CVE-2020-10850

An issue was discovered on Samsung mobile devices with O8.x, P9.0, and Q10.0 Exynos chipsets software. The secure bootloade has a buffer overflow of the USB buffer, leading to arbitrary code execution. The Samsung ID is SVE-2019-15872 January 2020...

EUVD-2020-5034

Malware in sbrugna...

EUVD-2020-3256

Malware in sbrugna...

EUVD-2024-30657

Malicious code in bioql PyPI...

CVE-2020-12746

An issue was discovered on Samsung mobile devices with O8.X, P9.0, and Q10.0 Exynos chipsets software. Attackers can bypass the Secure Bootloader protection mechanism via a heap-based buffer overflow to execute arbitrary code. The Samsung ID is SVE-2020-16712 May 2020...

CVE-2024-32883

MCUboot is a secure bootloader for 32-bits microcontrollers. MCUboot uses a TLV tag-length-value structure to represent the meta data associated with an image. The TLVs themselves are divided into two sections, a protected and an unprotected section. The protected TLV entries are included as part...

CVE-2024-32883

MCUboot is affected by an issue where unprotected TLV entries can be injected into a signed image, because the protected/unprotected TLV distinction is not enforced. This can allow an attacker to influence dependency indications or boot records, potentially causing a processed image to be rejecte...

Why the Raspberry Pi isn’t suitable for IoT

Let’s start by praising the Raspberry Pi: it has brought cheap computing to many, has inspired and enabled education and undoubtedly been a huge benefit. I use my own Pi daily, and we have often used its flexibility to perform hardware testing, from accessing UART to reading flash memory. So why ...

多款Qualcomm产品缓冲区错误漏洞

The Qualcomm Snapdragon SOC Snapdragon Processor is a chip from Qualcomm Incorporated that is used in mobile devices to process information. A buffer error vulnerability exists in various Qualcomm products. The vulnerability stems from the fact that a non-secure bootloader can unlock and modify...

[SECURITY] Fedora 33 Update: shim-unsigned-x64-15.4-5.fc33

Initial UEFI bootloader that handles chaining to a trusted full bootloader under secure boot environments...

Samsung Mobile Device Buffer Overflow Vulnerability (CNVD-2020-30170)

Android is a Linux-based open source operating system jointly developed by Google Inc. and the Open Handheld Alliance OHA for short. Samsung mobile devices suffer from a buffer overflow vulnerability that can be exploited by an attacker to bypass the Secure Bootloader protection mechanism via a...

CVE-2020-12746

An issue was discovered on Samsung mobile devices with O8.X, P9.0, and Q10.0 Exynos chipsets software. Attackers can bypass the Secure Bootloader protection mechanism via a heap-based buffer overflow to execute arbitrary code. The Samsung ID is SVE-2020-16712 May 2020...

CVE-2020-12746

An issue was discovered on Samsung mobile devices with O8.X, P9.0, and Q10.0 Exynos chipsets software. Attackers can bypass the Secure Bootloader protection mechanism via a heap-based buffer overflow to execute arbitrary code. The Samsung ID is SVE-2020-16712 May 2020...

Heap overflow

An issue was discovered on Samsung mobile devices with O8.X, P9.0, and Q10.0 Exynos chipsets software. Attackers can bypass the Secure Bootloader protection mechanism via a heap-based buffer overflow to execute arbitrary code. The Samsung ID is SVE-2020-16712 May 2020...

CVE-2020-12746

An issue was discovered on Samsung mobile devices with O8.X, P9.0, and Q10.0 Exynos chipsets software. Attackers can bypass the Secure Bootloader protection mechanism via a heap-based buffer overflow to execute arbitrary code. The Samsung ID is SVE-2020-16712 May 2020...

CVE-2020-10850

An issue was discovered on Samsung mobile devices with O8.x, P9.0, and Q10.0 Exynos chipsets software. The secure bootloade has a buffer overflow of the USB buffer, leading to arbitrary code execution. The Samsung ID is SVE-2019-15872 January 2020...

CVE-2020-10850

An issue was discovered on Samsung mobile devices with O8.x, P9.0, and Q10.0 Exynos chipsets software. The secure bootloade has a buffer overflow of the USB buffer, leading to arbitrary code execution. The Samsung ID is SVE-2019-15872 January 2020...

Buffer overflow

An issue was discovered on Samsung mobile devices with O8.x, P9.0, and Q10.0 Exynos chipsets software. The secure bootloade has a buffer overflow of the USB buffer, leading to arbitrary code execution. The Samsung ID is SVE-2019-15872 January 2020...

CVE-2020-10850

The CVE-2020-10850 entry describes a buffer overflow in the secure bootloader USB path on Samsung mobile devices with Exynos SoCs (Android O[8.x], P[9.0], Q[10.0]), enabling arbitrary code execution. The issue is tied to the secure bootloader’s handling of USB buffers (root cause: buffer overflow...