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telnet.c
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telnet.c
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/*-
* Copyright (c) 1997 Dave Richards <[email protected]>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* and exceptions are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. The name of the authors may not be used to endorse or promote products
* derived from this software without specific prior written permission.
* 4. The code can not be used by Gary Random, Random Communications, Inc.,
* the employees of Random Communications, Inc. or its subsidiaries,
* including Defiance MUD, without prior written permission from the
* authors.
*
* THIS SOFTWARE IS PROVIDED ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES,
* INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY
* AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL
* THE AUTHORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;
* OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
* OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
* ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include <stdio.h>
#include <string.h>
#include <errno.h>
#include <time.h>
#include <unistd.h>
#include <sys/types.h>
#include <sys/socket.h>
#include <netinet/in.h>
#include <arpa/telnet.h>
#include <netdb.h>
#include "config.h"
#include "patchlevel.h"
#include "lint.h"
#include "main.h"
#include "interpret.h"
#include "simulate.h"
#include "nqueue.h"
#include "ndesc.h"
#include "net.h"
#include "telnet.h"
#include "comm.h"
#include "object.h"
#include "backend.h"
#ifndef EPROTO
#define EPROTO EPROTOTYPE
#endif
/*
* Telnet Server
*/
/*
* Queue Sizes.
*/
#define TELNET_CANQ_SIZE (1024 * 8)
#define TELNET_RAWQ_SIZE (1024 * 4)
#define TELNET_OPTQ_SIZE (1024)
#define TELNET_OUTQ_SIZE (32*1024)
/*
* Output Queue Flow Control Parameters.
*/
#define TELNET_OUTQ_LOWAT (TELNET_OUTQ_SIZE/2)
#define TELNET_OUTQ_HIWAT (TELNET_OUTQ_SIZE - 256)
/*
* The following parameter specifies the minimum number of bytes that must
* exist in the output queue to allow raw queue processing to continue.
* It is set to the maximum number of bytes ever sent in response to a
* TELNET command. N.B. Do not change this unless you know what you
* are doing!
*/
#define TELNET_OUTQ_REQUIRED 12
/*
* The folowing parameters are used to set the kernel socket buffer
* size for the TELNET connection. By default, BSD sets both send
* and receive buffers to 4k. It makes more sense to increase the
* send size and reduce the receive size for a MUD.
*/
#define TELNET_RCVBUF_SIZE 2048
#define TELNET_SNDBUF_SIZE TELNET_OUTQ_SIZE
/*
* ASCII Definitions.
*/
#define NUL 0
#define BEL 7
#define BS 8
#define LF 10
#define CR 13
#define DEL 127
#define TRUNCATED "*** Truncated. ***\r\n"
static void telnet_interactive(void *vp);
static void telnet_input(telnet_t *tp);
static void telnet_readbytes(ndesc_t *nd, telnet_t *tp);
static void telnet_send_sb(telnet_t *tp, u_char opt, u_char *data);
/*
* Allocate a Telnet control block.
*/
static telnet_t *
telnet_alloc(void)
{
int i;
telnet_t *tp;
tp = xalloc(sizeof (telnet_t));
tp->t_flags = 0;
tp->t_state = TS_DATA;
tp->t_nd = NULL;
tp->t_rawq = nq_alloc(TELNET_RAWQ_SIZE);
tp->t_canq = nq_alloc(TELNET_CANQ_SIZE);
tp->t_optq = NULL;
tp->t_outq = nq_alloc(TELNET_OUTQ_SIZE);
tp->t_ip = NULL;
tp->t_rblen = 0;
tp->t_sblen = 0;
tp->task = NULL;
for (i = 0; i < OP_SIZE; i++)
{
tp->t_optb[i].o_us = OS_NO;
tp->t_optb[i].o_usq = OQ_EMPTY;
tp->t_optb[i].o_him = OS_NO;
tp->t_optb[i].o_himq = OQ_EMPTY;
}
return tp;
}
/*
* Free a Telnet Control Block.
*/
static void
telnet_free(telnet_t *tp)
{
nq_free(tp->t_rawq);
nq_free(tp->t_canq);
if (tp->t_optq != NULL)
nq_free(tp->t_optq);
nq_free(tp->t_outq);
if (tp->task)
remove_task(tp->task);
tp->task = NULL;
free(tp);
}
/*
* Flush the output queue.
