 1.83 sommerfe for (i=0; i<CPUSTATES; i++) 293 1.83 sommerfe cp_time[i] += ci->ci_schedstate.spc_cp_time[i]; 294 1.83 sommerfe } 295 1.83 sommerfe return (sysctl_rdstruct(oldp, oldlenp, newp, 296 1.83 sommerfe cp_time, sizeof(cp_time))); 297 1.83 sommerfe } 298 1.84 sommerfe 299 1.84 sommerfe static int 300 1.84 sommerfe sysctl_ncpus(void) 301 1.84 sommerfe { 302 1.84 sommerfe struct cpu_info *ci; 303 1.84 sommerfe CPU_INFO_ITERATOR cii; 304 1.84 sommerfe 305 1.84 sommerfe int ncpus = 0; 306 1.84 sommerfe for (CPU_INFO_FOREACH(cii, ci)) 307 1.84 sommerfe ncpus++; 308 1.84 sommerfe return ncpus; 309 1.84 sommerfe } 310 1.84 sommerfe 311 1.83 sommerfe #endif 312 1.83 sommerfe 313 1.1 cgd /* 314 1.1 cgd * kernel related system variables. 315 1.1 cgd */ 316 1.13 christos int 317 1.91 simonb kern_sysctl(int *name, u_int namelen, void *oldp, size_t *oldlenp, 318 1.91 simonb void *newp, size_t newlen, struct proc *p) 319 1.1 cgd { 320 1.1 cgd int error, level, inthostid; 321 1.18 explorer int old_autonicetime; 322 1.22 tls int old_vnodes; 323 1.74 simonb dev_t consdev; 324 1.1 cgd 325 1.44 thorpej /* All sysctl names at this level, except for a few, are terminal. */ 326 1.44 thorpej switch (name[0]) { 327 1.44 thorpej case KERN_PROC: 328 1.62 simonb case KERN_PROC2: 329 1.44 thorpej case KERN_PROF: 330 1.44 thorpej case KERN_MBUF: 331 1.62 simonb case KERN_PROC_ARGS: 332 1.69 simonb case KERN_SYSVIPC_INFO: 333 1.89 jdolecek case KERN_PIPE: 334 1.44 thorpej /* Not terminal. */ 335 1.44 thorpej break; 336 1.44 thorpej default: 337 1.44 thorpej if (namelen != 1) 338 1.44 thorpej return (ENOTDIR); /* overloaded */ 339 1.44 thorpej } 340 1.1 cgd 341 1.1 cgd switch (name[0]) { 342 1.1 cgd case KERN_OSTYPE: 343 1.1 cgd return (sysctl_rdstring(oldp, oldlenp, newp, ostype)); 344 1.1 cgd case KERN_OSRELEASE: 345 1.1 cgd return (sysctl_rdstring(oldp, oldlenp, newp, osrelease)); 346 1.1 cgd case KERN_OSREV: 347 1.75 thorpej return (sysctl_rdint(oldp, oldlenp, newp, __NetBSD_Version__)); 348 1.1 cgd case KERN_VERSION: 349 1.1 cgd return (sysctl_rdstring(oldp, oldlenp, newp, version)); 350 1.1 cgd case KERN_MAXVNODES: 351 1.22 tls old_vnodes = desiredvnodes; 352 1.29 sommerfe error = sysctl_int(oldp, oldlenp, newp, newlen, &desiredvnodes); 353 1.29 sommerfe if (old_vnodes > desiredvnodes) { 354 1.29 sommerfe desiredvnodes = old_vnodes; 355 1.22 tls return (EINVAL); 356 1.29 sommerfe } 357 1.22 tls return (error); 358 1.1 cgd case KERN_MAXPROC: 359 1.1 cgd return (sysctl_int(oldp, oldlenp, newp, newlen, &maxproc)); 360 1.1 cgd case KERN_MAXFILES: 361 1.1 cgd return (sysctl_int(oldp, oldlenp, newp, newlen, &maxfiles)); 362 1.1 cgd case KERN_ARGMAX: 363 1.1 cgd return (sysctl_rdint(oldp, oldlenp, newp, ARG_MAX)); 364 1.1 cgd case KERN_SECURELVL: 365 1.1 cgd level = securelevel; 366 1.1 cgd if ((error = sysctl_int(oldp, oldlenp, newp, newlen, &level)) || 367 1.1 cgd newp == NULL) 368 1.1 cgd return (error); 369 1.1 cgd if (level < securelevel && p->p_pid != 1) 370 1.1 cgd return (EPERM); 371 1.1 cgd securelevel = level; 372 1.1 cgd return (0); 373 1.1 cgd case KERN_HOSTNAME: 374 1.1 cgd error = sysctl_string(oldp, oldlenp, newp, newlen, 375 1.1 cgd hostname, sizeof(hostname)); 376 1.1 cgd if (newp && !error) 377 1.1 cgd hostnamelen = newlen; 378 1.1 cgd return (error); 379 1.1 cgd case KERN_DOMAINNAME: 380 1.1 cgd error = sysctl_string(oldp, oldlenp, newp, newlen, 381 1.1 cgd domainname, sizeof(domainname)); 382 1.1 cgd if (newp && !error) 383 1.1 cgd domainnamelen = newlen; 384 1.1 cgd return (error); 385 1.1 cgd case KERN_HOSTID: 386 1.1 cgd inthostid = hostid; /* XXX assumes sizeof long <= sizeof int */ 387 1.1 cgd error = sysctl_int(oldp, oldlenp, newp, newlen, &inthostid); 388 1.1 cgd hostid = inthostid; 389 1.1 cgd return (error); 390 1.1 cgd case KERN_CLOCKRATE: 391 1.1 cgd return (sysctl_clockrate(oldp, oldlenp)); 392 1.1 cgd case KERN_BOOTTIME: 393 1.1 cgd return (sysctl_rdstruct(oldp, oldlenp, newp, &boottime, 394 1.1 cgd sizeof(struct timeval))); 395 1.1 cgd case KERN_VNODE: 396 1.34 fvdl return (sysctl_vnode(oldp, oldlenp, p)); 397 1.1 cgd case KERN_PROC: 398 1.62 simonb case KERN_PROC2: 399 1.62 simonb return (sysctl_doeproc(name, namelen, oldp, oldlenp)); 400 1.62 simonb case KERN_PROC_ARGS: 401 1.62 simonb return (sysctl_procargs(name + 1, namelen - 1, 402 1.62 simonb oldp, oldlenp, p)); 403 1.1 cgd case KERN_FILE: 404 1.1 cgd return (sysctl_file(oldp, oldlenp)); 405 1.1 cgd #ifdef GPROF 406 1.1 cgd case KERN_PROF: 407 1.1 cgd return (sysctl_doprof(name + 1, namelen - 1, oldp, oldlenp, 408 1.1 cgd newp, newlen)); 409 1.1 cgd #endif 410 1.1 cgd case KERN_POSIX1: 411 1.1 cgd return (sysctl_rdint(oldp, oldlenp, newp, _POSIX_VERSION)); 412 1.1 cgd case KERN_NGROUPS: 413 1.1 cgd return (sysctl_rdint(oldp, oldlenp, newp, NGROUPS_MAX)); 414 1.1 cgd case KERN_JOB_CONTROL: 415 1.1 cgd return (sysctl_rdint(oldp, oldlenp, newp, 1)); 416 1.1 cgd case KERN_SAVED_IDS: 417 1.1 cgd #ifdef _POSIX_SAVED_IDS 418 1.1 cgd return (sysctl_rdint(oldp, oldlenp, newp, 1)); 419 1.1 cgd #else 420 1.1 cgd return (sysctl_rdint(oldp, oldlenp, newp, 0)); 421 1.1 cgd #endif 422 1.7 cgd case KERN_MAXPARTITIONS: 423 1.7 cgd return (sysctl_rdint(oldp, oldlenp, newp, MAXPARTITIONS)); 424 1.10 thorpej case KERN_RAWPARTITION: 425 1.10 thorpej return (sysctl_rdint(oldp, oldlenp, newp, RAW_PART)); 426 1.19 thorpej #ifdef NTP 427 1.15 jonathan case KERN_NTPTIME: 428 1.15 jonathan return (sysctl_ntptime(oldp, oldlenp)); 429 1.19 thorpej #endif 430 1.18 explorer case KERN_AUTONICETIME: 431 1.18 explorer old_autonicetime = autonicetime; 432 1.18 explorer error = sysctl_int(oldp, oldlenp, newp, newlen, &autonicetime); 433 1.18 explorer if (autonicetime < 0) 434 1.18 explorer autonicetime = old_autonicetime; 435 1.18 explorer return (error); 436 1.18 explorer case KERN_AUTONICEVAL: 437 1.18 explorer error = sysctl_int(oldp, oldlenp, newp, newlen, &autoniceval); 438 1.18 explorer if (autoniceval < PRIO_MIN) 439 1.18 explorer autoniceval = PRIO_MIN; 440 1.18 explorer if (autoniceval > PRIO_MAX) 441 1.18 explorer autoniceval = PRIO_MAX; 442 1.18 explorer return (error); 443 1.21 perry case KERN_RTC_OFFSET: 444 1.21 perry return (sysctl_rdint(oldp, oldlenp, newp, rtc_offset)); 445 1.23 thorpej case KERN_ROOT_DEVICE: 446 1.23 thorpej return (sysctl_rdstring(oldp, oldlenp, newp, 447 1.23 thorpej root_device->dv_xname)); 448 1.28 leo case KERN_MSGBUFSIZE: 449 1.28 leo /* 450 1.28 leo * deal with cases where the message buffer has 451 1.28 leo * become corrupted. 