--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/kerneltest/e32test/rm_debug/t_rmdebug2.cpp Thu Dec 17 09:24:54 2009 +0200
@@ -0,0 +1,4431 @@
+// Copyright (c) 2006-2009 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:
+// Tests the functionality of the run mode debug device driver.
+//
+//
+
+#include <e32base.h>
+#include <e32base_private.h>
+#include <e32cons.h>
+#include <e32test.h>
+#include <e32ldr.h>
+#include <e32cmn.h>
+#include <e32cmn_private.h>
+#include <f32dbg.h>
+#include <f32file.h>
+#include <hal.h>
+#include <u32hal.h>
+#include <e32property.h>
+
+#include "t_rmdebug_dll.h"
+
+#include <rm_debug_api.h>
+#include "d_rmdebugthread2.h"
+#include "t_rmdebug2.h"
+#include "t_rmdebug_app.h"
+
+#ifdef __MARM_ARMV4__
+#include "d_rmdebug_step_test_armv4.h"
+#endif
+
+#ifdef __MARM_ARMV5__
+#include "d_rmdebug_step_test.h"
+#endif
+
+#include "d_demand_paging.h"
+
+#ifdef KERNEL_OOM_TESTING
+ #ifdef USER_OOM_TESTING
+ #error "Cannot define both KERNEL_OOM_TESTING and USER_OOM_TESTING"
+ #endif
+#endif
+
+_LIT8(KCrashDummyData, "This is a sample write");
+
+using namespace Debug;
+
+const TVersion securityServerVersion(0,1,1);
+
+const TVersion testVersion(2,1,0);
+
+IMPORT_C TInt StartDebugThread(RThread& aServerThread, const TDesC& aDebugThreadName);
+IMPORT_D extern TInt TestData;
+IMPORT_D extern TTestFunction FunctionChooser;
+IMPORT_D extern TBuf8<SYMBIAN_RMDBG_MEMORYSIZE> gMemoryAccessBytes;
+IMPORT_C TInt TestFunction();
+IMPORT_C void TestPagedCode();
+IMPORT_C extern TInt RMDebugDemandPagingTest();
+
+// Device driver name
+_LIT(KDebugDriverFileName,"rm_debug.ldd");
+
+#ifdef SYMBIAN_STANDARDDEBUG
+LOCAL_D RTest test(_L("T_RMDEBUG2"));
+#endif
+
+#ifdef SYMBIAN_OEMDEBUG
+LOCAL_D RTest test(_L("T_RMDEBUG2_OEM"));
+#endif
+
+#ifdef SYMBIAN_OEM2DEBUG
+LOCAL_D RTest test(_L("T_RMDEBUG2_OEM2"));
+#endif
+
+CRunModeAgent::CRunModeAgent()
+//
+// CRunModeAgent constructor
+//
+ {
+ FillArray();
+ RProcess thisProcess;
+ iFileName = thisProcess.FileName();
+ thisProcess.Close();
+ }
+
+CRunModeAgent* CRunModeAgent::NewL()
+//
+// CRunModeAgent::NewL
+//
+ {
+ CRunModeAgent* self = new(ELeave) CRunModeAgent();
+
+ self->ConstructL();
+
+ return self;
+ }
+
+CRunModeAgent::~CRunModeAgent()
+//
+// CRunModeAgent destructor
+//
+ {
+ User::FreeLogicalDevice(KDebugDriverFileName);
+ iServSession.Close();
+ iDebugThread.Close();
+ }
+
+void CRunModeAgent::ConstructL()
+//
+// CRunModeAgent::ConstructL
+//
+ {
+ // nothing to do here
+ }
+
+void CRunModeAgent::SetupAndAttachToDSS()
+//
+// CRunModeAgent::SetupAndAttachToDSS
+//
+ {
+ TInt err = StartDebugThread(iDebugThread, KDebugThreadName);
+
+ // get the thread id for use in the tests
+ iThreadID = iDebugThread.Id();
+
+ if (err != KErrNone)
+ {
+ User::Panic(_L("Can't start debug thread"), err);
+ }
+
+ err = iServSession.Connect(securityServerVersion);
+ if (err != KErrNone)
+ {
+ User::Panic(_L("Can't open server session"), err);
+ }
+ }
+
+CRunModeAgent *RunModeAgent;
+
+// helper function to check whether the listing of type aListId is supported for a scope of aListScope
+TBool CRunModeAgent::ListingSupported(const TListId aListId, const TListScope aListScope)
+ {
+ TTag tag = GetTag(ETagHeaderList, aListId);
+
+ return (tag.iValue) & aListScope;
+ }
+
+//---------------------------------------------
+//! @SYMTestCaseID KBase-T-RMDEBUG2-0426
+//! @SYMTestType
+//! @SYMPREQ PREQ1426
+//! @SYMTestCaseDesc Test getting the list of XIP libraries
+//! @SYMTestActions The XIP library list should be successfully obtained
+//! @SYMTestExpectedResults The specified ldd file should be present in the obtained listing
+//! @SYMTestPriority High
+//! @SYMTestStatus Implemented
+//---------------------------------------------
+void CRunModeAgent::TestGetXipLibrariesList()
+ {
+ test.Next(_L("TestGetXipLibrariesList\n"));
+
+ test(ListingSupported(EXipLibraries, EScopeGlobal));
+ test(!ListingSupported(EXipLibraries, EScopeProcessSpecific));
+ test(!ListingSupported(EXipLibraries, EScopeThreadSpecific));
+
+ //allocate a very small buffer so the GetList call initially fails
+ RBuf8 buffer;
+ test(KErrNone == buffer.Create(1));
+ TUint32 size = 0;
+
+ //get the list data
+ DoGetList(EXipLibraries, EScopeGlobal, buffer, size);
+
+ //search the buffer for entry corresponding to the debug kernel driver
+ //which should be in the rom
+ _LIT(KRmDebugLddName, "z:\\sys\\bin\\rm_debug.ldd");
+
+ //iterate through the buffer and set found to ETrue if we find the driver
+ TBool found = EFalse;
+ TUint8* ptr = (TUint8*)buffer.Ptr();
+ const TUint8* ptrEnd = ptr + size;
+ while(ptr < ptrEnd)
+ {
+ TXipLibraryListEntry& xipLibrary = *(TXipLibraryListEntry*)ptr;
+
+ //get the name of the library
+ TPtr name(&xipLibrary.iName[0], xipLibrary.iNameLength, xipLibrary.iNameLength);
+ if(name.CompareF(KRmDebugLddName()) == 0)
+ {
+ //found the library but continue reading the rest of the buffer to
+ //check nothing bad happens towards the end
+ found = ETrue;
+ }
+ //move pointer on to next library
+ ptr += Align4(xipLibrary.GetSize());
+ }
+ test(found);
+
+ //do cleanup
+ buffer.Close();
+ }
+
+//---------------------------------------------
+//! @SYMTestCaseID KBase-T-RMDEBUG2-0427
+//! @SYMTestType
+//! @SYMPREQ PREQ1426
+//! @SYMTestCaseDesc Test getting the list of executables
+//! @SYMTestActions The list of debuggable executable files should be obtained
+//! @SYMTestExpectedResults The client exe should appear in the list
+//! @SYMTestPriority High
+//! @SYMTestStatus Implemented
+//---------------------------------------------
+void CRunModeAgent::TestGetExecutablesList()
+ {
+ test.Next(_L("TestGetExecutablesList\n"));
+
+ test(ListingSupported(EExecutables, EScopeGlobal));
+ test(!ListingSupported(EExecutables, EScopeProcessSpecific));
+ test(!ListingSupported(EExecutables, EScopeThreadSpecific));
+
+ //allocate a very small buffer so the GetList call initially fails
+ RBuf8 buffer;
+ test(KErrNone == buffer.Create(1));
+ TUint32 size = 0;
+
+ test(KErrNone == iServSession.AttachExecutable(iFileName, EFalse));
+
+ //get the list data
+ DoGetList(EExecutables, EScopeGlobal, buffer, size);
+
+ //get this process' name
+ RProcess thisProcess;
+ TFileName thisProcessName = thisProcess.FileName();
+
+ //look through the buffer and check if the target debug thread is there
+ TBool found = EFalse;
+ TUint8* ptr = (TUint8*)buffer.Ptr();
+ const TUint8* ptrEnd = ptr + size;
+ while(ptr < ptrEnd)
+ {
+ TExecutablesListEntry& entry = *(TExecutablesListEntry*)ptr;
+ //get name
+ TPtr name(&entry.iName[0], entry.iNameLength, entry.iNameLength);
+ if( (entry.iIsActivelyDebugged != 0) && (0 == thisProcessName.CompareF(name)) )
+ {
+ //found this process and asserted it is being actively debugged
+ found = ETrue;
+ }
+ //move pointer on to next entry
+ ptr += Align4(entry.GetSize());
+ }
+ test(found);
+
+ //clean up
+ buffer.Close();
+
+ test(KErrNone == iServSession.DetachExecutable(iFileName));
+ }
+
+//---------------------------------------------
+//! @SYMTestCaseID KBase-T-RMDEBUG2-0428
+//! @SYMTestType
+//! @SYMPREQ PREQ1426
+//! @SYMTestCaseDesc Test error conditions for the GetList calls
+//! @SYMTestActions Multiple calls to test calling GetList with bad arguments
+//! @SYMTestExpectedResults All tests should fail with the appropriate error codes
+//! @SYMTestPriority High
+//! @SYMTestStatus Implemented
+//---------------------------------------------
+void CRunModeAgent::TestGetListInvalidData()
+ {
+ test.Next(_L("TestGetListInvalidData\n"));
+
+ //allocate a buffer, the size should not matter as expecting all calls to fail
+ RBuf8 buffer;
+ test(KErrNone == buffer.Create(1));
+ TUint32 size = 0;
+
+ //test what happens if we ask for an unsupported list type globally
+ test(KErrNotSupported == iServSession.GetList((TListId)1234, buffer, size));
+
+ //test what happens if we ask for an unsupported list type
+ test(KErrNotSupported == iServSession.GetList(RThread().Id(), (TListId)1234, buffer, size));
+
+ //test what happens if we try to get a non-global libraries list
+ test(KErrArgument == iServSession.GetList(RThread().Id(), EXipLibraries, buffer, size));
+
+ //test what happens if we try to get a non-global executables list
+ test(KErrArgument == iServSession.GetList(RThread().Id(), EExecutables, buffer, size));
+
+ //test what happens if we try to get a non-global process list
+ test(KErrArgument == iServSession.GetList(RThread().Id(), EProcesses, buffer, size));
+
+ //check that using a process id fails
+ test(KErrArgument == iServSession.GetList(RProcess().Id(), EProcesses, buffer, size));
+
+ //check that specifying a non-existant thread id fails
+ test(KErrArgument == iServSession.GetList((TThreadId)0x12345678, EThreads, buffer, size));
+
+ //check that specifying a non-existant process id fails
+ test(KErrArgument == iServSession.GetList((TProcessId)0x12345678, EThreads, buffer, size));
+
+ //check that specifying a non-existant thread id fails
+ test(KErrArgument == iServSession.GetList((TThreadId)0x12345678, ECodeSegs, buffer, size));
+
+ //check that specifying a non-existant process id fails
+ test(KErrArgument == iServSession.GetList((TProcessId)0x12345678, ECodeSegs, buffer, size));
+
+ //cleanup
+ buffer.Close();
+ }
+
+//---------------------------------------------
+//! @SYMTestCaseID KBase-T-RMDEBUG2-0429
+//! @SYMTestType
+//! @SYMPREQ PREQ1426
+//! @SYMTestCaseDesc Test getting the process list
+//! @SYMTestActions Get the process listing
+//! @SYMTestExpectedResults The process listing should be successfully obtained and the current process should be present in the list
+//! @SYMTestPriority High
+//! @SYMTestStatus Implemented
+//---------------------------------------------
+void CRunModeAgent::TestGetProcessList()
+ {
+ test.Next(_L("TestGetProcessList\n"));
+
+ test(ListingSupported(EProcesses, EScopeGlobal));
+ test(!ListingSupported(EProcesses, EScopeProcessSpecific));
+ test(!ListingSupported(EProcesses, EScopeThreadSpecific));
+
+ //allocate a very small buffer so the GetList call fails
+ RBuf8 buffer;
+ test(KErrNone == buffer.Create(1));
+ TUint32 size = 0;
+
+ //get the list data
+ DoGetList(EProcesses, EScopeGlobal, buffer, size);
+
+ //initialise data about the target debug thread to compare the kernel's data against
+ RProcess thisProcess;
+ TFileName thisProcessName = thisProcess.FileName();
+ TUint32 processId = thisProcess.Id().Id();
+
+ //look through the buffer and check if the target debug thread is there
+ TBool found = EFalse;
+ TUint8* ptr = (TUint8*)buffer.Ptr();
+ const TUint8* ptrEnd = ptr + size;
+ while(ptr < ptrEnd)
+ {
+ TProcessListEntry& entry = *(TProcessListEntry*)ptr;
+ if( (RProcess().Id().Id() == entry.iProcessId) &&
+ (0 == thisProcessName.CompareF(TPtr(&(entry.iNames[0]), entry.iFileNameLength, entry.iFileNameLength))) &&
+ (0 == thisProcess.FullName().CompareF(TPtr(&(entry.iNames[0]) + entry.iFileNameLength, entry.iDynamicNameLength, entry.iDynamicNameLength))) &&
+ 0x4321bbbb /* Magic */ == entry.iUid3)
+ {
+ //if all match then we've found it
+ found = ETrue;
+ }
+ ptr += Align4(entry.GetSize());
+ }
+
+ //check whether the expected result happened
+ test(found);
+
+ //clean up
+ buffer.Close();
+ }
+
+//---------------------------------------------
+//! @SYMTestCaseID KBase-T-RMDEBUG2-0430
+//! @SYMTestType
+//! @SYMPREQ PREQ1426
+//! @SYMTestCaseDesc Test getting the thread list
+//! @SYMTestActions Get the thread listing globally and for a specified thread or process
+//! @SYMTestExpectedResults The thread listings should all be successfully obtained and the current thread should be present in all listings
+//! @SYMTestPriority High
+//! @SYMTestStatus Implemented
+//---------------------------------------------
+void CRunModeAgent::TestGetThreadList()
+ {
+ test.Next(_L("TestGetThreadList\n"));
+
+ test(ListingSupported(EThreads, EScopeGlobal));
+ test(ListingSupported(EThreads, EScopeProcessSpecific));
+ test(ListingSupported(EThreads, EScopeThreadSpecific));
+
+ test(KErrNone == iServSession.AttachExecutable(iFileName, EFalse));
+ test(KErrNone == iServSession.SuspendThread(iThreadID));
+
+ //test getting the global list, ETrue as should find the target debug thread
+ DoTestGetThreadList(ETrue, EScopeGlobal);
+
+ //test getting this thread's thread list, ETrue as should find the target debug thread
+ DoTestGetThreadList(ETrue, EScopeThreadSpecific, RThread().Id().Id());
+
+ //test getting this process's thread list, ETrue as should find the target debug thread
+ DoTestGetThreadList(ETrue, EScopeProcessSpecific, RProcess().Id().Id());
+
+ test(KErrNone == iServSession.ResumeThread(iThreadID));
+ test(KErrNone == iServSession.DetachExecutable(iFileName));
+ }
+
+void CRunModeAgent::DoTestGetThreadList(const TBool aShouldPass, const TListScope aListScope, const TUint64 aTargetId)
+ {
+ test.Next(_L("DoTestGetThreadList\n"));
+
+ //create data to pass
+ RBuf8 buffer;
+ TUint32 size = 0;
+
+ //perform the call to get the Code segs
+ DoGetList(EThreads, aListScope, buffer, size, aTargetId);
+
+ //initialise data about the target debug thread to compare the kernel's data against
+ TFileName name = iDebugThread.FullName();
+ RProcess thisProcess;
+ TUint64 processId = thisProcess.Id();
+ TUint64 threadId = iDebugThread.Id();
+
+ //look through the buffer and check if the target debug thread is there
+ TBool found = EFalse;
+ TUint8* ptr = (TUint8*)buffer.Ptr();
+ const TUint8* ptrEnd = ptr + size;
+ while(ptr < ptrEnd)
+ {
+ TThreadListEntry* entry = (TThreadListEntry*)ptr;
+ TPtr entryName(&(entry->iName[0]), entry->iNameLength, entry->iNameLength);
+ if( (threadId == entry->iThreadId) && (processId == entry->iProcessId) && (0 == name.CompareF(entryName)) )
+ {
+ test(entry->iSupervisorStackBaseValid);
+ test(entry->iSupervisorStackSizeValid);
+ //if all match then we've found it
+ found = ETrue;
+ }
+
+ ptr += Align4(entry->GetSize());
+ }
+
+ //check whether the expected result happened
+ test(found == aShouldPass);
+
+ //clean up
+ buffer.Close();
+
+ }
+
+//---------------------------------------------
+//! @SYMTestCaseID KBase-T-RMDEBUG2-0431
+//! @SYMTestType
+//! @SYMPREQ PREQ1426
+//! @SYMTestCaseDesc Test getting the code segment list
+//! @SYMTestActions Get the code segment list global and for a specified thread
+//! @SYMTestExpectedResults The listings should be returned successfully
+//! @SYMTestPriority High
+//! @SYMTestStatus Implemented
+//---------------------------------------------
+void CRunModeAgent::TestGetCodeSegsList()
+ {
+ test.Next(_L("TestGetCodeSegsList\n"));
+
+ test(ListingSupported(ECodeSegs, EScopeGlobal));
+ test(ListingSupported(ECodeSegs, EScopeProcessSpecific));
+ test(ListingSupported(ECodeSegs, EScopeThreadSpecific));
+
+ // Cannot perform this test with OEM2 debug token, as the t_rmdebug2 app
+ // needs AllFiles, and the OEM2 debug token does not authorise this.
+ // It seems reasonable to suppose that it would work anyway
+
+#ifndef SYMBIAN_OEM2DEBUG
+ test(KErrNone == iServSession.AttachExecutable(iFileName, EFalse));
+
+ //test getting the global list, ETrue as should find this process' main codeSeg
+ DoTestGetCodeSegsList(ETrue, EScopeGlobal);
+
+ //test getting this process' codeSegs, ETrue as should find this process' main codeSeg
+ DoTestGetCodeSegsList(ETrue, EScopeProcessSpecific, RProcess().Id().Id());
+
+ //test getting this thread's codeSegs, ETrue as should find this process' main codeSeg
+ DoTestGetCodeSegsList(ETrue, EScopeThreadSpecific, RThread().Id().Id());
+
+ test(KErrNone == iServSession.DetachExecutable(iFileName));
+#endif // SYMBIAN_OEM2DEBUG
+
+ }
+
+void CRunModeAgent::DoTestGetCodeSegsList(const TBool aShouldPass, const TListScope aListScope, const TUint64 aTargetId)
+ {
+ //create data to pass
+ RBuf8 buffer;
+ TUint32 size = 0;
+
+ //perform the call to get the Code segs
+ DoGetList(ECodeSegs, aListScope, buffer, size, aTargetId);
+
+ //create memoryInfo to contain info about this process
+ RProcess thisProcess;
+ TModuleMemoryInfo memoryInfo;
+ test(KErrNone == thisProcess.GetMemoryInfo(memoryInfo));
+
+ // check whether this process came from a file in ROM so we know whether to
+ // expect the code seg to be XIP or not.
+ RFs fs;
+ test(KErrNone == fs.Connect());
+ TBool thisFileIsInRom = EFalse;
+ if(fs.IsFileInRom(iFileName))
+ {
+ thisFileIsInRom = ETrue;
+ }
+
+ //look through the buffer to find this process' main code seg
+ TBool found = EFalse;
+ TUint8* ptr = (TUint8*)buffer.Ptr();
+ const TUint8* ptrEnd = ptr + size;
+ while(ptr < ptrEnd)
+ {
+ TCodeSegListEntry* codeSeg = (TCodeSegListEntry*)ptr;
+
+ if( (codeSeg->iIsXip == thisFileIsInRom) && (0 == iFileName.CompareF(TPtr(&(codeSeg->iName[0]), codeSeg->iNameLength, codeSeg->iNameLength))) )
+ {
+ if( (memoryInfo.iCodeBase == codeSeg->iCodeBase) &&
+ (memoryInfo.iCodeSize == codeSeg->iCodeSize) &&
+ (memoryInfo.iConstDataSize == codeSeg->iConstDataSize) &&
+ (memoryInfo.iInitialisedDataBase == codeSeg->iInitialisedDataBase) &&
+ (memoryInfo.iInitialisedDataSize == codeSeg->iInitialisedDataSize) &&
+ (memoryInfo.iUninitialisedDataSize == codeSeg->iUninitialisedDataSize))
+ {
+ //all matched so means we've found the codeSeg we're looking for
+ found = ETrue;
+ }
+ }
+ ptr += Align4(codeSeg->GetSize());
+ }
+
+ //check whether the result was as expected
+ test(found == aShouldPass);
+
+ // only care about rm_debug.ldd if we have global scope (belongs to the system not this process)
+ if (aListScope == EScopeGlobal)
+ {
+ // Search for rm_debug.ldd library and check its UID3 is correct
+ found = EFalse;
+
+_LIT(KRMDebugDriverFileName,"Z:\\sys\bin\\rm_debug.ldd");
+
+ TFileName rmdebugFilename(KRMDebugDriverFileName);
+
+ // reset the Ptr
+ ptr = (TUint8*)buffer.Ptr();
+ ptrEnd = ptr+size;
+ while(ptr < ptrEnd)
+ {
+ TCodeSegListEntry* codeSeg = (TCodeSegListEntry*)ptr;
+
+ if( rmdebugFilename.CompareF(TPtr(&(codeSeg->iName[0]), codeSeg->iNameLength, codeSeg->iNameLength)))
+ {
+ if(codeSeg->iUid3 == 0x101f7157 /* Magic */)
+ {
+ //all matched so means we've found the codeSeg we're looking for
+ found = ETrue;
+ }
+ }
+ ptr += Align4(codeSeg->GetSize());
+ }
+ test((TUint32)found == (TUint32)ETrue);
+ }
+
+ //clean up
+ buffer.Close();
+
+ }
+
+void CRunModeAgent::DoGetList(const TListId aListId, const TListScope aListScope, RBuf8& aBuffer, TUint32& aSize, const TUint64 aTargetId)
+ {
+ //close the buffer in case there's stuff allocated in it
+ aBuffer.Close();
+ //initialise it to be one byte big, which will guarantee data won't fit in it
+ test(KErrNone == aBuffer.Create(1));
+ aSize = 0;
+
+ //should pass this test (assuming we've passed in sensible arguments above...)
