diff -r 000000000000 -r bde4ae8d615e os/kernelhwsrv/kerneltest/e32test/mmu/t_sharedio.cpp --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/os/kernelhwsrv/kerneltest/e32test/mmu/t_sharedio.cpp Fri Jun 15 03:10:57 2012 +0200 @@ -0,0 +1,673 @@ +// Copyright (c) 2003-2009 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\mmu\t_sharedio.cpp +// Overview: +// Verifies the correct implementation of Shared IO Buffers +// API information: +// DSharedIoBuffer +// Details: +// 1. Loading the shared IO buffer test device driver +// 2. Create buffer of a specified size +// - it passes a request to the device driver to create a buffer +// - the driver creates a shared io buffer and it zero fills it +// - it checks the size is as specified +// 3. Map in buffer +// - it passes a request to the device driver to map the buffer created at +// step 1 into this user process +// - the driver maps the buffer into this user process +// - checks if UserToKernel and KernelToUser methods work as expected +// - fills a buffer +// - returns the user address and size to the user process +// - using the address and size returned by the driver, the user process +// checks the buffer is filled as expected +// 4. Fill and check shared buffer +// - user process fills the buffer and driver checks it +// - driver fills the buffer and user process checks it +// 5. Map Out Buffer +// - requests to the driver that the buffer should be unmapped from this +// process' address space +// - the driver checks that iUserAddress becomes NULL after unmapping +// 6. Destroy Buffer +// - requests to the driver to destroy the buffer +// 7. Create a buffer with a physical address +// (not performed on WINS) +// - requests to the driver to create a buffer by specifying a physical address +// - the driver allocates a physical address +// - creates a shared IO buffer over that physical address +// - fills the buffer with a pattern +// - destroys the buffer +// - creates a hardware chunk over the same physical address +// - checks the buffer contains the pattern +// - closes the chunk +// 8. Check using the same buffer by 2 different user processes +// (not performed on WINS) +// - process 1 maps a global buffer (the global buffer will be +// created in the context of process 1) +// - fills it +// - unmaps it +// - process 2 maps the global buffer +// - checks if it's filled accordingly +// - unmaps it +// - destroys the global buffer +// 9. Checking buffers are protected at context switching +// (not relevant on WINS) +// - creates a shared buffer and map it into this process +// - creates a new process +// - the new process tries to access the buffer mapped into the first process +// by zeroing the raw buffer passed from the first process. This relies on the +// fact that each shared buffer is created in the Home Section, so they will be +// available at the same address +// - tests if the new process was panicked due to access violation +// - tests if the contents of the buffer haven't been changed +// 10.Checking writing to unmapped buffer +// (not performed on WINS) +// - creates a new process +// - the new process creates a buffer, maps it and unmaps it +// - the new process tries to use the buffer after unmapping +// - the parent process logs the exit type and reason and checks +// these are EExitPanic and 3 (Kern 3 - access violation) +// 11.Checking address lookup is implemented +// (not relevant on WINS) +// - creates a new process +// - the new process will