Ethan Buchman debe56326f | 6 years ago | |
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client | 6 years ago | |
cmd/abci-cli | 6 years ago | |
example | 6 years ago | |
server | 7 years ago | |
tests | 6 years ago | |
types | 6 years ago | |
version | 7 years ago | |
README.md | 7 years ago |
Blockchains are systems 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). Using a socket protocol, a consensus engine running in one process can manage an application state running in another.
Previously, the ABCI was referred to as TMSP.
The community has provided a number of addtional implementations, see the Tendermint Ecosystem
A detailed description of the ABCI methods and message types is contained in:
For more background information on ABCI, motivations, and tendermint, please visit the documentation.
The two guides to focus on are the Application Development Guide
and Using ABCI-CLI
.
To compile the protobuf file, run:
cd $GOPATH/src/github.com/tendermint/tendermint/; make protoc_abci
See protoc --help
and the Protocol Buffers site
for details on compiling for other languages. Note we also include a GRPC
service definition.
The abci-cli
is a simple tool for debugging ABCI servers and running some
example apps. To install it:
go get github.com/tendermint/abci
cd $GOPATH/src/github.com/tendermint/abci
make get_vendor_deps
make install
We provide three implementations of the ABCI in Go:
Note the GRPC version is maintained primarily to simplify onboarding and prototyping and is not receiving the same attention to security and performance as the others
The simplest implementation just uses function calls within Go. This means ABCI applications written in Golang can be compiled with TendermintCore and run as a single binary.
See the examples below for more information.
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 with a signed Varint
For example, if the Protobuf3 encoded ABCI message is 0xDEADBEEF
(4 bytes), the length-prefixed message is 0x08DEADBEEF
, since 0x08
is the signed varint
encoding of 4
. If the Protobuf3 encoded ABCI message is 65535 bytes long, the length-prefixed message would be like 0xFEFF07...
.
Note the benefit of using this varint
encoding over the old version (where integers were encoded as <len of len><big endian len>
is that
it is the standard way to encode integers in Protobuf. It is also generally shorter.
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. The implementation has also not received as much testing or review.
Note the length-prefixing used in the socket implementation does not apply for GRPC.
The abci-cli
tool wraps an ABCI client and can be used for probing/testing an ABCI server.
For instance, abci-cli test
will run a test sequence against a listening server running the Counter application (see below).
It can also be used to run some example applications.
See the documentation for more details.
Check out the variety of example applications in the example directory.
It also contains the code refered to by the counter
and kvstore
apps; these apps come
built into the abci-cli
binary.
The abci-cli counter
application illustrates nonce checking in transactions. It's code looks like:
func cmdCounter(cmd *cobra.Command, args []string) error {
app := counter.NewCounterApplication(flagSerial)
logger := log.NewTMLogger(log.NewSyncWriter(os.Stdout))
// Start the listener
srv, err := server.NewServer(flagAddrC, flagAbci, app)
if err != nil {
return err
}
srv.SetLogger(logger.With("module", "abci-server"))
if err := srv.Start(); err != nil {
return err
}
// Wait forever
cmn.TrapSignal(func() {
// Cleanup
srv.Stop()
})
return nil
}
and can be found in this file.
The abci-cli kvstore
application, which illustrates a simple key-value Merkle tree
func cmdKVStore(cmd *cobra.Command, args []string) error {
logger := log.NewTMLogger(log.NewSyncWriter(os.Stdout))
// Create the application - in memory or persisted to disk
var app types.Application
if flagPersist == "" {
app = kvstore.NewKVStoreApplication()
} else {
app = kvstore.NewPersistentKVStoreApplication(flagPersist)
app.(*kvstore.PersistentKVStoreApplication).SetLogger(logger.With("module", "kvstore"))
}
// Start the listener
srv, err := server.NewServer(flagAddrD, flagAbci, app)
if err != nil {
return err
}
srv.SetLogger(logger.With("module", "abci-server"))
if err := srv.Start(); err != nil {
return err
}
// Wait forever
cmn.TrapSignal(func() {
// Cleanup
srv.Stop()
})
return nil
}