/* select.cc Copyright 1996, 1997, 1998, 1999, 2000, 2001 Red Hat, Inc. Written by Christopher Faylor of Cygnus Solutions cgf@cygnus.com 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. */ /* * The following line means that the BSD socket * definitions for fd_set, FD_ISSET etc. are used in this * file. */ #define __INSIDE_CYGWIN_NET__ #include "winsup.h" #include #include #include #include #include #include #include #include #include #define USE_SYS_TYPES_FD_SET #include #include "select.h" #include "cygerrno.h" #include "security.h" #include "fhandler.h" #include "dtable.h" #include "cygheap.h" #include "sync.h" #include "sigproc.h" #include "perthread.h" #include "tty.h" /* * All these defines below should be in sys/types.h * but because of the includes above, they may not have * been included. We create special UNIX_xxxx versions here. */ #ifndef NBBY #define NBBY 8 /* number of bits in a byte */ #endif /* NBBY */ /* * Select uses bit masks of file descriptors in longs. * These macros manipulate such bit fields (the filesystem macros use chars). * FD_SETSIZE may be defined by the user, but the default here * should be >= NOFILE (param.h). */ typedef long fd_mask; #define UNIX_NFDBITS (sizeof (fd_mask) * NBBY) /* bits per mask */ #ifndef unix_howmany #define unix_howmany(x,y) (((x)+((y)-1))/(y)) #endif #define unix_fd_set fd_set #define NULL_fd_set ((fd_set *) NULL) #define sizeof_fd_set(n) \ ((unsigned) (NULL_fd_set->fds_bits + unix_howmany((n), UNIX_NFDBITS))) #define UNIX_FD_SET(n, p) \ ((p)->fds_bits[(n)/UNIX_NFDBITS] |= (1L << ((n) % UNIX_NFDBITS))) #define UNIX_FD_CLR(n, p) \ ((p)->fds_bits[(n)/UNIX_NFDBITS] &= ~(1L << ((n) % UNIX_NFDBITS))) #define UNIX_FD_ISSET(n, p) \ ((p)->fds_bits[(n)/UNIX_NFDBITS] & (1L << ((n) % UNIX_NFDBITS))) #define UNIX_FD_ZERO(p, n) \ bzero ((caddr_t)(p), sizeof_fd_set ((n))) #define allocfd_set(n) ((fd_set *) memset (alloca (sizeof_fd_set (n)), 0, sizeof_fd_set (n))) #define copyfd_set(to, from, n) memcpy (to, from, sizeof_fd_set (n)); /* Make a fhandler_foo::ready_for_ready method. Assumption: The "ready_for_read" methods are called with one level of signal blocking. */ #define MAKEready(what) \ int \ fhandler_##what::ready_for_read (int fd, DWORD howlong, int ignra) \ { \ select_record me (this); \ me.fd = fd; \ (void) select_read (&me); \ while (!peek_##what (&me, ignra) && howlong == INFINITE) \ if (fd >= 0 && cygheap->fdtab.not_open (fd)) \ break; \ else if (WaitForSingleObject (signal_arrived, 10) == WAIT_OBJECT_0) \ break; \ return me.read_ready; \ } #define set_handle_or_return_if_not_open(h, s) \ h = (s)->fh->get_handle (); \ if (cygheap->fdtab.not_open ((s)->fd)) \ { \ (s)->saw_error = TRUE; \ set_errno (EBADF); \ return -1; \ } \ /* The main select code. */ extern "C" int cygwin_select (int maxfds, fd_set *readfds, fd_set *writefds, fd_set *exceptfds, struct timeval *to) { select_stuff sel; fd_set *dummy_readfds = allocfd_set (maxfds); fd_set *dummy_writefds = allocfd_set (maxfds); fd_set *dummy_exceptfds = allocfd_set (maxfds); sigframe thisframe (mainthread); select_printf ("%d, %p, %p, %p, %p", maxfds, readfds, writefds, exceptfds, to); if (!readfds) readfds = dummy_readfds; if (!writefds) writefds = dummy_writefds; if (!exceptfds) exceptfds = dummy_exceptfds; for (int i = 0; i < maxfds; i++) if (!sel.test_and_set (i, readfds, writefds, exceptfds)) { select_printf ("aborting due to test_and_set error"); return -1; /* Invalid fd, maybe? */ } /* Convert to milliseconds or INFINITE if to == NULL */ DWORD ms = to ? (to->tv_sec * 1000) + (to->tv_usec / 1000) : INFINITE; if (ms == 0 && to->tv_usec) ms = 1; /* At least 1 ms granularity */ if (to) select_printf ("to->tv_sec %d, to->tv_usec %d, ms %d", to->tv_sec, to->tv_usec, ms); else select_printf ("to NULL, ms %x", ms); select_printf ("sel.always_ready %d", sel.always_ready); int timeout = 0; /* Allocate some fd_set structures using the number