// Copyright (c) 2003-2010 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:
// e32test\debug\t_context.cpp
// Overview:
// Exercise kernel-side functions to get, set user-side context and
// kernel-side exception handlers.
// API Information:
// RBusLogicalChannel, DLogicalChannel.
// Details:
// - Load the context logical device driver, open user side handle to
// a LDD channel and check software exception scheme when handle is
// not created.
// - Check user-side handler called when kernel-side handler is not
// created and exception is handled as expected.
// - Make a synchronous Kernel Executive type request to logical channel
// for a specific functionality and check that it is as expected.
// - Check that kernel-side handler is not triggered by IsExceptionHandler
// method.
// - Test user-side, kernel-side handlers are as expected.
// - In the context of thread taking hardware exception with synchronous
// and asynchronous killing:
// - check context captured in hardware exception hook and
// context captured in RemoveThread hook are as expected.
// - In the context of thread taking software exception with synchronous
// and asynchronous killing:
// - check context captured in software exception hook and
// context captured in RemoveThread hook are as expected.
// - In the context of thread blocked on WFAR:
// - check context captured while thread is blocked,
// context can be modified while thread is blocked,
// context captured in RemoveThread hook are as expected.
// - In the context of thread killed after being pre-empted by interrupt
// while in user mode:
// - check context captured while thread is spinning, context can be
// modified while thread is blocked, context captured in RemoveThread
// hook are as expected.
// - Check whether heap has been corrupted by all the tests.
// - Check that the system doesn't crash when the context of a dead thread is
// set or retrieved.
// Platforms/Drives/Compatibility:
// Hardware (Automatic).
// Assumptions/Requirement/Pre-requisites:
// Failures and causes:
// Base Port information:
//
//
#define __E32TEST_EXTENSION__
#include <e32test.h>
#include <e32svr.h>
#include <e32def.h>
#include <e32def_private.h>
#include <u32hal.h>
#include "d_context.h"
#include "context.h"
enum TKillMode
{
ESynchronousKill, // thread kills itself in exception handler
EAsynchronousKill // thread suspends itself in exception handler and is killed by main thread
};
_LIT(KUserExecPanic, "USER-EXEC");
RTest test(_L("T_CONTEXT"));
TInt KernelExcCount; // incremented when user-side exception handler called
TInt UserExcCount; // incremented when kernel-side exception handler called
TExcType LastUserExcType; // set by user-side exception handler when called
RContextLdd Channel;
TInt CallDeviceDriverAndSpin(TAny* aExpected)
{
TArmRegSet* expectedContext = (TArmRegSet*)aExpected;
expectedContext->iR13 = Channel.SpinInKernel(EFalse);
Channel.SpinInKernel(ETrue);
return 0;
}
TInt UserRaiseExceptionThread(TAny* aExcType)
{
TExcType e = static_cast<TExcType>(reinterpret_cast<TInt>(aExcType));
User::RaiseException(e);
return 0;
}
TInt RThreadRaiseExceptionThread(TAny* aExcType)
{
TExcType e = static_cast<TExcType>(reinterpret_cast<TInt>(aExcType));
User::RaiseException(e);
return 0;
}
void UserExceptionHandler(TExcType aType)
{
// Check kernel-side handler was called before user-side one
if (Channel.IsHooked() && KernelExcCount != 1)
User::Invariant(); // force failure in RaiseExceptionHarness()
LastUserExcType = aType;
UserExcCount++;
User::Panic(KUserExecPanic, ECausedException);
}
TInt UserTrapExceptionThread(TAny* aExcType)
{
TInt r = User::SetExceptionHandler(UserExceptionHandler, 0xFFFFFFFF);
if (r != KErrNone)
return 0; // force failure in RaiseExceptionHarness()
TExcType e = static_cast<TExcType>(reinterpret_cast<TInt>(aExcType));
User::RaiseException(e);
return 0;
}
TInt NaturalDeathFunc(TAny*)
{// Don't do too much but be sure to complete.
