= JVpp JVpp is JNI based Java API for VPP. == Features It is: * Asynchronous * Fully generated * Lightweight == Architecture JVpp and JNI JVpp Java /----------\ /--------\ /------------\ /------\ | VppConn* | | JVpp | | Callbacks | | DTOs | \----+-----/ \----+---/ \------+-----/ \------/ ^ ^ ^ | implements | implements | implements /----+---------\ /----+-------\ /------+-----------\ | VppConnImpl* +<--------+ JVppImpl | | GlobalCallback | \--------------/ uses \---+--------/ \-------+----------/ | ^ | uses | calls back | | -------------------------------|-----------------------|--------------------- | | | +---------------+ C JNI | | v | /------------\ /---+-------+--\ +---->+ jvpp.h* | | +-----+ \------------/ | jvpp.c* | | +-----+ /------------\ \--------------/ +---->+ jvpp_gen.h | \------------/ * Components marked with an asterisk contain manually crafted Java code, which in addition to generated classes form jvpp. Exception applies to Callbacks and DTOs, since there are manually crafted marker interfaces in callback and dto package (dto/JVppRequest, dto/JVppReply, dto/JVppDump, dto/JVppReplyDump, callback/JVppCallback) Note: jvpp.c calls back the GlobalCallback instance with every response. An instance of the GlobalCallback is provided to jvpp.c by VppConnImpl while connecting to VPP. Part of the JVpp is also Future facade. It is asynchronous API returning Future objects on top of low level JVpp. Future facade /-------------\ /--------------------\ | FutureJVpp* | +-->+ FutureJVppRegistry | \-----+-------/ | \----------+---------/ ^ | ^ | implements | uses | uses | | | /--------+----------\ | /----------+---------\ | FutureJVppFacade* +----+ | FutureJVppCallback | \---------+---------/ \----------+---------/ | | ---------------|-----------------------------|------------------------------- | uses | implements JVpp Java | | | | /---------\ | | | JVpp +<--+ | \----+----/ | ^ | | implements v /----+-------\ /----------+-------\ | JVppImpl | | GlobalCallback | \------------/ \------------------/ Another useful utility of the JVpp is Callback facade. It is asynchronous API capable of calling specific callback instance (provided when performing a call) per call. Callback facade /--------------\ /----------------------\ | CallbackJVpp | +-->+ CallbackJVppRegistry | \-----+--------/ | \----------+-----------/ ^ | ^ | implements | uses | uses | | | /--------+-----------\ | /----------+-----------\ | CallbackJVppFacade +-----+ | CallbackJVppCallback | \---------+----------/ \----------+-----------/ | | ---------------|-----------------------------|------------------------------- | uses | implements JVpp Java | | | | /---------\ | | | JVpp +<--+ | \----+----/ | ^ | | implements v /----+-------\ /----------+-------\ | JVppImpl | | GlobalCallback | \------------/ \------------------/ == Package structure * *org.openvpp.jvpp* - top level package for generated JVpp interface+ implementation and hand-crafted VppConnection interface + implementation ** *dto* - package for DTOs generated from VPP API structures + base/marker hand-crafted interfaces ** *callback* - package for low-level JVpp callbacks and a global callback interface implementing each of the low-level JVppcallbacks ** *future* - package for future based facade on top of JVpp and callbacks ** *callfacade* - package for callback based facade on top of JVpp and callbacks. Allowing users to provide callback per request ** *test* - package for JVpp standalone tests. Can also serve as samples for JVpp. C code is structured into 3 files: * *jvpp.c* - includes jvpp.h and jvpp_gen.h + contains hand crafted code for: ** VPP connection open/close ** Rx thread to java thread attach ** Callback instance store * *jvpp.h* - contains hand-crafted macros and structures used by jvpp.c * *jvpp_gen.h* - contains JNI compatible handlers for each VPP request and reply == Code generators All of the required code except the base/marker interfaces is generated using simple python2 code generators. The generators use __defs_vpp_papi.py__ input file produced by __vppapigen__ from vpe.api file. === JNI compatible C code Produces __jvpp_gen.h__ file containing JNI compatible handlers for each VPP request and reply. [NOTE] ==== Source: jvpp_c_gen.py ==== === Request/Reply DTOs For all the structures in __defs_vpp_papi.py__ a POJO DTO is produced. Logically, there are 4 types of DTOs: * Request - requests that can be sent to VPP and only a single response is expected * DumpRequest - requests that can be sent to VPP and a stream of responses is expected * Reply - reply to a simple request or a single response from dump triggered response stream * ReplyDump - collection of replies from a single dump request * Notifications/Events - Not implemented yet [NOTE] ==== Source: dto_gen.py ==== === JVpp Produces __JVpp.java__ and __JVppImpl.java__. This is the layer right above JNI compatible C code. [NOTE] ==== Source: jvpp_impl_gen.py ==== === Callbacks Produces callback interface for each VPP reply + a global callback interface called __JVppGlobalCallback.java__ aggregating all of the callback interfaces. The JNI compatible C code expects only a single instance of this global callback and calls it with every reply. [NOTE] ==== Source: callback_gen.py ==== === Future facade Produces an asynchronous facade on top of JVpp and callbacks, which returns a Future that provides matching reply once VPP invocation finishes. Sources produced: __FutureJVpp.java, FutureJVppFacade.java and FutureJVppCallback.java__ [NOTE] ==== Source: jvpp_future_facade_gen.py ==== === Callback facade Similar to future facade, only this facade takes callback objects as part of the invocation and the callback is called with result once VPP invocation finishes. Sources produced: __CallbackJVpp.java, CallbackJVppFacade.java and CallbackJVppCallback.java__ [NOTE] ==== Source: jvpp_callback_facade_gen.py ====