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- /*
- * File : drv_eth.c
- * This file is part of RT-Thread RTOS
- * COPYRIGHT (C) 2009-2013 RT-Thread Develop Team
- *
- * The license and distribution terms for this file may be
- * found in the file LICENSE in this distribution or at
- * http://www.rt-thread.org/license/LICENSE
- *
- * Change Logs:
- * Date Author Notes
- * 2014-07-25 ArdaFu Port to TM4C129X
- */
- /**
- * @file - tivaif.c
- * lwIP Ethernet interface for Stellaris LM4F Devices
- *
- */
- /**
- * Copyright (c) 2001-2004 Swedish Institute of Computer Science.
- * All rights reserved.
- *
- * 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. The name of the author may not be used to endorse or promote products
- * derived from this software without specific prior written permission.
- *
- * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED
- * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
- * MERCHANTABILITY AND FITNESS FOR A PARTICui32AR PURPOSE ARE DISCLAIMED. IN NO EVENT
- * SHALL THE AUTHOR 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.
- *
- * This file is part of the lwIP TCP/IP stack.
- *
- * Author: Adam Dunkels <adam@sics.se>
- *
- */
- /**
- * Copyright (c) 2008-2012 Texas Instruments Incorporated
- *
- * This file is derived from the ``ethernetif.c'' skeleton Ethernet network
- * interface driver for lwIP.
- *
- */
- #include "lwip/opt.h"
- #include "lwip/def.h"
- #include "lwip/mem.h"
- #include "lwip/pbuf.h"
- #include "lwip/sys.h"
- #include <lwip/stats.h>
- #include <lwip/snmp.h>
- #include "lwip/tcpip.h"
- #include "netif/etharp.h"
- #include "netif/ppp_oe.h"
- /**
- * Sanity Check: This interface driver will NOT work if the following defines
- * are incorrect.
- *
- */
- #if (PBUF_LINK_HLEN != 16)
- #error "PBUF_LINK_HLEN must be 16 for this interface driver!"
- #endif
- #if (ETH_PAD_SIZE != 0)
- #error "ETH_PAD_SIZE must be 0 for this interface driver!"
- #endif
- #if (!SYS_LIGHTWEIGHT_PROT)
- #error "SYS_LIGHTWEIGHT_PROT must be enabled for this interface driver!"
- #endif
- /**
- * Set the physical address of the PHY we will be using if this is not
- * specified in lwipopts.h. We assume 0 for the internal PHY.
- */
- #ifndef PHY_PHYS_ADDR
- #define PHY_PHYS_ADDR 0
- #endif
- #ifndef EMAC_PHY_CONFIG
- #define EMAC_PHY_CONFIG (EMAC_PHY_TYPE_INTERNAL | EMAC_PHY_INT_MDIX_EN | \
- EMAC_PHY_AN_100B_T_FULL_DUPLEX)
- #endif
- /**
- * If necessary, set the defaui32t number of transmit and receive DMA descriptors
- * used by the Ethernet MAC.
- *
- */
- #ifndef NUM_RX_DESCRIPTORS
- #define NUM_RX_DESCRIPTORS 4
- #endif
- #ifndef NUM_TX_DESCRIPTORS
- #define NUM_TX_DESCRIPTORS 8
- #endif
- /**
- * Setup processing for PTP (IEEE-1588).
- *
- */
- #if LWIP_PTPD
- extern uint32_t g_ui32SysClk;
- extern uint32_t g_ui32PTPTickRate;
- extern void lwIPHostGetTime(u32_t *time_s, u32_t *time_ns);
- #endif
- /**
- * Stellaris DriverLib Header Files required for this interface driver.
- *
- */
- #include <stdint.h>
- #include <stdbool.h>
- #include "inc/hw_emac.h"
- #include "inc/hw_ints.h"
- #include "inc/hw_memmap.h"
- #include "inc/hw_types.h"
- #include "driverlib/emac.h"
- #include "driverlib/interrupt.h"
- #include "driverlib/sysctl.h"
- #include "driverlib/flash.h"
- #include "driverlib/interrupt.h"
- #include "driverlib/pin_map.h"
- #include "driverlib/rom_map.h"
- #include "driverlib/gpio.h"
- #include <netif/ethernetif.h>
- #include "lwipopts.h"
- #include "drv_eth.h"
- /**
- * A structure used to keep track of driver state and error counts.
- */
- typedef struct {
- uint32_t ui32TXCount;
- uint32_t ui32TXCopyCount;
- uint32_t ui32TXCopyFailCount;
- uint32_t ui32TXNoDescCount;
- uint32_t ui32TXBufQueuedCount;
- uint32_t ui32TXBufFreedCount;
- uint32_t ui32RXBufReadCount;
- uint32_t ui32RXPacketReadCount;
- uint32_t ui32RXPacketErrCount;
- uint32_t ui32RXPacketCBErrCount;
- uint32_t ui32RXNoBufCount;
- }
- tDriverStats;
- tDriverStats g_sDriverStats;
- #ifdef DEBUG
- /**
- * Note: This rather weird construction where we invoke the macro with the
- * name of the field minus its Hungarian prefix is a workaround for a problem
- * experienced with GCC which does not like concatenating tokens after an
- * operator, specifically '.' or '->', in a macro.
- */
- #define DRIVER_STATS_INC(x) do{ g_sDriverStats.ui32##x++; } while(0)
- #define DRIVER_STATS_DEC(x) do{ g_sDriverStats.ui32##x--; } while(0)
- #define DRIVER_STATS_ADD(x, inc) do{ g_sDriverStats.ui32##x += (inc); } while(0)
- #define DRIVER_STATS_SUB(x, dec) do{ g_sDriverStats.ui32##x -= (dec); } while(0)
- #else
- #define DRIVER_STATS_INC(x)
- #define DRIVER_STATS_DEC(x)
- #define DRIVER_STATS_ADD(x, inc)
- #define DRIVER_STATS_SUB(x, dec)
- #endif
- /**
- * Helper struct holding a DMA descriptor and the pbuf it currently refers
- * to.
- */
- typedef struct {
- tEMACDMADescriptor Desc;
- struct pbuf *pBuf;
- } tDescriptor;
- typedef struct {
- tDescriptor *pDescriptors;
- uint32_t ui32NumDescs;
- uint32_t ui32Read;
- uint32_t ui32Write;
- } tDescriptorList;
- /**
- * Helper struct to hold private data used to operate your ethernet interface.
- * Keeping the ethernet address of the MAC in this struct is not necessary
- * as it is already kept in the struct netif.
- * But this is only an example, anyway...
