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|
/*
* OpenVPN -- An application to securely tunnel IP networks
* over a single TCP/UDP port, with support for SSL/TLS-based
* session authentication and key exchange,
* packet encryption, packet authentication, and
* packet compression.
*
* Copyright (C) 2002-2021 OpenVPN Inc <sales@openvpn.net>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2
* as published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#elif defined(_MSC_VER)
#include "config-msvc.h"
#endif
#include "syshead.h"
#include "forward.h"
#include "init.h"
#include "push.h"
#include "gremlin.h"
#include "mss.h"
#include "event.h"
#include "occ.h"
#include "pf.h"
#include "ping.h"
#include "ps.h"
#include "dhcp.h"
#include "common.h"
#include "ssl_verify.h"
#include "memdbg.h"
#include "mstats.h"
counter_type link_read_bytes_global; /* GLOBAL */
counter_type link_write_bytes_global; /* GLOBAL */
/* show event wait debugging info */
#ifdef ENABLE_DEBUG
const char *
wait_status_string(struct context *c, struct gc_arena *gc)
{
struct buffer out = alloc_buf_gc(64, gc);
buf_printf(&out, "I/O WAIT %s|%s|%s|%s %s",
tun_stat(c->c1.tuntap, EVENT_READ, gc),
tun_stat(c->c1.tuntap, EVENT_WRITE, gc),
socket_stat(c->c2.link_socket, EVENT_READ, gc),
socket_stat(c->c2.link_socket, EVENT_WRITE, gc),
tv_string(&c->c2.timeval, gc));
return BSTR(&out);
}
void
show_wait_status(struct context *c)
{
struct gc_arena gc = gc_new();
dmsg(D_EVENT_WAIT, "%s", wait_status_string(c, &gc));
gc_free(&gc);
}
#endif /* ifdef ENABLE_DEBUG */
/*
* TLS errors are fatal in TCP mode.
* Also check for --tls-exit trigger.
*/
static inline void
check_tls_errors(struct context *c)
{
if (c->c2.tls_multi && c->c2.tls_exit_signal)
{
if (link_socket_connection_oriented(c->c2.link_socket))
{
if (c->c2.tls_multi->n_soft_errors)
{
check_tls_errors_co(c);
}
}
else
{
if (c->c2.tls_multi->n_hard_errors)
{
check_tls_errors_nco(c);
}
}
}
}
/*
* Set our wakeup to 0 seconds, so we will be rescheduled
* immediately.
*/
static inline void
context_immediate_reschedule(struct context *c)
{
c->c2.timeval.tv_sec = 0; /* ZERO-TIMEOUT */
c->c2.timeval.tv_usec = 0;
}
static inline void
context_reschedule_sec(struct context *c, int sec)
{
if (sec < 0)
{
sec = 0;
}
if (sec < c->c2.timeval.tv_sec)
{
c->c2.timeval.tv_sec = sec;
c->c2.timeval.tv_usec = 0;
}
}
/*
* In TLS mode, let TLS level respond to any control-channel
* packets which were received, or prepare any packets for
* transmission.
*
* tmp_int is purely an optimization that allows us to call
* tls_multi_process less frequently when there's not much
* traffic on the control-channel.
*
*/
void
check_tls(struct context *c)
{
interval_t wakeup = BIG_TIMEOUT;
if (interval_test(&c->c2.tmp_int))
{
const int tmp_status = tls_multi_process
(c->c2.tls_multi, &c->c2.to_link, &c->c2.to_link_addr,
get_link_socket_info(c), &wakeup);
if (tmp_status == TLSMP_ACTIVE)
{
update_time();
interval_action(&c->c2.tmp_int);
}
else if (tmp_status == TLSMP_KILL)
{
register_signal(c, SIGTERM, "auth-control-exit");
}
interval_future_trigger(&c->c2.tmp_int, wakeup);
}
interval_schedule_wakeup(&c->c2.tmp_int, &wakeup);
if (wakeup)
{
context_reschedule_sec(c, wakeup);
}
}
void
check_tls_errors_co(struct context *c)
{
msg(D_STREAM_ERRORS, "Fatal TLS error (check_tls_errors_co), restarting");
register_signal(c, c->c2.tls_exit_signal, "tls-error"); /* SOFT-SIGUSR1 -- TLS error */
}
void
check_tls_errors_nco(struct context *c)
{
register_signal(c, c->c2.tls_exit_signal, "tls-error"); /* SOFT-SIGUSR1 -- TLS error */
}
#if P2MP
/*
* Handle incoming configuration
* messages on the control channel.
*/
void
check_incoming_control_channel(struct context *c)
{
int len = tls_test_payload_len(c->c2.tls_multi);
/* We should only be called with len >0 */
ASSERT(len > 0);
struct gc_arena gc = gc_new();
struct buffer buf = alloc_buf_gc(len, &gc);
if (tls_rec_payload(c->c2.tls_multi, &buf))
{
/* force null termination of message */
buf_null_terminate(&buf);
/* enforce character class restrictions */
string_mod(BSTR(&buf), CC_PRINT, CC_CRLF, 0);
if (buf_string_match_head_str(&buf, "AUTH_FAILED"))
{
receive_auth_failed(c, &buf);
}
else if (buf_string_match_head_str(&buf, "PUSH_"))
{
incoming_push_message(c, &buf);
}
else if (buf_string_match_head_str(&buf, "RESTART"))
{
server_pushed_signal(c, &buf, true, 7);
}
else if (buf_string_match_head_str(&buf, "HALT"))
{
server_pushed_signal(c, &buf, false, 4);
}
else if (buf_string_match_head_str(&buf, "INFO_PRE"))
{
server_pushed_info(c, &buf, 8);
}
else if (buf_string_match_head_str(&buf, "INFO"))
{
server_pushed_info(c, &buf, 4);
}
else if (buf_string_match_head_str(&buf, "CR_RESPONSE"))
{
receive_cr_response(c, &buf);
}
else
{
msg(D_PUSH_ERRORS, "WARNING: Received unknown control message: %s", BSTR(&buf));
}
}
else
{
msg(D_PUSH_ERRORS, "WARNING: Receive control message failed");
}
gc_free(&gc);
}
/*
* Periodically resend PUSH_REQUEST until PUSH message received
*/
void
check_push_request(struct context *c)
{
send_push_request(c);
/* if no response to first push_request, retry at PUSH_REQUEST_INTERVAL second intervals */
event_timeout_modify_wakeup(&c->c2.push_request_interval, PUSH_REQUEST_INTERVAL);
}
#endif /* P2MP */
/*
* Things that need to happen immediately after connection initiation should go here.
*
* Options like --up-delay need to be triggered by this function which
* checks for connection establishment.
*
* Note: The process_incoming_push_reply currently assumes that this function
* only sets up the pull request timer when pull is enabled.
*/
void
check_connection_established(struct context *c)
{
if (CONNECTION_ESTABLISHED(c))
{
#if P2MP
/* if --pull was specified, send a push request to server */
if (c->c2.tls_multi && c->options.pull)
{
#ifdef ENABLE_MANAGEMENT
if (management)
{
management_set_state(management,
OPENVPN_STATE_GET_CONFIG,
NULL,
NULL,
NULL,
NULL,
NULL);
}
#endif
/* fire up push request right away (already 1s delayed) */
event_timeout_init(&c->c2.push_request_interval, 0, now);
reset_coarse_timers(c);
}
else
#endif /* if P2MP */
{
do_up(c, false, 0);
}
event_timeout_clear(&c->c2.wait_for_connect);
}
}
bool
send_control_channel_string_dowork(struct tls_multi *multi,
const char *str, int msglevel)
{
struct gc_arena gc = gc_new();
bool stat;
/* buffered cleartext write onto TLS control channel */
stat = tls_send_payload(multi, (uint8_t *) str, strlen(str) + 1);
msg(msglevel, "SENT CONTROL [%s]: '%s' (status=%d)",
tls_common_name(multi, false),
sanitize_control_message(str, &gc),
(int) stat);
gc_free(&gc);
return stat;
}
bool
send_control_channel_string(struct context *c, const char *str, int msglevel)
{
if (c->c2.tls_multi)
{
bool ret = send_control_channel_string_dowork(c->c2.tls_multi,
str, msglevel);
/*
* Reschedule tls_multi_process.
