Coverage Report

Created: 2024-11-22 12:31

/root/doris/be/src/common/signal_handler.h
Line
Count
Source (jump to first uncovered line)
1
// Copyright (c) 2008, Google Inc.
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// All rights reserved.
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//
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// Redistribution and use in source and binary forms, with or without
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// modification, are permitted provided that the following conditions are
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// met:
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//
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//     * Redistributions of source code must retain the above copyright
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// notice, this list of conditions and the following disclaimer.
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//     * Redistributions in binary form must reproduce the above
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// copyright notice, this list of conditions and the following disclaimer
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// in the documentation and/or other materials provided with the
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// distribution.
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//     * Neither the name of Google Inc. nor the names of its
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// contributors may be used to endorse or promote products derived from
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// this software without specific prior written permission.
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//
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// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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//
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// Author: Satoru Takabayashi
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//
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// Implementation of InstallFailureSignalHandler().
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#pragma once
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36
#include <glog/logging.h>
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#include <gutil/macros.h>
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#include <boost/stacktrace.hpp>
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#include <csignal>
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#include <ctime>
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#include "common/version_internal.h"
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#ifdef HAVE_UCONTEXT_H
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#include <ucontext.h>
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#endif
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#ifdef HAVE_SYS_UCONTEXT_H
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#include <sys/ucontext.h>
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#endif
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#include <algorithm>
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namespace doris::signal {
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inline thread_local uint64 query_id_hi;
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inline thread_local uint64 query_id_lo;
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inline thread_local int64_t tablet_id = 0;
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inline thread_local bool is_nereids = false;
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namespace {
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// We'll install the failure signal handler for these signals.  We could
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// use strsignal() to get signal names, but we don't use it to avoid
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// introducing yet another #ifdef complication.
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//
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// The list should be synced with the comment in signalhandler.h.
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const struct {
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    int number;
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    const char* name = nullptr;
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} kFailureSignals[] = {
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        {SIGSEGV, "SIGSEGV"}, {SIGILL, "SIGILL"}, {SIGFPE, "SIGFPE"},
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        {SIGABRT, "SIGABRT"}, {SIGBUS, "SIGBUS"}, {SIGTERM, "SIGTERM"},
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};
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static bool kFailureSignalHandlerInstalled = false;
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/*
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 * Copyright (c) Meta Platforms, Inc. and affiliates.
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 *
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 * Licensed under the Apache License, Version 2.0 (the "License");
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 * you may not use this file except in compliance with the License.
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 * You may obtain a copy of the License at
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 *
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 *     http://www.apache.org/licenses/LICENSE-2.0
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 *
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 * Unless required by applicable law or agreed to in writing, software
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 * distributed under the License is distributed on an "AS IS" BASIS,
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 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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 * See the License for the specific language governing permissions and
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 * limitations under the License.
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 * These signal explainer is copied from Meta's Folly
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 */
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0
const char* sigill_reason(int si_code) {
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0
    switch (si_code) {
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0
    case ILL_ILLOPC:
95
0
        return "illegal opcode";
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0
    case ILL_ILLOPN:
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0
        return "illegal operand";
