#include <stdlib.h>
#include <stdint.h>
+#include <stdbool.h>
#include <stdio.h>
#include <memory.h>
#include <string.h>
#include <gnutls/abstract.h>
#include <gnutls/dane.h>
+#include <p11-kit/pkcs11.h>
+
#include <tlspool/commands.h>
#include <tlspool/internal.h>
#include <libtasn1.h>
#include <krb5.h>
+/* Plus, from k5-int.h: */
+krb5_error_code KRB5_CALLCONV krb5_decrypt_tkt_part(krb5_context,
+ const krb5_keyblock *,
+ krb5_ticket * );
+
#include <quick-der/api.h>
#include <quick-der/rfc4120.h>
typedef DER_OVLY_rfc4120_Ticket ticket_t;
typedef DER_OVLY_rfc4120_Authenticator authenticator_t;
+typedef DER_OVLY_rfc4120_EncryptedData encrypted_data_t;
#include <tlspool/internal.h>
#ifdef HAVE_TLS_KDH
static krb5_context krbctx_cli, krbctx_srv;
static krb5_keytab krb_kt_cli, krb_kt_srv;
-static krb5_error_code have_credcache (krb5_principal sought, krb5_ccache *found);
+static bool got_cc_cli, got_cc_srv;
+static int have_key_tgt_cc (
+ struct command *cmd, // in, session context
+ krb5_context ctx, // in, kerberos context
+ bool use_cc, // in, whether to use cc
+ krb5_kvno kvno, // in, kvno (0 for highest)
+ krb5_enctype enctype,// in, enctype (0 for any)
+ char *p11uri, // in/opt, PKCS #11 pwd URI
+ krb5_keytab kt, // in/opt, keytab
+ krb5_keyblock *key, // opt/opt session key
+ krb5_creds **tgt, // out/opt, tkt granting tkt
+ krb5_ccache *cc); // out/opt, cred cache
+static int have_service_ticket (
+ struct command *cmd, // in, session context
+ krb5_context ctx, // in, kerberos context
+ krb5_ccache cc_opt, // in/opt, credcache
+ krb5_principal cli, // in, client principal
+ krb5_creds **ticket);// out/opt, tkt granting tkt
#endif
int cryptfd; // Crypt-side connection
};
+/* A local structure used for iterating over PKCS #11 entries. This is used
+ * to iterate over password attempts, no more than MAX_P11ITER_ATTEMPTS though.
+ *
+ * When a password is requested but none is available, the password request
+ * will be passed to the user using the PIN callback mechanism. When this
+ * is done, a warning may be given that the TLS Pool overtakes control over
+ * the account (when thusly configured). In support of that option, the
+ * $attempt is counted and the respective $p11pwd is CK_INVALID_HANDLE.
+ * TODO: Perhaps interact for saving, such as entering an certain string?
+ *
+ * When a number of attempts needs to be made before success, then any
+ * objects that precede a succeeded $attempt can be removed. The same may
+ * be true for any objects after it.
+ *
+ * This mechanism is useful during password changes. When a new password is
+ * desired by the KDC, then a random object is created and returned twice.
+ * To support repeated delivery, the password is stored in $newpwd;
+ * In this case, the safest choice is still to leave the last $p11pwd.
+ *
+ * The caller may decide to invoke the password changing procedure, namely
+ * after manual entry as evidenced by the condition
+ * (attempts >= 0) &&
+ * (attempts < MAX_P11_ITER_ATTEMPTS) &&
+ * (p11pwd [attempt] == CK_INVALID_HANDLE)
+ *
+ * TODO: This is a designed data structure, but not yet installed.
+ *
+ * TODO: It is more useful to abolish passwords, and truly use PKCS #11.
+ */
+#define MAX_P11ITER_ATTEMPTS 3
+struct pkcs11iter {
+ struct command *cmd; // The session command structure
+ CK_SESSION_HANDLE p11ses; // The PKCS #11 session in motion
+ int attempt; // Starts at -1, incremented by pwd entry
+ CK_OBJECT_HANDLE p11pwd [MAX_P11ITER_ATTEMPTS];
+ // Sequence of $attempt objects returned
+ CK_OBJECT_HANDLE newpwd; // Set when a new password was offered
+};
+
/* The list of accepted Exporter Label Prefixes for starttls_prng()
*/
char *tlsprng_label_prefixes [] = {
if (flags & GNUTLS_PIN_SO) {
return GNUTLS_E_USER_ERROR;
}
- if (pin_callback (attempt, token_url, token_label, pin, pin_max)) {
+ if (pin_callback (attempt, token_url, NULL, pin, pin_max)) {
return 0;
} else {
return GNUTLS_E_PKCS11_PIN_ERROR;
setup_starttls_credentials ());
//
// Parse the default priority string
- E_g2e ("Failed to setup NORMAL priority cache",
- gnutls_priority_init (&priority_normal, "NONE:+VERS-TLS-ALL:+VERS-DTLS-ALL:+COMP-NULL:"
#ifdef HAVE_TLS_KDH
- "%%ASYM_CERT_TYPES:"
+ E_g2e ("Failed to setup NORMAL priority cache",
+ gnutls_priority_init (&priority_normal,
+ "NONE:"
+ "%ASYM_CERT_TYPES:"
+ "+VERS-TLS-ALL:+VERS-DTLS-ALL:"
+ "+COMP-NULL:"
+ "+CIPHER-ALL:+CURVE-ALL:+SIGN-ALL:+MAC-ALL:"
+ "+ANON-ECDH:"
+ "+ECDHE-KRB:" // +ECDHE-KRB-RSA:+ECDHE-KRB-ECDSA:"
+ "+ECDHE-RSA:+DHE-RSA:+ECDHE-ECDSA:+DHE-DSS:+RSA:"
+ "+CTYPE-SRV-KRB:+CTYPE-SRV-X.509:+CTYPE-SRV-OPENPGP:"
+ "+CTYPE-CLI-KRB:+CTYPE-CLI-X.509:+CTYPE-CLI-OPENPGP:"
+ "+SRP:+SRP-RSA:+SRP-DSS",
+ NULL));
+#else
+ E_g2e ("Failed to setup NORMAL priority cache",
+ gnutls_priority_init (&priority_normal,
+ "NONE:"
+ "+VERS-TLS-ALL:+VERS-DTLS-ALL:"
+ "+COMP-NULL:+CIPHER-ALL:+CURVE-ALL:+SIGN-ALL:+MAC-ALL:"
+ "+ANON-ECDH:"
+ "+ECDHE-RSA:+DHE-RSA:+ECDHE-ECDSA:+DHE-DSS:+RSA:"
+ "+CTYPE-X.509:+CTYPE-OPENPGP:"
+ "+SRP:+SRP-RSA:+SRP-DSS",
+ NULL));
#endif
- "+CIPHER-ALL:+CURVE-ALL:+SIGN-ALL:+MAC-ALL:+ANON-ECDH:+ECDHE-RSA:+DHE-RSA:+ECDHE-ECDSA:+DHE-DSS:+RSA:+CTYPE-X.509:+CTYPE-OPENPGP:+SRP:+SRP-RSA:+SRP-DSS", NULL));
- // gnutls_priority_init (&priority_normal, "NORMAL:-RSA:+ANON-ECDH:+RSA:+CTYPE-X.509:+CTYPE-OPENPGP:+SRP:+SRP-RSA:+SRP-DSS", NULL));
//
// Try to setup on-the-fly signing key / certificate and gen a certkey
otfsigcrt = cfg_tls_onthefly_signcert ();
}
-/* The callback function that retrieves a TLS-KDH "signature", which is kept
- * outside of GnuTLS. The callback computes an authenticator encrypted to
- * the session's Kerberos key.
- */
-#ifdef HAVE_TLS_KDH
-gtls_error cli_kdhsig_encode (gnutls_session_t session,
- gnutls_datum_t *enc_authenticator,
- gnutls_datum_t *dec_authenticator,
- const gnutls_datum_t *hash,
- int32_t checksum_type) {
- gnutls_certificate_type_t peercert;
- "...SETUP SECURE HASH IN AUTHENTICATOR...";
- peercert = gnutls_certificate_type_get_peers (session);
- if (peercert == GNUTLS_CRT_KRB) {
- // This is KDH-Only, and so we MUST create a new key
- "...GENERATE RANDOM...AND SETUP AS SUBKEY...";
- }
- "...SETUP MICROSECOND TIMER...";
- "...SETUP KRB VERSION NUMBER...";
- "...SETUP CLIENT REALM AND PRINCIPALNAME...";
- return GNUTLS_E_UNSUPPORTED_SIGNATURE_ALGORITHM;
-}
-#endif
-
-
-/* The callback function that verifies a TLS-KDH "signature", which is kept
- * outside of GnuTLS. The callback verifies the authenticator against the
- * provided session hash and returns the decrypted authenticator.
- */
-#ifdef HAVE_TLS_KDH
-int srv_kdhsig_decode (gnutls_session_t session,
- const gnutls_datum_t *enc_authenticator,
- gnutls_datum_t *dec_authenticator,
- gnutls_datum_t *hash,
- int32_t *checksum_type) {
- return GNUTLS_E_UNSUPPORTED_SIGNATURE_ALGORITHM;
-}
-#endif
-
-
/* The callback function that retrieves certification information from either
* the client or the server in the course of the handshake procedure.
