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tor/src/or/connection_or.c
Nick Mathewson 9d019a7db7 tor_tls_finish_handshake is server-side only.
2015-10-07 10:32:54 -04:00

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/* Copyright (c) 2001 Matej Pfajfar.
* Copyright (c) 2001-2004, Roger Dingledine.
* Copyright (c) 2004-2006, Roger Dingledine, Nick Mathewson.
* Copyright (c) 2007-2015, The Tor Project, Inc. */
/* See LICENSE for licensing information */
/**
* \file connection_or.c
* \brief Functions to handle OR connections, TLS handshaking, and
* cells on the network.
**/
#include "or.h"
#include "buffers.h"
/*
* Define this so we get channel internal functions, since we're implementing
* part of a subclass (channel_tls_t).
*/
#define TOR_CHANNEL_INTERNAL_
#include "channel.h"
#include "channeltls.h"
#include "circuitbuild.h"
#include "circuitlist.h"
#include "circuitstats.h"
#include "command.h"
#include "config.h"
#include "connection.h"
#include "connection_or.h"
#include "control.h"
#include "dirserv.h"
#include "entrynodes.h"
#include "geoip.h"
#include "main.h"
#include "link_handshake.h"
#include "networkstatus.h"
#include "nodelist.h"
#include "reasons.h"
#include "relay.h"
#include "rephist.h"
#include "router.h"
#include "routerlist.h"
#include "ext_orport.h"
#include "scheduler.h"
#ifdef USE_BUFFEREVENTS
#include <event2/bufferevent_ssl.h>
#endif
static int connection_tls_finish_handshake(or_connection_t *conn);
static int connection_or_launch_v3_or_handshake(or_connection_t *conn);
static int connection_or_process_cells_from_inbuf(or_connection_t *conn);
static int connection_or_check_valid_tls_handshake(or_connection_t *conn,
int started_here,
char *digest_rcvd_out);
static void connection_or_tls_renegotiated_cb(tor_tls_t *tls, void *_conn);
static unsigned int
connection_or_is_bad_for_new_circs(or_connection_t *or_conn);
static void connection_or_mark_bad_for_new_circs(or_connection_t *or_conn);
/*
* Call this when changing connection state, so notifications to the owning
* channel can be handled.
*/
static void connection_or_change_state(or_connection_t *conn, uint8_t state);
#ifdef USE_BUFFEREVENTS
static void connection_or_handle_event_cb(struct bufferevent *bufev,
short event, void *arg);
#include <event2/buffer.h>/*XXXX REMOVE */
#endif
/**************************************************************/
/** Map from identity digest of connected OR or desired OR to a connection_t
* with that identity digest. If there is more than one such connection_t,
* they form a linked list, with next_with_same_id as the next pointer. */
static digestmap_t *orconn_identity_map = NULL;
/** Global map between Extended ORPort identifiers and OR
* connections. */
static digestmap_t *orconn_ext_or_id_map = NULL;
/** If conn is listed in orconn_identity_map, remove it, and clear
* conn->identity_digest. Otherwise do nothing. */
void
connection_or_remove_from_identity_map(or_connection_t *conn)
{
or_connection_t *tmp;
tor_assert(conn);
if (!orconn_identity_map)
return;
tmp = digestmap_get(orconn_identity_map, conn->identity_digest);
if (!tmp) {
if (!tor_digest_is_zero(conn->identity_digest)) {
log_warn(LD_BUG, "Didn't find connection '%s' on identity map when "
"trying to remove it.",
conn->nickname ? conn->nickname : "NULL");
}
return;
}
if (conn == tmp) {
if (conn->next_with_same_id)
digestmap_set(orconn_identity_map, conn->identity_digest,
conn->next_with_same_id);
else
digestmap_remove(orconn_identity_map, conn->identity_digest);
} else {
while (tmp->next_with_same_id) {
if (tmp->next_with_same_id == conn) {
tmp->next_with_same_id = conn->next_with_same_id;
break;
}
tmp = tmp->next_with_same_id;
}
}
memset(conn->identity_digest, 0, DIGEST_LEN);
conn->next_with_same_id = NULL;
}
/** Remove all entries from the identity-to-orconn map, and clear
* all identities in OR conns.*/
void
connection_or_clear_identity_map(void)
{
smartlist_t *conns = get_connection_array();
SMARTLIST_FOREACH(conns, connection_t *, conn,
{
if (conn->type == CONN_TYPE_OR) {
or_connection_t *or_conn = TO_OR_CONN(conn);
memset(or_conn->identity_digest, 0, DIGEST_LEN);
or_conn->next_with_same_id = NULL;
}
});
digestmap_free(orconn_identity_map, NULL);
orconn_identity_map = NULL;
}
/** Change conn->identity_digest to digest, and add conn into
* orconn_digest_map. */
static void
connection_or_set_identity_digest(or_connection_t *conn, const char *digest)
{
or_connection_t *tmp;
tor_assert(conn);
tor_assert(digest);
if (!orconn_identity_map)
orconn_identity_map = digestmap_new();
if (tor_memeq(conn->identity_digest, digest, DIGEST_LEN))
return;
/* If the identity was set previously, remove the old mapping. */
if (! tor_digest_is_zero(conn->identity_digest)) {
connection_or_remove_from_identity_map(conn);
if (conn->chan)
channel_clear_identity_digest(TLS_CHAN_TO_BASE(conn->chan));
}
memcpy(conn->identity_digest, digest, DIGEST_LEN);
/* If we're setting the ID to zero, don't add a mapping. */
if (tor_digest_is_zero(digest))
return;
tmp = digestmap_set(orconn_identity_map, digest, conn);
conn->next_with_same_id = tmp;
/* Deal with channels */
if (conn->chan)
channel_set_identity_digest(TLS_CHAN_TO_BASE(conn->chan), digest);
#if 1
/* Testing code to check for bugs in representation. */
for (; tmp; tmp = tmp->next_with_same_id) {
tor_assert(tor_memeq(tmp->identity_digest, digest, DIGEST_LEN));
tor_assert(tmp != conn);
}
#endif
}
/** Remove the Extended ORPort identifier of <b>conn</b> from the
* global identifier list. Also, clear the identifier from the
* connection itself. */
void
connection_or_remove_from_ext_or_id_map(or_connection_t *conn)
{
or_connection_t *tmp;
if (!orconn_ext_or_id_map)
return;
if (!conn->ext_or_conn_id)
return;
tmp = digestmap_remove(orconn_ext_or_id_map, conn->ext_or_conn_id);
if (!tor_digest_is_zero(conn->ext_or_conn_id))
tor_assert(tmp == conn);
memset(conn->ext_or_conn_id, 0, EXT_OR_CONN_ID_LEN);
}
/** Return the connection whose ext_or_id is <b>id</b>. Return NULL if no such
* connection is found. */
or_connection_t *
connection_or_get_by_ext_or_id(const char *id)
{
if (!orconn_ext_or_id_map)
return NULL;
return digestmap_get(orconn_ext_or_id_map, id);
}
/** Deallocate the global Extended ORPort identifier list */
void
connection_or_clear_ext_or_id_map(void)
{
digestmap_free(orconn_ext_or_id_map, NULL);
orconn_ext_or_id_map = NULL;
}
/** Creates an Extended ORPort identifier for <b>conn</b> and deposits
* it into the global list of identifiers. */
void
connection_or_set_ext_or_identifier(or_connection_t *conn)
{
char random_id[EXT_OR_CONN_ID_LEN];
or_connection_t *tmp;
if (!orconn_ext_or_id_map)
orconn_ext_or_id_map = digestmap_new();
/* Remove any previous identifiers: */
if (conn->ext_or_conn_id && !tor_digest_is_zero(conn->ext_or_conn_id))
connection_or_remove_from_ext_or_id_map(conn);
do {
crypto_rand(random_id, sizeof(random_id));
} while (digestmap_get(orconn_ext_or_id_map, random_id));
if (!conn->ext_or_conn_id)
conn->ext_or_conn_id = tor_malloc_zero(EXT_OR_CONN_ID_LEN);
memcpy(conn->ext_or_conn_id, random_id, EXT_OR_CONN_ID_LEN);
tmp = digestmap_set(orconn_ext_or_id_map, random_id, conn);
tor_assert(!tmp);
}
/**************************************************************/
/** Map from a string describing what a non-open OR connection was doing when
* failed, to an intptr_t describing the count of connections that failed that
* way. Note that the count is stored _as_ the pointer.
*/
static strmap_t *broken_connection_counts;
/** If true, do not record information in <b>broken_connection_counts</b>. */
static int disable_broken_connection_counts = 0;
/** Record that an OR connection failed in <b>state</b>. */
static void
note_broken_connection(const char *state)
{
void *ptr;
intptr_t val;
if (disable_broken_connection_counts)
return;
if (!broken_connection_counts)
broken_connection_counts = strmap_new();
ptr = strmap_get(broken_connection_counts, state);
val = (intptr_t)ptr;
val++;
ptr = (void*)val;
strmap_set(broken_connection_counts, state, ptr);
}
/** Forget all recorded states for failed connections. If
* <b>stop_recording</b> is true, don't record any more. */
void
clear_broken_connection_map(int stop_recording)
{
if (broken_connection_counts)
strmap_free(broken_connection_counts, NULL);
broken_connection_counts = NULL;
if (stop_recording)
disable_broken_connection_counts = 1;
}
/** Write a detailed description the state of <b>orconn</b> into the
* <b>buflen</b>-byte buffer at <b>buf</b>. This description includes not
* only the OR-conn level state but also the TLS state. It's useful for
* diagnosing broken handshakes. */
static void
connection_or_get_state_description(or_connection_t *orconn,
char *buf, size_t buflen)
{
connection_t *conn = TO_CONN(orconn);
const char *conn_state;
char tls_state[256];
tor_assert(conn->type == CONN_TYPE_OR || conn->type == CONN_TYPE_EXT_OR);
conn_state = conn_state_to_string(conn->type, conn->state);
tor_tls_get_state_description(orconn->tls, tls_state, sizeof(tls_state));
tor_snprintf(buf, buflen, "%s with SSL state %s", conn_state, tls_state);
}
/** Record the current state of <b>orconn</b> as the state of a broken
* connection. */
static void
connection_or_note_state_when_broken(or_connection_t *orconn)
{
char buf[256];
if (disable_broken_connection_counts)
return;
connection_or_get_state_description(orconn, buf, sizeof(buf));
log_info(LD_HANDSHAKE,"Connection died in state '%s'", buf);
note_broken_connection(buf);
}
/** Helper type used to sort connection states and find the most frequent. */
typedef struct broken_state_count_t {
intptr_t count;
const char *state;
} broken_state_count_t;
/** Helper function used to sort broken_state_count_t by frequency. */
static int
broken_state_count_compare(const void **a_ptr, const void **b_ptr)
{
const broken_state_count_t *a = *a_ptr, *b = *b_ptr;
if (b->count < a->count)
return -1;
else if (b->count == a->count)
return 0;
else
return 1;
}
/** Upper limit on the number of different states to report for connection
* failure. */
#define MAX_REASONS_TO_REPORT 10
/** Report a list of the top states for failed OR connections at log level
* <b>severity</b>, in log domain <b>domain</b>. */
void
connection_or_report_broken_states(int severity, int domain)
{
int total = 0;
smartlist_t *items;
if (!broken_connection_counts || disable_broken_connection_counts)
return;
items = smartlist_new();
STRMAP_FOREACH(broken_connection_counts, state, void *, countptr) {
broken_state_count_t *c = tor_malloc(sizeof(broken_state_count_t));
c->count = (intptr_t)countptr;
total += (int)c->count;
c->state = state;
smartlist_add(items, c);
} STRMAP_FOREACH_END;
smartlist_sort(items, broken_state_count_compare);
tor_log(severity, domain, "%d connections have failed%s", total,
smartlist_len(items) > MAX_REASONS_TO_REPORT ? ". Top reasons:" : ":");
SMARTLIST_FOREACH_BEGIN(items, const broken_state_count_t *, c) {
if (c_sl_idx > MAX_REASONS_TO_REPORT)
break;
tor_log(severity, domain,
" %d connections died in state %s", (int)c->count, c->state);
} SMARTLIST_FOREACH_END(c);
SMARTLIST_FOREACH(items, broken_state_count_t *, c, tor_free(c));
smartlist_free(items);
}
/** Call this to change or_connection_t states, so the owning channel_tls_t can
* be notified.
