#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace DB { namespace ErrorCodes { extern const int NUMBER_OF_ARGUMENTS_DOESNT_MATCH; extern const int NETWORK_ERROR; extern const int BAD_ARGUMENTS; extern const int LOGICAL_ERROR; } static constexpr auto bad_arguments_error_message = "Storage URL requires 1-4 arguments: " "url, name of used format (taken from file extension by default), " "optional compression method, optional headers (specified as `headers('name'='value', 'name2'='value2')`)"; static bool urlWithGlobs(const String & uri) { return (uri.find('{') != std::string::npos && uri.find('}') != std::string::npos) || uri.find('|') != std::string::npos; } IStorageURLBase::IStorageURLBase( const String & uri_, ContextPtr context_, const StorageID & table_id_, const String & format_name_, const std::optional & format_settings_, const ColumnsDescription & columns_, const ConstraintsDescription & constraints_, const String & comment, const String & compression_method_, const ReadWriteBufferFromHTTP::HTTPHeaderEntries & headers_, const String & http_method_, ASTPtr partition_by_) : IStorage(table_id_) , uri(uri_) , compression_method(compression_method_) , format_name(format_name_) , format_settings(format_settings_) , headers(headers_) , http_method(http_method_) , partition_by(partition_by_) { FormatFactory::instance().checkFormatName(format_name); StorageInMemoryMetadata storage_metadata; if (columns_.empty()) { auto columns = getTableStructureFromData(format_name, uri, compression_method, headers, format_settings, context_); storage_metadata.setColumns(columns); } else storage_metadata.setColumns(columns_); storage_metadata.setConstraints(constraints_); storage_metadata.setComment(comment); setInMemoryMetadata(storage_metadata); } namespace { ReadWriteBufferFromHTTP::HTTPHeaderEntries getHeaders(const ReadWriteBufferFromHTTP::HTTPHeaderEntries & headers_) { ReadWriteBufferFromHTTP::HTTPHeaderEntries headers(headers_.begin(), headers_.end()); // Propagate OpenTelemetry trace context, if any, downstream. if (CurrentThread::isInitialized()) { const auto & thread_trace_context = CurrentThread::get().thread_trace_context; if (thread_trace_context.trace_id != UUID()) { headers.emplace_back("traceparent", thread_trace_context.composeTraceparentHeader()); if (!thread_trace_context.tracestate.empty()) { headers.emplace_back("tracestate", thread_trace_context.tracestate); } } } return headers; } class StorageURLSource : public ISource { using URIParams = std::vector>; public: struct URIInfo { using FailoverOptions = std::vector; std::vector uri_list_to_read; std::atomic next_uri_to_read = 0; }; using URIInfoPtr = std::shared_ptr; void onCancel() override { std::lock_guard lock(reader_mutex); if (reader) reader->cancel(); } static void setCredentials(Poco::Net::HTTPBasicCredentials & credentials, const Poco::URI & request_uri) { const auto & user_info = request_uri.getUserInfo(); if (!user_info.empty()) { std::size_t n = user_info.find(':'); if (n != std::string::npos) { credentials.setUsername(user_info.substr(0, n)); credentials.setPassword(user_info.substr(n + 1)); } } } StorageURLSource( URIInfoPtr uri_info_, const std::string & http_method, std::function callback, const String & format, const std::optional & format_settings, String name_, const Block & sample_block, ContextPtr context, const ColumnsDescription & columns, UInt64 max_block_size, const ConnectionTimeouts & timeouts, const String & compression_method, size_t download_threads, const ReadWriteBufferFromHTTP::HTTPHeaderEntries & headers_ = {}, const URIParams & params = {}, bool glob_url = false) : ISource(sample_block), name(std::move(name_)), uri_info(uri_info_) { auto headers = getHeaders(headers_); /// Lazy initialization. We should not perform requests in constructor, because we need to do it in query