/** * Copyright (C) 2018-present MongoDB, Inc. * * This program is free software: you can redistribute it and/or modify * it under the terms of the Server Side Public License, version 1, * as published by MongoDB, Inc. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * Server Side Public License for more details. * * You should have received a copy of the Server Side Public License * along with this program. If not, see * . * * As a special exception, the copyright holders give permission to link the * code of portions of this program with the OpenSSL library under certain * conditions as described in each individual source file and distribute * linked combinations including the program with the OpenSSL library. You * must comply with the Server Side Public License in all respects for * all of the code used other than as permitted herein. If you modify file(s) * with this exception, you may extend this exception to your version of the * file(s), but you are not obligated to do so. If you do not wish to do so, * delete this exception statement from your version. If you delete this * exception statement from all source files in the program, then also delete * it in the license file. */ #define MONGO_LOGV2_DEFAULT_COMPONENT ::mongo::logv2::LogComponent::kControl #include "mongo/platform/basic.h" #include "mongo/util/fail_point.h" #include #include #include #include #include "mongo/base/init.h" #include "mongo/bson/json.h" #include "mongo/bson/util/bson_extract.h" #include "mongo/logv2/log.h" #include "mongo/platform/random.h" #include "mongo/stdx/thread.h" #include "mongo/util/assert_util.h" #include "mongo/util/fail_point_server_parameter_gen.h" #include "mongo/util/time_support.h" namespace mongo { namespace { using namespace fmt::literals; MONGO_FAIL_POINT_DEFINE(dummy); // used by tests in jstests/fail_point MONGO_INITIALIZER_GENERAL(AllFailPointsRegistered, (), ()) (InitializerContext* context) { globalFailPointRegistry().freeze(); } /** The per-thread PRNG used by fail-points. */ thread_local PseudoRandom threadPrng{SecureRandom().nextInt64()}; template void spinWait(const Pred& pred) { for (int n = 0; n < 100; ++n) { if (pred()) return; } for (int n = 0; n < 100; ++n) { if (pred()) return; stdx::this_thread::yield(); } while (true) { if (pred()) return; stdx::this_thread::sleep_for(stdx::chrono::milliseconds(50)); } } } // namespace void FailPoint::setThreadPRNGSeed(int32_t seed) { threadPrng = PseudoRandom(seed); } FailPoint::FailPoint(std::string name, bool immortal) : _immortal(immortal) { new (_rawImpl()) Impl(std::move(name)); _ready.store(true); } FailPoint::~FailPoint() { if (!_immortal) _rawImpl()->~Impl(); } auto FailPoint::Impl::setMode(Mode mode, ValType val, BSONObj extra) -> EntryCountT { /** * Outline: * * 1. Deactivates fail point to enter write-only mode * 2. Waits for all current readers of the fail point to finish * 3. Sets the new mode. */ stdx::lock_guard scoped(_modMutex); // Step 1 _disable(); // Step 2 spinWait([&] { return _fpInfo.load() == 0; }); // Step 3 _mode = mode; _modeValue.store(val); _data = std::move(extra); if (_mode != off) { _enable(); } return _hitCount.load(); } auto FailPoint::Impl::waitForTimesEntered(Interruptible* interruptible, EntryCountT targetTimesEntered) const -> EntryCountT { while (true) { if (auto entries = _hitCount.load(); entries >= targetTimesEntered) return entries; interruptible->sleepFor(_kWaitGranularity); } } bool FailPoint::Impl::_evaluateByMode() { switch (_mode) { case alwaysOn: return true; case random: return std::uniform_int_distribution{}(threadPrng.urbg()) < _modeValue.load(); case nTimes: if (_modeValue.subtractAndFetch(1) <= 0) _disable(); return true; case skip: // Ensure that once the skip counter reaches within some delta from 0 we don't continue // decrementing it unboundedly because at some point it will roll over and become // positive again return _modeValue.load() <= 0 || _modeValue.subtractAndFetch(1) < 0; default: LOGV2_ERROR(23832, "FailPoint mode not supported: {mode}", "FailPoint mode not supported", "mode"_attr = static_cast(_mode)); fassertFailed(16444); } } StatusWith FailPoint::parseBSON(const BSONObj& obj) { Mode mode = FailPoint::alwaysOn; ValType val = 0; const BSONElement modeElem(obj["mode"]); if (modeElem.eoo()) { return {ErrorCodes::IllegalOperation, "When setting a failpoint, you must supply a 'mode'"}; } else if (modeElem.type() == String) { const std::string modeStr(modeElem.valuestr()); if (modeStr == "off") { mode = FailPoint::off; } else if (modeStr == "alwaysOn") { mode = FailPoint::alwaysOn; } else { return {ErrorCodes::BadValue, "unknown mode: {}"_format(modeStr)}; } } else if (modeElem.type() == Object) { const BSONObj modeObj(modeElem.Obj()); if (modeObj.hasField("times")) { mode = FailPoint::nTimes; long long longVal; auto status = bsonExtractIntegerField(modeObj, "times", &longVal); if (!status.isOK()) { return status; } if (longVal < 0) { return {ErrorCodes::BadValue, "'times' option to 'mode' must be positive"}; } if (longVal > std::numeric_limits::max()) { return {ErrorCodes::BadValue, "'times' option to 'mode' is too large"}; } val = static_cast(longVal); } else if (modeObj.hasField("skip")) { mode = FailPoint::skip; long long longVal; auto status = bsonExtractIntegerField(modeObj, "skip", &longVal); if (!status.isOK()) { return