index 01ce4a7e2d01c8265bb346d814f7f2a7f0c8aa81..68168e0c0dfce577d449a18c4290c758c7cd97df 100755 (executable)
#include <ti/csl/csl_xmcAux.h>
#include <ti/drv/qmss/qmss_qm.h>
+
+/* pointer to NWAL local context memory block used by NWAL for local
+ context intance*/
+void* pNwalLocCtxMem = NULL;
+extern void *pRmClientHandle;
+
+nwal_Handle gPNwalInstHandle = NULL;
+
+
extern NETAPI_SHM_T* pnetapiShm;
/* Global variablesto hold virtual address of various subsystems */
extern hplib_virtualAddrInfo_T netapi_VM_VirtAddr[];
extern Pktlib_HeapIfTable netapi_pktlib_ifTable;
extern NETAPI_PROC_GLOBAL_T netapi_proc_global;
+extern NETAPI_HANDLE_T * netapi_proc_master;
/* TODO verify: */
uint8_t *cppiMemPaSaLinkBuf = 0;
uint8_t *cppiMemSaPaLinkBuf = 0;
+
+
+#if 0
/*****************************************************************************
* Local Resource allocated at each Core
*****************************************************************************/
uint8_t *cppiMemRxCtlLinkBuf = NULL;
uint8_t *cppiMemTxCtlLinkBuf = NULL;
+#endif
+
+
+
+NETCP_CFG_GLOB_DEVICE_PARAMS_T *p_netapi_device_cfg_local;
+Qmss_MemRegInfo memInfo;
+
/********************************************************************
* FUNCTION PURPOSE: Internal NETAPI function to setup the QM memory region
uint32_t numDesc,
uint32_t descSize,
uint32_t* pDescMemBase,
- Qmss_MemRegion memRegion)
+ int memRegion,
+ int start_index)
{
- Qmss_MemRegInfo memInfo;
- Int32 result;
- Int n;
- static int netapi_qm_region_index=0;
+ //Qmss_MemRegInfo memInfo;
+ int result;
memset(&memInfo,0,sizeof(Qmss_MemRegInfo));
memInfo.descBase = pDescMemBase;
memInfo.descSize = descSize;
memInfo.descNum = numDesc;
memInfo.manageDescFlag = Qmss_ManageDesc_MANAGE_DESCRIPTOR;
- memInfo.memRegion = memRegion;
- if(memRegion == TUNE_NETAPI_QM_GLOBAL_REGION)
- {
- memInfo.startIndex = TUNE_NETAPI_QM_START_INDEX; //was 0
- netapi_qm_region_index += numDesc;
- }else if(memRegion ==NETAPI_LOCAL_REGION)
+ if (pRmClientHandle)
{
- /* 2nd region for descriptors (perhaps private?) */
- memInfo.startIndex = netapi_qm_region_index;
+ memInfo.memRegion = -1;
+ memInfo.startIndex = QMSS_START_INDEX_NOT_SPECIFIED;
}
else
{
- return -1 ;
+ memInfo.memRegion = memRegion;
+ memInfo.startIndex = start_index;
}
memset (pDescMemBase, 0, (descSize * numDesc));
result = Qmss_insertMemoryRegion (&memInfo);
+
if (result < QMSS_SOK)
{
- netapi_Log ("netapip_qmSetupMemRegion: Qmss_insertMemoryRegion returned error code %d\n", result);
return (-1);
}
-
+ netapi_proc_master->memRegion = memInfo.memRegion;
return 1;
}
* DESCRIPTION: Internal NETAPI function to start QM
* once per thread/core
********************************************************************/
-int netapip_startQm(void)
+int netapip_startQm(void* rmClientServiceHandle)
{
int32_t result;
- result = Qmss_start();
+ Qmss_StartCfg startCfg;
+
+ startCfg.rmServiceHandle = rmClientServiceHandle;
+ startCfg.pQmssGblCfgParams = NULL;
+ //result = Qmss_start();
+ result = Qmss_startCfg(&startCfg);
if (result != QMSS_SOK)
{
- netapi_Log ("netapip_startQm: Qmss_start failed with error code %d\n", result);
return (-1);
}
return 1;
/*** NWAL Memory Buffer Configuration ***/
#define NETAPI_NWAL_CONFIG_BUFSIZE_NWAL_HANDLE 3400
-uint8_t nwalInstMem[NETAPI_NWAL_CONFIG_BUFSIZE_NWAL_HANDLE]ALIGN(CACHE_LINESZ);
+//uint8_t nwalInstMem[NETAPI_NWAL_CONFIG_BUFSIZE_NWAL_HANDLE]ALIGN(CACHE_LINESZ);
+
#define NETAPI_NWAL_CONFIG_BUFSIZE_NWAL_PER_MAC 256
#define NETAPI_NWAL_CONFIG_BUFSIZE_NWAL_IPSEC_HANDLE_PER_CHAN 256
#define NETAPI_NWAL_CONFIG_BUFSIZE_NWAL_PER_IP 128
#define NETAPI_NWAL_CONFIG_BUFSIZE_NWAL_PER_PORT 128
#define NETAPI_NWAL_CONFIG_BUFSIZE_NWAL_PER_L2L3_HDR 128
-#define NETAPI_NWAL_CONFIG_BUFSIZE_NWAL_PER_LOC_CONTEXT 384
#define NWAL_CHAN_HANDLE_SIZE ((NETAPI_NWAL_CONFIG_BUFSIZE_NWAL_PER_MAC * TUNE_NETAPI_MAX_NUM_MAC) + \
(NETAPI_NWAL_CONFIG_BUFSIZE_NWAL_IPSEC_HANDLE_PER_CHAN * TUNE_NETAPI_MAX_NUM_IPSEC_CHANNELS*2) + \
(NETAPI_NWAL_CONFIG_BUFSIZE_NWAL_PER_IP * TUNE_NETAPI_MAX_NUM_IP) + \
(NETAPI_NWAL_CONFIG_BUFSIZE_NWAL_PER_PORT * TUNE_NETAPI_MAX_NUM_PORTS)+ \
- (NETAPI_NWAL_CONFIG_BUFSIZE_NWAL_PER_LOC_CONTEXT * TUNE_NETAPI_NUM_CORES) + \
(NETAPI_NWAL_CONFIG_BUFSIZE_NWAL_PER_L2L3_HDR * TUNE_NETAPI_MAX_NUM_L2_L3_HDRS))
-uint8_t nwalHandleMem[NWAL_CHAN_HANDLE_SIZE]ALIGN(CACHE_LINESZ);
+typedef struct NETAPI_NWAL_SHM_Tag
+{
+ uint8_t nwalInstMem[NETAPI_NWAL_CONFIG_BUFSIZE_NWAL_HANDLE]ALIGN(CACHE_LINESZ);
+ uint8_t nwalHandleMem[NWAL_CHAN_HANDLE_SIZE]ALIGN(CACHE_LINESZ);
+} NETAPI_NWAL_SHM_T;
typedef struct NETAPI_PA_SHM_Tag
#define NETAPI_NWAL_CONFIG_BUFSIZE_PA_BUF1 128 * TUNE_NETAPI_MAX_NUM_MAC
uint8_t paBuf1[NETAPI_NWAL_CONFIG_BUFSIZE_PA_BUF1]ALIGN(CACHE_LINESZ);
-#define NETAPI_NWAL_CONFIG_BUFSIZE_PA_BUF2 13824
+#define NETAPI_NWAL_CONFIG_BUFSIZE_PA_BUF2 14592
uint8_t paBuf2[NETAPI_NWAL_CONFIG_BUFSIZE_PA_BUF2]ALIGN(CACHE_LINESZ);
@@ -229,6 +251,13 @@ uint8_t salldHandle[NETAPI_NWAL_CONFIG_BUFSIZE_SA_LLD_HANDLE]ALIGN(CACHE_LINESZ)
uint8_t salldChanHandle[NETAPI_NWAL_CONFIG_BUFSIZE_SA_LLD_HANDLE_PER_CHAN * TUNE_NETAPI_MAX_NUM_IPSEC_CHANNELS*2]ALIGN(CACHE_LINESZ);
} NETAPI_SA_SHM_T;
+
+
+
+
+
+
+
/********************************************************************
* FUNCTION PURPOSE: NETAPI internal function to gracefully cleanup when startup
* issue occurs.