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0
    case ILL_ILLADR:
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0
        return "illegal addressing mode";
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0
    case ILL_ILLTRP:
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0
        return "illegal trap";
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0
    case ILL_PRVOPC:
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0
        return "privileged opcode";
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0
    case ILL_PRVREG:
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0
        return "privileged register";
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0
    case ILL_COPROC:
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0
        return "coprocessor error";
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0
    case ILL_BADSTK:
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0
        return "internal stack error";
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0
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0
    default:
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0
        return nullptr;
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0
    }
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0
}
Unexecuted instantiation: memtable_flush_executor.cpp:_ZN5doris6signal12_GLOBAL__N_113sigill_reasonEi
Unexecuted instantiation: schema_change.cpp:_ZN5doris6signal12_GLOBAL__N_113sigill_reasonEi
Unexecuted instantiation: tablet.cpp:_ZN5doris6signal12_GLOBAL__N_113sigill_reasonEi
Unexecuted instantiation: load_stream.cpp:_ZN5doris6signal12_GLOBAL__N_113sigill_reasonEi
Unexecuted instantiation: internal_service.cpp:_ZN5doris6signal12_GLOBAL__N_113sigill_reasonEi
Unexecuted instantiation: vtablet_writer_v2.cpp:_ZN5doris6signal12_GLOBAL__N_113sigill_reasonEi
Unexecuted instantiation: vtablet_writer.cpp:_ZN5doris6signal12_GLOBAL__N_113sigill_reasonEi
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0
const char* sigfpe_reason(int si_code) {
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0
    switch (si_code) {
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0
    case FPE_INTDIV:
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0
        return "integer divide by zero";
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0
    case FPE_INTOVF:
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0
        return "integer overflow";
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0
    case FPE_FLTDIV:
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0
        return "floating-point divide by zero";
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0
    case FPE_FLTOVF:
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0
        return "floating-point overflow";
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0
    case FPE_FLTUND:
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0
        return "floating-point underflow";
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0
    case FPE_FLTRES:
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0
        return "floating-point inexact result";
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0
    case FPE_FLTINV:
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0
        return "floating-point invalid operation";
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0
    case FPE_FLTSUB:
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0
        return "subscript out of range";
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0
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0
    default:
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0
        return nullptr;
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0
    }
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0
}
Unexecuted instantiation: memtable_flush_executor.cpp:_ZN5doris6signal12_GLOBAL__N_113sigfpe_reasonEi
Unexecuted instantiation: schema_change.cpp:_ZN5doris6signal12_GLOBAL__N_113sigfpe_reasonEi
Unexecuted instantiation: tablet.cpp:_ZN5doris6signal12_GLOBAL__N_113sigfpe_reasonEi
Unexecuted instantiation: load_stream.cpp:_ZN5doris6signal12_GLOBAL__N_113sigfpe_reasonEi
Unexecuted instantiation: internal_service.cpp:_ZN5doris6signal12_GLOBAL__N_113sigfpe_reasonEi
Unexecuted instantiation: vtablet_writer_v2.cpp:_ZN5doris6signal12_GLOBAL__N_113sigfpe_reasonEi
Unexecuted instantiation: vtablet_writer.cpp:_ZN5doris6signal12_GLOBAL__N_113sigfpe_reasonEi
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0
const char* sigsegv_reason(int si_code) {
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0
    switch (si_code) {
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0
    case SEGV_MAPERR:
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0
        return "address not mapped to object";
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0
    case SEGV_ACCERR:
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0
        return "invalid permissions for mapped object";
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0
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0
    default:
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0
        return nullptr;
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0
    }
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0
}
Unexecuted instantiation: memtable_flush_executor.cpp:_ZN5doris6signal12_GLOBAL__N_114sigsegv_reasonEi
Unexecuted instantiation: schema_change.cpp:_ZN5doris6signal12_GLOBAL__N_114sigsegv_reasonEi
Unexecuted instantiation: tablet.cpp:_ZN5doris6signal12_GLOBAL__N_114sigsegv_reasonEi
Unexecuted instantiation: load_stream.cpp:_ZN5doris6signal12_GLOBAL__N_114sigsegv_reasonEi
Unexecuted instantiation: internal_service.cpp:_ZN5doris6signal12_GLOBAL__N_114sigsegv_reasonEi
Unexecuted instantiation: vtablet_writer_v2.cpp:_ZN5doris6signal12_GLOBAL__N_114sigsegv_reasonEi
Unexecuted instantiation: vtablet_writer.cpp:_ZN5doris6signal12_GLOBAL__N_114sigsegv_reasonEi
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0
const char* sigbus_reason(int si_code) {
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0
    switch (si_code) {
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0
    case BUS_ADRALN:
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0
        return "invalid address alignment";
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0
    case BUS_ADRERR:
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0
        return "nonexistent physical address";
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0
    case BUS_OBJERR:
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0
        return "object-specific hardware error";
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0
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0
        // MCEERR_AR and MCEERR_AO: in sigaction(2) but not in headers.
