# Nimbus: ultra-light Ethereum execution layer client
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## Introduction
This repository contains development work on an execution-layer client to pair with [our consensus-layer client](https://github.com/status-im/nimbus-eth2). This client focuses on efficiency and security and strives to be as light-weight as possible in terms of resources used.
This repository is also home to:
- [Fluffy](./fluffy/README.md), a
[Portal Network](https://github.com/ethereum/portal-network-specs/tree/master)
light client.
- [Nimbus Verified Proxy](./nimbus_verified_proxy/README.md)
All consensus-layer client development is happening in parallel in the
[nimbus-eth2](https://github.com/status-im/nimbus-eth2) repository.
## Development Updates
Monthly development updates are shared
[here](https://hackmd.io/jRpxY4WBQJ-hnsKaPDYqTw).
Some recent highlights include:
- Renewed funding from the EF to accelerate development
- Completed Berlin and London fork compatibility (EIP-1559). It now passes nearly all the EF Hive testsuite, and 100% of contract execution tests (47,951 tests)
- New GraphQL and WebSocket APIs, complementing JSON-RPC
- EVMC compatibility, supporting third-party optimised EVM plugins
- Up to 100x memory saving during contract executions
- Asynchronous EVM to execute many contracts in parallel, while they wait for data from the network
- Updated network protocols, to work with the latest eth/66-68 protocols
- A prototype new mechanism for state sync which combines what have been called Fast sync, Snap sync and Beam sync in a self-tuning way, and allows the user to participate in the network (read accounts, run transactions etc.) while sync is still in progress
- A significant redesign of the storage database to use less disk space and run faster.
For more detailed write-ups on the development progress, follow the
[Nimbus blog](https://our.status.im/tag/nimbus/).
## Building & Testing
### Prerequisites
* GNU Make, Bash and the usual POSIX utilities. Git 2.9.4 or newer.
#### Obtaining the prerequisites through the Nix package manager
*Experimental*
Users of the [Nix package manager](https://nixos.org/nix/download.html) can install all prerequisites simply by running:
``` bash
nix-shell default.nix
```
### Build & Develop
#### POSIX-compatible OS
```bash
# The first `make` invocation will update all Git submodules.
# You'll run `make update` after each `git pull`, in the future, to keep those submodules up to date.
# Assuming you have 4 CPU cores available, you can ask Make to run 4 parallel jobs, with "-j4".
make -j4 nimbus
# See available command line options
build/nimbus --help
# Start syncing with mainnet
build/nimbus
# Update to latest version
git pull && make update
# Build the newly downloaded version
make -j4 nimbus
# Run tests
make test
```
To run a command that might use binaries from the Status Nim fork:
```bash
./env.sh bash # start a new interactive shell with the right env vars set
which nim
nim --version
# or without starting a new interactive shell:
./env.sh which nim
./env.sh nim --version
```
Our Wiki provides additional helpful information for [debugging individual test cases][1]
and for [pairing Nimbus with a locally running copy of Geth][2].
#### Windows
_(Experimental support!)_
Install Mingw-w64 for your architecture using the "[MinGW-W64 Online
Installer](https://sourceforge.net/projects/mingw-w64/files/)" (first link
under the directory listing). Run it and select your architecture in the setup
menu ("i686" on 32-bit, "x86\_64" on 64-bit), set the threads to "win32" and
the exceptions to "dwarf" on 32-bit and "seh" on 64-bit. Change the
installation directory to "C:\mingw-w64" and add it to your system PATH in "My
Computer"/"This PC" -> Properties -> Advanced system settings -> Environment
Variables -> Path -> Edit -> New -> C:\mingw-w64\mingw64\bin (it's "C:\mingw-w64\mingw32\bin" on 32-bit)
Install [Git for Windows](https://gitforwindows.org/) and use it to clone Nimbus.
Install [cmake](https://cmake.org/).