* NOTE: in multi-client mode, usually the below two statements are
* insufficient to reschedule the client instance object unless
* multi_schedule_context_wakeup(m, mi) is also called.
*/
interval_action(&c->c2.tmp_int);
context_immediate_reschedule(c); /* ZERO-TIMEOUT */
return ret;
}
return true;
}
/*
* Add routes.
*/
static void
check_add_routes_action(struct context *c, const bool errors)
{
do_route(&c->options, c->c1.route_list, c->c1.route_ipv6_list,
c->c1.tuntap, c->plugins, c->c2.es, &c->net_ctx);
update_time();
event_timeout_clear(&c->c2.route_wakeup);
event_timeout_clear(&c->c2.route_wakeup_expire);
initialization_sequence_completed(c, errors ? ISC_ERRORS : 0); /* client/p2p --route-delay was defined */
}
void
check_add_routes(struct context *c)
{
if (test_routes(c->c1.route_list, c->c1.tuntap))
{
check_add_routes_action(c, false);
}
else if (event_timeout_trigger(&c->c2.route_wakeup_expire, &c->c2.timeval, ETT_DEFAULT))
{
check_add_routes_action(c, true);
}
else
{
msg(D_ROUTE, "Route: Waiting for TUN/TAP interface to come up...");
if (c->c1.tuntap)
{
if (!tun_standby(c->c1.tuntap))
{
register_signal(c, SIGHUP, "ip-fail");
c->persist.restart_sleep_seconds = 10;
#ifdef _WIN32
show_routes(M_INFO|M_NOPREFIX);
show_adapters(M_INFO|M_NOPREFIX);
#endif
}
}
update_time();
if (c->c2.route_wakeup.n != 1)
{
event_timeout_init(&c->c2.route_wakeup, 1, now);
}
event_timeout_reset(&c->c2.ping_rec_interval);
}
}
/*
* Should we exit due to inactivity timeout?
*/
void
check_inactivity_timeout(struct context *c)
{
msg(M_INFO, "Inactivity timeout (--inactive), exiting");
register_signal(c, SIGTERM, "inactive");
}
int
get_server_poll_remaining_time(struct event_timeout *server_poll_timeout)
{
update_time();
int remaining = event_timeout_remaining(server_poll_timeout);
return max_int(0, remaining);
}
#if P2MP
void
check_server_poll_timeout(struct context *c)
{
event_timeout_reset(&c->c2.server_poll_interval);
ASSERT(c->c2.tls_multi);
if (!tls_initial_packet_received(c->c2.tls_multi))
{
msg(M_INFO, "Server poll timeout, restarting");
register_signal(c, SIGUSR1, "server_poll");
c->persist.restart_sleep_seconds = -1;
}
}
/*
* Schedule a signal n_seconds from now.
*/
void
schedule_exit(struct context *c, const int n_seconds, const int signal)
{
tls_set_single_session(c->c2.tls_multi);
update_time();
reset_coarse_timers(c);
event_timeout_init(&c->c2.scheduled_exit, n_seconds, now);
c->c2.scheduled_exit_signal = signal;
msg(D_SCHED_EXIT, "Delayed exit in %d seconds", n_seconds);
}
/*
* Scheduled exit?
*/
void
check_scheduled_exit(struct context *c)
{
register_signal(c, c->c2.scheduled_exit_signal, "delayed-exit");
}
#endif /* if P2MP */
/*
* Should we write timer-triggered status file.
*/
void
check_status_file(struct context *c)
{
if (c->c1.status_output)
{
print_status(c, c->c1.status_output);
}
}
#ifdef ENABLE_FRAGMENT
/*
* Should we deliver a datagram fragment to remote?
*/
void
check_fragment(struct context *c)
{
struct link_socket_info *lsi = get_link_socket_info(c);
/* OS MTU Hint? */
if (lsi->mtu_changed)
{
frame_adjust_path_mtu(&c->c2.frame_fragment, c->c2.link_socket->mtu,
c->options.ce.proto);
lsi->mtu_changed = false;
}
if (fragment_outgoing_defined(c->c2.fragment))
{
if (!c->c2.to_link.len)
{
/* encrypt a fragment for output to TCP/UDP port */
ASSERT(fragment_ready_to_send(c->c2.fragment, &c->c2.buf, &c->c2.frame_fragment));
encrypt_sign(c, false);
}
}
fragment_housekeeping(c->c2.fragment, &c->c2.frame_fragment, &c->c2.timeval);
}
#endif /* ifdef ENABLE_FRAGMENT */
/*
* Buffer reallocation, for use with null encryption.
*/
static inline void
buffer_turnover(const uint8_t *orig_buf, struct buffer *dest_stub, struct buffer *src_stub, struct buffer *storage)
{
if (orig_buf == src_stub->data && src_stub->data != storage->data)
{
buf_assign(storage, src_stub);
*dest_stub = *storage;
}
else
{
*dest_stub = *src_stub;
}
}
/*
* Compress, fragment, encrypt and HMAC-sign an outgoing packet.
* Input: c->c2.buf
* Output: c->c2.to_link
*/
void
encrypt_sign(struct context *c, bool comp_frag)
{
struct context_buffers *b = c->c2.buffers;
const uint8_t *orig_buf = c->c2.buf.data;
struct crypto_options *co = NULL;
/*
* Drop non-TLS outgoing packet if client-connect script/plugin
* has not yet succeeded. In non-TLS mode tls_multi is not defined
* and we always pass packets.
*/
if (c->c2.tls_multi && c->c2.tls_multi->multi_state != CAS_SUCCEEDED)
{
c->c2.buf.len = 0;
}
if (comp_frag)
{
#ifdef USE_COMP
/* Compress the packet. */
if (c->c2.comp_context)
{
(*c->c2.comp_context->alg.compress)(&c->c2.buf, b->compress_buf, c->c2.comp_context, &c->c2.frame);
}
#endif
#ifdef ENABLE_FRAGMENT
if (c->c2.fragment)
{
fragment_outgoing(c->c2.fragment, &c->c2.buf, &c->c2.frame_fragment);
}
#endif
}
/* initialize work buffer with FRAME_HEADROOM bytes of prepend capacity */
ASSERT(buf_init(&b->encrypt_buf, FRAME_HEADROOM(&c->c2.frame)));
if (c->c2.tls_multi)
{
/* Get the key we will use to encrypt the packet. */
tls_pre_encrypt(c->c2.tls_multi, &c->c2.buf, &co);
/* If using P_DATA_V2, prepend the 1-byte opcode and 3-byte peer-id to the
* packet before openvpn_encrypt(), so we can authenticate the opcode too.
