{"vulnerability": "CVE-2020-2748", "sightings": [{"uuid": "ea869203-ae24-4ece-b4be-8d3a8c2ceeaf", "vulnerability_lookup_origin": "1a89b78e-f703-45f3-bb86-59eb712668bd", "author": "9f56dd64-161d-43a6-b9c3-555944290a09", "vulnerability": "CVE-2020-27481", "type": "seen", "source": "https://bsky.app/profile/beikokucyber.bsky.social/post/3likodqfchp25", "content": "", "creation_timestamp": "2025-02-19T21:02:34.186010Z"}, {"uuid": "75da6932-e264-46e0-9c20-df212175941c", "vulnerability_lookup_origin": "1a89b78e-f703-45f3-bb86-59eb712668bd", "author": "9f56dd64-161d-43a6-b9c3-555944290a09", "vulnerability": "CVE-2020-2748", "type": "seen", "source": "https://t.me/arpsyndicate/713", "content": "#ExploitObserverAlert\n\nCVE-2020-2748\n\nDESCRIPTION: Exploit Observer has 4 entries related to CVE-2020-2748. Vulnerability in the Oracle VM VirtualBox product of Oracle Virtualization (component: Core). Supported versions that are affected are Prior to 5.2.40, prior to 6.0.20 and prior to 6.1.6. Easily exploitable vulnerability allows high privileged attacker with logon to the infrastructure where Oracle VM VirtualBox executes to compromise Oracle VM VirtualBox. While the vulnerability is in Oracle VM VirtualBox, attacks may significantly impact additional products. Successful attacks of this vulnerability can result in unauthorized read access to a subset of Oracle VM VirtualBox accessible data. CVSS 3.0 Base Score 3.2 (Confidentiality impacts). CVSS Vector: (CVSS:3.0/AV:L/AC:L/PR:H/UI:N/S:C/C:L/I:N/A:N).\n\nFIRST-EPSS: 0.000430000\nNVD-IS: 1.4\nNVD-ES: 1.5", "creation_timestamp": "2023-11-29T09:59:20.000000Z"}, {"uuid": "a0792ac3-70a0-403e-ac24-cac600e666b4", "vulnerability_lookup_origin": "1a89b78e-f703-45f3-bb86-59eb712668bd", "author": "9f56dd64-161d-43a6-b9c3-555944290a09", "vulnerability": "CVE-2020-27484", "type": "seen", "source": "https://t.me/cibsecurity/16411", "content": "\u203c CVE-2020-27484 \u203c\n\nGarmin Forerunner 235 before 8.20 is affected by: Integer Overflow. The component is: ConnectIQ TVM. The attack vector is: To exploit the vulnerability, the attacker must upload a malicious ConnectIQ application to the ConnectIQ store. The ConnectIQ program interpreter fails to check for overflow when allocating the array for the NEWA instruction. This a constrained read/write primitive across the entire MAX32630 address space. A successful exploit would allow a ConnectIQ app store application to escape and perform activities outside the restricted application execution environment.\n\n\ud83d\udcd6 Read\n\nvia \"National Vulnerability Database\".", "creation_timestamp": "2020-11-17T00:44:06.000000Z"}, {"uuid": "ba8e9057-6262-4f59-b53d-de9bb9284214", "vulnerability_lookup_origin": "1a89b78e-f703-45f3-bb86-59eb712668bd", "author": "9f56dd64-161d-43a6-b9c3-555944290a09", "vulnerability": "CVE-2020-27486", "type": "seen", "source": "https://t.me/cibsecurity/16412", "content": "\u203c CVE-2020-27486 \u203c\n\nGarmin Forerunner 235 before 8.20 is affected by: Buffer Overflow. The component is: ConnectIQ TVM. The attack vector is: To exploit the vulnerability, the attacker must upload a malicious ConnectIQ application to the ConnectIQ store. The ConnectIQ program interpreter trusts the string length provided in the data section of the PRG file. It allocates memory for the string immediately, and then copies the string into the TVM object by using a function similar to strcpy. This copy can exceed the length of the allocated string data and overwrite heap data. A successful exploit would allow a ConnectIQ app store application to escape and perform activities outside the restricted application execution environment.