// 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:
// e32test\cppexceptions\t_romtable.cpp
// Overview:
// Check accessibility and integrity of ROM exception search table.
// API Information:
// TRomHeader, TRomExceptionSearchTable, TExceptionDescriptor
// Details:
// - Get the ROM exception search table, verify results are as expected.
// - Check that the correct exception descriptor is returned by
// GetExceptionDescriptor().
// - Check that the correct index table entry can be found.
// - Initialize the unwinder cache of a UCB with an exception descriptor
// and check we get the right result.
// - Throw and catch a variety of exceptions and verify results are as expected.
// Platforms/Drives/Compatibility:
// Hardware (Automatic).
// Assumptions/Requirement/Pre-requisites:
// Failures and causes:
// Base Port information:
//
//
/* Environment: */
#include "unwind_env.h"
/* Language-independent unwinder declarations: */
#include "unwinder.h"
#include "symbian_support.h"
#include <f32file.h>
#include <e32test.h>
#include <e32rom.h>
#include <cpudefs.h>
GLDEF_D RTest test(_L("T_ROMTABLE"));
TRomHeader * pTheRomHeader;
char * GetExceptionDescriptor(void);
extern "C" {
IMPORT_C TRomExceptionSearchTable * GetROMExceptionSearchTable(void);
IMPORT_C TExceptionDescriptor * SearchEST(uint32_t addr, TRomExceptionSearchTable * aESTp);
TExceptionDescriptor * GetRAMLoadedExceptionDescriptor(uint32_t addr);
IMPORT_C const __EIT_entry *SearchEITV1(uint32_t return_address_offset, const __EIT_entry *base, unsigned int nelems);
IMPORT_C __EIT_entry* SearchEITV2(uint32_t return_address, const __EIT_entry* base, unsigned int nelems);
TExceptionDescriptor * ReLoadExceptionDescriptor(uint32_t addr, _Unwind_Control_Block * ucbp);
IMPORT_C void InitialiseSymbianSpecificUnwinderCache(uint32_t addr, _Unwind_Control_Block * ucbp);
void *__cxa_allocate_exception(size_t size);
IMPORT_C __cxa_eh_globals * __cxa_get_globals();
#ifdef _DEBUG
IMPORT_C void DebugPrintf(const char * aFmt, ...);
#endif
}
int catcher(int x);
int catcher2(int x);
int catcher3(int x);
int catcher4(int x);
int catcher5(int x);
void TestUncaught(void);
const __EIT_entry * DumbGetEITV1(TUint32 offset, const __EIT_entry * base, TUint32 n);
__EIT_entry * DumbGetEITV2(TUint32 addr, __EIT_entry * base, TUint32 n);
GLDEF_C TInt E32Main()
{
test.Start(_L("Check accessibility and integrity of ROM exception search table"));
TRomExceptionSearchTable * pEST = GetROMExceptionSearchTable();
test.Printf(_L("ROM EST @ %08x\n"), pEST);
test(pEST != 0);
test.Printf(_L("ROM EST contains %d entries\n"), pEST->iNumEntries);
for (int i=0; i<pEST->iNumEntries; i++)
{
TRomImageHeader * pE = (TRomImageHeader *)pEST->iEntries[i];
TRomImageHeader * pH = pE -1;
TUint xd = pH->iExceptionDescriptor;
if ((xd&1)==0 || xd==0xffffffffu)
continue;
xd &= ~1;
TExceptionDescriptor * pED = (TExceptionDescriptor *) ((char *)pE + xd);
char * aExIdxBase = (char *)pED->iExIdxBase;
char * aExIdxLimit = (char *)pED->iExIdxLimit;
char * aROBase = (char *) pED->iROSegmentBase;
char * aROLimit = (char *)pED->iROSegmentLimit;
test.Printf(_L("%d\n"),i);
test(aExIdxBase <= aExIdxLimit);
test(aROBase <= aROLimit);
test(aROBase <= aExIdxBase);
test(aExIdxLimit <= aROLimit);
}
test.Printf(_L("\n"));
#ifdef __SUPPORT_CPP_EXCEPTIONS__
// Check we get the right Exception Descriptor
char * myExcpDesc = GetExceptionDescriptor();
uint32_t addr = (uint32_t)GetExceptionDescriptor;
test.Printf(_L("Checking &GetExceptionDescriptor [%08x] in EST range: %08x - %08x\n"),
addr, pEST->iEntries[0], GET_EST_FENCEPOST(pEST));
test(addr >= pEST->iEntries[0] && addr < GET_EST_FENCEPOST(pEST));
TExceptionDescriptor * aExcpDescP = SearchEST(addr, pEST);
test.Printf(_L("Found entry %08x in EST\n"), aExcpDescP);
test(aExcpDescP != NULL);
test.Printf(_L("Check myExcpDesc[%08x] == aExcpDescP[%08x]\n"), myExcpDesc, aExcpDescP);
test(myExcpDesc==(char*)aExcpDescP);
// Now check we can find the right entry in the index table.
