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ckcnet.c
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2000-01-06
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char *cknetv = "Network support, 7.0.194, 30 Dec 1999";
/* C K C N E T -- Network support */
/*
Copyright (C) 1985, 1999,
Trustees of Columbia University in the City of New York.
All rights reserved. See the C-Kermit COPYING.TXT file or the
copyright text in the ckcmai.c module for disclaimer and permissions.
*/
/*
REMINDER: Any changes made to this file that other modules depend must
also be made to cklnet.c (for VOS) until such time as cklnet.c and this
module are merged back together.
NOTE TO CONTRIBUTORS: This file, and all the other shared (ckc and cku)
C-Kermit source files, must be compatible with C preprocessors that support
only #ifdef, #else, #endif, #define, and #undef. Please do not use #if,
logical operators, or other preprocessor features in this module. Also,
don't use any ANSI C constructs except within #ifdef CK_ANSIC..#endif.
Authors:
Frank da Cruz (fdc@columbia.edu),
Columbia University Academic Information Systems, New York City.
Jeffrey E Altman (jaltman@columbia.edu) -- OS/2 & Windows and a lot more.
netopen() routine for TCP/IP originally by Ken Yap, Rochester University
(ken@cs.rochester.edu) (no longer at that address).
Missing pieces for Excelan sockets library from William Bader.
Telnet protocol by Frank da Cruz and Jeffrey Altman.
Rlogin protocol by Jeffrey Altman.
SSL support adapted by Jeffrey Altman from work done by
Tim Hudson <tjh@cryptosoft.com> +61 7 32781581
TLS support by Jeffrey Altman.
HTTP support by Jeffrey Altman.
TGV MultiNet code by Frank da Cruz.
MultiNet code adapted to WIN/TCP by Ray Hunter of TWG.
MultiNet code adapted to DEC TCP/IP by Lee Tibbert of DEC and Frank da Cruz.
TCP/IP support adapted to IBM TCP/IP 1.2.1,2.0 for OS/2 by Kai Uwe Rommel.
CMU-OpenVMS/IP modifications by Mike O'Malley, Digital (DEC).
X.25 support by Marcello Frutig, Catholic University,
Rio de Janeiro, Brazil (frutig@rnp.impa.br) with fixes from
Stefaan Eeckels, Eurokom, Luxembourg.
David Lane added support for Stratus X.25 1996.
Stephen Riehm added support for IBM AIX X.25 in April 1998.
Other contributions as indicated in the code.
*/
#define CKCNET_C
#include "ckcsym.h"
#include "ckcdeb.h"
#include "ckcker.h"
#ifdef I386IX /* Has to come before ckcnet.h in */
#include <errno.h> /* this version, but after in others */
#endif /* I386IX */
#include "ckcnet.h" /* which includes ckctel.h */
#ifdef CK_SSL
#include "ck_ssl.h"
#endif /* CK_SSL */
#ifdef CK_DNS_SRV
#ifdef OS2
#ifdef NT
#include <wshelper.h>
#else /* NT */
/* !Error OS/2 does not support DNS Service Records. */
#endif /* NT */
#else /* OS2 */
#include <arpa/inet.h>
#include <arpa/nameser.h>
#include <resolv.h>
#ifndef PS2AIX10
#include <netdb.h>
#endif /* PS2AIX10 */
#endif /* OS2 */
#ifndef T_SRV
#define T_SRV 33
#endif /* T_SRV */
/* for old Unixes and friends ... */
#ifndef MAXHOSTNAMELEN
#define MAXHOSTNAMELEN 64
#endif /* MAXHOSTNAMELEN */
#define MAX_DNS_NAMELEN (15*(MAXHOSTNAMELEN + 1)+1)
#endif /* CK_DNS_SRV */
#ifdef NOLOCAL
#ifdef TCPIPLIB
#undef TCPIPLIB
#endif /* TCPIPLIB */
#endif /* NOLOCAL */
#ifndef NOMHHOST
#ifdef datageneral
#define NOMHHOST
#else
#ifdef HPUX5WINTCP
#define NOMHHOST
#endif /* HPUX5WINTCP */
#endif /* datageneral */
#endif /* NOMHHOST */
#ifdef INADDRX
struct in_addr inaddrx;
#endif /* INADDRX */
int ttnet = NET_NONE; /* Network type */
int ttnproto = NP_DEFAULT; /* Network virtual terminal protocol */
/* 0 = don't lowercase username for Rlogin/Telnet protocol */
/* nonzero = do lowercase it. Add a SET command if necessary... */
#ifdef VMS
int ck_lcname = 1;
#else
int ck_lcname = 0;
#endif /* VMS */
extern int /* External variables */
duplex, debses, seslog, sessft, wasclosed,
ttyfd, quiet, msgflg, what, nettype, ttmdm;
#ifdef NETCONN
/* Don't need any of this if there is no network support. */
/*
NETLEBUF is (must be) defined for those platforms that call this
module to do network i/o (e.g. netinc(), nettchk(), etc) rather
than doing it themselves (ttinc(), ttchk(), etc). In this case
the Telnet local-echo buffers and routines are defined and referenced
here, rather than in the ck?tio.c module.
*/
#ifdef NETLEBUF
#define LEBUFSIZ 4096
int ttpush = -1, le_data = 0; /* These are seen from outside */
static CHAR le_buf[LEBUFSIZ]; /* These are used internally */
static int le_start = 0, le_end = 0;
int tt_push_inited = 0;
#endif /* NETLEBUF */
#ifdef CK_SOCKS /* SOCKS Internet relay package */
#ifdef CK_SOCKS5 /* SOCKS 5 */
#define accept SOCKSaccept
#define bind SOCKSbind
#define connect SOCKSconnect
#define getsockname SOCKSgetsockname
#define listen SOCKSlisten
#else /* Not SOCKS 5 */
#define accept Raccept
#define bind Rbind
#define connect Rconnect
#define getsockname Rgetsockname
#define listen Rlisten
#endif /* CK_SOCKS5 */
#endif /* CK_SOCKS */
#ifdef DEC_TCPIP
#include <time.h>
#include <inet.h>
#endif /* DEC_TCPIP */
/* Also see ckcnet.h -- hmmm, why don't we always include inet.h? */
#ifdef HPUX
#ifndef HPUX7 /* HPUX 7.00 doesn't have it */
#include <arpa/inet.h> /* For inet_ntoa() prototype */
#endif /* HPUX7 */
#endif /* HPUX */
#ifdef CMU_TCPIP
#include <time.h>
#endif /* CMU_TCPIP */
#ifdef DCLTIMEVAL /* UnixWare 7 */
struct timeval { /* And define these ourselves. */
long tv_sec; /* (see comments in ckutio.c) */
long tv_usec;
};
struct timezone {
int tz_minuteswest;
int tz_dsttime;
};
#endif /* DCLTIMEVAL */
#ifdef WINTCP
#include <setjmp.h>
#include <signal.h>
#include <sys/time.h>
/*
The WIN/TCP code path is the same as that for MultiNet.
Only the routine names have changed ...
*/
#define socket_read netread
#define socket_ioctl ioctl
#define socket_write netwrite
#define socket_close netclose
#ifdef OLD_TWG /* some routines have evolved */
extern int vmserrno, uerrno;
#define socket_errno uerrno
#define socket_perror perror /* which uses errno, not uerrno! */
#else
#define socket_errno errno
#define socket_perror win$perror
#endif /* OLD_TWG */
#else /* Not WINTCP */
#ifndef I386IX
#include <errno.h> /* Already included above */
#endif /* I386IX */
#include <signal.h> /* Everybody needs this */
#ifdef ZILOG /* Zilog has different name for this */
#include <setret.h>
#else
#include <setjmp.h>
#endif /* ZILOG */
#endif /* WINTCP */
#ifdef datageneral /* Data General AOS/VS */
#include <:usr:include:vs_tcp_errno.h>
#include <:usr:include:sys:vs_tcp_types.h>
#ifdef SELECT
/*
NOTE: This can be compiled and linked OK with SELECT defined
but it doesn't work at all. Anybody who cares and knows how
to fix it, feel free.
*/
#include <:usr:include:sys:vs_tcp_time.h>
#endif /* SELECT */
#include <:usr:include:sys:socket.h>
#include <:usr:include:netinet:in.h>
#include <:usr:include:netdb.h>
#endif /* datageneral */
#ifndef socket_errno
#define socket_errno errno
#endif /* socket_errno */
#ifdef TNCODE
extern int tn_deb;
#endif /* TNCODE */
int tcp_rdns = /* Reverse DNS lookup */
#ifdef DEC_TCPIP_OLD
SET_OFF /* Doesn't seem to work in UCX */
#else
SET_AUTO
#endif /* DEC_TCPIP */
;
#ifdef CK_DNS_SRV
int tcp_dns_srv = SET_OFF;
#endif /* CK_DNS_SRV */
#ifdef RLOGCODE
#ifdef TCPIPLIB
_PROTOTYP( static VOID rlog_oob, (CHAR *, int) );
#else
_PROTOTYP( static SIGTYP rlogoobh, ( int ) );
#endif /* TCPIPLIB */
_PROTOTYP( static int rlog_ini, (CHAR *, int,
struct sockaddr_in *,
struct sockaddr_in *) );
int rlog_mode = RL_COOKED;
int rlog_stopped = 0;
#endif /* RLOGCODE */
#ifndef NOICP
extern int doconx; /* CONNECT-class command active */
#endif /* NOICP */
#ifdef IBMX25
/* This variable should probably be generalised for true client/server
* support - ie: the fd of the listening server, accepted calls should
* be forked or at least handled via a second fd (for IBM's X.25 -
* ttyfd always holds the active fd - ie the server becomes inactive
* as long as a client is connected, and becomes active again when the
* connection is closed)
*/
int x25serverfd = 0; /* extern in ckcnet.h */
int x25seqno = 0; /* Connection sequence number */
int x25lastmsg = -1; /* A cheapskate's state table */
#define X25_CLOSED 0 /* Default state: no connection, no STREAM */
#define X25_SETUP 1 /* X.25 has been set up (no connection) */
#define X25_CONNECTED 2 /* X.25 connection has been established */
int x25_state = X25_CLOSED; /* Default state */
#endif /* IBMX25 */
#ifndef DEBUG
#define deblog 0
#endif /* DEBUG */
#ifdef CK_NAWS /* Negotiate About Window Size */
#ifdef RLOGCODE
_PROTOTYP( int rlog_naws, (void) );
#endif /* RLOGCODE */
#endif /* CK_NAWS */
#ifdef OS2 /* For terminal type name string */
#include "ckuusr.h"
#ifndef NT
#include <os2.h>
#undef COMMENT
#endif /* NT */
#include "ckocon.h"
extern int tt_type, max_tt;
extern struct tt_info_rec tt_info[];
extern char ttname[];
#else
#ifdef CK_AUTHENTICATION
#include "ckuusr.h"
#endif /* CK_AUTHENTICATION */
#endif /* OS2 */
#ifdef CK_AUTHENTICATION
#include "ckuath.h"
#endif /* CK_AUTHENTICATION */
#include "ckcsig.h"
#ifndef OS2 /* For timeout longjumps */
static ckjmpbuf njbuf;
#endif /* OS2 */
#define NAMECPYL 100 /* Local copy of hostname */
char namecopy[NAMECPYL]; /* Referenced by ckctel.c */
char ipaddr[20] = { '\0' }; /* Global copy of IP address */
char myipaddr[20] = { '\0' }; /* Global copy of my IP address */
unsigned long myxipaddr = 0L; /* Ditto as a number */
#endif /* NETCONN */
char *tcp_address = NULL; /* Preferred IP Address */
extern char uidbuf[]; /* User ID buffer */
extern char pwbuf[]; /* Password buffer */
#ifdef OS2
extern int tt_rows[], tt_cols[];
extern int tt_status;
#else /* OS2 */
extern int tt_rows, tt_cols; /* Everybody has this */
#endif /* OS2 */
extern int cmd_cols, cmd_rows;
#ifdef STREAMING /* Use blocking writes for streaming */
extern int streaming;
#endif /* STREAMING */
#ifdef NT
extern int WSASafeToCancel;
int win95selectbug = 0; /* For TCP/IP stacks whose select() */
/* always fails on write requests such as Cisco and Quarterdeck */
#define stricmp _stricmp
#endif /* NT */
#ifndef NOTCPOPTS
/* Skip all this if NOTCPOPTS specified. */
#ifdef SOL_SOCKET
#ifdef TCP_NODELAY
int tcp_nodelay = 0; /* Nagle algorithm TCP_NODELAY */
#endif /* TCP_NODELAY */
#ifdef SO_DONTROUTE
int tcp_dontroute = 0;
#endif /* SO_DONTROUTE */
#ifdef SO_LINGER
int tcp_linger = 0; /* SO_LINGER */
int tcp_linger_tmo = 0; /* SO_LINGER timeout */
#endif /* SO_LINGER */
#ifdef HPUX /* But the data structures */
#ifndef HPUX8 /* needed for linger are not */
#ifndef HPUX9 /* defined in HP-UX versions */
#ifndef HPUX10 /* prior to 8.00. */
#ifdef SO_LINGER
#undef SO_LINGER
#endif /* SO_LINGER */
#endif /* HPUX10 */
#endif /* HPUX9 */
#endif /* HPUX8 */
#endif /* HPUX */
#ifndef SO_OOBINLINE /* Hopefully only HP-UX 7.0 */
#define SO_OOBINLINE 0x0100
#endif /* SO_OOBINLINE */
#ifndef TCPSNDBUFSIZ
#ifdef VMS
#ifdef __alpha
#define TCPSNDBUFSIZ 16384
#endif /* __alpha */
#endif /* VMS */
#endif /* TCPSNDBUFSIZ */
#ifndef TCPSNDBUFSIZ
#define TCPSNDBUFSIZ -1
#endif /* TCPSNDBUFSIZ */
#ifdef SO_SNDBUF
int tcp_sendbuf = TCPSNDBUFSIZ;
#endif /* SO_SNDBUF */
#ifdef SO_RCVBUF
int tcp_recvbuf = -1;
#endif /* SO_RCVBUF */
#ifdef SO_KEEPALIVE
int tcp_keepalive = 1;
#endif /* SO_KEEPALIVE */
#endif /* SOL_SOCKET */
#endif /* NOTCPOPTS */
#ifndef NETCONN
/*
Network support not defined.
Dummy functions here in case #ifdef's forgotten elsewhere.
*/
int /* Open network connection */
netopen(name, lcl, nett) char *name; int *lcl, nett; {
return(-1);
}
int /* Close network connection */
netclos() {
return(-1);
}
int /* Check network input buffer */
nettchk() {
return(-1);
}
int /* Flush network input buffer */
netflui() {
return(-1);
}
int /* Send network BREAK */
netbreak() {
return(-1);
}
int /* Input character from network */
netinc(timo) int timo; {
return(-1);
}
int /* Output character to network */
#ifdef CK_ANSIC
nettoc(CHAR c)
#else
nettoc(c) CHAR c;
#endif /* CK_ANSIC */
/* nettoc */ {
return(-1);
}
int
nettol(s,n) CHAR *s; int n; {
return(-1);
}
#else /* NETCONN is defined (much of this module...) */
#ifdef NETLEBUF
VOID
le_init() { /* LocalEchoInit() */
int i;
for (i = 0; i < LEBUFSIZ; i++)
le_buf[i] = '\0';
le_start = 0;
le_end = 0;
le_data = 0;
tt_push_inited = 1;
}
VOID
le_clean() { /* LocalEchoCleanup() */
le_init();
return;
}
int
le_inbuf() {
int rc = 0;
if (le_start != le_end) {
rc = (le_end -
le_start +
LEBUFSIZ) % LEBUFSIZ;
}
return(rc);
}
int
#ifdef CK_ANSIC
le_putchar(CHAR ch)
#else
le_putchar(ch) CHAR ch;
#endif /* CK_ANSIC */
/* le_putchar */ {
if ((le_start - le_end + LEBUFSIZ)%LEBUFSIZ == 1) {
debug(F110,"le_putchar","buffer is full",0);
return(-1);
}
le_buf[le_end++] = ch;
if (le_end == LEBUFSIZ)
le_end = 0;
le_data = 1;
return(0);
}
int
#ifdef CK_ANSIC
le_puts(CHAR * s, int n)
#else
le_puts(s,n) CHAR * s; int n;
#endif /* CK_ANSIC */
/* le_puts */ {
int rc = 0;
int i = 0;
CHAR * p = (CHAR *)"le_puts";
hexdump(p,s,n);
for (i = 0; i < n; i++)
rc = le_putchar((char)s[i]);
debug(F101,"le_puts","",rc);
return(rc);
}
int
#ifdef CK_ANSIC
le_putstr(CHAR * s)
#else
le_putstr(s) CHAR * s;
#endif /* CK_ANSIC */
/* le_puts */ {
CHAR * p;
int rc = 0;
p = (CHAR *)"le_putstr";
hexdump(p,s,(int)strlen((char *)s));
for (p = s; *p && !rc; p++)
rc = le_putchar(*p);
return(rc);
}
int
#ifdef CK_ANSIC
le_getchar(CHAR * pch)
#else /* CK_ANSIC */
le_getchar(pch) CHAR * pch;
#endif /* CK_ANSIC */
/* le_gatchar */ {
int rc = 0;
if (le_start != le_end) {
*pch = le_buf[le_start];
le_buf[le_start] = 0;
le_start++;
if (le_start == LEBUFSIZ)
le_start = 0;
if (le_start == le_end) {
le_data = 0;
}
rc++;
} else {
*pch = 0;
}
return(rc);
}
#endif /* NETLEBUF */
#ifdef VMS
/*
In edit 190, we moved tn_ini() to be called from within netopen().
But tn_ini() calls ttol(), and ttol() checks to see if it's a net
connection, but the flag for that isn't set until after netopen()
is finished. Since, in this module, we are always doing network
output anyway, we just call nettol() directly, instead of going thru
ttol(). Only needed for VMS, since UNIX, AOS/VS, and VOS can handle
net connections just like regular connections in ttol(), and OS/2
has a special routine for this.
*/
#define ttol nettol
#endif /* VMS */
int tcpsrfd = -1;
#ifdef CK_KERBEROS
char * krb5_d_principal = NULL; /* Default principal */
char * krb5_d_instance = NULL; /* Default instance */
char * krb5_d_realm = NULL; /* Default realm */
char * krb5_d_cc = NULL; /* Default credentials cache */
char * krb5_d_srv = NULL; /* Default Service */
int krb5_d_lifetime = 600; /* Default lifetime (10 hours) */
int krb5_d_forwardable = 0; /* creds not forwardable */
int krb5_d_proxiable = 0; /* creds not proxiable */
int krb5_d_renewable = 0; /* creds not renewable (0 min) */
int krb5_autoget = 1; /* Autoget TGTs */
int krb5_autodel = 0; /* Auto delete TGTs */
int krb5_d_getk4 = 0; /* K5 Kinit gets K4 TGTs */
int krb5_checkaddrs = 1; /* Check TGT Addrs */
int krb5_errno = 0; /* Last K5 errno */
char * krb5_errmsg = NULL; /* Last K5 errmsg */
char * krb4_d_principal = NULL; /* Default principal */
char * krb4_d_realm = NULL; /* Default realm */
char * krb4_d_srv = NULL; /* Default Service */
int krb4_d_lifetime = 600; /* Default lifetime (10 hours) */
int krb4_d_preauth = 1; /* Use preauth requests */
char * krb4_d_instance = NULL; /* Default instance */
int krb4_autoget = 1; /* Autoget TGTs */
int krb4_autodel = 0; /* Auto delete TGTs */
int krb4_checkaddrs = 1; /* Check TGT Addrs */
int krb4_errno = 0; /* Last K4 errno */
char * krb4_errmsg = NULL; /* Last K4 errmsg */
struct krb_op_data krb_op = { /* Operational data structure */
0, NULL /* (version, cachefile) */
};
struct krb4_init_data krb4_init = { /* Kerberos 4 INIT data structure */
0, NULL, NULL, NULL, NULL
};
struct krb5_init_data krb5_init = { /* Kerberos 5 INIT data structure */
0, 0, 0, 0, 0, 0, NULL, NULL, NULL, NULL, NULL, NULL, 0, 0, 0,
{ NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL,
NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL }
};
struct krb5_list_cred_data krb5_lc = { /* List Credentials data structure */
0, 0, 0
};
int krb_action = -1; /* Kerberos action to perform */
#ifndef CK_AUTHENTICATION
char *
ck_krb4_getrealm() {
return("");
}
char *
ck_krb5_getrealm(cc) char * cc; {
return("");
}
char *
ck_krb4_getprincipal() {
return("");
}
char *
ck_krb5_getprincipal(cc) char * cc; {
return("");
}
#endif /* CK_AUTHENTICATION */
/* I N I _ K E R B -- Initialize Kerberos data */
VOID
ini_kerb() {
int i;
krb_action = -1; /* No action specified */
krb_op.version = 0; /* Kerberos version (none) */
krb_op.cache = NULL; /* Cache file (none) */
/* Kerberos 5 */
krb5_init.forwardable = krb5_d_forwardable; /* Init switch values... */
krb5_init.proxiable = krb5_d_proxiable;
krb5_init.lifetime = krb5_d_lifetime;
krb5_init.renew = 0;
krb5_init.renewable = krb5_d_renewable;
krb5_init.validate = 0;
if (krb5_init.postdate) {
free(krb5_init.postdate);
krb5_init.postdate = NULL;
}
if (krb5_init.service) {
free(krb5_init.service);
krb5_init.service = NULL;
}
if (!krb5_d_cc || !krb5_d_cc[0]) { /* Set default cache */
char * p;
p = ck_krb5_get_cc_name();
makestr(&krb5_d_cc,p);
}
if (!krb5_d_realm || !krb5_d_realm[0]) { /* Set default realm */
char * p;
p = ck_krb5_getrealm(krb5_d_cc);
makestr(&krb5_d_realm,p);
}
makestr(&krb5_init.instance,krb5_d_instance);
makestr(&krb5_init.realm,krb5_d_realm); /* Set realm from default */
if (krb5_init.password) {
memset(krb5_init.password,0xFF,strlen(krb5_init.password));
free(krb5_init.password);
krb5_init.password = NULL;
}
if (!krb5_d_principal) { /* Default principal */
/* a Null principal indicates the user should be prompted */
char * p = ck_krb5_getprincipal(krb5_d_cc);
if (!p || !(*p))
p = (char *)uidbuf; /* Principal = user */
makestr(&(krb5_d_principal),p);
}
makestr(&(krb5_init.principal),krb5_d_principal);
for (i = 0; i <= KRB5_NUM_OF_ADDRS; i++) {
if (krb5_init.addrs[i])
free(krb5_init.addrs[i]);
krb5_init.addrs[i] = NULL;
}
/* Kerberos 4 */
krb4_init.lifetime = krb4_d_lifetime;
krb4_init.preauth = krb4_d_preauth;
makestr(&krb4_init.instance,krb4_d_instance);
if (!krb4_d_realm || !krb4_d_realm[0]) {/* Set default realm */
char * p;
p = ck_krb4_getrealm();
makestr(&krb4_d_realm,p);
}
makestr(&krb4_init.realm,krb4_d_realm);
if (krb4_init.password) {
memset(krb4_init.password,0xFF,strlen(krb4_init.password));
free(krb4_init.password);
krb4_init.password = NULL;
}
if (!krb4_d_principal) { /* Default principal */
/* a Null principal indicates the user should be prompted */
char * p = ck_krb4_getprincipal();
if (!p || !(*p))
p = (char *)uidbuf; /* Principal = user */
makestr(&(krb4_d_principal),p);
}
makestr(&(krb4_init.principal),krb4_d_principal);
}
/* D O A U T H -- AUTHENTICATE action routine */
int
doauth(cx) int cx; { /* AUTHENTICATE action routine */
int rc = 0; /* Return code */
#ifdef CK_AUTHENTICATION
#ifdef OS2
if (!ck_auth_loaddll()) /* Load Kerberos DLL */
return(rc);
#endif /* OS2 */
if (krb_op.version == 4) { /* Version = 4 */
#ifdef COMMENT
sho_auth(AUTHTYPE_KERBEROS_V4);
#endif /* COMMENT */
if (!ck_krb4_is_installed()) {
printf("?Kerberos 4 is not installed\n");
return(0);
}
switch (krb_action) { /* Perform V4 functions */
case KRB_A_IN: /* INIT */
rc |= !(ck_krb4_initTGT(&krb_op,&krb4_init) < 0);
break;
case KRB_A_DE: /* DESTROY */
rc |= !(ck_krb4_destroy(&krb_op) < 0);
break;
case KRB_A_LC: /* LIST-CREDENTIALS */
rc |= !(ck_krb4_list_creds(&krb_op) < 0);
break;
}
}
if (krb_op.version == 5) { /* V5 functions */
#ifdef COMMENT
sho_auth(AUTHTYPE_KERBEROS_V5);
#endif /* COMMENT */
if (!ck_krb5_is_installed()) {
printf("?Kerberos 5 is not installed\n");
return(0);
}
switch (krb_action) {
case KRB_A_IN: /* INIT */
rc |= !(ck_krb5_initTGT(&krb_op,&krb5_init) < 0);
if ( krb5_init.getk4 )
rc |= !(ck_krb4_initTGT(&krb_op,&krb4_init) < 0);
break;
case KRB_A_DE: /* DESTROY */
rc |= !(ck_krb5_destroy(&krb_op) < 0);
break;
case KRB_A_LC: /* LIST-CREDENTIALS */
if (krb_op.version == 0)
printf("\n");
rc |= !(ck_krb5_list_creds(&krb_op,&krb5_lc) < 0);
break;
}
}
#else
#ifndef NOICP
#ifndef NOSHOW
rc = sho_auth(0); /* Show all */
#endif /* NOSHOW */
#endif /* NOICP */
#endif /* CK_AUTHENTICATION */
return(rc);
}
#endif /* CK_KERBEROS */
#ifdef TCPSOCKET
#ifndef OS2
#ifndef NOLISTEN /* For incoming connections */
#ifndef INADDR_ANY
#define INADDR_ANY 0
#endif /* INADDR_ANY */
_PROTOTYP( int ttbufr, ( VOID ) );
_PROTOTYP( int tcpsrv_open, (char *, int *, int, int ) );
static unsigned short tcpsrv_port = 0;
#endif /* NOLISTEN */
#endif /* OS2 */
static char svcbuf[80]; /* TCP service string */
static int svcnum = 0; /* TCP port number */
#endif /* TCPSOCKET */
/*
TCPIPLIB means use separate socket calls for i/o, while on UNIX the
normal file system calls are used for TCP/IP sockets too.
Means "DEC_TCPIP or MULTINET or WINTCP or OS2 or BEBOX" (see ckcnet.h),
*/
#ifdef TCPIPLIB
/* For buffered network reads... */
/*
If the buffering code is written right, it shouldn't matter
how long this buffer is.
*/
#ifdef OS2
#ifdef NT
#define TTIBUFL 64240 /* 44 * 1460 (MSS) */
#else
#define TTIBUFL 32120 /* 22 * 1460 (MSS) */
#endif /* NT */
#else /* OS2 */
#define TTIBUFL 8191 /* Let's use 8K. */
#endif /* OS2 */
CHAR ttibuf[TTIBUFL+1];
/*
select() is used in preference to alarm()/signal(), but different systems
use different forms of select()...
*/
#ifndef NOSELECT /* Option to override BSDSELECT */
#ifdef BELLV10
/*
Note: Although BELLV10 does have TCP/IP support, and does use the unique
form of select() that is evident in this module (and in ckutio.c), it does
not have a sockets library and so we can't build Kermit TCP/IP support for
it. For this, somebody would have to write TCP/IP streams code.
*/
#define BELLSELECT
#ifndef FD_SETSIZE
#define FD_SETSIZE 128
#endif /* FD_SETSIZE */
#else
#ifdef WINTCP /* VMS with Wollongong WIN/TCP */
#ifndef OLD_TWG /* TWG 3.2 has only select(read) */
#define BSDSELECT
#endif /* OLD_TWG */
#else
#ifdef CMU_TCPIP /* LIBCMU can do select */
#define BSDSELECT
#else
#ifdef DEC_TCPIP
#define BSDSELECT
#else
#ifdef OS2 /* OS/2 with TCP/IP */
#ifdef NT
#define BSDSELECT
#else /* NT */
#define IBMSELECT
#endif /* NT */
#endif /* OS2 */
#endif /* DEC_TCPIP */
#endif /* CMU_TCPIP */
#endif /* WINTCP */
#endif /* BELLV10 */
#endif /* NOSELECT */
/*
Others (TGV, TCPware, ...) use alarm()/signal(). The BSDSELECT case does not
compile at all; the IBMSELECT case compiles and links but crashes at runtime.
NOTE: If any of these can be converted to select(), they should be for two
reasons: (1) It's a lot faster; (2) certain sockets libraries do not like
their socket_read() calls to be interrupted; subsequent socket_read()'s tend
to fail with EBUSY. This happened in the UCX case before it was converted
to use select().
*/
#ifndef OS2
#ifndef VMS
static /* These are used in CKVTIO.C */
#endif /* VMS */ /* And in CKONET.C */
#endif /* OS2 */
int
ttibp = 0,
ttibn = 0;
/*
Read bytes from network into internal buffer ttibuf[].
To be called when input buffer is empty, i.e. when ttibn == 0.
Other network reading routines, like ttinc, ttinl, ttxin, should check the
internal buffer first, and call this routine for a refill if necessary.
Returns -1 on error, 0 if nothing happens. When data is read successfully,
returns number of bytes read, and sets global ttibn to that number and
ttibp (the buffer pointer) to zero.
*/
_PROTOTYP( int ttbufr, ( VOID ) );
int
ttbufr() { /* TT Buffer Read */
int count;
if (ttnet != NET_TCPB) /* First make sure current net is */
return(-1); /* TCP/IP; if not, do nothing. */
if (ttibn > 0) /* Our internal buffer is not empty, */
return(ttibn); /* so keep using it. */
ttibp = 0; /* Else reset pointer to beginning */
if (ttyfd == -1) /* No connection, error */
return(-2);
#ifdef WINTCP
count = 512; /* This works for WIN/TCP */
#else
#ifdef DEC_TCPIP
count = 512; /* UCX */
#else
#ifdef OS2
count = TTIBUFL;
#else /* Multinet, etc. */
count = ttchk(); /* Check network input buffer, */
if (ttibn > 0) { /* which can put a char there! */
debug(F111,"ttbufr","ttchk() returns",count);
return(ttibn);
}
if (count < 0) /* Read error - connection closed */
return(-2);
else if (count > TTIBUFL) /* Too many to read */
count = TTIBUFL;
else if (count == 0) /* None, so force blocking read */
count = 1;
#endif /* OS2 */
#endif /* DEC_TCPIP */
#endif /* WINTCP */
debug(F101,"ttbufr count 1","",count);
#ifdef CK_SSL
if (ssl_active_flag || tls_active_flag) {
int error;
if (ssl_active_flag)
count = SSL_read(ssl_con, ttibuf, count);
else
count = SSL_read(tls_con, ttibuf, count);
switch (SSL_get_error(ssl_active_flag?ssl_con:tls_con,count)) {
case SSL_ERROR_NONE:
debug(F111,"ttbufr SSL_ERROR_NONE","count",count);
if (count > 0) {
ttibp = 0; /* Reset buffer pointer. */
ttibn = count;
return(ttibn); /* Return buffer count. */
} else if (count < 0) {
return(-1);
} else {
netclos();
return(-2);
}
case SSL_ERROR_WANT_WRITE:
debug(F100,"ttbufr SSL_ERROR_WANT_WRITE","",0);
return(-1);
case SSL_ERROR_WANT_READ:
debug(F100,"ttbufr SSL_ERROR_WANT_READ","",0);
return(-1);
case SSL_ERROR_SYSCALL:
#ifdef NT
debug(F111,"ttbufr SSL_ERROR_SYSCALL",
"GetLastError()",GetLastError());
#endif /* NT */
netclos();
return(-2);
case SSL_ERROR_WANT_X509_LOOKUP:
debug(F100,"ttbufr SSL_ERROR_WANT_X509_LOOKUP","",0);
netclos();
return(-2);
case SSL_ERROR_SSL:
debug(F100,"ttbufr SSL_ERROR_SSL","",0);
netclos();
return(-2);
case SSL_ERROR_ZERO_RETURN:
debug(F100,"ttbufr SSL_ERROR_ZERO_RETURN","",0);
netclos();
return(-2);
default:
debug(F100,"ttbufr SSL_ERROR_?????","",0);
netclos();
return(-2);
}
}
#endif /* CK_SSL */
#ifdef COMMENT
/*
This is for nonblocking reads, which we don't do any more. This code didn't
work anyway, in the sense that a broken connection was never sensed.
*/
if ((count = socket_read(ttyfd,&ttibuf[ttibp+ttibn],count)) < 1) {
if (count == -1 && socket_errno == EWOULDBLOCK) {
debug(F100,"ttbufr finds nothing","",0);
return(0);
} else {
debug(F101,"ttbufr socket_read error","",socket_errno);
return(-1);
}
} else if (count == 0) {
debug(F100,"ttbufr socket eof","",0);
return(-1);
}
#else /* COMMENT */
/* This is for blocking reads */
#ifndef VMS
#ifdef SO_OOBINLINE
{
int outofband = 0;
#ifdef BELLSELECT
if (select(128, NULL, NULL, efds, 0) > 0 && FD_ISSET(ttyfd, efds))
outofband = 1;
#else
#ifdef BSDSELECT
fd_set efds;
struct timeval tv;
FD_ZERO(&efds);
FD_SET(ttyfd, &efds);
tv.tv_sec = tv.tv_usec = 0L;
debug(F100,"Out-of-Band BSDSELECT","",0);
#ifdef NT
WSASafeToCancel = 1;
#endif /* NT */
if (select(FD_SETSIZE, NULL, NULL, &efds, &tv) > 0 &&
FD_ISSET(ttyfd, &efds))
outofband = 1;
#ifdef NT
WSASafeToCancel = 0;
#endif /* NT */
#else /* !BSDSELECT */
#ifdef IBMSELECT
/* Was used by OS/2, currently not used, but might come in handy some day... */
/* ... and it came in handy! For our TCP/IP layer, it avoids all the fd_set */
/* and timeval stuff since this is the only place where it is used. */
int socket = ttyfd;
debug(F100,"Out-of-Band IBMSELECT","",0);
if ((select(&socket, 0, 0, 1, 0L) == 1) && (socket == ttyfd))
outofband = 1;
#else /* !IBMSELECT */
/*
If we can't use select(), then we use the regular alarm()/signal()
timeout mechanism.
*/
debug(F101,"Out-of-Band data not supported","",0);
outofband = 0;
#endif /* IBMSELECT */
#endif /* BSDSELECT */
#endif /* BELLSELECT */
if (outofband) {
/* Get the Urgent Data */
/* if OOBINLINE is disabled this should be only a single byte */
/* MS Winsock has a bug in Windows 95. Extra bytes are delivered */
/* That were never sent. */
#ifdef OS2
RequestTCPIPMutex(SEM_INDEFINITE_WAIT);
#endif /* OS2 */
count = socket_recv(ttyfd,&ttibuf[ttibp+ttibn],count,MSG_OOB);
#ifdef OS2
ReleaseTCPIPMutex();
#endif /* OS2 */
if (count <= 0) {
int s_errno = socket_errno;
debug(F101, "ttbufr socket_recv MSG_OOB","",count);
debug(F101, "ttbufr socket_errno","",s_errno);
#ifdef OS2ONLY
if (count < 0 && (s_errno == 0 || s_errno == 23)) {
/* These appear in OS/2 - don't know why */
/* ignore it and read as normal data */
/* and break, then we will attempt to read */
/* the port using normal read() techniques */
debug(F100,"ttbufr handing as in-band data","",0);
count = 1;
} else {
netclos(); /* *** *** */
return(-2);
}
#else /* OS2ONLY */
netclos(); /* *** *** */
return(-2);
#endif /* OS2ONLY */
} else { /* we got out-of-band data */
hexdump("ttbufr out-of-band chars",&ttibuf[ttibp+ttibn],count);
#ifdef BETATEST
bleep(BP_NOTE);
#endif /* BETATEST */
#ifdef RLOGCODE /* blah */
if (ttnproto == NP_RLOGIN ||
ttnproto == NP_K4LOGIN || ttnproto == NP_EK4LOGIN ||
ttnproto == NP_K5LOGIN || ttnproto == NP_EK5LOGIN
) {
/*
When urgent data is read with MSG_OOB and not OOBINLINE
then urgent data and normal data are not mixed. So
treat the entire buffer as urgent data.
*/
rlog_oob(&ttibuf[ttibp+ttibn], count);
return ttbufr();
} else
#endif /* RLOGCODE */ /* blah */
#ifdef COMMENT
/*
I haven't written this yet, nor do I know what it should do
*/
if (ttnproto == NP_TELNET) {
tn_oob();
return 0;
} else
#endif /* COMMENT */
{
/* For any protocols we don't have a special out-of-band */
/* handler for, just put the bytes in the normal buffer */
/* and return */
#ifdef OS2
RequestTCPIPMutex(SEM_INDEFINITE_WAIT);
#endif /* OS2 */
ttibp += 0; /* Reset buffer pointer. */
ttibn += count;
#ifdef OS2
ReleaseTCPIPMutex();
#endif /* OS2 */
#ifdef DEBUG
/* Got some bytes. */
debug(F101,"ttbufr count 2","",count);
if (count > 0)
ttibuf[ttibp+ttibn] = '\0';
debug(F111,"ttbufr ttibuf",ttibuf,ttibp);
#endif /* DEBUG */
return(ttibn); /* Return buffer count. */
}
}
}
}
#endif /* SO_OOBINLINE */
#endif /* VMS */
#ifdef OS2
RequestTCPIPMutex(SEM_INDEFINITE_WAIT);
#endif /* OS2 */
count = socket_read(ttyfd,&ttibuf[ttibp+ttibn],count);
#ifdef OS2
ReleaseTCPIPMutex();
#endif /* OS2 */
if (count <= 0) {
int s_errno = socket_errno;
debug(F101,"ttbufr socket_read","",count);
debug(F101,"ttbufr socket_errno","",s_errno);
#ifdef OS2
if (count == 0 || os2socketerror(s_errno) < 0) {
netclos();
return(-2);
}
return(-1);
#else /* OS2 */
netclos(); /* *** *** */
return(-2);
#endif /* OS2 */
}
#endif /* COMMENT */ /* (blocking vs nonblock reads...) */
else {
#ifdef OS2
RequestTCPIPMutex(SEM_INDEFINITE_WAIT);
#endif /* OS2 */
ttibp = 0; /* Reset buffer pointer. */
ttibn += count;
#ifdef OS2
ReleaseTCPIPMutex();
#endif /* OS2 */
#ifdef DEBUG
debug(F101,"ttbufr count 2","",count); /* Got some bytes. */
if (count > 0)
ttibuf[ttibp+ttibn] = '\0';
debug(F111,"ttbufr ttibuf",&ttibuf[ttibp],ttibn);
#endif /* DEBUG */
return(ttibn); /* Return buffer count. */
}
}
#endif /* TCPIPLIB */
#ifndef IBMSELECT
#ifndef BELLSELECT
#ifndef BSDSELECT /* Non-TCPIPLIB case */
#ifdef SELECT
#define BSDSELECT
#endif /* SELECT */
#endif /* BSDSELECT */
#endif /* BELLSELECT */
#endif /* IBMSELECT */
#define TELNET_PORT 23 /* Should do lookup, but it won't change */
#define RLOGIN_PORT 513
#define KERMIT_PORT 1649
#define KLOGIN_PORT 543
#define EKLOGIN_PORT 2105
/* Type needed as 5th argument (length) to get/setsockopt() */
#ifndef SOCKOPT_T
#define SOCKOPT_T int
#ifdef AIX42
#undef SOCKOPT_T
#define SOCKOPT_T unsigned long
#else
#ifdef PTX
#undef SOCKOPT_T
#define SOCKOPT_T size_t
#else
#ifdef NT
#undef SOCKOPT_T
#define SOCKOPT_T int
#else /* NT */
#ifdef UNIXWARE
#undef SOCKOPT_T
#define SOCKOPT_T size_t
#else /* UNIXWARE */
#ifdef VMS
#ifdef DEC_TCPIP
#ifdef __DECC_VER
#undef SOCKOPT_T
#define SOCKOPT_T size_t
#endif /* __DECC_VER */
#endif /* DEC_TCPIP */
#endif /* VMS */
#endif /* UNIXWARE */
#endif /* NT */
#endif /* PTX */
#endif /* AIX42 */
#endif /* SOCKOPT_T */
/* Ditto for getsockname() */
#ifndef GSOCKNAME_T
#define GSOCKNAME_T int
#ifdef PTX
#undef GSOCKNAME_T
#define GSOCKNAME_T size_t
#else
#ifdef AIX42 /* size_t in 4.2++, int in 4.1-- */
#undef GSOCKNAME_T
#define GSOCKNAME_T size_t
#else
#ifdef UNIXWARE
#undef GSOCKNAME_T
#define GSOCKNAME_T size_t
#else
#ifdef VMS
#ifdef DEC_TCPIP
#ifdef __DECC_VER
#undef GSOCKNAME_T
#define GSOCKNAME_T size_t
#endif /* __DECC_VER */
#endif /* DEC_TCPIP */
#endif /* VMS */
#endif /* UNIXWARE */
#endif /* AIX41 */
#endif /* PTX */
#endif /* GSOCKNAME_T */
#ifndef NOLOCAL
/*
C-Kermit network open/close functions for BSD-sockets.