452 1.28 leo */ 453 1.28 leo if (!msgbufenabled || msgbufp->msg_magic != MSG_MAGIC) { 454 1.28 leo msgbufenabled = 0; 455 1.28 leo return (ENXIO); 456 1.28 leo } 457 1.28 leo return (sysctl_rdint(oldp, oldlenp, newp, msgbufp->msg_bufs)); 458 1.36 kleink case KERN_FSYNC: 459 1.36 kleink return (sysctl_rdint(oldp, oldlenp, newp, 1)); 460 1.36 kleink case KERN_SYSVMSG: 461 1.36 kleink #ifdef SYSVMSG 462 1.36 kleink return (sysctl_rdint(oldp, oldlenp, newp, 1)); 463 1.36 kleink #else 464 1.36 kleink return (sysctl_rdint(oldp, oldlenp, newp, 0)); 465 1.36 kleink #endif 466 1.36 kleink case KERN_SYSVSEM: 467 1.36 kleink #ifdef SYSVSEM 468 1.36 kleink return (sysctl_rdint(oldp, oldlenp, newp, 1)); 469 1.36 kleink #else 470 1.36 kleink return (sysctl_rdint(oldp, oldlenp, newp, 0)); 471 1.36 kleink #endif 472 1.36 kleink case KERN_SYSVSHM: 473 1.36 kleink #ifdef SYSVSHM 474 1.36 kleink return (sysctl_rdint(oldp, oldlenp, newp, 1)); 475 1.36 kleink #else 476 1.36 kleink return (sysctl_rdint(oldp, oldlenp, newp, 0)); 477 1.36 kleink #endif 478 1.52 bouyer case KERN_DEFCORENAME: 479 1.52 bouyer if (newp && newlen < 1) 480 1.52 bouyer return (EINVAL); 481 1.52 bouyer error = sysctl_string(oldp, oldlenp, newp, newlen, 482 1.52 bouyer defcorename, sizeof(defcorename)); 483 1.52 bouyer if (newp && !error) 484 1.52 bouyer defcorenamelen = newlen; 485 1.52 bouyer return (error); 486 1.40 kleink case KERN_SYNCHRONIZED_IO: 487 1.40 kleink return (sysctl_rdint(oldp, oldlenp, newp, 1)); 488 1.40 kleink case KERN_IOV_MAX: 489 1.40 kleink return (sysctl_rdint(oldp, oldlenp, newp, IOV_MAX)); 490 1.44 thorpej case KERN_MBUF: 491 1.44 thorpej return (sysctl_dombuf(name + 1, namelen - 1, oldp, oldlenp, 492 1.44 thorpej newp, newlen)); 493 1.47 kleink case KERN_MAPPED_FILES: 494 1.47 kleink return (sysctl_rdint(oldp, oldlenp, newp, 1)); 495 1.47 kleink case KERN_MEMLOCK: 496 1.47 kleink return (sysctl_rdint(oldp, oldlenp, newp, 1)); 497 1.47 kleink case KERN_MEMLOCK_RANGE: 498 1.47 kleink return (sysctl_rdint(oldp, oldlenp, newp, 1)); 499 1.47 kleink case KERN_MEMORY_PROTECTION: 500 1.47 kleink return (sysctl_rdint(oldp, oldlenp, newp, 1)); 501 1.51 kleink case KERN_LOGIN_NAME_MAX: 502 1.51 kleink return (sysctl_rdint(oldp, oldlenp, newp, LOGIN_NAME_MAX)); 503 1.57 fair case KERN_LOGSIGEXIT: 504 1.62 simonb return (sysctl_int(oldp, oldlenp, newp, newlen, 505 1.62 simonb &kern_logsigexit)); 506 1.62 simonb case KERN_FSCALE: 507 1.62 simonb return (sysctl_rdint(oldp, oldlenp, newp, FSCALE)); 508 1.62 simonb case KERN_CCPU: 509 1.62 simonb return (sysctl_rdint(oldp, oldlenp, newp, ccpu)); 510 1.62 simonb case KERN_CP_TIME: 511 1.83 sommerfe #ifndef MULTIPROCESSOR 512 1.70 thorpej return (sysctl_rdstruct(oldp, oldlenp, newp, 513 1.70 thorpej curcpu()->ci_schedstate.spc_cp_time, 514 1.70 thorpej sizeof(curcpu()->ci_schedstate.spc_cp_time))); 515 1.83 sommerfe #else 516 1.83 sommerfe return (sysctl_docptime(oldp, oldlenp, newp)); 517 1.83 sommerfe #endif 518 1.69 simonb #if defined(SYSVMSG) || defined(SYSVSEM) || defined(SYSVSHM) 519 1.69 simonb case KERN_SYSVIPC_INFO: 520 1.69 simonb return (sysctl_sysvipc(name + 1, namelen - 1, oldp, oldlenp)); 521 1.69 simonb #endif 522 1.72 simonb case KERN_MSGBUF: 523 1.72 simonb return (sysctl_msgbuf(oldp, oldlenp)); 524 1.74 simonb case KERN_CONSDEV: 525 1.74 simonb if (cn_tab != NULL) 526 1.74 simonb consdev = cn_tab->cn_dev; 527 1.74 simonb else 528 1.74 simonb consdev = NODEV; 529 1.74 simonb return (sysctl_rdstruct(oldp, oldlenp, newp, &consdev, 530 1.74 simonb sizeof consdev)); 531 1.77 jdolecek #if NPTY > 0 532 1.77 jdolecek case KERN_MAXPTYS: 533 1.78 jdolecek return sysctl_pty(oldp, oldlenp, newp, newlen); 534 1.89 jdolecek #endif 535 1.89 jdolecek #ifdef NEW_PIPE 536 1.89 jdolecek case KERN_PIPE: 537 1.89 jdolecek return (sysctl_dopipe(name + 1, namelen - 1, oldp, oldlenp, 538 1.89 jdolecek newp, newlen)); 539 1.77 jdolecek #endif 540 1.92 matt case KERN_MAXPHYS: 541 1.93 thorpej return (sysctl_rdint(oldp, oldlenp, newp, MAXPHYS)); 542 1.93 thorpej case KERN_SBMAX: 543 1.93 thorpej { 544 1.93 thorpej int new_sbmax = sb_max; 545 1.93 thorpej 546 1.93 thorpej error = sysctl_int(oldp, oldlenp, newp, newlen, &new_sbmax); 547 1.93 thorpej if (error == 0) { 548 1.93 thorpej if (new_sbmax < (16 * 1024)) /* sanity */ 549 1.93 thorpej return (EINVAL); 550 1.93 thorpej sb_max = new_sbmax; 551 1.93 thorpej } 552 1.93 thorpej return (error); 553 1.93 thorpej } 554 1.1 cgd default: 555 1.1 cgd return (EOPNOTSUPP); 556 1.1 cgd } 557 1.1 cgd /* NOTREACHED */ 558 1.1 cgd } 559 1.1 cgd 560 1.1 cgd /* 561 1.1 cgd * hardware related system variables. 562 1.1 cgd */ 563 1.13 christos int 564 1.91 simonb hw_sysctl(int *name, u_int namelen, void *oldp, size_t *oldlenp, 565 1.91 simonb void *newp, size_t newlen, struct proc *p) 566 1.1 cgd { 567 1.1 cgd 568 1.1 cgd /* all sysctl names at this level are terminal */ 569 1.1 cgd if (namelen != 1) 570 1.1 cgd return (ENOTDIR); /* overloaded */ 571 1.1 cgd 572 1.1 cgd switch (name[0]) { 573 1.1 cgd case HW_MACHINE: 574 1.1 cgd return (sysctl_rdstring(oldp, oldlenp, newp, machine)); 575 1.27 veego case HW_MACHINE_ARCH: 576 1.27 veego return (sysctl_rdstring(oldp, oldlenp, newp, machine_arch)); 577 1.1 cgd case HW_MODEL: 578 1.1 cgd return (sysctl_rdstring(oldp, oldlenp, newp, cpu_model)); 579 1.1 cgd case HW_NCPU: 580 1.84 sommerfe return (sysctl_rdint(oldp, oldlenp, newp, sysctl_ncpus())); 581 1.1 cgd case HW_BYTEORDER: 582 1.1 cgd return (sysctl_rdint(oldp, oldlenp, newp, BYTE_ORDER)); 583 1.1 cgd case HW_PHYSMEM: 584 1.1 cgd return (sysctl_rdint(oldp, oldlenp, newp, ctob(physmem))); 585 1.1 cgd case HW_USERMEM: 586 1.31 mrg return (sysctl_rdint(oldp, oldlenp, newp, 587 1.31 mrg ctob(physmem - uvmexp.wired))); 588 1.1 cgd case HW_PAGESIZE: 589 1.1 cgd return (sysctl_rdint(oldp, oldlenp, newp, PAGE_SIZE)); 590 1.58 itojun case HW_ALIGNBYTES: 591 1.58 itojun return (sysctl_rdint(oldp, oldlenp, newp, ALIGNBYTES)); 592 1.82 eeh case HW_CNMAGIC: { 593 1.82 eeh char magic[CNS_LEN]; 594 1.82 eeh int error; 595 1.82 eeh 596 1.82 eeh if (oldp) 597 1.82 eeh cn_get_magic(magic, CNS_LEN); 598 1.82 eeh error = sysctl_string(oldp, oldlenp, newp, newlen, 599 1.82 eeh magic, sizeof(magic)); 600 1.82 eeh if (newp && !error) { 601 1.82 eeh error = cn_set_magic(magic); 602 1.82 eeh } 603 1.82 eeh return (error); 604 1.82 eeh } 605 1.1 cgd default: 606 1.1 cgd return (EOPNOTSUPP); 607 1.1 cgd } 608 1.1 cgd /* NOTREACHED */ 609 1.1 cgd } 610 1.1 cgd 611 1.1 cgd #ifdef DEBUG 612 1.1 cgd /* 613 1.1 cgd * Debugging related system variables. 614 1.1 cgd */ 615 1.1 cgd struct ctldebug debug0, debug1, debug2, debug3, debug4; 616 1.1 cgd struct ctldebug debug5, debug6, debug7, debug8, debug9; 617 1.1 cgd struct ctldebug debug10, debug11, debug12, debug13, debug14; 618 1.1 cgd struct ctldebug debug15, debug16, debug17, debug18, debug19; 619 1.1 cgd static struct ctldebug *debugvars[CTL_DEBUG_MAXID] = { 620 1.1 cgd &debug0, &debug1, &debug2, &debug3, &debug4, 621 1.1 cgd &debug5, &debug6, &debug7, &debug8, &debug9, 622 1.1 cgd &debug10, &debug11, &debug12, &debug13, &debug14, 623 1.1 cgd &debug15, &debug16, &debug17, &debug18, &debug19, 624 1.1 cgd }; 625 1.91 simonb 626 1.1 cgd int 627 1.91 simonb debug_sysctl(int *name, u_int namelen, void *oldp, size_t *oldlenp, 628 1.91 simonb void *newp, size_t newlen, struct proc *p) 629 1.1 cgd { 630 1.1 cgd struct ctldebug *cdp; 631 1.1 cgd 632 1.1 cgd /* all sysctl names at this level are name and field */ 633 1.1 cgd if (namelen != 2) 634 1.1 cgd return (ENOTDIR); /* overloaded */ 635 1.1 cgd cdp = debugvars[name[0]]; 636 1.34 fvdl if (name[0] >= CTL_DEBUG_MAXID || cdp->debugname == 0) 637 1.1 cgd return (EOPNOTSUPP); 638 1.1 cgd switch (name[1]) { 639 1.1 cgd case CTL_DEBUG_NAME: 640 1.1 cgd return (sysctl_rdstring(oldp, oldlenp, newp, cdp->debugname)); 641 1.1 cgd case CTL_DEBUG_VALUE: 642 1.1 cgd return (sysctl_int(oldp, oldlenp, newp, newlen, cdp->debugvar)); 643 1.1 cgd default: 644 1.1 cgd return (EOPNOTSUPP); 645 1.1 cgd } 646 1.1 cgd /* NOTREACHED */ 647 1.1 cgd } 648 1.1 cgd #endif /* DEBUG */ 649 1.1 cgd 650 1.52 bouyer int 651 1.91 simonb proc_sysctl(int *name, u_int namelen, void *oldp, size_t *oldlenp, 652 1.91 simonb void *newp, size_t newlen, struct proc *p) 653 1.52 bouyer { 654 1.62 simonb struct proc *ptmp = NULL; 655 1.52 bouyer const struct proclist_desc *pd; 656 1.52 bouyer int error = 0; 657 1.52 bouyer struct rlimit alim; 658 1.52 bouyer struct plimit *newplim; 659 1.52 bouyer char *tmps = NULL; 660 1.52 bouyer int i, curlen, len; 661 1.52 bouyer 662 1.52 bouyer if (namelen < 2) 663 1.52 bouyer return EINVAL; 664 1.52 bouyer 665 1.52 bouyer if (name[0] == PROC_CURPROC) { 666 1.52 bouyer ptmp = p; 667 1.52 bouyer } else { 668 1.52 bouyer proclist_lock_read(); 669 1.52 bouyer for (pd = proclists; pd->pd_list != NULL; pd++) { 670 1.52 bouyer for (ptmp = LIST_FIRST(pd->pd_list); ptmp != NULL; 671 1.52 bouyer ptmp = LIST_NEXT(ptmp, p_list)) { 672 1.52 bouyer /* Skip embryonic processes. */ 673 1.52 bouyer if (ptmp->p_stat == SIDL) 674 1.52 bouyer continue; 675 1.52 bouyer if (ptmp->p_pid == (pid_t)name[0]) 676 1.52 bouyer break; 677 1.52 bouyer } 678 1.52 bouyer if (ptmp != NULL) 679 1.52 bouyer break; 680 1.52 bouyer } 681 1.52 bouyer proclist_unlock_read(); 682 1.52 bouyer if (ptmp == NULL) 683 1.52 bouyer return(ESRCH); 684 1.52 bouyer if (p->p_ucred->cr_uid != 0) { 685 1.52 bouyer if(p->p_cred->p_ruid != ptmp->p_cred->p_ruid || 686 1.52 bouyer p->p_cred->p_ruid != ptmp->p_cred->p_svuid) 687 1.52 bouyer return EPERM; 688 1.52 bouyer if (ptmp->p_cred->p_rgid != ptmp->p_cred->p_svgid) 689 1.52 bouyer return EPERM; /* sgid proc */ 690 1.52 bouyer for (i = 0; i < p->p_ucred->cr_ngroups; i++) { 691 1.52 bouyer if (p->p_ucred->cr_groups[i] == 692 1.52 bouyer ptmp->p_cred->p_rgid) 693 1.52 bouyer break; 694 1.52 bouyer } 695 1.52 bouyer if (i == p->p_ucred->cr_ngroups) 696 1.52 bouyer return EPERM; 697 1.52 bouyer } 698 1.52 bouyer } 699 1.52 bouyer if (name[1] == PROC_PID_CORENAME) { 700 1.52 bouyer if (namelen != 2) 701 1.52 bouyer return EINVAL; 702 1.52 bouyer /* 703 1.52 bouyer * Can't use sysctl_string() here because we may malloc a new 704 1.52 bouyer * area during the process, so we have to do it by hand. 705 1.52 bouyer */ 706 1.52 bouyer curlen = strlen(ptmp->p_limit->pl_corename) + 1; 707 1.55 is if (oldlenp && *oldlenp < curlen) { 708 1.55 is if (!oldp) 709 1.55 is *oldlenp = curlen; 710 1.52 bouyer return (ENOMEM); 711 1.55 is } 712 1.52 bouyer if (newp) { 713 1.52 bouyer if (securelevel > 2) 714 1.52 bouyer return EPERM; 715 1.52 bouyer if (newlen > MAXPATHLEN) 716 1.52 bouyer return ENAMETOOLONG; 717 1.52 bouyer tmps = malloc(newlen + 1, M_TEMP, M_WAITOK); 718 1.52 bouyer if (tmps == NULL) 719 1.52 bouyer return ENOMEM; 720 1.52 bouyer error = copyin(newp, tmps, newlen + 1); 721 1.52 bouyer tmps[newlen] = '\0'; 722 1.52 bouyer if (error) 723 1.52 bouyer goto cleanup; 724 1.52 bouyer /* Enforce to be either 'core' for end with '.core' */ 725 1.52 bouyer if (newlen < 4) { /* c.o.r.e */ 726 1.52 bouyer error = EINVAL; 727 1.52 bouyer goto cleanup; 728 1.52 bouyer } 729 1.52 bouyer len = newlen - 4; 730 1.52 bouyer if (len > 0) { 731 1.52 bouyer if (tmps[len - 1] != '.' && 732 1.52 bouyer tmps[len - 1] != '/') { 733 1.52 bouyer error = EINVAL; 734 1.52 bouyer goto cleanup; 735 1.52 bouyer } 736 1.52 bouyer } 737 1.52 bouyer if (strcmp(&tmps[len], "core") != 0) { 738 1.52 bouyer error = EINVAL; 739 1.52 bouyer goto cleanup; 740 1.52 bouyer } 741 1.52 bouyer } 742 1.55 is if (oldp && oldlenp) { 743 1.52 bouyer *oldlenp = curlen; 744 1.52 bouyer error = copyout(ptmp->p_limit->pl_corename, oldp, 745 1.52 bouyer curlen); 746 1.52 bouyer } 747 1.52 bouyer if (newp && error == 0) { 748 1.52 bouyer /* if the 2 strings are identical, don't limcopy() */ 749 1.52 bouyer if (strcmp(tmps, ptmp->p_limit->pl_corename) == 0) { 750 1.52 bouyer error = 0; 751 1.52 bouyer goto cleanup; 752 1.52 bouyer } 753 1.52 bouyer if (ptmp->p_limit->p_refcnt > 1 && 754 1.52 bouyer (ptmp->p_limit->p_lflags & PL_SHAREMOD) == 0) { 755 1.52 bouyer newplim = limcopy(ptmp->p_limit); 756 1.52 bouyer limfree(ptmp->p_limit); 757 1.52 bouyer ptmp->p_limit = newplim; 758 1.52 bouyer } else if (ptmp->p_limit->pl_corename != defcorename) { 759 1.52 bouyer free(ptmp->p_limit->pl_corename, M_TEMP); 760 1.52 bouyer } 761 1.52 bouyer ptmp->p_limit->pl_corename = tmps; 762 1.52 bouyer return (0); 763 1.52 bouyer } 764 1.52 bouyer cleanup: 765 1.52 bouyer if (tmps) 766 1.52 bouyer free(tmps, M_TEMP); 767 1.52 bouyer return (error); 768 1.52 bouyer } 769 1.52 bouyer if (name[1] == PROC_PID_LIMIT) { 770 1.52 bouyer if (namelen != 4 || name[2] >= PROC_PID_LIMIT_MAXID) 771 1.52 bouyer return EINVAL; 772 1.52 bouyer memcpy(&alim, &ptmp->p_rlimit[name[2] - 1], sizeof(alim)); 773 1.52 bouyer if (name[3] == PROC_PID_LIMIT_TYPE_HARD) 774 1.52 bouyer error = sysctl_quad(oldp, oldlenp, newp, newlen, 775 1.52 bouyer &alim.rlim_max); 776 1.52 bouyer else if (name[3] == PROC_PID_LIMIT_TYPE_SOFT) 777 1.52 bouyer error = sysctl_quad(oldp, oldlenp, newp, newlen, 778 1.52 bouyer &alim.rlim_cur); 779 1.52 bouyer else 780 1.52 bouyer error = EINVAL; 781 1.52 bouyer 782 1.52 bouyer if (error) 783 1.52 bouyer return error; 784 1.52 bouyer 785 1.52 bouyer if (newp) 786 1.52 bouyer error = dosetrlimit(ptmp, p->p_cred, 787 1.52 bouyer name[2] - 1, &alim); 788 1.52 bouyer return error; 789 1.52 bouyer } 790 1.52 bouyer return (EINVAL); 791 1.52 bouyer } 792 1.52 bouyer 793 1.1 cgd /* 794 1.55 is * Convenience macros. 795 1.55 is */ 796 1.55 is 797 1.55 is #define SYSCTL_SCALAR_CORE_LEN(oldp, oldlenp, valp, len) \ 798 1.55 is if (oldlenp) { \ 799 1.55 is if (!oldp) \ 800 1.55 is *oldlenp = len; \ 801 1.55 is else { \ 802 1.55 is if (*oldlenp < len) \ 803 1.55 is return(ENOMEM); \ 804 1.55 is *oldlenp = len; \ 805 1.55 is error = copyout((caddr_t)valp, oldp, len); \ 806 1.55 is } \ 807 1.55 is } 808 1.55 is 809 1.55 is #define SYSCTL_SCALAR_CORE_TYP(oldp, oldlenp, valp, typ) \ 810 1.55 is SYSCTL_SCALAR_CORE_LEN(oldp, oldlenp, valp, sizeof(typ)) 811 1.55 is 812 1.55 is #define SYSCTL_SCALAR_NEWPCHECK_LEN(newp, newlen, len) \ 813 1.55 is if (newp && newlen != len) \ 814 1.55 is return (EINVAL); 815 1.55 is 816 1.55 is #define SYSCTL_SCALAR_NEWPCHECK_TYP(newp, newlen, typ) \ 817 1.55 is SYSCTL_SCALAR_NEWPCHECK_LEN(newp, newlen, sizeof(typ)) 818 1.55 is 819 1.55 is #define SYSCTL_SCALAR_NEWPCOP_LEN(newp, valp, len) \ 820 1.55 is if (error == 0 && newp) \ 821 1.55 is error = copyin(newp, valp, len); 822 1.55 is 823 1.55 is #define SYSCTL_SCALAR_NEWPCOP_TYP(newp, valp, typ) \ 824 1.55 is SYSCTL_SCALAR_NEWPCOP_LEN(newp, valp, sizeof(typ)) 825 1.55 is 826 1.55 is #define SYSCTL_STRING_CORE(oldp, oldlenp, str) \ 827 1.55 is if (oldlenp) { \ 828 1.55 is len = strlen(str) + 1; \ 829 1.55 is if (!oldp) \ 830 1.55 is *oldlenp = len; \ 831 1.55 is else { \ 832 1.55 is if (*oldlenp < len) { \ 833 1.55 is err2 = ENOMEM; \ 834 1.55 is len = *oldlenp; \ 835 1.55 is } else \ 836 1.55 is *oldlenp = len; \ 837 1.55 is error = copyout(str, oldp, len);\ 838 1.55 is if (error == 0) \ 839 1.55 is error = err2; \ 840 1.55 is } \ 841 1.55 is } 842 1.55 is 843 1.55 is /* 844 1.1 cgd * Validate parameters and get old / set new parameters 845 1.1 cgd * for an integer-valued sysctl function. 846 1.1 cgd */ 847 1.13 christos int 848 1.91 simonb sysctl_int(void *oldp, size_t *oldlenp, void *newp, size_t newlen, int *valp) 849 1.1 cgd { 850 1.1 cgd int error = 0; 851 1.1 cgd 852 1.55 is SYSCTL_SCALAR_NEWPCHECK_TYP(newp, newlen, int) 853 1.55 is SYSCTL_SCALAR_CORE_TYP(oldp, oldlenp, valp, int) 854 1.55 is SYSCTL_SCALAR_NEWPCOP_TYP(newp, valp, int) 855 1.55 is 856 1.1 cgd return (error); 857 1.1 cgd } 858 1.1 cgd 859 1.55 is 860 1.1 cgd /* 861 1.1 cgd * As above, but read-only. 862 1.1 cgd */ 863 1.13 christos int 864 1.91 simonb sysctl_rdint(void *oldp, size_t *oldlenp, void *newp, int val) 865 1.1 cgd { 866 1.1 cgd int error = 0; 867 1.1 cgd 868 1.1 cgd if (newp) 869 1.1 cgd return (EPERM); 870 1.55 is 871 1.55 is SYSCTL_SCALAR_CORE_TYP(oldp, oldlenp, &val, int) 872 1.55 is 873 1.1 cgd return (error); 874 1.1 cgd } 875 1.1 cgd 876 1.1 cgd /* 877 1.1 cgd * Validate parameters and get old / set new parameters 878 1.52 bouyer * for an quad-valued sysctl function. 