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#include <string.h>
#include <haproxy/clock.h>
#include <haproxy/global.h>
#include <haproxy/quic_retry.h>
#include <haproxy/quic_tls.h>
#include <haproxy/quic_trace-t.h>
#include <haproxy/trace.h>
#define TRACE_SOURCE &trace_quic
/* Salt length used to derive retry token secret */
#define QUIC_RETRY_TOKEN_SALTLEN 16 /* bytes */
/* Copy <saddr> socket address data into <buf> buffer.
* This is the responsibility of the caller to check the output buffer is big
* enough to contain these socket address data.
* Return the number of bytes copied.
*/
static inline size_t quic_saddr_cpy(unsigned char *buf,
const struct sockaddr_storage *saddr)
{
void *port, *addr;
unsigned char *p;
size_t port_len, addr_len;
p = buf;
if (saddr->ss_family == AF_INET6) {
port = &((struct sockaddr_in6 *)saddr)->sin6_port;
addr = &((struct sockaddr_in6 *)saddr)->sin6_addr;
port_len = sizeof ((struct sockaddr_in6 *)saddr)->sin6_port;
addr_len = sizeof ((struct sockaddr_in6 *)saddr)->sin6_addr;
}
else {
port = &((struct sockaddr_in *)saddr)->sin_port;
addr = &((struct sockaddr_in *)saddr)->sin_addr;
port_len = sizeof ((struct sockaddr_in *)saddr)->sin_port;
addr_len = sizeof ((struct sockaddr_in *)saddr)->sin_addr;
}
memcpy(p, port, port_len);
p += port_len;
memcpy(p, addr, addr_len);
p += addr_len;
return p - buf;
}
/* QUIC server only function.
* Add AAD to <add> buffer from <cid> connection ID and <addr> socket address.
* This is the responsibility of the caller to check <aad> size is big enough
* to contain these data.
* Return the number of bytes copied to <aad>.
*/
static int quic_generate_retry_token_aad(unsigned char *aad,
uint32_t version,
const struct quic_cid *cid,
const struct sockaddr_storage *addr)
{
unsigned char *p;
p = aad;
*(uint32_t *)p = htonl(version);
p += sizeof version;
p += quic_saddr_cpy(p, addr);
memcpy(p, cid->data, cid->len);
p += cid->len;
return p - aad;
}
/* QUIC server only function.
* Generate the token to be used in Retry packets. The token is written to
* <token> with <len> as length. <odcid> is the original destination connection
* ID and <dcid> is our side destination connection ID (or client source
* connection ID).
* Returns the length of the encoded token or 0 on error.
*/
int quic_generate_retry_token(unsigned char *token, size_t len,
const uint32_t version,
const struct quic_cid *odcid,
const struct quic_cid *dcid,
struct sockaddr_storage *addr)
{
int ret = 0;
unsigned char *p;
unsigned char aad[sizeof(uint32_t) + sizeof(in_port_t) +
sizeof(struct in6_addr) + QUIC_CID_MAXLEN];
size_t aadlen;
unsigned char salt[QUIC_RETRY_TOKEN_SALTLEN];
unsigned char key[QUIC_TLS_KEY_LEN];
unsigned char iv[QUIC_TLS_IV_LEN];
const unsigned char *sec = global.cluster_secret;
size_t seclen = sizeof global.cluster_secret;
EVP_CIPHER_CTX *ctx = NULL;
const EVP_CIPHER *aead = EVP_aes_128_gcm();
uint32_t timestamp = (uint32_t)date.tv_sec;
TRACE_ENTER(QUIC_EV_CONN_TXPKT);
/* The token is made of the token format byte, the ODCID prefixed by its one byte
* length, the creation timestamp, an AEAD TAG, and finally
* the random bytes used to derive the secret to encrypt the token.
