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uboot-1.1.4-kirkwood/board/mv_feroceon/mv_hal/eth/nfp/mvNfp.c

743 lines
24 KiB
C

/*******************************************************************************
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*******************************************************************************/
/*******************************************************************************
* mvNfp.c - Marvell Network Fast Processing (Routing and NAT)
*
* DESCRIPTION:
*
* Supported Features:
* - OS independent.
*
*******************************************************************************/
/* includes */
#include "mvOs.h"
#include "mvDebug.h"
#include "eth/nfp/mvNfp.h"
#include "eth/mvEth.h"
MV_U32 ip_hash_depth[ETH_FP_MAX_HASH_DEPTH+1];
MV_U32 nat_hash_depth[ETH_FP_MAX_HASH_DEPTH+1];
static struct ruleHashBucket *ruleDb;
static MV_U32 ruleDbSize;
static MV_U32 nfpRuleSetCount;
static MV_U32 nfpRuleUpdateCount;
static MV_U32 nfpRuleDeleteCount;
MV_U32 fp_ip_jhash_iv = 0;
MV_STATUS mvFpInit(void)
{
memset(nat_hash_depth, 0, (ETH_FP_MAX_HASH_DEPTH+1)*sizeof(MV_U32));
memset(ip_hash_depth, 0, (ETH_FP_MAX_HASH_DEPTH+1)*sizeof(MV_U32));
fp_ip_jhash_iv = mvOsRand();
return MV_OK;
}
/* Initialize NFP Rule Database (Routing + ARP information table) */
MV_STATUS mvFpRuleDbInit(MV_U32 dbSize)
{
ruleDb = (struct ruleHashBucket *)mvOsMalloc(sizeof(struct ruleHashBucket)*dbSize);
if (ruleDb == NULL) {
mvOsPrintf("NFP Rule DB: Not Enough Memory\n");
return MV_NO_RESOURCE;
}
ruleDbSize = dbSize;
memset(ruleDb, 0, sizeof(struct ruleHashBucket)*ruleDbSize);
nfpRuleSetCount = nfpRuleUpdateCount = nfpRuleDeleteCount = 0;
mvOsPrintf("mvFpRuleDb (%p): %d entries, %d bytes\n",
ruleDb, ruleDbSize, sizeof(struct ruleHashBucket)*ruleDbSize);
return MV_OK;
}
/* Clear NFP Rule Database (Routing + ARP information table) */
MV_STATUS mvFpRuleDbClear(void)
{
MV_U32 i = 0;
MV_FP_RULE *currRule;
MV_FP_RULE *tmpRule;
if (ruleDb == NULL)
return MV_NOT_INITIALIZED;
for (i = 0; i < ruleDbSize; i++) {
currRule = ruleDb[i].ruleChain;
while (currRule != NULL) {
tmpRule = currRule;
currRule = currRule->next;
mvOsFree(tmpRule);
}
ruleDb[i].ruleChain = NULL;
}
return MV_OK;
}
/* Free Rule Database memory */
void mvFpRuleDbDestroy(void)
{
if (ruleDb != NULL)
mvOsFree(ruleDb);
}
/* Print rule action type. Assume rule is not NULL. */
static void mvFpActionTypePrint(const MV_FP_RULE *rule)
{
switch(rule->mgmtInfo.actionType) {
case MV_FP_ROUTE_CMD:
mvOsPrintf("A=Route, ");
break;
case MV_FP_DROP_CMD:
mvOsPrintf("A=Drop, ");
break;
case MV_FP_TO_STACK_CMD:
mvOsPrintf("A=Stack, ");
break;
