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Application Development Guide
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=============================
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ABCI Design
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-----------
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The purpose of ABCI is to provide a clean interface between state
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transition machines on one computer and the mechanics of their
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replication across multiple computers. The former we call 'application
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logic' and the latter the 'consensus engine'. Application logic
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validates transactions and optionally executes transactions against some
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persistent state. A consensus engine ensures all transactions are
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replicated in the same order on every machine. We call each machine in a
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consensus engine a 'validator', and each validator runs the same
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transactions through the same application logic. In particular, we are
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interested in blockchain-style consensus engines, where transactions are
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committed in hash-linked blocks.
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The ABCI design has a few distinct components:
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- message protocol
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- pairs of request and response messages
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- consensus makes requests, application responds
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- defined using protobuf
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- server/client
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- consensus engine runs the client
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- application runs the server
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- two implementations:
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- async raw bytes
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- grpc
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- blockchain protocol
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- abci is connection oriented
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- Tendermint Core maintains three connections:
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- `mempool connection <#mempool-connection>`__: for checking if
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transactions should be relayed before they are committed; only
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uses ``CheckTx``
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- `consensus connection <#consensus-connection>`__: for executing
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transactions that have been committed. Message sequence is -
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for every block -
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``BeginBlock, [DeliverTx, ...], EndBlock, Commit``
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- `query connection <#query-connection>`__: for querying the
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application state; only uses Query and Info
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The mempool and consensus logic act as clients, and each maintains an
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open ABCI connection with the application, which hosts an ABCI server.
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Shown are the request and response types sent on each connection.
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Message Protocol
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----------------
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The message protocol consists of pairs of requests and responses. Some
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messages have no fields, while others may include byte-arrays, strings,
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or integers. See the ``message Request`` and ``message Response``
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definitions in `the protobuf definition
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file <https://github.com/tendermint/abci/blob/master/types/types.proto>`__,
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and the `protobuf
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documentation <https://developers.google.com/protocol-buffers/docs/overview>`__
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for more details.
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For each request, a server should respond with the corresponding
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response, where order of requests is preserved in the order of
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responses.
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Server
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------
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To use ABCI in your programming language of choice, there must be a ABCI
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server in that language. Tendermint supports two kinds of implementation
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of the server:
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- Asynchronous, raw socket server (Tendermint Socket Protocol, also
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known as TSP or Teaspoon)
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- GRPC
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Both can be tested using the ``abci-cli`` by setting the ``--abci`` flag
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appropriately (ie. to ``socket`` or ``grpc``).
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See examples, in various stages of maintenance, in
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`Go <https://github.com/tendermint/abci/tree/master/server>`__,
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`JavaScript <https://github.com/tendermint/js-abci>`__,
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`Python <https://github.com/tendermint/abci/tree/master/example/python3/abci>`__,
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`C++ <https://github.com/mdyring/cpp-tmsp>`__, and
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`Java <https://github.com/jTendermint/jabci>`__.
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GRPC
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~~~~
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If GRPC is available in your language, this is the easiest approach,
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though it will have significant performance overhead.
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To get started with GRPC, copy in the `protobuf
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file <https://github.com/tendermint/abci/blob/master/types/types.proto>`__
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and compile it using the GRPC plugin for your language. For instance,
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for golang, the command is
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``protoc --go_out=plugins=grpc:. types.proto``. See the `grpc
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documentation for more details <http://www.grpc.io/docs/>`__. ``protoc``
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will autogenerate all the necessary code for ABCI client and server in
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your language, including whatever interface your application must
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satisfy to be used by the ABCI server for handling requests.
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TSP
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~~~
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If GRPC is not available in your language, or you require higher
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performance, or otherwise enjoy programming, you may implement your own
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ABCI server using the Tendermint Socket Protocol, known affectionately
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as Teaspoon. The first step is still to auto-generate the relevant data
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types and codec in your language using ``protoc``. Messages coming over
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the socket are Protobuf3 encoded, but additionally length-prefixed to
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facilitate use as a streaming protocol. Protobuf3 doesn't have an
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official length-prefix standard, so we use our own. The first byte in
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the prefix represents the length of the Big Endian encoded length. The
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remaining bytes in the prefix are the Big Endian encoded length.