__EIT_entry * aExIdxBase1 = (__EIT_entry *)aExcpDescP->iExIdxBase;
__EIT_entry * aExIdxLimit1 = (__EIT_entry *)aExcpDescP->iExIdxLimit;
unsigned int nelems = aExIdxLimit1 - aExIdxBase1;
uint32_t aROBase1 = (uint32_t)aExcpDescP->iROSegmentBase;
int ehabiv2 = aROBase1 & 1;
aROBase1 = aROBase1 & EHABI_MASK;
uint32_t aRetOffest = addr - aROBase1;
test.Printf(_L("EHABI_V2= %d: Looking up %08x with base %08x in ExIdx @ %08x with %d entries\n"),
ehabiv2, addr, aROBase1, aExIdxBase1, nelems);
if (ehabiv2) {
__EIT_entry * aResult = SearchEITV2(addr, aExIdxBase1, nelems);
__EIT_entry * aResult1 = DumbGetEITV2(addr, aExIdxBase1, nelems);
test.Printf(_L("Check result %08x == %08x\n"), aResult, aResult1);
test(aResult == aResult1);
} else {
const __EIT_entry * aResult = SearchEITV1(aRetOffest, aExIdxBase1, nelems);
const __EIT_entry * aResult1 = DumbGetEITV1(aRetOffest, aExIdxBase1, nelems);
test.Printf(_L("Check result %08x == %08x\n"), aResult, aResult1);
test(aResult == aResult1);
}
#ifdef _DEBUG
DebugPrintf("Exception diagnostic print support is working if you can see this!!\n\r");
#else
test.Printf(_L("Exception diagnostic print support only available in UDEB builds - not tested\n"));
#endif
//check we've got some eh_globals
__cxa_eh_globals *g = __cxa_get_globals();
test.Printf(_L("Exception Handling globals for this thread allocated @ %08x\n"), g);
test(g != NULL);
test.Printf(_L("Emergency Buffer @ %08x\n"), g->emergency_buffer);
// now initialize a the unwinder cache of a ucbp with an exception descriptor
// and check we get the right result.
test.Printf(_L("Allocate an empty exception object\n"));
__cxa_exception *ep = ((__cxa_exception *)__cxa_allocate_exception(0)) - 1;
test.Printf(_L("Empty Exception Object @ %08x UCB @ %08x\n"), ep, &ep->ucb);
test.Printf(_L("Initialize the UCB with the EST and the current exception descriptor\n"));
InitialiseSymbianSpecificUnwinderCache(addr, &ep->ucb);
test.Printf(_L("Check the EST in the UCB [%08x] == %08x and the Exception Desc [%08x] == %08x\n"),
GET_ROM_EST(&ep->ucb), pEST, GET_EXCEPTION_DESCRIPTOR(&ep->ucb), myExcpDesc);
test(GET_ROM_EST(&ep->ucb)==pEST);
test((char*)GET_EXCEPTION_DESCRIPTOR(&ep->ucb)== myExcpDesc);
test.Printf(_L("Throwing first exception.\n"));
int r = catcher(2);
test.Printf(_L("Returned %d expected 2\n"), r);
test(r==2);
test.Printf(_L("Not throwing first exception.\n"));
r = catcher(0);
test.Printf(_L("Returned %d expected -1\n"), r);
test(r==-1);
test.Printf(_L("Throwing second exception.\n"));
r = catcher2(3);
test.Printf(_L("Returned %d expected 3\n"), r);
test(r==3);
test.Printf(_L("Not throwing second exception.\n"));
r = catcher2(0);
test.Printf(_L("Returned %d expected -1\n"), r);
test(r==-1);
test.Printf(_L("Throwing third exception.\n"));
r = catcher3(4);
test.Printf(_L("Returned %d expected 4\n"), r);
test(r==4);
test.Printf(_L("Not throwing third exception.\n"));
r = catcher3(0);
test.Printf(_L("Returned %d expected -1\n"), r);
test(r==-1);
