Diff: arch/TARGET_Freescale/k64f_emac.c

Revision:

31:da93f0f73711

Parent:

27:fde88aaaea28

Child:

34:d14a6bc07707

--- a/arch/TARGET_Freescale/k64f_emac.c	Fri Apr 29 01:16:05 2016 +0100
+++ b/arch/TARGET_Freescale/k64f_emac.c	Tue May 03 00:16:23 2016 +0100
@@ -12,11 +12,7 @@
 #include "eth_arch.h"
 #include "sys_arch.h"
 
-#include "fsl_enet_driver.h"
-#include "fsl_enet_hal.h"
-#include "fsl_device_registers.h"
-#include "fsl_phy_driver.h"
-#include "fsl_interrupt_manager.h"
+#include "fsl_phy.h"
 #include "k64f_emac_config.h"
 #include <ctype.h>
 #include <stdio.h>
@@ -25,14 +21,23 @@
 
 #include "mbed_interface.h"
 
-extern IRQn_Type enet_irq_ids[HW_ENET_INSTANCE_COUNT][FSL_FEATURE_ENET_INTERRUPT_COUNT];
-extern uint8_t enetIntMap[kEnetIntNum];
-extern void *enetIfHandle;
+enet_handle_t g_handle;
+// TX Buffer descriptors
+uint8_t *tx_desc_start_addr;
+// RX Buffer descriptors
+uint8_t *rx_desc_start_addr;
+// RX packet buffer pointers
+struct pbuf *rx_buff[ENET_RX_RING_LEN];
+// TX packet buffer pointers
+struct pbuf *tx_buff[ENET_RX_RING_LEN];
+// RX packet payload pointers
+uint32_t *rx_ptr[ENET_RX_RING_LEN];
 
 /********************************************************************************
  * Internal data
  ********************************************************************************/
-
+#define ENET_BuffSizeAlign(n) ENET_ALIGN(n, ENET_BUFF_ALIGNMENT)
+#define ENET_ALIGN(x,align)   ((unsigned int)((x) + ((align)-1)) & (unsigned int)(~(unsigned int)((align)- 1)))
 extern void k64f_init_eth_hardware(void);
 
 /* K64F EMAC driver data structure */
@@ -42,49 +47,11 @@
   sys_sem_t TxCleanSem; /**< TX cleanup thread wakeup semaphore */
   sys_mutex_t TXLockMutex; /**< TX critical section mutex */
   sys_sem_t xTXDCountSem; /**< TX free buffer counting semaphore */
-  volatile u32_t rx_free_descs; /**< Count of free RX descriptors */
-  struct pbuf *rxb[ENET_RX_RING_LEN]; /**< RX pbuf pointer list, zero-copy mode */
-  uint8_t *rx_desc_start_addr; /**< RX descriptor start address */
-  uint8_t *tx_desc_start_addr; /**< TX descriptor start address */
   uint8_t tx_consume_index, tx_produce_index; /**< TX buffers ring */
-  uint8_t rx_fill_index; /**< RX ring fill index */
-  struct pbuf *txb[ENET_TX_RING_LEN]; /**< TX pbuf pointer list, zero-copy mode */
-  void *txb_aligned[ENET_TX_RING_LEN]; /**< TX aligned buffers (if needed) */
 };
 
 static struct k64f_enetdata k64f_enetdata;
 
-static enet_dev_if_t enetDevIf[HW_ENET_INSTANCE_COUNT];
-static enet_mac_config_t g_enetMacCfg[HW_ENET_INSTANCE_COUNT] = 
-{
-  {
-    ENET_ETH_MAX_FLEN ,  /*!< enet receive buffer size*/
-    ENET_RX_LARGE_BUFFER_NUM, /*!< enet large receive buffer number*/
-    ENET_RX_RING_LEN,        /*!< enet receive bd number*/
-    ENET_TX_RING_LEN,        /*!< enet transmit bd number*/
-    {0},                /*!< enet mac address*/
-    kEnetCfgRmii,       /*!< enet rmii interface*/
-    kEnetCfgSpeed100M,  /*!< enet rmii 100M*/
-    kEnetCfgFullDuplex, /*!< enet rmii Full- duplex*/
-     /*!< enet mac control flag recommended to use enet_mac_control_flag_t
-      we send frame with crc so receive crc forward for data length check test*/
-    kEnetRxCrcFwdEnable | kEnetRxFlowControlEnable,
-    true,         /*!< enet txaccelerator enabled*/
-    true,        /*!< enet rxaccelerator enabled*/
-    false,        /*!< enet store and forward*/
-    {false, false, true, false, true},  /*!< enet rxaccelerator config*/
-    {false, false, true},          /*!< enet txaccelerator config*/
-    true,               /*!< vlan frame support*/
-    true,               /*!< phy auto discover*/
-    ENET_MII_CLOCK,     /*!< enet MDC clock*/
-  },
-};
-
-static enet_phy_config_t g_enetPhyCfg[HW_ENET_INSTANCE_COUNT] =
-{
-  {0, false}
-};
-
 /** \brief  Driver transmit and receive thread priorities
  *
  * Thread priorities for receive thread and TX cleanup thread. Alter
@@ -95,166 +62,35 @@
 #define TX_PRIORITY   (osPriorityNormal)
 #define PHY_PRIORITY  (osPriorityNormal)
 