int region2use,
Pktlib_HeapIfTable * p_table,
NETAPI_NWAL_GLOBAL_CONTEXT_T * p_nwal_context,
- NETAPI_CFG_T*p_cfg,
- nwalGlobalDeviceConfigParams_t *p_nwal_device_cfg)
+ NETAPI_CFG_T*p_cfg)
{
nwalSizeInfo_t nwalSizeInfo;
nwal_RetValue nwalRetVal;
nwalGlobCfg_t nwalGlobCfg;
+ nwalBaseAddrCfg_t nwalBaseAddrCfg;
uint8_t count;
int sizes[nwal_N_BUFS];
int aligns[nwal_N_BUFS];
void* bases[nwal_N_BUFS];
Pktlib_HeapCfg heapCfg;
- int32_t errCode;
+ int32_t errCode = 0;
void* pBase = NULL;
NETAPI_PA_SHM_T* paEntry = NULL;
NETAPI_SA_SHM_T* saEntry = NULL;
-
+ NETAPI_NWAL_SHM_T* nwalEntry = NULL;
+ uint32_t localCtxSize = 0;
memset(p_nwal_context,0,sizeof( NETAPI_NWAL_GLOBAL_CONTEXT_T) );
memset(&nwalGlobCfg,0,sizeof(nwalGlobCfg_t ) );
-
- if(p_nwal_device_cfg)
- nwalGlobCfg.pDeviceCfg = p_nwal_device_cfg;
-
+ memset (&nwalBaseAddrCfg, 0, sizeof(nwalBaseAddrCfg_t));
pBase = hplib_shmOpen();
if (pBase)
{
if(hplib_shmAddEntry(pBase, sizeof(NETAPI_PA_SHM_T), PA_ENTRY) == hplib_OK)
{
paEntry = (NETAPI_PA_SHM_T*)hplib_shmGetEntry(pBase,PA_ENTRY);
- nwalGlobCfg.instPoolBaseAddr = (void *)paEntry;
+ nwalBaseAddrCfg.pInstPoolPaBaseAddr= (void *)paEntry;
}
else
{
- netapi_Log("netapip_initNwal: Unable to Add shared memory segment for PASS\n");
return -1;
}
if(hplib_shmAddEntry(pBase, sizeof(NETAPI_SA_SHM_T), SA_ENTRY) == hplib_OK)
{
saEntry = (NETAPI_SA_SHM_T*)hplib_shmGetEntry(pBase,SA_ENTRY);
- nwalGlobCfg.instPoolSaBaseAddr = (void*) saEntry;
+ nwalBaseAddrCfg.pInstPoolSaBaseAddr= (void*) saEntry;
+ }
+ else
+ {
+ return -1;
+ }
+ if(hplib_shmAddEntry(pBase, sizeof(NETAPI_NWAL_SHM_T), NWAL_ENTRY) == hplib_OK)
+ {
+ nwalEntry = (NETAPI_NWAL_SHM_T*)hplib_shmGetEntry(pBase,NWAL_ENTRY);
}
else
{
- netapi_Log("netapip_initNwal: Unable to Add shared memory segment for SASS\n");
return -1;
}
Pktlib_createHeap(&heapCfg, &errCode);
if(nwalGlobCfg.pa2SaBufPool.bufPool[0].heapHandle == NULL)
{
- netapi_Log ("netapip_initNwal: Pktlib_createHeap:Heap Creation Failed for PA to SA Buffer Pool, Error Code: %d\n",
- errCode);
netapipErrTeardown();
return -1;
}
heapCfg.name = "nwal SA2PA";
heapCfg.numPkts = TUNE_NETAPI_CONFIG_MAX_SA_TO_PA_DESC;
- nwalGlobCfg.sa2PaBufPool.bufPool[0].heapHandle = p_nwal_context->sa2pa_heap=
- Pktlib_createHeap(&heapCfg, &errCode);
+ nwalGlobCfg.sa2PaBufPool.bufPool[0].heapHandle =
+ p_nwal_context->sa2pa_heap = Pktlib_createHeap(&heapCfg, &errCode);
if(nwalGlobCfg.sa2PaBufPool.bufPool[0].heapHandle == NULL)
{
- netapi_Log ("netapip_initNwal: Pktlib_createHeap:Heap Creation Failed for SA to PA Buffer Pool, Error Code: %d\n",
- errCode);
netapipErrTeardown();
return -1;
}
nwalGlobCfg.paFwActive = nwal_TRUE;
nwalGlobCfg.saFwActive = nwal_FALSE;
- /* Pick Default Physical Address */
- nwalGlobCfg.paVirtBaseAddr = (uint32_t) netapi_VM_VirtAddr->passCfgVaddr;
- nwalGlobCfg.saVirtBaseAddr = (uint32_t) netapi_VM_VirtAddr->passCfgVaddr +
- ((uint32_t)CSL_PA_SS_CFG_CP_ACE_CFG_REGS - (uint32_t)CSL_PA_SS_CFG_REGS) ;
+
+ /* Update nwal cfg with virtual PA and SA addresses */
+
+
+ nwalBaseAddrCfg.paVirtBaseAddr = (uint32_t) netapi_VM_VirtAddr->passCfgVaddr;
+
+
+ nwalBaseAddrCfg.pSaVirtBaseAddr = (uint32_t) netapi_VM_VirtAddr->passCfgVaddr +
+ CSL_NETCP_CFG_SA_CFG_REGS -
+ CSL_NETCP_CFG_REGS;
+ ;
nwalGlobCfg.rxDefPktQ = QMSS_PARAM_NOT_SPECIFIED;
+
/* Get the Buffer Requirement from NWAL */
memset(&nwalSizeInfo,0,sizeof(nwalSizeInfo));
nwalSizeInfo.nMaxMacAddress = TUNE_NETAPI_MAX_NUM_MAC;
aligns);
if(nwalRetVal != nwal_OK)
{
- netapi_Log ("netapip_initNwal: nwal_getBufferReq Failed %d\n", nwalRetVal);
return nwal_FALSE;
}
/* Check for memory size requirement and update the base */
count = 0;
- bases[nwal_BUF_INDEX_INST] = (uint32_t *)Osal_nwalLocToGlobAddr((uint32_t)nwalInstMem);
+ //bases[nwal_BUF_INDEX_INST] = (uint32_t *)Osal_nwalLocToGlobAddr((uint32_t)nwalInstMem);
+ bases[nwal_BUF_INDEX_INST] =
+ (uint32_t *)Osal_nwalLocToGlobAddr((uint32_t)nwalEntry->nwalInstMem);
+
if(NETAPI_NWAL_CONFIG_BUFSIZE_NWAL_HANDLE < sizes[nwal_BUF_INDEX_INST])
{
/* Resize Memory */
- while(1);
+ return nwal_FALSE;
+ //while(1);
}
count++;
- bases[nwal_BUF_INDEX_INT_HANDLES] = (uint32_t *)Osal_nwalLocToGlobAddr((uint32_t)nwalHandleMem);
