/*- * SPDX-License-Identifier: BSD-2-Clause * * Copyright (c) 1998, 2001, 2002, Juniper Networks, Inc. * All rights reserved. * * 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. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND 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 THE AUTHOR OR 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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "taclib_private.h" static int add_str_8(struct tac_handle *, u_int8_t *, struct tac_str *); static int add_str_16(struct tac_handle *, u_int16_t *, struct tac_str *); static int protocol_version(int, int, int); static void close_connection(struct tac_handle *); static int conn_server(struct tac_handle *); static void crypt_msg(struct tac_handle *, struct tac_msg *); static void *dup_str(struct tac_handle *, const struct tac_str *, size_t *); static int establish_connection(struct tac_handle *); static void free_str(struct tac_str *); static void generr(struct tac_handle *, const char *, ...) __printflike(2, 3); static void gen_session_id(struct tac_msg *); static int get_srvr_end(struct tac_handle *); static int get_str(struct tac_handle *, const char *, struct tac_str *, size_t); static void init_str(struct tac_str *); static int read_timed(struct tac_handle *, void *, size_t, const struct timeval *); static int recv_msg(struct tac_handle *); static int save_str(struct tac_handle *, struct tac_str *, const void *, size_t); static int send_msg(struct tac_handle *); static int split(char *, char *[], int, char *, size_t); static void *xmalloc(struct tac_handle *, size_t); static char *xstrdup(struct tac_handle *, const char *); static void clear_srvr_avs(struct tac_handle *); static void create_msg(struct tac_handle *, int, int, int); /* * Append some optional data to the current request, and store its * length into the 8-bit field referenced by "fld". Returns 0 on * success, or -1 on failure. * * This function also frees the "cs" string data and initializes it * for the next time. */ static int add_str_8(struct tac_handle *h, u_int8_t *fld, struct tac_str *cs) { u_int16_t len; if (add_str_16(h, &len, cs) == -1) return -1; len = ntohs(len); if (len > 0xff) { generr(h, "Field too long"); return -1; } *fld = len; return 0; } /* * Append some optional data to the current request, and store its * length into the 16-bit field (network byte order) referenced by * "fld". Returns 0 on success, or -1 on failure. * * This function also frees the "cs" string data and initializes it * for the next time. */ static int add_str_16(struct tac_handle *h, u_int16_t *fld, struct tac_str *cs) { size_t len; len = cs->len; if (cs->data == NULL) len = 0; if (len != 0) { int offset; if (len > 0xffff) { generr(h, "Field too long"); return -1; } offset = ntohl(h->request.length); if (offset + len > BODYSIZE) { generr(h, "Message too long"); return -1; } memcpy(h->request.u.body + offset, cs->data, len); h->request.length = htonl(offset + len); } *fld = htons(len); free_str(cs); return 0; } static int protocol_version(int msg_type, int var, int type) { int minor; switch (msg_type) { case TAC_AUTHEN: /* 'var' represents the 'action' */ switch (var) { case TAC_AUTHEN_LOGIN: switch (type) { case TAC_AUTHEN_TYPE_PAP: case TAC_AUTHEN_TYPE_CHAP: case TAC_AUTHEN_TYPE_MSCHAP: case TAC_AUTHEN_TYPE_ARAP: minor = 1; break; default: minor = 0; break; } break; case TAC_AUTHEN_SENDAUTH: minor = 