- ---
- order: 2
- ---
-
- # Using Tendermint
-
- This is a guide to using the `tendermint` program from the command line.
- It assumes only that you have the `tendermint` binary installed and have
- some rudimentary idea of what Tendermint and ABCI are.
-
- You can see the help menu with `tendermint --help`, and the version
- number with `tendermint version`.
-
- ## Directory Root
-
- The default directory for blockchain data is `~/.tendermint`. Override
- this by setting the `TMHOME` environment variable.
-
- ## Initialize
-
- Initialize the root directory by running:
-
- ```sh
- tendermint init
- ```
-
- This will create a new private key (`priv_validator_key.json`), and a
- genesis file (`genesis.json`) containing the associated public key, in
- `$TMHOME/config`. This is all that's necessary to run a local testnet
- with one validator.
-
- For more elaborate initialization, see the testnet command:
-
- ```sh
- tendermint testnet --help
- ```
-
- ### Genesis
-
- The `genesis.json` file in `$TMHOME/config/` defines the initial
- TendermintCore state upon genesis of the blockchain ([see
- definition](https://github.com/tendermint/tendermint/blob/master/types/genesis.go)).
-
- #### Fields
-
- - `genesis_time`: Official time of blockchain start.
- - `chain_id`: ID of the blockchain. **This must be unique for
- every blockchain.** If your testnet blockchains do not have unique
- chain IDs, you will have a bad time. The ChainID must be less than 50 symbols.
- - `consensus_params` [spec](https://github.com/tendermint/spec/blob/master/spec/core/state.md#consensusparams)
- - `block`
- - `max_bytes`: Max block size, in bytes.
- - `max_gas`: Max gas per block.
- - `time_iota_ms`: Minimum time increment between consecutive blocks (in
- milliseconds). If the block header timestamp is ahead of the system clock,
- decrease this value.
- - `evidence`
- - `max_age_num_blocks`: Max age of evidence, in blocks. The basic formula
- for calculating this is: MaxAgeDuration / {average block time}.
- - `max_age_duration`: Max age of evidence, in time. It should correspond
- with an app's "unbonding period" or other similar mechanism for handling
- [Nothing-At-Stake
- attacks](https://github.com/ethereum/wiki/wiki/Proof-of-Stake-FAQ#what-is-the-nothing-at-stake-problem-and-how-can-it-be-fixed).
- - `max_num`: This sets the maximum number of evidence that can be committed
- in a single block. and should fall comfortably under the max block
- bytes when we consider the size of each evidence.
- - `proof_trial_period`: Proof trial period dictates the time given for
- nodes accused of amnesia evidence, incorrectly voting twice in two
- different rounds to respond with their respective proofs.
- - `validator`
- - `pub_key_types`: Public key types validators can use.
- - `version`
- - `app_version`: ABCI application version.
- - `validators`: List of initial validators. Note this may be overridden entirely by the
- application, and may be left empty to make explicit that the
- application will initialize the validator set with ResponseInitChain.
- - `pub_key`: The first element specifies the `pub_key` type. 1
- == Ed25519. The second element are the pubkey bytes.
- - `power`: The validator's voting power.
- - `name`: Name of the validator (optional).
- - `app_hash`: The expected application hash (as returned by the
- `ResponseInfo` ABCI message) upon genesis. If the app's hash does
- not match, Tendermint will panic.
- - `app_state`: The application state (e.g. initial distribution
- of tokens).
