tor/src/or/onion.c

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/* Copyright 2001,2002,2003 Roger Dingledine, Matej Pfajfar. */
/* See LICENSE for licensing information */
/* $Id$ */
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#include "or.h"
extern or_options_t options; /* command-line and config-file options */
static int count_acceptable_routers(routerinfo_t **rarray, int rarray_len);
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int decide_circ_id_type(char *local_nick, char *remote_nick) {
int result;
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assert(remote_nick);
if(!local_nick)
return CIRC_ID_TYPE_LOWER;
result = strcmp(local_nick, remote_nick);
assert(result);
if(result < 0)
return CIRC_ID_TYPE_LOWER;
return CIRC_ID_TYPE_HIGHER;
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}
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struct onion_queue_t {
circuit_t *circ;
struct onion_queue_t *next;
};
/* global (within this file) variables used by the next few functions */
static struct onion_queue_t *ol_list=NULL;
static struct onion_queue_t *ol_tail=NULL;
static int ol_length=0;
int onion_pending_add(circuit_t *circ) {
struct onion_queue_t *tmp;
tmp = tor_malloc(sizeof(struct onion_queue_t));
memset(tmp, 0, sizeof(struct onion_queue_t));
tmp->circ = circ;
if(!ol_tail) {
assert(!ol_list);
assert(!ol_length);
ol_list = tmp;
ol_tail = tmp;
ol_length++;
return 0;
}
assert(ol_list);
assert(!ol_tail->next);
if(ol_length >= options.MaxOnionsPending) {
log_fn(LOG_WARN,"Already have %d onions queued. Closing.", ol_length);
free(tmp);
return -1;
}
ol_length++;
ol_tail->next = tmp;
ol_tail = tmp;
return 0;
}
circuit_t *onion_next_task(void) {
circuit_t *circ;
if(!ol_list)
return NULL; /* no onions pending, we're done */
assert(ol_list->circ);
if(!ol_list->circ->p_conn) {
log_fn(LOG_INFO,"ol_list->circ->p_conn null, must have died?");
onion_pending_remove(ol_list->circ);
return onion_next_task(); /* recurse: how about the next one? */
}
assert(ol_length > 0);
circ = ol_list->circ;
onion_pending_remove(ol_list->circ);
return circ;
}
/* go through ol_list, find the onion_queue_t element which points to
* circ, remove and free that element. leave circ itself alone.
*/
void onion_pending_remove(circuit_t *circ) {
struct onion_queue_t *tmpo, *victim;
if(!ol_list)
return; /* nothing here. */
/* first check to see if it's the first entry */
tmpo = ol_list;
if(tmpo->circ == circ) {
/* it's the first one. remove it from the list. */
ol_list = tmpo->next;
if(!ol_list)
ol_tail = NULL;
ol_length--;
victim = tmpo;
} else { /* we need to hunt through the rest of the list */
for( ;tmpo->next && tmpo->next->circ != circ; tmpo=tmpo->next) ;
if(!tmpo->next) {
log_fn(LOG_DEBUG,"circ (p_circ_id %d) not in list, probably at cpuworker.",circ->p_circ_id);
return;
}
/* now we know tmpo->next->circ == circ */
victim = tmpo->next;
tmpo->next = victim->next;
if(ol_tail == victim)
ol_tail = tmpo;
ol_length--;
}
/* now victim points to the element that needs to be removed */
free(victim);
}
/* given a response payload and keys, initialize, then send a created cell back */
int onionskin_answer(circuit_t *circ, unsigned char *payload, unsigned char *keys) {
unsigned char iv[16];
cell_t cell;
memset(iv, 0, 16);
memset(&cell, 0, sizeof(cell_t));
cell.command = CELL_CREATED;
cell.circ_id = circ->p_circ_id;
cell.length = DH_KEY_LEN;
circ->state = CIRCUIT_STATE_OPEN;
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log_fn(LOG_DEBUG,"Entering.");
memcpy(cell.payload, payload, DH_KEY_LEN);
