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putty-source/mainchan.c
Simon Tatham e08641c912 Start using C99 variadic macros. 
In the past, I've had a lot of macros which you call with double
parentheses, along the lines of debug(("format string", params)), so
that the inner parens protect the commas and permit the macro to treat
the whole printf-style argument list as one macro argument.

That's all very well, but it's a bit inconvenient (it doesn't leave
you any way to implement such a macro by prepending another argument
to the list), and now this code base's rules allow C99isms, I can
switch all those macros to using a single pair of parens, using the
C99 ability to say '...' in the parameter list of the #define and get
at the corresponding suffix of the arguments as __VA_ARGS__.

So I'm doing it. I've made the following printf-style macros variadic:
bpp_logevent, ppl_logevent, ppl_printf and debug.

While I'm here, I've also fixed up a collection of conditioned-out
calls to debug() in the Windows front end which were clearly expecting
a macro with a different calling syntax, because they had an integer
parameter first. If I ever have a need to condition those back in,
they should actually work now.
2018-12-08 20:48:41 +00:00

559 lines
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/*
* SSH main session channel handling.
*/
#include <assert.h>
#include <stdio.h>
#include <stdlib.h>
#include "putty.h"
#include "ssh.h"
#include "sshppl.h"
#include "sshchan.h"
static void mainchan_free(Channel *chan);
static void mainchan_open_confirmation(Channel *chan);
static void mainchan_open_failure(Channel *chan, const char *errtext);
static int mainchan_send(Channel *chan, bool is_stderr, const void *, int);
static void mainchan_send_eof(Channel *chan);
static void mainchan_set_input_wanted(Channel *chan, bool wanted);
static char *mainchan_log_close_msg(Channel *chan);
static bool mainchan_rcvd_exit_status(Channel *chan, int status);
static bool mainchan_rcvd_exit_signal(
Channel *chan, ptrlen signame, bool core_dumped, ptrlen msg);
static bool mainchan_rcvd_exit_signal_numeric(
Channel *chan, int signum, bool core_dumped, ptrlen msg);
static void mainchan_request_response(Channel *chan, bool success);
static const struct ChannelVtable mainchan_channelvt = {
mainchan_free,
mainchan_open_confirmation,
mainchan_open_failure,
mainchan_send,
mainchan_send_eof,
mainchan_set_input_wanted,
mainchan_log_close_msg,
chan_default_want_close,
mainchan_rcvd_exit_status,
mainchan_rcvd_exit_signal,
mainchan_rcvd_exit_signal_numeric,
chan_no_run_shell,
chan_no_run_command,
chan_no_run_subsystem,
chan_no_enable_x11_forwarding,
chan_no_enable_agent_forwarding,
chan_no_allocate_pty,
chan_no_set_env,
chan_no_send_break,
chan_no_send_signal,
chan_no_change_window_size,
mainchan_request_response,
};
typedef enum MainChanType {
MAINCHAN_SESSION, MAINCHAN_DIRECT_TCPIP
} MainChanType;