ask the device driver to read and write a descriptor +// in the old process, the kernel will perform an address lookup before +// reading or writing the descriptor, to make sure the address location does +// belong to the old process. The descriptor is a TPtr pointing to a buffer +// located in a shared io buffer. +// - device driver will return an error in case address lookup fails or ThreadRead +// or ThreadWrite fail +// - the new process returns the error code returned by the device driver +// - the old process tests for the exit code for the new process being KErrNone and +// that the thread is not panicked, and also that the values written and read +// are those expected. +// 12.Closing test driver +// - Trivial, but it will test if a created & mapped shared io buffer gets released +// successfully when the logical channel is closed (which in turn will delete the +// shared io buffer associated with the channel) +// The test comes in 4 flavours, in order to test memory protection when context switching +// between different types of processes. +// T_SHAREDIO: +// Main process is a moving process which creates another moving process. +// T_SHAREDIO2: +// Main process is a fixed process which creates a moving process. +// T_SHAREDIO3: +// Main process is a fixed process which creates another fixed process. +// T_SHAREDIO4: +// Main process is a moving process which creates a fixed process. +// Platforms/Drives/Compatibility: +// All (some steps will not be performed on emulator) +// Assumptions/Requirement/Pre-requisites: +// The test needs D_SHAREDIO.LDD, the device driver that actually operates the API. +// Failures and causes: +// Failures of this test will indicate defects in the implementation of Shared Io Buffers. +// Base Port information: +// No? +// +// + +#define __E32TEST_EXTENSION__ + +#include +#include +#include "d_sharedio.h" +#include +#include "u32std.h" +#include +#include +#include +#include +#include +#include "freeram.h" + +LOCAL_D RTest test(_L("T_SHAREDIO")); + +const TInt KTestBufferSize = 0x100000; + +TUint MemModelAttributes; +TBool PhysicalCommitSupported; + +RTestLdd ldd; + +TUint32 TestBufferSizes[]={0x1000, 0x10453, 0x100000, 0x100001, 0x203000, 0}; + +TInt checkBuffer(TAny* buffer, TUint32 aSize, TUint32 key) + { + TInt r=KErrNone; + TUint8* m=(TUint8*)buffer; + for(TUint32 size=0;size commandLine; + commandLine.Num((TInt)aFunction); + commandLine.Append(_L(" ")); + commandLine.AppendNum(aArg1); + commandLine.Append(_L(" ")); + commandLine.AppendNum(aArg2); +#ifdef __FIXED__ + //fixed process creating a moving process + TFileName filename(RProcess().FileName()); + TInt pos=filename.LocateReverse(TChar('\\')); + filename.SetLength(pos+1); + filename+=_L("T_SHAREDIO.EXE"); + TInt r = RProcess::Create(filename,commandLine); +#else +#ifdef __SECOND_FIXED__ + //fixed process creating another fixed process + TFileName filename(RProcess().FileName()); + TInt pos=filename.LocateReverse(TChar('\\')); + filename.SetLength(pos+1); + filename+=_L("T_SHAREDIO2.EXE"); + TInt r = RProcess::Create(filename,commandLine); +#else +#ifdef __MOVING_FIXED__ + //moving process creating a fixed process + TFileName filename(RProcess().FileName()); + TInt pos=filename.LocateReverse(TChar('\\')); + filename.SetLength(pos+1); + filename+=_L("T_SHAREDIO2.EXE"); + TInt r = RProcess::Create(filename,commandLine); +#else + //moving process creating a moving process + TInt r = RProcess::Create(RProcess().FileName(),commandLine); +#endif +#endif +#endif + test(r==KErrNone); + SetJustInTime(EFalse); + } + +const TInt KProcessRendezvous = KRequestPending+1; + +TInt DoTestProcess(TInt aTestNum,TInt aArg1,TInt aArg2) + { + (void)aArg1; + (void)aArg2; + + RTestLdd ldd; + TInt r; + r=User::LoadLogicalDevice(KSharedIoTestLddName); + if(r!