/** * (C) 2007-20 - ntop.org and contributors * * 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 see * */ #include "n2n.h" /* *************************************************** */ /** maximum length of command line arguments */ #define MAX_CMDLINE_BUFFER_LENGTH 4096 /** maximum length of a line in the configuration file */ #define MAX_CONFFILE_LINE_LENGTH 1024 /* ***************************************************** */ #ifdef HAVE_LIBCAP #include #include static cap_value_t cap_values[] = { //CAP_NET_RAW, /* Use RAW and PACKET sockets */ CAP_NET_ADMIN /* Needed to performs routes cleanup at exit */ }; int num_cap = sizeof(cap_values)/sizeof(cap_value_t); #endif /* ***************************************************** */ /** Find the address and IP mode for the tuntap device. * * s is one of these forms: * * := | A.B.C.D * * | static: | dhcp: * * If the mode is present (colon required) then fill ip_mode with that value * otherwise do not change ip_mode. Fill ip_mode with everything after the * colon if it is present; or s if colon is not present. * * ip_add and ip_mode are NULL terminated if modified. * * return 0 on success and -1 on error */ static int scan_address(char * ip_addr, size_t addr_size, char * ip_mode, size_t mode_size, const char * s) { int retval = -1; char * p; if((NULL == s) || (NULL == ip_addr)) { return -1; } memset(ip_addr, 0, addr_size); p = strpbrk(s, ":"); if(p) { /* colon is present */ if(ip_mode) { size_t end=0; memset(ip_mode, 0, mode_size); end = MIN(p-s, (ssize_t)(mode_size-1)); /* ensure NULL term */ strncpy(ip_mode, s, end); strncpy(ip_addr, p+1, addr_size-1); /* ensure NULL term */ retval = 0; } } else { /* colon is not present */ strncpy(ip_addr, s, addr_size-1); ip_addr[addr_size-1] = '\0'; } return retval; } /* *************************************************** */ static void help() { print_n2n_version(); printf("edge (see edge.conf)\n" "or\n" ); printf("edge " #if defined(N2N_CAN_NAME_IFACE) "-d " #endif /* #if defined(N2N_CAN_NAME_IFACE) */ "-a [static:|dhcp:] " "-c " "[-k ]\n" " " "[-s ] " #ifndef WIN32 "[-u -g ]" #endif /* #ifndef WIN32 */ #ifndef WIN32 "[-f]" #endif /* #ifndef WIN32 */ #ifdef __linux__ "[-T ]" #endif "[-n cidr:gateway] " "[-m ] " "-l \n" " " "[-p ] [-M ] " #ifndef __APPLE__ "[-D] " #endif "[-r] [-E] [-v] [-i ] [-L ] [-t ] [-A[]] [-H] [-z[]] [-h]\n\n"); #if defined(N2N_CAN_NAME_IFACE) printf("-d | tun device name\n"); #endif printf("-a | Set interface address. For DHCP use '-r -a dhcp:0.0.0.0'\n"); printf("-c | n2n community name the edge belongs to.\n"); printf("-k | Encryption key (ASCII) - also N2N_KEY=.\n"); printf("-s | Edge interface netmask in dotted decimal notation (255.255.255.0).\n"); printf("-l | Supernode IP:port\n"); printf("-i | Registration interval, for NAT hole punching (default 20 seconds)\n"); printf("-L | TTL for registration packet when UDP NAT hole punching through supernode (default 0 for not set )\n"); printf("-p | Fixed local UDP port.\n"); #ifndef WIN32 printf("-u | User ID (numeric) to use when privileges are dropped.\n"); printf("-g | Group ID (numeric) to use when privileges are dropped.\n"); #endif /* ifndef WIN32 */ #ifndef WIN32 printf("-f | Do not fork and run as a daemon; rather run in foreground.\n"); #endif /* #ifndef WIN32 */ printf("-m | Fix MAC address for the TAP interface (otherwise it may be random)\n" " | eg. -m 01:02:03:04:05:06\n"); printf("-M | Specify n2n MTU of edge interface (default %d).