struct mainchan {
SshChannel *sc;
Conf *conf;
PacketProtocolLayer *ppl;
ConnectionLayer *cl;
MainChanType type;
bool is_simple;
bool req_x11, req_agent, req_pty, req_cmd_primary, req_cmd_fallback;
int n_req_env, n_env_replies, n_env_fails;
bool eof_pending, eof_sent, got_pty, ready;
int term_width, term_height;
Channel chan;
};
mainchan *mainchan_new(
PacketProtocolLayer *ppl, ConnectionLayer *cl, Conf *conf,
int term_width, int term_height, bool is_simple, SshChannel **sc_out)
{
mainchan *mc;
if (conf_get_bool(conf, CONF_ssh_no_shell))
return NULL; /* no main channel at all */
mc = snew(mainchan);
memset(mc, 0, sizeof(mainchan));
mc->ppl = ppl;
mc->cl = cl;
mc->conf = conf_copy(conf);
mc->term_width = term_width;
mc->term_height = term_height;
mc->is_simple = is_simple;
mc->sc = NULL;
mc->chan.vt = &mainchan_channelvt;
mc->chan.initial_fixed_window_size = 0;
if (*conf_get_str(mc->conf, CONF_ssh_nc_host)) {
const char *host = conf_get_str(mc->conf, CONF_ssh_nc_host);
int port = conf_get_int(mc->conf, CONF_ssh_nc_port);
mc->sc = ssh_lportfwd_open(cl, host, port, "main channel",
NULL, &mc->chan);
mc->type = MAINCHAN_DIRECT_TCPIP;
} else {
mc->sc = ssh_session_open(cl, &mc->chan);
mc->type = MAINCHAN_SESSION;
}
if (sc_out) *sc_out = mc->sc;
return mc;
}
static void mainchan_free(Channel *chan)
{
assert(chan->vt == &mainchan_channelvt);
mainchan *mc = container_of(chan, mainchan, chan);
conf_free(mc->conf);
sfree(mc);
}
static void mainchan_try_fallback_command(mainchan *mc);
static void mainchan_ready(mainchan *mc);
static void mainchan_open_confirmation(Channel *chan)
{
mainchan *mc = container_of(chan, mainchan, chan);
PacketProtocolLayer *ppl = mc->ppl; /* for ppl_logevent */
seat_update_specials_menu(mc->ppl->seat);
ppl_logevent("Opened main channel");
if (mc->is_simple)
sshfwd_hint_channel_is_simple(mc->sc);
if (mc->type == MAINCHAN_SESSION) {
/*
* Send the CHANNEL_REQUESTS for the main session channel.
*/
char *key, *val, *cmd;
struct X11Display *x11disp;
struct X11FakeAuth *x11auth;
bool retry_cmd_now = false;
if (conf_get_bool(mc->conf, CONF_x11_forward)) {;
char *x11_setup_err;
if ((x11disp = x11_setup_display(
conf_get_str(mc->conf, CONF_x11_display),
mc->conf, &x11_setup_err)) == NULL) {
ppl_logevent("X11 forwarding not enabled: unable to"
" initialise X display: %s", x11_setup_err);
sfree(x11_setup_err);
} else {
x11auth = ssh_add_x11_display(
mc->cl, conf_get_int(mc->conf, CONF_x11_auth), x11disp);
sshfwd_request_x11_forwarding(
mc->sc, true, x11auth->protoname, x11auth->datastring,
x11disp->screennum, false);
mc->req_x11 = true;
}
}
if (ssh_agent_forwarding_permitted(mc->cl)) {
sshfwd_request_agent_forwarding(mc->sc, true);
mc->req_agent = true;
}
if (!conf_get_bool(mc->conf, CONF_nopty)) {
sshfwd_request_pty(
mc->sc, true, mc->conf, mc->term_width, mc->term_height);
mc->req_pty = true;
}
for (val = conf_get_str_strs(mc->conf, CONF_environmt, NULL, &key);
