upstream u-boot with additional patches for our devices/boards: https://lists.denx.de/pipermail/u-boot/2017-March/282789.html (AXP crashes) ; Gbit ethernet patch for some LIME2 revisions ; with SPI flash support
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u-boot/drivers/net/npe/IxQMgrQAccess.c

797 lines
21 KiB

/**
* @file IxQMgrQAccess.c
*
* @author Intel Corporation
* @date 30-Oct-2001
*
* @brief This file contains functions for putting entries on a queue and
* removing entries from a queue.
*
*
* @par
* IXP400 SW Release version 2.0
*
* -- Copyright Notice --
*
* @par
* Copyright 2001-2005, Intel Corporation.
* All rights reserved.
*
* @par
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. Neither the name of the Intel Corporation nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* @par
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS ``AS IS''
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* @par
* -- End of Copyright Notice --
*/
/*
* Inlines are compiled as function when this is defined.
* N.B. Must be placed before #include of "IxQMgr.h"
*/
#ifndef IXQMGR_H
# define IXQMGRQACCESS_C
#else
# error
#endif
/*
* System defined include files.
*/
/*
* User defined include files.
*/
#include "IxQMgr.h"
#include "IxQMgrAqmIf_p.h"
#include "IxQMgrQAccess_p.h"
#include "IxQMgrQCfg_p.h"
#include "IxQMgrDefines_p.h"
/*
* Global variables and extern definitions
*/
extern IxQMgrQInlinedReadWriteInfo ixQMgrQInlinedReadWriteInfo[];
/*
* Function definitions.
*/
void
ixQMgrQAccessInit (void)
{
}
IX_STATUS
ixQMgrQReadWithChecks (IxQMgrQId qId,
UINT32 *entry)
{
IxQMgrQEntrySizeInWords entrySizeInWords;
IxQMgrQInlinedReadWriteInfo *infoPtr;
if (NULL == entry)
{
return IX_QMGR_PARAMETER_ERROR;
}
/* Check QId */
if (!ixQMgrQIsConfigured(qId))
{
return IX_QMGR_Q_NOT_CONFIGURED;
}
/* Get the q entry size in words */
entrySizeInWords = ixQMgrQEntrySizeInWordsGet (qId);
ixQMgrAqmIfQPop (qId, entrySizeInWords, entry);
/* reset the current read count if the counter wrapped around
* (unsigned arithmetic)
*/
infoPtr = &ixQMgrQInlinedReadWriteInfo[qId];
if (infoPtr->qReadCount-- > infoPtr->qSizeInEntries)
{
infoPtr->qReadCount = 0;
}
/* Check if underflow occurred on the read */
if (ixQMgrAqmIfUnderflowCheck (qId))
{
return IX_QMGR_Q_UNDERFLOW;
}
return IX_SUCCESS;
}
/* this function reads the remaining of the q entry
* for queues configured with many words.
* (the first word of the entry is already read
* in the inlined function and the entry pointer already
* incremented
*/
IX_STATUS
ixQMgrQReadMWordsMinus1 (IxQMgrQId qId,
UINT32 *entry)
{
IxQMgrQInlinedReadWriteInfo *infoPtr = &ixQMgrQInlinedReadWriteInfo[qId];
UINT32 entrySize = infoPtr->qEntrySizeInWords;
volatile UINT32 *qAccRegAddr = infoPtr->qAccRegAddr;
while (--entrySize)
{
/* read the entry and accumulate the result */
*(++entry) = IX_OSAL_READ_LONG(++qAccRegAddr);
}
/* underflow is available for lower queues only */
if (qId < IX_QMGR_MIN_QUEUPP_QID)
{
/* get the queue status */
UINT32 status = IX_OSAL_READ_LONG(infoPtr->qUOStatRegAddr);
/* check the underflow status */
if (status & infoPtr->qUflowStatBitMask)
{
/* the queue is empty
* clear the underflow status bit if it was set
*/
