* chain_id.go * rpc changes * update scripts * additional test * changelog * fix tests * update script * rpc updates * validate testnet command chain-id * validate rest server chain-id * fix lint * rpc updates * changelog * comment simulations
11 KiB
Testnet
Learn how to deploy a local testnet or connect to an existing public one {synopsis}
Pre-requisite Readings
- Install Ethermint {prereq}
- Install Docker {prereq}
- Install docker-compose {prereq}
Single-node, Local, Manual Testnet
This guide helps you create a single validator node that runs a network locally for testing and other development related uses.
Initialize node
$MONIKER=testing
$KEY=mykey
$CHAINID="ethermint-1"
ethermintd init $MONIKER --chain-id=$CHAINID
::: warning Monikers can contain only ASCII characters. Using Unicode characters will render your node unreachable. :::
You can edit this moniker
later, in the $(HOME)/.ethermintd/config/config.toml
file:
# A custom human readable name for this node
moniker = "<your_custom_moniker>"
You can edit the $HOME/.ethermintd/config/app.toml
file in order to enable the anti spam mechanism and reject incoming transactions with less than the minimum gas prices:
# This is a TOML config file.
# For more information, see https://github.com/toml-lang/toml
##### main base config options #####
# The minimum gas prices a validator is willing to accept for processing a
# transaction. A transaction's fees must meet the minimum of any denomination
# specified in this config (e.g. 10aphoton).
minimum-gas-prices = ""
Genesis Procedure
# Create a key to hold your account
ethermintcli keys add $KEY
# Add that key into the genesis.app_state.accounts array in the genesis file
# NOTE: this command lets you set the number of coins. Make sure this account has some coins
# with the genesis.app_state.staking.params.bond_denom denom, the default is staking
ethermintd add-genesis-account $(ethermintcli keys show validator -a) 1000000000stake,10000000000aphoton
# Generate the transaction that creates your validator
ethermintd gentx --name $KEY
# Add the generated bonding transaction to the genesis file
ethermintd collect-gentxs
# Finally, check the correctness of the genesis.json file
ethermintd validate-genesis
Run Testnet
Now its safe to start the daemon:
ethermintd start
You can then stop the node using Ctrl+C.
Multi-node, Local, Automated Testnet
Build Testnet & Start Testnet
To build start a 4 node testnet run:
make localnet-start
This command creates a 4-node network using the ethermintdnode
Docker image.
The ports for each node are found in this table:
Node ID | P2P Port | Tendermint RPC Port | REST/ Ethereum JSON-RPC Port | WebSocket Port |
---|---|---|---|---|
ethermintnode0 |
26656 |
26657 |
8545 |
8546 |
ethermintnode1 |
26659 |
26660 |
8547 |
8548 |
ethermintnode2 |
26661 |
26662 |
8549 |
8550 |
ethermintnode3 |
26663 |
26664 |
8551 |
8552 |
To update the binary, just rebuild it and restart the nodes
make localnet-start
The command above command will run containers in the background using Docker compose. You will see the network being created:
...
Creating network "chainsafe-ethermint_localnet" with driver "bridge"
Creating ethermintdnode0 ... done
Creating ethermintdnode2 ... done
Creating ethermintdnode1 ... done
Creating ethermintdnode3 ... done
Stop Testnet
Once you are done, execute:
make localnet-stop
Configuration
The make localnet-start
creates files for a 4-node testnet in ./build
by
calling the ethermintd testnet
command. This outputs a handful of files in the
./build
directory:
tree -L 3 build/
build/
├── ethermintcli
├── ethermintd
├── gentxs
│ ├── node0.json
│ ├── node1.json
│ ├── node2.json
│ └── node3.json
├── node0
│ ├── ethermintcli
│ │ ├── key_seed.json
│ │ └── keyring-test-cosmos
│ └── ethermintd
│ ├── config
│ ├── data
│ └── ethermintd.log
├── node1
│ ├── ethermintcli
│ │ ├── key_seed.json
│ │ └── keyring-test-cosmos
│ └── ethermintd
│ ├── config
│ ├── data
│ └── ethermintd.log
├── node2
│ ├── ethermintcli
│ │ ├── key_seed.json
│ │ └── keyring-test-cosmos
│ └── ethermintd
│ ├── config
│ ├── data
│ └── ethermintd.log
└── node3
├── ethermintcli
│ ├── key_seed.json
│ └── keyring-test-cosmos
└── ethermintd
├── config
├── data
└── ethermintd.log
Each ./build/nodeN
directory is mounted to the /ethermintd
directory in each container.