Much of this code shared by SunLink X.25, which also uses the socket library.
*/
/* N E T O P N -- Open a network connection. */
/*
Call with:
name of host (or host:service),
lcl - local-mode flag to be set if this function succeeds,
network type - value defined in ckunet.h.
*/
#ifdef TCPSOCKET
#ifdef EXCELAN
/*
Most other BSD sockets implementations define these in header files
and libraries.
*/
struct servent {
unsigned short s_port;
};
struct hostent {
short h_addrtype;
struct in_addr h_addr;
int h_length;
};
struct servent *
getservbyname(service, connection) char *service,*connection; {
static struct servent servrec;
int port;
port = 0;
if (strcmp(service, "telnet") == 0) port = 23;
else if (strcmp(service, "smtp") == 0) port = 25;
else port = atoi(service);
debug(F101,"getservbyname return port ","",port);
if (port > 0) {
servrec.s_port = htons(port);
return(&servrec);
}
return((struct servent *) NULL);
}
struct hostent *
gethostbyname(hostname) char *hostname; {
return((struct hostent *) NULL);
}
unsigned long
inet_addr(name) char *name; {
unsigned long addr;
addr = rhost(&name);
debug(F111,"inet_addr ",name,(int)addr);
return(addr);
}
char *
inet_ntoa(in) struct in_addr in; {
static char name[80];
sprintf(name, "%d.%d.%d.%d", in.s_net, in.s_host, in.s_lh, in.s_impno);
return(name);
}
#else
#ifdef DEC_TCPIP /* UCX */
int ucx_port_bug = 0; /* Explained below */
#ifndef __DECC /* VAXC or GCC */
#define getservbyname my_getservbyname
#ifdef CK_ANSIC
globalref int (*C$$GA_UCX_GETSERVBYNAME)();
extern void C$$TRANSLATE();
extern void C$$SOCK_TRANSLATE();
#else
globalref int (*C$$GA_UCX_GETSERVBYNAME)();
extern VOID C$$TRANSLATE();
extern VOID C$$SOCK_TRANSLATE();
#endif /* CK_ANSIC */
struct servent *
my_getservbyname (service, proto) char *service, *proto; {
static struct servent sent;
struct iosb {
union {
unsigned long status;
unsigned short st[2];
} sb;
unsigned long spare;
} s;
struct {
struct iosb *s;
char *serv;
char *prot;
} par;
unsigned long e;
char sbuf[30], pbuf[30];
char *p;
debug(F111,"UCX getservbyname",service,(int)C$$GA_UCX_GETSERVBYNAME);
p = sbuf;
ckstrncpy(p, service, 29);
while (*p = toupper(*p), *p++) {}
p = pbuf;
ckstrncpy(p, proto, 29);
while (*p = toupper(*p), *p++) {}
par.s = &s;
par.serv = "";
par.prot = "";
/* reset file pointer or something like that!?!? */
e = (*C$$GA_UCX_GETSERVBYNAME)(&par, &sent, par.s);
par.serv = sbuf;
par.prot = pbuf; /* that is don't care */
e = (*C$$GA_UCX_GETSERVBYNAME)(&par, &sent, par.s);
if ((long)e == -1L)
return NULL;
if ((e & 1) == 0L) {
C$$TRANSLATE(e);
return NULL;
}
if ((s.sb.st[0] & 1) == 0) {
C$$SOCK_TRANSLATE(&s.sb.st[0]);
return NULL;
}
/*
sent.s_port is supposed to be returned by UCX in network byte order.
However, UCX 2.0 through 2.0C did not do this; 2.0D and later do it.
But there is no way of knowing which UCX version, so we have a user-settable
runtime variable. Note: UCX 2.0 was only for the VAX.
*/
debug(F101,"UCX getservbyname port","",sent.s_port);
debug(F101,"UCX getservbyname ntohs(port)","",ntohs(sent.s_port));
if (ucx_port_bug) {
sent.s_port = htons(sent.s_port);
debug(F100,"UCX-PORT-BUG ON: swapping bytes","",0);
debug(F101,"UCX swapped port","",sent.s_port);
debug(F101,"UCX swapped ntohs(port)","",ntohs(sent.s_port));
}
return &sent;
}
#endif /* __DECC */
#endif /* DEC_TCPIP */
#endif /* EXCELAN */
#endif /* TCPSOCKET */
#ifndef NOTCPOPTS
#ifndef datageneral
int
ck_linger(onoff, timo) int onoff; int timo; {
/*
The following, from William Bader, turns off the socket linger parameter,
which makes a close() block until all data is sent. "I don't think that
disabling linger can ever cause kermit to lose data, but you telnet to a
flaky server (or to our modem server when the modem is in use), disabling
linger prevents kermit from hanging on the close if you try to exit."
Modified by Jeff Altman to be generally useful.
*/
#ifdef SOL_SOCKET
#ifdef SO_LINGER
struct linger set_linger_opt;
struct linger get_linger_opt;
SOCKOPT_T x;
if (ttyfd == -1 ||
nettype != NET_TCPA && nettype != NET_TCPB || ttmdm >= 0) {
tcp_linger = onoff;
tcp_linger_tmo = timo;
return(1);
}
x = sizeof(get_linger_opt);
if (getsockopt(ttyfd, SOL_SOCKET, SO_LINGER,
(char *)&get_linger_opt, &x)) {
debug(F111,"TCP ck_linger can't get SO_LINGER",ck_errstr(),errno);
} else if (x != sizeof(get_linger_opt)) {
#ifdef OS2
struct _linger16 {
short s_linger;
short s_onoff;
} get_linger_opt16, set_linger_opt16;
if ( x == sizeof(get_linger_opt16) ) {
debug(F111,"TCP setlinger warning: SO_LINGER","len is 16-bit",x);
if (getsockopt(ttyfd,
SOL_SOCKET, SO_LINGER,
(char *)&get_linger_opt16, &x)
) {
debug(F111,
"TCP ck_linger can't get SO_LINGER",ck_errstr(),errno);
} else if (get_linger_opt16.s_onoff != onoff ||
get_linger_opt16.s_linger != timo)
{
set_linger_opt16.s_onoff = onoff;
set_linger_opt16.s_linger = timo;
if (setsockopt(ttyfd,
SOL_SOCKET,
SO_LINGER,
(char *)&set_linger_opt16,
sizeof(set_linger_opt16))
) {
debug(F111,
"TCP ck_linger can't set SO_LINGER",
ck_errstr(),
errno
);
tcp_linger = get_linger_opt16.s_onoff;
tcp_linger_tmo = get_linger_opt16.s_linger;
} else {
debug(F101,
"TCP ck_linger new SO_LINGER","",
set_linger_opt16.s_onoff);
tcp_linger = set_linger_opt16.s_onoff;
tcp_linger_tmo = set_linger_opt16.s_linger;
return 1;
}
} else {
debug(F101,"TCP ck_linger SO_LINGER unchanged","",
get_linger_opt16.s_onoff);
tcp_linger = get_linger_opt16.s_onoff;
tcp_linger_tmo = get_linger_opt16.s_linger;
return 1;
}
return(0);
}
#endif /* OS2 */
debug(F111,"TCP ck_linger error: SO_LINGER","len",x);
debug(F111,"TCP ck_linger SO_LINGER",
"expected len",sizeof(get_linger_opt));
debug(F111,"TCP ck_linger SO_LINGER","linger_opt.l_onoff",
get_linger_opt.l_onoff);
debug(F111,"TCP linger SO_LINGER","linger_opt.l_linger",
get_linger_opt.l_linger);
} else if (get_linger_opt.l_onoff != onoff ||
get_linger_opt.l_linger != timo) {
set_linger_opt.l_onoff = onoff;
set_linger_opt.l_linger = timo;
if (setsockopt(ttyfd,
SOL_SOCKET,
SO_LINGER,
(char *)&set_linger_opt,
sizeof(set_linger_opt))) {
debug(F111,"TCP ck_linger can't set SO_LINGER",ck_errstr(),errno);
tcp_linger = get_linger_opt.l_onoff;
tcp_linger_tmo = get_linger_opt.l_linger;
} else {
debug(F101,
"TCP ck_linger new SO_LINGER",
"",
set_linger_opt.l_onoff
);
tcp_linger = set_linger_opt.l_onoff;
tcp_linger_tmo = set_linger_opt.l_linger;
return 1;
}
} else {
debug(F101,"TCP ck_linger SO_LINGER unchanged","",
get_linger_opt.l_onoff);
tcp_linger = get_linger_opt.l_onoff;
tcp_linger_tmo = get_linger_opt.l_linger;
return 1;
}
#else
debug(F100,"TCP ck_linger SO_LINGER not defined","",0);
#endif /* SO_LINGER */
#else
debug(F100,"TCP ck_linger SO_SOCKET not defined","",0);
#endif /* SOL_SOCKET */
return(0);
}
int
sendbuf(size) int size; {
/*
The following, from William Bader, allows changing of socket buffer sizes,
in case that might affect performance.
Modified by Jeff Altman to be generally useful.
*/
#ifdef SOL_SOCKET
#ifdef SO_SNDBUF
int i, j, rc = 0;
SOCKOPT_T x;
if (ttyfd == -1 ||
nettype != NET_TCPA && nettype != NET_TCPB || ttmdm >= 0) {
tcp_sendbuf = size;
return 1;
}
x = sizeof(i);
if (getsockopt(ttyfd, SOL_SOCKET, SO_SNDBUF, (char *)&i, &x)) {
debug(F111,"TCP sendbuf can't get SO_SNDBUF",ck_errstr(),errno);
} else if (x != sizeof(i)) {
#ifdef OS2
short i16,j16;
if (x == sizeof(i16)) {
debug(F111,"TCP sendbuf warning: SO_SNDBUF","len is 16-bit",x);
if (getsockopt(ttyfd,
SOL_SOCKET, SO_SNDBUF,
(char *)&i16, &x)
) {
debug(F111,"TCP sendbuf can't get SO_SNDBUF",
ck_errstr(),errno);
} else if (size <= 0) {
tcp_sendbuf = i16;
debug(F101,"TCP sendbuf SO_SNDBUF retrieved","",i16);
return 1;
} else if (i16 != size) {
j16 = size;
if (setsockopt(ttyfd,
SOL_SOCKET,
SO_SNDBUF,
(char *)&j16,
sizeof(j16))
) {
debug(F111,"TCP sendbuf can't set SO_SNDBUF",
ck_errstr(),errno);
} else {
debug(F101,"TCP sendbuf old SO_SNDBUF","",i16);
debug(F101,"TCP sendbuf new SO_SNDBUF","",j16);
tcp_sendbuf = size;
return 1;
}
} else {
debug(F101,"TCP sendbuf SO_SNDBUF unchanged","",i16);
tcp_sendbuf = size;
return 1;
}
return(0);
}
#endif /* OS2 */
debug(F111,"TCP sendbuf error: SO_SNDBUF","len",x);
debug(F111,"TCP sendbuf SO_SNDBUF","expected len",sizeof(i));
debug(F111,"TCP sendbuf SO_SNDBUF","i",i);
} else if (size <= 0) {
tcp_sendbuf = i;
debug(F101,"TCP sendbuf SO_SNDBUF retrieved","",i);
return 1;
} else if (i != size) {
j = size;
if (setsockopt(ttyfd, SOL_SOCKET, SO_SNDBUF, (char *)&j, sizeof(j))) {
debug(F111,"TCP sendbuf can't set SO_SNDBUF",ck_errstr(),errno);
tcp_sendbuf = i;
} else {
debug(F101,"TCP sendbuf old SO_SNDBUF","",i);
debug(F101,"TCP sendbuf new SO_SNDBUF","",j);
tcp_sendbuf = size;
return 1;
}
} else {
debug(F101,"TCP sendbuf SO_SNDBUF unchanged","",i);
tcp_sendbuf = size;
return 1;
}
#else
debug(F100,"TCP sendbuf SO_SNDBUF not defined","",0);
#endif /* SO_SNDBUF */
#else
debug(F100,"TCP sendbuf SO_SOCKET not defined","",0);
#endif /* SOL_SOCKET */
return(0);
}
int
recvbuf(size) int size; {
/*
The following, from William Bader, allows changing of socket buffer sizes,
in case that might affect performance.
Modified by Jeff Altman to be generally useful.
*/
#ifdef SOL_SOCKET
#ifdef SO_RCVBUF
int i, j, rc = 0;
SOCKOPT_T x;
if (ttyfd == -1 ||
nettype != NET_TCPA && nettype != NET_TCPB || ttmdm >= 0) {
tcp_recvbuf = size;
return(1);
}
x = sizeof(i);
if (getsockopt(ttyfd, SOL_SOCKET, SO_RCVBUF, (char *)&i, &x)) {
debug(F111,"TCP recvbuf can't get SO_RCVBUF",ck_errstr(),errno);
} else if (x != sizeof(i)) {
#ifdef OS2
short i16,j16;
if ( x == sizeof(i16) ) {
debug(F111,"TCP recvbuf warning: SO_RCVBUF","len is 16-bit",x);
if (getsockopt(ttyfd,
SOL_SOCKET, SO_RCVBUF,
(char *)&i16, &x)
) {
debug(F111,"TCP recvbuf can't get SO_RCVBUF",
ck_errstr(),errno);
} else if (size <= 0) {
tcp_recvbuf = i16;
debug(F101,"TCP recvbuf SO_RCVBUF retrieved","",i16);
return 1;
} else if (i16 != size) {
j16 = size;
if (setsockopt(ttyfd, SOL_SOCKET, SO_RCVBUF, (char *)&j16,
sizeof(j16))) {
debug(F111,"TCP recvbuf can' set SO_RCVBUF",
ck_errstr(),errno);
} else {
debug(F101,"TCP recvbuf old SO_RCVBUF","",i16);
debug(F101,"TCP recvbuf new SO_RCVBUF","",j16);
tcp_recvbuf = size;
return 1;
}
} else {
debug(F101,"TCP recvbuf SO_RCVBUF unchanged","",i16);
tcp_recvbuf = size;
return 1;
}
return(0);
}
#endif /* OS2 */
debug(F111,"TCP recvbuf error: SO_RCVBUF","len",x);
debug(F111,"TCP recvbuf SO_RCVBUF","expected len",sizeof(i));
debug(F111,"TCP recvbuf SO_RCVBUF","i",i);
} else if (size <= 0) {
tcp_recvbuf = i;
debug(F101,"TCP recvbuf SO_RCVBUF retrieved","",i);
return 1;
} else if (i != size) {
j = size;
if (setsockopt(ttyfd, SOL_SOCKET, SO_RCVBUF, (char *)&j, sizeof(j))) {
debug(F111,"TCP recvbuf can't set SO_RCVBUF",ck_errstr(),errno);
tcp_recvbuf = i;
} else {
debug(F101,"TCP recvbuf old SO_RCVBUF","",i);
debug(F101,"TCP recvbuf new SO_RCVBUF","",j);
tcp_recvbuf = size;
return 1;
}
} else {
debug(F101,"TCP recvbuf SO_RCVBUF unchanged","",i);
tcp_recvbuf = size;
return 1;
}
#else
debug(F100,"TCP recvbuf SO_RCVBUF not defined","",0);
#endif /* SO_RCVBUF */
#else
debug(F100,"TCP recvbuf SO_SOCKET not defined","",0);
#endif /* SOL_SOCKET */
return 0;
}
int
keepalive(onoff) int onoff; {
#ifdef SOL_SOCKET
#ifdef SO_KEEPALIVE
int get_keepalive_opt;
int set_keepalive_opt;
SOCKOPT_T x;
if (ttyfd == -1 ||
nettype != NET_TCPA && nettype != NET_TCPB || ttmdm >= 0) {
tcp_keepalive = onoff;
return 1;
}
x = sizeof(get_keepalive_opt);
if (getsockopt(ttyfd,
SOL_SOCKET, SO_KEEPALIVE, (char *)&get_keepalive_opt, &x)) {
debug(F111,"TCP keepalive can't get SO_KEEPALIVE",ck_errstr(),errno);
} else if (x != sizeof(get_keepalive_opt)) {
#ifdef OS2
short get_keepalive_opt16;
short set_keepalive_opt16;
if (x == sizeof(get_keepalive_opt16)) {
debug(F111,"TCP keepalive warning: SO_KEEPALIVE",
"len is 16-bit",x);
if (getsockopt(ttyfd,
SOL_SOCKET, SO_KEEPALIVE,
(char *)&get_keepalive_opt16, &x)
) {
debug(F111,
"TCP keepalive can't get SO_KEEPALIVE",
ck_errstr(),
errno
);
} else if (get_keepalive_opt16 != onoff) {
set_keepalive_opt16 = onoff;
if (setsockopt(ttyfd,
SOL_SOCKET,
SO_KEEPALIVE,
(char *)&set_keepalive_opt16,
sizeof(set_keepalive_opt16))
) {
debug(F111,
"TCP keepalive can't clear SO_KEEPALIVE",
ck_errstr(),
errno
);
tcp_keepalive = get_keepalive_opt16;
} else {
debug(F101,
"TCP keepalive new SO_KEEPALIVE","",
set_keepalive_opt16);
tcp_keepalive = set_keepalive_opt16;
return 1;
}
} else {
debug(F101,"TCP keepalive SO_KEEPALIVE unchanged","",
get_keepalive_opt16);
tcp_keepalive = onoff;
return 1;
}
return(0);
}
#endif /* OS2 */
debug(F111,"TCP keepalive error: SO_KEEPALIVE","len",x);
debug(F111,
"TCP keepalive SO_KEEPALIVE",
"expected len",
sizeof(get_keepalive_opt)
);
debug(F111,
"TCP keepalive SO_KEEPALIVE",
"keepalive_opt",
get_keepalive_opt
);
} else if (get_keepalive_opt != onoff) {
set_keepalive_opt = onoff;
if (setsockopt(ttyfd,
SOL_SOCKET,
SO_KEEPALIVE,
(char *)&set_keepalive_opt,
sizeof(set_keepalive_opt))
) {
debug(F111,
"TCP keepalive can't clear SO_KEEPALIVE",
ck_errstr(),
errno
);
tcp_keepalive = get_keepalive_opt;
} else {
debug(F101,
"TCP keepalive new SO_KEEPALIVE",
"",
set_keepalive_opt
);
tcp_keepalive = onoff;
return 1;
}
} else {
debug(F101,"TCP keepalive SO_KEEPALIVE unchanged",
"",
get_keepalive_opt
);
tcp_keepalive = onoff;
return 1;
}
#else
debug(F100,"TCP keepalive SO_KEEPALIVE not defined","",0);
#endif /* SO_KEEPALIVE */
#else
debug(F100,"TCP keepalive SO_SOCKET not defined","",0);
#endif /* SOL_SOCKET */
return(0);
}
int
dontroute(onoff) int onoff; {
#ifdef SOL_SOCKET
#ifdef SO_DONTROUTE
int get_dontroute_opt;
int set_dontroute_opt;
SOCKOPT_T x;
if (ttyfd == -1 ||
nettype != NET_TCPA && nettype != NET_TCPB || ttmdm >= 0) {
tcp_dontroute = onoff;
return 1;
}
x = sizeof(get_dontroute_opt);
if (getsockopt(ttyfd,
SOL_SOCKET, SO_DONTROUTE, (char *)&get_dontroute_opt, &x)) {
debug(F111,"TCP dontroute can't get SO_DONTROUTE",ck_errstr(),errno);
} else if (x != sizeof(get_dontroute_opt)) {
#ifdef OS2
short get_dontroute_opt16;
short set_dontroute_opt16;
if (x == sizeof(get_dontroute_opt16)) {
debug(F111,"TCP dontroute warning: SO_DONTROUTE",
"len is 16-bit",x);
if (getsockopt(ttyfd,
SOL_SOCKET, SO_DONTROUTE,
(char *)&get_dontroute_opt16, &x)
) {
debug(F111,
"TCP dontroute can't get SO_DONTROUTE",
ck_errstr(),
errno
);
} else if (get_dontroute_opt16 != onoff) {
set_dontroute_opt16 = onoff;
if (setsockopt(ttyfd,
SOL_SOCKET,
SO_DONTROUTE,
(char *)&set_dontroute_opt16,
sizeof(set_dontroute_opt16))
) {
debug(F111,
"TCP dontroute can't clear SO_DONTROUTE",
ck_errstr(),
errno
);
tcp_dontroute = get_dontroute_opt16;
} else {
debug(F101,
"TCP dontroute new SO_DONTROUTE","",
set_dontroute_opt16);
tcp_dontroute = set_dontroute_opt16;
return 1;
}
} else {
debug(F101,"TCP dontroute SO_DONTROUTE unchanged","",
get_dontroute_opt16);
tcp_dontroute = onoff;
return 1;
}
return(0);
}
#endif /* OS2 */
debug(F111,"TCP dontroute error: SO_DONTROUTE","len",x);
debug(F111,
"TCP dontroute SO_DONTROUTE",
"expected len",
sizeof(get_dontroute_opt)
);
debug(F111,
"TCP dontroute SO_DONTROUTE",
"dontroute_opt",
get_dontroute_opt
);
} else if (get_dontroute_opt != onoff) {
set_dontroute_opt = onoff;
if (setsockopt(ttyfd,
SOL_SOCKET,
SO_DONTROUTE,
(char *)&set_dontroute_opt,
sizeof(set_dontroute_opt))
) {
debug(F111,
"TCP dontroute can't clear SO_DONTROUTE",
ck_errstr(),
errno
);
tcp_dontroute = get_dontroute_opt;
} else {
debug(F101,
"TCP dontroute new SO_DONTROUTE",
"",
set_dontroute_opt
);
tcp_dontroute = onoff;
return 1;
}
} else {
debug(F101,"TCP dontroute SO_DONTROUTE unchanged",
"",
get_dontroute_opt
);
tcp_dontroute = onoff;
return 1;
}
#else
debug(F100,"TCP dontroute SO_DONTROUTE not defined","",0);
#endif /* SO_DONTROUTE */
#else
debug(F100,"TCP dontroute SO_SOCKET not defined","",0);
#endif /* SOL_SOCKET */
return(0);
}
int
no_delay(onoff) int onoff; {
#ifdef SOL_SOCKET
#ifdef TCP_NODELAY
int get_nodelay_opt;
int set_nodelay_opt;
SOCKOPT_T x;
if (ttyfd == -1 ||
nettype != NET_TCPA && nettype != NET_TCPB || ttmdm >= 0) {
tcp_nodelay = onoff;
return(1);
}
x = sizeof(get_nodelay_opt);
if (getsockopt(ttyfd,IPPROTO_TCP,TCP_NODELAY,
(char *)&get_nodelay_opt,&x)) {
debug(F111,
"TCP no_delay can't get TCP_NODELAY",
ck_errstr(),
errno);
} else if (x != sizeof(get_nodelay_opt)) {
#ifdef OS2
short get_nodelay_opt16;
short set_nodelay_opt16;
if (x == sizeof(get_nodelay_opt16)) {
debug(F111,"TCP no_delay warning: TCP_NODELAY","len is 16-bit",x);
if (getsockopt(ttyfd,
IPPROTO_TCP, TCP_NODELAY,
(char *)&get_nodelay_opt16, &x)
) {
debug(F111,
"TCP no_delay can't get TCP_NODELAY",
ck_errstr(),
errno);
} else if (get_nodelay_opt16 != onoff) {
set_nodelay_opt16 = onoff;
if (setsockopt(ttyfd,
IPPROTO_TCP,
TCP_NODELAY,
(char *)&set_nodelay_opt16,
sizeof(set_nodelay_opt16))
) {
debug(F111,
"TCP no_delay can't clear TCP_NODELAY",
ck_errstr(),
errno);
tcp_nodelay = get_nodelay_opt16;
} else {
debug(F101,
"TCP no_delay new TCP_NODELAY",
"",
set_nodelay_opt16);
tcp_nodelay = onoff;
return 1;
}
} else {
debug(F101,"TCP no_delay TCP_NODELAY unchanged","",
get_nodelay_opt16);
tcp_nodelay = onoff;
return 1;
}
return(0);
}
#endif /* OS2 */
debug(F111,"TCP no_delay error: TCP_NODELAY","len",x);
debug(F111,"TCP no_delay TCP_NODELAY","expected len",
sizeof(get_nodelay_opt));
debug(F111,"TCP no_delay TCP_NODELAY","nodelay_opt",get_nodelay_opt);
} else if (get_nodelay_opt != onoff) {
set_nodelay_opt = onoff;
if (setsockopt(ttyfd,
IPPROTO_TCP,
TCP_NODELAY,
(char *)&set_nodelay_opt,
sizeof(set_nodelay_opt))) {
debug(F111,
"TCP no_delay can't clear TCP_NODELAY",
ck_errstr(),
errno
);
tcp_nodelay = get_nodelay_opt;
} else {
debug(F101,"TCP no_delay new TCP_NODELAY","",set_nodelay_opt);
tcp_nodelay = onoff;
return 1;
}
} else {
debug(F101,"TCP no_delay TCP_NODELAY unchanged","",get_nodelay_opt);
tcp_nodelay = onoff;
return(1);
}
#else
debug(F100,"TCP no_delay TCP_NODELAY not defined","",0);
#endif /* TCP_NODELAY */
#else
debug(F100,"TCP no_delay SO_SOCKET not defined","",0);
#endif /* SOL_SOCKET */
return 0;
}
#endif /* datageneral */
#endif /* NOTCPOPTS */
#ifdef SUNX25
#ifndef X25_WR_FACILITY
/* For Solaris 2.3 / SunLink 8.x - see comments in ckcnet.h */
void
bzero(s,n) char *s; int n; {
memset(s,0,n);
}
#endif /* X25_WR_FACILITY */
#endif /* SUNX25 */
#ifdef TCPSOCKET
#ifndef OS2
#ifndef NOLISTEN
#ifdef BSDSELECT
#ifndef VMS
#ifndef BELLV10
#ifndef datageneral
#ifdef hp9000s500 /* HP-9000/500 HP-U 5.21 */
#include <time.h>
#else
/****** THIS SECTION ADDED BY STEVE RANCE - OS9 NETWORK SERVER
* ------------------------------------------------------
*
* Due to OS9's Lack of a select() call, the following seems to be
* enough to fool the rest of the code into compiling. The only
* effect that I can see is using control L to refresh the status
* display gets qued up until some network packets arrive.
*
* This solution is by no means elegant but works enough to be
* a (the) solution.
*
* Also with the defines I had specified in my makefile I had to
* have an #endif right at the end of the file when compiling.
* I did not bother speding time to find out why.
*
* COPTS = -to=osk -d=OSK -d=TCPSOCKET -d=SELECT -d=VOID=void -d=SIG_V \
* -d=DYNAMIC -d=PARSENSE -d=KANJI -d=MYCURSES -d=ZFCDAT \
* -d=CK_APC -d=CK_REDIR -d=RENAME -d=CK_TTYFD -d=NOOLDMODEMS \
* -d=CK_ANSIC -d=CK_XYZ -tp=68040d -l=netdb.l -l=socklib.l \
* -l=termlib.l -l=math.l -l=sys_clib.l
*
* stever@ozemail.com.au
*/
#ifdef OSK
#define BSDSELECT /* switch on BSD select code */
#define FD_SETSIZE 32 /* Max # of paths in OS9 */
#define FD_ZERO(p) ((*p)=0)
#define FD_SET(n,b) ((*b)|=(1<<(n)))
#define FD_ISSET(n,b) 1 /* always say data is ready */
#define select(a,b,c,d,e) 1 /* always say 1 path has data */
typedef int fd_set; /* keep BSD Code Happy */
struct timeval {int tv_sec,tv_usec;}; /* keep BSD Code Happy */
/****** END OF OS9 MODS FROM STEVE RANCE **************************/
#endif /* OSK */
#include <sys/time.h>
#endif /* hp9000s500 */
#endif /* datageneral */
#endif /* BELLV10 */
#endif /* VMS */
#ifdef SELECT_H
#include <sys/select.h>
#endif /* SELECT_H */
#endif /* BSDSELECT */
#ifdef SELECT
#ifdef CK_SCOV5
#include <sys/select.h>
#endif /* CK_SCOV5 */
#endif /* SELECT */
#ifdef NOTUSED
/* T C P S O C K E T _ O P E N -- Open a preexisting socket number */
int
tcpsocket_open(name,lcl,nett,timo) char * name; int * lcl; int nett; int timo {
int on = 1;
static struct servent *service, servrec;
static struct hostent *host;
static struct sockaddr_in saddr;
static
#ifdef UCX50
unsigned
#endif /* UCX50 */
int saddrlen;
#ifdef BSDSELECT
fd_set rfds;
struct timeval tv;
#else
#ifdef BELLSELECT
fd_set rfds;
#else
fd_set rfds;
fd_set rfds;
struct timeval {
long tv_sec;
long tv_usec;
} tv;
#endif /* BELLSELECT */
#endif /* BSDSELECT */
debug(F101,"tcpsocket_open nett","",nett);
*ipaddr = '\0';
if (nett != NET_TCPB)
return(-1); /* BSD socket support */
netclos(); /* Close any previous connection. */
ckstrncpy(namecopy, name, NAMECPYL); /* Copy the hostname. */
if (ttnproto != NP_TCPRAW)
ttnproto = NP_NONE; /* No protocol selected yet. */
debug(F110,"tcpsocket_open namecopy",namecopy,0);
/* Assign the socket number to ttyfd and then fill in tcp structures */
ttyfd = atoi(&name[1]);
debug(F111,"tcpsocket_open","ttyfd",ttyfd);
#ifndef NOTCPOPTS
#ifdef SOL_SOCKET
setsockopt(ttyfd, SOL_SOCKET, SO_OOBINLINE,(char *) &on, sizeof on);
#ifndef datageneral
#ifdef TCP_NODELAY
no_delay(tcp_nodelay);
#endif /* TCP_NODELAY */
#ifdef SO_KEEPALIVE
keepalive(tcp_keepalive);
#endif /* SO_KEEPALIVE */
#ifdef SO_LINGER
ck_linger(tcp_linger, tcp_linger_tmo);
#endif /* SO_LINGER */
#ifdef SO_SNDBUF
sendbuf(tcp_sendbuf);
#endif /* SO_SNDBUF */
#ifdef SO_RCVBUF
recvbuf(tcp_recvbuf);
#endif /* SO_RCVBUF */
#endif /* datageneral */
#endif /* SOL_SOCKET */
#endif /* NOTCPOPTS */
#ifdef NT_TCP_OVERLAPPED
OverlappedWriteInit();
OverlappedReadInit();
#endif /* NT_TCP_OVERLAPPED */
/* Get the name of the host we are connected to */
saddrlen = sizeof(saddr);
getpeername(ttyfd,(struct sockaddr *)&saddr,&saddrlen);
ckstrncpy(ipaddr,(char *)inet_ntoa(saddr.sin_addr),20);
if (tcp_rdns == SET_ON
#ifdef CK_KERBEROS
|| tcp_rdns == SET_AUTO &&
(ck_krb5_is_installed() || ck_krb4_is_installed())
#endif /* CK_KERBEROS */
) { /* Reverse DNS */
if (!quiet) {
printf(" Reverse DNS Lookup... ");
fflush(stdout);
}
host = gethostbyaddr((char *)&saddr.sin_addr,4,PF_INET);
debug(F110,"tcpsocket_open gethostbyaddr",host ? "OK" : "FAILED",0);
if (host) {
debug(F100,"tcpsocket_open gethostbyaddr != NULL","",0);
if (!quiet) {
printf("(OK)\n");
fflush(stdout);
}
ckstrncpy(name, host->h_name, 79);
strncat(name, ":", 80 - strlen(name));
#ifdef COMMENT
itoa(ntohs(saddr.sin_port), name + strlen(name), 10);
#else
sprintf(name + strlen(name),"%d",ntohs(saddr.sin_port));
#endif /* COMMENT */
if (!quiet
#ifndef NOICP
&& !doconx
#endif /* NOICP */
)
printf("%s connected on port %d\n",
host->h_name,
ntohs(saddr.sin_port)
);
} else if (!quiet)
printf("Failed\n");
} else if (!quiet)
printf("(OK)\n");
if (tcp_rdns != SET_ON || !host) {
ckstrncpy(name,ipaddr,79);
strncat(name,":",80-strlen(name));
#ifdef COMMENT
itoa(ntohs(saddr.sin_port), name + strlen(name), 10);
#else
sprintf(name + strlen(name),"%d",ntohs(saddr.sin_port));
#endif /* COMMENT */
if (!quiet
#ifdef NOICP
&& !doconx
#endif /* NOICP */
)
printf("%s connected on port %d\n",ipaddr,ntohs(saddr.sin_port));
}
if (!quiet) fflush(stdout);
ttnet = nett; /* TCP/IP (sockets) network */
#ifdef RLOGCODE
if (ntohs(saddr.sin_port) == 513)
ttnproto = NP_LOGIN;
else
#endif /* RLOGCODE */
/* Assume the service is TELNET. */
if (ttnproto != NP_TCPRAW)
ttnproto = NP_TELNET; /* Yes, set global flag. */
#ifdef CK_AUTHENTICATION
/* Before Initialization Telnet/Rlogin Negotiations Init Kerberos */
ck_auth_init((host && host->h_name && host->h_name[0]) ?
host->h_name : ipaddr,
ipaddr,
uidbuf,
ttyfd
);
#endif /* CK_AUTHENTICATION */
if (tn_ini() < 0) /* Start/Reset TELNET negotiations */
if (ttchk() < 0) /* Did it fail due to connect loss? */
return(-1);
if (*lcl < 0) *lcl = 1; /* Local mode. */
return(0); /* Done. */
}
#endif /* NOTUSED */
/* T C P S R V _ O P E N -- Open a TCP/IP Server connection */
/*
Calling conventions same as ttopen(), except third argument is network
type rather than modem type.
*/
int
tcpsrv_open(name,lcl,nett,timo) char * name; int * lcl; int nett; int timo; {
char *p;
int i, x;
SOCKOPT_T on = 1;
int ready_to_accept = 0;
static struct servent *service, servrec;
static struct hostent *host;
static struct sockaddr_in saddr;
struct sockaddr_in l_addr;
GSOCKNAME_T l_slen;
#ifdef UCX50
static u_int saddrlen;
#else
static SOCKOPT_T saddrlen;
#endif /* UCX50 */
#ifdef BSDSELECT
fd_set rfds;
struct timeval tv;
#else
#ifdef BELLSELCT
fd_set rfds;
#else
fd_set rfds;
struct timeval {
long tv_sec;
long tv_usec;
} tv;
#endif /* BELLSELECT */
#endif /* BSDSELECT */
#ifdef CK_SSL
int ssl_failed = 0;
#endif /* CK_SSL */
debug(F101,"tcpsrv_open nett","",nett);
*ipaddr = '\0';
if (nett != NET_TCPB)
return(-1); /* BSD socket support */
netclos(); /* Close any previous connection. */
ckstrncpy(namecopy, name, NAMECPYL); /* Copy the hostname. */
#ifdef COMMENT
/* Don't do this. */
if (ttnproto != NP_TCPRAW)
ttnproto = NP_NONE; /* No protocol selected yet. */
#endif /* COMMENT */
debug(F110,"tcpsrv_open namecopy",namecopy,0);
p = namecopy; /* Was a service requested? */
while (*p != '\0' && *p != ':')
p++; /* Look for colon */
if (*p == ':') { /* Have a colon */
*p++ = '\0'; /* Get service name or number */
} else { /* Otherwise use kermit */
p = "kermit";
}
debug(F110,"tcpsrv_open service requested",p,0);
if (isdigit(*p)) { /* Use socket number without lookup */
service = &servrec;
service->s_port = htons((unsigned short)atoi(p));
} else { /* Otherwise lookup the service name */
service = getservbyname(p, "tcp");
}
if (!service && !strcmp("kermit",p)) { /* Use Kermit service port */
service = &servrec;
service->s_port = htons(1649);
}
#ifdef RLOGCODE
if (service && !strcmp("login",p) && service->s_port != htons(513)) {
fprintf(stderr,
" Warning: login service on port %d instead of port 513\n",
ntohs(service->s_port));
fprintf(stderr, " Edit SERVICES file if RLOGIN fails to connect.\n");
debug(F101,"tcpsrv_open login on port","",ntohs(service->s_port));
}
#endif /* RLOGCODE */
if (!service) {
fprintf(stderr, "Cannot find port for service: %s\n", p);
debug(F111,"tcpsrv_open can't get service",p,errno);
errno = 0; /* rather than mislead */
return(-1);
}
/* If we currently have a listen active but port has changed then close */
debug(F101,"tcpsrv_open checking previous connection","",tcpsrfd);
debug(F101,"tcpsrv_open previous tcpsrv_port","",tcpsrv_port);
if (tcpsrfd != -1 &&
tcpsrv_port != ntohs((unsigned short)service->s_port)) {
debug(F100,"tcpsrv_open closing previous connection","",0);
#ifdef TCPIPLIB
socket_close(tcpsrfd);
#else
close(tcpsrfd);
#endif /* TCPIPLIB */
tcpsrfd = -1;
}
debug(F100,"tcpsrv_open tcpsrfd","",tcpsrfd);
if (tcpsrfd == -1) {
/* Set up socket structure and get host address */
bzero((char *)&saddr, sizeof(saddr));
debug(F100,"tcpsrv_open bzero ok","",0);
saddr.sin_family = AF_INET;
if (tcp_address) {
#ifdef INADDRX
inaddrx = inet_addr(tcp_address);
saddr.sin_addr.s_addr = *(unsigned long *)&inaddrx;
#else
saddr.sin_addr.s_addr = inet_addr(tcp_address);
#endif /* INADDRX */
} else
saddr.sin_addr.s_addr = INADDR_ANY;
/* Get a file descriptor for the connection. */
saddr.sin_port = service->s_port;
ipaddr[0] = '\0';
debug(F100,"tcpsrv_open calling socket","",0);
if ((tcpsrfd = socket(AF_INET, SOCK_STREAM, 0)) < 0) {
perror("TCP socket error");
debug(F101,"tcpsrv_open socket error","",errno);
return (-1);
}
errno = 0;
/* Specify the Port may be reused */
debug(F100,"tcpsrv_open calling setsockopt","",0);
x = setsockopt(tcpsrfd,
SOL_SOCKET,SO_REUSEADDR,(char *)&on,sizeof on);
debug(F101,"tcpsrv_open setsockopt","",x);
/* Now bind to the socket */
printf("\nBinding socket to port %d ...\n",
ntohs((unsigned short)service->s_port));
if (bind(tcpsrfd, (struct sockaddr *)&saddr, sizeof(saddr)) < 0) {
i = errno; /* Save error code */
#ifdef TCPIPLIB
socket_close(tcpsrfd);
#else /* TCPIPLIB */
close(tcpsrfd);
#endif /* TCPIPLIB */
tcpsrfd = -1;
tcpsrv_port = 0;
ttyfd = -1;
wasclosed = 1;
errno = i; /* and report this error */
debug(F101,"tcpsrv_open bind errno","",errno);
printf("?Unable to bind to socket (errno = %d)\n",errno);
return(-1);
}
debug(F100,"tcpsrv_open bind OK","",0);
printf("Listening ...\n");
if (listen(tcpsrfd, 15) < 0) {
i = errno; /* Save error code */
#ifdef TCPIPLIB
socket_close(tcpsrfd);
#else /* TCPIPLIB */
close(tcpsrfd);
#endif /* TCPIPLIB */
tcpsrfd = -1;
tcpsrv_port = 0;
ttyfd = -1;
wasclosed = 1;
errno = i; /* And report this error */
debug(F101,"tcpsrv_open listen errno","",errno);
return(-1);
}
debug(F100,"tcpsrv_open listen OK","",0);
tcpsrv_port = ntohs((unsigned short)service->s_port);
}
#ifdef CK_SSL
if (ck_ssleay_is_installed()) {
if (!ssl_do_init(1)) {
ssl_failed = 1;
if (bio_err!=NULL) {
BIO_printf(bio_err,"do_ssleay_init() failed\n");
ERR_print_errors(bio_err);
} else {
fflush(stderr);
fprintf(stderr,"do_ssleay_init() failed\n");
ERR_print_errors_fp(stderr);
}
/* we will continue to accept the connection */
/* without SSL or TLS support. */
TELOPT_DEF_S_ME_MODE(TELOPT_START_TLS) = TN_NG_RF;
TELOPT_DEF_S_U_MODE(TELOPT_START_TLS) = TN_NG_RF;
TELOPT_DEF_C_ME_MODE(TELOPT_START_TLS) = TN_NG_RF;
TELOPT_DEF_C_U_MODE(TELOPT_START_TLS) = TN_NG_RF;
}
}
#endif /* CK_SSL */
printf("\nWaiting to Accept a TCP/IP connection on port %d ...\n",
ntohs((unsigned short)service->s_port));
saddrlen = sizeof(saddr);
#ifdef BSDSELECT
tv.tv_sec = tv.tv_usec = 0L;
if (timo < 0)
tv.tv_usec = (long) -timo * 10000L;
else
tv.tv_sec = timo;
debug(F101,"tcpsrv_open BSDSELECT","",timo);
#else
debug(F101,"tcpsrv_open not BSDSELECT","",timo);
#endif /* BSDSELECT */
if (timo) {
while (!ready_to_accept) {
#ifdef BSDSELECT
FD_ZERO(&rfds);
FD_SET(tcpsrfd, &rfds);
ready_to_accept =
((select(FD_SETSIZE,
#ifdef HPUX
#ifdef HPUX1010
(fd_set *)
#else
(int *)
#endif /* HPUX1010 */
#else
#ifdef __DECC
(fd_set *)
#endif /* __DECC */
#endif /* HPUX */
&rfds, NULL, NULL, &tv) > 0) &&
FD_ISSET(tcpsrfd, &rfds));
#else /* BSDSELECT */
#ifdef IBMSELECT
#define ck_sleepint 250
ready_to_accept =
(select(&tcpsrfd, 1, 0, 0,
timo < 0 ? -timo :
(timo > 0 ? timo * 1000L : ck_sleepint)) == 1
);
#else
#ifdef BELLSELECT
FD_ZERO(rfds);
FD_SET(tcpsrfd, rfds);
ready_to_accept =
((select(128, rfds, NULL, NULL, timo < 0 ? -timo :
(timo > 0 ? timo * 1000L)) > 0) &&
FD_ISSET(tcpsrfd, rfds));
#else
/* Try this - what's the worst that can happen... */
FD_ZERO(&rfds);
FD_SET(tcpsrfd, &rfds);
ready_to_accept =
((select(FD_SETSIZE,
(fd_set *) &rfds, NULL, NULL, &tv) > 0) &&
FD_ISSET(tcpsrfd, &rfds));
#endif /* BELLSELECT */
#endif /* IBMSELECT */
#endif /* BSDSELECT */
}
}
if (ready_to_accept || timo == 0) {
if ((ttyfd = accept(tcpsrfd,
(struct sockaddr *)&saddr,&saddrlen)) < 0) {
i = errno; /* save error code */
#ifdef TCPIPLIB
socket_close(tcpsrfd);
#else /* TCPIPLIB */
close(tcpsrfd);
#endif /* TCPIPLIB */
ttyfd = -1;
wasclosed = 1;
tcpsrfd = -1;
tcpsrv_port = 0;
errno = i; /* and report this error */
debug(F101,"tcpsrv_open accept errno","",errno);
return(-1);
}
setsockopt(ttyfd, SOL_SOCKET, SO_OOBINLINE,(char *) &on, sizeof on);
#ifndef NOTCPOPTS
#ifndef datageneral
#ifdef SOL_SOCKET
#ifdef TCP_NODELAY
no_delay(tcp_nodelay);
debug(F101,"tcpsrv_open no_delay","",tcp_nodelay);
#endif /* TCP_NODELAY */
#ifdef SO_KEEPALIVE
keepalive(tcp_keepalive);
debug(F101,"tcpsrv_open keepalive","",tcp_keepalive);
#endif /* SO_KEEPALIVE */
#ifdef SO_LINGER
ck_linger(tcp_linger, tcp_linger_tmo);
debug(F101,"tcpsrv_open linger","",tcp_linger_tmo);
#endif /* SO_LINGER */
#ifdef SO_SNDBUF
sendbuf(tcp_sendbuf);
#endif /* SO_SNDBUF */
#ifdef SO_RCVBUF
recvbuf(tcp_recvbuf);
#endif /* SO_RCVBUF */
#endif /* SOL_SOCKET */
#endif /* datageneral */
#endif /* NOTCPOPTS */
ttnet = nett; /* TCP/IP (sockets) network */
tcp_incoming = 1; /* This is an incoming connection */
sstelnet = 1; /* Do server-side Telnet protocol */
/* See if the service is TELNET. */
if ((x = (unsigned short)service->s_port) ==
getservbyname("telnet", "tcp")->s_port) {
if (ttnproto != NP_TCPRAW) /* Yes and if raw port not requested */
ttnproto = NP_TELNET; /* Set protocol to TELNET. */
}
#ifdef CK_AUTHENTICATION
/* Before Initialization Telnet/Rlogin Negotiations Init Kerberos */
ck_auth_init((host && host->h_name && host->h_name[0]) ?