+ //bases[nwal_BUF_INDEX_INT_HANDLES] = (uint32_t *)Osal_nwalLocToGlobAddr((uint32_t)nwalHandleMem);
+ bases[nwal_BUF_INDEX_INT_HANDLES] =
+ (uint32_t *) Osal_nwalLocToGlobAddr((uint32_t)nwalEntry->nwalHandleMem);
+
+
if(NWAL_CHAN_HANDLE_SIZE < sizes[nwal_BUF_INDEX_INT_HANDLES])
{
/* Resize Memory */
- while(1);
+ return nwal_FALSE;
+ //while(1);
+
}
count++;
bases[nwal_BUF_INDEX_PA_LLD_BUF0] =
if((NETAPI_NWAL_CONFIG_BUFSIZE_PA_BUF0) < sizes[nwal_BUF_INDEX_PA_LLD_BUF0])
{
/* Resize Memory */
- while(1);
+ return nwal_FALSE;
+ //while(1);
+
}
count++;
if((NETAPI_NWAL_CONFIG_BUFSIZE_PA_BUF1) < sizes[nwal_BUF_INDEX_PA_LLD_BUF1])
{
/* Resize Memory */
- while(1);
+ return nwal_FALSE;
+ //while(1);
+
}
count++;
if((NETAPI_NWAL_CONFIG_BUFSIZE_PA_BUF2) < sizes[nwal_BUF_INDEX_PA_LLD_BUF2])
{
/* Resize Memory */
- while(1);
+ return nwal_FALSE;
+ //while(1);
+
}
count++;
#ifdef NETAPI_ENABLE_SECURITY
if((NETAPI_NWAL_CONFIG_BUFSIZE_SA_LLD_HANDLE) < sizes[nwal_BUF_INDEX_SA_LLD_HANDLE])
{
/* Resize Memory */
- while(1);
+ return nwal_FALSE;
+ //while(1);
+
}
count++;
bases[nwal_BUF_INDEX_SA_CONTEXT] = (uint32_t *)Osal_nwalLocToGlobAddr((uint32_t)netapi_VM_SaContextVaddr);
/* also save this here for easy access to sa_start */
- nwalGlobCfg.scPoolBaseAddr = bases[nwal_BUF_INDEX_SA_CONTEXT];
+ nwalBaseAddrCfg.pScPoolBaseAddr= bases[nwal_BUF_INDEX_SA_CONTEXT];
count++;
bases[nwal_BUF_INDEX_SA_LLD_CHAN_HANDLE] =
sizes[nwal_BUF_INDEX_SA_LLD_CHAN_HANDLE])
{
/* Resize Memory */
- while(1);
+ return nwal_FALSE;
+ //while(1);
+
}
count++;
#else
bases[nwal_BUF_INDEX_SA_LLD_CHAN_HANDLE] = 0;
count = count+3;
#endif
- if(count != nwal_N_BUFS)
- {
- while(1);
- }
/* Initialize NWAL module */
+ nwal_getLocContextBufferReq(nwalSizeInfo.nProc, &localCtxSize);
+
+ pNwalLocCtxMem = malloc(localCtxSize);
+ nwal_createProc(bases[nwal_BUF_INDEX_INST],
+ pNwalLocCtxMem,
+ &nwalBaseAddrCfg);
+
+ nwalGlobCfg.pBaseAddrCfg = &nwalBaseAddrCfg;
nwalRetVal = nwal_create(&nwalGlobCfg,
&nwalSizeInfo,
sizes,
bases,
- &p_nwal_context->nwalInstHandle);
+ &gPNwalInstHandle);
if(nwalRetVal != nwal_OK)
{
- netapi_Log ("netapip_initNwal: nwal_create Failed %d\n",nwalRetVal);
- while(1);
+ return nwal_FALSE;
}
- netapi_Log("netapip_initNwal- Global and Local Network initialization Successful \n");
return 1;
}
Pktlib_HeapHandle cmd_tx_heap,
NETAPI_NWAL_LOCAL_CONTEXT_T *p,
NETAPI_CFG_T *p_cfg,
- NETAPI_NWAL_GLOBAL_CONTEXT_T * p_nwal_glob_context )
+ NETAPI_NWAL_GLOBAL_CONTEXT_T * p_nwal_glob_context,
+ int master)
{
nwalLocCfg_t nwalLocCfg;
+ nwalBaseAddrCfg_t nwalBaseAddrCfg;
int count=0;
static int first_time = 0;
nwal_RetValue nwalRetVal;
+ void* pBase = NULL;
+ NETAPI_NWAL_SHM_T* nwalEntry = NULL;
+ void* pNwalLocCtxMem = NULL;
+
+ NETAPI_SA_SHM_T* saEntry = NULL;
+ NETAPI_PA_SHM_T* paEntry = NULL;
+
+ uint32_t baseAddr;
+ void* instPoolSaBaseAddr;
+ void* pScPoolBaseAddr;
+ void* pInstPoolPaBaseAddr;
+ void* paVirtBaseAddr;
+ uint32_t localCtxSize;
memset(&nwalLocCfg,0,sizeof(nwalLocCfg));
+ memset(&nwalBaseAddrCfg, 0, sizeof(nwalBaseAddrCfg_t));
/* Update the Start of Packet Offset for the default flows created
* by NWAL
nwalLocCfg.txCtlPool.bufPool[0].bufSize = TUNE_NETAPI_CONFIG_MAX_CTL_RXTX_BUF_SIZE;
nwalLocCfg.txCtlPool.bufPool[0].heapHandle = cmd_tx_heap;
-/* Initialize Buffer Pool for Packets from NetCP to Host */
+/* Initialize Buffer Pool for L4 Packets from NetCP to Host */
nwalLocCfg.rxPktPool.numBufPools = 1;
nwalLocCfg.rxPktPool.bufPool[0].descSize = TUNE_NETAPI_DESC_SIZE;
nwalLocCfg.rxPktPool.bufPool[0].bufSize = p_cfg->def_heap_buf_size;
nwalLocCfg.txPktPool.bufPool[0].bufSize = p_cfg->def_heap_buf_size;
nwalLocCfg.txPktPool.bufPool[0].heapHandle = pkt_heap;
+
+
+
memcpy(&p->nwalLocCfg,&nwalLocCfg,sizeof(nwalLocCfg_t));
while(1)
{
- nwalRetVal = nwal_start(p_nwal_glob_context->nwalInstHandle,&nwalLocCfg);
+ if(master == NETAPI_PROC_MASTER)
+ {
+ pBase = hplib_shmOpen();
+ nwalEntry = (NETAPI_NWAL_SHM_T*)hplib_shmGetEntry(pBase,NWAL_ENTRY);
+
+ baseAddr = (void*) netapi_VM_VirtAddr->passCfgVaddr +
+ CSL_NETCP_CFG_SA_CFG_REGS -
+ CSL_NETCP_CFG_REGS;
+ saEntry = (NETAPI_SA_SHM_T*)hplib_shmGetEntry(pBase,SA_ENTRY);
+ instPoolSaBaseAddr = (void*) saEntry;
+