IX_OSAL_WRITE_LONG(infoPtr->qUOStatRegAddr,
status & ~infoPtr->qUflowStatBitMask);
return IX_QMGR_Q_UNDERFLOW;
}
}
return IX_SUCCESS;
}
IX_STATUS
ixQMgrQWriteWithChecks (IxQMgrQId qId,
UINT32 *entry)
{
IxQMgrQEntrySizeInWords entrySizeInWords;
IxQMgrQInlinedReadWriteInfo *infoPtr;
if (NULL == entry)
{
return IX_QMGR_PARAMETER_ERROR;
}
/* Check QId */
if (!ixQMgrQIsConfigured(qId))
{
return IX_QMGR_Q_NOT_CONFIGURED;
}
/* Get the q entry size in words */
entrySizeInWords = ixQMgrQEntrySizeInWordsGet (qId);
ixQMgrAqmIfQPush (qId, entrySizeInWords, entry);
/* reset the current read count if the counter wrapped around
* (unsigned arithmetic)
*/
infoPtr = &ixQMgrQInlinedReadWriteInfo[qId];
if (infoPtr->qWriteCount++ >= infoPtr->qSizeInEntries)
{
infoPtr->qWriteCount = infoPtr->qSizeInEntries;
}
/* Check if overflow occurred on the write*/
if (ixQMgrAqmIfOverflowCheck (qId))
{
return IX_QMGR_Q_OVERFLOW;
}
return IX_SUCCESS;
}
IX_STATUS
ixQMgrQPeek (IxQMgrQId qId,
unsigned int entryIndex,
UINT32 *entry)
{
unsigned int numEntries;
#ifndef NDEBUG
if ((NULL == entry) || (entryIndex >= IX_QMGR_Q_SIZE_INVALID))
{
return IX_QMGR_PARAMETER_ERROR;
}
if (!ixQMgrQIsConfigured(qId))
{
return IX_QMGR_Q_NOT_CONFIGURED;
}
#endif
if (IX_SUCCESS != ixQMgrQNumEntriesGet (qId, &numEntries))
{
return IX_FAIL;
}
if (entryIndex >= numEntries) /* entryIndex starts at 0 */
{
return IX_QMGR_ENTRY_INDEX_OUT_OF_BOUNDS;
}
return ixQMgrAqmIfQPeek (qId, entryIndex, entry);
}
IX_STATUS
ixQMgrQPoke (IxQMgrQId qId,
unsigned entryIndex,
UINT32 *entry)
{
unsigned int numEntries;
#ifndef NDEBUG
if ((NULL == entry) || (entryIndex > 128))
{
return IX_QMGR_PARAMETER_ERROR;
}
if (!ixQMgrQIsConfigured(qId))
{
return IX_QMGR_Q_NOT_CONFIGURED;
}
#endif
if (IX_SUCCESS != ixQMgrQNumEntriesGet (qId, &numEntries))
{
return IX_FAIL;
}
if (numEntries < (entryIndex + 1)) /* entryIndex starts at 0 */
{
return IX_QMGR_ENTRY_INDEX_OUT_OF_BOUNDS;
}
return ixQMgrAqmIfQPoke (qId, entryIndex, entry);
}
IX_STATUS
ixQMgrQStatusGetWithChecks (IxQMgrQId qId,
IxQMgrQStatus *qStatus)
{
if (NULL == qStatus)
{
return IX_QMGR_PARAMETER_ERROR;
}
if (!ixQMgrQIsConfigured (qId))
{
return IX_QMGR_Q_NOT_CONFIGURED;
}
ixQMgrAqmIfQueStatRead (qId, qStatus);
return IX_SUCCESS;
}
IX_STATUS
ixQMgrQNumEntriesGet (IxQMgrQId qId,
unsigned *numEntriesPtr)
{
UINT32 qPtrs;
UINT32 qStatus;
unsigned numEntries;
IxQMgrQInlinedReadWriteInfo *infoPtr;
#ifndef NDEBUG
if (NULL == numEntriesPtr)
{
return IX_QMGR_PARAMETER_ERROR;
}
/* Check QId */
if (!ixQMgrQIsConfigured(qId))
{
return IX_QMGR_Q_NOT_CONFIGURED;
}
#endif
/* get fast access data */
infoPtr = &ixQMgrQInlinedReadWriteInfo[qId];
/* get snapshot */
qPtrs = IX_OSAL_READ_LONG(infoPtr->qConfigRegAddr);
/* Mod subtraction of pointers to get number of words in Q. */
numEntries = (qPtrs - (qPtrs >> 7)) & 0x7f;
if (numEntries == 0)
{
/*
* Could mean either full or empty queue
* so look at status
*/
ixQMgrAqmIfQueStatRead (qId, &qStatus);
if (qId < IX_QMGR_MIN_QUEUPP_QID)
{
if (qStatus & IX_QMGR_Q_STATUS_E_BIT_MASK)
{
/* Empty */
*numEntriesPtr = 0;
}
else if (qStatus & IX_QMGR_Q_STATUS_F_BIT_MASK)
{
/* Full */
*numEntriesPtr = infoPtr->qSizeInEntries;
}
else
{
/*
* Queue status and read/write pointers are volatile.