-/** \brief  Debug output formatter lock define
- *
- * When using FreeRTOS and with LWIP_DEBUG enabled, enabling this
- * define will allow RX debug messages to not interleave with the
- * TX messages (so they are actually readable). Not enabling this
- * define when the system is under load will cause the output to
- * be unreadable. There is a small tradeoff in performance for this
- * so use it only for debug. */
-//#define LOCK_RX_THREAD
-
-/** \brief  Signal used for ethernet ISR to signal packet_rx() thread.
- */
-#define RX_SIGNAL  1
-
-// K64F-specific macros
-#define RX_PBUF_AUTO_INDEX    (-1)
-
 /********************************************************************************
  * Buffer management
  ********************************************************************************/
-
-/** \brief  Queues a pbuf into the RX descriptor list
- *
- *  \param[in] k64f_enet Pointer to the drvier data structure
- *  \param[in] p         Pointer to pbuf to queue
- *  \param[in] bidx      Index to queue into   
+/*
+ * This function will queue a new receive buffer
  */
-static void k64f_rxqueue_pbuf(struct k64f_enetdata *k64f_enet, struct pbuf *p, int bidx)
+static void update_read_buffer(uint8_t *buf)
 {
-  enet_bd_struct_t *start = (enet_bd_struct_t *)k64f_enet->rx_desc_start_addr;
-  int idx;
-
-  /* Get next free descriptor index */
-  if (bidx == RX_PBUF_AUTO_INDEX)
-    idx = k64f_enet->rx_fill_index;
-  else
-    idx = bidx;
-
-  /* Setup descriptor and clear statuses */
-  enet_hal_init_rxbds(start + idx, (uint8_t*)p->payload, idx == ENET_RX_RING_LEN - 1);
-
-  /* Save pbuf pointer for push to network layer later */
-  k64f_enet->rxb[idx] = p;
-
-  /* Wrap at end of descriptor list */
-  idx = (idx + 1) % ENET_RX_RING_LEN;
-
-  /* Queue descriptor(s) */
-  k64f_enet->rx_free_descs -= 1;
-
-  if (bidx == RX_PBUF_AUTO_INDEX)
-    k64f_enet->rx_fill_index = idx;
-
-  enet_hal_active_rxbd(BOARD_DEBUG_ENET_INSTANCE_ADDR);
-
-  LWIP_DEBUGF(UDP_LPC_EMAC | LWIP_DBG_TRACE,
-    ("k64f_rxqueue_pbuf: pbuf packet queued: %p (free desc=%d)\n", p,
-      k64f_enet->rx_free_descs));
-}
-
-/** \brief  Attempt to allocate and requeue a new pbuf for RX
- *
- *  \param[in]     netif Pointer to the netif structure
- *  \returns       number of queued packets
- */
-s32_t k64f_rx_queue(struct netif *netif, int idx)
-{
-  struct k64f_enetdata *k64f_enet = netif->state;
-  enet_dev_if_t *enetIfPtr = (enet_dev_if_t *)&enetDevIf[BOARD_DEBUG_ENET_INSTANCE];
-  struct pbuf *p;
-  int queued = 0;
-
-  /* Attempt to requeue as many packets as possible */
-  while (k64f_enet->rx_free_descs > 0) {
-    /* Allocate a pbuf from the pool. We need to allocate at the
-       maximum size as we don't know the size of the yet to be
-       received packet. */
-    p = pbuf_alloc(PBUF_RAW, enetIfPtr->macCfgPtr->rxBufferSize + RX_BUF_ALIGNMENT, PBUF_RAM);
-    if (p == NULL) {
-      LWIP_DEBUGF(UDP_LPC_EMAC | LWIP_DBG_TRACE,
-        ("k64_rx_queue: could not allocate RX pbuf (free desc=%d)\n",
-        k64f_enet->rx_free_descs));
-      return queued;
+    if (buf != NULL) {
+        g_handle.rxBdCurrent->buffer = buf;
     }
-    /* K64F note: the next line ensures that the RX buffer is properly aligned for the K64F
-       RX descriptors (16 bytes alignment). However, by doing so, we're effectively changing
-       a data structure which is internal to lwIP. This might not prove to be a good idea
-       in the long run, but a better fix would probably involve modifying lwIP itself */
-    p->payload = (void*)ENET_ALIGN((uint32_t)p->payload, RX_BUF_ALIGNMENT);
-    
-    /* pbufs allocated from the RAM pool should be non-chained. */
-    LWIP_ASSERT("k64f_rx_queue: pbuf is not contiguous (chained)", pbuf_clen(p) <= 1);
-
-    /* Queue packet */
-    k64f_rxqueue_pbuf(k64f_enet, p, idx);
-    queued++;
-  }
-
-  return queued;
-}
 
-/** \brief  Sets up the RX descriptor ring buffers.
- *
- *  This function sets up the descriptor list used for receive packets.
- *
- *  \param[in]  netif  Pointer to driver data structure
- *  \returns           ERR_MEM if out of memory, ERR_OK otherwise
- */
-static err_t k64f_rx_setup(struct netif *netif, enet_rxbd_config_t *rxbdCfg) {   
-  struct k64f_enetdata *k64f_enet = netif->state;
-  enet_dev_if_t *enetIfPtr = (enet_dev_if_t *)&enetDevIf[BOARD_DEBUG_ENET_INSTANCE];
-  uint8_t *rxBdPtr;
-  uint32_t rxBufferSizeAligned;
+    /* Clears status. */
+    g_handle.rxBdCurrent->control &= ENET_BUFFDESCRIPTOR_RX_WRAP_MASK;
 
