ClickHouse/src/Common/TraceCollector.cpp

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#include "TraceCollector.h"
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#include <Core/Field.h>
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#include <IO/ReadBufferFromFileDescriptor.h>
#include <IO/ReadHelpers.h>
#include <IO/WriteBufferFromFileDescriptor.h>
#include <IO/WriteBufferFromFileDescriptorDiscardOnFailure.h>
#include <IO/WriteHelpers.h>
#include <Interpreters/TraceLog.h>
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#include <Poco/Logger.h>
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#include <Common/Exception.h>
#include <Common/PipeFDs.h>
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#include <Common/StackTrace.h>
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#include <Common/setThreadName.h>
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#include <common/logger_useful.h>
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namespace DB
{
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namespace
{
/// Normally query_id is a UUID (string with a fixed length) but user can provide custom query_id.
/// Thus upper bound on query_id length should be introduced to avoid buffer overflow in signal handler.
///
/// And it cannot be large, since otherwise it will not fit into PIPE_BUF.
/// The performance test query ids can be surprisingly long like
/// `aggregating_merge_tree_simple_aggregate_function_string.query100.profile100`,
/// so make some allowance for them as well.
constexpr size_t QUERY_ID_MAX_LEN = 128;
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}
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LazyPipeFDs pipe;
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TraceCollector::TraceCollector(std::shared_ptr<TraceLog> trace_log_)
: trace_log(std::move(trace_log_))
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{
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pipe.open();
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/** Turn write end of pipe to non-blocking mode to avoid deadlocks
* when QueryProfiler is invoked under locks and TraceCollector cannot pull data from pipe.
*/
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pipe.setNonBlockingWrite();
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pipe.tryIncreaseSize(1 << 20);
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thread = ThreadFromGlobalPool(&TraceCollector::run, this);
}
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TraceCollector::~TraceCollector()
{
if (!thread.joinable())
LOG_ERROR(&Poco::Logger::get("TraceCollector"), "TraceCollector thread is malformed and cannot be joined");
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else
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stop();
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pipe.close();
}
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void TraceCollector::collect(TraceType trace_type, const StackTrace & stack_trace, Int64 size)
{
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constexpr size_t buf_size = sizeof(char) + // TraceCollector stop flag
8 * sizeof(char) + // maximum VarUInt length for string size
QUERY_ID_MAX_LEN * sizeof(char) + // maximum query_id length
sizeof(UInt8) + // number of stack frames
sizeof(StackTrace::FramePointers) + // collected stack trace, maximum capacity
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sizeof(TraceType) + // trace type
sizeof(UInt64) + // thread_id
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sizeof(Int64); // size
/// Write should be atomic to avoid overlaps
/// (since recursive collect() is possible)
static_assert(buf_size < PIPE_BUF, "Only write of PIPE_BUF to pipe is atomic");
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char buffer[buf_size];
WriteBufferFromFileDescriptorDiscardOnFailure out(pipe.fds_rw[1], buf_size, buffer);
StringRef query_id;
UInt64 thread_id;
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if (CurrentThread::isInitialized())
{
query_id = CurrentThread::getQueryId();
query_id.size = std::min(query_id.size, QUERY_ID_MAX_LEN);
thread_id = CurrentThread::get().thread_id;
}
else
{
thread_id = MainThreadStatus::get()->thread_id;
}
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writeChar(false, out); /// true if requested to stop the collecting thread.
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writeStringBinary(query_id, out);
size_t stack_trace_size = stack_trace.getSize();
size_t stack_trace_offset = stack_trace.getOffset();
writeIntBinary(UInt8(stack_trace_size - stack_trace_offset), out);
for (size_t i = stack_trace_offset; i < stack_trace_size; ++i)
writePODBinary(stack_trace.getFramePointers()[i], out);
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writePODBinary(trace_type, out);
writePODBinary(thread_id, out);
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writePODBinary(size, out);
out.next();
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}
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/** Sends TraceCollector stop message
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*
* Each sequence of data for TraceCollector thread starts with a boolean flag.
* If this flag is true, TraceCollector must stop reading trace_pipe and exit.
* This function sends flag with a true value to stop TraceCollector gracefully.
*/
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void TraceCollector::stop()
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{
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WriteBufferFromFileDescriptor out(pipe.fds_rw[1]);
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writeChar(true, out);
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out.next();
thread.join();
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}
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void TraceCollector::run()
{
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setThreadName("TraceCollector");
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ReadBufferFromFileDescriptor in(pipe.fds_rw[0]);
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while (true)
{
char is_last;
readChar(is_last, in);
if (is_last)
break;
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std::string query_id;
readStringBinary(query_id, in);
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UInt8 trace_size = 0;
readIntBinary(trace_size, in);
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Array trace;
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trace.reserve(trace_size);
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for (size_t i = 0; i < trace_size; i++)
{
uintptr_t addr = 0;
readPODBinary(addr, in);
trace.emplace_back(UInt64(addr));
}
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TraceType trace_type;
readPODBinary(trace_type, in);
UInt64 thread_id;
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readPODBinary(thread_id, in);
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Int64 size;
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readPODBinary(size, in);
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if (trace_log)
{
// time and time_in_microseconds are both being constructed from the same timespec so that the
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// times will be equal up to the precision of a second.
struct timespec ts;
clock_gettime(CLOCK_REALTIME, &ts);
UInt64 time = UInt64(ts.tv_sec * 1000000000LL + ts.tv_nsec);
UInt64 time_in_microseconds = UInt64((ts.tv_sec * 1000000LL) + (ts.tv_nsec / 1000));
TraceLogElement element{time_t(time / 1000000000), time_in_microseconds, time, trace_type, thread_id, query_id, trace, size};
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trace_log->add(element);
}
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}
}
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}