\n", DEFAULT_MTU); #ifndef __APPLE__ printf("-D | Enable PMTU discovery. PMTU discovery can reduce fragmentation but\n" " | causes connections stall when not properly supported.\n"); #endif printf("-r | Enable packet forwarding through n2n community.\n"); printf("-A1 | Disable payload encryption. Do not use with key (defaulting to Twofish then).\n"); printf("-A2 ... -A5 or -A | Choose a cipher for payload encryption, requires a key: -A2 = Twofish (default),\n"); printf(" | " #ifdef N2N_HAVE_AES "-A3 or -A (deprecated) = AES-CBC, " #endif #ifdef HAVE_OPENSSL_1_1 "-A4 = ChaCha20, " #endif "-A5 = Speck-CTR.\n"); printf("-H | Enable full header encryption. Requires supernode with fixed community.\n"); printf("-z1 ... -z2 or -z | Enable compression for outgoing data packets: -z1 or -z = lzo1x" #ifdef N2N_HAVE_ZSTD ", -z2 = zstd" #endif " (default=disabled).\n"); printf("-E | Accept multicast MAC addresses (default=drop).\n"); printf("-S | Do not connect P2P. Always use the supernode.\n"); #ifdef __linux__ printf("-T | TOS for packets (e.g. 0x48 for SSH like priority)\n"); #endif printf("-n | Route an IPv4 network via the gw. Use 0.0.0.0/0 for the default gw. Can be set multiple times.\n"); printf("-v | Make more verbose. Repeat as required.\n"); printf("-t | Management UDP Port (for multiple edges on a machine).\n"); printf("\nEnvironment variables:\n"); printf(" N2N_KEY | Encryption key (ASCII). Not with -k.\n"); #ifdef WIN32 printf("\nAvailable TAP adapters:\n"); win_print_available_adapters(); #endif exit(0); } /* *************************************************** */ static void setPayloadCompression(n2n_edge_conf_t *conf, int compression) { /* even though 'compression' and 'conf->compression' share the same encoding scheme, * a switch-statement under conditional compilation is used to sort out the * unsupported optarguments */ switch (compression) { case 1: { conf->compression = N2N_COMPRESSION_ID_LZO; break; } #ifdef N2N_HAVE_ZSTD case 2: { conf->compression = N2N_COMPRESSION_ID_ZSTD; break; } #endif default: { conf->compression = N2N_COMPRESSION_ID_NONE; traceEvent(TRACE_NORMAL, "the %s compression given by -z_ option is not supported in this version.", compression_str(compression)); exit(1); // to make the user aware } } } /* *************************************************** */ static void setPayloadEncryption( n2n_edge_conf_t *conf, int cipher) { /* even though 'cipher' and 'conf->transop_id' share the same encoding scheme, * a switch-statement under conditional compilation is used to sort out the * unsupported ciphers */ switch (cipher) { case 1: { conf->transop_id = N2N_TRANSFORM_ID_NULL; break; } case 2: { conf->transop_id = N2N_TRANSFORM_ID_TWOFISH; break; } #ifdef N2N_HAVE_AES case 3: { conf->transop_id = N2N_TRANSFORM_ID_AESCBC; break; } #endif #ifdef HAVE_OPENSSL_1_1 case 4: { conf->transop_id = N2N_TRANSFORM_ID_CHACHA20; break; } #endif case 5: { conf->transop_id = N2N_TRANSFORM_ID_SPECK; break; } default: { conf->transop_id = N2N_TRANSFORM_ID_INVAL; traceEvent(TRACE_NORMAL, "the %s cipher given by -A_ option is not supported in this version.", transop_str(cipher)); exit(1); } } } /* *************************************************** */ static int setOption(int optkey, char *optargument, n2n_tuntap_priv_config_t *ec, n2n_edge_conf_t *conf) { /* traceEvent(TRACE_NORMAL, "Option %c = %s", optkey, optargument ? optargument : ""); */ switch(optkey) { case 'a': /* IP address and mode of TUNTAP interface */ { scan_address(ec->ip_addr, N2N_NETMASK_STR_SIZE, ec->ip_mode, N2N_IF_MODE_SIZE, optargument); break; } case 'c': /* community as a string */ { memset(conf->community_name, 0, N2N_COMMUNITY_SIZE); strncpy((char *)conf->community_name, optargument, N2N_COMMUNITY_SIZE); conf->community_name[N2N_COMMUNITY_SIZE-1] = '\0'; break; } case 'E': /* multicast ethernet addresses accepted. */ { conf->drop_multicast=0; traceEvent(TRACE_DEBUG, "Enabling ethernet multicast traffic"); break; } #ifndef WIN32 case 'u': /* unprivileged uid */ { ec->userid = atoi(optargument); break; } case 'g': /* unprivileged uid */ { ec->groupid = atoi(optargument); break; } #endif #ifndef WIN32 case 'f' : /* do not fork as daemon */ { ec->daemon=0; break; } #endif /* #ifndef WIN32 */ case 'm' : /* TUNTAP MAC address */ { strncpy(ec->device_mac,optargument,N2N_MACNAMSIZ); ec->device_mac[N2N_MACNAMSIZ-1] = '\0'; break; } case 'M' : /* TUNTAP MTU */ { ec->mtu = atoi(optargument); break; } #ifndef __APPLE__ case 'D' : /* enable PMTU discovery */ { conf->disable_pmtu_discovery = 0; break; } #endif case 'k': /* encrypt key */ { if(conf->encrypt_key) free(conf->encrypt_key); conf->encrypt_key = strdup(optargument); traceEvent(TRACE_DEBUG, "encrypt_key = '%s'\n", conf->encrypt_key); break; } case 'r': /* enable packet routing across n2n endpoints */ { conf->allow_routing = 1; break; } case 'A': { int cipher; if (optargument) { cipher = atoi(optargument); } else { traceEvent(TRACE_NORMAL, "the use of the solitary -A switch is deprecated and might not be supported in future versions. " "please use -A3 instead to choose a the AES-CBC cipher for payload encryption."); cipher = N2N_TRANSFORM_ID_AESCBC; // default, if '-A' only } setPayloadEncryption(conf, cipher); break; } case 'H': /* indicate header encryption */ { /* we cannot be sure if this gets parsed before the community name is set. * so, only an indicator is set, action is taken later*/ conf->header_encryption = HEADER_ENCRYPTION_ENABLED; break; } case 'z': { int compression; if (optargument) { compression = atoi(optargument); } else compression = 1; // default, if '-z' only, equals -z1 setPayloadCompression(conf, compression); break; } case 'l': /* supernode-list */ if(optargument) { if(edge_conf_add_supernode(conf, optargument) != 0) { traceEvent(TRACE_WARNING, "Too many supernodes!"); exit(1); } break; } case 'i': /* supernode registration interval */ conf->register_interval = atoi(optargument); break; case 'L': /* supernode registration interval */ conf->register_ttl = atoi(optarg); break; #if defined(N2N_CAN_NAME_IFACE) case 'd': /* TUNTAP name */ { strncpy(ec->tuntap_dev_name, optargument, N2N_IFNAMSIZ); ec->tuntap_dev_name[N2N_IFNAMSIZ-1] = '\0'; break; } #endif case 'p': { conf->local_port = atoi(optargument); break; } case 't': { conf->mgmt_port = atoi(optargument); break; } #ifdef __linux__ case 'T': { if((optargument[0] == '0') && (optargument[1] == 'x')) conf->tos = strtol(&optargument[2], NULL, 16); else conf->tos = atoi(optargument); break; } #endif case 'n': { char cidr_net[64], gateway[64]; n2n_route_t route; if(sscanf(optargument, "%63[^/]/%hhd:%63s", cidr_net, &route.net_bitlen, gateway) != 3) { traceEvent(TRACE_WARNING, "Bad cidr/gateway