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Denis 'GNUtoo' Carikli, 02/09/2018 03:34 PM
Google Summer of Code 2018¶
- Table of contents
- Google Summer of Code 2018
- U-Boot and Linux mainline related tasks and ports
- Access Point mode for RepWifi
- Port Replicant to a newer LineageOS version and support in-system updates
- Implement the missing features of Samsung-RIL
- Debug metallic sound in many 3G calls
- Implement a fully-featured QMI-RIL
- Optimize power consumption in external WiFi adapter firmware
- Tackle security issues in Replicant
- Fix the Free software distribution guidelines issues and improve the build system.
- Projects mentored by other organizations
Replicant intends to apply to GSoC 2018 as part of the FSF umbrella. This page lists suggested projects for GSoC students. This list is a draft!
Note: Working on most of these projects requires a sufficiently powerful computer with enough disk space to build Replicant.
U-Boot and Linux mainline related tasks and ports¶
Advance the Optimus Black U-Boot and Linux mainline ports¶
The Optimus Black from LG is an interesting device from the perspective of freedom and privacy/security. It has the ability to run a free bootloader and uses an OMAP3 SoC that is well-documented and supported in upstream U-Boot (bootloader) and Linux (kernel). Its modem is well-isolated from the rest of the device, ensuring a sane base for privacy/security. Currently, the device-specific parts of the mainline U-Boot and Linux ports are still at an early stage, where they are functional with a very limited set of supported hardware.
Advancing the Optimus Black U-Boot and Linux mainline ports would allow using the device with free, up-to-date and maintainable software and would pave the way for support in GNU/Linux systems as well as Replicant. A list of priorities in hardware support will be defined, with the objective of tackling as many as possible.
Difficulty: Medium
Requirements/Prerequisites: C programming language, driver development
Expected Outcomes/Deliverables: Improved hardware support for the Optimus Black in U-Boot and Linux
Possible Mentors: Paul (confirmed), GNUtoo (confirmed, backup)
Port the Galaxy S3 and Galaxy Note 2 to Mainline Linux¶
The Galaxy S3 and Galaxy Note 2 currently use a vendor fork of Linux, which poses a maintainability and security issue. Forkbomb has done some initial work on porting these devices to use mainline Linux. You can help by continuing this work. This would also enable theses devices to use generic hardware abstraction layers (HAL) when abstractions layers are ready, and to do some research on whether the TrustZone operating system can be removed of such devices.
Difficulty: Medium to Hard
Requirements/Prerequisites: Knowledge of C
Expected Outcomes/Deliverables: Audio working, modem working, and Replicant or LineageOS booting with mainline Linux.
Possible Mentors: Forkbomb (confirmed), GNUtoo (confirmed)
Advance the Kindle Fire (first generation) U-Boot and Linux mainline ports¶
The Kindle Fire (first generation) from Amazon is an interesting device from the perspective of freedom and privacy/security. It has the ability to run a free bootloader and uses an OMAP4 SoC that is well-documented and supported in upstream U-Boot (bootloader) and Linux (kernel). It does not embed a modem, ensuring a sane base for privacy/security. Currently, the device-specific parts of the mainline U-Boot and Linux ports are still at an early stage, where they are functional with a very limited set of supported hardware.
Advancing the Kindle Fire (first generation) U-Boot and Linux mainline ports would allow using the device with free, up-to-date and maintainable software and would pave the way for support in GNU/Linux systems as well as Replicant. A list of priorities in hardware support will be defined, with the objective of tackling as many as possible.
