--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/kerneltest/f32test/fsstress/t_remote.cpp Mon Oct 19 15:55:17 2009 +0100
@@ -0,0 +1,691 @@
+// Copyright (c) 1998-2009 Nokia Corporation and/or its subsidiary(-ies).
+// All rights reserved.
+// This component and the accompanying materials are made available
+// under the terms of the License "Eclipse Public License v1.0"
+// which accompanies this distribution, and is available
+// at the URL "http://www.eclipse.org/legal/epl-v10.html".
+//
+// Initial Contributors:
+// Nokia Corporation - initial contribution.
+//
+// Contributors:
+//
+// Description:
+// f32test\fsstress\t_remote.cpp
+//
+//
+
+#if !defined(__F32FILE_H__)
+#include <f32file.h>
+#endif
+#if !defined(__E32TEST_H__)
+#include <e32test.h>
+#endif
+#if !defined(__T_STD_H__)
+#include "t_std.h"
+#endif
+#if !defined(__T_REMFSY_H__)
+#include "t_remfsy.h"
+#endif
+
+GLDEF_D RTest test(_L("T_REMOTE - DEFAULT DRIVE"));
+GLDEF_D RTest testx(_L("X Drive (WINS) <-> D Drive (MARM)"));
+GLDEF_D RTest testy(_L("Y Drive (WINS) <-> C Drive (MARM)"));
+GLDEF_D RTest testq(_L("REMOTE Q Drive"));
+
+LOCAL_D TFileName gBatchFile;
+LOCAL_D TBool gRunByBatch=EFalse;
+
+GLDEF_D TFileName gExeFileName(RProcess().FileName());
+
+/*
+INFORMATION - What this test is all about
+
+T_REMOTE tests the asynchronous remote file system implementation, introduced in
+F32 release 110 and refined in release 112. The test sets up and mounts four drives,
+the default drive (usually C on WINS and MARM), a remote drive (Q) and two others, on
+MARM these are C and D, on WINS these are X and Y. The remote filesystem is the only
+system treated asynchronously by F32.
+
+The test sets up a thread for each drive and runs a number of tests on each drive.
+In the remote filesystem case, a dummy filesystem has been implemented, this is built
+as T_REMFSY.fsy. The tests are designed to stress a number of fileserver API
+functions. The test MultipleSessions() is adapted from another F32 test T_SESSION.
+It sets up an array of fileserver connections and then uses each connection to run
+a number of tests - alternating between connections to stress F32 as it does so. The
+test should therefore be testing multiple fileserver connections on multiple drives -
+the remote filesystem running concurrently with the other drives. There should be
+no failure or confusion between fileserver sessions. Each drive has a separate test
+console which should complete successfully.
+
+NOTE: TO RUN THIS CARD SUCCESSFULLY ON MARM A CF CARD IS REQUIRED
+
+*/
+
+LOCAL_C void Test0(RTest& aTest)
+//
+// Scan for open files - no sessions
+//
+ {
+ aTest.Next(_L("Scan for open files with no sessions open"));
+ CFileList* list;
+ TOpenFileScan fileScan(TheFs);
+ fileScan.NextL(list);
+ if (list==NULL)
+ return;
+ TInt count=list->Count();
+ if (count==1)
+ {
+ gRunByBatch=ETrue;
+ gBatchFile=(*list)[0].iName;
