- x509_str: require CA:TRUE unconditionally in wolfSSL_X509_verify_cert;
verify leaf signature even when verify_cb overrides INVALID_CA
- x509_str: align WOLFSSL_X509_V_ERR_INVALID_CA with OpenSSL value (79)
so OPENSSL_COEXIST builds compile; bump WC_OSSL_V509_V_ERR_MAX to 80
and extend error_test() missing-value table for the new gaps
- asn: reject embedded NUL in dNSName / rfc822Name / URI SAN entries
- internal: re-verify restored ticket peer cert against trust store with
CRL/OCSP checks; clear stale state from session cache on verification
failure
- ticket: bind SNI and ALPN into session ticket via compile-time selected
hash (TICKET_BINDING_HASH_TYPE); reject resumption on mismatch in both
TLS 1.3 and TLS 1.2 paths
- ticket: defer SNI/ALPN binding check until after extensions are parsed
by consolidating into VerifyTicketBinding(), called once after
ALPN_Select in DoTls13ClientHello and DoClientHello; the early
per-call sites ran before extensions were parsed and rejected valid
resumptions in nginx, haproxy, grpc, and CPython integration tests
- ssl_sess: free previous session in wolfSSL_d2i_SSL_SESSION before
overwrite
- examples/client: increase SESSION_TICKET_LEN fallback from 256 to 2048
to support larger tickets
- tests: update SAN NUL fixtures and add parse-time rejection coverage;
add test_tls13_ticket_peer_cert_reverify for CA-removal scenario; skip
it under WOLFSSL_NO_DEF_TICKET_ENC_CB
RFC 8446 section 8 requires any server instance to accept 0-RTT for a
given ClientHello at most once. Prior to this change wolfSSL's behaviour
diverged from that requirement in several ways:
* ctx->maxEarlyDataSz defaulted to MAX_EARLY_DATA_SZ whenever the
library was built with WOLFSSL_EARLY_DATA, so servers auto-
advertised 0-RTT in NewSessionTicket without the application
asking. RFC 8446 E.5 says 0-RTT MUST NOT be enabled unless
specifically requested.
* The post-accept eviction is compiled out under NO_SESSION_CACHE,
so builds without the cache accepted 0-RTT with no replay defence.
* Stateless self-encrypted tickets do not carry a session ID on the
stateless DoClientTicket decrypt path, so wolfSSL_SSL_CTX_remove_
session could not locate them to evict.
* wolfSSL_SSL_CTX_remove_session always returned 0 on success
regardless of whether the session was actually in the cache,
diverging from OpenSSL's SSL_CTX_remove_session (1 on success,
0 on not-found).
Changes:
* src/internal.c: ctx->maxEarlyDataSz defaults to 0; applications
must opt in with wolfSSL_CTX_set_max_early_data.
* src/tls13.c: #error when WOLFSSL_EARLY_DATA is built with
HAVE_SESSION_TICKET and NO_SESSION_CACHE. Escape hatch
WOLFSSL_EARLY_DATA_NO_ANTI_REPLAY for deployments that take
application-layer responsibility.
* wolfssl/internal.h: imply WOLFSSL_TICKET_HAVE_ID from
WOLFSSL_EARLY_DATA so stateless-ticket issuance populates the
cache under an ID that eviction can find.
* src/ssl_sess.c: wolfSSL_SSL_CTX_remove_session returns 1 when the
session was found (internal-cache hit, or ctx->rem_sess_cb fired
for an external cache), 0 otherwise. Matches OpenSSL semantics.
* src/tls13.c: the 0-RTT acceptance condition in CheckPreSharedKeys
now calls wolfSSL_SSL_CTX_remove_session and checks its return:
the eviction is the check. If the session was in the cache, 0-RTT
is accepted and the single-use requirement is satisfied. If not,
the early_data extension is rejected through the normal path so
the record layer correctly skips in-flight 0-RTT records.
WOLFSSL_MSG at each rejection site.
* doc/dox_comments/header_files/ssl.h: document runtime opt-in.
* tests: four new tests —
test_tls13_0rtt_default_off (fails without default-to-0 fix),
test_tls13_0rtt_stateless_replay (fails without TICKET_HAVE_ID
implication and remove_session gate),
test_tls13_remove_session_return (fails without return-value fix),
test_tls13_0rtt_ext_cache_eviction (fails without ext-cache
counts-as-found fix).
test_tls13_early_data explicitly opts in via
wolfSSL_CTX_set_max_early_data.
tests/api.c: two SSL_CTX_remove_session == 0 assertions updated
to == 1.