*/
static void
connection_or_change_state(or_connection_t *conn, uint8_t state)
{
uint8_t old_state;
tor_assert(conn);
old_state = conn->base_.state;
conn->base_.state = state;
if (conn->chan)
channel_tls_handle_state_change_on_orconn(conn->chan, conn,
old_state, state);
}
/** Return the number of circuits using an or_connection_t; this used to
* be an or_connection_t field, but it got moved to channel_t and we
* shouldn't maintain two copies. */
int
connection_or_get_num_circuits(or_connection_t *conn)
{
tor_assert(conn);
if (conn->chan) {
return channel_num_circuits(TLS_CHAN_TO_BASE(conn->chan));
} else return 0;
}
/**************************************************************/
/** Pack the cell_t host-order structure <b>src</b> into network-order
* in the buffer <b>dest</b>. See tor-spec.txt for details about the
* wire format.
*
* Note that this function doesn't touch <b>dst</b>-\>next: the caller
* should set it or clear it as appropriate.
*/
void
cell_pack(packed_cell_t *dst, const cell_t *src, int wide_circ_ids)
{
char *dest = dst->body;
if (wide_circ_ids) {
set_uint32(dest, htonl(src->circ_id));
dest += 4;
} else {
set_uint16(dest, htons(src->circ_id));
dest += 2;
memset(dest+CELL_MAX_NETWORK_SIZE-2, 0, 2); /*make sure it's clear */
}
set_uint8(dest, src->command);
memcpy(dest+1, src->payload, CELL_PAYLOAD_SIZE);
}
/** Unpack the network-order buffer <b>src</b> into a host-order
* cell_t structure <b>dest</b>.
*/
static void
cell_unpack(cell_t *dest, const char *src, int wide_circ_ids)
{
if (wide_circ_ids) {
dest->circ_id = ntohl(get_uint32(src));
src += 4;
} else {
dest->circ_id = ntohs(get_uint16(src));
src += 2;
}
dest->command = get_uint8(src);
memcpy(dest->payload, src+1, CELL_PAYLOAD_SIZE);
}
/** Write the header of <b>cell</b> into the first VAR_CELL_MAX_HEADER_SIZE
* bytes of <b>hdr_out</b>. Returns number of bytes used. */
int
var_cell_pack_header(const var_cell_t *cell, char *hdr_out, int wide_circ_ids)
{
int r;
if (wide_circ_ids) {
set_uint32(hdr_out, htonl(cell->circ_id));
hdr_out += 4;
r = VAR_CELL_MAX_HEADER_SIZE;
} else {
set_uint16(hdr_out, htons(cell->circ_id));
hdr_out += 2;
r = VAR_CELL_MAX_HEADER_SIZE - 2;
}
set_uint8(hdr_out, cell->command);
set_uint16(hdr_out+1, htons(cell->payload_len));
return r;
}
/** Allocate and return a new var_cell_t with <b>payload_len</b> bytes of
* payload space. */
var_cell_t *
var_cell_new(uint16_t payload_len)
{
size_t size = STRUCT_OFFSET(var_cell_t, payload) + payload_len;
var_cell_t *cell = tor_malloc_zero(size);
cell->payload_len = payload_len;
cell->command = 0;
cell->circ_id = 0;
return cell;
}
/** Release all space held by <b>cell</b>. */
void
var_cell_free(var_cell_t *cell)
{
tor_free(cell);
}
/** We've received an EOF from <b>conn</b>. Mark it for close and return. */
int
connection_or_reached_eof(or_connection_t *conn)
{
tor_assert(conn);
log_info(LD_OR,"OR connection reached EOF. Closing.");
connection_or_close_normally(conn, 1);
return 0;
}
/** Handle any new bytes that have come in on connection <b>conn</b>.
* If conn is in 'open' state, hand it to
* connection_or_process_cells_from_inbuf()
* (else do nothing).
*/
int
connection_or_process_inbuf(or_connection_t *conn)
{
/** Don't let the inbuf of a nonopen OR connection grow beyond this many
* bytes: it's either a broken client, a non-Tor client, or a DOS
* attempt. */
#define MAX_OR_INBUF_WHEN_NONOPEN 0
int ret = 0;
tor_assert(conn);
switch (conn->base_.state) {
case OR_CONN_STATE_PROXY_HANDSHAKING:
ret = connection_read_proxy_handshake(TO_CONN(conn));
/* start TLS after handshake completion, or deal with error */
if (ret == 1) {
tor_assert(TO_CONN(conn)->proxy_state == PROXY_CONNECTED);
if (connection_tls_start_handshake(conn, 0) < 0)
ret = -1;
/* Touch the channel's active timestamp if there is one */
if (conn->chan)
channel_timestamp_active(TLS_CHAN_TO_BASE(conn->chan));
}
if (ret < 0) {
connection_or_close_for_error(conn, 0);
}
return ret;
case OR_CONN_STATE_TLS_SERVER_RENEGOTIATING:
#ifdef USE_BUFFEREVENTS
if (tor_tls_server_got_renegotiate(conn->tls))
connection_or_tls_renegotiated_cb(conn->tls, conn);
if (conn->base_.marked_for_close)
return 0;
/* fall through. */
#endif
case OR_CONN_STATE_OPEN:
case OR_CONN_STATE_OR_HANDSHAKING_V2:
case OR_CONN_STATE_OR_HANDSHAKING_V3:
return connection_or_process_cells_from_inbuf(conn);
default:
break; /* don't do anything */
}
/* This check was necessary with 0.2.2, when the TLS_SERVER_RENEGOTIATING
* check would otherwise just let data accumulate. It serves no purpose
* in 0.2.3.
*
* XXX024 Remove this check once we verify that the above paragraph is
* 100% true. */
if (buf_datalen(conn->base_.inbuf) > MAX_OR_INBUF_WHEN_NONOPEN) {
log_fn(LOG_PROTOCOL_WARN, LD_NET, "Accumulated too much data (%d bytes) "
"on nonopen OR connection %s %s:%u in state %s; closing.",
(int)buf_datalen(conn->base_.inbuf),
connection_or_nonopen_was_started_here(conn) ? "to" : "from",
conn->base_.address, conn->base_.port,
conn_state_to_string(conn->base_.type, conn->base_.state));
connection_or_close_for_error(conn, 0);
ret = -1;
}
return ret;
}
/** Called whenever we have flushed some data on an or_conn: add more data
* from active circuits. */
int
connection_or_flushed_some(or_connection_t *conn)
{
size_t datalen;
/* The channel will want to update its estimated queue size */
channel_update_xmit_queue_size(TLS_CHAN_TO_BASE(conn->chan));
/* If we're under the low water mark, add cells until we're just over the
* high water mark. */
datalen = connection_get_outbuf_len(TO_CONN(conn));
if (datalen < OR_CONN_LOWWATER) {
/* Let the scheduler know */
scheduler_channel_wants_writes(TLS_CHAN_TO_BASE(conn->chan));
}
return 0;
}
/** This is for channeltls.c to ask how many cells we could accept if
* they were available. */
ssize_t
connection_or_num_cells_writeable(or_connection_t *conn)
{
size_t datalen, cell_network_size;
ssize_t n = 0;
tor_assert(conn);
/*
* If we're under the high water mark, we're potentially
* writeable; note this is different from the calculation above
* used to trigger when to start writing after we've stopped.
*/
datalen = connection_get_outbuf_len(TO_CONN(conn));
if (datalen < OR_CONN_HIGHWATER) {
cell_network_size = get_cell_network_size(conn->wide_circ_ids);
n = CEIL_DIV(OR_CONN_HIGHWATER - datalen, cell_network_size);
}
return n;
}
/** Connection <b>conn</b> has finished writing and has no bytes left on
* its outbuf.
*
* Otherwise it's in state "open": stop writing and return.
*
* If <b>conn</b> is broken, mark it for close and return -1, else
* return 0.
*/
int
connection_or_finished_flushing(or_connection_t *conn)
{
tor_assert(conn);
assert_connection_ok(TO_CONN(conn),0);
switch (conn->base_.state) {
case OR_CONN_STATE_PROXY_HANDSHAKING:
case OR_CONN_STATE_OPEN:
case OR_CONN_STATE_OR_HANDSHAKING_V2:
case OR_CONN_STATE_OR_HANDSHAKING_V3:
break;
default:
log_err(LD_BUG,"Called in unexpected state %d.", conn->base_.state);
tor_fragile_assert();
return -1;
}
return 0;
}
/** Connected handler for OR connections: begin the TLS handshake.
*/
int
connection_or_finished_connecting(or_connection_t *or_conn)
{
const int proxy_type = or_conn->proxy_type;
connection_t *conn;
tor_assert(or_conn);
conn = TO_CONN(or_conn);
tor_assert(conn->state == OR_CONN_STATE_CONNECTING);
log_debug(LD_HANDSHAKE,"OR connect() to router at %s:%u finished.",
conn->address,conn->port);
control_event_bootstrap(BOOTSTRAP_STATUS_HANDSHAKE, 0);
if (proxy_type != PROXY_NONE) {
/* start proxy handshake */
if (connection_proxy_connect(conn, proxy_type) < 0) {
connection_or_close_for_error(or_conn, 0);
return -1;
}
connection_start_reading(conn);
connection_or_change_state(or_conn, OR_CONN_STATE_PROXY_HANDSHAKING);
return 0;
}
if (connection_tls_start_handshake(or_conn, 0) < 0) {
/* TLS handshaking error of some kind. */
connection_or_close_for_error(or_conn, 0);
return -1;
}
return 0;
}
/** Called when we're about to finally unlink and free an OR connection:
* perform necessary accounting and cleanup */
void
connection_or_about_to_close(or_connection_t *or_conn)
{
time_t now = time(NULL);
connection_t *conn = TO_CONN(or_conn);
/* Tell the controlling channel we're closed */
if (or_conn->chan) {
channel_closed(TLS_CHAN_TO_BASE(or_conn->chan));
/*
* NULL this out because the channel might hang around a little
* longer before channel_run_cleanup() gets it.
