ClickHouse/programs/server/HTTPHandler.cpp

#include "HTTPHandler.h"

#include "HTTPHandlerFactory.h"
#include "HTTPHandlerRequestFilter.h"

#include <chrono>
#include <iomanip>
#include <Poco/File.h>
#include <Poco/Net/HTTPBasicCredentials.h>
#include <Poco/Net/HTTPServerRequest.h>
#include <Poco/Net/HTTPServerRequestImpl.h>
#include <Poco/Net/HTTPServerResponse.h>
#include <Poco/Net/HTTPRequestHandlerFactory.h>
#include <Poco/Net/NetException.h>
#include <ext/scope_guard.h>
#include <Core/ExternalTable.h>
#include <Common/StringUtils/StringUtils.h>
#include <Common/escapeForFileName.h>
#include <common/getFQDNOrHostName.h>
#include <Common/CurrentThread.h>
#include <Common/setThreadName.h>
#include <Common/SettingsChanges.h>
#include <Disks/DiskSpaceMonitor.h>
#include <Compression/CompressedReadBuffer.h>
#include <Compression/CompressedWriteBuffer.h>
#include <IO/ReadBufferFromIStream.h>
#include <IO/ReadBufferFromString.h>
#include <IO/WriteBufferFromString.h>
#include <IO/WriteBufferFromHTTPServerResponse.h>
#include <IO/WriteBufferFromFile.h>
#include <IO/WriteHelpers.h>
#include <IO/copyData.h>
#include <IO/ConcatReadBuffer.h>
#include <IO/CascadeWriteBuffer.h>
#include <IO/MemoryReadWriteBuffer.h>
#include <IO/WriteBufferFromTemporaryFile.h>
#include <DataStreams/IBlockInputStream.h>
#include <Interpreters/executeQuery.h>
#include <Interpreters/QueryParameterVisitor.h>
#include <Common/typeid_cast.h>
#include <Poco/Net/HTTPStream.h>

#if !defined(ARCADIA_BUILD)
#    include <Common/config.h>
#endif


namespace DB
{

namespace ErrorCodes
{

    extern const int LOGICAL_ERROR;
    extern const int CANNOT_PARSE_TEXT;
    extern const int CANNOT_PARSE_ESCAPE_SEQUENCE;
    extern const int CANNOT_PARSE_QUOTED_STRING;
    extern const int CANNOT_PARSE_DATE;
    extern const int CANNOT_PARSE_DATETIME;
    extern const int CANNOT_PARSE_NUMBER;
    extern const int CANNOT_OPEN_FILE;
    extern const int CANNOT_COMPILE_REGEXP;

    extern const int UNKNOWN_ELEMENT_IN_AST;
    extern const int UNKNOWN_TYPE_OF_AST_NODE;
    extern const int TOO_DEEP_AST;
    extern const int TOO_BIG_AST;
    extern const int UNEXPECTED_AST_STRUCTURE;

    extern const int SYNTAX_ERROR;

    extern const int INCORRECT_DATA;
    extern const int TYPE_MISMATCH;

    extern const int UNKNOWN_TABLE;
    extern const int UNKNOWN_FUNCTION;
    extern const int UNKNOWN_IDENTIFIER;
    extern const int UNKNOWN_TYPE;
    extern const int UNKNOWN_STORAGE;
    extern const int UNKNOWN_DATABASE;
    extern const int UNKNOWN_SETTING;
    extern const int UNKNOWN_DIRECTION_OF_SORTING;
    extern const int UNKNOWN_AGGREGATE_FUNCTION;
    extern const int UNKNOWN_FORMAT;
    extern const int UNKNOWN_DATABASE_ENGINE;
    extern const int UNKNOWN_TYPE_OF_QUERY;
    extern const int NO_ELEMENTS_IN_CONFIG;

    extern const int QUERY_IS_TOO_LARGE;

    extern const int NOT_IMPLEMENTED;
    extern const int SOCKET_TIMEOUT;

    extern const int UNKNOWN_USER;
    extern const int WRONG_PASSWORD;
    extern const int REQUIRED_PASSWORD;

    extern const int INVALID_SESSION_TIMEOUT;
    extern const int HTTP_LENGTH_REQUIRED;
}


static Poco::Net::HTTPResponse::HTTPStatus exceptionCodeToHTTPStatus(int exception_code)
{
    using namespace Poco::Net;

