/* source: socat.c */ /* Copyright Gerhard Rieger */ /* Published under the GNU General Public License V.2, see file COPYING */ /* this is the main source, including command line option parsing, general control, and the data shuffler */ #include "config.h" #include "xioconfig.h" /* what features are enabled */ #include "sysincludes.h" #include "mytypes.h" #include "compat.h" #include "error.h" #include "sycls.h" #include "sysutils.h" #include "dalan.h" #include "filan.h" #include "xio.h" #include "xioopts.h" #include "xiolockfile.h" /* command line options */ struct { size_t bufsiz; bool verbose; bool verbhex; struct timeval pollintv; /* with ignoreeof, reread after seconds */ struct timeval closwait; /* after close of x, die after seconds */ struct timeval total_timeout;/* when nothing happens, die after seconds */ bool debug; bool strictopts; /* stop on errors in address options */ char logopt; /* y..syslog; s..stderr; f..file; m..mixed */ bool lefttoright; /* first addr ro, second addr wo */ bool righttoleft; /* first addr wo, second addr ro */ xiolock_t lock; /* a lock file */ } socat_opts = { 8192, /* bufsiz */ false, /* verbose */ false, /* verbhex */ {1,0}, /* pollintv */ {0,500000}, /* closwait */ {0,0}, /* total_timeout */ 0, /* debug */ 0, /* strictopts */ 's', /* logopt */ false, /* lefttoright */ false, /* righttoleft */ { NULL, 0 }, /* lock */ }; void socat_usage(FILE *fd); void socat_version(FILE *fd); int socat(const char *address1, const char *address2); int _socat(void); int cv_newline(unsigned char **buff, ssize_t *bytes, int lineterm1, int lineterm2); void socat_signal(int sig); static int socat_sigchild(struct single *file); void lftocrlf(char **in, ssize_t *len, size_t bufsiz); void crlftolf(char **in, ssize_t *len, size_t bufsiz); static int socat_lock(void); static void socat_unlock(void); static int socat_newchild(void); static const char socatversion[] = #include "./VERSION" ; static const char timestamp[] = __DATE__" "__TIME__; const char copyright_socat[] = "socat by Gerhard Rieger - see www.dest-unreach.org"; #if WITH_OPENSSL const char copyright_openssl[] = "This product includes software developed by the OpenSSL Project for use in the OpenSSL Toolkit. (http://www.openssl.org/)"; const char copyright_ssleay[] = "This product includes software written by Tim Hudson (tjh@cryptsoft.com)"; #endif bool havelock; int main(int argc, const char *argv[]) { const char **arg1, *a; char *mainwaitstring; char buff[10]; double rto; int i, argc0, result; struct utsname ubuf; int lockrc; if (mainwaitstring = getenv("SOCAT_MAIN_WAIT")) { sleep(atoi(mainwaitstring)); } diag_set('p', strchr(argv[0], '/') ? strrchr(argv[0], '/')+1 : argv[0]); /* we must init before applying options because env settings have lower priority and are to be overridden by options */ if (xioinitialize() != 0) { Exit(1); } xiosetopt('p', "!!"); xiosetopt('o', ":"); argc0 = argc; /* save for later use */ arg1 = argv+1; --argc; while (arg1[0] && (arg1[0][0] == '-')) { switch (arg1[0][1]) { case 'V': socat_version(stdout); Exit(0); #if WITH_HELP case '?': case 'h': socat_usage(stdout); xioopenhelp(stdout, (arg1[0][2]=='?'||arg1[0][2]=='h') ? (arg1[0][3]=='?'||arg1[0][3]=='h') ? 2 : 1 : 0); Exit(0); #endif /* WITH_HELP */ case 'd': diag_set('d', NULL); break; #if WITH_FILAN case 'D': socat_opts.debug = true; break; #endif case 'l': switch (arg1[0][2]) { case 'm': /* mixed mode: stderr, then switch to syslog; + facility */ diag_set('s', NULL); xiosetopt('l', "m"); socat_opts.logopt = arg1[0][2]; xiosetopt('y', &arg1[0][3]); break; case 'y': /* syslog + facility */ diag_set(arg1[0][2], &arg1[0][3]); break; case 'f': /* to file, +filename */ case 'p': /* artificial program name */ if (arg1[0][3]) { diag_set(arg1[0][2], &arg1[0][3]); } else if (arg1[1]) { diag_set(arg1[0][2], arg1[1]); ++arg1, --argc; } else { Error1("option -l%c requires an argument; use option \"-h\" for help", arg1[0][2]); } break; case 's': /* stderr */ diag_set(arg1[0][2], NULL); break; case 'u': diag_set('u', NULL); break; case 'h': diag_set_int('h', true); break; default: Error1("unknown log option \"%s\"; use option \"-h\" for help", arg1[0]); break; } break; case 'v': socat_opts.verbose = true; break; case 'x': socat_opts.verbhex = true; break; case 'b': if (arg1[0][2]) { a = *arg1+2; } else { ++arg1, --argc; if ((a = *arg1) == NULL) { Error("option -b requires an argument; use option \"-h\" for help"); Exit(1); } } socat_opts.bufsiz = strtoul(a, (char **)&a, 0); break; case 's': diag_set_int('e', E_FATAL); break; case 't': if (arg1[0][2]) { a = *arg1+2; } else { ++arg1, --argc; if ((a = *arg1) == NULL) { Error("option -t requires an argument; use option \"-h\" for help"); Exit(1); } } rto = strtod(a, (char **)&a); socat_opts.closwait.tv_sec = rto; socat_opts.closwait.tv_usec = (rto-socat_opts.closwait.tv_sec) * 1000000; break; case 'T': if (arg1[0][2]) { a = *arg1+2; } else { ++arg1, --argc; if ((a = *arg1) == NULL) { Error("option -T requires an argument; use option \"-h\" for help"); Exit(1); } } rto = strtod(a, (char **)&a); socat_opts.total_timeout.tv_sec = rto; socat_opts.total_timeout.tv_usec = (rto-socat_opts.total_timeout.tv_sec) * 1000000; break; case 'u': socat_opts.lefttoright = true; break; case 'U': socat_opts.righttoleft = true; break; case 'g': xioopts_ignoregroups = true; break; case 'L': if (socat_opts.lock.lockfile) Error("only one -L and -W option allowed"); if (arg1[0][2]) { socat_opts.lock.lockfile = *arg1+2; } else { ++arg1, --argc; if ((socat_opts.lock.lockfile = *arg1) == NULL) { Error("option -L requires an argument; use option \"-h\" for help"); Exit(1); } } break; case 'W': if (socat_opts.lock.lockfile) Error("only one -L and -W option allowed"); if (arg1[0][2]) { socat_opts.lock.lockfile = *arg1+2; } else { ++arg1, --argc; if ((socat_opts.lock.lockfile = *arg1) == NULL) { Error("option -W requires an argument; use option \"-h\" for help"); Exit(1); } } socat_opts.lock.waitlock = true; socat_opts.lock.intervall.tv_sec = 1; socat_opts.lock.intervall.tv_nsec = 0; break; #if WITH_IP4 || WITH_IP6 #if WITH_IP4 case '4': #endif #if WITH_IP6 case '6': #endif xioopts.default_ip = arg1[0][1]; xioopts.preferred_ip = arg1[0][1]; break; #endif /* WITH_IP4 || WITH_IP6 */ case '\0': case ',': case ':': break; /* this "-" is a variation of STDIO */ default: xioinqopt('p', buff, sizeof(buff)); if (arg1[0][1] == buff[0]) { break; } Error1("unknown option \"%s\"; use option \"-h\" for help", arg1[0]); Exit(1); } /* the leading "-" might be a form of the first address */ xioinqopt('p', buff, sizeof(buff)); if (arg1[0][0] == '-' && (arg1[0][1] == '\0' || arg1[0][1] == ':' || arg1[0][1] == ',' || arg1[0][1] == buff[0])) break; ++arg1; --argc; } if (argc != 2) { Error1("exactly 2 addresses required (there are %d); use option \"-h\" for help", argc); Exit(1); } if (socat_opts.lefttoright && socat_opts.righttoleft) { Error("-U and -u must not be combined"); } xioinitialize2(); Info(copyright_socat); #if WITH_OPENSSL Info(copyright_openssl); Info(copyright_ssleay); #endif Debug2("socat version %s on %s", socatversion, timestamp); xiosetenv("VERSION", socatversion, 1, NULL); /* SOCAT_VERSION */ uname(&ubuf); /* ! here we circumvent internal tracing (Uname) */ Debug4("running on %s version %s, release %s, machine %s\n", ubuf.sysname, ubuf.version, ubuf.release, ubuf.machine); #if WITH_MSGLEVEL <= E_DEBUG for (i = 0; i < argc0; ++i) { Debug2("argv[%d]: \"%s\"", i, argv[i]); } #endif /* WITH_MSGLEVEL <= E_DEBUG */ { struct sigaction act; sigfillset(&act.sa_mask); act.sa_flags = 0; act.sa_handler = socat_signal; /* not sure which signals should be cauhgt and print a message */ Sigaction(SIGHUP, &act, NULL); Sigaction(SIGINT, &act, NULL); Sigaction(SIGQUIT, &act, NULL); Sigaction(SIGILL, &act, NULL); Sigaction(SIGABRT, &act, NULL); Sigaction(SIGBUS, &act, NULL); Sigaction(SIGFPE, &act, NULL); Sigaction(SIGSEGV, &act, NULL); Sigaction(SIGTERM, &act, NULL); } Signal(SIGPIPE, SIG_IGN); /* set xio hooks */ xiohook_newchild = &socat_newchild; if (lockrc = socat_lock()) { /* =0: goon; >0: locked; <0: error, printed in sub */ if (lockrc > 0) Error1("could not obtain lock \"%s\"", socat_opts.lock.lockfile); Exit(1); } Atexit(socat_unlock); result = socat(arg1[0], arg1[1]); Notice1("exiting with status %d", result); Exit(result); return 0; /* not reached, just for gcc -Wall */ } void socat_usage(FILE *fd) { fputs(copyright_socat, fd); fputc('\n', fd); fputs("Usage:\n", fd); fputs("socat [options] \n", fd); fputs(" options:\n", fd); fputs(" -V print version and feature information to stdout, and exit\n", fd); #if WITH_HELP