*/
or_conn->chan->conn = NULL;
or_conn->chan = NULL;
}
/* Remember why we're closing this connection. */
if (conn->state != OR_CONN_STATE_OPEN) {
/* now mark things down as needed */
if (connection_or_nonopen_was_started_here(or_conn)) {
const or_options_t *options = get_options();
connection_or_note_state_when_broken(or_conn);
rep_hist_note_connect_failed(or_conn->identity_digest, now);
entry_guard_register_connect_status(or_conn->identity_digest,0,
!options->HTTPSProxy, now);
if (conn->state >= OR_CONN_STATE_TLS_HANDSHAKING) {
int reason = tls_error_to_orconn_end_reason(or_conn->tls_error);
control_event_or_conn_status(or_conn, OR_CONN_EVENT_FAILED,
reason);
if (!authdir_mode_tests_reachability(options))
control_event_bootstrap_problem(
orconn_end_reason_to_control_string(reason),
reason, or_conn);
}
}
} else if (conn->hold_open_until_flushed) {
/* We only set hold_open_until_flushed when we're intentionally
* closing a connection. */
rep_hist_note_disconnect(or_conn->identity_digest, now);
control_event_or_conn_status(or_conn, OR_CONN_EVENT_CLOSED,
tls_error_to_orconn_end_reason(or_conn->tls_error));
} else if (!tor_digest_is_zero(or_conn->identity_digest)) {
rep_hist_note_connection_died(or_conn->identity_digest, now);
control_event_or_conn_status(or_conn, OR_CONN_EVENT_CLOSED,
tls_error_to_orconn_end_reason(or_conn->tls_error));
}
}
/** Return 1 if identity digest <b>id_digest</b> is known to be a
* currently or recently running relay. Otherwise return 0. */
int
connection_or_digest_is_known_relay(const char *id_digest)
{
if (router_get_consensus_status_by_id(id_digest))
return 1; /* It's in the consensus: "yes" */
if (router_get_by_id_digest(id_digest))
return 1; /* Not in the consensus, but we have a descriptor for
* it. Probably it was in a recent consensus. "Yes". */
return 0;
}
/** Set the per-conn read and write limits for <b>conn</b>. If it's a known
* relay, we will rely on the global read and write buckets, so give it
* per-conn limits that are big enough they'll never matter. But if it's
* not a known relay, first check if we set PerConnBwRate/Burst, then
* check if the consensus sets them, else default to 'big enough'.
*
* If <b>reset</b> is true, set the bucket to be full. Otherwise, just
* clip the bucket if it happens to be <em>too</em> full.
*/
static void
connection_or_update_token_buckets_helper(or_connection_t *conn, int reset,
const or_options_t *options)
{
int rate, burst; /* per-connection rate limiting params */
if (connection_or_digest_is_known_relay(conn->identity_digest)) {
/* It's in the consensus, or we have a descriptor for it meaning it
* was probably in a recent consensus. It's a recognized relay:
* give it full bandwidth. */
rate = (int)options->BandwidthRate;
burst = (int)options->BandwidthBurst;
} else {
/* Not a recognized relay. Squeeze it down based on the suggested
* bandwidth parameters in the consensus, but allow local config
* options to override. */
rate = options->PerConnBWRate ? (int)options->PerConnBWRate :
networkstatus_get_param(NULL, "perconnbwrate",
(int)options->BandwidthRate, 1, INT32_MAX);
burst = options->PerConnBWBurst ? (int)options->PerConnBWBurst :
networkstatus_get_param(NULL, "perconnbwburst",
(int)options->BandwidthBurst, 1, INT32_MAX);
}
conn->bandwidthrate = rate;
conn->bandwidthburst = burst;
#ifdef USE_BUFFEREVENTS
{
const struct timeval *tick = tor_libevent_get_one_tick_timeout();
struct ev_token_bucket_cfg *cfg, *old_cfg;
int64_t rate64 = (((int64_t)rate) * options->TokenBucketRefillInterval)
/ 1000;
/* This can't overflow, since TokenBucketRefillInterval <= 1000,
* and rate started out less than INT_MAX. */
int rate_per_tick = (int) rate64;
cfg = ev_token_bucket_cfg_new(rate_per_tick, burst, rate_per_tick,
burst, tick);
old_cfg = conn->bucket_cfg;
if (conn->base_.bufev)
tor_set_bufferevent_rate_limit(conn->base_.bufev, cfg);
if (old_cfg)
ev_token_bucket_cfg_free(old_cfg);
conn->bucket_cfg = cfg;
(void) reset; /* No way to do this with libevent yet. */
}
#else
if (reset) { /* set up the token buckets to be full */
conn->read_bucket = conn->write_bucket = burst;
return;
}
/* If the new token bucket is smaller, take out the extra tokens.
* (If it's larger, don't -- the buckets can grow to reach the cap.) */
if (conn->read_bucket > burst)
conn->read_bucket = burst;
if (conn->write_bucket > burst)
conn->write_bucket = burst;
#endif
}
/** Either our set of relays or our per-conn rate limits have changed.
* Go through all the OR connections and update their token buckets to make
* sure they don't exceed their maximum values. */
void
connection_or_update_token_buckets(smartlist_t *conns,
const or_options_t *options)
{
SMARTLIST_FOREACH(conns, connection_t *, conn,
{
if (connection_speaks_cells(conn))
connection_or_update_token_buckets_helper(TO_OR_CONN(conn), 0, options);
});
}
/** How long do we wait before killing non-canonical OR connections with no
* circuits? In Tor versions up to 0.2.1.25 and 0.2.2.12-alpha, we waited 15
* minutes before cancelling these connections, which caused fast relays to
* accrue many many idle connections. Hopefully 3-4.5 minutes is low enough
* that it kills most idle connections, without being so low that we cause
* clients to bounce on and off.
*
* For canonical connections, the limit is higher, at 15-22.5 minutes.
*
* For each OR connection, we randomly add up to 50% extra to its idle_timeout
* field, to avoid exposing when exactly the last circuit closed. Since we're
* storing idle_timeout in a uint16_t, don't let these values get higher than
* 12 hours or so without revising connection_or_set_canonical and/or expanding
* idle_timeout.
*/
#define IDLE_OR_CONN_TIMEOUT_NONCANONICAL 180
#define IDLE_OR_CONN_TIMEOUT_CANONICAL 900
/* Mark <b>or_conn</b> as canonical if <b>is_canonical</b> is set, and
* non-canonical otherwise. Adjust idle_timeout accordingly.
*/
void
connection_or_set_canonical(or_connection_t *or_conn,
int is_canonical)
{
const unsigned int timeout_base = is_canonical ?
IDLE_OR_CONN_TIMEOUT_CANONICAL : IDLE_OR_CONN_TIMEOUT_NONCANONICAL;
if (bool_eq(is_canonical, or_conn->is_canonical) &&
or_conn->idle_timeout != 0) {
/* Don't recalculate an existing idle_timeout unless the canonical
* status changed. */
return;
}
or_conn->is_canonical = !! is_canonical; /* force to a 1-bit boolean */
or_conn->idle_timeout = timeout_base + crypto_rand_int(timeout_base / 2);
}
/** If we don't necessarily know the router we're connecting to, but we
* have an addr/port/id_digest, then fill in as much as we can. Start
* by checking to see if this describes a router we know.
* <b>started_here</b> is 1 if we are the initiator of <b>conn</b> and
* 0 if it's an incoming connection. */
void
connection_or_init_conn_from_address(or_connection_t *conn,
const tor_addr_t *addr, uint16_t port,
const char *id_digest,
int started_here)
{
const node_t *r = node_get_by_id(id_digest);
connection_or_set_identity_digest(conn, id_digest);
connection_or_update_token_buckets_helper(conn, 1, get_options());
conn->base_.port = port;
tor_addr_copy(&conn->base_.addr, addr);
tor_addr_copy(&conn->real_addr, addr);
if (r) {
tor_addr_port_t node_ap;
node_get_pref_orport(r, &node_ap);
/* XXXX proposal 186 is making this more complex. For now, a conn
is canonical when it uses the _preferred_ address. */
if (tor_addr_eq(&conn->base_.addr, &node_ap.addr))
connection_or_set_canonical(conn, 1);
if (!started_here) {
/* Override the addr/port, so our log messages will make sense.
* This is dangerous, since if we ever try looking up a conn by
* its actual addr/port, we won't remember. Careful! */
/* XXXX arma: this is stupid, and it's the reason we need real_addr
* to track is_canonical properly. What requires it? */
/* XXXX <arma> i believe the reason we did this, originally, is because
* we wanted to log what OR a connection was to, and if we logged the
* right IP address and port 56244, that wouldn't be as helpful. now we
* log the "right" port too, so we know if it's moria1 or moria2.
*/
tor_addr_copy(&conn->base_.addr, &node_ap.addr);
conn->base_.port = node_ap.port;
}
conn->nickname = tor_strdup(node_get_nickname(r));
tor_free(conn->base_.address);
conn->base_.address = tor_dup_addr(&node_ap.addr);
} else {
conn->nickname = tor_malloc(HEX_DIGEST_LEN+2);
conn->nickname[0] = '$';
base16_encode(conn->nickname+1, HEX_DIGEST_LEN+1,
conn->identity_digest, DIGEST_LEN);
tor_free(conn->base_.address);
conn->base_.address = tor_dup_addr(addr);
}
/*
* We have to tell channeltls.c to update the channel marks (local, in
* particular), since we may have changed the address.
*/
if (conn->chan) {
channel_tls_update_marks(conn);
}
}
/** These just pass all the is_bad_for_new_circs manipulation on to
* channel_t */
static unsigned int
connection_or_is_bad_for_new_circs(or_connection_t *or_conn)
{
tor_assert(or_conn);
if (or_conn->chan)
return channel_is_bad_for_new_circs(TLS_CHAN_TO_BASE(or_conn->chan));
else return 0;
}
static void
connection_or_mark_bad_for_new_circs(or_connection_t *or_conn)
{
tor_assert(or_conn);
if (or_conn->chan)
channel_mark_bad_for_new_circs(TLS_CHAN_TO_BASE(or_conn->chan));
}
/** How old do we let a connection to an OR get before deciding it's
* too old for new circuits? */
#define TIME_BEFORE_OR_CONN_IS_TOO_OLD (60*60*24*7)
/** Given the head of the linked list for all the or_connections with a given
* identity, set elements of that list as is_bad_for_new_circs as
* appropriate. Helper for connection_or_set_bad_connections().
