/* Copyright (c) 1995-1998 by Cisco systems, Inc. Permission to use, copy, modify, and distribute this software for any purpose and without fee is hereby granted, provided that this copyright and permission notice appear on all copies of the software and supporting documentation, the name of Cisco Systems, Inc. not be used in advertising or publicity pertaining to distribution of the program without specific prior permission, and notice be given in supporting documentation that modification, copying and distribution is by permission of Cisco Systems, Inc. Cisco Systems, Inc. makes no representations about the suitability of this software for any purpose. THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. */ #include "tac_plus.h" #include #include #include "do_author.h" #include "tac_regexp.h" #include "cfgfile.h" #include "report.h" #include "utils.h" #include "programs.h" #include "main.h" #include "parse.h" #include "cfgeval.h" #ifdef MAXSESS #include "maxsess.h" #endif #ifdef USE_PAM #include "tac_pam.h" #endif static int pre_authorization TAC_ARGS((const char *username, struct author_data *data)); static int get_nas_svc TAC_ARGS((struct author_data *data, char **cmdname, char **protocol, char **svcname)); static int authorize_cmd TAC_ARGS((const char *user, const char *cmd, struct author_data *data)); static int authorize_exec TAC_ARGS((const char *user, struct author_data *data)); static int authorize_svc TAC_ARGS((const char *user, int svc, const char *protocol, const char *svcname, struct author_data *data)); static void post_authorization TAC_ARGS((const char *username, struct author_data *data)); int do_author TAC_ARGS((struct author_data *data)); /* Return 0 is data->status is valid */ int do_author(data) struct author_data *data; { char *username = data->id->username; int status; int svc; char *cmd, *protocol, *svcname; #ifdef USE_PAM const char *pam_service= NULL; #endif protocol = NULL; data->status = AUTHOR_STATUS_FAIL; /* for safety */ data->output_args = NULL; data->num_out_args = 0; /* If this user doesn't exist in our configs, do the default */ if (!cfg_user_exists(username)) { if (!cfg_user_exists(DEFAULT_USERNAME)) { if (cfg_no_user_permitted()) { if (debug & DEBUG_AUTHOR_FLAG) report(LOG_DEBUG, "user '%s' or '%s' not found, permitted by default", username, DEFAULT_USERNAME); data->status = AUTHOR_STATUS_PASS_ADD; data->output_args = NULL; data->num_out_args = 0; return (0); } if (debug & DEBUG_AUTHOR_FLAG) report(LOG_DEBUG, "user '%s' or '%s' not found, denied by default", username, DEFAULT_USERNAME); data->status = AUTHOR_STATUS_FAIL; return (0); } /* assumed (cfg_user_exists(DEFAULT_USERNAME)): */ if (debug & DEBUG_AUTHOR_FLAG) { report(LOG_DEBUG, "Authorizing user '%s' instead of '%s'", DEFAULT_USERNAME, username); } username = DEFAULT_USERNAME; } /* See if there's a program defined which will do authorization for us */ if (pre_authorization(username, data)) return(0); /* * Decide what kind of authorization request this is. Currently * one of: exec, cmd, slip, arap, ppp or * * If it's a command typed to the exec, return its text in cmd. * * If it's a ppp request, return the protocol name in protocol. */ svc = get_nas_svc(data, &cmd, &protocol, &svcname); if (!svc) { /* if we can't identify the service in the request it's an error */ data->status = AUTHOR_STATUS_ERROR; data->admin_msg = tac_strdup("No identifiable service/protocol in authorization request"); if (debug & DEBUG_AUTHOR_FLAG) { report(LOG_DEBUG, "user %s %s", username, data->admin_msg); } return (0); } if (debug & DEBUG_AUTHOR_FLAG) report(LOG_DEBUG, "user '%s' found", username); #ifdef MAXSESS /* Never permit if they're going over their session limit */ switch (svc) { case N_svc_arap: case N_svc_ppp: case N_svc_slip: case N_svc_exec: /* case N_svc: */ if (maxsess_check_count(username, data)) { return(0); } default: break; } #endif /* MAXSESS */ #ifdef USE_PAM /* Check PAM Authorization */ switch (svc) { case N_svc_ppp: case N_svc_exec: if ((pam_service = cfg_get_pam_service(data->id->username, TAC_PLUS_RECURSE) )) { if (debug & DEBUG_AUTHOR_FLAG) report(LOG_DEBUG, "PAM Authorization begin for user %s",data->id->username); if (tac_pam_authorization(data->id->username, data, pam_service)) { if (debug & DEBUG_AUTHOR_FLAG) report(LOG_DEBUG, "PAM Authorization Fail"); return(0); } } /* Pam_service */ default: break; } #endif switch(svc) { default: report(LOG_ERR, "%s: Bad service type %d", session.peer, svc); data->status = AUTHOR_STATUS_FAIL; return(0); case N_svc_cmd: /* A command authorisation request */ status = authorize_cmd(username, cmd, data); break; case N_svc_exec: if (authorize_exec(username, data)) return(0); /* FALLTHRU */ case N_svc_arap: case N_svc_ppp: case N_svc_slip: status = authorize_svc(username, svc, protocol, NULL, data); break; case N_svc: status = authorize_svc(username, svc, protocol, svcname, data); break; } post_authorization(username, data); return(status); } /* If an before-authorization program has been specified, call it. A return value of 1 means no further authorization is required */ static int pre_authorization TAC_ARGS((const char *username, struct author_data *data)); static int pre_authorization(username, data) const char *username; struct author_data *data; { int status; char **out_args; int out_cnt, i; const char *cmd; char error_str[255]; int error_len = 255; out_cnt = 0; out_args = NULL; /* If a before-authorization program exists, call it to see how to proceed */ cmd = cfg_get_pvalue(S_user, username, S_before, TAC_PLUS_RECURSE); if (!cmd) return(0); if (debug & DEBUG_AUTHOR_FLAG) report(LOG_DEBUG, "Before authorization call: %s", cmd); status = call_pre_process(cmd, data, &out_args, &out_cnt, error_str, error_len); switch (status) { default: if (debug & DEBUG_AUTHOR_FLAG) report(LOG_DEBUG, "cmd %s returns %d (unrecognised value)", cmd, status); data->status = AUTHOR_STATUS_ERROR; data->admin_msg = tac_strdup("Illegal return status from pre-authorization command"); data->msg = tac_strdup(error_str); data->num_out_args = 0; data->output_args = NULL; /* throw away out_args */ for(i=0; i < out_cnt; i++) { free(out_args[i]); } if (out_args) { free(out_args); } return(1); case 0: /* Permit */ if (debug & DEBUG_AUTHOR_FLAG) report(LOG_DEBUG, "cmd %s returns 0 (unconditional permit)", cmd); data->status = AUTHOR_STATUS_PASS_ADD; data->num_out_args = 0; data->output_args = NULL; /* throw away out_args */ for(i=0; i < out_cnt; i++) { free(out_args[i]); } if (out_args) { free(out_args); } return(1); case 1: /* Deny */ if (debug & DEBUG_AUTHOR_FLAG) report(LOG_DEBUG, "cmd %s returns %d (unconditional deny)", cmd, status); data->status = AUTHOR_STATUS_FAIL; data->msg = tac_strdup(error_str); data->num_out_args = 0; data->output_args = NULL; /* throw away out_args */ for(i=0; i < out_cnt; i++) { free(out_args[i]); } if (out_args) { free(out_args); } return(1); case 2: /* Use replacement AV pairs from program as final result */ if (debug & DEBUG_AUTHOR_FLAG) { report(LOG_DEBUG, "cmd %s returns %d (permitted, args replaced)", cmd, status); for(i=0; i < out_cnt; i++) report(LOG_DEBUG, "%s", out_args[i]); } /* and install the new set of AV pairs as output */ data->output_args = out_args; data->num_out_args = out_cnt; data->status = AUTHOR_STATUS_PASS_REPL; return(1); /* no more processing required */ case 3: /* deny, but return attributes and server-msg to NAS */ if (debug & DEBUG_AUTHOR_FLAG) { report(LOG_DEBUG, "cmd %s returns %d (deny, args replaced)", cmd, status); for(i=0; i < out_cnt; i++) report(LOG_DEBUG, "%s", out_args[i]); } /* and install the new set of AV pairs as output */ data->output_args = out_args; data->num_out_args = out_cnt; data->msg = tac_strdup(error_str); data->status = AUTHOR_STATUS_FAIL; return(1); /* no more processing required */ } } /* If an after-authorization program has been specified, call it. It can rewrite the output arguments in the authorization data, or change the authorization status by calling an external program. */ static void post_authorization TAC_ARGS((const char *username, struct author_data *data)); static void post_authorization(username, data) const char *username; struct author_data *data; { char **out_args; int out_cnt, i; int status; const char *after = cfg_get_pvalue(S_user, username, S_after, TAC_PLUS_RECURSE); if (!after) return; if (debug & DEBUG_AUTHOR_FLAG) report(LOG_DEBUG, "After authorization call: %s", after); status = call_post_process(after, data, &out_args, &out_cnt); if (status != 2) { /* throw away out_args */ for(i=0; i < out_cnt; i++) { free(out_args[i]); } free(out_args); } switch (status) { default: if (debug & DEBUG_AUTHOR_FLAG) report(LOG_DEBUG, "cmd %s returns %d (Error)", after, status); data->status = AUTHOR_STATUS_ERROR; return; case 0: /* Permit */ if (debug & DEBUG_AUTHOR_FLAG) report(LOG_DEBUG, "cmd %s returns 0 (no change)", after); return; case 1: /* Deny */ if (debug & DEBUG_AUTHOR_FLAG) report(LOG_DEBUG, "cmd %s returns %d (unconditional deny)", after, status); data->status = AUTHOR_STATUS_FAIL; return; case 2: /* Use replacement AV pairs from program */ if (debug & DEBUG_AUTHOR_FLAG) report(LOG_DEBUG, "cmd %s returns 2 (replace & continue)", after); /* Free any existing AV output pairs */ if (data->num_out_args) { for(i=0; i < data->num_out_args; i++) { free(data->output_args[i]); } free(data->output_args); data->output_args = NULL; } if (debug & DEBUG_AUTHOR_FLAG) { report(LOG_DEBUG, "status is now AUTHOR_STATUS_PASS_REPL"); } data->status = AUTHOR_STATUS_PASS_REPL; data->output_args = out_args; data->num_out_args = out_cnt; return; } } static char *value TAC_ARGS((char *s)); /* Return a pointer to the value part of an attr=value string */ static char * value(s) char *s; { while (*s && *s != '=' && *s != '*') s++; if (*s) return (++s); return (NULL); } /* Reassemble the command arguments as typed by the user, out of the array of args we received. Return "" if there are no arguments */ static char *assemble_args TAC_ARGS((struct author_data *data)); static char * assemble_args(data) struct author_data *data; { char *buf; int i; char *nas_arg, *v; int len; len = 0; for (i = 0; i < data->num_in_args; i++) { nas_arg = data->input_args[i]; if (strncmp(nas_arg, "cmd-arg", strlen("cmd-arg"))==0) len += strlen(value(nas_arg)) + 1; } if (len <= 0) { return(tac_strdup("")); } buf = tac_malloc(len); buf[0] = '\0'; for (i = 0; i < data->num_in_args; i++) { nas_arg = data->input_args[i]; if (strncmp(nas_arg, "cmd-arg", strlen("cmd-arg"))) continue; v = value(nas_arg); if (!v) { free(buf); return (NULL); } strcat(buf, v); if (i < (data->num_in_args - 1)) strcat(buf, " "); } return (buf); } /* See if an exec is authorized. Either the user has explicitly authorized the exec, or she has authorized some commands (which implicitly authorizes an exec), or the default is permit. If she has explicitly authorized an exec, we need to process its attribute=value pairs. We indicate this by returning zero to the caller. Otherwise, we return 1, indicating no further processing is required for this request. */ static int authorize_exec TAC_ARGS((const char *user, struct author_data *data)); static int authorize_exec(user, data) const char *user; struct author_data *data; { if (debug & DEBUG_AUTHOR_FLAG) report(LOG_DEBUG, "exec authorization request for %s", user); /* Is an exec explicitly configured? If so, return 0 so we know to process its attributes */ if (cfg_get_svc_node(user, N_svc_exec, NULL, NULL, TAC_PLUS_RECURSE, NULL /* nodep */)) { if (debug & DEBUG_AUTHOR_FLAG) report(LOG_DEBUG, "exec is explicitly permitted"); return (0); } /* No exec is configured. Are any commands configured? */ if (cfg_get_svc_node(user, N_svc_cmd, NULL, NULL, TAC_PLUS_RECURSE, NULL /* nodep */)) { if (debug & DEBUG_AUTHOR_FLAG) report(LOG_DEBUG, "exec permitted because commands are configured"); data->status = AUTHOR_STATUS_PASS_ADD; data->output_args = NULL; data->num_out_args = 0; return (1); } if (debug & DEBUG_AUTHOR_FLAG) report(LOG_DEBUG, "exec denied by default"); data->status = AUTHOR_STATUS_FAIL; data->num_out_args = 0; return(1); } /* Is an exec command authorized per our database(s)? Return 0 if status is valid */ static int authorize_cmd TAC_ARGS((const char *user, const char *cmd, struct author_data *data)); static int authorize_cmd(user, cmd, data) const char *user; const char *cmd; struct author_data *data; { char *args; if (!cmd) { data->status = AUTHOR_STATUS_ERROR; data->admin_msg = tac_strdup("No command found"); report(LOG_ERR, "%s: %s %s", session.peer, cmd, data->admin_msg); data->num_out_args = 0; return (0); } args = assemble_args(data); switch (cfg_authorize_cmd(user, cmd, args)) { case ER_TRUE: data->status = AUTHOR_STATUS_PASS_ADD; data->num_out_args = 0; break; case ER_FALSE: data->status = AUTHOR_STATUS_FAIL; data->num_out_args = 0; break; case ER_UNKNOWN: data->status = AUTHOR_STATUS_ERROR; data->admin_msg = tac_strdup("Server error illegal configuration"); break; } if (args) free(args); return(0); } static int is_separator TAC_ARGS((int ch)); static int is_separator(ch) int ch; /* promoted "char" type */ { return (ch == '=' || ch == '*'); } static int arg_ok TAC_ARGS((char *arg)); /* check an attr=value pair for well-formedness */ static int arg_ok(arg) char *arg; { char *p = arg; /* It must contain an attribute */ if (!*p) return(0); for(p=arg; *p; p++) { if (is_separator(*p)) { if (p == arg) /* no attribute */ return(0); return(1); } } /* no separator */ return(0); } static int match_attrs TAC_ARGS((char *nas_arg, char *server_arg)); /* return 1 if attrs match, 0 otherwise */ static int match_attrs(nas_arg, server_arg) char *nas_arg, *server_arg; { while (*nas_arg && *server_arg) { if (is_separator(*nas_arg) && is_separator(*server_arg)) { return (1); } if (*nas_arg != *server_arg) return (0); nas_arg++; server_arg++; } return (0); } static int match_values TAC_ARGS((char *nas_arg, char *server_arg)); /* return 1 if values match, 0 otherwise */ static int match_values(nas_arg, server_arg) char *nas_arg, *server_arg; { while (*nas_arg && *server_arg && !is_separator(*nas_arg)) { nas_arg++; server_arg++; } if (!