fputs(" -h|-? print a help text describing command line options and addresses\n", fd); fputs(" -hh like -h, plus a list of all common address option names\n", fd); fputs(" -hhh like -hh, plus a list of all available address option names\n", fd); #endif /* WITH_HELP */ fputs(" -d increase verbosity (use up to 4 times; 2 are recommended)\n", fd); #if WITH_FILAN fputs(" -D analyze file descriptors before loop\n", fd); #endif fputs(" -ly[facility] log to syslog, using facility (default is daemon)\n", fd); fputs(" -lf log to file\n", fd); fputs(" -ls log to stderr (default if no other log)\n", fd); fputs(" -lm[facility] mixed log mode (stderr during initialization, then syslog)\n", fd); fputs(" -lp set the program name used for logging\n", fd); fputs(" -lu use microseconds for logging timestamps\n", fd); fputs(" -lh add hostname to log messages\n", fd); fputs(" -v verbose data traffic, text\n", fd); fputs(" -x verbose data traffic, hexadecimal\n", fd); fputs(" -b set data buffer size (8192)\n", fd); fputs(" -s sloppy (continue on error)\n", fd); fputs(" -t wait seconds before closing second channel\n", fd); fputs(" -T total inactivity timeout in seconds\n", fd); fputs(" -u unidirectional mode (left to right)\n", fd); fputs(" -U unidirectional mode (right to left)\n", fd); fputs(" -g do not check option groups\n", fd); fputs(" -L try to obtain lock, or fail\n", fd); fputs(" -W try to obtain lock, or wait\n", fd); #if WITH_IP4 fputs(" -4 prefer IPv4 if version is not explicitly specified\n", fd); #endif #if WITH_IP6 fputs(" -6 prefer IPv6 if version is not explicitly specified\n", fd); #endif } void socat_version(FILE *fd) { struct utsname ubuf; fputs(copyright_socat, fd); fputc('\n', fd); fprintf(fd, "socat version %s on %s\n", socatversion, timestamp); Uname(&ubuf); fprintf(fd, " running on %s version %s, release %s, machine %s\n", ubuf.sysname, ubuf.version, ubuf.release, ubuf.machine); fputs("features:\n", fd); #ifdef WITH_STDIO fprintf(fd, " #define WITH_STDIO %d\n", WITH_STDIO); #else fputs(" #undef WITH_STDIO\n", fd); #endif #ifdef WITH_FDNUM fprintf(fd, " #define WITH_FDNUM %d\n", WITH_FDNUM); #else fputs(" #undef WITH_FDNUM\n", fd); #endif #ifdef WITH_FILE fprintf(fd, " #define WITH_FILE %d\n", WITH_FILE); #else fputs(" #undef WITH_FILE\n", fd); #endif #ifdef WITH_CREAT fprintf(fd, " #define WITH_CREAT %d\n", WITH_CREAT); #else fputs(" #undef WITH_CREAT\n", fd); #endif #ifdef WITH_GOPEN fprintf(fd, " #define WITH_GOPEN %d\n", WITH_GOPEN); #else fputs(" #undef WITH_GOPEN\n", fd); #endif #ifdef WITH_TERMIOS fprintf(fd, " #define WITH_TERMIOS %d\n", WITH_TERMIOS); #else fputs(" #undef WITH_TERMIOS\n", fd); #endif #ifdef WITH_PIPE fprintf(fd, " #define WITH_PIPE %d\n", WITH_PIPE); #else fputs(" #undef WITH_PIPE\n", fd); #endif #ifdef WITH_UNIX fprintf(fd, " #define WITH_UNIX %d\n", WITH_UNIX); #else fputs(" #undef WITH_UNIX\n", fd); #endif /* WITH_UNIX */ #ifdef WITH_ABSTRACT_UNIXSOCKET fprintf(fd, " #define WITH_ABSTRACT_UNIXSOCKET %d\n", WITH_ABSTRACT_UNIXSOCKET); #else fputs(" #undef WITH_ABSTRACT_UNIXSOCKET\n", fd); #endif /* WITH_ABSTRACT_UNIXSOCKET */ #ifdef WITH_IP4 fprintf(fd, " #define WITH_IP4 %d\n", WITH_IP4); #else fputs(" #undef WITH_IP4\n", fd); #endif #ifdef WITH_IP6 fprintf(fd, " #define WITH_IP6 %d\n", WITH_IP6); #else fputs(" #undef WITH_IP6\n", fd); #endif #ifdef WITH_RAWIP fprintf(fd, " #define WITH_RAWIP %d\n", WITH_RAWIP); #else fputs(" #undef WITH_RAWIP\n", fd); #endif #ifdef WITH_GENERICSOCKET fprintf(fd, " #define WITH_GENERICSOCKET %d\n", WITH_GENERICSOCKET); #else fputs(" #undef WITH_GENERICSOCKET\n", fd); #endif #ifdef WITH_INTERFACE fprintf(fd, " #define WITH_INTERFACE %d\n", WITH_INTERFACE); #else fputs(" #undef WITH_INTERFACE\n", fd); #endif #ifdef WITH_TCP fprintf(fd, " #define WITH_TCP %d\n", WITH_TCP); #else fputs(" #undef WITH_TCP\n", fd); #endif #ifdef WITH_UDP fprintf(fd, " #define WITH_UDP %d\n", WITH_UDP); #else fputs(" #undef WITH_UDP\n", fd); #endif #ifdef WITH_SCTP fprintf(fd, " #define WITH_SCTP %d\n", WITH_SCTP); #else fputs(" #undef WITH_SCTP\n", fd); #endif #ifdef WITH_LISTEN fprintf(fd, " #define WITH_LISTEN %d\n", WITH_LISTEN); #else fputs(" #undef WITH_LISTEN\n", fd); #endif #ifdef WITH_SOCKS4 fprintf(fd, " #define WITH_SOCKS4 %d\n", WITH_SOCKS4); #else fputs(" #undef WITH_SOCKS4\n", fd); #endif #ifdef WITH_SOCKS4A fprintf(fd, " #define WITH_SOCKS4A %d\n", WITH_SOCKS4A); #else fputs(" #undef WITH_SOCKS4A\n", fd); #endif #ifdef WITH_PROXY fprintf(fd, " #define WITH_PROXY %d\n", WITH_PROXY); #else fputs(" #undef WITH_PROXY\n", fd); #endif #ifdef WITH_SYSTEM fprintf(fd, " #define WITH_SYSTEM %d\n", WITH_SYSTEM); #else fputs(" #undef WITH_SYSTEM\n", fd); #endif #ifdef WITH_EXEC fprintf(fd, " #define WITH_EXEC %d\n", WITH_EXEC); #else fputs(" #undef WITH_EXEC\n", fd); #endif #ifdef WITH_READLINE fprintf(fd, " #define WITH_READLINE %d\n", WITH_READLINE); #else fputs(" #undef WITH_READLINE\n", fd); #endif #ifdef WITH_TUN fprintf(fd, " #define WITH_TUN %d\n", WITH_TUN); #else fputs(" #undef WITH_TUN\n", fd); #endif #ifdef WITH_PTY fprintf(fd, " #define WITH_PTY %d\n", WITH_PTY); #else fputs(" #undef WITH_PTY\n", fd); #endif #ifdef WITH_OPENSSL fprintf(fd, " #define WITH_OPENSSL %d\n", WITH_OPENSSL); #else fputs(" #undef WITH_OPENSSL\n", fd); #endif #ifdef WITH_FIPS fprintf(fd, " #define WITH_FIPS %d\n", WITH_FIPS); #else fputs(" #undef WITH_FIPS\n", fd); #endif #ifdef WITH_LIBWRAP fprintf(fd, " #define WITH_LIBWRAP %d\n", WITH_LIBWRAP); #else fputs(" #undef WITH_LIBWRAP\n", fd); #endif #ifdef WITH_SYCLS fprintf(fd, " #define WITH_SYCLS %d\n", WITH_SYCLS); #else fputs(" #undef WITH_SYCLS\n", fd); #endif #ifdef WITH_FILAN fprintf(fd, " #define WITH_FILAN %d\n", WITH_FILAN); #else fputs(" #undef WITH_FILAN\n", fd); #endif #ifdef WITH_RETRY fprintf(fd, " #define WITH_RETRY %d\n", WITH_RETRY); #else fputs(" #undef WITH_RETRY\n", fd); #endif #ifdef WITH_MSGLEVEL fprintf(fd, " #define WITH_MSGLEVEL %d /*%s*/\n", WITH_MSGLEVEL, &"debug\0\0\0info\0\0\0\0notice\0\0warn\0\0\0\0error\0\0\0fatal\0\0\0"[WITH_MSGLEVEL<<3]); #else fputs(" #undef WITH_MSGLEVEL\n", fd); #endif } xiofile_t *sock1, *sock2; int closing = 0; /* 0..no eof yet, 1..first eof just occurred, 2..counting down closing timeout */ /* call this function when the common command line options are parsed, and the addresses are extracted (but not resolved). */ int socat(const char *address1, const char *address2) { int mayexec; if (socat_opts.lefttoright) { if ((sock1 = xioopen(address1, XIO_RDONLY|XIO_MAYFORK|XIO_MAYCHILD|XIO_MAYCONVERT)) == NULL) { return -1; } xiosetsigchild(sock1, socat_sigchild); } else if (socat_opts.righttoleft) { if ((sock1 = xioopen(address1, XIO_WRONLY|XIO_MAYFORK|XIO_MAYCHILD|XIO_MAYCONVERT)) == NULL) { return -1; } xiosetsigchild(sock1, socat_sigchild); } else { if ((sock1 = xioopen(address1, XIO_RDWR|XIO_MAYFORK|XIO_MAYCHILD|XIO_MAYCONVERT)) == NULL) { return -1; } xiosetsigchild(sock1, socat_sigchild); } #if 1 /*! */ if (XIO_READABLE(sock1) && (XIO_RDSTREAM(sock1)->howtoend == END_KILL || XIO_RDSTREAM(sock1)->howtoend == END_CLOSE_KILL || XIO_RDSTREAM(sock1)->howtoend == END_SHUTDOWN_KILL)) { if (XIO_RDSTREAM(sock1)->para.exec.pid == diedunknown1) { /* child has alread died... but it might have put regular data into the communication channel, so continue */ Info1("child "F_pid" has already died (diedunknown1)", XIO_RDSTREAM(sock1)->para.exec.pid); diedunknown1 = 0; XIO_RDSTREAM(sock1)->para.exec.pid = 0; /* return STAT_RETRYLATER; */ } else if (XIO_RDSTREAM(sock1)->para.exec.pid == diedunknown2) { Info1("child "F_pid" has already died (diedunknown2)", XIO_RDSTREAM(sock1)->para.exec.pid); diedunknown2 = 0; XIO_RDSTREAM(sock1)->para.exec.pid = 0; } else if (XIO_RDSTREAM(sock1)->para.exec.pid == diedunknown3) { Info1("child "F_pid" has already died (diedunknown3)", XIO_RDSTREAM(sock1)->para.exec.pid); diedunknown3 = 0; XIO_RDSTREAM(sock1)->para.exec.pid = 0; } else if (XIO_RDSTREAM(sock1)->para.exec.pid == diedunknown4) { Info1("child "F_pid" has already died (diedunknown4)", XIO_RDSTREAM(sock1)->para.exec.pid); diedunknown4 = 0; XIO_RDSTREAM(sock1)->para.exec.pid = 0; } } #endif mayexec = (sock1->common.flags&XIO_DOESCONVERT ? 