+ pScPoolBaseAddr = Osal_nwalLocToGlobAddr((uint32_t)netapi_VM_SaContextVaddr);
+
+
+ paVirtBaseAddr = (void*) netapi_VM_VirtAddr->passCfgVaddr;
+ paEntry = (NETAPI_PA_SHM_T*)hplib_shmGetEntry(pBase,PA_ENTRY);
+ pInstPoolPaBaseAddr = (void *)paEntry;
+
+ nwal_getLocContextBufferReq(TUNE_NETAPI_NUM_CORES, &localCtxSize);
+ pNwalLocCtxMem = malloc(localCtxSize);
+ if (pNwalLocCtxMem == NULL)
+ {
+ return -1;
+ }
+ nwalBaseAddrCfg.pSaVirtBaseAddr = baseAddr;
+ nwalBaseAddrCfg.pInstPoolSaBaseAddr = instPoolSaBaseAddr;
+ nwalBaseAddrCfg.pScPoolBaseAddr = pScPoolBaseAddr;
+ nwalBaseAddrCfg.paVirtBaseAddr = paVirtBaseAddr;
+ nwalBaseAddrCfg.pInstPoolPaBaseAddr = pInstPoolPaBaseAddr;
+ /* this is 1 time per process */
+ nwal_createProc(nwalEntry,
+ pNwalLocCtxMem,
+ &nwalBaseAddrCfg);
+ }
+ /* this is for every thread including 1st thread of the process */
+ netapi_proc_master->spinLock.lock(&pnetapiShm->netapi_util_lock);
+ nwalRetVal = nwal_start(gPNwalInstHandle,&nwalLocCfg);
+ netapi_proc_master->spinLock.unlock(&pnetapiShm->netapi_util_lock);
if(nwalRetVal == nwal_ERR_INVALID_STATE)
{
continue;
if(nwalRetVal != nwal_OK)
{
- netapi_Log (">nwal_start:Failed ->err %d !!!\n", nwalRetVal);
return -1;
}
p->state = NETAPI_NW_CXT_LOC_ACTIVE;
{
#ifdef CORTEX_A8
return t64_start();
+#else
+ return 0;
#endif
}
static uint8_t* netapip_sharedMemoryMalloc(uint32_t size)
{
-return (uint8_t *)hplib_vmMemAlloc(size +pnetapiShm->netapi_global.cfg.def_heap_extra_size , 128, 0);
+ return (uint8_t *)hplib_vmMemAlloc(size +
+ pnetapiShm->netapi_global.cfg.def_heap_extra_size ,
+ 128,
+ 0);
}
/********************************************************************
static void netapip_sharedMemoryFree(uint8_t* ptr, uint32_t size)
{
/* Do Nothing. */
- netapi_Log("netapi Unexpected. need to provide a free () for some reason!! \n");
return;
}
* DESCRIPTION: NETAPI internal function system initialization
********************************************************************/
int netapip_systemInit(NETAPI_HANDLE_T * handle,
- hplib_globalDeviceConfigParams_t *p_hplib_device_cfg,
- NETCP_CFG_GLOB_DEVICE_PARAMS_T *p_netapi_device_cfg,
- nwalGlobalDeviceConfigParams_t *p_nwal_device_cfg,
Bool global_master_process)
{
+
int32_t result;
Pktlib_HeapHandle sharedHeapHandle;
- Pktlib_HeapHandle controlRxHeapHandle,controlTxHeapHandle;
+ Pktlib_HeapHandle controlRxHeapHandle,controlTxHeapHandle;
Pktlib_HeapCfg heapCfg;
- int32_t errCode;
+ int32_t errCode = 0;
int count=0;
#ifdef NETAPI_USE_DDR
netapi_VM_MempoolAttr[0].phys_addr = 0;
netapi_VM_MempoolAttr[0].size = 0;
+#ifdef NETAPI_USE_DDR_AND_MSMC
/* Init attributes for un-cached MSMC */
netapi_VM_MempoolAttr[1].attr = HPLIB_ATTR_UN_CACHED;
netapi_VM_MempoolAttr[1].phys_addr = CSL_MSMC_SRAM_REGS;
netapi_VM_MempoolAttr[1].size = TUNE_NETAPI_PERM_MEM_SZ;
+#endif
#else
- netapi_VM_MempoolAttr[1].attr = HPLIB_ATTR_KM_CACHED0;
- netapi_VM_MempoolAttr[1].phys_addr = 0;
- netapi_VM_MempoolAttr[1].size = 0;
-
/* Init attributes for un-cached MSMC */
netapi_VM_MempoolAttr[0].attr = HPLIB_ATTR_UN_CACHED;
netapi_VM_MempoolAttr[0].phys_addr = CSL_MSMC_SRAM_REGS;
netapi_VM_MempoolAttr[0].size = TUNE_NETAPI_PERM_MEM_SZ;
+#ifdef NETAPI_USE_DDR_AND_MSMC
+ netapi_VM_MempoolAttr[1].attr = HPLIB_ATTR_KM_CACHED0;
+ netapi_VM_MempoolAttr[1].phys_addr = 0;
+ netapi_VM_MempoolAttr[1].size = 0;
+#endif
#endif
/* initialize all the memory we are going to use
- chunk for buffers, descriptors
- memory mapped peripherals we use, such as QMSS, PA, etc */
+#ifdef NETAPI_USE_DDR_AND_MSMC
result = hplib_vmInit(&netapi_VM_VirtAddr[0],
2,
- &netapi_VM_MempoolAttr[0],
- p_hplib_device_cfg);
+ &netapi_VM_MempoolAttr[0]);
+#else
+ result = hplib_vmInit(&netapi_VM_VirtAddr[0],
+ 1,
+ &netapi_VM_MempoolAttr[0]);
+#endif
- if (global_master_process == TRUE)
+ if (result != hplib_OK)
+ {
+ return -1;
+ }
+
+ if (global_master_process == NETAPI_TRUE)
{
hplib_initMallocArea(0);
+#ifdef NETAPI_USE_DDR_AND_MSMC
hplib_initMallocArea(1);
+#endif
+#ifdef NETAPI_ENABLE_SECURITY
+#define SEC_CONTEXT_SZ 384 //not tunable
+ /* allocate 2x number of tunnels since we need one for inflow and one for data mode */
+ netapi_VM_SaContextVaddr = hplib_vmMemAlloc((TUNE_NETAPI_MAX_NUM_IPSEC_CHANNELS*2 *