*
* Specifically, we set the is_bad_for_new_circs flag on:
* - all connections if <b>force</b> is true.
* - all connections that are too old.
* - all open non-canonical connections for which a canonical connection
* exists to the same router.
* - all open canonical connections for which a 'better' canonical
* connection exists to the same router.
* - all open non-canonical connections for which a 'better' non-canonical
* connection exists to the same router at the same address.
*
* See channel_is_better() in channel.c for our idea of what makes one OR
* connection better than another.
*/
static void
connection_or_group_set_badness(or_connection_t *head, int force)
{
or_connection_t *or_conn = NULL, *best = NULL;
int n_old = 0, n_inprogress = 0, n_canonical = 0, n_other = 0;
time_t now = time(NULL);
/* Pass 1: expire everything that's old, and see what the status of
* everything else is. */
for (or_conn = head; or_conn; or_conn = or_conn->next_with_same_id) {
if (or_conn->base_.marked_for_close ||
connection_or_is_bad_for_new_circs(or_conn))
continue;
if (force ||
or_conn->base_.timestamp_created + TIME_BEFORE_OR_CONN_IS_TOO_OLD
< now) {
log_info(LD_OR,
"Marking OR conn to %s:%d as too old for new circuits "
"(fd "TOR_SOCKET_T_FORMAT", %d secs old).",
or_conn->base_.address, or_conn->base_.port, or_conn->base_.s,
(int)(now - or_conn->base_.timestamp_created));
connection_or_mark_bad_for_new_circs(or_conn);
}
if (connection_or_is_bad_for_new_circs(or_conn)) {
++n_old;
} else if (or_conn->base_.state != OR_CONN_STATE_OPEN) {
++n_inprogress;
} else if (or_conn->is_canonical) {
++n_canonical;
} else {
++n_other;
}
}
/* Pass 2: We know how about how good the best connection is.
* expire everything that's worse, and find the very best if we can. */
for (or_conn = head; or_conn; or_conn = or_conn->next_with_same_id) {
if (or_conn->base_.marked_for_close ||
connection_or_is_bad_for_new_circs(or_conn))
continue; /* This one doesn't need to be marked bad. */
if (or_conn->base_.state != OR_CONN_STATE_OPEN)
continue; /* Don't mark anything bad until we have seen what happens
* when the connection finishes. */
if (n_canonical && !or_conn->is_canonical) {
/* We have at least one open canonical connection to this router,
* and this one is open but not canonical. Mark it bad. */
log_info(LD_OR,
"Marking OR conn to %s:%d as unsuitable for new circuits: "
"(fd "TOR_SOCKET_T_FORMAT", %d secs old). It is not "
"canonical, and we have another connection to that OR that is.",
or_conn->base_.address, or_conn->base_.port, or_conn->base_.s,
(int)(now - or_conn->base_.timestamp_created));
connection_or_mark_bad_for_new_circs(or_conn);
continue;
}
if (!best ||
channel_is_better(now,
TLS_CHAN_TO_BASE(or_conn->chan),
TLS_CHAN_TO_BASE(best->chan),
0)) {
best = or_conn;
}
}
if (!best)
return;
/* Pass 3: One connection to OR is best. If it's canonical, mark as bad
* every other open connection. If it's non-canonical, mark as bad
* every other open connection to the same address.
*
* XXXX This isn't optimal; if we have connections to an OR at multiple
* addresses, we'd like to pick the best _for each address_, and mark as
* bad every open connection that isn't best for its address. But this
* can only occur in cases where the other OR is old (so we have no
* canonical connection to it), or where all the connections to the OR are
* at noncanonical addresses and we have no good direct connection (which
* means we aren't at risk of attaching circuits to it anyway). As
* 0.1.2.x dies out, the first case will go away, and the second one is
* "mostly harmless", so a fix can wait until somebody is bored.
*/
for (or_conn = head; or_conn; or_conn = or_conn->next_with_same_id) {
if (or_conn->base_.marked_for_close ||
connection_or_is_bad_for_new_circs(or_conn) ||
or_conn->base_.state != OR_CONN_STATE_OPEN)
continue;
if (or_conn != best &&
channel_is_better(now,
TLS_CHAN_TO_BASE(best->chan),
TLS_CHAN_TO_BASE(or_conn->chan), 1)) {
/* This isn't the best conn, _and_ the best conn is better than it,
even when we're being forgiving. */
if (best->is_canonical) {
log_info(LD_OR,
"Marking OR conn to %s:%d as unsuitable for new circuits: "
"(fd "TOR_SOCKET_T_FORMAT", %d secs old). "
"We have a better canonical one "
"(fd "TOR_SOCKET_T_FORMAT"; %d secs old).",
or_conn->base_.address, or_conn->base_.port, or_conn->base_.s,
(int)(now - or_conn->base_.timestamp_created),
best->base_.s, (int)(now - best->base_.timestamp_created));
connection_or_mark_bad_for_new_circs(or_conn);
} else if (!tor_addr_compare(&or_conn->real_addr,
&best->real_addr, CMP_EXACT)) {
log_info(LD_OR,
"Marking OR conn to %s:%d as unsuitable for new circuits: "
"(fd "TOR_SOCKET_T_FORMAT", %d secs old). We have a better "
"one with the "
"same address (fd "TOR_SOCKET_T_FORMAT"; %d secs old).",
or_conn->base_.address, or_conn->base_.port, or_conn->base_.s,
(int)(now - or_conn->base_.timestamp_created),
best->base_.s, (int)(now - best->base_.timestamp_created));
connection_or_mark_bad_for_new_circs(or_conn);
}
}
}
}
/** Go through all the OR connections (or if <b>digest</b> is non-NULL, just
* the OR connections with that digest), and set the is_bad_for_new_circs
* flag based on the rules in connection_or_group_set_badness() (or just
* always set it if <b>force</b> is true).
*/
void
connection_or_set_bad_connections(const char *digest, int force)
{
if (!orconn_identity_map)
return;
DIGESTMAP_FOREACH(orconn_identity_map, identity, or_connection_t *, conn) {
if (!digest || tor_memeq(digest, conn->identity_digest, DIGEST_LEN))
connection_or_group_set_badness(conn, force);
} DIGESTMAP_FOREACH_END;
}
/** <b>conn</b> is in the 'connecting' state, and it failed to complete
* a TCP connection. Send notifications appropriately.
*
* <b>reason</b> specifies the or_conn_end_reason for the failure;
* <b>msg</b> specifies the strerror-style error message.
*/
void
connection_or_connect_failed(or_connection_t *conn,
int reason, const char *msg)
{
control_event_or_conn_status(conn, OR_CONN_EVENT_FAILED, reason);
if (!authdir_mode_tests_reachability(get_options()))
control_event_bootstrap_problem(msg, reason, conn);
}
/** <b>conn</b> got an error in connection_handle_read_impl() or
* connection_handle_write_impl() and is going to die soon.
*
* <b>reason</b> specifies the or_conn_end_reason for the failure;
* <b>msg</b> specifies the strerror-style error message.
*/
void
connection_or_notify_error(or_connection_t *conn,
int reason, const char *msg)
{
channel_t *chan;
tor_assert(conn);
/* If we're connecting, call connect_failed() too */
if (TO_CONN(conn)->state == OR_CONN_STATE_CONNECTING)
connection_or_connect_failed(conn, reason, msg);
/* Tell the controlling channel if we have one */
if (conn->chan) {
chan = TLS_CHAN_TO_BASE(conn->chan);
/* Don't transition if we're already in closing, closed or error */
if (!CHANNEL_CONDEMNED(chan)) {
channel_close_for_error(chan);
}
}
/* No need to mark for error because connection.c is about to do that */
}
/** Launch a new OR connection to <b>addr</b>:<b>port</b> and expect to
* handshake with an OR with identity digest <b>id_digest</b>. Optionally,
* pass in a pointer to a channel using this connection.
*
* If <b>id_digest</b> is me, do nothing. If we're already connected to it,
* return that connection. If the connect() is in progress, set the
* new conn's state to 'connecting' and return it. If connect() succeeds,
* call connection_tls_start_handshake() on it.
*
* This function is called from router_retry_connections(), for
* ORs connecting to ORs, and circuit_establish_circuit(), for
* OPs connecting to ORs.
*
* Return the launched conn, or NULL if it failed.
*/
MOCK_IMPL(or_connection_t *,
connection_or_connect, (const tor_addr_t *_addr, uint16_t port,
const char *id_digest, channel_tls_t *chan))
{
or_connection_t *conn;
const or_options_t *options = get_options();
int socket_error = 0;
tor_addr_t addr;
int r;
tor_addr_t proxy_addr;
uint16_t proxy_port;
int proxy_type;
tor_assert(_addr);
tor_assert(id_digest);
tor_addr_copy(&addr, _addr);
if (server_mode(options) && router_digest_is_me(id_digest)) {
log_info(LD_PROTOCOL,"Client asked me to connect to myself. Refusing.");
return NULL;
}
conn = or_connection_new(CONN_TYPE_OR, tor_addr_family(&addr));
/*
* Set up conn so it's got all the data we need to remember for channels
*
* This stuff needs to happen before connection_or_init_conn_from_address()
* so connection_or_set_identity_digest() and such know where to look to
* keep the channel up to date.
*/
conn->chan = chan;
chan->conn = conn;
connection_or_init_conn_from_address(conn, &addr, port, id_digest, 1);
connection_or_change_state(conn, OR_CONN_STATE_CONNECTING);
control_event_or_conn_status(conn, OR_CONN_EVENT_LAUNCHED, 0);
conn->is_outgoing = 1;
/* If we are using a proxy server, find it and use it. */
r = get_proxy_addrport(&proxy_addr, &proxy_port, &proxy_type, TO_CONN(conn));
if (r == 0) {
conn->proxy_type = proxy_type;
if (proxy_type != PROXY_NONE) {
tor_addr_copy(&addr, &proxy_addr);
port = proxy_port;
conn->base_.proxy_state = PROXY_INFANT;
}
} else {
/* get_proxy_addrport() might fail if we have a Bridge line that
references a transport, but no ClientTransportPlugin lines
defining its transport proxy. If this is the case, let's try to
output a useful log message to the user. */
const char *transport_name =
find_transport_name_by_bridge_addrport(&TO_CONN(conn)->addr,
TO_CONN(conn)->port);
if (transport_name) {
log_warn(LD_GENERAL, "We were supposed to connect to bridge '%s' "
"using pluggable transport '%s', but we can't find a pluggable "
"transport proxy supporting '%s'. This can happen if you "
"haven't provided a ClientTransportPlugin line, or if "
"your pluggable transport proxy stopped running.",
fmt_addrport(&TO_CONN(conn)->addr, TO_CONN(conn)->port),
transport_name, transport_name);
control_event_bootstrap_problem(
"Can't connect to bridge",
END_OR_CONN_REASON_PT_MISSING,
conn);
} else {
log_warn(LD_GENERAL, "Tried to connect to '%s' through a proxy, but "
"the proxy address could not be found.",
fmt_addrport(&TO_CONN(conn)->addr, TO_CONN(conn)->port));
}
connection_free(TO_CONN(conn));
return NULL;
}
switch (connection_connect(TO_CONN(conn), conn->base_.address,
&addr, port, &socket_error)) {
case -1:
/* If the connection failed immediately, and we're using
* a proxy, our proxy is down. Don't blame the Tor server. */
if (conn->base_.proxy_state == PROXY_INFANT)
entry_guard_register_connect_status(conn->identity_digest,
0, 1, time(NULL));
connection_or_connect_failed(conn,
errno_to_orconn_end_reason(socket_error),
tor_socket_strerror(socket_error));
connection_free(TO_CONN(conn));
return NULL;
case 0:
connection_watch_events(TO_CONN(conn), READ_EVENT | WRITE_EVENT);
/* writable indicates finish, readable indicates broken link,
error indicates broken link on windows */
return conn;
/* case 1: fall through */
}
if (connection_or_finished_connecting(conn) < 0) {
/* already marked for close */
return NULL;
}
return conn;
}
/** Mark orconn for close and transition the associated channel, if any, to
* the closing state.