default:
mvOsPrintf("A=Unknown (%d), ", rule->mgmtInfo.actionType);
break;
}
}
/* Print rule type (static or dynamic). Assume rule is not NULL. */
static void mvFpRuleTypePrint(const MV_FP_RULE *rule)
{
switch(rule->mgmtInfo.ruleType) {
case MV_FP_STATIC_RULE:
mvOsPrintf("T=Static");
break;
case MV_FP_DYNAMIC_RULE:
mvOsPrintf("T=Dynamic");
break;
default:
mvOsPrintf("T=Unknown");
break;
}
}
/* Print a NFP Rule */
void mvFpRulePrint(const MV_FP_RULE *rule)
{
mvFpActionTypePrint(rule);
mvFpRuleTypePrint(rule);
mvOsPrintf(", SIP=");
mvDebugPrintIpAddr(MV_32BIT_BE(rule->routingInfo.srcIp));
mvOsPrintf(", DIP=");
mvDebugPrintIpAddr(MV_32BIT_BE(rule->routingInfo.dstIp));
mvOsPrintf(", GTW=");
mvDebugPrintIpAddr(MV_32BIT_BE(rule->routingInfo.defGtwIp));
mvOsPrintf(", DA=");
mvDebugPrintMacAddr(rule->routingInfo.dstMac);
mvOsPrintf(", SA=");
mvDebugPrintMacAddr(rule->routingInfo.srcMac);
mvOsPrintf(", inIf=%d", rule->routingInfo.inIfIndex);
mvOsPrintf(", outIf=%d", rule->routingInfo.outIfIndex);
mvOsPrintf(", count=%d, aware_flags=0x%X", rule->mgmtInfo.new_count, rule->routingInfo.aware_flags);
mvOsPrintf("\n");
}
/* Print NFP Rule Database (Routing + ARP information table) */
MV_STATUS mvFpRuleDbPrint(void)
{
MV_U32 count, i;
MV_FP_RULE *currRule;
mvOsPrintf("\nPrinting NFP Rule Database\n");
count = 0;
for(i=0; i<ruleDbSize; i++)
{
currRule = ruleDb[i].ruleChain;
if(currRule != NULL)
mvOsPrintf("\n%03u: FP DB hash=0x%x", count, i);
while (currRule != NULL) {
mvOsPrintf("\n%03u: Rule=%p: ", count, currRule);
mvFpRulePrint(currRule);
currRule = currRule->next;
count++;
}
}
return MV_OK;
}
/* Copy all the information from src_rule to new_rule */
/* Warning - doesn't perform any checks on memory, just copies */
/* count is set to zero in new_rule */
/* Note: the next pointer is not updated . */
void mvFpRuleCopy(MV_FP_RULE *dstRule, const MV_FP_RULE *srcRule)
{
dstRule->mgmtInfo.actionType = srcRule->mgmtInfo.actionType;
dstRule->mgmtInfo.new_count = srcRule->mgmtInfo.new_count;
dstRule->mgmtInfo.old_count = srcRule->mgmtInfo.old_count;
dstRule->mgmtInfo.ruleType = srcRule->mgmtInfo.ruleType;
dstRule->mgmtInfo.snat_aware_refcnt = srcRule->mgmtInfo.snat_aware_refcnt;
dstRule->mgmtInfo.dnat_aware_refcnt = srcRule->mgmtInfo.dnat_aware_refcnt;
dstRule->routingInfo.aware_flags = srcRule->routingInfo.aware_flags;
dstRule->routingInfo.srcIp = srcRule->routingInfo.srcIp;
dstRule->routingInfo.dstIp = srcRule->routingInfo.dstIp;
dstRule->routingInfo.defGtwIp = srcRule->routingInfo.defGtwIp;
memcpy(dstRule->routingInfo.srcMac, srcRule->routingInfo.srcMac, MV_MAC_ADDR_SIZE);
