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common-session.c
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common-session.c
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/*
* Dropbear - a SSH2 server
*
* Copyright (c) Matt Johnston
* All rights reserved.
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE. */
#include "includes.h"
#include "session.h"
#include "dbutil.h"
#include "packet.h"
#include "algo.h"
#include "buffer.h"
#include "dss.h"
#include "ssh.h"
#include "dbrandom.h"
#include "kex.h"
#include "channel.h"
#include "runopts.h"
#include "netio.h"
static void checktimeouts(void);
static long select_timeout(void);
static int ident_readln(int fd, char* buf, int count);
static void read_session_identification(void);
struct sshsession ses; /* GLOBAL */
/* called only at the start of a session, set up initial state */
void common_session_init(int sock_in, int sock_out) {
time_t now;
#if DEBUG_TRACE
debug_start_net();
#endif
TRACE(("enter session_init"))
ses.sock_in = sock_in;
ses.sock_out = sock_out;
ses.maxfd = MAX(sock_in, sock_out);
if (sock_in >= 0) {
setnonblocking(sock_in);
}
if (sock_out >= 0) {
setnonblocking(sock_out);
}
ses.socket_prio = DROPBEAR_PRIO_DEFAULT;
/* Sets it to lowdelay */
update_channel_prio();
#if !DROPBEAR_SVR_MULTIUSER
/* A sanity check to prevent an accidental configuration option
leaving multiuser systems exposed */
errno = 0;
getuid();
if (errno != ENOSYS) {
dropbear_exit("Non-multiuser Dropbear requires a non-multiuser kernel");
}
#endif
now = monotonic_now();
ses.connect_time = now;
ses.last_packet_time_keepalive_recv = now;
ses.last_packet_time_idle = now;
ses.last_packet_time_any_sent = 0;
ses.last_packet_time_keepalive_sent = 0;
#if DROPBEAR_FUZZ
if (!fuzz.fuzzing)
#endif
{
if (pipe(ses.signal_pipe) < 0) {
dropbear_exit("Signal pipe failed");
}
setnonblocking(ses.signal_pipe[0]);
setnonblocking(ses.signal_pipe[1]);
ses.maxfd = MAX(ses.maxfd, ses.signal_pipe[0]);
ses.maxfd = MAX(ses.maxfd, ses.signal_pipe[1]);
}
ses.writepayload = buf_new(TRANS_MAX_PAYLOAD_LEN);
ses.transseq = 0;
ses.readbuf = NULL;
ses.payload = NULL;
ses.recvseq = 0;
initqueue(&ses.writequeue);
ses.requirenext = SSH_MSG_KEXINIT;
ses.dataallowed = 1; /* we can send data until we actually
send the SSH_MSG_KEXINIT */
ses.ignorenext = 0;
ses.lastpacket = 0;
ses.reply_queue_head = NULL;
ses.reply_queue_tail = NULL;
/* set all the algos to none */
ses.keys = (struct key_context*)m_malloc(sizeof(struct key_context));
ses.newkeys = NULL;
ses.keys->recv.algo_crypt = &dropbear_nocipher;
ses.keys->trans.algo_crypt = &dropbear_nocipher;
ses.keys->recv.crypt_mode = &dropbear_mode_none;
ses.keys->trans.crypt_mode = &dropbear_mode_none;
ses.keys->recv.algo_mac = &dropbear_nohash;
ses.keys->trans.algo_mac = &dropbear_nohash;
ses.keys->algo_kex = NULL;
ses.keys->algo_hostkey = -1;
ses.keys->recv.algo_comp = DROPBEAR_COMP_NONE;
ses.keys->trans.algo_comp = DROPBEAR_COMP_NONE;
#ifndef DISABLE_ZLIB
ses.keys->recv.zstream = NULL;
ses.keys->trans.zstream = NULL;
#endif
/* key exchange buffers */
ses.session_id = NULL;
ses.kexhashbuf = NULL;
ses.transkexinit = NULL;
ses.dh_K = NULL;
ses.remoteident = NULL;
ses.chantypes = NULL;
ses.allowprivport = 0;
#if DROPBEAR_PLUGIN
ses.plugin_session = NULL;
#endif
TRACE(("leave session_init"))
}
void session_loop(void(*loophandler)(void)) {
fd_set readfd, writefd;
struct timeval timeout;
int val;
/* main loop, select()s for all sockets in use */
for(;;) {
const int writequeue_has_space = (ses.writequeue_len <= 2*TRANS_MAX_PAYLOAD_LEN);
timeout.tv_sec = select_timeout();
timeout.tv_usec = 0;
DROPBEAR_FD_ZERO(&writefd);
DROPBEAR_FD_ZERO(&readfd);
dropbear_assert(ses.payload == NULL);
/* We get woken up when signal handlers write to this pipe.
