#include "MainHandler.h" #include "validateODBCConnectionString.h" #include "ODBCSource.h" #include "ODBCSink.h" #include "getIdentifierQuote.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "config.h" #include #include namespace DB { namespace { std::unique_ptr parseColumns(std::string && column_string) { std::unique_ptr sample_block = std::make_unique(); auto names_and_types = NamesAndTypesList::parse(column_string); for (const NameAndTypePair & column_data : names_and_types) sample_block->insert({column_data.type, column_data.name}); return sample_block; } } void ODBCHandler::processError(HTTPServerResponse & response, const std::string & message) { response.setStatusAndReason(HTTPResponse::HTTP_INTERNAL_SERVER_ERROR); if (!response.sent()) *response.send() << message << '\n'; LOG_WARNING(log, fmt::runtime(message)); } void ODBCHandler::handleRequest(HTTPServerRequest & request, HTTPServerResponse & response, const ProfileEvents::Event & /*write_event*/) { HTMLForm params(getContext()->getSettingsRef(), request); LOG_TRACE(log, "Request URI: {}", request.getURI()); size_t version; if (!params.has("version")) version = 0; /// assumed version for too old servers which do not send a version else { String version_str = params.get("version"); if (!tryParse(version, version_str)) { processError(response, "Unable to parse 'version' string in request URL: '" + version_str + "' Check if the server and library-bridge have the same version."); return; } } if (version != XDBC_BRIDGE_PROTOCOL_VERSION) { /// backwards compatibility is considered unnecessary for now, just let the user know that the server and the bridge must be upgraded together processError(response, "Server and library-bridge have different versions: '" + std::to_string(version) + "' vs. '" + std::to_string(LIBRARY_BRIDGE_PROTOCOL_VERSION) + "'"); return; } if (mode == "read") params.read(request.getStream()); if (mode == "read" && !params.has("query")) { processError(response, "No 'query' in request body"); return; } if (!params.has("connection_string")) { processError(response, "No 'connection_string' in request URL"); return; } if (!params.has("sample_block")) { processError(response, "No 'sample_block' in request URL"); return; } std::string format = params.get("format", "RowBinary"); std::string connection_string = params.get("connection_string"); bool use_connection_pooling = params.getParsed("use_connection_pooling", true); LOG_TRACE(log, "Connection string: '{}'", connection_string); LOG_TRACE(log, "Use pooling: {}", use_connection_pooling); UInt64 max_block_size = DEFAULT_BLOCK_SIZE; if (params.has("max_block_size")) { std::string max_block_size_str = params.get("max_block_size", ""); if (max_block_size_str.empty()) { processError(response, "Empty max_block_size specified"); return; } max_block_size = parse(max_block_size_str); } std::string sample_block_string = params.get("sample_block"); std::unique_ptr sample_block; try { sample_block = parseColumns(std::move(sample_block_string)); } catch (const Exception & ex) { processError(response, "Invalid 'sample_block' parameter in request body '" + ex.message() + "'"); LOG_ERROR(log, fmt::runtime(ex.getStackTraceString())); return; } WriteBufferFromHTTPServerResponse out(response, request.getMethod() == Poco::Net::HTTPRequest::HTTP_HEAD); try { nanodbc::ConnectionHolderPtr connection_handler; if (use_connection_pooling) connection_handler = ODBCPooledConnectionFactory::instance().get( validateODBCConnectionString(connection_string), getContext()->getSettingsRef().odbc_bridge_connection_pool_size); else connection_handler = std::make_shared(validateODBCConnectionString(connection_string)); if (mode == "write") { if (!params.has("db_name")) { processError(response, "No 'db_name' in request URL"); return; } if (!params.has("table_name")) { processError(response, "No 'table_name' in request URL"); return; } std::string db_name = params.get("db_name"); std::string table_name = params.get("table_name"); LOG_TRACE(log, "DB name: '{}', table name: '{}'", db_name, table_name); auto quoting_style = IdentifierQuotingStyle::None; #if USE_ODBC quoting_style = getQuotingStyle(connection_handler); #endif auto & read_buf = request.getStream(); auto input_format = getContext()->getInputFormat(format, read_buf, *sample_block, max_block_size); auto sink = std::make_shared(std::move(connection_handler), db_name, table_name, *sample_block, getContext(), quoting_style); QueryPipeline pipeline(std::move(input_format)); pipeline.complete(std::move(sink)); CompletedPipelineExecutor executor(pipeline); executor.execute(); writeStringBinary("Ok.", out); } else { std::string query = params.get("query"); LOG_TRACE(log, "Query: {}", query); auto writer = FormatFactory::instance().getOutputFormatParallelIfPossible(format, out, *sample_block, getContext()); auto source = std::make_shared(std::move(connection_handler), query, *sample_block, max_block_size); QueryPipeline pipeline(std::move(source)); pipeline.complete(std::move(writer)); CompletedPipelineExecutor executor(pipeline); executor.execute(); } } catch (...) { auto message = getCurrentExceptionMessage(true); response.setStatusAndReason( Poco::Net::HTTPResponse::HTTP_INTERNAL_SERVER_ERROR); // can't call process_error, because of too soon response sending try { writeStringBinary(message, out); out.finalize(); } catch (...) { tryLogCurrentException(log); } tryLogCurrentException(log); } try { out.finalize(); } catch (...) { tryLogCurrentException(log); } } }