    if (exception_code == ErrorCodes::REQUIRED_PASSWORD)
        return HTTPResponse::HTTP_UNAUTHORIZED;
    else if (exception_code == ErrorCodes::CANNOT_PARSE_TEXT ||
             exception_code == ErrorCodes::CANNOT_PARSE_ESCAPE_SEQUENCE ||
             exception_code == ErrorCodes::CANNOT_PARSE_QUOTED_STRING ||
             exception_code == ErrorCodes::CANNOT_PARSE_DATE ||
             exception_code == ErrorCodes::CANNOT_PARSE_DATETIME ||
             exception_code == ErrorCodes::CANNOT_PARSE_NUMBER ||

             exception_code == ErrorCodes::UNKNOWN_ELEMENT_IN_AST ||
             exception_code == ErrorCodes::UNKNOWN_TYPE_OF_AST_NODE ||
             exception_code == ErrorCodes::TOO_DEEP_AST ||
             exception_code == ErrorCodes::TOO_BIG_AST ||
             exception_code == ErrorCodes::UNEXPECTED_AST_STRUCTURE ||

             exception_code == ErrorCodes::SYNTAX_ERROR ||

             exception_code == ErrorCodes::INCORRECT_DATA ||
             exception_code == ErrorCodes::TYPE_MISMATCH)
        return HTTPResponse::HTTP_BAD_REQUEST;
    else if (exception_code == ErrorCodes::UNKNOWN_TABLE ||
             exception_code == ErrorCodes::UNKNOWN_FUNCTION ||
             exception_code == ErrorCodes::UNKNOWN_IDENTIFIER ||
             exception_code == ErrorCodes::UNKNOWN_TYPE ||
             exception_code == ErrorCodes::UNKNOWN_STORAGE ||
             exception_code == ErrorCodes::UNKNOWN_DATABASE ||
             exception_code == ErrorCodes::UNKNOWN_SETTING ||
             exception_code == ErrorCodes::UNKNOWN_DIRECTION_OF_SORTING ||
             exception_code == ErrorCodes::UNKNOWN_AGGREGATE_FUNCTION ||
             exception_code == ErrorCodes::UNKNOWN_FORMAT ||
             exception_code == ErrorCodes::UNKNOWN_DATABASE_ENGINE ||

             exception_code == ErrorCodes::UNKNOWN_TYPE_OF_QUERY)
        return HTTPResponse::HTTP_NOT_FOUND;
    else if (exception_code == ErrorCodes::QUERY_IS_TOO_LARGE)
        return HTTPResponse::HTTP_REQUESTENTITYTOOLARGE;
    else if (exception_code == ErrorCodes::NOT_IMPLEMENTED)
        return HTTPResponse::HTTP_NOT_IMPLEMENTED;
    else if (exception_code == ErrorCodes::SOCKET_TIMEOUT ||
             exception_code == ErrorCodes::CANNOT_OPEN_FILE)
        return HTTPResponse::HTTP_SERVICE_UNAVAILABLE;
    else if (exception_code == ErrorCodes::HTTP_LENGTH_REQUIRED)
        return HTTPResponse::HTTP_LENGTH_REQUIRED;

    return HTTPResponse::HTTP_INTERNAL_SERVER_ERROR;
}


static std::chrono::steady_clock::duration parseSessionTimeout(
    const Poco::Util::AbstractConfiguration & config,
    const HTMLForm & params)
{
    unsigned session_timeout = config.getInt("default_session_timeout", 60);

    if (params.has("session_timeout"))
    {
        unsigned max_session_timeout = config.getUInt("max_session_timeout", 3600);
        std::string session_timeout_str = params.get("session_timeout");

        ReadBufferFromString buf(session_timeout_str);
        if (!tryReadIntText(session_timeout, buf) || !buf.eof())
            throw Exception("Invalid session timeout: '" + session_timeout_str + "'", ErrorCodes::INVALID_SESSION_TIMEOUT);

        if (session_timeout > max_session_timeout)
            throw Exception("Session timeout '" + session_timeout_str + "' is larger than max_session_timeout: " + toString(max_session_timeout)
                + ". Maximum session timeout could be modified in configuration file.",
                ErrorCodes::INVALID_SESSION_TIMEOUT);
    }

    return std::chrono::seconds(session_timeout);
}


void HTTPHandler::pushDelayedResults(Output & used_output)
{
    std::vector<WriteBufferPtr> write_buffers;
    std::vector<ReadBufferPtr> read_buffers;
    std::vector<ReadBuffer *> read_buffers_raw_ptr;

    auto cascade_buffer = typeid_cast<CascadeWriteBuffer *>(used_output.out_maybe_delayed_and_compressed.get());
    if (!cascade_buffer)
        throw Exception("Expected CascadeWriteBuffer", ErrorCodes::LOGICAL_ERROR);