format '%d'. See -h.", optargument); break; } route.net_addr = inet_addr(cidr_net); route.gateway = inet_addr(gateway); if((route.net_bitlen < 0) || (route.net_bitlen > 32)) { traceEvent(TRACE_WARNING, "Bad prefix '%d' in '%s'", route.net_bitlen, optargument); break; } if(route.net_addr == INADDR_NONE) { traceEvent(TRACE_WARNING, "Bad network '%s' in '%s'", cidr_net, optargument); break; } if(route.gateway == INADDR_NONE) { traceEvent(TRACE_WARNING, "Bad gateway '%s' in '%s'", gateway, optargument); break; } traceEvent(TRACE_DEBUG, "Adding %s/%d via %s", cidr_net, route.net_bitlen, gateway); conf->routes = realloc(conf->routes, sizeof(struct n2n_route) * (conf->num_routes + 1)); conf->routes[conf->num_routes] = route; conf->num_routes++; break; } case 's': /* Subnet Mask */ { if(0 != ec->got_s) { traceEvent(TRACE_WARNING, "Multiple subnet masks supplied"); } strncpy(ec->netmask, optargument, N2N_NETMASK_STR_SIZE); ec->netmask[N2N_NETMASK_STR_SIZE - 1] = '\0'; ec->got_s = 1; break; } case 'S': { conf->allow_p2p = 0; break; } case 'h': /* help */ { help(); break; } case 'v': /* verbose */ setTraceLevel(getTraceLevel() + 1); break; default: { traceEvent(TRACE_WARNING, "Unknown option -%c: Ignored", (char)optkey); return(-1); } } return(0); } /* *********************************************** */ static const struct option long_options[] = { { "community", required_argument, NULL, 'c' }, { "supernode-list", required_argument, NULL, 'l' }, { "tun-device", required_argument, NULL, 'd' }, { "euid", required_argument, NULL, 'u' }, { "egid", required_argument, NULL, 'g' }, { "help" , no_argument, NULL, 'h' }, { "verbose", no_argument, NULL, 'v' }, { NULL, 0, NULL, 0 } }; /* *************************************************** */ /* read command line options */ static int loadFromCLI(int argc, char *argv[], n2n_edge_conf_t *conf, n2n_tuntap_priv_config_t *ec) { u_char c; while ((c = getopt_long(argc, argv, "k:a:bc:Eu:g:m:M:s:d:l:p:fvhrt:i:SDL:z::A::Hn:" #ifdef __linux__ "T:" #endif , long_options, NULL)) != '?') { if(c == 255) break; setOption(c, optarg, ec, conf); } return 0; } /* *************************************************** */ static char *trim(char *s) { char *end; while(isspace(s[0]) || (s[0] == '"') || (s[0] == '\'')) s++; if(s[0] == 0) return s; end = &s[strlen(s) - 1]; while(end > s && (isspace(end[0])|| (end[0] == '"') || (end[0] == '\''))) end--; end[1] = 0; return s; } /* *************************************************** */ /* parse the configuration file */ static int loadFromFile(const char *path, n2n_edge_conf_t *conf, n2n_tuntap_priv_config_t *ec) { char buffer[4096], *line, *key, *value; u_int line_len, opt_name_len; FILE *fd; const struct option *opt; fd = fopen(path, "r"); if(fd == NULL) { traceEvent(TRACE_WARNING, "Config file %s not found", path); return -1; } while((line = fgets(buffer, sizeof(buffer), fd)) != NULL) { line = trim(line); value = NULL; if((line_len = strlen(line)) < 2 || line[0] == '#') continue; if(!strncmp(line, "--", 2)) { /* long opt */ key = &line[2], line_len -= 2; opt = long_options; while(opt->name != NULL) { opt_name_len = strlen(opt->name); if(!strncmp(key, opt->name, opt_name_len) && (line_len <= opt_name_len || key[opt_name_len] == '\0' || key[opt_name_len] == ' ' || key[opt_name_len] == '=')) { if(line_len > opt_name_len) key[opt_name_len] = '\0'; if(line_len > opt_name_len + 