Change innerClientHelloLen underflow guard in TLSX_ECH_Parse from
BAD_FUNC_ARG to BUFFER_ERROR to match the convention used throughout
tls.c for wire-protocol length/bounds validation.
Add full RSA-PSS (RSASSA-PSS) support to PKCS#7 SignedData
encoding and verification.
This change enables SignerInfo.signatureAlgorithm to use
id-RSASSA-PSS with explicit RSASSA-PSS-params (hash, MGF1,
salt length), as required by RFC 4055 and CMS profiles.
Key changes:
- Add RSA-PSS encode and verify paths for PKCS7 SignedData
- Encode full RSASSA-PSS AlgorithmIdentifier parameters
- Decode RSA-PSS parameters from SignerInfo for verification
- Treat RSA-PSS like ECDSA (sign raw digest, not DigestInfo)
- Fix certificate signatureAlgorithm parameter length handling
- Add API test coverage for RSA-PSS SignedData
This resolves failures when using RSA-PSS signer certificates
(e.g. -173 invalid signature algorithm) and maintains backward
compatibility with RSA PKCS#1 v1.5 and ECDSA.
Signed-off-by: Sameeh Jubran <sameeh@wolfssl.com>
* add prefetch_ptr flag argument to AesEncrypt_C() and AesDecrypt_C(), and call PreFetchTe() and PreFetchSBox() only if *prefetch_ptr is zero, whereupon it is set to 1;
* when C implementations are available, add prefetch_ptr arg to wc_AesEncrypt() and wc_AesDecrypt(), and pass it through;
* in functions that directly call the AES block encryption methods, opportunistically inhibit prefetch on all but the first call;
* move AES-specific code in wc_CmacUpdate() in cmac.c to wc_local_CmacUpdateAes() in aes.c to let it use conditional prefetching;
* add WC_ARG_NOT_NULL(), WC_ARGS_NOT_NULL(), and WC_ALL_ARGS_NOT_NULL attribute abstractions.
Decapsulation needs H, hash of public key, and it is not present if you
have a new key made from a seed.
Code changed to check for and create H in decapsulate.
In ImportKeyState(), wordAdj was always zero because it was computed
after clamping wordCount, and the subtraction direction was reversed.
This caused misaligned parsing of all subsequent fields when importing
state from a peer compiled with a larger WOLFSSL_DTLS_WINDOW_WORDS.
Fix both window and prevWindow blocks to compute the adjustment before
clamping, with the correct subtraction direction.
Add test that imports a state buffer with wordCount > WOLFSSL_DTLS_WINDOW_WORDS
to verify the fix.
Add bounds check before subtracting WC_AES_BLOCK_SIZE from the
attacker-controlled innerClientHelloLen field in TLSX_ECH_Parse().
Values 0-15 caused a word16 underflow to ~65K, leading to a heap
buffer overflow write via XMEMSET and heap buffer over-read via
wc_AesGcmDecrypt. Return BAD_FUNC_ARG if the field is too small.
Add missing bounds validation in wolfSSL_select_next_proto. Three
issues fixed:
1. Outer loop: no check that length byte + position stays within inLen,
allowing XMEMCMP to read past the server protocol list buffer.
2. Inner loop: same missing check for clientNames/clientLen boundary.
3. No-overlap fallback unconditionally dereferences clientNames[0] even
when clientLen is 0, and returns an outLen that may exceed the buffer.
Also reject zero-length protocol entries (invalid per RFC 7301) to
prevent infinite loops.
Add unit test test_wolfSSL_select_next_proto with 8 cases covering NULL
params, normal match, no overlap, malformed length overruns, zero-length
entries, and empty client lists.
The CRL_STATIC_REVOKED_LIST code path stored revoked certificates in a
fixed array but never sorted it after parsing, causing binary search to
silently miss revoked serials when entries arrived in non-sorted wire
order. Additionally, comparisons used rc[0].serialSz instead of
rc[mid].serialSz, omitted the length-equality check before XMEMCMP,
and ignored the serialHash lookup path entirely (causing a NULL
dereference when hash-based lookup was used).
Fixes:
- Sort the revoked cert array in InitCRL_Entry after populating it
- Use rc[mid].serialSz instead of rc->serialSz in binary search
- Add serialSz equality check before XMEMCMP, matching linked-list path
- Implement serialHash-based linear scan for hash lookup callers
Add unit test that loads a CRL with serials in unsorted wire order and
verifies that a revoked certificate is correctly detected.
* add a kernel-appropriate subset of enable-all-crypto to enable whenever KERNEL_MODE_DEFAULTS (almost all of these overlap with FIPS v5/v6 settings);
* move ocspstapling features from enable-all-crypto to enable-all.