879 1.52 bouyer */ 880 1.52 bouyer int 881 1.91 simonb sysctl_quad(void *oldp, size_t *oldlenp, void *newp, size_t newlen, 882 1.91 simonb quad_t *valp) 883 1.52 bouyer { 884 1.52 bouyer int error = 0; 885 1.52 bouyer 886 1.55 is SYSCTL_SCALAR_NEWPCHECK_TYP(newp, newlen, quad_t) 887 1.55 is SYSCTL_SCALAR_CORE_TYP(oldp, oldlenp, valp, quad_t) 888 1.55 is SYSCTL_SCALAR_NEWPCOP_TYP(newp, valp, quad_t) 889 1.55 is 890 1.52 bouyer return (error); 891 1.52 bouyer } 892 1.52 bouyer 893 1.52 bouyer /* 894 1.52 bouyer * As above, but read-only. 895 1.52 bouyer */ 896 1.52 bouyer int 897 1.91 simonb sysctl_rdquad(void *oldp, size_t *oldlenp, void *newp, quad_t val) 898 1.52 bouyer { 899 1.52 bouyer int error = 0; 900 1.52 bouyer 901 1.52 bouyer if (newp) 902 1.52 bouyer return (EPERM); 903 1.55 is 904 1.55 is SYSCTL_SCALAR_CORE_TYP(oldp, oldlenp, &val, quad_t) 905 1.55 is 906 1.52 bouyer return (error); 907 1.52 bouyer } 908 1.52 bouyer 909 1.52 bouyer /* 910 1.52 bouyer * Validate parameters and get old / set new parameters 911 1.1 cgd * for a string-valued sysctl function. 912 1.1 cgd */ 913 1.13 christos int 914 1.91 simonb sysctl_string(void *oldp, size_t *oldlenp, void *newp, size_t newlen, char *str, 915 1.91 simonb int maxlen) 916 1.1 cgd { 917 1.55 is int len, error = 0, err2 = 0; 918 1.1 cgd 919 1.1 cgd if (newp && newlen >= maxlen) 920 1.1 cgd return (EINVAL); 921 1.55 is 922 1.55 is SYSCTL_STRING_CORE(oldp, oldlenp, str); 923 1.55 is 924 1.1 cgd if (error == 0 && newp) { 925 1.1 cgd error = copyin(newp, str, newlen); 926 1.1 cgd str[newlen] = 0; 927 1.1 cgd } 928 1.1 cgd return (error); 929 1.1 cgd } 930 1.1 cgd 931 1.1 cgd /* 932 1.1 cgd * As above, but read-only. 933 1.1 cgd */ 934 1.13 christos int 935 1.91 simonb sysctl_rdstring(void *oldp, size_t *oldlenp, void *newp, const char *str) 936 1.1 cgd { 937 1.55 is int len, error = 0, err2 = 0; 938 1.1 cgd 939 1.1 cgd if (newp) 940 1.1 cgd return (EPERM); 941 1.55 is 942 1.55 is SYSCTL_STRING_CORE(oldp, oldlenp, str); 943 1.55 is 944 1.1 cgd return (error); 945 1.1 cgd } 946 1.1 cgd 947 1.1 cgd /* 948 1.1 cgd * Validate parameters and get old / set new parameters 949 1.1 cgd * for a structure oriented sysctl function. 950 1.1 cgd */ 951 1.13 christos int 952 1.91 simonb sysctl_struct(void *oldp, size_t *oldlenp, void *newp, size_t newlen, void *sp, 953 1.91 simonb int len) 954 1.1 cgd { 955 1.1 cgd int error = 0; 956 1.1 cgd 957 1.55 is SYSCTL_SCALAR_NEWPCHECK_LEN(newp, newlen, len) 958 1.55 is SYSCTL_SCALAR_CORE_LEN(oldp, oldlenp, sp, len) 959 1.55 is SYSCTL_SCALAR_NEWPCOP_LEN(newp, sp, len) 960 1.55 is 961 1.1 cgd return (error); 962 1.1 cgd } 963 1.1 cgd 964 1.1 cgd /* 965 1.1 cgd * Validate parameters and get old parameters 966 1.1 cgd * for a structure oriented sysctl function. 967 1.1 cgd */ 968 1.13 christos int 969 1.91 simonb sysctl_rdstruct(void *oldp, size_t *oldlenp, void *newp, const void *sp, 970 1.91 simonb int len) 971 1.1 cgd { 972 1.1 cgd int error = 0; 973 1.1 cgd 974 1.1 cgd if (newp) 975 1.1 cgd return (EPERM); 976 1.55 is 977 1.85 simonb SYSCTL_SCALAR_CORE_LEN(oldp, oldlenp, sp, len) 978 1.85 simonb 979 1.85 simonb return (error); 980 1.85 simonb } 981 1.85 simonb 982 1.85 simonb /* 983 1.85 simonb * As above, but can return a truncated result. 984 1.85 simonb */ 985 1.85 simonb int 986 1.91 simonb sysctl_rdminstruct(void *oldp, size_t *oldlenp, void *newp, const void *sp, 987 1.91 simonb int len) 988 1.85 simonb { 989 1.85 simonb int error = 0; 990 1.85 simonb 991 1.85 simonb if (newp) 992 1.85 simonb return (EPERM); 993 1.85 simonb 994 1.85 simonb len = min(*oldlenp, len); 995 1.55 is SYSCTL_SCALAR_CORE_LEN(oldp, oldlenp, sp, len) 996 1.55 is 997 1.1 cgd return (error); 998 1.1 cgd } 999 1.1 cgd 1000 1.1 cgd /* 1001 1.1 cgd * Get file structures. 1002 1.1 cgd */ 1003 1.69 simonb static int 1004 1.91 simonb sysctl_file(void *vwhere, size_t *sizep) 1005 1.1 cgd { 1006 1.1 cgd int buflen, error; 1007 1.1 cgd struct file *fp; 1008 1.69 simonb char *start, *where; 1009 1.1 cgd 1010 1.69 simonb start = where = vwhere; 1011 1.1 cgd buflen = *sizep; 1012 1.1 cgd if (where == NULL) { 1013 1.1 cgd /* 1014 1.1 cgd * overestimate by 10 files 1015 1.1 cgd */ 1016 1.1 cgd *sizep = sizeof(filehead) + (nfiles + 10) * sizeof(struct file); 1017 1.1 cgd return (0); 1018 1.1 cgd } 1019 1.1 cgd 1020 1.1 cgd /* 1021 1.1 cgd * first copyout filehead 1022 1.1 cgd */ 1023 1.1 cgd if (buflen < sizeof(filehead)) { 1024 1.1 cgd *sizep = 0; 1025 1.1 cgd return (0); 1026 1.1 cgd } 1027 1.13 christos error = copyout((caddr_t)&filehead, where, sizeof(filehead)); 1028 1.13 christos if (error) 1029 1.1 cgd return (error); 1030 1.1 cgd buflen -= sizeof(filehead); 1031 1.1 cgd where += sizeof(filehead); 1032 1.1 cgd 1033 1.1 cgd /* 1034 1.1 cgd * followed by an array of file structures 1035 1.1 cgd */ 1036 1.3 mycroft for (fp = filehead.lh_first; fp != 0; fp = fp->f_list.le_next) { 1037 1.1 cgd if (buflen < sizeof(struct file)) { 1038 1.1 cgd *sizep = where - start; 1039 1.1 cgd return (ENOMEM); 1040 1.1 cgd } 1041 1.39 perry error = copyout((caddr_t)fp, where, sizeof(struct file)); 1042 1.13 christos if (error) 1043 1.1 cgd return (error); 1044 1.1 cgd buflen -= sizeof(struct file); 1045 1.1 cgd where += sizeof(struct file); 1046 1.1 cgd } 1047 1.1 cgd *sizep = where - start; 1048 1.1 cgd return (0); 1049 1.1 cgd } 1050 1.1 cgd 1051 1.69 simonb #if defined(SYSVMSG) || defined(SYSVSEM) || defined(SYSVSHM) 1052 1.69 simonb #define FILL_PERM(src, dst) do { \ 1053 1.69 simonb (dst)._key = (src)._key; \ 1054 1.69 simonb (dst).uid = (src).uid; \ 1055 1.69 simonb (dst).gid = (src).gid; \ 1056 1.69 simonb (dst).cuid = (src).cuid; \ 1057 1.69 simonb (dst).cgid = (src).cgid; \ 1058 1.69 simonb (dst).mode = (src).mode; \ 1059 1.69 simonb (dst)._seq = (src)._seq; \ 1060 1.69 simonb } while (0); 1061 1.69 simonb #define FILL_MSG(src, dst) do { \ 1062 1.69 simonb FILL_PERM((src).msg_perm, (dst).msg_perm); \ 1063 1.69 simonb (dst).msg_qnum = (src).msg_qnum; \ 1064 1.69 simonb (dst).msg_qbytes = (src).msg_qbytes; \ 1065 1.69 simonb (dst)._msg_cbytes = (src)._msg_cbytes; \ 1066 1.69 simonb (dst).msg_lspid = (src).msg_lspid; \ 1067 1.69 simonb (dst).msg_lrpid = (src).msg_lrpid; \ 1068 1.69 simonb (dst).msg_stime = (src).msg_stime; \ 1069 1.69 simonb (dst).msg_rtime = (src).msg_rtime; \ 1070 1.69 simonb (dst).msg_ctime = (src).msg_ctime; \ 1071 1.69 simonb } while (0) 1072 1.69 simonb #define FILL_SEM(src, dst) do { \ 1073 1.69 simonb FILL_PERM((src).sem_perm, (dst).sem_perm); \ 1074 1.69 simonb (dst).sem_nsems = (src).sem_nsems; \ 1075 1.69 simonb (dst).sem_otime = (src).sem_otime; \ 1076 1.69 simonb (dst).sem_ctime = (src).sem_ctime; \ 1077 1.69 simonb } while (0) 1078 1.69 simonb #define FILL_SHM(src, dst) do { \ 1079 1.69 simonb FILL_PERM((src).shm_perm, (dst).shm_perm); \ 1080 1.69 simonb (dst).shm_segsz = (src).shm_segsz; \ 1081 1.69 simonb (dst).shm_lpid = (src).shm_lpid; \ 1082 1.69 simonb (dst).shm_cpid = (src).shm_cpid; \ 1083 1.69 simonb (dst).shm_atime = (src).shm_atime; \ 1084 1.69 simonb (dst).shm_dtime = (src).shm_dtime; \ 1085 1.69 simonb (dst).shm_ctime = (src).shm_ctime; \ 