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katzen

Build Status Go Report Card GoDoc

A multiplatform chat client using catshadow and gio

Getting the source code

git clone https://github.com/katzenpost/katzen
cd katzen/

Building katzen

The easiest way to build katzen is in a container managed by podman or docker. Podman is a docker replacement which has the advantages of not requiring root access or a daemon to operate and what we use by default. If you already have Docker installed proceed to next step, otherwise run:

# apt install podman

Building for GNU/Linux

$ make docker-build-linux

The Makefile in this repository has targets to create a container image with the build environment, and to create a container with that image, and build katzen in the container. Although the make target names are prefixed with docker-, podman will be used by default if it is installed.

  • docker-build-linux builds GNU/Linux binary (default target)
  • docker-build-windows builds Windows
  • docker-build-android builds Android APK
  • docker-shell puts you in a shell inside an ephemeral build container with your local checkout mounted at /go/katzen

Docker or Podman

If you have both Podman and Docker installed and want to force the use of Docker, or if you want to specify the path to a different docker/podman compatible binary, you can specify docker=docker as the first argument to the make command.

$ make docker=docker docker-build-linux

Cleaning build

To remove the docker images and containers created by the Makefile, run:

# make docker-clean

The Makefile contains targets which build intermediate images for the Debian and go module dependencies, so that local changes can be built without the need for internet access.

To build using local uncomitted changes from the Katzenpost monorepo, add replace github.com/katzenpost/katzenpost => ./katzenpost to katzen's go.mod file and clone the monorepo in your katzen checkout.

Building without docker

Make sure you have a working Go environment (Go 1.19 or higher is required; on Debian bullseye the backports repository can be used).

See the golang install instructions.

Installing golang (Debian Bullseye example)

apt install golang git ca-certificates
export GOPATH=$HOME/go

Install debian dependencies (Debian Bullseye example)

apt install --no-install-recommends build-essential libgles2 libgles2-mesa-dev libglib2.0-dev libxkbcommon-dev libxkbcommon-x11-dev libglu1-mesa-dev libxcursor-dev libwayland-dev libx11-xcb-dev libvulkan-dev

Download and verify dependencies

go mod download && go mod verify

Before building be sure to set the environment variable CGO_CFLAGS_ALLOW:

export CGO_CFLAGS_ALLOW="-DPARAMS=sphincs-shake-256f"

Build katzen

go build -trimpath -ldflags=-buildid=

Cross-compilation dependencies for the arm64 architecture

dpkg --add-architecture arm64 && apt update
apt install --no-install-recommends crossbuild-essential-arm64 libgles2:arm64 libgles2-mesa-dev:arm64 libglib2.0-dev:arm64 libxkbcommon-dev libxkbcommon-x11-dev:arm64 libglu1-mesa-dev:arm64 libxcursor-dev:arm64 libwayland-dev:arm64 libx11-xcb-dev:arm64 libvulkan-dev:arm64

Building for Linux on arm64

CC=aarch64-linux-gnu-gcc CGO_ENABLED=1 GOOS=linux GOARCH=arm64 go build -trimpath -ldflags=-buildid=

Building for Windows

Windows builds are currently broken, since the addition of libsphincsplus in late 2022, and they had not actually been tested recently prior to that (though they were building in CI under Linux). If you wish to try to solve this problem this is a place to start:

GOOS=windows CGO_ENABLED=1 CC=x86_64-w64-mingw32-gcc CGO_CFLAGS_ALLOW="-DPARAMS=sphincs-shake-256f" go build -trimpath -ldflags="-H windowsgui -buildid=" -o katzen.exe

Building for macOS (Intel), requires macOS and xcode

GOARCH="amd64" go build -trimpath -ldflags=-buildid=

Building for macOS (Apple M1, arm), requires macOS 11 and xcode

CGO_ENABLED=1 GOOS="darwin" GOARCH="arm64" go build -tags dynamic -trimpath -ldflags=-buildid=

Building for android

Note that you will need to have the android NDK and SDK installed and the appropriate environment variables exported.

See the Dockerfile.android in this repository to set up a build environment if you wish.

First, get and install the gogio tool:

go install gioui.org/cmd/gogio

Generate an Android signing key so you can update your app later: (keytool is provided by the openjdk package: apt install openjdk-11-jdk, or use within the docker container)

keytool -genkey -keystore sign.keystore -storepass YOURPASSWORD -alias android -keyalg RSA -keysize 2048 -validity 10000 -noprompt -dname CN=android

And then build the Android APK:

gogio -arch arm64,amd64 -x -target android -appid chat.katzen -version 1 -signkey sign.keystore -signpass YOURPASSWORD .

Building for Nix

We slightly-tested Nix packaging. This command should work:

nix build --extra-experimental-features flakes \
          --extra-experimental-features nix-command \
          github:katzenpost/katzen -L

(And produce reproducible output which you can compare with the hashes published by the github CI run for the commit you built from...)

Note that when updating dependencies, the vendorHash line in katzen.nix will need to be updated manually as well. After updating a dependency, run the above command (or use make docker-build-nix) which will output the updated vendorHash.

Run it

Usage of ./katzen:
  -f string
     Path to the client config file. (default to baked-in testnet configuration)
  -s string
     The catshadow state file path. (default "catshadow_statefile")

supported by

NGI NLnet Foundation NGI Assure NGI Zero PET

This project has received funding from:

  • European Union’s Horizon 2020 research and innovation programme under the Grant Agreement No 653497, Privacy and Accountability in Networks via Optimized Randomized Mix-nets (Panoramix).
  • The Samsung Next Stack Zero grant.
  • NGI0 PET Fund, a fund established by NLnet with financial support from the European Commission's Next Generation Internet programme, under the aegis of DG Communications Networks, Content and Technology under grant agreement No 825310.
  • NGI Assure Fund, a fund established by NLnet with financial support from the European Commission's Next Generation Internet programme, under the aegis of DG Communications Networks, Content and Technology under grant agreement No 957073.

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