Difficulty: Medium
Requirements/Prerequisites: C programming language, driver development
Expected Outcomes/Deliverables: Improved hardware support for the Kindle Fire (first generation) in U-Boot and Linux
Possible Mentors: Paul (confirmed), GNUtoo (confirmed, backup)
Implementing generic Hardware Abstraction Layers (HALs)¶
Currently, Replicant uses a dedicated Hardware Abstraction Layer per device, because device manufacturers implemented non-standard kernel interfaces. However, Android works with mainline kernels and supports plug-n-play hardware nowadays, so it makes sense to have generic Hardware Abstraction Layers for the standard interfaces of the Linux kernel (ALSA, V4L2, etc). In particular, this would allow supporting external Wi-Fi dongles such as the ones supported by the ath9k_htc driver and free firmwares without the need for a specific application or configuration.
Difficulty: Medium
Requirements/Prerequisites: C programming language, kernel interfaces knowledge
Expected Outcomes/Deliverables: A collection of generic HALs for Android and Replicant
Possible Mentors: Forkbomb (confirmed), Paul (confirmed, backup), GNUtoo (confirmed)
Access Point mode for RepWifi¶
RepWifi is Replicant's app for using an external USB WiFi adapter. RepWifi is useful for Replicant because there exist USB WiFi adapters with free firmware, while the built-in WiFi chipsets in mobile phones do not have free firmware. Right now, RepWifi doesn't support acting as an access point (e.g. for WiFi tethering purposes); you can help by adding this functionality to RepWifi.
Note that, if we receive high-quality student proposals for both this project and Implementing generic Hardware Abstraction Layers (HALs), we will probably prioritize Implementing generic Hardware Abstraction Layers (HALs) over this project.
Difficulty: Easy to Medium
Requirements/Prerequisites: Knowledge of Java and basic shell scripting. Basic knowledge about wpa_supplicant and general network management in POSIX environments.
Required knowledge builds up very fast by trial and error, no need to be experts in networking, it's mostly about researching and learning.
Expected Outcomes/Deliverables: Make wpa_supplicant run in "Access Point mode", allowing another device to connect to the phone via WiFi, and use its mobile data connection to access the internet. Integrate the needed GUI functions into RepWifi.
Possible Mentors: Fil (confirmed)
Port Replicant to a newer LineageOS version and support in-system updates¶
Replicant is currently based on LineageOS 13. It would be desirable to upgrade Replicant to a newer release of LineageOS. While at it, it would be useful for a Replicant device to be able to update itself to a new version of Replicant without requiring being connected to a PC. LineageOS already supports this; we suspect that it should be possible to adapt this LineageOS functionality to Replicant. Whenever possible, it would be useful to complete and submit some of the code written for Replicant to LineageOS.
Difficulty: Medium
Requirements/Prerequisites: Knowledge of C, C++, and Java.
Expected Outcomes/Deliverables: Remove all proprietary components of LineageOS, port all the changes needed to successfully boot without any blobs, rebrand LineageOS as Replicant and support in-system updates
Possible Mentors: Forkbomb (confirmed), Wolfgang?
Implement the missing features of Samsung-RIL¶
Samsung-RIL is the RIL (Radio Interface Layer) that many Replicant devices use to communicate with the modem. It is a free, reverse-engineered replacement for the proprietary RIL that the Samsung phones ship with by default (which has been found to have backdoors). Right now, Samsung-RIL mostly implements only the protocol features that are absolutely necessary for the phone to be operable. As a result, many more rarely used protocol features are unimplemented, which decreases functionality compared to the proprietary RIL. You can help by implementing the missing features of Samsung-RIL. It would also be nice to fix most the reported bugs involving samsung-ril and libsamsung-ipc that are impacting users very seriously. This includes the bugs about the SIM card not being detected, and the issue #1773. It would also be nice to be able to recover from EFS (the modem filesystem) corruptions (Bug #1869).
Difficulty: Medium to Hard
Requirements/Prerequisites: Knowledge of C.
Expected Outcomes/Deliverables: Implement the missing features listed at Samsung-RIL.
Possible Mentors: Forkbomb (confirmed), Wolfgang?
Debug metallic sound in many 3G calls¶
We're folding this one into Samsung-RIL as an optional component or stretch goal.