    cascade_buffer->getResultBuffers(write_buffers);

    if (write_buffers.empty())
        throw Exception("At least one buffer is expected to overwrite result into HTTP response", ErrorCodes::LOGICAL_ERROR);

    for (auto & write_buf : write_buffers)
    {
        IReadableWriteBuffer * write_buf_concrete;
        ReadBufferPtr reread_buf;

        if (write_buf
            && (write_buf_concrete = dynamic_cast<IReadableWriteBuffer *>(write_buf.get()))
            && (reread_buf = write_buf_concrete->tryGetReadBuffer()))
        {
            read_buffers.emplace_back(reread_buf);
            read_buffers_raw_ptr.emplace_back(reread_buf.get());
        }
    }

    ConcatReadBuffer concat_read_buffer(read_buffers_raw_ptr);
    copyData(concat_read_buffer, *used_output.out_maybe_compressed);
}


HTTPHandler::HTTPHandler(IServer & server_, const std::string & name)
    : server(server_)
    , log(&Logger::get(name))
{
    server_display_name = server.config().getString("display_name", getFQDNOrHostName());
}


void HTTPHandler::processQuery(
    Poco::Net::HTTPServerRequest & request,
    HTMLForm & params,
    Poco::Net::HTTPServerResponse & response,
    Output & used_output)
{
    Context context = server.context();

    CurrentThread::QueryScope query_scope(context);

    LOG_TRACE(log, "Request URI: " << request.getURI());

    std::istream & istr = request.stream();

    /// The user and password can be passed by headers (similar to X-Auth-*),
    /// which is used by load balancers to pass authentication information.
    std::string user = request.get("X-ClickHouse-User", "");
    std::string password = request.get("X-ClickHouse-Key", "");
    std::string quota_key = request.get("X-ClickHouse-Quota", "");

    if (user.empty() && password.empty() && quota_key.empty())
    {
        /// User name and password can be passed using query parameters
        /// or using HTTP Basic auth (both methods are insecure).
        if (request.hasCredentials())
        {
            Poco::Net::HTTPBasicCredentials credentials(request);

            user = credentials.getUsername();
            password = credentials.getPassword();
        }
        else
        {
            user = params.get("user", "default");
            password = params.get("password", "");
        }

        quota_key = params.get("quota_key", "");
    }
    else
    {
        /// It is prohibited to mix different authorization schemes.
        if (request.hasCredentials()
            || params.has("user")
            || params.has("password")
            || params.has("quota_key"))
        {
            throw Exception("Invalid authentication: it is not allowed to use X-ClickHouse HTTP headers and other authentication methods simultaneously", ErrorCodes::REQUIRED_PASSWORD);
        }
    }

    std::string query_id = params.get("query_id", "");
    context.setUser(user, password, request.clientAddress(), quota_key);
    context.setCurrentQueryId(query_id);

    /// The user could specify session identifier and session timeout.
    /// It allows to modify settings, create temporary tables and reuse them in subsequent requests.

    std::shared_ptr<NamedSession> session;
    String session_id;
    std::chrono::steady_clock::duration session_timeout;
    bool session_is_set = params.has("session_id");
    const auto & config = server.config();

    if (session_is_set)
    {
        session_id = params.get("session_id");
        session_timeout = parseSessionTimeout(config, params);
        std::string session_check = params.get("session_check", "");

        session = context.acquireNamedSession(session_id, session_timeout, session_check == "1");

        context = session->context;
        context.setSessionContext(session->context);
    }

    SCOPE_EXIT({
        if (session)
            session->release();
    });

    /// The client can pass a HTTP header indicating supported compression method (gzip or deflate).
    String http_response_compression_methods = request.get("Accept-Encoding", "");
    CompressionMethod http_response_compression_method = CompressionMethod::None;

    if (!http_response_compression_methods.empty())
    {
        /// If client supports brotli - it's preferred.
        /// Both gzip and deflate are supported. If the client supports both, gzip is preferred.
        /// NOTE parsing of the list of methods is slightly incorrect.

        if (std::string::npos != http_response_compression_methods.find("br"))
            http_response_compression_method = CompressionMethod::Brotli;
        else if (std::string::npos != http_response_compression_methods.find("gzip"))
            http_response_compression_method = CompressionMethod::Gzip;
        else if (std::string::npos != http_response_compression_methods.find("deflate"))
            http_response_compression_method = CompressionMethod::Zlib;
    }

    bool client_supports_http_compression = http_response_compression_method != CompressionMethod::None;

