Total
9 CVE
| CVE | Vendors | Products | Updated | CVSS v2 | CVSS v3 |
|---|---|---|---|---|---|
| CVE-2022-34381 | 1 Dell | 2 Bsafe Crypto-j, Bsafe Ssl-j | 2024-02-09 | N/A | 9.8 CRITICAL |
| Dell BSAFE SSL-J version 7.0 and all versions prior to 6.5, and Dell BSAFE Crypto-J versions prior to 6.2.6.1 contain an unmaintained third-party component vulnerability. An unauthenticated remote attacker could potentially exploit this vulnerability, leading to the compromise of the impacted system. This is a Critical vulnerability and Dell recommends customers to upgrade at the earliest opportunity. | |||||
| CVE-2019-3740 | 2 Dell, Oracle | 18 Bsafe Cert-j, Bsafe Crypto-j, Bsafe Ssl-j and 15 more | 2023-12-10 | 4.3 MEDIUM | 6.5 MEDIUM |
| RSA BSAFE Crypto-J versions prior to 6.2.5 are vulnerable to an Information Exposure Through Timing Discrepancy vulnerabilities during DSA key generation. A malicious remote attacker could potentially exploit those vulnerabilities to recover DSA keys. | |||||
| CVE-2019-3738 | 3 Dell, Mcafee, Oracle | 16 Bsafe Cert-j, Bsafe Crypto-j, Bsafe Ssl-j and 13 more | 2023-12-10 | 4.3 MEDIUM | 6.5 MEDIUM |
| RSA BSAFE Crypto-J versions prior to 6.2.5 are vulnerable to a Missing Required Cryptographic Step vulnerability. A malicious remote attacker could potentially exploit this vulnerability to coerce two parties into computing the same predictable shared key. | |||||
| CVE-2019-3739 | 2 Dell, Oracle | 16 Bsafe Cert-j, Bsafe Crypto-j, Bsafe Ssl-j and 13 more | 2023-12-10 | 4.3 MEDIUM | 6.5 MEDIUM |
| RSA BSAFE Crypto-J versions prior to 6.2.5 are vulnerable to Information Exposure Through Timing Discrepancy vulnerabilities during ECDSA key generation. A malicious remote attacker could potentially exploit those vulnerabilities to recover ECDSA keys. | |||||
| CVE-2018-11070 | 1 Dell | 2 Bsafe Crypto-j, Rsa Bsafe Ssl-j | 2023-12-10 | 4.3 MEDIUM | 5.9 MEDIUM |
| RSA BSAFE Crypto-J versions prior to 6.2.4 and RSA BSAFE SSL-J versions prior to 6.2.4 contain a Covert Timing Channel vulnerability during PKCS #1 unpadding operations, also known as a Bleichenbacher attack. A remote attacker may be able to recover a RSA key. | |||||
| CVE-2016-8212 | 1 Dell | 1 Bsafe Crypto-j | 2023-12-10 | 5.0 MEDIUM | 7.5 HIGH |
| An issue was discovered in EMC RSA BSAFE Crypto-J versions prior to 6.2.2. There is an Improper OCSP Validation Vulnerability. OCSP responses have two time values: thisUpdate and nextUpdate. These specify a validity period; however, both values are optional. Crypto-J treats the lack of a nextUpdate as indicating that the OCSP response is valid indefinitely instead of restricting its validity for a brief period surrounding the thisUpdate time. This vulnerability is similar to the issue described in CVE-2015-4748. | |||||
| CVE-2016-8217 | 1 Dell | 1 Bsafe Crypto-j | 2023-12-10 | 4.3 MEDIUM | 3.7 LOW |
| EMC RSA BSAFE Crypto-J versions prior to 6.2.2 has a PKCS#12 Timing Attack Vulnerability. A possible timing attack could be carried out by modifying a PKCS#12 file that has an integrity MAC for which the password is not known. An attacker could then feed the modified PKCS#12 file to the toolkit and guess the current MAC one byte at a time. This is possible because Crypto-J uses a non-constant-time method to compare the stored MAC with the calculated MAC. This vulnerability is similar to the issue described in CVE-2015-2601. | |||||
| CVE-2016-0887 | 1 Dell | 5 Bsafe Crypto-c-micro-edition, Bsafe Crypto-j, Bsafe Micro-edition-suite and 2 more | 2023-12-10 | 2.6 LOW | 5.9 MEDIUM |
| EMC RSA BSAFE Micro Edition Suite (MES) 4.0.x and 4.1.x before 4.1.5, RSA BSAFE Crypto-C Micro Edition (CCME) 4.0.x and 4.1.x before 4.1.3, RSA BSAFE Crypto-J before 6.2.1, RSA BSAFE SSL-J before 6.2.1, and RSA BSAFE SSL-C before 2.8.9 allow remote attackers to discover a private-key prime by conducting a Lenstra side-channel attack that leverages an application's failure to detect an RSA signature failure during a TLS session. | |||||
| CVE-2007-6755 | 1 Dell | 2 Bsafe Crypto-c-micro-edition, Bsafe Crypto-j | 2023-12-10 | 5.8 MEDIUM | N/A |
| The NIST SP 800-90A default statement of the Dual Elliptic Curve Deterministic Random Bit Generation (Dual_EC_DRBG) algorithm contains point Q constants with a possible relationship to certain "skeleton key" values, which might allow context-dependent attackers to defeat cryptographic protection mechanisms by leveraging knowledge of those values. NOTE: this is a preliminary CVE for Dual_EC_DRBG; future research may provide additional details about point Q and associated attacks, and could potentially lead to a RECAST or REJECT of this CVE. | |||||