+ if(EScopeGlobal == aListScope)
+ {
+ test(KErrTooBig == iServSession.GetList(aListId, aBuffer, aSize));
+ }
+ else if(EScopeThreadSpecific == aListScope)
+ {
+ test(KErrTooBig == iServSession.GetList((TThreadId)aTargetId, aListId, aBuffer, aSize));
+ }
+ else if(EScopeProcessSpecific == aListScope)
+ {
+ test(KErrTooBig == iServSession.GetList((TProcessId)aTargetId, aListId, aBuffer, aSize));
+ }
+ else
+ {
+ // unknown list scope
+ test(0);
+ }
+
+ //keep allocating larger buffers, beginning with the aSize returned by the above call,
+ //and hopefully we'll eventually make a large enough one
+ test(KErrNone == aBuffer.ReAlloc(aSize));
+
+ for(;;)
+ {
+ TInt err = KErrNone;
+ if(EScopeGlobal == aListScope)
+ {
+ err = iServSession.GetList(aListId, aBuffer, aSize);
+ }
+ else if(EScopeThreadSpecific == aListScope)
+ {
+ err = iServSession.GetList((TThreadId)aTargetId, aListId, aBuffer, aSize);
+ }
+ else if(EScopeProcessSpecific == aListScope)
+ {
+ err = iServSession.GetList((TProcessId)aTargetId, aListId, aBuffer, aSize);
+ }
+ else
+ {
+ // unknown list scope
+ test(0);
+ }
+ if(err == KErrTooBig)
+ {
+ //wasn't big enough so double it
+ aSize = aSize << 1;
+ err = aBuffer.ReAlloc(aSize);
+ if(err != KErrNone)
+ {
+ //print out a message if couldn't allocate memory and quit
+ test.Printf(_L("Out ot memory when attempting to allocate %d bytes."), aSize);
+ test(KErrNone == err);
+ }
+
+ //fairly arbitrary test, we don't have a max size for these calls.
+ //In reality a list would have to have many thousands of elements
+ //to break this test which shouldn't really happen
+ test(aSize <= 0x4000);
+ }
+ else
+ {
+ test(KErrNone == err);
+ test(aBuffer.Length() == aSize);
+ //break out of the loop if the list has been successfully read in
+ break;
+ }
+ }
+ }
+
+//---------------------------------------------
+//! @SYMTestCaseID KBase-T-RMDEBUG2-0432
+//! @SYMTestType
+//! @SYMPREQ PREQ1426
+//! @SYMTestCaseDesc Test reading and writing memory
+//! @SYMTestActions Multiple calls to read and write memory, with various sizes and at various locations.
+//! Also test that bad input values cause appropriate errors to be returned.
+//! @SYMTestExpectedResults All tests should pass and the target process should be left unaffected
+//! @SYMTestPriority High
+//! @SYMTestStatus Implemented
+//---------------------------------------------
+void CRunModeAgent::TestMemoryAccess()
+{
+ TInt err;
+
+ test.Next(_L("TestMemoryAccess - Read Memory\n"));
+
+ //initialise buffer
+ gMemoryAccessBytes.SetLength(0);
+ for (TInt i=0; i<SYMBIAN_RMDBG_MEMORYSIZE; i++)
+ {
+ gMemoryAccessBytes.Append(i);
+ }
+
+ TUint32 address = (TUint32)(&gMemoryAccessBytes[0]);
+ TUint32 dataSize = SYMBIAN_RMDBG_MEMORYSIZE;
+
+ //create size for buffer that is rounded up to nearest 4 bytes if not
+ //already 4 byte aligned
+ TUint32 size = dataSize;
+ if(size % 4 != 0)
+ {
+ size += (4 - (size % 4));
+ }
+
+ RBuf8 dataBlock;
+ err = dataBlock.Create(size);
+ test(err==KErrNone);
+ test(KErrNone == iServSession.AttachExecutable(iFileName, EFalse));
+
+ //suspend the thread prior to memory operations
+ test(KErrNone == iServSession.SuspendThread(iThreadID));
+
+ err = iServSession.ReadMemory(iThreadID, address, size, dataBlock, EAccess32, EEndLE8);
+ test(err==KErrNone);
+
+ for (TInt i=0; i<dataSize; i++)
+ {
+ test(dataBlock.Ptr()[i] == gMemoryAccessBytes[i]);
+ }
+
+ test.Next(_L("TestMemoryAccess - Write Memory\n"));
+
+ // Now reset the buffer
+ for (TInt i=0; i<dataSize; i++)
+ {
+ gMemoryAccessBytes[i] = 0;
+ }
+
+ // Write our data into the buffer
+ err = iServSession.WriteMemory(iThreadID, address, size, dataBlock, EAccess32, EEndLE8);
+ test(err==KErrNone);
+
+ for (TInt i=0; i<dataSize; i++)
+ {
+ test(dataBlock.Ptr()[i] == gMemoryAccessBytes[i]);
+ }
+
+ //final test that everything's not been going wrong
+ test(gMemoryAccessBytes[5] != 0);
+
+ test.Next(_L("TestMemoryAccess - Invalid arguments\n"));
+ test.Printf(_L("This test may emit crash-like information. This is intended.\n"));
+
+ //test address that is not 32 bit aligned
+ err = iServSession.ReadMemory(iThreadID, address + 1, size, dataBlock, EAccess32, EEndLE8);
+ test(err == KErrArgument);
+
+ //test size that is not multiple of 4 bytes
+ err = iServSession.WriteMemory(iThreadID, address, size + 2, dataBlock, EAccess32, EEndLE8);
+ test(err == KErrArgument);
+
+ //test size > max block size
+ err = iServSession.ReadMemory(iThreadID, address, (1<<15), dataBlock, EAccess32, EEndLE8);
+ test(err == KErrArgument);
+
+ //test access size == 2 bytes
+ err = iServSession.ReadMemory(iThreadID, address, size, dataBlock, EAccess16, EEndLE8);
+ test(err == KErrNotSupported);
+
+ //test access size == 1 byte
+ err = iServSession.WriteMemory(iThreadID, address, size, dataBlock, EAccess8, EEndLE8);
+ test(err == KErrNotSupported);
+
+ //test endianess == EEndBE8
+ err = iServSession.ReadMemory(iThreadID, address, size, dataBlock, EAccess32, EEndBE8);
+ test(err == KErrNotSupported);
+
+ //test endianess == EEndBE32
+ err = iServSession.WriteMemory(iThreadID, address, size, dataBlock, EAccess32, EEndBE32);
+ test(err == KErrNotSupported);
+
+ //test reading off end of memory
+ err = iServSession.ReadMemory(iThreadID, 0xffffff00, 0x00000101, dataBlock, EAccess32, EEndLE8);
+ test(err == KErrArgument);
+
+ //The following three tests check that edge conditions in the range check are handled correctly.
+ err = iServSession.ReadMemory(iThreadID, 0xffffff00, 0x000000FF, dataBlock, EAccess32, EEndLE8);
+ test(err == KErrArgument);
+
+ err = iServSession.ReadMemory(iThreadID, 0xffffff00, 0x000000F0, dataBlock, EAccess32, EEndLE8);
+ test(err == KErrBadDescriptor);
+
+ //Third range check test. Check that range check is handled correctly even when base + size wraps to 0.
+ err = iServSession.ReadMemory(iThreadID, 0xffffff00, 0x00000100, dataBlock, EAccess32, EEndLE8);
+ test(err == KErrBadDescriptor);
+ //end of range check tests
+
+ //test size == 0
+ err = iServSession.WriteMemory(iThreadID, address, 0, dataBlock, EAccess32, EEndLE8);
+ test(err == KErrArgument);
+
+ //attempt to write to address outside of process data segments,
+ //this address corresponds to the vectors so shouldn't be able to write
+ err = iServSession.WriteMemory(iThreadID, 0xffff0000, size, dataBlock, EAccess32, EEndLE8);
+ test(err == KErrBadDescriptor);
+
+ //attempt to read and write to address in process code segment
+
+ //open a handle to the thread
+ RThread debugThread;
+ test(debugThread.Open(iThreadID) == KErrNone);
+
+ //get a reference to the debug process
+ RProcess debugProcess;
+ test(debugThread.Process(debugProcess) == KErrNone);
+
+ //get the memory info for the process
+ TProcessMemoryInfo info;
+ test(debugProcess.GetMemoryInfo(info) == KErrNone);
+
+ address = info.iCodeBase;
+ if(size <= info.iCodeSize)
+ {
+ test(KErrNone == iServSession.ReadMemory(iThreadID, address, size, dataBlock, EAccess32, EEndLE8));
+ test(KErrBadDescriptor == iServSession.WriteMemory(iThreadID, address, size, dataBlock, EAccess32, EEndLE8));
+ }
+
+ // Some performance tests now
+ TUint32 bytesRead = 0;
+
+ // Allocate a data buffer
+ TUint32* p = (TUint32*)User::Alloc(size);
+ test(p != 0);
+
+ TInt nanokernel_tick_period;
+ HAL::Get(HAL::ENanoTickPeriod, nanokernel_tick_period);
+ test (nanokernel_tick_period != 0);
+
+ static const TInt KOneMillion = 1000000;
+
+ TInt nkTicksPerSecond = KOneMillion/nanokernel_tick_period;
+
+ TUint32 stopTickCount = User::NTickCount() + nkTicksPerSecond;
+
+ while (User::NTickCount() < stopTickCount)
+ {
+ err = iServSession.ReadMemory(iThreadID, (TUint32)p, size, dataBlock, EAccess32, EEndLE8);
+ test(err==KErrNone);
+
+ // Increase the count of bytes read
+ bytesRead += size;
+ }
+
+ test(bytesRead != 0);
+ iMemoryReadKbytesPerSecond = bytesRead/1024;
+
+ // write memory test
+ TUint32 bytesWritten = 0;
+
+ stopTickCount = User::NTickCount() + nkTicksPerSecond;
+
+ while (User::NTickCount() < stopTickCount)
+ {
+ err = iServSession.WriteMemory(iThreadID, (TUint32)p, size, dataBlock, EAccess32, EEndLE8);
+ test(err==KErrNone);
+
+ // Increase the count of bytes read
+ bytesWritten += size;
+ }
+
+ test (bytesWritten != 0);
+ iMemoryWriteKbytesPerSecond = bytesWritten/1024;
+
+ User::Free(p);
+
+ //resume the thread
+ test(KErrNone == iServSession.ResumeThread(iThreadID));
+
+ debugThread.Close();
+ dataBlock.Close();
+
+ test(KErrNone == iServSession.DetachExecutable(iFileName));
+ }
+
+//---------------------------------------------
+//! @SYMTestCaseID KBase-T-RMDEBUG2-0433
+//! @SYMTestType
+//! @SYMPREQ PREQ1426
+//! @SYMTestCaseDesc Test suspending and resuming threads
+//! @SYMTestActions Multiple calls to suspend and resume threads with and without attaching to the thread
+//! @SYMTestExpectedResults All tests should pass and the target process should be left unaffected
+//! @SYMTestPriority High
+//! @SYMTestStatus Implemented
+//---------------------------------------------
+void CRunModeAgent::TestSuspendResume()
+ {
+ TInt err;
+
+ test.Next(_L("TestSuspendResume - Suspend\n"));
+
+ test(KErrNone == iServSession.AttachExecutable(iFileName, EFalse));
+ // Suspend the thread
+ err = iServSession.SuspendThread(iThreadID);
+ test(err==KErrNone);
+ TInt localtestdata;
+ localtestdata = TestData;
+
+ // Wait 3 seconds (suspends this thread) and hopefully resumes the
+ // thread we are controlling via the iServSession.SuspendThread request
+ User::After(3000000);
+
+ // Now check data hasnt changed
+ test(localtestdata==TestData);
+
+ // Resume the thread
+ test.Next(_L("TestSuspendResume - Resume\n"));
+ err = iServSession.ResumeThread(iThreadID);
+ test(err==KErrNone);
+
+ test(KErrNone == iServSession.DetachExecutable(iFileName));
+
+ // Wait 3 seconds (suspends this thread) and hopefully resumes the
+ // thread we are controlling via the iServSession.SuspendThread request
+ User::After(3000000);
+
+ // Now check that the thread being controlled has resumed and is
+ // updating the variable
+ test(localtestdata!=TestData);
+
+ // check that agent can resume thread which it previously detached from
+ test(KErrNone == iServSession.AttachExecutable(iFileName, EFalse));
+ test(KErrNone == iServSession.SuspendThread(iThreadID));
+ test(KErrNone == iServSession.DetachExecutable(iFileName));
+ test(KErrNone == iServSession.AttachExecutable(iFileName, EFalse));
+ test(KErrNone == iServSession.ResumeThread(iThreadID));
+ test(KErrNone == iServSession.DetachExecutable(iFileName));
+
+ // check that agent cannot suspend thread which it previously suspended and then detached from
+ test(KErrNone == iServSession.AttachExecutable(iFileName, EFalse));
+ test(KErrNone == iServSession.SuspendThread(iThreadID));
+ test(KErrNone == iServSession.DetachExecutable(iFileName));
+ test(KErrNone == iServSession.AttachExecutable(iFileName, EFalse));
+ test(KErrAlreadyExists == iServSession.SuspendThread(iThreadID));
+ test(KErrNone == iServSession.ResumeThread(iThreadID));
+ test(KErrNone == iServSession.DetachExecutable(iFileName));
+ }
+
+//---------------------------------------------
+//! @SYMTestCaseID KBase-T-RMDEBUG2-0434
+//! @SYMTestType
+//! @SYMPREQ PREQ1426
+//! @SYMTestCaseDesc Test getting the debug functionality from the driver
+//! @SYMTestActions Get the size and contents of the debug functionality block
+//! @SYMTestExpectedResults All tests should pass and the expected data should appear in the functionality block
+//! @SYMTestPriority High
+//! @SYMTestStatus Implemented
+//---------------------------------------------
+void CRunModeAgent::TestDebugFunctionality()
+ {
+
+ TInt err;
+
+ test.Next(_L("TestDebugFunctionality - GetDebugFunctionalityBufSize\n"));
+
+ TUint32 bufsize = 0; // Safe default size
+
+ // Get functionality block size
+ err = iServSession.GetDebugFunctionalityBufSize(&bufsize);
+ test(err==KErrNone);
+ test.Next(_L("TestDebugFunctionality - GetDebugFunctionality\n"));
+
+ // Ensure we have a finite buffer size
+ test(bufsize!=0);
+
+ // Allocate space for the functionality data
+ HBufC8* dftext = HBufC8::NewLC(bufsize);
+
+ // create an empty TPtr8 refering to dftext
+ TPtr8 dftextPtr(dftext->Des());
+
+ // Get the functionality block
+ err = iServSession.GetDebugFunctionality(dftextPtr);
+ test(err==KErrNone);
+
+ // Check that the first entry is correct
+ TTagHeader RefHdr =
+ {
+ ETagHeaderIdCore,ECoreLast,
+ };
+
+ // First header passed from rm_debug.ldd
+ TTagHeader* TestHdr = (TTagHeader*)dftextPtr.Ptr();
+
+ // Check
+ test(RefHdr.iTagHdrId==TestHdr->iTagHdrId);
+ // this test might fail if the agent is used with a Debug Security Server different from
+ // the one it was compiled against. So removing it for now.
+ //test(RefHdr.iNumTags==TestHdr->iNumTags);
+
+ // read a value from the data to check it has come through as expected
+ TTagHeader* header = GetTagHdr(dftext->Des(), ETagHeaderIdApiConstants);
+ test(header != NULL);
+ TTag* tag = GetTag(header, EApiConstantsTEventInfoSize);
+ test(tag != NULL);
+ // this test might fail if the agent is used with a Debug Security Server different from
+ // the one it was compiled against. So removing it for now.
+ //test(sizeof(TEventInfo) == tag->iValue);
+
+ // Remove our temporary buffer
+ CleanupStack::PopAndDestroy(dftext);
+ }
+
+//---------------------------------------------
+//! @SYMTestCaseID KBase-T-RMDEBUG2-0435
+//! @SYMTestType
+//! @SYMPREQ PREQ1426
+//! @SYMTestCaseDesc Test setting and clearing consecutive breakpoints
+//! @SYMTestActions Set and clear consecutive breakpoints of all combinations of breakpoint types
+//! @SYMTestExpectedResults All breakpoints should be set and cleared without error
+//! @SYMTestPriority High
+//! @SYMTestStatus Implemented
+//---------------------------------------------
+void CRunModeAgent::TestConsecutiveBreakPoints()
+ {
+ test.Next(_L("TestConsecutiveBreakPoints\n"));
+
+ test(KErrNone == iServSession.SuspendThread(iThreadID));
+
+ // just a temporary structure for storing info about a breakpoint
+ struct TBreakPoint
+ {
+ public:
+ TBreakPoint()
+ :iId(0),
+ iMode((TArchitectureMode)0),
+ iAddress(0)
+ {}
+ TBreakId iId;
+ TArchitectureMode iMode;
+ TUint32 iAddress;
+ inline TInt Size() { return (EArmMode == iMode) ? 4 : 2; }
+ };
+
+ //an address in the target debug thread
+ TUint32 address = (TUint32)(&TestFunction);
+
+ // there are six orders in which three breakpoints can be set, these are looped
+ // through below to check setting and clearing consecutive breakpoints works
+ TUint8 order[6][3] =
+ {
+ {0,1,2},
+ {0,2,1},
+ {1,0,2},
+ {1,2,0},
+ {2,0,1},
+ {2,1,0}
+ };
+
+ // The following code checks that setting and clearing consecutive breakpoints works correctly:
+ // It checks that setting all combinations of three arm and thumb breakpoints succeeds, and check that the
+ // breakpoints can be set in any order, and then cleared in any order
+
+ // the 3 least significant bits of i control whether each of the three breakpoints should be arm or thumb
+ for(TInt i=0; i<8; i++)
+ {
+ // controls the order in which the breakpoints should be set
+ for(TInt j=0; j<6; j++)
+ {
+ // create the three breakpoints and set their modes
+ TBreakPoint bp[3];
+ bp[0].iMode = (i&1) ? EArmMode : EThumbMode;
+ bp[1].iMode = (i&2) ? EArmMode : EThumbMode;
+ bp[2].iMode = (i&4) ? EArmMode : EThumbMode;
+
+ // set the address of each of the breakpoints
+ bp[0].iAddress = address;
+ if(EArmMode == bp[0].iMode)
+ { // if an arm breakpoint then must be on a four byte boundary
+ bp[0].iAddress = Align4(bp[0].iAddress);
+ }
+ bp[1].iAddress = bp[0].iAddress + bp[0].Size();
+ if(EArmMode == bp[1].iMode)
+ { // if an arm breakpoint then must be on a four byte boundary
+ bp[1].iAddress = Align4(bp[1].iAddress);
+ }
+ bp[2].iAddress = bp[1].iAddress + bp[1].Size();
+ if(EArmMode == bp[2].iMode)
+ { // if an arm breakpoint then must be on a four byte boundary
+ bp[2].iAddress = Align4(bp[2].iAddress);
+ }
+ for(TInt k=0; k<6; k++)
+ {
+ // set the three breakpoints in the order defined by j and then clear them in the order defined by k
+ test(KErrNone==iServSession.SetBreak(bp[order[j][0]].iId, iThreadID, bp[order[j][0]].iAddress, bp[order[j][0]].iMode));
+ test(KErrNone==iServSession.SetBreak(bp[order[j][1]].iId, iThreadID, bp[order[j][1]].iAddress, bp[order[j][1]].iMode));
+ test(KErrNone==iServSession.SetBreak(bp[order[j][2]].iId, iThreadID, bp[order[j][2]].iAddress, bp[order[j][2]].iMode));
+ test(KErrNone==iServSession.ClearBreak(bp[order[k][0]].iId));
+ test(KErrNone==iServSession.ClearBreak(bp[order[k][1]].iId));
+ test(KErrNone==iServSession.ClearBreak(bp[order[k][2]].iId));
+ }
+ }
+ }
+
+ // resume the thread
+ test(KErrNone == iServSession.ResumeThread(iThreadID));
+ }
+
+//---------------------------------------------
+//! @SYMTestCaseID KBase-T-RMDEBUG2-0436
+//! @SYMTestType
+//! @SYMPREQ PREQ1426
+//! @SYMTestCaseDesc Test breakpoint functionality
+//! @SYMTestActions Multiple calls to set and clear breakpoints. Checking bad input produces appropriate errors.
+//! @SYMTestExpectedResults All tests should pass and the target debug thread should be left unaffected
+//! @SYMTestPriority High
+//! @SYMTestStatus Implemented
+//---------------------------------------------
+void CRunModeAgent::TestBreakPoints()
+ {
+ TInt err;
+
+ test.Next(_L("TestBreakPoints - Set\n"));
+
+ test(KErrNone == iServSession.AttachExecutable(iFileName, EFalse));
+
+ TestConsecutiveBreakPoints();
+
+ //an address in the target debug thread
+ TUint32 address = (TUint32)(&TestFunction);
+
+ /*
+ * Ensure that breakpoint operations don't
+ * affect memory read/write by checking that reads/writes
+ * in locations containing breakpoints don't change behaviour
+ * because of the breakpoints.
+ */
+
+ TUint32 size = SYMBIAN_RMDBG_MEMORYSIZE;
+
+ RBuf8 originalDataBlock;
+ err = originalDataBlock.Create(size);
+ test(err==KErrNone);
+
+ //suspend the thread
+ test(KErrNone == iServSession.SuspendThread(iThreadID));
+
+ err = iServSession.ReadMemory(iThreadID, address, size, originalDataBlock, EAccess32, EEndLE8);
+ test(err==KErrNone);
+
+ // Test data block for comparison
+ RBuf8 testDataBlock;
+ err = testDataBlock.Create(size);
+ test(err==KErrNone);
+
+ /*
+ * set an arm breakpoint
+ */
+ TBreakId armBreakId = 0;
+ err = iServSession.SetBreak(armBreakId, iThreadID, address, EArmMode);
+ test(err == KErrNone);
+
+ // Ensure that memory read is not corrupted
+ err = iServSession.ReadMemory(iThreadID, address, size, testDataBlock, EAccess32, EEndLE8);
+ test(err==KErrNone);
+
+ test (testDataBlock == originalDataBlock);
+
+ /*
+ * set a thumb breakpoint
+ */
+ TBreakId thumbBreakId = 0;
+ err = iServSession.SetBreak(thumbBreakId, iThreadID, address+4, EThumbMode);
+ test(err == KErrNone);
+
+ /*
+ * set a thumb2EE breakpoint
+ */
+ TBreakId thumb2EEBreakId = 0;
+ err = iServSession.SetBreak(thumb2EEBreakId, iThreadID, address+8, EThumb2EEMode);
+ test(err == KErrNotSupported);
+
+ /*
+ * overlapping breakpoint (same address/threadId/mode)
+ */
+ TBreakId overlapBreakId = 0;
+ err = iServSession.SetBreak(overlapBreakId, iThreadID, address, EArmMode);
+ test(err == KErrAlreadyExists);
+
+ /*
+ * overlapping breakpoint (different address/same threadId/different mode)
+ *
+ * address - EArmBreakpoint
+ * address+2 - EThumbBreakpoint
+ */
+ TBreakId overlap2BreakId = 0;
+ err = iServSession.SetBreak(overlap2BreakId, iThreadID, address+2, EThumbMode);
+ test(err == KErrAlreadyExists);
+
+ /*
+ * Un-aligned address (arm)
+ */
+ TBreakId armUnalignedBreakId = 0;
+ err = iServSession.SetBreak(armUnalignedBreakId, iThreadID, address+6, EArmMode);
+ test(err == KErrArgument);
+
+ /*
+ * Un-aligned address (thumb)
+ */
+ TBreakId thumbUnalignedBreakId = 0;
+ err = iServSession.SetBreak(thumbUnalignedBreakId, iThreadID, address+7, EThumbMode);
+ test(err == KErrArgument);
+
+ /*
+ * Invalid address (arm)
+ */
+ TBreakId armBadAddressBreakId = 0;
+ err = iServSession.SetBreak(armBadAddressBreakId, iThreadID, 0 /* address */, EThumbMode);
+ test(err == KErrBadDescriptor);
+
+ /*
+ * Different thread, same address. Should fail for the same process, but succeed
+ * for a different process.
+ */
+
+ /*
+ * Invalid thread
+ */
+ TBreakId invalidThreadBreakId = 0;
+ err = iServSession.SetBreak(invalidThreadBreakId, 0xbabababa, address, EThumbMode);
+ test(err == KErrPermissionDenied);
+
+ // Clear the ARM breakpoint
+ err = iServSession.ClearBreak(armBreakId);
+ test(err == KErrNone);
+
+ // Clear the Thumb breakpoint
+ err = iServSession.ClearBreak(thumbBreakId);
+ test(err == KErrNone);
+
+ // to do : two threads at the same address
+ // to do : two processes at the same address
+
+ // Ensure that memory read is not corrupted after clearing the breakpoints
+ err = iServSession.ReadMemory(iThreadID, address, size, testDataBlock, EAccess32, EEndLE8);
+ test(err==KErrNone);
+
+ test (testDataBlock == originalDataBlock);
+
+ /*
+ * How fast can we set breakpoints?
+ *
+ * Measure the time by setting/clearing breakpoints for 1 second.
+ */
+ TInt nanokernel_tick_period;
+ HAL::Get(HAL::ENanoTickPeriod, nanokernel_tick_period);
+ test (nanokernel_tick_period != 0);
+
+ TInt nkTicksPerSecond = HelpTicksPerSecond();
+
+ TInt breaksPerSecond = 0;
+
+ TUint32 stopTickCount = User::NTickCount() + nkTicksPerSecond;
+
+ while (User::NTickCount() < stopTickCount)
+ {
+ // set the breakpoint
+ TBreakId armBreakId = 0;
+ err = iServSession.SetBreak(armBreakId, iThreadID, address, EArmMode);
+ test(err == KErrNone);
+
+ // Clear the breakpoint
+ err = iServSession.ClearBreak(armBreakId);
+ test(err == KErrNone);
+
+ // Update the count of breakpoints
+ breaksPerSecond++;
+
+ // Gone wrong if we wrap to negative breakpoints (cannot set 2billion/second!)
+ test(breaksPerSecond >0);
+ }
+
+ // Store the results for later
+ iBreakpointsPerSecond = breaksPerSecond;
+
+ /*
+ * How many breakpoints can we set?
+ */
+
+ TBool done = EFalse;
+
+ // We assume all the breakpoints id's are issued in ascending order
+ TInt maxBreakPoints = 0;
+
+ // Temporary buffer
+ RArray<TBreakId> breakIdList;
+
+ TUint32 testAddress = address;
+
+ while(!done)
+ {
+ TBreakId breakId = 0;
+
+ // set the breakpoint
+ testAddress += 4; // ensure the addresses don't overlap
+
+ err = iServSession.SetBreak(breakId, iThreadID, testAddress, EArmMode);
+ test (err == KErrNone || err == KErrOverflow);
+ if (err != KErrNone)
+ {
+ // we've reached the limit of the number of breaks we can set
+ done = ETrue;
+ break;
+ }
+
+ // store the id of this breakpoint
+ breakIdList.Append(breakId);
+
+ // Increase the count of breakpoints
+ maxBreakPoints++;
+ test(maxBreakPoints > 0);
+ }
+
+ // How many breakpoints can we set?
+ iMaxBreakpoints = maxBreakPoints;
+
+ // now clear all those breakpoints again
+ while(breakIdList.Count() != 0)
+ {
+ // Place it into a TBreakId
+ TBreakId id = breakIdList[0];
+
+ err = iServSession.ClearBreak(id);
+ test(err == KErrNone);
+
+ // next id
+ breakIdList.Remove(0);
+ }
+
+ breakIdList.Close();
+
+ // close our temporary buffers
+ originalDataBlock.Close();
+ testDataBlock.Close();
+
+ err = iServSession.ResumeThread(iThreadID);
+ test (err == KErrNone);
+
+ test(KErrNone == iServSession.DetachExecutable(iFileName));
+ }
+
+//---------------------------------------------
+//! @SYMTestCaseID KBase-T-RMDEBUG2-0437
+//! @SYMTestType
+//! @SYMPREQ PREQ1426
+//! @SYMTestCaseDesc Test modifying breakpoints
+//! @SYMTestActions Several calls to modify breakpoints
+//! @SYMTestExpectedResults Valid requests should result in the breakpoints being changed, invalid requests should return errors
+//! @SYMTestPriority High
+//! @SYMTestStatus Implemented
+//---------------------------------------------
+void CRunModeAgent::TestModifyBreak()
+ {
+ test.Next(_L("TestModifyBreak\n"));
+
+ DoTestModifyBreak(ETrue);
+ DoTestModifyBreak(EFalse);
+ }
+
+void CRunModeAgent::DoTestModifyBreak(TBool aThreadSpecific)
+ {
+ test.Printf(_L("DoTestModifyBreak: aThreadSpecific: %d\n"), aThreadSpecific?1:0);
+
+ TInt err;
+
+ RProcess process;
+ TProcessId processId = process.Id();
+ process.Close();
+
+ test(KErrNone == iServSession.AttachExecutable(iFileName, EFalse));
+
+ //suspend the thread
+ test(KErrNone == iServSession.SuspendThread(iThreadID));
+
+ //an address in the target debug thread
+ TUint32 address = (TUint32)(&TestFunction);
+
+ //set an arm mode break point
+ TBreakId armBreakId = 0;
+ err = aThreadSpecific
+ ? iServSession.SetBreak(armBreakId, iThreadID, address, EArmMode)
+ : iServSession.SetProcessBreak(armBreakId, processId, address, EArmMode);
+ test(err == KErrNone);
+
+ /*
+ * Invalid thread
+ */
+ err = aThreadSpecific
+ ? iServSession.ModifyBreak(armBreakId, 0xbabababa, address, EArmMode)
+ : iServSession.ModifyProcessBreak(armBreakId, 0xbabababa, address, EArmMode);
+ test(err == KErrPermissionDenied);
+
+ /*
+ * Valid address
+ */
+ err = aThreadSpecific
+ ? iServSession.ModifyBreak(armBreakId, iThreadID, address+4, EArmMode)
+ : iServSession.ModifyProcessBreak(armBreakId, processId, address+4, EArmMode);
+ test(err == KErrNone);
+
+ /*
+ * Invalid address
+ */
+ err = aThreadSpecific
+ ? iServSession.ModifyBreak(armBreakId, iThreadID, 0, EArmMode)
+ : iServSession.ModifyProcessBreak(armBreakId, processId, 0, EArmMode);
+ test(err == KErrBadDescriptor);
+
+ /*
+ * Thumb mode
+ */
+ err = aThreadSpecific
+ ? iServSession.ModifyBreak(armBreakId, iThreadID, address, EThumbMode)
+ : iServSession.ModifyProcessBreak(armBreakId, processId, address, EThumbMode);
+ test(err == KErrNone);
+
+ /*
+ * Thumb2EE mode
+ */
+ err = aThreadSpecific
+ ? iServSession.ModifyBreak(armBreakId, iThreadID, address, EThumb2EEMode)
+ : iServSession.ModifyProcessBreak(armBreakId, processId, address, EThumb2EEMode);
+ test(err == KErrNotSupported);
+
+ /*
+ * Arm mode
+ */
+ err = aThreadSpecific
+ ? iServSession.ModifyBreak(armBreakId, iThreadID, address, EArmMode)
+ : iServSession.ModifyProcessBreak(armBreakId, processId, address, EArmMode);
+ test(err == KErrNone);
+
+ // Finally, clear the breakpoint
+ err = iServSession.ClearBreak(armBreakId);
+ test(err == KErrNone);
+
+ //resume the thread
+ test(KErrNone == iServSession.ResumeThread(iThreadID));
+ test(KErrNone == iServSession.DetachExecutable(iFileName));
+ }
+
+//---------------------------------------------
+//! @SYMTestCaseID KBase-T-RMDEBUG2-0438
+//! @SYMTestType
+//! @SYMPREQ PREQ1426
+//! @SYMTestCaseDesc Test extracting information about breakpoints
+//! @SYMTestActions Several calls to get information about breakpoints
+//! @SYMTestExpectedResults All tests should pass and the target process should be left unaffected
+//! @SYMTestPriority High
+//! @SYMTestStatus Implemented
+//---------------------------------------------
+void CRunModeAgent::TestBreakInfo()
+ {
+ test.Next(_L("TestBreakInfo\n"));
+
+ DoTestBreakInfo(ETrue);
+ DoTestBreakInfo(EFalse);
+ }
+
+void CRunModeAgent::DoTestBreakInfo(TBool aThreadSpecific)
+ {
+ test.Printf(_L("DoTestModifyBreak: aThreadSpecific: %d\n"), aThreadSpecific?1:0);
+
+ TInt err;
+
+ RProcess process;
+ TProcessId processId = process.Id();
+ process.Close();
+
+ //an address in the target debug thread
+ TUint32 address = (TUint32)(&TestFunction);
+
+ test(KErrNone == iServSession.AttachExecutable(iFileName, EFalse));
+
+ //suspend thread
+ test(KErrNone == iServSession.SuspendThread(iThreadID));
+
+ //set an arm mode break point
+ TBreakId armBreakId = 0;
+ err = aThreadSpecific
+ ? iServSession.SetBreak(armBreakId, iThreadID, address, EArmMode)
+ : iServSession.SetProcessBreak(armBreakId, processId, address, EArmMode);
+ test(err == KErrNone);
+
+ // Read back the information and check it is correct
+ TThreadId testThreadId = TThreadId(0);
+ TProcessId testProcessId = TProcessId(0);
+ TUint32 testAddress = 0;
+ TArchitectureMode testMode = EArmMode;
+
+ err = aThreadSpecific
+ ? iServSession.BreakInfo(armBreakId,testThreadId,testAddress, testMode)
+ : iServSession.ProcessBreakInfo(armBreakId, testProcessId, testAddress, testMode);
+ test (err == KErrNone);
+ test (aThreadSpecific ? (testThreadId == iThreadID) : (testProcessId == processId));
+ test (testAddress == address);
+ test (testMode == EArmMode);
+
+ //change the address
+ TUint32 changeAddress = address + 64;
+ err = aThreadSpecific
+ ? iServSession.ModifyBreak(armBreakId, iThreadID, changeAddress,EArmMode)
+ : iServSession.ModifyProcessBreak(armBreakId, processId, changeAddress, EArmMode);
+ test(err == KErrNone);
+
+ // Check the address has changed
+ err = aThreadSpecific
+ ? iServSession.BreakInfo(armBreakId,testThreadId,testAddress, testMode)
+ : iServSession.ProcessBreakInfo(armBreakId, testProcessId, testAddress, testMode);
+ test (err == KErrNone);
+ test (testAddress == changeAddress);
+
+ // change the architecture type
+ TArchitectureMode checkMode = EThumbMode;
+ err = aThreadSpecific
+ ? iServSession.ModifyBreak(armBreakId, iThreadID, address,checkMode)
+ : iServSession.ModifyProcessBreak(armBreakId, processId, address, checkMode);
+ test (err == KErrNone);
+
+ // Check the mode has changed
+ err = aThreadSpecific
+ ? iServSession.BreakInfo(armBreakId,testThreadId,testAddress,testMode)
+ : iServSession.ProcessBreakInfo(armBreakId, testProcessId, testAddress, testMode);
+ test (err == KErrNone);
+ test (testMode == checkMode);
+
+ // clear the breakpoint again
+ err = iServSession.ClearBreak(armBreakId);
+ test (err == KErrNone);
+
+ //resume thread
+ test(KErrNone == iServSession.ResumeThread(iThreadID));
+ test(KErrNone == iServSession.DetachExecutable(iFileName));
+ }
+
+// Needed for the RunToBreak test
+IMPORT_C extern void RMDebug_BranchTst1();
+IMPORT_C extern void RMDebug_BranchTst2();
+
+//---------------------------------------------
+//! @SYMTestCaseID KBase-T-RMDEBUG2-0439
+//! @SYMTestType
+//! @SYMPREQ PREQ1426
+//! @SYMTestCaseDesc Test hitting various types of breakpoints
+//! @SYMTestActions Several calls to register to observe breakpoints and to hit breakpoints of different types
+//! @SYMTestExpectedResults All tests should pass and the target process should be left unaffected
+//! @SYMTestPriority High
+//! @SYMTestStatus Implemented
+//---------------------------------------------
+void CRunModeAgent::TestRunToBreak()
+ {
+ test.Next(_L("TestRunToBreak\n"));
+
+ DoTestRunToBreak(ETrue);
+ DoTestRunToBreak(EFalse);
+ }
+
+void CRunModeAgent::DoTestRunToBreak(TBool aThreadSpecific)
+ {
+ test.Printf(_L("DoTestRunToBreak: aThreadSpecific: %d\n"), aThreadSpecific?1:0);
+
+ TInt err = KErrNone;
+
+ RProcess process;
+ TProcessId processId = process.Id();
+ process.Close();
+
+ test(KErrNone == iServSession.AttachExecutable(iFileName, EFalse));
+ // we should suspend the thread first, then set the breakpoint
+ err = iServSession.SuspendThread(iThreadID);
+ test (err == KErrNone);
+
+ // Try to set the breakpoint
+ TBreakId armBreakId;
+ TUint32 address = (TUint32)(&RMDebug_BranchTst1);
+
+ err = aThreadSpecific
+ ? iServSession.SetBreak(armBreakId,iThreadID,address,EArmMode)
+ : iServSession.SetProcessBreak(armBreakId, processId, address, EArmMode);
+ test(err == KErrNone);
+
+ err = aThreadSpecific
+ ? iServSession.SetEventAction(iFileName,EEventsBreakPoint, EActionContinue)
+ : iServSession.SetEventAction(iFileName,EEventsProcessBreakPoint, EActionContinue);
+ test (err == KErrNone);
+
+ // Continue the thread
+ err = iServSession.ResumeThread(iThreadID);
+ test (err == KErrNone);
+
+ // wait for the breakpoint to be hit
+ TEventInfo info;
+ static TRequestStatus status;
+
+ TPtr8 infoPtr((TUint8*)&info,0,sizeof(TEventInfo));
+
+ iServSession.GetEvent(iFileName,status,infoPtr);
+
+ // Wait for notification of the breakpoint hit event
+ User::WaitForRequest(status);
+ test(status==KErrNone);
+
+ // info should now be filled with the details
+ test(info.iEventType == (aThreadSpecific ? EEventsBreakPoint : EEventsProcessBreakPoint));
+ test(info.iThreadBreakPointInfo.iRmdArmExcInfo.iR15 == address);
+ test(info.iProcessIdValid);
+ test(info.iThreadIdValid);
+
+ // Not interested in breakpoint events any more
+ err = aThreadSpecific
+ ? iServSession.SetEventAction(iFileName,EEventsBreakPoint, EActionIgnore)
+ : iServSession.SetEventAction(iFileName, EEventsProcessBreakPoint, EActionIgnore);
+ test (err == KErrNone);
+
+ // Clear the breakpoint again
+ err = iServSession.ClearBreak(armBreakId);
+ test(err == KErrNone);
+
+ // continue the thread again
+ err = iServSession.ResumeThread(iThreadID);
+ test (err == KErrNone);
+ test(KErrNone == iServSession.DetachExecutable(iFileName));
+ }
+
+//----------------------------------------------------------------------------------------------
+//! @SYMTestCaseID KBase-T-RMDEBUG2-0440
+//! @SYMTestType
+//! @SYMPREQ PREQ1426
+//! @SYMTestCaseDesc Test access to target user-side registers.
+//! @SYMTestActions Suspends a target thread, and reads/writes target thread register contents
+//!
+//! @SYMTestExpectedResults KErrNone. Should access target registers without problems.
+//! @SYMTestPriority High
+//! @SYMTestStatus Implemented
+//----------------------------------------------------------------------------------------------
+
+void CRunModeAgent::TestRegisterAccess()
+ {
+ TInt err;
+
+ test.Next(_L("TestRegisterAccess - Read\n"));
+
+ test(KErrNone == iServSession.AttachExecutable(iFileName, EFalse));
+
+ //suspend the thread to read registers
+ err = iServSession.SuspendThread(iThreadID);
+ test(err==KErrNone);
+
+ //we'll try to read/write registers ERegisterR0 - ERegisterCPSR and ERegisterR13_IRQ
+ //this way should get valid register values back, invalid ones and not supported ones, and it
+ //means that the register IDs are not completely contiguous
+
+ TInt firstRegister = 0;
+ TInt lastRegister = 17;
+ TInt numberOfRegisters = (lastRegister - firstRegister) + 1;
+
+ RBuf8 ids;
+ err = ids.Create(numberOfRegisters * sizeof(TRegisterInfo));
+ test(err == KErrNone);
+
+ for(TInt i=0; i<numberOfRegisters - 1; i++)
+ {
+ TRegisterInfo reg = (TRegisterInfo)((i + firstRegister)<<8);
+ ids.Append(reinterpret_cast<const TUint8*>(®), sizeof(TRegisterInfo));
+ }
+
+ TRegisterInfo reg = ERegisterR13Irq;
+ ids.Append(reinterpret_cast<const TUint8*>(®), sizeof(TRegisterInfo));
+
+ //create a buffer to store the register values in
+ RBuf8 originalValues;
+ err = originalValues.Create(numberOfRegisters*sizeof(TUint32));
+ test(err == KErrNone);
+
+ //create a buffer to store the register flags in
+ RBuf8 originalFlags;
+ err = originalFlags.Create(numberOfRegisters*sizeof(TUint8));
+ test(err == KErrNone);
+
+ //read register values
+ err = iServSession.ReadRegisters(iThreadID, ids, originalValues, originalFlags);
+ test(err == KErrNone);
+
+ //create a buffer containing data to write into the registers
+ RBuf8 tempValues;
+ err = tempValues.Create(numberOfRegisters*sizeof(TUint32));
+ test(err == KErrNone);
+
+ TUint cpsrId = 16;
+ for(TUint8 i=0; i<numberOfRegisters*sizeof(TUint32); i++)
+ {
+ if(i/sizeof(TUint32) == cpsrId)
+ {
+ //For the CPSR we wish to write data that makes sense - for USR mode we are
+ //allowed change all except the mode, ie. we must stay in usr mode. We try that here
+ //(allowedCPSRValue[4:0] = 10000) thus not changing the mode.
