📄 gdmatest_omap32.c
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rtn_status = NOT_OK;
}
MemPtr++;
}
break;
} // End of case DMA_TYPE_8_BITS
} // End of switch(Chptr->TypeSize)
break;
} // End of case : VERIFY_MEM
} // End of switch(MemMode)
break;
} // End of case DMA_ADD_POSTINC
//--------------------------------------------------------------------------------
case DMA_ADD_SINGLE_INDEX:
{
switch(MemMode)
{
case INITIALIZE_MEM:
{
switch(Chptr->TypeSize)
{
case DMA_TYPE_32_BITS:
{
UWORD8* MemPtr;
for (i = 0; i < (BlockSize * 4) ; i++)
{
if (i == 0)
{
MemPtr = (UWORD8*)Address;
}
*MemPtr = (UWORD8)DMAT_GeneratePattern(Chptr->Pattern,i/4);
if ((i % 4) != 0) // Then end of element
{
MemPtr += Chptr->EltIndex;
}
else
{
MemPtr += 1;
}
}
break;
} // End of case DMA_TYPE_32_BITS
case DMA_TYPE_16_BITS:
{
UWORD8* MemPtr;
for (i = 0; i < (BlockSize * 2) ; i++)
{
if (i == 0)
{
MemPtr = (UWORD8*)Address;
}
*MemPtr = (UWORD8)DMAT_GeneratePattern(Chptr->Pattern,i/2);
if ((i % 2) != 0) // Then end of element
{
MemPtr += Chptr->EltIndex;
}
else
{
MemPtr += 1;
}
}
break;
} // End of case DMA_TYPE_16_BITS
case DMA_TYPE_8_BITS:
{
UWORD8* MemPtr;
for (i = 0; i < BlockSize; i++)
{
if (i == 0)
{
MemPtr = (UWORD8*)Address;
}
*MemPtr = (UWORD8)DMAT_GeneratePattern(Chptr->Pattern,i);
MemPtr += Chptr->EltIndex;
}
break;
} // End of case DMA_TYPE_8_BITS
} // End of switch(Chptr->TypeSize)
break;
} // End of case : INITIALIZE_MEM
case VERIFY_MEM:
{
switch(Chptr->TypeSize)
{
case DMA_TYPE_32_BITS:
{
UWORD8* MemPtr;
for (i = 0; i < (BlockSize * 4); i++)
{
if (i == 0)
{
MemPtr = (UWORD8*)Address;
}
if ((UWORD8)(*MemPtr) != (UWORD8)DMAT_GeneratePattern(Chptr->Pattern,i/4))
{
DMAT_SpyWriteFailResults( ChannelNumber, i/4, (0x0000FFFF & (*MemPtr)),
(0x0000FFFF & (DMAT_GeneratePattern(Chptr->Pattern,i/4))));
rtn_status = NOT_OK;
break;
}
else if ((UWORD8)(*MemPtr) != (UWORD8)(DMAT_GeneratePattern(Chptr->Pattern,i/4)>>8))
{
DMAT_SpyWriteFailResults( ChannelNumber, i/4, (0x0000FFFF & (*MemPtr)),
(0x0000FFFF & (DMAT_GeneratePattern(Chptr->Pattern,i/4)>>8)));
rtn_status = NOT_OK;
break;
}
else if ((UWORD8)(*MemPtr) != (UWORD8)(DMAT_GeneratePattern(Chptr->Pattern,i/4)>>16))
{
DMAT_SpyWriteFailResults( ChannelNumber, i/4, (0x0000FFFF & (*MemPtr)),
(0x0000FFFF & (DMAT_GeneratePattern(Chptr->Pattern,i/4)>>16)));
rtn_status = NOT_OK;
break;
}
else if ((UWORD8)(*MemPtr) != (UWORD8)(DMAT_GeneratePattern(Chptr->Pattern,i/4)>>24))
{
DMAT_SpyWriteFailResults( ChannelNumber, i/4, (0x0000FFFF & (*MemPtr)),
(0x0000FFFF & (DMAT_GeneratePattern(Chptr->Pattern,i/4)>>24)));
rtn_status = NOT_OK;
break;
}
if ((i % 4) != 0) // Then end of element
{
MemPtr += Chptr->EltIndex;
}
else
{
MemPtr += 1;
}
}
break;
} // End of case DMA_TYPE_32_BITS
case DMA_TYPE_16_BITS:
{
UWORD8* MemPtr;
for (i = 0; i < (BlockSize * 2); i++)
{
if (i == 0)
{
MemPtr = (UWORD8*)Address;
}
if (((UWORD8)(*MemPtr)) != (UWORD8)DMAT_GeneratePattern(Chptr->Pattern,i/2))
{
DMAT_SpyWriteFailResults( ChannelNumber, i/2, (0x0000FFFF & (*MemPtr)),
(0x0000FFFF & (DMAT_GeneratePattern(Chptr->Pattern,i/2))));
rtn_status = NOT_OK;
break;
}
else if (((UWORD8)(*MemPtr)) != (UWORD8)(DMAT_GeneratePattern(Chptr->Pattern,i/2)>>8))
{
