/* fhandler_tty.cc Copyright 1997, 1998, 2000, 2001 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 #include #include "cygerrno.h" #include "security.h" #include "fhandler.h" #include "dtable.h" #include "sync.h" #include "sigproc.h" #include "pinfo.h" #include "cygheap.h" #include "shared_info.h" /* Tty master stuff */ fhandler_tty_master NO_COPY *tty_master; static DWORD WINAPI process_input (void *); // Input queue thread static DWORD WINAPI process_output (void *); // Output queue thread static DWORD WINAPI process_ioctl (void *); // Ioctl requests thread fhandler_tty_master::fhandler_tty_master (const char *name, int unit) : fhandler_pty_master (name, FH_TTYM, unit) { set_cb (sizeof *this); console = NULL; hThread = NULL; } int fhandler_tty_master::init (int ntty) { HANDLE h; termios_printf ("Creating master for tty%d", ntty); if (init_console ()) { termios_printf ("can't create fhandler"); return -1; } termios ti; memset (&ti, 0, sizeof (ti)); console->tcsetattr (0, &ti); ttynum = ntty; cygwin_shared->tty[ttynum]->common_init (this); inuse = get_ttyp ()->create_inuse (TTY_MASTER_ALIVE, FALSE); h = makethread (process_input, NULL, 0, "ttyin"); if (h == NULL) { termios_printf ("can't create input thread"); return -1; } else { SetThreadPriority (h, THREAD_PRIORITY_HIGHEST); CloseHandle (h); } h = makethread (process_ioctl, NULL, 0, "ttyioctl"); if (h == NULL) { termios_printf ("can't create ioctl thread"); return -1; } else { SetThreadPriority (h, THREAD_PRIORITY_HIGHEST); CloseHandle (h); } hThread = makethread (process_output, NULL, 0, "ttyout"); if (hThread != NULL) SetThreadPriority (hThread, THREAD_PRIORITY_HIGHEST); else { termios_printf ("can't create output thread"); return -1; } return 0; } #ifdef DEBUGGING static class mutex_stack { public: const char *fn; int ln; const char *tname; } ostack[100]; static int osi = 0; #endif /*DEBUGGING*/ DWORD fhandler_tty_common::__acquire_output_mutex (const char *fn, int ln, DWORD ms) { if (strace.active) strace.prntf (_STRACE_TERMIOS, fn, "(%d): tty output_mutex: waiting %d ms", ln, ms); DWORD res = WaitForSingleObject (output_mutex, ms); if (res == WAIT_OBJECT_0) { #ifndef DEBUGGING if (strace.active) strace.prntf (_STRACE_TERMIOS, fn, "(%d): tty output_mutex: acquired", ln, res); #else ostack[osi].fn = fn; ostack[osi].ln = ln; ostack[osi].tname = threadname (0, 0); termios_printf ("acquired for %s:%d, osi %d", fn, ln, osi); osi++; #endif } return res; } void fhandler_tty_common::__release_output_mutex (const char *fn, int ln) { if (ReleaseMutex (output_mutex)) { #ifndef DEBUGGING if (strace.active) strace.prntf (_STRACE_TERMIOS, fn, "(%d): tty output_mutex released", ln); #else if (osi > 0) osi--; termios_printf ("released at %s:%d, osi %d", fn, ln, osi); termios_printf (" for %s:%d (%s)", ostack[osi].fn, ostack[osi].ln, ostack[osi].tname); ostack[osi].ln = -ln; #endif } } /* Process tty input. */ void fhandler_pty_master::doecho (const void *str, DWORD len) { acquire_output_mutex (INFINITE); if (!WriteFile (get_ttyp ()->to_master, str, len, &len, NULL)) termios_printf ("Write to %p failed, %E", get_ttyp ()->to_master); // WaitForSingleObject (output_done_event, INFINITE); release_output_mutex (); } int fhandler_pty_master::accept_input () { DWORD