/* -- user.c -- */ #include "x11vnc.h" #include "solid.h" #include "cleanup.h" #include "scan.h" #include "screen.h" #include "unixpw.h" #include "sslhelper.h" #include "xwrappers.h" void check_switched_user(void); void lurk_loop(char *str); int switch_user(char *user, int fb_mode); int read_passwds(char *passfile); void install_passwds(void); void check_new_passwds(void); int wait_for_client(int *argc, char** argv, int http); static void switch_user_task_dummy(void); static void switch_user_task_solid_bg(void); static char *get_login_list(int with_display); static char **user_list(char *user_str); static void user2uid(char *user, uid_t *uid, char **name, char **home); static int lurk(char **users); static int guess_user_and_switch(char *str, int fb_mode); static int try_user_and_display(uid_t uid, char *dpystr); static int switch_user_env(uid_t uid, char *name, char *home, int fb_mode); static void try_to_switch_users(void); /* tasks for after we switch */ static void switch_user_task_dummy(void) { ; /* dummy does nothing */ } static void switch_user_task_solid_bg(void) { /* we have switched users, some things to do. */ if (use_solid_bg && client_count) { solid_bg(0); } } void check_switched_user(void) { static time_t sched_switched_user = 0; static int did_solid = 0; static int did_dummy = 0; int delay = 15; time_t now = time(NULL); if (unixpw_in_progress) return; if (started_as_root == 1 && users_list) { try_to_switch_users(); if (started_as_root == 2) { /* * schedule the switch_user_tasks() call * 15 secs is for piggy desktops to start up. * might not be enough for slow machines... */ sched_switched_user = now; did_dummy = 0; did_solid = 0; /* add other activities */ } } if (! sched_switched_user) { return; } if (! did_dummy) { switch_user_task_dummy(); did_dummy = 1; } if (! did_solid) { int doit = 0; char *ss = solid_str; if (now >= sched_switched_user + delay) { doit = 1; } else if (ss && strstr(ss, "root:") == ss) { if (now >= sched_switched_user + 3) { doit = 1; } } else if (strcmp("root", guess_desktop())) { usleep(1000 * 1000); doit = 1; } if (doit) { switch_user_task_solid_bg(); did_solid = 1; } } if (did_dummy && did_solid) { sched_switched_user = 0; } } /* utilities for switching users */ static char *get_login_list(int with_display) { char *out; #if LIBVNCSERVER_HAVE_UTMPX_H int i, cnt, max = 200, ut_namesize = 32; int dpymax = 1000, sawdpy[1000]; struct utmpx *utx; /* size based on "username:999," * max */ out = (char *) malloc(max * (ut_namesize+1+3+1) + 1); out[0] = '\0'; for (i=0; iut_type != USER_PROCESS) { continue; } user = lblanks(utx->ut_user); if (*user == '\0') { continue; } if (strchr(user, ',')) { continue; /* unlikely, but comma is our sep. */ } line = lblanks(utx->ut_line); host = lblanks(utx->ut_host); id = lblanks(utx->ut_id); if (with_display) { if (0 && line[0] != ':' && strcmp(line, "dtlocal")) { /* XXX useful? */ continue; } if (line[0] == ':') { if (sscanf(line, ":%d", &d) != 1) { d = -1; } } if (d < 0 && host[0] == ':') { if (sscanf(host, ":%d", &d) != 1) { d = -1; } } if (d < 0 && id[0] == ':') { if (sscanf(id, ":%d", &d) != 1) { d = -1; } } if (d < 0 || d >= dpymax || sawdpy[d]) { continue; } sawdpy[d] = 1; sprintf(tmp, ":%d", d); } else { /* try to eliminate repeats */ int repeat = 0; char *q; q = out; while ((q = strstr(q, user)) != NULL) { char *p = q + strlen(user) + strlen(":DPY"); if (q == out || *(q-1) == ',') { /* bounded on left. */ if (*p == ',' || *p == '\0') { /* bounded on right. */ repeat = 1; break; } } q = p; } if (repeat) { continue; } sprintf(tmp, ":DPY"); } if (*out) { strcat(out, ","); } strcat(out, user); strcat(out, tmp); cnt++; if (cnt >= max) { break; } } endutxent(); #else out = strdup(""); #endif return out; } static char **user_list(char *user_str) { int n, i; char *p, **list; p = user_str; n = 1; while (*p++) { if (*p == ',') { n++; } } list = (char **) malloc((n+1)*sizeof(char *)); p = strtok(user_str, ","); i = 0; while (p) { list[i++] = p; p = strtok(NULL, ","); } list[i] = NULL; return list; } static void user2uid(char *user, uid_t *uid, char **name, char **home) { int numerical = 1; char *q; *uid = (uid_t) -1; *name = NULL; *home = NULL; q = user; while (*q) { if (! isdigit(*q++)) { numerical = 0; break; } } if (numerical) { int u = atoi(user); if (u < 0) { return; } *uid = (uid_t) u; } #if LIBVNCSERVER_HAVE_PWD_H if (1) { struct passwd *pw; if (numerical) { pw = getpwuid(*uid); } else { pw = getpwnam(user); } if (pw) { *uid = pw->pw_uid; *name = pw->pw_name; /* n.b. use immediately */ *home = pw->pw_dir; } } #endif } static int lurk(char **users) { uid_t uid; int success = 0, dmin = -1, dmax = -1; char *p, *logins, **u; if ((u = users) != NULL && *u != NULL && *(*u) == ':') { int len; char *tmp; /* extract min and max display numbers */ tmp = *u; if (strchr(tmp, '-')) { if (sscanf(tmp, ":%d-%d", &dmin, &dmax) != 2) { dmin = -1; dmax = -1; } } if (dmin < 0) { if (sscanf(tmp, ":%d", &dmin) != 1) { dmin = -1; dmax = -1; } else { dmax = dmin; } } if ((dmin < 0 || dmax < 0) || dmin > dmax || dmax > 10000) { dmin = -1; dmax = -1; } /* get user logins regardless of having a display: */ logins = get_login_list(0); /* * now we append the list in users (might as well try * them) this will probably allow weird ways of starting * xservers to work. */ len = strlen(logins); u++; while (*u != NULL) { len += strlen(*u) + strlen(":DPY,"); u++; } tmp = (char *) malloc(len+1); strcpy(tmp, logins); /* now concatenate them: */ u = users+1; while (*u != NULL) { char *q, chk[100]; snprintf(chk, 100, "%s:DPY", *u); q = strstr(tmp, chk); if (q) { char *p = q + strlen(chk); if (q == tmp || *(q-1) == ',') { /* bounded on left. */ if (*p == ',' || *p == '\0') { /* bounded on right. */ u++; continue; } } } if (*tmp) { strcat(tmp, ","); } strcat(tmp, *u); strcat(tmp, ":DPY"); u++; } free(logins); logins = tmp; } else { logins = get_login_list(1); } p = strtok(logins, ","); while (p) { char *user, *name, *home, dpystr[10]; char *q, *t; int ok = 1, dn; t = strdup(p); /* bob:0 */ q = strchr(t, ':'); if (! q) { free(t); break; } *q = '\0'; user = t; snprintf(dpystr, 10, ":%s", q+1); if (users) { u = users; ok = 0; while (*u != NULL) { if (*(*u) == ':') { u++; continue; } if (!strcmp(user, *u++)) { ok = 1; break; } } } user2uid(user, &uid, &name, &home); free(t); if (! uid) { ok = 0; } if (! ok) { p = strtok(NULL, ","); continue; } for (dn = dmin; dn <= dmax; dn++) { if (dn >= 0) { sprintf(dpystr, ":%d", dn); } if (try_user_and_display(uid, dpystr)) { if (switch_user_env(uid, name, home, 0)) { rfbLog("lurk: now user: %s @ %s\n", name, dpystr); started_as_root = 2; success = 1; } set_env("DISPLAY", dpystr); break; } } if (success) { break; } p = strtok(NULL, ","); } free(logins); return success; } void lurk_loop(char *str) { char *tstr = NULL, **users = NULL; if (strstr(str, "lurk=") != str) { exit(1); } rfbLog("lurking for logins using: '%s'\n", str); if (strlen(str) > strlen("lurk=")) { char *q = strchr(str, '='); tstr = strdup(q+1); users = user_list(tstr); } while (1) { if (lurk(users)) { break; } sleep(3); } if (tstr) { free(tstr); } if (users) { free(users); } } static int guess_user_and_switch(char *str, int fb_mode) { char *dstr, *d; char *p, *tstr = NULL, *allowed = NULL, *logins, **users = NULL; int dpy1, ret = 0; RAWFB_RET(0) d = DisplayString(dpy); /* pick out ":N" */ dstr = strchr(d, ':'); if (! dstr) { return 0; } if (sscanf(dstr, ":%d", &dpy1) != 1) { return 0; } if (dpy1 < 0) { return 0; } if (strstr(str, "guess=") == str && strlen(str) > strlen("guess=")) { allowed = strchr(str, '='); allowed++; tstr = strdup(allowed); users = user_list(tstr); } /* loop over the utmpx entries looking for this display */ logins = get_login_list(1); p = strtok(logins, ","); while (p) { char *user, *q, *t; int dpy2, ok = 1; t = strdup(p); q = strchr(t, ':'); if (! q) { free(t); break; } *q = '\0'; user = t; dpy2 = atoi(q+1); if (users) { char **u = users; ok = 0; while (*u != NULL) { if (!strcmp(user, *u++)) { ok = 1; break; } } } if (dpy1 != dpy2) { ok = 0; } if (! ok) { free(t); p = strtok(NULL, ","); continue; } if (switch_user(user, fb_mode)) { rfbLog("switched to guessed user: %s\n", user); free(t); ret = 1; break; } p = strtok(NULL, ","); } if (tstr) { free(tstr); } if (users) { free(users); } if (logins) { free(logins); } return ret; } static int try_user_and_display(uid_t uid, char *dpystr) { /* NO strtoks */ #if LIBVNCSERVER_HAVE_FORK && LIBVNCSERVER_HAVE_SYS_WAIT_H && LIBVNCSERVER_HAVE_PWD_H pid_t pid, pidw; char *home, *name; int st; struct passwd *pw; pw = getpwuid(uid); if (pw) { name = pw->pw_name; home = pw->pw_dir; } else { return 0; } /* * We fork here and try to open the display again as the * new user. Unreadable XAUTHORITY could be a problem... * This is not really needed since we have DISPLAY open but: * 1) is a good indicator this user owns the session and 2) * some activities do spawn new X apps, e.g. xmessage(1), etc. */ if ((pid = fork()) > 0) { ; } else if (pid == -1) { fprintf(stderr, "could not fork\n"); rfbLogPerror("fork"); return 0; } else { /* child */ Display *dpy2 = NULL; int rc; signal(SIGHUP, SIG_DFL); signal(SIGINT, SIG_DFL); signal(SIGQUIT, SIG_DFL); signal(SIGTERM, SIG_DFL); rc = switch_user_env(uid, name, home, 0); if (! rc) { exit(1); } fclose(stderr); dpy2 = XOpenDisplay_wr(dpystr); if (dpy2) { XCloseDisplay_wr(dpy2); exit(0); /* success */ } else { exit(2); /* fail */ } } /* see what the child says: */ pidw = waitpid(pid, &st, 0); if (pidw == pid && WIFEXITED(st) && WEXITSTATUS(st) == 0) { return 1; } #endif /* LIBVNCSERVER_HAVE_FORK ... */ return 0; } int switch_user(char *user, int fb_mode) { /* NO strtoks */ int doit = 0; uid_t uid = 0; char *name, *home; if (*user == '+') { doit = 1; user++; } if (strstr(user, "guess=") == user) { return guess_user_and_switch(user, fb_mode); } user2uid(user, &uid, &name, &home); if (uid == (uid_t) -1 || uid == 0) { return 0; } if (! doit && dpy) { /* see if this display works: */ char *dstr = DisplayString(dpy); doit = try_user_and_display(uid, dstr); } if (doit) { int rc = switch_user_env(uid, name, home, fb_mode); if (rc) { started_as_root = 2; } return rc; } else { return 0; } } static int