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|
/* Copyright (c) 2001 Matej Pfajfar.
* Copyright (c) 2001-2004, Roger Dingledine.
* Copyright (c) 2004-2007, Roger Dingledine, Nick Mathewson. */
/* See LICENSE for licensing information */
/* $Id$ */
const char router_c_id[] =
"$Id$";
#define ROUTER_PRIVATE
#include "or.h"
/**
* \file router.c
* \brief OR functionality, including key maintenance, generating
* and uploading server descriptors, retrying OR connections.
**/
extern long stats_n_seconds_working;
/************************************************************/
/*****
* Key management: ORs only.
*****/
/** Private keys for this OR. There is also an SSL key managed by tortls.c.
*/
static tor_mutex_t *key_lock=NULL;
static time_t onionkey_set_at=0; /**< When was onionkey last changed? */
/** Current private onionskin decryption key: used to decode CREATE cells. */
static crypto_pk_env_t *onionkey=NULL;
/** Previous private onionskin decription key: used to decode CREATE cells
* generated by clients that have an older version of our descriptor. */
static crypto_pk_env_t *lastonionkey=NULL;
/** Private "identity key": used to sign directory info and TLS
* certificates. Never changes. */
static crypto_pk_env_t *identitykey=NULL;
/** Digest of identitykey. */
static char identitykey_digest[DIGEST_LEN];
/** Replace the current onion key with <b>k</b>. Does not affect lastonionkey;
* to update onionkey correctly, call rotate_onion_key().
*/
static void
set_onion_key(crypto_pk_env_t *k)
{
tor_mutex_acquire(key_lock);
onionkey = k;
onionkey_set_at = time(NULL);
tor_mutex_release(key_lock);
mark_my_descriptor_dirty();
}
/** Return the current onion key. Requires that the onion key has been
* loaded or generated. */
crypto_pk_env_t *
get_onion_key(void)
{
tor_assert(onionkey);
return onionkey;
}
/** Store a copy of the current onion key into *<b>key</b>, and a copy
* of the most recent onion key into *<b>last</b>.
*/
void
dup_onion_keys(crypto_pk_env_t **key, crypto_pk_env_t **last)
{
tor_assert(key);
tor_assert(last);
tor_mutex_acquire(key_lock);
tor_assert(onionkey);
*key = crypto_pk_dup_key(onionkey);
if (lastonionkey)
*last = crypto_pk_dup_key(lastonionkey);
else
*last = NULL;
tor_mutex_release(key_lock);
}
/** Return the time when the onion key was last set. This is either the time
* when the process launched, or the time of the most recent key rotation since
* the process launched.
*/
time_t
get_onion_key_set_at(void)
{
return onionkey_set_at;
}
/** Set the current identity key to k.
*/
void
set_identity_key(crypto_pk_env_t *k)
{
if (identitykey)
crypto_free_pk_env(identitykey);
identitykey = k;
crypto_pk_get_digest(identitykey, identitykey_digest);
}
/** Returns the current identity key; requires that the identity key has been
* set.
*/
crypto_pk_env_t *
get_identity_key(void)
{
tor_assert(identitykey);
return identitykey;
}
/** Return true iff the identity key has been set. */
int
identity_key_is_set(void)
{
return identitykey != NULL;
}
/** Replace the previous onion key with the current onion key, and generate
* a new previous onion key. Immediately after calling this function,
* the OR should:
* - schedule all previous cpuworkers to shut down _after_ processing
* pending work. (This will cause fresh cpuworkers to be generated.)
* - generate and upload a fresh routerinfo.
*/
void
rotate_onion_key(void)
{
char fname[512];
char fname_prev[512];
crypto_pk_env_t *prkey;
or_state_t *state = get_or_state();
time_t now;
tor_snprintf(fname,sizeof(fname),
"%s"PATH_SEPARATOR"keys"PATH_SEPARATOR"secret_onion_key",
get_options()->DataDirectory);
tor_snprintf(fname_prev,sizeof(fname_prev),
"%s"PATH_SEPARATOR"keys"PATH_SEPARATOR"secret_onion_key.old",
get_options()->DataDirectory);
if (!(prkey = crypto_new_pk_env())) {
log_err(LD_GENERAL,"Error constructing rotated onion key");
goto error;
}
if (crypto_pk_generate_key(prkey)) {
log_err(LD_BUG,"Error generating onion key");
goto error;
}
if (file_status(fname) == FN_FILE) {
if (replace_file(fname, fname_prev))
goto error;
}
if (crypto_pk_write_private_key_to_filename(prkey, fname)) {
log_err(LD_FS,"Couldn't write generated onion key to \"%s\".", fname);
goto error;
}
log_info(LD_GENERAL, "Rotating onion key");
tor_mutex_acquire(key_lock);
if (lastonionkey)
crypto_free_pk_env(lastonionkey);
lastonionkey = onionkey;
onionkey = prkey;
now = time(NULL);
state->LastRotatedOnionKey = onionkey_set_at = now;
tor_mutex_release(key_lock);
mark_my_descriptor_dirty();
or_state_mark_dirty(state, get_options()->AvoidDiskWrites ? now+3600 : 0);
return;
error:
log_warn(LD_GENERAL, "Couldn't rotate onion key.");
}
/** Try to read an RSA key from <b>fname</b>. If <b>fname</b> doesn't exist,
* create a new RSA key and save it in <b>fname</b>. Return the read/created
* key, or NULL on error.
*/
crypto_pk_env_t *
init_key_from_file(const char *fname)
{
crypto_pk_env_t *prkey = NULL;
FILE *file = NULL;
if (!(prkey = crypto_new_pk_env())) {
log_err(LD_GENERAL,"Error constructing key");
goto error;
}
switch (file_status(fname)) {
case FN_DIR:
case FN_ERROR:
log_err(LD_FS,"Can't read key from \"%s\"", fname);
goto error;
case FN_NOENT:
log_info(LD_GENERAL, "No key found in \"%s\"; generating fresh key.",
fname);
if (crypto_pk_generate_key(prkey)) {
log_err(LD_GENERAL,"Error generating onion key");
goto error;
}
if (crypto_pk_check_key(prkey) <= 0) {
log_err(LD_GENERAL,"Generated key seems invalid");
goto error;
}
log_info(LD_GENERAL, "Generated key seems valid");
if (crypto_pk_write_private_key_to_filename(prkey, fname)) {
log_err(LD_FS,"Couldn't write generated key to \"%s\".", fname);
goto error;
}
return prkey;
case FN_FILE:
if (crypto_pk_read_private_key_from_filename(prkey, fname)) {
log_err(LD_GENERAL,"Error loading private key.");
goto error;
}
return prkey;
default:
tor_assert(0);
}
error:
if (prkey)
crypto_free_pk_env(prkey);
if (file)
fclose(file);
return NULL;
}
/** Initialize all OR private keys, and the TLS context, as necessary.
