Context Navigation

source: branches/fscctrl_safety_limits/dim/src/dna.c@ 18481

Visit:

Last change on this file since 18481 was 15282, checked in by tbretz, 12 years ago
Updated to v20r7.
File size: 21.2 KB

Line
1
2	/*
3	* DNA (Delphi Network Access) implements the network layer for the DIM
4	* (Delphi Information Managment) System.
5	*
6	* Started date : 10-11-91
7	* Written by : C. Gaspar
8	* UNIX adjustment: G.C. Ballintijn
9	*
10	*/
11
12	/* include files */
13
14	#include <errno.h>
15	#define DIMLIB
16	#define DNA
17	#include <dim.h>
18
19	/* global definitions */
20
21	#define READ_HEADER_SIZE 12
22
23	/*
24	#define TO_DBG 1
25	*/
26
27	/* global variables */
28	typedef struct {
29	char node_name[MAX_NODE_NAME];
30	char task_name[MAX_TASK_NAME];
31	int port;
32	SRC_TYPES src_type;
33	time_t last_used;
34	} PENDING_OPEN;
35
36	#define TMOUT_PENDING_CONN_TMOUT 3600
37	#define MAX_TMOUT_PENDING_CONNS 10
38	static PENDING_OPEN Pending_conns[MAX_CONNS];
39	static PENDING_OPEN Pending_conns_tmout[MAX_TMOUT_PENDING_CONNS];
40
41	static int DNA_Initialized = FALSE;
42
43	extern int Tcpip_max_io_data_write;
44	extern int Tcpip_max_io_data_read;
45
46	_DIM_PROTO( static void ast_read_h, (int conn_id, int status, int size) );
47	_DIM_PROTO( static void ast_conn_h, (int handle, int svr_conn_id,
48	int protocol) );
49	_DIM_PROTO( static int dna_write_bytes, (int conn_id, void *buffer, int size,
50	int nowait) );
51	_DIM_PROTO( static void release_conn, (int conn_id) );
52	_DIM_PROTO( static void save_node_task, (int conn_id, DNA_NET *buffer) );
53
54	/*
55	* Routines common to Server and Client
56	*/
57	/*
58	static int Prev_packet[3];
59	static int Prev_buffer[3];
60	static int Prev_conn_id = 0;
61	*/
62	static int is_header( int conn_id )
63	{
64	register DNA_CONNECTION *dna_connp = &Dna_conns[conn_id];
65	register int ret;
66
67	ret = 0;
68	if( (vtohl(dna_connp->buffer[2]) == TRP_MAGIC) &&
69	(vtohl(dna_connp->buffer[1]) == 0) &&
70	(vtohl(dna_connp->buffer[0]) == READ_HEADER_SIZE) )
71	{
72	dna_connp->state = RD_HDR;
73	ret = 1;
74	}
75	else if( (vtohl(dna_connp->buffer[2]) == TST_MAGIC) &&
76	(vtohl(dna_connp->buffer[1]) == 0) &&
77	(vtohl(dna_connp->buffer[0]) == READ_HEADER_SIZE) )
78	{
79	dna_connp->state = RD_HDR;
80	ret = 1;
81	}
82	else if( (vtohl(dna_connp->buffer[2]) == (int)HDR_MAGIC ) &&
83	(vtohl(dna_connp->buffer[0]) == (int)READ_HEADER_SIZE ) )
84	{
85	dna_connp->state = RD_DATA;
86	ret = 1;
87	}
88	else
89	{
90	/*
91	dim_print_date_time();
92	printf( " conn: %d to %s@%s, expecting header\n", conn_id,
93	Net_conns[conn_id].task, Net_conns[conn_id].node );
94	printf( "buffer[0]=%d\n", vtohl(dna_connp->buffer[0]));
95	printf( "buffer[1]=%d\n", vtohl(dna_connp->buffer[1]));
96	printf( "buffer[2]=%x\n", vtohl(dna_connp->buffer[2]));
97	printf( "closing the connection.\n" );
98	printf( " Previous conn: %d, Previous Packet\n", Prev_conn_id);
99	printf( "buffer[0]=%d\n", vtohl(Prev_packet[0]));
100	printf( "buffer[1]=%d\n", vtohl(Prev_packet[1]));
