/* source: xioengine.c */ /* Copyright Gerhard Rieger 2007-2008 */ /* Published under the GNU General Public License V.2, see file COPYING */ /* this is the source file of the socat transfer loop/engine */ #include "xiosysincludes.h" #include "xioopen.h" #include "xiosigchld.h" /* checks if this is a connection to a child process, and if so, sees if the child already died, leaving some data for us. returns <0 if an error occurred; returns 0 if no child or not yet died or died without data (sets eof); returns >0 if child died and left data */ int childleftdata(xiofile_t *xfd) { struct pollfd in; int retval; /* have to check if a child process died before, but left read data */ if (XIO_READABLE(xfd) && (XIO_RDSTREAM(xfd)->howtoclose == XIOCLOSE_SIGTERM || XIO_RDSTREAM(xfd)->howtoclose == XIOCLOSE_SIGKILL || XIO_RDSTREAM(xfd)->howtoclose == XIOCLOSE_CLOSE_SIGTERM || XIO_RDSTREAM(xfd)->howtoclose == XIOCLOSE_CLOSE_SIGKILL) && XIO_RDSTREAM(xfd)->child.pid == 0) { struct timeval timeout = { 0,0 }; if (XIO_READABLE(xfd) && !(XIO_RDSTREAM(xfd)->eof >= 2 && !XIO_RDSTREAM(xfd)->ignoreeof)) { in.fd = XIO_GETRDFD(xfd); in.events = POLLIN/*|POLLRDBAND*/; in.revents = 0; } do { retval = xiopoll(&in, 1, &timeout); } while (retval < 0 && errno == EINTR); if (retval < 0) { Error5("xiopoll({%d,%0o}, 1, {"F_tv_sec"."F_tv_usec"}): %s", in.fd, in.events, timeout.tv_sec, timeout.tv_usec, strerror(errno)); return -1; } if (retval == 0) { Info("terminated child did not leave data for us"); XIO_RDSTREAM(xfd)->eof = 2; xfd->stream.eof = 2; xfd->stream.closing = MAX(xfd->stream.closing, 1); } } return 0; } void *xioengine(void *thread_arg) { struct threadarg_struct *engine_arg = thread_arg; _socat(engine_arg->xfd1, engine_arg->xfd2); free(engine_arg); return NULL/*!*/; } /* here we come when the sockets are opened (in the meaning of C language), and their options are set/applied returns -1 on error or 0 on success */ int _socat(xiofile_t *xfd1, xiofile_t *xfd2) { xiofile_t *sock1, *sock2; struct pollfd fds[4], *fd1in = &fds[0], *fd1out = &fds[1], *fd2in = &fds[2], *fd2out = &fds[3]; int retval; unsigned char *buff; ssize_t bytes1, bytes2; int polling = 0; /* handling ignoreeof */ int wasaction = 1; /* last select was active, do NOT sleep before next */ struct timeval total_timeout; /* the actual total timeout timer */ bool mayrd1 = false; /* sock1 has read data or eof, according to select() */ bool mayrd2 = false; /* sock2 has read data or eof, according to select() */ bool maywr1 = false; /* sock1 can be written to, according to select() */ bool maywr2 = false; /* sock2 can be written to, according to select() */ sock1 = xfd1; sock2 = xfd2; #if WITH_FILAN if (xioparams->debug) { int fdi, fdo; int msglevel, exitlevel; msglevel = diag_get_int('D'); /* save current message level */ diag_set_int('D', E_ERROR); /* only print errors and fatals in filan */ exitlevel = diag_get_int('e'); /* save current exit level */ diag_set_int('e', E_FATAL); /* only exit on fatals */ fdi = XIO_GETRDFD(sock1); fdo = XIO_GETWRFD(sock1); filan_fd(fdi, stderr); if (fdo != fdi) { filan_fd(fdo, stderr); } fdi = XIO_GETRDFD(sock2); fdo = XIO_GETWRFD(sock2); filan_fd(fdi, stderr); if (fdo != fdi) { filan_fd(fdo, stderr); } diag_set_int('e', exitlevel); /* restore old exit level */ diag_set_int('D', msglevel); /* restore old message level */ } #endif /* WITH_FILAN */ /* when converting nl to crnl, size might double */ buff = Malloc(2*xioparams->bufsiz+1); if (buff == NULL) return -1; if (xioparams->logopt == 'm' && xioinqopt('l', NULL, 0) == 'm') { Info("switching to syslog"); diag_set('y', xioopts.syslogfac); xiosetopt('l', "\0"); } total_timeout = xioparams->total_timeout; Notice4("starting data transfer loop with FDs [%d,%d] and [%d,%d]", XIO_GETRDFD(sock1), XIO_GETWRFD(sock1), XIO_GETRDFD(sock2), XIO_GETWRFD(sock2)); while (XIO_RDSTREAM(sock1)->eof <= 1 || XIO_RDSTREAM(sock2)->eof <= 1) { struct timeval timeout, *to = NULL; Debug4("data loop: sock1->eof=%d, sock2->eof=%d, 1->closing=%d, 2->closing=%d, wasaction=%d, total_to={"F_tv_sec"."F_tv_usec"}", XIO_RDSTREAM(sock1)->eof, XIO_RDSTREAM(sock2)->eof, sock1->stream.closing, sock2->stream.closing); Debug6("wasaction=%d, total_to={"F_tv_sec"."F_tv_usec"}", wasaction, total_timeout.tv_sec, total_timeout.tv_usec, wasaction, total_timeout.tv_sec, total_timeout.tv_usec); /* for ignoreeof */ if (polling) { if (!wasaction) { /* yes we could do it with select but I like readable trace output */ if (xioparams->total_timeout.tv_sec != 0 || xioparams->total_timeout.tv_usec != 0) { if (total_timeout.tv_usec < xioparams->pollintv.tv_usec) { total_timeout.tv_usec += 1000000; total_timeout.tv_sec -= 1; } total_timeout.tv_sec -= xioparams->pollintv.tv_sec; total_timeout.tv_usec -= xioparams->pollintv.tv_usec; if (total_timeout.tv_sec < 0 || total_timeout.tv_sec == 0 && total_timeout.tv_usec < 0) { Notice("inactivity timeout triggered"); return 0; } } } else { wasaction = 0; } } if (polling) { /* there is a ignoreeof poll timeout, use it */ timeout = xioparams->pollintv; to = &timeout; } else if (xioparams->total_timeout.tv_sec != 0 || xioparams->total_timeout.tv_usec != 0) { /* there might occur a total inactivity timeout */ timeout = xioparams->total_timeout; to = &timeout; } else { to = NULL; } #if 1 if (sock1->stream.closing>=1 || sock2->stream.closing>=1) { /* first eof already occurred, start end timer */ timeout = xioparams->closwait; to = &timeout; /*0 closing = 2;*/ } #endif /* frame 1: set the poll parameters and loop over poll() EINTR) */ do { int _errno; childleftdata(sock1); childleftdata(sock2); #if 0 if (closing>=1) { /* first eof already occurred, start end timer */ timeout = xioparams->closwait; to = &timeout; closing = 2; } #else if (sock1->stream.closing>=1 || sock2->stream.closing>=1) { /* first eof already occurred, start end timer */ timeout = xioparams->closwait; to = &timeout; if (sock1->stream.closing==1) { sock1->stream.closing = 2; } if (sock2->stream.closing==1) { sock2->stream.closing = 2; } } #endif /* use the ignoreeof timeout if appropriate */ if (polling) { if ((sock1->stream.closing == 0 && sock2->stream.closing == 0) || (xioparams->pollintv.tv_sec < timeout.tv_sec) || ((xioparams->pollintv.tv_sec == timeout.tv_sec) && xioparams->pollintv.tv_usec < timeout.tv_usec)) { timeout = xioparams->pollintv; } } /* now the fds will be assigned */ if (XIO_READABLE(sock1) && !(XIO_RDSTREAM(sock1)->eof > 1 && !XIO_RDSTREAM(sock1)->ignoreeof) /*0 && !xioparams->righttoleft*/) { Debug3("*** sock1: %p [%d,%d]", sock1, XIO_GETRDFD(sock1), XIO_GETWRFD(sock1)); if (!mayrd1 && !(XIO_RDSTREAM(sock1)->eof > 1)) { fd1in->fd = XIO_GETRDFD(sock1); fd1in->events = POLLIN; } else { fd1in->fd = -1; } if (!maywr2) { fd2out->fd = XIO_GETWRFD(sock2); fd2out->events = POLLOUT; } else { fd2out->fd = -1; } } else { fd1in->fd = -1; fd2out->fd = -1; } if (XIO_READABLE(sock2) && !(XIO_RDSTREAM(sock2)->eof > 1 && !XIO_RDSTREAM(sock2)->ignoreeof) /*0 && !xioparams->lefttoright*/) { Debug3("*** sock2: %p [%d,%d]", sock2, XIO_GETRDFD(sock2), XIO_GETWRFD(sock2)); if (!mayrd2 && !