(char *)host->h_name : ipaddr,
ipaddr,
uidbuf,
ttyfd
);
#endif /* CK_AUTHENTICATION */
#ifdef CK_SSL
if (ck_ssleay_is_installed() && !ssl_failed) {
if (ck_ssl_incoming(ttyfd) < 0) {
#ifdef TCPIPLIB
socket_close(ttyfd);
socket_close(tcpsrfd);
#else /* TCPIPLIB */
close(ttyfd);
close(tcpsrfd);
#endif /* TCPIPLIB */
ttyfd = -1;
wasclosed = 1;
tcpsrfd = -1;
tcpsrv_port = 0;
return(-1);
}
}
#endif /* CK_SSL */
#ifndef datageneral
/* Find out our own IP address. */
l_slen = sizeof(l_addr);
bzero((char *)&l_addr, l_slen);
#ifndef EXCELAN
if (!getsockname(ttyfd, (struct sockaddr *)&l_addr, &l_slen)) {
char * s = (char *)inet_ntoa(l_addr.sin_addr);
ckstrncpy(myipaddr, s,20);
debug(F110,"getsockname",myipaddr,0);
}
#endif /* EXCELAN */
#endif /* datageneral */
if (tn_ini() < 0) /* Start TELNET negotiations. */
if (ttchk() < 0) { /* Disconnected? */
i = errno; /* save error code */
#ifdef TCPIPLIB
socket_close(tcpsrfd);
#else /* TCPIPLIB */
close(tcpsrfd);
#endif /* TCPIPLIB */
ttyfd = -1;
wasclosed = 1;
tcpsrfd = -1;
tcpsrv_port = 0;
errno = i; /* and report this error */
debug(F101,"tcpsrv_open accept errno","",errno);
return(-1);
}
debug(F101,"tcpsrv_open service","",x);
if (*lcl < 0) /* Set local mode. */
*lcl = 1;
#ifdef COMMENT
#ifdef TCPIPLIB
socket_close(tcpsrfd);
#else /* TCPIPLIB */
close(tcpsrfd);
#endif /* TCPIPLIB */
tcpsrfd = -1;
tcpsrv_port = 0;
#endif /* COMMENT */
ckstrncpy(ipaddr,(char *)inet_ntoa(saddr.sin_addr),20);
if (tcp_rdns) {
if (!quiet) {
printf(" Reverse DNS Lookup... ");
fflush(stdout);
}
if (host = gethostbyaddr((char *)&saddr.sin_addr,4,PF_INET)) {
debug(F100,"tcpsrv_open gethostbyaddr != NULL","",0);
if (!quiet) {
printf("(OK)\n");
fflush(stdout);
}
name[0] = '*';
ckstrncpy(&name[1],host->h_name,78);
strncat(name,":",80-strlen(name));
strncat(name,p,80-strlen(name));
if (!quiet
#ifndef NOICP
&& !doconx
#endif /* NOICP */
)
printf("%s connected on port %s\n",host->h_name,p);
} else {
if (!quiet) printf("Failed.\n");
}
} else if (!quiet) printf("(OK)\n");
if (!tcp_rdns || !host) {
ckstrncpy(name,ipaddr,79);
strncat(name,":",80-strlen(name));
#ifdef COMMENT
itoa(ntohs(saddr.sin_port), name + strlen(name), 10);
#else
sprintf(name + strlen(name),"%d",ntohs(saddr.sin_port));
#endif /* COMMENT */
if (!quiet
#ifndef NOICP
&& !doconx
#endif /* NOICP */
)
printf("%s connected on port %d\n",ipaddr,ntohs(saddr.sin_port));
}
if (!quiet) fflush(stdout);
return(0); /* Done. */
} else {
i = errno; /* save error code */
#ifdef TCPIPLIB
socket_close(tcpsrfd);
#else /* TCPIPLIB */
close(tcpsrfd);
#endif /* TCPIPLIB */
ttyfd = -1;
wasclosed = 1;
tcpsrfd = -1;
tcpsrv_port = 0;
errno = i; /* and report this error */
debug(F101,"tcpsrv_open accept errno","",errno);
return(-1);
}
}
#endif /* NOLISTEN */
#endif /* OS2 */
#endif /* TCPSOCKET */
#endif /* NOLOCAL */
unsigned long peerxipaddr = 0L;
char *
ckgetpeer() {
#ifdef TCPSOCKET
static char namebuf[256];
static struct hostent *host;
static struct sockaddr_in saddr;
#ifdef PTX
static size_t saddrlen;
#else
#ifdef AIX42
/* It's size_t in 4.2 but int in 4.1 and earlier. */
/* Note: the 4.2 man page lies; believe socket.h. */
static size_t saddrlen;
#else
#ifdef UNIXWARE
static size_t saddrlen;
#else /* UNIXWARE */
#ifdef DEC_TCPIP
static unsigned int saddrlen;
#else
static int saddrlen;
#endif /* VMS */
#endif /* UNIXWARE */
#endif /* AIX42 */
#endif /* PTX */
saddrlen = sizeof(saddr);
if (getpeername(ttyfd,(struct sockaddr *)&saddr,&saddrlen) < 0) {
debug(F111,"ckgetpeer failure",ckitoa(ttyfd),errno);
return(NULL);
}
host = gethostbyaddr((char *)&saddr.sin_addr,4,AF_INET);
if (host) {
ckstrncpy(namebuf,(char *)host->h_name,80);
} else {
ckstrncpy(namebuf,(char *)inet_ntoa(saddr.sin_addr),80);
}
peerxipaddr = ntohl(saddr.sin_addr.s_addr);
debug(F111,"ckgetpeer",namebuf,peerxipaddr);
return(namebuf);
#else
return(NULL);
#endif /* TCPSOCKET */
}
#ifndef NOLOCAL
char *
#ifdef CK_ANSIC
ckgetfqhostname(char * name)
#else
ckgetfqhostname(name) char * name;
#endif /* CK_ANSIC */
{
static char namebuf[256];
struct hostent *host=NULL;
struct sockaddr_in r_addr;
int i;
debug(F110,"ckgetfqhn()",name,0);
ckstrncpy(namebuf,name,256);
namebuf[255] = '\0';
i = ckindex(":",namebuf,0,0,0);
if (i)
namebuf[i-1] = '\0';
bzero((char *)&r_addr, sizeof(r_addr));
host = gethostbyname(namebuf);
if (host) {
debug(F100,"ckgetfqhn() gethostbyname != NULL","",0);
r_addr.sin_family = host->h_addrtype;
#ifdef HADDRLIST
#ifdef h_addr
/* This is for trying multiple IP addresses - see <netdb.h> */
if (!(host->h_addr_list))
goto exit_func;
bcopy(host->h_addr_list[0],
(caddr_t)&r_addr.sin_addr,
host->h_length
);
#else
bcopy(host->h_addr, (caddr_t)&r_addr.sin_addr, host->h_length);
#endif /* h_addr */
#else /* HADDRLIST */
bcopy(host->h_addr, (caddr_t)&r_addr.sin_addr, host->h_length);
#endif /* HADDRLIST */
#ifndef EXCELAN
debug(F111,"BCOPY","host->h_addr",host->h_addr);
#endif /* EXCELAN */
debug(F111,"BCOPY"," (caddr_t)&r_addr.sin_addr",
(caddr_t)&r_addr.sin_addr);
debug(F111,"BCOPY","host->h_length",host->h_length);
#ifdef NT
/* Windows 95/98 requires a 1 second wait between calls to Microsoft */
/* provided DNS functions. Otherwise, the TTL of the DNS response */
/* is ignored. */
if (isWin95())
sleep(1);
#endif /* NT */
host = gethostbyaddr((char *)&r_addr.sin_addr,4,PF_INET);
if (host) {
debug(F100,"ckgetfqhn() gethostbyaddr != NULL","",0);
ckstrncpy(namebuf, host->h_name, 256);
}
}
#ifdef HADDRLIST
#ifdef h_addr
exit_func:
#endif /* h_addr */
#endif /* HADDRLIST */
if (i > 0)
strncat(namebuf,&name[i-1],256-strlen(namebuf)-strlen(&name[i-1]));
debug(F110,"ckgetfqhn()",namebuf,0);
return(namebuf);
}
VOID
#ifdef CK_ANSIC
setnproto(char * p)
#else
setnproto(p) char * p;
#endif /* CK_ANSIC */
{
if (!isdigit(*p)) {
if (!strcmp("kermit",p))
ttnproto = NP_KERMIT;
else if (!strcmp("telnet",p))
ttnproto = NP_TELNET;
else if (!strcmp("http",p))
ttnproto = NP_TCPRAW;
#ifdef RLOGCODE
else if (!strcmp("login",p))
ttnproto = NP_RLOGIN;
#endif /* RLOGCODE */
#ifdef CK_SSL
/* Commonly used SSL ports (might not be in services file) */
else if (!strcmp("https",p))
ttnproto = NP_SSL;
else if (!strcmp("ssl-telnet",p))
ttnproto = NP_SSL;
else if (!strcmp("telnets",p))
ttnproto = NP_SSL;
#endif /* CK_SSL */
#ifdef CK_KERBEROS
#ifdef RLOGCODE
else if (!strcmp("klogin",p)) {
if (ck_krb5_is_installed())
ttnproto = NP_K5LOGIN;
else if (ck_krb4_is_installed())
ttnproto = NP_K4LOGIN;
else
ttnproto = NP_RLOGIN;
} else if (!strcmp("eklogin",p)) {
if (ck_krb5_is_installed())
ttnproto = NP_EK5LOGIN;
else if (ck_krb4_is_installed())
ttnproto = NP_EK4LOGIN;
else
ttnproto = NP_RLOGIN;
}
#endif /* RLOGCODE */
#endif /* CK_KERBEROS */
else
ttnproto = NP_NONE;
} else {
switch (atoi(p)) {
case 23: /* Telnet */
ttnproto = NP_TELNET;
break;
case 513:
ttnproto = NP_RLOGIN;
break;
case 1649:
ttnproto = NP_KERMIT;
break;
#ifdef CK_SSL
case 443:
ttnproto = NP_SSL;
ssl_only_flag = 1;
break;
case 151:
case 992:
ttnproto = NP_TELNET;
break;
#endif /* CK_SSL */
#ifdef CK_KERBEROS
case 543:
if (ck_krb5_is_installed())
ttnproto = NP_K5LOGIN;
else if (ck_krb4_is_installed())
ttnproto = NP_K4LOGIN;
else
ttnproto = NP_RLOGIN;
break;
case 2105:
if (ck_krb5_is_installed())
ttnproto = NP_EK5LOGIN;
else if (ck_krb4_is_installed())
ttnproto = NP_EK4LOGIN;
else
ttnproto = NP_RLOGIN;
break;
#endif /* CK_KERBEROS */
case 80: /* HTTP */
ttnproto = NP_TCPRAW;
break;
default:
ttnproto = NP_NONE;
break;
}
}
}
/* N E T O P E N -- Open a network connection */
/*
Calling conventions same as ttopen(), except third argument is network
type rather than modem type. Designed to be called from within ttopen.
*/
int
netopen(name, lcl, nett) char *name; int *lcl, nett; {
char *p;
int i, x, dns = 0;
#ifdef TCPSOCKET
int isconnect = 0;
#ifdef SO_OOBINLINE
int on = 1;
#endif /* SO_OOBINLINE */
struct servent *service=NULL, servrec;
struct hostent *host=NULL;
struct sockaddr_in r_addr;
struct sockaddr_in sin;
struct sockaddr_in l_addr;
GSOCKNAME_T l_slen;
#ifdef CK_DNS_SRV
struct sockaddr * dns_addrs = NULL;
int dns_naddrs = 0;
#endif /* CK_DNS_SRV */
#ifdef EXCELAN
struct sockaddr_in send_socket;
#endif /* EXCELAN */
#ifdef INADDRX
/* inet_addr() is of type struct in_addr */
#ifdef datageneral
extern struct in_addr inet_addr();
#else
#ifdef HPUX5WINTCP
extern struct in_addr inet_addr();
#endif /* HPUX5WINTCP */
#endif /* datageneral */
struct in_addr iax;
#else
#ifdef INADDR_NONE
struct in_addr iax;
#else /* INADDR_NONE */
long iax;
#endif /* INADDR_NONE */
#endif /* INADDRX */
#endif /* TCPSOCKET */
#ifdef COMMENT
/* This causes big trouble */
#ifndef INADDR_NONE
#define INADDR_NONE 0xffffffff
#endif /* INADDR_NONE */
#endif /* COMMENT */
#ifdef SUNX25 /* Code for SunLink X.25 support */
#define X29PID 1 /* X.29 Protocol ID */
_PROTOTYP(SIGTYP x25oobh, (int) );
CONN_DB x25host;
#ifndef X25_WR_FACILITY
FACILITY x25facil;
#else
FACILITY_DB x25facil;
#endif /* X25_WR_FACILITY */
static int needh = 1;
PID_T pid;
extern int linkid, lcn, x25ver;
#endif /* SUNX25 */
#ifdef ANYX25
extern int revcall, closgr, cudata;
extern char udata[];
#endif /* ANYX25 */
#ifdef IBMX25 /* Variables for IBM X25 */
extern int x25port; /* Logical port to use */
extern x25addr_t local_nua; /* Local X.25 address */
extern x25addr_t remote_nua; /* Remote X.25 address */
extern char x25name[]; /* X25 device name (sx25a0) */
extern char x25dev[]; /* X25 device file /dev/x25pkt */
ulong bind_flags = 0; /* Flags for binding the X25 stream */
ulong token = 0; /* Temporary return code */
#endif /* IBMX25 */
debug(F101,"netopen nett","",nett);
*ipaddr = '\0'; /* Initialize IP address string */
#ifdef SUNX25
if (nett == NET_SX25) { /* If network type is X.25 */
netclos(); /* Close any previous net connection */
ttnproto = NP_NONE; /* No protocol selected yet */
/* Set up host structure */
bzero((char *)&x25host,sizeof(x25host));
if ((x25host.hostlen = pkx121(name,x25host.host)) < 0) {
fprintf (stderr,"Invalid X.121 host address %s\n",name);
errno = 0;
return (-1);
}
x25host.datalen = X29PIDLEN;
x25host.data[0] = X29PID;
/* Set call user data if specified */
if (cudata) {
ckstrncpy((char *)x25host.data+X29PIDLEN,udata,(int)strlen(udata));
x25host.datalen += (int)strlen(udata);
}
/* Open SunLink X.25 socket */
if (!quiet && *name) {
printf(" Trying %s... ", name);
fflush(stdout);
}
if ((ttyfd = socket(AF_X25, SOCK_STREAM, 0)) < 0) {
debug(F101,"netopen socket error","",errno);
perror ("X.25 socket error");
return (-1);
}
/* Setting X.25 out-of-band data handler */
pid = getpid();
if (ioctl(ttyfd,SIOCSPGRP,&pid)) {
perror("X.25 set process group id error");
return(-1);
}
(VOID) signal(SIGURG,x25oobh);
/* Set reverse charge call and closed user group if requested */
bzero ((char *)&x25facil,sizeof(x25facil));
#ifndef X25_WR_FACILITY
/* New SunLink (7.0 or 8.0, not sure which)... */
x25facil.type = T_REVERSE_CHARGE; /* Reverse Charge */
x25facil.f_reverse_charge = revcall ? 1 : 0;
if (ioctl(ttyfd,X25_SET_FACILITY,&x25facil) < 0) {
perror ("Setting X.25 reverse charge");
return (-1);
}
if (closgr > -1) { /* Closed User Group (Outgoing) */
bzero ((char *)&x25facil,sizeof(x25facil));
x25facil.type = T_CUG;
x25facil.f_cug_req = CUG_REQ_ACS;
x25facil.f_cug_index = closgr;
if (ioctl(ttyfd,X25_SET_FACILITY,&x25facil) < 0) {
perror ("Setting X.25 closed user group");
return (-1);
}
}
#else
/* Old SunLink 6.0 (or 7.0?)... */
if (revcall) x25facil.reverse_charge = revcall;
if (closgr > -1) {
x25facil.cug_req = 1;
x25facil.cug_index = closgr;
}
if (ioctl(ttyfd,X25_WR_FACILITY,&x25facil) < 0) {
perror ("Setting X.25 facilities");
return (-1);
}
#endif /* X25_WR_FACILITY */
/* Need X.25 header with bits Q and M */
if (ioctl (ttyfd,X25_HEADER,&needh) < 0) {
perror ("Setting X.25 header");
return (-1);
}
/* Connects to remote host via SunLink X.25 */
if (connect(ttyfd,(struct sockaddr *)&x25host,sizeof(x25host)) < 0) {
i = errno;
debug(F101,"netopen connect errno","",i);
if (i) {
perror("netopen x25 connect");
x25diag();
}
(VOID) netclos();
ttyfd = -1;
wasclosed = 1;
ttnproto = NP_NONE;
errno = i;
return (-1);
}
/* Get X.25 link identification used for the connection */
if (ioctl(ttyfd,X25_GET_LINK,&linkid) < 0) {
perror ("Getting X.25 link id");
return (-1);
}
/* Get X.25 logical channel number used for the connection */
if (ioctl(ttyfd,X25_RD_LCGN,&lcn) < 0) {
perror ("Getting X.25 lcn");
return (-1);
}
/* Get SunLink X.25 version */
if (ioctl(ttyfd,X25_VERSION,&x25ver) < 0) {
perror ("Getting SunLink X.25 version");
return (-1);
}
ttnet = nett; /* Sunlink X.25 network */
ttnproto = NP_X3; /* PAD X.3, X.28, X.29 protocol */
if (*lcl < 0) *lcl = 1; /* Local mode */
return(0);
} else /* Note that SUNX25 support can coexist with TCP/IP support. */
#endif /* SUNX25 */
#ifdef IBMX25
/* riehm */
if (nett == NET_IX25) { /* IBM AIX X.25 */
netclos(); /* Close any previous net connection */
ttnproto = NP_NONE; /* No protocol selected yet */
/* find out who we are - this is not so easy on AIX */
/* riehm: need to write the code that finds this out
* automatically, or at least allow it to be configured
* somehow
*/
if (!local_nua[0] && !x25local_nua(local_nua)) {
return(-1);
}
/* Initialise the X25 API (once per process? once per connection?) */
debug(F110, "Opening ", x25dev, 0 );
/* set O_NDELAY to allow polling? */
if ((ttyfd = open(x25dev, O_RDWR)) < 0) {
perror ("X.25 device open error");
debug(F101,"netopen: device open error","",errno);
return (-1);
}
/* push the NPI onto the STREAM */
if (ioctl(ttyfd,I_PUSH,"npi") < 0 ) {
close(ttyfd);
ttyfd = -1;
wasclosed = 1;
perror( "kermit: netopen(): couldn't push npi on the X25 stream" );
debug(F101,"netopen: can't push npi on the X25 stream","",errno);
return (-1);
}
/* set up server mode - bind the x25 port and wait for
* incoming connections
*/
if (name[0] == '*') { /* Server */
/* set up a server - see the warning in x25bind() */
bind_flags |= TOKEN_REQUEST;
/* bind kermit to the local X25 address */
token = x25bind(ttyfd,
local_nua,
udata,
(int)strlen( udata ),
1,
x25port,
bind_flags
);
if (token < 0) {
debug(F100,"netopen: couldn't bind to local X25 address","",0);
netclos();
return(-1);
}
/* Currently not connected to a remote host */
remote_nua[0] = '\0';
/* store the fd so that incoming calls can have their own fd
* This is almost support for a true server (ie: a'la ftpd)
* but we're not quite there yet.
* used in netclos()
*/
x25serverfd = ttyfd;
/*
* wait for an incoming call
* this should happen in the "server" command and not in
* the "set host *" command.
*/
if ((ttyfd = x25getcall(ttyfd)) < 0) {
netclos();
return(-1);
}
} else { /* Client */
/* Bind kermit to the local X25 address */
token = x25bind(
ttyfd,
local_nua,
(char *)NULL,
0,
0,
x25port,
bind_flags
);
if (token < 0) {
debug(F100,"netopen: couldn't bind to local X25 address","",0);
netclos();
return(-1);
}
/* riehm: this should be done via the CONNECT command, not HOST! */
{
x25serverfd = 0;
/* call the remote host */
/* name == address of remote host as char* */
if (x25call(ttyfd, name, udata) < 0 ) {
debug(F100,
"netopen: couldn't connect to remote X25 address",
"", 0);
netclos();
return(-1);
}
strcpy(remote_nua, name);
}
}
ttnet = nett; /* AIX X.25 network */
if (*lcl < 0)
*lcl = 1; /* Local mode */
return(0);
} else /* Note that IBMX25 support can coexist with TCP/IP support. */
#endif /* IBMX25 */
/* Add support for other networks here. */
if (nett != NET_TCPB) return(-1); /* BSD socket support */
#ifdef TCPSOCKET
netclos(); /* Close any previous connection. */
ckstrncpy(namecopy, name, NAMECPYL); /* Copy the hostname. */
debug(F110,"netopen namecopy",namecopy,0);
#ifndef NOLISTEN
if (name[0] == '*')
return(tcpsrv_open(name, lcl, nett, 0));
#endif /* NOLISTEN */
p = namecopy; /* Was a service requested? */
while (*p != '\0' && *p != ':') p++; /* Look for colon */
if (*p == ':') { /* Have a colon */
debug(F110,"netopen name has colon",namecopy,0);
*p++ = '\0'; /* Get service name or number */
#ifdef CK_URL
/*
Here we have to check for various popular syntaxes:
host:port (our original syntax)
URL such as telnet:host or telnet://host/
Or even telnet://user:password@host:port/
Or a malformed URL such as generated by Netscape 4.0 like:
telnet:telnet or telnet::host.
*/
if (*p == ':') /* a second colon */
*p++ = '\0'; /* get rid of that one too */
while (*p == '/') *p++ = '\0'; /* and slashes */
x = strlen(p); /* Length of remainder */
if (p[x-1] == '/') /* If there is a trailing slash */
p[x-1] = '\0'; /* remove it. */
debug(F110,"netopen namecopy after stripping",namecopy,0);
debug(F110,"netopen p after stripping",p,0);
service = getservbyname(namecopy,"tcp");
if (service || !ckstrcmp("rlogin",namecopy,NAMECPYL,0)) {
char temphost[80], tempservice[80];
char * q = p, *r = p, *w = p;
/* Check for userid and possibly password */
while (*p != '\0' && *p != '@') p++; /* look for @ */
if (*p == '@') {
/* found username and perhaps password */
debug(F110,"netopen namecopy found @","",0);
*p = '\0'; p++;
while (*w != '\0' && *w != ':')
w++;
if (*w == ':')
*w++ = '\0';
/* r now points to username, save it and discard password */
debug(F110,"netopen namecopy username",r,0);
debug(F110,"netopen namecopy password",w,0);
ckstrncpy(uidbuf,r,UIDBUFLEN);
q = p; /* Host after user and pwd */
} else {
p = q; /* No username or password */
}
/* Now we must look for the optional port. */
debug(F110,"netopen x p",p,0);
debug(F110,"netopen x q",q,0);
while (*p != '\0' && *p != ':') /* Look for another colon */
p++;
if (*p == ':') {
debug(F110,"netopen found port",q,0);
*p++ = '\0'; /* Found a port name or number */
debug(F110,"netopen port",p,0);
ckstrncpy(tempservice,p,79);
ckstrncpy(temphost,q,79);
ckstrncpy(namecopy,temphost,NAMECPYL);
debug(F110,"netopen tempservice",tempservice,0);
debug(F110,"netopen temphost",temphost,0);
x = strlen(namecopy);
p = namecopy + x + 1;
ckstrncpy(p, tempservice, NAMECPYL - x);
} else {
/* We didn't find another port, but if q is a service */
/* then assume that namecopy is actually a host. */
if (getservbyname(q,"tcp")) {
p = q;
} else {
#ifdef RLOGCODE
/* rlogin is not a valid service */
if (!ckstrcmp("rlogin",namecopy,6,0)) {
ckstrncpy(namecopy,"login",NAMECPYL);
}
#endif /* RLOGCODE */
/* Reconstruct namecopy */
ckstrncpy(tempservice,namecopy,79);
ckstrncpy(temphost,q,79);
ckstrncpy(namecopy,temphost,NAMECPYL);
debug(F110,"netopen tempservice",tempservice,0);
debug(F110,"netopen temphost",temphost,0);
x = strlen(namecopy);
p = namecopy + x + 1;
ckstrncpy(p, tempservice, NAMECPYL - x - 1);
}
}
debug(F110,"netopen URL result",namecopy,0);
}
#endif /* CK_URL */
} else { /* Otherwise use telnet */
p = "telnet";
}
/*
By the time we get here, namecopy[] should hold the null-terminated
hostname or address, and p should point to the service name or number.
*/
debug(F110,"netopen host",namecopy,0);
debug(F110,"netopen service requested",p,0);
if (isdigit(*p)) { /* Use socket number without lookup */
service = &servrec;
service->s_port = htons((unsigned short)atoi(p));
} else { /* Otherwise lookup the service name */
#ifdef CK_DNS_SRV
if (tcp_dns_srv && !quiet) {
printf(" DNS SRV Lookup... ");
fflush(stdout);
}
if (tcp_dns_srv &&
locate_srv_dns(namecopy,p,"tcp",&dns_addrs,&dns_naddrs)) {
/* Use the first one. Eventually we should cycle through all */
/* the returned IP addresses and port numbers. */
struct sockaddr_in *sin = NULL;
#ifdef BETATEST
int i;
printf("\r\n");
for ( i=0;i<dns_naddrs;i++ ) {
sin = (struct sockaddr_in *) &dns_addrs[i];
printf("dns_addrs[%d] = %s %d\r\n", i,
(char *)inet_ntoa(sin->sin_addr),
ntohs(sin->sin_port));
}
#endif /* BETATEST */
/* Since the DNS SRV record will replace the service name with */
/* a numeric port number we need to set the protocol before we */
/* replace the service name */
if (ttnproto == NP_DEFAULT)
setnproto(p);
sin = (struct sockaddr_in *) &dns_addrs[0];
ckstrncpy(namecopy,(char *)inet_ntoa(sin->sin_addr),NAMECPYL);
p = namecopy+strlen(namecopy)+1;
sprintf(p,"%d",ntohs(sin->sin_port));
service = &servrec;
service->s_port = sin->sin_port;
free(dns_addrs);
dns_addrs = NULL;
dns_naddrs = 0;
} else
#endif /* CK_DNS_SRV */
service = getservbyname(p, "tcp");
}
if (!service) {
if (!strcmp("kermit",p)) { /* Use Kermit service port */
service = &servrec;
service->s_port = htons(1649);
} else if (!strcmp("telnet",p)) { /* Use Telnet port */
service = &servrec;
service->s_port = htons(23);
} else if (!strcmp("http",p)) {
service = &servrec;
service->s_port = htons(80);
}
#ifdef RLOGCODE
else if (!strcmp("login",p)) {
service = &servrec;
service->s_port = htons(513);
}
#endif /* RLOGCODE */
#ifdef CK_SSL
/* Commonly used SSL ports (might not be in services file) */
else if (!strcmp("https",p)) {
service = &servrec;
service->s_port = htons(443);
} else if (!strcmp("ssl-telnet",p)) {
service = &servrec;
service->s_port = htons(151);
} else if (!strcmp("telnets",p)) {
service = &servrec;
service->s_port = htons(992);
}
#endif /* CK_SSL */
#ifdef CK_KERBEROS
#ifdef RLOGCODE
else if (!strcmp("klogin",p)) {
service = &servrec;
service->s_port = htons(543);
} else if (!strcmp("eklogin",p)) {
service = &servrec;
service->s_port = htons(2105);
}
#endif /* RLOGCODE */
#endif /* CK_KERBEROS */
if (!service) {
fprintf(stderr, "Can't find port for service %s\n", p);
#ifdef TGVORWIN
debug(F101,"netopen can't get service","",socket_errno);
#else
debug(F101,"netopen can't get service","",errno);
#endif /* TGVORWIN */
errno = 0; /* (rather than mislead) */
return(-1);
}
}
ckstrncpy(svcbuf,p,79);
debug(F110,"netopen service ok",svcbuf,0);
/* Use the service port to set the default protocol type if necessary */
if (ttnproto == NP_DEFAULT)
setnproto(p);
#ifdef RLOGCODE
if (service && !strcmp("login",p) && service->s_port != htons(513)) {
fprintf(stderr,
" Warning: login service on port %d instead of port 513\n",
ntohs(service->s_port)
);
fprintf(stderr, " Edit SERVICES file if RLOGIN fails to connect.\n");
debug(F101,"tcpsrv_open login on port","",ntohs(service->s_port));
}
#endif /* RLOGCODE */
/* Set up socket structure and get host address */
bzero((char *)&r_addr, sizeof(r_addr));
debug(F100,"netopen bzero ok","",0);
/*
NOTE: Originally the inet_addr() check was #ifdef NT, but is enabled for
all as of 20 Sep 97, to allow people to "set host" to a specific numeric IP
address without going through the multihomed host sequence and winding up
at a different place than the one requested.
*/
#ifdef INADDR_NONE
debug(F101,"netopen INADDR_NONE defined","",INADDR_NONE);
#else /* INADDR_NONE */
debug(F100,"netopen INADDR_NONE not defined","",0);
#endif /* INADDR_NONE */
#ifdef INADDRX
debug(F100,"netopen INADDRX defined","",0);
#else /* INADDRX */
debug(F100,"netopen INADDRX not defined","",0);
#endif /* INADDRX */
#ifndef NOMHHOST
#ifdef INADDRX
iax = inet_addr(namecopy);
debug(F111,"netopen inet_addr",namecopy,iax.s_addr);
#else /* INADDRX */
#ifdef INADDR_NONE
iax.s_addr = inet_addr(namecopy);
debug(F111,"netopen inet_addr",namecopy,iax.s_addr);
#else /* INADDR_NONE */
#ifndef datageneral
iax = (unsigned int) inet_addr(namecopy);
#else
iax = -1L;
#endif /* datageneral */
debug(F111,"netopen inet_addr",namecopy,iax);
#endif /* INADDR_NONE */
#endif /* INADDRX */
dns = 0;
if (
#ifdef INADDR_NONE
iax.s_addr == INADDR_NONE || iax.s_addr == (unsigned long) -1L
#else /* INADDR_NONE */
iax < 0
#endif /* INADDR_NONE */
) {
if (!quiet) {
printf(" DNS Lookup... ");
fflush(stdout);
}
if ((host = gethostbyname(namecopy)) != NULL) {
debug(F100,"netopen gethostbyname != NULL","",0);
dns = 1; /* Remember we performed dns lookup */
#ifdef OS2
ckstrncpy(name,host->h_name,80);
strncat(name,":",80-strlen(name));
strncat(name,p,80-strlen(name));
#endif /* OS2 */
r_addr.sin_family = host->h_addrtype;
#ifdef HADDRLIST
#ifdef h_addr
/* This is for trying multiple IP addresses - see <netdb.h> */
if (!(host->h_addr_list))
return(-1);
bcopy(host->h_addr_list[0],
(caddr_t)&r_addr.sin_addr,
host->h_length
);
#else
bcopy(host->h_addr, (caddr_t)&r_addr.sin_addr, host->h_length);
#endif /* h_addr */
#else /* HADDRLIST */
bcopy(host->h_addr, (caddr_t)&r_addr.sin_addr, host->h_length);
#endif /* HADDRLIST */
#ifndef EXCELAN
debug(F111,"BCOPY","host->h_addr",host->h_addr);
#endif /* EXCELAN */
debug(F111,"BCOPY"," (caddr_t)&r_addr.sin_addr",
(caddr_t)&r_addr.sin_addr);
debug(F111,"BCOPY","host->h_length",host->h_length);
}
}
#endif /* NOMHHOST */
if (!dns) {
#ifdef INADDRX
/* inet_addr() is of type struct in_addr */
struct in_addr ina;
unsigned long uu;
debug(F100,"netopen gethostbyname == NULL: INADDRX","",0);
ina = inet_addr(namecopy);
uu = *(unsigned int *)&ina;
#else /* Not INADDRX */
/* inet_addr() is unsigned long */
unsigned long uu;
debug(F100,"netopen gethostbyname == NULL: Not INADDRX","",0);
uu = inet_addr(namecopy);
#endif /* INADDRX */
debug(F101,"netopen uu","",uu);
if (
#ifdef INADDR_NONE
!(uu == INADDR_NONE || uu == (unsigned int) -1L)
#else /* INADDR_NONE */
uu != ((unsigned long)-1)
#endif /* INADDR_NONE */
) {
r_addr.sin_addr.s_addr = uu;
r_addr.sin_family = AF_INET;
} else {
fprintf(stderr, "Can't get address for %s\n", namecopy);
#ifdef TGVORWIN
debug(F101,"netopen can't get address","",socket_errno);
#else
debug(F101,"netopen can't get address","",errno);
#endif /* TGVORWIN */
errno = 0; /* Rather than mislead */
return(-1);
}
}
/* Get a file descriptor for the connection. */
r_addr.sin_port = service->s_port;
ckstrncpy(ipaddr,(char *)inet_ntoa(r_addr.sin_addr),20);
debug(F110,"netopen trying",ipaddr,0);
if (!quiet && *ipaddr) {
printf(" Trying %s... ", ipaddr);
fflush(stdout);
}
/* Loop to try additional IP addresses, if any. */
do {
#ifdef EXCELAN
send_socket.sin_family = AF_INET;
send_socket.sin_addr.s_addr = 0;
send_socket.sin_port = 0;
if ((ttyfd = socket(SOCK_STREAM, (struct sockproto *)0,
&send_socket, SO_REUSEADDR)) < 0)
#else /* EXCELAN */
#ifdef NT
#ifdef COMMENT_X
/*
Must make sure that all sockets are opened in
Non-overlapped mode since we use the standard
C RTL functions to read and write data.
But it doesn't seem to work as planned.