* On OPs, this only initializes the tls context. Return 0 on success,
* or -1 if Tor should die.
*/
int
init_keys(void)
{
char keydir[512];
char fingerprint[FINGERPRINT_LEN+1];
/*nickname<space>fp\n\0 */
char fingerprint_line[MAX_NICKNAME_LEN+FINGERPRINT_LEN+3];
const char *mydesc, *datadir;
crypto_pk_env_t *prkey;
char digest[20];
char *cp;
or_options_t *options = get_options();
or_state_t *state = get_or_state();
if (!key_lock)
key_lock = tor_mutex_new();
/* OP's don't need persistent keys; just make up an identity and
* initialize the TLS context. */
if (!server_mode(options)) {
if (!(prkey = crypto_new_pk_env()))
return -1;
if (crypto_pk_generate_key(prkey))
return -1;
set_identity_key(prkey);
/* Create a TLS context; default the client nickname to "client". */
if (tor_tls_context_new(get_identity_key(),
options->Nickname ? options->Nickname : "client",
MAX_SSL_KEY_LIFETIME) < 0) {
log_err(LD_GENERAL,"Error creating TLS context for Tor client.");
return -1;
}
return 0;
}
/* Make sure DataDirectory exists, and is private. */
datadir = options->DataDirectory;
if (check_private_dir(datadir, CPD_CREATE)) {
return -1;
}
/* Check the key directory. */
tor_snprintf(keydir,sizeof(keydir),"%s"PATH_SEPARATOR"keys", datadir);
if (check_private_dir(keydir, CPD_CREATE)) {
return -1;
}
/* 1. Read identity key. Make it if none is found. */
tor_snprintf(keydir,sizeof(keydir),
"%s"PATH_SEPARATOR"keys"PATH_SEPARATOR"secret_id_key",datadir);
log_info(LD_GENERAL,"Reading/making identity key \"%s\"...",keydir);
prkey = init_key_from_file(keydir);
if (!prkey) return -1;
set_identity_key(prkey);
/* 2. Read onion key. Make it if none is found. */
tor_snprintf(keydir,sizeof(keydir),
"%s"PATH_SEPARATOR"keys"PATH_SEPARATOR"secret_onion_key",datadir);
log_info(LD_GENERAL,"Reading/making onion key \"%s\"...",keydir);
prkey = init_key_from_file(keydir);
if (!prkey) return -1;
set_onion_key(prkey);
if (state->LastRotatedOnionKey > 100) { /* allow for some parsing slop. */
onionkey_set_at = state->LastRotatedOnionKey;
} else {
/* We have no LastRotatedOnionKey set; either we just created the key
* or it's a holdover from 0.1.2.4-alpha-dev or earlier. In either case,
* start the clock ticking now so that we will eventually rotate it even
* if we don't stay up for a full MIN_ONION_KEY_LIFETIME. */
state->LastRotatedOnionKey = onionkey_set_at = time(NULL);
or_state_mark_dirty(state, options->AvoidDiskWrites ? time(NULL)+3600 : 0);
}
tor_snprintf(keydir,sizeof(keydir),
"%s"PATH_SEPARATOR"keys"PATH_SEPARATOR"secret_onion_key.old",datadir);
if (file_status(keydir) == FN_FILE) {
prkey = init_key_from_file(keydir);
if (prkey)
lastonionkey = prkey;
}
/* 3. Initialize link key and TLS context. */
if (tor_tls_context_new(get_identity_key(), options->Nickname,
MAX_SSL_KEY_LIFETIME) < 0) {
log_err(LD_GENERAL,"Error initializing TLS context");
return -1;
}
/* 4. Build our router descriptor. */
/* Must be called after keys are initialized. */
mydesc = router_get_my_descriptor();
if (authdir_mode(options)) {
const char *m;
/* We need to add our own fingerprint so it gets recognized. */
if (dirserv_add_own_fingerprint(options->Nickname, get_identity_key())) {
log_err(LD_GENERAL,"Error adding own fingerprint to approved set");
return -1;
}
if (!mydesc) {
log_err(LD_GENERAL,"Error initializing descriptor.");
return -1;
}
if (dirserv_add_descriptor(mydesc, NULL, &m) < 0) {
log_err(LD_GENERAL,"Unable to add own descriptor to directory: %s",
m?m:"<unknown error>");
return -1;
}
}
/* 5. Dump fingerprint to 'fingerprint' */
tor_snprintf(keydir,sizeof(keydir),"%s"PATH_SEPARATOR"fingerprint", datadir);
log_info(LD_GENERAL,"Dumping fingerprint to \"%s\"...",keydir);
if (crypto_pk_get_fingerprint(get_identity_key(), fingerprint, 1)<0) {
log_err(LD_GENERAL,"Error computing fingerprint");
return -1;
}
tor_assert(strlen(options->Nickname) <= MAX_NICKNAME_LEN);
if (tor_snprintf(fingerprint_line, sizeof(fingerprint_line),
"%s %s\n",options->Nickname, fingerprint) < 0) {
log_err(LD_GENERAL,"Error writing fingerprint line");
return -1;
}
/* Check whether we need to write the fingerprint file. */
cp = NULL;
if (file_status(keydir) == FN_FILE)
cp = read_file_to_str(keydir, 0, NULL);
if (!cp || strcmp(cp, fingerprint_line)) {
if (write_str_to_file(keydir, fingerprint_line, 0)) {
log_err(LD_FS, "Error writing fingerprint line to file");
return -1;
}
}
tor_free(cp);
log(LOG_NOTICE, LD_GENERAL,
"Your Tor server's identity key fingerprint is '%s %s'",
options->Nickname, fingerprint);
if (!authdir_mode(options))
return 0;
/* 6. [authdirserver only] load approved-routers file */
if (dirserv_load_fingerprint_file() < 0) {
log_err(LD_GENERAL,"Error loading fingerprints");
return -1;
}
/* 6b. [authdirserver only] add own key to approved directories. */
crypto_pk_get_digest(get_identity_key(), digest);
if (!router_digest_is_trusted_dir(digest)) {
add_trusted_dir_server(options->Nickname, NULL,
(uint16_t)options->DirPort,
(uint16_t)options->ORPort,
digest,
options->V1AuthoritativeDir, /* v1 authority */
1, /* v2 authority */
options->HSAuthoritativeDir /*hidserv authority*/);
}
return 0; /* success */
}
/* Keep track of whether we should upload our server descriptor,
* and what type of server we are.
