This API Server was generated by the [OpenAPI Generator](https://openapi-generator.tech) project.
OpenXG is a series of 5G/6G-oriented open source projects developed by Open Source Radio Access Network Community. Currently, the community has developed the project from five aspects, including:
It uses the [Pistache](https://github.com/oktal/pistache) Framework.
* Core network projects, 3GPP R15/R16 specification compliant network functions have been developed, including AMF, SMF, NRF, UPF, AUSF, UDM, AUSF, NWDAF, etc. Message level stateless mechanism is introduced in to the core network to make it better adapted to the cloud environment.
* Open hardware reference design, the reference design of heterogeneous computing hardware, white-box radio frontend, and open source UE hardware are also opened to the community.
* Radio access network projects, currently CU, DU and UE protocol software are developed, which is mainly compliant with 3GPP R15/R16 specifications. The software is developed by a modular-design, and which is flexible to customize to different vertical scenarios.
* AI-enabled management projects, three kinds of projects are developed under this category, including the AIEngine, which is aimed to provide the core AI capability for the management, the network measurement, and computing network for cloud-edge-end collaborative.
* Uses cases and applications in verticals, some key use cases when applying OpenXG to vertical scenarios are also developed as a reference for the community.
## Files organization
# 2. License
The Pistache C++ REST server generator creates three folders:
The OpenXG series projects are distributed under OS-RAN license, which is derived from the Fair, Reasonable, and Non-Discriminatory principle. See [online version for details](http://www.openxg.org.cn/?falu_69.html).
-`api`: This folder contains the handlers for each method specified in the OpenAPI definition. Every handler extracts
the path and body parameters (if any) from the requests and tries to parse and possibly validate them.
Once this step is completed, the main API class calls the corresponding abstract method that should be implemented
by the developer (a basic implementation is provided under the `impl` folder)
-`impl`: As written above, the implementation folder contains, for each API, the corresponding implementation class,
which extends the main API class and implements the abstract methods.
Every method receives the path and body parameters as constant reference variables and a reference to the response
object, that should be filled with the right response and sent at the end of the method with the command: