/* * DNA (Delphi Network Access) implements the network layer for the DIM * (Delphi Information Managment) System. * * Started date : 10-11-91 * Written by : C. Gaspar * UNIX adjustment: G.C. Ballintijn * */ /* include files */ #include #define DIMLIB #define DNA #include /* global definitions */ #define READ_HEADER_SIZE 12 /* #define TO_DBG 1 */ /* global variables */ typedef struct { char node_name[MAX_NODE_NAME]; char task_name[MAX_TASK_NAME]; int port; SRC_TYPES src_type; } PENDING_OPEN; static PENDING_OPEN Pending_conns[MAX_CONNS]; static int DNA_Initialized = FALSE; extern int Tcpip_max_io_data_write; extern int Tcpip_max_io_data_read; _DIM_PROTO( static void ast_read_h, (int conn_id, int status, int size) ); _DIM_PROTO( static void ast_conn_h, (int handle, int svr_conn_id, int protocol) ); _DIM_PROTO( static int dna_write_bytes, (int conn_id, void *buffer, int size, int nowait) ); _DIM_PROTO( static void release_conn, (int conn_id) ); _DIM_PROTO( static void save_node_task, (int conn_id, DNA_NET *buffer) ); /* * Routines common to Server and Client */ /* static int Prev_packet[3]; static int Prev_buffer[3]; static int Prev_conn_id = 0; */ static int is_header( int conn_id ) { register DNA_CONNECTION *dna_connp = &Dna_conns[conn_id]; register int ret; ret = 0; if( (vtohl(dna_connp->buffer[2]) == TRP_MAGIC) && (vtohl(dna_connp->buffer[1]) == 0) && (vtohl(dna_connp->buffer[0]) == READ_HEADER_SIZE) ) { dna_connp->state = RD_HDR; ret = 1; } else if( (vtohl(dna_connp->buffer[2]) == TST_MAGIC) && (vtohl(dna_connp->buffer[1]) == 0) && (vtohl(dna_connp->buffer[0]) == READ_HEADER_SIZE) ) { dna_connp->state = RD_HDR; ret = 1; } else if( (vtohl(dna_connp->buffer[2]) == (int)HDR_MAGIC ) && (vtohl(dna_connp->buffer[0]) == (int)READ_HEADER_SIZE ) ) { dna_connp->state = RD_DATA; ret = 1; } else { /* dim_print_date_time(); printf( " conn: %d to %s@%s, expecting header\n", conn_id, Net_conns[conn_id].task, Net_conns[conn_id].node ); printf( "buffer[0]=%d\n", vtohl(dna_connp->buffer[0])); printf( "buffer[1]=%d\n", vtohl(dna_connp->buffer[1])); printf( "buffer[2]=%x\n", vtohl(dna_connp->buffer[2])); printf( "closing the connection.\n" ); printf( " Previous conn: %d, Previous Packet\n", Prev_conn_id); printf( "buffer[0]=%d\n", vtohl(Prev_packet[0])); printf( "buffer[1]=%d\n", vtohl(Prev_packet[1])); printf( "buffer[2]=%x\n", vtohl(Prev_packet[2])); printf( " Previous Buffer\n"); printf( "buffer[0]=%d\n", vtohl(Prev_buffer[0])); printf( "buffer[1]=%d\n", vtohl(Prev_buffer[1])); printf( "buffer[2]=%x\n", vtohl(Prev_buffer[2])); fflush(stdout); */ dna_connp->read_ast(conn_id, NULL, 0, STA_DISC); ret = 0; } return(ret); } static void read_data( int conn_id) { register DNA_CONNECTION *dna_connp = &Dna_conns[conn_id]; if( !dna_connp->saw_init && vtohl(dna_connp->buffer[0]) == (int)OPN_MAGIC) { save_node_task(conn_id, (DNA_NET *) dna_connp->buffer); dna_connp->saw_init = TRUE; } else { /* printf("passing up %d bytes, conn_id %d\n",dna_connp->full_size, conn_id); */ dna_connp->read_ast(conn_id, dna_connp->buffer, dna_connp->full_size, STA_DATA); } } static void ast_read_h( int conn_id, int status, int size ) { register DNA_CONNECTION *dna_connp = &Dna_conns[conn_id]; int tcpip_code; register int read_size, next_size; register char *buff; int max_io_data; if(!dna_connp->buffer) /* The connection has already been closed */ { return; } if(status == 1) { next_size = dna_connp->curr_size; buff = (char *) dna_connp->curr_buffer; if(size < next_size) { /* Prev_conn_id = conn_id; Prev_packet[0] = ((int *)dna_connp->curr_buffer)[0]; Prev_packet[1] = ((int *)dna_connp->curr_buffer)[1]; Prev_packet[2] = ((int *)dna_connp->curr_buffer)[2]; Prev_buffer[0] = dna_connp->buffer[0]; Prev_buffer[1] = dna_connp->buffer[1]; Prev_buffer[2] = dna_connp->buffer[2]; */ max_io_data = Tcpip_max_io_data_read; read_size = ((next_size - size) > max_io_data) ? max_io_data : next_size - size; dna_connp->curr_size -= size; dna_connp->curr_buffer += size; tcpip_code = tcpip_start_read(conn_id, buff + size, read_size, ast_read_h); if(tcpip_failure(tcpip_code)) { #ifndef WIN32 if(errno == ENOTSOCK) { if(dna_connp->read_ast) dna_connp->read_ast(conn_id, NULL, 0, STA_DISC); } else #endif { dna_report_error(conn_id, tcpip_code, "Reading from", DIM_ERROR, DIMTCPRDERR); } } return; } switch(dna_connp->state) { case RD_HDR : if(is_header(conn_id)) { if( dna_connp->state == RD_DATA ) { next_size = vtohl(dna_connp->buffer[1]); dna_start_read(conn_id, next_size); } else { dna_connp->state = RD_HDR; dna_start_read(conn_id, READ_HEADER_SIZE); } } break; case RD_DATA : read_data(conn_id); dna_connp->state = RD_HDR; dna_start_read(conn_id, READ_HEADER_SIZE); break; default: break; } /* if(dna_connp->buffer) { Prev_conn_id = conn_id; Prev_packet[0] = ((int *)dna_connp->curr_buffer)[0]; Prev_packet[1] = ((int *)dna_connp->curr_buffer)[1]; Prev_packet[2] = ((int *)dna_connp->curr_buffer)[2]; Prev_buffer[0] = dna_connp->buffer[0]; Prev_buffer[1] = dna_connp->buffer[1]; Prev_buffer[2] = dna_connp->buffer[2]; } */ } else { /* printf("Connection lost. Signal upper layer\n"); */ if(dna_connp->read_ast) dna_connp->read_ast(conn_id, NULL, 0, STA_DISC); } } int dna_start_read(int conn_id, int size) { register DNA_CONNECTION *dna_connp = &Dna_conns[conn_id]; register int tcpip_code, read_size; int max_io_data; if(!dna_connp->busy) { return(0); } dna_connp->curr_size = size; dna_connp->full_size = size; if(size > dna_connp->buffer_size) { dna_connp->buffer = (int *) realloc(dna_connp->buffer, size); dna_connp->buffer_size = size; } dna_connp->curr_buffer = (char *) dna_connp->buffer; max_io_data = Tcpip_max_io_data_read; read_size = (size > max_io_data) ? max_io_data : size ; tcpip_code = tcpip_start_read(conn_id, dna_connp->curr_buffer, read_size, ast_read_h); if(tcpip_failure(tcpip_code)) { dna_report_error(conn_id, tcpip_code, "Reading from", DIM_ERROR, DIMTCPRDERR); return(0); } return(1); } static int dna_write_bytes( int conn_id, void *buffer, int size, int nowait ) { register int size_left, wrote; register char *p; int max_io_data; #ifdef VMS int retries = WRITE_RETRIES, retrying = 0; float wait_time = 0.01; #endif extern int tcpip_write_nowait(int, char *, int); max_io_data = Tcpip_max_io_data_write; p = (char *) buffer; size_left = size; do { size = (size_left > max_io_data) ? max_io_data : size_left ; #ifdef VMS if(nowait) { while(--retries) { if((wrote = tcpip_write_nowait(conn_id, p, size)) > 0) break; if(!tcpip_would_block(wrote)) return(0); if(retries == WRITE_RETRIES_WNG) { dna_report_error(conn_id, tcpip_code, "Writing to (retrying)", DIM_WARNING, DIMTCPWRRTY); retrying = 1; } lib$wait(&wait_time); } if(!retries) { return(0); } } else wrote = tcpip_write(conn_id, p, size); #else if(nowait) { wrote = tcpip_write_nowait(conn_id, p, size); if(wrote == -1) { dna_report_error(conn_id, -1, "Write timeout, disconnecting from", DIM_ERROR, DIMTCPWRTMO); wrote = 0; } } else { wrote = tcpip_write(conn_id, p, size); } #endif if( tcpip_failure(wrote) ) return(0); p += wrote; size_left -= wrote; } while(size_left > 0); return(1); } void dna_test_write(int conn_id) { register DNA_CONNECTION *dna_connp = &Dna_conns[conn_id]; register int tcpip_code; DNA_HEADER test_pkt; register DNA_HEADER *test_p = &test_pkt; if(!dna_connp->busy) { return; } if(dna_connp->writing) { return; } test_p->header_size = htovl(READ_HEADER_SIZE); test_p->data_size = 0; test_p->header_magic = htovl(TST_MAGIC); tcpip_code = dna_write_bytes(conn_id, &test_pkt, READ_HEADER_SIZE,0); if(tcpip_failure(tcpip_code)) { /* Connection lost. Signal upper layer ? */ if(dna_connp->read_ast) dna_connp->read_ast(conn_id, NULL, 0, STA_DISC); return; } } typedef struct { int conn_id; void *buffer; int size; char dummy[MAX_NAME]; } WRITE_ITEM; static int do_dna_write(int id) { register DNA_CONNECTION *dna_connp; int tcpip_code; WRITE_ITEM *ptr; int conn_id, size; void *buffer; ptr = (WRITE_ITEM *)id_get_ptr(id, SRC_DNA); if(!ptr) return(2); conn_id = ptr->conn_id; buffer = ptr->buffer; size = ptr->size; dna_connp = &Dna_conns[conn_id]; if(!dna_connp->busy) { id_free(id, SRC_DNA); free(buffer); free(ptr); return(2); } dna_connp->writing = TRUE; tcpip_code = dna_write_bytes(conn_id, buffer, size,0); if(tcpip_failure(tcpip_code)) { dna_connp->writing = FALSE; id_free(id, SRC_DNA); free(buffer); free(ptr); return(0); } id_free(id, SRC_DNA); free(buffer); free(ptr); dna_connp->writing = FALSE; return(1); } int dna_write_nowait(int conn_id, void *buffer, int size) { register DNA_CONNECTION *dna_connp; DNA_HEADER header_pkt; register DNA_HEADER *header_p = &header_pkt; int tcpip_code, ret = 1; DISABLE_AST dna_connp = &Dna_conns[conn_id]; if(!dna_connp->busy) { ENABLE_AST return(2); } dna_connp->writing = TRUE; header_p->header_size = htovl(READ_HEADER_SIZE); header_p->data_size = htovl(size); header_p->header_magic = htovl(HDR_MAGIC); tcpip_code = dna_write_bytes(conn_id, &header_pkt, READ_HEADER_SIZE, 1); if(tcpip_failure(tcpip_code)) { dna_connp->writing = FALSE; ENABLE_AST return(0); } tcpip_code = dna_write_bytes(conn_id, buffer, size, 1); if(tcpip_failure(tcpip_code)) { ret = 0; } dna_connp->writing = FALSE; ENABLE_AST return(ret); } typedef struct { DNA_HEADER header; char data[1]; }WRITE_DATA; int dna_write(int conn_id, void *buffer, int size) { WRITE_ITEM *newp; int id; WRITE_DATA *pktp; DNA_HEADER *headerp; DISABLE_AST pktp = malloc(READ_HEADER_SIZE+size); headerp = &(pktp->header); headerp->header_size = htovl(READ_HEADER_SIZE); headerp->data_size = htovl(size); headerp->header_magic = htovl(HDR_MAGIC); memcpy(pktp->data, (char *)buffer, size); newp = malloc(sizeof(WRITE_ITEM)); newp->conn_id = conn_id; newp->buffer = pktp; newp->size = size+READ_HEADER_SIZE; id = id_get((void *)newp, SRC_DNA); dtq_start_timer(0, do_dna_write, id); ENABLE_AST return(1); } /* Server Routines */ static void ast_conn_h(int handle, int svr_conn_id, int protocol) { register DNA_CONNECTION *dna_connp; register int tcpip_code; register int conn_id; if(protocol){} conn_id = conn_get(); /* if(!conn_id) dim_panic("In ast_conn_h: No more connections\n"); */ dna_connp = &Dna_conns[conn_id] ; dna_connp->error_ast = Dna_conns[svr_conn_id].error_ast; tcpip_code = tcpip_open_connection( conn_id, handle ); if(tcpip_failure(tcpip_code)) { dna_report_error(conn_id, tcpip_code, "Connecting to", DIM_ERROR, DIMTCPCNERR); conn_free(conn_id); } else { dna_connp->state = RD_HDR; dna_connp->buffer = (int *)malloc(TCP_RCV_BUF_SIZE); /* if(!dna_connp->buffer) { printf("Error in DNA - handle_connection malloc returned 0\n"); fflush(stdout); } */ dna_connp->buffer_size = TCP_RCV_BUF_SIZE; dna_connp->read_ast = Dna_conns[svr_conn_id].read_ast; dna_connp->saw_init = FALSE; dna_start_read(conn_id, READ_HEADER_SIZE); /* sizeof(DNA_NET) */ /* Connection arrived. Signal upper layer ? */ dna_connp->read_ast(conn_id, NULL, 0, STA_CONN); } tcpip_code = tcpip_start_listen(svr_conn_id, ast_conn_h); if(tcpip_failure(tcpip_code)) { dna_report_error(svr_conn_id, tcpip_code, "Listening at", DIM_ERROR, DIMTCPLNERR); } } int dna_init() { if(!DNA_Initialized) { conn_arr_create(SRC_DNA); DNA_Initialized = TRUE; } return(1); } int dna_open_server(char *task, void (*read_ast)(), int *protocol, int *port, void (*error_ast)()) { register DNA_CONNECTION *dna_connp; register int tcpip_code; register int conn_id; if(!DNA_Initialized) { conn_arr_create(SRC_DNA); DNA_Initialized = TRUE; } *protocol = PROTOCOL; conn_id = conn_get(); dna_connp = &Dna_conns[conn_id]; /* if(!conn_id) dim_panic("In dna_open_server: No more connections\n"); */ dna_connp->protocol = TCPIP; dna_connp->error_ast = error_ast; tcpip_code = tcpip_open_server(conn_id, task, port); if(tcpip_failure(tcpip_code)) { dna_report_error(conn_id, tcpip_code, "Opening server port", DIM_ERROR, DIMTCPOPERR); conn_free(conn_id); return(0); } dna_connp->writing = FALSE; dna_connp->read_ast = read_ast; tcpip_code = tcpip_start_listen(conn_id, ast_conn_h); if(tcpip_failure(tcpip_code)) { dna_report_error(conn_id, tcpip_code, "Listening at", DIM_ERROR, DIMTCPLNERR); return(0); } return(conn_id); } int dna_get_node_task(int conn_id, char *node, char *task) { if(Dna_conns[conn_id].busy) tcpip_get_node_task(conn_id, node, task); else node[0] = '\0'; return(1); } /* Client Routines */ void dna_set_test_write(int conn_id, int time) { extern void tcpip_set_test_write(int, int); tcpip_set_test_write(conn_id, time); } void dna_rem_test_write(int conn_id) { extern void tcpip_rem_test_write(int); tcpip_rem_test_write(conn_id); } static int ins_pend_conn( char *node, char *task, int port, SRC_TYPES src_type ) { register PENDING_OPEN *pending_connp; register int i; for( i = 1, pending_connp = &Pending_conns[1]; i < MAX_CONNS; i++, pending_connp++ ) { if( pending_connp->task_name[0] == '\0' ) { strcpy(pending_connp->node_name, node); strcpy(pending_connp->task_name, task); pending_connp->port = port; pending_connp->src_type = src_type; return(i); } } return(0); } static int find_pend_conn( char *node, char *task, int port, SRC_TYPES src_type ) { register PENDING_OPEN *pending_connp; register int i; for( i = 1, pending_connp = &Pending_conns[1]; i < MAX_CONNS; i++, pending_connp++ ) { if( (!strcmp(pending_connp->node_name, node)) && (!strcmp(pending_connp->task_name, task)) && (pending_connp->port == port) && (pending_connp->src_type == src_type)) { return(i); } } return(0); } static void rel_pend_conn( int conn_id ) { Pending_conns[conn_id].task_name[0] = '\0'; } int dna_open_client(char *server_node, char *server_task, int port, int server_protocol, void (*read_ast)(), void (*error_ast)(), SRC_TYPES src_type) { register DNA_CONNECTION *dna_connp; char str[256]; register int tcpip_code, conn_id, id; DNA_NET local_buffer; extern int get_proc_name(char *); char src_type_str[64]; if(server_protocol){} if(!DNA_Initialized) { conn_arr_create(SRC_DNA); DNA_Initialized = TRUE; } conn_id = conn_get(); dna_connp = &Dna_conns[conn_id] ; /* if( !