=KErrNone && r!=KErrAlreadyExists) + return KErrGeneral; + r=ldd.Open(); + if(r!=KErrNone) + return r; + + switch(aTestNum) + { + case ETestProcess1: + { + TAny* gbuffer; + TUint32 gsize; + r=User::GetTIntParameter(1,(TInt&)gbuffer); + if(r!=KErrNone) + return r; + r=User::GetTIntParameter(2,(TInt&)gsize); + if(r!=KErrNone) + return r; + + r=checkBuffer(gbuffer,gsize,23454); + if(r!=KErrNone) + return r; + r=ldd.MapOutGlobalBuffer(); + if(r!=KErrNone) + return r; + + r=ldd.CreateBuffer(KTestBufferSize); + if(r!=KErrNone) + return r; + + TAny* buffer; + TUint32 size; + r=ldd.MapInBuffer(&buffer,&size); + if(r!=KErrNone) + return r; + + if(!CheckBuffer(buffer,size)) + return KErrGeneral; + + r=ldd.MapOutBuffer(); + if(r!=KErrNone) + return r; + + RProcess::Rendezvous(KProcessRendezvous); + + *(TInt*)buffer = 0; // Should cause exception + break; + } + case ETestProcess2: + { + TInt size=aArg2; + TUint8* p=(TUint8*)aArg1; + + RProcess::Rendezvous(KProcessRendezvous); + for(TInt i=0;i buf(*(TInt*)buffer); + r=ldd.ThreadRW(buf); + if(r!=KErrNone) + return r; + + if(*(TInt*)buffer!=KMagic2) + return KErrCorrupt; + + r=ldd.ThreadRW(*(TDes8*)aArg1,aArg2); + if(r!=KErrNone) + return r; + + r=ldd.MapOutBuffer(); + if(r!=KErrNone) + return r; + + break; + } + default: + User::Panic(_L("T_SHAREDIO"),1); + } + + ldd.Close(); + return KErrNone; + } + +void CreateWithOOMCheck(TInt aSize, TBool aPhysicalAddress) + { + TInt failResult=KErrGeneral; + + TInt freeRam = FreeRam(); //This will also add a delay + + for(TInt failCount=1; failCount<1000; failCount++) + { + test.Printf(_L("alloc fail count = %d\n"),failCount); + + User::__DbgSetAllocFail(ETrue,RAllocator::EFailNext,failCount); + __KHEAP_MARK; + + if (aPhysicalAddress) + failResult=ldd.CreateBufferPhysAddr(aSize); + else + failResult=ldd.CreateBuffer(aSize); + + if(failResult==KErrNone) + break; + + test(failResult==KErrNoMemory); + __KHEAP_MARKEND; + + test(freeRam == FreeRam()); //This will also add a delay + } + User::__DbgSetAllocFail(ETrue,RAllocator::ENone,0); + __KHEAP_RESET; + + test.Next(_L("Destroy buffer")); + if (aPhysicalAddress) + ldd.DestroyBufferPhysAddr(); + else + ldd.DestroyBuffer(); + + test(freeRam == FreeRam()); //This will also add a delay + } + +GLDEF_C TInt E32Main() + { + TBuf16<512> cmd; + User::CommandLine(cmd); + if(cmd.Length() && TChar(cmd[0]).IsDigit()) + { + TInt function = -1; + TInt arg1 = -1; + TInt arg2 = -1; + TLex lex(cmd); + lex.Val(function); + lex.SkipSpace(); + lex.Val(arg1); + lex.SkipSpace(); + lex.Val(arg2); + return DoTestProcess(function,arg1,arg2); + } + + MemModelAttributes=UserSvr::HalFunction(EHalGroupKernel, EKernelHalMemModelInfo, NULL, NULL); + TUint mm=MemModelAttributes&EMemModelTypeMask; + PhysicalCommitSupported = mm!=EMemModelTypeDirect && mm!=EMemModelTypeEmul; + +// Turn off lazy dll unloading + RLoader l; + test(l.Connect()==KErrNone); + test(l.CancelLazyDllUnload()==KErrNone); + l.Close(); + + test.Title(); + +#if defined(__FIXED__) || defined(__SECOND_FIXED__) || defined(__MOVING_FIXED__) + if(mm!