pipeline. initialize = [=, this](const URIInfo::FailoverOptions & uri_options) { if (uri_options.empty()) throw Exception(ErrorCodes::LOGICAL_ERROR, "Got empty url list"); auto first_option = uri_options.begin(); read_buf = getFirstAvailableURLReadBuffer( first_option, uri_options.end(), context, params, http_method, callback, timeouts, compression_method, credentials, headers, glob_url, uri_options.size() == 1, download_threads); auto input_format = FormatFactory::instance().getInput(format, *read_buf, sample_block, context, max_block_size, format_settings); QueryPipelineBuilder builder; builder.init(Pipe(input_format)); builder.addSimpleTransform( [&](const Block & cur_header) { return std::make_shared(cur_header, columns, *input_format, context); }); pipeline = std::make_unique(QueryPipelineBuilder::getPipeline(std::move(builder))); reader = std::make_unique(*pipeline); }; } String getName() const override { return name; } Chunk generate() override { while (true) { if (!reader) { auto current_uri_pos = uri_info->next_uri_to_read.fetch_add(1); if (current_uri_pos >= uri_info->uri_list_to_read.size()) return {}; auto current_uri = uri_info->uri_list_to_read[current_uri_pos]; std::lock_guard lock(reader_mutex); initialize(current_uri); } Chunk chunk; std::lock_guard lock(reader_mutex); if (reader->pull(chunk)) return chunk; pipeline->reset(); reader.reset(); } } static std::unique_ptr getFirstAvailableURLReadBuffer( std::vector::const_iterator & option, const std::vector::const_iterator & end, ContextPtr context, const URIParams & params, const String & http_method, std::function callback, const ConnectionTimeouts & timeouts, const String & compression_method, Poco::Net::HTTPBasicCredentials & credentials, const ReadWriteBufferFromHTTP::HTTPHeaderEntries & headers, bool glob_url, bool delay_initialization, size_t download_threads) { String first_exception_message; ReadSettings read_settings = context->getReadSettings(); size_t options = std::distance(option, end); for (; option != end; ++option) { bool skip_url_not_found_error = glob_url && read_settings.http_skip_not_found_url_for_globs && option == std::prev(end); auto request_uri = Poco::URI(*option); for (const auto & [param, value] : params) request_uri.addQueryParameter(param, value); setCredentials(credentials, request_uri); const auto settings = context->getSettings(); try { if (download_threads > 1) { try { ReadWriteBufferFromHTTP buffer( request_uri, Poco::Net::HTTPRequest::HTTP_HEAD, callback, timeouts, credentials, settings.max_http_get_redirects, DBMS_DEFAULT_BUFFER_SIZE, read_settings, headers, ReadWriteBufferFromHTTP::Range{0, std::nullopt}, &context->getRemoteHostFilter(), true, /* use_external_buffer */ false, /* skip_url_not_found_error */ skip_url_not_found_error); Poco::Net::HTTPResponse res; for (size_t i = 0; i < settings.http_max_tries; ++i) { try { buffer.callWithRedirects(res, Poco::Net::HTTPRequest::HTTP_HEAD, true); break; } catch (const Poco::Exception & e) { LOG_TRACE( &Poco::Logger::get("StorageURLSource"), "HTTP HEAD request to `{}` failed at try {}/{}. " "Error: {}.", request_uri.toString(), i + 1, settings.http_max_tries, e.displayText()); if (!ReadWriteBufferFromHTTP::isRetriableError(res.getStatus())) { throw; } } } // to check if Range header is supported, we need to send a request with it set const bool supports_ranges = (res.has("Accept-Ranges") && res.get("Accept-Ranges") == "bytes") || (res.has("Content-Range") && res.get("Content-Range").starts_with("bytes")); LOG_TRACE( &Poco::Logger::get("StorageURLSource"), fmt::runtime(supports_ranges ? "HTTP Range is supported" : "HTTP Range is not supported")); if (supports_ranges && res.getStatus() == Poco::Net::HTTPResponse::HTTP_PARTIAL_CONTENT && res.hasContentLength()) { LOG_TRACE( &Poco::Logger::get("StorageURLSource"), "Using