*/
if (c->c2.buf.len > 0 && c->c2.tls_multi->use_peer_id)
{
tls_prepend_opcode_v2(c->c2.tls_multi, &b->encrypt_buf);
}
}
else
{
co = &c->c2.crypto_options;
}
/* Encrypt and authenticate the packet */
openvpn_encrypt(&c->c2.buf, b->encrypt_buf, co);
/* Do packet administration */
if (c->c2.tls_multi)
{
if (c->c2.buf.len > 0 && !c->c2.tls_multi->use_peer_id)
{
tls_prepend_opcode_v1(c->c2.tls_multi, &c->c2.buf);
}
tls_post_encrypt(c->c2.tls_multi, &c->c2.buf);
}
/*
* Get the address we will be sending the packet to.
*/
link_socket_get_outgoing_addr(&c->c2.buf, get_link_socket_info(c),
&c->c2.to_link_addr);
/* if null encryption, copy result to read_tun_buf */
buffer_turnover(orig_buf, &c->c2.to_link, &c->c2.buf, &b->read_tun_buf);
}
/*
* Coarse timers work to 1 second resolution.
*/
static void
process_coarse_timers(struct context *c)
{
/* flush current packet-id to file once per 60
* seconds if --replay-persist was specified */
if (packet_id_persist_enabled(&c->c1.pid_persist)
&& event_timeout_trigger(&c->c2.packet_id_persist_interval, &c->c2.timeval, ETT_DEFAULT))
{
packet_id_persist_save(&c->c1.pid_persist);
}
/* Should we write timer-triggered status file */
if (c->c1.status_output
&& event_timeout_trigger(&c->c1.status_output->et, &c->c2.timeval, ETT_DEFAULT))
{
check_status_file(c);
}
/* process connection establishment items */
if (event_timeout_trigger(&c->c2.wait_for_connect, &c->c2.timeval, ETT_DEFAULT))
{
check_connection_established(c);
}
#if P2MP
/* see if we should send a push_request (option --pull) */
if (event_timeout_trigger(&c->c2.push_request_interval, &c->c2.timeval, ETT_DEFAULT))
{
check_push_request(c);
}
#endif
#ifdef PLUGIN_PF
if (c->c2.pf.enabled
&& event_timeout_trigger(&c->c2.pf.reload, &c->c2.timeval, ETT_DEFAULT))
{
pf_check_reload(c);
}
#endif
/* process --route options */
if (event_timeout_trigger(&c->c2.route_wakeup, &c->c2.timeval, ETT_DEFAULT))
{
check_add_routes(c);
}
/* possibly exit due to --inactive */
if (c->options.inactivity_timeout
&& event_timeout_trigger(&c->c2.inactivity_interval, &c->c2.timeval, ETT_DEFAULT))
{
check_inactivity_timeout(c);
}
if (c->sig->signal_received)
{
return;
}
/* restart if ping not received */
check_ping_restart(c);
if (c->sig->signal_received)
{
return;
}
#if P2MP
if (c->c2.tls_multi)
{
if (c->options.ce.connect_timeout
&& event_timeout_trigger(&c->c2.server_poll_interval, &c->c2.timeval, ETT_DEFAULT))
{
check_server_poll_timeout(c);
}
if (c->sig->signal_received)
{
return;
}
if (event_timeout_trigger(&c->c2.scheduled_exit, &c->c2.timeval, ETT_DEFAULT))
{
check_scheduled_exit(c);
}
if (c->sig->signal_received)
{
return;
}
}
#endif
/* Should we send an OCC_REQUEST message? */
check_send_occ_req(c);
/* Should we send an MTU load test? */
check_send_occ_load_test(c);
/* Should we send an OCC_EXIT message to remote? */
if (c->c2.explicit_exit_notification_time_wait)
{
process_explicit_exit_notification_timer_wakeup(c);
}
/* Should we ping the remote? */
check_ping_send(c);
}
static void
check_coarse_timers(struct context *c)
{
if (now < c->c2.coarse_timer_wakeup)
{
context_reschedule_sec(c, c->c2.coarse_timer_wakeup - now);
return;
}
const struct timeval save = c->c2.timeval;
c->c2.timeval.tv_sec = BIG_TIMEOUT;
c->c2.timeval.tv_usec = 0;
process_coarse_timers(c);
c->c2.coarse_timer_wakeup = now + c->c2.timeval.tv_sec;
dmsg(D_INTERVAL, "TIMER: coarse timer wakeup %" PRIi64 " seconds", (int64_t)c->c2.timeval.tv_sec);
/* Is the coarse timeout NOT the earliest one? */
if (c->c2.timeval.tv_sec > save.tv_sec)
{
c->c2.timeval = save;
}
}
static void
check_timeout_random_component_dowork(struct context *c)
{
const int update_interval = 10; /* seconds */
c->c2.update_timeout_random_component = now + update_interval;
c->c2.timeout_random_component.tv_usec = (time_t) get_random() & 0x0003FFFF;
c->c2.timeout_random_component.tv_sec = 0;
dmsg(D_INTERVAL, "RANDOM USEC=%ld", (long) c->c2.timeout_random_component.tv_usec);
}
static inline void
check_timeout_random_component(struct context *c)
{
if (now >= c->c2.update_timeout_random_component)
{
check_timeout_random_component_dowork(c);
}
if (c->c2.timeval.tv_sec >= 1)
{
tv_add(&c->c2.timeval, &c->c2.timeout_random_component);
}
}
/*
* Handle addition and removal of the 10-byte Socks5 header
* in UDP packets.
*/
static inline void
socks_postprocess_incoming_link(struct context *c)
{
if (c->c2.link_socket->socks_proxy && c->c2.link_socket->info.proto == PROTO_UDP)
{
socks_process_incoming_udp(&c->c2.buf, &c->c2.from);
}
}
static inline void
socks_preprocess_outgoing_link(struct context *c,
struct link_socket_actual **to_addr,
int *size_delta)
{
if (c->c2.link_socket->socks_proxy && c->c2.link_socket->info.proto == PROTO_UDP)
{
*size_delta += socks_process_outgoing_udp(&c->c2.to_link, c->c2.to_link_addr);
*to_addr = &c->c2.link_socket->socks_relay;
}
}
/* undo effect of socks_preprocess_outgoing_link */
static inline void
link_socket_write_post_size_adjust(int *size,
int size_delta,
struct buffer *buf)
{
if (size_delta > 0 && *size > size_delta)
{
*size -= size_delta;
if (!buf_advance(buf, size_delta))
{
*size = 0;
}
}
}
/*
* Output: c->c2.buf
*/
void
read_incoming_link(struct context *c)
{
/*
* Set up for recvfrom call to read datagram
* sent to our TCP/UDP port.
