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
.
The default directory for blockchain data is ~/.tendermint
. Override
this by setting the TMHOME
environment variable.
Initialize the root directory by running:
tendermint init
This will create a new private key (priv_validator.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 tesnet command:
tendermint testnet --help
To run a Tendermint node, use
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:
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
nil
apps that ship as examples in the ABCI
repository. It's easy to compile
your own app in-process with Tendermint if it's written in Go. If your
app is not written in Go, simply run it in another process, and use the
--proxy_app
flag to specify the address of the socket it is listening
on, for instance:
tendermint node --proxy_app=/var/run/abci.sock
To send a transaction, use curl
to make requests to the Tendermint RPC
server, for example:
curl http://localhost:26657/broadcast_tx_commit?tx=\"abcd\"
We can see the chain's status at the /status
end-point:
curl http://localhost:26657/status | json_pp
and the latest_app_hash
in particular:
curl http://localhost:26657/status | json_pp | grep latest_app_hash
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.
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 pramater:
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 quoes, else bash will ignore the double quotes. To avoid the single quotes, escape the double quotes:
curl http://localhost:26657/broadcast_tx_commit?tx=\"hello\"
Using a special character:
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
:
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:
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.
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, remove the ~/.tendermint/data
directory and run
tendermint unsafe_reset_priv_validator
This final step is necessary to reset the priv_validator.json
, which
otherwise prevents you from making conflicting votes in the consensus
(something that could get you in trouble if you do it on a real
blockchain). If you don't reset the priv_validator.json
, your fresh
new blockchain will not make any blocks.
Tendermint uses a config.toml
for configuration. For details, see the
config specification.
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.
This much requested feature was implemented in version 0.10.3. While the
default behaviour 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:
tendermint node --consensus.create_empty_blocks=false
or set the configuration via the config.toml
file:
[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 seconds) between the
creation of each new empty block. It is set via the config.toml
:
[consensus]
create_empty_blocks_interval = 5
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
.
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:
/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.
When tendermint init
is run, both a genesis.json
and
priv_validator.json
are created in ~/.tendermint/config
. The
genesis.json
might look like:
{
"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.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.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.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.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) (see
Proposals section of Byzantine Consensus
Algorithm
for details).
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.
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 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 gossipping 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.
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,
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:
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.
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 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.
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.json
, and copy it's pub_key
into the above genesis.
We can generate a new priv_validator.json
with the command:
tendermint gen_validator
Now we can update our genesis file. For instance, if the new
priv_validator.json
looks like:
{
"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:
{
"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.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 for more details.
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 addrbook_strict=false
in the config.toml
, otherwise
Tendermint's p2p library will deny making connections to peers with the
same IP address.
The Tendermint development cycle currently includes a lot of breaking changes. Upgrading from an old version to a new version usually means throwing away the chain data. Try out the tm-migrate tool written by @hxzqlh if you are keen to preserve the state of your chain when upgrading to newer versions.