-
- > :warning: **ChainID must be unique to every blockchain. Reusing old chainID can cause issues**
-
- #### Sample genesis.json
-
- ```json
- {
- "genesis_time": "2020-04-21T11:17:42.341227868Z",
- "chain_id": "test-chain-ROp9KF",
- "consensus_params": {
- "block": {
- "max_bytes": "22020096",
- "max_gas": "-1",
- "time_iota_ms": "1000"
- },
- "evidence": {
- "max_age_num_blocks": "100000",
- "max_age_duration": "172800000000000"
- },
- "validator": {
- "pub_key_types": [
- "ed25519"
- ]
- }
- },
- "validators": [
- {
- "address": "B547AB87E79F75A4A3198C57A8C2FDAF8628CB47",
- "pub_key": {
- "type": "tendermint/PubKeyEd25519",
- "value": "P/V6GHuZrb8rs/k1oBorxc6vyXMlnzhJmv7LmjELDys="
- },
- "power": "10",
- "name": ""
- }
- ],
- "app_hash": ""
- }
- ```
-
- ## Run
-
- To run a Tendermint node, use:
-
- ```bash
- tendermint node
- ```
-
- By default, Tendermint will try to connect to an ABCI application on
- `127.0.0.1:26658`. If you have the `kvstore` ABCI app installed, run it in
- another window. If you don't, kill Tendermint and run an in-process version of
- the `kvstore` app:
-
- ```bash
- tendermint node --proxy_app=kvstore
- ```
-
- After a few seconds, you should see blocks start streaming in. Note that blocks
- are produced regularly, even if there are no transactions. See _No Empty
- Blocks_, below, to modify this setting.
-
- Tendermint supports in-process versions of the `counter`, `kvstore`, and `noop`
- apps that ship as examples with `abci-cli`. It's easy to compile your app
- in-process with Tendermint if it's written in Go. If your app is not written in
- Go, run it in another process, and use the `--proxy_app` flag to specify the
- address of the socket it is listening on, for instance:
-
- ```bash
- tendermint node --proxy_app=/var/run/abci.sock
- ```
-
- You can find out what flags are supported by running `tendermint node --help`.
-
- ## Transactions
-
- To send a transaction, use `curl` to make requests to the Tendermint RPC
- server, for example:
-
- ```sh
- curl http://localhost:26657/broadcast_tx_commit?tx=\"abcd\"
- ```
-
- We can see the chain's status at the `/status` end-point:
-
- ```sh
- curl http://localhost:26657/status | json_pp
- ```
-
- and the `latest_app_hash` in particular:
-
- ```sh
- curl http://localhost:26657/status | json_pp | grep latest_app_hash
- ```
-
- <!-- markdown-link-check-disable -->
-
- Visit `http://localhost:26657` in your browser to see the list of other
- endpoints. Some take no arguments (like `/status`), while others specify
- the argument name and use `_` as a placeholder.
-
- <!-- markdown-link-check-enable -->
-
- ::: tip
- Find the RPC Documentation [here](https://docs.tendermint.com/master/rpc/)
- :::
-
- ### Formatting
-
- The following nuances when sending/formatting transactions should be
- taken into account:
-
- With `GET`:
-
- To send a UTF8 string byte array, quote the value of the tx parameter:
-
- ```sh
- curl 'http://localhost:26657/broadcast_tx_commit?tx="hello"'
- ```
-
- which sends a 5 byte transaction: "h e l l o" \[68 65 6c 6c 6f\].
-
- Note the URL must be wrapped with single quotes, else bash will ignore
- the double quotes. To avoid the single quotes, escape the double quotes:
-
- ```sh
- curl http://localhost:26657/broadcast_tx_commit?tx=\"hello\"
- ```
-
- Using a special character:
-
- ```sh
- curl 'http://localhost:26657/broadcast_tx_commit?tx="€5"'
- ```
-
- sends a 4 byte transaction: "€5" (UTF8) \[e2 82 ac 35\].
-
- To send as raw hex, omit quotes AND prefix the hex string with `0x`:
-
- ```sh
- curl http://localhost:26657/broadcast_tx_commit?tx=0x01020304
- ```
-
- which sends a 4 byte transaction: \[01 02 03 04\].
-
- With `POST` (using `json`), the raw hex must be `base64` encoded:
-
- ```sh
- curl --data-binary '{"jsonrpc":"2.0","id":"anything","method":"broadcast_tx_commit","params": {"tx": "AQIDBA=="}}' -H 'content-type:text/plain;' http://localhost:26657
- ```
-
- which sends the same 4 byte transaction: \[01 02 03 04\].
-
- Note that raw hex cannot be used in `POST` transactions.
-
- ## Reset
-
- ::: warning
- **UNSAFE** Only do this in development and only if you can
- afford to lose all blockchain data!
- :::
-
- To reset a blockchain, stop the node and run:
-
- ```sh
- tendermint unsafe_reset_all
- ```
-
- This command will remove the data directory and reset private validator and
- address book files.