- */
- typedef struct {
- struct eth_addr *ethaddr;
- /* Add whatever per-interface state that is needed here. */
- tDescriptorList *pTxDescList;
- tDescriptorList *pRxDescList;
- } tStellarisIF;
- /**
- * Global variable for this interface's private data. Needed to allow
- * the interrupt handlers access to this information outside of the
- * context of the lwIP netif.
- *
- */
- tDescriptor g_pTxDescriptors[NUM_TX_DESCRIPTORS];
- tDescriptor g_pRxDescriptors[NUM_RX_DESCRIPTORS];
- tDescriptorList g_TxDescList = {
- g_pTxDescriptors, NUM_TX_DESCRIPTORS, 0, 0
- };
- tDescriptorList g_RxDescList = {
- g_pRxDescriptors, NUM_RX_DESCRIPTORS, 0, 0
- };
- static tStellarisIF g_StellarisIFData = {
- 0, &g_TxDescList, &g_RxDescList
- };
- /**
- * Interrupt counters (for debug purposes).
- */
- volatile uint32_t g_ui32NormalInts;
- volatile uint32_t g_ui32AbnormalInts;
- /**
- * A macro which determines whether a pointer is within the SRAM address
- * space and, hence, points to a buffer that the Ethernet MAC can directly
- * DMA from.
- */
- #define PTR_SAFE_FOR_EMAC_DMA(ptr) (((uint32_t)(ptr) >= 0x2000000) && \
- ((uint32_t)(ptr) < 0x20070000))
- typedef struct
- {
- /* inherit from ethernet device */
- struct eth_device parent;
- tStellarisIF* dma_if;
- /* for rx_thread async get pbuf */
- rt_mailbox_t rx_pbuf_mb;
- } net_device;
- typedef net_device* net_device_t;
- static char rx_pbuf_mb_pool[8*4];
- static struct rt_mailbox eth_rx_pbuf_mb;
- static net_device eth_dev_entry;
- static net_device_t eth_dev = ð_dev_entry;
- /**
- * Initialize the transmit and receive DMA descriptor lists.
- */
- void
- InitDMADescriptors(void)
- {
- uint32_t ui32Loop;
- /* Transmit list - mark all descriptors as not owned by the hardware */
- for(ui32Loop = 0; ui32Loop < NUM_TX_DESCRIPTORS; ui32Loop++)
- {
- g_pTxDescriptors[ui32Loop].pBuf = (struct pbuf *)0;
- g_pTxDescriptors[ui32Loop].Desc.ui32Count = 0;
- g_pTxDescriptors[ui32Loop].Desc.pvBuffer1 = 0;
- g_pTxDescriptors[ui32Loop].Desc.DES3.pLink =
- ((ui32Loop == (NUM_TX_DESCRIPTORS - 1)) ?
- &g_pTxDescriptors[0].Desc : &g_pTxDescriptors[ui32Loop + 1].Desc);
- g_pTxDescriptors[ui32Loop].Desc.ui32CtrlStatus = DES0_TX_CTRL_INTERRUPT |
- DES0_TX_CTRL_CHAINED | DES0_TX_CTRL_IP_ALL_CKHSUMS;
- }
- g_TxDescList.ui32Read = 0;
- g_TxDescList.ui32Write = 0;
- /* Receive list - tag each descriptor with a pbuf and set all fields to
- * allow packets to be received.
- */
- for(ui32Loop = 0; ui32Loop < NUM_RX_DESCRIPTORS; ui32Loop++)
- {
- g_pRxDescriptors[ui32Loop].pBuf = pbuf_alloc(PBUF_RAW, PBUF_POOL_BUFSIZE,
- PBUF_POOL);
- g_pRxDescriptors[ui32Loop].Desc.ui32Count = DES1_RX_CTRL_CHAINED;
- if(g_pRxDescriptors[ui32Loop].pBuf)
- {
- /* Set the DMA to write directly into the pbuf payload. */
- g_pRxDescriptors[ui32Loop].Desc.pvBuffer1 =
- g_pRxDescriptors[ui32Loop].pBuf->payload;
- g_pRxDescriptors[ui32Loop].Desc.ui32Count |=
- (g_pRxDescriptors[ui32Loop].pBuf->len << DES1_RX_CTRL_BUFF1_SIZE_S);
- g_pRxDescriptors[ui32Loop].Desc.ui32CtrlStatus = DES0_RX_CTRL_OWN;
- }
- else
- {
- LWIP_DEBUGF(NETIF_DEBUG, ("tivaif_init: pbuf_alloc error\n"));
- /* No pbuf available so leave the buffer pointer empty. */
- g_pRxDescriptors[ui32Loop].Desc.pvBuffer1 = 0;
- g_pRxDescriptors[ui32Loop].Desc.ui32CtrlStatus = 0;
- }
- g_pRxDescriptors[ui32Loop].Desc.DES3.pLink =
- ((ui32Loop == (NUM_RX_DESCRIPTORS - 1)) ?
- &g_pRxDescriptors[0].Desc : &g_pRxDescriptors[ui32Loop + 1].Desc);
- }
- g_TxDescList.ui32Read = 0;
- g_TxDescList.ui32Write = 0;
- //
- // Set the descriptor pointers in the hardware.
- //
- EMACRxDMADescriptorListSet(EMAC0_BASE, &g_pRxDescriptors[0].Desc);
- EMACTxDMADescriptorListSet(EMAC0_BASE, &g_pTxDescriptors[0].Desc);
- }
- /**
- * In this function, the hardware should be initialized.
- * Called from tivaif_init().
- *
- * @param netif the already initialized lwip network interface structure
- * for this ethernetif
- */
- static void
- tivaif_hwinit(struct netif *psNetif)
- {
- uint16_t ui16Val;
- /* Initialize the DMA descriptors. */
- InitDMADescriptors();
- /* Clear any stray PHY interrupts that may be set. */
- ui16Val = EMACPHYRead(EMAC0_BASE, PHY_PHYS_ADDR, EPHY_MISR1);
- ui16Val = EMACPHYRead(EMAC0_BASE, PHY_PHYS_ADDR, EPHY_MISR2);
- /* Configure and enable the link status change interrupt in the PHY. */
- ui16Val = EMACPHYRead(EMAC0_BASE, PHY_PHYS_ADDR, EPHY_SCR);
- ui16Val |= (EPHY_SCR_INTEN_EXT | EPHY_SCR_INTOE_EXT);
- EMACPHYWrite(EMAC0_BASE, PHY_PHYS_ADDR, EPHY_SCR, ui16Val);
- EMACPHYWrite(EMAC0_BASE, PHY_PHYS_ADDR, EPHY_MISR1, (EPHY_MISR1_LINKSTATEN |
- EPHY_MISR1_SPEEDEN | EPHY_MISR1_DUPLEXMEN | EPHY_MISR1_ANCEN));
- /* Read the PHY interrupt status to clear any stray events. */
- ui16Val = EMACPHYRead(EMAC0_BASE, PHY_PHYS_ADDR, EPHY_MISR1);
- /**
- * Set MAC filtering options. We receive all broadcast and mui32ticast
- * packets along with those addressed specifically for us.
