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Sebastian Kunert's avatar
Add overhead benchmark to frame-omni-bencher (#5891)
Sebastian Kunert authored 
# Benchmark Overhead Command for Parachains

This implements the `benchmark overhead` command for parachains. Full
context is available at:
https://github.com/paritytech/polkadot-sdk/issues/5303. Previous attempt
was this https://github.com/paritytech/polkadot-sdk/pull/5283, but here
we have integration into frame-omni-bencher and improved tooling.

## Changes Overview

Users are now able to use `frame-omni-bencher` to generate
`extrinsic_weight.rs` and `block_weight.rs` files for their runtime. The
core logic for generating these remains untouched; this PR provides
mostly machinery to make it work for parachains at all.

Similar to the pallet benchmarks, we gain the option to benchmark based
on just a runtime:

```
frame-omni-bencher v1 benchmark overhead --runtime {{runtime}}
```

or with a spec:

```
frame-omni-bencher v1 benchmark overhead --chain {{spec}} --genesis-builder spec
```

In this case, the genesis state is generated from the runtime presets.
However, it is also possible to use `--chain` and genesis builder `spec`
to generate the genesis state from the chain spec.

Additionally, we use metadata to perform some checks based on the
pallets the runtime exposes:

- If we see the `ParaInherent` pallet, we assume that we are dealing
with a relay chain. This means that we don't need proof recording during
import (since there is no storage weight).
- If we detect the `ParachainSystem` pallet, we assume that we are
dealing with a parachain and take corresponding actions like patching a
para id into the genesis state.

On the inherent side, I am currently supplying the standard inherents
every parachain needs.

In the current state, `frame-omni-bencher` supports all system chains.
In follow-up PRs, we could add additional inherents to increase
compatibility.

Since we are building a block during the benchmark, we also need to
build an extrinsic. By default, I am leveraging subxt to build the xt
dynamically. If a chain is not compatible with the `SubstrateConfig`
that comes with `subxt`, it can provide a custom extrinsic builder to
benchmarking-cli. This requires either a custom bencher implementation
or an integration into the parachains node.

Also cumulus-test-runtime has been migrated to provide genesis configs.

## Chain Compatibility
The current version here is compatible with the system chains and common
substrate chains. The way to go for others would be to customize the
frame-omni-bencher by providing a custom extrinsicbuilder. I did an
example implementation that works for mythical:
https://github.com/skunert/mythical-bencher

## Follow-Ups
- After #6040 is finished, we should integrate this here to make the
tooling truly useful. In the current form, the state is fairly small and
not representative.

## How to Review
I recommend starting from
[here](https://github.com/paritytech/polkadot-sdk/pull/5891/files#diff-50830ff756b3ac3403b7739d66c9e3a5185dbea550669ca71b28d19c7a2a54ecR264),
this method is the main entry point for omni-bencher and `polkadot`
binary.

TBD:
- [x] PRDoc

---------

Co-authored-by: default avatarMichal Kucharczyk <1728078+michalkucharczyk@users.noreply.github.com>
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README.md

Polkadot

Implementation of a https://polkadot.network node in Rust based on the Substrate framework.

The README provides information about installing the polkadot binary and developing on the codebase. For more specific guides, like how to run a validator node, see the Polkadot Wiki.

Installation

Using a pre-compiled binary

If you just wish to run a Polkadot node without compiling it yourself, you may either:

  • run the latest released binary (make sure to also download all the worker binaries and put them in the same directory as polkadot), or
  • install Polkadot from one of our package repositories.

Debian-based (Debian, Ubuntu)

Currently supports Debian 10 (Buster) and Ubuntu 20.04 (Focal), and derivatives. Run the following commands as the root user.

# Import the security@parity.io GPG key
gpg --recv-keys --keyserver hkps://keys.mailvelope.com 9D4B2B6EB8F97156D19669A9FF0812D491B96798
gpg --export 9D4B2B6EB8F97156D19669A9FF0812D491B96798 > /usr/share/keyrings/parity.gpg
# Add the Parity repository and update the package index
echo 'deb [signed-by=/usr/share/keyrings/parity.gpg] https://releases.parity.io/deb release main' > /etc/apt/sources.list.d/parity.list
apt update
# Install the `parity-keyring` package - This will ensure the GPG key
# used by APT remains up-to-date
apt install parity-keyring
# Install polkadot
apt install polkadot

Installation from the Debian repository will create a systemd service that can be used to run a Polkadot node. This is disabled by default, and can be started by running systemctl start polkadot on demand (use systemctl enable polkadot to make it auto-start after reboot). By default, it will run as the polkadot user. Command-line flags passed to the binary can be customized by editing /etc/default/polkadot. This file will not be overwritten on updating Polkadot. You may also just run the node directly from the command-line.