*/
int status;
/*ASSERT (!c->c2.to_tun.len);*/
perf_push(PERF_READ_IN_LINK);
c->c2.buf = c->c2.buffers->read_link_buf;
ASSERT(buf_init(&c->c2.buf, FRAME_HEADROOM_ADJ(&c->c2.frame, FRAME_HEADROOM_MARKER_READ_LINK)));
status = link_socket_read(c->c2.link_socket,
&c->c2.buf,
&c->c2.from);
if (socket_connection_reset(c->c2.link_socket, status))
{
#if PORT_SHARE
if (port_share && socket_foreign_protocol_detected(c->c2.link_socket))
{
const struct buffer *fbuf = socket_foreign_protocol_head(c->c2.link_socket);
const int sd = socket_foreign_protocol_sd(c->c2.link_socket);
port_share_redirect(port_share, fbuf, sd);
register_signal(c, SIGTERM, "port-share-redirect");
}
else
#endif
{
/* received a disconnect from a connection-oriented protocol */
if (c->options.inetd)
{
register_signal(c, SIGTERM, "connection-reset-inetd");
msg(D_STREAM_ERRORS, "Connection reset, inetd/xinetd exit [%d]", status);
}
else
{
if (event_timeout_defined(&c->c2.explicit_exit_notification_interval))
{
msg(D_STREAM_ERRORS, "Connection reset during exit notification period, ignoring [%d]", status);
management_sleep(1);
}
else
{
register_signal(c, SIGUSR1, "connection-reset"); /* SOFT-SIGUSR1 -- TCP connection reset */
msg(D_STREAM_ERRORS, "Connection reset, restarting [%d]", status);
}
}
}
perf_pop();
return;
}
/* check recvfrom status */
check_status(status, "read", c->c2.link_socket, NULL);
/* Remove socks header if applicable */
socks_postprocess_incoming_link(c);
perf_pop();
}
bool
process_incoming_link_part1(struct context *c, struct link_socket_info *lsi, bool floated)
{
struct gc_arena gc = gc_new();
bool decrypt_status = false;
if (c->c2.buf.len > 0)
{
c->c2.link_read_bytes += c->c2.buf.len;
link_read_bytes_global += c->c2.buf.len;
#ifdef ENABLE_MEMSTATS
if (mmap_stats)
{
mmap_stats->link_read_bytes = link_read_bytes_global;
}
#endif
c->c2.original_recv_size = c->c2.buf.len;
#ifdef ENABLE_MANAGEMENT
if (management)
{
management_bytes_in(management, c->c2.buf.len);
#ifdef MANAGEMENT_DEF_AUTH
management_bytes_server(management, &c->c2.link_read_bytes, &c->c2.link_write_bytes, &c->c2.mda_context);
#endif
}
#endif
}
else
{
c->c2.original_recv_size = 0;
}
#ifdef ENABLE_DEBUG
/* take action to corrupt packet if we are in gremlin test mode */
if (c->options.gremlin)
{
if (!ask_gremlin(c->options.gremlin))
{
c->c2.buf.len = 0;
}
corrupt_gremlin(&c->c2.buf, c->options.gremlin);
}
#endif
/* log incoming packet */
#ifdef LOG_RW
if (c->c2.log_rw && c->c2.buf.len > 0)
{
fprintf(stderr, "R");
}
#endif
msg(D_LINK_RW, "%s READ [%d] from %s: %s",
proto2ascii(lsi->proto, lsi->af, true),
BLEN(&c->c2.buf),
print_link_socket_actual(&c->c2.from, &gc),
PROTO_DUMP(&c->c2.buf, &gc));
/*
* Good, non-zero length packet received.
* Commence multi-stage processing of packet,
* such as authenticate, decrypt, decompress.
* If any stage fails, it sets buf.len to 0 or -1,
* telling downstream stages to ignore the packet.
*/
if (c->c2.buf.len > 0)
{
struct crypto_options *co = NULL;
const uint8_t *ad_start = NULL;
if (!link_socket_verify_incoming_addr(&c->c2.buf, lsi, &c->c2.from))
{
link_socket_bad_incoming_addr(&c->c2.buf, lsi, &c->c2.from);
}
if (c->c2.tls_multi)
{
/*
* If tls_pre_decrypt returns true, it means the incoming
* packet was a good TLS control channel packet. If so, TLS code
* will deal with the packet and set buf.len to 0 so downstream
* stages ignore it.
*
* If the packet is a data channel packet, tls_pre_decrypt
* will load crypto_options with the correct encryption key
* and return false.
*/
uint8_t opcode = *BPTR(&c->c2.buf) >> P_OPCODE_SHIFT;
if (tls_pre_decrypt(c->c2.tls_multi, &c->c2.from, &c->c2.buf, &co,
floated, &ad_start))
{
/* Restore pre-NCP frame parameters */
if (is_hard_reset_method2(opcode))
{
c->c2.frame = c->c2.frame_initial;
#ifdef ENABLE_FRAGMENT
c->c2.frame_fragment = c->c2.frame_fragment_initial;
#endif
}
interval_action(&c->c2.tmp_int);
/* reset packet received timer if TLS packet */
if (c->options.ping_rec_timeout)
{
event_timeout_reset(&c->c2.ping_rec_interval);
}
}
}
else
{
co = &c->c2.crypto_options;
}
/*
* Drop non-TLS packet if client-connect script/plugin and cipher selection
* has not yet succeeded. In non-TLS mode tls_multi is not defined
* and we always pass packets.
*/
if (c->c2.tls_multi && c->c2.tls_multi->multi_state != CAS_SUCCEEDED)
{
c->c2.buf.len = 0;
}
/* authenticate and decrypt the incoming packet */
decrypt_status = openvpn_decrypt(&c->c2.buf, c->c2.buffers->decrypt_buf,
co, &c->c2.frame, ad_start);
if (!decrypt_status && link_socket_connection_oriented(c->c2.link_socket))
{
/* decryption errors are fatal in TCP mode */
register_signal(c, SIGUSR1, "decryption-error"); /* SOFT-SIGUSR1 -- decryption error in TCP mode */
msg(D_STREAM_ERRORS, "Fatal decryption error (process_incoming_link), restarting");
}
}
else
{
buf_reset(&c->c2.to_tun);
}
gc_free(&gc);
return decrypt_status;
}
void
process_incoming_link_part2(struct context *c, struct link_socket_info *lsi, const uint8_t *orig_buf)
{
if (c->c2.buf.len > 0)
{
#ifdef ENABLE_FRAGMENT
if (c->c2.fragment)
{
fragment_incoming(c->c2.fragment, &c->c2.buf, &c->c2.frame_fragment);
}
#endif
#ifdef USE_COMP
/* decompress the incoming packet */
if (c->c2.comp_context)
{
(*c->c2.comp_context->alg.decompress)(&c->c2.buf, c->c2.buffers->decompress_buf, c->c2.comp_context, &c->c2.frame);
}
#endif
#ifdef PACKET_TRUNCATION_CHECK
/* if (c->c2.buf.len > 1) --c->c2.buf.len; */
ipv4_packet_size_verify(BPTR(&c->c2.buf),
BLEN(&c->c2.buf),
TUNNEL_TYPE(c->c1.tuntap),
"POST_DECRYPT",
&c->c2.n_trunc_post_decrypt);
#endif
/*
* Set our "official" outgoing address, since
* if buf.len is non-zero, we know the packet
* authenticated. In TLS mode we do nothing
* because TLS mode takes care of source address
* authentication.
*
* Also, update the persisted version of our packet-id.
*/
if (!TLS_MODE(c) && c->c2.buf.len > 0)
{
link_socket_set_outgoing_addr(lsi, &c->c2.from, NULL, c->c2.es);
}
/* reset packet received timer */
if (c->options.ping_rec_timeout && c->c2.buf.len > 0)
{
event_timeout_reset(&c->c2.ping_rec_interval);
}
/* increment authenticated receive byte count */
if (c->c2.buf.len > 0)
{
c->c2.link_read_bytes_auth += c->c2.buf.len;
c->c2.max_recv_size_local = max_int(c->c2.original_recv_size, c->c2.max_recv_size_local);
}
/* Did we just receive an openvpn ping packet? */
if (is_ping_msg(&c->c2.buf))
{
dmsg(D_PING, "RECEIVED PING PACKET");
c->c2.buf.len = 0; /* drop packet */
}
/* Did we just receive an OCC packet? */
if (is_occ_msg(&c->c2.buf))
{
process_received_occ_msg(c);
}
buffer_turnover(orig_buf, &c->c2.to_tun, &c->c2.buf, &c->c2.buffers->read_link_buf);
/* to_tun defined + unopened tuntap can cause deadlock */
if (!tuntap_defined(c->c1.tuntap))
{
c->c2.to_tun.len = 0;
}
}
else
{
buf_reset(&c->c2.to_tun);
}
}
static void
process_incoming_link(struct context *c)
{
perf_push(PERF_PROC_IN_LINK);
struct link_socket_info *lsi = get_link_socket_info(c);
const uint8_t *orig_buf = c->c2.buf.data;
process_incoming_link_part1(c, lsi, false);
process_incoming_link_part2(c, lsi, orig_buf);
perf_pop();
}
/*
* Output: c->c2.buf
*/
void
read_incoming_tun(struct context *c)
{
/*
* Setup for read() call on TUN/TAP device.