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0
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0
    default:
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0
        return nullptr;
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0
    }
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0
}
Unexecuted instantiation: memtable_flush_executor.cpp:_ZN5doris6signal12_GLOBAL__N_113sigbus_reasonEi
Unexecuted instantiation: schema_change.cpp:_ZN5doris6signal12_GLOBAL__N_113sigbus_reasonEi
Unexecuted instantiation: tablet.cpp:_ZN5doris6signal12_GLOBAL__N_113sigbus_reasonEi
Unexecuted instantiation: load_stream.cpp:_ZN5doris6signal12_GLOBAL__N_113sigbus_reasonEi
Unexecuted instantiation: internal_service.cpp:_ZN5doris6signal12_GLOBAL__N_113sigbus_reasonEi
Unexecuted instantiation: vtablet_writer_v2.cpp:_ZN5doris6signal12_GLOBAL__N_113sigbus_reasonEi
Unexecuted instantiation: vtablet_writer.cpp:_ZN5doris6signal12_GLOBAL__N_113sigbus_reasonEi
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0
const char* signal_reason(int signum, int si_code) {
169
0
    switch (signum) {
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0
    case SIGILL:
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0
        return sigill_reason(si_code);
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0
    case SIGFPE:
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0
        return sigfpe_reason(si_code);
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0
    case SIGSEGV:
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0
        return sigsegv_reason(si_code);
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0
    case SIGBUS:
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0
        return sigbus_reason(si_code);
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0
    default:
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0
        return nullptr;
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0
    }
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0
}
Unexecuted instantiation: memtable_flush_executor.cpp:_ZN5doris6signal12_GLOBAL__N_113signal_reasonEii
Unexecuted instantiation: schema_change.cpp:_ZN5doris6signal12_GLOBAL__N_113signal_reasonEii
Unexecuted instantiation: tablet.cpp:_ZN5doris6signal12_GLOBAL__N_113signal_reasonEii
Unexecuted instantiation: load_stream.cpp:_ZN5doris6signal12_GLOBAL__N_113signal_reasonEii
Unexecuted instantiation: internal_service.cpp:_ZN5doris6signal12_GLOBAL__N_113signal_reasonEii
Unexecuted instantiation: vtablet_writer_v2.cpp:_ZN5doris6signal12_GLOBAL__N_113signal_reasonEii
Unexecuted instantiation: vtablet_writer.cpp:_ZN5doris6signal12_GLOBAL__N_113signal_reasonEii
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// The class is used for formatting error messages.  We don't use printf()
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// as it's not async signal safe.
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class MinimalFormatter {
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public:
187
    MinimalFormatter(char* buffer, size_t size)
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0
            : buffer_(buffer), cursor_(buffer), end_(buffer + size) {}
Unexecuted instantiation: memtable_flush_executor.cpp:_ZN5doris6signal12_GLOBAL__N_116MinimalFormatterC2EPcm
Unexecuted instantiation: schema_change.cpp:_ZN5doris6signal12_GLOBAL__N_116MinimalFormatterC2EPcm
Unexecuted instantiation: tablet.cpp:_ZN5doris6signal12_GLOBAL__N_116MinimalFormatterC2EPcm
Unexecuted instantiation: load_stream.cpp:_ZN5doris6signal12_GLOBAL__N_116MinimalFormatterC2EPcm
Unexecuted instantiation: internal_service.cpp:_ZN5doris6signal12_GLOBAL__N_116MinimalFormatterC2EPcm
Unexecuted instantiation: vtablet_writer_v2.cpp:_ZN5doris6signal12_GLOBAL__N_116MinimalFormatterC2EPcm
Unexecuted instantiation: vtablet_writer.cpp:_ZN5doris6signal12_GLOBAL__N_116MinimalFormatterC2EPcm
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    // Returns the number of bytes written in the buffer.
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0
    std::size_t num_bytes_written() const { return static_cast<std::size_t>(cursor_ - buffer_); }
Unexecuted instantiation: memtable_flush_executor.cpp:_ZNK5doris6signal12_GLOBAL__N_116MinimalFormatter17num_bytes_writtenEv
Unexecuted instantiation: schema_change.cpp:_ZNK5doris6signal12_GLOBAL__N_116MinimalFormatter17num_bytes_writtenEv
Unexecuted instantiation: tablet.cpp:_ZNK5doris6signal12_GLOBAL__N_116MinimalFormatter17num_bytes_writtenEv
Unexecuted instantiation: load_stream.cpp:_ZNK5doris6signal12_GLOBAL__N_116MinimalFormatter17num_bytes_writtenEv
Unexecuted instantiation: internal_service.cpp:_ZNK5doris6signal12_GLOBAL__N_116MinimalFormatter17num_bytes_writtenEv
Unexecuted instantiation: vtablet_writer_v2.cpp:_ZNK5doris6signal12_GLOBAL__N_116MinimalFormatter17num_bytes_writtenEv
Unexecuted instantiation: vtablet_writer.cpp:_ZNK5doris6signal12_GLOBAL__N_116MinimalFormatter17num_bytes_writtenEv
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    // Appends string from "str" and updates the internal cursor.
