/*------------------------------------------------------------------------- * * auth.c * Routines to handle network authentication * * Portions Copyright (c) 1996-2001, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * * IDENTIFICATION * $Header: /cvsroot/pgsql/src/backend/libpq/auth.c,v 1.74 2002/02/23 04:17:46 petere Exp $ * *------------------------------------------------------------------------- */ #include "postgres.h" #include #include #include #if defined(HAVE_STRUCT_CMSGCRED) || defined(HAVE_STRUCT_FCRED) || defined(HAVE_STRUCT_SOCKCRED) #include #include #include #endif #include #include #include "libpq/auth.h" #include "libpq/crypt.h" #include "libpq/hba.h" #include "libpq/libpq.h" #include "libpq/password.h" #include "libpq/pqformat.h" #include "miscadmin.h" static void sendAuthRequest(Port *port, AuthRequest areq); static int checkPassword(Port *port, char *user, char *password); static int old_be_recvauth(Port *port); static int map_old_to_new(Port *port, UserAuth old, int status); static void auth_failed(Port *port, int status); static int recv_and_check_password_packet(Port *port); static int recv_and_check_passwordv0(Port *port); char *pg_krb_server_keyfile; #ifdef USE_PAM #include #define PGSQL_PAM_SERVICE "postgresql" /* Service name passed to PAM */ static int CheckPAMAuth(Port *port, char *user, char *password); static int pam_passwd_conv_proc(int num_msg, const struct pam_message ** msg, struct pam_response ** resp, void *appdata_ptr); static struct pam_conv pam_passw_conv = { &pam_passwd_conv_proc, NULL }; static char *pam_passwd = NULL; /* Workaround for Solaris 2.6 brokenness */ static Port *pam_port_cludge; /* Workaround for passing "Port *port" * into pam_passwd_conv_proc */ #endif /* USE_PAM */ #ifdef KRB4 /*---------------------------------------------------------------- * MIT Kerberos authentication system - protocol version 4 *---------------------------------------------------------------- */ #include "krb.h" /* * pg_krb4_recvauth -- server routine to receive authentication information * from the client * * Nothing unusual here, except that we compare the username obtained from * the client's setup packet to the authenticated name. (We have to retain * the name in the setup packet since we have to retain the ability to handle * unauthenticated connections.) */ static int pg_krb4_recvauth(Port *port) { long krbopts = 0; /* one-way authentication */ KTEXT_ST clttkt; char instance[INST_SZ + 1], version[KRB_SENDAUTH_VLEN + 1]; AUTH_DAT auth_data; Key_schedule key_sched; int status; strcpy(instance, "*"); /* don't care, but arg gets expanded * anyway */ status = krb_recvauth(krbopts, port->sock, &clttkt, PG_KRB_SRVNAM, instance, &port->raddr.in, &port->laddr.in, &auth_data, pg_krb_server_keyfile, key_sched, version); if (status != KSUCCESS) { snprintf(PQerrormsg, PQERRORMSG_LENGTH, "pg_krb4_recvauth: kerberos error: %s\n", krb_err_txt[status]); fputs(PQerrormsg, stderr); pqdebug("%s", PQerrormsg); return STATUS_ERROR; } if (strncmp(version, PG_KRB4_VERSION, KRB_SENDAUTH_VLEN)) { snprintf(PQerrormsg, PQERRORMSG_LENGTH, "pg_krb4_recvauth: protocol version != \"%s\"\n", PG_KRB4_VERSION); fputs(PQerrormsg, stderr); pqdebug("%s", PQerrormsg); return STATUS_ERROR; } if (strncmp(port->user, auth_data.pname, SM_USER)) { snprintf(PQerrormsg, PQERRORMSG_LENGTH, "pg_krb4_recvauth: name \"%s\" != \"%s\"\n", port->user, auth_data.pname); fputs(PQerrormsg, stderr); pqdebug("%s", PQerrormsg); return STATUS_ERROR; } return STATUS_OK; } #else static int pg_krb4_recvauth(Port *port) { snprintf(PQerrormsg, PQERRORMSG_LENGTH, "pg_krb4_recvauth: Kerberos not implemented on this server.