- */
- EMACFrameFilterSet(EMAC0_BASE, (EMAC_FRMFILTER_HASH_AND_PERFECT |
- EMAC_FRMFILTER_PASS_MULTICAST));
- #if LWIP_PTPD
- //
- // Enable timestamping on all received packets.
- //
- // We set the fine clock adjustment mode and configure the subsecond
- // increment to half the 25MHz PTPD clock. This will give us maximum control
- // over the clock rate adjustment and keep the arithmetic easy later. It
- // should be possible to synchronize with higher accuracy than this with
- // appropriate juggling of the subsecond increment count and the addend
- // register value, though.
- //
- EMACTimestampConfigSet(EMAC0_BASE, (EMAC_TS_ALL_RX_FRAMES |
- EMAC_TS_DIGITAL_ROLLOVER |
- EMAC_TS_PROCESS_IPV4_UDP | EMAC_TS_ALL |
- EMAC_TS_PTP_VERSION_1 | EMAC_TS_UPDATE_FINE),
- (1000000000 / (25000000 / 2)));
- EMACTimestampAddendSet(EMAC0_BASE, 0x80000000);
- EMACTimestampEnable(EMAC0_BASE);
- #endif
- /* Clear any pending MAC interrupts. */
- EMACIntClear(EMAC0_BASE, EMACIntStatus(EMAC0_BASE, false));
- /* Enable the Ethernet MAC transmitter and receiver. */
- EMACTxEnable(EMAC0_BASE);
- EMACRxEnable(EMAC0_BASE);
- /* Enable the Ethernet RX and TX interrupt source. */
- EMACIntEnable(EMAC0_BASE, (EMAC_INT_RECEIVE | EMAC_INT_TRANSMIT |
- EMAC_INT_TX_STOPPED | EMAC_INT_RX_NO_BUFFER |
- EMAC_INT_RX_STOPPED | EMAC_INT_PHY));
- /* Enable the Ethernet interrupt. */
- IntEnable(INT_EMAC0);
- /* Enable all processor interrupts. */
- IntMasterEnable();
- /* Tell the PHY to start an auto-negotiation cycle. */
- EMACPHYWrite(EMAC0_BASE, PHY_PHYS_ADDR, EPHY_BMCR, (EPHY_BMCR_ANEN |
- EPHY_BMCR_RESTARTAN));
- }
- #ifdef DEBUG
- /**
- * Dump the chain of pbuf pointers to the debug output.
- */
- void
- tivaif_trace_pbuf(const char *pcTitle, struct pbuf *p)
- {
- LWIP_DEBUGF(NETIF_DEBUG, ("%s %08x (%d, %d)", pcTitle, p, p->tot_len,
- p->len));
- do
- {
- p = p->next;
- if(p)
- {
- LWIP_DEBUGF(NETIF_DEBUG, ("->%08x(%d)", p, p->len));
- }
- else
- {
- LWIP_DEBUGF(NETIF_DEBUG, ("->%08x", p));
- }
- } while((p != NULL) && (p->tot_len != p->len));
- LWIP_DEBUGF(NETIF_DEBUG, ("\n"));
- }
- #endif
- /**
- * This function is used to check whether a passed pbuf contains only buffers
- * resident in regions of memory that the Ethernet MAC can access. If any
- * buffers in the chain are outside a directly-DMAable section of memory,
- * the pbuf is copied to SRAM and a different pointer returned. If all
- * buffers are safe, the pbuf reference count is incremented and the original
- * pointer returned.
- */
- static struct pbuf *
- tivaif_check_pbuf(struct pbuf *p)
- {
- struct pbuf *pBuf;
- rt_err_t Err;
- pBuf = p;
- #ifdef DEBUG
- tivaif_trace_pbuf("Original:", p);
- #endif
- /* Walk the list of buffers in the pbuf checking each. */
- do
- {
- /* Does this pbuf's payload reside in memory that the Ethernet DMA
- * can access?
- */
- if(!PTR_SAFE_FOR_EMAC_DMA(pBuf->payload))
- {
- /* This buffer is outside the DMA-able memory space so we need
- * to copy the pbuf.
- */
- pBuf = pbuf_alloc(PBUF_RAW, p->tot_len, PBUF_POOL);
- /* If we got a new pbuf... */
- if(pBuf)
- {
- /* ...copy the old pbuf into the new one. */
- Err = pbuf_copy(pBuf, p);
- /* If we failed to copy the pbuf, free the newly allocated one
- * and make sure we return a NULL to show a problem.
- */
- if(Err != RT_EOK)
- {
- DRIVER_STATS_INC(TXCopyFailCount);
- pbuf_free(pBuf);
- pBuf = NULL;
- }
- else
- {
- #ifdef DEBUG
- tivaif_trace_pbuf("Copied:", pBuf);
- #endif
- DRIVER_STATS_INC(TXCopyCount);
- /* Reduce the reference count on the original pbuf since
- * we're not going to hold on to it after returning from
- * tivaif_transmit. Note that we already bumped
- * the reference count at the top of tivaif_transmit.
- */
- pbuf_free(p);
- }
- }
- /* Send back the new pbuf pointer or NULL if an error occurred. */
- return(pBuf);
- }
- /* Move on to the next buffer in the queue */
- pBuf = pBuf->next;
- }
- while(pBuf);
- /**
- * If we get here, the passed pbuf can be safely used without needing to
- * be copied.
- */
- return(p);
- }
- /**
- * This function should do the actual transmission of the packet. The packet is
- * contained in the pbuf that is passed to the function. This pbuf might be
- * chained.
- *
- * @param psNetif the lwip network interface structure for this ethernetif
- * @param p the MAC packet to send (e.g. IP packet including MAC addresses and type)
- * @return RT_EOK if the packet coui32d be sent
- * an err_t value if the packet coui32dn't be sent
- */
- static rt_err_t
- tivaif_transmit(net_device_t dev, struct pbuf *p)
- {
- tStellarisIF *pIF;
- tDescriptor *pDesc;
- struct pbuf *pBuf;
- uint32_t ui32NumChained, ui32NumDescs;
- bool bFirst;
- SYS_ARCH_DECL_PROTECT(lev);
- LWIP_DEBUGF(NETIF_DEBUG, ("tivaif_transmit 0x%08x, len %d\n", p,
- p->tot_len));
- /**
- * This entire function must run within a "critical section" to preserve
- * the integrity of the transmit pbuf queue.