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0
    void AppendString(const char* str) {
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0
        ptrdiff_t i = 0;
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0
        while (str[i] != '\0' && cursor_ + i < end_) {
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0
            cursor_[i] = str[i];
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0
            ++i;
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0
        }
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0
        cursor_ += i;
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0
    }
Unexecuted instantiation: memtable_flush_executor.cpp:_ZN5doris6signal12_GLOBAL__N_116MinimalFormatter12AppendStringEPKc
Unexecuted instantiation: schema_change.cpp:_ZN5doris6signal12_GLOBAL__N_116MinimalFormatter12AppendStringEPKc
Unexecuted instantiation: tablet.cpp:_ZN5doris6signal12_GLOBAL__N_116MinimalFormatter12AppendStringEPKc
Unexecuted instantiation: load_stream.cpp:_ZN5doris6signal12_GLOBAL__N_116MinimalFormatter12AppendStringEPKc
Unexecuted instantiation: internal_service.cpp:_ZN5doris6signal12_GLOBAL__N_116MinimalFormatter12AppendStringEPKc
Unexecuted instantiation: vtablet_writer_v2.cpp:_ZN5doris6signal12_GLOBAL__N_116MinimalFormatter12AppendStringEPKc
Unexecuted instantiation: vtablet_writer.cpp:_ZN5doris6signal12_GLOBAL__N_116MinimalFormatter12AppendStringEPKc
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    // Formats "number" in "radix" and updates the internal cursor.
204
    // Lowercase letters are used for 'a' - 'z'.
205
0
    void AppendUint64(uint64 number, unsigned radix) {
206
0
        unsigned i = 0;
207
0
        while (cursor_ + i < end_) {
208
0
            const uint64 tmp = number % radix;
209
0
            number /= radix;
210
0
            cursor_[i] = static_cast<char>(tmp < 10 ? '0' + tmp : 'a' + tmp - 10);
211
0
            ++i;
212
0
            if (number == 0) {
213
0
                break;
214
0
            }
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0
        }
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0
        // Reverse the bytes written.
217
0
        std::reverse(cursor_, cursor_ + i);
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0
        cursor_ += i;
219
0
    }
Unexecuted instantiation: memtable_flush_executor.cpp:_ZN5doris6signal12_GLOBAL__N_116MinimalFormatter12AppendUint64Emj
Unexecuted instantiation: schema_change.cpp:_ZN5doris6signal12_GLOBAL__N_116MinimalFormatter12AppendUint64Emj
Unexecuted instantiation: tablet.cpp:_ZN5doris6signal12_GLOBAL__N_116MinimalFormatter12AppendUint64Emj
Unexecuted instantiation: load_stream.cpp:_ZN5doris6signal12_GLOBAL__N_116MinimalFormatter12AppendUint64Emj
Unexecuted instantiation: internal_service.cpp:_ZN5doris6signal12_GLOBAL__N_116MinimalFormatter12AppendUint64Emj
Unexecuted instantiation: vtablet_writer_v2.cpp:_ZN5doris6signal12_GLOBAL__N_116MinimalFormatter12AppendUint64Emj
Unexecuted instantiation: vtablet_writer.cpp:_ZN5doris6signal12_GLOBAL__N_116MinimalFormatter12AppendUint64Emj
220
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private:
222
    char* buffer_ = nullptr;
223
    char* cursor_ = nullptr;
224
    const char* const end_;
225
};
226
227
// Writes the given data with the size to the standard error.
228
0
void WriteToStderr(const char* data, size_t size) {
229
0
    if (write(STDERR_FILENO, data, size) < 0) {
230
0
        // Ignore errors.