return KErrNone;
}
void RaiseExceptionHarness(TThreadFunction aFn, TExcType aType)
{
RThread t;
TInt r = t.Create(_L("RaiseException"), aFn, KDefaultStackSize, NULL,
reinterpret_cast<TAny*>(aType));
test(r == KErrNone);
TRequestStatus s;
t.Logon(s);
TBool oldJitSetting = User::JustInTime();
User::SetJustInTime(EFalse);
t.Resume();
User::WaitForRequest(s);
User::SetJustInTime(oldJitSetting);
test(t.ExitType() == EExitPanic);
test(t.ExitCategory() == KUserExecPanic);
test(t.ExitReason() == ECausedException);
CLOSE_AND_WAIT(t);
}
void TestSwExcNoHandlers()
{
test.Next(_L("Check software exception scheme when no handler"));
RaiseExceptionHarness(UserRaiseExceptionThread, EExcGeneral);
RaiseExceptionHarness(RThreadRaiseExceptionThread, EExcGeneral);
}
void TestUserSwExcHandlerAlone()
{
test.Next(_L("Check user-side handler called when no kernel-side handler"));
UserExcCount = 0;
RaiseExceptionHarness(UserTrapExceptionThread, EExcIntegerDivideByZero);
test(LastUserExcType == EExcIntegerDivideByZero);
test(UserExcCount == 1);
}
void TestUserAndKernelSwExcHandlers()
{
test.Next(_L("Check kernel-side exception handler"));
test.Start(_L("Check kernel-side handler called"));
KernelExcCount = 0;
RaiseExceptionHarness(UserRaiseExceptionThread, EExcUserInterrupt);
test(KernelExcCount == 1);
test(Channel.LastException() == EExcUserInterrupt);
KernelExcCount = 0;
RaiseExceptionHarness(RThreadRaiseExceptionThread, EExcIntegerDivideByZero);
test(KernelExcCount == 1);
test(Channel.LastException() == EExcIntegerDivideByZero);
test.Next(_L("Check kernel-side handler not triggered by IsExceptionHandler()"));
KernelExcCount = 0;
(void) User::IsExceptionHandled(EExcUserInterrupt);
test(KernelExcCount == 0);
test.Next(_L("Check user-side + kernel-side handler"));
UserExcCount = 0;
KernelExcCount = 0;
RaiseExceptionHarness(UserTrapExceptionThread, EExcIntegerDivideByZero);
test(LastUserExcType == EExcIntegerDivideByZero);
test(UserExcCount == 1);
test(KernelExcCount == 1);
test(Channel.LastException() == EExcIntegerDivideByZero);
test.End();
}
//////////////////////////////////////////////////////////////////////////////
void DumpContext(const TDesC& aTitle, TArmRegSet& aContext)
{
test.Printf(_L("%S\n"), &aTitle);
test.Printf(_L(" r0 =%08x r1 =%08x r2 =%08x r3 =%08x\n"),aContext.iR0,aContext.iR1,aContext.iR2,aContext.iR3);
test.Printf(_L(" r4 =%08x r5 =%08x r6 =%08x r7 =%08x\n"),aContext.iR4,aContext.iR5,aContext.iR6,aContext.iR7);
test.Printf(_L(" r8 =%08x r9 =%08x r10=%08x r11=%08x\n"),aContext.iR8,aContext.iR9,aContext.iR10,aContext.iR11);
test.Printf(_L(" r12=%08x r13=%08x r14=%08x r15=%08x\n"),aContext.iR12,aContext.iR13,aContext.iR14,aContext.iR15);