*nas_arg) return(0); /* skip separator */ nas_arg++; if (*server_arg) server_arg++; /* compare values */ return(STREQ(nas_arg, server_arg)); } static int mandatory TAC_ARGS((char *arg)); /* Return 1 if arg is mandatory, 0 otherwise */ static int mandatory(arg) char *arg; { char *p = arg; while (*p && !is_separator(*p)) p++; /* if we're not at the end, this must be the separator */ if (*p && !is_separator(*p)) { report(LOG_ERR, "%s: Error on arg %s cannot find separator", session.peer, arg); return (0); } return (*p == '='); } static int optional TAC_ARGS((char *arg)); static int optional(arg) char *arg; { return (!mandatory(arg)); } /* PPP-LCP requests are a special case. If they are not explicitly configured, but there are other ppp services explicitly configured, we admit (return 1) any PPP-LCP request */ static int ppp_lcp_allowed TAC_ARGS((const char *user)); static int ppp_lcp_allowed(user) const char *user; { /* It is an LCP request. Are there PPP services configured? */ if (cfg_get_svc_node(user, N_svc_ppp, NULL /* protocol */, NULL /* svcname */, TAC_PLUS_RECURSE, NULL /* nodep */)) { if (debug & DEBUG_AUTHOR_FLAG) { report(LOG_DEBUG, "ppp/lcp request permitted (ppp is configured for %s)", user); } return(1); } /* It is an LCP request but no PPP services are configured */ if (debug & DEBUG_AUTHOR_FLAG) { report(LOG_DEBUG, "ppp/lcp request denied (ppp not configured for %s)", user); } return(0); } static int authorize_svc TAC_ARGS((const char *user, int svc, const char *protocol, const char *svcname, struct author_data *data)); /* Return 0 means data->status is valid */ static int authorize_svc(user, svc, protocol, svcname, data) const char *user; int svc; const char *svcname; struct author_data *data; const char *protocol; /* valid only if svc == ppp */ { int max_args; char **out_args, **outp; char *nas_arg, *cfg_arg; int i, j; char **cfg_args; char **cfg_argp; int deny_by_default; NODE *node; int service_permit; int replaced = 0; int added = 0; int cfg_cnt; /* Does this service exist? */ service_permit = cfg_get_svc_node(user, svc, protocol, svcname, TAC_PLUS_RECURSE, &node); /* Now we may have three cases: * service_permit == 1 && node != NULL * service_permit == 1 && node == NULL * service_permit == 0 (BTW node == NULL) */ if (service_permit && !node) { /* Service not found and the default is permit, we'll allow it. */ if (debug & DEBUG_AUTHOR_FLAG) report(LOG_DEBUG, "svc=%s protocol=%s svcname=%s not found, permitted by default", cfg_nodestring(svc), protocol ? protocol : "", svcname ? svcname : ""); data->status = AUTHOR_STATUS_PASS_ADD; data->num_out_args = 0; data->output_args = NULL; return(0); } if (!service_permit) { /* Service not found, if this is an PPP/LCP request and other ppp services are configured, we'll allow it. */ if (svc == N_svc_ppp && protocol && STREQ(protocol, "lcp") && ppp_lcp_allowed(user)) { data->status = AUTHOR_STATUS_PASS_ADD; data->num_out_args = 0; data->output_args = NULL; return(0); } if (debug & DEBUG_AUTHOR_FLAG) report(LOG_DEBUG, "svc=%s protocol=%s not found, denied by default", cfg_nodestring(svc), protocol ? protocol : ""); data->status = AUTHOR_STATUS_FAIL; data->num_out_args = 0; data->output_args = NULL; return(0); } /* Get server args configured in the config file. */ cfg_args = cfg_get_svc_attrs(node, &deny_by_default); /* Check the nas args for well-formedness */ for (i = 0; i < data->num_in_args; i++) { if (!arg_ok(data->input_args[i])) { char buf[MAX_INPUT_LINE_LEN+50]; sprintf(buf, "Illegal arg %s from NAS", data->input_args[i]); data->status = AUTHOR_STATUS_ERROR; data->admin_msg = tac_strdup(buf); report(LOG_ERR, "%s: Error %s", session.peer, buf); /* free any server arguments */ for(cfg_argp = cfg_args; cfg_args && *cfg_argp; cfg_argp++) free(*cfg_argp); free(cfg_args); return (0); } } /* How many configured AV pairs are there ? */ for (cfg_cnt = 0; cfg_args && cfg_args[cfg_cnt];) cfg_cnt++; /* Allocate space for in + out args */ max_args = cfg_cnt + data->num_in_args; out_args = (char **) tac_malloc((max_args + 1) * sizeof(char *)); outp = out_args; data->num_out_args = 0; bzero(out_args, (max_args + 1) * sizeof(char *)); for (i = 0; i < data->num_in_args; i++) { nas_arg = data->input_args[i]; /* always pass these pairs through unchanged */ if (match_attrs(nas_arg, "service=") || match_attrs(nas_arg, "protocol=") || match_attrs(nas_arg, "cmd=")) { if (debug & DEBUG_AUTHOR_FLAG) { report(LOG_DEBUG, "nas:%s (passed thru)", nas_arg); } *outp++ = tac_strdup(nas_arg); data->num_out_args++; continue; } /* NAS AV pair is mandatory */ if (mandatory(nas_arg)) { /* a). look for an exact attribute,value match in the daemon's mandatory list. If found, add the AV pair to the output */ for (j = 0; j < cfg_cnt; j++) { cfg_arg = cfg_args[j]; if (optional(cfg_arg)) continue; if (STREQ(nas_arg, cfg_arg)) { if (debug & DEBUG_AUTHOR_FLAG) { report(LOG_DEBUG, "nas:%s, svr:%s -> add %s (a)", nas_arg, cfg_arg, nas_arg); } *outp++ = tac_strdup(nas_arg); data->num_out_args++; goto next_nas_arg; } } /* b). If an exact match doesn't exist, look in the daemon's optional list for the first attribute match. If found, add the NAS AV pair to the output */ for (j = 0; j < cfg_cnt; j++) { cfg_arg = cfg_args[j]; if (mandatory(cfg_arg)) continue; if (match_attrs(nas_arg, cfg_arg)) { if (debug & DEBUG_AUTHOR_FLAG) { report(LOG_DEBUG, "nas:%s, svr:%s -> add %s (b)", nas_arg, cfg_arg, nas_arg); } *outp++ = tac_strdup(nas_arg); data->num_out_args++; goto next_nas_arg; } } /* c). If no attribute match exists, deny the command if the default is to deny */ if (deny_by_default) { data->status = AUTHOR_STATUS_FAIL; if (debug & DEBUG_AUTHOR_FLAG) { report(LOG_DEBUG, "nas:%s svr:absent, default=deny -> denied (c)", nas_arg); } if (out_args) { for (i = 0; i < data->num_out_args; i++) free(out_args[i]); free(out_args); } data->num_out_args = 0; data->output_args = NULL; /* free the server arguments */ for(cfg_argp = cfg_args; *cfg_argp; cfg_argp++) free(*cfg_argp); free(cfg_args); return (0); } /* d). If the default is permit, add the NAS AV pair to the output */ if (debug & DEBUG_AUTHOR_FLAG) { report(LOG_DEBUG, "nas:%s, svr:absent, default=permit -> add %s (d)", nas_arg, nas_arg); } *outp++ = tac_strdup(nas_arg); data->num_out_args++; goto next_nas_arg; } else { /* NAS AV pair is Optional */ /* e). look for an exact attribute,value match in the mandatory list. If found, add DAEMON's AV pair to output */ for (j = 0; j < cfg_cnt; j++) { cfg_arg = cfg_args[j]; if (optional(cfg_arg)) continue; if (match_attrs(nas_arg, cfg_arg) && match_values(nas_arg, cfg_arg)) { if (debug & DEBUG_AUTHOR_FLAG) { report(LOG_DEBUG, "nas:%s svr:%s -> replace with %s (e)", nas_arg, cfg_arg, cfg_arg); } *outp++ = tac_strdup(cfg_arg); data->num_out_args++; replaced++; goto next_nas_arg; } } /* f). If