*/
//
// Setup a number of common references and structures
+ errno = 0;
*pcert = NULL;
cmd = (struct command *) gnutls_session_get_ptr (session);
if (cmd == NULL) {
#endif
} else {
// GNUTLS_CRT_RAW, GNUTLS_CRT_UNKNOWN, or other
- tlog (TLOG_TLS, LOG_ERR, "Funny sort of certificate retrieval attempted as a %s", rolestr);
+ tlog (TLOG_TLS, LOG_ERR, "Funny sort of certificate %d retrieval attempted as a %s", certtp, rolestr);
E_g2e ("Requested certtype is neither X.509 nor OpenPGP",
GNUTLS_E_CERTIFICATE_ERROR);
return gtls_errno;
#ifdef HAVE_TLS_KDH
case LID_TYPE_KRB5:
if (lidrole == LID_ROLE_CLIENT) {
+ //
// KDH-Only or KDH-Enhanced; fetch ticket for localid
// and a TGT based on it for service/remoteid@REALM
- char *svc = cmd->cmd.pio_data.pioc_starttls.service;
- const gnutls_datum_t *server_tgt = NULL;
- // If the server provides a TGT, employ ENC-TKT-IN-SKEY
- if (gnutls_certificate_type_get_peers (cmd->session) == GNUTLS_CRT_KRB) {
- // Try to get the server's TGT; it returns NULL
- // if it wasn't found. We will not try this
- // unless we know what we'd find would be KRB.
- server_tgt = gnutls_certificate_get_peers (cmd->session, NULL);
+ //
+ // First, try to obtain a TGT and key, in various ways
+ krb5_keyblock key;
+ krb5_creds *tgt = NULL;
+ krb5_creds *ticket = NULL;
+ krb5_ccache cc = NULL;
+ int status = 0;
+ memset (&key, 0, sizeof (key ));
+ status = have_key_tgt_cc (
+ cmd, krbctx_cli,
+ 1, 0, 0,
+ p11priv,
+ krb_kt_cli,
+ &key, &tgt, &cc);
+ if (status >= 1) {
+ // We never use this key ourselves
+ krb5_free_keyblock_contents (krbctx_cli, &key);
}
- // The servicename may need mapping to another form
- if (strcmp (svc, "http")) {
- svc = "HTTP";
+ if (status < 2) {
+ // Stop processing when no tgt was found
+ gtls_errno = GNUTLS_E_NO_CERTIFICATE_FOUND;
+ break;
}
- //TODO: Have a client ticket matching the found localid
- //TODO: From the client ticket, obtain a service ticket
- //TODO: Export the service ticket
- krb5_ccache mycache;
- krb5_creds prep_creds;
- krb5_creds *gotten_creds = NULL;
- char klid [128 + 1];
- char krid [128 + 1];
- krb5_data klidprincipal [1];
- krb5_data kridprincipal [2];
- char *klidrealm;
- char *kridrealm;
- char *realmtmp;
- // Fill the credentials request
- memset (&prep_creds, 0, sizeof (prep_creds));
- prep_creds.magic = KV5M_CREDS;
- memcpy (klid, cmd->cmd.pio_data.pioc_starttls.localid, 128);
- memcpy (krid, cmd->cmd.pio_data.pioc_starttls.remoteid, 128);
- klid [128] = krid [128] = '\0';
- realmtmp = strrchr (klid, '@');
- if (realmtmp != NULL) {
- *realmtmp++ = '\0';
- prep_creds.client->realm.magic = KV5M_DATA;
- prep_creds.client->realm.data = realmtmp;
- prep_creds.client->realm.length = strlen (realmtmp);
- while (*realmtmp) {
- *realmtmp++ = toupper (*realmtmp);
+ //
+ // Store client identity in session object
+ if (0 != krb5_copy_principal (
+ krbctx_cli,
+ tgt->client,
+ &cmd->krbid_cli)) {
+ krb5_free_creds (krbctx_cli, tgt);
+ tgt = NULL;
+ if (cc != NULL) {
+ krb5_cc_close (krbctx_cli, cc);
+ cc = NULL;
}
+ gtls_errno = GNUTLS_E_NO_CERTIFICATE_FOUND;
+ break;
}
- klidprincipal [0].magic = KV5M_DATA;
- klidprincipal [0].data = klid;
- klidprincipal [0].length = strlen (klid);
- prep_creds.client->magic = KV5M_PRINCIPAL;
- prep_creds.client->data = klidprincipal;
- prep_creds.client->length = 1;
- prep_creds.client->type = KRB5_NT_PRINCIPAL;
- realmtmp = strrchr (krid, '@');
- if (realmtmp != NULL) {
- *realmtmp++ = '\0';
- prep_creds.server->realm.magic = KV5M_DATA;
- prep_creds.server->realm.data = realmtmp;
- prep_creds.server->realm.length = strlen (realmtmp);
- while (*realmtmp) {
- *realmtmp++ = toupper (*realmtmp);
- }
+ //
+ // Now find a service ticket to talk to, and its key
+ //TODO// Pass credcache instead?
+ status = have_service_ticket (
+ cmd, krbctx_cli,
+ cc,
+ cmd->krbid_cli,
+ &ticket);
+ if (cc != NULL) {
+ // We don't need cc anymore below
+ krb5_cc_close (krbctx_cli, cc);
+ }
+ if (status < 1) {
+ // Stop processing when no ticket was found
+ krb5_free_creds (krbctx_cli, tgt);
+ tgt = NULL;
+ gtls_errno = GNUTLS_E_NO_CERTIFICATE_FOUND;
+ break;
+ }
+ //
+ // Only for KDH-Only mode can the client rely on a
+ // server principal taken from the ticket;
+ // So only store krbid_srv for KDH-Only mode.
+ if ((gnutls_certificate_type_get_peers (cmd->session)
+ == GNUTLS_CRT_KRB) &&
+ (0 != krb5_copy_principal (
+ krbctx_cli,
+ tgt->server,
+ &cmd->krbid_srv))) {
+ krb5_free_creds (krbctx_cli, ticket);
+ gtls_errno = GNUTLS_E_NO_CERTIFICATE_FOUND;
+ break;
}
- kridprincipal [0].magic = KV5M_DATA;
- kridprincipal [0].data = svc;
- kridprincipal [0].length = strnlen (svc, TLSPOOL_SERVICELEN);
- kridprincipal [1].magic = KV5M_DATA;
- kridprincipal [1].data = krid;
- kridprincipal [1].length = strlen (krid);
- prep_creds.client->magic = KV5M_PRINCIPAL;
- prep_creds.server->data = kridprincipal;
- prep_creds.server->length = 1;
- prep_creds.server->type = KRB5_NT_SRV_HST;
- // KDH-Only with server-side TGT
- //TODO// 1. setup flag KRB5_GC_USER_USER
- //TODO// 2. fill the .second_ticket value
- ok = ok && (0 == have_credcache (prep_creds.client, &mycache));
- ok = ok && (mycache != NULL);
- ok = ok && (0 == krb5_get_credentials (
+ krb5_free_creds (krbctx_cli, tgt);
+ tgt = NULL;
+ if (0 != krb5_copy_keyblock_contents (
krbctx_cli,
- 0,
- mycache,
- &prep_creds,
- &gotten_creds));
- ok = ok && (gotten_creds != NULL);
- if (!ok) {
- gtls_errno = GNUTLS_E_AUTH_ERROR;
- } else {
- certdatum.data = gotten_creds->ticket.data;
- certdatum.size = gotten_creds->ticket.length;
+ &ticket->keyblock,
+ &cmd->krb_key)) {
+ gtls_errno = GNUTLS_E_NO_CERTIFICATE_FOUND;
+ // continue, with E_g2e() skipping import
}
+ certdatum.data = ticket->ticket.data;
+ certdatum.size = ticket->ticket.length;
E_g2e ("MOVED: Failed to import Kerberos ticket",
gnutls_pcert_import_krb_raw (
*pcert,
&certdatum,
0));
- if (gotten_creds != NULL) {
- krb5_free_creds (krbctx_cli, gotten_creds);
- gotten_creds = NULL;
- }
+ krb5_free_creds (krbctx_cli, ticket);
} else {
- // For KDH-Only, servers can send a TGT if they want to
+ //
+ // For KDH-Only, the server supplies one of:
+ // - a TGT for user-to-user mode (for p2p exchanges)
+ // - an DER NULL to waive u2u mode
//TODO// E_g2e ("MOVED: Failed to import Kerberos ticket",
//TODO// gnutls_pcert_import_krb_raw (
//TODO// *pcert,
//TODO// &certdatum, //TODO:WHATSFOUND//
//TODO// 0));
+ int u2u = 0;
+ int status = 0;
+ krb5_creds *tgt = NULL;
+ //
+ // Determine whether we want to run in user-to-user mode
+ // for which we should supply a TGT to the TLS client
+ u2u = u2u || ((PIOF_STARTTLS_BOTHROLES_PEER & ~cmd->cmd.pio_data.pioc_starttls.flags) == 0);
+ u2u = u2u || (strchr (rid, '@') != NULL);
+ // u2u = u2u || "shaken hands on TLS symmetry extension"
+ u2u = u2u && got_cc_srv; // We may simply not be able!
+ //
+ // When not in user-to-user mode, deliver DER NULL
+ if (!u2u) {
+ certdatum.data = "\x05\x00";
+ certdatum.size = 2;
+ E_g2e ("Failed to withhold Kerberos server ticket",
+ gnutls_pcert_import_krb_raw (
+ *pcert,
+ &certdatum,
+ 0));
+ break;
+ }
+ //
+ // Continue specifically for user-to-user mode.
