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|
/**
* @file IxNpeMhConfig.c
*
* @author Intel Corporation
* @date 18 Jan 2002
*
* @brief This file contains the implementation of the private API for the
* Configuration module.
*
*
* @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 --
*/
/*
* Put the system defined include files required.
*/
/*
* Put the user defined include files required.
*/
#include "IxOsal.h"
#include "IxNpeMhMacros_p.h"
#include "IxNpeMhConfig_p.h"
/*
* #defines and macros used in this file.
*/
#define IX_NPE_MH_MAX_NUM_OF_RETRIES 1000000 /**< Maximum number of
* retries before
* timeout
*/
/*
* Typedefs whose scope is limited to this file.
*/
/**
* @struct IxNpeMhConfigStats
*
* @brief This structure is used to maintain statistics for the
* Configuration module.
*/
typedef struct
{
UINT32 outFifoReads; /**< outFifo reads */
UINT32 inFifoWrites; /**< inFifo writes */
UINT32 maxInFifoFullRetries; /**< max retries if inFIFO full */
UINT32 maxOutFifoEmptyRetries; /**< max retries if outFIFO empty */
} IxNpeMhConfigStats;
/*
* Variable declarations global to this file only. Externs are followed by
* static variables.
*/
IxNpeMhConfigNpeInfo ixNpeMhConfigNpeInfo[IX_NPEMH_NUM_NPES] =
{
{
0,
IX_NPEMH_NPEA_INT,
0,
0,
0,
0,
0,
NULL,
FALSE
},
{
0,
IX_NPEMH_NPEB_INT,
0,
0,
0,
0,
0,
NULL,
FALSE
},
{
0,
IX_NPEMH_NPEC_INT,
0,
0,
0,
0,
0,
NULL,
FALSE
}
};
PRIVATE IxNpeMhConfigStats ixNpeMhConfigStats[IX_NPEMH_NUM_NPES];
/*
* Extern function prototypes.
*/
/*
* Static function prototypes.
*/
PRIVATE
void ixNpeMhConfigIsr (void *parameter);
/*
* Function definition: ixNpeMhConfigIsr
*/
PRIVATE
void ixNpeMhConfigIsr (void *parameter)
{
IxNpeMhNpeId npeId = (IxNpeMhNpeId)parameter;
UINT32 ofint;
volatile UINT32 *statusReg =
(UINT32 *)ixNpeMhConfigNpeInfo[npeId].statusRegister;
IX_NPEMH_TRACE0 (IX_NPEMH_FN_ENTRY_EXIT, "Entering "
"ixNpeMhConfigIsr\n");
/* get the OFINT (OutFifo interrupt) bit of the status register */
IX_NPEMH_REGISTER_READ_BITS (statusReg, &ofint, IX_NPEMH_NPE_STAT_OFINT);
/* if the OFINT status bit is set */
if (ofint)
{
/* if there is an ISR registered for this NPE */
if (ixNpeMhConfigNpeInfo[npeId].isr != NULL)
{
/* invoke the ISR routine */
ixNpeMhConfigNpeInfo[npeId].isr (npeId);
}
else
{
/* if we don't service the interrupt the NPE will continue */
/* to trigger the interrupt indefinitely */
IX_NPEMH_ERROR_REPORT ("No ISR registered to service "
"interrupt\n");
}
}
IX_NPEMH_TRACE0 (IX_NPEMH_FN_ENTRY_EXIT, "Exiting "
"ixNpeMhConfigIsr\n");
}
/*
* Function definition: ixNpeMhConfigInitialize
*/
void ixNpeMhConfigInitialize (
IxNpeMhNpeInterrupts npeInterrupts)
{
IxNpeMhNpeId npeId;
UINT32 virtualAddr[IX_NPEMH_NUM_NPES];
IX_NPEMH_TRACE0 (IX_NPEMH_FN_ENTRY_EXIT, "Entering "
"ixNpeMhConfigInitialize\n");
