Snapdragon 660 Mobile Firmware
Monthly
Memory Corruption while deallocating graphics processing unit memory buffers due to improper handling of memory pointers. [CVSS 7.8 HIGH]
Memory corruption whhile handling the subsystem failure memory during the parsing of video packets received from the video firmware.
Memory corruption while processing manipulated payload in video firmware.
Memory corruption while processing video packets received from video firmware.
Transient DOS while processing received beacon frame.
Transient DOS may occur while processing malformed length field in SSID IEs.
Information disclosure while decoding this RTP packet Payload when UE receives the RTP packet from the network.
Memory corruption while reading the FW response from the shared queue. Rated high severity (CVSS 7.8), this vulnerability is low attack complexity. This Out-of-bounds Write vulnerability could allow attackers to write data beyond allocated buffer boundaries leading to code execution or crashes.
Memory corruption while processing a data structure, when an iterator is accessed after it has been removed, potential failures occur. Rated high severity (CVSS 7.8), this vulnerability is low attack complexity. This Use After Free vulnerability could allow attackers to access freed memory to execute arbitrary code or crash the application.
Memory corruption while maintaining memory maps of HLOS memory. Rated high severity (CVSS 7.8), this vulnerability is low attack complexity. This Use After Free vulnerability could allow attackers to access freed memory to execute arbitrary code or crash the application.
Memory corruption when two threads try to map and unmap a single node simultaneously. Rated high severity (CVSS 7.8), this vulnerability is low attack complexity. This Use After Free vulnerability could allow attackers to access freed memory to execute arbitrary code or crash the application.
Memory corruption when user provides data for FM HCI command control operations. Rated high severity (CVSS 7.8), this vulnerability is low attack complexity. This Buffer Copy without Size Check vulnerability could allow attackers to overflow a buffer to corrupt adjacent memory.
Memory corruption when the payload received from firmware is not as per the expected protocol size. Rated high severity (CVSS 7.8), this vulnerability is low attack complexity.
Memory corruption when IOMMU unmap of a GPU buffer fails in Linux. Rated high severity (CVSS 7.8), this vulnerability is low attack complexity. This Use After Free vulnerability could allow attackers to access freed memory to execute arbitrary code or crash the application.
Memory corruption when there is failed unmap operation in GPU. Rated high severity (CVSS 7.8), this vulnerability is low attack complexity. This Use After Free vulnerability could allow attackers to access freed memory to execute arbitrary code or crash the application.
Memory Corruption while deallocating graphics processing unit memory buffers due to improper handling of memory pointers. [CVSS 7.8 HIGH]
Memory corruption whhile handling the subsystem failure memory during the parsing of video packets received from the video firmware.
Memory corruption while processing manipulated payload in video firmware.
Memory corruption while processing video packets received from video firmware.
Transient DOS while processing received beacon frame.
Transient DOS may occur while processing malformed length field in SSID IEs.
Information disclosure while decoding this RTP packet Payload when UE receives the RTP packet from the network.
Memory corruption while reading the FW response from the shared queue. Rated high severity (CVSS 7.8), this vulnerability is low attack complexity. This Out-of-bounds Write vulnerability could allow attackers to write data beyond allocated buffer boundaries leading to code execution or crashes.
Memory corruption while processing a data structure, when an iterator is accessed after it has been removed, potential failures occur. Rated high severity (CVSS 7.8), this vulnerability is low attack complexity. This Use After Free vulnerability could allow attackers to access freed memory to execute arbitrary code or crash the application.
Memory corruption while maintaining memory maps of HLOS memory. Rated high severity (CVSS 7.8), this vulnerability is low attack complexity. This Use After Free vulnerability could allow attackers to access freed memory to execute arbitrary code or crash the application.
Memory corruption when two threads try to map and unmap a single node simultaneously. Rated high severity (CVSS 7.8), this vulnerability is low attack complexity. This Use After Free vulnerability could allow attackers to access freed memory to execute arbitrary code or crash the application.
Memory corruption when user provides data for FM HCI command control operations. Rated high severity (CVSS 7.8), this vulnerability is low attack complexity. This Buffer Copy without Size Check vulnerability could allow attackers to overflow a buffer to corrupt adjacent memory.
Memory corruption when the payload received from firmware is not as per the expected protocol size. Rated high severity (CVSS 7.8), this vulnerability is low attack complexity.
Memory corruption when IOMMU unmap of a GPU buffer fails in Linux. Rated high severity (CVSS 7.8), this vulnerability is low attack complexity. This Use After Free vulnerability could allow attackers to access freed memory to execute arbitrary code or crash the application.
Memory corruption when there is failed unmap operation in GPU. Rated high severity (CVSS 7.8), this vulnerability is low attack complexity. This Use After Free vulnerability could allow attackers to access freed memory to execute arbitrary code or crash the application.