/* source: xio-stdio.c */ /* Copyright Gerhard Rieger and contributors (see file CHANGES) */ /* Published under the GNU General Public License V.2, see file COPYING */ /* this file contains the source for opening addresses stdio type */ #include "xiosysincludes.h" #include "xioopen.h" #include "xio-fdnum.h" #include "xio-stdio.h" #if WITH_STDIO static int xioopen_stdio(int argc, const char *argv[], struct opt *opts, int xioflags, xiofile_t *fd, const struct addrdesc *addrdesc); static int xioopen_stdfd(int argc, const char *argv[], struct opt *opts, int xioflags, xiofile_t *xfd, const struct addrdesc *addrdesc); /* we specify all option groups that we can imagine for a FD, becasue the changed parsing mechanism does not allow us to check the type of FD before applying the options */ const struct addrdesc xioaddr_stdio = { "STDIO", 3, xioopen_stdio, GROUP_FD|GROUP_FIFO|GROUP_CHR|GROUP_BLK|GROUP_FILE|GROUP_SOCKET|GROUP_TERMIOS|GROUP_SOCK_UNIX|GROUP_SOCK_IP|GROUP_IPAPP, 0, 0, 0 HELP(NULL) }; const struct addrdesc xioaddr_stdin = { "STDIN", 1, xioopen_stdfd, GROUP_FD|GROUP_FIFO|GROUP_CHR|GROUP_BLK|GROUP_FILE|GROUP_SOCKET|GROUP_TERMIOS|GROUP_SOCK_UNIX|GROUP_SOCK_IP|GROUP_IPAPP, 0, 0, 0 HELP(NULL) }; const struct addrdesc xioaddr_stdout = { "STDOUT", 2, xioopen_stdfd, GROUP_FD|GROUP_FIFO|GROUP_CHR|GROUP_BLK|GROUP_FILE|GROUP_SOCKET|GROUP_TERMIOS|GROUP_SOCK_UNIX|GROUP_SOCK_IP|GROUP_IPAPP, 1, 0, 0 HELP(NULL) }; const struct addrdesc xioaddr_stderr = { "STDERR", 2, xioopen_stdfd, GROUP_FD|GROUP_FIFO|GROUP_CHR|GROUP_BLK|GROUP_FILE|GROUP_SOCKET|GROUP_TERMIOS|GROUP_SOCK_UNIX|GROUP_SOCK_IP|GROUP_IPAPP, 2, 0, 0 HELP(NULL) }; /* process a bidirectional "stdio" or "-" argument with options. generate a dual address. */ int xioopen_stdio_bi(xiofile_t *sock) { struct opt *optspr; groups_t groups1 = xioaddr_stdio.groups; int result; if (xioopen_makedual(sock) < 0) { return -1; } sock->dual.stream[0]->tag = XIO_TAG_RDONLY; sock->dual.stream[0]->fd = 0 /*stdin*/; sock->dual.stream[1]->tag = XIO_TAG_WRONLY; sock->dual.stream[1]->fd = 1 /*stdout*/; if (sock->dual.stream[0]->howtoend == END_UNSPEC) sock->dual.stream[0]->howtoend = END_NONE; if (sock->dual.stream[1]->howtoend == END_UNSPEC) sock->dual.stream[1]->howtoend = END_NONE; #if WITH_TERMIOS if (Isatty(sock->dual.stream[0]->fd)) { if (Tcgetattr(sock->dual.stream[0]->fd, &sock->dual.stream[0]->savetty) < 0) { Warn2("cannot query current terminal settings on fd %d: %s", sock->dual.stream[0]->fd, strerror(errno)); } else { sock->dual.stream[0]->ttyvalid = true; } } if (Isatty(sock->dual.stream[1]->fd)) { if (Tcgetattr(sock->dual.stream[1]->fd, &sock->dual.stream[1]->savetty) < 0) { Warn2("cannot query current terminal settings on fd %d: %s", sock->dual.stream[1]->fd, strerror(errno)); } else { sock->dual.stream[1]->ttyvalid = true; } } #endif /* WITH_TERMIOS */ /* options here are one-time and one-direction, no second use */ retropt_bool(sock->stream.opts, OPT_IGNOREEOF, &sock->dual.stream[0]->ignoreeof); /* extract opts that should be applied only once */ if ((optspr = copyopts(sock->stream.opts, GROUP_PROCESS)) == NULL) { return -1; } /* here we copy opts, because most have to be applied twice! */ if ((sock->dual.stream[1]->opts = copyopts(sock->stream.opts, GROUP_FD|GROUP_APPL|(groups1&~GROUP_PROCESS))) == NULL) { return -1; } sock->dual.stream[0]->opts = sock->stream.opts; sock->stream.opts = NULL; if (applyopts_single(sock->dual.stream[0], sock->dual.stream[0]->opts, PH_INIT) < 0) return -1; if (applyopts_single(sock->dual.stream[1], sock->dual.stream[1]->opts, PH_INIT) < 0) return -1; applyopts(sock->dual.stream[0], -1, sock->dual.stream[0]->opts, PH_INIT); applyopts(sock->dual.stream[1], -1, sock->dual.stream[1]->opts, PH_INIT); if ((result = applyopts(NULL, -1, optspr, PH_EARLY)) < 0) return result; if ((result = applyopts(NULL, -1, optspr, PH_PREOPEN)) < 0) return result; /* apply options to first FD */ if ((result = applyopts(sock->dual.stream[0], -1, sock->dual.stream[0]->opts, PH_ALL)) < 0) { return result; } if ((result = _xio_openlate(sock->dual.stream[0], sock->dual.stream[0]->opts)) < 0) { return result; } #if 0 /* ignore this opt */ retropt_bool(sock->dual.stream[0]->opts, OPT_COOL_WRITE); #endif /* apply options to second FD */ if ((result = applyopts(sock->dual.stream[1], -1, sock->dual.stream[1]->opts, PH_ALL)) < 0) { return result; } if ((result = _xio_openlate(sock->dual.stream[1], sock->dual.stream[1]->opts)) < 0) { return result; } #if 0 if ((result = _xio_openlate(sock->dual.stream[1], optspr)) < 0) { return result; } #endif Notice("reading from and writing to stdio"); return 0; } /* wrap around unidirectional xioopensingle and xioopen_fd to automatically determine stdin or stdout fd depending on rw. Do not set FD_CLOEXEC flag. */ static int xioopen_stdio( int argc, const char *argv[], struct opt *opts, int xioflags, xiofile_t *fd, const struct addrdesc *addrdesc) { int rw = (xioflags&XIO_ACCMODE); if (argc != 1) { Error2("%s: wrong number of parameters (%d instead of 0)", argv[0], argc-1); } if (rw == XIO_RDWR) { return xioopen_stdio_bi(fd); } Notice2("using %s for %s", &("stdin\0\0\0stdout"[rw<<3]), ddirection[rw]); return xioopen_fd(opts, rw, &fd->stream, rw); } /* wrap around unidirectional xioopensingle and xioopen_fd to automatically determine stdin or stdout fd depending on rw. Do not set FD_CLOEXEC flag. */ static int xioopen_stdfd( int argc, const char *argv[], struct opt *opts, int xioflags, xiofile_t *xfd, const struct addrdesc *addrdesc) { int rw = (xioflags&XIO_ACCMODE); int fd = addrdesc->arg1; if (argc != 1) { Error2("%s: wrong number of parameters (%d instead of 0)", argv[0], argc-1); } Notice2("using %s for %s", &("stdin\0\0\0stdout\0\0stderr"[fd<<3]), ddirection[rw]); return xioopen_fd(opts, rw, &xfd->stream, fd); } #endif /* WITH_STDIO */