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mirror of https://git.kernel.org/pub/scm/network/wireless/iwd.git synced 2024-11-26 02:19:26 +01:00

eap-tls: Drop cached session when phase2 fails

If we have a TLS session cached from this attempt or a previous
successful connection attempt but the overall EAP method fails, forget
the session to improve the chances that authentication succeeds on the
next attempt considering that some authenticators strangely allow
resumption but can't handle it all the way to EAP method success.
Logically the session resumption in the TLS layers on the server should
be transparent to the EAP layers so I guess those may be failed
attempts to further optimise phase 2 when the server thinks it can
already trust the client.
This commit is contained in:
Andrew Zaborowski 2023-01-28 00:33:22 +01:00 committed by Denis Kenzior
parent 967702e166
commit 5db06bf935

View File

@ -115,6 +115,7 @@ struct eap_tls_state {
bool expecting_frag_ack:1; bool expecting_frag_ack:1;
bool tunnel_ready:1; bool tunnel_ready:1;
bool tls_session_resumed:1;
struct l_queue *ca_cert; struct l_queue *ca_cert;
struct l_certchain *client_cert; struct l_certchain *client_cert;
@ -129,8 +130,11 @@ static struct l_settings *eap_tls_session_cache;
static eap_tls_session_cache_load_func_t eap_tls_session_cache_load; static eap_tls_session_cache_load_func_t eap_tls_session_cache_load;
static eap_tls_session_cache_sync_func_t eap_tls_session_cache_sync; static eap_tls_session_cache_sync_func_t eap_tls_session_cache_sync;
static void __eap_tls_common_state_reset(struct eap_tls_state *eap_tls) static void __eap_tls_common_state_reset(struct eap_state *eap)
{ {
struct eap_tls_state *eap_tls = eap_get_data(eap);
const char *peer_id;
eap_tls->version_negotiated = EAP_TLS_VERSION_NOT_NEGOTIATED; eap_tls->version_negotiated = EAP_TLS_VERSION_NOT_NEGOTIATED;
eap_tls->method_completed = false; eap_tls->method_completed = false;
eap_tls->phase2_failed = false; eap_tls->phase2_failed = false;
@ -145,6 +149,41 @@ static void __eap_tls_common_state_reset(struct eap_tls_state *eap_tls)
if (eap_tls->tunnel) if (eap_tls->tunnel)
l_tls_reset(eap_tls->tunnel); l_tls_reset(eap_tls->tunnel);
/*
* Drop the TLS session cache for this peer if the overall EAP
* method didn't succeed.
*
* Additionally if the session was cached previously, meaning
* that we've had a successful authentication at least once before,
* and we now used session resumption successfully and the method
* failed, become suspicious of this server's TLS session
* resumption support. Some authenticators strangely allow
* resumption but can't handle it all the way to EAP method
* success. This improves the chances that authentication
* succeeds on the next attempt.
*
* Drop the cache even if we have no indication that the
* method failed but it just didn't succeed, to handle cases like
* the server getting stuck and a timout occuring at a higher
* layer. The risk is that we may occasionally flush the session
* data when there was only a momentary radio issue, invalid
* phase2 credentials or decision to abort. Those are not hot
* paths.
*
* Note: TLS errors before the ready callback are handled in l_tls.
*/
peer_id = eap_get_peer_id(eap);
if (peer_id && eap_tls_session_cache && !eap_method_is_success(eap) &&
l_settings_has_group(eap_tls_session_cache, peer_id)) {
eap_tls_forget_peer(peer_id);
if (eap_tls->tls_session_resumed)
l_warn("EAP: method did not finish after successful TLS"
" session resumption.");
}
eap_tls->tls_session_resumed = false;
eap_tls->tx_frag_offset = 0; eap_tls->tx_frag_offset = 0;
eap_tls->tx_frag_last_len = 0; eap_tls->tx_frag_last_len = 0;
@ -187,7 +226,7 @@ bool eap_tls_common_state_reset(struct eap_state *eap)
{ {
struct eap_tls_state *eap_tls = eap_get_data(eap); struct eap_tls_state *eap_tls = eap_get_data(eap);
__eap_tls_common_state_reset(eap_tls); __eap_tls_common_state_reset(eap);
if (eap_tls->variant_ops->reset) if (eap_tls->variant_ops->reset)
eap_tls->variant_ops->reset(eap_tls->variant_data); eap_tls->variant_ops->reset(eap_tls->variant_data);
@ -199,7 +238,7 @@ void eap_tls_common_state_free(struct eap_state *eap)
{ {
struct eap_tls_state *eap_tls = eap_get_data(eap); struct eap_tls_state *eap_tls = eap_get_data(eap);
__eap_tls_common_state_reset(eap_tls); __eap_tls_common_state_reset(eap);
eap_set_data(eap, NULL); eap_set_data(eap, NULL);
@ -244,7 +283,9 @@ static void eap_tls_tunnel_ready(const char *peer_identity, void *user_data)
{ {
struct eap_state *eap = user_data; struct eap_state *eap = user_data;
struct eap_tls_state *eap_tls = eap_get_data(eap); struct eap_tls_state *eap_tls = eap_get_data(eap);
bool resumed = l_tls_get_session_resumed(eap_tls->tunnel);
eap_tls->tls_session_resumed =
l_tls_get_session_resumed(eap_tls->tunnel);
if (eap_tls->ca_cert && !peer_identity) { if (eap_tls->ca_cert && !peer_identity) {
l_error("%s: TLS did not verify AP identity", l_error("%s: TLS did not verify AP identity",
@ -265,7 +306,8 @@ static void eap_tls_tunnel_ready(const char *peer_identity, void *user_data)
if (!eap_tls->variant_ops->tunnel_ready) if (!eap_tls->variant_ops->tunnel_ready)
return; return;
if (!eap_tls->variant_ops->tunnel_ready(eap, peer_identity, resumed)) if (!eap_tls->variant_ops->tunnel_ready(eap, peer_identity,
eap_tls->tls_session_resumed))
l_tls_close(eap_tls->tunnel); l_tls_close(eap_tls->tunnel);
} }