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log_fn(LOG_DEBUG,"init cipher forward %d, backward %d.", *(int*)keys, *(int*)(keys+16));
if (!(circ->n_crypto =
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crypto_create_init_cipher(CIRCUIT_CIPHER,keys,iv,0))) {
log_fn(LOG_WARN,"Cipher initialization failed (n).");
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return -1;
}
if (!(circ->p_crypto =
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crypto_create_init_cipher(CIRCUIT_CIPHER,keys+16,iv,1))) {
log_fn(LOG_WARN,"Cipher initialization failed (p).");
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return -1;
}
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connection_or_write_cell_to_buf(&cell, circ->p_conn);
log_fn(LOG_DEBUG,"Finished sending 'created' cell.");
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return 0;
}
char **parse_nickname_list(char *list, int *num) {
char **out;
char *start,*end;
int i;
while(isspace(*list)) list++;
i=0, start = list;
while(*start) {
while(*start && !isspace(*start)) start++;
i++;
while(isspace(*start)) start++;
}
out = tor_malloc(i * sizeof(char *));
i=0, start=list;
while(*start) {
end=start; while(*end && !isspace(*end)) end++;
out[i] = tor_malloc(MAX_NICKNAME_LEN);
strncpy(out[i],start,end-start);
out[i][end-start] = 0; /* null terminate it */
i++;
while(isspace(*end)) end++;
start = end;
}
*num = i;
return out;
}
static int new_route_len(double cw, routerinfo_t **rarray, int rarray_len) {
int num_acceptable_routers;
int routelen;
assert((cw >= 0) && (cw < 1) && rarray); /* valid parameters */
for(routelen=3; ; routelen++) { /* 3, increment until coinflip says we're done */
if (crypto_pseudo_rand_int(255) >= cw*255) /* don't extend */
break;
}
log_fn(LOG_DEBUG,"Chosen route length %d (%d routers available).",routelen, rarray_len);
num_acceptable_routers = count_acceptable_routers(rarray, rarray_len);
if(num_acceptable_routers < 2) {
log_fn(LOG_INFO,"Not enough acceptable routers. Failing.");
return -1;
}
if(num_acceptable_routers < routelen) {
log_fn(LOG_INFO,"Not enough routers: cutting routelen from %d to %d.",routelen, num_acceptable_routers);
routelen = num_acceptable_routers;
}
if (routelen < 1) {
log_fn(LOG_WARN,"Didn't find any acceptable routers. Failing.");
return -1;
}
return routelen;
}
static routerinfo_t *choose_good_exit_server(directory_t *dir)
{
int *n_supported;
int *n_maybe_supported;
int i, j;
int n_pending_connections = 0;
connection_t **carray;
int n_connections;
int best_support = -1;
int best_maybe_support = -1;
int best_support_idx = -1;
int best_maybe_support_idx = -1;
int n_best_support=0, n_best_maybe_support=0;
get_connection_array(&carray, &n_connections);
for (i = 0; i < n_connections; ++i) {
if (carray[i]->type == CONN_TYPE_AP && carray[i]->state == AP_CONN_STATE_CIRCUIT_WAIT)
++n_pending_connections;
}
log_fn(LOG_DEBUG, "Choosing exit node; %d connections are pending",
n_pending_connections);
n_supported = tor_malloc(sizeof(int)*dir->n_routers);
n_maybe_supported = tor_malloc(sizeof(int)*dir->n_routers);
for (i = 0; i < dir->n_routers; ++i) {
n_supported[i] = n_maybe_supported[i] = 0;
for (j = 0; j < n_pending_connections; ++j) {
if (carray[i]->type != CONN_TYPE_AP ||
carray[i]->state == AP_CONN_STATE_CIRCUIT_WAIT ||
carray[i]->marked_for_close)
continue;
switch (connection_ap_can_use_exit(carray[j], dir->routers[i]))
{
case -1:
break;
case 0:
++n_supported[i];
case 1:
++n_maybe_supported[i];
}
}
if (n_supported[i] > best_support) {
best_support = n_supported[i]; best_support_idx = i; n_best_support=1;
} else if (n_supported[i] == best_support) {
++n_best_support;
