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ssh.c
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ssh.c
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/*
* SSH backend.
*/
#include <stdio.h>
#include <stdlib.h>
#include <stdarg.h>
#include <assert.h>
#include <limits.h>
#include <signal.h>
#include "putty.h"
#include "pageant.h" /* for AGENT_MAX_MSGLEN */
#include "tree234.h"
#include "storage.h"
#include "marshal.h"
#include "ssh.h"
#include "sshcr.h"
#include "sshbpp.h"
#include "sshppl.h"
#include "sshchan.h"
#ifndef NO_GSSAPI
#include "sshgssc.h"
#include "sshgss.h"
#define MIN_CTXT_LIFETIME 5 /* Avoid rekey with short lifetime (seconds) */
#define GSS_KEX_CAPABLE (1<<0) /* Can do GSS KEX */
#define GSS_CRED_UPDATED (1<<1) /* Cred updated since previous delegation */
#define GSS_CTXT_EXPIRES (1<<2) /* Context expires before next timer */
#define GSS_CTXT_MAYFAIL (1<<3) /* Context may expire during handshake */
#endif
struct Ssh {
Socket *s;
Seat *seat;
Conf *conf;
struct ssh_version_receiver version_receiver;
int remote_bugs;
Plug plug;
Backend backend;
Ldisc *ldisc;
LogContext *logctx;
/* The last list returned from get_specials. */
SessionSpecial *specials;
bool bare_connection;
ssh_sharing_state *connshare;
bool attempting_connshare;
struct ssh_connection_shared_gss_state gss_state;
char *savedhost;
int savedport;
char *fullhostname;
bool fallback_cmd;
int exitcode;
int version;
int conn_throttle_count;
size_t overall_bufsize;
bool throttled_all;
/*
* logically_frozen is true if we're not currently _processing_
* data from the SSH socket (e.g. because a higher layer has asked
* us not to due to ssh_throttle_conn). socket_frozen is true if
* we're not even _reading_ data from the socket (i.e. it should
* always match the value we last passed to sk_set_frozen).
*
* The two differ in that socket_frozen can also become
* temporarily true because of a large backlog in the in_raw
* bufchain, to force no further plug_receive events until the BPP
* input function has had a chance to run. (Some front ends, like
* GTK, can persistently call the network and never get round to
* the toplevel callbacks.) If we've stopped reading from the
* socket for that reason, we absolutely _do_ want to carry on
* processing our input bufchain, because that's the only way
* it'll ever get cleared!
*
* ssh_check_frozen() resets socket_frozen, and should be called
* whenever either of logically_frozen and the bufchain size
* changes.
*/
bool logically_frozen, socket_frozen;
/* in case we find these out before we have a ConnectionLayer to tell */
int term_width, term_height;
bufchain in_raw, out_raw, user_input;
bool pending_close;
IdempotentCallback ic_out_raw;
PacketLogSettings pls;
struct DataTransferStats stats;
BinaryPacketProtocol *bpp;
/*
* base_layer identifies the bottommost packet protocol layer, the
* one connected directly to the BPP's packet queues. Any
* operation that needs to talk to all layers (e.g. free, or
* get_specials) will do it by talking to this, which will
* recursively propagate it if necessary.
*/
PacketProtocolLayer *base_layer;
/*
* The ConnectionLayer vtable from our connection layer.
*/
ConnectionLayer *cl;
/*
* A dummy ConnectionLayer that can be used for logging sharing
* downstreams that connect before the real one is ready.
*/
ConnectionLayer cl_dummy;
/*
* session_started is false until we initialise the main protocol
* layers. So it distinguishes between base_layer==NULL meaning
* that the SSH protocol hasn't been set up _yet_, and
* base_layer==NULL meaning the SSH protocol has run and finished.
* It's also used to mark the point where we stop counting proxy
* command diagnostics as pre-session-startup.
