Filtered by vendor Zte Subscriptions
Filtered by product Zxhn E2618 Firmware Subscriptions
Total 4 CVE
CVE Vendors Products Updated CVSS v3.1
CVE-2024-45416 1 Zte 10 Zxhn E1600 Firmware, Zxhn E2603 Firmware, Zxhn E2615 Firmware and 7 more 2024-09-20 8.1 High
The HTTPD binary in multiple ZTE routers has a local file inclusion vulnerability in session_init function. The session -LUA- files are stored in the directory /var/lua_session, the function iterates on all files in this directory and executes them using the function dofile without any validation if it is a valid session file or not. An attacker who is able to write a malicious file in the sessions directory can get RCE as root.
CVE-2024-45413 1 Zte 10 Zxhn E1600 Firmware, Zxhn E2603 Firmware, Zxhn E2615 Firmware and 7 more 2024-09-20 8.1 High
The HTTPD binary in multiple ZTE routers has a stack-based buffer overflow vulnerability in rsa_decrypt function. This function is an API wrapper for LUA to decrypt RSA encrypted ciphertext, the decrypted data is stored on the stack without checking its length. An authenticated attacker can get RCE as root by exploiting this vulnerability.
CVE-2024-45415 1 Zte 10 Zxhn E1600 Firmware, Zxhn E2603 Firmware, Zxhn E2615 Firmware and 7 more 2024-09-20 9.8 Critical
The HTTPD binary in multiple ZTE routers has a stack-based buffer overflow vulnerability in check_data_integrity function. This function is responsible for validating the checksum of data in post request. The checksum is sent encrypted in the request, the function decrypts it and stores the checksum on the stack without validating it. An unauthenticated attacker can get RCE as root by exploiting this vulnerability.
CVE-2024-45414 1 Zte 10 Zxhn E1600 Firmware, Zxhn E2603 Firmware, Zxhn E2615 Firmware and 7 more 2024-09-20 9.8 Critical
The HTTPD binary in multiple ZTE routers has a stack-based buffer overflow vulnerability in webPrivateDecrypt function. This function is responsible for decrypting RSA encrypted ciphertext, the encrypted data is supplied base64 encoded. The decoded ciphertext is stored on the stack without checking its length. An unauthenticated attacker can get RCE as root by exploiting this vulnerability.