101	printf( "buffer[2]=%x\n", vtohl(Prev_packet[2]));
102	printf( " Previous Buffer\n");
103	printf( "buffer[0]=%d\n", vtohl(Prev_buffer[0]));
104	printf( "buffer[1]=%d\n", vtohl(Prev_buffer[1]));
105	printf( "buffer[2]=%x\n", vtohl(Prev_buffer[2]));
106	fflush(stdout);
107	*/
108	dna_connp->read_ast(conn_id, NULL, 0, STA_DISC);
109	ret = 0;
110	}
111	return(ret);
112	}
113
114	static void read_data( int conn_id)
115	{
116	register DNA_CONNECTION *dna_connp = &Dna_conns[conn_id];
117
118	if( !dna_connp->saw_init &&
119	vtohl(dna_connp->buffer[0]) == (int)OPN_MAGIC)
120	{
121	save_node_task(conn_id, (DNA_NET *) dna_connp->buffer);
122	dna_connp->saw_init = TRUE;
123	}
124	else
125	{
126	/*
127	printf("passing up %d bytes, conn_id %d\n",dna_connp->full_size, conn_id);
128	*/
129	dna_connp->read_ast(conn_id, dna_connp->buffer,
130	dna_connp->full_size, STA_DATA);
131	}
132	}
133
134	static void ast_read_h( int conn_id, int status, int size )
135	{
136	register DNA_CONNECTION *dna_connp = &Dna_conns[conn_id];
137	int tcpip_code;
138	register int read_size, next_size;
139	register char *buff;
140	int max_io_data;
141
142	if(!dna_connp->buffer) /* The connection has already been closed */
143	{
144	return;
145	}
146	if(status == 1)
147	{
148	next_size = dna_connp->curr_size;
149	buff = (char *) dna_connp->curr_buffer;
150	if(size < next_size)
151	{
152	/*
153	Prev_conn_id = conn_id;
154	Prev_packet[0] = ((int *)dna_connp->curr_buffer)[0];
155	Prev_packet[1] = ((int *)dna_connp->curr_buffer)[1];
156	Prev_packet[2] = ((int *)dna_connp->curr_buffer)[2];
157	Prev_buffer[0] = dna_connp->buffer[0];
158	Prev_buffer[1] = dna_connp->buffer[1];
159	Prev_buffer[2] = dna_connp->buffer[2];
160	*/
161	max_io_data = Tcpip_max_io_data_read;
162	read_size = ((next_size - size) > max_io_data) ?
163	max_io_data : next_size - size;
164	dna_connp->curr_size -= size;
165	dna_connp->curr_buffer += size;
166	tcpip_code = tcpip_start_read(conn_id, buff + size,
167	read_size, ast_read_h);
168	if(tcpip_failure(tcpip_code))
169	{
170	#ifndef WIN32
171	if(errno == ENOTSOCK)
172	{
173	if(dna_connp->read_ast)
174	dna_connp->read_ast(conn_id, NULL, 0, STA_DISC);
175	}
176	else
177	#endif
178	{
179	dna_report_error(conn_id, tcpip_code,
180	"Reading from", DIM_ERROR, DIMTCPRDERR);
181	}
182	}
183	return;
184	}
185	switch(dna_connp->state)
186	{
187	case RD_HDR :
188	if(is_header(conn_id))
189	{
190	if( dna_connp->state == RD_DATA )
191	{
192	next_size = vtohl(dna_connp->buffer[1]);
193	dna_start_read(conn_id, next_size);
194	}
195	else
196	{
197	dna_connp->state = RD_HDR;
198	dna_start_read(conn_id, READ_HEADER_SIZE);
199	}
200	}
201	break;
202	case RD_DATA :
203	read_data(conn_id);
204	dna_connp->state = RD_HDR;
205	dna_start_read(conn_id, READ_HEADER_SIZE);
206	break;
207	default:
208	break;
209	}
210	/*
211	if(dna_connp->buffer)
212	{
213	Prev_conn_id = conn_id;
214	Prev_packet[0] = ((int *)dna_connp->curr_buffer)[0];
215	Prev_packet[1] = ((int *)dna_connp->curr_buffer)[1];