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For example, if the Protobuf3 encoded ABCI message is 0xDEADBEEF (4
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bytes), the length-prefixed message is 0x0104DEADBEEF. If the Protobuf3
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encoded ABCI message is 65535 bytes long, the length-prefixed message
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would be like 0x02FFFF....
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Note this prefixing does not apply for grpc.
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An ABCI server must also be able to support multiple connections, as
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Tendermint uses three connections.
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Client
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------
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There are currently two use-cases for an ABCI client. One is a testing
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tool, as in the ``abci-cli``, which allows ABCI requests to be sent via
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command line. The other is a consensus engine, such as Tendermint Core,
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which makes requests to the application every time a new transaction is
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received or a block is committed.
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It is unlikely that you will need to implement a client. For details of
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our client, see
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`here <https://github.com/tendermint/abci/tree/master/client>`__.
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Most of the examples below are from `dummy application
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<https://github.com/tendermint/abci/blob/master/example/dummy/dummy.go>`__,
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which is a part of the abci repo. `persistent_dummy application
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<https://github.com/tendermint/abci/blob/master/example/dummy/persistent_dummy.go>`__
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is used to show ``BeginBlock``, ``EndBlock`` and ``InitChain``
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example implementations.
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Blockchain Protocol
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-------------------
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In ABCI, a transaction is simply an arbitrary length byte-array. It is
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the application's responsibility to define the transaction codec as they
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please, and to use it for both CheckTx and DeliverTx.
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Note that there are two distinct means for running transactions,
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corresponding to stages of 'awareness' of the transaction in the
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network. The first stage is when a transaction is received by a
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validator from a client into the so-called mempool or transaction pool -
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this is where we use CheckTx. The second is when the transaction is
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successfully committed on more than 2/3 of validators - where we use
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DeliverTx. In the former case, it may not be necessary to run all the
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state transitions associated with the transaction, as the transaction
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may not ultimately be committed until some much later time, when the
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result of its execution will be different. For instance, an Ethereum
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ABCI app would check signatures and amounts in CheckTx, but would not
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actually execute any contract code until the DeliverTx, so as to avoid
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executing state transitions that have not been finalized.
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To formalize the distinction further, two explicit ABCI connections are
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made between Tendermint Core and the application: the mempool connection
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and the consensus connection. We also make a third connection, the query
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connection, to query the local state of the app.
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Mempool Connection
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~~~~~~~~~~~~~~~~~~
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The mempool connection is used *only* for CheckTx requests. Transactions
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are run using CheckTx in the same order they were received by the
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validator. If the CheckTx returns ``OK``, the transaction is kept in
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memory and relayed to other peers in the same order it was received.
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Otherwise, it is discarded.
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CheckTx requests run concurrently with block processing; so they should
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run against a copy of the main application state which is reset after
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every block. This copy is necessary to track transitions made by a
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sequence of CheckTx requests before they are included in a block. When a
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block is committed, the application must ensure to reset the mempool
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state to the latest committed state. Tendermint Core will then filter
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through all transactions in the mempool, removing any that were included
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in the block, and re-run the rest using CheckTx against the post-Commit
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mempool state.
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.. container:: toggle
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.. container:: header
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**Show/Hide Go Example**
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.. code-block:: go
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func (app *DummyApplication) CheckTx(tx []byte) types.Result {
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return types.OK
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}
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.. container:: toggle
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.. container:: header
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**Show/Hide Java Example**
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.. code-block:: java
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ResponseCheckTx requestCheckTx(RequestCheckTx req) {
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byte[] transaction = req.getTx().toByteArray();
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// validate transaction
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if (notValid) {
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return ResponseCheckTx.newBuilder().setCode(CodeType.BadNonce).setLog("invalid tx").build();
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} else {
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return ResponseCheckTx.newBuilder().setCode(CodeType.OK).build();
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}
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}
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Consensus Connection
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~~~~~~~~~~~~~~~~~~~~
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The consensus connection is used only when a new block is committed, and
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communicates all information from the block in a series of requests:
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``BeginBlock, [DeliverTx, ...], EndBlock, Commit``. That is, when a
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block is committed in the consensus, we send a list of DeliverTx
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requests (one for each transaction) sandwiched by BeginBlock and
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EndBlock requests, and followed by a Commit.
