2 * Pseudo-tty backend for pterm.
19 #include <sys/types.h>
22 #include <sys/ioctl.h>
39 /* updwtmpx() needs the name of the wtmp file. Try to find it. */
42 #define WTMPX_FILE _PATH_WTMPX
44 #define WTMPX_FILE "/var/log/wtmpx"
50 #define LASTLOG_FILE _PATH_LASTLOG
52 #define LASTLOG_FILE "/var/log/lastlog"
57 * Set up a default for vaguely sane systems. The idea is that if
58 * OMIT_UTMP is not defined, then at least one of the symbols which
59 * enable particular forms of utmp processing should be, if only so
60 * that a link error can warn you that you should have defined
61 * OMIT_UTMP if you didn't want any. Currently HAVE_PUTUTLINE is
62 * the only such symbol.
65 #if !defined HAVE_PUTUTLINE
66 #define HAVE_PUTUTLINE
70 typedef struct pty_tag
*Pty
;
73 * The pty_signal_pipe, along with the SIGCHLD handler, must be
74 * process-global rather than session-specific.
76 static int pty_signal_pipe
[2] = { -1, -1 }; /* obviously bogus initial val */
80 int master_fd
, slave_fd
;
82 char name
[FILENAME_MAX
];
84 int term_width
, term_height
;
85 int child_dead
, finished
;
91 * We store our pty backends in a tree sorted by master fd, so that
92 * when we get an uxsel notification we know which backend instance
93 * is the owner of the pty that caused it.
95 static int pty_compare_by_fd(void *av
, void *bv
)
100 if (a
->master_fd
< b
->master_fd
)
102 else if (a
->master_fd
> b
->master_fd
)
107 static int pty_find_by_fd(void *av
, void *bv
)
112 if (a
< b
->master_fd
)
114 else if (a
> b
->master_fd
)
119 static tree234
*ptys_by_fd
= NULL
;
122 * We also have a tree sorted by child pid, so that when we wait()
123 * in response to the signal we know which backend instance is the
124 * owner of the process that caused the signal.
126 static int pty_compare_by_pid(void *av
, void *bv
)
131 if (a
->child_pid
< b
->child_pid
)
133 else if (a
->child_pid
> b
->child_pid
)
138 static int pty_find_by_pid(void *av
, void *bv
)
143 if (a
< b
->child_pid
)
145 else if (a
> b
->child_pid
)
150 static tree234
*ptys_by_pid
= NULL
;
153 * If we are using pty_pre_init(), it will need to have already
154 * allocated a pty structure, which we must then return from
155 * pty_init() rather than allocating a new one. Here we store that
156 * structure between allocation and use.
158 * Note that although most of this module is entirely capable of
159 * handling multiple ptys in a single process, pty_pre_init() is
160 * fundamentally _dependent_ on there being at most one pty per
161 * process, so the normal static-data constraints don't apply.
163 * Likewise, since utmp is only used via pty_pre_init, it too must
164 * be single-instance, so we can declare utmp-related variables
167 static Pty single_pty
= NULL
;
170 static int pty_utmp_helper_pid
, pty_utmp_helper_pipe
;
171 static int pty_stamped_utmp
;
172 static struct utmpx utmp_entry
;
176 * pty_argv is a grievous hack to allow a proper argv to be passed
177 * through from the Unix command line. Again, it doesn't really
178 * make sense outside a one-pty-per-process setup.
