diff --git a/contrib/openbsm/libbsm/bsm_io.c b/contrib/openbsm/libbsm/bsm_io.c index 4b89ccb8b59c..f0b3e4a1a2df 100644 --- a/contrib/openbsm/libbsm/bsm_io.c +++ b/contrib/openbsm/libbsm/bsm_io.c @@ -1,4612 +1,4612 @@ /*- * Copyright (c) 2004-2009 Apple Inc. * Copyright (c) 2005 SPARTA, Inc. * Copyright (c) 2006 Robert N. M. Watson * Copyright (c) 2006 Martin Voros * 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 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. */ #include #include #ifdef USE_ENDIAN_H #include #endif #ifdef USE_SYS_ENDIAN_H #include #endif #ifdef USE_MACHINE_ENDIAN_H #include #endif #ifdef USE_COMPAT_ENDIAN_H #include #endif #ifdef USE_COMPAT_ENDIAN_ENC_H #include #endif #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 #ifdef HAVE_VIS #include #else #include #endif #include #define READ_TOKEN_BYTES(buf, len, dest, size, bytesread, err) do { \ if ((bytesread) + (size) > (u_int32_t)(len)) { \ (err) = 1; \ } else { \ memcpy((dest), (buf) + (bytesread), (size)); \ bytesread += size; \ } \ } while (0) #define READ_TOKEN_U_CHAR(buf, len, dest, bytesread, err) do { \ if ((bytesread) + sizeof(u_char) <= (u_int32_t)(len)) { \ (dest) = buf[(bytesread)]; \ (bytesread) += sizeof(u_char); \ } else \ (err) = 1; \ } while (0) #define READ_TOKEN_U_INT16(buf, len, dest, bytesread, err) do { \ if ((bytesread) + sizeof(u_int16_t) <= (u_int32_t)(len)) { \ (dest) = be16dec((buf) + (bytesread)); \ (bytesread) += sizeof(u_int16_t); \ } else \ (err) = 1; \ } while (0) #define READ_TOKEN_U_INT32(buf, len, dest, bytesread, err) do { \ if ((bytesread) + sizeof(u_int32_t) <= (u_int32_t)(len)) { \ (dest) = be32dec((buf) + (bytesread)); \ (bytesread) += sizeof(u_int32_t); \ } else \ (err) = 1; \ } while (0) #define READ_TOKEN_U_INT64(buf, len, dest, bytesread, err) do { \ if ((bytesread) + sizeof(u_int64_t) <= (u_int32_t)(len)) { \ dest = be64dec((buf) + (bytesread)); \ (bytesread) += sizeof(u_int64_t); \ } else \ (err) = 1; \ } while (0) #define SET_PTR(buf, len, ptr, size, bytesread, err) do { \ if ((bytesread) + (size) > (u_int32_t)(len)) \ (err) = 1; \ else { \ (ptr) = (buf) + (bytesread); \ (bytesread) += (size); \ } \ } while (0) /* * XML option. */ #define AU_PLAIN 0 #define AU_XML 1 /* * Prints the delimiter string. */ static void print_delim(FILE *fp, const char *del) { fprintf(fp, "%s", del); } /* * Prints a single byte in the given format. */ static void print_1_byte(FILE *fp, u_char val, const char *format) { fprintf(fp, format, val); } /* * Print 2 bytes in the given format. */ static void print_2_bytes(FILE *fp, u_int16_t val, const char *format) { fprintf(fp, format, val); } /* * Prints 4 bytes in the given format. */ static void print_4_bytes(FILE *fp, u_int32_t val, const char *format) { fprintf(fp, format, val); } /* * Prints 8 bytes in the given format. */ static void print_8_bytes(FILE *fp, u_int64_t val, const char *format) { fprintf(fp, format, val); } /* * Prints the given size of data bytes in hex. */ static void print_mem(FILE *fp, u_char *data, size_t len) { u_int32_t i; if (len > 0) { fprintf(fp, "0x"); for (i = 0; i < len; i++) fprintf(fp, "%02x", data[i]); } } /* * Prints the given data bytes as a string. */ static void print_string(FILE *fp, const char *str, size_t len) { u_int32_t i; if (len > 0) { for (i = 0; i < len; i++) { if (str[i] != '\0') fprintf(fp, "%c", str[i]); } } } /* * Prints the given data bytes as an XML-sanitized string. */ static void print_xml_string(FILE *fp, const char *str, size_t len) { u_int32_t i; char visbuf[5]; if (len == 0) return; for (i = 0; i < len; i++) { switch (str[i]) { case '\0': return; case '&': (void) fprintf(fp, "&"); break; case '<': (void) fprintf(fp, "<"); break; case '>': (void) fprintf(fp, ">"); break; case '\"': (void) fprintf(fp, """); break; case '\'': (void) fprintf(fp, "'"); break; default: (void) vis(visbuf, str[i], VIS_CSTYLE, 0); (void) fprintf(fp, "%s", visbuf); break; } } } /* * Prints the beginning of an attribute. */ static void open_attr(FILE *fp, const char *str) { fprintf(fp,"%s=\"", str); } /* * Prints the end of an attribute. */ static void close_attr(FILE *fp) { fprintf(fp,"\" "); } /* * Prints the end of a tag. */ static void close_tag(FILE *fp, u_char type) { switch(type) { case AUT_HEADER32: fprintf(fp, ">"); break; case AUT_HEADER32_EX: fprintf(fp, ">"); break; case AUT_HEADER64: fprintf(fp, ">"); break; case AUT_HEADER64_EX: fprintf(fp, ">"); break; case AUT_ARG32: fprintf(fp, "/>"); break; case AUT_ARG64: fprintf(fp, "/>"); break; case AUT_ATTR32: fprintf(fp, "/>"); break; case AUT_ATTR64: fprintf(fp, "/>"); break; case AUT_EXIT: fprintf(fp, "/>"); break; case AUT_EXEC_ARGS: fprintf(fp, ""); break; case AUT_EXEC_ENV: fprintf(fp, ""); break; case AUT_OTHER_FILE32: fprintf(fp, ""); break; case AUT_NEWGROUPS: fprintf(fp, ""); break; case AUT_IN_ADDR: fprintf(fp, ""); break; case AUT_IN_ADDR_EX: fprintf(fp, ""); break; case AUT_IP: fprintf(fp, "/>"); break; case AUT_IPC: fprintf(fp, "/>"); break; case AUT_IPC_PERM: fprintf(fp, "/>"); break; case AUT_IPORT: fprintf(fp, ""); break; case AUT_OPAQUE: fprintf(fp, ""); break; case AUT_PATH: fprintf(fp, ""); break; case AUT_PROCESS32: fprintf(fp, "/>"); break; case AUT_PROCESS32_EX: fprintf(fp, "/>"); break; case AUT_PROCESS64: fprintf(fp, "/>"); break; case AUT_PROCESS64_EX: fprintf(fp, "/>"); break; case AUT_RETURN32: fprintf(fp, "/>"); break; case AUT_RETURN64: fprintf(fp, "/>"); break; case AUT_SEQ: fprintf(fp, "/>"); break; case AUT_SOCKET: fprintf(fp, "/>"); break; case AUT_SOCKINET32: fprintf(fp, "/>"); break; case AUT_SOCKUNIX: fprintf(fp, "/>"); break; case AUT_SOCKINET128: fprintf(fp, "/>"); break; case AUT_SUBJECT32: fprintf(fp, "/>"); break; case AUT_SUBJECT64: fprintf(fp, "/>"); break; case AUT_SUBJECT32_EX: fprintf(fp, "/>"); break; case AUT_SUBJECT64_EX: fprintf(fp, "/>"); break; case AUT_TEXT: fprintf(fp, ""); break; case AUT_SOCKET_EX: fprintf(fp, "/>"); break; case AUT_DATA: fprintf(fp, ""); break; case AUT_ZONENAME: fprintf(fp, "/>"); break; } } /* * Prints the token type in either the raw or the default form. */ static void print_tok_type(FILE *fp, u_char type, const char *tokname, int oflags) { if (oflags & AU_OFLAG_XML) { switch(type) { case AUT_HEADER32: fprintf(fp, ""); break; case AUT_ARG32: fprintf(fp, ""); break; case AUT_EXEC_ENV: fprintf(fp, ""); break; case AUT_OTHER_FILE32: fprintf(fp, ""); break; case AUT_IN_ADDR: fprintf(fp, ""); break; case AUT_IN_ADDR_EX: fprintf(fp, ""); break; case AUT_IP: fprintf(fp, ""); break; case AUT_OPAQUE: fprintf(fp, ""); break; case AUT_PATH: fprintf(fp, ""); break; case AUT_PROCESS32: fprintf(fp, ""); break; case AUT_SOCKET_EX: fprintf(fp, "pw_name); else fprintf(fp, "%d", usr); } } /* * Prints a group value. */ static void print_group(FILE *fp, u_int32_t grp, int oflags) { struct group *grpent; - if (oflags & AU_OFLAG_RAW) + if (oflags & (AU_OFLAG_RAW | AU_OFLAG_NORESOLVE)) fprintf(fp, "%d", grp); else { grpent = getgrgid(grp); if (grpent != NULL) fprintf(fp, "%s", grpent->gr_name); else fprintf(fp, "%d", grp); } } /* * Prints the event from the header token in either the short, default or raw * form. */ static void print_event(FILE *fp, u_int16_t ev, int oflags) { char event_ent_name[AU_EVENT_NAME_MAX]; char event_ent_desc[AU_EVENT_DESC_MAX]; struct au_event_ent e, *ep; bzero(&e, sizeof(e)); bzero(event_ent_name, sizeof(event_ent_name)); bzero(event_ent_desc, sizeof(event_ent_desc)); e.ae_name = event_ent_name; e.ae_desc = event_ent_desc; ep = getauevnum_r(&e, ev); if (ep == NULL) { fprintf(fp, "%u", ev); return; } if (oflags & AU_OFLAG_RAW) fprintf(fp, "%u", ev); else if (oflags & AU_OFLAG_SHORT) fprintf(fp, "%s", e.ae_name); else fprintf(fp, "%s", e.ae_desc); } /* * Prints the event modifier from the header token in either the default or * raw form. */ static void print_evmod(FILE *fp, u_int16_t evmod, int oflags) { if (oflags & AU_OFLAG_RAW) fprintf(fp, "%u", evmod); else fprintf(fp, "%u", evmod); } /* * Prints seconds in the ctime format. */ static void print_sec32(FILE *fp, u_int32_t sec, int oflags) { time_t timestamp; char timestr[26]; if (oflags & AU_OFLAG_RAW) fprintf(fp, "%u", sec); else { timestamp = (time_t)sec; ctime_r(×tamp, timestr); timestr[24] = '\0'; /* No new line */ fprintf(fp, "%s", timestr); } } /* * XXXRW: 64-bit token streams make use of 64-bit time stamps; since we * assume a 32-bit time_t, we simply truncate for now. */ static void print_sec64(FILE *fp, u_int64_t sec, int oflags) { time_t timestamp; char timestr[26]; if (oflags & AU_OFLAG_RAW) fprintf(fp, "%u", (u_int32_t)sec); else { timestamp = (time_t)sec; ctime_r(×tamp, timestr); timestr[24] = '\0'; /* No new line */ fprintf(fp, "%s", timestr); } } /* * Prints the excess milliseconds. */ static void print_msec32(FILE *fp, u_int32_t msec, int oflags) { if (oflags & AU_OFLAG_RAW) fprintf(fp, "%u", msec); else fprintf(fp, " + %u msec", msec); } /* * XXXRW: 64-bit token streams make use of 64-bit time stamps; since we assume * a 32-bit msec, we simply truncate for now. */ static void print_msec64(FILE *fp, u_int64_t msec, int oflags) { msec &= 0xffffffff; if (oflags & AU_OFLAG_RAW) fprintf(fp, "%u", (u_int32_t)msec); else fprintf(fp, " + %u msec", (u_int32_t)msec); } /* * Prints a dotted form for the IP address. */ static void print_ip_address(FILE *fp, u_int32_t ip) { struct in_addr ipaddr; ipaddr.s_addr = ip; fprintf(fp, "%s", inet_ntoa(ipaddr)); } /* * Prints a string value for the given ip address. */ static void print_ip_ex_address(FILE *fp, u_int32_t type, u_int32_t *ipaddr) { struct in_addr ipv4; struct in6_addr ipv6; char dst[INET6_ADDRSTRLEN]; switch (type) { case AU_IPv4: ipv4.s_addr = (in_addr_t)(ipaddr[0]); fprintf(fp, "%s", inet_ntop(AF_INET, &ipv4, dst, INET6_ADDRSTRLEN)); break; case AU_IPv6: bcopy(ipaddr, &ipv6, sizeof(ipv6)); fprintf(fp, "%s", inet_ntop(AF_INET6, &ipv6, dst, INET6_ADDRSTRLEN)); break; default: fprintf(fp, "invalid"); } } /* * Prints return value as success or failure. */ static void print_retval(FILE *fp, u_char status, int oflags) { int error; if (oflags & AU_OFLAG_RAW) fprintf(fp, "%u", status); else { /* * Convert to a local error number and print the OS's version * of the error string if possible. We may want to provide * an au_strerror(3) in the future so that we can print * strings for non-local errors. */ if (au_bsm_to_errno(status, &error) == 0) { if (error == 0) fprintf(fp, "success"); else fprintf(fp, "failure : %s", strerror(error)); } else fprintf(fp, "failure: Unknown error: %d", status); } } /* * Prints the exit value. */ static void print_errval(FILE *fp, u_int32_t val) { fprintf(fp, "Error %u", val); } /* * Prints IPC type. */ static void print_ipctype(FILE *fp, u_char type, int oflags) { if (oflags & AU_OFLAG_RAW) fprintf(fp, "%u", type); else { if (type == AT_IPC_MSG) fprintf(fp, "Message IPC"); else if (type == AT_IPC_SEM) fprintf(fp, "Semaphore IPC"); else if (type == AT_IPC_SHM) fprintf(fp, "Shared Memory IPC"); else fprintf(fp, "%u", type); } } /* * Print XML header. */ void au_print_xml_header(FILE *outfp) { fprintf(outfp, "\n"); fprintf(outfp, "\n"); } /* * Print XML footer. */ void au_print_xml_footer(FILE *outfp) { fprintf(outfp, "\n"); } /* * 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) */ static int fetch_header32_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_U_INT32(buf, len, tok->tt.hdr32.size, tok->len, err); if (err) return (-1); READ_TOKEN_U_CHAR(buf, len, tok->tt.hdr32.version, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT16(buf, len, tok->tt.hdr32.e_type, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT16(buf, len, tok->tt.hdr32.e_mod, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.hdr32.s, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.hdr32.ms, tok->len, err); if (err) return (-1); return (0); } static void print_header32_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "header", oflags); if (oflags & AU_OFLAG_XML) { open_attr(fp, "version"); print_1_byte(fp, tok->tt.hdr32.version, "%u"); close_attr(fp); open_attr(fp, "event"); print_event(fp, tok->tt.hdr32.e_type, oflags); close_attr(fp); open_attr(fp, "modifier"); print_evmod(fp, tok->tt.hdr32.e_mod, oflags); close_attr(fp); open_attr(fp, "time"); print_sec32(fp, tok->tt.hdr32.s, oflags); close_attr(fp); open_attr(fp, "msec"); print_msec32(fp, tok->tt.hdr32.ms, oflags); close_attr(fp); close_tag(fp, tok->id); } else { print_delim(fp, del); print_4_bytes(fp, tok->tt.hdr32.size, "%u"); print_delim(fp, del); print_1_byte(fp, tok->tt.hdr32.version, "%u"); print_delim(fp, del); print_event(fp, tok->tt.hdr32.e_type, oflags); print_delim(fp, del); print_evmod(fp, tok->tt.hdr32.e_mod, oflags); print_delim(fp, del); print_sec32(fp, tok->tt.hdr32.s, oflags); print_delim(fp, del); print_msec32(fp, tok->tt.hdr32.ms, oflags); } } /* * The Solaris specifications for AUE_HEADER32_EX seem to differ a bit * depending on the bit of the specifications found. The OpenSolaris source * code uses a 4-byte address length, followed by some number of bytes of * address data. This contrasts with the Solaris audit.log.5 man page, which * specifies a 1-byte length field. We use the Solaris 10 definition so that * we can parse audit trails from that system. * * record byte count 4 bytes * version # 1 byte [2] * event type 2 bytes * event modifier 2 bytes * address type/length 4 bytes * [ Solaris man page: address type/length 1 byte] * machine address 4 bytes/16 bytes (IPv4/IPv6 address) * seconds of time 4 bytes/8 bytes (32/64-bits) * nanoseconds of time 4 bytes/8 bytes (32/64-bits) */ static int fetch_header32_ex_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_U_INT32(buf, len, tok->tt.hdr32_ex.size, tok->len, err); if (err) return (-1); READ_TOKEN_U_CHAR(buf, len, tok->tt.hdr32_ex.version, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT16(buf, len, tok->tt.hdr32_ex.e_type, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT16(buf, len, tok->tt.hdr32_ex.e_mod, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.hdr32_ex.ad_type, tok->len, err); if (err) return (-1); bzero(tok->tt.hdr32_ex.addr, sizeof(tok->tt.hdr32_ex.addr)); switch (tok->tt.hdr32_ex.ad_type) { case AU_IPv4: READ_TOKEN_BYTES(buf, len, &tok->tt.hdr32_ex.addr[0], sizeof(tok->tt.hdr32_ex.addr[0]), tok->len, err); if (err) return (-1); break; case AU_IPv6: READ_TOKEN_BYTES(buf, len, tok->tt.hdr32_ex.addr, sizeof(tok->tt.hdr32_ex.addr), tok->len, err); break; } READ_TOKEN_U_INT32(buf, len, tok->tt.hdr32_ex.s, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.hdr32_ex.ms, tok->len, err); if (err) return (-1); return (0); } static void print_header32_ex_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "header_ex", oflags); if (oflags & AU_OFLAG_RAW) { open_attr(fp, "version"); print_1_byte(fp, tok->tt.hdr32_ex.version, "%u"); close_attr(fp); open_attr(fp, "event"); print_event(fp, tok->tt.hdr32_ex.e_type, oflags); close_attr(fp); open_attr(fp, "modifier"); print_evmod(fp, tok->tt.hdr32_ex.e_mod, oflags); close_attr(fp); open_attr(fp, "host"); print_ip_ex_address(fp, tok->tt.hdr32_ex.ad_type, tok->tt.hdr32_ex.addr); close_attr(fp); open_attr(fp, "time"); print_sec32(fp, tok->tt.hdr32_ex.s, oflags); close_attr(fp); open_attr(fp, "msec"); print_msec32(fp, tok->tt.hdr32_ex.ms, oflags); close_attr(fp); close_tag(fp, tok->id); } else { print_delim(fp, del); print_4_bytes(fp, tok->tt.hdr32_ex.size, "%u"); print_delim(fp, del); print_1_byte(fp, tok->tt.hdr32_ex.version, "%u"); print_delim(fp, del); print_event(fp, tok->tt.hdr32_ex.e_type, oflags); print_delim(fp, del); print_evmod(fp, tok->tt.hdr32_ex.e_mod, oflags); print_delim(fp, del); print_ip_ex_address(fp, tok->tt.hdr32_ex.ad_type, tok->tt.hdr32_ex.addr); print_delim(fp, del); print_sec32(fp, tok->tt.hdr32_ex.s, oflags); print_delim(fp, del); print_msec32(fp, tok->tt.hdr32_ex.ms, oflags); } } /* * record byte count 4 bytes * 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) * version # */ static int fetch_header64_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_U_INT32(buf, len, tok->tt.hdr64.size, tok->len, err); if (err) return (-1); READ_TOKEN_U_CHAR(buf, len, tok->tt.hdr64.version, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT16(buf, len, tok->tt.hdr64.e_type, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT16(buf, len, tok->tt.hdr64.e_mod, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT64(buf, len, tok->tt.hdr64.s, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT64(buf, len, tok->tt.hdr64.ms, tok->len, err); if (err) return (-1); return (0); } static void print_header64_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "header", oflags); if (oflags & AU_OFLAG_XML) { open_attr(fp, "version"); print_1_byte(fp, tok->tt.hdr64.version, "%u"); close_attr(fp); open_attr(fp, "event"); print_event(fp, tok->tt.hdr64.e_type, oflags); close_attr(fp); open_attr(fp, "modifier"); print_evmod(fp, tok->tt.hdr64.e_mod, oflags); close_attr(fp); open_attr(fp, "time"); print_sec64(fp, tok->tt.hdr64.s, oflags); close_attr(fp); open_attr(fp, "msec"); print_msec64(fp, tok->tt.hdr64.ms, oflags); close_attr(fp); close_tag(fp, tok->id); } else { print_delim(fp, del); print_4_bytes(fp, tok->tt.hdr64.size, "%u"); print_delim(fp, del); print_1_byte(fp, tok->tt.hdr64.version, "%u"); print_delim(fp, del); print_event(fp, tok->tt.hdr64.e_type, oflags); print_delim(fp, del); print_evmod(fp, tok->tt.hdr64.e_mod, oflags); print_delim(fp, del); print_sec64(fp, tok->tt.hdr64.s, oflags); print_delim(fp, del); print_msec64(fp, tok->tt.hdr64.ms, oflags); } } /* * record byte count 4 bytes * version # 1 byte [2] * event type 2 bytes * event modifier 2 bytes * address type/length 4 bytes * [ Solaris man page: address type/length 1 byte] * machine address 4 bytes/16 bytes (IPv4/IPv6 address) * seconds of time 4 bytes/8 bytes (32/64-bits) * nanoseconds of time 4 bytes/8 bytes (32/64-bits) * * XXXAUDIT: See comment by fetch_header32_ex_tok() for details on the * accuracy of the BSM spec. */ static int fetch_header64_ex_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_U_INT32(buf, len, tok->tt.hdr64_ex.size, tok->len, err); if (err) return (-1); READ_TOKEN_U_CHAR(buf, len, tok->tt.hdr64_ex.version, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT16(buf, len, tok->tt.hdr64_ex.e_type, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT16(buf, len, tok->tt.hdr64_ex.e_mod, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.hdr64_ex.ad_type, tok->len, err); if (err) return (-1); bzero(tok->tt.hdr64_ex.addr, sizeof(tok->tt.hdr64_ex.addr)); switch (tok->tt.hdr64_ex.ad_type) { case AU_IPv4: READ_TOKEN_BYTES(buf, len, &tok->tt.hdr64_ex.addr[0], sizeof(tok->tt.hdr64_ex.addr[0]), tok->len, err); if (err) return (-1); break; case AU_IPv6: READ_TOKEN_BYTES(buf, len, tok->tt.hdr64_ex.addr, sizeof(tok->tt.hdr64_ex.addr), tok->len, err); break; } READ_TOKEN_U_INT64(buf, len, tok->tt.hdr64_ex.s, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT64(buf, len, tok->tt.hdr64_ex.ms, tok->len, err); if (err) return (-1); return (0); } static void print_header64_ex_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "header_ex", oflags); if (oflags & AU_OFLAG_XML) { open_attr(fp, "version"); print_1_byte(fp, tok->tt.hdr64_ex.version, "%u"); close_attr(fp); open_attr(fp, "event"); print_event(fp, tok->tt.hdr64_ex.e_type, oflags); close_attr(fp); open_attr(fp, "modifier"); print_evmod(fp, tok->tt.hdr64_ex.e_mod, oflags); close_attr(fp); open_attr(fp, "host"); print_ip_ex_address(fp, tok->tt.hdr64_ex.ad_type, tok->tt.hdr64_ex.addr); close_attr(fp); open_attr(fp, "time"); print_sec64(fp, tok->tt.hdr64_ex.s, oflags); close_attr(fp); open_attr(fp, "msec"); print_msec64(fp, tok->tt.hdr64_ex.ms, oflags); close_attr(fp); close_tag(fp, tok->id); } else { print_delim(fp, del); print_4_bytes(fp, tok->tt.hdr64_ex.size, "%u"); print_delim(fp, del); print_1_byte(fp, tok->tt.hdr64_ex.version, "%u"); print_delim(fp, del); print_event(fp, tok->tt.hdr64_ex.e_type, oflags); print_delim(fp, del); print_evmod(fp, tok->tt.hdr64_ex.e_mod, oflags); print_delim(fp, del); print_ip_ex_address(fp, tok->tt.hdr64_ex.ad_type, tok->tt.hdr64_ex.addr); print_delim(fp, del); print_sec64(fp, tok->tt.hdr64_ex.s, oflags); print_delim(fp, del); print_msec64(fp, tok->tt.hdr64_ex.ms, oflags); } } /* * trailer magic 2 bytes * record size 4 bytes */ static int fetch_trailer_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_U_INT16(buf, len, tok->tt.trail.magic, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.trail.count, tok->len, err); if (err) return (-1); return (0); } static void print_trailer_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "trailer", oflags); if (!(oflags & AU_OFLAG_XML)) { print_delim(fp, del); print_4_bytes(fp, tok->tt.trail.count, "%u"); } } /* * 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 */ static int fetch_arg32_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_U_CHAR(buf, len, tok->tt.arg32.no, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.arg32.val, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT16(buf, len, tok->tt.arg32.len, tok->len, err); if (err) return (-1); SET_PTR((char*)buf, len, tok->tt.arg32.text, tok->tt.arg32.len, tok->len, err); if (err) return (-1); return (0); } static void print_arg32_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "argument", oflags); if (oflags & AU_OFLAG_XML) { open_attr(fp, "arg-num"); print_1_byte(fp, tok->tt.arg32.no, "%u"); close_attr(fp); open_attr(fp, "value"); print_4_bytes(fp, tok->tt.arg32.val, "0x%x"); close_attr(fp); open_attr(fp, "desc"); print_string(fp, tok->tt.arg32.text, tok->tt.arg32.len); close_attr(fp); close_tag(fp, tok->id); } else { print_delim(fp, del); print_1_byte(fp, tok->tt.arg32.no, "%u"); print_delim(fp, del); print_4_bytes(fp, tok->tt.arg32.val, "0x%x"); print_delim(fp, del); print_string(fp, tok->tt.arg32.text, tok->tt.arg32.len); } } static int fetch_arg64_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_U_CHAR(buf, len, tok->tt.arg64.no, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT64(buf, len, tok->tt.arg64.val, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT16(buf, len, tok->tt.arg64.len, tok->len, err); if (err) return (-1); SET_PTR((char*)buf, len, tok->tt.arg64.text, tok->tt.arg64.len, tok->len, err); if (err) return (-1); return (0); } static void print_arg64_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "argument", oflags); if (oflags & AU_OFLAG_XML) { open_attr(fp, "arg-num"); print_1_byte(fp, tok->tt.arg64.no, "%u"); close_attr(fp); open_attr(fp, "value"); print_8_bytes(fp, tok->tt.arg64.val, "0x%llx"); close_attr(fp); open_attr(fp, "desc"); print_string(fp, tok->tt.arg64.text, tok->tt.arg64.len); close_attr(fp); close_tag(fp, tok->id); } else { print_delim(fp, del); print_1_byte(fp, tok->tt.arg64.no, "%u"); print_delim(fp, del); print_8_bytes(fp, tok->tt.arg64.val, "0x%llx"); print_delim(fp, del); print_string(fp, tok->tt.arg64.text, tok->tt.arg64.len); } } /* * how to print 1 byte * basic unit 1 byte * unit count 1 byte * data items (depends on basic unit) */ static int fetch_arb_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; int datasize; READ_TOKEN_U_CHAR(buf, len, tok->tt.arb.howtopr, tok->len, err); if (err) return (-1); READ_TOKEN_U_CHAR(buf, len, tok->tt.arb.bu, tok->len, err); if (err) return (-1); READ_TOKEN_U_CHAR(buf, len, tok->tt.arb.uc, tok->len, err); if (err) return (-1); /* * Determine the size of the basic unit. */ switch(tok->tt.arb.bu) { case AUR_BYTE: /* case AUR_CHAR: */ datasize = AUR_BYTE_SIZE; break; case AUR_SHORT: datasize = AUR_SHORT_SIZE; break; case AUR_INT32: /* case AUR_INT: */ datasize = AUR_INT32_SIZE; break; case AUR_INT64: datasize = AUR_INT64_SIZE; break; default: return (-1); } SET_PTR(buf, len, tok->tt.arb.data, datasize * tok->tt.arb.uc, tok->len, err); if (err) return (-1); return (0); } static void print_arb_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { char *str; char *format; size_t size; int i; print_tok_type(fp, tok->id, "arbitrary", oflags); if (!