216	Prev_packet[2] = ((int *)dna_connp->curr_buffer)[2];
217	Prev_buffer[0] = dna_connp->buffer[0];
218	Prev_buffer[1] = dna_connp->buffer[1];
219	Prev_buffer[2] = dna_connp->buffer[2];
220	}
221	*/
222	}
223	else
224	{
225	/*
226	printf("Connection lost. Signal upper layer\n");
227	*/
228	if(dna_connp->read_ast)
229	dna_connp->read_ast(conn_id, NULL, 0, STA_DISC);
230	}
231	}
232
233
234	int dna_start_read(int conn_id, int size)
235	{
236	register DNA_CONNECTION *dna_connp = &Dna_conns[conn_id];
237	register int tcpip_code, read_size;
238	int max_io_data;
239
240	if(!dna_connp->busy)
241	{
242	return(0);
243	}
244
245	dna_connp->curr_size = size;
246	dna_connp->full_size = size;
247	if(size > dna_connp->buffer_size)
248	{
249	dna_connp->buffer =
250	(int *) realloc(dna_connp->buffer, (size_t)size);
251	dna_connp->buffer_size = size;
252	}
253	dna_connp->curr_buffer = (char *) dna_connp->buffer;
254	max_io_data = Tcpip_max_io_data_read;
255	read_size = (size > max_io_data) ? max_io_data : size ;
256
257	tcpip_code = tcpip_start_read(conn_id, dna_connp->curr_buffer,
258	read_size, ast_read_h);
259	if(tcpip_failure(tcpip_code)) {
260	dna_report_error(conn_id, tcpip_code,
261	"Reading from", DIM_ERROR, DIMTCPRDERR);
262
263	return(0);
264	}
265
266	return(1);
267	}
268
269
270	static int dna_write_bytes( int conn_id, void *buffer, int size, int nowait )
271	{
272	register int size_left, wrote;
273	register char *p;
274	int max_io_data;
275	#ifdef VMS
276	int retries = WRITE_RETRIES, retrying = 0;
277	float wait_time = 0.01;
278	#endif
279	extern int tcpip_write_nowait(int, char *, int);
280
281	max_io_data = Tcpip_max_io_data_write;
282	p = (char *) buffer;
283	size_left = size;
284	do {
285	size = (size_left > max_io_data) ? max_io_data : size_left ;
286	#ifdef VMS
287	if(nowait)
288	{
289	while(--retries)
290	{
291	if((wrote = tcpip_write_nowait(conn_id, p, size)) > 0)
292	break;
293	if(!tcpip_would_block(wrote))
294	return(0);
295	if(retries == WRITE_RETRIES_WNG)
296	{
297	dna_report_error(conn_id, tcpip_code,
298	"Writing to (retrying)", DIM_WARNING, DIMTCPWRRTY);
299	retrying = 1;
300	}
301	lib$wait(&wait_time);
302	}
303	if(!retries)
304	{
305	return(0);
306	}
307	}
308	else
309	wrote = tcpip_write(conn_id, p, size);
310	#else
311	if(nowait)
312	{
313	wrote = tcpip_write_nowait(conn_id, p, size);
314	if(wrote == -1)
315	{
316	dna_report_error(conn_id, -1,
317	"Write timeout, writing to", DIM_WARNING, DIMTCPWRTMO);
318	wrote = 0;
319	}
320	}
321	else
322	{
323	wrote = tcpip_write(conn_id, p, size);
324	}
325	#endif
326
327	if( tcpip_failure(wrote) )
328	return(0);
329	p += wrote;
330	size_left -= wrote;
331	} while(size_left > 0);
332	return(1);
333	}
334
335	void dna_test_write(int conn_id)
336	{
337	register DNA_CONNECTION *dna_connp = &Dna_conns[conn_id];
338	register int tcpip_code;
339	DNA_HEADER test_pkt;
340	register DNA_HEADER *test_p = &test_pkt;
341
342	if(!dna_connp->busy)
343	{
344	return;
345	}
346	if(dna_connp->writing)
347	{
348	return;
349	}