182 static void pty_close(Pty pty
);
183 static void pty_try_write(Pty pty
);
186 static void setup_utmp(char *ttyname
, char *location
)
189 struct lastlog lastlog_entry
;
195 pw
= getpwuid(getuid());
196 memset(&utmp_entry
, 0, sizeof(utmp_entry
));
197 utmp_entry
.ut_type
= USER_PROCESS
;
198 utmp_entry
.ut_pid
= getpid();
199 strncpy(utmp_entry
.ut_line
, ttyname
+5, lenof(utmp_entry
.ut_line
));
200 strncpy(utmp_entry
.ut_id
, ttyname
+8, lenof(utmp_entry
.ut_id
));
201 strncpy(utmp_entry
.ut_user
, pw
->pw_name
, lenof(utmp_entry
.ut_user
));
202 strncpy(utmp_entry
.ut_host
, location
, lenof(utmp_entry
.ut_host
));
204 * Apparently there are some architectures where (struct
205 * utmpx).ut_tv is not essentially struct timeval (e.g. Linux
206 * amd64). Hence the temporary.
208 gettimeofday(&tv
, NULL
);
209 utmp_entry
.ut_tv
.tv_sec
= tv
.tv_sec
;
210 utmp_entry
.ut_tv
.tv_usec
= tv
.tv_usec
;
213 pututxline(&utmp_entry
);
216 updwtmpx(WTMPX_FILE
, &utmp_entry
);
219 memset(&lastlog_entry
, 0, sizeof(lastlog_entry
));
220 strncpy(lastlog_entry
.ll_line
, ttyname
+5, lenof(lastlog_entry
.ll_line
));
221 strncpy(lastlog_entry
.ll_host
, location
, lenof(lastlog_entry
.ll_host
));
222 time(&lastlog_entry
.ll_time
);
223 if ((lastlog
= fopen(LASTLOG_FILE
, "r+")) != NULL
) {
224 fseek(lastlog
, sizeof(lastlog_entry
) * getuid(), SEEK_SET
);
225 fwrite(&lastlog_entry
, 1, sizeof(lastlog_entry
), lastlog
);
230 pty_stamped_utmp
= 1;
234 static void cleanup_utmp(void)
238 if (!pty_stamped_utmp
)
241 utmp_entry
.ut_type
= DEAD_PROCESS
;
242 memset(utmp_entry
.ut_user
, 0, lenof(utmp_entry
.ut_user
));
243 gettimeofday(&tv
, NULL
);
244 utmp_entry
.ut_tv
.tv_sec
= tv
.tv_sec
;
245 utmp_entry
.ut_tv
.tv_usec
= tv
.tv_usec
;
247 updwtmpx(WTMPX_FILE
, &utmp_entry
);
249 memset(utmp_entry
.ut_line
, 0, lenof(utmp_entry
.ut_line
));
250 utmp_entry
.ut_tv
.tv_sec
= 0;
251 utmp_entry
.ut_tv
.tv_usec
= 0;
254 pututxline(&utmp_entry
);
257 pty_stamped_utmp
= 0; /* ensure we never double-cleanup */
261 static void sigchld_handler(int signum
)
263 write(pty_signal_pipe
[1], "x", 1);
267 static void fatal_sig_handler(int signum
)
269 putty_signal(signum
, SIG_DFL
);
276 static int pty_open_slave(Pty pty
)
278 if (pty
->slave_fd
< 0) {
279 pty
->slave_fd
= open(pty
->name
, O_RDWR
);
280 cloexec(pty
->slave_fd
);
283 return pty
->slave_fd
;
286 static void pty_open_master(Pty pty
)
289 const char chars1
[] = "pqrstuvwxyz";
290 const char chars2
[] = "0123456789abcdef";
292 char master_name
[20];
295 for (p1
= chars1
; *p1
; p1
++)
296 for (p2
= chars2
; *p2
; p2
++) {
297 sprintf(master_name
, "/dev/pty%c%c", *p1
, *p2
);
298 pty
->master_fd
= open(master_name
, O_RDWR
);
299 if (pty
->master_fd
>= 0) {
300 if (geteuid() == 0 ||
301 access(master_name
, R_OK
| W_OK
) == 0) {
303 * We must also check at this point that we are
304 * able to open the slave side of the pty. We
305 * wouldn't want to allocate the wrong master,
306 * get all the way down to forking, and _then_
307 * find we're unable to open the slave.