Building

Since the Polkadot node is based on Substrate, first set up your build environment according to the Substrate installation instructions.

Install via Cargo

Make sure you have the support software installed from the Build from Source section below this section.

If you want to install Polkadot in your PATH, you can do so with:

cargo install --git https://github.com/paritytech/polkadot-sdk --tag <version> polkadot --locked

Build from Source

Build the client by cloning this repository and running the following commands from the root directory of the repo:

git checkout <latest tagged release>
cargo build --release

Note: if you want to move the built polkadot binary somewhere (e.g. into $PATH) you will also need to move polkadot-execute-worker and polkadot-prepare-worker. You can let cargo do all this for you by running:

cargo install --path . --locked

Build from Source with Docker

You can also build from source using Parity CI docker image:

git checkout <latest tagged release>
docker run --rm -it -w /shellhere/polkadot \
                    -v $(pwd):/shellhere/polkadot \
                    paritytech/ci-linux:production cargo build --release
sudo chown -R $(id -u):$(id -g) target/

If you want to reproduce other steps of CI process you can use the following guide.

Networks

This repo supports runtimes for Polkadot, Kusama, and Westend.

Connect to Polkadot Mainnet

Connect to the global Polkadot Mainnet network by running:

../target/release/polkadot --chain=polkadot

You can see your node on Polkadot telemetry (set a custom name with --name "my custom name").

Connect to the "Kusama" Canary Network

Connect to the global Kusama canary network by running:

../target/release/polkadot --chain=kusama

You can see your node on Kusama telemetry (set a custom name with --name "my custom name").

Connect to the Westend Testnet

Connect to the global Westend testnet by running:

../target/release/polkadot --chain=westend

You can see your node on Westend telemetry (set a custom name with --name "my custom name").

Obtaining DOTs

If you want to do anything on Polkadot, Kusama, or Westend, then you'll need to get an account and some DOT, KSM, or WND tokens, respectively. Follow the instructions on the Wiki to obtain tokens for your testnet of choice.

Hacking on Polkadot

If you'd actually like to hack on Polkadot, you can grab the source code and build it. Ensure you have Rust and the support software installed.

Then, grab the Polkadot source code:

git clone https://github.com/paritytech/polkadot-sdk.git
cd polkadot-sdk

Then build the code. You will need to build in release mode (--release) to start a network. Only use debug mode for development (faster compile times for development and testing).

cargo build

You can run the tests if you like:

cargo test --workspace --profile testnet
# Or run only the tests for specified crated
cargo test -p <crate-name> --profile testnet

You can start a development chain with:

cargo run --bin polkadot -- --dev

Detailed logs may be shown by running the node with the following environment variables set:

RUST_LOG=debug RUST_BACKTRACE=1 cargo run --bin polkadot -- --dev

Development

You can run a simple single-node development "network" on your machine by running:

cargo run --bin polkadot --release -- --dev

You can muck around by heading to https://polkadot.js.org/apps and choosing "Local Node" from the Settings menu.

Local Two-node Testnet

If you want to see the multi-node consensus algorithm in action locally, then you can create a local testnet. You'll need two terminals open. In one, run:

polkadot --dev --alice -d /tmp/alice

And in the other, run:

polkadot --dev --bob -d /tmp/bob --bootnodes '/ip4/127.0.0.1/tcp/30333/p2p/ALICE_BOOTNODE_ID_HERE'

Ensure you replace ALICE_BOOTNODE_ID_HERE with the node ID from the output of the first terminal.

Monitoring

Setup Prometheus and Grafana.

Once you set this up you can take a look at the Polkadot Grafana dashboards that we currently maintain.

Using Docker

Using Docker

Shell Completion

Shell Completion

Contributing

Contributing Guidelines

Contribution Guidelines

Contributor Code of Conduct

Code of Conduct

License

Polkadot is GPL 3.0 licensed.