This repository is part of the source code of Wire. You can find more information at wire.com or by contacting [email protected].
You can find the published source code at github.com/wireapp/wire.
For licensing information, see the attached LICENSE file and the list of third-party licenses at wire.com/legal/licenses/.
No license is granted to the Wire trademark and its associated logos, all of which will continue to be owned exclusively by Wire Swiss GmbH. Any use of the Wire trademark and/or its associated logos is expressly prohibited without the express prior written consent of Wire Swiss GmbH.
- CoreCrypto: Abstracts MLS & Proteus in a unified API
- CoreCryptoFFI: FFI bindings for iOS, Android and WASM
- Keystore: Encrypted Keystore powered by SQLCipher on all platforms except WASM. WASM uses an IndexedDB-backed, encrypted store with AES256-GCM
- MlsProvider: RustCrypto + Keystore MLS provider
See ARCHITECTURE.md
If you're using macOS, you'll also need to install GNU sed:
brew install gnu-sed
and add an alias to your shell configuration file: alias sed=gsed
(e.g. to ~/.zshenv
if you're using zsh).
Install Android SDK and Build-Tools for API level 30+
Important
If you are building on macOS you'll need to setup $ANDROID_SDK_ROOT
path variable manually:
export ANDROID_SDK_ROOT=~/Android/Sdk
Install android rust targets:
rustup target add x86_64-linux-android aarch64-linux-android armv7-linux-androideabi i686-linux-android
Build:
cd crypto-ffi
cargo make android
cd bindings
./gradlew android:build
Install Xcode & its command-line tools: https://developer.apple.com/xcode/.
Install iOS rust targets:
rustup target add aarch64-apple-ios x86_64-apple-ios aarch64-apple-ios-sim
Build:
cd crypto-ffi
cargo make ios
# Additionally, if you want to export a .XCFramework:
cargo make ios-create-xcframework
Install macOS rust targets:
rustup target add x86_64-apple-darwin aarch64-apple-darwin
Note
If cross-compiling from macOS, you'll need to install https://github.com/messense/homebrew-macos-cross-toolchains.
Install Linux targets:
rustup target add x86_64-unknown-linux-gnu
Make sure you have all prerequisites:
- Install wasm-pack
- Install the
wasm32-unknown-unknown
toolchain:rustup target add wasm32-unknown-unknown
- Install node.js (recommended way is via Volta)
- Install Bun (follow the instructions on Bun's website)
Build:
cd crypto-ffi
cargo make wasm
Build bindings for Android, JVM, iOS and WASM
cd crypto-ffi
# builds bindings and targets for the JVM (macOS / Linux)
cargo make jvm
# builds bindings and targets for Android
cargo make android
# builds iOS framework
cargo make ios-create-xcframework
# builds wasm binary & TS bindings
cargo make wasm
# Install cargo-nextest if you haven't done so, it yields some substantial speedup
cargo install cargo-nextest
cargo nextest run
If you haven't already, install the target and wasm-pack:
rustup target add wasm32-unknown-unknown
cargo install wasm-pack
If you want to test for chrome, get chromedriver or the webdriver for the browser you want to test for, respectively.
Then, to run tests for a crate in the workspace do
wasm-pack test --headless --chrome ./<crate-folder-to-test>
Warning
This takes quite a while.
cargo nextest run --features test-all-cipher
- Take the steps to compile for Kotlin/Android
- Then:
cd crypto-ffi/bindings
./gradlew test
No E2E testing is available as of now on Swift.
- Take the steps to compile for WASM/Web
- Then:
cd crypto-ffi
bun test
There are benches implemented in crypto/benches
for several operations on mls groups with varying sizes or proteus.
Parameters like minimum or maximum group sizes and step sizes are defined in crypto/benches/utils/mod.rs
.
To execute the benches, e.g. for creating commits, run
cargo bench --bench=commit -- --quick
where commit
is the name of the bench specified in crypto/Cargo.toml
, and the corresponding file in crypto/benches
.
In case you're interested in higher accuracy, and willing to trade it for execution speed, omit the --quick
flag.
If you need reporting plots, remove the .without_plots()
call in crypto/benches/utils/mod.rs
.
The reports generated by criterion will be located in target/criterion
.
- The
main
branch is used as the everyday development branch. - No merge commits. Always rebase on top of
main
. - Release branches are named
release/<series>
, e.g.release/1.x
,release/2.x
. - Release branches contain fixes relevant to their specific release series and are never merged to
main
. - Release branches always branch off their first major release tag. For example,
the output of
git merge-base main release/2.x
must be a commit pointed to by tagv2.0.0
. - Release branches are created lazily, that is, only when the first fix needs to be applied and released for a specific release series.
- Use conventional commits -- those are picked up by the changelog generator.
- If there is a JIRA ticket related to the change, you should mention it in either the PR title or the commit(s),
with the following format:
[TICKET_ID]
. - Sign your commits and tags.
- Remove branches from the remote once you don't need them anymore.
The versioning scheme used is SemVer AKA Semantic Versioning.
- Make a branch based on
main
to prepare for release (git checkout -b prepare-release/X.Y.Z
) - Run
sh scripts/update-versions.sh X.Y.Z
to update the versions of- all workspace member crates
package.json
crypto-ffi/bindings/gradle.properties
Make sure the result of the script run is correct.
- Generate the relevant changelog section:
and add it to the top of
git cliff --bump --unreleased
CHANGELOG.md
. Make sure the version number generated bygit cliff
matches the release version. - If there are any release highlights, add them as the first subsection below release title:
## v1.0.2 - 2024-08-16 ### Highlights - foo - bar - baz
- Make sure the changes look reasonable and complete; you can use the previous release as a reference
- Push your
prepare-release/X.Y.Z
branch and create a PR for it - Get it reviewed, then merge it into
main
and remove theprepare-release/X.Y.Z
branch from the remote - Now, pull your local
main
:git checkout main && git pull
- Create the release tag:
git tag -s vX.Y.Z
- Push the new tag:
git push origin tag vX.Y.Z
- Create a new release on github, copying the relevant section from
CHANGELOG.md
- Voilà!
Publishing Android / JVM bindings happens automatically by a github workflow when a release tag is pushed.
If you would like to publish the bindings to a local maven cache, run:
cd crypto-ffi/bindings/android
./gradlew :jvm:publishToMavenLocal
./gradlew :android:publishToMavenLocal
Publishing JS / WASM bindings happens automatically by a github workflow when a release tag is pushed.
If you would like to publish to @wireapp/core-crypto
manually, log into NPM and
just run npm publish
.