bytes_left, written; DWORD n; DWORD rc; char* p; rc = WaitForSingleObject (input_mutex, INFINITE); bytes_left = n = eat_readahead (-1); get_ttyp ()->read_retval = 0; p = rabuf; if (n != 0) { while (bytes_left > 0) { termios_printf ("about to write %d chars to slave", bytes_left); rc = WriteFile (get_output_handle (), p, bytes_left, &written, NULL); if (!rc) { debug_printf ("error writing to pipe %E"); break; } get_ttyp ()->read_retval += written; p += written; bytes_left -= written; if (bytes_left > 0) { debug_printf ("to_slave pipe is full"); SetEvent (input_available_event); ReleaseMutex (input_mutex); Sleep (10); rc = WaitForSingleObject (input_mutex, INFINITE); } } } else termios_printf ("sending EOF to slave"); SetEvent (input_available_event); ReleaseMutex (input_mutex); return get_ttyp ()->read_retval; } static DWORD WINAPI process_input (void *) { char rawbuf[INP_BUFFER_SIZE]; while (1) { int nraw = tty_master->console->read ((void *) rawbuf, (size_t) INP_BUFFER_SIZE); (void) tty_master->line_edit (rawbuf, nraw); } } BOOL fhandler_pty_master::hit_eof () { if (get_ttyp ()->was_opened && !get_ttyp ()->slave_alive ()) { /* We have the only remaining open handle to this pty, and the slave pty has been opened at least once. We treat this as EOF. */ termios_printf ("all other handles closed"); return 1; } return 0; } /* Process tty output requests */ int fhandler_pty_master::process_slave_output (char *buf, size_t len, int pktmode_on) { size_t rlen; char outbuf[OUT_BUFFER_SIZE + 1]; DWORD n; int column = 0; int rc = 0; if (len == 0) goto out; if (need_nl) { /* We need to return a left over \n character, resulting from \r\n conversion. Note that we already checked for FLUSHO and output_stopped at the time that we read the character, so we don't check again here. */ buf[0] = '\n'; need_nl = 0; rc = 1; goto out; } for (;;) { /* Set RLEN to the number of bytes to read from the pipe. */ rlen = len; if (get_ttyp ()->ti.c_oflag & OPOST && get_ttyp ()->ti.c_oflag & ONLCR) { /* We are going to expand \n to \r\n, so don't read more than half of the number of bytes requested. */ rlen /= 2; if (rlen == 0) rlen = 1; } if (rlen > sizeof outbuf) rlen = sizeof outbuf; HANDLE handle = get_io_handle (); n = 0; // get_readahead_into_buffer (outbuf, len); if (!n) { /* Doing a busy wait like this is quite inefficient, but nothing else seems to work completely. Windows should provide some sort of overlapped I/O for pipes, or something, but it doesn't. */ while (1) { if (!PeekNamedPipe (handle, NULL, 0, NULL, &n, NULL)) goto err; if (n > 0) break; if (hit_eof ()) goto out; if (n == 0 && (get_flags () & (O_NONBLOCK | O_NDELAY)) != 0) { set_errno (EAGAIN); rc = -1; break; } Sleep (10); } if (ReadFile (handle, outbuf, rlen, &n, NULL) == FALSE) goto err; } termios_printf ("bytes read %u", n); get_ttyp ()->write_error = 0; if (output_done_event != NULL) SetEvent (output_done_event); if (get_ttyp ()->ti.c_lflag & FLUSHO) continue; char *optr; optr = buf; if (pktmode_on) *optr++ = TIOCPKT_DATA; if (!