Replicant has been observed to sometimes exhibit a metallic sound quality when doing voice calls over 3G (2G works fine). This is problematic, since most users prefer to stay in 3G mode (and some carriers are dropping support for 2G). You can help by debugging the issue.
Difficulty: TODO
Requirements/Prerequisites: TODO
Expected Outcomes/Deliverables: TODO
Possible Mentors: GNUtoo (confirmed)
Implement a fully-featured QMI-RIL¶
The LTE variants of the Samsung Galaxy S3 and Samsung Galaxy Note 2 use a different modem from the non-LTE variants that Replicant currently supports. You can help Replicant support those modems by implementing a QMI-RIL, which performs a similar role on the LTE variants as what Samsung-RIL performs on the currently-supported non-LTE variants. Wolfgang has done some preliminary work on this, so you'll probably be picking up where he left off.
Difficulty: Hard
Requirements/Prerequisites: Knowledge of C.
Expected Outcomes/Deliverables: A QMI-RIL that supports voice calls, SMS, and data, with as complete a protocol implementation as possible.
Possible Mentors: Forkbomb (confirmed), Wolfgang?
Optimize power consumption in external WiFi adapter firmware¶
The USB WiFi adapters used with Replicant are originally intended for laptops, not phones. As a result, they tend to consume a lot of power. This poses two issues: they can adversely impact battery life, and they can randomly stop working completely (e.g. needing to unplug and replug the adapter periodically to keep it operational). You can help by optimizing power consumption in the WiFi adapter firmware.
Difficulty: TODO
Requirements/Prerequisites: TODO
Expected Outcomes/Deliverables: TODO
Possible Mentors: GNUtoo (confirmed)
Tackle security issues in Replicant¶
Replicant is plagued by various security issues, that are mostly due to using a downstream codebase. One of the most crucial issues is that Replicant uses an old version of the Android WebView (from circa 2015), which is also a functionality drawback.
An initial evaluation of the security issues in Replicant should be conducted, followed by the integration or update of the concerned components of the system.
Difficulty: Medium-Hard
Requirements/Prerequisites: Android build system, knowledge of system security, advanced git
Expected Outcomes/Deliverables: Integration or update of components of Replicant to tackle security issues
Possible Mentors: Wolfgang?
Fix the Free software distribution guidelines issues and improve the build system.¶
Replicant has some issues with FSDG compliance: F-droid repository is not FSDG compliant anymore, and Replicant can't be built from an FSDG distribution. Replicant should also not depends on pre-built dependencies anymore and build without issues. It would also be nice to document which FSDG compliant F-droid applications crash because Replicant's incomplete EGL implementation (#705) and tag such applications as incompatible (so they are greyed out) until the EGL implemetation is fixed.
Difficulty: Easy
Requirements/Prerequisites: Knowledge of shell scripts and the ability to learn the Android build system
Expected Outcomes/Deliverables: The ability to compile Replicant from an FSDG distribution, F-droid only showing FSDG compliant software.
Possible Mentors: GNUtoo (confirmed)
Projects mentored by other organizations¶
llvmpipe ARM optimizations¶
Project description: Replicant's EGL is implementation is incomplete (This has many consequences: #705). The goal is to make llvmpipe usable under Replicant and replace the incomplete EGL implemetation with that. The advantage of this solution over other solutions is that it is supposed to work on all Replicant supported devices and is also used within GNU/Linux.
See also the wiki page about llvmpipe for more details about the issue
Difficulty: TODO
Requirements/Prerequisites: TODO
Expected Outcomes/Deliverables: Working EGL implementation, fast enough graphics, F-droid applications not crashing anymore because of EGL.
Mesa would probably be a good organization for mentoring this project. If interested in working on this project, please propose it to Mesa. (We're happy to help.)
Updated by Denis 'GNUtoo' Carikli almost 7 years ago · 59 revisions