-
- ## Configuration
-
- Tendermint uses a `config.toml` for configuration. For details, see [the
- config specification](./configuration.md).
-
- Notable options include the socket address of the application
- (`proxy_app`), the listening address of the Tendermint peer
- (`p2p.laddr`), and the listening address of the RPC server
- (`rpc.laddr`).
-
- Some fields from the config file can be overwritten with flags.
-
- ## No Empty Blocks
-
- While the default behavior of `tendermint` is still to create blocks
- approximately once per second, it is possible to disable empty blocks or
- set a block creation interval. In the former case, blocks will be
- created when there are new transactions or when the AppHash changes.
-
- To configure Tendermint to not produce empty blocks unless there are
- transactions or the app hash changes, run Tendermint with this
- additional flag:
-
- ```sh
- tendermint node --consensus.create_empty_blocks=false
- ```
-
- or set the configuration via the `config.toml` file:
-
- ```toml
- [consensus]
- create_empty_blocks = false
- ```
-
- Remember: because the default is to _create empty blocks_, avoiding
- empty blocks requires the config option to be set to `false`.
-
- The block interval setting allows for a delay (in time.Duration format [ParseDuration](https://golang.org/pkg/time/#ParseDuration)) between the
- creation of each new empty block. It can be set with this additional flag:
-
- ```sh
- --consensus.create_empty_blocks_interval="5s"
- ```
-
- or set the configuration via the `config.toml` file:
-
- ```toml
- [consensus]
- create_empty_blocks_interval = "5s"
- ```
-
- With this setting, empty blocks will be produced every 5s if no block
- has been produced otherwise, regardless of the value of
- `create_empty_blocks`.
-
- ## Broadcast API
-
- Earlier, we used the `broadcast_tx_commit` endpoint to send a
- transaction. When a transaction is sent to a Tendermint node, it will
- run via `CheckTx` against the application. If it passes `CheckTx`, it
- will be included in the mempool, broadcasted to other peers, and
- eventually included in a block.
-
- Since there are multiple phases to processing a transaction, we offer
- multiple endpoints to broadcast a transaction:
-
- ```md
- /broadcast_tx_async
- /broadcast_tx_sync
- /broadcast_tx_commit
- ```
-
- These correspond to no-processing, processing through the mempool, and
- processing through a block, respectively. That is, `broadcast_tx_async`,
- will return right away without waiting to hear if the transaction is
- even valid, while `broadcast_tx_sync` will return with the result of
- running the transaction through `CheckTx`. Using `broadcast_tx_commit`
- will wait until the transaction is committed in a block or until some
- timeout is reached, but will return right away if the transaction does
- not pass `CheckTx`. The return value for `broadcast_tx_commit` includes
- two fields, `check_tx` and `deliver_tx`, pertaining to the result of
- running the transaction through those ABCI messages.
-
- The benefit of using `broadcast_tx_commit` is that the request returns
- after the transaction is committed (i.e. included in a block), but that
- can take on the order of a second. For a quick result, use
- `broadcast_tx_sync`, but the transaction will not be committed until
- later, and by that point its effect on the state may change.
-
- Note the mempool does not provide strong guarantees - just because a tx passed
- CheckTx (ie. was accepted into the mempool), doesn't mean it will be committed,
- as nodes with the tx in their mempool may crash before they get to propose.
- For more information, see the [mempool
- write-ahead-log](../tendermint-core/running-in-production.md#mempool-wal)
-
- ## Tendermint Networks
-
- When `tendermint init` is run, both a `genesis.json` and
- `priv_validator_key.json` are created in `~/.tendermint/config`. The
- `genesis.json` might look like:
-
- ```json
- {
- "validators" : [
- {
- "pub_key" : {
- "value" : "h3hk+QE8c6QLTySp8TcfzclJw/BG79ziGB/pIA+DfPE=",
- "type" : "tendermint/PubKeyEd25519"
- },
- "power" : 10,
- "name" : ""
- }
- ],
- "app_hash" : "",
- "chain_id" : "test-chain-rDlYSN",
- "genesis_time" : "0001-01-01T00:00:00Z"
- }
- ```
-
- And the `priv_validator_key.json`:
-
- ```json
- {
- "last_step" : 0,
- "last_round" : "0",
- "address" : "B788DEDE4F50AD8BC9462DE76741CCAFF87D51E2",
- "pub_key" : {
- "value" : "h3hk+QE8c6QLTySp8TcfzclJw/BG79ziGB/pIA+DfPE=",
- "type" : "tendermint/PubKeyEd25519"
- },
- "last_height" : "0",
- "priv_key" : {
- "value" : "JPivl82x+LfVkp8i3ztoTjY6c6GJ4pBxQexErOCyhwqHeGT5ATxzpAtPJKnxNx/NyUnD8Ebv3OIYH+kgD4N88Q==",
- "type" : "tendermint/PrivKeyEd25519"
- }
- }
- ```
-
- The `priv_validator_key.json` actually contains a private key, and should
- thus be kept absolutely secret; for now we work with the plain text.