val != NULL;
val = conf_get_str_strs(mc->conf, CONF_environmt, key, &key)) {
sshfwd_send_env_var(mc->sc, true, key, val);
mc->n_req_env++;
}
if (mc->n_req_env)
ppl_logevent("Sent %d environment variables", mc->n_req_env);
cmd = conf_get_str(mc->conf, CONF_remote_cmd);
if (conf_get_bool(mc->conf, CONF_ssh_subsys)) {
retry_cmd_now = !sshfwd_start_subsystem(mc->sc, true, cmd);
} else if (*cmd) {
sshfwd_start_command(mc->sc, true, cmd);
} else {
sshfwd_start_shell(mc->sc, true);
}
if (retry_cmd_now)
mainchan_try_fallback_command(mc);
else
mc->req_cmd_primary = true;
} else {
ssh_set_ldisc_option(mc->cl, LD_ECHO, true);
ssh_set_ldisc_option(mc->cl, LD_EDIT, true);
mainchan_ready(mc);
}
}
static void mainchan_try_fallback_command(mainchan *mc)
{
const char *cmd = conf_get_str(mc->conf, CONF_remote_cmd2);
if (conf_get_bool(mc->conf, CONF_ssh_subsys2)) {
sshfwd_start_subsystem(mc->sc, true, cmd);
} else {
sshfwd_start_command(mc->sc, true, cmd);
}
mc->req_cmd_fallback = true;
}
static void mainchan_request_response(Channel *chan, bool success)
{
assert(chan->vt == &mainchan_channelvt);
mainchan *mc = container_of(chan, mainchan, chan);
PacketProtocolLayer *ppl = mc->ppl; /* for ppl_logevent */
if (mc->req_x11) {
mc->req_x11 = false;
if (success) {
ppl_logevent("X11 forwarding enabled");
ssh_enable_x_fwd(mc->cl);
} else {
ppl_logevent("X11 forwarding refused");
}
return;
}
if (mc->req_agent) {
mc->req_agent = false;
if (success) {
ppl_logevent("Agent forwarding enabled");
ssh_enable_agent_fwd(mc->cl);
} else {
ppl_logevent("Agent forwarding refused");
}
return;
}
if (mc->req_pty) {
mc->req_pty = false;
if (success) {
ppl_logevent("Allocated pty");
mc->got_pty = true;
} else {
ppl_logevent("Server refused to allocate pty");
ppl_printf("Server refused to allocate pty\r\n");
ssh_set_ldisc_option(mc->cl, LD_ECHO, true);
ssh_set_ldisc_option(mc->cl, LD_EDIT, true);
}
return;
}
if (mc->n_env_replies < mc->n_req_env) {
int j = mc->n_env_replies++;
if (!success) {
ppl_logevent("Server refused to set environment variable %s",
conf_get_str_nthstrkey(mc->conf,
CONF_environmt, j));
mc->n_env_fails++;
}
if (mc->n_env_replies == mc->n_req_env) {
if (mc->n_env_fails == 0) {
ppl_logevent("All environment variables successfully set");
} else if (mc->n_env_fails == mc->n_req_env) {
ppl_logevent("All environment variables refused");
ppl_printf("Server refused to set environment "
"variables\r\n");
} else {
ppl_printf("Server refused to set all environment "
"variables\r\n");
}
}
return;
}
if (mc->req_cmd_primary) {
mc->req_cmd_primary = false;
if (success) {
ppl_logevent("Started a shell/command");
mainchan_ready(mc);
} else if (*conf_get_str(mc->conf, CONF_remote_cmd2)) {
ppl_logevent("Primary command failed; attempting fallback");
mainchan_try_fallback_command(mc);
} else {
/*
* If there's no remote_cmd2 configured, then we have no
* fallback command, so we've run out of options.