SIGCHLD in svr-chansession is the only one currently. */
#if DROPBEAR_FUZZ
if (!fuzz.fuzzing)
#endif
{
FD_SET(ses.signal_pipe[0], &readfd);
}
/* set up for channels which can be read/written */
setchannelfds(&readfd, &writefd, writequeue_has_space);
/* Pending connections to test */
set_connect_fds(&writefd);
/* We delay reading from the input socket during initial setup until
after we have written out our initial KEXINIT packet (empty writequeue).
This means our initial packet can be in-flight while we're doing a blocking
read for the remote ident.
We also avoid reading from the socket if the writequeue is full, that avoids
replies backing up */
if (ses.sock_in != -1
&& (ses.remoteident || isempty(&ses.writequeue))
&& writequeue_has_space) {
FD_SET(ses.sock_in, &readfd);
}
/* Ordering is important, this test must occur after any other function
might have queued packets (such as connection handlers) */
if (ses.sock_out != -1 && !isempty(&ses.writequeue)) {
FD_SET(ses.sock_out, &writefd);
}
val = select(ses.maxfd+1, &readfd, &writefd, NULL, &timeout);
if (ses.exitflag) {
dropbear_exit("Terminated by signal");
}
if (val < 0 && errno != EINTR) {
dropbear_exit("Error in select");
}
if (val <= 0) {
/* If we were interrupted or the select timed out, we still
* want to iterate over channels etc for reading, to handle
* server processes exiting etc.
* We don't want to read/write FDs. */
DROPBEAR_FD_ZERO(&writefd);
DROPBEAR_FD_ZERO(&readfd);
}
/* We'll just empty out the pipe if required. We don't do
any thing with the data, since the pipe's purpose is purely to
wake up the select() above. */
ses.channel_signal_pending = 0;
if (FD_ISSET(ses.signal_pipe[0], &readfd)) {
char x;
TRACE(("signal pipe set"))
while (read(ses.signal_pipe[0], &x, 1) > 0) {}
ses.channel_signal_pending = 1;
}
/* check for auth timeout, rekeying required etc */
checktimeouts();
/* process session socket's incoming data */
if (ses.sock_in != -1) {
if (FD_ISSET(ses.sock_in, &readfd)) {
if (!ses.remoteident) {
/* blocking read of the version string */
read_session_identification();
} else {
read_packet();
}
}
/* Process the decrypted packet. After this, the read buffer
* will be ready for a new packet */
if (ses.payload != NULL) {
process_packet();
}
}
/* if required, flush out any queued reply packets that
were being held up during a KEX */
maybe_flush_reply_queue();
handle_connect_fds(&writefd);
/* loop handler prior to channelio, in case the server loophandler closes
channels on process exit */
loophandler();
/* process pipes etc for the channels, ses.dataallowed == 0
* during rekeying ) */
channelio(&readfd, &writefd);
/* process session socket's outgoing data */
if (ses.sock_out != -1) {
if (!isempty(&ses.writequeue)) {
write_packet();
}
}
} /* for(;;) */
/* Not reached */
}
static void cleanup_buf(buffer **buf) {
if (!*buf) {
return;
}
buf_burn(*buf);
buf_free(*buf);
*buf = NULL;
}
/* clean up a session on exit */
void session_cleanup() {
TRACE(("enter session_cleanup"))
/* we can't cleanup if we don't know the session state */
if (!ses.init_done) {
TRACE(("leave session_cleanup: !ses.init_done"))
return;
}
/* BEWARE of changing order of functions here. */
/* Must be before extra_session_cleanup() */
chancleanup();
if (ses.extra_session_cleanup) {
