/* * PLink - a command-line (stdin/stdout) variant of PuTTY. */ #ifndef AUTO_WINSOCK #include #endif #include #include #include #include #include #define PUTTY_DO_GLOBALS /* actually _define_ globals */ #include "putty.h" #include "storage.h" #include "tree234.h" #define MAX_STDIN_BACKLOG 4096 void fatalbox(char *p, ...) { va_list ap; fprintf(stderr, "FATAL ERROR: "); va_start(ap, p); vfprintf(stderr, p, ap); va_end(ap); fputc('\n', stderr); WSACleanup(); cleanup_exit(1); } void connection_fatal(char *p, ...) { va_list ap; fprintf(stderr, "FATAL ERROR: "); va_start(ap, p); vfprintf(stderr, p, ap); va_end(ap); fputc('\n', stderr); WSACleanup(); cleanup_exit(1); } void cmdline_error(char *p, ...) { va_list ap; fprintf(stderr, "plink: "); va_start(ap, p); vfprintf(stderr, p, ap); va_end(ap); fputc('\n', stderr); exit(1); } static char *password = NULL; HANDLE inhandle, outhandle, errhandle; DWORD orig_console_mode; WSAEVENT netevent; int term_ldisc(int mode) { return FALSE; } void ldisc_update(int echo, int edit) { /* Update stdin read mode to reflect changes in line discipline. */ DWORD mode; mode = ENABLE_PROCESSED_INPUT; if (echo) mode = mode | ENABLE_ECHO_INPUT; else mode = mode & ~ENABLE_ECHO_INPUT; if (edit) mode = mode | ENABLE_LINE_INPUT; else mode = mode & ~ENABLE_LINE_INPUT; SetConsoleMode(inhandle, mode); } struct input_data { DWORD len; char buffer[4096]; HANDLE event, eventback; }; static DWORD WINAPI stdin_read_thread(void *param) { struct input_data *idata = (struct input_data *) param; HANDLE inhandle; inhandle = GetStdHandle(STD_INPUT_HANDLE); while (ReadFile(inhandle, idata->buffer, sizeof(idata->buffer), &idata->len, NULL) && idata->len > 0) { SetEvent(idata->event); WaitForSingleObject(idata->eventback, INFINITE); } idata->len = 0; SetEvent(idata->event); return 0; } struct output_data { DWORD len, lenwritten; int writeret; char *buffer; int is_stderr, done; HANDLE event, eventback; int busy; }; static DWORD WINAPI stdout_write_thread(void *param) { struct output_data *odata = (struct output_data *) param; HANDLE outhandle, errhandle; outhandle = GetStdHandle(STD_OUTPUT_HANDLE); errhandle = GetStdHandle(STD_ERROR_HANDLE); while (1) { WaitForSingleObject(odata->eventback, INFINITE); if (odata->done) break; odata->writeret = WriteFile(odata->is_stderr ? errhandle : outhandle, odata->buffer, odata->len, &odata->lenwritten, NULL); SetEvent(odata->event); } return 0; } bufchain stdout_data, stderr_data; struct output_data odata, edata; void try_output(int is_stderr) { struct output_data *data = (is_stderr ? &edata : &odata); void *senddata; int sendlen; if (!data->busy) { bufchain_prefix(is_stderr ? &stderr_data : &stdout_data, &senddata, &sendlen); data->buffer = senddata; data->len = sendlen; SetEvent(data->eventback); data->busy = 1; } } int from_backend(int is_stderr, char *data, int len) { HANDLE h = (is_stderr ? errhandle : outhandle); int osize, esize; assert(len > 0); if (is_stderr) { bufchain_add(&stderr_data, data, len); try_output(1); } else { bufchain_add(&stdout_data, data, len); try_output(0); } osize = bufchain_size(&stdout_data); esize = bufchain_size(&stderr_data); return osize + esize; } /* * Short description of parameters. */ static void usage(void) { printf("PuTTY Link: command-line connection utility\n"); printf("%s\n", ver); printf("Usage: plink [options] [user@]host [command]\n"); printf(" (\"host\" can also be a PuTTY saved session name)\n"); printf("Options:\n"); printf(" -v show verbose messages\n"); printf(" -load sessname Load settings from saved session\n"); printf(" -ssh -telnet -rlogin -raw\n"); printf(" force use of a particular protocol (default SSH)\n"); printf(" -P port connect to specified port\n"); printf(" -l user connect with specified username\n"); printf(" -m file read remote command(s) from file\n"); printf(" -batch disable all interactive prompts\n"); printf("The following options only apply to SSH connections:\n"); printf(" -pw passw login with specified password\n"); printf(" -L