ParallelReadBuffer with {} workers with chunks of {} bytes", download_threads, settings.max_download_buffer_size); auto read_buffer_factory = std::make_unique( res.getContentLength(), settings.max_download_buffer_size, request_uri, http_method, callback, timeouts, credentials, settings.max_http_get_redirects, DBMS_DEFAULT_BUFFER_SIZE, read_settings, headers, &context->getRemoteHostFilter(), delay_initialization, /* use_external_buffer */ false, /* skip_url_not_found_error */ skip_url_not_found_error); return wrapReadBufferWithCompressionMethod( std::make_unique( std::move(read_buffer_factory), threadPoolCallbackRunner(IOThreadPool::get()), download_threads), chooseCompressionMethod(request_uri.getPath(), compression_method), settings.zstd_window_log_max); } } catch (const Poco::Exception & e) { LOG_TRACE( &Poco::Logger::get("StorageURLSource"), "Failed to setup ParallelReadBuffer because of an exception:\n{}.\nFalling back to the single-threaded " "buffer", e.displayText()); } } LOG_TRACE(&Poco::Logger::get("StorageURLSource"), "Using single-threaded read buffer"); return wrapReadBufferWithCompressionMethod( std::make_unique( request_uri, http_method, callback, timeouts, credentials, settings.max_http_get_redirects, DBMS_DEFAULT_BUFFER_SIZE, read_settings, headers, ReadWriteBufferFromHTTP::Range{}, &context->getRemoteHostFilter(), delay_initialization, /* use_external_buffer */ false, /* skip_url_not_found_error */ skip_url_not_found_error), chooseCompressionMethod(request_uri.getPath(), compression_method), settings.zstd_window_log_max); } catch (...) { if (first_exception_message.empty()) first_exception_message = getCurrentExceptionMessage(false); if (options == 1) throw; tryLogCurrentException(__PRETTY_FUNCTION__); } } throw Exception(ErrorCodes::NETWORK_ERROR, "All uri ({}) options are unreachable: {}", options, first_exception_message); } private: using InitializeFunc = std::function; InitializeFunc initialize; String name; URIInfoPtr uri_info; std::unique_ptr read_buf; std::unique_ptr pipeline; std::unique_ptr reader; /// onCancell and generate can be called concurrently and both of them /// have R/W access to reader pointer. std::mutex reader_mutex; Poco::Net::HTTPBasicCredentials credentials; }; } StorageURLSink::StorageURLSink( const String & uri, const String & format, const std::optional & format_settings, const Block & sample_block, ContextPtr context, const ConnectionTimeouts & timeouts, const CompressionMethod compression_method, const String & http_method) : SinkToStorage(sample_block) { std::string content_type = FormatFactory::instance().getContentType(format, context, format_settings); std::string content_encoding = toContentEncodingName(compression_method); write_buf = wrapWriteBufferWithCompressionMethod( std::make_unique(Poco::URI(uri), http_method, content_type, content_encoding, timeouts), compression_method, 3); writer = FormatFactory::instance().getOutputFormat(format, *write_buf, sample_block, context, {} /* write callback */, format_settings); } void StorageURLSink::consume(Chunk chunk) { writer->write(getHeader().cloneWithColumns(chunk.detachColumns())); } void StorageURLSink::onException() { if (!writer) return; onFinish(); } void StorageURLSink::onFinish() { try { writer->finalize(); writer->flush(); write_buf->finalize(); } catch (...) { /// Stop ParallelFormattingOutputFormat correctly. writer.reset(); throw; } } class PartitionedStorageURLSink : public PartitionedSink { public: PartitionedStorageURLSink( const ASTPtr & partition_by, const String & uri_, const String & format_, const std::optional & format_settings_, const Block & sample_block_, ContextPtr context_, const ConnectionTimeouts & timeouts_, const CompressionMethod compression_method_, const String & http_method_) : PartitionedSink(partition_by, context_, sample_block_) , uri(uri_) , format(format_) , format_settings(format_settings_) , sample_block(sample_block_) , context(context_) , timeouts(timeouts_) , compression_method(compression_method_) , http_method(http_method_) { } SinkPtr createSinkForPartition(const String & partition_id) override { auto partition_path = PartitionedSink::replaceWildcards(uri, partition_id); context->getRemoteHostFilter().checkURL(Poco::URI(partition_path)); return std::make_shared( partition_path, format, format_settings, sample_block, context, timeouts, compression_method, http_method); } private: const String uri; const String format; const std::optional format_settings; const Block sample_block; ContextPtr context; const ConnectionTimeouts timeouts; const CompressionMethod compression_method; const String http_method; }; std::string IStorageURLBase::getReadMethod() const { return Poco::Net::HTTPRequest::HTTP_GET; } std::vector> IStorageURLBase::getReadURIParams( const Names & /*column_names*/, const StorageSnapshotPtr & /*storage_snapshot*/, const SelectQueryInfo & /*query_info*/, ContextPtr /*context*/, QueryProcessingStage::Enum & /*processed_stage*/, size_t /*max_block_size*/) const { return {}; } std::function IStorageURLBase::getReadPOSTDataCallback( const Names & /*column_names*/, const ColumnsDescription & /* columns_description */, const SelectQueryInfo & /*query_info*/, ContextPtr /*context*/, QueryProcessingStage::Enum & /*processed_stage*/, size_t /*max_block_size*/) const { return nullptr; } ColumnsDescription IStorageURLBase::getTableStructureFromData( const String & format, const String & uri, const String & compression_method, const ReadWriteBufferFromHTTP::HTTPHeaderEntries & headers, const std::optional & format_settings, ContextPtr context) { context->getRemoteHostFilter().checkURL(Poco::URI(uri)); Poco::Net::HTTPBasicCredentials credentials; std::vector urls_to_check; if (urlWithGlobs(uri)) { size_t max_addresses = context->getSettingsRef().glob_expansion_max_elements; auto uri_descriptions = parseRemoteDescription(uri, 0, uri.size(), ',', max_addresses); for (const auto & description : uri_descriptions) { auto options = parseRemoteDescription(description, 0, description.size(), '|', max_addresses); urls_to_check.insert(urls_to_check.end(), options.begin(), options.end()); } } else { urls_to_check = {uri}; } ReadBufferIterator read_buffer_iterator = [&, it = urls_to_check.cbegin()]() mutable -> std::unique_ptr { if (it == urls_to_check.cend()) return nullptr; auto buf = StorageURLSource::getFirstAvailableURLReadBuffer( it, urls_to_check.cend(), context, {}, Poco::Net::HTTPRequest::HTTP_GET, {}, ConnectionTimeouts::getHTTPTimeouts(context), compression_method, credentials, headers, false, false, context->getSettingsRef().max_download_threads);\ ++it; return buf; }; return readSchemaFromFormat(format, format_settings, read_buffer_iterator, urls_to_check.size() > 1, context); } bool IStorageURLBase::supportsSubsetOfColumns() const { return FormatFactory::instance().checkIfFormatSupportsSubsetOfColumns(format_name); } Pipe IStorageURLBase::read( const Names & column_names, const StorageSnapshotPtr & storage_snapshot, SelectQueryInfo & query_info, ContextPtr local_context, QueryProcessingStage::Enum processed_stage, size_t max_block_size, unsigned num_streams) { auto params = getReadURIParams(column_names, storage_snapshot, query_info, local_context, processed_stage, max_block_size); ColumnsDescription columns_description; Block block_for_format; if (supportsSubsetOfColumns()) { columns_description = storage_snapshot->getDescriptionForColumns(column_names); block_for_format = storage_snapshot->getSampleBlockForColumns(columns_description.getNamesOfPhysical()); } else { columns_description = storage_snapshot->metadata->getColumns(); block_for_format = storage_snapshot->metadata->getSampleBlock(); } size_t