diff -r 00c6709d25aa -r 9d7ce34704c8 datacommsserver/esockserver/test/TE_EsockTestSteps/inc/Connections.TestSteps.h --- a/datacommsserver/esockserver/test/TE_EsockTestSteps/inc/Connections.TestSteps.h Thu Aug 19 11:05:47 2010 +0300 +++ b/datacommsserver/esockserver/test/TE_EsockTestSteps/inc/Connections.TestSteps.h Tue Aug 31 16:25:36 2010 +0300 @@ -190,73 +190,21 @@ Note that since the test is normally executed by a thread of lower priority than ESock_IP, it relies on ESock_IP yielding (otherwise it won't test different phases. For instance DummyMCPR will artificially yield on TCFServiceProvider::TJoinRequest. -NetMCPR will not normally yield as is. DummyFlowFactory will yield on serving a TFindOrCreateRequest. +NetMCPR will not normally yield as is. @internalComponent */ class CStartStopCrazyLoopRConnectionStep : public CStartRConnectionStep { public: - enum { - /* - * The test executes a loop of starting and then stopping a connection at discrete, growing intervals. - * It is crucial that enough iterations are executed, as otherwise the test isn't doing its job. - * The test will fail if this is detected. As iteration gaps are time-based the test first calibrates - * itself by running CStartStopCrazyLoopRConnectionStep::CalibrateStart to determine how - * much time does the start take in order to chop this span further into ELoops intevals. - * Calibration isn't uterrly precise and it can be that a connection startup executed within - * the loop completes quicker than during calibration. It has been in fact observed - * in the overnight builds (about 7.5%). A number of things can be done to accomdate for that. - * The approach chosen is to: - * (1) Plan for EPlannedLoops (chop down the CStartStopCrazyLoopRConnectionStep::CalibrateStart - * into EPlannedLoops - * (2) Insist on excuting at least EMandatoryLoops (the test will fail if less iterations are executed) - * (3) Keep on iterating beyond EPlannedLoops until the snooze slides of the connection - * startup time (the calbrated connection startup time equally might have been unrepresentativelly short) - */ - EPlannedLoops = 15, - EMandatoryLoops = 14, - }; - CStartStopCrazyLoopRConnectionStep(CCEsockTestBase*& aEsockTest); - virtual ~CStartStopCrazyLoopRConnectionStep(); - TVerdict doSingleTestStep(); TInt CalibrateStart(); - virtual TInt doLoopStep(TInt aTimerVal); - -protected: - RTimer iTimer; - TRequestStatus* ipConnectionStartStatus; }; _LIT(KStartStopCrazyLoopRConnectionStep,"StartStopCrazyLoopRConnectionStep"); /** -Class implementing StartCloseCrazyLoopRConnectionStep -The test does a loop, where every iteration: -(1) Starts the connection -(2) Snoozes for an -(3) Closes the connection injecting a cancel at that stage of the connection start -(4) Increases the a bit so that next time round the cancel is injected at a different stage. - -Note that since the test is normally executed by a thread of lower priority than ESock_IP, it relies on -ESock_IP yielding (otherwise it won't test different phases. -For instance DummyMCPR will artificially yield on TCFServiceProvider::TJoinRequest. -NetMCPR will not normally yield as is. DummyFlowFactory will yield on serving a TFindOrCreateRequest. - -@internalComponent -*/ -class CStartCloseCrazyLoopRConnectionStep : public CStartStopCrazyLoopRConnectionStep - { -public: - CStartCloseCrazyLoopRConnectionStep(CCEsockTestBase*& aEsockTest); - virtual TInt doLoopStep(TInt aTimerVal); - }; - -_LIT(KStartCloseCrazyLoopRConnectionStep,"StartCloseCrazyLoopRConnectionStep"); - -/** Class implementing openrconnectionStep @internalComponent