=EMemModelTypeMoving) + { + test.Printf(_L("TESTS NOT RUN - Only applicable to moving memory model\r\n")); + return 0; + } +#endif + + test.Start(_L("Loading test driver...")); + + TInt r; + r=User::LoadLogicalDevice(KSharedIoTestLddName); + test(r==KErrNone || r==KErrAlreadyExists); + r=User::LoadLogicalDevice(KSharedIoTestLddName); + test(r==KErrAlreadyExists); + r=ldd.Open(); + test(r==KErrNone); + + TAny* buffer; + TUint32 size; + TUint32 key; + + TInt testBufferSize=0; + for(; TestBufferSizes[testBufferSize]!=0; ++testBufferSize) + { + test.Printf(_L("Test buffer size = %08x\n"),TestBufferSizes[testBufferSize]); + + test.Next(_L("Create buffer")); + r=ldd.CreateBuffer(TestBufferSizes[testBufferSize]); + if(r!=KErrNone) + test.Printf(_L("Creating buffer failed client r=%d"), r); + test(r==KErrNone); + + test.Next(_L("Map In Buffer")); + r=ldd.MapInBuffer(&buffer,&size); + + test.Next(_L("CheckBuffer")); + test(CheckBuffer(buffer,size)); + test(r==KErrNone); + test.Next(_L("Fill and check shared buffer")); + key=Math::Random(); + fillBuffer(buffer,size,key); + test(ldd.CheckBuffer(key)==KErrNone); + + key=Math::Random(); + test(ldd.FillBuffer(key)==KErrNone); + test(checkBuffer(buffer,size,key)==KErrNone); + + test.Next(_L("Map Out Buffer")); + r=ldd.MapOutBuffer(); + test(r==KErrNone); + + test.Next(_L("Destroy Buffer")); + r=ldd.DestroyBuffer(); + test(r==KErrNone); + + test.Next(_L("Create a buffer under OOM conditions")); + CreateWithOOMCheck(TestBufferSizes[testBufferSize], EFalse); + + if(PhysicalCommitSupported) + { + test.Next(_L("Create a buffer with a physical address under OOM conditions")); + CreateWithOOMCheck(TestBufferSizes[testBufferSize], ETrue); + + test.Next(_L("Create a buffer with a physical address")); + r=ldd.CreateBufferPhysAddr(0x1000); + test(r==KErrNone); + + test.Next(_L("Map In physical address Buffer")); + r=ldd.MapInBuffer(&buffer,&size); + test(r==KErrNone); + + test.Next(_L("Fill and check physical address shared buffer")); + key=Math::Random(); + fillBuffer(buffer,size,key); + test(ldd.CheckBuffer(key)==KErrNone); + + key=Math::Random(); + test(ldd.FillBuffer(key)==KErrNone); + test(checkBuffer(buffer,size,key)==KErrNone); + + test.Next(_L("Map Out physical address Buffer")); + r=ldd.MapOutBuffer(); + test(r==KErrNone); + + test.Next(_L("Destroy a buffer with a physical address")); + r=ldd.DestroyBufferPhysAddr(); + test(r==KErrNone); + } + + test.Next(_L("Check using the same buffer by 2 different user processes")); + TAny* gbuffer; + TUint32 gsize; + r=ldd.MapInGlobalBuffer(RProcess().Id(),gbuffer,gsize); + test(r==KErrNone); + + fillBuffer(gbuffer,gsize,23454); + + r=ldd.MapOutGlobalBuffer(); + test(r==KErrNone); + + r=ldd.CreateBuffer(TestBufferSizes[testBufferSize]); + test(r==KErrNone); + + r=ldd.MapInBuffer(&buffer,&size); + test(r==KErrNone); + + test(CheckBuffer(buffer,size)); + + key=Math::Random(); + fillBuffer(buffer,size,key); + test(ldd.CheckBuffer(key)==KErrNone); + + RTestProcess rogueP; + TRequestStatus rendezvous; + TRequestStatus logon; + + if(MemModelAttributes&EMemModelAttrProcessProt) + { + test.Next(_L("Checking buffers are protected at context switching")); + rogueP.Create(ETestProcess2,(TInt)buffer,(TInt)size); + rogueP.Logon(logon); + rogueP.Rendezvous(rendezvous); + rogueP.Resume(); + User::WaitForRequest(rendezvous); + test(rendezvous==KProcessRendezvous); + User::WaitForRequest(logon); + test(rogueP.ExitType()==EExitPanic); + test(logon==3); + test(ldd.CheckBuffer(key)==KErrNone); + } + + r=ldd.MapOutBuffer(); + test(r==KErrNone); + + r=ldd.DestroyBuffer(); + test(r==KErrNone); + + RTestProcess process; + + if((MemModelAttributes&EMemModelAttrKernProt) && (MemModelAttributes&EMemModelTypeMask)!