*/
/** Whether we can reach our ORPort from the outside. */
static int can_reach_or_port = 0;
/** Whether we can reach our DirPort from the outside. */
static int can_reach_dir_port = 0;
/** Forget what we have learned about our reachability status. */
void
router_reset_reachability(void)
{
can_reach_or_port = can_reach_dir_port = 0;
}
/** Return 1 if ORPort is known reachable; else return 0. */
int
check_whether_orport_reachable(void)
{
or_options_t *options = get_options();
return options->AssumeReachable ||
can_reach_or_port;
}
/** Return 1 if we don't have a dirport configured, or if it's reachable. */
int
check_whether_dirport_reachable(void)
{
or_options_t *options = get_options();
return !options->DirPort ||
options->AssumeReachable ||
we_are_hibernating() ||
can_reach_dir_port;
}
/** Look at a variety of factors, and return 0 if we don't want to
* advertise the fact that we have a DirPort open. Else return the
* DirPort we want to advertise.
*
* Log a helpful message if we change our mind about whether to publish
* a DirPort.
*/
static int
decide_to_advertise_dirport(or_options_t *options, routerinfo_t *router)
{
static int advertising=1; /* start out assuming we will advertise */
int new_choice=1;
const char *reason = NULL;
/* Section one: reasons to publish or not publish that aren't
* worth mentioning to the user, either because they're obvious
* or because they're normal behavior. */
if (!router->dir_port) /* short circuit the rest of the function */
return 0;
if (authdir_mode(options)) /* always publish */
return router->dir_port;
if (we_are_hibernating())
return 0;
if (!check_whether_dirport_reachable())
return 0;
/* Section two: reasons to publish or not publish that the user
* might find surprising. These are generally config options that
* make us choose not to publish. */
if (accounting_is_enabled(options)) {
/* if we might potentially hibernate */
new_choice = 0;
reason = "AccountingMax enabled";
} else if (router->bandwidthrate < 51200) {
/* if we're advertising a small amount */
new_choice = 0;
reason = "BandwidthRate under 50KB";
}
if (advertising != new_choice) {
if (new_choice == 1) {
log(LOG_NOTICE, LD_DIR, "Advertising DirPort as %d", router->dir_port);
} else {
tor_assert(reason);
log(LOG_NOTICE, LD_DIR, "Not advertising DirPort (Reason: %s)", reason);
}
advertising = new_choice;
}
return advertising ? router->dir_port : 0;
}
/** Some time has passed, or we just got new directory information.
* See if we currently believe our ORPort or DirPort to be
* unreachable. If so, launch a new test for it.
*
* For ORPort, we simply try making a circuit that ends at ourselves.
* Success is noticed in onionskin_answer().
*
* For DirPort, we make a connection via Tor to our DirPort and ask
* for our own server descriptor.
* Success is noticed in connection_dir_client_reached_eof().
*/
void
consider_testing_reachability(int test_or, int test_dir)
{
routerinfo_t *me = router_get_my_routerinfo();
int orport_reachable = check_whether_orport_reachable();
if (!me)
return;
if (test_or && (!orport_reachable || !circuit_enough_testing_circs())) {
log_info(LD_CIRC, "Testing %s of my ORPort: %s:%d.",
!orport_reachable ? "reachability" : "bandwidth",
me->address, me->or_port);
circuit_launch_by_router(CIRCUIT_PURPOSE_TESTING, 0, me, 0, 1, 1);
control_event_server_status(LOG_NOTICE,
"CHECKING_REACHABILITY ORADDRESS=%s:%d",
me->address, me->or_port);
}
if (test_dir && !check_whether_dirport_reachable() &&
!connection_get_by_type_addr_port_purpose(
CONN_TYPE_DIR, me->addr, me->dir_port,
DIR_PURPOSE_FETCH_SERVERDESC)) {
/* ask myself, via tor, for my server descriptor. */
directory_initiate_command(me->address, me->addr,
me->or_port, me->dir_port,
0, me->cache_info.identity_digest,
DIR_PURPOSE_FETCH_SERVERDESC,
1, "authority", NULL, 0);
control_event_server_status(LOG_NOTICE,
"CHECKING_REACHABILITY DIRADDRESS=%s:%d",
me->address, me->dir_port);
}
}
/** Annotate that we found our ORPort reachable. */
void
router_orport_found_reachable(void)
{
if (!can_reach_or_port) {
routerinfo_t *me = router_get_my_routerinfo();
log_notice(LD_OR,"Self-testing indicates your ORPort is reachable from "
"the outside. Excellent.%s",
get_options()->PublishServerDescriptor ?
" Publishing server descriptor." : "");
can_reach_or_port = 1;
mark_my_descriptor_dirty();
if (!me)
return;
control_event_server_status(LOG_NOTICE,
"REACHABILITY_SUCCEEDED ORADDRESS=%s:%d",
me->address, me->dir_port);
}
}
/** Annotate that we found our DirPort reachable. */
void
router_dirport_found_reachable(void)
{
if (!can_reach_dir_port) {
routerinfo_t *me = router_get_my_routerinfo();
log_notice(LD_DIRSERV,"Self-testing indicates your DirPort is reachable "
"from the outside. Excellent.");
can_reach_dir_port = 1;
mark_my_descriptor_dirty();
if (!me)
return;
control_event_server_status(LOG_NOTICE,
"REACHABILITY_SUCCEEDED DIRADDRESS=%s:%d",
me->address, me->dir_port);
}
}
/** We have enough testing circuits open. Send a bunch of "drop"
* cells down each of them, to exercise our bandwidth. */
void
router_perform_bandwidth_test(int num_circs, time_t now)
{
int num_cells = (int)(get_options()->BandwidthRate * 10 / CELL_NETWORK_SIZE);
int max_cells = num_cells < CIRCWINDOW_START ?