-  // Allocate RX descriptors
-  rxBdPtr = (uint8_t *)calloc(1, enet_hal_get_bd_size() * enetIfPtr->macCfgPtr->rxBdNumber + ENET_BD_ALIGNMENT);
-  if(!rxBdPtr)
-      return ERR_MEM;
-  k64f_enet->rx_desc_start_addr = (uint8_t *)ENET_ALIGN((uint32_t)rxBdPtr, ENET_BD_ALIGNMENT);
-  k64f_enet->rx_free_descs = enetIfPtr->macCfgPtr->rxBdNumber;
-  k64f_enet->rx_fill_index = 0;
+    /* Sets the receive buffer descriptor with the empty flag. */
+    g_handle.rxBdCurrent->control |= ENET_BUFFDESCRIPTOR_RX_EMPTY_MASK;
 
-  rxBufferSizeAligned = ENET_ALIGN(enetIfPtr->macCfgPtr->rxBufferSize, ENET_RX_BUFFER_ALIGNMENT);
-  enetIfPtr->macContextPtr->rxBufferSizeAligned = rxBufferSizeAligned;
-  rxbdCfg->rxBdPtrAlign = k64f_enet->rx_desc_start_addr;
-  rxbdCfg->rxBdNum = enetIfPtr->macCfgPtr->rxBdNumber;
-  rxbdCfg->rxBufferNum = enetIfPtr->macCfgPtr->rxBdNumber;
-  
-  k64f_rx_queue(netif, RX_PBUF_AUTO_INDEX);
-  return ERR_OK;
-}
+    /* Increases the buffer descriptor to the next one. */
+    if (g_handle.rxBdCurrent->control & ENET_BUFFDESCRIPTOR_RX_WRAP_MASK) {
+        g_handle.rxBdCurrent = g_handle.rxBdBase;
+        g_handle.rxBdDirty = g_handle.rxBdBase;
+    } else {
+        g_handle.rxBdCurrent++;
+        g_handle.rxBdDirty++;
+    }
 
-/** \brief  Sets up the TX descriptor ring buffers.
- *
- *  This function sets up the descriptor list used for transmit packets.
- *
- *  \param[in]      netif  Pointer to driver data structure
- *  \returns               ERR_MEM if out of memory, ERR_OK otherwise
- */
-static err_t k64f_tx_setup(struct netif *netif, enet_txbd_config_t *txbdCfg) {
-  struct k64f_enetdata *k64f_enet = netif->state;
-  enet_dev_if_t *enetIfPtr = (enet_dev_if_t *)&enetDevIf[BOARD_DEBUG_ENET_INSTANCE];
-  uint8_t *txBdPtr;
-
-  // Allocate TX descriptors
-  txBdPtr = (uint8_t *)calloc(1, enet_hal_get_bd_size() * enetIfPtr->macCfgPtr->txBdNumber + ENET_BD_ALIGNMENT);
-  if(!txBdPtr)
-    return ERR_MEM;
-
-  k64f_enet->tx_desc_start_addr = (uint8_t *)ENET_ALIGN((uint32_t)txBdPtr, ENET_BD_ALIGNMENT);
-  k64f_enet->tx_consume_index = k64f_enet->tx_produce_index = 0;
-
-  txbdCfg->txBdPtrAlign = k64f_enet->tx_desc_start_addr;
-  txbdCfg->txBufferNum = enetIfPtr->macCfgPtr->txBdNumber;
-  txbdCfg->txBufferSizeAlign = ENET_ALIGN(enetIfPtr->maxFrameSize, ENET_TX_BUFFER_ALIGNMENT);
-
-  // Make the TX descriptor ring circular
-  enet_hal_init_txbds(k64f_enet->tx_desc_start_addr + enet_hal_get_bd_size() * (ENET_TX_RING_LEN - 1), 1);
-
-  return ERR_OK;
+    /* Actives the receive buffer descriptor. */
+    ENET->RDAR = ENET_RDAR_RDAR_MASK;
 }
 
 /** \brief  Free TX buffers that are complete
@@ -263,125 +99,141 @@
  */
 static void k64f_tx_reclaim(struct k64f_enetdata *k64f_enet)
 {
-  uint8_t i;
-  volatile enet_bd_struct_t * bdPtr = (enet_bd_struct_t *)k64f_enet->tx_desc_start_addr;
+  uint8_t i = 0 ;
 
   /* Get exclusive access */
   sys_mutex_lock(&k64f_enet->TXLockMutex);
 
+  i = k64f_enet->tx_consume_index;
   // Traverse all descriptors, looking for the ones modified by the uDMA
-  i = k64f_enet->tx_consume_index;
-  while(i != k64f_enet->tx_produce_index && !(bdPtr[i].control & kEnetTxBdReady)) {
-      if (k64f_enet->txb_aligned[i]) {
-        free(k64f_enet->txb_aligned[i]);
-        k64f_enet->txb_aligned[i] = NULL;
-      } else if (k64f_enet->txb[i]) {
-        pbuf_free(k64f_enet->txb[i]);
-        k64f_enet->txb[i] = NULL;
-      }
-      osSemaphoreRelease(k64f_enet->xTXDCountSem.id);
-      bdPtr[i].controlExtend2 &= ~TX_DESC_UPDATED_MASK;
+  while((i != k64f_enet->tx_produce_index) && (!(g_handle.txBdDirty->control & ENET_BUFFDESCRIPTOR_TX_READY_MASK))) {
+      pbuf_free(tx_buff[i]);
+      if (g_handle.txBdDirty->control & ENET_BUFFDESCRIPTOR_TX_WRAP_MASK)
+        g_handle.txBdDirty = g_handle.txBdBase;
+      else
+        g_handle.txBdDirty++;
+
       i = (i + 1) % ENET_TX_RING_LEN;
   }
+
   k64f_enet->tx_consume_index = i;
-
   /* Restore access */
   sys_mutex_unlock(&k64f_enet->TXLockMutex);
 }
 
