/*
* Copyright (c) 2004-2009 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:
*
*/
/**
@file
*/
#define __INCLUDE_CAPABILITY_NAMES__
#include <e32capability.h>
#include "captestframeworkstep.h"
#include "captestframework.h"
#include <test/testexecutelog.h>
#include <s32file.h>
#include <f32file.h>
CCapTestFrameworkStep::CCapTestFrameworkStep(TThoroughness aThoroughness)
: iThoroughness(aThoroughness)
{
}
CCapTestFrameworkStep::~CCapTestFrameworkStep()
{
iLibrary.Close();
iFs.Close();
}
TVerdict CCapTestFrameworkStep::doTestStepPreambleL()
{
User::LeaveIfError(iFs.Connect());
User::LeaveIfError(iFs.ShareProtected());
if (EFalse==GetStringFromConfig(ConfigSection(), _L("DllName"), iDllName))
{
return EFail;
}
GetBoolFromConfig(ConfigSection(), _L("OmitTCBCapInComplementSet"), iOmitTCBCapInComplementSet);
SetupFactoryL();
return EPass;
}
TVerdict CCapTestFrameworkStep::doTestStepL()
{
for (iCurrentTest=0; iCurrentTest < iFactory->NumberOfTests(); ++iCurrentTest)
{
INFO_PRINTF1(_L(""));
INFO_PRINTF2(_L("Running %S"), &iFactory->Test(iCurrentTest)->Name());
INFO_PRINTF1(_L("Assumed to require:"));
INFO_PRINTF2(_L("\tSid: %x"), iFactory->Test(iCurrentTest)->SidRequired());
INFO_PRINTF2(_L("\tVid: %x"), iFactory->Test(iCurrentTest)->VidRequired());
PrintCapabilitySet(iFactory->Test(iCurrentTest)->CapabilitiesRequired(), _L("\tCapabilities: "));
RunTestStepL(iFactory->Test(iCurrentTest));
}
return EPass;
}
void CCapTestFrameworkStep::RunTestStepL(MCapabilityTest* aTest)
{
// figure out capabilities required
TCapabilitySet capsRequired=aTest->CapabilitiesRequired();
TUid sidRequired=aTest->SidRequired();
TUid vidRequired=aTest->VidRequired();
RArray<TTestEnvironment> capTestEnvs;
CleanupClosePushL(capTestEnvs);
GenerateEnvironmentsL(capsRequired, sidRequired, vidRequired, capTestEnvs);
// for all cap sets needed
for (TInt i=0; i < capTestEnvs.Count(); ++i)
{
INFO_PRINTF1(_L("With:"));
INFO_PRINTF2(_L("\tSid: %x"), capTestEnvs[i].iSid);
INFO_PRINTF2(_L("\tVid: %x"), capTestEnvs[i].iVid);
PrintCapabilitySet(capTestEnvs[i].iCaps, _L("\tCapabilities: "));
// Set the capabilities of the helper
SetupHelperL(capTestEnvs[i]);
// run the helper and check results
RunHelperL(iCurrentTest, capTestEnvs[i].iExpectPass);
}
CleanupStack::PopAndDestroy(&capTestEnvs);
}
void CCapTestFrameworkStep::RunHelperL(TInt aTestNumber, TBool aShouldPass)
{
RProcess p;
//Launching process
User::LeaveIfError(p.Create(_L("tempcaptestframeworkhelper.exe"), KNullDesC));
p.SetParameter(KDllNameTransferSlot, iDllName);
p.SetParameter(KShouldPassTransferSlot, aShouldPass);
p.SetParameter(KTestNumberTransferSlot, aTestNumber);
_LIT(KLogFileName , "\\captestframework.txt");
TDriveUnit sysDrive(RFs::GetSystemDrive());
TBuf<128> logFileNameOnSysDrive = sysDrive.Name();
logFileNameOnSysDrive.Append(KLogFileName);
p.SetParameter(KLogFileNameTransferSlot, logFileNameOnSysDrive);
// Wait for the test to finish
TRequestStatus s;
TRequestStatus& a=s;
p.Logon(a);
p.Resume();
User::WaitForRequest(a);
p.Close();
// Extract the info from the logfile
RFileReadStream logFile;
logFile.Open(iFs, logFileNameOnSysDrive, 0);
CleanupClosePushL(logFile);
while (ETrue)
{
TInt32 pass=logFile.ReadInt32L();
if (pass==ETestsEnded)
{
break; // end of file
}
else if (pass==EFileEnd)
{
// reached end of file marker, with no success
SetTestStepResult(EFail);
break;
}
else if (pass==ETestFailed)
{
HBufC* text=HBufC::NewL(logFile, KMaxTInt);
ERR_PRINTF2(_L("%S"), text);
delete text;
}
else if (pass==ETestPassed)
{
HBufC* text=HBufC::NewL(logFile, KMaxTInt);
INFO_PRINTF2(_L("%S"), text);
delete text;
}
}
CleanupStack::PopAndDestroy(&logFile);
}
void CCapTestFrameworkStep::SetupHelperL(const TTestEnvironment& aEnvironment)
{
RProcess p;
// SETCAP source_exe capability [-SID secureId] [-VID vendorId] [destination_path]
_LIT(KArgsFormat, "captestframeworkhelper.exe %X -SID %X -VID %X tempcaptestframeworkhelper.exe");
// The 'capability' command line argument is the hexadecimal value of the
// capabilities when they are represented as a bit-field. E.g. the 3 capabilities
// LocalServices, ReadUserData and WriteUserData would together have a value of:
//
// (1<<ECapabilityLocalServices) | (<<ECapabilityReadUserData) | (1<<ECapabilityWriteUserData)
//
