/* * ZeroTier One - Network Virtualization Everywhere * Copyright (C) 2011-2015 ZeroTier, Inc. * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . * * -- * * ZeroTier may be used and distributed under the terms of the GPLv3, which * are available at: http://www.gnu.org/licenses/gpl-3.0.html * * If you would like to embed ZeroTier into a commercial application or * redistribute it in a modified binary form, please contact ZeroTier Networks * LLC. Start here: http://www.zerotier.com/ */ #ifdef USE_GNU_SOURCE #define _GNU_SOURCE #endif /* Name used in err msgs */ char *progname = ""; #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* For NPs */ #include #include #include /* for mmap */ #include #ifdef USE_SOCKS_DNS #include #endif #include "intercept.h" #include "common.h" /* Global Declarations */ #ifdef USE_SOCKS_DNS static int (*realresinit)(void); #endif static int (*realconnect)(CONNECT_SIG); static int (*realselect)(SELECT_SIG); static int (*realpoll)(POLL_SIG); static int (*realbind)(BIND_SIG); static int (*realaccept)(ACCEPT_SIG); static int (*reallisten)(LISTEN_SIG); static int (*realsocket)(SOCKET_SIG); static int (*realsetsockopt)(SETSOCKOPT_SIG); static int (*realgetsockopt)(GETSOCKOPT_SIG); static int (*realaccept4)(ACCEPT4_SIG); /* Exported Function Prototypes */ void my_init(void); int connect(CONNECT_SIG); int select(SELECT_SIG); int poll(POLL_SIG); int close(CLOSE_SIG); int bind(BIND_SIG); int accept(ACCEPT_SIG); int listen(LISTEN_SIG); int socket(SOCKET_SIG); int setsockopt(SETSOCKOPT_SIG); int getsockopt(GETSOCKOPT_SIG); int accept4(ACCEPT4_SIG); #ifdef USE_SOCKS_DNS int res_init(void); #endif int connect_to_service(void); int init_service_connection(); void dwr(const char *fmt, ...); void load_symbols(void); void set_up_intercept(); int checkpid(); /* defined in unistd.h, but we don't include it because it conflicts with our overriden symbols for read/write */ #define STDIN_FILENO 0 #define STDOUT_FILENO 1 #define STDERR_FILENO 2 #define BUF_SZ 1024 #define SERVICE_CONNECT_ATTEMPTS 30 ssize_t sock_fd_read(int sock, void *buf, ssize_t bufsize, int *fd); /* threading */ pthread_mutex_t lock; pthread_mutex_t loglock; /*------------------------------------------------------------------------------ ------------------- Intercept<--->Service Comm mechanisms----------------------- ------------------------------------------------------------------------------*/ static int is_initialized = 0; static int fdret_sock; // used for fd-transfers static int newfd; // used for "this_end" socket static char* af_sock_name = "/tmp/.ztnc_e5cd7a9e1c5311ab"; static int thispid; int checkpid() { if(thispid != getpid()) { printf("clone/fork detected. re-initializing this instance.\n"); set_up_intercept(); fdret_sock = init_service_connection(); thispid = getpid(); } return 0; } #define SLEEP_TIME 0 /*------------------------------------------------------------------------------ ---------- Unix-domain socket lazy initializer (for fd-transfers)-------------- ------------------------------------------------------------------------------*/ /* Sets up the connection pipes and sockets to the service */ int init_service_connection() { usleep(SLEEP_TIME); if(!is_initialized) { struct sockaddr_un addr; int tfd = -1; memset(&addr, 0, sizeof(addr)); addr.sun_family = AF_UNIX; strncpy(addr.sun_path, af_sock_name, sizeof(addr.sun_path)-1); int attempts = 0; int conn_err = -1; if ( (tfd = realsocket(AF_UNIX, SOCK_STREAM, 0)) == -1) { perror("socket error"); exit(-1); } while(conn_err < 0 && attempts < SERVICE_CONNECT_ATTEMPTS) { dwr("trying