1 /*- 2 * SPDX-License-Identifier: BSD-3-Clause 3 * 4 * Copyright (c) 1999-2005 Apple Inc. 5 * Copyright (c) 2016-2018 Robert N. M. Watson 6 * All rights reserved. 7 * 8 * This software was developed by BAE Systems, the University of Cambridge 9 * Computer Laboratory, and Memorial University under DARPA/AFRL contract 10 * FA8650-15-C-7558 ("CADETS"), as part of the DARPA Transparent Computing 11 * (TC) research program. 12 * 13 * Redistribution and use in source and binary forms, with or without 14 * modification, are permitted provided that the following conditions 15 * are met: 16 * 1. Redistributions of source code must retain the above copyright 17 * notice, this list of conditions and the following disclaimer. 18 * 2. Redistributions in binary form must reproduce the above copyright 19 * notice, this list of conditions and the following disclaimer in the 20 * documentation and/or other materials provided with the distribution. 21 * 3. Neither the name of Apple Inc. ("Apple") nor the names of 22 * its contributors may be used to endorse or promote products derived 23 * from this software without specific prior written permission. 24 * 25 * THIS SOFTWARE IS PROVIDED BY APPLE AND ITS CONTRIBUTORS "AS IS" AND 26 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 27 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 28 * ARE DISCLAIMED. IN NO EVENT SHALL APPLE OR ITS CONTRIBUTORS BE LIABLE FOR 29 * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 30 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 31 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 32 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, 33 * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING 34 * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 35 * POSSIBILITY OF SUCH DAMAGE. 36 * 37 * $FreeBSD$ 38 */ 39 40 /* 41 * This header includes function prototypes and type definitions that are 42 * necessary for the kernel as a whole to interact with the audit subsystem. 43 */ 44 45 #ifndef _SECURITY_AUDIT_KERNEL_H_ 46 #define _SECURITY_AUDIT_KERNEL_H_ 47 48 #ifndef _KERNEL 49 #error "no user-serviceable parts inside" 50 #endif 51 52 #include <bsm/audit.h> 53 54 #include <sys/file.h> 55 #include <sys/sysctl.h> 56 57 /* 58 * Audit subsystem condition flags. The audit_trail_enabled flag is set and 59 * removed automatically as a result of configuring log files, and can be 60 * observed but should not be directly manipulated. The audit suspension 61 * flag permits audit to be temporarily disabled without reconfiguring the 62 * audit target. 63 * 64 * As DTrace can also request system-call auditing, a further 65 * audit_syscalls_enabled flag tracks whether newly entering system calls 66 * should be considered for auditing or not. 67 * 68 * XXXRW: Move trail flags to audit_private.h, as they no longer need to be 69 * visible outside the audit code...? 70 */ 71 extern u_int audit_dtrace_enabled; 72 extern int audit_trail_enabled; 73 extern int audit_trail_suspended; 74 extern bool audit_syscalls_enabled; 75 76 void audit_syscall_enter(unsigned short code, struct thread *td); 77 void audit_syscall_exit(int error, struct thread *td); 78 79 /* 80 * The remaining kernel functions are conditionally compiled in as they are 81 * wrapped by a macro, and the macro should be the only place in the source 82 * tree where these functions are referenced. 