/* * Copyright (c) 2004 Apple Computer, Inc. * Copyright (c) 2005 SPARTA, Inc. * All rights reserved. * * This code was developed in part by Robert N. M. Watson, Senior Principal * Scientist, SPARTA, Inc. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of Apple Computer, Inc. ("Apple") nor the names of * its contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY APPLE AND ITS CONTRIBUTORS "AS IS" AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL APPLE OR ITS CONTRIBUTORS BE LIABLE FOR * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. * * $P4: //depot/projects/trustedbsd/openbsm/libbsm/bsm_token.c#43 $ */ #include #include #ifdef HAVE_SYS_ENDIAN_H #include #else /* !HAVE_SYS_ENDIAN_H */ #ifdef HAVE_MACHINE_ENDIAN_H #include #else /* !HAVE_MACHINE_ENDIAN_H */ #ifdef HAVE_ENDIAN_H #include #else /* !HAVE_ENDIAN_H */ #error "No supported endian.h" #endif /* !HAVE_ENDIAN_H */ #endif /* !HAVE_MACHINE_ENDIAN_H */ #include #endif /* !HAVE_SYS_ENDIAN_H */ #ifdef HAVE_FULL_QUEUE_H #include #else /* !HAVE_FULL_QUEUE_H */ #include #endif /* !HAVE_FULL_QUEUE_H */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define GET_TOKEN_AREA(t, dptr, length) do { \ (t) = malloc(sizeof(token_t)); \ if ((t) != NULL) { \ (t)->len = (length); \ (dptr) = (t->t_data) = malloc((length) * sizeof(u_char)); \ if ((dptr) == NULL) { \ free(t); \ (t) = NULL; \ } else \ memset((dptr), 0, (length)); \ } else \ (dptr) = NULL; \ assert(t == NULL || dptr != NULL); \ } while (0) /* * token ID 1 byte * argument # 1 byte * argument value 4 bytes/8 bytes (32-bit/64-bit value) * text length 2 bytes * text N bytes + 1 terminating NULL byte */ token_t * au_to_arg32(char n, char *text, u_int32_t v) { token_t *t; u_char *dptr = NULL; u_int16_t textlen; textlen = strlen(text); textlen += 1; GET_TOKEN_AREA(t, dptr, 2 * sizeof(u_char) + sizeof(u_int32_t) + sizeof(u_int16_t) + textlen); if (t == NULL) return (NULL); ADD_U_CHAR(dptr, AUT_ARG32); ADD_U_CHAR(dptr, n); ADD_U_INT32(dptr, v); ADD_U_INT16(dptr, textlen); ADD_STRING(dptr, text, textlen); return (t); } token_t * au_to_arg64(char n, char *text, u_int64_t v) { token_t *t; u_char *dptr = NULL; u_int16_t textlen; textlen = strlen(text); textlen += 1; GET_TOKEN_AREA(t, dptr, 2 * sizeof(u_char) + sizeof(u_int64_t) + sizeof(u_int16_t) + textlen); if (t == NULL) return (NULL); ADD_U_CHAR(dptr, AUT_ARG64); ADD_U_CHAR(dptr, n); ADD_U_INT64(dptr, v); ADD_U_INT16(dptr, textlen); ADD_STRING(dptr, text, textlen); return (t); } token_t * au_to_arg(char n, char *text, u_int32_t v) { return (au_to_arg32(n, text, v)); } #if defined(_KERNEL) || defined(KERNEL) /* * token ID 1 byte * file access mode 4 bytes * owner user ID 4 bytes * owner group ID 4 bytes * file system ID 4 bytes * node ID 8 bytes * device 4 bytes/8 bytes (32-bit/64-bit) */ token_t * au_to_attr32(struct vnode_au_info *vni) { token_t *t; u_char *dptr = NULL; u_int16_t pad0_16 = 0; u_int16_t pad0_32 = 0; GET_TOKEN_AREA(t, dptr, sizeof(u_char) + 2 * sizeof(u_int16_t) + 3 * sizeof(u_int32_t) + sizeof(u_int64_t) + sizeof(u_int32_t)); if (t == NULL) return (NULL); ADD_U_CHAR(dptr, AUT_ATTR32); /* * Darwin defines