+ //TODO// Setup server principal identity
+ //
+ // Fetch the service's key
+ status = have_key_tgt_cc (
+ cmd, krbctx_srv,
+ 1, 0, 0, // Hmm... later we know kvno/etype
+ p11priv,
+ krb_kt_srv,
+ &cmd->krb_key, &tgt, NULL);
+ if (status == 1) {
+ // There's no use in having just the key
+ krb5_free_keyblock_contents (krbctx_srv, &cmd->krb_key);
+ memset (&cmd->krb_key, 0, sizeof (cmd->krb_key));
+ }
+ if (status < 2) {
+ gtls_errno = GNUTLS_E_NO_CERTIFICATE_FOUND;
+ } else if (0 != krb5_copy_principal (
+ krbctx_srv,
+ tgt->server,
+ &cmd->krbid_srv)) {
+ gtls_errno = GNUTLS_E_NO_CERTIFICATE_FOUND;
+ }
+ certdatum.data = tgt->ticket.data;
+ certdatum.size = tgt->ticket.length;
+ E_g2e ("Failed to withhold Kerberos server ticket",
+ gnutls_pcert_import_krb_raw (
+ *pcert,
+ &certdatum,
+ 0));
+ krb5_free_creds (krbctx_cli, tgt);
+ tgt = NULL;
}
+ break;
#endif
default:
/* Should not happen */
//TODO// Moved out (end)
+#ifdef ANCIENT_CODE_WHEN_DBERRNO_RAN_IN_PARALLEL
//
// Lap up any overseen POSIX error codes in errno
if (errno) {
cmd->session_errno = errno;
gtls_errno = GNUTLS_E_NO_CIPHER_SUITES; /* Vaguely matching */
}
+#endif
//
// Return the overral error code, hopefully GNUTLS_E_SUCCESS
NULL, /* use master key */
0));
break;
+ case LID_TYPE_KRB5:
+ /* Binary information is currently moot, so do not load it */
+ break;
default:
/* Should not happen */
break;
}
+
+/********** KERBEROS SUPPORT FUNCTIONS FOR TLS-KDH **********/
+
+
+
/* Prepare the Kerberos resources for use by clients and/or servers.
*/
#ifdef HAVE_TLS_KDH
// Initialise
krbctx_cli = krbctx_srv = NULL;
krb_kt_cli = krb_kt_srv = NULL;
+ got_cc_cli = got_cc_srv = 0;
//
// Construct credentials caching for Kerberos
if (k5err == 0) {
k5err = krb5_kt_resolve (krbctx_srv, cfg, &krb_kt_srv);
}
cfg = cfg_krb_client_credcache ();
+#if 0 /* Temporary bypass of cctype checks */
if ((k5err == 0) && (cfg != NULL)) {
k5err = krb5_cc_set_default_name (krbctx_cli, cfg);
if (k5err == 0) {
k5err = krb5_cc_default (krbctx_cli, &krb_cc_tmp);
}
if (k5err == 0) {
+ got_cc_cli = 1;
cctype_cli = krb5_cc_get_type (krbctx_cli, krb_cc_tmp);
krb5_cc_close (krbctx_cli, krb_cc_tmp);
}
}
+#endif
cfg = cfg_krb_server_credcache ();
+#if 0 /* Temporary bypass of cctype checks */
if ((k5err == 0) && (cfg != NULL)) {
k5err = krb5_cc_set_default_name (krbctx_srv, cfg);
if (k5err == 0) {
k5err = krb5_cc_default (krbctx_srv, &krb_cc_tmp);
}
if (k5err == 0) {
+ got_cc_srv = 1;
cctype_srv = krb5_cc_get_type (krbctx_cli, krb_cc_tmp);
krb5_cc_close (krbctx_srv, krb_cc_tmp);
}
}
+#endif
//
// Check for consistency and log helpful messages for the sysop
if (k5err != 0) {
tlog (TLOG_DAEMON | TLOG_KERBEROS, LOG_ERR, "No kerberos_server_keytab configured, so Kerberos cannot work at all");
retval = GNUTLS_E_UNWANTED_ALGORITHM;
/* TODO: Only for MIT krb5 1.11 and up
- } else if (0 == krb5_kt_have_content (krb_ctx, krb_kt_cli)) {
- tlog (TLOG_DAEMON | TLOG_KERBEROS, LOG_ERR, "Keytab in kerberos_client_keytab is absent or empty");
+ } else if (0 == krb5_kt_have_content (krb_ctx, krb_kt_srv)) {
+ tlog (TLOG_DAEMON | TLOG_KERBEROS, LOG_ERR, "Keytab in kerberos_server_keytab is absent or empty");
retval = GNUTLS_E_UNWANTED_ALGORITHM;
*/
}
if (krbctx_cli == NULL) {
tlog (TLOG_DAEMON | TLOG_KERBEROS, LOG_ERR, "No kerberos_client_credcache configured, so Kerberos cannot work at all");
retval = GNUTLS_E_UNWANTED_ALGORITHM;
+#if 0 /* Temporary bypass of cctype checks */
} else if (!krb5_cc_support_switch (
krbctx_cli, cctype_cli)) {
tlog (TLOG_DAEMON | TLOG_KERBEROS, LOG_ERR, "Your kerberos_client_credcache does not support multilpe identities");
retval = GNUTLS_E_UNWANTED_ALGORITHM;
+#endif
}
if (krbctx_srv == NULL) {
tlog (TLOG_DAEMON | TLOG_KERBEROS, LOG_WARNING, "No kerberos_server_credcache configured, so user-to-user Kerberos will not work");
+#if 0 /* Temporary bypass of cctype checks */
} else if (!krb5_cc_support_switch (
krbctx_srv, cctype_srv)) {
tlog (TLOG_DAEMON | TLOG_KERBEROS, LOG_ERR, "Your kerberos_server_credcache does not support multilpe identities");
retval = GNUTLS_E_UNWANTED_ALGORITHM;
+#endif
}
if (retval != GNUTLS_E_SUCCESS) {
cleanup_starttls_kerberos ();
}
#endif
+
/* Cleanup Kerberos resources. This must be an idempotent function, because
* it is called when Kerberos panics as well as when
*/
#endif
-/* Iterate over a credential cache collection, looking for the one that
- * has the desired principal name and realm. If it does not exist yet,
- * create it. This works with collections such as DIR:/var/tlspool/creds
- * or, only on Linux, KEYRING:process:name to store creds in the kernel.
- * The function returns 0 when ok, or otherwise nonzero.
+/* Prompter callback function for PKCS #11.
+ *
+ * TODO: Use "struct pkcs11iter" as data, possibly interact with the user,
+ * and keep a score on where we stand with password entry and changes.
+ * Create clisrv_p11krb_setup() and clisrv_p11krb_cleanup() functions.
+ *
+ * In the current release for Kerberos, we have a very minimal mode for
+ * doing this. We may embellish it later or, preferrably, turn to a more
+ * PKCS #11 styled approach, perhaps PKINIT or FAST.
*/
-#ifdef HAVE_TLS_KDH_OLD_ATTEMPT
-static krb5_error_code have_credcache (krb5_principal sought, krb5_ccache *found) {
- krb5_cccol_cursor crs;
- krb5_ccache tmp;
- krb5_principal princ;
- *found = NULL;
- crs = NULL;
- int hit;
- if (0 == krb5_cccol_cursor_new (krb_ctx, &crs)) {
- while (0 != krb5_cccol_cursor_next (krb_ctx, crs, &tmp)) {
- if (tmp == NULL) {
- // No more ccache in directory
- break;
- }
- if (0 != krb5_cc_get_principal (krb_ctx, tmp, &princ)) {
- break;
- }
- hit = krb5_principal_compare (krb_ctx, princ, sought);
- krb5_free_principal (krb_ctx, princ);
- if (hit) {
- *found = tmp;
- // Avoid cleaning up the context
- break;
+#ifdef HAVE_TLS_KDH
+static krb5_error_code clisrv_p11krb_callback (krb5_context ctx,
+ void *vcmd,
+ const char *name,
+ const char *banner,
+ int num_prompts,
+ krb5_prompt prompts []) {
+ struct command *cmd = (struct command *) vcmd;
+ int i;
+ krb5_prompt_type *codes = krb5_get_prompt_types (ctx);
+ int attempt = 0;
+ static const char *token_url = "pkcs11:manufacturer=Kerberos+infrastructure;model=TLS+Pool;serial=%28none%29";
+ static const char *token_label = "Kerberos infrastructure";
+ for (i=0; i<num_prompts; i++) {
+ //
+ // Visit each prompt in turn, setting responses or return failure
+ switch (codes [i]) {
+ case KRB5_PROMPT_TYPE_PASSWORD:
+ //TODO// Read a password from PKCS #11
+ //TODO// Do we need to cycle passwords to cover retry?
+ //TODO// Delete any failed passwords?
+ //TODO:FIXED//
+ if (attempt >= MAX_P11ITER_ATTEMPTS) {
+ return KRB5_LIBOS_CANTREADPWD;
}
- krb5_cc_close (krb_ctx, tmp);
- }
- }
- if (crs != NULL) {
- krb5_cccol_cursor_free (krb_ctx, &crs);
- crs = NULL;
- }
- // If need be, create a new credential cache
- if (NULL == *found) {
- //TODO// Param "type" set to "DIR" but that's pretty fixed.
- //TODO// Is "hint" really not interpreted?!?
- if (0 == krb5_cc_new_unique (krb_ctx, "DIR", NULL, &tmp)) {
- if (0 == krb5_cc_initialize (krb_ctx, tmp, sought)) {
- *found = tmp;
+ // Nothing in PKCS #11 --> so fallback on manual entry
+ if (!pin_callback (attempt,
+ token_url, "Enter Kerberos password:",
+ prompts [i].reply->data,
+ prompts [i].reply->length)) {
+ memset (prompts [i].reply->data, 0, prompts [i].reply->length);
+ return KRB5_LIBOS_CANTREADPWD;
}
+ //TODO// Manage data structure
+ prompts [i].reply->length = strlen (prompts [i].reply->data);
+ return 0;
+ case KRB5_PROMPT_TYPE_NEW_PASSWORD:
+ case KRB5_PROMPT_TYPE_NEW_PASSWORD_AGAIN:
+ //TODO// Setup new password in PKCS #11
+ case KRB5_PROMPT_TYPE_PREAUTH:
+ //TODO// Use FAST, PKINIT, and so on...