+ TUint32 allowedCPSRValue = 0x50000010;
+ tempValues.Append((TUint8*)&allowedCPSRValue, 4);
+ i += 3;
+ }
+ else
+ {
+ tempValues.Append(&i, 1);
+ }
+ }
+
+ test.Next(_L("TestRegisterAccess - Write\n"));
+
+ //create a buffer to store the register flags in
+ RBuf8 tempWriteFlags;
+ err = tempWriteFlags.Create(numberOfRegisters*sizeof(TUint8));
+ test(err == KErrNone);
+
+ //write the temp data into the registers
+ err = iServSession.WriteRegisters(iThreadID, ids, tempValues, tempWriteFlags);
+ test(err == KErrNone);
+
+ //create another buffer to store the register flags in
+ RBuf8 tempReadFlags;
+ err = tempReadFlags.Create(numberOfRegisters*sizeof(TUint8));
+ test(err == KErrNone);
+
+ RBuf8 tempReadValues;
+ err = tempReadValues.Create(numberOfRegisters*sizeof(TUint32));
+ test(err == KErrNone);
+
+ //read the temp data out again
+ err = iServSession.ReadRegisters(iThreadID, ids, tempReadValues, tempReadFlags);
+ test(err == KErrNone);
+
+ //check values are correct
+ for(TInt i=0; i<numberOfRegisters; i++)
+ {
+ TRegisterFlag writeFlag;
+ err = GetFlag(tempWriteFlags, i, writeFlag);
+ test(err == KErrNone);
+
+ TRegisterFlag readFlag;
+ err = GetFlag(tempReadFlags, i, readFlag);
+ test(err == KErrNone);
+
+ if((writeFlag == EValid) && (readFlag == EValid))
+ {
+ TUint8 offset = i * sizeof(TUint32);
+ for(TUint j = offset; j< offset + sizeof(TUint32); j++)
+ {
+ test(tempValues.Ptr()[j] == tempReadValues.Ptr()[j]);
+ }
+ }
+ }
+
+ //write the original data into the registers
+ err = iServSession.WriteRegisters(iThreadID, ids, originalValues, originalFlags);
+ test(err == KErrNone);
+
+ //read the data out again
+ err = iServSession.ReadRegisters(iThreadID, ids, tempValues, tempReadFlags);
+ test(err == KErrNone);
+
+ //check values are correct
+ for(TInt i=0; i<numberOfRegisters; i++)
+ {
+ TRegisterFlag writeFlag;
+ err = GetFlag(originalFlags, i, writeFlag);
+ test(err == KErrNone);
+
+ TRegisterFlag readFlag;
+ err = GetFlag(tempReadFlags, i, readFlag);
+ test(err == KErrNone);
+
+ if((writeFlag == EValid) && (readFlag == EValid))
+ {
+ TUint8 offset = i * sizeof(TUint32);
+ for(TUint j = offset; j< offset + sizeof(TUint32); j++)
+ {
+ test(tempValues.Ptr()[j] == originalValues.Ptr()[j]);
+ }
+ }
+ }
+
+ test.Next(_L("TestRegisterAccess - Invalid data\n"));
+
+ //create a buffer of max size 1
+ RBuf8 emptyBuffer;
+ emptyBuffer.Create(1);
+
+ //test register IDs buffer not being a multiple of sizeof(TRegisterInfo)
+ err = iServSession.ReadRegisters(iThreadID, emptyBuffer, tempValues, tempReadFlags);
+ test(err == KErrArgument);
+
+ //test register values buffer not being a multiple of sizeof(TUint32)
+ err = iServSession.ReadRegisters(iThreadID, ids, emptyBuffer, tempReadFlags);
+ test(err == KErrArgument);
+
+ //test flags buffer being representing different number of registers from other two
+ err = iServSession.ReadRegisters(iThreadID, ids, tempValues, emptyBuffer);
+ test(err == KErrArgument);
+
+ //set max length to 0
+ emptyBuffer.ReAlloc(0);
+
+ //test ids buffer being of 0 max length
+ err = iServSession.ReadRegisters(iThreadID, emptyBuffer, tempValues, tempReadFlags);
+ test(err == KErrArgument);
+
+ //do cleanup
+ emptyBuffer.Close();
+ tempValues.Close();
+ tempWriteFlags.Close();
+ tempReadFlags.Close();
+ tempReadValues.Close();
+
+ test.Next(_L("TestRegisterAccess - Setting PC value\n"));
+
+ //create buffer containing PC register ID
+ RBuf8 pcId;
+ err = pcId.Create(sizeof(TRegisterInfo));
+ test(err == KErrNone);
+ TRegisterInfo reg1 = (TRegisterInfo)0x00000f00;
+ pcId.Append(reinterpret_cast<const TUint8*>(®1), sizeof(TRegisterInfo));
+
+ //create buffer containing desired PC value
+ RBuf8 pcValue;
+ err = pcValue.Create(sizeof(TUint32));
+ test(err == KErrNone);
+ TUint32 address = (TUint32)(&TestFunction);
+ pcValue.Append(reinterpret_cast<const TUint8*>(&address), sizeof(TUint32));
+
+ //craete buffer for PC flag value
+ RBuf8 pcFlag;
+ err = pcFlag.Create(sizeof(TUint8));
+
+ //write the new PC value
+ err = iServSession.WriteRegisters(iThreadID, pcId, pcValue, pcFlag);
+ test(err==KErrNone);
+
+ //get the flag and check the PC value was written ok
+ TRegisterFlag flag = ENotSupported;
+ err = GetFlag(pcFlag, 0, flag);
+ test(err==KErrNone);
+
+ //if the PC value was successfully changed then resume the thread and
+ //the value of TestData will hopefully be changed to our specified
+ //value
+ if(flag == EValid)
+ {
+ err = iServSession.ResumeThread(iThreadID);
+ test(err==KErrNone);
+
+ User::After(500000);
+
+ err = iServSession.SuspendThread(iThreadID);
+ test(err==KErrNone);
+
+ test(TestData == 0xffeeddcc);
+ }
+
+ //Make sure we cannot change the CPSR
+ test.Next(_L("Verifying we cannot change the CPSR mode from USR Mode"));
+
+ TUint32 disallowedCpsr = 0x50000013;
+
+ RBuf8 cpsrRegId;
+ err = cpsrRegId.Create(sizeof(TUint32));
+ test(err == KErrNone);
+
+ TRegisterInfo cpsr = (TRegisterInfo)((cpsrId + firstRegister)<<8);
+ cpsrRegId.Append(reinterpret_cast<const TUint8*>(&cpsr), sizeof(TRegisterInfo));
+
+ RBuf8 cpsrRegFlags;
+ err = cpsrRegFlags.Create(sizeof(TUint8));
+ test(err == KErrNone);
+
+ RBuf8 cpsrVal;
+ err = cpsrVal.Create(sizeof(TUint32));
+ test(err == KErrNone);
+
+ cpsrVal.Append((TUint8*)&disallowedCpsr, 4);
+
+ //attempt to write disallowed CPSR in
+ err = iServSession.WriteRegisters(iThreadID, cpsrRegId, cpsrVal, cpsrRegFlags);
+ test(err == KErrNone);
+
+ RBuf8 cpsrReadVal;
+ err = cpsrReadVal.Create(sizeof(TUint32));
+ test(err == KErrNone);
+
+ //Read back the CPSR
+ err = iServSession.ReadRegisters(iThreadID, cpsrRegId, cpsrReadVal, cpsrRegFlags);
+ test(err == KErrNone);
+
+ //Make sure we havent switched modes ie. its not what we wrote
+ TUint32* readVal = (TUint32*)cpsrReadVal.Ptr();
+ test(*readVal != disallowedCpsr);
+
+ cpsrRegId.Close();
+ cpsrRegFlags.Close();
+ cpsrVal.Close();
+ cpsrReadVal.Close();
+
+ //write the original values back into here
+ err = iServSession.WriteRegisters(iThreadID, ids, originalValues, originalFlags);
+ test(err == KErrNone);
+
+ // Resume the thread
+ err = iServSession.ResumeThread(iThreadID);
+ test(err==KErrNone);
+
+ test(KErrNone == iServSession.DetachExecutable(iFileName));
+
+ //do cleanup
+ pcId.Close();
+ pcValue.Close();
+ pcFlag.Close();
+ ids.Close();
+ originalValues.Close();
+ originalFlags.Close();
+ }
+
+//----------------------------------------------------------------------------------------------
+//! @SYMTestCaseID KBase-T-RMDEBUG2-0441
+//! @SYMTestType
+//! @SYMPREQ PREQ1426
+//! @SYMTestCaseDesc Test registration/de-registration of debug interest in target exe with the Debug Security Server
+//! @SYMTestActions As per description
+//!
+//! @SYMTestExpectedResults KErrNone.
+//! @SYMTestPriority High
+//! @SYMTestStatus Implemented
+//----------------------------------------------------------------------------------------------
+
+void CRunModeAgent::TestAttachExecutable()
+ {
+
+ test.Next(_L("TestAttachExecutable - Attach\n"));
+
+ //attach to process passively
+ test(KErrNone == iServSession.AttachExecutable(iFileName, ETrue));
+
+ //make a thread id for a non-existent thread
+ TThreadId threadId(0x12345678);
+
+ //get a handle to the target thread
+ RThread targetThread;
+ TInt err = targetThread.Open(threadId);
+ test(err != KErrNone);
+
+ //not registered for this thread's process (as it doesn't exist)
+ //so should fail security check
+ err = iServSession.ResumeThread(threadId);
+ test(err==KErrPermissionDenied);
+
+ //try to attach to the same process (and fail)
+ test(KErrAlreadyExists == iServSession.AttachExecutable(iFileName, EFalse));
+
+ test.Next(_L("TestAttachExecutable - Detach\n"));
+
+ //detach from process
+ test(KErrNone == iServSession.DetachExecutable(iFileName));
+
+ //attach non-passively
+ test(KErrNone == iServSession.AttachExecutable(iFileName, EFalse));
+
+ //not registered for this thread's process (as it doesn't exist)
+ //so should fail security check
+ err = iServSession.ResumeThread(0x12345678);
+ test(err==KErrPermissionDenied);
+ test(KErrNone == iServSession.DetachExecutable(iFileName));
+ }
+
+//----------------------------------------------------------------------------------------------
+//! @SYMTestCaseID KBase-T-RMDEBUG2-0442
+//! @SYMTestType
+//! @SYMPREQ PREQ1426
+//! @SYMTestCaseDesc Tests single-stepping target threads.
+//! @SYMTestActions Steps target thread assembly level instructions, mainly branch/change PC
+//!
+//! @SYMTestExpectedResults KErrNone.
+//! @SYMTestPriority High
+//! @SYMTestStatus Implemented
+//----------------------------------------------------------------------------------------------
+
+void CRunModeAgent::TestStep()
+ {
+ //Dont run the test for an SMP System
+ if (UserSvr::HalFunction(EHalGroupKernel, EKernelHalSmpSupported, 0, 0) == KErrNone)
+ return;
+
+ test.Next(_L("TestStep\n"));
+
+ DoTestStep(EFalse);
+ DoTestStep(ETrue);
+ }
+
+void CRunModeAgent::DoTestStep(TBool aThreadSpecific)
+ {
+ test.Printf(_L("DoTestStep: aThreadSpecific: %d\n"), aThreadSpecific?1:0);
+
+ TInt err = KErrNone;
+
+ RProcess process;
+ TProcessId processId = process.Id();
+ process.Close();
+
+ test(KErrNone == iServSession.AttachExecutable(iFileName, EFalse));
+ //set the target thread to execute the stepping functions
+ test(KErrNone == SwitchTestFunction(EStepFunction));
+
+ err = iServSession.SetEventAction(iFileName,EEventsBreakPoint, EActionContinue);
+ test (err == KErrNone);
+
+ if(!aThreadSpecific)
+ {
+ err = iServSession.SetEventAction(iFileName, EEventsProcessBreakPoint, EActionContinue);
+ test (err == KErrNone);
+ }
+
+ TUint32 startAddress;
+ TUint32 endAddress;
+
+ /*
+ * RMDebug_StepTest_Non_PC_Modifying
+ */
+ test.Next(_L("TestStep - Non-PC modifying\n"));
+
+ startAddress = (TUint32)(&RMDebug_StepTest_Non_PC_Modifying);
+
+ endAddress = (TUint32)(&RMDebug_StepTest_Non_PC_Modifying_OK);
+
+ err = aThreadSpecific
+ ? HelpTestStep(iThreadID,startAddress,endAddress,EArmMode,1)
+ : HelpTestStep(iThreadID,startAddress,endAddress,EArmMode,1, EFalse, processId);
+ test(err==KErrNone);
+
+ /*
+ * RMDebug_StepTest_Branch
+ */
+ test.Next(_L("TestStep - Branch\n"));
+
+ startAddress = (TUint32)(&RMDebug_StepTest_Branch);
+
+ endAddress = (TUint32)(&RMDebug_StepTest_Branch_1);
+
+ err = aThreadSpecific
+ ? HelpTestStep(iThreadID,startAddress,endAddress,EArmMode,1)
+ : HelpTestStep(iThreadID,startAddress,endAddress,EArmMode,1, EFalse, processId);
+ test(err==KErrNone);
+
+ /*
+ * RMDebug_StepTest_Branch_And_Link
+ */
+ test.Next(_L("TestStep - Branch_And_Link\n"));
+
+ startAddress = (TUint32)(&RMDebug_StepTest_Branch_And_Link_1);
+
+ endAddress = (TUint32)(&RMDebug_StepTest_Branch_And_Link_2);
+
+ err = aThreadSpecific
+ ? HelpTestStep(iThreadID,startAddress,endAddress,EArmMode,1)
+ : HelpTestStep(iThreadID,startAddress,endAddress,EArmMode,1, EFalse, processId);
+ test(err==KErrNone);
+
+ /*
+ * RMDebug_StepTest_MOV_PC
+ */
+ test.Next(_L("TestStep - MOV PC,X\n"));
+
+ startAddress = (TUint32)(&RMDebug_StepTest_MOV_PC_1);
+
+ endAddress = (TUint32)(&RMDebug_StepTest_MOV_PC_2);
+
+ err = aThreadSpecific
+ ? HelpTestStep(iThreadID,startAddress,endAddress,EArmMode,1)
+ : HelpTestStep(iThreadID,startAddress,endAddress,EArmMode,1, EFalse, processId);
+ test(err==KErrNone);
+
+ /*
+ * RMDebug_StepTest_LDR_PC
+ */
+ test.Next(_L("TestStep - LDR PC\n"));
+
+ startAddress = (TUint32)(&RMDebug_StepTest_LDR_PC);
+
+ endAddress = (TUint32)(&RMDebug_StepTest_LDR_PC_1);
+
+ err = aThreadSpecific
+ ? HelpTestStep(iThreadID,startAddress,endAddress,EArmMode,1)
+ : HelpTestStep(iThreadID,startAddress,endAddress,EArmMode,1, EFalse, processId);
+ test(err==KErrNone);
+
+// thumb and interworking tests are not supported on armv4
+#ifdef __MARM_ARMV5__
+
+ /*
+ * RMDebug_StepTest_Thumb_Non_PC_Modifying
+ */
+ test.Next(_L("TestStep - Thumb Non PC-Modifying\n"));
+
+ startAddress = (TUint32)(&RMDebug_StepTest_Thumb_Non_PC_Modifying_1);
+
+ endAddress = (TUint32)(&RMDebug_StepTest_Thumb_Non_PC_Modifying_2);
+
+ err = aThreadSpecific
+ ? HelpTestStep(iThreadID,startAddress,endAddress,EThumbMode,1)
+ : HelpTestStep(iThreadID,startAddress,endAddress,EThumbMode,1, EFalse, processId);
+ test(err==KErrNone);
+
+ /*
+ * RMDebug_StepTest_Thumb_Branch
+ */
+ test.Next(_L("TestStep - Thumb Branch\n"));
+
+ startAddress = (TUint32)(&RMDebug_StepTest_Thumb_Branch_1);
+
+ endAddress = (TUint32)(&RMDebug_StepTest_Thumb_Branch_2);
+
+ err = aThreadSpecific
+ ? HelpTestStep(iThreadID,startAddress,endAddress,EThumbMode,1)
+ : HelpTestStep(iThreadID,startAddress,endAddress,EThumbMode,1, EFalse, processId);
+ test(err==KErrNone);
+
+ /*
+ * RMDebug_StepTest_Thumb_Branch_And_Link
+ */
+ test.Next(_L("TestStep - Thumb Branch_And_Link\n"));
+
+ startAddress = (TUint32)(&RMDebug_StepTest_Thumb_Branch_And_Link_2);
+
+ endAddress = (TUint32)(&RMDebug_StepTest_Thumb_Branch_And_Link_3);
+
+ TInt muid=0;
+ test(HAL::Get(HAL::EMachineUid, muid)==KErrNone);
+
+ // check if running on ARMv7 core
+ if(muid==HAL::EMachineUid_OmapH6 || muid==HAL::EMachineUid_OmapZoom || muid==HAL::EMachineUid_EmuBoard)
+ {
+ // Note: ARMv7 treats BL instructions as single 32-bit instructions
+ err = aThreadSpecific
+ ? HelpTestStep(iThreadID,startAddress,endAddress,EThumbMode,1)
+ : HelpTestStep(iThreadID,startAddress,endAddress,EThumbMode,1, EFalse, processId);
+ }
+ else
+ {
+ // Note: Due to the fact that the stepper treats BL instructions
+ // as two instructions (as the hardware does), then we must step
+ // the first half instruction first)
+
+ err = aThreadSpecific
+ ? HelpTestStep(iThreadID,startAddress,startAddress+2,EThumbMode,1)
+ : HelpTestStep(iThreadID,startAddress,startAddress+2,EThumbMode,1, EFalse, processId);
+ test(err==KErrNone);
+
+ // Now we actually do the BL
+ err = aThreadSpecific
+ ? HelpTestStep(iThreadID,startAddress+2,endAddress,EThumbMode,1)
+ : HelpTestStep(iThreadID,startAddress+2,endAddress,EThumbMode,1, EFalse, processId);
+ }
+ test(err==KErrNone);
+
+ /*
+ * RMDebug_StepTest_Thumb_Back_Branch_And_Link
+ */
+ test.Next(_L("TestStep - Thumb Back_Branch_And_Link\n"));
+
+ startAddress = (TUint32)(&RMDebug_StepTest_Thumb_Back_Branch_And_Link_2);
+
+ endAddress = (TUint32)(&RMDebug_StepTest_Thumb_Back_Branch_And_Link_3);
+
+ // check if running on ARMv7 core
+ if(muid==HAL::EMachineUid_OmapH6 || muid==HAL::EMachineUid_OmapZoom || muid==HAL::EMachineUid_EmuBoard)
+ {
+ // Note: ARMv7 treats BL instructions as single 32-bit instructions
+ err = aThreadSpecific
+ ? HelpTestStep(iThreadID,startAddress,endAddress,EThumbMode,1)
+ : HelpTestStep(iThreadID,startAddress,endAddress,EThumbMode,1, EFalse, processId);
+ }
+ else
+ {
+ // Note: Due to the fact that the stepper treats BL instructions
+ // as two instructions (as the hardware does), then we must step
+ // the first half instruction first)
+
+ err = aThreadSpecific
+ ? HelpTestStep(iThreadID,startAddress,startAddress+2,EThumbMode,1)
+ : HelpTestStep(iThreadID,startAddress,startAddress+2,EThumbMode,1, EFalse, processId);
+ test(err==KErrNone);
+
+ // Now we actually do the BL
+ err = aThreadSpecific
+ ? HelpTestStep(iThreadID,startAddress+2,endAddress,EThumbMode,1)
+ : HelpTestStep(iThreadID,startAddress+2,endAddress,EThumbMode,1, EFalse, processId);
+ }
+ test(err==KErrNone);
+
+ /*
+ * RMDebug_StepTest_Thumb_AddPC
+ */
+ test.Next(_L("TestStep - Thumb ADD PC, PC, R0\n"));
+
+ startAddress = (TUint32)(&RMDebug_StepTest_Thumb_AddPC_2);
+
+ endAddress = (TUint32)(&RMDebug_StepTest_Thumb_AddPC_3);
+
+ err = aThreadSpecific
+ ? HelpTestStep(iThreadID,startAddress,endAddress,EThumbMode,1)
+ : HelpTestStep(iThreadID,startAddress,endAddress,EThumbMode,1, EFalse, processId);
+ test(err==KErrNone);
+
+ /*
+ * RMDebug_StepTest_Interwork ARM to Thumb
+ */
+ test.Next(_L("TestStep - Interworking ARM to Thumb - BLX \n"));
+
+ startAddress = (TUint32)(&RMDebug_StepTest_Interwork_1);
+
+ endAddress = (TUint32)(&RMDebug_StepTest_Interwork_2);
+
+ err = aThreadSpecific // nb initial breakpoint in ARM code
+ ? HelpTestStep(iThreadID,startAddress,endAddress,EArmMode,1)
+ : HelpTestStep(iThreadID,startAddress,endAddress,EArmMode,1, EFalse, processId);
+
+ test(err==KErrNone);
+
+ /*
+ * RMDebug_StepTest_Interwork Thumb to ARM
+ */
+ test.Next(_L("TestStep - Interworking Thumb to ARM - BLX\n"));
+
+ startAddress = (TUint32)(&RMDebug_StepTest_Interwork_2);
+
+ endAddress = (TUint32)(&RMDebug_StepTest_Interwork_3);
+
+ // check if running on ARMv7 core
+ if(muid==HAL::EMachineUid_OmapH6 || muid==HAL::EMachineUid_OmapZoom || muid==HAL::EMachineUid_EmuBoard)
+ {
+ // ARMv7 treats BLX instructions as single 32-bit instructions
+ err = aThreadSpecific
+ ? HelpTestStep(iThreadID,startAddress,endAddress,EThumbMode,1)
+ : HelpTestStep(iThreadID,startAddress,endAddress,EThumbMode,1, EFalse, processId);
+ }
+ else
+ {
+ // Stepper treats this as a two-stage instruction (just like the hardware)
+ err = aThreadSpecific
+ ? HelpTestStep(iThreadID,startAddress,startAddress+2,EThumbMode,1)
+ : HelpTestStep(iThreadID,startAddress,startAddress+2,EThumbMode,1, EFalse, processId);
+ test(err == KErrNone);
+
+ err = aThreadSpecific
+ ? HelpTestStep(iThreadID,startAddress+2,endAddress,EThumbMode,1)
+ : HelpTestStep(iThreadID,startAddress+2,endAddress,EThumbMode,1, EFalse, processId);
+ }
+ test(err == KErrNone);
+
+#endif // __MARM_ARMV5__
+
+ /*
+ * Test multiple-step of ARM code
+ */
+ test.Next(_L("TestStep - ARM Multiple instruction step\n"));
+
+ startAddress = (TUint32)(&RMDebug_StepTest_ARM_Step_Multiple);
+
+ endAddress = (TUint32)(&RMDebug_StepTest_ARM_Step_Multiple_1);
+
+ err = aThreadSpecific
+ ? HelpTestStep(iThreadID,startAddress,endAddress,EArmMode,5)
+ : HelpTestStep(iThreadID,startAddress,endAddress,EArmMode,5, EFalse, processId);
+ test(err == KErrNone);
+ // stepping performance
+ test.Next(_L("TestStep - Steps per second\n"));
+
+ // run until we reach RMDebug_StepTest_Count_1
+ TBreakId stepBreakId;
+ startAddress = (TUint32)(&RMDebug_StepTest_Count_1);
+ endAddress = (TUint32)(&RMDebug_StepTest_Count_2);
+
+ err = aThreadSpecific
+ ? HelpTestStepSetBreak(stepBreakId,iThreadID,startAddress,EArmMode)
+ : HelpTestStepSetBreak(stepBreakId,iThreadID,startAddress,EArmMode,EFalse,processId);
+ test (err == KErrNone);
+
+ // wait until we hit the breakpoint
+ TEventInfo info;
+ err = HelpTestStepWaitForBreak(iFileName,info);
+ test (err == KErrNone);
+
+ // Now clear the breakpoint
+ err = iServSession.ClearBreak(stepBreakId);
+ test(err == KErrNone);
+
+ if(aThreadSpecific)
+ {
+ // now step the code
+ TInt stepsPerSecond = 0;
+
+ TUint32 stopTickCount = User::NTickCount() + HelpTicksPerSecond();
+
+ while (User::NTickCount() < stopTickCount)
+ {
+ err = iServSession.Step(iThreadID,1);
+ test (err == KErrNone);
+
+ // we need to wait now until the step completes before asking for the next step
+ {
+ TEventInfo info;
+ static TRequestStatus status;
+
+ TPtr8 infoPtr((TUint8*)&info,0,sizeof(TEventInfo));
+
+ iServSession.GetEvent(iFileName,status,infoPtr);
+
+ // Wait for notification of the breakpoint hit event
+ User::WaitForRequest(status);
+ test(status==KErrNone);
+ }
+
+ // Update the count of steps
+ stepsPerSecond += 1;
+
+ // Gone wrong if we do too many
+ test(stepsPerSecond < 10000);
+ }
+
+ iStepsPerSecond = stepsPerSecond;
+ test(iStepsPerSecond != 0);
+ }
+
+ // finally resume the thread
+ err = iServSession.ResumeThread(iThreadID);
+ test (err == KErrNone);
+
+ err = iServSession.SetEventAction(iFileName,EEventsBreakPoint, EActionIgnore);
+ test (err == KErrNone);
+
+ if(!aThreadSpecific)
+ {
+ err = iServSession.SetEventAction(iFileName, EEventsProcessBreakPoint, EActionIgnore);
+ test (err == KErrNone);
+ }
+
+ test(KErrNone == iServSession.DetachExecutable(iFileName));
+ }
+
+//----------------------------------------------------------------------------------------------
+//! @SYMTestCaseID KBase-T-RMDEBUG2-0443
+//! @SYMTestType
+//! @SYMPREQ PREQ1426
+//! @SYMTestCaseDesc Tests registration and occurrence of target thread event (in this case panic)
+//! @SYMTestActions Registers for a panic in the target thread, causes it, and catches the panic notification.
