Difference between revisions of "Generic upgrade infrastructure for embedded systems"

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Line 19: Line 19:
 
The infrastructure will allow an embedded system to have one backup
 
The infrastructure will allow an embedded system to have one backup
 
firmware, and one or two main firmware partitions. When a new firmware
 
firmware, and one or two main firmware partitions. When a new firmware
is downloaded and written as a main firmware, the upgrade system makes
+
is downloaded and written as a main firmware, the upgrade system makes sure
sure
+
the device can boot. If the upgrade fails due to power, file corruption or
the device can boot. If the upgrade fails due to power, file corruption
+
other factors, the system recovers by booting the previous firmware or a
or
 
other factors, the system recovers by booting the previous firmware or
 
a
 
 
failsafe firmware to retry upgrading.
 
failsafe firmware to retry upgrading.
  
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* CGI based project repository:
 
* CGI based project repository:
 
https://gitorious.org/embedded-linux-firmware-upgrade-tool
 
https://gitorious.org/embedded-linux-firmware-upgrade-tool
 +
 +
* Linupdate + barebox
 +
** Jean-Christophe PLAGNIOL-VILLARD says that he and others are currently working on a similar project with a full c application under GPLv2 called linupdate + barebox.  It is intended to will support secure boot platforms such as STB
  
 
== Scope ==
 
== Scope ==

Revision as of 14:19, 17 September 2013

Generic upgrade infrastructure for embedded systems.

Summary
Generic upgrade infrastructure for embedded systems.
Proposer
Atilla Filiz, Arnout Vandecappelle

Description

Experience as an embedded software contractor shows that most clients need a means to upgrade their devices in the field. Often these solutions are ad-hoc, and need to be redone for each project, although requirements are similar.

A collection of scripts and permissively licensed source code will help device manufacturers to rapidly and safely implement a secure, fail-safe, atomic upgrade system for their devices.

The infrastructure will allow an embedded system to have one backup firmware, and one or two main firmware partitions. When a new firmware is downloaded and written as a main firmware, the upgrade system makes sure the device can boot. If the upgrade fails due to power, file corruption or other factors, the system recovers by booting the previous firmware or a failsafe firmware to retry upgrading.

Having this feature will prevent reinventing the wheel for each new product when it comes to upgrading.

Related work

  • FOSDEM/ELC-E Presentation:

http://mind.be/content/Presentation_Upgrade-without-Bricking.pdf

  • Generic project repository with detailed documentation:

https://gitorious.org/gupies

  • CGI based project repository:

https://gitorious.org/embedded-linux-firmware-upgrade-tool

  • Linupdate + barebox
    • Jean-Christophe PLAGNIOL-VILLARD says that he and others are currently working on a similar project with a full c application under GPLv2 called linupdate + barebox. It is intended to will support secure boot platforms such as STB

Scope

A basic system can be implemented and unit tested in six person-weeks. This includes support for a single bootloader (U-Boot), for overwriting an MTD partition and a UBI volume. This also includes a wire format for the upgrade image and documentation for the platform-specific part, needed per project. Additional partition types (e.g. mbr) or bootloaders (e.g. barebox) require additional effort.

Contractor Candidates

Arnout Vandecappelle (Essensium/Mind)

Comments