of fds as a guide. */ fd_set *r = allocfd_set (maxfds); fd_set *w = allocfd_set (maxfds); fd_set *e = allocfd_set (maxfds); /* Degenerate case. No fds to wait for. Just wait. */ if (sel.start.next == NULL) { if (WaitForSingleObject (signal_arrived, ms) == WAIT_OBJECT_0) { select_printf ("signal received"); set_sig_errno (EINTR); return -1; } timeout = 1; } else if (sel.always_ready || ms == 0) /* Don't bother waiting. */; else if ((timeout = sel.wait (r, w, e, ms) < 0)) return -1; /* some kind of error */ sel.cleanup (); copyfd_set (readfds, r, maxfds); copyfd_set (writefds, w, maxfds); copyfd_set (exceptfds, e, maxfds); return timeout ? 0 : sel.poll (readfds, writefds, exceptfds); } /* Call cleanup functions for all inspected fds. Gets rid of any executing threads. */ void select_stuff::cleanup () { select_record *s = &start; select_printf ("calling cleanup routines"); while ((s = s->next)) if (s->cleanup) { s->cleanup (s, this); s->cleanup = NULL; } } /* Destroy all storage associated with select stuff. */ select_stuff::~select_stuff () { cleanup (); select_record *s = &start; select_record *snext = start.next; select_printf ("deleting select records"); while ((s = snext)) { snext = s->next; delete s; } } /* Add a record to the select chain */ int select_stuff::test_and_set (int i, fd_set *readfds, fd_set *writefds, fd_set *exceptfds) { select_record *s = NULL; if (UNIX_FD_ISSET (i, readfds) && (s = cygheap->fdtab.select_read (i, s)) == NULL) return 0; /* error */ if (UNIX_FD_ISSET (i, writefds) && (s = cygheap->fdtab.select_write (i, s)) == NULL) return 0; /* error */ if (UNIX_FD_ISSET (i, exceptfds) && (s = cygheap->fdtab.select_except (i, s)) == NULL) return 0; /* error */ if (s == NULL) return 1; /* nothing to do */ if (s->read_ready || s->write_ready || s->except_ready) always_ready = TRUE; if (s->windows_handle || s->windows_handle || s->windows_handle) windows_used = TRUE; s->next = start.next; start.next = s; return 1; } /* Poll every fd in the select chain. Set appropriate fd in mask. */ int select_stuff::poll (fd_set *readfds, fd_set *writefds, fd_set *exceptfds) { int n = 0; select_record *s = &start; while ((s = s->next)) n += s->poll (s, readfds, writefds, exceptfds); select_printf ("returning %d", n); return n; } /* The heart of select. Waits for an fd to do something interesting. */ int select_stuff::wait (fd_set *readfds, fd_set *writefds, fd_set *exceptfds, DWORD ms) { int wait_ret; HANDLE w4[MAXIMUM_WAIT_OBJECTS]; select_record *s = &start; int m = 0; int res = 0; w4[m++] = signal_arrived; /* Always wait for the arrival of a signal. */ /* Loop through the select chain, starting up anything appropriate and counting the number of active fds. */ while ((s = s->next)) { if (m > MAXIMUM_WAIT_OBJECTS) { set_errno (EINVAL); return -1; } if (!s->startup (s, this)) { __seterrno (); return -1; } if (s->h == NULL) continue; for (int i = 1; i < m; i++) if (w4[i] == s->h) goto next_while; w4[m++] = s->h; next_while: continue; } DWORD start_time = GetTickCount (); /* Record the current time for later use. */ debug_printf ("m %d, ms %u", m, ms); for (;;) { if (!windows_used) wait_ret = WaitForMultipleObjects (m, w4, FALSE, ms); else wait_ret = MsgWaitForMultipleObjects (m, w4, FALSE, ms, QS_ALLINPUT); switch (wait_ret) { case WAIT_OBJECT_0: select_printf ("signal received"); set_sig_errno (EINTR); return -1; case WAIT_FAILED: select_printf ("WaitForMultipleObjects failed"); __seterrno (); return -1; case WAIT_TIMEOUT: select_printf ("timed out"); res = 1; goto out; } select_printf ("woke up. wait_ret %d. verifying", wait_ret); s = &start; int gotone = FALSE; while ((s = s->next)) if (s->saw_error) return -1; /* Somebody detected an error */ else if ((((wait_ret >= m && s->windows_handle) || s->h == w4[wait_ret])) && s->verify (s, readfds, writefds, exceptfds)) gotone = TRUE; select_printf ("gotone %d", gotone); if (gotone) goto out; if (ms == INFINITE) { select_printf ("looping"); continue; } select_printf ("recalculating ms"); DWORD now = GetTickCount (); if (now > (start_time + ms)) { select_printf ("timed out after verification"); goto out; } ms -= (now - start_time); start_time = now; select_printf ("ms now %u", ms); } out: select_printf ("returning %d", res); return res; } static int set_bits (select_record *me, fd_set *readfds, fd_set *writefds, fd_set *exceptfds) { int ready = 0; select_printf ("me %p, testing fd %d (%s)", me, me->fd, me->fh->get_name ()); if (me->read_selected && me->read_ready) { UNIX_FD_SET (me->fd, readfds); ready++; } if (me->write_selected && me->write_ready) { UNIX_FD_SET (me->fd, writefds); ready++; } if (me->except_ready && me->except_ready) { UNIX_FD_SET (me->fd, exceptfds); ready++; } select_printf ("ready %d", ready); return ready; } static int verify_true (select_record *, fd_set *, fd_set *, fd_set *) { return 1; } static int verify_ok (select_record *me, fd_set *readfds, fd_set *writefds, fd_set *exceptfds) { return set_bits (me, readfds, writefds, exceptfds); } static int no_startup (select_record *, select_stuff *) { return 1; } static int no_verify (select_record *, fd_set *, fd_set *, fd_set *) { return 0; } static int peek_pipe (select_record *s, int ignra, HANDLE guard_mutex = NULL) { int n = 0; int gotone = 0; fhandler_base *fh = s->fh; HANDLE h; set_handle_or_return_if_not_open (h, s); /* Don't perform complicated tests if we don't need to. */ if (!s->read_selected && !s->except_selected) goto out; if (s->read_selected) { if (s->read_ready) { select_printf ("already ready"); gotone = 1; goto out; } switch (fh->get_device ()) { case FH_PTYM: case FH_TTYM: if (((fhandler_pty_master *)fh)->need_nl) { gotone = s->read_ready = 1; goto out; } break; default: if (!ignra && fh->get_readahead_valid ()) { select_printf ("readahead"); gotone = s->read_ready = 1; goto out; } } if (fh->bg_check (SIGTTIN) <= bg_eof) { gotone = s->read_ready = 1; goto out; } } if (fh->get_device () == FH_PIPEW) /* nothing */; else if (!PeekNamedPipe (h, NULL, 0, NULL, (DWORD *) &n, NULL)) { select_printf ("%s, PeekNamedPipe failed, %E", fh->get_name ()); n = -1; } else if (guard_mutex && WaitForSingleObject (guard_mutex, 0) != WAIT_OBJECT_0) { select_printf ("%s, couldn't get mutex %p, %E", fh->get_name (), guard_mutex); n = 0; } if (n < 0) { select_printf ("%s, n %d", fh->get_name (), n); if (s->except_selected) gotone += s->except_ready = TRUE; if (s->read_selected) gotone += s->read_ready = TRUE; } if (n > 0 && s->read_selected) { select_printf ("%s, ready for read", fh->get_name ()); gotone += s->read_ready = TRUE; } if (!gotone && s->fh->hit_eof ()) { select_printf ("%s, saw EOF", fh->get_name ()); if (s->except_selected) gotone = s->except_ready = TRUE; if (s->read_selected) gotone += s->read_ready = TRUE; select_printf ("saw eof on '%s'", fh->get_name ()); } out: return gotone || s->write_ready; } static int poll_pipe (select_record *me, fd_set *readfds, fd_set *writefds, fd_set *exceptfds) { return peek_pipe (me, 0) ? set_bits (me, readfds, writefds, exceptfds) : 0; } int fhandler_pipe::ready_for_read (int fd, DWORD howlong, int ignra) { select_record me (this); me.fd = fd; (void) select_read (&me); while (!peek_pipe (&me, ignra, guard) && howlong == INFINITE) if (fd >= 0 && cygheap->fdtab.not_open (fd)) break; else if (WaitForSingleObject (signal_arrived, 10) == WAIT_OBJECT_0) break; select_printf ("returning %d", me.read_ready); return me.read_ready; } static int start_thread_pipe (select_record *me, select_stuff *stuff); struct pipeinf { HANDLE thread; BOOL stop_thread_pipe; select_record *start; }; static DWORD WINAPI thread_pipe (void *arg) { pipeinf *pi = (pipeinf *)arg; BOOL gotone = FALSE; for (;;) { select_record *s = pi->start; while ((s = s->next)) if (s->startup == start_thread_pipe) { if (peek_pipe (s, 0)) gotone = TRUE; if (pi->stop_thread_pipe) { select_printf ("stopping"); goto out; } } /* Paranoid check */ if (pi->stop_thread_pipe) { select_printf ("stopping from outer loop"); break; } if (gotone) break; Sleep (10); } out: return 0; } static int start_thread_pipe (select_record *me, select_stuff *stuff) { if (stuff->device_specific[FHDEVN(FH_PIPE)]) { me->h = ((pipeinf *) stuff->device_specific[FHDEVN(FH_PIPE)])->thread; return 1; } pipeinf *pi = new pipeinf; pi->start = &stuff->start; pi->stop_thread_pipe = FALSE; pi->thread = me->h = makethread (thread_pipe, (LPVOID)pi, 0, "select_pipe"); if (!me->h) return 0; stuff->device_specific[FHDEVN(FH_PIPE)] = (void *)pi; return 1; } static void pipe_cleanup (select_record *, select_stuff *stuff) { pipeinf *pi = (pipeinf *)stuff->device_specific[FHDEVN(FH_PIPE)]; if (pi && pi->thread) { pi->stop_thread_pipe = TRUE; WaitForSingleObject (pi->thread, INFINITE); CloseHandle (pi->thread); delete pi; stuff->device_specific[FHDEVN(FH_PIPE)] = NULL; } } select_record * fhandler_pipe::select_read (select_record *s) { if (!s) s = new select_record; s->startup = start_thread_pipe; s->poll = poll_pipe; s->verify = verify_ok; s->read_selected = TRUE; s->cleanup = pipe_cleanup; return s; } select_record * fhandler_pipe::select_write (select_record *s) { if (!s) { s = new select_record; s->startup = no_startup; s->poll = poll_pipe; s->verify = no_verify; } s->write_selected = TRUE; s->write_ready = TRUE; return s; } select_record * fhandler_pipe::select_except (select_record *s) { if (!s) s = new select_record; s->startup = start_thread_pipe; s->poll = poll_pipe; s->verify = verify_ok; s->cleanup = pipe_cleanup; s->except_selected = TRUE; return s; } static int peek_console (select_record *me, int ignra) { extern const char * get_nonascii_key (INPUT_RECORD& input_rec, char *); fhandler_console *fh = (fhandler_console *)me->fh; if (!me->read_selected) return me->write_ready; if (!ignra && fh->get_readahead_valid ()) { select_printf ("readahead"); return me->read_ready = 1; } if (me->read_ready) { select_printf ("already ready"); return 1; } INPUT_RECORD irec; DWORD events_read; HANDLE h; char tmpbuf[17]; set_handle_or_return_if_not_open (h, me); for (;;) if (fh->bg_check (SIGTTIN) <= bg_eof) return me->read_ready = 1; else if (!PeekConsoleInput (h, &irec, 1, &events_read) || !events_read) break; else { if (irec.EventType == WINDOW_BUFFER_SIZE_EVENT) kill_pgrp (fh->tc->getpgid (), SIGWINCH); else if (irec.EventType == MOUSE_EVENT && (irec.Event.MouseEvent.dwEventFlags == 0 || irec.Event.MouseEvent.dwEventFlags == DOUBLE_CLICK)) { if (fh->mouse_aware ()) return me->read_ready = 1; } else if (irec.EventType == KEY_EVENT && irec.Event.KeyEvent.bKeyDown == TRUE && (irec.Event.KeyEvent.uChar.AsciiChar || get_nonascii_key (irec, tmpbuf))) return me->read_ready = 1; /* Read and discard the event */ ReadConsoleInput (h, &irec, 1, &events_read); } return me->write_ready; } static int poll_console (select_record *me, fd_set *readfds, fd_set *writefds, fd_set *exceptfds) { return peek_console (me, 0) ? set_bits (me, readfds, writefds, exceptfds) : 0; } MAKEready (console) select_record * fhandler_console::select_read (select_record *s) { if (!s) { s = new select_record; s->startup = no_startup; s->poll = poll_console; s->verify = poll_console; set_cursor_maybe (); } s->h = get_handle (); s->read_selected = TRUE; return s; } select_record * fhandler_console::select_write (select_record *s) { if (!s) { s = new select_record; s->startup = no_startup; s->poll = poll_console; s->verify = no_verify; set_cursor_maybe (); } s->write_selected = TRUE; s->write_ready = TRUE; return s; } select_record * fhandler_console::select_except (select_record *s) { if (!s) { s = new select_record; s->startup = no_startup; s->poll = poll_console; s->verify = no_verify; set_cursor_maybe (); } s->except_selected = TRUE; return s; } int fhandler_tty_common::ready_for_read (int fd, DWORD