Leap is a C++ implementation of the Antelope protocol. It contains blockchain node software and supporting tools for developers and node operators.
The main
branch is the development branch; do not use it for production. Refer to the release page for current information on releases, pre-releases, and obsolete releases, as well as the corresponding tags for those releases.
We currently support the following operating systems.
- Ubuntu 22.04 Jammy
- Ubuntu 20.04 Focal
- Ubuntu 18.04 Bionic
Other Unix derivatives such as macOS are tended to on a best-effort basis and may not be full featured. If you aren't using Ubuntu, please visit the "Build Unsupported OS" page to explore your options.
If you are running an unsupported Ubuntu derivative, such as Linux Mint, you can find the version of Ubuntu your distribution was based on by using this command:
cat /etc/upstream-release/lsb-release
Your best bet is to follow the instructions for your Ubuntu base, but we make no guarantees.
This is the fastest way to get started. From the latest release page, download a binary for one of our supported operating systems, or visit the release tags page to download a binary for a specific version of Leap.
Once you have a *.deb
file downloaded for your version of Ubuntu, you can install it as follows:
sudo apt-get update
sudo apt-get install -y ~/Downloads/leap*.deb
Your download path may vary. If you are in an Ubuntu docker container, omit sudo
because you run as root
by default.
Finally, verify Leap was installed correctly:
nodeos --full-version
You should see a semantic version string followed by a git
commit hash with no errors. For example:
v3.1.2-0b64f879e3ebe2e4df09d2e62f1fc164cc1125d1
You can also build and install Leap from source.
You will need to build on a supported operating system.
Requirements to build:
- C++17 compiler and standard library
- boost 1.67+
- CMake 3.8+
- LLVM 7 - 11 - for Linux only
- newer versions do not work
- openssl 1.1+
- curl
- libcurl 7.40.0+
- git
- GMP
- Python 3
- python3-numpy
- zlib
If you don't have the Leap repo cloned to your computer yet, open a terminal and navigate to the folder where you want to clone the Leap repository:
cd ~/Downloads
Clone Leap using either HTTPS...
git clone --recursive https://github.com/worldwide-asset-exchange/wax-blockchain.git
...or SSH:
git clone --recursive [email protected]:worldwide-asset-exchange/wax-blockchain.git
ℹ️ HTTPS vs. SSH Clone ℹ️
Both an HTTPS or SSH git clone will yield the same result - a folder namedwax-blockchain
containing our source code. It doesn't matter which type you use.
Navigate into that folder:
cd wax-blockchain
Choose which release or branch you would like to build, then check it out. If you are not sure, use the latest release. For example, if you want to build release 3.1.2 then you would check it out using its tag, v3.1.2
. In the example below, replace v0.0.0
with your selected release tag accordingly:
git fetch --all --tags
git checkout v0.0.0
Once you are on the branch or release tag you want to build, make sure everything is up-to-date:
git pull
git submodule update --init --recursive
Select build instructions below for a pinned build (preferred) or an unpinned build.
ℹ️ Pinned vs. Unpinned Build ℹ️
We have two types of builds for Leap: "pinned" and "unpinned." The only difference is that pinned builds use specific versions for some dependencies hand-picked by the Leap engineers - they are "pinned" to those versions. In contrast, unpinned builds use the default dependency versions available on the build system at the time. We recommend performing a "pinned" build to ensure the compiler and boost versions remain the same between builds of different Leap versions. Leap requires these versions to remain the same, otherwise its state might need to be recovered from a portable snapshot or the chain needs to be replayed.
⚠️ A Warning On Parallel Compilation Jobs (-j
flag)⚠️
When building C/C++ software, often the build is performed in parallel via a command such asmake -j "$(nproc)"
which uses all available CPU threads. However, be aware that some compilation units (*.cpp
files) in Leap will consume nearly 4GB of memory. Failures due to memory exhaustion will typically, but not always, manifest as compiler crashes. Using all available CPU threads may also prevent you from doing other things on your computer during compilation. For these reasons, consider reducing this value.
🐋 Docker and
sudo
🐋
If you are in an Ubuntu docker container, omitsudo
from all commands because you run asroot
by default. Most other docker containers also excludesudo
, especially Debian-family containers. If your shell prompt is a hash tag (#
), omitsudo
.
Make sure you are in the root of the wax-blockchain
repo, then run the install_depts.sh
script to install dependencies:
sudo scripts/install_deps.sh
Next, run the pinned build script. You have to give it three arguments in the following order:
- A temporary folder, for all dependencies that need to be built from source.
- A build folder, where the binaries you need to install will be built to.
- The number of jobs or CPU cores/threads to use (note the jobs flag warning above).
The following command runs the pinned_build.sh
script, specifies a deps
and build
folder in the root of the wax-blockchain repo for the first two arguments, then builds the packages using all of your computer's CPU threads (Note: you don't need sudo
for this command):
scripts/pinned_build.sh deps build "$(nproc)"
Now you can optionally test your build, or install the *.deb
binary packages, which will be in the root of your build directory.