num_cells : CIRCWINDOW_START;
int cells_per_circuit = max_cells / num_circs;
origin_circuit_t *circ = NULL;
log_notice(LD_OR,"Performing bandwidth self-test...done.");
while ((circ = circuit_get_next_by_pk_and_purpose(circ, NULL,
CIRCUIT_PURPOSE_TESTING))) {
/* dump cells_per_circuit drop cells onto this circ */
int i = cells_per_circuit;
if (circ->_base.state != CIRCUIT_STATE_OPEN)
continue;
circ->_base.timestamp_dirty = now;
while (i-- > 0) {
if (relay_send_command_from_edge(0, TO_CIRCUIT(circ),
RELAY_COMMAND_DROP,
NULL, 0, circ->cpath->prev)<0) {
return; /* stop if error */
}
}
}
}
/** Return true iff we believe ourselves to be an authoritative
* directory server.
*/
int
authdir_mode(or_options_t *options)
{
return options->AuthoritativeDir != 0;
}
/** Return true iff we try to stay connected to all ORs at once.
*/
int
clique_mode(or_options_t *options)
{
return authdir_mode(options);
}
/** Return true iff we are trying to be a server.
*/
int
server_mode(or_options_t *options)
{
if (options->ClientOnly) return 0;
return (options->ORPort != 0 || options->ORListenAddress);
}
/** Remember if we've advertised ourselves to the dirservers. */
static int server_is_advertised=0;
/** Return true iff we have published our descriptor lately.
*/
int
advertised_server_mode(void)
{
return server_is_advertised;
}
/**
* Called with a boolean: set whether we have recently published our
* descriptor.
*/
static void
set_server_advertised(int s)
{
server_is_advertised = s;
}
/** Return true iff we are trying to be a socks proxy. */
int
proxy_mode(or_options_t *options)
{
return (options->SocksPort != 0 || options->SocksListenAddress);
}
/** Decide if we're a publishable server. We are a publishable server if:
* - We don't have the ClientOnly option set
* and
* - We have the PublishServerDescriptor option set
* and
* - We have ORPort set
* and
* - We believe we are reachable from the outside; or
* - We have the AuthoritativeDirectory option set.
*/
static int
decide_if_publishable_server(void)
{
or_options_t *options = get_options();
if (options->ClientOnly)
return 0;
if (!options->PublishServerDescriptor)
return 0;
if (!server_mode(options))
return 0;
if (options->AuthoritativeDir)
return 1;
return check_whether_orport_reachable();
}
/** Initiate server descriptor upload as reasonable (if server is publishable,
* etc). <b>force</b> is as for router_upload_dir_desc_to_dirservers.
*
* We need to rebuild the descriptor if it's dirty even if we're not
* uploading, because our reachability testing *uses* our descriptor to
* determine what IP address and ports to test.
*/
void
consider_publishable_server(int force)
{
int rebuilt;
if (!server_mode(get_options()))
return;
rebuilt = router_rebuild_descriptor(0);
if (decide_if_publishable_server()) {
set_server_advertised(1);
if (rebuilt == 0)
router_upload_dir_desc_to_dirservers(force);
} else {
set_server_advertised(0);
}
}
/*
* Clique maintenance -- to be phased out.
*/
/** Return true iff this OR should try to keep connections open to all
* other ORs. */
int
router_is_clique_mode(routerinfo_t *router)
{
if (router_digest_is_trusted_dir(router->cache_info.identity_digest))
return 1;
return 0;
}
/*
* OR descriptor generation.
*/
/** My routerinfo. */
static routerinfo_t *desc_routerinfo = NULL;
/** DOCDOC */
static extrainfo_t *desc_extrainfo = NULL;
/** Since when has our descriptor been "clean"? 0 if we need to regenerate it
* now. */
static time_t desc_clean_since = 0;
/** Boolean: do we need to regenerate the above? */
static int desc_needs_upload = 0;
/** OR only: If <b>force</b> is true, or we haven't uploaded this
* descriptor successfully yet, try to upload our signed descriptor to
* all the directory servers we know about.
*/
void
router_upload_dir_desc_to_dirservers(int force)
{
const char *s;
s = router_get_my_descriptor();
if (!s) {
log_info(LD_GENERAL, "No descriptor; skipping upload");
return;
}
if (!get_options()->PublishServerDescriptor)
return;
if (!force && !desc_needs_upload)
return;
desc_needs_upload = 0;
directory_post_to_dirservers(DIR_PURPOSE_UPLOAD_DIR, s, strlen(s));
}
/** OR only: Check whether my exit policy says to allow connection to
* conn. Return 0 if we accept; non-0 if we reject.
*/
int
router_compare_to_my_exit_policy(edge_connection_t *conn)
{
if (!router_get_my_routerinfo()) /* make sure desc_routerinfo exists */
return -1;
/* make sure it's resolved to something. this way we can't get a
'maybe' below. */
if (!conn->_base.addr)
return -1;
return compare_addr_to_addr_policy(conn->_base.addr, conn->_base.port,
desc_routerinfo->exit_policy) != ADDR_POLICY_ACCEPTED;
}
/** Return true iff I'm a server and <b>digest</b> is equal to
* my identity digest. */
int
router_digest_is_me(const char *digest)
{
return identitykey && !memcmp(identitykey_digest, digest, DIGEST_LEN);
}
/** A wrapper around router_digest_is_me(). */
int
router_is_me(routerinfo_t *router)
{
return router_digest_is_me(router->cache_info.identity_digest);
}
/** Return true iff <b>fp</b> is a hex fingerprint of my identity digest. */
int
router_fingerprint_is_me(const char *fp)
{
char digest[DIGEST_LEN];
if (strlen(fp) == HEX_DIGEST_LEN &&
base16_decode(digest, sizeof(digest), fp, HEX_DIGEST_LEN) == 0)
return router_digest_is_me(digest);
return 0;
}
/** Return a routerinfo for this OR, rebuilding a fresh one if
* necessary. Return NULL on error, or if called on an OP. */
routerinfo_t *
router_get_my_routerinfo(void)
{
if (!server_mode(get_options()))
return NULL;
if (router_rebuild_descriptor(0))
return NULL;
return desc_routerinfo;
}
/** OR only: Return a signed server descriptor for this OR, rebuilding a fresh
* one if necessary. Return NULL on error.