- Note the `last_` fields, which are used to prevent us from signing
- conflicting messages.
-
- Note also that the `pub_key` (the public key) in the
- `priv_validator_key.json` is also present in the `genesis.json`.
-
- The genesis file contains the list of public keys which may participate
- in the consensus, and their corresponding voting power. Greater than 2/3
- of the voting power must be active (i.e. the corresponding private keys
- must be producing signatures) for the consensus to make progress. In our
- case, the genesis file contains the public key of our
- `priv_validator_key.json`, so a Tendermint node started with the default
- root directory will be able to make progress. Voting power uses an int64
- but must be positive, thus the range is: 0 through 9223372036854775807.
- Because of how the current proposer selection algorithm works, we do not
- recommend having voting powers greater than 10\^12 (ie. 1 trillion).
-
- If we want to add more nodes to the network, we have two choices: we can
- add a new validator node, who will also participate in the consensus by
- proposing blocks and voting on them, or we can add a new non-validator
- node, who will not participate directly, but will verify and keep up
- with the consensus protocol.
-
- ### Peers
-
- #### Seed
-
- A seed node is a node who relays the addresses of other peers which they know
- of. These nodes constantly crawl the network to try to get more peers. The
- addresses which the seed node relays get saved into a local address book. Once
- these are in the address book, you will connect to those addresses directly.
- Basically the seed nodes job is just to relay everyones addresses. You won't
- connect to seed nodes once you have received enough addresses, so typically you
- only need them on the first start. The seed node will immediately disconnect
- from you after sending you some addresses.
-
- #### Persistent Peer
-
- Persistent peers are people you want to be constantly connected with. If you
- disconnect you will try to connect directly back to them as opposed to using
- another address from the address book. On restarts you will always try to
- connect to these peers regardless of the size of your address book.
-
- All peers relay peers they know of by default. This is called the peer exchange
- protocol (PeX). With PeX, peers will be gossiping about known peers and forming
- a network, storing peer addresses in the addrbook. Because of this, you don't
- have to use a seed node if you have a live persistent peer.
-
- #### Connecting to Peers
-
- To connect to peers on start-up, specify them in the
- `$TMHOME/config/config.toml` or on the command line. Use `seeds` to
- specify seed nodes, and
- `persistent_peers` to specify peers that your node will maintain
- persistent connections with.
-
- For example,
-
- ```sh
- tendermint node --p2p.seeds "f9baeaa15fedf5e1ef7448dd60f46c01f1a9e9c4@1.2.3.4:26656,0491d373a8e0fcf1023aaf18c51d6a1d0d4f31bd@5.6.7.8:26656"
- ```
-
- Alternatively, you can use the `/dial_seeds` endpoint of the RPC to
- specify seeds for a running node to connect to:
-
- ```sh
- curl 'localhost:26657/dial_seeds?seeds=\["f9baeaa15fedf5e1ef7448dd60f46c01f1a9e9c4@1.2.3.4:26656","0491d373a8e0fcf1023aaf18c51d6a1d0d4f31bd@5.6.7.8:26656"\]'
- ```
-
- Note, with PeX enabled, you
- should not need seeds after the first start.
-
- If you want Tendermint to connect to specific set of addresses and
- maintain a persistent connection with each, you can use the
- `--p2p.persistent_peers` flag or the corresponding setting in the
- `config.toml` or the `/dial_peers` RPC endpoint to do it without
- stopping Tendermint core instance.
