/* $OpenBSD: eval.c,v 1.1 1997/02/26 03:06:50 downsj Exp $ */ /* * Routines for controlled evaluation of host names, user names, and so on. * They are, in fact, wrappers around the functions that are specific for * the sockets or TLI programming interfaces. The request_info and host_info * structures are used for result cacheing. * * These routines allows us to postpone expensive operations until their * results are really needed. Examples are hostname lookups and double * checks, or username lookups. Information that cannot be retrieved is * given the value "unknown" ("paranoid" in case of hostname problems). * * When ALWAYS_HOSTNAME is off, hostname lookup is done only when required by * tcpd paranoid mode, by access control patterns, or by %letter expansions. * * When ALWAYS_RFC931 mode is off, user lookup is done only when required by * access control patterns or %letter expansions. * * Author: Wietse Venema, Eindhoven University of Technology, The Netherlands. */ #ifndef lint #if 0 static char sccsid[] = "@(#) eval.c 1.3 95/01/30 19:51:45"; #else static char rcsid[] = "$OpenBSD: eval.c,v 1.1 1997/02/26 03:06:50 downsj Exp $"; #endif #endif /* System libraries. */ #include #include /* Local stuff. */ #include "tcpd.h" /* * When a string has the value STRING_UNKNOWN, it means: don't bother, I * tried to look up the data but it was unavailable for some reason. When a * host name has the value STRING_PARANOID it means there was a name/address * conflict. */ char unknown[] = STRING_UNKNOWN; char paranoid[] = STRING_PARANOID; /* eval_user - look up user name */ char *eval_user(request) struct request_info *request; { if (request->user[0] == 0) { strcpy(request->user, unknown); if (request->sink == 0 && request->client->sin && request->server->sin) rfc931(request->client->sin, request->server->sin, request->user); } return (request->user); } /* eval_hostaddr - look up printable address */ char *eval_hostaddr(host) struct host_info *host; { if (host->addr[0] == 0) { strcpy(host->addr, unknown); if (host->request->hostaddr != 0) host->request->hostaddr(host); } return (host->addr); } /* eval_hostname - look up host name */ char *eval_hostname(host) struct host_info *host; { if (host->name[0] == 0) { strcpy(host->name, unknown); if (host->request->hostname != 0) host->request->hostname(host); } return (host->name); } /* eval_hostinfo - return string with host name (preferred) or address */ char *eval_hostinfo(host) struct host_info *host; { char *hostname; #ifndef ALWAYS_HOSTNAME /* no implicit host lookups */ if (host->name[0] == 0) return (eval_hostaddr(host)); #endif hostname = eval_hostname(host); if (HOSTNAME_KNOWN(hostname)) { return (host->name); } else { return (eval_hostaddr(host)); } } /* eval_client - return string with as much about the client as we know */ char *eval_client(request) struct request_info *request; { static char both[2 * STRING_LENGTH]; char *hostinfo = eval_hostinfo(request->client); #ifndef ALWAYS_RFC931 /* no implicit user lookups */ if (request->user[0] == 0) return (hostinfo); #endif if (STR_NE(eval_user(request), unknown)) { sprintf(both, "%s@%s", request->user, hostinfo); return (both); } else { return (hostinfo); } } /* eval_server - return string with as much about the server as we know */ char *eval_server(request) struct request_info *request; { static char both[2 * STRING_LENGTH]; char *host = eval_hostinfo(request->server); char *daemon = eval_daemon(request); if (STR_NE(host, unknown)) { sprintf(both, "%s@%s", daemon, host); return (both); } else { return (daemon); } }