Comparison Overview
Ehemaligen-Netzwerk der Leuphana Universität Lüneburg

Ehemaligen-Netzwerk der Leuphana Universität Lüneburg
N/A
Last Update: 25/04/2026
Hier können Sie mit Ihren (ehemaligen) Kommilitoninnen und Kommilitonen sowie mit Ihren Professorinnen und Professoren der Universität Lüneburg in Kontakt bleiben und am Hochschulleben teilhaben.

Six Flags Entertainment Corporation
8701 Red Oak Blvd, Charlotte, 28217, US
Last Update: 02/04/2026
Six Flags Entertainment Corporation (NYSE: FUN) is North America’s largest regional amusement-resort operator with 26 amusement parks, 15 water parks and 9 resort properties across 16 states in the U.S., Canada and Mexico. Focused on its purpose of making people happy, ...
Compliance Ranges Comparison

Ehemaligen-Netzwerk der Leuphana Universität Lüneburg







Six Flags Entertainment Corporation






Benchmark & Cyber Underwriting Signals
Incidents vs Entertainment Providers Industry Avg (This Year)
No incidents recorded for Ehemaligen-Netzwerk der Leuphana Universität Lüneburg in 2026.
Incidents vs Entertainment Providers Industry Avg (This Year)
No incidents recorded for Six Flags Entertainment Corporation in 2026.
Incident History - Ehemaligen-Netzwerk der Leuphana Universität Lüneburg (X = Date, Y = Severity)
Ehemaligen-Netzwerk der Leuphana Universität Lüneburg cyber incidents detection timeline including parent company and subsidiaries.
Incident History - Six Flags Entertainment Corporation (X = Date, Y = Severity)
Six Flags Entertainment Corporation cyber incidents detection timeline including parent company and subsidiaries.
Notable Incidents

Ehemaligen-Netzwerk der Leuphana Universität Lüneburg

Six Flags Entertainment Corporation
FAQ
Latest Global CVEs
Authentication bypass using an alternate path or channel in Microsoft Edge (Chromium-based) allows an unauthorized attacker to perform tampering over a network.
JLine is a Java library for handling console input. Prior to 3.30.14, 4.0.16, and 4.2.1, the JLine3 Telnet server remote-telnet module does not apply an upper bound to terminal dimensions received via the Telnet NAWS option, and TelnetIO.handleNAWS() in TelnetIO.java:856-879 reads client-supplied width and height as 16-bit unsigned integers and passes values such as 65535x65535 to setTerminalGeometry(), allowing an unauthenticated remote attacker to repeatedly alternate values and trigger continuous expensive rendering work that causes CPU exhaustion and denial of service. This issue is fixed in versions 3.30.14, 4.0.16, and 4.2.1.
- https://github.com/jline/jline3/commit/3ea9cad8699714dc072fade29d36be0d1e23d708
- https://github.com/jline/jline3/commit/733eb353dca7b0ea0252e724445b6defa29c393e
- https://github.com/jline/jline3/commit/86b7ba7801988aadb1a67555629522a71d603bd3
- https://github.com/jline/jline3/pull/2000
- https://github.com/jline/jline3/releases/tag/4.0.16
- https://github.com/jline/jline3/releases/tag/4.2.1
- https://github.com/jline/jline3/security/advisories/GHSA-2r2c-cx56-8933
JLine is a Java library for handling console input. Prior to 3.30.14, 4.0.16, and 4.2.1, the JLine3 Telnet server remote-telnet module does not limit the number of environment variables a client may inject via the Telnet NEW-ENVIRON option, and TelnetIO.readNEVariables() in TelnetIO.java:1127-1180 stores each variable pair in a HashMap held by ConnectionData, allowing an unauthenticated attacker to flood unique variable pairs before the terminating IAC SE byte and exhaust JVM heap memory with an OutOfMemoryError. This issue is fixed in versions 3.30.14, 4.0.16, and 4.2.1.
- https://github.com/jline/jline3/commit/0389f0ee6d0375901b602671ad5dafd4d1d4ee09
- https://github.com/jline/jline3/commit/4ee3a73849ffb9a85ec748e4e8cd8f6d81f84f40
- https://github.com/jline/jline3/commit/934f09e6128cee33c2b13d42b6e859c1ee2d194b
- https://github.com/jline/jline3/pull/2000
- https://github.com/jline/jline3/pull/2001
- https://github.com/jline/jline3/releases/tag/4.0.16
- https://github.com/jline/jline3/releases/tag/4.2.1
- https://github.com/jline/jline3/releases/tag/jline-3.30.14
- https://github.com/jline/jline3/security/advisories/GHSA-47qp-hqvx-6r3f
Exposure of private personal information to an unauthorized actor in Windows RDP allows an unauthorized attacker to disclose information over a network.
Feathersjs is a framework for creating web APIs and real-time applications with TypeScript or JavaScript. In 5.0.44 and earlier, the _.merge(target, source) utility exported by @feathersjs/commons recursively merges source into target by iterating Object.keys(source). When source was produced by JSON.parse and contains a __proto__, constructor, or prototype key, that key is returned as an own-enumerable property; the recursive merge then resolves target['__proto__'] to Object.prototype and writes attacker-supplied properties onto it, polluting the prototype for all plain objects in the process for the lifetime of the Node process. This issue is fixed in version 5.0.45.