/* -*- c-basic-offset: 8 -*- rdesktop: A Remote Desktop Protocol client. Entrypoint and utility functions Copyright (C) Matthew Chapman 1999-2005 This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. 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; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include /* va_list va_start va_end */ #include /* read close getuid getgid getpid getppid gethostname */ #include /* open */ #include /* getpwuid */ #include /* tcgetattr tcsetattr */ #include /* stat */ #include /* gettimeofday */ #include /* times */ #include /* toupper */ #include #include "rdesktop.h" #ifdef HAVE_LOCALE_H #include #endif #ifdef HAVE_ICONV #ifdef HAVE_LANGINFO_H #include #endif #endif #ifdef EGD_SOCKET #include #include /* socket connect */ #include /* sockaddr_un */ #endif #include char g_title[64] = ""; char g_username[64]; char g_hostname[16]; char g_keymapname[PATH_MAX] = ""; unsigned int g_keylayout = 0x409; /* Defaults to US keyboard layout */ int g_keyboard_type = 0x4; /* Defaults to US keyboard layout */ int g_keyboard_subtype = 0x0; /* Defaults to US keyboard layout */ int g_keyboard_functionkeys = 0xc; /* Defaults to US keyboard layout */ int g_width = 800; /* width is special: If 0, the geometry will be fetched from _NET_WORKAREA. If negative, absolute value specifies the percent of the whole screen. */ int g_height = 600; int g_xpos = 0; int g_ypos = 0; int g_pos = 0; /* 0 position unspecified, 1 specified, 2 xpos neg, 4 ypos neg */ extern int g_tcp_port_rdp; int g_server_depth = -1; int g_win_button_size = 0; /* If zero, disable single app mode */ BOOL g_bitmap_compression = True; BOOL g_sendmotion = True; BOOL g_bitmap_cache = True; BOOL g_bitmap_cache_persist_enable = False; BOOL g_bitmap_cache_precache = True; BOOL g_encryption = True; BOOL packet_encryption = True; BOOL g_desktop_save = True; /* desktop save order */ BOOL g_polygon_ellipse_orders = True; /* polygon / ellipse orders */ BOOL g_fullscreen = False; BOOL g_grab_keyboard = True; BOOL g_hide_decorations = False; BOOL g_use_rdp5 = True; BOOL g_rdpclip = True; BOOL g_console_session = False; BOOL g_numlock_sync = False; BOOL lspci_enabled = False; BOOL g_owncolmap = False; BOOL g_ownbackstore = True; /* We can't rely on external BackingStore */ BOOL g_seamless_rdp = False; uint32 g_embed_wnd; uint32 g_rdp5_performanceflags = RDP5_NO_WALLPAPER | RDP5_NO_FULLWINDOWDRAG | RDP5_NO_MENUANIMATIONS; /* Session Directory redirection */ BOOL g_redirect = False; char g_redirect_server[64]; char g_redirect_domain[16]; char g_redirect_password[64]; char g_redirect_username[64]; char g_redirect_cookie[128]; uint32 g_redirect_flags = 0; #ifdef WITH_RDPSND BOOL g_rdpsnd = False; #endif #ifdef HAVE_ICONV char g_codepage[16] = ""; #endif extern RDPDR_DEVICE g_rdpdr_device[]; extern uint32 g_num_devices; extern char *g_rdpdr_clientname; #ifdef RDP2VNC extern int rfb_port; extern int defer_time; void rdp2vnc_connect(char *server, uint32 flags, char *domain, char *password, char *shell, char *directory); #endif /* Display usage information */ static void usage(char *program) { fprintf(stderr, "rdesktop: A Remote Desktop Protocol client.\n"); fprintf(stderr, "Version " VERSION ". Copyright (C) 1999-2005 Matt Chapman.\n"); fprintf(stderr, "See http://www.rdesktop.org/ for more information.\n\n"); fprintf(stderr, "Usage: %s [options] server[:port]\n", program); #ifdef RDP2VNC fprintf(stderr, " -V: vnc port\n"); fprintf(stderr, " -Q: defer time (ms)\n"); #endif fprintf(stderr, " -u: user name\n"); fprintf(stderr, " -d: domain\n"); fprintf(stderr, " -s: shell\n"); fprintf(stderr, " -c: working directory\n"); fprintf(stderr, " -p: password (- to prompt)\n"); fprintf(stderr, " -n: client hostname\n"); fprintf(stderr, " -k: keyboard layout on server (en-us, de, sv, etc.)