#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "sysinfo.h" #include "procinfo.h" #include "node.h" static void invert_ssid(char *out, char *in) { char *cp; if ((cp = strchr(in, '-')) != NULL) { *cp = 0; sprintf(out, "%s-%d", in, 15 - atoi(cp + 1)); *cp = '-'; } else { sprintf(out, "%s-15", in); } } /* * Initiate a AX.25, NET/ROM, ROSE or TCP connection to the host * specified by `address'. */ static ax25io *connect_to(char **addr, int family, int escape, int compr) { int fd; ax25io *riop; fd_set read_fdset; fd_set write_fdset; int salen; union { struct full_sockaddr_ax25 ax; #ifdef HAVE_ROSE struct sockaddr_rose rs; #endif struct sockaddr_in in; } sa; char call[10], path[20], *cp, *eol; int ret, retlen = sizeof(int); int paclen; struct hostent *hp; struct servent *sp; struct user u; #ifdef HAVE_NETROM struct proc_nr_nodes *np; #endif strcpy(call, User.call); /* * Fill in protocol spesific stuff. */ switch (family) { #ifdef HAVE_ROSE case AF_ROSE: if (aliascmd==0) { if (check_perms(PERM_ROSE, 0L) == -1) { axio_printf(NodeIo,"Permission denied"); if (User.ul_type == AF_NETROM) { node_msg(""); } node_log(LOGLVL_GW, "Permission denied: rose"); return NULL; } } if ((fd = socket(AF_ROSE, SOCK_SEQPACKET, 0)) < 0) { node_perror("connect_to: socket", errno); return NULL; } sa.rs.srose_family = AF_ROSE; sa.rs.srose_ndigis = 0; ax25_aton_entry(call, sa.rs.srose_call.ax25_call); rose_aton(rs_config_get_addr(NULL), sa.rs.srose_addr.rose_addr); salen = sizeof(struct sockaddr_rose); if (bind(fd, (struct sockaddr *)&sa, salen) == -1) { node_perror("connect_to: bind", errno); close(fd); return NULL; } memset(path, 0, 11); memcpy(path, rs_config_get_addr(NULL), 4); salen = strlen(addr[1]); if ((salen != 6) && (salen != 10)) { if (User.ul_type == AF_NETROM) { axio_printf(NodeIo,"%s} ", NodeId); } axio_printf(NodeIo,"Invalid ROSE address"); if (User.ul_type == AF_NETROM) { node_msg(""); } return(NULL); } memcpy(path + (10-salen), addr[1], salen); sprintf(User.dl_name, "%s @ %s", addr[0], path); sa.rs.srose_family = AF_ROSE; sa.rs.srose_ndigis = 0; if (ax25_aton_entry(addr[0], sa.rs.srose_call.ax25_call) < 0) { close(fd); return NULL; } if (rose_aton(path, sa.rs.srose_addr.rose_addr) < 0) { close(fd); return NULL; } if (addr[2] != NULL) { if (ax25_aton_entry(addr[2], sa.rs.srose_digi.ax25_call) < 0) { close(fd); return NULL; } sa.rs.srose_ndigis = 1; } salen = sizeof(struct sockaddr_rose); paclen = rs_config_get_paclen(NULL); eol = ROSE_EOL; /* Uncomment the below if you wish to have the node show a 'Trying' state */ if (check_perms(PERM_ANSI, 0L) != -1) { axio_printf(NodeIo, "\e[01;35m"); } if (User.ul_type != AF_NETROM) { axio_printf(NodeIo,"Trying %s... aborts. ", User.dl_name); } break; #endif #ifdef HAVE_NETROM case AF_NETROM: if (aliascmd==0) { if (check_perms(PERM_NETROM, 0L) == -1) { axio_printf(NodeIo,"Permission denied"); if (User.ul_type == AF_NETROM) { node_msg(""); } node_log(LOGLVL_GW, "Permission denied: netrom"); return NULL; } } if ((fd = socket(AF_NETROM, SOCK_SEQPACKET, 0)) < 0) { node_perror("connect_to: socket", errno); return NULL; } /* Why on earth is this different from ax.25 ????? */ sprintf(path, "%s %s", nr_config_get_addr(NrPort), call); ax25_aton(path, &sa.ax); sa.ax.fsa_ax25.sax25_family = AF_NETROM; salen = sizeof(struct full_sockaddr_ax25); if (bind(fd, (struct sockaddr *)&sa, salen) == -1) { node_perror("connect_to: bind", errno); close(fd); return NULL; } if ((np = find_node(addr[0], NULL)) == NULL) { axio_printf(NodeIo,"No such node"); if (User.ul_type == AF_NETROM) { node_msg(""); } return NULL; } strcpy(User.dl_name, print_node(np->alias, np->call)); if (ax25_aton(np->call, &sa.ax) == -1) { close(fd); return NULL; } sa.ax.fsa_ax25.sax25_family = AF_NETROM; salen = sizeof(struct sockaddr_ax25); paclen = nr_config_get_paclen(NrPort); eol = NETROM_EOL; /* Uncomment the below if you wish the node to show a 'Trying' state */ if (check_perms(PERM_ANSI, 0L) != -1) { if (User.ul_type == AF_NETROM) { break; } if (User.ul_type != AF_NETROM) { node_msg("\e[01;36mTrying %s... aborts. ", User.dl_name); } break; #endif #ifdef HAVE_AX25 case AF_FLEXNET: case AF_AX25: if (aliascmd==0) { if (check_perms(PERM_AX25, 0L) == -1 || (is_hidden(addr[0]) && check_perms(PERM_HIDDEN, 0L) == -1)) { axio_printf(NodeIo,"Not a user interface."); if (User.ul_type == AF_NETROM) { node_msg(""); } node_log(LOGLVL_GW, "Permission denied: ax.25 port %s", addr[0]); return NULL; } } if (ax25_config_get_addr(addr[0]) == NULL) { if (User.ul_type == AF_NETROM) { axio_printf(NodeIo,"%s} ", NodeId); } axio_printf(NodeIo,"Invalid interface: %s", addr[0]); if (User.ul_type == AF_NETROM) { node_msg(""); } return NULL; } if ((fd = socket(AF_AX25, SOCK_SEQPACKET, 0)) < 0) { node_perror("connect_to: socket", errno); return NULL; } /* * Invert the SSID only if user is coming in with AX.25 * and going out on the same port he is coming in via. */ /* if (User.ul_type == AF_AX25 && !strcasecmp(addr[0], User.ul_name)) */ invert_ssid(call, User.call); sprintf(path, "%s %s", call, ax25_config_get_addr(addr[0])); ax25_aton(path, &sa.ax); sa.ax.fsa_ax25.sax25_family = AF_AX25; salen = sizeof(struct full_sockaddr_ax25); if (bind(fd, (struct sockaddr *)&sa, salen) < 0) { node_perror("connect_to: bind", errno); close(fd); return NULL; } if (ax25_aton_arglist((const char **)addr+1, &sa.ax) < 0) { close(fd); return NULL; } strcpy(User.dl_name, strupr(addr[1])); strcpy(User.dl_port, strlwr(addr[0])); sa.ax.fsa_ax25.sax25_family = AF_AX25; salen = sizeof(struct full_sockaddr_ax25); paclen = ax25_config_get_paclen(addr[0]); eol = AX25_EOL; /* Uncomment the below if you wish the node to show a 'Trying' state */ /* if (family==AF_FLEXNET) node_msg("Trying %s via FlexNet... Type to abort", User.dl_name); */ if ((family==AF_FLEXNET) || (family == AF_AX25)) { if (!strcmp(User.dl_port,User.ul_name)) { if (check_perms(PERM_ANSI, 0L) != -1) { axio_printf(NodeIo, "\e[05;31m"); } axio_printf(NodeIo,"\aLoop detected on "); } if (check_perms(PERM_ANSI, 0L) != -1) { axio_printf(NodeIo, "\e[0;m"); } if (User.ul_type == AF_NETROM) { axio_printf(NodeIo, "%s} ", NodeId); } if (check_perms(PERM_ANSI, 0L) != -1) { axio_printf(NodeIo, "\e[01;33m"); } axio_printf(NodeIo,"link setup (%s)...", User.dl_port); } /* else node_msg("Trying %s on %s... Type to abort", User.dl_name, User.dl_port); */ break; #endif case AF_INET6: case AF_INET: if ((fd = socket(AF_INET, SOCK_STREAM, 0)) < 0) { node_perror("connect_to: socket", errno); return NULL; } if ((hp = gethostbyname(addr[0])) == NULL) { if (User.ul_type == AF_NETROM) { axio_printf(NodeIo, "%s} ", NodeId); } axio_printf(NodeIo,"Unknown host %s", addr[0]); if (User.ul_type == AF_NETROM) { node_msg(""); } close(fd); return NULL; } sa.in.sin_family = AF_INET; sa.in.sin_addr.s_addr = ((struct in_addr *)(hp->h_addr))->s_addr; sp = NULL; if (addr[1] == NULL) sp = getservbyname("telnet", "tcp"); if (sp == NULL) sp = getservbyname(addr[1], "tcp"); if (sp == NULL) sp = getservbyport(htons(atoi(addr[1])), "tcp"); if (sp != NULL) { sa.in.sin_port = sp->s_port; } else if (atoi(addr[1]) != 0) { sa.in.sin_port = htons(atoi(addr[1])); } else { axio_printf(NodeIo,"%s Unknown service %s", NodeId, addr[1]); if (User.ul_type == AF_NETROM) { node_msg(""); } close(fd); return NULL; } strcpy(User.dl_name, inet_ntoa(sa.in.sin_addr)); if (sp != NULL) strcpy(User.dl_port, sp->s_name); else sprintf(User.dl_port, "%d", ntohs(sa.in.sin_port)); salen = sizeof(struct sockaddr_in); paclen = 1024; eol = INET_EOL; if (aliascmd==0) { if (check_perms(PERM_TELNET, sa.in.sin_addr.s_addr) == -1) { if (User.ul_type == AF_NETROM) { axio_printf(NodeIo,"%s} ", NodeId); } axio_printf(NodeIo,"Permission denied."); if (User.ul_type == AF_NETROM) { node_msg(""); } node_log(LOGLVL_GW, "Permission denied: telnet %s.", User.dl_name); close(fd); return NULL; } } if (check_perms(PERM_ANSI, 0L) != -1) { axio_printf(NodeIo,"\e[01;36m"); } if (User.ul_type != AF_NETROM) { axio_printf(NodeIo,"Trying %s:%s... aborts. ", User.dl_name, User.dl_port); // escape < 32 ? "CTRL-" : "", // escape < 32 ? (escape + 'A' - 1) : escape); axio_flush(NodeIo); } } if (check_perms(PERM_ANSI, 0L) != -1) { axio_printf(NodeIo,"\e[0m"); } break; default: if (User.ul_type == AF_NETROM) { axio_printf(NodeIo,"%s} ", NodeId); } axio_printf(NodeIo,"Unsupported protocol."); if (User.ul_type == AF_NETROM) { node_msg(""); } return NULL; } axio_flush(NodeIo); /* * Ok. Now set up a non-blocking connect... */ if (fcntl(fd, F_SETFL, O_NONBLOCK) == -1) { node_perror("connect_to: fcntl - fd", errno); close(fd); return NULL; } if (fcntl(STDIN_FILENO, F_SETFL, O_NONBLOCK) == -1) { node_perror("connect_to: fcntl - stdin", errno); close(fd); return NULL; } if (connect(fd, (struct sockaddr *)&sa, salen) == -1 && errno != EINPROGRESS) { node_perror("Duplicate connection not allowed", errno); close(fd); return NULL; } User.dl_type = family; User.state = STATE_TRYING; update_user(); /* * ... and wait for it to finish (or user to abort). */ while (1) { FD_ZERO(&read_fdset); FD_ZERO(&write_fdset); FD_SET(fd, &write_fdset); FD_SET(STDIN_FILENO, &read_fdset); if (select(fd + 1, &read_fdset, &write_fdset, 0, 0) == -1) { node_perror("connect_to: select", errno); break; } if (FD_ISSET(fd, &write_fdset)) { /* See if we got connected or if this was an error */ getsockopt(fd, SOL_SOCKET, SO_ERROR, &ret, &retlen); if (ret != 0) { /* * This is STUPID !!!! * FBB interprets "Connection refused" as * success because it contains the string * "Connect"... * But I'm NOT going to toss away valuable * information (the strerror() info). * Fortunately (???) FBB is case sensitive * when examining the return string so * simply converting the strerror() message * to lower case fixes the problem. Ugly * but it _should_ work. */ cp = strdup(strerror(ret)); strlwr(cp); if (family==AF_FLEXNET) { axio_printf(NodeIo,"\n*** failure with %s", User.dl_name); if (User.ul_type == AF_NETROM) { node_msg(""); } } else if (User.ul_type == AF_NETROM) { axio_printf(NodeIo, "\n%s} Failure with %s: %s\n", NodeId, User.dl_name, cp); } else { axio_printf(NodeIo,"\nFailure with %s: %s", User.dl_name, cp); } node_log(LOGLVL_GW, "Failure with %s: %s", User.dl_name, cp); free(cp); close(fd); return NULL; } break; } if (FD_ISSET(STDIN_FILENO, &read_fdset)) { errno = 0; if (axio_getline(NodeIo) != NULL) { if (User.ul_type == AF_NETROM) { axio_printf(NodeIo,"%s} ", NodeId); } if (check_perms(PERM_ANSI, 0L) != -1) { axio_printf(NodeIo, "\e[05;31m"); } axio_printf(NodeIo,"Connection aborted."); if (check_perms(PERM_ANSI, 0L) != -1) { axio_printf(NodeIo, "\e[0;m"); } if (User.ul_type == AF_NETROM) { node_msg(""); } close(fd); return NULL; } else if (errno != EAGAIN) { close(fd); return NULL; } } } if (User.dl_type == AF_INET) { if ((User.ul_type == AF_NETROM) || (User.ul_type == AF_ROSE)) { axio_printf(NodeIo,"%s} ", NodeId); } if (check_perms(PERM_ANSI, 0L) != -1) { axio_printf(NodeIo,"\e[01;32m"); } if (User.ul_type != AF_NETROM) { node_msg("\nSocket established to %s:%s", User.dl_name, User.dl_port); } else { node_msg("Socket established to %s:%s", User.dl_name, User.dl_port); } if (check_perms(PERM_ANSI, 0L) != -1) { axio_printf(NodeIo,"\e[0;m"); } } else /* if (family==AF_FLEXNET) { if (check_perms(PERM_ANSI, 0L) != -1) { axio_printf(NodeIo,"\e[01;32m"); } node_msg("\n*** connected to %s", User.dl_name); if (check_perms(PERM_ANSI, 0L) != -1) { axio_printf(NodeIo,"\e[0;m"); } } else */ if ((family==AF_AX25) || (family==AF_FLEXNET) || (family==AF_ROSE)) { if (check_perms(PERM_ANSI, 0L) != -1) { axio_printf(NodeIo,"\e[01;32m"); } if ((family==AF_AX25) || (family==AF_FLEXNET)) { /* node_msg("\n"); */ } node_msg("\n*** connected to %s", User.dl_name); if (check_perms(PERM_ANSI, 0L) != -1) { axio_printf(NodeIo,"\e[0;m"); } } else if (family == AF_NETROM) { if (check_perms(PERM_ANSI, 0L) != -1) { axio_printf(NodeIo,"\e[01;32m"); } if ((User.ul_type == AF_INET) || (User.ul_type == AF_INET6)) { axio_printf(NodeIo,"Virtual circuit established to %s\n", User.dl_name); } if (User.ul_type == AF_NETROM) { if (check_perms(PERM_ANSI, 0L) != -1) { axio_printf(NodeIo,"\e[0;m"); } axio_printf(NodeIo,"%s} ", NodeId); if (check_perms(PERM_ANSI, 0L) != -1) { axio_printf(NodeIo,"\e[01;32m"); } axio_printf(NodeIo, "Connected to %s\n", User.dl_name); } if ((User.ul_type == AF_AX25) || (User.ul_type == AF_ROSE)) { axio_printf(NodeIo,"*** connected to %s\n", User.dl_name); } if (check_perms(PERM_ANSI, 0L) != -1) { axio_printf(NodeIo,"\e[0;m"); } } /* else if (family == AF_NETROM) { node_msg("%s} Connected to %s\n", NodeId, User.dl_name); } else { if (check_perms(PERM_ANSI, 0L) != -1) { axio_printf(NodeIo,"\e[01;32m"); } node_msg("*** connected to %s\n", User.dl_name, escape < 32 ? "CTRL-" : "", escape < 32 ? (escape + 'A' - 1) : escape); } if (check_perms(PERM_ANSI, 0L) != -1) { axio_printf(NodeIo, "\e[0;m"); } */ axio_flush(NodeIo); node_log(LOGLVL_GW, "%s Connected to %s", NodeId, User.dl_name); errno = 0; if ((riop = axio_init(fd, fd, paclen, eol)) == NULL) { node_perror("connect_to: Initializing I/O failed", errno); close(fd); return NULL; } if (compr && axio_compr(riop, compr) < 0) node_msg("connect_to: axio_compr failed"); User.state = STATE_CONNECTED; update_user(); return riop; } int do_connect(int argc, char **argv) { int i, k; ax25io *riop; struct ax_routes *ax; struct flex_dst *flx; struct flex_gt *flgt; int c, compress, family = AF_UNSPEC, stay, escape; char *nodoconn = NULL; fd_set fdset; char *connstr = NULL; axio_puts("",NodeIo); stay = 0; if (!strcasecmp(argv[argc - 1], "s")) { stay = 1; argv[--argc] = NULL; } else if (!strcasecmp(argv[argc - 1], "d")) { stay = 0; argv[--argc] = NULL; } compress = 0; c = argv[0][0]; #ifdef HAVE_ZLIB_H if (*argv[0] == 'z') { compress = 1; c = argv[0][1]; } #endif if (argc < 2) { if (User.ul_type == AF_NETROM) { axio_printf(NodeIo,"%s} ", NodeId); } if (c == 't') axio_printf(NodeIo,"Usage: telnet [] [d|s]"); else axio_printf(NodeIo,"Usage: connect [] [via ...] [d|s]"); if (User.ul_type == AF_NETROM) { node_msg(""); } return 0; } if (c == 't') family = AF_INET; else if (argc > 2) { // #ifdef HAVE_ROSE if (strspn(argv[2], "0123456789") == strlen(argv[2])) family = AF_ROSE; else // #endif family = AF_AX25; } else if (argc == 2) { /* Determine destination */ /* call buffer increased by VE3TOK */ static char call[10]; strncpy(call, strupr(argv[1]), 10); /* if (find_node(argv[1], NULL)!=NULL) { family = AF_NETROM; } else */ if ((flx=find_dest(argv[1], NULL))!=NULL) { /* Check FlexNet */ k=1; flgt=find_gateway(flx->addr, NULL); argv[k++]=ax25_config_get_name(flgt->dev); argv[k++]=call; while((k-3)digis[k-3][0]!='\0') argv[k]=flgt->digis[(k++)-3]; argv[k++]=flgt->call; argv[k]=NULL; argc=k; family = AF_FLEXNET; } else if (find_node(argv[1], NULL)!=NULL) { family = AF_NETROM; } else if ((ax=find_route(argv[1], NULL))!=NULL) { /* Check AX25 Links */ k=1; switch(*ax->conn_type) { case CONN_TYPE_DIRECT: { argv[k++]=ax->dev; argv[k++]=ax->dest_call; break; } case CONN_TYPE_DIGI: { argv[k++]=ax->dev; argv[k++]=ax->dest_call; while((k-3)digis[k-3][0]!='\0') argv[k]=ax->digis[(k++)-3]; break; } case CONN_TYPE_NODE: { argv[k++]=ax->dev; argv[k++]=ax->digis[0]; nodoconn=ax->dest_call; break; } } argv[k]=NULL; argc=k; family = AF_AX25; } /* else if ((flx=find_dest(argv[1], NULL))!=NULL) { Check FlexNet k=1; flgt=find_gateway(flx->addr, NULL); argv[k++]=ax25_config_get_name(flgt->dev); argv[k++]=call; while((k-3)digis[k-3][0]!='\0') argv[k]=flgt->digis[(k++)-3]; argv[k++]=flgt->call; argv[k]=NULL; argc=k; family = AF_FLEXNET; else if (find_node(argv[1], NULL)!=NULL) { family = AF_NETROM; } */ #ifdef HAVE_AUTOROUTE else if ((ax=find_mheard(argv[1]))!=NULL) { /* Check Mheard database */ k=1; /* K2MF supplied code */ /* This code *actually* reads mheard.dat and fixes * the digi path the way it should be. -N1URO */ argv[k++] = ax->dev; argv[k++] = ax->dest_call; /* First count the number of digipeaters in the path * from the destination */ i = k - 3; while(i < AX25_MAX_DIGIS) { if(ax->digis[i][0] == '\0') break; i++; } /* Then construct the reverse digipeater path back to * the destination */ while(i && ax->digis[i - 1][0] != '\0') argv[k++] = ax->digis[--i]; /* end K2MF code */ argv[k]=NULL; argc=k; family = AF_AX25; } #endif else { /* Give up */ if (User.ul_type == AF_NETROM) { axio_printf(NodeIo,"%s} ", NodeId); } if (strcmp(argv[1], "##TEMP") == 0) { axio_printf(NodeIo,"%s is not connectable. Use the callsign-ssid.", argv[1]); } else { axio_printf(NodeIo,"%s not found. Please retry your entry.", argv[1]); } family = AF_UNSPEC; // free_flex_dst(flx); // free_ax_routes(ax); if (User.ul_type == AF_NETROM) { node_msg(""); } return 0; } } if (family == AF_INET && argc > 3) connstr = argv[3]; escape = (check_perms(PERM_NOESC, 0L) == 0) ? -1 : EscChar; riop = connect_to(++argv, family, escape, compress); if (riop == NULL) { if (fcntl(STDIN_FILENO, F_SETFL, 0) == -1) node_perror("do_connect: fcntl - stdin", errno); return 0; } if (family == AF_INET) axio_tnmode(riop, 1); if (connstr) { axio_printf(riop, "%s\n", connstr); axio_flush(riop); } /* * If eol conventions are compatible, switch to binary mode, * else switch to special gateway mode. */ if (axio_cmpeol(riop, NodeIo) == 