the size for the file mode * as 2 bytes; BSM defines 4 so pad with 0 */ ADD_U_INT16(dptr, pad0_16); ADD_U_INT16(dptr, vni->vn_mode); ADD_U_INT32(dptr, vni->vn_uid); ADD_U_INT32(dptr, vni->vn_gid); ADD_U_INT32(dptr, vni->vn_fsid); /* * Some systems use 32-bit file ID's, other's use 64-bit file IDs. * Attempt to handle both, and let the compiler sort it out. If we * could pick this out at compile-time, it would be better, so as to * avoid the else case below. */ if (sizeof(vni->vn_fileid) == sizeof(uint32_t)) { ADD_U_INT32(dptr, pad0_32); ADD_U_INT32(dptr, vni->vn_fileid); } else if (sizeof(vni->vn_fileid) == sizeof(uint64_t)) ADD_U_INT64(dptr, vni->vn_fileid); else ADD_U_INT64(dptr, 0LL); ADD_U_INT32(dptr, vni->vn_dev); return (t); } token_t * au_to_attr64(struct vnode_au_info *vni) { errno = ENOTSUP; return (NULL); } token_t * au_to_attr(struct vnode_au_info *vni) { return (au_to_attr32(vni)); } #endif /* !(defined(_KERNEL) || defined(KERNEL) */ /* * token ID 1 byte * how to print 1 byte * basic unit 1 byte * unit count 1 byte * data items (depends on basic unit) */ token_t * au_to_data(char unit_print, char unit_type, char unit_count, char *p) { token_t *t; u_char *dptr = NULL; size_t datasize, totdata; /* Determine the size of the basic unit. */ switch (unit_type) { case AUR_BYTE: datasize = AUR_BYTE_SIZE; break; case AUR_SHORT: datasize = AUR_SHORT_SIZE; break; case AUR_LONG: datasize = AUR_LONG_SIZE; break; default: errno = EINVAL; return (NULL); } totdata = datasize * unit_count; GET_TOKEN_AREA(t, dptr, totdata + 4 * sizeof(u_char)); if (t == NULL) return (NULL); ADD_U_CHAR(dptr, AUT_DATA); ADD_U_CHAR(dptr, unit_print); ADD_U_CHAR(dptr, unit_type); ADD_U_CHAR(dptr, unit_count); ADD_MEM(dptr, p, totdata); return (t); } /* * token ID 1 byte * status 4 bytes * return value 4 bytes */ token_t * au_to_exit(int retval, int err) { token_t *t; u_char *dptr = NULL; GET_TOKEN_AREA(t, dptr, sizeof(u_char) + 2 * sizeof(u_int32_t)); if (t == NULL) return (NULL); ADD_U_CHAR(dptr, AUT_EXIT); ADD_U_INT32(dptr, err); ADD_U_INT32(dptr, retval); return (t); } /* */ token_t * au_to_groups(int *groups) { return (au_to_newgroups(BSM_MAX_GROUPS, groups)); } /* * token ID 1 byte * number groups 2 bytes * group list count * 4 bytes */ token_t * au_to_newgroups(u_int16_t n, gid_t *groups) { token_t *t; u_char *dptr = NULL; int i; GET_TOKEN_AREA(t, dptr, sizeof(u_char) + sizeof(u_int16_t) + n * sizeof(u_int32_t)); if (t == NULL) return (NULL); ADD_U_CHAR(dptr, AUT_NEWGROUPS); ADD_U_INT16(dptr, n); for (i = 0; i < n; i++) ADD_U_INT32(dptr, groups[i]); return (t); } /* * token ID 1 byte * internet address 4 bytes */ token_t * au_to_in_addr(struct in_addr *internet_addr) { token_t *t; u_char *dptr = NULL; GET_TOKEN_AREA(t, dptr, sizeof(u_char) + sizeof(u_int32_t)); if (t == NULL) return (NULL); ADD_U_CHAR(dptr, AUT_IN_ADDR); ADD_U_INT32(dptr, internet_addr->s_addr); return (t); } /* * token ID 1 byte * address type/length 4 bytes * Address 16 bytes */ token_t * au_to_in_addr_ex(struct in6_addr *internet_addr) { token_t *t; u_char *dptr = NULL; u_int32_t type = AF_INET6; GET_TOKEN_AREA(t, dptr, sizeof(u_char) + 5 * sizeof(u_int32_t)); if (t == NULL) return (NULL); ADD_U_CHAR(dptr, AUT_IN_ADDR_EX); ADD_U_INT32(dptr, type); ADD_MEM(dptr, internet_addr, sizeof(*internet_addr)); return (t); } /* * token ID 1 byte * ip header 20 bytes */ token_t * au_to_ip(struct ip *ip) { token_t *t; u_char *dptr = NULL; GET_TOKEN_AREA(t, dptr, sizeof(u_char) + sizeof(struct ip)); if (t == NULL) return (NULL); ADD_U_CHAR(dptr, AUT_IP); /* * XXXRW: Any byte order work needed on the IP header before writing? */ ADD_MEM(dptr, ip, sizeof(struct ip)); return (t); } /* * token ID 1 byte * object ID type 1 byte * object ID 4 bytes */ token_t * au_to_ipc(char type, int id) { token_t *t; u_char *dptr = NULL; GET_TOKEN_AREA(t, dptr, 2 * sizeof(u_char) + sizeof(u_int32_t)); if (t == NULL) return (NULL); ADD_U_CHAR(dptr, AUT_IPC); ADD_U_CHAR(dptr, type); ADD_U_INT32(dptr, id); return (t); } /* * token ID 1 byte * owner user ID 4 bytes * owner group ID 4 bytes * creator user ID 4 bytes * creator group ID 4 bytes * access mode 4 bytes * slot sequence # 4 bytes * key 4 bytes */ token_t * au_to_ipc_perm(struct ipc_perm *perm) { token_t *t; u_char *dptr = NULL; u_int16_t pad0 = 0; GET_TOKEN_AREA(t, dptr, 12 * sizeof(u_int16_t) + sizeof(u_int32_t)); if (t == NULL) return (NULL); ADD_U_CHAR(dptr, AUT_IPC_PERM); /* * Darwin defines the sizes for ipc_perm members * as 2 bytes; BSM defines 4 so pad with 0 */ ADD_U_INT16(dptr, pad0); ADD_U_INT16(dptr, perm->uid); ADD_U_INT16(dptr, pad0); ADD_U_INT16(dptr, perm->gid); ADD_U_INT16(dptr, pad0); ADD_U_INT16(dptr, perm->cuid); ADD_U_INT16(dptr, pad0); ADD_U_INT16(dptr, perm->cgid); ADD_U_INT16(dptr, pad0); ADD_U_INT16(dptr, perm->mode); ADD_U_INT16(dptr, pad0); #ifdef HAVE_IPC_PERM___SEQ ADD_U_INT16(dptr, perm->__seq); #else ADD_U_INT16(dptr, perm->seq); #endif #ifdef HAVE_IPC_PERM___KEY ADD_U_INT32(dptr, perm->__key); #else ADD_U_INT32(dptr, perm->key); #endif return (t); } /* * token ID 1 byte * port IP address 2 bytes */ token_t * au_to_iport(u_int16_t iport) { token_t *t; u_char *dptr = NULL; GET_TOKEN_AREA(t, dptr, sizeof(u_char) + sizeof(u_int16_t)); if (t == NULL) return (NULL); ADD_U_CHAR(dptr, AUT_IPORT); ADD_U_INT16(dptr, iport); return (t); } /* * token ID 1 byte * size 2 bytes * data size bytes */ token_t * au_to_opaque(char *data, u_int16_t bytes) { token_t *t; u_char *dptr = NULL; GET_TOKEN_AREA(t, dptr, sizeof(u_char) + sizeof(u_int16_t) + bytes); if (t == NULL) return (NULL); ADD_U_CHAR(dptr, AUT_OPAQUE); ADD_U_INT16(dptr, bytes); ADD_MEM(dptr, data, bytes); return (t); } /* * token ID 1 byte * seconds of time 4 bytes * milliseconds of time 4 bytes * file name len 2 bytes * file pathname N bytes + 1 terminating NULL byte */ token_t * #if defined(KERNEL) || defined(_KERNEL) au_to_file(char *file, struct timeval tm) #else au_to_file(char *file) #endif { token_t *t; u_char *dptr = NULL; u_int16_t filelen; u_int32_t timems; #if !defined(KERNEL) && !defined(_KERNEL) struct timeval tm; struct timezone tzp; if (gettimeofday(&tm, &tzp) == -1) return (NULL); #endif filelen = strlen(file); filelen += 1; GET_TOKEN_AREA(t, dptr, sizeof(u_char) + 2 * sizeof(u_int32_t) + sizeof(u_int16_t) + filelen); if (t == NULL) return (NULL); timems = tm.tv_usec/1000; ADD_U_CHAR(dptr, AUT_OTHER_FILE32); ADD_U_INT32(dptr, tm.tv_sec); ADD_U_INT32(dptr, timems); /* We need time in ms. */ ADD_U_INT16(dptr, filelen); ADD_STRING(dptr, file, filelen); return (t); } /* * token ID 1 byte * text length 2 bytes * text N bytes + 1 terminating NULL byte */ token_t * au_to_text(char *text) { token_t *t; u_char *dptr = NULL; u_int16_t textlen; textlen = strlen(text); textlen += 1; GET_TOKEN_AREA(t, dptr, sizeof(u_char) + sizeof(u_int16_t) + textlen); if (t == NULL) return (NULL); ADD_U_CHAR(dptr, AUT_TEXT); ADD_U_INT16(dptr, textlen); ADD_STRING(dptr, text, textlen); return (t); } /* * token ID 1 byte * path length 2 bytes * path N bytes + 1 terminating NULL byte */ token_t * au_to_path(char *text) { token_t *t; u_char *dptr = NULL; u_int16_t textlen; textlen = strlen(text); textlen += 1; GET_TOKEN_AREA(t, dptr, sizeof(u_char) + sizeof(u_int16_t) + textlen); if (t == NULL) return (NULL); ADD_U_CHAR(dptr, AUT_PATH); ADD_U_INT16(dptr, textlen); ADD_STRING(dptr, text, textlen); return (t); } /* * token ID 1 byte * audit ID 4 bytes * effective user ID 4 bytes * effective group ID 4 bytes * real user ID 4 bytes * real group ID 4 bytes * process ID 4 bytes * session ID 4 bytes * terminal ID * port ID 4 bytes/8 bytes (32-bit/64-bit value) * machine address 4 bytes */ token_t * au_to_process32(au_id_t auid, uid_t euid, gid_t egid, uid_t ruid, gid_t rgid, pid_t pid, au_asid_t sid, au_tid_t *tid) { token_t *t; u_char *dptr = NULL; GET_TOKEN_AREA(t, dptr, sizeof(u_char) + 9 * sizeof(u_int32_t)); if (t == NULL) return (NULL); ADD_U_CHAR(dptr, AUT_PROCESS32); ADD_U_INT32(dptr, auid); ADD_U_INT32(dptr, euid); ADD_U_INT32(dptr, egid); ADD_U_INT32(dptr, ruid); ADD_U_INT32(dptr, rgid); ADD_U_INT32(dptr, pid); ADD_U_INT32(dptr, sid); ADD_U_INT32(dptr, tid->port); ADD_U_INT32(dptr, tid->machine); return (t); } token_t * au_to_process64(__unused au_id_t auid, __unused uid_t euid, __unused gid_t egid, __unused uid_t ruid, __unused gid_t rgid, __unused pid_t pid, __unused au_asid_t sid, __unused au_tid_t *tid) { errno = ENOTSUP; return (NULL); } token_t * au_to_process(__unused au_id_t auid, __unused uid_t euid, __unused gid_t egid, __unused uid_t ruid, __unused gid_t rgid, __unused pid_t pid, __unused au_asid_t sid, __unused au_tid_t *tid) { return (au_to_process32(auid, euid, egid, ruid, rgid, pid, sid, tid)); } /* * token ID 1 byte * audit ID 4 bytes * effective user ID 4 bytes * effective group ID 4 bytes * real user ID 4 bytes * real group ID 4 bytes * process ID 4 bytes * session ID 4 bytes * terminal ID * port ID 4 bytes/8 bytes (32-bit/64-bit value) * address type-len 4 bytes * machine address 16 bytes */ token_t * au_to_process32_ex(au_id_t auid, uid_t euid, gid_t egid, uid_t ruid, gid_t rgid, pid_t pid, au_asid_t sid, au_tid_addr_t *tid) { token_t *t; u_char *dptr = NULL; GET_TOKEN_AREA(t, dptr, sizeof(u_char) + 13 * sizeof(u_int32_t)); if (t == NULL) return (NULL); ADD_U_CHAR(dptr, AUT_PROCESS32_EX); ADD_U_INT32(dptr, auid); ADD_U_INT32(dptr, euid); ADD_U_INT32(dptr, egid); ADD_U_INT32(dptr, ruid); ADD_U_INT32(dptr, rgid); ADD_U_INT32(dptr, pid); ADD_U_INT32(dptr, sid); ADD_U_INT32(dptr, tid->at_port); ADD_U_INT32(dptr, tid->at_type); ADD_U_INT32(dptr, tid->at_addr[0]); ADD_U_INT32(dptr, tid->at_addr[1]); ADD_U_INT32(dptr, tid->at_addr[2]); ADD_U_INT32(dptr, tid->at_addr[3]); return (t); } token_t * au_to_process64_ex(au_id_t auid, uid_t euid, gid_t egid, uid_t ruid, gid_t rgid, pid_t pid, au_asid_t sid, au_tid_addr_t *tid) { errno = ENOTSUP; return (NULL); } token_t * au_to_process_ex(au_id_t auid, uid_t euid, gid_t egid, uid_t ruid, gid_t rgid, pid_t pid, au_asid_t sid, au_tid_addr_t *tid) { return (au_to_process32_ex(auid, euid, egid, ruid, rgid, pid, sid, tid)); } /* * token ID 1 byte * error status 1 byte * return value 4 bytes/8 bytes (32-bit/64-bit value) */ token_t * au_to_return32(char status, u_int32_t ret) { token_t *t; u_char *dptr = NULL; GET_TOKEN_AREA(t, dptr, 2 * sizeof(u_char) + sizeof(u_int32_t)); if (t == NULL) return (NULL); ADD_U_CHAR(dptr, AUT_RETURN32); ADD_U_CHAR(dptr, status); ADD_U_INT32(dptr, ret); return (t); } token_t * au_to_return64(char status, u_int64_t ret) { token_t *t; u_char *dptr = NULL; GET_TOKEN_AREA(t, dptr, 2 * sizeof(u_char) + sizeof(u_int64_t)); if (t == NULL) return (NULL); ADD_U_CHAR(dptr, AUT_RETURN64); ADD_U_CHAR(dptr, status); ADD_U_INT64(dptr, ret); return (t); } token_t * au_to_return(char status, u_int32_t ret) { return (au_to_return32(status, ret)); } /* * token ID 1 byte * sequence number 4 bytes */ token_t * au_to_seq(long audit_count) { token_t *t; u_char *dptr = NULL; GET_TOKEN_AREA(t, dptr, sizeof(u_char) + sizeof(u_int32_t)); if (t == NULL) return (NULL); ADD_U_CHAR(dptr, AUT_SEQ); ADD_U_INT32(dptr, audit_count); return (t); } /* * token ID 1 byte * socket family 2 bytes * path 104 bytes */ token_t * au_to_sock_unix(struct sockaddr_un *so) { token_t *t; u_char *dptr; GET_TOKEN_AREA(t, dptr, 3 * sizeof(u_char) + strlen(so->sun_path) + 1); if (t == NULL) return (NULL); ADD_U_CHAR(dptr, AU_SOCK_UNIX_TOKEN); /* BSM token has two bytes for family */ ADD_U_CHAR(dptr, 0); ADD_U_CHAR(dptr, so->sun_family); ADD_STRING(dptr, so->sun_path, strlen(so->sun_path) + 1); return (t); } /* * token ID 1 byte * socket family 2 bytes * local port 2 bytes * socket address 4 bytes */ token_t * au_to_sock_inet32(struct sockaddr_in *so) { token_t *t; u_char *dptr = NULL; GET_TOKEN_AREA(t, dptr, 3 * sizeof(u_char) + sizeof(u_int16_t) + sizeof(u_int32_t)); if (t == NULL) return (NULL); ADD_U_CHAR(dptr, AUT_SOCKINET32); /* * In Darwin, sin_family is one octet, but BSM defines the token * to store two. So we copy in a 0 first. */ ADD_U_CHAR(dptr, 0); ADD_U_CHAR(dptr, so->sin_family); ADD_U_INT16(dptr, so->sin_port); ADD_U_INT32(dptr, so->sin_addr.s_addr); return (t); } token_t * au_to_sock_inet128(struct sockaddr_in6 *so) { token_t *t; u_char *dptr = NULL; GET_TOKEN_AREA(t, dptr, 3 * sizeof(u_char) + sizeof(u_int16_t) + 4 * sizeof(u_int32_t)); if (t == NULL) return (NULL); ADD_U_CHAR(dptr, AUT_SOCKINET128); /* * In Darwin, sin6_family is one octet, but BSM defines the token * to store two. So we copy in a 0 first. */ ADD_U_CHAR(dptr, 