1; break; default: minor = 0; break; }; break; case TAC_AUTHOR: /* 'var' represents the 'method' */ switch (var) { /* * When new authentication methods are added, include 'method' * in determining the value of 'minor'. At this point, all * methods defined in this implementation (see "Authorization * authentication methods" in taclib.h) are minor version 0 * Not all types, however, indicate minor version 0. */ case TAC_AUTHEN_METH_NOT_SET: case TAC_AUTHEN_METH_NONE: case TAC_AUTHEN_METH_KRB5: case TAC_AUTHEN_METH_LINE: case TAC_AUTHEN_METH_ENABLE: case TAC_AUTHEN_METH_LOCAL: case TAC_AUTHEN_METH_TACACSPLUS: case TAC_AUTHEN_METH_RCMD: switch (type) { case TAC_AUTHEN_TYPE_PAP: case TAC_AUTHEN_TYPE_CHAP: case TAC_AUTHEN_TYPE_MSCHAP: case TAC_AUTHEN_TYPE_ARAP: minor = 1; break; default: minor = 0; break; } break; default: minor = 0; break; } break; case TAC_ACCT: default: minor = 0; break; } return TAC_VER_MAJOR << 4 | minor; } static void close_connection(struct tac_handle *h) { if (h->fd != -1) { close(h->fd); h->fd = -1; } } static int conn_server(struct tac_handle *h) { struct tac_server *srvp = &h->servers[h->cur_server]; int flags; if ((h->fd = socket(PF_INET, SOCK_STREAM, IPPROTO_TCP)) == -1) { generr(h, "Cannot create socket: %s", strerror(errno)); return -1; } if ((flags = fcntl(h->fd, F_GETFL, 0)) == -1 || fcntl(h->fd, F_SETFL, flags | O_NONBLOCK) == -1) { generr(h, "Cannot set non-blocking mode on socket: %s", strerror(errno)); close(h->fd); h->fd = -1; return -1; } if (connect(h->fd, (struct sockaddr *)&srvp->addr, sizeof srvp->addr) == 0) return 0; if (errno == EINPROGRESS) { fd_set wfds; struct timeval tv; int nfds; struct sockaddr peer; socklen_t errlen, peerlen; int err; /* Wait for the connection to complete. */ FD_ZERO(&wfds); FD_SET(h->fd, &wfds); tv.tv_sec = srvp->timeout; tv.tv_usec = 0; nfds = select(h->fd + 1, NULL, &wfds, NULL, &tv); if (nfds == -1) { generr(h, "select: %s", strerror(errno)); close(h->fd); h->fd = -1; return -1; } if (nfds == 0) { generr(h, "connect: timed out"); close(h->fd); h->fd = -1; return -1; } /* See whether we are connected now. */ peerlen = sizeof peer; if (getpeername(h->fd, &peer, &peerlen) == 0) return 0; if (errno != ENOTCONN) { generr(h, "getpeername: %s", strerror(errno)); close(h->fd); h->fd = -1; return -1; } /* Find out why the connect failed. */ errlen = sizeof err; getsockopt(h->fd, SOL_SOCKET, SO_ERROR, &err, &errlen); errno = err; } generr(h, "connect: %s", strerror(errno)); close(h->fd); h->fd = -1; return -1; } /* * Encrypt or decrypt a message. The operations are symmetrical. */ static void crypt_msg(struct tac_handle *h, struct tac_msg *msg) { const char *secret; MD5_CTX base_ctx; MD5_CTX ctx; unsigned char md5[16]; int chunk; int msg_len; secret = h->servers[h->cur_server].secret; if (secret[0] == '\0') msg->flags |= TAC_UNENCRYPTED; if (msg->flags & TAC_UNENCRYPTED) return; msg_len = ntohl(msg->length); MD5Init(&base_ctx); MD5Update(&base_ctx, msg->session_id, sizeof msg->session_id); MD5Update(&base_ctx, secret, strlen(secret)); MD5Update(&base_ctx, &msg->version, sizeof msg->version); MD5Update(&base_ctx, &msg->seq_no, sizeof msg->seq_no); ctx = base_ctx; for (chunk = 0; chunk < msg_len; chunk += sizeof md5) { int chunk_len; int i; MD5Final(md5, &ctx); if ((chunk_len = msg_len - chunk) > sizeof md5) chunk_len = sizeof md5; for (i = 0; i < chunk_len; i++) msg->u.body[chunk + i] ^= md5[i]; ctx = base_ctx; MD5Update(&ctx, md5, sizeof md5); } } /* * Return a dynamically allocated copy of the given server string. * The copy is null-terminated. If "len" is non-NULL, the length of * the string (excluding the terminating null byte) is stored via it. * Returns NULL on failure. Empty strings are still allocated even * though they have no content. */ static void * dup_str(struct tac_handle *h, const struct tac_str *ss, size_t *len) { unsigned char *p; if ((p = (unsigned char *)xmalloc(h, ss->len + 1)) == NULL) return NULL; if (ss->data != NULL && ss->len != 0) memcpy(p, ss->data, ss->len); p[ss->len] = '\0'; if (len != NULL) *len = ss->len; return p; } static int establish_connection(struct tac_handle *h) { int i; if (h->fd >= 0) /* Already connected. */ return 0; if (h->num_servers == 0) { generr(h, "No TACACS+ servers specified"); return -1; } /* * Try the servers round-robin. We begin with the one that * worked for us the last time. That way, once we find a good * server, we won't waste any more time trying the bad ones. */ for (i = 0; i < h->num_servers; i++) { if (conn_server(h) == 0) { h->single_connect = (h->servers[h->cur_server].flags & TAC_SRVR_SINGLE_CONNECT) != 0; return 0; } if (++h->cur_server >= h->num_servers) /* Wrap around */ h->cur_server = 0; } /* Just return whatever error was last reported by conn_server(). */ return -1; } /* * Free a client string, obliterating its contents first for security. */ static void free_str(struct tac_str *cs) { if (cs->data != NULL) { memset_s(cs->data, cs->len, 0, cs->len); free(cs->data); cs->data = NULL; cs->len = 0; } } static void generr(struct tac_handle *h, const char *format, ...) { va_list ap; va_start(ap, format); vsnprintf(h->errmsg, ERRSIZE, format, ap); va_end(ap); } static void gen_session_id(struct tac_msg *msg) { int r; r = arc4random(); msg->session_id[0] = r >> 8; msg->session_id[1] = r; r = arc4random(); msg->session_id[2] = r >> 8; msg->session_id[3] = r; } /* * Verify that we are exactly at the end of the response message. * Returns 0 on success, -1 on failure. */ static int get_srvr_end(struct tac_handle *h) { int len; len = ntohl(h->response.length); if (h->srvr_pos != len) { generr(h, "Invalid length field in response " "from server: end expected at %u, response length %u", h->srvr_pos, len); return -1; } return 0; } static int get_str(struct tac_handle *h, const char *field, struct tac_str *ss, size_t len) { if (h->srvr_pos + len > ntohl(h->response.length)) { generr(h, "Invalid length field in %s response from server " "(%lu > %lu)", field, (u_long)(h->srvr_pos + len), (u_long)ntohl(h->response.length)); return -1; } ss->data = len != 0 ? h->response.u.body + h->srvr_pos : NULL; ss->len = len; h->srvr_pos += len; return 0; } static void init_str(struct tac_str *cs) { cs->data = NULL; cs->len = 0; } static int read_timed(struct tac_handle *h, void *buf, size_t len, const struct timeval *deadline) { char *ptr; ptr = (char *)buf; while (len > 0) { int n; n = read(h->fd, ptr, len); if (n == -1) { struct timeval tv; int nfds; if (errno != EAGAIN) { generr(h, "Network read error: %s", strerror(errno)); return -1; } /* Wait until we can read more data. */ gettimeofday(&tv, NULL); timersub(deadline, &tv, &tv); if (tv.tv_sec >= 0) { fd_set rfds; FD_ZERO(&rfds); FD_SET(h->fd, &rfds); nfds = select(h->fd + 1, &rfds, NULL, NULL, &tv); if (nfds == -1) { generr(h, "select: %s", strerror(errno)); return -1; } } else nfds = 0; if (nfds == 0) { generr(h, "Network read timed out"); return -1; } } else if (n == 0) { generr(h, "unexpected EOF from server"); return -1; } else { ptr += n; len -= n; } } return 0; } /* * Receive a response from the server and decrypt it. Returns 0 on * success, or -1 on failure. */ static int recv_msg(struct tac_handle *h) { struct timeval deadline; struct tac_msg *msg; u_int32_t len; msg = &h->response; gettimeofday(&deadline, NULL); deadline.tv_sec += h->servers[h->cur_server].timeout; /* Read the message header and make sure it is reasonable. */ if (read_timed(h, msg, HDRSIZE, &deadline) == -1) return -1; if (memcmp(msg->session_id, h->request.session_id, sizeof msg->session_id) != 0) { generr(h, "Invalid session ID in received message"); return -1; } if (msg->type != h->request.type) { generr(h, "Invalid type in received message" " (got %u, expected %u)", msg->type, h->request.type); return -1; } len = ntohl(msg->length); if (len > BODYSIZE) { generr(h, "Received message too large (%u > %u)", len, BODYSIZE); return -1; } if (msg->seq_no != ++h->last_seq_no) { generr(h, "Invalid sequence number in received message" " (got %u, expected %u)", msg->seq_no, h->last_seq_no); return -1; } /* Read the message body. */ if (read_timed(h, msg->u.body, len, &deadline) == -1) return -1; /* Decrypt it. */ crypt_msg(h, msg); /* * Turn off single-connection mode if the server isn't amenable * to it. */ if (!(msg->flags & TAC_SINGLE_CONNECT)) h->single_connect = 0; return 0; } static int save_str(struct tac_handle *h, struct tac_str *cs, const void *data, size_t len) { free_str(cs); if (data != NULL && len != 0) { if ((cs->data = xmalloc(h, len)) == NULL) return -1; cs->len = len; memcpy(cs->data, data, len); } return 0; } /* * Send the current request, after encrypting it. Returns 0 on success, * or -1 on failure. */ static int send_msg(struct tac_handle *h) { struct timeval deadline; struct tac_msg *msg; char *ptr; int len; if (h->last_seq_no & 1) { generr(h, "Attempt to send message out of sequence"); return -1; } if (establish_connection(h) == -1) return -1; msg = &h->request; msg->seq_no = ++h->last_seq_no; if (msg->seq_no == 1) gen_session_id(msg); crypt_msg(h, msg); if (h->single_connect) msg->flags |= TAC_SINGLE_CONNECT; else msg->flags &= ~TAC_SINGLE_CONNECT; gettimeofday(&deadline, NULL); deadline.tv_sec += h->servers[h->cur_server].timeout; len = HDRSIZE + ntohl(msg->length); ptr = (char *)msg; while (len > 0) { int n; n = write(h->fd, ptr, len); if (n == -1) { struct timeval tv; int nfds; if (errno != EAGAIN) { generr(h, "Network write error: %s", strerror(errno)); return -1; } /* Wait until we can write more data. */ gettimeofday(&tv, NULL); timersub(&deadline, &tv, &tv); if (tv.tv_sec >= 0) { fd_set wfds; FD_ZERO(&wfds); FD_SET(h->fd, &wfds); nfds = select(h->fd + 1, NULL, &wfds, NULL, &tv); if (nfds == -1) { generr(h, "select: %s", strerror(errno)); return -1; } } else nfds = 0; if (nfds == 0) { generr(h, "Network write timed out"); return -1; } } else { ptr += n; len -= n; } } return 0; } static int tac_add_server_av(struct tac_handle *h, const char *host, int port, const char *secret, int timeout, int flags, const char *const *avs) { struct tac_server *srvp; const char *p; size_t len; int i; if (h->num_servers >= MAXSERVERS) { generr(h, "Too many TACACS+ servers specified"); return -1; } srvp = &h->servers[h->num_servers]; memset(&srvp->addr, 