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/cpu/ixp/npe/IxEthDBMem.c

649 lines
16 KiB

/**
* @file IxEthDBDBMem.c
*
* @brief Memory handling routines for the MAC address database
*
* @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 --
*/
#include "IxEthDB_p.h"
IX_ETH_DB_PRIVATE HashNode *nodePool = NULL;
IX_ETH_DB_PRIVATE MacDescriptor *macPool = NULL;
IX_ETH_DB_PRIVATE MacTreeNode *treePool = NULL;
IX_ETH_DB_PRIVATE HashNode nodePoolArea[NODE_POOL_SIZE];
IX_ETH_DB_PRIVATE MacDescriptor macPoolArea[MAC_POOL_SIZE];
IX_ETH_DB_PRIVATE MacTreeNode treePoolArea[TREE_POOL_SIZE];
IX_ETH_DB_PRIVATE IxOsalMutex nodePoolLock;
IX_ETH_DB_PRIVATE IxOsalMutex macPoolLock;
IX_ETH_DB_PRIVATE IxOsalMutex treePoolLock;
#define LOCK_NODE_POOL { ixOsalMutexLock(&nodePoolLock, IX_OSAL_WAIT_FOREVER); }
#define UNLOCK_NODE_POOL { ixOsalMutexUnlock(&nodePoolLock); }
#define LOCK_MAC_POOL { ixOsalMutexLock(&macPoolLock, IX_OSAL_WAIT_FOREVER); }
#define UNLOCK_MAC_POOL { ixOsalMutexUnlock(&macPoolLock); }
#define LOCK_TREE_POOL { ixOsalMutexLock(&treePoolLock, IX_OSAL_WAIT_FOREVER); }
#define UNLOCK_TREE_POOL { ixOsalMutexUnlock(&treePoolLock); }
/* private function prototypes */
IX_ETH_DB_PRIVATE MacDescriptor* ixEthDBPoolAllocMacDescriptor(void);
IX_ETH_DB_PRIVATE void ixEthDBPoolFreeMacDescriptor(MacDescriptor *macDescriptor);
/**
* @addtogroup EthMemoryManagement
*
* @{
*/
/**
* @brief initializes the memory pools used by the ethernet database component
*
* Initializes the hash table node, mac descriptor and mac tree node pools.
* Called at initialization time by @ref ixEthDBInit().
*
* @internal
*/
IX_ETH_DB_PUBLIC
void ixEthDBInitMemoryPools(void)
{
int local_index;
/* HashNode pool */
ixOsalMutexInit(&nodePoolLock);
for (local_index = 0 ; local_index < NODE_POOL_SIZE ; local_index++)
{
HashNode *freeNode = &nodePoolArea[local_index];
freeNode->nextFree = nodePool;
nodePool = freeNode;
}
/* MacDescriptor pool */
ixOsalMutexInit(&macPoolLock);
for (local_index = 0 ; local_index < MAC_POOL_SIZE ; local_index++)
{
MacDescriptor *freeDescriptor = &macPoolArea[local_index];
freeDescriptor->nextFree = macPool;
macPool = freeDescriptor;
}
/* MacTreeNode pool */
ixOsalMutexInit(&treePoolLock);
for (local_index = 0 ; local_index < TREE_POOL_SIZE ; local_index++)
{
MacTreeNode *freeNode = &treePoolArea[local_index];
freeNode->nextFree = treePool;
treePool = freeNode;
}
}
/**
* @brief allocates a hash node from the pool
*
* Allocates a hash node and resets its value.
*
* @return the allocated hash node or NULL if the pool is empty
*
* @internal
*/
IX_ETH_DB_PUBLIC
HashNode* ixEthDBAllocHashNode(void)
{
HashNode *allocatedNode = NULL;
if (nodePool != NULL)
{
LOCK_NODE_POOL;
allocatedNode = nodePool;
nodePool = nodePool->nextFree;
UNLOCK_NODE_POOL;
memset(allocatedNode, 0, sizeof(HashNode));
}
return allocatedNode;
}
/**
* @brief frees a hash node into the pool
*
* @param hashNode node to be freed
*
* @internal
*/
IX_ETH_DB_PUBLIC
void ixEthDBFreeHashNode(HashNode *hashNode)
{
if (hashNode != NULL)
{
LOCK_NODE_POOL;
hashNode->nextFree = nodePool;
nodePool = hashNode;
UNLOCK_NODE_POOL;
}
}
/**
* @brief allocates a mac descriptor from the pool
*
* Allocates a mac descriptor and resets its value.