0) { axio_eolmode(riop, EOLMODE_BINARY); axio_eolmode(NodeIo, EOLMODE_BINARY); } else { axio_eolmode(riop, EOLMODE_GW); axio_eolmode(NodeIo, EOLMODE_GW); } if (nodoconn != NULL) axio_printf(riop, "C %s\n",nodoconn); while (1) { FD_ZERO(&fdset); FD_SET(riop->ifd, &fdset); FD_SET(STDIN_FILENO, &fdset); if (select(32, &fdset, 0, 0, 0) == -1) { node_perror("do_connect: select", errno); break; } if (FD_ISSET(riop->ifd, &fdset)) { alarm(ConnTimeout); while((c = axio_getc(riop)) != -1) axio_putc(c, NodeIo); if (errno != EAGAIN) { if (errno && errno != ENOTCONN) axio_printf(NodeIo,"%s", strerror(errno)); break; } } if (FD_ISSET(STDIN_FILENO, &fdset)) { alarm(ConnTimeout); while((c = axio_getc(NodeIo)) != -1) { if (escape != -1 && c == escape) break; axio_putc(c, riop); } if (escape != -1 && c == escape) { axio_eolmode(NodeIo, EOLMODE_TEXT); axio_getline(NodeIo); break; } if (errno != EAGAIN) { stay = 0; break; } } axio_flush(riop); axio_flush(NodeIo); } axio_end(riop); node_log(LOGLVL_GW, "Disconnected from %s", User.dl_name); #ifdef HAVEMOTD /* if (User.ul_type != AF_NETROM) { */ /* if (stay) { */ axio_eolmode(NodeIo, EOLMODE_TEXT); if (fcntl(STDIN_FILENO, F_SETFL, 0) == -1) node_perror("do_connect: fcntl - stdin", errno); if (User.ul_type == AF_INET) { if (check_perms(PERM_ANSI, 0L) != -1) { axio_printf(NodeIo,"\e[01;31m"); } axio_printf(NodeIo,"Returning you to the shell..."); } else if ((User.ul_type == AF_AX25) && (!stay)) { axio_flush(NodeIo); axio_end_all(); logout_user(); ipc_close(); node_log(LOGLVL_LOGIN, "%s @ %s logged out", User.call, User.ul_name); free_cmdlist(Nodecmds); Nodecmds = NULL; exit(0); } if (User.ul_type == AF_AX25) { if (check_perms(PERM_ANSI, 0L) != -1) { axio_printf(NodeIo,"\e[01;31m"); } axio_printf(NodeIo,"\r*** reconnected to %s", FlexId); if (check_perms(PERM_ANSI, 0L) != -1) { axio_printf(NodeIo,"\e[0;m"); } } if (User.ul_type == AF_ROSE) { if (check_perms(PERM_ANSI, 0L) != -1) { axio_printf(NodeIo,"\e[01;31m"); } axio_printf(NodeIo,"\r*** reconnected to %s", RoseId); if (check_perms(PERM_ANSI, 0L) != -1) { axio_printf(NodeIo,"\e[0;m"); } } if (User.ul_type == AF_INET) { if (check_perms(PERM_ANSI, 0L) != -1) { axio_printf(NodeIo, "\e[0m"); } } /* } */ /* } */ if ((User.ul_type == AF_NETROM) && (!stay)) { node_logout("No reconnect"); } if ((User.ul_type == AF_NETROM) && (stay)) { axio_printf(NodeIo,"%s} ", NodeId); if (check_perms(PERM_ANSI, 0L) != -1) { axio_printf(NodeIo,"\e[01;31mWelcome back.\n\e[0;m"); } if (check_perms(PERM_ANSI, 0L) == -1) { axio_printf(NodeIo,"Welcome back.\n"); } } #else node_logout("No reconnect"); #endif // free_flex_dst(flx); // free_ax_routes(ax); return 0; } int do_finger(int argc, char **argv) { ax25io *riop; int i, compress; char *name, *addr[3], *cp; compress = 0; /* if (User.ul_type == AF_NETROM) { axio_printf(NodeIo,"%s} ", NodeId); } */ axio_puts("",NodeIo); if (argc < 2) { if (User.ul_type == AF_NETROM) { axio_printf(NodeIo,"%s} ", NodeId); } axio_printf(NodeIo,"Usage: finger user@."); if (User.ul_type == AF_NETROM) { node_msg(""); } return 0; } else if ((cp = strchr(argv[1], '@')) != NULL) { *cp = 0; name = argv[1]; addr[0] = ++cp; } else { name = argv[1]; addr[0] = "localhost"; if (User.ul_type == AF_NETROM) { axio_printf(NodeIo,"%s} ", NodeId); } axio_printf(NodeIo,"Usage: finger user@."); if (User.ul_type == AF_NETROM) { node_msg(""); } return 0; } addr[1] = "finger"; addr[2] = NULL; riop = connect_to(addr, AF_INET, 0, compress); /* If you