309 strcpy(pty
->name
, master_name
);
310 pty
->name
[5] = 't'; /* /dev/ptyXX -> /dev/ttyXX */
312 cloexec(pty
->master_fd
);
314 if (pty_open_slave(pty
) >= 0 &&
315 access(pty
->name
, R_OK
| W_OK
) == 0)
317 if (pty
->slave_fd
> 0)
318 close(pty
->slave_fd
);
321 close(pty
->master_fd
);
325 /* If we get here, we couldn't get a tty at all. */
326 fprintf(stderr
, "pterm: unable to open a pseudo-terminal device\n");
331 /* We need to chown/chmod the /dev/ttyXX device. */
332 gp
= getgrnam("tty");
333 chown(pty
->name
, getuid(), gp ? gp
->gr_gid
: -1);
334 chmod(pty
->name
, 0600);
336 pty
->master_fd
= open("/dev/ptmx", O_RDWR
);
338 if (pty
->master_fd
< 0) {
339 perror("/dev/ptmx: open");
343 if (grantpt(pty
->master_fd
) < 0) {
348 if (unlockpt(pty
->master_fd
) < 0) {
353 cloexec(pty
->master_fd
);
355 pty
->name
[FILENAME_MAX
-1] = '\0';
356 strncpy(pty
->name
, ptsname(pty
->master_fd
), FILENAME_MAX
-1);
361 * Set the pty master into non-blocking mode.
364 fl
= fcntl(pty
->master_fd
, F_GETFL
);
365 if (fl
!= -1 && !(fl
& O_NONBLOCK
))
366 fcntl(pty
->master_fd
, F_SETFL
, fl
| O_NONBLOCK
);
370 ptys_by_fd
= newtree234(pty_compare_by_fd
);
371 add234(ptys_by_fd
, pty
);
375 * Pre-initialisation. This is here to get around the fact that GTK
376 * doesn't like being run in setuid/setgid programs (probably
377 * sensibly). So before we initialise GTK - and therefore before we
378 * even process the command line - we check to see if we're running
379 * set[ug]id. If so, we open our pty master _now_, chown it as
380 * necessary, and drop privileges. We can always close it again
381 * later. If we're potentially going to be doing utmp as well, we
382 * also fork off a utmp helper process and communicate with it by
383 * means of a pipe; the utmp helper will keep privileges in order
384 * to clean up utmp when we exit (i.e. when its end of our pipe
387 void pty_pre_init(void)
396 pty
= single_pty
= snew(struct pty_tag
);
397 bufchain_init(&pty
->output_data
);
399 /* set the child signal handler straight away; it needs to be set
400 * before we ever fork. */
401 putty_signal(SIGCHLD
, sigchld_handler
);
402 pty
->master_fd
= pty
->slave_fd
= -1;
404 pty_stamped_utmp
= FALSE
;
407 if (geteuid() != getuid() || getegid() != getgid()) {
408 pty_open_master(pty
);
413 * Fork off the utmp helper.
415 if (pipe(pipefd
) < 0) {
416 perror("pterm: pipe");
423 perror("pterm: fork");
425 } else if (pid
== 0) {
426 char display
[128], buffer
[128];
431 * Now sit here until we receive a display name from the
432 * other end of the pipe, and then stamp utmp. Unstamp utmp
433 * again, and exit, when the pipe closes.
439 ret
= read(pipefd
[0], buffer
, lenof(buffer
));
443 } else if (!pty_stamped_utmp
) {
444 if (dlen
< lenof(display
))
445 memcpy(display
+dlen
, buffer
,
446 min(ret
, lenof(display
)-dlen
));
447 if (buffer
[ret
-1] == '\0') {
449 * Now we have a display name. NUL-terminate
450 * it, and stamp utmp.
