/usr/src/usr.bin/telnet/telnet.c

Bug Summary

File:	src/usr.bin/telnet/telnet.c
Warning:	line 1684, column 5 Value stored to 'tcc' is never read

Annotated Source Code

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clang -cc1 -cc1 -triple amd64-unknown-openbsd7.0 -analyze -disable-free -disable-llvm-verifier -discard-value-names -main-file-name telnet.c -analyzer-store=region -analyzer-opt-analyze-nested-blocks -analyzer-checker=core -analyzer-checker=apiModeling -analyzer-checker=unix -analyzer-checker=deadcode -analyzer-checker=security.insecureAPI.UncheckedReturn -analyzer-checker=security.insecureAPI.getpw -analyzer-checker=security.insecureAPI.gets -analyzer-checker=security.insecureAPI.mktemp -analyzer-checker=security.insecureAPI.mkstemp -analyzer-checker=security.insecureAPI.vfork -analyzer-checker=nullability.NullPassedToNonnull -analyzer-checker=nullability.NullReturnedFromNonnull -analyzer-output plist -w -setup-static-analyzer -mrelocation-model pic -pic-level 1 -pic-is-pie -mframe-pointer=all -relaxed-aliasing -fno-rounding-math -mconstructor-aliases -munwind-tables -target-cpu x86-64 -target-feature +retpoline-indirect-calls -target-feature +retpoline-indirect-branches -tune-cpu generic -debugger-tuning=gdb -fcoverage-compilation-dir=/usr/src/usr.bin/telnet/obj -resource-dir /usr/local/lib/clang/13.0.0 -D KLUDGELINEMODE -internal-isystem /usr/local/lib/clang/13.0.0/include -internal-externc-isystem /usr/include -O2 -fdebug-compilation-dir=/usr/src/usr.bin/telnet/obj -ferror-limit 19 -fwrapv -D_RET_PROTECTOR -ret-protector -fgnuc-version=4.2.1 -vectorize-loops -vectorize-slp -fno-builtin-malloc -fno-builtin-calloc -fno-builtin-realloc -fno-builtin-valloc -fno-builtin-free -fno-builtin-strdup -fno-builtin-strndup -analyzer-output=html -faddrsig -D__GCC_HAVE_DWARF2_CFI_ASM=1 -o /home/ben/Projects/vmm/scan-build/2022-01-12-194120-40624-1 -x c /usr/src/usr.bin/telnet/telnet.c

1	/* $OpenBSD: telnet.c,v 1.36 2019/07/11 03:54:27 deraadt Exp $ */
2	/* $NetBSD: telnet.c,v 1.7 1996/02/28 21:04:15 thorpej Exp $ */
3
4	/*
5	* Copyright (c) 1988, 1990, 1993
6	* The Regents of the University of California. All rights reserved.
7	*
8	* Redistribution and use in source and binary forms, with or without
9	* modification, are permitted provided that the following conditions
10	* are met:
11	* 1. Redistributions of source code must retain the above copyright
12	* notice, this list of conditions and the following disclaimer.
13	* 2. Redistributions in binary form must reproduce the above copyright
14	* notice, this list of conditions and the following disclaimer in the
15	* documentation and/or other materials provided with the distribution.
16	* 3. Neither the name of the University nor the names of its contributors
17	* may be used to endorse or promote products derived from this software
18	* without specific prior written permission.
19	*
20	* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
21	* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
22	* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
23	* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
24	* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
25	* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
26	* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
27	* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
28	* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
29	* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
30	* SUCH DAMAGE.
31	*/
32
33	#include "telnet_locl.h"
34
35	#include <arpa/telnet.h>
36	#include <ctype.h>
37	#include <curses.h>
38	#include <stdlib.h>
39	#include <unistd.h>
40	#include <string.h>
41	#include <term.h>
42
43	#define strip(x)(eight ? (x) : ((x) & 0x7f)) (eight ? (x) : ((x) & 0x7f))
44
45	static unsigned char subbuffer[SUBBUFSIZE256],
46	subpointer, subend; /* buffer for sub-options */
47	#define SB_CLEAR()subpointer = subbuffer; subpointer = subbuffer;
48	#define SB_TERM(){ subend = subpointer; subpointer = subbuffer;; } { subend = subpointer; SB_CLEAR()subpointer = subbuffer;; }
49	#define SB_ACCUM(c)if (subpointer < (subbuffer+sizeof subbuffer)) { *subpointer ++ = (c); } if (subpointer < (subbuffer+sizeof subbuffer)) { \
50	*subpointer++ = (c); \
51	}
52
53	#define SB_GET()((subpointer++)&0xff) ((subpointer++)&0xff)
54	#define SB_PEEK()((subpointer)&0xff) ((subpointer)&0xff)
55	#define SB_EOF()(subpointer >= subend) (subpointer >= subend)
56	#define SB_LEN()(subend - subpointer) (subend - subpointer)
57
58	static void lm_will(unsigned char *, int);
59	static void lm_wont(unsigned char *, int);
60	static void lm_do(unsigned char *, int);
61	static void lm_dont(unsigned char *, int);
62
63	static void slc_init(void);
64	static void slc_import(int);
65	static void slc_export(void);
66	static void slc_start_reply(void);
67	static void slc_add_reply(unsigned char, unsigned char, cc_t);
68	static void slc_end_reply(void);
69	static void slc(unsigned char *, int);
70	static int slc_update(void);
71
72	static void env_opt(char *, int);
73	static void env_opt_start(void);
74
75	char options[256]; /* The combined options */
76	char do_dont_resp[256];
77	char will_wont_resp[256];
78
79	int
80	eight = 3,
81	binary = 0,
82	autologin = 0, /* Autologin anyone? */
83	skiprc = 0,
84	connections = 0,
85	connected,
86	showoptions,
87	ISend, /* trying to send network data in */
88	crmod,
89	netdata, /* Print out network data flow */
90	crlf, /* Should '\r' be mapped to <CR><LF> (or <CR><NUL>)? */
91	telnetport,
92	SYNCHing, /* we are in TELNET SYNCH mode */
93	flushout, /* flush output */
94	autoflush = 0, /* flush output when interrupting? */
95	autosynch, /* send interrupt characters with SYNCH? */
96	localflow, /* we handle flow control locally */
97	restartany, /* if flow control enabled, restart on any character */
98	localchars, /* we recognize interrupt/quit */
99	donelclchars, /* the user has set "localchars" */
100	donebinarytoggle, /* the user has put us in binary */
101	dontlecho, /* do we suppress local echoing right now? */
102	globalmode,
103	clienteof = 0;
104
105	char prompt = NULL((void )0);
106
107	int scheduler_lockout_tty = 0;
108
109	cc_t escape;
110	cc_t rlogin;
111	#ifdef KLUDGELINEMODE1
112	cc_t echoc;
113	#endif
114
115	/*
116	* Telnet receiver states for fsm
117	*/
118	#define TS_DATA0 0
119	#define TS_IAC1 1
120	#define TS_WILL2 2
121	#define TS_WONT3 3
122	#define TS_DO4 4
123	#define TS_DONT5 5
124	#define TS_CR6 6
125	#define TS_SB7 7 /* sub-option collection */
126	#define TS_SE8 8 /* looking for sub-option end */
127
128	static int telrcv_state;
129	# define telopt_environ39 TELOPT_NEW_ENVIRON39
130
131	jmp_buf toplevel = { 0 };
132	jmp_buf peerdied;
133
134	int flushline;
135	int linemode;
136
137	#ifdef KLUDGELINEMODE1
138	int kludgelinemode = 1;
139	#endif
140
141	/*
142	* The following are some clocks used to decide how to interpret
143	* the relationship between various variables.
144	*/
145
146	Clocks clocks;
147
148
149	/*
150	* Initialize telnet environment.
151	*/
152
153	void
154	init_telnet(void)
155	{
156	env_init();
157
158	SB_CLEAR()subpointer = subbuffer;;
159	memset(options, 0, sizeof options);
160
161	connected = ISend = localflow = donebinarytoggle = 0;
162	restartany = -1;
163
164	SYNCHing = 0;
165
166	escape = CONTROL(']')((']')&0x1f);
167	rlogin = _POSIX_VDISABLE(0377);
168	#ifdef KLUDGELINEMODE1
169	echoc = CONTROL('E')(('E')&0x1f);
170	#endif
171
172	flushline = 1;
173	telrcv_state = TS_DATA0;
174	}
175
176
177	/*
178	* These routines are in charge of sending option negotiations
179	* to the other side.
180	*
181	* The basic idea is that we send the negotiation if either side
182	* is in disagreement as to what the current state should be.
