14 matches found
CVE-2026-35096
KTM System e-BOK is vulnerable to Cross‑Site Request Forgery CSRF in both the email-change and password-change functionalities. An attacker can craft a malicious website that, when visited by an authenticated user, automatically sends a forged POST request to the application. This allows the...
CVE-2026-35095
KTM System e-BOK allows the session identifier to be set by the client prior to authentication. If a cookie with a valid name is set, its value remains unchanged after successful login. This behaviour enables an attacker to fix a session ID for a victim and later hijack the authenticated session...
CVE-2026-35098
KTM System e-BOK is affected by CVE-2026-35098 due to no rate limiting on login attempts, enabling brute-force attacks for user accounts. When paired with CVE-2026-35097 (six-digit numeric passwords), the risk increases. A patch was released in June 2026 to fix this issue. The CVSS metrics from C...
CVE-2026-35097 Weak Password Requirements in KTM System e-BOK
KTM System e-BOK enforces a maximum password length of six numeric digits and does not permit the use of any alphabetic, special, or extended characters. This issue was fixed in the patch published in June 2026...
CVE-2026-35098 Improper Restriction of Excessive Authentication Attempts in KTM System e-BOK
KTM System e-BOK does not implement any limit or timeout on consecutive login attempts, allowing an attacker to perform unlimited authentication requests. This lack of rate‑limiting enables efficient brute‑force attacks against user accounts. When combined with vulnerability CVE-2026-35097, where...
CVE-2026-35097
KTM System e-BOK enforces a maximum password length of six numeric digits and does not permit the use of any alphabetic, special, or extended characters. This issue was fixed in the patch published in June 2026...
CVE-2026-35097
The CVE affects KTM System e-BOK, where the password policy allows only numeric passwords up to six digits. Root cause is a restricted character set and short max length, resulting in weak credential requirements. The issue has been addressed by a patch published in June 2026. Remediation recomme...
CVE-2026-35098
KTM System e-BOK does not implement any limit or timeout on consecutive login attempts, allowing an attacker to perform unlimited authentication requests. This lack of rate‑limiting enables efficient brute‑force attacks against user accounts. When combined with vulnerability CVE-2026-35097, where...
EUVD-2026-40325
KTM System e-BOK does not implement any limit or timeout on consecutive login attempts, allowing an attacker to perform unlimited authentication requests. This lack of rate‑limiting enables efficient brute‑force attacks against user accounts. When combined with vulnerability CVE-2026-35097, where...
EUVD-2026-40324
KTM System e-BOK enforces a maximum password length of six numeric digits and does not permit the use of any alphabetic, special, or extended characters. This issue was fixed in the patch published in June 2026...
CVE-2026-35096
KTM System e-BOK is vulnerable to Cross‑Site Request Forgery CSRF in both the email-change and password-change functionalities. An attacker can craft a malicious website that, when visited by an authenticated user, automatically sends a forged POST request to the application. This allows the...
CVE-2026-35095
KTM System e-BOK allows the session identifier to be set by the client prior to authentication. If a cookie with a valid name is set, its value remains unchanged after successful login. This behaviour enables an attacker to fix a session ID for a victim and later hijack the authenticated session...
CVE-2026-35095
Technical details (affected products/components, root cause, impact, or remediation) are not publicly available in the provided documents. Monitor for updates.
EUVD-2026-40322
KTM System e-BOK allows the session identifier to be set by the client prior to authentication. If a cookie with a valid name is set, its value remains unchanged after successful login. This behaviour enables an attacker to fix a session ID for a victim and later hijack the authenticated session...