ses.extra_session_cleanup();
}
/* After these are freed most functions will fail */
#if DROPBEAR_CLEANUP
/* listeners call cleanup functions, this should occur before
other session state is freed. */
remove_all_listeners();
remove_connect_pending();
while (!isempty(&ses.writequeue)) {
buf_free(dequeue(&ses.writequeue));
}
m_free(ses.newkeys);
#ifndef DISABLE_ZLIB
if (ses.keys->recv.zstream != NULL) {
if (inflateEnd(ses.keys->recv.zstream) == Z_STREAM_ERROR) {
dropbear_exit("Crypto error");
}
m_free(ses.keys->recv.zstream);
}
#endif
m_free(ses.remoteident);
m_free(ses.authstate.pw_dir);
m_free(ses.authstate.pw_name);
m_free(ses.authstate.pw_shell);
m_free(ses.authstate.pw_passwd);
m_free(ses.authstate.username);
#endif
cleanup_buf(&ses.session_id);
cleanup_buf(&ses.hash);
cleanup_buf(&ses.payload);
cleanup_buf(&ses.readbuf);
cleanup_buf(&ses.writepayload);
cleanup_buf(&ses.kexhashbuf);
cleanup_buf(&ses.transkexinit);
if (ses.dh_K) {
mp_clear(ses.dh_K);
}
m_free(ses.dh_K);
m_burn(ses.keys, sizeof(struct key_context));
m_free(ses.keys);
TRACE(("leave session_cleanup"))
}
void send_session_identification() {
buffer *writebuf = buf_new(strlen(LOCAL_IDENT "\r\n") + 1);
buf_putbytes(writebuf, (const unsigned char *) LOCAL_IDENT "\r\n", strlen(LOCAL_IDENT "\r\n"));
writebuf_enqueue(writebuf);
}
static void read_session_identification() {
/* max length of 255 chars */
char linebuf[256];
int len = 0;
char done = 0;
int i;
/* Servers may send other lines of data before sending the
* version string, client must be able to process such lines.
* If they send more than 50 lines, something is wrong */
for (i = IS_DROPBEAR_CLIENT ? 50 : 1; i > 0; i--) {
len = ident_readln(ses.sock_in, linebuf, sizeof(linebuf));
if (len < 0 && errno != EINTR) {
/* It failed */
break;
}
if (len >= 4 && memcmp(linebuf, "SSH-", 4) == 0) {
/* start of line matches */
done = 1;
break;
}
}
if (!done) {
TRACE(("error reading remote ident: %s\n", strerror(errno)))
ses.remoteclosed();
} else {
/* linebuf is already null terminated */
ses.remoteident = m_malloc(len);
memcpy(ses.remoteident, linebuf, len);
}
/* Shall assume that 2.x will be backwards compatible. */
if (strncmp(ses.remoteident, "SSH-2.", 6) != 0
&& strncmp(ses.remoteident, "SSH-1.99-", 9) != 0) {
dropbear_exit("Incompatible remote version '%s'", ses.remoteident);
}
TRACE(("remoteident: %s", ses.remoteident))
}
/* returns the length including null-terminating zero on success,
* or -1 on failure */
static int ident_readln(int fd, char* buf, int count) {
char in;
int pos = 0;
int num = 0;
fd_set fds;
struct timeval timeout;
TRACE(("enter ident_readln"))
if (count < 1) {
return -1;
}
DROPBEAR_FD_ZERO(&fds);
/* select since it's a non-blocking fd */
/* leave space to null-terminate */
while (pos < count-1) {
FD_SET(fd, &fds);
timeout.tv_sec = 1;
timeout.tv_usec = 0;
if (select(fd+1, &fds, NULL, NULL, &timeout) < 0) {
if (errno == EINTR) {
continue;
}
TRACE(("leave ident_readln: select error"))
return -1;
}
checktimeouts();
/* Have to go one byte at a time, since we don't want to read past
* the end, and have to somehow shove bytes back into the normal
* packet reader */
if (FD_ISSET(fd, &fds)) {
num = read(fd, &in, 1);
/* a "\n" is a newline, "\r" we want to read in and keep going