452 display
[lenof(display
)-1] = '\0';
454 * Trap as many fatal signals as we can in the
455 * hope of having the best possible chance to
456 * clean up utmp before termination. We are
457 * unfortunately unprotected against SIGKILL,
460 putty_signal(SIGHUP
, fatal_sig_handler
);
461 putty_signal(SIGINT
, fatal_sig_handler
);
462 putty_signal(SIGQUIT
, fatal_sig_handler
);
463 putty_signal(SIGILL
, fatal_sig_handler
);
464 putty_signal(SIGABRT
, fatal_sig_handler
);
465 putty_signal(SIGFPE
, fatal_sig_handler
);
466 putty_signal(SIGPIPE
, fatal_sig_handler
);
467 putty_signal(SIGALRM
, fatal_sig_handler
);
468 putty_signal(SIGTERM
, fatal_sig_handler
);
469 putty_signal(SIGSEGV
, fatal_sig_handler
);
470 putty_signal(SIGUSR1
, fatal_sig_handler
);
471 putty_signal(SIGUSR2
, fatal_sig_handler
);
473 putty_signal(SIGBUS
, fatal_sig_handler
);
476 putty_signal(SIGPOLL
, fatal_sig_handler
);
479 putty_signal(SIGPROF
, fatal_sig_handler
);
482 putty_signal(SIGSYS
, fatal_sig_handler
);
485 putty_signal(SIGTRAP
, fatal_sig_handler
);
488 putty_signal(SIGVTALRM
, fatal_sig_handler
);
491 putty_signal(SIGXCPU
, fatal_sig_handler
);
494 putty_signal(SIGXFSZ
, fatal_sig_handler
);
497 putty_signal(SIGIO
, fatal_sig_handler
);
499 setup_utmp(pty
->name
, display
);
505 pty_utmp_helper_pid
= pid
;
506 pty_utmp_helper_pipe
= pipefd
[1];
512 #ifndef HAVE_NO_SETRESUID
513 int gid
= getgid(), uid
= getuid();
514 int setresgid(gid_t
, gid_t
, gid_t
);
515 int setresuid(uid_t
, uid_t
, uid_t
);
516 setresgid(gid
, gid
, gid
);
517 setresuid(uid
, uid
, uid
);
525 int pty_real_select_result(Pty pty
, int event
, int status
)
529 int finished
= FALSE
;
533 * We've been called because our child process did
534 * something. `status' tells us what.
536 if ((WIFEXITED(status
) || WIFSIGNALED(status
))) {
538 * The primary child process died. We could keep
539 * the terminal open for remaining subprocesses to
540 * output to, but conventional wisdom seems to feel
541 * that that's the Wrong Thing for an xterm-alike,
542 * so we bail out now (though we don't necessarily
543 * _close_ the window, depending on the state of
544 * Close On Exit). This would be easy enough to
545 * change or make configurable if necessary.
547 pty
->exit_code
= status
;
548 pty
->child_dead
= TRUE
;
549 del234(ptys_by_pid
, pty
);
555 ret
= read(pty
->master_fd
, buf
, sizeof(buf
));
558 * Clean termination condition is that either ret == 0, or ret
559 * < 0 and errno == EIO. Not sure why the latter, but it seems
562 if (ret
== 0 || (ret
< 0 && errno
== EIO
)) {
564 * We assume a clean exit if the pty has closed but the
565 * actual child process hasn't. The only way I can
566 * imagine this happening is if it detaches itself from
567 * the pty and goes daemonic - in which case the
568 * expected usage model would precisely _not_ be for
569 * the pterm window to hang around!
572 if (!pty
->child_dead
)
574 } else if (ret
< 0) {
575 perror("read pty master");
577 } else if (ret
> 0) {
578 from_backend(pty
->frontend
, 0, buf
, ret
);
580 } else if (event
== 2) {
582 * Attempt to send data down the pty.
588 if (finished
&& !pty
->finished
) {
589 uxsel_del(pty
->master_fd
);
593 pty
->finished
= TRUE
;
596 * This is a slight layering-violation sort of hack: only
597 * if we're not closing on exit (COE is set to Never, or to
598 * Only On Clean and it wasn't a clean exit) do we output a
599 * `terminated' message.