350	test_p->header_size = htovl(READ_HEADER_SIZE);
351	test_p->data_size = 0;
352	test_p->header_magic = htovl(TST_MAGIC);
353	tcpip_code = dna_write_bytes(conn_id, &test_pkt, READ_HEADER_SIZE,0);
354	if(tcpip_failure(tcpip_code)) {
355	/* Connection lost. Signal upper layer ? */
356	if(dna_connp->read_ast)
357	dna_connp->read_ast(conn_id, NULL, 0, STA_DISC);
358	return;
359	}
360	}
361
362	typedef struct
363	{
364	int conn_id;
365	void *buffer;
366	int size;
367	char dummy[MAX_NAME];
368	} WRITE_ITEM;
369
370	static int do_dna_write(int id)
371	{
372	register DNA_CONNECTION *dna_connp;
373	int tcpip_code;
374	WRITE_ITEM *ptr;
375	int conn_id, size;
376	void *buffer;
377
378	ptr = (WRITE_ITEM *)id_get_ptr(id, SRC_DNA);
379	if(!ptr)
380	return(2);
381	conn_id = ptr->conn_id;
382	buffer = ptr->buffer;
383	size = ptr->size;
384
385	dna_connp = &Dna_conns[conn_id];
386	if(!dna_connp->busy)
387	{
388	id_free(id, SRC_DNA);
389	free(buffer);
390	free(ptr);
391	return(2);
392	}
393	dna_connp->writing = TRUE;
394	tcpip_code = dna_write_bytes(conn_id, buffer, size,0);
395	if(tcpip_failure(tcpip_code))
396	{
397	dna_connp->writing = FALSE;
398	id_free(id, SRC_DNA);
399	free(buffer);
400	free(ptr);
401	return(0);
402	}
403
404	id_free(id, SRC_DNA);
405	free(buffer);
406	free(ptr);
407
408	dna_connp->writing = FALSE;
409	return(1);
410	}
411
412	int dna_write_nowait(int conn_id, void *buffer, int size)
413	{
414	register DNA_CONNECTION *dna_connp;
415	DNA_HEADER header_pkt;
416	register DNA_HEADER *header_p = &header_pkt;
417	int tcpip_code, ret = 1;
418
419	DISABLE_AST
420	dna_connp = &Dna_conns[conn_id];
421	if(!dna_connp->busy)
422	{
423	ENABLE_AST
424	return(2);
425	}
426	dna_connp->writing = TRUE;
427
428	header_p->header_size = htovl(READ_HEADER_SIZE);
429	header_p->data_size = htovl(size);
430	header_p->header_magic = (int)htovl(HDR_MAGIC);
431	tcpip_code = dna_write_bytes(conn_id, &header_pkt, READ_HEADER_SIZE, 1);
432	if(tcpip_failure(tcpip_code))
433	{
434	dna_connp->writing = FALSE;
435	ENABLE_AST
436	return(0);
437	}
438	tcpip_code = dna_write_bytes(conn_id, buffer, size, 1);
439	if(tcpip_failure(tcpip_code))
440	{
441	ret = 0;
442	}
443	dna_connp->writing = FALSE;
444	ENABLE_AST
445	return(ret);
446	}
447
448	typedef struct
449	{
450	DNA_HEADER header;
451	char data[1];
452
453	}WRITE_DATA;
454
455	int dna_write(int conn_id, void *buffer, int size)
456	{
457	WRITE_ITEM *newp;
458	int id;
459	WRITE_DATA *pktp;
460	DNA_HEADER *headerp;
461
462	DISABLE_AST
463
464	pktp = malloc((size_t)(READ_HEADER_SIZE+size));
465	headerp = &(pktp->header);
466	headerp->header_size = htovl(READ_HEADER_SIZE);
467	headerp->data_size = htovl(size);
468	headerp->header_magic = (int)htovl(HDR_MAGIC);
469
470	memcpy(pktp->data, (char *)buffer, (size_t)size);
471
472	newp = malloc(sizeof(WRITE_ITEM));
473	newp->conn_id = conn_id;
474	newp->buffer = pktp;
475	newp->size = size+READ_HEADER_SIZE;
476	id = id_get((void *)newp, SRC_DNA);
477	dtq_start_timer(0, do_dna_write, id);
478	ENABLE_AST
479	return(1);