listen-port:host:port Forward local port to " "remote address\n"); printf(" -R listen-port:host:port Forward remote port to" " local address\n"); printf(" -X -x enable / disable X11 forwarding\n"); printf(" -A -a enable / disable agent forwarding\n"); printf(" -t -T enable / disable pty allocation\n"); printf(" -1 -2 force use of particular protocol version\n"); printf(" -C enable compression\n"); printf(" -i key private key file for authentication\n"); exit(1); } char *do_select(SOCKET skt, int startup) { int events; if (startup) { events = (FD_CONNECT | FD_READ | FD_WRITE | FD_OOB | FD_CLOSE | FD_ACCEPT); } else { events = 0; } if (WSAEventSelect(skt, netevent, events) == SOCKET_ERROR) { switch (WSAGetLastError()) { case WSAENETDOWN: return "Network is down"; default: return "WSAAsyncSelect(): unknown error"; } } return NULL; } int main(int argc, char **argv) { WSADATA wsadata; WORD winsock_ver; WSAEVENT stdinevent, stdoutevent, stderrevent; HANDLE handles[4]; DWORD in_threadid, out_threadid, err_threadid; struct input_data idata; int reading; int sending; int portnumber = -1; SOCKET *sklist; int skcount, sksize; int connopen; int exitcode; ssh_get_line = console_get_line; sklist = NULL; skcount = sksize = 0; /* * Initialise port and protocol to sensible defaults. (These * will be overridden by more or less anything.) */ default_protocol = PROT_SSH; default_port = 22; flags = FLAG_STDERR; /* * Process the command line. */ do_defaults(NULL, &cfg); default_protocol = cfg.protocol; default_port = cfg.port; { /* * Override the default protocol if PLINK_PROTOCOL is set. */ char *p = getenv("PLINK_PROTOCOL"); int i; if (p) { for (i = 0; backends[i].backend != NULL; i++) { if (!strcmp(backends[i].name, p)) { default_protocol = cfg.protocol = backends[i].protocol; default_port = cfg.port = backends[i].backend->default_port; break; } } } } while (--argc) { char *p = *++argv; if (*p == '-') { int ret = cmdline_process_param(p, (argc > 1 ? argv[1] : NULL), 1); if (ret == -2) { fprintf(stderr, "plink: option \"%s\" requires an argument\n", p); } else if (ret == 2) { --argc, ++argv; } else if (ret == 1) { continue; } else if (!strcmp(p, "-batch")) { console_batch_mode = 1; } } else if (*p) { if (!*cfg.host) { char *q = p; /* * If the hostname starts with "telnet:", set the * protocol to Telnet and process the string as a * Telnet URL. */ if (!strncmp(q, "telnet:", 7)) { char c; q += 7; if (q[0] == '/' && q[1] == '/') q += 2; cfg.protocol = PROT_TELNET; p = q; while (*p && *p != ':' && *p != '/') p++; c = *p; if (*p) *p++ = '\0'; if (c == ':') cfg.port = atoi(p); else cfg.port = -1; strncpy(cfg.host, q, sizeof(cfg.host) - 1); cfg.host[sizeof(cfg.host) - 1] = '\0'; } else { char *r; /* * Before we process the [user@]host string, we * first check for the presence of a protocol * prefix (a protocol name followed by ","). */ r = strchr(p, ','); if (r) { int i, j; for (i = 0; backends[i].backend != NULL; i++) { j = strlen(backends[i].name); if (j == r - p && !memcmp(backends[i].name, p, j)) { default_protocol = cfg.protocol = backends[i].protocol; portnumber = backends[i].backend->default_port; p = r + 1; break; } } } /* * Three cases. Either (a) there's a nonzero * length string followed by an @, in which * case that's user and the remainder is host. * Or (b) there's only one string, not counting * a potential initial @, and it exists in the * saved-sessions database. Or (c) only one * string and it _doesn't_ exist in the * database. */ r = strrchr(p, '@'); if (r == p) p++, r = NULL; /* discount initial @ */ if (r == NULL) { /* * One string. */ Config cfg2; do_defaults(p, &cfg2); if (cfg2.host[0] == '\0') { /* No settings for this host; use defaults */ strncpy(cfg.host, p, sizeof(cfg.host) - 1); cfg.host[sizeof(cfg.host) - 1] = '\0'; cfg.port = default_port; } else { cfg = cfg2; cfg.remote_cmd_ptr = cfg.remote_cmd; } } else { *r++ = '\0'; strncpy(cfg.username, p, sizeof(cfg.username) - 1); cfg.username[sizeof(cfg.username) - 