231
0
    }
232
0
}
Unexecuted instantiation: memtable_flush_executor.cpp:_ZN5doris6signal12_GLOBAL__N_113WriteToStderrEPKcm
Unexecuted instantiation: schema_change.cpp:_ZN5doris6signal12_GLOBAL__N_113WriteToStderrEPKcm
Unexecuted instantiation: tablet.cpp:_ZN5doris6signal12_GLOBAL__N_113WriteToStderrEPKcm
Unexecuted instantiation: load_stream.cpp:_ZN5doris6signal12_GLOBAL__N_113WriteToStderrEPKcm
Unexecuted instantiation: internal_service.cpp:_ZN5doris6signal12_GLOBAL__N_113WriteToStderrEPKcm
Unexecuted instantiation: vtablet_writer_v2.cpp:_ZN5doris6signal12_GLOBAL__N_113WriteToStderrEPKcm
Unexecuted instantiation: vtablet_writer.cpp:_ZN5doris6signal12_GLOBAL__N_113WriteToStderrEPKcm
233
234
// The writer function can be changed by InstallFailureWriter().
235
void (*g_failure_writer)(const char* data, size_t size) = WriteToStderr;
236
237
// Dumps time information.  We don't dump human-readable time information
238
// as localtime() is not guaranteed to be async signal safe.
239
0
void DumpTimeInfo() {
240
0
    time_t time_in_sec = time(nullptr);
241
0
    char buf[256]; // Big enough for time info.
242
0
    MinimalFormatter formatter(buf, sizeof(buf));
243
0
    formatter.AppendString("*** Query id: ");
244
0
    formatter.AppendUint64(query_id_hi, 16);
245
0
    formatter.AppendString("-");
246
0
    formatter.AppendUint64(query_id_lo, 16);
247
0
    formatter.AppendString(" ***\n");
248
0
    formatter.AppendString("*** is nereids: ");
249
0
    formatter.AppendUint64(is_nereids, 10);
250
0
    formatter.AppendString(" ***\n");
251
0
    formatter.AppendString("*** tablet id: ");
252
0
    formatter.AppendUint64(tablet_id, 10);
253
0
    formatter.AppendString(" ***\n");
254
0
    formatter.AppendString("*** Aborted at ");
255
0
    formatter.AppendUint64(static_cast<uint64>(time_in_sec), 10);
256
0
    formatter.AppendString(" (unix time)");
257
0
    formatter.AppendString(" try \"date -d @");
258
0
    formatter.AppendUint64(static_cast<uint64>(time_in_sec), 10);
259
0
    formatter.AppendString("\" if you are using GNU date ***\n");
260
0
    formatter.AppendString("*** Current BE git commitID: ");
261
0
    formatter.AppendString(version::doris_build_short_hash());
262
0
    formatter.AppendString(" ***\n");
263
0
    g_failure_writer(buf, formatter.num_bytes_written());
264
0
}
Unexecuted instantiation: memtable_flush_executor.cpp:_ZN5doris6signal12_GLOBAL__N_112DumpTimeInfoEv
Unexecuted instantiation: schema_change.cpp:_ZN5doris6signal12_GLOBAL__N_112DumpTimeInfoEv
Unexecuted instantiation: tablet.cpp:_ZN5doris6signal12_GLOBAL__N_112DumpTimeInfoEv
Unexecuted instantiation: load_stream.cpp:_ZN5doris6signal12_GLOBAL__N_112DumpTimeInfoEv
Unexecuted instantiation: internal_service.cpp:_ZN5doris6signal12_GLOBAL__N_112DumpTimeInfoEv
Unexecuted instantiation: vtablet_writer_v2.cpp:_ZN5doris6signal12_GLOBAL__N_112DumpTimeInfoEv
Unexecuted instantiation: vtablet_writer.cpp:_ZN5doris6signal12_GLOBAL__N_112DumpTimeInfoEv
265
266
// Dumps information about the signal to STDERR.
267
0
void DumpSignalInfo(int signal_number, siginfo_t* siginfo) {
268
0
    // Get the signal name.
269
0
    const char* signal_name = nullptr;
270
0
    for (size_t i = 0; i < ARRAYSIZE_UNSAFE(kFailureSignals); ++i) {
271
0
        if (signal_number == kFailureSignals[i].number) {
272
0
            signal_name = kFailureSignals[i].name;
273
0
        }
274
0
    }
275
0
276
0
    char buf[256]; // Big enough for signal info.
277
0
    MinimalFormatter formatter(buf, sizeof(buf));
278
0
279
0
    formatter.AppendString("*** ");
280
0
    if (signal_name) {
281
0
        formatter.AppendString(signal_name);
282
0
    } else {
283
0
        // Use the signal number if the name is unknown.  The signal name
284
0
        // should be known, but just in case.
