ClickHouse/src/Server/TCPHandler.cpp

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#include <iomanip>
#include <ext/scope_guard.h>
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#include <Poco/Net/NetException.h>
#include <Poco/Util/LayeredConfiguration.h>
#include <Common/CurrentThread.h>
#include <Common/Stopwatch.h>
#include <Common/NetException.h>
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#include <Common/setThreadName.h>
#include <Common/OpenSSLHelpers.h>
#include <IO/Progress.h>
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#include <Compression/CompressedReadBuffer.h>
#include <Compression/CompressedWriteBuffer.h>
#include <IO/ReadBufferFromPocoSocket.h>
#include <IO/WriteBufferFromPocoSocket.h>
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#include <IO/LimitReadBuffer.h>
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#include <IO/ReadHelpers.h>
#include <IO/WriteHelpers.h>
#include <IO/copyData.h>
#include <DataStreams/AsynchronousBlockInputStream.h>
#include <DataStreams/NativeBlockInputStream.h>
#include <DataStreams/NativeBlockOutputStream.h>
#include <Interpreters/executeQuery.h>
#include <Interpreters/TablesStatus.h>
#include <Interpreters/InternalTextLogsQueue.h>
#include <Interpreters/OpenTelemetrySpanLog.h>
#include <Storages/StorageMemory.h>
#include <Storages/StorageReplicatedMergeTree.h>
#include <Core/ExternalTable.h>
#include <Storages/ColumnDefault.h>
#include <DataTypes/DataTypeLowCardinality.h>
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#include <Compression/CompressionFactory.h>
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#include <common/logger_useful.h>
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#include <Processors/Executors/PullingAsyncPipelineExecutor.h>
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#include "TCPHandler.h"
#if !defined(ARCADIA_BUILD)
# include <Common/config_version.h>
#endif
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namespace DB
{
namespace ErrorCodes
{
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extern const int LOGICAL_ERROR;
extern const int ATTEMPT_TO_READ_AFTER_EOF;
extern const int CLIENT_HAS_CONNECTED_TO_WRONG_PORT;
extern const int UNKNOWN_DATABASE;
extern const int UNKNOWN_EXCEPTION;
extern const int UNKNOWN_PACKET_FROM_CLIENT;
extern const int POCO_EXCEPTION;
extern const int SOCKET_TIMEOUT;
extern const int UNEXPECTED_PACKET_FROM_CLIENT;
extern const int SUPPORT_IS_DISABLED;
}
TCPHandler::TCPHandler(IServer & server_, const Poco::Net::StreamSocket & socket_, bool parse_proxy_protocol_, std::string server_display_name_)
: Poco::Net::TCPServerConnection(socket_)
, server(server_)
, parse_proxy_protocol(parse_proxy_protocol_)
, log(&Poco::Logger::get("TCPHandler"))
, connection_context(server.context())
, query_context(server.context())
, server_display_name(std::move(server_display_name_))
{
}
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void TCPHandler::runImpl()
{
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setThreadName("TCPHandler");
ThreadStatus thread_status;
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connection_context = server.context();
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connection_context.makeSessionContext();
/// These timeouts can be changed after receiving query.
auto global_receive_timeout = connection_context.getSettingsRef().receive_timeout;
auto global_send_timeout = connection_context.getSettingsRef().send_timeout;
socket().setReceiveTimeout(global_receive_timeout);
socket().setSendTimeout(global_send_timeout);
socket().setNoDelay(true);
in = std::make_shared<ReadBufferFromPocoSocket>(socket());
out = std::make_shared<WriteBufferFromPocoSocket>(socket());
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/// Support for PROXY protocol
if (parse_proxy_protocol && !receiveProxyHeader())
return;
if (in->eof())
{
LOG_INFO(log, "Client has not sent any data.");
return;
}
/// User will be authenticated here. It will also set settings from user profile into connection_context.
try
{
receiveHello();
}
catch (const Exception & e) /// Typical for an incorrect username, password, or address.
{
if (e.code() == ErrorCodes::CLIENT_HAS_CONNECTED_TO_WRONG_PORT)
{
LOG_DEBUG(log, "Client has connected to wrong port.");
return;
}
if (e.code() == ErrorCodes::ATTEMPT_TO_READ_AFTER_EOF)
{
LOG_INFO(log, "Client has gone away.");
return;
}
try
{
/// We try to send error information to the client.
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sendException(e, connection_context.getSettingsRef().calculate_text_stack_trace);
}
catch (...) {}
throw;
}
/// When connecting, the default database can be specified.
if (!default_database.empty())
{
if (!DatabaseCatalog::instance().isDatabaseExist(default_database))
{
Exception e("Database " + backQuote(default_database) + " doesn't exist", ErrorCodes::UNKNOWN_DATABASE);
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LOG_ERROR(log, "Code: {}, e.displayText() = {}, Stack trace:\n\n{}", e.code(), e.displayText(), e.getStackTraceString());
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sendException(e, connection_context.getSettingsRef().calculate_text_stack_trace);
return;
}
connection_context.setCurrentDatabase(default_database);
}
Settings connection_settings = connection_context.getSettings();
sendHello();
connection_context.setProgressCallback([this] (const Progress & value) { return this->updateProgress(value); });
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while (true)
{
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/// We are waiting for a packet from the client. Thus, every `poll_interval` seconds check whether we need to shut down.
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{
Stopwatch idle_time;
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while (!server.isCancelled() && !static_cast<ReadBufferFromPocoSocket &>(*in).poll(
std::min(connection_settings.poll_interval, connection_settings.idle_connection_timeout) * 1000000))
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{
if (idle_time.elapsedSeconds() > connection_settings.idle_connection_timeout)
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{
LOG_TRACE(log, "Closing idle connection");
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return;
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}
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}
}
/// If we need to shut down, or client disconnects.
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if (server.isCancelled() || in->eof())
break;
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/// Set context of request.
query_context = connection_context;
Stopwatch watch;
state.reset();
/// Initialized later.
std::optional<CurrentThread::QueryScope> query_scope;
/** An exception during the execution of request (it must be sent over the network to the client).
* The client will be able to accept it, if it did not happen while sending another packet and the client has not disconnected yet.
*/
std::optional<DB::Exception> exception;
bool network_error = false;
bool send_exception_with_stack_trace = true;
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try
{
/// If a user passed query-local timeouts, reset socket to initial state at the end of the query
SCOPE_EXIT({state.timeout_setter.reset();});
/** If Query - process it. If Ping or Cancel - go back to the beginning.
* There may come settings for a separate query that modify `query_context`.
*/
if (!receivePacket())
continue;
query_scope.emplace(*query_context);
send_exception_with_stack_trace = query_context->getSettingsRef().calculate_text_stack_trace;
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/// Should we send internal logs to client?
