Количество 4
Количество 4
CVE-2012-2387
devotee 0.1 patch 2 uses a 32-bit seed for generating 48-bit random numbers, which makes it easier for remote attackers to obtain the secret monikers via a brute force attack.
CVE-2012-2387
devotee 0.1 patch 2 uses a 32-bit seed for generating 48-bit random numbers, which makes it easier for remote attackers to obtain the secret monikers via a brute force attack.
CVE-2012-2387
devotee 0.1 patch 2 uses a 32-bit seed for generating 48-bit random nu ...
GHSA-5373-h4rr-2xc4
devotee 0.1 patch 2 uses a 32-bit seed for generating 48-bit random numbers, which makes it easier for remote attackers to obtain the secret monikers via a brute force attack.
Уязвимостей на страницу
Уязвимость | CVSS | EPSS | Опубликовано | |
|---|---|---|---|---|
 | CVE-2012-2387 devotee 0.1 patch 2 uses a 32-bit seed for generating 48-bit random numbers, which makes it easier for remote attackers to obtain the secret monikers via a brute force attack. | CVSS2: 5 | 0% Низкий | больше 13 лет назад |
 | CVE-2012-2387 devotee 0.1 patch 2 uses a 32-bit seed for generating 48-bit random numbers, which makes it easier for remote attackers to obtain the secret monikers via a brute force attack. | CVSS2: 5 | 0% Низкий | больше 13 лет назад |
| CVE-2012-2387 devotee 0.1 patch 2 uses a 32-bit seed for generating 48-bit random nu ... | CVSS2: 5 | 0% Низкий | больше 13 лет назад |
| GHSA-5373-h4rr-2xc4 devotee 0.1 patch 2 uses a 32-bit seed for generating 48-bit random numbers, which makes it easier for remote attackers to obtain the secret monikers via a brute force attack. | 0% Низкий | больше 3 лет назад |
Уязвимостей на страницу