uncommented 'Trying' state on, uncomment this also. */ /* escape = (check_perms(PERM_NOESC, 0L) == 0) ? -1 : EscChar; */ if (riop != NULL) { if (fcntl(riop->ifd, F_SETFL, 0) == -1) node_perror("do_finger: fcntl - fd", errno); axio_printf(NodeIo,"[%s]\n", addr[0]); axio_printf(riop, "%s\n", name); axio_flush(riop); while((i = axio_getc(riop)) != -1) axio_putc(i, NodeIo); axio_end(riop); if (User.ul_type == AF_NETROM) { axio_printf(NodeIo,"%s} ", NodeId); } if (check_perms(PERM_ANSI, 0L) != -1) { axio_printf(NodeIo,"\e[01;31m"); } axio_printf(NodeIo,"Finger complete."); if (check_perms(PERM_ANSI, 0L) != -1) { axio_printf(NodeIo, "\e[0;m"); } if (User.ul_type == AF_NETROM) { node_msg(""); } } axio_eolmode(NodeIo, EOLMODE_TEXT); if (fcntl(STDIN_FILENO, F_SETFL, 0) == -1) node_perror("do_finger: fcntl - stdin", errno); return 0; } /* * Returns difference of tv1 and tv2 in milliseconds. */ static long calc_rtt(struct timeval tv1, struct timeval tv2) { struct timeval tv; tv.tv_usec = tv1.tv_usec - tv2.tv_usec; tv.tv_sec = tv1.tv_sec - tv2.tv_sec; if (tv.tv_usec < 0) { tv.tv_sec -= 1L; tv.tv_usec += 1000000L; } return ((tv.tv_sec * 1000L) + (tv.tv_usec / 1000L)); } /* * Checksum routine for Internet Protocol family headers (C Version) */ static unsigned short in_cksum(unsigned char *addr, int len) { register int nleft = len; register unsigned char *w = addr; register unsigned int sum = 0; unsigned short answer = 0; /* * Our algorithm is simple, using a 32 bit accumulator (sum), we add * sequential 16 bit words to it, and at the end, fold back all the * carry bits from the top 16 bits into the lower 16 bits. */ while (nleft > 1) { sum += (*(w + 1) << 8) + *(w); w += 2; nleft -= 2; } /* mop up an odd byte, if necessary */ if (nleft == 1) { sum += *w; } /* add back carry outs from top 16 bits to low 16 bits */ sum = (sum >> 16) + (sum & 0xffff); /* add hi 16 to low 16 */ sum += (sum >> 16); /* add carry */ answer = ~sum; /* truncate to 16 bits */ return answer; } int do_ping(int argc, char **argv) { static int sequence = 0; unsigned char buf[256]; struct hostent *hp; struct sockaddr_in to, from; struct protoent *prot; struct icmphdr *icp; struct timeval tv1, tv2; struct iphdr *ip; fd_set fdset; int fd, i, id, len = sizeof(struct icmphdr); int salen = sizeof(struct sockaddr); /* if (User.ul_type == AF_NETROM) { axio_printf(NodeIo,"%s} ", NodeId); } */ axio_puts("",NodeIo); if (argc < 2) { if (User.ul_type == AF_NETROM) { axio_printf(NodeIo,"%s} ", NodeId); } axio_printf(NodeIo,"Usage: ping []"); if (User.ul_type == AF_NETROM) { node_msg(""); } return 0; } if (argc > 2) { len = atoi(argv[2]) + sizeof(struct icmphdr); // if (len > 256) { if (len > 136) { if (User.ul_type == AF_NETROM) { axio_printf(NodeIo,"%s} ", NodeId); } axio_printf(NodeIo,"Maximum ping size is %d", 136 - sizeof(struct icmphdr)); if (User.ul_type == AF_NETROM) { node_msg(""); } return 0; } } if ((hp = gethostbyname(argv[1])) == NULL) { if (User.ul_type == AF_NETROM) { axio_printf(NodeIo,"%s} ", NodeId); } axio_printf(NodeIo,"Unknown host %s", argv[1]); if (User.ul_type == AF_NETROM) { node_msg(""); } return 0; } memset(&to, 0, sizeof(to)); to.sin_family = AF_INET; to.sin_addr.s_addr = ((struct in_addr *)(hp->h_addr))->s_addr; if ((prot = getprotobyname("icmp")) == NULL) { if (User.ul_type == AF_NETROM) { axio_printf(NodeIo,"%s} ", NodeId); } axio_printf(NodeIo,"Unknown protocol icmp"); if (User.ul_type == AF_NETROM) { node_msg(""); } return 0; } if ((fd = socket(AF_INET, SOCK_RAW, prot->p_proto)) == -1) { node_perror("do_ping: socket", errno); return 0; } if (check_perms(PERM_ANSI, 0L) != -1) { axio_printf(NodeIo,"\e[01;32mPing engaged, hit to abort.