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const auto client_logs_level = query_context->getSettingsRef().send_logs_level;
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if (client_tcp_protocol_version >= DBMS_MIN_REVISION_WITH_SERVER_LOGS
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&& client_logs_level != LogsLevel::none)
{
state.logs_queue = std::make_shared<InternalTextLogsQueue>();
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state.logs_queue->max_priority = Poco::Logger::parseLevel(client_logs_level.toString());
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CurrentThread::attachInternalTextLogsQueue(state.logs_queue, client_logs_level);
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CurrentThread::setFatalErrorCallback([this]{ sendLogs(); });
}
query_context->setExternalTablesInitializer([&connection_settings, this] (Context & context)
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{
if (&context != &*query_context)
throw Exception("Unexpected context in external tables initializer", ErrorCodes::LOGICAL_ERROR);
/// Get blocks of temporary tables
readData(connection_settings);
/// Reset the input stream, as we received an empty block while receiving external table data.
/// So, the stream has been marked as cancelled and we can't read from it anymore.
state.block_in.reset();
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state.maybe_compressed_in.reset(); /// For more accurate accounting by MemoryTracker.
state.temporary_tables_read = true;
});
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/// Send structure of columns to client for function input()
query_context->setInputInitializer([this] (Context & context, const StoragePtr & input_storage)
{
if (&context != &query_context.value())
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throw Exception("Unexpected context in Input initializer", ErrorCodes::LOGICAL_ERROR);
auto metadata_snapshot = input_storage->getInMemoryMetadataPtr();
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state.need_receive_data_for_input = true;
/// Send ColumnsDescription for input storage.
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if (client_tcp_protocol_version >= DBMS_MIN_REVISION_WITH_COLUMN_DEFAULTS_METADATA
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&& query_context->getSettingsRef().input_format_defaults_for_omitted_fields)
{
sendTableColumns(metadata_snapshot->getColumns());
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}
/// Send block to the client - input storage structure.
state.input_header = metadata_snapshot->getSampleBlock();
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sendData(state.input_header);
});
query_context->setInputBlocksReaderCallback([&connection_settings, this] (Context & context) -> Block
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{
if (&context != &query_context.value())
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throw Exception("Unexpected context in InputBlocksReader", ErrorCodes::LOGICAL_ERROR);
size_t poll_interval;
int receive_timeout;
std::tie(poll_interval, receive_timeout) = getReadTimeouts(connection_settings);
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if (!readDataNext(poll_interval, receive_timeout))
{
state.block_in.reset();
state.maybe_compressed_in.reset();
return Block();
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}
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return state.block_for_input;
});
customizeContext(*query_context);
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bool may_have_embedded_data = client_tcp_protocol_version >= DBMS_MIN_REVISION_WITH_CLIENT_SUPPORT_EMBEDDED_DATA;
/// Processing Query
state.io = executeQuery(state.query, *query_context, false, state.stage, may_have_embedded_data);
after_check_cancelled.restart();
after_send_progress.restart();
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if (state.io.out)
{
state.need_receive_data_for_insert = true;
processInsertQuery(connection_settings);
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}
else if (state.need_receive_data_for_input) // It implies pipeline execution
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{
/// It is special case for input(), all works for reading data from client will be done in callbacks.
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auto executor = state.io.pipeline.execute();
executor->execute(state.io.pipeline.getNumThreads());
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}
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else if (state.io.pipeline.initialized())
processOrdinaryQueryWithProcessors();
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else if (state.io.in)
processOrdinaryQuery();
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state.io.onFinish();
/// Do it before sending end of stream, to have a chance to show log message in client.
query_scope->logPeakMemoryUsage();
if (state.is_connection_closed)
break;
sendLogs();
sendEndOfStream();
Fix memory tracking for two-level GROUP BY when not all rows read from Aggregator (TCP) Example of such cases: - SELECT GROUP BY LIMIT - SELECT GROUP BY with subsequent MEMORY_LIMIT_EXCEEDED error And it should be two-level aggregation, since otherwise there will be only one hashtable which will be cleared correctly, only if you have two-level GROUP BY some of hashtables will not be cleared since nobody consume rows. Before this patch: 09:39.015292 [ 3070801 ] {609a0610-e377-4132-9cf3-f49454cf3c96} <Information> executeQuery: Read 1000000 rows, 7.63 MiB in 0.707 sec., 1413826 rows/sec., 10.79 MiB/sec. 09:39.015348 [ 3070801 ] {609a0610-e377-4132-9cf3-f49454cf3c96} <Debug> MemoryTracker: Peak memory usage (for query): 51.93 MiB. 09:39.015942 [ 3070801 ] {} <Trace> Aggregator: Destroying aggregate states <-- **problem** 09:39.017057 [ 3070801 ] {} <Trace> Aggregator: Destroying aggregate states <-- 09:39.017961 [ 3070801 ] {} <Debug> MemoryTracker: Peak memory usage (for query): 51.93 MiB. 09:39.018029 [ 3070801 ] {} <Information> TCPHandler: Processed in 0.711 sec. After this patch: 16:24.544030 [ 3087333 ] {79da208a-b3c0-48d4-9943-c974a3cbb6ea} <Information> executeQuery: Read 1000000 rows, 7.63 MiB in 0.599 sec., 1670199 rows/sec., 12.74 MiB/sec. 16:24.544084 [ 3087333 ] {79da208a-b3c0-48d4-9943-c974a3cbb6ea} <Debug> MemoryTracker: Peak memory usage (for query): 72.11 MiB. 16:24.544398 [ 3087333 ] {79da208a-b3c0-48d4-9943-c974a3cbb6ea} <Trace> Aggregator: Destroying aggregate states 16:24.545485 [ 3087333 ] {79da208a-b3c0-48d4-9943-c974a3cbb6ea} <Trace> Aggregator: Destroying aggregate states 16:24.547053 [ 3087333 ] {} <Debug> MemoryTracker: Peak memory usage (for query): 72.11 MiB. 16:24.547093 [ 3087333 ] {} <Information> TCPHandler: Processed in 0.603 sec.
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/// QueryState should be cleared before QueryScope, since otherwise
/// the MemoryTracker will be wrong for possible deallocations.
