SBE is an OSI layer 6 presentation for encoding and decoding binary application messages for low-latency financial applications. This repository contains the reference implementations in Java, C++, Golang, C#, and Rust.
More details on the design and usage of SBE can be found on the Wiki.
An XSD for SBE specs can be found here. Please address questions about the specification to the SBE FIX community.
For the latest version information and changes see the Change Log with downloads at Maven Central.
The Java and C++ SBE implementations work very efficiently with the Aeron messaging system for low-latency and high-throughput communications. The Java SBE implementation has a dependency on Agrona for its buffer implementations. Commercial support is available from sales@real-logic.co.uk.
Binaries and dependency information for Maven, Ivy, Gradle, and others can be found at http://search.maven.org.
Example for Maven:
<dependency>
<groupId>uk.co.real-logic</groupId>
<artifactId>sbe-all</artifactId>
<version>${sbe.tool.version}</version>
</dependency>
Build the project with Gradle using this build.gradle file.
Full clean build:
$ ./gradlew
Run the Java examples
$ ./gradlew runJavaExamples
Jars for the executable, source, and javadoc for the various modules can be found in the following directories:
sbe-benchmarks/build/libs
sbe-samples/build/libs
sbe-tool/build/libs
sbe-all/build/libs
An example to execute a Jar from command line using the 'all' jar which includes the Agrona dependency:
java -Dsbe.generate.ir=true -Dsbe.target.language=Cpp -Dsbe.target.namespace=sbe -Dsbe.output.dir=include/gen -Dsbe.errorLog=yes -jar sbe-all/build/libs/sbe-all-${SBE_TOOL_VERSION}.jar my-sbe-messages.xml
NOTE: Linux, Mac OS, and Windows only for the moment. See FAQ. Windows builds have been tested with Visual Studio Express 12.
For convenience, the cppbuild
script does a full clean, build, and test of all targets as a Release build.
$ ./cppbuild/cppbuild
If you are comfortable using CMake, then a full clean, build, and test looks like:
$ mkdir -p cppbuild/Debug
$ cd cppbuild/Debug
$ cmake ../..
$ cmake --build . --clean-first
$ ctest
Note: The C++ build includes the C generator. Currently, the C generator is a work in progress.
First build using Gradle to generate the SBE jar and then use it to generate the golang code for testing.
$ ./gradlew
$ ./gradlew generateGolangCodecs
For convenience on Linux, a gnu Makefile is provided that runs some tests and contains some examples.
$ cd gocode
# make # test, examples, bench
Go supports both generating Go structs with encode / decode methods, and flyweights like the other languages. Structs are generated by default for compatibility. Set sbe.go.generate.generate.flyweights=true
to generate flyweights.
Users of golang generated code should see the user documentation.
Developers wishing to enhance the golang generator should see the developer documentation
Users of CSharp generated code should see the user documentation.
Developers wishing to enhance the CSharp generator should see the developer documentation
The SBE Rust generator will produce 100% safe rust crates (no unsafe
code will be generated). Generated crates do
not have any dependencies on any libraries (including no SBE libraries). If you don't yet have Rust installed
see Rust: Getting Started
Generate the Rust codecs
$ ./gradlew generateRustCodecs
Run the Rust test from Gradle
$ ./gradlew runRustTests
Or run test directly with Cargo
$ cd rust
$ cargo test
Copyright 2013-2024 Real Logic Limited.
Copyright 2017 MarketFactory Inc.
Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at
https://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License.