connection (%d): %s\n", tfd, af_sock_name); conn_err = realconnect(tfd, (struct sockaddr*)&addr, sizeof(addr)); if(conn_err < 0) { dwr("re-attempting connection in %ds\n", 1+attempts); sleep(1); } else { dwr("AF_UNIX connection established: %d\n", tfd); is_initialized = 1; return tfd; } attempts++; } } return -1; } /*------------------------------------------------------------------------------ ------------------------ ctors and dtors (and friends)------------------------- ------------------------------------------------------------------------------*/ void my_dest(void) __attribute__ ((destructor)); void my_dest(void) { dwr("closing connections to service...\n"); close(fdret_sock); pthread_mutex_destroy(&lock); } void load_symbols(void) { #ifdef USE_OLD_DLSYM void *lib; #endif /* possibly add check to beginning of each method to avoid needing to cll the constructor */ if(thispid == getpid()) { dwr("detected duplicate call to global ctor (pid=%d).\n", thispid); } dwr(" -- pid = %d\n", getpid()); dwr(" -- uid = %d\n", getuid()); thispid = getpid(); #ifndef USE_OLD_DLSYM realconnect = dlsym(RTLD_NEXT, "connect"); realbind = dlsym(RTLD_NEXT, "bind"); realaccept = dlsym(RTLD_NEXT, "accept"); reallisten = dlsym(RTLD_NEXT, "listen"); realsocket = dlsym(RTLD_NEXT, "socket"); realbind = dlsym(RTLD_NEXT, "bind"); realpoll = dlsym(RTLD_NEXT, "poll"); realselect = dlsym(RTLD_NEXT, "select"); realsetsockopt = dlsym(RTLD_NEXT, "setsockopt"); realgetsockopt = dlsym(RTLD_NEXT, "getsockopt"); realaccept4 = dlsym(RTLD_NEXT, "accept4"); #ifdef USE_SOCKS_DNS realresinit = dlsym(RTLD_NEXT, "res_init"); #endif #else lib = dlopen(LIBCONNECT, RTLD_LAZY); realconnect = dlsym(lib, "connect"); realbind = dlsym(lib, "bind"); realaccept = dlsym(lib, "accept"); reallisten = dlsym(lib, "listen"); realsocket = dlsym(lib, "socket"); realpoll = dlsym(lib, "poll"); realselect = dlsym(lib, "select"); realsetsockopt = dlsym(lib, "setsockopt"); realgetsockopt = dlsym(lib, "getsockopt"); realaccept4 = dlsym(lib), "accept4"); #ifdef USE_SOCKS_DNS realresinit = dlsym(lib, "res_init"); #endif dlclose(lib); lib = dlopen(LIBC, RTLD_LAZY); dlclose(lib); #endif } /* Private Function Prototypes */ void _init(void) __attribute__ ((constructor)); void _init(void) { set_up_intercept(); } /* get symbols and initialize mutexes */ void set_up_intercept() { load_symbols(); if(pthread_mutex_init(&lock, NULL) != 0) { printf("error while initializing service call mutex\n"); } if(pthread_mutex_init(&loglock, NULL) != 0) { printf("error while initializing log mutex mutex\n"); } } /*------------------------------------------------------------------------------ ------------------------- ioctl(), fcntl(), setsockopt()------------------------ ------------------------------------------------------------------------------*/ char *cmd_to_str(int cmd) { switch(cmd) { case F_DUPFD: return "F_DUPFD"; case F_GETFD: return "F_GETFD"; case F_SETFD: return "F_SETFD"; case F_GETFL: return "F_GETFL"; case F_SETFL: return "F_SETFL"; case F_GETLK: return "F_GETLK"; case F_SETLK: return "F_SETLK"; case F_SETLKW: return "F_SETLKW"; default: return "?"; } return "?"; } void arg_to_str(int arg) { if(arg & O_RDONLY) dwr("O_RDONLY "); if(arg & O_WRONLY) dwr("O_WRONLY "); if(arg & O_RDWR) dwr("O_RDWR "); if(arg & O_CREAT) dwr("O_CREAT "); if(arg & O_EXCL) dwr("O_EXCL "); if(arg & O_NOCTTY) dwr("O_NOCTTY "); if(arg & O_TRUNC) dwr("O_TRUNC "); if(arg & O_APPEND) dwr("O_APPEND "); if(arg & O_ASYNC) dwr("O_ASYNC "); if(arg & O_DIRECT) dwr("O_DIRECT "); if(arg & O_NOATIME) dwr("O_NOATIME "); if(arg & O_NONBLOCK) dwr("O_NONBLOCK "); if(arg & O_DSYNC) dwr("O_DSYNC "); if(arg & O_SYNC) dwr("O_SYNC "); } char* level_to_str(int level) { switch(level) { case SOL_SOCKET: return "SOL_SOCKET"; case IPPROTO_TCP: return "IPPROTO_TCP"; default: return "?"; } return "?"; } char* option_name_to_str(int opt) { if(opt == SO_DEBUG) return "SO_DEBUG"; if(opt == SO_BROADCAST) return "SO_BROADCAST"; if(opt == SO_BINDTODEVICE) return "SO_BINDTODEVICE"; if(opt == SO_REUSEADDR) return "SO_REUSEADDR"; if(opt == SO_KEEPALIVE) return "SO_KEEPALIVE"; if(opt == SO_LINGER) return "SO_LINGER"; if(opt == SO_OOBINLINE) return "SO_OOBINLINE"; if(opt == SO_SNDBUF) return "SO_SNDBUF"; if(opt == SO_RCVBUF) return "SO_RCVBUF"; if(opt == SO_DONTROUTE) return "SO_DONTROUTEO_ASYNC"; if(opt == SO_RCVLOWAT) return "SO_RCVLOWAT"; if(opt == SO_RCVTIMEO) return "SO_RCVTIMEO"; if(opt == SO_SNDLOWAT) return "SO_SNDLOWAT"; if(opt == SO_SNDTIMEO)return "SO_SNDTIMEO"; return "?"; } /*------------------------------------------------------------------------------ --------------------------------- setsockopt() --------------------------------- ------------------------------------------------------------------------------*/ /* int socket, int level, int option_name, const void *option_value, socklen_t option_len */ int setsockopt(SETSOCKOPT_SIG) { #ifdef DUMMY dwr("setsockopt(%d)\n", socket); return realsetsockopt(socket, level, option_name, option_value, option_len); #else /* make sure we don't touch any standard outputs */ if(socket == STDIN_FILENO || socket == STDOUT_FILENO || socket == STDERR_FILENO) return(realsetsockopt(socket, level, option_name, option_value, option_len)); int err = realsetsockopt(socket, level, option_name, option_value, option_len); if(err < 0){ //perror("setsockopt():\n"); } return 0; #endif } /*------------------------------------------------------------------------------ --------------------------------- getsockopt() --------------------------------- ------------------------------------------------------------------------------*/ /* int sockfd, int level, int optname, void *optval, socklen_t *optlen */ int getsockopt(GETSOCKOPT_SIG) { #ifdef DUMMY dwr("getsockopt(%d)\n", sockfd); return realgetsockopt(sockfd, level, optname, optval, optlen); #else // make sure we don't touch any standard outputs int err = realgetsockopt(sockfd, level, optname, optval, optlen); // FIXME: this condition will need a little more intelligence later on // -- we will need to know if this fd is a local we are spoofing, or a true local if(optname == SO_TYPE) { int* val = (int*)optval; *val = 2; optval = (void*)val; } if(err < 0){ //perror("setsockopt():\n"); } return 0; #endif } /*------------------------------------------------------------------------------ ---------------------------------- shutdown() ---------------------------------- ------------------------------------------------------------------------------*/ void shutdown_arg_to_str(int arg) { if(arg & O_RDONLY) dwr("O_RDONLY "); if(arg & O_WRONLY) dwr("O_WRONLY "); if(arg & O_RDWR) dwr("O_RDWR "); if(arg & O_CREAT) dwr("O_CREAT "); if(arg & O_EXCL) dwr("O_EXCL "); if(arg & O_NOCTTY) dwr("O_NOCTTY "); if(arg & O_TRUNC) dwr("O_TRUNC "); if(arg & O_APPEND) dwr("O_APPEND "); if(arg & O_ASYNC) dwr("O_ASYNC "); if(arg & O_DIRECT) dwr("O_DIRECT "); if(arg & O_NOATIME) dwr("O_NOATIME "); if(arg & O_NONBLOCK) dwr("O_NONBLOCK "); if(arg & O_DSYNC) dwr("O_DSYNC "); if(arg & O_SYNC) dwr("O_SYNC "); } /*------------------------------------------------------------------------------ ----------------------------------- socket() ----------------------------------- ------------------------------------------------------------------------------*/ void sock_type_to_str(int arg) { if(arg == SOCK_STREAM) printf("SOCK_STREAM "); if(arg == SOCK_DGRAM) printf("SOCK_DGRAM "); if(arg == SOCK_SEQPACKET) printf("SOCK_SEQPACKET "); if(arg == SOCK_RAW) printf("SOCK_RAW "); if(arg == SOCK_RDM) printf("SOCK_RDM "); if(arg == SOCK_PACKET) printf("SOCK_PACKET "); if(arg & SOCK_NONBLOCK) printf("| SOCK_NONBLOCK "); if(arg & SOCK_CLOEXEC) printf("| SOCK_CLOEXEC "); } void sock_domain_to_str(int domain) { if(domain == AF_UNIX) printf("AF_UNIX "); if(domain == AF_LOCAL) printf("AF_LOCAL "); if(domain == AF_INET) printf("AF_INET "); if(domain == AF_INET6) printf("AF_INET6 "); if(domain == AF_IPX) printf("AF_IPX "); if(domain == AF_NETLINK) printf("AF_NETLINK "); if(domain == AF_X25) printf("AF_X25 "); if(domain == AF_AX25) printf("AF_AX25 "); if(domain == AF_ATMPVC) printf("AF_ATMPVC "); if(domain == AF_APPLETALK) printf("AF_APPLETALK "); if(domain == AF_PACKET) printf("AF_PACKET "); } /* int socket_family, int socket_type, int protocol socket() intercept function */ int socket(SOCKET_SIG) { #ifdef DUMMY dwr("socket(fam=%d, type=%d, prot=%d)\n", socket_family, socket_type, protocol); //usleep(DUMMY_WAIT); return realsocket(socket_family, socket_type, protocol); #else char cmd[BUF_SZ]; fdret_sock = !is_initialized ? init_service_connection() : fdret_sock; if(socket_family == AF_LOCAL || socket_family == AF_NETLINK || socket_family == AF_UNIX) { int err = realsocket(socket_family, socket_type, protocol); return err; } /* Assemble and route command */ struct socket_st rpc_st; rpc_st.socket_family = socket_family; rpc_st.socket_type = socket_type; rpc_st.protocol = protocol; rpc_st.__tid = syscall(SYS_gettid); memset(cmd, '\0', BUF_SZ); cmd[0] = RPC_SOCKET; memcpy(&cmd[1], &rpc_st, sizeof(struct socket_st)); pthread_mutex_lock(&lock); write(fdret_sock,cmd, BUF_SZ); /* get new fd */ char gmybuf[16]; ssize_t size = sock_fd_read(fdret_sock, gmybuf, sizeof(gmybuf), &newfd); if(size > 0) { dwr("socket(): RXed FD = %d\n", newfd); /* send our local-fd number back to service so it can complete its mapping table entry */ memset(cmd, '\0', BUF_SZ); cmd[0] = RPC_FD_MAP_COMPLETION; memcpy(&cmd[1], &newfd, sizeof(newfd)); write(fdret_sock, cmd, BUF_SZ); pthread_mutex_unlock(&lock); return newfd; } else { dwr("Error while receiving new FD.\n"); pthread_mutex_unlock(&lock); return -1; } return realsocket(socket_family, socket_type, protocol); #endif } /*------------------------------------------------------------------------------ ---------------------------------- connect() ----------------------------------- ------------------------------------------------------------------------------*/ /* int __fd, const struct sockaddr * __addr, socklen_t __len connect() intercept function */ int connect(CONNECT_SIG) { #ifdef DUMMY dwr("connect(%d)\n", __fd); return realconnect(__fd, __addr, __len); #else /* make sure we don't touch any standard outputs */ if(__fd == STDIN_FILENO || __fd == STDOUT_FILENO || __fd == STDERR_FILENO) return(realconnect(__fd, __addr, __len)); int sock_type = -1; socklen_t sock_type_len = sizeof(sock_type); struct sockaddr_in *connaddr; connaddr = (struct sockaddr_in *) __addr; getsockopt(__fd, SOL_SOCKET, SO_TYPE, (void *) &sock_type, &sock_type_len); if(__addr != NULL && (connaddr->sin_family == AF_LOCAL || connaddr->sin_family == PF_NETLINK || connaddr->sin_family == AF_NETLINK || connaddr->sin_family == AF_UNIX)) { int err = realconnect(__fd, __addr, __len); return err; } char cmd[BUF_SZ]; if (realconnect == NULL) { dwr("Unresolved symbol: connect()\n"); return -1; } /* assemble and route command */ memset(cmd, '\0', BUF_SZ); struct connect_st rpc_st; rpc_st.