/// (i.e. deallocations from the Aggregator with two-level aggregation)
state.reset();
Fix memory tracking for two-level GROUP BY when not all rows read from Aggregator (TCP) Example of such cases: - SELECT GROUP BY LIMIT - SELECT GROUP BY with subsequent MEMORY_LIMIT_EXCEEDED error And it should be two-level aggregation, since otherwise there will be only one hashtable which will be cleared correctly, only if you have two-level GROUP BY some of hashtables will not be cleared since nobody consume rows. Before this patch: 09:39.015292 [ 3070801 ] {609a0610-e377-4132-9cf3-f49454cf3c96} <Information> executeQuery: Read 1000000 rows, 7.63 MiB in 0.707 sec., 1413826 rows/sec., 10.79 MiB/sec. 09:39.015348 [ 3070801 ] {609a0610-e377-4132-9cf3-f49454cf3c96} <Debug> MemoryTracker: Peak memory usage (for query): 51.93 MiB. 09:39.015942 [ 3070801 ] {} <Trace> Aggregator: Destroying aggregate states <-- **problem** 09:39.017057 [ 3070801 ] {} <Trace> Aggregator: Destroying aggregate states <-- 09:39.017961 [ 3070801 ] {} <Debug> MemoryTracker: Peak memory usage (for query): 51.93 MiB. 09:39.018029 [ 3070801 ] {} <Information> TCPHandler: Processed in 0.711 sec. After this patch: 16:24.544030 [ 3087333 ] {79da208a-b3c0-48d4-9943-c974a3cbb6ea} <Information> executeQuery: Read 1000000 rows, 7.63 MiB in 0.599 sec., 1670199 rows/sec., 12.74 MiB/sec. 16:24.544084 [ 3087333 ] {79da208a-b3c0-48d4-9943-c974a3cbb6ea} <Debug> MemoryTracker: Peak memory usage (for query): 72.11 MiB. 16:24.544398 [ 3087333 ] {79da208a-b3c0-48d4-9943-c974a3cbb6ea} <Trace> Aggregator: Destroying aggregate states 16:24.545485 [ 3087333 ] {79da208a-b3c0-48d4-9943-c974a3cbb6ea} <Trace> Aggregator: Destroying aggregate states 16:24.547053 [ 3087333 ] {} <Debug> MemoryTracker: Peak memory usage (for query): 72.11 MiB. 16:24.547093 [ 3087333 ] {} <Information> TCPHandler: Processed in 0.603 sec.
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query_scope.reset();
}
catch (const Exception & e)
{
state.io.onException();
exception.emplace(e);
if (e.code() == ErrorCodes::UNKNOWN_PACKET_FROM_CLIENT)
throw;
/// If there is UNEXPECTED_PACKET_FROM_CLIENT emulate network_error
/// to break the loop, but do not throw to send the exception to
/// the client.
if (e.code() == ErrorCodes::UNEXPECTED_PACKET_FROM_CLIENT)
network_error = true;
/// If a timeout occurred, try to inform client about it and close the session
if (e.code() == ErrorCodes::SOCKET_TIMEOUT)
network_error = true;
}
catch (const Poco::Net::NetException & e)
{
/** We can get here if there was an error during connection to the client,
* or in connection with a remote server that was used to process the request.
* It is not possible to distinguish between these two cases.
* Although in one of them, we have to send exception to the client, but in the other - we can not.
* We will try to send exception to the client in any case - see below.
*/
state.io.onException();
exception.emplace(Exception::CreateFromPocoTag{}, e);
}
catch (const Poco::Exception & e)
{
state.io.onException();
exception.emplace(Exception::CreateFromPocoTag{}, e);
}
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// Server should die on std logic errors in debug, like with assert()
// or ErrorCodes::LOGICAL_ERROR. This helps catch these errors in
// tests.
#ifndef NDEBUG
catch (const std::logic_error & e)
{
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state.io.onException();
exception.emplace(Exception::CreateFromSTDTag{}, e);
sendException(*exception, send_exception_with_stack_trace);
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std::abort();
}
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#endif
catch (const std::exception & e)
{
state.io.onException();
exception.emplace(Exception::CreateFromSTDTag{}, e);
}
catch (...)
{
state.io.onException();
exception.emplace("Unknown exception", ErrorCodes::UNKNOWN_EXCEPTION);
}
try
{
if (exception)
{
try
{
/// Try to send logs to client, but it could be risky too
/// Assume that we can't break output here
sendLogs();
}
catch (...)
{
tryLogCurrentException(log, "Can't send logs to client");
}
const auto & e = *exception;
LOG_ERROR(log, "Code: {}, e.displayText() = {}, Stack trace:\n\n{}", e.code(), e.displayText(), e.getStackTraceString());
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sendException(*exception, send_exception_with_stack_trace);
}
}
catch (...)
{
/** Could not send exception information to the client. */
network_error = true;
LOG_WARNING(log, "Client has gone away.");
}
try
{
if (exception && !state.temporary_tables_read)
query_context->initializeExternalTablesIfSet();
}
catch (...)
{
network_error = true;
LOG_WARNING(log, "Can't read external tables after query failure.");
}
try
{
Fix memory tracking for two-level GROUP BY when not all rows read from Aggregator (TCP) Example of such cases: - SELECT GROUP BY LIMIT - SELECT GROUP BY with subsequent MEMORY_LIMIT_EXCEEDED error And it should be two-level aggregation, since otherwise there will be only one hashtable which will be cleared correctly, only if you have two-level GROUP BY some of hashtables will not be cleared since nobody consume rows. Before this patch: 09:39.015292 [ 3070801 ] {609a0610-e377-4132-9cf3-f49454cf3c96} <Information> executeQuery: Read 1000000 rows, 7.63 MiB in 0.707 sec., 1413826 rows/sec., 10.79 MiB/sec. 09:39.015348 [ 3070801 ] {609a0610-e377-4132-9cf3-f49454cf3c96} <Debug> MemoryTracker: Peak memory usage (for query): 51.93 MiB. 09:39.015942 [ 3070801 ] {} <Trace> Aggregator: Destroying aggregate states <-- **problem** 09:39.017057 [ 3070801 ] {} <Trace> Aggregator: Destroying aggregate states <-- 09:39.017961 [ 3070801 ] {} <Debug> MemoryTracker: Peak memory usage (for query): 51.93 MiB. 09:39.018029 [ 3070801 ] {} <Information> TCPHandler: Processed in 0.711 sec. After this patch: 16:24.544030 [ 3087333 ] {79da208a-b3c0-48d4-9943-c974a3cbb6ea} <Information> executeQuery: Read 1000000 rows, 7.63 MiB in 0.599 sec., 1670199 rows/sec., 12.74 MiB/sec. 16:24.544084 [ 3087333 ] {79da208a-b3c0-48d4-9943-c974a3cbb6ea} <Debug> MemoryTracker: Peak memory usage (for query): 72.11 MiB. 16:24.544398 [ 3087333 ] {79da208a-b3c0-48d4-9943-c974a3cbb6ea} <Trace> Aggregator: Destroying aggregate states 16:24.545485 [ 3087333 ] {79da208a-b3c0-48d4-9943-c974a3cbb6ea} <Trace> Aggregator: Destroying aggregate states 16:24.547053 [ 3087333 ] {} <Debug> MemoryTracker: Peak memory usage (for query): 72.11 MiB. 16:24.547093 [ 3087333 ] {} <Information> TCPHandler: Processed in 0.603 sec.