*/
bool session_started;
Pinger *pinger;
bool need_random_unref;
};
#define ssh_logevent(params) ( \
logevent_and_free((ssh)->logctx, dupprintf params))
static void ssh_shutdown(Ssh *ssh);
static void ssh_throttle_all(Ssh *ssh, bool enable, size_t bufsize);
static void ssh_bpp_output_raw_data_callback(void *vctx);
LogContext *ssh_get_logctx(Ssh *ssh)
{
return ssh->logctx;
}
static void ssh_connect_bpp(Ssh *ssh)
{
ssh->bpp->ssh = ssh;
ssh->bpp->in_raw = &ssh->in_raw;
ssh->bpp->out_raw = &ssh->out_raw;
bufchain_set_callback(ssh->bpp->out_raw, &ssh->ic_out_raw);
ssh->bpp->pls = &ssh->pls;
ssh->bpp->logctx = ssh->logctx;
ssh->bpp->remote_bugs = ssh->remote_bugs;
}
static void ssh_connect_ppl(Ssh *ssh, PacketProtocolLayer *ppl)
{
ppl->bpp = ssh->bpp;
ppl->user_input = &ssh->user_input;
ppl->seat = ssh->seat;
ppl->ssh = ssh;
ppl->logctx = ssh->logctx;
ppl->remote_bugs = ssh->remote_bugs;
}
static void ssh_got_ssh_version(struct ssh_version_receiver *rcv,
int major_version)
{
Ssh *ssh = container_of(rcv, Ssh, version_receiver);
BinaryPacketProtocol *old_bpp;
PacketProtocolLayer *connection_layer;
ssh->session_started = true;
/*
* We don't support choosing a major protocol version dynamically,
* so this should always be the same value we set up in
* connect_to_host().
*/
assert(ssh->version == major_version);
old_bpp = ssh->bpp;
ssh->remote_bugs = ssh_verstring_get_bugs(old_bpp);
if (!ssh->bare_connection) {
if (ssh->version == 2) {
PacketProtocolLayer *userauth_layer, *transport_child_layer;
/*
* We use the 'simple' variant of the SSH protocol if
* we're asked to, except not if we're also doing
* connection-sharing (either tunnelling our packets over
* an upstream or expecting to be tunnelled over
* ourselves), since then the assumption that we have only
* one channel to worry about is not true after all.
*/
bool is_simple =
(conf_get_bool(ssh->conf, CONF_ssh_simple) && !ssh->connshare);
ssh->bpp = ssh2_bpp_new(ssh->logctx, &ssh->stats, false);
ssh_connect_bpp(ssh);
#ifndef NO_GSSAPI
/* Load and pick the highest GSS library on the preference
* list. */
if (!ssh->gss_state.libs)
ssh->gss_state.libs = ssh_gss_setup(ssh->conf);
ssh->gss_state.lib = NULL;
if (ssh->gss_state.libs->nlibraries > 0) {
int i, j;
for (i = 0; i < ngsslibs; i++) {
int want_id = conf_get_int_int(ssh->conf,
CONF_ssh_gsslist, i);
for (j = 0; j < ssh->gss_state.libs->nlibraries; j++)
if (ssh->gss_state.libs->libraries[j].id == want_id) {
ssh->gss_state.lib =
&ssh->gss_state.libs->libraries[j];
goto got_gsslib; /* double break */
}
}
got_gsslib:
/*
* We always expect to have found something in
* the above loop: we only came here if there
* was at least one viable GSS library, and the
* preference list should always mention
* everything and only change the order.
*/
assert(ssh->gss_state.lib);
}
#endif
connection_layer = ssh2_connection_new(
ssh, ssh->connshare, is_simple, ssh->conf,
ssh_verstring_get_remote(old_bpp), &ssh->cl);
ssh_connect_ppl(ssh, connection_layer);
if (conf_get_bool(ssh->conf, CONF_ssh_no_userauth)) {
userauth_layer = NULL;
transport_child_layer = connection_layer;
} else {
char *username = get_remote_username(ssh->conf);
userauth_layer = ssh2_userauth_new(
connection_layer, ssh->savedhost, ssh->fullhostname,
conf_get_filename(ssh->conf, CONF_keyfile),
