Siplus Et 200Sp Cpu 1510Sp 1 Pn Rail
Monthly
Cross-site scripting (XSS) in Siemens SIMATIC S7-1500 PLC family firmware upload interface allows authenticated attackers to execute malicious JavaScript in administrator sessions via crafted filenames. This stored XSS requires social engineering to trick authenticated users into selecting the attacker-supplied firmware file on the web-based management interface. Successful exploitation enables session hijacking and credential theft without requiring the malicious file to be uploaded. EPSS data not provided, no CISA KEV status confirmed, affecting industrial automation controllers widely deployed in critical infrastructure environments.
Stored cross-site scripting (XSS) in Siemens SIMATIC S7-1500 and ET 200SP controller families allows authenticated attackers with high privileges to inject malicious scripts via Technology Object (TO) names when downloading TIA Portal projects. The scripts execute when authorized users access the Motion Control Diagnostics web interface page, enabling session hijacking, credential theft, or privileged actions performed under the victim's context. This affects over 100 product variants across industrial automation controllers, software controllers, and open controllers. No active exploitation confirmed (not in CISA KEV). EPSS score not provided in dataset. CVSS 4.0 score of 9.3 reflects high impact across confidentiality, integrity, and availability in both vulnerable and subsequent systems.
Stored cross-site scripting in Siemens SIMATIC S7-1500 controller family web interface allows authenticated high-privilege attackers to inject malicious code via crafted PLC/station names in TIA project files. When users with appropriate rights later access the communication parameters page, injected scripts execute in their session context with high impact to confidentiality, integrity, and availability across system boundaries (CVSS 9.3, CVSS:4.0 S:H). No public exploit identified at time of analysis, but CVSS vector indicates low attack complexity (AC:L) once attacker gains privileged project upload access.
Cross-site scripting (XSS) in Siemens SIMATIC S7-1500 PLC family firmware upload interface allows authenticated attackers to execute malicious JavaScript in administrator sessions via crafted filenames. This stored XSS requires social engineering to trick authenticated users into selecting the attacker-supplied firmware file on the web-based management interface. Successful exploitation enables session hijacking and credential theft without requiring the malicious file to be uploaded. EPSS data not provided, no CISA KEV status confirmed, affecting industrial automation controllers widely deployed in critical infrastructure environments.
Stored cross-site scripting (XSS) in Siemens SIMATIC S7-1500 and ET 200SP controller families allows authenticated attackers with high privileges to inject malicious scripts via Technology Object (TO) names when downloading TIA Portal projects. The scripts execute when authorized users access the Motion Control Diagnostics web interface page, enabling session hijacking, credential theft, or privileged actions performed under the victim's context. This affects over 100 product variants across industrial automation controllers, software controllers, and open controllers. No active exploitation confirmed (not in CISA KEV). EPSS score not provided in dataset. CVSS 4.0 score of 9.3 reflects high impact across confidentiality, integrity, and availability in both vulnerable and subsequent systems.
Stored cross-site scripting in Siemens SIMATIC S7-1500 controller family web interface allows authenticated high-privilege attackers to inject malicious code via crafted PLC/station names in TIA project files. When users with appropriate rights later access the communication parameters page, injected scripts execute in their session context with high impact to confidentiality, integrity, and availability across system boundaries (CVSS 9.3, CVSS:4.0 S:H). No public exploit identified at time of analysis, but CVSS vector indicates low attack complexity (AC:L) once attacker gains privileged project upload access.