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Blockchains are a system for multi-master state machine replication. ABCI is an interface that defines the boundary between the replication engine (the blockchain), and the state machine (the application). By using a socket protocol, we enable a consensus engine running in one process to manage an application state running in another.
For more information on ABCI, motivations, and tutorials, please visit our blog post.
Previously, the ABCI was just referred to as TMSP.
Other implementations:
The primary specification is made using Protocol Buffers.
- The Protobuf file defining ABCI message types, and the optional GRPC interface. To build, run `make protoc`
- See `protoc --help` and [the GRPC docs](https://www.grpc.io/docs) for examples and details of other languages.
TendermintCore runs a client, and the ABCI application runs a server. There are three Golang implementation of ABCI client and server.
TODO: merge information from https://tendermint.com/blog/tendermint-0-8-release
ABCI requests/responses are simple Protobuf messages. Check out the schema file.
Data ([]byte)
: The request transaction bytesCode (uint32)
: Response codeData ([]byte)
: Result bytes, if anyLog (string)
: Debug or error messageArguments:
Data ([]byte)
: The request transaction bytesReturns:
Code (uint32)
: Response codeData ([]byte)
: Result bytes, if anyLog (string)
: Debug or error messageUsage:
Validate a mempool transaction, prior to broadcasting or proposing. This message should not mutate the main state, but application
developers may want to keep a separate CheckTx state that gets reset upon Commit.
CheckTx can happen interspersed with DeliverTx, but they happen on different connections - CheckTx from the mempool connection, and DeliverTx from the consensus connection. During Commit, the mempool is locked, so you can reset the mempool state to the latest state after running all those delivertxs, and then the mempool will re run whatever txs it has against that latest mempool stte
Transactions are first run through CheckTx before broadcast to peers in the mempool layer.
You can make CheckTx semi-stateful and clear the state upon Commit
or BeginBlock
,
to allow for dependent sequences of transactions in the same block.
Data ([]byte)
: The Merkle root hashLog (string)
: Debug or error messageData ([]byte)
: Raw query bytes. Can be used with or in lieu of Path.Path (string)
: Path of request, like an HTTP GET path. Can be used with or in liue of Data.
LastHeight (uint64)
: The block height for which you want the query (default=0 returns data for the latest committed block). Note that the corresponding Merkle root hash will only be included in the header of the next block (ie. LastHeight + 1
)Prove (bool)
: Return Merkle proof with response if possibleCode (uint32)
: Response codeKey ([]byte)
: The key of the matching dataValue ([]byte)
: The value of the matching dataProof ([]byte)
: Proof for the data, if requestedLastHeight (uint64)
: The block height from which data was derived. The Merkle root for the proof is included in block LastHeight + 1
Log (string)
: Debug or error message
Please note The current implementation of go-merkle doesn't support querying proofs from past blocks, so for the present moment, any height other than 0 will return an error (recall height=0 defaults to latest block). Hopefully this will be improved soon(ish)Returns:
Data (string)
: Some arbitrary informationVersion (Version)
: Version informationLastBlockHeight (uint64)
: Latest block for which the app has called CommitLastBlockAppHash ([]byte)
: Latest result of CommitUsage:
Return information about the application state. Used to sync the app with Tendermint on crash/restart.
Key (string)
: Key to setValue (string)
: Value to set for keyLog (string)
: Debug or error messageValidators ([]Validator)
: Initial genesis validatorsHash ([]byte)
: The block's hash. This can be derived from the block header.Header (struct{})
: The block headerHeight (uint64)
: The block height that endedDiffs ([]Validator)
: Changed validators with new voting powers (0 to remove)The ABCI is a client/server interface where the replication engine (blockchain) forms the client and the state machine (application) forms the server. As blocks are committed in the blockchain, they are forwarded to the application.
This repository provides two implementations of an ABCI client & server: via socket and via GRPC.
ABCI is best implemented as a streaming protocol. The socket implementation provides for asynchronous, ordered message passing over unix or tcp. Messages are serialized using Protobuf3 and length-prefixed. Protobuf3 doesn't have an official length-prefix standard, so we use our own. The first byte represents the length of the big-endian encoded length.
For example, if the Protobuf3 encoded ABCI message is 0xDEADBEEF
(4 bytes), the length-prefixed message is 0x0104DEADBEEF
. If the Protobuf3 encoded ABCI message is 65535 bytes long, the length-prefixed message would be like 0x02FFFF...
.
GRPC is an rpc framework native to Protocol Buffers with support in many languages. Implementing the ABCI using GRPC can allow for faster prototyping, but is expected to be much slower than the ordered, asynchronous socket protocol.
Note the length-prefixing used in the socket implementation does not apply for GRPC.
The abci-cli
tool wraps any ABCI client and can be used for probing/testing an ABCI application.
See the tutorial for more details.
Multiple example apps are included:
counter
application, which illustrates nonce checking in txsdummy
application, which illustrates a simple key-value merkle treedummy --persistent
application, which augments the dummy with persistence and validator set changesTo build the protobuf code:
make protoc
See protoc --help
and the grpc docs for examples and details of other languages