conf_get_bool(ssh->conf, CONF_tryagent), username,
conf_get_bool(ssh->conf, CONF_change_username),
conf_get_bool(ssh->conf, CONF_try_ki_auth),
conf_get_bool(ssh->conf, CONF_try_gssapi_auth),
conf_get_bool(ssh->conf, CONF_try_gssapi_kex),
conf_get_bool(ssh->conf, CONF_gssapifwd),
&ssh->gss_state);
ssh_connect_ppl(ssh, userauth_layer);
transport_child_layer = userauth_layer;
sfree(username);
}
ssh->base_layer = ssh2_transport_new(
ssh->conf, ssh->savedhost, ssh->savedport,
ssh->fullhostname,
ssh_verstring_get_local(old_bpp),
ssh_verstring_get_remote(old_bpp),
&ssh->gss_state,
&ssh->stats, transport_child_layer, false);
ssh_connect_ppl(ssh, ssh->base_layer);
if (userauth_layer)
ssh2_userauth_set_transport_layer(userauth_layer,
ssh->base_layer);
} else {
ssh->bpp = ssh1_bpp_new(ssh->logctx);
ssh_connect_bpp(ssh);
connection_layer = ssh1_connection_new(ssh, ssh->conf, &ssh->cl);
ssh_connect_ppl(ssh, connection_layer);
ssh->base_layer = ssh1_login_new(
ssh->conf, ssh->savedhost, ssh->savedport, connection_layer);
ssh_connect_ppl(ssh, ssh->base_layer);
}
} else {
ssh->bpp = ssh2_bare_bpp_new(ssh->logctx);
ssh_connect_bpp(ssh);
connection_layer = ssh2_connection_new(
ssh, NULL, false, ssh->conf, ssh_verstring_get_remote(old_bpp),
&ssh->cl);
ssh_connect_ppl(ssh, connection_layer);
ssh->base_layer = connection_layer;
}
/* Connect the base layer - whichever it is - to the BPP, and set
* up its selfptr. */
ssh->base_layer->selfptr = &ssh->base_layer;
ssh_ppl_setup_queues(ssh->base_layer, &ssh->bpp->in_pq, &ssh->bpp->out_pq);
seat_update_specials_menu(ssh->seat);
ssh->pinger = pinger_new(ssh->conf, &ssh->backend);
queue_idempotent_callback(&ssh->bpp->ic_in_raw);
ssh_ppl_process_queue(ssh->base_layer);
/* Pass in the initial terminal size, if we knew it already. */
ssh_terminal_size(ssh->cl, ssh->term_width, ssh->term_height);
ssh_bpp_free(old_bpp);
}
void ssh_check_frozen(Ssh *ssh)
{
if (!ssh->s)
return;
bool prev_frozen = ssh->socket_frozen;
ssh->socket_frozen = (ssh->logically_frozen ||
bufchain_size(&ssh->in_raw) > SSH_MAX_BACKLOG);
sk_set_frozen(ssh->s, ssh->socket_frozen);
if (prev_frozen && !ssh->socket_frozen && ssh->bpp) {
/*
* If we've just unfrozen, process any SSH connection data
* that was stashed in our queue while we were frozen.
*/
queue_idempotent_callback(&ssh->bpp->ic_in_raw);
}
}
void ssh_conn_processed_data(Ssh *ssh)
{
ssh_check_frozen(ssh);
}
static void ssh_bpp_output_raw_data_callback(void *vctx)
{
Ssh *ssh = (Ssh *)vctx;
if (!ssh->s)
return;
while (bufchain_size(&ssh->out_raw) > 0) {
size_t backlog;
ptrlen data = bufchain_prefix(&ssh->out_raw);
if (ssh->logctx)
log_packet(ssh->logctx, PKT_OUTGOING, -1, NULL, data.ptr, data.len,
0, NULL, NULL, 0, NULL);
backlog = sk_write(ssh->s, data.ptr, data.len);
bufchain_consume(&ssh->out_raw, data.len);
if (backlog > SSH_MAX_BACKLOG) {
ssh_throttle_all(ssh, true, backlog);
return;
}
}
ssh_check_frozen(ssh);
if (ssh->pending_close) {
sk_close(ssh->s);
ssh->s = NULL;
}
}
static void ssh_shutdown_internal(Ssh *ssh)
{
expire_timer_context(ssh);
if (ssh->connshare) {
sharestate_free(ssh->connshare);
ssh->connshare = NULL;
}
if (ssh->pinger) {
pinger_free(ssh->pinger);
ssh->pinger = NULL;
}
/*
* We only need to free the base PPL, which will free the others
* (if any) transitively.