*/
/*ASSERT (!c->c2.to_link.len);*/
perf_push(PERF_READ_IN_TUN);
c->c2.buf = c->c2.buffers->read_tun_buf;
#ifdef _WIN32
if (c->c1.tuntap->windows_driver == WINDOWS_DRIVER_WINTUN)
{
read_wintun(c->c1.tuntap, &c->c2.buf);
if (c->c2.buf.len == -1)
{
register_signal(c, SIGHUP, "tun-abort");
c->persist.restart_sleep_seconds = 1;
msg(M_INFO, "Wintun read error, restarting");
perf_pop();
return;
}
}
else
{
read_tun_buffered(c->c1.tuntap, &c->c2.buf);
}
#else /* ifdef _WIN32 */
ASSERT(buf_init(&c->c2.buf, FRAME_HEADROOM(&c->c2.frame)));
ASSERT(buf_safe(&c->c2.buf, MAX_RW_SIZE_TUN(&c->c2.frame)));
c->c2.buf.len = read_tun(c->c1.tuntap, BPTR(&c->c2.buf), MAX_RW_SIZE_TUN(&c->c2.frame));
#endif /* ifdef _WIN32 */
#ifdef PACKET_TRUNCATION_CHECK
ipv4_packet_size_verify(BPTR(&c->c2.buf),
BLEN(&c->c2.buf),
TUNNEL_TYPE(c->c1.tuntap),
"READ_TUN",
&c->c2.n_trunc_tun_read);
#endif
/* Was TUN/TAP interface stopped? */
if (tuntap_stop(c->c2.buf.len))
{
register_signal(c, SIGTERM, "tun-stop");
msg(M_INFO, "TUN/TAP interface has been stopped, exiting");
perf_pop();
return;
}
/* Was TUN/TAP I/O operation aborted? */
if (tuntap_abort(c->c2.buf.len))
{
register_signal(c, SIGHUP, "tun-abort");
c->persist.restart_sleep_seconds = 10;
msg(M_INFO, "TUN/TAP I/O operation aborted, restarting");
perf_pop();
return;
}
/* Check the status return from read() */
check_status(c->c2.buf.len, "read from TUN/TAP", NULL, c->c1.tuntap);
perf_pop();
}
/**
* Drops UDP packets which OS decided to route via tun.
*
* On Windows and OS X when netwotk adapter is disabled or
* disconnected, platform starts to use tun as external interface.
* When packet is sent to tun, it comes to openvpn, encapsulated
* and sent to routing table, which sends it again to tun.
*/
static void
drop_if_recursive_routing(struct context *c, struct buffer *buf)
{
bool drop = false;
struct openvpn_sockaddr tun_sa;
int ip_hdr_offset = 0;
if (c->c2.to_link_addr == NULL) /* no remote addr known */
{
return;
}
tun_sa = c->c2.to_link_addr->dest;
int proto_ver = get_tun_ip_ver(TUNNEL_TYPE(c->c1.tuntap), &c->c2.buf, &ip_hdr_offset);
if (proto_ver == 4)
{
const struct openvpn_iphdr *pip;
/* make sure we got whole IP header */
if (BLEN(buf) < ((int) sizeof(struct openvpn_iphdr) + ip_hdr_offset))
{
return;
}
/* skip ipv4 packets for ipv6 tun */
if (tun_sa.addr.sa.sa_family != AF_INET)
{
return;
}
pip = (struct openvpn_iphdr *) (BPTR(buf) + ip_hdr_offset);
/* drop packets with same dest addr as gateway */
if (tun_sa.addr.in4.sin_addr.s_addr == pip->daddr)
{
drop = true;
}
}
else if (proto_ver == 6)
{
const struct openvpn_ipv6hdr *pip6;
/* make sure we got whole IPv6 header */
if (BLEN(buf) < ((int) sizeof(struct openvpn_ipv6hdr) + ip_hdr_offset))
{
return;
}
/* skip ipv6 packets for ipv4 tun */
if (tun_sa.addr.sa.sa_family != AF_INET6)
{
return;
}
/* drop packets with same dest addr as gateway */
pip6 = (struct openvpn_ipv6hdr *) (BPTR(buf) + ip_hdr_offset);
if (IN6_ARE_ADDR_EQUAL(&tun_sa.addr.in6.sin6_addr, &pip6->daddr))
{
drop = true;
}
}
if (drop)
{
struct gc_arena gc = gc_new();
c->c2.buf.len = 0;
msg(D_LOW, "Recursive routing detected, drop tun packet to %s",
print_link_socket_actual(c->c2.to_link_addr, &gc));
gc_free(&gc);
}
}
/*
* Input: c->c2.buf
* Output: c->c2.to_link
*/
void
process_incoming_tun(struct context *c)
{
struct gc_arena gc = gc_new();
perf_push(PERF_PROC_IN_TUN);
if (c->c2.buf.len > 0)
{
c->c2.tun_read_bytes += c->c2.buf.len;
}
#ifdef LOG_RW
if (c->c2.log_rw && c->c2.buf.len > 0)
{
fprintf(stderr, "r");
}
#endif
/* Show packet content */
dmsg(D_TUN_RW, "TUN READ [%d]", BLEN(&c->c2.buf));
if (c->c2.buf.len > 0)
{
if ((c->options.mode == MODE_POINT_TO_POINT) && (!c->options.allow_recursive_routing))
{
drop_if_recursive_routing(c, &c->c2.buf);
}
/*
* The --passtos and --mssfix options require
* us to examine the IP header (IPv4 or IPv6).
*/
unsigned int flags = PIPV4_PASSTOS | PIP_MSSFIX | PIPV4_CLIENT_NAT
| PIPV6_IMCP_NOHOST_CLIENT;
process_ip_header(c, flags, &c->c2.buf);
#ifdef PACKET_TRUNCATION_CHECK
/* if (c->c2.buf.len > 1) --c->c2.buf.len; */
ipv4_packet_size_verify(BPTR(&c->c2.buf),
BLEN(&c->c2.buf),
TUNNEL_TYPE(c->c1.tuntap),
"PRE_ENCRYPT",
&c->c2.n_trunc_pre_encrypt);
#endif
}
if (c->c2.buf.len > 0)
{
encrypt_sign(c, true);
}
else
{
buf_reset(&c->c2.to_link);
}
perf_pop();
gc_free(&gc);
}
/**
* Forges a IPv6 ICMP packet with a no route to host error code from the
* IPv6 packet in buf and sends it directly back to the client via the tun
* device when used on a client and via the link if used on the server.
*
* @param buf - The buf containing the packet for which the icmp6
* unreachable should be constructed.