183	*/
184
185	void
186	send_do(int c, int init)
187	{
188	if (init) {
189	if (((do_dont_resp[c] == 0) && my_state_is_do(c)(options[c]&0x04)) \|\|
190	my_want_state_is_do(c)(options[c]&0x08))
191	return;
192	set_my_want_state_do(c){options[c] \|= 0x08;};
193	do_dont_resp[c]++;
194	}
195	NET2ADD(IAC, DO){ { netoring.supply = 255; ring_supplied(&netoring, 1); } ; { netoring.supply = 253; ring_supplied(&netoring, 1); } ; };
196	NETADD(c){ *netoring.supply = c; ring_supplied(&netoring, 1); };
197	printoption("SENT",DO253, c);
198	}
199
200	void
201	send_dont(int c, int init)
202	{
203	if (init) {
204	if (((do_dont_resp[c] == 0) && my_state_is_dont(c)(!(options[c]&0x04))) \|\|
205	my_want_state_is_dont(c)(!(options[c]&0x08)))
206	return;
207	set_my_want_state_dont(c){options[c] &= ~0x08;};
208	do_dont_resp[c]++;
209	}
210	NET2ADD(IAC, DONT){ { netoring.supply = 255; ring_supplied(&netoring, 1); } ; { netoring.supply = 254; ring_supplied(&netoring, 1); } ; };
211	NETADD(c){ *netoring.supply = c; ring_supplied(&netoring, 1); };
212	printoption("SENT", DONT254, c);
213	}
214
215	void
216	send_will(int c, int init)
217	{
218	if (init) {
219	if (((will_wont_resp[c] == 0) && my_state_is_will(c)(options[c]&0x01)) \|\|
220	my_want_state_is_will(c)(options[c]&0x02))
221	return;
222	set_my_want_state_will(c){options[c] \|= 0x02;};
223	will_wont_resp[c]++;
224	}
225	NET2ADD(IAC, WILL){ { netoring.supply = 255; ring_supplied(&netoring, 1); } ; { netoring.supply = 251; ring_supplied(&netoring, 1); } ; };
226	NETADD(c){ *netoring.supply = c; ring_supplied(&netoring, 1); };
227	printoption("SENT", WILL251, c);
228	}
229
230	void
231	send_wont(int c, int init)
232	{
233	if (init) {
234	if (((will_wont_resp[c] == 0) && my_state_is_wont(c)(!(options[c]&0x01))) \|\|
235	my_want_state_is_wont(c)(!(options[c]&0x02)))
236	return;
237	set_my_want_state_wont(c){options[c] &= ~0x02;};
238	will_wont_resp[c]++;
239	}
240	NET2ADD(IAC, WONT){ { netoring.supply = 255; ring_supplied(&netoring, 1); } ; { netoring.supply = 252; ring_supplied(&netoring, 1); } ; };
241	NETADD(c){ *netoring.supply = c; ring_supplied(&netoring, 1); };
242	printoption("SENT", WONT252, c);
243	}
244
245	static void
246	willoption(int option)
247	{
248	int new_state_ok = 0;
249
250	if (do_dont_resp[option]) {
251	--do_dont_resp[option];
252	if (do_dont_resp[option] && my_state_is_do(option)(options[option]&0x04))
253	--do_dont_resp[option];
254	}
255
256	if ((do_dont_resp[option] == 0) && my_want_state_is_dont(option)(!(options[option]&0x08))) {
257
258	switch (option) {
259
260	case TELOPT_ECHO1:
261	case TELOPT_BINARY0:
262	case TELOPT_SGA3:
263	settimer(modenegotiated)clocks.modenegotiated = clocks.system++;
264	/* FALL THROUGH */
265	case TELOPT_STATUS5:
266	new_state_ok = 1;
267	break;
268
269	case TELOPT_TM6:
270	if (flushout)
271	flushout = 0;
272	/*
273	* Special case for TM. If we get back a WILL,
274	* pretend we got back a WONT.
275	*/
276	set_my_want_state_dont(option){options[option] &= ~0x08;};
277	set_my_state_dont(option){options[option] &= ~0x04;};
278	return; /* Never reply to TM will's/wont's */
279
280	case TELOPT_LINEMODE34:
281	default:
282	break;
283	}
284
285	if (new_state_ok) {
286	set_my_want_state_do(option){options[option] \|= 0x08;};
287	send_do(option, 0);
288	setconnmode(0); /* possibly set new tty mode */
289	} else {
290	do_dont_resp[option]++;
291	send_dont(option, 0);
292	}
293	}
294	set_my_state_do(option){options[option] \|= 0x04;};
295
296	}
297
298	static void
299	wontoption(int option)
300	{
301	if (do_dont_resp[option]) {
302	--do_dont_resp[option];
303	if (do_dont_resp[option] && my_state_is_dont(option)(!(options[option]&0x04)))
304	--do_dont_resp[option];
305	}
306
307	if ((do_dont_resp[option] == 0) && my_want_state_is_do(option)(options[option]&0x08)) {
308
309	switch (option) {
310
311	#ifdef KLUDGELINEMODE1
312	case TELOPT_SGA3:
313	if (!kludgelinemode)
314	break;
315	/* FALL THROUGH */
316	#endif
317	case TELOPT_ECHO1:
318	settimer(modenegotiated)clocks.modenegotiated = clocks.system++;
319	break;
320
321	case TELOPT_TM6:
322	if (flushout)
323	flushout = 0;
324	set_my_want_state_dont(option){options[option] &= ~0x08;};
325	set_my_state_dont(option){options[option] &= ~0x04;};
326	return; /* Never reply to TM will's/wont's */
327
328	default:
329	break;
330	}
331	set_my_want_state_dont(option){options[option] &= ~0x08;};
332	if (my_state_is_do(option)(options[option]&0x04))
333	send_dont(option, 0);
334	setconnmode(0); /* Set new tty mode */
335	} else if (option == TELOPT_TM6) {
336	/*
337	* Special case for TM.
338	*/
339	if (flushout)
340	flushout = 0;
341	set_my_want_state_dont(option){options[option] &= ~0x08;};
342	}
343	set_my_state_dont(option){options[option] &= ~0x04;};
344	}
345
346	static void
347	dooption(int option)
348	{
349	int new_state_ok = 0;
350
351	if (will_wont_resp[option]) {
352	--will_wont_resp[option];
353	if (will_wont_resp[option] && my_state_is_will(option)(options[option]&0x01))
354	--will_wont_resp[option];
355	}
356
357	if (will_wont_resp[option] == 0) {
358	if (my_want_state_is_wont(option)(!(options[option]&0x02))) {
359
360	switch (option) {
361
362	case TELOPT_TM6:
363	/*
364	* Special case for TM. We send a WILL, but pretend
365	* we sent WONT.
366	*/
367	send_will(option, 0);
368	set_my_want_state_wont(TELOPT_TM){options[6] &= ~0x02;};
369	set_my_state_wont(TELOPT_TM){options[6] &= ~0x01;};
370	return;
371
372	case TELOPT_BINARY0: /* binary mode */
373	case TELOPT_NAWS31: /* window size */
374	case TELOPT_TSPEED32: /* terminal speed */
375	case TELOPT_LFLOW33: /* local flow control */
376	case TELOPT_TTYPE24: /* terminal type option */
377	case TELOPT_SGA3: /* no big deal */
378	new_state_ok = 1;
379	break;
380
381	case TELOPT_NEW_ENVIRON39: /* New environment variable option */
382	new_state_ok = 1;
383	break;
384
385	case TELOPT_XDISPLOC35: /* X Display location */
386	if (env_getvalue("DISPLAY", 0))
387	new_state_ok = 1;
388	break;
389
390	case TELOPT_LINEMODE34:
391	#ifdef KLUDGELINEMODE1
392	kludgelinemode = 0;
393	send_do(TELOPT_SGA3, 1);
394	#endif
395	set_my_want_state_will(TELOPT_LINEMODE){options[34] \|= 0x02;};
396	send_will(option, 0);
397	set_my_state_will(TELOPT_LINEMODE){options[34] \|= 0x01;};
398	slc_init();
399	return;
400
401	case TELOPT_ECHO1: /* We're never going to echo... */
402	default:
403	break;
404	}
405
406	if (new_state_ok) {
407	set_my_want_state_will(option){options[option] \|= 0x02;};
408	send_will(option, 0);
409	setconnmode(0); /* Set new tty mode */
410	} else {
411	will_wont_resp[option]++;
412	send_wont(option, 0);
413	}
414	} else {
415	/*
416	* Handle options that need more things done after the
417	* other side has acknowledged the option.
418	*/
419	switch (option) {
420	case TELOPT_LINEMODE34:
421	#ifdef KLUDGELINEMODE1
422	kludgelinemode = 0;
423	send_do(TELOPT_SGA3, 1);
424	#endif
425	set_my_state_will(option){options[option] \|= 0x01;};
426	slc_init();
427	send_do(TELOPT_SGA3, 0);
428	return;
429	}
430	}
431	}
432	set_my_state_will(option){options[option] \|= 0x01;};
433	}
434
435	static void
436	dontoption(int option)
437	{
438
439	if (will_wont_resp[option]) {
440	--will_wont_resp[option];
441	if (will_wont_resp[option] && my_state_is_wont(option)(!(options[option]&0x01)))
442	--will_wont_resp[option];
443	}
444
445	if ((will_wont_resp[option] == 0) && my_want_state_is_will(option)(options[option]&0x02)) {
446	switch (option) {
447	case TELOPT_LINEMODE34:
448	linemode = 0; /* put us back to the default state */
449	break;
450	}
451	/* we always accept a DONT */
452	set_my_want_state_wont(option){options[option] &= ~0x02;};
453	if (my_state_is_will(option)(options[option]&0x01))
454	send_wont(option, 0);
455	setconnmode(0); /* Set new tty mode */
456	}
457	set_my_state_wont(option){options[option] &= ~0x01;};
458	}
459
460	/*
461	* This routine will turn a pipe separated list of names in the buffer
462	* into an array of pointers to NUL terminated names. We toss out any
463	* bad, duplicate, or verbose names (names with spaces).
464	*/
465
466	int is_unique(char , char , char *);
467
468	static char *name_unknown = "UNKNOWN";
469	static char unknown[] = { NULL((void )0), NULL((void *)0) };
470
471	char **
472	mklist(char buf, char name)
473	{
474	int n;
475	char c, cp, argvp, cp2, argv, avt;
476
477	if (name) {
478	if (strlen(name) > 40) {
479	name = NULL((void *)0);
480	unknown[0] = name_unknown;
481	} else {
482	unknown[0] = name;
483	upcase(name);
484	}
485	} else
486	unknown[0] = name_unknown;
487	/*
488	* Count up the number of names.
489	*/
490	for (n = 1, cp = buf; *cp; cp++) {
491	if (*cp == '\|')
492	n++;
493	}
494	/*
495	* Allocate an array to put the name pointers into
496	*/
497	argv = reallocarray(NULL((void )0), n+3, sizeof(char ));
498	if (argv == NULL((void *)0))
499	return(unknown);
500
501	/*
502	* Fill up the array of pointers to names.