*/
const char *
router_get_my_descriptor(void)
{
const char *body;
if (!router_get_my_routerinfo())
return NULL;
/* Make sure this is nul-terminated. */
tor_assert(desc_routerinfo->cache_info.saved_location == SAVED_NOWHERE);
body = signed_descriptor_get_body(&desc_routerinfo->cache_info);
tor_assert(!body[desc_routerinfo->cache_info.signed_descriptor_len]);
log_debug(LD_GENERAL,"my desc is '%s'", body);
return body;
}
/** DOCDOC */
extrainfo_t *
router_get_my_extrainfo(void)
{
if (!server_mode(get_options()))
return NULL;
if (router_rebuild_descriptor(0))
return NULL;
return desc_extrainfo;
}
/** A list of nicknames that we've warned about including in our family
* declaration verbatim rather than as digests. */
static smartlist_t *warned_nonexistent_family = NULL;
static int router_guess_address_from_dir_headers(uint32_t *guess);
/** Return our current best guess at our address, either because
* it's configured in torrc, or because we've learned it from
* dirserver headers. */
int
router_pick_published_address(or_options_t *options, uint32_t *addr)
{
if (resolve_my_address(LOG_INFO, options, addr, NULL) < 0) {
log_info(LD_CONFIG, "Could not determine our address locally. "
"Checking if directory headers provide any hints.");
if (router_guess_address_from_dir_headers(addr) < 0) {
log_info(LD_CONFIG, "No hints from directory headers either. "
"Will try again later.");
return -1;
}
}
return 0;
}
/** If <b>force</b> is true, or our descriptor is out-of-date, rebuild
* a fresh routerinfo and signed server descriptor for this OR.
* Return 0 on success, -1 on temporary error.
* DOCDOC extrainfo.
*/
int
router_rebuild_descriptor(int force)
{
routerinfo_t *ri;
extrainfo_t *ei;
uint32_t addr;
char platform[256];
int hibernating = we_are_hibernating();
or_options_t *options = get_options();
if (desc_clean_since && !force)
return 0;
if (router_pick_published_address(options, &addr) < 0) {
/* Stop trying to rebuild our descriptor every second. We'll
* learn that it's time to try again when server_has_changed_ip()
* marks it dirty. */
desc_clean_since = time(NULL);
return -1;
}
ri = tor_malloc_zero(sizeof(routerinfo_t));
ri->routerlist_index = -1;
ri->address = tor_dup_addr(addr);
ri->nickname = tor_strdup(options->Nickname);
ri->addr = addr;
ri->or_port = options->ORPort;
ri->dir_port = options->DirPort;
ri->cache_info.published_on = time(NULL);
ri->onion_pkey = crypto_pk_dup_key(get_onion_key()); /* must invoke from
* main thread */
ri->identity_pkey = crypto_pk_dup_key(get_identity_key());
if (crypto_pk_get_digest(ri->identity_pkey,
ri->cache_info.identity_digest)<0) {
routerinfo_free(ri);
return -1;
}
get_platform_str(platform, sizeof(platform));
ri->platform = tor_strdup(platform);
ri->bandwidthrate = (int)options->BandwidthRate;
ri->bandwidthburst = (int)options->BandwidthBurst;
ri->bandwidthcapacity = hibernating ? 0 : rep_hist_bandwidth_assess();
if (options->BandwidthRate > options->MaxAdvertisedBandwidth) {
if (options->MaxAdvertisedBandwidth > ROUTER_MAX_DECLARED_BANDWIDTH) {
ri->bandwidthrate = ROUTER_MAX_DECLARED_BANDWIDTH;
} else {
ri->bandwidthrate = (int)options->MaxAdvertisedBandwidth;
}
}
policies_parse_exit_policy(options->ExitPolicy, &ri->exit_policy,
options->ExitPolicyRejectPrivate);
if (desc_routerinfo) { /* inherit values */
ri->is_valid = desc_routerinfo->is_valid;
ri->is_running = desc_routerinfo->is_running;
ri->is_named = desc_routerinfo->is_named;
}
if (authdir_mode(options))
ri->is_valid = ri->is_named = 1; /* believe in yourself */
if (options->MyFamily) {
smartlist_t *family;
if (!warned_nonexistent_family)
warned_nonexistent_family = smartlist_create();
family = smartlist_create();
ri->declared_family = smartlist_create();
smartlist_split_string(family, options->MyFamily, ",",
SPLIT_SKIP_SPACE|SPLIT_IGNORE_BLANK, 0);
SMARTLIST_FOREACH(family, char *, name,
{
routerinfo_t *member;
if (!strcasecmp(name, options->Nickname))
member = ri;
else
member = router_get_by_nickname(name, 1);
if (!member) {
if (!smartlist_string_isin(warned_nonexistent_family, name) &&
!is_legal_hexdigest(name)) {
log_warn(LD_CONFIG,
"I have no descriptor for the router named \"%s\" "
"in my declared family; I'll use the nickname as is, but "
"this may confuse clients.", name);
smartlist_add(warned_nonexistent_family, tor_strdup(name));
}
smartlist_add(ri->declared_family, name);
name = NULL;
} else if (router_is_me(member)) {
/* Don't list ourself in our own family; that's redundant */
} else {
char *fp = tor_malloc(HEX_DIGEST_LEN+2);
fp[0] = '$';
base16_encode(fp+1,HEX_DIGEST_LEN+1,
member->cache_info.identity_digest, DIGEST_LEN);
smartlist_add(ri->declared_family, fp);
if (smartlist_string_isin(warned_nonexistent_family, name))
smartlist_string_remove(warned_nonexistent_family, name);
}
tor_free(name);
});
/* remove duplicates from the list */
smartlist_sort_strings(ri->declared_family);
smartlist_uniq_strings(ri->declared_family);
smartlist_free(family);
}
/* Now generate the extrainfo. */
ei = tor_malloc_zero(sizeof(extrainfo_t));
strlcpy(ei->nickname, get_options()->Nickname, sizeof(ei->nickname));
ei->cache_info.published_on = ri->cache_info.published_on;
memcpy(ei->cache_info.identity_digest, ri->cache_info.identity_digest,
DIGEST_LEN);
ei->cache_info.signed_descriptor_body = tor_malloc(8192);
if (extrainfo_dump_to_string(ei->cache_info.signed_descriptor_body, 8192,
ei, get_identity_key()) < 0) {
log_warn(LD_BUG, "Couldn't generate extra-info descriptor.");
return -1;
}
ei->cache_info.signed_descriptor_len =
strlen(ei->cache_info.signed_descriptor_body);
router_get_extrainfo_hash(ei->cache_info.signed_descriptor_body,
