diff -r 000000000000 -r a41df078684a kerneltest/e32test/iic/t_iic.h
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/kerneltest/e32test/iic/t_iic.h	Mon Oct 19 15:55:17 2009 +0100
@@ -0,0 +1,434 @@
+// Copyright (c) 1995-2009 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\iic\t_iic.h
+//
+
+#ifndef __T_IIC_H__
+#define __T_IIC_H__
+
+
+const TInt KIicClientMajorVersionNumber = 1;
+const TInt KIicClientMinorVersionNumber = 0;
+const TInt KIicClientBuildVersionNumber = KE32BuildVersionNumber;
+
+const TInt KPriorityTestNum = 6; // 1 blocking transaction + 5 test transactions
+
+// For IIC,
+// If bit 31 is set and bit 30 cleared it is used to extend the Master-Slave channel;
+// if bit 31 is cleared and bit 30 is set, it extends the Master channel; 
+// if both bits 31 and 30 are cleared it extends the Slave channel interface.
+// However,
+// since the kernel-side proxy clients interpret the msb being set as indicative of an
+// asynchronous request, the values here will have the static extension pattern represented
+// in bits 30 and 29, instead. In addition, to support communication with the slave-side proxy,
+// the Slave extension value will be represented as bits 30 and 29 set, so that it can be distinguished
+// from 'normal' synchronous operations.
+//
+const TUint KTestControlIoMask =			0x60000000;
+const TUint KTestMasterControlIo =		0x20000000;
+const TUint KTestSlaveControlIo =		0x60000000;
+const TUint KTestMasterSlaveControlIo =	0x40000000;
+const TUint KTestControlIoPilOffset =	0x00000002;	// Corresponds to 1 higher than the number used by PIL
+const TUint KTestControlUnitTestOffset = 0x10000000;
+
+//
+// Enumerations TReqType and TBusType defined in kernel-side class TIicBusTransfer
+// The user-side test, and the kernel-side proxy client require access to this
+enum TReqType
+	{
+	EMasterRead,
+	EMasterWrite
+	};
+enum TBusType
+	{
+	EI2c	   = 0,
+	ESpi	   = 0x01,
+	EMicrowire = 0x02,
+	ECci	   = 0x03,
+	ESccb	   = 0x04,
+	EInvalidBus
+	};
+
+#define MAX_TRANS_LENGTH 20	
+
+
+#ifndef __KERNEL_MODE__
+//
+//	For convenience, selected kernel-side information is replicated here
+//  to allow the user-side test to populate buffers accordingly
+//
+// Bus-specific configuration
+//
+enum TEndianness
+	{
+	EBigEndian,
+	ELittleEndian
+	};
+
+enum TBitOrder
+	{
+	ELsbFirst,
+	EMsbFirst
+	};
+
+//
+// Bus-specific configuration for SPI bus
+//
+
+enum TSpiWordWidth
+	{
+	ESpiWordWidth_8,
+	ESpiWordWidth_10,
+	ESpiWordWidth_12,
+	ESpiWordWidth_16
+	};
+
+enum TSpiClkMode
+	{
+	ESpiPolarityLowRisingEdge,		// Active high, odd edges
+	ESpiPolarityLowFallingEdge,		// Active high, even edges
+	ESpiPolarityHighFallingEdge,	// Active low,  odd edges
+	ESpiPolarityHighRisingEdge		// Active low,  even edges
+	};
+
+enum TSpiSsPinMode
+    {