*/
static void
telnet_flush(telnet_t *tp)
{
if (!nq_empty(tp->t_outq))
nq_send(tp->t_outq, nd_fd(tp->t_nd), &tp->t_sblen);
}
/*
* Close a Telnet session and free the associated resources.
*/
static void
telnet_shutdown(ndesc_t *nd, telnet_t *tp)
{
if (tp != NULL)
{
telnet_flush(tp);
telnet_free(tp);
}
(void)close(nd_fd(nd));
nd_detach(nd);
}
/*
* Associate a Telnet control block with an interactive object.
*/
static void
telnet_attach(telnet_t *tp, struct interactive *ip)
{
tp->t_flags |= TF_ATTACH;
tp->t_ip = ip;
}
/*
* Disassociate a Telnet control block from an interactive object.
*/
void
telnet_detach(telnet_t *tp)
{
if ((tp->t_flags & TF_ATTACH) == 0)
return;
tp->t_flags &= ~TF_ATTACH;
tp->t_ip = NULL;
if (!tp->task)
tp->task = create_task(telnet_interactive, tp);
}
/*
* Re-enable the output queue (if blocked).
*/
static void
telnet_enabw(telnet_t *tp)
{
nd_enable(tp->t_nd, ND_W);
}
/*
* Append a character string to the output queue, encapsulating it
* appropriately.
* Returns 1 in case the message is truncated.
*/
int
telnet_output(telnet_t *tp, u_char *cp)
{
int len;
u_char c, *bp, buf[TELNET_OUTQ_SIZE + 3];
if (tp->t_flags & TF_OVFLOUTQ)
return 1;
bp = buf;
while (bp < &buf[TELNET_OUTQ_SIZE] && *cp != '\0')
{
c = *cp++;
switch (c)
{
case LF:
*bp++ = CR;
break;
case IAC:
*bp++ = IAC;
break;
}
*bp++ = c;
}
*bp = '\0';
len = bp - buf;
if (len == 0)
return 0;
if (nq_len(tp->t_outq) + len >= TELNET_OUTQ_HIWAT)
{
telnet_flush(tp);
if (nq_len(tp->t_outq) + len >= TELNET_OUTQ_HIWAT)
{
tp->t_flags |= TF_OVFLOUTQ;
buf[TELNET_OUTQ_HIWAT - nq_len(tp->t_outq)] = '\0';
nq_puts(tp->t_outq, buf);
nq_puts(tp->t_outq, (u_char *)TRUNCATED);
telnet_enabw(tp);
return 1;
}
}
nq_puts(tp->t_outq, buf);
telnet_enabw(tp);
return 0;
}
/*
* Send a GMCP SB message if GMCP has been enabled on the connection.
* Returns 1 if gmcp is not enabled on the connection.
*/
int
telnet_output_gmcp(telnet_t *tp, u_char *cp)
{
if (tp->t_flags & TF_GMCP)
{
telnet_send_sb(tp, TELOPT_GMCP, cp);
return 0;
}
return 1;
}
int
telnet_output_mssp(telnet_t *tp, mssp_t *vars[], size_t count)
{
nqueue_t *nq;
nq = tp->t_outq;
nq_putc(nq, IAC);
nq_putc(nq, SB);
nq_putc(nq, TELOPT_MSSP);
for (size_t i = 0; i < count; i++) {
nq_putc(nq, MSSP_VAR);
nq_puts(nq, vars[i]->name);
for (size_t k = 0; k < vars[i]->size; k++) {
nq_putc(nq, MSSP_VAL);
nq_puts(nq, vars[i]->values[k]);
}
}
nq_putc(nq, IAC);
nq_putc(nq, SE);
telnet_enabw(tp);
return 1;
}
/*
* Notify an interactive object that the Telnet session has been disconnected.
*/
static void
telnet_disconnect(telnet_t *tp)
{
if ((tp->t_flags & TF_ATTACH) == 0)
return;
tp->t_flags |= TF_DISCONNECT;
if (!tp->task)
tp->task = create_task(telnet_interactive, tp);
}
/*
* Append a character to the canonical queue.
*/
static void
telnet_canq_putc(telnet_t *tp, u_char c)
{
if (tp->t_flags & (TF_OVFLCANQ | TF_SYNCH))
return;
if (!nq_full(tp->t_canq))
{
nq_putc(tp->t_canq, c);
}
else
{
tp->t_flags |= TF_OVFLCANQ;
if (nq_avail(tp->t_outq) > 0)
{
nq_putc(tp->t_outq, BEL);
telnet_enabw(tp);
}
}
}
/*
* Append a character to the option queue.
