/* * DNS (Delphi Name Server) Package implements the name server for the DIM * (Delphi Information Management) system * * Started date : 26-10-92 * Last modification : 02-08-94 * Written by : C. Gaspar * Adjusted by : G.C. Ballintijn * */ #define DNS #include #include #include #ifndef WIN32 #include #endif /* #define MAX_HASH_ENTRIES 5000 */ #define MAX_HASH_ENTRIES 20000 FILE *foutptr; typedef struct node { struct node *client_next; struct node *client_prev; struct node *next; struct node *prev; int conn_id; int service_id; struct serv *servp; } NODE; typedef struct red_node { struct red_node *next; struct red_node *prev; int conn_id; int service_id; struct serv *servp; } RED_NODE; typedef struct serv { struct serv *server_next; struct serv *server_prev; struct serv *next; struct serv *prev; char serv_name[MAX_NAME]; char serv_def[MAX_NAME]; int state; int conn_id; int server_format; int serv_id; RED_NODE *node_head; } DNS_SERVICE; typedef struct red_serv { struct red_serv *next; struct red_serv *prev; char serv_name[MAX_NAME]; char serv_def[MAX_NAME]; int state; int conn_id; int server_format; int serv_id; RED_NODE *node_head; } RED_DNS_SERVICE; static DNS_SERVICE **Service_info_list; static RED_DNS_SERVICE *Service_hash_table[MAX_HASH_ENTRIES]; static int Curr_n_services = 0; static int Curr_n_servers = 0; static int Last_conn_id; /* static int Debug = 2; */ static int Debug = 0; static int Timer_q; static int Server_info_id, Server_new_info_id, Rpc_id, wake_up; static char RPC_dummy = 0; static char *Rpc_info = &RPC_dummy; static int Rpc_info_size = 0; static char DNS_accepted_domains[1024] = {0}; static char DNS_accepted_nodes[1024] = {0}; _DIM_PROTO( DNS_SERVICE *service_exists, (char *name) ); _DIM_PROTO( void check_validity, (int conn_id) ); _DIM_PROTO( void send_dns_server_info, (int conn_id, int **bufp, int *size) ); _DIM_PROTO( void print_stats, (void) ); _DIM_PROTO( void set_debug_on, (int level) ); _DIM_PROTO( void set_debug_off, (void) ); _DIM_PROTO( void kill_servers, (void) ); _DIM_PROTO( void print_hash_table, (void) ); _DIM_PROTO( void get_rpc_info, (int *tag, char **info, int *size) ); _DIM_PROTO( void set_rpc_info, (int *tag, char *name, int *size) ); _DIM_PROTO( void print_hash_table, (void) ); _DIM_PROTO( static void release_conn, (int conn_id) ); static void recv_rout( int conn_id, DIC_DNS_PACKET *packet, int size, int status ) { int handle_registration(); int handle_client_request(); if(size){} switch(status) { case STA_DISC: /* connection broken */ if(Debug) { dim_print_date_time(); printf(" Disconnect received - conn: %d to %s@%s\n", conn_id, Net_conns[conn_id].task,Net_conns[conn_id].node ); } release_conn( conn_id ); break; case STA_CONN: /* connection received */ if(Debug) { dim_print_date_time(); printf(" Connection request received - conn: %d\n", conn_id); } /* handle_conn( conn_id ); */ break; case STA_DATA: /* normal packet */ switch( vtohl(packet->src_type) ) { case SRC_DIS : handle_registration(conn_id, (DIS_DNS_PACKET *)packet, 1); break; case SRC_DIC : handle_client_request(conn_id,(DIC_DNS_PACKET *)packet); break; default: dim_print_date_time(); printf(" conn: %d to %s@%s, Bad packet\n", conn_id, Net_conns[conn_id].task,Net_conns[conn_id].node ); printf("packet->size = %d\n", vtohl(packet->size)); printf("packet->src_type = %d\n", vtohl(packet->src_type)); printf( "closing the connection.\n" ); fflush(stdout); release_conn( conn_id ); /* panic( "recv_rout(): Bad switch(1)" ); */ } break; default: dim_print_date_time(); printf( " - DIM panic: recv_rout(): Bad switch, exiting...\n"); abort(); } } static void error_handler(int conn_id, int severity, int errcode, char *reason) { if(conn_id){} if(errcode){} dim_print_msg(reason, severity); /* if(severity == 3) { printf("Exiting!\n"); exit(2); } */ } int handle_registration( int conn_id, DIS_DNS_PACKET *packet, int tmout_flag ) { DNS_SERVICE *servp; DNS_DIS_PACKET dis_packet; int i, service_id; int format; DNS_CONNECTION *connp; int n_services; char *ptr, *ptr1, *ptrt; int found; void do_update_did(); void do_inform_clients(); void inform_clients(); void service_init(); void service_insert(); void service_remove(); #ifdef WIN32 extern int time(); #endif int update_did = 0; int name_too_long = 0; int rem_only = 0; Dns_conns[conn_id].validity = time(NULL); if( !Dns_conns[conn_id].service_head ) { if(vtohl(packet->n_services) > 0) { service_id = vtohl(packet->services[0].service_id); if(service_id & 0x80000000) rem_only = 1; } /* if( Debug ) { dim_print_date_time(); printf( " !!!! New Conn %3d : Server %s@%s (PID %d) registering %d services, to delete %d\n", conn_id, packet->task_name, packet->node_name, vtohl(packet->pid), vtohl(packet->n_services), rem_only ); fflush(stdout); } */ if(rem_only) return 0; Dns_conns[conn_id].already = 0; Dns_conns[conn_id].service_head = (char *) malloc(sizeof(DNS_SERVICE)); dll_init( (DLL *) Dns_conns[conn_id].service_head ); Dns_conns[conn_id].n_services = 0; Dns_conns[conn_id].timr_ent = NULL; Curr_n_servers++; Dns_conns[conn_id].src_type = SRC_DIS; Dns_conns[conn_id].protocol = vtohl(packet->protocol); strncpy( Dns_conns[conn_id].node_name, packet->node_name, MAX_NODE_NAME ); strncpy( Dns_conns[conn_id].task_name, packet->task_name, MAX_TASK_NAME-4 ); strcpy(Dns_conns[conn_id].long_task_name, packet->task_name); Dns_conns[conn_id].task_name[MAX_TASK_NAME-4-1] = '\0'; for(i = 0; i < 4; i++) Dns_conns[conn_id].node_addr[i] = packet->node_addr[i]; Dns_conns[conn_id].pid = vtohl(packet->pid); Dns_conns[conn_id].port = vtohl(packet->port); /* if( Debug ) { dim_print_date_time(); printf( " !!!! New Conn %3d : Server %s@%s (PID %d) registered %d services\n", conn_id, Dns_conns[conn_id].task_name, Dns_conns[conn_id].node_name, Dns_conns[conn_id].pid, vtohl(packet->n_services) ); fflush(stdout); } */ if(strcmp(Dns_conns[conn_id].task_name,"DIS_DNS")) if(DNS_accepted_domains[0] == 0) { if(!get_dns_accepted_domains(DNS_accepted_domains)) DNS_accepted_domains[0] = -1; } if((DNS_accepted_domains[0] != -1) && (strcmp(Dns_conns[conn_id].task_name,"DIS_DNS"))) { ptr = DNS_accepted_domains; found = 0; while(*ptr) { ptr1 = strchr(ptr,','); if(ptr1) { *ptr1 = '\0'; ptr1++; } else { ptr1 = ptr; ptr1 += strlen(ptr); } if(strstr(Dns_conns[conn_id].node_name,ptr)) { found = 1; break; } ptr = ptr1; } if(!found) { dis_packet.type = htovl(DNS_DIS_STOP); dis_packet.size = htovl(DNS_DIS_HEADER); if( !dna_write_nowait(conn_id, &dis_packet, DNS_DIS_HEADER) ) { dim_print_date_time(); printf(" Stop Server: Couldn't write, releasing %d\n",conn_id); fflush(stdout); } dim_print_date_time(); printf(" Connection from %s refused, stopping server %s\n", Dns_conns[conn_id].node_name, Dns_conns[conn_id].task_name); fflush(stdout); release_conn(conn_id); return 0; } } if(tmout_flag) Dns_conns[conn_id].timr_ent = dtq_add_entry( Timer_q, (int)(WATCHDOG_TMOUT_MAX * 1.3), check_validity, conn_id); if(strcmp(Dns_conns[conn_id].task_name,"DIS_DNS")) { dna_set_test_write(conn_id, dim_get_keepalive_timeout()); } Dns_conns[conn_id].old_n_services = 0; /* Dns_conns[conn_id].n_services = 1; do_update_did(conn_id); */ update_did = 1; /* Dns_conns[conn_id].old_n_services = 0; */ Dns_conns[conn_id].n_services = 0; } else { if( (Dns_conns[conn_id].n_services == -1) && vtohl(packet->n_services) ) { if(strcmp(Dns_conns[conn_id].task_name,"DIS_DNS")) dna_set_test_write(conn_id, dim_get_keepalive_timeout()); dim_print_date_time(); printf( " Server %s out of error\n", Dns_conns[conn_id].task_name ); fflush(stdout); Dns_conns[conn_id].n_services = 0; } } n_services = vtohl(packet->n_services); if(strlen(Dns_conns[conn_id].task_name) == MAX_TASK_NAME-4-1) name_too_long = 1; for( i = 0; i < n_services; i++ ) { /* if( Debug ) { dim_print_date_time(); printf( " Conn %3d : Server %s@%s (PID %d) registered %s\n", conn_id, Dns_conns[conn_id].task_name, Dns_conns[conn_id].node_name, Dns_conns[conn_id].pid, packet->services[i].service_name ); fflush(stdout); } */ if(n_services == 1) { if(!strcmp(packet->services[i].service_name, "DUMMY_UPDATE_PACKET")) { do_inform_clients(conn_id); break; } } if( (servp = service_exists(packet->services[i].service_name)) ) { /* if service available on another server send kill signal */ if((servp->conn_id) && (servp->conn_id != conn_id)) { dis_packet.type = htovl(DNS_DIS_KILL); dis_packet.size = htovl(DNS_DIS_HEADER); format = vtohl(packet->format); #ifdef VMS if((format & MY_OS9) || (servp->state == -1)) { Dns_conns[servp->conn_id].already = 1; if( !dna_write(servp->conn_id, &dis_packet, DNS_DIS_HEADER) ) { dim_print_date_time(); printf(" Couldn't write, releasing %d\n",servp->conn_id); fflush(stdout); } dim_print_date_time(); printf(" Service %s already declared, killing server %s\n", servp->serv_name, Dns_conns[servp->conn_id].task_name); fflush(stdout); release_client(servp->conn_id); release_conn(servp->conn_id); } else { #endif if((Dns_conns[servp->conn_id].port == Dns_conns[conn_id].port) && (!strcmp(Dns_conns[servp->conn_id].node_name, Dns_conns[conn_id].node_name))) { dim_print_date_time(); printf(" Service %s already declared by conn %d - %s@%s:%d (PID %d), Redeclared by conn %d - %s@%s:%d (PID %d)(same server) - Closing old conn %d\n", servp->serv_name, servp->conn_id, Dns_conns[servp->conn_id].task_name, Dns_conns[servp->conn_id].node_name, Dns_conns[servp->conn_id].port, Dns_conns[servp->conn_id].pid, conn_id, Dns_conns[conn_id].task_name, Dns_conns[conn_id].node_name, Dns_conns[conn_id].port, Dns_conns[conn_id].pid, servp->conn_id); fflush(stdout); release_conn(servp->conn_id); update_did = 0; /* return(0); */ } else { Dns_conns[conn_id].already = 1; if( !dna_write_nowait(conn_id, &dis_packet, DNS_DIS_HEADER) ) { dim_print_date_time(); printf(" Kill Server: Couldn't write, releasing %d\n",conn_id); fflush(stdout); } dim_print_date_time(); printf(" Service %s already declared by conn %d - %s@%s:%d (PID %d), killing server conn %d - %s@%s:%d (PID %d) \n", servp->serv_name, servp->conn_id, Dns_conns[servp->conn_id].task_name, Dns_conns[servp->conn_id].node_name, Dns_conns[servp->conn_id].port, Dns_conns[servp->conn_id].pid, conn_id, Dns_conns[conn_id].task_name, Dns_conns[conn_id].node_name, Dns_conns[conn_id].port, Dns_conns[conn_id].pid); fflush(stdout); release_conn(conn_id); return(0); } #ifdef VMS } #endif } else if( servp->state != -1 ) { if( !dll_empty((DLL *) servp->node_head)) { /*there are interested clients waiting*/ strncpy( servp->serv_def, packet->services[i].service_def,MAX_NAME ); servp->conn_id = conn_id; servp->state = 1; servp->server_format = vtohl(packet->format); servp->serv_id = vtohl(packet->services[i].service_id); dll_insert_queue((DLL *) Dns_conns[conn_id].service_head, (DLL *) servp); Dns_conns[conn_id].n_services++; /* if(n_services == 1) */ if(n_services < MAX_REGISTRATION_UNIT) { inform_clients(servp); } continue; } else { /* test if Service is to be removed */ service_id = vtohl(packet->services[i].service_id); if(service_id & 0x80000000) { dll_remove((DLL *) servp); service_remove(&(servp->next)); Curr_n_services--; free(servp); connp = &Dns_conns[conn_id]; Dns_conns[conn_id].n_services--; if( dll_empty((DLL *) Dns_conns[conn_id].service_head)) { if( Debug ) { dim_print_date_time(); printf( " Conn %3d : Server %s@%s unregistered All services, releasing it.\n", conn_id, Dns_conns[conn_id].task_name, Dns_conns[conn_id].node_name ); fflush(stdout); } release_conn(conn_id); return(0); } continue; } } } else { servp->state = 1; Dns_conns[conn_id].n_services++; /* if(n_services == 1) */ if(n_services < MAX_REGISTRATION_UNIT) { if( !dll_empty((DLL *) servp->node_head) ) { inform_clients( servp ); } } continue; } } if(!(servp = service_exists(packet->services[i].service_name))) { servp = (DNS_SERVICE *)malloc(sizeof(DNS_SERVICE)); if(name_too_long) { if(strstr(packet->services[i].service_name,"/CLIENT_LIST")) { strncpy(Dns_conns[conn_id].long_task_name, packet->services[i].service_name, MAX_TASK_NAME*2); ptrt = strstr(Dns_conns[conn_id].long_task_name,"/CLIENT_LIST"); *ptrt = '\0'; } } strncpy( servp->serv_name, packet->services[i].service_name, MAX_NAME ); strncpy( servp->serv_def, packet->services[i].service_def, MAX_NAME ); servp->state = 1; servp->conn_id = conn_id; servp->server_format = vtohl(packet->format); servp->serv_id = vtohl(packet->services[i].service_id); dll_insert_queue( (DLL *) Dns_conns[conn_id].service_head, (DLL *) servp ); Dns_conns[conn_id].n_services++; service_insert( &(servp->next) ); servp->node_head = (RED_NODE *) malloc(sizeof(NODE)); dll_init( (DLL *) servp->node_head ); Curr_n_services++; } } if(update_did) do_update_did(conn_id); if( Debug ) { if(vtohl(packet->n_services) != 0) { dim_print_date_time(); printf( " Conn %3d : Server %s@%s (PID %d) registered %d services\n", conn_id, Dns_conns[conn_id].task_name, Dns_conns[conn_id].node_name, Dns_conns[conn_id].pid, vtohl(packet->n_services) ); fflush(stdout); } } return(1); } void update_did() { int i; void do_update_did(); for(i = 0; i< Curr_N_Conns; i++) { if(Dns_conns[i].src_type == SRC_DIS) { do_update_did(i); } } } void do_update_did(int conn_id) { int n_services, old_n_services; n_services = Dns_conns[conn_id].n_services; /* if(Dns_conns[conn_id].n_services) { */ old_n_services = Dns_conns[conn_id].old_n_services; if(old_n_services != n_services) { Last_conn_id = conn_id; if((old_n_services <= 0) || (n_services == 0) || (n_services == -1)) dis_update_service(Server_new_info_id); dis_update_service(Server_info_id); Dns_conns[conn_id].old_n_services = Dns_conns[conn_id].n_services; } /* } */ } void check_validity(int conn_id) { int time_diff; DNS_DIS_PACKET dis_packet; void set_in_error(); if(Dns_conns[conn_id].validity < 0) { /* timeout reached kill all services and connection */ if(Dns_conns[conn_id].n_services != -1) { dim_print_date_time(); printf(" Server %s (%s@%s) has been set in error\n", Dns_conns[conn_id].task_name, Net_conns[conn_id].task, Net_conns[conn_id].node); fflush(stdout); set_in_error(conn_id); return; } /* Dns_conns[conn_id].validity = -Dns_conns[conn_id].validity; */ } time_diff = time(NULL) - Dns_conns[conn_id].validity; if(time_diff > (int)(WATCHDOG_TMOUT_MAX*1.2)) { /* send register signal */ dis_packet.type = htovl(DNS_DIS_REGISTER); dis_packet.size = htovl(DNS_DIS_HEADER); if(Debug) { dim_print_date_time(); printf(" Conn %3d : Server %s@%s Registration Requested\n", conn_id, Net_conns[conn_id].task, Net_conns[conn_id].node); fflush(stdout); } /* moved from dna_write to dna_write_nowait in 14/10/2008 */ if( !dna_write_nowait(conn_id, &dis_packet, DNS_DIS_HEADER) ) { dim_print_date_time(); printf(" Server Validity: Couldn't write, releasing Conn %3d : Server %s@%s\n",conn_id, Net_conns[conn_id].task, Net_conns[conn_id].node); fflush(stdout); release_conn(conn_id); } else Dns_conns[conn_id].validity = -Dns_conns[conn_id].validity; } } int handle_client_request( int conn_id, DIC_DNS_PACKET *packet ) { DNS_SERVICE *servp; NODE *nodep; RED_NODE *red_nodep; int i, service_id; DNS_DIC_PACKET dic_packet; SERVICE_REG *serv_regp; void service_insert(); void service_remove(); void tcpip_get_addresses(); char *ptr, *ptr1; int found; serv_regp = (SERVICE_REG *)(&(packet->service)); if(Debug) { dim_print_date_time(); printf(" Conn %3d : Client %s@%s requested %s\n", conn_id, Net_conns[conn_id].task, Net_conns[conn_id].node, serv_regp->service_name); fflush(stdout); } if(DNS_accepted_nodes[0] == 0) { if(!get_dns_accepted_nodes(DNS_accepted_nodes)) DNS_accepted_nodes[0] = -1; } if(DNS_accepted_nodes[0] != -1) { ptr = DNS_accepted_nodes; found = 0; while(*ptr) { ptr1 = strchr(ptr,','); if(ptr1) { *ptr1 = '\0'; ptr1++; } else { ptr1 = ptr; ptr1 += strlen(ptr); } if(strstr(Net_conns[conn_id].node,ptr)) { found = 1; break; } ptr = ptr1; } if(!found) { dic_packet.service_id = serv_regp->service_id; dic_packet.node_name[0] = -1; dic_packet.task_name[0] = 0; dic_packet.node_addr[0] = 0; dic_packet.pid = 0; dic_packet.size = htovl(DNS_DIC_HEADER); dim_print_date_time(); printf(" Connection from %s refused, stopping client pid=%s\n", Net_conns[conn_id].node, Net_conns[conn_id].task); fflush(stdout); if( !dna_write_nowait(conn_id, &dic_packet, DNS_DIC_HEADER) ) { dim_print_date_time(); printf(" Stop Client: Couldn't write, releasing Conn %3d : Client %s@%s\n",conn_id, Net_conns[conn_id].task, Net_conns[conn_id].node); fflush(stdout); } release_conn(conn_id); return 0; } } service_id = vtohl(serv_regp->service_id); if( service_id == -1 ) /* remove service */ { if(Debug) { printf("\tRemoving Request\n"); fflush(stdout); } if( (servp = service_exists(serv_regp->service_name)) ) { red_nodep = servp->node_head; while( (red_nodep = (RED_NODE *) dll_get_next( (DLL *) servp->node_head, (DLL *) red_nodep)) ) { if( red_nodep->conn_id == conn_id ) { dll_remove((DLL *) red_nodep); ptr = (char *)red_nodep - (2 * sizeof(void *)); nodep = (NODE *)ptr; dll_remove((DLL *) nodep); red_nodep = red_nodep->prev; free(nodep); break; } } if(( dll_empty((DLL *) servp->node_head) ) && (servp->state == 0)) { if(Debug) { printf("\tand Removing Service\n"); fflush(stdout); } service_remove(&(servp->next)); Curr_n_services--; free(servp); } } return(0); } if( service_id & 0x80000000 ) /* remove service */ { service_id &= 0x7fffffff; if(Debug) { printf("\tRemoving Request\n"); fflush(stdout); } if( (servp = service_exists(serv_regp->service_name)) ) { red_nodep = servp->node_head; while( (red_nodep = (RED_NODE *) dll_get_next( (DLL *) servp->node_head, (DLL *) red_nodep)) ) { if(( red_nodep->conn_id == conn_id ) && ( red_nodep->service_id == service_id ) ) { dll_remove((DLL *) red_nodep); ptr = (char *)red_nodep - (2 * sizeof(void *)); nodep = (NODE *)ptr; dll_remove((DLL *) nodep); red_nodep = red_nodep->prev; free(nodep); break; } } if(( dll_empty((DLL *) servp->node_head) ) && (servp->state == 0)) { if(Debug) { printf("\tand Removing Service\n"); fflush(stdout); } service_remove(&(servp->next)); Curr_n_services--; free(servp); } } return(0); } /* Is already in v.format */ dic_packet.service_id = serv_regp->service_id; dic_packet.node_name[0] = 0; dic_packet.task_name[0] = 0; dic_packet.node_addr[0] = 0; dic_packet.pid = 0; dic_packet.size = htovl(DNS_DIC_HEADER); if( Dns_conns[conn_id].src_type == SRC_NONE ) dna_set_test_write(conn_id, dim_get_keepalive_timeout()); if( !(servp = service_exists(serv_regp->service_name)) ) { if(Debug) { printf("\tService does not exist, queueing request\n"); fflush(stdout); } if( !Dns_conns[conn_id].node_head ) { Dns_conns[conn_id].src_type = SRC_DIC; Dns_conns[conn_id].node_head = malloc(sizeof(NODE)); dll_init( (DLL *) Dns_conns[conn_id].node_head ); } servp = (DNS_SERVICE *) malloc(sizeof(DNS_SERVICE)); strncpy( servp->serv_name, serv_regp->service_name, MAX_NAME ); servp->serv_def[0] = '\0'; servp->state = 0; servp->conn_id = 0; service_insert(&(servp->next)); Curr_n_services++; servp->node_head = (RED_NODE *)malloc(sizeof(NODE)); dll_init( (DLL *) servp->node_head ); nodep = (NODE *)malloc(sizeof(NODE)); nodep->conn_id = conn_id; nodep->service_id = service_id; nodep->servp = servp; dll_insert_queue((DLL *) Dns_conns[conn_id].node_head, (DLL *) nodep); dll_insert_queue((DLL *) servp->node_head, (DLL *) &(nodep->next)); } else { if( servp->state == 1 ) { #ifdef VMS if(servp->server_format & MY_OS9) { dna_test_write(servp->conn_id); } #endif Dns_conns[conn_id].src_type = SRC_DIC; strcpy( dic_packet.node_name, Dns_conns[servp->conn_id].node_name ); strcpy( dic_packet.task_name, Dns_conns[servp->conn_id].task_name ); for(i = 0; i < 4; i++) dic_packet.node_addr[i] = Dns_conns[servp->conn_id].node_addr[i]; dic_packet.port = htovl(Dns_conns[servp->conn_id].port); dic_packet.pid = htovl(Dns_conns[servp->conn_id].pid); dic_packet.protocol = htovl(Dns_conns[servp->conn_id].protocol); dic_packet.format = htovl(servp->server_format); strcpy( dic_packet.service_def, servp->serv_def ); if(Debug) { printf("\tService exists in %s@%s, port = %d\n", dic_packet.task_name, dic_packet.node_name, dic_packet.port); fflush(stdout); } } else { if(Debug) { if(servp->state == -1) { printf("\tService exists in BAD state, queueing request\n"); fflush(stdout); } else { printf("\tService does not exist (other client(s) waiting), queueing request\n"); fflush(stdout); } } if(!