+ delete list;
+ fileScan.NextL(list);
+ if (list==NULL)
+ return;
+ count=list->Count();
+ }
+ while (count--)
+ {
+ TEntry entry=(*list)[count];
+ aTest.Printf(_L("%d) EntryName = %S\n"),count,&entry.iName);
+ }
+ //aTest.Printf(_L("Test will fail unless files are closed.\n"));
+ //aTest.Printf(_L("Press any key ...\n"));
+ //aTest.Getch();
+ }
+
+
+LOCAL_C void Test1()
+//
+// This test is only called by default drive
+// Test OpenFileScan
+//
+ {
+ test.Next(_L("Scan for open files - one session only"));
+
+ RFile file1,file2,file3;
+ TFileName fn;
+ fn = _L("Z:\\TEST\\T_FSRV.CPP");
+ fn[0] = gExeFileName[0];
+ TInt r=file1.Open(TheFs,fn,EFileRead|EFileShareReadersOnly);
+ test(r==KErrNone);
+ fn = _L("Z:\\TEST\\T_FILE.CPP");
+ fn[0] = gExeFileName[0];
+ r=file2.Open(TheFs,fn,EFileRead);
+ test(r==KErrNone);
+ fn = _L("Z:\\TEST\\T_FSRV.CPP");
+ fn[0] = gExeFileName[0];
+ r=file3.Open(TheFs,fn,EFileRead|EFileShareReadersOnly);
+ test(r==KErrNone);
+
+ CFileList* list;
+ TOpenFileScan fileScan(TheFs);
+ fileScan.NextL(list);
+
+ if (gRunByBatch)
+ {
+ test(list!=NULL);
+ test(list->Count()==1);
+ TEntry entry=(*list)[0];
+ test(entry.iName.FindF(_L(".BAT"))>=0);
+ delete list;
+ fileScan.NextL(list);
+ }
+
+ test(list!=NULL);
+ TInt count=list->Count();
+ test(count==3);
+ TEntry entry=(*list)[0];
+ test(entry.iName.FindF(_L("T_FSRV.CPP"))>=0);
+ entry=(*list)[1];
+ test(entry.iName.FindF(_L("T_FILE.CPP"))>=0);
+ entry=(*list)[2];
+ test(entry.iName.FindF(_L("T_FSRV.CPP"))>=0);
+ TThreadId threadId=fileScan.ThreadId();
+ RThread current;
+ TThreadId currentId=current.Id();
+ test(threadId==currentId);
+ delete list;
+
+ fileScan.NextL(list);
+ test(list==NULL);
+
+ file1.Close();
+ file2.Close();
+ file3.Close();
+ }
+
+LOCAL_C void Test2()
+//
+// Test openfilescan - empty, full, empty.
+//
+ {
+ test.Next(_L("Scan for open files - empty sessions"));
+
+ RFs fs1,fs2,fs3,fs4;
+ TInt r=fs1.Connect();
+ test(r==KErrNone);
+ r=fs2.Connect();
+ test(r==KErrNone);
+ r=fs3.Connect();
+ test(r==KErrNone);
+ r=fs4.Connect();
+ test(r==KErrNone);
+
+ RFile file1,file2,file3;
+ TFileName fn;
+ fn = _L("Z:\\TEST\\T_FSRV.CPP");
+ fn[0] = gExeFileName[0];
+ r=file1.Open(fs2,fn,EFileRead|EFileShareReadersOnly);
+ test(r==KErrNone);
+ fn = _L("Z:\\TEST\\T_FILE.CPP");
+ fn[0] = gExeFileName[0];
+ r=file2.Open(fs2,fn,EFileRead);
+ test(r==KErrNone);
+ fn = _L("Z:\\TEST\\T_FSRV.CPP");
+ fn[0] = gExeFileName[0];
+ r=file3.Open(fs2,fn,EFileRead|EFileShareReadersOnly);
+ test(r==KErrNone);
+
+ CFileList* list;
+ TOpenFileScan fileScan(TheFs);
+ fileScan.NextL(list);
+
+ if (gRunByBatch)
+ {
+ test(list!=NULL);
+ test(list->Count()==1);
+ TEntry entry=(*list)[0];
+ test(entry.iName.FindF(_L(".BAT"))>=0);
+ delete list;
+ fileScan.NextL(list);
+ }
+
+ test(list!=NULL);
+ TInt count=list->Count();
+ test(count==3);
+ TEntry entry=(*list)[0];
+ test(entry.iName.FindF(_L("T_FSRV.CPP"))>=0);
