Create parallel reality of your Substrate network.
Chopsticks provides a developer-friendly method of locally forking existing Substrate based chains. It allows for the replaying of blocks to easily examine how extrinsics effect state, the forking of multiple blocks for XCM testing, and more. This allows developers to test and experiment with their own custom blockchain configurations in a local development environment, without the need to deploy a live network. Chopsticks aims to simplify the process of building blockchain applications on Substrate and make it accessible to a wider range of developers.
Fork Acala mainnet: npx @acala-network/chopsticks@latest --endpoint=wss://acala-rpc-2.aca-api.network/ws
It is recommended to use config file. You can check configs for examples.
Run node using config file
# npx @acala-network/chopsticks@latest --config= url | path | config_file_name
# i.e: using configs/acala.yml
npx @acala-network/chopsticks@latest -c acala
Documentation and tutorials are available at wiki.
Documentation for EVM+ tracing is available at EVM+ tracing.
Run Chopsticks in browser? Now you can turn a mainnet into a devnet and play with it directly in your browser!
An example is available at acalanetwork.github.io/chopsticks, and the corresponding code can be found in web-test.
For chopsticks CLI, you can find the full list of available environment variables here.
Make sure you have setup Rust environment (>= 1.64).
- Clone repository with submodules (smoldot)
git clone --recurse-submodules https://github.com/AcalaNetwork/chopsticks.git && cd chopsticks
- Install deps
yarn
- Build wasm. Please do not use IDE's built-in tools to build wasm.
yarn build-wasm
- Replay latest block
npx @acala-network/chopsticks@latest run-block --endpoint=wss://acala-rpc-2.aca-api.network/ws
- This will replay the last block and print out the changed storages
- Use option
-b|--block
to replay certain block hash - Use option
--output-path=<file_path>
to print out JSON file - Use option
--html
to generate storage diff preview (add--open
to automatically open file)
- Dry run help:
npx @acala-network/chopsticks@latest dry-run --help
- Dry run extrinsic, same as
run-block
, example:
npx @acala-network/chopsticks@latest dry-run --config=configs/mandala.yml --html --open --extrinsic=0x39028400d43593c715fdd31c61141abd04a99fd6822c8558854ccde39a5684e7a56da27d01183abac17ff331f8b65dbeddd27f014dedd892020cfdc6c40b574f6930f8cf391bde95997ae2edc5b1192a4036ea97804956c4b5497175c8d68b630301685889450200000a00008eaf04151687736326c9fea17e25fc5287613693c912909cb226aa4794f26a480284d717
- Dry run call, make sure
mock-signature-host: true
to fake caller's signature:
npx @acala-network/chopsticks@latest dry-run --config=configs/mandala.yml --html --open --extrinsic=0xff00000080969800 --address=5GrwvaEF5zXb26Fz9rcQpDWS57CtERHpNehXCPcNoHGKutQY --at=<block_hash_optional>
- Dry run a preimage:
npx @acala-network/chopsticks@latest dry-run --endpoint=wss://polkadot-rpc.dwellir.com --preimage=<preimage> --open
- Dry run a preimage and execute an extrinsic after that:
npx @acala-network/chopsticks@latest dry-run --endpoint=wss://polkadot-rpc.dwellir.com --preimage=<preimage> --extrinsic=<extrinsic> --open
- Dry run a preimage and execute a call after that, make sure
mock-signature-host: true
to fake caller's signature:
npx @acala-network/chopsticks@latest dry-run --config=configs/mandala.yml --preimage=<preimage> --extrinsic=<call> --address=<who> --open
-
Run a test node
npx @acala-network/chopsticks@latest --endpoint=wss://acala-rpc-2.aca-api.network/ws
- You have a test node running at
ws://localhost:8000
- You can use Polkadot.js Apps to connect to this node
- Submit any transaction to produce a new block in the in parallel reality
- (Optional) Pre-define/override storage using option
-s|--import-storage=storage.[json/yaml]
. See example storage below.