0 : XIO_MAYEXEC); if (XIO_WRITABLE(sock1)) { if (XIO_READABLE(sock1)) { if ((sock2 = xioopen(address2, XIO_RDWR|XIO_MAYFORK|XIO_MAYCHILD|mayexec|XIO_MAYCONVERT)) == NULL) { return -1; } xiosetsigchild(sock2, socat_sigchild); } else { if ((sock2 = xioopen(address2, XIO_RDONLY|XIO_MAYFORK|XIO_MAYCHILD|mayexec|XIO_MAYCONVERT)) == NULL) { return -1; } xiosetsigchild(sock2, socat_sigchild); } } else { /* assuming sock1 is readable */ if ((sock2 = xioopen(address2, XIO_WRONLY|XIO_MAYFORK|XIO_MAYCHILD|mayexec|XIO_MAYCONVERT)) == NULL) { return -1; } xiosetsigchild(sock2, socat_sigchild); } #if 1 /*! */ if (XIO_READABLE(sock2) && (XIO_RDSTREAM(sock2)->howtoend == END_KILL || XIO_RDSTREAM(sock2)->howtoend == END_CLOSE_KILL || XIO_RDSTREAM(sock2)->howtoend == END_SHUTDOWN_KILL)) { if (XIO_RDSTREAM(sock2)->para.exec.pid == diedunknown1) { /* child has alread died... but it might have put regular data into the communication channel, so continue */ Info1("child "F_pid" has already died (diedunknown1)", XIO_RDSTREAM(sock2)->para.exec.pid); diedunknown1 = 0; XIO_RDSTREAM(sock2)->para.exec.pid = 0; /* return STAT_RETRYLATER; */ } else if (XIO_RDSTREAM(sock2)->para.exec.pid == diedunknown2) { Info1("child "F_pid" has already died (diedunknown2)", XIO_RDSTREAM(sock2)->para.exec.pid); diedunknown2 = 0; XIO_RDSTREAM(sock2)->para.exec.pid = 0; } else if (XIO_RDSTREAM(sock2)->para.exec.pid == diedunknown3) { Info1("child "F_pid" has already died (diedunknown3)", XIO_RDSTREAM(sock2)->para.exec.pid); diedunknown3 = 0; XIO_RDSTREAM(sock2)->para.exec.pid = 0; } else if (XIO_RDSTREAM(sock2)->para.exec.pid == diedunknown4) { Info1("child "F_pid" has already died (diedunknown4)", XIO_RDSTREAM(sock2)->para.exec.pid); diedunknown4 = 0; XIO_RDSTREAM(sock2)->para.exec.pid = 0; } } #endif Info("resolved and opened all sock addresses"); return _socat(); /* nsocks, sockets are visible outside function */ } /* 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)->howtoend == END_KILL || XIO_RDSTREAM(xfd)->howtoend == END_CLOSE_KILL || XIO_RDSTREAM(xfd)->howtoend == END_SHUTDOWN_KILL) && XIO_RDSTREAM(xfd)->para.exec.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 { int _errno; retval = xiopoll(&in, 1, &timeout); _errno = errno; diag_flush(); errno = _errno; /* just in case it's not debug level and Msg() not been called */ } 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; closing = MAX(closing, 1); } } return 0; } int xiotransfer(xiofile_t *inpipe, xiofile_t *outpipe, unsigned char **buff, size_t bufsiz, bool righttoleft); bool mayrd1; /* sock1 has read data or eof, according to poll() */ bool mayrd2; /* sock2 has read data or eof, according to poll() */ bool maywr1; /* sock1 can be written to, according to poll() */ bool maywr2; /* sock2 can be written to, according to poll() */ /* 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(void) { 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 poll was active, do NOT sleep before next */ struct timeval total_timeout; /* the actual total timeout timer */ #if WITH_FILAN if (socat_opts.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*socat_opts.bufsiz+1); if (buff == NULL) return -1; if (socat_opts.logopt == 'm' && xioinqopt('l', NULL, 0) == 'm') { Info("switching to syslog"); diag_set('y', xioopts.syslogfac); xiosetopt('l', "\0"); } total_timeout = socat_opts.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; Debug6("data loop: sock1->eof=%d, sock2->eof=%d, closing=%d, wasaction=%d, total_to={"F_tv_sec"."F_tv_usec"}", XIO_RDSTREAM(sock1)->eof, XIO_RDSTREAM(sock2)->eof, closing, wasaction, total_timeout.tv_sec, total_timeout.tv_usec); /* for ignoreeof */ if (polling) { if (!wasaction) { if (socat_opts.total_timeout.tv_sec != 0 || socat_opts.total_timeout.tv_usec != 0) { if (total_timeout.tv_usec < socat_opts.pollintv.tv_usec) { total_timeout.tv_usec += 1000000; total_timeout.tv_sec -= 1; } total_timeout.tv_sec -= socat_opts.pollintv.tv_sec; total_timeout.tv_usec -= socat_opts.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 = socat_opts.pollintv; to = &timeout; } else if (socat_opts.total_timeout.tv_sec != 0 || socat_opts.total_timeout.tv_usec != 0) { /* there might occur a total inactivity timeout */ timeout = socat_opts.total_timeout; to = &timeout; } else { to = NULL; } if (closing>=1) { /* first eof already occurred, start end timer */ timeout = socat_opts.pollintv; to = &timeout; closing = 2; } /* frame 1: set the poll parameters and loop over poll() EINTR) */ do { /* loop over poll() EINTR */ int _errno; childleftdata(sock1); childleftdata(sock2); if (closing>=1) { /* first eof already occurred, start end timer */ timeout = socat_opts.closwait; to = &timeout; closing = 2; } /* use the ignoreeof timeout if appropriate */ if (polling) { if (closing == 0 || (socat_opts.pollintv.tv_sec < timeout.tv_sec) || ((socat_opts.pollintv.tv_sec == timeout.tv_sec) && socat_opts.pollintv.tv_usec < timeout.tv_usec)) { timeout = socat_opts.pollintv; } } /* now the fds will be assigned */ if (XIO_READABLE(sock1) && !