+ entry=(*list)[1];
+ test(entry.iName.FindF(_L("T_FILE.CPP"))>=0);
+ entry=(*list)[2];
+ test(entry.iName.FindF(_L("T_FSRV.CPP"))>=0);
+ TThreadId threadId=fileScan.ThreadId();
+ RThread current;
+ TThreadId currentId=current.Id();
+ test(threadId==currentId);
+ delete list;
+
+ fileScan.NextL(list);
+ test(list==NULL);
+
+ file1.Close();
+ file2.Close();
+ file3.Close();
+ fs1.Close();
+ fs2.Close();
+ fs3.Close();
+ fs4.Close();
+ }
+
+LOCAL_C void Test3()
+//
+// Test openfilescan - empty, full, empty full
+//
+ {
+ test.Next(_L("Scan for open files - multiple sessions"));
+
+ RFs fs1,fs2,fs3,fs4;
+ TInt r=fs1.Connect();
+ test(r==KErrNone);
+ r=fs2.Connect();
+ test(r==KErrNone);
+ r=fs3.Connect();
+ test(r==KErrNone);
+ r=fs4.Connect();
+ test(r==KErrNone);
+
+ RFile file1,file2,file3;
+ TFileName fn;
+ fn = _L("Z:\\TEST\\T_FSRV.CPP");
+ fn[0] = gExeFileName[0];
+ r=file1.Open(fs2,fn,EFileRead|EFileShareReadersOnly);
+ test(r==KErrNone);
+ fn = _L("Z:\\TEST\\T_FILE.CPP");
+ fn[0] = gExeFileName[0];
+ r=file2.Open(fs2,fn,EFileRead|EFileShareReadersOnly);
+ test(r==KErrNone);
+ fn = _L("Z:\\TEST\\T_FSRV.CPP");
+ fn[0] = gExeFileName[0];
+ r=file3.Open(fs2,fn,EFileRead|EFileShareReadersOnly);
+ test(r==KErrNone);
+
+ r=file1.Open(fs4,fn,EFileRead|EFileShareReadersOnly);
+ test(r==KErrNone);
+ fn = _L("Z:\\TEST\\T_FILE.CPP");
+ fn[0] = gExeFileName[0];
+ r=file2.Open(fs4,fn,EFileRead|EFileShareReadersOnly);
+ test(r==KErrNone);
+ fn = _L("Z:\\TEST\\T_FSRV.CPP");
+ fn[0] = gExeFileName[0];
+ r=file3.Open(fs4,fn,EFileRead|EFileShareReadersOnly);
+ test(r==KErrNone);
+
+ CFileList* list;
+ TOpenFileScan fileScan(TheFs);
+ fileScan.NextL(list);
+
+ if (gRunByBatch)
+ {
+ test(list!=NULL);
+ test(list->Count()==1);
+ TEntry entry=(*list)[0];
+ test(entry.iName.FindF(_L(".BAT"))>=0);
+ delete list;
+ fileScan.NextL(list);
+ }
+
+ test(list!=NULL);
+ TInt count=list->Count();
+ test(count==3);
+ TEntry entry=(*list)[0];
+ test(entry.iName.FindF(_L("T_FSRV.CPP"))>=0);
+ entry=(*list)[1];
+ test(entry.iName.FindF(_L("T_FILE.CPP"))>=0);
+ entry=(*list)[2];
+ test(entry.iName.FindF(_L("T_FSRV.CPP"))>=0);
+ TThreadId threadId=fileScan.ThreadId();
+ RThread current;
+ TThreadId currentId=current.Id();
+ test(threadId==currentId);
+ delete list;
+
+ fileScan.NextL(list);
+ test(list!=NULL);
+ count=list->Count();
+ test(count==3);
+ entry=(*list)[0];
+ test(entry.iName.FindF(_L("T_FSRV.CPP"))>=0);
+ entry=(*list)[1];
+ test(entry.iName.FindF(_L("T_FILE.CPP"))>=0);
+ entry=(*list)[2];
+ test(entry.iName.FindF(_L("T_FSRV.CPP"))>=0);
+ threadId=fileScan.ThreadId();
+ currentId=current.Id();
+ test(threadId==currentId);
+ delete list;
+
+ fileScan.NextL(list);
+ test(list==NULL);
+
+ file1.Close();
+ file2.Close();
+ file3.Close();
+ fs1.Close();
+ fs2.Close();
+ fs3.Close();
+ fs4.Close();
+ }
+
+LOCAL_C void Test4()
+//
+// Test openfilescan - rdirs, empty, full, empty rdirs.