memcpy(dstRule->routingInfo.dstMac, srcRule->routingInfo.dstMac, MV_MAC_ADDR_SIZE);
dstRule->routingInfo.inIfIndex = srcRule->routingInfo.inIfIndex;
dstRule->routingInfo.outIfIndex = srcRule->routingInfo.outIfIndex;
}
/* Get the count value for a rule that matches the given SIP, DIP */
MV_U32 mvFpRouteCountGet(MV_U32 srcIp, MV_U32 dstIp)
{
MV_U32 hash, hash_tr;
MV_FP_RULE *pRule;
hash = mv_jhash_3words(dstIp, srcIp, (MV_U32)0, fp_ip_jhash_iv);
hash_tr = hash & (ruleDbSize - 1);
pRule = ruleDb[hash_tr].ruleChain;
while(pRule)
{
/* look for a matching rule */
if( (pRule->routingInfo.dstIp == dstIp) &&
(pRule->routingInfo.srcIp == srcIp) )
{
return pRule->mgmtInfo.new_count;
}
pRule = pRule->next;
}
return 0;
}
MV_STATUS mvFpRuleAwareSet(MV_FP_RULE *pSetRule)
{
MV_U32 hash, hash_tr;
MV_FP_RULE *pRule;
hash = mv_jhash_3words(pSetRule->routingInfo.dstIp, pSetRule->routingInfo.srcIp,
(MV_U32)0, fp_ip_jhash_iv);
hash_tr = hash & (ruleDbSize - 1);
pRule = ruleDb[hash_tr].ruleChain;
while(pRule)
{
if( (pRule->routingInfo.srcIp == pSetRule->routingInfo.srcIp) &&
(pRule->routingInfo.dstIp == pSetRule->routingInfo.dstIp) ) {
pRule->routingInfo.aware_flags = pSetRule->routingInfo.aware_flags;
#ifdef MV_FP_DEBUG
mvOsPrintf("Update FP aware: DIP=%u.%u.%u.%u, SIP=%u.%u.%u.%u, hash0x%x, flags=0x%x\n",
MV_IP_QUAD(pSetRule->routingInfo.dstIp),
MV_IP_QUAD(pSetRule->routingInfo.srcIp),
hash_tr, pSetRule->routingInfo.aware_flags);
#endif
return MV_OK;
}
pRule = pRule->next;
}
#ifdef MV_FP_DEBUG
mvOsPrintf("FP aware NOT found: DIP=%u.%u.%u.%u, SIP=%u.%u.%u.%u, hash=0x%x, flags=0x%x\n",
MV_IP_QUAD(pSetRule->routingInfo.dstIp),
MV_IP_QUAD(pSetRule->routingInfo.srcIp),
hash_tr, pSetRule->routingInfo.aware_flags);
#endif
return MV_NOT_FOUND;
}
/* Set a Routing Rule: create a new rule or update an existing rule */
/* in the Routing + ARP information table */
MV_STATUS mvFpRuleSet(MV_FP_RULE *pSetRule)
{
MV_U32 hash, hash_tr;
MV_FP_RULE *pRule, *pNewRule;
hash = mv_jhash_3words(pSetRule->routingInfo.dstIp, pSetRule->routingInfo.srcIp,
(MV_U32)0, fp_ip_jhash_iv);
hash_tr = hash & (ruleDbSize - 1);
pRule = ruleDb[hash_tr].ruleChain;
while(pRule)
{
if( (pRule->routingInfo.srcIp == pSetRule->routingInfo.srcIp &&
pRule->routingInfo.dstIp == pSetRule->routingInfo.dstIp) ) {
mvFpRuleCopy(pRule, pSetRule);
nfpRuleUpdateCount++;
#ifdef MV_FP_DEBUG
mvOsPrintf("UpdNFP_%03u: DIP=%u.%u.%u.%u, SIP=%u.%u.%u.%u, hash=0x%04x\n",
nfpRuleUpdateCount, MV_IP_QUAD(pSetRule->routingInfo.dstIp),
MV_IP_QUAD(pSetRule->routingInfo.srcIp), hash_tr);
#endif
return MV_OK;
}
pRule = pRule->next;
}
/* Allocate new entry */
pNewRule = mvOsMalloc(sizeof(MV_FP_RULE));