+//!
+//! @SYMTestExpectedResults KErrNone.
+//! @SYMTestPriority High
+//! @SYMTestStatus Implemented
+//----------------------------------------------------------------------------------------------
+
+void CRunModeAgent::TestEvents()
+ {
+ TInt err = KErrNone;
+
+ test.Next(_L("TestEvents\n"));
+
+ TInt panicReason = 12345;
+
+ test.Printf(_L("Thread t_rmdebug.exe::DebugThread should panic with reason %d.\n"), panicReason);
+
+ //attach non-passively
+ test(KErrNone == iServSession.AttachExecutable(iFileName, EFalse));
+
+ RThread threadToPanic;
+ test(KErrNone == StartDebugThread(threadToPanic, _L("EventsThread")));
+ TThreadId threadToPanicId = threadToPanic.Id();
+ TEventInfo info;
+
+ // Set things up to wait for a thread kill event
+ err = iServSession.SetEventAction(iFileName, EEventsKillThread, EActionContinue);
+ test(err==KErrNone);
+
+ // Wait for an event to occur in this process - nothing should have happened yet.
+ static TRequestStatus status;
+
+ TPtr8 infoPtr((TUint8*)&info,0,sizeof(TEventInfo));
+
+ iServSession.GetEvent(iFileName,status,infoPtr);
+
+ // Test Request cancellation
+ err = iServSession.CancelGetEvent(iFileName);
+ test (err==KErrNone);
+
+ // Again wait for an event to occur in our process - we will provoke the
+ // thread kill event by panic'ing the test thread.
+ iServSession.GetEvent(iFileName,status,infoPtr);
+
+ // Panic the debug thread to cause a thread kill event
+ threadToPanic.Panic(_L("t_rmdebug panic thread test"), panicReason);
+
+ // Wait for notification of the Thread Kill event
+ User::WaitForRequest(status);
+ test(status==KErrNone);
+
+ // Check we are really recieving information about the panic
+ test(info.iProcessIdValid);
+ test(info.iThreadIdValid);
+ test(info.iProcessId==RProcess().Id());
+ test(info.iThreadId==threadToPanicId);
+ test(info.iEventType==EEventsKillThread);
+ test(info.iThreadKillInfo.iExitType==EExitPanic);
+
+ // Ignore other panic events
+ err = iServSession.SetEventAction(iFileName, EEventsKillThread, EActionIgnore);
+ test(err==KErrNone);
+
+ test(KErrNone == iServSession.DetachExecutable(iFileName));
+ }
+
+//----------------------------------------------------------------------------------------------
+//! @SYMTestCaseID KBase-T-RMDEBUG2-0444
+//! @SYMTestType
+//! @SYMPREQ PREQ1426
+//! @SYMTestCaseDesc Tests registration and occurence of target thread events in separate process.
+//! @SYMTestActions Registers for a hardware exception and kill thread events, and receives them.
+//!
+//! @SYMTestExpectedResults KErrNone.
+//! @SYMTestPriority High
+//! @SYMTestStatus Implemented
+//----------------------------------------------------------------------------------------------
+void CRunModeAgent::TestEventsForExternalProcess()
+ {
+ //Dont run the test for an SMP System
+ if (UserSvr::HalFunction(EHalGroupKernel, EKernelHalSmpSupported, 0, 0) == KErrNone)
+ return;
+
+ test.Next(_L("TestEventsForExternalProcess\n"));
+
+ for(TInt main=0; main<3; main++)
+ {
+ for(TInt extra=0; extra<3; extra++)
+ {
+ TestEventsWithExtraThreads((TKernelEventAction)main, (TKernelEventAction)extra, 0);
+ TestEventsWithExtraThreads((TKernelEventAction)main, (TKernelEventAction)extra, 2);
+ }
+ }
+ }
+
+void CRunModeAgent::TestEventsWithExtraThreads(TKernelEventAction aActionMain, TKernelEventAction aActionExtra, TUint32 aExtraThreads)
+ {
+ const TInt KNumberOfTypes = 8;
+ struct TEventStruct
+ {
+ public:
+ TDebugFunctionType iDebugFunctionType;
+ TEventType iEventType;
+ };
+
+ TEventStruct type[KNumberOfTypes] =
+ {
+ {EStackOverflowFunction, EEventsHwExc},
+ {EUserPanicFunction, EEventsKillThread},
+ {EPrefetchAbortFunction, EEventsHwExc},
+ {EDataAbortFunction, EEventsHwExc},
+ {EUndefInstructionFunction, EEventsHwExc},
+ {EDataReadErrorFunction, EEventsHwExc},
+ {EDataWriteErrorFunction, EEventsHwExc},
+ {EUserExceptionFunction, EEventsSwExc},
+ };
+
+ for(TInt j=0; j<KNumberOfTypes; j++)
+ {
+ //RDebug::Printf("**** type: %d, main action: %d, extra action: %d, extraThreads: %d", j, (TUint32)aActionMain, (TUint32)aActionExtra, aExtraThreads);
+
+ // do this check as it seems to hard to do these cases with the current set up
+ if(EEventsKillThread == type[j].iEventType)
+ {
+ if(EActionSuspend != aActionMain)
+ {
+ if(aActionMain != aActionExtra)
+ {
+ return;
+ }
+ }
+ }
+ // attach to KRMDebugTestApplication
+ test(KErrNone == iServSession.AttachExecutable(KRMDebugTestApplication, EFalse));
+
+ // Set things up to wait for the expected exception in KRMDebugTestApplication
+ test(KErrNone == iServSession.SetEventAction(KRMDebugTestApplication, type[j].iEventType, aActionMain));
+
+ if(EActionSuspend != aActionMain)
+ {
+ test(KErrNone == iServSession.SetEventAction(KRMDebugTestApplication, EEventsKillThread, aActionExtra));
+ }
+
+ // declare a TRequestStatus object for asynchronous calls
+ TRequestStatus status;
+
+ TEventInfo info;
+ TPtr8 infoBuffer = TPtr8((TUint8*)&info,0,sizeof(TEventInfo));
+ if(EActionIgnore != aActionMain)
+ {
+ iServSession.GetEvent(KRMDebugTestApplication(), status, infoBuffer);
+ }
+
+ // launch the target process to trigger the expected exception
+ RProcess targetProcess;
+ test(KErrNone == LaunchProcess(targetProcess, KRMDebugTestApplication(), type[j].iDebugFunctionType, 0, aExtraThreads));
+ TProcessId processId(targetProcess.Id());
+ targetProcess.Close();
+
+ if(EActionIgnore != aActionMain)
+ {
+ // wait for notification of the exception
+ User::WaitForRequest(status);
+ test(KErrNone == status.Int());
+
+ // check that this is the event we were expecting
+ test(info.iProcessIdValid);
+ test(info.iThreadIdValid);
+ test(info.iProcessId==processId);
+ test(info.iEventType==type[j].iEventType);
+ }
+
+ if(EActionSuspend == aActionMain)
+ {
+ // read the thread list, partly to check the call works, and partly to check the thread still exists
+ test(ThreadExistsForProcess(info.iThreadId, info.iProcessId));
+
+ // register to catch all the thread kills which will occur
+ test(KErrNone == iServSession.SetEventAction(KRMDebugTestApplication, EEventsKillThread, aActionExtra));
+ // we specified EActionSuspend earlier so need to call resume on this thread
+ test(KErrNone == iServSession.ResumeThread(info.iThreadId));
+ }
+
+ // find out how many threads there are in the process and catch all the thread kill events,
+ // the number of kill thread events should correspond to the number of extra threads launched,
+ // plus one if the main thread panicked with a Sw/Hw exception
+ if(EActionIgnore != aActionExtra)
+ {
+ TInt dyingThreads = aExtraThreads + ( (type[j].iEventType != EEventsKillThread) ? 1 : 0);
+ for(TInt k=0; k<dyingThreads; k++)
+ {
+ iServSession.GetEvent(KRMDebugTestApplication(), status, infoBuffer);
+ // wait for notification of the kill thread
+ User::WaitForRequest(status);
+ test(KErrNone == status.Int());
+
+ // check that this is the event we were expecting
+ test(info.iProcessIdValid);
+ test(info.iThreadIdValid);
+ test(info.iProcessId==processId);
+ test(info.iEventType==EEventsKillThread);
+ if(EActionSuspend == aActionExtra)
+ {
+ // do some calls to check listings work ok at this stage
+ test(ProcessExists(info.iProcessId));
+ test(ThreadExistsForProcess(info.iThreadId, info.iProcessId));
+ // we specified EActionSuspend earlier so need to call resume on this thread
+ test(KErrNone == iServSession.ResumeThread(info.iThreadId));
+ }
+ }
+ }
+ // reset the thread kill event
+ test(KErrNone == iServSession.SetEventAction(KRMDebugTestApplication(), EEventsKillThread, EActionIgnore));
+
+ // reset events for KRMDebugTestApplication
+ test(KErrNone == iServSession.SetEventAction(KRMDebugTestApplication(), type[j].iEventType, EActionIgnore));
+
+ // finished debugging KRMDebugTestApplication so detach
+ test(KErrNone == iServSession.DetachExecutable(KRMDebugTestApplication()));
+
+ // want to validate that the process has really exited, i.e. we're not accidentally keeping a handle to it...
+ if(ProcessExists(processId))
+ {
+ // wait a little while and try again, just in case the process was still being shut down when we tried the first time
+ User::After(1000000);
+ test(!ProcessExists(processId));
+ }
+ }
+ }
+
+// helper function to check whether a thread with id aThreadId exists in the process with id aProcessId
+TBool CRunModeAgent::ThreadExistsForProcess(const TThreadId aThreadId, const TProcessId aProcessId)
+ {
+ TUint32 size;
+ RBuf8 buffer;
+ test(KErrNone == buffer.Create(1024));
+ TInt err = iServSession.GetList(aProcessId, EThreads, buffer, size);
+ while(KErrTooBig == err)
+ {
+ size*=2;
+ test(size<=16*1024);
+ test(KErrNone == buffer.ReAlloc(size));
+ err = iServSession.GetList(aProcessId, EThreads, buffer, size);
+ }
+ test(KErrNone == err);
+
+ //look through the buffer and check if the target debug thread is there
+ TUint8* ptr = (TUint8*)buffer.Ptr();
+ const TUint8* ptrEnd = ptr + size;
+ while(ptr < ptrEnd)
+ {
+ TThreadListEntry& entry = *(TThreadListEntry*)ptr;
+ if(aThreadId.Id() == entry.iThreadId)
+ {
+ buffer.Close();
+ return ETrue;
+ }
+ ptr += Align4(entry.GetSize());
+ }
+ buffer.Close();
+ return EFalse;
+ }
+
+// helper function to check whether a process with id aProcessId exists
+TBool CRunModeAgent::ProcessExists(const TProcessId aProcessId)
+ {
+ TUint32 size;
+ RBuf8 buffer;
+ test(KErrNone == buffer.Create(1024));
+ TInt err = iServSession.GetList(EProcesses, buffer, size);
+ while(KErrTooBig == err)
+ {
+ size*=2;
+ test(size<=16*1024);
+ test(KErrNone == buffer.ReAlloc(size));
+ err = iServSession.GetList(EProcesses, buffer, size);
+ }
+ test(KErrNone == err);
+
+ //look through the buffer and check if the target debug thread is there
+ TUint8* ptr = (TUint8*)buffer.Ptr();
+ const TUint8* ptrEnd = ptr + size;
+ while(ptr < ptrEnd)
+ {
+ TProcessListEntry& entry = *(TProcessListEntry*)ptr;
+ if(aProcessId.Id() == entry.iProcessId)
+ {
+ buffer.Close();
+ return ETrue;
+ }
+ ptr += Align4(entry.GetSize());
+ }
+ buffer.Close();
+ return EFalse;
+ }
+
+//----------------------------------------------------------------------------------------------
+//! @SYMTestCaseID KBase-T-RMDEBUG2-0445
+//! @SYMTestType
+//! @SYMPREQ PREQ1426
+//! @SYMTestCaseDesc Tests basic debug functions work on demand-paged target threads
+//! @SYMTestActions Checks it can r/w memory, set breakpoints etc in a demand paged target.
+//!
+//! @SYMTestExpectedResults KErrNone.
+//! @SYMTestPriority High
+//! @SYMTestStatus Implemented
+//----------------------------------------------------------------------------------------------
+
+void CRunModeAgent::TestDemandPaging(void)
+ {
+ test.Next(_L("TestDemandPaging\n"));
+
+ test(KErrNone == iServSession.AttachExecutable(iFileName, EFalse));
+ test(KErrNone == iServSession.SuspendThread(iThreadID));
+
+ // get the address of a function in code that will be paged in
+ TUint32 address = (TUint32)(&RMDebugDemandPagingTest);
+ const TUint32 armInstSize = 4;
+
+ // read the memory at &RMDebugDemandPagingTest to check that reading memory in demand paged code works
+ TUint32 demandPagedInst = 0;
+ TPtr8 demandPagedInstBuf((TUint8*)&demandPagedInst, armInstSize);
+ test(KErrNone == iServSession.ReadMemory(iThreadID, address, armInstSize, demandPagedInstBuf, EAccess32, EEndLE8));
+
+ // this is the MOVS instruction that we expect to find in RMDebugDemandPagingTest
+ TUint32 expectedDemandPagedInst = 0xe1b02000;
+
+ // check that the instruction we read is as expected
+ test(demandPagedInst == expectedDemandPagedInst);
+
+ // set event action for break points
+ test(KErrNone == iServSession.SetEventAction(RProcess().FileName(), EEventsBreakPoint, EActionContinue));
+
+ // set an arm breakpoint on RMDebugDemandPagingTest
+ TBreakId armBreakId = 0;
+ test(KErrNone == iServSession.SetBreak(armBreakId, iThreadID, address, EArmMode));
+
+ // Ensure that after setting the breakpoint the memory read returns the correct value
+ TUint32 demandPagedInstWithBreakPoint = 0;
+ TPtr8 spinForeverInstWithBreakPointBuf((TUint8*)&demandPagedInstWithBreakPoint, armInstSize);
+ test(KErrNone == iServSession.ReadMemory(iThreadID, address, armInstSize, spinForeverInstWithBreakPointBuf, EAccess32, EEndLE8));
+ test(demandPagedInst == demandPagedInstWithBreakPoint);
+
+ // switch the target thread to run the demand paging function
+ test(KErrNone == SwitchTestFunction(EDemandPagingFunction));
+
+ // set up event watcher to catch breakpoint being hit in demand paged code
+ TEventInfo info;
+ static TRequestStatus status;
+ TPtr8 infoPtr((TUint8*)&info,sizeof(TEventInfo));
+ iServSession.GetEvent(RProcess().FileName(), status, infoPtr);
+
+ // resume the thread
+ test(KErrNone == iServSession.ResumeThread(iThreadID));
+ // wait for notification of the breakpoint hit event
+ User::WaitForRequest(status);
+ test(status==KErrNone);
+
+ // info should now be filled with the details
+ test(info.iProcessIdValid);
+ test(info.iThreadIdValid);
+ test(info.iEventType == EEventsBreakPoint);
+ test(info.iThreadBreakPointInfo.iRmdArmExcInfo.iR15 == address);
+
+ // remove the break point and resume the thread
+ test(KErrNone == iServSession.ClearBreak(armBreakId));
+
+ // switch the target thread to run the default function
+ test(KErrNone == SwitchTestFunction(EDefaultFunction));
+
+ test(KErrNone == iServSession.ResumeThread(iThreadID));
+ test(KErrNone == iServSession.DetachExecutable(iFileName));
+ }
+
+// Names of some test programs used for testing security
+_LIT(KRMDebugSecurity0FileName,"z:\\sys\\bin\\t_rmdebug_security0.exe"); // Debuggable
+_LIT(KRMDebugSecurity1FileName,"z:\\sys\\bin\\t_rmdebug_security1.exe"); // Not debuggable
+_LIT(KRMDebugSecurity2FileName,"z:\\sys\\bin\\t_rmdebug_security2.exe"); // AllFiles
+_LIT(KRMDebugSecurity3FileName,"z:\\sys\\bin\\t_rmdebug_security3.exe"); // TCB AllFiles
+
+// include the test header file here
+#include "rm_debug_kerneldriver.h"
+
+//----------------------------------------------------------------------------------------------
+//! @SYMTestCaseID KBase-T-RMDEBUG2-0446
+//! @SYMTestType
+//! @SYMPREQ PREQ1426
+//! @SYMTestCaseDesc Tests Debug Device Driver is locked to the SID of the Debug Security Svr.
+//! @SYMTestActions Loads rm-debug.ldd and tries to open a handle to it. This should fail.
+//!
+//! @SYMTestExpectedResults KErrPermissionDenied.
+//! @SYMTestPriority High
+//! @SYMTestStatus Implemented
+//----------------------------------------------------------------------------------------------
+
+void CRunModeAgent::TestDriverSecurity(void)
+ {
+ test.Next(_L("TestDriverSecurity\n"));
+
+ RRM_DebugDriver kernelDriver;
+
+ // Load the debug device driver
+ TInt err = User::LoadLogicalDevice( KDebugDriverFileName );
+ test((KErrNone == err) || (KErrAlreadyExists == err));
+
+ // we were allowed to load the driver, or its already loaded.
