13 matches found
EUVD-2022-29916
Malicious code in bioql PyPI...
CVE-2022-25217
Use of a hard-coded cryptographic key pair by the telnetdstartup service allows an attacker on the local area network to obtain a root shell on the device over telnet. The builds of telnetdstartup included in the version 22.5.9.163 of the K2 firmware, and version 32.1.15.93 of the K3C firmware...
CVE-2022-25219
A null byte interaction error has been discovered in the code that the telnetdstartup daemon uses to construct a pair of ephemeral passwords that allow a user to spawn a telnet service on the router, and to ensure that the telnet service persists upon reboot. By means of a crafted exchange of UDP...
CVE-2022-25219
A null byte interaction error has been discovered in the code that the telnetdstartup daemon uses to construct a pair of ephemeral passwords that allow a user to spawn a telnet service on the router, and to ensure that the telnet service persists upon reboot. By means of a crafted exchange of UDP...
CVE-2022-25217
Use of a hard-coded cryptographic key pair by the telnetdstartup service allows an attacker on the local area network to obtain a root shell on the device over telnet. The builds of telnetdstartup included in the version 22.5.9.163 of the K2 firmware, and version 32.1.15.93 of the K3C firmware...
CVE-2022-25217
Use of a hard-coded cryptographic key pair by the telnetdstartup service allows an attacker on the local area network to obtain a root shell on the device over telnet. The builds of telnetdstartup included in the version 22.5.9.163 of the K2 firmware, and version 32.1.15.93 of the K3C firmware...
Design/Logic Flaw
A null byte interaction error has been discovered in the code that the telnetdstartup daemon uses to construct a pair of ephemeral passwords that allow a user to spawn a telnet service on the router, and to ensure that the telnet service persists upon reboot. By means of a crafted exchange of UDP...
Hardcoded credentials
Use of a hard-coded cryptographic key pair by the telnetdstartup service allows an attacker on the local area network to obtain a root shell on the device over telnet. The builds of telnetdstartup included in the version 22.5.9.163 of the K2 firmware, and version 32.1.15.93 of the K3C firmware...
CVE-2022-25219
CVE-2022-25219/25218 describe a flaw in the telnetd_startup routine where the use of RSA without padding (or OAEP) enables an unauthenticated attacker on the local network to influence the decrypted plaintext via crafted UDP packets, potentially gaining a root shell. The 25219 issue centers on a ...
CVE-2022-25218
The CVE-2022-25218 entry concerns PHICOMM router devices (e.g., K2, K3, K3C) where telnetd_startup uses RSA without OAEP or padding. An unauthenticated attacker on the LAN can craft UDP packets to influence the OpenSSL RSA_public_decrypt() processing, manipulating the telnetd startup state machin...
CVE-2022-25218
The use of the RSA algorithm without OAEP, or any other padding scheme, in telnetdstartup, allows an unauthenticated attacker on the local area network to achieve a significant degree of control over the "plaintext" to which an arbitrary blob of ciphertext will be decrypted by OpenSSL's...
CVE-2022-25217
Use of a hard-coded cryptographic key pair by the telnetdstartup service allows an attacker on the local area network to obtain a root shell on the device over telnet. The builds of telnetdstartup included in the version 22.5.9.163 of the K2 firmware, and version 32.1.15.93 of the K3C firmware...
CVE-2022-25217
CVE-2022-25217 involves hard-coded RSA keys in telnetd_startup on Phicomm/K2 and K3C firmware. A local attacker within the LAN can obtain a root shell by leveraging the leaked private key to trigger telnetd_startup via scripted UDP exchanges, spawning an unauthenticated root telnet shell. Concret...