/* Request a mapping for the NPE-A config register address space */
virtualAddr[IX_NPEMH_NPEID_NPEA] =
(UINT32) IX_OSAL_MEM_MAP (IX_NPEMH_NPEA_BASE,
IX_OSAL_IXP400_NPEA_MAP_SIZE);
IX_OSAL_ASSERT (virtualAddr[IX_NPEMH_NPEID_NPEA]);
/* Request a mapping for the NPE-B config register address space */
virtualAddr[IX_NPEMH_NPEID_NPEB] =
(UINT32) IX_OSAL_MEM_MAP (IX_NPEMH_NPEB_BASE,
IX_OSAL_IXP400_NPEB_MAP_SIZE);
IX_OSAL_ASSERT (virtualAddr[IX_NPEMH_NPEID_NPEB]);
/* Request a mapping for the NPE-C config register address space */
virtualAddr[IX_NPEMH_NPEID_NPEC] =
(UINT32) IX_OSAL_MEM_MAP (IX_NPEMH_NPEC_BASE,
IX_OSAL_IXP400_NPEC_MAP_SIZE);
IX_OSAL_ASSERT (virtualAddr[IX_NPEMH_NPEID_NPEC]);
/* for each NPE ... */
for (npeId = 0; npeId < IX_NPEMH_NUM_NPES; npeId++)
{
/* declare a convenience pointer */
IxNpeMhConfigNpeInfo *npeInfo = &ixNpeMhConfigNpeInfo[npeId];
/* store the virtual addresses of the NPE registers for later use */
npeInfo->virtualRegisterBase = virtualAddr[npeId];
npeInfo->statusRegister = virtualAddr[npeId] + IX_NPEMH_NPESTAT_OFFSET;
npeInfo->controlRegister = virtualAddr[npeId] + IX_NPEMH_NPECTL_OFFSET;
npeInfo->inFifoRegister = virtualAddr[npeId] + IX_NPEMH_NPEFIFO_OFFSET;
npeInfo->outFifoRegister = virtualAddr[npeId] + IX_NPEMH_NPEFIFO_OFFSET;
/* for test purposes - to verify the register addresses */
IX_NPEMH_TRACE2 (IX_NPEMH_DEBUG, "NPE %d status register = "
"0x%08X\n", npeId, npeInfo->statusRegister);
IX_NPEMH_TRACE2 (IX_NPEMH_DEBUG, "NPE %d control register = "
"0x%08X\n", npeId, npeInfo->controlRegister);
IX_NPEMH_TRACE2 (IX_NPEMH_DEBUG, "NPE %d inFifo register = "
"0x%08X\n", npeId, npeInfo->inFifoRegister);
IX_NPEMH_TRACE2 (IX_NPEMH_DEBUG, "NPE %d outFifo register = "
"0x%08X\n", npeId, npeInfo->outFifoRegister);
/* connect our ISR to the NPE interrupt */
(void) ixOsalIrqBind (
npeInfo->interruptId, ixNpeMhConfigIsr, (void *)npeId);
/* initialise a mutex for this NPE */
(void) ixOsalMutexInit (&npeInfo->mutex);
/* if we should service the NPE's "outFIFO not empty" interrupt */
if (npeInterrupts == IX_NPEMH_NPEINTERRUPTS_YES)
{
/* enable the NPE's "outFIFO not empty" interrupt */
ixNpeMhConfigNpeInterruptEnable (npeId);
}
else
{
/* disable the NPE's "outFIFO not empty" interrupt */
ixNpeMhConfigNpeInterruptDisable (npeId);
}
}
IX_NPEMH_TRACE0 (IX_NPEMH_FN_ENTRY_EXIT, "Exiting "
"ixNpeMhConfigInitialize\n");
}
/*
* Function definition: ixNpeMhConfigUninit
*/
void ixNpeMhConfigUninit (void)
{
IxNpeMhNpeId npeId;
IX_NPEMH_TRACE0 (IX_NPEMH_FN_ENTRY_EXIT, "Entering "
"ixNpeMhConfigUninit\n");
/* for each NPE ... */
for (npeId = 0; npeId < IX_NPEMH_NUM_NPES; npeId++)
{
/* declare a convenience pointer */
IxNpeMhConfigNpeInfo *npeInfo = &ixNpeMhConfigNpeInfo[npeId];
/* disconnect ISR */