(XIO_RDSTREAM(sock1)->eof > 1 && !XIO_RDSTREAM(sock1)->ignoreeof) && !socat_opts.righttoleft) { 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) && !socat_opts.lefttoright) { 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("poll(): %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)", closing>=1?socat_opts.closwait.tv_sec:socat_opts.total_timeout.tv_sec, closing>=1?socat_opts.closwait.tv_usec:socat_opts.total_timeout.tv_usec); if (polling && !wasaction) { /* there was a ignoreeof poll timeout, use it */ polling = 0; /*%%%*/ if (XIO_RDSTREAM(sock1)->ignoreeof) { mayrd1 = 0; } if (XIO_RDSTREAM(sock2)->ignoreeof) { mayrd2 = 0; } } else if (polling && wasaction) { wasaction = 0; } else if (socat_opts.total_timeout.tv_sec != 0 || socat_opts.total_timeout.tv_usec != 0) { /* there was a total inactivity timeout */ Notice("inactivity timeout triggered"); return 0; } if (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; } 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; } 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; } 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, socat_opts.bufsiz, false)) < 0) { if (errno != EAGAIN) { closing = MAX(closing, 1); Notice("socket 1 to socket 2 is in error"); if (socat_opts.lefttoright) { break; } } } else if (bytes1 > 0) { maywr2 = false; total_timeout = socat_opts.total_timeout; wasaction = 1; /* is more data available that has already passed poll()? */ 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 */ } } /* (bytes1 == 0) handled later */ } else { bytes1 = -1; } if (mayrd2 && maywr1) { mayrd2 = false; if ((bytes2 = xiotransfer(sock2, sock1, &buff, socat_opts.bufsiz, true)) < 0) { if (errno != EAGAIN) { closing = MAX(closing, 1); Notice("socket 2 to socket 1 is in error"); if (socat_opts.righttoleft) { break; } } } else if (bytes2 > 0) { maywr1 = false; total_timeout = socat_opts.total_timeout; wasaction = 1; /* is more data available that has already passed poll()? */ 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 */ } } /* (bytes2 == 0) handled later */ } else { bytes2 = -1; } /* NOW handle EOFs */ /*0 Debug4("bytes1=F_Zd, XIO_RDSTREAM(sock1)->eof=%d, XIO_RDSTREAM(sock1)->ignoreeof=%d, closing=%d", bytes1, XIO_RDSTREAM(sock1)->eof, XIO_RDSTREAM(sock1)->ignoreeof, closing);*/ if (bytes1 == 0 || XIO_RDSTREAM(sock1)->eof >= 2) { if (XIO_RDSTREAM(sock1)->ignoreeof && !XIO_RDSTREAM(sock1)->actescape && !closing) { Debug1("socket 1 (fd %d) is at EOF, ignoring", XIO_RDSTREAM(sock1)->fd); /*! */ 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; } } else if (polling && XIO_RDSTREAM(sock1)->ignoreeof) { polling = 0; } if (XIO_RDSTREAM(sock1)->eof >= 2) { if (socat_opts.lefttoright) { break; } closing = 1; } if (bytes2 == 0 || XIO_RDSTREAM(sock2)->eof >= 2) { if (XIO_RDSTREAM(sock2)->ignoreeof && !XIO_RDSTREAM(sock2)->actescape && !closing) { Debug1("socket 2 (fd %d) is at EOF, ignoring", XIO_RDSTREAM(sock2)->fd); 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; } } else if (polling && XIO_RDSTREAM(sock2)->ignoreeof) { polling = 0; } if (XIO_RDSTREAM(sock2)->eof >= 2) { if (socat_opts.righttoleft) { break; } closing = 1; } } /* close everything that's still open */ xioclose(sock1); xioclose(sock2); return 0; } #define MAXTIMESTAMPLEN 128 /* prints the timestamp to the buffer and terminates it with '\0'. This buffer should be at least MAXTIMESTAMPLEN bytes long. returns 0 on success or -1 if an error occurred */ int gettimestamp(char *timestamp) { size_t bytes; #if HAVE_GETTIMEOFDAY || 1 struct timeval now; int result; time_t nowt; #else /* !HAVE_GETTIMEOFDAY */ time_t now; #endif /* !HAVE_GETTIMEOFDAY */ #if HAVE_GETTIMEOFDAY || 1 result = gettimeofday(&now, NULL); if (result < 0) { return result; } else { nowt = now.tv_sec; #if HAVE_STRFTIME bytes = strftime(timestamp, 20, "%Y/%m/%d %H:%M:%S", localtime(&nowt)); bytes += sprintf(timestamp+19, "."F_tv_usec" ", now.tv_usec); #else strcpy(timestamp, ctime(&nowt)); bytes = strlen(timestamp); #endif } #else /* !HAVE_GETTIMEOFDAY */ now = time(NULL); if (now == (time_t)-1) { return -1; } else { #if HAVE_STRFTIME bytes = strftime(timestamp, 21, "%Y/%m/%d %H:%M:%S ", localtime(&now)); #else strcpy(timestamp, ctime(&now)); bytes = strlen(timestamp); #endif } #endif /* !HAVE_GETTIMEOFDAY */ return 0; } static const char *prefixltor = "> "; static const char *prefixrtol = "< "; static unsigned long numltor; static unsigned long numrtol; /* print block header (during verbose or hex dump) returns 0 on success or -1 if an error occurred */ static int xioprintblockheader(FILE *file, size_t bytes, bool righttoleft) { char timestamp[MAXTIMESTAMPLEN]; char buff[128+MAXTIMESTAMPLEN]; if (gettimestamp(timestamp) < 0) { return -1; } if (righttoleft) { sprintf(buff, "%s%s length="F_Zu" from=%lu to=%lu\n", prefixrtol, timestamp, bytes, numrtol, numrtol+bytes-1); numrtol+=bytes; } else { sprintf(buff, "%s%s length="F_Zu" from=%lu to=%lu\n", prefixltor, timestamp, bytes, numltor, numltor+bytes-1); numltor+=bytes; } fputs(buff, file); return 0; } /* inpipe is suspected to have read data available; read at most bufsiz bytes and transfer them to outpipe. Perform required data conversions. buff must be a malloc()'ed storage and might be realloc()'ed in this function if more space is required after conversions. Returns the number of bytes written, or 0 on EOF or <0 if an error occurred or when data was read but none written due to conversions (with EAGAIN). EAGAIN also occurs when reading from a nonblocking FD where the file has a mandatory lock. If 0 bytes were read (EOF), it does NOT shutdown or close a channel, and it does NOT write a zero bytes block. */ /* inpipe, outpipe must be single descriptors (not dual!) */ int xiotransfer(xiofile_t *inpipe, xiofile_t *outpipe, unsigned char **buff, size_t bufsiz, bool righttoleft) { ssize_t bytes, writt = 0; bytes = xioread(inpipe, *buff, bufsiz); if (bytes < 0) { if (errno != EAGAIN) XIO_RDSTREAM(inpipe)->eof = 2; /*xioshutdown(inpipe, SHUT_RD);*/ return -1; } if (bytes == 0 && XIO_RDSTREAM(inpipe)->ignoreeof && !closing) { ; } else if (bytes == 0) { XIO_RDSTREAM(inpipe)->eof = 2; closing = MAX(closing, 1); } if (bytes > 0) { /* handle escape char */ if (XIO_RDSTREAM(inpipe)->escape != -1) { /* check input data for escape char */ unsigned char *ptr = *buff; size_t ctr = 0; while (ctr < bytes) { if (*ptr == XIO_RDSTREAM(inpipe)->escape) { /* found: set flag, truncate input data */ XIO_RDSTREAM(inpipe)->actescape = true; bytes = ctr; Info("escape char found in input"); break; } ++ptr; ++ctr; } if (ctr != bytes) { XIO_RDSTREAM(inpipe)->eof = 2; } } } if (bytes > 0) { if (XIO_RDSTREAM(inpipe)->lineterm != XIO_WRSTREAM(outpipe)->lineterm) { cv_newline(buff, &bytes, XIO_RDSTREAM(inpipe)->lineterm, XIO_WRSTREAM(outpipe)->lineterm); } if (bytes == 0) { errno = EAGAIN; return -1; } if (socat_opts.verbose && socat_opts.verbhex) { /* Hack-o-rama */ size_t i = 0; size_t j; size_t N = 16; const unsigned char *end, *s, *t; s = *buff; end = (*buff)+bytes; xioprintblockheader(stderr, bytes, righttoleft); while (s < end) { /*! prefix? */ j = Min(N, (size_t)(end-s)); /* print hex */ t = s; i = 0; while (i < j) { int c = *t++; fprintf(stderr, " %02x", c); ++i; if (c == '\n') break; } /* fill hex column */ while (i < N) { fputs(" ", stderr); ++i; } fputs(" ", stderr); /* print acsii */ t = s; i = 0; while (i < j) { int c = *t++; if (c == '\n') { fputc('.', stderr); break; } if (!isprint(c)) c = '.'; fputc(c, stderr); ++i; } fputc('\n', stderr); s = t; } fputs("--\n", stderr); } else if (socat_opts.verbose) { size_t i = 0; xioprintblockheader(stderr, bytes, righttoleft); while (i < (size_t)bytes) { int c = (*buff)[i]; if (i > 0 && (*buff)[i-1] == '\n') /*! prefix? */; switch (c) { case '\a' : fputs("\\a", stderr); break; case '\b' : fputs("\\b", stderr); break; case '\t' : fputs("\t", stderr); break; case '\n' : fputs("\n", stderr); break; case '\v' : fputs("\\v", stderr); break; case '\f' : fputs("\\f", stderr); break; case '\r' : fputs("\\r", stderr); break; case '\\' : fputs("\\\\", stderr); break; default: if (!isprint(c)) c = '.'; fputc(c, stderr); break; } ++i; } } else if (socat_opts.verbhex) { int i; /* print prefix */ xioprintblockheader(stderr, bytes, righttoleft); for (i = 0; i < bytes; ++i) { fprintf(stderr, " %02x", (*buff)[i]); } fputc('\n', stderr); } writt = xiowrite(outpipe, *buff, bytes); if (writt < 0) { /* EAGAIN when nonblocking but a mandatory lock is on file. the problem with EAGAIN is that the read cannot be repeated, so we need to buffer the data and try to write it later again. not yet implemented, sorry. */ #if 0 if (errno == EPIPE) { return 0; /* can no longer write; handle like EOF */ } #endif return -1; } else { Info3("transferred "F_Zu" bytes from %d to %d", writt, XIO_GETRDFD(inpipe), XIO_GETWRFD(outpipe)); } } return writt; } #define CR '\r' #define LF '\n' /* converts the newline characters (or character sequences) from the one specified in lineterm1 to that of lineterm2. Possible values are LINETERM_CR, LINETERM_CRNL, LINETERM_RAW. buff points to the malloc()'ed data, input and output. It may be subject to realloc(). bytes specifies the number of bytes input and output */ int cv_newline(unsigned char **buff, ssize_t *bufsiz, int lineterm1, int lineterm2) { ssize_t *bytes = bufsiz; /* must perform newline changes */ if (lineterm1 <= LINETERM_CR && lineterm2 <= LINETERM_CR) { /* no change in data length */ unsigned char from, to, *p, *z; if (lineterm1 == LINETERM_RAW) { from = '\n'; to = '\r'; } else { from = '\r'; to = '\n'; } z = *buff + *bytes; p = *buff; while (p < z) { if (*p == from) *p = to; ++p; } } else if (lineterm1 == LINETERM_CRNL) { /* buffer becomes shorter */ unsigned char to, *s, *t, *z; if (lineterm2 == LINETERM_RAW) { to = '\n'; } else { to = '\r'; } z = *buff + *bytes; s = t = *buff; while (s < z) { if (*s == '\r') { ++s; continue; } if (*s == '\n') { *t++ = to; ++s; } else { *t++ = *s++; } } *bufsiz = t - *buff; } else { /* buffer becomes longer, must alloc another space */ unsigned char *buf2; unsigned char from; unsigned char *s, *t, *z; if (lineterm1 == LINETERM_RAW) { from = '\n'; } else { from = '\r'; } if ((buf2 = Malloc(2*socat_opts.bufsiz/*sic!*/+1)) == NULL) { return -1; } s = *buff; t = buf2; z = *buff + *bytes; while (s < z) { if (*s == from) { *t++ = '\r'; *t++ = '\n'; ++s; continue; } else { *t++ = *s++; } } free(*buff); *buff = buf2; *bufsiz = t - buf2;; } return 0; } void socat_signal(int signum) { int _errno; _errno = errno; diag_in_handler = 1; Notice1("socat_signal(): handling signal %d", signum); switch (signum) { case SIGQUIT: case SIGILL: case SIGABRT: case SIGBUS: case SIGFPE: case SIGSEGV: case SIGPIPE: diag_set_int('x', 128+signum); /* in case Error exits for us */ Error1("exiting on signal %d", signum); diag_set_int('x', 0); /* in case Error did not exit */ break; case SIGTERM: Warn1("exiting on signal %d", signum); break; case SIGHUP: case SIGINT: Notice1("exiting on signal %d", signum); break; } //Exit(128+signum); Notice1("socat_signal(): finishing signal %d", signum); diag_exit(128+signum); /*!!! internal cleanup + _exit() */ diag_in_handler = 0; errno = _errno; } /* this is the callback when the child of an address died */ static int socat_sigchild(struct single *file) { if (file->ignoreeof && !closing) { ; } else { file->eof = MAX(file->eof, 1); closing = 1; } return 0; } static int socat_lock(void) { int lockrc; #if 1 if ((lockrc = xiolock(&socat_opts.lock)) < 0) { return -1; } if (lockrc == 0) { havelock = true; } return lockrc; #else if (socat_opts.lock.lockfile) { if ((lockrc = xiolock(socat_opts.lock.lockfile)) < 0) { /*Error1("error with lockfile \"%s\"", socat_opts.lock.lockfile);*/ return -1; } if (lockrc) { return 1; } havelock = true; /*0 Info1("obtained lock \"%s\"", socat_opts.lock.lockfile);*/ } if (socat_opts.lock.waitlock) { if (xiowaitlock(socat_opts.lock.waitlock, socat_opts.lock.intervall)) { /*Error1("error with lockfile \"%s\"", socat_opts.lock.lockfile);*/ return -1; } else { havelock = true; /*0 Info1("obtained lock \"%s\"", socat_opts.lock.waitlock);*/ } } return 0; #endif } static void socat_unlock(void) { if (!havelock) return; if (socat_opts.lock.lockfile) { if (Unlink(socat_opts.lock.lockfile) < 0) { if (!diag_in_handler) { Warn2("unlink(\"%s\"): %s", socat_opts.lock.lockfile, strerror(errno)); } else { Warn1("unlink(\"%s\"): "F_strerror, socat_opts.lock.lockfile); } } else { Info1("released lock \"%s\"", socat_opts.lock.lockfile); } } } /* this is a callback function that may be called by the newchild hook of xio */ static int socat_newchild(void) { havelock = false; return 0; }