2020-05-18 18:13:56 +00:00
/// QueryState should be cleared before QueryScope, since otherwise
/// the MemoryTracker will be wrong for possible deallocations.
/// (i.e. deallocations from the Aggregator with two-level aggregation)
state.reset();
Fix memory tracking for two-level GROUP BY when not all rows read from Aggregator (TCP) Example of such cases: - SELECT GROUP BY LIMIT - SELECT GROUP BY with subsequent MEMORY_LIMIT_EXCEEDED error And it should be two-level aggregation, since otherwise there will be only one hashtable which will be cleared correctly, only if you have two-level GROUP BY some of hashtables will not be cleared since nobody consume rows. Before this patch: 09:39.015292 [ 3070801 ] {609a0610-e377-4132-9cf3-f49454cf3c96} <Information> executeQuery: Read 1000000 rows, 7.63 MiB in 0.707 sec., 1413826 rows/sec., 10.79 MiB/sec. 09:39.015348 [ 3070801 ] {609a0610-e377-4132-9cf3-f49454cf3c96} <Debug> MemoryTracker: Peak memory usage (for query): 51.93 MiB. 09:39.015942 [ 3070801 ] {} <Trace> Aggregator: Destroying aggregate states <-- **problem** 09:39.017057 [ 3070801 ] {} <Trace> Aggregator: Destroying aggregate states <-- 09:39.017961 [ 3070801 ] {} <Debug> MemoryTracker: Peak memory usage (for query): 51.93 MiB. 09:39.018029 [ 3070801 ] {} <Information> TCPHandler: Processed in 0.711 sec. After this patch: 16:24.544030 [ 3087333 ] {79da208a-b3c0-48d4-9943-c974a3cbb6ea} <Information> executeQuery: Read 1000000 rows, 7.63 MiB in 0.599 sec., 1670199 rows/sec., 12.74 MiB/sec. 16:24.544084 [ 3087333 ] {79da208a-b3c0-48d4-9943-c974a3cbb6ea} <Debug> MemoryTracker: Peak memory usage (for query): 72.11 MiB. 16:24.544398 [ 3087333 ] {79da208a-b3c0-48d4-9943-c974a3cbb6ea} <Trace> Aggregator: Destroying aggregate states 16:24.545485 [ 3087333 ] {79da208a-b3c0-48d4-9943-c974a3cbb6ea} <Trace> Aggregator: Destroying aggregate states 16:24.547053 [ 3087333 ] {} <Debug> MemoryTracker: Peak memory usage (for query): 72.11 MiB. 16:24.547093 [ 3087333 ] {} <Information> TCPHandler: Processed in 0.603 sec.
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query_scope.reset();
}
catch (...)
{
/** During the processing of request, there was an exception that we caught and possibly sent to client.
* When destroying the request pipeline execution there was a second exception.
* For example, a pipeline could run in multiple threads, and an exception could occur in each of them.
* Ignore it.
*/
}
watch.stop();
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LOG_DEBUG(log, "Processed in {} sec.", watch.elapsedSeconds());
/// It is important to destroy query context here. We do not want it to live arbitrarily longer than the query.
query_context.reset();
if (network_error)
break;
}
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}
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bool TCPHandler::readDataNext(const size_t & poll_interval, const int & receive_timeout)
{
Stopwatch watch(CLOCK_MONOTONIC_COARSE);
/// We are waiting for a packet from the client. Thus, every `POLL_INTERVAL` seconds check whether we need to shut down.
while (true)
{
if (static_cast<ReadBufferFromPocoSocket &>(*in).poll(poll_interval))
break;
/// Do we need to shut down?
if (server.isCancelled())
return false;
/** Have we waited for data for too long?
* If we periodically poll, the receive_timeout of the socket itself does not work.
* Therefore, an additional check is added.
*/
double elapsed = watch.elapsedSeconds();
if (elapsed > receive_timeout)
{
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throw Exception(ErrorCodes::SOCKET_TIMEOUT,
"Timeout exceeded while receiving data from client. Waited for {} seconds, timeout is {} seconds.",
static_cast<size_t>(elapsed), receive_timeout);
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}
}
/// If client disconnected.
if (in->eof())
{
LOG_INFO(log, "Client has dropped the connection, cancel the query.");
state.is_connection_closed = true;
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return false;
}
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/// We accept and process data. And if they are over, then we leave.
if (!receivePacket())
return false;
sendLogs();
return true;
}
std::tuple<size_t, int> TCPHandler::getReadTimeouts(const Settings & connection_settings)
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{
const auto receive_timeout = query_context->getSettingsRef().receive_timeout.value;
/// Poll interval should not be greater than receive_timeout
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const size_t default_poll_interval = connection_settings.poll_interval * 1000000;
size_t current_poll_interval = static_cast<size_t>(receive_timeout.totalMicroseconds());
constexpr size_t min_poll_interval = 5000; // 5 ms
size_t poll_interval = std::max(min_poll_interval, std::min(default_poll_interval, current_poll_interval));
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return std::make_tuple(poll_interval, receive_timeout.totalSeconds());
}
void TCPHandler::readData(const Settings & connection_settings)
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{
size_t poll_interval;
int receive_timeout;
std::tie(poll_interval, receive_timeout) = getReadTimeouts(connection_settings);
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sendLogs();
while (readDataNext(poll_interval, receive_timeout))
;
}
void TCPHandler::processInsertQuery(const Settings & connection_settings)
{
/** Made above the rest of the lines, so that in case of `writePrefix` function throws an exception,
* client receive exception before sending data.
*/
state.io.out->writePrefix();
/// Send ColumnsDescription for insertion table
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if (client_tcp_protocol_version >= DBMS_MIN_REVISION_WITH_COLUMN_DEFAULTS_METADATA)
{
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const auto & table_id = query_context->getInsertionTable();
if (query_context->getSettingsRef().input_format_defaults_for_omitted_fields)
{
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if (!table_id.empty())
{
auto storage_ptr = DatabaseCatalog::instance().getTable(table_id, *query_context);
sendTableColumns(storage_ptr->getInMemoryMetadataPtr()->getColumns());
}
}
}
/// Send block to the client - table structure.
