/* $Xorg: session.c,v 1.8 2001/02/09 02:05:40 xorgcvs Exp $ */ /* 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. */ /* $XFree86$ */ /* * xdm - display manager daemon * Author: Keith Packard, MIT X Consortium * * session.c */ #include "dm.h" #include "dm_auth.h" #include "dm_error.h" #include "greet.h" #include #include #include #include #include #include #include #include /* for initgroups */ #ifdef AIXV3 # include #endif #ifdef SECURE_RPC # include # include extern int key_setnet(struct key_netstarg *arg); #endif #ifdef K5AUTH # include #endif #ifndef GREET_USER_STATIC # include # ifndef RTLD_NOW # define RTLD_NOW 1 # endif #endif static int runAndWait (char **args, char **environ); #if defined(CSRG_BASED) || defined(__osf__) || defined(__DARWIN__) || defined(__QNXNTO__) || defined(sun) || defined(__GLIBC__) # include # include #else /* should be in */ extern void setgrent(void); extern struct group *getgrent(void); extern void endgrent(void); #endif #ifdef USESHADOW # if defined(SVR4) # include # else extern struct spwd *getspnam(GETSPNAM_ARGS); extern void endspent(void); # endif #endif #if defined(CSRG_BASED) || defined(__GLIBC__) || defined(USL) # include # include #else extern struct passwd *getpwnam(GETPWNAM_ARGS); # ifdef linux extern void endpwent(void); # endif extern char *crypt(CRYPT_ARGS); #endif #ifdef USE_PAM pam_handle_t ** thepamhp(void) { static pam_handle_t *pamh = NULL; return &pamh; } pam_handle_t * thepamh(void) { pam_handle_t **pamhp; pamhp = thepamhp(); if (pamhp) return *pamhp; else return NULL; } #endif static struct dlfuncs dlfuncs = { PingServer, SessionPingFailed, Debug, RegisterCloseOnFork, SecureDisplay, UnsecureDisplay, ClearCloseOnFork, SetupDisplay, LogError, SessionExit, DeleteXloginResources, source, defaultEnv, setEnv, putEnv, parseArgs, printEnv, systemEnv, LogOutOfMem, setgrent, getgrent, endgrent, #ifdef USESHADOW getspnam, # ifndef QNX4 endspent, # endif /* QNX4 doesn't use endspent */ #endif getpwnam, #if defined(linux) || defined(__GLIBC__) endpwent, #endif crypt, #ifdef USE_PAM thepamhp, #endif }; static Bool StartClient( struct verify_info *verify, struct display *d, int *pidp, char *name, char *passwd); static int clientPid; static struct greet_info greet; static struct verify_info verify; static Jmp_buf abortSession; /* ARGSUSED */ static SIGVAL catchTerm (int n) { Longjmp (abortSession, 1); } static Jmp_buf pingTime; /* ARGSUSED */ static SIGVAL catchAlrm (int n) { Longjmp (pingTime, 1); } static Jmp_buf tenaciousClient; /* ARGSUSED */ static SIGVAL waitAbort (int n) { Longjmp (tenaciousClient, 1); } #if defined(_POSIX_SOURCE) || defined(SYSV) || defined(SVR4) # define killpg(pgrp, sig) kill(-(pgrp), sig) #endif static void AbortClient (int pid) { int sig = SIGTERM; volatile int i; int retId; for (i = 0; i < 4; i++) { if (killpg (pid, sig) == -1) { switch (errno) { case EPERM: LogError ("xdm can't kill client\n"); case EINVAL: case ESRCH: return; } } if (!Setjmp (tenaciousClient)) { (void) Signal (SIGALRM, waitAbort); (void) alarm ((unsigned) 10); retId = wait ((waitType *) 0); (void) alarm ((unsigned) 0); (void) Signal (SIGALRM, SIG_DFL); if (retId == pid) break; } else (void) Signal (SIGALRM, SIG_DFL); sig = SIGKILL; } } void SessionPingFailed (struct display *d) { if (clientPid > 1) { AbortClient (clientPid); source (verify.systemEnviron, d->reset); } SessionExit (d, RESERVER_DISPLAY, TRUE); } /* * We need our own error handlers because we can't be sure what exit code Xlib * will use, and our Xlib does exit(1) which matches REMANAGE_DISPLAY, which * can cause a race condition leaving the display wedged. We need to use * RESERVER_DISPLAY for IO errors, to