After adding the Git bin directory to your path open a "Git Bash" shell:
```bash
bash
```
After installing Mingw-w64 and adding it to your path you should have the `mingw32-make` tool available. Next create a link from `make` to `mingw32-make`:
```bash
ln -s mingw32-make.exe make.exe
```
You can now follow those instructions in the previous section. For example:
```bash
make nimbus # build the Nimbus binary
make test # run the test suite
# etc.
```
#### Raspberry PI
*Experimental* The code can be compiled on a Raspberry PI:
* Raspberry PI 3b+
* 64gb SD Card (less might work too, but the default recommended 4-8GB will probably be too small)
* [Rasbian Buster Lite](https://www.raspberrypi.org/downloads/raspbian/) - Lite version is enough to get going and will save some disk space!
Assuming you're working with a freshly written image:
```bash
# Start by increasing swap size to 2gb:
sudo vi /etc/dphys-swapfile
# Set CONF_SWAPSIZE=2048
# :wq
sudo reboot
# Install prerequisites
sudo apt-get install git libgflags-dev libsnappy-dev
mkdir status
cd status
# Raspberry pi doesn't include /usr/local/lib in library search path - need to add
export LD_LIBRARY_PATH=/usr/local/lib:$LD_LIBRARY_PATH
git clone https://github.com/status-im/nimbus.git
cd nimbus
# Follow instructions above!
```
#### Android
*Experimental* Code can be compiled and run on Android devices
##### Environment setup
* Install the [Termux](https://termux.com) app from FDroid or the Google Play store
* Install a [PRoot](https://wiki.termux.com/wiki/PRoot) of your choice following the instructions for your preferred distribution.
Note, the Ubuntu PRoot is known to contain all Nimbus prerequisites compiled on Arm64 architecture (common architecture for Android devices). Depending on the distribution, it may require effort beyond the scope of this guide to get all prerequisites.
*Assuming Ubuntu PRoot is used*
```bash
# Install prerequisites
apt install git make gcc
# Clone repo and build Nimbus just like above
git clone https://github.com/status-im/nimbus.git
cd nimbus
make
make nimbus
build/nimbus
```
### Experimental make variables
Apart from standard Make flags (see link in the next [chapter](#devel-tips)),
the following Make variables can be set to control which version of a virtual
engine is compiled. The variables are listed with decreasing priority (in
case of doubt, the lower prioritised variable is ignored when the higher on is
available.)
* BOEHM_GC=1
Change garbage collector to `boehm`. This might help debugging in certain
cases when the `gc` is involved in a memory corruption or corruption
camouflage.
* ENABLE_LINE_NUMBERS=1
Enables logger to print out source code location with log message
* ENABLE_EVMC=1
Enable mostly EVMC compliant wrapper around the native Nim VM
For these variables, using <variable>=0 is ignored and <variable>=2
has the same effect as <variable>=1 (ditto for other numbers.)
### Development tips
Interesting Make variables and targets are documented in the [nimbus-build-system](https://github.com/status-im/nimbus-build-system) repo.
- you can switch the DB backend with a Nim compiler define:
`-d:nimbus_db_backend=...` where the (case-insensitive) value is one of
"rocksdb" (the default), "sqlite", "lmdb"
- the Premix debugging tools are [documented separately](premix/readme.md)
- you can control the Makefile's verbosity with the V variable (defaults to 0):
```bash
make V=1 # verbose
make V=2 test # even more verbose
```
- same for the [Chronicles log level](https://github.com/status-im/nim-chronicles#chronicles_log_level):
```bash
make LOG_LEVEL=DEBUG nimbus # this is the default
make LOG_LEVEL=TRACE nimbus # log everything
```
- pass arbitrary parameters to the Nim compiler:
```bash
make NIMFLAGS="-d:release"
```
- if you want to use SSH keys with GitHub (also handles submodules):
```bash
make github-ssh
```
- force a Nim compiler rebuild:
```bash
rm vendor/Nim/bin/nim
make -j8 build-nim
```
- some programs in the _tests_ subdirectory do a replay of blockchain
database dumps when compiled and run locally. The dumps are found in
[this](https://github.com/status-im/nimbus-eth1-blobs) module which
need to be cloned as _nimbus-eth1-blobs_ parellel to the _nimbus-eth1_
file system root.