+ default:
+ // Unrecognised and unimplemented prompt types end here
+ return KRB5_LIBOS_CANTREADPWD;
}
- //TODO// krb5_cc_set_default_name ()
- }
- // If the credentials cache has no tickets, login
- if (NULL == *found) {
- //TODO// krb5_get_init_creds_password ()
- //TODO// krb5_cc_store_cred()
}
- // No return the result
- return (NULL != *found)? 0: KRB5_CC_NOTFOUND;
+ return 0;
}
#endif
-/* Find a Kerberos ticket and keyblock to use for the localid. Do not look
+/* Find a Kerberos keyblock and ticket to use for the localid. Do not look
* into services yet in this function. This function implements a simple
* procedure, based on optional arguments p11uri, keytab, credcache. It
* produces <key,tgt> or <key,NULL> or (for errors) <NULL,NULL>.
* RETURN <key,tgt>
* ELSE RETURN <NULL,NULL>
*
- * The function returns no values other than the <key,tgt> pair.
+ * The function returns a status value counting the number of values returned,
+ * so 0 means error, 1 means key only and 2 means key and tgt.
*/
#ifdef HAVE_TLS_KDH
-static void have_key_tgt (struct command *cmd, // in, session context
+static int have_key_tgt_cc (struct command *cmd, // in, session context
krb5_context ctx, // in, kerberos context
+ bool use_cc, // in, whether to use cc
+ krb5_kvno kvno, // in, kvno (0 for highest)
+ krb5_enctype enctype,// in, enctype (0 for any)
char *p11uri, // in/opt, PKCS #11 pwd URI
krb5_keytab kt, // in/opt, keytab
- krb5_ccache cc, // in/opt, credcache
krb5_keyblock *key, // opt/opt session key
- krb5_creds *tgt) { // out/opt, tkt granting tkt
+ krb5_creds **tgt, // out/opt, tkt granting tkt
+ krb5_ccache *cc) { // out/opt, cred cache
int k5err = 0;
- krb5_ccache cc = NULL;
+ krb5_ccache newcc = NULL;
krb5_principal sought = NULL;
+ krb5_principal sought1 = NULL;
krb5_principal tgtname = NULL;
+ krb5_keytab_entry ktentry;
+ const char *svc = cmd->cmd.pio_data.pioc_starttls.service;
+ const char *lid = cmd->cmd.pio_data.pioc_starttls.localid;
+ const char *liddom;
+ int lid1len;
+ char **realms;
+ char realm [128];
+ uint32_t nametype, nametype_alt;
+ time_t now = 0;
//
// Assertions, and initialise variables
- assert (cmd != NULL);
- assert (ctx != NULL);
- assert (key != NULL);
- assert (tgt != NULL);
- * (void **) tgt = NULL;
- * (void **) key = NULL;
+ assert ( cmd != NULL);
+ assert ( ctx != NULL);
+ assert ( key != NULL);
+ assert (*tgt == NULL);
+ krb5_free_keyblock_contents (ctx, key);
+ if (cc != NULL) {
+ *cc = NULL;
+ }
+ //
+ // Construct the realm name
+ liddom = strrchr (lid, '@');
+ if (liddom != NULL) {
+ lid1len = ((intptr_t) liddom) - ((intptr_t) lid);
+ liddom++; // Skip '@'
+ } else {
+ liddom = lid; // localid is a host
+ lid1len = strnlen (lid, 128);
+ }
+ k5err = krb5_get_host_realm (ctx, liddom, &realms);
+ if ((k5err == 0) && (realms [0] != NULL) && (*realms [0] != '\0')) {
+ strncpy (realm, realms [0], sizeof (realm));
+ realm [sizeof (realm)-1] = '\0';
+ } else {
+ int i = 0;
+ do {
+ realm [i] = toupper (liddom [i]);
+ i++;
+ } while (liddom [i-1] != '\0');
+ }
+ if (k5err == 0) {
+ krb5_free_host_realm (ctx, realms);
+ } else {
+ k5err = 0;
+ }
+ //
+ // Construct a sought principal name in a given naming style,
+ // and try to locate it in the existing cache.
+ // With @, try liduser@liddom@REALM or else liduser@REALM
+ // Without @, try svc/liddom@REALM
+ nametype = (lid == liddom) ? KRB5_NT_SRV_HST : KRB5_NT_ENTERPRISE_PRINCIPAL;
+retry:
+ nametype_alt = nametype;
+ switch (nametype) {
+ case KRB5_NT_ENTERPRISE_PRINCIPAL:
+ nametype_alt = KRB5_NT_PRINCIPAL;
+ k5err = krb5_build_principal_ext (ctx, &sought,
+ strlen (realm), realm,
+ strnlen (lid, 128), lid,
+ 0);
+ break;
+ case KRB5_NT_SRV_HST:
+ if (strcmp (svc, "http") == 0) {
+ svc = "HTTP";
+ }
+ k5err = krb5_build_principal_ext (ctx, &sought,
+ strlen (realm), realm,
+ strlen (svc), svc,
+ lid1len, lid,
+ 0);
+ break;
+ case KRB5_NT_PRINCIPAL:
+ k5err = krb5_build_principal_ext (ctx, &sought,
+ strlen (realm), realm,
+ lid1len, lid,
+ 0);
+ break;
+ }
+ if (k5err == 0) {
+ sought->type = nametype;
+ } else {
+ sought = NULL;
+ }
+ k5err = krb5_cc_cache_match (ctx, sought, &newcc);
+ if (k5err != 0) {
+ if ((nametype_alt != nametype) && (sought1 == NULL)) {
+ nametype = nametype_alt;
+ sought1 = sought;
+ sought = NULL;
+ goto retry;
+ }
+ //
+ // We failed to find an *existing* credentials cache
+ // for the local identity.
+ //
+ // Our new hope is to create a fresh credential, and add
+ // it to the current credcache. To that end, we now try
+ // to overrule k5err by getting hold of our default cc.
+ goto from_scratch;
+ }
//
- //TODO// Map cmd to a krb5_principal for cmd->localid / service / flags
+ // Construct the TGT name
+ k5err = krb5_build_principal_ext (ctx, &tgtname,
+ strlen (realm), realm,
+ 6, "krbtgt",
+ strlen (realm), realm,
+ 0);
+ if (k5err != 0) {
+ tgtname = NULL;
+ k5err = 0;
+ }
+ tgtname->type = KRB5_NT_SRV_INST;
//
- // First try to locate information in an existing cache
-#if 0
- krb5_cache try = NULL;
- krb5_cccol_cursor crs = NULL;
- krb5_principal found = NULL;
- k5err = krb5_cccol_cursor_new (ctx, &crs);
- while ((k5err == 0) && (cc = NULL)) {
- k5err = krb5_cccol_cursor_next (ctx, crs, &try);
+ // Try to get the service ticket for the TGT name from the cache
+ krb5_creds credreq;
+ memset (&credreq, 0, sizeof (credreq));
+ credreq.client = sought;
+ credreq.server = tgtname;
+ k5err = krb5_get_credentials (ctx,
+ /* KRB5_GC_USER_USER ?|? */
+ ( use_cc ? 0 : KRB5_GC_CACHED ),
+ newcc,
+ &credreq, tgt);
+ time (&now);
+ if ((k5err == 0)
+ && (now + 300 > (*tgt)->times.endtime)
+ && (now + 300 < (*tgt)->times.renew_till)) {
+ //TODO:NOTHERE// krb5_free_creds (ctx, *tgt);
+ //TODO:NOTHERE// *tgt = NULL;
+ // Try to renew the ticket
+ k5err = krb5_get_renewed_creds (ctx,
+ *tgt,
+ sought,
+ newcc,
+ NULL); /* krbtgt/REALM@REALM */
+ }
+ if ((k5err == 0)
+ && (now + 300 > (*tgt)->times.endtime)) {
+ // Thanks, but no thanks!
+ krb5_free_creds (ctx, *tgt);
+ *tgt = NULL;
+ k5err = 666;
+ }
+ if (k5err == 0) {
+ // First case worked -- return <key,tgt> from credout
+ k5err = krb5_copy_keyblock_contents (ctx,
+ &(*tgt)->keyblock,
+ key);
+ // On failure, key shows failure
+ if (cc != NULL) {
+ *cc = newcc;
+ newcc = NULL;
+ }
+ goto cleanup;
+ }
+from_scratch:
+ //
+ // Prior attempts failed. Instead, look for keytab or p11uri presence.
+ // This is skipped when the use_cc option below welcomes krb5_creds.
+ if ((key->contents == NULL) && (p11uri == NULL) && (kt == NULL)) {
+ // We cannot obtain a new krbtgt
+ // We simply return what we've got (which may be nothing)
+ goto cleanup;
+ }
+ if ((kt == NULL) && (!use_cc)) {
+ // We have nowhere to store a new krbtgt if we got it
+ // We simply return what we've got (which is at least a key)
+ goto cleanup;
+ }
+ //
+ // Either we have a keytab key, or we have a p11uri,
+ // so we can attempt to create a new credcache with a new krbtgt
+ if (use_cc) {
+ if (newcc == NULL) {
+ k5err = krb5_cc_default (ctx, &newcc);
+ if (k5err != 0) {
+ // Utter failure to do even the simplest thing
+ goto cleanup;
+ }
+ }
+ *tgt = malloc (sizeof (**tgt));
+ if (*tgt == NULL) {
+ // Memory error
+ goto cleanup;
+ }
+ memset (*tgt, 0, sizeof (**tgt));
+ if ((sought != NULL) && (sought1 == NULL)) {
+ // We only tried one name
+ sought1 = sought;
+ sought = NULL;
+ }
+ do {
+ if (sought1 == NULL) {
+ break;
+ }
+ if (p11uri == NULL) {
+ k5err = krb5_get_init_creds_keytab (
+ ctx,
+ *tgt,
+ sought1,
+ kt,
+ 0, /* start now please */
+ NULL, /* get a TGT please */
+ NULL); //TODO// opts needed?