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sendData(state.io.out->getHeader());
readData(connection_settings);
state.io.out->writeSuffix();
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}
void TCPHandler::processOrdinaryQuery()
{
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OpenTelemetrySpanHolder span(__PRETTY_FUNCTION__);
/// Pull query execution result, if exists, and send it to network.
if (state.io.in)
{
/// This allows the client to prepare output format
if (Block header = state.io.in->getHeader())
sendData(header);
/// Use of async mode here enables reporting progress and monitoring client cancelling the query
AsynchronousBlockInputStream async_in(state.io.in);
async_in.readPrefix();
while (true)
{
if (isQueryCancelled())
{
async_in.cancel(false);
break;
}
if (after_send_progress.elapsed() / 1000 >= query_context->getSettingsRef().interactive_delay)
{
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/// Some time passed.
after_send_progress.restart();
sendProgress();
}
sendLogs();
if (async_in.poll(query_context->getSettingsRef().interactive_delay / 1000))
{
const auto block = async_in.read();
if (!block)
break;
if (!state.io.null_format)
sendData(block);
}
}
async_in.readSuffix();
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/** When the data has run out, we send the profiling data and totals up to the terminating empty block,
* so that this information can be used in the suffix output of stream.
* If the request has been interrupted, then sendTotals and other methods should not be called,
* because we have not read all the data.
*/
if (!isQueryCancelled())
{
sendTotals(state.io.in->getTotals());
sendExtremes(state.io.in->getExtremes());
sendProfileInfo(state.io.in->getProfileInfo());
sendProgress();
}
if (state.is_connection_closed)
return;
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sendData({});
}
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sendProgress();
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}
void TCPHandler::processOrdinaryQueryWithProcessors()
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{
auto & pipeline = state.io.pipeline;
/// Send header-block, to allow client to prepare output format for data to send.
{
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const auto & header = pipeline.getHeader();
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if (header)
sendData(header);
}
{
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PullingAsyncPipelineExecutor executor(pipeline);
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CurrentMetrics::Increment query_thread_metric_increment{CurrentMetrics::QueryThread};
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Block block;
while (executor.pull(block, query_context->getSettingsRef().interactive_delay / 1000))
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{
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if (isQueryCancelled())
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{
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/// A packet was received requesting to stop execution of the request.
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executor.cancel();
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break;
}
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if (after_send_progress.elapsed() / 1000 >= query_context->getSettingsRef().interactive_delay)
{
/// Some time passed and there is a progress.
after_send_progress.restart();
sendProgress();
}
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sendLogs();
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if (block)
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{
if (!state.io.null_format)
sendData(block);
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}
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}
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/** If data has run out, we will send the profiling data and total values to
* the last zero block to be able to use
* this information in the suffix output of stream.
* If the request was interrupted, then `sendTotals` and other methods could not be called,
* because we have not read all the data yet,
* and there could be ongoing calculations in other threads at the same time.
*/
if (!isQueryCancelled())
{
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sendTotals(executor.getTotalsBlock());
sendExtremes(executor.getExtremesBlock());
sendProfileInfo(executor.getProfileInfo());
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sendProgress();
sendLogs();
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}
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if (state.is_connection_closed)
return;
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sendData({});
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}
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sendProgress();
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}
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void TCPHandler::processTablesStatusRequest()
{
TablesStatusRequest request;
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request.read(*in, client_tcp_protocol_version);
TablesStatusResponse response;
for (const QualifiedTableName & table_name: request.tables)
{
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auto resolved_id = connection_context.tryResolveStorageID({table_name.database, table_name.table});
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StoragePtr table = DatabaseCatalog::instance().tryGetTable(resolved_id, connection_context);
if (!table)
continue;
TableStatus status;
if (auto * replicated_table = dynamic_cast<StorageReplicatedMergeTree *>(table.get()))
{
status.is_replicated = true;
status.absolute_delay = replicated_table->getAbsoluteDelay();
}
else
status.is_replicated = false;
response.table_states_by_id.emplace(table_name, std::move(status));
}
writeVarUInt(Protocol::Server::TablesStatusResponse, *out);
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response.write(*out, client_tcp_protocol_version);
}
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void TCPHandler::receiveUnexpectedTablesStatusRequest()
{
TablesStatusRequest skip_request;
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skip_request.read(*in, client_tcp_protocol_version);
throw NetException("Unexpected packet TablesStatusRequest received from client", ErrorCodes::UNEXPECTED_PACKET_FROM_CLIENT);
}
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void TCPHandler::sendProfileInfo(const BlockStreamProfileInfo & info)
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{
writeVarUInt(Protocol::Server::ProfileInfo, *out);
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info.write(*out);
out->next();
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}
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void TCPHandler::sendTotals(const Block & totals)
{
if (totals)
{
initBlockOutput(totals);
writeVarUInt(Protocol::Server::Totals, *out);
writeStringBinary("", *out);
state.block_out->write(totals);
state.maybe_compressed_out->next();
out->next();
}
}
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void TCPHandler::sendExtremes(const Block & extremes)
{
if (extremes)
{
initBlockOutput(extremes);
writeVarUInt(Protocol::Server::Extremes, *out);
writeStringBinary("", *out);
state.block_out->write(extremes);
state.maybe_compressed_out->next();
out->next();
}
}
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bool TCPHandler::receiveProxyHeader()
{
if (in->eof())
{
LOG_WARNING(log, "Client has not sent any data.");
return false;
}
String forwarded_address;
/// Only PROXYv1 is supported.
/// Validation of protocol is not fully performed.
LimitReadBuffer limit_in(*in, 107, true); /// Maximum length from the specs.
assertString("PROXY ", limit_in);
if (limit_in.eof())
{
LOG_WARNING(log, "Incomplete PROXY header is received.");
return false;
}
/// TCP4 / TCP6 / UNKNOWN
if ('T' == *limit_in.position())
{
assertString("TCP", limit_in);
if (limit_in.eof())
{
LOG_WARNING(log, "Incomplete PROXY header is received.");
return false;
}
if ('4' != *limit_in.position() && '6' != *limit_in.position())
{
LOG_WARNING(log, "Unexpected protocol in PROXY header is received.");
return false;
}
++limit_in.position();
assertChar(' ', limit_in);
/// Read the first field and ignore other.
readStringUntilWhitespace(forwarded_address, limit_in);
/// Skip until \r\n
while (!limit_in.eof() && *limit_in.position() != '\r')
++limit_in.position();
assertString("\r\n", limit_in);
}
else if (checkString("UNKNOWN", limit_in))
{
/// This is just a health check, there is no subsequent data in this connection.
while (!limit_in.eof() && *limit_in.position() != '\r')
++limit_in.position();
assertString("\r\n", limit_in);
return false;
}
else
{
LOG_WARNING(log, "Unexpected protocol in PROXY header is received.");
return false;
}
LOG_TRACE(log, "Forwarded client address from PROXY header: {}", forwarded_address);
connection_context.getClientInfo().forwarded_for = forwarded_address;
return true;
}
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void TCPHandler::receiveHello()
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{
/// Receive `hello` packet.