(NODE *)Dns_conns[conn_id].node_head ) { Dns_conns[conn_id].src_type = SRC_DIC; Dns_conns[conn_id].node_head = (char *) malloc(sizeof(NODE)); dll_init((DLL *)Dns_conns[conn_id].node_head); } nodep = (NODE *)malloc(sizeof(NODE)); nodep->conn_id = conn_id; nodep->service_id = service_id; nodep->servp = servp; dll_insert_queue((DLL *) Dns_conns[conn_id].node_head, (DLL *) nodep); dll_insert_queue((DLL *) servp->node_head, (DLL *) &(nodep->next)); } } /* Should it be dna_write_nowait? 16/9/2008 */ /* moved from dna_write to dna_write_nowait in 14/10/2008 */ if( !dna_write_nowait(conn_id, &dic_packet, DNS_DIC_HEADER) ) { dim_print_date_time(); printf(" Client Request: Couldn't write, releasing Conn %3d : Client %s@%s\n",conn_id, Net_conns[conn_id].task, Net_conns[conn_id].node); fflush(stdout); release_conn(conn_id); } return(1); } void do_inform_clients(int conn_id) { DNS_SERVICE *servp; int n_informed = 0; static DNS_SERVICE *prev_servp = (DNS_SERVICE *)0; static int n_times = 0; void inform_clients(); DISABLE_AST if(!Dns_conns[conn_id].service_head) { prev_servp = (DNS_SERVICE *)0; ENABLE_AST return; } if(prev_servp) servp = prev_servp; else servp = (DNS_SERVICE *)Dns_conns[conn_id].service_head; while( (servp = (DNS_SERVICE *) dll_get_next( (DLL *) Dns_conns[conn_id].service_head, (DLL *) servp)) ) { if( servp->state != -1 ) { if( !dll_empty((DLL *) servp->node_head)) { inform_clients(servp); n_informed++; if(n_informed == 1000) { dtq_start_timer(0, do_inform_clients, conn_id); ENABLE_AST return; } } } } n_times = 0; prev_servp = (DNS_SERVICE *)0; ENABLE_AST } void inform_clients(DNS_SERVICE *servp) { RED_NODE *nodep, *prevp; NODE *full_nodep; DNS_DIC_PACKET packet; char *ptr; int i, to_release = 0; nodep = servp->node_head; prevp = nodep; while( (nodep = (RED_NODE *) dll_get_next((DLL *) servp->node_head, (DLL *) prevp)) ) { packet.service_id = htovl(nodep->service_id); strcpy(packet.node_name, Dns_conns[servp->conn_id].node_name); strcpy(packet.task_name, Dns_conns[servp->conn_id].task_name); for(i = 0; i < 4; i++) packet.node_addr[i] = Dns_conns[servp->conn_id].node_addr[i]; packet.port = htovl(Dns_conns[servp->conn_id].port); packet.pid = htovl(Dns_conns[servp->conn_id].pid); packet.protocol = htovl(Dns_conns[servp->conn_id].protocol); packet.size = htovl(DNS_DIC_HEADER); packet.format = htovl(servp->server_format); strcpy( packet.service_def, servp->serv_def ); /* Should it be dna_write_nowait? 16/9/2008 */ /* moved from dna_write to dna_write_nowait in 14/10/2008 */ /* dna_write_nowait(nodep->conn_id, &packet, DNS_DIC_HEADER); */ if( !dna_write_nowait(nodep->conn_id, &packet, DNS_DIC_HEADER) ) { dim_print_date_time(); printf(" Inform Client: Couldn't write, releasing Conn %3d : Client %s@%s\n",nodep->conn_id, Net_conns[nodep->conn_id].task, Net_conns[nodep->conn_id].node); fflush(stdout); to_release = nodep->conn_id; /* release_conn(nodep->conn_id); */ } /* if(dna_write_nowait(nodep->conn_id, &packet, DNS_DIC_HEADER)) { */ dll_remove( (DLL *) nodep ); ptr = (char *)nodep - (2 * sizeof(void *)); full_nodep = (NODE *)ptr; dll_remove( (DLL *) full_nodep ); nodep = nodep->prev; free( full_nodep ); prevp = nodep; /* } */ } if(to_release) release_conn(to_release); } #ifdef VMS static release_client(int conn_id) { char *ptr_task; char *ptr_node; int i; ptr_task = Net_conns[conn_id].task; ptr_node = Net_conns[conn_id].node; for( i = 0; i< Curr_N_Conns; i++ ) { if( (!strcmp(Net_conns[i].task,ptr_task)) && (!strcmp(Net_conns[i].node,ptr_node)) ) { if(i != conn_id) { if( Dns_conns[i].src_type == SRC_DIC ) { if(Debug) { dim_print_date_time(); printf(" Releasing client on conn %d - %s@%s\n", i, Net_conns[i].task, Net_conns[i].node); fflush(stdout); } release_conn(i); } } } } } #endif static void release_conn(int conn_id) { DNS_SERVICE *servp, *old_servp; NODE *nodep, *old_nodep; DNS_CONNECTION *connp; void service_remove(); connp = &Dns_conns[conn_id]; if( Dns_conns[conn_id].src_type == SRC_DIS ) { if( Debug ) { dim_print_date_time(); printf( " Conn %3d : Server %s@%s died\n", conn_id, Dns_conns[conn_id].task_name, Dns_conns[conn_id].node_name); fflush(stdout); } else { if(Dns_conns[conn_id].n_services == -1) { dim_print_date_time(); printf( " Conn %3d : Server %s@%s died\n", conn_id, Dns_conns[conn_id].task_name, Dns_conns[conn_id].node_name); fflush(stdout); } } Curr_n_servers--; if( Dns_conns[conn_id].timr_ent ) { dtq_rem_entry( Timer_q, Dns_conns[conn_id].timr_ent ); Dns_conns[conn_id].timr_ent = NULL; } servp = (DNS_SERVICE *)Dns_conns[conn_id].service_head; while( (servp = (DNS_SERVICE *) dll_get_next( (DLL *) Dns_conns[conn_id].service_head, (DLL *) servp)) ) { dll_remove((DLL *) servp); if(dll_empty((DLL *) servp->node_head)) { service_remove(&(servp->next)); Curr_n_services--; old_servp = servp; servp = servp->server_prev; free(old_servp); } else { servp->state = 0; servp->conn_id = 0; servp = servp->server_prev; } } if(Dns_conns[conn_id].n_services) { Dns_conns[conn_id].n_services = 0; do_update_did(conn_id); /* Last_conn_id = conn_id; dis_update_service(Server_new_info_id); dis_update_service(Server_info_id); */ } free((DNS_SERVICE *)Dns_conns[conn_id].service_head); Dns_conns[conn_id].service_head = 0; Dns_conns[conn_id].src_type = SRC_NONE; dna_close(conn_id); } else if(Dns_conns[conn_id].src_type == SRC_DIC) { if(Debug) { dim_print_date_time(); printf(" Conn %3d : Client %s@%s died\n", conn_id, Net_conns[conn_id].task, Net_conns[conn_id].node); fflush(stdout); } if( (nodep = (NODE *)Dns_conns[conn_id].node_head) ) { while( (nodep = (NODE *) dll_get_next( (DLL *) Dns_conns[conn_id].node_head, (DLL *) nodep)) ) { servp = nodep->servp; dll_remove( (DLL *) nodep ); dll_remove( (DLL *) &(nodep->next) ); old_nodep = nodep; nodep = nodep->client_prev; free(old_nodep); if( (dll_empty((DLL *) servp->node_head)) && (!servp->conn_id) ) { service_remove(&(servp->next)); Curr_n_services--; free( servp ); } } free(Dns_conns[conn_id].node_head); Dns_conns[conn_id].node_head = 0; } Dns_conns[conn_id].src_type = SRC_NONE; dna_close(conn_id); } else { if(Debug) { dim_print_date_time(); printf(" Conn %3d : Undefined Type %s@%s died\n", conn_id, Net_conns[conn_id].task, Net_conns[conn_id].node); fflush(stdout); } dna_close(conn_id); } } void set_in_error(int conn_id) { DNS_SERVICE *servp; if(Dns_conns[conn_id].src_type == SRC_DIS) { if(strcmp(Dns_conns[conn_id].task_name,"DIS_DNS")) dna_rem_test_write(conn_id); servp = (DNS_SERVICE *)Dns_conns[conn_id].service_head; while( (servp = (DNS_SERVICE *) dll_get_next( (DLL *) Dns_conns[conn_id].service_head, (DLL *) servp)) ) servp->state = -1; Dns_conns[conn_id].n_services = -1; } } void get_dns_server_info(int *tag, int **bufp, int *size, int *first_time) { if(tag){} if(*first_time) { #ifdef VMS sys$wake(0, 0); #else wake_up = TRUE; #ifdef WIN32 wake_up(); #endif #endif *size = 0; } else { send_dns_server_info(Last_conn_id, bufp, size); } } void send_dns_server_info(int conn_id, int **bufp, int *size) { static int curr_allocated_size = 0; static DNS_DID *dns_info_buffer; DNS_SERVICE *servp; DNS_SERVER_INFO *dns_server_info; DNS_SERVICE_INFO *dns_service_info; DNS_CONNECTION *connp; int max_size; int n_services; DISABLE_AST connp = &Dns_conns[conn_id]; if(connp->src_type != SRC_DIS) { ENABLE_AST return; } n_services = connp->n_services; if(n_services == -1) n_services = 0; max_size = sizeof(DNS_SERVER_INFO) + n_services * sizeof(DNS_SERVICE_INFO); if(!curr_allocated_size) { dns_info_buffer = (DNS_DID *)malloc(max_size); curr_allocated_size = max_size; } else if (max_size > curr_allocated_size) { free(dns_info_buffer); dns_info_buffer = (DNS_DID *)malloc(max_size); curr_allocated_size = max_size; } dns_server_info = &dns_info_buffer->server; dns_service_info = dns_info_buffer->services; strncpy(dns_server_info->task, connp->task_name, MAX_TASK_NAME-4); strncpy(dns_server_info->node, connp->node_name, MAX_NODE_NAME); dns_server_info->pid = htovl(connp->pid); dns_server_info->n_services = htovl(connp->n_services); servp = (DNS_SERVICE *)connp->service_head; while( (servp = (DNS_SERVICE *) dll_get_next((DLL *) connp->service_head, (DLL *) servp)) ) { strncpy(dns_service_info->name, servp->serv_name, MAX_NAME); dns_service_info->status = htovl(1); if(servp->serv_id & 0x10000000) dns_service_info->type = htovl(1); else dns_service_info->type = htovl(0); dns_service_info++; } *bufp = (int *)dns_info_buffer; *size = max_size; ENABLE_AST } void get_new_dns_server_info(int *tag, int **bufp, int *size, int *first_time) { static int curr_allocated_size = 0; static char *info_buffer; static int *pid_buffer, pid_size; int pid_index = 0; DNS_CONNECTION *connp; int i, max_size, max_pid_size/*, j, n*/; int n_server = 0; char /*aux[MAX_NAME], *ptr, */ server[MAX_NAME], *info_buffer_ptr; /* DNS_SERVICE *servp; int find_services(); */ DISABLE_AST if(tag){} for( i = 0; i< Curr_N_Conns; i++ ) { if( Dns_conns[i].src_type == SRC_DIS ) { n_server++; } } max_size = (sizeof(DNS_SERVER_INFO) + MAX_TASK_NAME) * n_server; max_pid_size = sizeof(int) * n_server; if(!curr_allocated_size) { info_buffer = (char *)malloc(max_size); curr_allocated_size = max_size; pid_buffer = (int *)malloc(max_pid_size); } else if (max_size > curr_allocated_size) { free(info_buffer); info_buffer = (char *)malloc(max_size); curr_allocated_size = max_size; free(pid_buffer); pid_buffer = (int *)malloc(max_pid_size); } info_buffer[0] = '\0'; pid_buffer[0] = 0; info_buffer_ptr = info_buffer; if(*first_time) { for( i = 0; i< Curr_N_Conns; i++ ) { if( Dns_conns[i].src_type == SRC_DIS ) { connp = &Dns_conns[i]; /* if(strlen(connp->task_name) == MAX_TASK_NAME-4-1) { strcpy(aux,connp->task_name); strcat(aux,"--CLIENT_LIST"); n = find_services(aux); for(j = 0; j < n; j++) { servp = Service_info_list[j]; if(i == servp->conn_id) { strcpy(aux,servp->serv_name); ptr = strstr(aux,"/CLIENT_LIST"); if(ptr) *ptr = '\0'; break; } } free(Service_info_list); strcpy(server, aux); } else { */ strcpy(server, connp->long_task_name); /* } */ strcat(server,"@"); strcat(server, connp->node_name); strcat(server,"|"); strcpy(info_buffer_ptr, server); info_buffer_ptr += strlen(server); pid_buffer[pid_index] = connp->pid; pid_index++; } } } else { connp = &Dns_conns[Last_conn_id]; if(connp->n_services > 0) strcat(info_buffer, "+"); else if(connp->n_services == -1) strcat(info_buffer, "!"); else strcat(info_buffer, "-"); strcat(info_buffer, connp->long_task_name); strcat(info_buffer,"@"); strcat(info_buffer, connp->node_name); strcat(info_buffer,"|"); pid_buffer[pid_index] = connp->pid; pid_index++; } info_buffer[strlen(info_buffer) - 1] = '\0'; info_buffer_ptr = &info_buffer[strlen(info_buffer)+1]; pid_size = 0; for(i = 0; i < pid_index; i++) { if(i != (pid_index -1)) sprintf(server, "%d|",pid_buffer[i]); else sprintf(server, "%d",pid_buffer[i]); strcpy(info_buffer_ptr, server); info_buffer_ptr += strlen(server); pid_size += strlen(server); } *bufp = (int *)info_buffer; *size = strlen(info_buffer)+1+pid_size+1; ENABLE_AST } int main(int argc, char **argv) { int i, protocol, dns_port; int *bufp; int size; int conn_id, id; DIS_DNS_PACKET *dis_dns_packet; char node[MAX_NAME]; void service_init(); if(argc > 1) { if(!strcmp(argv[1],"-d")) set_debug_on(); else { printf("Parameters: -d Debug On\n"); exit(0); } } dim_set_write_timeout(10); dim_set_listen_backlog(1024); dim_init(); conn_arr_create( SRC_DNS ); service_init(); Timer_q = dtq_create(); get_node_name(node); dim_print_date_time(); printf(" DNS version %d starting up on %s\n",DIM_VERSION_NUMBER, node); fflush(stdout); Server_new_info_id = dis_add_service( "DIS_DNS/SERVER_LIST", "C", 0, 0, get_new_dns_server_info, 0 ); Server_info_id = dis_add_service( "DIS_DNS/SERVER_INFO", 0, 0, 0, get_dns_server_info, 0 ); dis_add_cmnd( "DIS_DNS/PRINT_STATS", 0, print_stats, 0 ); dis_add_cmnd( "DIS_DNS/DEBUG_ON", 0, set_debug_on, 0 ); dis_add_cmnd( "DIS_DNS/DEBUG_OFF", 0, set_debug_off, 0 ); dis_add_cmnd( "DIS_DNS/KILL_SERVERS", 0, kill_servers, 0 ); dis_add_cmnd( "DIS_DNS/PRINT_HASH_TABLE", 0, print_hash_table, 0 ); dis_add_cmnd( "DIS_DNS/SERVICE_INFO/RpcIn", "C", set_rpc_info, 0 ); Rpc_id = dis_add_service( "DIS_DNS/SERVICE_INFO/RpcOut", "C", 0, 0, get_rpc_info, 0 ); dns_port = get_dns_port_number(); if( !dna_open_server(DNS_TASK, recv_rout, &protocol, &dns_port, error_handler) ) return(0); id = dis_start_serving("DIS_DNS"); dis_dns_packet = (DIS_DNS_PACKET *) id_get_ptr(id, SRC_DIS); id_free(id, SRC_DIS); conn_id = conn_get(); handle_registration(conn_id, dis_dns_packet, 0); dtq_add_entry(Timer_q, 5, update_did, 0xded0000); while(1) { #ifdef VMS sys$hiber(); #else wake_up = FALSE; while( !wake_up ) { dim_wait(); } #endif for( i = 0; i< Curr_N_Conns; i++ ) { if( Dns_conns[i].src_type == SRC_DIS ) { send_dns_server_info( i, &bufp, &size ); dis_send_service( Server_info_id, bufp, size ); } } } return(1); } void print_stats() { int i; int n_conns = 0; int n_services = 0; int n_servers = 0; int n_clients = 0; dim_print_date_time(); printf(" Connection Statistics :\n"); for(i = 0; i< Curr_N_Conns; i++) { switch(Dns_conns[i].src_type) { case SRC_DIS : printf("%d - Server %s@%s (PID %d) %d services\n", i, Dns_conns[i].task_name, Dns_conns[i].node_name, Dns_conns[i].pid, Dns_conns[i].n_services); fflush(stdout); n_services += Dns_conns[i].n_services; n_servers++; n_conns++; break; case SRC_DIC : printf("%d - Client %s@%s\n", i, Net_conns[i].task, Net_conns[i].node); fflush(stdout); n_conns++; n_clients++; break; default : if(Dna_conns[i].busy) { if(Net_conns[i].task[0] && Net_conns[i].node[0]) printf("%d - Undefined %s@%s\n", i, Net_conns[i].task, Net_conns[i].node); else printf("%d - Undefined\n", i); fflush(stdout); n_conns++; } else { printf("%d - Empty\n", i); fflush(stdout); } } } printf("Number of Connections = %d : %d servers, %d clients\n", n_conns, n_servers, n_clients); printf("Number of Services = %d\n", n_services); fflush(stdout); } void set_debug_on() { Debug = 1; } void set_debug_off() { Debug = 0; } void kill_servers() { int i; DNS_DIS_PACKET dis_packet; for(i = 0; i< Curr_N_Conns; i++) { if(Dns_conns[i].src_type == SRC_DIS) { if(!strcmp(Dns_conns[i].task_name,"DIS_DNS")) continue; dim_print_date_time(); printf(" Killing server %s@%s\n", Dns_conns[i].task_name, Dns_conns[i].node_name); fflush(stdout); dis_packet.type = htovl(DNS_DIS_EXIT); dis_packet.size = htovl(DNS_DIS_HEADER); if( !dna_write_nowait(i, &dis_packet, DNS_DIS_HEADER) ) { dim_print_date_time(); printf(" Kill Server: Couldn't write, releasing %d\n",i); fflush(stdout); release_conn(i); } } } } void service_init() { int i; for( i = 0; i < MAX_HASH_ENTRIES; i++ ) { Service_hash_table[i] = (RED_DNS_SERVICE *) malloc(sizeof(RED_DNS_SERVICE)); dll_init((DLL *) Service_hash_table[i]); } } void service_insert(RED_DNS_SERVICE *servp) { int index; index = HashFunction(servp->serv_name, MAX_HASH_ENTRIES); dll_insert_queue((DLL *) Service_hash_table[index], (DLL *) servp); } void service_remove(RED_DNS_SERVICE *servp) { if( servp->node_head ) free( servp->node_head ); dll_remove( (DLL *) servp ); } DNS_SERVICE *service_exists(char *name) { int index; RED_DNS_SERVICE *servp; char *ptr; index = HashFunction(name, MAX_HASH_ENTRIES); if( (servp = (RED_DNS_SERVICE *) dll_search( (DLL *) Service_hash_table[index], name, strlen(name)+1)) ) { ptr = (char *)servp - (2 * sizeof(void *)); return((DNS_SERVICE *)ptr); } return((DNS_SERVICE *)0); } void print_hash_table() { int i; RED_DNS_SERVICE *servp; int n_entries, max_entry_index = 0; int max_entries = 0; #ifdef VMS if( ( foutptr = fopen( "scratch$week:[cp_operator]dim_dns.log", "w" ) ) == (FILE *)0 ) { printf("Cannot open: scratch$week:[cp_operator]dim_dns.log for writing\n"); fflush(stdout); return; } #endif for( i = 0; i < MAX_HASH_ENTRIES; i++ ) { n_entries = 0; #ifdef VMS fprintf(foutptr,"HASH[%d] : \n",i); #endif servp = Service_hash_table[i]; while( (servp = (RED_DNS_SERVICE *) dll_get_next( (DLL *) Service_hash_table[i], (DLL *) servp)) ) { #ifdef VMS fprintf(foutptr,"%s\n",servp->serv_name); #endif n_entries++; } #ifdef VMS fprintf(foutptr,"\n\n"); #endif if(n_entries != 0) printf("HASH[%d] - %d entries\n", i, n_entries); if(n_entries > max_entries) { max_entries = n_entries; max_entry_index = i; } } #ifdef VMS fclose(foutptr); #endif printf("Maximum : HASH[%d] - %d entries\n", max_entry_index, max_entries); fflush(stdout); } int find_services(char *wild_name) { int i; RED_DNS_SERVICE *servp; DNS_SERVICE *servp1; char tmp[MAX_NAME], *ptr, *ptr1, *dptr, *dptr1; int match, count = 0; Service_info_list = (DNS_SERVICE **) malloc(Curr_n_services*sizeof(DNS_SERVICE *)); if(!strchr(wild_name, '*')) { servp1 = service_exists(wild_name); if(servp1) { if(servp1->state == 1) { Service_info_list[count] = (DNS_SERVICE *)servp1; count++; return 1; } } return 0; } for( i = 0; i < MAX_HASH_ENTRIES; i++ ) { servp = Service_hash_table[i]; while( (servp = (RED_DNS_SERVICE *) dll_get_next( (DLL *) Service_hash_table[i], (DLL *) servp)) ) { ptr = wild_name; dptr = servp->serv_name; match = 1; while( (ptr1 = strchr(ptr,'*')) ) { if(ptr1 == ptr) { ptr++; if(!*ptr) { dptr = ptr; break; } strcpy(tmp,ptr); if( (ptr1 = strchr(ptr,'*')) ) { tmp[ptr1-ptr] = '\0'; } if( (dptr1 = strstr(dptr, tmp)) ) { if(!ptr1) { dptr = dptr1; break; } dptr1 += strlen(tmp); ptr = ptr1; dptr = dptr1; } else { match = 0; break; } } else { strcpy(tmp,ptr); tmp[ptr1-ptr] = '\0'; if(!strncmp(dptr, tmp, strlen(tmp))) { dptr += strlen(tmp); ptr = ptr1; } else { match = 0; break; } } } if(strcmp(dptr, ptr)) { strcpy(tmp,ptr); strcat(tmp,"/RpcIn"); if(strcmp(dptr, tmp)) match = 0; } if(match) { if(servp->state == 1) { ptr = (char *)servp - (2 * sizeof(void *)); Service_info_list[count] = (DNS_SERVICE *)ptr; count++; } } } } return(count); } void set_rpc_info(int *tag, char *buffer, int *size) { char aux[MAX_NAME], rpcaux[MAX_NAME+32], *ptr, *rpcptr; int i, n, rpc, id[2], conn_id; DNS_SERVICE *servp, *aux_servp; if(size){} if(tag){} if(Debug) { dim_print_date_time(); conn_id = dis_get_conn_id(); printf(" Got Browse Request <%s> from conn: %d %s@%s\n", buffer, conn_id, Net_conns[conn_id].task,Net_conns[conn_id].node); } n = find_services(buffer); if(Debug) { dim_print_date_time(); conn_id = dis_get_conn_id(); printf(" Browse Request <%s> found %d services\n", buffer, n); } if(!Rpc_info_size) { Rpc_info = malloc(MAX_NAME*(n+1)*2); Rpc_info_size = MAX_NAME*(n+1)*2; } else if(Rpc_info_size < MAX_NAME*n*2) { free(Rpc_info); Rpc_info = malloc(MAX_NAME*(n+1)*2); Rpc_info_size = MAX_NAME*(n+1)*2; } Rpc_info[0] = '\0'; rpcptr = Rpc_info; for(i = 0; i < n; i++) { rpc = 0; servp = Service_info_list[i]; if(strstr(servp->serv_name,"/Rpc")) { strcpy(aux,servp->serv_name); if( (ptr = strstr(aux,"/RpcIn")) ) { *ptr = '\0'; rpc = 1; if( (ptr = strstr(Rpc_info, aux)) ) { ptr += strlen(aux); if(*ptr == '|') rpc = 2; } } if( (ptr = strstr(aux,"/RpcOut")) ) { *ptr = '\0'; rpc = 1; if( (ptr = strstr(Rpc_info, aux)) ) { ptr += strlen(aux); if(*ptr == '|') rpc = 2; } } if(rpc == 1) { strcpy(rpcaux, aux); strcat(rpcaux,"|"); strcat(aux,"/RpcIn"); if( (aux_servp = service_exists(aux)) ) { strcat(rpcaux, aux_servp->serv_def); strcat(rpcaux,","); ptr = strstr(aux,"/RpcIn"); *ptr = '\0'; strcat(aux,"/RpcOut"); if( (aux_servp = service_exists(aux)) ) { strcat(rpcaux,aux_servp->serv_def); strcat(rpcaux,"|RPC\n"); strcpy(rpcptr, rpcaux); rpcptr += strlen(rpcaux); } } } } else { strcpy(rpcaux, servp->serv_name); strcat(rpcaux,"|"); strcat(rpcaux,servp->serv_def); if(servp->serv_id & 0x10000000) strcat(rpcaux,"|CMD\n"); else strcat(rpcaux,"|\n"); strcpy(rpcptr, rpcaux); rpcptr += strlen(rpcaux); } } *rpcptr = '\0'; id[0] = dis_get_conn_id(); id[1] = 0; dis_selective_update_service(Rpc_id, id); free(Service_info_list); } void get_rpc_info(int *tag, char **buffer, int *size) { if(tag){} *buffer = Rpc_info; *size = strlen(Rpc_info)+1; }