not found, look for the first attribute match in the mandatory list. If found, add DAEMONS's AV pair to output */ for (j = 0; j < cfg_cnt; j++) { cfg_arg = cfg_args[j]; if (optional(cfg_arg)) continue; if (match_attrs(nas_arg, cfg_arg)) { if (debug & DEBUG_AUTHOR_FLAG) { report(LOG_DEBUG, "nas:%s svr:%s -> replace with %s (f)", nas_arg, cfg_arg, cfg_arg); } *outp++ = tac_strdup(cfg_arg); data->num_out_args++; replaced++; goto next_nas_arg; } } /* g). If no mandatory match exists, look for an exact attribute,value pair match among the daemon's optional AV pairs. If found add the DAEMON's matching AV pair to the output. */ for (j = 0; j < cfg_cnt; j++) { cfg_arg = cfg_args[j]; if (!optional(cfg_arg)) continue; if (match_attrs(nas_arg, cfg_arg) && match_values(nas_arg, cfg_arg)) { if (debug & DEBUG_AUTHOR_FLAG) { report(LOG_DEBUG, "nas:%s svr:%s -> replace with %s (g)", nas_arg, cfg_arg, cfg_arg); } *outp++ = tac_strdup(cfg_arg); data->num_out_args++; replaced++; goto next_nas_arg; } } /* h). If no exact match exists, locate the first attribute match among the daemon's optional AV pairs. If found add the DAEMON's matching AV pair to the output */ for (j = 0; j < cfg_cnt; j++) { cfg_arg = cfg_args[j]; if (!optional(cfg_arg)) continue; if (match_attrs(nas_arg, cfg_arg)) { if (debug & DEBUG_AUTHOR_FLAG) { report(LOG_DEBUG, "nas:%s svr:%s -> replace with %s (h)", nas_arg, cfg_arg, cfg_arg); } *outp++ = tac_strdup(cfg_arg); data->num_out_args++; replaced++; goto next_nas_arg; } } /* i). If no match is found, delete the AV pair if default is deny */ if (deny_by_default) { if (debug & DEBUG_AUTHOR_FLAG) { report(LOG_DEBUG, "nas:%s svr:absent/deny -> delete %s (i)", nas_arg, nas_arg); } replaced++; goto next_nas_arg; } /* j). If the default is permit add the NAS AV pair to the output */ if (debug & DEBUG_AUTHOR_FLAG) { report(LOG_DEBUG, "nas:%s svr:absent/permit -> add %s (j)", nas_arg, nas_arg); } *outp++ = tac_strdup(nas_arg); data->num_out_args++; goto next_nas_arg; } next_nas_arg:; } /* k). After all AV pairs have been processed, for each mandatory DAEMON AV pair, if there is no attribute match already in the output list, add the AV pair (add only one AV pair for each mandatory attribute) */ for (i = 0; i < cfg_cnt; i++) { cfg_arg = cfg_args[i]; if (!mandatory(cfg_arg)) continue; for (j = 0; j < data->num_out_args; j++) { char *output_arg = out_args[j]; if (match_attrs(cfg_arg, output_arg)) { goto next_cfg_arg; } } /* Attr is required by daemon but not present in output. Add it */ if (debug & DEBUG_AUTHOR_FLAG) { report(LOG_DEBUG, "nas:absent, server:%s -> add %s (k)", cfg_arg, cfg_arg); } added++; *outp++ = tac_strdup(cfg_arg); data->num_out_args++; next_cfg_arg:; } /* If we replaced or deleted some pairs we must return the entire list we've constructed */ if (replaced) { if (debug & DEBUG_AUTHOR_FLAG) { report(LOG_DEBUG, "replaced %d args", replaced); } data->status = AUTHOR_STATUS_PASS_REPL; data->output_args = out_args; /* free the server arguments */ for(cfg_argp = cfg_args; *cfg_argp; cfg_argp++) free(*cfg_argp); free(cfg_args); return (0); } /* We added something not on the original nas list, but didn't replace or delete anything. We should return only the additions */ if (added) { if (debug & DEBUG_AUTHOR_FLAG) report(LOG_DEBUG, "added %d args", added); /* throw away output args which are just copies of the input args */ for (i = 0; i < data->num_in_args; i++) { if (debug & DEBUG_AUTHOR_FLAG) { report(LOG_DEBUG, "out_args[%d] = %s