/* Copyright 1988, 1998 The Open Group Permission to use, copy, modify, distribute, and sell this software and its documentation for any purpose is hereby granted without fee, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation. The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of The Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The Open Group. */ /* * Copyright (c) 2006, Oracle and/or its affiliates. All rights reserved. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice (including the next * paragraph) shall be included in all copies or substantial portions of the * Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER * DEALINGS IN THE SOFTWARE. */ /* * xdm - display manager daemon * Author: Keith Packard, X Consortium * * widget to get username/password * */ #ifdef HAVE_CONFIG_H # include "config.h" #endif #include #include #include #include #ifdef USE_XINERAMA # include #endif #include "dm.h" #include "dm_error.h" #include "greet.h" #include "LoginP.h" #if defined(HAVE_OPENLOG) && defined(HAVE_SYSLOG_H) # define USE_SYSLOG # include # ifndef LOG_AUTHPRIV # define LOG_AUTHPRIV LOG_AUTH # endif # ifndef LOG_PID # define LOG_PID 0 # endif #endif #include #if defined(SECURE_RPC) && defined(sun) /* Go figure, there's no getdomainname() prototype available */ extern int getdomainname(char *name, size_t len); #endif /* * Function pointers filled in by the initial call ito the library */ #ifdef GREET_LIB int (*__xdm_PingServer)(struct display *d, Display *alternateDpy) = NULL; void (*__xdm_SessionPingFailed)(struct display *d) = NULL; void (*__xdm_Debug)(const char * fmt, ...) = NULL; void (*__xdm_RegisterCloseOnFork)(int fd) = NULL; void (*__xdm_SecureDisplay)(struct display *d, Display *dpy) = NULL; void (*__xdm_UnsecureDisplay)(struct display *d, Display *dpy) = NULL; void (*__xdm_ClearCloseOnFork)(int fd) = NULL; void (*__xdm_SetupDisplay)(struct display *d) = NULL; void (*__xdm_LogError)(const char * fmt, ...) = NULL; void (*__xdm_SessionExit)(struct display *d, int status, int removeAuth) = NULL; void (*__xdm_DeleteXloginResources)(struct display *d, Display *dpy) = NULL; int (*__xdm_source)(char **environ, char *file) = NULL; char **(*__xdm_defaultEnv)(void) = NULL; char **(*__xdm_setEnv)(char **e, const char *name, const char *value) = NULL; char **(*__xdm_putEnv)(const char *string, char **env) = NULL; char **(*__xdm_parseArgs)(char **argv, const char *string) = NULL; void (*__xdm_printEnv)(char **e) = NULL; char **(*__xdm_systemEnv)(struct display *d, char *user, char *home) = NULL; void (*__xdm_LogOutOfMem)(const char * fmt, ...) = NULL; void (*__xdm_setgrent)(void) = NULL; struct group *(*__xdm_getgrent)(void) = NULL; void (*__xdm_endgrent)(void) = NULL; # ifdef HAVE_GETSPNAM struct spwd *(*__xdm_getspnam)(GETSPNAM_ARGS) = NULL; # ifndef QNX4 void (*__xdm_endspent)(void) = NULL; # endif /* QNX4 doesn't use endspent */ # endif struct passwd *(*__xdm_getpwnam)(GETPWNAM_ARGS) = NULL; # if defined(linux) || defined(__GLIBC__) void (*__xdm_endpwent)(void) = NULL; # endif char *(*__xdm_crypt)(CRYPT_ARGS) = NULL; # ifdef USE_PAM pam_handle_t **(*__xdm_thepamhp)(void) = NULL; # endif #endif #ifdef SECURE_RPC # include # include #endif #ifdef K5AUTH # include #endif static int done, code; #ifndef USE_PAM static char name[NAME_LEN], password[PASSWORD_LEN]; #endif static Widget toplevel; static Widget login; static XtAppContext context; static XtIntervalId pingTimeout; #ifdef USE_PAM static int pamconv(int num_msg, # ifndef sun const # endif struct pam_message **msg, struct pam_response **response, void *appdata_ptr); # define PAM_ERROR_PRINT(pamfunc, pamh) \ LogError("%s failure: %s\n", pamfunc, pam_strerror(pamh, pam_error)) struct myconv_data { struct display *d; struct greet_info *greet; char *username_display; }; #endif /*ARGSUSED*/ static void GreetPingServer ( XtPointer closure, XtIntervalId *intervalId) { struct display *d; d = (struct display *) closure; if (!PingServer (d, XtDisplay (toplevel))) SessionPingFailed (d); pingTimeout = XtAppAddTimeOut (context, d->pingInterval * 60 * 1000, GreetPingServer, (closure)); } /*ARGSUSED*/ static void GreetDone ( Widget w, LoginData *data, int status) { Debug ("GreetDone: %s, (password is %d long)\n", data->name, strlen (data->passwd)); switch (status) { case NOTIFY_OK: #ifndef USE_PAM strncpy (name, data->name, sizeof(name)); name[sizeof(name)-1] = '\0'; strncpy (password, data->passwd, sizeof(password)); password[sizeof(password)-1] = '\0'; #endif code = 0; done = 1; break; case NOTIFY_ABORT: Debug ("RESERVER_DISPLAY\n"); code = RESERVER_DISPLAY; done = 1; break; case NOTIFY_RESTART: Debug ("REMANAGE_DISPLAY\n"); code = REMANAGE_DISPLAY; done = 1; break; case NOTIFY_ABORT_DISPLAY: Debug ("UNMANAGE_DISPLAY\n"); code = UNMANAGE_DISPLAY; done = 1; break; } #ifndef USE_PAM if (done) { bzero (data->name, NAME_LEN); bzero (data->passwd, PASSWORD_LEN); } #endif } static Display * InitGreet (struct display *d) { Arg arglist[10]; int i; static int argc; Screen *scrn; static char *argv[] = { "xlogin", NULL }; Display *dpy; #ifdef USE_XINERAMA XineramaScreenInfo *screens; int s_num; #endif Debug ("greet %s\n", d->name); argc = 1; XtToolkitInitialize (); context = XtCreateApplicationContext(); dpy = XtOpenDisplay (context, d->name, "xlogin", "Xlogin", NULL, 0, &argc, argv); if (!dpy) return NULL; #ifdef XKB { int opcode, evbase, errbase, majret, minret; unsigned int value = XkbPCF_GrabsUseXKBStateMask; if (XkbQueryExtension (dpy, &opcode, &evbase, &errbase, &majret, &minret)) { if (!XkbSetPerClientControls (dpy, XkbPCF_GrabsUseXKBStateMask, &value)) LogError ("%s\n", "SetPerClientControls failed"); } } #endif RegisterCloseOnFork (ConnectionNumber (dpy)); SecureDisplay (d, dpy); i = 0; scrn = XDefaultScreenOfDisplay(dpy); XtSetArg(arglist[i], XtNscreen, scrn); i++; XtSetArg(arglist[i], XtNargc, argc); i++; XtSetArg(arglist[i], XtNargv, argv); i++; toplevel = XtAppCreateShell ((String) NULL, "Xlogin", applicationShellWidgetClass, dpy, arglist, i); i = 0; XtSetArg (arglist[i], XtNnotifyDone, (XtPointer)GreetDone); i++; if (!d->authorize || d->authorizations || !d->authComplain) { XtSetArg (arglist[i], XtNsecureSession, True); i++; } login = XtCreateManagedWidget ("login", loginWidgetClass, toplevel, arglist, i); XtRealizeWidget (toplevel); #ifdef USE_XINERAMA if ( XineramaIsActive(dpy) && (screens = XineramaQueryScreens(dpy, &s_num)) != NULL ) { XWarpPointer(dpy, None, XRootWindowOfScreen (scrn), 0, 0, 0, 0, screens[0].x_org + screens[0].width / 2, screens[0].y_org + screens[0].height / 2); XFree(screens); } else #endif XWarpPointer(dpy, None, XRootWindowOfScreen (scrn), 0, 0, 0, 0, XWidthOfScreen(scrn) / 2, XHeightOfScreen(scrn) / 2); if (d->pingInterval) { pingTimeout = XtAppAddTimeOut (context, d->pingInterval * 60 * 1000, GreetPingServer, (XtPointer) d); } return dpy; } static void CloseGreet (struct display *d) { Boolean allow; Arg arglist[1]; Display *dpy = XtDisplay(toplevel); if (pingTimeout) { XtRemoveTimeOut (pingTimeout); pingTimeout = 0; } UnsecureDisplay (d, dpy); XtSetArg (arglist[0], XtNallowAccess, (char *) &allow); XtGetValues (login, arglist, 1); if (allow) { Debug ("Disabling access control\n"); XSetAccessControl (dpy, DisableAccess); } XtDestroyWidget (toplevel); toplevel = NULL; login = NULL; /* child of toplevel, which we just destroyed */ ClearCloseOnFork (XConnectionNumber (dpy)); XCloseDisplay (dpy); Debug ("Greet connection closed\n"); } #define WHITESPACE 0 #define ARGUMENT 1 static int Greet (struct display *d, struct greet_info *greet) { XEvent event; Arg arglist[1]; XtSetArg (arglist[0], XtNallowAccess, False); XtSetValues (login, arglist, 1); Debug ("dispatching %s\n", d->name); done = 0; while (!done) { XtAppNextEvent (context, &event); switch (event.type) { case MappingNotify: XRefreshKeyboardMapping(&event.xmapping); break; default: XtDispatchEvent (&event); break; } } XFlush (XtDisplay (toplevel)); Debug ("Done dispatch %s\n", d->name); if (code == 0) { #ifndef USE_PAM char *ptr; unsigned int c,state = WHITESPACE; /* * Process the name string to get rid of white spaces. */ for (ptr = name; state == WHITESPACE; ptr++) { c = (unsigned int)(*ptr); if (c == ' ') continue; state = ARGUMENT; break; } greet->name = ptr; greet->password = password; #endif /* USE_PAM */ XtSetArg (arglist[0], XtNsessionArgument, (char *) &(greet->string)); XtGetValues (login, arglist, 1); Debug ("sessionArgument: %s\n", greet->string ? greet->string : ""); } return code; } static void FailedLogin (struct display *d, const char *username) { #ifdef USE_SYSLOG if (username == NULL) username = "username unavailable"; syslog(LOG_AUTHPRIV|LOG_NOTICE, "LOGIN FAILURE ON %s, %s", d->name, username); #endif DrawFail (login); } _X_EXPORT greet_user_rtn GreetUser( struct display *d, Display ** dpy, struct verify_info *verify, struct greet_info *greet, struct dlfuncs *dlfuncs) { int i; Arg arglist[2]; #ifdef GREET_LIB /* * These must be set before they are used. */ __xdm_PingServer = dlfuncs->_PingServer; __xdm_SessionPingFailed = dlfuncs->_SessionPingFailed; __xdm_Debug = dlfuncs->_Debug; __xdm_RegisterCloseOnFork = dlfuncs->_RegisterCloseOnFork; __xdm_SecureDisplay = dlfuncs->_SecureDisplay; __xdm_UnsecureDisplay = dlfuncs->_UnsecureDisplay; __xdm_ClearCloseOnFork = dlfuncs->_ClearCloseOnFork; __xdm_SetupDisplay = dlfuncs->_SetupDisplay; __xdm_LogError = dlfuncs->_LogError; __xdm_SessionExit = dlfuncs->_SessionExit; __xdm_DeleteXloginResources = dlfuncs->_DeleteXloginResources; __xdm_source = dlfuncs->_source; __xdm_defaultEnv = dlfuncs->_defaultEnv; __xdm_setEnv = dlfuncs->_setEnv; __xdm_putEnv = dlfuncs->_putEnv; __xdm_parseArgs = dlfuncs->_parseArgs; __xdm_printEnv = dlfuncs->_printEnv; __xdm_systemEnv = dlfuncs->_systemEnv; __xdm_LogOutOfMem = dlfuncs->_LogOutOfMem; __xdm_setgrent = dlfuncs->_setgrent; __xdm_getgrent = dlfuncs->_getgrent; __xdm_endgrent = dlfuncs->_endgrent; # ifdef HAVE_GETSPNAM __xdm_getspnam = dlfuncs->_getspnam; # ifndef QNX4 __xdm_endspent = dlfuncs->_endspent; # endif /* QNX4 doesn't use endspent */ # endif __xdm_getpwnam = dlfuncs->_getpwnam; # if defined(linux) || defined(__GLIBC__) __xdm_endpwent = dlfuncs->_endpwent; # endif __xdm_crypt = dlfuncs->_crypt; # ifdef USE_PAM __xdm_thepamhp = dlfuncs->_thepamhp; # endif #endif *dpy = InitGreet (d); /* * Run the setup script - note this usually will not work when * the server is grabbed, so we don't even bother trying. */ if (!d->grabServer) SetupDisplay (d); if (!