*/
static void
telnet_optq_putc(telnet_t *tp, u_char c)
{
if (tp->t_flags & TF_OVFLOPTQ)
return;
if (!nq_full(tp->t_optq))
nq_putc(tp->t_optq, c);
else
tp->t_flags |= TF_OVFLOPTQ;
}
/*
* Send the contents of the canonical queue to the interactive object.
*/
static void
telnet_eol(telnet_t *tp)
{
if (tp->t_flags & TF_SYNCH)
return;
if (nq_full(tp->t_canq))
{
tp->t_flags &= ~TF_OVFLCANQ;
}
else
{
nq_putc(tp->t_canq, '\0');
}
tp->t_flags |= TF_INPUT;
}
static void
telnet_interactive(void *vp)
{
telnet_t *tp = vp;
char *cp;
if (!(tp->t_flags & TF_ATTACH)) {
tp->task = NULL;
telnet_shutdown(tp->t_nd, tp);
return;
}
if (tp->t_flags & TF_DISCONNECT) {
tp->t_flags &= ~TF_DISCONNECT;
if (tp->t_ip)
remove_interactive(tp->t_ip, 1);
}
if (!(tp->t_flags & TF_ATTACH)) {
tp->task = NULL;
telnet_shutdown(tp->t_nd, tp);
return;
}
if (tp->t_flags & TF_OVFLOUTQ) {
tp->task = NULL;
return;
}
if (tp->t_flags & TF_INPUT) {
tp->t_flags &= ~TF_INPUT;
cp = (char *)nq_rptr(tp->t_canq);
if (nq_full(tp->t_canq) &&
(nq_size(tp->t_canq) > (strlen(TRUNCATED) + 1))) {
cp += nq_size(tp->t_canq) - (strlen(TRUNCATED) + 1);
strcpy(cp, TRUNCATED);
cp = (char *)nq_rptr(tp->t_canq);
}
interactive_input(tp->t_ip, cp);
nq_init(tp->t_canq);
}
if (!(tp->t_flags & TF_ATTACH)) {
tp->task = NULL;
telnet_shutdown(tp->t_nd, tp);
return;
}
tp->t_flags &= ~TF_GA;
telnet_readbytes(tp->t_nd, tp);
telnet_input(tp);
if (!(tp->t_flags & TF_ATTACH)) {
tp->task = NULL;
telnet_shutdown(tp->t_nd, tp);
return;
}
if (tp->t_flags & (TF_INPUT|TF_DISCONNECT)) {
reschedule_task(tp->task);
return;
}
tp->task = NULL;
nd_enable(tp->t_nd, ND_R);
}
/*
* Process a Data Mark.
*/
static void
telnet_dm(telnet_t *tp)
{
if ((tp->t_flags & TF_URGENT) == 0)
tp->t_flags &= ~TF_SYNCH;
}
/*
* Process an Are You There.
*/
static void
telnet_ayt(telnet_t *tp)
{
char version[24];
snprintf(version, sizeof(version), "[%6.6s%02d]\r\n", GAME_VERSION, PATCH_LEVEL);
nq_puts(tp->t_outq, (u_char *)version);
telnet_enabw(tp);
}
/*
* Process an Erase Character/Backspace/Delete.
*/
static INLINE void
telnet_ec(telnet_t *tp)
{
if (tp->t_flags & (TF_OVFLCANQ | TF_SYNCH))
return;
if (!nq_empty(tp->t_canq))
nq_unputc(tp->t_canq);
}
/*
* Process an Erase Line.
*/
static void
telnet_el(telnet_t *tp)
{
if (tp->t_flags & (TF_OVFLCANQ | TF_SYNCH))
return;
nq_init(tp->t_canq);
}
/*
* Process a Subnegotiate Begin.
*/
static void
telnet_sb(telnet_t *tp, u_char opt)
{
if (tp->t_optq == NULL)
tp->t_optq = nq_alloc(TELNET_OPTQ_SIZE);
tp->t_opt = opt;
}
/*
* Process a Subnegotiate End.
*/
static void
telnet_se(telnet_t *tp)
{
if (!nq_full(tp->t_optq) && !nq_empty(tp->t_optq))
{
if (tp->t_opt == TELOPT_GMCP) {
nq_putc(tp->t_optq, '\0');
gmcp_input(tp->t_ip, (char *)nq_rptr(tp->t_optq));
}
}
tp->t_flags &= ~TF_OVFLOPTQ;
nq_init(tp->t_optq);
}
/*
* Return the option block pointer for the specified option. If we have no
* interest in ever negotiating the specified option, return NULL; i.e. it's
* not one we know about, or we do but we'd never want to enable it.