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DeliverTx
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^^^^^^^^^
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DeliverTx is the workhorse of the blockchain. Tendermint sends the
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DeliverTx requests asynchronously but in order, and relies on the
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underlying socket protocol (ie. TCP) to ensure they are received by the
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app in order. They have already been ordered in the global consensus by
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the Tendermint protocol.
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DeliverTx returns a abci.Result, which includes a Code, Data, and Log.
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The code may be non-zero (non-OK), meaning the corresponding transaction
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should have been rejected by the mempool, but may have been included in
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a block by a Byzantine proposer.
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The block header will be updated (TODO) to include some commitment to
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the results of DeliverTx, be it a bitarray of non-OK transactions, or a
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merkle root of the data returned by the DeliverTx requests, or both.
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.. container:: toggle
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.. container:: header
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**Show/Hide Go Example**
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.. code-block:: go
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// tx is either "key=value" or just arbitrary bytes
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func (app *DummyApplication) DeliverTx(tx []byte) types.Result {
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parts := strings.Split(string(tx), "=")
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if len(parts) == 2 {
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app.state.Set([]byte(parts[0]), []byte(parts[1]))
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} else {
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app.state.Set(tx, tx)
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}
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return types.OK
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}
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.. container:: toggle
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.. container:: header
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**Show/Hide Java Example**
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.. code-block:: java
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/**
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* Using Protobuf types from the protoc compiler, we always start with a byte[]
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*/
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ResponseDeliverTx deliverTx(RequestDeliverTx request) {
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byte[] transaction = request.getTx().toByteArray();
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// validate your transaction
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if (notValid) {
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return ResponseDeliverTx.newBuilder().setCode(CodeType.BadNonce).setLog("transaction was invalid").build();
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} else {
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ResponseDeliverTx.newBuilder().setCode(CodeType.OK).build();
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}
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}
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Commit
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^^^^^^
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Once all processing of the block is complete, Tendermint sends the
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Commit request and blocks waiting for a response. While the mempool may
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run concurrently with block processing (the BeginBlock, DeliverTxs, and
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EndBlock), it is locked for the Commit request so that its state can be
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safely reset during Commit. This means the app *MUST NOT* do any
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blocking communication with the mempool (ie. broadcast\_tx) during
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Commit, or there will be deadlock. Note also that all remaining
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transactions in the mempool are replayed on the mempool connection
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(CheckTx) following a commit.
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The app should respond to the Commit request with a byte array, which is the deterministic
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state root of the application. It is included in the header of the next
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block. It can be used to provide easily verified Merkle-proofs of the
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state of the application.
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It is expected that the app will persist state to disk on Commit. The
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option to have all transactions replayed from some previous block is the
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job of the `Handshake <#handshake>`__.
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.. container:: toggle
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.. container:: header
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**Show/Hide Go Example**
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.. code-block:: go
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func (app *DummyApplication) Commit() types.Result {
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hash := app.state.Hash()
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return types.NewResultOK(hash, "")
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}
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.. container:: toggle
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.. container:: header
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**Show/Hide Java Example**
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.. code-block:: java
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ResponseCommit requestCommit(RequestCommit requestCommit) {
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// update the internal app-state
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byte[] newAppState = calculateAppState();
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// and return it to the node
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return ResponseCommit.newBuilder().setCode(CodeType.OK).setData(ByteString.copyFrom(newAppState)).build();
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}
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BeginBlock
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^^^^^^^^^^
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The BeginBlock request can be used to run some code at the beginning of
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every block. It also allows Tendermint to send the current block hash
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and header to the application, before it sends any of the transactions.
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The app should remember the latest height and header (ie. from which it
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has run a successful Commit) so that it can tell Tendermint where to
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pick up from when it restarts. See information on the Handshake, below.