howlong, int ignra) { select_record me (this); me.fd = fd; (void) select_read (&me); while (!peek_pipe (&me, ignra) && howlong == INFINITE) if (fd >= 0 && cygheap->fdtab.not_open (fd)) break; else if (WaitForSingleObject (signal_arrived, 10) == WAIT_OBJECT_0) break; select_printf ("returning %d", me.read_ready); return me.read_ready; } select_record * fhandler_tty_common::select_read (select_record *s) { return ((fhandler_pipe*)this)->fhandler_pipe::select_read (s); } select_record * fhandler_tty_common::select_write (select_record *s) { return ((fhandler_pipe *)this)->fhandler_pipe::select_write (s); } select_record * fhandler_tty_common::select_except (select_record *s) { return ((fhandler_pipe *)this)->fhandler_pipe::select_except (s); } static int verify_tty_slave (select_record *me, fd_set *readfds, fd_set *writefds, fd_set *exceptfds) { if (WaitForSingleObject (me->h, 0) == WAIT_OBJECT_0) me->read_ready = 1; return set_bits (me, readfds, writefds, exceptfds); } select_record * fhandler_tty_slave::select_read (select_record *s) { if (!s) s = new select_record; s->h = input_available_event; s->startup = no_startup; s->poll = poll_pipe; s->verify = verify_tty_slave; s->read_selected = TRUE; s->cleanup = NULL; return s; } int fhandler_tty_slave::ready_for_read (int fd, DWORD howlong, int ignra) { HANDLE w4[2]; if (!ignra && get_readahead_valid ()) { select_printf ("readahead"); return 1; } w4[0] = signal_arrived; w4[1] = input_available_event; switch (WaitForMultipleObjects (2, w4, FALSE, howlong)) { case WAIT_OBJECT_0 + 1: return 1; case WAIT_FAILED: select_printf ("wait failed %E"); case WAIT_OBJECT_0: case WAIT_TIMEOUT: default: return 0; } } select_record * fhandler_dev_null::select_read (select_record *s) { if (!s) { s = new select_record; s->startup = no_startup; s->poll = set_bits; s->verify = no_verify; } s->h = get_handle (); s->read_selected = TRUE; s->read_ready = TRUE; return s; } select_record * fhandler_dev_null::select_write (select_record *s) { if (!s) { s = new select_record; s->startup = no_startup; s->poll = set_bits; s->verify = no_verify; } s->h = get_handle (); s->write_selected = TRUE; s->write_ready = TRUE; return s; } select_record * fhandler_dev_null::select_except (select_record *s) { if (!s) { s = new select_record; s->startup = no_startup; s->poll = set_bits; s->verify = no_verify; } s->h = get_handle (); s->except_selected = TRUE; s->except_ready = TRUE; return s; } static int start_thread_serial (select_record *me, select_stuff *stuff); struct serialinf { HANDLE thread; BOOL stop_thread_serial; select_record *start; }; static int peek_serial (select_record *s, int) { DWORD ev; COMSTAT st; fhandler_serial *fh = (fhandler_serial *)s->fh; if (fh->get_readahead_valid () || fh->overlapped_armed < 0) return s->read_ready = 1; select_printf ("fh->overlapped_armed %d", fh->overlapped_armed); HANDLE h; set_handle_or_return_if_not_open (h, s); int ready = 0; if (s->read_selected && s->read_ready || (s->write_selected && s->write_ready)) { select_printf ("already ready"); ready = 1; goto out; } (void) SetCommMask (h, EV_RXCHAR); if (!fh->overlapped_armed) { DWORD ev; COMSTAT st; ResetEvent (fh->io_status.hEvent); if (!ClearCommError (h, &ev, &st)) { debug_printf ("ClearCommError"); goto err; } else if (st.cbInQue) return s->read_ready = 1; else if (WaitCommEvent (h, &ev, &fh->io_status)) return s->read_ready = 1; else if (GetLastError () == ERROR_IO_PENDING) fh->overlapped_armed = 1; else { debug_printf ("WaitCommEvent"); goto err; } } HANDLE w4[2]; DWORD to; w4[0] = fh->io_status.hEvent; w4[1] = signal_arrived; to = 10; switch (WaitForMultipleObjects (2, w4, FALSE, to)) { case WAIT_OBJECT_0: if (!ClearCommError (h, &ev, &st)) { debug_printf ("ClearCommError"); goto err; } else if (!st.cbInQue) Sleep (to); else { return s->read_ready = 1; select_printf ("got something"); } PurgeComm (h, PURGE_TXABORT | PURGE_RXABORT); break; case