#### Git submodule workflow
Working on a dependency:
```bash
cd vendor/nim-chronicles
git checkout -b mybranch
# make some changes
git status
git commit -a
git push origin mybranch
# create a GitHub PR and wait for it to be approved and merged
git checkout master
git pull
git branch -d mybranch
# realise that the merge was done without "--no-ff"
git branch -D mybranch
# update the submodule's commit in the superproject
cd ../..
git status
git add vendor/nim-chronicles
git commit
```
It's important that you only update the submodule commit after it's available upstream.
You might want to do this on a new branch of the superproject, so you can make
a GitHub PR for it and see the CI test results.
Don't update all Git submodules at once, just because you found the relevant
Git command or `make` target. You risk updating submodules to other people's
latest commits when they are not ready to be used in the superproject.
Adding the submodule "https://github.com/status-im/foo" to "vendor/foo":
```bash
vendor/nimbus-build-system/scripts/add_submodule.sh status-im/foo
# or
./env.sh add_submodule status-im/foo
# want to place it in "vendor/bar" instead?
./env.sh add_submodule status-im/foo vendor/bar
```
Removing the submodule "vendor/bar":
```bash
git submodule deinit -f -- vendor/bar
git rm -f vendor/bar
```
Checking out older commits, either to bisect something or to reproduce an older build:
```bash
git checkout
make clean
make -j8 update
```
Running a dependency's test suite using `nim` instead of `nimble` (which cannot be
convinced not to run a dependency check, thus clashing with our jury-rigged
"vendor/.nimble/pkgs"):
```bash
cd vendor/nim-rocksdb
../nimbus-build-system/scripts/nimble.sh test
# or
../../env.sh nimble test
```
### Metric visualisation
Install Prometheus and Grafana. On Gentoo, it's `emerge prometheus grafana-bin`.
```bash
# build Nimbus
make nimbus
# the Prometheus daemon will create its data dir in the current dir, so give it its own directory
mkdir ../my_metrics
# copy the basic config file over there
cp -a examples/prometheus.yml ../my_metrics/
# start Prometheus in a separate terminal
cd ../my_metrics
prometheus --config.file=prometheus.yml # loads ./prometheus.yml, writes metric data to ./data
# start a fresh Nimbus sync and export metrics
rm -rf ~/.cache/nimbus/db; ./build/nimbus --prune:archive --metricsServer
```
Start the Grafana server. On Gentoo it's `/etc/init.d/grafana start`. Go to
http://localhost:3000, log in with admin:admin and change the password.
Add Prometheus as a data source. The default address of http://localhost:9090
is OK, but Grafana 6.3.5 will not apply that semitransparent default you see in
the form field, unless you click on it.
Create a new dashboard. Click on its default title in the upper left corner
("New Dashboard"). In the new page, click "Import dashboard" in the right
column and upload "examples/Nimbus-Grafana-dashboard.json".
In the main panel, there's a hidden button used to assign metrics to the left
or right Y-axis - it's the coloured line on the left of the metric name, in the
graph legend.
To see a single metric, click on its name in the legend. Click it again to go back
to the combined view. To edit a panel, click on its title and select "Edit".
[Obligatory screenshot.](https://i.imgur.com/AdtavDA.png)
### Troubleshooting
Report any errors you encounter, please, if not [already documented](https://github.com/status-im/nimbus/issues)!
* Turn it off and on again:
```bash
make clean
make update
```
## License
Licensed and distributed under either of
* MIT license: [LICENSE-MIT](LICENSE-MIT) or https://opensource.org/licenses/MIT
or
* Apache License, Version 2.0, ([LICENSE-APACHEv2](LICENSE-APACHEv2) or https://www.apache.org/licenses/LICENSE-2.0)
at your option. These files may not be copied, modified, or distributed except according to those terms.
[1]: https://github.com/status-im/nimbus/wiki/Understanding-and-debugging-Nimbus-EVM-JSON-tests
[2]: https://github.com/status-im/nimbus/wiki/Debugging-state-reconstruction