\n"); fputs(PQerrormsg, stderr); pqdebug("%s", PQerrormsg); return STATUS_ERROR; } #endif /* KRB4 */ #ifdef KRB5 /*---------------------------------------------------------------- * MIT Kerberos authentication system - protocol version 5 *---------------------------------------------------------------- */ #include #include /* * pg_an_to_ln -- return the local name corresponding to an authentication * name * * XXX Assumes that the first aname component is the user name. This is NOT * necessarily so, since an aname can actually be something out of your * worst X.400 nightmare, like * ORGANIZATION=U. C. Berkeley/NAME=Paul M. Aoki@CS.BERKELEY.EDU * Note that the MIT an_to_ln code does the same thing if you don't * provide an aname mapping database...it may be a better idea to use * krb5_an_to_ln, except that it punts if multiple components are found, * and we can't afford to punt. */ static char * pg_an_to_ln(char *aname) { char *p; if ((p = strchr(aname, '/')) || (p = strchr(aname, '@'))) *p = '\0'; return aname; } /* * Various krb5 state which is not connection specfic, and a flag to * indicate whether we have initialised it yet. */ static int pg_krb5_initialised; static krb5_context pg_krb5_context; static krb5_keytab pg_krb5_keytab; static krb5_principal pg_krb5_server; static int pg_krb5_init(void) { krb5_error_code retval; if (pg_krb5_initialised) return STATUS_OK; retval = krb5_init_context(&pg_krb5_context); if (retval) { snprintf(PQerrormsg, PQERRORMSG_LENGTH, "pg_krb5_init: krb5_init_context returned" " Kerberos error %d\n", retval); com_err("postgres", retval, "while initializing krb5"); return STATUS_ERROR; } retval = krb5_kt_resolve(pg_krb5_context, pg_krb_server_keyfile, &pg_krb5_keytab); if (retval) { snprintf(PQerrormsg, PQERRORMSG_LENGTH, "pg_krb5_init: krb5_kt_resolve returned" " Kerberos error %d\n", retval); com_err("postgres", retval, "while resolving keytab file %s", pg_krb_server_keyfile); krb5_free_context(pg_krb5_context); return STATUS_ERROR; } retval = krb5_sname_to_principal(pg_krb5_context, NULL, PG_KRB_SRVNAM, KRB5_NT_SRV_HST, &pg_krb5_server); if (retval) { snprintf(PQerrormsg, PQERRORMSG_LENGTH, "pg_krb5_init: krb5_sname_to_principal returned" " Kerberos error %d\n", retval); com_err("postgres", retval, "while getting server principal for service %s", PG_KRB_SRVNAM); krb5_kt_close(pg_krb5_context, pg_krb5_keytab); krb5_free_context(pg_krb5_context); return STATUS_ERROR; } pg_krb5_initialised = 1; return STATUS_OK; } /* * pg_krb5_recvauth -- server routine to receive authentication information * from the client * * We still need to compare the username obtained from the client's setup * packet to the authenticated name, as described in pg_krb4_recvauth. This * is a bit more problematic in v5, as described above in pg_an_to_ln. * * We have our own keytab file because postgres is unlikely to run as root, * and so cannot read the default keytab. */ static int pg_krb5_recvauth(Port *port) { krb5_error_code retval; int ret; krb5_auth_context auth_context = NULL; krb5_ticket *ticket; char *kusername; ret = pg_krb5_init(); if (ret != STATUS_OK) return ret; retval = krb5_recvauth(pg_krb5_context, &auth_context, (krb5_pointer) & port->sock, PG_KRB_SRVNAM, pg_krb5_server, 0, pg_krb5_keytab, &ticket); if (retval) { snprintf(PQerrormsg, PQERRORMSG_LENGTH, "pg_krb5_recvauth: krb5_recvauth returned" " Kerberos error %d\n", retval); com_err("postgres", retval, "from krb5_recvauth"); return STATUS_ERROR; } /* * The "client" structure comes out of the ticket and is therefore * authenticated. Use it to check the username obtained from the * postmaster startup packet. * * I have no idea why this is considered necessary. */ #if defined(HAVE_KRB5_TICKET_ENC_PART2) retval = krb5_unparse_name(pg_krb5_context, ticket->enc_part2->client, &kusername); #elif defined(HAVE_KRB5_TICKET_CLIENT) retval = krb5_unparse_name(pg_krb5_context, ticket->client, &kusername); #else #error "bogus configuration" #endif if (retval) { snprintf(PQerrormsg, PQERRORMSG_LENGTH, "pg_krb5_recvauth: krb5_unparse_name returned" " Kerberos error %d\n", retval); com_err("postgres", retval, "while unparsing client name"); krb5_free_ticket(pg_krb5_context, ticket); krb5_auth_con_free(pg_krb5_context, auth_context); return STATUS_ERROR; } kusername = pg_an_to_ln(kusername); if (strncmp(port->user, kusername, SM_USER)) { snprintf(PQerrormsg, PQERRORMSG_LENGTH, "pg_krb5_recvauth: user name \"%s\" != krb5 name \"%s\"\n", port->user, kusername); ret = STATUS_ERROR; } else ret = STATUS_OK; krb5_free_ticket(pg_krb5_context, ticket); krb5_auth_con_free(pg_krb5_context, auth_context); free(kusername); return ret; } #else static int pg_krb5_recvauth(Port *port) { snprintf(PQerrormsg, PQERRORMSG_LENGTH, "pg_krb5_recvauth: Kerberos not implemented on this server.\n"); fputs(PQerrormsg, stderr); pqdebug("%s", PQerrormsg); return STATUS_ERROR; } #endif /* KRB5 */ /* * Handle a v0 password packet. */ static int recv_and_check_passwordv0(Port *port) { int32 len; char *buf; PasswordPacketV0 *pp; char *user, *password, *cp, *start; int status; if (pq_getint(&len, 4) == EOF) return STATUS_EOF; len -= 4; buf = palloc(len); if (pq_getbytes(buf, len) == EOF) { pfree(buf); return STATUS_EOF; } pp = (PasswordPacketV0 *) buf; /* * The packet is supposed to comprise the user name and the password * as C strings. Be careful to check that this is the case. */ user = password = NULL; len -= sizeof(pp->unused); cp = start = pp->data; while (len-- > 0) if (*cp++ == '\0') { if (user == NULL) user = start; else { password = start; break; } start = cp; } if (user == NULL || password == NULL) { snprintf(PQerrormsg, PQERRORMSG_LENGTH, "pg_password_recvauth: badly formed password packet.\n"); fputs(PQerrormsg, stderr); pqdebug("%s", PQerrormsg); status = STATUS_ERROR; } else { UserAuth saved; /* Check the password. */ saved = port->auth_method; port->auth_method = uaPassword; status = checkPassword(port, user, password); port->auth_method = saved; /* Adjust the result if necessary. */ if (map_old_to_new(port, uaPassword, status) != STATUS_OK) status = STATUS_ERROR; } pfree(buf); return status; } /* * Tell the user the authentication failed, but not (much about) why. * * There is a tradeoff here between security concerns and making life * unnecessarily difficult for legitimate users. We would not, for example, * want to report the password we were expecting to receive... * But it seems useful to report the username and authorization method * in use, and these are items that must be presumed known to an attacker * anyway. * Note that many sorts of failure report additional information in the * postmaster log, which we hope is only readable by good guys. */ static void auth_failed(Port *port, int status) { const char *authmethod = "Unknown auth method:"; /* * If we failed due to EOF from client, just quit; there's no point in * trying to send a message to the client, and not much point in * logging the failure in the postmaster log. (Logging the failure * might be desirable, were it not for the fact that libpq closes the * connection unceremoniously if challenged for a password when it * hasn't got one to send. We'll get a useless log entry for every * psql connection under password auth, even if it's perfectly * successful, if we log STATUS_EOF events.) */ if (status == STATUS_EOF) proc_exit(0); switch (port->auth_method) { case uaReject: authmethod = "Rejected host:"; break; case uaKrb4: authmethod = "Kerberos4"; break; case