\n"); fprintf(stderr, " -g: desktop geometry (WxH)\n"); fprintf(stderr, " -f: full-screen mode\n"); fprintf(stderr, " -b: force bitmap updates\n"); #ifdef HAVE_ICONV fprintf(stderr, " -L: local codepage\n"); #endif fprintf(stderr, " -A: enable SeamlessRDP mode\n"); fprintf(stderr, " -B: use BackingStore of X-server (if available)\n"); fprintf(stderr, " -e: disable encryption (French TS)\n"); fprintf(stderr, " -E: disable encryption from client to server\n"); fprintf(stderr, " -m: do not send motion events\n"); fprintf(stderr, " -C: use private colour map\n"); fprintf(stderr, " -D: hide window manager decorations\n"); fprintf(stderr, " -K: keep window manager key bindings\n"); fprintf(stderr, " -S: caption button size (single application mode)\n"); fprintf(stderr, " -T: window title\n"); fprintf(stderr, " -N: enable numlock syncronization\n"); fprintf(stderr, " -X: embed into another window with a given id.\n"); fprintf(stderr, " -a: connection colour depth\n"); fprintf(stderr, " -z: enable rdp compression\n"); fprintf(stderr, " -x: RDP5 experience (m[odem 28.8], b[roadband], l[an] or hex nr.)\n"); fprintf(stderr, " -P: use persistent bitmap caching\n"); fprintf(stderr, " -r: enable specified device redirection (this flag can be repeated)\n"); fprintf(stderr, " '-r comport:COM1=/dev/ttyS0': enable serial redirection of /dev/ttyS0 to COM1\n"); fprintf(stderr, " or COM1=/dev/ttyS0,COM2=/dev/ttyS1\n"); fprintf(stderr, " '-r disk:floppy=/mnt/floppy': enable redirection of /mnt/floppy to 'floppy' share\n"); fprintf(stderr, " or 'floppy=/mnt/floppy,cdrom=/mnt/cdrom'\n"); fprintf(stderr, " '-r clientname=': Set the client name displayed\n"); fprintf(stderr, " for redirected disks\n"); fprintf(stderr, " '-r lptport:LPT1=/dev/lp0': enable parallel redirection of /dev/lp0 to LPT1\n"); fprintf(stderr, " or LPT1=/dev/lp0,LPT2=/dev/lp1\n"); fprintf(stderr, " '-r printer:mydeskjet': enable printer redirection\n"); fprintf(stderr, " or mydeskjet=\"HP LaserJet IIIP\" to enter server driver as well\n"); fprintf(stderr, " '-r sound:[local|off|remote]': enable sound redirection\n"); fprintf(stderr, " remote would leave sound on server\n"); fprintf(stderr, " '-r clipboard:[off|PRIMARYCLIPBOARD|CLIPBOARD]': enable clipboard\n"); fprintf(stderr, " redirection.\n"); fprintf(stderr, " 'PRIMARYCLIPBOARD' looks at both PRIMARY and CLIPBOARD\n"); fprintf(stderr, " when sending data to server.\n"); fprintf(stderr, " 'CLIPBOARD' looks at only CLIPBOARD.\n"); fprintf(stderr, " -0: attach to console\n"); fprintf(stderr, " -4: use RDP version 4\n"); fprintf(stderr, " -5: use RDP version 5 (default)\n"); } static void print_disconnect_reason(uint16 reason) { char *text; switch (reason) { case exDiscReasonNoInfo: text = "No information available"; break; case exDiscReasonAPIInitiatedDisconnect: text = "Server initiated disconnect"; break; case exDiscReasonAPIInitiatedLogoff: text = "Server initiated logoff"; break; case exDiscReasonServerIdleTimeout: text = "Server idle timeout reached"; break; case exDiscReasonServerLogonTimeout: text = "Server logon timeout reached"; break; case exDiscReasonReplacedByOtherConnection: text = "The session was replaced"; break; case exDiscReasonOutOfMemory: text = "The server is out of memory"; break; case exDiscReasonServerDeniedConnection: text = "The server denied the connection"; break; case exDiscReasonServerDeniedConnectionFips: text = "The server denied the connection for security reason"; break; case exDiscReasonLicenseInternal: text = "Internal