*
* It's safe to call this and connection_or_close_for_error() any time, and
* channel layer will treat it as a connection closing for reasons outside
* its control, like the remote end closing it. It can also be a local
* reason that's specific to connection_t/or_connection_t rather than
* the channel mechanism, such as expiration of old connections in
* run_connection_housekeeping(). If you want to close a channel_t
* from somewhere that logically works in terms of generic channels
* rather than connections, use channel_mark_for_close(); see also
* the comment on that function in channel.c.
*/
void
connection_or_close_normally(or_connection_t *orconn, int flush)
{
channel_t *chan = NULL;
tor_assert(orconn);
if (flush) connection_mark_and_flush_internal(TO_CONN(orconn));
else connection_mark_for_close_internal(TO_CONN(orconn));
if (orconn->chan) {
chan = TLS_CHAN_TO_BASE(orconn->chan);
/* Don't transition if we're already in closing, closed or error */
if (!CHANNEL_CONDEMNED(chan)) {
channel_close_from_lower_layer(chan);
}
}
}
/** Mark orconn for close and transition the associated channel, if any, to
* the error state.
*/
MOCK_IMPL(void,
connection_or_close_for_error,(or_connection_t *orconn, int flush))
{
channel_t *chan = NULL;
tor_assert(orconn);
if (flush) connection_mark_and_flush_internal(TO_CONN(orconn));
else connection_mark_for_close_internal(TO_CONN(orconn));
if (orconn->chan) {
chan = TLS_CHAN_TO_BASE(orconn->chan);
/* Don't transition if we're already in closing, closed or error */
if (!CHANNEL_CONDEMNED(chan)) {
channel_close_for_error(chan);
}
}
}
/** Begin the tls handshake with <b>conn</b>. <b>receiving</b> is 0 if
* we initiated the connection, else it's 1.
*
* Assign a new tls object to conn->tls, begin reading on <b>conn</b>, and
* pass <b>conn</b> to connection_tls_continue_handshake().
*
* Return -1 if <b>conn</b> is broken, else return 0.
*/
MOCK_IMPL(int,
connection_tls_start_handshake,(or_connection_t *conn, int receiving))
{
channel_listener_t *chan_listener;
channel_t *chan;
/* Incoming connections will need a new channel passed to the
* channel_tls_listener */
if (receiving) {
/* It shouldn't already be set */
tor_assert(!(conn->chan));
chan_listener = channel_tls_get_listener();
if (!chan_listener) {
chan_listener = channel_tls_start_listener();
command_setup_listener(chan_listener);
}
chan = channel_tls_handle_incoming(conn);
channel_listener_queue_incoming(chan_listener, chan);
}
connection_or_change_state(conn, OR_CONN_STATE_TLS_HANDSHAKING);
tor_assert(!conn->tls);
conn->tls = tor_tls_new(conn->base_.s, receiving);
if (!conn->tls) {
log_warn(LD_BUG,"tor_tls_new failed. Closing.");
return -1;
}
tor_tls_set_logged_address(conn->tls, // XXX client and relay?
escaped_safe_str(conn->base_.address));
#ifdef USE_BUFFEREVENTS
if (connection_type_uses_bufferevent(TO_CONN(conn))) {
const int filtering = get_options()->UseFilteringSSLBufferevents;
struct bufferevent *b =
tor_tls_init_bufferevent(conn->tls, conn->base_.bufev, conn->base_.s,
receiving, filtering);
if (!b) {
log_warn(LD_BUG,"tor_tls_init_bufferevent failed. Closing.");
return -1;
}
conn->base_.bufev = b;
if (conn->bucket_cfg)
tor_set_bufferevent_rate_limit(conn->base_.bufev, conn->bucket_cfg);
connection_enable_rate_limiting(TO_CONN(conn));
connection_configure_bufferevent_callbacks(TO_CONN(conn));
bufferevent_setcb(b,
connection_handle_read_cb,
connection_handle_write_cb,
connection_or_handle_event_cb,/* overriding this one*/
TO_CONN(conn));
}
#endif
connection_start_reading(TO_CONN(conn));
log_debug(LD_HANDSHAKE,"starting TLS handshake on fd "TOR_SOCKET_T_FORMAT,
conn->base_.s);
note_crypto_pk_op(receiving ? TLS_HANDSHAKE_S : TLS_HANDSHAKE_C);
IF_HAS_BUFFEREVENT(TO_CONN(conn), {
/* ???? */;
}) ELSE_IF_NO_BUFFEREVENT {
if (connection_tls_continue_handshake(conn) < 0)
return -1;
}
return 0;
}
/** Block all future attempts to renegotiate on 'conn' */
void
connection_or_block_renegotiation(or_connection_t *conn)
{
tor_tls_t *tls = conn->tls;
if (!tls)
return;
tor_tls_set_renegotiate_callback(tls, NULL, NULL);
tor_tls_block_renegotiation(tls);
}
/** Invoked on the server side from inside tor_tls_read() when the server
* gets a successful TLS renegotiation from the client. */
static void
connection_or_tls_renegotiated_cb(tor_tls_t *tls, void *_conn)
{
or_connection_t *conn = _conn;
(void)tls;
/* Don't invoke this again. */
connection_or_block_renegotiation(conn);
if (connection_tls_finish_handshake(conn) < 0) {
/* XXXX_TLS double-check that it's ok to do this from inside read. */
/* XXXX_TLS double-check that this verifies certificates. */
connection_or_close_for_error(conn, 0);
}
}
/** Move forward with the tls handshake. If it finishes, hand
* <b>conn</b> to connection_tls_finish_handshake().
*
* Return -1 if <b>conn</b> is broken, else return 0.
*/
int
connection_tls_continue_handshake(or_connection_t *conn)
{
int result;
check_no_tls_errors();
tor_assert(conn->base_.state == OR_CONN_STATE_TLS_HANDSHAKING);
// log_notice(LD_OR, "Continue handshake with %p", conn->tls);
result = tor_tls_handshake(conn->tls);
// log_notice(LD_OR, "Result: %d", result);
switch (result) {
CASE_TOR_TLS_ERROR_ANY:
log_info(LD_OR,"tls error [%s]. breaking connection.",
tor_tls_err_to_string(result));
return -1;
case TOR_TLS_DONE:
if (! tor_tls_used_v1_handshake(conn->tls)) {
if (!tor_tls_is_server(conn->tls)) {
tor_assert(conn->base_.state == OR_CONN_STATE_TLS_HANDSHAKING);
return connection_or_launch_v3_or_handshake(conn);
} else {
/* v2/v3 handshake, but we are not a client. */
log_debug(LD_OR, "Done with initial SSL handshake (server-side). "
"Expecting renegotiation or VERSIONS cell");
tor_tls_set_renegotiate_callback(conn->tls,
connection_or_tls_renegotiated_cb,
conn);
connection_or_change_state(conn,
OR_CONN_STATE_TLS_SERVER_RENEGOTIATING);
connection_stop_writing(TO_CONN(conn));
connection_start_reading(TO_CONN(conn));
return 0;
}
}
tor_assert(!tor_tls_is_server(conn->tls));
return connection_tls_finish_handshake(conn);
case TOR_TLS_WANTWRITE:
connection_start_writing(TO_CONN(conn));
log_debug(LD_OR,"wanted write");
return 0;
case TOR_TLS_WANTREAD: /* handshaking conns are *always* reading */
log_debug(LD_OR,"wanted read");
return 0;
case TOR_TLS_CLOSE:
log_info(LD_OR,"tls closed. breaking connection.");
return -1;
}
return 0;
}
#ifdef USE_BUFFEREVENTS
static void
connection_or_handle_event_cb(struct bufferevent *bufev, short event,
void *arg)
{
struct or_connection_t *conn = TO_OR_CONN(arg);
/* XXXX cut-and-paste code; should become a function. */
if (event & BEV_EVENT_CONNECTED) {
if (conn->base_.state == OR_CONN_STATE_TLS_HANDSHAKING) {
if (tor_tls_finish_handshake(conn->tls) < 0) {
log_warn(LD_OR, "Problem finishing handshake");
connection_or_close_for_error(conn, 0);
return;
}
}
if (! tor_tls_used_v1_handshake(conn->tls)) {
if (!tor_tls_is_server(conn->tls)) {
if (conn->base_.state == OR_CONN_STATE_TLS_HANDSHAKING) {
if (connection_or_launch_v3_or_handshake(conn) < 0)
connection_or_close_for_error(conn, 0);
}
} else {
const int handshakes = tor_tls_get_num_server_handshakes(conn->tls);
if (handshakes == 1) {
/* v2 or v3 handshake, as a server. Only got one handshake, so
* wait for the next one. */
tor_tls_set_renegotiate_callback(conn->tls,
connection_or_tls_renegotiated_cb,
conn);
connection_or_change_state(conn,
OR_CONN_STATE_TLS_SERVER_RENEGOTIATING);
} else if (handshakes == 2) {
/* v2 handshake, as a server. Two handshakes happened already,
* so we treat renegotiation as done.
*/
connection_or_tls_renegotiated_cb(conn->tls, conn);
} else if (handshakes > 2) {
log_warn(LD_OR, "More than two handshakes done on connection. "
"Closing.");
connection_or_close_for_error(conn, 0);
} else {
log_warn(LD_BUG, "We were unexpectedly told that a connection "
"got %d handshakes. Closing.", handshakes);
connection_or_close_for_error(conn, 0);
}
return;
}
}
connection_watch_events(TO_CONN(conn), READ_EVENT|WRITE_EVENT);
if (connection_tls_finish_handshake(conn) < 0)
connection_or_close_for_error(conn, 0); /* ???? */
return;
}
if (event & BEV_EVENT_ERROR) {
unsigned long err;
while ((err = bufferevent_get_openssl_error(bufev))) {
tor_tls_log_one_error(conn->tls, err, LOG_WARN, LD_OR,
"handshaking (with bufferevent)");
}
}
connection_handle_event_cb(bufev, event, arg);
}
#endif
/** Return 1 if we initiated this connection, or 0 if it started
* out as an incoming connection.