+/** \brief Ethernet receive interrupt handler
+ *
+ *  This function handles the receive interrupt of K64F.
+ */
+void enet_mac_rx_isr()
+{
+  sys_sem_signal(&k64f_enetdata.RxReadySem);
+}
+
+void enet_mac_tx_isr()
+{
+  sys_sem_signal(&k64f_enetdata.TxCleanSem);
+}
+
+void ethernet_callback(ENET_Type *base, enet_handle_t *handle, enet_event_t event, void *param)
+{
+    switch (event)
+    {
+      case kENET_RxEvent:
+        enet_mac_rx_isr();
+        break;
+      case kENET_TxEvent:
+        enet_mac_tx_isr();
+        break;
+      default:
+        break;
+    }
+}
+
 /** \brief  Low level init of the MAC and PHY.
  *
  *  \param[in]      netif  Pointer to LWIP netif structure
  */
 static err_t low_level_init(struct netif *netif)
 {
-  enet_dev_if_t * enetIfPtr;
-  uint32_t device = BOARD_DEBUG_ENET_INSTANCE_ADDR;
-  enet_rxbd_config_t rxbdCfg;
-  enet_txbd_config_t txbdCfg;
-  enet_phy_speed_t phy_speed;
-  enet_phy_duplex_t phy_duplex;
+  struct k64f_enetdata *k64f_enet = netif->state;
+  uint8_t i;
+  uint32_t sysClock;
+  phy_speed_t phy_speed;
+  phy_duplex_t phy_duplex;
+  uint32_t phyAddr = 0;
+  bool link = false;
+  enet_config_t config;
+
+  // Allocate RX descriptors
+  rx_desc_start_addr = (uint8_t *)calloc(1, sizeof(enet_rx_bd_struct_t) * ENET_RX_RING_LEN + ENET_BUFF_ALIGNMENT);
+  if(!rx_desc_start_addr)
+    return ERR_MEM;
 
-  k64f_init_eth_hardware();
-  
-  /* Initialize device*/
-  enetIfPtr = (enet_dev_if_t *)&enetDevIf[BOARD_DEBUG_ENET_INSTANCE];
-  enetIfPtr->deviceNumber = device;
-  enetIfPtr->macCfgPtr = &g_enetMacCfg[BOARD_DEBUG_ENET_INSTANCE];
-  enetIfPtr->phyCfgPtr = &g_enetPhyCfg[BOARD_DEBUG_ENET_INSTANCE];
-  enetIfPtr->macApiPtr = &g_enetMacApi;
-  enetIfPtr->phyApiPtr = (void *)&g_enetPhyApi;
-  memcpy(enetIfPtr->macCfgPtr->macAddr, (char*)netif->hwaddr, kEnetMacAddrLen);
+  // Allocate TX descriptors
+  tx_desc_start_addr = (uint8_t *)calloc(1, sizeof(enet_tx_bd_struct_t) * ENET_TX_RING_LEN + ENET_BUFF_ALIGNMENT);
+  if(!tx_desc_start_addr)
+    return ERR_MEM;
+
+  rx_desc_start_addr = (uint8_t *)ENET_ALIGN(rx_desc_start_addr, ENET_BUFF_ALIGNMENT);
+  tx_desc_start_addr = (uint8_t *)ENET_ALIGN(tx_desc_start_addr, ENET_BUFF_ALIGNMENT);
 
-  /* Allocate buffer for ENET mac context*/
-  enetIfPtr->macContextPtr = (enet_mac_context_t *)calloc(1, sizeof(enet_mac_context_t));
-  if (!enetIfPtr->macContextPtr) {
-    return ERR_BUF;
+  /* Create buffers for each receive BD */
+  for (i = 0; i < ENET_RX_RING_LEN; i++) {
+    rx_buff[i] = pbuf_alloc(PBUF_RAW, ENET_ETH_MAX_FLEN + ENET_BUFF_ALIGNMENT, PBUF_RAM);
+    if (NULL == rx_buff[i])
+      return ERR_MEM;
+
+    /* K64F note: the next line ensures that the RX buffer is properly aligned for the K64F
+       RX descriptors (16 bytes alignment). However, by doing so, we're effectively changing
+       a data structure which is internal to lwIP. This might not prove to be a good idea
+       in the long run, but a better fix would probably involve modifying lwIP itself */
+    rx_buff[i]->payload = (void*)ENET_ALIGN((uint32_t)rx_buff[i]->payload, ENET_BUFF_ALIGNMENT);
+    rx_ptr[i] = rx_buff[i]->payload;
   }
 
-  /* Initialize enet buffers*/
-  if(k64f_rx_setup(netif, &rxbdCfg) != ERR_OK) {
-    return ERR_BUF;
-  }
-  /* Initialize enet buffers*/
-  if(k64f_tx_setup(netif, &txbdCfg) != ERR_OK) {
-    return ERR_BUF;
-  }
-  /* Initialize enet module*/
-  if (enet_mac_init(enetIfPtr, &rxbdCfg, &txbdCfg) == kStatus_ENET_Success)
-  {
-    /* Initialize PHY*/
-    if (enetIfPtr->macCfgPtr->isPhyAutoDiscover) {
-      if (((enet_phy_api_t *)(enetIfPtr->phyApiPtr))->phy_auto_discover(enetIfPtr) != kStatus_PHY_Success)
-        return ERR_IF;
-    }
-    if (((enet_phy_api_t *)(enetIfPtr->phyApiPtr))->phy_init(enetIfPtr) != kStatus_PHY_Success)
-      return ERR_IF;
+  k64f_enet->tx_consume_index = k64f_enet->tx_produce_index = 0;
+
+  /* prepare the buffer configuration. */
+  enet_buffer_config_t buffCfg = {
+    ENET_RX_RING_LEN,
+    ENET_TX_RING_LEN,
+    ENET_ALIGN(ENET_ETH_MAX_FLEN, ENET_BUFF_ALIGNMENT),
+    0,
+    (volatile enet_rx_bd_struct_t *)rx_desc_start_addr,
+    (volatile enet_tx_bd_struct_t *)tx_desc_start_addr,
+    (uint8_t *)&rx_ptr,
+    NULL,
+  };
+
+  k64f_init_eth_hardware();
+
+  sysClock = CLOCK_GetFreq(kCLOCK_CoreSysClk);
 
