#include "TraceCollector.h" #include #include #include #include #include #include #include #include #include #include namespace DB { TraceCollector::TraceCollector(std::shared_ptr trace_log_) : trace_log(std::move(trace_log_)) { TraceSender::pipe.open(); /** 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. */ TraceSender::pipe.setNonBlockingWrite(); TraceSender::pipe.tryIncreaseSize(1 << 20); thread = ThreadFromGlobalPool(&TraceCollector::run, this); } TraceCollector::~TraceCollector() { if (!thread.joinable()) LOG_ERROR(&Poco::Logger::get("TraceCollector"), "TraceCollector thread is malformed and cannot be joined"); else stop(); TraceSender::pipe.close(); } /** Sends TraceCollector stop message * * 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. */ void TraceCollector::stop() { WriteBufferFromFileDescriptor out(TraceSender::pipe.fds_rw[1]); writeChar(true, out); out.next(); thread.join(); } void TraceCollector::run() { setThreadName("TraceCollector"); ReadBufferFromFileDescriptor in(TraceSender::pipe.fds_rw[0]); while (true) { char is_last; readChar(is_last, in); if (is_last) break; std::string query_id; UInt8 query_id_size = 0; readBinary(query_id_size, in); query_id.resize(query_id_size); in.readStrict(query_id.data(), query_id_size); UInt8 trace_size = 0; readIntBinary(trace_size, in); Array trace; trace.reserve(trace_size); for (size_t i = 0; i < trace_size; ++i) { uintptr_t addr = 0; readPODBinary(addr, in); trace.emplace_back(static_cast(addr)); } TraceType trace_type; readPODBinary(trace_type, in); UInt64 thread_id; readPODBinary(thread_id, in); Int64 size; readPODBinary(size, in); UInt64 ptr; readPODBinary(ptr, in); ProfileEvents::Event event; readPODBinary(event, in); ProfileEvents::Count increment; readPODBinary(increment, in); if (trace_log) { // time and time_in_microseconds are both being constructed from the same timespec so that the // times will be equal up to the precision of a second. struct timespec ts; clock_gettime(CLOCK_REALTIME, &ts); UInt64 time = static_cast(ts.tv_sec * 1000000000LL + ts.tv_nsec); UInt64 time_in_microseconds = static_cast((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, ptr, event, increment}; trace_log->add(element); } } } }