480	}
481
482	/* Server Routines */
483
484	static void ast_conn_h(int handle, int svr_conn_id, int protocol)
485	{
486	register DNA_CONNECTION *dna_connp;
487	register int tcpip_code;
488	register int conn_id;
489
490	if(protocol){}
491	conn_id = conn_get();
492	/*
493	if(!conn_id)
494	dim_panic("In ast_conn_h: No more connections\n");
495	*/
496	dna_connp = &Dna_conns[conn_id] ;
497	dna_connp->error_ast = Dna_conns[svr_conn_id].error_ast;
498	tcpip_code = tcpip_open_connection( conn_id, handle );
499
500	if(tcpip_failure(tcpip_code))
501	{
502	dna_report_error(conn_id, tcpip_code,
503	"Connecting to", DIM_ERROR, DIMTCPCNERR);
504	conn_free(conn_id);
505	} else {
506	dna_connp->state = RD_HDR;
507	dna_connp->buffer = (int *)malloc((size_t)TCP_RCV_BUF_SIZE);
508	/*
509	if(!dna_connp->buffer)
510	{
511	printf("Error in DNA - handle_connection malloc returned 0\n");
512	fflush(stdout);
513	}
514	*/
515	dna_connp->buffer_size = TCP_RCV_BUF_SIZE;
516	dna_connp->read_ast = Dna_conns[svr_conn_id].read_ast;
517	dna_connp->saw_init = FALSE;
518	dna_start_read(conn_id, READ_HEADER_SIZE); /* sizeof(DNA_NET) */
519	/* Connection arrived. Signal upper layer ? */
520	dna_connp->read_ast(conn_id, NULL, 0, STA_CONN);
521	}
522	tcpip_code = tcpip_start_listen(svr_conn_id, ast_conn_h);
523	if(tcpip_failure(tcpip_code))
524	{
525	dna_report_error(svr_conn_id, tcpip_code,
526	"Listening at", DIM_ERROR, DIMTCPLNERR);
527	}
528	}
529
530	int dna_init()
531	{
532	PENDING_OPEN *pending_connp;
533	int i, size;
534
535	if(!DNA_Initialized)
536	{
537	conn_arr_create(SRC_DNA);
538	pending_connp = &Pending_conns[1];
539	size = MAX_CONNS;
540	for( i = 1; i < size; i++, pending_connp++ )
541	pending_connp->task_name[0] = '\0';
542	pending_connp = &Pending_conns_tmout[1];
543	size = MAX_TMOUT_PENDING_CONNS;
544	for( i = 1; i < size; i++, pending_connp++ )
545	pending_connp->task_name[0] = '\0';
546	DNA_Initialized = TRUE;
547	}
548	return(1);
549	}
550
551	int dna_open_server(char task, void (read_ast)(), int protocol, int port, void (*error_ast)())
552	{
553	register DNA_CONNECTION *dna_connp;
554	register int tcpip_code;
555	register int conn_id;
556
557	dna_init();
558	/*
559	if(!DNA_Initialized)
560	{
561	conn_arr_create(SRC_DNA);
562	DNA_Initialized = TRUE;
563	}
564	*/
565	*protocol = PROTOCOL;
566	conn_id = conn_get();
567	dna_connp = &Dna_conns[conn_id];
568	/*
569	if(!conn_id)
570	dim_panic("In dna_open_server: No more connections\n");
571	*/
572	dna_connp->protocol = TCPIP;
573	dna_connp->error_ast = error_ast;
574	tcpip_code = tcpip_open_server(conn_id, task, port);
575	if(tcpip_failure(tcpip_code))
576	{
577	dna_report_error(conn_id, tcpip_code,
578	"Opening server port", DIM_ERROR, DIMTCPOPERR);
579	conn_free(conn_id);
580	return(0);
581	}
582	dna_connp->writing = FALSE;
583	dna_connp->read_ast = read_ast;
584	tcpip_code = tcpip_start_listen(conn_id, ast_conn_h);
585	if(tcpip_failure(tcpip_code))
586	{
587	dna_report_error(conn_id, tcpip_code, "Listening at", DIM_ERROR, DIMTCPLNERR);
