Difference between revisions of "SAM E70/S70/V70/V71"
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| − | This series of chips can be voltage glitched upon power-up | + | This series of chips can be voltage glitched upon power-up where a couple of large current fluctuations are seen on the VDDCORE power rail. |
[[File:Atmel SAM E70 Power-On Trace.png|thumb|SAM E70 Startup (Power-On) trace]] | [[File:Atmel SAM E70 Power-On Trace.png|thumb|SAM E70 Startup (Power-On) trace]] | ||
Details are provided in a write-up by [https://www.0x01team.com/hw_security/bypassing-microchip-atmel-sam-e70-s70-v70-v71-security/ 0x01 Team] and received a [https://www.cve.org/cverecord?id=CVE-2024-4760 CVE]. | Details are provided in a write-up by [https://www.0x01team.com/hw_security/bypassing-microchip-atmel-sam-e70-s70-v70-v71-security/ 0x01 Team] and received a [https://www.cve.org/cverecord?id=CVE-2024-4760 CVE]. | ||
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| + | Scope image shows blue 3.3V power trace going high as power is applied to the processor. The red VDDCORE (1.2V) trace shows two distinct fluctuations. | ||
Revision as of 11:39, 1 April 2025
This series of chips can be voltage glitched upon power-up where a couple of large current fluctuations are seen on the VDDCORE power rail.
Details are provided in a write-up by 0x01 Team and received a CVE.
Scope image shows blue 3.3V power trace going high as power is applied to the processor. The red VDDCORE (1.2V) trace shows two distinct fluctuations.