}
if (n_maybe_supported[i] > best_maybe_support) {
best_maybe_support = n_maybe_supported[i]; best_maybe_support_idx = i;
n_best_maybe_support = 1;
} else if (n_maybe_supported[i] == best_maybe_support) {
++n_best_maybe_support;
}
}
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log_fn(LOG_INFO, "Found %d servers that will definitely support %d/%d pending connections, and %d that might support %d/%d.",
n_best_support, best_support, n_pending_connections,
n_best_maybe_support, best_maybe_support, n_pending_connections);
if (best_support) {
i = crypto_pseudo_rand_int(n_best_support);
for (j = best_support_idx; j < dir->n_routers; ++j) {
if (n_supported[j] == best_support) {
if (i)
--i;
else {
tor_free(n_supported); tor_free(n_maybe_supported);
return dir->routers[i];
}
}
}
}
if (best_maybe_support) {
i = crypto_pseudo_rand_int(n_best_maybe_support);
for (j = best_maybe_support_idx; j < dir->n_routers; ++j) {
if (n_maybe_supported[j] == best_maybe_support) {
if (i)
--i;
else {
tor_free(n_supported); tor_free(n_maybe_supported);
return dir->routers[i];
}
}
}
}
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tor_free(n_supported); tor_free(n_maybe_supported);
i = crypto_pseudo_rand_int(dir->n_routers);
log_fn(LOG_DEBUG, "Chose exit server '%s'", dir->routers[i]->nickname);
return dir->routers[i];
}
cpath_build_state_t *onion_new_cpath_build_state(void) {
directory_t *dir;
int r;
cpath_build_state_t *info;
router_get_directory(&dir);
r = new_route_len(options.PathlenCoinWeight, dir->routers, dir->n_routers);
if (r < 0)
return NULL;
info = tor_malloc(sizeof(cpath_build_state_t));
info->desired_path_len = r;
info->chosen_exit = tor_strdup(choose_good_exit_server(dir)->nickname);
return info;
}
static int count_acceptable_routers(routerinfo_t **rarray, int rarray_len) {
int i, j;
int num=0;
connection_t *conn;
for(i=0;i<rarray_len;i++) {
log_fn(LOG_DEBUG,"Contemplating whether router %d is a new option...",i);
if(options.OnionRouter) {
conn = connection_exact_get_by_addr_port(rarray[i]->addr, rarray[i]->or_port);
if(!conn || conn->type != CONN_TYPE_OR || conn->state != OR_CONN_STATE_OPEN) {
log_fn(LOG_DEBUG,"Nope, %d is not connected.",i);
goto next_i_loop;
}
}
for(j=0;j<i;j++) {
if(!crypto_pk_cmp_keys(rarray[i]->onion_pkey, rarray[j]->onion_pkey)) {
/* these guys are twins. so we've already counted him. */
log_fn(LOG_DEBUG,"Nope, %d is a twin of %d.",i,j);
goto next_i_loop;
}
}
num++;
log_fn(LOG_DEBUG,"I like %d. num_acceptable_routers now %d.",i, num);
next_i_loop:
; /* our compiler may need an explicit statement after the label */
}
return num;
}
int onion_extend_cpath(crypt_path_t **head_ptr, cpath_build_state_t *state, routerinfo_t **router_out)
{
int cur_len;
crypt_path_t *cpath, *hop;
routerinfo_t **rarray, *r;
routerinfo_t *choice;
int rarray_len;
int i;
directory_t *dir;
int n_failures;
assert(head_ptr);
assert(router_out);
router_get_directory(&dir);
rarray = dir->routers;
rarray_len = dir->n_routers;
if (!*head_ptr) {
cur_len = 0;
} else {
cur_len = 1;
for (cpath = *head_ptr; cpath->next != *head_ptr; cpath = cpath->next) {
++cur_len;
}
}
if (cur_len >= state->desired_path_len) {
log_fn(LOG_DEBUG, "Path is complete: %d steps long",
state->desired_path_len);
return 1;
}
log_fn(LOG_DEBUG, "Path is %d long; we want %d", cur_len,
state->desired_path_len);
n_failures = 0;
goto start;
again:
log_fn(LOG_DEBUG, "Picked an already-selected router for hop %d; retrying.",
cur_len);
++n_failures;
if (n_failures == 25) {
/* This actually happens with P=1/30,000,000 when we _could_ build a
* circuit. For now, let's leave it in.