licensing error"; break; case exDiscReasonLicenseNoLicenseServer: text = "No license server available"; break; case exDiscReasonLicenseNoLicense: text = "No valid license available"; break; case exDiscReasonLicenseErrClientMsg: text = "Invalid licensing message"; break; case exDiscReasonLicenseHwidDoesntMatchLicense: text = "Hardware id doesn't match software license"; break; case exDiscReasonLicenseErrClientLicense: text = "Client license error"; break; case exDiscReasonLicenseCantFinishProtocol: text = "Network error during licensing protocol"; break; case exDiscReasonLicenseClientEndedProtocol: text = "Licensing protocol was not completed"; break; case exDiscReasonLicenseErrClientEncryption: text = "Incorrect client license enryption"; break; case exDiscReasonLicenseCantUpgradeLicense: text = "Can't upgrade license"; break; case exDiscReasonLicenseNoRemoteConnections: text = "The server is not licensed to accept remote connections"; break; default: if (reason > 0x1000 && reason < 0x7fff) { text = "Internal protocol error"; } else { text = "Unknown reason"; } } fprintf(stderr, "disconnect: %s.\n", text); } static void rdesktop_reset_state(void) { rdp_reset_state(); } static BOOL read_password(char *password, int size) { struct termios tios; BOOL ret = False; int istty = 0; char *p; if (tcgetattr(STDIN_FILENO, &tios) == 0) { fprintf(stderr, "Password: "); tios.c_lflag &= ~ECHO; tcsetattr(STDIN_FILENO, TCSANOW, &tios); istty = 1; } if (fgets(password, size, stdin) != NULL) { ret = True; /* strip final newline */ p = strchr(password, '\n'); if (p != NULL) *p = 0; } if (istty) { tios.c_lflag |= ECHO; tcsetattr(STDIN_FILENO, TCSANOW, &tios); fprintf(stderr, "\n"); } return ret; } static void parse_server_and_port(char *server) { char *p; #ifdef IPv6 int addr_colons; #endif #ifdef IPv6 p = server; addr_colons = 0; while (*p) if (*p++ == ':') addr_colons++; if (addr_colons >= 2) { /* numeric IPv6 style address format - [1:2:3::4]:port */ p = strchr(server, ']'); if (*server == '[' && p != NULL) { if (*(p + 1) == ':' && *(p + 2) != '\0') g_tcp_port_rdp = strtol(p + 2, NULL, 10); /* remove the port number and brackets from the address */ *p = '\0'; strncpy(server, server + 1, strlen(server)); } } else { /* dns name or IPv4 style address format - server.example.com:port or 1.2.3.4:port */ p = strchr(server, ':'); if (p != NULL) { g_tcp_port_rdp = strtol(p + 1, NULL, 10); *p = 0; } } #else /* no IPv6 support */ p = strchr(server, ':'); if (p != NULL) { g_tcp_port_rdp = strtol(p + 1, NULL, 10); *p = 0; } #endif /* IPv6 */ } /* Client program */ int main(int argc, char *argv[]) { char server[64]; char fullhostname[64]; char domain[16]; char password[64]; char shell[256]; char directory[256]; BOOL prompt_password, deactivated; struct passwd *pw; uint32 flags, ext_disc_reason = 0; char *p; int c; char *locale = NULL; int username_option = 0; BOOL geometry_option = False; int run_count = 0; /* Session Directory support */ BOOL continue_connect = True; /* Session Directory support */ #ifdef HAVE_LOCALE_H /* Set locale according to environment */ locale = setlocale(LC_ALL, ""); if (locale) { locale = xstrdup(locale); } #endif flags = RDP_LOGON_NORMAL; prompt_password = False; domain[0] = password[0] = shell[0] = directory[0] = 0; g_embed_wnd = 0; g_num_devices = 0; #ifdef RDP2VNC #define VNCOPT "V:Q:" #else #define VNCOPT #endif while ((c = getopt(argc, argv, VNCOPT "Au:L:d:s:c:p:n:k:g:fbBeEmzCDKS:T:NX:a:x:Pr:045h?")) != -1) { switch (c) { #ifdef RDP2VNC case 'V': rfb_port = strtol(optarg, NULL, 10); if (rfb_port < 100) rfb_port += 5900; break; case 'Q': defer_time = strtol(optarg, NULL, 10); if (defer_time < 0) defer_time = 0; break; #endif case 'A': g_seamless_rdp = True; break; case 'u': STRNCPY(g_username, optarg, sizeof(g_username)); username_option = 1; break; case 'L': #ifdef HAVE_ICONV STRNCPY(g_codepage, optarg, sizeof(g_codepage)); #else error("iconv support not available\n"); #endif break; case 'd': STRNCPY(domain, optarg, sizeof(domain)); break; case 's': STRNCPY(shell, optarg, sizeof(shell)); break; case 'c': STRNCPY(directory, optarg, sizeof(directory)); break; case 'p': if ((optarg[0] == '-') && (optarg[1] == 0)) { prompt_password = True; break; } STRNCPY(password, optarg, sizeof(password)); flags |= RDP_LOGON_AUTO; /* try to overwrite argument so it won't appear in ps */ p = optarg; while (*p) *(p++) = 'X'; break; case 'n': STRNCPY(g_hostname, optarg, sizeof(g_hostname)); break; case 'k': STRNCPY(g_keymapname, optarg, sizeof(g_keymapname)); break; case 'g': geometry_option = True; g_fullscreen = False; if (!strcmp(optarg, "workarea")) { g_width = g_height = 0; break; } g_width = strtol(optarg, &p, 10); if (g_width <= 0) { error("invalid geometry\n"); return 1; } if (*p == 'x') g_height = strtol(p + 1, &p, 10); if (g_height <= 0) { error("invalid geometry\n"); return 1; } if (*p == '%') { g_width = -g_width; p++; } if (*p == '+' || *p == '-') { g_pos |= (*p == '-') ? 2 : 1; g_xpos = strtol(p, &p, 10); } if (*p == '+' || *p == '-') { g_pos |= (*p == '-') ? 4 : 1; g_ypos = strtol(p, NULL, 10); } break; case 'f': g_fullscreen = True; break; case 'b': g_bitmap_cache = False; break; case 'B': g_ownbackstore = False; break; case 'e': g_encryption = False; break; case 'E': packet_encryption = False; break; case 'm': g_sendmotion = False; break; case 'C': g_owncolmap = True; break; case 'D': g_hide_decorations = True; break; case 'K': g_grab_keyboard = False; break; case 'S': if (!strcmp(optarg, "standard")) { g_win_button_size = 18; break; } g_win_button_size = strtol(optarg, &p, 10); if (*p) { error("invalid button size\n"); return 1; } break; case 'T': STRNCPY(g_title, optarg, sizeof(g_title)); break; case 'N': g_numlock_sync = True; break; case 'X': g_embed_wnd = strtol(optarg, NULL, 0); break; case 'a': g_server_depth = strtol(optarg, NULL, 10); if (g_server_depth != 8 && g_server_depth != 16 && g_server_depth != 15 && g_server_depth != 24) { error("Invalid server colour depth.\n"); return 1; } break; case 'z': DEBUG(("rdp compression enabled\n")); flags |= (RDP_LOGON_COMPRESSION | RDP_LOGON_COMPRESSION2); break; case 'x': if (str_startswith(optarg, "m")) /* modem */ { g_rdp5_performanceflags = RDP5_NO_WALLPAPER | RDP5_NO_FULLWINDOWDRAG | RDP5_NO_MENUANIMATIONS | RDP5_NO_THEMING; } else if (str_startswith(optarg, "b")) /* broadband */ { g_rdp5_performanceflags = RDP5_NO_WALLPAPER; } else if (str_startswith(optarg, "l")) /* lan */ { g_rdp5_performanceflags = RDP5_DISABLE_NOTHING; } else { g_rdp5_performanceflags = strtol(optarg, NULL, 16); } break; case 'P': g_bitmap_cache_persist_enable = True; break; case 'r': if (str_startswith(optarg, "sound")) { optarg += 5; if (*optarg == ':') { optarg++; while ((p = next_arg(optarg, ','))) { if (str_startswith(optarg, "remote")) flags |= RDP_LOGON_LEAVE_AUDIO; if (str_startswith(optarg, "local")) #ifdef WITH_RDPSND g_rdpsnd = True; #else warning("Not compiled with sound support\n"); #endif if (str_startswith(optarg, "off")) #ifdef WITH_RDPSND g_rdpsnd = False; #else warning("Not compiled with sound support\n"); #endif optarg = p; } } else { #ifdef WITH_RDPSND g_rdpsnd = True; #else warning("Not compiled with sound support\n"); #endif } } else if (str_startswith(optarg, "disk")) { /* -r disk:h:=/mnt/floppy */ disk_enum_devices(&g_num_devices, optarg + 4); } else if (str_startswith(optarg, "comport")) { serial_enum_devices(&g_num_devices, optarg + 7); } else if (str_startswith(optarg, "lspci")) { lspci_enabled = True; } else if (str_startswith(optarg, "lptport")) { parallel_enum_devices(&g_num_devices, optarg + 7); } else if (str_startswith(optarg, "printer")) { printer_enum_devices(&g_num_devices, optarg + 7); } else if (str_startswith(optarg, "clientname")) { g_rdpdr_clientname = xmalloc(strlen(optarg + 11) + 1); strcpy(g_rdpdr_clientname, optarg + 11); } else if (str_startswith(optarg, "clipboard")) { optarg += 9; if (*optarg == ':') { optarg++; if (str_startswith(optarg, "off")) g_rdpclip = False; else cliprdr_set_mode(optarg); } else g_rdpclip = True; } else { warning("Unknown -r argument\n\n\tPossible arguments are: comport, disk, lptport, printer, sound, clipboard\n"); } break; case '0': g_console_session = True; break; case '4': g_use_rdp5 = False; break; case '5': g_use_rdp5 = True; break; case 'h': case '?': default: usage(argv[0]); return 1; } } if (argc - optind != 1) { usage(argv[0]); return 1; } STRNCPY(server, argv[optind], sizeof(server)); parse_server_and_port(server); if (g_seamless_rdp) { if (g_win_button_size) { error("You cannot use -S and -A at the same time\n"); return 1; } g_rdp5_performanceflags &= ~RDP5_NO_FULLWINDOWDRAG; if (geometry_option) { error("You cannot use -g and -A at the same time\n"); return 1; } if (g_fullscreen) { error("You cannot use -f and -A at the same time\n"); return 1; } if (g_hide_decorations) { error("You cannot use -D and -A at the same time\n"); return 1; } if (g_embed_wnd) { error("You cannot use -X and -A at the same time\n"); return 1; } if (!g_use_rdp5) { error("You cannot use -4 and -A at the same time\n"); return 1; } g_width = -100; g_grab_keyboard = False; } if (!username_option) { pw = getpwuid(getuid()); if ((pw == NULL) || (pw->pw_name == NULL)) { error("could not determine username, use -u\n"); return 1; } STRNCPY(g_username, pw->pw_name, sizeof(g_username)); } #ifdef HAVE_ICONV if (g_codepage[0] == 0) { if (setlocale(LC_CTYPE, "")) { STRNCPY(g_codepage, nl_langinfo(CODESET), sizeof(g_codepage)); } else { STRNCPY(g_codepage, DEFAULT_CODEPAGE, sizeof(g_codepage)); } } #endif if (g_hostname[0] == 0) { if (gethostname(fullhostname, sizeof(fullhostname)) == -1) { error("could not determine local hostname, use -n\n"); return 1; } p = strchr(fullhostname, '.'); if (p != NULL) *p = 0; STRNCPY(g_hostname, fullhostname, sizeof(g_hostname)); } if (g_keymapname[0] == 0) { if (locale && xkeymap_from_locale(locale)) { fprintf(stderr, "Autoselected keyboard map %s\n", g_keymapname); } else { STRNCPY(g_keymapname, "en-us", sizeof(g_keymapname)); } } if (locale) xfree(locale); if (prompt_password && read_password(password, sizeof(password))) flags |= RDP_LOGON_AUTO; if (g_title[0] == 0) { strcpy(g_title, "rdesktop - "); strncat(g_title, server, sizeof(g_title) - sizeof("rdesktop - ")); } #ifdef RDP2VNC rdp2vnc_connect(server, flags, domain, password, shell, directory); return 0; #else if (!ui_init()) return 1; #ifdef WITH_RDPSND if (g_rdpsnd) rdpsnd_init(); #endif if (lspci_enabled) lspci_init(); rdpdr_init(); while (run_count < 2 && continue_connect) /* add support for Session Directory; only reconnect once */ { if (run_count == 0) { if (!rdp_connect(server, flags, domain, password, shell, directory)) return 1; } else if (!rdp_reconnect (server, flags, domain, password, shell, directory, g_redirect_cookie)) return 1; /* By setting encryption to False here, we have an encrypted login packet but unencrypted transfer of other packets */ if (!packet_encryption) g_encryption = False; DEBUG(("Connection successful.