-    enetIfPtr->isInitialized = true;
-  }
-  else
-  {
-    // TODOETH: cleanup memory
-    return ERR_IF;
-  }
+  ENET_GetDefaultConfig(&config);
 
-  /* Get link information from PHY */
-  phy_get_link_speed(enetIfPtr, &phy_speed);
-  phy_get_link_duplex(enetIfPtr, &phy_duplex);
-  BW_ENET_RCR_RMII_10T(enetIfPtr->deviceNumber, phy_speed == kEnetSpeed10M ? kEnetCfgSpeed10M : kEnetCfgSpeed100M);
-  BW_ENET_TCR_FDEN(enetIfPtr->deviceNumber, phy_duplex == kEnetFullDuplex ? kEnetCfgFullDuplex : kEnetCfgHalfDuplex);
-
-  /* Enable Ethernet module*/
-  enet_hal_config_ethernet(BOARD_DEBUG_ENET_INSTANCE_ADDR, true, true);
-
-  /* Active Receive buffer descriptor must be done after module enable*/
-  enet_hal_active_rxbd(enetIfPtr->deviceNumber);
+  PHY_Init(ENET, 0, sysClock);
+  PHY_GetLinkStatus(ENET, phyAddr, &link);
+  if (link)
+  {
+    /* Get link information from PHY */
+    PHY_GetLinkSpeedDuplex(ENET, phyAddr, &phy_speed, &phy_duplex);
+    /* Change the MII speed and duplex for actual link status. */
+    config.miiSpeed = (enet_mii_speed_t)phy_speed;
+    config.miiDuplex = (enet_mii_duplex_t)phy_duplex;
+    config.interrupt = kENET_RxFrameInterrupt | kENET_TxFrameInterrupt;
+  }
+  config.rxMaxFrameLen = ENET_ETH_MAX_FLEN;
+  config.macSpecialConfig = kENET_ControlFlowControlEnable;
+  config.txAccelerConfig = kENET_TxAccelIsShift16Enabled;
+  config.rxAccelerConfig = kENET_RxAccelisShift16Enabled | kENET_RxAccelMacCheckEnabled;
+  ENET_Init(ENET, &g_handle, &config, &buffCfg, netif->hwaddr, sysClock);
+  ENET_SetCallback(&g_handle, ethernet_callback, netif);
+  ENET_ActiveRead(ENET);
 
   return ERR_OK;
 }
 
-/********************************************************************************
- * LWIP port
- ********************************************************************************/
-
-/** \brief Ethernet receive interrupt handler
- *
- *  This function handles the receive interrupt of K64F.
- */
-void enet_mac_rx_isr(void *enetIfPtr)
-{
-  /* Clear interrupt */
-  enet_hal_clear_interrupt(((enet_dev_if_t *)enetIfPtr)->deviceNumber, kEnetRxFrameInterrupt);
-  sys_sem_signal(&k64f_enetdata.RxReadySem);
-}
-
-void enet_mac_tx_isr(void *enetIfPtr)
-{
-  /*Clear interrupt*/
-  enet_hal_clear_interrupt(((enet_dev_if_t *)enetIfPtr)->deviceNumber, kEnetTxFrameInterrupt);
-  sys_sem_signal(&k64f_enetdata.TxCleanSem);
-}
 
 /**
  * This function is the ethernet packet send function. It calls
@@ -409,11 +261,13 @@
  */
 static struct pbuf *k64f_low_level_input(struct netif *netif, int idx)
 {
-  struct k64f_enetdata *k64f_enet = netif->state;
-  enet_bd_struct_t * bdPtr = (enet_bd_struct_t*)k64f_enet->rx_desc_start_addr;
+  volatile enet_rx_bd_struct_t *bdPtr = g_handle.rxBdCurrent;
   struct pbuf *p = NULL;
-  u32_t length = 0, orig_length;
-  const u16_t err_mask = kEnetRxBdTrunc | kEnetRxBdCrc | kEnetRxBdNoOctet | kEnetRxBdLengthViolation;
+  struct pbuf *temp_rxbuf = NULL;
+  u32_t length = 0;
+  const u16_t err_mask = ENET_BUFFDESCRIPTOR_RX_TRUNC_MASK | ENET_BUFFDESCRIPTOR_RX_CRC_MASK |
+                         ENET_BUFFDESCRIPTOR_RX_NOOCTET_MASK | ENET_BUFFDESCRIPTOR_RX_LENVLIOLATE_MASK;
+
 
 #ifdef LOCK_RX_THREAD
   /* Get exclusive access */
@@ -421,42 +275,32 @@
 #endif
 