83 */ 84 #ifdef AUDIT 85 struct ipc_perm; 86 struct sockaddr; 87 union auditon_udata; 88 void audit_arg_addr(void * addr); 89 void audit_arg_exit(int status, int retval); 90 void audit_arg_len(int len); 91 void audit_arg_atfd1(int atfd); 92 void audit_arg_atfd2(int atfd); 93 void audit_arg_fd(int fd); 94 void audit_arg_fflags(int fflags); 95 void audit_arg_gid(gid_t gid); 96 void audit_arg_uid(uid_t uid); 97 void audit_arg_egid(gid_t egid); 98 void audit_arg_euid(uid_t euid); 99 void audit_arg_rgid(gid_t rgid); 100 void audit_arg_ruid(uid_t ruid); 101 void audit_arg_sgid(gid_t sgid); 102 void audit_arg_suid(uid_t suid); 103 void audit_arg_groupset(gid_t *gidset, u_int gidset_size); 104 void audit_arg_login(char *login); 105 void audit_arg_ctlname(int *name, int namelen); 106 void audit_arg_mask(int mask); 107 void audit_arg_mode(mode_t mode); 108 void audit_arg_dev(int dev); 109 void audit_arg_value(long value); 110 void audit_arg_owner(uid_t uid, gid_t gid); 111 void audit_arg_pid(pid_t pid); 112 void audit_arg_process(struct proc *p); 113 void audit_arg_signum(u_int signum); 114 void audit_arg_socket(int sodomain, int sotype, int soprotocol); 115 void audit_arg_sockaddr(struct thread *td, int dirfd, struct sockaddr *sa); 116 void audit_arg_auid(uid_t auid); 117 void audit_arg_auditinfo(struct auditinfo *au_info); 118 void audit_arg_auditinfo_addr(struct auditinfo_addr *au_info); 119 void audit_arg_upath1(struct thread *td, int dirfd, char *upath); 120 void audit_arg_upath1_canon(char *upath); 121 void audit_arg_upath2(struct thread *td, int dirfd, char *upath); 122 void audit_arg_upath2_canon(char *upath); 123 void audit_arg_upath1_vp(struct thread *td, struct vnode *rdir, 124 struct vnode *cdir, char *upath); 125 void audit_arg_upath2_vp(struct thread *td, struct vnode *rdir, 126 struct vnode *cdir, char *upath); 127 void audit_arg_vnode1(struct vnode *vp); 128 void audit_arg_vnode2(struct vnode *vp); 129 void audit_arg_text(const char *text); 130 void audit_arg_cmd(int cmd); 131 void audit_arg_svipc_cmd(int cmd); 132 void audit_arg_svipc_perm(struct ipc_perm *perm); 133 void audit_arg_svipc_id(int id); 134 void audit_arg_svipc_addr(void *addr); 135 void audit_arg_svipc_which(int which); 136 void audit_arg_posix_ipc_perm(uid_t uid, gid_t gid, mode_t mode); 137 void audit_arg_auditon(union auditon_udata *udata); 138 void audit_arg_file(struct proc *p, struct file *fp); 139 void audit_arg_argv(char *argv, int argc, int length); 140 void audit_arg_envv(char *envv, int envc, int length); 141 void audit_arg_rights(cap_rights_t *rightsp); 142 void audit_arg_fcntl_rights(uint32_t fcntlrights); 143 void audit_sysclose(struct thread *td, int fd, struct file *fp); 144 void audit_cred_copy(struct ucred *src, struct ucred *dest); 145 void audit_cred_destroy(struct ucred *cred); 146 void audit_cred_init(struct ucred *cred); 147 void audit_cred_kproc0(struct ucred *cred); 148 void audit_cred_proc1(struct ucred *cred); 149 void audit_proc_coredump(struct thread *td, char *path, int errcode); 