UInt64 packet_type = 0;
String user;
String password;
readVarUInt(packet_type, *in);
if (packet_type != Protocol::Client::Hello)
{
/** If you accidentally accessed the HTTP protocol for a port destined for an internal TCP protocol,
* Then instead of the packet type, there will be G (GET) or P (POST), in most cases.
*/
if (packet_type == 'G' || packet_type == 'P')
{
writeString("HTTP/1.0 400 Bad Request\r\n\r\n"
"Port " + server.config().getString("tcp_port") + " is for clickhouse-client program.\r\n"
"You must use port " + server.config().getString("http_port") + " for HTTP.\r\n",
*out);
throw Exception("Client has connected to wrong port", ErrorCodes::CLIENT_HAS_CONNECTED_TO_WRONG_PORT);
}
else
throw NetException("Unexpected packet from client", ErrorCodes::UNEXPECTED_PACKET_FROM_CLIENT);
}
readStringBinary(client_name, *in);
readVarUInt(client_version_major, *in);
readVarUInt(client_version_minor, *in);
// NOTE For backward compatibility of the protocol, client cannot send its version_patch.
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readVarUInt(client_tcp_protocol_version, *in);
readStringBinary(default_database, *in);
readStringBinary(user, *in);
readStringBinary(password, *in);
if (user.empty())
throw NetException("Unexpected packet from client (no user in Hello package)", ErrorCodes::UNEXPECTED_PACKET_FROM_CLIENT);
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LOG_DEBUG(log, "Connected {} version {}.{}.{}, revision: {}{}{}.",
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client_name,
client_version_major, client_version_minor, client_version_patch,
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client_tcp_protocol_version,
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(!default_database.empty() ? ", database: " + default_database : ""),
(!user.empty() ? ", user: " + user : "")
);
if (user != USER_INTERSERVER_MARKER)
{
connection_context.setUser(user, password, socket().peerAddress());
}
else
{
receiveClusterNameAndSalt();
}
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}
void TCPHandler::receiveUnexpectedHello()
{
UInt64 skip_uint_64;
String skip_string;
readStringBinary(skip_string, *in);
readVarUInt(skip_uint_64, *in);
readVarUInt(skip_uint_64, *in);
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readVarUInt(skip_uint_64, *in);
readStringBinary(skip_string, *in);
readStringBinary(skip_string, *in);
readStringBinary(skip_string, *in);
throw NetException("Unexpected packet Hello received from client", ErrorCodes::UNEXPECTED_PACKET_FROM_CLIENT);
}
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void TCPHandler::sendHello()
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{
writeVarUInt(Protocol::Server::Hello, *out);
writeStringBinary(DBMS_NAME, *out);
writeVarUInt(DBMS_VERSION_MAJOR, *out);
writeVarUInt(DBMS_VERSION_MINOR, *out);
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writeVarUInt(DBMS_TCP_PROTOCOL_VERSION, *out);
if (client_tcp_protocol_version >= DBMS_MIN_REVISION_WITH_SERVER_TIMEZONE)
writeStringBinary(DateLUT::instance().getTimeZone(), *out);
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if (client_tcp_protocol_version >= DBMS_MIN_REVISION_WITH_SERVER_DISPLAY_NAME)
writeStringBinary(server_display_name, *out);
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if (client_tcp_protocol_version >= DBMS_MIN_REVISION_WITH_VERSION_PATCH)
writeVarUInt(DBMS_VERSION_PATCH, *out);
out->next();
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}
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bool TCPHandler::receivePacket()
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{
UInt64 packet_type = 0;
readVarUInt(packet_type, *in);
// std::cerr << "Server got packet: " << Protocol::Client::toString(packet_type) << "\n";
switch (packet_type)
{
case Protocol::Client::Query:
if (!state.empty())
receiveUnexpectedQuery();
receiveQuery();
return true;
case Protocol::Client::Data:
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case Protocol::Client::Scalar:
if (state.empty())
receiveUnexpectedData();
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return receiveData(packet_type == Protocol::Client::Scalar);
case Protocol::Client::Ping:
writeVarUInt(Protocol::Server::Pong, *out);
out->next();
return false;
case Protocol::Client::Cancel:
return false;
case Protocol::Client::Hello:
receiveUnexpectedHello();
case Protocol::Client::TablesStatusRequest:
if (!state.empty())
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receiveUnexpectedTablesStatusRequest();
processTablesStatusRequest();
out->next();
return false;
default:
throw Exception("Unknown packet " + toString(packet_type) + " from client", ErrorCodes::UNKNOWN_PACKET_FROM_CLIENT);
}
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}
void TCPHandler::receiveClusterNameAndSalt()
{
readStringBinary(cluster, *in);
readStringBinary(salt, *in, 32);
try
{
if (salt.empty())
throw NetException("Empty salt is not allowed", ErrorCodes::UNEXPECTED_PACKET_FROM_CLIENT);
cluster_secret = query_context->getCluster(cluster)->getSecret();
}
catch (const Exception & e)
{
try
{
/// We try to send error information to the client.
sendException(e, connection_context.getSettingsRef().calculate_text_stack_trace);
}
catch (...) {}
throw;
}
}
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void TCPHandler::receiveQuery()
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{
UInt64 stage = 0;
UInt64 compression = 0;
state.is_empty = false;
readStringBinary(state.query_id, *in);
/// Client info
ClientInfo & client_info = query_context->getClientInfo();
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if (client_tcp_protocol_version >= DBMS_MIN_REVISION_WITH_CLIENT_INFO)
client_info.read(*in, client_tcp_protocol_version);
/// For better support of old clients, that does not send ClientInfo.
if (client_info.query_kind == ClientInfo::QueryKind::NO_QUERY)
{
client_info.query_kind = ClientInfo::QueryKind::INITIAL_QUERY;
client_info.client_name = client_name;
client_info.client_version_major = client_version_major;
client_info.client_version_minor = client_version_minor;
client_info.client_version_patch = client_version_patch;
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client_info.client_tcp_protocol_version = client_tcp_protocol_version;
}
/// Set fields, that are known apriori.
client_info.interface = ClientInfo::Interface::TCP;
/// Per query settings are also passed via TCP.
/// We need to check them before applying due to they can violate the settings constraints.