- */
- SYS_ARCH_PROTECT(lev);
- /* Update our transmit attempt counter. */
- DRIVER_STATS_INC(TXCount);
- /**
- * Increase the reference count on the packet provided so that we can
- * hold on to it until we are finished transmitting its content.
- */
- pbuf_ref(p);
- /**
- * Determine whether all buffers passed are within SRAM and, if not, copy
- * the pbuf into SRAM-resident buffers so that the Ethernet DMA can access
- * the data.
- */
- p = tivaif_check_pbuf(p);
- /* Make sure we still have a valid buffer (it may have been copied) */
- if(!p)
- {
- LINK_STATS_INC(link.memerr);
- SYS_ARCH_UNPROTECT(lev);
- return(-RT_ENOMEM);
- }
- /* Get our state data from the netif structure we were passed. */
- //pIF = (tStellarisIF *)psNetif->state;
- pIF = dev->dma_if;
-
- /* Make sure that the transmit descriptors are not all in use */
- pDesc = &(pIF->pTxDescList->pDescriptors[pIF->pTxDescList->ui32Write]);
- if(pDesc->pBuf)
- {
- /**
- * The current write descriptor has a pbuf attached to it so this
- * implies that the ring is fui32l. Reject this transmit request with a
- * memory error since we can't satisfy it just now.
- */
- pbuf_free(p);
- LINK_STATS_INC(link.memerr);
- DRIVER_STATS_INC(TXNoDescCount);
- SYS_ARCH_UNPROTECT(lev);
- return (-RT_ENOMEM);
- }
- /* How many pbufs are in the chain passed? */
- ui32NumChained = (uint32_t)pbuf_clen(p);
- /* How many free transmit descriptors do we have? */
- ui32NumDescs = (pIF->pTxDescList->ui32Read > pIF->pTxDescList->ui32Write) ?
- (pIF->pTxDescList->ui32Read - pIF->pTxDescList->ui32Write) :
- ((NUM_TX_DESCRIPTORS - pIF->pTxDescList->ui32Write) +
- pIF->pTxDescList->ui32Read);
- /* Do we have enough free descriptors to send the whole packet? */
- if(ui32NumDescs < ui32NumChained)
- {
- /* No - we can't transmit this whole packet so return an error. */
- pbuf_free(p);
- LINK_STATS_INC(link.memerr);
- DRIVER_STATS_INC(TXNoDescCount);
- SYS_ARCH_UNPROTECT(lev);
- return (-RT_ENOMEM);
- }
- /* Tag the first descriptor as the start of the packet. */
- bFirst = true;
- pDesc->Desc.ui32CtrlStatus = DES0_TX_CTRL_FIRST_SEG;
- /* Here, we know we can send the packet so write it to the descriptors */
- pBuf = p;
- while(ui32NumChained)
- {
- /* Get a pointer to the descriptor we will write next. */
- pDesc = &(pIF->pTxDescList->pDescriptors[pIF->pTxDescList->ui32Write]);
- /* Fill in the buffer pointer and length */
- pDesc->Desc.ui32Count = (uint32_t)pBuf->len;
- pDesc->Desc.pvBuffer1 = pBuf->payload;
- /* Tag the first descriptor as the start of the packet. */
- if(bFirst)
- {
- bFirst = false;
- pDesc->Desc.ui32CtrlStatus = DES0_TX_CTRL_FIRST_SEG;
- }
- else
- {
- pDesc->Desc.ui32CtrlStatus = 0;
- }
- pDesc->Desc.ui32CtrlStatus |= (DES0_TX_CTRL_IP_ALL_CKHSUMS |
- DES0_TX_CTRL_CHAINED);
- /* Decrement our descriptor counter, move on to the next buffer in the
- * pbuf chain. */
- ui32NumChained--;
- pBuf = pBuf->next;
- /* Update the descriptor list write index. */
- pIF->pTxDescList->ui32Write++;
- if(pIF->pTxDescList->ui32Write == NUM_TX_DESCRIPTORS)
- {
- pIF->pTxDescList->ui32Write = 0;
- }
- /* If this is the last descriptor, mark it as the end of the packet. */
- if(!ui32NumChained)
- {
- pDesc->Desc.ui32CtrlStatus |= (DES0_TX_CTRL_LAST_SEG |
- DES0_TX_CTRL_INTERRUPT);
- /* Tag the descriptor with the original pbuf pointer. */
- pDesc->pBuf = p;
- }
- else
- {
- /* Set the lsb of the pbuf pointer. We use this as a signal that
- * we should not free the pbuf when we are walking the descriptor
- * list while processing the transmit interrupt. We only free the
- * pbuf when processing the last descriptor used to transmit its
- * chain.
- */
- pDesc->pBuf = (struct pbuf *)((uint32_t)p + 1);
- }
- DRIVER_STATS_INC(TXBufQueuedCount);
- /* Hand the descriptor over to the hardware. */
- pDesc->Desc.ui32CtrlStatus |= DES0_TX_CTRL_OWN;
- }
- /* Tell the transmitter to start (in case it had stopped). */
- EMACTxDMAPollDemand(EMAC0_BASE);
- /* Update lwIP statistics */
- LINK_STATS_INC(link.xmit);
- SYS_ARCH_UNPROTECT(lev);
- return(RT_EOK);
- }
- /**
- * This function will process all transmit descriptors and free pbufs attached
- * to any that have been transmitted since we last checked.
- *
- * This function is called only from the Ethernet interrupt handler.
- *
- * @param netif the lwip network interface structure for this ethernetif
- * @return None.
- */
- static void
- tivaif_process_transmit(tStellarisIF *pIF)
- {
- tDescriptorList *pDescList;
- uint32_t ui32NumDescs;
- /* Get a pointer to the transmit descriptor list. */
- pDescList = pIF->pTxDescList;
- /* Walk the list until we have checked all descriptors or we reach the
- * write pointer or find a descriptor that the hardware is still working
- * on.