588	return(0);
589	}
590	return(conn_id);
591	}
592
593
594	int dna_get_node_task(int conn_id, char node, char task)
595	{
596	if(Dna_conns[conn_id].busy)
597	tcpip_get_node_task(conn_id, node, task);
598	else
599	node[0] = '\0';
600	return(1);
601	}
602
603
604	/* Client Routines */
605
606	void dna_set_test_write(int conn_id, int time)
607	{
608	extern void tcpip_set_test_write(int, int);
609
610	tcpip_set_test_write(conn_id, time);
611	}
612
613	void dna_rem_test_write(int conn_id)
614	{
615	extern void tcpip_rem_test_write(int);
616
617	tcpip_rem_test_write(conn_id);
618	}
619
620	static int ins_pend_conn( char node, char task, int port, SRC_TYPES src_type, int type, time_t last_used )
621	{
622	register PENDING_OPEN *pending_connp;
623	register int i, size;
624	time_t oldest;
625	int oldesti = 0;
626	extern time_t time();
627
628	if(type == 0)
629	{
630	pending_connp = &Pending_conns[1];
631	size = MAX_CONNS;
632	oldest = 0;
633	}
634	else
635	{
636	pending_connp = &Pending_conns_tmout[1];
637	size = MAX_TMOUT_PENDING_CONNS;
638	oldest = time(NULL);
639	oldesti = 1;
640	}
641
642	for( i = 1; i < size; i++, pending_connp++ )
643	{
644	if( pending_connp->task_name[0] == '\0' )
645	{
646	strcpy(pending_connp->node_name, node);
647	strcpy(pending_connp->task_name, task);
648	pending_connp->port = port;
649	pending_connp->src_type = src_type;
650	pending_connp->last_used = last_used;
651	return(i);
652	}
653	else
654	{
655	if(pending_connp->last_used < oldest)
656	{
657	oldest = pending_connp->last_used;
658	oldesti = i;
659	}
660	}
661	}
662	if(type != 0)
663	{
664	pending_connp = &Pending_conns_tmout[oldesti];
665	strcpy(pending_connp->node_name, node);
666	strcpy(pending_connp->task_name, task);
667	pending_connp->port = port;
668	pending_connp->src_type = src_type;
669	pending_connp->last_used = last_used;
670	return(oldesti);
671	}
672	return(0);
673	}
674
675	static int find_pend_conn( char node, char task, int port, SRC_TYPES src_type, int type )
676	{
677	register PENDING_OPEN *pending_connp;
678	register int i, size;
679	time_t curr_time;
680
681	if(type == 0)
682	{
683	pending_connp = &Pending_conns[1];
684	size = MAX_CONNS;
685	}
686	else
687	{
688	pending_connp = &Pending_conns_tmout[1];
689	size = MAX_TMOUT_PENDING_CONNS;
690	curr_time = time(NULL);
691	for( i = 1; i < size; i++, pending_connp++ )
692	{
693	if( pending_connp->task_name[0] != '\0' )
694	{
695	if( curr_time - pending_connp->last_used > TMOUT_PENDING_CONN_TMOUT )
696	{
697	pending_connp->task_name[0] = '\0';
698	}
699	}
700	}
701	pending_connp = &Pending_conns_tmout[1];
702	}
703	for( i = 1; i < size; i++, pending_connp++ )
704	{
705	if( (!strcmp(pending_connp->node_name, node)) &&
706	(!strcmp(pending_connp->task_name, task)) &&
707	(pending_connp->port == port) &&
708	(pending_connp->src_type == src_type))
709	{
710	return(i);
711	}
712	}
713	return(0);
714	}
715
716
717	static void rel_pend_conn( int id, int type )
718	{
719	register PENDING_OPEN *pending_connp;