   /* Determine if a frame has been received */
-  if ((bdPtr[idx].control & err_mask) != 0) {
+  if ((bdPtr->control & err_mask) != 0) {
 #if LINK_STATS
-    if ((bdPtr[idx].control & kEnetRxBdLengthViolation) != 0)
+    if ((bdPtr->control & ENET_BUFFDESCRIPTOR_RX_LENVLIOLATE_MASK) != 0)
       LINK_STATS_INC(link.lenerr);
     else
       LINK_STATS_INC(link.chkerr);
 #endif
     LINK_STATS_INC(link.drop);
-
-    /* Re-queue the same buffer */
-    k64f_enet->rx_free_descs++;
-    p = k64f_enet->rxb[idx];
-    k64f_enet->rxb[idx] = NULL;
-    k64f_rxqueue_pbuf(k64f_enet, p, idx);
-    p = NULL;
+    /* Re-use the same buffer in case of error */
+    update_read_buffer(NULL);
   } else {
     /* A packet is waiting, get length */
-    length = enet_hal_get_bd_length(bdPtr + idx);
+    length = bdPtr->length;
 
     /* Zero-copy */
-    p = k64f_enet->rxb[idx];
-    orig_length = p->len;
-    p->len = (u16_t) length;
+    p = rx_buff[idx];
+    p->len = length;
 
-    /* Free pbuf from descriptor */
-    k64f_enet->rxb[idx] = NULL;
-    k64f_enet->rx_free_descs++;
-    
     /* Attempt to queue new buffer */
-    if (k64f_rx_queue(netif, idx) == 0) {
+    temp_rxbuf = pbuf_alloc(PBUF_RAW, ENET_ETH_MAX_FLEN + ENET_BUFF_ALIGNMENT, PBUF_RAM);
+    if (NULL == temp_rxbuf) {
       /* Drop frame (out of memory) */
       LINK_STATS_INC(link.drop);
 
       /* Re-queue the same buffer */
-      p->len = orig_length;
-      k64f_rxqueue_pbuf(k64f_enet, p, idx);
+      update_read_buffer(NULL);
 
       LWIP_DEBUGF(UDP_LPC_EMAC | LWIP_DBG_TRACE,
         ("k64f_low_level_input: Packet index %d dropped for OOM\n",
@@ -468,6 +312,15 @@
       return NULL;
     }
 
+    rx_buff[idx] = temp_rxbuf;
+    /* K64F note: the next line ensures that the RX buffer is properly aligned for the K64F
+       RX descriptors (16 bytes alignment). However, by doing so, we're effectively changing
+       a data structure which is internal to lwIP. This might not prove to be a good idea
+       in the long run, but a better fix would probably involve modifying lwIP itself */
+    rx_buff[idx]->payload = (void*)ENET_ALIGN((uint32_t)rx_buff[idx]->payload, ENET_BUFF_ALIGNMENT);
+    rx_ptr[idx] = rx_buff[idx]->payload;
+
+    update_read_buffer(rx_buff[idx]->payload);
     LWIP_DEBUGF(UDP_LPC_EMAC | LWIP_DBG_TRACE,
       ("k64f_low_level_input: Packet received: %p, size %d (index=%d)\n",
       p, length, idx));
@@ -533,14 +386,13 @@
  */
 static void packet_rx(void* pvParameters) {
   struct k64f_enetdata *k64f_enet = pvParameters;
-  volatile enet_bd_struct_t * bdPtr = (enet_bd_struct_t*)k64f_enet->rx_desc_start_addr;
   int idx = 0;
 
   while (1) {
     /* Wait for receive task to wakeup */
     sys_arch_sem_wait(&k64f_enet->RxReadySem, 0);
 
-    while ((bdPtr[idx].control & kEnetRxBdEmpty) == 0) {
+    while ((g_handle.rxBdCurrent->control & ENET_BUFFDESCRIPTOR_RX_EMPTY_MASK) == 0) {
       k64f_enetif_input(k64f_enet->netif, idx);
       idx = (idx + 1) % ENET_RX_RING_LEN;
     }
@@ -561,58 +413,10 @@
   while (1) {
     /* Wait for transmit cleanup task to wakeup */
     sys_arch_sem_wait(&k64f_enet->TxCleanSem, 0);
-    // TODOETH: handle TX underrun?
     k64f_tx_reclaim(k64f_enet);
   }
 }
 
- /** \brief  Polls if an available TX descriptor is ready. Can be used to
- *           determine if the low level transmit function will block.
- *
- *  \param[in] netif the lwip network interface structure
- *  \return 0 if no descriptors are read, or >0
- */
-s32_t k64f_tx_ready(struct netif *netif)
-{
-  struct k64f_enetdata *k64f_enet = netif->state;
-  s32_t fb;
-  u32_t idx, cidx;
-
-  cidx = k64f_enet->tx_consume_index;
-  idx = k64f_enet->tx_produce_index;
-
-  /* Determine number of free buffers */
-  if (idx == cidx)
-    fb = ENET_TX_RING_LEN;
-  else if (cidx > idx)
-    fb = (ENET_TX_RING_LEN - 1) -
-      ((idx + ENET_TX_RING_LEN) - cidx);
-  else
-    fb = (ENET_TX_RING_LEN - 1) - (cidx - idx);
-
-  return fb;
-}
-
-/*FUNCTION****************************************************************
- *
- * Function Name: enet_hal_update_txbds
- * Description: Update ENET transmit buffer descriptors.
- *END*********************************************************************/
-void k64f_update_txbds(struct k64f_enetdata *k64f_enet, int idx, uint8_t *buffer, uint16_t length, bool isLast)
-{
-  volatile enet_bd_struct_t * bdPtr = (enet_bd_struct_t *)(k64f_enet->tx_desc_start_addr + idx * enet_hal_get_bd_size());
-    
-  bdPtr->length = HTONS(length); /* Set data length*/
-  bdPtr->buffer = (uint8_t *)HTONL((uint32_t)buffer); /* Set data buffer*/
-  if (isLast)
-    bdPtr->control |= kEnetTxBdLast;
-  else
-    bdPtr->control &= ~kEnetTxBdLast;
-  bdPtr->controlExtend1 |= kEnetTxBdTxInterrupt;
-  bdPtr->controlExtend2 &= ~TX_DESC_UPDATED_MASK; // descriptor not updated by DMA
-  bdPtr->control |= kEnetTxBdTransmitCrc | kEnetTxBdReady;
-}
-
 /** \brief  Low level output of a packet. Never call this from an
  *          interrupt context, as it may block until TX descriptors
  *          become available.
@@ -625,83 +429,51 @@
 {
   struct k64f_enetdata *k64f_enet = netif->state;
   struct pbuf *q;
-  u32_t idx;
-  s32_t dn;
+  struct pbuf *temp_pbuf;
   uint8_t *psend = NULL, *dst;
 