0, sizeof srvp->addr); srvp->addr.sin_len = sizeof srvp->addr; srvp->addr.sin_family = AF_INET; if (!inet_aton(host, &srvp->addr.sin_addr)) { struct hostent *hent; if ((hent = gethostbyname(host)) == NULL) { generr(h, "%s: host not found", host); return -1; } memcpy(&srvp->addr.sin_addr, hent->h_addr, sizeof srvp->addr.sin_addr); } srvp->addr.sin_port = htons(port != 0 ? port : TACPLUS_PORT); if ((srvp->secret = xstrdup(h, secret)) == NULL) return -1; srvp->timeout = timeout; srvp->flags = flags; srvp->navs = 0; for (i = 0; avs[i] != NULL; i++) { if (i >= MAXAVPAIRS) { generr(h, "too many AV pairs"); goto fail; } for (p = avs[i], len = 0; is_arg(*p); p++) len++; if (p == avs[i] || *p != '=') { generr(h, "invalid AV pair %d", i); goto fail; } while (*p++ != '\0') len++; if ((srvp->avs[i].data = xstrdup(h, avs[i])) == NULL) goto fail; srvp->avs[i].len = len; srvp->navs++; } h->num_servers++; return 0; fail: memset_s(srvp->secret, strlen(srvp->secret), 0, strlen(srvp->secret)); free(srvp->secret); srvp->secret = NULL; for (i = 0; i < srvp->navs; i++) { free(srvp->avs[i].data); srvp->avs[i].data = NULL; srvp->avs[i].len = 0; } return -1; } int tac_add_server(struct tac_handle *h, const char *host, int port, const char *secret, int timeout, int flags) { const char *const *avs = { NULL }; return tac_add_server_av(h, host, port, secret, timeout, flags, avs); } void tac_close(struct tac_handle *h) { int i, srv; if (h->fd != -1) close(h->fd); for (srv = 0; srv < h->num_servers; srv++) { memset(h->servers[srv].secret, 0, strlen(h->servers[srv].secret)); free(h->servers[srv].secret); } free_str(&h->user); free_str(&h->port); free_str(&h->rem_addr); free_str(&h->data); free_str(&h->user_msg); for (i=0; iavs[i])); /* Clear everything else before freeing memory */ memset(h, 0, sizeof(struct tac_handle)); free(h); } static void freev(char **fields, int nfields) { if (fields != NULL) { while (nfields-- > 0) free(fields[nfields]); free(fields); } } int tac_config(struct tac_handle *h, const char *path) { FILE *fp; char **fields; int linenum, nfields; int retval; if (path == NULL) path = PATH_TACPLUS_CONF; if ((fp = fopen(path, "r")) == NULL) { generr(h, "Cannot open \"%s\": %s", path, strerror(errno)); return -1; } retval = 0; linenum = nfields = 0; fields = NULL; while ((fields = openpam_readlinev(fp, &linenum, &nfields)) != NULL) { char *host, *res; char *port_str; char *secret; char *timeout_str; char *end; unsigned long timeout; int port; int options; int i; if (nfields == 0) { freev(fields, nfields); continue; } if (nfields < 2) { generr(h, "%s:%d: missing shared secret", path, linenum); retval = -1; break; } host = fields[0]; secret = fields[1]; /* Parse and validate the fields. */ res = host; host = strsep(&res, ":"); port_str = strsep(&res, ":"); if (port_str != NULL) { port = strtoul(port_str, &end, 10); if (port_str[0] == '\0' || *end != '\0') { generr(h, "%s:%d: invalid port", path, linenum); retval = -1; break; } } else port = 0; i = 2; if (nfields > i && strlen(fields[i]) > 0 && strspn(fields[i], "0123456789") == strlen(fields[i])) { timeout_str = fields[i]; timeout = strtoul(timeout_str, &end, 10); if (timeout_str[0] == '\0' || *end != '\0') { generr(h, "%s:%d: invalid timeout", path, linenum); retval = -1; break; } i++; } else timeout = TIMEOUT; options = 0; if (nfields > i && strcmp(fields[i], "single-connection") == 0) { options |= TAC_SRVR_SINGLE_CONNECT; i++; } if (tac_add_server_av(h, host, port, secret, timeout, options, (const char *const *)(fields + i)) == -1) { char msg[ERRSIZE]; strcpy(msg, h->errmsg); generr(h, "%s:%d: %s", path, linenum, msg); retval = -1; break; } memset_s(secret, strlen(secret), 0, strlen(secret)); freev(fields, nfields); } freev(fields, nfields); fclose(fp); return retval; } int tac_create_authen(struct tac_handle *h, int action, int type, int service) { struct tac_authen_start *as; create_msg(h, TAC_AUTHEN, action, type); as = &h->request.u.authen_start; as->action = action; as->priv_lvl = TAC_PRIV_LVL_USER; as->authen_type = type; as->service = service; return 0; } int tac_create_author(struct tac_handle *h, int method, int type, int service) { struct tac_author_request *areq; create_msg(h, TAC_AUTHOR, method, type); areq = &h->request.u.author_request; areq->authen_meth = method; areq->priv_lvl = TAC_PRIV_LVL_USER; areq->authen_type = type; areq->service = service; return 0; } int tac_create_acct(struct tac_handle *h, int acct, int action, int type, int service) { struct tac_acct_start *as; create_msg(h, TAC_ACCT, action, type); as = &h->request.u.acct_start; as->action = acct; as->authen_action = action; as->priv_lvl = TAC_PRIV_LVL_USER; as->authen_type = type; as->authen_service = service; return 0; } static void create_msg(struct tac_handle *h, int msg_type, int var, int type) { struct tac_msg *msg; int i; h->last_seq_no = 0; msg = &h->request; msg->type = msg_type; msg->version = protocol_version(msg_type, var, type); msg->flags = 0; /* encrypted packet body */ free_str(&h->user); free_str(&h->port); free_str(&h->rem_addr); free_str(&h->data); free_str(&h->user_msg); for (i=0; iavs[i])); } void * tac_get_data(struct tac_handle *h, size_t *len) { return dup_str(h, &h->srvr_data, len); } char * tac_get_msg(struct tac_handle *h) { return dup_str(h, &h->srvr_msg, NULL); } /* * Create and initialize a tac_handle structure, and return it to the * caller. Can fail only if the necessary memory cannot be allocated. * In that case, it returns NULL. */ struct tac_handle * tac_open(void) { int i; struct tac_handle *h; h = (struct tac_handle *)malloc(sizeof(struct tac_handle)); if (h != NULL) { h->fd = -1; h->num_servers = 0; h->cur_server = 0; h->errmsg[0] = '\0'; init_str(&h->user); init_str(&h->port); init_str(&h->rem_addr); init_str(&h->data); init_str(&h->user_msg); for (i=0; iavs[i])); init_str(&(h->srvr_avs[i])); } init_str(&h->srvr_msg); init_str(&h->srvr_data); } return h; } int tac_send_authen(struct tac_handle *h) { struct tac_authen_reply *ar; if (h->num_servers == 0) return -1; if (h->last_seq_no == 0) { /* Authentication START packet */ struct tac_authen_start *as; as = &h->request.u.authen_start; h->request.length = htonl(offsetof(struct tac_authen_start, rest[0])); if (add_str_8(h, &as->user_len, &h->user) == -1 || add_str_8(h, &as->port_len, &h->port) == -1 || add_str_8(h, &as->rem_addr_len, &h->rem_addr) == -1 || add_str_8(h, &as->data_len, &h->data) == -1) return -1; } else { /* Authentication CONTINUE packet */ struct tac_authen_cont *ac; ac = &h->request.u.authen_cont; ac->flags = 0; h->request.length = htonl(offsetof(struct tac_authen_cont, rest[0])); if (add_str_16(h, &ac->user_msg_len, &h->user_msg) == -1 || add_str_16(h, &ac->data_len, &h->data) == -1) return -1; } /* Send the message and retrieve the reply. */ if (send_msg(h) == -1 || recv_msg(h) == -1) return -1; /* Scan the optional fields in the reply. */ ar = &h->response.u.authen_reply; h->srvr_pos = offsetof(struct tac_authen_reply, rest[0]); if (get_str(h, "msg", &h->srvr_msg, ntohs(ar->msg_len)) == -1 || get_str(h, "data", &h->srvr_data, ntohs(ar->data_len)) == -1 || get_srvr_end(h) == -1) return -1; if (!h->single_connect && ar->status != TAC_AUTHEN_STATUS_GETDATA && ar->status != TAC_AUTHEN_STATUS_GETUSER && ar->status != TAC_AUTHEN_STATUS_GETPASS) close_connection(h); return ar->flags << 8 | ar->status; } int tac_send_author(struct tac_handle *h) { int i, current; char dbgstr[64]; struct tac_author_request *areq = &h->request.u.author_request; struct tac_author_response *ares = &h->response.u.author_response; struct tac_server *srvp; h->request.length = htonl(offsetof(struct tac_author_request, rest[0])); /* Count each specified AV pair */ for (areq->av_cnt=0, i=0; iavs[i].len && h->avs[i].data) areq->av_cnt++; /* * Each AV size is a byte starting right after 'av_cnt'. Update the * offset to include these AV sizes. */ h->request.length = ntohl(htonl(h->request.length) + areq->av_cnt); /* Now add the string arguments from 'h' */ if (add_str_8(h, &areq->user_len, &h->user) == -1 || add_str_8(h, &areq->port_len, &h->port) == -1 || add_str_8(h, &areq->rem_addr_len, &h->rem_addr) == -1) return -1; /* Add each AV pair, the size of each placed in areq->rest[current] */ for (current=0, i=0; iavs[i].len && h->avs[i].data) { if (add_str_8(h, &areq->rest[current++], &(h->avs[i])) == -1) return -1; } } /* Send the message and retrieve the reply. */ if (send_msg(h) == -1 || recv_msg(h) == -1) return -1; srvp = &h->servers[h->cur_server]; /* Update the offset in the response packet based on av pairs count */ h->srvr_pos = offsetof(struct tac_author_response, rest[0]) + ares->av_cnt; /* Scan the optional fields in the response. */ if (get_str(h, "msg", &h->srvr_msg, ntohs(ares->msg_len)) == -1 || get_str(h, "data", &h->srvr_data, ntohs(ares->data_len)) ==-1) return -1; /* Get each AV pair (just setting pointers, not malloc'ing) */ clear_srvr_avs(h); for (i=0; iav_cnt; i++) { snprintf(dbgstr, sizeof dbgstr, "av-pair-%d", i); if (get_str(h, dbgstr, &(h->srvr_avs[i]), ares->rest[i]) == -1) return -1; h->srvr_navs++; } /* Should have ended up at the end */ if (get_srvr_end(h) == -1) return -1; /* Sanity checks */ if (!h->single_connect) close_connection(h); return (h->srvr_navs + srvp->navs) << 8 | ares->status; } int tac_send_acct(struct tac_handle *h) { register int i, current; struct tac_acct_start *as = &h->request.u.acct_start; struct tac_acct_reply *ar = &h->response.u.acct_reply; /* start */ as = &h->request.u.acct_start; h->request.length = htonl(offsetof(struct tac_acct_start, rest[0])); for (as->av_cnt = 0, i = 0; i < MAXAVPAIRS; i++) if (h->avs[i].len && h->avs[i].data) as->av_cnt++; h->request.length = ntohl(htonl(h->request.length) + as->av_cnt); if (add_str_8(h, &as->user_len, &h->user) == -1 || add_str_8(h, &as->port_len, &h->port) == -1 || add_str_8(h, &as->rem_addr_len, &h->rem_addr) == -1) return -1; for (i = current = 0; i < MAXAVPAIRS; i++) if (h->avs[i].len && h->avs[i].data) if (add_str_8(h, &as->rest[current++], &(h->avs[i])) == -1) return -1; /* send */ if (send_msg(h) == -1 || recv_msg(h) == -1) return -1; /* reply */ h->srvr_pos = offsetof(struct tac_acct_reply, rest[0]); if (get_str(h, "msg", &h->srvr_msg, ntohs(ar->msg_len)) == -1 || get_str(h, "data", &h->srvr_data, ntohs(ar->data_len)) == -1 || get_srvr_end(h) == -1) return -1; /* Sanity checks */ if (!h->single_connect) close_connection(h); return ar->status; } int tac_set_rem_addr(struct tac_handle *h, const char *addr) { return save_str(h, &h->rem_addr, addr, addr != NULL ? strlen(addr) : 0); } int tac_set_data(struct tac_handle *h, const void *data, size_t data_len) { return save_str(h, &h->data, data, data_len); } int tac_set_msg(struct tac_handle *h, const char *msg) { return save_str(h, &h->user_msg, msg, msg != NULL ? strlen(msg) : 0); } int tac_set_port(struct tac_handle *h, const char *port) { return save_str(h, &h->port, port, port != NULL ? strlen(port) : 0); } int tac_set_priv(struct tac_handle *h, int priv) { if (!(TAC_PRIV_LVL_MIN <= priv && priv <= TAC_PRIV_LVL_MAX)) { generr(h, "Attempt to set invalid privilege level"); return -1; } h->request.u.authen_start.priv_lvl = priv; return 0; } int tac_set_user(struct tac_handle *h, const char *user) { return save_str(h, &h->user, user, user != NULL ? strlen(user) : 0); } int tac_set_av(struct tac_handle *h, u_int index, const char *av) { if (index >= MAXAVPAIRS) return -1; return save_str(h, &(h->avs[index]), av, av != NULL ? strlen(av) : 0); } char * tac_get_av(struct tac_handle *h, u_int index) { struct tac_server *srvp; if (index < h->srvr_navs) return dup_str(h, &h->srvr_avs[index], NULL); index -= h->srvr_navs; srvp = &h->servers[h->cur_server]; if (index < srvp->navs) return xstrdup(h, srvp->avs[index].data); return NULL; } char * tac_get_av_value(struct tac_handle *h, const char *attribute) { int i, attr_len; int found_seperator; char *ch, *end; struct tac_str *candidate; struct tac_str value; struct tac_server *srvp = &h->servers[h->cur_server]; if (attribute == NULL || (attr_len = strlen(attribute)) == 0) return NULL; for (i = 0; i < h->srvr_navs + srvp->navs; i++) { if (i < h->srvr_navs) candidate = &h->srvr_avs[i]; else candidate = &srvp->avs[i - h->srvr_navs]; if (attr_len < candidate->len && strncmp(candidate->data, attribute, attr_len) == 0) { ch = candidate->data + attr_len; end = candidate->data + candidate->len; /* * Sift out the white space between A and V (should not * be any, but don't trust implementation of server...) */ found_seperator = 0; while ((*ch == '=' || *ch == '*' || *ch == ' ' || *ch == '\t') && ch != end) { if (*ch == '=' || *ch == '*') found_seperator++; ch++; } /* * Note: * The case of 'attribute' == "foo" and * h->srvr_avs[0] = "foobie=var1" * h->srvr_avs[1] = "foo=var2" * is handled. * * Note that for empty string attribute values a * 0-length string is returned in order to distinguish * against unset values. * dup_str() will handle srvr.len == 0 correctly. */ if (found_seperator == 1) { value.len = end - ch; value.data = ch; return dup_str(h, &value, NULL); } } } return NULL; } void tac_clear_avs(struct tac_handle *h) { int i; for (i=0; iavs[i]), NULL, 0); } static void clear_srvr_avs(struct tac_handle *h) { int i; for (i = 0; i < h->srvr_navs; i++) init_str(&(h->srvr_avs[i])); h->srvr_navs = 0; } const char * tac_strerror(struct tac_handle *h) { return h->errmsg; } static void * xmalloc(struct tac_handle *h, size_t size) { void *r; if ((r = malloc(size)) == NULL) generr(h, "Out of memory"); return r; } static char * xstrdup(struct tac_handle *h, const char *s) { char *r; if ((r = strdup(s)) == NULL) generr(h, "Out of memory"); return r; }