if(pNewRule == NULL)
{
mvOsPrintf("mvFpRuleSet: Can't allocate new rule\n");
return MV_FAIL;
}
mvFpRuleCopy(pNewRule, pSetRule);
pNewRule->next = NULL;
if(ruleDb[hash_tr].ruleChain == NULL)
ruleDb[hash_tr].ruleChain = pNewRule;
else {
pRule = ruleDb[hash_tr].ruleChain;
while (pRule->next != NULL)
pRule = pRule->next;
pRule->next = pNewRule;
}
nfpRuleSetCount++;
#ifdef MV_FP_DEBUG
mvOsPrintf("SetNFP_%03u: DIP=%u.%u.%u.%u, SIP=%u.%u.%u.%u, hash=0x%04x, aware=0x%02x\n",
nfpRuleSetCount, MV_IP_QUAD(pSetRule->routingInfo.dstIp),
MV_IP_QUAD(pSetRule->routingInfo.srcIp),
hash_tr, pSetRule->routingInfo.aware_flags);
#endif
return MV_OK;
}
/* Delete a specified rule from the Routing + ARP information table */
MV_STATUS mvFpRuleDelete(MV_FP_RULE *rule)
{
MV_U32 hash, hash_tr;
MV_FP_RULE *currRule, *prevRule;
nfpRuleDeleteCount++;
hash = mv_jhash_3words(rule->routingInfo.dstIp, rule->routingInfo.srcIp,
(MV_U32)0, fp_ip_jhash_iv);
hash_tr = hash & (ruleDbSize - 1);
prevRule = NULL;
for (currRule = ruleDb[hash_tr].ruleChain;
currRule != NULL;
prevRule = currRule, currRule = currRule->next)
{
if( (currRule->routingInfo.srcIp == rule->routingInfo.srcIp) &&
(currRule->routingInfo.dstIp == rule->routingInfo.dstIp) )
{
if (prevRule == NULL)
ruleDb[hash_tr].ruleChain = currRule->next;
else
prevRule->next = currRule->next;
#ifdef MV_FP_DEBUG
mvOsPrintf("DelNFP_%03u: DIP=%u.%u.%u.%u, SIP=%u.%u.%u.%u, hash=0x%04x\n",
nfpRuleDeleteCount, MV_IP_QUAD(currRule->routingInfo.dstIp),
MV_IP_QUAD(currRule->routingInfo.srcIp), hash_tr);
#endif
mvOsFree(currRule);
return MV_OK;
}
}
return MV_NOT_FOUND;
}
/* Find and return the first matching rule in the Routing + ARP information table */
static INLINE MV_FP_RULE* mvFpRuleFind(MV_U32 dstIp, MV_U32 srcIp)
{
MV_U32 hash, hash_tr;
MV_FP_RULE* pRule;
int count = 0;
hash = mv_jhash_3words(dstIp, srcIp, (MV_U32)0, fp_ip_jhash_iv);
hash_tr = hash & (ruleDbSize - 1);
pRule = ruleDb[hash_tr].ruleChain;
while(pRule)
{
/* look for a matching rule */
if( (pRule->routingInfo.dstIp == dstIp) &&
(pRule->routingInfo.srcIp == srcIp) )
{
MV_NFP_STAT( ip_hash_depth[count]++);
pRule->mgmtInfo.new_count++;
return pRule;
}
pRule = pRule->next;
count++;
}
return NULL;
}
#ifdef CONFIG_MV_ETH_NFP_FDB_SUPPORT
static INLINE MV_U32 mvFpFdbMember(MV_U32 ifIndex)
{
return (ifIndex < ETH_FP_IFINDEX_MAX) ? fdbMember[ifIndex] : 0;
}
static MV_FP_FDB_RULE* mvFpFdbLookup(MV_U32 ifIndex, MV_U8* pDA)
{
MV_U32 hash, hash_tr;
MV_FP_FDB_RULE* pRule;
MV_U32 bridgeId;
int count = 0;
if (ifIndex >= ETH_FP_IFINDEX_MAX)
return NULL;
if (!(bridgeId = fdbMember[ifIndex]))
return NULL;