\n\e[0m"); } if (check_perms(PERM_ANSI, 0L) == -1) { axio_printf(NodeIo, "Ping engaged, hit to abort.\n"); } if (check_perms(PERM_ANSI, 0L) != -1) { axio_printf(NodeIo,"\e[01;35mICMP Echo request sent to: \e[0m"); } if (check_perms(PERM_ANSI, 0L) == -1) { axio_printf(NodeIo, "ICMP Echo request sent to: "); } node_msg("%s", inet_ntoa(to.sin_addr)); axio_flush(NodeIo); strcpy(User.dl_name, inet_ntoa(to.sin_addr)); User.dl_type = AF_INET; User.state = STATE_PINGING; update_user(); /* * Fill the data portion (if any) with some garbage. */ for (i = sizeof(struct icmphdr); i < len; i++) buf[i] = (i - sizeof(struct icmphdr)) & 0xff; /* * Fill in the icmp header. */ id = getpid() & 0xffff; icp = (struct icmphdr *)buf; icp->type = ICMP_ECHO; icp->code = 0; icp->checksum = 0; icp->un.echo.id = id; icp->un.echo.sequence = sequence++; /* * Calculate checksum. */ icp->checksum = in_cksum(buf, len); /* * Take the time and send the packet. */ gettimeofday(&tv1, NULL); if (sendto(fd, buf, len, 0, (struct sockaddr *)&to, salen) != len) { node_perror("do_ping: sendto", errno); close(fd); return 0; } /* * Now wait for it to come back (or user to abort). */ if (fcntl(STDIN_FILENO, F_SETFL, O_NONBLOCK) == -1) { node_perror("do_ping: fcntl - stdin", errno); close(fd); return 0; } while (1) { FD_ZERO(&fdset); FD_SET(fd, &fdset); FD_SET(STDIN_FILENO, &fdset); if (select(fd + 1, &fdset, 0, 0, 0) == -1) { node_perror("do_ping: select", errno); break; } if (FD_ISSET(fd, &fdset)) { if ((len = recvfrom(fd, buf, 256, 0, (struct sockaddr *)&from, &salen)) == -1) { node_perror("do_ping: recvfrom", errno); break; } gettimeofday(&tv2, NULL); ip = (struct iphdr *)buf; /* Is it long enough? */ if (len >= (ip->ihl << 2) + sizeof(struct icmphdr)) { len -= ip->ihl << 2; icp = (struct icmphdr *)(buf + (ip->ihl << 2)); /* Is it ours? */ if (icp->type == ICMP_ECHOREPLY && icp->un.echo.id == id && icp->un.echo.sequence == sequence - 1) { if (check_perms(PERM_ANSI, 0L) != -1) { axio_printf(NodeIo,"\e[01;35mICMP Echo reply received from: \e[0m"); } if (check_perms(PERM_ANSI, 0L) == -1) { axio_printf(NodeIo, "ICMP Echo reply received from: "); } node_msg("%s", inet_ntoa(to.sin_addr)); if (User.ul_type == AF_NETROM) { axio_printf(NodeIo,"%s} ", NodeId); } if (check_perms(PERM_ANSI, 0L) != -1) { axio_printf(NodeIo, "\e[01;31m"); } /* if (User.ul_type == AF_NETROM) { axio_printf(NodeIo,"%s} ", NodeId); } */ axio_printf(NodeIo, "Ping completed in: %ldms (ttl=%d)", calc_rtt(tv2, tv1), ip->ttl); if (User.ul_type == AF_NETROM) { node_msg(""); } if (check_perms(PERM_ANSI, 0L) != -1) { axio_printf(NodeIo, "\e[0;m"); } break; } } } if (FD_ISSET(STDIN_FILENO, &fdset)) { if (axio_getline(NodeIo) != NULL) { if (User.ul_type == AF_NETROM){ axio_printf(NodeIo,"%s} ", NodeId); } if (User.ul_type == AF_INET) { if (check_perms(PERM_ANSI, 0L) != -1) { axio_printf(NodeIo, "\e[05;31m"); } } axio_printf(NodeIo,"Ping aborted."); if (User.ul_type == AF_INET) { if (check_perms(PERM_ANSI, 0L) != -1) { axio_printf(NodeIo, "\e[0;m"); } } if (User.ul_type == AF_NETROM) { node_msg(""); } break; } else if (errno != EAGAIN) { break; } } } if (fcntl(STDIN_FILENO, F_SETFL, 0) == -1) node_perror("do_ping: fcntl - stdin", errno); close(fd); return 0; }