+ SEC_CONTEXT_SZ), 128, 0);
+ if (!netapi_VM_SaContextVaddr)
+ {
+ return (-1);
+ }
+#else
+ netapi_VM_SaContextVaddr= (char *) NULL;
+#endif
+
+ /* (3) Allocate 2 QM regions from continguous chunk above */
+ netapi_VM_QMemGlobalDescRam =
+ (void *)hplib_vmMemAlloc((TUNE_NETAPI_NUM_GLOBAL_DESC *
+ TUNE_NETAPI_DESC_SIZE),
+ 128,
+ 0);
+
+ netapi_VM_QMemLocalDescRam =
+ (void *)hplib_vmMemAlloc((TUNE_NETAPI_NUM_LOCAL_DESC *
+ TUNE_NETAPI_DESC_SIZE),
+ 128,
+ 0);
+ /* Initialize Queue Manager Sub System */
+ result = netapip_initQm (pnetapiShm->netapi_global.cfg.def_max_descriptors,
+ pRmClientHandle);
+
+ if (result != 1)
+ {
+ return -1;
+ }
+ /* Start the QMSS. */
+ if (netapip_startQm(pRmClientHandle) != 1)
+ {
+ return -1;
+ }
+
+ //clean our old junk in 1st bunch of queues that will be allocated to us
+ netapip_cleanupAtStart();
+ /* Initialize the global descriptor memory region. */
+ result= netapip_qmSetupMemRegion(
+ pnetapiShm->netapi_global.cfg.def_tot_descriptors_for_us,
+ TUNE_NETAPI_DESC_SIZE,
+ (unsigned int *) netapi_VM_QMemGlobalDescRam,
+ pnetapiShm->netapi_global.cfg.memoryRegion,
+ pnetapiShm->netapi_global.cfg.start_index);
+ if(result <0)
+ {
+ return -1;
+ }
+ /* Initialize CPPI CPDMA */
+ result = netapip_initCppi(pRmClientHandle);
+ if (result != 1)
+ {
+ return -1;
+ }
+ /* CPPI and Queue Manager are initialized. */
+
+ /* create main pkt heap */
+ /* Initialize the Shared Heaps. */
+ Pktlib_sharedHeapInit();
+ /* Populate the heap interface table. */
+ netapi_pktlib_ifTable.data_malloc = netapip_sharedMemoryMalloc;
+ netapi_pktlib_ifTable.data_free = netapip_sharedMemoryFree;
+ /* Initialize the heap configuration. */
+ memset ((void *)&heapCfg, 0, sizeof(Pktlib_HeapCfg));
+ /* Populate the heap configuration */
+ heapCfg.name = "netapi";
+ heapCfg.memRegion = memInfo.memRegion;
+ heapCfg.sharedHeap = 1;
+ heapCfg.useStarvationQueue = 0;
+ heapCfg.dataBufferSize = pnetapiShm->netapi_global.cfg.def_heap_buf_size;
+ heapCfg.numPkts = pnetapiShm->netapi_global.cfg.def_heap_n_descriptors;
+ heapCfg.numZeroBufferPackets= pnetapiShm->netapi_global.cfg.def_heap_n_zdescriptors;
+ heapCfg.heapInterfaceTable.data_malloc = netapi_pktlib_ifTable.data_malloc;
+ heapCfg.heapInterfaceTable.data_free = netapi_pktlib_ifTable.data_free;
+ heapCfg.dataBufferPktThreshold = 0;
+ heapCfg.zeroBufferPktThreshold = 0;
+
+ /* Create Shared Heap with specified configuration. */
+ sharedHeapHandle = Pktlib_createHeap(&heapCfg, &errCode);
+ if (!sharedHeapHandle) { return -1;}
+ handle->netcp_heap= sharedHeapHandle;
+ /* Update for Control */
+ heapCfg.name = "netapi_control_rx";
+ heapCfg.sharedHeap = 1;
+ heapCfg.dataBufferSize = TUNE_NETAPI_CONFIG_MAX_CTL_RXTX_BUF_SIZE;
+ heapCfg.numPkts = TUNE_NETAPI_CONFIG_NUM_CTL_RX_BUF;
+ heapCfg.numZeroBufferPackets= 0;
+
+ controlRxHeapHandle = Pktlib_createHeap(&heapCfg, &errCode);
+ //todo -> cleanup on failure
+ if (!controlRxHeapHandle) { return -1;}
+ handle->netcp_control_rx_heap= controlRxHeapHandle;
+
+
+ heapCfg.name = "netapi_control_tx";
+ heapCfg.numPkts = TUNE_NETAPI_CONFIG_NUM_CTL_TX_BUF;
+
+ controlTxHeapHandle = Pktlib_createHeap(&heapCfg, &errCode);
+ //todo -> cleanup on failure
+ if (!controlTxHeapHandle) { return -1;}
+ handle->netcp_control_tx_heap= controlTxHeapHandle;
+ /* now NWAL */
+ result = netapip_initNwal(memInfo.memRegion,
+ &netapi_pktlib_ifTable,
+ &pnetapiShm->netapi_global.nwal_context,
+ &pnetapiShm->netapi_global.cfg);
+ if (result<0) { return -1; }
+ /* Common Initialization for all cores */
+ while(count < TUNE_NETAPI_MAX_NUM_TRANS)
+ {
+ netapi_proc_global.nwal_context.transInfos[count].transId = count;
+ count++;
+ }
+ result = netapip_startNwal(sharedHeapHandle,
+ controlRxHeapHandle,
+ controlTxHeapHandle,
+ &handle->nwal_local,
+ &pnetapiShm->netapi_global.cfg,
+ &pnetapiShm->netapi_global.nwal_context,
+ handle->master);
+ if (result<0) { return -1; }
}
else
{
return -1;
if (hplib_checkMallocArea(1) != hplib_OK)
return -1;
- }
- if (result == hplib_OK) netapi_Log("netapip_systemInit: - memory set up OK\n");
- else {netapi_Log("netapip_systemInit: - memory set up failed\n"); return -1;}
+#ifdef NETAPI_ENABLE_SECURITY