    /// Client can pass a 'compress' flag in the query string. In this case the query result is
    /// compressed using internal algorithm. This is not reflected in HTTP headers.
    bool internal_compression = params.getParsed<bool>("compress", false);

    /// At least, we should postpone sending of first buffer_size result bytes
    size_t buffer_size_total = std::max(
        params.getParsed<size_t>("buffer_size", DBMS_DEFAULT_BUFFER_SIZE), static_cast<size_t>(DBMS_DEFAULT_BUFFER_SIZE));

    /// If it is specified, the whole result will be buffered.
    ///  First ~buffer_size bytes will be buffered in memory, the remaining bytes will be stored in temporary file.
    bool buffer_until_eof = params.getParsed<bool>("wait_end_of_query", false);

    size_t buffer_size_http = DBMS_DEFAULT_BUFFER_SIZE;
    size_t buffer_size_memory = (buffer_size_total > buffer_size_http) ? buffer_size_total : 0;

    unsigned keep_alive_timeout = config.getUInt("keep_alive_timeout", 10);

    used_output.out = std::make_shared<WriteBufferFromHTTPServerResponse>(
        request, response, keep_alive_timeout, client_supports_http_compression, http_response_compression_method);

    if (internal_compression)
        used_output.out_maybe_compressed = std::make_shared<CompressedWriteBuffer>(*used_output.out);
    else
        used_output.out_maybe_compressed = used_output.out;

    if (buffer_size_memory > 0 || buffer_until_eof)
    {
        CascadeWriteBuffer::WriteBufferPtrs cascade_buffer1;
        CascadeWriteBuffer::WriteBufferConstructors cascade_buffer2;

        if (buffer_size_memory > 0)
            cascade_buffer1.emplace_back(std::make_shared<MemoryWriteBuffer>(buffer_size_memory));

        if (buffer_until_eof)
        {
            const std::string tmp_path(context.getTemporaryVolume()->getNextDisk()->getPath());
            const std::string tmp_path_template(tmp_path + "http_buffers/");

            auto create_tmp_disk_buffer = [tmp_path_template] (const WriteBufferPtr &)
            {
                return WriteBufferFromTemporaryFile::create(tmp_path_template);
            };

            cascade_buffer2.emplace_back(std::move(create_tmp_disk_buffer));
        }
        else
        {
            auto push_memory_buffer_and_continue = [next_buffer = used_output.out_maybe_compressed] (const WriteBufferPtr & prev_buf)
            {
                auto prev_memory_buffer = typeid_cast<MemoryWriteBuffer *>(prev_buf.get());
                if (!prev_memory_buffer)
                    throw Exception("Expected MemoryWriteBuffer", ErrorCodes::LOGICAL_ERROR);

                auto rdbuf = prev_memory_buffer->tryGetReadBuffer();
                copyData(*rdbuf , *next_buffer);

                return next_buffer;
            };

            cascade_buffer2.emplace_back(push_memory_buffer_and_continue);
        }

        used_output.out_maybe_delayed_and_compressed = std::make_shared<CascadeWriteBuffer>(
            std::move(cascade_buffer1), std::move(cascade_buffer2));
    }
    else
    {
        used_output.out_maybe_delayed_and_compressed = used_output.out_maybe_compressed;
    }

    std::unique_ptr<ReadBuffer> in_post_raw = std::make_unique<ReadBufferFromIStream>(istr);

    /// Request body can be compressed using algorithm specified in the Content-Encoding header.
    String http_request_compression_method_str = request.get("Content-Encoding", "");
    std::unique_ptr<ReadBuffer> in_post = wrapReadBufferWithCompressionMethod(
        std::make_unique<ReadBufferFromIStream>(istr), chooseCompressionMethod({}, http_request_compression_method_str));

    /// The data can also be compressed using incompatible internal algorithm. This is indicated by
    /// 'decompress' query parameter.
    std::unique_ptr<ReadBuffer> in_post_maybe_compressed;
    bool in_post_compressed = false;
    if (params.getParsed<bool>("decompress", false))
    {
        in_post_maybe_compressed = std::make_unique<CompressedReadBuffer>(*in_post);
        in_post_compressed = true;
    }
    else
        in_post_maybe_compressed = std::move(in_post);

    std::unique_ptr<ReadBuffer> in;

    static const NameSet reserved_param_names{"compress", "decompress", "user", "password", "quota_key", "query_id", "stacktrace",
        "buffer_size", "wait_end_of_query", "session_id", "session_timeout", "session_check"};

    Names reserved_param_suffixes;

    auto param_could_be_skipped = [&] (const String & name)
    {
        if (reserved_param_names.count(name))
            return true;

        for (const String & suffix : reserved_param_suffixes)
        {
            if (endsWith(name, suffix))
                return true;
        }

        return false;
    };

    /// Settings can be overridden in the query.
    /// Some parameters (database, default_format, everything used in the code above) do not
    /// belong to the Settings class.

