ClickHouse/dbms/src/DataStreams/RemoteBlockInputStream.cpp

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#include <DataStreams/RemoteBlockInputStream.h>
#include <DataStreams/OneBlockInputStream.h>
#include <Common/NetException.h>
#include <Common/CurrentThread.h>
#include <Interpreters/Context.h>
#include <Interpreters/castColumn.h>
#include <Interpreters/InternalTextLogsQueue.h>
#include <Storages/IStorage.h>
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namespace DB
{
namespace ErrorCodes
{
extern const int UNKNOWN_PACKET_FROM_SERVER;
extern const int LOGICAL_ERROR;
}
RemoteBlockInputStream::RemoteBlockInputStream(
Connection & connection,
const String & query_, const Block & header_, const Context & context_, const Settings * settings,
const ThrottlerPtr & throttler, const Tables & external_tables_, QueryProcessingStage::Enum stage_)
: header(header_), query(query_), context(context_), external_tables(external_tables_), stage(stage_)
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{
if (settings)
context.setSettings(*settings);
create_multiplexed_connections = [this, &connection, throttler]()
{
return std::make_unique<MultiplexedConnections>(connection, context.getSettingsRef(), throttler);
};
}
RemoteBlockInputStream::RemoteBlockInputStream(
std::vector<IConnectionPool::Entry> && connections,
const String & query_, const Block & header_, const Context & context_, const Settings * settings,
const ThrottlerPtr & throttler, const Tables & external_tables_, QueryProcessingStage::Enum stage_)
: header(header_), query(query_), context(context_), external_tables(external_tables_), stage(stage_)
{
if (settings)
context.setSettings(*settings);
create_multiplexed_connections = [this, connections, throttler]() mutable
{
return std::make_unique<MultiplexedConnections>(
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std::move(connections), context.getSettingsRef(), throttler);
};
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}
RemoteBlockInputStream::RemoteBlockInputStream(
const ConnectionPoolWithFailoverPtr & pool,
const String & query_, const Block & header_, const Context & context_, const Settings * settings,
const ThrottlerPtr & throttler, const Tables & external_tables_, QueryProcessingStage::Enum stage_)
: header(header_), query(query_), context(context_), external_tables(external_tables_), stage(stage_)
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{
if (settings)
context.setSettings(*settings);
create_multiplexed_connections = [this, pool, throttler]()
{
const Settings & current_settings = context.getSettingsRef();
std::vector<IConnectionPool::Entry> connections;
if (main_table)
{
auto try_results = pool->getManyChecked(&current_settings, pool_mode, *main_table);
connections.reserve(try_results.size());
for (auto & try_result : try_results)
connections.emplace_back(std::move(try_result.entry));
}
else
connections = pool->getMany(&current_settings, pool_mode);
return std::make_unique<MultiplexedConnections>(
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std::move(connections), current_settings, throttler);
};
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}
RemoteBlockInputStream::~RemoteBlockInputStream()
{
/** If interrupted in the middle of the loop of communication with replicas, then interrupt
* all connections, then read and skip the remaining packets to make sure
* these connections did not remain hanging in the out-of-sync state.
*/
if (established || isQueryPending())
multiplexed_connections->disconnect();
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}
void RemoteBlockInputStream::readPrefix()
{
if (!sent_query)
sendQuery();
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}
void RemoteBlockInputStream::cancel(bool kill)
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{
if (kill)
is_killed = true;
bool old_val = false;
if (!is_cancelled.compare_exchange_strong(old_val, true, std::memory_order_seq_cst, std::memory_order_relaxed))
return;
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{
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std::lock_guard lock(external_tables_mutex);
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/// Stop sending external data.
for (auto & vec : external_tables_data)
for (auto & elem : vec)
if (IProfilingBlockInputStream * stream = dynamic_cast<IProfilingBlockInputStream *>(elem.first.get()))
stream->cancel(kill);
}
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if (!isQueryPending() || hasThrownException())
return;
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tryCancel("Cancelling query");
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}
void RemoteBlockInputStream::sendExternalTables()
{
size_t count = multiplexed_connections->size();
{
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std::lock_guard lock(external_tables_mutex);
external_tables_data.reserve(count);
for (size_t i = 0; i < count; ++i)
{
ExternalTablesData res;
for (const auto & table : external_tables)
{
StoragePtr cur = table.second;
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QueryProcessingStage::Enum read_from_table_stage = cur->getQueryProcessingStage(context);
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BlockInputStreams input = cur->read(cur->getColumns().getNamesOfPhysical(), {}, context,
read_from_table_stage, DEFAULT_BLOCK_SIZE, 1);
if (input.size() == 0)
res.push_back(std::make_pair(std::make_shared<OneBlockInputStream>(cur->getSampleBlock()), table.first));
else
res.push_back(std::make_pair(input[0], table.first));
}
external_tables_data.push_back(std::move(res));
}
}
multiplexed_connections->sendExternalTablesData(external_tables_data);
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}
/** If we receive a block with slightly different column types, or with excessive columns,
* we will adapt it to expected structure.