*/
{
int optionValue = SO_SYNCHRONOUS_NONALERT;
if (setsockopt(INVALID_SOCKET, SOL_SOCKET, SO_OPENTYPE,
(char *) &optionValue, sizeof(optionValue))
!= NO_ERROR)
return(-1);
}
#endif /* COMMENT */
#endif /* NT */
if ((ttyfd = socket(AF_INET, SOCK_STREAM, 0)) < 0)
#endif /* EXCELAN */
{
#ifdef EXCELAN
experror("TCP socket error");
#else
#ifdef TGVORWIN
#ifdef OLD_TWG
errno = socket_errno;
#endif /* OLD_TWG */
socket_perror("TCP socket error");
debug(F101,"netopen socket error","",socket_errno);
#else
perror("TCP socket error");
debug(F101,"netopen socket error","",errno);
#endif /* TGVORWIN */
#endif /* EXCELAN */
return (-1);
}
errno = 0;
#ifdef RLOGCODE
/* Not part of the RLOGIN RFC, but the BSD implementation */
/* requires that the client port be a priviliged port (<1024) */
/* on a Unix system this would require SuperUser permissions */
/* thereby saying that the root of the Unix system has given */
/* permission for this connection to be created */
if (service->s_port == htons((unsigned short)RLOGIN_PORT)) {
static unsigned short lport = 1024; /* max reserved port */
int s_errno;
lport--; /* Make sure we do not reuse a port */
if (lport == 512)
lport = 1023;
sin.sin_family = AF_INET;
if (tcp_address) {
#ifdef INADDRX
inaddrx = inet_addr(tcp_address);
sin.sin_addr.s_addr = *(unsigned long *)&inaddrx;
#else
sin.sin_addr.s_addr = inet_addr(tcp_address);
#endif /* INADDRX */
} else
sin.sin_addr.s_addr = INADDR_ANY;
while (1) {
sin.sin_port = htons(lport);
if (bind(ttyfd, (struct sockaddr *)&sin, sizeof(sin)) >= 0)
break;
#ifdef OS2
s_errno = socket_errno;
if (s_errno && /* OS2 bind fails with 0, if already in use */
#ifdef NT
s_errno != WSAEADDRINUSE
#else
s_errno != SOCEADDRINUSE &&
s_errno != (SOCEADDRINUSE - SOCBASEERR)
#endif /* NT */
)
#else /* OS2 */
#ifdef TGVORWIN
if (socket_errno != EADDRINUSE)
#else
if (errno != EADDRINUSE)
#endif /* TGVORWIN */
#endif /* OS2 */
{
printf("\nBind failed with errno %d for port %d.\n",
#ifdef OS2
s_errno
#else
#ifdef TGVORWIN
socket_errno
#else
errno
#endif /* TGVORWIN */
#endif /* OS2 */
, lport
);
#ifdef OS2
debug(F101,"rlogin bind failed","",s_errno);
#else
#ifdef TGVORWIN
debug(F101,"rlogin bind failed","",socket_errno);
#ifdef OLD_TWG
errno = socket_errno;
#endif /* OLD_TWG */
socket_perror("rlogin bind");
#else
debug(F101,"rlogin bind failed","",errno);
perror("rlogin bind");
#endif /* TGVORWIN */
#endif /* OS2 */
netclos();
return -1;
}
lport--;
if (lport == 512 /* lowest reserved port to use */ ) {
printf("\nNo reserved ports available.\n");
netclos();
return -1;
}
}
debug(F101,"rlogin lport","",lport);
ttnproto = NP_RLOGIN;
} else
#endif /* RLOGCODE */
/* If a specific TCP address on the local host is desired we */
/* must bind it to the socket. */
#ifndef datageneral
if (tcp_address) {
int s_errno;
debug(F110,"netopen binding socket to",tcp_address,0);
bzero((char *)&sin,sizeof(sin));
sin.sin_family = AF_INET;
#ifdef INADDRX
inaddrx = inet_addr(tcp_address);
sin.sin_addr.s_addr = *(unsigned long *)&inaddrx;
#else
sin.sin_addr.s_addr = inet_addr(tcp_address);
#endif /* INADDRX */
sin.sin_port = 0;
if (bind(ttyfd, (struct sockaddr *)&sin, sizeof(sin)) < 0) {
s_errno = socket_errno; /* Save error code */
#ifdef TCPIPLIB
socket_close(ttyfd);
#else /* TCPIPLIB */
close(ttyfd);
#endif /* TCPIPLIB */
ttyfd = -1;
wasclosed = 1;
errno = s_errno; /* and report this error */
debug(F101,"netopen bind errno","",errno);
return(-1);
}
}
#endif /* datageneral */
/* Now connect to the socket on the other end. */
#ifdef EXCELAN
if (connect(ttyfd, &r_addr) < 0)
#else
#ifdef NT
WSASafeToCancel = 1;
#endif /* NT */
if (connect(ttyfd, (struct sockaddr *)&r_addr, sizeof(r_addr)) < 0)
#endif /* EXCELAN */
{
#ifdef NT
WSASafeToCancel = 0;
#endif /* NT */
#ifdef OS2
i = socket_errno;
#else /* OS2 */
#ifdef TGVORWIN
i = socket_errno;
#else
i = errno; /* Save error code */
#endif /* TGVORWIN */
#endif /* OS2 */
#ifdef RLOGCODE
if (
#ifdef OS2
i && /* OS2 bind fails with 0, if already in use */
#ifdef NT
i == WSAEADDRINUSE
#else
(i == SOCEADDRINUSE ||
i == (SOCEADDRINUSE - SOCBASEERR))
#endif /* NT */
#else /* OS2 */
#ifdef TGVORWIN
socket_errno == EADDRINUSE
#else
errno == EADDRINUSE
#endif /* TGVORWIN */
#endif /* OS2 */
&& ttnproto == NP_RLOGIN) {
#ifdef TCPIPLIB
socket_close(ttyfd); /* Close it. */
#else
close(ttyfd);
#endif /* TCPIPLIB */
continue; /* Try a different lport */
}
#endif /* RLOGCODE */
#ifdef HADDRLIST
#ifdef h_addr
if (host && host->h_addr_list && host->h_addr_list[1]) {
perror("");
host->h_addr_list++;
bcopy(host->h_addr_list[0],
(caddr_t)&r_addr.sin_addr,
host->h_length);
ckstrncpy(ipaddr,(char *)inet_ntoa(r_addr.sin_addr),20);
debug(F110,"netopen h_addr_list",ipaddr,0);
if (!quiet && *ipaddr) {
printf(" Trying %s... ", ipaddr);
fflush(stdout);
}
#ifdef TCPIPLIB
socket_close(ttyfd); /* Close it. */
#else
close(ttyfd);
#endif /* TCPIPLIB */
continue;
}
#endif /* h_addr */
#endif /* HADDRLIST */
netclos();
ttyfd = -1;
wasclosed = 1;
ttnproto = NP_NONE;
errno = i; /* And report this error */
#ifdef EXCELAN
if (errno) experror("netopen connect");
#else
#ifdef TGVORWIN
debug(F101,"netopen connect error","",socket_errno);
/* if (errno) socket_perror("netopen connect"); */
#ifdef OLD_TWG
errno = socket_errno;
#endif /* OLD_TWG */
socket_perror("netopen connect");
#else /* TGVORWIN */
debug(F101,"netopen connect errno","",errno);
#ifdef VMS
perror("\r\nFailed");
#else
perror("Failed");
#endif /* VMS */
#ifdef DEC_TCPIP
perror("netopen connect");
#endif /* DEC_TCPIP */
#ifdef CMU_TCPIP
perror("netopen connect");
#endif /* CMU_TCPIP */
#endif /* TGVORWIN */
#endif /* EXCELAN */
return(-1);
}
#ifdef NT
WSASafeToCancel = 0;
#endif /* NT */
isconnect = 1;
} while (!isconnect);
/* There are certain magic port numbers that when used require */
/* the use of specific protocols. Check this now before we */
/* set the SO_OOBINLINE state or we might get it wrong. */
x = ntohs((unsigned short)service->s_port);
svcnum = x;
/* See if the service is TELNET. */
if (x == TELNET_PORT) {
if (ttnproto != NP_TCPRAW) /* Yes, so if raw port not requested */
ttnproto = NP_TELNET; /* select TELNET protocol. */
}
#ifdef RLOGCODE
else if (x == RLOGIN_PORT) {
ttnproto = NP_RLOGIN;
}
#ifdef CK_KERBEROS
/* There is no good way to do this. If the user didn't tell */
/* which one to use up front. We may guess wrong if the user */
/* has both Kerberos versions installed and valid TGTs for each */
else if (x == KLOGIN_PORT &&
ttnproto != NP_K4LOGIN &&
ttnproto != NP_K5LOGIN) {
if (ck_krb5_is_installed() &&
ck_krb5_is_tgt_valid())
ttnproto = NP_K5LOGIN;
else if (ck_krb4_is_installed() && ck_krb4_is_tgt_valid())
ttnproto = NP_K4LOGIN;
else
ttnproto = NP_K4LOGIN;
} else if (x == EKLOGIN_PORT &&
ttnproto != NP_EK4LOGIN &&
ttnproto != NP_EK5LOGIN) {
if (ck_krb5_is_installed() && ck_krb5_is_tgt_valid())
ttnproto = NP_EK5LOGIN;
else if (ck_krb4_is_installed() && ck_krb4_is_tgt_valid())
ttnproto = NP_EK4LOGIN;
else
ttnproto = NP_EK4LOGIN;
}
#endif /* CK_KERBEROS */
#endif /* RLOGCODE */
#ifdef IKS_OPTION
else if (x == KERMIT_PORT) { /* IKS uses Telnet protocol */
if (ttnproto == NP_NONE)
ttnproto = NP_KERMIT;
}
#endif /* IKS_OPTION */
#ifdef SO_OOBINLINE
/*
The symbol SO_OOBINLINE is not known to Ultrix 2.0.
It means "leave out of band data inline". The normal value is 0x0100,
but don't try this on systems where the symbol is undefined.
*/
/*
Note from Jeff Altman: 12/13/95
In implementing rlogin protocol I have come to the conclusion that it is
a really bad idea to read out-of-band data inline.
At least Windows and OS/2 does not handle this well.
And if you need to know that data is out-of-band, then it becomes
absolutely pointless.
Therefore, at least on OS2 and Windows (NT) I have changed the value of
on to 0, so that out-of-band data stays out-of-band.
12/18/95
Actually, OOB data should be read inline when possible. Especially with
protocols that don't care about the Urgent flag. This is true with Telnet.
With Rlogin, you need to be able to catch OOB data. However, the best
way to do this is to set a signal handler on SIGURG. This isn't possible
on OS/2 and Windows. But it is in UNIX. We will also need OOB data for
FTP so better create a general mechanism.
The reason for making OOB data be inline is that the standard ttinc/ttoc
calls can be used for reading that data on UNIX systems. If we didn't
have the OOBINLINE option set then we would have to use recv(,MSG_OOB)
to read it.
*/
#ifdef RLOGCODE
#ifdef TCPIPLIB
if (ttnproto == NP_RLOGIN ||
#ifdef CK_KERBEROS
ttnproto == NP_K4LOGIN || ttnproto == NP_EK4LOGIN ||
ttnproto == NP_K5LOGIN || ttnproto == NP_EK5LOGIN ||
#endif /* CK_KERBEROS */
ttnproto == NP_FTP)
on = 0;
#else /* TCPIPLIB */
if (ttnproto == NP_RLOGIN
#ifdef CK_KERBEROS
|| ttnproto == NP_K4LOGIN || ttnproto == NP_EK4LOGIN
|| ttnproto == NP_K5LOGIN || ttnproto == NP_EK5LOGIN
#endif /* CK_KERBEROS */
) {
debug(F100,"Installing rlogoobh on SIGURG","",0);
signal(SIGURG, rlogoobh);
on = 0;
} else
#ifdef FTPCODE
if (ttnproto == NP_FTP) {
debug(F100,"Installing ftpoobh on SIGURG","",0);
signal(SIGURG, ftpoobh);
on = 0;
} else
#endif /* FTPCODE */
{
debug(F100,"Ignoring SIGURG","",0);
signal(SIGURG, SIG_DFL);
}
#endif /* TCPIPLIB */
#endif /* RLOGCODE */
#ifdef datageneral
setsockopt(ttyfd, SOL_SOCKET, SO_OOBINLINE,(char *) &on, sizeof on);
#else
#ifdef BSD43
setsockopt(ttyfd, SOL_SOCKET, SO_OOBINLINE,(char *) &on, sizeof on);
#else
#ifdef OSF1
setsockopt(ttyfd, SOL_SOCKET, SO_OOBINLINE,(char *) &on, sizeof on);
#else
#ifdef POSIX
setsockopt(ttyfd, SOL_SOCKET, SO_OOBINLINE,(char *) &on, sizeof on);
#else
#ifdef MOTSV88R4
setsockopt(ttyfd, SOL_SOCKET, SO_OOBINLINE,(char *) &on, sizeof on);
#else
#ifdef SOLARIS
/*
Maybe this applies to all SVR4 versions, but the other (else) way has been
compiling and working fine on all the others, so best not to change it.
*/
setsockopt(ttyfd, SOL_SOCKET, SO_OOBINLINE,(char *) &on, sizeof on);
#else
#ifdef OSK
setsockopt(ttyfd, SOL_SOCKET, SO_OOBINLINE,(char *) &on, sizeof on);
#else
#ifdef OS2
{
int rc;
rc = setsockopt(ttyfd,
SOL_SOCKET,
SO_OOBINLINE,
(char *) &on,
sizeof on
);
debug(F111,"setsockopt SO_OOBINLINE",on ? "on" : "off" ,rc);
}
#else
#ifdef VMS /* or, at least, VMS with gcc */
setsockopt(ttyfd, SOL_SOCKET, SO_OOBINLINE,(char *) &on, sizeof on);
#else
setsockopt(ttyfd, SOL_SOCKET, SO_OOBINLINE, &on, sizeof on);
#endif /* VMS */
#endif /* OS2 */
#endif /* OSK */
#endif /* SOLARIS */
#endif /* MOTSV88R4 */
#endif /* POSIX */
#endif /* BSD43 */
#endif /* OSF1 */
#endif /* datageneral */
#endif /* SO_OOBINLINE */
#ifndef NOTCPOPTS
#ifndef datageneral
#ifdef SOL_SOCKET
#ifdef TCP_NODELAY
no_delay(tcp_nodelay);
#endif /* TCP_NODELAY */
#ifdef SO_KEEPALIVE
keepalive(tcp_keepalive);
#endif /* SO_KEEPALIVE */
#ifdef SO_LINGER
ck_linger(tcp_linger, tcp_linger_tmo);
#endif /* SO_LINGER */
#ifdef SO_SNDBUF
sendbuf(tcp_sendbuf);
#endif /* SO_SNDBUF */
#ifdef SO_RCVBUF
recvbuf(tcp_recvbuf);
#endif /* SO_RCVBUF */
#endif /* SOL_SOCKET */
#endif /* datageneral */
#endif /* NOTCPOPTS */
#ifdef NON_BLOCK_IO
on = 1;
x = socket_ioctl(ttyfd,FIONBIO,&on);
debug(F101,"netopen FIONBIO","",x);
#endif /* NON_BLOCK_IO */
#ifdef NT_TCP_OVERLAPPED
OverlappedWriteInit();
OverlappedReadInit();
#endif /* NT_TCP_OVERLAPPED */
ttnet = nett; /* TCP/IP (sockets) network */
#ifndef datageneral
/* Find out our own IP address. */
/* We need the l_addr structure for [E]KLOGIN. */
l_slen = sizeof(l_addr);
bzero((char *)&l_addr, l_slen);
#ifndef EXCELAN
if (!getsockname(ttyfd, (struct sockaddr *)&l_addr, &l_slen)) {
char * s = (char *)inet_ntoa(l_addr.sin_addr);
ckstrncpy(myipaddr, s, 20);
debug(F110,"getsockname",myipaddr,0);
}
#endif /* EXCELAN */
#endif /* datageneral */
/*
This is really only needed for Kerberos IV but is useful information in any
case. If we connect to a name that is really a pool, we need to get the
name of the machine we are actually connecting to for K4 to authenticate
properly. This way we also update the names properly.
Note: This does not work on Windows 95 or Windows NT 3.5x. This is because
of the Microsoft implementation of gethostbyaddr() in both Winsock 1.1
and Winsock 2.0 on those platforms. Their algorithm is:
1. Check the HOSTENT cache.
2. Check the HOSTS file at %SystemRoot%\System32\DRIVERS\ETC.
3. Do a DNS query if the DNS server is configured for name resolution.
4. Do an additional NetBIOS remote adapter status to an IP address for its
NetBIOS name table. This step is specific only to the Windows NT version
3.51 implementation.
The problem is the use of the HOSTENT cache. It means that gethostbyaddr()
can not be used to resolve the real name of machine if it was originally
accessed by an alias used to represent a cluster.
*/
if (tcp_rdns && dns || tcp_rdns == SET_ON
#ifdef CK_KERBEROS
|| tcp_rdns == SET_AUTO &&
(ck_krb5_is_installed() || ck_krb4_is_installed())
#endif /* CK_KERBEROS */
) {
#ifdef NT
if (isWin95())
sleep(1);
#endif /* NT */
if (!quiet) {
printf(" Reverse DNS Lookup... ");
fflush(stdout);
}
if (host = gethostbyaddr((char *)&r_addr.sin_addr,4,PF_INET)) {
char * s;
debug(F100,"netopen gethostbyname != NULL","",0);
if (!quiet) {
printf("(OK)\n");
fflush(stdout);
}
s = host->h_name;
if (!s) { /* This can happen... */
debug(F100,"netopen host->h_name is NULL","",0);
s = "";
}
/* Something is wrong with inet_ntoa() on HPUX 10.xx */
/* The compiler says "Integral value implicitly converted to */
/* pointer in assignment." The prototype is right there */
/* in <arpa/inet.h> so what's the problem? */
/* Ditto in HP-UX 5.x, but not 8.x or 9.x... */
if (!*s) { /* No name so substitute the address */
debug(F100,"netopen host->h_name is empty","",0);
s = inet_ntoa(r_addr.sin_addr); /* Convert address to string */
if (!s) /* Trust No 1 */
s = "";
if (*s) { /* If it worked, use this string */
ckstrncpy(ipaddr,s,20);
}
s = ipaddr; /* Otherwise stick with the IP */
if (!*s) /* or failing that */
s = namecopy; /* the name we were called with. */
}
if (*s) { /* Copying into our argument? */
ckstrncpy(name,s,80); /* Bad Bad Bad */
strncat(name,":",80-strlen(name));
strncat(name,p,80-strlen(name));
}
if (!quiet && *s
#ifndef NOICP
&& !doconx
#endif /* NOICP */
) {
printf(" %s connected on port %s\n",s,p);
#ifdef BETATEST
/* This is simply for testing the DNS entries */
if (host->h_aliases) {
char ** a = host->h_aliases;
while (*a) {
printf(" alias => %s\n",*a);
a++;
}
}
#endif /* BETATEST */
}
} else {
if (!quiet) printf("Failed.\n");
}
} else if (!quiet) printf("(OK)\n");
if (!quiet) fflush(stdout);
/* This should already have been done but just in case */
ckstrncpy(ipaddr,(char *)inet_ntoa(r_addr.sin_addr),20);
#ifdef CK_AUTHENTICATION
/* Before Initialization Telnet/Rlogin Negotiations Init Kerberos */
ck_auth_init((host && host->h_name && host->h_name[0]) ?
(char *)host->h_name : ipaddr,
ipaddr,
uidbuf,
ttyfd
);
#endif /* CK_AUTHENTICATION */
#ifdef CK_SSL
if (ck_ssleay_is_installed()) {
if ( ck_ssl_outgoing(ttyfd) < 0 ) {
netclos();
return(-1);
}
}
#endif /* CK_SSL */
#ifdef RLOGCODE
if (ttnproto == NP_RLOGIN
#ifdef CK_KERBEROS
|| ttnproto == NP_K4LOGIN || ttnproto == NP_EK4LOGIN
|| ttnproto == NP_K5LOGIN || ttnproto == NP_EK5LOGIN
#endif /* CK_KERBEROS */
) { /* Similar deal for rlogin */
if (rlog_ini(((host && host->h_name && host->h_name[0]) ?
(CHAR *)host->h_name : (CHAR *)ipaddr),
service->s_port,
&l_addr,&r_addr
) < 0) {
debug(F100,"rlogin initialization failed","",0);
netclos();
return(-1);
}
} else
#endif /* RLOGCODE */
if (tn_ini() < 0) /* Start Telnet negotiations. */
#ifdef OS2
if (ttchk() < 0) /* Failed - check connection. */
#endif /* OS2 */
return(-1); /* Gone, so open failed. */
debug(F101,"netopen service","",svcnum);
debug(F110,"netopen name",name,0);
if (*lcl < 0) /* Local mode. */
*lcl = 1;
#endif /* TCPSOCKET */
return(0); /* Done. */
}
/* N E T C L O S -- Close current network connection. */
#ifndef NOICP
_PROTOTYP(VOID slrestor,(VOID));
#ifdef CK_SSL
int tls_norestore = 0;
#endif /* CK_SSL */
#endif /* NOICP */
int
netclos() {
static int close_in_progress = 0;
int x = 0;
debug(F101,"netclos","",ttyfd);
#ifdef NETLEBUF
if (!tt_push_inited)
le_init();
#endif /* NETLEBUF */
if (ttyfd == -1) /* Was open? */
return(0); /* Wasn't. */
if (close_in_progress)
return(0);
close_in_progress = 1; /* Remember */
#ifndef NOICP
/* This function call should not be here since this is a direct call */
/* from an I/O routine to a user interface level function. However, */
/* the reality is that we do not have pure interfaces. If we ever */
/* decide to clean this up the UI level should assign this function */
/* via a pointer assignment. - Jeff 9/10/1999 */
#ifdef CK_SSL
if (!tls_norestore)
#endif /* CK_SSL */
slrestor();
#endif /* NOICP */
#ifndef OS2
if (ttyfd > -1) /* Was. */
#endif /* OS2 */
{
#ifdef TNCODE
tn_push(); /* Place any waiting data into input*/
tn_sopt(DO,TELOPT_LOGOUT); /* Send LOGOUT option before close */
TELOPT_UNANSWERED_DO(TELOPT_LOGOUT) = 1;
tn_reset(); /* The Reset Telnet Option table. */
#endif /* TNCODE */
#ifdef CK_SSL
if (ssl_active_flag) {
if (ssl_debug_flag)
BIO_printf(bio_err,"calling SSL_shutdown\n");
SSL_shutdown(ssl_con);
SSL_free(ssl_con);
ssl_con = NULL;
ssl_active_flag = 0;
}
if (tls_active_flag) {
if (ssl_debug_flag)
BIO_printf(bio_err,"calling SSL_shutdown\n");
SSL_shutdown(tls_con);
SSL_free(tls_con);
tls_con = NULL;
tls_active_flag = 0;
}
#endif /* CK_SSL */
#ifdef VMS
ck_cancio(); /* Cancel any outstanding reads. */
#endif /* VMS */
#ifdef TCPIPLIB
x = socket_close(ttyfd); /* Close it. */
#else
#ifndef OS2
#ifdef IBMX25
if (ttnet == NET_IX25) {
/* riehm: should send a disc_req - but only if link is still OK */
x = x25clear();
close(ttyfd);
if (x25serverfd) {
/* we were the passive client of a server, now we
* go back to being the normal client.
* I hope that kermit can cope with the logic that
* there can still be a connection after netclos
* has been called.
*/
ttyfd = x25serverfd;
x25serverfd = 0;
/*
* need to close the server connection too - because
* all file descriptors connected to the NPI have the
* same status.
*
* The problem is that any waiting connections get
* lost, the client doesn't realise, and hangs.
*/
netclos();
}
x25_state = X25_CLOSED; /* riehm: dead code? */
} else
#endif /* IBMX25 */
x = close(ttyfd);
#endif /* OS2 */
#endif /* TCPIPLIB */
}
ttyfd = -1; /* Mark it as closed. */
wasclosed = 1;
#ifdef TNCODE
debug(F100,"netclose setting tn_init = 0","",0);
tn_init = 0; /* Remember about telnet protocol... */
sstelnet = 0; /* Client-side Telnet */
#ifdef CK_FORWARD_X
fwdx_close_all(); /* Shut down any Forward X sockets */
#endif /* CK_FORWARD_X */
#endif /* TNCODE */
*ipaddr = '\0'; /* Zero the IP address string */
tcp_incoming = 0; /* No longer incoming */
/* Don't reset ttnproto so that we can remember which protocol is in use */
#ifdef TCPIPLIB
/*
Empty the internal buffers so they won't be used as invalid input on
the next connect attempt (rlogin).
*/
ttibp = 0;
ttibn = 0;
#endif /* TCPIPLIB */
#ifdef CK_KERBEROS
/* If we are automatically destroying Kerberos credentials on Close */
/* do it now. */
#ifdef KRB4
if (krb4_autodel == KRB_DEL_CL) {
extern struct krb_op_data krb_op;
krb_op.version = 4;
krb_op.cache = NULL;
ck_krb4_destroy(&krb_op);
}
#endif /* KRB4 */
#ifdef KRB5
if (krb5_autodel == KRB_DEL_CL) {
extern struct krb_op_data krb_op;
extern char * krb5_d_cc;
krb_op.version = 5;
krb_op.cache = krb5_d_cc;
ck_krb5_destroy(&krb_op);
}
#endif /* KRB5 */
#endif /* CK_KERBEROS */
close_in_progress = 0; /* Remember we are done. */
return(x);
}
#ifdef OS2
int
os2socketerror( int s_errno ) {
switch (s_errno) {
case 0: /* NO ERROR */
debug(F100,"os2socketerror NOERROR","",0);
return(0);
#ifdef OS2ONLY
case EOS2ERR:
debug(F100,"os2socketerror EOS2ERR","",0);
return(0);
case ENOENT: /* ENOENT */
debug(F100,"os2socketerror ENOENT","",0);
return(0);
case EPASTEOF: /* EPASTEOF */
debug(F100,"os2socketerror EPASTEOF","",0);
return(0);
#endif /* OS2ONLY */
#ifdef NT
case WSAECONNRESET:
#else /* NT */
case SOCECONNRESET:
case SOCECONNRESET - SOCBASEERR:
#endif /* NT */
debug(F100,"os2socketerror ECONRESET","",0);
tn_debug("ECONRESET");
netclos(); /* *** *** */
return(-1); /* Connection is broken. */
#ifdef NT
case WSAECONNABORTED:
#else /* NT */
case SOCECONNABORTED:
case SOCECONNABORTED - SOCBASEERR:
#endif /* NT */
debug(F100,"os2socketerror ECONNABORTED","",0);
tn_debug("ECONNABORTED");
netclos(); /* *** *** */
return(-1); /* Connection is broken. */
#ifdef NT
case WSAENETRESET:
#else /* NT */
case SOCENETRESET:
case SOCENETRESET - SOCBASEERR:
#endif /* NT */
debug(F100,"os2socketerror ENETRESET","",0);
tn_debug("ENETRESET");
netclos(); /* *** *** */
return(-1); /* Connection is broken. */
#ifdef NT
case WSAENOTCONN:
#else /* NT */
case SOCENOTCONN:
case SOCENOTCONN - SOCBASEERR:
#endif /* NT */
debug(F100,"os2socketerror ENOTCONN","",0);
tn_debug("ENOTCONN");
netclos(); /* *** *** */
return(-1); /* Connection is broken. */
#ifdef NT
case WSAESHUTDOWN:
debug(F100,"os2socketerror ESHUTDOWN","",0);
tn_debug("ESHUTDOWN");
netclos(); /* *** *** */
return(-1); /* Connection is broken. */
#endif /* NT */
#ifdef NT
case WSAEWOULDBLOCK:
#else
case SOCEWOULDBLOCK:
case SOCEWOULDBLOCK - SOCBASEERR:
#endif /* NT */
debug(F100,"os2socketerror EWOULDBLOCK","",0);
return(0);
#ifdef NT
case ERROR_IO_INCOMPLETE:
case ERROR_IO_PENDING:
case ERROR_OPERATION_ABORTED:
return(0);
#endif /* NT */
default:
return(-2);
}
return(0);
}
#endif /* OS2 */
/* N E T T C H K -- Check if network up, and how many bytes can be read */
/*
Returns number of bytes waiting, or -1 if connection has been dropped.
*/
int /* Check how many bytes are ready */
nettchk() { /* for reading from network */
#ifdef TCPIPLIB
long count = 0;
int x = 0;
long y;
char c;
#ifdef NT
extern int ionoblock; /* For Overlapped I/O */
#endif /* NT */
debug(F101,"nettchk entry ttibn","",ttibn);
debug(F101,"nettchk entry ttibp","",ttibp);
#ifdef NETLEBUF
{
int n = 0;
if (ttpush >= 0)
n++;
n += le_inbuf();
if (n > 0)
return(n);
}
#endif /* NETLEBUF */
#ifndef OS2
#ifndef BEBOX
socket_errno = 0; /* This is a function call in NT, and BeOS */
#endif /* BEBOX */
#endif /* OS2 */
if (ttyfd == -1) {
debug(F100,"nettchk socket is closed","",0);
return(-1);
}
/*
Note: this socket_ioctl() call does NOT return an error if the
connection has been broken. (At least not in MultiNet.)
*/
#ifdef COMMENT
/* Another trick that can be tried here is something like this: */
if (ttnet == NET_TCPB) {
char dummy;
x = read(ttyfd,&dummy,0); /* Try to read nothing */
if (x < 0) { /* "Connection reset by peer" */
perror("TCP/IP"); /* or somesuch... */
ttclos(0); /* Close our end too. */
return(-1);
}
}
#endif /* COMMENT */
#ifdef CK_SSL
if (ssl_active_flag) {
count = SSL_pending(ssl_con);
if (count < 0) {
debug(F111,"nettchk","SSL_pending error",count);
netclos();
return(-1);
}
#ifdef COMMENT
else if (count == 0) {
int ch = netinc(-50);
if ( ch >= 0 )
le_putchar((CHAR)(ch & 0xFF));
}
#endif /* COMMENT */
} else if (tls_active_flag) {
count = SSL_pending(tls_con);
if (count < 0) {
debug(F111,"nettchk","TLS_pending error",count);
netclos();
return(-1);
}
#ifdef COMMENT
else if (count == 0) {
int ch = netinc(-50);
if ( ch >= 0 )
le_putchar((CHAR)(ch & 0xFF));
}
#endif /* COMMENT */
} else
#endif /* CK_SSL */
if (socket_ioctl(ttyfd,FIONREAD,
#ifdef COMMENT
/* Now we've changed the ioctl(..,..,x) prototype for DECC to (void *) */
#ifdef __DECC
/* NOTE: "&count" might need to be "(char *)&count" in some settings. */
/* Cast needed for DECC 4.1 & later? */
/* Maybe, but __DECC_VER only exists in 5.0 and later */
(char *)
#endif /* __DECC */
#endif /* COMMENT */
&count
) < 0) {
debug(F101,"nettchk socket_ioctl error","",socket_errno);
/* If the connection is gone, the connection is gone. */
netclos();
#ifdef NT_TCP_OVERLAPPED
/* Is there anything in the overlapped I/O buffers? */
count += OverlappedDataWaiting();
#endif /* NT_TCP_OVERLAPPED */
count += ttibn;
return(count>0?count:-1);
}
debug(F101,"nettchk count","",count);
#ifdef NT_TCP_OVERLAPPED
/* Is there anything in the overlapped I/O buffers? */
count += OverlappedDataWaiting();
debug(F101,"nettchk count w/overlapped","",count);
#endif /* NT_TCP_OVERLAPPED */
/* For the sake of efficiency, if there is still data in the ttibuf */
/* do not go to the bother of checking to see of the connection is */
/* still valid. The handle is still good, so just return the count */
/* of the bytes that we already have left to process. */
#ifdef OS2
if ( ttibn > 0 ) {
debug(F101,"nettchk (ttibn > 0) returns","",count+ttibn);
return(count+ttibn);
} else {
if ( ttibn == 0 )
ttibp = 0; /* reset for next read */
}
#else /* OS2 */
if ( ttibn ) {
debug(F101,"nettchk returns","",count+ttibn);
return(count+ttibn);
}
#endif /* OS2 */
/*
The following code works well in most settings, but messes things up in
others, including CMU/Tek TCP/IP and UCX 2.0, where it somehow manages to
make it impossible to ever make a new connection to the same host again with
CONNECT, once it has been logged out from the first time. Not even if you
HANGUP first, or SET HOST<CR>, or SET LINE<CR>. Reportedly, however, it
does work OK in later releases of UCX. But there is no way we can
accommodate both old and new -- we might have static linking or dynamic
linking, etc etc. If we have static, I only have access to 2.0, where this
doesn't work, etc etc blah blah.
In the following lines, we define a symbol NOCOUNT for builds where we want
to omit this code. By default, it is omitted for CMU/Tek. You can force
omission of it for other combinations by defining NOCOUNT in CFLAGS. You
can force inclusion of this code, even for CMU/Tek, by including NONOCOUNT
in CFLAGS.
*/
#ifdef NONOCOUNT
#ifdef NOCOUNT
#undef NOCOUNT
#endif /* NOCOUNT */
#else
#ifndef NOCOUNT
#ifdef CMU_TCPIP
#define NOCOUNT
#endif /* CMU_TCPIP */
#endif /* NOCOUNT */
#endif /* NONOCOUNT */
/* we know now that count >= 0 and that ttibn == 0 */
if (count == 0
#ifdef CK_SSL
&& ttnproto != NP_SSL && ttnproto != NP_TLS
&& !tls_active_flag && !ssl_active_flag
#endif /* CK_SSL */
#ifdef RLOGCODE
#ifdef CK_KERBEROS
&& ttnproto != NP_EK4LOGIN && ttnproto != NP_EK5LOGIN
#endif /* CK_KERBEROS */
#endif /* RLOGCODE */
) {
int s_errno = 0;
#ifdef OS2
RequestTCPIPMutex(SEM_INDEFINITE_WAIT);
#endif /* OS2 */
#ifndef NOCOUNT
/*
Here we need to tell the difference between a 0 count on an active
connection, and a 0 count because the remote end of the socket broke the
connection. There is no mechanism in TGV MultiNet (or WIN/TCP?) to query
the status of the connection, so we have to do a read. -1 means there was
no data available (socket_errno == EWOULDBLOCK), 0 means the connection is
down. But if, by chance, we actually get a character, we have to put it
where it won't be lost.
*/
#ifndef NON_BLOCK_IO
y = 1; /* Turn on nonblocking reads */
x = socket_ioctl(ttyfd,FIONBIO,&y);
debug(F101,"nettchk FIONBIO","",x);
#endif /* NON_BLOCK_IO */
#ifdef NT_TCP_OVERLAPPED
ionoblock = 1; /* For Overlapped I/O */
#endif /* NT_TCP_OVERLAPPED */
#ifdef OS2
x = socket_read(ttyfd,&ttibuf[ttibp+ttibn],
TTIBUFL-ttibp-ttibn); /* Returns -1 if no data */
#else /* OS2 */
x = socket_read(ttyfd,&c,1); /* Returns -1 if no data */
#endif /* OS2 */
s_errno = socket_errno; /* socket_errno may be a function */
debug(F101,"nettchk socket_read","",x);
#ifndef NON_BLOCK_IO
y = 0; /* Turn them back off */
socket_ioctl(ttyfd,FIONBIO,&y);
#endif /* NON_BLOCK_IO */
#ifdef NT_TCP_OVERLAPPED
ionoblock = 0; /* For Overlapped I/O */
#endif /* NT_TCP_OVERLAPPED */
if (x == -1) {
debug(F101,"nettchk socket_read errno","",s_errno);
#ifdef OS2
if (os2socketerror(s_errno) < 0) {
ReleaseTCPIPMutex();
return(-1);
}
#endif /* OS2 */
} else if (x == 0) {
debug(F100,"nettchk connection closed","",0);
#ifdef OS2
ReleaseTCPIPMutex();
#endif /* OS2 */
netclos(); /* *** *** */
return(-1); /* Connection is broken. */
}
if (x >= 1) { /* Oops, actually got a byte? */
#ifdef OS2
/* In OS/2 we read directly into ttibuf[] */
hexdump("nettchk got real data",&ttibuf[ttibp+ttibn],x);
ttibn += x;
#else /* OS2 */
debug(F101,"nettchk socket_read char","",c);
debug(F101,"nettchk ttibp","",ttibp);
debug(F101,"nettchk ttibn","",ttibn);
/*
In the case of Overlapped I/O the character would have come from
the beginning of the buffer, so put it back.
*/
if (ttibp > 0) {
ttibp--;
ttibuf[ttibp] = c;
ttibn++;
} else {
ttibuf[ttibp+ttibn] = c;
ttibn++;
}
#endif /* OS2 */
}
#ifdef OS2
ReleaseTCPIPMutex();
#endif /* OS2 */
#else /* NOCOUNT */
if (ttnet == NET_TCPB) {
char dummy;
x = read(ttyfd,&dummy,0); /* Try to read nothing */
if (x < 0) { /* "Connection reset by peer" */
perror("TCP/IP"); /* or somesuch... */
#ifdef OS2
ReleaseTCPIPMutex();
#endif /* OS2 */
ttclos(0); /* Close our end too. */
return(-1);
}
}
#endif /* NOCOUNT */
#ifdef OS2
ReleaseTCPIPMutex();
#endif /* OS2 */
}
#ifdef CK_KERBEROS
#ifdef KRB4
if (ttnproto == NP_EK4LOGIN)
count += krb4_des_avail(ttyfd);
#endif /* KRB4 */
#ifdef KRB5
if (ttnproto == NP_EK5LOGIN)
count += krb5_des_avail(ttyfd);
#endif /* KRB5 */
#endif /* CK_KERBEROS */
debug(F101,"nettchk returns","",count+ttibn);
return(count + ttibn);
#else /* Not TCPIPLIB */
/*
UNIX just uses ttchk(), in which the ioctl() calls on the file descriptor
seem to work OK.
*/
return(0);
#endif /* TCPIPLIB */
/*
But what about X.25?
*/
}
#ifndef OS2
VOID
nettout(i) int i; { /* Catch the alarm interrupts */
debug(F100,"nettout caught timeout","",0);
ttimoff();
cklongjmp(njbuf, -1);
}
#endif /* !OS2 */
#ifdef TCPIPLIB
VOID
#ifdef CK_ANSIC
donetinc(void * threadinfo)
#else /* CK_ANSIC */
donetinc(threadinfo) VOID * threadinfo;
#endif /* CK_ANSIC */
/* donetinc */ {
#ifdef IKSD
extern int inserver;
#endif /* IKSD */
#ifdef NTSIG
extern int TlsIndex;
setint();
if (threadinfo) { /* Thread local storage... */
TlsSetValue(TlsIndex,threadinfo);
}
#endif /* NTSIG */
#ifdef CK_LOGIN
#ifdef NT
#ifdef IKSD
if (inserver)
setntcreds();
#endif /* IKSD */
#endif /* NT */
#endif /* CK_LOGIN */
while (1) {
if (ttbufr() < 0) /* Keep trying to refill it. */
break; /* Till we get an error. */
if (ttibn > 0) /* Or we get a character. */
break;
}
}
#endif /* TCPIPLIB */
VOID
#ifdef CK_ANSIC
failnetinc(void * threadinfo)
#else /* CK_ANSIC */
failnetinc(threadinfo) VOID * threadinfo;
#endif /* CK_ANSIC */
/* failnetinc */ {
; /* Nothing to do on an error */
}
/* N E T X I N -- Input block of characters from network */
int
netxin(n,buf) int n; CHAR * buf; {
int len;
int rc;
int i, j;
if (ttyfd == -1) {
debug(F100,"netinc socket is closed","",0);
return(-2);
}
#ifdef RLOGCODE
#ifdef CK_KERBEROS
#ifdef KRB4
if (ttnproto == NP_EK4LOGIN) {
if ((len = krb4_des_read(ttyfd,buf,n)) < 0)
return(-1);
else
return(len);
}
#endif /* KRB4 */
#ifdef KRB5
if (ttnproto == NP_EK5LOGIN) {
if ((len = krb5_des_read(ttyfd,buf,n)) < 0)
return(-1);
else
return(len);
}
#endif /* KRB5 */
#endif /* CK_KERBEROS */
#endif /* RLOGCODE */
#ifdef TCPIPLIB
if (!ttibn)
if ((rc = ttbufr()) <= 0)
return(rc);
if (ttibn <= n) {
len = ttibn;
memcpy(buf,&ttibuf[ttibp],len);
ttibp += len;
ttibn = 0;
} else {
memcpy(buf,&ttibuf[ttibp],n);
ttibp += n;
ttibn -= n;
len = n;
}
#else /* TCPIPLIB */
for (i = 0; i < n; i++) {
if ((j = netinc(0)) < 0) {
if (j < -1)
return(j);
else
break;
}
buf[i] = j;
}
len = i;
#endif /* TCPIPLIB */
#ifdef COMMENT
#ifdef CK_ENCRYPTION
/* This would be great if it worked. But what if the buffer we read */
/* contains a telnet negotiation that changes the state of the */
/* encryption. If so, we would be either decrypting unencrypted text */
/* or not decrypting encrypted text. So we must move this call to */
/* all functions that call ttxin(). In OS2 that means os2_netxin() */
/* where the Telnet Negotiations are handled. */
if (u_encrypt)
ck_tn_decrypt(buf,len);
#endif /* CK_ENCRYPTION */
#endif /* COMMENT */
return(len);
}
/* N E T I N C -- Input character from network */
#ifdef NETLEBUF
#define LEBUF
#endif /* NETLEBUF */
#ifdef TTLEBUF
#define LEBUF
#endif /* TTLEBUF */
#ifndef LEBUF
#ifdef OS2
#define LEBUF
#endif /* OS2 */
#endif /* LEBUF */
int
netinc(timo) int timo; {
#ifdef TCPIPLIB
int x; unsigned char c; /* The locals. */
#ifdef NETLEBUF
if (ttpush >= 0) {
debug(F111,"netinc","ttpush",ttpush);
c = ttpush;
ttpush = -1;
return(c);
}
if (le_data) {
if (le_getchar((CHAR *)&c) > 0) {
debug(F111,"netinc le_getchar","c",c);
return(c);
}
}
#endif /* NETLEBUF */
if (ttyfd == -1) {
debug(F100,"netinc socket is closed","",0);
return(-2);
}
#ifdef RLOGCODE
#ifdef CK_KERBEROS
#ifdef KRB4
if (ttnproto == NP_EK4LOGIN) {
if ((x = krb4_des_read(ttyfd,&c,1)) == 0)
return(-1);
else if (x < 0)
return(-2);
else
return(c);
}
#endif /* KRB4 */
#ifdef KRB5
if (ttnproto == NP_EK5LOGIN) {
if ((x = krb5_des_read(ttyfd,&c,1)) == 0)
return(-1);
else if (x < 0)
return(-2);
else
return(c);
}
#endif /* KRB5 */
#endif /* CK_KERBEROS */
#endif /* RLOGCODE */
if (ttibn > 0) { /* Something in internal buffer? */
#ifdef COMMENT
debug(F100,"netinc char in buf","",0); /* Yes. */
#endif /* COMMENT */
x = 0; /* Success. */
} else { /* Else must read from network. */
x = -1; /* Assume failure. */
#ifdef DEBUG
debug(F101,"netinc goes to net, timo","",timo);
ttibuf[ttibp+ttibn+1] = '\0';
debug(F111,"netinc ttibuf",ttibuf,ttibp);
#endif /* DEBUG */
#ifdef CK_SSL
if (ssl_active_flag) {
x = SSL_pending(ssl_con);
if (x < 0) {
debug(F111,"netinc","SSL_pending error",x);
netclos();
return(-1);
} else if ( x > 0 ) {
if ( ttbufr() >= 0 )
return(netinc(timo));
}
x = -1;
} else if (tls_active_flag) {
x = SSL_pending(tls_con);
if (x < 0) {
debug(F111,"netinc","TLS_pending error",x);
netclos();
return(-1);
} else if ( x > 0 ) {
if ( ttbufr() >= 0 )
return(netinc(timo));
}
x = -1;
}
#endif /* CK_SSL */
#ifndef LEBUF
if (timo == 0) { /* Untimed case. */
while (1) { /* Wait forever if necessary. */
if (ttbufr() < 0) /* Refill buffer. */
break; /* Error, fail. */
if (ttibn > 0) { /* Success. */
x = 0;
break;
}
}
} else /* Timed case... */
#endif /* LEBUF */
{
#ifdef NT_TCP_OVERLAPPED
/* This code is for use on NT when we are using */
/* Overlapped I/O to handle reads. In the case */
/* of outstanding reads select() doesn't work */
if (WaitForOverlappedReadData(timo)) {
while (1) {
if (ttbufr() < 0) /* Keep trying to refill it. */
break; /* Till we get an error. */
if (ttibn > 0) { /* Or we get a character. */
x = 0;
break;
}
}
}
#else /* NT_TCP_OVERLAPPED */
#ifdef BSDSELECT
fd_set rfds;
struct timeval tv;
int timeout = timo < 0 ? -timo : 1000 * timo;
debug(F101,"netinc BSDSELECT","",timo);
for ( ; timeout >= 0; timeout -= (timo ? 100 : 0)) {
int rc;
debug(F111,"netinc","timeout",timeout);
/* Don't move select() initialization out of the loop. */
FD_ZERO(&rfds);
FD_SET(ttyfd, &rfds);
tv.tv_sec = tv.tv_usec = 0L;
if (timo)
tv.tv_usec = (long) 100000L;
else
tv.tv_sec = 30;
#ifdef NT
WSASafeToCancel = 1;
#endif /* NT */
rc = select(FD_SETSIZE,
#ifndef __DECC
(fd_set *)
#endif /* __DECC */
&rfds, NULL, NULL, &tv);
if (rc < 0) {
int s_errno = socket_errno;
debug(F111,"netinc","select",rc);
debug(F111,"netinc","socket_errno",s_errno);
if (s_errno)
return(-1);
}
debug(F111,"netinc","select",rc);
#ifdef NT
WSASafeToCancel = 0;
#endif /* NT */
if (!FD_ISSET(ttyfd, &rfds)) {
#ifdef LEBUF
if (le_inbuf() > 0) {
timeout = -1;
break;
}
#endif /* LEBUF */
/* If waiting forever we have no way of knowing if the */
/* socket closed so try writing a 0-length TCP packet */
/* which should force an error if the socket is closed */
if (!timo) {
if ((rc = socket_write(ttyfd,"",0)) < 0) {
int s_errno = socket_errno;
debug(F101,"netinc socket_write error","",s_errno);
#ifdef OS2
if (os2socketerror(s_errno) < 0)
return(-2);
#endif /* OS2 */
return(-1); /* Call it an i/o error */
}
}
continue;
}
while (1) {
if (ttbufr() < 0) { /* Keep trying to refill it. */
timeout = -1;
break; /* Till we get an error. */
}
if (ttibn > 0) { /* Or we get a character. */
x = 0;
timeout = -1;
break;
}
}
}
#ifdef NT
WSASafeToCancel = 0;
#endif /* NT */
#else /* !BSDSELECT */
#ifdef IBMSELECT
/*
Was used by OS/2, currently not used, but might come in handy some day...
