Should You Use GrapheneOS or CalyxOS?
GrapheneOS and CalyxOS are often compared as similar options for people looking for an alternative Android OS for their Pixel devices. Below are some of the reasons why we recommend GrapheneOS over CalyxOS.
Update Frequency
CalyxOS has a track record of being slower to apply security and feature updates to its OS and core applications than other custom Android operating systems. Timely security updates are one of the most important factors to consider when determining whether an OS is secure enough for regular use, which is a requirement for privacy.
In contrast to that, GrapheneOS manages to stay close to upstream and in some cases even deliver updates before the stock OS does.
As an example, GrapheneOS's first Android 12 release was in October 2021, whereas CalyxOS moved to Android 12 in January 2022.
Sandboxed Google Play vs Privileged microG
When Google Play Services are used on GrapheneOS, they are confined using the highly restrictive, default untrusted_app
SELinux domain. As a result, you have full control as to what these apps can access via permissions, just like any other app you install. Additionally, you can selectively choose which profile(s) to install the Sandboxed Google Play in.
microG is a partially open-source re-implementation of Google Play Services.1 On CalyxOS, it runs in the highly privileged system_app
SELinux domain like regular Google Play Services, and it uses signature spoofing to masquerade as Google Play Services. This is less secure than Sandboxed Google Play's approach, which does not need access to sensitive system APIs.
When using Sandboxed Google Play, you have the option to reroute location requests to the Play Services API back to the OS location API, which uses satellite based location services. With microG, you have the option to choose between different backend location providers, including shifting trust to another location backend, like Mozilla; using DejaVu, a location backend that locally collects and saves RF-based location data to an offline database which can be used when GPS is not available; or to simply not use a network location backend at all.
Network location providers like Play Services or Mozilla rely the on the MAC addresses of surrounding WiFi access points and Bluetooth devices being submitted for location approximation. Choosing a network location like Mozilla to use with microG provides little to no privacy benefit over Google because you are still submitting the same data and trusting them to not profile you.
Local RF location backends like DejaVu require that the phone has a working GPS first for the local RF data collected to be useful. This makes them less effective as location providers, as the job of a location provider is to assist location approximation when satellite based services are not working.
If your threat model requires protecting your location or the MAC addresses of nearby devices, rerouting location requests to the OS location API is probably the best option. The benefit brought by microG's custom location backend is minimal at best when compared to Sandboxed Google Play.
In terms of application compatibility, Sandboxed Google Play on GrapheneOS is always going to be more compatible as it is the same code as what is released by Google. microG is a reimplementation of these services. As a result, it only supports the various parts that have been reimplemented, meaning some things such as Google Play Games and In-app Billing API are not yet supported.
Larger apps, especially games, require Play Asset Delivery to be installed, which is currently not implemented in microG. Authentication using FIDO with online services on Android also relies on Play Services, and does not currently work with microG.
Privileged eSIM Activation Application
Currently, eSIM activation is tied to a privileged proprietary application by Google. The app has the READ_PRIVILEGED_PHONE_STATE
permission, giving Google access to your hardware identifiers such as the IMEI.
On GrapheneOS, the app comes disabled and you can optionally enable it after installing Sandboxed Google Play.
On CalyxOS, the app comes installed by default (regardless of whether you choose to have microG or not) and you cannot opt-out. This means that Google still has access to your hardware identifiers regardless of whether or not you need eSIM activation and they can be accessed persistently.
Privileged App Extensions
Android 12 comes with special support for seamless app updates with third-party app stores. The popular Free and Open-Source Software (FOSS) repository F-Droid doesn't implement this feature and requires a privileged extension to be included with the Android distribution in order to have unattended app updates.
CalyxOS includes the privileged extension, which may lower device security.
On the other hand, GrapheneOS officially recommends Sandboxed Google Play instead. Many FOSS Android apps are also in Google's Play Store but sometimes they are not (like NewPipe). In those cases, you can keep up with updates using RSS.
Profiles
GrapheneOS significantly improves user profiles in multiple ways, such as increasing the limit of how many profiles you can create (32 instead of the standard 4), allowing you to log out of user profiles, disabling app installation, and notification forwarding. All of these improvements make it so user profiles can be daily driven without sacrificing too much usability.
CalyxOS doesn't feature any improvements to user profiles over AOSP, and instead includes a device controller app so that the work profile can be used without needing to download a third party app such as Shelter. However, work profiles are not nearly as flexible (as you're limited to only one) and don't provide the same amount of isolation and security.
Additional Hardening
GrapheneOS improves upon AOSP security with:
- Hardened WebView: Vanadium WebView requires 64-bit processes on the WebView process and disables legacy 32-bit processes. It uses hardened compiler options such as
-fwrapv
and-fstack-protector-strong
, which can help protect against stack buffer overflows. APIs such as the battery status API are disabled for privacy reasons. All system apps on GrapheneOS use the Vanadium WebView which means that apps which use WebView will also benefit from Vanadium's hardening. The Vanadium patch set is a lot more comprehensive than CalyxOS's Chromium patch set which is derived from it. - Hardened Kernel: GrapheneOS kernel includes some hardening from the linux-hardened project and the Kernel Self Protection Project (KSPP). CalyxOS uses the same kernel as regular Android with some minor modifications.
- Hardened Memory Allocator: GrapheneOS uses the hardened malloc subproject as its memory allocator. This focuses on hardening against memory heap corruption. CalyxOS uses the default AOSP Scudo Malloc, which is generally less effective. Hardened Malloc has uncovered vulnerabilities in AOSP which have been fixed by GrapheneOS such as CVE-2021-0703.
- Secure Exec Spawning: GrapheneOS spawns fresh processes as opposed to using the Zygote model used by AOSP and CalyxOS. The Zygote model weakens Address Space Layout Randomization (ASLR) and is considered less secure. Creating fresh processes is safer but will have some performance penalty when launching a new application. These penalties are not really noticeable unless you have an old device with slow storage such as the Pixel 3a/3a XL as it has eMMC.
Please note that these are just a few examples and are not an extensive list of GrapheneOS's hardening. For a more complete list, please read GrapheneOS' official documentation.
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It should be noted that microG still uses proprietary Google binaries for some of its components such as DroidGuard. Push notifications, if enabled, still go through Google's servers just like with Play Services. Outside of default microG setups like on CalyxOS, it is possible to run microG in the unprivileged
untrusted app
SELinux domain and without the signature spoofing patch. However, microG's functionality and compatibility, which is already not nearly as broad as Sandboxed Google Play, will greatly diminish. ↩
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