test.Printf(_L(" cpsr=%08x dacr=%08x\n"),aContext.iFlags, aContext.iDacr);
}
void ModifyContext(TArmRegSet& aContext)
{
TArmReg* end = (TArmReg*)(&aContext+1);
for (TArmReg* p = (TArmReg*)&aContext; p<end; ++p)
*p = ~*p;
}
void TestHwExcContext(TKillMode aKillMode, TUserCallbackState aCallback)
{
test.Next(_L("Check context of thread taking hardware exception"));
if (aKillMode == EAsynchronousKill)
test.Printf(_L("Thread will be asynchronously killed\n"));
else
test.Printf(_L("Thread will kill itself\n"));
TArmRegSet expectedContext;
RThread t;
TInt r = t.Create(_L("ContextHwExc"), ThreadContextHwExc, KDefaultStackSize, NULL, &expectedContext);
test(r == KErrNone);
TArmRegSet exceptionContext;
TRequestStatus exceptionStatus;
Channel.TrapNextHwExc(t.Id(), &exceptionContext, exceptionStatus, aKillMode==ESynchronousKill);
TRequestStatus deathStatus;
TArmRegSet deathContext;
Channel.TrapNextDeath(t.Id(), &deathContext, deathStatus);
TBool oldJitSetting = User::JustInTime();
User::SetJustInTime(EFalse);
t.Resume();
User::WaitForRequest(exceptionStatus);
User::SetJustInTime(oldJitSetting);
test(exceptionStatus == KErrNone); // See CheckSetContext() in LDD
test.Start(_L("Check context captured in hardware exception hook"));
exceptionContext.iR15 += 4; // See CheckContextHwExc()
DumpContext(_L("Expected context:"), expectedContext);
DumpContext(_L("Context in hw exception hook:"), exceptionContext);
test(CheckContextHwExc(&exceptionContext, &expectedContext));
if (aCallback != ENoCallback)
{
test.Printf(_L("Adding user callback type %d\n"), aCallback);
Channel.AddUserCallback(t.Id(), aCallback);
Channel.ResumeTrappedThread(t.Id());
User::After(500000);
test.Next(_L("Check context captured while thread is in callback"));
TArmRegSet callbackContext;
Channel.GetContext(t.Id(), &callbackContext);
callbackContext.iR15 += 4; // See CheckContextHwExc()
DumpContext(_L("Expected context:"), expectedContext);
DumpContext(_L("Actual context:"), callbackContext);
test(CheckContextHwExc(&callbackContext, &expectedContext));
}
ModifyContext(expectedContext);
DumpContext(_L("Expected context after modification:"), expectedContext);
if (aKillMode == EAsynchronousKill)
{
test.Next(_L("Check context can be modified by another thread"));
TArmRegSet modifiedContext = expectedContext;
test(Channel.SetAndGetBackContext(t.Id(), &modifiedContext) == KErrNone);
modifiedContext.iR15 = exceptionContext.iR15; // See CheckContextHwExc()
DumpContext(_L("Actual context after modification:"), modifiedContext);
test(CheckContextHwExc(&modifiedContext, &expectedContext));
User::SetJustInTime(EFalse);
t.Panic(_L("TEST"), 42);
}
else
{
// The thread has modified its own user context in the exception hook.
