#pragma once #include #include #include namespace DB { /// Handler for requests to Library Dictionary Source, returns response in RowBinary format. /// When a library dictionary source is created, it sends 'extDict_libNew' request to library bridge (which is started on first /// request to it, if it was not yet started). On this request a new sharedLibrayHandler is added to a /// sharedLibraryHandlerFactory by a dictionary uuid. With 'extDict_libNew' request come: library_path, library_settings, /// names of dictionary attributes, sample block to parse block of null values, block of null values. Everything is /// passed in binary format and is urlencoded. When dictionary is cloned, a new handler is created. /// Each handler is unique to dictionary. class ExternalDictionaryLibraryBridgeRequestHandler : public HTTPRequestHandler, WithContext { public: explicit ExternalDictionaryLibraryBridgeRequestHandler(ContextPtr context_); void handleRequest(HTTPServerRequest & request, HTTPServerResponse & response, const ProfileEvents::Event & write_event) override; private: static constexpr auto FORMAT = "RowBinary"; LoggerPtr log; }; // Handler for checking if the external dictionary library is loaded (used for handshake) class ExternalDictionaryLibraryBridgeExistsHandler : public HTTPRequestHandler, WithContext { public: explicit ExternalDictionaryLibraryBridgeExistsHandler(ContextPtr context_); void handleRequest(HTTPServerRequest & request, HTTPServerResponse & response, const ProfileEvents::Event & write_event) override; private: LoggerPtr log; }; /// Handler for requests to catboost library. The call protocol is as follows: /// (1) Send a "catboost_GetTreeCount" request from the server to the bridge. It contains a library path (e.g /home/user/libcatboost.so) and /// a model path (e.g. /home/user/model.bin). This loads the catboost library handler associated with the model path, then executes /// GetTreeCount() on the library handler and sends the result back to the server. /// (2) Send "catboost_Evaluate" from the server to the bridge. It contains a model path and the features to run the interference on. Step /// (2) is called multiple times (once per chunk) by the server. /// /// We would ideally like to have steps (1) and (2) in one atomic handler but can't because the evaluation on the server side is divided /// into two dependent phases: FunctionCatBoostEvaluate::getReturnTypeImpl() and ::executeImpl(). So the model may in principle be unloaded /// from the library-bridge between steps (1) and (2). Step (2) checks if that is the case and fails gracefully. This is okay because that /// situation considered exceptional and rare. /// /// An update of a model is performed by unloading it. The first call to "catboost_GetTreeCount" brings it into memory again. /// /// Further handlers are provided for unloading a specific model, for unloading all models or for retrieving information about the loaded /// models for display in a system view. class CatBoostLibraryBridgeRequestHandler : public HTTPRequestHandler, WithContext { public: explicit CatBoostLibraryBridgeRequestHandler(ContextPtr context_); void handleRequest(HTTPServerRequest & request, HTTPServerResponse & response, const ProfileEvents::Event & write_event) override; private: LoggerPtr log; }; // Handler for pinging the library-bridge for catboost access (used for handshake) class CatBoostLibraryBridgeExistsHandler : public HTTPRequestHandler, WithContext { public: explicit CatBoostLibraryBridgeExistsHandler(ContextPtr context_); void handleRequest(HTTPServerRequest & request, HTTPServerResponse & response, const ProfileEvents::Event & write_event) override; private: LoggerPtr log; }; }