* The queue state has changed since we took the
* snapshot of the read and write pointers.
* Client can retry if they wish
*/
*numEntriesPtr = 0;
return IX_QMGR_WARNING;
}
}
else /* It is an upper queue which does not have an empty status bit maintained */
{
if (qStatus & IX_QMGR_Q_STATUS_F_BIT_MASK)
{
/* The queue is Full at the time of snapshot. */
*numEntriesPtr = infoPtr->qSizeInEntries;
}
else
{
/* The queue is either empty, either moving,
* Client can retry if they wish
*/
*numEntriesPtr = 0;
return IX_QMGR_WARNING;
}
}
}
else
{
*numEntriesPtr = (numEntries / infoPtr->qEntrySizeInWords) & (infoPtr->qSizeInEntries - 1);
}
return IX_SUCCESS;
}
#if defined(__wince) && defined(NO_INLINE_APIS)
PUBLIC IX_STATUS
ixQMgrQRead (IxQMgrQId qId,
UINT32 *entryPtr)
{
extern IxQMgrQInlinedReadWriteInfo ixQMgrQInlinedReadWriteInfo[];
IxQMgrQInlinedReadWriteInfo *infoPtr = &ixQMgrQInlinedReadWriteInfo[qId];
UINT32 entry, entrySize;
/* get a new entry */
entrySize = infoPtr->qEntrySizeInWords;
entry = IX_OSAL_READ_LONG(infoPtr->qAccRegAddr);
if (entrySize != IX_QMGR_Q_ENTRY_SIZE1)
{
*entryPtr = entry;
/* process the remaining part of the entry */
return ixQMgrQReadMWordsMinus1(qId, entryPtr);
}
/* underflow is available for lower queues only */
if (qId < IX_QMGR_MIN_QUEUPP_QID)
{
/* the counter of queue entries is decremented. In happy
* day scenario there are many entries in the queue
* and the counter does not reach zero.
*/
if (infoPtr->qReadCount-- == 0)
{
/* There is maybe no entry in the queue
* qReadCount is now negative, but will be corrected before
* the function returns.
*/
UINT32 qPtrs; /* queue internal pointers */
/* when a queue is empty, the hw guarantees to return
* a null value. If the value is not null, the queue is
* not empty.
*/
if (entry == 0)
{
/* get the queue status */
UINT32 status = IX_OSAL_READ_LONG(infoPtr->qUOStatRegAddr);
/* check the underflow status */
if (status & infoPtr->qUflowStatBitMask)
{
/* the queue is empty
* clear the underflow status bit if it was set
*/
IX_OSAL_WRITE_LONG(infoPtr->qUOStatRegAddr,
status & ~infoPtr->qUflowStatBitMask);
*entryPtr = 0;
infoPtr->qReadCount = 0;
return IX_QMGR_Q_UNDERFLOW;
}
}
/* store the result */
*entryPtr = entry;
/* No underflow occured : someone is filling the queue
* or the queue contains null entries.
