/zingo-mobile

Zingo! Android and iOS apps

Primary LanguageTypeScript

Zingo Android and iOS apps

App Store: https://apps.apple.com/app/zingo/id1668209531
Google Play: https://play.google.com/store/apps/details?id=org.ZingoLabs.Zingo

Security Vulnerability Disclosure

If you believe you have discovered a security issue, please contact us at:

zingodisclosure@proton.me

iOS

Prerequisites

  1. Yarn
  2. NodeJS (recommended version 17+)
  3. Rust (https://www.rust-lang.org/tools/install)
  4. Rustup iOS targets (rustup target add aarch64-apple-ios aarch64-apple-ios-sim)
  5. Cargo-lipo (cargo install cargo-lipo)
  6. Cocaopods (sudo gem install cocoapods)

Building for physical device

  1. Clone the repository.
  2. Go to the cloned repo cd zingo-mobile.
  3. In the rust/ios directory, run:
    ./build.sh
    This step may take a long time.
  4. From the root of the project, run:
    yarn
  5. In the ios directory, run:
    pod install

Building for simulator

  1. Clone the repository.
  2. Go to the cloned repo cd zingo-mobile.
  3. In the rust/ios directory, run:
    ./buildsimulator.sh
    This step may take a long time.
  4. From the root of the project, run:
    yarn
  5. In the ios directory, run:
    pod install

Launching the app

  1. In a terminal, run:
    yarn start
  2. In a separate terminal, run:
    yarn ios
    You can also open the ios directory in XCode and run it there.

Android

Prerequisites

  1. Yarn

  2. NodeJS (recommended version 17+)

  3. Rust (https://www.rust-lang.org/tools/install)

  4. Docker (Docker Engine)

  5. OpenJDK 18 (https://jdk.java.net/archive/)

    1. curl https://download.java.net/java/GA/jdk18.0.2/f6ad4b4450fd4d298113270ec84f30ee/9/GPL/openjdk-18.0.2_linux-x64_bin.tar.gz -o openjdk-18.0.2_linux-x64_bin.tar.gz
    2. tar -xzvf openjdk-18.0.2_linux-x64_bin.tar.gz
  6. Android SDK Command-line Tools
    Install via Android Studio SDK Manager:
    https://developer.android.com/studio/install
    or as standalone:
    https://developer.android.com/tools

  7. Cargo nextest (https://nexte.st/book/installing-from-source.html)

The React Native tools require some environment variables to be set up in order to build apps with native code.
Add the following lines to your $HOME/.bash_profile or $HOME/.profile config file:
PATH="$PATH:$ANDROID_HOME/cmdline-tools/latest/bin"
PATH="$PATH:$ANDROID_HOME/platform-tools"
PATH="$PATH:$ANDROID_HOME/emulator"
Add the following lines to your $HOME/.bashrc config file:
export ANDROID_SDK_ROOT="$HOME/Android/Sdk"
Also, make sure your JAVA_HOME is set, for example:
export JAVA_HOME="/usr/lib/jvm/jdk-18.0.2"

Building

  1. Clone the repository.
  2. Go to the cloned repo cd zingo-mobile.
  3. In the rust directory, run:
    ./build.sh
    This step may take a long time.
  4. From the root of the project, run:
    yarn

Launching the app

Android Studio

  1. For Android emulations, you can create a new AVD, compatible with your CPU architecture i.e. x86_64 (https://developer.android.com/studio/run/managing-avds). The recommended API is API 30 (Android 11). Alternatively, you can connect to a physical device (https://reactnative.dev/docs/running-on-device).
  2. In File > Settings, navigate to Build, Execution and Deployment > Build Tools > Gradle and check the Gradle JDK matches your JDK version.
  3. In a terminal, run:
    yarn start
  4. Open the android directory in Android Studio as a project, select 'app' and the previously created AVD in the upper toolbar and click the "Run 'app'" button. Alternatively, launch an AVD and in a separate terminal, run:
    yarn android

Android SDK Command-line Tools (Standalone)

You can also emulate android from the command line without using Android Studio.

  1. Check that the Android SDK cmdline-tools binaries are in the following directory path:
    $ANDROID_HOME/cmdline-tools/latest/bin
  2. From the root directory run:
    scripts/start_interactive.sh -a x86
    Outputs are generated in android/app/build/outputs/emulator_output

Testing

Prerequesites

Integration tests and end-to-end tests require a regtest server. On linux hosts, these may be run locally by installing the lightwalletd, zcashd and zcash-cli binaries (https://github.com/zingolabs/zingolib#regtest). From the rust/android/regtest/bin/ directory run:
ln -s path/to/lightwalletd/binary path/to/zcashd/binary path/to/zcash-cli/binary ./
From the rust/android/lightwalletd_bin directory run:
ln -s path/to/lightwalletd/binary ./

Alternatively, integration tests and end-to-end tests can be run on non-linux hosts with Regchest (https://github.com/zingolabs/zingo-regchest). Regchest manages the zcash/lightwalletd regtest network in a docker container. Before running tests, pull the latest Regchest image from docker:
docker pull zingodevops/regchest:008

Yarn Tests

  1. From the root directory, run:
    yarn test

Integration Tests

  1. Create quick-boot snapshots to speed up AVD launch times. From the root directory, run:
    ./scripts/integration_tests.sh -a x86_64 -s
    ./scripts/integration_tests.sh -a x86 -s
    By default, this uses default API 29 system images. Other images may be used for testing by specifying the api level and target. However, using other images with the cargo test runner is still under development.
  2. To run the integration tests. From the rust directory, run:
    cargo nextest run integration
    Specify to run specific ABI:
    cargo nextest run integration::x86_64
    cargo nextest run integration::x86_32
    cargo nextest run integration::arm64
    cargo nextest run integration::arm32
    Specify to run a specific test on all ABIs:
    cargo nextest run test_name
    Specify to run a specific ABI and test:
    cargo nextest run integration::x86_64::test_name

To run tests with Regchest, add the --features regchest flag, for example:
cargo nextest run integration --features regchest

For more information on running integration tests on non-default AVDs, run:
./scripts/integration_tests.sh -h
Without the cargo test runner these emulated android devices will not be able to connect to a lightwalletd/zcashd regtest network. Therefore, only tests in the "Offline Testsuite" may be tested.

End-to-End Tests

  1. Note there needs to be a lightwalletd in rust/android/lightwalletd_bin
  2. Launch the emulated AVD by clicking the 'play' icon in Android Studio's Device Manager. Alternatively, connect to a physical device. See previous section 'Launching the app' for more details.
  3. In a terminal, run:
    yarn start
  4. Create quick-boot snapshots to speed up AVD launch times. From the root directory, run:
    ./scripts/e2e_tests.sh -a x86_64 -s
    ./scripts/e2e_tests.sh -a x86 -s
    By default, this uses default API 29 system images. Other images may be used for testing by specifying the api level and target. However, using other images with the cargo test runner is still under development.
  5. In a separate terminal, from the rust directory, run all tests:
    cargo nextest run e2e Specify to run specific ABI:
    cargo nextest run e2e::x86_64
    cargo nextest run e2e::x86_32
    cargo nextest run e2e::arm64
    cargo nextest run e2e::arm32
    Specify to run a specific ABI and test:
    cargo nextest run e2e::x86_64::test_name

Regchest is still under development and currently not able to run darkside end-to-end tests:
cargo nextest run e2e --features regchest -E 'not test(darkside)'

Troubleshooting

For notes on known issues and problems, see the trouble-shooting notes.