* so that it won't be read as part of the next line */
if (num < 0) {
/* error */
if (errno == EINTR) {
continue; /* not a real error */
}
TRACE(("leave ident_readln: read error"))
return -1;
}
if (num == 0) {
/* EOF */
TRACE(("leave ident_readln: EOF"))
return -1;
}
#if DROPBEAR_FUZZ
fuzz_dump(&in, 1);
#endif
if (in == '\n') {
/* end of ident string */
break;
}
/* we don't want to include '\r's */
if (in != '\r') {
buf[pos] = in;
pos++;
}
}
}
buf[pos] = '\0';
TRACE(("leave ident_readln: return %d", pos+1))
return pos+1;
}
void ignore_recv_response() {
/* Do nothing */
TRACE(("Ignored msg_request_response"))
}
static void send_msg_keepalive() {
time_t old_time_idle = ses.last_packet_time_idle;
struct Channel *chan = get_any_ready_channel();
CHECKCLEARTOWRITE();
if (chan) {
/* Channel requests are preferable, more implementations
handle them than SSH_MSG_GLOBAL_REQUEST */
TRACE(("keepalive channel request %d", chan->index))
start_send_channel_request(chan, DROPBEAR_KEEPALIVE_STRING);
} else {
TRACE(("keepalive global request"))
/* Some peers will reply with SSH_MSG_REQUEST_FAILURE,
some will reply with SSH_MSG_UNIMPLEMENTED, some will exit. */
buf_putbyte(ses.writepayload, SSH_MSG_GLOBAL_REQUEST);
buf_putstring(ses.writepayload, DROPBEAR_KEEPALIVE_STRING,
strlen(DROPBEAR_KEEPALIVE_STRING));
}
buf_putbyte(ses.writepayload, 1); /* want_reply */
encrypt_packet();
ses.last_packet_time_keepalive_sent = monotonic_now();
/* keepalives shouldn't update idle timeout, reset it back */
ses.last_packet_time_idle = old_time_idle;
}
/* Check all timeouts which are required. Currently these are the time for
* user authentication, and the automatic rekeying. */
static void checktimeouts() {
time_t now;
now = monotonic_now();
if (IS_DROPBEAR_SERVER && ses.connect_time != 0
&& now - ses.connect_time >= AUTH_TIMEOUT) {
dropbear_close("Timeout before auth");
}
/* we can't rekey if we haven't done remote ident exchange yet */
if (ses.remoteident == NULL) {
return;
}
if (!ses.kexstate.sentkexinit
&& (now - ses.kexstate.lastkextime >= KEX_REKEY_TIMEOUT
|| ses.kexstate.datarecv+ses.kexstate.datatrans >= KEX_REKEY_DATA)) {
TRACE(("rekeying after timeout or max data reached"))
send_msg_kexinit();
}
if (opts.keepalive_secs > 0 && ses.authstate.authdone) {
/* Avoid sending keepalives prior to auth - those are
not valid pre-auth packet types */
/* Send keepalives if we've been idle */
if (now - ses.last_packet_time_any_sent >= opts.keepalive_secs) {
send_msg_keepalive();
}
/* Also send an explicit keepalive message to trigger a response
if the remote end hasn't sent us anything */
if (now - ses.last_packet_time_keepalive_recv >= opts.keepalive_secs
&& now - ses.last_packet_time_keepalive_sent >= opts.keepalive_secs) {
send_msg_keepalive();
}
if (now - ses.last_packet_time_keepalive_recv
>= opts.keepalive_secs * opts.keepalive_limit) {
dropbear_exit("Keepalive timeout");
}
}
if (opts.idle_timeout_secs > 0
&& now - ses.last_packet_time_idle >= opts.idle_timeout_secs) {
dropbear_close("Idle timeout");
}
}
static void update_timeout(long limit, long now, long last_event, long * timeout) {
TRACE2(("update_timeout limit %ld, now %ld, last %ld, timeout %ld",
limit, now, last_event, *timeout))
if (last_event > 0 && limit > 0) {