*/
ssh_sw_abort(mc->ppl->ssh,
"Server refused to start a shell/command");
}
return;
}
if (mc->req_cmd_fallback) {
mc->req_cmd_fallback = false;
if (success) {
ppl_logevent("Started a shell/command");
ssh_got_fallback_cmd(mc->ppl->ssh);
mainchan_ready(mc);
} else {
ssh_sw_abort(mc->ppl->ssh,
"Server refused to start a shell/command");
}
return;
}
}
static void mainchan_ready(mainchan *mc)
{
mc->ready = true;
ssh_set_wants_user_input(mc->cl, true);
ssh_ppl_got_user_input(mc->ppl); /* in case any is already queued */
/* If an EOF arrived before we were ready, handle it now. */
if (mc->eof_pending) {
mc->eof_pending = false;
mainchan_special_cmd(mc, SS_EOF, 0);
}
ssh_ldisc_update(mc->ppl->ssh);
queue_idempotent_callback(&mc->ppl->ic_process_queue);
}
struct mainchan_open_failure_abort_ctx {
Ssh *ssh;
char *abort_message;
};
static void mainchan_open_failure_abort(void *vctx)
{
struct mainchan_open_failure_abort_ctx *ctx =
(struct mainchan_open_failure_abort_ctx *)vctx;
ssh_sw_abort(
ctx->ssh, "Server refused to open main channel: %s",
ctx->abort_message);
sfree(ctx->abort_message);
sfree(ctx);
}
static void mainchan_open_failure(Channel *chan, const char *errtext)
{
assert(chan->vt == &mainchan_channelvt);
mainchan *mc = container_of(chan, mainchan, chan);
struct mainchan_open_failure_abort_ctx *ctx =
snew(struct mainchan_open_failure_abort_ctx);
ctx->ssh = mc->ppl->ssh;
ctx->abort_message = dupstr(errtext);
queue_toplevel_callback(mainchan_open_failure_abort, ctx);
}
static int mainchan_send(Channel *chan, bool is_stderr,
const void *data, int length)
{
assert(chan->vt == &mainchan_channelvt);
mainchan *mc = container_of(chan, mainchan, chan);
return seat_output(mc->ppl->seat, is_stderr, data, length);
}
static void mainchan_send_eof(Channel *chan)
{
assert(chan->vt == &mainchan_channelvt);
mainchan *mc = container_of(chan, mainchan, chan);
PacketProtocolLayer *ppl = mc->ppl; /* for ppl_logevent */
if (!mc->eof_sent && (seat_eof(mc->ppl->seat) || mc->got_pty)) {
/*
* Either seat_eof told us that the front end wants us to
* close the outgoing side of the connection as soon as we see
* EOF from the far end, or else we've unilaterally decided to
* do that because we've allocated a remote pty and hence EOF
* isn't a particularly meaningful concept.
*/
sshfwd_write_eof(mc->sc);
ppl_logevent("Sent EOF message");
mc->eof_sent = true;
ssh_set_wants_user_input(mc->cl, false); /* stop reading from stdin */
}
}
static void mainchan_set_input_wanted(Channel *chan, bool wanted)
{
assert(chan->vt == &mainchan_channelvt);
mainchan *mc = container_of(chan, mainchan, chan);
/*
* This is the main channel of the SSH session, i.e. the one tied
* to the standard input (or GUI) of the primary SSH client user
* interface. So ssh->send_ok is how we control whether we're
* reading from that input.
*/
ssh_set_wants_user_input(mc->cl, wanted);
}
static char *mainchan_log_close_msg(Channel *chan)
{
return dupstr("Main session channel closed");
}
static bool mainchan_rcvd_exit_status(Channel *chan, int status)
{
assert(chan->vt == &mainchan_channelvt);
mainchan *mc = container_of(chan, mainchan, chan);
PacketProtocolLayer *ppl = mc->ppl; /* for ppl_logevent */
ssh_got_exitcode(mc->ppl->ssh, status);
ppl_logevent("Session sent command exit status %d", status);
return true;
}
static void mainchan_log_exit_signal_common(
mainchan *mc, const char *sigdesc,
bool core_dumped, ptrlen msg)
{
PacketProtocolLayer *ppl = mc->ppl; /* for ppl_logevent */
const char *core_msg = core_dumped ? " (core dumped)" : "";
const char *msg_pre = (msg.len ? " (" : "");
const char *msg_post = (msg.len ? ")" : "");
ppl_logevent("Session exited on %s%s%s%.*s%s",
sigdesc, core_msg, msg_pre, PTRLEN_PRINTF(msg), msg_post);
}
static bool mainchan_rcvd_exit_signal(
Channel *chan, ptrlen signame, bool core_dumped, ptrlen msg)
{
assert(chan->vt == &mainchan_channelvt);
mainchan *mc = container_of(chan, mainchan, chan);
int exitcode;
char *signame_str;
/*
* Translate the signal description back into a locally meaningful
* number, or 128 if the string didn't match any we recognise.