(oflags & AU_OFLAG_XML)) print_delim(fp, del); switch(tok->tt.arb.howtopr) { case AUP_BINARY: str = "binary"; format = " %c"; break; case AUP_OCTAL: str = "octal"; format = " %o"; break; case AUP_DECIMAL: str = "decimal"; format = " %d"; break; case AUP_HEX: str = "hex"; format = " %x"; break; case AUP_STRING: str = "string"; format = "%c"; break; default: return; } if (oflags & AU_OFLAG_XML) { open_attr(fp, "print"); fprintf(fp, "%s",str); close_attr(fp); } else { print_string(fp, str, strlen(str)); print_delim(fp, del); } switch(tok->tt.arb.bu) { case AUR_BYTE: /* case AUR_CHAR: */ str = "byte"; size = AUR_BYTE_SIZE; if (oflags & AU_OFLAG_XML) { open_attr(fp, "type"); fprintf(fp, "%zu", size); close_attr(fp); open_attr(fp, "count"); print_1_byte(fp, tok->tt.arb.uc, "%u"); close_attr(fp); fprintf(fp, ">"); for (i = 0; itt.arb.uc; i++) fprintf(fp, format, *(tok->tt.arb.data + (size * i))); close_tag(fp, tok->id); } else { print_string(fp, str, strlen(str)); print_delim(fp, del); print_1_byte(fp, tok->tt.arb.uc, "%u"); print_delim(fp, del); for (i = 0; itt.arb.uc; i++) fprintf(fp, format, *(tok->tt.arb.data + (size * i))); } break; case AUR_SHORT: str = "short"; size = AUR_SHORT_SIZE; if (oflags & AU_OFLAG_XML) { open_attr(fp, "type"); fprintf(fp, "%zu", size); close_attr(fp); open_attr(fp, "count"); print_1_byte(fp, tok->tt.arb.uc, "%u"); close_attr(fp); fprintf(fp, ">"); for (i = 0; i < tok->tt.arb.uc; i++) fprintf(fp, format, *((u_int16_t *)(tok->tt.arb.data + (size * i)))); close_tag(fp, tok->id); } else { print_string(fp, str, strlen(str)); print_delim(fp, del); print_1_byte(fp, tok->tt.arb.uc, "%u"); print_delim(fp, del); for (i = 0; i < tok->tt.arb.uc; i++) fprintf(fp, format, *((u_int16_t *)(tok->tt.arb.data + (size * i)))); } break; case AUR_INT32: /* case AUR_INT: */ str = "int"; size = AUR_INT32_SIZE; if (oflags & AU_OFLAG_XML) { open_attr(fp, "type"); fprintf(fp, "%zu", size); close_attr(fp); open_attr(fp, "count"); print_1_byte(fp, tok->tt.arb.uc, "%u"); close_attr(fp); fprintf(fp, ">"); for (i = 0; i < tok->tt.arb.uc; i++) fprintf(fp, format, *((u_int32_t *)(tok->tt.arb.data + (size * i)))); close_tag(fp, tok->id); } else { print_string(fp, str, strlen(str)); print_delim(fp, del); print_1_byte(fp, tok->tt.arb.uc, "%u"); print_delim(fp, del); for (i = 0; i < tok->tt.arb.uc; i++) fprintf(fp, format, *((u_int32_t *)(tok->tt.arb.data + (size * i)))); } break; case AUR_INT64: str = "int64"; size = AUR_INT64_SIZE; if (oflags & AU_OFLAG_XML) { open_attr(fp, "type"); fprintf(fp, "%zu", size); close_attr(fp); open_attr(fp, "count"); print_1_byte(fp, tok->tt.arb.uc, "%u"); close_attr(fp); fprintf(fp, ">"); for (i = 0; i < tok->tt.arb.uc; i++) fprintf(fp, format, *((u_int64_t *)(tok->tt.arb.data + (size * i)))); close_tag(fp, tok->id); } else { print_string(fp, str, strlen(str)); print_delim(fp, del); print_1_byte(fp, tok->tt.arb.uc, "%u"); print_delim(fp, del); for (i = 0; i < tok->tt.arb.uc; i++) fprintf(fp, format, *((u_int64_t *)(tok->tt.arb.data + (size * i)))); } break; default: return; } } /* * 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) */ static int fetch_attr32_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_U_INT32(buf, len, tok->tt.attr32.mode, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.attr32.uid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.attr32.gid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.attr32.fsid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT64(buf, len, tok->tt.attr32.nid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.attr32.dev, tok->len, err); if (err) return (-1); return (0); } static void print_attr32_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "attribute", oflags); if (oflags & AU_OFLAG_XML) { open_attr(fp, "mode"); print_4_bytes(fp, tok->tt.attr32.mode, "%o"); close_attr(fp); open_attr(fp, "uid"); print_user(fp, tok->tt.attr32.uid, oflags); close_attr(fp); open_attr(fp, "gid"); print_group(fp, tok->tt.attr32.gid, oflags); close_attr(fp); open_attr(fp, "fsid"); print_4_bytes(fp, tok->tt.attr32.fsid, "%u"); close_attr(fp); open_attr(fp, "nodeid"); print_8_bytes(fp, tok->tt.attr32.nid, "%lld"); close_attr(fp); open_attr(fp, "device"); print_4_bytes(fp, tok->tt.attr32.dev, "%u"); close_attr(fp); close_tag(fp, tok->id); } else { print_delim(fp, del); print_4_bytes(fp, tok->tt.attr32.mode, "%o"); print_delim(fp, del); print_user(fp, tok->tt.attr32.uid, oflags); print_delim(fp, del); print_group(fp, tok->tt.attr32.gid, oflags); print_delim(fp, del); print_4_bytes(fp, tok->tt.attr32.fsid, "%u"); print_delim(fp, del); print_8_bytes(fp, tok->tt.attr32.nid, "%lld"); print_delim(fp, del); print_4_bytes(fp, tok->tt.attr32.dev, "%u"); } } /* * 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) */ static int fetch_attr64_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_U_INT32(buf, len, tok->tt.attr64.mode, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.attr64.uid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.attr64.gid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.attr64.fsid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT64(buf, len, tok->tt.attr64.nid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT64(buf, len, tok->tt.attr64.dev, tok->len, err); if (err) return (-1); return (0); } static void print_attr64_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "attribute", oflags); if (oflags & AU_OFLAG_XML) { open_attr(fp, "mode"); print_4_bytes(fp, tok->tt.attr64.mode, "%o"); close_attr(fp); open_attr(fp, "uid"); print_user(fp, tok->tt.attr64.uid, oflags); close_attr(fp); open_attr(fp, "gid"); print_group(fp, tok->tt.attr64.gid, oflags); close_attr(fp); open_attr(fp, "fsid"); print_4_bytes(fp, tok->tt.attr64.fsid, "%u"); close_attr(fp); open_attr(fp, "nodeid"); print_8_bytes(fp, tok->tt.attr64.nid, "%lld"); close_attr(fp); open_attr(fp, "device"); print_8_bytes(fp, tok->tt.attr64.dev, "%llu"); close_attr(fp); close_tag(fp, tok->id); } else { print_delim(fp, del); print_4_bytes(fp, tok->tt.attr64.mode, "%o"); print_delim(fp, del); print_user(fp, tok->tt.attr64.uid, oflags); print_delim(fp, del); print_group(fp, tok->tt.attr64.gid, oflags); print_delim(fp, del); print_4_bytes(fp, tok->tt.attr64.fsid, "%u"); print_delim(fp, del); print_8_bytes(fp, tok->tt.attr64.nid, "%lld"); print_delim(fp, del); print_8_bytes(fp, tok->tt.attr64.dev, "%llu"); } } /* * status 4 bytes * return value 4 bytes */ static int fetch_exit_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_U_INT32(buf, len, tok->tt.exit.status, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.exit.ret, tok->len, err); if (err) return (-1); return (0); } static void print_exit_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "exit", oflags); if (oflags & AU_OFLAG_XML) { open_attr(fp, "errval"); print_errval(fp, tok->tt.exit.status); close_attr(fp); open_attr(fp, "retval"); print_4_bytes(fp, tok->tt.exit.ret, "%u"); close_attr(fp); close_tag(fp, tok->id); } else { print_delim(fp, del); print_errval(fp, tok->tt.exit.status); print_delim(fp, del); print_4_bytes(fp, tok->tt.exit.ret, "%u"); } } /* * count 4 bytes * text count null-terminated string(s) */ static int fetch_execarg_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; u_int32_t i; u_char *bptr; READ_TOKEN_U_INT32(buf, len, tok->tt.execarg.count, tok->len, err); if (err) return (-1); for (i = 0; i < tok->tt.execarg.count; i++) { bptr = buf + tok->len; if (i < AUDIT_MAX_ARGS) tok->tt.execarg.text[i] = (char*)bptr; /* Look for a null terminated string. */ while (bptr && (*bptr != '\0')) { if (++tok->len >= (u_int32_t)len) return (-1); bptr = buf + tok->len; } if (!bptr) return (-1); tok->len++; /* \0 character */ } if (tok->tt.execarg.count > AUDIT_MAX_ARGS) tok->tt.execarg.count = AUDIT_MAX_ARGS; return (0); } static void print_execarg_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { u_int32_t i; print_tok_type(fp, tok->id, "exec arg", oflags); for (i = 0; i < tok->tt.execarg.count; i++) { if (oflags & AU_OFLAG_XML) { fprintf(fp, ""); print_xml_string(fp, tok->tt.execarg.text[i], strlen(tok->tt.execarg.text[i])); fprintf(fp, ""); } else { print_delim(fp, del); print_string(fp, tok->tt.execarg.text[i], strlen(tok->tt.execarg.text[i])); } } if (oflags & AU_OFLAG_XML) close_tag(fp, tok->id); } /* * count 4 bytes * text count null-terminated string(s) */ static int fetch_execenv_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; u_int32_t i; u_char *bptr; READ_TOKEN_U_INT32(buf, len, tok->tt.execenv.count, tok->len, err); if (err) return (-1); for (i = 0; i < tok->tt.execenv.count; i++) { bptr = buf + tok->len; if (i < AUDIT_MAX_ENV) tok->tt.execenv.text[i] = (char*)bptr; /* Look for a null terminated string. */ while (bptr && (*bptr != '\0')) { if (++tok->len >= (u_int32_t)len) return (-1); bptr = buf + tok->len; } if (!bptr) return (-1); tok->len++; /* \0 character */ } if (tok->tt.execenv.count > AUDIT_MAX_ENV) tok->tt.execenv.count = AUDIT_MAX_ENV; return (0); } static void print_execenv_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { u_int32_t i; print_tok_type(fp, tok->id, "exec env", oflags); for (i = 0; i< tok->tt.execenv.count; i++) { if (oflags & AU_OFLAG_XML) { fprintf(fp, ""); print_xml_string(fp, tok->tt.execenv.text[i], strlen(tok->tt.execenv.text[i])); fprintf(fp, ""); } else { print_delim(fp, del); print_string(fp, tok->tt.execenv.text[i], strlen(tok->tt.execenv.text[i])); } } if (oflags & AU_OFLAG_XML) close_tag(fp, tok->id); } /* * seconds of time 4 bytes * milliseconds of time 4 bytes * file name len 2 bytes * file pathname N bytes + 1 terminating NULL byte */ static int