*/
log_fn(LOG_ERR, "Infinite loop in exit path selection");
exit(1);
}
start:
if(cur_len == 0) { /* picking entry node */
log_fn(LOG_DEBUG, "Contemplating first hop: random choice.");
choice = rarray[crypto_pseudo_rand_int(rarray_len)];
} else if (cur_len == state->desired_path_len - 1) { /* Picking last node */
log_fn(LOG_DEBUG, "Contemplating last hop: choice already made.");
choice = router_get_by_nickname(state->chosen_exit);
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/* XXX check if null */
} else {
log_fn(LOG_DEBUG, "Contemplating intermediate hop: random choice.");
choice = rarray[crypto_pseudo_rand_int(rarray_len)];
}
log_fn(LOG_DEBUG,"Contemplating router %s for hop %d (exit is %s)",
choice->nickname, cur_len, state->chosen_exit);
if (cur_len != state->desired_path_len-1 &&
!strcasecmp(choice->nickname, state->chosen_exit)) {
goto again;
}
for (i = 0, cpath = *head_ptr; i < cur_len; ++i, cpath=cpath->next) {
r = router_get_by_addr_port(cpath->addr, cpath->port);
if ((r && !crypto_pk_cmp_keys(r->onion_pkey, choice->onion_pkey))
|| (cur_len != state->desired_path_len-1 &&
!strcasecmp(choice->nickname, state->chosen_exit))
|| (cpath->addr == choice->addr &&
cpath->port == choice->or_port)
|| (options.OnionRouter &&
!(connection_twin_get_by_addr_port(choice->addr,
choice->or_port)))) {
goto again;
}
}
/* Okay, so we haven't used 'choice' before. */
hop = (crypt_path_t *)tor_malloc(sizeof(crypt_path_t));
memset(hop, 0, sizeof(crypt_path_t));
/* link hop into the cpath, at the end. */
if (*head_ptr) {
hop->next = (*head_ptr);
hop->prev = (*head_ptr)->prev;
(*head_ptr)->prev->next = hop;
(*head_ptr)->prev = hop;
} else {
*head_ptr = hop;
hop->prev = hop->next = hop;
}
hop->state = CPATH_STATE_CLOSED;
hop->port = choice->or_port;
hop->addr = choice->addr;
hop->package_window = CIRCWINDOW_START;
hop->deliver_window = CIRCWINDOW_START;
log_fn(LOG_DEBUG, "Extended circuit path with %s for hop %d",
choice->nickname, cur_len);
*router_out = choice;
return 0;
}
/*----------------------------------------------------------------------*/
/* Given a router's public key, generates a 144-byte encrypted DH pubkey,
* and stores it into onion_skin out. Stores the DH private key into
* handshake_state_out for later completion of the handshake.
*
* The encrypted pubkey is formed as follows:
* 16 bytes of symmetric key
* 128 bytes of g^x for DH.
* The first 128 bytes are RSA-encrypted with the server's public key,
* and the last 16 are encrypted with the symmetric key.
*/
int
onion_skin_create(crypto_pk_env_t *dest_router_key,
crypto_dh_env_t **handshake_state_out,
char *onion_skin_out) /* Must be DH_ONIONSKIN_LEN bytes long */
{
char iv[16];
char *pubkey = NULL;
crypto_dh_env_t *dh = NULL;
crypto_cipher_env_t *cipher = NULL;
int dhbytes, pkbytes;
*handshake_state_out = NULL;
memset(onion_skin_out, 0, DH_ONIONSKIN_LEN);
memset(iv, 0, 16);
if (!(dh = crypto_dh_new()))
goto err;
dhbytes = crypto_dh_get_bytes(dh);
pkbytes = crypto_pk_keysize(dest_router_key);
assert(dhbytes+16 == DH_ONIONSKIN_LEN);
pubkey = (char *)tor_malloc(dhbytes+16);
if (crypto_rand(16, pubkey))
goto err;
/* XXXX You can't just run around RSA-encrypting any bitstream: if it's
* greater than the RSA key, then OpenSSL will happily encrypt,
* and later decrypt to the wrong value. So we set the first bit
* of 'pubkey' to 0. This means that our symmetric key is really only
* 127 bits long, but since it shouldn't be necessary to encrypt
* DH public keys values in the first place, we should be fine.