- */
- for(ui32NumDescs = 0; ui32NumDescs < pDescList->ui32NumDescs; ui32NumDescs++)
- {
- /* Has the buffer attached to this descriptor been transmitted? */
- if(pDescList->pDescriptors[pDescList->ui32Read].Desc.ui32CtrlStatus &
- DES0_TX_CTRL_OWN)
- {
- /* No - we're finished. */
- break;
- }
- /* Does this descriptor have a buffer attached to it? */
- if(pDescList->pDescriptors[pDescList->ui32Read].pBuf)
- {
- /* Yes - free it if it's not marked as an intermediate pbuf */
- if(!((uint32_t)(pDescList->pDescriptors[pDescList->ui32Read].pBuf) & 1))
- {
- pbuf_free(pDescList->pDescriptors[pDescList->ui32Read].pBuf);
- DRIVER_STATS_INC(TXBufFreedCount);
- }
- pDescList->pDescriptors[pDescList->ui32Read].pBuf = NULL;
- }
- else
- {
- /* If the descriptor has no buffer, we are finished. */
- break;
- }
- /* Move on to the next descriptor. */
- pDescList->ui32Read++;
- if(pDescList->ui32Read == pDescList->ui32NumDescs)
- {
- pDescList->ui32Read = 0;
- }
- }
- }
- /**
- * This function will process all receive descriptors that contain newly read
- * data and pass complete frames up the lwIP stack as they are found. The
- * timestamp of the packet will be placed into the pbuf structure if PTPD is
- * enabled.
- *
- * This function is called only from the Ethernet interrupt handler.
- *
- * @param psNetif the lwip network interface structure for this ethernetif
- * @return None.
- */
- static void
- tivaif_receive(net_device_t dev)
- {
- tDescriptorList *pDescList;
- tStellarisIF *pIF;
- struct pbuf *pBuf;
- uint32_t ui32DescEnd;
- /* Get a pointer to our state data */
- pIF = dev->dma_if;
- /* Get a pointer to the receive descriptor list. */
- pDescList = pIF->pRxDescList;
- /* Start with a NULL pbuf so that we don't try to link chain the first
- * time round.
- */
- pBuf = NULL;
- /* Determine where we start and end our walk of the descriptor list */
- ui32DescEnd = pDescList->ui32Read ? (pDescList->ui32Read - 1) : (pDescList->ui32NumDescs - 1);
- /* Step through the descriptors that are marked for CPU attention. */
- while(pDescList->ui32Read != ui32DescEnd)
- {
- /* Does the current descriptor have a buffer attached to it? */
- if(pDescList->pDescriptors[pDescList->ui32Read].pBuf)
- {
- /* Yes - determine if the host has filled it yet. */
- if(pDescList->pDescriptors[pDescList->ui32Read].Desc.ui32CtrlStatus &
- DES0_RX_CTRL_OWN)
- {
- /* The DMA engine still owns the descriptor so we are finished */
- break;
- }
- DRIVER_STATS_INC(RXBufReadCount);
- /* If this descriptor contains the end of the packet, fix up the
- * buffer size accordingly.
- */
- if(pDescList->pDescriptors[pDescList->ui32Read].Desc.ui32CtrlStatus &
- DES0_RX_STAT_LAST_DESC)
- {
- /* This is the last descriptor for the frame so fix up the
- * length. It is safe for us to modify the internal fields
- * directly here (rather than calling pbuf_realloc) since we
- * know each of these pbufs is never chained.
- */
- pDescList->pDescriptors[pDescList->ui32Read].pBuf->len =
- (pDescList->pDescriptors[pDescList->ui32Read].Desc.ui32CtrlStatus &
- DES0_RX_STAT_FRAME_LENGTH_M) >>
- DES0_RX_STAT_FRAME_LENGTH_S;
- pDescList->pDescriptors[pDescList->ui32Read].pBuf->tot_len =
- pDescList->pDescriptors[pDescList->ui32Read].pBuf->len;
- }
- if(pBuf)
- {
- /* Link this pbuf to the last one we looked at since this buffer
- * is a continuation of an existing frame (split across mui32tiple
- * pbufs). Note that we use pbuf_cat() here rather than
- * pbuf_chain() since we don't want to increase the reference
- * count of either pbuf - we only want to link them together.
- */
- pbuf_cat(pBuf, pDescList->pDescriptors[pDescList->ui32Read].pBuf);
- pDescList->pDescriptors[pDescList->ui32Read].pBuf = pBuf;
- }
- /* Remember the buffer associated with this descriptor. */
- pBuf = pDescList->pDescriptors[pDescList->ui32Read].pBuf;
- /* Is this the last descriptor for the current frame? */
- if(pDescList->pDescriptors[pDescList->ui32Read].Desc.ui32CtrlStatus &
- DES0_RX_STAT_LAST_DESC)
- {
- /* Yes - does the frame contain errors? */
- if(pDescList->pDescriptors[pDescList->ui32Read].Desc.ui32CtrlStatus &
- DES0_RX_STAT_ERR)
- {
- /* This is a bad frame so discard it and update the relevant
- * statistics.
- */
- LWIP_DEBUGF(NETIF_DEBUG, ("tivaif_receive: packet error\n"));
- pbuf_free(pBuf);
- LINK_STATS_INC(link.drop);
- DRIVER_STATS_INC(RXPacketErrCount);
- }
- else
- {
- /* This is a good frame so pass it up the stack. */
- LINK_STATS_INC(link.recv);
- DRIVER_STATS_INC(RXPacketReadCount);
- #if LWIP_PTPD
- /* Place the timestamp in the PBUF if PTPD is enabled */
- pBuf->time_s =
- pDescList->pDescriptors[pDescList->ui32Read].Desc.ui32IEEE1588TimeHi;
- pBuf->time_ns =
- pDescList->pDescriptors[pDescList->ui32Read].Desc.ui32IEEE1588TimeLo;
- #endif
- #if NO_SYS
- if(ethernet_input(pBuf, psNetif) != RT_EOK)
- {
- #else
- //if(tcpip_input(pBuf, psNetif) != RT_EOK)
- if((rt_mb_send(dev->rx_pbuf_mb, (rt_uint32_t)pBuf) != RT_EOK) ||
- (eth_device_ready(&(dev->parent)) != RT_EOK))
- {
- #endif
- /* drop the packet */
- LWIP_DEBUGF(NETIF_DEBUG, ("tivaif_input: input error\n"));
- pbuf_free(pBuf);
- /* Adjust the link statistics */
- LINK_STATS_INC(link.memerr);
- LINK_STATS_INC(link.drop);
- DRIVER_STATS_INC(RXPacketCBErrCount);
- }
- /* We're finished with this packet so make sure we don't try
- * to link the next buffer to it.