test.Printf(_L("Throwing fourth exception.\n"));
r = catcher4(5);
test.Printf(_L("Returned %d expected 5\n"), r);
test(r==5);
test.Printf(_L("Not throwing fourth exception.\n"));
r = catcher4(0);
test.Printf(_L("Returned %d expected -1\n"), r);
test(r==-1);
test.Printf(_L("Throwing fifth exception.\n"));
r = catcher5(6);
test.Printf(_L("Returned %d expected 6\n"), r);
test(r==6);
test.Printf(_L("Not throwing fifth exception.\n"));
r = catcher5(0);
test.Printf(_L("Returned %d expected -1\n"), r);
test(r==-1);
test.Printf(_L("Testing std::uncaught_exception.\n"));
TestUncaught();
#endif
test.End();
test.Close();
return 0;
}
#ifdef __ARMCC__
// We rely on this immediately following E32main. DONT MOVE IT
__asm char * GetExceptionDescriptor(void) {
extern |Symbian$$CPP$$Exception$$Descriptor|
ldr r0, theExceptionDesc
#ifdef __SUPPORT_THUMB_INTERWORKING
bx lr
#else
mov pc, lr
#endif
theExceptionDesc dcd |Symbian$$CPP$$Exception$$Descriptor|
}
#endif
const __EIT_entry * DumbGetEITV1(TUint32 offset, const __EIT_entry * base, TUint32 n) {
if (n && offset < base[0].fnoffset) return 0;
for (int i=0; i<n; i++) {
// check for last entry
if (i == n-1 && base[i].fnoffset <= offset) return &base[i];
if (base[i].fnoffset <= offset && offset < base[i+1].fnoffset) return &base[i];
}
return 0;
}
static uint32_t __ARM_resolve_prel31(void *p)
{
return (uint32_t)((((*(int32_t *)p) << 1) >> 1) + (int32_t)p);
}
__EIT_entry * DumbGetEITV2(TUint32 addr, __EIT_entry * base, TUint32 n) {
if (n && (addr < __ARM_resolve_prel31(&base[0].fnoffset)))
return 0;
for (int i=0; i<n; i++) {
// check for last entry
if (i == n-1 && __ARM_resolve_prel31(&base[i].fnoffset) <= addr)
return &base[i];
if ((__ARM_resolve_prel31(&base[i].fnoffset) <= addr) &&
(addr < __ARM_resolve_prel31(&base[i+1].fnoffset)))
return &base[i];
}
return 0;
}
#ifdef __SUPPORT_CPP_EXCEPTIONS__
class MyFirstException {
public:
MyFirstException(int x) { iVal = x; };
virtual ~MyFirstException();
int iVal;
};
MyFirstException::~MyFirstException(){}
int thrower (int x) {
if (x != 0) throw MyFirstException(x);
return -1;
}
int catcher(int x) {
try {
return thrower(x);
}
catch(MyFirstException& e)
{
return e.iVal;
}
}
#include "second_excp.h"
int catcher2(int x) {
try {
return thrower2(x);
}
catch(MySecondException& e)
{
return e.iVal;
}
}
int catcher3(int x) {
try {
return thrower3(x);
}
catch(MyThirdException& e)
{
return e.iVal;
}
}
int catcher4(int x) {
try {
return thrower4(x);
}
catch(MyFourthException& e)
{
return e.iVal;
}
}
int catcher5(int x) {
try {
return thrower5(x);
}
catch(MyFifthException& e)
{
return e.iVal;
}
}
void TestUncaught(void) {
TInt x = 0;
try {
UncaughtTester aTester(x);
test.Printf(_L("Check throw case\n"));
thrower(0);
}
catch(MyFirstException& e)
{
test.Printf(_L("~Check x == 0\n"));
test(x == 0);
}
try {
UncaughtTester aTester(x);
test.Printf(_L("Check no throw case\n"));
}
catch(MyFirstException& e)
{
test.Printf(_L("Whoops!!!\n"));
}
test(x==1);
}
#endif