hash = mv_jhash_3words(bridgeId, 0, *(MV_U32*)(pDA+2), fp_ip_jhash_iv);
hash_tr = hash & (fdbRuleDbSize - 1);
pRule = fdbRuleDb[hash_tr].ruleChain;
while (pRule) {
/*
MV_NFP_DBG("%s: looking %d %02x:%02x:%02x:%02x:%02x:%02x\n",
__FUNCTION__, bridgeId,
pRule->fdbInfo.mac[0],
pRule->fdbInfo.mac[1],
pRule->fdbInfo.mac[2],
pRule->fdbInfo.mac[3],
pRule->fdbInfo.mac[4],
pRule->fdbInfo.mac[5]);
*/
if ((bridgeId == pRule->fdbInfo.bridge) &&
(*((MV_U16*)(pDA+0)) == *(MV_U16*)(&pRule->fdbInfo.mac[0])) &&
(*((MV_U16*)(pDA+2)) == *(MV_U16*)(&pRule->fdbInfo.mac[2])) &&
(*((MV_U16*)(pDA+4)) == *(MV_U16*)(&pRule->fdbInfo.mac[4])))
{
MV_NFP_STAT(ip_hash_depth[count]++);
pRule->mgmtInfo.new_count++;
break;
}
pRule = pRule->next;
count++;
}
/*
if (pRule)
MV_NFP_DBG("%s: lookup bridge=%d %02x:%02x:%02x:%02x:%02x:%02x => if=%d flags=%x\n",
__FUNCTION__, bridgeId, pDA[0],pDA[1],pDA[2],pDA[3],pDA[4],pDA[5],
pRule->fdbInfo.ifIndex, pRule->fdbInfo.flags);
else
MV_NFP_DBG("%s: lookup bridge=%d %02x:%02x:%02x:%02x:%02x:%02x => unknown\n",
__FUNCTION__, bridgeId, pDA[0],pDA[1],pDA[2],pDA[3],pDA[4],pDA[5]);
*/
return pRule;
}
#endif /* CONFIG_MV_ETH_NFP_FDB_SUPPORT */
int mvFpProcess(MV_U32 ifIndex, MV_U8* pData, MV_IP_HEADER* pIpHdr, MV_FP_STATS* pFpStats)
{
MV_FP_RULE *pFpRoute;
MV_U32 dip, sip;
#ifdef CONFIG_MV_ETH_NFP_NAT_SUPPORT
MV_U8 proto;
MV_U16 srcPort, dstPort;
MV_FP_NAT_RULE *pDnatRule, *pSnatRule;
#endif /* CONFIG_MV_ETH_NFP_NAT_SUPPORT */
#ifdef CONFIG_MV_ETH_NFP_FDB_SUPPORT
MV_FP_FDB_RULE *pFdb;
#endif
MV_U8* pEthHeader = pData + ETH_MV_HEADER_SIZE;
MV_NFP_STAT( pFpStats->process++ );
/* Check MAC address:
* WAN - non-promiscous mode.
* Unicast packets - NFP,
* Multicast, Broadcast - Linux
* LAN - Promiscous mode.
* LAN Unicast MAC - NFP,
* Multicast, Broadcast, Unknown Unicast - Linux
*/
if(pEthHeader[0] & 0x1)
{
/* Go to Linux IP stack */
MV_NFP_STAT( pFpStats->multicast++);
return -1;
}
#ifdef CONFIG_MV_ETH_NFP_FDB_SUPPORT
if (mvFpFdbMember(ifIndex))
{
pFdb = mvFpFdbLookup(ifIndex, pEthHeader);
if (!pFdb) {
MV_NFP_STAT( pFpStats->fdb_rx_unknown++ );
return -1;
}
if (pFdb->fdbInfo.flags & MV_FP_FDB_IS_LOCAL) {
/* DA is local, continue with routing */
MV_NFP_STAT( pFpStats->fdb_rx_local++ );
}
else {
/* perform bridging */
MV_NFP_STAT( pFpStats->fdb_bridged++ );
return pFdb->fdbInfo.ifIndex;
}
}
#endif /* CONFIG_MV_ETH_NFP_FDB_SUPPORT */
/* Check TTL value */
if(pIpHdr->ttl <= 1)
{
/* TTL expired */
MV_NFP_STAT( pFpStats->ip_ttl_expired++ );
return -1;
}
dip = pIpHdr->dstIP;
sip = pIpHdr->srcIP;
#ifdef CONFIG_MV_ETH_NFP_NAT_SUPPORT
proto = mvFpNatPortsGet(pIpHdr, &dstPort, &srcPort);
if(proto == MV_IP_PROTO_NULL)
{
