The Solana git repository contains all the scripts you might need to spin up your own local testnet. Depending on what you're looking to achieve, you may want to run a different variation, as the full-fledged, performance-enhanced multinode testnet is considerably more complex to set up than a Rust-only, singlenode testnode. If you are looking to develop high-level features, such as experimenting with smart contracts, save yourself some setup headaches and stick to the Rust-only singlenode demo. If you're doing performance optimization of the transaction pipeline, consider the enhanced singlenode demo. If you're doing consensus work, you'll need at least a Rust-only multinode demo. If you want to reproduce our TPS metrics, run the enhanced multinode demo.
For all four variations, you'd need the latest Rust toolchain and the Solana source code:
First, install Rust's package manager Cargo.
$ curl https://sh.rustup.rs -sSf | sh$ source $HOME/.cargo/env
Now checkout the code from github:
$ git clone https://github.com/solana-labs/solana.git$ cd solana
The demo code is sometimes broken between releases as we add new low-level features, so if this is your first time running the demo, you'll improve your odds of success if you check out the latest release before proceeding:
$ TAG=$(git describe --tags $(git rev-list --tags --max-count=1))$ git checkout $TAG
Ensure important programs such as the vote program are built before any nodes are started. Note that we are using the release build here for good performance. If you want the debug build, use just
cargo build and omit the
NDEBUG=1 part of the command.
$ cargo build --release
The network is initialized with a genesis ledger generated by running the following script.
$ NDEBUG=1 ./multinode-demo/setup.sh
In order for the validators and clients to work, we'll need to spin up a faucet to give out some test tokens. The faucet delivers Milton Friedman-style "air drops" (free tokens to requesting clients) to be used in test transactions.
Start the faucet with:
$ NDEBUG=1 ./multinode-demo/faucet.sh
Before you start a validator, make sure you know the IP address of the machine you want to be the bootstrap validator for the demo, and make sure that udp ports 8000-10000 are open on all the machines you want to test with.
Now start the bootstrap validator in a separate shell:
$ NDEBUG=1 ./multinode-demo/bootstrap-validator.sh
Wait a few seconds for the server to initialize. It will print "leader ready..." when it's ready to receive transactions. The leader will request some tokens from the faucet if it doesn't have any. The faucet does not need to be running for subsequent leader starts.
To run a multinode testnet, after starting a leader node, spin up some additional validators in separate shells:
$ NDEBUG=1 ./multinode-demo/validator-x.sh
To run a performance-enhanced validator on Linux, CUDA 10.0 must be installed on your system:
$ ./fetch-perf-libs.sh$ NDEBUG=1 SOLANA_CUDA=1 ./multinode-demo/bootstrap-validator.sh$ NDEBUG=1 SOLANA_CUDA=1 ./multinode-demo/validator.sh
Now that your singlenode or multinode testnet is up and running let's send it some transactions!
In a separate shell start the client:
$ NDEBUG=1 ./multinode-demo/bench-tps.sh # runs against localhost by default
What just happened? The client demo spins up several threads to send 500,000 transactions to the testnet as quickly as it can. The client then pings the testnet periodically to see how many transactions it processed in that time. Take note that the demo intentionally floods the network with UDP packets, such that the network will almost certainly drop a bunch of them. This ensures the testnet has an opportunity to reach 710k TPS. The client demo completes after it has convinced itself the testnet won't process any additional transactions. You should see several TPS measurements printed to the screen. In the multinode variation, you'll see TPS measurements for each validator node as well.
There are some useful debug messages in the code, you can enable them on a per-module and per-level basis. Before running a leader or validator set the normal RUST_LOG environment variable.
info everywhere and
debug only in the solana::banking_stage module:
$ export RUST_LOG=solana=info,solana::banking_stage=debug
To enable BPF program logging:
$ export RUST_LOG=solana_bpf_loader=trace
Generally we are using
debug for infrequent debug messages,
trace for potentially frequent messages and
info for performance-related logging.
You can also attach to a running process with GDB. The leader's process is named solana-validator:
$ sudo gdbattach <PID>set logging onthread apply all bt
This will dump all the threads stack traces into gdb.txt
In this example the client connects to our public testnet. To run validators on the testnet you would need to open udp ports
$ NDEBUG=1 ./multinode-demo/bench-tps.sh --entrypoint devnet.solana.com:8001 --faucet devnet.solana.com:9900 --duration 60 --tx_count 50
You can observe the effects of your client's transactions on our metrics dashboard