Exemplo n.º 1
0
//JAVA TO C# CONVERTER TODO TASK: Most Java annotations will not have direct .NET equivalent attributes:
//ORIGINAL LINE: @Ignore("This belongs better in a benchmarking suite.") @Test public void electionPerformance_NormalConditions() throws Throwable
//JAVA TO C# CONVERTER WARNING: Method 'throws' clauses are not available in C#:
        public virtual void ElectionPerformanceNormalConditions()
        {
            /* This test runs with with few iterations. Hence it does not have the power to catch
             * regressions efficiently. Its purpose is mainly to run elections using real-world
             * parameters and catch very obvious regressions while not contributing overly much to the
             * regression test suites total runtime. */

            // given parameters
            const long networkLatency    = 15L;
            const long electionTimeout   = 500L;
            const long heartbeatInterval = 250L;
            const int  iterations        = 10;

            TestNetwork              net      = new TestNetwork <>((i, o) => networkLatency);
            ISet <MemberId>          members  = asSet(member(0), member(1), member(2));
            Fixture                  fixture  = new Fixture(members, net, electionTimeout, heartbeatInterval);
            DisconnectLeaderScenario scenario = new DisconnectLeaderScenario(fixture, electionTimeout);

            try
            {
                // when running scenario
                fixture.Boot();
                scenario.Run(iterations, 10 * electionTimeout);
            }
            finally
            {
                fixture.TearDown();
            }

            DisconnectLeaderScenario.Result result = scenario.Result();

            /* These bounds have been experimentally established and should have a very low
             * likelihood for false positives without an actual major regression. If this test fails
             * then the recommended action is to run the test manually and interpret the results
             * to guide further action. Perhaps the power of the test has to be improved, but
             * the intention here is not to catch anything but the most major of regressions. */

            assertThat(result.NonCollidingAverage, lessThan(2.0 * electionTimeout));
            if (result.CollisionCount > 3)
            {
                assertThat(result.CollidingAverage, lessThan(6.0 * electionTimeout));
            }
            assertThat(result.TimeoutCount, @is(0L));
        }
Exemplo n.º 2
0
//JAVA TO C# CONVERTER TODO TASK: Most Java annotations will not have direct .NET equivalent attributes:
//ORIGINAL LINE: @Ignore("This belongs better in a benchmarking suite.") @Test public void electionPerformance_RapidConditions() throws Throwable
//JAVA TO C# CONVERTER WARNING: Method 'throws' clauses are not available in C#:
        public virtual void ElectionPerformanceRapidConditions()
        {
            // given parameters
            const long networkLatency    = 1L;
            const long electionTimeout   = 30L;
            const long heartbeatInterval = 15L;
            const int  iterations        = 100;

            TestNetwork              net      = new TestNetwork <>((i, o) => networkLatency);
            ISet <MemberId>          members  = asSet(member(0), member(1), member(2));
            Fixture                  fixture  = new Fixture(members, net, electionTimeout, heartbeatInterval);
            DisconnectLeaderScenario scenario = new DisconnectLeaderScenario(fixture, electionTimeout);

            try
            {
                // when running scenario
                fixture.Boot();
                scenario.Run(iterations, 10 * electionTimeout);
            }
            finally
            {
                fixture.TearDown();
            }

            DisconnectLeaderScenario.Result result = scenario.Result();

            /* These bounds have been experimentally established and should have a very low
             * likelihood for false positives without an actual major regression. If this test fails
             * then the recommended action is to run the test manually and interpret the results
             * to guide further action. Perhaps the power of the test has to be improved, but
             * the intention here is not to catch anything but the most major of regressions. */

            assertThat(result.NonCollidingAverage, lessThan(2.0 * electionTimeout));

            // because of the high number of iterations, it is possible to assert on the collision rate
            assertThat(result.CollisionRate, lessThan(0.50d));

            if (result.CollisionCount > 10)
            {
                assertThat(result.CollidingAverage, lessThan(5.0 * electionTimeout));
            }
            assertThat(result.TimeoutCount, lessThanOrEqualTo(1L));                   // for GC or whatever reason
        }
Exemplo n.º 3
0
 public Result(DisconnectLeaderScenario outerInstance)
 {
     this._outerInstance = outerInstance;
 }