* This function is not used directly, instead @ref ixEthDBAllocMacDescriptor()
* is used, which keeps track of the pointer reference count.
*
* @see ixEthDBAllocMacDescriptor()
*
* @warning this function is not used directly by any other function
* apart from ixEthDBAllocMacDescriptor()
*
* @return the allocated mac descriptor or NULL if the pool is empty
*
* @internal
*/
IX_ETH_DB_PRIVATE
MacDescriptor* ixEthDBPoolAllocMacDescriptor(void)
{
MacDescriptor *allocatedDescriptor = NULL;
if (macPool != NULL)
{
LOCK_MAC_POOL;
allocatedDescriptor = macPool;
macPool = macPool->nextFree;
UNLOCK_MAC_POOL;
memset(allocatedDescriptor, 0, sizeof(MacDescriptor));
}
return allocatedDescriptor;
}
/**
* @brief allocates and initializes a mac descriptor smart pointer
*
* Uses @ref ixEthDBPoolAllocMacDescriptor() to allocate a mac descriptor
* from the pool and initializes its reference count.
*
* @see ixEthDBPoolAllocMacDescriptor()
*
* @return the allocated mac descriptor or NULL if the pool is empty
*
* @internal
*/
IX_ETH_DB_PUBLIC
MacDescriptor* ixEthDBAllocMacDescriptor(void)
{
MacDescriptor *allocatedDescriptor = ixEthDBPoolAllocMacDescriptor();
if (allocatedDescriptor != NULL)
{
LOCK_MAC_POOL;
allocatedDescriptor->refCount++;
UNLOCK_MAC_POOL;
}
return allocatedDescriptor;
}
/**
* @brief frees a mac descriptor back into the pool
*
* @param macDescriptor mac descriptor to be freed
*
* @warning this function is not to be called by anyone but
* ixEthDBFreeMacDescriptor()
*
* @see ixEthDBFreeMacDescriptor()
*
* @internal
*/
IX_ETH_DB_PRIVATE
void ixEthDBPoolFreeMacDescriptor(MacDescriptor *macDescriptor)
{
LOCK_MAC_POOL;
macDescriptor->nextFree = macPool;
macPool = macDescriptor;
UNLOCK_MAC_POOL;
}
/**
* @brief frees or reduces the usage count of a mac descriptor smart pointer
*
* If the reference count reaches 0 (structure is no longer used anywhere)
* then the descriptor is freed back into the pool using ixEthDBPoolFreeMacDescriptor().
*
* @see ixEthDBPoolFreeMacDescriptor()
*
* @internal
*/
IX_ETH_DB_PUBLIC
void ixEthDBFreeMacDescriptor(MacDescriptor *macDescriptor)
{
if (macDescriptor != NULL)
{
LOCK_MAC_POOL;
if (macDescriptor->refCount > 0)
{
macDescriptor->refCount--;
if (macDescriptor->refCount == 0)
{
UNLOCK_MAC_POOL;
ixEthDBPoolFreeMacDescriptor(macDescriptor);
}
else
{
UNLOCK_MAC_POOL;
}
}
else
{
UNLOCK_MAC_POOL;
}
}
}
/**
* @brief clones a mac descriptor smart pointer
*
* @param macDescriptor mac descriptor to clone
*
* Increments the usage count of the smart pointer
*
* @returns the cloned smart pointer
*
* @internal
*/
IX_ETH_DB_PUBLIC
MacDescriptor* ixEthDBCloneMacDescriptor(MacDescriptor *macDescriptor)
{
LOCK_MAC_POOL;
if (macDescriptor->refCount == 0)
{
UNLOCK_MAC_POOL;
return NULL;
}
macDescriptor->refCount++;
UNLOCK_MAC_POOL;
return macDescriptor;
}
/**
* @brief allocates a mac tree node from the pool
*
* Allocates and initializes a mac tree node from the pool.