+ } else {
+ //TODO// Prepare PKCS #11 access
+ k5err = krb5_get_init_creds_password (
+ ctx,
+ *tgt,
+ sought1,
+#ifdef TOM_IS_WEG
+ NULL, // Use callbacks for password
+ clisrv_p11krb_callback,
+#else
+ "1234",
+ NULL,
+#endif
+ cmd, /* callback data pointer */
+ 0, /* start now please */
+ NULL, /* get a TGT please */
+ NULL); //TODO// opts needed?
+ //TODO// End PKCS #11 access
+ }
+ krb5_free_principal (ctx, sought1);
+ sought1 = sought;
+ sought = NULL;
+ } while (k5err != 0);
+ if (k5err != 0) {
+ // Failed to initiate new credentials
+ krb5_free_creds (ctx, *tgt);
+ *tgt = NULL;
+ goto cleanup;
+ }
+ // Try to store the credential, if it was found
+ if (sought1 != NULL) {
+ k5err = krb5_cc_initialize (ctx, newcc, sought1);
+ if (k5err == 0) {
+ k5err = krb5_cc_store_cred (ctx, newcc, *tgt);
+ }
+ }
+ // Copy the keyblock; any failure will show up in key
+ krb5_copy_keyblock_contents (ctx,
+ &(*tgt)->keyblock, //TODO:UNINIT// &ktentry.key,
+ key);
+ //
+ // We succeeded in setting up a new Ticket Granting Ticket!
+ if (cc != NULL) {
+ *cc = newcc;
+ newcc = NULL;
+ }
+ goto cleanup;
+ }
+ //
+ // As a last resort, dig up a key directly from the keytab;
+ // this is the only place where kvno and enctype are used
+ if (kt != NULL) {
+ //NOTE// Might be more direct as krb5_kt_read_service_key()
+ k5err = krb5_kt_get_entry (
+ ctx, kt,
+ sought,
+ kvno, enctype,
+ &ktentry);
if (k5err == 0) {
- k5err = krb5_cc_get_principal (ctx, try, &found);
+ k5err = krb5_copy_keyblock_contents (ctx,
+ &ktentry.key,
+ key);
+ krb5_free_keytab_entry_contents (ctx, &ktentry);
+ // On failure, key shows failure.
+ if (cc != NULL) {
+ *cc = newcc;
+ newcc = NULL;
+ }
+ goto cleanup;
+ }
+ }
+ //
+ // Nothing more to try, so we continue into cleanup
+cleanup:
+ //
+ // Cleanup and return the <key,tgt> values as they were delivered
+ if (sought1 != NULL) {
+ krb5_free_principal (ctx, sought1);
+ sought1 = NULL;
+ }
+ if (sought != NULL) {
+ krb5_free_principal (ctx, sought);
+ sought = NULL;
+ }
+ if (tgtname != NULL) {
+ krb5_free_principal (ctx, tgtname);
+ tgtname = NULL;
+ }
+ if (newcc != NULL) {
+ krb5_cc_close (ctx, newcc);
+ newcc = NULL;
+ }
+ if (key->contents == NULL) {
+ if (k5err != 0) {
+ const char *errmsg = krb5_get_error_message (ctx, k5err);
+ tlog (TLOG_DAEMON, LOG_ERR, "Kerberos error in have_key_tgt_cc: %s", errmsg);
+ krb5_free_error_message (ctx, errmsg);
}
- if ((k5err == 0) && (krb5_principal_compare
- (ctx, sought, found)) {
- // Found the ccache for sought principal!
- // Prepare for graceful loop exit, with cleanup
- cc = try;
- try = NULL;
+ if (*tgt != NULL) {
+ krb5_free_creds (ctx, *tgt);
+ *tgt = NULL;
}
- if (princ != NULL) {
- krb5_free_principal (ctx, found);
- found = NULL;
+ if ((cc != NULL) && (*cc != NULL)) {
+ krb5_cc_close (ctx, *cc);
+ *cc = NULL;
}
- if (try != NULL) {
- krb5_cc_close (ctx, try);
- try = NULL;
+ return 0;
+ } else if (tgt == NULL) {
+ if ((cc != NULL) && (*cc != NULL)) {
+ krb5_cc_close (ctx, *cc);
+ *cc = NULL;
+ }
+ return 1;
+ } else if ((cc == NULL) || (*cc == NULL)) {
+ return 2;
+ } else {
+ return 3;
+ }
+}
+#endif
+
+
+/* Have a ticket for the remote service. Do this as a client. The client
+ * principal and realm are provided, and the ticket to be returned will
+ * also provide the accompanying key.
+ *
+ * This function will incorporate the peer TGT, when it is provided. This
+ * is the case in KDH-Only exchanges with a non-empty Server Certificate.
+ *
+ * TODO: We are not currently serving backend tickets, but these could be
+ * passed in as authorization data along with the credential request.
+ * Note however, that authorization data is copied by default from the TGT,
+ * but not necessarily from the request. Not without KDC modifications.
+ * But then again, the KDC should have responded with an error that it was
+ * missing backend services; this is not something the client should decide
+ * on, and certainly not after being requested by the service. The error
+ * and recovery could be implemented here (if we can get the error info out
+ * of the libkrb5 API). Alternatively, we might consider passing the
+ * authorization data in the authenticator since we get to control it.
+ * What will the specification say?
+ *
+ * The return value indicates how many of the requested output values have
+ * been provided, counting from the first. So, 0 means a total failure and
+ * anything higher is a (partial) success.
+ */
+#ifdef HAVE_TLS_KDH
+static int have_service_ticket (
+ struct command *cmd, // in, session context
+ krb5_context ctx, // in, kerberos context
+ krb5_ccache cc_opt, // in/opt, credcache
+ krb5_principal cli, // in, client principal
+ krb5_creds **ticket) {// out, tkt granting tkt
+ int k5err = 0;
+ krb5_ccache cc = cc_opt;
+ krb5_flags u2u = 0;
+ krb5_principal srv = NULL;
+ krb5_data tkt_srv;
+ krb5_creds credreq;
+ //
+ // Sanity checks and initialisation
+ memset (&tkt_srv, 0, sizeof (tkt_srv));
+ memset (&credreq, 0, sizeof (credreq));
+ *ticket = NULL;
+ //
+ // Determine the optional cc parameter if it was not provided
+ //TODO// This can go if we always get it passed from have_key_tgt_cc()
+ if (cc == NULL) {
+ k5err = krb5_cc_cache_match (ctx, cli, &cc);
+ if (k5err != 0) {
+ goto cleanup;
}
}
- if (crs != NULL) {
- krb5_cccol_cursor_free (ctx, crs);
- crs = NULL;
+ //
+ // Build the server's principal name
+ const char *svc = cmd->cmd.pio_data.pioc_starttls.service;
+ const char *rid = cmd->cmd.pio_data.pioc_starttls.remoteid;
+ const char *riddom;
+ char **realms;
+ char realm [128];
+ riddom = strrchr (rid, '@');
+ if (riddom != NULL) {
+ riddom++; // Skip '@'
+ } else {
+ riddom = rid; // localid is a host
+ }
+ k5err = krb5_get_host_realm (ctx, riddom, &realms);
+ if ((k5err == 0) && (realms [0] != NULL) && (*realms [0] != '\0')) {
+ strncpy (realm, realms [0], sizeof (realm));
+ realm [sizeof (realm)-1] = '\0';
+ } else {
+ int i = 0;
+ do {
+ realm [i] = toupper (riddom [i]);
+ i++;
+ } while (riddom [i-1] != '\0');
}
-#else
- k5err = krb5_cc_cache_match (ctx, sought, &cc);
+ if (k5err == 0) {
+ krb5_free_host_realm (ctx, realms);
+ } else {
+ k5err = 0;
+ }
+ if (strcmp (svc, "http") == 0) {
+ svc = "HTTP";
+ }
+ k5err = krb5_build_principal_ext (ctx, &srv,
+ strlen (realm), realm,
+ strlen (svc), svc,
+ strlen (rid), rid,
+ 0);
if (k5err != 0) {
+ goto cleanup;
+ }
+ srv->type = KRB5_NT_SRV_HST;
+ //
+ // Construct credential request
+ credreq.client = cli;
+ credreq.server = srv;
+ //TODO// credreq.authdata may be used for backend service tickets
+ //
+ // See if our peer provided us with a TGT
+ // - we are sure of GNUTLS_CRD_CERTIFICATE because we implement it now
+ // - we must ensure that this is KDH-Only (remote GNUTLS_CRT_KRB)
+ // - we must ensure that the remote provided a non-empty ticket
+ if (gnutls_certificate_type_get_peers (cmd->session) == GNUTLS_CRT_KRB) {
+ // This is KDH-Only -- and the server may present a TGT
+ const gnutls_datum_t *opt_srv_tkt;
+ unsigned int srv_tkt_count;
+ opt_srv_tkt = gnutls_certificate_get_peers (cmd->session, &srv_tkt_count);
+ if ((opt_srv_tkt != NULL) && (srv_tkt_count >= 1) && (opt_srv_tkt [0].size > 5)) {
+ // Looks good, we'll use only the first (normally only) one
+ credreq.second_ticket.data = opt_srv_tkt [0].data;
+ credreq.second_ticket.length = opt_srv_tkt [0].size;
+ u2u = KRB5_GC_USER_USER;
+ }
+ }
+ //
+ // Fetch the ticket for the service
+ k5err = krb5_get_credentials (ctx, u2u, cc, &credreq, ticket);
+ //
+ // Cleanup and return; the return value depends on k5err
+cleanup:
+ if ((cc != NULL) && (cc_opt == NULL)) {
+ //TODO// This can go if we always get it passed from have_key_tgt_cc()
+ krb5_cc_close (ctx, cc);
cc = NULL;
}
+ if (srv != NULL) {
+ krb5_free_principal (ctx, srv);
+ }
+ return (k5err == 0) ? 1 : 0;
+}
#endif
- k5err = 0; // The only result of interest is in cc
+
+
+/* DER utility: This should probably appear in Quick DER sometime soon.
