The client's resumed-session EMS (F-5807) and cipher-suite (F-5811) checks
were enforced in CompleteServerHello at ServerHello-parse time. For stateless
ticket resumption the client sends an empty session ID and cannot yet tell
whether the server accepted the ticket (RFC 5077 3.4): a server that declines
the ticket falls back to a full handshake under a freshly negotiated
suite/EMS state, which these checks wrongly aborted with MATCH_SUITE_ERROR,
breaking the RFC 5077 ticket-decline fallback to a full handshake.
Move both checks into CheckResumptionConsistency and run it only once
resumption is confirmed - from whichever the server sends first in the
abbreviated flight: a renewed NewSessionTicket (before SetupSession refreshes
the cached suite/EMS to the current values) or its ChangeCipherSpec. By then
the "Not resuming as thought" path has cleared 'resuming' for any ticket
decline, so the full-handshake fallback proceeds.
Add test_tls12_resume_ticket_decline_fallback (ticket declined by a fresh
server CTX, full handshake under a different suite must succeed) and gate
test_tls12_resume_ticket_wrong_suite on WOLFSSL_NO_DEF_TICKET_ENC_CB so it
skips rather than fails in builds without the default ticket encryption
callback.
Address review on PR #10582:
- The client-side extended_master_secret consistency check skipped all
session-ticket resumptions, leaving a generic ticket resumption open to
an undetected EMS downgrade by a malicious server or MITM. The client
retains the EMS state for ticket sessions too (SetupSession), so the
check now applies to ticket resumption as well, mirroring the adjacent
cipher-suite check. Only EAP-FAST style resumption - where the
session-secret callback supplies the master secret for an opaque PAC
ticket - is exempt, matched precisely via ssl->sessionSecretCb just as
the callback invocation in DoServerHello does.
- Add test_tls_ems_resumption_server_downgrade, exercising the
client-direction downgrade (server resumes but omits EMS from its
ServerHello) for both session-ID and session-ticket resumption. This
client-side branch previously had no test coverage.
MAX_ENCODED_SIG_SZ grows to ~50KB once SLH-DSA is enabled, yet it was
used to size PKCS#1/signature scratch and output buffers across the
library, wasting stack and heap even for classic RSA/ECC operations.
- Add MAX_ENCODED_CLASSIC_SIG_SZ for RSA/DSA/ECC DigestInfo buffers that
can never hold a PQC signature.
- Size the certificate/CSR signing output buffer from the signing key at
runtime instead of the worst-case macro.
- Add overridable WOLFSSL_MAX_SIG_SZ for the WOLFSSL_NO_MALLOC buffer.
- Reject a signature type that does not match the signing key.
Extend wc_MakeCert_ex/wc_SignCert_ex/wc_MakeCertReq_ex to issue HSS/LMS and
XMSS/XMSS^MT certificates and PKCS#10 requests, building on the existing
RFC 9802 verification support. New LMS_TYPE/XMSS_TYPE/XMSSMT_TYPE selectors,
wc_{Lms,Xmss}Key_PublicKeyToDer SPKI encoders, runtime signature-buffer
sizing, and sigType/key consistency checks. Generation is ASN.1-template
only, matching where the verification path lives.
Tests generate self-signed roots, CSRs and a CA->ECC-leaf chain in-process
and verify them, replacing the patched Bouncy Castle fixtures (only the stock
RFC 9802-aligned LMS interop anchor is kept).
SSL_CIPHER_get_name returns the internal cipher name (PSK-AES128-GCM-SHA256)
instead of the IANA name when WOLFSSL_CIPHER_INTERNALNAME, NO_ERROR_STRINGS or
WOLFSSL_QT is defined. user_settings_all.h with the compatibility layer enables
WOLFSSL_QT, so the test failed in the 'make user_setting.h (with sed)' job.
Match the expected name to the build configuration, mirroring the existing
pattern used elsewhere in tests/api.c.
The TLS 1.2 client only compared the ServerHello suite against the
cached session suite for session-ID resumption; ticket resumption was
skipped on the assumption the suite is bound in the ticket. But the
ticket is opaque to the client, so it must enforce the match itself -
otherwise a server could resume a ticket under a different (weaker)
suite the client offered and the downgrade would go undetected
(RFC 5246 7.4.1.3).
The check is skipped only when the client retained no suite for the
session (cipherSuite0/cipherSuite both zero), so there is nothing to
compare against - as for EAP-FAST, whose PAC is a TLS ticket whose keys
come from the session-secret callback and which never populates the
cached suite. (0,0) is TLS_NULL_WITH_NULL_NULL, never negotiated, so it
unambiguously means "no retained suite". The EMS check remains
ticket-gated.