ensure that the manager waits for the * server to terminate. For other X errors, we should give up. */ /*ARGSUSED*/ static int IOErrorHandler (Display *dpy) { LogError ("fatal IO error %d (%s)\n", errno, _SysErrorMsg(errno)); exit(RESERVER_DISPLAY); /*NOTREACHED*/ return 0; } static int ErrorHandler(Display *dpy, XErrorEvent *event) { LogError ("X error\n"); if (XmuPrintDefaultErrorMessage (dpy, event, stderr) == 0) return 0; exit(UNMANAGE_DISPLAY); /*NOTREACHED*/ } void ManageSession (struct display *d) { static int pid = 0; Display *dpy; greet_user_rtn greet_stat; static GreetUserProc greet_user_proc = NULL; #ifndef GREET_USER_STATIC void *greet_lib_handle; #endif Debug ("ManageSession %s\n", d->name); (void)XSetIOErrorHandler(IOErrorHandler); (void)XSetErrorHandler(ErrorHandler); #ifndef HAS_SETPROCTITLE SetTitle(d->name, (char *) 0); #else setproctitle("%s", d->name); #endif /* * Load system default Resources */ LoadXloginResources (d); #ifdef GREET_USER_STATIC greet_user_proc = GreetUser; #else Debug ("ManageSession: loading greeter library %s\n", greeterLib); greet_lib_handle = dlopen(greeterLib, RTLD_NOW); if (greet_lib_handle != NULL) greet_user_proc = (GreetUserProc)dlsym(greet_lib_handle, "GreetUser"); if (greet_user_proc == NULL) { LogError ("%s while loading %s\n", dlerror(), greeterLib); exit(UNMANAGE_DISPLAY); } #endif /* tell the possibly dynamically loaded greeter function * what data structure formats to expect. * These version numbers are registered with The Open Group. */ verify.version = 1; greet.version = 1; greet_stat = (*greet_user_proc)(d, &dpy, &verify, &greet, &dlfuncs); if (greet_stat == Greet_Success) { clientPid = 0; if (!Setjmp (abortSession)) { (void) Signal (SIGTERM, catchTerm); /* * Start the clients, changing uid/groups * setting up environment and running the session */ if (StartClient (&verify, d, &clientPid, greet.name, greet.password)) { Debug ("Client Started\n"); #ifndef GREET_USER_STATIC /* Save memory; close library */ dlclose(greet_lib_handle); #endif /* * Wait for session to end, */ for (;;) { if (d->pingInterval) { if (!Setjmp (pingTime)) { (void) Signal (SIGALRM, catchAlrm); (void) alarm (d->pingInterval * 60); pid = wait ((waitType *) 0); (void) alarm (0); } else { (void) alarm (0); if (!PingServer (d, (Display *) NULL)) SessionPingFailed (d); } } else { pid = wait ((waitType *) 0); } if (pid == clientPid) break; } } else { LogError ("session start failed\n"); } } else { /* * when terminating the session, nuke * the child and then run the reset script */ AbortClient (clientPid); } } /* * run system-wide reset file */ Debug ("Source reset program %s\n", d->reset); source (verify.systemEnviron, d->reset); SessionExit (d, OBEYSESS_DISPLAY, TRUE); } void LoadXloginResources (struct display *d) { char **args; char **env = 0; if (d->resources[0] && access (d->resources, 4) == 0) { env = systemEnv (d, (char *) 0, (char *) 0); args = parseArgs ((char **) 0, d->xrdb); args = parseArgs (args, d->resources); Debug ("Loading resource file: %s\n", d->resources); (void) runAndWait (args, env); freeArgs (args); freeEnv (env); } } void SetupDisplay (struct display *d) { char **env = 0; if (d->setup && d->setup[0]) { env = systemEnv (d, (char *) 0, (char *) 0); (void) source (env, d->setup); freeEnv (env); } } /*ARGSUSED*/ void DeleteXloginResources (struct display *d, Display *dpy) { int i; Atom prop = XInternAtom(dpy, "SCREEN_RESOURCES", True); XDeleteProperty(dpy, RootWindow (dpy, 0), XA_RESOURCE_MANAGER); if (prop) { for (i = ScreenCount(dpy); --i >= 0; ) XDeleteProperty(dpy, RootWindow (dpy, i), prop); } } static Jmp_buf syncJump; /* ARGSUSED */ static SIGVAL syncTimeout (int n) { Longjmp (syncJump, 1); } void SecureDisplay (struct display *d, Display *dpy) { Debug ("SecureDisplay %s\n", d->name); (void) Signal (SIGALRM, syncTimeout); if (Setjmp (syncJump)) { LogError ("WARNING: display %s could not be secured\n", d->name); SessionExit (d, RESERVER_DISPLAY, FALSE); } (void) alarm ((unsigned) d->grabTimeout); Debug ("Before XGrabServer %s\n", d->name); XGrabServer (dpy); if (XGrabKeyboard (dpy, DefaultRootWindow (dpy), True, GrabModeAsync, GrabModeAsync, CurrentTime) != GrabSuccess) { (void) alarm (0); (void) Signal (SIGALRM, SIG_DFL); LogError ("WARNING: keyboard on display %s could not be secured\n", d->name); SessionExit (d, RESERVER_DISPLAY, FALSE); } Debug ("XGrabKeyboard succeeded %s\n", d->name); (void) alarm (0); (void) Signal (SIGALRM, SIG_DFL); pseudoReset (dpy); if (!d->grabServer) { XUngrabServer (dpy); XSync (dpy, 0); } Debug ("done secure %s\n", d->name); } void UnsecureDisplay (struct display *d, Display *dpy) { Debug ("Unsecure display %s\n", d->name); if (d->grabServer) { XUngrabServer (dpy); XSync (dpy, 0); } } void SessionExit (struct display *d, int status, int removeAuth) { #ifdef USE_PAM pam_handle_t *pamh = thepamh(); #endif #ifdef USE_PAM if (pamh) { /* shutdown PAM session */ pam_close_session(pamh, 0); pam_end(pamh, PAM_SUCCESS); pamh = NULL; } #endif /* make sure the server gets reset after the session is over */ if (d->serverPid >= 2 && d->resetSignal) kill (d->serverPid, d->resetSignal); else ResetServer (d); if (removeAuth) { setgid (verify.gid); setuid (verify.uid); RemoveUserAuthorization (d, &verify); #ifdef K5AUTH /* do like "kdestroy" program */ { krb5_error_code code; krb5_ccache ccache; code = Krb5DisplayCCache(d->name, &ccache); if (code) LogError ("%s while getting Krb5 ccache to destroy\n", error_message(code)); else { code = krb5_cc_destroy(ccache); if (code) { if (code == KRB5_FCC_NOFILE) { Debug ("No Kerberos ccache file found to destroy\n"); } else LogError ("%s while destroying Krb5 credentials cache\n", error_message(code)); } else Debug ("Kerberos ccache destroyed\n"); krb5_cc_close(ccache); } } #endif /* K5AUTH */ } Debug ("Display %s exiting with status %d\n", d->name, status); exit (status); } static Bool StartClient ( struct verify_info *verify, struct display *d, int *pidp, char *name, char *passwd) { char **f, *home; char *failsafeArgv[2]; int pid; #ifdef HAS_SETUSERCONTEXT struct passwd* pwd; #endif #ifdef USE_PAM pam_handle_t *pamh = thepamh (); int pam_error; #endif if (verify->argv) { Debug ("StartSession %s: ", verify->argv[0]); for (f = verify->argv; *f; f++) Debug ("%s ", *f); Debug ("; "); } if (verify->userEnviron) { for (f = verify->userEnviron; *f; f++) Debug ("%s ", *f); Debug ("\n"); } #ifdef USE_PAM if (pamh) pam_open_session(pamh, 0); #endif switch (pid = fork ()) { case 0: CleanUpChild (); #ifdef XDMCP /* The chooser socket is not closed by CleanUpChild() */ DestroyWellKnownSockets(); #endif /* Do system-dependent login setup here */ #ifdef USE_PAM /* pass in environment variables set by libpam and modules it called */ if (pamh) { long i; char **pam_env = pam_getenvlist(pamh); for(i = 0; pam_env && pam_env[i]; i++) { verify->userEnviron = putEnv(pam_env[i], verify->userEnviron); } } #endif #ifndef AIXV3 #ifndef HAS_SETUSERCONTEXT if (setgid(verify->gid) < 0) { LogError ("setgid %d (user \"%s\") failed, errno=%d\n", verify->gid, name, errno); return (0); } #if defined(BSD) && (BSD >= 199103) if (setlogin(name) < 0) { LogError ("setlogin for \"%s\" failed, errno=%d", name, errno); return(0); } #endif #ifndef QNX4 if (initgroups(name, verify->gid) < 0) { LogError ("initgroups for \"%s\" failed, errno=%d\n", name, errno); return (0); } #endif /* QNX4 doesn't support multi-groups, no initgroups() */ #ifdef USE_PAM if (pamh) { pam_error = pam_setcred (pamh, PAM_ESTABLISH_CRED); if (pam_error != PAM_SUCCESS) { LogError ("pam_setcred for \"%s\" failed: %s\n", name, pam_strerror(pamh, pam_error)); return(0); } } #endif if (setuid(verify->uid) < 0) { LogError ("setuid %d (user \"%s\") failed, errno=%d\n", verify->uid, name, errno); return (0); } #else /* HAS_SETUSERCONTEXT */ /* * Set the user's credentials: uid, gid, groups, * environment variables, resource limits, and umask. */ pwd = getpwnam(name); if (pwd) { if (setusercontext(NULL, pwd, pwd->pw_uid, LOGIN_SETALL) < 0) { LogError ("setusercontext for \"%s\" failed, errno=%d\n", name, errno); return (0); } endpwent(); } else { LogError ("getpwnam for \"%s\" failed, errno=%d\n", name, errno); return (0); } #endif /* HAS_SETUSERCONTEXT */ #else /* AIXV3 */ /* * Set the user's credentials: uid, gid, groups, * audit classes, user limits, and umask. */ if (setpcred(name, NULL) == -1) { LogError ("setpcred for \"%s\" failed, errno=%d\n", name, errno); return (0); } #endif /* AIXV3 */ /* * for user-based authorization schemes, * use the password to get the user's credentials. */ #ifdef SECURE_RPC /* do like "keylogin" program */ { char netname[MAXNETNAMELEN+1], secretkey[HEXKEYBYTES+1]; int nameret, keyret; int len; struct key_netstarg netst; int key_set_ok = 0; nameret = getnetname (netname); Debug ("User netname: %s\n", netname); len = strlen (passwd); if (len > 8) bzero (passwd + 8, len - 8); keyret = getsecretkey(netname,secretkey,passwd); Debug ("getsecretkey returns %d, key length %d\n", keyret, strlen (secretkey)); memcpy(&(netst.st_priv_key), secretkey, HEXKEYBYTES); netst.st_netname = strdup(netname); memset(netst.st_pub_key, 0, HEXKEYBYTES); if (key_setnet(&netst) < 0) { Debug ("Could not set secret key.\n"); } free(netst.st_netname); /* is there a key, and do we have the right password? */ if (keyret == 1) { if (*secretkey) { keyret = key_setsecret(secretkey); Debug ("key_setsecret returns %d\n", keyret); if (keyret == -1) LogError ("failed to set NIS secret key\n"); else key_set_ok = 1; } else { /* found a key, but couldn't interpret it */ LogError ("password incorrect for NIS principal \"%s\"\n", nameret ? netname : name); } } if (!key_set_ok) { /* remove SUN-DES-1 from authorizations list */ int i, j; for (i = 0; i < d->authNum; i++) { if (d->authorizations[i]->name_length == 9 && memcmp(d->authorizations[i]->name, "SUN-DES-1", 9) == 0) { for (j = i+1; j < d->authNum; j++) d->authorizations[j-1] = d->authorizations[j]; d->authNum--; break; } } } bzero(secretkey, strlen(secretkey)); } #endif #ifdef K5AUTH /* do like "kinit" program */ { int i, j; int result; extern char *Krb5CCacheName(); result = Krb5Init(name, passwd, d); if (result == 0) { /* point session clients at the Kerberos credentials cache */ verify->userEnviron = setEnv(verify->userEnviron, "KRB5CCNAME", Krb5CCacheName(d->name)); } else { for (i = 0; i < d->authNum; i++) { if (d->authorizations[i]->name_length == 14 && memcmp(d->authorizations[i]->name, "MIT-KERBEROS-5", 14) == 0) { /* remove Kerberos from authorizations list */ for (j = i+1; j < d->authNum; j++) d->authorizations[j-1] = d->authorizations[j]; d->authNum--; break; } } } } #endif /* K5AUTH */ bzero(passwd, strlen(passwd)); SetUserAuthorization (d, verify); home = getEnv (verify->userEnviron, "HOME"); if (home) if (chdir (home) == -1) { LogError ("user \"%s\": cannot chdir to home \"%s\" (err %d), using \"/\"\n", getEnv (verify->userEnviron, "USER"), home, errno); chdir ("/"); verify->userEnviron = setEnv(verify->userEnviron, "HOME", "/"); } if (verify->argv) { Debug ("executing session %s\n", verify->argv[0]); execute (verify->argv, verify->userEnviron); LogError ("Session \"%s\" execution failed (err %d)\n", verify->argv[0], errno); } else { LogError ("Session has no command/arguments\n"); } failsafeArgv[0] = d->failsafeClient; failsafeArgv[1] = 0; execute (failsafeArgv, verify->userEnviron); exit (1); case -1: bzero(passwd, strlen(passwd)); Debug ("StartSession, fork failed\n"); LogError ("can't start session on \"%s\", fork failed, errno=%d\n", d->name, errno); return 0; default: bzero(passwd, strlen(passwd)); Debug ("StartSession, fork succeeded %d\n", pid); *pidp = pid; return 1; } } int source (char **environ, char *file) { char **args, *args_safe[2]; int ret; if (file && file[0]) { Debug ("source %s\n", file); args = parseArgs ((char **) 0, file); if (!args) { args = args_safe; args[0] = file; args[1] = NULL; } ret = runAndWait (args, environ); freeArgs (args); return ret; } return 0; } static int runAndWait (char **args, char **environ) { int pid; waitType result; switch (pid = fork ()) { case 0: CleanUpChild (); execute (args, environ); LogError ("can't execute \"%s\" (err %d)\n", args[0], errno); exit (1); case -1: Debug ("fork failed\n"); LogError ("can't fork to execute \"%s\" (err %d)\n", args[0], errno); return 1; default: while (wait (&result) != pid) /* SUPPRESS 530 */ ; break; } return waitVal (result); } void execute (char **argv, char **environ) { /* give /dev/null as stdin */ (void) close (0); open ("/dev/null", O_RDONLY); /* make stdout follow stderr to the log file */ dup2 (2,1); execve (argv[0], argv, environ); /* * In case this is a shell script which hasn't been * made executable (or this is a SYSV box), do * a reasonable thing */ if (errno != ENOENT) { char program[1024], *e, *p, *optarg; FILE *f; char **newargv, **av; int argc; /* * emulate BSD kernel behaviour -- read * the first line; check if it starts * with "#!", in which case it uses * the rest of the line as the name of * program to run. Else use "/bin/sh". */ f = fopen (argv[0], "r"); if (!f) return; if (fgets (program, sizeof (program) - 1, f) == NULL) { fclose (f); return; } fclose (f); e = program + strlen (program) - 1; if (*e == '\n') *e = '\0'; if (!strncmp (program, "#!", 2)) { p = program + 2; while (*p && isspace (*p)) ++p; optarg = p; while (*optarg && !isspace (*optarg)) ++optarg; if (*optarg) { *optarg = '\0'; do ++optarg; while (*optarg && isspace (*optarg)); } else optarg = 0; } else { p = "/bin/sh"; optarg = 0; } Debug ("Shell script execution: %s (optarg %s)\n", p, optarg ? optarg : "(null)"); for (av = argv, argc = 0; *av; av++, argc++) /* SUPPRESS 530 */ ; newargv = (char **) malloc ((argc + (optarg ? 3 : 2)) * sizeof (char *)); if (!newargv) return; av = newargv; *av++ = p; if (optarg) *av++ = optarg; /* SUPPRESS 560 */ while ((*av++ = *argv++)) /* SUPPRESS 530 */ ; execve (newargv[0], newargv, environ); } } char ** defaultEnv (void) { char **env, **exp, *value; env = 0; for (exp = exportList; exp && *exp; ++exp) { value = getenv (*exp); if (value) env = setEnv (env, *exp, value); } return env; } char ** systemEnv (struct display *d, char *user, char *home) { char **env; env = defaultEnv (); env = setEnv (env, "DISPLAY", d->name); if (home) env = setEnv (env, "HOME", home); if (user) { env = setEnv (env, "USER", user); env = setEnv (env, "LOGNAME", user); } env = setEnv (env, "PATH", d->systemPath); env = setEnv (env, "SHELL", d->systemShell); if (d->authFile) env = setEnv (env, "XAUTHORITY", d->authFile); return env; } #if (defined(Lynx) && !defined(HAS_CRYPT)) || defined(SCO) && !defined(SCO_USA) && !defined(_SCO_DS) char *crypt(char *s1, char *s2) { return(s2); } #endif