+
+ // Try to open a handle to the driver - this should return KErrPermissionDenied as we don't have the DSS SID
+ TRM_DebugDriverInfo driverInfo;
+ driverInfo.iUserLibraryEnd = 0;
+ err = kernelDriver.Open(driverInfo);
+ test((err == KErrInUse) || (err == KErrPermissionDenied));
+
+ }
+
+//----------------------------------------------------------------------------------------------
+//! @SYMTestCaseID KBase-T-RMDEBUG2-0447
+//! @SYMTestType
+//! @SYMPREQ PREQ1426
+//! @SYMTestCaseDesc Tests Debug driver can only be access via the DSS. Also tests DSS cannot
+//! be subverted. Tests functionality of two representative OEM Debug Tokens.
+//! @SYMTestActions Tries to open rm_debug.ldd (should fail). Tries to debug various processes
+//! (only debuggable one should succeed).
+//!
+//! @SYMTestExpectedResults KErrPermissionDenied.
+//! @SYMTestPriority High
+//! @SYMTestStatus Implemented
+//----------------------------------------------------------------------------------------------
+
+void CRunModeAgent::TestSecurity(void)
+ {
+ // Things to test
+ //
+ // try to use debug driver directly ( should have the wrong UID/SID value!)
+ test.Next(_L("TestSecurity - Bypass Debug Security Server to Debug Device Driver - DSS running\n"));
+
+ // Things to test
+ //
+ // Load the debug device driver
+ RRM_DebugDriver kernelDriver;
+ TInt err = User::LoadLogicalDevice( KDebugDriverFileName );
+ test((KErrNone == err) || (KErrAlreadyExists == err));
+
+ // we were allowed to load the driver, or its already loaded.
+
+ // Try to open handle a to the driver - this should return KErrPermission/KErrInUse as we don't have the DSS SID
+ // and we expect the DSS to already be using it.
+ TRM_DebugDriverInfo driverInfo;
+ driverInfo.iUserLibraryEnd = 0;
+ err = kernelDriver.Open(driverInfo);
+ test(err == KErrInUse);
+
+ //
+ // Attach to the Debug Security Server (passive)
+ //
+ test.Next(_L("TestSecurity - Attach to the Debug Security Server (passive)\n"));
+
+ _LIT(KSecurityServerProcessName, "z:\\sys\\bin\\rm_debug_svr.exe");
+
+ test(KErrPermissionDenied == iServSession.AttachExecutable(KSecurityServerProcessName, ETrue));
+
+ //
+ // Attach to the Debug Security Server (active)
+ //
+ test.Next(_L("TestSecurity - Attach to the Debug Security Server (active)\n"));
+
+ test(KErrPermissionDenied == iServSession.AttachExecutable(KSecurityServerProcessName, EFalse));
+
+ //
+ // Attach to Process 0
+ //
+ // Target: Debuggable
+ //
+ test.Next(_L("TestSecurity - Attach to test process 0\n"));
+
+ // Agent can debug the target app as it is marked debuggable - ie capabilities are ignored)
+ HelpTestSecurityAttachDetachExecutable(KRMDebugSecurity0FileName,ETrue);
+
+ //
+ // Attach to Process - 1
+ //
+ // Target: Non-debuggable for ordinary debug agent, debuggable for OEM/OEM2 token authorised agent
+ //
+ // Note: This target app has no PlatSec capabilities
+ //
+ // Agent cannot debug the app unless it has an OEM/OEM2 Debug Token
+ test.Next(_L("TestSecurity - Attach to test process 1\n"));
+
+#ifdef SYMBIAN_STANDARDDEBUG
+ HelpTestSecurityAttachDetachExecutable(KRMDebugSecurity1FileName,EFalse);
+#endif
+
+#ifdef SYMBIAN_OEMDEBUG
+ HelpTestSecurityAttachDetachExecutable(KRMDebugSecurity1FileName,ETrue);
+#endif
+
+#ifdef SYMBIAN_OEM2DEBUG
+ HelpTestSecurityAttachDetachExecutable(KRMDebugSecurity1FileName,ETrue);
+#endif
+
+ //
+ // Attach to Process - 2
+ //
+ // Target: Non-debuggable for ordinary debug agent, non-debuggable for OEM2 authorised agent (insufficient caps)
+ //
+ // Note: This target app has AllFiles capability
+ //
+ // Agent cannot debug the app unless it has an OEM Debug Token
+ test.Next(_L("TestSecurity - Attach to test process 2\n"));
+
+#ifdef SYMBIAN_STANDARDDEBUG
+ HelpTestSecurityAttachDetachExecutable(KRMDebugSecurity2FileName,EFalse);
+#endif
+
+#ifdef SYMBIAN_OEMDEBUG
+ HelpTestSecurityAttachDetachExecutable(KRMDebugSecurity2FileName,ETrue);
+#endif
+
+#ifdef SYMBIAN_OEM2DEBUG
+ HelpTestSecurityAttachDetachExecutable(KRMDebugSecurity2FileName,EFalse);
+#endif
+
+ //
+ // Attach to Process - 3
+ //
+ // Target: Non-debuggable for ordinary debug agent, non-debuggable for OEM authorised agent (insufficient caps)
+ //
+ // Note: This target app has AllFiles and TCB and NetworkControl capabilities
+ //
+ test.Next(_L("TestSecurity - Attach to test process 3\n"));
+
+ HelpTestSecurityAttachDetachExecutable(KRMDebugSecurity3FileName,EFalse);
+
+ }
+
+//----------------------------------------------------------------------------------------------
+//! @SYMTestCaseID KBase-T-RMDEBUG2-0543
+//! @SYMTestType
+//! @SYMPREQ PREQ1426
+//! @SYMTestCaseDesc Validates that a dll can be built which #include's the rm_debug_api.h header, i.e. rm_debug_api.h contains no static data.
+//! @SYMTestActions Calls a dummy function in t_rmdebug_dll.dll which implies the dll has been built correctly.
+//!
+//! @SYMTestExpectedResults KErrNone.
+//! @SYMTestPriority High
+//! @SYMTestStatus Implemented
+//----------------------------------------------------------------------------------------------
+void CRunModeAgent::TestDllUsage(void)
+ {
+ test.Next(_L("TestDllUsage\n"));
+ test(KUidDebugSecurityServer == GetDSSUid());
+ }
+
+//----------------------------------------------------------------------------------------------
+//! @SYMTestCaseID KBase-T-RMDEBUG2-0812
+//! @SYMTestType
+//! @SYMPREQ PREQ1700
+//! @SYMTestCaseDesc Writes a known data to the crash flash and validates the data written
+//! using the read operation and finally erase the data. In the absence
+//! of an OEM debug token, access to the crash partition should not be allowed
+//! @SYMTestActions Invoke the flash write method in DSS and call the read method in DSS
+//! to validate the data is written correctly and then erase the written area
+//!
+//! @SYMTestExpectedResults KErrNone.
+//! @SYMTestPriority High
+//! @SYMTestStatus Implemented
+//----------------------------------------------------------------------------------------------
+void CRunModeAgent::TestCrashFlash(void)
+ {
+#if defined (SYMBIAN_STANDARDDEBUG) || defined (SYMBIAN_OEM2DEBUG)
+
+ test.Next(_L("@SYMTestCaseID:DT-debug-securityserver-006 Testing We cannot Erase the Crash Flash with insufficient privileges"));
+
+ TUint32 size = 0;
+ TInt err = iServSession.EraseCrashLog(0, 1);
+ test(KErrPermissionDenied == err);
+
+ test.Next(_L("@SYMTestCaseID:DT-debug-securityserver-005 Testing We can't Write to the Crash Flash with insufficient privileges"));
+
+ err = iServSession.WriteCrashConfig(0, KCrashDummyData, size);
+ test(KErrPermissionDenied == err);
+ test(size == 0);
+
+ test.Next(_L("@SYMTestCaseID:DT-debug-securityserver-008 Testing We can't Read from the Crash Flash with insufficient privileges"));
+
+ TUint32 readSize = 0x10;
+ RBuf8 buf;
+ buf.CleanupClosePushL();
+ err = buf.Create(readSize);
+
+ test(err == KErrNone);
+
+ err = iServSession.ReadCrashLog(0, buf, readSize);
+ test(KErrPermissionDenied == err);
+
+ test.Next(_L("@SYMTestCaseID:DT-debug-securityserver-004 Testing Writing To an invalid location"));
+
+ TUint32 writeSize = 0;
+ err = iServSession.WriteCrashConfig(0xFFFFFFFF, KCrashDummyData, writeSize);
+
+ test(err == KErrPermissionDenied);
+
+ test.Next(_L("@SYMTestCaseID:DT-debug-securityserver-003 Testing Reading from an invalid location"));
+
+ buf.FillZ();
+ err = iServSession.ReadCrashLog(0, buf, writeSize);
+
+ test(err == KErrPermissionDenied);
+
+ CleanupStack::PopAndDestroy(&buf);
+
+#endif
+
+#ifdef SYMBIAN_OEMDEBUG
+
+ TInt err = KErrNone;
+
+ test.Next(_L("@SYMTestCaseID:DT-debug-securityserver-007 Testing We can Erase the Crash Flash with sufficient privileges"));
+
+ err = iServSession.EraseCrashLog(0, 1);
+
+ //For platforms without a flash partition we get KErrNotFound - this is still a pass
+ if(KErrNotFound == err)
+ {
+ test.Printf(_L("Platform has no flash partition - continue"));
+ return;
+ }
+
+ test(KErrNone == err);
+
+ //Read back the start of the block to make sure its 0xFFFFFFFF
+ const TUint numBytesToCheck = 0x80; //We dont know the block size
+ TBuf8<numBytesToCheck> eraseCheck;
+ eraseCheck.SetLength(numBytesToCheck);
+
+ err = iServSession.ReadCrashLog(0, eraseCheck, numBytesToCheck);
+ test(err == KErrNone);
+
+ TBool dataIsOk = ETrue;
+ for(TUint cnt = 0; cnt < numBytesToCheck; cnt++)
+ {
+ if(eraseCheck[cnt] != 0xFF)
+ {
+ dataIsOk = EFalse;
+ }
+ }
+
+ test(dataIsOk);
+
+ test.Next(_L("@SYMTestCaseID:DT-debug-securityserver-002 Testing We can Write to the Crash Flash with sufficient privileges"));
+
+ TUint32 writeSize = 0;
+ err = iServSession.WriteCrashConfig(0, KCrashDummyData, writeSize);
+
+ test(writeSize == KCrashDummyData().Length());
+
+ test.Next(_L("@SYMTestCaseID:DT-debug-securityserver-001 Testing We can Read from the Crash Flash with sufficient privileges"));
+
+ RBuf8 buf;
+ buf.CleanupClosePushL();
+ err = buf.Create(writeSize);
+
+ test(err == KErrNone);
+
+ buf.FillZ();
+
+ err = iServSession.ReadCrashLog(0, buf, writeSize);
+
+ test(0 == buf.Compare(KCrashDummyData));
+
+ test.Next(_L("@SYMTestCaseID:DT-debug-securityserver-004 Testing Writing To an invalid location"));
+
+ writeSize = 0;
+ err = iServSession.WriteCrashConfig(0xFFFFFFFF, KCrashDummyData, writeSize);
+
+ test(err == KErrArgument);
+
+ test.Next(_L("@SYMTestCaseID:DT-debug-securityserver-003 Testing Reading from an invalid location"));
+
+ buf.FillZ();
+ err = iServSession.ReadCrashLog(0xFFFFFFFF, buf, writeSize);
+
+ test(err == KErrArgument);
+
+ CleanupStack::PopAndDestroy(&buf);
+
+#endif
+ }
+//----------------------------------------------------------------------------------------------
+//! @SYMTestCaseID KBase-T-RMDEBUG2-0735
+//! @SYMTestType
+//! @SYMPREQ PREQ1426
+//! @SYMTestCaseDesc Tests the Kill Process functionality. Only can kill a debuggable process.
+//! @SYMTestActions Launches a debuggable and non-debuggable process and tries to kill both.
+//!
+//! @SYMTestExpectedResults KErrNone.
+//! @SYMTestPriority High
+//! @SYMTestStatus Implemented
+//----------------------------------------------------------------------------------------------
+void CRunModeAgent::TestKillProcess(void)
+ {
+ test.Next(_L("TestKillProcess\n"));
+
+ // Kill a debuggable process
+
+ // check that killing a process is supported
+ TTag tag = GetTag(ETagHeaderIdKillObjects, EFunctionalityKillProcess);
+ test(tag.iValue);
+ // check that killing a thread is not supported
+ tag = GetTag(ETagHeaderIdKillObjects, EFunctionalityKillThread);
+ test(!tag.iValue);
+
+ // attach first!
+ TInt err = iServSession.AttachExecutable(KRMDebugTestApplication, EFalse /* Active */);
+ test(err == KErrNone);
+
+ // first launch a debuggable process
+ RProcess process;
+ err = LaunchProcess(process, KRMDebugTestApplication(),ESpinForever, 0, 0);
+ test (err == KErrNone);
+
+ // try to find the process in the list
+_LIT(KRMDebugAppName, "t_rmdebug_app");
+
+ TBool found = ProcessExists(KRMDebugAppName);
+ test (found);
+
+ // program now running, so try to kill it
+ err = iServSession.KillProcess(process.Id(), 0 /* kill reason */);
+ test(err == KErrNone);
+
+ process.Close();
+
+ User::After(2000000); // should die within two seconds.
+
+ // can we still find it? Should be gone
+ found = ProcessExists(KRMDebugAppName);
+ test (!found);
+
+ // release the program again.
+ err = iServSession.DetachExecutable(KRMDebugTestApplication);
+ test(err == KErrNone);
+
+ // Try to kill a non-debuggable process and fail.
+
+ // first launch a non-debuggable process
+ RProcess process2;
+ err = LaunchProcess(process2, KRMDebugSecurity1FileName(),ESpinForever, 0, 0);
+ test (err == KErrNone);
+
+ // try to find the process in the list
+_LIT(KRMDebugAppName2, "t_rmdebug_security1");
+
+ TBool found2 = ProcessExists(KRMDebugAppName2);
+ test (found2);
+
+ // program now running, so try to kill it
+ err = iServSession.KillProcess(process2.Id(), 0 /* kill reason */);
+ test(err == KErrPermissionDenied);
+
+ process2.Close();
+
+ User::After(2000000); // should die within two seconds if it is going to die.
+
+ // can we still find it? Should be still around!
+ found2 = ProcessExists(KRMDebugAppName2);
+ test (found2);
+
+ }
+
+//----------------------------------------------------------------------------------------------
+//! @SYMTestCaseID KBase-T-RMDEBUG2-1388
+//! @SYMTestType
+//! @SYMPREQ PREQ1426
+//! @SYMTestCaseDesc Tests the correct operation of the AddProcess and Remove Process
+//! @SYMTestActions 1. Registers for AddProcess and Remove Process events
+//! 2. Starts a test process z:\sys\bin\t_rmdebug_security0.exe
+//! 3. Wait for the AddProcess event to be reported
+//! 4. Kill the newly started test process
+//! 5. Wait for the RemoveProcess event to be reported
+//! 6. Tell the DSS it is no longer interested in AddProcess and RemoveProcess events
+//!
+//! @SYMTestExpectedResults KErrNone.
+//! @SYMTestPriority High
+//! @SYMTestStatus Implemented
+//----------------------------------------------------------------------------------------------
+
+void CRunModeAgent::TestAddRemoveProcessEvents()
+ {
+ test.Next(_L("TestAddRemoveProcessEvents\n"));
+
+ // attach to a process (e.g. one of the simple security test programs)
+ // launch the security program
+ // wait for the add event
+ // continue the program.
+ // wait for the remove event
+ // detach process
+
+ test(KErrNone == iServSession.AttachExecutable(KRMDebugSecurity0FileName, EFalse));
+
+ test(KErrNone == iServSession.SetEventAction(KRMDebugSecurity0FileName,EEventsAddProcess, EActionContinue));
+
+ test(KErrNone == iServSession.SetEventAction(KRMDebugSecurity0FileName,EEventsRemoveProcess, EActionContinue));
+
+ // Creator thread ID of the current thread (to be creator of test application)
+ TInt creatorThreadId = RThread().Id();
+
+ RProcess process;
+ TInt err = process.Create(KRMDebugSecurity0FileName, KNullDesC, EOwnerProcess);
+ test (err == KErrNone);
+
+ // Rendezvous with process
+ TRequestStatus status;
+ process.Rendezvous(status);
+
+ // Start the test program
+ process.Resume();
+ User::WaitForRequest(status);
+ test(status==KErrNone);
+
+ // Wait for the addprocess event
+ TEventInfo info;
+ TPtr8 infoPtr((TUint8*)&info,0,sizeof(TEventInfo));
+
+ iServSession.GetEvent(KRMDebugSecurity0FileName,status,infoPtr);
+
+ // Wait for notification of the addprocess hit event
+ User::WaitForRequest(status);
+ test(status==KErrNone);
+
+ // Check this was the right kind of event
+ test(info.iEventType == EEventsAddProcess);
+
+ const TInt uid3offset = 2;
+
+ // Get UID3 for current process
+ TUint32 Uid3 = process.Type()[uid3offset].iUid;
+
+ // Check correct UID3 is returned from the driver
+ test(info.iAddProcessInfo.iUid3 == Uid3);
+
+ // Check correct creator ID for test application is returned from the driver
+ test(info.iAddProcessInfo.iCreatorThreadId == creatorThreadId);
+
+ // Kill the process, as we don't need it anymore
+ process.Kill(KErrNone);
+
+ // Wait for the remove process event
+ iServSession.GetEvent(KRMDebugSecurity0FileName,status,infoPtr);
+
+ // Wait for notification of the remove process hit event
+ User::WaitForRequest(status);
+ test(status==KErrNone);
+
+ // Check this was the right kind of event
+ test(info.iEventType == EEventsRemoveProcess);
+
+ test(KErrNone == iServSession.SetEventAction(KRMDebugSecurity0FileName,EEventsRemoveProcess, EActionIgnore));
+
+ test(KErrNone == iServSession.SetEventAction(KRMDebugSecurity0FileName,EEventsAddProcess, EActionIgnore));
+
+ test(KErrNone == iServSession.DetachExecutable(KRMDebugSecurity0FileName));
+
+ }
+
+//----------------------------------------------------------------------------------------------
+//! @SYMTestCaseID KBase-T-RMDEBUG2-0736
+//! @SYMTestType
+//! @SYMPREQ PREQ1426
+//! @SYMTestCaseDesc Checks that process break points can be set, and that they can co-exist alongside thread breakpoints
+//! @SYMTestActions Checks that process break points can be set, and that they can co-exist alongside thread breakpoints
+//!
+//! @SYMTestExpectedResults KErrNone.
+//! @SYMTestPriority High
+//! @SYMTestStatus Implemented
+//----------------------------------------------------------------------------------------------
+void CRunModeAgent::TestProcessBreakPoints(void)
+ {
+ test.Next(_L("TestProcessBreakPoints\n"));
+
+ // check that process breakpoints are supported
+ TTag tag = GetTag(ETagHeaderIdBreakpoints, EBreakpointProcess);
+ test(tag.iValue);
+
+ test(KErrNone == iServSession.AttachExecutable(iFileName, EFalse));
+ test(KErrNone == iServSession.SuspendThread(iThreadID));
+
+ // Try to set the breakpoint
+ TBreakId breakId;
+ TUint32 address = (TUint32)(&RMDebug_BranchTst1);
+ RProcess process;
+ TProcessId processId = process.Id();
+ process.Close();
+
+ test(KErrNone == iServSession.SetProcessBreak(breakId, processId, address, EArmMode));
+ test(KErrAlreadyExists == iServSession.SetBreak(breakId, iThreadID, address, EArmMode));
+ test(KErrAlreadyExists == iServSession.SetBreak(breakId, iThreadID, address, EThumbMode));
+ test(KErrAlreadyExists == iServSession.SetProcessBreak(breakId, processId, address, EArmMode));
+ test(KErrAlreadyExists == iServSession.SetProcessBreak(breakId, processId, address, EThumbMode));
+ test(KErrNone == iServSession.ClearBreak(breakId));
+
+ test(KErrNone == iServSession.SetBreak(breakId, iThreadID, address, EArmMode));
+ test(KErrAlreadyExists == iServSession.SetProcessBreak(breakId, processId, address, EArmMode));
+ test(KErrAlreadyExists == iServSession.SetProcessBreak(breakId, processId, address, EThumbMode));
+ test(KErrNone == iServSession.ClearBreak(breakId));
+
+ test(KErrNone == iServSession.ResumeThread(iThreadID));
+
+ test(KErrNone == iServSession.DetachExecutable(iFileName));
+ }
+
+//----------------------------------------------------------------------------------------------
+//! @SYMTestCaseID KBase-T-RMDEBUG2-1309
+//! @SYMTestType
+//! @SYMPREQ PREQ1426
+//! @SYMTestCaseDesc Checks that in the case of multiple low priority events (user traces in this case) we can still receive higher
+//! priority events should the buffer reach a critical level
+//! @SYMTestActions Run to first breakpoint in our test code. Then multiple trace events are issued. We should still be able to hit
+//! the second breakpoint
+//!
+//! @SYMTestExpectedResults KErrNone.