/* NAT not supported for this protocol */
MV_NFP_STAT( pFpStats->nat_bad_proto++ );
pDnatRule = NULL;
}
else
{
/* Lookup NAT database accordingly with 5 tuple key */
pDnatRule = mvFpNatRuleFind(dip, sip, proto, dstPort, srcPort);
}
if(pDnatRule != NULL)
{
if(pDnatRule->flags & MV_FP_DIP_CMD_MAP)
{
dip = pDnatRule->newIp;
}
if(pDnatRule->flags & MV_FP_DPORT_CMD_MAP)
{
dstPort = pDnatRule->newPort;
}
}
else
{
MV_NFP_STAT( pFpStats->dnat_not_found++ );
}
#endif /* CONFIG_MV_ETH_NFP_NAT_SUPPORT */
pFpRoute = mvFpRuleFind(dip, sip);
if(pFpRoute == NULL)
{
/* IP Routing rule is not found: go to Linux IP stack */
MV_NFP_STAT( pFpStats->ip_not_found++ );
return -1;
}
MV_NFP_STAT(pFpStats->ip_found++);
#ifdef CONFIG_MV_ETH_NFP_NAT_SUPPORT
if( (pDnatRule != NULL) && (pDnatRule->flags & MV_FP_DNAT_CMD_MAP) )
{
MV_NFP_STAT( pFpStats->dnat_found++ );
pSnatRule = mvFpNatRuleFind(dip, sip, proto, dstPort, srcPort);
}
else
{
pSnatRule = pDnatRule;
}
if( (pSnatRule != NULL) && (pSnatRule->flags & MV_FP_SNAT_CMD_MAP) )
{
MV_NFP_STAT( pFpStats->snat_found++ );
}
else
{
MV_NFP_STAT( pFpStats->snat_not_found++ );
}
/* Check IP awareness */
if( (pFpRoute->routingInfo.aware_flags & MV_FP_DIP_CMD_MAP) &&
(pDnatRule == NULL) )
{
MV_NFP_STAT( pFpStats->dnat_aware++ );
return -1;
}
if( (pFpRoute->routingInfo.aware_flags & MV_FP_SIP_CMD_MAP) &&
(pSnatRule == NULL) )
{
MV_NFP_STAT( pFpStats->snat_aware++ );
return -1;
}
/* Update packet accordingly with NAT rules */
if( (pDnatRule != NULL) || (pSnatRule != NULL) )
{
mvFpNatPktUpdate(pIpHdr, pDnatRule, pSnatRule);
}
#endif /* CONFIG_MV_ETH_NFP_NAT_SUPPORT */
if( (unsigned int)pEthHeader & 0x2)
{
*((MV_U16*)(pEthHeader)) = *(MV_U16*)(&pFpRoute->routingInfo.dstMac[0]);
*((MV_U32*)(pEthHeader + 2)) = *(MV_U32*)(&pFpRoute->routingInfo.dstMac[2]);
*((MV_U32*)(pEthHeader + 2 + 4)) = *(MV_U32*)(&pFpRoute->routingInfo.srcMac[0]);
*((MV_U16*)(pEthHeader + 2 + 4 + 4)) = *(MV_U16*)(&pFpRoute->routingInfo.srcMac[4]);
}
else
{
memcpy(pEthHeader, pFpRoute->routingInfo.dstMac, MV_MAC_ADDR_SIZE*2);
}
pIpHdr->ttl--;
#ifdef CONFIG_MV_ETH_NFP_FDB_SUPPORT
/* find actual port inside bridge, otherwise br->xmit is called */
if (mvFpFdbMember(pFpRoute->routingInfo.outIfIndex)) {
pFdb = mvFpFdbLookup(pFpRoute->routingInfo.outIfIndex, pEthHeader);
if (pFdb) {
MV_NFP_STAT( pFpStats->fdb_tx_found++ );
return pFdb->fdbInfo.ifIndex;
}
}
#endif /* CONFIG_MV_ETH_NFP_FDB_SUPPORT */
return pFpRoute->routingInfo.outIfIndex;
}
void mvFpStatsPrint(MV_FP_STATS *pFpStats)
{
#ifdef MV_FP_STATISTICS
int i = 0;
mvOsPrintf( "\n====================================================\n" );
mvOsPrintf( " NFP statistics");