*
* @param client - determines whether to the send packet back via tun or link
*/
void
ipv6_send_icmp_unreachable(struct context *c, struct buffer *buf, bool client)
{
#define MAX_ICMPV6LEN 1280
struct openvpn_icmp6hdr icmp6out;
CLEAR(icmp6out);
/*
* Get a buffer to the ip packet, is_ipv6 automatically forwards
* the buffer to the ip packet
*/
struct buffer inputipbuf = *buf;
is_ipv6(TUNNEL_TYPE(c->c1.tuntap), &inputipbuf);
if (BLEN(&inputipbuf) < (int)sizeof(struct openvpn_ipv6hdr))
{
return;
}
const struct openvpn_ipv6hdr *pip6 = (struct openvpn_ipv6hdr *)BPTR(&inputipbuf);
/* Copy version, traffic class, flow label from input packet */
struct openvpn_ipv6hdr pip6out = *pip6;
pip6out.version_prio = pip6->version_prio;
pip6out.daddr = pip6->saddr;
/*
* Use the IPv6 remote address if we have one, otherwise use a fake one
* using the remote address is preferred since it makes debugging and
* understanding where the ICMPv6 error originates easier
*/
if (c->options.ifconfig_ipv6_remote)
{
inet_pton(AF_INET6, c->options.ifconfig_ipv6_remote, &pip6out.saddr);
}
else
{
inet_pton(AF_INET6, "fe80::7", &pip6out.saddr);
}
pip6out.nexthdr = OPENVPN_IPPROTO_ICMPV6;
/*
* The ICMPv6 unreachable code worked best in my (arne) tests with Windows,
* Linux and Android. Windows did not like the administratively prohibited
* return code (no fast fail)
*/
icmp6out.icmp6_type = OPENVPN_ICMP6_DESTINATION_UNREACHABLE;
icmp6out.icmp6_code = OPENVPN_ICMP6_DU_NOROUTE;
int icmpheader_len = sizeof(struct openvpn_ipv6hdr)
+ sizeof(struct openvpn_icmp6hdr);
int totalheader_len = icmpheader_len;
if (TUNNEL_TYPE(c->c1.tuntap) == DEV_TYPE_TAP)
{
totalheader_len += sizeof(struct openvpn_ethhdr);
}
/*
* Calculate size for payload, defined in the standard that the resulting
* frame should be <= 1280 and have as much as possible of the original
* packet
*/
int max_payload_size = min_int(MAX_ICMPV6LEN,
TUN_MTU_SIZE(&c->c2.frame) - icmpheader_len);
int payload_len = min_int(max_payload_size, BLEN(&inputipbuf));
pip6out.payload_len = htons(sizeof(struct openvpn_icmp6hdr) + payload_len);
/* Construct the packet as outgoing packet back to the client */
struct buffer *outbuf;
if (client)
{
c->c2.to_tun = c->c2.buffers->aux_buf;
outbuf = &(c->c2.to_tun);
}
else
{
c->c2.to_link = c->c2.buffers->aux_buf;
outbuf = &(c->c2.to_link);
}
ASSERT(buf_init(outbuf, totalheader_len));
/* Fill the end of the buffer with original packet */
ASSERT(buf_safe(outbuf, payload_len));
ASSERT(buf_copy_n(outbuf, &inputipbuf, payload_len));
/* ICMP Header, copy into buffer to allow checksum calculation */
ASSERT(buf_write_prepend(outbuf, &icmp6out, sizeof(struct openvpn_icmp6hdr)));
/* Calculate checksum over the packet and write to header */
uint16_t new_csum = ip_checksum(AF_INET6, BPTR(outbuf), BLEN(outbuf),
(const uint8_t *)&pip6out.saddr,
(uint8_t *)&pip6out.daddr, OPENVPN_IPPROTO_ICMPV6);
((struct openvpn_icmp6hdr *) BPTR(outbuf))->icmp6_cksum = htons(new_csum);
/* IPv6 Header */
ASSERT(buf_write_prepend(outbuf, &pip6out, sizeof(struct openvpn_ipv6hdr)));
/*
* Tap mode, we also need to create an Ethernet header.
*/
if (TUNNEL_TYPE(c->c1.tuntap) == DEV_TYPE_TAP)
{
if (BLEN(buf) < (int)sizeof(struct openvpn_ethhdr))
{
return;
}
const struct openvpn_ethhdr *orig_ethhdr = (struct openvpn_ethhdr *) BPTR(buf);
/* Copy frametype and reverse source/destination for the response */
struct openvpn_ethhdr ethhdr;
memcpy(ethhdr.source, orig_ethhdr->dest, OPENVPN_ETH_ALEN);
memcpy(ethhdr.dest, orig_ethhdr->source, OPENVPN_ETH_ALEN);
ethhdr.proto = htons(OPENVPN_ETH_P_IPV6);
ASSERT(buf_write_prepend(outbuf, ðhdr, sizeof(struct openvpn_ethhdr)));
}
#undef MAX_ICMPV6LEN
}
void
process_ip_header(struct context *c, unsigned int flags, struct buffer *buf)
{
if (!c->options.ce.mssfix)
{
flags &= ~PIP_MSSFIX;
}
#if PASSTOS_CAPABILITY
if (!c->options.passtos)
{
flags &= ~PIPV4_PASSTOS;
}
#endif
if (!c->options.client_nat)
{
flags &= ~PIPV4_CLIENT_NAT;
}
if (!c->options.route_gateway_via_dhcp)
{
flags &= ~PIPV4_EXTRACT_DHCP_ROUTER;
}
if (!c->options.block_ipv6)
{
flags &= ~(PIPV6_IMCP_NOHOST_CLIENT | PIPV6_IMCP_NOHOST_SERVER);
}
if (buf->len > 0)
{
/*
* The --passtos and --mssfix options require
* us to examine the IPv4 header.
*/
if (flags & (PIP_MSSFIX
#if PASSTOS_CAPABILITY
| PIPV4_PASSTOS
#endif
| PIPV4_CLIENT_NAT
))
{
struct buffer ipbuf = *buf;
if (is_ipv4(TUNNEL_TYPE(c->c1.tuntap), &ipbuf))
{
#if PASSTOS_CAPABILITY
/* extract TOS from IP header */
if (flags & PIPV4_PASSTOS)
{
link_socket_extract_tos(c->c2.link_socket, &ipbuf);
}
#endif
/* possibly alter the TCP MSS */
if (flags & PIP_MSSFIX)
{
mss_fixup_ipv4(&ipbuf, MTU_TO_MSS(TUN_MTU_SIZE_DYNAMIC(&c->c2.frame)));
}
/* possibly do NAT on packet */
if ((flags & PIPV4_CLIENT_NAT) && c->options.client_nat)
{
const int direction = (flags & PIP_OUTGOING) ? CN_INCOMING : CN_OUTGOING;
client_nat_transform(c->options.client_nat, &ipbuf, direction);
}
/* possibly extract a DHCP router message */
if (flags & PIPV4_EXTRACT_DHCP_ROUTER)
{
const in_addr_t dhcp_router = dhcp_extract_router_msg(&ipbuf);
if (dhcp_router)
{
route_list_add_vpn_gateway(c->c1.route_list, c->c2.es, dhcp_router);
}
}
}
else if (is_ipv6(TUNNEL_TYPE(c->c1.tuntap), &ipbuf))
{
/* possibly alter the TCP MSS */
if (flags & PIP_MSSFIX)
{
mss_fixup_ipv6(&ipbuf,
MTU_TO_MSS(TUN_MTU_SIZE_DYNAMIC(&c->c2.frame)));
}
if (!(flags & PIP_OUTGOING) && (flags
&(PIPV6_IMCP_NOHOST_CLIENT | PIPV6_IMCP_NOHOST_SERVER)))
{
ipv6_send_icmp_unreachable(c, buf,
(bool)(flags & PIPV6_IMCP_NOHOST_CLIENT));
/* Drop the IPv6 packet */
buf->len = 0;
}
}
}
}
}
/*
* Input: c->c2.to_link
*/
void
process_outgoing_link(struct context *c)
{
struct gc_arena gc = gc_new();
int error_code = 0;
perf_push(PERF_PROC_OUT_LINK);
if (c->c2.to_link.len > 0 && c->c2.to_link.len <= EXPANDED_SIZE(&c->c2.frame))
{
/*
* Setup for call to send/sendto which will send
* packet to remote over the TCP/UDP port.