{ "Sudo": { "Key": "5GrwvaEF5zXb26Fz9rcQpDWS57CtERHpNehXCPcNoHGKutQY" }, "TechnicalCommittee": { "Members": ["5GrwvaEF5zXb26Fz9rcQpDWS57CtERHpNehXCPcNoHGKutQY"] }, "Tokens": { "Accounts": [ [ ["5GrwvaEF5zXb26Fz9rcQpDWS57CtERHpNehXCPcNoHGKutQY", { "token": "KAR" }], { "free": 1000000000000000, } ] ] }, "Whitelist": { "WhitelistedCall": [ [ ["0x3146d2141cdb95de80488d6cecbb5d7577dd59069efc366cb1be7fe64f02e62c"], "0x" // please use 0x for null values ], ] } }
-
Run Kusama fork
- Edit configs/kusama.yml if needed. (e.g. update the block number)
npx @acala-network/chopsticks@latest --config=configs/kusama.yml
-
Setup XCM multichain NOTE: You can also connect multiple parachains without a relaychain
npx @acala-network/chopsticks@latest xcm -r kusama -p karura -p statemine
Chopsticks respect http_proxy
and https_proxy
environment variables.
Export ROARR_LOG=true
environment variable to enable log printing to stdout.
To learn more, see https://www.npmjs.com/package/global-agent?activeTab=readme
Chopsticks is designed to be extensible. You can write your own plugin to extend Chopsticks' functionality.
There are 2 types of plugins: cli
and rpc
. cli
plugins are used to extend Chopsticks' CLI, while rpc
plugins are used to extend Chopsticks' RPC.
To create a new plugin, you could check out the run-block plugin as an example.
Chopsticks allows you to load your extended rpc methods by adding the cli argument --unsafe-rpc-methods=<file path>
or -ur=<file path>
.
It loads an unverified scripts, making it unsafe. Ensure you load a trusted script.
example:
npx @acala-network/chopsticks@latest --unsafe-rpc-methods=rpc-methods-scripts.js
scripts example of rpc-methods-scripts:
return {
async testdev_testRpcMethod1(context, params) {
console.log('testdev_testRpcMethod 1', params)
return { methods: 1, params }
},
async testdev_testRpcMethod2(context, params) {
console.log('testdev_testRpcMethod 2', params)
return { methods: 2, params }
},
}
When testing migrations with lots of keys, you may want to fetch and cache some storages.
There are two ways to fetch storages.
The first way is to use a config file with a prefetch-storages
section:
prefetch-storages:
- '0x123456' # fetch all storages with this prefix
- Balances # fetch all storages under Balances pallet
- Tokens.Accounts # fetch all storages under Tokens.Accounts stroage
- System: Account # fetch all storages under System.Account stroage
- Tokens:
Accounts: [5GrwvaEF5zXb26Fz9rcQpDWS57CtERHpNehXCPcNoHGKutQY] # fetch all storages for Tokens.Accounts(Alice)
- Tokens.Accounts: [5GrwvaEF5zXb26Fz9rcQpDWS57CtERHpNehXCPcNoHGKutQY, { token: DOT }] # fetch this particular storage
When you starts chopsticks, it will fetch these storages in background.
Please note that only the formats mentioned above are supported for config files.
The second way is use fetch-storages
subcommand to only fetch and cache storages:
npx @acala-network/chopsticks@latest fetch-storages 0x123456 Balances Tokens.Accounts
--endpoint=wss://acala-rpc-0.aca-api.network
--block=<blockhash> # default to latest block
--db=acala.sqlite
The subcommand arguments could be:
- hex: fetch all storages with this prefix
- PalletName: fetch all storages for this pallet
- PalletName.StorageName: fetch all storages for this storage
Please note that for both ways, fetched storages will be saved in the sqlite file specified by --db
option (db: ./acala.sqlite
in a config file), if not provided, it will default to ./db-{network}-{block}.sqlite
.
Documentation can be found here
Generally, anything that involves something more than onchain STF new_state = f(old_state)
are not guaranteed to work in production.
In practice, here is an incomplete list that I can think of:
- mocked tx pool
- no real block finalization
- mocked inherents
- simulated XCM channels
You cannot change runtime constants in chopsticks, you have to edit and build a new runtime, and use wasm-override
with the new wasm.
You can use 0x
for empty values, for example:
Whitelist:
WhitelistedCall:
- - - '0xe284be84dcfaf714ef2b7717b54914632406f2c17d8203d3268e4c4ca68fa144'
- 0x