*/
int
connection_or_nonopen_was_started_here(or_connection_t *conn)
{
tor_assert(conn->base_.type == CONN_TYPE_OR ||
conn->base_.type == CONN_TYPE_EXT_OR);
if (!conn->tls)
return 1; /* it's still in proxy states or something */
if (conn->handshake_state)
return conn->handshake_state->started_here;
return !tor_tls_is_server(conn->tls);
}
/** <b>Conn</b> just completed its handshake. Return 0 if all is well, and
* return -1 if he is lying, broken, or otherwise something is wrong.
*
* If we initiated this connection (<b>started_here</b> is true), make sure
* the other side sent a correctly formed certificate. If I initiated the
* connection, make sure it's the right guy.
*
* Otherwise (if we _didn't_ initiate this connection), it's okay for
* the certificate to be weird or absent.
*
* If we return 0, and the certificate is as expected, write a hash of the
* identity key into <b>digest_rcvd_out</b>, which must have DIGEST_LEN
* space in it.
* If the certificate is invalid or missing on an incoming connection,
* we return 0 and set <b>digest_rcvd_out</b> to DIGEST_LEN NUL bytes.
* (If we return -1, the contents of this buffer are undefined.)
*
* As side effects,
* 1) Set conn->circ_id_type according to tor-spec.txt.
* 2) If we're an authdirserver and we initiated the connection: drop all
* descriptors that claim to be on that IP/port but that aren't
* this guy; and note that this guy is reachable.
* 3) If this is a bridge and we didn't configure its identity
* fingerprint, remember the keyid we just learned.
*/
static int
connection_or_check_valid_tls_handshake(or_connection_t *conn,
int started_here,
char *digest_rcvd_out)
{
crypto_pk_t *identity_rcvd=NULL;
const or_options_t *options = get_options();
int severity = server_mode(options) ? LOG_PROTOCOL_WARN : LOG_WARN;
const char *safe_address =
started_here ? conn->base_.address :
safe_str_client(conn->base_.address);
const char *conn_type = started_here ? "outgoing" : "incoming";
int has_cert = 0;
check_no_tls_errors();
has_cert = tor_tls_peer_has_cert(conn->tls);
if (started_here && !has_cert) {
log_info(LD_HANDSHAKE,"Tried connecting to router at %s:%d, but it didn't "
"send a cert! Closing.",
safe_address, conn->base_.port);
return -1;
} else if (!has_cert) {
log_debug(LD_HANDSHAKE,"Got incoming connection with no certificate. "
"That's ok.");
}
check_no_tls_errors();
if (has_cert) {
int v = tor_tls_verify(started_here?severity:LOG_INFO,
conn->tls, &identity_rcvd);
if (started_here && v<0) {
log_fn(severity,LD_HANDSHAKE,"Tried connecting to router at %s:%d: It"
" has a cert but it's invalid. Closing.",
safe_address, conn->base_.port);
return -1;
} else if (v<0) {
log_info(LD_HANDSHAKE,"Incoming connection gave us an invalid cert "
"chain; ignoring.");
} else {
log_debug(LD_HANDSHAKE,
"The certificate seems to be valid on %s connection "
"with %s:%d", conn_type, safe_address, conn->base_.port);
}
check_no_tls_errors();
}
if (identity_rcvd) {
crypto_pk_get_digest(identity_rcvd, digest_rcvd_out);
} else {
memset(digest_rcvd_out, 0, DIGEST_LEN);
}
tor_assert(conn->chan);
channel_set_circid_type(TLS_CHAN_TO_BASE(conn->chan), identity_rcvd, 1);
crypto_pk_free(identity_rcvd);
if (started_here)
return connection_or_client_learned_peer_id(conn,
(const uint8_t*)digest_rcvd_out);
return 0;
}
/** Called when we (as a connection initiator) have definitively,
* authenticatedly, learned that ID of the Tor instance on the other
* side of <b>conn</b> is <b>peer_id</b>. For v1 and v2 handshakes,
* this is right after we get a certificate chain in a TLS handshake
* or renegotiation. For v3 handshakes, this is right after we get a
* certificate chain in a CERTS cell.
*
* If we want any particular ID before, record the one we got.
*
* If we wanted an ID, but we didn't get it, log a warning and return -1.
*
* If we're testing reachability, remember what we learned.
*
* Return 0 on success, -1 on failure.
*/
int
connection_or_client_learned_peer_id(or_connection_t *conn,
const uint8_t *peer_id)
{
const or_options_t *options = get_options();
int severity = server_mode(options) ? LOG_PROTOCOL_WARN : LOG_WARN;
if (tor_digest_is_zero(conn->identity_digest)) {
connection_or_set_identity_digest(conn, (const char*)peer_id);
tor_free(conn->nickname);
conn->nickname = tor_malloc(HEX_DIGEST_LEN+2);
conn->nickname[0] = '$';
base16_encode(conn->nickname+1, HEX_DIGEST_LEN+1,
conn->identity_digest, DIGEST_LEN);
log_info(LD_HANDSHAKE, "Connected to router %s at %s:%d without knowing "
"its key. Hoping for the best.",
conn->nickname, conn->base_.address, conn->base_.port);
/* if it's a bridge and we didn't know its identity fingerprint, now
* we do -- remember it for future attempts. */
learned_router_identity(&conn->base_.addr, conn->base_.port,
(const char*)peer_id);
}
if (tor_memneq(peer_id, conn->identity_digest, DIGEST_LEN)) {
/* I was aiming for a particular digest. I didn't get it! */
char seen[HEX_DIGEST_LEN+1];
char expected[HEX_DIGEST_LEN+1];
base16_encode(seen, sizeof(seen), (const char*)peer_id, DIGEST_LEN);
base16_encode(expected, sizeof(expected), conn->identity_digest,
DIGEST_LEN);
log_fn(severity, LD_HANDSHAKE,
"Tried connecting to router at %s:%d, but identity key was not "
"as expected: wanted %s but got %s.",
conn->base_.address, conn->base_.port, expected, seen);
entry_guard_register_connect_status(conn->identity_digest, 0, 1,
time(NULL));
control_event_or_conn_status(conn, OR_CONN_EVENT_FAILED,
END_OR_CONN_REASON_OR_IDENTITY);
if (!authdir_mode_tests_reachability(options))
control_event_bootstrap_problem(
"Unexpected identity in router certificate",
END_OR_CONN_REASON_OR_IDENTITY,
conn);
return -1;
}
if (authdir_mode_tests_reachability(options)) {
dirserv_orconn_tls_done(&conn->base_.addr, conn->base_.port,
(const char*)peer_id);
}
return 0;
}
/** Return when a client used this, for connection.c, since client_used
* is now one of the timestamps of channel_t */
time_t
connection_or_client_used(or_connection_t *conn)
{
tor_assert(conn);
if (conn->chan) {
return channel_when_last_client(TLS_CHAN_TO_BASE(conn->chan));
} else return 0;
}
/** The v1/v2 TLS handshake is finished.
*
* Make sure we are happy with the person we just handshaked with.
*
* If he initiated the connection, make sure he's not already connected,
* then initialize conn from the information in router.
*
* If all is successful, call circuit_n_conn_done() to handle events
* that have been pending on the <tls handshake completion. Also set the
* directory to be dirty (only matters if I'm an authdirserver).
*
* If this is a v2 TLS handshake, send a versions cell.
*/
static int
connection_tls_finish_handshake(or_connection_t *conn)
{
char digest_rcvd[DIGEST_LEN];
int started_here = connection_or_nonopen_was_started_here(conn);
tor_assert(!started_here);
log_debug(LD_HANDSHAKE,"%s tls handshake on %p with %s done, using "
"ciphersuite %s. verifying.",
started_here?"outgoing":"incoming",
conn,
safe_str_client(conn->base_.address),
tor_tls_get_ciphersuite_name(conn->tls));
if (connection_or_check_valid_tls_handshake(conn, started_here,
digest_rcvd) < 0)
return -1;
circuit_build_times_network_is_live(get_circuit_build_times_mutable());
if (tor_tls_used_v1_handshake(conn->tls)) {
conn->link_proto = 1;
connection_or_init_conn_from_address(conn, &conn->base_.addr,
conn->base_.port, digest_rcvd, 0);
tor_tls_block_renegotiation(conn->tls);
rep_hist_note_negotiated_link_proto(1, started_here);
return connection_or_set_state_open(conn);
} else {
connection_or_change_state(conn, OR_CONN_STATE_OR_HANDSHAKING_V2);
if (connection_init_or_handshake_state(conn, started_here) < 0)
return -1;
connection_or_init_conn_from_address(conn, &conn->base_.addr,
conn->base_.port, digest_rcvd, 0);
return connection_or_send_versions(conn, 0);
}
}
/**
* Called as client when initial TLS handshake is done, and we notice
* that we got a v3-handshake signalling certificate from the server.
* Set up structures, do bookkeeping, and send the versions cell.
* Return 0 on success and -1 on failure.
*/
static int
connection_or_launch_v3_or_handshake(or_connection_t *conn)
{
tor_assert(connection_or_nonopen_was_started_here(conn));
circuit_build_times_network_is_live(get_circuit_build_times_mutable());
connection_or_change_state(conn, OR_CONN_STATE_OR_HANDSHAKING_V3);
if (connection_init_or_handshake_state(conn, 1) < 0)
return -1;
return connection_or_send_versions(conn, 1);
}
/** Allocate a new connection handshake state for the connection
* <b>conn</b>. Return 0 on success, -1 on failure. */
int
connection_init_or_handshake_state(or_connection_t *conn, int started_here)
{
or_handshake_state_t *s;
if (conn->handshake_state) {
log_warn(LD_BUG, "Duplicate call to connection_init_or_handshake_state!");
return 0;
}
s = conn->handshake_state = tor_malloc_zero(sizeof(or_handshake_state_t));
s->started_here = started_here ? 1 : 0;
s->digest_sent_data = 1;
s->digest_received_data = 1;
return 0;
}
/** Free all storage held by <b>state</b>. */
void
or_handshake_state_free(or_handshake_state_t *state)
{
if (!state)
return;
crypto_digest_free(state->digest_sent);
crypto_digest_free(state->digest_received);
tor_x509_cert_free(state->auth_cert);
tor_x509_cert_free(state->id_cert);
memwipe(state, 0xBE, sizeof(or_handshake_state_t));
tor_free(state);
}
/**
* Remember that <b>cell</b> has been transmitted (if <b>incoming</b> is
* false) or received (if <b>incoming</b> is true) during a V3 handshake using
* <b>state</b>.