    /// 'readonly' setting values mean:
    /// readonly = 0 - any query is allowed, client can change any setting.
    /// readonly = 1 - only readonly queries are allowed, client can't change settings.
    /// readonly = 2 - only readonly queries are allowed, client can change any setting except 'readonly'.

    /// In theory if initially readonly = 0, the client can change any setting and then set readonly
    /// to some other value.
    const auto & settings = context.getSettingsRef();

    /// Only readonly queries are allowed for HTTP GET requests.
    if (request.getMethod() == Poco::Net::HTTPServerRequest::HTTP_GET)
    {
        if (settings.readonly == 0)
            context.setSetting("readonly", 2);
    }

    bool has_external_data = startsWith(request.getContentType(), "multipart/form-data");

    if (has_external_data)
    {
        /// Skip unneeded parameters to avoid confusing them later with context settings or query parameters.
        reserved_param_suffixes.reserve(3);
        /// It is a bug and ambiguity with `date_time_input_format` and `low_cardinality_allow_in_native_format` formats/settings.
        reserved_param_suffixes.emplace_back("_format");
        reserved_param_suffixes.emplace_back("_types");
        reserved_param_suffixes.emplace_back("_structure");
    }

    SettingsChanges settings_changes;
    for (const auto & [key, value] : params)
    {
        if (key == "database")
        {
            context.setCurrentDatabase(value);
        }
        else if (key == "default_format")
        {
            context.setDefaultFormat(value);
        }
        else if (param_could_be_skipped(key))
        {
        }
        else
        {
            /// Other than query parameters are treated as settings.
            if (!customizeQueryParam(context, key, value))
                settings_changes.push_back({key, value});
        }
    }

    /// For external data we also want settings
    context.checkSettingsConstraints(settings_changes);
    context.applySettingsChanges(settings_changes);

    const auto & query = getQuery(request, params, context);
    std::unique_ptr<ReadBuffer> in_param = std::make_unique<ReadBufferFromString>(query);
    in = has_external_data ? std::move(in_param) : std::make_unique<ConcatReadBuffer>(*in_param, *in_post_maybe_compressed);

    /// HTTP response compression is turned on only if the client signalled that they support it
    /// (using Accept-Encoding header) and 'enable_http_compression' setting is turned on.
    used_output.out->setCompression(client_supports_http_compression && settings.enable_http_compression);
    if (client_supports_http_compression)
        used_output.out->setCompressionLevel(settings.http_zlib_compression_level);

    used_output.out->setSendProgressInterval(settings.http_headers_progress_interval_ms);

    /// If 'http_native_compression_disable_checksumming_on_decompress' setting is turned on,
    /// checksums of client data compressed with internal algorithm are not checked.
    if (in_post_compressed && settings.http_native_compression_disable_checksumming_on_decompress)
        static_cast<CompressedReadBuffer &>(*in_post_maybe_compressed).disableChecksumming();

    /// Add CORS header if 'add_http_cors_header' setting is turned on and the client passed
    /// Origin header.
    used_output.out->addHeaderCORS(settings.add_http_cors_header && !request.get("Origin", "").empty());

    ClientInfo & client_info = context.getClientInfo();
    client_info.query_kind = ClientInfo::QueryKind::INITIAL_QUERY;
    client_info.interface = ClientInfo::Interface::HTTP;

    /// Query sent through HTTP interface is initial.
    client_info.initial_user = client_info.current_user;
    client_info.initial_query_id = client_info.current_query_id;
    client_info.initial_address = client_info.current_address;

    ClientInfo::HTTPMethod http_method = ClientInfo::HTTPMethod::UNKNOWN;
    if (request.getMethod() == Poco::Net::HTTPServerRequest::HTTP_GET)
        http_method = ClientInfo::HTTPMethod::GET;
    else if (request.getMethod() == Poco::Net::HTTPServerRequest::HTTP_POST)
        http_method = ClientInfo::HTTPMethod::POST;

    client_info.http_method = http_method;
    client_info.http_user_agent = request.get("User-Agent", "");

    auto append_callback = [&context] (ProgressCallback callback)
    {
        auto prev = context.getProgressCallback();

        context.setProgressCallback([prev, callback] (const Progress & progress)
        {
            if (prev)
                prev(progress);

            callback(progress);
        });
    };