1086 1.69 simonb (dst).shm_nattch = (src).shm_nattch; \ 1087 1.69 simonb } while (0) 1088 1.69 simonb 1089 1.69 simonb static int 1090 1.91 simonb sysctl_sysvipc(int *name, u_int namelen, void *where, size_t *sizep) 1091 1.69 simonb { 1092 1.73 simonb #ifdef SYSVMSG 1093 1.69 simonb struct msg_sysctl_info *msgsi; 1094 1.73 simonb #endif 1095 1.73 simonb #ifdef SYSVSEM 1096 1.69 simonb struct sem_sysctl_info *semsi; 1097 1.73 simonb #endif 1098 1.73 simonb #ifdef SYSVSHM 1099 1.69 simonb struct shm_sysctl_info *shmsi; 1100 1.73 simonb #endif 1101 1.69 simonb size_t infosize, dssize, tsize, buflen; 1102 1.69 simonb void *buf = NULL, *buf2; 1103 1.69 simonb char *start; 1104 1.69 simonb int32_t nds; 1105 1.69 simonb int i, error, ret; 1106 1.69 simonb 1107 1.69 simonb if (namelen != 1) 1108 1.69 simonb return (EINVAL); 1109 1.69 simonb 1110 1.69 simonb start = where; 1111 1.69 simonb buflen = *sizep; 1112 1.69 simonb 1113 1.69 simonb switch (*name) { 1114 1.69 simonb case KERN_SYSVIPC_MSG_INFO: 1115 1.69 simonb #ifdef SYSVMSG 1116 1.69 simonb infosize = sizeof(msgsi->msginfo); 1117 1.69 simonb nds = msginfo.msgmni; 1118 1.69 simonb dssize = sizeof(msgsi->msgids[0]); 1119 1.69 simonb break; 1120 1.69 simonb #else 1121 1.69 simonb return (EINVAL); 1122 1.69 simonb #endif 1123 1.69 simonb case KERN_SYSVIPC_SEM_INFO: 1124 1.69 simonb #ifdef SYSVSEM 1125 1.69 simonb infosize = sizeof(semsi->seminfo); 1126 1.69 simonb nds = seminfo.semmni; 1127 1.69 simonb dssize = sizeof(semsi->semids[0]); 1128 1.69 simonb break; 1129 1.69 simonb #else 1130 1.69 simonb return (EINVAL); 1131 1.69 simonb #endif 1132 1.69 simonb case KERN_SYSVIPC_SHM_INFO: 1133 1.69 simonb #ifdef SYSVSHM 1134 1.69 simonb infosize = sizeof(shmsi->shminfo); 1135 1.69 simonb nds = shminfo.shmmni; 1136 1.69 simonb dssize = sizeof(shmsi->shmids[0]); 1137 1.69 simonb break; 1138 1.69 simonb #else 1139 1.69 simonb return (EINVAL); 1140 1.69 simonb #endif 1141 1.69 simonb default: 1142 1.69 simonb return (EINVAL); 1143 1.69 simonb } 1144 1.69 simonb /* 1145 1.69 simonb * Round infosize to 64 bit boundary if requesting more than just 1146 1.69 simonb * the info structure or getting the total data size. 1147 1.69 simonb */ 1148 1.69 simonb if (where == NULL || *sizep > infosize) 1149 1.69 simonb infosize = ((infosize + 7) / 8) * 8; 1150 1.69 simonb tsize = infosize + nds * dssize; 1151 1.69 simonb 1152 1.69 simonb /* Return just the total size required. */ 1153 1.69 simonb if (where == NULL) { 1154 1.69 simonb *sizep = tsize; 1155 1.69 simonb return (0); 1156 1.69 simonb } 1157 1.69 simonb 1158 1.69 simonb /* Not enough room for even the info struct. */ 1159 1.69 simonb if (buflen < infosize) { 1160 1.69 simonb *sizep = 0; 1161 1.69 simonb return (ENOMEM); 1162 1.69 simonb } 1163 1.69 simonb buf = malloc(min(tsize, buflen), M_TEMP, M_WAITOK); 1164 1.69 simonb memset(buf, 0, min(tsize, buflen)); 1165 1.69 simonb 1166 1.69 simonb switch (*name) { 1167 1.73 simonb #ifdef SYSVMSG 1168 1.69 simonb case KERN_SYSVIPC_MSG_INFO: 1169 1.69 simonb msgsi = (struct msg_sysctl_info *)buf; 1170 1.69 simonb buf2 = &msgsi->msgids[0]; 1171 1.69 simonb msgsi->msginfo = msginfo; 1172 1.69 simonb break; 1173 1.73 simonb #endif 1174 1.73 simonb #ifdef SYSVSEM 1175 1.69 simonb case KERN_SYSVIPC_SEM_INFO: 1176 1.69 simonb semsi = (struct sem_sysctl_info *)buf; 1177 1.69 simonb buf2 = &semsi->semids[0]; 1178 1.69 simonb semsi->seminfo = seminfo; 1179 1.69 simonb break; 1180 1.73 simonb #endif 1181 1.73 simonb #ifdef SYSVSHM 1182 1.69 simonb case KERN_SYSVIPC_SHM_INFO: 1183 1.69 simonb shmsi = (struct shm_sysctl_info *)buf; 1184 1.69 simonb buf2 = &shmsi->shmids[0]; 1185 1.69 simonb shmsi->shminfo = shminfo; 1186 1.69 simonb break; 1187 1.73 simonb #endif 1188 1.69 simonb } 1189 1.69 simonb buflen -= infosize; 1190 1.69 simonb 1191 1.69 simonb ret = 0; 1192 1.69 simonb if (buflen > 0) { 1193 1.69 simonb /* Fill in the IPC data structures. */ 1194 1.69 simonb for (i = 0; i < nds; i++) { 1195 1.69 simonb if (buflen < dssize) { 1196 1.69 simonb ret = ENOMEM; 1197 1.69 simonb break; 1198 1.69 simonb } 1199 1.69 simonb switch (*name) { 1200 1.73 simonb #ifdef SYSVMSG 1201 1.69 simonb case KERN_SYSVIPC_MSG_INFO: 1202 1.69 simonb FILL_MSG(msqids[i], msgsi->msgids[i]); 1203 1.69 simonb break; 1204 1.73 simonb #endif 1205 1.73 simonb #ifdef SYSVSEM 1206 1.69 simonb case KERN_SYSVIPC_SEM_INFO: 1207 1.69 simonb FILL_SEM(sema[i], semsi->semids[i]); 1208 1.69 simonb break; 1209 1.73 simonb #endif 1210 1.73 simonb #ifdef SYSVSHM 1211 1.69 simonb case KERN_SYSVIPC_SHM_INFO: 1212 1.69 simonb FILL_SHM(shmsegs[i], shmsi->shmids[i]); 1213 1.69 simonb break; 1214 1.73 simonb #endif 1215 1.69 simonb } 1216 1.69 simonb buflen -= dssize; 1217 1.69 simonb } 1218 1.69 simonb } 1219 1.69 simonb *sizep -= buflen; 1220 1.69 simonb error = copyout(buf, start, *sizep); 1221 1.69 simonb /* If copyout succeeded, use return code set earlier. */ 1222 1.69 simonb if (error == 0) 1223 1.69 simonb error = ret; 1224 1.69 simonb if (buf) 1225 1.69 simonb free(buf, M_TEMP); 1226 1.69 simonb return (error); 1227 1.69 simonb } 1228 1.69 simonb #endif /* SYSVMSG || SYSVSEM || SYSVSHM */ 1229 1.72 simonb 1230 1.72 simonb static int 1231 1.91 simonb sysctl_msgbuf(void *vwhere, size_t *sizep) 1232 1.72 simonb { 1233 1.72 simonb char *where = vwhere; 1234 1.72 simonb size_t len, maxlen = *sizep; 1235 1.88 enami long beg, end; 1236 1.72 simonb int error; 1237 1.72 simonb 1238 1.72 simonb /* 1239 1.72 simonb * deal with cases where the message buffer has 1240 1.72 simonb * become corrupted. 1241 1.72 simonb */ 1242 1.72 simonb if (!msgbufenabled || msgbufp->msg_magic != MSG_MAGIC) { 1243 1.72 simonb msgbufenabled = 0; 1244 1.72 simonb return (ENXIO); 1245 1.72 simonb } 1246 1.72 simonb 1247 1.72 simonb if (where == NULL) { 1248 1.72 simonb /* always return full buffer size */ 1249 1.72 simonb *sizep = msgbufp->msg_bufs; 1250 1.72 simonb return (0); 1251 1.72 simonb } 1252 1.72 simonb 1253 1.72 simonb error = 0; 1254 1.72 simonb maxlen = min(msgbufp->msg_bufs, maxlen); 1255 1.88 enami 1256 1.88 enami /* 1257 1.88 enami * First, copy from the write pointer to the end of 1258 1.88 enami * message buffer. 1259 1.88 enami */ 1260 1.88 enami beg = msgbufp->msg_bufx; 1261 1.88 enami end = msgbufp->msg_bufs; 1262 1.72 simonb while (maxlen > 0) { 1263 1.88 enami len = min(end - beg, maxlen); 1264 1.72 simonb if (len == 0) 1265 1.72 simonb break; 1266 1.88 enami error = copyout(&msgbufp->msg_bufc[beg], where, len); 1267 1.72 simonb if (error) 1268 1.72 simonb break; 1269 1.72 simonb where += len; 1270 1.72 simonb maxlen -= len; 1271 1.88 enami 1272 1.88 enami /* 1273 1.88 enami * ... then, copy from the beginning of message buffer to 1274 1.88 enami * the write pointer. 1275 1.88 enami */ 1276 1.88 enami beg = 0; 1277 1.88 enami end = msgbufp->msg_bufx; 1278 1.72 simonb } 1279 1.72 simonb return (error); 1280 1.72 simonb } 1281 1.69 simonb 1282 1.1 cgd /* 1283 1.1 cgd * try over estimating by 5 procs 1284 1.1 cgd */ 1285 1.39 perry #define KERN_PROCSLOP (5 * sizeof(struct kinfo_proc)) 1286 1.1 cgd 1287 1.69 simonb static int 1288 1.91 simonb sysctl_doeproc(int *name, u_int namelen, void *vwhere, size_t *sizep) 1289 1.1 cgd { 1290 1.62 simonb struct eproc eproc; 1291 1.62 simonb struct kinfo_proc2 kproc2; 1292 1.69 simonb struct kinfo_proc *dp; 1293 1.60 augustss struct proc *p; 1294 1.41 thorpej const struct proclist_desc *pd; 1295 1.69 simonb char *where, *dp2; 1296 1.62 simonb int type, op, arg, elem_size, elem_count; 1297 1.62 simonb int buflen, needed, error; 1298 1.62 simonb 1299 1.69 simonb dp = vwhere; 1300 1.69 simonb dp2 = where = vwhere; 1301 1.62 simonb buflen = where != NULL ? *sizep : 0; 1302 1.62 simonb error = needed = 0; 1303 1.62 simonb type = name[0]; 1304 1.1 cgd 1305 1.62 simonb if (type == KERN_PROC) { 1306 1.62 simonb if (namelen != 3 && !