(get_ttyp ()->ti.c_oflag & OPOST)) // post-process output { memcpy (optr, outbuf, n); optr += n; } else // raw output mode { char *iptr = outbuf; while (n--) { switch (*iptr) { case '\r': if ((get_ttyp ()->ti.c_oflag & ONOCR) && column == 0) { iptr++; continue; } if (get_ttyp ()->ti.c_oflag & OCRNL) *iptr = '\n'; else column = 0; break; case '\n': if (get_ttyp ()->ti.c_oflag & ONLCR) { *optr++ = '\r'; column = 0; } if (get_ttyp ()->ti.c_oflag & ONLRET) column = 0; break; default: column++; break; } /* Don't store data past the end of the user's buffer. This can happen if the user requests a read of 1 byte when doing \r\n expansion. */ if (optr - buf >= (int) len) { if (*iptr != '\n' || n != 0) system_printf ("internal error: %d unexpected characters", n); need_nl = 1; break; } *optr++ = *iptr++; } } rc = optr - buf; break; err: if (GetLastError () == ERROR_BROKEN_PIPE) rc = 0; else { __seterrno (); rc = -1; } break; } out: termios_printf ("returning %d", rc); return rc; } static DWORD WINAPI process_output (void *) { char buf[OUT_BUFFER_SIZE*2]; for (;;) { int n = tty_master->process_slave_output (buf, OUT_BUFFER_SIZE, 0); if (n < 0) { termios_printf ("ReadFile %E"); ExitThread (0); } if (n == 0) { /* End of file. */ ExitThread (0); } n = tty_master->console->write ((void *) buf, (size_t) n); tty_master->get_ttyp ()->write_error = n == -1 ? get_errno () : 0; } } /* Process tty ioctl requests */ static DWORD WINAPI process_ioctl (void *) { while (1) { WaitForSingleObject (tty_master->ioctl_request_event, INFINITE); termios_printf ("ioctl() request"); tty_master->get_ttyp ()->ioctl_retval = tty_master->console->ioctl (tty_master->get_ttyp ()->cmd, (void *) &tty_master->get_ttyp ()->arg); SetEvent (tty_master->ioctl_done_event); } } /**********************************************************************/ /* Tty slave stuff */ fhandler_tty_slave::fhandler_tty_slave (int num, const char *name) : fhandler_tty_common (FH_TTYS, name, num) { set_cb (sizeof *this); ttynum = num; /* FIXME: This is wasteful. We should rewrite the set_name path to eliminate the need for double allocates. */ unix_path_name = (char *) crealloc (unix_path_name, strlen (win32_path_name) + 1); strcpy (unix_path_name, win32_path_name); unix_path_name[0] = unix_path_name[4] = '/'; debug_printf ("unix '%s', win32 '%s'", unix_path_name, win32_path_name); inuse = NULL; } fhandler_tty_slave::fhandler_tty_slave (const char *name) : fhandler_tty_common (FH_TTYS, name, 0) { set_cb (sizeof *this); inuse = NULL; } /* FIXME: This function needs to close handles when it has a failing condition. */ int fhandler_tty_slave::open (const char *, int flags, mode_t) { tcinit (cygwin_shared->tty[ttynum]); attach_tty (ttynum); tc->set_ctty (ttynum, flags); set_flags (flags); /* Create synchronisation events */ char buf[40]; /* output_done_event may or may not exist. It will exist if the tty was opened by fhandler_tty_master::init, normally called at startup if use_tty is non-zero. It will not exist if this is a pty opened by fhandler_pty_master::open. In the former case, tty output is handled by a separate thread which controls output. */ __small_sprintf (buf, OUTPUT_DONE_EVENT, ttynum); output_done_event = OpenEvent (EVENT_ALL_ACCESS, TRUE, buf); if (!(output_mutex = get_ttyp ()->open_output_mutex (TRUE))) { termios_printf ("open output mutex failed, %E"); __seterrno (); return 0; } if (!(input_mutex = get_ttyp ()->open_input_mutex (TRUE))) { termios_printf ("open input mutex failed, %E"); __seterrno (); return 0; } __small_sprintf (buf, INPUT_AVAILABLE_EVENT, ttynum); if (!