uaKrb5: authmethod = "Kerberos5"; break; case uaTrust: authmethod = "Trusted"; break; case uaIdent: authmethod = "IDENT"; break; case uaMD5: case uaCrypt: case uaPassword: authmethod = "Password"; break; #ifdef USE_PAM case uaPAM: authmethod = "PAM"; break; #endif /* USE_PAM */ } elog(FATAL, "%s authentication failed for user \"%s\"", authmethod, port->user); /* doesn't return */ } /* * Client authentication starts here. If there is an error, this * function does not return and the backend process is terminated. */ void ClientAuthentication(Port *port) { int status = STATUS_ERROR; /* * Get the authentication method to use for this frontend/database * combination. Note: a failure return indicates a problem with the * hba config file, not with the request. hba.c should have dropped * an error message into the postmaster logfile if it failed. */ if (hba_getauthmethod(port) != STATUS_OK) elog(FATAL, "Missing or erroneous pg_hba.conf file, see postmaster log for details"); /* Handle old style authentication. */ if (PG_PROTOCOL_MAJOR(port->proto) == 0) { status = old_be_recvauth(port); if (status != STATUS_OK) auth_failed(port, status); return; } /* Handle new style authentication. */ switch (port->auth_method) { case uaReject: /* * This could have come from an explicit "reject" entry in * pg_hba.conf, but more likely it means there was no matching * entry. Take pity on the poor user and issue a helpful * error message. NOTE: this is not a security breach, * because all the info reported here is known at the frontend * and must be assumed known to bad guys. We're merely helping * out the less clueful good guys. */ { const char *hostinfo = "localhost"; if (port->raddr.sa.sa_family == AF_INET) hostinfo = inet_ntoa(port->raddr.in.sin_addr); elog(FATAL, "No pg_hba.conf entry for host %s, user %s, database %s", hostinfo, port->user, port->database); break; } case uaKrb4: sendAuthRequest(port, AUTH_REQ_KRB4); status = pg_krb4_recvauth(port); break; case uaKrb5: sendAuthRequest(port, AUTH_REQ_KRB5); status = pg_krb5_recvauth(port); break; case uaIdent: #if !defined(SO_PEERCRED) && (defined(HAVE_STRUCT_CMSGCRED) || defined(HAVE_STRUCT_FCRED) || (defined(HAVE_STRUCT_SOCKCRED) && defined(LOCAL_CREDS))) /* * If we are doing ident on unix-domain sockets, use SCM_CREDS * only if it is defined and SO_PEERCRED isn't. */ #if defined(HAVE_STRUCT_FCRED) || defined(HAVE_STRUCT_SOCKCRED) /* * Receive credentials on next message receipt, BSD/OS, * NetBSD. We need to set this before the client sends the * next packet. */ { int on = 1; if (setsockopt(port->sock, 0, LOCAL_CREDS, &on, sizeof(on)) < 0) elog(FATAL, "pg_local_sendauth: can't do setsockopt: %s\n", strerror(errno)); } #endif if (port->raddr.sa.sa_family == AF_UNIX) sendAuthRequest(port, AUTH_REQ_SCM_CREDS); #endif status = authident(port); break; case uaMD5: sendAuthRequest(port, AUTH_REQ_MD5); status = recv_and_check_password_packet(port); break; case uaCrypt: sendAuthRequest(port, AUTH_REQ_CRYPT); status = recv_and_check_password_packet(port); break; case uaPassword: sendAuthRequest(port, AUTH_REQ_PASSWORD); status = recv_and_check_password_packet(port); break; #ifdef USE_PAM case uaPAM: pam_port_cludge = port; status = CheckPAMAuth(port, port->user, ""); break; #endif /* USE_PAM */ case uaTrust: status = STATUS_OK; break; } if (status == STATUS_OK) sendAuthRequest(port, AUTH_REQ_OK); else auth_failed(port, status); } /* * Send an authentication request packet to the frontend. */ static void sendAuthRequest(Port *port, AuthRequest areq) { StringInfoData buf; pq_beginmessage(&buf); pq_sendbyte(&buf, 'R'); pq_sendint(&buf, (int32) areq, sizeof(int32)); /* Add the salt for encrypted passwords. */ if (areq == AUTH_REQ_MD5) pq_sendbytes(&buf, port->md5Salt, 4); else if (areq == AUTH_REQ_CRYPT) pq_sendbytes(&buf, port->cryptSalt, 2); pq_endmessage(&buf); /* * Flush message so client will see it, except for AUTH_REQ_OK, * which need not be sent until we are ready for queries. */ if (areq != AUTH_REQ_OK) pq_flush(); } #ifdef USE_PAM /* * PAM conversation function */ static int pam_passwd_conv_proc(int num_msg, const struct pam_message ** msg, struct pam_response ** resp, void *appdata_ptr) { StringInfoData buf; int32 len; if (num_msg != 1 || msg[0]->msg_style != PAM_PROMPT_ECHO_OFF) { switch (msg[0]->msg_style) { case PAM_ERROR_MSG: snprintf(PQerrormsg, PQERRORMSG_LENGTH, "pam_passwd_conv_proc: Error from underlying PAM layer: '%s'\n", msg[0]->msg); fputs(PQerrormsg, stderr); pqdebug("%s", PQerrormsg); return PAM_CONV_ERR; default: snprintf(PQerrormsg, PQERRORMSG_LENGTH, "pam_passwd_conv_proc: Unexpected PAM conversation %d/'%s'\n", msg[0]->msg_style, msg[0]->msg); fputs(PQerrormsg, stderr); pqdebug("%s", PQerrormsg); return PAM_CONV_ERR; } } if (!appdata_ptr) { /* * Workaround for Solaris 2.6 where the PAM library is broken and * does not pass appdata_ptr to the conversation routine */ appdata_ptr = pam_passwd; } /* * Password wasn't passed to PAM the first time around - let's go ask * the client to send a password, which we then stuff into PAM. */ if (strlen(appdata_ptr) == 0) { sendAuthRequest(pam_port_cludge, AUTH_REQ_PASSWORD); if (pq_eof() == EOF || pq_getint(&len, 4) == EOF) { return PAM_CONV_ERR; /* client didn't want to send password */ } initStringInfo(&buf); pq_getstr(&buf); if (DebugLvl > 5) fprintf(stderr, "received PAM packet with len=%d, pw=%s\n", len, buf.data); if (strlen(buf.data) == 0) { snprintf(PQerrormsg, PQERRORMSG_LENGTH, "pam_passwd_conv_proc: no password\n"); fputs(PQerrormsg, stderr); return PAM_CONV_ERR; } appdata_ptr = buf.data; } /* * Explicitly not using palloc here - PAM will free this memory in * pam_end() */ *resp = calloc(num_msg, sizeof(struct pam_response)); if (!*resp) { snprintf(PQerrormsg, PQERRORMSG_LENGTH, "pam_passwd_conv_proc: Out of memory!\n"); fputs(PQerrormsg, stderr); pqdebug("%s", PQerrormsg); if (buf.data) pfree(buf.data); return PAM_CONV_ERR; } (*resp)[0].resp = strdup((char *) appdata_ptr); (*resp)[0].resp_retcode = 0; return ((*resp)[0].resp ? PAM_SUCCESS : PAM_CONV_ERR); } /* * Check authentication against PAM. */ static int CheckPAMAuth(Port *port, char *user, char *password) { int retval; pam_handle_t *pamh = NULL; /* * Apparently, Solaris 2.6 is broken, and needs ugly static variable * workaround */ pam_passwd = password; /* * Set the application data portion of the conversation struct This is * later used inside the PAM conversation to pass the password to the * authentication module. */ pam_passw_conv.appdata_ptr = (char *) password; /* from password above, * not allocated */ /* Optionally, one can set the service name in pg_hba.conf */ if (port->auth_arg[0] == '\0') retval = pam_start(PGSQL_PAM_SERVICE, "pgsql@", &pam_passw_conv, &pamh); else retval = pam_start(port->auth_arg, "pgsql@", &pam_passw_conv, &pamh); if (retval != PAM_SUCCESS) { snprintf(PQerrormsg, PQERRORMSG_LENGTH, "CheckPAMAuth: Failed to create PAM authenticator: '%s'\n", pam_strerror(pamh, retval)); fputs(PQerrormsg, stderr); pqdebug("%s", PQerrormsg); pam_passwd = NULL; /* Unset pam_passwd */ return STATUS_ERROR; } if (retval == PAM_SUCCESS) retval = pam_set_item(pamh, PAM_USER, user); else { snprintf(PQerrormsg, PQERRORMSG_LENGTH, "CheckPAMAuth: pam_set_item(PAM_USER) failed: '%s'\n", pam_strerror(pamh, retval)); fputs(PQerrormsg, stderr); pqdebug("%s", PQerrormsg); pam_passwd = NULL; /* Unset pam_passwd */ return STATUS_ERROR; } if (retval == PAM_SUCCESS) retval = pam_set_item(pamh, PAM_CONV, &pam_passw_conv); else { snprintf(PQerrormsg, PQERRORMSG_LENGTH, "CheckPAMAuth: pam_set_item(PAM_CONV) failed: '%s'\n", pam_strerror(pamh, retval)); fputs(PQerrormsg, stderr); pqdebug("%s", PQerrormsg); pam_passwd = NULL; /* Unset pam_passwd */ return STATUS_ERROR; } if (retval == PAM_SUCCESS) retval = pam_authenticate(pamh, 0); else { snprintf(PQerrormsg, PQERRORMSG_LENGTH, "CheckPAMAuth: pam_authenticate failed: '%s'\n", pam_strerror(pamh, retval)); fputs(PQerrormsg, stderr); pqdebug("%s", PQerrormsg); pam_passwd = NULL; /* Unset pam_passwd */ return STATUS_ERROR; } if (retval == PAM_SUCCESS) retval = pam_acct_mgmt(pamh, 0); else { snprintf(PQerrormsg, PQERRORMSG_LENGTH, "CheckPAMAuth: pam_acct_mgmt failed: '%s'\n", pam_strerror(pamh, retval)); fputs(PQerrormsg, stderr); pqdebug("%s", PQerrormsg); pam_passwd = NULL; /* Unset pam_passwd */ return STATUS_ERROR; } if (retval == PAM_SUCCESS) { retval = pam_end(pamh, retval); if (retval != PAM_SUCCESS) { snprintf(PQerrormsg, PQERRORMSG_LENGTH, "CheckPAMAuth: Failed to release PAM authenticator: '%s'\n", pam_strerror(pamh, retval)); fputs(PQerrormsg, stderr); pqdebug("%s", PQerrormsg); } pam_passwd = NULL; /* Unset pam_passwd */ return (retval == PAM_SUCCESS ? STATUS_OK : STATUS_ERROR); } else return STATUS_ERROR; } #endif /* USE_PAM */ /* * Called when we have received the password packet. */ static int recv_and_check_password_packet(Port *port) { StringInfoData buf; int32 len; int result; if (pq_eof() == EOF || pq_getint(&len, 4) == EOF) return STATUS_EOF; /* client didn't want to send password */ initStringInfo(&buf); if (pq_getstr(&buf) == EOF) /* receive password */ { pfree(buf.data); return STATUS_EOF; } if (DebugLvl > 5) /* this is probably a BAD idea... */ fprintf(stderr, "received password packet with len=%d, pw=%s\n", len, buf.data); result = checkPassword(port, port->user, buf.data); pfree(buf.data); return result; } /* * Handle `password' and `crypt' records. If an auth argument was * specified, use the respective file. Else use pg_shadow passwords. */ static int checkPassword(Port *port, char *user, char *password) { if (port->auth_arg[0] != '\0') return verify_password(port, user, password); return md5_crypt_verify(port, user, password); } /* * Server demux routine for incoming authentication information for protocol * version 0. */ static int old_be_recvauth(Port *port) { int status; MsgType msgtype = (MsgType) port->proto; /* Handle the authentication that's offered. */ switch (msgtype) { case STARTUP_KRB4_MSG: status = map_old_to_new(port, uaKrb4, pg_krb4_recvauth(port)); break; case STARTUP_KRB5_MSG: status = map_old_to_new(port, uaKrb5, pg_krb5_recvauth(port)); break; case STARTUP_MSG: status = map_old_to_new(port, uaTrust, STATUS_OK); break; case STARTUP_PASSWORD_MSG: status = recv_and_check_passwordv0(port); break; default: fprintf(stderr, "Invalid startup message type: %u\n", msgtype); return STATUS_ERROR; } return status; } /* * The old style authentication has been done. Modify the result of this (eg. * allow the connection anyway, disallow it anyway, or use the result) * depending on what authentication we really want to use. */ static int map_old_to_new(Port *port, UserAuth old, int status) { switch (port->auth_method) { case uaMD5: case uaCrypt: case uaReject: #ifdef USE_PAM case uaPAM: #endif /* USE_PAM */ status = STATUS_ERROR; break; case uaKrb4: if (old != uaKrb4) status = STATUS_ERROR; break; case uaKrb5: if (old != uaKrb5) status = STATUS_ERROR; break; case uaTrust: status = STATUS_OK; break; case uaIdent: status = authident(port); break; case uaPassword: if (old != uaPassword) status = STATUS_ERROR; break; } return status; }