*/
pubkey[0] &= 0x7f;
if (crypto_dh_get_public(dh, pubkey+16, dhbytes))
goto err;
#ifdef DEBUG_ONION_SKINS
#define PA(a,n) \
{ int _i; for (_i = 0; _i<n; ++_i) printf("%02x ",((int)(a)[_i])&0xFF); }
printf("Client: client g^x:");
PA(pubkey+16,3);
printf("...");
PA(pubkey+141,3);
puts("");
printf("Client: client symkey:");
PA(pubkey+0,16);
puts("");
#endif
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cipher = crypto_create_init_cipher(ONION_CIPHER, pubkey, iv, 1);
if (!cipher)
goto err;
if (crypto_pk_public_encrypt(dest_router_key, pubkey, pkbytes,
onion_skin_out, RSA_NO_PADDING)==-1)
goto err;
if (crypto_cipher_encrypt(cipher, pubkey+pkbytes, dhbytes+16-pkbytes,
onion_skin_out+pkbytes))
goto err;
free(pubkey);
crypto_free_cipher_env(cipher);
*handshake_state_out = dh;
return 0;
err:
tor_free(pubkey);
if (dh) crypto_dh_free(dh);
if (cipher) crypto_free_cipher_env(cipher);
return -1;
}
/* Given an encrypted DH public key as generated by onion_skin_create,
* and the private key for this onion router, generate the 128-byte DH
* reply, and key_out_len bytes of key material, stored in key_out.
*/
int
onion_skin_server_handshake(char *onion_skin, /* DH_ONIONSKIN_LEN bytes long */
crypto_pk_env_t *private_key,
char *handshake_reply_out, /* DH_KEY_LEN bytes long */
char *key_out,
int key_out_len)
{
char buf[DH_ONIONSKIN_LEN];
char iv[16];
crypto_dh_env_t *dh = NULL;
crypto_cipher_env_t *cipher = NULL;
int pkbytes;
int len;
memset(iv, 0, 16);
pkbytes = crypto_pk_keysize(private_key);
if (crypto_pk_private_decrypt(private_key,
onion_skin, pkbytes,
buf, RSA_NO_PADDING) == -1)
goto err;
#ifdef DEBUG_ONION_SKINS
printf("Server: client symkey:");
PA(buf+0,16);
puts("");
#endif
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cipher = crypto_create_init_cipher(ONION_CIPHER, buf, iv, 0);
if (crypto_cipher_decrypt(cipher, onion_skin+pkbytes, DH_ONIONSKIN_LEN-pkbytes,
buf+pkbytes))
goto err;
#ifdef DEBUG_ONION_SKINS
printf("Server: client g^x:");
PA(buf+16,3);
printf("...");
PA(buf+141,3);
puts("");
#endif
dh = crypto_dh_new();
if (crypto_dh_get_public(dh, handshake_reply_out, DH_KEY_LEN))
goto err;
#ifdef DEBUG_ONION_SKINS
printf("Server: server g^y:");
PA(handshake_reply_out+0,3);
printf("...");
PA(handshake_reply_out+125,3);
puts("");
#endif
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len = crypto_dh_compute_secret(dh, buf+16, DH_KEY_LEN, key_out, key_out_len);
if (len < 0)
goto err;
#ifdef DEBUG_ONION_SKINS
printf("Server: key material:");
PA(buf, DH_KEY_LEN);
puts("");
printf("Server: keys out:");
PA(key_out, key_out_len);
puts("");
#endif
crypto_free_cipher_env(cipher);
crypto_dh_free(dh);
return 0;
err:
if (cipher) crypto_free_cipher_env(cipher);
if (dh) crypto_dh_free(dh);
return -1;
}
/* Finish the client side of the DH handshake.
* Given the 128 byte DH reply as generated by onion_skin_server_handshake
* and the handshake state generated by onion_skin_create, generate
* key_out_len bytes of shared key material and store them in key_out.
*
* After the invocation, call crypto_dh_free on handshake_state.
*/
int
onion_skin_client_handshake(crypto_dh_env_t *handshake_state,
char *handshake_reply,/* Must be DH_KEY_LEN bytes long*/
char *key_out,
int key_out_len)
{
int len;
assert(crypto_dh_get_bytes(handshake_state) == DH_KEY_LEN);
#ifdef DEBUG_ONION_SKINS
printf("Client: server g^y:");
PA(handshake_reply+0,3);
printf("...");
PA(handshake_reply+125,3);
puts("");
#endif
len = crypto_dh_compute_secret(handshake_state, handshake_reply, DH_KEY_LEN,
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key_out, key_out_len);
if (len < 0)
return -1;
#ifdef DEBUG_ONION_SKINS
printf("Client: keys out:");
PA(key_out, key_out_len);
puts("");
#endif
return 0;
}
/*
Local Variables:
mode:c
indent-tabs-mode:nil
c-basic-offset:2
End:
*/