__tid = syscall(SYS_gettid); rpc_st.__fd = __fd; memcpy(&rpc_st.__addr, __addr, sizeof(struct sockaddr)); memcpy(&rpc_st.__len, &__len, sizeof(socklen_t)); cmd[0] = RPC_CONNECT; memcpy(&cmd[1], &rpc_st, sizeof(struct connect_st)); pthread_mutex_lock(&lock); write(fdret_sock,cmd, BUF_SZ); if(fdret_sock >= 0) { int retval; char mynewbuf[BUF_SZ]; memset(&mynewbuf, '\0', sizeof(mynewbuf)); int n_read = read(fdret_sock, &mynewbuf, sizeof(mynewbuf)); if(n_read > 0) { memcpy(&retval, &mynewbuf[1], sizeof(int)); pthread_mutex_unlock(&lock); return retval; } else { pthread_mutex_unlock(&lock); dwr("unable to read connect: return value\n"); } } return -1; #endif } /*------------------------------------------------------------------------------ ---------------------------------- select() ------------------------------------ ------------------------------------------------------------------------------*/ /* int n, fd_set *readfds, fd_set *writefds, fd_set *exceptfds, struct timeval *timeout */ int select(SELECT_SIG) { #ifdef DUMMY dwr("select(n=%d, , , , )\n", n); return realselect(n, readfds, writefds, exceptfds, timeout); #else return realselect(n, readfds, writefds, exceptfds, timeout); #endif } /*------------------------------------------------------------------------------ ----------------------------------- poll() ------------------------------------- ------------------------------------------------------------------------------*/ /* struct pollfd *__fds, nfds_t __nfds, int __timeout */ int poll(POLL_SIG) { #ifdef DUMMY dwr("poll(, nfds=%d, timeout=%d)\n", __fds, __timeout); return realpoll(__fds, __nfds, __timeout); #else return realpoll(__fds, __nfds, __timeout); #endif } /*------------------------------------------------------------------------------ ------------------------------------ bind() ------------------------------------ ------------------------------------------------------------------------------*/ /* int sockfd, const struct sockaddr *addr, socklen_t addrlen bind() intercept function */ int bind(BIND_SIG) { #ifdef DUMMY dwr("bind(%d)\n", sockfd); return realbind(sockfd, addr, addrlen); #else /* make sure we don't touch any standard outputs */ if(sockfd == STDIN_FILENO || sockfd == STDOUT_FILENO || sockfd == STDERR_FILENO) return(realbind(sockfd, addr, addrlen)); int sock_type = -1; socklen_t sock_type_len = sizeof(sock_type); struct sockaddr_in *connaddr; connaddr = (struct sockaddr_in *) addr; getsockopt(sockfd, SOL_SOCKET, SO_TYPE, (void *) &sock_type, &sock_type_len); if (addr != NULL && (connaddr->sin_family == AF_LOCAL || connaddr->sin_family == PF_NETLINK || connaddr->sin_family == AF_NETLINK || connaddr->sin_family == AF_UNIX)) { return(realbind(sockfd, addr, addrlen)); } char cmd[BUF_SZ]; if(realbind == NULL) { dwr("Unresolved symbol: bind()\n"); return -1; } /* Assemble and route command */ struct bind_st rpc_st; rpc_st.sockfd = sockfd; rpc_st.