ei->cache_info.signed_descriptor_digest);
/* Now finish the router descriptor. */
memcpy(ri->cache_info.extra_info_digest,
ei->cache_info.signed_descriptor_digest,
DIGEST_LEN);
ri->cache_info.signed_descriptor_body = tor_malloc(8192);
if (router_dump_router_to_string(ri->cache_info.signed_descriptor_body, 8192,
ri, get_identity_key())<0) {
log_warn(LD_BUG, "Couldn't generate router descriptor.");
return -1;
}
ri->cache_info.signed_descriptor_len =
strlen(ri->cache_info.signed_descriptor_body);
/* XXXX020 router_get_router_hash??? */
crypto_digest(ri->cache_info.signed_descriptor_digest,
ri->cache_info.signed_descriptor_body,
ri->cache_info.signed_descriptor_len);
tor_assert(! routerinfo_incompatible_with_extrainfo(ri, ei));
if (desc_routerinfo)
routerinfo_free(desc_routerinfo);
desc_routerinfo = ri;
if (desc_extrainfo)
extrainfo_free(desc_extrainfo);
desc_extrainfo = ei;
desc_clean_since = time(NULL);
desc_needs_upload = 1;
control_event_my_descriptor_changed();
return 0;
}
/** Mark descriptor out of date if it's older than <b>when</b> */
void
mark_my_descriptor_dirty_if_older_than(time_t when)
{
if (desc_clean_since < when)
mark_my_descriptor_dirty();
}
/** Call when the current descriptor is out of date. */
void
mark_my_descriptor_dirty(void)
{
desc_clean_since = 0;
}
/** How frequently will we republish our descriptor because of large (factor
* of 2) shifts in estimated bandwidth? */
#define MAX_BANDWIDTH_CHANGE_FREQ (20*60)
/** Check whether bandwidth has changed a lot since the last time we announced
* bandwidth. If so, mark our descriptor dirty. */
void
check_descriptor_bandwidth_changed(time_t now)
{
static time_t last_changed = 0;
uint64_t prev, cur;
if (!desc_routerinfo)
return;
prev = desc_routerinfo->bandwidthcapacity;
cur = we_are_hibernating() ? 0 : rep_hist_bandwidth_assess();
if ((prev != cur && (!prev || !cur)) ||
cur > prev*2 ||
cur < prev/2) {
if (last_changed+MAX_BANDWIDTH_CHANGE_FREQ < now) {
log_info(LD_GENERAL,
"Measured bandwidth has changed; rebuilding descriptor.");
mark_my_descriptor_dirty();
last_changed = now;
}
}
}
/** Note at log level severity that our best guess of address has changed from
* <b>prev</b> to <b>cur</b>. */
static void
log_addr_has_changed(int severity, uint32_t prev, uint32_t cur)
{
char addrbuf_prev[INET_NTOA_BUF_LEN];
char addrbuf_cur[INET_NTOA_BUF_LEN];
struct in_addr in_prev;
struct in_addr in_cur;
in_prev.s_addr = htonl(prev);
tor_inet_ntoa(&in_prev, addrbuf_prev, sizeof(addrbuf_prev));
in_cur.s_addr = htonl(cur);
tor_inet_ntoa(&in_cur, addrbuf_cur, sizeof(addrbuf_cur));
if (prev)
log_fn(severity, LD_GENERAL,
"Our IP Address has changed from %s to %s; "
"rebuilding descriptor.",
addrbuf_prev, addrbuf_cur);
else
log_notice(LD_GENERAL,
"Guessed our IP address as %s.",
addrbuf_cur);
}
/** Check whether our own address as defined by the Address configuration
* has changed. This is for routers that get their address from a service
* like dyndns. If our address has changed, mark our descriptor dirty. */
void
check_descriptor_ipaddress_changed(time_t now)
{
uint32_t prev, cur;
or_options_t *options = get_options();
(void) now;
if (!desc_routerinfo)
return;
prev = desc_routerinfo->addr;
if (resolve_my_address(LOG_INFO, options, &cur, NULL) < 0) {
log_info(LD_CONFIG,"options->Address didn't resolve into an IP.");
return;
}
if (prev != cur) {
log_addr_has_changed(LOG_INFO, prev, cur);
ip_address_changed(0);
}
}
/** The most recently guessed value of our IP address, based on directory
* headers. */
static uint32_t last_guessed_ip = 0;
/** A directory authority told us our IP address is <b>suggestion</b>.
* If this address is different from the one we think we are now, and
* if our computer doesn't actually know its IP address, then switch. */
void
router_new_address_suggestion(const char *suggestion)
{
uint32_t addr, cur = 0;
struct in_addr in;
or_options_t *options = get_options();
/* first, learn what the IP address actually is */
if (!tor_inet_aton(suggestion, &in)) {
log_debug(LD_DIR, "Malformed X-Your-Address-Is header %s. Ignoring.",
escaped(suggestion));
return;
}
addr = ntohl(in.s_addr);
log_debug(LD_DIR, "Got X-Your-Address-Is: %s.", suggestion);
if (!server_mode(options)) {
last_guessed_ip = addr; /* store it in case we need it later */
return;
}
if (resolve_my_address(LOG_INFO, options, &cur, NULL) >= 0) {
/* We're all set -- we already know our address. Great. */
last_guessed_ip = cur; /* store it in case we need it later */
return;
}
if (is_internal_IP(addr, 0)) {
/* Don't believe anybody who says our IP is, say, 127.0.0.1. */
return;
}
/* Okay. We can't resolve our own address, and X-Your-Address-Is is giving
* us an answer different from what we had the last time we managed to
* resolve it. */
if (last_guessed_ip != addr) {
control_event_server_status(LOG_NOTICE,
"EXTERNAL_ADDRESS ADDRESS=%s METHOD=DIRSERV",
suggestion);
log_addr_has_changed(LOG_NOTICE, last_guessed_ip, addr);
ip_address_changed(0);
last_guessed_ip = addr; /* router_rebuild_descriptor() will fetch it */
}
}
/** We failed to resolve our address locally, but we'd like to build
* a descriptor and publish / test reachability. If we have a guess
* about our address based on directory headers, answer it and return
* 0; else return -1. */
static int
router_guess_address_from_dir_headers(uint32_t *guess)
{
if (last_guessed_ip) {
*guess = last_guessed_ip;
return 0;
}
return -1;
}
extern const char tor_svn_revision[]; /* from main.c */
/** Set <b>platform</b> (max length <b>len</b>) to a NUL-terminated short
* string describing the version of Tor and the operating system we're
* currently running on.