// Which in hexadecimal is '1c000'
const TCapabilitySet& aCapSet=aEnvironment.iCaps;
TInt caps=0;
for (TInt c = 0; c < ECapability_Limit; ++c)
{
if (aCapSet.HasCapability(TCapability(c)))
{
caps+=(1<<c);
}
}
TBuf<512> cmdLine;
cmdLine.Format(KArgsFormat, caps, aEnvironment.iSid, aEnvironment.iVid);
User::LeaveIfError(p.Create(_L("setcap.exe"), cmdLine));
// Wait for setcap to finish
TRequestStatus s;
TRequestStatus& rs=s;
p.Logon(rs);
p.Resume();
User::WaitForRequest(rs);
p.Close();
}
void CCapTestFrameworkStep::PrintCapabilitySet(const TCapabilitySet& aCapSet, const TDesC& aExtra)
{
TBuf<512> string;
string.AppendFormat(_L("%S"), &aExtra);
for (TInt c = 0; c < ECapability_Limit; ++c)
{
if (aCapSet.HasCapability(TCapability(c)))
{
string.Append(' ');
const char *p=CapabilityNames[c];
while(*p)
{
string.Append(*p++);
}
}
}
if (string.Length()==aExtra.Length())
{
string.AppendFormat(_L("None"));
}
INFO_PRINTF1(string);
}
void CCapTestFrameworkStep::GenerateEnvironmentsL(const TCapabilitySet& aCapsNeeded, const TUid& aSidNeeded, const TUid& aVidNeeded, RArray<TTestEnvironment>& aEnvironments)
{
for (TUid sid={0}; sid.iUid <= aSidNeeded.iUid; sid.iUid+= aSidNeeded.iUid ? aSidNeeded.iUid : 1) // if no sid is needed then only do check once
{
TBool shouldPass=ETrue;
if (sid!=aSidNeeded)
{
shouldPass=EFalse;
}
for (TUid vid={0}; vid.iUid <= aVidNeeded.iUid; vid.iUid+= aVidNeeded.iUid ? aVidNeeded.iUid : 1)
{
if (vid!=aVidNeeded)
{
shouldPass=EFalse;
}
//For each IPC, your test should implement the following:
//
// If an IPC is controlled by one capability only, the test code should run
//first with the required capability only and second with the complement set
//of the required capability. If the first test is successful and the second
//a failure, the IPC value is proven to be controlled by the required capability
//only.
//
// If an IPC is controlled by n capabilities, the test code should run first with
//exact n required capabilities and after with any combination of all subsets of
//n-1 capabilities with the complement set.
//
// For example, ABC controls an IPC. The full list of capabilities is
//A, B, C, D, E and F. Test code with ABC must be successful, while test code
//with ABDEF, ACDEF, BCDEF must all fail.
//
// So, the number of tests to run to validate a IPC is the combination of n
//capabilities, n-1 at a time (i.e. n!/(n-1)! ) plus 1 exact positive test,
//therefore a total of n+1 tests.
// possibly positive case (depends on Sid and Vid settings)
aEnvironments.Append(TTestEnvironment(aCapsNeeded, sid, vid, shouldPass));
if (iThoroughness == EBasicChecks) // will fail when cap set is empty, but there is no TCapabilitySet::NotEmpty exported, write a replacement copy
{
// Just add one with no caps and expect to fail
TCapabilitySet noCaps;
aEnvironments.Append(TTestEnvironment(noCaps, sid, vid, EFalse));
}
else
{
// Thorough, cap sets as per comment above
for (TInt c = 0; c < ECapability_Limit; ++c)
{
if (aCapsNeeded.HasCapability(TCapability(c)))
{
// Need to add a new one with (aCapsNeeded / c) | ~aCapsNeeded
TCapabilitySet caps(aCapsNeeded);
caps.RemoveCapability(TCapability(c)); // take cap c away
caps.Union(InvertCapSet(aCapsNeeded)); // add in complement
aEnvironments.Append(TTestEnvironment(caps, sid, vid, EFalse)); // add to sets, should fail
}
}
} // end thorough cap tests
} // end vid loop
} // end sid loop
}
TVerdict CCapTestFrameworkStep::doTestStepPostambleL()
{
return EPass;
}
// helper functions
TCapabilitySet CCapTestFrameworkStep::InvertCapSet(const TCapabilitySet& aCapSet)
{
TCapabilitySet ret;
ret.SetEmpty();
for (TInt c = 0; c < ECapability_Limit; ++c)
{
if (c == ECapabilityTCB && iOmitTCBCapInComplementSet)
{
continue;
}
if (!aCapSet.HasCapability(TCapability(c)))
{
ret.AddCapability(TCapability(c));
}
}
return ret;
}
MCapabilityTestFactory* CCapTestFrameworkStep::SetupFactoryL()
{
User::LeaveIfError(iLibrary.Load(iDllName));
TLibraryFunction testFactory=iLibrary.Lookup(1);
iFactory=reinterpret_cast<MCapabilityTestFactory*>(testFactory());
return iFactory;
}
// TCapSetTestInfo
TTestEnvironment::TTestEnvironment(const TCapabilitySet& aCaps, TUid aSid, TUid aVid, TBool aExpectPass)
: iCaps(aCaps), iSid(aSid), iVid(aVid), iExpectPass(aExpectPass)
{
}