/* * OpenVPN -- An application to securely tunnel IP networks * over a single TCP/UDP port, with support for SSL/TLS-based * session authentication and key exchange, * packet encryption, packet authentication, and * packet compression. * * Copyright (C) 2002-2005 OpenVPN Solutions LLC * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 * as published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program (see the file COPYING included with this * distribution); if not, write to the Free Software Foundation, Inc., * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ /* * OpenVPN plugin module to do PAM authentication using a split * privilege model. */ #if DLOPEN_PAM #include #include "pamdl.h" #else #include #endif #include #include #include #include #include #include #include #include #include #include #include #include "openvpn-plugin.h" #define DEBUG(verb) ((verb) >= 4) /* Command codes for foreground -> background communication */ #define COMMAND_VERIFY 0 #define COMMAND_EXIT 1 /* Response codes for background -> foreground communication */ #define RESPONSE_INIT_SUCCEEDED 10 #define RESPONSE_INIT_FAILED 11 #define RESPONSE_VERIFY_SUCCEEDED 12 #define RESPONSE_VERIFY_FAILED 13 /* * Plugin state, used by foreground */ struct auth_pam_context { /* Foreground's socket to background process */ int foreground_fd; /* Process ID of background process */ pid_t background_pid; /* Verbosity level of OpenVPN */ int verb; }; /* * Name/Value pairs for conversation function. * Special Values: * * "USERNAME" -- substitute client-supplied username * "PASSWORD" -- substitute client-specified password */ #define N_NAME_VALUE 16 struct name_value { const char *name; const char *value; }; struct name_value_list { int len; struct name_value data[N_NAME_VALUE]; }; /* * Used to pass the username/password * to the PAM conversation function. */ struct user_pass { int verb; char username[128]; char password[128]; const struct name_value_list *name_value_list; }; /* Background process function */ static void pam_server (int fd, const char *service, int verb, const struct name_value_list *name_value_list); /* * Given an environmental variable name, search * the envp array for its value, returning it * if found or NULL otherwise. */ static const char * get_env (const char *name, const char *envp[]) { if (envp) { int i; const int namelen = strlen (name); for (i = 0; envp[i]; ++i) { if (!strncmp (envp[i], name, namelen)) { const char *cp = envp[i] + namelen; if (*cp == '=') return cp + 1; } } } return NULL; } /* * Return the length of a string array */ static int string_array_len (const char *array[]) { int i = 0; if (array) { while (array[i]) ++i; } return i; } /* * Socket read/write functions. */ static int recv_control (int fd) { unsigned char c; const ssize_t size = read (fd, &c, sizeof (c)); if (size == sizeof (c)) return c; else { /*fprintf (stderr, "AUTH-PAM: DEBUG recv_control.read=%d\n", (int)size);*/ return -1; } } static int send_control (int fd, int code) { unsigned char c = (unsigned char) code; const ssize_t size = write (fd, &c, sizeof (c)); if (size == sizeof (c)) return (int) size; else return -1; } static int recv_string (int fd, char *buffer, int len) { if (len > 0) { ssize_t size; memset (buffer, 0, len); size = read (fd, buffer, len); buffer[len-1] = 0; if (size >= 1) return (int)size; } return -1; } static int send_string (int fd, const char *string) { const int len = strlen (string) + 1; const ssize_t size = write (fd, string, len); if (size == len) return (int) size; else return -1; } #ifdef DO_DAEMONIZE /* * Daemonize if "daemon" env var is true. * Preserve stderr across daemonization if * "daemon_log_redirect" env var is true. */ static void daemonize (const char *envp[]) { const char *daemon_string = get_env ("daemon", envp); if (daemon_string && daemon_string[0] == '1') { const char *log_redirect = get_env ("daemon_log_redirect", envp); int fd = -1; if (log_redirect && log_redirect[0] == '1') fd = dup (2); if (daemon (0, 0) < 0) { fprintf (stderr, "AUTH-PAM: daemonization failed\n"); } else if (fd >= 3) { dup2 (fd, 2); close (fd); } } } #endif /* * Close most of parent's fds. * Keep stdin/stdout/stderr, plus one * other fd which is presumed to be * our pipe back to parent. * Admittedly, a bit of a kludge, * but posix doesn't give us a kind * of FD_CLOEXEC which will stop * fds from crossing a fork(). */ static void close_fds_except (int keep) { int i; closelog (); for (i = 3; i <= 100; ++i) { if (i != keep) close (i); } } /* * Usually we ignore signals, because our parent will * deal with them. */ static void set_signals (void) { signal (SIGTERM, SIG_DFL); signal (SIGINT, SIG_IGN); signal (SIGHUP, SIG_IGN); signal (SIGUSR1, SIG_IGN); signal (SIGUSR2, SIG_IGN); signal (SIGPIPE, SIG_IGN); } /* * Return 1 if query matches match. */ static int name_value_match (const char *query, const char *match) { while (!isalnum (*query)) { if (*query == '\0') return 0; ++query; } return strncasecmp (match, query, strlen (match)) == 0; } OPENVPN_EXPORT openvpn_plugin_handle_t openvpn_plugin_open_v1 (unsigned int *type_mask, const char *argv[], const char *envp[]) { pid_t pid; int fd[2]; struct auth_pam_context *context; struct name_value_list name_value_list; const int base_parms = 2; /* * Allocate our context */ context = (struct auth_pam_context *) calloc (1, sizeof (struct auth_pam_context)); context->foreground_fd = -1; /* * Intercept the --auth-user-pass-verify callback. */ *type_mask = OPENVPN_PLUGIN_MASK (OPENVPN_PLUGIN_AUTH_USER_PASS_VERIFY); /* * Make sure we have two string arguments: the first is the .so name, * the second is the PAM service type. */ if (string_array_len (argv) < base_parms) { fprintf (stderr, "AUTH-PAM: need PAM service parameter\n"); goto error; } /* * See if we have optional name/value pairs to match against * PAM module queried fields in the conversation function. */ name_value_list.len = 0; if (string_array_len (argv) > base_parms) { const int nv_len = string_array_len (argv) - base_parms; int i; if ((nv_len & 1) == 1 || (nv_len / 2) > N_NAME_VALUE) { fprintf (stderr, "AUTH-PAM: bad name/value list length\n"); goto error; } name_value_list.len = nv_len / 2; for (i = 0; i < name_value_list.len; ++i) { const int base = base_parms + i * 2; name_value_list.data[i].name = argv[base]; name_value_list.data[i].value = argv[base+1]; } } /* * Get verbosity level from environment */ { const char *verb_string = get_env ("verb", envp); if (verb_string) context->verb = atoi (verb_string); } /* * Make a socket for foreground and background processes * to communicate. */ if (socketpair (PF_UNIX, SOCK_DGRAM, 0, fd) == -1) { fprintf (stderr, "AUTH-PAM: socketpair call failed\n"); goto error; } /* * Fork off the privileged process. It will remain privileged * even after the foreground process drops its privileges. */ pid = fork (); if (pid) { int status; /* * Foreground Process */ context->background_pid = pid; /* close our copy of child's socket */ close (fd[1]); /* don't let future subprocesses inherit child socket */ if (fcntl (fd[0], F_SETFD, FD_CLOEXEC) < 0) fprintf (stderr, "AUTH-PAM: Set FD_CLOEXEC flag on socket file descriptor failed\n"); /* wait for background child process to initialize */ status = recv_control (fd[0]); if (status == RESPONSE_INIT_SUCCEEDED) { context->foreground_fd = fd[0]; return (openvpn_plugin_handle_t) context; } } else { /* * Background Process */ /* close all parent fds except our socket back to parent */ close_fds_except (fd[1]); /* Ignore most signals (the parent will receive them) */ set_signals (); #ifdef DO_DAEMONIZE /* Daemonize if --daemon option is