/* * SPDX-License-Identifier: ISC * * Copyright (c) 1999-2005, 2008-2020 Todd C. Miller * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. * * Sponsored in part by the Defense Advanced Research Projects * Agency (DARPA) and Air Force Research Laboratory, Air Force * Materiel Command, USAF, under agreement number F39502-99-1-0512. */ /* * This is an open source non-commercial project. Dear PVS-Studio, please check it. * PVS-Studio Static Code Analyzer for C, C++ and C#: http://www.viva64.com */ #include #include #include #include #if defined(HAVE_STDINT_H) # include #elif defined(HAVE_INTTYPES_H) # include #endif #include #include #include #include #include #include #include "sudo_auth.h" #include #include static sudo_auth auth_switch[] = { /* Standalone entries first */ #ifdef HAVE_AIXAUTH AUTH_ENTRY("aixauth", FLAG_STANDALONE, sudo_aix_init, NULL, sudo_aix_verify, NULL, sudo_aix_cleanup, NULL, NULL) #endif #ifdef HAVE_PAM AUTH_ENTRY("pam", FLAG_STANDALONE, sudo_pam_init, NULL, sudo_pam_verify, sudo_pam_approval, sudo_pam_cleanup, sudo_pam_begin_session, sudo_pam_end_session) #endif #ifdef HAVE_SECURID AUTH_ENTRY("SecurId", FLAG_STANDALONE, sudo_securid_init, sudo_securid_setup, sudo_securid_verify, NULL, NULL, NULL, NULL) #endif #ifdef HAVE_SIA_SES_INIT AUTH_ENTRY("sia", FLAG_STANDALONE, NULL, sudo_sia_setup, sudo_sia_verify, NULL, sudo_sia_cleanup, sudo_sia_begin_session, NULL) #endif #ifdef HAVE_FWTK AUTH_ENTRY("fwtk", FLAG_STANDALONE, sudo_fwtk_init, NULL, sudo_fwtk_verify, NULL, sudo_fwtk_cleanup, NULL, NULL) #endif #ifdef HAVE_BSD_AUTH_H AUTH_ENTRY("bsdauth", FLAG_STANDALONE, bsdauth_init, NULL, bsdauth_verify, bsdauth_approval, bsdauth_cleanup, NULL, NULL) #endif /* Non-standalone entries */ #ifndef WITHOUT_PASSWD AUTH_ENTRY("passwd", 0, sudo_passwd_init, NULL, sudo_passwd_verify, NULL, sudo_passwd_cleanup, NULL, NULL) #endif #if defined(HAVE_GETPRPWNAM) && !defined(WITHOUT_PASSWD) AUTH_ENTRY("secureware", 0, sudo_secureware_init, NULL, sudo_secureware_verify, NULL, sudo_secureware_cleanup, NULL, NULL) #endif #ifdef HAVE_AFS AUTH_ENTRY("afs", 0, NULL, NULL, sudo_afs_verify, NULL, NULL, NULL, NULL) #endif #ifdef HAVE_DCE AUTH_ENTRY("dce", 0, NULL, NULL, sudo_dce_verify, NULL, NULL, NULL, NULL) #endif #ifdef HAVE_KERB5 AUTH_ENTRY("kerb5", 0, sudo_krb5_init, sudo_krb5_setup, sudo_krb5_verify, NULL, sudo_krb5_cleanup, NULL, NULL) #endif #ifdef HAVE_SKEY AUTH_ENTRY("S/Key", 0, NULL, sudo_rfc1938_setup, sudo_rfc1938_verify, NULL, NULL, NULL, NULL) #endif #ifdef HAVE_OPIE AUTH_ENTRY("OPIE", 0, NULL, sudo_rfc1938_setup, sudo_rfc1938_verify, NULL, NULL, NULL, NULL) #endif AUTH_ENTRY(NULL, 0, NULL, NULL, NULL, NULL, NULL, NULL, NULL) }; static bool standalone; /* * Initialize sudoers authentication method(s). * Returns AUTH_SUCCESS on success and AUTH_ERROR on error. */ int sudo_auth_init(const struct sudoers_context *ctx, struct passwd *pw, unsigned int mode) { sudo_auth *auth; debug_decl(sudo_auth_init, SUDOERS_DEBUG_AUTH); if (auth_switch[0].name == NULL) debug_return_int(AUTH_SUCCESS); /* Initialize auth methods and unconfigure the method if necessary. */ for (auth = auth_switch; auth->name; auth++) { if (ISSET(mode, MODE_NONINTERACTIVE)) SET(auth->flags, FLAG_NONINTERACTIVE); if (auth->init && !IS_DISABLED(auth)) { /* Disable if it failed to init unless there was a fatal error. */ switch ((auth->init)(ctx, pw, auth)) { case AUTH_SUCCESS: break; case AUTH_FAILURE: SET(auth->flags, FLAG_DISABLED); break; default: /* Assume error msg already printed. */ debug_return_int(AUTH_ERROR); } } } /* * Make sure we haven't mixed standalone and shared auth methods. * If there are multiple standalone methods, only use the first one. */ if ((standalone = IS_STANDALONE(&auth_switch[0]))) { bool found = false; for (auth = auth_switch; auth->name; auth++) { if (IS_DISABLED(auth)) continue; if (!IS_STANDALONE(auth)) { audit_failure(ctx, ctx->runas.argv, N_("invalid authentication methods")); log_warningx(ctx, SLOG_SEND_MAIL, N_("Invalid authentication methods compiled into sudo! " "You may not mix standalone and non-standalone authentication.")); debug_return_int(AUTH_ERROR); } if (!found) { /* Found first standalone method. */ found = true; continue; } /* Disable other standalone methods. */ SET(auth->flags, FLAG_DISABLED); } } /* Set FLAG_ONEANDONLY if there is only one auth method. */ for (auth = auth_switch; auth->name; auth++) { /* Find first enabled auth method. */ if (!IS_DISABLED(auth)) { sudo_auth *first = auth; /* Check for others. */ for (; auth->name; auth++) { if (!IS_DISABLED(auth)) break; } if (auth->name == NULL) SET(first->flags, FLAG_ONEANDONLY); break; } } debug_return_int(AUTH_SUCCESS); } /* * Call all authentication approval methods, if any. * Returns AUTH_SUCCESS, AUTH_FAILURE or AUTH_ERROR. */ int sudo_auth_approval(const struct sudoers_context *ctx, struct passwd *pw, unsigned int validated, bool exempt) { int ret = AUTH_SUCCESS; sudo_auth *auth; debug_decl(sudo_auth_approval, SUDOERS_DEBUG_AUTH); /* Call approval routines. */ for (auth = auth_switch; auth->name; auth++) { if (auth->approval && !IS_DISABLED(auth)) { ret = (auth->approval)(ctx, pw, auth, exempt); if (ret != AUTH_SUCCESS) { /* Assume error msg already printed. */ log_auth_failure(ctx, validated, 0); break; } } } debug_return_int(ret); } /* * Cleanup all authentication methods. * Returns AUTH_SUCCESS on success and AUTH_ERROR on error. */ int sudo_auth_cleanup(const struct sudoers_context *ctx, struct passwd *pw, bool force) { sudo_auth *auth; debug_decl(sudo_auth_cleanup, SUDOERS_DEBUG_AUTH); /* Call cleanup routines. */ for (auth = auth_switch; auth->name; auth++) { if (auth->cleanup && !IS_DISABLED(auth)) { int status = (auth->cleanup)(ctx, pw, auth, force); if (status != AUTH_SUCCESS) { /* Assume error msg already printed. */ debug_return_int(AUTH_ERROR); } } } debug_return_int(AUTH_SUCCESS); } static void pass_warn(void) { const char *warning = def_badpass_message; debug_decl(pass_warn, SUDOERS_DEBUG_AUTH); #ifdef INSULT if (def_insults) warning = INSULT; #endif sudo_printf(SUDO_CONV_ERROR_MSG|SUDO_CONV_PREFER_TTY, "%s\n", warning); debug_return; } static bool user_interrupted(void) { sigset_t mask; return (sigpending(&mask) == 0 && (sigismember(&mask, SIGINT) || sigismember(&mask, SIGQUIT))); } /* * Called when getpass is suspended so we can drop the lock. */ static int getpass_suspend(int signo, void *vclosure) { struct getpass_closure *closure = vclosure; timestamp_close(closure->cookie); closure->cookie = NULL; return 0; } /* * Called when getpass is resumed so we can reacquire the lock. */ static int getpass_resume(int signo, void *vclosure) { struct getpass_closure *closure = vclosure; closure->cookie = timestamp_open(closure->ctx); if (closure->cookie == NULL) return -1; if (!timestamp_lock(closure->cookie, closure->auth_pw)) return -1; return 0; } /* * Verify the specified user. * Returns AUTH_SUCCESS, AUTH_FAILURE or AUTH_ERROR. */ int verify_user(const struct sudoers_context *ctx, struct passwd *pw, char *prompt, unsigned int validated, struct sudo_conv_callback *callback) { struct sigaction sa, saved_sigtstp; int ret = AUTH_FAILURE; unsigned int ntries; sigset_t mask, omask; sudo_auth *auth; debug_decl(verify_user, SUDOERS_DEBUG_AUTH); /* Make sure we have at least one auth method. */ if (auth_switch[0].name == NULL) { audit_failure(ctx, ctx->runas.argv, N_("no authentication methods")); log_warningx(ctx, SLOG_SEND_MAIL, N_("There are no authentication methods compiled into sudo! " "If you want to turn off authentication, use the " "--disable-authentication configure option.")); debug_return_int(AUTH_ERROR); } /* Enable suspend during password entry. */ callback->on_suspend = getpass_suspend; callback->on_resume = getpass_resume; sigemptyset(&sa.sa_mask); sa.sa_flags = SA_RESTART; sa.sa_handler = SIG_DFL; (void) sigaction(SIGTSTP, &sa, &saved_sigtstp); /* * We treat authentication as a critical section and block * keyboard-generated signals such as SIGINT and SIGQUIT * which might otherwise interrupt a sleep(3). * They are temporarily unblocked by auth_getpass(). */ sigemptyset(&mask); sigaddset(&mask, SIGINT); sigaddset(&mask, SIGQUIT); (void) sigprocmask(SIG_BLOCK, &mask, &omask); for (ntries = 0; ntries < def_passwd_tries; ntries++) { int num_methods = 0; char *pass = NULL; /* If user attempted to interrupt password verify, quit now. */ if (user_interrupted()) goto done; if (ntries != 0) pass_warn(); /* Do any per-method setup and unconfigure the method if needed */ for (auth = auth_switch; auth->name; auth++) { if (IS_DISABLED(auth)) continue; num_methods++; if (auth->setup != NULL) { switch ((auth->setup)(ctx, pw, &prompt, auth)) { case AUTH_SUCCESS: if (user_interrupted()) goto done; /* assume error msg already printed */ break; case AUTH_FAILURE: SET(auth->flags, FLAG_DISABLED); break; case AUTH_NONINTERACTIVE: /* Non-interactive mode, cannot prompt user. */ goto done; default: ret = AUTH_ERROR; goto done; } } } if (num_methods == 0) { audit_failure(ctx, ctx->runas.argv, N_("no authentication methods")); log_warningx(ctx, SLOG_SEND_MAIL, N_("Unable to initialize authentication methods.")); debug_return_int(AUTH_ERROR); } /* Get the password unless the auth function will do it for us */ if (!standalone) { if (IS_NONINTERACTIVE(&auth_switch[0])) { ret = AUTH_NONINTERACTIVE; goto done; } pass = auth_getpass(prompt, SUDO_CONV_PROMPT_ECHO_OFF, callback); if (pass == NULL) break; } /* Call authentication functions. */ for (auth = auth_switch; auth->name; auth++) { if (IS_DISABLED(auth)) continue; ret = auth->status = (auth->verify)(ctx, pw, standalone ? prompt : pass, auth, callback); if (ret != AUTH_FAILURE) break; } if (pass != NULL) freezero(pass, strlen(pass)); if (ret != AUTH_FAILURE) goto done; } done: /* Restore signal handlers and signal mask. */ (void) sigaction(SIGTSTP, &saved_sigtstp, NULL); (void) sigprocmask(SIG_SETMASK, &omask, NULL); switch (ret) { case AUTH_SUCCESS: break; case AUTH_INTR: ret = AUTH_FAILURE; FALLTHROUGH; case AUTH_FAILURE: if (ntries != 