- Copy TLS 1.3 traffic secrets and DTLS 1.3 epoch/cipher state to the
write-dup side in DupSSL so key updates can be performed.
- Delegate KeyUpdate responses from the read side to the write side via
the shared WriteDup struct, for both peer-initiated and local key
updates.
- Delegate DTLS 1.3 ACK sending from the read side to the write side.
- Track DTLS 1.3 KeyUpdate ACKs: write side records the in-flight
KeyUpdate epoch/seq, read side sets keyUpdateAcked when the matching
ACK arrives.
- Delegate post-handshake certificate authentication (CertificateRequest
processing) from the read side to the write side, transferring
transcript hashes, cert context, and signature parameters.
- Reset prevSent/plainSz to prevent stale values from SendData to think
that data was already sent.
- Refactor FreeHandshakeHashes into Free_HS_Hashes for reuse.
- Move DTLS 1.3 epoch initialization earlier in InitSSL so the
write-dup early-return path has valid epoch state.
- Add tests for write dup with all protocol versions, key update,
post-handshake auth, and WANT_WRITE recovery.
- Add --enable-all --enable-writedup to CI os-check matrix.
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).
- Route BIO_ctrl_pending, BIO_reset, and BIO_get_mem_data through the custom method's ctrlCb when set, enabling fully custom BIO types to handle these operations.
- Add test_wolfSSL_BIO_custom_method that exercises a custom BIO with all callbacks (create, destroy, read, write, puts, gets, ctrl) and verifies each callback is invoked via bitfield tracking.
* 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
CRL APIs not usable when NO_ASN_TIME defined.
WOLFSSL_TLS13 needs to be defined with HAVE_ECH.
When session ticket encrypted with CBC, must be a multiple of block
size.
Fix test define protection.
Fix ML-DSA protection of reduction functions.
Need !NO_RSA with WC_RSA_PSS.
Connection ID is not a DTLS 1.3 only extension.
wc_lms_treehash_init() writes leaf node hashes into the leaf cache
using an absolute index (i * hash_len), but the cache is only
max_cb entries starting from leaf->idx. When leaf->idx > 0 (which
occurs when wc_LmsKey_Reload is called after signing more than
max_cb times), the write goes past the end of the cache buffer.
Fix by using the relative offset (i - leaf->idx) * hash_len instead.
Added unit tests (test_lms.c):
- test_wc_LmsKey_sign_verify: basic sign/verify sanity check
- test_wc_LmsKey_reload_cache: (TDD) reproduces the overflow by
signing 33 times then reloading the key