tor/src/or/circuit.c

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/* Copyright 2001,2002 Roger Dingledine, Matej Pfajfar. */
/* See LICENSE for licensing information */
/* $Id$ */
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#include "or.h"
/********* START VARIABLES **********/
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static circuit_t *global_circuitlist=NULL;
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/********* END VARIABLES ************/
void circuit_add(circuit_t *circ) {
if(!global_circuitlist) { /* first one */
global_circuitlist = circ;
circ->next = NULL;
} else {
circ->next = global_circuitlist;
global_circuitlist = circ;
}
}
void circuit_remove(circuit_t *circ) {
circuit_t *tmpcirc;
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assert(circ && global_circuitlist);
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if(global_circuitlist == circ) {
global_circuitlist = global_circuitlist->next;
return;
}
for(tmpcirc = global_circuitlist;tmpcirc->next;tmpcirc = tmpcirc->next) {
if(tmpcirc->next == circ) {
tmpcirc->next = circ->next;
return;
}
}
}
circuit_t *circuit_new(aci_t p_aci, connection_t *p_conn) {
circuit_t *circ;
circ = (circuit_t *)malloc(sizeof(circuit_t));
if(!circ)
return NULL;
memset(circ,0,sizeof(circuit_t)); /* zero it out */
circ->p_aci = p_aci;
circ->p_conn = p_conn;
circ->state = CIRCUIT_STATE_OPEN_WAIT;
/* ACIs */
circ->p_aci = p_aci;
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/* circ->n_aci remains 0 because we haven't identified the next hop yet */
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circ->n_receive_window = RECEIVE_WINDOW_START;
circ->p_receive_window = RECEIVE_WINDOW_START;
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circuit_add(circ);
return circ;
}
void circuit_free(circuit_t *circ) {
EVP_CIPHER_CTX_cleanup(&circ->n_ctx);
EVP_CIPHER_CTX_cleanup(&circ->p_ctx);
if(circ->onion)
free(circ->onion);
if(circ->cpath)
circuit_free_cpath(circ->cpath, circ->cpathlen);
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free(circ);
}
void circuit_free_cpath(crypt_path_t **cpath, size_t cpathlen) {
int i;
for(i=0;i<cpathlen;i++)
free(cpath[i]);
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free(cpath);
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}
aci_t get_unique_aci_by_addr_port(uint32_t addr, uint16_t port, int aci_type) {
aci_t test_aci;
connection_t *conn;
log(LOG_DEBUG,"get_unique_aci_by_addr_port() trying to get a unique aci");
RAND_pseudo_bytes((unsigned char *)&test_aci, 2);
if(aci_type == ACI_TYPE_LOWER)
test_aci &= htons(0x00FF);
if(aci_type == ACI_TYPE_HIGHER)
test_aci &= htons(0xFF00);
/* if aci_type == ACI_BOTH, don't filter any of it */
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if(test_aci == 0)
return get_unique_aci_by_addr_port(addr, port, aci_type); /* try again */
conn = connection_exact_get_by_addr_port(addr,port);
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if(!conn) /* there can't be a conflict -- no connection of that sort yet */
return test_aci;
if(circuit_get_by_aci_conn(test_aci, conn))
return get_unique_aci_by_addr_port(addr, port, aci_type); /* try again */
return test_aci;
}
int circuit_init(circuit_t *circ, int aci_type) {
onion_layer_t *ol;
int retval = 0;
unsigned char digest1[20];
unsigned char digest2[20];
assert(circ);
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ol = (onion_layer_t *)circ->onion;
assert(ol);
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log(LOG_DEBUG,"circuit_init(): starting");
circ->n_addr = ol->addr;
circ->n_port = ol->port;
log(LOG_DEBUG,"circuit_init(): Set port to %u.",ntohs(ol->port));
circ->p_f = ol->backf;