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auto settings_format = (client_tcp_protocol_version >= DBMS_MIN_REVISION_WITH_SETTINGS_SERIALIZED_AS_STRINGS) ? SettingsWriteFormat::STRINGS_WITH_FLAGS
: SettingsWriteFormat::BINARY;
Settings passed_settings;
passed_settings.read(*in, settings_format);
/// Interserver secret.
std::string received_hash;
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if (client_tcp_protocol_version >= DBMS_MIN_REVISION_WITH_INTERSERVER_SECRET)
{
readStringBinary(received_hash, *in, 32);
}
readVarUInt(stage, *in);
state.stage = QueryProcessingStage::Enum(stage);
readVarUInt(compression, *in);
state.compression = static_cast<Protocol::Compression>(compression);
readStringBinary(state.query, *in);
/// It is OK to check only when query != INITIAL_QUERY,
/// since only in that case the actions will be done.
if (!cluster.empty() && client_info.query_kind != ClientInfo::QueryKind::INITIAL_QUERY)
{
#if USE_SSL
std::string data(salt);
data += cluster_secret;
data += state.query;
data += state.query_id;
data += client_info.initial_user;
if (received_hash.size() != 32)
throw NetException("Unexpected hash received from client", ErrorCodes::UNEXPECTED_PACKET_FROM_CLIENT);
std::string calculated_hash = encodeSHA256(data);
if (calculated_hash != received_hash)
throw NetException("Hash mismatch", ErrorCodes::UNEXPECTED_PACKET_FROM_CLIENT);
/// TODO: change error code?
/// initial_user can be empty in case of Distributed INSERT via Buffer/Kafka,
/// i.e. when the INSERT is done with the global context (w/o user).
if (!client_info.initial_user.empty())
{
query_context->setUserWithoutCheckingPassword(client_info.initial_user, client_info.initial_address);
LOG_DEBUG(log, "User (initial): {}", query_context->getUserName());
}
/// No need to update connection_context, since it does not requires user (it will not be used for query execution)
#else
throw Exception(
"Inter-server secret support is disabled, because ClickHouse was built without SSL library",
ErrorCodes::SUPPORT_IS_DISABLED);
#endif
}
else
{
query_context->setInitialRowPolicy();
}
///
/// Settings
///
auto settings_changes = passed_settings.changes();
if (client_info.query_kind == ClientInfo::QueryKind::INITIAL_QUERY)
{
/// Throw an exception if the passed settings violate the constraints.
query_context->checkSettingsConstraints(settings_changes);
}
else
{
/// Quietly clamp to the constraints if it's not an initial query.
query_context->clampToSettingsConstraints(settings_changes);
}
query_context->applySettingsChanges(settings_changes);
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// Use the received query id, or generate a random default. It is convenient
// to also generate the default OpenTelemetry trace id at the same time, and
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// set the trace parent.
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// Why is this done here and not earlier:
// 1) ClientInfo might contain upstream trace id, so we decide whether to use
// the default ids after we have received the ClientInfo.
// 2) There is the opentelemetry_start_trace_probability setting that
// controls when we start a new trace. It can be changed via Native protocol,
// so we have to apply the changes first.
query_context->setCurrentQueryId(state.query_id);
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// Set parameters of initial query.
if (client_info.query_kind == ClientInfo::QueryKind::INITIAL_QUERY)
{
/// 'Current' fields was set at receiveHello.
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;
}
/// Sync timeouts on client and server during current query to avoid dangling queries on server
/// NOTE: We use settings.send_timeout for the receive timeout and vice versa (change arguments ordering in TimeoutSetter),
/// because settings.send_timeout is client-side setting which has opposite meaning on the server side.
/// NOTE: these settings are applied only for current connection (not for distributed tables' connections)
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const Settings & settings = query_context->getSettingsRef();
state.timeout_setter = std::make_unique<TimeoutSetter>(socket(), settings.receive_timeout, settings.send_timeout);
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}
void TCPHandler::receiveUnexpectedQuery()
{
UInt64 skip_uint_64;
String skip_string;
readStringBinary(skip_string, *in);
ClientInfo skip_client_info;
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if (client_tcp_protocol_version >= DBMS_MIN_REVISION_WITH_CLIENT_INFO)
skip_client_info.read(*in, client_tcp_protocol_version);
Settings skip_settings;
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auto settings_format = (client_tcp_protocol_version >= DBMS_MIN_REVISION_WITH_SETTINGS_SERIALIZED_AS_STRINGS) ? SettingsWriteFormat::STRINGS_WITH_FLAGS
: SettingsWriteFormat::BINARY;
skip_settings.read(*in, settings_format);
std::string skip_hash;
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bool interserver_secret = client_tcp_protocol_version >= DBMS_MIN_REVISION_WITH_INTERSERVER_SECRET;
if (interserver_secret)
readStringBinary(skip_hash, *in, 32);
readVarUInt(skip_uint_64, *in);
readVarUInt(skip_uint_64, *in);
readStringBinary(skip_string, *in);
throw NetException("Unexpected packet Query received from client", ErrorCodes::UNEXPECTED_PACKET_FROM_CLIENT);
}
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2019-10-19 20:36:35 +00:00
bool TCPHandler::receiveData(bool scalar)
{
initBlockInput();
/// The name of the temporary table for writing data, default to empty string
2020-02-12 18:14:12 +00:00
auto temporary_id = StorageID::createEmpty();
readStringBinary(temporary_id.table_name, *in);
/// Read one block from the network and write it down
Block block = state.block_in->read();
if (block)
{
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if (scalar)
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query_context->addScalar(temporary_id.table_name, block);
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else
{
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/// If there is an insert request, then the data should be written directly to `state.io.out`.
/// Otherwise, we write the blocks in the temporary `external_table_name` table.
if (!state.need_receive_data_for_insert && !state.need_receive_data_for_input)
{
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auto resolved = query_context->tryResolveStorageID(temporary_id, Context::ResolveExternal);
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StoragePtr storage;
/// If such a table does not exist, create it.