+ /* allocate 2x number of tunnels since we need one for inflow and one for data mode */
+ netapi_VM_SaContextVaddr = hplib_vmMemAlloc((TUNE_NETAPI_MAX_NUM_IPSEC_CHANNELS*2 *
+ SEC_CONTEXT_SZ), 128, 0);
+ if (!netapi_VM_SaContextVaddr)
+ {
+ return (-1);
+ }
+#else
+ netapi_VM_SaContextVaddr= (char *) NULL;
+#endif
- if(global_master_process == FALSE)
- {
- //------------------------------------------------
- //partial initialization. For process, not for SOC
- //------------------------------------------------
-
-/* Start the QMSS. */
- if (netapip_startQm() != 1)
- {
- netapi_Log("netapip_systemInit: returned from netapip_startQm with failure\n");
- return -1;
- }
- //open shared heap handle but create new controlRx & Tx heaps for this
- //process
- netapi_pktlib_ifTable.data_malloc = netapip_sharedMemoryMalloc;
- netapi_pktlib_ifTable.data_free = netapip_sharedMemoryFree;
- sharedHeapHandle = Pktlib_findHeapByName("netapi");
- if (!sharedHeapHandle) { netapi_Log(">'netapi' heap create failed, Error Code: %d\n",errCode); return -1;}
+
+ /* (3) Allocate 2 QM regions from continguous chunk above */
+ netapi_VM_QMemGlobalDescRam =
+ (void *)hplib_vmMemAlloc((TUNE_NETAPI_NUM_GLOBAL_DESC *
+ TUNE_NETAPI_DESC_SIZE),
+ 128,
+ 0);
+
+ netapi_VM_QMemLocalDescRam =
+ (void *)hplib_vmMemAlloc((TUNE_NETAPI_NUM_LOCAL_DESC *
+ TUNE_NETAPI_DESC_SIZE),
+ 128,
+ 0);
+
+ /****************************************************
+ * partial initialization. For process, not for SOC
+ ***************************************************/
+ result = netapip_initQm (pnetapiShm->netapi_global.cfg.def_max_descriptors,
+ pRmClientHandle);
+ if (result != 1)
+ {
+ return -1;
+ }
+
+ /* Start the QMSS. */
+ if (netapip_startQm(pRmClientHandle) != 1)
+ {
+ return -1;
+ }
+
+ result= netapip_qmSetupMemRegion(
+ pnetapiShm->netapi_global.cfg.def_tot_descriptors_for_us,
+ TUNE_NETAPI_DESC_SIZE,
+ (unsigned int *) netapi_VM_QMemGlobalDescRam,
+ pnetapiShm->netapi_global.cfg.memoryRegion,
+ pnetapiShm->netapi_global.cfg.start_index);
+ if(result <0)
+ {
+ return -1;
+ }
+ /* Initialize CPPI CPDMA */
+ result = netapip_initCppi(pRmClientHandle);
+ if (result != 1)
+ {
+ return -1;
+ }
+ /* CPPI and Queue Manager are initialized. */
+
+ /* create main pkt heap for this process */
+ /* Initialize the Shared Heaps. */
+ Pktlib_sharedHeapInit();
+ /* Populate the heap interface table. */
+ netapi_pktlib_ifTable.data_malloc = netapip_sharedMemoryMalloc;
+ netapi_pktlib_ifTable.data_free = netapip_sharedMemoryFree;
+ /* Initialize the heap configuration. */
+ memset ((void *)&heapCfg, 0, sizeof(Pktlib_HeapCfg));
+ /* Populate the heap configuration */
+ heapCfg.name = "netapi";
+ //heapCfg.memRegion = TUNE_NETAPI_QM_GLOBAL_REGION;
+ heapCfg.memRegion = memInfo.memRegion;
+ heapCfg.sharedHeap = 1;
+ heapCfg.useStarvationQueue = 0;
+ heapCfg.dataBufferSize = pnetapiShm->netapi_global.cfg.def_heap_buf_size;
+ heapCfg.numPkts = pnetapiShm->netapi_global.cfg.def_heap_n_descriptors;
+ heapCfg.numZeroBufferPackets= pnetapiShm->netapi_global.cfg.def_heap_n_zdescriptors;
+ heapCfg.heapInterfaceTable.data_malloc = netapi_pktlib_ifTable.data_malloc;
+ heapCfg.heapInterfaceTable.data_free = netapi_pktlib_ifTable.data_free;
+ heapCfg.dataBufferPktThreshold = 0;
+ heapCfg.zeroBufferPktThreshold = 0;
+
+ /* Create Shared Heap with specified configuration. */
+ sharedHeapHandle = Pktlib_createHeap(&heapCfg, &errCode);
+ //todo -> cleanup on failure
+ if (!sharedHeapHandle) { return -1;}
handle->netcp_heap= sharedHeapHandle;
+ //open shared heap handle but create new controlRx & Tx heaps for this
+ //process
/* Update for Control */
heapCfg.name = "netapi_control_rx";/*todo:add random#*/
heapCfg.sharedHeap = 1;
heapCfg.numPkts = TUNE_NETAPI_CONFIG_NUM_CTL_RX_BUF;
heapCfg.numZeroBufferPackets= 0;
controlRxHeapHandle = Pktlib_createHeap(&heapCfg, &errCode);
- if (!controlRxHeapHandle) { netapi_Log("netapi -'netapi_control_rx' heap create failed, Error Code: %d\n",errCode); return -1;}
+ if (!controlRxHeapHandle) { return -1;}
+
handle->netcp_control_rx_heap= controlRxHeapHandle;
heapCfg.name = "netapi_control_tx";
heapCfg.numPkts = TUNE_NETAPI_CONFIG_NUM_CTL_TX_BUF;
controlTxHeapHandle = Pktlib_createHeap(&heapCfg, &errCode);