* The current counter needs to be
* updated from the current number of entries in the queue
*/
/* get snapshot of queue pointers */
qPtrs = IX_OSAL_READ_LONG(infoPtr->qConfigRegAddr);
/* Mod subtraction of pointers to get number of words in Q. */
qPtrs = (qPtrs - (qPtrs >> 7)) & 0x7f;
if (qPtrs == 0)
{
/* no entry in the queue */
infoPtr->qReadCount = 0;
}
else
{
/* convert the number of words inside the queue
* to a number of entries
*/
infoPtr->qReadCount = qPtrs & (infoPtr->qSizeInEntries - 1);
}
return IX_SUCCESS;
}
}
*entryPtr = entry;
return IX_SUCCESS;
}
PUBLIC IX_STATUS
ixQMgrQBurstRead (IxQMgrQId qId,
UINT32 numEntries,
UINT32 *entries)
{
extern IxQMgrQInlinedReadWriteInfo ixQMgrQInlinedReadWriteInfo[];
IxQMgrQInlinedReadWriteInfo *infoPtr = &ixQMgrQInlinedReadWriteInfo[qId];
UINT32 nullCheckEntry;
if (infoPtr->qEntrySizeInWords == IX_QMGR_Q_ENTRY_SIZE1)
{
volatile UINT32 *qAccRegAddr = infoPtr->qAccRegAddr;
/* the code is optimized to take care of data dependencies:
* Durig a read, there are a few cycles needed to get the
* read complete. During these cycles, it is poossible to
* do some CPU, e.g. increment pointers and decrement
* counters.
*/
/* fetch a queue entry */
nullCheckEntry = IX_OSAL_READ_LONG(infoPtr->qAccRegAddr);
/* iterate the specified number of queue entries */
while (--numEntries)
{
/* check the result of the previous read */
if (nullCheckEntry == 0)
{
/* if we read a NULL entry, stop. We have underflowed */
break;
}
else
{
/* write the entry */
*entries = nullCheckEntry;
/* fetch next entry */
nullCheckEntry = IX_OSAL_READ_LONG(qAccRegAddr);
/* increment the write address */
entries++;
}
}
/* write the pre-fetched entry */
*entries = nullCheckEntry;
}
else
{
IxQMgrQEntrySizeInWords entrySizeInWords = infoPtr->qEntrySizeInWords;
/* read the specified number of queue entries */
nullCheckEntry = 0;
while (numEntries--)
{
int i;
for (i = 0; i < entrySizeInWords; i++)
{
*entries = IX_OSAL_READ_LONG(infoPtr->qAccRegAddr + i);
nullCheckEntry |= *entries++;
}
/* if we read a NULL entry, stop. We have underflowed */
if (nullCheckEntry == 0)
{
break;
}
nullCheckEntry = 0;
}
}
/* reset the current read count : next access to the read function
* will force a underflow status check
*/
infoPtr->qWriteCount = 0;
/* Check if underflow occurred on the read */
if (nullCheckEntry == 0 && qId < IX_QMGR_MIN_QUEUPP_QID)
{
/* get the queue status */
UINT32 status = IX_OSAL_READ_LONG(infoPtr->qUOStatRegAddr);
if (status & infoPtr->qUflowStatBitMask)
{
/* clear the underflow status bit if it was set */
IX_OSAL_WRITE_LONG(infoPtr->qUOStatRegAddr,
status & ~infoPtr->qUflowStatBitMask);
return IX_QMGR_Q_UNDERFLOW;
}
}
return IX_SUCCESS;
}
PUBLIC IX_STATUS
ixQMgrQWrite (IxQMgrQId qId,
UINT32 *entry)
{
extern IxQMgrQInlinedReadWriteInfo ixQMgrQInlinedReadWriteInfo[];
IxQMgrQInlinedReadWriteInfo *infoPtr = &ixQMgrQInlinedReadWriteInfo[qId];
UINT32 entrySize;
/* write the entry */
IX_OSAL_WRITE_LONG(infoPtr->qAccRegAddr, *entry);
entrySize = infoPtr->qEntrySizeInWords;