*
* (We don't record the cell, but we keep a digest of everything sent or
* received during the v3 handshake, and the client signs it in an
* authenticate cell.)
*/
void
or_handshake_state_record_cell(or_connection_t *conn,
or_handshake_state_t *state,
const cell_t *cell,
int incoming)
{
size_t cell_network_size = get_cell_network_size(conn->wide_circ_ids);
crypto_digest_t *d, **dptr;
packed_cell_t packed;
if (incoming) {
if (!state->digest_received_data)
return;
} else {
if (!state->digest_sent_data)
return;
}
if (!incoming) {
log_warn(LD_BUG, "We shouldn't be sending any non-variable-length cells "
"while making a handshake digest. But we think we are sending "
"one with type %d.", (int)cell->command);
}
dptr = incoming ? &state->digest_received : &state->digest_sent;
if (! *dptr)
*dptr = crypto_digest256_new(DIGEST_SHA256);
d = *dptr;
/* Re-packing like this is a little inefficient, but we don't have to do
this very often at all. */
cell_pack(&packed, cell, conn->wide_circ_ids);
crypto_digest_add_bytes(d, packed.body, cell_network_size);
memwipe(&packed, 0, sizeof(packed));
}
/** Remember that a variable-length <b>cell</b> has been transmitted (if
* <b>incoming</b> is false) or received (if <b>incoming</b> is true) during a
* V3 handshake using <b>state</b>.
*
* (We don't record the cell, but we keep a digest of everything sent or
* received during the v3 handshake, and the client signs it in an
* authenticate cell.)
*/
void
or_handshake_state_record_var_cell(or_connection_t *conn,
or_handshake_state_t *state,
const var_cell_t *cell,
int incoming)
{
crypto_digest_t *d, **dptr;
int n;
char buf[VAR_CELL_MAX_HEADER_SIZE];
if (incoming) {
if (!state->digest_received_data)
return;
} else {
if (!state->digest_sent_data)
return;
}
dptr = incoming ? &state->digest_received : &state->digest_sent;
if (! *dptr)
*dptr = crypto_digest256_new(DIGEST_SHA256);
d = *dptr;
n = var_cell_pack_header(cell, buf, conn->wide_circ_ids);
crypto_digest_add_bytes(d, buf, n);
crypto_digest_add_bytes(d, (const char *)cell->payload, cell->payload_len);
memwipe(buf, 0, sizeof(buf));
}
/** Set <b>conn</b>'s state to OR_CONN_STATE_OPEN, and tell other subsystems
* as appropriate. Called when we are done with all TLS and OR handshaking.
*/
int
connection_or_set_state_open(or_connection_t *conn)
{
connection_or_change_state(conn, OR_CONN_STATE_OPEN);
control_event_or_conn_status(conn, OR_CONN_EVENT_CONNECTED, 0);
or_handshake_state_free(conn->handshake_state);
conn->handshake_state = NULL;
IF_HAS_BUFFEREVENT(TO_CONN(conn), {
connection_watch_events(TO_CONN(conn), READ_EVENT|WRITE_EVENT);
}) ELSE_IF_NO_BUFFEREVENT {
connection_start_reading(TO_CONN(conn));
}
return 0;
}
/** Pack <b>cell</b> into wire-format, and write it onto <b>conn</b>'s outbuf.
* For cells that use or affect a circuit, this should only be called by
* connection_or_flush_from_first_active_circuit().
*/
void
connection_or_write_cell_to_buf(const cell_t *cell, or_connection_t *conn)
{
packed_cell_t networkcell;
size_t cell_network_size = get_cell_network_size(conn->wide_circ_ids);
tor_assert(cell);
tor_assert(conn);
cell_pack(&networkcell, cell, conn->wide_circ_ids);
connection_write_to_buf(networkcell.body, cell_network_size, TO_CONN(conn));
/* Touch the channel's active timestamp if there is one */
if (conn->chan)
channel_timestamp_active(TLS_CHAN_TO_BASE(conn->chan));
if (conn->base_.state == OR_CONN_STATE_OR_HANDSHAKING_V3)
or_handshake_state_record_cell(conn, conn->handshake_state, cell, 0);
}
/** Pack a variable-length <b>cell</b> into wire-format, and write it onto
* <b>conn</b>'s outbuf. Right now, this <em>DOES NOT</em> support cells that
* affect a circuit.
*/
MOCK_IMPL(void,
connection_or_write_var_cell_to_buf,(const var_cell_t *cell,
or_connection_t *conn))
{
int n;
char hdr[VAR_CELL_MAX_HEADER_SIZE];
tor_assert(cell);
tor_assert(conn);
n = var_cell_pack_header(cell, hdr, conn->wide_circ_ids);
connection_write_to_buf(hdr, n, TO_CONN(conn));
connection_write_to_buf((char*)cell->payload,
cell->payload_len, TO_CONN(conn));
if (conn->base_.state == OR_CONN_STATE_OR_HANDSHAKING_V3)
or_handshake_state_record_var_cell(conn, conn->handshake_state, cell, 0);
/* Touch the channel's active timestamp if there is one */
if (conn->chan)
channel_timestamp_active(TLS_CHAN_TO_BASE(conn->chan));
}
/** See whether there's a variable-length cell waiting on <b>or_conn</b>'s
* inbuf. Return values as for fetch_var_cell_from_buf(). */
static int
connection_fetch_var_cell_from_buf(or_connection_t *or_conn, var_cell_t **out)
{
connection_t *conn = TO_CONN(or_conn);
IF_HAS_BUFFEREVENT(conn, {
struct evbuffer *input = bufferevent_get_input(conn->bufev);
return fetch_var_cell_from_evbuffer(input, out, or_conn->link_proto);
}) ELSE_IF_NO_BUFFEREVENT {
return fetch_var_cell_from_buf(conn->inbuf, out, or_conn->link_proto);
}
}
/** Process cells from <b>conn</b>'s inbuf.
*
* Loop: while inbuf contains a cell, pull it off the inbuf, unpack it,
* and hand it to command_process_cell().
*
* Always return 0.
*/
static int
connection_or_process_cells_from_inbuf(or_connection_t *conn)
{
var_cell_t *var_cell;
while (1) {
log_debug(LD_OR,
TOR_SOCKET_T_FORMAT": starting, inbuf_datalen %d "
"(%d pending in tls object).",
conn->base_.s,(int)connection_get_inbuf_len(TO_CONN(conn)),
tor_tls_get_pending_bytes(conn->tls));
if (connection_fetch_var_cell_from_buf(conn, &var_cell)) {
if (!var_cell)
return 0; /* not yet. */
/* Touch the channel's active timestamp if there is one */
if (conn->chan)
channel_timestamp_active(TLS_CHAN_TO_BASE(conn->chan));
circuit_build_times_network_is_live(get_circuit_build_times_mutable());
channel_tls_handle_var_cell(var_cell, conn);
var_cell_free(var_cell);
} else {
const int wide_circ_ids = conn->wide_circ_ids;
size_t cell_network_size = get_cell_network_size(conn->wide_circ_ids);
char buf[CELL_MAX_NETWORK_SIZE];
cell_t cell;
if (connection_get_inbuf_len(TO_CONN(conn))
< cell_network_size) /* whole response available? */
return 0; /* not yet */
/* Touch the channel's active timestamp if there is one */
if (conn->chan)
channel_timestamp_active(TLS_CHAN_TO_BASE(conn->chan));
circuit_build_times_network_is_live(get_circuit_build_times_mutable());
connection_fetch_from_buf(buf, cell_network_size, TO_CONN(conn));
/* retrieve cell info from buf (create the host-order struct from the
* network-order string) */
cell_unpack(&cell, buf, wide_circ_ids);
channel_tls_handle_cell(&cell, conn);
}
}
}
/** Array of recognized link protocol versions. */
static const uint16_t or_protocol_versions[] = { 1, 2, 3, 4 };
/** Number of versions in <b>or_protocol_versions</b>. */
static const int n_or_protocol_versions =
(int)( sizeof(or_protocol_versions)/sizeof(uint16_t) );
/** Return true iff <b>v</b> is a link protocol version that this Tor
* implementation believes it can support. */
int
is_or_protocol_version_known(uint16_t v)
{
int i;
for (i = 0; i < n_or_protocol_versions; ++i) {
if (or_protocol_versions[i] == v)
return 1;
}
return 0;
}
/** Send a VERSIONS cell on <b>conn</b>, telling the other host about the
* link protocol versions that this Tor can support.
*
* If <b>v3_plus</b>, this is part of a V3 protocol handshake, so only
* allow protocol version v3 or later. If not <b>v3_plus</b>, this is
* not part of a v3 protocol handshake, so don't allow protocol v3 or
* later.