log(LOG_DEBUG,"circuit_init(): Set BACKF to %u.",ol->backf);
circ->n_f = ol->forwf;
log(LOG_DEBUG,"circuit_init(): Set FORWF to %u.",ol->forwf);
circ->state = CIRCUIT_STATE_OPEN;
log(LOG_DEBUG,"circuit_init(): aci_type = %u.",aci_type);
circ->n_aci = get_unique_aci_by_addr_port(circ->n_addr, circ->n_port, aci_type);
log(LOG_DEBUG,"circuit_init(): Chosen ACI %u.",circ->n_aci);
/* keys */
SHA1(ol->keyseed,16,digest1);
SHA1(digest1,20,digest2);
SHA1(digest2,20,digest1);
memcpy(circ->p_key,digest2,16);
memcpy(circ->n_key,digest1,16);
log(LOG_DEBUG,"circuit_init(): Computed keys.");
/* set IVs to zero */
memset(circ->n_iv,0,16);
memset(circ->p_iv,0,16);
/* initialize cipher context */
EVP_CIPHER_CTX_init(&circ->n_ctx);
EVP_CIPHER_CTX_init(&circ->p_ctx);
/* initialize crypto engines */
switch(circ->p_f)
{
case ONION_CIPHER_DES :
retval = EVP_EncryptInit(&circ->p_ctx, EVP_des_ofb(), circ->p_key, circ->p_iv);
break;
case ONION_CIPHER_RC4 :
retval = EVP_EncryptInit(&circ->p_ctx, EVP_rc4(), circ->p_key,circ->p_iv);
break;
case ONION_CIPHER_IDENTITY :
retval = EVP_EncryptInit(&circ->p_ctx, EVP_enc_null(), circ->p_key, circ->p_iv);
break;
default :
log(LOG_ERR,"Onion contains unrecognized cipher(%u) for ACI : %u.",circ->p_f,circ->n_aci);
return -1;
break;
}
if (!retval) /* EVP_EncryptInit() error */
{
log(LOG_ERR,"Cipher initialization failed (ACI %u).",circ->n_aci);
EVP_CIPHER_CTX_cleanup(&circ->n_ctx);
EVP_CIPHER_CTX_cleanup(&circ->p_ctx);
return -1;
}
switch(circ->n_f)
{
case ONION_CIPHER_DES :
retval = EVP_DecryptInit(&circ->n_ctx, EVP_des_ofb(), circ->n_key, circ->n_iv);
break;
case ONION_CIPHER_RC4 :
retval = EVP_DecryptInit(&circ->n_ctx, EVP_rc4(), circ->n_key,circ->n_iv);
break;
case ONION_CIPHER_IDENTITY :
retval = EVP_DecryptInit(&circ->n_ctx, EVP_enc_null(), circ->n_key, circ->n_iv);
break;
default :
log(LOG_ERR,"Onion contains unrecognized cipher for ACI : %u.",circ->n_aci);
return -1;
break;
}
if (!retval) /* EVP_EncryptInit() error */
{
log(LOG_ERR,"Cipher initialization failed (ACI %u).",circ->n_aci);
EVP_CIPHER_CTX_cleanup(&circ->n_ctx);
EVP_CIPHER_CTX_cleanup(&circ->p_ctx);
return -1;
}
log(LOG_DEBUG,"circuit_init(): Cipher initialization complete.");
circ->expire = ol->expire;
return 0;
}
circuit_t *circuit_get_by_naddr_nport(uint32_t naddr, uint16_t nport) {
circuit_t *circ;
for(circ=global_circuitlist;circ;circ = circ->next) {
if(circ->n_addr == naddr && circ->n_port == nport)
return circ;
}
return NULL;
}
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circuit_t *circuit_get_by_aci_conn(aci_t aci, connection_t *conn) {
circuit_t *circ;
for(circ=global_circuitlist;circ;circ = circ->next) {
if(circ->p_conn == conn && circ->p_aci == aci)
return circ;
if(circ->n_conn == conn && circ->n_aci == aci)
return circ;
}
return NULL;
}
circuit_t *circuit_get_by_conn(connection_t *conn) {
circuit_t *circ;
for(circ=global_circuitlist;circ;circ = circ->next) {
if(circ->p_conn == conn)
return circ;
if(circ->n_conn == conn)
return circ;
}
return NULL;
}
int circuit_deliver_data_cell(cell_t *cell, circuit_t *circ, connection_t *conn, int crypt_type) {
/* first decrypt cell->length */
if(circuit_crypt(circ, &(cell->length), 1, crypt_type) < 0) {
log(LOG_DEBUG,"circuit_deliver_data_cell(): length decryption failed. Dropping connection.");
return -1;
}
/* then decrypt the payload */
if(circuit_crypt(circ, (char *)&(cell->payload), CELL_PAYLOAD_SIZE, crypt_type) < 0) {
log(LOG_DEBUG,"circuit_deliver_data_cell(): payload decryption failed. Dropping connection.");
return -1;
}
if(conn->type == CONN_TYPE_EXIT) { /* send payload directly */
log(LOG_DEBUG,"circuit_deliver_data_cell(): Sending to exit.");
return connection_exit_process_data_cell(cell, conn);