+ *
+ * Pack an Int32 or UInt32 and return the number of bytes. Do not pack a header
+ * around it. The function returns the number of bytes taken, even 0 is valid.
+ */
+typedef uint8_t QDERBUF_INT32_T [4];
+dercursor qder2b_pack_int32 (uint8_t *target_4b, int32_t value) {
+ dercursor retval;
+ int shift = 24;
+ retval.derptr = target_4b;
+ retval.derlen = 0;
+ while (shift >= 0) {
+ if ((retval.derlen == 0) && (shift > 0)) {
+ // Skip sign-extending initial bytes
+ uint32_t neutro = (value >> (shift - 1) ) & 0x000001ff;
+ if ((neutro == 0x000001ff) || (neutro == 0x00000000)) {
+ shift -= 8;
+ continue;
+ }
+ }
+ target_4b [retval.derlen] = (value >> shift) & 0xff;
+ retval.derlen++;
+ shift -= 8;
+ }
+ return retval;
+}
+typedef uint8_t QDERBUF_UINT32_T [5];
+dercursor qder2b_pack_uint32 (uint8_t *target_5b, uint32_t value) {
+ dercursor retval;
+ int ofs = 0;
+ if (value & 0x80000000) {
+ *target_5b = 0x00;
+ ofs = 1;
+ }
+ retval = qder2b_pack_int32 (target_5b + ofs, (int32_t) value);
+ retval.derptr -= ofs;
+ retval.derlen += ofs;
+ return retval;
+}
+
+
+/* DER utility: This should probably appear in Quick DER sometime soon.
+ *
+ * Unpack an Int32 or UInt32 from a given number of bytes. Do not assume a header
+ * around it. The function returns the value found.
+ *
+ * Out of range values are returned as 0. This value only indicates invalid
+ * return when len > 1, so check for that.
+ */
+int32_t qder2b_unpack_int32 (dercursor data4) {
+ int32_t retval = 0;
+ int idx;
+ if (data4.derlen > 4) {
+ goto done;
+ }
+ if ((data4.derlen > 0) && (0x80 & *data4.derptr)) {
+ retval = -1;
+ }
+ for (idx=0; idx<data4.derlen; idx++) {
+ retval <<= 8;
+ retval += data4.derptr [idx];
+ }
+done:
+ return retval;
+}
+uint32_t qder2b_unpack_uint32 (dercursor data5) {
+ uint32_t retval = 0;
+ int ofs = 0;
+ if (data5.derlen > 5) {
+ goto done;
+ }
+ if (data5.derlen == 5) {
+ if (*data5.derptr != 0x00) {
+ goto done;
+ }
+ // Modify the local copy on our stack
+ data5.derlen--;
+ data5.derptr++;
+ }
+ retval = (uint32_t) qder2b_unpack_int32 (data5);
+done:
+ return retval;
+}
+
+
+#ifdef HAVE_TLS_KDH
+/* TODO: Debugging function for printing (descr,ptr,len) ranges */
+static inline void prange (char *descr, uint8_t *ptr, int len) {
+ fprintf (stderr, "%s #%04d: %02x %02x %02x %02x %02x %02x %02x %02x...%02x %02x %02x %02x\n",
+ descr, len,
+ ptr [0], ptr [1], ptr [2], ptr [3],
+ ptr [4], ptr [5], ptr [6], ptr [7],
+ ptr [len-4], ptr [len-3], ptr [len-2], ptr [len-1]);
+}
+static inline void prangefull (char *descr, uint8_t *ptr, int len) {
+ fprintf (stderr, "%s #%04d:", descr, len);
+ while (len-- > 0) {
+ fprintf (stderr, " %02x", *ptr++);
+ }
+ fprintf (stderr, "\n");
+}
+#endif
+
+
+/* The callback function that retrieves a TLS-KDH "signature", which is kept
+ * outside of GnuTLS. The callback computes an authenticator encrypted to
+ * the session's Kerberos key.
+ */
+#ifdef HAVE_TLS_KDH
+static gtls_error cli_kdhsig_encode (gnutls_session_t session,
+ gnutls_datum_t *enc_authenticator,
+ gnutls_datum_t *dec_authenticator,
+ const gnutls_datum_t *hash,
+ int32_t checksum_type) {
//
- // Setup the TGT name
- "TODO:TGT:NAME";
+ // Variables, sanity checking, initialisation
+ struct command *cmd;
+ int k5err = 0;
+ authenticator_t auth;
+ QDERBUF_INT32_T derv5;
+ QDERBUF_INT32_T dernametype;
+ QDERBUF_INT32_T dercksumtype;
+ krb5_keyblock subkey;
+ gnutls_certificate_type_t peercert;
+ QDERBUF_INT32_T dersubkey;
+ krb5_timestamp now_s;
+ char derctime [100];
+ krb5_int32 now_us;
+ QDERBUF_INT32_T dercusec;
+ cmd = (struct command *) gnutls_session_get_ptr (session);
+ memset (&auth, 0, sizeof (auth));
+ memset (&subkey, 0, sizeof (subkey));
+ assert (cmd->krbid_cli != NULL);
+ assert (cmd->krb_key.contents != NULL);
+ static const uint8_t auth_packer [] = {
+ DER_PACK_rfc4120_Authenticator, DER_PACK_END };
+ static const uint8_t encdata_packer [] = {
+ DER_PACK_rfc4120_EncryptedData, DER_PACK_END };
//
- // Get the service ticket for the TGT name from the cache
+ // Setup secure hash in authenticator (never optional for TLS-KDH)
+ auth.cksum.cksumtype = qder2b_pack_int32 (dercksumtype, checksum_type);
+ auth.cksum.checksum.derptr = hash->data;
+ auth.cksum.checksum.derlen = hash->size;
//
- // Cleanup and return the <key,tgt> values as they were delivered
-cleanup:
- if (cc != NULL) {
- krb5_cc_close (cc);
+ // Optionally include a subkey (namely, for KDH-Only)
+ peercert = gnutls_certificate_type_get_peers (session);
+ if (peercert == GNUTLS_CRT_KRB) {
+ // This is KDH-Only, for which we MUST create a random subkey
+ k5err = krb5_c_make_random_key (
+ krbctx_cli,
+ ENCTYPE_AES256_CTS_HMAC_SHA1_96,
+ &subkey);
+ if (k5err != 0) {
+ return GNUTLS_E_ENCRYPTION_FAILED;
+ }
+ auth.subkey.keytype = qder2b_pack_int32 (dersubkey, subkey.enctype);
+ auth.subkey.keyvalue.derptr = subkey.contents;
+ auth.subkey.keyvalue.derlen = subkey.length;
+prange ("cli_K", subkey.contents, subkey.length);
+ }
+ //
+ // Setup the client realm and principal name
+ auth.crealm.derptr = cmd->krbid_cli->realm.data;
+ auth.crealm.derlen = cmd->krbid_cli->realm.length;
+ auth.cname.name_type = qder2b_pack_int32 (dernametype, cmd->krbid_cli->type);
+ // The SEQUENCE OF with just one component is trivial to prepack
+ auth.cname.name_string.derptr = cmd->krbid_cli->data [0].data;
+ auth.cname.name_string.derlen = cmd->krbid_cli->data [0].length;
+ //
+ // Setup the Kerberos version number (5)
+ auth.authenticator_vno = qder2b_pack_int32 (derv5, 5);
+ //
+ // Setup the obliged microsecond timer values (ignore error returns)
+ krb5_us_timeofday (krbctx_cli, &now_s, &now_us);
+ krb5_timestamp_to_string (now_s, derctime, sizeof (derctime));
+ derctime [sizeof (derctime)-1] = '\0';
+ auth.ctime.derptr = derctime;
+ auth.ctime.derlen = strlen (derctime);
+ auth.cusec = qder2b_pack_int32 (dercusec, now_us);
+ //
+ // Pack the decoded result into dec_authenticator
+ size_t declen = der_pack ( auth_packer,
+ (const dercursor *) &auth,
+ NULL // Measure length, no output yet
+ );
+ uint8_t *decptr = gnutls_malloc (declen);
+ if (decptr == NULL) {
+ return GNUTLS_E_MEMORY_ERROR;
+ }
+ der_pack ( auth_packer,
+ (const dercursor *) &auth,
+ decptr + declen);
+ krb5_free_keyblock_contents (krbctx_cli, &subkey);
+prangefull ("cli_A", decptr, declen);
+ size_t rawlen;
+ if (0 != krb5_c_encrypt_length (krbctx_cli,
+ cmd->krb_key.enctype,
+ declen,
+ &rawlen)) {
+ gnutls_free (decptr);
+ return GNUTLS_E_ENCRYPTION_FAILED;
+ }
+ uint8_t *rawptr = gnutls_malloc (rawlen);
+ if (rawptr == NULL) {
+ gnutls_free (decptr);
+ return GNUTLS_E_MEMORY_ERROR;
+ }
+ krb5_data decdata;
+ krb5_enc_data rawdata;
+ memset (&decdata, 0, sizeof (decdata));
+ memset (&rawdata, 0, sizeof (rawdata));
+ decdata.data = decptr;
+ decdata.length = declen;
+ rawdata.ciphertext.data = rawptr;
+ rawdata.ciphertext.length = rawlen;
+ if (0 != krb5_c_encrypt ( krbctx_cli,
+ &cmd->krb_key,
+ 11 /* stealing key usage from AP-REQ */,
+ NULL,
+ &decdata,
+ &rawdata)) {
+ gnutls_free (rawptr);
+ gnutls_free (decptr);
+ return GNUTLS_E_ENCRYPTION_FAILED;
+ }
+ //
+ // Prepare the header information
+ QDERBUF_INT32_T deretype;
+ QDERBUF_UINT32_T derkvno;
+ encrypted_data_t encdata;
+ memset (&encdata, 0, sizeof (encdata));
+ encdata.etype = qder2b_pack_int32 (deretype, cmd->krb_key.enctype);
+ //NOT// encdata.kvno = qder2b_pack_int32 (derkvno, cmd->krb_key.kvno);
+ encdata.cipher.derptr = rawdata.ciphertext.data;
+ encdata.cipher.derlen = rawdata.ciphertext.length;
+ //
+ // Prepare for packing the header and rawdata as EncryptedData
+ size_t enclen = der_pack ( encdata_packer,
+ (const dercursor *) &encdata,
+ NULL // Measure length, no output yet
+ );
+ uint8_t *encptr = gnutls_malloc (enclen);
+ if (encptr == NULL) {
+ gnutls_free (rawptr);
+ gnutls_free (decptr);
+ return GNUTLS_E_MEMORY_ERROR;
+ }
+ der_pack ( encdata_packer,
+ (const dercursor *) &encdata,
+ encptr + enclen);
+ gnutls_free (rawptr);
+ //
+ // Return our final verdict on the generation of the Authenticator
+ dec_authenticator->data = decptr;
+ dec_authenticator->size = declen;
+ enc_authenticator->data = encptr;
+ enc_authenticator->size = enclen;
+prange ("cli_D", decptr, declen);
+prange ("cli_E", encptr, enclen);
+ return 0;
+}
+#endif
+
+
+/* The callback function that verifies a TLS-KDH "signature", which is kept
+ * outside of GnuTLS. The callback verifies the authenticator against the
+ * provided session hash and returns the decrypted authenticator.