601 if (pty
->cfg
.close_on_exit
== FORCE_OFF
||
602 (pty
->cfg
.close_on_exit
== AUTO
&& pty
->exit_code
!= 0)) {
604 if (WIFEXITED(pty
->exit_code
))
605 sprintf(message
, "\r\n[pterm: process terminated with exit"
606 " code %d]\r\n", WEXITSTATUS(pty
->exit_code
));
607 else if (WIFSIGNALED(pty
->exit_code
))
608 #ifdef HAVE_NO_STRSIGNAL
609 sprintf(message
, "\r\n[pterm: process terminated on signal"
610 " %d]\r\n", WTERMSIG(pty
->exit_code
));
612 sprintf(message
, "\r\n[pterm: process terminated on signal"
613 " %d (%.400s)]\r\n", WTERMSIG(pty
->exit_code
),
614 strsignal(WTERMSIG(pty
->exit_code
)));
616 from_backend(pty
->frontend
, 0, message
, strlen(message
));
619 notify_remote_exit(pty
->frontend
);
625 int pty_select_result(int fd
, int event
)
630 if (fd
== pty_signal_pipe
[0]) {
636 read(pty_signal_pipe
[0], c
, 1); /* ignore its value; it'll be `x' */
639 pid
= waitpid(-1, &status
, WNOHANG
);
642 pty
= find234(ptys_by_pid
, &pid
, pty_find_by_pid
);
645 ret
= ret
&& pty_real_select_result(pty
, -1, status
);
648 pty
= find234(ptys_by_fd
, &fd
, pty_find_by_fd
);
651 ret
= ret
&& pty_real_select_result(pty
, event
, 0);
657 static void pty_uxsel_setup(Pty pty
)
661 rwx
= 1; /* always want to read from pty */
662 if (bufchain_size(&pty
->output_data
))
663 rwx
|= 2; /* might also want to write to it */
664 uxsel_set(pty
->master_fd
, rwx
, pty_select_result
);
667 * In principle this only needs calling once for all pty
668 * backend instances, but it's simplest just to call it every
669 * time; uxsel won't mind.
671 uxsel_set(pty_signal_pipe
[0], 1, pty_select_result
);
675 * Called to set up the pty.
677 * Returns an error message, or NULL on success.
679 * Also places the canonical host name into `realhost'. It must be
680 * freed by the caller.
682 static const char *pty_init(void *frontend
, void **backend_handle
, Config
*cfg
,
683 char *host
, int port
, char **realhost
, int nodelay
,
688 #ifndef NOT_X_WINDOWS /* for Mac OS X native compilation */
696 pty
= snew(struct pty_tag
);
697 pty
->master_fd
= pty
->slave_fd
= -1;
699 pty_stamped_utmp
= FALSE
;
703 pty
->frontend
= frontend
;
704 *backend_handle
= NULL
; /* we can't sensibly use this, sadly */
706 pty
->cfg
= *cfg
; /* structure copy */
707 pty
->term_width
= cfg
->width
;
708 pty
->term_height
= cfg
->height
;
710 if (pty
->master_fd
< 0)
711 pty_open_master(pty
);
714 * Set the backspace character to be whichever of ^H and ^? is
715 * specified by bksp_is_delete.
718 struct termios attrs
;
719 tcgetattr(pty
->master_fd
, &attrs
);
720 attrs
.c_cc
[VERASE
] = cfg
->bksp_is_delete ?