+//
+ {
+ test.Next(_L("Scan for open files - check RDir sessions are ignored"));
+
+ RFs fs1,fs2,fs3,fs4;
+ TFileName fn;
+ TInt r=fs1.Connect();
+ test(r==KErrNone);
+ r=fs2.Connect();
+ test(r==KErrNone);
+ r=fs3.Connect();
+ test(r==KErrNone);
+ r=fs4.Connect();
+ test(r==KErrNone);
+
+ RDir dir1,dir2,dir3,dir4;
+ fn = _L("Z:\\TEST\\*.XDE");
+ fn[0] = gExeFileName[0];
+ r=dir1.Open(TheFs,fn,KEntryAttMaskSupported);
+ test(r==KErrNone);
+ r=dir2.Open(TheFs,fn,KEntryAttMaskSupported);
+ test(r==KErrNone);
+ r=dir3.Open(TheFs,fn,KEntryAttMaskSupported);
+ test(r==KErrNone);
+ r=dir4.Open(TheFs,fn,KEntryAttMaskSupported);
+ test(r==KErrNone);
+
+ RFile file1,file2,file3;
+ fn = _L("Z:\\TEST\\T_FSRV.CPP");
+ fn[0] = gExeFileName[0];
+ r=file1.Open(fs2,fn,EFileRead|EFileShareReadersOnly);
+ test(r==KErrNone);
+ fn = _L("Z:\\TEST\\T_FILE.CPP");
+ fn[0] = gExeFileName[0];
+ r=file2.Open(fs2,fn,EFileRead);
+ test(r==KErrNone);
+ fn = _L("Z:\\TEST\\T_FSRV.CPP");
+ fn[0] = gExeFileName[0];
+ r=file3.Open(fs2,fn,EFileRead|EFileShareReadersOnly);
+ test(r==KErrNone);
+
+ RDir dir5,dir6,dir7,dir8;
+ fn = _L("Z:\\TEST\\*.XDE");
+ fn[0] = gExeFileName[0];
+ r=dir5.Open(fs4,fn,KEntryAttMaskSupported);
+ test(r==KErrNone);
+ r=dir6.Open(fs4,fn,KEntryAttMaskSupported);
+ test(r==KErrNone);
+ r=dir7.Open(fs4,fn,KEntryAttMaskSupported);
+ test(r==KErrNone);
+ r=dir8.Open(fs4,fn,KEntryAttMaskSupported);
+ test(r==KErrNone);
+
+ CFileList* list;
+ TOpenFileScan fileScan(TheFs);
+ fileScan.NextL(list);
+
+ if (gRunByBatch)
+ {
+ test(list!=NULL);
+ test(list->Count()==1);
+ TEntry entry=(*list)[0];
+ test(entry.iName.FindF(_L(".BAT"))>=0);
+ delete list;
+ fileScan.NextL(list);
+ }
+
+ test(list!=NULL);
+ TInt count=list->Count();
+ test(count==3);
+ TEntry entry=(*list)[0];
+ test(entry.iName.FindF(_L("T_FSRV.CPP"))>=0);
+ entry=(*list)[1];
+ test(entry.iName.FindF(_L("T_FILE.CPP"))>=0);
+ entry=(*list)[2];
+ test(entry.iName.FindF(_L("T_FSRV.CPP"))>=0);
+ TThreadId threadId=fileScan.ThreadId();
+ RThread current;
+ TThreadId currentId=current.Id();
+ test(threadId==currentId);
+ delete list;
+
+ fileScan.NextL(list);
+ test(list==NULL);
+
+ file1.Close();
+ file2.Close();
+ file3.Close();
+ dir1.Close(); dir2.Close();
+ dir3.Close(); dir4.Close();
+ dir5.Close(); dir6.Close();
+ dir7.Close(); dir8.Close();
+ fs1.Close(); fs2.Close();
+ fs3.Close(); fs4.Close();
+ }
+
+LOCAL_C void Test5()
+//
+// Test OpenFileScan
+//
+ {
+
+ test.Next(_L("Scan for open files - mixed RDirs and RFiles"));
+
+ RFile file1,file2,file3;
+ TFileName fn;
+ fn = _L("Z:\\TEST\\T_FSRV.CPP");
+ fn[0] = gExeFileName[0];
+ TInt r=file1.Open(TheFs,fn,EFileRead|EFileShareReadersOnly);
+ test(r==KErrNone);
+ fn = _L("Z:\\TEST\\T_FILE.CPP");
+ fn[0] = gExeFileName[0];
+ r=file2.Open(TheFs,fn,EFileRead);
+ test(r==KErrNone);
+ fn = _L("Z:\\TEST\\T_FSRV.CPP");
+ fn[0] = gExeFileName[0];
+ r=file3.Open(TheFs,fn,EFileRead|EFileShareReadersOnly);