Implement RFC8773bis (draft-ietf-tls-8773bis-13)
cert_with_extern_psk for TLS 1.3, including protocol checks
and API support.
Includes unit tests for API and handshake behavior as well
as tests in the testsuite using extended examples.
wolfssl/ssl.h, examples/client/client.c, examples/server/server.c, src/bio.c, tests/api.c: add error tracing for WOLFSSL_SHUTDOWN_NOT_DONE.
tests/api.c: in test_wolfSSL_read_write_ex(), use WOLFSSL_SUCCESS rather than 1 for expected-success wolfSSL_shutdown()s, and add note that the wrong value is being returned (the test currently always fails, which is masked by an always-success retval).
* Enable ML-KEM by default in build systems (autoconf and CMake)
* Only allow three to-be-standardized hybrid PQ/T combinations by
default
* Use X25519MLKEM768 as the default KeyShare in the ClientHello (if user
does not override that). When Curve25519 is disabled, then either
WOLFSSL_SECP384R1MLKEM1024 or WOLFSSL_SECP256R1MLKEM768 is used as
default depending on the ECC configuration
* Disable standalone ML-KEM in supported groups by default (enable with
--enable-tls-mlkem-standalone)
* Disable extra OQS-based hybrid PQ/T curves by default and gate
behind --enable-experimental (enable with --enable-extra-pqc-hybrids)
* Reorder the SupportedGroups extension to reflect the preferences
* Reorder the preferredGroup array to also reflect the same preferences
* Add async support for ML-KEM hybrids
* DTLS 1.3 cookie and CH frag handling
* static memory handling
* Fix memory leak in TLS server PQC handling in case of ECH
* Make sure hybrids are actually tested in testsuite
Mostly combinations of NO_WOLFSSL_CLIENT, NO_WOLFSSL_SERVER and
WOLFSSL_NO_CLIENT_AUTH were failing.
Added configurations to CI loop.
wc_AesGcmDecryptFinal: use WC_AES_BLOCK_SIZE to satisfy compiler.
When both TLS 1.3 and Brainpool curves are enabled, three new groups can
be used for the ECDHE key exchange according to RFC 8734:
* WOLFSSL_ECC_BRAINPOOLP256R1TLS13 (31)
* WOLFSSL_ECC_BRAINPOOLP384R1TLS13 (32)
* WOLFSSL_ECC_BRAINPOOLP512R1TLS13 (33)
Also ensure that the existing TLS 1.2 curves are sent properly.
The TLS client application is updated to support handshakes via
Brainpool curves using the new argument "--bpKs".
Add support for X25519 and X448 based hybrid PQC + ECC key exchange
groups. Furthermore, two new combinations with SECP curves are added to
match OQS combinations.
This also incorporates the changed order of X25519 and X448 based
combinations to place the PQC material before the ECDH material. This is
motivated by the necessity to always have material of a FIPS approved
algorithm first.
Also, codepoints are updated to reflect the latest draft standards for
pure ML-KEM and some of the hybrids. With these changes and based on the
recent additions to both enable ML-KEM final and draft versions
simultaneously, a WolfSSL TLS server is now compatible with all recent
browsers that support either the draft version of ML-KEM (Chromium based
browsers and Firefox < version 132; only when the draft version is
enabled in the build) or the final version already (Firefox > version 132).
In the process of extending support, some code and logic cleanup
happened. Furthermore, some memory leaks within the hybrid code path have
been fixed.
Signed-off-by: Tobias Frauenschläger <tobias.frauenschlaeger@oth-regensburg.de>
* Fix for `TlsSessionCacheGetAndLock` that was not checking the sessionIDSz, so could return a pointer to an invalid session (if 0's). Resolves issue with `test_wolfSSL_CTX_sess_set_remove_cb` test.
* Fix cast warning with `HAVE_EX_DATA` in Windows VS.
* Fix openssl_extra without PKCS12.
* Refactor the EX data crypto and session API's to gate on `HAVE_EX_DATA_CRYPTO`.
* Grouped the EX data API's in ssl.h
* Moved API's in ssl.h to separate the compatibility ones from ours.
.github/workflows/codespell.yml: remove */README_jp.txt from "skip" list.
