Vulnerabilities (CVE)

Filtered by vendor Genexis Subscribe
Total 7 CVE
CVE Vendors Products Updated CVSS v2 CVSS v3
CVE-2020-28137 1 Genexis 2 Platinum 4410, Platinum 4410 Firmware 2024-02-04 7.1 HIGH 6.5 MEDIUM
Cross site request forgery (CSRF) in Genexis Platinum 4410 V2-1.28, allows attackers to cause a denial of service by continuously restarting the router.
CVE-2021-29003 1 Genexis 2 Platinum 4410, Platinum 4410 Firmware 2024-02-04 7.5 HIGH 9.8 CRITICAL
Genexis PLATINUM 4410 2.1 P4410-V2-1.28 devices allow remote attackers to execute arbitrary code via shell metacharacters to sys_config_valid.xgi, as demonstrated by the sys_config_valid.xgi?exeshell=%60telnetd%20%26%60 URI.
CVE-2020-27980 1 Genexis 2 Platinum-4410, Platinum-4410 Firmware 2024-02-04 3.5 LOW 5.4 MEDIUM
Genexis Platinum-4410 P4410-V2-1.28 devices allow stored XSS in the WLAN SSID parameter. This could allow an attacker to perform malicious actions in which the XSS popup will affect all privileged users.
CVE-2020-25988 1 Genexis 2 Platinum 4410, Platinum 4410 Firmware 2024-02-04 3.3 LOW 6.5 MEDIUM
UPNP Service listening on port 5555 in Genexis Platinum 4410 Router V2.1 (P4410-V2–1.34H) has an action 'X_GetAccess' which leaks the credentials of 'admin', provided that the attacker is network adjacent.
CVE-2020-25015 1 Genexis 2 Platinum 4410, Platinum 4410 Firmware 2024-02-04 4.3 MEDIUM 6.5 MEDIUM
A specific router allows changing the Wi-Fi password remotely. Genexis Platinum 4410 V2-1.28, a compact router generally used at homes and offices was found to be vulnerable to Broken Access Control and CSRF which could be combined to remotely change the WIFI access point’s password.
CVE-2020-6170 1 Genexis 2 Platinum-4410, Platinum-4410 Firmware 2024-02-04 5.0 MEDIUM 9.8 CRITICAL
An authentication bypass vulnerability on Genexis Platinum-4410 v2.1 P4410-V2 1.28 devices allows attackers to obtain cleartext credentials from the HTML source code of the cgi-bin/index2.asp URI.
CVE-2017-6094 1 Genexis 1 Gaps 2024-02-04 5.0 MEDIUM 9.8 CRITICAL
CPEs used by subscribers on the access network receive their individual configuration settings from a central GAPS instance. A CPE identifies itself by the MAC address of its WAN interface and a certain "chk" value (48bit) derived from the MAC. The algorithm used to compute the "chk" was disclosed by reverse engineering the CPE's firmware. As a result, it is possible to forge valid "chk" values for any given MAC address and therefore receive the configuration settings of other subscribers' CPEs. The configuration settings often contain sensitive values, for example credentials (username/password) for VoIP services. This issue affects Genexis B.V. GAPS up to 7.2.