-  /* Get free TX buffer index */
-  idx = k64f_enet->tx_produce_index;
-  
-  /* Check the pbuf chain for payloads that are not 8-byte aligned.
-     If found, a new properly aligned buffer needs to be allocated
-     and the data copied there */
-  for (q = p; q != NULL; q = q->next)
-    if (((u32_t)q->payload & (TX_BUF_ALIGNMENT - 1)) != 0)
-      break;
-  if (q != NULL) {
-    // Allocate properly aligned buffer
-    psend = (uint8_t*)malloc(p->tot_len);
-    if (NULL == psend)
-      return ERR_MEM;   
-    LWIP_ASSERT("k64f_low_level_output: buffer not properly aligned", ((u32_t)psend & (TX_BUF_ALIGNMENT - 1)) == 0);
-    for (q = p, dst = psend; q != NULL; q = q->next) {
-      MEMCPY(dst, q->payload, q->len);
-      dst += q->len;
-    }
-    k64f_enet->txb_aligned[idx] = psend;
-    dn = 1;
-  } else {
-    k64f_enet->txb_aligned[idx] = NULL;
-    dn = (s32_t) pbuf_clen(p);
-    pbuf_ref(p);
+
+  temp_pbuf = pbuf_alloc(PBUF_RAW, p->tot_len + ENET_BUFF_ALIGNMENT, PBUF_RAM);
+  if (NULL == temp_pbuf)
+    return ERR_MEM;
+
+  /* K64F note: the next line ensures that the RX buffer is properly aligned for the K64F
+     RX descriptors (16 bytes alignment). However, by doing so, we're effectively changing
+     a data structure which is internal to lwIP. This might not prove to be a good idea
+     in the long run, but a better fix would probably involve modifying lwIP itself */
+  psend = (uint8_t *)ENET_ALIGN((uint32_t)temp_pbuf->payload, ENET_BUFF_ALIGNMENT);
+
+  for (q = p, dst = psend; q != NULL; q = q->next) {
+    MEMCPY(dst, q->payload, q->len);
+    dst += q->len;
   }
 
-  /* Wait until enough descriptors are available for the transfer. */
-  /* THIS WILL BLOCK UNTIL THERE ARE ENOUGH DESCRIPTORS AVAILABLE */
-  while (dn > k64f_tx_ready(netif))
+  /* Wait until a descriptor is available for the transfer. */
+  /* THIS WILL BLOCK UNTIL THERE ARE A DESCRIPTOR AVAILABLE */
+  while (g_handle.txBdCurrent->control & ENET_BUFFDESCRIPTOR_TX_READY_MASK)
     osSemaphoreWait(k64f_enet->xTXDCountSem.id, osWaitForever);
 
   /* Get exclusive access */
   sys_mutex_lock(&k64f_enet->TXLockMutex);
 
+  /* Save the buffer so that it can be freed when transmit is done */
+  tx_buff[k64f_enet->tx_produce_index] = temp_pbuf;
+  k64f_enet->tx_produce_index = (k64f_enet->tx_produce_index + 1) % ENET_TX_RING_LEN;
+
   /* Setup transfers */
-  q = p;
-  while (dn > 0) {
-    dn--;
-    if (psend != NULL) {
-      k64f_update_txbds(k64f_enet, idx, psend, p->tot_len, 1);
-      k64f_enet->txb[idx] = NULL;
-      
-      LWIP_DEBUGF(UDP_LPC_EMAC | LWIP_DBG_TRACE,
-      ("k64f_low_level_output: aligned packet(%p) sent"
-      " size = %d (index=%d)\n", psend, p->tot_len, idx));      
-    } else {
-      LWIP_ASSERT("k64f_low_level_output: buffer not properly aligned", ((u32_t)q->payload & 0x07) == 0);
+  g_handle.txBdCurrent->buffer = psend;
+  g_handle.txBdCurrent->length = p->tot_len;
+  g_handle.txBdCurrent->control |= (ENET_BUFFDESCRIPTOR_TX_READY_MASK | ENET_BUFFDESCRIPTOR_TX_LAST_MASK);
 
-      /* Only save pointer to free on last descriptor */
-      if (dn == 0) {
-        /* Save size of packet and signal it's ready */
-        k64f_update_txbds(k64f_enet, idx, q->payload, q->len, 1);
-        k64f_enet->txb[idx] = p;
-      }
-      else {
-        /* Save size of packet, descriptor is not last */
-        k64f_update_txbds(k64f_enet, idx, q->payload, q->len, 0);
-        k64f_enet->txb[idx] = NULL;
-      }
-      
-      LWIP_DEBUGF(UDP_LPC_EMAC | LWIP_DBG_TRACE,
-      ("k64f_low_level_output: pbuf packet(%p) sent, chain#=%d,"
-      " size = %d (index=%d)\n", q->payload, dn, q->len, idx));
-    }
+  /* Increase the buffer descriptor address. */
+  if (g_handle.txBdCurrent->control & ENET_BUFFDESCRIPTOR_TX_WRAP_MASK)
+    g_handle.txBdCurrent = g_handle.txBdBase;
+  else
+    g_handle.txBdCurrent++;
 