503	*/
504	argv = NULL((void )0);
505	argvp = argv+1;
506	n = 0;
507	for (cp = cp2 = buf; (c = *cp); cp++) {
508	if (c == '\|' \|\| c == ':') {
509	*cp++ = '\0';
510	/*
511	* Skip entries that have spaces or are over 40
512	* characters long. If this is our environment
513	* name, then put it up front. Otherwise, as
514	* long as this is not a duplicate name (case
515	* insensitive) add it to the list.
516	*/
517	if (n \|\| (cp - cp2 > 41))
518	;
519	else if (name && (strncasecmp(name, cp2, cp-cp2) == 0))
520	*argv = cp2;
521	else if (is_unique(cp2, argv+1, argvp))
522	*argvp++ = cp2;
523	if (c == ':')
524	break;
525	/*
526	* Skip multiple delimiters. Reset cp2 to
527	* the beginning of the next name. Reset n,
528	* the flag for names with spaces.
529	*/
530	while ((c = *cp) == '\|')
531	cp++;
532	cp2 = cp;
533	n = 0;
534	}
535	/*
536	* Skip entries with spaces or non-ascii values.
537	* Convert lower case letters to upper case.
538	*/
539	#define ISASCII(c)(!((c)&0x80)) (!((c)&0x80))
540	if ((c == ' ') \|\| !ISASCII(c)(!((c)&0x80)))
541	n = 1;
542	else
543	*cp = toupper((unsigned char)c);
544	}
545
546	/*
547	* Check for an old V6 2 character name. If the second
548	* name points to the beginning of the buffer, and is
549	* only 2 characters long, move it to the end of the array.
550	*/
551	if ((argv[1] == buf) && (strlen(argv[1]) == 2)) {
552	--argvp;
553	for (avt = &argv[1]; avt < argvp; avt++)
554	avt = (avt+1);
555	*argvp++ = buf;
556	}
557
558	/*
559	* Duplicate last name, for TTYPE option, and null
560	* terminate the array. If we didn't find a match on
561	* our terminal name, put that name at the beginning.
562	*/
563	cp = *(argvp-1);
564	*argvp++ = cp;
565	argvp = NULL((void )0);
566
567	if (argv == NULL((void )0)) {
568	if (name)
569	*argv = name;
570	else {
571	--argvp;
572	for (avt = argv; avt < argvp; avt++)
573	avt = (avt+1);
574	}
575	}
576	if (*argv)
577	return(argv);
578	else
579	return(unknown);
580	}
581
582	int
583	is_unique(char name, char as, char *ae)
584	{
585	char **ap;
586	int n;
587
588	n = strlen(name) + 1;
589	for (ap = as; ap < ae; ap++)
590	if (strncasecmp(*ap, name, n) == 0)
591	return(0);
592	return (1);
593	}
594
595	int resettermname = 1;
596
597	char *
598	gettermname(void)
599	{
600	char *tname;
601	static char *tnamep = NULL((void )0);
602	static char **next;
603	int errret;
604
605	if (resettermname) {
606	resettermname = 0;
607	if (tnamep && tnamep != unknown)
608	free(tnamep);
609	if ((tname = env_getvalue("TERM", 0)) &&
610	(setupterm(tname, 1, &errret) == OK(0))) {
611	tnamep = mklist(ttytype, tname);
612	} else {
613	if (tname && (strlen(tname) <= 40)) {
614	unknown[0] = tname;
615	upcase(tname);
616	} else
617	unknown[0] = name_unknown;
618	tnamep = unknown;
619	}
620	next = tnamep;
621	}
622	if (next == NULL((void )0))
623	next = tnamep;
624	return(*next++);
625	}
626
627	/*
628	* suboption()
629	*
630	* Look at the sub-option buffer, and try to be helpful to the other
631	* side.
632	*
633	* Currently we recognize:
634	*
635	* Terminal type, send request.
636	* Terminal speed (send request).
637	* Local flow control (is request).
638	* Linemode
639	*/
640
641	static void
642	suboption(void)
643	{
644	unsigned char subchar;
645
646	printsub('<', subbuffer, SB_LEN()(subend - subpointer)+2);
647	switch (subchar = SB_GET()((*subpointer++)&0xff)) {
648	case TELOPT_TTYPE24:
649	if (my_want_state_is_wont(TELOPT_TTYPE)(!(options[24]&0x02)))
650	return;
651	if (SB_EOF()(subpointer >= subend) \|\| SB_GET()((*subpointer++)&0xff) != TELQUAL_SEND1) {
652	return;
653	} else {
654	char *name;
655	unsigned char temp[50];
656	int len;
657
658	name = gettermname();
659	len = strlen(name) + 4 + 2;
660	if (len < NETROOM()(ring_empty_count(&netoring))) {
661	snprintf((char *)temp, sizeof(temp),
662	"%c%c%c%c%s%c%c", IAC255, SB250, TELOPT_TTYPE24,
663	TELQUAL_IS0, name, IAC255, SE240);
664	ring_supply_data(&netoring, temp, len);
665	printsub('>', &temp[2], len-2);
666	} else
667	ExitString("No room in buffer for terminal type.\n", 1);
668	}
669	break;
670	case TELOPT_TSPEED32:
671	if (my_want_state_is_wont(TELOPT_TSPEED)(!(options[32]&0x02)))
672	return;
673	if (SB_EOF()(subpointer >= subend))
674	return;
675	if (SB_GET()((*subpointer++)&0xff) == TELQUAL_SEND1) {
676	long ospeed, ispeed;
677	unsigned char temp[50];
678	int len;
679
680	TerminalSpeeds(&ispeed, &ospeed);
681
682	snprintf((char *)temp, sizeof(temp),
683	"%c%c%c%c%ld,%ld%c%c", IAC255, SB250, TELOPT_TSPEED32,
684	TELQUAL_IS0, ospeed, ispeed, IAC255, SE240);
685	len = strlen((char )temp+4) + 4; / temp[3] is 0 ... */
686
687	if (len < NETROOM()(ring_empty_count(&netoring))) {
688	ring_supply_data(&netoring, temp, len);
689	printsub('>', temp+2, len - 2);
690	}
691	/@/ else printf("lm_will: not enough room in buffer\n");
692	}
693	break;
694	case TELOPT_LFLOW33:
695	if (my_want_state_is_wont(TELOPT_LFLOW)(!(options[33]&0x02)))
696	return;
697	if (SB_EOF()(subpointer >= subend))
698	return;
699	switch(SB_GET()((*subpointer++)&0xff)) {
700	case LFLOW_RESTART_ANY2:
701	restartany = 1;
702	break;
703	case LFLOW_RESTART_XON3:
704	restartany = 0;
705	break;
706	case LFLOW_ON1:
707	localflow = 1;
708	break;
709	case LFLOW_OFF0:
710	localflow = 0;
711	break;
712	default:
713	return;
714	}
715	setcommandmode();
716	setconnmode(0);
717	break;
718
719	case TELOPT_LINEMODE34:
720	if (my_want_state_is_wont(TELOPT_LINEMODE)(!(options[34]&0x02)))
721	return;
722	if (SB_EOF()(subpointer >= subend))
723	return;
724	switch (SB_GET()((*subpointer++)&0xff)) {
725	case WILL251:
726	lm_will(subpointer, SB_LEN()(subend - subpointer));
727	break;
728	case WONT252:
729	lm_wont(subpointer, SB_LEN()(subend - subpointer));
730	break;
731	case DO253:
732	lm_do(subpointer, SB_LEN()(subend - subpointer));
733	break;
734	case DONT254:
735	lm_dont(subpointer, SB_LEN()(subend - subpointer));
736	break;
737	case LM_SLC3:
738	slc(subpointer, SB_LEN()(subend - subpointer));
739	break;
740	case LM_MODE1:
741	lm_mode(subpointer, SB_LEN()(subend - subpointer), 0);
742	break;
743	default:
744	break;
745	}
746	break;
747
748	case TELOPT_NEW_ENVIRON39:
749	if (SB_EOF()(subpointer >= subend))
750	return;
751	switch(SB_PEEK()((*subpointer)&0xff)) {
752	case TELQUAL_IS0:
753	case TELQUAL_INFO2:
754	if (my_want_state_is_dont(subchar)(!(options[subchar]&0x08)))
755	return;
756	break;
757	case TELQUAL_SEND1:
758	if (my_want_state_is_wont(subchar)(!(options[subchar]&0x02))) {
759	return;
760	}
761	break;
762	default:
763	return;
764	}
765	env_opt(subpointer, SB_LEN()(subend - subpointer));
766	break;
767
768	case TELOPT_XDISPLOC35:
769	if (my_want_state_is_wont(TELOPT_XDISPLOC)(!(options[35]&0x02)))
770	return;
771	if (SB_EOF()(subpointer >= subend))
772	return;
773	if (SB_GET()((*subpointer++)&0xff) == TELQUAL_SEND1) {
774	unsigned char temp[50], *dp;
775	int len;
776
777	if ((dp = env_getvalue("DISPLAY", 0)) == NULL((void *)0)) {
778	/*
779	* Something happened, we no longer have a DISPLAY
780	* variable. So, turn off the option.