max_download_threads = local_context->getSettingsRef().max_download_threads; if (urlWithGlobs(uri)) { size_t max_addresses = local_context->getSettingsRef().glob_expansion_max_elements; auto uri_descriptions = parseRemoteDescription(uri, 0, uri.size(), ',', max_addresses); if (num_streams > uri_descriptions.size()) num_streams = uri_descriptions.size(); /// For each uri (which acts like shard) check if it has failover options auto uri_info = std::make_shared(); for (const auto & description : uri_descriptions) uri_info->uri_list_to_read.emplace_back(parseRemoteDescription(description, 0, description.size(), '|', max_addresses)); Pipes pipes; pipes.reserve(num_streams); size_t download_threads = num_streams >= max_download_threads ? 1 : (max_download_threads / num_streams); for (size_t i = 0; i < num_streams; ++i) { pipes.emplace_back(std::make_shared( uri_info, getReadMethod(), getReadPOSTDataCallback(column_names, columns_description, query_info, local_context, processed_stage, max_block_size), format_name, format_settings, getName(), block_for_format, local_context, columns_description, max_block_size, ConnectionTimeouts::getHTTPTimeouts(local_context), compression_method, download_threads, headers, params, /* glob_url */ true)); } return Pipe::unitePipes(std::move(pipes)); } else { auto uri_info = std::make_shared(); uri_info->uri_list_to_read.emplace_back(std::vector{uri}); return Pipe(std::make_shared( uri_info, getReadMethod(), getReadPOSTDataCallback(column_names, columns_description, query_info, local_context, processed_stage, max_block_size), format_name, format_settings, getName(), block_for_format, local_context, columns_description, max_block_size, ConnectionTimeouts::getHTTPTimeouts(local_context), compression_method, max_download_threads, headers, params)); } } Pipe StorageURLWithFailover::read( const Names & column_names, const StorageSnapshotPtr & storage_snapshot, SelectQueryInfo & query_info, ContextPtr local_context, QueryProcessingStage::Enum processed_stage, size_t max_block_size, unsigned /*num_streams*/) { ColumnsDescription columns_description; Block block_for_format; if (supportsSubsetOfColumns()) { columns_description = storage_snapshot->getDescriptionForColumns(column_names); block_for_format = storage_snapshot->getSampleBlockForColumns(columns_description.getNamesOfPhysical()); } else { columns_description = storage_snapshot->metadata->getColumns(); block_for_format = storage_snapshot->metadata->getSampleBlock(); } auto params = getReadURIParams(column_names, storage_snapshot, query_info, local_context, processed_stage, max_block_size); auto uri_info = std::make_shared(); uri_info->uri_list_to_read.emplace_back(uri_options); auto pipe = Pipe(std::make_shared( uri_info, getReadMethod(), getReadPOSTDataCallback(column_names, columns_description, query_info, local_context, processed_stage, max_block_size), format_name, format_settings, getName(), block_for_format, local_context, columns_description, max_block_size, ConnectionTimeouts::getHTTPTimeouts(local_context), compression_method, local_context->getSettingsRef().max_download_threads, headers, params)); std::shuffle(uri_options.begin(), uri_options.end(), thread_local_rng); return pipe; } SinkToStoragePtr IStorageURLBase::write(const ASTPtr & query, const StorageMetadataPtr & metadata_snapshot, ContextPtr context) { if (http_method.empty()) http_method = Poco::Net::HTTPRequest::HTTP_POST; bool has_wildcards = uri.find(PartitionedSink::PARTITION_ID_WILDCARD) != String::npos; const auto * insert_query = dynamic_cast(query.get()); auto partition_by_ast = insert_query ? (insert_query->partition_by ? insert_query->partition_by : partition_by) : nullptr; bool is_partitioned_implementation = partition_by_ast && has_wildcards; if (is_partitioned_implementation) { return