+ test(r==KErrNone);
+
+ RDir dir1,dir2,dir3,dir4;
+ fn = _L("Z:\\TEST\\*.XDE");
+ fn[0] = gExeFileName[0];
+ r=dir1.Open(TheFs,fn,KEntryAttMaskSupported);
+ test(r==KErrNone);
+ r=dir2.Open(TheFs,fn,KEntryAttMaskSupported);
+ test(r==KErrNone);
+ r=dir3.Open(TheFs,fn,KEntryAttMaskSupported);
+ test(r==KErrNone);
+ r=dir4.Open(TheFs,fn,KEntryAttMaskSupported);
+ test(r==KErrNone);
+
+ CFileList* list;
+ TOpenFileScan fileScan(TheFs);
+ fileScan.NextL(list);
+
+ if (gRunByBatch)
+ {
+ test(list!=NULL);
+ test(list->Count()==1);
+ TEntry entry=(*list)[0];
+ test(entry.iName.FindF(_L(".BAT"))>=0);
+ delete list;
+ fileScan.NextL(list);
+ }
+
+ test(list!=NULL);
+ TInt count=list->Count();
+ test(count==3);
+ TEntry entry=(*list)[0];
+ test(entry.iName.FindF(_L("T_FSRV.CPP"))>=0);
+ entry=(*list)[1];
+ test(entry.iName.FindF(_L("T_FILE.CPP"))>=0);
+ entry=(*list)[2];
+ test(entry.iName.FindF(_L("T_FSRV.CPP"))>=0);
+ TThreadId threadId=fileScan.ThreadId();
+ RThread current;
+ TThreadId currentId=current.Id();
+ test(threadId==currentId);
+ delete list;
+
+ fileScan.NextL(list);
+ test(list==NULL);
+
+ file1.Close();
+ file2.Close();
+ file3.Close();
+ dir1.Close();
+ dir2.Close();
+ dir3.Close();
+ dir4.Close();
+ }
+
+
+
+LOCAL_C void MultipleSessions(TInt aDrive, RTest& aTest)
+//
+// Create an array of fileserver sessions
+// Create an array of TMultipleSessionTest objects
+//
+
+ {
+#if defined(UNICODE)
+ const TInt maxNumberSessions=10;
+#else
+ const TInt maxNumberSessions=20;
+#endif
+
+ RFs session[maxNumberSessions];
+ TMultipleSessionTest testObject[maxNumberSessions];
+ TInt i=0;
+ TInt r;
+
+ for (; i<maxNumberSessions; i++)
+ {
+ r=session[i].Connect();
+ test(r==KErrNone);
+ testObject[i].Initialise(session[i]);
+ testObject[i].SetSessionPath(aDrive);
+ testObject[i].RunTests(aTest); // Run the set of tests for each session
+ } // Leave each session open
+
+
+ for (i=0; i<(maxNumberSessions-1); i++)
+ {
+ // Alternate tests between open sessions
+ testObject[i].testSetVolume(aTest);
+ testObject[i+1].testInitialisation(aTest);
+ testObject[i].testSubst(aTest);
+ testObject[i+1].testInitialisation(aTest);
+ testObject[i].testInitialisation(aTest);
+ testObject[i].testDriveList(aTest);
+ testObject[i].MakeAndDeleteFiles(aTest);
+ // Close session[i] and check that session[i+1] is OK
+ session[i].Close();
+ testObject[i+1].testInitialisation(aTest);
+ testObject[i+1].testSetVolume(aTest);
+ testObject[i+1].testInitialisation(aTest);
+ testObject[i+1].testSubst(aTest);
+ testObject[i+1].testDriveList(aTest);
+ // Reconnect session[i]
+ r=session[i].Connect();
+ test(r==KErrNone);
+ testObject[i].Initialise(session[i]);
+ testObject[i].SetSessionPath(aDrive);
+ testObject[i].testSetVolume(aTest);
+ testObject[i+1].testInitialisation(aTest);
+ testObject[i].testSubst(aTest);
+ testObject[i+1].testInitialisation(aTest);
+ testObject[i].testInitialisation(aTest);