+//! @SYMTestPriority High
+//! @SYMTestStatus Implemented
+//----------------------------------------------------------------------------------------------
+
+void CRunModeAgent::TestMultipleTraceEvents(void)
+ {
+ //Dont run the test for an SMP System
+ if (UserSvr::HalFunction(EHalGroupKernel, EKernelHalSmpSupported, 0, 0) == KErrNone)
+ return;
+
+ test.Next(_L("TestMultipleTraceEvents\n"));
+
+ //attach to target debug process
+ test(KErrNone == iServSession.AttachExecutable(iFileName, EFalse));
+
+ //and suspend the thread
+ test(KErrNone == iServSession.SuspendThread(iThreadID));
+
+ //register interest in BP's & trace events and trace ignored events
+ test(KErrNone == iServSession.SetEventAction(iFileName,EEventsBreakPoint, EActionSuspend));
+ test(KErrNone == iServSession.SetEventAction(iFileName,EEventsUserTrace, EActionContinue));
+ test(KErrNone == iServSession.SetEventAction(iFileName,EEventsUserTracesLost, EActionContinue));
+
+ // Try to set the breakpoints
+ TBreakId armBreakId;
+ TBreakId armBreakId2;
+ TUint32 address = (TUint32)(&RMDebug_BranchTst1);
+ TUint32 address2 = (TUint32)(&RMDebug_StepTest_Non_PC_Modifying);
+
+ test(KErrNone == iServSession.SetBreak(armBreakId,iThreadID,address,EArmMode));
+ test(KErrNone == iServSession.SetBreak(armBreakId2,iThreadID,address2,EArmMode));
+
+ //set the target thread to execute the trace test function
+ test(KErrNone == SwitchTestFunction(EMultipleTraceCalls));
+
+ // Continue the thread
+ test(KErrNone == iServSession.ResumeThread(iThreadID));
+
+ // wait for the breakpoint to be hit
+ TEventInfo info;
+ static TRequestStatus status;
+
+ TPtr8 infoPtr((TUint8*)&info,0,sizeof(TEventInfo));
+ iServSession.GetEvent(iFileName,status,infoPtr);
+
+ // Wait for notification of the 1st breakpoint hit event
+ User::WaitForRequest(status);
+ test(status==KErrNone);
+
+ // info should now be filled with the details
+ test(info.iEventType == EEventsBreakPoint);
+ test(info.iThreadBreakPointInfo.iRmdArmExcInfo.iR15 == address);
+ test(info.iProcessIdValid);
+ test(info.iThreadIdValid);
+
+ // Continue the thread
+ test(KErrNone == iServSession.ResumeThread(iThreadID));
+
+ //Now we try to hit the second breakpoint. This will occur after a number of trace calls. If we hit this breakpoint it
+ //means many trace calls are not preventing us hitting breakpoints.
+ iServSession.GetEvent(iFileName,status,infoPtr);
+
+ // Wait for notification of the 2nd breakpoint hit event
+ User::WaitForRequest(status);
+ test(status==KErrNone);
+
+ TBool receivedTracesLost = EFalse;
+
+ while(info.iEventType == EEventsUserTrace || info.iEventType == EEventsUserTracesLost)
+ {
+ //ensure we get told traces are being thrown away - we generate enough to flood the buffer
+ if(info.iEventType == EEventsUserTracesLost)
+ {
+ receivedTracesLost = ETrue;
+ }
+
+ iServSession.GetEvent(iFileName,status,infoPtr);
+
+ // Wait for notification of the 2nd breakpoint hit event
+ User::WaitForRequest(status);
+ test(status==KErrNone);
+ }
+
+ //make sure we got told traces were lost
+ test(receivedTracesLost != EFalse);
+
+ // info should now be filled with the details of our breakpoint.
+ test(info.iEventType == EEventsBreakPoint);
+ test(info.iThreadBreakPointInfo.iRmdArmExcInfo.iR15 == address2);
+ test(info.iProcessIdValid);
+ test(info.iThreadIdValid);
+
+ //dont care for breakpoints or trace events no more
+ test(KErrNone == iServSession.SetEventAction(iFileName,EEventsBreakPoint, EActionIgnore));
+ test(KErrNone == iServSession.SetEventAction(iFileName,EEventsUserTrace, EActionIgnore));
+ test(KErrNone == iServSession.SetEventAction(iFileName,EEventsUserTracesLost, EActionIgnore));
+
+ //clear the breaks we set
+ test(KErrNone == iServSession.ClearBreak(armBreakId));
+ test(KErrNone == iServSession.ClearBreak(armBreakId2));
+
+ // Continue the thread
+ test(KErrNone == iServSession.ResumeThread(iThreadID));
+
+ //attach to target debug process
+ test(KErrNone == iServSession.DetachExecutable(iFileName));
+
+ }
+
+//----------------------------------------------------------------------------------------------
+//! @SYMTestCaseID KBase-T-RMDEBUG2-2441
+//! @SYMTestType
+//! @SYMPREQ PREQ1426
+//! @SYMTestCaseDesc Test clearing of a process breakpoint once the process has been killed.
+//! @SYMTestActions Creates a new process then tries to set a process breakpoint and then kills the process which should clear the previously set breakpoint. Then repeat the step once again.
+//! @SYMTestExpectedResults KErrNone
+//! @SYMTestPriority High
+//! @SYMTestStatus Implemented
+//----------------------------------------------------------------------------------------------
+
+void CRunModeAgent::TestProcessKillBreakpoint(void)
+ {
+ //Dont run the test for an SMP System
+ if (UserSvr::HalFunction(EHalGroupKernel, EKernelHalSmpSupported, 0, 0) == KErrNone)
+ return;
+
+ test.Next(_L("TestProcessKillBreakpoint\n"));
+ //SID retrieved, used in Define/Attach of the property
+ iMySid.iUid = RProcess().SecureId();
+
+ static _LIT_SECURITY_POLICY_PASS(KAllowAllPolicy);
+
+ //define a property to pass on the address from the other process we would try to debug
+ test ( KErrNone == RProperty::Define(iMySid, EMyPropertyInteger, RProperty::EInt, KAllowAllPolicy, KAllowAllPolicy));
+ //define a global semaphore to synchronise with debuggable process publishing the property
+ test ( KErrNone == iAddressGlobSem.CreateGlobal(_L("RMDebugGlobSem"), 0) );
+
+ DoTestProcessKillBreakpoint();
+ // called once again
+ // to check if we can set the breakpoint once again after the process gets killed
+ DoTestProcessKillBreakpoint();
+
+ //delete the property
+ test ( KErrNone == RProperty::Delete(iMySid, EMyPropertyInteger));
+ //close the semaphore
+ iAddressGlobSem.Close();
+ }
+
+void CRunModeAgent::DoTestProcessKillBreakpoint()
+ {
+ test.Printf(_L("\nDoTestProcessKillBreakpoint\n"));
+
+ TInt err = KErrNone;
+
+ // check that killing a process is supported
+ TTag tag = GetTag(ETagHeaderIdKillObjects, EFunctionalityKillProcess);
+ test(tag.iValue);
+ // check that killing a thread is not supported
+ tag = GetTag(ETagHeaderIdKillObjects, EFunctionalityKillThread);
+ test(!tag.iValue);
+
+ // attach first!
+ test ( KErrNone == iServSession.AttachExecutable(KRMDebugTestApplication, EFalse/* Active */));
+
+ // first launch a debuggable process
+ RProcess processDebug;
+ test ( KErrNone == LaunchProcess(processDebug, KRMDebugTestApplication(),ESpinForeverWithBreakPoint, 0, 0));
+
+ // try to find the process in the list
+ _LIT(KRMDebugAppName, "t_rmdebug_app");
+ TBool found = ProcessExists(KRMDebugAppName);
+ test (found);
+
+ //search for the main thread created
+ _LIT(KThreadWildCard, "t_rmdebug_app*");
+ TProcessId processDebugId = processDebug.Id();
+ TThreadId threadDebugId;
+
+ TFindThread find(KThreadWildCard);
+ TFullName name;
+ found = EFalse;
+ while(find.Next(name)==KErrNone && !found)
+ {
+ RThread thread;
+ err = thread.Open(find);
+ if (err == KErrNone)
+ {
+ RProcess process;
+ thread.Process(process);
+ if (((TUint32)process.Id() == processDebugId))
+ {
+ TFullName fullname = thread.FullName();
+ test.Printf(_L("Match Found Name %lS Process ID%ld Thread Id %ld"), &fullname, process.Id().Id(), thread.Id().Id());
+ found = ETrue;
+ threadDebugId = thread.Id();
+ }
+ process.Close();
+ }
+ thread.Close();
+ }
+
+ test (found); //check if we actually found the thread we want to debug
+
+ //get the value(property) for the breakpoint address for the process to debug
+ TInt address;
+ RProperty integerProperty;
+ test ( KErrNone == integerProperty.Attach(iMySid, EMyPropertyInteger, EOwnerThread));
+
+ //waiting on semaphore to be sure that the property is set
+ iAddressGlobSem.Wait();
+
+ test ( KErrNone == integerProperty.Get(address));
+ integerProperty.Close();
+
+ test.Printf(_L("Address retrieved to set breakpoint 0x%8x"), address);
+
+ //suspend the thread before we set a breakpoint
+ test ( KErrNone == iServSession.SuspendThread(threadDebugId));
+
+ //set a process breakpoint
+ TBreakId breakId;
+ test(KErrNone == iServSession.SetProcessBreak(breakId, processDebugId, address, EArmMode));
+
+ test(KErrNone ==iServSession.SetEventAction(KRMDebugTestApplication,EEventsProcessBreakPoint, EActionContinue));
+
+ //resume the thread now
+ test(KErrNone == iServSession.ResumeThread(threadDebugId));
+
+ // wait for the breakpoint to be hit
+ static TRequestStatus status;
+ TEventInfo info;
+ TPtr8 infoPtr((TUint8*)&info,0,sizeof(TEventInfo));
+ iServSession.GetEvent(KRMDebugTestApplication,status,infoPtr);
+ // Wait for notification of the breakpoint hit event
+ User::WaitForRequest(status);
+ test(status==KErrNone);
+
+ // info should now be filled with the details
+ test(info.iEventType == EEventsProcessBreakPoint);
+ test(info.iThreadBreakPointInfo.iRmdArmExcInfo.iR15 == address);
+ test(info.iProcessIdValid);
+ test(info.iThreadIdValid);
+
+ // Not interested in breakpoint events any more
+ test(KErrNone == iServSession.SetEventAction(KRMDebugTestApplication, EEventsProcessBreakPoint, EActionIgnore));
+
+ // program now running, so try to kill it which should clear all the breakpoints
+ test(KErrNone == iServSession.KillProcess(processDebugId, 0 /* kill reason */ ));
+
+ processDebug.Close();
+ User::After(2000000); // should die within two seconds.
+
+ // can we still find it? Should be gone
+ found = ProcessExists(KRMDebugAppName);
+ test (!found);
+
+ // release the program again
+ test(KErrNone == iServSession.DetachExecutable(KRMDebugTestApplication));
+
+ }
+
+void CRunModeAgent::HelpTestSecurityAttachDetachExecutable(const TDesC& aProcessName, TBool aExpectSuccess)
+ {
+ RProcess process;
+ TInt err = process.Create(aProcessName, KNullDesC, EOwnerProcess);
+ test (err == KErrNone);
+
+ // rendezvous with process
+ TRequestStatus status;
+ process.Rendezvous(status);
+
+ // start the test program
+ process.Resume();
+ User::WaitForRequest(status);
+ test(status==KErrNone);
+
+ // attach to the program (passively)
+ err = iServSession.AttachExecutable(aProcessName, EFalse);
+
+ // Do we expect to successfully attach
+ if (aExpectSuccess)
+ {
+ // Yes
+ test(KErrNone == err);
+
+ // Now detach again
+ test(KErrNone == iServSession.DetachExecutable(aProcessName));
+ }
+ else
+ {
+ // No
+ test(KErrPermissionDenied == err);
+
+ // Just to be sure, try active attachment
+ test(KErrPermissionDenied == iServSession.AttachExecutable(aProcessName, ETrue));
+ }
+
+ // Kill the process, as we don't need it anymore
+ process.Kill(KErrNone);
+ }
+
+void CRunModeAgent::ReportPerformance(void)
+//
+// Reports performance metrics from all the tests
+//
+ {
+ test.Printf(_L("\nPerformance\n"));
+ test.Printf(_L("========================\n"));
+
+ // Memory
+ test.Printf(_L("Memory read: %d KBytes/sec\n"),iMemoryReadKbytesPerSecond);
+ test.Printf(_L("Memory write: %d KBytes/sec\n"),iMemoryWriteKbytesPerSecond);
+
+ // Registers
+ // to do
+
+ // events
+ // to do
+
+ // Breakpoints
+ test.Printf(_L("Breakpoint set/clear: %d/sec\n"),iBreakpointsPerSecond);
+ test.Printf(_L("Maximum number of breakpoints: %d\n"),iMaxBreakpoints);
+
+ // Stepping
+ test.Printf(_L("Stepping speed: %d/sec\n"),iStepsPerSecond);
+
+ // Runtime
+ TInt ticks = HelpGetTestTicks();
+ test (ticks != 0);
+
+ TInt nkTicksPerSecond = HelpTicksPerSecond();
+ test (nkTicksPerSecond != 0);
+
+ test.Printf(_L("Total test runtime: %d seconds\n"),ticks/nkTicksPerSecond);
+
+ // Final sizes of executables/rom/ram etc
+ // to do
+
+ test.Printf(_L("\n"));
+ }
+
+/**
+ * Helper code for the stepping tests. Sets a breakpoint in a running thread.
+ * It suspends the thread, sets the breakpoint, and resumes the thread.
+ *
+ * @param aBreakId - Reference to a TBreakId which will be set when the breakpoint is set
+ * @param aThreadId - The thread id for which we should set the breakpoint.
+ * @param aBreakAddress - The address to set the breakpoint
+ * @param aMode - The architecture of the breakpoint to be set (ARM/Thumb/Thumb2EE)
+ * @return KErrNone if successful. One of the other system wide error codes otherwise.
+ */
+TInt CRunModeAgent::HelpTestStepSetBreak(TBreakId& aBreakId, TThreadId aThreadId, const TUint32 aBreakAddress, TArchitectureMode aMode, TBool aThreadSpecific, TProcessId aProcessId)
+ {
+ TInt err = KErrNone;
+
+ // Suspend the thread
+ err = iServSession.SuspendThread(aThreadId);
+ if (err != KErrNone)
+ {
+ test.Printf(_L("HelpTestStepSetBreak - Failed to suspend thread\n"));
+ return err;
+ }
+
+ // Set the breakpoint
+ err = aThreadSpecific
+ ? iServSession.SetBreak(aBreakId,aThreadId,aBreakAddress,aMode)
+ : iServSession.SetProcessBreak(aBreakId, aProcessId, aBreakAddress, aMode);
+ if (err != KErrNone)
+ {
+ test.Printf(_L("HelpTestStepSetBreak - Failed to set breakpoint\n"));
+ return err;
+ }
+
+ // Continue the thread
+ err = iServSession.ResumeThread(aThreadId);
+ if (err != KErrNone)
+ {
+ test.Printf(_L("HelpTestStepSetBreak - Failed to resume thread\n"));
+ return err;
+ }
+
+ return KErrNone;
+ }
+
+/**
+ * Helper code for the stepping tests. Clears a breakpoint in a running thread.
+ * It suspends the thread, clears the breakpoint, and resumes the thread.
+ *
+ * @param aBreakId - Reference to a TBreakId which will be set when the breakpoint is set
+ * @return KErrNone if successful. One of the other system wide error codes otherwise.
+ */
+TInt CRunModeAgent::HelpTestStepClearBreak(TBreakId aBreakId, const TThreadId aThreadId, TBool aThreadSpecific)
+ {
+ TInt err = KErrNone;
+
+ // Find out what thread id we need to suspend
+ TThreadId threadId;
+ TProcessId processId;
+ TUint32 address;
+ TArchitectureMode mode;
+
+ err = aThreadSpecific
+ ? iServSession.BreakInfo(aBreakId, threadId, address, mode)
+ : iServSession.ProcessBreakInfo(aBreakId, processId, address, mode);
+ if (err != KErrNone )
+ {
+ test.Printf(_L("HelpTestStepClearBreak - failed to obtain information for breakpoint\n"));
+ return err;
+ }
+ if(aThreadSpecific && aThreadId != threadId)
+ {
+ test.Printf(_L("HelpTestStepClearBreak - mismatched thread Ids\n"));
+ return KErrGeneral;
+ }
+
+ // Suspend the thread
+ err = iServSession.SuspendThread(aThreadId);
+ if (!(err == KErrNone || err == KErrAlreadyExists))
+ {
+ test.Printf(_L("HelpTestStepClearBreak - failed to suspend thread\n"));
+ return err;
+ }
+
+ // Clear the breakpoint
+ err = iServSession.ClearBreak(aBreakId);
+ if (err != KErrNone)
+ {
+ test.Printf(_L("HelpTestStepClearBreak - failed to clear breakpoint\n"));
+ return err;
+ }
+
+ // Continue the thread
+ err = iServSession.ResumeThread(aThreadId);
+ if (!(err == KErrNone || err == KErrNotFound))
+ {
+ test.Printf(_L("HelpTestStepClearBreak - failed to resume thread\n"));
+ return err;
+ }
+
+ return KErrNone;
+ }
+
+/**
+ * Helper code for the stepping tests. Waits for a previously set breakpoint to be hit.
+ *
+ * @param aProcessName - The name of the process in which the breakpoint is set. E.g. z:\sys\bin\app.exe
+ * @param aEventInfo - The event information block which is filled in when the breakpoint is hit.
+ * @return KErrNone if successful. One of the other system wide error codes otherwise.
+ */
+TInt CRunModeAgent::HelpTestStepWaitForBreak(const TDesC& aProcessName, TEventInfo& aEventInfo)
+ {
+ static TRequestStatus status;
+
+ TPtr8 infoPtr((TUint8*)&aEventInfo,0,sizeof(TEventInfo));
+
+ iServSession.GetEvent(aProcessName,status,infoPtr);
+
+ // Wait for notification of the breakpoint hit event
+ User::WaitForRequest(status);
+ if (status == KErrNone)
+ {
+ return KErrNone;
+ }
+ else
+ {
+ return KErrGeneral;
+ }
+ }
+
+/**
+ * Helper code for the stepping tests. Reads the current target PC for a given thread.
+ *
+ * @param aThreadId - Thread id for which to read the current target PC.
+ * @param aPc - Reference to a TUint32 which will be set to the current target PC.
+ * @return KErrNone if successful. One of the other system wide error codes otherwise.
+ */
+TInt CRunModeAgent::HelpTestStepReadPC(TThreadId aThreadId, TUint32& aPC)
+ {
+ TInt err = KErrNone;
+
+ //create buffer containing PC register ID
+ RBuf8 pcId;
+ err = pcId.Create(sizeof(TRegisterInfo));
+ if (err != KErrNone)
+ {
+ return err;
+ }
+
+ TRegisterInfo reg1 = (TRegisterInfo)0x00000f00;
+ pcId.Append(reinterpret_cast<const TUint8*>(®1), sizeof(TRegisterInfo));
+
+ //create buffer containing desired PC value
+ TPtr8 pcValue((TUint8*)&aPC,4,4);
+
+ //create buffer for PC flag value
+ RBuf8 pcFlag;
+ err = pcFlag.Create(sizeof(TUint8));
+
+ //read the new PC value
+ err = iServSession.ReadRegisters(aThreadId, pcId, pcValue, pcFlag);
+ if (err != KErrNone)
+ {
+ //delete temporary buffers
+ pcId.Close();
+ pcFlag.Close();
+ return err;
+ }
+
+ //get the flag and check the PC value was read ok
+ TRegisterFlag flag = ENotSupported;
+ err = GetFlag(pcFlag, 0, flag);
+ if (err != KErrNone)
+ {
+ //delete temporary buffers
+ pcId.Close();
+ pcFlag.Close();
+ return err;
+ }
+
+ if (flag == EValid)
+ {
+ //delete temporary buffers
+ pcId.Close();
+ pcFlag.Close();
+ return KErrNone;
+ }
+ else
+ {
+ //delete temporary buffers
+ pcId.Close();
+ pcFlag.Close();
+ return err;
+ }
+ }
+
+/**
+ * Helper code for the stepping tests. Single steps a given thread from aStartAddress to aEndAddress. Note
+ * that it reaches aStartAddress by setting a breakpoint at that address and waiting until it is hit.
+ *
+ * @param aThreadId - Thread id for which to read the current target PC.
+ * @param aStartAddress - The target address at which stepping will start.
+ * @param aEndAddress - The target address at which stepping will end.
+ * @param aMode - The architecture of the breakpoint which must be set at the start address (ARM/Thumb/Thumb2EE).
+ * @return KErrNone if successful. One of the other system wide error codes otherwise.
+ */
+TInt CRunModeAgent::HelpTestStep(TThreadId aThreadId, TUint32 aStartAddress, TUint32 aEndAddress, TArchitectureMode aMode, TUint aNumSteps, TBool aThreadSpecific, TProcessId aProcessId)
+ {
+ TInt err = KErrNone;
+
+ // Ensure that the supplied addresses are word/half-word aligned as appropriate.
+ if (aMode == EArmMode)
+ {
+ // ARM breakpoints must be word-aligned (2 lsb must be zero)
+ aStartAddress &= 0xFFFFFFFC;
+ aEndAddress &= 0xFFFFFFFC;
+ }
+ else if (aMode == EThumbMode)
+ {
+ // Thumb breakpoints must be half-word aligned (lsb must be zero)
+ aStartAddress &= 0xFFFFFFFE;
+ aEndAddress &= 0xFFFFFFFE;
+ }
+ else if (aMode == EThumb2EEMode)
+ {
+ // Thumb2EE breakpoints are not currently supported
+ return KErrNotSupported;
+ }
+
+ // Set breakpoint at the start address
+ TBreakId tempBreakId;
+ TEventInfo info;
+
+ err = HelpTestStepSetBreak(tempBreakId,aThreadId,aStartAddress,aMode,aThreadSpecific,aProcessId);
+ if (err != KErrNone)
+ {
+ test.Printf(_L("HelpTestStep - Failed to set breakpoint at aStartAddress 0x%08x\n"),aStartAddress);
+ return err;
+ }
+
+ // wait for the breakpoint to be hit
+ err = HelpTestStepWaitForBreak(iFileName,info);
+ if (err != KErrNone)
+ {
+ test.Printf(_L("HelpTestStep - Failed to hit the breakpoint at aStartAddress 0x%08x\n"),aStartAddress);
+ return err;
+ }
+
+ // Check the PC == aStartAddress
+ TUint32 pc = 0;
+ err = HelpTestStepReadPC(aThreadId,pc);
+ if (err != KErrNone)
+ {
+ test.Printf(_L("HelpTestStep - Failed to read the PC after hitting breakpoint at aStartAddress 0x%08x\n"),aStartAddress);
+ return err;
+ }
+
+ if (pc != aStartAddress)
+ {
+ test.Printf(_L("HelpTestStep - Incorrect PC value after hitting breakpoint (expected 0x%08x actual 0x%08x)\n"),aStartAddress,pc);
+ return KErrGeneral;
+ }
+
+ err = iServSession.Step(aThreadId,aNumSteps);
+ if (err != KErrNone)
+ {
+ test.Printf(_L("HelpTestStep - Failed to do step from 0x%08x to 0x%08x\n"),aStartAddress,aEndAddress,aNumSteps);
+ return err;
+ }
+
+ // only one 'completed step' event in the buffer.