+    ESpiCSPinActiveLow,      // Active low
+    ESpiCSPinActiveHigh     // Active high
+    };
+
+class TConfigSpiV01
+	{
+public:
+	TSpiWordWidth	iWordWidth;
+	TInt32			iClkSpeedHz;
+	TSpiClkMode		iClkMode;
+	TInt32			iTimeoutPeriod;
+	TEndianness		iEndianness;
+	TBitOrder		iBitOrder;
+	TUint			iTransactionWaitCycles;
+	TSpiSsPinMode	iSSPinActiveMode;
+	};
+
+typedef TPckgBuf <TConfigSpiV01> TConfigSpiBufV01;
+
+
+//
+// Bus-specific configuration for I2C bus
+//
+
+enum TI2cAddrType
+	{
+	EI2cAddr7Bit,
+	EI2cAddr10Bit
+	};
+
+class TConfigI2cV01
+	{
+	public:
+	TI2cAddrType	iAddrType;		// 7 or 10-bit addressing
+	TInt32			iClkSpeedHz;
+	TEndianness		iEndianness;
+	TInt32			iTimeoutPeriod;
+	};
+
+typedef TPckgBuf <TConfigI2cV01> TConfigI2cBufV01;
+
+
+inline static TInt CreateSpiBuf(TConfigSpiBufV01*& aBuf,
+								TSpiWordWidth	aWordWidth,
+								TInt32			aClkSpeedHz,
+								TSpiClkMode		aClkMode,
+								TInt32			aTimeoutPeriod,
+								TEndianness		aEndianness,
+								TBitOrder		aBitOrder,
+								TUint			aTransactionWaitCycles,
+								TSpiSsPinMode	aSSPinActiveMode)
+// Utility function to create a buffer for the SPI bus
+	{
+	aBuf = new TConfigSpiBufV01();
+	if(aBuf==NULL)
+		return KErrNoMemory;
+	TConfigSpiV01 *buf = &((*aBuf)());
+	buf->iWordWidth = aWordWidth;
+	buf->iClkSpeedHz = aClkSpeedHz;
+	buf->iClkMode = aClkMode;
+	buf->iTimeoutPeriod = aTimeoutPeriod;
+	buf->iEndianness = aEndianness;
+	buf->iBitOrder = aBitOrder;
+	buf->iTransactionWaitCycles = aTransactionWaitCycles;
+	buf->iSSPinActiveMode = aSSPinActiveMode;
+	return KErrNone;
+	}
+
+inline static TInt CreateI2cBuf(TConfigI2cBufV01*& aBuf,
+								TI2cAddrType	aAddrType,
+								TInt32			aClkSpeedHz,
+								TEndianness		aEndianness,
+								TInt32			aTimeoutPeriod)
+// Utility function to create a buffer for the I2C bus
+	{
+	aBuf = new TConfigI2cBufV01();
+	if(aBuf==NULL)
+		return KErrNoMemory;
+	TConfigI2cV01 *buf = &((*aBuf)());
+	buf->iAddrType = aAddrType;
+	buf->iClkSpeedHz = aClkSpeedHz;
+	buf->iEndianness = aEndianness;
+	buf->iTimeoutPeriod = aTimeoutPeriod;
+	return KErrNone;
+	}
+
+//
+// Enumerations for channel type and channel duplex defined in kernel-side class DIicBusChannel
+// duplicated for temporary test
+enum TChannelType
+	{
+	EMaster			= 0,
+	ESlave			= 0x01,
+	EMasterSlave	= 0x02,
+	EInvalidType
+	};
+enum TChannelDuplex
+	{
+	EHalfDuplex = 0,	// supports only half duplex transactions (even if bus spec supports full duplex)
+	EFullDuplex = 0x1,	// supports full duplex transactions (queud transactions may still be half duplex)
+	EInvalidDuplex
+	};
+//
+// Bus realisation configuration
+//
+// 31 30 29 28 | 27 26 25 24 | 23 22 21 20 | 19 18 17 16 | 15 14 13 12 | 11 10  9  8 |  7  6  5  4 |  3  2  1  0
+//
+// 31:29 - HS Master address (I2C only)
+// 28    - HS address valid bit
+// 27:23 - Reserved
+// 22:20 - Bus type
+// 19:15 - Channel number
+// 14:10 - Transaction speed
+//  9:0  - Slave address
+#define HS_MASTER_ADDR_SHIFT 29
+#define HS_MASTER_ADDR_MASK 0x7
+#define HS_ADDR_VALID_SHIFT 28
+#define HS_ADDR_VALID_MASK 0x1
+#define BUS_TYPE_SHIFT 20
+#define BUS_TYPE_MASK 0x7
+#define CHANNEL_NO_SHIFT 15
+#define CHANNEL_NO_MASK 0x1F
+#define TRANS_SPEED_SHIFT 10
+#define TRANS_SPEED_MASK 0x1F
+#define SLAVE_ADDR_SHIFT 0
+#define SLAVE_ADDR_MASK 0x3FF
+//
+// Macros to access fields within Bus Realisation Configuration data, used on a per-transaction basis with IIC
+#define SET_CONFIG_FIELD(aBusId,aField,aMask,aShift) aBusId=(aBusId&~(aMask<<aShift))|((aField&aMask)<<aShift);
+#define GET_CONFIG_FIELD(aBusId,aMask,aShift) (((aBusId)>>(aShift))&(aMask))
+
+#define GET_HS_MASTER_ADDR(aBusId) GET_CONFIG_FIELD(aBusId,HS_MASTER_ADDR_MASK,HS_MASTER_ADDR_SHIFT)
+#define SET_HS_MASTER_ADDR(aBusId,aHsMasterAddr) SET_CONFIG_FIELD(aBusId,aHsMasterAddr,HS_MASTER_ADDR_MASK,HS_MASTER_ADDR_SHIFT)
+#define GET_HS_VALID(aBusId) GET_CONFIG_FIELD(aBusId,HS_ADDR_VALID_MASK,HS_ADDR_VALID_SHIFT)
+#define SET_HS_VALID(aBusId,aHsValid) SET_CONFIG_FIELD(aBusId,aHsValid,HS_ADDR_VALID_MASK,HS_ADDR_VALID_SHIFT)
+#define GET_BUS_TYPE(aBusId) GET_CONFIG_FIELD(aBusId,BUS_TYPE_MASK,BUS_TYPE_SHIFT)
+#define SET_BUS_TYPE(aBusId,aBusType) SET_CONFIG_FIELD(aBusId,aBusType,BUS_TYPE_MASK,BUS_TYPE_SHIFT)
+#define GET_CHAN_NUM(aBusId) GET_CONFIG_FIELD(aBusId,CHANNEL_NO_MASK,CHANNEL_NO_SHIFT)
+#define SET_CHAN_NUM(aBusId,aChanNum) SET_CONFIG_FIELD(aBusId,aChanNum,CHANNEL_NO_MASK,CHANNEL_NO_SHIFT)
+#define SET_TRANS_SPEED(aBusId,aTransSpeed) SET_CONFIG_FIELD(aBusId,aTransSpeed,TRANS_SPEED_MASK,TRANS_SPEED_SHIFT)
+#define GET_TRANS_SPEED(aBusId) GET_CONFIG_FIELD(aBusId,TRANS_SPEED_MASK,TRANS_SPEED_SHIFT)
+#define SET_SLAVE_ADDR(aBusId,aSlaveAddr) SET_CONFIG_FIELD(aBusId,aSlaveAddr,SLAVE_ADDR_MASK,SLAVE_ADDR_SHIFT)
+#define GET_SLAVE_ADDR(aBusId) GET_CONFIG_FIELD(aBusId,SLAVE_ADDR_MASK,SLAVE_ADDR_SHIFT)
+
+static const TUint8 KTransactionWithPreamble = 0x80;
+static const TUint8 KTransactionWithMultiTransc = 0x40;
+
+enum TIicBusSlaveTrigger
+	{
+	ERxAllBytes			= 0x01,
+	ERxUnderrun			= 0x02,
+	ERxOverrun			= 0x04,
+	ETxAllBytes			= 0x08,
+	ETxUnderrun			= 0x10,
+	ETxOverrun			= 0x20,
+	EGeneralBusError	= 0x40,
+	EAsyncCaptChan		= 0x80
+	};
+
+#endif // #ifndef __KERNEL_MODE__
+
+//
+// User-Side abbreviation of kernel side classes TIicBusTransfer and TIicBusTransaction
+//
+struct TUsideTferDesc
+	{
+	TInt8 iType;			// as one of TReqType
+	TInt8 iBufGranularity;	// width of a transfer word in bits
+	TDes8* iBuffer;	// the data for this transfer (packed into 8-bit words with padding)
+	TUsideTferDesc* iNext;
+	};
+
+struct TUsideTracnDesc
+	{
+	TBusType iType;
+	TDes8* iHeader;
+	TUsideTferDesc* iHalfDuplexTrans;
+	TUsideTferDesc* iFullDuplexTrans;
+	TUint8 iFlags;				// used to indicate if it supports a preamble
+	TAny* iPreambleArg;			// used for preamble argument
+	TAny* iMultiTranscArg;		// used for multi transc argument
+	};
+
+class RBusDevIicClient : public RBusLogicalChannel
+	{
+    public:
+	enum TControl
+		{
+// Master mode operations
+		EQTransSync=1,						/**< Queue Transaction (Synchronous version)					*/
+// Slave mode operations
+		EInitSlaveClient,					/**< Instigate Slave initialisation required to support testing	*/
+		ECaptureChanSync,					/**< Capture Channel (Synchronous version)						*/
+		EReleaseChan,						/**< ReleaseChannel												*/
+		ERegisterRxBuffer,					/**< Register a buffer for receiving data						*/
+		ERegisterTxBuffer,					/**< Register a buffer for transmitting data					*/
+		ESetNotifTrigger					/**< Set the notification triggers                               */									
+		};
+
+	enum TStaticExt
+		{
+		ECtlIoNone = 0,
+		ECtlIoDumpChan = 1, // KCtrlIoDumpChan - defined only for UDEB
+// ControlIO codes for Master follow
+		ECtlIoBlockReqCompletion=(KTestMasterControlIo+KTestControlIoPilOffset),
+		ECtlIoUnblockReqCompletion,
+		ECtlIoDeRegChan,
+		ECtlIoTracnOne,
+		ECtlIoPriorityTest,
+		EGetTestResult,
+		ECtlIoSetTimeOutFlag,
+		ECtlIoTestFullDuplexTrans,
+// ControlIO codes for Slave follow
+		ECtrlIoRxWords=(KTestSlaveControlIo+KTestControlIoPilOffset),
+		ECtrlIoTxWords,
+		ECtrlIoRxTxWords,
+		ECtrlIoTxChkBuf,
+		ECtlIoBusError,
+		ECtrlIoBlockNotification,
+		ECtrlIoUnblockNotification,
+		ECtrlIoUpdTimeout,
+		ECtrlIoNotifNoTrigger
+		};
+	
+	enum TTestFullDuplexTrans
+		{
+		ETestValidFullDuplexTrans=1,
+		ETestInvalidFullDuplexTrans1,
+		ETestInvalidFullDuplexTrans2,
+		ETestLastNodeFullDuplexTrans,
+		ETestDiffNodeNoFullDuplexTrans,
+		ETestNone
+		};
+
+	enum TRequest
+		{
+// Master mode operations
+		EQTransAsync=1,						/**< Queue Transaction (Asynchronous version)					*/
+		ECtrlIoTestBufReUse,
+// Slave mode operations
+		ECaptureChanAsync,					/**< Capture Channel (Asynchronous version)						*/
+		ECtrlIoOvUndRunRxTx
+		};
+		
+	enum TTestMessages
+	    {
+	    ETestIicChannelInlineFunc=KTestControlUnitTestOffset    
+	    };
+	
+#ifndef __KERNEL_MODE__
+	public:   
+	inline TInt TestIiicChannelInlineFunc(){return DoControl (ETestIicChannelInlineFunc, NULL, NULL);}	
+	// Master mode functions
+	inline TInt Open(TDesC& aProxyName) {return (DoCreate(aProxyName,TVersion(KIicClientMajorVersionNumber,KIicClientMinorVersionNumber,KIicClientBuildVersionNumber),-1,NULL,NULL,EOwnerThread));}
+
+	inline TInt QueueTransaction(TInt aBusId, TUsideTracnDesc* aTransaction) {return(DoControl(EQTransSync,(TAny*)aBusId,(TAny*)aTransaction));}
+
+	inline void QueueTransaction(TRequestStatus& aStatus, TInt aBusId, TUsideTracnDesc* aTransaction) {DoRequest(EQTransAsync,aStatus,(TAny*)aBusId,(TAny*)aTransaction);}
+
+	inline void CancelAsyncOperation(TRequestStatus* aStatus, TInt aBusId)	{TInt* parms[2]; parms[0]=(TInt*)aStatus; parms[1]=(TInt*)aBusId;DoCancel((TInt)&parms[0]);} 
+
+	// Slave mode functions
+	inline TInt InitSlaveClient() {return(DoControl(EInitSlaveClient,NULL,NULL));}
+	inline TInt CaptureChannel(TInt aBusId, TDes8* aConfigHdr, TInt& aChannelId) {TInt* parms[2]; parms[0]=(TInt*)aBusId; parms[1]=&aChannelId;return(DoControl(ECaptureChanSync,(TAny*)aConfigHdr,(TAny*)(&parms[0])));}
+
+	inline TInt CaptureChannel(TInt aBusId, TDes8* aConfigHdr, TInt& aChannelId, TRequestStatus& aStatus) {TInt* parms[2]; parms[0]=(TInt*)aBusId; parms[1]=&aChannelId;DoRequest(ECaptureChanAsync,aStatus,(TAny*)aConfigHdr,(TAny*)(&parms[0]));return KErrNone;}
+
+	inline TInt ReleaseChannel(TInt aChannelId){return(DoControl(EReleaseChan,(TAny*)aChannelId,NULL));};
+	inline TInt RegisterRxBuffer(TInt aChannelId, TInt8 aBufGranularity, TInt8 aNumWords, TInt8 aOffset){TInt8 parms[3]; parms[0]=aBufGranularity; parms[1]=aNumWords; parms[2]=aOffset;return(DoControl(ERegisterRxBuffer,(TAny*)aChannelId,(TAny*)(&parms[0])));};
+	inline TInt RegisterTxBuffer(TInt aChannelId, TInt8 aBufGranularity, TInt8 aNumWords, TInt8 aOffset){TInt8 parms[3]; parms[0]=aBufGranularity; parms[1]=aNumWords; parms[2]=aOffset;return(DoControl(ERegisterTxBuffer,(TAny*)aChannelId,(TAny*)(&parms[0])));};
+	inline TInt SetNotificationTrigger(TInt aChannelId, TInt aTrigger, TRequestStatus* aStatus){TInt parms[2]; parms[0]=aChannelId; parms[1]=aTrigger;return(DoControl(ESetNotifTrigger,(TAny*)aStatus,(TAny*)(&parms[0])));};
+
+	// ControlIO functions follow
+	inline TInt BlockReqCompletion(TInt aBusId) {return(DoControl(ECtlIoBlockReqCompletion,(TAny*)aBusId));}
+	inline TInt UnblockReqCompletion(TInt aBusId) {return(DoControl(ECtlIoUnblockReqCompletion,(TAny*)aBusId));}
+	inline TInt DeRegisterChan(TInt aBusId) {return(DoControl(ECtlIoDeRegChan,(TAny*)aBusId));}
+	inline TInt TestTracnOne(TInt aBusId) {return(DoControl(ECtlIoTracnOne, (TAny*)aBusId));}
+	inline TInt SetTimeOutFlag(TInt aBusId){return(DoControl(ECtlIoSetTimeOutFlag,(TAny*)aBusId));}
+	inline TInt CancelTimeOutFlag(TInt aBusId){return(DoControl(ECtlIoNone,(TAny*)aBusId));}
+	inline TInt TestPriority(TInt aBusId) {return(DoControl(ECtlIoPriorityTest, (TAny*)aBusId));}
+
+	inline TInt TestValidFullDuplexTrans(TInt aBusId) {return(DoControl(ECtlIoTestFullDuplexTrans, (TAny*)aBusId, (TAny*)ETestValidFullDuplexTrans));}
+	inline TInt TestInvalidFullDuplexTrans1(TInt aBusId) {return(DoControl(ECtlIoTestFullDuplexTrans, (TAny*)aBusId, (TAny*)ETestInvalidFullDuplexTrans1));}
+	inline TInt TestInvalidFullDuplexTrans2(TInt aBusId) {return(DoControl(ECtlIoTestFullDuplexTrans, (TAny*)aBusId, (TAny*)ETestInvalidFullDuplexTrans2));}
+	
+	inline TInt TestLastNodeFullDuplexTrans(TInt aBusId) {return(DoControl(ECtlIoTestFullDuplexTrans, (TAny*)aBusId, (TAny*)ETestLastNodeFullDuplexTrans));}
+	inline TInt TestDiffNodeNumFullDuplexTrans(TInt aBusId) {return(DoControl(ECtlIoTestFullDuplexTrans, (TAny*)aBusId, (TAny*)ETestDiffNodeNoFullDuplexTrans));}
+
+	inline void TestBufferReUse(TInt aBusId, TRequestStatus& aStatus) {DoRequest(ECtrlIoTestBufReUse,aStatus,(TAny*)aBusId,NULL);}
+
+	inline TInt SimulateRxNWords(TInt aBusId, TInt aChannelId, TInt aNumWords){TInt parms[2]; parms[0]=aChannelId; parms[1]=aNumWords;return(DoControl(ECtrlIoRxWords,(TAny*)aBusId,(TAny*)(&parms[0])));};
+	inline TInt SimulateTxNWords(TInt aBusId, TInt aChannelId, TInt aNumWords){TInt parms[2]; parms[0]=aChannelId; parms[1]=aNumWords;return(DoControl(ECtrlIoTxWords,(TAny*)aBusId,(TAny*)(&parms[0])));};
+	inline TInt SimulateRxTxNWords(TInt aBusId, TInt aChannelId, TInt aNumRxWords, TInt aNumTxWords){TInt parms[3]; parms[0]=aChannelId; parms[1]=aNumRxWords; parms[2]=aNumTxWords;return(DoControl(ECtrlIoRxTxWords,(TAny*)aBusId,(TAny*)(&parms[0])));};
+	inline TInt SimulateBusErr(TInt aBusId, TInt aChannelId) {return(DoControl(ECtlIoBusError,(TAny*)aBusId,(TAny*)aChannelId));}
+	inline TInt BlockNotification(TInt aBusId, TInt aChannelId) {return(DoControl(ECtrlIoBlockNotification,(TAny*)aBusId,(TAny*)aChannelId));}
+	inline TInt UnblockNotification(TInt aBusId, TInt aChannelId) {return(DoControl(ECtrlIoUnblockNotification,(TAny*)aBusId,(TAny*)aChannelId));}
+	inline TInt UpdateTimeoutValues(TInt aBusId, TInt aChannelId) {return(DoControl(ECtrlIoUpdTimeout,(TAny*)aBusId,(TAny*)aChannelId));}
+	inline TInt SetNotifNoTrigger(TInt aChannelId, TInt aTrigger){return(DoControl(ECtrlIoNotifNoTrigger,(TAny*)aChannelId,(TAny*)aTrigger));};
+
+	inline void TestOverrunUnderrun(TInt aBusId, TInt aChannelId, TRequestStatus& aStatus) {DoRequest(ECtrlIoOvUndRunRxTx,aStatus,(TAny*)aBusId,(TAny*)aChannelId);}
+
+#endif
+	};
+
+
+#ifdef __KERNEL_MODE__
+
+// Definition of function prototype for a callback function provided by the PSL
+// to be invoked when the part played by the hardware in processing a transfer
+// has completed.
+typedef void (*THwDoneCbFn)(TAny* );
+
+#endif
+
+// Data used to support tests
+
+// Transaction One
+//
+const TUint8 KTransOneTferOne[21] = {0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20};
+const TUint8 KTransOneTferTwo[8] = {17,18,19,20,21,22,23,24};
+const TUint8 KTransOneTferThree[6] = {87,85,83,81,79,77};
+const TUint8 KPriorityTestHeader[6] = {0,1,2,3,4,10}; 
+const TInt KPriorityTestPrio[6] = {1,2,3,4,5,0};
+
+const TInt KRxBufSizeInBytes = 64;
+const TInt KTxBufSizeInBytes = 64;
+
+#endif