    /// While still no data has been sent, we will report about query execution progress by sending HTTP headers.
    if (settings.send_progress_in_http_headers)
        append_callback([&used_output] (const Progress & progress) { used_output.out->onProgress(progress); });

    if (settings.readonly > 0 && settings.cancel_http_readonly_queries_on_client_close)
    {
        Poco::Net::StreamSocket & socket = dynamic_cast<Poco::Net::HTTPServerRequestImpl &>(request).socket();

        append_callback([&context, &socket](const Progress &)
        {
            /// Assume that at the point this method is called no one is reading data from the socket any more.
            /// True for read-only queries.
            try
            {
                char b;
                //FIXME looks like MSG_DONTWAIT is useless because of POCO_BROKEN_TIMEOUTS
                int status = socket.receiveBytes(&b, 1, MSG_DONTWAIT | MSG_PEEK);
                if (status == 0)
                    context.killCurrentQuery();
            }
            catch (Poco::TimeoutException &)
            {
            }
            catch (...)
            {
                context.killCurrentQuery();
            }
        });
    }

    customizeContext(request, context);

    executeQuery(*in, *used_output.out_maybe_delayed_and_compressed, /* allow_into_outfile = */ false, context,
        [&response] (const String & current_query_id, const String & content_type, const String & format, const String & timezone)
        {
            response.setContentType(content_type);
            response.add("X-ClickHouse-Query-Id", current_query_id);
            response.add("X-ClickHouse-Format", format);
            response.add("X-ClickHouse-Timezone", timezone);
        }
    );

    if (used_output.hasDelayed())
    {
        /// TODO: set Content-Length if possible
        pushDelayedResults(used_output);
    }

    /// Send HTTP headers with code 200 if no exception happened and the data is still not sent to
    /// the client.
    used_output.out->finalize();
}

void HTTPHandler::trySendExceptionToClient(const std::string & s, int exception_code,
    Poco::Net::HTTPServerRequest & request, Poco::Net::HTTPServerResponse & response,
    Output & used_output)
{
    try
    {
        response.set("X-ClickHouse-Exception-Code", toString<int>(exception_code));

        /// If HTTP method is POST and Keep-Alive is turned on, we should read the whole request body
        /// to avoid reading part of the current request body in the next request.
        if (request.getMethod() == Poco::Net::HTTPRequest::HTTP_POST
            && response.getKeepAlive()
            && !request.stream().eof()
            && exception_code != ErrorCodes::HTTP_LENGTH_REQUIRED)
        {
            request.stream().ignore(std::numeric_limits<std::streamsize>::max());
        }

        bool auth_fail = exception_code == ErrorCodes::UNKNOWN_USER ||
                         exception_code == ErrorCodes::WRONG_PASSWORD ||
                         exception_code == ErrorCodes::REQUIRED_PASSWORD;

        if (auth_fail)
        {
            response.requireAuthentication("ClickHouse server HTTP API");
        }
        else
        {
            response.setStatusAndReason(exceptionCodeToHTTPStatus(exception_code));
        }

        if (!response.sent() && !used_output.out_maybe_compressed)
        {
            /// If nothing was sent yet and we don't even know if we must compress the response.
            response.send() << s << std::endl;
        }
        else if (used_output.out_maybe_compressed)
        {
            /// Destroy CascadeBuffer to actualize buffers' positions and reset extra references
            if (used_output.hasDelayed())
                used_output.out_maybe_delayed_and_compressed.reset();

            /// Send the error message into already used (and possibly compressed) stream.
            /// Note that the error message will possibly be sent after some data.
            /// Also HTTP code 200 could have already been sent.

            /// If buffer has data, and that data wasn't sent yet, then no need to send that data
            bool data_sent = used_output.out->count() != used_output.out->offset();

            if (!data_sent)
            {
                used_output.out_maybe_compressed->position() = used_output.out_maybe_compressed->buffer().begin();
                used_output.out->position() = used_output.out->buffer().begin();
            }

            writeString(s, *used_output.out_maybe_compressed);
            writeChar('\n', *used_output.out_maybe_compressed);

            used_output.out_maybe_compressed->next();
            used_output.out->next();
            used_output.out->finalize();
        }
    }
    catch (...)
    {
        tryLogCurrentException(log, "Cannot send exception to client");
    }
}


void HTTPHandler::handleRequest(Poco::Net::HTTPServerRequest & request, Poco::Net::HTTPServerResponse & response)
{
    setThreadName("HTTPHandler");
    ThreadStatus thread_status;