WAIT_OBJECT_0 + 1: PurgeComm (h, PURGE_TXABORT | PURGE_RXABORT); select_printf ("interrupt"); set_sig_errno (EINTR); ready = -1; break; case WAIT_TIMEOUT: PurgeComm (h, PURGE_TXABORT | PURGE_RXABORT); break; default: PurgeComm (h, PURGE_TXABORT | PURGE_RXABORT); debug_printf ("WaitForMultipleObjects"); goto err; } out: return ready; err: if (GetLastError () == ERROR_OPERATION_ABORTED) { select_printf ("operation aborted"); return ready; } __seterrno (); s->saw_error = TRUE; select_printf ("error %E"); return -1; } static DWORD WINAPI thread_serial (void *arg) { serialinf *si = (serialinf *)arg; BOOL gotone= FALSE; for (;;) { select_record *s = si->start; while ((s = s->next)) if (s->startup == start_thread_serial) { if (peek_serial (s, 0)) gotone = TRUE; } if (si->stop_thread_serial) { select_printf ("stopping"); break; } if (gotone) break; } select_printf ("exiting"); return 0; } static int start_thread_serial (select_record *me, select_stuff *stuff) { if (stuff->device_specific[FHDEVN(FH_SERIAL)]) { me->h = ((pipeinf *) stuff->device_specific[FHDEVN(FH_SERIAL)])->thread; return 1; } serialinf *si = new serialinf; si->start = &stuff->start; si->stop_thread_serial = FALSE; si->thread = me->h = makethread (thread_serial, (LPVOID)si, 0, "select_serial"); if (!me->h) return 0; stuff->device_specific[FHDEVN(FH_SERIAL)] = (void *)si; return 1; } static void serial_cleanup (select_record *, select_stuff *stuff) { serialinf *si = (serialinf *)stuff->device_specific[FHDEVN(FH_SERIAL)]; if (si && si->thread) { si->stop_thread_serial = TRUE; WaitForSingleObject (si->thread, INFINITE); CloseHandle (si->thread); delete si; stuff->device_specific[FHDEVN(FH_SERIAL)] = NULL; } } static int poll_serial (select_record *me, fd_set *readfds, fd_set *writefds, fd_set *exceptfds) { return peek_serial (me, 0) ? set_bits (me, readfds, writefds, exceptfds) : 0; } MAKEready (serial) select_record * fhandler_serial::select_read (select_record *s) { if (!s) { s = new select_record; s->startup = start_thread_serial; s->poll = poll_serial; s->verify = verify_ok; s->cleanup = serial_cleanup; } s->read_selected = TRUE; return s; } select_record * fhandler_serial::select_write (select_record *s) { if (!s) { s = new select_record; s->startup = no_startup; s->poll = set_bits; s->verify = verify_ok; } s->h = get_handle (); s->write_selected = TRUE; s->write_ready = TRUE; return s; } select_record * fhandler_serial::select_except (select_record *s) { if (!s) { s = new select_record; s->startup = no_startup; s->poll = set_bits; s->verify = verify_ok; } s->h = NULL; s->except_selected = FALSE; // Can't do this return s; } int fhandler_base::ready_for_read (int, DWORD, int) { return 1; } select_record * fhandler_base::select_read (select_record *s) { if (!s) { s = new select_record; s->startup = no_startup; s->poll = set_bits; s->verify = verify_ok; } s->h = get_handle (); s->read_selected = TRUE; s->read_ready = TRUE; return s; } select_record * fhandler_base::select_write (select_record *s) { if (!s) { s = new select_record; s->startup = no_startup; s->poll = set_bits; s->verify = verify_ok; } s->h = get_handle (); s->write_selected = TRUE; s->write_ready = TRUE; return s; } select_record * fhandler_base::select_except (select_record *s) { if (!s) { s = new select_record; s->startup = no_startup; s->poll = set_bits; s->verify = verify_ok; } s->h = NULL; s->write_selected = TRUE; return s; } struct socketinf { HANDLE thread; winsock_fd_set readfds, writefds, exceptfds; SOCKET exitsock; struct sockaddr_in sin; select_record *start; }; static int peek_socket (select_record *me, int) { winsock_fd_set ws_readfds, ws_writefds, ws_exceptfds; struct timeval tv = {0, 0}; WINSOCK_FD_ZERO (&ws_readfds); WINSOCK_FD_ZERO (&ws_writefds); WINSOCK_FD_ZERO (&ws_exceptfds); int gotone = 0; HANDLE h; set_handle_or_return_if_not_open (h, me); select_printf ("considering handle %p", h); if (me->read_selected) { select_printf ("adding read fd_set %s, fd %d", me->fh->get_name (), me->fd); WINSOCK_FD_SET (h, &ws_readfds); } if (me->write_selected) { select_printf ("adding write fd_set %s, fd %d", me->fh->get_name (), me->fd); WINSOCK_FD_SET (h, &ws_writefds); } if (me->except_selected) { select_printf ("adding except fd_set %s, fd %d", me->fh->get_name (), me->fd); WINSOCK_FD_SET (h, &ws_exceptfds); } int r = WINSOCK_SELECT (0, &ws_readfds, &ws_writefds, &ws_exceptfds, &tv); select_printf ("WINSOCK_SELECT returned %d", r); if (r == -1) { select_printf ("error %d", WSAGetLastError ()); return 0; } if (WINSOCK_FD_ISSET (h, &ws_readfds) || (me->read_selected && me->read_ready)) gotone = me->read_ready = TRUE; if (WINSOCK_FD_ISSET (h, &ws_writefds) || (me->write_selected && me->write_ready)) gotone = me->write_ready = TRUE; if (WINSOCK_FD_ISSET (h, &ws_exceptfds) || (me->except_selected && me->except_ready)) gotone = me->except_ready = TRUE; return gotone; } static int poll_socket (select_record *me, fd_set *readfds, fd_set *writefds, fd_set *exceptfds) { return peek_socket (me, 0) ? set_bits (me, readfds, writefds, exceptfds) : 0; } MAKEready (socket) static int start_thread_socket (select_record *, select_stuff *); static DWORD WINAPI thread_socket (void *arg) { socketinf *si = (socketinf *)arg; select_printf ("stuff_start %p", &si->start); int r = WINSOCK_SELECT (0, &si->readfds, &si->writefds, &si->exceptfds, NULL); select_printf ("Win32 select returned %d", r); if (r == -1) select_printf ("error %d", WSAGetLastError ()); select_record *s = si->start; while ((s = s->next)) if (s->startup == start_thread_socket) { HANDLE h = s->fh->get_handle (); select_printf ("s %p, testing fd %d (%s)", s, s->fd, s->fh->get_name ()); if (WINSOCK_FD_ISSET (h, &si->readfds)) { select_printf ("read_ready"); s->read_ready = TRUE; } if (WINSOCK_FD_ISSET (h, &si->writefds)) { select_printf ("write_ready"); s->write_ready = TRUE; } if (WINSOCK_FD_ISSET (h, &si->exceptfds)) { select_printf ("except_ready"); s->except_ready = TRUE; } } if (WINSOCK_FD_ISSET (si->exitsock, &si->readfds)) select_printf ("saw exitsock read"); return 0; } extern "C" unsigned long htonl (unsigned long); static int start_thread_socket (select_record *me, select_stuff *stuff) { socketinf *si; if ((si = (socketinf *)stuff->device_specific[FHDEVN(FH_SOCKET)])) { me->h = si->thread; return 1; } si = new socketinf; WINSOCK_FD_ZERO (&si->readfds); WINSOCK_FD_ZERO (&si->writefds); WINSOCK_FD_ZERO (&si->exceptfds); select_record *s = &stuff->start; while ((s = s->next)) if (s->startup == start_thread_socket) { HANDLE h = s->fh->get_handle (); select_printf ("Handle %p", h); if (s->read_selected) { WINSOCK_FD_SET (h, &si->readfds); select_printf ("Added to readfds"); } if (s->write_selected) { WINSOCK_FD_SET (h, &si->writefds); select_printf ("Added to writefds"); } if (s->except_selected) { WINSOCK_FD_SET (h, &si->exceptfds); select_printf ("Added to exceptfds"); } } if ((si->exitsock = socket (PF_INET, SOCK_STREAM, 0)) == INVALID_SOCKET) { set_winsock_errno (); select_printf ("cannot create socket, %E"); return -1; } /* Allow rapid reuse of the port. */ int tmp = 1; (void) setsockopt (si->exitsock, SOL_SOCKET, SO_REUSEADDR, (char *) &tmp, sizeof (tmp)); int sin_len = sizeof(si->sin); memset (&si->sin, 0, sizeof (si->sin)); si->sin.sin_family = AF_INET; si->sin.sin_addr.s_addr = htonl (INADDR_LOOPBACK); if (bind (si->exitsock, (struct sockaddr *) &si->sin, sizeof (si->sin)) < 0) { select_printf ("cannot bind socket, %E"); goto err; } if (getsockname (si->exitsock, (struct sockaddr *) &si->sin, &sin_len) < 0) { select_printf ("getsockname error"); goto err; } if (listen (si->exitsock, 1)) { select_printf ("listen failed, %E"); goto err; } select_printf ("exitsock %p", si->exitsock); WINSOCK_FD_SET ((HANDLE) si->exitsock, &si->readfds); WINSOCK_FD_SET ((HANDLE) si->exitsock, &si->exceptfds); stuff->device_specific[FHDEVN(FH_SOCKET)] = (void *) si; si->start = &stuff->start; select_printf ("stuff_start %p", &stuff->start); si->thread = me->h = makethread (thread_socket, (LPVOID)si, 0, "select_socket"); return !!me->h; err: set_winsock_errno (); closesocket (si->exitsock); return -1; } void socket_cleanup (select_record *, select_stuff *stuff) { socketinf *si = (socketinf *)stuff->device_specific[FHDEVN(FH_SOCKET)]; select_printf ("si %p si->thread %p", si, si ? si->thread : NULL); if (si && si->thread) { select_printf ("connection to si->exitsock %p", si->exitsock); SOCKET s = socket (AF_INET, SOCK_STREAM, 0); /* Set LINGER with 0 timeout for hard close */ struct linger tmp = {1, 0}; /* On, 0 delay */ (void) setsockopt (s, SOL_SOCKET, SO_LINGER, (char *)&tmp, sizeof(tmp)); (void) setsockopt (si->exitsock, SOL_SOCKET, SO_LINGER, (char *)&tmp, sizeof(tmp)); /* Connecting to si->exitsock will cause any executing select to wake up. When this happens then the exitsock condition will cause the thread to terminate. */ if (connect (s, (struct sockaddr *) &si->sin, sizeof (si->sin)) < 0) { set_winsock_errno (); select_printf ("connect failed"); /* FIXME: now what? */ } shutdown (s, SD_BOTH); closesocket (s); /* Wait for thread to go away */ WaitForSingleObject (si->thread, INFINITE); shutdown (si->exitsock, SD_BOTH); closesocket (si->exitsock); CloseHandle (si->thread); stuff->device_specific[FHDEVN(FH_SOCKET)] = NULL; delete si; } select_printf ("returning"); } select_record * fhandler_socket::select_read (select_record *s) { if (!s) { s = new select_record; s->startup = start_thread_socket; s->poll = poll_socket; s->verify = verify_true; s->cleanup = socket_cleanup; } s->read_ready = saw_shutdown_read (); s->read_selected = TRUE; return s; } select_record * fhandler_socket::select_write (select_record *s) { if (!s) { s = new select_record; s->startup = start_thread_socket; s->poll = poll_socket; s->verify = verify_true; s->cleanup = socket_cleanup; } s->write_ready = saw_shutdown_write (); s->write_selected = TRUE; return s; } select_record * fhandler_socket::select_except (select_record *s) { if (!s) { s = new select_record; s->startup = start_thread_socket; s->poll = poll_socket; s->verify = verify_true; s->cleanup = socket_cleanup; } /* FIXME: Is this right? Should these be used as criteria for except? */ s->except_ready = saw_shutdown_write () || saw_shutdown_read (); s->except_selected = TRUE; return s; } static int peek_windows (select_record *me, int) { MSG m; HANDLE h; set_handle_or_return_if_not_open (h, me); if (me->read_selected && me->read_ready) return 1; if (PeekMessage (&m, (HWND) h, 0, 0, PM_NOREMOVE)) { me->read_ready = TRUE; select_printf ("window %d(%p) ready", me->fd, me->fh->get_handle ()); return 1; } select_printf ("window %d(%p) not ready", me->fd, me->fh->get_handle ()); return me->write_ready; } static int poll_windows (select_record *me, fd_set *readfds, fd_set *writefds, fd_set *exceptfds) { return peek_windows (me, 0) ? set_bits (me, readfds, writefds, exceptfds) : 0; } MAKEready (windows) select_record * fhandler_windows::select_read (select_record *s) { if (!s) { s = new select_record; s->startup = no_startup; s->poll = poll_windows; s->verify = poll_windows; } s->h = get_handle (); s->read_selected = TRUE; s->h = get_handle (); s->windows_handle = TRUE; return s; } select_record * fhandler_windows::select_write (select_record *s) { if (!s) { s = new select_record; s->startup = no_startup; s->poll = set_bits; s->verify = verify_ok; } s->h = get_handle (); s->write_selected = TRUE; s->write_ready = TRUE; s->windows_handle = TRUE; return s; } select_record * fhandler_windows::select_except (select_record *s) { if (!s) { s = new select_record; s->startup = no_startup; s->poll = set_bits; s->verify = verify_ok; } s->h = get_handle (); s->except_selected = TRUE; s->except_ready = TRUE; s->windows_handle = TRUE; return s; }