1 // Copyright (c) 1997-2009 Nokia Corporation and/or its subsidiary(-ies).

     2 // All rights reserved.

     3 // This component and the accompanying materials are made available

     4 // under the terms of the License "Eclipse Public License v1.0"

     5 // which accompanies this distribution, and is available

     6 // at the URL "http://www.eclipse.org/legal/epl-v10.html".

     7 //

     8 // Initial Contributors:

     9 // Nokia Corporation - initial contribution.

    10 //

    11 // Contributors:

    12 //

    13 // Description:

    14 // e32test\misc\d_rndtim.cpp

    15 // LDD for generating random interrupts

    16 // 

    17 //

    18 

    19 #include "platform.h"

    20 #include <kernel/kern_priv.h>

    21 #include "d_rndtim.h"

    22 #include "../misc/prbs.h"

    23 

    24 #if defined(__MAWD__)

    25 #include <windermere.h>

    26 #elif defined(__MISA__)

    27 #define INT_ID KIntIdOstMatchGeneral

    28 #include <sa1100.h>

    29 #elif defined(__MCOT__)

    30 #define INT_ID KIntIdOstMatchGeneral

    31 #include <cotulla.h>

    32 #elif defined(__MI920__) || defined(__NI1136__)

    33 #include <integratorap.h>

    34 #elif defined(__EPOC32__) && defined(__CPU_X86)

    35 #include <x86.h>

    36 #endif

    37 

    38 #ifndef INT_ID

    39 #error Random timer ISR not supported on this platform

    40 #endif

    41 

    42 

    43 const TInt KMajorVersionNumber=0;

    44 const TInt KMinorVersionNumber=1;

    45 const TInt KBuildVersionNumber=1;

    46 

    47 class DRndTimFactory : public DLogicalDevice

    48 //

    49 // IPC copy LDD factory

    50 //

    51 	{

    52 public:

    53 	DRndTimFactory();

    54 	virtual TInt Install();						//overriding pure virtual

    55 	virtual void GetCaps(TDes8& aDes) const;	//overriding pure virtual

    56 	virtual TInt Create(DLogicalChannelBase*& aChannel);	//overriding pure virtual

    57 	};

    58 

    59 class DRndTim : public DLogicalChannelBase

    60 //

    61 // Millisecond timer LDD channel

    62 //

    63 	{

    64 public:

    65 	DRndTim();

    66 	virtual ~DRndTim();

    67 protected:

    68 	virtual TInt DoCreate(TInt aUnit, const TDesC8* aInfo, const TVersion& aVer);

    69 	virtual TInt Request(TInt aReqNo, TAny* a1, TAny* a2);

    70 public:

    71 	static void TimerIsr(TAny* aPtr);

    72 	static void IDfcFn(TAny* aPtr);

    73 	void StartTimer();

    74 	void StopTimer();

    75 	TInt SetPriority(TInt aHandle, TInt aPriority);

    76 	TInt Calibrate(TInt aMilliseconds);

    77 public:

    78 	TInt iIntId;

    79 	NFastSemaphore iSem;

    80 	volatile TUint32 iSeed[2];

    81 	volatile TUint32 iIsrCount;

    82 	DThread* iThread;

    83 	TDfc iIDfc;

    84 	};

    85 

    86 DECLARE_STANDARD_LDD()

    87 	{

    88     return new DRndTimFactory;

    89     }

    90 

    91 DRndTimFactory::DRndTimFactory()

    92 //

    93 // Constructor

    94 //

    95     {

    96     iVersion=TVersion(KMajorVersionNumber,KMinorVersionNumber,KBuildVersionNumber);

    97     //iParseMask=0;//No units, no info, no PDD

    98     //iUnitsMask=0;//Only one thing

    99     }

   100 

   101 TInt DRndTimFactory::Create(DLogicalChannelBase*& aChannel)

   102 //

   103 // Create a new DRndTim on this logical device

   104 //

   105     {

   106 	aChannel=new DRndTim;