(input_available_event = OpenEvent (EVENT_ALL_ACCESS, TRUE, buf))) { termios_printf ("open input event failed, %E"); __seterrno (); return 0; } /* The ioctl events may or may not exist. See output_done_event, above. */ __small_sprintf (buf, IOCTL_REQUEST_EVENT, ttynum); ioctl_request_event = OpenEvent (EVENT_ALL_ACCESS, TRUE, buf); __small_sprintf (buf, IOCTL_DONE_EVENT, ttynum); ioctl_done_event = OpenEvent (EVENT_ALL_ACCESS, TRUE, buf); /* FIXME: Needs a method to eliminate tty races */ { acquire_output_mutex (500); inuse = get_ttyp ()->create_inuse (TTY_SLAVE_ALIVE, TRUE); get_ttyp ()->was_opened = TRUE; release_output_mutex (); } /* Duplicate tty handles. */ if (!get_ttyp ()->from_slave || !get_ttyp ()->to_slave) { termios_printf ("tty handles have been closed"); set_errno (EACCES); return 0; } HANDLE tty_owner = OpenProcess (PROCESS_DUP_HANDLE, FALSE, get_ttyp ()->master_pid); if (tty_owner == NULL) { termios_printf ("can't open tty (%d) handle process %d", ttynum, get_ttyp ()->master_pid); __seterrno (); return 0; } HANDLE nh; if (!DuplicateHandle (tty_owner, get_ttyp ()->from_master, hMainProc, &nh, 0, TRUE, DUPLICATE_SAME_ACCESS)) { termios_printf ("can't duplicate input, %E"); __seterrno (); return 0; } set_io_handle (nh); ProtectHandle1 (nh, from_pty); termios_printf ("duplicated from_master %p->%p from tty_owner %p", get_ttyp ()->from_master, nh, tty_owner); if (!DuplicateHandle (tty_owner, get_ttyp ()->to_master, hMainProc, &nh, 0, TRUE, DUPLICATE_SAME_ACCESS)) { termios_printf ("can't duplicate output, %E"); __seterrno (); return 0; } set_output_handle (nh); ProtectHandle1 (nh, to_pty); CloseHandle (tty_owner); set_open_status (); termios_printf ("tty%d opened", ttynum); return 1; } void fhandler_tty_slave::init (HANDLE, DWORD a, mode_t) { int mode = 0; a &= GENERIC_READ | GENERIC_WRITE; if (a == GENERIC_READ) mode = O_RDONLY; if (a == GENERIC_WRITE) mode = O_WRONLY; if (a == (GENERIC_READ | GENERIC_WRITE)) mode = O_RDWR; open (0, mode); } int fhandler_tty_slave::write (const void *ptr, size_t len) { DWORD n, towrite = len; termios_printf ("tty%d, write(%x, %d)", ttynum, ptr, len); acquire_output_mutex (INFINITE); while (len) { n = min (OUT_BUFFER_SIZE, len); char *buf = (char *)ptr; ptr = (char *) ptr + n; len -= n; /* Previous write may have set write_error to != 0. Check it here. This is less than optimal, but the alternative slows down tty writes enormously. */ if (get_ttyp ()->write_error) { set_errno (get_ttyp ()->write_error); towrite = (DWORD) -1; break; } if (WriteFile (get_output_handle (), buf, n, &n, NULL) == FALSE) { DWORD err = GetLastError (); termios_printf ("WriteFile failed, %E"); switch (err) { case ERROR_NO_DATA: err = ERROR_IO_DEVICE; default: __seterrno_from_win_error (err); } _raise (SIGHUP); /* FIXME: Should this be SIGTTOU? */ towrite = (DWORD) -1; break; } if (output_done_event != NULL) { DWORD rc; DWORD x = n * 1000; rc = WaitForSingleObject (output_done_event, x); termios_printf ("waited %d ms for output_done_event, WFSO %d", x, rc); } } release_output_mutex (); return towrite; } int fhandler_tty_slave::read (void *ptr, size_t len) { DWORD n; int totalread = 0; int vmin = INT_MAX; int vtime = 0; /* Initialized to prevent -Wuninitialized warning */ size_t readlen; DWORD bytes_in_pipe; char buf[INP_BUFFER_SIZE]; char peek_buf[INP_BUFFER_SIZE]; DWORD time_to_wait; DWORD rc; HANDLE w4[2]; termios_printf ("read(%x, %d) handle %d", ptr, len, get_handle ()); if (!