    Output used_output;

    /// In case of exception, send stack trace to client.
    bool with_stacktrace = false;

    try
    {
        response.setContentType("text/plain; charset=UTF-8");
        response.set("X-ClickHouse-Server-Display-Name", server_display_name);
        /// For keep-alive to work.
        if (request.getVersion() == Poco::Net::HTTPServerRequest::HTTP_1_1)
            response.setChunkedTransferEncoding(true);

        HTMLForm params(request);
        with_stacktrace = params.getParsed<bool>("stacktrace", false);

        /// Workaround. Poco does not detect 411 Length Required case.
        if (request.getMethod() == Poco::Net::HTTPRequest::HTTP_POST && !request.getChunkedTransferEncoding() &&
            !request.hasContentLength())
        {
            throw Exception("The Transfer-Encoding is not chunked and there is no Content-Length header for POST request", ErrorCodes::HTTP_LENGTH_REQUIRED);
        }

        processQuery(request, params, response, used_output);
        LOG_INFO(log, "Done processing query");
    }
    catch (...)
    {
        tryLogCurrentException(log);

        /** If exception is received from remote server, then stack trace is embedded in message.
          * If exception is thrown on local server, then stack trace is in separate field.
          */
        std::string exception_message = getCurrentExceptionMessage(with_stacktrace, true);
        int exception_code = getCurrentExceptionCode();

        trySendExceptionToClient(exception_message, exception_code, request, response, used_output);
    }
}

DynamicQueryHandler::DynamicQueryHandler(IServer & server_, const std::string & param_name_)
    : HTTPHandler(server_, "DynamicQueryHandler"), param_name(param_name_)
{
}

bool DynamicQueryHandler::customizeQueryParam(Context & context, const std::string & key, const std::string & value)
{
    if (key == param_name)
        return true;    /// do nothing

    if (startsWith(key, "param_"))
    {
        /// Save name and values of substitution in dictionary.
        const String parameter_name = key.substr(strlen("param_"));
        context.setQueryParameter(parameter_name, value);
        return true;
    }

    return false;
}

std::string DynamicQueryHandler::getQuery(Poco::Net::HTTPServerRequest & request, HTMLForm & params, Context & context)
{

    if (likely(!startsWith(request.getContentType(), "multipart/form-data")))
    {
        /// Part of the query can be passed in the 'query' parameter and the rest in the request body
        /// (http method need not necessarily be POST). In this case the entire query consists of the
        /// contents of the 'query' parameter, a line break and the request body.
        std::string query_param = params.get(param_name, "");
        return query_param.empty() ? query_param : query_param + "\n";
    }

    /// Support for "external data for query processing".
    /// Used in case of POST request with form-data, but it isn't expected to be deleted after that scope.
    ExternalTablesHandler handler(context, params);
    params.load(request, request.stream(), handler);

    std::string full_query;
    /// Params are of both form params POST and uri (GET params)
    for (const auto & it : params)
        if (it.first == param_name)
            full_query += it.second;

    return full_query;
}

PredefinedQueryHandler::PredefinedQueryHandler(
    IServer & server, const NameSet & receive_params_, const std::string & predefined_query_
    , const std::optional<String> & url_regex_, const std::unordered_map<String, String> & header_name_with_regex_)
    : HTTPHandler(server, "PredefinedQueryHandler"), receive_params(receive_params_), predefined_query(predefined_query_)
    , url_regex(url_regex_), header_name_with_capture_regex(header_name_with_regex_)
{
}

bool PredefinedQueryHandler::customizeQueryParam(Context & context, const std::string & key, const std::string & value)
{
    if (receive_params.count(key))
    {
        context.setQueryParameter(key, value);
        return true;
    }

    return false;
}

void PredefinedQueryHandler::customizeContext(Poco::Net::HTTPServerRequest & request, DB::Context & context)
{
    /// If in the configuration file, the handler's header is regex and contains named capture group
    /// We will extract regex named capture groups as query parameters

    const auto & set_query_params = [&](const char * begin, const char * end, const std::string & regex)
    {
        auto compiled_regex = std::make_shared<re2_st::RE2>(regex);

        if (!compiled_regex->ok())
            throw Exception("cannot compile re2: " + regex + " for http handling rule, error: " + compiled_regex->error() +
                ". Look at https://github.com/google/re2/wiki/Syntax for reference.", ErrorCodes::CANNOT_COMPILE_REGEXP);

        int num_captures = compiled_regex->NumberOfCapturingGroups() + 1;

