# CHPP Integration This guide focuses on integrating and porting CHPP to your desired platform. For implementation details please refer to the included README.md instead. The minimum typical steps are provided. ## CHPP Transport Layer Integration ### 1. Platform-specific functionality Implement the platform-specific functionality utilized by CHPP. These can be found in chpp/platform and include: 1. Memory allocation and deallocation 1. Thread notification mechanisms and thread signalling 1. Mutexes (or other resource sharing mechanism) 1. Condition variables 1. Logging (including defining CHPP_LOGx, CHPP_LOG_OOM, PRIuSIZE) 1. CRC32 (a half-byte algorithm is provided in platform/shared, but it is recommended to use a platform-optimized / hardware algorithm when available) Sample Linux implementations are provided. ### 1. Link-Layer APIs You need to create a `ChppLinkApi` API struct and a `ChppLinkConfiguration` configuration struct for your link layer. See details in link.h. ### 1. Initialization In order to initialize CHPP, it is necessary to 1. Allocate the linkContext, transportContext, and appContext structs that hold the state for each instance of the application, transport, and link layers (in any order) 1. Call the layers’ initialization functions, chppTransportInit and chppAppInit (in any order) 1. Call chppWorkThreadStart to start the main thread for CHPP's Transport Layer ### 1. Testing Several unit tests are provided in transport_test.c. In addition, loopback functionality is already implemented in CHPP, and can be used for testing. For details on crafting a loopback datagram, please refer to README.md and the transport layer unit tests (transport_test.c). ### 1. Termination In order to terminate CHPP's main transport layer thread, it is necessary to 1. Call chppWorkThreadStop() to stop the main worker thread. 1. Call the layers’ deinitialization functions, chppTransportDeinit and chppAppDeinit (in any order) 1. Deallocate the transportContext, appContext, and the linkContext structs ### 1. Single-threaded systems If the system does not support multi-threading, the chppWorkThreadHandleSignal method can be used to directly handle signals without using chppWorkThreadStart. Note that the system MUST replicate the high-level behavior of chppWorkThreadStart exactly in this case. More details in the documentation of chppWorkThreadHandleSignal. For such systems, chppTransportGetTimeUntilNextDoWorkNs() can be used to replicate the functionality of chppNotifierTimedWait(). chppTransportGetTimeUntilNextDoWorkNs() returns the time until chppTransportDoWork() must be called again. ## CHPP Services Integration CHPP provides several predefined services (including Loopback Test, Service Discovery), as well as three standard services that follow the CHRE PAL API to simplify integration and testing. CHPP allows for custom services as well, as described in README.md. The standard services included in CHPP are 1. WWAN 1. WiFi 1. GNSS In order to integrate the standard services using the CHRE PAL API, please refer to each service's interface as provided in include/chre/pal/