/* tty.cc Copyright 1997, 1998, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2008 Red Hat, Inc. This file is part of Cygwin. This software is a copyrighted work licensed under the terms of the Cygwin license. Please consult the file "CYGWIN_LICENSE" for details. */ #include "winsup.h" #include #include #include #include #include #include "cygerrno.h" #include "security.h" #include "path.h" #include "fhandler.h" #include "dtable.h" #include "cygheap.h" #include "pinfo.h" #include "cygserver.h" #include "shared_info.h" #include "cygthread.h" extern fhandler_tty_master *tty_master; extern "C" int posix_openpt (int oflags) { return open ("/dev/ptmx", oflags); } extern "C" int grantpt (int fd) { return 0; } extern "C" int unlockpt (int fd) { return 0; } extern "C" int revoke (char *ttyname) { set_errno (ENOSYS); return -1; } extern "C" int ttyslot (void) { if (NOTSTATE (myself, PID_USETTY)) return -1; return myself->ctty; } HANDLE NO_COPY tty_list::mutex = NULL; void __stdcall tty_list::init_session () { char mutex_name[MAX_PATH]; /* tty_list::mutex is used while searching for a tty slot. It's necessary while finding console window handle */ char *name = shared_name (mutex_name, "tty_list::mutex", 0); if (!(mutex = CreateMutex (&sec_all_nih, FALSE, name))) api_fatal ("can't create tty_list::mutex '%s', %E", name); ProtectHandle (mutex); } void __stdcall tty::init_session () { if (!myself->cygstarted && NOTSTATE (myself, PID_CYGPARENT)) cygheap->fdtab.get_debugger_info (); if (NOTSTATE (myself, PID_USETTY)) return; if (myself->ctty == -1) if (NOTSTATE (myself, PID_CYGPARENT)) myself->ctty = cygwin_shared->tty.attach (myself->ctty); else return; if (myself->ctty == -1) termios_printf ("Can't attach to tty"); } /* Create session's master tty */ void __stdcall tty::create_master (int ttynum) { device ttym = *ttym_dev; ttym.setunit (ttynum); /* CGF FIXME device */ tty_master = (fhandler_tty_master *) build_fh_dev (ttym); if (tty_master->init ()) api_fatal ("Can't create master tty"); else { /* Log utmp entry */ struct utmp our_utmp; DWORD len = sizeof our_utmp.ut_host; bzero ((char *) &our_utmp, sizeof (utmp)); time (&our_utmp.ut_time); strncpy (our_utmp.ut_name, getlogin (), sizeof (our_utmp.ut_name)); GetComputerName (our_utmp.ut_host, &len); __small_sprintf (our_utmp.ut_line, "tty%d", ttynum); if ((len = strlen (our_utmp.ut_line)) >= UT_IDLEN) len -= UT_IDLEN; else len = 0; strncpy (our_utmp.ut_id, our_utmp.ut_line + len, UT_IDLEN); our_utmp.ut_type = USER_PROCESS; our_utmp.ut_pid = myself->pid; myself->ctty = ttynum; login (&our_utmp); } } int __stdcall tty_list::attach (int num) { if (num != -1) { return connect (num); } if (NOTSTATE (myself, PID_USETTY)) return -1; return allocate (true); } void tty_list::terminate () { if (NOTSTATE (myself, PID_USETTY)) return; int ttynum = myself->ctty; /* Keep master running till there are connected clients */ if (ttynum != -1 && tty_master && ttys[ttynum].master_pid == myself->pid) { tty *t = ttys + ttynum; CloseHandle (tty_master->from_master); CloseHandle (tty_master->to_master); /* Wait for children which rely on tty handling in this process to go away */ for (int i = 0; ; i++) { if (!t->slave_alive ()) break; if (i >= 100) { small_printf ("waiting for children using tty%d to terminate\n", ttynum); i = 0; } low_priority_sleep (200); } lock_ttys here (); termios_printf ("tty %d master about to finish", ttynum); CloseHandle (tty_master->get_io_handle ()); CloseHandle (tty_master->get_output_handle ()); t->init (); char buf[20]; __small_sprintf (buf, "tty%d", ttynum); logout (buf); } } int tty_list::connect (int ttynum) { if (ttynum < 0 || ttynum >= NTTYS) { termios_printf ("ttynum (%d) out of range", ttynum); return -1; } if (!ttys[ttynum].exists ()) { termios_printf ("tty %d was not allocated", ttynum); return -1; } return ttynum; } void tty_list::init () { for (int i = 0; i < NTTYS; i++) { ttys[i].init (); ttys[i].setntty (i); } } /* Search for tty class for our console. Allocate new tty if our process is the only cygwin process in the current console. Return tty number or -1 if error. If flag == 0, just find a free tty. */ int tty_list::allocate (bool with_console) { HWND console; int freetty = -1; HANDLE hmaster = NULL; /* FIXME: This whole function needs a protective mutex. */ lock_ttys here; if (!with_console) console = NULL; else if (!(console = GetConsoleWindow ())) { termios_printf ("Can't find console window"); goto out; } /* Is a tty allocated for console? */ for (int i = 0; i < NTTYS; i++) { if (!ttys[i].exists ()) { if (freetty < 0) /* Scanning? */ freetty = i; /* Yes. */ if (!with_console) /* Do we want to attach this to a console? */ break; /* No. We've got one. */ } /* FIXME: Is this right? We can potentially query a "nonexistent" tty slot after falling through from the above? */ if (with_console && ttys[i].gethwnd () == console) { termios_printf ("console %x already associated with tty%d", console, i); /* Is the master alive? */ hmaster = OpenProcess (PROCESS_DUP_HANDLE, FALSE, ttys[i].master_pid); if (hmaster) { CloseHandle (hmaster); freetty = i; goto out; } /* Master is dead */ freetty = i; break; } } /* There is no tty allocated to console, allocate the first free found */ if (freetty == -1) goto out; tty *t; t = ttys + freetty; t->init (); t->setsid (-1); t->sethwnd (console); out: if (freetty < 0) system_printf ("No tty allocated"); else if (!with_console) { termios_printf ("tty%d allocated", freetty); here.dont_release (); /* exit with mutex still held -- caller has more work to do */ } else { termios_printf ("console %p associated with tty%d", console, freetty); if (!hmaster) tty::create_master (freetty); } return freetty; } bool tty::slave_alive () { return alive (TTY_SLAVE_ALIVE); } bool tty::alive (const char *fmt) { HANDLE ev; char buf[MAX_PATH]; shared_name (buf, fmt, ntty); if ((ev = OpenEvent (EVENT_ALL_ACCESS, FALSE, buf))) CloseHandle (ev); return ev != NULL; } HANDLE tty::open_output_mutex () { return open_mutex (OUTPUT_MUTEX); } HANDLE tty::open_input_mutex () { return open_mutex (INPUT_MUTEX); } HANDLE tty::open_mutex (const char *mutex) { char buf[MAX_PATH]; shared_name (buf, mutex, ntty); return OpenMutex (MUTEX_ALL_ACCESS, TRUE, buf); } HANDLE tty::create_inuse (const char *fmt) { HANDLE h; char buf[MAX_PATH]; shared_name (buf, fmt, ntty); h = CreateEvent (&sec_all, TRUE, FALSE, buf); termios_printf ("%s %p", buf, h); if (!h) termios_printf ("couldn't open inuse event, %E", buf); return h; } void tty::init () { output_stopped = 0; setsid (0); pgid = 0; hwnd = NULL; was_opened = 0; master_pid = 0; } HANDLE tty::get_event (const char *fmt, BOOL manual_reset) { HANDLE hev; char buf[MAX_PATH]; shared_name (buf, fmt, ntty); if (!(hev = CreateEvent (&sec_all, manual_reset, FALSE, buf))) { termios_printf ("couldn't create %s", buf); set_errno (ENOENT); /* FIXME this can't be the right errno */ return NULL; } termios_printf ("created event %s", buf); return hev; } lock_ttys::lock_ttys (DWORD howlong): release_me (true) { if (WaitForSingleObject (tty_list::mutex, howlong) == WAIT_FAILED) { termios_printf ("WFSO for mutex %p failed, %E", tty_list::mutex); release_me = false; } } void lock_ttys::release () { ReleaseMutex (tty_list::mutex); }