*/
static opt_t *
telnet_get_optp(telnet_t *tp, u_char opt)
{
switch (opt)
{
case TELOPT_ECHO:
return &tp->t_optb[OP_ECHO];
case TELOPT_SGA:
return &tp->t_optb[OP_SGA];
case TELOPT_CDM:
return &tp->t_optb[OP_CDM];
case TELOPT_GMCP:
return &tp->t_optb[OP_GMCP];
case TELOPT_MSSP:
return &tp->t_optb[OP_MSSP];
default:
return NULL;
}
}
/*
* Enable an option in the local-to-remote direction?
*/
static int
telnet_lenabp(telnet_t *tp, u_char opt)
{
switch (opt)
{
case TELOPT_ECHO:
return 1;
case TELOPT_SGA:
return 1;
case TELOPT_CDM:
return 1;
default:
return 0;
}
}
/*
* Enable an option in the remote-to-local direction?
*/
static int
telnet_renabp(telnet_t *tp, u_char opt)
{
switch (opt)
{
case TELOPT_SGA:
return 1;
default:
return 0;
}
}
/*
* Send IAC GA.
*/
static void
telnet_send_ga(telnet_t *tp)
{
nqueue_t *nq;
nq = tp->t_outq;
nq_putc(nq, IAC);
nq_putc(nq, GA);
telnet_enabw(tp);
}
/*
* Send IAC WILL <option>.
*/
static void
telnet_send_will(telnet_t *tp, u_char opt)
{
nqueue_t *nq;
nq = tp->t_outq;
nq_putc(nq, IAC);
nq_putc(nq, WILL);
nq_putc(nq, opt);
telnet_enabw(tp);
}
/*
* Send IAC WONT <option>.
*/
static void
telnet_send_wont(telnet_t *tp, u_char opt)
{
nqueue_t *nq;
nq = tp->t_outq;
nq_putc(nq, IAC);
nq_putc(nq, WONT);
nq_putc(nq, opt);
telnet_enabw(tp);
}
/*
* Send IAC DO <option>.
*/
static void
telnet_send_do(telnet_t *tp, u_char opt)
{
nqueue_t *nq;
nq = tp->t_outq;
nq_putc(nq, IAC);
nq_putc(nq, DO);
nq_putc(nq, opt);
telnet_enabw(tp);
}
/*
* Send IAC DONT <option>.
*/
static void
telnet_send_dont(telnet_t *tp, u_char opt)
{
nqueue_t *nq;
nq = tp->t_outq;
nq_putc(nq, IAC);
nq_putc(nq, DONT);
nq_putc(nq, opt);
telnet_enabw(tp);
}
/*
* Send IAC SB subnegotiation sequence
*/
static void
telnet_send_sb(telnet_t *tp, u_char opt, u_char *data)
{
nqueue_t *nq;
nq = tp->t_outq;
nq_putc(nq, IAC);
nq_putc(nq, SB);
nq_putc(nq, opt);
nq_puts(nq, data);
nq_putc(nq, IAC);
nq_putc(nq, SE);
telnet_enabw(tp);
}
/*
* Acknowledge enabling an option in the local-to-remote direction.
*/
static void
telnet_ack_lenab(telnet_t *tp, u_char opt)
{
switch (opt)
{
case TELOPT_SGA:
tp->t_flags |= TF_SGA;
break;
case TELOPT_GMCP:
tp->t_flags |= TF_GMCP;
break;
case TELOPT_MSSP:
break;
}
}
/*
* Acknowledge disabling an option in the local-to-remote direction.
*/
static void
telnet_ack_ldisab(telnet_t *tp, u_char opt)
{
switch (opt)
{
case TELOPT_SGA:
tp->t_flags &= ~TF_SGA;
break;
}
}
/*
* Acknowledge enabling an option in the remote-to-local direction.
*/
static void
telnet_ack_renab(telnet_t *tp, u_char opt)
{
}
/*
* Acknowledge disabling an option in the remote-to-local direction.
*/
static void
telnet_ack_rdisab(telnet_t *tp, u_char opt)
{
}
/*
* Negotiate enabling an option in the local-to-remote direction.