ixOsalIrqUnbind(npeInfo->interruptId);
/* destroy mutex associated with this NPE */
ixOsalMutexDestroy(&npeInfo->mutex);
IX_OSAL_MEM_UNMAP (npeInfo->virtualRegisterBase);
npeInfo->virtualRegisterBase = 0;
npeInfo->statusRegister = 0;
npeInfo->controlRegister = 0;
npeInfo->inFifoRegister = 0;
npeInfo->outFifoRegister = 0;
}
IX_NPEMH_TRACE0 (IX_NPEMH_FN_ENTRY_EXIT, "Exiting "
"ixNpeMhConfigUninit\n");
}
/*
* Function definition: ixNpeMhConfigIsrRegister
*/
void ixNpeMhConfigIsrRegister (
IxNpeMhNpeId npeId,
IxNpeMhConfigIsr isr)
{
IX_NPEMH_TRACE0 (IX_NPEMH_FN_ENTRY_EXIT, "Entering "
"ixNpeMhConfigIsrRegister\n");
/* check if there is already an ISR registered for this NPE */
if (ixNpeMhConfigNpeInfo[npeId].isr != NULL)
{
IX_NPEMH_TRACE0 (IX_NPEMH_DEBUG, "Over-writing registered NPE ISR\n");
}
/* save the ISR routine with the NPE info */
ixNpeMhConfigNpeInfo[npeId].isr = isr;
IX_NPEMH_TRACE0 (IX_NPEMH_FN_ENTRY_EXIT, "Exiting "
"ixNpeMhConfigIsrRegister\n");
}
/*
* Function definition: ixNpeMhConfigNpeInterruptEnable
*/
BOOL ixNpeMhConfigNpeInterruptEnable (
IxNpeMhNpeId npeId)
{
UINT32 ofe;
volatile UINT32 *controlReg =
(UINT32 *)ixNpeMhConfigNpeInfo[npeId].controlRegister;
/* get the OFE (OutFifoEnable) bit of the control register */
IX_NPEMH_REGISTER_READ_BITS (controlReg, &ofe, IX_NPEMH_NPE_CTL_OFE);
/* if the interrupt is disabled then we must enable it */
if (!ofe)
{
/* set the OFE (OutFifoEnable) bit of the control register */
/* we must set the OFEWE (OutFifoEnableWriteEnable) at the same */
/* time for the write to have effect */
IX_NPEMH_REGISTER_WRITE_BITS (controlReg,
(IX_NPEMH_NPE_CTL_OFE |
IX_NPEMH_NPE_CTL_OFEWE),
(IX_NPEMH_NPE_CTL_OFE |
IX_NPEMH_NPE_CTL_OFEWE));
}
/* return the previous state of the interrupt */
return (ofe != 0);
}
/*
* Function definition: ixNpeMhConfigNpeInterruptDisable
*/
BOOL ixNpeMhConfigNpeInterruptDisable (
IxNpeMhNpeId npeId)
{
UINT32 ofe;
volatile UINT32 *controlReg =
(UINT32 *)ixNpeMhConfigNpeInfo[npeId].controlRegister;
/* get the OFE (OutFifoEnable) bit of the control register */
IX_NPEMH_REGISTER_READ_BITS (controlReg, &ofe, IX_NPEMH_NPE_CTL_OFE);
/* if the interrupt is enabled then we must disable it */
if (ofe)
{
/* unset the OFE (OutFifoEnable) bit of the control register */
/* we must set the OFEWE (OutFifoEnableWriteEnable) at the same */
/* time for the write to have effect */
IX_NPEMH_REGISTER_WRITE_BITS (controlReg,
(0 |
IX_NPEMH_NPE_CTL_OFEWE),
(IX_NPEMH_NPE_CTL_OFE |
IX_NPEMH_NPE_CTL_OFEWE));
}
/* return the previous state of the interrupt */
return (ofe != 0);
}
/*
* Function definition: ixNpeMhConfigMessageIdGet
*/
IxNpeMhMessageId ixNpeMhConfigMessageIdGet (
IxNpeMhMessage message)
{
/* return the most-significant byte of the first word of the */
/* message */