User::SetJustInTime(EFalse);
}
User::WaitForRequest(deathStatus);
User::SetJustInTime(oldJitSetting);
CLOSE_AND_WAIT(t);
test.Next(_L("Check context captured in RemoveThread hook"));
deathContext.iR15 = exceptionContext.iR15; // See CheckContextHwExc()
DumpContext(_L("context in RemoveThread hook:"), deathContext);
test(CheckContextHwExc(&deathContext, &expectedContext));
test.End();
}
void TestSwExcContext(TKillMode aKillMode, TUserCallbackState aCallback)
{
test.Next(_L("Check context of thread taking software exception (slow executive call)"));
if (aKillMode == EAsynchronousKill)
test.Printf(_L("Thread will be asynchronously killed\n"));
else
test.Printf(_L("Thread will kill itself\n"));
TArmRegSet expectedContext;
RThread t;
TInt r = t.Create(_L("ContextSwExc"), ThreadContextSwExc, KDefaultStackSize, NULL, &expectedContext);
test(r == KErrNone);
TArmRegSet exceptionContext;
TRequestStatus exceptionStatus;
Channel.TrapNextSwExc(t.Id(), &exceptionContext, exceptionStatus, aKillMode == ESynchronousKill);
TRequestStatus deathStatus;
TArmRegSet deathContext;
Channel.TrapNextDeath(t.Id(), &deathContext, deathStatus);
TBool oldJitSetting = User::JustInTime();
User::SetJustInTime(EFalse);
t.Resume();
User::WaitForRequest(exceptionStatus);
User::SetJustInTime(oldJitSetting);
test(exceptionStatus == KErrNone); // See CheckSetContext() in LDD
test.Start(_L("Check context captured in software exception hook"));
DumpContext(_L("Expected context:"), expectedContext);
DumpContext(_L("Context in sw exception hook:"), exceptionContext);
test(CheckContextSwExc(&exceptionContext, &expectedContext));
if (aCallback != ENoCallback)
{
test.Printf(_L("Adding user callback type %d\n"), aCallback);
Channel.AddUserCallback(t.Id(), aCallback);
Channel.ResumeTrappedThread(t.Id());
User::After(500000);
test.Next(_L("Check context captured while thread is in callback"));
TArmRegSet callbackContext;
Channel.GetContext(t.Id(), &callbackContext);
DumpContext(_L("Expected context:"), expectedContext);
DumpContext(_L("Actual context:"), callbackContext);
test(CheckContextSwExc(&callbackContext, &expectedContext));
}
ModifyContext(expectedContext);
DumpContext(_L("Expected context after modification:"), expectedContext);
if (aKillMode == EAsynchronousKill)
{
test.Next(_L("Check context can be modified by another thread"));
TArmRegSet modifiedContext = expectedContext;
test(Channel.SetAndGetBackContext(t.Id(), &modifiedContext) == KErrNone);
modifiedContext.iR14 = exceptionContext.iR14; // See CheckContextSwExc()
modifiedContext.iR15 = exceptionContext.iR15; // See CheckContextSwExc()
DumpContext(_L("Actual context after modification:"), modifiedContext);
test(CheckContextSwExc(&modifiedContext, &expectedContext));
User::SetJustInTime(EFalse);
t.Panic(_L("TEST"), 24);
}
else
{
// The thread has modified its own user context in the exception hook.
User::SetJustInTime(EFalse);
}
User::WaitForRequest(deathStatus);
User::SetJustInTime(oldJitSetting);
CLOSE_AND_WAIT(t);
test.Next(_L("Check context captured in RemoveThread hook"));
deathContext.iR14 = exceptionContext.iR14; // See CheckContextSwExc()
deathContext.iR15 = exceptionContext.iR15; // See CheckContextSwExc()
DumpContext(_L("context in RemoveThread hook:"), deathContext);
test(CheckContextSwExc(&deathContext, &expectedContext));
test.End();
}
void TestKillWFAR(TUserCallbackState aCallback)
{
test.Next(_L("Check context of thread blocked on WFAR"));
TArmRegSet expectedContext;
RThread t;
TInt r = t.Create(_L("ContextWFAR"), ThreadContextWFAR, KDefaultStackSize, NULL, &expectedContext);
test(r == KErrNone);
TRequestStatus deathStatus;
TArmRegSet deathContext;
Channel.TrapNextDeath(t.Id(), &deathContext, deathStatus);
// Boost thread's priority and kick it off. This ensures we'll
// run again only after it is blocked on its request semaphore.