- */
- pBuf = NULL;
- }
- }
- }
- /* Allocate a new buffer for this descriptor */
- pDescList->pDescriptors[pDescList->ui32Read].pBuf = pbuf_alloc(PBUF_RAW,
- PBUF_POOL_BUFSIZE,
- PBUF_POOL);
- pDescList->pDescriptors[pDescList->ui32Read].Desc.ui32Count =
- DES1_RX_CTRL_CHAINED;
- if(pDescList->pDescriptors[pDescList->ui32Read].pBuf)
- {
- /* We got a buffer so fill in the payload pointer and size. */
- pDescList->pDescriptors[pDescList->ui32Read].Desc.pvBuffer1 =
- pDescList->pDescriptors[pDescList->ui32Read].pBuf->payload;
- pDescList->pDescriptors[pDescList->ui32Read].Desc.ui32Count |=
- (pDescList->pDescriptors[pDescList->ui32Read].pBuf->len <<
- DES1_RX_CTRL_BUFF1_SIZE_S);
- /* Give this descriptor back to the hardware */
- pDescList->pDescriptors[pDescList->ui32Read].Desc.ui32CtrlStatus =
- DES0_RX_CTRL_OWN;
- }
- else
- {
- LWIP_DEBUGF(NETIF_DEBUG, ("tivaif_receive: pbuf_alloc error\n"));
- pDescList->pDescriptors[pDescList->ui32Read].Desc.pvBuffer1 = 0;
- /* Update the stats to show we coui32dn't allocate a pbuf. */
- DRIVER_STATS_INC(RXNoBufCount);
- LINK_STATS_INC(link.memerr);
- /* Stop parsing here since we can't leave a broken descriptor in
- * the chain.
- */
- break;
- }
- /* Move on to the next descriptor in the chain, taking care to wrap. */
- pDescList->ui32Read++;
- if(pDescList->ui32Read == pDescList->ui32NumDescs)
- {
- pDescList->ui32Read = 0;
- }
- }
- }
- /**
- * Process interrupts from the PHY.
- *
- * should be called from the Stellaris Ethernet Interrupt Handler. This
- * function will read packets from the Stellaris Ethernet fifo and place them
- * into a pbuf queue. If the transmitter is idle and there is at least one packet
- * on the transmit queue, it will place it in the transmit fifo and start the
- * transmitter.
- *
- */
- void
- tivaif_process_phy_interrupt(net_device_t dev)
- {
- uint16_t ui16Val, ui16Status;
- uint32_t ui32Config, ui32Mode, ui32RxMaxFrameSize;
- /* Read the PHY interrupt status. This clears all interrupt sources.
- * Note that we are only enabling sources in EPHY_MISR1 so we don't
- * read EPHY_MISR2.
- */
- ui16Val = EMACPHYRead(EMAC0_BASE, PHY_PHYS_ADDR, EPHY_MISR1);
- /*
- * Dummy read PHY REG EPHY_BMSR, it will force update the EPHY_STS register
- */
- EMACPHYRead(EMAC0_BASE, PHY_PHYS_ADDR, EPHY_BMSR);
- /* Read the current PHY status. */
- ui16Status = EMACPHYRead(EMAC0_BASE, PHY_PHYS_ADDR, EPHY_STS);
- /* Has the link status changed? */
- if(ui16Val & EPHY_MISR1_LINKSTAT)
- {
- /* Is link up or down now? */
- if(ui16Status & EPHY_STS_LINK)
- {
- /* Tell lwIP the link is up. */
- #if NO_SYS
- netif_set_link_up(psNetif);
- #else
- //tcpip_callback((tcpip_callback_fn)netif_set_link_up, psNetif);
- eth_device_linkchange(&(dev->parent), RT_TRUE);
- #endif
- /* In this case we drop through since we may need to reconfigure
- * the MAC depending upon the speed and half/fui32l-duplex settings.
- */
- }
- else
- {
- /* Tell lwIP the link is down */
- #if NO_SYS
- netif_set_link_down(psNetif);
- #else
- //tcpip_callback((tcpip_callback_fn)netif_set_link_down, psNetif);
- eth_device_linkchange(&(dev->parent), RT_FALSE);
- #endif
- }
- }
- /* Has the speed or duplex status changed? */
- if(ui16Val & (EPHY_MISR1_SPEED | EPHY_MISR1_SPEED | EPHY_MISR1_ANC))
- {
- /* Get the current MAC configuration. */
- EMACConfigGet(EMAC0_BASE, &ui32Config, &ui32Mode,
- &ui32RxMaxFrameSize);
- /* What speed is the interface running at now?
- */
- if(ui16Status & EPHY_STS_SPEED)
- {
- /* 10Mbps is selected */
- ui32Config &= ~EMAC_CONFIG_100MBPS;
- }
- else
- {
- /* 100Mbps is selected */
- ui32Config |= EMAC_CONFIG_100MBPS;
- }
- /* Are we in fui32l- or half-duplex mode? */
- if(ui16Status & EPHY_STS_DUPLEX)
- {
- /* Fui32l duplex. */
- ui32Config |= EMAC_CONFIG_FULL_DUPLEX;
- }
- else
- {
- /* Half duplex. */
- ui32Config &= ~EMAC_CONFIG_FULL_DUPLEX;
- }
- /* Reconfigure the MAC */
- EMACConfigSet(EMAC0_BASE, ui32Config, ui32Mode, ui32RxMaxFrameSize);
- }
- }
- /**
- * Process tx and rx packets at the low-level interrupt.
- *
- * should be called from the Stellaris Ethernet Interrupt Handler. This
- * function will read packets from the Stellaris Ethernet fifo and place them
- * into a pbuf queue. If the transmitter is idle and there is at least one packet
- * on the transmit queue, it will place it in the transmit fifo and start the
- * transmitter.
- *
- */
- void
- tivaif_interrupt(net_device_t dev, uint32_t ui32Status)
- {
- /* Update our debug interrupt counters. */
- if(ui32Status & EMAC_INT_NORMAL_INT)
- {
- g_ui32NormalInts++;
- }
- if(ui32Status & EMAC_INT_ABNORMAL_INT)
- {
- g_ui32AbnormalInts++;
- }
- /* Is this an interrupt from the PHY? */
- if(ui32Status & EMAC_INT_PHY)
- {
- tivaif_process_phy_interrupt(dev);
- }
- /* Process the transmit DMA list, freeing any buffers that have been
- * transmitted since our last interrupt.
- */
- if(ui32Status & EMAC_INT_TRANSMIT)
- {
- tivaif_process_transmit(dev->dma_if);
- }
- /**
- * Process the receive DMA list and pass all successfui32ly received packets
- * up the stack. We also call this function in cases where the receiver has
- * stalled due to missing buffers since the receive function will attempt to
- * allocate new pbufs for descriptor entries which have none.