DMAT_SpyWriteFailResults( ChannelNumber, i/2, (0x0000FFFF & (*MemPtr)),
(0x0000FFFF & (DMAT_GeneratePattern(Chptr->Pattern,i/2)>>8)));
rtn_status = NOT_OK;
break;
}
if ((i % 2) != 0) // Then end of element
{
MemPtr += Chptr->EltIndex;
}
else
{
MemPtr += 1;
}
}
break;
} // End of case DMA_TYPE_16_BITS
case DMA_TYPE_8_BITS:
{
UWORD8* MemPtr;
for (i = 0; i < BlockSize; i++)
{
if (i == 0)
{
MemPtr = (UWORD8*)Address;
}
if (((UWORD8)(*MemPtr)) != (UWORD8)DMAT_GeneratePattern(Chptr->Pattern,i))
{
DMAT_SpyWriteFailResults( ChannelNumber, i, (0x0000FFFF & (*MemPtr)),
(0x0000FFFF & (DMAT_GeneratePattern(Chptr->Pattern,i))));
rtn_status = NOT_OK;
}
MemPtr += Chptr->EltIndex;
}
break;
} // End of case DMA_TYPE_8_BITS
} // End of switch(Chptr->TypeSize)
break;
} // End of case : VERIFY_MEM
} // End of switch(MemMode)
break;
} // End of case DMA_ADD_SINGLE_INDEX
//--------------------------------------------------------------------------------
case DMA_ADD_DOUBINDEX:
{
switch(MemMode)
{
case INITIALIZE_MEM:
{
switch(Chptr->TypeSize)
{
case DMA_TYPE_32_BITS:
{
UWORD8* MemPtr;
for (i = 0; i < (BlockSize * 4) ; i++)
{
if (i == 0)
{
MemPtr = (UWORD8*)Address;
}
*MemPtr = (UWORD8)DMAT_GeneratePattern(Chptr->Pattern,i/4);
if ((i % 4) != 0) // Then end of element
{
if ((((i/4)+1)%Chptr->EltNumber)==0) // Then end of frame
{
MemPtr += Chptr->FrameIndex;
}
else
{
MemPtr += Chptr->EltIndex;
}
}
else
{
MemPtr += 1;
}
}
break;
} // End of case DMA_TYPE_32_BITS
case DMA_TYPE_16_BITS:
{
UWORD8* MemPtr;
for (i = 0; i < (BlockSize * 2) ; i++)
{
if (i == 0)
{
MemPtr = (UWORD8*)Address;
}
*MemPtr = (UWORD8)DMAT_GeneratePattern(Chptr->Pattern,i/2);
if ((i % 2) != 0) // Then end of element
{
if ((((i/2)+1)%Chptr->EltNumber)==0) // Then end of frame
{
MemPtr += Chptr->FrameIndex;
}
else
{
MemPtr += Chptr->EltIndex;
}
}
else
{
MemPtr += 1;
}
}
break;
} // End of case DMA_TYPE_16_BITS
case DMA_TYPE_8_BITS:
{
UWORD8* MemPtr;
for (i = 0; i < BlockSize; i++)
{
if (i == 0)
{
MemPtr = (UWORD8*)Address;
}
*MemPtr = (UWORD8)DMAT_GeneratePattern(Chptr->Pattern,i);
if (((i+1)%Chptr->EltNumber)==0)
{
MemPtr += Chptr->FrameIndex;
}
else
{
MemPtr += Chptr->EltIndex;
}
}
break;
} // End of case DMA_TYPE_8_BITS
} // End of switch(Chptr->TypeSize)
break;
} // End of case : INITIALIZE_MEM
case VERIFY_MEM:
{
switch(Chptr->TypeSize)
{
case DMA_TYPE_32_BITS:
{
UWORD8* MemPtr;
for (i = 0; i < (BlockSize * 4); i++)
{
if (i == 0)
{
MemPtr = (UWORD8*)Address;
}
if ((UWORD8)(*MemPtr) != (UWORD8)DMAT_GeneratePattern(Chptr->Pattern,i/4))
{
DMAT_SpyWriteFailResults( ChannelNumber, i/4, (0x0000FFFF & (*MemPtr)),
(0x0000FFFF & (DMAT_GeneratePattern(Chptr->Pattern,i/4))));
rtn_status = NOT_OK;
break;
}
else if ((UWORD8)(*MemPtr) != (UWORD8)(DMAT_GeneratePattern(Chptr->Pattern,i/4)>>8))
{
DMAT_SpyWriteFailResults( ChannelNumber, i/4, (0x0000FFFF & (*MemPtr)),
(0x0000FFFF & (DMAT_GeneratePattern(Chptr->Pattern,i/4)>>8)));
rtn_status = NOT_OK;
break;
}
else if ((UWORD8)(*MemPtr) != (UWORD8)(DMAT_GeneratePattern(Chptr->Pattern,i/4)>>16))
{
DMAT_SpyWriteFailResults( ChannelNumber, i/4, (0x0000FFFF & (*MemPtr)),
(0x0000FFFF & (DMAT_GeneratePattern(Chptr->Pattern,i/4)>>16)));
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