*timeout = MIN(*timeout, last_event+limit-now);
TRACE2(("new timeout %ld", *timeout))
}
}
static long select_timeout() {
/* determine the minimum timeout that might be required, so
as to avoid waking when unneccessary */
long timeout = KEX_REKEY_TIMEOUT;
long now = monotonic_now();
if (!ses.kexstate.sentkexinit) {
update_timeout(KEX_REKEY_TIMEOUT, now, ses.kexstate.lastkextime, &timeout);
}
if (ses.authstate.authdone != 1 && IS_DROPBEAR_SERVER) {
/* AUTH_TIMEOUT is only relevant before authdone */
update_timeout(AUTH_TIMEOUT, now, ses.connect_time, &timeout);
}
if (ses.authstate.authdone) {
update_timeout(opts.keepalive_secs, now,
MAX(ses.last_packet_time_keepalive_recv, ses.last_packet_time_keepalive_sent),
&timeout);
}
update_timeout(opts.idle_timeout_secs, now, ses.last_packet_time_idle,
&timeout);
/* clamp negative timeouts to zero - event has already triggered */
return MAX(timeout, 0);
}
const char* get_user_shell() {
/* an empty shell should be interpreted as "/bin/sh" */
if (ses.authstate.pw_shell[0] == '\0') {
return "/bin/sh";
} else {
return ses.authstate.pw_shell;
}
}
void fill_passwd(const char* username) {
struct passwd *pw = NULL;
if (ses.authstate.pw_name)
m_free(ses.authstate.pw_name);
if (ses.authstate.pw_dir)
m_free(ses.authstate.pw_dir);
if (ses.authstate.pw_shell)
m_free(ses.authstate.pw_shell);
if (ses.authstate.pw_passwd)
m_free(ses.authstate.pw_passwd);
pw = getpwnam(username);
if (!pw) {
return;
}
ses.authstate.pw_uid = pw->pw_uid;
ses.authstate.pw_gid = pw->pw_gid;
ses.authstate.pw_name = m_strdup(pw->pw_name);
ses.authstate.pw_dir = m_strdup(pw->pw_dir);
ses.authstate.pw_shell = m_strdup(pw->pw_shell);
{
char *passwd_crypt = pw->pw_passwd;
#ifdef HAVE_SHADOW_H
/* get the shadow password if possible */
struct spwd *spasswd = getspnam(ses.authstate.pw_name);
if (spasswd && spasswd->sp_pwdp) {
passwd_crypt = spasswd->sp_pwdp;
}
#endif
if (!passwd_crypt) {
/* android supposedly returns NULL */
passwd_crypt = "!!";
}
ses.authstate.pw_passwd = m_strdup(passwd_crypt);
}
}
/* Called when channels are modified */
void update_channel_prio() {
enum dropbear_prio new_prio;
int any = 0;
unsigned int i;
TRACE(("update_channel_prio"))
if (ses.sock_out < 0) {
TRACE(("leave update_channel_prio: no socket"))
return;
}
new_prio = DROPBEAR_PRIO_BULK;
for (i = 0; i < ses.chansize; i++) {
struct Channel *channel = ses.channels[i];
if (!channel || channel->prio == DROPBEAR_CHANNEL_PRIO_EARLY) {
if (channel && channel->prio == DROPBEAR_CHANNEL_PRIO_EARLY) {
TRACE(("update_channel_prio: early %d", channel->index))
}
continue;
}
any = 1;
if (channel->prio == DROPBEAR_CHANNEL_PRIO_INTERACTIVE)
{
TRACE(("update_channel_prio: lowdelay %d", channel->index))
new_prio = DROPBEAR_PRIO_LOWDELAY;
break;
} else if (channel->prio == DROPBEAR_CHANNEL_PRIO_UNKNOWABLE
&& new_prio == DROPBEAR_PRIO_BULK)
{
TRACE(("update_channel_prio: unknowable %d", channel->index))
new_prio = DROPBEAR_PRIO_DEFAULT;
}
}
if (any == 0) {
/* lowdelay during setup */
TRACE(("update_channel_prio: not any"))
new_prio = DROPBEAR_PRIO_LOWDELAY;
}
if (new_prio != ses.socket_prio) {
TRACE(("Dropbear priority transitioning %d -> %d", ses.socket_prio, new_prio))
set_sock_priority(ses.sock_out, new_prio);
ses.socket_prio = new_prio;
}
}