0) SET(validated, FLAG_BAD_PASSWORD); log_auth_failure(ctx, validated, ntries); break; case AUTH_NONINTERACTIVE: SET(validated, FLAG_NO_USER_INPUT); FALLTHROUGH; default: log_auth_failure(ctx, validated, 0); ret = AUTH_ERROR; break; } debug_return_int(ret); } /* * Call authentication method begin session hooks. * Returns true on success, false on failure and -1 on error. */ int sudo_auth_begin_session(const struct sudoers_context *ctx, struct passwd *pw, char **user_env[]) { sudo_auth *auth; int ret = true; debug_decl(sudo_auth_begin_session, SUDOERS_DEBUG_AUTH); for (auth = auth_switch; auth->name; auth++) { if (auth->begin_session && !IS_DISABLED(auth)) { int status = (auth->begin_session)(ctx, pw, user_env, auth); switch (status) { case AUTH_SUCCESS: break; case AUTH_FAILURE: ret = false; break; default: /* Assume error msg already printed. */ ret = -1; break; } } } debug_return_int(ret); } bool sudo_auth_needs_end_session(void) { sudo_auth *auth; bool needed = false; debug_decl(sudo_auth_needs_end_session, SUDOERS_DEBUG_AUTH); for (auth = auth_switch; auth->name; auth++) { if (auth->end_session && !IS_DISABLED(auth)) { needed = true; break; } } debug_return_bool(needed); } /* * Call authentication method end session hooks. * Returns true on success, false on failure and -1 on error. */ int sudo_auth_end_session(void) { sudo_auth *auth; int ret = true; int status; debug_decl(sudo_auth_end_session, SUDOERS_DEBUG_AUTH); for (auth = auth_switch; auth->name; auth++) { if (auth->end_session && !IS_DISABLED(auth)) { status = (auth->end_session)(auth); switch (status) { case AUTH_SUCCESS: break; case AUTH_FAILURE: ret = false; break; default: /* Assume error msg already printed. */ ret = -1; break; } } } debug_return_int(ret); } /* * Prompts the user for a password using the conversation function. * Returns the plaintext password or NULL. * The user is responsible for freeing the returned value. */ char * auth_getpass(const char *prompt, int type, struct sudo_conv_callback *callback) { struct sudo_conv_message msg; struct sudo_conv_reply repl; sigset_t mask, omask; debug_decl(auth_getpass, SUDOERS_DEBUG_AUTH); /* Display lecture if needed and we haven't already done so. */ display_lecture(callback); /* Mask user input if pwfeedback set and echo is off. */ if (type == SUDO_CONV_PROMPT_ECHO_OFF && def_pwfeedback) type = SUDO_CONV_PROMPT_MASK; /* If visiblepw set, do not error out if there is no tty. */ if (def_visiblepw) type |= SUDO_CONV_PROMPT_ECHO_OK; /* Unblock SIGINT and SIGQUIT during password entry. */ /* XXX - do in tgetpass() itself instead? */ sigemptyset(&mask); sigaddset(&mask, SIGINT); sigaddset(&mask, SIGQUIT); (void) sigprocmask(SIG_UNBLOCK, &mask, &omask); /* Call conversation function. */ memset(&msg, 0, sizeof(msg)); msg.msg_type = type; msg.timeout = (int)def_passwd_timeout.tv_sec; msg.msg = prompt; memset(&repl, 0, sizeof(repl)); sudo_conv(1, &msg, &repl, callback); /* XXX - check for ENOTTY? */ /* Restore previous signal mask. */ (void) sigprocmask(SIG_SETMASK, &omask, NULL); debug_return_str_masked(repl.reply); } void dump_auth_methods(void) { sudo_auth *auth; debug_decl(dump_auth_methods, SUDOERS_DEBUG_AUTH); sudo_printf(SUDO_CONV_INFO_MSG, _("Authentication methods:")); for (auth = auth_switch; auth->name; auth++) sudo_printf(SUDO_CONV_INFO_MSG, " '%s'", auth->name); sudo_printf(SUDO_CONV_INFO_MSG, "\n"); debug_return; }