if (entrySize != IX_QMGR_Q_ENTRY_SIZE1)
{
/* process the remaining part of the entry */
volatile UINT32 *qAccRegAddr = infoPtr->qAccRegAddr;
while (--entrySize)
{
++entry;
IX_OSAL_WRITE_LONG(++qAccRegAddr, *entry);
}
entrySize = infoPtr->qEntrySizeInWords;
}
/* overflow is available for lower queues only */
if (qId < IX_QMGR_MIN_QUEUPP_QID)
{
UINT32 qSize = infoPtr->qSizeInEntries;
/* increment the current number of entries in the queue
* and check for overflow
*/
if (infoPtr->qWriteCount++ == qSize)
{
/* the queue may have overflow */
UINT32 qPtrs; /* queue internal pointers */
/* get the queue status */
UINT32 status = IX_OSAL_READ_LONG(infoPtr->qUOStatRegAddr);
/* read the status twice because the status may
* not be immediately ready after the write operation
*/
if ((status & infoPtr->qOflowStatBitMask) ||
((status = IX_OSAL_READ_LONG(infoPtr->qUOStatRegAddr))
& infoPtr->qOflowStatBitMask))
{
/* the queue is full, clear the overflow status
* bit if it was set
*/
IX_OSAL_WRITE_LONG(infoPtr->qUOStatRegAddr,
status & ~infoPtr->qOflowStatBitMask);
infoPtr->qWriteCount = infoPtr->qSizeInEntries;
return IX_QMGR_Q_OVERFLOW;
}
/* No overflow occured : someone is draining the queue
* and the current counter needs to be
* updated from the current number of entries in the queue
*/
/* get q pointer snapshot */
qPtrs = IX_OSAL_READ_LONG(infoPtr->qConfigRegAddr);
/* Mod subtraction of pointers to get number of words in Q. */
qPtrs = (qPtrs - (qPtrs >> 7)) & 0x7f;
if (qPtrs == 0)
{
/* the queue may be full at the time of the
* snapshot. Next access will check
* the overflow status again.
*/
infoPtr->qWriteCount = qSize;
}
else
{
/* convert the number of words to a number of entries */
if (entrySize == IX_QMGR_Q_ENTRY_SIZE1)
{
infoPtr->qWriteCount = qPtrs & (qSize - 1);
}
else
{
infoPtr->qWriteCount = (qPtrs / entrySize) & (qSize - 1);
}
}
}
}
return IX_SUCCESS;
}
PUBLIC IX_STATUS
ixQMgrQBurstWrite (IxQMgrQId qId,
unsigned numEntries,
UINT32 *entries)
{
extern IxQMgrQInlinedReadWriteInfo ixQMgrQInlinedReadWriteInfo[];
IxQMgrQInlinedReadWriteInfo *infoPtr = &ixQMgrQInlinedReadWriteInfo[qId];
UINT32 status;
/* update the current write count */
infoPtr->qWriteCount += numEntries;
if (infoPtr->qEntrySizeInWords == IX_QMGR_Q_ENTRY_SIZE1)
{
volatile UINT32 *qAccRegAddr = infoPtr->qAccRegAddr;
while (numEntries--)
{
IX_OSAL_WRITE_LONG(qAccRegAddr, *entries);
entries++;
}
}
else
{
IxQMgrQEntrySizeInWords entrySizeInWords = infoPtr->qEntrySizeInWords;
int i;
/* write each queue entry */
while (numEntries--)
{
/* write the queueEntrySize number of words for each entry */
for (i = 0; i < entrySizeInWords; i++)
{
IX_OSAL_WRITE_LONG((infoPtr->qAccRegAddr + i), *entries);
entries++;
}
}
}
/* check if the write count overflows */
if (infoPtr->qWriteCount > infoPtr->qSizeInEntries)
{
/* reset the current write count */
infoPtr->qWriteCount = infoPtr->qSizeInEntries;
}
/* Check if overflow occurred on the write operation */
if (qId < IX_QMGR_MIN_QUEUPP_QID)
{
/* get the queue status */