285
0
        formatter.AppendString("Signal ");
286
0
        formatter.AppendUint64(static_cast<uint64>(signal_number), 10);
287
0
    }
288
0
    formatter.AppendString(" ");
289
0
    // Detail reason explain
290
0
    auto reason = signal_reason(signal_number, siginfo->si_code);
291
0
292
0
    // If we can't find a reason code make a best effort to print the (int) code.
293
0
    if (reason != nullptr) {
294
0
        formatter.AppendString(reason);
295
0
    } else {
296
0
        formatter.AppendString("unknown detail explain");
297
0
    }
298
0
    formatter.AppendString(" (@0x");
299
0
    formatter.AppendUint64(reinterpret_cast<uintptr_t>(siginfo->si_addr), 16);
300
0
    formatter.AppendString(")");
301
0
    formatter.AppendString(" received by PID ");
302
0
    formatter.AppendUint64(static_cast<uint64>(getpid()), 10);
303
0
    formatter.AppendString(" (TID ");
304
0
    uint64_t tid;
305
0
#ifdef __APPLE__
306
0
    pthread_threadid_np(nullptr, &tid);
307
0
#else
308
0
    tid = syscall(SYS_gettid);
309
0
#endif
310
0
    formatter.AppendUint64(tid, 10);
311
0
    formatter.AppendString(" OR 0x");
312
0
    // We assume pthread_t is an integral number or a pointer, rather
313
0
    // than a complex struct.  In some environments, pthread_self()
314
0
    // returns an uint64 but in some other environments pthread_self()
315
0
    // returns a pointer.
316
0
    pthread_t id = pthread_self();
317
0
    formatter.AppendUint64(reinterpret_cast<uint64>(reinterpret_cast<const char*>(id)), 16);
318
0
    formatter.AppendString(") ");
319
0
    // Only linux has the PID of the signal sender in si_pid.
320
0
    formatter.AppendString("from PID ");
321
0
    formatter.AppendUint64(static_cast<uint64>(siginfo->si_pid), 10);
322
0
    formatter.AppendString("; ");
323
0
    formatter.AppendString("stack trace: ***\n");
324
0
    g_failure_writer(buf, formatter.num_bytes_written());
325
0
}
Unexecuted instantiation: memtable_flush_executor.cpp:_ZN5doris6signal12_GLOBAL__N_114DumpSignalInfoEiP9siginfo_t
Unexecuted instantiation: schema_change.cpp:_ZN5doris6signal12_GLOBAL__N_114DumpSignalInfoEiP9siginfo_t
Unexecuted instantiation: tablet.cpp:_ZN5doris6signal12_GLOBAL__N_114DumpSignalInfoEiP9siginfo_t
Unexecuted instantiation: load_stream.cpp:_ZN5doris6signal12_GLOBAL__N_114DumpSignalInfoEiP9siginfo_t
Unexecuted instantiation: internal_service.cpp:_ZN5doris6signal12_GLOBAL__N_114DumpSignalInfoEiP9siginfo_t
Unexecuted instantiation: vtablet_writer_v2.cpp:_ZN5doris6signal12_GLOBAL__N_114DumpSignalInfoEiP9siginfo_t
Unexecuted instantiation: vtablet_writer.cpp:_ZN5doris6signal12_GLOBAL__N_114DumpSignalInfoEiP9siginfo_t
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// Invoke the default signal handler.
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void InvokeDefaultSignalHandler(int signal_number) {
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    struct sigaction sig_action;
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    memset(&sig_action, 0, sizeof(sig_action));
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    sigemptyset(&sig_action.sa_mask);
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    sig_action.sa_handler = SIG_DFL;
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    sigaction(signal_number, &sig_action, nullptr);
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    kill(getpid(), signal_number);
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}
Unexecuted instantiation: memtable_flush_executor.cpp:_ZN5doris6signal12_GLOBAL__N_126InvokeDefaultSignalHandlerEi
Unexecuted instantiation: schema_change.cpp:_ZN5doris6signal12_GLOBAL__N_126InvokeDefaultSignalHandlerEi
Unexecuted instantiation: tablet.cpp:_ZN5doris6signal12_GLOBAL__N_126InvokeDefaultSignalHandlerEi
Unexecuted instantiation: load_stream.cpp:_ZN5doris6signal12_GLOBAL__N_126InvokeDefaultSignalHandlerEi
Unexecuted instantiation: internal_service.cpp:_ZN5doris6signal12_GLOBAL__N_126InvokeDefaultSignalHandlerEi
Unexecuted instantiation: vtablet_writer_v2.cpp:_ZN5doris6signal12_GLOBAL__N_126InvokeDefaultSignalHandlerEi
Unexecuted instantiation: vtablet_writer.cpp:_ZN5doris6signal12_GLOBAL__N_126InvokeDefaultSignalHandlerEi
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// This variable is used for protecting FailureSignalHandler() from
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// dumping stuff while another thread is doing it.  Our policy is to let
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// the first thread dump stuff and let other threads wait.