... and it came in handy! For our TCP/IP layer, it avoids all the fd_set
and timeval stuff since this is the only place where it is used.
*/
int socket = ttyfd;
int timeout = timo < 0 ? -timo : 1000 * timo;
debug(F101,"netinc IBMSELECT","",timo);
for ( ; timeout >= 0; timeout -= (timo ? 100 : 0)) {
if (select(&socket, 1, 0, 0, 100L) == 1) {
while (1) {
if (ttbufr() < 0) { /* Keep trying to refill it. */
timeout = -1;
break; /* Till we get an error. */
}
if (ttibn > 0) { /* Or we get a character. */
x = 0;
timeout = -1;
break;
}
}
}
#ifdef LEBUF
else if (le_inbuf() > 0) {
timeout = -1;
break;
}
#endif /* LEBUF */
}
#else /* !IBMSELECT */
#ifdef WINSOCK
/* Actually, under WinSock we have a better mechanism than select() */
/* for setting timeouts (SO_RCVTIMEO, SO_SNDTIMEO) */
SOCKET socket = ttyfd;
debug(F101,"netinc NTSELECT","",timo);
if (setsockopt(socket, SOL_SOCKET, SO_RCVTIMEO, (char *)&timo,
sizeof(timo)) == NO_ERROR)
while (1) {
if (ttbufr() < 0) /* Keep trying to refill it. */
break; /* Till we get an error. */
if (ttibn > 0) { /* Or we get a character. */
x = 0;
break;
}
}
#else /* WINSOCK */
/*
If we can't use select(), then we use the regular alarm()/signal()
timeout mechanism.
*/
debug(F101,"netinc alarm","",timo);
x = alrm_execute(ckjaddr(njbuf),timo,nettout,donetinc,failnetinc);
ttimoff(); /* Timer off. */
#endif /* WINSOCK */
#endif /* IBMSELECT */
#endif /* BSDSELECT */
#endif /* NT_TCP_OVERLAPPED */
}
}
#ifdef LEBUF
if (le_inbuf() > 0) { /* If data was inserted into the */
if (le_getchar((CHAR *)&c) > 0) /* Local Echo buffer while the */
return(c); /* was taking place do not mix */
} /* the le data with the net data */
#endif /* LEBUF */
if (x < 0) { /* Return -1 if we failed. */
debug(F100,"netinc timed out","",0);
return(-1);
} else { /* Otherwise */
c = ttibuf[ttibp]; /* Return the first char in ttibuf[] */
if (deblog) {
#ifndef COMMENT
debug(F101,"netinc returning","",c);
#endif /* COMMENT */
if (c == 0) {
debug(F101,"netinc 0 ttibn","",ttibn);
debug(F101,"netinc 0 ttibp","",ttibp);
#ifdef BETATEST
{
#ifdef OS2
extern int tt_type_mode;
if ( !ISVTNT(tt_type_mode) )
#endif /* OS2 */
hexdump("netinc &ttbuf[ttibp]",&ttibuf[ttibp],ttibn);
}
#endif /* BETATEST */
}
}
ttibp++;
ttibn--;
#ifdef CK_ENCRYPTION
if (TELOPT_U(TELOPT_ENCRYPTION))
ck_tn_decrypt(&c,1);
#endif /* CK_ENCRYPTION */
return(c);
}
#else /* Not using TCPIPLIB */
return(-1);
#endif /* TCPIPLIB */
}
/* N E T T O L -- Output a string of bytes to the network */
/*
Call with s = pointer to string, n = length.
Returns number of bytes actually written on success, or
-1 on i/o error, -2 if called improperly.
*/
int
nettol(s,n) CHAR *s; int n; {
#ifdef TCPIPLIB
int count = 0;
int len = n;
int try = 0;
if (ttyfd == -1) {
debug(F100,"nettol socket is closed","",0);
return -1;
}
debug(F101,"nettol TCPIPLIB ttnet","",ttnet);
#ifdef COMMENT
hexdump("nettol",s,n);
#endif /* COMMENT */
#ifdef RLOGCODE
#ifdef CK_KERBEROS
#ifdef KRB4
if (ttnproto == NP_EK4LOGIN) {
return(krb4_des_write(ttyfd,s,n));
}
#endif /* KRB4 */
#ifdef KRB5
if (ttnproto == NP_EK5LOGIN) {
return(krb5_des_write(ttyfd,s,n));
}
#endif /* KRB5 */
#endif /* CK_KERBEROS */
#endif /* RLOGCODE */
#ifdef CK_ENCRYPTION
if (TELOPT_ME(TELOPT_ENCRYPTION))
ck_tn_encrypt(s,n);
#endif /* CK_ENCRYPTION */
#ifdef CK_SSL
if (ssl_active_flag || tls_active_flag) {
int error;
/* Write using SSL */
if (ssl_active_flag)
len = SSL_write(ssl_con, s, len);
else
len = SSL_write(tls_con, s, len);
switch (SSL_get_error(ssl_active_flag?ssl_con:tls_con,len)) {
case SSL_ERROR_NONE:
debug(F111,"nettol","SSL_write",len);
return(len);
case SSL_ERROR_WANT_WRITE:
debug(F100,"nettol SSL_ERROR_WANT_WRITE","",0);
return(-1);
case SSL_ERROR_WANT_READ:
debug(F100,"nettol SSL_ERROR_WANT_READ","",0);
return(-1);
case SSL_ERROR_SYSCALL:
#ifdef NT
debug(F111,"nettol SSL_ERROR_SYSCALL",
"GetLastError()",GetLastError());
#endif /* NT */
netclos();
return(-2);
case SSL_ERROR_WANT_X509_LOOKUP:
debug(F100,"nettol SSL_ERROR_WANT_X509_LOOKUP","",0);
netclos();
return(-2);
case SSL_ERROR_SSL:
debug(F100,"nettol SSL_ERROR_SSL","",0);
netclos();
return(-2);
case SSL_ERROR_ZERO_RETURN:
debug(F100,"nettol SSL_ERROR_ZERO_RETURN","",0);
netclos();
return(-2);
default:
debug(F100,"nettol SSL_ERROR_?????","",0);
netclos();
return(-2);
}
}
#endif /* CK_SSL */
nettol_retry:
try++; /* Increase the try counter */
if (ttnet == NET_TCPB) {
#ifdef BSDSELECT
fd_set wfds;
struct timeval tv;
debug(F101,"nettol BSDSELECT","",0);
tv.tv_usec = 0L;
tv.tv_sec=30;
#ifdef NT
WSASafeToCancel = 1;
#endif /* NT */
#ifdef STREAMING
do_select:
#endif /* STREAMING */
FD_ZERO(&wfds);
FD_SET(ttyfd, &wfds);
if (select(FD_SETSIZE, NULL,
#ifdef __DECC
#ifndef __DECC_VER
(int *)
#endif /* __DECC_VER */
#endif /* __DECC */
&wfds, NULL, &tv) < 0) {
int s_errno = socket_errno;
debug(F101,"nettol select failed","",s_errno);
#ifdef BETATEST
printf("nettol select failed: %d\n", s_errno);
#endif /* BETATEST */
#ifdef NT
WSASafeToCancel = 0;
if (!win95selectbug)
#endif /* NT */
return(-1);
}
if (!FD_ISSET(ttyfd, &wfds)) {
#ifdef STREAMING
if (streaming)
goto do_select;
#endif /* STREAMING */
debug(F111,"nettol","!FD_ISSET",ttyfd);
#ifdef NT
WSASafeToCancel = 0;
if (!win95selectbug)
#endif /* NT */
return(-1);
}
#ifdef NT
WSASafeToCancel = 0;
#endif /* NT */
#else /* BSDSELECT */
#ifdef IBMSELECT
{
int tries = 0;
debug(F101,"nettol IBMSELECT","",0);
while (select(&ttyfd, 0, 1, 0, 1000) != 1) {
int count;
if (tries++ >= 60) {
/* if after 60 seconds we can't get permission to write */
debug(F101,"nettol select failed","",socket_errno);
return(-1);
}
if ((count = nettchk()) < 0) {
debug(F111,"nettol","nettchk()",count);
return(count);
}
}
}
#endif /* IBMSELECT */
#endif /* BSDSELECT */
if ((count = socket_write(ttyfd,s,n)) < 0) {
int s_errno = socket_errno; /* maybe a function */
debug(F101,"nettol socket_write error","",s_errno);
#ifdef OS2
if (os2socketerror(s_errno) < 0)
return(-2);
#endif /* OS2 */
return(-1); /* Call it an i/o error */
}
if (count < n) {
debug(F111,"nettol socket_write",s,count);
if (try > 25) {
/* don't try more than 25 times */
debug(F100,"nettol tried more than 25 times","",0);
return(-1);
}
if (count > 0) {
s += count;
n -= count;
}
debug(F111,"nettol retry",s,n);
goto nettol_retry;
} else {
debug(F111,"nettol socket_write",s,count);
return(len); /* success - return total length */
}
} else
return(-2);
#else
debug(F100,"nettol TCPIPLIB not defined","",0);
return(-2);
#endif /* TCPIPLIB */
}
/* N E T T O C -- Output character to network */
/*
Call with character to be transmitted.
Returns 0 if transmission was successful, or
-1 upon i/o error, or -2 if called improperly.
*/
int
#ifdef CK_ANSIC
nettoc(CHAR c)
#else
nettoc(c) CHAR c;
#endif /* CK_ANSIC */
/* nettoc */ {
#ifdef UNIX
return(ttoc(c));
#else
#ifdef TCPIPLIB
unsigned char cc;
if (ttyfd == -1) {
debug(F100,"nettoc socket is closed","",0);
return -1;
}
cc = c;
debug(F101,"nettoc cc","",cc);
#ifdef RLOGCODE
#ifdef CK_KERBEROS
#ifdef KRB4
if (ttnproto == NP_EK4LOGIN) {
return(krb4_des_write(ttyfd,&cc,1)==1?0:-1);
}
#endif /* KRB4 */
#ifdef KRB5
if (ttnproto == NP_EK5LOGIN) {
return(krb5_des_write(ttyfd,&cc,1)==1?0:-1);
}
#endif /* KRB5 */
#endif /* CK_KERBEROS */
#endif /* RLOGCODE */
#ifdef CK_ENCRYPTION
if ( TELOPT_ME(TELOPT_ENCRYPTION) )
ck_tn_encrypt(&cc,1);
#endif /* CK_ENCRYPTION */
#ifdef CK_SSL
if (ssl_active_flag || tls_active_flag) {
int len, error;
/* Write using SSL */
if (ssl_active_flag)
len = SSL_write(ssl_con, &cc, 1);
else
len = SSL_write(tls_con, &cc, 1);
switch (SSL_get_error(ssl_active_flag?ssl_con:tls_con,len)) {
case SSL_ERROR_NONE:
debug(F111,"nettoc","SSL_write",len);
return(len == 1 ? 0 : -1);
case SSL_ERROR_WANT_WRITE:
case SSL_ERROR_WANT_READ:
return(-1);
case SSL_ERROR_SYSCALL:
case SSL_ERROR_WANT_X509_LOOKUP:
case SSL_ERROR_SSL:
case SSL_ERROR_ZERO_RETURN:
default:
netclos();
return(-2);
}
}
#endif /* CK_SSL */
if (ttnet == NET_TCPB) {
#ifdef BSDSELECT
fd_set wfds;
struct timeval tv;
debug(F101,"nettoc BSDSELECT","",0);
tv.tv_usec = 0L;
tv.tv_sec = 30;
#ifdef STREAMING
do_select:
#endif /* STREAMING */
FD_ZERO(&wfds);
FD_SET(ttyfd, &wfds);
if (select(FD_SETSIZE, NULL,
#ifdef __DECC
#ifndef __DECC_VER
(int *)
#endif /* __DECC_VER */
#endif /* __DECC */
&wfds, NULL, &tv) < 0) {
int s_errno = socket_errno;
debug(F101,"nettoc select failed","",s_errno);
#ifdef BETATEST
printf("nettoc select failed: %d\n", s_errno);
#endif /* BETATEST */
#ifdef NT
WSASafeToCancel = 0;
if (!win95selectbug)
#endif /* NT */
return(-1);
}
if (!FD_ISSET(ttyfd, &wfds)) {
#ifdef STREAMING
if (streaming)
goto do_select;
#endif /* STREAMING */
debug(F111,"nettoc","!FD_ISSET",ttyfd);
#ifdef NT
WSASafeToCancel = 0;
if (!win95selectbug)
#endif /* NT */
return(-1);
}
#ifdef NT
WSASafeToCancel = 0;
#endif /* NT */
#else /* BSDSELECT */
#ifdef IBMSELECT
{
int tries = 0;
while (select(&ttyfd, 0, 1, 0, 1000) != 1) {
int count;
if (tries++ >= 60) {
/* if after 60 seconds we can't get permission to write */
debug(F101,"nettoc select failed","",socket_errno);
return(-1);
}
if ((count = nettchk()) < 0) {
debug(F111,"nettoc","nettchk()",count);
return(count);
}
}
}
#endif /* IBMSELECT */
#endif /* BSDSELECT */
if (socket_write(ttyfd,&cc,1) < 1) {
int s_errno = socket_errno; /* maybe a function */
debug(F101,"nettoc socket_write error","",s_errno);
#ifdef OS2
if (os2socketerror(s_errno) < 0)
return(-2);
#endif /* OS2 */
return(-1);
}
debug(F101,"nettoc socket_write","", cc);
return(0);
} else return(-2);
#else
return(-2);
#endif /* TCPIPLIB */
#endif /* UNIX */
}
/* N E T F L U I -- Flush network input buffer */
#ifdef TNCODE
static int
#ifdef CK_ANSIC
netgetc(int timo) /* Input function to point to... */
#else /* CK_ANSIC */
netgetc(timo) int timo;
#endif /* CK_ANSIC */
{ /* ...in the tn_doop() call */
#ifdef TCPIPLIB
return netinc(timo);
#else /* TCPIPLIB */
return ttinc(timo);
#endif /* TCPIPLIB */
}
#endif /* TNCODE */
int
netflui() {
int n;
int ch;
#ifdef NETLEBUF
ttpush = -1; /* Clear the peek-ahead char */
while (le_data && (le_inbuf() > 0)) {
CHAR ch = '\0';
if (le_getchar(&ch) > 0) {
debug(F101,"ttflui le_inbuf ch","",ch);
}
}
#endif /* NETLEBUF */
#ifdef TCPIPLIB
#ifdef TNCODE
if (ttnproto == NP_TELNET) {
/* Netflui must process Telnet negotiations or get out of sync */
if ((n = nettchk()) <= 0) return(0);
while (n-- > 0) {
ch = netinc(1);
if (ch == IAC) {
extern int duplex; /* this really shouldn't be here but ... */
int tx = tn_doop((CHAR)(ch & 0xff),duplex,netgetc);
if (tx == 1) duplex = 1;
else if (tx == 2) duplex = 0;
n = nettchk();
}
}
} else
#endif /* TNCODE */
{
ttibuf[ttibp+ttibn] = '\0';
debug(F111,"netflui 1",ttibuf,ttibn);
#ifdef CK_ENCRYPTION
if (TELOPT_U(TELOPT_ENCRYPTION)) {
ck_tn_decrypt(&ttibuf[ttibp],ttibn);
}
#endif /* CK_ENCRYPTION */
ttibn = ttibp = 0; /* Flush internal buffer *FIRST* */
if (ttyfd < 1)
return(0);
if ((n = nettchk()) > 0) { /* Now see what's waiting on the net */
if (n > TTIBUFL) n = TTIBUFL; /* and sponge it up */
debug(F101,"netflui 2","",n); /* ... */
n = socket_read(ttyfd,ttibuf,n); /* into our buffer */
if (n >= 0) ttibuf[n] = '\0';
debug(F111,"netflui 3",ttibuf,n);
#ifdef CK_ENCRYPTION
if (TELOPT_U(TELOPT_ENCRYPTION)) {
ck_tn_decrypt(&ttibuf[ttibp],n);
}
#endif /* CK_ENCRYPTION */
ttibuf[0] = '\0';
}
}
#else /* !TCPIPLIB */
if (ttyfd < 1)
return(0);
#ifdef TNCODE
if (ttnproto == NP_TELNET) {
if ((n = ttchk()) <= 0) return(0);
while (n-- >= 0) {
/* Netflui must process Telnet negotiations or get out of sync */
ch = ttinc(1);
if (ch == IAC) {
extern int duplex; /* this really shouldn't be here but ... */
int tx = tn_doop((CHAR)(ch & 0xff),duplex,netgetc);
if (tx == 1) duplex = 1;
else if (tx == 2) duplex = 0;
n = ttchk();
}
};
} else
#endif /* TNCODE */
if ((n = ttchk()) > 0) {
debug(F101,"netflui non-TCPIPLIB","",n);
while ((n--) && ttinc(1) > -1) /* Don't worry, ttinc() is buffered */
; /* and it handles the decryption... */
}
#endif /* TCPIPLIB */
return(0);
}
#endif /* NOLOCAL */
/* getlocalipaddr() attempts to resolve an IP Address for the local machine.
* If the host is multi-homed it returns only one address.
*
* Two techniques are used.
* (1) get the local host name and perform a DNS lookup, then take
* the first entry;
* (2) open a UDP socket, use it to connect to a fictitious host (it's OK,
* no data is sent), then retrieve the local address from the socket.
* Note: the second technique won't work on Microsoft systems. See
* Article ID: Q129065 PRB: Getsockname() Returns IP Address 0.0.0.0 for UDP
*/
/* Technique number one cannot work reliably if the machine is a laptop
* and the hostname is associated with a physical adapter which is not
* installed and a PPP connection is being used instead. This is because
* the hostname DNS lookup will succeed for the physical adapter even though
* it would be impossible to use it. In NT4 SP4, the gethostbyname()
* when given the result of gethostname() returns not the real DNS entries
* for that name+domain. Instead it returns all of the static and dynamic
* IP addresses assigned to any physical or virtual adapter defined in the
* system regardless of whether or not it is installed. The order of the
* addresses is fixed according to the binding order in the NT registry.
*/
/*
* It appears that calling gethostbyname(NULL) is more reliable than
* calling gethostbyname(gethostname()) on Windows. So on Windows we will
* only call gethostbyname(NULL).
*/
int
getlocalipaddr() {
#ifndef datageneral
struct sockaddr_in l_sa;
struct sockaddr_in r_sa;
GSOCKNAME_T slen = sizeof(struct sockaddr_in);
int sock;
int rc;
struct in_addr laddr;
/* if still not resolved, then try second strategy */
/* This second strategy does not work on Windows */
memset(&l_sa,0,slen);
memset(&r_sa,0,slen);
/* get a UDP socket */
sock = socket(AF_INET, SOCK_DGRAM, 0);
if (sock != -1) {
/* connect to arbirary port and address (NOT loopback) */
r_sa.sin_family = AF_INET;
r_sa.sin_port = htons(IPPORT_ECHO);
/* The following is an "illegal conversion" in AOS/VS */
/* (and who knows where else) */
#ifdef INADDRX
inaddrx = inet_addr("128.127.50.1");
r_sa.sin_addr.s_addr = *(unsigned long *)&inaddrx;
#else
r_sa.sin_addr.s_addr = inet_addr("128.127.50.1");
#endif /* INADDRX */
rc = connect(sock, (struct sockaddr *) &r_sa, sizeof(struct sockaddr));
if (!rc) { /* get local address */
getsockname(sock,(struct sockaddr *)&l_sa,&slen);
#ifdef TCPIPLIB
socket_close(sock); /* We're done with the socket */
#else
close(sock);
#endif /* TCPIPLIB */
if (l_sa.sin_addr.s_addr != INADDR_ANY) {
myxipaddr = ntohl(l_sa.sin_addr.s_addr);
ckstrncpy(myipaddr,(char *)inet_ntoa(l_sa.sin_addr),20);
debug(F110,"getlocalipaddr setting buf to",myipaddr,0);
return(0);
}
}
}
return getlocalipaddrs(myipaddr,sizeof(myipaddr),0);
#else /* datageneral */
return(-1);
#endif /* datageneral */
}
int
getlocalipaddrs(buf,bufsz,index)
char * buf;
int bufsz;
int index;
/* getlocalipaddrs */ {
#ifndef datageneral
char localhost[256];
struct hostent * host=NULL;
struct sockaddr_in l_sa;
struct sockaddr_in r_sa;
GSOCKNAME_T slen = sizeof(struct sockaddr_in);
int sock;
int rc;
char messageBuf[60];
struct in_addr laddr;
memset(&l_sa,0,slen);
memset(&r_sa,0,slen);
/* init local address (to zero) */
l_sa.sin_addr.s_addr = INADDR_ANY;
#ifdef CKGHNLHOST
rc = gethostname(localhost, 256);
debug(F110,"getlocalipaddrs localhost",localhost,0);
#else
/* This doesn't work on some platforms, e.g. Solaris */
rc = 0;
localhost[0] = '\0';
#endif /* CKGHNLHOST */
if (!rc) {
/* resolve host name for local address */
host = gethostbyname(localhost);
if (host) {
#ifdef HADDRLIST
if ( index < 0 || index > 63 || !host->h_addr_list[index] ) {
buf[0] = '\0';
return(-1);
}
l_sa.sin_addr.s_addr =
*((unsigned long *) (host->h_addr_list[index]));
ckstrncpy(buf,(char *)inet_ntoa(l_sa.sin_addr),20);
debug(F110,"getlocalipaddrs setting buf to",buf,0);
#ifdef COMMENT
/* This is for reporting multiple IP Address */
while (host->h_addr_list && host->h_addr_list[0]) {
l_sa.sin_addr.s_addr =
*((unsigned long *) (host->h_addr_list[0]));
ckstrncpy(messageBuf,
(char *)inet_ntoa(l_sa.sin_addr),60);
if (tcp_address) {
if (!strcmp(messageBuf,tcp_address))
ckstrncpy(myipaddr,tcp_address,20);
}
debug(F110,"getlocalipaddrs ip address list", messageBuf, 0);
host->h_addr_list++;
}
#endif /* COMMENT */
#else /* HADDRLIST */
if (index != 0) {
buf[0] = '\0';
return(-1);
}
l_sa.sin_addr.s_addr = *((unsigned long *) (host->h_addr));
ckstrncpy(buf,(char *)inet_ntoa(l_sa.sin_addr),bufsz);
debug(F110,"getlocalipaddrs setting buf to",buf,0);
#endif /* HADDRLIST */
return(0);
} else debug(F110,
"getlocalipaddrs: gethostbyname() failed",
localhost,
0
);
}
#endif /* datageneral */
return(-1);
}
#ifdef RLOGCODE /* TCP/IP RLOGIN protocol support code */
int
rlog_naws() {
struct rlog_naws {
char id[4];
unsigned short rows, cols, ypix, xpix;
} nawsbuf;
if (ttnet != NET_TCPB)
return 0;
if (ttnproto != NP_RLOGIN
#ifdef CK_KERBEROS
&& ttnproto != NP_K4LOGIN
&& ttnproto != NP_EK4LOGIN
&& ttnproto != NP_K5LOGIN
&& ttnproto != NP_EK5LOGIN
#endif /* CK_KERBEROS */
)
return 0;
if (!TELOPT_ME(TELOPT_NAWS))
return 0;
debug(F100,"rlogin Window Size sent","",0);
nawsbuf.id[0] = nawsbuf.id[1] = 0xFF;
nawsbuf.id[2] = nawsbuf.id[3] = 's';
#ifdef OS2
nawsbuf.rows = htons((unsigned short) (VscrnGetHeight(VTERM)
-(tt_status?1:0)));
nawsbuf.cols = htons((unsigned short) VscrnGetWidth(VTERM));
#else /* OS2 */
nawsbuf.rows = htons((unsigned short) tt_rows);
nawsbuf.cols = htons((unsigned short) tt_cols);
#endif /* OS2 */
nawsbuf.ypix = htons(0); /* y pixels */
nawsbuf.xpix = htons(0); /* x pixels */
if (ttol((CHAR *)(&nawsbuf), 12) < 0)
return(-1);
return(0);
}
#ifdef OS2ORUNIX
#define RLOGOUTBUF
#endif /* OS2 */
static int
#ifdef CK_ANSIC
rlog_ini(CHAR * hostname, int port,
struct sockaddr_in * l_addr, struct sockaddr_in * r_addr)
#else /* CK_ANSIC */
rlog_ini(hostname, port, l_addr, r_addr)
CHAR * hostname;
int port;
struct sockaddr_in * l_addr;
struct sockaddr_in * r_addr;
#endif /* CK_ANSIC */
/* rlog_ini */ {
#ifdef RLOGOUTBUF
char outbuf[512];
int outbytes=0;
#endif /* RLOGOUTBUF */
int flag = 0;
#define TERMLEN 16
#define CONSPDLEN 16
CHAR localuser[UIDBUFLEN+1];
CHAR remoteuser[UIDBUFLEN+1];
int userlen = 0;
CHAR term_speed[TERMLEN+CONSPDLEN+1];
#ifdef CONGSPD
long conspd = -1L;
#endif /* CONGSPD */
#ifdef OS2
extern int tt_type, max_tt;
extern struct tt_info_rec tt_info[];
#endif /* OS2 */
int i, n;
int rc = 0;
tn_reset(); /* This call will reset all of the Telnet */
/* options and then quit. We need to do */
/* this since we use the Telnet options */
/* to hold various state information */
duplex = 0; /* Rlogin is always remote echo */
#ifdef CK_TTGWSIZ
/*
But compute the values anyway before the first read since the out-
of-band NAWS request would arrive before the first data byte (NULL).
*/
#ifdef OS2
/* Console terminal screen rows and columns */
debug(F101,"rlog_ini tt_rows 1","",VscrnGetHeight(VTERM)
-(tt_status?1:0));
debug(F101,"rlog_ini tt_cols 1","",VscrnGetWidth(VTERM));
/* Not known yet */
if (VscrnGetWidth(VTERM) < 0 ||
VscrnGetHeight(VTERM)-(tt_status?1:0) < 0) {
ttgwsiz(); /* Try to get screen dimensions */
}
debug(F101,"rlog_ini tt_rows 2","",VscrnGetHeight(VTERM)-(tt_status?1:0));
debug(F101,"rlog_ini tt_cols 2","",VscrnGetWidth(VTERM));
#else /* OS2 */
debug(F101,"rlog_ini tt_rows 1","",tt_rows);
debug(F101,"rlog_ini tt_cols 1","",tt_cols);
if (tt_rows < 0 || tt_cols < 0) { /* Not known yet */
ttgwsiz(); /* Try to find out */
}
debug(F101,"rlog_ini tt_rows 2","",tt_rows);
debug(F101,"rlog_ini tt_cols 2","",tt_cols);
#endif /* OS2 */
#endif /* CK_TTGWSIZ */
ttflui(); /* Start by flushing the buffers */
rlog_mode = RL_COOKED;
/* Followed by client username ... */
localuser[0] = '\0';
#ifdef NT
{
char localuid[UIDBUFLEN+1];
unsigned long len = UIDBUFLEN;
localuid[0] = '\0';
#ifdef COMMENT
WNetGetUser(NULL, localuid, &len);
#else /* COMMENT */
GetUserName(localuid,&len);
#endif /* COMMENT */
ckstrncpy((char *)localuser,localuid,UIDBUFLEN);
}
#else /* NT */
{
char * user = getenv("USER");
if (!user)
user = "";
userlen = strlen(user);
debug(F111,"rlogin getenv(USER)",user,userlen);
ckstrncpy((char *)localuser,user,UIDBUFLEN);
debug(F110,"rlog_ini localuser 1",localuser,0);
if (ck_lcname) {
cklower((char *)localuser);
debug(F110,"rlog_ini localuser 2",localuser,0);
}
}
#endif /* NT */
/* Then the server userid... */
if (uidbuf[0]) {
ckstrncpy((char *)remoteuser,uidbuf,UIDBUFLEN);
debug(F110,"rlog_ini remoteuser 1",remoteuser,0);
} else if (localuser[0]) {
ckstrncpy((char *)remoteuser,(char *)localuser,UIDBUFLEN);
debug(F110,"rlog_ini remoteuser 2",remoteuser,0);
} else {
remoteuser[0] = '\0';
debug(F110,"rlog_ini remoteuser 3",remoteuser,0);
}
if (ck_lcname)
cklower((char *)remoteuser);
debug(F110,"rlog_ini remoteuser 4",remoteuser,0);
/* Finally the terminal type and speed */
term_speed[0] = '\0';
if (tn_term) { /* SET TELNET TERMINAL-TYPE value */
if (*tn_term) { /* (if any) takes precedence. */
ckstrncpy((char *)term_speed, tn_term, TERMLEN);
flag = 1;
}
} else { /* Otherwise the local terminal type */
#ifdef OS2
/* In terminal-emulating versions, it's the SET TERM TYPE value */
ckstrncpy(term_speed, (tt_type >= 0 && tt_type <= max_tt) ?
tt_info[tt_type].x_name : "network", TERMLEN);
#else
/* In the others, we just look at the TERM environment variable */
{
char *p = getenv("TERM");
if (p)
ckstrncpy((char *)term_speed,p,TERMLEN);
else
term_speed[0] = '\0';
#ifdef VMS
for (p = (char *) term_speed; *p; p++) {
if (*p == '-' && (!strcmp(p,"-80") || !strcmp(p,"-132")))
break;
else if (isupper(*p))
*p = tolower(*p);
}
*p = '\0';
#endif /* VMS */
}
#endif /* OS2 */
}
n = strlen((char *)term_speed);
if (n > 0) { /* We have a terminal type */
if (!flag) { /* If not user-specified */
for (i = 0; i < n; i++) /* then lowercase it. */
if (isupper(term_speed[i]))
term_speed[i] = tolower(term_speed[i]);
}
debug(F110,"rlog_ini term_speed 1",term_speed,0);
#ifdef CONGSPD
/* conspd() is not yet defined in all ck*tio.c modules */
conspd = congspd();
if (conspd > 0L) {
sprintf((char *)(&term_speed[strlen((char *)term_speed)]),
"/%ld",
conspd
);
} else
#endif /* CONGSPD */
strcat((char *)term_speed,"/19200");
debug(F110,"rlog_ini term_speed 2",term_speed,0);
} else {
term_speed[0] = '\0';
debug(F110,"rlog_ini term_speed 3",term_speed,0);
}
#ifdef CK_KERBEROS
if (ttnproto == NP_K4LOGIN || ttnproto == NP_EK4LOGIN ||
ttnproto == NP_K5LOGIN || ttnproto == NP_EK5LOGIN) {
int kver, encrypt, rc;
switch (ttnproto) {
case NP_K4LOGIN:
kver = 4;
encrypt = 0;
break;
case NP_EK4LOGIN:
kver = 4;
encrypt = 1;
break;
case NP_K5LOGIN:
kver = 5;
encrypt = 0;
break;
case NP_EK5LOGIN:
kver = 5;
encrypt = 1;
break;
default:
kver = 0;
encrypt = 0;
}
rc = ck_krb_rlogin(hostname, port,
localuser, remoteuser, term_speed,
l_addr, r_addr, kver, encrypt);
if (!rc) { /* success */
TELOPT_ME(TELOPT_NAWS) = 1;
rc = rlog_naws();
}
return(rc);
} else
#endif /* CK_KERBEROS */
if (ttnproto == NP_RLOGIN) {
#ifdef RLOGOUTBUF
outbuf[outbytes++] = 0;
strcpy((char *)outbuf+outbytes,(char *)localuser);
outbytes += strlen((char *)localuser) + 1;
strcpy((char *)outbuf+outbytes,(char *)remoteuser);
outbytes += strlen((char *)remoteuser) + 1;
strcpy((char *)outbuf+outbytes,(char *)term_speed);
outbytes += strlen((char *)term_speed) + 1;
rc = ttol((CHAR *)outbuf,outbytes);
#else /* RLOGOUTBUF */
ttoc(0); /* Send an initial NUL as wake-up */
/* Send each variable with the trailing NUL */
rc = ttol(localuser,strlen((char *)localuser)+1);
if (rc > 0)
rc = ttol(remoteuser,strlen((char *)remoteuser)+1);
if (rc > 0)
rc = ttol(term_speed,strlen((char *)term_speed)+1);
#endif /* RLOGOUTBUF */
/* Now we are supposed to get back a single NUL as confirmation */
errno = 0;
rc = ttinc(60);
debug(F101,"rlogin first ttinc","",rc);
if (rc > 0) {
debug(F101,"rlogin ttinc 1","",rc);
printf(
"Rlogin protocol error - 0x%x received instead of 0x00\n", rc);
return(-1);
} else if (rc < 0) {
debug(F101,"rlogin ttinc errno","",errno);
/* printf("Network error: %d\n", errno); */
return(-1);
}
}
return(0);
}
#ifdef TCPIPLIB
static VOID
rlog_oob(oobdata, count) CHAR * oobdata; int count; {
int i;
debug(F111,"rlogin out_of_band","count",count);
for (i = 0; i<count; i++) {
debug(F101,"rlogin out_of_band","",oobdata[i]);
if (oobdata[i] == 0x02) { /* Flush Buffered Data not yet displayed */
debug(F101,"rlogin Flush Buffered Data command","",oobdata[i]);
/* Only flush the data if in fact we are in a mode that won't */
/* get out of sync. Ie, not when we are in protocol mode. */
switch ( what ) {
case W_NOTHING:
case W_CONNECT:
case W_COMMAND:
ttflui();
break;
}
}
if (oobdata[i] & 0x10) { /* Switch to RAW mode */
debug(F101,"rlogin Raw Mode command","",oobdata[i]);
rlog_mode = RL_RAW;
}
if (oobdata[i] & 0x20) { /* Switch to COOKED mode */
debug(F101,"rlogin Cooked Mode command","",oobdata[i]);
rlog_mode = RL_COOKED;
}
if (oobdata[i] & 0x80) { /* Send Window Size Info */
debug(F101,"rlogin Window Size command","",oobdata[i]);
/* Remember to send WS Info when Window Size changes */
TELOPT_ME(TELOPT_NAWS) = 1;
rlog_naws();
}
}
}
#else /* TCPIPLIB */
static SIGTYP
rlogoobh(sig) int sig; {
#ifdef SOLARIS
char /* Or should it be char for all? */
#else
CHAR
#endif /* SOLARIS */
oobdata;
int count = 0;
while (recv(ttyfd, &oobdata, 1, MSG_OOB) < 0) {
/*
* We need to do some special processing here.
* Just in case the socket is blocked for input
*
*/
switch (errno) {
case EWOULDBLOCK:
break;
default:
return;
}
}
debug(F101,"rlogin out_of_band","",oobdata);
if (oobdata == 0x02) { /* Flush Buffered Data not yet displayed */
debug(F101,"rlogin Flush Buffered Data command","",oobdata);
netflui();
}
if (oobdata & 0x10) { /* Switch to raw mode */
debug(F101,"rlogin Raw Mode command","",oobdata);
rlog_mode = RL_RAW;
}
if (oobdata & 0x20) { /* Switch to cooked mode */
debug(F101,"rlogin Cooked Mode command","",oobdata);
rlog_mode = RL_COOKED;
}
if (oobdata & 0x80) { /* Send Window Size Info */
debug(F101,"rlogin Window Size command","",oobdata);
/* Remember to send WS Info when Window Size changes */
TELOPT_ME(TELOPT_NAWS) = 1;
rlog_naws();
}
}
#endif /* TCPIPLIB */
#endif /* RLOGCODE */
/* Send network BREAK */
/*
Returns -1 on error, 0 if nothing happens, 1 if BREAK sent successfully.
*/
int
netbreak() {
CHAR buf[3];
if (ttnet == NET_TCPB) {
if (ttnproto == NP_TELNET) {
#ifdef TNCODE
buf[0] = (CHAR) IAC; buf[1] = (CHAR) BREAK; buf[2] = (CHAR) 0;
if (
#ifdef OS2
nettol((char *) buf, 2)
#else
ttol(buf, 2)
#endif /* OS2 */
< 2)
return(-1);
if (tn_deb || debses || deblog) {
extern char tn_msg[];
sprintf(tn_msg,"TELNET SENT %s",TELCMD(BREAK));
debug(F101,tn_msg,"",BREAK);
if (debses || tn_deb) tn_debug(tn_msg);
}
return(1);
#else
debug(F100,"netbreak no TNCODE","",0);
return(0);
#endif /* TNCODE */
}
/* Insert other TCP/IP protocols here */
}
/* Insert other networks here */
return(0);
}
#endif /* NETCONN */
#ifdef NETCONN
#ifdef SUNX25
/*
SunLink X.25 support by Marcello Frutig, Catholic University,
Rio de Janeiro, Brazil, 1990.
*/
/* PAD X.3, X.28 and X.29 support */
static CHAR x29err[MAXPADPARMS+3] = { X29_ERROR, INVALID_PAD_PARM, '\0' };
/* Initialize PAD */
extern CHAR padparms[];
VOID
initpad() {
padparms[PAD_BREAK_CHARACTER] = 0; /* Break character */
padparms[PAD_ESCAPE] = 1; /* Escape permitted */
padparms[PAD_ECHO] = 1; /* Kermit PAD does echo */
padparms[PAD_DATA_FORWARD_CHAR] = 2; /* forward character CR */
padparms[PAD_DATA_FORWARD_TIMEOUT] = 0; /* no timeout forward condition */
padparms[PAD_FLOW_CONTROL_BY_PAD] = 0; /* not used */
padparms[PAD_SUPPRESSION_OF_SIGNALS] = 1; /* allow PAD service signals */
padparms[PAD_BREAK_ACTION] = 21; /* brk action: INT pk + brk ind*/
padparms[PAD_SUPPRESSION_OF_DATA] = 0; /* no supression of user data */
padparms[PAD_PADDING_AFTER_CR] = 0; /* no padding after CR */
padparms[PAD_LINE_FOLDING] = 0; /* no line fold */
padparms[PAD_LINE_SPEED] = 0; /* line speed - don't care */
padparms[PAD_FLOW_CONTROL_BY_USER] = 0; /* flow cont of PAD - not used */
padparms[PAD_LF_AFTER_CR] = 0; /* no LF insertion after CR */
padparms[PAD_PADDING_AFTER_LF] = 0; /* no padding after LF */
padparms[PAD_EDITING] = 1; /* can edit */
padparms[PAD_CHAR_DELETE_CHAR] = 8; /* character delete character */
padparms[PAD_BUFFER_DELETE_CHAR] = 21; /* buffer delete character */
padparms[PAD_BUFFER_DISPLAY_CHAR] = 18; /* buffer display character */
}
/* Set PAD parameters */
VOID
setpad(s,n) CHAR *s; int n; {
int i;
CHAR *ps = s;
if (n < 1) {
initpad();
} else {
for (i = 0; i < n; i++) {
if (*ps > MAXPADPARMS)
x29err[i+2] = *ps;
else
padparms[*ps] = *(ps+1);
ps += 2;
}
}
}
/* Read PAD parameters */
VOID
readpad(s,n,r) CHAR *s; int n; CHAR *r; {
int i;
CHAR *ps = s;
CHAR *pr = r;
*pr++ = X29_PARAMETER_INDICATION;
if (n > 0) {
for (i = 0; i < n; i++, ps++) {
if (*ps > MAXPADPARMS) {
x29err[i+2] = *ps++;
} else {
*pr++ = *ps;
*pr++ = padparms[*ps++];
}
}
} else {
for (i = 1; i < MAXPADPARMS; i++) {
*pr++ = i;
*pr++ = padparms[i];
}
}
}
int
qbitpkt(s,n) CHAR *s; int n; {
CHAR *ps = s;
int x29cmd = *ps;
CHAR *psa = s+1;
CHAR x29resp[(MAXPADPARMS*2)+1];
switch (x29cmd) {
case X29_SET_PARMS:
setpad (ps+1,n/2);
if ((int)strlen((char *)x29err) > 2) {
ttol(x29err,(int)strlen((char *)x29err));
x29err[2] = '\0';
}
return (-2);
case X29_READ_PARMS:
readpad (ps+1,n/2,x29resp);
setqbit ();
ttol(x29resp,(n>1)?(n+1):(2*MAXPADPARMS+1));
if ((int)strlen((char *)x29err) > 2) {
ttol(x29err,(int)strlen((char *)x29err));
x29err[2] = '\0';
}
resetqbit();
break;
case X29_SET_AND_READ_PARMS:
setpad (ps+1,n/2);
readpad (ps+1,n/2,x29resp);
setqbit();
ttol(x29resp,(n>1)?(n+1):(2*MAXPADPARMS+1));
if ((int)strlen((char *)x29err) > 2) {
ttol (x29err,(int)strlen((char *)x29err));
x29err [2] = '\0';
}
resetqbit();
return (-2);
case X29_INVITATION_TO_CLEAR:
(VOID) x25clear();
return (-1);
case X29_INDICATION_OF_BREAK:
break;
}
return (0);
}
/* PAD break action processor */
VOID
breakact() {
extern char x25obuf[MAXOX25];
extern int obufl;
extern int active;
extern unsigned char tosend;
static CHAR indbrk[3] = {
X29_INDICATION_OF_BREAK,
PAD_SUPPRESSION_OF_DATA,
1
};
CHAR intudat, cause, diag;
if (x25stat() < 0) return; /* Ignore if no virtual call established */
if (padparms[PAD_BREAK_ACTION] != 0) /* Forward condition */
if (ttol((CHAR *)x25obuf,obufl) < 0) {
perror ("\r\nCan't send characters");
active = 0;
} else {
bzero (x25obuf,sizeof(x25obuf));
obufl = 0;
tosend = 0;
};
switch (padparms[PAD_BREAK_ACTION]) {
case 0 : break; /* do nothing */
case 1 : /* send interrupt packet with interrupt user data field = 1 */
intudat = 1;
x25intr (intudat);
break;
case 2 : /* send reset packet with cause and diag = 0 */
cause = diag = 0;
x25reset (cause,diag);
break;
case 5 : /* send interrupt packet with interrupt user data field = 0 */
intudat = 0;
x25intr (intudat);
setqbit ();
/* send indication of break without a parameter field */
ttoc(X29_INDICATION_OF_BREAK);
resetqbit ();
break;
case 8 : active = 0; /* leave data transfer */
conol ("\r\n");
break;
case 21: /* send interrupt packet with interrupt user data field = 0 */
intudat = 0;
x25intr (intudat);
setpad (indbrk+1,2); /* set pad to discard input */
setqbit ();
/* send indication of break with parameter field */
ttol (indbrk,sizeof(indbrk));
resetqbit ();
break;
}
}
/* X.25 support functions */
X25_CAUSE_DIAG diag;
/*
Convert a null-terminated string representing an X.121 address
to a packed BCD form.