781	*/
782	send_wont(TELOPT_XDISPLOC35, 1);
783	break;
784	}
785	snprintf((char *)temp, sizeof(temp),
786	"%c%c%c%c%s%c%c", IAC255, SB250, TELOPT_XDISPLOC35,
787	TELQUAL_IS0, dp, IAC255, SE240);
788	len = strlen((char )temp+4) + 4; / temp[3] is 0 ... */
789
790	if (len < NETROOM()(ring_empty_count(&netoring))) {
791	ring_supply_data(&netoring, temp, len);
792	printsub('>', temp+2, len - 2);
793	}
794	/@/ else printf("lm_will: not enough room in buffer\n");
795	}
796	break;
797
798	default:
799	break;
800	}
801	}
802
803	static unsigned char str_lm[] = { IAC255, SB250, TELOPT_LINEMODE34, 0, 0, IAC255, SE240 };
804
805	static void
806	lm_will(unsigned char *cmd, int len)
807	{
808	if (len < 1) {
809	/@/ printf("lm_will: no command!!!\n"); /* Should not happen... */
810	return;
811	}
812	switch(cmd[0]) {
813	case LM_FORWARDMASK2: /* We shouldn't ever get this... */
814	default:
815	str_lm[3] = DONT254;
816	str_lm[4] = cmd[0];
817	if (NETROOM()(ring_empty_count(&netoring)) > sizeof(str_lm)) {
818	ring_supply_data(&netoring, str_lm, sizeof(str_lm));
819	printsub('>', &str_lm[2], sizeof(str_lm)-2);
820	}
821	/@/ else printf("lm_will: not enough room in buffer\n");
822	break;
823	}
824	}
825
826	static void
827	lm_wont(unsigned char *cmd, int len)
828	{
829	if (len < 1) {
830	/@/ printf("lm_wont: no command!!!\n"); /* Should not happen... */
831	return;
832	}
833	switch(cmd[0]) {
834	case LM_FORWARDMASK2: /* We shouldn't ever get this... */
835	default:
836	/* We are always DONT, so don't respond */
837	return;
838	}
839	}
840
841	static void
842	lm_do(unsigned char *cmd, int len)
843	{
844	if (len < 1) {
845	/@/ printf("lm_do: no command!!!\n"); /* Should not happen... */
846	return;
847	}
848	switch(cmd[0]) {
849	case LM_FORWARDMASK2:
850	default:
851	str_lm[3] = WONT252;
852	str_lm[4] = cmd[0];
853	if (NETROOM()(ring_empty_count(&netoring)) > sizeof(str_lm)) {
854	ring_supply_data(&netoring, str_lm, sizeof(str_lm));
855	printsub('>', &str_lm[2], sizeof(str_lm)-2);
856	}
857	/@/ else printf("lm_do: not enough room in buffer\n");
858	break;
859	}
860	}
861
862	static void
863	lm_dont(unsigned char *cmd, int len)
864	{
865	if (len < 1) {
866	/@/ printf("lm_dont: no command!!!\n"); /* Should not happen... */
867	return;
868	}
869	switch(cmd[0]) {
870	case LM_FORWARDMASK2:
871	default:
872	/* we are always WONT, so don't respond */
873	break;
874	}
875	}
876
877	static unsigned char str_lm_mode[] = {
878	IAC255, SB250, TELOPT_LINEMODE34, LM_MODE1, 0, IAC255, SE240
879	};
880
881	void
882	lm_mode(unsigned char *cmd, int len, int init)
883	{
884	if (len != 1)
885	return;
886	if ((linemode&MODE_MASK0x1f&~MODE_ACK0x04) == *cmd)
887	return;
888	if (*cmd&MODE_ACK0x04)
889	return;
890	linemode = *cmd&(MODE_MASK0x1f&~MODE_ACK0x04);
891	str_lm_mode[4] = linemode;
892	if (!init)
893	str_lm_mode[4] \|= MODE_ACK0x04;
894	if (NETROOM()(ring_empty_count(&netoring)) > sizeof(str_lm_mode)) {
895	ring_supply_data(&netoring, str_lm_mode, sizeof(str_lm_mode));
896	printsub('>', &str_lm_mode[2], sizeof(str_lm_mode)-2);
897	}
898	/@/ else printf("lm_mode: not enough room in buffer\n");
899	setconnmode(0); /* set changed mode */
900	}
901
902
903
904	/*
905	* slc()
906	* Handle special character suboption of LINEMODE.
907	*/
908
909	struct spc {
910	cc_t val;
911	cc_t *valp;
912	char flags; /* Current flags & level */
913	char mylevel; /* Maximum level & flags */
914	} spc_data[NSLC30+1];
915
916	#define SLC_IMPORT0 0
917	#define SLC_EXPORT1 1
918	#define SLC_RVALUE2 2
919	static int slc_mode = SLC_EXPORT1;
920
921	static void
922	slc_init(void)
923	{
924	struct spc *spcp;
925
926	localchars = 1;
927	for (spcp = spc_data; spcp < &spc_data[NSLC30+1]; spcp++) {
928	spcp->val = 0;
929	spcp->valp = NULL((void *)0);
930	spcp->flags = spcp->mylevel = SLC_NOSUPPORT0;
931	}
932
933	#define initfunc(func, flags) { \
934	spcp = &spc_data[func]; \
935	if ((spcp->valp = tcval(func))) { \
936	spcp->val = *spcp->valp; \
937	spcp->mylevel = SLC_VARIABLE2\|flags; \
938	} else { \
939	spcp->val = 0; \
940	spcp->mylevel = SLC_DEFAULT3; \
941	} \
942	}
943
944	initfunc(SLC_SYNCH1, 0);
945	/* No BRK */
946	initfunc(SLC_AO4, 0);
947	initfunc(SLC_AYT5, 0);
948	/* No EOR */
949	initfunc(SLC_ABORT7, SLC_FLUSHIN0x40\|SLC_FLUSHOUT0x20);
950	initfunc(SLC_EOF8, 0);
951	initfunc(SLC_SUSP9, SLC_FLUSHIN0x40);
952	initfunc(SLC_EC10, 0);
953	initfunc(SLC_EL11, 0);
954	initfunc(SLC_EW12, 0);
955	initfunc(SLC_RP13, 0);
956	initfunc(SLC_LNEXT14, 0);
957	initfunc(SLC_XON15, 0);
958	initfunc(SLC_XOFF16, 0);
959	initfunc(SLC_FORW117, 0);
960	initfunc(SLC_FORW218, 0);
961	/* No FORW2 */
962
963	initfunc(SLC_IP3, SLC_FLUSHIN0x40\|SLC_FLUSHOUT0x20);
964	#undef initfunc
965
966	if (slc_mode == SLC_EXPORT1)
967	slc_export();
968	else
969	slc_import(1);
970
971	}
972
973	void
974	slcstate(void)
975	{
976	printf("Special characters are %s values\n",
977	slc_mode == SLC_IMPORT0 ? "remote default" :
978	slc_mode == SLC_EXPORT1 ? "local" :
979	"remote");
980	}
981
982	void
983	slc_mode_export(int unused)
984	{
985	slc_mode = SLC_EXPORT1;
986	if (my_state_is_will(TELOPT_LINEMODE)(options[34]&0x01))
987	slc_export();
988	}
989
990	void
991	slc_mode_import(int def)
992	{
993	slc_mode = def ? SLC_IMPORT0 : SLC_RVALUE2;
994	if (my_state_is_will(TELOPT_LINEMODE)(options[34]&0x01))
995	slc_import(def);
996	}
997
998	unsigned char slc_import_val[] = {
999	IAC255, SB250, TELOPT_LINEMODE34, LM_SLC3, 0, SLC_VARIABLE2, 0, IAC255, SE240
1000	};
1001	unsigned char slc_import_def[] = {
1002	IAC255, SB250, TELOPT_LINEMODE34, LM_SLC3, 0, SLC_DEFAULT3, 0, IAC255, SE240
1003	};
1004
1005	static void
1006	slc_import(int def)
1007	{
1008	if (NETROOM()(ring_empty_count(&netoring)) > sizeof(slc_import_val)) {
1009	if (def) {
1010	ring_supply_data(&netoring, slc_import_def, sizeof(slc_import_def));
1011	printsub('>', &slc_import_def[2], sizeof(slc_import_def)-2);
1012	} else {
1013	ring_supply_data(&netoring, slc_import_val, sizeof(slc_import_val));
1014	printsub('>', &slc_import_val[2], sizeof(slc_import_val)-2);
1015	}
1016	}
1017	/@/ else printf("slc_import: not enough room\n");
1018	}
1019
1020	static void
1021	slc_export(void)
1022	{
1023	struct spc *spcp;
1024
1025	TerminalDefaultChars();
1026
1027	slc_start_reply();
1028	for (spcp = &spc_data[1]; spcp < &spc_data[NSLC30+1]; spcp++) {
1029	if (spcp->mylevel != SLC_NOSUPPORT0) {
1030	if (spcp->val == (cc_t)(_POSIX_VDISABLE(0377)))
1031	spcp->flags = SLC_NOSUPPORT0;
1032	else
1033	spcp->flags = spcp->mylevel;
1034	if (spcp->valp)
1035	spcp->val = *spcp->valp;
1036	slc_add_reply(spcp - spc_data, spcp->flags, spcp->val);
1037	}
1038	}
1039	slc_end_reply();
1040	(void)slc_update();
1041	setconnmode(1); /* Make sure the character values are set */
1042	}
1043
1044	static void
1045	slc(unsigned char *cp, int len)
1046	{
1047	struct spc *spcp;
1048	int func,level;
1049
1050	slc_start_reply();
1051
1052	for (; len >= 3; len -=3, cp +=3) {
1053
1054	func = cp[SLC_FUNC0];
1055
1056	if (func == 0) {
1057	/*
1058	* Client side: always ignore 0 function.
1059	*/
1060	continue;
1061	}
1062	if (func > NSLC30) {
1063	if ((cp[SLC_FLAGS1] & SLC_LEVELBITS0x03) != SLC_NOSUPPORT0)
1064	slc_add_reply(func, SLC_NOSUPPORT0, 0);
1065	continue;
1066	}
1067
1068	spcp = &spc_data[func];
1069
1070	level = cp[SLC_FLAGS1]&(SLC_LEVELBITS0x03\|SLC_ACK0x80);
1071
1072	if ((cp[SLC_VALUE2] == (unsigned char)spcp->val) &&
1073	((level&SLC_LEVELBITS0x03) == (spcp->flags&SLC_LEVELBITS0x03))) {
1074	continue;
1075	}
1076
1077	if (level == (SLC_DEFAULT3\|SLC_ACK0x80)) {
1078	/*
1079	* This is an error condition, the SLC_ACK
1080	* bit should never be set for the SLC_DEFAULT
1081	* level. Our best guess to recover is to
1082	* ignore the SLC_ACK bit.