- if (!controlTxHeapHandle) { netapi_Log("netapi -'netapi_control_tx' heap create failed, Error Code: %d\n",errCode); return -1;}
+ if (!controlTxHeapHandle) { return -1;}
handle->netcp_control_tx_heap= controlTxHeapHandle;
/* Common Initialization for all threads in process */
controlTxHeapHandle,
&handle->nwal_local,
&pnetapiShm->netapi_global.cfg,
- &pnetapiShm->netapi_global.nwal_context);
- if (result<0) {netapi_Log("netapi start_nwal() failed\n"); return -1; }
- netapi_Log("netapip_systemInit: returned from netapip_startNwal\n");
- }
-
-#ifdef NETAPI_ENABLE_SECURITY
-#define SEC_CONTEXT_SZ 384 //not tunable
-/* allocate 2x number of tunnels since we need one for inflow and one for data mode */
- netapi_VM_SaContextVaddr = hplib_vmMemAlloc((TUNE_NETAPI_MAX_NUM_IPSEC_CHANNELS*2 *
- SEC_CONTEXT_SZ), 128, 0);
- if (!netapi_VM_SaContextVaddr)
- {
- netapi_Log("netapip_systemInit: Failed to map SA context memory region\n");
- return (-1);
+ &pnetapiShm->netapi_global.nwal_context,
+ handle->master);
+ if (result<0)
+ {
+ return -1;
+ }
}
- netapi_Log("netapip_systemInit: SA Memory mapped/allocated at address %p.\n", netapi_VM_SaContextVaddr);
-
-#else
- netapi_VM_SaContextVaddr= (char *) NULL;
-#endif
-
-/* TODO: the QM regions is application specific and needs to be moved
- since number of regions created is appliction specific, put this in netapip_systemInit */
- /* (3) Allocate 2 QM regions from continguous chunk above */
- netapi_VM_QMemGlobalDescRam =
- (void *)hplib_vmMemAlloc((TUNE_NETAPI_NUM_GLOBAL_DESC *
- TUNE_NETAPI_DESC_SIZE),
- 128, 0);
-
- netapi_VM_QMemLocalDescRam =
- (void *)hplib_vmMemAlloc((TUNE_NETAPI_NUM_LOCAL_DESC *
- TUNE_NETAPI_DESC_SIZE),
- 128, 0);
- netapi_Log("netapip_systemInit: desc region=%x global desc region=%x\n", netapi_VM_QMemLocalDescRam, netapi_VM_QMemGlobalDescRam);
//get timer running
#ifdef CORTEX_A8
- netapip_initTimer();
- netapi_Log("netapip_systemInit: returned from netapip_initTimer\n");
+ netapip_initTimer();
#endif
- /* Initialize Queue Manager Sub System */
- result = netapip_initQm (pnetapiShm->netapi_global.cfg.def_max_descriptors,
- p_netapi_device_cfg);
-
- if (result != 1)
- {
- netapi_Log("netapip_systemInit: returned from netapip_initQm with failure\n");
- return -1;
- }
-
- /* Start the QMSS. */
- if (netapip_startQm() != 1)
- {
- netapi_Log("netapip_systemInit: returned from netapip_startQm with failure\n");
- return -1;
- }
-
-
- //clean our old junk in 1st bunch of queues that will be allocated to us
- netapip_cleanupAtStart();
- netapi_Log("netapip_systemInit: returned from netapip_cleanupAtStart\n");
- /* Initialize the global descriptor memory region. */
- result= netapip_qmSetupMemRegion(
- pnetapiShm->netapi_global.cfg.def_tot_descriptors_for_us,
- TUNE_NETAPI_DESC_SIZE,
- (unsigned int *) netapi_VM_QMemGlobalDescRam,
- TUNE_NETAPI_QM_GLOBAL_REGION);
- if(result <0) {netapi_Log("netapip_systemInit: can't setup QM shared region\n"); return -1;}
-
-netapi_Log("netapip_systemInit: returned from netapip_qmSetupMemRegion\n");
- /* Initialize CPPI CPDMA */
-
- result = netapip_initCppi (p_netapi_device_cfg);
- netapi_Log("netapip_systemInit: returned from netapip_initCppi\n");
- if (result != 1)
- {
- netapi_Log ("netapi: Error initializing CPPI SubSystem error code : %d\n",result);
- return -1;
- }
-
- /* CPPI and Queue Manager are initialized. */
- netapi_Log ("netapi: Queue Manager and CPPI are initialized.\n");
- /* create main pkt heap */
- /* Initialize the Shared Heaps. */
- Pktlib_sharedHeapInit();
- netapi_Log("netapip_systemInit: returned from Pktlib_sharedHeapInit\n");
- /* Populate the heap interface table. */
- netapi_pktlib_ifTable.data_malloc = netapip_sharedMemoryMalloc;
- netapi_pktlib_ifTable.data_free = netapip_sharedMemoryFree;
- /* Initialize the heap configuration. */
- memset ((void *)&heapCfg, 0, sizeof(Pktlib_HeapCfg));
- /* Populate the heap configuration */
- heapCfg.name = "netapi";
- heapCfg.memRegion = TUNE_NETAPI_QM_GLOBAL_REGION;
- heapCfg.sharedHeap = 1;
- heapCfg.useStarvationQueue = 0;
- heapCfg.dataBufferSize = pnetapiShm->netapi_global.cfg.def_heap_buf_size;
- heapCfg.numPkts = pnetapiShm->netapi_global.cfg.def_heap_n_descriptors;