*/
int
pkx121(str,bcd) char *str; CHAR *bcd; {
int i, j;
u_char c;
i = j = 0;
while (str[i]) {
if (i >= 15 || str [i] < '0' || str [i] > '9')
return (-1);
c = str [i] - '0';
if (i & 1)
bcd [j++] |= c;
else
bcd [j] = c << 4;
i++;
}
return (i);
}
/* Reads and prints X.25 diagnostic */
int
x25diag () {
int i;
bzero ((char *)&diag,sizeof(diag));
if (ioctl(ttyfd,X25_RD_CAUSE_DIAG,&diag)) {
perror ("Reading X.25 diagnostic");
return(-1);
}
if (diag.datalen > 0) {
printf ("X.25 Diagnostic :");
for (i = 0; i < (int)diag.datalen; i++)
printf(" %02h",diag.data[i])+
printf ("\r\n");
}
return(0);
}
/* X.25 Out-of-Band Signal Handler */
SIGTYP
x25oobh(foo) int foo; {
int oobtype;
u_char oobdata;
int t;
(VOID) signal(SIGURG,x25oobh);
do {
if (ioctl(ttyfd,X25_OOB_TYPE,&oobtype)) {
perror ("Getting signal type");
return;
}
switch (oobtype) {
case INT_DATA:
if (recv(ttyfd,(char *)&oobdata,1,MSG_OOB) < 0) {
perror ("Receiving X.25 interrupt data");
return;
}
t = oobdata;
printf ("\r\nInterrupt received, data = %d\r\n", t);
break;
case VC_RESET:
printf ("\r\nVirtual circuit reset\r\n");
x25diag ();
break;
case N_RESETS:
printf ("\r\nReset timeout\r\n");
break;
case N_CLEARS:
printf ("\r\nClear timeout\r\n");
break;
case MSG_TOO_LONG:
printf ("\r\nMessage discarded, too long\r\n");
break;
default:
if (oobtype) printf("\r\nUnknown oob type %d\r\n",oobtype);
break;
}
} while (oobtype);
}
/* Send a X.25 interrupt packet */
int
#ifdef CK_ANSIC
x25intr(char intr)
#else
x25intr(intr) char intr;
#endif /* CK_ANSIC */
/* x25intr */ {
if (send(ttyfd,&intr,1,MSG_OOB) < 0) return(-1);
debug(F100,"X.25 intr","",0);
return(0);
}
/* Reset X.25 virtual circuit */
int
#ifdef CK_ANSIC
x25reset(char cause, char diagn)
#else
x25reset(cause, diagn) char cause; char diagn;
#endif /* CK_ANSIC */
/* x25reset */ {
bzero ((char *)&diag,sizeof(diag));
diag.flags = 0;
diag.datalen = 2;
diag.data[0] = cause;
diag.data[1] = diagn;
if (ioctl(ttyfd,X25_WR_CAUSE_DIAG,&diag) < 0)
return(-1);
debug(F100,"X.25 reset","",0);
return(0);
}
/* Clear X.25 virtual circuit */
int
x25clear() {
int i;
debug(F100,"X.25 clear","",0);
bzero ((char *)&diag,sizeof(diag));
diag.flags = (1 << DIAG_TYPE);
diag.datalen = 2;
diag.data[0] = 0;
diag.data[1] = 0;
ioctl (ttyfd,X25_WR_CAUSE_DIAG,&diag); /* Send Clear Request */
return(ttclos(0)); /* Close socket */
}
/* X.25 status */
int
x25stat() {
if (ttyfd == -1) return (-1);
return(0);
}
/* Set Q_BIT on */
VOID
setqbit() {
static int qbiton = 1 << Q_BIT;
ioctl (ttyfd,X25_SEND_TYPE,&qbiton);
}
/* Set Q_BIT off */
VOID
resetqbit() {
static int qbitoff = 0;
ioctl (ttyfd,X25_SEND_TYPE,&qbitoff);
}
/* Read n characters from X.25 circuit into buf */
int
x25xin(n,buf) int n; CHAR *buf; {
register int x, c;
int qpkt;
do {
x = read(ttyfd,buf,n);
if (buf[0] & (1 << Q_BIT)) { /* If Q_BIT packet, process it */
/* If return -1 : invitation to clear; -2 : PAD changes */
if ((c=qbitpkt(buf+1,x-2)) < 0) return(c);
qpkt = 1;
} else qpkt = 0;
} while (qpkt);
#ifdef COMMENT /* Disabled by Stephen Riehm 19.12.97 */
/* BUG!
* if buf[] is full, then this null lands in nirvana!
* I was unable to find any code which needs a trailing null in buf[]
*/
if (x > 0) buf[x] = '\0';
#endif /* COMMENT */
if (x < 1) x = -1;
debug(F101,"x25xin x","",x);
return(x);
}
#ifdef COMMENT /* NO LONGER NEEDED! */
/* X.25 read a line */
int
#ifdef PARSENSE
#ifdef CK_ANSIC
x25inl(CHAR *dest, int max,int timo, CHAR eol, CHAR start)
#else
x25inl(dest,max,timo,eol,start) int max,timo; CHAR *dest, eol, start;
#endif /* CK_ANSIC */
#else /* not PARSENSE */
#ifdef CK_ANSIC
x25inl(CHAR *dest, int max,int timo, CHAR eol)
#else
x25inl(dest,max,timo,eol) int max,timo; CHAR *dest, eol;
#endif /* __SDTC__ */
#endif /*PARSENSE */
/* x25inl */ {
CHAR *pdest;
int pktype, goteol, rest, n;
int i, flag = 0;
extern int ttprty, ttpflg;
int ttpmsk;
ttpmsk = (ttprty) ? 0177 : 0377; /* Set parity stripping mask */
debug(F101,"x25inl max","",max);
debug(F101,"x25inl eol","",eol);
pdest = dest;
rest = max;
goteol = 0;
do {
n = read(ttyfd,pdest,rest);
n--;
pktype = *pdest & 0x7f;
switch (pktype) {
case 1 << Q_BIT:
if (qbitpkt(pdest+1,--n) < 0) return(-2);
break;
default:
if (flag == 0) { /* if not in packet, search start */
for (i = 1; (i < n) &&
!(flag = ((dest[i] & 0x7f) == start));
i++);
if (flag == 0) { /* not found, discard junk */
debug(F101,"x25inl skipping","",n);
continue;
} else { /* found, discard junk before start */
int k;
n = n - i + 1;
for (k = 1; k <= n; k++, i++) dest[k] = dest[i];
}
}
for (i = 0; (i < n) && /* search for eol */
!(goteol=(((*pdest = *(pdest+1)&ttpmsk)&0x7f)== eol));
i++,pdest++);
*pdest = '\0';
rest -= n;
}
} while ((rest > 0) && (!goteol));
if (goteol) {
n = max - rest;
debug (F111,"x25inl X.25 got",(char *) dest,n);
if (timo) ttimoff();
if (ttpflg++ == 0 && ttprty == 0) {
if ((ttprty = parchk(dest,start,n)) > 0) {
int j;
debug(F101,"x25inl senses parity","",ttprty);
debug(F110,"x25inl packet before",(char *)dest,0);
ttpmsk = 0x7f;
for (j = 0; j < n; j++)
dest[j] &= 0x7f; /* Strip parity from packet */
debug(F110,"x25inl packet after ",dest,0);
} else {
debug(F101,"parchk","",ttprty);
if (ttprty < 0) { ttprty = 0; n = -1; }
}
}
ttimoff();
return(n);
}
ttimoff();
return(-1);
}
#endif /* COMMENT */
#endif /* SUNX25 */
#ifdef IBMX25
/*
* IBM X25 support - using the NPI streams interface
* written by Stephen Riehm, pc-plus, Munich Germany
*/
/* riehm: missing functions / TODO list */
/*
x25intr() - Send an interrupt packet
*/
/* return an error message depending on packet type */
char *
x25err(n) int n; {
static char buf[30];
switch (n) {
case NBADADDR: return "invalid address";
case NBADOPT: return "invalid options";
case NACCESS: return "no permission";
case NNOADDR: return "unable to allocate address";
case NOUTSTATE: return "invalid state";
case NBADSEQ: return "invalid sequence number";
case NSYSERR: return "system error";
case NBADDATA: return "invalid data size";
case NBADFLAG: return "invalid flag";
case NNOTSUPPORT: return "unsupported primitive";
case NBOUND: return "address in use";
case NBADQOSPARAM: return "bad QOS parameters";
case NBADQOSTYPE: return "bad QOS type";
case NBADTOKEN: return "bad token value";
case NNOPROTOID: return "protocol id could not be allocated";
case NODDCUD: return "odd length call user data";
default: (void) sprintf(buf, "Unknown NPI error %d", n); return buf;
}
}
/* turn a meaningless primitive number into a meaningful primitive name */
char *
x25prim(n) int n; {
static char buf[30];
switch(n) {
case N_BIND_ACK: return "N_BIND_ACK";
case N_BIND_REQ: return "N_BIND_REQ";
case N_CONN_CON: return "N_CONN_CON";
case N_CONN_IND: return "N_CONN_IND";
case N_CONN_REQ: return "N_CONN_REQ";
case N_CONN_RES: return "N_CONN_RES";
case N_DATACK_IND: return "N_DATAACK_IND";
case N_DATACK_REQ: return "N_DATAACK_REQ";
case N_DATA_IND: return "N_DATA_IND";
case N_DATA_REQ: return "N_DATA_REQ";
case N_DISCON_IND: return "N_DISCON_IND";
case N_DISCON_REQ: return "N_DISCON_REQ";
case N_ERROR_ACK: return "N_ERROR_ACK";
case N_EXDATA_IND: return "N_EXDATA_IND";
case N_EXDATA_REQ: return "N_EXDATA_REQ";
case N_INFO_ACK: return "N_INFO_ACK";
case N_INFO_REQ: return "N_INFO_REQ";
case N_OK_ACK: return "N_OK_ACK";
case N_OPTMGMT_REQ: return "N_OPTMGMT_REQ";
case N_RESET_CON: return "N_RESET_CON";
case N_RESET_IND: return "N_RESET_IND";
case N_RESET_REQ: return "N_RESET_REQ";
case N_RESET_RES: return "N_RESET_RES";
case N_UDERROR_IND: return "N_UDERROR_IND";
case N_UNBIND_REQ: return "N_UNBIND_REQ";
case N_UNITDATA_REQ: return "N_UNITDATA_REQ";
case N_UNITDATA_IND: return "N_UNITDATA_IND";
default: (void) sprintf(buf, "UNKNOWN (%d)", n); return buf;
}
}
/*****************************************************************************
* Function: x25getmsg()
* Description: get a STREAMS message, and check it for errors
*
* Parameters:
* fd - file descriptor to x25 device (opened)
* control - control buffer (pre-allocated)
* ctl_size - size of control buffer
* data - data buffer (pre-allocated)
* data_size - size of data buffer
* flags - flags for getmsg()
* expected - expected Primitive type
*
* Return Value:
* >= 0 OK (size of data returned)
* -1 error
*
*/
int
x25getmsg( fd, control, ctl_size, data, data_size, get_flags, expected )
int fd; /* X25 device (opened) */
N_npi_ctl_t *control; /* control buffer (pre-allocated) */
int ctl_size; /* size of control buffer */
N_npi_data_t *data; /* data buffer (pre-allocated) */
int data_size; /* size of data buffer */
int *get_flags; /* getmsg() flags */
int expected; /* expected primitive type */
/* x25getmsg */ {
int rc = 0; /* return code */
struct strbuf *get_ctl=NULL; /* getmsg control */
struct strbuf *get_data=NULL; /* getmsg data */
int more = 0; /* flag for more data etc */
int file_status = -1; /* file async status */
N_npi_ctl_t * result; /* pointer to simplify switch() */
int packet_type = -1; /* unknown packet thus far */
#ifdef TRACE
printf( "TRACE: entering x25getmsg\n" );
#endif /* TRACE */
debug( F110, "x25getmsg waiting for packet ", x25prim( expected ), 0);
/* prepare the control structures for getmsg */
if (control) {
if ((get_ctl = (struct strbuf*)malloc(sizeof(struct strbuf))) == NULL)
{
perror("kermit x25getmsg(): get_ctl malloc failed\n");
debug( F100, "x25getmsg malloc failed for get_ctl\n", "", 0);
return(-1);
}
/* allow getmsg to return an unexpected packet type (which may be
* larger than the expected one)
*/
get_ctl->maxlen = NPI_MAX_CTL;
get_ctl->len = 0;
get_ctl->buf = (char *)control;
} else {
printf(
"kermit x25getmsg(): internal error. control buffer MUST be pre-allocated!\n"
);
debug(F100,"x25getmsg internal error. no buffer pre-allocated","",0);
return( -1 );
}
if (data) {
if ((get_data = (struct strbuf*)malloc(sizeof(struct strbuf))) == NULL)
{
perror("kermit x25getmsg(): get_data malloc failed\n");
debug( F100, "x25getmsg malloc failed for get_data\n", "", 0);
return(-1);
}
get_data->maxlen = (NPI_MAX_DATA < data_size ) ?
NPI_MAX_DATA :
data_size;
get_data->len = 0;
get_data->buf = (char *)data;
}
/* get an X.25 packet -
* it may be any kind of packet, so check for special cases
* it may be split into multiple parts - so loop if necessary
*/
do {
#ifdef DEBUG
printf( "kermit: x25getmsg(): getting a message\n" );
#endif /* DEBUG */
errno = 0;
if ((more = getmsg(fd, get_ctl, get_data, get_flags)) < 0) {
#ifdef DEBUG
printf( "kermit: x25getmsg(): getmsg returned an error\n" );
perror( "getmsg error was" );
#endif /* DEBUG */
debug(F101, "x25getmsg getmsg returned an error\n", "", errno);
if ((errno == EAGAIN) && (get_data && (get_data->len > 0)) ) {
/* was in non-blocking mode, nothing to get, but we're
* already waiting for the rest of the packet -
* switch to blocking mode for the next read.
* file_status used to reset file status before returning
*/
if ((file_status = fcntl(fd, F_GETFL, 0)) < 0
|| fcntl(fd, F_SETFL, file_status & ~O_NDELAY) < 0)
{
perror("x25getmsg(): couldn't change x25 blocking mode");
debug(F101,
"x25getmsg fcntl returned an error\n", "", errno);
/* netclos(); */
rc = -1;
break;
} else {
/* loop again into a blocking getmsg() */
continue;
}
} else {
/* no data to get in non-blocking mode - return empty handed */
perror( "x25getmsg(): getmsg failed" );
debug(F101,"x25getmsg getmsg returned an error\n", "", errno);
rc = -1;
break;
}
} else if (more & MORECTL) {
/* panic - the control information was larger than the
* maximum control buffer size!
*/
/* riehm: close connection? */
#ifdef DEBUG
printf("x25getmsg(): received partial control packet - panic\n");
#endif /* DEBUG */
debug( F101, "x25getmsg getmsg bad control block\n", "", errno);
rc = -1;
break;
}
if (result = (N_npi_ctl_t *)control) {
packet_type = result->bind_ack.PRIM_type;
if (packet_type != N_OK_ACK) {
x25lastmsg = packet_type;
}
}
#ifdef DEBUG
/* printf( "kermit: x25getmsg(): getting " ); */
if (get_ctl->len > 0) {
x25dump_prim(result);
}
debug(F110,
"x25getmsg got packet ",
x25prim( result->bind_ack.PRIM_type ),
0
);
#endif /* DEBUG */
if (get_ctl->len >= (int)sizeof(result->bind_ack.PRIM_type)) {
/* not as pretty as a switch(), but switch can't handle
* runtime variable values :-(
*/
if (packet_type == expected ) {
/* got what we wanted, special case for DATA_IND
* packets though */
/* riehm: check Q-bit ? */
#ifdef DEBUG
printf("x25getmsg(): got expected packet\nrc is %d\n", rc);
#endif /* DEBUG */
if (packet_type == N_DATA_IND ) {
/* data received. May be incomplete, even though
* getmsg returned OK
*/
if (result->data_ind.DATA_xfer_flags & N_MORE_DATA_FLAG)
more |= MOREDATA;
if (result->data_ind.DATA_xfer_flags & N_RC_FLAG)
printf( "x25getmsg(): data packet wants ack\n" );
}
} else if( packet_type == N_DISCON_IND) {
printf( "X25 diconnected\n" );
/* riehm: need to acknowledge a disconnection? */
x25clear();
/* x25unbind( ttyfd ); */
rc = -1;
} else if( packet_type == N_ERROR_ACK) {
errno = result->error_ack.UNIX_error;
perror( "X25 error received" );
rc = -1;
} else {
printf("x25getmsg(): failed %s\n", x25err(packet_type));
rc = -1;
}
}
#ifdef COMMENT
else {
/* Panic - no control data */
printf( "kermit: x25getmsg(): no control data with packet\n" );
rc = -1;
}
#endif /* COMMENT */
if (get_data && (get_data->len >= 0)) {
get_data->buf += get_data->len;
get_data->maxlen -= get_data->len;
}
} while ((rc == 0)
&& (get_data && (get_data->maxlen > 0))
&& (more & MOREDATA)
);
/* return the file status to its original value, unless its still
* set to -1, or one of the fcntl's failed */
if ((file_status >= 0) && fcntl(fd, F_SETFL, file_status) < 0)
rc = -1;
/*
* Verify that we received an expected primitive
* there is apparantly an error case where the primitive is set
* correctly, but there is not enough data in the control structure
*/
if ((packet_type != expected) && (get_ctl->len >= ctl_size) ) {
fprintf(stderr,
"x25getmsg(): %s NOT received. Primitive received was %s\n",
x25prim( expected ), x25prim( packet_type ));
debug(F110, "x25getmsg got an unexpected packet ",
x25prim(packet_type),
0
);
rc = -1;
}
if (rc == 0) {
if (get_data && ( get_data->len >= 0)) {
rc = get_data->len;
}
}
if (get_ctl) { free(get_ctl); get_ctl = NULL; }
if (get_data) { free(get_data); get_data = NULL; }
#ifdef COMMENT
#ifdef DEBUG
printf( "kermit x25getmsg(): returning %d\n", rc );
#endif /* DEBUG */
#endif /* COMMENT */
debug(F110, "x25getmsg returning packet ", x25prim( packet_type ), 0);
#ifdef TRACE
printf( "TRACE: leaving x25getmsg\n" );
#endif /* TRACE */
return(rc);
}
/*****************************************************************************
* Function: x25putmsg()
*
* Description:
* send a message to a X25 STREAM
*
* Parameters:
* fd - file descriptor to x25 device (opened)
* control - control buffer (pre-allocated)
* data - data buffer (pre-allocated)
* data_len - length of data to be transmitted
* put_flags - flags for putmsg()
*
* Return Value:
* >= 0 number of bytes transmitted
* -1 error
*/
int
x25putmsg(fd, control, data, data_len, put_flags)
int fd; /* X25 device (opened) */
N_npi_ctl_t *control; /* control buffer (pre-allocated) */
N_npi_data_t *data; /* data buffer (pre-allocated) */
int data_len; /* length of data (not the size of
the buffer) */
int *put_flags; /* putmsg() flags */
/* x25putmsg */ {
int rc = 0; /* return code */
ulong type; /* primitive type */
struct strbuf *put_ctl = NULL; /* putmsg control */
struct strbuf *put_data = NULL; /* putmsg data */
#ifdef TRACE
printf( "TRACE: entering x25putmsg\n" );
#endif /* TRACE */
#ifdef DEBUG
printf( "kermit: x25putmsg(): putting " );
x25dump_prim( control );
printf( "\tdata:\t\t" );
x25dump_data( data, 0, data_len );
debug(F110,"x25putmsg: putting packet ",x25prim(control->PRIM_type),0);
#endif /* DEBUG */
if (control) {
put_ctl = (struct strbuf *)malloc( sizeof( struct strbuf ) );
if (put_ctl == NULL) {
perror("kermit x25putmsg(): put_ctl malloc failed\n");
return(-1);
}
put_ctl->maxlen = 0; /* unused by putmsg */
put_ctl->len = NPI_MAX_CTL;
put_ctl->buf = (char *)control;
}
if (data && ( data_len > 0)) {
put_data = (struct strbuf *)malloc( sizeof( struct strbuf ) );
if( put_data == NULL) {
perror("kermit x25putmsg(): put_data malloc failed\n");
return(-1);
}
put_data->maxlen = 0; /* unused by putmsg */
put_data->len = data_len;
put_data->buf = (char *)data;
}
errno = 0;
rc = putmsg (fd, put_ctl, put_data, 0);
if (rc < 0) {
printf("x25putmsg(): couldn't put %s\n",x25prim(control->PRIM_type));
perror("kermit: x25putmsg(): putmsg failed");
return(-1);
}
/* riehm: this should perhaps be discounted! */
x25lastmsg = control->PRIM_type;
#ifdef COMMENT
#ifdef DEBUG
printf( "kermit debug: x25putmsg() returning %d\n", data_len );
#endif /* DEBUG */
#endif /* COMMENT */
debug( F101, "x25putmsg block size put ", "", data_len);
#ifdef TRACE
printf( "TRACE: leaving x25putmsg\n" );
#endif /* TRACE */
return( data_len );
}
/*****************************************************************************
* Function: x25bind
* Description: The bind submitted to NPI provides the information required
* by the packet layer for it to listen for suitable incoming
* calls.
*
* WARNING:
*
* This routine needs to be called in a completely different manner for
* the client and server side. When starting a client, the
* num_waiting_calls and CUD information should all be set to 0! The
* client's CUD must be inserted in the CONN_REQ data block.
* When starting a server, the CUD must be set to a CUD pattern, and
* the number of waiting calls should be set to a number other than 0.
* (num waiting calls is the number of incomming calls which are to be
* put on hold while the server is servicing another client.)
*
* Who invented this crap?
*
* Parameters:
* fd - X25 device (opened)
* addr - local address
* cud - User Data (null terminated)
* cud_len - User Data length
* num_waiting_calls - number of outstanding calls allowed on this stream
* line - logical port number (1)
* flags - 0, DEFAULT_LISTENER or TOKEN_REQUEST
*
* Return Value:
* if binding is successful, 0 is returned for a client, and a token is
* returned for a server
*
* Return code: 0 if successful
* -1 if unsuccessful
*****************************************************************************/
ulong
x25bind(fd, addr, cud, cud_len, num_waiting_calls, line, bind_flags)
int fd; /* X25 device (opened) */
char * addr; /* local address */
char * cud; /* Call User Data (null terminated) */
int cud_len; /* User Data length */
int num_waiting_calls; /* Outstanding calls allowed */
int line; /* logical port number */
ulong bind_flags; /* 0, DEFAULT_LISTENER or TOKEN_REQUEST */
/* x25bind */ {
ulong rc; /* return code */
int get_flags; /* priority flag passed to getmsg */
int put_flags = 0; /* output flags for putmsg, always 0 */
ulong type; /* primitive type */
N_bind_req_t *bind_req; /* pointer to N_BIND_REQ primitive */
N_bind_ack_t *bind_ack; /* pointer to N_BIND_ACK primitive */
char *addtl_info; /* pointer to info in addition to
* the N_BIND_REQ primitive that is
* passed in the control structure
* to putmsg */
int addr_len = 0; /* length of address string */
ulong bind_req_t_size; /* for debugging only */
#ifdef TRACE
printf("TRACE: entering x25bind\n" );
#endif /* TRACE */
#ifdef DEBUG
printf("TRACE: x25bind( %d, %s, %s, %d, %d )\n",
fd, addr, cud, line, bind_flags
);
#endif /* DEBUG */
/*
* Allocate and zero out space to hold the control portion of the
* message passed to putmsg. This will contain the N_BIND_REQ
* primitive and any additional info required for that.
*
* Note: allocated space is the size of the union typedef
* N_npi_ctl_t to allow the use fo the generic x25putmsg routine.
*/
bind_req = (N_bind_req_t *) malloc(sizeof( N_npi_ctl_t));
if (bind_req == NULL) {
perror("kermit: x25bind(): bind_req malloc failed");
debug(F100, "x25bind bind_req malloc failed", "", 0);
return(-1);
}
bzero((char *)bind_req, sizeof(N_npi_ctl_t));
/* Build the Bind Request Primitive */
bind_req->PRIM_type = (ulong) N_BIND_REQ;
/* Note that the address length is n+2 and NOT n. Two bytes MUST preceed
* the actual address in an N_BIND_REQ. The first byte contains the
* line number being used with this address, and the second byte is the
* X.121 address prefix, which must be zero.
*/
addr_len = strlen(addr);
bind_req->ADDR_length = (ulong) (addr_len + 2);
bind_req->ADDR_offset = (ulong)(sizeof(N_bind_req_t));
bind_req->CONIND_number = (ulong)num_waiting_calls; /* server only */
bind_req->BIND_flags = (ulong) bind_flags; /* 0 in client */
bind_req->PROTOID_length = (ulong) cud_len; /* 0 in client */
if (cud_len == 0) {
bind_req->PROTOID_offset = (ulong) 0;
} else {
/* need to remember the trailing NULL in the address - not
* counted in the address length
*/
bind_req->PROTOID_offset
= (ulong) (sizeof(N_bind_req_t) + bind_req->ADDR_length);
}
/*
* Now fill in the additional information required with this primitive
* (address and protocol information (Call User Data))
*/
addtl_info = (char *) ((void *)bind_req + bind_req->ADDR_offset);
/*
* The bitwise "&" ensures that the line number is only one byte long
*/
*addtl_info++ = (char) line & 0xff;
*addtl_info++ = (char) 0; /* X.121 format */
bcopy( addr, addtl_info, addr_len ); /* include trailing null */
addtl_info += addr_len;
if (cud_len > 0)
bcopy( cud, addtl_info, cud_len );
/*
* Call putmsg() to put the bind request message on the stream
*/
if (x25putmsg(fd,
(N_npi_ctl_t*)bind_req,
(N_npi_data_t *)NULL,
0,
&put_flags
) < 0) {
printf( "kermit: x25bind(): x25putmsg failed\n" );
return(-1);
}
/*
* Allocate and zero out space for the N_BIND_ACK primitive
*/
bind_ack = (N_bind_ack_t *) malloc(sizeof(N_npi_ctl_t));
if (bind_ack == NULL){
perror("kermit: x25bind(): bind_ack malloc failed");
return(-1);
}
bzero(bind_ack, sizeof(N_npi_ctl_t));
/*
* Initialize the control structure and flag variable sent to getmsg
*/
get_flags=0;
/* get the ACK for the bind */
#ifdef DEBUG
printf( "kermit: x25bind() trying to get a BIND_ACK\n" );
#endif /* DEBUG */
rc = (ulong)x25getmsg( fd, (N_npi_ctl_t*)bind_ack,
(int)sizeof( N_bind_ack_t ), (N_npi_data_t*)NULL, 0, &get_flags,
N_BIND_ACK );
/* turn quantitive return code into a qualitative one */
if (rc > 0) rc = 0;
/* if all went well, get the token from the acknowledgement packet */
if ((bind_flags & TOKEN_REQUEST ) && ( rc >= 0)) {
rc = bind_ack->TOKEN_value;
}
/* free up the memory we allocated earlier */
free(bind_req);
free(bind_ack);
#ifdef TRACE
printf( "TRACE: leaving x25bind\n" );
#endif /* TRACE */
return( rc );
}
/*****************************************************************************
* Function: x25call
* Description: This routine builds and sends an N_CONN_REQ primitive, then
* checks for an N_CONN_CON primitive in return.
*
* Parameters:
* fd - file descriptor of stream
* caddr - called address (remote address)
*
* Functions Referenced:
* malloc()
* bzero()
* getmsg()
* putmsg()
*
* Return code:
* 0 - if successful
* -1 if not successful
*****************************************************************************/
int
x25call(fd, remote_nua, cud)
int fd; /* X25 device (opened) */
char * remote_nua; /* remote address to call */
char * cud; /* call user data */
/* x25call */ {
int rc; /* return code */
int flags; /* Connection flags */
int get_flags; /* priority flags for getmsg */
ulong type; /* primitive type */
N_conn_req_t *connreq_ctl; /* pointer to N_CONN_REQ primitive */
N_npi_data_t *connreq_data; /* pointer to N_CONN_REQ data (CUD) */
int connreq_data_len; /* length of filled data buffer */
N_conn_con_t *conncon_ctl; /* pointer to N_CONN_CON primitive */
N_npi_data_t *conncon_data; /* pointer to any data associated with
* the N_CONN_CON primitive */
char *addtl_info; /* pointer to additional info needed
* for N_CONN_REQ primitive */
int addr_len; /* length of address */
#ifdef TRACE
printf( "TRACE: entering x25call\n" );
#endif /* TRACE */
#ifdef DEBUG
printf( "x25call( %d, %s )\n", fd, remote_nua );
printf( "connecting to %s on fd %d\n", remote_nua, fd );
#endif /* DEBUG */
/*
* Allocate and zero out space for the N_CONN_REQ primitive
* use the size of the generic NPI primitive control buffer
*/
connreq_ctl = (N_conn_req_t *) malloc(sizeof(N_npi_ctl_t));
if (connreq_ctl == NULL){
perror("kermit: x25call(): connreq_ctl malloc failed");
return(-1);
}
bzero(connreq_ctl,sizeof(N_npi_ctl_t));
/*
* Build the Connection Request Primitive
*/
flags = 0;
connreq_ctl->PRIM_type = (ulong) N_CONN_REQ;
/* Note that the address length is nchai+1 and not n+2. The line number
* is only passed with the address for the bind. The first byte of
* the address for the N_CONN primitives contains the X.121
* address prefix, which must be zero. The remaining bytes are the
* address itself.
*/
addr_len = strlen( remote_nua );
connreq_ctl->DEST_length = (ulong) (addr_len + 1);
connreq_ctl->DEST_offset = (ulong) sizeof(N_conn_req_t);
/* connreq_ctl->CONN_flags = (ulong)EX_DATA_OPT | REC_CONF_OPT; */
connreq_ctl->CONN_flags = (ulong) 0;
connreq_ctl->QOS_length = (ulong) 0; /* unsupported in AIX 4.1 */
connreq_ctl->QOS_offset = (ulong) 0; /* unsupported in AIX 4.1 */
addtl_info = (char *) ((void*)connreq_ctl + connreq_ctl->DEST_offset);
*addtl_info++ = (char) 0; /* X.121 format */
bcopy( remote_nua, addtl_info, addr_len );
/*
* setup the data buffer for the connection request
*/
connreq_data = (N_npi_data_t *) malloc(sizeof(N_npi_data_t));
if (connreq_data == NULL){
perror("kermit: x25call(): connreq_data malloc failed");
return(-1);
}
bzero(connreq_data,sizeof(N_npi_data_t));
/* facility selection needs to be put in the front of connreq_data */
connreq_data_len = 0;
connreq_data_len += x25facilities( (char *)connreq_data );
if (cud && *cud) {
bcopy(cud,
(char *)((char *)connreq_data + connreq_data_len),
strlen(cud)
);
connreq_data_len += strlen( cud );
}
/*
* Call putmsg() to put the connection request message on the stream
*/
rc = x25putmsg( fd, (N_npi_ctl_t*)connreq_ctl, connreq_data,
connreq_data_len, &flags );
if (rc < 0) {
return(-1);
}
/*
* Allocate and zero out space for the N_CONN_CON primitive
*/
if ((conncon_ctl = (N_conn_con_t *) malloc(sizeof(N_npi_ctl_t))) == NULL) {
perror("kermit: x25call(): conncon_ctl malloc failed");
return(-1);
}
bzero(conncon_ctl, sizeof(N_npi_ctl_t));
/*
* Allocate and zero out space for any data associated with N_CONN_CON
*/
if ( (conncon_data = (N_npi_data_t *) malloc(NPI_MAX_DATA)) == NULL) {
perror("kermit: x25call(): conncon_data malloc failed");
return(-1);
}
bzero(conncon_data, NPI_MAX_DATA);
/* Initialize and build the structures for getmsg */
get_flags=0;
rc = x25getmsg( fd, (N_npi_ctl_t*)conncon_ctl, (int)sizeof( N_conn_con_t ),
conncon_data, NPI_MAX_DATA, &get_flags, N_CONN_CON );
/* turn quantitive return code into a qualitative one */
if (rc > 0) rc = 0;
/* Free the space that we no longer need */
if (connreq_ctl) { free(connreq_ctl); connreq_ctl = NULL; }
if (conncon_ctl) { free(conncon_ctl); conncon_ctl = NULL; }
if (conncon_data) { free(conncon_data); conncon_data = NULL; }
#ifdef TRACE
printf( "TRACE: leaving x25call\n" );
#endif /* TRACE */
return(rc);
}
/*****************************************************************************
* Function: x25getcall
*
* Description: This routine checks for an incomming call, verified
* that it is a CONNIND (connection indication) message, and then
* accepts the call and returns the file descriptor of the new stream
*
* Parameters:
* fd - file descriptor of listening stream
*
* Return Codes:
* callfd - file descriptor of connected incomming call.
* - set to -1 if an error occured
*
*****************************************************************************/
int
x25getcall(fd) int fd; {
int x25callfd; /* fd of incomming call */
N_conn_ind_t *connind_ctl; /* connind controll buffer */
N_npi_data_t *connind_data; /* connind data buffer */
int get_flags; /* flags for getmsg */
ulong flags; /* connection flags */
int rc; /* return code */
extern x25addr_t remote_nua; /* remote X.25 addr global var */
#ifdef TRACE
printf( "TRACE: entering x25getcall\n" );
#endif /* TRACE */
/* allocate space for connection indication buffers */
if ((connind_ctl = (N_conn_ind_t *)malloc(sizeof(N_npi_ctl_t))) == NULL) {
perror("kermit: x25getcall(): connind_ctl malloc failed");
return (-1);
}
bzero(connind_ctl, sizeof(N_npi_ctl_t));
if ((connind_data = (N_npi_data_t *)malloc(NPI_MAX_DATA)) == NULL) {
perror("kermit: x25getcall(): connind_data malloc failed");
return (-1);
}
bzero(connind_data, NPI_MAX_DATA);
/* initialise control structures */
get_flags = 0;
/* call getmsg to check for a connection indication */
if (x25getmsg(fd,
(N_npi_ctl_t*)connind_ctl,
(int)sizeof(N_conn_ind_t),
connind_data,
NPI_MAX_DATA,
&get_flags,
N_CONN_IND
) < 0) {
#ifdef DEBUG
printf( "x25getcall(): errno is: %d\n", errno );
#endif /* DEBUG */
perror ("x25getcall(): getmsg failed");
return(-1);
}
/* a connection indication was received
* - pull it to bits and answer the call
*/
x25seqno = connind_ctl->SEQ_number;
flags = connind_ctl->CONN_flags;
#ifdef DEBUG
printf( "setting remote_nua to a new value due to incomming call\n" );
#endif /* DEBUG */
/*
* no guarantee that the address is null terminated, ensure that
* after copying that it is (assumption: remote_nua is longer than
* the address + 1)
*/
bzero(remote_nua, sizeof(remote_nua));
/* note: connind_ctl contains a x121 address, which has a null as
* the FIRST character - strip it off!
*/
ckstrncpy(remote_nua,
(char*)((char*)connind_ctl + connind_ctl->SRC_offset + 1),
connind_ctl->SRC_length - 1
);
#ifdef DEBUG
printf( "remote_nua set to new value of %s\n", remote_nua );
#endif /* DEBUG */
/* errors handled by callee */
x25callfd = x25accept(x25seqno, flags);
/* free the malloc'd buffers */
if (connind_ctl) { free(connind_ctl); connind_ctl = NULL; }
if (connind_data) { free(connind_data); connind_data = NULL; }
#ifdef TRACE
printf( "TRACE: leaving x25getcall\n" );
#endif /* TRACE */
/* return the file descriptor (or error if < 0) */
return( x25callfd );
}
/*****************************************************************************
* Function: x25accept
*
* Description: accept an incomming call
* This essentially means opening a new STREAM and sending
* an acknowledge back to the caller.
*
* Parameters:
* seqno - sequence number for acknowledgement
* flags - flags passed to us by the caller
*
* Return Codes:
* fd - file descriptor of new STREAM
* set to -1 if an error occured
*
*****************************************************************************/
int
x25accept(seqno,flags)
ulong seqno; /* connection sequence number */
ulong flags; /* connection flags */
/* x25accept */ {
int x25callfd; /* fd for incomming call */
int get_flags; /* priority flags for getmsg */
int put_flags = 0; /* flags for putmsg, always 0 */
int addr_len; /* length of local address */
ulong token; /* connection token */
N_conn_res_t *conn_res; /* N_CONN_RES primitive */
N_ok_ack_t *ok_ack; /* N_OK_ACK primitive */
char *addtl_info; /* temp pointer */
int rc; /* temporary return code */
/* global variables from ckcmai.c */
extern int revcall, closgr, cudata;
extern char udata[];
extern x25addr_t local_nua; /* local X.25 address */
extern char x25name[]; /* x25 device name (sx25a0) */
extern char x25dev[]; /* x25 device file /dev/x25pkt */
extern int x25port; /* logical port to use */
ulong bind_flags = 0; /* flags for binding the X25 stream */
#ifdef TRACE
printf( "TRACE: entering x25accept\n" );
#endif /* TRACE */
/* open a new packet level stream */
if ((x25callfd = open(x25dev, O_RDWR)) < 0) {
perror ("kermit: x25accept(): X.25 device open error");
debug(F101,"x25accept() device open error","",errno);
return(-1);
}
/* push the NPI onto the STREAM */
if (ioctl(x25callfd,I_PUSH,"npi") < 0) {
perror( "kermit: x25accept(): couldn't push npi on the X25 stream" );
debug(F101,"x25accept can't push npi on the X25 stream","",errno);
return (-1);
}
/* bind kermit server to the local X25 address */
/* taken from /usr/samples/sx25/npi/npiserver.c (AIX 4) */
bind_flags |= TOKEN_REQUEST;
token = x25bind(x25callfd,local_nua,(char *)NULL,0,0,x25port,bind_flags);
if (token < 0) {
printf( "kermit: x25accept(): couldn't bind to local X25 address\n" );
netclos();
return(-1);
}
/* allocate connection response primitive */
if ((conn_res = (N_conn_res_t *)malloc( NPI_MAX_CTL )) == NULL) {
perror("kermit: x25accept(): conn_res malloc failed");
return (-1);
}
bzero((char *)conn_res, NPI_MAX_CTL);
/* setup connection response primitive */
addr_len = strlen( local_nua );
conn_res->PRIM_type = (ulong)N_CONN_RES;
conn_res->TOKEN_value = token;
/* note address length is n+1 to accomodate the X.121 address prefix */
conn_res->RES_length = (ulong)(addr_len + 1);
conn_res->RES_offset = (ulong)sizeof( N_conn_res_t );
conn_res->SEQ_number = seqno;
conn_res->CONN_flags = 0;
conn_res->QOS_length = 0; /* unsupported - must be 0 (!?) */
conn_res->QOS_offset = 0;
addtl_info = (char *)((char *)conn_res + conn_res->RES_offset);
*addtl_info++ = (char)0; /* X.121 address prefix */
bcopy( local_nua, addtl_info, addr_len );
/*
* send off the connect response
*/
if (x25putmsg(x25callfd,
(N_npi_ctl_t*)conn_res,
(N_npi_data_t *)NULL,
0,
&put_flags
) < 0 ) {
perror("kermit: x25accept(): putmsg connect response failed");
return(-1);
}
/*
* Allocate and zero out space for the OK_ACK primitive
*/
if ((ok_ack = (N_ok_ack_t *) malloc(sizeof(N_npi_ctl_t))) == NULL) {
perror("kermit: x25call(): ok_ack malloc failed");
return(-1);
}
bzero(ok_ack, sizeof(N_npi_ctl_t));
/* Initialize and build the structures for getmsg */
get_flags=0;
rc = (int)x25getmsg(x25callfd,
(N_npi_ctl_t*)ok_ack,
(int)sizeof(N_ok_ack_t),
(N_npi_data_t*)NULL,
0,
&get_flags,
N_OK_ACK
);
if (rc == 0) {
/* sequence number is only for disconnecting when not connected !? */
x25seqno = 0;
}
/* free up malloc'ed buffer space */
if (conn_res) { free(conn_res); conn_res = NULL; }
if (ok_ack) { free(ok_ack); ok_ack = NULL; }
#ifdef TRACE
printf( "TRACE: leaving x25accept\n" );
#endif /* TRACE */
return( ( rc >= 0 ) ? x25callfd : -1 );
}
/*****************************************************************************
* Function: x25unbind
*
* Description: This subroutine builds and sends an unbind request and gets
* the acknowledgement for it.