*/
int size = 0;
ASSERT(link_socket_actual_defined(c->c2.to_link_addr));
#ifdef ENABLE_DEBUG
/* In gremlin-test mode, we may choose to drop this packet */
if (!c->options.gremlin || ask_gremlin(c->options.gremlin))
#endif
{
/*
* Let the traffic shaper know how many bytes
* we wrote.
*/
#ifdef ENABLE_FEATURE_SHAPER
if (c->options.shaper)
{
shaper_wrote_bytes(&c->c2.shaper, BLEN(&c->c2.to_link)
+ datagram_overhead(c->options.ce.proto));
}
#endif
/*
* Let the pinger know that we sent a packet.
*/
if (c->options.ping_send_timeout)
{
event_timeout_reset(&c->c2.ping_send_interval);
}
#if PASSTOS_CAPABILITY
/* Set TOS */
link_socket_set_tos(c->c2.link_socket);
#endif
/* Log packet send */
#ifdef LOG_RW
if (c->c2.log_rw)
{
fprintf(stderr, "W");
}
#endif
msg(D_LINK_RW, "%s WRITE [%d] to %s: %s",
proto2ascii(c->c2.link_socket->info.proto, c->c2.link_socket->info.af, true),
BLEN(&c->c2.to_link),
print_link_socket_actual(c->c2.to_link_addr, &gc),
PROTO_DUMP(&c->c2.to_link, &gc));
/* Packet send complexified by possible Socks5 usage */
{
struct link_socket_actual *to_addr = c->c2.to_link_addr;
int size_delta = 0;
/* If Socks5 over UDP, prepend header */
socks_preprocess_outgoing_link(c, &to_addr, &size_delta);
/* Send packet */
size = link_socket_write(c->c2.link_socket,
&c->c2.to_link,
to_addr);
/* Undo effect of prepend */
link_socket_write_post_size_adjust(&size, size_delta, &c->c2.to_link);
}
if (size > 0)
{
c->c2.max_send_size_local = max_int(size, c->c2.max_send_size_local);
c->c2.link_write_bytes += size;
link_write_bytes_global += size;
#ifdef ENABLE_MEMSTATS
if (mmap_stats)
{
mmap_stats->link_write_bytes = link_write_bytes_global;
}
#endif
#ifdef ENABLE_MANAGEMENT
if (management)
{
management_bytes_out(management, size);
#ifdef MANAGEMENT_DEF_AUTH
management_bytes_server(management, &c->c2.link_read_bytes, &c->c2.link_write_bytes, &c->c2.mda_context);
#endif
}
#endif
}
}
/* Check return status */
error_code = openvpn_errno();
check_status(size, "write", c->c2.link_socket, NULL);
if (size > 0)
{
/* Did we write a different size packet than we intended? */
if (size != BLEN(&c->c2.to_link))
{
msg(D_LINK_ERRORS,
"TCP/UDP packet was truncated/expanded on write to %s (tried=%d,actual=%d)",
print_link_socket_actual(c->c2.to_link_addr, &gc),
BLEN(&c->c2.to_link),
size);
}
}
/* if not a ping/control message, indicate activity regarding --inactive parameter */
if (c->c2.buf.len > 0)
{
register_activity(c, size);
}
/* for unreachable network and "connecting" state switch to the next host */
if (size < 0 && ENETUNREACH == error_code && c->c2.tls_multi
&& !tls_initial_packet_received(c->c2.tls_multi) && c->options.mode == MODE_POINT_TO_POINT)
{
msg(M_INFO, "Network unreachable, restarting");
register_signal(c, SIGUSR1, "network-unreachable");
}
}
else
{
if (c->c2.to_link.len > 0)
{
msg(D_LINK_ERRORS, "TCP/UDP packet too large on write to %s (tried=%d,max=%d)",
print_link_socket_actual(c->c2.to_link_addr, &gc),
c->c2.to_link.len,
EXPANDED_SIZE(&c->c2.frame));
}
}
buf_reset(&c->c2.to_link);
perf_pop();
gc_free(&gc);
}
/*
* Input: c->c2.to_tun
*/
void
process_outgoing_tun(struct context *c)
{
struct gc_arena gc = gc_new();
/*
* Set up for write() call to TUN/TAP
* device.
*/
if (c->c2.to_tun.len <= 0)
{
return;
}
perf_push(PERF_PROC_OUT_TUN);
/*
* The --mssfix option requires
* us to examine the IP header (IPv4 or IPv6).
*/
process_ip_header(c,
PIP_MSSFIX | PIPV4_EXTRACT_DHCP_ROUTER | PIPV4_CLIENT_NAT | PIP_OUTGOING,
&c->c2.to_tun);
if (c->c2.to_tun.len <= MAX_RW_SIZE_TUN(&c->c2.frame))
{
/*
* Write to TUN/TAP device.
*/
int size;
#ifdef LOG_RW
if (c->c2.log_rw)
{
fprintf(stderr, "w");
}
#endif
dmsg(D_TUN_RW, "TUN WRITE [%d]", BLEN(&c->c2.to_tun));
#ifdef PACKET_TRUNCATION_CHECK
ipv4_packet_size_verify(BPTR(&c->c2.to_tun),
BLEN(&c->c2.to_tun),
TUNNEL_TYPE(c->c1.tuntap),
"WRITE_TUN",
&c->c2.n_trunc_tun_write);
#endif
#ifdef _WIN32
size = write_tun_buffered(c->c1.tuntap, &c->c2.to_tun);
#else
size = write_tun(c->c1.tuntap, BPTR(&c->c2.to_tun), BLEN(&c->c2.to_tun));
#endif
if (size > 0)
{
c->c2.tun_write_bytes += size;
}
check_status(size, "write to TUN/TAP", NULL, c->c1.tuntap);
/* check written packet size */
if (size > 0)
{
/* Did we write a different size packet than we intended? */
if (size != BLEN(&c->c2.to_tun))
{
msg(D_LINK_ERRORS,
"TUN/TAP packet was destructively fragmented on write to %s (tried=%d,actual=%d)",
c->c1.tuntap->actual_name,
BLEN(&c->c2.to_tun),
size);
}
/* indicate activity regarding --inactive parameter */
register_activity(c, size);
}
}
else
{
/*
* This should never happen, probably indicates some kind
* of MTU mismatch.
*/
msg(D_LINK_ERRORS, "tun packet too large on write (tried=%d,max=%d)",
c->c2.to_tun.len,
MAX_RW_SIZE_TUN(&c->c2.frame));
}
buf_reset(&c->c2.to_tun);
perf_pop();
gc_free(&gc);
}
void
pre_select(struct context *c)
{
/* make sure current time (now) is updated on function entry */
/*
* Start with an effectively infinite timeout, then let it
* reduce to a timeout that reflects the component which
* needs the earliest service.