150 void audit_thread_alloc(struct thread *td); 151 void audit_thread_free(struct thread *td); 152 153 /* 154 * Define macros to wrap the audit_arg_* calls by checking the global 155 * audit_syscalls_enabled flag before performing the actual call. 156 */ 157 #define AUDITING_TD(td) (__predict_false((td)->td_pflags & TDP_AUDITREC)) 158 159 #define AUDIT_ARG_ADDR(addr) do { \ 160 if (AUDITING_TD(curthread)) \ 161 audit_arg_addr((addr)); \ 162 } while (0) 163 164 #define AUDIT_ARG_ARGV(argv, argc, length) do { \ 165 if (AUDITING_TD(curthread)) \ 166 audit_arg_argv((argv), (argc), (length)); \ 167 } while (0) 168 169 #define AUDIT_ARG_ATFD1(atfd) do { \ 170 if (AUDITING_TD(curthread)) \ 171 audit_arg_atfd1((atfd)); \ 172 } while (0) 173 174 #define AUDIT_ARG_ATFD2(atfd) do { \ 175 if (AUDITING_TD(curthread)) \ 176 audit_arg_atfd2((atfd)); \ 177 } while (0) 178 179 #define AUDIT_ARG_AUDITON(udata) do { \ 180 if (AUDITING_TD(curthread)) \ 181 audit_arg_auditon((udata)); \ 182 } while (0) 183 184 #define AUDIT_ARG_CMD(cmd) do { \ 185 if (AUDITING_TD(curthread)) \ 186 audit_arg_cmd((cmd)); \ 187 } while (0) 188 189 #define AUDIT_ARG_DEV(dev) do { \ 190 if (AUDITING_TD(curthread)) \ 191 audit_arg_dev((dev)); \ 192 } while (0) 193 194 #define AUDIT_ARG_EGID(egid) do { \ 195 if (AUDITING_TD(curthread)) \ 196 audit_arg_egid((egid)); \ 197 } while (0) 198 199 #define AUDIT_ARG_ENVV(envv, envc, length) do { \ 200 if (AUDITING_TD(curthread)) \ 201 audit_arg_envv((envv), (envc), (length)); \ 202 } while (0) 203 204 #define AUDIT_ARG_EXIT(status, retval) do { \ 205 if (AUDITING_TD(curthread)) \ 206 audit_arg_exit((status), (retval)); \ 207 } while (0) 208 209 #define AUDIT_ARG_EUID(euid) do { \ 210 if (AUDITING_TD(curthread)) \ 211 audit_arg_euid((euid)); \ 212 } while (0) 213 214 #define AUDIT_ARG_FD(fd) do { \ 215 if (AUDITING_TD(curthread)) \ 216 audit_arg_fd((fd)); \ 217 } while (0) 218 219 #define AUDIT_ARG_FILE(p, fp) do { \ 220 if (AUDITING_TD(curthread)) \ 221 audit_arg_file((p), (fp)); \ 222 } while (0) 223 224 #define AUDIT_ARG_FFLAGS(fflags) do { \ 225 if (AUDITING_TD(curthread)) \ 226 audit_arg_fflags((fflags)); \ 227 } while (0) 228 229 #define AUDIT_ARG_GID(gid) do { \ 230 if (AUDITING_TD(curthread)) \ 231 audit_arg_gid((gid)); \ 232 } while (0) 233 234 #define AUDIT_ARG_GROUPSET(gidset, gidset_size) do { \ 235 if (AUDITING_TD(curthread)) \ 236 audit_arg_groupset((gidset), (gidset_size)); \ 237 } while (0) 238 239 #define AUDIT_ARG_LOGIN(login) do { \ 240 if (AUDITING_TD(curthread)) \ 241 audit_arg_login((login)); \ 242 } while (0) 243 244 #define AUDIT_ARG_MODE(mode) do { \ 245 if (AUDITING_TD(curthread)) \ 246 audit_arg_mode((mode)); \ 247 } while (0) 248 249 #define AUDIT_ARG_OWNER(uid, gid) do { \ 250 if (AUDITING_TD(curthread)) \ 251 audit_arg_owner((uid), (gid)); \ 252 } while (0) 253 254 #define AUDIT_ARG_PID(pid) do { \ 255 if (AUDITING_TD(curthread)) \ 256 audit_arg_pid((pid)); \ 257 } while (0) 258 259 #define AUDIT_ARG_POSIX_IPC_PERM(uid, gid, mode) do { \ 260 if (AUDITING_TD(curthread)) \ 261 audit_arg_posix_ipc_perm((uid), (gid), (mod)); \ 262 } while (0) 263 264 #define AUDIT_ARG_PROCESS(p) do { \ 265 if (AUDITING_TD(curthread)) \ 266 