/* source: xioinitialize.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 the initialize function */ #include "xiosysincludes.h" #include "xioopen.h" #include "xiolockfile.h" #include "xio-openssl.h" /* xio_reset_fips_mode() */ static int xioinitialized; xiofile_t *sock[XIO_MAXSOCK]; int (*xiohook_newchild)(void); /* xio calls this function from a new child process */ int num_child = 0; /* actual number of "general" child processes */ bool first_child = true; /* only first child shall print general warnings */ /* returns 0 on success or != if an error occurred */ int xioinitialize(void) { if (xioinitialized) return 0; /* configure and .h's cannot guarantee this */ assert(sizeof(uint8_t)==1); assert(sizeof(uint16_t)==2); assert(sizeof(uint32_t)==4); /* assertions regarding O_ flags - important for XIO_READABLE() etc. */ assert(O_RDONLY==0); assert(O_WRONLY==1); assert(O_RDWR==2); assert(SHUT_RD==0); assert(SHUT_WR==1); assert(SHUT_RDWR==2); /* some assertions about termios */ #if WITH_TERMIOS #if defined(CRDLY) && CRDLY_SHIFT >= 0 assert(3 << opt_crdly.arg3 == CRDLY); #endif #if defined(TABDLY) && TABDLY_SHIFT >= 0 assert(3 << opt_tabdly.arg3 == TABDLY); #endif #if CSIZE_SHIFT >= 0 assert(3 << opt_csize.arg3 == CSIZE); #endif { union { struct termios termarg; tcflag_t flags[4]; #if HAVE_TERMIOS_ISPEED speed_t speeds[sizeof(struct termios)/sizeof(speed_t)]; #endif } tdata; tdata.termarg.c_iflag = 0x12345678; tdata.termarg.c_oflag = 0x23456789; tdata.termarg.c_cflag = 0x3456789a; tdata.termarg.c_lflag = 0x456789ab; assert(tdata.termarg.c_iflag == tdata.flags[0]); assert(tdata.termarg.c_oflag == tdata.flags[1]); assert(tdata.termarg.c_cflag == tdata.flags[2]); assert(tdata.termarg.c_lflag == tdata.flags[3]); } #endif /* these dependencies required in applyopts() for OFUNC_FCNTL */ assert(F_GETFD == F_SETFD-1); assert(F_GETFL == F_SETFL-1); { const char *default_ip; default_ip = getenv("SOCAT_DEFAULT_LISTEN_IP"); if (default_ip != NULL) { switch (default_ip[0]) { case '4': case '6': xioparms.default_ip = default_ip[0]; break; default: xioparms.default_ip = '0'; break; } } } { const char *preferred_ip; preferred_ip = getenv("SOCAT_PREFERRED_RESOLVE_IP"); if (preferred_ip != NULL) { switch (preferred_ip[0]) { case '4': case '6': xioparms.preferred_ip = preferred_ip[0]; break; default: xioparms.preferred_ip = '0'; break; } } } if (Atexit(xioexit) < 0) { Error("atexit(xioexit) failed"); return -1; } xioinitialized = 1; return 0; } /* call this function when option -lp (reset program name) has been applied */ int xioinitialize2(void) { pid_t pid = Getpid(); xiosetenvulong("PID", pid, 1); xiosetenvulong("PPID", pid, 1); return 0; } /* well, this function is not for initialization, but I could not find a better place for it it is called in the child process after fork it drops the locks of the xiofile's so only the parent owns them */ void xiodroplocks(void) { int i; for (i = 0; i < XIO_MAXSOCK; ++i) { if (sock[i] != NULL && sock[i]->tag != XIO_TAG_INVALID && !(sock[i]->tag & XIO_TAG_CLOSED)) { xiofiledroplock(sock[i]); } } } /* Consider an invocation like this: socat -u EXEC:'some program that accepts data' TCP-L:...,fork we do not want the program to be killed by the first TCP-L sub process, it's better if it survives all sub processes. Thus, it must not be killed when the sub process delivers EOF. Also, a socket that is reused in sub processes should not be shut down (affects the connection), but closed (affects only sub processes copy of file descriptor) */ static int xio_nokill(xiofile_t *sock) { int result = 0; if (sock->tag & XIO_TAG_CLOSED) { return -1; } switch (sock->tag) { case XIO_TAG_INVALID: default: return -1; case XIO_TAG_DUAL: if ((result = xio_nokill((xiofile_t *)sock->dual.stream[0])) != 0) return result; result = xio_nokill((xiofile_t *)sock->dual.stream[1]); break; case XIO_TAG_RDONLY: case XIO_TAG_WRONLY: case XIO_TAG_RDWR: /* here is the core of this function */ switch (sock->stream.howtoend) { case END_SHUTDOWN_KILL: sock->stream.howtoend = END_CLOSE; break; case END_CLOSE_KILL: sock->stream.howtoend = END_CLOSE; break; case END_SHUTDOWN: sock->stream.howtoend = END_CLOSE; break; default: break; } break; } return result; } /* call this function immediately after fork() in child process */ /* it performs some neccessary actions returns 0 on success or != 0 if an error occurred */ int xio_forked_inchild(void) { int result = 0; int i; diag_fork(); for (i=0; itriggerfd >= 0) Close(sfd->triggerfd); sfd = XIO_WRSTREAM(sock1); if (sfd->triggerfd >= 0) Close(sfd->triggerfd); } } /* gdb recommends to have env controlled sleep after fork */ if (forkwaitstring = getenv("SOCAT_FORK_WAIT")) { forkwaitsecs = atoi(forkwaitstring); Sleep(forkwaitsecs); } if (xio_forked_inchild() != 0) { Exit(1); } diag_set_int('u', shutup); return 0; } /* parent process */ if (!subchild) { ++num_child; first_child = false; } Info1("number of children increased to %d", num_child); Notice1("forked off child process "F_pid, pid); /* gdb recommends to have env controlled sleep after fork */ if (forkwaitstring = getenv("SOCAT_FORK_WAIT")) { forkwaitsecs = atoi(forkwaitstring); Sleep(forkwaitsecs); } return pid; }