/* * Unix PuTTY main program. */ #include #include #include #include #include #include "putty.h" #include "storage.h" /* * TODO: * * - Go through all the config options and ensure they can all be * configured and reconfigured properly. * * - Remainder of the context menu: * * - New Session, Duplicate Session and the Saved Sessions * submenu. * + at least New and Duplicate probably _should_ be in * pterm. * + Duplicate Session will be fun, since we must work out * how to pass the config data through. * + In fact this should be easier on Unix, since fork() is * available so we need not even exec (this also saves us * the trouble of scrabbling around trying to find our own * binary). Possible scenario: respond to Duplicate * Session by forking. Parent continues as before; child * unceremoniously frees all extant resources (backend, * terminal, ldisc, frontend etc) and then _longjmps_ (I * kid you not) back to a point in pt_main() which causes * it to go back round to the point of opening a new * terminal window and a new backend. * + A tricky bit here is how to free everything without * also _destroying_ things - calling GTK to free up * existing widgets is liable to send destroy messages to * the X server, which won't go down too well with the * parent process. exec() is a much cleaner solution to * this bit, but requires us to invent some ghastly IPC as * we did in Windows PuTTY. * + Arrgh! Also, this won't work in pterm since we'll * already have dropped privileges by this point, so we * can't get another pty. Sigh. Looks like exec has to be * the way forward then :-/ */ /* * Clean up and exit. */ void cleanup_exit(int code) { /* * Clean up. */ sk_cleanup(); random_save_seed(); exit(code); } Backend *select_backend(Config *cfg) { int i; Backend *back = NULL; for (i = 0; backends[i].backend != NULL; i++) if (backends[i].protocol == cfg->protocol) { back = backends[i].backend; break; } assert(back != NULL); return back; } int cfgbox(Config *cfg) { return do_config_box("PuTTY Configuration", cfg, 0); } static int got_host = 0; const int use_event_log = 1; int process_nonoption_arg(char *arg, Config *cfg) { char *p, *q = arg; if (got_host) { /* * If we already have a host name, treat this argument as a * port number. NB we have to treat this as a saved -P * argument, so that it will be deferred until it's a good * moment to run it. */ int ret = cmdline_process_param("-P", arg, 1, cfg); assert(ret == 2); } else if (!strncmp(q, "telnet:", 7)) { /* * If the hostname starts with "telnet:", * set the protocol to Telnet and process * the string as a Telnet URL. */ 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'; got_host = 1; } else { /* * Otherwise, treat this argument as a host name. */ p = arg; while (*p && !isspace((unsigned char)*p)) p++; if (*p) *p++ = '\0'; strncpy(cfg->host, q, sizeof(cfg->host) - 1); cfg->host[sizeof(cfg->host) - 1] = '\0'; got_host = 1; } return 1; } char *make_default_wintitle(char *hostname) { return dupcat(hostname, " - PuTTY", NULL); } int main(int argc, char **argv) { extern int pt_main(int argc, char **argv); sk_init(); flags = FLAG_VERBOSE | FLAG_INTERACTIVE; default_protocol = be_default_protocol; /* Find the appropriate default port. */ { int i; default_port = 0; /* illegal */ for (i = 0; backends[i].backend != NULL; i++) if (backends[i].protocol == default_protocol) { default_port = backends[i].backend->default_port; break; } } return pt_main(argc, argv); }