(namelen == 2 && name[1] == KERN_PROC_ALL)) 1307 1.62 simonb return (EINVAL); 1308 1.62 simonb op = name[1]; 1309 1.62 simonb if (op != KERN_PROC_ALL) 1310 1.62 simonb arg = name[2]; 1311 1.62 simonb } else { 1312 1.62 simonb if (namelen != 5) 1313 1.62 simonb return (EINVAL); 1314 1.62 simonb op = name[1]; 1315 1.62 simonb arg = name[2]; 1316 1.62 simonb elem_size = name[3]; 1317 1.62 simonb elem_count = name[4]; 1318 1.62 simonb } 1319 1.41 thorpej 1320 1.50 thorpej proclist_lock_read(); 1321 1.49 thorpej 1322 1.41 thorpej pd = proclists; 1323 1.1 cgd again: 1324 1.62 simonb for (p = LIST_FIRST(pd->pd_list); p != NULL; p = LIST_NEXT(p, p_list)) { 1325 1.1 cgd /* 1326 1.1 cgd * Skip embryonic processes. 1327 1.1 cgd */ 1328 1.1 cgd if (p->p_stat == SIDL) 1329 1.1 cgd continue; 1330 1.1 cgd /* 1331 1.1 cgd * TODO - make more efficient (see notes below). 1332 1.1 cgd * do by session. 1333 1.1 cgd */ 1334 1.62 simonb switch (op) { 1335 1.1 cgd 1336 1.1 cgd case KERN_PROC_PID: 1337 1.1 cgd /* could do this with just a lookup */ 1338 1.62 simonb if (p->p_pid != (pid_t)arg) 1339 1.1 cgd continue; 1340 1.1 cgd break; 1341 1.1 cgd 1342 1.1 cgd case KERN_PROC_PGRP: 1343 1.1 cgd /* could do this by traversing pgrp */ 1344 1.62 simonb if (p->p_pgrp->pg_id != (pid_t)arg) 1345 1.1 cgd continue; 1346 1.1 cgd break; 1347 1.1 cgd 1348 1.71 simonb case KERN_PROC_SESSION: 1349 1.71 simonb if (p->p_session->s_sid != (pid_t)arg) 1350 1.71 simonb continue; 1351 1.71 simonb break; 1352 1.71 simonb 1353 1.1 cgd case KERN_PROC_TTY: 1354 1.62 simonb if (arg == KERN_PROC_TTY_REVOKE) { 1355 1.61 simonb if ((p->p_flag & P_CONTROLT) == 0 || 1356 1.61 simonb p->p_session->s_ttyp == NULL || 1357 1.61 simonb p->p_session->s_ttyvp != NULL) 1358 1.61 simonb continue; 1359 1.61 simonb } else if ((p->p_flag & P_CONTROLT) == 0 || 1360 1.61 simonb p->p_session->s_ttyp == NULL) { 1361 1.62 simonb if ((dev_t)arg != KERN_PROC_TTY_NODEV) 1362 1.61 simonb continue; 1363 1.93.2.1 thorpej } else if (p->p_session->s_ttyp->t_devvp->v_rdev != 1364 1.93.2.1 thorpej (dev_t)arg) 1365 1.1 cgd continue; 1366 1.1 cgd break; 1367 1.1 cgd 1368 1.1 cgd case KERN_PROC_UID: 1369 1.62 simonb if (p->p_ucred->cr_uid != (uid_t)arg) 1370 1.1 cgd continue; 1371 1.1 cgd break; 1372 1.1 cgd 1373 1.1 cgd case KERN_PROC_RUID: 1374 1.62 simonb if (p->p_cred->p_ruid != (uid_t)arg) 1375 1.1 cgd continue; 1376 1.1 cgd break; 1377 1.71 simonb 1378 1.71 simonb case KERN_PROC_GID: 1379 1.71 simonb if (p->p_ucred->cr_gid != (uid_t)arg) 1380 1.71 simonb continue; 1381 1.71 simonb break; 1382 1.71 simonb 1383 1.71 simonb case KERN_PROC_RGID: 1384 1.71 simonb if (p->p_cred->p_rgid != (uid_t)arg) 1385 1.71 simonb continue; 1386 1.71 simonb break; 1387 1.71 simonb 1388 1.71 simonb case KERN_PROC_ALL: 1389 1.71 simonb /* allow everything */ 1390 1.71 simonb break; 1391 1.71 simonb 1392 1.71 simonb default: 1393 1.71 simonb error = EINVAL; 1394 1.71 simonb goto cleanup; 1395 1.1 cgd } 1396 1.62 simonb if (type == KERN_PROC) { 1397 1.62 simonb if (buflen >= sizeof(struct kinfo_proc)) { 1398 1.62 simonb fill_eproc(p, &eproc); 1399 1.62 simonb error = copyout((caddr_t)p, &dp->kp_proc, 1400 1.62 simonb sizeof(struct proc)); 1401 1.62 simonb if (error) 1402 1.62 simonb goto cleanup; 1403 1.62 simonb error = copyout((caddr_t)&eproc, &dp->kp_eproc, 1404 1.62 simonb sizeof(eproc)); 1405 1.62 simonb if (error) 1406 1.62 simonb goto cleanup; 1407 1.62 simonb dp++; 1408 1.62 simonb buflen -= sizeof(struct kinfo_proc); 1409 1.62 simonb } 1410 1.62 simonb needed += sizeof(struct kinfo_proc); 1411 1.62 simonb } else { /* KERN_PROC2 */ 1412 1.64 simonb if (buflen >= elem_size && elem_count > 0) { 1413 1.62 simonb fill_kproc2(p, &kproc2); 1414 1.62 simonb /* 1415 1.62 simonb * Copy out elem_size, but not larger than 1416 1.62 simonb * the size of a struct kinfo_proc2. 1417 1.62 simonb */ 1418 1.62 simonb error = copyout(&kproc2, dp2, 1419 1.62 simonb min(sizeof(kproc2), elem_size)); 1420 1.62 simonb if (error) 1421 1.62 simonb goto cleanup; 1422 1.62 simonb dp2 += elem_size; 1423 1.62 simonb buflen -= elem_size; 1424 1.64 simonb elem_count--; 1425 1.62 simonb } 1426 1.62 simonb needed += elem_size; 1427 1.1 cgd } 1428 1.1 cgd } 1429 1.41 thorpej pd++; 1430 1.41 thorpej if (pd->pd_list != NULL) 1431 1.1 cgd goto again; 1432 1.49 thorpej proclist_unlock_read(); 1433 1.41 thorpej 1434 1.1 cgd if (where != NULL) { 1435 1.62 simonb if (type == KERN_PROC) 1436 1.62 simonb *sizep = (caddr_t)dp - where; 1437 1.62 simonb else 1438 1.62 simonb *sizep = dp2 - where; 1439 1.1 cgd if (needed > *sizep) 1440 1.1 cgd return (ENOMEM); 1441 1.1 cgd } else { 1442 1.1 cgd needed += KERN_PROCSLOP; 1443 1.1 cgd *sizep = needed; 1444 1.1 cgd } 1445 1.1 cgd return (0); 1446 1.56 assar cleanup: 1447 1.56 assar proclist_unlock_read(); 1448 1.56 assar return (error); 1449 1.1 cgd } 1450 1.1 cgd 1451 1.1 cgd /* 1452 1.1 cgd * Fill in an eproc structure for the specified process. 1453 1.1 cgd */ 1454 1.1 cgd void 1455 1.91 simonb fill_eproc(struct proc *p, struct eproc *ep) 1456 1.1 cgd { 1457 1.60 augustss struct tty *tp; 1458 1.1 cgd 1459 1.1 cgd ep->e_paddr = p; 1460 1.61 simonb ep->e_sess = p->p_session; 1461 1.1 cgd ep->e_pcred = *p->p_cred; 1462 1.1 cgd ep->e_ucred = *p->p_ucred; 1463 1.48 thorpej if (p->p_stat == SIDL || P_ZOMBIE(p)) { 1464 1.1 cgd ep->e_vm.vm_rssize = 0; 1465 1.1 cgd ep->e_vm.vm_tsize = 0; 1466 1.1 cgd ep->e_vm.vm_dsize = 0; 1467 1.1 cgd ep->e_vm.vm_ssize = 0; 1468 1.1 cgd /* ep->e_vm.vm_pmap = XXX; */ 1469 1.1 cgd } else { 1470 1.60 augustss struct vmspace *vm = p->p_vmspace; 1471 1.1 cgd 1472 1.26 gwr ep->e_vm.vm_rssize = vm_resident_count(vm); 1473 1.1 cgd ep->e_vm.vm_tsize = vm->vm_tsize; 1474 1.1 cgd ep->e_vm.vm_dsize = vm->vm_dsize; 1475 1.1 cgd ep->e_vm.vm_ssize = vm->vm_ssize; 1476 1.1 cgd } 1477 1.1 cgd if (p->p_pptr) 1478 1.1 cgd ep->e_ppid = p->p_pptr->p_pid; 1479 1.1 cgd else 1480 1.1 cgd ep->e_ppid = 0; 1481 1.1 cgd ep->e_pgid = p->p_pgrp->pg_id; 1482 1.33 thorpej ep->e_sid = ep->e_sess->s_sid; 1483 1.1 cgd ep->e_jobc = p->p_pgrp->pg_jobc; 1484 1.1 cgd if ((p->p_flag & P_CONTROLT) && 1485 1.1 cgd (tp = ep->e_sess->s_ttyp)) { 1486 1.93.2.1 thorpej ep->e_tdev = tp->t_devvp->v_rdev; 1487 1.1 cgd ep->e_tpgid = tp->t_pgrp ? tp->t_pgrp->pg_id : NO_PID; 1488 1.1 cgd ep->e_tsess = tp->t_session; 1489 1.1 cgd } else 1490 1.1 cgd ep->e_tdev = NODEV; 1491 1.1 cgd if (p->p_wmesg) 1492 1.1 cgd strncpy(ep->e_wmesg, p->p_wmesg, WMESGLEN); 1493 1.1 cgd ep->e_xsize = ep->e_xrssize = 0; 1494 1.1 cgd ep->e_xccount = ep->e_xswrss = 0; 1495 1.24 mycroft ep->e_flag = ep->e_sess->s_ttyvp ? EPROC_CTTY : 0; 1496 1.24 mycroft if (SESS_LEADER(p)) 1497 1.24 mycroft ep->e_flag |= EPROC_SLEADER; 1498 1.24 mycroft strncpy(ep->e_login, ep->e_sess->s_login, MAXLOGNAME); 1499 1.62 simonb } 1500 1.62 simonb 1501 1.62 simonb /* 1502 1.62 simonb * Fill in an eproc structure for the specified process. 