*/
exitcode = 128;
#define SIGNAL_SUB(s) \
if (ptrlen_eq_string(signame, #s)) \
exitcode = 128 + SIG ## s;
#define SIGNAL_MAIN(s, text) SIGNAL_SUB(s)
#define SIGNALS_LOCAL_ONLY
#include "sshsignals.h"
#undef SIGNAL_SUB
#undef SIGNAL_MAIN
#undef SIGNALS_LOCAL_ONLY
ssh_got_exitcode(mc->ppl->ssh, exitcode);
if (exitcode == 128)
signame_str = dupprintf("unrecognised signal \"%.*s\"",
PTRLEN_PRINTF(signame));
else
signame_str = dupprintf("signal SIG%.*s", PTRLEN_PRINTF(signame));
mainchan_log_exit_signal_common(mc, signame_str, core_dumped, msg);
sfree(signame_str);
return true;
}
static bool mainchan_rcvd_exit_signal_numeric(
Channel *chan, int signum, bool core_dumped, ptrlen msg)
{
assert(chan->vt == &mainchan_channelvt);
mainchan *mc = container_of(chan, mainchan, chan);
char *signum_str;
ssh_got_exitcode(mc->ppl->ssh, 128 + signum);
signum_str = dupprintf("signal %d", signum);
mainchan_log_exit_signal_common(mc, signum_str, core_dumped, msg);
sfree(signum_str);
return true;
}
void mainchan_get_specials(
mainchan *mc, add_special_fn_t add_special, void *ctx)
{
/* FIXME: this _does_ depend on whether these services are supported */
add_special(ctx, "Break", SS_BRK, 0);
#define SIGNAL_MAIN(name, desc) \
add_special(ctx, "SIG" #name " (" desc ")", SS_SIG ## name, 0);
#define SIGNAL_SUB(name)
#include "sshsignals.h"
#undef SIGNAL_MAIN
#undef SIGNAL_SUB
add_special(ctx, "More signals", SS_SUBMENU, 0);
#define SIGNAL_MAIN(name, desc)
#define SIGNAL_SUB(name) \
add_special(ctx, "SIG" #name, SS_SIG ## name, 0);
#include "sshsignals.h"
#undef SIGNAL_MAIN
#undef SIGNAL_SUB
add_special(ctx, NULL, SS_EXITMENU, 0);
}
static const char *ssh_signal_lookup(SessionSpecialCode code)
{
#define SIGNAL_SUB(name) \
if (code == SS_SIG ## name) return #name;
#define SIGNAL_MAIN(name, desc) SIGNAL_SUB(name)
#include "sshsignals.h"
#undef SIGNAL_MAIN
#undef SIGNAL_SUB
/* If none of those clauses matched, fail lookup. */
return NULL;
}
void mainchan_special_cmd(mainchan *mc, SessionSpecialCode code, int arg)
{
PacketProtocolLayer *ppl = mc->ppl; /* for ppl_logevent */
const char *signame;
if (code == SS_EOF) {
if (!mc->ready) {
/*
* Buffer the EOF to send as soon as the main channel is
* fully set up.
*/
mc->eof_pending = true;
} else if (!mc->eof_sent) {
sshfwd_write_eof(mc->sc);
mc->eof_sent = true;
}
} else if (code == SS_BRK) {
sshfwd_send_serial_break(
mc->sc, false, 0 /* default break length */);
} else if ((signame = ssh_signal_lookup(code)) != NULL) {
/* It's a signal. */
sshfwd_send_signal(mc->sc, false, signame);
ppl_logevent("Sent signal SIG%s", signame);
}
}
void mainchan_terminal_size(mainchan *mc, int width, int height)
{
mc->term_width = width;
mc->term_height = height;
if (mc->req_pty || mc->got_pty)
sshfwd_send_terminal_size_change(mc->sc, width, height);
}
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