\n")); memset(password, 0, sizeof(password)); if (run_count == 0) if (!ui_create_window()) continue_connect = False; if (continue_connect) rdp_main_loop(&deactivated, &ext_disc_reason); DEBUG(("Disconnecting...\n")); rdp_disconnect(); if ((g_redirect == True) && (run_count == 0)) /* Support for Session Directory */ { /* reset state of major globals */ rdesktop_reset_state(); STRNCPY(domain, g_redirect_domain, sizeof(domain)); STRNCPY(g_username, g_redirect_username, sizeof(g_username)); STRNCPY(password, g_redirect_password, sizeof(password)); STRNCPY(server, g_redirect_server, sizeof(server)); flags |= RDP_LOGON_AUTO; g_redirect = False; } else { continue_connect = False; ui_destroy_window(); break; } run_count++; } cache_save_state(); ui_deinit(); if (ext_disc_reason >= 2) print_disconnect_reason(ext_disc_reason); if (deactivated) { /* clean disconnect */ return 0; } else { if (ext_disc_reason == exDiscReasonAPIInitiatedDisconnect || ext_disc_reason == exDiscReasonAPIInitiatedLogoff) { /* not so clean disconnect, but nothing to worry about */ return 0; } else { /* return error */ return 2; } } #endif } #ifdef EGD_SOCKET /* Read 32 random bytes from PRNGD or EGD socket (based on OpenSSL RAND_egd) */ static BOOL generate_random_egd(uint8 * buf) { struct sockaddr_un addr; BOOL ret = False; int fd; fd = socket(AF_UNIX, SOCK_STREAM, 0); if (fd == -1) return False; addr.sun_family = AF_UNIX; memcpy(addr.sun_path, EGD_SOCKET, sizeof(EGD_SOCKET)); if (connect(fd, (struct sockaddr *) &addr, sizeof(addr)) == -1) goto err; /* PRNGD and EGD use a simple communications protocol */ buf[0] = 1; /* Non-blocking (similar to /dev/urandom) */ buf[1] = 32; /* Number of requested random bytes */ if (write(fd, buf, 2) != 2) goto err; if ((read(fd, buf, 1) != 1) || (buf[0] == 0)) /* Available? */ goto err; if (read(fd, buf, 32) != 32) goto err; ret = True; err: close(fd); return ret; } #endif /* Generate a 32-byte random for the secure transport code. */ void generate_random(uint8 * random) { struct stat st; struct tms tmsbuf; MD5_CTX md5; uint32 *r; int fd, n; /* If we have a kernel random device, try that first */ if (((fd = open("/dev/urandom", O_RDONLY)) != -1) || ((fd = open("/dev/random", O_RDONLY)) != -1)) { n = read(fd, random, 32); close(fd); if (n == 32) return; } #ifdef EGD_SOCKET /* As a second preference use an EGD */ if (generate_random_egd(random)) return; #endif /* Otherwise use whatever entropy we can gather - ideas welcome. */ r = (uint32 *) random; r[0] = (getpid()) | (getppid() << 16); r[1] = (getuid()) | (getgid() << 16); r[2] = times(&tmsbuf); /* system uptime (clocks) */ gettimeofday((struct timeval *) &r[3], NULL); /* sec and usec */ stat("/tmp", &st); r[5] = st.st_atime; r[6] = st.st_mtime; r[7] = st.st_ctime; /* Hash both halves with MD5 to obscure possible patterns */ MD5_Init(&md5); MD5_Update(&md5, random, 16); MD5_Final(random, &md5); MD5_Update(&md5, random + 16, 16); MD5_Final(random + 16, &md5); } /* malloc; exit if out of memory */ void * xmalloc(size_t size) { void *mem = malloc(size); if (mem == NULL) { error("xmalloc %d\n", size); exit(1); } return mem; } /* strdup */ char * xstrdup(const char *s) { char *mem = strdup(s); if (mem == NULL) { perror("strdup"); exit(1); } return mem; } /* realloc; exit if out of memory */ void * xrealloc(void *oldmem, size_t size) { void *mem; if (size == 0) size = 1; mem = realloc(oldmem, size); if (mem == NULL) { error("xrealloc %ld\n", size); exit(1); } return mem; } /* free */ void xfree(void *mem) { free(mem); } /* report an error */ void error(char *format, ...) { va_list ap; fprintf(stderr, "ERROR: "); va_start(ap, format); vfprintf(stderr, format, ap); va_end(ap); } /* report a warning */ void warning(char *format, ...) { va_list ap; fprintf(stderr, "WARNING: "); va_start(ap, format); vfprintf(stderr, format, ap); va_end(ap); } /* report an unimplemented protocol feature */ void unimpl(char *format, ...) { va_list ap; fprintf(stderr, "NOT IMPLEMENTED: "); va_start(ap, format); vfprintf(stderr, format, ap); va_end(ap); } /* produce a hex dump */ void hexdump(unsigned char *p, unsigned int len) { unsigned char *line = p; int i, thisline, offset = 0; while (offset < len) { printf("%04x ", offset); thisline = len - offset; if (thisline > 16) thisline = 16; for (i = 0; i < thisline; i++) printf("%02x ", line[i]); for (; i < 16; i++) printf(" "); for (i = 0; i < thisline; i++) printf("%c", (line[i] >= 0x20 && line[i] < 0x7f) ? line[i] : '.'); printf("\n"); offset += thisline; line += thisline; } } /* input: src is the string we look in for needle. Needle may be escaped by a backslash, in that case we ignore that particular needle. return value: returns next src pointer, for succesive executions, like in a while loop if retval is 0, then there are no more args. pitfalls: src is modified. 0x00 chars are inserted to terminate strings. return val, points on the next val chr after ins 0x00 example usage: while( (pos = next_arg( optarg, ',')) ){ printf("%s\n",optarg); optarg=pos; } */ char * next_arg(char *src, char needle) { char *nextval; char *p; char *mvp = 0; /* EOS */ if (*src == (char) 0x00) return 0; p = src; /* skip escaped needles */ while ((nextval = strchr(p, needle))) { mvp = nextval - 1; /* found backslashed needle */ if (*mvp == '\\' && (mvp > src)) { /* move string one to the left */ while (*(mvp + 1) != (char) 0x00) { *mvp = *(mvp + 1); mvp++; } *mvp = (char) 0x00; p = nextval; } else { p = nextval + 1; break; } } /* more args available */ if (nextval) { *nextval = (char) 0x00; return ++nextval; } /* no more args after this, jump to EOS */ nextval = src + strlen(src); return nextval; } void toupper_str(char *p) { while (*p) { if ((*p >= 'a') && (*p <= 'z')) *p = toupper((int) *p); p++; } } BOOL str_startswith(const char *s, const char *prefix) { return (strncmp(s, prefix, strlen(prefix)) == 0); } /* Split input into lines, and call linehandler for each line. Incomplete lines are saved in the rest variable, which should initially point to NULL. When linehandler returns False, stop and return False. Otherwise, return True. */ BOOL str_handle_lines(const char *input, char **rest, str_handle_lines_t linehandler, void *data) { char *buf, *p; char *oldrest; size_t inputlen; size_t buflen; size_t restlen = 0; BOOL ret = True; /* Copy data to buffer */ inputlen = strlen(input); if (*rest) restlen = strlen(*rest); buflen = restlen + inputlen + 1; buf = (char *) xmalloc(buflen); buf[0] = '\0'; if (*rest) STRNCPY(buf, *rest, buflen); strncat(buf, input, inputlen); p = buf; while (1) { char *newline = strchr(p, '\n'); if (newline) { *newline = '\0'; if (!linehandler(p, data)) { p = newline + 1; ret = False; break; } p = newline + 1; } else { break; } } /* Save in rest */ oldrest = *rest; restlen = buf + buflen - p; *rest = (char *) xmalloc(restlen); STRNCPY((*rest), p, restlen); xfree(oldrest); xfree(buf); return ret; } /* Execute the program specified by argv. For each line in stdout/stderr output, call linehandler. Returns false on failure. */ BOOL subprocess(char *const argv[], str_handle_lines_t linehandler, void *data) { pid_t child; int fd[2]; int n = 1; char output[256]; char *rest = NULL; if (pipe(fd) < 0) { perror("pipe"); return False; } if ((child = fork()) < 0) { perror("fork"); return False; } /* Child */ if (child == 0) { /* Close read end */ close(fd[0]); /* Redirect stdout and stderr to pipe */ dup2(fd[1], 1); dup2(fd[1], 2); /* Execute */ execvp(argv[0], argv); perror("Error executing child"); _exit(128); } /* Parent. Close write end. */ close(fd[1]); while (n > 0) { n = read(fd[0], output, 255); output[n] = '\0'; str_handle_lines(output, &rest, linehandler, data); } xfree(rest); return True; } /* not all clibs got ltoa */ #define LTOA_BUFSIZE (sizeof(long) * 8 + 1) char * l_to_a(long N, int base) { static char ret[LTOA_BUFSIZE]; char *head = ret, buf[LTOA_BUFSIZE], *tail = buf + sizeof(buf); register int divrem; if (base < 36 || 2 > base) base = 10; if (N < 0) { *head++ = '-'; N = -N; } tail = buf + sizeof(buf); *--tail = 0; do { divrem = N % base; *--tail = (divrem <= 9) ? divrem + '0' : divrem + 'a' - 10; N /= base; } while (N); strcpy(head, tail); return ret; } int load_licence(unsigned char **data) { char *home, *path; struct stat st; int fd, length; home = getenv("HOME"); if (home == NULL) return -1; path = (char *) xmalloc(strlen(home) + strlen(g_hostname) + sizeof("/.rdesktop/licence.")); sprintf(path, "%s/.rdesktop/licence.%s", home, g_hostname); fd = open(path, O_RDONLY); if (fd == -1) return -1; if (fstat(fd, &st)) return -1; *data = (uint8 *) xmalloc(st.st_size); length = read(fd, *data, st.st_size); close(fd); xfree(path); return length; } void save_licence(unsigned char *data, int length) { char *home, *path, *tmppath; int fd; home = getenv("HOME"); if (home == NULL) return; path = (char *) xmalloc(strlen(home) + strlen(g_hostname) + sizeof("/.rdesktop/licence.")); sprintf(path, "%s/.rdesktop", home); if ((mkdir(path, 0700) == -1) && errno != EEXIST) { perror(path); return; } /* write licence to licence.hostname.new, then atomically rename to licence.hostname */ sprintf(path, "%s/.rdesktop/licence.%s", home, g_hostname); tmppath = (char *) xmalloc(strlen(path) + sizeof(".new")); strcpy(tmppath, path); strcat(tmppath, ".new"); fd = open(tmppath, O_WRONLY | O_CREAT | O_TRUNC, 0600); if (fd == -1) { perror(tmppath); return; } if (write(fd, data, length) != length) { perror(tmppath); unlink(tmppath); } else if (rename(tmppath, path) == -1) { perror(path); unlink(tmppath); } close(fd); xfree(tmppath); xfree(path); } /* Create the bitmap cache directory */ BOOL rd_pstcache_mkdir(void) { char *home; char bmpcache_dir[256]; home = getenv("HOME"); if (home == NULL) return False; sprintf(bmpcache_dir, "%s/%s", home, ".rdesktop"); if ((mkdir(bmpcache_dir, S_IRWXU) == -1) && errno != EEXIST) { perror(bmpcache_dir); return False; } sprintf(bmpcache_dir, "%s/%s", home, ".rdesktop/cache"); if ((mkdir(bmpcache_dir, S_IRWXU) == -1) && errno != EEXIST) { perror(bmpcache_dir); return False; } return True; } /* open a file in the .rdesktop directory */ int rd_open_file(char *filename) { char *home; char fn[256]; int fd; home = getenv("HOME"); if (home == NULL) return -1; sprintf(fn, "%s/.rdesktop/%s", home, filename); fd = open(fn, O_RDWR | O_CREAT, S_IRUSR | S_IWUSR); if (fd == -1) perror(fn); return fd; } /* close file */ void rd_close_file(int fd) { close(fd); } /* read from file*/ int rd_read_file(int fd, void *ptr, int len) { return read(fd, ptr, len); } /* write to file */ int rd_write_file(int fd, void *ptr, int len) { return write(fd, ptr, len); } /* move file pointer */ int rd_lseek_file(int fd, int offset) { return lseek(fd, offset, SEEK_SET); } /* do a write lock on a file */ BOOL rd_lock_file(int fd, int start, int len) { struct flock lock; lock.l_type = F_WRLCK; lock.l_whence = SEEK_SET; lock.l_start = start; lock.l_len = len; if (fcntl(fd, F_SETLK, &lock) == -1) return False; return True; }