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if (resolved)
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storage = DatabaseCatalog::instance().getTable(resolved, *query_context);
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else
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{
NamesAndTypesList columns = block.getNamesAndTypesList();
auto temporary_table = TemporaryTableHolder(*query_context, ColumnsDescription{columns}, {});
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storage = temporary_table.getTable();
query_context->addExternalTable(temporary_id.table_name, std::move(temporary_table));
}
auto metadata_snapshot = storage->getInMemoryMetadataPtr();
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/// The data will be written directly to the table.
state.io.out = storage->write(ASTPtr(), metadata_snapshot, *query_context);
}
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if (state.need_receive_data_for_input)
state.block_for_input = block;
else
state.io.out->write(block);
}
return true;
}
else
return false;
}
void TCPHandler::receiveUnexpectedData()
{
String skip_external_table_name;
readStringBinary(skip_external_table_name, *in);
std::shared_ptr<ReadBuffer> maybe_compressed_in;
if (last_block_in.compression == Protocol::Compression::Enable)
maybe_compressed_in = std::make_shared<CompressedReadBuffer>(*in, /* allow_different_codecs */ true);
else
maybe_compressed_in = in;
auto skip_block_in = std::make_shared<NativeBlockInputStream>(
*maybe_compressed_in,
last_block_in.header,
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client_tcp_protocol_version);
skip_block_in->read();
throw NetException("Unexpected packet Data received from client", ErrorCodes::UNEXPECTED_PACKET_FROM_CLIENT);
}
void TCPHandler::initBlockInput()
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{
if (!state.block_in)
{
/// 'allow_different_codecs' is set to true, because some parts of compressed data can be precompressed in advance
/// with another codec that the rest of the data. Example: data sent by Distributed tables.
if (state.compression == Protocol::Compression::Enable)
state.maybe_compressed_in = std::make_shared<CompressedReadBuffer>(*in, /* allow_different_codecs */ true);
else
state.maybe_compressed_in = in;
Block header;
if (state.io.out)
header = state.io.out->getHeader();
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else if (state.need_receive_data_for_input)
header = state.input_header;
last_block_in.header = header;
last_block_in.compression = state.compression;
state.block_in = std::make_shared<NativeBlockInputStream>(
*state.maybe_compressed_in,
header,
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client_tcp_protocol_version);
}
}
void TCPHandler::initBlockOutput(const Block & block)
{
if (!state.block_out)
{
if (!state.maybe_compressed_out)
{
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const Settings & query_settings = query_context->getSettingsRef();
std::string method = Poco::toUpper(query_settings.network_compression_method.toString());
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std::optional<int> level;
if (method == "ZSTD")
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level = query_settings.network_zstd_compression_level;
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if (state.compression == Protocol::Compression::Enable)
{
CompressionCodecFactory::instance().validateCodec(method, level, !query_settings.allow_suspicious_codecs);
state.maybe_compressed_out = std::make_shared<CompressedWriteBuffer>(
*out, CompressionCodecFactory::instance().get(method, level));
}
else
state.maybe_compressed_out = out;
}
state.block_out = std::make_shared<NativeBlockOutputStream>(
*state.maybe_compressed_out,
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client_tcp_protocol_version,
block.cloneEmpty(),
!connection_context.getSettingsRef().low_cardinality_allow_in_native_format);
}
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}
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void TCPHandler::initLogsBlockOutput(const Block & block)
{
if (!state.logs_block_out)
{
/// Use uncompressed stream since log blocks usually contain only one row
state.logs_block_out = std::make_shared<NativeBlockOutputStream>(
*out,
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client_tcp_protocol_version,
block.cloneEmpty(),
!connection_context.getSettingsRef().low_cardinality_allow_in_native_format);
}
}
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bool TCPHandler::isQueryCancelled()
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{
if (state.is_cancelled || state.sent_all_data)
return true;
if (after_check_cancelled.elapsed() / 1000 < query_context->getSettingsRef().interactive_delay)
return false;
after_check_cancelled.restart();
/// During request execution the only packet that can come from the client is stopping the query.
if (static_cast<ReadBufferFromPocoSocket &>(*in).poll(0))
{
if (in->eof())
{
LOG_INFO(log, "Client has dropped the connection, cancel the query.");
state.is_cancelled = true;
state.is_connection_closed = true;
return true;
}
UInt64 packet_type = 0;
readVarUInt(packet_type, *in);
switch (packet_type)
{
case Protocol::Client::Cancel:
if (state.empty())
throw NetException("Unexpected packet Cancel received from client", ErrorCodes::UNEXPECTED_PACKET_FROM_CLIENT);
LOG_INFO(log, "Query was cancelled.");
state.is_cancelled = true;
return true;
default:
throw NetException("Unknown packet from client", ErrorCodes::UNKNOWN_PACKET_FROM_CLIENT);
}
}
return false;
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}
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void TCPHandler::sendData(const Block & block)
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{
initBlockOutput(block);
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writeVarUInt(Protocol::Server::Data, *out);
/// Send external table name (empty name is the main table)
writeStringBinary("", *out);
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state.block_out->write(block);
state.maybe_compressed_out->next();
out->next();
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}
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void TCPHandler::sendLogData(const Block & block)
{
initLogsBlockOutput(block);
writeVarUInt(Protocol::Server::Log, *out);
/// Send log tag (empty tag is the default tag)
writeStringBinary("", *out);
state.logs_block_out->write(block);
out->next();
}
void TCPHandler::sendTableColumns(const ColumnsDescription & columns)
{
writeVarUInt(Protocol::Server::TableColumns, *out);
/// Send external table name (empty name is the main table)
writeStringBinary("", *out);
writeStringBinary(columns.toString(), *out);
out->next();
}
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void TCPHandler::sendException(const Exception & e, bool with_stack_trace)
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{
writeVarUInt(Protocol::Server::Exception, *out);
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writeException(e, *out, with_stack_trace);
out->next();
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}
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void TCPHandler::sendEndOfStream()
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{
state.sent_all_data = true;
writeVarUInt(Protocol::Server::EndOfStream, *out);
out->next();
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}
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void TCPHandler::updateProgress(const Progress & value)
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{
state.progress.incrementPiecewiseAtomically(value);
}
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void TCPHandler::sendProgress()
{
writeVarUInt(Protocol::Server::Progress, *out);
auto increment = state.progress.fetchAndResetPiecewiseAtomically();
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increment.write(*out, client_tcp_protocol_version);
out->next();
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}
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void TCPHandler::sendLogs()
{
if (!state.logs_queue)
return;
MutableColumns logs_columns;
MutableColumns curr_logs_columns;
size_t rows = 0;
for (; state.logs_queue->tryPop(curr_logs_columns); ++rows)
{
if (rows == 0)
{
logs_columns = std::move(curr_logs_columns);
}
else
{
for (size_t j = 0; j < logs_columns.size(); ++j)
logs_columns[j]->insertRangeFrom(*curr_logs_columns[j], 0, curr_logs_columns[j]->size());
}
}
if (rows > 0)
{
Block block = InternalTextLogsQueue::getSampleBlock();
block.setColumns(std::move(logs_columns));
sendLogData(block);
}
}
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void TCPHandler::run()
{
try
{
runImpl();
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LOG_DEBUG(log, "Done processing connection.");
}
catch (Poco::Exception & e)
{
/// Timeout - not an error.
if (!strcmp(e.what(), "Timeout"))
{
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LOG_DEBUG(log, "Poco::Exception. Code: {}, e.code() = {}, e.displayText() = {}, e.what() = {}", ErrorCodes::POCO_EXCEPTION, e.code(), e.displayText(), e.what());
}
else
throw;
}
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}
}