set. */ daemonize (envp); #endif /* execute the event loop */ pam_server (fd[1], argv[1], context->verb, &name_value_list); close (fd[1]); exit (0); return 0; /* NOTREACHED */ } error: if (context) free (context); return NULL; } OPENVPN_EXPORT int openvpn_plugin_func_v1 (openvpn_plugin_handle_t handle, const int type, const char *argv[], const char *envp[]) { struct auth_pam_context *context = (struct auth_pam_context *) handle; if (type == OPENVPN_PLUGIN_AUTH_USER_PASS_VERIFY && context->foreground_fd >= 0) { /* get username/password from envp string array */ const char *username = get_env ("username", envp); const char *password = get_env ("password", envp); if (username && strlen (username) > 0 && password) { if (send_control (context->foreground_fd, COMMAND_VERIFY) == -1 || send_string (context->foreground_fd, username) == -1 || send_string (context->foreground_fd, password) == -1) { fprintf (stderr, "AUTH-PAM: Error sending auth info to background process\n"); } else { const int status = recv_control (context->foreground_fd); if (status == RESPONSE_VERIFY_SUCCEEDED) return OPENVPN_PLUGIN_FUNC_SUCCESS; if (status == -1) fprintf (stderr, "AUTH-PAM: Error receiving auth confirmation from background process\n"); } } } return OPENVPN_PLUGIN_FUNC_ERROR; } OPENVPN_EXPORT void openvpn_plugin_close_v1 (openvpn_plugin_handle_t handle) { struct auth_pam_context *context = (struct auth_pam_context *) handle; if (DEBUG (context->verb)) fprintf (stderr, "AUTH-PAM: close\n"); if (context->foreground_fd >= 0) { /* tell background process to exit */ if (send_control (context->foreground_fd, COMMAND_EXIT) == -1) fprintf (stderr, "AUTH-PAM: Error signaling background process to exit\n"); /* wait for background process to exit */ if (context->background_pid > 0) waitpid (context->background_pid, NULL, 0); close (context->foreground_fd); context->foreground_fd = -1; } free (context); } OPENVPN_EXPORT void openvpn_plugin_abort_v1 (openvpn_plugin_handle_t handle) { struct auth_pam_context *context = (struct auth_pam_context *) handle; /* tell background process to exit */ if (context->foreground_fd >= 0) { send_control (context->foreground_fd, COMMAND_EXIT); close (context->foreground_fd); context->foreground_fd = -1; } } /* * PAM conversation function */ static int my_conv (int n, const struct pam_message **msg_array, struct pam_response **response_array, void *appdata_ptr) { const struct user_pass *up = ( const struct user_pass *) appdata_ptr; struct pam_response *aresp; int i; int ret = PAM_SUCCESS; *response_array = NULL; if (n <= 0 || n > PAM_MAX_NUM_MSG) return (PAM_CONV_ERR); if ((aresp = calloc (n, sizeof *aresp)) == NULL) return (PAM_BUF_ERR); /* loop through each PAM-module query */ for (i = 0; i < n; ++i) { const struct pam_message *msg = msg_array[i]; aresp[i].resp_retcode = 0; aresp[i].resp = NULL; if (DEBUG (up->verb)) { fprintf (stderr, "AUTH-PAM: BACKGROUND: my_conv[%d] query='%s' style=%d\n", i, msg->msg ? msg->msg : "NULL", msg->msg_style); } if (up->name_value_list && up->name_value_list->len > 0) { /* use name/value list match method */ const struct name_value_list *list = up->name_value_list; int j; /* loop through name/value pairs */ for (j = 0; j < list->len; ++j) { const char *match_name = list->data[j].name; const char *match_value = list->data[j].value; if (name_value_match (msg->msg, match_name)) { /* found name/value match */ const char *return_value = NULL; if (DEBUG (up->verb)) fprintf (stderr, "AUTH-PAM: BACKGROUND: name match found, query/match-string ['%s', '%s'] = '%s'\n", msg->msg, match_name, match_value); if (!strcmp (match_value, "USERNAME")) return_value = up->username; else if (!strcmp (match_value, "PASSWORD")) return_value = up->password; else return_value = match_value; aresp[i].resp = strdup (return_value); if (aresp[i].resp == NULL) ret = PAM_CONV_ERR; break; } } if (j == list->len) ret = PAM_CONV_ERR; } else { /* use PAM_PROMPT_ECHO_x hints */ switch (msg->msg_style) { case PAM_PROMPT_ECHO_OFF: aresp[i].resp = strdup (up->password); if (aresp[i].resp == NULL) ret = PAM_CONV_ERR; break; case PAM_PROMPT_ECHO_ON: aresp[i].resp = strdup (up->username); if (aresp[i].resp == NULL) ret = PAM_CONV_ERR; break; case PAM_ERROR_MSG: case PAM_TEXT_INFO: break; default: ret = PAM_CONV_ERR; break; } } } if (ret == PAM_SUCCESS) *response_array = aresp; return ret; } /* * Return 1 if authenticated and 0 if failed. * Called once for every username/password * to be authenticated. */ static int pam_auth (const char *service, const struct user_pass *up) { struct pam_conv conv; pam_handle_t *pamh = NULL; int status = PAM_SUCCESS; int ret = 0; const int name_value_list_provided = (up->name_value_list && up->name_value_list->len > 0); /* Initialize PAM */ conv.conv = my_conv; conv.appdata_ptr = (void *)up; status = pam_start (service, name_value_list_provided ? NULL : up->username, &conv, &pamh); if (status == PAM_SUCCESS) { /* Call PAM to verify username/password */ status = pam_authenticate(pamh, 0); if (status == PAM_SUCCESS) status = pam_acct_mgmt (pamh, 0); if (status == PAM_SUCCESS) ret = 1; /* Output error message if failed */ if (!ret) { fprintf (stderr, "AUTH-PAM: BACKGROUND: user '%s' failed to authenticate: %s\n", up->username, pam_strerror (pamh, status)); } /* Close PAM */ pam_end (pamh, status); } return ret; } /* * Background process -- runs with privilege. */ static void pam_server (int fd, const char *service, int verb, const struct name_value_list *name_value_list) { struct user_pass up; int command; #if DLOPEN_PAM static const char pam_so[] = "libpam.so"; #endif /* * Do initialization */ if (DEBUG (verb)) fprintf (stderr, "AUTH-PAM: BACKGROUND: INIT service='%s'\n", service); #if DLOPEN_PAM /* * Load PAM shared object */ if (!dlopen_pam (pam_so)) { fprintf (stderr, "AUTH-PAM: BACKGROUND: could not load PAM lib %s: %s\n", pam_so, dlerror()); send_control (fd, RESPONSE_INIT_FAILED); goto done; } #endif /* * Tell foreground that we initialized successfully */ if (send_control (fd, RESPONSE_INIT_SUCCEEDED) == -1) { fprintf (stderr, "AUTH-PAM: BACKGROUND: write error on response socket [1]\n"); goto done; } /* * Event loop */ while (1) { memset (&up, 0, sizeof (up)); up.verb = verb; up.name_value_list = name_value_list; /* get a command from foreground process */ command = recv_control (fd); if (DEBUG (verb)) fprintf (stderr, "AUTH-PAM: BACKGROUND: received command code: %d\n", command); switch (command) { case COMMAND_VERIFY: if (recv_string (fd, up.username, sizeof (up.username)) == -1 || recv_string (fd, up.password, sizeof (up.password)) == -1) { fprintf (stderr, "AUTH-PAM: BACKGROUND: read error on command channel: code=%d, exiting\n", command); goto done; } if (DEBUG (verb)) { #if 0 fprintf (stderr, "AUTH-PAM: BACKGROUND: USER/PASS: %s/%s\n", up.username, up.password); #else fprintf (stderr, "AUTH-PAM: BACKGROUND: USER: %s\n", up.username); #endif } if (pam_auth (service, &up)) /* Succeeded */ { if (send_control (fd, RESPONSE_VERIFY_SUCCEEDED) == -1) { fprintf (stderr, "AUTH-PAM: BACKGROUND: write error on response socket [2]\n"); goto done; } } else /* Failed */ { if (send_control (fd, RESPONSE_VERIFY_FAILED) == -1) { fprintf (stderr, "AUTH-PAM: BACKGROUND: write error on response socket [3]\n"); goto done; } } break; case COMMAND_EXIT: goto done; case -1: fprintf (stderr, "AUTH-PAM: BACKGROUND: read error on command channel\n"); goto done; default: fprintf (stderr, "AUTH-PAM: BACKGROUND: unknown command code: code=%d, exiting\n", command); goto done; } } done: #if DLOPEN_PAM dlclose_pam (); #endif if (DEBUG (verb)) fprintf (stderr, "AUTH-PAM: BACKGROUND: EXIT\n"); return; }