Add memio regression tests: a ticket resumption under a different
(retained) suite is rejected with MATCH_SUITE_ERROR, and a resumption
whose cached suite was not retained still succeeds.
Extend test_tls13_apis with negative-count assertions for
wolfSSL_CTX_set_groups and wolfSSL_set_groups, and NULL-groups
assertions for wolfSSL_CTX_set1_groups and wolfSSL_set1_groups
(tests/api/test_tls13.c).
Add test_wolfSSL_get_shared_ciphers covering NULL ssl, NULL buf, and
zero-length inputs (tests/api/test_tls.c).
The cipher property helpers (SSL_CIPHER_get_kx_nid / get_auth_nid /
get_cipher_nid / get_digest_nid / is_aead) parse the cipher name looked
up via cipher->offset in GetCipherSegment(). That offset is only
populated when the cipher is obtained through wolfSSL_get_ciphers_compat()
(SSL_get_ciphers()). When the cipher comes from SSL_get_current_cipher(),
offset is left at 0, so these helpers parsed cipher_names[0] (a TLS 1.3
suite) instead of the negotiated cipher - e.g. returning NID_kx_any for a
plain PSK suite while SSL_CIPHER_get_name() (which uses the suite bytes)
reported the correct name.
Resolve the cipher_names entry from the always-populated suite bytes in
GetCipherSegment(), falling back to cipher->offset when no match is found.
Also add the missing plain "PSK" -> NID_kx_psk entry to the kx lookup
table so PSK suites report NID_kx_psk instead of NID_undef.
Add a regression test that drives the SSL_get_current_cipher() path for
TLS_PSK_WITH_AES_128_GCM_SHA256 and checks all five property helpers.
The two new tests (test_tls12_ecdhe_ecdsa_rsa_client_cert and
test_tls12_ecdhe_rsa_ecdsa_client_cert) were appended right after
test_wolfSSL_alert_desc_string, the last function in test_tls.c. Another
in-flight branch appends its own new tests at the same anchor, producing
a spurious add/add merge conflict even though the additions are
independent. Move these two functions just above
test_wolfSSL_alert_desc_string so the two branches insert at different
locations and merge cleanly. Pure code movement; no behavior change.
The TLS 1.2 server derived the single advertised ClientCertificateType
and the signature_algorithms list in its CertificateRequest from the
negotiated cipher suite's own signature algorithm. On an ECDHE-ECDSA
suite only ecdsa_sign was offered (and only ECDSA sig algs), so RSA
clients could not authenticate even though the server could happily
verify an RSA certificate. The same was true in reverse for an RSA
server: the CertificateRequest only advertised rsa_sign.
Refactor SendCertificateRequest to advertise certificate_types and
signature_algorithms covering both sig families when both are compiled
in. Three static helpers in internal.c keep the logic in one place
without mutating ssl->suites:
GetServerCertReqCertTypes - certificate_types to emit
GetServerCertReqHashSigAlgo - signature_algorithms to emit
InServerCertReqHashSigAlgo - membership check used for verification
The advertised lists are written to stack buffers in the caller. To
keep DoCertificateVerify in agreement with what we actually sent, the
SupportedHashSigAlgo call site there is replaced with
InServerCertReqHashSigAlgo, which rebuilds the same list locally and
looks up the client's chosen algo.
Replace the magic certTypes buffer size with a new
MAX_CERT_REQ_CERT_TYPE_CNT constant declared next to
ClientCertificateType.
Add two end-to-end mutual-auth tests covering both directions:
test_tls12_ecdhe_ecdsa_rsa_client_cert - ECDSA server, RSA client
test_tls12_ecdhe_rsa_ecdsa_client_cert - RSA server, ECDSA client
Update test_certreq_sighash_algos to permit RSA / RSA-PSS sig algs in
the ECDHE-ECDSA CertificateRequest; the previous assertion locked in
the ECDSA-only behaviour that this change corrects.
TLS 1.3 is unaffected: RFC 8446 removed certificate_types from
CertificateRequest, and TLS 1.3 cipher suites do not bind a signature
algorithm, so the server's hashSigAlgo already covers both sig
families when either has been compiled in.
The documented 'reject peer-initiated renegotiation' option was accepted and
stored but never consulted. Now DoHelloRequest replies with a no_renegotiation
warning instead of starting SCR when the bit is set (client side), and the
server refuses a renegotiation ClientHello with a no_renegotiation warning
instead of resetting handshake state.
Extend test_wolfSSL_RSA_verify and test_wolfSSL_RSA_padding_add_PKCS1_PSS
with negative cases that flip a byte in the signature/encoding and in the
hash, asserting verification fails. This guards the XMEMCMP-based signature
acceptance decision in wolfSSL_RSA_verify_mgf against regressions that would
let any decryption result of matching length pass as valid.