=EMemModelTypeDirect) + { + test.Next(_L("Checking writing to unmapped buffer")); + process.Create(ETestProcess1); + process.Logon(logon); + process.Rendezvous(rendezvous); + test(ldd.MapInGlobalBuffer(process.Id(),gbuffer,gsize)==KErrNone); + test(process.SetParameter(1,(TInt)gbuffer)==KErrNone); + test(process.SetParameter(2,(TInt)gsize)==KErrNone); + process.Resume(); + User::WaitForRequest(rendezvous); + test(rendezvous==KProcessRendezvous); + User::WaitForRequest(logon); + test(process.ExitType()==EExitPanic); + test(logon==3); + process.Close(); + } + + r=ldd.CreateBuffer(TestBufferSizes[testBufferSize]); + if(r!=KErrNone) + return r; + + r=ldd.MapInBuffer(&buffer,&size); + if(r!=KErrNone) + return r; + + if(!CheckBuffer(buffer,size)) + return KErrGeneral; + + *(TInt*)buffer=KMagic1; + TPckg buf(*(TInt*)buffer); + + RTestProcess proc; + test.Next(_L("Checking address lookup is implemented")); + proc.Create(ETestProcess3,(TInt)&buf,RThread().Id()); + proc.Logon(logon); + proc.Resume(); + User::WaitForRequest(logon); + + test(proc.ExitType()==EExitKill); + test(logon==0); + test(*(TInt*)buffer==KMagic2); + + ldd.DestroyBuffer(); + + // Check process death whilst buffer is mapped in + // Test case for defect DEF051851 - Shared IO Buffer fault when process dies + test.Next(_L("Checking process death whilst buffer is mapped in")); + process.Create(ETestProcess1); + process.Logon(logon); + test.Start(_L("Map buffer into another process")); + test(ldd.MapInGlobalBuffer(process.Id(),gbuffer,gsize)==KErrNone); + test.Next(_L("Kill other process")); + process.Kill(99); + User::WaitForRequest(logon); + test(process.ExitType()==EExitKill); + test(logon==99); + process.Close(); + test.Next(_L("Map out buffer")); + r=ldd.MapOutGlobalBuffer(); + test.Printf(_L("result = %d\n"),r); + test(r==KErrNone); + + test.Next(_L("Map buffer into this process")); + test(ldd.MapInGlobalBuffer(RProcess().Id(),gbuffer,gsize)==KErrNone); + test.Next(_L("Map out buffer from this process")); + r=ldd.MapOutGlobalBuffer(); + test.Printf(_L("result = %d\n"),r); + test(r==KErrNone); + + process.Create(ETestProcess1); + process.Logon(logon); + test.Next(_L("Map buffer into another process")); + test(ldd.MapInGlobalBuffer(process.Id(),gbuffer,gsize)==KErrNone); + test.Next(_L("Kill other process")); + process.Kill(99); + User::WaitForRequest(logon); + test(process.ExitType()==EExitKill); + test(logon==99); + process.Close(); + test.Next(_L("Map out buffer")); + r=ldd.MapOutGlobalBuffer(); + test.Printf(_L("result = %d\n"),r); + test(r==KErrNone); + test.End(); + } // loop for next buffer size + + test.Next(_L("Create and map in buffer")); + r=ldd.CreateBuffer(KTestBufferSize); + test(r==KErrNone); + r=ldd.MapInBuffer(&buffer,&size); + test(r==KErrNone); + +// Test for DEF053512 - Can't delete SharedIo buffers in DLogicalDevice destructor + + test.Next(_L("Map in global buffer")); + TAny* gbuffer; + TUint32 gsize; + test(ldd.MapInGlobalBuffer(RProcess().Id(),gbuffer,gsize)==KErrNone); + + test.Next(_L("Closing channel (with a buffer still mapped in)")); + ldd.Close(); + +// Test for DEF053512 - Can't delete SharedIo buffers in DLogicalDevice destructor + + test.Next(_L("Unload driver (whilst global buffer still mapped in)")); + r=User::FreeLogicalDevice(KSharedIoTestLddName); + test(r==KErrNone); + + test.End(); + + + + return(0); + } + +