   107     return aChannel?KErrNone:KErrNoMemory;

   108     }

   109 

   110 TInt DRndTimFactory::Install()

   111 //

   112 // Install the LDD - overriding pure virtual

   113 //

   114     {

   115     return SetName(&KRndTimLddName);

   116     }

   117 

   118 void DRndTimFactory::GetCaps(TDes8& aDes) const

   119 //

   120 // Get capabilities - overriding pure virtual

   121 //

   122     {

   123     TCapsRndTimV01 b;

   124     b.iVersion=TVersion(KMajorVersionNumber,KMinorVersionNumber,KBuildVersionNumber);

   125     Kern::InfoCopy(aDes,(TUint8*)&b,sizeof(b));

   126     }

   127 

   128 DRndTim::DRndTim()

   129 //

   130 // Constructor

   131 //

   132 	:	iIntId(-1),

   133 		iIDfc(&IDfcFn, this)

   134     {

   135 	iThread=&Kern::CurrentThread();

   136 	iThread->Open();

   137 	iSem.iOwningThread = &iThread->iNThread;

   138 	iSeed[0] = 0xb504f333u;

   139 	iSeed[1] = 0xf9de6484u;

   140     }

   141 

   142 DRndTim::~DRndTim()

   143 	{

   144 	StopTimer();

   145 	if (iIntId >= 0)

   146 		Interrupt::Unbind(iIntId);

   147 	Kern::SafeClose((DObject*&)iThread, NULL);

   148 	}

   149 

   150 TInt DRndTim::DoCreate(TInt /*aUnit*/, const TDesC8* /*anInfo*/, const TVersion& aVer)

   151 //

   152 // Create channel

   153 //

   154     {

   155 

   156     if (!Kern::QueryVersionSupported(TVersion(KMajorVersionNumber,KMinorVersionNumber,KBuildVersionNumber),aVer))

   157     	return KErrNotSupported;

   158 	StopTimer();

   159 	TInt r = Interrupt::Bind(INT_ID, &TimerIsr, this);

   160 	if (r == KErrNone)

   161 		iIntId = INT_ID;

   162 	return r;

   163 	}

   164 

   165 TInt DRndTim::Request(TInt aFunction, TAny* a1, TAny* a2)

   166 	{

   167 	TInt r = KErrNotSupported;

   168 	switch (aFunction)

   169 		{

   170 		case RRndTim::EControlWait:

   171 			NKern::FSWait(&iSem);

   172 			r = KErrNone;

   173 			break;

   174 		case RRndTim::EControlSetPriority:

   175 			r = SetPriority(TInt(a1), TInt(a2));

   176 			break;

   177 		case RRndTim::EControlStartTimer:

   178 			NKern::ThreadEnterCS();

   179 			StartTimer();

   180 			NKern::ThreadLeaveCS();

   181 			break;

   182 		case RRndTim::EControlStopTimer:

   183 			NKern::ThreadEnterCS();

   184 			StopTimer();

   185 			NKern::ThreadLeaveCS();

   186 			break;

   187 		case RRndTim::EControlCalibrate:

   188 			NKern::ThreadEnterCS();

   189 			r = Calibrate(TInt(a1));

   190 			NKern::ThreadLeaveCS();

   191 			break;

   192 		default:

   193 			break;

   194 		}

   195 	return r;

   196 	}

   197 

   198 TInt DRndTim::SetPriority(TInt aHandle, TInt aPriority)

   199 	{

   200 	TInt r = KErrBadHandle;

   201 	DThread& c = Kern::CurrentThread();

   202 	NKern::ThreadEnterCS();

   203 	NKern::LockSystem();

   204 	DThread* t = (DThread*)Kern::ObjectFromHandle(&c, aHandle, EThread);

   205 	if (t && !t->Open())

   206 		{

   207 		NKern::UnlockSystem();

   208 		r = Kern::SetThreadPriority(aPriority, t);

   209 		t->Close(NULL);

   210 		}

   211 	else

   212 		NKern::UnlockSystem();

   213 	NKern::ThreadLeaveCS();

   214 	return r;

   215 	}

   216 

   217 TInt DRndTim::Calibrate(TInt aMilliseconds)

   218 	{

   219 	TUint32 n1, n2;

   220 	TInt ticks = NKern::TimerTicks(aMilliseconds);

   221 	n1 = iIsrCount;

   222 	NKern::Sleep(ticks);

   223 	n2 = iIsrCount;

   224 	return (TInt)(n2-n1);

   225 	}

   226 

   227 void DRndTim::StartTimer()

   228 	{

   229 #if defined(__MISA__) 

   230 	// for SA11x0 use OST match 0

   231 	TSa1100::ModifyIntLevels(0,KHtIntsOstMatchGeneral);	// route new timer interrupt to FIQ

   232 	TSa1100::SetOstMatchEOI(KHwOstMatchGeneral);

   233 	TUint oscr=TSa1100::OstData();

   234 	TSa1100::SetOstMatch(KHwOstMatchGeneral, oscr + 5000);

   235 	TSa1100::EnableOstInterrupt(KHwOstMatchGeneral);

   236 #elif defined(__MCOT__)

   237 	// for SA11x0 use OST match 0

   238 	TCotulla::ModifyIntLevels(0,KHtIntsOstMatchGeneral);	// route new timer interrupt to FIQ

   239 	TCotulla::SetOstMatchEOI(KHwOstMatchGeneral);

   240 	TUint oscr=TCotulla::OstData();

   241 	TCotulla::SetOstMatch(KHwOstMatchGeneral, oscr + 5000);

   242 	TCotulla::EnableOstInterrupt(KHwOstMatchGeneral);

   243 #endif

   244 	Interrupt::Enable(INT_ID);

   245 	}

   246 

   247 void DRndTim::StopTimer()

   248 	{

   249 #if defined(__MISA__) 

   250 	Interrupt::Disable(KIntIdOstMatchGeneral);

   251 	TSa1100::DisableOstInterrupt(KHwOstMatchGeneral);

   252 	TSa1100::SetOstMatchEOI(KHwOstMatchGeneral);

   253 #elif defined(__MCOT__)

   254 	Interrupt::Disable(KIntIdOstMatchGeneral);

   255 	TCotulla::DisableOstInterrupt(KHwOstMatchGeneral);

   256 	TCotulla::SetOstMatchEOI(KHwOstMatchGeneral);

   257 #endif

   258 	}

   259 

   260 void DRndTim::TimerIsr(TAny* aPtr)

   261 	{

   262 	DRndTim* d = (DRndTim*)aPtr;

   263 	++d->iIsrCount;

   264 #if defined(__MISA__) 

   265 	TUint interval = Random((TUint*)d->iSeed);

   266 	interval &= 0x3ff;

   267 	interval += 256;	// 256-1279 ticks = approx 69 to 347 microseconds

   268 	TUint oscr=TSa1100::OstData();

   269 	TSa1100::SetOstMatch(KHwOstMatchGeneral, oscr + interval);

   270 	TSa1100::SetOstMatchEOI(KHwOstMatchGeneral);

   271 #elif defined(__MCOT__)

   272 	TUint interval = Random((TUint*)d->iSeed);

   273 	interval &= 0x3ff;

   274 	interval += 256;	// 256-1279 ticks = approx 69 to 347 microseconds

   275 	TUint oscr=TCotulla::OstData();

   276 	TCotulla::SetOstMatch(KHwOstMatchGeneral, oscr + interval);

   277 	TCotulla::SetOstMatchEOI(KHwOstMatchGeneral);

   278 #endif

   279 	d->iIDfc.Add();

   280 	}

   281 

   282 void DRndTim::IDfcFn(TAny* aPtr)

   283 	{

   284 	DRndTim* d = (DRndTim*)aPtr;

   285 	d->iSem.Signal();

   286 	}

   287 

   288