-    q = q->next;
+  /* Active the transmit buffer descriptor. */
+  ENET->TDAR = ENET_TDAR_TDAR_MASK;
 
-    idx = (idx + 1) % ENET_TX_RING_LEN;
-  }
-
-  k64f_enet->tx_produce_index = idx;
-  enet_hal_active_txbd(BOARD_DEBUG_ENET_INSTANCE_ADDR);
   LINK_STATS_INC(link.xmit);
 
   /* Restore access */
@@ -719,31 +491,33 @@
 
 typedef struct {
     int connected;
-    enet_phy_speed_t speed;
-    enet_phy_duplex_t duplex;
+    phy_speed_t speed;
+    phy_duplex_t duplex;
 } PHY_STATE;
 
 int phy_link_status() {
     bool connection_status;
-    enet_dev_if_t * enetIfPtr = (enet_dev_if_t*)&enetDevIf[BOARD_DEBUG_ENET_INSTANCE];
-    phy_get_link_status(enetIfPtr, &connection_status);
+    uint32_t phyAddr = 0;
+
+    PHY_GetLinkStatus(ENET, phyAddr, &connection_status);
     return (int)connection_status;
 }
 
 static void k64f_phy_task(void *data) {
   struct netif *netif = (struct netif*)data;
   bool connection_status;
-  enet_dev_if_t * enetIfPtr = (enet_dev_if_t*)&enetDevIf[BOARD_DEBUG_ENET_INSTANCE];
-  PHY_STATE crt_state = {STATE_UNKNOWN, (enet_phy_speed_t)STATE_UNKNOWN, (enet_phy_duplex_t)STATE_UNKNOWN};
+  PHY_STATE crt_state = {STATE_UNKNOWN, (phy_speed_t)STATE_UNKNOWN, (phy_duplex_t)STATE_UNKNOWN};
   PHY_STATE prev_state;
+  uint32_t phyAddr = 0;
+  uint32_t rcr = 0;
 
   prev_state = crt_state;
   while (true) {
     // Get current status
-    phy_get_link_status(enetIfPtr, &connection_status);
+    PHY_GetLinkStatus(ENET, phyAddr, &connection_status);
     crt_state.connected = connection_status ? 1 : 0;
-    phy_get_link_speed(enetIfPtr, &crt_state.speed);
-    phy_get_link_duplex(enetIfPtr, &crt_state.duplex);
+    // Get the actual PHY link speed
+    PHY_GetLinkSpeedDuplex(ENET, phyAddr, &crt_state.speed, &crt_state.duplex);
 
     // Compare with previous state
     if (crt_state.connected != prev_state.connected) {
@@ -753,10 +527,12 @@
         tcpip_callback_with_block((tcpip_callback_fn)netif_set_link_down, (void*) netif, 1);
     }
 
-    if (crt_state.speed != prev_state.speed)
-      BW_ENET_RCR_RMII_10T(enetIfPtr->deviceNumber, crt_state.speed == kEnetSpeed10M ? kEnetCfgSpeed10M : kEnetCfgSpeed100M);
-
-    // TODO: duplex change requires disable/enable of Ethernet interface, to be implemented
+    if (crt_state.speed != prev_state.speed) {
+      rcr = ENET->RCR;
+      rcr &= ~ENET_RCR_RMII_10T_MASK;
+      rcr |= ENET_RCR_RMII_10T(!crt_state.speed);
+      ENET->RCR = rcr;
+    }
 
     prev_state = crt_state;
     osDelay(PHY_TASK_PERIOD_MS);
@@ -851,32 +627,14 @@
 }
 
 void eth_arch_enable_interrupts(void) {
-  enet_hal_config_interrupt(BOARD_DEBUG_ENET_INSTANCE_ADDR, (kEnetTxFrameInterrupt | kEnetRxFrameInterrupt), true);
-  INT_SYS_EnableIRQ(enet_irq_ids[BOARD_DEBUG_ENET_INSTANCE][enetIntMap[kEnetRxfInt]]);
-  INT_SYS_EnableIRQ(enet_irq_ids[BOARD_DEBUG_ENET_INSTANCE][enetIntMap[kEnetTxfInt]]);
+  //NVIC_SetPriority(ENET_Receive_IRQn, 6U);
+  //NVIC_SetPriority(ENET_Transmit_IRQn, 6U);
 }
 
 void eth_arch_disable_interrupts(void) {
-  INT_SYS_DisableIRQ(enet_irq_ids[BOARD_DEBUG_ENET_INSTANCE][enetIntMap[kEnetRxfInt]]);
-  INT_SYS_DisableIRQ(enet_irq_ids[BOARD_DEBUG_ENET_INSTANCE][enetIntMap[kEnetTxfInt]]);
-}
 
-void ENET_Transmit_IRQHandler(void)
-{
-     enet_mac_tx_isr(enetIfHandle);
 }
 
-void ENET_Receive_IRQHandler(void)
-{
-     enet_mac_rx_isr(enetIfHandle);
-}
-
-#if FSL_FEATURE_ENET_SUPPORT_PTP
-void ENET_1588_Timer_IRQHandler(void)
-{
-     enet_mac_ts_isr(enetIfHandle);
-}
-#endif
 /**
  * @}
  */