-
- ```sh
- tendermint node --p2p.persistent_peers "429fcf25974313b95673f58d77eacdd434402665@10.11.12.13:26656,96663a3dd0d7b9d17d4c8211b191af259621c693@10.11.12.14:26656"
-
- curl 'localhost:26657/dial_peers?persistent=true&peers=\["429fcf25974313b95673f58d77eacdd434402665@10.11.12.13:26656","96663a3dd0d7b9d17d4c8211b191af259621c693@10.11.12.14:26656"\]'
- ```
-
- ### Adding a Non-Validator
-
- Adding a non-validator is simple. Just copy the original `genesis.json`
- to `~/.tendermint/config` on the new machine and start the node,
- specifying seeds or persistent peers as necessary. If no seeds or
- persistent peers are specified, the node won't make any blocks, because
- it's not a validator, and it won't hear about any blocks, because it's
- not connected to the other peer.
-
- ### Adding a Validator
-
- The easiest way to add new validators is to do it in the `genesis.json`,
- before starting the network. For instance, we could make a new
- `priv_validator_key.json`, and copy it's `pub_key` into the above genesis.
-
- We can generate a new `priv_validator_key.json` with the command:
-
- ```sh
- tendermint gen_validator
- ```
-
- Now we can update our genesis file. For instance, if the new
- `priv_validator_key.json` looks like:
-
- ```json
- {
- "address" : "5AF49D2A2D4F5AD4C7C8C4CC2FB020131E9C4902",
- "pub_key" : {
- "value" : "l9X9+fjkeBzDfPGbUM7AMIRE6uJN78zN5+lk5OYotek=",
- "type" : "tendermint/PubKeyEd25519"
- },
- "priv_key" : {
- "value" : "EDJY9W6zlAw+su6ITgTKg2nTZcHAH1NMTW5iwlgmNDuX1f35+OR4HMN88ZtQzsAwhETq4k3vzM3n6WTk5ii16Q==",
- "type" : "tendermint/PrivKeyEd25519"
- },
- "last_step" : 0,
- "last_round" : "0",
- "last_height" : "0"
- }
- ```
-
- then the new `genesis.json` will be:
-
- ```json
- {
- "validators" : [
- {
- "pub_key" : {
- "value" : "h3hk+QE8c6QLTySp8TcfzclJw/BG79ziGB/pIA+DfPE=",
- "type" : "tendermint/PubKeyEd25519"
- },
- "power" : 10,
- "name" : ""
- },
- {
- "pub_key" : {
- "value" : "l9X9+fjkeBzDfPGbUM7AMIRE6uJN78zN5+lk5OYotek=",
- "type" : "tendermint/PubKeyEd25519"
- },
- "power" : 10,
- "name" : ""
- }
- ],
- "app_hash" : "",
- "chain_id" : "test-chain-rDlYSN",
- "genesis_time" : "0001-01-01T00:00:00Z"
- }
- ```
-
- Update the `genesis.json` in `~/.tendermint/config`. Copy the genesis
- file and the new `priv_validator_key.json` to the `~/.tendermint/config` on
- a new machine.
-
- Now run `tendermint node` on both machines, and use either
- `--p2p.persistent_peers` or the `/dial_peers` to get them to peer up.
- They should start making blocks, and will only continue to do so as long
- as both of them are online.
-
- To make a Tendermint network that can tolerate one of the validators
- failing, you need at least four validator nodes (e.g., 2/3).
-
- Updating validators in a live network is supported but must be
- explicitly programmed by the application developer. See the [application
- developers guide](../app-dev/app-development.md) for more details.
-
- ### Local Network
-
- To run a network locally, say on a single machine, you must change the `_laddr`
- fields in the `config.toml` (or using the flags) so that the listening
- addresses of the various sockets don't conflict. Additionally, you must set
- `addr_book_strict=false` in the `config.toml`, otherwise Tendermint's p2p
- library will deny making connections to peers with the same IP address.
-
- ### Upgrading
-
- See the
- [UPGRADING.md](https://github.com/tendermint/tendermint/blob/master/UPGRADING.md)
- guide. You may need to reset your chain between major breaking releases.
- Although, we expect Tendermint to have fewer breaking releases in the future
- (especially after 1.0 release).
|