std::make_shared( partition_by_ast, uri, format_name, format_settings, metadata_snapshot->getSampleBlock(), context, ConnectionTimeouts::getHTTPTimeouts(context), chooseCompressionMethod(uri, compression_method), http_method); } else { return std::make_shared( uri, format_name, format_settings, metadata_snapshot->getSampleBlock(), context, ConnectionTimeouts::getHTTPTimeouts(context), chooseCompressionMethod(uri, compression_method), http_method); } } StorageURL::StorageURL( const String & uri_, const StorageID & table_id_, const String & format_name_, const std::optional & format_settings_, const ColumnsDescription & columns_, const ConstraintsDescription & constraints_, const String & comment, ContextPtr context_, const String & compression_method_, const ReadWriteBufferFromHTTP::HTTPHeaderEntries & headers_, const String & http_method_, ASTPtr partition_by_) : IStorageURLBase( uri_, context_, table_id_, format_name_, format_settings_, columns_, constraints_, comment, compression_method_, headers_, http_method_, partition_by_) { context_->getRemoteHostFilter().checkURL(Poco::URI(uri)); } StorageURLWithFailover::StorageURLWithFailover( const std::vector & uri_options_, const StorageID & table_id_, const String & format_name_, const std::optional & format_settings_, const ColumnsDescription & columns_, const ConstraintsDescription & constraints_, ContextPtr context_, const String & compression_method_) : StorageURL("", table_id_, format_name_, format_settings_, columns_, constraints_, String{}, context_, compression_method_) { for (const auto & uri_option : uri_options_) { Poco::URI poco_uri(uri_option); context_->getRemoteHostFilter().checkURL(poco_uri); LOG_DEBUG(&Poco::Logger::get("StorageURLDistributed"), "Adding URL option: {}", uri_option); uri_options.emplace_back(uri_option); } } FormatSettings StorageURL::getFormatSettingsFromArgs(const StorageFactory::Arguments & args) { // Use format settings from global server context + settings from // the SETTINGS clause of the create query. Settings from current // session and user are ignored. FormatSettings format_settings; if (args.storage_def->settings) { FormatFactorySettings user_format_settings; // Apply changed settings from global context, but ignore the // unknown ones, because we only have the format settings here. const auto & changes = args.getContext()->getSettingsRef().changes(); for (const auto & change : changes) { if (user_format_settings.has(change.name)) { user_format_settings.set(change.name, change.value); } } // Apply changes from SETTINGS clause, with validation. user_format_settings.applyChanges(args.storage_def->settings->changes); format_settings = getFormatSettings(args.getContext(), user_format_settings); } else { format_settings = getFormatSettings(args.getContext()); } return format_settings; } ASTs::iterator StorageURL::collectHeaders( ASTs & url_function_args, URLBasedDataSourceConfiguration & configuration, ContextPtr context) { ASTs::iterator headers_it = url_function_args.end(); for (auto arg_it = url_function_args.begin(); arg_it != url_function_args.end(); ++arg_it) { const auto * headers_ast_function = (*arg_it)->as(); if (headers_ast_function && headers_ast_function->name == "headers") { if (headers_it != url_function_args.end()) throw Exception( ErrorCodes::BAD_ARGUMENTS, "URL table function can have only one key-value argument: headers=(). {}", bad_arguments_error_message); const auto * headers_function_args_expr = assert_cast(headers_ast_function->arguments.get()); auto headers_function_args = headers_function_args_expr->children; for (auto & header_arg : headers_function_args) { const auto * header_ast = header_arg->as(); if (!header_ast || header_ast->name != "equals") throw Exception(ErrorCodes::BAD_ARGUMENTS, "Headers argument is incorrect. {}", bad_arguments_error_message); const