1503 1.62 simonb */ 1504 1.62 simonb static void 1505 1.91 simonb fill_kproc2(struct proc *p, struct kinfo_proc2 *ki) 1506 1.62 simonb { 1507 1.62 simonb struct tty *tp; 1508 1.62 simonb 1509 1.62 simonb memset(ki, 0, sizeof(*ki)); 1510 1.62 simonb 1511 1.62 simonb ki->p_forw = PTRTOINT64(p->p_forw); 1512 1.62 simonb ki->p_back = PTRTOINT64(p->p_back); 1513 1.62 simonb ki->p_paddr = PTRTOINT64(p); 1514 1.62 simonb 1515 1.62 simonb ki->p_addr = PTRTOINT64(p->p_addr); 1516 1.62 simonb ki->p_fd = PTRTOINT64(p->p_fd); 1517 1.62 simonb ki->p_cwdi = PTRTOINT64(p->p_cwdi); 1518 1.62 simonb ki->p_stats = PTRTOINT64(p->p_stats); 1519 1.62 simonb ki->p_limit = PTRTOINT64(p->p_limit); 1520 1.62 simonb ki->p_vmspace = PTRTOINT64(p->p_vmspace); 1521 1.62 simonb ki->p_sigacts = PTRTOINT64(p->p_sigacts); 1522 1.62 simonb ki->p_sess = PTRTOINT64(p->p_session); 1523 1.62 simonb ki->p_tsess = 0; /* may be changed if controlling tty below */ 1524 1.62 simonb ki->p_ru = PTRTOINT64(p->p_ru); 1525 1.62 simonb 1526 1.62 simonb ki->p_eflag = 0; 1527 1.62 simonb ki->p_exitsig = p->p_exitsig; 1528 1.62 simonb ki->p_flag = p->p_flag; 1529 1.62 simonb 1530 1.62 simonb ki->p_pid = p->p_pid; 1531 1.62 simonb if (p->p_pptr) 1532 1.62 simonb ki->p_ppid = p->p_pptr->p_pid; 1533 1.62 simonb else 1534 1.62 simonb ki->p_ppid = 0; 1535 1.62 simonb ki->p_sid = p->p_session->s_sid; 1536 1.62 simonb ki->p__pgid = p->p_pgrp->pg_id; 1537 1.62 simonb 1538 1.62 simonb ki->p_tpgid = NO_PID; /* may be changed if controlling tty below */ 1539 1.62 simonb 1540 1.62 simonb ki->p_uid = p->p_ucred->cr_uid; 1541 1.62 simonb ki->p_ruid = p->p_cred->p_ruid; 1542 1.62 simonb ki->p_gid = p->p_ucred->cr_gid; 1543 1.62 simonb ki->p_rgid = p->p_cred->p_rgid; 1544 1.62 simonb 1545 1.62 simonb memcpy(ki->p_groups, p->p_cred->pc_ucred->cr_groups, 1546 1.62 simonb min(sizeof(ki->p_groups), sizeof(p->p_cred->pc_ucred->cr_groups))); 1547 1.62 simonb ki->p_ngroups = p->p_cred->pc_ucred->cr_ngroups; 1548 1.62 simonb 1549 1.62 simonb ki->p_jobc = p->p_pgrp->pg_jobc; 1550 1.62 simonb if ((p->p_flag & P_CONTROLT) && (tp = p->p_session->s_ttyp)) { 1551 1.93.2.1 thorpej ki->p_tdev = tp->t_devvp->v_rdev; 1552 1.62 simonb ki->p_tpgid = tp->t_pgrp ? tp->t_pgrp->pg_id : NO_PID; 1553 1.62 simonb ki->p_tsess = PTRTOINT64(tp->t_session); 1554 1.62 simonb } else { 1555 1.62 simonb ki->p_tdev = NODEV; 1556 1.62 simonb } 1557 1.62 simonb 1558 1.62 simonb ki->p_estcpu = p->p_estcpu; 1559 1.62 simonb ki->p_rtime_sec = p->p_rtime.tv_sec; 1560 1.62 simonb ki->p_rtime_usec = p->p_rtime.tv_usec; 1561 1.62 simonb ki->p_cpticks = p->p_cpticks; 1562 1.62 simonb ki->p_pctcpu = p->p_pctcpu; 1563 1.62 simonb ki->p_swtime = p->p_swtime; 1564 1.62 simonb ki->p_slptime = p->p_slptime; 1565 1.66 thorpej if (p->p_stat == SONPROC) { 1566 1.66 thorpej KDASSERT(p->p_cpu != NULL); 1567 1.66 thorpej ki->p_schedflags = p->p_cpu->ci_schedstate.spc_flags; 1568 1.66 thorpej } else 1569 1.66 thorpej ki->p_schedflags = 0; 1570 1.62 simonb 1571 1.62 simonb ki->p_uticks = p->p_uticks; 1572 1.62 simonb ki->p_sticks = p->p_sticks; 1573 1.62 simonb ki->p_iticks = p->p_iticks; 1574 1.62 simonb 1575 1.62 simonb ki->p_tracep = PTRTOINT64(p->p_tracep); 1576 1.62 simonb ki->p_traceflag = p->p_traceflag; 1577 1.62 simonb 1578 1.62 simonb ki->p_holdcnt = p->p_holdcnt; 1579 1.62 simonb 1580 1.86 jdolecek memcpy(&ki->p_siglist, &p->p_sigctx.ps_siglist, sizeof(ki_sigset_t)); 1581 1.86 jdolecek memcpy(&ki->p_sigmask, &p->p_sigctx.ps_sigmask, sizeof(ki_sigset_t)); 1582 1.86 jdolecek memcpy(&ki->p_sigignore, &p->p_sigctx.ps_sigignore,sizeof(ki_sigset_t)); 1583 1.86 jdolecek memcpy(&ki->p_sigcatch, &p->p_sigctx.ps_sigcatch, sizeof(ki_sigset_t)); 1584 1.62 simonb 1585 1.62 simonb ki->p_stat = p->p_stat; 1586 1.62 simonb ki->p_priority = p->p_priority; 1587 1.62 simonb ki->p_usrpri = p->p_usrpri; 1588 1.62 simonb ki->p_nice = p->p_nice; 1589 1.62 simonb 1590 1.62 simonb ki->p_xstat = p->p_xstat; 1591 1.62 simonb ki->p_acflag = p->p_acflag; 1592 1.62 simonb 1593 1.62 simonb strncpy(ki->p_comm, p->p_comm, 1594 1.62 simonb min(sizeof(ki->p_comm), sizeof(p->p_comm))); 1595 1.62 simonb 1596 1.62 simonb if (p->p_wmesg) 1597 1.62 simonb strncpy(ki->p_wmesg, p->p_wmesg, sizeof(ki->p_wmesg)); 1598 1.62 simonb ki->p_wchan = PTRTOINT64(p->p_wchan); 1599 1.62 simonb 1600 1.62 simonb strncpy(ki->p_login, p->p_session->s_login, sizeof(ki->p_login)); 1601 1.62 simonb 1602 1.62 simonb if (p->p_stat == SIDL || P_ZOMBIE(p)) { 1603 1.62 simonb ki->p_vm_rssize = 0; 1604 1.62 simonb ki->p_vm_tsize = 0; 1605 1.62 simonb ki->p_vm_dsize = 0; 1606 1.62 simonb ki->p_vm_ssize = 0; 1607 1.62 simonb } else { 1608 1.62 simonb struct vmspace *vm = p->p_vmspace; 1609 1.62 simonb 1610 1.62 simonb ki->p_vm_rssize = vm_resident_count(vm); 1611 1.62 simonb ki->p_vm_tsize = vm->vm_tsize; 1612 1.62 simonb ki->p_vm_dsize = vm->vm_dsize; 1613 1.62 simonb ki->p_vm_ssize = vm->vm_ssize; 1614 1.62 simonb } 1615 1.62 simonb 1616 1.62 simonb if (p->p_session->s_ttyvp) 1617 1.62 simonb ki->p_eflag |= EPROC_CTTY; 1618 1.62 simonb if (SESS_LEADER(p)) 1619 1.62 simonb ki->p_eflag |= EPROC_SLEADER; 1620 1.62 simonb 1621 1.62 simonb /* XXX Is this double check necessary? */ 1622 1.76 thorpej if ((p->p_flag & P_INMEM) == 0 || P_ZOMBIE(p)) { 1623 1.62 simonb ki->p_uvalid = 0; 1624 1.62 simonb } else { 1625 1.62 simonb ki->p_uvalid = 1; 1626 1.62 simonb 1627 1.62 simonb ki->p_ustart_sec = p->p_stats->p_start.tv_sec; 1628 1.62 simonb ki->p_ustart_usec = p->p_stats->p_start.tv_usec; 1629 1.62 simonb 1630 1.62 simonb ki->p_uutime_sec = p->p_stats->p_ru.ru_utime.tv_sec; 1631 1.62 simonb ki->p_uutime_usec = p->p_stats->p_ru.ru_utime.tv_usec; 1632 1.62 simonb ki->p_ustime_sec = p->p_stats->p_ru.ru_stime.tv_sec; 1633 1.62 simonb ki->p_ustime_usec = p->p_stats->p_ru.ru_stime.tv_usec; 1634 1.62 simonb 1635 1.62 simonb ki->p_uru_maxrss = p->p_stats->p_ru.ru_maxrss; 1636 1.62 simonb ki->p_uru_ixrss = p->p_stats->p_ru.ru_ixrss; 1637 1.62 simonb ki->p_uru_idrss = p->p_stats->p_ru.ru_idrss; 1638 1.62 simonb ki->p_uru_isrss = p->p_stats->p_ru.ru_isrss; 1639 1.62 simonb ki->p_uru_minflt = p->p_stats->p_ru.ru_minflt; 1640 1.62 simonb ki->p_uru_majflt = p->p_stats->p_ru.ru_majflt; 1641 1.62 simonb ki->p_uru_nswap = p->p_stats->p_ru.ru_nswap; 1642 1.62 simonb ki->p_uru_inblock = p->p_stats->p_ru.ru_inblock; 1643 1.62 simonb ki->p_uru_oublock = p->p_stats->p_ru.ru_oublock; 1644 1.62 simonb ki->p_uru_msgsnd = p->p_stats->p_ru.ru_msgsnd; 1645 1.62 simonb ki->p_uru_msgrcv = p->p_stats->p_ru.ru_msgrcv; 1646 1.62 simonb ki->p_uru_nsignals = p->p_stats->p_ru.ru_nsignals; 1647 1.62 simonb ki->p_uru_nvcsw = p->p_stats->p_ru.ru_nvcsw; 1648 1.62 simonb ki->p_uru_nivcsw = p->p_stats->p_ru.ru_nivcsw; 1649 1.62 simonb 1650 1.62 simonb ki->p_uctime_sec = p->p_stats->p_cru.ru_utime.tv_sec + 1651 1.62 simonb p->p_stats->p_cru.ru_stime.tv_sec; 1652 1.62 simonb ki->p_uctime_usec = p->p_stats->p_cru.ru_utime.tv_usec + 1653 1.62 simonb p->p_stats->p_cru.ru_stime.tv_usec; 1654 1.62 simonb } 1655 1.83 sommerfe #ifdef MULTIPROCESSOR 1656 1.83 sommerfe if (p->p_cpu != NULL) 1657 1.83 sommerfe ki->p_cpuid = p->p_cpu->ci_cpuid; 1658 1.83 sommerfe else 1659 1.83 sommerfe #endif 1660 1.83 sommerfe ki->p_cpuid = KI_NOCPU; 1661 1.62 simonb } 1662 1.62 simonb 1663 1.62 simonb int 1664 1.91 simonb sysctl_procargs(int *name, u_int namelen, void *where, size_t *sizep, 1665 1.91 simonb struct proc *up) 1666 1.62 simonb { 1667 1.62 simonb struct ps_strings pss; 1668 1.62 simonb struct proc *p; 1669 1.62 simonb size_t len, upper_bound, xlen; 1670 1.62 simonb struct uio auio; 1671 1.62 simonb struct iovec aiov; 1672 1.62 simonb vaddr_t argv; 1673 1.62 simonb pid_t pid; 1674 1.62 simonb int nargv, type, error, i; 1675 1.62 