t.SetPriority(EPriorityMore);
t.Resume();
User::After(500000);
if (aCallback != ENoCallback)
{
test.Printf(_L("Adding user callback type %d\n"), aCallback);
Channel.AddUserCallback(t.Id(), aCallback);
t.SetPriority(EPriorityNormal);
t.RequestSignal();
User::After(500000);
}
test.Start(_L("Check context captured while thread is blocked"));
TArmRegSet blockedContext;
Channel.GetContext(t.Id(), &blockedContext);
DumpContext(_L("Expected context:"), expectedContext);
DumpContext(_L("Actual context:"), blockedContext);
test(CheckContextWFAR(&blockedContext, &expectedContext));
test.Next(_L("Check context can be modified while thread is blocked"));
ModifyContext(expectedContext);
expectedContext.iR14 = blockedContext.iR14; // See CheckContextWFAR()
expectedContext.iR15 = blockedContext.iR15; // See CheckContextWFAR()
TArmRegSet modifiedContext = expectedContext;
test(Channel.SetAndGetBackContext(t.Id(), &modifiedContext) == KErrNone);
DumpContext(_L("Expected context after modification:"), expectedContext);
DumpContext(_L("Actual context after modification:"), modifiedContext);
test(CheckContextWFAR(&modifiedContext, &expectedContext));
TBool oldJitSetting = User::JustInTime();
User::SetJustInTime(EFalse);
t.Panic(_L("TEST"), 999);
User::WaitForRequest(deathStatus);
User::SetJustInTime(oldJitSetting);
CLOSE_AND_WAIT(t);
test.Next(_L("Check context captured in RemoveThread hook"));
DumpContext(_L("Expected context:"), expectedContext);
DumpContext(_L("context in RemoveThread hook:\n"), deathContext);
test(CheckContextWFARDied(&deathContext, &expectedContext));
test.End();
}
void TestKillInterrupt(TUserCallbackState aCallback)
{
test.Next(_L("Check context of thread killed after being preempted by interrupt while in user mode"));
TArmRegSet expectedContext;
RThread t;
TInt r = t.Create(_L("ContextKillInterrupt"), ThreadContextUserInt, KDefaultStackSize, NULL, &expectedContext);
test(r == KErrNone);
TArmRegSet trappedContext;
TRequestStatus trapStatus;
Channel.TrapNextDeath(t.Id(), &trappedContext, trapStatus);
t.Resume();
User::After(500000);
if (aCallback != ENoCallback)
{
test.Printf(_L("Adding user callback type %d\n"), aCallback);
Channel.AddUserCallback(t.Id(), aCallback);
User::After(500000);
}
test.Start(_L("Check context captured while thread is spinning"));
TArmRegSet spinContext;
Channel.GetContext(t.Id(), &spinContext);
DumpContext(_L("Expected context:"), expectedContext);
DumpContext(_L("Actual context:"), spinContext);
test(CheckContextUserInt(&spinContext, &expectedContext));
test.Next(_L("Check context can be modified while thread is spinning"));
ModifyContext(expectedContext);
expectedContext.iR15 = spinContext.iR15; // see CheckContextUserInt()
expectedContext.iFlags = spinContext.iFlags; // must be left unmodified
expectedContext.iDacr = spinContext.iDacr; // must be left unmodified
DumpContext(_L("Expected context after modification:"), expectedContext);
TArmRegSet modifiedContext = expectedContext;
test(Channel.SetAndGetBackContext(t.Id(), &modifiedContext) == KErrNone);
DumpContext(_L("Actual context after modification:"), modifiedContext);
test(CheckContextUserInt(&modifiedContext, &expectedContext));
TBool oldJitSetting = User::JustInTime();
User::SetJustInTime(EFalse);
t.Kill(-1);
User::WaitForRequest(trapStatus);
