Vulnerabilities (CVE)

Filtered by vendor Dronecode Subscribe
Total 9 CVE
CVE Vendors Products Updated CVSS v2 CVSS v3
CVE-2024-24255 1 Dronecode 1 Px4 Drone Autopilot 2024-11-21 N/A 4.2 MEDIUM
A Race Condition discovered in geofence.cpp and mission_feasibility_checker.cpp in PX4 Autopilot 1.14 and earlier allows attackers to send drones on unintended missions.
CVE-2024-24254 1 Dronecode 1 Px4 Drone Autopilot 2024-11-21 N/A 4.2 MEDIUM
PX4 Autopilot 1.14 and earlier, due to the lack of synchronization mechanism for loading geofence data, has a Race Condition vulnerability in the geofence.cpp and mission_feasibility_checker.cpp. This will result in the drone uploading overlapping geofences and mission routes.
CVE-2023-47625 1 Dronecode 1 Px4 Drone Autopilot 2024-11-21 N/A 2.9 LOW
PX4 autopilot is a flight control solution for drones. In affected versions a global buffer overflow vulnerability exists in the CrsfParser_TryParseCrsfPacket function in /src/drivers/rc/crsf_rc/CrsfParser.cpp:298 due to the invalid size check. A malicious user may create an RC packet remotely and that packet goes into the device where the _rcs_buf reads. The global buffer overflow vulnerability will be triggered and the drone can behave unexpectedly. This issue has been addressed in version 1.14.0. Users are advised to upgrade. There are no known workarounds for this vulnerability.
CVE-2023-46256 1 Dronecode 1 Px4 Drone Autopilot 2024-11-21 N/A 4.4 MEDIUM
PX4-Autopilot provides PX4 flight control solution for drones. In versions 1.14.0-rc1 and prior, PX4-Autopilot has a heap buffer overflow vulnerability in the parser function due to the absence of `parserbuf_index` value checking. A malfunction of the sensor device can cause a heap buffer overflow with leading unexpected drone behavior. Malicious applications can exploit the vulnerability even if device sensor malfunction does not occur. Up to the maximum value of an `unsigned int`, bytes sized data can be written to the heap memory area. As of time of publication, no fixed version is available.
CVE-2021-46896 1 Dronecode 1 Px4 Drone Autopilot 2024-11-21 N/A 7.5 HIGH
Buffer Overflow vulnerability in PX4-Autopilot allows attackers to cause a denial of service via handler function handling msgid 332.
CVE-2021-34125 2 Dronecode, Yuneec 3 Px4 Drone Autopilot, Mantis Q, Mantis Q Firmware 2024-11-21 N/A 7.5 HIGH
An issue discovered in Yuneec Mantis Q and PX4-Autopilot v 1.11.3 and below allow attacker to gain access to sensitive information via various nuttx commands.
CVE-2020-10283 1 Dronecode 1 Micro Air Vehicle Link 2024-11-21 7.5 HIGH 9.8 CRITICAL
The Micro Air Vehicle Link (MAVLink) protocol presents authentication mechanisms on its version 2.0 however according to its documentation, in order to maintain backwards compatibility, GCS and autopilot negotiate the version via the AUTOPILOT_VERSION message. Since this negotiation depends on the answer, an attacker may craft packages in a way that hints the autopilot to adopt version 1.0 of MAVLink for the communication. Given the lack of authentication capabilities in such version of MAVLink (refer to CVE-2020-10282), attackers may use this method to bypass authentication capabilities and interact with the autopilot directly.
CVE-2020-10282 1 Dronecode 1 Micro Air Vehicle Link 2024-11-21 7.5 HIGH 9.8 CRITICAL
The Micro Air Vehicle Link (MAVLink) protocol presents no authentication mechanism on its version 1.0 (nor authorization) whichs leads to a variety of attacks including identity spoofing, unauthorized access, PITM attacks and more. According to literature, version 2.0 optionally allows for package signing which mitigates this flaw. Another source mentions that MAVLink 2.0 only provides a simple authentication system based on HMAC. This implies that the flying system overall should add the same symmetric key into all devices of network. If not the case, this may cause a security issue, that if one of the devices and its symmetric key are compromised, the whole authentication system is not reliable.
CVE-2020-10281 1 Dronecode 1 Micro Air Vehicle Link 2024-11-21 5.0 MEDIUM 7.5 HIGH
This vulnerability applies to the Micro Air Vehicle Link (MAVLink) protocol and allows a remote attacker to gain access to sensitive information provided it has access to the communication medium. MAVLink is a header-based protocol that does not perform encryption to improve transfer (and reception speed) and efficiency by design. The increasing popularity of the protocol (used accross different autopilots) has led to its use in wired and wireless mediums through insecure communication channels exposing sensitive information to a remote attacker with ability to intercept network traffic.