return ((IxNpeMhMessageId) ((message.data[0] >> 24) & 0xFF));
}
/*
* Function definition: ixNpeMhConfigNpeIdIsValid
*/
BOOL ixNpeMhConfigNpeIdIsValid (
IxNpeMhNpeId npeId)
{
/* check that the npeId parameter is within the range of valid IDs */
return (npeId >= 0 && npeId < IX_NPEMH_NUM_NPES);
}
/*
* Function definition: ixNpeMhConfigLockGet
*/
void ixNpeMhConfigLockGet (
IxNpeMhNpeId npeId)
{
IX_NPEMH_TRACE0 (IX_NPEMH_FN_ENTRY_EXIT, "Entering "
"ixNpeMhConfigLockGet\n");
/* lock the mutex for this NPE */
(void) ixOsalMutexLock (&ixNpeMhConfigNpeInfo[npeId].mutex,
IX_OSAL_WAIT_FOREVER);
/* disable the NPE's "outFIFO not empty" interrupt */
ixNpeMhConfigNpeInfo[npeId].oldInterruptState =
ixNpeMhConfigNpeInterruptDisable (npeId);
IX_NPEMH_TRACE0 (IX_NPEMH_FN_ENTRY_EXIT, "Exiting "
"ixNpeMhConfigLockGet\n");
}
/*
* Function definition: ixNpeMhConfigLockRelease
*/
void ixNpeMhConfigLockRelease (
IxNpeMhNpeId npeId)
{
IX_NPEMH_TRACE0 (IX_NPEMH_FN_ENTRY_EXIT, "Entering "
"ixNpeMhConfigLockRelease\n");
/* if the interrupt was previously enabled */
if (ixNpeMhConfigNpeInfo[npeId].oldInterruptState)
{
/* enable the NPE's "outFIFO not empty" interrupt */
ixNpeMhConfigNpeInfo[npeId].oldInterruptState =
ixNpeMhConfigNpeInterruptEnable (npeId);
}
/* unlock the mutex for this NPE */
(void) ixOsalMutexUnlock (&ixNpeMhConfigNpeInfo[npeId].mutex);
IX_NPEMH_TRACE0 (IX_NPEMH_FN_ENTRY_EXIT, "Exiting "
"ixNpeMhConfigLockRelease\n");
}
/*
* Function definition: ixNpeMhConfigInFifoWrite
*/
IX_STATUS ixNpeMhConfigInFifoWrite (
IxNpeMhNpeId npeId,
IxNpeMhMessage message)
{
volatile UINT32 *npeInFifo =
(UINT32 *)ixNpeMhConfigNpeInfo[npeId].inFifoRegister;
UINT32 retriesCount = 0;
/* write the first word of the message to the NPE's inFIFO */
IX_NPEMH_REGISTER_WRITE (npeInFifo, message.data[0]);
/* need to wait for room to write second word - see SCR #493,
poll for maximum number of retries, if exceed maximum
retries, exit from while loop */
while ((IX_NPE_MH_MAX_NUM_OF_RETRIES > retriesCount)
&& ixNpeMhConfigInFifoIsFull (npeId))
{
retriesCount++;
}
/* Return TIMEOUT status to caller, indicate that NPE Hang / Halt */
if (IX_NPE_MH_MAX_NUM_OF_RETRIES == retriesCount)
{
return IX_NPEMH_CRITICAL_NPE_ERR;
}
/* write the second word of the message to the NPE's inFIFO */
IX_NPEMH_REGISTER_WRITE (npeInFifo, message.data[1]);
/* record in the stats the maximum number of retries needed */
if (ixNpeMhConfigStats[npeId].maxInFifoFullRetries < retriesCount)
{
ixNpeMhConfigStats[npeId].maxInFifoFullRetries = retriesCount;
}
/* update statistical info */
ixNpeMhConfigStats[npeId].inFifoWrites++;
return IX_SUCCESS;
}
/*
* Function definition: ixNpeMhConfigOutFifoRead
*/
IX_STATUS ixNpeMhConfigOutFifoRead (
IxNpeMhNpeId npeId,
IxNpeMhMessage *message)
{
volatile UINT32 *npeOutFifo =