'\177' : '\010';
721 tcsetattr(pty
->master_fd
, TCSANOW
, &attrs
);
726 * Stamp utmp (that is, tell the utmp helper process to do so),
729 if (!cfg
->stamp_utmp
) {
730 close(pty_utmp_helper_pipe
); /* just let the child process die */
731 pty_utmp_helper_pipe
= -1;
733 char *location
= get_x_display(pty
->frontend
);
734 int len
= strlen(location
)+1, pos
= 0; /* +1 to include NUL */
736 int ret
= write(pty_utmp_helper_pipe
, location
+pos
, len
- pos
);
738 perror("pterm: writing to utmp helper process");
739 close(pty_utmp_helper_pipe
); /* arrgh, just give up */
740 pty_utmp_helper_pipe
= -1;
748 #ifndef NOT_X_WINDOWS /* for Mac OS X native compilation */
749 windowid
= get_windowid(pty
->frontend
);
753 * Fork and execute the command.
766 slavefd
= pty_open_slave(pty
);
768 perror("slave pty: open");
772 close(pty
->master_fd
);
773 fcntl(slavefd
, F_SETFD
, 0); /* don't close on exec */
780 ioctl(0, TIOCSCTTY
, 1);
785 close(open(pty
->name
, O_WRONLY
, 0));
788 char *term_env_var
= dupprintf("TERM=%s", cfg
->termtype
);
789 putenv(term_env_var
);
790 /* We mustn't free term_env_var, as putenv links it into the
791 * environment in place.
794 #ifndef NOT_X_WINDOWS /* for Mac OS X native compilation */
796 char *windowid_env_var
= dupprintf("WINDOWID=%ld", windowid
);
797 putenv(windowid_env_var
);
798 /* We mustn't free windowid_env_var, as putenv links it into the
799 * environment in place.
804 char *e
= cfg
->environmt
;
805 char *var
, *varend
, *val
, *varval
;
808 while (*e
&& *e
!= '\t') e
++;
815 varval
= dupprintf("%.*s=%s", varend
-var
, var
, val
);
818 * We must not free varval, since putenv links it
819 * into the environment _in place_. Weird, but
820 * there we go. Memory usage will be rationalised
821 * as soon as we exec anyway.
827 * SIGINT and SIGQUIT may have been set to ignored by our
828 * parent, particularly by things like sh -c 'pterm &' and
829 * some window managers. SIGCHLD, meanwhile, was blocked
830 * during pt_main() startup. Reverse all this for our child
833 putty_signal(SIGINT
, SIG_DFL
);
834 putty_signal(SIGQUIT
, SIG_DFL
);
835 block_signal(SIGCHLD
, 0);
837 execvp(pty_argv
[0], pty_argv
);
839 char *shell
= getenv("SHELL");
841 if (cfg
->login_shell
) {
842 char *p
= strrchr(shell
, '/');
843 shellname
= snewn(2+strlen(shell
), char);
845 sprintf(shellname
, "-%s", p
);
848 execl(getenv("SHELL"), shellname
, (void *)NULL
);
852 * If we're here, exec has gone badly foom.
857 pty
->child_pid
= pid
;
858 pty
->child_dead
= FALSE
;
859 pty
->finished
= FALSE
;
860 if (pty
->slave_fd
> 0)
861 close(pty
->slave_fd
);
863 ptys_by_pid
= newtree234(pty_compare_by_pid
);
864 add234(ptys_by_pid
, pty
);
867 if (pty_signal_pipe
[0] < 0) {
868 if (pipe(pty_signal_pipe
) < 0) {
872 cloexec(pty_signal_pipe
[0]);
873 cloexec(pty_signal_pipe
[1]);
875 pty_uxsel_setup(pty
);
877 *backend_handle
= pty
;
879 *realhost
= dupprintf("\0");
884 static void pty_reconfig(void *handle
, Config
*cfg
)
886 Pty pty
= (Pty
)handle
;
888 * We don't have much need to reconfigure this backend, but
889 * unfortunately we do need to pick up the setting of Close On
890 * Exit so we know whether to give a `terminated' message.
892 pty
->cfg
= *cfg
; /* structure copy */
896 * Stub routine (never called in pterm).