1] = '\0'; strncpy(cfg.host, r, sizeof(cfg.host) - 1); cfg.host[sizeof(cfg.host) - 1] = '\0'; cfg.port = default_port; } } } else { char *command; int cmdlen, cmdsize; cmdlen = cmdsize = 0; command = NULL; while (argc) { while (*p) { if (cmdlen >= cmdsize) { cmdsize = cmdlen + 512; command = srealloc(command, cmdsize); } command[cmdlen++]=*p++; } if (cmdlen >= cmdsize) { cmdsize = cmdlen + 512; command = srealloc(command, cmdsize); } command[cmdlen++]=' '; /* always add trailing space */ if (--argc) p = *++argv; } if (cmdlen) command[--cmdlen]='\0'; /* change trailing blank to NUL */ cfg.remote_cmd_ptr = command; cfg.remote_cmd_ptr2 = NULL; cfg.nopty = TRUE; /* command => no terminal */ break; /* done with cmdline */ } } } if (!*cfg.host) { usage(); } /* * Trim leading whitespace off the hostname if it's there. */ { int space = strspn(cfg.host, " \t"); memmove(cfg.host, cfg.host+space, 1+strlen(cfg.host)-space); } /* See if host is of the form user@host */ if (cfg.host[0] != '\0') { char *atsign = strchr(cfg.host, '@'); /* Make sure we're not overflowing the user field */ if (atsign) { if (atsign - cfg.host < sizeof cfg.username) { strncpy(cfg.username, cfg.host, atsign - cfg.host); cfg.username[atsign - cfg.host] = '\0'; } memmove(cfg.host, atsign + 1, 1 + strlen(atsign + 1)); } } /* * Perform command-line overrides on session configuration. */ cmdline_run_saved(); /* * Trim a colon suffix off the hostname if it's there. */ cfg.host[strcspn(cfg.host, ":")] = '\0'; if (!*cfg.remote_cmd_ptr) flags |= FLAG_INTERACTIVE; /* * Select protocol. This is farmed out into a table in a * separate file to enable an ssh-free variant. */ { int i; back = NULL; for (i = 0; backends[i].backend != NULL; i++) if (backends[i].protocol == cfg.protocol) { back = backends[i].backend; break; } if (back == NULL) { fprintf(stderr, "Internal fault: Unsupported protocol found\n"); return 1; } } /* * Select port. */ if (portnumber != -1) cfg.port = portnumber; /* * Initialise WinSock. */ winsock_ver = MAKEWORD(2, 0); if (WSAStartup(winsock_ver, &wsadata)) { MessageBox(NULL, "Unable to initialise WinSock", "WinSock Error", MB_OK | MB_ICONEXCLAMATION); return 1; } if (LOBYTE(wsadata.wVersion) != 2 || HIBYTE(wsadata.wVersion) != 0) { MessageBox(NULL, "WinSock version is incompatible with 2.0", "WinSock Error", MB_OK | MB_ICONEXCLAMATION); WSACleanup(); return 1; } sk_init(); /* * Start up the connection. */ netevent = CreateEvent(NULL, FALSE, FALSE, NULL); { char *error; char *realhost; /* nodelay is only useful if stdin is a character device (console) */ int nodelay = cfg.tcp_nodelay && (GetFileType(GetStdHandle(STD_INPUT_HANDLE)) == FILE_TYPE_CHAR); error = back->init(cfg.host, cfg.port, &realhost, nodelay); if (error) { fprintf(stderr, "Unable to open connection:\n%s", error); return 1; } sfree(realhost); } connopen = 1; stdinevent = CreateEvent(NULL, FALSE, FALSE, NULL); stdoutevent = CreateEvent(NULL, FALSE, FALSE, NULL); stderrevent = CreateEvent(NULL, FALSE, FALSE, NULL); inhandle = GetStdHandle(STD_INPUT_HANDLE); outhandle = GetStdHandle(STD_OUTPUT_HANDLE); errhandle = GetStdHandle(STD_ERROR_HANDLE); GetConsoleMode(inhandle, &orig_console_mode); SetConsoleMode(inhandle, ENABLE_PROCESSED_INPUT); /* * Turn off ECHO and LINE input modes. We don't care if this * call fails, because we know we aren't necessarily running in * a console. */ handles[0] = netevent; handles[1] = stdinevent; handles[2] = stdoutevent; handles[3] = stderrevent; sending = FALSE; /* * Create spare threads to write to stdout and stderr, so we * can arrange asynchronous writes. */ odata.event = stdoutevent; odata.eventback = CreateEvent(NULL, FALSE, FALSE, NULL); odata.is_stderr = 0; odata.busy = odata.done = 0; if (!CreateThread(NULL, 0, stdout_write_thread, &odata, 0, &out_threadid)) { fprintf(stderr, "Unable to create output thread\n"); cleanup_exit(1); } edata.event = stderrevent; edata.eventback = CreateEvent(NULL, FALSE, FALSE, NULL); edata.is_stderr = 1; edata.busy = edata.done = 0; if (!CreateThread(NULL, 0, stdout_write_thread, &edata, 0, &err_threadid)) { fprintf(stderr, "Unable to create error output thread\n"); cleanup_exit(1); } while (1) { int n; if (!sending && back->sendok()) { /* * Create a separate thread to read from stdin. This is * a total pain, but I can't find another way to do it: * * - an overlapped ReadFile or ReadFileEx just doesn't * happen; we get failure from ReadFileEx, and * ReadFile blocks despite being given an OVERLAPPED * structure. Perhaps we can't do overlapped reads * on consoles. WHY THE HELL NOT? * * - WaitForMultipleObjects(netevent, console) doesn't * work, because it signals the console when * _anything_ happens, including mouse motions and * other things that don't cause data to be readable * - so we're back to ReadFile blocking. */ idata.event = stdinevent; idata.eventback = CreateEvent(NULL, FALSE, FALSE, NULL); if (!CreateThread(NULL, 0, stdin_read_thread, &idata, 0, &in_threadid)) { fprintf(stderr, "Unable to create input thread\n"); cleanup_exit(1); } sending = TRUE; } n = WaitForMultipleObjects(4, handles, FALSE, INFINITE); if (n == 0) { WSANETWORKEVENTS things; SOCKET socket; extern SOCKET first_socket(int *), next_socket(int *); extern int select_result(WPARAM, LPARAM); int i, socketstate; /* * We must not call select_result() for any socket * until we have finished enumerating within the tree. * This is because select_result() may close the socket * and modify the tree. */ /* Count the active sockets. */ i = 0; for (socket = first_socket(&socketstate); socket != INVALID_SOCKET; socket = next_socket(&socketstate)) i++; /* Expand the buffer if necessary. */ if (i > sksize) { sksize = i + 16; sklist = srealloc(sklist, sksize * sizeof(*sklist)); } /* Retrieve the sockets into sklist. */ skcount = 0; for (socket = first_socket(&socketstate); socket != INVALID_SOCKET; socket = next_socket(&socketstate)) { sklist[skcount++] = socket; } /* Now we're done enumerating; go through the list. */ for (i = 0; i < skcount; i++) { WPARAM wp; socket = sklist[i]; wp = (WPARAM) socket; if (!WSAEnumNetworkEvents(socket, NULL, &things)) { static const struct { int bit, mask; } eventtypes[] = { {FD_CONNECT_BIT, FD_CONNECT}, {FD_READ_BIT, FD_READ}, {FD_CLOSE_BIT, FD_CLOSE}, {FD_OOB_BIT, FD_OOB}, {FD_WRITE_BIT, FD_WRITE}, {FD_ACCEPT_BIT, FD_ACCEPT}, }; int e; noise_ultralight(socket); noise_ultralight(things.lNetworkEvents); for (e = 0; e < lenof(eventtypes); e++) if (things.lNetworkEvents & eventtypes[e].mask) { LPARAM lp; int err = things.iErrorCode[eventtypes[e].bit]; lp = WSAMAKESELECTREPLY(eventtypes[e].mask, err); connopen &= select_result(wp, lp); } } } } else if (n == 1) { reading = 0; noise_ultralight(idata.len); if (connopen && back->socket() != NULL) { if (idata.len > 0) { back->send(idata.buffer, idata.len); } else { back->special(TS_EOF); } } } else if (n == 2) { odata.busy = 0; if (!odata.writeret) { fprintf(stderr, "Unable to write to standard output\n"); cleanup_exit(0); } bufchain_consume(&stdout_data, odata.lenwritten); if (bufchain_size(&stdout_data) > 0) try_output(0); if (connopen && back->socket() != NULL) { back->unthrottle(bufchain_size(&stdout_data) + bufchain_size(&stderr_data)); } } else if (n == 3) { edata.busy = 0; if (!edata.writeret) { fprintf(stderr, "Unable to write to standard output\n"); cleanup_exit(0); } bufchain_consume(&stderr_data, edata.lenwritten); if (bufchain_size(&stderr_data) > 0) try_output(1); if (connopen && back->socket() != NULL) { back->unthrottle(bufchain_size(&stdout_data) + bufchain_size(&stderr_data)); } } if (!reading && back->sendbuffer() < MAX_STDIN_BACKLOG) { SetEvent(idata.eventback); reading = 1; } if ((!connopen || back->socket() == NULL) && bufchain_size(&stdout_data) == 0 && bufchain_size(&stderr_data) == 0) break; /* we closed the connection */ } WSACleanup(); exitcode = back->exitcode(); if (exitcode < 0) { fprintf(stderr, "Remote process exit code unavailable\n"); exitcode = 1; /* this is an error condition */ } return exitcode; }