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// See also comments in FailureSignalHandler().
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static pthread_t* g_entered_thread_id_pointer = nullptr;
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// Wrapper of __sync_val_compare_and_swap. If the GCC extension isn't
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// defined, we try the CPU specific logics (we only support x86 and
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// x86_64 for now) first, then use a naive implementation, which has a
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// race condition.
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template <typename T>
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0
T sync_val_compare_and_swap(T* ptr, T oldval, T newval) {
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#if defined(HAVE___SYNC_VAL_COMPARE_AND_SWAP)
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    return __sync_val_compare_and_swap(ptr, oldval, newval);
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#elif defined(__GNUC__) && (defined(__i386__) || defined(__x86_64__))
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    T ret;
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    __asm__ __volatile__("lock; cmpxchg %1, (%2);"
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                         : "=a"(ret)
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0
                         // GCC may produces %sil or %dil for
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0
                         // constraint "r", but some of apple's gas
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                         // dosn't know the 8 bit registers.
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                         // We use "q" to avoid these registers.
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                         : "q"(newval), "q"(ptr), "a"(oldval)
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                         : "memory", "cc");
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    return ret;
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0
#else
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    T ret = *ptr;
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    if (ret == oldval) {
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0
        *ptr = newval;
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0
    }
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    return ret;
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#endif
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0
}
Unexecuted instantiation: memtable_flush_executor.cpp:_ZN5doris6signal12_GLOBAL__N_125sync_val_compare_and_swapIPmEET_PS4_S4_S4_
Unexecuted instantiation: schema_change.cpp:_ZN5doris6signal12_GLOBAL__N_125sync_val_compare_and_swapIPmEET_PS4_S4_S4_
Unexecuted instantiation: tablet.cpp:_ZN5doris6signal12_GLOBAL__N_125sync_val_compare_and_swapIPmEET_PS4_S4_S4_
Unexecuted instantiation: load_stream.cpp:_ZN5doris6signal12_GLOBAL__N_125sync_val_compare_and_swapIPmEET_PS4_S4_S4_
Unexecuted instantiation: internal_service.cpp:_ZN5doris6signal12_GLOBAL__N_125sync_val_compare_and_swapIPmEET_PS4_S4_S4_
Unexecuted instantiation: vtablet_writer_v2.cpp:_ZN5doris6signal12_GLOBAL__N_125sync_val_compare_and_swapIPmEET_PS4_S4_S4_
Unexecuted instantiation: vtablet_writer.cpp:_ZN5doris6signal12_GLOBAL__N_125sync_val_compare_and_swapIPmEET_PS4_S4_S4_
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// Dumps signal and stack frame information, and invokes the default
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// signal handler once our job is done.
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0
void FailureSignalHandler(int signal_number, siginfo_t* signal_info, void* ucontext) {
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    // First check if we've already entered the function.  We use an atomic
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    // compare and swap operation for platforms that support it.  For other
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    // platforms, we use a naive method that could lead to a subtle race.
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0
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    // We assume pthread_self() is async signal safe, though it's not
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    // officially guaranteed.
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    pthread_t my_thread_id = pthread_self();
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    // NOTE: We could simply use pthread_t rather than pthread_t* for this,
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    // if pthread_self() is guaranteed to return non-zero value for thread
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    // ids, but there is no such guarantee.  We need to distinguish if the
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    // old value (value returned from __sync_val_compare_and_swap) is
385
0
    // different from the original value (in this case NULL).
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    pthread_t* old_thread_id_pointer = sync_val_compare_and_swap(
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0
            &g_entered_thread_id_pointer, static_cast<pthread_t*>(nullptr), &my_thread_id);
388
0
    if (old_thread_id_pointer != nullptr) {
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        // We've already entered the signal handler.  What should we do?