User::SetJustInTime(oldJitSetting);
CLOSE_AND_WAIT(t);
test.Next(_L("Check context captured in RemoveThread hook"));
DumpContext(_L("Expected context:"), expectedContext);
DumpContext(_L("Trapped context:"), trappedContext);
test(CheckContextUserIntDied(&trappedContext, &expectedContext));
test.End();
}
void TestKernelContext()
{
test.Start(_L("Test kernel context function"));
TArmRegSet kernelContext, expectedContext;
for (TInt i=0; i<15; ++i)
*(((TUint32*)&expectedContext)+i) = 0xa0000000 + i;
RThread t;
TInt r = t.Create(_L("SpinInKernel"), CallDeviceDriverAndSpin, KDefaultStackSize, NULL, &expectedContext);
test(r == KErrNone);
t.Resume();
User::After(500000);
Channel.GetKernelContext(t.Id(), &kernelContext);
TBool oldJitSetting = User::JustInTime();
User::SetJustInTime(EFalse);
t.Kill(-1);
User::SetJustInTime(oldJitSetting);
CLOSE_AND_WAIT(t);
test.Next(_L("Check kernel context is as expected"));
DumpContext(_L("Expected context:"), expectedContext);
DumpContext(_L("Actual context:"), kernelContext);
test(CheckContextKernel(&kernelContext, &expectedContext));
test.End();
}
void TestNaturalDeathContext()
{
test.Start(_L("Test setting and retrieving the context of a dead thread"));
TArmFullContext context;
memclr(&context, sizeof context);
RThread t;
TInt r = t.Create(_L("NaturalDeath"), NaturalDeathFunc, KDefaultStackSize, NULL, NULL);
test_KErrNone(r);
t.Resume();
User::After(500000);
Channel.SetAndGetFullContext(t.Id(), &context);
// Verify that no registers should be available for this dead thread.
test_Equal(0, context.iUserAvail);
test_Equal(0, context.iSystemAvail);
t.Close();
test.End();
}
TInt E32Main()
{
COMPLETE_POST_BOOT_SYSTEM_TASKS();
test.Title();
test.Start(_L("Loading LDD"));
TInt r = User::LoadLogicalDevice(_L("D_CONTEXT"));
test(r == KErrNone || r == KErrAlreadyExists);
// Must be after LDD loading because User::FreeLogicalDevice() does not
// free anything currently.
__KHEAP_MARK;
test.Next(_L("Opening LDD channel"));
r = Channel.Open();
test(r == KErrNone);
TestSwExcNoHandlers();
TestUserSwExcHandlerAlone();
test.Next(_L("Enable event hook"));
r = Channel.Hook(&KernelExcCount);
test(r == KErrNone);
TestUserAndKernelSwExcHandlers();
TestHwExcContext(ESynchronousKill, ENoCallback);
TestHwExcContext(EAsynchronousKill, ENoCallback);
TestSwExcContext(ESynchronousKill, ENoCallback);
TestSwExcContext(EAsynchronousKill, ENoCallback);
TestKillWFAR(ENoCallback);
TestKillInterrupt(ENoCallback);
TestKernelContext();
TestNaturalDeathContext();
#ifdef _DEBUG
TestHwExcContext(EAsynchronousKill, ESpinningCallback);
TestHwExcContext(EAsynchronousKill, ESleepingCallback);
TestSwExcContext(EAsynchronousKill, ESpinningCallback);
TestSwExcContext(EAsynchronousKill, ESleepingCallback);
TestKillWFAR(ESpinningCallback);
TestKillWFAR(ESleepingCallback);
TestKillInterrupt(ESpinningCallback);
TestKillInterrupt(ESleepingCallback);
#endif
Channel.Close();
// Wait for idle + async cleanup (waits for DKernelEventHandler to go away)
r = UserSvr::HalFunction(EHalGroupKernel, EKernelHalSupervisorBarrier, (TAny*)5000, 0);
test_KErrNone(r);
__KHEAP_MARKEND;
// Don't check user heap because if TLS is stored on the user-side this will not be freed when
// the thread exits due to an exception.
test.End();
return 0;
}