simonb char *arg; 1676 1.68 pk char *tmp; 1677 1.62 simonb 1678 1.62 simonb if (namelen != 2) 1679 1.62 simonb return (EINVAL); 1680 1.62 simonb pid = name[0]; 1681 1.62 simonb type = name[1]; 1682 1.62 simonb 1683 1.62 simonb switch (type) { 1684 1.62 simonb case KERN_PROC_ARGV: 1685 1.62 simonb case KERN_PROC_NARGV: 1686 1.62 simonb case KERN_PROC_ENV: 1687 1.62 simonb case KERN_PROC_NENV: 1688 1.62 simonb /* ok */ 1689 1.62 simonb break; 1690 1.62 simonb default: 1691 1.62 simonb return (EINVAL); 1692 1.62 simonb } 1693 1.62 simonb 1694 1.62 simonb /* check pid */ 1695 1.62 simonb if ((p = pfind(pid)) == NULL) 1696 1.62 simonb return (EINVAL); 1697 1.62 simonb 1698 1.62 simonb /* only root or same user change look at the environment */ 1699 1.62 simonb if (type == KERN_PROC_ENV || type == KERN_PROC_NENV) { 1700 1.62 simonb if (up->p_ucred->cr_uid != 0) { 1701 1.62 simonb if (up->p_cred->p_ruid != p->p_cred->p_ruid || 1702 1.62 simonb up->p_cred->p_ruid != p->p_cred->p_svuid) 1703 1.62 simonb return (EPERM); 1704 1.62 simonb } 1705 1.62 simonb } 1706 1.62 simonb 1707 1.62 simonb if (sizep != NULL && where == NULL) { 1708 1.62 simonb if (type == KERN_PROC_NARGV || type == KERN_PROC_NENV) 1709 1.62 simonb *sizep = sizeof (int); 1710 1.62 simonb else 1711 1.62 simonb *sizep = ARG_MAX; /* XXX XXX XXX */ 1712 1.62 simonb return (0); 1713 1.62 simonb } 1714 1.62 simonb if (where == NULL || sizep == NULL) 1715 1.62 simonb return (EINVAL); 1716 1.62 simonb 1717 1.62 simonb /* 1718 1.62 simonb * Zombies don't have a stack, so we can't read their psstrings. 1719 1.62 simonb * System processes also don't have a user stack. 1720 1.62 simonb */ 1721 1.62 simonb if (P_ZOMBIE(p) || (p->p_flag & P_SYSTEM) != 0) 1722 1.62 simonb return (EINVAL); 1723 1.62 simonb 1724 1.62 simonb /* 1725 1.62 simonb * Lock the process down in memory. 1726 1.62 simonb */ 1727 1.62 simonb /* XXXCDC: how should locking work here? */ 1728 1.62 simonb if ((p->p_flag & P_WEXIT) || (p->p_vmspace->vm_refcnt < 1)) 1729 1.62 simonb return (EFAULT); 1730 1.62 simonb p->p_vmspace->vm_refcnt++; /* XXX */ 1731 1.67 simonb 1732 1.67 simonb /* 1733 1.67 simonb * Allocate a temporary buffer to hold the arguments. 1734 1.67 simonb */ 1735 1.67 simonb arg = malloc(PAGE_SIZE, M_TEMP, M_WAITOK); 1736 1.62 simonb 1737 1.62 simonb /* 1738 1.62 simonb * Read in the ps_strings structure. 1739 1.62 simonb */ 1740 1.62 simonb aiov.iov_base = &pss; 1741 1.62 simonb aiov.iov_len = sizeof(pss); 1742 1.62 simonb auio.uio_iov = &aiov; 1743 1.62 simonb auio.uio_iovcnt = 1; 1744 1.62 simonb auio.uio_offset = (vaddr_t)p->p_psstr; 1745 1.62 simonb auio.uio_resid = sizeof(pss); 1746 1.62 simonb auio.uio_segflg = UIO_SYSSPACE; 1747 1.62 simonb auio.uio_rw = UIO_READ; 1748 1.62 simonb auio.uio_procp = NULL; 1749 1.62 simonb error = uvm_io(&p->p_vmspace->vm_map, &auio); 1750 1.62 simonb if (error) 1751 1.62 simonb goto done; 1752 1.62 simonb 1753 1.62 simonb if (type == KERN_PROC_ARGV || type == KERN_PROC_NARGV) 1754 1.62 simonb memcpy(&nargv, (char *)&pss + p->p_psnargv, sizeof(nargv)); 1755 1.62 simonb else 1756 1.62 simonb memcpy(&nargv, (char *)&pss + p->p_psnenv, sizeof(nargv)); 1757 1.62 simonb if (type == KERN_PROC_NARGV || type == KERN_PROC_NENV) { 1758 1.62 simonb error = copyout(&nargv, where, sizeof(nargv)); 1759 1.64 simonb *sizep = sizeof(nargv); 1760 1.62 simonb goto done; 1761 1.62 simonb } 1762 1.62 simonb /* 1763 1.62 simonb * Now read the address of the argument vector. 1764 1.62 simonb */ 1765 1.62 simonb switch (type) { 1766 1.68 pk case KERN_PROC_ARGV: 1767 1.62 simonb /* XXX compat32 stuff here */ 1768 1.68 pk memcpy(&tmp, (char *)&pss + p->p_psargv, sizeof(tmp)); 1769 1.62 simonb break; 1770 1.68 pk case KERN_PROC_ENV: 1771 1.68 pk memcpy(&tmp, (char *)&pss + p->p_psenv, sizeof(tmp)); 1772 1.62 simonb break; 1773 1.68 pk default: 1774 1.68 pk return (EINVAL); 1775 1.62 simonb } 1776 1.68 pk auio.uio_offset = (off_t)(long)tmp; 1777 1.62 simonb aiov.iov_base = &argv; 1778 1.62 simonb aiov.iov_len = sizeof(argv); 1779 1.62 simonb auio.uio_iov = &aiov; 1780 1.62 simonb auio.uio_iovcnt = 1; 1781 1.62 simonb auio.uio_resid = sizeof(argv); 1782 1.62 simonb auio.uio_segflg = UIO_SYSSPACE; 1783 1.62 simonb auio.uio_rw = UIO_READ; 1784 1.62 simonb auio.uio_procp = NULL; 1785 1.62 simonb error = uvm_io(&p->p_vmspace->vm_map, &auio); 1786 1.62 simonb if (error) 1787 1.62 simonb goto done; 1788 1.62 simonb 1789 1.62 simonb /* 1790 1.62 simonb * Now copy in the actual argument vector, one page at a time, 1791 1.62 simonb * since we don't know how long the vector is (though, we do 1792 1.62 simonb * know how many NUL-terminated strings are in the vector). 1793 1.62 simonb */ 1794 1.62 simonb len = 0; 1795 1.62 simonb upper_bound = *sizep; 1796 1.62 simonb for (; nargv != 0 && len < upper_bound; len += xlen) { 1797 1.62 simonb aiov.iov_base = arg; 1798 1.62 simonb aiov.iov_len = PAGE_SIZE; 1799 1.62 simonb auio.uio_iov = &aiov; 1800 1.62 simonb auio.uio_iovcnt = 1; 1801 1.62 simonb auio.uio_offset = argv + len; 1802 1.62 simonb xlen = PAGE_SIZE - ((argv + len) & PAGE_MASK); 1803 1.62 simonb auio.uio_resid = xlen; 1804 1.62 simonb auio.uio_segflg = UIO_SYSSPACE; 1805 1.62 simonb auio.uio_rw = UIO_READ; 1806 1.62 simonb auio.uio_procp = NULL; 1807 1.62 simonb error = uvm_io(&p->p_vmspace->vm_map, &auio); 1808 1.62 simonb if (error) 1809 1.62 simonb goto done; 1810 1.62 simonb 1811 1.62 simonb for (i = 0; i < xlen && nargv != 0; i++) { 1812 1.62 simonb if (arg[i] == '\0') 1813 1.62 simonb nargv--; /* one full string */ 1814 1.62 simonb } 1815 1.62 simonb 1816 1.62 simonb /* make sure we don't copyout past the end of the user's buffer */ 1817 1.62 simonb if (len + i > upper_bound) 1818 1.62 simonb i = upper_bound - len; 1819 1.62 simonb 1820 1.62 simonb error = copyout(arg, (char *)where + len, i); 1821 1.62 simonb if (error) 1822 1.62 simonb break; 1823 1.62 simonb 1824 1.62 simonb if (nargv == 0) { 1825 1.62 simonb len += i; 1826 1.62 simonb break; 1827 1.62 simonb } 1828 1.62 simonb } 1829 1.62 simonb *sizep = len; 1830 1.62 simonb 1831 1.62 simonb done: 1832 1.62 simonb uvmspace_free(p->p_vmspace); 1833 1.62 simonb 1834 1.62 simonb free(arg, M_TEMP); 1835 1.62 simonb return (error); 1836 1.1 cgd } 1837 1.78 jdolecek 1838 1.78 jdolecek #if NPTY > 0 1839 1.91 simonb int pty_maxptys(int, int); /* defined in kern/tty_pty.c */ 1840 1.78 jdolecek 1841 1.78 jdolecek /* 1842 1.78 jdolecek * Validate parameters and get old / set new parameters 1843 1.78 jdolecek * for pty sysctl function. 1844 1.78 jdolecek */ 1845 1.78 jdolecek static int 1846 1.91 simonb sysctl_pty(void *oldp, size_t *oldlenp, void *newp, size_t newlen) 1847 1.78 jdolecek { 1848 1.78 jdolecek int error = 0; 1849 1.78 jdolecek int oldmax = 0, newmax = 0; 1850 1.78 jdolecek 1851 1.78 jdolecek /* get current value of maxptys */ 1852 1.79 thorpej oldmax = pty_maxptys(0, 0); 1853 1.78 jdolecek 1854 1.78 jdolecek SYSCTL_SCALAR_CORE_TYP(oldp, oldlenp, &oldmax, int) 1855 1.78 jdolecek 1856 1.78 jdolecek if (!error && newp) { 1857 1.78 jdolecek SYSCTL_SCALAR_NEWPCHECK_TYP(newp, newlen, int) 1858 1.78 jdolecek SYSCTL_SCALAR_NEWPCOP_TYP(newp, &newmax, int) 1859 1.78 jdolecek 1860 1.78 jdolecek if (newmax != pty_maxptys(newmax, (newp != NULL))) 1861 1.78 jdolecek return (EINVAL); 1862 1.78 jdolecek 1863 1.78 jdolecek } 1864 1.78 jdolecek 1865 1.78 jdolecek return (error); 1866 1.78 jdolecek } 1867 1.78 jdolecek #endif /* NPTY > 0 */ 1868
Indexes created Tue Sep 30 10:09:55 GMT 2025