*
* Parameters:
* fd - File descriptor of the stream
*
* Functions Referenced:
* getmsg()
* putmsg()
* malloc()
* bzero()
*
* Return code:
* 0 - if successful
* -1 - if not successful
*****************************************************************************/
int
x25unbind(fd) int fd; { /* X25 device (opened) */
int rc; /* return code */
int flags; /* bind flags */
int get_flags; /* priority flag for getmsg */
ulong type; /* primitive type */
N_unbind_req_t *unbind_req; /* pointer to N_UNBIND_REQ */
N_ok_ack_t *ok_ack; /* pointer to N_OK_ACK */
#ifdef TRACE
printf( "TRACE: entering x25unbind\n" );
#endif /* TRACE */
#ifdef DEBUG
/* printf( "x25unbind( %d )\n", fd ); */
#endif /* DEBUG */
debug(F101,"x25unbind closing x25 connection #","",fd);
/* Allocate and zero out space to hold the N_UNBIND_REQ primitive */
unbind_req = (N_unbind_req_t *) malloc(sizeof(N_npi_ctl_t));
if (unbind_req == NULL) {
perror("kermit: x25unbind(): unbind_req malloc failed");
return(-1);
}
bzero(unbind_req, sizeof(N_npi_ctl_t));
/*
* Build the Unbind Request Primitive
*/
flags = 0;
unbind_req->PRIM_type = (ulong) N_UNBIND_REQ;
/*
* Call putmsg() to put the bind request message on the stream
*/
if (x25putmsg(fd,
(N_npi_ctl_t*)unbind_req,
(N_npi_data_t *)NULL,
0,
&flags
) < 0) {
perror ("kermit: x25unbind(): putmsg failed");
return(-1);
}
/* Allocate and Zero out space for the N_OK_ACK primitive */
ok_ack = (N_ok_ack_t *) malloc(sizeof(N_npi_ctl_t));
if (ok_ack == NULL) {
perror("kermit x25unbind(): ok_ack malloc failed\n");
return(-1);
}
bzero(ok_ack, sizeof(N_npi_ctl_t));
/* Initialize and build the control structure for getmsg */
get_flags=0;
/* Call getmsg() to check for an acknowledgement */
rc = x25getmsg(fd,
(N_npi_ctl_t*)ok_ack,
(int)sizeof(N_ok_ack_t),
(N_npi_data_t*)NULL,
0,
&get_flags,
N_OK_ACK
);
if (rc < 0) {
perror ("kermit: x25unbind: getmsg failed");
return(-1);
}
/* Free up the space that we no longer need */
if (unbind_req) { free(unbind_req); unbind_req = NULL; }
if (ok_ack) { free(ok_ack); ok_ack = NULL; }
#ifdef TRACE
printf( "TRACE: leaving x25unbind\n" );
#endif /* TRACE */
return(0);
}
/*****************************************************************************
* Function: x25xin
*
* Description:
* Read n characters from X.25 circuit into buf (AIX only)
*
* Parameters:
* data_buf_len maximum size of data buffer
* data_buf pointer to pre-allocated buffer space
*
* Return Value:
* the number of characters actually read
*/
int
x25xin(data_buf_len,data_buf) int data_buf_len; CHAR *data_buf; {
struct strbuf getmsg_ctl; /* streams control structure */
struct strbuf getmsg_data; /* streams data structure */
int rc = 0; /* return code */
int getmsg_flags; /* packet priority flags */
char * ctl_buf; /* npi control buffer */
N_npi_ctl_t * result; /* pointer to simplify switch() */
#ifdef TRACE
printf( "TRACE: entering x25xin\n" );
#endif /* TRACE */
/* ensure that no maximum's are overridden */
data_buf_len = (NPI_MAX_DATA < data_buf_len) ? NPI_MAX_DATA : data_buf_len;
/* allocate space for packet control info */
if ((ctl_buf = (char *)malloc(NPI_MAX_CTL)) == NULL) {
perror( "kermit: x25xin(): ctl_buf malloc" );
return(-1);
}
#ifdef COMMENT
/* riehm: need zeroed buffer for getmsg? */
bzero( ctl_buf, NPI_MAX_CTL );
/* clear data buffer */
bzero( data_buf, data_buf_len );
#endif /* COMMENT */
getmsg_flags = 0; /* get the first packet available */
rc = x25getmsg(ttyfd,
ctl_buf,
NPI_MAX_CTL,
data_buf,
data_buf_len,
&getmsg_flags,
N_DATA_IND
);
#ifdef COMMENT
#ifdef DEBUG
if (rc >= 0) {
printf( "kermit: x25xin(): got " );
x25dump_data( data_buf, 0, rc );
} else {
printf( "x25xin(): attempt to get data resulted in an error\n" );
}
#endif /* DEBUG */
#endif /* COMMENT */
/* free buffers */
if (ctl_buf) { free(ctl_buf); ctl_buf = NULL; }
#ifdef TRACE
printf( "TRACE: leaving x25xi\n" );
#endif /* TRACE */
return(rc);
}
/*****************************************************************************
* Function: x25write
*
* Description:
* write a block of characters to the X25 STREAM (AIX)
*
* Parameters:
* fd file descriptor to write to
* databuf buffer containing data to write
* databufsize size of the buffer to write
*
* Return Value:
* size the number of bytes actually transmitted
*/
int
x25write(fd, databuf, databufsize)
int fd; /* X25 STREAMS file descriptor (ttyfd) */
char *databuf; /* buffer to write */
int databufsize; /* buffer size */
/* x25write */ {
N_data_req_t *data_req_ctl;
int rc; /* return code (size transmitted) */
int write_flags = 0; /* always 0 !? */
#ifdef TRACE
printf( "TRACE: entering x25write\n" );
#endif /* TRACE */
if ((data_req_ctl = (N_data_req_t *)malloc(NPI_MAX_CTL) ) == NULL) {
perror( "kermit: x25write(): data_req_ctl malloc" );
return(-1);
}
data_req_ctl->PRIM_type = N_DATA_REQ;
data_req_ctl->DATA_xfer_flags = 0;
/* riehm: possible extension
* possibly need to think about splitting up the data buffer
* into multiple parts if databufsize > NPI_MAX_DATA
*/
#ifdef COMMENT
#ifdef DEBUG
printf( "kermit: x25write(): writing data to x25 stream\n" );
printf( "\tdata:\t" );
x25dump_data(databuf, 0, databufsize);
#endif /* DEBUG */
#endif /* COMMENT */
rc = x25putmsg(fd,
(N_npi_ctl_t*)data_req_ctl,
(N_npi_data_t*)databuf,
databufsize,
&write_flags
);
if (data_req) { free(data_req_ctl); data_req = NULL; }
#ifdef TRACE
printf( "TRACE: leaving x25write\n" );
#endif /* TRACE */
return(rc);
}
/*****************************************************************************
* Function: x25local_nua
*
* Description:
* This routine is only interesting for IBM computers. In order
* to set up a connection (see x25bind()) you need to know the
* local NUA (x25 address). Unfortunately, you need all this code
* to find that out, I just hope this works for everyone else!
*
* Parameters:
* a pre-allocated character buffer, long enough to hold an X.25 address
* and the tailing null.
*
* Return Value:
* the length of the address string.
* 0 = error
*/
int
x25local_nua(char *buf) {
struct CuAt *response; /* structure to fill with info from ODM */
CLASS_SYMBOL retClass; /* ODM class */
char query[64]; /* odm database query */
int rc = 0; /* return value (length of local NUA) */
extern char x25name[]; /* x25 device name (sx25a0) */
#ifdef TRACE
printf( "TRACE: entering x25local_nua\n" );
#endif /* TRACE */
/* set up query string */
if (x25name[0] == '\0') {
#ifdef DEBUG
printf( "kermit: x25local_nua(): No x25 device set, trying sx25a0\n" );
#endif /* DEBUG */
strcpy( x25name, "sx25a0" );
}
sprintf(query, "name like %s and attribute like local_nua", x25name);
/* initialise ODM database */
odmerrno = 0;
if (odm_initialize() == -1) {
printf( "x25local_nua(): can't initialize ODM database");
switch (odmerrno) {
case ODMI_INVALID_PATH:
printf( "invalid path\n" );
break;
case ODMI_MALLOC_ERR:
printf( "malloc failed\n" );
break;
default:
printf( "unknown error %d\nPlease call IBM\n", odmerrno );
}
return(rc);
}
/* open the CuAt class */
retClass = odm_open_class(CuAt_CLASS);
if (((int)retClass) == -1) {
printf( "kermit: x25local_nua(): can't open CuAt class in odm. " );
switch (odmerrno) {
case ODMI_CLASS_DNE:
printf( "CuAt class doesn't exist\n" );
break;
case ODMI_CLASS_PERMS:
printf( "permission to CuAt class file denied\n" );
break;
case ODMI_MAGICNO_ERR:
printf( "CuAt is an invalid ODM object class\n" );
break;
case ODMI_OPEN_ERR:
printf( "cannot open CuAt class - and don't know why!\n" );
break;
case ODMI_INVALID_PATH:
printf( "invalid path\n" );
break;
case ODMI_TOOMANYCLASSES:
printf( "too many object classes have been opened\n" );
break;
default:
printf( "unknown error %d\nPlease call IBM\n", odmerrno );
}
return(rc);
}
#ifdef DEBUG
printf("retClass= %d\n", retClass);
#endif /* DEBUG */
response = (struct CuAt *)odm_get_first( retClass, query, NULL );
if (((int)response) == -1) {
printf( "kermit: x25local_nua(): odm query failed " );
switch (odmerrno) {
case ODMI_BAD_CRIT: /* Programming error */
printf( "bad search criteria\n" );
break;
case ODMI_CLASS_DNE:
printf( "CuAt class doesn't exist\n" );
break;
case ODMI_CLASS_PERMS:
printf( "permission to CuAt class file denied\n" );
break;
case ODMI_INTERNAL_ERR:
printf("odm internal error\nPlease contact your administrator\n" );
break;
case ODMI_INVALID_CLXN:
printf("CuAt is invalid or inconsistent odm class collection\n");
break;
case ODMI_INVALID_PATH:
printf( "invalid path\n" );
break;
case ODMI_MAGICNO_ERR:
printf( "CuAt is an invalid ODM object class\n" );
break;
case ODMI_MALLOC_ERR:
printf( "malloc failed\n" );
break;
case ODMI_OPEN_ERR:
printf( "cannot open CuAt class - and don't know why!\n" );
break;
case ODMI_TOOMANYCLASSES:
printf( "too many object classes have been opened\n" );
break;
default:
printf( "unknown error %d\nPlease call IBM\n", odmerrno );
}
return(rc);
}
/* check for a meaningfull response */
if (response != NULL) {
if (response->value != NULL) {
strcpy(buf, response->value);
rc = strlen( buf );
#ifdef DEBUG
/*
printf( "attribute name is: %s\n", (char *)response->attribute );
printf( "I think my address is %s\n", (char*)response->value );
*/
#endif /* DEBUG */
} else {
printf( "kermit: x25local_nua(): couldn't find the local NUA\n" );
}
} else {
switch (odmerrno) {
case ODMI_BAD_CRIT:
printf( "Error: ODMI_BAD_CRIT - bad criteria\n" );
break;
case ODMI_CLASS_DNE:
printf( "Error: ODMI_CLASS_DNE - class doesn't exist\n" );
break;
case ODMI_CLASS_PERMS:
printf( "Error: ODMI_CLASS_PERMS - class permissions\n" );
break;
case ODMI_INTERNAL_ERR:
printf( "Error: ODMI_INTERNAL_ERR - panic\n" );
break;
case ODMI_INVALID_CLXN:
printf( "Error: ODMI_INVALID_CLXN - invalid collection\n" );
break;
case ODMI_INVALID_PATH:
printf( "Error: ODMI_INVALID_PATH - invalid path - what path?\n" );
break;
case ODMI_MAGICNO_ERR:
printf( "Error: ODMI_MAGICNO_ERR - invalid object magic\n" );
break;
case ODMI_MALLOC_ERR:
printf( "Error: ODMI_MALLOC_ERR - malloc failed\n" );
break;
case ODMI_OPEN_ERR:
printf( "Error: ODMI_OPEN_ERR - cannot open class\n" );
break;
case ODMI_TOOMANYCLASSES:
printf( "Error: ODMI_TOOMANYCLASSES - too many classes\n" );
break;
default:
printf( "Unknown error!\n" );
}
return(rc);
}
/* close the database again */
odm_close_class( retClass );
/* forget about ODM all together */
odm_terminate();
#ifdef TRACE
printf( "TRACE: leaving x25local_nua\n" );
#endif /* TRACE */
debug(F110, "x25local_nua local address is ", buf, 0);
return(rc);
}
/*****************************************************************************
* Function: x25facilities
*
* Description:
* build up the facilities data packet for a connection request
*
* Parameters:
* a pre-allocated char buffer, normally NPI_MAX_DATA big.
*
* Return Value:
* the number of characters inserted into the buffer
*/
int
x25facilities(buffer) char *buffer; {
extern int revcall;
extern int closgr;
char *p; /* temp pointer */
char *start; /* temp pointer */
#ifdef TRACE
printf( "TRACE: entering x25facilities\n" );
#endif /* TRACE */
p = buffer + 1;
start = p;
#ifdef DEBUG
printf( "kermit: x25facilities(): getting X25 facilities\n" );
#endif /* DEBUG */
if (revcall != 0) {
#ifdef DEBUG
printf("reverse charge: %d\n", revcall );
#endif /* DEBUG */
*++p = 0x01;
*++p = revcall;
}
if (closgr > 0) {
#ifdef DEBUG
printf("closed user group: %d\n", closgr );
#endif /* DEBUG */
*++p = 0x03;
*++p = closgr;
}
#ifdef DEBUG
if (p == start) {
printf( "no facilities\n" );
}
#endif /* DEBUG */
/* set the size of the facilities buffer */
*buffer = (char)( p - start ) & 0xff;
#ifdef DEBUG
printf( "kermit: x25facilities(): returning %d\n", (int)(p - buffer) );
#endif /* DEBUG */
#ifdef TRACE
printf( "TRACE: leaving x25facilities\n" );
#endif /* TRACE */
/* return the size of the facilities with size byte */
/* 1 == no facilities, 0 byte returned as facilities size */
return( (int)(p - buffer) );
}
/*
* reset the connection
*/
int
x25reset(cause, diagn) char cause; char diagn; {
/* not implemented */
#ifdef TRACE
printf( "TRACE: entering x25reset\n" );
#endif /* TRACE */
#ifdef TRACE
printf( "TRACE: leaving x25reset\n" );
#endif /* TRACE */
return(0);
}
/*
* clear the x25 connection - ie: hang up
*/
int
x25clear() {
int get_flags = 0; /* priority flag for getmsg */
int put_flags = 0; /* send flags, always 0 */
ulong type; /* primitive type */
N_discon_req_t *discon_req; /* pointer to N_DISCON_REQ */
N_discon_ind_t *discon_ind; /* pointer to N_DISCON_IND */
N_npi_data_t *discon_data; /* pointer to N_DISCON_IND data */
int rc = 0; /* return code */
#ifdef TRACE
printf( "TRACE: entering x25clear\n" );
#endif /* TRACE */
#ifdef DEBUG
/* printf( "x25clear(): checking last msg: %s\n", x25prim(x25lastmsg)); */
#endif /* DEBUG */
/*
* The following checks are used to ensure that we don't disconnect
* or unbind twice - this seems to throw the NPI interface right out of
* kilter.
*/
switch(x25lastmsg) {
case N_BIND_ACK:
case N_CONN_CON:
case N_CONN_REQ:
case N_DATA_REQ:
case N_DATA_IND:
{
#ifdef DEBUG
/* printf("x25clear(): actively disconnecting\n"); */
#endif /* DEBUG */
discon_req = (N_discon_req_t *)malloc(NPI_MAX_CTL);
if (discon_req == NULL) {
perror("kermit x25clear(): discon_req malloc failed\n");
/* fallthrough, try to unbind the NPI anyway */
} else {
discon_req->PRIM_type = N_DISCON_REQ;
discon_req->DISCON_reason = 0; /* not used by AIX */
discon_req->RES_length = 0;
discon_req->RES_offset = (ulong)(sizeof(N_discon_req_t));
discon_req->SEQ_number = x25seqno; /* global */
if (x25putmsg(ttyfd,
(N_npi_ctl_t*)discon_req,
(N_npi_data_t*)NULL,
0,
&put_flags
) < 0) {
perror("x25putmsg failed in x25clear()");
}
discon_ind = (N_discon_ind_t *)malloc(NPI_MAX_CTL);
discon_data = (N_npi_data_t *)malloc(NPI_MAX_DATA);
if((discon_ind == NULL) || (discon_data == NULL)) {
perror("x25clear(): discon_ind malloc failed\n");
/* fallthrough, try to unbind the NPI anyway */
} else {
if(x25getmsg(ttyfd,
(N_npi_ctl_t*)discon_ind,
NPI_MAX_CTL,
(N_npi_data_t*)discon_data,
NPI_MAX_DATA,
&get_flags,
N_OK_ACK
) < 0 ) {
perror("x25getmsg failed in x25clear()");
/* fallthrough, try to unbind the NPI anyway */
}
}
}
break;
}
}
if (x25lastmsg != N_UNBIND_REQ) {
rc = x25unbind(ttyfd);
}
#ifdef TRACE
printf( "TRACE: leaving x25clear\n" );
#endif /* TRACE */
return(rc);
}
#ifdef DEBUG
/*
* only for debugging
*
* turn the internal representation of a datablock into something
* half-way readable. Because the length is known, we can print
* the string including null's etc (important, because the first(!)
* byte of an X121 address is a null! (X121 addr == 0 + X25 addr)
*/
x25dump_data(char *addr, ulong offset, ulong length) {
char *ptr = addr + offset;
ulong i = length;
/* allocate enough memory for all unprintable chars */
char *buf = (char *)malloc( length * 4 );
char *bptr = buf; /* pointer to current place in the print buffer */
while (i > 0) {
if (isprint(*ptr)) {
*bptr++ = *ptr;
} else {
*bptr++ = '[';
bptr += sprintf(bptr, "%2.2x", *ptr);
*bptr++ = ']';
}
ptr++;
i--;
}
if (length > 0) {
*bptr = '\0';
printf( "%s", buf );
}
printf( " (%d+%d)\n", offset, length );
if (buf) { free(buf); buf = NULL; }
return;
}
/*
* only for debugging
* print as much useful information about a packet as possible
*/
x25dump_prim(primitive) N_npi_ctl_t *primitive; {
printf("Primitive");
switch (primitive->PRIM_type) {
case N_BIND_ACK:
printf( "\tN_BIND_ACK\n\taddress:\t" );
x25dump_data( (char *)primitive,
primitive->bind_ack.ADDR_offset,
primitive->bind_ack.ADDR_length );
printf( "\tproto id:\t" );
x25dump_data( (char *)primitive,
primitive->bind_ack.PROTOID_offset,
primitive->bind_ack.PROTOID_length );
printf( "\tconnind:\t%d\n\ttoken:\t\t%d\n",
primitive->bind_ack.CONIND_number,
primitive->bind_ack.TOKEN_value );
break;
case N_BIND_REQ:
printf( "\tN_BIND_REQ\n\taddress:\t" );
x25dump_data( (char *)primitive,
primitive->bind_req.ADDR_offset,
primitive->bind_req.ADDR_length );
printf( "\tproto id:\t" );
x25dump_data( (char *)primitive,
primitive->bind_req.PROTOID_offset,
primitive->bind_req.PROTOID_length );
printf( "\tconnind:\t%d\n\tflags:\t\t%d\n",
primitive->bind_req.CONIND_number,
primitive->bind_req.BIND_flags );
break;
case N_CONN_CON:
printf( "\tN_CONN_CON\n" );
printf( "\tRES\t\t" );
x25dump_data( (char *)primitive,
primitive->conn_con.RES_offset,
primitive->conn_con.RES_length );
printf( "\tflags:\t%d\n", primitive->conn_con.CONN_flags );
break;
case N_CONN_IND:
printf( "\tN_CONN_IND\n" );
printf( "\tsource:\t\t" );
x25dump_data( (char *)primitive,
primitive->conn_ind.SRC_offset,
primitive->conn_ind.SRC_length );
printf( "\tdestination:\t" );
x25dump_data( (char *)primitive,
primitive->conn_ind.DEST_offset,
primitive->conn_ind.DEST_length );
printf( "\tSEQ_number:\t%d\n", primitive->conn_ind.SEQ_number );
printf( "\tflags:\t%d\n", primitive->conn_ind.CONN_flags );
break;
case N_CONN_REQ:
printf( "\tN_CONN_REQ\n\tdestination:\t" );
x25dump_data( (char *)primitive,
primitive->conn_req.DEST_offset,
primitive->conn_req.DEST_length );
printf( "\tflags:\t%d\n", primitive->conn_req.CONN_flags );
break;
case N_CONN_RES:
printf( "\tN_CONN_RES\n" );
printf( "\tTOKEN_value\t%d\n", primitive->conn_res.TOKEN_value );
printf( "\tSEQ_number\t%d\n", primitive->conn_res.SEQ_number );
printf( "\tCONN_flags\t%d\n", primitive->conn_res.CONN_flags );
printf( "\tRES\t\t" );
x25dump_data( (char *)primitive,
primitive->conn_res.RES_offset,
primitive->conn_res.RES_length );
break;
case N_DATACK_IND:
printf( "\tN_DATACK_IND\n" );
break;
case N_DATACK_REQ:
printf( "\tN_DATACK_REQ\n" );
printf( "\tflags:\t%d\n", primitive->data_req.DATA_xfer_flags );
break;
case N_DATA_IND:
printf( "\tN_DATA_IND\n" );
printf( "\tflags:\t%d\n", primitive->data_ind.DATA_xfer_flags );
break;
case N_DATA_REQ:
printf( "\tN_DATA_REQ\n" );
break;
case N_DISCON_IND:
printf( "\tN_DISCON_IND\n" );
printf( "\torigin:\t%d\n", primitive->discon_ind.DISCON_orig );
printf( "\treason:\t\t%d\n", primitive->discon_ind.DISCON_reason );
printf( "\tseq no:\t\t%d\n", primitive->discon_ind.SEQ_number );
printf( "\tRES:\t" );
x25dump_data( (char *)primitive,
primitive->discon_ind.RES_offset,
primitive->discon_ind.RES_length );
break;
case N_DISCON_REQ:
printf( "\tN_DISCON_REQ\n" );
printf( "\tDISCON_reason:\t%d\n",
primitive->discon_req.DISCON_reason );
printf( "\tRES:\t" );
x25dump_data( (char *)primitive,
primitive->discon_req.RES_offset,
primitive->discon_req.RES_length );
printf( "\tSEQ_number:\t%d\n", primitive->discon_req.SEQ_number );
break;
case N_ERROR_ACK:
printf( "\tN_ERROR_ACK\n" );
printf( "\tCaused by:\t%s\n",
x25prim( primitive->error_ack.ERROR_prim ) );
printf( "\tNPI error:\t%s\n",
x25err( primitive->error_ack.NPI_error ));
errno = primitive->error_ack.UNIX_error;
perror( "\t" );
break;
case N_EXDATA_IND:
printf( "\tN_EXDATA_ACK\n" );
break;
case N_EXDATA_REQ:
printf( "\tN_EXDATA_REQ\n" );
break;
case N_INFO_ACK:
printf( "\tN_INFO_ACK\n" );
printf( "\tNSDU size:\t%d\n", primitive->info_ack.NSDU_size );
printf( "\tENSDU size:\t%d\n", primitive->info_ack.ENSDU_size );
printf( "\tCDATA size:\t%d\n", primitive->info_ack.CDATA_size );
printf( "\tDDATA size:\t%d\n", primitive->info_ack.DDATA_size );
printf( "\tADDR size:\t%d\n", primitive->info_ack.ADDR_size );
printf( "\tNIDU size:\t%d\n", primitive->info_ack.NIDU_size );
break;
case N_INFO_REQ:
printf( "\tN_INFO_REQ\n" );
break;
case N_OK_ACK:
printf( "\tN_OK_ACK\n" );
break;
case N_OPTMGMT_REQ:
printf( "\tN_OPTMGMT_REQ\n" );
break;
case N_RESET_CON:
printf( "\tN_RESET_CON\n" );
break;
case N_RESET_IND:
printf( "\tN_RESET_IND\n" );
printf( "\treason:\t\t%d\n", primitive->reset_ind.RESET_reason );
printf( "\torigin:\t\t%d\n", primitive->reset_ind.RESET_orig );
break;
case N_RESET_REQ:
printf( "\tN_RESET_REQ\n" );
printf( "\treason:\t\t%d\n", primitive->reset_req.RESET_reason );
break;
case N_RESET_RES:
printf( "\tN_RESET_RES\n" );
break;
case N_UDERROR_IND:
printf( "\tN_UDERROR_IND\n" );
break;
case N_UNBIND_REQ:
printf( "\tN_UNBIND_REQ\n" );
break;
case N_UNITDATA_REQ:
printf( "\tN_UNITDATA_REQ\n" );
break;
case N_UNITDATA_IND:
printf( "\tN_UNITDATA_IND\n" );
break;
default:
(void) printf( "Unknown NPI error %d", primitive->PRIM_type );
return 0;
}
}
#endif /* DEBUG */
/* it looks like signal handling is not needed with streams! */
/* x25oobh() - handle SIGURG signals - take from isode ? */
#endif /* IBMX25 */
#ifndef NOHTTP
#ifdef Plan9
#include <sys/time.h>
#else
#ifdef AIX41
#include <time.h>
#else
#ifdef SUNOS4
#include <sys/time.h>
#else
#ifdef SYSTIMEH
#include <sys/time.h>
#else
#ifdef OS2
#include <time.h>
#else
#include <time.h>
/* #include <utime.h> */
#endif /* OS2 */
#endif /* SYSTIMEH */
#endif /* SUNOS4 */
#endif /* AIX41 */
#endif /* Plan9 */
#ifdef OS2
#include <sys/utime.h>
#ifdef NT
#define utimbuf _utimbuf
#endif /* NT */
#define utime _utime
#else
#ifdef SYSUTIMEH /* <sys/utime.h> if requested, */
#include <sys/utime.h> /* for extra fields required by */
#else /* 88Open spec. */
#ifdef UTIMEH /* or <utime.h> if requested */
#include <utime.h> /* (SVR4, POSIX) */
#define SYSUTIMEH /* Use this for both cases. */
#endif /* UTIMEH */
#endif /* SYSUTIMEH */
#endif /* OS2 */
#define HTTP_VERSION "HTTP/1.0"
#ifdef CMDATE2TM
time_t
#ifdef CK_ANSIC
http_date(char * date)
#else
http_date(date) char * date;
#endif /* CK_ANSIC */
/* http_date */ {
/* HTTP dates are of the form: "Sun, 12 Oct 1997 20:11:47 GMT" */
extern char cmdatebuf[18];
struct tm t_tm;
time_t t;
char ldate[32];
int j;
j = ckindex(",",date,0,0,0);
ckstrncpy(ldate,&date[j+1],20);
if (cmcvtdate(ldate,0) < 0) /* Convert to normal form */
return(0);
t_tm = *cmdate2tm(cmdatebuf,1);
t = mktime(&t_tm); /* PROBABLY NOT PORTABLE */
#ifdef XX_TIMEZONE
t -= _timezone; /* NOT DECLARED */
#endif /* XX_TIMEZONE */
return(t);
}
#endif /* CMDATE2TM */
char *
http_now() {
static char nowstr[32];
#ifdef CMDATE2TM
struct tm *gmt;
time_t ltime; /* NOT PORTABLE */
time(<ime);
gmt = gmtime(<ime); /* PROBABLY NOT PORTABLE */
strftime(nowstr,32,"%a, %d %b %Y %H:%M:%S GMT",gmt); /* NOT PORTABLE */
/* not only is it not portable but it's locale-dependent */
#else
/*
This is hopeless. First of all, it seems that HTTP wants Day and Month
NAMES? In English? Whose idea was that? Even worse, the date/time must be
expressed in Zulu (UTC (GMT)), and converting from local time to GMT is a
nightmare. Every platform does it differently, if at all -- even if we
restrict ourselves to UNIX. For example (quoting from recent C-Kermit edit
history), "Fixed a longstanding bug in the BSDI version, in which incoming
file dates were set in GMT rather than local time. It seems in 4.4BSD,
localtime() does not return the local time, but rather Zero Meridian (Zulu)
time (GMT), and must be adjusted by the tm_gmtoff value." Swell. For
greater appreciation of the scope of the problem, just take a look at the
time-related #ifdefs in ckutio.c. The only right way to do this is to add
our own portable API for converting between local time and GMT/UTC/Zulu
that shields us not only from UNIXisms like time_t and struct tm, but also
the unbelievable amount of differences in time-related APIs -- e.g. is
"timezone" an external variable or a function; which header file(s) do we
include, etc etc etc. It's a major project.
*/
int x;
x = cmcvtdate("",1);
if (x < 0)
return("");
/* yyyymmdd hh:mm:ss */
/* 01234567890123456 */
nowstr[0] = 'X'; /* 1st letter of day */
nowstr[1] = 'x'; /* 2nd letter of day */
nowstr[2] = 'x'; /* 3rd letter of day */
nowstr[3] = ',';
nowstr[4] = ' ';
nowstr[5] = cmdate[6];
nowstr[6] = cmdate[7];
nowstr[7] = ' ';
nowstr[8] = ' '; /* first letter of month */
nowstr[9] = ' '; /* second letter of month */
nowstr[10] = ' '; /* third letter of month */
nowstr[11] = ' ';
nowstr[12] = cmdate[0];
nowstr[13] = cmdate[1];
nowstr[14] = cmdate[2];
nowstr[15] = cmdate[3];
nowstr[16] = ' ';
nowstr[17] = cmdate[9];
nowstr[18] = cmdate[10];
nowstr[19] = cmdate[11];
nowstr[20] = cmdate[12];
nowstr[21] = cmdate[13];
nowstr[22] = cmdate[14];
nowstr[23] = cmdate[15];
nowstr[24] = cmdate[16];
nowstr[25] = ' ';
nowstr[26] = 'G';
nowstr[27] = 'M';
nowstr[28] = 'T';
nowstr[29] = '\0';
#endif /* CMDATE2TM */
return(nowstr);
}
#ifndef OS2
#ifndef CK_AUTHENTICATION
/* from ckuusr.h, which this module normally doesn't include */
_PROTOTYP( int dclarray, (char, int) );
#endif /* CK_AUTHENTICATION */
#endif /* OS2 */
/*
Assign http response pairs to given array.
For best results, response pairs should contain no spaces.
Call with:
resp = pointer to response list.
n = size of response list.
array = array letter.
Returns:
0 on failure.
>= 1, size of array, on success.
