* node/approval-voting: Introduce LruCache for pending Approval work This commit adds an LruCache that is intended to track the approval work submitted as background tasks in order to ensure that the validator needn't launch duplicate approval work for the same candidate across multiple blocks. A simple state machine is also introduced in order to differentiate pending and completed tasks. In addition, this LruCache will retain ValidationResults from the completed approval work once the task has completed. As per LruCache implementation, the oldest tasks will get evicted as new approval work is submitted to this cache. * node/approval-voting: Revert changes to master This commit reverts changes from the previous commit in order to simplify addressing the architecture discussion raised in the PR. * node/approval-voting: remove background task mpsc construct This diff removes the mpsc construct for background tasks in preparation for a move to leveraging RemoteHandles to launch approvals, rather than passing ApprovalRequests to a mpsc channel and handling the ApprovalRequests in the main subsystem task. * node/approval-voting: Introduce LRU Cache This commit introduces an LRU Cache but does not yet make use of it. * node/approval-voting: Remove BackgroundTasksMap and memoize currently_checking This commit removes the BackgroundTasksMap in the main subsystem task and introduces a method to keep track of RemoteHandles in such a way that we can ensure that a task is spawned once for a CandidateHash and relay parent tuple. * node/approval-voting: Remove BackgroundTasksMap and memoize currently_checking This commit removes the BackgroundTasksMap in the main subsystem task and introduces a map of FuturesUnordered per BlockNumber. In addition, a FusedFuture is generated by iterating across all FuturesUnordered for the BlockNumbers for which at least one candidate has approvals work running in the subsystem. * node/approval-voting: Address Rob's comments This diff removes the prior HashMap<BlockNumber, FuturesUnordered> construction and instead moves to a simple FuturesUnordered where all the work is await with Timeout. * node/approval-voting: Update Cargo.lock Due to a mismatch in rustc versions * node/approval-voting: Make use of actions when issuing_approval This commit fixes a small oversight in the logic of the prior commit. * node/approval-voting: Address Rob's feedback * node/approval-voting: Introduce lazy launch_approval evaluation * node/approval-voting: Send DistibruteApproval message on every LaunchApproval In addition to fixed the DistributeApproval bug, this commit also increases the size of the approvals cache and ensures the StaleGuard is removed when the advantageous approval state is reached. * node/approval-voting: Address final comments This commit removes the CandidateIndex from the ApprovalVoteRequest. Instead, the launch_approval function will compute the candidate_index from the block entry. In addition, a comment has been added explaining the difficulty of issuing approvals in the handle_actions function. * node/approval-voting: Set timeout to be 120s rather than 2s * Update Cargo.lock
Polkadot
Implementation of a https://polkadot.network node in Rust based on the Substrate framework.
NOTE: In 2018, we split our implementation of "Polkadot" from its development framework "Substrate". See the Substrate repo for git history prior to 2018.
This repo contains runtimes for the Polkadot, Kusama, and Westend networks. The README provides
information about installing the polkadot binary and developing on the codebase. For more
specific guides, like how to be a validator, see the
Polkadot Wiki.
Installation
If you just wish to run a Polkadot node without compiling it yourself, you may either run the latest binary from our releases page, or install Polkadot from one of our package repositories.
Installation from the debian or rpm repositories 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.
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
RPM-based (Fedora, CentOS)
Currently supports Fedora 32 and CentOS 8, and derivatives.
# Install dnf-plugins-core (This might already be installed)
dnf install dnf-plugins-core
# Add the repository and enable it
dnf config-manager --add-repo https://releases.parity.io/rpm/polkadot.repo
dnf config-manager --set-enabled polkadot
# Install polkadot (You may have to confirm the import of the GPG key, which
# should have the following fingerprint: 9D4B2B6EB8F97156D19669A9FF0812D491B96798)
dnf install polkadot
Building
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 with:
cargo install --git https://github.com/paritytech/polkadot --tag <version> polkadot --locked
Build from Source
If you'd like to build from source, first install Rust. You may need to add Cargo's bin directory to your PATH environment variable. Restarting your computer will do this for you automatically.
curl https://sh.rustup.rs -sSf | sh
If you already have Rust installed, make sure you're using the latest version by running:
rustup update
Once done, finish installing the support software:
sudo apt install build-essential git clang libclang-dev pkg-config libssl-dev
Build the client by cloning this repository and running the following commands from the root directory of the repo:
git checkout <latest tagged release>
./scripts/init.sh
cargo build --release
Note that compilation is a memory intensive process. We recommend having 4 GiB of physical RAM or swap available (keep in mind that if a build hits swap it tends to be very slow).
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 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 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 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. See the claims instructions for Polkadot if you have DOTs to claim. For Westend's WND tokens, see the faucet instructions on the Wiki.
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. This script will install or update Rust and install the required dependencies (this may take up to 30 minutes on Mac machines):
curl https://getsubstrate.io -sSf | bash -s -- --fast
Then, grab the Polkadot source code:
git clone https://github.com/paritytech/polkadot.git
cd polkadot
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).
./scripts/init.sh # Install WebAssembly. Update Rust
cargo build # Builds all native code
You can run the tests if you like:
cargo test --all
You can start a development chain with:
cargo run -- --dev
Detailed logs may be shown by running the node with the following environment variables set:
RUST_LOG=debug RUST_BACKTRACE=1 cargo run -- --dev
Development
You can run a simple single-node development "network" on your machine by running:
polkadot --dev
You can muck around by heading to https://polkadot.js.org/apps and choose "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 --chain=polkadot-local --alice -d /tmp/alice
And in the other, run:
polkadot --chain=polkadot-local --bob -d /tmp/bob --port 30334 --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.
Using Docker
Shell Completion
Contributing
Contributing Guidelines
Contributor Code of Conduct
License
Polkadot is GPL 3.0 licensed.