*/
if (ssh->base_layer) {
ssh_ppl_free(ssh->base_layer);
ssh->base_layer = NULL;
}
ssh->cl = NULL;
}
static void ssh_shutdown(Ssh *ssh)
{
ssh_shutdown_internal(ssh);
if (ssh->bpp) {
ssh_bpp_free(ssh->bpp);
ssh->bpp = NULL;
}
if (ssh->s) {
sk_close(ssh->s);
ssh->s = NULL;
}
bufchain_clear(&ssh->in_raw);
bufchain_clear(&ssh->out_raw);
bufchain_clear(&ssh->user_input);
}
static void ssh_initiate_connection_close(Ssh *ssh)
{
/* Wind up everything above the BPP. */
ssh_shutdown_internal(ssh);
/* Force any remaining queued SSH packets through the BPP, and
* schedule closing the network socket after they go out. */
ssh_bpp_handle_output(ssh->bpp);
ssh->pending_close = true;
queue_idempotent_callback(&ssh->ic_out_raw);
/* Now we expect the other end to close the connection too in
* response, so arrange that we'll receive notification of that
* via ssh_remote_eof. */
ssh->bpp->expect_close = true;
}
#define GET_FORMATTED_MSG \
char *msg; \
va_list ap; \
va_start(ap, fmt); \
msg = dupvprintf(fmt, ap); \
va_end(ap);
void ssh_remote_error(Ssh *ssh, const char *fmt, ...)
{
if (ssh->base_layer || !ssh->session_started) {
GET_FORMATTED_MSG;
/* Error messages sent by the remote don't count as clean exits */
ssh->exitcode = 128;
/* Close the socket immediately, since the server has already
* closed its end (or is about to). */
ssh_shutdown(ssh);
logevent(ssh->logctx, msg);
seat_connection_fatal(ssh->seat, "%s", msg);
sfree(msg);
}
}
void ssh_remote_eof(Ssh *ssh, const char *fmt, ...)
{
if (ssh->base_layer || !ssh->session_started) {
GET_FORMATTED_MSG;
/* EOF from the remote, if we were expecting it, does count as
* a clean exit */
ssh->exitcode = 0;
/* Close the socket immediately, since the server has already
* closed its end. */
ssh_shutdown(ssh);
logevent(ssh->logctx, msg);
sfree(msg);
seat_notify_remote_exit(ssh->seat);
} else {
/* This is responding to EOF after we've already seen some
* other reason for terminating the session. */
ssh_shutdown(ssh);
}
}
void ssh_proto_error(Ssh *ssh, const char *fmt, ...)
{
if (ssh->base_layer || !ssh->session_started) {
GET_FORMATTED_MSG;
ssh->exitcode = 128;
ssh_bpp_queue_disconnect(ssh->bpp, msg,
SSH2_DISCONNECT_PROTOCOL_ERROR);
ssh_initiate_connection_close(ssh);
logevent(ssh->logctx, msg);
seat_connection_fatal(ssh->seat, "%s", msg);
sfree(msg);
}
}
void ssh_sw_abort(Ssh *ssh, const char *fmt, ...)
{
if (ssh->base_layer || !ssh->session_started) {
GET_FORMATTED_MSG;
ssh->exitcode = 128;
ssh_initiate_connection_close(ssh);
logevent(ssh->logctx, msg);
seat_connection_fatal(ssh->seat, "%s", msg);
sfree(msg);
seat_notify_remote_exit(ssh->seat);
}
}
void ssh_user_close(Ssh *ssh, const char *fmt, ...)
{
if (ssh->base_layer || !ssh->session_started) {
GET_FORMATTED_MSG;
/* Closing the connection due to user action, even if the
* action is the user aborting during authentication prompts,
* does count as a clean exit - except that this is also how
* we signal ordinary session termination, in which case we
* should use the exit status already sent from the main
* session (if any). */
if (ssh->exitcode < 0)
ssh->exitcode = 0;
ssh_initiate_connection_close(ssh);
logevent(ssh->logctx, msg);
sfree(msg);
seat_notify_remote_exit(ssh->seat);
}
}
static void ssh_socket_log(Plug *plug, int type, SockAddr *addr, int port,
const char *error_msg, int error_code)
{
Ssh *ssh = container_of(plug, Ssh, plug);
/*
* While we're attempting connection sharing, don't loudly log
* everything that happens. Real TCP connections need to be logged
* when we _start_ trying to connect, because it might be ages
* before they respond if something goes wrong; but connection
* sharing is local and quick to respond, and it's sufficient to
* simply wait and see whether it worked afterwards.