status; } if (longVal < 0) { return {ErrorCodes::BadValue, "'skip' option to 'mode' must be positive"}; } if (longVal > std::numeric_limits::max()) { return {ErrorCodes::BadValue, "'skip' option to 'mode' is too large"}; } val = static_cast(longVal); } else if (modeObj.hasField("activationProbability")) { mode = FailPoint::random; if (!modeObj["activationProbability"].isNumber()) { return {ErrorCodes::TypeMismatch, "the 'activationProbability' option to 'mode' must be a double between 0 " "and 1"}; } const double activationProbability = modeObj["activationProbability"].numberDouble(); if (activationProbability < 0 || activationProbability > 1) { return {ErrorCodes::BadValue, "activationProbability must be between 0.0 and 1.0; " "found {}"_format(activationProbability)}; } val = static_cast(std::numeric_limits::max() * activationProbability); } else { return {ErrorCodes::BadValue, "'mode' must be one of 'off', 'alwaysOn', '{times:n}', '{skip:n}' or " "'{activationProbability:p}'"}; } } else { return {ErrorCodes::TypeMismatch, "'mode' must be a string or JSON object"}; } BSONObj data; if (obj.hasField("data")) { if (!obj["data"].isABSONObj()) { return {ErrorCodes::TypeMismatch, "the 'data' option must be a JSON object"}; } data = obj["data"].Obj().getOwned(); } return ModeOptions{mode, val, data}; } BSONObj FailPoint::Impl::toBSON() const { BSONObjBuilder builder; stdx::lock_guard scoped(_modMutex); builder.append("mode", _mode); builder.append("data", _data); builder.append("timesEntered", _hitCount.load()); return builder.obj(); } FailPointRegisterer::FailPointRegisterer(FailPoint* fp) { uassertStatusOK(globalFailPointRegistry().add(fp)); } FailPointRegistry& globalFailPointRegistry() { static auto& p = *new FailPointRegistry(); return p; } auto setGlobalFailPoint(const std::string& failPointName, const BSONObj& cmdObj) -> FailPoint::EntryCountT { FailPoint* failPoint = globalFailPointRegistry().find(failPointName); if (failPoint == nullptr) uasserted(ErrorCodes::FailPointSetFailed, failPointName + " not found"); auto timesEntered = failPoint->setMode(uassertStatusOK(FailPoint::parseBSON(cmdObj))); LOGV2_WARNING(23829, "Set failpoint {failPointName} to: {failPoint}", "Set failpoint", "failPointName"_attr = failPointName, "failPoint"_attr = failPoint->toBSON()); return timesEntered; } FailPointEnableBlock::FailPointEnableBlock(StringData failPointName) : FailPointEnableBlock(failPointName, {}) {} FailPointEnableBlock::FailPointEnableBlock(StringData failPointName, BSONObj data) : FailPointEnableBlock(globalFailPointRegistry().find(failPointName), std::move(data)) {} FailPointEnableBlock::FailPointEnableBlock(FailPoint* failPoint) : FailPointEnableBlock(failPoint, {}) {} FailPointEnableBlock::FailPointEnableBlock(FailPoint* failPoint, BSONObj data) : _failPoint(failPoint) { invariant(_failPoint != nullptr); _initialTimesEntered = _failPoint->setMode(FailPoint::alwaysOn, 0, std::move(data)); LOGV2_WARNING(23830, "Set failpoint {failPointName} to: {failPoint}", "Set failpoint", "failPointName"_attr = _failPoint->getName(), "failPoint"_attr = _failPoint->toBSON()); } FailPointEnableBlock::~FailPointEnableBlock() { _failPoint->setMode(FailPoint::off); LOGV2_WARNING(23831, "Set failpoint {failPointName} to: {failPoint}", "Set failpoint", "failPointName"_attr = _failPoint->getName(), "failPoint"_attr = _failPoint->toBSON()); } FailPointRegistry::FailPointRegistry() : _frozen(false) {} Status FailPointRegistry::add(FailPoint* failPoint) { if (_frozen) { return {ErrorCodes::CannotMutateObject, "Registry is already frozen"}; } auto [pos, ok] = _fpMap.insert({failPoint->getName(), failPoint}); if (!ok) { return {ErrorCodes::Error(51006), "Fail point already registered: {}"_format(failPoint->getName())}; } return Status::OK(); } FailPoint* FailPointRegistry::find(StringData name) const { auto iter = _fpMap.find(name); return (iter == _fpMap.end()) ? nullptr : iter->second; } void FailPointRegistry::freeze() { _frozen = true; } void FailPointRegistry::registerAllFailPointsAsServerParameters() { for (const auto& [name, ptr] : _fpMap) { // Intentionally leaked. new FailPointServerParameter(name, ServerParameterType::kStartupOnly); } } void FailPointRegistry::disableAllFailpoints() { for (auto& [_, fp] : _fpMap) { fp->setMode(FailPoint::Mode::off); } } static constexpr auto kFailPointServerParameterPrefix = "failpoint."_sd; FailPointServerParameter::FailPointServerParameter(StringData name, ServerParameterType spt) : ServerParameter("{}{}"_format(kFailPointServerParameterPrefix, name), spt), _data(globalFailPointRegistry().find(name.toString())) { invariant(name != "failpoint.*", "Failpoint prototype was auto-registered from IDL"); invariant(_data != nullptr, "Unknown failpoint: {}"_format(name)); } void FailPointServerParameter::append(OperationContext* opCtx, BSONObjBuilder& b, const std::string& name) { b << name << _data->toBSON(); } Status FailPointServerParameter::setFromString(const std::string& str) { BSONObj failPointOptions; try { failPointOptions = fromjson(str); } catch (DBException& ex) { return ex.toStatus(); } auto swParsedOptions = FailPoint::parseBSON(failPointOptions); if (!swParsedOptions.isOK()) { return swParsedOptions.getStatus(); } _data->setMode(std::move(swParsedOptions.getValue())); return Status::OK(); } } // namespace mongo