(get_ttyp ()->ti.c_lflag & ICANON)) { vmin = min (INP_BUFFER_SIZE, get_ttyp ()->ti.c_cc[VMIN]); vtime = get_ttyp ()->ti.c_cc[VTIME]; if (vmin < 0) vmin = 0; if (vtime < 0) vtime = 0; if (vmin == 0) time_to_wait = INFINITE; else time_to_wait = (vtime == 0 ? INFINITE : 100 * vtime); } else time_to_wait = INFINITE; w4[0] = signal_arrived; w4[1] = input_available_event; while (len) { rc = WaitForMultipleObjects (2, w4, FALSE, time_to_wait); if (rc == WAIT_OBJECT_0) { /* if we've received signal after successfully reading some data, just return all data successfully read */ if (totalread > 0) break; set_sig_errno (EINTR); return -1; } else if (rc == WAIT_FAILED) { termios_printf ("wait for input event failed, %E"); break; } else if (rc == WAIT_TIMEOUT) break; rc = WaitForSingleObject (input_mutex, 1000); if (rc == WAIT_FAILED) { termios_printf ("wait for input mutex failed, %E"); break; } else if (rc == WAIT_TIMEOUT) { termios_printf ("failed to acquire input mutex after input event arrived"); break; } if (!PeekNamedPipe (get_handle (), peek_buf, sizeof(peek_buf), &bytes_in_pipe, NULL, NULL)) { termios_printf ("PeekNamedPipe failed, %E"); _raise (SIGHUP); bytes_in_pipe = 0; } readlen = min (bytes_in_pipe, min (len, sizeof (buf))); if (readlen) { termios_printf ("reading %d bytes (vtime %d)", readlen, vtime); if (ReadFile (get_handle (), buf, readlen, &n, NULL) == FALSE) { termios_printf ("read failed, %E"); _raise (SIGHUP); } /* MSDN states that 5th prameter can be used to determine total number of bytes in pipe, but for some reason this number doesn't change after successful read. So we have to peek into the pipe again to see if input is still available */ if (!PeekNamedPipe (get_handle (), peek_buf, 1, &bytes_in_pipe, NULL, NULL)) { termios_printf ("PeekNamedPipe failed, %E"); _raise (SIGHUP); bytes_in_pipe = 0; } if (n) { len -= n; totalread += n; memcpy (ptr, buf, n); ptr = (char *) ptr + n; } } if (!bytes_in_pipe) ResetEvent (input_available_event); ReleaseMutex (input_mutex); if (get_ttyp ()->read_retval < 0) // read error { set_errno (-get_ttyp ()->read_retval); totalread = -1; break; } if (get_ttyp ()->read_retval == 0) //EOF { termios_printf ("saw EOF"); break; } if (get_ttyp ()->ti.c_lflag & ICANON || get_flags () & (O_NONBLOCK | O_NDELAY)) break; if (totalread >= vmin && (vmin > 0 || totalread > 0)) break; /* vmin == 0 && vtime == 0: * we've already read all input, if any, so return immediately * vmin == 0 && vtime > 0: * we've waited for input 10*vtime ms in WFSO(input_available_event), * no matter whether any input arrived, we shouldn't wait any longer, * so return immediately * vmin > 0 && vtime == 0: * here, totalread < vmin, so continue waiting until more data * arrive * vmin > 0 && vtime > 0: * similar to the previous here, totalread < vmin, and timer * hadn't expired -- WFSO(input_available_event) != WAIT_TIMEOUT, * so "restart timer" and wait until more data arrive */ if (vmin == 0) break; } termios_printf ("%d=read(%x, %d)", totalread, ptr, len); return