*/
static Block adaptBlockStructure(const Block & block, const Block & header, const Context & context)
{
/// Special case when reader doesn't care about result structure. Deprecated and used only in Benchmark, PerformanceTest.
if (!header)
return block;
Block res;
res.info = block.info;
for (const auto & elem : header)
res.insert({ castColumn(block.getByName(elem.name), elem.type, context), elem.type, elem.name });
return res;
}
Block RemoteBlockInputStream::readImpl()
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{
if (!sent_query)
{
sendQuery();
if (context.getSettingsRef().skip_unavailable_shards && (0 == multiplexed_connections->size()))
return {};
}
while (true)
{
if (isCancelledOrThrowIfKilled())
return Block();
Connection::Packet packet = multiplexed_connections->receivePacket();
switch (packet.type)
{
case Protocol::Server::Data:
/// If the block is not empty and is not a header block
if (packet.block && (packet.block.rows() > 0))
return adaptBlockStructure(packet.block, header, context);
break; /// If the block is empty - we will receive other packets before EndOfStream.
case Protocol::Server::Exception:
got_exception_from_replica = true;
packet.exception->rethrow();
break;
case Protocol::Server::EndOfStream:
if (!multiplexed_connections->hasActiveConnections())
{
finished = true;
return Block();
}
break;
case Protocol::Server::Progress:
/** We use the progress from a remote server.
* We also include in ProcessList,
* and we use it to check
* constraints (for example, the minimum speed of query execution)
* and quotas (for example, the number of lines to read).
*/
progressImpl(packet.progress);
break;
case Protocol::Server::ProfileInfo:
/// Use own (client-side) info about read bytes, it is more correct info than server-side one.
info.setFrom(packet.profile_info, true);
break;
case Protocol::Server::Totals:
totals = packet.block;
break;
case Protocol::Server::Extremes:
extremes = packet.block;
break;
case Protocol::Server::Log:
/// Pass logs from remote server to client
if (auto log_queue = CurrentThread::getInternalTextLogsQueue())
log_queue->pushBlock(std::move(packet.block));
break;
default:
got_unknown_packet_from_replica = true;
throw Exception("Unknown packet from server", ErrorCodes::UNKNOWN_PACKET_FROM_SERVER);
}
}
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}
void RemoteBlockInputStream::readSuffixImpl()
{
/** If one of:
* - nothing started to do;
* - received all packets before EndOfStream;
* - received exception from one replica;
* - received an unknown packet from one replica;
* then you do not need to read anything.
*/
if (!isQueryPending() || hasThrownException())
return;
/** If you have not read all the data yet, but they are no longer needed.
* This may be due to the fact that the data is sufficient (for example, when using LIMIT).
*/
/// Send the request to abort the execution of the request, if not already sent.
tryCancel("Cancelling query because enough data has been read");
/// Get the remaining packets so that there is no out of sync in the connections to the replicas.
Connection::Packet packet = multiplexed_connections->drain();
switch (packet.type)
{
case Protocol::Server::EndOfStream:
finished = true;
break;
case Protocol::Server::Exception:
got_exception_from_replica = true;
packet.exception->rethrow();
break;
default:
got_unknown_packet_from_replica = true;
throw Exception("Unknown packet from server", ErrorCodes::UNKNOWN_PACKET_FROM_SERVER);
}
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}
void RemoteBlockInputStream::sendQuery()
{
multiplexed_connections = create_multiplexed_connections();
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if (context.getSettingsRef().skip_unavailable_shards && 0 == multiplexed_connections->size())
return;
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established = true;
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multiplexed_connections->sendQuery(query, "", stage, &context.getClientInfo(), true);
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established = false;
sent_query = true;
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sendExternalTables();
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}
void RemoteBlockInputStream::tryCancel(const char * reason)
{
bool old_val = false;
if (!was_cancelled.compare_exchange_strong(old_val, true, std::memory_order_seq_cst, std::memory_order_relaxed))
return;
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LOG_TRACE(log, "(" << multiplexed_connections->dumpAddresses() << ") " << reason);
multiplexed_connections->sendCancel();
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}
bool RemoteBlockInputStream::isQueryPending() const
{
return sent_query && !finished;
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}
bool RemoteBlockInputStream::hasThrownException() const
{
return got_exception_from_replica || got_unknown_packet_from_replica;
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}
}