*/
if (!ssh->attempting_connshare)
backend_socket_log(ssh->seat, ssh->logctx, type, addr, port,
error_msg, error_code, ssh->conf,
ssh->session_started);
}
static void ssh_closing(Plug *plug, const char *error_msg, int error_code,
bool calling_back)
{
Ssh *ssh = container_of(plug, Ssh, plug);
if (error_msg) {
ssh_remote_error(ssh, "Network error: %s", error_msg);
} else if (ssh->bpp) {
ssh->bpp->input_eof = true;
queue_idempotent_callback(&ssh->bpp->ic_in_raw);
}
}
static void ssh_receive(Plug *plug, int urgent, const char *data, size_t len)
{
Ssh *ssh = container_of(plug, Ssh, plug);
/* Log raw data, if we're in that mode. */
if (ssh->logctx)
log_packet(ssh->logctx, PKT_INCOMING, -1, NULL, data, len,
0, NULL, NULL, 0, NULL);
bufchain_add(&ssh->in_raw, data, len);
if (!ssh->logically_frozen && ssh->bpp)
queue_idempotent_callback(&ssh->bpp->ic_in_raw);
ssh_check_frozen(ssh);
}
static void ssh_sent(Plug *plug, size_t bufsize)
{
Ssh *ssh = container_of(plug, Ssh, plug);
/*
* If the send backlog on the SSH socket itself clears, we should
* unthrottle the whole world if it was throttled. Also trigger an
* extra call to the consumer of the BPP's output, to try to send
* some more data off its bufchain.
*/
if (bufsize < SSH_MAX_BACKLOG) {
ssh_throttle_all(ssh, false, bufsize);
queue_idempotent_callback(&ssh->ic_out_raw);
}
}
static void ssh_hostport_setup(const char *host, int port, Conf *conf,
char **savedhost, int *savedport,
char **loghost_ret)
{
char *loghost = conf_get_str(conf, CONF_loghost);
if (loghost_ret)
*loghost_ret = loghost;
if (*loghost) {
char *tmphost;
char *colon;
tmphost = dupstr(loghost);
*savedport = 22; /* default ssh port */
/*
* A colon suffix on the hostname string also lets us affect
* savedport. (Unless there are multiple colons, in which case
* we assume this is an unbracketed IPv6 literal.)
*/
colon = host_strrchr(tmphost, ':');
if (colon && colon == host_strchr(tmphost, ':')) {
*colon++ = '\0';
if (*colon)
*savedport = atoi(colon);
}
*savedhost = host_strduptrim(tmphost);
sfree(tmphost);
} else {
*savedhost = host_strduptrim(host);
if (port < 0)
port = 22; /* default ssh port */
*savedport = port;
}
}
static bool ssh_test_for_upstream(const char *host, int port, Conf *conf)
{
char *savedhost;
int savedport;
bool ret;
random_ref(); /* platform may need this to determine share socket name */
ssh_hostport_setup(host, port, conf, &savedhost, &savedport, NULL);
ret = ssh_share_test_for_upstream(savedhost, savedport, conf);
sfree(savedhost);
random_unref();
return ret;
}
static const PlugVtable Ssh_plugvt = {
ssh_socket_log,
ssh_closing,
ssh_receive,
ssh_sent,
NULL
};
/*
* Connect to specified host and port.
* Returns an error message, or NULL on success.
* Also places the canonical host name into `realhost'. It must be
* freed by the caller.
*/
static const char *connect_to_host(
Ssh *ssh, const char *host, int port, char **realhost,
bool nodelay, bool keepalive)
{
SockAddr *addr;
const char *err;
char *loghost;
int addressfamily, sshprot;
ssh_hostport_setup(host, port, ssh->conf,
&ssh->savedhost, &ssh->savedport, &loghost);
ssh->plug.vt = &Ssh_plugvt;
/*
* Try connection-sharing, in case that means we don't open a
* socket after all. ssh_connection_sharing_init will connect to a
* previously established upstream if it can, and failing that,
* establish a listening socket for _us_ to be the upstream. In
* the latter case it will return NULL just as if it had done
* nothing, because here we only need to care if we're a
* downstream and need to do our connection setup differently.
*/
ssh->connshare = NULL;
ssh->attempting_connshare = true; /* affects socket logging behaviour */
ssh->s = ssh_connection_sharing_init(
ssh->savedhost, ssh->savedport, ssh->conf, ssh->logctx,
&ssh->plug, &ssh->connshare);
if (ssh->connshare)
ssh_connshare_provide_connlayer(ssh->connshare, &ssh->cl_dummy);
ssh->attempting_connshare = false;
if (ssh->s != NULL) {
/*
* We are a downstream.