898 static void pty_free(void *handle
)
900 Pty pty
= (Pty
)handle
;
902 /* Either of these may fail `not found'. That's fine with us. */
903 del234(ptys_by_pid
, pty
);
904 del234(ptys_by_fd
, pty
);
909 static void pty_try_write(Pty pty
)
914 assert(pty
->master_fd
>= 0);
916 while (bufchain_size(&pty
->output_data
) > 0) {
917 bufchain_prefix(&pty
->output_data
, &data
, &len
);
918 ret
= write(pty
->master_fd
, data
, len
);
920 if (ret
< 0 && (errno
== EWOULDBLOCK
)) {
922 * We've sent all we can for the moment.
927 perror("write pty master");
930 bufchain_consume(&pty
->output_data
, ret
);
933 pty_uxsel_setup(pty
);
937 * Called to send data down the pty.
939 static int pty_send(void *handle
, char *buf
, int len
)
941 Pty pty
= (Pty
)handle
;
943 if (pty
->master_fd
< 0)
944 return 0; /* ignore all writes if fd closed */
946 bufchain_add(&pty
->output_data
, buf
, len
);
949 return bufchain_size(&pty
->output_data
);
952 static void pty_close(Pty pty
)
954 if (pty
->master_fd
>= 0) {
955 close(pty
->master_fd
);
959 if (pty_utmp_helper_pipe
>= 0) {
960 close(pty_utmp_helper_pipe
); /* this causes utmp to be cleaned up */
961 pty_utmp_helper_pipe
= -1;
967 * Called to query the current socket sendability status.
969 static int pty_sendbuffer(void *handle
)
971 /* Pty pty = (Pty)handle; */
976 * Called to set the size of the window
978 static void pty_size(void *handle
, int width
, int height
)
980 Pty pty
= (Pty
)handle
;
983 pty
->term_width
= width
;
984 pty
->term_height
= height
;
986 size
.ws_row
= (unsigned short)pty
->term_height
;
987 size
.ws_col
= (unsigned short)pty
->term_width
;
988 size
.ws_xpixel
= (unsigned short) pty
->term_width
*
989 font_dimension(pty
->frontend
, 0);
990 size
.ws_ypixel
= (unsigned short) pty
->term_height
*
991 font_dimension(pty
->frontend
, 1);
992 ioctl(pty
->master_fd
, TIOCSWINSZ
, (void *)&size
);
997 * Send special codes.
999 static void pty_special(void *handle
, Telnet_Special code
)
1001 /* Pty pty = (Pty)handle; */
1007 * Return a list of the special codes that make sense in this
1010 static const struct telnet_special
*pty_get_specials(void *handle
)
1012 /* Pty pty = (Pty)handle; */
1014 * Hmm. When I get round to having this actually usable, it
1015 * might be quite nice to have the ability to deliver a few
1016 * well chosen signals to the child process - SIGINT, SIGTERM,
1022 static int pty_connected(void *handle
)
1024 /* Pty pty = (Pty)handle; */
1028 static int pty_sendok(void *handle
)
1030 /* Pty pty = (Pty)handle; */
1034 static void pty_unthrottle(void *handle
, int backlog
)
1036 /* Pty pty = (Pty)handle; */
1040 static int pty_ldisc(void *handle
, int option
)
1042 /* Pty pty = (Pty)handle; */
1043 return 0; /* neither editing nor echoing */
1046 static void pty_provide_ldisc(void *handle
, void *ldisc
)
1048 /* Pty pty = (Pty)handle; */
1049 /* This is a stub. */
1052 static void pty_provide_logctx(void *handle
, void *logctx
)
1054 /* Pty pty = (Pty)handle; */
1055 /* This is a stub. */
1058 static int pty_exitcode(void *handle
)
1060 Pty pty
= (Pty
)handle
;
1062 return -1; /* not dead yet */
1064 return pty
->exit_code
;
1067 static int pty_cfg_info(void *handle
)
1069 /* Pty pty = (Pty)handle; */
1073 Backend pty_backend
= {