/** * 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. */ #include #include #include #include #include "mongo/base/status.h" #include "mongo/config.h" #include "mongo/db/json.h" #include "mongo/unittest/death_test.h" #include "mongo/unittest/unittest.h" #include "mongo/util/assert_util.h" namespace mongo { namespace { TEST(Basic, Accessors) { Status status(ErrorCodes::MaxError, "error"); ASSERT_EQUALS(status.code(), ErrorCodes::MaxError); ASSERT_EQUALS(status.reason(), "error"); } TEST(Basic, IsA) { ASSERT(!Status(ErrorCodes::BadValue, "").isA()); ASSERT(Status(ErrorCodes::Interrupted, "").isA()); ASSERT(!Status(ErrorCodes::Interrupted, "").isA()); } TEST(Basic, OKIsAValidStatus) { Status status = Status::OK(); ASSERT_EQUALS(status.code(), ErrorCodes::OK); } TEST(Basic, Compare) { Status errMax(ErrorCodes::MaxError, "error"); ASSERT_EQ(errMax, errMax); ASSERT_NE(errMax, Status::OK()); } TEST(Basic, WithReason) { const Status orig(ErrorCodes::MaxError, "error"); const auto copy = orig.withReason("reason"); ASSERT_EQ(copy.code(), ErrorCodes::MaxError); ASSERT_EQ(copy.reason(), "reason"); ASSERT_EQ(orig.code(), ErrorCodes::MaxError); ASSERT_EQ(orig.reason(), "error"); } TEST(Basic, WithContext) { const Status orig(ErrorCodes::MaxError, "error"); const auto copy = orig.withContext("context"); ASSERT_EQ(copy.code(), ErrorCodes::MaxError); ASSERT(str::startsWith(copy.reason(), "context ")) << copy.reason(); ASSERT(str::endsWith(copy.reason(), " error")) << copy.reason(); ASSERT_EQ(orig.code(), ErrorCodes::MaxError); ASSERT_EQ(orig.reason(), "error"); } TEST(Cloning, Copy) { Status orig(ErrorCodes::MaxError, "error"); ASSERT_EQUALS(orig.refCount(), 1U); Status dest(orig); ASSERT_EQUALS(dest.code(), ErrorCodes::MaxError); ASSERT_EQUALS(dest.reason(), "error"); ASSERT_EQUALS(dest.refCount(), 2U); ASSERT_EQUALS(orig.refCount(), 2U); } TEST(Cloning, MoveCopyOK) { Status orig = Status::OK(); ASSERT_TRUE(orig.isOK()); ASSERT_EQUALS(orig.refCount(), 0U); Status dest(std::move(orig)); ASSERT_TRUE(orig.isOK()); ASSERT_EQUALS(orig.refCount(), 0U); ASSERT_TRUE(dest.isOK()); ASSERT_EQUALS(dest.refCount(), 0U); } TEST(Cloning, MoveCopyError) { Status orig(ErrorCodes::MaxError, "error"); ASSERT_FALSE(orig.isOK()); ASSERT_EQUALS(orig.refCount(), 1U); Status dest(std::move(orig)); ASSERT_TRUE(orig.isOK()); ASSERT_EQUALS(orig.refCount(), 0U); ASSERT_FALSE(dest.isOK()); ASSERT_EQUALS(dest.refCount(), 1U); ASSERT_EQUALS(dest.code(), ErrorCodes::MaxError); ASSERT_EQUALS(dest.reason(), "error"); } TEST(Cloning, MoveAssignOKToOK) { Status orig = Status::OK(); ASSERT_TRUE(orig.isOK()); ASSERT_EQUALS(orig.refCount(), 0U); Status dest = Status::OK(); ASSERT_TRUE(dest.isOK()); ASSERT_EQUALS(dest.refCount(), 0U); dest = std::move(orig); ASSERT_TRUE(orig.isOK()); ASSERT_EQUALS(orig.refCount(), 