auto * header_args_expr = assert_cast(header_ast->arguments.get()); auto header_args = header_args_expr->children; if (header_args.size() != 2) throw Exception( ErrorCodes::BAD_ARGUMENTS, "Headers argument is incorrect: expected 2 arguments, got {}", header_args.size()); auto ast_literal = evaluateConstantExpressionOrIdentifierAsLiteral(header_args[0], context); auto arg_name_value = ast_literal->as()->value; if (arg_name_value.getType() != Field::Types::Which::String) throw Exception(ErrorCodes::BAD_ARGUMENTS, "Expected string as header name"); auto arg_name = arg_name_value.safeGet(); ast_literal = evaluateConstantExpressionOrIdentifierAsLiteral(header_args[1], context); auto arg_value = ast_literal->as()->value; if (arg_value.getType() != Field::Types::Which::String) throw Exception(ErrorCodes::BAD_ARGUMENTS, "Expected string as header value"); configuration.headers.emplace_back(arg_name, arg_value); } headers_it = arg_it; continue; } (*arg_it) = evaluateConstantExpressionOrIdentifierAsLiteral((*arg_it), context); } return headers_it; } URLBasedDataSourceConfiguration StorageURL::getConfiguration(ASTs & args, ContextPtr local_context) { URLBasedDataSourceConfiguration configuration; if (auto named_collection = getURLBasedDataSourceConfiguration(args, local_context)) { auto [common_configuration, storage_specific_args] = named_collection.value(); configuration.set(common_configuration); if (!configuration.http_method.empty() && configuration.http_method != Poco::Net::HTTPRequest::HTTP_POST && configuration.http_method != Poco::Net::HTTPRequest::HTTP_PUT) throw Exception( ErrorCodes::BAD_ARGUMENTS, "Http method can be POST or PUT (current: {}). For insert default is POST, for select GET", configuration.http_method); if (!storage_specific_args.empty()) { String illegal_args; for (const auto & arg : storage_specific_args) { if (!illegal_args.empty()) illegal_args += ", "; illegal_args += arg.first; } throw Exception(ErrorCodes::BAD_ARGUMENTS, "Unknown argument `{}` for storage URL", illegal_args); } } else { if (args.empty() || args.size() > 3) throw Exception(ErrorCodes::NUMBER_OF_ARGUMENTS_DOESNT_MATCH, bad_arguments_error_message); auto header_it = collectHeaders(args, configuration, local_context); if (header_it != args.end()) args.erase(header_it); configuration.url = checkAndGetLiteralArgument(args[0], "url"); if (args.size() > 1) configuration.format = checkAndGetLiteralArgument(args[1], "format"); if (args.size() == 3) configuration.compression_method = checkAndGetLiteralArgument(args[2], "compression_method"); } if (configuration.format == "auto") configuration.format = FormatFactory::instance().getFormatFromFileName(configuration.url, true); return configuration; } void registerStorageURL(StorageFactory & factory) { factory.registerStorage( "URL", [](const StorageFactory::Arguments & args) { ASTs & engine_args = args.engine_args; auto configuration = StorageURL::getConfiguration(engine_args, args.getLocalContext()); auto format_settings = StorageURL::getFormatSettingsFromArgs(args); ReadWriteBufferFromHTTP::HTTPHeaderEntries headers; for (const auto & [header, value] : configuration.headers) { auto value_literal = value.safeGet(); if (header == "Range") throw Exception(ErrorCodes::BAD_ARGUMENTS, "Range headers are not allowed"); headers.emplace_back(std::make_pair(header, value_literal)); } ASTPtr partition_by; if (args.storage_def->partition_by) partition_by = args.storage_def->partition_by->clone(); return std::make_shared( configuration.url, args.table_id, configuration.format, format_settings, args.columns, args.constraints, args.comment, args.getContext(), configuration.compression_method, headers, configuration.http_method, partition_by); }, { .supports_settings = true, .supports_schema_inference = true, .source_access_type = AccessType::URL, }); } }