1) value = trim(&key[opt_name_len + 1]); // traceEvent(TRACE_NORMAL, "long key: %s value: %s", key, value); setOption(opt->val, value, ec, conf); break; } opt++; } } else if(line[0] == '-') { /* short opt */ char *equal; key = &line[1], line_len--; equal = strchr(line, '='); if(equal) { equal[0] = '\0'; value = &equal[1]; if((value[0] == '\0') && (key[1] != '\0')) value = &key[1]; } else { value = NULL; /* Adding an exception for -A_ -z_ which can come without '=' and even without any further data */ if (key[0] == 'z') { if (key[1]) value = &key[1]; key = "z"; } else if (key[0] == 'A') { if (key[1]) value = &key[1]; key = "A"; } } // traceEvent(TRACE_NORMAL, "key: %c value: %s", key[0], value); setOption(key[0], value, ec, conf); } else { traceEvent(TRACE_WARNING, "Skipping unrecognized line: %s", line); continue; } } fclose(fd); return 0; } /* ************************************** */ #if defined(DUMMY_ID_00001) /* Disabled waiting for config option to enable it */ static char gratuitous_arp[] = { 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, /* Dest mac */ 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, /* Src mac */ 0x08, 0x06, /* ARP */ 0x00, 0x01, /* Ethernet */ 0x08, 0x00, /* IP */ 0x06, /* Hw Size */ 0x04, /* Protocol Size */ 0x00, 0x01, /* ARP Request */ 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, /* Src mac */ 0x00, 0x00, 0x00, 0x00, /* Src IP */ 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, /* Target mac */ 0x00, 0x00, 0x00, 0x00 /* Target IP */ }; /* ************************************** */ /** Build a gratuitous ARP packet for a /24 layer 3 (IP) network. */ static int build_gratuitous_arp(char *buffer, uint16_t buffer_len) { if(buffer_len < sizeof(gratuitous_arp)) return(-1); memcpy(buffer, gratuitous_arp, sizeof(gratuitous_arp)); memcpy(&buffer[6], device.mac_addr, 6); memcpy(&buffer[22], device.mac_addr, 6); memcpy(&buffer[28], &device.ip_addr, 4); /* REVISIT: BbMaj7 - use a real netmask here. This is valid only by accident * for /24 IPv4 networks. */ buffer[31] = 0xFF; /* Use a faked broadcast address */ memcpy(&buffer[38], &device.ip_addr, 4); return(sizeof(gratuitous_arp)); } /* ************************************** */ /** Called from update_supernode_reg to periodically send gratuitous ARP * broadcasts. */ static void send_grat_arps(n2n_edge_t * eee,) { char buffer[48]; size_t len; traceEvent(TRACE_NORMAL, "Sending gratuitous ARP..."); len = build_gratuitous_arp(buffer, sizeof(buffer)); send_packet2net(eee, buffer, len); send_packet2net(eee, buffer, len); /* Two is better than one :-) */ } #endif /* #if defined(DUMMY_ID_00001) */ /* ************************************** */ static void daemonize() { #ifndef WIN32 int childpid; traceEvent(TRACE_NORMAL, "Parent process is exiting (this is normal)"); signal(SIGPIPE, SIG_IGN); signal(SIGHUP, SIG_IGN); signal(SIGCHLD, SIG_IGN); signal(SIGQUIT, SIG_IGN); if((childpid = fork()) < 0) traceEvent(TRACE_ERROR, "Occurred while daemonizing (errno=%d)", errno); else { if(!childpid) { /* child */ int rc; //traceEvent(TRACE_NORMAL, "Bye bye: I'm becoming a daemon..."); rc = chdir("/"); if(rc != 0) traceEvent(TRACE_ERROR, "Error while moving to / directory"); setsid(); /* detach from the terminal */ fclose(stdin); fclose(stdout); /* fclose(stderr); */ /* * clear any inherited file mode creation mask */ //umask(0); /* * Use line buffered stdout */ /* setlinebuf (stdout); */ setvbuf(stdout, (char *)NULL, _IOLBF, 0); } else /* father */ exit(0); } #endif } /* *************************************************** */ static int keep_on_running; #if defined(__linux__) || defined(WIN32) #ifdef WIN32 BOOL WINAPI term_handler(DWORD sig) #else static void term_handler(int sig) #endif { static int called = 0; if(called) { traceEvent(TRACE_NORMAL, "Ok I am leaving now"); _exit(0); } else { traceEvent(TRACE_NORMAL, "Shutting down..."); called = 1; } keep_on_running = 0; #ifdef WIN32 return(TRUE); #endif } #endif /* defined(__linux__) || defined(WIN32) */ /* *************************************************** */ /** Entry point to program from kernel. */ int main(int argc, char* argv[]) { int rc; tuntap_dev tuntap; /* a tuntap device */ n2n_edge_t *eee; /* single instance for this program */ n2n_edge_conf_t conf; /* generic N2N edge config */ n2n_tuntap_priv_config_t ec; /* config used for standalone program execution */ #ifndef WIN32 struct passwd *pw = NULL; #endif #ifdef HAVE_LIBCAP cap_t caps; #endif /* Defaults */ edge_init_conf_defaults(&conf); memset(&ec, 0, sizeof(ec)); ec.mtu = DEFAULT_MTU; ec.daemon = 1; /* By default run in daemon mode. */ #ifndef WIN32 if(((pw = getpwnam("n2n")) != NULL) || ((pw = getpwnam("nobody")) != NULL)) { ec.userid = pw->pw_uid; ec.groupid = pw->pw_gid; } #endif #ifdef WIN32 ec.tuntap_dev_name[0] = '\0'; #else snprintf(ec.tuntap_dev_name, sizeof(ec.tuntap_dev_name), "edge0"); #endif snprintf(ec.netmask, sizeof(ec.netmask), "255.255.255.0"); if((argc >= 2) && (argv[1][0] != '-')) { rc = loadFromFile(argv[1], &conf, &ec); if(argc > 2) rc = loadFromCLI(argc, argv, &conf, &ec); } else if(argc > 1) rc = loadFromCLI(argc, argv, &conf, &ec); else #ifdef WIN32 /* Load from current directory */ rc = loadFromFile("edge.conf", &conf, &ec); #else rc = -1; #endif if(conf.transop_id == N2N_TRANSFORM_ID_NULL) { if(conf.encrypt_key) { /* make sure that Twofish is default cipher if key only (and no cipher) is specified */ traceEvent(TRACE_WARNING, "Switching to Twofish as key was provided."); conf.transop_id = N2N_TRANSFORM_ID_TWOFISH; } } if(rc < 0) help(); if(edge_verify_conf(&conf) != 0) help(); traceEvent(TRACE_NORMAL, "Starting n2n edge %s %s", PACKAGE_VERSION, PACKAGE_BUILDDATE); #if defined(HAVE_OPENSSL_1_1) traceEvent(TRACE_NORMAL, "Using %s", OpenSSL_version(0)); #endif traceEvent(TRACE_NORMAL, "Using compression: %s.", compression_str(conf.compression)); traceEvent(TRACE_NORMAL, "Using %s cipher.", transop_str(conf.transop_id)); /* Random seed */ n2n_srand (n2n_seed()); #ifndef WIN32 /* If running suid root then we need to setuid before using the force. */ if(setuid(0) != 0) traceEvent(TRACE_ERROR, "Unable to become root [%u/%s]", errno, strerror(errno)); /* setgid(0); */ #endif if(conf.encrypt_key && !strcmp((char*)conf.community_name, conf.encrypt_key)) traceEvent(TRACE_WARNING, "Community and encryption key must differ, otherwise security will be compromised"); if((eee = edge_init(&conf, &rc)) == NULL) { traceEvent(TRACE_ERROR, "Failed in edge_init"); exit(1); } memcpy(&(eee->tuntap_priv_conf), &ec, sizeof(ec)); if ((0 == strcmp("static", eee->tuntap_priv_conf.ip_mode)) || ((eee->tuntap_priv_conf.ip_mode[0] == '\0') && (eee->tuntap_priv_conf.ip_addr[0] != '\0'))) { traceEvent(TRACE_NORMAL, "Use manually set IP address."); eee->conf.tuntap_ip_mode = TUNTAP_IP_MODE_STATIC; } else if (0 == strcmp("dhcp", eee->tuntap_priv_conf.ip_mode)) { traceEvent(TRACE_NORMAL, "Obtain IP from other edge DHCP services."); eee->conf.tuntap_ip_mode = TUNTAP_IP_MODE_DHCP; } else { traceEvent(TRACE_NORMAL, "Automatically assign IP address by supernode."); eee->conf.tuntap_ip_mode = TUNTAP_IP_MODE_SN_ASSIGN; do { fd_set socket_mask; struct timeval wait_time; update_supernode_reg(eee, time(NULL)); FD_ZERO(&socket_mask); FD_SET(eee->udp_sock, &socket_mask); wait_time.tv_sec = SOCKET_TIMEOUT_INTERVAL_SECS; wait_time.tv_usec = 0; if (select(eee->udp_sock + 1, &socket_mask, NULL, NULL, &wait_time) > 0) { if (FD_ISSET(eee->udp_sock, &socket_mask)) { readFromIPSocket(eee, eee->udp_sock); } } } while (eee->sn_wait); eee->last_register_req = 0; } if (tuntap_open(&tuntap, eee->tuntap_priv_conf.tuntap_dev_name, eee->tuntap_priv_conf.ip_mode, eee->tuntap_priv_conf.ip_addr, eee->tuntap_priv_conf.netmask, eee->tuntap_priv_conf.device_mac, eee->tuntap_priv_conf.mtu) < 0) exit(1); traceEvent(TRACE_NORMAL, "Local tuntap IP: %s, Mask: %s", eee->tuntap_priv_conf.ip_addr, eee->tuntap_priv_conf.netmask); memcpy(&eee->device, &tuntap, sizeof(tuntap)); // hexdump((unsigned char*)&tuntap,sizeof(tuntap_dev)); #ifndef WIN32 if(eee->tuntap_priv_conf.daemon) { setUseSyslog(1); /* traceEvent output now goes to syslog. */ daemonize(); } #endif /* #ifndef WIN32 */ #ifndef WIN32 #ifdef HAVE_LIBCAP /* Before dropping the privileges, retain capabilities to regain them in future. */ caps = cap_get_proc(); cap_set_flag(caps, CAP_PERMITTED, num_cap, cap_values, CAP_SET); cap_set_flag(caps, CAP_EFFECTIVE, num_cap, cap_values, CAP_SET); if((cap_set_proc(caps) != 0) || (prctl(PR_SET_KEEPCAPS, 1, 0, 0, 0) != 0)) traceEvent(TRACE_WARNING, "Unable to retain permitted capabilities [%s]\n", strerror(errno)); #else #ifndef __APPLE__ traceEvent(TRACE_WARNING, "n2n has not been compiled with libcap-dev. Some commands may fail."); #endif #endif /* HAVE_LIBCAP */ if((eee->tuntap_priv_conf.userid != 0) || (eee->tuntap_priv_conf.groupid != 0)) { traceEvent(TRACE_NORMAL, "Dropping privileges to uid=%d, gid=%d", (signed int)eee->tuntap_priv_conf.userid, (signed int)eee->tuntap_priv_conf.groupid); /* Finished with the need for root privileges. Drop to unprivileged user. */ if((setgid(eee->tuntap_priv_conf.groupid) != 0) || (setuid(eee->tuntap_priv_conf.userid) != 0)) { traceEvent(TRACE_ERROR, "Unable to drop privileges [%u/%s]", errno, strerror(errno)); exit(1); } } if((getuid() == 0) || (getgid() == 0)) traceEvent(TRACE_WARNING, "Running as root is discouraged, check out the -u/-g options"); #endif #ifdef __linux__ signal(SIGTERM, term_handler); signal(SIGINT, term_handler); #endif #ifdef WIN32 SetConsoleCtrlHandler(term_handler, TRUE); #endif keep_on_running = 1; traceEvent(TRACE_NORMAL, "edge started"); rc = run_edge_loop(eee, &keep_on_running); print_edge_stats(eee); #ifdef HAVE_LIBCAP /* Before completing the cleanup, regain the capabilities as some * cleanup tasks require them (e.g. routes cleanup). */ cap_set_flag(caps, CAP_EFFECTIVE, num_cap, cap_values, CAP_SET); if(cap_set_proc(caps) != 0) traceEvent(TRACE_WARNING, "Could not regain the capabilities [%s]\n", strerror(errno)); cap_free(caps); #endif /* Cleanup */ edge_term_conf(&eee->conf); tuntap_close(&eee->device); edge_term(eee); return(rc); } /* ************************************** */