*
* @return the allocated mac tree node or NULL if the pool is empty
*
* @internal
*/
IX_ETH_DB_PUBLIC
MacTreeNode* ixEthDBAllocMacTreeNode(void)
{
MacTreeNode *allocatedNode = NULL;
if (treePool != NULL)
{
LOCK_TREE_POOL;
allocatedNode = treePool;
treePool = treePool->nextFree;
UNLOCK_TREE_POOL;
memset(allocatedNode, 0, sizeof(MacTreeNode));
}
return allocatedNode;
}
/**
* @brief frees a mac tree node back into the pool
*
* @param macNode mac tree node to be freed
*
* @warning not to be used except from ixEthDBFreeMacTreeNode().
*
* @see ixEthDBFreeMacTreeNode()
*
* @internal
*/
void ixEthDBPoolFreeMacTreeNode(MacTreeNode *macNode)
{
if (macNode != NULL)
{
LOCK_TREE_POOL;
macNode->nextFree = treePool;
treePool = macNode;
UNLOCK_TREE_POOL;
}
}
/**
* @brief frees or reduces the usage count of a mac tree node smart pointer
*
* @param macNode mac tree node to free
*
* Reduces the usage count of the given mac node. If the usage count
* reaches 0 the node is freed back into the pool using ixEthDBPoolFreeMacTreeNode()
*
* @internal
*/
IX_ETH_DB_PUBLIC
void ixEthDBFreeMacTreeNode(MacTreeNode *macNode)
{
if (macNode->descriptor != NULL)
{
ixEthDBFreeMacDescriptor(macNode->descriptor);
}
if (macNode->left != NULL)
{
ixEthDBFreeMacTreeNode(macNode->left);
}
if (macNode->right != NULL)
{
ixEthDBFreeMacTreeNode(macNode->right);
}
ixEthDBPoolFreeMacTreeNode(macNode);
}
/**
* @brief clones a mac tree node
*
* @param macNode mac tree node to be cloned
*
* Increments the usage count of the node, <i>its associated descriptor
* and <b>recursively</b> of all its child nodes</i>.
*
* @warning this function is recursive and clones whole trees/subtrees, use only for
* root nodes
*
* @internal
*/
IX_ETH_DB_PUBLIC
MacTreeNode* ixEthDBCloneMacTreeNode(MacTreeNode *macNode)
{
if (macNode != NULL)
{
MacTreeNode *clonedMacNode = ixEthDBAllocMacTreeNode();
if (clonedMacNode != NULL)
{
if (macNode->right != NULL)
{
clonedMacNode->right = ixEthDBCloneMacTreeNode(macNode->right);
}
if (macNode->left != NULL)
{
clonedMacNode->left = ixEthDBCloneMacTreeNode(macNode->left);
}
if (macNode->descriptor != NULL)
{
clonedMacNode->descriptor = ixEthDBCloneMacDescriptor(macNode->descriptor);
}
}
return clonedMacNode;
}
else
{
return NULL;
}
}
#ifndef NDEBUG
/* Debug statistical functions for memory usage */
extern HashTable dbHashtable;
int ixEthDBNumHashElements(void);
int ixEthDBNumHashElements(void)
{
UINT32 bucketIndex;
int numElements = 0;
HashTable *hashTable = &dbHashtable;
for (bucketIndex = 0 ; bucketIndex < hashTable->numBuckets ; bucketIndex++)
{
if (hashTable->hashBuckets[bucketIndex] != NULL)
{
HashNode *node = hashTable->hashBuckets[bucketIndex];
while (node != NULL)
{
numElements++;
node = node->next;
}
}
}
return numElements;
}
UINT32 ixEthDBSearchTreeUsageGet(MacTreeNode *tree)
{
if (tree == NULL)
{
return 0;
}
else
{
return 1 /* this node */ + ixEthDBSearchTreeUsageGet(tree->left) + ixEthDBSearchTreeUsageGet(tree->right);