**/
int
connection_or_send_versions(or_connection_t *conn, int v3_plus)
{
var_cell_t *cell;
int i;
int n_versions = 0;
const int min_version = v3_plus ? 3 : 0;
const int max_version = v3_plus ? UINT16_MAX : 2;
tor_assert(conn->handshake_state &&
!conn->handshake_state->sent_versions_at);
cell = var_cell_new(n_or_protocol_versions * 2);
cell->command = CELL_VERSIONS;
for (i = 0; i < n_or_protocol_versions; ++i) {
uint16_t v = or_protocol_versions[i];
if (v < min_version || v > max_version)
continue;
set_uint16(cell->payload+(2*n_versions), htons(v));
++n_versions;
}
cell->payload_len = n_versions * 2;
connection_or_write_var_cell_to_buf(cell, conn);
conn->handshake_state->sent_versions_at = time(NULL);
var_cell_free(cell);
return 0;
}
/** Send a NETINFO cell on <b>conn</b>, telling the other server what we know
* about their address, our address, and the current time. */
MOCK_IMPL(int,
connection_or_send_netinfo,(or_connection_t *conn))
{
cell_t cell;
time_t now = time(NULL);
const routerinfo_t *me;
int len;
uint8_t *out;
tor_assert(conn->handshake_state);
if (conn->handshake_state->sent_netinfo) {
log_warn(LD_BUG, "Attempted to send an extra netinfo cell on a connection "
"where we already sent one.");
return 0;
}
memset(&cell, 0, sizeof(cell_t));
cell.command = CELL_NETINFO;
/* Timestamp, if we're a relay. */
if (public_server_mode(get_options()) || ! conn->is_outgoing)
set_uint32(cell.payload, htonl((uint32_t)now));
/* Their address. */
out = cell.payload + 4;
/* We use &conn->real_addr below, unless it hasn't yet been set. If it
* hasn't yet been set, we know that base_.addr hasn't been tampered with
* yet either. */
len = append_address_to_payload(out, !tor_addr_is_null(&conn->real_addr)
? &conn->real_addr : &conn->base_.addr);
if (len<0)
return -1;
out += len;
/* My address -- only include it if I'm a public relay, or if I'm a
* bridge and this is an incoming connection. If I'm a bridge and this
* is an outgoing connection, act like a normal client and omit it. */
if ((public_server_mode(get_options()) || !conn->is_outgoing) &&
(me = router_get_my_routerinfo())) {
tor_addr_t my_addr;
*out++ = 1 + !tor_addr_is_null(&me->ipv6_addr);
tor_addr_from_ipv4h(&my_addr, me->addr);
len = append_address_to_payload(out, &my_addr);
if (len < 0)
return -1;
out += len;
if (!tor_addr_is_null(&me->ipv6_addr)) {
len = append_address_to_payload(out, &me->ipv6_addr);
if (len < 0)
return -1;
}
} else {
*out = 0;
}
conn->handshake_state->digest_sent_data = 0;
conn->handshake_state->sent_netinfo = 1;
connection_or_write_cell_to_buf(&cell, conn);
return 0;
}
/** Send a CERTS cell on the connection <b>conn</b>. Return 0 on success, -1
* on failure. */
int
connection_or_send_certs_cell(or_connection_t *conn)
{
const tor_x509_cert_t *link_cert = NULL, *id_cert = NULL;
const uint8_t *link_encoded = NULL, *id_encoded = NULL;
size_t link_len, id_len;
var_cell_t *cell;
size_t cell_len;
ssize_t pos;
int server_mode;
tor_assert(conn->base_.state == OR_CONN_STATE_OR_HANDSHAKING_V3);
if (! conn->handshake_state)
return -1;
server_mode = ! conn->handshake_state->started_here;
if (tor_tls_get_my_certs(server_mode, &link_cert, &id_cert) < 0)
return -1;
tor_x509_cert_get_der(link_cert, &link_encoded, &link_len);
tor_x509_cert_get_der(id_cert, &id_encoded, &id_len);
cell_len = 1 /* 1 byte: num certs in cell */ +
2 * ( 1 + 2 ) /* For each cert: 1 byte for type, 2 for length */ +
link_len + id_len;
cell = var_cell_new(cell_len);
cell->command = CELL_CERTS;
cell->payload[0] = 2;
pos = 1;
if (server_mode)
cell->payload[pos] = OR_CERT_TYPE_TLS_LINK; /* Link cert */
else
cell->payload[pos] = OR_CERT_TYPE_AUTH_1024; /* client authentication */
set_uint16(&cell->payload[pos+1], htons(link_len));
memcpy(&cell->payload[pos+3], link_encoded, link_len);
pos += 3 + link_len;
cell->payload[pos] = OR_CERT_TYPE_ID_1024; /* ID cert */
set_uint16(&cell->payload[pos+1], htons(id_len));
memcpy(&cell->payload[pos+3], id_encoded, id_len);
pos += 3 + id_len;
tor_assert(pos == (int)cell_len); /* Otherwise we just smashed the heap */
connection_or_write_var_cell_to_buf(cell, conn);
var_cell_free(cell);
return 0;
}
/** Send an AUTH_CHALLENGE cell on the connection <b>conn</b>. Return 0
* on success, -1 on failure. */
int
connection_or_send_auth_challenge_cell(or_connection_t *conn)
{
var_cell_t *cell = NULL;
int r = -1;
tor_assert(conn->base_.state == OR_CONN_STATE_OR_HANDSHAKING_V3);
if (! conn->handshake_state)
return -1;
auth_challenge_cell_t *ac = auth_challenge_cell_new();
if (crypto_rand((char*)ac->challenge, sizeof(ac->challenge)) < 0)
goto done;
auth_challenge_cell_add_methods(ac, AUTHTYPE_RSA_SHA256_TLSSECRET);
auth_challenge_cell_set_n_methods(ac,
auth_challenge_cell_getlen_methods(ac));
cell = var_cell_new(auth_challenge_cell_encoded_len(ac));
ssize_t len = auth_challenge_cell_encode(cell->payload, cell->payload_len,
ac);
if (len != cell->payload_len)
goto done;
cell->command = CELL_AUTH_CHALLENGE;
connection_or_write_var_cell_to_buf(cell, conn);
r = 0;
done:
var_cell_free(cell);
auth_challenge_cell_free(ac);
return r;
}
/** Compute the main body of an AUTHENTICATE cell that a client can use
* to authenticate itself on a v3 handshake for <b>conn</b>. Write it to the
* <b>outlen</b>-byte buffer at <b>out</b>.
*
* If <b>server</b> is true, only calculate the first
* V3_AUTH_FIXED_PART_LEN bytes -- the part of the authenticator that's
* determined by the rest of the handshake, and which match the provided value
* exactly.
*
* If <b>server</b> is false and <b>signing_key</b> is NULL, calculate the
* first V3_AUTH_BODY_LEN bytes of the authenticator (that is, everything
* that should be signed), but don't actually sign it.
*
* If <b>server</b> is false and <b>signing_key</b> is provided, calculate the
* entire authenticator, signed with <b>signing_key</b>.
*
* Return the length of the cell body on success, and -1 on failure.
*/
int
connection_or_compute_authenticate_cell_body(or_connection_t *conn,
uint8_t *out, size_t outlen,
crypto_pk_t *signing_key,
int server)
{
auth1_t *auth = NULL;
auth_ctx_t *ctx = auth_ctx_new();
int result;
/* assert state is reasonable XXXX */
ctx->is_ed = 0;
auth = auth1_new();
/* Type: 8 bytes. */
memcpy(auth1_getarray_type(auth), "AUTH0001", 8);
{
const tor_x509_cert_t *id_cert=NULL, *link_cert=NULL;
const digests_t *my_digests, *their_digests;
const uint8_t *my_id, *their_id, *client_id, *server_id;
if (tor_tls_get_my_certs(server, &link_cert, &id_cert))
goto err;
my_digests = tor_x509_cert_get_id_digests(id_cert);
their_digests =
tor_x509_cert_get_id_digests(conn->handshake_state->id_cert);
tor_assert(my_digests);
tor_assert(their_digests);
my_id = (uint8_t*)my_digests->d[DIGEST_SHA256];
their_id = (uint8_t*)their_digests->d[DIGEST_SHA256];
client_id = server ? their_id : my_id;
server_id = server ? my_id : their_id;
/* Client ID digest: 32 octets. */
memcpy(auth->cid, client_id, 32);
/* Server ID digest: 32 octets. */
memcpy(auth->sid, server_id, 32);
}
{
crypto_digest_t *server_d, *client_d;
if (server) {
server_d = conn->handshake_state->digest_sent;
client_d = conn->handshake_state->digest_received;
} else {
client_d = conn->handshake_state->digest_sent;
server_d = conn->handshake_state->digest_received;
}
/* Server log digest : 32 octets */
crypto_digest_get_digest(server_d, (char*)auth->slog, 32);
/* Client log digest : 32 octets */
crypto_digest_get_digest(client_d, (char*)auth->clog, 32);
}
{
/* Digest of cert used on TLS link : 32 octets. */
const tor_x509_cert_t *cert = NULL;
tor_x509_cert_t *freecert = NULL;
if (server) {
tor_tls_get_my_certs(1, &cert, NULL);
} else {
freecert = tor_tls_get_peer_cert(conn->tls);
cert = freecert;
}
if (!cert) {
log_warn(LD_OR, "Unable to find cert when making AUTH1 data.");
goto err;
}
memcpy(auth->scert,
tor_x509_cert_get_cert_digests(cert)->d[DIGEST_SHA256], 32);
if (freecert)
tor_x509_cert_free(freecert);
}
/* HMAC of clientrandom and serverrandom using master key : 32 octets */
tor_tls_get_tlssecrets(conn->tls, auth->tlssecrets);
/* 8 octets were reserved for the current time, but we're trying to get out
* of the habit of sending time around willynilly. Fortunately, nothing
* checks it. That's followed by 16 bytes of nonce. */
crypto_rand((char*)auth->rand, 24);
ssize_t len;
if ((len = auth1_encode(out, outlen, auth, ctx)) < 0) {
log_warn(LD_OR, "Unable to encode signed part of AUTH1 data.");
goto err;
}
if (server) {
auth1_t *tmp = NULL;
ssize_t len2 = auth1_parse(&tmp, out, len, ctx);
if (!tmp) {
log_warn(LD_OR, "Unable to parse signed part of AUTH1 data.");
goto err;
}
result = (int) (tmp->end_of_fixed_part - out);
auth1_free(tmp);
if (len2 != len) {
log_warn(LD_OR, "Mismatched length when re-parsing AUTH1 data.");
goto err;
}
goto done;
}
if (signing_key) {
auth1_setlen_sig(auth, crypto_pk_keysize(signing_key));
char d[32];
crypto_digest256(d, (char*)out, len, DIGEST_SHA256);
int siglen = crypto_pk_private_sign(signing_key,
(char*)auth1_getarray_sig(auth),
auth1_getlen_sig(auth),
d, 32);
if (siglen < 0) {
log_warn(LD_OR, "Unable to sign AUTH1 data.");
goto err;
}
auth1_setlen_sig(auth, siglen);
len = auth1_encode(out, outlen, auth, ctx);
if (len < 0) {
log_warn(LD_OR, "Unable to encode signed AUTH1 data.");
goto err;
}
}
result = (int) len;
goto done;
err:
result = -1;
done:
auth1_free(auth);
auth_ctx_free(ctx);
return result;
}
/** Send an AUTHENTICATE cell on the connection <b>conn</b>. Return 0 on
* success, -1 on failure */
MOCK_IMPL(int,
connection_or_send_authenticate_cell,(or_connection_t *conn, int authtype))
{
var_cell_t *cell;
crypto_pk_t *pk = tor_tls_get_my_client_auth_key();
int authlen;
size_t cell_maxlen;
/* XXXX make sure we're actually supposed to send this! */
if (!pk) {
log_warn(LD_BUG, "Can't compute authenticate cell: no client auth key");
return -1;
}
if (authtype != AUTHTYPE_RSA_SHA256_TLSSECRET) {
log_warn(LD_BUG, "Tried to send authenticate cell with unknown "
"authentication type %d", authtype);
return -1;
}
cell_maxlen = 4 + /* overhead */
V3_AUTH_BODY_LEN + /* Authentication body */
crypto_pk_keysize(pk) + /* Max signature length */
16 /* add a few extra bytes just in case. */;
cell = var_cell_new(cell_maxlen);
cell->command = CELL_AUTHENTICATE;
set_uint16(cell->payload, htons(AUTHTYPE_RSA_SHA256_TLSSECRET));
/* skip over length ; we don't know that yet. */
authlen = connection_or_compute_authenticate_cell_body(conn,
cell->payload+4,
cell_maxlen-4,
pk,
0 /* not server */);
if (authlen < 0) {
log_warn(LD_BUG, "Unable to compute authenticate cell!");
var_cell_free(cell);
return -1;
}
tor_assert(authlen + 4 <= cell->payload_len);
set_uint16(cell->payload+2, htons(authlen));
cell->payload_len = authlen + 4;
connection_or_write_var_cell_to_buf(cell, conn);
var_cell_free(cell);
return 0;
}
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