*/
void
get_platform_str(char *platform, size_t len)
{
char svn_version_buf[128];
if (!strcmpend(VERSION, "-dev") &&
tor_svn_revision && strlen(tor_svn_revision)) {
tor_snprintf(svn_version_buf, sizeof(svn_version_buf), " (r%s)",
tor_svn_revision);
} else {
svn_version_buf[0] = 0;
}
tor_snprintf(platform, len, "Tor %s%s on %s",
VERSION, svn_version_buf, get_uname());
return;
}
/* XXX need to audit this thing and count fenceposts. maybe
* refactor so we don't have to keep asking if we're
* near the end of maxlen?
*/
#define DEBUG_ROUTER_DUMP_ROUTER_TO_STRING
/** OR only: Given a routerinfo for this router, and an identity key to sign
* with, encode the routerinfo as a signed server descriptor and write the
* result into <b>s</b>, using at most <b>maxlen</b> bytes. Return -1 on
* failure, and the number of bytes used on success.
*/
int
router_dump_router_to_string(char *s, size_t maxlen, routerinfo_t *router,
crypto_pk_env_t *ident_key)
{
char *onion_pkey; /* Onion key, PEM-encoded. */
char *identity_pkey; /* Identity key, PEM-encoded. */
char digest[DIGEST_LEN];
char published[ISO_TIME_LEN+1];
char fingerprint[FINGERPRINT_LEN+1];
char extra_info_digest[HEX_DIGEST_LEN+1];
size_t onion_pkeylen, identity_pkeylen;
size_t written;
int result=0;
addr_policy_t *tmpe;
char *bandwidth_usage;
char *family_line;
or_options_t *options = get_options();
/* Make sure the identity key matches the one in the routerinfo. */
if (crypto_pk_cmp_keys(ident_key, router->identity_pkey)) {
log_warn(LD_BUG,"Tried to sign a router with a private key that didn't "
"match router's public key!");
return -1;
}
/* record our fingerprint, so we can include it in the descriptor */
if (crypto_pk_get_fingerprint(router->identity_pkey, fingerprint, 1)<0) {
log_err(LD_BUG,"Error computing fingerprint");
return -1;
}
/* PEM-encode the onion key */
if (crypto_pk_write_public_key_to_string(router->onion_pkey,
&onion_pkey,&onion_pkeylen)<0) {
log_warn(LD_BUG,"write onion_pkey to string failed!");
return -1;
}
/* PEM-encode the identity key key */
if (crypto_pk_write_public_key_to_string(router->identity_pkey,
&identity_pkey,&identity_pkeylen)<0) {
log_warn(LD_BUG,"write identity_pkey to string failed!");
tor_free(onion_pkey);
return -1;
}
/* Encode the publication time. */
format_iso_time(published, router->cache_info.published_on);
/* How busy have we been? */
bandwidth_usage = rep_hist_get_bandwidth_lines(0);
if (router->declared_family && smartlist_len(router->declared_family)) {
size_t n;
char *s = smartlist_join_strings(router->declared_family, " ", 0, &n);
n += strlen("family ") + 2; /* 1 for \n, 1 for \0. */
family_line = tor_malloc(n);
tor_snprintf(family_line, n, "family %s\n", s);
tor_free(s);
} else {
family_line = tor_strdup("");
}
base16_encode(extra_info_digest, sizeof(extra_info_digest),
router->cache_info.extra_info_digest, DIGEST_LEN);
/* Generate the easy portion of the router descriptor. */
result = tor_snprintf(s, maxlen,
"router %s %s %d 0 %d\n"
"platform %s\n"
"published %s\n"
"opt fingerprint %s\n"
"uptime %ld\n"
"bandwidth %d %d %d\n"
"opt extra-info-digest %s\n"
"onion-key\n%s"
"signing-key\n%s"
"%s%s%s",
router->nickname,
router->address,
router->or_port,
decide_to_advertise_dirport(options, router),
router->platform,
published,
fingerprint,
stats_n_seconds_working,
(int) router->bandwidthrate,
(int) router->bandwidthburst,
(int) router->bandwidthcapacity,
extra_info_digest,
onion_pkey, identity_pkey,
family_line, bandwidth_usage,
we_are_hibernating() ? "opt hibernating 1\n" : "");
tor_free(family_line);
tor_free(onion_pkey);
tor_free(identity_pkey);
tor_free(bandwidth_usage);
if (result < 0) {
log_warn(LD_BUG,"descriptor snprintf #1 ran out of room!");
return -1;
}
/* From now on, we use 'written' to remember the current length of 's'. */
written = result;
if (options->ContactInfo && strlen(options->ContactInfo)) {
result = tor_snprintf(s+written,maxlen-written, "contact %s\n",
options->ContactInfo);
if (result<0) {
log_warn(LD_BUG,"descriptor snprintf #2 ran out of room!");
return -1;
}
written += result;
}
/* Write the exit policy to the end of 's'. */
tmpe = router->exit_policy;
if (dns_seems_to_be_broken()) {
/* DNS is screwed up; don't claim to be an exit. */
strlcat(s+written, "reject *:*\n", maxlen-written);
written += strlen("reject *:*\n");
tmpe = NULL;
}
for ( ; tmpe; tmpe=tmpe->next) {
result = policy_write_item(s+written, maxlen-written, tmpe);
if (result < 0) {
log_warn(LD_BUG,"descriptor policy_write_item ran out of room!");
return -1;
}
tor_assert(result == (int)strlen(s+written));
written += result;
if (written+2 > maxlen) {
log_warn(LD_BUG,"descriptor policy_write_item ran out of room (2)!");
return -1;
}
s[written++] = '\n';
}
