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agentf.c
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agentf.c
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/*
* SSH agent forwarding.
*/
#include <assert.h>
#include <stdio.h>
#include <stdlib.h>
#include "putty.h"
#include "ssh.h"
#include "pageant.h"
#include "sshchan.h"
typedef struct agentf {
SshChannel *c;
bufchain inbuffer;
agent_pending_query *pending;
bool input_wanted;
bool rcvd_eof;
Channel chan;
} agentf;
static void agentf_got_response(agentf *af, void *reply, int replylen)
{
af->pending = NULL;
if (!reply) {
/* The real agent didn't send any kind of reply at all for
* some reason, so fake an SSH_AGENT_FAILURE. */
reply = "\0\0\0\1\5";
replylen = 5;
}
sshfwd_write(af->c, reply, replylen);
}
static void agentf_callback(void *vctx, void *reply, int replylen);
static void agentf_try_forward(agentf *af)
{
size_t datalen, length;
strbuf *message;
unsigned char msglen[4];
void *reply;
int replylen;
/*
* Don't try to parallelise agent requests. Wait for each one to
* return before attempting the next.
*/
if (af->pending)
return;
/*
* If the outgoing side of the channel connection is currently
* throttled, don't submit any new forwarded requests to the real
* agent. This causes the input side of the agent forwarding not
* to be emptied, exerting the required back-pressure on the
* remote client, and encouraging it to read our responses before
* sending too many more requests.
*/
if (!af->input_wanted)
return;
while (1) {
/*
* Try to extract a complete message from the input buffer.
*/
datalen = bufchain_size(&af->inbuffer);
if (datalen < 4)
break; /* not even a length field available yet */
bufchain_fetch(&af->inbuffer, msglen, 4);
length = GET_32BIT_MSB_FIRST(msglen);
if (length > AGENT_MAX_MSGLEN-4) {
/*
* If the remote has sent a message that's just _too_
* long, we should reject it in advance of seeing the rest
* of the incoming message, and also close the connection
* for good measure (which avoids us having to faff about
* with carefully ignoring just the right number of bytes
* from the overlong message).
*/
agentf_got_response(af, NULL, 0);
sshfwd_write_eof(af->c);
return;
}
if (length > datalen - 4)
break; /* a whole message is not yet available */
bufchain_consume(&af->inbuffer, 4);
message = strbuf_new_for_agent_query();
bufchain_fetch_consume(
&af->inbuffer, strbuf_append(message, length), length);
af->pending = agent_query(
message, &reply, &replylen, agentf_callback, af);
strbuf_free(message);
if (af->pending)
return; /* agent_query promised to reply in due course */
/*
* If the agent gave us an answer immediately, pass it
* straight on and go round this loop again.
*/
agentf_got_response(af, reply, replylen);
sfree(reply);
}
/*
* If we get here (i.e. we left the above while loop via 'break'
* rather than 'return'), that means we've determined that the
* input buffer for the agent forwarding connection doesn't
* contain a complete request.
*
* So if there's potentially more data to come, we can return now,
* and wait for the remote client to send it. But if the remote
* has sent EOF, it would be a mistake to do that, because we'd be
* waiting a long time. So this is the moment to check for EOF,
* and respond appropriately.
*/
if (af->rcvd_eof)
sshfwd_write_eof(af->c);
}
static void agentf_callback(void *vctx, void *reply, int replylen)
{
agentf *af = (agentf *)vctx;
agentf_got_response(af, reply, replylen);
sfree(reply);
/*
* Now try to extract and send further messages from the channel's
* input-side buffer.
*/
agentf_try_forward(af);
}
static void agentf_free(Channel *chan);
static size_t agentf_send(Channel *chan, bool is_stderr, const void *, size_t);
static void agentf_send_eof(Channel *chan);
static char *agentf_log_close_msg(Channel *chan);
static void agentf_set_input_wanted(Channel *chan, bool wanted);
static const ChannelVtable agentf_channelvt = {
.free = agentf_free,
.open_confirmation = chan_remotely_opened_confirmation,
.open_failed = chan_remotely_opened_failure,
.send = agentf_send,
.send_eof = agentf_send_eof,
.set_input_wanted = agentf_set_input_wanted,
.log_close_msg = agentf_log_close_msg,
.want_close = chan_default_want_close,
.rcvd_exit_status = chan_no_exit_status,
.rcvd_exit_signal = chan_no_exit_signal,
.rcvd_exit_signal_numeric = chan_no_exit_signal_numeric,
.run_shell = chan_no_run_shell,
.run_command = chan_no_run_command,
.run_subsystem = chan_no_run_subsystem,
.enable_x11_forwarding = chan_no_enable_x11_forwarding,
.enable_agent_forwarding = chan_no_enable_agent_forwarding,
.allocate_pty = chan_no_allocate_pty,
.set_env = chan_no_set_env,
.send_break = chan_no_send_break,
.send_signal = chan_no_send_signal,
.change_window_size = chan_no_change_window_size,
.request_response = chan_no_request_response,
};
Channel *agentf_new(SshChannel *c)
{
agentf *af = snew(agentf);
af->c = c;
af->chan.vt = &agentf_channelvt;
af->chan.initial_fixed_window_size = 0;
af->rcvd_eof = false;
bufchain_init(&af->inbuffer);
af->pending = NULL;
af->input_wanted = true;
return &af->chan;
}
static void agentf_free(Channel *chan)
{
assert(chan->vt == &agentf_channelvt);
agentf *af = container_of(chan, agentf, chan);
if (af->pending)
agent_cancel_query(af->pending);
bufchain_clear(&af->inbuffer);
sfree(af);
}
static size_t agentf_send(Channel *chan, bool is_stderr,
const void *data, size_t length)
{
assert(chan->vt == &agentf_channelvt);
agentf *af = container_of(chan, agentf, chan);
bufchain_add(&af->inbuffer, data, length);
agentf_try_forward(af);
/*
* We exert back-pressure on an agent forwarding client if and
* only if we're waiting for the response to an asynchronous agent
* request. This prevents the client running out of window while
* receiving the _first_ message, but means that if any message
* takes time to process, the client will be discouraged from
* sending an endless stream of further ones after it.
*/
return (af->pending ? bufchain_size(&af->inbuffer) : 0);
}
static void agentf_send_eof(Channel *chan)
{
assert(chan->vt == &agentf_channelvt);
agentf *af = container_of(chan, agentf, chan);
af->rcvd_eof = true;
/* Call try_forward, which will respond to the EOF now if
* appropriate, or wait until the queue of outstanding requests is
* dealt with if not. */
agentf_try_forward(af);
}
static char *agentf_log_close_msg(Channel *chan)
{
return dupstr("Agent-forwarding connection closed");
}
static void agentf_set_input_wanted(Channel *chan, bool wanted)
{
assert(chan->vt == &agentf_channelvt);
agentf *af = container_of(chan, agentf, chan);
af->input_wanted = wanted;
/* Agent forwarding channels are buffer-managed by not asking the
* agent questions if the SSH channel isn't accepting input. So if
* it's started again, we should ask a question if we have one
* pending.. */
if (wanted)
agentf_try_forward(af);
}