Note:
This project will be discontinued after December 13, 2021. [more]
Product:
Wolfssl
(Wolfssl)| Repositories | https://github.com/wolfSSL/wolfssl |
| #Vulnerabilities | 56 |
| Date | Id | Summary | Products | Score | Patch | Annotated |
|---|---|---|---|---|---|---|
| 2020-08-21 | CVE-2020-15309 | An issue was discovered in wolfSSL before 4.5.0, when single precision is not employed. Local attackers can conduct a cache-timing attack against public key operations. These attackers may already have obtained sensitive information if the affected system has been used for private key operations (e.g., signing with a private key). | Wolfssl | 7.0 | ||
| 2020-08-21 | CVE-2020-24585 | An issue was discovered in the DTLS handshake implementation in wolfSSL before 4.5.0. Clear DTLS application_data messages in epoch 0 do not produce an out-of-order error. Instead, these messages are returned to the application. | Wolfssl | 5.3 | ||
| 2020-08-24 | CVE-2020-24613 | wolfSSL before 4.5.0 mishandles TLS 1.3 server data in the WAIT_CERT_CR state, within SanityCheckTls13MsgReceived() in tls13.c. This is an incorrect implementation of the TLS 1.3 client state machine. This allows attackers in a privileged network position to completely impersonate any TLS 1.3 servers, and read or modify potentially sensitive information between clients using the wolfSSL library and these TLS servers. | Wolfssl | 6.8 | ||
| 2021-01-06 | CVE-2020-36177 | RsaPad_PSS in wolfcrypt/src/rsa.c in wolfSSL before 4.6.0 has an out-of-bounds write for certain relationships between key size and digest size. | Wolfssl | 9.8 | ||
| 2021-01-29 | CVE-2021-3336 | DoTls13CertificateVerify in tls13.c in wolfSSL before 4.7.0 does not cease processing for certain anomalous peer behavior (sending an ED22519, ED448, ECC, or RSA signature without the corresponding certificate). The client side is affected because man-in-the-middle attackers can impersonate TLS 1.3 servers. | Wolfssl | 8.1 | ||
| 2021-07-14 | CVE-2021-24116 | In wolfSSL through 4.6.0, a side-channel vulnerability in base64 PEM file decoding allows system-level (administrator) attackers to obtain information about secret RSA keys via a controlled-channel and side-channel attack on software running in isolated environments that can be single stepped, especially Intel SGX. | Wolfssl | 4.9 |