switch_user_env(uid_t uid, char *name, char *home, int fb_mode) { /* NO strtoks */ char *xauth; int reset_fb = 0; #if !LIBVNCSERVER_HAVE_SETUID return 0; #else /* * OK tricky here, we need to free the shm... otherwise * we won't be able to delete it as the other user... */ if (fb_mode == 1 && (using_shm && ! xform24to32)) { reset_fb = 1; clean_shm(0); free_tiles(); } if (setuid(uid) != 0) { if (reset_fb) { /* 2 means we did clean_shm and free_tiles */ do_new_fb(2); } return 0; } #endif if (reset_fb) { do_new_fb(2); } xauth = getenv("XAUTHORITY"); if (xauth && access(xauth, R_OK) != 0) { *(xauth-2) = '_'; /* yow */ } set_env("USER", name); set_env("LOGNAME", name); set_env("HOME", home); return 1; } static void try_to_switch_users(void) { static time_t last_try = 0; time_t now = time(NULL); char *users, *p; if (getuid() && geteuid()) { rfbLog("try_to_switch_users: not root\n"); started_as_root = 2; return; } if (!last_try) { last_try = now; } else if (now <= last_try + 2) { /* try every 3 secs or so */ return; } last_try = now; users = strdup(users_list); if (strstr(users, "guess=") == users) { if (switch_user(users, 1)) { started_as_root = 2; } free(users); return; } p = strtok(users, ","); while (p) { if (switch_user(p, 1)) { started_as_root = 2; rfbLog("try_to_switch_users: now %s\n", p); break; } p = strtok(NULL, ","); } free(users); } int read_passwds(char *passfile) { char line[1024]; char *filename; char **old_passwd_list = passwd_list; int remove = 0; int read_mode = 0; int begin_vo = -1; struct stat sbuf; int linecount = 0, i, max; FILE *in; static time_t last_read = 0; static int read_cnt = 0; int db_passwd = 0; filename = passfile; if (strstr(filename, "rm:") == filename) { filename += strlen("rm:"); remove = 1; } else if (strstr(filename, "read:") == filename) { filename += strlen("read:"); read_mode = 1; if (stat(filename, &sbuf) == 0) { if (sbuf.st_mtime <= last_read) { return 0; } last_read = sbuf.st_mtime; } } if (stat(filename, &sbuf) == 0) { /* (poor...) upper bound to number of lines */ max = (int) sbuf.st_size; last_read = sbuf.st_mtime; } else { max = 64; } /* create 1 more than max to have it be the ending NULL */ passwd_list = (char **) malloc( (max+1) * (sizeof(char *)) ); for (i=0; i= max) { break; } } fclose(in); for (i=0; i<1024; i++) { line[i] = '\0'; } if (remove) { unlink(filename); } if (! linecount) { rfbLog("cannot read a valid line from passwdfile: %s\n", passfile); if (read_cnt == 0) { clean_up_exit(1); } else { return 0; } } read_cnt++; for (i=0; i 1) { if (viewonly_passwd) { free(viewonly_passwd); viewonly_passwd = NULL; } } if (begin_viewonly < 0 && linecount == 2) { /* for compatibility with previous 2-line usage: */ viewonly_passwd = strdup(passwd_list[1]); if (db_passwd) { fprintf(stderr, "read_passwds: linecount is 2.\n"); } if (screen) { char **apd = (char **) screen->authPasswdData; if (apd) { if (apd[0] != NULL) { strzero(apd[0]); } apd[0] = strdup(passwd_list[0]); } } begin_viewonly = 1; } if (old_passwd_list != NULL) { char *p; i = 0; while (old_passwd_list[i] != NULL) { p = old_passwd_list[i]; strzero(p); free(old_passwd_list[i]); i++; } free(old_passwd_list); } return 1; } void install_passwds(void) { if (viewonly_passwd) { /* append the view only passwd after the normal passwd */ char **passwds_new = (char **) malloc(3*sizeof(char *)); char **passwds_old = (char **) screen->authPasswdData; passwds_new[0] = passwds_old[0]; passwds_new[1] = viewonly_passwd; passwds_new[2] = NULL; screen->authPasswdData = (void*) passwds_new; } else if (passwd_list) { int i = 0; while(passwd_list[i] != NULL) { i++; } if (begin_viewonly < 0) { begin_viewonly = i+1; } screen->authPasswdData = (void*) passwd_list; screen->authPasswdFirstViewOnly = begin_viewonly; } } void check_new_passwds(void) { static time_t last_check = 0; time_t now; if (! passwdfile) { return; } if (strstr(passwdfile, "read:") != passwdfile) { return; } if (unixpw_in_progress) return; now = time(NULL); if (now > last_check + 1) { if (read_passwds(passwdfile)) { install_passwds(); } last_check = now; } } static void handle_one_http_request(void) { rfbLog("handle_one_http_request: begin.\n"); if (screen->httpPort == 0) { int port = find_free_port(5800, 5850); if (port) { screen->httpPort = port; } else { rfbLog("handle_one_http_request: no http port.\n"); clean_up_exit(1); } } screen->autoPort = FALSE; screen->port = 0; http_connections(1); rfbInitServer(screen); if (! inetd) { int conn = 0; while (1) { if (0) fprintf(stderr, "%d %d %d %d\n", conn, screen->listenSock, screen->httpSock, screen->httpListenSock); usleep(10 * 1000); rfbHttpCheckFds(screen); if (conn) { if (screen->httpSock < 0) { break; } } else { if (screen->httpSock >= 0) { conn = 1; } } if (!screen->httpDir) { break; } if (screen->httpListenSock < 0) { break; } } rfbLog("handle_one_http_request: finished.\n"); return; } else { #if LIBVNCSERVER_HAVE_FORK pid_t pid; int s_in = screen->inetdSock; if (s_in < 0) { rfbLog("handle_one_http_request: inetdSock not set up.\n"); clean_up_exit(1); } pid = fork(); if (pid < 0) { rfbLog("handle_one_http_request: could not fork.\n"); clean_up_exit(1); } else if (pid > 0) { int status; pid_t pidw; while (1) { rfbHttpCheckFds(screen); pidw = waitpid(pid, &status, WNOHANG); if (pidw == pid && WIFEXITED(status)) { break; } else if (pidw < 0) { break; } } rfbLog("handle_one_http_request: finished.\n"); return; } else { int sock = rfbConnectToTcpAddr("127.0.0.1", screen->httpPort); if (sock < 0) { exit(1); } raw_xfer(sock, s_in, s_in); exit(0); } #else rfbLog("handle_one_http_request: fork not supported.\n"); clean_up_exit(1); #endif } } void user_supplied_opts(char *opts) { char *p, *str; char *allow[] = { "skip-display", "skip-auth", "skip-shared", "scale", "scale_cursor", "solid", "id", "clear_mods", "clear_keys", "repeat", "speeds", NULL }; if (getenv("X11VNC_NO_UNIXPW_OPTS")) { return; } str = strdup(opts); p = strtok(str, ","); while (p) { char *q; int i, n, m, ok = 0; i = 0; while (allow[i] != NULL) { if (strstr(allow[i], "skip-")) { i++; continue; } if (strstr(p, allow[i]) == p) { ok = 1; break; } i++; } if (! ok && sscanf(p, "%d/%d", &n, &m) == 2) { if (scale_str) free(scale_str); scale_str = strdup(p); } else if (ok) { if (strstr(p, "display=") == p) { if (use_dpy) free(use_dpy); use_dpy = strdup(p + strlen("display=")); } else if (strstr(p, "auth=") == p) { if (auth_file) free(auth_file); auth_file = strdup(p + strlen("auth=")); } else if (strstr(p, "scale=") == p) { if (scale_str) free(scale_str); scale_str = strdup(p + strlen("scale=")); } else if (strstr(p, "scale_cursor=") == p) { if (scale_cursor_str) free(scale_cursor_str); scale_cursor_str = strdup(p + strlen("scale_cursor=")); } else if (!strcmp(p, "shared")) { shared = 1; } else if (!strcmp(p, "solid")) { use_solid_bg = 