- */
- if(ui32Status & (EMAC_INT_RECEIVE | EMAC_INT_RX_NO_BUFFER |
- EMAC_INT_RX_STOPPED))
- {
- tivaif_receive(dev);
- }
- }
- #if NETIF_DEBUG
- /* Print an IP header by using LWIP_DEBUGF
- * @param p an IP packet, p->payload pointing to the IP header
- */
- void
- tivaif_debug_print(struct pbuf *p)
- {
- struct eth_hdr *ethhdr = (struct eth_hdr *)p->payload;
- u16_t *plen = (u16_t *)p->payload;
- LWIP_DEBUGF(NETIF_DEBUG, ("ETH header:\n"));
- LWIP_DEBUGF(NETIF_DEBUG, ("Packet Length:%5"U16_F" \n",*plen));
- LWIP_DEBUGF(NETIF_DEBUG, ("Destination: %02"X8_F"-%02"X8_F"-%02"X8_F"-%02"X8_F"-%02"X8_F"-%02"X8_F"\n",
- ethhdr->dest.addr[0],
- ethhdr->dest.addr[1],
- ethhdr->dest.addr[2],
- ethhdr->dest.addr[3],
- ethhdr->dest.addr[4],
- ethhdr->dest.addr[5]));
- LWIP_DEBUGF(NETIF_DEBUG, ("Source: %02"X8_F"-%02"X8_F"-%02"X8_F"-%02"X8_F"-%02"X8_F"-%02"X8_F"\n",
- ethhdr->src.addr[0],
- ethhdr->src.addr[1],
- ethhdr->src.addr[2],
- ethhdr->src.addr[3],
- ethhdr->src.addr[4],
- ethhdr->src.addr[5]));
- LWIP_DEBUGF(NETIF_DEBUG, ("Packet Type:0x%04"U16_F" \n", ethhdr->type));
- }
- #endif /* NETIF_DEBUG */
- void lwIPEthernetIntHandler(void)
- {
- uint32_t ui32Status;
- #ifdef DEF_INT_TEMPSTAMP
- uint32_t ui32TimerStatus;
- #endif
- //
- // Read and Clear the interrupt.
- //
- ui32Status = MAP_EMACIntStatus(EMAC0_BASE, true);
- //
- // If the interrupt really came from the Ethernet and not our
- // timer, clear it.
- //
- if(ui32Status)
- {
- MAP_EMACIntClear(EMAC0_BASE, ui32Status);
- }
- #ifdef DEF_INT_TEMPSTAMP
- //
- // Check to see whether a hardware timer interrupt has been reported.
- //
- if(ui32Status & EMAC_INT_TIMESTAMP)
- {
- //
- // Yes - read and clear the timestamp interrupt status.
- //
- ui32TimerStatus = EMACTimestampIntStatus(EMAC0_BASE);
- //
- // If a timer interrupt handler has been registered, call it.
- //
- if(g_pfnTimerHandler)
- {
- g_pfnTimerHandler(EMAC0_BASE, ui32TimerStatus);
- }
- }
- #endif
- //
- // The handling of the interrupt is different based on the use of a RTOS.
- //
- //
- // No RTOS is being used. If a transmit/receive interrupt was active,
- // run the low-level interrupt handler.
- //
- if(ui32Status)
- {
- tivaif_interrupt(eth_dev, ui32Status);
- }
- //
- // Service the lwIP timers.
- //
- //lwIPServiceTimers();
- }
- // OUI:00-12-37 (hex) Texas Instruments, only for test
- static int tiva_eth_mac_addr_init(void)
- {
- int retVal =0;
- uint32_t ulUser[2];
- uint8_t mac_addr[6];
-
- MAP_FlashUserGet(&ulUser[0], &ulUser[1]);
- if((ulUser[0] == 0xffffffff) || (ulUser[1] == 0xffffffff))
- {
- rt_kprintf("Fail to get mac address from eeprom.\n");
- rt_kprintf("Using default mac address\n");
- // OUI:00-12-37 (hex) Texas Instruments, only for test
- // Configure the hardware MAC address
- ulUser[0] = 0x00371200;
- ulUser[1] = 0x00563412;
- //FlashUserSet(ulUser0, ulUser1);
- retVal =-1;
- }
-
-
- //Convert the 24/24 split MAC address from NV ram into a 32/16 split MAC
- //address needed to program the hardware registers, then program the MAC
- //address into the Ethernet Controller registers.
-
- mac_addr[0] = ((ulUser[0] >> 0) & 0xff);
- mac_addr[1] = ((ulUser[0] >> 8) & 0xff);
- mac_addr[2] = ((ulUser[0] >> 16) & 0xff);
- mac_addr[3] = ((ulUser[1] >> 0) & 0xff);
- mac_addr[4] = ((ulUser[1] >> 8) & 0xff);
- mac_addr[5] = ((ulUser[1] >> 16) & 0xff);
-
- //
- // Program the hardware with its MAC address (for filtering).
- //
- MAP_EMACAddrSet(EMAC0_BASE, 0, mac_addr);
- return retVal;
- }
- void tiva_eth_lowlevel_init(void)
- {
- MAP_SysCtlPeripheralEnable(SYSCTL_PERIPH_GPIOF);
- //
- // PF1/PK4/PK6 are used for Ethernet LEDs.
- //
- MAP_GPIOPinConfigure(GPIO_PF0_EN0LED0);
- MAP_GPIOPinConfigure(GPIO_PF4_EN0LED1);
- GPIOPinTypeEthernetLED(GPIO_PORTF_BASE, GPIO_PIN_0);
- GPIOPinTypeEthernetLED(GPIO_PORTF_BASE, GPIO_PIN_4);
-
- //
- // Enable the ethernet peripheral.
- //
- MAP_SysCtlPeripheralEnable(SYSCTL_PERIPH_EMAC0);
- MAP_SysCtlPeripheralReset(SYSCTL_PERIPH_EMAC0);
- //
- // Enable the internal PHY if it's present and we're being
- // asked to use it.
- //
- if((EMAC_PHY_CONFIG & EMAC_PHY_TYPE_MASK) == EMAC_PHY_TYPE_INTERNAL)
- {
- //
- // We've been asked to configure for use with the internal
- // PHY. Is it present?
- //
- if(SysCtlPeripheralPresent(SYSCTL_PERIPH_EPHY0))
- {
- //
- // Yes - enable and reset it.
- //
- MAP_SysCtlPeripheralEnable(SYSCTL_PERIPH_EPHY0);
- MAP_SysCtlPeripheralReset(SYSCTL_PERIPH_EPHY0);
- }
- else
- {
- //
- // Internal PHY is not present on this part so hang here.
- //
- rt_kprintf("Internal PHY is not present on this part.\n");
- while(1)
- {
- }
- }
- }
- //
- // Wait for the MAC to come out of reset.
- //
- while(!MAP_SysCtlPeripheralReady(SYSCTL_PERIPH_EMAC0))
- {
- }
- //
- // Configure for use with whichever PHY the user requires.
- //
- MAP_EMACPHYConfigSet(EMAC0_BASE, EMAC_PHY_CONFIG);
- //
- // Initialize the MAC and set the DMA mode.