The following instructions are valid for this branch. Other release branches may have different requirements, so ensure you follow the directions in the branch or release you intend to build. If you are in an Ubuntu docker container, omit sudo
because you run as root
by default.
Ubuntu 22.04 Jammy & Ubuntu 20.04 Focal
Install dependencies:
sudo apt-get update
sudo apt-get install -y \
build-essential \
cmake \
curl \
git \
libboost-all-dev \
libcurl4-openssl-dev \
libgmp-dev \
libssl-dev \
llvm-11-dev \
python3-numpy
To build, make sure you are in the root of the leap
repo, then run the following command:
mkdir -p build
cd build
cmake -DCMAKE_BUILD_TYPE=Release -DCMAKE_PREFIX_PATH=/usr/lib/llvm-11 ..
make -j "$(nproc)" package
Ubuntu 18.04 Bionic
Install dependencies:
sudo apt-get update
sudo apt-get install -y \
build-essential \
cmake \
curl \
g++-8 \
git \
libcurl4-openssl-dev \
libgmp-dev \
libssl-dev \
llvm-7-dev \
python3 \
python3-numpy \
python3-pip \
zlib1g-dev
python3 -m pip install dataclasses
You need to build Boost from source on this distribution:
curl -fL https://boostorg.jfrog.io/artifactory/main/release/1.79.0/source/boost_1_79_0.tar.bz2 -o ~/Downloads/boost_1_79_0.tar.bz2
tar -jvxf ~/Downloads/boost_1_79_0.tar.bz2 -C ~/Downloads/
pushd ~/Downloads/boost_1_79_0
./bootstrap.sh --prefix="$HOME/boost1.79"
./b2 --with-iostreams --with-date_time --with-filesystem --with-system --with-program_options --with-chrono --with-test -j "$(nproc)" install
popd
The Boost *.tar.bz2
download and boost_1_79_0
folder can be removed now if you want more space.
rm -r ~/Downloads/boost_1_79_0.tar.bz2 ~/Downloads/boost_1_79_0
From a terminal in the root of the leap
repo, build.
mkdir -p build
cd build
cmake -DCMAKE_C_COMPILER=gcc-8 -DCMAKE_CXX_COMPILER=g++-8 -DCMAKE_PREFIX_PATH="$HOME/boost1.79;/usr/lib/llvm-7/" -DCMAKE_BUILD_TYPE=Release ..
make -j "$(nproc)" package
After building, you may remove the ~/boost1.79
directory or you may keep it around for your next build.
Now you can optionally test your build, or install the *.deb
binary packages, which will be in the root of your build directory.
Leap supports the following test suites:
Test Suite | Test Type | Test Size | Notes |
---|---|---|---|
Parallelizable tests | Unit tests | Small | |
WASM spec tests | Unit tests | Small | Unit tests for our WASM runtime, each short but very CPU-intensive |
Serial tests | Component/Integration | Medium | |
Long-running tests | Integration | Medium-to-Large | Tests which take an extraordinarily long amount of time to run |
When building from source, we recommended running at least the parallelizable tests.
This test suite consists of any test that does not require shared resources, such as file descriptors, specific folders, or ports, and can therefore be run concurrently in different threads without side effects (hence, easily parallelized). These are mostly unit tests and small tests which complete in a short amount of time.
You can invoke them by running ctest
from a terminal in your Leap build directory and specifying the following arguments:
ctest -j "$(nproc)" -LE _tests
The WASM spec tests verify that our WASM execution engine is compliant with the web assembly standard. These are very small, very fast unit tests. However, there are over a thousand of them so the suite can take a little time to run. These tests are extremely CPU-intensive.
You can invoke them by running ctest
from a terminal in your Leap build directory and specifying the following arguments:
ctest -j "$(nproc)" -L wasm_spec_tests
We have observed severe performance issues when multiple virtual machines are running this test suite on the same physical host at the same time, for example in a CICD system. This can be resolved by disabling hyperthreading on the host.
The serial test suite consists of medium component or integration tests that use specific paths, ports, rely on process names, or similar, and cannot be run concurrently with other tests. Serial tests can be sensitive to other software running on the same host and they may SIGKILL
other nodeos
processes. These tests take a moderate amount of time to complete, but we recommend running them.
You can invoke them by running ctest
from a terminal in your Leap build directory and specifying the following arguments:
ctest -L "nonparallelizable_tests"
The long-running tests are medium-to-large integration tests that rely on shared resources and take a very long time to run.
You can invoke them by running ctest
from a terminal in your Leap build directory and specifying the following arguments:
ctest -L "long_running_tests"
Alternatively, use the prebuilt docker image to get up and running with develompment envirement quickly:
- Start the interactive shell:
make dev-docker-start
- Run all the tests:
make test
- Compile:
make compile
- Run test:
make test
- Run WASM Spec test only :
make test-wasm
Once you have built Leap and tested your build, you can install Leap on your system. Don't forget to omit sudo
if you are running in a docker container.
We recommend installing the binary package you just built. Navigate to your Leap build directory in a terminal and run this command:
sudo apt-get update
sudo apt-get install -y ./leap[-_][0-9]*.deb
It is also possible to install using make
instead:
sudo make install