*/
static int
#ifdef CK_ANSIC
http_mkarray(char ** resp, int n, char array)
#else
http_mkarray(resp, n, array) char ** resp; int n; char array;
#endif /* CK_ANSIC */
{
#ifndef NOSPL
int i, x;
char ** ap;
extern char ** a_ptr[];
extern int a_dim[];
if (!array || n <= 0)
return(0);
if ((x = dclarray(array,n)) < 0) {
printf("?Array declaration failure\n");
return(-9);
}
ap = a_ptr[x];
for (i = 1; i <=n; i++) {
ap[i] = resp[i]; /* If resp elements were malloc'd */
resp[i] = NULL;
}
a_dim[x] = n;
return(n);
#else
return(0);
#endif /* NOSPL */
}
#define HTTPBUFLEN 1024
#define HTTPHEADCNT 64
int
#ifdef CK_ANSIC
http_get(char * agent, char ** hdrlist, char * user,
char * pwd, char array, char * local, char * remote)
#else
http_get(agent, hdrlist, user, pwd, array, local, remote)
char * agent; char ** hdrlist; char * user;
char * pwd; char array; char * local; char * remote;
#endif /* CK_ANSIC */
{
char * request = NULL;
int i, j, len = 0, hdcnt = 0, rc = -1;
int ch;
char buf[HTTPBUFLEN], *p;
int nullline;
#ifdef OS2
struct utimbuf u_t;
#else /* OS2 */
#ifdef SYSUTIMEH
struct utimbuf u_t;
#else
struct utimbuf {
time_t atime;
time_t mtime;
} u_t;
#endif /* SYSUTIMH */
#endif /* OS2 */
time_t mod_t = 0;
time_t srv_t = 0;
time_t local_t = 0;
char passwd[64];
char b64in[128];
char b64out[256];
char * headers[HTTPHEADCNT];
if (ttyfd == -1)
return(-1);
if (array) {
for (i = 0; i < HTTPHEADCNT; i++)
headers[i] = NULL;
}
len = 8; /* GET */
len += strlen(HTTP_VERSION);
len += strlen(remote);
for (i = 0; hdrlist[i]; i++)
len += strlen(hdrlist[i]) + 2;
if (agent)
len += 13 + strlen(agent);
if (user) {
if (!pwd) {
readpass("Password: ",passwd,64);
pwd = passwd;
}
sprintf(b64in,"%s:%s",user,pwd);
j = b8tob64(b64in,strlen(b64in),b64out,256);
memset(pwd,0,strlen(pwd)); /* NOT PORTABLE */
if (j < 0)
return(-1);
b64out[j] = '\0';
len += j + 24;
}
len += 3; /* blank line + null */
request = malloc(len);
if (!request)
return(-1);
sprintf(request,"GET %s %s\r\n",remote,HTTP_VERSION);
if (agent) {
strcat(request,"User-Agent: ");
strcat(request,agent);
strcat(request,"\r\n");
}
if (user) {
strcat(request,"Authorization: Basic ");
strcat(request,b64out);
strcat(request,"\r\n");
}
for (i = 0; hdrlist[i]; i++) {
strcat(request,hdrlist[i]);
strcat(request,"\r\n");
}
strcat(request,"\r\n");
ttol((CHAR *)request,strlen(request));
/* Process the headers */
local_t = time(NULL);
nullline = 0;
i = 0;
while (!nullline && (ch = ttinc(0)) >= 0 && i < HTTPBUFLEN) {
buf[i] = ch;
if ( buf[i] == 10 ) { /* found end of line */
if (i <= 1)
nullline = 1;
i++;
buf[i] = '\0';
if (array && !nullline && hdcnt < HTTPHEADCNT)
makestr(&headers[hdcnt++],buf);
if (!strncmp(buf,"HTTP",4)) {
j = ckindex(" ",buf,0,0,0);
p = &buf[j];
if (strncmp(p,"200",3)) {
/* an error has occurred */
printf("Failure: Server reports %s",p);
rc = -1;
goto getexit;
}
#ifdef CMDATE2TM
} else if (!strncmp(buf,"Last-Modified",13)) {
mod_t = http_date(&buf[15]);
} else if (!strncmp(buf,"Date",4)) {
srv_t = http_date(&buf[4]);
#endif /* CMDATE2TM */
}
i = 0;
} else {
i++;
}
}
/* Now we have the contents of the file */
if ( local && local[0] ) {
if (zopeno(ZOFILE,local,NULL,NULL)) {
while ((ch = ttinc(0)) >= 0) {
zchout(ZOFILE,(CHAR)ch);
}
zclose(ZOFILE);
#ifdef CMDATE2TM
#ifdef OS2
u_t.actime = srv_t ? srv_t : local_t;
u_t.modtime = mod_t ? mod_t : local_t;
#else /* OS2 */
#ifdef SYSUTIMEH
u_t.actime = srv_t ? srv_t : local_t;
u_t.modtime = mod_t ? mod_t : local_t;
#else
#ifdef BSD44
u_t[0].tv_sec = srv_t ? srv_t : local_t;
u_t[1].tv_sec = mod_t ? mod_t : local_t;
#else
u_t.mtime = srv_t ? srv_t : local_t;
u_t.atime = mod_t ? mod_t : local_t;
#endif /* BSD44 */
#endif /* SYSUTIMEH */
#endif /* OS2 */
utime(local,&u_t);
#endif /* CMDATE2TM */
if (array)
http_mkarray(headers,hdcnt,array);
rc = 0;
} else {
rc = -1;
}
} else {
while ((ch = ttinc(0)) >= 0)
conoc((CHAR)ch);
if (array)
http_mkarray(headers,hdcnt,array);
rc = 0;
}
getexit:
ttclos(0);
free(request);
for (i = 0; i < hdcnt; i++) {
if (headers[i])
free(headers[i]);
}
return(rc);
}
int
#ifdef CK_ANSIC
http_head(char * agent, char ** hdrlist, char * user,
char * pwd, char array, char * local, char * remote)
#else
http_head(agent, hdrlist, user, pwd, array, local, remote)
char * agent; char ** hdrlist; char * user;
char * pwd; char array; char * local; char * remote;
#endif /* CK_ANSIC */
{
char * request = NULL;
int i, j, len = 0, hdcnt = 0, rc = -1;
int ch;
char buf[HTTPBUFLEN], *p;
int nullline;
time_t mod_t;
time_t srv_t;
time_t local_t;
char passwd[64];
char b64in[128];
char b64out[256];
char * headers[HTTPHEADCNT];
if (ttyfd == -1)
return(-1);
if (array) {
for (i = 0; i < HTTPHEADCNT; i++)
headers[i] = NULL;
}
len = 9; /* HEAD */
len += strlen(HTTP_VERSION);
len += strlen(remote);
for (i = 0; hdrlist[i]; i++)
len += strlen(hdrlist[i]) + 2;
if (agent)
len += 13 + strlen(agent);
if (user) {
if (!pwd) {
readpass("Password: ",passwd,64);
pwd = passwd;
}
sprintf(b64in,"%s:%s",user,pwd);
j = b8tob64(b64in,strlen(b64in),b64out,256);
memset(pwd,0,strlen(pwd)); /* NOT PORTABLE */
if (j < 0)
return(-1);
b64out[j] = '\0';
len += j + 24;
}
len += 3; /* blank line + null */
request = (char *)malloc(len);
if (!request)
return(-1);
sprintf(request,"HEAD %s %s\r\n",remote,HTTP_VERSION);
if (agent) {
strcat(request,"User-Agent: ");
strcat(request,agent);
strcat(request,"\r\n");
}
if (user) {
strcat(request,"Authorization: Basic ");
strcat(request,b64out);
strcat(request,"\r\n");
}
for (i = 0; hdrlist[i]; i++) {
strcat(request,hdrlist[i]);
strcat(request,"\r\n");
}
strcat(request,"\r\n");
if (!zopeno(ZOFILE,local,NULL,NULL)) {
free(request);
return(-1);
}
ttol((CHAR *)request,strlen(request));
/* Process the headers */
local_t = time(NULL);
nullline = 0;
i = 0;
while (!nullline && (ch = ttinc(0)) >= 0 && i < HTTPBUFLEN) {
buf[i] = ch;
if (buf[i] == 10) { /* found end of line */
if (i <= 1)
nullline = 1;
i++;
buf[i] = '\0';
if (array && !nullline && hdcnt < HTTPHEADCNT)
makestr(&headers[hdcnt++],buf);
if (!strncmp(buf,"HTTP",4)) {
j = ckindex(" ",buf,0,0,0);
p = &buf[j];
if (strncmp(p,"200",3)) {
/* an error has occurred */
printf("Failure: Server reports %s",p);
rc = -1;
goto headexit;
}
} else {
zsout(ZOFILE,buf);
}
i = 0;
} else {
i++;
}
}
if (array)
http_mkarray(headers,hdcnt,array);
rc = 0;
headexit:
zclose(ZOFILE);
ttclos(0);
free(request);
for (i = 0; i < hdcnt; i++) {
if (headers[i])
free(headers[i]);
}
return(rc);
}
int
#ifdef CK_ANSIC
http_index(char * agent, char ** hdrlist, char * user, char * pwd,
char array, char * local, char * remote)
#else
http_index(agent, hdrlist, user, pwd, array, local, remote)
char * agent; char ** hdrlist; char * user; char * pwd;
char array; char * local; char * remote;
#endif /* CK_ANSIC */
{
char * request = NULL;
int i, j, len = 0, hdcnt = 0, rc = -1;
int ch;
char buf[HTTPBUFLEN], *p;
int nullline;
time_t mod_t;
time_t srv_t;
time_t local_t;
char passwd[64];
char b64in[128];
char b64out[256];
char * headers[HTTPHEADCNT];
if (ttyfd == -1)
return(-1);
if (array) {
for (i = 0; i < HTTPHEADCNT; i++)
headers[i] = NULL;
}
len = 10; /* INDEX */
len += strlen(HTTP_VERSION);
len += strlen(remote);
for (i = 0; hdrlist[i]; i++)
len += strlen(hdrlist[i]) + 2;
if (agent)
len += 13 + strlen(agent);
if (user) {
if (!pwd) {
readpass("Password: ",passwd,64);
pwd = passwd;
}
sprintf(b64in,"%s:%s",user,pwd);
j = b8tob64(b64in,strlen(b64in),b64out,256);
memset(pwd,0,strlen(pwd));
if (j < 0)
return(-1);
b64out[j] = '\0';
len += j + 24;
}
len += 3; /* blank line + null */
request = malloc(len);
if (!request)
return(-1);
sprintf(request,"INDEX %s\r\n",HTTP_VERSION);
if (agent) {
strcat(request,"User-Agent: ");
strcat(request,agent);
strcat(request,"\r\n");
}
if (user) {
strcat(request,"Authorization: Basic ");
strcat(request,b64out);
strcat(request,"\r\n");
}
for (i = 0; hdrlist[i]; i++) {
strcat(request,hdrlist[i]);
strcat(request,"\r\n");
}
strcat(request,"\r\n");
ttol((CHAR *)request,strlen(request));
/* Process the headers */
local_t = time(NULL);
nullline = 0;
i = 0;
while (!nullline && (ch = ttinc(0)) >= 0 && i < HTTPBUFLEN) {
buf[i] = ch;
if (buf[i] == 10) { /* found end of line */
if (i <= 1)
nullline = 1;
i++;
buf[i] = '\0';
if (array && !nullline && hdcnt < HTTPHEADCNT)
makestr(&headers[hdcnt++],buf);
if (!strncmp(buf,"HTTP",4)) {
j = ckindex(" ",buf,0,0,0);
p = &buf[j];
if (strncmp(p,"200",3)) {
/* an error has occurred */
printf("Failure: Server reports %s",p);
rc = -1;
goto indexexit;
}
} else if ( !nullline ) {
printf("%s",buf);
}
i = 0;
} else {
i++;
}
}
/* Now we have the contents of the file */
if ( local && local[0] ) {
if (zopeno(ZOFILE,local,NULL,NULL)) {
while ( (ch = ttinc(0)) >= 0 ) {
zchout(ZOFILE,(CHAR)ch);
}
zclose(ZOFILE);
}
} else {
while ((ch = ttinc(0)) >= 0)
conoc((CHAR)ch);
}
if (array)
http_mkarray(headers,hdcnt,array);
rc = 0;
indexexit:
ttclos(0);
free(request);
for (i = 0; i < hdcnt; i++) {
if (headers[i])
free(headers[i]);
}
return(rc);
}
int
#ifdef CK_ANSIC
http_put(char * agent, char ** hdrlist, char * mime, char * user,
char * pwd, char array, char * local, char * remote)
#else
http_put(agent, hdrlist, mime, user, pwd, array, local, remote)
char * agent; char ** hdrlist; char * mime; char * user;
char * pwd; char array; char * local; char * remote;
#endif /* CK_ANSIC */
{
char * request=NULL;
int i, j, len = 0, hdcnt = 0, rc = -1;
int ch;
char buf[HTTPBUFLEN], *p;
int nullline;
time_t mod_t;
time_t srv_t;
time_t local_t;
char passwd[64];
char b64in[128];
char b64out[256];
int filelen;
char * headers[HTTPHEADCNT];
if (ttyfd == -1)
return(-1);
if (array) {
for (i = 0; i < HTTPHEADCNT; i++)
headers[i] = NULL;
}
filelen = zchki(local);
if (filelen < 0)
return(-1);
/* Compute length of request header */
len = 8; /* PUT */
len += strlen(HTTP_VERSION);
len += strlen(remote);
for (i = 0; hdrlist[i]; i++)
len += strlen(hdrlist[i]) + 2;
if (agent)
len += 13 + strlen(agent);
if (user) {
if (!pwd) {
readpass("Password: ",passwd,64);
pwd = passwd;
}
sprintf(b64in,"%s:%s",user,pwd);
j = b8tob64(b64in,strlen(b64in),b64out,256);
memset(pwd,0,strlen(pwd));
if (j < 0)
return(-1);
b64out[j] = '\0';
len += j + 24;
}
len += 16 + strlen(mime); /* Content-type: */
len += 32; /* Content-length: */
len += 32; /* Date: */
len += 3; /* blank line + null */
request = malloc(len);
if (!request)
return(-1);
sprintf(request,"PUT %s %s\r\n",remote,HTTP_VERSION);
strcat(request,"Date: ");
#ifdef CMDATE2TM
strcat(request,http_now());
#else
strcap(request,...);
#endif /* CMDATE2TM */
strcat(request,"\r\n");
if (agent) {
strcat(request,"User-Agent: ");
strcat(request,agent);
strcat(request,"\r\n");
}
if (user) {
strcat(request,"Authorization: Basic ");
strcat(request,b64out);
strcat(request,"\r\n");
}
for (i = 0; hdrlist[i]; i++) {
strcat(request,hdrlist[i]);
strcat(request,"\r\n");
}
strcat(request,"Content-type: ");
strcat(request,mime);
strcat(request,"\r\n");
sprintf(buf,"Content-length: %d\r\n",filelen);
strcat(request,buf);
strcat(request,"\r\n");
/* Now we have the contents of the file */
if (zopeni(ZIFILE,local)) {
if (ttol((CHAR *)request,strlen(request)) <= 0) { /* Send request */
zclose(ZIFILE);
goto putexit;
}
/* Request headers have been sent */
i = 0;
while (zchin(ZIFILE,&ch) == 0) {
buf[i++] = ch;
if (i == HTTPBUFLEN) {
ttol((CHAR *)buf,HTTPBUFLEN);
i = 0;
}
}
if (i > 0)
ttol((CHAR *)buf,i);
zclose(ZIFILE);
/* Process the response headers */
local_t = time(NULL);
nullline = 0;
i = 0;
while (!nullline && (ch = ttinc(0)) >= 0 && i < HTTPBUFLEN) {
buf[i] = ch;
if (buf[i] == 10) { /* found end of line */
if (i <= 1)
nullline = 1;
i++;
buf[i] = '\0';
if (array && !nullline && hdcnt < HTTPHEADCNT)
makestr(&headers[hdcnt++],buf);
if (!strncmp(buf,"HTTP",4)) {
j = ckindex(" ",buf,0,0,0);
p = &buf[j];
if (strncmp(p,"200",3)) {
/* an error has occurred */
printf("Failure: Server reports %s",p);
rc = -1;
goto putexit;
}
} else {
printf("%s",buf);
}
i = 0;
} else {
i++;
}
}
if (array)
http_mkarray(headers,hdcnt,array);
rc = 0;
}
putexit:
ttclos(0);
free(request);
for (i = 0; i < hdcnt; i++) {
if (headers[i])
free(headers[i]);
}
return(rc);
}
int
#ifdef CK_ANSIC
http_delete(char * agent, char ** hdrlist, char * user,
char * pwd, char array, char * remote)
#else
http_delete(agent, hdrlist, user, pwd, array, remote)
char * agent; char ** hdrlist; char * user;
char * pwd; char array; char * remote;
#endif /* CK_ANSIC */
{
char * request=NULL;
int i, j, len = 0, hdcnt = 0, rc = -1;
int ch;
char buf[HTTPBUFLEN], *p;
int nullline;
time_t mod_t;
time_t srv_t;
time_t local_t;
char passwd[64];
char b64in[128];
char b64out[256];
char * headers[HTTPHEADCNT];
if (ttyfd == -1)
return(-1);
if (array) {
for (i = 0; i < HTTPHEADCNT; i++)
headers[i] = NULL;
}
/* Compute length of request header */
len = 11; /* DELETE */
len += strlen(HTTP_VERSION);
len += strlen(remote);
for (i = 0; hdrlist[i]; i++)
len += strlen(hdrlist[i]) + 2;
if (agent)
len += 13 + strlen(agent);
if (user) {
if (!pwd) {
readpass("Password: ",passwd,64);
pwd = passwd;
}
sprintf(b64in,"%s:%s",user,pwd);
j = b8tob64(b64in,strlen(b64in),b64out,256);
memset(pwd,0,strlen(pwd));
if (j < 0)
return(-1);
b64out[j] = '\0';
len += j + 24;
}
len += 32; /* Date: */
len += 3; /* blank line + null */
request = malloc(len);
if (!request)
return(-1);
sprintf(request,"PUT %s %s\r\n",remote,HTTP_VERSION);
strcat(request,"Date: ");
#ifdef CMDATE2TM
strcat(request,http_now());
#else
strcap(request,...);
#endif /* CMDATE2TM */
strcat(request,"\r\n");
if (agent) {
strcat(request,"User-Agent: ");
strcat(request,agent);
strcat(request,"\r\n");
}
if (user) {
strcat(request,"Authorization: Basic ");
strcat(request,b64out);
strcat(request,"\r\n");
}
for (i = 0; hdrlist[i]; i++) {
strcat(request,hdrlist[i]);
strcat(request,"\r\n");
}
strcat(request,"\r\n");
/* Process the response headers */
local_t = time(NULL);
nullline = 0;
i = 0;
while (!nullline && (ch = ttinc(0)) >= 0 && i < HTTPBUFLEN) {
buf[i] = ch;
if (buf[i] == 10) { /* found end of line */
if (i <= 1)
nullline = 1;
i++;
buf[i] = '\0';
if (array && !nullline && hdcnt < HTTPHEADCNT)
makestr(&headers[hdcnt++],buf);
if (!strncmp(buf,"HTTP",4)) {
j = ckindex(" ",buf,0,0,0);
p = &buf[j];
if (strncmp(p,"200",3)) {
/* an error has occurred */
printf("Failure: Server reports %s",p);
rc = -1;
goto putexit;
}
} else {
printf("%s",buf);
}
i = 0;
} else {
i++;
}
}
if (array)
http_mkarray(headers,hdcnt,array);
rc = 0;
putexit:
ttclos(0);
free(request);
for (i = 0; i < hdcnt; i++) {
if (headers[i])
free(headers[i]);
}
return(rc);
}
int
#ifdef CK_ANSIC
http_post(char * agent, char ** hdrlist, char * mime, char * user,
char * pwd, char array, char * local, char * remote)
#else
http_post(agent, hdrlist, mime, user, pwd, array, local, remote)
char * agent; char ** hdrlist; char * mime; char * user;
char * pwd; char array; char * local; char * remote;
#endif /* CK_ANSIC */
{
char * request=NULL;
int i, j, len = 0, hdcnt = 0, rc = -1;
int ch;
char buf[HTTPBUFLEN], *p;
int nullline;
time_t mod_t;
time_t srv_t;
time_t local_t;
char passwd[64];
char b64in[128];
char b64out[256];
int filelen;
char * headers[HTTPHEADCNT];
if (ttyfd == -1)
return(-1);
if (array) {
for (i = 0; i < HTTPHEADCNT; i++)
headers[i] = NULL;
}
filelen = zchki(local);
if (filelen < 0)
return(-1);
/* Compute length of request header */
len = 9; /* POST */
len += strlen(HTTP_VERSION);
len += strlen(remote);
for (i = 0; hdrlist[i]; i++)
len += strlen(hdrlist[i]) + 2;
if (agent)
len += 13 + strlen(agent);
if (user) {
if (!pwd) {
readpass("Password: ",passwd,64);
pwd = passwd;
}
sprintf(b64in,"%s:%s",user,pwd);
j = b8tob64(b64in,strlen(b64in),b64out,256);
memset(pwd,0,strlen(pwd));
if (j < 0)
return(-1);
b64out[j] = '\0';
len += j + 24;
}
len += 16 + strlen(mime); /* Content-type: */
len += 32; /* Content-length: */
len += 32; /* Date: */
len += 3; /* blank line + null */
request = malloc(len);
if (!request)
return(-1);
sprintf(request,"POST %s %s\r\n",remote,HTTP_VERSION);
strcat(request,"Date: ");
strcat(request,http_now());
strcat(request,"\r\n");
if (agent) {
strcat(request,"User-Agent: ");
strcat(request,agent);
strcat(request,"\r\n");
}
if (user) {
strcat(request,"Authorization: Basic ");
strcat(request,b64out);
strcat(request,"\r\n");
}
for (i = 0; hdrlist[i]; i++) {
strcat(request,hdrlist[i]);
strcat(request,"\r\n");
}
strcat(request,"Content-type: ");
strcat(request,mime);
strcat(request,"\r\n");
sprintf(buf,"Content-length: %d\r\n",filelen);
strcat(request,buf);
strcat(request,"\r\n");
strcat(request,"\r\n");
/* Now we have the contents of the file */
if (zopeni(ZIFILE,local)) {
ttol((CHAR *)request,strlen(request)); /* Send request */
i = 0;
while (zchin(ZIFILE,&ch) == 0) {
buf[i++] = ch;
if (i == HTTPBUFLEN) {
ttol((CHAR *)buf,HTTPBUFLEN);
i = 0;
}
}
if (i > 0)
ttol((CHAR *)buf,HTTPBUFLEN);
zclose(ZIFILE);
/* Process the response headers */
local_t = time(NULL);
nullline = 0;
i = 0;
while (!nullline && (ch = ttinc(0)) >= 0 && i < HTTPBUFLEN) {
buf[i] = ch;
if (buf[i] == 10) { /* found end of line */
if (i <= 1)
nullline = 1;
i++;
buf[i] = '\0';
if (array && !nullline && hdcnt < HTTPHEADCNT)
makestr(&headers[hdcnt++],buf);
if (!strncmp(buf,"HTTP",4)) {
j = ckindex(" ",buf,0,0,0);
p = &buf[j];
if (strncmp(p,"200",3)) {
/* an error has occurred */
printf("Failure: Server reports %s",p);
rc = -1;
goto postexit;
}
} else {
printf("%s",buf);
}
i = 0;
} else {
i++;
}
}
if (array)
http_mkarray(headers,hdcnt,array);
rc = 0;
}
postexit:
ttclos(0);
free(request);
for (i = 0; i < hdcnt; i++) {
if (headers[i])
free(headers[i]);
}
return(rc);
}
#endif /* NOHTTP */
#ifdef CK_DNS_SRV
#define INCR_CHECK(x,y) x += y; if (x > size + answer.bytes) goto dnsout
#define CHECK(x,y) if (x + y > size + answer.bytes) goto dnsout
#define NTOHSP(x,y) x[0] << 8 | x[1]; x += y
#ifndef CKQUERYTYPE
#ifdef UNIXWARE
#ifndef UW7
#define CKQUERYTYPE CHAR
#endif /* UW7 */
#endif /* UNIXWARE */
#endif /* CKQUERYTYPE */
#ifndef CKQUERYTYPE
#define CKQUERYTYPE char
#endif /* CKQUERYTYPE */
/* 1 is success, 0 is failure */
int
locate_srv_dns(host, service, protocol, addr_pp, naddrs)
#ifdef CK_ANSIC
const char *host; /* "const" not portable... */
const char *service;
const char *protocol;
#else
char *host;
char *service;
char *protocol;
#endif /* CK_ANSIC */
struct sockaddr **addr_pp;
int *naddrs;
{
int code, nout, j, count;
union {
unsigned char bytes[2048];
HEADER hdr;
} answer;
unsigned char *p=NULL;
CKQUERYTYPE query[MAX_DNS_NAMELEN];
struct sockaddr *addr = NULL;
struct sockaddr_in *sin = NULL;
struct hostent *hp = NULL;
int type, class;
int status, priority, weight, size, len, numanswers, numqueries, rdlen;
unsigned short port;
#ifdef CK_ANSIC
const
#endif /* CK_ANSIC */
int hdrsize = sizeof(HEADER);
struct srv_dns_entry {
struct srv_dns_entry *next;
int priority;
int weight;
unsigned short port;
char *host;
};
struct srv_dns_entry *head = NULL;
struct srv_dns_entry *srv = NULL, *entry = NULL;
char * s = NULL;
nout = 0;
addr = (struct sockaddr *) malloc(sizeof(struct sockaddr));
if (addr == NULL)
return 0;
count = 1;
/*
* First build a query of the form:
*
* service.protocol.host
*
* which will most likely be something like:
*
* _telnet._tcp.host
*
*/
if (((int)strlen(service) + strlen(protocol) + strlen(host) + 5)
> MAX_DNS_NAMELEN
)
goto dnsout;
sprintf((char *)query, "_%s._%s.%s", service, protocol, host);
size = res_search(query, C_IN, T_SRV, answer.bytes, sizeof(answer.bytes));
if (size < hdrsize)
goto dnsout;
/* We got a reply - See how many answers it contains. */
p = answer.bytes;
numqueries = ntohs(answer.hdr.qdcount);
numanswers = ntohs(answer.hdr.ancount);
p += sizeof(HEADER);
/*
* We need to skip over all of the questions, so we have to iterate
* over every query record. dn_expand() is able to tell us the size
* of compressed DNS names, so we use it.
*/
while (numqueries--) {
len = dn_expand(answer.bytes,answer.bytes+size,p,query,sizeof(query));
if (len < 0)
goto dnsout;
INCR_CHECK(p, len + 4);
}
/*
* We're now pointing at the answer records. Only process them if
* they're actually T_SRV records (they might be CNAME records,
* for instance).
*
* But in a DNS reply, if you get a CNAME you always get the associated
* "real" RR for that CNAME. RFC 1034, 3.6.2:
*
* CNAME RRs cause special action in DNS software. When a name server
* fails to find a desired RR in the resource set associated with the
* domain name, it checks to see if the resource set consists of a CNAME
* record with a matching class. If so, the name server includes the CNAME
* record in the response and restarts the query at the domain name
* specified in the data field of the CNAME record. The one exception to
* this rule is that queries which match the CNAME type are not restarted.
*
* In other words, CNAMEs do not need to be expanded by the client.
*/
while (numanswers--) {
/* First is the name; use dn_expand() to get the compressed size. */
len = dn_expand(answer.bytes,answer.bytes+size,p,query,sizeof(query));
if (len < 0)
goto dnsout;
INCR_CHECK(p, len);
CHECK(p,2); /* Query type */
type = NTOHSP(p,2);
CHECK(p, 6); /* Query class */
class = NTOHSP(p,6); /* Also skip over 4-byte TTL */
CHECK(p,2); /* Record data length */
rdlen = NTOHSP(p,2);
/*
* If this is an SRV record, process it. Record format is:
*
* Priority
* Weight
* Port
* Server name
*/
if (class == C_IN && type == T_SRV) {
CHECK(p,2);
priority = NTOHSP(p,2);
CHECK(p, 2);
weight = NTOHSP(p,2);
CHECK(p, 2);
port = NTOHSP(p,2);
len = dn_expand(answer.
bytes,
answer.bytes + size,
p,
query,
sizeof(query)
);
if (len < 0)
goto dnsout;
INCR_CHECK(p, len);
/*
* We got everything. Insert it into our list, but make sure
* it's in the right order. Right now we don't do anything
* with the weight field
*/
srv = (struct srv_dns_entry *)malloc(sizeof(struct srv_dns_entry));
if (srv == NULL)
goto dnsout;
srv->priority = priority;
srv->weight = weight;
srv->port = port;
makestr(&s,(char *)query); /* strdup() is not portable */
srv->host = s;
if (head == NULL || head->priority > srv->priority) {
srv->next = head;
head = srv;
} else
/*
* Confusing. Insert an entry into this spot only if:
* . The next person has a higher priority (lower
* priorities are preferred), or:
* . There is no next entry (we're at the end)
*/
for (entry = head; entry != NULL; entry = entry->next)
if ((entry->next &&
entry->next->priority > srv->priority) ||
entry->next == NULL) {
srv->next = entry->next;
entry->next = srv;
break;
}
} else
INCR_CHECK(p, rdlen);
}
/*
* Now we've got a linked list of entries sorted by priority.
* Start looking up A records and returning addresses.
*/
if (head == NULL)
goto dnsout;
for (entry = head; entry != NULL; entry = entry->next) {
hp = gethostbyname(entry->host);
if (hp != 0) {
/* Watch out - memset() and memcpy() are not portable... */
switch (hp->h_addrtype) {
case AF_INET:
for (j = 0; hp->h_addr_list[j]; j++) {
sin = (struct sockaddr_in *) &addr[nout++];
memset ((char *) sin, 0, sizeof (struct sockaddr));
sin->sin_family = hp->h_addrtype;
sin->sin_port = htons(entry->port);
memcpy((char *) &sin->sin_addr,
(char *) hp->h_addr_list[j],
sizeof(struct in_addr));
if (nout + 1 >= count) {
count += 5;
addr = (struct sockaddr *)
realloc((char *) addr,
sizeof(struct sockaddr) * count);
if (!addr)
goto dnsout;
}
}
break;
default:
break;
}
}
}
for (entry = head; entry != NULL;) {
free(entry->host);
entry->host = NULL;
srv = entry;
entry = entry->next;
free(srv);
srv = NULL;
}
dnsout:
if (srv)
free(srv);
if (nout == 0) { /* No good servers */
if (addr)
free(addr);
return 0;
}
*addr_pp = addr;
*naddrs = nout;
return 1;
}
#endif /* CK_DNS_SRV */
#ifdef TNCODE
#ifdef CK_FORWARD_X
int
fwdx_create_listen_socket(screen) int screen; {
#ifdef NOPUTENV
return(-1);
#else /* NOPUTENV */
struct sockaddr_in saddr;
int display, port, sock=-1, i;
static char env[512];
/*
* X Windows Servers support multiple displays by listening on
* one socket per display. Display 0 is port 6000; Display 1 is
* port 6001; etc.
*
* We start by trying to open port 6001 so that display 0 is
* reserved for the local X Windows Server.
*/
for ( display=1; display < 1000 ; display++ ) {
if ((sock = socket(AF_INET, SOCK_STREAM, 0)) < 0) {
debug(F111,"fwdx_create_listen_socket()","socket() < 0",sock);
return(-1);
}
port = 6000 + display;
bzero((char *)&saddr, sizeof(saddr));
saddr.sin_family = AF_INET;
saddr.sin_addr.s_addr = inet_addr(myipaddr);
saddr.sin_port = htons(port);
if (bind(sock, (struct sockaddr *)&saddr, sizeof(saddr)) < 0) {
i = errno; /* Save error code */
#ifdef TCPIPLIB
socket_close(sock);
#else /* TCPIPLIB */
close(sock);
#endif /* TCPIPLIB */
sock = -1;
debug(F110,"fwdx_create_listen_socket()","bind() < 0",0);
continue;
}
debug(F100,"fdwx_create_listen_socket() bind OK","",0);
break;
}
if ( display > 1000 ) {
debug(F100,"fwdx_create_listen_socket() Out of Displays","",0);
return(-1);
}
if (listen(sock, 5) < 0) {
i = errno; /* Save error code */
#ifdef TCPIPLIB
socket_close(sock);
#else /* TCPIPLIB */
close(sock);
#endif /* TCPIPLIB */
debug(F101,"fdwx_create_listen_socket() listen() errno","",errno);
return(-1);
}
debug(F100,"fwdx_create_listen_socket() listen OK","",0);
TELOPT_SB(TELOPT_FORWARD_X).forward_x.listen_socket = sock;
if (!myipaddr[0])
getlocalipaddr();
if ( myipaddr[0] )
sprintf(env,"DISPLAY=%s:%d:%d",myipaddr,display,screen);
else
sprintf(env,"DISPLAY=%d:%d",display,screen);
putenv(env);
return(0);
#endif /* NOPUTENV */
}
int
fwdx_open_client_channel(channel) int channel; {
char * env;
struct sockaddr_in saddr;
int colon, dot, display, port, sock, i;
char buf[256];
#ifdef TCP_NODELAY
int on=1;
#endif /* TCP_NODELAY */
debug(F111,"fwdx_create_client_channel()","channel",channel);
for ( i=0; i<MAXFWDX ; i++ ) {
if (TELOPT_SB(TELOPT_FORWARD_X).forward_x.channel[i].id == channel) {
/* Already open */
debug(F110,"fwdx_create_client_channel()","already open",0);
return(0);
}
}
env = getenv("DISPLAY");
if ( env )
ckstrncpy(buf,env,256);
else
ckstrncpy(buf,"127.0.0.1:0.0",256);
if ((sock = socket(AF_INET, SOCK_STREAM, 0)) < 0) {
debug(F111,"fwdx_create_client_channel()","socket() < 0",sock);
return(-1);
}
bzero((char *)&saddr,sizeof(saddr));
saddr.sin_family = AF_INET;
colon = ckindex(":",buf,0,0,1);
dot = ckindex(".",&buf[colon],0,0,1);
if ( dot )
buf[colon+dot-1] = '\0';
display = atoi(&buf[colon+dot-1]);
port = 6000 + display;
saddr.sin_port = htons(port);
if ( colon ) {
buf[colon-1] = '\0';
debug(F110,"fwdx_create_client_channel() ip-address",buf,0);
saddr.sin_addr.s_addr = inet_addr(buf);
} else {
debug(F110,"fwdx_create_client_channel() ip-address",myipaddr,0);
saddr.sin_addr.s_addr = inet_addr(myipaddr);
}
if ( connect(sock, (struct sockaddr *)&saddr, sizeof(saddr)) < 0) {
debug(F110,"fwdx_create_client_channel()","connect() failed",0);
#ifdef TCPIPLIB
socket_close(sock);
#else /* TCPIPLIB */
close(sock);
#endif /* TCPIPLIB */
return(-1);
}
#ifdef TCP_NODELAY
setsockopt(sock,IPPROTO_TCP,TCP_NODELAY,(char *)&on,sizeof(on));
#endif /* TCP_NODELAY */
for ( i=0; i<MAXFWDX ; i++ ) {
if (TELOPT_SB(TELOPT_FORWARD_X).forward_x.channel[i].id == -1) {
TELOPT_SB(TELOPT_FORWARD_X).forward_x.channel[i].fd = sock;
TELOPT_SB(TELOPT_FORWARD_X).forward_x.channel[i].id = channel;
debug(F111,"fwdx_create_client_channel()","socket",sock);
return(0);
}
}
return(-1);
}
int
fwdx_open_server_channel() {
int sock, ready_to_accept, sock2,channel,i;
#ifdef TCP_NODELAY
int on=1;
#endif /* TCP_NODELAY */
#ifdef UCX50
static u_int saddrlen;
#else
static SOCKOPT_T saddrlen;
#endif /* UCX50 */
struct sockaddr_in saddr;
char sb[8];
extern char tn_msg[];
#ifdef BSDSELECT
fd_set rfds;
struct timeval tv;
#else
#ifdef BELLSELCT
fd_set rfds;
#else
fd_set rfds;
struct timeval {
long tv_sec;
long tv_usec;
} tv;
#endif /* BELLSELECT */
#endif /* BSDSELECT */
unsigned short nchannel;
unsigned char * p;
sock = TELOPT_SB(TELOPT_FORWARD_X).forward_x.listen_socket;
try_again:
#ifdef BSDSELECT
tv.tv_sec = tv.tv_usec = 0L;
tv.tv_usec = 50;
FD_ZERO(&rfds);
FD_SET(sock, &rfds);
ready_to_accept =
((select(FD_SETSIZE,
#ifdef HPUX
#ifdef HPUX1010
(fd_set *)
#else
(int *)
#endif /* HPUX1010 */
#else
#ifdef __DECC
(fd_set *)
#endif /* __DECC */
#endif /* HPUX */
&rfds, NULL, NULL, &tv) > 0) &&
FD_ISSET(sock, &rfds));
#else /* BSDSELECT */
#ifdef IBMSELECT
ready_to_accept = (select(&sock, 1, 0, 0, 50) == 1);
#else
#ifdef BELLSELECT
FD_ZERO(rfds);
FD_SET(sock, rfds);
ready_to_accept =
((select(128, rfds, NULL, NULL, 50) > 0) &&
FD_ISSET(sock, rfds));
#else
/* Try this - what's the worst that can happen... */
tv.tv_sec = tv.tv_usec = 0L;
tv.tv_usec = 50;
FD_ZERO(&rfds);
FD_SET(sock, &rfds);
ready_to_accept =
((select(FD_SETSIZE,
(fd_set *) &rfds, NULL, NULL, &tv) > 0) &&
FD_ISSET(sock, &rfds));
#endif /* BELLSELECT */
#endif /* IBMSELECT */
#endif /* BSDSELECT */
if ( !ready_to_accept )
return(0);
if ((sock2 = accept(sock,(struct sockaddr *)&saddr,&saddrlen)) < 0) {
int i = errno; /* save error code */
debug(F101,"tcpsrv_open accept errno","",i);
return(-1);
}
/*
* Now we have the open socket. We must now find a channel to store
* it in, and then notify the client.
*/
for ( channel=0;channel<MAXFWDX;channel++ ) {
if ( TELOPT_SB(TELOPT_FORWARD_X).forward_x.channel[channel].fd == -1 )
break;
}
if ( channel == MAXFWDX ) {
#ifdef TCPIPLIB
socket_close(sock2);
#else /* TCPIPLIB */
close(sock2);
#endif /* TCPIPLIB */
return(-1);
}
if ( fwdx_send_open(channel) < 0 ) {
#ifdef TCPIPLIB
socket_close(sock2);
#else /* TCPIPLIB */
close(sock2);
#endif /* TCPIPLIB */
}
#ifdef TCP_NODELAY
setsockopt(sock2,IPPROTO_TCP,TCP_NODELAY,(char *)&on,sizeof(on));
#endif /* TCP_NODELAY */
TELOPT_SB(TELOPT_FORWARD_X).forward_x.channel[channel].fd = sock2;
TELOPT_SB(TELOPT_FORWARD_X).forward_x.channel[channel].id = channel;
goto try_again;
return(0); /* never reached */
}
int
fwdx_close_channel(channel) int channel; {
int i;
for ( i=0; i<MAXFWDX ; i++ ) {
if (TELOPT_SB(TELOPT_FORWARD_X).forward_x.channel[i].id == channel)
break;
}
if ( i == MAXFWDX )
return(-1);
#ifdef TCPIPLIB
socket_close(TELOPT_SB(TELOPT_FORWARD_X).forward_x.channel[i].fd);
#else /* TCPIPLIB */
close(TELOPT_SB(TELOPT_FORWARD_X).forward_x.channel[i].fd);
#endif /* TCPIPLIB */
TELOPT_SB(TELOPT_FORWARD_X).forward_x.channel[i].fd = -1;
TELOPT_SB(TELOPT_FORWARD_X).forward_x.channel[i].id = -1;
return(0);
}
int
fwdx_close_all() {
int x;
if ( TELOPT_SB(TELOPT_FORWARD_X).forward_x.listen_socket != -1 ) {
#ifdef TCPIPLIB
socket_close(TELOPT_SB(TELOPT_FORWARD_X).forward_x.listen_socket);
#else /* TCPIPLIB */
close(TELOPT_SB(TELOPT_FORWARD_X).forward_x.listen_socket);
#endif /* TCPIPLIB */
TELOPT_SB(TELOPT_FORWARD_X).forward_x.listen_socket = -1;
}
for ( x=0 ; x<MAXFWDX ; x++ ) {
if ( TELOPT_SB(TELOPT_FORWARD_X).forward_x.channel[x].fd != -1 ) {
#ifdef TCPIPLIB
socket_close(TELOPT_SB(TELOPT_FORWARD_X).forward_x.channel[x].fd);
#else /* TCPIPLIB */
close(TELOPT_SB(TELOPT_FORWARD_X).forward_x.channel[x].fd);
#endif /* TCPIPLIB */
TELOPT_SB(TELOPT_FORWARD_X).forward_x.channel[x].fd = -1;
TELOPT_SB(TELOPT_FORWARD_X).forward_x.channel[x].id = -1;
}
}
return(0);
}
/* The following definitions are for Unix */
#ifndef socket_write
#define socket_write(f,s,n) write(f,s,n)
#endif /* socket_write */
#ifndef socket_read
#define socket_read(f,s,n) read(f,s,n)
#endif /* socket_read */
int
fwdx_write_data_to_channel(channel, data, len)
int channel; char * data; int len;
{
int sock, count, try=0, length = 0, i;
for ( i=0; i<MAXFWDX ; i++ ) {
if (TELOPT_SB(TELOPT_FORWARD_X).forward_x.channel[i].id == channel)
break;
}
if ( i == MAXFWDX ) {
debug(F110,"fwdx_write_data_to_channel",
"attempting to write to closed channel",0);
return(-1);
}
sock = TELOPT_SB(TELOPT_FORWARD_X).forward_x.channel[i].fd;
debug(F111,"fwdx_write_data_to_channel","socket",sock);
hexdump("fwdx_write_data_to_channel",data,len);
fwdx_write_data_to_channel_retry:
if ((count = socket_write(sock,data,len)) < 0) {
int s_errno = socket_errno; /* maybe a function */
debug(F101,"fwdx_write_data_to_channel socket_write error","",s_errno);
#ifdef OS2
if (os2socketerror(s_errno) < 0)
return(-2);
#endif /* OS2 */
return(-1); /* Call it an i/o error */
}
if (count < len) {
debug(F111,"fwdx_write_data_to_channel socket_write",data,count);
if (try > 25) {
/* don't try more than 25 times */
debug(F100,
"fwdx_write_data_to_channel tried more than 25 times","",0);
return(-1);
}
if (count > 0) {
data += count;
len -= count;
}
debug(F111,"fwdx_write_data_to_channel retry",data,len);
if ( len > 0 )
goto fwdx_write_data_to_channel_retry;
}
debug(F111,"fwdx_write_data_to_channel socket_write",data,length);
return(length); /* success - return total length */
}
int
fwdx_send_data_from_channel(channel, data, len)
int channel; char * data; int len;
{
extern char tn_msg[];
int nchannel;
static CHAR sb[2048];
CHAR * p;
int i, j;
unsigned int tmp;
debug(F111,"fwdx_send_data_from_channel()","channel",channel);
nchannel = htons(channel);
p = (unsigned char *) &nchannel;
sb[0] = (CHAR) IAC; /* I Am a Command */
sb[1] = (CHAR) SB; /* Subnegotiation */
sb[2] = TELOPT_FORWARD_X; /* Forward X */
sb[3] = FWDX_DATA; /* Data */
sb[4] = p[0];
sb[5] = p[1];
for ( i=0, j=6 ; i<len ; i++ ) {
tmp = (unsigned int)data[i];
if ( tmp == IAC ) {
sb[j++] = IAC;
sb[j++] = IAC;
} else {
sb[j++] = tmp;
}
if ( j == 2046 && (i < len-1) ) {
sb[j++] = (CHAR) IAC; /* End of Subnegotiation */
sb[j++] = (CHAR) SE; /* marked by IAC SE */
if ( ttol(sb,j) < 0 ) {
debug(F110,"fwdx_send_data_from_channel()","ttol() failed",0);
return(-1);
}
#ifdef DEBUG
if (deblog || tn_deb || debses) {
sprintf(tn_msg,"TELNET SENT SB %s DATA %02x %02x ",
TELOPT(TELOPT_FORWARD_X),p[0],p[1]);
#ifdef HEXDISP
{
int was_hex = 1, k;
extern char hexbuf[];
for (k=6; k < j-2; k++) {
if (sb[k] < 32 || sb[k] >= 127) {
sprintf(hexbuf,"%s%02X ",was_hex?"":"\" ",sb[k]);
was_hex = 1;
} else {
sprintf(hexbuf,"%s%c",was_hex?"\"":"",sb[k]);
was_hex = 0;
}
strcat(tn_msg,hexbuf);
}
if (!was_hex)
strcat(tn_msg,"\" ");
}
#else /* HEXDISP */
memcpy(hexbuf,&sb[k],j-k);
hexbuf[j-k] = ' ';
hexbuf[j-k+1] = '\0';
strcat(tn_msg,hexbuf);
#endif /* HEXDISP */
strcat(tn_msg," IAC SE");
debug(F100,tn_msg,"",0);
if (tn_deb || debses) tn_debug(tn_msg);
}
#endif /* DEBUG */
sb[0] = (CHAR) IAC; /* I Am a Command */
sb[1] = (CHAR) SB; /* Subnegotiation */
sb[2] = TELOPT_FORWARD_X; /* Forward X */
sb[3] = FWDX_DATA; /* Data */
sb[4] = p[0];
sb[5] = p[1];
j = 6;
}
}
sb[j++] = (CHAR) IAC; /* End of Subnegotiation */
sb[j++] = (CHAR) SE; /* marked by IAC SE */
if ( ttol(sb,j) < 0 ) {
debug(F110,"fwdx_send_data_from_channel()","ttol() failed",0);
return(-1);
}
#ifdef DEBUG
if (deblog || tn_deb || debses) {
sprintf(tn_msg,"TELNET SENT SB %s DATA %02x %02x ",
TELOPT(TELOPT_FORWARD_X),p[0],p[1]);
#ifdef HEXDISP
{
int was_hex = 1, k;
extern char hexbuf[];
for (k=6; k < j-2; k++) {
if (sb[k] < 32 || sb[k] >= 127) {
sprintf(hexbuf,"%s%02X ",was_hex?"":"\" ",sb[k]);
was_hex = 1;
} else {
sprintf(hexbuf,"%s%c",was_hex?"\"":"",sb[k]);
was_hex = 0;
}
strcat(tn_msg,hexbuf);
}
if (!was_hex)
strcat(tn_msg,"\" ");
}
#else /* HEXDISP */
memcpy(hexbuf,&sb[k],j-k-2);
hexbuf[j-k-2] = ' ';
hexbuf[j-k-1] = '\0';
strcat(tn_msg,hexbuf);
#endif /* HEXDISP */
strcat(tn_msg," IAC SE");
debug(F100,tn_msg,"",0);
if (tn_deb || debses) tn_debug(tn_msg);
}
#endif /* DEBUG */
return(0);
}
VOID
fwdx_check_sockets(fd_set *ibits)
{
int x, sock, channel;
static char buffer[32000];
debug(F100,"fwdx_check_sockets()","",0);
if ( sstelnet && !TELOPT_ME(TELOPT_FORWARD_X) ||
!sstelnet && !TELOPT_U(TELOPT_FORWARD_X)) {
debug(F110,"fwdx_check_sockets()","TELOPT_FORWARD_X not negotiated",0);
return;
}
for (x = 0; x < MAXFWDX; x++) {
if ( TELOPT_SB(TELOPT_FORWARD_X).forward_x.channel[x].fd == -1 )
continue;
sock = TELOPT_SB(TELOPT_FORWARD_X).forward_x.channel[x].fd;
channel = TELOPT_SB(TELOPT_FORWARD_X).forward_x.channel[x].id;
if (FD_ISSET(sock, ibits))
{
int bytes, nn = 1;
fd_set fdset;
struct timeval tv;
debug(F111,"fwdx_check_sockets()","channel set",x);
memset(&tv, 0, sizeof(tv));
/* make sure we read _all_ available data */
do {
bytes = socket_read(sock, buffer, sizeof(buffer));
if (bytes > 0)
fwdx_send_data_from_channel(channel, buffer, bytes);
else {
fwdx_close_channel(channel);
fwdx_send_close(channel);
}
FD_ZERO(&fdset);
FD_SET(sock, &fdset);
} while (select(128, &fdset, NULL, NULL, &tv) > 0);
}
}
}
int
fwdx_init_fd_set(fd_set *ibits)
{
int x,set=0;
debug(F100,"fwdx_init_fd_set()","",0);
if ( sstelnet && !TELOPT_ME(TELOPT_FORWARD_X) ||
!sstelnet && !TELOPT_U(TELOPT_FORWARD_X)) {
debug(F110,"fwdx_init_fd_set()","TELOPT_FORWARD_X not negotiated",0);
return(0);
}
if (TELOPT_SB(TELOPT_FORWARD_X).forward_x.listen_socket != -1) {
set++;
FD_SET(TELOPT_SB(TELOPT_FORWARD_X).forward_x.listen_socket, ibits);
}
for (x = 0; x < MAXFWDX; x++) {
if (TELOPT_SB(TELOPT_FORWARD_X).forward_x.channel[x].fd != -1) {
set++;
FD_SET(TELOPT_SB(TELOPT_FORWARD_X).forward_x.channel[x].fd, ibits);
}
}
return(set);
}
#ifdef NT
VOID
fwdx_thread( VOID * dummy )
{
fd_set ifds;
struct timeval tv;
extern int priority;
setint();
SetThreadPrty(priority,isWin95() ? 3 : 11);
while ( !sstelnet && TELOPT_U(TELOPT_FORWARD_X) ||
sstelnet && TELOPT_ME(TELOPT_FORWARD_X))
{
FD_ZERO(&ifds);
if (fwdx_init_fd_set(&ifds) > 0) {
tv.tv_sec = 0;
tv.tv_usec = 2500;
if ( select(FD_SETSIZE, &ifds, NULL, NULL, &tv) > 0 )
fwdx_check_sockets(&ifds);
} else {
TELOPT_SB(TELOPT_FORWARD_X).forward_x.thread_started = 0;
ckThreadEnd(NULL);
}
}
}
#endif /* NT */
#endif /* CK_FORWARD_X */
#endif /* TNCODE */
#endif /* NETCONN */