+ */
+#ifdef HAVE_TLS_KDH
+static int srv_kdhsig_decode (gnutls_session_t session,
+ const gnutls_datum_t *enc_authenticator,
+ gnutls_datum_t *dec_authenticator,
+ gnutls_datum_t *hash,
+ int32_t *checksum_type) {
+ //
+ // Variables, sanity checks and initialisation
+ int k5err = 0;
+ struct command *cmd;
+ static const uint8_t encdata_packer [] = {
+ DER_PACK_rfc4120_EncryptedData, DER_PACK_END };
+ static const uint8_t auth_packer [] = {
+ DER_PACK_rfc4120_Authenticator, DER_PACK_END };
+ encrypted_data_t encdata;
+ cmd = (struct command *) gnutls_session_get_ptr (session);
+prange ("srv_E", enc_authenticator->data, enc_authenticator->size);
+ //
+ // Retrieve the session key and store it in cmd->krb_key.
+ //
+ // Prior setting of cmd->krb_key would be due to user-to-user mode
+ // having been setup with this as the server-supplied TGT key, in
+ // which case cmd->krb_key would need to be overwritten by the
+ // session key.
+ //
+ // When no prior cmd->krb_key is available, use the keytab to
+ // decode the client's ticket.
+ assert (gnutls_certificate_type_get_peers (session) == GNUTLS_CRT_KRB);
+ const gnutls_datum_t *certs;
+ unsigned int num_certs;
+ certs = gnutls_certificate_get_peers (cmd->session, &num_certs);
+ if (num_certs != 1) {
+ return GNUTLS_E_NO_CERTIFICATE_FOUND;
+ }
+ krb5_data krbcert;
+ krb5_ticket *tkt;
+ krbcert.data = certs [0].data;
+ krbcert.length = certs [0].size;
+prange ("srv_C", certs [0].data, certs [0].size);
+ if (0 != krb5_decode_ticket (&krbcert, &tkt)) {
+ return GNUTLS_E_NO_CERTIFICATE_FOUND;
+ }
+ if (cmd->krb_key.contents != NULL) {
+ // user-to-user mode
+ k5err = krb5_decrypt_tkt_part (
+ krbctx_srv,
+ &cmd->krb_key,
+ tkt);
+ krb5_free_keyblock_contents (
+ krbctx_srv,
+ &cmd->krb_key);
+ } else {
+ // client-to-server mode
+ k5err = krb5_server_decrypt_ticket_keytab (
+ krbctx_srv,
+ krb_kt_srv,
+ tkt);
+ }
+ if (k5err == 0) {
+ k5err = krb5_copy_keyblock_contents (
+ krbctx_srv,
+ tkt->enc_part2->session,
+ &cmd->krb_key);
+ }
+ if (k5err == 0) {
+ k5err = krb5_copy_principal (
+ krbctx_srv,
+ tkt->enc_part2->client,
+ &cmd->krbid_cli);
+ }
+ if (k5err == 0) {
+ if (cmd->krbid_srv != NULL) {
+ k5err = krb5_principal_compare (
+ krbctx_srv,
+ tkt->server,
+ cmd->krbid_srv);
+ // Server name changed since u2u setup => k5err
+ } else {
+ k5err = krb5_copy_principal (
+ krbctx_srv,
+ tkt->server,
+ &cmd->krbid_srv);
+ }
+ }
+ krb5_free_ticket (krbctx_srv, tkt);
+ if (k5err != 0) {
+ const char *errmsg = krb5_get_error_message (krbctx_srv, k5err);
+ tlog (TLOG_DAEMON, LOG_ERR, "Kerberos error in srv_kdhsig_decode: %s", errmsg);
+ krb5_free_error_message (krbctx_srv, errmsg);
+ return GNUTLS_E_NO_CERTIFICATE_FOUND;
+ }
+ //
+ // Harvest the EncryptedData fields from the enc_authenticator
+ dercursor enctransport;
+ enctransport.derptr = enc_authenticator->data;
+ enctransport.derlen = enc_authenticator->size;
+prangefull ("EncData2unpack", enctransport.derptr, enctransport.derlen);
+ memset (&encdata, 0, sizeof (encdata));
+ if (0 != der_unpack ( &enctransport,
+ encdata_packer,
+ (dercursor *) &encdata,
+ 1)) {
+ tlog (TLOG_DAEMON, LOG_ERR, "Failed to der_unpack(EncryptedData) in server: %s", strerror (errno));
+ return GNUTLS_E_DECRYPTION_FAILED;
+ }
+ if (encdata.kvno.derptr != NULL) {
+ //TODO//NOTYET//ANDWHY// return GNUTLS_E_DECRYPTION_FAILED;
+ }
+ int32_t etype = qder2b_unpack_int32 (encdata.etype);
+ //
+ // Decrypt the EncryptedData fields into the dec_authenticator
+ krb5_enc_data rawdata;
+ krb5_data decdata;
+ memset (&rawdata, 0, sizeof (rawdata));
+ memset (&decdata, 0, sizeof (decdata));
+ rawdata.enctype = etype;
+ rawdata.ciphertext.data = encdata.cipher.derptr;
+ rawdata.ciphertext.length = encdata.cipher.derlen;
+prange ("srv_R", encdata.cipher.derptr, encdata.cipher.derlen);
+ decdata.data = dec_authenticator->data;
+ decdata.length = dec_authenticator->size;
+ if (0 != krb5_c_decrypt ( krbctx_srv,
+ &cmd->krb_key,
+ 11 /* stealing key usage from AP-REQ */,
+ NULL,
+ &rawdata,
+ &decdata)) {
+ return GNUTLS_E_DECRYPTION_FAILED;
+ }
+ dec_authenticator->size = decdata.length;
+prange ("srv_D", decdata.data, decdata.length);
+ //
+ // Unpack the decrypted Authenticator
+ dercursor decsyntax;
+ decsyntax.derptr = decdata.data;
+ decsyntax.derlen = decdata.length;
+prangefull ("srv_A", decdata.data, decdata.length);
+ authenticator_t auth;
+ memset (&auth, 0, sizeof (auth));
+ if (0 != der_unpack ( &decsyntax,
+ auth_packer,
+ (dercursor *) &auth,
+ 1)) {
+ tlog (TLOG_DAEMON, LOG_ERR, "Failed to der_unpack(Authenticator) in server: %s", strerror (errno));
+ return GNUTLS_E_DECRYPTION_FAILED;
}
+ //
+ // Validate the contents of the Authenticator
+ if (qder2b_unpack_int32 (auth.authenticator_vno) != 5) {
+ return GNUTLS_E_DECRYPTION_FAILED;
+ }
+ if (auth.cksum.checksum.derptr == NULL) {
+ return GNUTLS_E_DECRYPTION_FAILED;
+ }
+ if (auth.cksum.checksum.derlen < 16) {
+ return GNUTLS_E_DECRYPTION_FAILED;
+ }
+ //TODO// Optionally, for KDH-Only, ensure presence and size of a subkey
+ //
+ // Produce the requested content from the Authenticator and return
+ *checksum_type = qder2b_unpack_int32 (auth.cksum.cksumtype);
+ hash->data = auth.cksum.checksum.derptr;
+ hash->size = auth.cksum.checksum.derlen;
+ return 0;
}
#endif
+
/********** VALIDATION EXPRESSION LINKUP TO GNUTLS **********/
+
/*
* The following functions implement the various validation expression
* components in terms of the GnuTLS sessions of this code file.
valflag = o2vf (online_globaldir_x509 (
rid,
raw->data, raw->size));
-#ifdef GNUTLS_CRT_KRB
+#ifdef HAVE_TLS_KDH
} else if (cmd->remote_cert_type == GNUTLS_CRT_KRB) {
- // Kerberos is sufficiently "live" to always pass O
+ // Kerberos is sufficiently "live" to be pass O
valflag = 1;
goto setvalflag;
#endif
}
//
// Continue loading the certificate information: X.509, PGP, ...