*/
c->c2.timeval.tv_sec = BIG_TIMEOUT;
c->c2.timeval.tv_usec = 0;
#if defined(_WIN32)
if (check_debug_level(D_TAP_WIN_DEBUG))
{
c->c2.timeval.tv_sec = 1;
if (tuntap_defined(c->c1.tuntap))
{
tun_show_debug(c->c1.tuntap);
}
}
#endif
/* check coarse timers? */
check_coarse_timers(c);
if (c->sig->signal_received)
{
return;
}
/* If tls is enabled, do tls control channel packet processing. */
if (c->c2.tls_multi)
{
check_tls(c);
}
/* In certain cases, TLS errors will require a restart */
check_tls_errors(c);
if (c->sig->signal_received)
{
return;
}
#if P2MP
/* check for incoming control messages on the control channel like
* push request/reply, or authentication failure and 2FA messages */
if (tls_test_payload_len(c->c2.tls_multi) > 0)
{
check_incoming_control_channel(c);
}
#endif
/* Should we send an OCC message? */
check_send_occ_msg(c);
#ifdef ENABLE_FRAGMENT
/* Should we deliver a datagram fragment to remote? */
if (c->c2.fragment)
{
check_fragment(c);
}
#endif
/* Update random component of timeout */
check_timeout_random_component(c);
}
/*
* Wait for I/O events. Used for both TCP & UDP sockets
* in point-to-point mode and for UDP sockets in
* point-to-multipoint mode.
*/
void
io_wait_dowork(struct context *c, const unsigned int flags)
{
unsigned int socket = 0;
unsigned int tuntap = 0;
struct event_set_return esr[4];
/* These shifts all depend on EVENT_READ and EVENT_WRITE */
static int socket_shift = 0; /* depends on SOCKET_READ and SOCKET_WRITE */
static int tun_shift = 2; /* depends on TUN_READ and TUN_WRITE */
static int err_shift = 4; /* depends on ES_ERROR */
#ifdef ENABLE_MANAGEMENT
static int management_shift = 6; /* depends on MANAGEMENT_READ and MANAGEMENT_WRITE */
#endif
#ifdef ENABLE_ASYNC_PUSH
static int file_shift = 8; /* listening inotify events */
#endif
/*
* Decide what kind of events we want to wait for.
*/
event_reset(c->c2.event_set);
/*
* On win32 we use the keyboard or an event object as a source
* of asynchronous signals.
*/
if (flags & IOW_WAIT_SIGNAL)
{
wait_signal(c->c2.event_set, (void *)&err_shift);
}
/*
* If outgoing data (for TCP/UDP port) pending, wait for ready-to-send
* status from TCP/UDP port. Otherwise, wait for incoming data on
* TUN/TAP device.
*/
if (flags & IOW_TO_LINK)
{
if (flags & IOW_SHAPER)
{
/*
* If sending this packet would put us over our traffic shaping
* quota, don't send -- instead compute the delay we must wait
* until it will be OK to send the packet.
*/
#ifdef ENABLE_FEATURE_SHAPER
int delay = 0;
/* set traffic shaping delay in microseconds */
if (c->options.shaper)
{
delay = max_int(delay, shaper_delay(&c->c2.shaper));
}
if (delay < 1000)
{
socket |= EVENT_WRITE;
}
else
{
shaper_soonest_event(&c->c2.timeval, delay);
}
#else /* ENABLE_FEATURE_SHAPER */
socket |= EVENT_WRITE;
#endif /* ENABLE_FEATURE_SHAPER */
}
else
{
socket |= EVENT_WRITE;
}
}
else if (!((flags & IOW_FRAG) && TO_LINK_FRAG(c)))
{
if (flags & IOW_READ_TUN)
{
tuntap |= EVENT_READ;
}
}
/*
* If outgoing data (for TUN/TAP device) pending, wait for ready-to-send status
* from device. Otherwise, wait for incoming data on TCP/UDP port.
*/
if (flags & IOW_TO_TUN)
{
tuntap |= EVENT_WRITE;
}
else
{
if (flags & IOW_READ_LINK)
{
socket |= EVENT_READ;
}
}
/*
* outgoing bcast buffer waiting to be sent?
*/
if (flags & IOW_MBUF)
{
socket |= EVENT_WRITE;
}
/*
* Force wait on TUN input, even if also waiting on TCP/UDP output
*/
if (flags & IOW_READ_TUN_FORCE)
{
tuntap |= EVENT_READ;
}
#ifdef _WIN32
if (tuntap_is_wintun(c->c1.tuntap))
{
/*
* With wintun we are only interested in read event. Ring buffer is
* always ready for write, so we don't do wait.
*/
tuntap = EVENT_READ;
}
#endif
/*
* Configure event wait based on socket, tuntap flags.
*/
socket_set(c->c2.link_socket, c->c2.event_set, socket, (void *)&socket_shift, NULL);
tun_set(c->c1.tuntap, c->c2.event_set, tuntap, (void *)&tun_shift, NULL);
#ifdef ENABLE_MANAGEMENT
if (management)
{
management_socket_set(management, c->c2.event_set, (void *)&management_shift, NULL);
}
#endif
#ifdef ENABLE_ASYNC_PUSH
/* arm inotify watcher */
if (c->options.mode == MODE_SERVER)
{
event_ctl(c->c2.event_set, c->c2.inotify_fd, EVENT_READ, (void *)&file_shift);
}
#endif
/*
* Possible scenarios:
* (1) tcp/udp port has data available to read
* (2) tcp/udp port is ready to accept more data to write
* (3) tun dev has data available to read
* (4) tun dev is ready to accept more data to write
* (5) we received a signal (handler sets signal_received)
* (6) timeout (tv) expired
*/
c->c2.event_set_status = ES_ERROR;
if (!c->sig->signal_received)
{
if (!(flags & IOW_CHECK_RESIDUAL) || !socket_read_residual(c->c2.link_socket))
{
int status;
#ifdef ENABLE_DEBUG
if (check_debug_level(D_EVENT_WAIT))
{
show_wait_status(c);
}
#endif
/*
* Wait for something to happen.
*/
status = event_wait(c->c2.event_set, &c->c2.timeval, esr, SIZE(esr));
check_status(status, "event_wait", NULL, NULL);
if (status > 0)
{
int i;
c->c2.event_set_status = 0;
for (i = 0; i < status; ++i)
{
const struct event_set_return *e = &esr[i];
c->c2.event_set_status |= ((e->rwflags & 3) << *((int *)e->arg));
}
}
else if (status == 0)
{
c->c2.event_set_status = ES_TIMEOUT;
}
}
else
{
c->c2.event_set_status = SOCKET_READ;
}
}
/* 'now' should always be a reasonably up-to-date timestamp */
update_time();
/* set signal_received if a signal was received */
if (c->c2.event_set_status & ES_ERROR)
{
get_signal(&c->sig->signal_received);
}
dmsg(D_EVENT_WAIT, "I/O WAIT status=0x%04x", c->c2.event_set_status);
}
void
process_io(struct context *c)
{
const unsigned int status = c->c2.event_set_status;
#ifdef ENABLE_MANAGEMENT
if (status & (MANAGEMENT_READ|MANAGEMENT_WRITE))
{
ASSERT(management);
management_io(management);
}
#endif
/* TCP/UDP port ready to accept write */
if (status & SOCKET_WRITE)
{
process_outgoing_link(c);
}
/* TUN device ready to accept write */
else if (status & TUN_WRITE)
{
process_outgoing_tun(c);
}
/* Incoming data on TCP/UDP port */
else if (status & SOCKET_READ)
{
read_incoming_link(c);
if (!IS_SIG(c))
{
process_incoming_link(c);
}
}
/* Incoming data on TUN device */
else if (status & TUN_READ)
{
read_incoming_tun(c);
if (!IS_SIG(c))
{
process_incoming_tun(c);
}
}
}
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