mvOsPrintf( "\n-------------------------------\n" );
mvOsPrintf( "nfp_parsing....................%10u\n", pFpStats->parsing );
mvOsPrintf( "nfp_process....................%10u\n", pFpStats->process );
mvOsPrintf( "nfp_multicast..................%10u\n", pFpStats->multicast );
mvOsPrintf( "nfp_non_ip.....................%10u\n", pFpStats->non_ip );
mvOsPrintf( "nfp_vlan_tagged................%10u\n", pFpStats->vlan_tagged );
mvOsPrintf( "nfp_ip_not_found...............%10u\n", pFpStats->ip_not_found );
mvOsPrintf( "nfp_ttl_expired................%10u\n", pFpStats->ip_ttl_expired );
mvOsPrintf( "nfp_ip_found...................%10u\n", pFpStats->ip_found );
#ifdef CONFIG_MV_ETH_NFP_NAT_SUPPORT
mvOsPrintf( "nfp_nat_bad_proto..............%10u\n", pFpStats->nat_bad_proto);
mvOsPrintf( "nfp_nat_dnat_found.............%10u\n", pFpStats->dnat_found);
mvOsPrintf( "nfp_nat_snat_found.............%10u\n", pFpStats->snat_found);
mvOsPrintf( "nfp_nat_dnat_not_found.........%10u\n", pFpStats->dnat_not_found);
mvOsPrintf( "nfp_nat_snat_not_found.........%10u\n", pFpStats->snat_not_found);
mvOsPrintf( "nfp_nat_dnat_aware.............%10u\n", pFpStats->dnat_aware);
mvOsPrintf( "nfp_nat_snat_aware.............%10u\n", pFpStats->snat_aware);
#endif /* CONFIG_MV_ETH_NFP_NAT_SUPPORT */
#ifdef CONFIG_MV_ETH_NFP_FDB_SUPPORT
mvOsPrintf( "nfp_fdb_rx_local...............%10u\n", pFpStats->fdb_rx_local);
mvOsPrintf( "nfp_fdb_rx_unknown.............%10u\n", pFpStats->fdb_rx_unknown);
mvOsPrintf( "nfp_fdb_tx_found...............%10u\n", pFpStats->fdb_tx_found);
mvOsPrintf( "nfp_fdb_bridged................%10u\n", pFpStats->fdb_bridged);
#endif /* CONFIG_MV_ETH_NFP_FDB_SUPPORT */
mvOsPrintf("\nHASH Depth IP stats\n");
for(i=0; i<=ETH_FP_MAX_HASH_DEPTH; i++)
{
if(ip_hash_depth[i] != 0)
{
mvOsPrintf("%d depth - %u times\n", i, ip_hash_depth[i]);
ip_hash_depth[i] = 0;
}
}
#ifdef CONFIG_MV_ETH_NFP_NAT_SUPPORT
mvOsPrintf("\nHASH Depth NAT stats\n");
for(i=0; i<=ETH_FP_MAX_HASH_DEPTH; i++)
{
if(nat_hash_depth[i] != 0)
{
mvOsPrintf("%d depth - %u times\n", i, nat_hash_depth[i]);
nat_hash_depth[i] = 0;
}
}
#endif /* CONFIG_MV_ETH_NFP_NAT_SUPPORT */
memset(pFpStats, 0, sizeof(MV_FP_STATS));
#endif /* MV_FP_STATISTICS */
mvOsPrintf("\n");
mvOsPrintf("nfpRuleSetCount=%u, nfpRuleUpdateCount=%u, nfpRuleDeleteCount=%u\n",
nfpRuleSetCount, nfpRuleUpdateCount, nfpRuleDeleteCount);
#ifdef CONFIG_MV_ETH_NFP_NAT_SUPPORT
mvOsPrintf("\n");
mvOsPrintf("natRuleSetCount=%u, natRuleUpdateCount=%u, natRuleDeleteCount=%u\n",
natRuleSetCount, natRuleUpdateCount, natRuleDeleteCount);
#endif /* CONFIG_MV_ETH_NFP_NAT_SUPPORT */
}