status = IX_OSAL_READ_LONG(infoPtr->qUOStatRegAddr);
/* read the status twice because the status may
* not be ready at the time of the write
*/
if ((status & infoPtr->qOflowStatBitMask) ||
((status = IX_OSAL_READ_LONG(infoPtr->qUOStatRegAddr))
& infoPtr->qOflowStatBitMask))
{
/* clear the underflow status bit if it was set */
IX_OSAL_WRITE_LONG(infoPtr->qUOStatRegAddr,
status & ~infoPtr->qOflowStatBitMask);
return IX_QMGR_Q_OVERFLOW;
}
}
return IX_SUCCESS;
}
PUBLIC IX_STATUS
ixQMgrQStatusGet (IxQMgrQId qId,
IxQMgrQStatus *qStatus)
{
/* read the status of a queue in the range 0-31 */
if (qId < IX_QMGR_MIN_QUEUPP_QID)
{
extern UINT32 ixQMgrAqmIfQueLowStatRegAddr[];
extern UINT32 ixQMgrAqmIfQueLowStatBitsOffset[];
extern UINT32 ixQMgrAqmIfQueLowStatBitsMask;
extern IxQMgrQInlinedReadWriteInfo ixQMgrQInlinedReadWriteInfo[];
IxQMgrQInlinedReadWriteInfo *infoPtr = &ixQMgrQInlinedReadWriteInfo[qId];
volatile UINT32 *lowStatRegAddr = (UINT32*)ixQMgrAqmIfQueLowStatRegAddr[qId];
volatile UINT32 *qUOStatRegAddr = infoPtr->qUOStatRegAddr;
UINT32 lowStatBitsOffset = ixQMgrAqmIfQueLowStatBitsOffset[qId];
UINT32 lowStatBitsMask = ixQMgrAqmIfQueLowStatBitsMask;
UINT32 underflowBitMask = infoPtr->qUflowStatBitMask;
UINT32 overflowBitMask = infoPtr->qOflowStatBitMask;
/* read the status register for this queue */
*qStatus = IX_OSAL_READ_LONG(lowStatRegAddr);
/* mask out the status bits relevant only to this queue */
*qStatus = (*qStatus >> lowStatBitsOffset) & lowStatBitsMask;
/* Check if the queue has overflowed */
if (IX_OSAL_READ_LONG(qUOStatRegAddr) & overflowBitMask)
{
/* clear the overflow status bit if it was set */
IX_OSAL_WRITE_LONG(qUOStatRegAddr,
(IX_OSAL_READ_LONG(qUOStatRegAddr) &
~overflowBitMask));
*qStatus |= IX_QMGR_Q_STATUS_OF_BIT_MASK;
}
/* Check if the queue has underflowed */
if (IX_OSAL_READ_LONG(qUOStatRegAddr) & underflowBitMask)
{
/* clear the underflow status bit if it was set */
IX_OSAL_WRITE_LONG(qUOStatRegAddr,
(IX_OSAL_READ_LONG(qUOStatRegAddr) &
~underflowBitMask));
*qStatus |= IX_QMGR_Q_STATUS_UF_BIT_MASK;
}
}
else /* read status of a queue in the range 32-63 */
{
extern UINT32 ixQMgrAqmIfQueUppStat0RegAddr;
extern UINT32 ixQMgrAqmIfQueUppStat1RegAddr;
extern UINT32 ixQMgrAqmIfQueUppStat0BitMask[];
extern UINT32 ixQMgrAqmIfQueUppStat1BitMask[];
volatile UINT32 *qNearEmptyStatRegAddr = (UINT32*)ixQMgrAqmIfQueUppStat0RegAddr;
volatile UINT32 *qFullStatRegAddr = (UINT32*)ixQMgrAqmIfQueUppStat1RegAddr;
int maskIndex = qId - IX_QMGR_MIN_QUEUPP_QID;
UINT32 qNearEmptyStatBitMask = ixQMgrAqmIfQueUppStat0BitMask[maskIndex];
UINT32 qFullStatBitMask = ixQMgrAqmIfQueUppStat1BitMask[maskIndex];
/* Reset the status bits */
*qStatus = 0;
/* Check if the queue is nearly empty */
if (IX_OSAL_READ_LONG(qNearEmptyStatRegAddr) & qNearEmptyStatBitMask)
{
*qStatus |= IX_QMGR_Q_STATUS_NE_BIT_MASK;
}
/* Check if the queue is full */
if (IX_OSAL_READ_LONG(qFullStatRegAddr) & qFullStatBitMask)
{
*qStatus |= IX_QMGR_Q_STATUS_F_BIT_MASK;
}
}
return IX_SUCCESS;
}
#endif /* def NO_INLINE_APIS */