*/
if (1 + odcid->len + 1 + sizeof(timestamp) + QUIC_TLS_TAG_LEN + QUIC_RETRY_TOKEN_SALTLEN > len)
goto err;
aadlen = quic_generate_retry_token_aad(aad, version, dcid, addr);
/* TODO: RAND_bytes() should be replaced */
if (RAND_bytes(salt, sizeof salt) != 1) {
TRACE_ERROR("RAND_bytes()", QUIC_EV_CONN_TXPKT);
goto err;
}
if (!quic_tls_derive_retry_token_secret(EVP_sha256(), key, sizeof key, iv, sizeof iv,
salt, sizeof salt, sec, seclen)) {
TRACE_ERROR("quic_tls_derive_retry_token_secret() failed", QUIC_EV_CONN_TXPKT);
goto err;
}
if (!quic_tls_tx_ctx_init(&ctx, aead, key)) {
TRACE_ERROR("quic_tls_tx_ctx_init() failed", QUIC_EV_CONN_TXPKT);
goto err;
}
/* Token build */
p = token;
*p++ = QUIC_TOKEN_FMT_RETRY,
*p++ = odcid->len;
memcpy(p, odcid->data, odcid->len);
p += odcid->len;
write_u32(p, htonl(timestamp));
p += sizeof timestamp;
/* Do not encrypt the QUIC_TOKEN_FMT_RETRY byte */
if (!quic_tls_encrypt(token + 1, p - token - 1, aad, aadlen, ctx, aead, iv)) {
TRACE_ERROR("quic_tls_encrypt() failed", QUIC_EV_CONN_TXPKT);
goto err;
}
p += QUIC_TLS_TAG_LEN;
memcpy(p, salt, sizeof salt);
p += sizeof salt;
EVP_CIPHER_CTX_free(ctx);
ret = p - token;
leave:
TRACE_LEAVE(QUIC_EV_CONN_TXPKT);
return ret;
err:
if (ctx)
EVP_CIPHER_CTX_free(ctx);
goto leave;
}
/* Parse the Retry token from buffer <token> with <end> a pointer to
* one byte past the end of this buffer. This will extract the ODCID
* which will be stored into <odcid>
*
* Returns 0 on success else non-zero.
*/
int parse_retry_token(struct quic_conn *qc,
const unsigned char *token, const unsigned char *end,
struct quic_cid *odcid)
{
int ret = 0;
uint64_t odcid_len;
uint32_t timestamp;
uint32_t now_sec = (uint32_t)date.tv_sec;
TRACE_ENTER(QUIC_EV_CONN_LPKT, qc);
if (!quic_dec_int(&odcid_len, &token, end)) {
TRACE_ERROR("quic_dec_int() error", QUIC_EV_CONN_LPKT, qc);
goto leave;
}
/* RFC 9000 7.2. Negotiating Connection IDs:
* When an Initial packet is sent by a client that has not previously
* received an Initial or Retry packet from the server, the client
* populates the Destination Connection ID field with an unpredictable
* value. This Destination Connection ID MUST be at least 8 bytes in length.
*/
if (odcid_len < QUIC_ODCID_MINLEN || odcid_len > QUIC_CID_MAXLEN) {
TRACE_ERROR("wrong ODCID length", QUIC_EV_CONN_LPKT, qc);
goto leave;
}
if (end - token < odcid_len + sizeof timestamp) {
TRACE_ERROR("too long ODCID length", QUIC_EV_CONN_LPKT, qc);
goto leave;
}
timestamp = ntohl(read_u32(token + odcid_len));
/* check if elapsed time is +/- QUIC_RETRY_DURATION_SEC
* to tolerate token generator is not perfectly time synced
*/
if ((uint32_t)(now_sec - timestamp) > QUIC_RETRY_DURATION_SEC &&
(uint32_t)(timestamp - now_sec) > QUIC_RETRY_DURATION_SEC) {
TRACE_ERROR("token has expired", QUIC_EV_CONN_LPKT, qc);
goto leave;
}
ret = 1;
memcpy(odcid->data, token, odcid_len);
odcid->len = odcid_len;
leave:
TRACE_LEAVE(QUIC_EV_CONN_LPKT, qc);
return !ret;
}
/* QUIC server only function.
*
* Check the validity of the Retry token from Initial packet <pkt>. <dgram> is
* the UDP datagram containing <pkt> and <l> is the listener instance on which
* it was received. If the token is valid, the ODCID of <qc> QUIC connection
* will be put into <odcid>. <qc> is used to retrieve the QUIC version needed
* to validate the token but it can be NULL : in this case the version will be
* retrieved from the packet.
*
* Return 1 if succeeded, 0 if not.