- cmd->remote_cert_type = gnutls_certificate_type_get (cmd->session);
+#ifdef HAVE_TLS_KDH
+ cmd->remote_cert_type = gnutls_certificate_type_get_peers (cmd->session);
certs = gnutls_certificate_get_peers (cmd->session, &num_certs);
+ // Note: server's certs _may_ be DER NULL due to mutual auth in Kerberos
+#else
+ cmd->remote_cert_type = gnutls_certificate_type_get (cmd->session);
+ certs = gnutls_certificate_get (cmd->session, &num_certs);
+#endif
if (certs == NULL) {
num_certs = 0;
}
#endif
tlog (TLOG_DB, LOG_DEBUG, "BDB entry has flags=0x%08x, so we (%04x/%04x) %s it", flags, lidrole, LID_ROLE_MASK, ok? "store": "skip ");
if (ok) {
+ if (cmd->lids [lidtype - LID_TYPE_MIN].data != NULL) {
+ free (cmd->lids [lidtype - LID_TYPE_MIN].data);
+ }
// Move the credential into the command structure
dbt_store (&creddata,
&cmd->lids [lidtype - LID_TYPE_MIN]);
+fprintf (stderr, "DEBUG: Storing cmd->lids[%d].data 0x%016x\n", lidtype-LID_TYPE_MIN, cmd->lids [lidtype-LID_TYPE_MIN].data);
found = 1;
} else {
// Skip the credential by freeing its data structure
* Return 1 for yes or 0 for no; this is used in priority strings.
*/
static inline int lidtpsup (struct command *cmd, int lidtp) {
- return 1; //TODO// Can we decide if we needn't authenticate?
return cmd->lids [lidtp - LID_TYPE_MIN].data != NULL;
}
// - Configured security parameters (database? variable?)
// - CTYPEs, SRP, ANON-or-not --> fill in as + or - characters
if (gtls_errno == GNUTLS_E_SUCCESS) {
- char priostr [256];
+ char priostr [512];
+#ifdef HAVE_TLS_KDH
snprintf (priostr, sizeof (priostr)-1,
// "NORMAL:-RSA:" -- also ECDH-RSA, ECDHE-RSA, ...DSA...
"NONE:"
-#ifdef HAVE_TLS_KDH
"%%ASYM_CERT_TYPES:"
-#endif
"+VERS-TLS-ALL:+VERS-DTLS-ALL:"
"+COMP-NULL:"
"+CIPHER-ALL:+CURVE-ALL:+SIGN-ALL:+MAC-ALL:"
"%cANON-ECDH:"
+ "+ECDHE-KRB:" // +ECDHE-KRB-RSA:+ECDHE-KRB-ECDHE:" // opt?
"+ECDHE-RSA:+DHE-RSA:+ECDHE-ECDSA:+DHE-DSS:+RSA:" //TODO//
- "%cCTYPE-X.509:"
- "%cCTYPE-OPENPGP:"
-#ifdef HAVE_TLS_KDH
- "%cCTYPE-CLI-KRB:%cCTYPE-SRV-X.509:"
-#endif
+ "+CTYPE-SRV-KRB:+CTYPE-SRV-X.509:+CTYPE-SRV-OPENPGP:"
+ "%cCTYPE-CLI-KRB:"
+ "%cCTYPE-CLI-X.509:"
+ "%cCTYPE-CLI-OPENPGP:"
"%cSRP:%cSRP-RSA:%cSRP-DSS",
anonpre_ok ?'+':'-',
- lidtpsup (cmd, LID_TYPE_X509) ?'+':'-',
- lidtpsup (cmd, LID_TYPE_PGP) ?'+':'-',
-#ifdef HAVE_TLS_KDH
- lidtpsup (cmd, LID_TYPE_KRB5) ?'+':'-',
- lidtpsup (cmd, LID_TYPE_KRB5) ?'+':'-',
-#endif
+ 1 /* lidtpsup (cmd, LID_TYPE_KRB5)*/ ?'+':'-',
+ 1 /*lidtpsup (cmd, LID_TYPE_X509)*/ ?'+':'-',
+ 1 /*lidtpsup (cmd, LID_TYPE_PGP)*/ ?'+':'-',
//TODO// Temporarily patched out SRP
lidtpsup (cmd, LID_TYPE_SRP) ?'+':'-',
lidtpsup (cmd, LID_TYPE_SRP) ?'+':'-',
lidtpsup (cmd, LID_TYPE_SRP) ?'+':'-');
-// strcpy (priostr, "NONE:+VERS-TLS-ALL:+MAC-ALL:+RSA:+AES-128-CBC:+SIGN-ALL:+COMP-NULL"); //TODO:TEST//
-// strcpy (priostr, "NONE:+VERS-TLS-ALL:+VERS-DTLS-ALL:+MAC-ALL:+RSA:+AES-128-CBC:+SIGN-ALL:+COMP-NULL"); //TODO:TEST//
+#else
+ // It's not possible to make good decisions on certificate type
+ // for both sides based on knowledge of local authentication
+ // abilities. So we permit all (but would like to be subtler).
+ snprintf (priostr, sizeof (priostr)-1,
+ // "NORMAL:-RSA:" -- also ECDH-RSA, ECDHE-RSA, ...DSA...
+ "NONE:"
+ "+VERS-TLS-ALL:+VERS-DTLS-ALL:"
+ "+COMP-NULL:"
+ "+CIPHER-ALL:+CURVE-ALL:+SIGN-ALL:+MAC-ALL:"
+ "%cANON-ECDH:"
+ "+ECDHE-RSA:+DHE-RSA:+ECDHE-ECDSA:+DHE-DSS:+RSA:" //TODO//
+ "%cCTYPE-X.509:"
+ "%cCTYPE-OPENPGP:"
+ "%cSRP:%cSRP-RSA:%cSRP-DSS",
+ anonpre_ok ?'+':'-',
+ 1 ?'+':'-',
+ 1 ?'+':'-',
+ //TODO// Temporarily patched out SRP
+ 1 ?'+':'-',
+ 1 ?'+':'-',
+ 1 ?'+':'-');
+#endif
tlog (TLOG_TLS, LOG_DEBUG, "Constructed priority string %s for local ID %s",
priostr, cmd->cmd.pio_data.pioc_starttls.localid);
E_g2e ("Failed to set GnuTLS priority string",
* - TLS hints -- Server Name Indication
* - User hints -- local and remote identities provided
*/
-int srv_clienthello (gnutls_session_t session) {
+static int srv_clienthello (gnutls_session_t session, unsigned int htype, unsigned int post, unsigned int incoming, const gnutls_datum_t *msg) {
struct command *cmd;
+ int gtls_errno = GNUTLS_E_SUCCESS;
char sni [sizeof (cmd->cmd.pio_data.pioc_starttls.remoteid)]; // static
size_t snilen = sizeof (sni);
int snitype;
- int gtls_errno = GNUTLS_E_SUCCESS;
char *lid;
+tlog (LOG_DAEMON, LOG_INFO, "Invoked %sprocessor for Client Hello, htype=%d, incoming=%d\n",
+ post ? "post" : "pre",
+ htype,
+ incoming);
+
fprintf (stderr, "DEBUG: Got errno = %d / %s at %d\n", errno, strerror (errno), __LINE__);
errno = 0;
fprintf (stderr, "DEBUG: Got errno = %d / %s at %d\n", errno, strerror (errno), __LINE__);
+
+if (!post) {
//
// Setup a number of common references
cmd = (struct command *) gnutls_session_get_ptr (session);
if (cmd == NULL) {
return GNUTLS_E_INVALID_SESSION;
}
- lid = cmd->cmd.pio_data.pioc_starttls.localid;
//
// Setup server-specific credentials and priority string
cmd->anonpre & ANONPRE_SERVER));
fprintf (stderr, "DEBUG: Got gtls_errno = %d at %d\n", gtls_errno, __LINE__);
+} else {
+
+ //
+ // Setup a number of common references
+ cmd = (struct command *) gnutls_session_get_ptr (session);
+ if (cmd == NULL) {
+ return GNUTLS_E_INVALID_SESSION;
+ }
+ lid = cmd->cmd.pio_data.pioc_starttls.localid;
+
//
// Setup to ignore/request/require remote identity (from client)
fprintf (stderr, "DEBUG: Got errno = %d / %s at %d\n", errno, strerror (errno), __LINE__);
sni [sizeof (sni) - 1] = '\0';
}
fprintf (stderr, "DEBUG: Got gtls_errno = %d at %d\n", gtls_errno, __LINE__);
+}
//
// Lap up any unnoticed POSIX error messages
fprintf (stderr, "DEBUG: Configuring for server credentials callback if %d==0\n", gtls_errno);
if (!renegotiating) { //TODO:TEST//
if (gtls_errno == GNUTLS_E_SUCCESS) {
- gnutls_handshake_set_post_client_hello_function (
+ gnutls_handshake_set_hook_function (
session,
+ GNUTLS_HANDSHAKE_CLIENT_HELLO,
+ GNUTLS_HOOK_BOTH,
srv_clienthello);
}
} //TODO:TEST//
// Cleanup any prefetched identities
for (i=LID_TYPE_MIN; i<=LID_TYPE_MAX; i++) {
if (cmd->lids [i - LID_TYPE_MIN].data != NULL) {
+fprintf (stderr, "DEBUG: Freeing cmd->lids[%d].data 0x%016x\n", i-LID_TYPE_MIN, cmd->lids [i-LID_TYPE_MIN].data);
free (cmd->lids [i - LID_TYPE_MIN].data);
}
}
if (cmd->krb_key.contents != NULL) {
// RATHER BLUNT: It shouldn't matter which krbctx_ is used...
krb5_free_keyblock_contents (krbctx_srv, &cmd->krb_key);
+ memset (&cmd->krb_key, 0, sizeof (cmd->krb_key));
+ }
+ if (cmd->krbid_srv != NULL) {
+ // RATHER BLUNT: It shouldn't matter which krbctx_ is used...
+ krb5_free_principal (krbctx_srv, cmd->krbid_srv);
+ cmd->krbid_srv = NULL;
+ }
+ if (cmd->krbid_cli != NULL) {
+ // RATHER BLUNT: It shouldn't matter which krbctx_ is used...
+ krb5_free_principal (krbctx_srv, cmd->krbid_cli);
+ cmd->krbid_cli = NULL;
}
#if 0