Continuous Integration Status
Branch | GCC 5.4 and 8.0 | Visual Studio 2015 | |
---|---|---|---|
Xcode 7.3 and 9.4 | Visual Studio 2017 | ||
Clang 3.4 and 6.0 | MinGW-w64 | ||
master | |||
development |
The C++ Micro Services project is a collection of components for building modular and dynamic service-oriented applications. It is based on OSGi, but tailored to support native cross-platform solutions.
Proper usage of C++ Micro Services patterns and concepts leads to systems with one or more of the following properties:
- Re-use of software components
- Loose coupling between service providers and consumers
- Separation of concerns, based on a service-oriented design
- Clean APIs based on service interfaces
- Extensible and reconfigurable systems
None, except a recent enough C++ compiler. All third-party library dependencies are included and mostly used for implementation details.
The library makes use of C++14 language and library features and compiles on many different platforms.
Recommended minimum required compiler versions:
- GCC 5.4
- Clang 3.4
- Clang from Xcode 8.0
- Visual Studio 2015
You may use older compilers, but certain functionality may not be available. Check the warnings printed during configuration of your build tree. The following are the absolute minimum requirements:
- GCC 5.1
- Clang 3.4
- Clang from Xcode 7.3
- Visual Studio 2015 (MSVC++ 14.0)
Below is a list of tested compiler/OS combinations:
- GCC 5.4 (Ubuntu 14.04) via Travis CI
- GCC 8.0 (Ubuntu 14.04) via Travis CI
- Clang 3.4 (Ubuntu 14.04) via Travis CI
- Clang 6.0 (Ubuntu 14.04) via Travis CI
- Clang Xcode 7.3 (OS X 10.11) via Travis CI
- Clang Xcode 9.4 (OS X 10.13) via Travis CI
- Visual Studio 2015 via Appveyor
- Visual Studio 2017 via Appveyor
- MinGW-w64 via Appveyor
The C++ Micro Services project was initially developed at the German Cancer Research Center. Its source code is hosted as a GitHub Project. See the COPYRIGHT file in the top-level directory for detailed copyright information.
This project is licensed under the Apache License v2.0.
CppMicroServices.org welcomes developers with different backgrounds and a broad range of experience. A diverse and inclusive community will create more great ideas, provide more unique perspectives, and produce more outstanding code. Our aim is to make the CppMicroServices community welcoming to everyone.
To provide clarity of what is expected of our members, CppMicroServices has adopted the code of conduct defined by contributor-covenant.org. This document is used across many open source communities, and we believe it articulates our values well.
Please refer to the :any:`Code of Conduct <code-of-conduct>` for further details.
Essentially, the C++ Micro Services library provides you with a powerful dynamic service registry on top of a managed lifecycle. The framework manages, among other things, logical units of modularity called bundles that are contained in shared or static libraries. Each bundle within a library has an associated :any:`cppmicroservices::BundleContext` object, through which the service registry is accessed.
To query the registry for a service object implementing one or more specific interfaces, the code would look like this:
#include "cppmicroservices/BundleContext.h"
#include "SomeInterface.h"
using namespace cppmicroservices;
void UseService(BundleContext context)
{
auto serviceRef = context.GetServiceReference<SomeInterface>();
if (serviceRef)
{
auto service = context.GetService(serviceRef);
if (service) { /* do something */ }
}
}
Registering a service object against a certain interface looks like this:
#include "cppmicroservices/BundleContext.h"
#include "SomeInterface.h"
using namespace cppmicroservices;
void RegisterSomeService(BundleContext context, const std::shared_ptr<SomeInterface>& service)
{
context.RegisterService<SomeInterface>(service);
}
The OSGi service model additionally allows to annotate services with properties and using these properties during service look-ups. It also allows to track the life-cycle of service objects. Please see the Documentation for more examples and tutorials and the API reference. There is also a blog post about OSGi Lite for C++.
The Git repository contains two eternal branches, master and development. The master branch contains production quality code and its HEAD points to the latest released version. The development branch is the default branch and contains the current state of development. Pull requests by default target the development branch. See the :ref:`CONTRIBUTING <contributing>` file for details about the contribution process.