        re2_st::StringPiece matches[num_captures];
        re2_st::StringPiece input(begin, end - begin);
        if (compiled_regex->Match(input, 0, end - begin, re2_st::RE2::Anchor::ANCHOR_BOTH, matches, num_captures))
        {
            for (const auto & [capturing_name, capturing_index] : compiled_regex->NamedCapturingGroups())
            {
                const auto & capturing_value = matches[capturing_index];

                if (capturing_value.data())
                    context.setQueryParameter(capturing_name, String(capturing_value.data(), capturing_value.size()));
            }
        }
    };

    if (url_regex)
    {
        const auto & uri = request.getURI();
        set_query_params(uri.data(), find_first_symbols<'?'>(uri.data(), uri.data() + uri.size()), *url_regex);
    }

    for (const auto & [header_name, regex] : header_name_with_capture_regex)
    {
        const auto & header_value = request.get(header_name);
        set_query_params(header_value.data(), header_value.data() + header_value.size(), regex);
    }
}

std::string PredefinedQueryHandler::getQuery(Poco::Net::HTTPServerRequest & request, HTMLForm & params, Context & context)
{
    if (unlikely(startsWith(request.getContentType(), "multipart/form-data")))
    {
        /// Support for "external data for query processing".
        ExternalTablesHandler handler(context, params);
        params.load(request, request.stream(), handler);
    }

    return predefined_query;
}

Poco::Net::HTTPRequestHandlerFactory * createDynamicHandlerFactory(IServer & server, const std::string & config_prefix)
{
    std::string query_param_name = server.config().getString(config_prefix + ".handler.query_param_name", "query");
    return addFiltersFromConfig(new HandlingRuleHTTPHandlerFactory<DynamicQueryHandler>(server, std::move(query_param_name)), server.config(), config_prefix);
}

static inline bool capturingNamedQueryParam(NameSet receive_params, const std::string & expression)
{
    auto compiled_regex = std::make_shared<re2_st::RE2>(expression);

    if (!compiled_regex->ok())
        throw Exception("Cannot compile re2: " + expression + " for http handling rule, error: " +
            compiled_regex->error() + ". Look at https://github.com/google/re2/wiki/Syntax for reference.", ErrorCodes::CANNOT_COMPILE_REGEXP);

    const auto & capturing_names = compiled_regex->NamedCapturingGroups();
    return std::count_if(capturing_names.begin(), capturing_names.end(), [&](const auto & iterator)
    {
        return std::count_if(receive_params.begin(), receive_params.end(),
            [&](const auto & param_name) { return param_name == iterator.first; });
    });
}

Poco::Net::HTTPRequestHandlerFactory * createPredefinedHandlerFactory(IServer & server, const std::string & config_prefix)
{
    Poco::Util::AbstractConfiguration & configuration = server.config();

    if (!configuration.has(config_prefix + ".handler.query"))
        throw Exception("There is no path '" + config_prefix + ".handler.query" + "' in configuration file.", ErrorCodes::NO_ELEMENTS_IN_CONFIG);

    std::string predefined_query = configuration.getString(config_prefix + ".handler.query");
    NameSet analyze_receive_params = analyzeReceiveQueryParams(predefined_query);

    std::unordered_map<String, String> headers_name_with_regex;
    Poco::Util::AbstractConfiguration::Keys headers_name;
    configuration.keys(config_prefix + ".headers", headers_name);

    for (const auto & header_name : headers_name)
    {
        auto expression = configuration.getString(config_prefix + ".headers." + header_name);

        if (!startsWith(expression, "regex:"))
            continue;

        expression = expression.substr(6);
        if (capturingNamedQueryParam(analyze_receive_params, expression))
            headers_name_with_regex.emplace(std::make_pair(header_name, expression));
    }

    if (configuration.has(config_prefix + ".url"))
    {
        auto url_expression = configuration.getString(config_prefix + ".url");

        if (startsWith(url_expression, "regex:"))
            url_expression = url_expression.substr(6);

        if (capturingNamedQueryParam(analyze_receive_params, url_expression))
            return addFiltersFromConfig(new HandlingRuleHTTPHandlerFactory<PredefinedQueryHandler>(
                server, std::move(analyze_receive_params), std::move(predefined_query), std::optional<String>(url_expression),
                std::move(headers_name_with_regex)), configuration, config_prefix);
    }

    return addFiltersFromConfig(new HandlingRuleHTTPHandlerFactory<PredefinedQueryHandler>(
        server, std::move(analyze_receive_params), std::move(predefined_query), std::optional<String>{} ,std::move(headers_name_with_regex)),
        configuration, config_prefix);
}

}