\n\n\ud83d\udcd6 Read\n\nvia \"National Vulnerability Database\".", "creation_timestamp": "2020-11-17T00:44:07.000000Z"}, {"uuid": "19deadd5-ab71-4b8b-9791-0b424793fea0", "vulnerability_lookup_origin": "1a89b78e-f703-45f3-bb86-59eb712668bd", "author": "9f56dd64-161d-43a6-b9c3-555944290a09", "vulnerability": "CVE-2020-27481", "type": "seen", "source": "https://t.me/cibsecurity/16209", "content": "\u203c CVE-2020-27481 \u203c\n\nAn unauthenticated SQL Injection vulnerability in Good Layers LMS Plugin <= 2.1.4 exists due to the usage of \"wp_ajax_nopriv\" call in WordPress, which allows any unauthenticated user to get access to the function \"gdlr_lms_cancel_booking\" where POST Parameter \"id\" was sent straight into SQL query without sanitization.\n\n\ud83d\udcd6 Read\n\nvia \"National Vulnerability Database\".", "creation_timestamp": "2020-11-12T16:31:42.000000Z"}, {"uuid": "536f0fcd-2fc6-465f-9954-3c68dbfae828", "vulnerability_lookup_origin": "1a89b78e-f703-45f3-bb86-59eb712668bd", "author": "9f56dd64-161d-43a6-b9c3-555944290a09", "vulnerability": "CVE-2020-27483", "type": "seen", "source": "https://t.me/cibsecurity/16407", "content": "\u203c CVE-2020-27483 \u203c\n\nGarmin Forerunner 235 before 8.20 is affected by: Array index error. The component is: ConnectIQ TVM. The attack vector is: To exploit the vulnerability, the attacker must upload a malicious ConnectIQ application to the ConnectIQ store. The ConnectIQ program interpreter trusts the offset provided for the stack value duplication instruction, DUP. The offset is unchecked and memory prior to the start of the execution stack can be read and treated as a TVM object. A successful exploit could use the vulnerability to leak runtime information such as the heap handle or pointer for a number of TVM context variables. Some reachable values may be controlled enough to forge a TVM object on the stack, leading to possible remote code execution.\n\n\ud83d\udcd6 Read\n\nvia \"National Vulnerability Database\".", "creation_timestamp": "2020-11-17T00:44:02.000000Z"}, {"uuid": "9f02b2d8-72d1-4fc0-855b-004ff638c1b5", "vulnerability_lookup_origin": "1a89b78e-f703-45f3-bb86-59eb712668bd", "author": "9f56dd64-161d-43a6-b9c3-555944290a09", "vulnerability": "CVE-2020-27485", "type": "seen", "source": "https://t.me/cibsecurity/16408", "content": "\u203c CVE-2020-27485 \u203c\n\nGarmin Forerunner 235 before 8.20 is affected by: Array index error. The component is: ConnectIQ TVM. The attack vector is: To exploit the vulnerability, the attacker must upload a malicious ConnectIQ application to the ConnectIQ store. The ConnectIQ program interpreter fails to check the index provided when accessing the local variable in the LGETV and LPUTV instructions. This provides the ability to both read and write memory outside the bounds of the TVM context allocation. It can be leveraged to construct a use-after-free scenario, leading to a constrained read/write primitive across the entire MAX32630 address space. A successful exploit would allow a ConnectIQ app store application to escape and perform activities outside the restricted application execution environment.\n\n\ud83d\udcd6 Read\n\nvia \"National Vulnerability Database\".", "creation_timestamp": "2020-11-17T00:44:03.000000Z"}]}