This repo contains the source code for the BitBox Wallet App and related tools.
The wallet UI is a preact single page webapp. It sources its data from the backend written in Go.
The Desktop app is a C++ Qt5 program containing only a WebEngineView
, displaying the UI.
Static assets are sourced from a Qt rcc file, and the dynamic data is bridged from Go with WebChannels.
The Go library is compiled as a C library which exposes two functions only: one to set up the bridge, and one to invoke calls in the backend.
Similarly to the Desktop variant, the Go library can be compiled and added to an Android Studio / XCode project.
cmd/
: Go projects which generate binaries are here.cmd/servewallet/
: a development aid which serves the static web ui and the http api it talks to. See below.vendor/
: Go dependencies, managed by thedep
tool (see the Requirements section below).backend/coins/btc/electrum/
: A json rpc client library, talking to Electrum servers.backend/devices/bitbox/
: Library to detect and talk to digital bitboxes. High level API access.backend/coins/btc/
: Local HD wallet, sourcing blockchain index from an arbitrary backend. Manages addresses, outputs, tx creation, and everything else that a wallet needs to do.backend/
: The library that ties it all together. Uses the above packages to create a wallet talking Electrum using the BitBox for signing, and serve a high level HTTP API to control it.frontends/qt/
: the C++/Qt5 app which builds the wallet app for the desktop.frontends/android/
: Android target (EXPERIMENTAL / ALPHA)frontends/web/
: home of the preact UI.
The below instructions assume a unix environment.
- Go version 1.9.2.
- Yarn - for managing the web UI deps.
- Qt5
- Install via https://www.qt.io/download, also install WebEngine, and put
qmake
andrcc
into your PATH.
- Install via https://www.qt.io/download, also install WebEngine, and put
Make sure $GOPATH is set and $GOPAH/bin and $GOROOT/bin is in your $PATH
Clone/move this repo to $GOPATH/src/github.com/digitalbitbox/bitbox-wallet-app
($GOPATH
is usually ~/go
).
Only the first time, call make envinit
to install the required go utilities (linters, dep, ...).
Please consult docs/BUILD.md
for platform specific instructions and further
information.
Please consult docs/i18n.md
.
The servers used are configurable in the app settings. Currently, when running the app in devmode
(make servewallet
), the config is ignored and servers on Shift's devserver are used. The
hosts/ports/certs of those are currently hardcoded.
Run make servewallet
and make webdev
in seperate terminals.
Before the first use of make webdev
, you also need to run make buildweb
, to install the dev
dependencies.
Run make webdev
to develop the UI inside a web browser (for quick development, automatic rebuilds
and devtools). This serves the UI on localhost:8080. Changes to the web
code in frontends/web/src
are automatically detected and rebuilt.
The tests are run using jest and ts-jest preprocessor.
Because the app is based on preact, we use preact-render-spy package instead of enzyme to test app components rendering and their state.
To run all test suites, execute make webtest
.
If you plan on spending a lot of time in frontends/web/src
space
or just keen on doing TDD, use jest's tests watcher:
cd frontends/web/
make jstest-watch
To generate coverage report, execute make jstest-cover
from frontends/web
dir
and open coverage/lcov-report/index.html
in a browser.
Run make servewallet
to compile the code and run servewallet
. servewallet
is a devtool which
serves the HTTP API. Changes to the backend code are not automatically detected, so you need to
restart the server after changes.
Run dep ensure
to update dependencies.
Check outdated dependencies cd frontends/web && yarn outdated
and yarn upgrade modulename@specificversion
.
Run make ci
to run all static analysis tools and tests.
To statically compile the UI, run make buildweb
again, which compiles the web ui into a compact
bundle.
To test the BitBox Base integration, run the base-middleware on your local machine. Make sure you have bitcoind and c-lightning running as well.
The Dockerfile provides a Ubuntu container with the whole environment preconfigured. To set it up,
run make dockerinit
, which builds the Docker image (this takes a while).
After that, make dockerdev
enters the container (a shell inside an Ubuntu virtual machine), where
you can perform the same steps as in the previous section (make servewallet
and make webdev
).
Before the first use of make webdev
, you also need to run make buildweb
, to install the dev
dependencies.
Running make dockerdev
multiple times shares the same container. You can edit the code
in your usual editor in the host and compile inside the container.
To execute make servewallet
and make webdev
insider the container, but from the host, use this:
$ ./scripts/docker_exec.sh servewallet/webdev
In development mode, any password entered derives a unique testnet wallet.
Get Bitcoin Testnet coins here: https://coinfaucet.eu/en/btc-testnet/
Get Litecoin Testnet coins here: https://tltc.bitaps.com/
Get Ethereum Rinkeby coins here: http://rinkeby-faucet.com/
Get Ethereum Ropsten coins here: https://faucet.ropsten.be/