+ testObject[i].testDriveList(aTest);
+ // Close session[i+1] and check that session[i] is OK
+ session[i+1].Close();
+ testObject[i].testInitialisation(aTest);
+ testObject[i].testSetVolume(aTest);
+ testObject[i].testInitialisation(aTest);
+ testObject[i].testSubst(aTest);
+ testObject[i].testDriveList(aTest);
+ // Reconnect session[i+1]
+ r=session[i+1].Connect();
+ test(r==KErrNone);
+ testObject[i+1].Initialise(session[i+1]);
+ testObject[i+1].SetSessionPath(aDrive);
+ testObject[i].testSetVolume(aTest);
+ testObject[i+1].testInitialisation(aTest);
+ testObject[i].testSubst(aTest);
+ testObject[i+1].testInitialisation(aTest);
+ // Close session[i] and check that session[i+1] is OK
+ session[i].Close();
+ testObject[i+1].testInitialisation(aTest);
+ testObject[i+1].testSetVolume(aTest);
+ testObject[i+1].testInitialisation(aTest);
+ testObject[i+1].testSubst(aTest);
+ testObject[i+1].testDriveList(aTest);
+
+ if (i==maxNumberSessions-1) // Tidy up by closing remaining open session
+ {
+ session[i+1].Close();
+ }
+ }
+ }
+
+GLDEF_C void CallTestsDefaultL(TInt aDrive)
+//
+// Call tests that may leave
+//
+ {
+ Test0(test);
+ Test1();
+ Test2();
+ Test3();
+ Test4();
+ Test5();
+ MultipleSessions(aDrive,test);
+ }
+
+GLDEF_C void CallTestsXL(TInt aDrive)
+//
+// Call tests for drive X
+//
+ {
+ Test0(testx);
+
+ RFile file1;
+ TFileName fn;
+ fn = _L("Z:\\TEST\\T_FSRV.CPP");
+ fn[0] = gExeFileName[0];
+ TInt r=file1.Open(TheFs,fn,EFileRead|EFileShareReadersOnly);
+ testx(r==KErrNone);
+ file1.Close();
+ MultipleSessions(aDrive,testx);
+ }
+
+GLDEF_C void CallTestsYL(TInt aDrive)
+//
+// Call tests for drive Y
+//
+ {
+ Test0(testy);
+
+ RFile file1;
+ TFileName fn;
+ fn = _L("Z:\\TEST\\T_FSRV.CPP");
+ fn[0] = gExeFileName[0];
+ TInt r=file1.Open(TheFs,fn,EFileRead|EFileShareReadersOnly);
+ testy(r==KErrNone);
+ file1.Close();
+ MultipleSessions(aDrive,testy);
+ }
+
+GLDEF_C void CallTestsQL(TInt aDrive)
+//
+// Call tests for remote drive
+//
+ {
+
+ Test0(testq);
+
+ testq.Printf(_L("This may take some time. Please be patient...\n"));
+
+ testq.Next(_L("Test remote drive with multiple sessions"));
+ MultipleSessions(aDrive,testq);
+
+ const TInt numberOfTests=10;
+
+ TPtrC record[numberOfTests];
+
+ TInt i=0;
+ for (;i<numberOfTests;i++)
+ {
+ if (i%2)
+ record[i].Set(_L("Hubble_Bubble"));
+ else
+ record[i].Set(_L("Toil_and_Trouble"));
+ }
+
+ testq.Next(_L("Create a file 'TEXTFILE.TXT' on the remote drive"));
+ RFile f;
+ TInt r=f.Replace(TheFs,_L("TEXTFILE.TXT"),0);
+ testq(r==KErrNone);
+ TFileText textFile;
+ textFile.Set(f);
+
+ testq.Next(_L("Write to 'TEXTFILE.TXT'"));
+
+ for (i=0;i<numberOfTests;i++)
+ {
+ r=textFile.Write(record[i]);
+ testq(r==KErrNone);
+ testq.Printf(_L("Write %d completed OK\n"),i+1);
+ }
+
+ f.Close();
+
+ RFile file1;
+ r=file1.Open(TheFs,_L("Q:\\TEST\\T_FSRV.CPP"),EFileRead|EFileShareReadersOnly);
+ testq(r==KErrNone);
+ file1.Close();
+
+ }