- heapCfg.numZeroBufferPackets= pnetapiShm->netapi_global.cfg.def_heap_n_zdescriptors;
- heapCfg.heapInterfaceTable.data_malloc = netapi_pktlib_ifTable.data_malloc;
- heapCfg.heapInterfaceTable.data_free = netapi_pktlib_ifTable.data_free;
- heapCfg.dataBufferPktThreshold = 0;
- heapCfg.zeroBufferPktThreshold = 0;
-
- /* Create Shared Heap with specified configuration. */
- sharedHeapHandle = Pktlib_createHeap(&heapCfg, &errCode);
- netapi_Log("netapip_systemInit: returned from Pktlib_createHeap1\n");
- //todo -> cleanup on failure
- if (!sharedHeapHandle) { netapi_Log(">'netapi' heap create failed, Error Code: %d\n",errCode); return -1;}
- handle->netcp_heap= sharedHeapHandle;
-
- /* Update for Control */
- heapCfg.name = "netapi_control_rx";
- heapCfg.sharedHeap = 1;
- heapCfg.dataBufferSize = TUNE_NETAPI_CONFIG_MAX_CTL_RXTX_BUF_SIZE;
- heapCfg.numPkts = TUNE_NETAPI_CONFIG_NUM_CTL_RX_BUF;
- heapCfg.numZeroBufferPackets= 0;
-
- controlRxHeapHandle = Pktlib_createHeap(&heapCfg, &errCode);
- netapi_Log("netapip_systemInit: returned from Pktlib_createHeap2\n");
- //todo -> cleanup on failure
- if (!controlRxHeapHandle) { netapi_Log("netapi -'netapi_control_rx' heap create failed, Error Code: %d\n",errCode); return -1;}
- handle->netcp_control_rx_heap= controlRxHeapHandle;
-
-
- heapCfg.name = "netapi_control_tx";
- heapCfg.numPkts = TUNE_NETAPI_CONFIG_NUM_CTL_TX_BUF;
-
- controlTxHeapHandle = Pktlib_createHeap(&heapCfg, &errCode);
- netapi_Log("netapip_systemInit: returned from Pktlib_createHeap3\n");
- //todo -> cleanup on failure
- if (!controlTxHeapHandle) { netapi_Log("netapi -'netapi_control_tx' heap create failed, Error Code: %d\n",errCode); return -1;}
- handle->netcp_control_tx_heap= controlTxHeapHandle;
-
- /* now NWAL */
- result = netapip_initNwal(TUNE_NETAPI_QM_GLOBAL_REGION,
- &netapi_pktlib_ifTable,
- &pnetapiShm->netapi_global.nwal_context,
- &pnetapiShm->netapi_global.cfg,
- p_nwal_device_cfg);
- if (result<0) {netapi_Log("netapi init_nwal() failed\n"); return -1; }
- netapi_Log("netapip_systemInit: returned from netapip_initNwal\n");
- /* start NWAL */
-
-
- /* Common Initialization for all cores */
- while(count < TUNE_NETAPI_MAX_NUM_TRANS)
- {
- netapi_proc_global.nwal_context.transInfos[count].transId = count;
- count++;
- }
- result = netapip_startNwal(sharedHeapHandle,
- controlRxHeapHandle,
- controlTxHeapHandle,
- &handle->nwal_local,
- &pnetapiShm->netapi_global.cfg,
- &pnetapiShm->netapi_global.nwal_context);
- if (result<0) {netapi_Log("netapi start_nwal() failed\n"); return -1; }
- netapi_Log("netapip_systemInit: returned from netapip_startNwal\n");
return 0;
}
***************************************************************************/
void netapip_zapQ(int queueNum)
{
- char * descPtr;
int i;
if (!queueNum)
{
for (i=0;;i+=1 )
{
/* Pop descriptor from source queue */
- if ((descPtr = (char *)pktio_mQmssQueuePopRaw(queueNum)) == NULL)
+ if (pktio_mQmssQueuePopRaw(queueNum) == NULL)
{
break;
}
}
- if(i)
- {
- netapi_Log("netapip_zapQ: @recovery - %d descriptors cleaned from qn %d\n",i, queueNum);
- }
}
printf(" > #dataBufThreshStatus=%d #dataBufStarvCounter=%d #zBufThreshStatus=%d #zBufStarvCounter=%d \n",
pktLibHeapStats.dataBufferThresholdStatus,pktLibHeapStats.dataBufferStarvationCounter,
pktLibHeapStats.zeroDataBufferThresholdStatus, pktLibHeapStats.zeroDataBufferStarvationCounter);
-#if 0
-Pktlib_getHeapStats(netapi_get_global()->nwal_context.pa2saTX_heap,&pktLibHeapStats);
-netapi_Log("PA2SA(egress) stats> #free=%d #zb=%d #garbage=%d\n", pktLibHeapStats.numFreeDataPackets,
- pktLibHeapStats.numZeroBufferPackets, pktLibHeapStats.numPacketsinGarbage);
-netapi_Log(" > #dataBufThreshStatus=%d #dataBufStarvCounter=%d #zBufThreshStatus=%d #zBufStarvCounter=%d \n",
- pktLibHeapStats.dataBufferThresholdStatus,pktLibHeapStats.dataBufferStarvationCounter,
- pktLibHeapStats.zeroDataBufferThresholdStatus, pktLibHeapStats.zeroDataBufferStarvationCounter);
-#endif
Pktlib_getHeapStats(netapi_get_global()->nwal_context.sa2pa_heap,&pktLibHeapStats);
printf("SA2PA stats> #free=%d #zb=%d #garbage=%d\n", pktLibHeapStats.numFreeDataPackets,
pktLibHeapStats.numZeroBufferPackets, pktLibHeapStats.numPacketsinGarbage);