totalread; } int fhandler_tty_common::dup (fhandler_base *child) { fhandler_tty_slave *fts = (fhandler_tty_slave *) child; int errind; fts->ttynum = ttynum; fts->tcinit (get_ttyp ()); attach_tty (ttynum); tc->set_ctty (ttynum, openflags); HANDLE nh; if (output_done_event == NULL) fts->output_done_event = NULL; else if (!DuplicateHandle (hMainProc, output_done_event, hMainProc, &fts->output_done_event, 0, 1, DUPLICATE_SAME_ACCESS)) { errind = 1; goto err; } if (ioctl_request_event == NULL) fts->ioctl_request_event = NULL; else if (!DuplicateHandle (hMainProc, ioctl_request_event, hMainProc, &fts->ioctl_request_event, 0, 1, DUPLICATE_SAME_ACCESS)) { errind = 2; goto err; } if (ioctl_done_event == NULL) fts->ioctl_done_event = NULL; else if (!DuplicateHandle (hMainProc, ioctl_done_event, hMainProc, &fts->ioctl_done_event, 0, 1, DUPLICATE_SAME_ACCESS)) { errind = 3; goto err; } if (!DuplicateHandle (hMainProc, input_available_event, hMainProc, &fts->input_available_event, 0, 1, DUPLICATE_SAME_ACCESS)) { errind = 4; goto err; } if (!DuplicateHandle (hMainProc, output_mutex, hMainProc, &fts->output_mutex, 0, 1, DUPLICATE_SAME_ACCESS)) { errind = 5; goto err; } if (!DuplicateHandle (hMainProc, input_mutex, hMainProc, &fts->input_mutex, 0, 1, DUPLICATE_SAME_ACCESS)) { errind = 6; goto err; } if (!DuplicateHandle (hMainProc, get_handle (), hMainProc, &nh, 0, 1, DUPLICATE_SAME_ACCESS)) { errind = 7; goto err; } fts->set_io_handle (nh); if (!DuplicateHandle (hMainProc, get_output_handle (), hMainProc, &nh, 0, 1, DUPLICATE_SAME_ACCESS)) { errind = 8; goto err; } fts->set_output_handle (nh); if (inuse == NULL) fts->inuse = NULL; else if (!DuplicateHandle (hMainProc, inuse, hMainProc, &fts->inuse, 0, 1, DUPLICATE_SAME_ACCESS)) { errind = 9; goto err; } return 0; err: __seterrno (); termios_printf ("dup %d failed in DuplicateHandle, %E", errind); return -1; } int fhandler_tty_slave::tcgetattr (struct termios *t) { *t = get_ttyp ()->ti; return 0; } int fhandler_tty_slave::tcsetattr (int, const struct termios *t) { acquire_output_mutex (INFINITE); get_ttyp ()->ti = *t; release_output_mutex (); return 0; } int fhandler_tty_slave::tcflush (int) { return 0; } int fhandler_tty_slave::ioctl (unsigned int cmd, void *arg) { termios_printf ("ioctl (%x)", cmd); if (myself->pgid && get_ttyp ()->getpgid () != myself->pgid && myself->ctty == ttynum && (get_ttyp ()->ti.c_lflag & TOSTOP)) { /* background process */ termios_printf ("bg ioctl pgid %d, tpgid %d, ctty %d", myself->pgid, get_ttyp ()->getpgid (), myself->ctty); _raise (SIGTTOU); } switch (cmd) { case TIOCGWINSZ: case TIOCSWINSZ: break; case FIONBIO: if (* (int *) arg) set_flags (get_flags () | O_NONBLOCK); else set_flags (get_flags () & ~O_NONBLOCK); goto out; default: set_errno (EINVAL); return -1; } acquire_output_mutex (INFINITE); get_ttyp ()->cmd = cmd; get_ttyp ()->ioctl_retval = 0; switch (cmd) { case TIOCGWINSZ: get_ttyp ()->arg.winsize = get_ttyp ()->winsize; if (ioctl_request_event) SetEvent (ioctl_request_event); * (struct winsize *) arg = get_ttyp ()->arg.winsize; if (ioctl_done_event) WaitForSingleObject (ioctl_done_event, INFINITE); get_ttyp ()->winsize = get_ttyp ()->arg.winsize; break; case TIOCSWINSZ: get_ttyp ()->ioctl_retval = -1; get_ttyp ()->arg.winsize = * (struct winsize *) arg; if (ioctl_request_event) SetEvent (ioctl_request_event); if (ioctl_done_event) WaitForSingleObject (ioctl_done_event, INFINITE); break; } release_output_mutex (); out: termios_printf ("%d = ioctl (%x)", get_ttyp ()->ioctl_retval, cmd); return get_ttyp ()->ioctl_retval; } /******************************************************* fhandler_pty_master */ fhandler_pty_master::fhandler_pty_master (const char *name, DWORD devtype, int unit) : fhandler_tty_common (devtype, name, unit) { set_cb (sizeof *this); ioctl_request_event = NULL; ioctl_done_event = NULL; pktmode = need_nl = 0; inuse = NULL; } int fhandler_pty_master::open (const char *, int flags, mode_t) { ttynum = cygwin_shared->tty.allocate_tty (0); if (ttynum < 0) return 0; cygwin_shared->tty[ttynum]->common_init (this); inuse = get_ttyp ()->create_inuse (TTY_MASTER_ALIVE, FALSE); set_flags (flags); set_open_status (); termios_printf ("opened pty master tty%d<%p>", ttynum, this); return 1; } int fhandler_tty_common::close () { if (output_done_event && !CloseHandle (output_done_event)) termios_printf ("CloseHandle (output_done_event), %E"); if (ioctl_done_event && !CloseHandle (ioctl_done_event)) termios_printf ("CloseHandle (ioctl_done_event), %E"); if (ioctl_request_event && !CloseHandle (ioctl_request_event)) termios_printf ("CloseHandle (ioctl_request_event), %E"); if (inuse && !CloseHandle (inuse)) termios_printf ("CloseHandle (inuse), %E"); if (!ForceCloseHandle (output_mutex)) termios_printf ("CloseHandle (output_mutex<%p>), %E", output_mutex); if (!ForceCloseHandle (input_mutex)) termios_printf ("CloseHandle (input_mutex<%p>), %E", input_mutex); /* Send EOF to slaves if master side is closed */ if (!get_ttyp ()->master_alive ()) { termios_printf ("no more masters left. sending EOF" ); SetEvent (input_available_event); } if (!ForceCloseHandle (input_available_event)) termios_printf ("CloseHandle (input_available_event<%p>), %E", input_available_event); if (!ForceCloseHandle1 (get_handle (), from_pty)) termios_printf ("CloseHandle (get_handle ()<%p>), %E", get_handle ()); if (!ForceCloseHandle1 (get_output_handle (), to_pty)) termios_printf ("CloseHandle (get_output_handle ()<%p>), %E", get_output_handle ()); inuse = NULL; termios_printf ("tty%d <%p,%p> closed", ttynum, get_handle (), get_output_handle ()); return 0; } int fhandler_pty_master::close () { #if 0 while (accept_input () > 0) continue; #endif this->fhandler_tty_common::close (); if (!get_ttyp ()->master_alive ()) { termios_printf ("freeing tty%d (%d)", ttynum, get_ttyp ()->ntty); #if 0 if (get_ttyp ()->to_slave) ForceCloseHandle1 (get_ttyp ()->to_slave, to_slave); if (get_ttyp ()->from_slave) ForceCloseHandle1 (get_ttyp ()->from_slave, from_slave); #endif if (get_ttyp ()->from_master) CloseHandle (get_ttyp ()->from_master); if (get_ttyp ()->to_master) CloseHandle (get_ttyp ()->to_master); get_ttyp ()->init (); } return 0; } int fhandler_pty_master::write (const void *ptr, size_t len) { (void) line_edit ((char *) ptr, len); return len; } int fhandler_pty_master::read (void *ptr, size_t len) { return process_slave_output ((char *) ptr, len, pktmode); } int fhandler_pty_master::tcgetattr (struct termios *t) { *t = cygwin_shared->tty[ttynum]->ti; return 0; } int