1083	*/
1084	cp[SLC_FLAGS1] &= ~SLC_ACK0x80;
1085	}
1086
1087	if (level == ((spcp->flags&SLC_LEVELBITS0x03)\|SLC_ACK0x80)) {
1088	spcp->val = (cc_t)cp[SLC_VALUE2];
1089	spcp->flags = cp[SLC_FLAGS1]; /* include SLC_ACK */
1090	continue;
1091	}
1092
1093	level &= ~SLC_ACK0x80;
1094
1095	if (level <= (spcp->mylevel&SLC_LEVELBITS0x03)) {
1096	spcp->flags = cp[SLC_FLAGS1]\|SLC_ACK0x80;
1097	spcp->val = (cc_t)cp[SLC_VALUE2];
1098	}
1099	if (level == SLC_DEFAULT3) {
1100	if ((spcp->mylevel&SLC_LEVELBITS0x03) != SLC_DEFAULT3)
1101	spcp->flags = spcp->mylevel;
1102	else
1103	spcp->flags = SLC_NOSUPPORT0;
1104	}
1105	slc_add_reply(func, spcp->flags, spcp->val);
1106	}
1107	slc_end_reply();
1108	if (slc_update())
1109	setconnmode(1); /* set the new character values */
1110	}
1111
1112	void
1113	slc_check(void)
1114	{
1115	struct spc *spcp;
1116
1117	slc_start_reply();
1118	for (spcp = &spc_data[1]; spcp < &spc_data[NSLC30+1]; spcp++) {
1119	if (spcp->valp && spcp->val != *spcp->valp) {
1120	spcp->val = *spcp->valp;
1121	if (spcp->val == (cc_t)(_POSIX_VDISABLE(0377)))
1122	spcp->flags = SLC_NOSUPPORT0;
1123	else
1124	spcp->flags = spcp->mylevel;
1125	slc_add_reply(spcp - spc_data, spcp->flags, spcp->val);
1126	}
1127	}
1128	slc_end_reply();
1129	setconnmode(1);
1130	}
1131
1132
1133	static unsigned char slc_reply[2 * SUBBUFSIZE256];
1134	static unsigned char *slc_replyp;
1135
1136	unsigned char
1137	slc_add(unsigned char ch)
1138	{
1139	if (slc_replyp == slc_reply + sizeof(slc_reply))
1140	return ch;
1141	return *slc_replyp++ = ch;
1142	}
1143
1144	static void
1145	slc_start_reply(void)
1146	{
1147	slc_replyp = slc_reply;
1148	slc_add(IAC255);
1149	slc_add(SB250);
1150	slc_add(TELOPT_LINEMODE34);
1151	slc_add(LM_SLC3);
1152	}
1153
1154	static void
1155	slc_add_reply(unsigned char func, unsigned char flags, cc_t value)
1156	{
1157	if (slc_replyp + 6 >= slc_reply + sizeof(slc_reply)) {
1158	printf("slc_add_reply: not enough room\n");
1159	return;
1160	}
1161	if (slc_add(func) == IAC255)
1162	slc_add(IAC255);
1163	if (slc_add(flags) == IAC255)
1164	slc_add(IAC255);
1165	if (slc_add((unsigned char)value) == IAC255)
1166	slc_add(IAC255);
1167	}
1168
1169	static void
1170	slc_end_reply(void)
1171	{
1172	int len;
1173
1174	if (slc_replyp + 2 >= slc_reply + sizeof(slc_reply)) {
1175	printf("slc_end_reply: not enough room\n");
1176	return;
1177	}
1178
1179	slc_add(IAC255);
1180	slc_add(SE240);
1181	len = slc_replyp - slc_reply;
1182	if (len <= 6)
1183	return;
1184	if (NETROOM()(ring_empty_count(&netoring)) > len) {
1185	ring_supply_data(&netoring, slc_reply, slc_replyp - slc_reply);
1186	printsub('>', &slc_reply[2], slc_replyp - slc_reply - 2);
1187	}
1188	/@/else printf("slc_end_reply: not enough room\n");
1189	}
1190
1191	static int
1192	slc_update(void)
1193	{
1194	struct spc *spcp;
1195	int need_update = 0;
1196
1197	for (spcp = &spc_data[1]; spcp < &spc_data[NSLC30+1]; spcp++) {
1198	if (!(spcp->flags&SLC_ACK0x80))
1199	continue;
1200	spcp->flags &= ~SLC_ACK0x80;
1201	if (spcp->valp && (*spcp->valp != spcp->val)) {
1202	*spcp->valp = spcp->val;
1203	need_update = 1;
1204	}
1205	}
1206	return(need_update);
1207	}
1208
1209	static void
1210	env_opt(char *buf, int len)
1211	{
1212	char ep = 0, epc = 0;
1213	int i;
1214
1215	switch(buf[0]&0xff) {
1216	case TELQUAL_SEND1:
1217	env_opt_start();
1218	if (len == 1) {
1219	env_opt_add(NULL((void *)0));
1220	} else for (i = 1; i < len; i++) {
1221	switch (buf[i]&0xff) {
1222	case NEW_ENV_VAR0:
1223	case ENV_USERVAR3:
1224	if (ep) {
1225	*epc = 0;
1226	env_opt_add(ep);
1227	}
1228	ep = epc = &buf[i+1];
1229	break;
1230	case ENV_ESC2:
1231	i++;
1232	/FALL THROUGH/
1233	default:
1234	if (epc)
1235	*epc++ = buf[i];
1236	break;
1237	}
1238	}
1239	if (ep) {
1240	*epc = 0;
1241	env_opt_add(ep);
1242	}
1243	env_opt_end(1);
1244	break;
1245
1246	case TELQUAL_IS0:
1247	case TELQUAL_INFO2:
1248	/* Ignore for now. We shouldn't get it anyway. */
1249	break;
1250
1251	default:
1252	break;
1253	}
1254	}
1255
1256	#define OPT_REPLY_SIZE(2 * 256) (2 * SUBBUFSIZE256)
1257	static unsigned char *opt_reply;
1258	static unsigned char *opt_replyp;
1259	static unsigned char *opt_replyend;
1260
1261	void
1262	opt_add(unsigned char ch)
1263	{
1264	if (opt_replyp == opt_replyend)
1265	return;
1266	*opt_replyp++ = ch;
1267	}
1268
1269	static void
1270	env_opt_start(void)
1271	{
1272	unsigned char *p;
1273
1274	p = realloc(opt_reply, OPT_REPLY_SIZE(2 * 256));
1275	if (p == NULL((void *)0))
1276	free(opt_reply);
1277	opt_reply = p;
1278	if (opt_reply == NULL((void *)0)) {
1279	/@/ printf("env_opt_start: realloc() failed!!!\n");
1280	opt_reply = opt_replyp = opt_replyend = NULL((void *)0);
1281	return;
1282	}
1283	opt_replyp = opt_reply;
1284	opt_replyend = opt_reply + OPT_REPLY_SIZE(2 * 256);
1285	opt_add(IAC255);
1286	opt_add(SB250);
1287	opt_add(telopt_environ39);
1288	opt_add(TELQUAL_IS0);
1289	}
1290
1291	void
1292	env_opt_start_info(void)
1293	{
1294	env_opt_start();
1295	if (opt_replyp)
1296	opt_replyp[-1] = TELQUAL_INFO2;
1297	}
1298
1299	void
1300	env_opt_add(char *ep)
1301	{
1302	char *vp, c;
1303
1304	if (opt_reply == NULL((void )0)) /XXX*/
1305	return; /XXX/
1306
1307	if (ep == NULL((void )0) \|\| ep == '\0') {
1308	/* Send user defined variables first. */
1309	env_default(1, 0);
1310	while ((ep = env_default(0, 0)))
1311	env_opt_add(ep);
1312
1313	/* Now add the list of well know variables. */
1314	env_default(1, 1);
1315	while ((ep = env_default(0, 1)))
1316	env_opt_add(ep);
1317	return;
1318	}
1319	vp = env_getvalue(ep, 1);
1320	if (2 * (vp ? strlen(vp) : 0) + 2 * strlen(ep) + 6 >
1321	opt_replyend - opt_replyp)
1322	{
1323	size_t len;
1324	unsigned char *p;
1325
1326	len = opt_replyend - opt_reply;
1327	len += OPT_REPLY_SIZE(2 * 256) + 2 * strlen(ep);
1328	if (vp)
1329	len += 2 * strlen(vp);
1330	p = realloc(opt_reply, len);
1331	if (p == NULL((void *)0)) {
1332	free(opt_reply);
1333	/@/ printf("env_opt_add: realloc() failed!!!\n");
1334	opt_reply = opt_replyp = opt_replyend = NULL((void *)0);
1335	return;
1336	}
1337	opt_replyp = p + (opt_replyp - opt_reply);
1338	opt_replyend = p + len;
1339	opt_reply = p;
1340	}
1341	if (opt_welldefined(ep))
1342	opt_add(NEW_ENV_VAR0);
1343	else
1344	opt_add(ENV_USERVAR3);
1345
1346	for (;;) {
1347	while ((c = *ep++)) {
1348	switch(c&0xff) {
1349	case IAC255:
1350	opt_add(IAC255);
1351	break;
1352	case NEW_ENV_VAR0:
1353	case NEW_ENV_VALUE1:
1354	case ENV_ESC2:
1355	case ENV_USERVAR3:
1356	opt_add(ENV_ESC2);
1357	break;
1358	}
1359	opt_add(c);
1360	}
1361	if ((ep = vp)) {
1362	opt_add(NEW_ENV_VALUE1);
1363	vp = NULL((void *)0);
1364	} else
1365	break;
1366	}
1367	}
1368
1369	int
1370	opt_welldefined(const char *ep)
1371	{
1372	if ((strcmp(ep, "USER") == 0) \|\|
1373	(strcmp(ep, "DISPLAY") == 0) \|\|
1374	(strcmp(ep, "PRINTER") == 0) \|\|
1375	(strcmp(ep, "SYSTEMTYPE") == 0) \|\|
1376	(strcmp(ep, "JOB") == 0) \|\|
1377	(strcmp(ep, "ACCT") == 0))
1378	return(1);
1379	return(0);
1380	}
1381
1382	void
1383	env_opt_end(int emptyok)
1384	{
1385	int len;
1386
1387	len = opt_replyp - opt_reply + 2;
1388	if (emptyok \|\| len > 6) {
1389	opt_add(IAC255);
1390	opt_add(SE240);
1391	if (NETROOM()(ring_empty_count(&netoring)) > len) {
1392	ring_supply_data(&netoring, opt_reply, len);
1393	printsub('>', &opt_reply[2], len - 2);
1394	}
1395	/@/ else printf("slc_end_reply: not enough room\n");
1396	}
1397	if (opt_reply) {
1398	free(opt_reply);
1399	opt_reply = opt_replyp = opt_replyend = NULL((void *)0);
1400	}
1401	}
1402
1403
1404
1405	int
1406	telrcv(void)
1407	{
1408	int c;
1409	int scc;
1410	unsigned char *sbp;
1411	int count;
1412	int returnValue = 0;
1413
1414	scc = 0;
1415	count = 0;
1416	while (TTYROOM()(ring_empty_count(&ttyoring)) > 2) {
1417	if (scc == 0) {
1418	if (count) {
1419	ring_consumed(&netiring, count);
1420	returnValue = 1;
1421	count = 0;
1422	}
1423	sbp = netiring.consume;
1424	scc = ring_full_consecutive(&netiring);
1425	if (scc == 0) {
1426	/* No more data coming in */
1427	break;
1428	}
1429	}
1430
1431	c = *sbp++ & 0xff, scc--; count++;
1432
1433	switch (telrcv_state) {
1434
1435	case TS_CR6:
1436	telrcv_state = TS_DATA0;
1437	if (c == '\0') {
1438	break; /* Ignore \0 after CR */
1439	}
1440	else if ((c == '\n') && my_want_state_is_dont(TELOPT_ECHO)(!(options[1]&0x08)) && !crmod) {
1441	TTYADD(c)if (!(SYNCHing\|\|flushout)) { *ttyoring.supply = c; ring_supplied (&ttyoring, 1); };
1442	break;
1443	}
1444	/* Else, fall through */
1445
1446	case TS_DATA0:
1447	if (c == IAC255) {
1448	telrcv_state = TS_IAC1;
1449	break;
1450	}
1451	/*
1452	* The 'crmod' hack (see following) is needed
1453	* since we can't set CRMOD on output only.