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.. container:: toggle
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.. container:: header
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**Show/Hide Go Example**
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.. code-block:: go
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// Track the block hash and header information
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func (app *PersistentDummyApplication) BeginBlock(params types.RequestBeginBlock) {
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// update latest block info
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app.blockHeader = params.Header
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// reset valset changes
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app.changes = make([]*types.Validator, 0)
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}
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.. container:: toggle
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.. container:: header
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**Show/Hide Java Example**
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.. code-block:: java
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/*
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* all types come from protobuf definition
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*/
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ResponseBeginBlock requestBeginBlock(RequestBeginBlock req) {
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Header header = req.getHeader();
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byte[] prevAppHash = header.getAppHash().toByteArray();
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long prevHeight = header.getHeight();
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long numTxs = header.getNumTxs();
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// run your pre-block logic. Maybe prepare a state snapshot, message components, etc
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return ResponseBeginBlock.newBuilder().build();
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}
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EndBlock
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^^^^^^^^
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The EndBlock request can be used to run some code at the end of every
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block. Additionally, the response may contain a list of validators,
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which can be used to update the validator set. To add a new validator or
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update an existing one, simply include them in the list returned in the
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EndBlock response. To remove one, include it in the list with a
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``power`` equal to ``0``. Tendermint core will take care of updating the
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validator set. Note validator set changes are only available in v0.8.0
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and up.
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.. container:: toggle
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.. container:: header
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**Show/Hide Go Example**
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.. code-block:: go
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// Update the validator set
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func (app *PersistentDummyApplication) EndBlock(height uint64) (resEndBlock types.ResponseEndBlock) {
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return types.ResponseEndBlock{Diffs: app.changes}
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}
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.. container:: toggle
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.. container:: header
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**Show/Hide Java Example**
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.. code-block:: java
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/*
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* Assume that one validator changes. The new validator has a power of 10
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*/
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ResponseEndBlock requestEndBlock(RequestEndBlock req) {
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final long currentHeight = req.getHeight();
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final byte[] validatorPubKey = getValPubKey();
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ResponseEndBlock.Builder builder = ResponseEndBlock.newBuilder();
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builder.addDiffs(1, Types.Validator.newBuilder().setPower(10L).setPubKey(ByteString.copyFrom(validatorPubKey)).build());
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return builder.build();
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}
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Query Connection
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~~~~~~~~~~~~~~~~
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This connection is used to query the application without engaging
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consensus. It's exposed over the tendermint core rpc, so clients can
|
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query the app without exposing a server on the app itself, but they must
|
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serialize each query as a single byte array. Additionally, certain
|
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"standardized" queries may be used to inform local decisions, for
|
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instance about which peers to connect to.
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Tendermint Core currently uses the Query connection to filter peers upon
|
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connecting, according to IP address or public key. For instance,
|
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returning non-OK ABCI response to either of the following queries will
|
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cause Tendermint to not connect to the corresponding peer:
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- ``p2p/filter/addr/<addr>``, where ``<addr>`` is an IP address.
|
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- ``p2p/filter/pubkey/<pubkey>``, where ``<pubkey>`` is the hex-encoded
|
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ED25519 key of the node (not it's validator key)
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Note: these query formats are subject to change!