if (written+256 > maxlen) { /* Not enough room for signature. */
log_warn(LD_BUG,"not enough room left in descriptor for signature!");
return -1;
}
/* Sign the directory */
strlcpy(s+written, "router-signature\n", maxlen-written);
written += strlen(s+written);
s[written] = '\0';
if (router_get_router_hash(s, digest) < 0) {
return -1;
}
note_crypto_pk_op(SIGN_RTR);
if (router_append_dirobj_signature(s+written,maxlen-written,
digest,ident_key)<0) {
log_warn(LD_BUG, "Couldn't sign router descriptor");
return -1;
}
written += strlen(s+written);
if (written+2 > maxlen) {
log_warn(LD_BUG,"Not enough room to finish descriptor.");
return -1;
}
/* include a last '\n' */
s[written] = '\n';
s[written+1] = 0;
#ifdef DEBUG_ROUTER_DUMP_ROUTER_TO_STRING
{
char *s_dup;
const char *cp;
routerinfo_t *ri_tmp;
cp = s_dup = tor_strdup(s);
ri_tmp = router_parse_entry_from_string(cp, NULL, 1);
if (!ri_tmp) {
log_err(LD_BUG,
"We just generated a router descriptor we can't parse.");
log_err(LD_BUG, "Descriptor was: <<%s>>", s);
return -1;
}
tor_free(s_dup);
routerinfo_free(ri_tmp);
}
#endif
return written+1;
}
/** DOCDOC */
int
extrainfo_dump_to_string(char *s, size_t maxlen, extrainfo_t *extrainfo,
crypto_pk_env_t *ident_key)
{
char identity[HEX_DIGEST_LEN+1];
char published[ISO_TIME_LEN+1];
char digest[DIGEST_LEN];
char *bandwidth_usage;
int result;
size_t len;
base16_encode(identity, sizeof(identity),
extrainfo->cache_info.identity_digest, DIGEST_LEN);
format_iso_time(published, extrainfo->cache_info.published_on);
bandwidth_usage = rep_hist_get_bandwidth_lines(1);
result = tor_snprintf(s, maxlen,
"extra-info %s %s\n"
"published %s\n%s"
"router-signature\n",
extrainfo->nickname, identity,
published, bandwidth_usage);
tor_free(bandwidth_usage);
if (result<0)
return -1;
len = strlen(s);
if (router_get_extrainfo_hash(s, digest)<0)
return -1;
if (router_append_dirobj_signature(s+len, maxlen-len, digest, ident_key)<0)
return -1;
#ifdef DEBUG_ROUTER_DUMP_ROUTER_TO_STRING
{
char *cp, *s_dup;
extrainfo_t *ei_tmp;
cp = s_dup = tor_strdup(s);
ei_tmp = extrainfo_parse_entry_from_string(cp, NULL, 1, NULL);
if (!ei_tmp) {
log_err(LD_BUG,
"We just generated an extrainfo descriptor we can't parse.");
log_err(LD_BUG, "Descriptor was: <<%s>>", s);
return -1;
}
tor_free(s_dup);
extrainfo_free(ei_tmp);
}
#endif
return strlen(s)+1;
}
/** Return true iff <b>s</b> is a legally valid server nickname. */
int
is_legal_nickname(const char *s)
{
size_t len;
tor_assert(s);
len = strlen(s);
return len > 0 && len <= MAX_NICKNAME_LEN &&
strspn(s,LEGAL_NICKNAME_CHARACTERS) == len;
}
/** Return true iff <b>s</b> is a legally valid server nickname or
* hex-encoded identity-key digest. */
int
is_legal_nickname_or_hexdigest(const char *s)
{
if (*s!='$')
return is_legal_nickname(s);
else
return is_legal_hexdigest(s);
}
/** Return true iff <b>s</b> is a legally valid hex-encoded identity-key
* digest. */
int
is_legal_hexdigest(const char *s)
{
size_t len;
tor_assert(s);
if (s[0] == '$') s++;
len = strlen(s);
if (len > HEX_DIGEST_LEN) {
if (s[HEX_DIGEST_LEN] == '=' ||
s[HEX_DIGEST_LEN] == '~') {
if (!is_legal_nickname(s+HEX_DIGEST_LEN+1))
return 0;
} else {
return 0;
}
}
return (len >= HEX_DIGEST_LEN &&
strspn(s,HEX_CHARACTERS)==HEX_DIGEST_LEN);
}
/** Set <b>buf</b> (which must have MAX_VERBOSE_NICKNAME_LEN+1 bytes) to the
* verbose representation of the identity of <b>router</b>. The format is:
* A dollar sign.
* The upper-case hexadecimal encoding of the SHA1 hash of router's identity.
* A "=" if the router is named; a "~" if it is not.
* The router's nickname.
**/
void
router_get_verbose_nickname(char *buf, routerinfo_t *router)
{
buf[0] = '$';
base16_encode(buf+1, HEX_DIGEST_LEN+1, router->cache_info.identity_digest,
DIGEST_LEN);
buf[1+HEX_DIGEST_LEN] = router->is_named ? '=' : '~';
strlcpy(buf+1+HEX_DIGEST_LEN+1, router->nickname, MAX_NICKNAME_LEN+1);
}
/** Forget that we have issued any router-related warnings, so that we'll
* warn again if we see the same errors. */
void
router_reset_warnings(void)
{
if (warned_nonexistent_family) {
SMARTLIST_FOREACH(warned_nonexistent_family, char *, cp, tor_free(cp));
smartlist_clear(warned_nonexistent_family);
}
}
/** Release all static resources held in router.c */
void
router_free_all(void)
{
if (onionkey)
crypto_free_pk_env(onionkey);
if (lastonionkey)
crypto_free_pk_env(lastonionkey);
if (identitykey)
crypto_free_pk_env(identitykey);
if (key_lock)
tor_mutex_free(key_lock);
if (desc_routerinfo)
routerinfo_free(desc_routerinfo);
if (desc_extrainfo)
extrainfo_free(desc_extrainfo);
if (warned_nonexistent_family) {
SMARTLIST_FOREACH(warned_nonexistent_family, char *, cp, tor_free(cp));
smartlist_free(warned_nonexistent_family);
}
}
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