fetch_file_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_U_INT32(buf, len, tok->tt.file.s, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.file.ms, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT16(buf, len, tok->tt.file.len, tok->len, err); if (err) return (-1); SET_PTR((char*)buf, len, tok->tt.file.name, tok->tt.file.len, tok->len, err); if (err) return (-1); return (0); } static void print_file_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "file", oflags); if (oflags & AU_OFLAG_XML) { open_attr(fp, "time"); print_sec32(fp, tok->tt.file.s, oflags); close_attr(fp); open_attr(fp, "msec"); print_msec32(fp, tok->tt.file.ms, oflags); close_attr(fp); fprintf(fp, ">"); print_string(fp, tok->tt.file.name, tok->tt.file.len); close_tag(fp, tok->id); } else { print_delim(fp, del); print_sec32(fp, tok->tt.file.s, oflags); print_delim(fp, del); print_msec32(fp, tok->tt.file.ms, oflags); print_delim(fp, del); print_string(fp, tok->tt.file.name, tok->tt.file.len); } } /* * number groups 2 bytes * group list count * 4 bytes */ static int fetch_newgroups_tok(tokenstr_t *tok, u_char *buf, int len) { int i; int err = 0; READ_TOKEN_U_INT16(buf, len, tok->tt.grps.no, tok->len, err); if (err) return (-1); for (i = 0; itt.grps.no; i++) { READ_TOKEN_U_INT32(buf, len, tok->tt.grps.list[i], tok->len, err); if (err) return (-1); } return (0); } static void print_newgroups_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { int i; print_tok_type(fp, tok->id, "group", oflags); for (i = 0; i < tok->tt.grps.no; i++) { if (oflags & AU_OFLAG_XML) { fprintf(fp, ""); print_group(fp, tok->tt.grps.list[i], oflags); fprintf(fp, ""); close_tag(fp, tok->id); } else { print_delim(fp, del); print_group(fp, tok->tt.grps.list[i], oflags); } } } /* * Internet addr 4 bytes */ static int fetch_inaddr_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_BYTES(buf, len, &tok->tt.inaddr.addr, sizeof(uint32_t), tok->len, err); if (err) return (-1); return (0); } static void print_inaddr_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "ip addr", oflags); if (oflags & AU_OFLAG_XML) { print_ip_address(fp, tok->tt.inaddr.addr); close_tag(fp, tok->id); } else { print_delim(fp, del); print_ip_address(fp, tok->tt.inaddr.addr); } } /* * type 4 bytes * address 16 bytes */ static int fetch_inaddr_ex_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_U_INT32(buf, len, tok->tt.inaddr_ex.type, tok->len, err); if (err) return (-1); if (tok->tt.inaddr_ex.type == AU_IPv4) { READ_TOKEN_BYTES(buf, len, &tok->tt.inaddr_ex.addr[0], sizeof(tok->tt.inaddr_ex.addr[0]), tok->len, err); if (err) return (-1); } else if (tok->tt.inaddr_ex.type == AU_IPv6) { READ_TOKEN_BYTES(buf, len, tok->tt.inaddr_ex.addr, sizeof(tok->tt.inaddr_ex.addr), tok->len, err); if (err) return (-1); } else return (-1); return (0); } static void print_inaddr_ex_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "ip addr ex", oflags); if (oflags & AU_OFLAG_XML) { print_ip_ex_address(fp, tok->tt.inaddr_ex.type, tok->tt.inaddr_ex.addr); close_tag(fp, tok->id); } else { print_delim(fp, del); print_ip_ex_address(fp, tok->tt.inaddr_ex.type, tok->tt.inaddr_ex.addr); } } /* * ip header 20 bytes */ static int fetch_ip_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_U_CHAR(buf, len, tok->tt.ip.version, tok->len, err); if (err) return (-1); READ_TOKEN_U_CHAR(buf, len, tok->tt.ip.tos, tok->len, err); if (err) return (-1); READ_TOKEN_BYTES(buf, len, &tok->tt.ip.len, sizeof(uint16_t), tok->len, err); if (err) return (-1); READ_TOKEN_BYTES(buf, len, &tok->tt.ip.id, sizeof(uint16_t), tok->len, err); if (err) return (-1); READ_TOKEN_BYTES(buf, len, &tok->tt.ip.offset, sizeof(uint16_t), tok->len, err); if (err) return (-1); READ_TOKEN_U_CHAR(buf, len, tok->tt.ip.ttl, tok->len, err); if (err) return (-1); READ_TOKEN_U_CHAR(buf, len, tok->tt.ip.prot, tok->len, err); if (err) return (-1); READ_TOKEN_BYTES(buf, len, &tok->tt.ip.chksm, sizeof(uint16_t), tok->len, err); if (err) return (-1); READ_TOKEN_BYTES(buf, len, &tok->tt.ip.src, sizeof(tok->tt.ip.src), tok->len, err); if (err) return (-1); READ_TOKEN_BYTES(buf, len, &tok->tt.ip.dest, sizeof(tok->tt.ip.dest), tok->len, err); if (err) return (-1); return (0); } static void print_ip_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "ip", oflags); if (oflags & AU_OFLAG_XML) { open_attr(fp, "version"); print_mem(fp, (u_char *)(&tok->tt.ip.version), sizeof(u_char)); close_attr(fp); open_attr(fp, "service_type"); print_mem(fp, (u_char *)(&tok->tt.ip.tos), sizeof(u_char)); close_attr(fp); open_attr(fp, "len"); print_2_bytes(fp, ntohs(tok->tt.ip.len), "%u"); close_attr(fp); open_attr(fp, "id"); print_2_bytes(fp, ntohs(tok->tt.ip.id), "%u"); close_attr(fp); open_attr(fp, "offset"); print_2_bytes(fp, ntohs(tok->tt.ip.offset), "%u"); close_attr(fp); open_attr(fp, "time_to_live"); print_mem(fp, (u_char *)(&tok->tt.ip.ttl), sizeof(u_char)); close_attr(fp); open_attr(fp, "protocol"); print_mem(fp, (u_char *)(&tok->tt.ip.prot), sizeof(u_char)); close_attr(fp); open_attr(fp, "cksum"); print_2_bytes(fp, ntohs(tok->tt.ip.chksm), "%u"); close_attr(fp); open_attr(fp, "src_addr"); print_ip_address(fp, tok->tt.ip.src); close_attr(fp); open_attr(fp, "dest_addr"); print_ip_address(fp, tok->tt.ip.dest); close_attr(fp); close_tag(fp, tok->id); } else { print_delim(fp, del); print_mem(fp, (u_char *)(&tok->tt.ip.version), sizeof(u_char)); print_delim(fp, del); print_mem(fp, (u_char *)(&tok->tt.ip.tos), sizeof(u_char)); print_delim(fp, del); print_2_bytes(fp, ntohs(tok->tt.ip.len), "%u"); print_delim(fp, del); print_2_bytes(fp, ntohs(tok->tt.ip.id), "%u"); print_delim(fp, del); print_2_bytes(fp, ntohs(tok->tt.ip.offset), "%u"); print_delim(fp, del); print_mem(fp, (u_char *)(&tok->tt.ip.ttl), sizeof(u_char)); print_delim(fp, del); print_mem(fp, (u_char *)(&tok->tt.ip.prot), sizeof(u_char)); print_delim(fp, del); print_2_bytes(fp, ntohs(tok->tt.ip.chksm), "%u"); print_delim(fp, del); print_ip_address(fp, tok->tt.ip.src); print_delim(fp, del); print_ip_address(fp, tok->tt.ip.dest); } } /* * object ID type 1 byte * Object ID 4 bytes */ static int fetch_ipc_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_U_CHAR(buf, len, tok->tt.ipc.type, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.ipc.id, tok->len, err); if (err) return (-1); return (0); } static void print_ipc_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "IPC", oflags); if (oflags & AU_OFLAG_XML) { open_attr(fp, "ipc-type"); print_ipctype(fp, tok->tt.ipc.type, oflags); close_attr(fp); open_attr(fp, "ipc-id"); print_4_bytes(fp, tok->tt.ipc.id, "%u"); close_attr(fp); close_tag(fp, tok->id); } else { print_delim(fp, del); print_ipctype(fp, tok->tt.ipc.type, oflags); print_delim(fp, del); print_4_bytes(fp, tok->tt.ipc.id, "%u"); } } /* * 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 seq 4 bytes * key 4 bytes */ static int fetch_ipcperm_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_U_INT32(buf, len, tok->tt.ipcperm.uid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.ipcperm.gid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.ipcperm.puid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.ipcperm.pgid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.ipcperm.mode, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.ipcperm.seq, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.ipcperm.key, tok->len, err); if (err) return (-1); return (0); } static void print_ipcperm_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "IPC perm", oflags); if (oflags & AU_OFLAG_XML) { open_attr(fp, "uid"); print_user(fp, tok->tt.ipcperm.uid, oflags); close_attr(fp); open_attr(fp, "gid"); print_group(fp, tok->tt.ipcperm.gid, oflags); close_attr(fp); open_attr(fp, "creator-uid"); print_user(fp, tok->tt.ipcperm.puid, oflags); close_attr(fp); open_attr(fp, "creator-gid"); print_group(fp, tok->tt.ipcperm.pgid, oflags); close_attr(fp); open_attr(fp, "mode"); print_4_bytes(fp, tok->tt.ipcperm.mode, "%o"); close_attr(fp); open_attr(fp, "seq"); print_4_bytes(fp, tok->tt.ipcperm.seq, "%u"); close_attr(fp); open_attr(fp, "key"); print_4_bytes(fp, tok->tt.ipcperm.key, "%u"); close_attr(fp); close_tag(fp, tok->id); } else { print_delim(fp, del); print_user(fp, tok->tt.ipcperm.uid, oflags); print_delim(fp, del); print_group(fp, tok->tt.ipcperm.gid, oflags); print_delim(fp, del); print_user(fp, tok->tt.ipcperm.puid, oflags); print_delim(fp, del); print_group(fp, tok->tt.ipcperm.pgid, oflags); print_delim(fp, del); print_4_bytes(fp, tok->tt.ipcperm.mode, "%o"); print_delim(fp, del); print_4_bytes(fp, tok->tt.ipcperm.seq, "%u"); print_delim(fp, del); print_4_bytes(fp, tok->tt.ipcperm.key, "%u"); } } /* * port Ip address 2 bytes */ static int fetch_iport_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_BYTES(buf, len, &tok->tt.iport.port, sizeof(uint16_t), tok->len, err); if (err) return (-1); return (0); } static void print_iport_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "ip port", oflags); if (oflags & AU_OFLAG_XML) { print_2_bytes(fp, ntohs(tok->tt.iport.port), "%#x"); close_tag(fp, tok->id); } else { print_delim(fp, del); print_2_bytes(fp, ntohs(tok->tt.iport.port), "%#x"); } } /* * size 2 bytes * data size bytes */ static int fetch_opaque_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_U_INT16(buf, len, tok->tt.opaque.size, tok->len, err); if (err) return (-1); SET_PTR((char*)buf, len, tok->tt.opaque.data, tok->tt.opaque.size, tok->len, err); if (err) return (-1); return (0); } static void print_opaque_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "opaque", oflags); if (oflags & AU_OFLAG_XML) { print_mem(fp, (u_char*)tok->tt.opaque.data, tok->tt.opaque.size); close_tag(fp, tok->id); } else { print_delim(fp, del); print_2_bytes(fp, tok->tt.opaque.size, "%u"); print_delim(fp, del); print_mem(fp, (u_char*)tok->tt.opaque.data, tok->tt.opaque.size); } } /* * size 2 bytes * data size bytes */ static int fetch_path_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_U_INT16(buf, len, tok->tt.path.len, tok->len, err); if (err) return (-1); SET_PTR((char*)buf, len, tok->tt.path.path, tok->tt.path.len, tok->len, err); if (err) return (-1); return (0); } static void print_path_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "path", oflags); if (oflags & AU_OFLAG_XML) { print_string(fp, tok->tt.path.path, tok->tt.path.len); close_tag(fp, tok->id); } else { print_delim(fp, del); print_string(fp, tok->tt.path.path, tok->tt.path.len); } } /* * token ID 1 byte * audit ID 4 bytes * euid 4 bytes * egid 4 bytes * ruid 4 bytes * rgid 4 bytes * pid 4 bytes * sessid 4 bytes * terminal ID * portid 4 bytes * machine id 4 bytes */ static int fetch_process32_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_U_INT32(buf, len, tok->tt.proc32.auid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.proc32.euid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.proc32.egid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.proc32.ruid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.proc32.rgid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.proc32.pid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.proc32.sid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.proc32.tid.port, tok->len, err); if (err) return (-1); READ_TOKEN_BYTES(buf, len, &tok->tt.proc32.tid.addr, sizeof(tok->tt.proc32.tid.addr), tok->len, err); if (err) return (-1); return (0); } static void print_process32_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "process", oflags); if (oflags & AU_OFLAG_XML) { open_attr(fp, "audit-uid"); print_user(fp, tok->tt.proc32.auid, oflags); close_attr(fp); open_attr(fp, "uid"); print_user(fp, tok->tt.proc32.euid, oflags); close_attr(fp); open_attr(fp, "gid"); print_group(fp, tok->tt.proc32.egid, oflags); close_attr(fp); open_attr(fp, "ruid"); print_user(fp, tok->tt.proc32.ruid, oflags); close_attr(fp); open_attr(fp, "rgid"); print_group(fp, tok->tt.proc32.rgid, oflags); close_attr(fp); open_attr(fp, "pid"); print_4_bytes(fp, tok->tt.proc32.pid, "%u"); close_attr(fp); open_attr(fp, "sid"); print_4_bytes(fp, tok->tt.proc32.sid, "%u"); close_attr(fp); open_attr(fp, "tid"); print_4_bytes(fp, tok->tt.proc32.tid.port, "%u"); print_ip_address(fp, tok->tt.proc32.tid.addr); close_attr(fp); close_tag(fp, tok->id); } else { print_delim(fp, del); print_user(fp, tok->tt.proc32.auid, oflags); print_delim(fp, del); print_user(fp, tok->tt.proc32.euid, oflags); print_delim(fp, del); print_group(fp, tok->tt.proc32.egid, oflags); print_delim(fp, del); print_user(fp, tok->tt.proc32.ruid, oflags); print_delim(fp, del); print_group(fp, tok->tt.proc32.rgid, oflags); print_delim(fp, del); print_4_bytes(fp, tok->tt.proc32.pid, "%u"); print_delim(fp, del); print_4_bytes(fp, tok->tt.proc32.sid, "%u"); print_delim(fp, del); print_4_bytes(fp, tok->tt.proc32.tid.port, "%u"); print_delim(fp, del); print_ip_address(fp, tok->tt.proc32.tid.addr); } } /* * token ID 1 byte * audit ID 4 bytes * euid 4 bytes * egid 4 bytes * ruid 4 bytes * rgid 4 bytes * pid 4 bytes * sessid 4 bytes * terminal ID * portid 8 bytes * machine id 4 bytes */ static int fetch_process64_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_U_INT32(buf, len, tok->tt.proc64.auid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.proc64.euid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.proc64.egid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.proc64.ruid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.proc64.rgid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.proc64.pid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.proc64.sid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT64(buf, len, tok->tt.proc64.tid.port, tok->len, err); if (err) return (-1); READ_TOKEN_BYTES(buf, len, &tok->tt.proc64.tid.addr, sizeof(tok->tt.proc64.tid.addr), tok->len, err); if (err) return (-1); return (0); } static void print_process64_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "process", oflags); if (oflags & AU_OFLAG_XML) { open_attr(fp, "audit-uid"); print_user(fp, tok->tt.proc64.auid, oflags); close_attr(fp); open_attr(fp, "uid"); print_user(fp, tok->tt.proc64.euid, oflags); close_attr(fp); open_attr(fp, "gid"); print_group(fp, tok->tt.proc64.egid, oflags); close_attr(fp); open_attr(fp, "ruid"); print_user(fp, tok->tt.proc64.ruid, oflags); close_attr(fp); open_attr(fp, "rgid"); print_group(fp, tok->tt.proc64.rgid, oflags); close_attr(fp); open_attr(fp, "pid"); print_4_bytes(fp, tok->tt.proc64.pid, "%u"); close_attr(fp); open_attr(fp, "sid"); print_4_bytes(fp, tok->tt.proc64.sid, "%u"); close_attr(fp); open_attr(fp, "tid"); print_8_bytes(fp, tok->tt.proc64.tid.port, "%llu"); print_ip_address(fp, tok->tt.proc64.tid.addr); close_attr(fp); close_tag(fp, tok->id); } else { print_delim(fp, del); print_user(fp, tok->tt.proc64.auid, oflags); print_delim(fp, del); print_user(fp, tok->tt.proc64.euid, oflags); print_delim(fp, del); print_group(fp, tok->tt.proc64.egid, oflags); print_delim(fp, del); print_user(fp, tok->tt.proc64.ruid, oflags); print_delim(fp, del); print_group(fp, tok->tt.proc64.rgid, oflags); print_delim(fp, del); print_4_bytes(fp, tok->tt.proc64.pid, "%u"); print_delim(fp, del); print_4_bytes(fp, tok->tt.proc64.sid, "%u"); print_delim(fp, del); print_8_bytes(fp, tok->tt.proc64.tid.port, "%llu"); print_delim(fp, del); print_ip_address(fp, tok->tt.proc64.tid.addr); } } /* * 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 * address type-len 4 bytes * machine address 16 bytes */ static int fetch_process32ex_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_U_INT32(buf, len, tok->tt.proc32_ex.auid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.proc32_ex.euid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.proc32_ex.egid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.proc32_ex.ruid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.proc32_ex.rgid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.proc32_ex.pid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.proc32_ex.sid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.proc32_ex.tid.port, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.proc32_ex.tid.type, tok->len, err); if (err) return (-1); if (tok->tt.proc32_ex.tid.type == AU_IPv4) { READ_TOKEN_BYTES(buf, len, &tok->tt.proc32_ex.tid.addr[0], sizeof(tok->tt.proc32_ex.tid.addr[0]), tok->len, err); if (err) return (-1); } else if (tok->tt.proc32_ex.tid.type == AU_IPv6) { READ_TOKEN_BYTES(buf, len, tok->tt.proc32_ex.tid.addr, sizeof(tok->tt.proc32_ex.tid.addr), tok->len, err); if (err) return (-1); } else return (-1); return (0); } static void print_process32ex_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "process_ex", oflags); if (oflags & AU_OFLAG_XML) { open_attr(fp, "audit-uid"); print_user(fp, tok->tt.proc32_ex.auid, oflags); close_attr(fp); open_attr(fp, "uid"); print_user(fp, tok->tt.proc32_ex.euid, oflags); close_attr(fp); open_attr(fp, "gid"); print_group(fp, tok->tt.proc32_ex.egid, oflags); close_attr(fp); open_attr(fp, "ruid"); print_user(fp, tok->tt.proc32_ex.ruid, oflags); close_attr(fp); open_attr(fp, "rgid"); print_group(fp, tok->tt.proc32_ex.rgid, oflags); close_attr(fp); open_attr(fp, "pid"); print_4_bytes(fp, tok->tt.proc32_ex.pid, "%u"); close_attr(fp); open_attr(fp, "sid"); print_4_bytes(fp, tok->tt.proc32_ex.sid, "%u"); close_attr(fp); open_attr(fp, "tid"); print_4_bytes(fp, tok->tt.proc32_ex.tid.port, "%u"); print_ip_ex_address(fp, tok->tt.proc32_ex.tid.type, tok->tt.proc32_ex.tid.addr); close_attr(fp); close_tag(fp, tok->id); } else { print_delim(fp, del); print_user(fp, tok->tt.proc32_ex.auid, oflags); print_delim(fp, del); print_user(fp, tok->tt.proc32_ex.euid, oflags); print_delim(fp, del); print_group(fp, tok->tt.proc32_ex.egid, oflags); print_delim(fp, del); print_user(fp, tok->tt.proc32_ex.ruid, oflags); print_delim(fp, del); print_group(fp, tok->tt.proc32_ex.rgid, oflags); print_delim(fp, del); print_4_bytes(fp, tok->tt.proc32_ex.pid, "%u"); print_delim(fp, del); print_4_bytes(fp, tok->tt.proc32_ex.sid, "%u"); print_delim(fp, del); print_4_bytes(fp, tok->tt.proc32_ex.tid.port, "%u"); print_delim(fp, del); print_ip_ex_address(fp, tok->tt.proc32_ex.tid.type, tok->tt.proc32_ex.tid.addr); } } /* * 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 8 bytes * address type-len 4 bytes * machine address 16 bytes */ static int fetch_process64ex_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_U_INT32(buf, len, tok->tt.proc64_ex.auid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.proc64_ex.euid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.proc64_ex.egid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.proc64_ex.ruid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.proc64_ex.rgid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.proc64_ex.pid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.proc64_ex.sid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT64(buf, len, tok->tt.proc64_ex.tid.port, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.proc64_ex.tid.type, tok->len, err); if (err) return (-1); if (tok->tt.proc64_ex.tid.type == AU_IPv4) { READ_TOKEN_BYTES(buf, len, &tok->tt.proc64_ex.tid.addr[0], sizeof(tok->tt.proc64_ex.tid.addr[0]), tok->len, err); if (err) return (-1); } else if (tok->tt.proc64_ex.tid.type == AU_IPv6) { READ_TOKEN_BYTES(buf, len, tok->tt.proc64_ex.tid.addr, sizeof(tok->tt.proc64_ex.tid.addr), tok->len, err); if (err) return (-1); } else return (-1); return (0); } static void print_process64ex_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "process_ex", oflags); if (oflags & AU_OFLAG_XML) { open_attr(fp, "audit-uid"); print_user(fp, tok->tt.proc64_ex.auid, oflags); close_attr(fp); open_attr(fp, "uid"); print_user(fp, tok->tt.proc64_ex.euid, oflags); close_attr(fp); open_attr(fp, "gid"); print_group(fp, tok->tt.proc64_ex.egid, oflags); close_attr(fp); open_attr(fp, "ruid"); print_user(fp, tok->tt.proc64_ex.ruid, oflags); close_attr(fp); open_attr(fp, "rgid"); print_group(fp, tok->tt.proc64_ex.rgid, oflags); close_attr(fp); open_attr(fp, "pid"); print_4_bytes(fp, tok->tt.proc64_ex.pid, "%u"); close_attr(fp); open_attr(fp, "sid"); print_4_bytes(fp, tok->tt.proc64_ex.sid, "%u"); close_attr(fp); open_attr(fp, "tid"); print_8_bytes(fp, tok->tt.proc64_ex.tid.port, "%llu"); print_ip_ex_address(fp, tok->tt.proc64_ex.tid.type, tok->tt.proc64_ex.tid.addr); close_attr(fp); close_tag(fp, tok->id); } else { print_delim(fp, del); print_user(fp, tok->tt.proc64_ex.auid, oflags); print_delim(fp, del); print_user(fp, tok->tt.proc64_ex.euid, oflags); print_delim(fp, del); print_group(fp, tok->tt.proc64_ex.egid, oflags); print_delim(fp, del); print_user(fp, tok->tt.proc64_ex.ruid, oflags); print_delim(fp, del); print_group(fp, tok->tt.proc64_ex.rgid, oflags); print_delim(fp, del); print_4_bytes(fp, tok->tt.proc64_ex.pid, "%u"); print_delim(fp, del); print_4_bytes(fp, tok->tt.proc64_ex.sid, "%u"); print_delim(fp, del); print_8_bytes(fp, tok->tt.proc64_ex.tid.port, "%llu"); print_delim(fp, del); print_ip_ex_address(fp, tok->tt.proc64_ex.tid.type, tok->tt.proc64_ex.tid.addr); } } /* * errno 1 byte * return value 4 bytes */ static int fetch_return32_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_U_CHAR(buf, len, tok->tt.ret32.status, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.ret32.ret, tok->len, err); if (err) return (-1); return (0); } static void print_return32_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "return", oflags); if (oflags & AU_OFLAG_XML) { open_attr(fp ,"errval"); print_retval(fp, tok->tt.ret32.status, oflags); close_attr(fp); open_attr(fp, "retval"); print_4_bytes(fp, tok->tt.ret32.ret, "%u"); close_attr(fp); close_tag(fp, tok->id); } else { print_delim(fp, del); print_retval(fp, tok->tt.ret32.status, oflags); print_delim(fp, del); print_4_bytes(fp, tok->tt.ret32.ret, "%u"); } } static int fetch_return64_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_U_CHAR(buf, len, tok->tt.ret64.err, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT64(buf, len, tok->tt.ret64.val, tok->len, err); if (err) return (-1); return (0); } static void print_return64_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "return", oflags); if (oflags & AU_OFLAG_XML) { open_attr(fp, "errval"); print_retval(fp, tok->tt.ret64.err, oflags); close_attr(fp); open_attr(fp, "retval"); print_8_bytes(fp, tok->tt.ret64.val, "%lld"); close_attr(fp); close_tag(fp, tok->id); } else { print_delim(fp, del); print_retval(fp, tok->tt.ret64.err, oflags); print_delim(fp, del); print_8_bytes(fp, tok->tt.ret64.val, "%lld"); } } /* * seq 4 bytes */ static int fetch_seq_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_U_INT32(buf, len, tok->tt.seq.seqno, tok->len, err); if (err) return (-1); return (0); } static void print_seq_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "sequence", oflags); if (oflags & AU_OFLAG_XML) { open_attr(fp, "seq-num"); print_4_bytes(fp, tok->tt.seq.seqno, "%u"); close_attr(fp); close_tag(fp, tok->id); } else { print_delim(fp, del); print_4_bytes(fp, tok->tt.seq.seqno, "%u"); } } /* * socket family 2 bytes * local port 2 bytes * socket address 4 bytes */ static int fetch_sock_inet32_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_U_INT16(buf, len, tok->tt.sockinet_ex32.family, tok->len, err); if (err) return (-1); READ_TOKEN_BYTES(buf, len, &tok->tt.sockinet_ex32.port, sizeof(uint16_t), tok->len, err); if (err) return (-1); READ_TOKEN_BYTES(buf, len, &tok->tt.sockinet_ex32.addr, sizeof(tok->tt.sockinet_ex32.addr[0]), tok->len, err); if (err) return (-1); return (0); } static void print_sock_inet32_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "socket-inet", oflags); if (oflags & AU_OFLAG_XML) { open_attr(fp, "type"); print_2_bytes(fp, tok->tt.sockinet_ex32.family, "%u"); close_attr(fp); open_attr(fp, "port"); print_2_bytes(fp, ntohs(tok->tt.sockinet_ex32.port), "%u"); close_attr(fp); open_attr(fp, "addr"); print_ip_address(fp, tok->tt.sockinet_ex32.addr[0]); close_attr(fp); close_tag(fp, tok->id); } else { print_delim(fp, del); print_2_bytes(fp, tok->tt.sockinet_ex32.family, "%u"); print_delim(fp, del); print_2_bytes(fp, ntohs(tok->tt.sockinet_ex32.port), "%u"); print_delim(fp, del); print_ip_address(fp, tok->tt.sockinet_ex32.addr[0]); } } /* * socket family 2 bytes * local port 2 bytes * socket address 16 bytes */ static int fetch_sock_inet128_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_U_INT16(buf, len, tok->tt.sockinet_ex32.family, tok->len, err); if (err) return (-1); READ_TOKEN_BYTES(buf, len, &tok->tt.sockinet_ex32.port, sizeof(uint16_t), tok->len, err); if (err) return (-1); READ_TOKEN_BYTES(buf, len, &tok->tt.sockinet_ex32.addr, sizeof(tok->tt.sockinet_ex32.addr), tok->len, err); if (err) return (-1); return (0); } static void print_sock_inet128_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "socket-inet6", oflags); if (oflags & AU_OFLAG_XML) { open_attr(fp, "type"); print_2_bytes(fp, tok->tt.sockinet_ex32.family, "%u"); close_attr(fp); open_attr(fp, "port"); print_2_bytes(fp, ntohs(tok->tt.sockinet_ex32.port), "%u"); close_attr(fp); open_attr(fp, "addr"); print_ip_ex_address(fp, AU_IPv6, tok->tt.sockinet_ex32.addr); close_attr(fp); close_tag(fp, tok->id); } else { print_delim(fp, del); print_2_bytes(fp, tok->tt.sockinet_ex32.family, "%u"); print_delim(fp, del); print_2_bytes(fp, ntohs(tok->tt.sockinet_ex32.port), "%u"); print_delim(fp, del); print_ip_ex_address(fp, AU_IPv6, tok->tt.sockinet_ex32.addr); } } /* * socket family 2 bytes * path (up to) 104 bytes + NULL (NULL terminated string). */ static int fetch_sock_unix_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; u_char *p; int slen; READ_TOKEN_U_INT16(buf, len, tok->tt.sockunix.family, tok->len, err); if (err) return (-1); /* slen = strnlen((buf + tok->len), 104) + 1; */ p = (u_char *)memchr((const void *)(buf + tok->len), '\0', 104); slen = (p ? (int)(p - (buf + tok->len)) : 104) + 1; READ_TOKEN_BYTES(buf, len, tok->tt.sockunix.path, slen, tok->len, err); if (err) return (-1); return (0); } static void print_sock_unix_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "socket-unix", oflags); if (oflags & AU_OFLAG_XML) { open_attr(fp, "type"); print_2_bytes(fp, tok->tt.sockunix.family, "%u"); close_attr(fp); open_attr(fp, "port"); close_attr(fp); open_attr(fp, "addr"); print_string(fp, tok->tt.sockunix.path, strlen(tok->tt.sockunix.path)); close_attr(fp); close_tag(fp, tok->id); } else { print_delim(fp, del); print_2_bytes(fp, tok->tt.sockunix.family, "%u"); print_delim(fp, del); print_string(fp, tok->tt.sockunix.path, strlen(tok->tt.sockunix.path)); } } /* * socket type 2 bytes * local port 2 bytes * local address 4 bytes * remote port 2 bytes * remote address 4 bytes */ static int fetch_socket_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_U_INT16(buf, len, tok->tt.socket.type, tok->len, err); if (err) return (-1); READ_TOKEN_BYTES(buf, len, &tok->tt.socket.l_port, sizeof(uint16_t), tok->len, err); if (err) return (-1); READ_TOKEN_BYTES(buf, len, &tok->tt.socket.l_addr, sizeof(tok->tt.socket.l_addr), tok->len, err); if (err) return (-1); READ_TOKEN_BYTES(buf, len, &tok->tt.socket.r_port, sizeof(uint16_t), tok->len, err); if (err) return (-1); READ_TOKEN_BYTES(buf, len, &tok->tt.socket.l_addr, sizeof(tok->tt.socket.r_addr), tok->len, err); if (err) return (-1); return (0); } static void print_socket_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "socket", oflags); if (oflags & AU_OFLAG_XML) { open_attr(fp, "sock_type"); print_2_bytes(fp, tok->tt.socket.type, "%u"); close_attr(fp); open_attr(fp, "lport"); print_2_bytes(fp, ntohs(tok->tt.socket.l_port), "%u"); close_attr(fp); open_attr(fp, "laddr"); print_ip_address(fp, tok->tt.socket.l_addr); close_attr(fp); open_attr(fp, "fport"); print_2_bytes(fp, ntohs(tok->tt.socket.r_port), "%u"); close_attr(fp); open_attr(fp, "faddr"); print_ip_address(fp, tok->tt.socket.r_addr); close_attr(fp); close_tag(fp, tok->id); } else { print_delim(fp, del); print_2_bytes(fp, tok->tt.socket.type, "%u"); print_delim(fp, del); print_2_bytes(fp, ntohs(tok->tt.socket.l_port), "%u"); print_delim(fp, del); print_ip_address(fp, tok->tt.socket.l_addr); print_delim(fp, del); print_2_bytes(fp, ntohs(tok->tt.socket.r_port), "%u"); print_delim(fp, del); print_ip_address(fp, tok->tt.socket.r_addr); } } /* * audit ID 4 bytes * euid 4 bytes * egid 4 bytes * ruid 4 bytes * rgid 4 bytes * pid 4 bytes * sessid 4 bytes * terminal ID * portid 4 bytes/8 bytes (32-bit/64-bit value) * machine id 4 bytes */ static int fetch_subject32_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_U_INT32(buf, len, tok->tt.subj32.auid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.subj32.euid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.subj32.egid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.subj32.ruid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.subj32.rgid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.subj32.pid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.subj32.sid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.subj32.tid.port, tok->len, err); if (err) return (-1); READ_TOKEN_BYTES(buf, len, &tok->tt.subj32.tid.addr, sizeof(tok->tt.subj32.tid.addr), tok->len, err); if (err) return (-1); return (0); } static void print_subject32_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "subject", oflags); if (oflags & AU_OFLAG_XML) { open_attr(fp, "audit-uid"); print_user(fp, tok->tt.subj32.auid, oflags); close_attr(fp); open_attr(fp, "uid"); print_user(fp, tok->tt.subj32.euid, oflags); close_attr(fp); open_attr(fp, "gid"); print_group(fp, tok->tt.subj32.egid, oflags); close_attr(fp); open_attr(fp, "ruid"); print_user(fp, tok->tt.subj32.ruid, oflags); close_attr(fp); open_attr(fp, "rgid"); print_group(fp, tok->tt.subj32.rgid, oflags); close_attr(fp); open_attr(fp,"pid"); print_4_bytes(fp, tok->tt.subj32.pid, "%u"); close_attr(fp); open_attr(fp,"sid"); print_4_bytes(fp, tok->tt.subj32.sid, "%u"); close_attr(fp); open_attr(fp,"tid"); print_4_bytes(fp, tok->tt.subj32.tid.port, "%u "); print_ip_address(fp, tok->tt.subj32.tid.addr); close_attr(fp); close_tag(fp, tok->id); } else { print_delim(fp, del); print_user(fp, tok->tt.subj32.auid, oflags); print_delim(fp, del); print_user(fp, tok->tt.subj32.euid, oflags); print_delim(fp, del); print_group(fp, tok->tt.subj32.egid, oflags); print_delim(fp, del); print_user(fp, tok->tt.subj32.ruid, oflags); print_delim(fp, del); print_group(fp, tok->tt.subj32.rgid, oflags); print_delim(fp, del); print_4_bytes(fp, tok->tt.subj32.pid, "%u"); print_delim(fp, del); print_4_bytes(fp, tok->tt.subj32.sid, "%u"); print_delim(fp, del); print_4_bytes(fp, tok->tt.subj32.tid.port, "%u"); print_delim(fp, del); print_ip_address(fp, tok->tt.subj32.tid.addr); } } static void print_upriv_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "use of privilege", oflags); if (oflags & AU_OFLAG_XML) { open_attr(fp, "status"); if (tok->tt.priv.sorf) (void) fprintf(fp, "successful use of priv"); else (void) fprintf(fp, "failed use of priv"); close_attr(fp); open_attr(fp, "name"); print_string(fp, tok->tt.priv.priv, tok->tt.priv.privstrlen); close_attr(fp); close_tag(fp, tok->id); } else { print_delim(fp, del); if (tok->tt.priv.sorf) (void) fprintf(fp, "successful use of priv"); else (void) fprintf(fp, "failed use of priv"); print_delim(fp, del); print_string(fp, tok->tt.priv.priv, tok->tt.priv.privstrlen); } } /* * status 1 byte * privstrlen 2 bytes * priv N bytes + 1 (\0 byte) */ static int fetch_priv_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_U_CHAR(buf, len, tok->tt.priv.sorf, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT16(buf, len, tok->tt.priv.privstrlen, tok->len, err); if (err) return (-1); SET_PTR((char *)buf, len, tok->tt.priv.priv, tok->tt.priv.privstrlen, tok->len, err); if (err) return (-1); return (0); } /* * privtstrlen 1 byte * privtstr N bytes + 1 * privstrlen 1 byte * privstr N bytes + 1 */ static int fetch_privset_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_U_INT16(buf, len, tok->tt.privset.privtstrlen, tok->len, err); if (err) return (-1); SET_PTR((char *)buf, len, tok->tt.privset.privtstr, tok->tt.privset.privtstrlen, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT16(buf, len, tok->tt.privset.privstrlen, tok->len, err); if (err) return (-1); SET_PTR((char *)buf, len, tok->tt.privset.privstr, tok->tt.privset.privstrlen, tok->len, err); if (err) return (-1); return (0); } static void print_privset_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "privilege", oflags); if (oflags & AU_OFLAG_XML) { open_attr(fp, "type"); print_string(fp, tok->tt.privset.privtstr, tok->tt.privset.privtstrlen); close_attr(fp); open_attr(fp, "priv"); print_string(fp, tok->tt.privset.privstr, tok->tt.privset.privstrlen); close_attr(fp); } else { print_delim(fp, del); print_string(fp, tok->tt.privset.privtstr, tok->tt.privset.privtstrlen); print_delim(fp, del); print_string(fp, tok->tt.privset.privstr, tok->tt.privset.privstrlen); } } /* * audit ID 4 bytes * euid 4 bytes * egid 4 bytes * ruid 4 bytes * rgid 4 bytes * pid 4 bytes * sessid 4 bytes * terminal ID * portid 4 bytes/8 bytes (32-bit/64-bit value) * machine id 4 bytes */ static int fetch_subject64_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_U_INT32(buf, len, tok->tt.subj64.auid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.subj64.euid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.subj64.egid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.subj64.ruid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.subj64.rgid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.subj64.pid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.subj64.sid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT64(buf, len, tok->tt.subj64.tid.port, tok->len, err); if (err) return (-1); READ_TOKEN_BYTES(buf, len, &tok->tt.subj64.tid.addr, sizeof(tok->tt.subj64.tid.addr), tok->len, err); if (err) return (-1); return (0); } static void print_subject64_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "subject", oflags); if (oflags & AU_OFLAG_XML) { open_attr(fp, "audit-uid"); print_user(fp, tok->tt.subj64.auid, oflags); close_attr(fp); open_attr(fp, "uid"); print_user(fp, tok->tt.subj64.euid, oflags); close_attr(fp); open_attr(fp, "gid"); print_group(fp, tok->tt.subj64.egid, oflags); close_attr(fp); open_attr(fp, "ruid"); print_user(fp, tok->tt.subj64.ruid, oflags); close_attr(fp); open_attr(fp, "rgid"); print_group(fp, tok->tt.subj64.rgid, oflags); close_attr(fp); open_attr(fp, "pid"); print_4_bytes(fp, tok->tt.subj64.pid, "%u"); close_attr(fp); open_attr(fp, "sid"); print_4_bytes(fp, tok->tt.subj64.sid, "%u"); close_attr(fp); open_attr(fp, "tid"); print_8_bytes(fp, tok->tt.subj64.tid.port, "%llu"); print_ip_address(fp, tok->tt.subj64.tid.addr); close_attr(fp); close_tag(fp, tok->id); } else { print_delim(fp, del); print_user(fp, tok->tt.subj64.auid, oflags); print_delim(fp, del); print_user(fp, tok->tt.subj64.euid, oflags); print_delim(fp, del); print_group(fp, tok->tt.subj64.egid, oflags); print_delim(fp, del); print_user(fp, tok->tt.subj64.ruid, oflags); print_delim(fp, del); print_group(fp, tok->tt.subj64.rgid, oflags); print_delim(fp, del); print_4_bytes(fp, tok->tt.subj64.pid, "%u"); print_delim(fp, del); print_4_bytes(fp, tok->tt.subj64.sid, "%u"); print_delim(fp, del); print_8_bytes(fp, tok->tt.subj64.tid.port, "%llu"); print_delim(fp, del); print_ip_address(fp, tok->tt.subj64.tid.addr); } } /* * audit ID 4 bytes * euid 4 bytes * egid 4 bytes * ruid 4 bytes * rgid 4 bytes * pid 4 bytes * sessid 4 bytes * terminal ID * portid 4 bytes * type 4 bytes * machine id 16 bytes */ static int fetch_subject32ex_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_U_INT32(buf, len, tok->tt.subj32_ex.auid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.subj32_ex.euid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.subj32_ex.egid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.subj32_ex.ruid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.subj32_ex.rgid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.subj32_ex.pid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.subj32_ex.sid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.subj32_ex.tid.port, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.subj32_ex.tid.type, tok->len, err); if (err) return (-1); if (tok->tt.subj32_ex.tid.type == AU_IPv4) { READ_TOKEN_BYTES(buf, len, &tok->tt.subj32_ex.tid.addr[0], sizeof(tok->tt.subj32_ex.tid.addr[0]), tok->len, err); if (err) return (-1); } else if (tok->tt.subj32_ex.tid.type == AU_IPv6) { READ_TOKEN_BYTES(buf, len, tok->tt.subj32_ex.tid.addr, sizeof(tok->tt.subj32_ex.tid.addr), tok->len, err); if (err) return (-1); } else return (-1); return (0); } static void print_subject32ex_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "subject_ex", oflags); if (oflags & AU_OFLAG_XML) { open_attr(fp, "audit-uid"); print_user(fp, tok->tt.subj32_ex.auid, oflags); close_attr(fp); open_attr(fp, "uid"); print_user(fp, tok->tt.subj32_ex.euid, oflags); close_attr(fp); open_attr(fp, "gid"); print_group(fp, tok->tt.subj32_ex.egid, oflags); close_attr(fp); open_attr(fp, "ruid"); print_user(fp, tok->tt.subj32_ex.ruid, oflags); close_attr(fp); open_attr(fp, "rgid"); print_group(fp, tok->tt.subj32_ex.rgid, oflags); close_attr(fp); open_attr(fp, "pid"); print_4_bytes(fp, tok->tt.subj32_ex.pid, "%u"); close_attr(fp); open_attr(fp, "sid"); print_4_bytes(fp, tok->tt.subj32_ex.sid, "%u"); close_attr(fp); open_attr(fp, "tid"); print_4_bytes(fp, tok->tt.subj32_ex.tid.port, "%u"); print_ip_ex_address(fp, tok->tt.subj32_ex.tid.type, tok->tt.subj32_ex.tid.addr); close_attr(fp); close_tag(fp, tok->id); } else { print_delim(fp, del); print_user(fp, tok->tt.subj32_ex.auid, oflags); print_delim(fp, del); print_user(fp, tok->tt.subj32_ex.euid, oflags); print_delim(fp, del); print_group(fp, tok->tt.subj32_ex.egid, oflags); print_delim(fp, del); print_user(fp, tok->tt.subj32_ex.ruid, oflags); print_delim(fp, del); print_group(fp, tok->tt.subj32_ex.rgid, oflags); print_delim(fp, del); print_4_bytes(fp, tok->tt.subj32_ex.pid, "%u"); print_delim(fp, del); print_4_bytes(fp, tok->tt.subj32_ex.sid, "%u"); print_delim(fp, del); print_4_bytes(fp, tok->tt.subj32_ex.tid.port, "%u"); print_delim(fp, del); print_ip_ex_address(fp, tok->tt.subj32_ex.tid.type, tok->tt.subj32_ex.tid.addr); } } /* * audit ID 4 bytes * euid 4 bytes * egid 4 bytes * ruid 4 bytes * rgid 4 bytes * pid 4 bytes * sessid 4 bytes * terminal ID * portid 8 bytes * type 4 bytes * machine id 16 bytes */ static int fetch_subject64ex_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_U_INT32(buf, len, tok->tt.subj64_ex.auid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.subj64_ex.euid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.subj64_ex.egid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.subj64_ex.ruid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.subj64_ex.rgid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.subj64_ex.pid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.subj64_ex.sid, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT64(buf, len, tok->tt.subj64_ex.tid.port, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT32(buf, len, tok->tt.subj64_ex.tid.type, tok->len, err); if (err) return (-1); if (tok->tt.subj64_ex.tid.type == AU_IPv4) { READ_TOKEN_BYTES(buf, len, &tok->tt.subj64_ex.tid.addr[0], sizeof(tok->tt.subj64_ex.tid.addr[0]), tok->len, err); if (err) return (-1); } else if (tok->tt.subj64_ex.tid.type == AU_IPv6) { READ_TOKEN_BYTES(buf, len, tok->tt.subj64_ex.tid.addr, sizeof(tok->tt.subj64_ex.tid.addr), tok->len, err); if (err) return (-1); } else return (-1); return (0); } static void print_subject64ex_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "subject_ex", oflags); if (oflags & AU_OFLAG_XML) { open_attr(fp, "audit-uid"); print_user(fp, tok->tt.subj64_ex.auid, oflags); close_attr(fp); open_attr(fp, "uid"); print_user(fp, tok->tt.subj64_ex.euid, oflags); close_attr(fp); open_attr(fp, "gid"); print_group(fp, tok->tt.subj64_ex.egid, oflags); close_attr(fp); open_attr(fp, "ruid"); print_user(fp, tok->tt.subj64_ex.ruid, oflags); close_attr(fp); open_attr(fp, "rgid"); print_group(fp, tok->tt.subj64_ex.rgid, oflags); close_attr(fp); open_attr(fp, "pid"); print_4_bytes(fp, tok->tt.subj64_ex.pid, "%u"); close_attr(fp); open_attr(fp, "sid"); print_4_bytes(fp, tok->tt.subj64_ex.sid, "%u"); close_attr(fp); open_attr(fp, "tid"); print_8_bytes(fp, tok->tt.subj64_ex.tid.port, "%llu"); print_ip_ex_address(fp, tok->tt.subj64_ex.tid.type, tok->tt.subj64_ex.tid.addr); close_attr(fp); close_tag(fp, tok->id); } else { print_delim(fp, del); print_user(fp, tok->tt.subj64_ex.auid, oflags); print_delim(fp, del); print_user(fp, tok->tt.subj64_ex.euid, oflags); print_delim(fp, del); print_group(fp, tok->tt.subj64_ex.egid, oflags); print_delim(fp, del); print_user(fp, tok->tt.subj64_ex.ruid, oflags); print_delim(fp, del); print_group(fp, tok->tt.subj64_ex.rgid, oflags); print_delim(fp, del); print_4_bytes(fp, tok->tt.subj64_ex.pid, "%u"); print_delim(fp, del); print_4_bytes(fp, tok->tt.subj64_ex.sid, "%u"); print_delim(fp, del); print_8_bytes(fp, tok->tt.subj64_ex.tid.port, "%llu"); print_delim(fp, del); print_ip_ex_address(fp, tok->tt.subj64_ex.tid.type, tok->tt.subj64_ex.tid.addr); } } /* * size 2 bytes * data size bytes */ static int fetch_text_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_U_INT16(buf, len, tok->tt.text.len, tok->len, err); if (err) return (-1); SET_PTR((char*)buf, len, tok->tt.text.text, tok->tt.text.len, tok->len, err); if (err) return (-1); return (0); } static void print_text_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "text", oflags); if (oflags & AU_OFLAG_XML) { print_string(fp, tok->tt.text.text, tok->tt.text.len); close_tag(fp, tok->id); } else { print_delim(fp, del); print_string(fp, tok->tt.text.text, tok->tt.text.len); } } /* * socket domain 2 bytes * socket type 2 bytes * address type 2 bytes * local port 2 bytes * local Internet address 4/16 bytes * remote port 2 bytes * remote Internet address 4/16 bytes */ static int fetch_socketex32_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_U_INT16(buf, len, tok->tt.socket_ex32.domain, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT16(buf, len, tok->tt.socket_ex32.type, tok->len, err); if (err) return (-1); READ_TOKEN_U_INT16(buf, len, tok->tt.socket_ex32.atype, tok->len, err); if (err) return (-1); if (tok->tt.socket_ex32.atype != AU_IPv4 && tok->tt.socket_ex32.atype != AU_IPv6) return (-1); READ_TOKEN_BYTES(buf, len, &tok->tt.socket_ex32.l_port, sizeof(uint16_t), tok->len, err); if (err) return (-1); if (tok->tt.socket_ex32.atype == AU_IPv4) { READ_TOKEN_BYTES(buf, len, &tok->tt.socket_ex32.l_addr, sizeof(tok->tt.socket_ex32.l_addr[0]), tok->len, err); if (err) return (-1); } else { READ_TOKEN_BYTES(buf, len, &tok->tt.socket_ex32.l_addr, sizeof(tok->tt.socket_ex32.l_addr), tok->len, err); if (err) return (-1); } READ_TOKEN_BYTES(buf, len, &tok->tt.socket_ex32.r_port, sizeof(uint16_t), tok->len, err); if (err) return (-1); if (tok->tt.socket_ex32.atype == AU_IPv4) { READ_TOKEN_BYTES(buf, len, &tok->tt.socket_ex32.r_addr, sizeof(tok->tt.socket_ex32.r_addr[0]), tok->len, err); if (err) return (-1); } else { READ_TOKEN_BYTES(buf, len, &tok->tt.socket_ex32.r_addr, sizeof(tok->tt.socket_ex32.r_addr), tok->len, err); if (err) return (-1); } return (0); } static void print_socketex32_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { /* * This print routine prints BSM constant space domains and socket * types rather than converting them. If we add string printers for * these constants in the future, we may want to call conversion * routines. */ print_tok_type(fp, tok->id, "socket", oflags); if (oflags & AU_OFLAG_XML) { open_attr(fp, "sock_dom"); print_2_bytes(fp, tok->tt.socket_ex32.domain, "%#x"); close_attr(fp); open_attr(fp, "sock_type"); print_2_bytes(fp, tok->tt.socket_ex32.type, "%#x"); close_attr(fp); open_attr(fp, "lport"); print_2_bytes(fp, ntohs(tok->tt.socket_ex32.l_port), "%#x"); close_attr(fp); open_attr(fp, "laddr"); print_ip_ex_address(fp, tok->tt.socket_ex32.atype, tok->tt.socket_ex32.l_addr); close_attr(fp); open_attr(fp, "faddr"); print_ip_ex_address(fp, tok->tt.socket_ex32.atype, tok->tt.socket_ex32.r_addr); close_attr(fp); open_attr(fp, "fport"); print_2_bytes(fp, ntohs(tok->tt.socket_ex32.r_port), "%#x"); close_attr(fp); close_tag(fp, tok->id); } else { print_delim(fp, del); print_2_bytes(fp, tok->tt.socket_ex32.domain, "%#x"); print_delim(fp, del); print_2_bytes(fp, tok->tt.socket_ex32.type, "%#x"); print_delim(fp, del); print_2_bytes(fp, ntohs(tok->tt.socket_ex32.l_port), "%#x"); print_delim(fp, del); print_ip_ex_address(fp, tok->tt.socket_ex32.atype, tok->tt.socket_ex32.l_addr); print_delim(fp, del); print_4_bytes(fp, ntohs(tok->tt.socket_ex32.r_port), "%#x"); print_delim(fp, del); print_ip_ex_address(fp, tok->tt.socket_ex32.atype, tok->tt.socket_ex32.r_addr); } } static int fetch_invalid_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; int recoversize; recoversize = len - (tok->len + AUDIT_TRAILER_SIZE); if (recoversize <= 0) return (-1); tok->tt.invalid.length = recoversize; SET_PTR((char*)buf, len, tok->tt.invalid.data, recoversize, tok->len, err); if (err) return (-1); return (0); } static void print_invalid_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { if (!