- //
- MAP_EMACInit(EMAC0_BASE, 120000000, //system clock = 120MHz
- EMAC_BCONFIG_MIXED_BURST | EMAC_BCONFIG_PRIORITY_FIXED,
- 4, 4, 0);
- //
- // Set MAC configuration options.
- //
- MAP_EMACConfigSet(EMAC0_BASE, (EMAC_CONFIG_FULL_DUPLEX |
- EMAC_CONFIG_CHECKSUM_OFFLOAD |
- EMAC_CONFIG_7BYTE_PREAMBLE |
- EMAC_CONFIG_IF_GAP_96BITS |
- EMAC_CONFIG_USE_MACADDR0 |
- EMAC_CONFIG_SA_FROM_DESCRIPTOR |
- EMAC_CONFIG_BO_LIMIT_1024),
- (EMAC_MODE_RX_STORE_FORWARD |
- EMAC_MODE_TX_STORE_FORWARD |
- EMAC_MODE_TX_THRESHOLD_64_BYTES |
- EMAC_MODE_RX_THRESHOLD_64_BYTES), 0);
-
- EMACIntRegister(EMAC0_BASE, lwIPEthernetIntHandler);
- }
- static rt_err_t eth_dev_init(rt_device_t device)
- {
- net_device_t net_dev = (net_device_t)device;
- struct netif *psNetif = (net_dev->parent.netif);
-
- LWIP_ASSERT("psNetif != NULL", (psNetif != NULL));
- #if LWIP_NETIF_HOSTNAME
- /* Initialize interface hostname */
- psNetif->hostname = "t4mc";
- #endif /* LWIP_NETIF_HOSTNAME */
- /*
- * Initialize the snmp variables and counters inside the struct netif.
- * The last argument should be replaced with your link speed, in units
- * of bits per second.
- */
- //NETIF_INIT_SNMP(psNetif, snmp_ifType_ethernet_csmacd, 1000000);
-
- net_dev->dma_if = &g_StellarisIFData;
- /* Remember our MAC address. */
- g_StellarisIFData.ethaddr = (struct eth_addr *)&(psNetif->hwaddr[0]);
- /* Initialize the hardware */
- tivaif_hwinit(psNetif);
- return RT_EOK;
- }
- /* control the interface */
- static rt_err_t eth_dev_control(rt_device_t dev, rt_uint8_t cmd, void *args)
- {
- switch(cmd)
- {
- case NIOCTL_GADDR:
- /* get mac address */
- if(args)
- MAP_EMACAddrGet(EMAC0_BASE, 0, (uint8_t*)args);
- else
- return -RT_ERROR;
- break;
- default :
- break;
- }
- return RT_EOK;
- }
- /* Open the interface */
- static rt_err_t eth_dev_open(rt_device_t dev, rt_uint16_t oflag)
- {
- return RT_EOK;
- }
- /* Close the interface */
- static rt_err_t eth_dev_close(rt_device_t dev)
- {
- return RT_EOK;
- }
- /* Read */
- static rt_size_t eth_dev_read(rt_device_t dev, rt_off_t pos, void* buffer, rt_size_t size)
- {
- rt_set_errno(-RT_ENOSYS);
- return 0;
- }
- /* Write */
- static rt_size_t eth_dev_write(rt_device_t dev, rt_off_t pos, const void* buffer, rt_size_t size)
- {
- rt_set_errno(-RT_ENOSYS);
- return 0;
- }
- static rt_err_t eth_dev_tx(rt_device_t dev, struct pbuf *p)
- {
- return tivaif_transmit((net_device_t)dev, p);
- }
- static struct pbuf* eth_dev_rx(rt_device_t dev)
- {
- rt_err_t result;
- rt_uint32_t temp =0;
- net_device_t net_dev = (net_device_t)dev;
- result = rt_mb_recv(net_dev->rx_pbuf_mb, &temp, RT_WAITING_NO);
-
- return (result == RT_EOK)? (struct pbuf*)temp : RT_NULL;
- }
- rt_err_t rt_hw_tiva_eth_init(void)
- {
- rt_err_t result;
- /* Clock GPIO and etc */
- tiva_eth_lowlevel_init();
- tiva_eth_mac_addr_init();
- /* init rt-thread device interface */
- eth_dev->parent.parent.init = eth_dev_init;
- eth_dev->parent.parent.open = eth_dev_open;
- eth_dev->parent.parent.close = eth_dev_close;
- eth_dev->parent.parent.read = eth_dev_read;
- eth_dev->parent.parent.write = eth_dev_write;
- eth_dev->parent.parent.control = eth_dev_control;
- eth_dev->parent.eth_rx = eth_dev_rx;
- eth_dev->parent.eth_tx = eth_dev_tx;
-
- result = rt_mb_init(ð_rx_pbuf_mb, "epbuf",
- &rx_pbuf_mb_pool[0], sizeof(rx_pbuf_mb_pool)/4,
- RT_IPC_FLAG_FIFO);
- RT_ASSERT(result == RT_EOK);
- eth_dev->rx_pbuf_mb = ð_rx_pbuf_mb;
-
-
- result = eth_device_init(&(eth_dev->parent), "e0");
- return result;
- }
- #if 0
- #ifdef RT_USING_FINSH
- #include "finsh.h"
- void PHY_Read(uint8_t addr)
- {
- uint16_t data = EMACPHYRead(EMAC0_BASE, PHY_PHYS_ADDR, addr);
- rt_kprintf("R PHY_REG[0x%02X] = 0x%04X\n", addr, data);
- }
- FINSH_FUNCTION_EXPORT(PHY_Read, (add));
- void PHY_Write(uint8_t addr , uint16_t data)
- {
- EMACPHYWrite(EMAC0_BASE, PHY_PHYS_ADDR, addr, data);
- rt_kprintf("W PHY_REG[0x%02X] = 0x%04X\n", addr, data);
- }
- FINSH_FUNCTION_EXPORT(PHY_Write, (add, data));
- void PHY_SetAdd(uint8_t addr0, uint8_t addr1, uint8_t addr2,
- uint8_t addr3, uint8_t addr4, uint8_t addr5)
- {
- uint32_t ulUser[2];
- ulUser[0] = (((addr2<<8)|addr1)<<8)|addr0;
- ulUser[1] = (((addr5<<8)|addr4)<<8)|addr3;
-
- MAP_FlashUserSet(ulUser[0], ulUser[1]);
- MAP_FlashUserSave();
- rt_kprintf("Save to EEPROM. please reboot.");
- }
- FINSH_FUNCTION_EXPORT(PHY_SetAdd, (add0-add5));
- #endif //RT_USING_FINSH
- #endif
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