0U); ASSERT_TRUE(dest.isOK()); ASSERT_EQUALS(dest.refCount(), 0U); } TEST(Cloning, MoveAssignErrorToError) { Status orig = Status(ErrorCodes::MaxError, "error"); ASSERT_FALSE(orig.isOK()); ASSERT_EQUALS(orig.refCount(), 1U); ASSERT_EQUALS(orig.code(), ErrorCodes::MaxError); ASSERT_EQUALS(orig.reason(), "error"); Status dest = Status(ErrorCodes::InternalError, "error2"); ASSERT_FALSE(dest.isOK()); ASSERT_EQUALS(dest.refCount(), 1U); ASSERT_EQUALS(dest.code(), ErrorCodes::InternalError); ASSERT_EQUALS(dest.reason(), "error2"); dest = std::move(orig); ASSERT_TRUE(orig.isOK()); ASSERT_EQUALS(orig.refCount(), 0U); ASSERT_FALSE(dest.isOK()); ASSERT_EQUALS(dest.refCount(), 1U); ASSERT_EQUALS(dest.code(), ErrorCodes::MaxError); ASSERT_EQUALS(dest.reason(), "error"); } TEST(Cloning, MoveAssignErrorToOK) { Status orig = Status(ErrorCodes::MaxError, "error"); ASSERT_FALSE(orig.isOK()); ASSERT_EQUALS(orig.refCount(), 1U); ASSERT_EQUALS(orig.code(), ErrorCodes::MaxError); ASSERT_EQUALS(orig.reason(), "error"); Status dest = Status::OK(); ASSERT_TRUE(dest.isOK()); ASSERT_EQUALS(dest.refCount(), 0U); dest = std::move(orig); ASSERT_TRUE(orig.isOK()); ASSERT_EQUALS(orig.refCount(), 0U); ASSERT_FALSE(dest.isOK()); ASSERT_EQUALS(dest.refCount(), 1U); ASSERT_EQUALS(dest.code(), ErrorCodes::MaxError); ASSERT_EQUALS(dest.reason(), "error"); } TEST(Cloning, MoveAssignOKToError) { Status orig = Status::OK(); ASSERT_TRUE(orig.isOK()); ASSERT_EQUALS(orig.refCount(), 0U); Status dest = Status(ErrorCodes::MaxError, "error"); ASSERT_FALSE(dest.isOK()); ASSERT_EQUALS(dest.refCount(), 1U); ASSERT_EQUALS(dest.code(), ErrorCodes::MaxError); ASSERT_EQUALS(dest.reason(), "error"); orig = std::move(dest); ASSERT_FALSE(orig.isOK()); ASSERT_EQUALS(orig.refCount(), 1U); ASSERT_EQUALS(orig.code(), ErrorCodes::MaxError); ASSERT_EQUALS(orig.reason(), "error"); ASSERT_TRUE(dest.isOK()); ASSERT_EQUALS(dest.refCount(), 0U); } TEST(Cloning, OKIsNotRefCounted) { ASSERT_EQUALS(Status::OK().refCount(), 0U); Status myOk = Status::OK(); ASSERT_EQUALS(myOk.refCount(), 0U); ASSERT_EQUALS(Status::OK().refCount(), 0U); } TEST(Parsing, CodeToEnum) { ASSERT_EQUALS(ErrorCodes::TypeMismatch, ErrorCodes::Error(int(ErrorCodes::TypeMismatch))); ASSERT_EQUALS(ErrorCodes::UnknownError, ErrorCodes::Error(int(ErrorCodes::UnknownError))); ASSERT_EQUALS(ErrorCodes::MaxError, ErrorCodes::Error(int(ErrorCodes::MaxError))); ASSERT_EQUALS(ErrorCodes::OK, ErrorCodes::duplicateCodeForTest(0)); } TEST(Transformers, ExceptionToStatus) { using mongo::DBException; using mongo::exceptionToStatus; auto reason = "oh no"; Status fromDBExcept = [=]() { try { uasserted(ErrorCodes::TypeMismatch, reason); } catch (...) { return exceptionToStatus(); } }(); ASSERT_NOT_OK(fromDBExcept); ASSERT_EQUALS(fromDBExcept.reason(), reason); ASSERT_EQUALS(fromDBExcept.code(), ErrorCodes::TypeMismatch); Status fromStdExcept = [=]() { try { throw std::out_of_range(reason); } catch (...) { return exceptionToStatus(); } }(); ASSERT_NOT_OK(fromStdExcept); // we don't check the exact error message because the type name of the exception // isn't demangled on windows. ASSERT_TRUE(fromStdExcept.reason().find(reason) != std::string::npos); ASSERT_EQUALS(fromStdExcept.code(), ErrorCodes::UnknownError); class bar : public boost::exception {}; Status fromBoostExcept = [=]() { try { throw bar(); } catch (...) { return exceptionToStatus(); } }(); ASSERT_NOT_OK(fromBoostExcept); ASSERT_EQUALS(fromBoostExcept, ErrorCodes::UnknownError); // Reason should include that it was a boost::exception ASSERT_TRUE(fromBoostExcept.reason().find("boost::exception") != std::string::npos); } DEATH_TEST(ErrorExtraInfo, InvariantAllRegistered, "Invariant failure parsers::") { ErrorExtraInfo::invariantHaveAllParsers(); } #ifdef MONGO_CONFIG_DEBUG_BUILD DEATH_TEST(ErrorExtraInfo, DassertShouldHaveExtraInfo, "Fatal Assertion 40680") { Status(ErrorCodes::ForTestingErrorExtraInfo, ""); } #else TEST(ErrorExtraInfo, ConvertCodeOnMissingExtraInfo) { auto status = Status(ErrorCodes::ForTestingErrorExtraInfo, ""); ASSERT_EQ(status, ErrorCodes::duplicateCodeForTest(40671)); } #endif TEST(ErrorExtraInfo, TypedConstructorWorks) { const auto status = Status(ErrorExtraInfoExample(123), ""); ASSERT_EQ(status, ErrorCodes::ForTestingErrorExtraInfo); ASSERT(status.extraInfo()); ASSERT(status.extraInfo()); ASSERT_EQ(status.extraInfo()->data, 123); } TEST(ErrorExtraInfo, StatusWhenParserThrows) { auto status = Status(ErrorCodes::ForTestingErrorExtraInfo, "", fromjson("{data: 123}")); ASSERT_EQ(status, ErrorCodes::duplicateCodeForTest(40681)); ASSERT(!status.extraInfo()); ASSERT(!status.extraInfo()); } TEST(ErrorExtraInfo, StatusParserWorks) { ErrorExtraInfoExample::EnableParserForTest whenInScope; auto status = Status(ErrorCodes::ForTestingErrorExtraInfo, "", fromjson("{data: 123}")); ASSERT_EQ(status, ErrorCodes::ForTestingErrorExtraInfo); ASSERT(status.extraInfo()); ASSERT(status.extraInfo()); ASSERT_EQ(status.extraInfo()->data, 123); } TEST(ErrorExtraInfo, StatusParserWorksNested) { nested::twice::NestedErrorExtraInfoExample::EnableParserForTest whenInScope; auto status = Status( ErrorCodes::ForTestingErrorExtraInfoWithExtraInfoInNamespace, "", fromjson("{data: 123}")); ASSERT_EQ(status, ErrorCodes::ForTestingErrorExtraInfoWithExtraInfoInNamespace); ASSERT(status.extraInfo()); ASSERT(status.extraInfo()); ASSERT_EQ(status.extraInfo()->data, 123); } TEST(ErrorExtraInfo, StatusWhenParserThrowsNested) { auto status = Status( ErrorCodes::ForTestingErrorExtraInfoWithExtraInfoInNamespace, "", fromjson("{data: 123}")); ASSERT_EQ(status, ErrorCodes::duplicateCodeForTest(51100)); ASSERT(!status.extraInfo()); ASSERT(!status.extraInfo()); } } // namespace } // namespace mongo