1454	* Machines like MULTICS like to send \r without
1455	* \n; since we must turn off CRMOD to get proper
1456	* input, the mapping is done here (sigh).
1457	*/
1458	if ((c == '\r') && my_want_state_is_dont(TELOPT_BINARY)(!(options[0]&0x08))) {
1459	if (scc > 0) {
1460	c = *sbp&0xff;
1461	if (c == 0) {
1462	sbp++, scc--; count++;
1463	/* a "true" CR */
1464	TTYADD('\r')if (!(SYNCHing\|\|flushout)) { *ttyoring.supply = '\r'; ring_supplied (&ttyoring, 1); };
1465	} else if (my_want_state_is_dont(TELOPT_ECHO)(!(options[1]&0x08)) &&
1466	(c == '\n')) {
1467	sbp++, scc--; count++;
1468	TTYADD('\n')if (!(SYNCHing\|\|flushout)) { *ttyoring.supply = '\n'; ring_supplied (&ttyoring, 1); };
1469	} else {
1470	TTYADD('\r')if (!(SYNCHing\|\|flushout)) { *ttyoring.supply = '\r'; ring_supplied (&ttyoring, 1); };
1471	if (crmod) {
1472	TTYADD('\n')if (!(SYNCHing\|\|flushout)) { *ttyoring.supply = '\n'; ring_supplied (&ttyoring, 1); };
1473	}
1474	}
1475	} else {
1476	telrcv_state = TS_CR6;
1477	TTYADD('\r')if (!(SYNCHing\|\|flushout)) { *ttyoring.supply = '\r'; ring_supplied (&ttyoring, 1); };
1478	if (crmod) {
1479	TTYADD('\n')if (!(SYNCHing\|\|flushout)) { *ttyoring.supply = '\n'; ring_supplied (&ttyoring, 1); };
1480	}
1481	}
1482	} else {
1483	TTYADD(c)if (!(SYNCHing\|\|flushout)) { *ttyoring.supply = c; ring_supplied (&ttyoring, 1); };
1484	}
1485	continue;
1486
1487	case TS_IAC1:
1488	process_iac:
1489	switch (c) {
1490
1491	case WILL251:
1492	telrcv_state = TS_WILL2;
1493	continue;
1494
1495	case WONT252:
1496	telrcv_state = TS_WONT3;
1497	continue;
1498
1499	case DO253:
1500	telrcv_state = TS_DO4;
1501	continue;
1502
1503	case DONT254:
1504	telrcv_state = TS_DONT5;
1505	continue;
1506
1507	case DM242:
1508	/*
1509	* We may have missed an urgent notification,
1510	* so make sure we flush whatever is in the
1511	* buffer currently.
1512	*/
1513	printoption("RCVD", IAC255, DM242);
1514	SYNCHing = 1;
1515	(void) ttyflush(1);
1516	SYNCHing = stilloob();
1517	break;
1518
1519	case SB250:
1520	SB_CLEAR()subpointer = subbuffer;;
1521	telrcv_state = TS_SB7;
1522	continue;
1523
1524	case IAC255:
1525	TTYADD(IAC)if (!(SYNCHing\|\|flushout)) { *ttyoring.supply = 255; ring_supplied (&ttyoring, 1); };
1526	break;
1527
1528	case NOP241:
1529	case GA249:
1530	default:
1531	printoption("RCVD", IAC255, c);
1532	break;
1533	}
1534	telrcv_state = TS_DATA0;
1535	continue;
1536
1537	case TS_WILL2:
1538	printoption("RCVD", WILL251, c);
1539	willoption(c);
1540	telrcv_state = TS_DATA0;
1541	continue;
1542
1543	case TS_WONT3:
1544	printoption("RCVD", WONT252, c);
1545	wontoption(c);
1546	telrcv_state = TS_DATA0;
1547	continue;
1548
1549	case TS_DO4:
1550	printoption("RCVD", DO253, c);
1551	dooption(c);
1552	if (c == TELOPT_NAWS31) {
1553	sendnaws();
1554	} else if (c == TELOPT_LFLOW33) {
1555	localflow = 1;
1556	setcommandmode();
1557	setconnmode(0);
1558	}
1559	telrcv_state = TS_DATA0;
1560	continue;
1561
1562	case TS_DONT5:
1563	printoption("RCVD", DONT254, c);
1564	dontoption(c);
1565	flushline = 1;
1566	setconnmode(0); /* set new tty mode (maybe) */
1567	telrcv_state = TS_DATA0;
1568	continue;
1569
1570	case TS_SB7:
1571	if (c == IAC255) {
1572	telrcv_state = TS_SE8;
1573	} else {
1574	SB_ACCUM(c)if (subpointer < (subbuffer+sizeof subbuffer)) { *subpointer ++ = (c); };
1575	}
1576	continue;
1577
1578	case TS_SE8:
1579	if (c != SE240) {
1580	if (c != IAC255) {
1581	/*
1582	* This is an error. We only expect to get
1583	* "IAC IAC" or "IAC SE". Several things may
1584	* have happened. An IAC was not doubled, the
1585	* IAC SE was left off, or another option got
1586	* inserted into the suboption are all possibilities.
1587	* If we assume that the IAC was not doubled,
1588	* and really the IAC SE was left off, we could
1589	* get into an infinite loop here. So, instead,
1590	* we terminate the suboption, and process the
1591	* partial suboption if we can.