(XIO_RDSTREAM(sock2)->eof > 1)) { fd2in->fd = XIO_GETRDFD(sock2); fd2in->events = POLLIN; } else { fd2in->fd = -1; } if (!maywr1) { fd1out->fd = XIO_GETWRFD(sock1); fd1out->events = POLLOUT; } else { fd1out->fd = -1; } } else { fd1out->fd = -1; fd2in->fd = -1; } /* frame 0: innermost part of the transfer loop: check FD status */ retval = xiopoll(fds, 4, to); if (retval >= 0 || errno != EINTR) { break; } _errno = errno; Info1("xiopoll(): %s", strerror(errno)); errno = _errno; } while (true); /* attention: when an exec'd process sends data and terminates, it is unpredictable whether the data or the sigchild arrives first. */ if (retval < 0) { Error11("xiopoll({%d,%0o}{%d,%0o}{%d,%0o}{%d,%0o}, 4, {"F_tv_sec"."F_tv_usec"}): %s", fds[0].fd, fds[0].events, fds[1].fd, fds[1].events, fds[2].fd, fds[2].events, fds[3].fd, fds[3].events, timeout.tv_sec, timeout.tv_usec, strerror(errno)); return -1; } else if (retval == 0) { Info2("poll timed out (no data within %ld.%06ld seconds)", (sock1->stream.closing>=1||sock2->stream.closing>=1)? xioparams->closwait.tv_sec:xioparams->total_timeout.tv_sec, (sock1->stream.closing>=1||sock2->stream.closing>=1)? xioparams->closwait.tv_usec:xioparams->total_timeout.tv_usec); if (polling && !wasaction) { /* there was a ignoreeof poll timeout, use it */ polling = 0; /*%%%*/ if (XIO_RDSTREAM(sock1)->ignoreeof) { mayrd1 = 0; } } else if (polling && wasaction) { wasaction = 0; } else if (xioparams->total_timeout.tv_sec != 0 || xioparams->total_timeout.tv_usec != 0) { /* there was a total inactivity timeout */ Notice("inactivity timeout triggered"); return 0; } if (sock1->stream.closing || sock2->stream.closing) { break; } /* one possibility to come here is ignoreeof on some fd, but no EOF and no data on any descriptor - this is no indication for end! */ continue; } /*0 Debug1("XIO_READABLE(sock1) = %d", XIO_READABLE(sock1));*/ /*0 Debug1("XIO_GETRDFD(sock1) = %d", XIO_GETRDFD(sock1));*/ if (XIO_READABLE(sock1) && XIO_GETRDFD(sock1) >= 0 && (fd1in->revents /*&(POLLIN|POLLHUP|POLLERR)*/)) { if (fd1in->revents & POLLNVAL) { /* this is what we find on Mac OS X when poll()'ing on a device or named pipe. a read() might imm. return with 0 bytes, resulting in a loop? */ Error1("poll(...[%d]: invalid request", fd1in->fd); return -1; } mayrd1 = true; } /*0 Debug1("XIO_READABLE(sock2) = %d", XIO_READABLE(sock2));*/ /*0 Debug1("XIO_GETRDFD(sock2) = %d", XIO_GETRDFD(sock2));*/ /*0 Debug1("FD_ISSET(XIO_GETRDFD(sock2), &in) = %d", FD_ISSET(XIO_GETRDFD(sock2), &in));*/ if (XIO_READABLE(sock2) && XIO_GETRDFD(sock2) >= 0 && (fd2in->revents)) { if (fd2in->revents & POLLNVAL) { Error1("poll(...[%d]: invalid request", fd2in->fd); return -1; } mayrd2 = true; } /*0 Debug2("mayrd2 = %d, maywr1 = %d", mayrd2, maywr1);*/ if (XIO_GETWRFD(sock1) >= 0 && fd1out->fd >= 0 && fd1out->revents) { if (fd1out->revents & POLLNVAL) { Error1("poll(...[%d]: invalid request", fd1out->fd); return -1; } maywr1 = true; } if (XIO_GETWRFD(sock2) >= 0 && fd2out->fd >= 0 && fd2out->revents) { if (fd2out->revents & POLLNVAL) { Error1("poll(...