*/
static void
telnet_neg_lenab(telnet_t *tp, u_char opt)
{
opt_t *op;
op = telnet_get_optp(tp, opt);
if (op == NULL)
return;
switch (op->o_us)
{
case OS_NO:
op->o_us = OS_WANTYES;
telnet_send_will(tp, opt);
break;
case OS_YES:
break;
case OS_WANTNO:
switch (op->o_usq)
{
case OQ_EMPTY:
op->o_usq = OQ_OPPOSITE;
break;
case OQ_OPPOSITE:
break;
}
break;
case OS_WANTYES:
switch (op->o_usq)
{
case OQ_EMPTY:
break;
case OQ_OPPOSITE:
op->o_usq = OQ_EMPTY;
break;
}
break;
}
}
/*
* Negotiate disabling an option in the local-to-remote direction.
*/
static void
telnet_neg_ldisab(telnet_t *tp, u_char opt)
{
opt_t *op;
op = telnet_get_optp(tp, opt);
if (op == NULL)
return;
switch (op->o_us)
{
case OS_NO:
break;
case OS_YES:
op->o_us = OS_WANTNO;
telnet_send_wont(tp, opt);
break;
case OS_WANTNO:
switch (op->o_usq)
{
case OQ_EMPTY:
break;
case OQ_OPPOSITE:
op->o_usq = OQ_EMPTY;
break;
}
break;
case OS_WANTYES:
switch (op->o_usq)
{
case OQ_EMPTY:
op->o_usq = OQ_OPPOSITE;
break;
case OQ_OPPOSITE:
break;
}
break;
}
}
/*
* Enable Remote Echo.
*/
void
telnet_enable_echo(telnet_t *tp)
{
if (nq_avail(tp->t_outq) < 3)
return;
telnet_neg_lenab(tp, TELOPT_ECHO);
}
/*
* Disable Remote Echo.
*/
void
telnet_disable_echo(telnet_t *tp)
{
if (nq_avail(tp->t_outq) < 3)
return;
telnet_neg_ldisab(tp, TELOPT_ECHO);
}
/*
* Enable GMCP
*/
void
telnet_enable_gmcp(telnet_t *tp)
{
if (nq_avail(tp->t_outq) < 3)
return;
telnet_neg_lenab(tp, TELOPT_GMCP);
}
/*
* Disable GMCP
*/
void
telnet_disable_gmcp(telnet_t *tp)
{
if (nq_avail(tp->t_outq) < 3)
return;
telnet_neg_ldisab(tp, TELOPT_GMCP);
}
/*
* Enable MSSP
*/
void
telnet_enable_mssp(telnet_t *tp)
{
if (nq_avail(tp->t_outq) < 3)
return;
telnet_neg_lenab(tp, TELOPT_MSSP);
}
/*
* Disable MSSP
*/
void
telnet_disable_mssp(telnet_t *tp)
{
if (nq_avail(tp->t_outq) < 3)
return;
telnet_neg_ldisab(tp, TELOPT_MSSP);
}
/*
* Process IAC WILL <option>.
*/
static void
telnet_will(telnet_t *tp, u_char opt)
{
opt_t *op;
op = telnet_get_optp(tp, opt);
if (op == NULL)
{
telnet_send_dont(tp, opt);
return;
}
switch (op->o_him)
{
case OS_NO:
if (telnet_renabp(tp, opt))
{
op->o_him = OS_YES;
telnet_send_do(tp, opt);
telnet_ack_renab(tp, opt);
}
else
{
telnet_send_dont(tp, opt);
}
break;
case OS_YES:
break;
case OS_WANTNO:
switch (op->o_himq)
{
case OQ_EMPTY:
op->o_him = OS_NO;
telnet_ack_rdisab(tp, opt);
break;
case OQ_OPPOSITE:
op->o_him = OS_YES;
op->o_himq = OQ_EMPTY;
telnet_ack_renab(tp, opt);
break;
}
break;
case OS_WANTYES:
switch (op->o_himq)
{
case OQ_EMPTY:
op->o_him = OS_YES;
telnet_ack_renab(tp, opt);
break;
case OQ_OPPOSITE:
op->o_him = OS_WANTNO;
op->o_himq = OQ_EMPTY;
telnet_send_dont(tp, opt);
}
break;
}
}
/*
* Process IAC WONT <option>.
*/
static void
telnet_wont(telnet_t *tp, u_char opt)
{
opt_t *op;
op = telnet_get_optp(tp, opt);
if (op == NULL)
return;
switch (op->o_him)
{