(oflags & AU_OFLAG_XML)) { print_tok_type(fp, tok->id, "unknown", oflags); print_delim(fp, del); print_mem(fp, (u_char*)tok->tt.invalid.data, tok->tt.invalid.length); } } /* * size 2 bytes; * zonename size bytes; */ static int fetch_zonename_tok(tokenstr_t *tok, u_char *buf, int len) { int err = 0; READ_TOKEN_U_INT16(buf, len, tok->tt.zonename.len, tok->len, err); if (err) return (-1); SET_PTR((char *)buf, len, tok->tt.zonename.zonename, tok->tt.zonename.len, tok->len, err); if (err) return (-1); return (0); } static void print_zonename_tok(FILE *fp, tokenstr_t *tok, char *del, int oflags) { print_tok_type(fp, tok->id, "zone", oflags); if (oflags & AU_OFLAG_XML) { open_attr(fp, "name"); print_string(fp, tok->tt.zonename.zonename, tok->tt.zonename.len); close_attr(fp); close_tag(fp, tok->id); } else { print_delim(fp, del); print_string(fp, tok->tt.zonename.zonename, tok->tt.zonename.len); } } /* * Reads the token beginning at buf into tok. */ int au_fetch_tok(tokenstr_t *tok, u_char *buf, int len) { if (len <= 0) return (-1); tok->len = 1; tok->data = buf; tok->id = *buf; switch(tok->id) { case AUT_HEADER32: return (fetch_header32_tok(tok, buf, len)); case AUT_HEADER32_EX: return (fetch_header32_ex_tok(tok, buf, len)); case AUT_HEADER64: return (fetch_header64_tok(tok, buf, len)); case AUT_HEADER64_EX: return (fetch_header64_ex_tok(tok, buf, len)); case AUT_TRAILER: return (fetch_trailer_tok(tok, buf, len)); case AUT_ARG32: return (fetch_arg32_tok(tok, buf, len)); case AUT_ARG64: return (fetch_arg64_tok(tok, buf, len)); case AUT_ATTR32: return (fetch_attr32_tok(tok, buf, len)); case AUT_ATTR64: return (fetch_attr64_tok(tok, buf, len)); case AUT_EXIT: return (fetch_exit_tok(tok, buf, len)); case AUT_EXEC_ARGS: return (fetch_execarg_tok(tok, buf, len)); case AUT_EXEC_ENV: return (fetch_execenv_tok(tok, buf, len)); case AUT_OTHER_FILE32: return (fetch_file_tok(tok, buf, len)); case AUT_NEWGROUPS: return (fetch_newgroups_tok(tok, buf, len)); case AUT_IN_ADDR: return (fetch_inaddr_tok(tok, buf, len)); case AUT_IN_ADDR_EX: return (fetch_inaddr_ex_tok(tok, buf, len)); case AUT_IP: return (fetch_ip_tok(tok, buf, len)); case AUT_IPC: return (fetch_ipc_tok(tok, buf, len)); case AUT_IPC_PERM: return (fetch_ipcperm_tok(tok, buf, len)); case AUT_IPORT: return (fetch_iport_tok(tok, buf, len)); case AUT_OPAQUE: return (fetch_opaque_tok(tok, buf, len)); case AUT_PATH: return (fetch_path_tok(tok, buf, len)); case AUT_PROCESS32: return (fetch_process32_tok(tok, buf, len)); case AUT_PROCESS32_EX: return (fetch_process32ex_tok(tok, buf, len)); case AUT_PROCESS64: return (fetch_process64_tok(tok, buf, len)); case AUT_PROCESS64_EX: return (fetch_process64ex_tok(tok, buf, len)); case AUT_RETURN32: return (fetch_return32_tok(tok, buf, len)); case AUT_RETURN64: return (fetch_return64_tok(tok, buf, len)); case AUT_SEQ: return (fetch_seq_tok(tok, buf, len)); case AUT_SOCKET: return (fetch_socket_tok(tok, buf, len)); case AUT_SOCKINET32: return (fetch_sock_inet32_tok(tok, buf, len)); case AUT_SOCKUNIX: return (fetch_sock_unix_tok(tok, buf, len)); case AUT_SOCKINET128: return (fetch_sock_inet128_tok(tok, buf, len)); case AUT_SUBJECT32: return (fetch_subject32_tok(tok, buf, len)); case AUT_SUBJECT32_EX: return (fetch_subject32ex_tok(tok, buf, len)); case AUT_SUBJECT64: return (fetch_subject64_tok(tok, buf, len)); case AUT_SUBJECT64_EX: return (fetch_subject64ex_tok(tok, buf, len)); case AUT_TEXT: return (fetch_text_tok(tok, buf, len)); case AUT_SOCKET_EX: return (fetch_socketex32_tok(tok, buf, len)); case AUT_DATA: return (fetch_arb_tok(tok, buf, len)); case AUT_ZONENAME: return (fetch_zonename_tok(tok, buf, len)); case AUT_UPRIV: return (fetch_priv_tok(tok, buf, len)); case AUT_PRIV: return (fetch_privset_tok(tok, buf, len)); default: return (fetch_invalid_tok(tok, buf, len)); } } void au_print_flags_tok(FILE *outfp, tokenstr_t *tok, char *del, int oflags) { switch(tok->id) { case AUT_HEADER32: print_header32_tok(outfp, tok, del, oflags); return; case AUT_HEADER32_EX: print_header32_ex_tok(outfp, tok, del, oflags); return; case AUT_HEADER64: print_header64_tok(outfp, tok, del, oflags); return; case AUT_HEADER64_EX: print_header64_ex_tok(outfp, tok, del, oflags); return; case AUT_TRAILER: print_trailer_tok(outfp, tok, del, oflags); return; case AUT_ARG32: print_arg32_tok(outfp, tok, del, oflags); return; case AUT_ARG64: print_arg64_tok(outfp, tok, del, oflags); return; case AUT_DATA: print_arb_tok(outfp, tok, del, oflags); return; case AUT_ATTR32: print_attr32_tok(outfp, tok, del, oflags); return; case AUT_ATTR64: print_attr64_tok(outfp, tok, del, oflags); return; case AUT_EXIT: print_exit_tok(outfp, tok, del, oflags); return; case AUT_EXEC_ARGS: print_execarg_tok(outfp, tok, del, oflags); return; case AUT_EXEC_ENV: print_execenv_tok(outfp, tok, del, oflags); return; case AUT_OTHER_FILE32: print_file_tok(outfp, tok, del, oflags); return; case AUT_NEWGROUPS: print_newgroups_tok(outfp, tok, del, oflags); return; case AUT_IN_ADDR: print_inaddr_tok(outfp, tok, del, oflags); return; case AUT_IN_ADDR_EX: print_inaddr_ex_tok(outfp, tok, del, oflags); return; case AUT_IP: print_ip_tok(outfp, tok, del, oflags); return; case AUT_IPC: print_ipc_tok(outfp, tok, del, oflags); return; case AUT_IPC_PERM: print_ipcperm_tok(outfp, tok, del, oflags); return; case AUT_IPORT: print_iport_tok(outfp, tok, del, oflags); return; case AUT_OPAQUE: print_opaque_tok(outfp, tok, del, oflags); return; case AUT_PATH: print_path_tok(outfp, tok, del, oflags); return; case AUT_PROCESS32: print_process32_tok(outfp, tok, del, oflags); return; case AUT_PROCESS32_EX: print_process32ex_tok(outfp, tok, del, oflags); return; case AUT_PROCESS64: print_process64_tok(outfp, tok, del, oflags); return; case AUT_PROCESS64_EX: print_process64ex_tok(outfp, tok, del, oflags); return; case AUT_RETURN32: print_return32_tok(outfp, tok, del, oflags); return; case AUT_RETURN64: print_return64_tok(outfp, tok, del, oflags); return; case AUT_SEQ: print_seq_tok(outfp, tok, del, oflags); return; case AUT_SOCKET: print_socket_tok(outfp, tok, del, oflags); return; case AUT_SOCKINET32: print_sock_inet32_tok(outfp, tok, del, oflags); return; case AUT_SOCKUNIX: print_sock_unix_tok(outfp, tok, del, oflags); return; case AUT_SOCKINET128: print_sock_inet128_tok(outfp, tok, del, oflags); return; case AUT_SUBJECT32: print_subject32_tok(outfp, tok, del, oflags); return; case AUT_SUBJECT64: print_subject64_tok(outfp, tok, del, oflags); return; case AUT_SUBJECT32_EX: print_subject32ex_tok(outfp, tok, del, oflags); return; case AUT_SUBJECT64_EX: print_subject64ex_tok(outfp, tok, del, oflags); return; case AUT_TEXT: print_text_tok(outfp, tok, del, oflags); return; case AUT_SOCKET_EX: print_socketex32_tok(outfp, tok, del, oflags); return; case AUT_ZONENAME: print_zonename_tok(outfp, tok, del, oflags); return; case AUT_UPRIV: print_upriv_tok(outfp, tok, del, oflags); return; case AUT_PRIV: print_privset_tok(outfp, tok, del, oflags); return; default: print_invalid_tok(outfp, tok, del, oflags); } } /* * 'prints' the token out to outfp. */ void au_print_tok(FILE *outfp, tokenstr_t *tok, char *del, char raw, char sfrm) { int oflags = AU_OFLAG_NONE; if (raw) oflags |= AU_OFLAG_RAW; if (sfrm) oflags |= AU_OFLAG_SHORT; au_print_flags_tok(outfp, tok, del, oflags); } /* * 'prints' the token out to outfp in XML format. */ void au_print_tok_xml(FILE *outfp, tokenstr_t *tok, char *del, char raw, char sfrm) { int oflags = AU_OFLAG_XML; if (raw) oflags |= AU_OFLAG_RAW; if (sfrm) oflags |= AU_OFLAG_SHORT; au_print_flags_tok(outfp, tok, del, oflags); } /* * Read a record from the file pointer, store data in buf memory for buf is * also allocated in this function and has to be free'd outside this call. * * au_read_rec() handles two possibilities: a stand-alone file token, or a * complete audit record. * * XXXRW: Note that if we hit an error, we leave the stream in an unusable * state, because it will be partly offset into a record. We should rewind * or do something more intelligent. Particularly interesting is the case * where we perform a partial read of a record from a non-blockable file * descriptor. We should return the partial read and continue...? */ int au_read_rec(FILE *fp, u_char **buf) { u_char *bptr; u_int32_t recsize; u_int32_t bytestoread; u_char type; u_int32_t sec, msec; u_int16_t filenamelen; type = fgetc(fp); switch (type) { case AUT_HEADER32: case AUT_HEADER32_EX: case AUT_HEADER64: case AUT_HEADER64_EX: /* read the record size from the token */ if (fread(&recsize, 1, sizeof(u_int32_t), fp) < sizeof(u_int32_t)) { errno = EINVAL; return (-1); } recsize = be32toh(recsize); /* Check for recsize sanity */ if (recsize < (sizeof(u_int32_t) + sizeof(u_char))) { errno = EINVAL; return (-1); } *buf = calloc(recsize, sizeof(u_char)); if (*buf == NULL) return (-1); bptr = *buf; /* store the token contents already read, back to the buffer*/ *bptr = type; bptr++; be32enc(bptr, recsize); bptr += sizeof(u_int32_t); /* now read remaining record bytes */ bytestoread = recsize - (sizeof(u_int32_t) + sizeof(u_char)); if (fread(bptr, 1, bytestoread, fp) < bytestoread) { free(*buf); errno = EINVAL; return (-1); } break; case AUT_OTHER_FILE32: /* * The file token is variable-length, as it includes a * pathname. As a result, we have to read incrementally * until we know the total length, then allocate space and * read the rest. */ if (fread(&sec, 1, sizeof(sec), fp) < sizeof(sec)) { errno = EINVAL; return (-1); } if (fread(&msec, 1, sizeof(msec), fp) < sizeof(msec)) { errno = EINVAL; return (-1); } if (fread(&filenamelen, 1, sizeof(filenamelen), fp) < sizeof(filenamelen)) { errno = EINVAL; return (-1); } recsize = sizeof(type) + sizeof(sec) + sizeof(msec) + sizeof(filenamelen) + ntohs(filenamelen); *buf = malloc(recsize); if (*buf == NULL) return (-1); bptr = *buf; bcopy(&type, bptr, sizeof(type)); bptr += sizeof(type); bcopy(&sec, bptr, sizeof(sec)); bptr += sizeof(sec); bcopy(&msec, bptr, sizeof(msec)); bptr += sizeof(msec); bcopy(&filenamelen, bptr, sizeof(filenamelen)); bptr += sizeof(filenamelen); if (fread(bptr, 1, ntohs(filenamelen), fp) < ntohs(filenamelen)) { free(*buf); errno = EINVAL; return (-1); } break; default: errno = EINVAL; return (-1); } return (recsize); } diff --git a/usr.sbin/praudit/tests/input/numeric_form b/usr.sbin/praudit/tests/input/numeric_form index 09f089450ac3..144be694f2e4 100644 --- a/usr.sbin/praudit/tests/input/numeric_form +++ b/usr.sbin/praudit/tests/input/numeric_form @@ -1,7 +1,7 @@ header,113,11,socket(2),0,Mon Jun 11 10:18:45 2018, + 380 msec argument,1,0x1c,domain argument,2,0x2,type argument,3,0x0,protocol -subject,root,root,wheel,root,wheel,7053,4724,37636,10.0.2.2 +subject,0,0,0,0,0,7053,4724,37636,10.0.2.2 return,success,3 trailer,113