(UINT32 *)ixNpeMhConfigNpeInfo[npeId].outFifoRegister;
UINT32 retriesCount = 0;
/* read the first word of the message from the NPE's outFIFO */
IX_NPEMH_REGISTER_READ (npeOutFifo, &message->data[0]);
/* need to wait for NPE to write second word - see SCR #493
poll for maximum number of retries, if exceed maximum
retries, exit from while loop */
while ((IX_NPE_MH_MAX_NUM_OF_RETRIES > retriesCount)
&& ixNpeMhConfigOutFifoIsEmpty (npeId))
{
retriesCount++;
}
/* Return TIMEOUT status to caller, indicate that NPE Hang / Halt */
if (IX_NPE_MH_MAX_NUM_OF_RETRIES == retriesCount)
{
return IX_NPEMH_CRITICAL_NPE_ERR;
}
/* read the second word of the message from the NPE's outFIFO */
IX_NPEMH_REGISTER_READ (npeOutFifo, &message->data[1]);
/* record in the stats the maximum number of retries needed */
if (ixNpeMhConfigStats[npeId].maxOutFifoEmptyRetries < retriesCount)
{
ixNpeMhConfigStats[npeId].maxOutFifoEmptyRetries = retriesCount;
}
/* update statistical info */
ixNpeMhConfigStats[npeId].outFifoReads++;
return IX_SUCCESS;
}
/*
* Function definition: ixNpeMhConfigShow
*/
void ixNpeMhConfigShow (
IxNpeMhNpeId npeId)
{
/* show the message fifo read counter */
IX_NPEMH_SHOW ("Message FIFO reads",
ixNpeMhConfigStats[npeId].outFifoReads);
/* show the message fifo write counter */
IX_NPEMH_SHOW ("Message FIFO writes",
ixNpeMhConfigStats[npeId].inFifoWrites);
/* show the max retries performed when inFIFO full */
IX_NPEMH_SHOW ("Max inFIFO Full retries",
ixNpeMhConfigStats[npeId].maxInFifoFullRetries);
/* show the max retries performed when outFIFO empty */
IX_NPEMH_SHOW ("Max outFIFO Empty retries",
ixNpeMhConfigStats[npeId].maxOutFifoEmptyRetries);
/* show the current status of the inFifo */
ixOsalLog (IX_OSAL_LOG_LVL_USER, IX_OSAL_LOG_DEV_STDOUT,
"InFifo is %s and %s\n",
(ixNpeMhConfigInFifoIsEmpty (npeId) ?
(int) "EMPTY" : (int) "NOT EMPTY"),
(ixNpeMhConfigInFifoIsFull (npeId) ?
(int) "FULL" : (int) "NOT FULL"),
0, 0, 0, 0);
/* show the current status of the outFifo */
ixOsalLog (IX_OSAL_LOG_LVL_USER, IX_OSAL_LOG_DEV_STDOUT,
"OutFifo is %s and %s\n",
(ixNpeMhConfigOutFifoIsEmpty (npeId) ?
(int) "EMPTY" : (int) "NOT EMPTY"),
(ixNpeMhConfigOutFifoIsFull (npeId) ?
(int) "FULL" : (int) "NOT FULL"),
0, 0, 0, 0);
}
/*
* Function definition: ixNpeMhConfigShowReset
*/
void ixNpeMhConfigShowReset (
IxNpeMhNpeId npeId)
{
/* reset the message fifo read counter */
ixNpeMhConfigStats[npeId].outFifoReads = 0;
/* reset the message fifo write counter */
ixNpeMhConfigStats[npeId].inFifoWrites = 0;
/* reset the max inFIFO Full retries counter */
ixNpeMhConfigStats[npeId].maxInFifoFullRetries = 0;
/* reset the max outFIFO empty retries counter */
ixNpeMhConfigStats[npeId].maxOutFifoEmptyRetries = 0;
}
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