IDE/Renesas/cs+/Projects/t4_demo/README_jp.txt: convert from SHIFT_JIS to UTF-8.
cmake/options.h.in: use "#cmakedefine HAVE_PTHREAD 1" to avoid conflict with config.h.
configure.ac: add --enable-c89, and remove !ENABLED_OPENSSLEXTRA dependency from AM_CONDITIONAL([BUILD_CRYPTONLY],...).
wolfcrypt/src/asn.c: refactor SetOthername() for efficiency, and add PRAGMA_GCC to suppress false positive -Wstringop-overflow associated with -fstack-protector.
wolfssl/wolfcrypt/rsa.h: add WC_ prefixes to RSA_PKCS1_PADDING_SIZE and RSA_PKCS1_OAEP_PADDING_SIZE, and define unprefixed compat aliases only if !OPENSSL_COEXIST.
wolfssl/wolfcrypt/types.h:
#ifdef WOLF_C89, #define WC_BITFIELD unsigned;
enhance WOLF_ENUM_DUMMY_LAST_ELEMENT() to include the line number, to construct unique labels given a per-filename argument, to accommodate anonymous enums.
examples/asn1/asn1.c:
examples/client/client.c:
examples/pem/pem.c:
examples/server/server.c:
wolfcrypt/src/sp_dsp32.c:
wolfcrypt/src/wc_port.c:
wolfssl/test.h:
use XMALLOC/XREALLOC/XFREE consistently, not malloc/realloc/free.
wolfcrypt/benchmark/benchmark.c:
wolfcrypt/src/memory.c:
wolfcrypt/test/test.c:
wolfssl/wolfcrypt/mem_track.h:
wolfssl/wolfcrypt/settings.h:
wolfssl/wolfcrypt/types.h:
annotate intentional native heap access with "/* native heap */".
wolfcrypt/src/asn.c:
wolfssl/callbacks.h:
wolfssl/openssl/ec.h:
wolfssl/openssl/ssl.h:
wolfssl/wolfcrypt/hpke.h:
wolfssl/wolfcrypt/types.h:
fix enum trailing commas.
wolfssl/openssl/ec.h:
wolfssl/openssl/evp.h:
wolfssl/openssl/rsa.h:
wolfssl/openssl/ssl.h:
use WC_BITFIELD in bitfield elements, not byte or word16, to allow for pedantic C89 conformant builds.
wolfssl/openssl/ec.h:
wolfssl/openssl/evp.h:
wolfssl/openssl/pem.h:
wolfssl/openssl/ssl.h:
wolfssl/wolfcrypt/logging.h:
avoid variadic macros wherever possible, and where unavoidable, #ifdef WOLF_NO_VARIADIC_MACROS, define them with empty arg lists, rather than ..., to support Watcom compiler.
wolfssl/wolfcrypt/settings.h: if defined(__WATCOMC__), define WOLF_NO_VARIADIC_MACROS.
Make Kyber and ML-KEM individually available as well as at the same
time.
Modified TLS layer to support both Kyber and ML-KEM.
Added new identifiers in TLS layer for ML-KEM.
configure.ac:
* add --enable-all-osp to separate OSP meta-feature sets from --enable-all, allowing --enable-all --disable-all-osp --disable-opensslall (e.g. for testing OPENSSL_COEXIST).
* fix enable_all_crypto=yes in enable-all to be conditional on "$enable_all_crypto" = "".
* move enable_rsapss=yes from enable-all to enable-all-crypto.
examples/ and testsuite/: #undef OPENSSL_COEXIST unconditionally rather than only if defined(OPENSSL_EXTRA), to capture -DOPENSSL_EXTRA_X509_SMALL or any other such variants.
No functional changes.
Several compat symbols that were formerly enums are now macros.
All library source is refactored to use only native symbols in all code gated in with --enable-all-crypto --enable-opensslextra.
wolfcrypt/test/test.c is similarly refactored to use only native symbols.
examples/ and tests/ are unmodified except for header setup to disable OPENSSL_COEXIST and TEST_OPENSSL_COEXIST.
tests/api.c: add error_test() adapted from wolfcrypt/test/test.c, checking all error strings for expected presence/absence and length, called from existing test_wolfSSL_ERR_strings().
wolfssl/ssl.h, wolfssl/error-ssl.h, and wolfssl/wolfcrypt/error-crypt.h:
* move several negative error return codes from ssl.h to error-ssl.h,
* renumber them to conform to existing sequence, and
* include error-ssl.h from ssl.h;
* add special-case WOLFSSL_DEBUG_TRACE_ERROR_CODES macros for WOLFSSL_FAILURE;
* add missing WOLFSSL_API attribute to wc_backtrace_render().
add numerous WC_NO_ERR_TRACE()s to operand error code uses, cleaning up error traces in general, and particularly when WOLFSSL_DEBUG_TRACE_ERROR_CODES_ALWAYS.
* crypto lib (36),
* crypto test&benchmark (20),
* TLS lib (179),
* examples (122),
* linuxkm (3),
* tests/api.c (2272).