*/
ssh->bare_connection = true;
ssh->fullhostname = NULL;
*realhost = dupstr(host); /* best we can do */
if ((flags & FLAG_VERBOSE) || (flags & FLAG_INTERACTIVE)) {
/* In an interactive session, or in verbose mode, announce
* in the console window that we're a sharing downstream,
* to avoid confusing users as to why this session doesn't
* behave in quite the usual way. */
const char *msg =
"Reusing a shared connection to this server.\r\n";
seat_stderr_pl(ssh->seat, ptrlen_from_asciz(msg));
}
} else {
/*
* We're not a downstream, so open a normal socket.
*/
/*
* Try to find host.
*/
addressfamily = conf_get_int(ssh->conf, CONF_addressfamily);
addr = name_lookup(host, port, realhost, ssh->conf, addressfamily,
ssh->logctx, "SSH connection");
if ((err = sk_addr_error(addr)) != NULL) {
sk_addr_free(addr);
return err;
}
ssh->fullhostname = dupstr(*realhost); /* save in case of GSSAPI */
ssh->s = new_connection(addr, *realhost, port,
false, true, nodelay, keepalive,
&ssh->plug, ssh->conf);
if ((err = sk_socket_error(ssh->s)) != NULL) {
ssh->s = NULL;
seat_notify_remote_exit(ssh->seat);
return err;
}
}
/*
* The SSH version number is always fixed (since we no longer support
* fallback between versions), so set it now.
*/
sshprot = conf_get_int(ssh->conf, CONF_sshprot);
assert(sshprot == 0 || sshprot == 3);
if (sshprot == 0)
/* SSH-1 only */
ssh->version = 1;
if (sshprot == 3 || ssh->bare_connection) {
/* SSH-2 only */
ssh->version = 2;
}
/*
* Set up the initial BPP that will do the version string
* exchange, and get it started so that it can send the outgoing
* version string early if it wants to.
*/
ssh->version_receiver.got_ssh_version = ssh_got_ssh_version;
ssh->bpp = ssh_verstring_new(
ssh->conf, ssh->logctx, ssh->bare_connection,
ssh->version == 1 ? "1.5" : "2.0", &ssh->version_receiver,
false, "PuTTY");
ssh_connect_bpp(ssh);
queue_idempotent_callback(&ssh->bpp->ic_in_raw);
/*
* loghost, if configured, overrides realhost.
*/
if (*loghost) {
sfree(*realhost);
*realhost = dupstr(loghost);
}
return NULL;
}
/*
* Throttle or unthrottle the SSH connection.
*/
void ssh_throttle_conn(Ssh *ssh, int adjust)
{
int old_count = ssh->conn_throttle_count;
bool frozen;
ssh->conn_throttle_count += adjust;
assert(ssh->conn_throttle_count >= 0);
if (ssh->conn_throttle_count && !old_count) {
frozen = true;
} else if (!ssh->conn_throttle_count && old_count) {
frozen = false;
} else {
return; /* don't change current frozen state */
}
ssh->logically_frozen = frozen;
ssh_check_frozen(ssh);
}
/*
* Throttle or unthrottle _all_ local data streams (for when sends
* on the SSH connection itself back up).
*/
static void ssh_throttle_all(Ssh *ssh, bool enable, size_t bufsize)
{
if (enable == ssh->throttled_all)
return;
ssh->throttled_all = enable;
ssh->overall_bufsize = bufsize;
ssh_throttle_all_channels(ssh->cl, enable);
}
static void ssh_cache_conf_values(Ssh *ssh)
{
ssh->pls.omit_passwords = conf_get_bool(ssh->conf, CONF_logomitpass);
ssh->pls.omit_data = conf_get_bool(ssh->conf, CONF_logomitdata);
}
/*
* Called to set up the connection.
*
* Returns an error message, or NULL on success.