(conn_id = conn_get()) ) dim_panic("In dna_open_client: No more connections\n"); */ dna_connp->protocol = TCPIP; dna_connp->error_ast = error_ast; tcpip_code = tcpip_open_client(conn_id, server_node, server_task, port); if( tcpip_failure(tcpip_code) ) { #ifdef VMS if(!strstr(server_node,"fidel")) { #endif if(!find_pend_conn(server_node, server_task, port, src_type)) { if(src_type == SRC_DIS) strcpy(src_type_str,"Server"); else if(src_type == SRC_DIC) strcpy(src_type_str,"Client"); else strcpy(src_type_str,"Unknown type"); sprintf( str,"%s Connecting to %s on %s", src_type_str, server_task, server_node ); if(!strcmp(server_task,"DIM_DNS")) dna_report_error( conn_id, tcpip_code, str, DIM_ERROR, DIMDNSCNERR ); else dna_report_error( conn_id, tcpip_code, str, DIM_ERROR, DIMTCPCNERR ); ins_pend_conn(server_node, server_task, port, src_type); } #ifdef VMS } #endif tcpip_close(conn_id); conn_free( conn_id ); return(0); } if( (id = find_pend_conn(server_node, server_task, port, src_type)) ) { if(src_type == SRC_DIS) strcpy(src_type_str,"Server"); else if(src_type == SRC_DIC) strcpy(src_type_str,"Client"); else strcpy(src_type_str,"Unknown type"); sprintf( str,"%s Connection established to", src_type_str); if(!strcmp(server_task,"DIM_DNS")) dna_report_error( conn_id, -1, str, DIM_INFO, DIMDNSCNEST ); else dna_report_error( conn_id, -1, str, DIM_INFO, DIMTCPCNEST ); rel_pend_conn(id); } dna_connp->state = RD_HDR; dna_connp->writing = FALSE; dna_connp->buffer = (int *)malloc(TCP_RCV_BUF_SIZE); /* if(!dna_connp->buffer) { printf("Error in DNA - open_client malloc returned 0\n"); fflush(stdout); } */ dna_connp->buffer_size = TCP_RCV_BUF_SIZE; dna_connp->read_ast = read_ast; dna_connp->saw_init = TRUE; /* we send it! */ dna_start_read(conn_id, READ_HEADER_SIZE); local_buffer.code = htovl(OPN_MAGIC); get_node_name(local_buffer.node); get_proc_name(local_buffer.task); tcpip_code = dna_write_nowait(conn_id, &local_buffer, sizeof(local_buffer)); if (tcpip_failure(tcpip_code)) { dna_close(conn_id); return(0); } read_ast(conn_id, NULL, 0, STA_CONN); return(conn_id); } int dna_close(int conn_id) { if(conn_id > 0) release_conn(conn_id); return(1); } /* connection managment routines */ static void release_conn(int conn_id) { register DNA_CONNECTION *dna_connp = &Dna_conns[conn_id] ; DISABLE_AST if(dna_connp->busy) { tcpip_close(conn_id); if(dna_connp->buffer) { free(dna_connp->buffer); dna_connp->buffer = 0; dna_connp->buffer_size = 0; } dna_connp->read_ast = NULL; dna_connp->error_ast = NULL; conn_free(conn_id); } ENABLE_AST } void dna_report_error_old(int conn_id, int code, char *routine_name) { char str[128]; extern void tcpip_get_error(char *, int); dim_print_date_time(); printf("%s", routine_name); if(conn_id) { if(Net_conns[conn_id].node[0]) printf(" %s on node %s", Net_conns[conn_id].task, Net_conns[conn_id].node); /* else printf("\tConn %d :\n", conn_id); */ } if(code != -1) { /* printf("\t"); tcpip_report_error(code); */ tcpip_get_error(str, code); printf(": %s\n",str); } fflush(stdout); } void dna_report_error(int conn_id, int code, char *routine_name, int severity, int errcode) { char str[128], msg[1024]; extern void tcpip_get_error(); sprintf(msg, "%s", routine_name); if(conn_id) { if(Net_conns[conn_id].node[0]) { sprintf(str," %s on node %s", Net_conns[conn_id].task, Net_conns[conn_id].node); strcat(msg, str); } } if(code != -1) { tcpip_get_error(str, code); strcat(msg,": "); strcat(msg, str); } if(Dna_conns[conn_id].error_ast) { Dna_conns[conn_id].error_ast(conn_id, severity, errcode, msg); } } static void save_node_task(int conn_id, DNA_NET *buffer) { strcpy(Net_conns[conn_id].node, buffer->node); strcpy(Net_conns[conn_id].task, buffer->task); }