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.. container:: toggle
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|
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.. container:: header
|
|
|
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**Show/Hide Go Example**
|
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.. code-block:: go
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func (app *DummyApplication) Query(reqQuery types.RequestQuery) (resQuery types.ResponseQuery) {
|
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if reqQuery.Prove {
|
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value, proof, exists := app.state.Proof(reqQuery.Data)
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resQuery.Index = -1 // TODO make Proof return index
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resQuery.Key = reqQuery.Data
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resQuery.Value = value
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resQuery.Proof = proof
|
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if exists {
|
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resQuery.Log = "exists"
|
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} else {
|
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resQuery.Log = "does not exist"
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}
|
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return
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} else {
|
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index, value, exists := app.state.Get(reqQuery.Data)
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resQuery.Index = int64(index)
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resQuery.Value = value
|
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if exists {
|
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resQuery.Log = "exists"
|
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} else {
|
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resQuery.Log = "does not exist"
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}
|
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return
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}
|
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}
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|
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.. container:: toggle
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|
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.. container:: header
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|
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**Show/Hide Java Example**
|
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.. code-block:: java
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ResponseQuery requestQuery(RequestQuery req) {
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final boolean isProveQuery = req.getProve();
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final ResponseQuery.Builder responseBuilder = ResponseQuery.newBuilder();
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|
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if (isProveQuery) {
|
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com.app.example.ProofResult proofResult = generateProof(req.getData().toByteArray());
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final byte[] proofAsByteArray = proofResult.getAsByteArray();
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responseBuilder.setProof(ByteString.copyFrom(proofAsByteArray));
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responseBuilder.setKey(req.getData());
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responseBuilder.setValue(ByteString.copyFrom(proofResult.getData()));
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responseBuilder.setLog(result.getLogValue());
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} else {
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byte[] queryData = req.getData().toByteArray();
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final com.app.example.QueryResult result = generateQueryResult(queryData);
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responseBuilder.setIndex(result.getIndex());
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responseBuilder.setValue(ByteString.copyFrom(result.getValue()));
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responseBuilder.setLog(result.getLogValue());
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}
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return responseBuilder.build();
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}
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Handshake
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~~~~~~~~~
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|
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When the app or tendermint restarts, they need to sync to a common
|
|
height. When an ABCI connection is first established, Tendermint will
|
|
call ``Info`` on the Query connection. The response should contain the
|
|
LastBlockHeight and LastBlockAppHash - the former is the last block for
|
|
which the app ran Commit successfully, the latter is the response
|
|
from that Commit.
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|
|
|
Using this information, Tendermint will determine what needs to be
|
|
replayed, if anything, against the app, to ensure both Tendermint and
|
|
the app are synced to the latest block height.
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|
|
|
If the app returns a LastBlockHeight of 0, Tendermint will just replay
|
|
all blocks.
|
|
|
|
.. container:: toggle
|
|
|
|
.. container:: header
|
|
|
|
**Show/Hide Go Example**
|
|
|
|
.. code-block:: go
|
|
|
|
func (app *DummyApplication) Info(req types.RequestInfo) (resInfo types.ResponseInfo) {
|
|
return types.ResponseInfo{Data: cmn.Fmt("{\"size\":%v}", app.state.Size())}
|
|
}
|
|
|
|
.. container:: toggle
|
|
|
|
.. container:: header
|
|
|
|
**Show/Hide Java Example**
|
|
|
|
.. code-block:: java
|
|
|
|
ResponseInfo requestInfo(RequestInfo req) {
|
|
final byte[] lastAppHash = getLastAppHash();
|
|
final long lastHeight = getLastHeight();
|
|
return ResponseInfo.newBuilder().setLastBlockAppHash(ByteString.copyFrom(lastAppHash)).setLastBlockHeight(lastHeight).build();
|
|
}
|
|
|
|
Genesis
|
|
~~~~~~~
|
|
|
|
``InitChain`` will be called once upon the genesis. ``params`` includes the
|
|
initial validator set. Later on, it may be extended to take parts of the
|
|
consensus params.
|
|
|
|
.. container:: toggle
|
|
|
|
.. container:: header
|
|
|
|
**Show/Hide Go Example**
|
|
|
|
.. code-block:: go
|
|
|
|
// Save the validators in the merkle tree
|
|
func (app *PersistentDummyApplication) InitChain(params types.RequestInitChain) {
|
|
for _, v := range params.Validators {
|
|
r := app.updateValidator(v)
|
|
if r.IsErr() {
|
|
app.logger.Error("Error updating validators", "r", r)
|
|
}
|
|
}
|
|
}
|
|
|
|
.. container:: toggle
|
|
|
|
.. container:: header
|
|
|
|
**Show/Hide Java Example**
|
|
|
|
.. code-block:: java
|
|
|
|
/*
|
|
* all types come from protobuf definition
|
|
*/
|
|
ResponseInitChain requestInitChain(RequestInitChain req) {
|
|
final int validatorsCount = req.getValidatorsCount();
|
|
final List<Types.Validator> validatorsList = req.getValidatorsList();
|
|
|
|
validatorsList.forEach((validator) -> {
|
|
long power = validator.getPower();
|
|
byte[] validatorPubKey = validator.getPubKey().toByteArray();
|
|
|
|
// do somehing for validator setup in app
|
|
});
|
|
|
|
return ResponseInitChain.newBuilder().build();
|
|
}
|