1779 matches found
CVE-2017-7305
Riverbed RiOS through 9.6.0 does not require a bootloader password, which makes it easier for physically proximate attackers to defeat the secure-vault protection mechanism via a crafted boot. NOTE: the vendor believes that this does not meet the definition of a vulnerability. The product contain...
PT-2017-17651 · Riverbed · Riverbed Rios
Name of the Vulnerable Software and Affected Versions: Riverbed RiOS versions prior to 9.6.1 Description: The issue allows physically proximate attackers to defeat the secure-vault protection mechanism via a crafted boot because a bootloader password is not required. The product contains correct...
Command injection
An issue was discovered in OxygenOS before 4.1.0 on OnePlus 3 and 3T devices. The attacker can change the bootmode of the device by issuing the 'fastboot oem bootmode rf/wlan/ftm/normal command' in contradiction to the threat model of Android where the bootloader MUST NOT allow any...
CVE-2017-5623
An issue was discovered in OxygenOS before 4.1.0 on OnePlus 3 and 3T devices. The attacker can change the bootmode of the device by issuing the 'fastboot oem bootmode rf/wlan/ftm/normal command' in contradiction to the threat model of Android where the bootloader MUST NOT allow any...
CVE-2017-5623
An issue was discovered in OxygenOS before 4.1.0 on OnePlus 3 and 3T devices. The attacker can change the bootmode of the device by issuing the 'fastboot oem bootmode rf/wlan/ftm/normal command' in contradiction to the threat model of Android where the bootloader MUST NOT allow any...
CVE-2017-5623
An issue was discovered in OxygenOS before 4.1.0 on OnePlus 3 and 3T devices. The attacker can change the bootmode of the device by issuing the 'fastboot oem bootmode rf/wlan/ftm/normal command' in contradiction to the threat model of Android where the bootloader MUST NOT allow any...
OxygenOS Code Execution Vulnerability
The OnePlus 3 and 3T are both smartphones from China's OnePlus Technology OnePlus.OxygenOS is the operating system it comes with. A code execution vulnerability exists in OxygenOS versions prior to 4.0.2. On the OnePlus 3 and 3T, two hidden fastbootoem commands 4F500301 and 4F500302 allow an...
Design/Logic Flaw
OxygenOS before version 4.0.2, on OnePlus 3 and 3T, has two hidden fastboot oem commands 4F500301 and 4F500302 that allow the attacker to lock/unlock the bootloader, disregarding the 'OEM Unlocking' checkbox, without user confirmation and without a factory reset. This allows for persistent code...
CVE-2017-5624
An issue was discovered in OxygenOS before 4.0.3 for OnePlus 3 and 3T. The attacker can persistently make the locked bootloader start the platform with dm-verity disabled, by issuing the 'fastboot oem disabledmverity' command. Having dm-verity disabled, the kernel will not verify the system...
CVE-2017-5624
An issue was discovered in OxygenOS before 4.0.3 for OnePlus 3 and 3T. The attacker can persistently make the locked bootloader start the platform with dm-verity disabled, by issuing the 'fastboot oem disabledmverity' command. Having dm-verity disabled, the kernel will not verify the system...
CVE-2017-5626
OxygenOS before version 4.0.2, on OnePlus 3 and 3T, has two hidden fastboot oem commands 4F500301 and 4F500302 that allow the attacker to lock/unlock the bootloader, disregarding the 'OEM Unlocking' checkbox, without user confirmation and without a factory reset. This allows for persistent code...
CVE-2017-5626
CVE-2017-5626 affects OnePlus OnePlus 3/3T with OxygenOS before 4.0.2. The vulnerability hinges on two hidden fastboot oem commands (4F500301 and 4F500302) that bypass the bootloader lock, ignore OEM Unlocking, and do not require user confirmation or data erasure. Exploitation was demonstrated by...
CVE-2017-5626
OxygenOS before version 4.0.2, on OnePlus 3 and 3T, has two hidden fastboot oem commands 4F500301 and 4F500302 that allow the attacker to lock/unlock the bootloader, disregarding the 'OEM Unlocking' checkbox, without user confirmation and without a factory reset. This allows for persistent code...
Google Pixel Qualcomm Bootloader Information Disclosure Vulnerability (CNVD-2017-03822)
Android on Pixel and Pixel XL is a Linux-based open source operating system for the Pixel and Pixel XL smartphones developed by Google and the Open Handset Alliance OHA in the U.S. The Qualcomm bootloader is a U.S.-developed bootloader used in the Pixel and Pixel XL. Qualcomm bootloader is a...
UBUNTU-CVE-2017-0455
An information disclosure vulnerability in the Qualcomm bootloader could help to enable a local malicious application to to execute arbitrary code within the context of the bootloader. This issue is rated as High because it is a general bypass for a bootloader level defense in depth or exploit...
CVE-2017-0455
An information disclosure vulnerability in the Qualcomm bootloader could help to enable a local malicious application to to execute arbitrary code within the context of the bootloader. This issue is rated as High because it is a general bypass for a bootloader level defense in depth or exploit...
Information disclosure
An information disclosure vulnerability in the Qualcomm bootloader could help to enable a local malicious application to to execute arbitrary code within the context of the bootloader. This issue is rated as High because it is a general bypass for a bootloader level defense in depth or exploit...
CVE-2017-0455
An information disclosure vulnerability in the Qualcomm bootloader could help to enable a local malicious application to to execute arbitrary code within the context of the bootloader. This issue is rated as High because it is a general bypass for a bootloader level defense in depth or exploit...
CVE-2017-0455
An information disclosure vulnerability in the Qualcomm bootloader could help to enable a local malicious application to to execute arbitrary code within the context of the bootloader. This issue is rated as High because it is a general bypass for a bootloader level defense in depth or exploit...
CVE-2017-0455
An information disclosure vulnerability in the Qualcomm bootloader could help to enable a local malicious application to to execute arbitrary code within the context of the bootloader. This issue is rated as High because it is a general bypass for a bootloader level defense in depth or exploit...