Logging
In order to see the logs of a particular node you can use the following command:
# node 0: daemon logs
docker exec ethermintdnode0 tail ethermintd.log
# node 0: REST & RPC logs
docker exec ethermintdnode0 tail ethermintcli.log
The logs for the daemon will look like:
I[2020-07-29|17:33:52.452] starting ABCI with Tendermint module=main
E[2020-07-29|17:33:53.394] Can't add peer's address to addrbook module=p2p err="Cannot add non-routable address 272a247b837653cf068d39efd4c407ffbd9a0e6f@192.168.10.5:26656"
E[2020-07-29|17:33:53.394] Can't add peer's address to addrbook module=p2p err="Cannot add non-routable address 3e05d3637b7ebf4fc0948bbef01b54d670aa810a@192.168.10.4:26656"
E[2020-07-29|17:33:53.394] Can't add peer's address to addrbook module=p2p err="Cannot add non-routable address 689f8606ede0b26ad5b79ae244c14cc67ab4efe7@192.168.10.3:26656"
I[2020-07-29|17:33:58.828] Executed block module=state height=88 validTxs=0 invalidTxs=0
I[2020-07-29|17:33:58.830] Committed state module=state height=88 txs=0 appHash=90CC5FA53CF8B5EC49653A14DA20888AD81C92FCF646F04D501453FD89FCC791
I[2020-07-29|17:34:04.032] Executed block module=state height=89 validTxs=0 invalidTxs=0
I[2020-07-29|17:34:04.034] Committed state module=state height=89 txs=0 appHash=0B54C4DB1A0DACB1EEDCD662B221C048C826D309FD2A2F31FF26BAE8D2D7D8D7
I[2020-07-29|17:34:09.381] Executed block module=state height=90 validTxs=0 invalidTxs=0
I[2020-07-29|17:34:09.383] Committed state module=state height=90 txs=0 appHash=75FD1EE834F0669D5E717C812F36B21D5F20B3CCBB45E8B8D415CB9C4513DE51
I[2020-07-29|17:34:14.700] Executed block module=state height=91 validTxs=0 invalidTxs=0
::: tip
You can disregard the Can't add peer's address to addrbook
warning. As long as the blocks are
being produced and the app hashes are the same for each node, there should not be any issues.
:::
Whereas the logs for the REST & RPC server would look like:
I[2020-07-30|09:39:17.488] Starting application REST service (chain-id: "7305661614933169792")... module=rest-server
I[2020-07-30|09:39:17.488] Starting RPC HTTP server on 127.0.0.1:8545 module=rest-server
...
Follow Logs
You can also watch logs as they are produced via Docker with the --follow
(-f
) flag, for
example:
docker logs -f ethermintdnode0
Interact With the Testnet
Ethereum JSON RPC & Websocket Ports
To interact with the testnet via WebSockets or RPC/API, you will send your request to the corresponding ports:
Eth JSON-RPC | Eth WS |
---|---|
8545 |
8546 |
You can send a curl command such as:
curl -X POST --data '{"jsonrpc":"2.0","method":"eth_accounts","params":[],"id":1}' -H "Content-Type: application/json" 192.162.10.1:8545
::: tip The IP address will be the public IP of the docker container. :::
Additional instructions on how to interact with the WebSocket can be found on the events documentation.
Keys & Accounts
To interact with ethermintcli
and start querying state or creating txs, you use the
ethermintcli
directory of any given node as your home
, for example:
ethermintcli keys list --home ./build/node0/ethermintcli
Now that accounts exists, you may create new accounts and send those accounts funds!
::: tip
Note: Each node's seed is located at ./build/nodeN/ethermintcli/key_seed.json
and can be restored to the CLI using the ethermintcli keys add --restore
command
:::
Special Binaries
If you have multiple binaries with different names, you can specify which one to run with the BINARY environment variable. The path of the binary is relative to the attached volume. For example:
# Run with custom binary
BINARY=ethermint make localnet-start
Multi-node, Public, Manual Testnet
If you are looking to connect to a persistent public testnet. You will need to manually configure your node.
Genesis and Seeds
Copy the Genesis File
::: tip
If you want to start a network from scratch, you will need to start the genesis procedure by creating a genesis.json
and submit + collect the genesis transactions from the validators.
:::
If you want to connect to an existing testnet, fetch the testnet's genesis.json
file and copy it into the ethermintd
's config directory (i.e $HOME/.ethermintd/config/genesis.json
).
Then verify the correctness of the genesis configuration file:
ethermintd validate-genesis
Add Seed Nodes
Your node needs to know how to find peers. You'll need to add healthy seed nodes to $HOME/.ethermintd/config/config.toml
. If those seeds aren't working, you can find more seeds and persistent peers on an existing explorer.
For more information on seeds and peers, you can the Tendermint P2P documentation.
Start testnet
The final step is to start the nodes. Once enough voting power (+2/3) from the genesis validators is up-and-running, the testnet will start producing blocks.
Testnet faucet
Once the ethermint daemon is up and running, you can request tokens to your address using the faucet
module:
# query your initial balance
ethermintcli q bank balances $(ethermintcli keys show <mykey> -a)
# send a tx to request tokens to your account address
ethermintcli tx faucet request 100aphoton --from <mykey>
# query your balance after the request
ethermintcli q bank balances $(ethermintcli keys show <mykey> -a)
You can also check to total amount funded by the faucet and the total supply of the chain via:
# total amount funded by the faucet
ethermintcli q faucet funded
# total supply
ethermintcli q supply total
Next {hide}
Learn about how to setup a validator node on Ethermint {hide}