1; if (!solid_str) { solid_str = strdup(solid_default); } } else if (strstr(p, "solid=") == p) { use_solid_bg = 1; if (solid_str) free(solid_str); solid_str = strdup(p + strlen("solid=")); } else if (strstr(p, "id=") == p) { unsigned long win; q = p + strlen("id="); if (strcmp(q, "pick")) { if (scan_hexdec(q, &win)) { subwin = win; } } } else if (!strcmp(p, "clear_mods")) { clear_mods = 1; } else if (!strcmp(p, "clear_keys")) { clear_mods = 2; } else if (!strcmp(p, "repeat")) { no_autorepeat = 0; } else if (strstr(p, "speeds=") == p) { if (speeds_str) free(speeds_str); speeds_str = strdup(p + strlen("speeds=")); q = speeds_str; while (*q != '\0') { if (*q == '-') { *q = ','; } q++; } } } p = strtok(NULL, ","); } free(str); } extern char find_display[]; static XImage ximage_struct; int wait_for_client(int *argc, char** argv, int http) { XImage* fb_image; int w = 640, h = 480, b = 32; int w0, h0, i, chg_raw_fb = 0; char *str, *q, *p, *cmd = NULL; int db = 0; char tmp[] = "/tmp/x11vnc-find_display.XXXXXX"; int tmp_fd = -1, dt = 0; if (! use_dpy || strstr(use_dpy, "WAIT:") != use_dpy) { return 0; } for (i=0; i < *argc; i++) { if (!strcmp(argv[i], "-desktop")) { dt = 1; } if (1) fprintf(stderr, "args %d %s\n", i, argv[i]); } str = strdup(use_dpy); str += strlen("WAIT"); /* get any leading geometry: */ q = strchr(str+1, ':'); if (q) { *q = '\0'; if (sscanf(str+1, "%dx%d", &w0, &h0) == 2) { w = w0; h = h0; rfbLog("wait_for_client set: w=%d h=%d\n", w, h); } *q = ':'; str = q; } /* str currently begins with a ':' */ if (strstr(str, ":cmd=") == str) { /* cmd=/path/to/mycommand */ str++; } else if (strpbrk(str, "0123456789") == str+1) { /* :0.0 */ ; } else { /* hostname:0.0 */ str++; } if (db) fprintf(stderr, "str: %s\n", str); if (strstr(str, "cmd=") == str) { if (no_external_cmds || !cmd_ok("WAIT")) { rfbLog("wait_for_client external cmds not allowed:" " %s\n", use_dpy); clean_up_exit(1); } cmd = str + strlen("cmd="); if (!strcmp(str, "FINDDISPLAY-print")) { fprintf(stdout, "%s", find_display); clean_up_exit(0); } if (db) fprintf(stderr, "cmd: %s\n", cmd); } if (fake_fb) { free(fake_fb); } fake_fb = (char *) calloc(w*h*b/8, 1); fb_image = &ximage_struct; fb_image->data = fake_fb; fb_image->format = ZPixmap; fb_image->width = w; fb_image->height = h; fb_image->bits_per_pixel = b; fb_image->bytes_per_line = w*b/8; fb_image->bitmap_unit = -1; fb_image->depth = 24; fb_image->red_mask = 0xff0000; fb_image->green_mask = 0x00ff00; fb_image->blue_mask = 0x0000ff; depth = fb_image->depth; dpy_x = wdpy_x = w; dpy_y = wdpy_y = h; off_x = 0; off_y = 0; if (! dt) { char *s; argv[*argc] = strdup("-desktop"); *argc = (*argc) + 1; if (cmd) { char *q; s = choose_title(":0"); q = strstr(s, ":0"); if (q) { *q = '\0'; } } else { s = choose_title(str); } rfb_desktop_name = strdup(s); argv[*argc] = s; *argc = (*argc) + 1; } initialize_allowed_input(); if (! multiple_cursors_mode) { multiple_cursors_mode = strdup("default"); } initialize_cursors_mode(); initialize_screen(argc, argv, fb_image); initialize_signals(); if (! raw_fb) { chg_raw_fb = 1; /* kludge to get RAWFB_RET with dpy == NULL guards */ raw_fb = (char *) 0x1; } if (cmd && !strcmp(cmd, "HTTPONCE")) { handle_one_http_request(); clean_up_exit(0); } if (http && check_httpdir()) { http_connections(1); } if (cmd && unixpw) { keep_unixpw = 1; } if (inetd && use_openssl) { accept_openssl(OPENSSL_INETD); } while (1) { if (shut_down) { clean_up_exit(0); } if (use_openssl) { check_openssl(); } if (! use_threads) { rfbPE(-1); } if (! screen || ! screen->clientHead) { usleep(100 * 1000); continue; } rfbLog("wait_for_client: got client\n"); break; } if (unixpw) { if (! unixpw_in_progress) { rfbLog("unixpw but no unixpw_in_progress\n"); clean_up_exit(1); } while (1) { if (shut_down) { clean_up_exit(0); } if (! use_threads) { rfbPE(-1); } if (unixpw_in_progress) { usleep(20 * 1000); continue; } rfbLog("wait_for_client: unixpw finished.\n"); break; } } if (cmd) { char line1[1024]; char line2[16384]; char *q; int n; memset(line1, 0, 1024); memset(line2, 0, 16384); if (!strcmp(cmd, "FINDDISPLAY")) { tmp_fd = mkstemp(tmp); if (tmp_fd < 0) { rfbLog("wait_for_client: open failed: %s\n", tmp); rfbLogPerror("mkstemp"); clean_up_exit(1); } write(tmp_fd, find_display, strlen(find_display)); close(tmp_fd); chmod(tmp, 0644); cmd = (char *) malloc(strlen(tmp) + strlen("/bin/sh ") + 1); sprintf(cmd, "/bin/sh %s", tmp); } rfbLog("wait_for_client: running: %s\n", cmd); if (unixpw) { int res = 0, k, j, i; char line[18000]; memset(line, 0, 18000); if (keep_unixpw_user && keep_unixpw_pass) { n = 18000; res = su_verify(keep_unixpw_user, keep_unixpw_pass, cmd, line, &n); strzero(keep_unixpw_user); strzero(keep_unixpw_pass); } keep_unixpw = 0; if (tmp_fd >= 0) { unlink(tmp); } if (db) write(2, line, n); write(2, "\n", 1); if (! res) { rfbLog("wait_for_client: cmd failed: %s\n", cmd); unixpw_msg("No DISPLAY found.", 3); clean_up_exit(1); } /* * we need to hunt for DISPLAY= since there may be * a login banner or something at the beginning. */ q = strstr(line, "DISPLAY="); if (! q) { q = line; } n -= (q - line); for (k = 0; k < 1024; k++) { line1[k] = q[k]; if (q[k] == '\n') { k++; break; } } n -= k; i = 0; for (j = 0; j < 16384; j++) { if (j < 16384 - 1) { /* xauth data, assume pty added CR */ if (q[k+j] == '\r' && q[k+j+1] == '\n') { continue; } } line2[i] = q[k+j]; i++; } } else { FILE *p = popen(cmd, "r"); if (! p) { rfbLog("wait_for_client: cmd failed: %s\n", cmd); rfbLogPerror("popen"); if (tmp_fd >= 0) { unlink(tmp); } unixpw_msg("No DISPLAY found.", 3); clean_up_exit(1); } if (fgets(line1, 1024, p) == NULL) { rfbLog("wait_for_client: read failed: %s\n", cmd); rfbLogPerror("fgets"); if (tmp_fd >= 0) { unlink(tmp); } unixpw_msg("No DISPLAY found.", 3); clean_up_exit(1); } n = fread(line2, 1, 16384, p); pclose(p); if (tmp_fd >= 0) { unlink(tmp); } } if (strstr(line1, "DISPLAY=") != line1) { rfbLog("wait_for_client: bad reply %s\n", line1); unixpw_msg("No DISPLAY found.", 3); clean_up_exit(1); } use_dpy = strdup(line1 + strlen("DISPLAY=")); q = use_dpy; while (*q != '\0') { if (*q == '\n' || *q == '\r') *q = '\0'; q++; } if (line2[0] != '\0') { if (strstr(line2, "XAUTHORITY=") == line2) { q = line2; while (*q != '\0') { if (*q == '\n' || *q == '\r') *q = '\0'; q++; } if (auth_file) { free(auth_file); } auth_file = strdup(line2 + strlen("XAUTHORITY=")); } else { xauth_raw_data = (char *)malloc(n); xauth_raw_len = n; memcpy(xauth_raw_data, line2, n); if (db) fprintf(stderr, "xauth_raw_len: %d\n", n); } } if (unixpw) { char str[32]; snprintf(str, 30, "Using DISPLAY %s", use_dpy); unixpw_msg(str, 2); } } else { use_dpy = strdup(str); } if (chg_raw_fb) { raw_fb = NULL; } if (unixpw && keep_unixpw_opts && keep_unixpw_opts[0] != '\0') { user_supplied_opts(keep_unixpw_opts); } return 1; }