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- # Applications
-
- Please ensure you've first read the spec for [ABCI Methods and Types](abci.md)
-
- Here we cover the following components of ABCI applications:
-
- - [Connection State](#state) - the interplay between ABCI connections and application state
- and the differences between `CheckTx` and `DeliverTx`.
- - [Transaction Results](#transaction-results) - rules around transaction
- results and validity
- - [Validator Set Updates](#validator-updates) - how validator sets are
- changed during `InitChain` and `EndBlock`
- - [Query](#query) - standards for using the `Query` method and proofs about the
- application state
- - [Crash Recovery](#crash-recovery) - handshake protocol to synchronize
- Tendermint and the application on startup.
-
- ## State
-
- Since Tendermint maintains three concurrent ABCI connections, it is typical
- for an application to maintain a distinct state for each, and for the states to
- be synchronized during `Commit`.
-
- ### Commit
-
- Application state should only be persisted to disk during `Commit`.
-
- Before `Commit` is called, Tendermint locks and flushes the mempool so that no new messages will
- be received on the mempool connection. This provides an opportunity to safely update all three
- states to the latest committed state at once.
-
- When `Commit` completes, it unlocks the mempool.
-
- Note that it is not possible to send transactions to Tendermint during `Commit` - if your app
- tries to send a `/broadcast_tx` to Tendermint during Commit, it will deadlock.
-
- ### Consensus Connection
-
- The Consensus Connection should maintain a `DeliverTxState` -
- the working state for block execution. It should be updated by the calls to
- `BeginBlock`, `DeliverTx`, and `EndBlock` during block execution and committed to
- disk as the "latest committed state" during `Commit`.
-
- Updates made to the DeliverTxState by each method call must be readable by each subsequent method -
- ie. the updates are linearizable.
-
- ### Mempool Connection
-
- The Mempool Connection should maintain a `CheckTxState`
- to sequentially process pending transactions in the mempool that have
- not yet been committed. It should be initialized to the latest committed state
- at the end of every `Commit`.
-
- The CheckTxState may be updated concurrently with the DeliverTxState, as
- messages may be sent concurrently on the Consensus and Mempool connections. However,
- before calling `Commit`, Tendermint will lock and flush the mempool connection,
- ensuring that all existing CheckTx are responded to and no new ones can
- begin.
-
- After `Commit`, CheckTx is run again on all transactions that remain in the
- node's local mempool after filtering those included in the block. To prevent the
- mempool from rechecking all transactions every time a block is committed, set
- the configuration option `mempool.recheck=false`.
-
- Finally, the mempool will unlock and new transactions can be processed through CheckTx again.
-
- Note that CheckTx doesn't have to check everything that affects transaction validity; the
- expensive things can be skipped. In fact, CheckTx doesn't have to check
- anything; it might say that any transaction is a valid transaction.
- Unlike DeliverTx, CheckTx is just there as
- a sort of weak filter to keep invalid transactions out of the blockchain. It's
- weak, because a Byzantine node doesn't care about CheckTx; it can propose a
- block full of invalid transactions if it wants.
-
- ### Info Connection
-
- The Info Connection should maintain a `QueryState` for answering queries from the user,
- and for initialization when Tendermint first starts up (both described further
- below).
- It should always contain the latest committed state associated with the
- latest committed block.
-
- QueryState should be set to the latest `DeliverTxState` at the end of every `Commit`,
- ie. after the full block has been processed and the state committed to disk.
- Otherwise it should never be modified.
-
- ## Transaction Results
-
- `ResponseCheckTx` and `ResponseDeliverTx` contain the same fields, though they
- have slightly different effects.
-
- In both cases, `Info` and `Log` are non-deterministic values for debugging/convenience purposes
- that are otherwise ignored.
-
- In both cases, `GasWanted` and `GasUsed` parameters are currently ignored,
- though see issues
- [#1861](https://github.com/tendermint/tendermint/issues/1861),
- [#2299](https://github.com/tendermint/tendermint/issues/2299) and
- [#2310](https://github.com/tendermint/tendermint/issues/2310) for how this may
- soon change.
-
- ### CheckTx
-
- If `Code != 0`, it will be rejected from the mempool and hence
- not broadcasted to other peers and not included in a proposal block.
-
- `Data` contains the result of the CheckTx transaction execution, if any. It is
- semantically meaningless to Tendermint.
-
- `Tags` include any tags for the execution, though since the transaction has not
- been committed yet, they are effectively ignored by Tendermint.
-
- ### DeliverTx
-
- If DeliverTx returns `Code != 0`, the transaction will be considered invalid,
- though it is still included in the block.
-
- `Data` contains the result of the CheckTx transaction execution, if any. It is
- semantically meaningless to Tendermint.
-
- Both the `Code` and `Data` are included in a structure that is hashed into the
- `LastResultsHash` of the next block header.
-
- `Tags` include any tags for the execution, which Tendermint will use to index
- the transaction by. This allows transactions to be queried according to what
- events took place during their execution.
-
- See issue [#1007](https://github.com/tendermint/tendermint/issues/1007) for how
- the tags will be hashed into the next block header.
-
- ## Validator Updates
-
- The application may set the validator set during InitChain, and update it during
- EndBlock.
-
- ### InitChain
-
- ResponseInitChain can return a list of validators.
- If the list is empty, Tendermint will use the validators loaded in the genesis
- file.
- If the list is not empty, Tendermint will use it for the validator set.
- This way the application can determine the initial validator set for the
- blockchain.
-
- ResponseInitChain also includes ConsensusParams, but these are presently
- ignored.