720
721	if(type == 0)
722	{
723	pending_connp = &Pending_conns[id];
724	}
725	else
726	{
727	pending_connp = &Pending_conns_tmout[id];
728	}
729	pending_connp->task_name[0] = '\0';
730	}
731
732
733	int dna_open_client(char server_node, char server_task, int port, int server_protocol,
734	void (read_ast)(), void (error_ast)(), SRC_TYPES src_type)
735	{
736	register DNA_CONNECTION *dna_connp;
737	char str[256];
738	register int tcpip_code, conn_id, id;
739	DNA_NET local_buffer;
740	extern int get_proc_name(char *);
741	char src_type_str[64];
742
743	if(server_protocol){}
744	dna_init();
745	/*
746	if(!DNA_Initialized) {
747	conn_arr_create(SRC_DNA);
748	DNA_Initialized = TRUE;
749	}
750	*/
751	conn_id = conn_get();
752	dna_connp = &Dna_conns[conn_id] ;
753	/*
754	if( !(conn_id = conn_get()) )
755	dim_panic("In dna_open_client: No more connections\n");
756	*/
757	dna_connp->protocol = TCPIP;
758	dna_connp->error_ast = error_ast;
759	tcpip_code = tcpip_open_client(conn_id, server_node, server_task, port);
760	if( tcpip_failure(tcpip_code) )
761	{
762	#ifdef VMS
763	if(!strstr(server_node,"fidel"))
764	{
765	#endif
766	if(!find_pend_conn(server_node, server_task, port, src_type, 0))
767	{
768	if(src_type == SRC_DIS)
769	strcpy(src_type_str,"Server");
770	else if(src_type == SRC_DIC)
771	strcpy(src_type_str,"Client");
772	else
773	strcpy(src_type_str,"Unknown type");
774	sprintf( str,"%s Connecting to %s on %s",
775	src_type_str, server_task, server_node );
776	if(!strcmp(server_task,"DIM_DNS"))
777	dna_report_error( conn_id, tcpip_code, str, DIM_ERROR, DIMDNSCNERR );
778	else
779	dna_report_error( conn_id, tcpip_code, str, DIM_ERROR, DIMTCPCNERR );
780	ins_pend_conn(server_node, server_task, port, src_type, 0, 0);
781	}
782	#ifdef VMS
783	}
784	#endif
785	tcpip_close(conn_id);
786	conn_free( conn_id );
787	return(0);
788	}
789	if( (id = find_pend_conn(server_node, server_task, port, src_type, 0)) )
790	{
791	if(src_type == SRC_DIS)
792	strcpy(src_type_str,"Server");
793	else if(src_type == SRC_DIC)
794	strcpy(src_type_str,"Client");
795	else
796	strcpy(src_type_str,"Unknown type");
797	sprintf( str,"%s Connection established to", src_type_str);
798	if(!strcmp(server_task,"DIM_DNS"))
799	dna_report_error( conn_id, -1, str, DIM_INFO, DIMDNSCNEST );
800	else
801	dna_report_error( conn_id, -1, str, DIM_INFO, DIMTCPCNEST );
802	rel_pend_conn(id, 0);
803	}
804	dna_connp->state = RD_HDR;
805	dna_connp->writing = FALSE;
806	dna_connp->buffer = (int *)malloc((size_t)TCP_RCV_BUF_SIZE);
807	/*
808	if(!dna_connp->buffer)
809	{
810	printf("Error in DNA - open_client malloc returned 0\n");
811	fflush(stdout);
812	}
813	*/
814	dna_connp->buffer_size = TCP_RCV_BUF_SIZE;
815	dna_connp->read_ast = read_ast;
816	dna_connp->saw_init = TRUE; /* we send it! */
817	dna_start_read(conn_id, READ_HEADER_SIZE);
818	local_buffer.code = (int)htovl(OPN_MAGIC);
819	get_node_name(local_buffer.node);
820	get_proc_name(local_buffer.task);
821	tcpip_code = dna_write_nowait(conn_id, &local_buffer, sizeof(local_buffer));