*dpy) { LogError ("Cannot reopen display %s for greet window\n", d->name); exit (RESERVER_DISPLAY); } XtSetArg (arglist[0], XtNallowNullPasswd, (char *) &(greet->allow_null_passwd)); XtSetArg (arglist[1], XtNallowRootLogin, (char *) &(greet->allow_root_login)); XtGetValues (login, arglist, 2); for (;;) { #ifdef USE_PAM /* Run PAM conversation */ pam_handle_t **pamhp = thepamhp(); int pam_error; unsigned int pam_flags = 0; struct myconv_data pcd = { d, greet, NULL }; struct pam_conv pc = { pamconv, &pcd }; const char * pam_fname; const char * login_prompt; SetPrompt(login, LOGIN_PROMPT_USERNAME, NULL, LOGIN_PROMPT_NOT_SHOWN, False); login_prompt = GetPrompt(login, LOGIN_PROMPT_USERNAME); SetPrompt(login, LOGIN_PROMPT_PASSWORD, NULL, LOGIN_PROMPT_NOT_SHOWN, False); # define RUN_AND_CHECK_PAM_ERROR(function, args) \ do { \ pam_error = function args; \ if (pam_error != PAM_SUCCESS) { \ PAM_ERROR_PRINT(#function, *pamhp); \ goto pam_done; \ } \ } while (0) RUN_AND_CHECK_PAM_ERROR(pam_start, ("xdm", NULL, &pc, pamhp)); /* Set default login prompt to xdm's default from Xresources */ if (login_prompt != NULL) { RUN_AND_CHECK_PAM_ERROR(pam_set_item, (*pamhp, PAM_USER_PROMPT, login_prompt)); } if (d->name[0] != ':') { /* Displaying to remote host */ char *hostname = strdup(d->name); if (hostname == NULL) { LogOutOfMem("GreetUser"); } else { char *colon = strrchr(hostname, ':'); if (colon != NULL) *colon = '\0'; RUN_AND_CHECK_PAM_ERROR(pam_set_item, (*pamhp, PAM_RHOST, hostname)); free(hostname); } } else { /* Displaying on local host */ const char *ttyname = NULL; #ifdef __sun /* Solaris PAM & auditing insist this is a device file that can be found under /dev, so we can't use the display name */ char vtpath[16]; if ((d->windowPath) && !(strchr(d->windowPath, ':'))) { /* if path is simply a VT, with no intermediaries, use it */ snprintf(vtpath, sizeof(vtpath), "/dev/vt/%s", d->windowPath); ttyname = vtpath; } #else /* On all other OS'es we just pass the display name for PAM_TTY */ ttyname = d->name; #endif RUN_AND_CHECK_PAM_ERROR(pam_set_item, (*pamhp, PAM_TTY, ttyname)); } if (!greet->allow_null_passwd) { pam_flags |= PAM_DISALLOW_NULL_AUTHTOK; } RUN_AND_CHECK_PAM_ERROR(pam_authenticate, (*pamhp, pam_flags)); /* handle expired passwords */ pam_error = pam_acct_mgmt(*pamhp, pam_flags); pam_fname = "pam_acct_mgmt"; if (pam_error == PAM_NEW_AUTHTOK_REQD) { ShowChangePasswdMessage(login); do { pam_error = pam_chauthtok(*pamhp, PAM_CHANGE_EXPIRED_AUTHTOK); } while ((pam_error == PAM_AUTHTOK_ERR) || (pam_error == PAM_TRY_AGAIN)); pam_fname = "pam_chauthtok"; } if (pam_error != PAM_SUCCESS) { PAM_ERROR_PRINT(pam_fname, *pamhp); goto pam_done; } RUN_AND_CHECK_PAM_ERROR(pam_setcred, (*pamhp, 0)); { char *username = NULL; RUN_AND_CHECK_PAM_ERROR(pam_get_item, (*pamhp, PAM_USER, (void *) &username)); if (username != NULL) { Debug("PAM_USER: %s\n", username); greet->name = username; greet->password = NULL; } } pam_done: if (code != 0) { CloseGreet (d); SessionExit (d, code, FALSE); } if ((pam_error == PAM_SUCCESS) && (Verify (d, greet, verify))) { SetPrompt (login, 1, "Login Successful", LOGIN_TEXT_INFO, False); SetValue (login, 1, NULL); break; } else { /* Try to fill in username for failed login error log */ char *username = greet->name; if (username == NULL) { RUN_AND_CHECK_PAM_ERROR(pam_get_item, (*pamhp, PAM_USER, (void *) &username)); } FailedLogin (d, username); RUN_AND_CHECK_PAM_ERROR(pam_end, (*pamhp, pam_error)); } #else /* not PAM */ /* * Greet user, requesting name/password */ code = Greet (d, greet); if (code != 0) { CloseGreet (d); SessionExit (d, code, FALSE); } /* * Verify user */ if (Verify (d, greet, verify)) break; else { FailedLogin (d, greet->name); bzero (greet->name, strlen(greet->name)); bzero (greet->password, strlen(greet->password)); } #endif } DeleteXloginResources (d, *dpy); CloseGreet (d); Debug ("Greet loop finished\n"); /* * Run system-wide initialization file */ if (source (verify->systemEnviron, d->startup) != 0) { Debug ("Startup program %s exited with non-zero status\n", d->startup); SessionExit (d, OBEYSESS_DISPLAY, FALSE); } /* * for user-based authorization schemes, * add the user to the server's allowed "hosts" list. */ for (i = 0; i < d->authNum; i++) { #ifdef SECURE_RPC if (d->authorizations[i]->name_length == 9 && memcmp(d->authorizations[i]->name, "SUN-DES-1", 9) == 0) { XHostAddress addr; char netname[MAXNETNAMELEN+1]; char domainname[MAXNETNAMELEN+1]; getdomainname(domainname, sizeof domainname); user2netname (netname, verify->uid, domainname); addr.family = FamilyNetname; addr.length = strlen (netname); addr.address = netname; XAddHost (*dpy, &addr); } #endif #ifdef K5AUTH if (d->authorizations[i]->name_length == 14 && memcmp(d->authorizations[i]->name, "MIT-KERBEROS-5", 14) == 0) { /* Update server's auth file with user-specific info. * Don't need to AddHost because X server will do that * automatically when it reads the cache we are about * to point it at. */ extern Xauth *Krb5GetAuthFor(); XauDisposeAuth (d->authorizations[i]); d->authorizations[i] = Krb5GetAuthFor(14, "MIT-KERBEROS-5", d->name); SaveServerAuthorizations (d, d->authorizations, d->authNum); } #endif } return Greet_Success; } #ifdef USE_PAM static int pamconv(int num_msg, # ifndef sun const # endif struct pam_message **msg, struct pam_response **response, void *appdata_ptr) { int i; int greetCode; int status = PAM_SUCCESS; const char *pam_msg_styles[5] = { "", "PAM_PROMPT_ECHO_OFF", "PAM_PROMPT_ECHO_ON", "PAM_ERROR_MSG", "PAM_TEXT_INFO" } ; struct pam_message *m; struct pam_response *r; struct myconv_data *d = (struct myconv_data *) appdata_ptr; pam_handle_t **pamhp = thepamhp(); *response = calloc(num_msg, sizeof (struct pam_response)); if (*response == NULL) return (PAM_BUF_ERR); m = (struct pam_message *)*msg; r = *response; if (login == NULL) { status = PAM_CONV_ERR; goto pam_error; } for (i = 0; i < num_msg; i++ , m++ , r++) { char *username; int promptId = 0; loginPromptState pStyle = LOGIN_PROMPT_ECHO_OFF; if ((pam_get_item(*pamhp, PAM_USER, (void *) &username) == PAM_SUCCESS) && (username != NULL) && (*username != '\0')) { SetPrompt(login, LOGIN_PROMPT_USERNAME, NULL, LOGIN_TEXT_INFO, False); SetValue(login, LOGIN_PROMPT_USERNAME, username); promptId = 1; } Debug("pam_msg: %s (%d): '%s'\n", ((m->msg_style > 0) && (m->msg_style <= 4)) ? pam_msg_styles[m->msg_style] : pam_msg_styles[0], m->msg_style, m->msg); switch (m->msg_style) { case PAM_ERROR_MSG: ErrorMessage(login, m->msg, True); break; case PAM_TEXT_INFO: SetPrompt (login, promptId, m->msg, LOGIN_TEXT_INFO, True); SetValue (login, promptId, NULL); break; case PAM_PROMPT_ECHO_ON: pStyle = LOGIN_PROMPT_ECHO_ON; /* FALLTHROUGH */ case PAM_PROMPT_ECHO_OFF: SetPrompt (login, promptId, m->msg, pStyle, False); SetValue (login, promptId, NULL); greetCode = Greet (d->d, d->greet); if (greetCode != 0) { status = PAM_CONV_ERR; goto pam_error; } else { r->resp = strdup(GetValue(login, promptId)); SetValue(login, promptId, NULL); if (r->resp == NULL) { status = PAM_BUF_ERR; goto pam_error; } /* Debug("pam_resp: '%s'\n", r->resp); */ } break; default: LogError("Unknown PAM msg_style: %d\n", m->msg_style); } } pam_error: if (status != PAM_SUCCESS) { /* free responses */ r = *response; for (i = 0; i < num_msg; i++, r++) { if (r->resp) { bzero(r->resp, strlen(r->resp)); free(r->resp); } } free(*response); *response = NULL; } return status; } #endif