audit_arg_process((p)); \ 267 } while (0) 268 269 #define AUDIT_ARG_RGID(rgid) do { \ 270 if (AUDITING_TD(curthread)) \ 271 audit_arg_rgid((rgid)); \ 272 } while (0) 273 274 #define AUDIT_ARG_RIGHTS(rights) do { \ 275 if (AUDITING_TD(curthread)) \ 276 audit_arg_rights((rights)); \ 277 } while (0) 278 279 #define AUDIT_ARG_FCNTL_RIGHTS(fcntlrights) do { \ 280 if (AUDITING_TD(curthread)) \ 281 audit_arg_fcntl_rights((fcntlrights)); \ 282 } while (0) 283 284 #define AUDIT_ARG_RUID(ruid) do { \ 285 if (AUDITING_TD(curthread)) \ 286 audit_arg_ruid((ruid)); \ 287 } while (0) 288 289 #define AUDIT_ARG_SIGNUM(signum) do { \ 290 if (AUDITING_TD(curthread)) \ 291 audit_arg_signum((signum)); \ 292 } while (0) 293 294 #define AUDIT_ARG_SGID(sgid) do { \ 295 if (AUDITING_TD(curthread)) \ 296 audit_arg_sgid((sgid)); \ 297 } while (0) 298 299 #define AUDIT_ARG_SOCKET(sodomain, sotype, soprotocol) do { \ 300 if (AUDITING_TD(curthread)) \ 301 audit_arg_socket((sodomain), (sotype), (soprotocol)); \ 302 } while (0) 303 304 #define AUDIT_ARG_SOCKADDR(td, dirfd, sa) do { \ 305 if (AUDITING_TD(curthread)) \ 306 audit_arg_sockaddr((td), (dirfd), (sa)); \ 307 } while (0) 308 309 #define AUDIT_ARG_SUID(suid) do { \ 310 if (AUDITING_TD(curthread)) \ 311 audit_arg_suid((suid)); \ 312 } while (0) 313 314 #define AUDIT_ARG_SVIPC_CMD(cmd) do { \ 315 if (AUDITING_TD(curthread)) \ 316 audit_arg_svipc_cmd((cmd)); \ 317 } while (0) 318 319 #define AUDIT_ARG_SVIPC_PERM(perm) do { \ 320 if (AUDITING_TD(curthread)) \ 321 audit_arg_svipc_perm((perm)); \ 322 } while (0) 323 324 #define AUDIT_ARG_SVIPC_ID(id) do { \ 325 if (AUDITING_TD(curthread)) \ 326 audit_arg_svipc_id((id)); \ 327 } while (0) 328 329 #define AUDIT_ARG_SVIPC_ADDR(addr) do { \ 330 if (AUDITING_TD(curthread)) \ 331 audit_arg_svipc_addr((addr)); \ 332 } while (0) 333 334 #define AUDIT_ARG_SVIPC_WHICH(which) do { \ 335 if (AUDITING_TD(curthread)) \ 336 audit_arg_svipc_which((which)); \ 337 } while (0) 338 339 #define AUDIT_ARG_TEXT(text) do { \ 340 if (AUDITING_TD(curthread)) \ 341 audit_arg_text((text)); \ 342 } while (0) 343 344 #define AUDIT_ARG_UID(uid) do { \ 345 if (AUDITING_TD(curthread)) \ 346 audit_arg_uid((uid)); \ 347 } while (0) 348 349 #define AUDIT_ARG_UPATH1(td, dirfd, upath) do { \ 350 if (AUDITING_TD(curthread)) \ 351 audit_arg_upath1((td), (dirfd), (upath)); \ 352 } while (0) 353 354 #define AUDIT_ARG_UPATH1_CANON(upath) do { \ 355 if (AUDITING_TD(curthread)) \ 356 audit_arg_upath1_canon((upath)); \ 357 } while (0) 358 359 #define AUDIT_ARG_UPATH2(td, dirfd, upath) do { \ 360 if (AUDITING_TD(curthread)) \ 361 audit_arg_upath2((td), (dirfd), (upath)); \ 362 } while (0) 363 364 #define AUDIT_ARG_UPATH2_CANON(upath) do { \ 365 if (AUDITING_TD(curthread)) \ 366 audit_arg_upath2_canon((upath)); \ 367 } while (0) 368 369 #define AUDIT_ARG_UPATH1_VP(td, rdir, cdir, upath) do { \ 370 if (AUDITING_TD(curthread)) \ 371 audit_arg_upath1_vp((td), (rdir), (cdir), (upath)); \ 372 } while (0) 373 374 #define AUDIT_ARG_UPATH2_VP(td, rdir, cdir, upath) do { \ 375 if (AUDITING_TD(curthread)) \ 376 audit_arg_upath2_vp((td), (rdir), (cdir), (upath)); \ 377 } while (0) 378 379 #define AUDIT_ARG_VALUE(value) do { \ 380 if (AUDITING_TD(curthread)) \ 381 audit_arg_value((value)); \ 382 } while (0) 383 384 #define AUDIT_ARG_VNODE1(vp) do { \ 385 if (AUDITING_TD(curthread)) \ 386 audit_arg_vnode1((vp)); \ 387 } while (0) 388 389 #define AUDIT_ARG_VNODE2(vp) do { \ 390 if (AUDITING_TD(curthread)) \ 391 audit_arg_vnode2((vp)); \ 392 } while (0) 393 394 #define AUDIT_SYSCALL_ENTER(code, td) ({ \ 395 bool _audit_entered = false; \ 396 if (__predict_false(audit_syscalls_enabled)) { \ 397 audit_syscall_enter(code, td); \ 398 _audit_entered = true; \ 399 } \ 400 _audit_entered; \ 401 }) 402 403 /* 404 * Wrap the audit_syscall_exit() function so that it is called only when 405 * we have a audit record on the thread. Audit records can persist after 406 * auditing is disabled, so we don't just check audit_syscalls_enabled here. 407 */ 408 #define AUDIT_SYSCALL_EXIT(error, td) do { \ 409 if (AUDITING_TD(td)) \ 410 audit_syscall_exit(error, td); \ 411 } while (0) 412 413 /* 414 * A Macro to wrap the audit_sysclose() function. 415 */ 416 #define AUDIT_SYSCLOSE(td, fd) do { \ 417 if (AUDITING_TD(td)) \ 418 audit_sysclose(td, fd); \ 419 } while (0) 420 421 #else /* !AUDIT */ 422 423 #define AUDIT_ARG_ADDR(addr) 424 #define AUDIT_ARG_ARGV(argv, argc, length) 425 #define AUDIT_ARG_ATFD1(atfd) 426 #define AUDIT_ARG_ATFD2(atfd) 427 #define AUDIT_ARG_AUDITON(udata) 428 #define AUDIT_ARG_CMD(cmd) 429 #define AUDIT_ARG_DEV(dev) 430 #define AUDIT_ARG_EGID(egid) 431 #define AUDIT_ARG_ENVV(envv, envc, length) 432 #define AUDIT_ARG_EXIT(status, retval) 433 #define AUDIT_ARG_EUID(euid) 434 #define AUDIT_ARG_FD(fd) 435 #define AUDIT_ARG_FILE(p, fp) 436 #define AUDIT_ARG_FFLAGS(fflags) 437 #define AUDIT_ARG_GID(gid) 438 #define AUDIT_ARG_GROUPSET(gidset, gidset_size) 439 #define AUDIT_ARG_LOGIN(login) 440 #define AUDIT_ARG_MODE(mode) 441 #define AUDIT_ARG_OWNER(uid, gid) 442 #define AUDIT_ARG_PID(pid) 443 #define AUDIT_ARG_POSIX_IPC_PERM(uid, gid, mode) 444 #define AUDIT_ARG_PROCESS(p) 445 #define AUDIT_ARG_RGID(rgid) 446 #define AUDIT_ARG_RIGHTS(rights) 447 #define AUDIT_ARG_FCNTL_RIGHTS(fcntlrights) 448 #define AUDIT_ARG_RUID(ruid) 449 #define AUDIT_ARG_SIGNUM(signum) 450 #define AUDIT_ARG_SGID(sgid) 451 #define AUDIT_ARG_SOCKET(sodomain, sotype, soprotocol) 452 #define AUDIT_ARG_SOCKADDR(td, dirfd, sa) 453 #define AUDIT_ARG_SUID(suid) 454 #define AUDIT_ARG_SVIPC_CMD(cmd) 455 #define AUDIT_ARG_SVIPC_PERM(perm) 456 #define AUDIT_ARG_SVIPC_ID(id) 457 #define AUDIT_ARG_SVIPC_ADDR(addr) 458 #define AUDIT_ARG_SVIPC_WHICH(which) 459 #define AUDIT_ARG_TEXT(text) 460 #define AUDIT_ARG_UID(uid) 461 #define AUDIT_ARG_UPATH1(td, dirfd, upath) 462 #define AUDIT_ARG_UPATH1_CANON(upath) 463 #define AUDIT_ARG_UPATH2(td, dirfd, upath) 464 #define AUDIT_ARG_UPATH2_CANON(upath) 465 #define AUDIT_ARG_UPATH1_VP(td, rdir, cdir, upath) 466 #define AUDIT_ARG_UPATH2_VP(td, rdir, cdir, upath) 467 #define AUDIT_ARG_VALUE(value) 468 #define AUDIT_ARG_VNODE1(vp) 469 #define AUDIT_ARG_VNODE2(vp) 470 471 #define AUDITING_TD(td) 0 472 473 #define AUDIT_SYSCALL_ENTER(code, td) 0 474 #define AUDIT_SYSCALL_EXIT(error, td) 475 476 #define AUDIT_SYSCLOSE(p, fd) 477 478 #endif /* AUDIT */ 479 480 #endif /* !_SECURITY_AUDIT_KERNEL_H_ */ 481