1592	*/
1593	SB_ACCUM(IAC)if (subpointer < (subbuffer+sizeof subbuffer)) { *subpointer ++ = (255); };
1594	SB_ACCUM(c)if (subpointer < (subbuffer+sizeof subbuffer)) { *subpointer ++ = (c); };
1595	subpointer -= 2;
1596	SB_TERM(){ subend = subpointer; subpointer = subbuffer;; };
1597
1598	printoption("In SUBOPTION processing, RCVD", IAC255, c);
1599	suboption(); /* handle sub-option */
1600	telrcv_state = TS_IAC1;
1601	goto process_iac;
1602	}
1603	SB_ACCUM(c)if (subpointer < (subbuffer+sizeof subbuffer)) { *subpointer ++ = (c); };
1604	telrcv_state = TS_SB7;
1605	} else {
1606	SB_ACCUM(IAC)if (subpointer < (subbuffer+sizeof subbuffer)) { *subpointer ++ = (255); };
1607	SB_ACCUM(SE)if (subpointer < (subbuffer+sizeof subbuffer)) { *subpointer ++ = (240); };
1608	subpointer -= 2;
1609	SB_TERM(){ subend = subpointer; subpointer = subbuffer;; };
1610	suboption(); /* handle sub-option */
1611	telrcv_state = TS_DATA0;
1612	}
1613	}
1614	}
1615	if (count)
1616	ring_consumed(&netiring, count);
1617	return returnValue\|\|count;
1618	}
1619
1620	static int bol = 1, local = 0;
1621
1622	int
1623	rlogin_susp(void)
1624	{
1625	if (local) {
1626	local = 0;
1627	bol = 1;
1628	command(0, "z\n", 2);
1629	return(1);
1630	}
1631	return(0);
1632	}
1633
1634	static int
1635	telsnd(void)
1636	{
1637	int tcc;
1638	int count;
1639	int returnValue = 0;
1640	unsigned char *tbp;
1641
1642	tcc = 0;
1643	count = 0;
1644	while (NETROOM()(ring_empty_count(&netoring)) > 2) {
1645	int sc;
1646	int c;
1647
1648	if (tcc == 0) {
1649	if (count) {
1650	ring_consumed(&ttyiring, count);
1651	returnValue = 1;
1652	count = 0;
1653	}
1654	tbp = ttyiring.consume;
1655	tcc = ring_full_consecutive(&ttyiring);
1656	if (tcc == 0) {
1657	break;
1658	}
1659	}
1660	c = *tbp++ & 0xff, sc = strip(c)(eight ? (c) : ((c) & 0x7f)), tcc--; count++;
1661	if (rlogin != _POSIX_VDISABLE(0377)) {
1662	if (bol) {
1663	bol = 0;
1664	if (sc == rlogin) {
1665	local = 1;
1666	continue;
1667	}
1668	} else if (local) {
1669	local = 0;
1670	if (sc == '.' \|\| c == termEofCharnew_tc.c_cc[0]) {
1671	bol = 1;
1672	command(0, "close\n", 6);
1673	continue;
1674	}
1675	if (sc == termSuspCharnew_tc.c_cc[10]) {
1676	bol = 1;
1677	command(0, "z\n", 2);
1678	continue;
1679	}
1680	if (sc == escape) {
1681	command(0, (char *)tbp, tcc);
1682	bol = 1;
1683	count += tcc;
1684	tcc = 0;
	Value stored to 'tcc' is never read
1685	flushline = 1;
1686	break;
1687	}
1688	if (sc != rlogin) {
1689	++tcc;
1690	--tbp;
1691	--count;
1692	c = sc = rlogin;
1693	}
1694	}
1695	if ((sc == '\n') \|\| (sc == '\r'))
1696	bol = 1;
1697	} else if (escape != _POSIX_VDISABLE(0377) && sc == escape) {
1698	/*
1699	* Double escape is a pass through of a single escape character.
1700	*/
1701	if (tcc && strip(tbp)(eight ? (tbp) : ((*tbp) & 0x7f)) == escape) {
1702	tbp++;
1703	tcc--;
1704	count++;
1705	bol = 0;
1706	} else {
1707	command(0, (char *)tbp, tcc);
1708	bol = 1;
1709	count += tcc;
1710	tcc = 0;
1711	flushline = 1;
1712	break;
1713	}
1714	} else
1715	bol = 0;
1716	#ifdef KLUDGELINEMODE1
1717	if (kludgelinemode && (globalmode&MODE_EDIT0x01) && (sc == echoc)) {
1718	if (tcc > 0 && strip(tbp)(eight ? (tbp) : ((*tbp) & 0x7f)) == echoc) {
1719	tcc--; tbp++; count++;
1720	} else {
1721	dontlecho = !dontlecho;
1722	settimer(echotoggle)clocks.echotoggle = clocks.system++;
1723	setconnmode(0);
1724	flushline = 1;
1725	break;
1726	}
1727	}
1728	#endif
1729	if (sc != _POSIX_VDISABLE(0377) && MODE_LOCAL_CHARS(globalmode)((globalmode)&(0x01\|0x02))) {
1730	if (TerminalSpecialChars(sc) == 0) {
1731	bol = 1;
1732	break;
1733	}
1734	}
1735	if (my_want_state_is_wont(TELOPT_BINARY)(!(options[0]&0x02))) {
1736	switch (c) {
1737	case '\n':
1738	/*
1739	* If we are in CRMOD mode (\r ==> \n)
1740	* on our local machine, then probably
1741	* a newline (unix) is CRLF (TELNET).
1742	*/
1743	if (MODE_LOCAL_CHARS(globalmode)((globalmode)&(0x01\|0x02))) {
1744	NETADD('\r'){ *netoring.supply = '\r'; ring_supplied(&netoring, 1); };
1745	}
1746	NETADD('\n'){ *netoring.supply = '\n'; ring_supplied(&netoring, 1); };
1747	bol = flushline = 1;
1748	break;
1749	case '\r':
1750	if (!crlf) {
1751	NET2ADD('\r', '\0'){ { netoring.supply = '\r'; ring_supplied(&netoring, 1); }; { netoring.supply = '\0'; ring_supplied(&netoring, 1 ); }; };
1752	} else {
1753	NET2ADD('\r', '\n'){ { netoring.supply = '\r'; ring_supplied(&netoring, 1); }; { netoring.supply = '\n'; ring_supplied(&netoring, 1 ); }; };
1754	}
1755	bol = flushline = 1;
1756	break;
1757	case IAC255:
1758	NET2ADD(IAC, IAC){ { netoring.supply = 255; ring_supplied(&netoring, 1); } ; { netoring.supply = 255; ring_supplied(&netoring, 1); } ; };
1759	break;
1760	default:
1761	NETADD(c){ *netoring.supply = c; ring_supplied(&netoring, 1); };
1762	break;
1763	}
1764	} else if (c == IAC255) {
1765	NET2ADD(IAC, IAC){ { netoring.supply = 255; ring_supplied(&netoring, 1); } ; { netoring.supply = 255; ring_supplied(&netoring, 1); } ; };
1766	} else {
1767	NETADD(c){ *netoring.supply = c; ring_supplied(&netoring, 1); };
1768	}
1769	}
1770	if (count)
1771	ring_consumed(&ttyiring, count);
1772	return returnValue\|\|count; /* Non-zero if we did anything */
1773	}
1774
1775	/*
1776	* Scheduler()
1777	*
1778	* Try to do something.
1779	*
1780	* If we do something useful, return 1; else return 0.
1781	*
1782	*/
1783
1784	int
1785	Scheduler(int block) /* should we block in the select ? */
1786	{
1787	/* One wants to be a bit careful about setting returnValue
1788	* to one, since a one implies we did some useful work,
1789	* and therefore probably won't be called to block next
1790	* time (TN3270 mode only).
1791	*/
1792	int returnValue;
1793	int netin, netout, netex, ttyin, ttyout;
1794
1795	/* Decide which rings should be processed */
1796
1797	netout = ring_full_count(&netoring) &&
1798	(flushline \|\|
1799	(my_want_state_is_wont(TELOPT_LINEMODE)(!(options[34]&0x02))
1800	#ifdef KLUDGELINEMODE1
1801	&& (!kludgelinemode \|\| my_want_state_is_do(TELOPT_SGA)(options[3]&0x08))
1802	#endif
1803	) \|\|
1804	my_want_state_is_will(TELOPT_BINARY)(options[0]&0x02));
1805	ttyout = ring_full_count(&ttyoring);
1806
1807	ttyin = ring_empty_count(&ttyiring) && (clienteof == 0);
1808
1809	netin = !ISend && ring_empty_count(&netiring);
1810
1811	netex = !SYNCHing;
1812
1813	/* If we have seen a signal recently, reset things */
1814
1815	if (scheduler_lockout_tty) {
1816	ttyin = ttyout = 0;
1817	}
1818
1819	/* Call to system code to process rings */
1820
1821	returnValue = process_rings(netin, netout, netex, ttyin, ttyout, !block);
1822
1823	/* Now, look at the input rings, looking for work to do. */
1824
1825	if (ring_full_count(&ttyiring)) {
1826	returnValue \|= telsnd();
1827	}
1828
1829	if (ring_full_count(&netiring)) {
1830	returnValue \|= telrcv();
1831	}
1832	return returnValue;
1833	}
1834
1835	/*
1836	* Select from tty and network...
1837	*/
1838	void
1839	telnet(char *user)
1840	{
1841	connections++;
1842	sys_telnet_init();
1843
1844	if (pledge("stdio rpath tty", NULL((void *)0)) == -1) {
1845	perror("pledge");
1846	exit(1);
1847	}
1848
1849	if (telnetport) {
1850	send_do(TELOPT_SGA3, 1);
1851	send_will(TELOPT_TTYPE24, 1);
1852	send_will(TELOPT_NAWS31, 1);
1853	send_will(TELOPT_TSPEED32, 1);
1854	send_will(TELOPT_LFLOW33, 1);
1855	send_will(TELOPT_LINEMODE34, 1);
1856	send_will(TELOPT_NEW_ENVIRON39, 1);
1857	send_do(TELOPT_STATUS5, 1);
1858	if (env_getvalue("DISPLAY", 0))
1859	send_will(TELOPT_XDISPLOC35, 1);
1860	if (binary)
1861	tel_enter_binary(binary);
1862	}
1863
1864	for (;;) {
1865	int schedValue;
1866
1867	while ((schedValue = Scheduler(0)) != 0) {
1868	if (schedValue == -1) {
1869	setcommandmode();
1870	return;
1871	}
1872	}
1873
1874	if (Scheduler(1) == -1) {
1875	setcommandmode();
1876	return;
1877	}
1878	}
1879	}
1880
1881	#if 0 /* XXX - this not being in is a bug */
1882	/*
1883	* nextitem()
1884	*
1885	* Return the address of the next "item" in the TELNET data
1886	* stream. This will be the address of the next character if
1887	* the current address is a user data character, or it will
1888	* be the address of the character following the TELNET command
1889	* if the current address is a TELNET IAC ("I Am a Command")
1890	* character.
1891	*/
1892
1893	static char *
1894	nextitem(char *current)
1895	{
1896	if ((*current&0xff) != IAC255) {
1897	return current+1;
1898	}
1899	switch (*(current+1)&0xff) {
1900	case DO253:
1901	case DONT254:
1902	case WILL251:
1903	case WONT252:
1904	return current+3;
1905	case SB250: /* loop forever looking for the SE */
1906	{
1907	char *look = current+2;
1908
1909	for (;;) {
1910	if ((*look++&0xff) == IAC255) {
1911	if ((*look++&0xff) == SE240) {
1912	return look;
1913	}
1914	}
1915	}
1916	}
1917	default:
1918	return current+2;
1919	}
1920	}
1921	#endif /* 0 */
1922
1923	/*
1924	* netclear()
1925	*
1926	* We are about to do a TELNET SYNCH operation. Clear
1927	* the path to the network.