0); ADD_U_CHAR(dptr, so->sin6_family); ADD_U_INT16(dptr, so->sin6_port); ADD_MEM(dptr, &so->sin6_addr, sizeof(so->sin6_addr)); return (t); } token_t * au_to_sock_inet(struct sockaddr_in *so) { return (au_to_sock_inet32(so)); } /* * token ID 1 byte * audit ID 4 bytes * effective user ID 4 bytes * effective group ID 4 bytes * real user ID 4 bytes * real group ID 4 bytes * process ID 4 bytes * session ID 4 bytes * terminal ID * port ID 4 bytes/8 bytes (32-bit/64-bit value) * machine address 4 bytes */ token_t * au_to_subject32(au_id_t auid, uid_t euid, gid_t egid, uid_t ruid, gid_t rgid, pid_t pid, au_asid_t sid, au_tid_t *tid) { token_t *t; u_char *dptr = NULL; GET_TOKEN_AREA(t, dptr, sizeof(u_char) + 9 * sizeof(u_int32_t)); if (t == NULL) return (NULL); ADD_U_CHAR(dptr, AUT_SUBJECT32); ADD_U_INT32(dptr, auid); ADD_U_INT32(dptr, euid); ADD_U_INT32(dptr, egid); ADD_U_INT32(dptr, ruid); ADD_U_INT32(dptr, rgid); ADD_U_INT32(dptr, pid); ADD_U_INT32(dptr, sid); ADD_U_INT32(dptr, tid->port); ADD_U_INT32(dptr, tid->machine); return (t); } token_t * au_to_subject64(au_id_t auid, uid_t euid, gid_t egid, uid_t ruid, gid_t rgid, pid_t pid, au_asid_t sid, au_tid_t *tid) { errno = ENOTSUP; return (NULL); } token_t * au_to_subject(au_id_t auid, uid_t euid, gid_t egid, uid_t ruid, gid_t rgid, pid_t pid, au_asid_t sid, au_tid_t *tid) { return (au_to_subject32(auid, euid, egid, ruid, rgid, pid, sid, tid)); } /* * token ID 1 byte * audit ID 4 bytes * effective user ID 4 bytes * effective group ID 4 bytes * real user ID 4 bytes * real group ID 4 bytes * process ID 4 bytes * session ID 4 bytes * terminal ID * port ID 4 bytes/8 bytes (32-bit/64-bit value) * address type/length 4 bytes * machine address 16 bytes */ token_t * au_to_subject32_ex(au_id_t auid, uid_t euid, gid_t egid, uid_t ruid, gid_t rgid, pid_t pid, au_asid_t sid, au_tid_addr_t *tid) { token_t *t; u_char *dptr = NULL; GET_TOKEN_AREA(t, dptr, sizeof(u_char) + 13 * sizeof(u_int32_t)); if (t == NULL) return (NULL); ADD_U_CHAR(dptr, AUT_SUBJECT32_EX); ADD_U_INT32(dptr, auid); ADD_U_INT32(dptr, euid); ADD_U_INT32(dptr, egid); ADD_U_INT32(dptr, ruid); ADD_U_INT32(dptr, rgid); ADD_U_INT32(dptr, pid); ADD_U_INT32(dptr, sid); ADD_U_INT32(dptr, tid->at_port); ADD_U_INT32(dptr, tid->at_type); ADD_U_INT32(dptr, tid->at_addr[0]); ADD_U_INT32(dptr, tid->at_addr[1]); ADD_U_INT32(dptr, tid->at_addr[2]); ADD_U_INT32(dptr, tid->at_addr[3]); return (t); } token_t * au_to_subject64_ex(au_id_t auid, uid_t euid, gid_t egid, uid_t ruid, gid_t rgid, pid_t pid, au_asid_t sid, au_tid_addr_t *tid) { errno = ENOTSUP; return (NULL); } token_t * au_to_subject_ex(au_id_t auid, uid_t euid, gid_t egid, uid_t ruid, gid_t rgid, pid_t pid, au_asid_t sid, au_tid_addr_t *tid) { return (au_to_subject32_ex(auid, euid, egid, ruid, rgid, pid, sid, tid)); } #if !defined(_KERNEL) && !defined(KERNEL) && defined(HAVE_AUDIT_SYSCALLS) /* * Collects audit information for the current process * and creates a subject token from it */ token_t * au_to_me(void) { auditinfo_t auinfo; if (getaudit(&auinfo) != 0) return (NULL); return (au_to_subject32(auinfo.ai_auid, geteuid(), getegid(), getuid(), getgid(), getpid(), auinfo.ai_asid, &auinfo.ai_termid)); } #endif /* * token ID 1 byte * count 4 bytes * text count null-terminated strings */ token_t * au_to_exec_args(const char **args) { token_t *t; u_char *dptr = NULL; const char *nextarg; int i, count = 0; size_t totlen = 0; nextarg = *args; while (nextarg != NULL) { int nextlen; nextlen = strlen(nextarg); totlen += nextlen + 1; count++; nextarg = *(args + count); } totlen += count * sizeof(char); /* nul terminations. */ GET_TOKEN_AREA(t, dptr, sizeof(u_char) + sizeof(u_int32_t) + totlen); if (t == NULL) return (NULL); ADD_U_CHAR(dptr, AUT_EXEC_ARGS); ADD_U_INT32(dptr, count); for (i = 0; i < count; i++) { nextarg = *(args + i); ADD_MEM(dptr, nextarg, strlen(nextarg) + 1); } return (t); } /* * token ID 1 byte * count 4 bytes * text count null-terminated strings */ token_t * au_to_exec_env(const char **env) { token_t *t; u_char *dptr = NULL; int i, count = 0; size_t totlen = 0; const char *nextenv; nextenv = *env; while (nextenv != NULL) { int nextlen; nextlen = strlen(nextenv); totlen += nextlen + 1; count++; nextenv = *(env + count); } totlen += sizeof(char) * count; GET_TOKEN_AREA(t, dptr, sizeof(u_char) + sizeof(u_int32_t) + totlen); if (t == NULL) return (NULL); ADD_U_CHAR(dptr, AUT_EXEC_ENV); ADD_U_INT32(dptr, count); for (i = 0; i < count; i++) { nextenv = *(env + i); ADD_MEM(dptr, nextenv, strlen(nextenv) + 1); } return (t); } /* * token ID 1 byte * record byte count 4 bytes * version # 1 byte [2] * event type 2 bytes * event modifier 2 bytes * seconds of time 4 bytes/8 bytes (32-bit/64-bit value) * milliseconds of time 4 bytes/8 bytes (32-bit/64-bit value) */ token_t * #if defined(KERNEL) || defined(_KERNEL) au_to_header32(int rec_size, au_event_t e_type, au_emod_t e_mod, struct timeval tm) #else au_to_header32(int rec_size, au_event_t e_type, au_emod_t e_mod) #endif { token_t *t; u_char *dptr = NULL; u_int32_t timems; #if !defined(KERNEL) && !defined(_KERNEL) struct timeval tm; struct timezone tzp; if (gettimeofday(&tm, &tzp) == -1) return (NULL); #endif GET_TOKEN_AREA(t, dptr, sizeof(u_char) + sizeof(u_int32_t) + sizeof(u_char) + 2 * sizeof(u_int16_t) + 2 * sizeof(u_int32_t)); if (t == NULL) return (NULL); ADD_U_CHAR(dptr, AUT_HEADER32); ADD_U_INT32(dptr, rec_size); ADD_U_CHAR(dptr, HEADER_VERSION); ADD_U_INT16(dptr, e_type); ADD_U_INT16(dptr, e_mod); timems = tm.tv_usec/1000; /* Add the timestamp */ ADD_U_INT32(dptr, tm.tv_sec); ADD_U_INT32(dptr, timems); /* We need time in ms. */ return (t); } token_t * au_to_header64(__unused int rec_size, __unused au_event_t e_type, __unused au_emod_t e_mod) { errno = ENOTSUP; return (NULL); } token_t * au_to_header(int rec_size, au_event_t e_type, au_emod_t e_mod) { return (au_to_header32(rec_size, e_type, e_mod)); } /* * token ID 1 byte * trailer magic number 2 bytes * record byte count 4 bytes */ token_t * au_to_trailer(int rec_size) { token_t *t; u_char *dptr = NULL; u_int16_t magic = TRAILER_PAD_MAGIC; GET_TOKEN_AREA(t, dptr, sizeof(u_char) + sizeof(u_int16_t) + sizeof(u_int32_t)); if (t == NULL) return (NULL); ADD_U_CHAR(dptr, AUT_TRAILER); ADD_U_INT16(dptr, magic); ADD_U_INT32(dptr, rec_size); return (t); }