+ err = HelpTestStepWaitForBreak(iFileName,info);
+ if (err != KErrNone)
+ {
+ test.Printf(_L("HelpTestStep - Could not read breakpoint event info after stepping"));
+ return err;
+ }
+ // end
+
+ // Check PC == aEndAddress
+ err = HelpTestStepReadPC(aThreadId,pc);
+ if (err != KErrNone)
+ {
+ test.Printf(_L("HelpTestStep - failed read the PC after stepping\n"));
+ return err;
+ }
+ if (pc != aEndAddress)
+ {
+ test.Printf(_L("HelpTestStep - Incorrect PC value after stepping (expected 0x%08x actual 0x%08x)\n"),aEndAddress,pc);
+ return KErrGeneral;
+ }
+
+ // Clear the breakpoint
+ err = HelpTestStepClearBreak(tempBreakId, aThreadId, aThreadSpecific);
+ if (err != KErrNone)
+ {
+ test.Printf(_L("HelpTestStep - failed to clear temporary breakpoint\n"));
+ return err;
+ }
+
+ return KErrNone;
+ }
+
+/**
+ * Helper code for the stepping tests. Returns the number of nanokernel ticks in one second.
+ *
+ * @return Number of nanokernel ticks. 0 if unsuccesful.
+ */
+TInt CRunModeAgent::HelpTicksPerSecond(void)
+ {
+ TInt nanokernel_tick_period;
+ HAL::Get(HAL::ENanoTickPeriod, nanokernel_tick_period);
+
+ ASSERT(nanokernel_tick_period != 0);
+
+ static const TInt KOneMillion = 1000000;
+
+ return KOneMillion/nanokernel_tick_period;
+ }
+
+/**
+ Given aTestNumber runs the appropriate test inside heap markers
+
+ @param aTestNumber test to run, corresponds to an entry in iTestArray
+
+ @panic Panic if aTestNumber is not in valid range
+ */
+void CRunModeAgent::RunTest(TInt aTestNumber)
+ {
+ if( (aTestNumber<0) || (aTestNumber>=KMaxTests) )
+ {
+ User::Panic(_L("Test number out of range"), aTestNumber);
+ }
+ __UHEAP_MARK;
+ (this->*(iTestArray[aTestNumber].iFunctionPtr))();
+ __UHEAP_MARKEND;
+ }
+
+void CRunModeAgent::PrintVersion()
+ {
+ test.Printf(_L("\nt_rmdebug2.exe\nVersion: %S\n"), &(testVersion.Name()));
+ test.Printf(_L("Press any key...\n"));
+ test.Getch();
+ }
+
+void CRunModeAgent::PrintUsage()
+ {
+ test.Printf(_L("Invoke with arguments:\n"));
+ test.Printf(_L("-r: run specified tests in reverse order\n"));
+ test.Printf(_L("-h: display usage information\n"));
+ test.Printf(_L("-v: display version\n"));
+ test.Printf(_L("<number>: test number to run, can specify more than one from the following list:\n"));
+ test.Printf(_L("Press any key for list...\n"));
+ test.Getch();
+ // if there are too many of these they won't fit on the screen! Stick another Getch() in if there get too many
+ for(TInt i=0; i<KMaxTests; i++)
+ {
+ test.Printf(_L("%2d: %S\n"), i, &(iTestArray[i].iFunctionName));
+ }
+ test.Printf(_L("Press any key...\n"));
+ test.Getch();
+ }
+
+/**
+ Parse the command line, see CRunModeAgent::PrintUsage for syntax
+ */
+void CRunModeAgent::ParseCommandLineL(TUint32& aMode, RArray<TInt>& aTests)
+ {
+ // get the length of the command line arguments
+ TInt argc = User::CommandLineLength();
+
+ // allocate a buffer for the command line arguments and extract the data to it
+ HBufC* commandLine = HBufC::NewLC(argc);
+ TPtr commandLineBuffer = commandLine->Des();
+ User::CommandLine(commandLineBuffer);
+
+ // reset mode
+ aMode = (TTestMode)0;
+
+ // create a lexer and read through the command line
+ TLex lex(*commandLine);
+ while (!lex.Eos())
+ {
+ // expecting the first character to be a '-'
+ if (lex.Get() == '-')
+ {
+ TChar arg = lex.Get();
+ switch (arg)
+ {
+ case 'v':
+ //print out the help
+ aMode |= EModeVersion;
+ break;
+ case 'h':
+ //print out the help
+ aMode |= EModeHelp;
+ break;
+ case 'r':
+ //store the fact that we want to run in reverse
+ aMode |= EModeReverse;
+ break;
+ default:
+ // unknown argument so leave
+ User::Leave(KErrArgument);
+ }
+ }
+ else
+ {
+ lex.UnGet();
+ TInt testNumber;
+ User::LeaveIfError(lex.Val(testNumber));
+ if( (testNumber<0) || (testNumber>=KMaxTests) )
+ {
+ User::Leave(KErrArgument);
+ }
+ aTests.AppendL(testNumber);
+ }
+ lex.SkipSpace();
+ }
+ // if no tests specified then run them all
+ if(aTests.Count() == 0)
+ {
+ aMode |= EModeAll;
+ }
+
+ // do clean up
+ CleanupStack::PopAndDestroy(commandLine);
+ }
+
+void CRunModeAgent::ClientAppL()
+//
+// Performs each test in turn
+//
+ {
+ test.Start(_L("ClientAppL"));
+
+ RArray<TInt> testsToRun;
+ TUint32 testMode = 0;
+ ParseCommandLineL(testMode, testsToRun);
+
+ //if help or version mode specified then just print out the relevant stuff and quit
+ if((testMode & EModeHelp) || (testMode & EModeVersion))
+ {
+ if(testMode & EModeHelp)
+ {
+ PrintUsage();
+ }
+ if(testMode & EModeVersion)
+ {
+ PrintVersion();
+ }
+ test.End();
+ return;
+ }
+
+ if(testMode & EModeAll)
+ {
+ for(TInt i=0; i<KMaxTests; i++)
+ {
+ testsToRun.AppendL(i);
+ }
+ }
+
+ // if EModeReverse specified then reverse the array elements
+ TInt numberOfTests = testsToRun.Count();
+ if(testMode & EModeReverse)
+ {
+ for(TInt i=0; i<(numberOfTests>>1); i++)
+ {
+ TInt temp = testsToRun[i];
+ testsToRun[i] = testsToRun[numberOfTests - (i+1)];
+ testsToRun[numberOfTests - (i+1)] = temp;
+ }
+ }
+
+ __UHEAP_MARK;
+ SetupAndAttachToDSS();
+ __UHEAP_MARKEND;
+
+ HelpStartTestTimer();
+ for(TInt i=0; i<numberOfTests; i++)
+ {
+ RunTest(testsToRun[i]);
+ }
+ testsToRun.Close();
+
+ HelpStopTestTimer();
+
+ ReportPerformance();
+
+ test.End();
+ }
+
+/**
+ Fill the test array with pointers to each test.
+ */
+void CRunModeAgent::FillArray()
+ {
+ iTestArray[0].iFunctionPtr = &CRunModeAgent::TestDriverSecurity;
+ iTestArray[0].iFunctionName = _L("TestDriverSecurity");
+ iTestArray[1].iFunctionPtr = &CRunModeAgent::TestDllUsage;
+ iTestArray[1].iFunctionName = _L("TestDllUsage");
+ iTestArray[2].iFunctionPtr = &CRunModeAgent::TestSecurity;
+ iTestArray[2].iFunctionName = _L("TestSecurity");
+ iTestArray[3].iFunctionPtr = &CRunModeAgent::TestAttachExecutable;
+ iTestArray[3].iFunctionName = _L("TestAttachExecutable");
+ iTestArray[4].iFunctionPtr = &CRunModeAgent::TestGetExecutablesList;
+ iTestArray[4].iFunctionName = _L("TestGetExecutablesList");
+ iTestArray[5].iFunctionPtr = &CRunModeAgent::TestGetProcessList;
+ iTestArray[5].iFunctionName = _L("TestGetProcessList");
+ iTestArray[6].iFunctionPtr = &CRunModeAgent::TestGetXipLibrariesList;
+ iTestArray[6].iFunctionName = _L("TestGetXipLibrariesList");
+ iTestArray[7].iFunctionPtr = &CRunModeAgent::TestGetThreadList;
+ iTestArray[7].iFunctionName = _L("TestGetThreadList");
+ iTestArray[8].iFunctionPtr = &CRunModeAgent::TestGetCodeSegsList;
+ iTestArray[8].iFunctionName = _L("TestGetCodeSegsList");
+ iTestArray[9].iFunctionPtr = &CRunModeAgent::TestGetListInvalidData;
+ iTestArray[9].iFunctionName = _L("TestGetListInvalidData");
+ iTestArray[10].iFunctionPtr = &CRunModeAgent::TestMemoryAccess;
+ iTestArray[10].iFunctionName = _L("TestMemoryAccess");
+ iTestArray[11].iFunctionPtr = &CRunModeAgent::TestDebugFunctionality;
+ iTestArray[11].iFunctionName = _L("TestDebugFunctionality");
+ iTestArray[12].iFunctionPtr = &CRunModeAgent::TestSuspendResume;
+ iTestArray[12].iFunctionName = _L("TestSuspendResume");
+ iTestArray[13].iFunctionPtr = &CRunModeAgent::TestBreakPoints;
+ iTestArray[13].iFunctionName = _L("TestBreakPoints");
+ iTestArray[14].iFunctionPtr = &CRunModeAgent::TestModifyBreak;
+ iTestArray[14].iFunctionName = _L("TestModifyBreak");
+ iTestArray[15].iFunctionPtr = &CRunModeAgent::TestBreakInfo;
+ iTestArray[15].iFunctionName = _L("TestBreakInfo");
+ iTestArray[16].iFunctionPtr = &CRunModeAgent::TestRunToBreak;
+ iTestArray[16].iFunctionName = _L("TestRunToBreak");
+ iTestArray[17].iFunctionPtr = &CRunModeAgent::TestRegisterAccess;
+ iTestArray[17].iFunctionName = _L("TestRegisterAccess");
+ iTestArray[18].iFunctionPtr = &CRunModeAgent::TestStep;
+ iTestArray[18].iFunctionName = _L("TestStep");
+ iTestArray[19].iFunctionPtr = &CRunModeAgent::TestDemandPaging;
+ iTestArray[19].iFunctionName = _L("TestDemandPaging");
+ iTestArray[20].iFunctionPtr = &CRunModeAgent::TestEventsForExternalProcess;
+ iTestArray[20].iFunctionName = _L("TestEventsForExternalProcess");
+ iTestArray[21].iFunctionPtr = &CRunModeAgent::TestEvents;
+ iTestArray[21].iFunctionName = _L("TestEvents");
+ iTestArray[22].iFunctionPtr = &CRunModeAgent::TestKillProcess;
+ iTestArray[22].iFunctionName = _L("TestKillProcess");
+ iTestArray[23].iFunctionPtr = &CRunModeAgent::TestProcessBreakPoints;
+ iTestArray[23].iFunctionName = _L("TestProcessBreakPoints");
+ iTestArray[24].iFunctionPtr = &CRunModeAgent::TestMultipleTraceEvents;
+ iTestArray[24].iFunctionName = _L("TestMultipleTraceEvents");
+ iTestArray[25].iFunctionPtr = &CRunModeAgent::TestAddRemoveProcessEvents;
+ iTestArray[25].iFunctionName = _L("TestAddRemoveProcessEvents");
+ iTestArray[26].iFunctionPtr = &CRunModeAgent::TestCrashFlash;
+ iTestArray[26].iFunctionName = _L("TestCrashFlash");
+ iTestArray[27].iFunctionPtr = &CRunModeAgent::TestProcessKillBreakpoint;
+ iTestArray[27].iFunctionName = _L("TestProcessKillBreakpoint");
+ };
+
+GLDEF_C TInt E32Main()
+//
+// Entry point for run mode debug driver test
+//
+ {
+ TInt ret = KErrNone;
+
+ // client
+ CTrapCleanup* trap = CTrapCleanup::New();
+ if (!trap)
+ return KErrNoMemory;
+ test.Title();
+ RunModeAgent = CRunModeAgent::NewL();
+ if (RunModeAgent != NULL)
+ {
+ __UHEAP_MARK;
+ TRAP(ret,RunModeAgent->ClientAppL());
+ __UHEAP_MARKEND;
+
+ delete RunModeAgent;
+ }
+
+ delete trap;
+
+ return ret;
+ }
+
+/**
+Helper function to get the aOffset'th value from aFlags
+
+@param aFlags descriptor containing TRegisterFlag type flags
+@param aOffset index of flag value to extract from aFlags
+@param aFlagValue the flag value if function returned successfully
+
+@return KErrNone if value was read successfully, KErrTooBig if aOffset is
+ greater than aFlags.Length()
+*/
+TInt CRunModeAgent::GetFlag(const TDes8& aFlags, const TUint aOffset, TRegisterFlag &aFlagValue) const
+ {
+ //get pointer to data
+ const TUint8 *ptr = aFlags.Ptr();
+
+ //check aOffset is valid
+ TUint length = aFlags.Length();
+ if(aOffset >= length)
+ return KErrTooBig;
+
+ //get flag value
+ aFlagValue = (TRegisterFlag)ptr[aOffset];
+ return KErrNone;
+ }
+
+/**
+ Helper function to set the value of FunctionChooser in the target debug thread.
+
+ @param aTestFunction TTestFunction enum to set FunctionChooser to
+
+ @return KErrNone if the value was set correctly, or one of the other system wide error codes
+ */
+TInt CRunModeAgent::SwitchTestFunction(TTestFunction aTestFunction)
+ {
+ //suspend the target thread
+ TInt suspendError = iServSession.SuspendThread(iThreadID);
+ if(! ( (suspendError == KErrNone) || (suspendError == KErrAlreadyExists) ) )
+ {
+ //the thread is not suspended so exit
+ return suspendError;
+ }
+
+ //get the address of FunctionChooser
+ TUint32 functionChooserAddress = (TUint32)&FunctionChooser;
+ //put the new value for FunctionChooser into a descriptor
+ TPtr8 functionBuf((TUint8*)&aTestFunction, sizeof(TTestFunction), sizeof(TTestFunction));
+ //write the new value into the target thread
+ TInt writeError = iServSession.WriteMemory(iThreadID, functionChooserAddress, sizeof(TTestFunction), functionBuf, EAccess32, EEndLE8);
+
+ if(KErrNone == suspendError)
+ {
+ //if this function suspended the target thread then we need to resume it
+ TInt resumeError = iServSession.ResumeThread(iThreadID);
+ if(KErrNone != resumeError)
+ {
+ //resuming failed so return the error
+ return resumeError;
+ }
+ }
+
+ //suspending and resuming was successful so return the error code from the WriteMemory call
+ return writeError;
+ }
+
+/**
+ Launch a separate process to debug.
+
+ @param aProcess the RProcess object to use to create the process
+ @param aFileName file name of the executable to create the process from
+ @param aFunctionType function that the target process should call on execution
+ @param aDelay delay before the new process should call the function represented by aFunctionType
+ @param aExtraThreads number of extra threads to create in the child process
+
+ @return KErrNone on success, or one of the other system wide error codes
+ */
+TInt CRunModeAgent::LaunchProcess(RProcess& aProcess, const TDesC& aFileName, TDebugFunctionType aFunctionType, TUint32 aDelay, TUint32 aExtraThreads)
+ {
+ // at the moment we support two arguments, this number might have to be increased to support arguments
+ const TUint KMaxCommandLineLength = 32;
+
+ // create a command line buffer
+ RBuf commandLine;
+ commandLine.Create(KMaxCommandLineLength);
+
+ // append the command line arguments to the buffer
+ _LIT(KFArg, "-f");
+ commandLine.Append(KFArg());
+ commandLine.AppendNum(aFunctionType);
+
+ _LIT(KSpace, " ");
+ commandLine.Append(KSpace());
+
+ _LIT(KDArg, "-d");
+ commandLine.Append(KDArg());
+ commandLine.AppendNum(aDelay);
+
+ commandLine.Append(KSpace());
+
+ _LIT(KEArg, "-e");
+ commandLine.Append(KEArg());
+ commandLine.AppendNum(aExtraThreads);
+
+ // create the new process, matching on file name only, not specifying uid values
+ TInt err = aProcess.Create(aFileName, commandLine); // owned by the process
+
+ // check that there was no error raised
+ if(err != KErrNone)
+ {
+ commandLine.Close();
+ return err;
+ }
+
+ TRequestStatus status = KRequestPending;
+ aProcess.Rendezvous(status);
+
+ commandLine.Close(); // after target thread starts
+
+ if(KRequestPending != status.Int())
+ {
+ // startup failed so kill the process
+ aProcess.Kill(KErrNone);
+ return status.Int();
+ }
+ else
+ {
+ // start up succeeded so resume the process
+ aProcess.Resume();
+ User::WaitForRequest(status);
+ if(KErrNone != status.Int())
+ {
+ aProcess.Kill(KErrNone);
+ }
+ return status.Int();
+ }
+ }
+
+/**
+ Helper function to read a tag header from a debug functionality block
+
+ @param aDebugFunctionalityBlock block to read header from
+ @param aTagHdrId header type to find
+
+ @return pointer to the header, or NULL if not available
+ */
+TTagHeader* CRunModeAgent::GetTagHdr(const TDesC8& aDebugFunctionalityBlock, const TTagHeaderId aTagHdrId) const
+ {
+ TUint8* ptr = (TUint8*) aDebugFunctionalityBlock.Ptr();
+ TUint8* blockEnd = ptr + aDebugFunctionalityBlock.Size();
+
+ while(ptr < blockEnd)
+ {
+ TTagHeader* header = (TTagHeader*)ptr;
+ if(header->iTagHdrId == aTagHdrId)
+ {
+ return header;
+ }
+ ptr += sizeof(TTagHeader) + (header->iNumTags * sizeof(TTag));
+ }
+ return NULL;
+ }
+
+/**
+ Helper function to read a tag from a debug functionality block
+
+ @param aTagHdr pointer to a tag header in a debug functionality block
+ @param aElement element to return from the header's data
+
+ @return pointer to the tag, or NULL if not available
+ */
+TTag* CRunModeAgent::GetTag(const TTagHeader* aTagHdr, const TInt aElement) const
+ {
+ TUint8* ptr = (TUint8*)aTagHdr + sizeof(TTagHeader);
+ TUint8* blockEnd = ptr + (aTagHdr->iNumTags * sizeof(TTag));
+
+ while(ptr < blockEnd)
+ {
+ TTag* tag = (TTag*)ptr;
+ if(tag->iTagId == aElement)
+ {
+ return tag;
+ }
+ ptr += sizeof(TTag);
+ }
+ return NULL;
+ }
+
+TTag CRunModeAgent::GetTag(const TTagHeaderId aTagHdrId, const TInt aElement)
+ {
+ TUint32 bufsize = 0; // Safe default size
+
+ // Get functionality block size
+ test(KErrNone == iServSession.GetDebugFunctionalityBufSize(&bufsize));
+
+ // Ensure we have a finite buffer size
+ test(bufsize!=0);
+
+ // Allocate space for the functionality data
+ HBufC8* dftext = HBufC8::NewLC(bufsize);
+
+ // create an empty TPtr8 refering to dftext
+ TPtr8 dftextPtr(dftext->Des());
+
+ // Get the functionality block
+ test(KErrNone == iServSession.GetDebugFunctionality(dftextPtr));
+
+ // read a value from the data to check it has come through as expected
+ TTagHeader* header = GetTagHdr(dftext->Des(), aTagHdrId);
+ test(header != NULL);
+ TTag* tag = GetTag(header, aElement);
+ test(tag != NULL);
+
+ TTag tagToReturn = *tag;
+
+ // Remove our temporary buffer
+ CleanupStack::PopAndDestroy(dftext);
+
+ return tagToReturn;
+ }
+
+/**
+ Helper function which returns a Boolean indicating with a process with the
+ specified name is currently running.
+
+ @param aProcessName - Name of the process to find
+ @return ETrue if found, EFalse otherwise
+ */
+TBool CRunModeAgent::ProcessExists(const TDesC& aProcessName)
+ {
+ TInt err=KErrNone;
+ TBool found = FALSE;
+
+_LIT(KWildCard,"*");
+
+ TFindProcess find(KWildCard);
+ TFullName name;
+ while(find.Next(name)==KErrNone)
+ {
+ RProcess process;
+ err = process.Open(find);
+ if (err == KErrNone)
+ {
+ if (name.Find(aProcessName) != KErrNotFound)
+ {
+ found = TRUE;
+ }
+ process.Close();
+ }
+ }
+
+ return found;
+ }