822	if (tcpip_failure(tcpip_code))
823	{
824	dim_print_date_time();
825	printf(" Client Establishing Connection: Couldn't write to Conn %3d : Server %s@%s\n",conn_id,
826	Net_conns[conn_id].task, Net_conns[conn_id].node);
827	fflush(stdout);
828	dna_close(conn_id);
829	return(0);
830	}
831	read_ast(conn_id, NULL, 0, STA_CONN);
832	return(conn_id);
833	}
834
835	int dna_close(int conn_id)
836	{
837	if(conn_id > 0)
838	{
839	if(Net_conns[conn_id].write_timedout)
840	{
841	dna_report_error(conn_id, -1,
842	"Write timeout, disconnecting from", DIM_ERROR, DIMTCPWRTMO);
843	if(!find_pend_conn(Net_conns[conn_id].node, Net_conns[conn_id].task, 0, 0, 1))
844	ins_pend_conn(Net_conns[conn_id].node, Net_conns[conn_id].task, 0, 0, 1, time(NULL));
845	}
846	release_conn(conn_id);
847	}
848	return(1);
849	}
850
851	/* connection managment routines */
852
853	static void release_conn(int conn_id)
854	{
855	register DNA_CONNECTION *dna_connp = &Dna_conns[conn_id] ;
856
857	DISABLE_AST
858	if(dna_connp->busy)
859	{
860	tcpip_close(conn_id);
861	if(dna_connp->buffer)
862	{
863	free(dna_connp->buffer);
864	dna_connp->buffer = 0;
865	dna_connp->buffer_size = 0;
866	}
867	dna_connp->read_ast = NULL;
868	dna_connp->error_ast = NULL;
869	conn_free(conn_id);
870	}
871	ENABLE_AST
872	}
873
874
875	void dna_report_error_old(int conn_id, int code, char *routine_name)
876	{
877	char str[128];
878	extern void tcpip_get_error(char *, int);
879	dim_print_date_time();
880	printf("%s", routine_name);
881	if(conn_id)
882	{
883	if(Net_conns[conn_id].node[0])
884	printf(" %s on node %s",
885	Net_conns[conn_id].task, Net_conns[conn_id].node);
886	/*
887	else
888	printf("\tConn %d :\n", conn_id);
889	*/
890	}
891	if(code != -1)
892	{
893	/*
894	printf("\t");
895	tcpip_report_error(code);
896	*/
897	tcpip_get_error(str, code);
898	printf(": %s\n",str);
899	}
900	fflush(stdout);
901	}
902
903	void dna_report_error(int conn_id, int code, char *routine_name, int severity, int errcode)
904	{
905	char str[128], msg[1024];
906	extern void tcpip_get_error();
907
908	sprintf(msg, "%s", routine_name);
909	if(conn_id)
910	{
911	if(Net_conns[conn_id].node[0])
912	{
913	sprintf(str," %s@%s",
914	Net_conns[conn_id].task, Net_conns[conn_id].node);
915	strcat(msg, str);
916	}
917	}
918	if(code != -1)
919	{
920	tcpip_get_error(str, code);
921	strcat(msg,": ");
922	strcat(msg, str);
923	}
924	if(Dna_conns[conn_id].error_ast)
925	{
926	Dna_conns[conn_id].error_ast(conn_id, severity, errcode, msg);
927	}
928	}
929
930	static void save_node_task(int conn_id, DNA_NET *buffer)
931	{
932	int id;
933	strcpy(Net_conns[conn_id].node, buffer->node);
934	strcpy(Net_conns[conn_id].task, buffer->task);
935	if((id = find_pend_conn(Net_conns[conn_id].node, Net_conns[conn_id].task, 0, 0, 1)))
936	{
937	dna_report_error( conn_id, -1, "Re-connected to", DIM_INFO, DIMDNSCNEST );
938	rel_pend_conn(id, 1);
939	}
940	}

Note: See TracBrowser for help on using the repository browser.

Download in other formats: