1 // Copyright (c) 2010 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 // Partition Management for Embedded MMC devices

    15 //

    16 //

    17 

    18 #include <emmcptn.h>

    19 #include "bgahsmmcptn.h"

    20 

    21 const TInt	  KDiskSectorShift		= 9;

    22 const TUint32 KPIOffsetFromMediaEnd = 1;

    23 

    24 class DBB5PartitionInfo : public DEMMCPartitionInfo

    25 	{

    26 public:

    27 	 DBB5PartitionInfo();

    28 	~DBB5PartitionInfo();

    29 

    30 public:

    31 	virtual TInt Initialise(DMediaDriver* aDriver);

    32 	virtual TInt PartitionInfo(TPartitionInfo& anInfo, const TMMCCallBack& aCallBack);

    33 	virtual TInt PartitionCaps(TLocDrv& aDrive, TDes8& aInfo);

    34 

    35 protected:

    36 	void SetPartitionEntry(TPartitionEntry* aEntry, TUint aFirstSector, TUint aNumSectors);

    37 

    38 private:

    39 	static void SessionEndCallBack(TAny* aSelf);

    40 		   void DoSessionEndCallBack();

    41 	virtual TInt DecodePartitionInfo();

    42 

    43 protected:

    44 	DMediaDriver*	iDriver;

    45 	TPartitionInfo* iPartitionInfo;

    46 	TMMCCallBack	iSessionEndCallBack;

    47 	TMMCCallBack	iCallBack;		   // Where to report the PartitionInfo completion

    48 	DMMCSession*	iSession;

    49 	TMMCard*		iCard;

    50 	TUint8* 		iIntBuf;

    51 	TUint32 		iPartitionAttributes[KMaxLocalDrives];

    52 	};

    53 

    54 DBB5PartitionInfo::DBB5PartitionInfo()

    55   : iSessionEndCallBack(DBB5PartitionInfo::SessionEndCallBack, this)

    56 	{

    57 	}

    58 

    59 DBB5PartitionInfo::~DBB5PartitionInfo()

    60 	{

    61 	delete iSession;

    62 	}

    63 

    64 TInt DBB5PartitionInfo::Initialise(DMediaDriver* aDriver)

    65 	{

    66 	iDriver = aDriver;

    67 

    68 	DMMCSocket* socket = ((DMMCSocket*)((DPBusPrimaryMedia*)(iDriver->iPrimaryMedia))->iSocket);

    69 	if(socket == NULL)

    70 		return(KErrNoMemory);

    71 

    72 	DMMCStack* stack = socket->Stack(0);

    73 	iCard = stack->CardP(((DPBusPrimaryMedia*)(iDriver->iPrimaryMedia))->iSlotNumber);

    74 

    75 	iSession = stack->AllocSession(iSessionEndCallBack);

    76 	if (iSession == NULL)

    77 		return(KErrNoMemory);

    78 

    79 	iSession->SetStack(stack);

    80 	iSession->SetCard(iCard);

    81 

    82 	// this gets used before any access

    83 	TInt bufLen, minorBufLen;

    84 	stack->BufferInfo(iIntBuf, bufLen, minorBufLen);

    85 

    86 	return(KErrNone);

    87 	}

    88 

    89 TInt DBB5PartitionInfo::PartitionInfo(TPartitionInfo& aInfo, const TMMCCallBack& aCallBack)

    90 	{

    91 	iPartitionInfo = &aInfo;

    92 	iCallBack = aCallBack;

    93 

    94 	// If media driver is persistent (see EMediaDriverPersistent)

    95 	// the card may have changed since last power down, so reset CID

    96 	iSession->SetCard(iCard);

    97 

    98 	const TUint32 ptiOffset = (I64LOW(iCard->DeviceSize64() >> KDiskSectorShift)) - KPIOffsetFromMediaEnd;

    99 	iSession->SetupCIMReadBlock(ptiOffset, iIntBuf);

   100 

   101 	TInt r = iDriver->InCritical();

   102 	if (r == KErrNone)

   103 		r = iSession->Engage();

   104 

   105 	if(r != KErrNone)

   106 		iDriver->EndInCritical();

   107 

   108 	return(r);

   109 	}

   110 

   111 TInt DBB5PartitionInfo::PartitionCaps(TLocDrv& aDrive, TDes8& aInfo)

   112 	{

   113 	TLocalDriveCapsV6Buf& Info = static_cast< TLocalDriveCapsV6Buf&> (aInfo);

   114 

   115 	if (aDrive.iPartitionType == KPartitionTypePagedData)

   116 		{

   117 		Info().iFileSystemId = KDriveFileNone;

   118 		Info().iDriveAtt |= KDriveAttHidden;

   119 		}

   120 	else if ( PartitionIsFAT(aDrive.iPartitionType) || PartitionIsFAT32(aDrive.iPartitionType)	)

   121 		{		

   122 		Info().iDriveAtt = iPartitionAttributes[aDrive.iPartitionNumber];

   123 		}

   124 

   125 	return KErrNone;

   126 	}

   127 

   128 void DBB5PartitionInfo::SessionEndCallBack(TAny* aSelf)

   129 	{

   130 	DBB5PartitionInfo& self = *static_cast<DBB5PartitionInfo*>(aSelf);

   131 	self.DoSessionEndCallBack();

   132 	}

   133 

   134 void DBB5PartitionInfo::DoSessionEndCallBack()

   135 	{

   136 	iDriver->EndInCritical();

   137 

   138 	TInt r = iSession->EpocErrorCode();

   139 

   140 	if (r == KErrNone)

   141 		r = DecodePartitionInfo();

   142 

   143 	iDriver->PartitionInfoComplete(r == KErrNone ? r : KErrNotReady);

   144 	}

   145 

   146 TInt DBB5PartitionInfo::DecodePartitionInfo()

   147 //

   148 // decode partition info that was read into internal buffer

   149 //

   150 	{

   151 	__KTRACE_OPT(KPBUSDRV, Kern::Printf(">Mmc:PartitionInfo()"));

   152 	TUint partitionCount = iPartitionInfo->iPartitionCount = 0;

   153 

   154 	// For internal devices it is only valid to report up to 1 SWAP partition

   155 	TBool foundSwap = EFalse;

   156 

   157 	BGAHSMMCPTN_PI_STR *partitionTable = (BGAHSMMCPTN_PI_STR*)(&iIntBuf[0]);

   158 

   159 	// Verify that this is the Nokia partition table

   160 	if( memcompare( (TUint8*)&(partitionTable->id[0]), sizeof(BGAHSMMCPTN_PI_ID), (TUint8*)BGAHSMMCPTN_PI_ID, sizeof(BGAHSMMCPTN_PI_ID)) == 0 )

   161 		{

   162 		__KTRACE_OPT(KPBUSDRV, Kern::Printf("Nokia partition structure found"));

   163 		__KTRACE_OPT(KPBUSDRV, Kern::Printf("partitionTable->id..............: %s", partitionTable->id ));

   164 		__KTRACE_OPT(KPBUSDRV, Kern::Printf("partitionTable->sector_size.....: %d = 0x%x", partitionTable->sector_size, partitionTable->sector_size));

   165 		__KTRACE_OPT(KPBUSDRV, Kern::Printf("partitionTable->major_ver.......: %d", partitionTable->major_ver));

   166 		__KTRACE_OPT(KPBUSDRV, Kern::Printf("partitionTable->minor_ver.......: %d", partitionTable->minor_ver));

   167 		__KTRACE_OPT(KPBUSDRV, Kern::Printf("partitionTable->partition_amount: %d", partitionTable->partition_amount));

   168 		

   169 		for( TUint8 index = 0; (index < partitionTable->partition_amount) && (index < BGAHSMMCPTN_LAST_DRIVE); index++ )

   170 			{

   171 			if( (partitionTable->partitions[index].size > 0) &&

   172 				( PartitionIsFAT(partitionTable->partitions[index].partition_id) ||

   173 				  PartitionIsFAT32(partitionTable->partitions[index].partition_id) ||

   174 				  (KPartitionTypePagedData == partitionTable->partitions[index].partition_id && !foundSwap) ) )

   175 				{

   176 				iPartitionInfo->iEntry[partitionCount].iPartitionType	  = partitionTable->partitions[index].partition_id;

   177 				iPartitionInfo->iEntry[partitionCount].iPartitionBaseAddr = (Int64) partitionTable->partitions[index].start_sector << KDiskSectorShift;

   178 				iPartitionInfo->iEntry[partitionCount].iPartitionLen	  = (Int64) partitionTable->partitions[index].size << KDiskSectorShift;

   179 				iPartitionAttributes[partitionCount]					  = partitionTable->partitions[index].partition_attributes;