[%d]: invalid request", fd2out->fd); return -1; } maywr2 = true; } if (mayrd1 && maywr2) { mayrd1 = false; if ((bytes1 = xiotransfer(sock1, sock2, &buff, xioparams->bufsiz, false)) < 0) { if (errno != EAGAIN) { /*sock2->closing = MAX(socks2->closing, 1);*/ Notice("socket 1 to socket 2 is in error"); if (/*0 xioparams->lefttoright*/ !XIO_READABLE(sock2)) { break; } } } else if (bytes1 > 0) { maywr2 = false; total_timeout = xioparams->total_timeout; wasaction = 1; /* is more data available that has already passed select()? */ mayrd1 = (xiopending(sock1) > 0); if (XIO_RDSTREAM(sock1)->readbytes != 0 && XIO_RDSTREAM(sock1)->actbytes == 0) { /* avoid idle when all readbytes already there */ mayrd1 = true; } /* escape char occurred? */ if (XIO_RDSTREAM(sock1)->actescape) { bytes1 = 0; /* indicate EOF */ } } if (bytes1 == 0) { if (XIO_RDSTREAM(sock1)->ignoreeof && !sock1->stream.closing) { ; } else { XIO_RDSTREAM(sock1)->eof = 2; } /* (bytes1 == 0) handled later */ } } else { bytes1 = -1; } if (mayrd2 && maywr1) { mayrd2 = false; if ((bytes2 = xiotransfer(sock2, sock1, &buff, xioparams->bufsiz, true)) < 0) { if (errno != EAGAIN) { /*sock1->closing = MAX(sock1->closing, 1);*/ Notice("socket 2 to socket 1 is in error"); if (/*0 xioparams->righttoleft*/ !XIO_READABLE(sock1)) { break; } } } else if (bytes2 > 0) { maywr1 = false; total_timeout = xioparams->total_timeout; wasaction = 1; /* is more data available that has already passed select()? */ mayrd2 = (xiopending(sock2) > 0); if (XIO_RDSTREAM(sock2)->readbytes != 0 && XIO_RDSTREAM(sock2)->actbytes == 0) { /* avoid idle when all readbytes already there */ mayrd2 = true; } /* escape char occurred? */ if (XIO_RDSTREAM(sock2)->actescape) { bytes2 = 0; /* indicate EOF */ } } if (bytes2 == 0) { if (XIO_RDSTREAM(sock2)->ignoreeof && !sock2->stream.closing) { ; } else { XIO_RDSTREAM(sock2)->eof = 2; } /* (bytes2 == 0) handled later */ } } else { bytes2 = -1; } /* NOW handle EOFs */ if (bytes1 == 0 || XIO_RDSTREAM(sock1)->eof >= 2) { if (XIO_RDSTREAM(sock1)->ignoreeof && !XIO_RDSTREAM(sock1)->actescape && !sock1->stream.closing) { Debug1("socket 1 (fd %d) is at EOF, ignoring", XIO_RDSTREAM(sock1)->fd1); /*! */ mayrd1 = true; polling = 1; /* do not hook this eof fd to poll for pollintv*/ } else { Notice1("socket 1 (fd %d) is at EOF", XIO_GETRDFD(sock1)); xioshutdown(sock2, SHUT_WR); XIO_RDSTREAM(sock1)->eof = 2; XIO_RDSTREAM(sock1)->ignoreeof = false; sock2->stream.closing = MAX(sock2->stream.closing, 1); if (/*0 xioparams->lefttoright*/ !XIO_READABLE(sock2)) { break; } } } else if (polling && XIO_RDSTREAM(sock1)->ignoreeof) { polling = 0; } if (bytes2 == 0 || XIO_RDSTREAM(sock2)->eof >= 2) { if (XIO_RDSTREAM(sock2)->ignoreeof && !XIO_RDSTREAM(sock2)->actescape && !sock2->stream.closing) { Debug1("socket 2 (fd %d) is at EOF, ignoring", XIO_RDSTREAM(sock2)->fd1); mayrd2 = true; polling = 1; /* do not hook this eof fd to poll for pollintv*/ } else { Notice1("socket 2 (fd %d) is at EOF", XIO_GETRDFD(sock2)); xioshutdown(sock1, SHUT_WR); XIO_RDSTREAM(sock2)->eof = 2; XIO_RDSTREAM(sock2)->ignoreeof = false; sock1->stream.closing = MAX(sock1->stream.closing, 1); if (/*0 xioparams->righttoleft*/ !XIO_READABLE(sock1)) { break; } } } else if (polling && XIO_RDSTREAM(sock2)->ignoreeof) { polling = 0; } } /* close everything that's still open */ xioclose(sock1); xioclose(sock2); return 0; } /* this is the callback when the child of an address died */ int socat_sigchild(struct single *file) { Debug3("socat_sigchild().1: file->ignoreeof=%d, file->closing=%d, file->eof=%d", file->ignoreeof, file->closing, file->eof); if (file->ignoreeof && !file->closing) { ; } else { file->eof = MAX(file->eof, 1); file->closing = 3; } Debug3("socat_sigchild().9: file->ignoreeof=%d, file->closing=%d, file->eof=%d", file->ignoreeof, file->closing, file->eof); return 0; }