fhandler_pty_master::tcsetattr (int, const struct termios *t) { cygwin_shared->tty[ttynum]->ti = *t; return 0; } int fhandler_pty_master::tcflush (int) { return 0; } int fhandler_pty_master::ioctl (unsigned int cmd, void *arg) { switch (cmd) { case TIOCPKT: pktmode = * (int *) arg; break; case TIOCGWINSZ: * (struct winsize *) arg = get_ttyp ()->winsize; break; case TIOCSWINSZ: get_ttyp ()->winsize = * (struct winsize *) arg; _kill (-get_ttyp ()->getpgid (), SIGWINCH); break; case FIONBIO: if (* (int *) arg) set_flags (get_flags () | O_NONBLOCK); else set_flags (get_flags () & ~O_NONBLOCK); break; default: set_errno (EINVAL); return -1; } return 0; } char * fhandler_pty_master::ptsname (void) { static char buf[32]; __small_sprintf (buf, "/dev/tty%d", ttynum); return buf; } void fhandler_tty_common::set_close_on_exec (int val) { #ifndef DEBUGGING this->fhandler_base::set_close_on_exec (val); #else /* FIXME: This is a duplication from fhandler_base::set_close_on_exec. It is here because we need to specify the "from_pty" stuff here or we'll get warnings from ForceCloseHandle when debugging. */ set_inheritance (get_io_handle (), val, "from_pty"); set_close_on_exec_flag (val); #endif if (output_done_event) set_inheritance (output_done_event, val); if (ioctl_request_event) set_inheritance (ioctl_request_event, val); if (ioctl_done_event) set_inheritance (ioctl_done_event, val); if (inuse) set_inheritance (inuse, val); set_inheritance (output_mutex, val, "output_mutex"); set_inheritance (input_mutex, val, "input_mutex"); set_inheritance (input_available_event, val); set_inheritance (output_handle, val, "to_pty"); } void fhandler_tty_common::fixup_after_fork (HANDLE parent) { this->fhandler_termios::fixup_after_fork (parent); if (output_done_event) fork_fixup (parent, output_done_event, "output_done_event"); if (ioctl_request_event) fork_fixup (parent, ioctl_request_event, "ioctl_request_event"); if (ioctl_done_event) fork_fixup (parent, ioctl_done_event, "ioctl_done_event"); if (output_mutex) { fork_fixup (parent, output_mutex, "output_mutex"); ProtectHandle (output_mutex); } if (input_mutex) { fork_fixup (parent, input_mutex, "input_mutex"); ProtectHandle (input_mutex); } if (input_available_event) fork_fixup (parent, input_available_event, "input_available_event"); fork_fixup (parent, inuse, "inuse"); } void fhandler_pty_master::set_close_on_exec (int val) { this->fhandler_tty_common::set_close_on_exec (val); /* FIXME: There is a console handle leak here. */ if (get_ttyp ()->master_pid == GetCurrentProcessId ()) { get_ttyp ()->from_slave = get_handle (); get_ttyp ()->to_slave = get_output_handle (); termios_printf ("from_slave %p, to_slave %p", get_handle (), get_output_handle ()); } } void fhandler_tty_master::fixup_after_fork (HANDLE child) { this->fhandler_pty_master::fixup_after_fork (child); console->fixup_after_fork (child); } void fhandler_tty_master::fixup_after_exec (HANDLE) { console->close (); init_console (); return; } int fhandler_tty_master::init_console () { console = (fhandler_console *) cygheap->fdtab.build_fhandler (-1, FH_CONSOLE, "/dev/ttym"); if (console == NULL) return -1; console->init (INVALID_HANDLE_VALUE, GENERIC_READ | GENERIC_WRITE, O_BINARY); console->set_r_no_interrupt (1); return 0; }