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        if (pthread_equal(my_thread_id, *g_entered_thread_id_pointer)) {
391
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            // It looks the current thread is reentering the signal handler.
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            // Something must be going wrong (maybe we are reentering by another
393
0
            // type of signal?).  Kill ourself by the default signal handler.
394
0
            InvokeDefaultSignalHandler(signal_number);
395
0
        }
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0
        // Another thread is dumping stuff.  Let's wait until that thread
397
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        // finishes the job and kills the process.
398
0
        while (true) {
399
0
            sleep(1);
400
0
        }
401
0
    }
402
0
    // This is the first time we enter the signal handler.  We are going to
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    // do some interesting stuff from here.
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0
    // TODO(satorux): We might want to set timeout here using alarm(), but
405
0
    // mixing alarm() and sleep() can be a bad idea.
406
0
407
0
    // First dump time info.
408
0
    DumpTimeInfo();
409
0
    DumpSignalInfo(signal_number, signal_info);
410
0
411
0
    // *** TRANSITION ***
412
0
    //
413
0
    // BEFORE this point, all code must be async-termination-safe!
414
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    // (See WARNING above.)
415
0
    //
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0
    // AFTER this point, we do unsafe things, like using LOG()!
417
0
    // The process could be terminated or hung at any time.  We try to
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0
    // do more useful things first and riskier things later.
419
0
420
0
    // Use boost stacktrace to print more detail info
421
0
    std::cout << boost::stacktrace::stacktrace() << std::endl;
422
0
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0
    // Flush the logs before we do anything in case 'anything'
424
0
    // causes problems.
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0
    google::FlushLogFilesUnsafe(0);
426
0
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0
    // Kill ourself by the default signal handler.
428
0
    InvokeDefaultSignalHandler(signal_number);
429
0
}
Unexecuted instantiation: memtable_flush_executor.cpp:_ZN5doris6signal12_GLOBAL__N_120FailureSignalHandlerEiP9siginfo_tPv
Unexecuted instantiation: schema_change.cpp:_ZN5doris6signal12_GLOBAL__N_120FailureSignalHandlerEiP9siginfo_tPv
Unexecuted instantiation: tablet.cpp:_ZN5doris6signal12_GLOBAL__N_120FailureSignalHandlerEiP9siginfo_tPv
Unexecuted instantiation: load_stream.cpp:_ZN5doris6signal12_GLOBAL__N_120FailureSignalHandlerEiP9siginfo_tPv
Unexecuted instantiation: internal_service.cpp:_ZN5doris6signal12_GLOBAL__N_120FailureSignalHandlerEiP9siginfo_tPv
Unexecuted instantiation: vtablet_writer_v2.cpp:_ZN5doris6signal12_GLOBAL__N_120FailureSignalHandlerEiP9siginfo_tPv
Unexecuted instantiation: vtablet_writer.cpp:_ZN5doris6signal12_GLOBAL__N_120FailureSignalHandlerEiP9siginfo_tPv
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} // namespace
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433
65
inline void set_signal_task_id(PUniqueId tid) {
434
65
    query_id_hi = tid.hi();
435
65
    query_id_lo = tid.lo();
436
65
}
437
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0
inline void set_signal_task_id(TUniqueId tid) {
439
0
    query_id_hi = tid.hi;
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0
    query_id_lo = tid.lo;
441
0
}
442
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0
inline void set_signal_is_nereids(bool is_nereids_arg) {
444
0
    is_nereids = is_nereids_arg;
445
0
}
446
447
0
inline void InstallFailureSignalHandler() {
448
0
    // Build the sigaction struct.
449
0
    struct sigaction sig_action;
450
0
    memset(&sig_action, 0, sizeof(sig_action));
451
0
    sigemptyset(&sig_action.sa_mask);
452
0
    sig_action.sa_flags |= SA_SIGINFO;
453
0
    sig_action.sa_sigaction = &FailureSignalHandler;
454
0
455
0
    for (size_t i = 0; i < ARRAYSIZE_UNSAFE(kFailureSignals); ++i) {
456
0
        CHECK_ERR(sigaction(kFailureSignals[i].number, &sig_action, nullptr));
457
0
    }
458
0
    kFailureSignalHandlerInstalled = true;
459
0
}
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} // namespace doris::signal