   180 

   181 				__KTRACE_OPT(KPBUSDRV, Kern::Printf("Registering partition #%d:", partitionCount));

   182 				__KTRACE_OPT(KPBUSDRV, Kern::Printf("partitionCount....: %d", partitionCount));

   183 				__KTRACE_OPT(KPBUSDRV, Kern::Printf("startSector.......: 0x%x", partitionTable->partitions[index].start_sector ));

   184 				__KTRACE_OPT(KPBUSDRV, Kern::Printf("iPartitionBaseAddr: 0x%lx (sectors: %d)", iPartitionInfo->iEntry[partitionCount].iPartitionBaseAddr, (TUint32)(iPartitionInfo->iEntry[partitionCount].iPartitionBaseAddr >> KDiskSectorShift)));

   185 				__KTRACE_OPT(KPBUSDRV, Kern::Printf("size..............: 0x%lx", partitionTable->partitions[index].size ));

   186 				__KTRACE_OPT(KPBUSDRV, Kern::Printf("iPartitionLen.....: 0x%lx (sectors: %d)", iPartitionInfo->iEntry[partitionCount].iPartitionLen, iPartitionInfo->iEntry[partitionCount].iPartitionLen >> KDiskSectorShift));

   187 				__KTRACE_OPT(KPBUSDRV, Kern::Printf("iPartitionType....: %d", iPartitionInfo->iEntry[partitionCount].iPartitionType));

   188 				__KTRACE_OPT(KPBUSDRV, Kern::Printf("iPartitionAttribs.: 0x%x", iPartitionAttributes[partitionCount]));

   189 				__KTRACE_OPT(KPBUSDRV, Kern::Printf(" "));

   190 

   191 				if(KPartitionTypePagedData == partitionTable->partitions[index].partition_id)

   192 					{

   193 					foundSwap = ETrue;

   194 					}

   195 

   196 				partitionCount++;

   197 				}

   198 			}

   199 		}

   200 

   201 	// Validate partition address boundaries

   202 	if(partitionCount == 0)

   203 		{

   204 		__KTRACE_OPT(KPBUSDRV, Kern::Printf("Mmc: No supported partitions found!"));

   205 		return KErrCorrupt;

   206 		}

   207 	else

   208 		{

   209 		// at least one entry for a supported partition found

   210 		const TInt64 deviceSize = iCard->DeviceSize64();

   211 		TPartitionEntry& part = iPartitionInfo->iEntry[partitionCount - 1];

   212 

   213 		// Check that the card address space boundary is not exceeded by the last partition

   214 		if(part.iPartitionBaseAddr + part.iPartitionLen > deviceSize)

   215 			{

   216 			__KTRACE_OPT(KPBUSDRV, Kern::Printf("Mmc: MBR partition exceeds card memory space"));

   217 			return KErrCorrupt;

   218 			}

   219 

   220 		// Go through all partition entries and check boundaries

   221 		for(TInt i = partitionCount - 1; i > 0; i--)

   222 			{

   223 			const TPartitionEntry& curr = iPartitionInfo->iEntry[i];

   224 			TPartitionEntry& prev = iPartitionInfo->iEntry[i-1];

   225 

   226 			// Check if partitions overlap

   227 			if(curr.iPartitionBaseAddr < (prev.iPartitionBaseAddr + prev.iPartitionLen))

   228 				{

   229 				__KTRACE_OPT(KPBUSDRV, Kern::Printf("Mmc: Overlapping partitions - check #%d", i));

   230 				return KErrCorrupt;

   231 				}

   232 			}

   233 		}

   234 

   235 	iPartitionInfo->iPartitionCount = partitionCount;

   236 	iPartitionInfo->iMediaSizeInBytes = iCard->DeviceSize64();

   237 

   238 	//Notify medmmc that partitioninfo is complete.

   239 	iCallBack.CallBack();

   240 

   241 	__KTRACE_OPT(KPBUSDRV, Kern::Printf("<Mmc:PartitionInfo (C:%d)", partitionCount));

   242 	return KErrNone;

   243 	}

   244 

   245 

   246 // End - DBB5PartitionInfo

   247 

   248 

   249 EXPORT_C DEMMCPartitionInfo* CreateEmmcPartitionInfo()

   250 	{

   251 	return new DBB5PartitionInfo;

   252 	}

   253 

   254 DECLARE_STANDARD_EXTENSION()

   255 	{

   256 	return KErrNone;

   257 	}

   258 

   259 //	End of File

   260