*/
static const char *ssh_init(Seat *seat, Backend **backend_handle,
LogContext *logctx, Conf *conf,
const char *host, int port, char **realhost,
bool nodelay, bool keepalive)
{
const char *p;
Ssh *ssh;
ssh = snew(Ssh);
memset(ssh, 0, sizeof(Ssh));
ssh->conf = conf_copy(conf);
ssh_cache_conf_values(ssh);
ssh->exitcode = -1;
ssh->pls.kctx = SSH2_PKTCTX_NOKEX;
ssh->pls.actx = SSH2_PKTCTX_NOAUTH;
bufchain_init(&ssh->in_raw);
bufchain_init(&ssh->out_raw);
bufchain_init(&ssh->user_input);
ssh->ic_out_raw.fn = ssh_bpp_output_raw_data_callback;
ssh->ic_out_raw.ctx = ssh;
ssh->backend.vt = &ssh_backend;
*backend_handle = &ssh->backend;
ssh->seat = seat;
ssh->cl_dummy.logctx = ssh->logctx = logctx;
random_ref(); /* do this now - may be needed by sharing setup code */
ssh->need_random_unref = true;
p = connect_to_host(ssh, host, port, realhost, nodelay, keepalive);
if (p != NULL) {
/* Call random_unref now instead of waiting until the caller
* frees this useless Ssh object, in case the caller is
* impatient and just exits without bothering, in which case
* the random seed won't be re-saved. */
ssh->need_random_unref = false;
random_unref();
return p;
}
return NULL;
}
static void ssh_free(Backend *be)
{
Ssh *ssh = container_of(be, Ssh, backend);
bool need_random_unref;
ssh_shutdown(ssh);
conf_free(ssh->conf);
if (ssh->connshare)
sharestate_free(ssh->connshare);
sfree(ssh->savedhost);
sfree(ssh->fullhostname);
sfree(ssh->specials);
#ifndef NO_GSSAPI
if (ssh->gss_state.srv_name)
ssh->gss_state.lib->release_name(
ssh->gss_state.lib, &ssh->gss_state.srv_name);
if (ssh->gss_state.ctx != NULL)
ssh->gss_state.lib->release_cred(
ssh->gss_state.lib, &ssh->gss_state.ctx);
if (ssh->gss_state.libs)
ssh_gss_cleanup(ssh->gss_state.libs);
#endif
delete_callbacks_for_context(ssh); /* likely to catch ic_out_raw */
need_random_unref = ssh->need_random_unref;
sfree(ssh);
if (need_random_unref)
random_unref();
}
/*
* Reconfigure the SSH backend.
*/
static void ssh_reconfig(Backend *be, Conf *conf)
{
Ssh *ssh = container_of(be, Ssh, backend);
if (ssh->pinger)
pinger_reconfig(ssh->pinger, ssh->conf, conf);
ssh_ppl_reconfigure(ssh->base_layer, conf);
conf_free(ssh->conf);
ssh->conf = conf_copy(conf);
ssh_cache_conf_values(ssh);
}
/*
* Called to send data down the SSH connection.
*/
static size_t ssh_send(Backend *be, const char *buf, size_t len)
{
Ssh *ssh = container_of(be, Ssh, backend);
if (ssh == NULL || ssh->s == NULL)
return 0;
bufchain_add(&ssh->user_input, buf, len);
if (ssh->base_layer)
ssh_ppl_got_user_input(ssh->base_layer);
return backend_sendbuffer(&ssh->backend);
}
/*
* Called to query the current amount of buffered stdin data.
*/
static size_t ssh_sendbuffer(Backend *be)
{
Ssh *ssh = container_of(be, Ssh, backend);
size_t backlog;
if (!ssh || !ssh->s || !ssh->cl)
return 0;
backlog = ssh_stdin_backlog(ssh->cl);
/* FIXME: also include sizes of pqs */
/*
* If the SSH socket itself has backed up, add the total backup
* size on that to any individual buffer on the stdin channel.
*/
if (ssh->throttled_all)
backlog += ssh->overall_bufsize;
return backlog;
}
/*
* Called to set the size of the window from SSH's POV.
*/
static void ssh_size(Backend *be, int width, int height)
{
Ssh *ssh = container_of(be, Ssh, backend);
ssh->term_width = width;
ssh->term_height = height;
if (ssh->cl)
ssh_terminal_size(ssh->cl, ssh->term_width, ssh->term_height);
}
struct ssh_add_special_ctx {
SessionSpecial *specials;
size_t nspecials, specials_size;
};
static void ssh_add_special(void *vctx, const char *text,
SessionSpecialCode code, int arg)
{
struct ssh_add_special_ctx *ctx = (struct ssh_add_special_ctx *)vctx;
SessionSpecial *spec;
sgrowarray(ctx->specials, ctx->specials_size, ctx->nspecials);
spec = &ctx->specials[ctx->nspecials++];
spec->name = text;
spec->code = code;
spec->arg = arg;
}