-
- ### EndBlock
-
- Updates to the Tendermint validator set can be made by returning
- `ValidatorUpdate` objects in the `ResponseEndBlock`:
-
- ```
- message ValidatorUpdate {
- PubKey pub_key
- int64 power
- }
-
- message PubKey {
- string type
- bytes data
- }
- ```
-
- The `pub_key` currently supports only one type:
-
- - `type = "ed25519" and`data = <raw 32-byte public key>`
-
- The `power` is the new voting power for the validator, with the
- following rules:
-
- - power must be non-negative
- - if power is 0, the validator must already exist, and will be removed from the
- validator set
- - if power is non-0:
- - if the validator does not already exist, it will be added to the validator
- set with the given power
- - if the validator does already exist, its power will be adjusted to the given power
-
- Note the updates returned in block `H` will only take effect at block `H+2`.
-
- ## Query
-
- Query is a generic method with lots of flexibility to enable diverse sets
- of queries on application state. Tendermint makes use of Query to filter new peers
- based on ID and IP, and exposes Query to the user over RPC.
- Note that calls to Query are not replicated across nodes, but rather query the
- local node's state - hence they may provide stale reads. For reads that require
- consensus, a transaction is required.
-
- The most important use of Query is to return Merkle proofs of the application state at some height
- that can be used for efficient application-specific lite-clients.
-
- Note Tendermint has technically no requirements from the Query
- message for normal operation - that is, the ABCI app developer need not implement
- Query functionality if they do not wish too.
-
- ### Query Proofs
-
- The Tendermint block header includes a number of hashes, each providing an
- anchor for some type of proof about the blockchain. The `ValidatorsHash` enables
- quick verification of the validator set, the `DataHash` gives quick
- verification of the transactions included in the block, etc.
-
- The `AppHash` is unique in that it is application specific, and allows for
- application-specific Merkle proofs about the state of the application.
- While some applications keep all relevant state in the transactions themselves
- (like Bitcoin and its UTXOs), others maintain a separated state that is
- computed deterministically *from* transactions, but is not contained directly in
- the transactions themselves (like Ethereum contracts and accounts).
- For such applications, the `AppHash` provides a much more efficient way to verify lite-client proofs.
-
- ABCI applications can take advantage of more efficient lite-client proofs for
- their state as follows:
-
- - return the Merkle root of the deterministic application state in
- `ResponseCommit.Data`.
- - it will be included as the `AppHash` in the next block.
- - return efficient Merkle proofs about that application state in `ResponseQuery.Proof`
- that can be verified using the `AppHash` of the corresponding block.
-
- For instance, this allows an application's lite-client to verify proofs of
- absence in the application state, something which is much less efficient to do using the block hash.
-
- ### Peer Filtering
-
- When Tendermint connects to a peer, it sends two queries to the ABCI application
- using the following paths, with no additional data:
-
- - `/p2p/filter/addr/<IP:PORT>`, where `<IP:PORT>` denote the IP address and
- the port of the connection
- - `p2p/filter/id/<ID>`, where `<ID>` is the peer node ID (ie. the
- pubkey.Address() for the peer's PubKey)
-
- If either of these queries return a non-zero ABCI code, Tendermint will refuse
- to connect to the peer.
-
-
- ## Crash Recovery
-
- On startup, Tendermint calls the `Info` method on the Info Connection to get the latest
- committed state of the app. The app MUST return information consistent with the
- last block it succesfully completed Commit for.
-
- If the app succesfully committed block H but not H+1, then `last_block_height = H` and `last_block_app_hash = <hash returned by Commit for block H>`. If the app
- failed during the Commit of block H, then `last_block_height = H-1` and
- `last_block_app_hash = <hash returned by Commit for block H-1, which is the hash in the header of block H>`.
-
- We now distinguish three heights, and describe how Tendermint syncs itself with
- the app.
-
- ```
- storeBlockHeight = height of the last block Tendermint saw a commit for
- stateBlockHeight = height of the last block for which Tendermint completed all
- block processing and saved all ABCI results to disk
- appBlockHeight = height of the last block for which ABCI app succesfully
- completed Commit
- ```
-
- Note we always have `storeBlockHeight >= stateBlockHeight` and `storeBlockHeight >= appBlockHeight`
- Note also we never call Commit on an ABCI app twice for the same height.
-
- The procedure is as follows.
-
- First, some simple start conditions:
-
- If `appBlockHeight == 0`, then call InitChain.
-
- If `storeBlockHeight == 0`, we're done.
-
- Now, some sanity checks:
-
- If `storeBlockHeight < appBlockHeight`, error
- If `storeBlockHeight < stateBlockHeight`, panic
- If `storeBlockHeight > stateBlockHeight+1`, panic
-
- Now, the meat:
-
- If `storeBlockHeight == stateBlockHeight && appBlockHeight < storeBlockHeight`,
- replay all blocks in full from `appBlockHeight` to `storeBlockHeight`.
- This happens if we completed processing the block, but the app forgot its height.
-
- If `storeBlockHeight == stateBlockHeight && appBlockHeight == storeBlockHeight`, we're done
- This happens if we crashed at an opportune spot.
-
- If `storeBlockHeight == stateBlockHeight+1`
- This happens if we started processing the block but didn't finish.
-
- If `appBlockHeight < stateBlockHeight`
- replay all blocks in full from `appBlockHeight` to `storeBlockHeight-1`,
- and replay the block at `storeBlockHeight` using the WAL.
- This happens if the app forgot the last block it committed.
-
- If `appBlockHeight == stateBlockHeight`,
- replay the last block (storeBlockHeight) in full.
- This happens if we crashed before the app finished Commit
-
- If appBlockHeight == storeBlockHeight {
- update the state using the saved ABCI responses but dont run the block against the real app.
- This happens if we crashed after the app finished Commit but before Tendermint saved the state.
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