}
}
int ixEthDBShowMemoryStatus(void)
{
MacDescriptor *mac;
MacTreeNode *tree;
HashNode *node;
int macCounter = 0;
int treeCounter = 0;
int nodeCounter = 0;
int totalTreeUsage = 0;
int totalDescriptorUsage = 0;
int totalCloneDescriptorUsage = 0;
int totalNodeUsage = 0;
UINT32 portIndex;
LOCK_NODE_POOL;
LOCK_MAC_POOL;
LOCK_TREE_POOL;
mac = macPool;
tree = treePool;
node = nodePool;
while (mac != NULL)
{
macCounter++;
mac = mac->nextFree;
if (macCounter > MAC_POOL_SIZE)
{
break;
}
}
while (tree != NULL)
{
treeCounter++;
tree = tree->nextFree;
if (treeCounter > TREE_POOL_SIZE)
{
break;
}
}
while (node != NULL)
{
nodeCounter++;
node = node->nextFree;
if (nodeCounter > NODE_POOL_SIZE)
{
break;
}
}
for (portIndex = 0 ; portIndex < IX_ETH_DB_NUMBER_OF_PORTS ; portIndex++)
{
int treeUsage = ixEthDBSearchTreeUsageGet(ixEthDBPortInfo[portIndex].updateMethod.searchTree);
totalTreeUsage += treeUsage;
totalCloneDescriptorUsage += treeUsage; /* each tree node contains a descriptor */
}
totalNodeUsage = ixEthDBNumHashElements();
totalDescriptorUsage += totalNodeUsage; /* each hash table entry contains a descriptor */
UNLOCK_NODE_POOL;
UNLOCK_MAC_POOL;
UNLOCK_TREE_POOL;
printf("Ethernet database memory usage stats:\n\n");
if (macCounter <= MAC_POOL_SIZE)
{
printf("\tMAC descriptor pool : %d free out of %d entries (%d%%)\n", macCounter, MAC_POOL_SIZE, macCounter * 100 / MAC_POOL_SIZE);
}
else
{
printf("\tMAC descriptor pool : invalid state (ring within the pool), normally %d entries\n", MAC_POOL_SIZE);
}
if (treeCounter <= TREE_POOL_SIZE)
{
printf("\tTree node pool : %d free out of %d entries (%d%%)\n", treeCounter, TREE_POOL_SIZE, treeCounter * 100 / TREE_POOL_SIZE);
}
else
{
printf("\tTREE descriptor pool : invalid state (ring within the pool), normally %d entries\n", TREE_POOL_SIZE);
}
if (nodeCounter <= NODE_POOL_SIZE)
{
printf("\tHash node pool : %d free out of %d entries (%d%%)\n", nodeCounter, NODE_POOL_SIZE, nodeCounter * 100 / NODE_POOL_SIZE);
}
else
{
printf("\tNODE descriptor pool : invalid state (ring within the pool), normally %d entries\n", NODE_POOL_SIZE);
}
printf("\n");
printf("\tMAC descriptor usage : %d entries, %d cloned\n", totalDescriptorUsage, totalCloneDescriptorUsage);
printf("\tTree node usage : %d entries\n", totalTreeUsage);
printf("\tHash node usage : %d entries\n", totalNodeUsage);
printf("\n");
/* search for duplicate nodes in the mac pool */
{
MacDescriptor *reference = macPool;
while (reference != NULL)
{
MacDescriptor *comparison = reference->nextFree;
while (comparison != NULL)
{
if (reference == comparison)
{
printf("Warning: reached a duplicate (%p), invalid MAC pool state\n", reference);
return 1;
}
comparison = comparison->nextFree;
}
reference = reference->nextFree;
}
}
printf("No duplicates found in the MAC pool (sanity check ok)\n");
return 0;
}
#endif /* NDEBUG */
/**
* @} EthMemoryManagement
*/