input copy discarded", i, out_args[i]); } free(out_args[i]); out_args[i] = NULL; } /* Now compact the new args added to the end of the array down to the beginning */ j = 0; for (i = data->num_in_args; i < data->num_out_args; i++) { if (out_args[j]) /* we goofed */ report(LOG_ERR, "%s: out_args[%d] should be NULL", session.peer, j); if (!out_args[i]) /* we goofed */ report(LOG_ERR, "%s: out_args[%d] should not be NULL", session.peer, i); if (debug & DEBUG_AUTHOR_FLAG) { report(LOG_DEBUG, "out_args[%d] = %s compacted to out_args[%d]", i, out_args[i], j); } out_args[j++] = out_args[i]; out_args[i] = NULL; } data->num_out_args = j; if (debug & DEBUG_AUTHOR_FLAG) { report(LOG_DEBUG, "%d output args", data->num_out_args); } /* should/could do a realloc here but it won't matter */ data->status = AUTHOR_STATUS_PASS_ADD; data->output_args = out_args; /* free the server arguments */ for(cfg_argp = cfg_args; *cfg_argp; cfg_argp++) free(*cfg_argp); free(cfg_args); return (0); } /* no additions or replacements. Input and output are identical. Don't need to return anything */ if (debug & DEBUG_AUTHOR_FLAG) { report(LOG_DEBUG, "added %d", added); } data->status = AUTHOR_STATUS_PASS_ADD; if (out_args) { for (i = 0; i < data->num_out_args; i++) { free(out_args[i]); } free(out_args); } /* Final sanity check */ if (data->num_out_args != data->num_in_args) { data->status = AUTHOR_STATUS_ERROR; data->admin_msg = tac_strdup("Bad output arg cnt from do_author"); report(LOG_ERR, "%s: Error %s", session.peer, data->admin_msg); /* free the server arguments */ for(cfg_argp = cfg_args; *cfg_argp; cfg_argp++) free(*cfg_argp); free(cfg_args); return (0); } data->num_out_args = 0; data->output_args = NULL; /* free the server arguments */ for(cfg_argp = cfg_args; *cfg_argp; cfg_argp++) free(*cfg_argp); free(cfg_args); return (0); } /* Return an integer indicating which kind of service is being requested. Conveniently this integer is one of our node types. If the service is a command authorisation request, also return the command name in cmdname. If this service is a ppp request, return the protocol name in protocol. If this service is not one of the standard, known ones, return its name in svcname. */ static int get_nas_svc TAC_ARGS((struct author_data *data, char **cmdname, char **protocol, char **svcname)); static int get_nas_svc(data, cmdname, protocol, svcname) struct author_data *data; char **cmdname, **protocol, **svcname; { int i; char *nas_arg; *cmdname = NULL; *protocol = NULL; *svcname = NULL; for (i = 0; i < data->num_in_args; i++) { nas_arg = data->input_args[i]; if (STREQ(nas_arg, "service=shell")) { for (i = 0; i < data->num_in_args; i++) { nas_arg = data->input_args[i]; if (strncmp(nas_arg, "cmd", strlen("cmd")) == 0) { /* A cmd= means we are authorising exec startup */ if ((int)strlen(nas_arg) <= 4) return (N_svc_exec); /* A non-null command means we are authorising a command */ *cmdname = nas_arg + strlen("cmd") + 1; return (N_svc_cmd); } } return(0); } if (STREQ(nas_arg, "service=slip")) { return (N_svc_slip); } if (STREQ(nas_arg, "service=arap")) { return (N_svc_arap); } if (STREQ(nas_arg, "service=ppp")) { for (i = 0; i < data->num_in_args; i++) { nas_arg = data->input_args[i]; if (strncmp(nas_arg, "protocol", strlen("protocol")) == 0) { *protocol = nas_arg + strlen("protocol") + 1; return(N_svc_ppp); } } } if (strncmp(nas_arg, "service=", strlen("service=")) ==0 ) { *svcname = nas_arg + strlen("service="); return(N_svc); } } return (0); }