1928	*
1929	* Things are a bit tricky since we may have sent the first
1930	* byte or so of a previous TELNET command into the network.
1931	* So, we have to scan the network buffer from the beginning
1932	* until we are up to where we want to be.
1933	*
1934	* A side effect of what we do, just to keep things
1935	* simple, is to clear the urgent data pointer. The principal
1936	* caller should be setting the urgent data pointer AFTER calling
1937	* us in any case.
1938	*/
1939
1940	static void
1941	netclear(void)
1942	{
1943	#if 0 /* XXX */
1944	char thisitem, next;
1945	char *good;
1946	#define wewant(p) ((nfrontp > p) && ((*p&0xff) == IAC255) && \
1947	(((p+1)&0xff) != EC247) && (((p+1)&0xff) != EL248))
1948
1949	thisitem = netobuf;
1950
1951	while ((next = nextitem(thisitem)) <= netobuf.send) {
1952	thisitem = next;
1953	}
1954
1955	/* Now, thisitem is first before/at boundary. */
1956
1957	good = netobuf; /* where the good bytes go */
1958
1959	while (netoring.add > thisitem) {
1960	if (wewant(thisitem)) {
1961	int length;
1962
1963	next = thisitem;
1964	do {
1965	next = nextitem(next);
1966	} while (wewant(next) && (nfrontp > next));
1967	length = next-thisitem;
1968	memmove(good, thisitem, length);
1969	good += length;
1970	thisitem = next;
1971	} else {
1972	thisitem = nextitem(thisitem);
1973	}
1974	}
1975
1976	#endif /* 0 */
1977	}
1978
1979	/*
1980	* These routines add various telnet commands to the data stream.
1981	*/
1982
1983	static void
1984	doflush(void)
1985	{
1986	NET2ADD(IAC, DO){ { netoring.supply = 255; ring_supplied(&netoring, 1); } ; { netoring.supply = 253; ring_supplied(&netoring, 1); } ; };
1987	NETADD(TELOPT_TM){ *netoring.supply = 6; ring_supplied(&netoring, 1); };
1988	flushline = 1;
1989	flushout = 1;
1990	(void) ttyflush(1); /* Flush/drop output */
1991	/* do printoption AFTER flush, otherwise the output gets tossed... */
1992	printoption("SENT", DO253, TELOPT_TM6);
1993	}
1994
1995	void
1996	xmitAO(void)
1997	{
1998	NET2ADD(IAC, AO){ { netoring.supply = 255; ring_supplied(&netoring, 1); } ; { netoring.supply = 245; ring_supplied(&netoring, 1); } ; };
1999	printoption("SENT", IAC255, AO245);
2000	if (autoflush) {
2001	doflush();
2002	}
2003	}
2004
2005
2006	void
2007	xmitEL(void)
2008	{
2009	NET2ADD(IAC, EL){ { netoring.supply = 255; ring_supplied(&netoring, 1); } ; { netoring.supply = 248; ring_supplied(&netoring, 1); } ; };
2010	printoption("SENT", IAC255, EL248);
2011	}
2012
2013	void
2014	xmitEC(void)
2015	{
2016	NET2ADD(IAC, EC){ { netoring.supply = 255; ring_supplied(&netoring, 1); } ; { netoring.supply = 247; ring_supplied(&netoring, 1); } ; };
2017	printoption("SENT", IAC255, EC247);
2018	}
2019
2020
2021	int
2022	dosynch(void)
2023	{
2024	netclear(); /* clear the path to the network */
2025	NETADD(IAC){ *netoring.supply = 255; ring_supplied(&netoring, 1); };
2026	setneturg();
2027	NETADD(DM){ *netoring.supply = 242; ring_supplied(&netoring, 1); };
2028	printoption("SENT", IAC255, DM242);
2029	return 1;
2030	}
2031
2032	int want_status_response = 0;
2033
2034	int
2035	get_status(void)
2036	{
2037	unsigned char tmp[16];
2038	unsigned char *cp;
2039
2040	if (my_want_state_is_dont(TELOPT_STATUS)(!(options[5]&0x08))) {
2041	printf("Remote side does not support STATUS option\n");
2042	return 0;
2043	}
2044	cp = tmp;
2045
2046	*cp++ = IAC255;
2047	*cp++ = SB250;
2048	*cp++ = TELOPT_STATUS5;
2049	*cp++ = TELQUAL_SEND1;
2050	*cp++ = IAC255;
2051	*cp++ = SE240;
2052	if (NETROOM()(ring_empty_count(&netoring)) >= cp - tmp) {
2053	ring_supply_data(&netoring, tmp, cp-tmp);
2054	printsub('>', tmp+2, cp - tmp - 2);
2055	}
2056	++want_status_response;
2057	return 1;
2058	}
2059
2060	void
2061	intp(void)
2062	{
2063	NET2ADD(IAC, IP){ { netoring.supply = 255; ring_supplied(&netoring, 1); } ; { netoring.supply = 244; ring_supplied(&netoring, 1); } ; };
2064	printoption("SENT", IAC255, IP244);
2065	flushline = 1;
2066	if (autoflush) {
2067	doflush();
2068	}
2069	if (autosynch) {
2070	dosynch();
2071	}
2072	}
2073
2074	void
2075	sendbrk(void)
2076	{
2077	NET2ADD(IAC, BREAK){ { netoring.supply = 255; ring_supplied(&netoring, 1); } ; { netoring.supply = 243; ring_supplied(&netoring, 1); } ; };
2078	printoption("SENT", IAC255, BREAK243);
2079	flushline = 1;
2080	if (autoflush) {
2081	doflush();
2082	}
2083	if (autosynch) {
2084	dosynch();
2085	}
2086	}
2087
2088	void
2089	sendabort(void)
2090	{
2091	NET2ADD(IAC, ABORT){ { netoring.supply = 255; ring_supplied(&netoring, 1); } ; { netoring.supply = 238; ring_supplied(&netoring, 1); } ; };
2092	printoption("SENT", IAC255, ABORT238);
2093	flushline = 1;
2094	if (autoflush) {
2095	doflush();
2096	}
2097	if (autosynch) {
2098	dosynch();
2099	}
2100	}
2101
2102	void
2103	sendsusp(void)
2104	{
2105	NET2ADD(IAC, SUSP){ { netoring.supply = 255; ring_supplied(&netoring, 1); } ; { netoring.supply = 237; ring_supplied(&netoring, 1); } ; };
2106	printoption("SENT", IAC255, SUSP237);
2107	flushline = 1;
2108	if (autoflush) {
2109	doflush();
2110	}
2111	if (autosynch) {
2112	dosynch();
2113	}
2114	}
2115
2116	void
2117	sendeof(void)
2118	{
2119	NET2ADD(IAC, xEOF){ { netoring.supply = 255; ring_supplied(&netoring, 1); } ; { netoring.supply = 236; ring_supplied(&netoring, 1); } ; };
2120	printoption("SENT", IAC255, xEOF236);
2121	}
2122
2123	void
2124	sendayt(void)
2125	{
2126	NET2ADD(IAC, AYT){ { netoring.supply = 255; ring_supplied(&netoring, 1); } ; { netoring.supply = 246; ring_supplied(&netoring, 1); } ; };
2127	printoption("SENT", IAC255, AYT246);
2128	}
2129
2130	/*
2131	* Send a window size update to the remote system.
2132	*/
2133
2134	void
2135	sendnaws(void)
2136	{
2137	long rows, cols;
2138	unsigned char tmp[16];
2139	unsigned char *cp;
2140
2141	if (my_state_is_wont(TELOPT_NAWS)(!(options[31]&0x01)))
2142	return;
2143
2144	#define PUTSHORT(cp, x){ if ((cp++ = ((x)>>8)&0xff) == 255) cp++ = 255; if ((cp++ = ((x))&0xff) == 255) cp++ = 255; } { if ((cp++ = ((x)>>8)&0xff) == IAC255) cp++ = IAC255; \
2145	if ((cp++ = ((x))&0xff) == IAC255) cp++ = IAC255; }
2146
2147	if (TerminalWindowSize(&rows, &cols) == 0) { /* Failed */
2148	return;
2149	}
2150
2151	cp = tmp;
2152
2153	*cp++ = IAC255;
2154	*cp++ = SB250;
2155	*cp++ = TELOPT_NAWS31;
2156	PUTSHORT(cp, cols){ if ((cp++ = ((cols)>>8)&0xff) == 255) cp++ = 255 ; if ((cp++ = ((cols))&0xff) == 255) cp++ = 255; };
2157	PUTSHORT(cp, rows){ if ((cp++ = ((rows)>>8)&0xff) == 255) cp++ = 255 ; if ((cp++ = ((rows))&0xff) == 255) cp++ = 255; };
2158	*cp++ = IAC255;
2159	*cp++ = SE240;
2160	if (NETROOM()(ring_empty_count(&netoring)) >= cp - tmp) {
2161	ring_supply_data(&netoring, tmp, cp-tmp);
2162	printsub('>', tmp+2, cp - tmp - 2);
2163	}
2164	}
2165
2166	void
2167	tel_enter_binary(int rw)
2168	{
2169	if (rw&1)
2170	send_do(TELOPT_BINARY0, 1);
2171	if (rw&2)
2172	send_will(TELOPT_BINARY0, 1);
2173	}
2174
2175	void
2176	tel_leave_binary(int rw)
2177	{
2178	if (rw&1)
2179	send_dont(TELOPT_BINARY0, 1);
2180	if (rw&2)
2181	send_wont(TELOPT_BINARY0, 1);
2182	}