__tid = syscall(SYS_gettid); memcpy(&rpc_st.addr, addr, sizeof(struct sockaddr)); memcpy(&rpc_st.addrlen, &addrlen, sizeof(socklen_t)); cmd[0]=RPC_BIND; memcpy(&cmd[1], &rpc_st, sizeof(struct bind_st)); pthread_mutex_lock(&lock); write(fdret_sock, cmd, BUF_SZ); pthread_mutex_unlock(&lock); /* If we successfully wrote the RPC, try to read a return value - Also get errno value */ if(fdret_sock >= 0) { int retval; int _errno; char mynewbuf[BUF_SZ]; memset(&mynewbuf, '\0', sizeof(mynewbuf)); int n_read = read(fdret_sock, &mynewbuf, sizeof(mynewbuf)); if(n_read > 0) { memcpy(&retval, &mynewbuf[1], sizeof(retval)); memcpy(&_errno, &mynewbuf[1]+sizeof(retval), sizeof(_errno)); dwr("errno = %d\n", _errno); errno = _errno; pthread_mutex_unlock(&lock); return retval; } else { pthread_mutex_unlock(&lock); dwr("unable to read connect: return value\n"); } } return 0; /* FIXME: get real return value */ #endif } /*------------------------------------------------------------------------------ ----------------------------------- accept4() ---------------------------------- ------------------------------------------------------------------------------*/ /* int sockfd, struct sockaddr *addr, socklen_t *addrlen, int flags */ int accept4(ACCEPT4_SIG) { #ifdef DUMMY dwr("accept4(%d)\n", sockfd); return accept(sockfd, addr, addrlen); #else return accept(sockfd, addr, addrlen); #endif } /*------------------------------------------------------------------------------ ----------------------------------- accept() ----------------------------------- ------------------------------------------------------------------------------*/ /* int sockfd struct sockaddr *addr, socklen_t *addrlen accept() intercept function */ int accept(ACCEPT_SIG) { #ifdef DUMMY return realaccept(sockfd, addr, addrlen); #else /* make sure we don't touch any standard outputs */ if(sockfd == STDIN_FILENO || sockfd == STDOUT_FILENO || sockfd == STDERR_FILENO) return(realaccept(sockfd, addr, addrlen)); int sock_type = -1; socklen_t sock_type_len = sizeof(sock_type); getsockopt(sockfd, SOL_SOCKET, SO_TYPE, (void *) &sock_type, &sock_type_len); addr->sa_family = AF_INET; /* TODO: also get address info */ char cmd[BUF_SZ]; if(realaccept == NULL) { dwr( "Unresolved symbol: accept()\n"); return -1; } char gmybuf[16]; int new_conn_socket; char c[1]; int n = read(sockfd, c, sizeof(c)); if(n > 0) { ssize_t size = sock_fd_read(fdret_sock, gmybuf, sizeof(gmybuf), &new_conn_socket); if(size > 0) { dwr("accept(): RXed FD = %d\n", new_conn_socket); /* Send our local-fd number back to service so it can complete its mapping table */ memset(cmd, '\0', BUF_SZ); cmd[0] = RPC_FD_MAP_COMPLETION; memcpy(&cmd[1], &new_conn_socket, sizeof(new_conn_socket)); pthread_mutex_lock(&lock); write(fdret_sock, cmd, BUF_SZ); pthread_mutex_unlock(&lock); return new_conn_socket; } else { dwr("Error while receiving new FD.\n"); return -1; } } errno = EWOULDBLOCK; return -1; /* TODO/FIXME: Set errno */ #endif } /*------------------------------------------------------------------------------ ------------------------------------- listen()---------------------------------- ------------------------------------------------------------------------------*/ /* int sockfd, int backlog listen() intercept function */ int listen(LISTEN_SIG) { #ifdef DUMMY dwr("listen(%d)\n", sockfd); return reallisten(sockfd, backlog); #else /* make sure we don't touch any standard outputs */ if(sockfd == STDIN_FILENO || sockfd == STDOUT_FILENO || sockfd == STDERR_FILENO) return(reallisten(sockfd, backlog)); char cmd[BUF_SZ]; dwr("listen(%d)\n", sockfd); /* Assemble and route command */ memset(cmd, '\0', BUF_SZ); struct listen_st rpc_st; rpc_st.sockfd = sockfd; rpc_st.backlog = backlog; rpc_st.__tid = syscall(SYS_gettid); cmd[0] = RPC_LISTEN; memcpy(&cmd[1], &rpc_st, sizeof(struct listen_st)); pthread_mutex_lock(&lock); write(fdret_sock,cmd, BUF_SZ); pthread_mutex_unlock(&lock); return 0; /* FIXME: get real return value (should be 0 / -1) */ /* FIXME: Also set errno */ #endif }