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}
if(conn->type == CONN_TYPE_AP) { /* send payload directly */
log(LOG_DEBUG,"circuit_deliver_data_cell(): Sending to AP.");
return connection_ap_process_data_cell(cell, conn);
}
/* else send it as a cell */
log(LOG_DEBUG,"circuit_deliver_data_cell(): Sending to connection.");
return connection_write_cell_to_buf(cell, conn);
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}
int circuit_crypt(circuit_t *circ, char *in, size_t inlen, char crypt_type) {
char *out;
int outlen;
int i;
crypt_path_t *thishop;
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assert(circ && in);
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out = malloc(inlen);
if(!out)
return -1;
if(crypt_type == 'e') {
log(LOG_DEBUG,"circuit_crypt(): Encrypting %d bytes.",inlen);
if(circ->cpath) { /* we're at the beginning of the circuit. We'll want to do layered crypts. */
/* 'e' means we're preparing to send it out. */
for (i=0; i < circ->cpathlen; i++) /* moving from last to first hop
* Remember : cpath is in reverse order, i.e. last hop first
*/
{
log(LOG_DEBUG,"circuit_crypt() : Encrypting via cpath: Processing hop %u",circ->cpathlen-i);
thishop = circ->cpath[i];
/* encrypt */
if(!EVP_EncryptUpdate(&thishop->f_ctx,out,&outlen,in,inlen)) {
log(LOG_ERR,"Error performing encryption:%s",ERR_reason_error_string(ERR_get_error()));
free(out);
return -1;
}
/* copy ciphertext back to buf */
memcpy(in,out,inlen);
}
} else { /* we're in the middle. Just one crypt. */
if(!EVP_EncryptUpdate(&circ->p_ctx,out,&outlen,in,inlen)) {
log(LOG_ERR,"circuit_encrypt(): Encryption failed for ACI : %u (%s).",
circ->p_aci, ERR_reason_error_string(ERR_get_error()));
free(out);
return -1;
}
memcpy(in,out,inlen);
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}
} else if(crypt_type == 'd') {
log(LOG_DEBUG,"circuit_crypt(): Decrypting %d bytes.",inlen);
if(circ->cpath) { /* we're at the beginning of the circuit. We'll want to do layered crypts. */
for (i=circ->cpathlen-1; i >= 0; i--) /* moving from first to last hop
* Remember : cpath is in reverse order, i.e. last hop first
*/
{
log(LOG_DEBUG,"circuit_crypt() : Decrypting via cpath: Processing hop %u",circ->cpathlen-i);
thishop = circ->cpath[i];
/* encrypt */
if(!EVP_DecryptUpdate(&thishop->b_ctx,out,&outlen,in,inlen)) {
log(LOG_ERR,"Error performing decryption:%s",ERR_reason_error_string(ERR_get_error()));
free(out);
return -1;
}
/* copy ciphertext back to buf */
memcpy(in,out,inlen);
}
} else { /* we're in the middle. Just one crypt. */
if(!EVP_DecryptUpdate(&circ->n_ctx,out,&outlen,in,inlen)) {
log(LOG_ERR,"circuit_crypt(): Decryption failed for ACI : %u (%s).",
circ->n_aci, ERR_reason_error_string(ERR_get_error()));
free(out);
return -1;
}
memcpy(in,out,inlen);
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}
}
free(out);
return 0;
}
void circuit_close(circuit_t *circ) {
circuit_remove(circ);
if(circ->n_conn)
connection_send_destroy(circ->n_aci, circ->n_conn);
if(circ->p_conn)
connection_send_destroy(circ->p_aci, circ->p_conn);
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circuit_free(circ);
}
void circuit_about_to_close_connection(connection_t *conn) {
/* send destroys for all circuits using conn */
/* currently, we assume it's too late to flush conn's buf here.
* down the road, maybe we'll consider that eof doesn't mean can't-write
*/
circuit_t *circ;
while((circ = circuit_get_by_conn(conn))) {
circuit_remove(circ);
if(circ->n_conn == conn) /* it's closing in front of us */
connection_send_destroy(circ->p_aci, circ->p_conn);
if(circ->p_conn == conn) /* it's closing behind us */
connection_send_destroy(circ->n_aci, circ->n_conn);
circuit_free(circ);
}
}