*/
int quic_retry_token_check(struct quic_rx_packet *pkt,
struct quic_dgram *dgram,
struct listener *l,
struct quic_conn *qc,
struct quic_cid *odcid)
{
struct proxy *prx;
struct quic_counters *prx_counters;
int ret = 0;
unsigned char *token = pkt->token;
const uint64_t tokenlen = pkt->token_len;
unsigned char buf[128];
unsigned char aad[sizeof(uint32_t) + QUIC_CID_MAXLEN +
sizeof(in_port_t) + sizeof(struct in6_addr)];
size_t aadlen;
const unsigned char *salt;
unsigned char key[QUIC_TLS_KEY_LEN];
unsigned char iv[QUIC_TLS_IV_LEN];
const unsigned char *sec = global.cluster_secret;
size_t seclen = sizeof global.cluster_secret;
EVP_CIPHER_CTX *ctx = NULL;
const EVP_CIPHER *aead = EVP_aes_128_gcm();
const struct quic_version *qv = qc ? qc->original_version :
pkt->version;
TRACE_ENTER(QUIC_EV_CONN_LPKT, qc);
/* The caller must ensure this. */
BUG_ON(!pkt->token_len);
prx = l->bind_conf->frontend;
prx_counters = EXTRA_COUNTERS_GET(prx->extra_counters_fe, &quic_stats_module);
if (*pkt->token != QUIC_TOKEN_FMT_RETRY) {
/* TODO: New token check */
TRACE_PROTO("Packet dropped", QUIC_EV_CONN_LPKT, qc, NULL, NULL, pkt->version);
goto leave;
}
if (sizeof buf < tokenlen) {
TRACE_ERROR("too short buffer", QUIC_EV_CONN_LPKT, qc);
goto err;
}
/* The token is made of the token format byte, the ODCID prefixed by its one byte
* length, the creation timestamp, an AEAD TAG, and finally
* the random bytes used to derive the secret to encrypt the token.
*/
if (tokenlen < 2 + QUIC_ODCID_MINLEN + sizeof(uint32_t) + QUIC_TLS_TAG_LEN + QUIC_RETRY_TOKEN_SALTLEN ||
tokenlen > 2 + QUIC_CID_MAXLEN + sizeof(uint32_t) + QUIC_TLS_TAG_LEN + QUIC_RETRY_TOKEN_SALTLEN) {
TRACE_ERROR("invalid token length", QUIC_EV_CONN_LPKT, qc);
goto err;
}
aadlen = quic_generate_retry_token_aad(aad, qv->num, &pkt->scid, &dgram->saddr);
salt = token + tokenlen - QUIC_RETRY_TOKEN_SALTLEN;
if (!quic_tls_derive_retry_token_secret(EVP_sha256(), key, sizeof key, iv, sizeof iv,
salt, QUIC_RETRY_TOKEN_SALTLEN, sec, seclen)) {
TRACE_ERROR("Could not derive retry secret", QUIC_EV_CONN_LPKT, qc);
goto err;
}
if (!quic_tls_rx_ctx_init(&ctx, aead, key)) {
TRACE_ERROR("quic_tls_rx_ctx_init() failed", QUIC_EV_CONN_LPKT, qc);
goto err;
}
/* The token is prefixed by a one-byte length format which is not ciphered. */
if (!quic_tls_decrypt2(buf, token + 1, tokenlen - QUIC_RETRY_TOKEN_SALTLEN - 1, aad, aadlen,
ctx, aead, key, iv)) {
TRACE_ERROR("Could not decrypt retry token", QUIC_EV_CONN_LPKT, qc);
goto err;
}
if (parse_retry_token(qc, buf, buf + tokenlen - QUIC_RETRY_TOKEN_SALTLEN - 1, odcid)) {
TRACE_ERROR("Error during Initial token parsing", QUIC_EV_CONN_LPKT, qc);
goto err;
}
EVP_CIPHER_CTX_free(ctx);
ret = 1;
HA_ATOMIC_INC(&prx_counters->retry_validated);
leave:
TRACE_LEAVE(QUIC_EV_CONN_LPKT, qc);
return ret;
err:
HA_ATOMIC_INC(&prx_counters->retry_error);
if (ctx)
EVP_CIPHER_CTX_free(ctx);
goto leave;
}
|
