656 lines
22 KiB
C
656 lines
22 KiB
C
/*
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* Copyright (c) 2006-2021, RT-Thread Development Team
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*
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* SPDX-License-Identifier: Apache-2.0
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*
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* Change Logs:
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* Date Author Notes
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* 2011-11-30 aozima the first version.
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* 2011-12-10 aozima support dual ethernet.
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* 2011-12-21 aozima cleanup code.
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* 2012-07-13 aozima mask all GMAC MMC Interrupt.
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* 2012-07-20 aozima fixed mask all GMAC MMC Interrupt,and read clear.
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* 2012-07-20 aozima use memcpy replace byte copy.
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*/
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#include <rtthread.h>
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#include <rthw.h>
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#include "lwipopts.h"
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#include <netif/ethernetif.h>
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#include <netif/etharp.h>
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#include <lwip/icmp.h>
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#include "gd32f4xx.h"
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#include "synopsys_emac.h"
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#define ETHERNET_MAC0 ((struct rt_synopsys_eth *)(0x40020000U + 0x00008000U))
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//#define EMAC_DEBUG
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//#define EMAC_RX_DUMP
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//#define EMAC_TX_DUMP
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#ifdef EMAC_DEBUG
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#define EMAC_TRACE rt_kprintf
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#else
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#define EMAC_TRACE(...)
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#endif
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#define EMAC_RXBUFNB 4
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#define EMAC_TXBUFNB 2
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#define EMAC_PHY_AUTO 0
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#define EMAC_PHY_10MBIT 1
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#define EMAC_PHY_100MBIT 2
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#define MAX_ADDR_LEN 6
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struct gd32_emac
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{
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/* inherit from Ethernet device */
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struct eth_device parent;
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rt_uint8_t phy_mode;
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/* interface address info. */
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rt_uint8_t dev_addr[MAX_ADDR_LEN]; /* hw address */
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struct rt_synopsys_eth * ETHERNET_MAC;
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IRQn_Type ETHER_MAC_IRQ;
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EMAC_DMADESCTypeDef *DMATxDescToSet;
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EMAC_DMADESCTypeDef *DMARxDescToGet;
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#pragma pack(4)
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EMAC_DMADESCTypeDef DMARxDscrTab[EMAC_RXBUFNB];
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#pragma pack(4)
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EMAC_DMADESCTypeDef DMATxDscrTab[EMAC_TXBUFNB];
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#pragma pack(4)
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rt_uint8_t Rx_Buff[EMAC_RXBUFNB][EMAC_MAX_PACKET_SIZE];
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#pragma pack(4)
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rt_uint8_t Tx_Buff[EMAC_TXBUFNB][EMAC_MAX_PACKET_SIZE];
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struct rt_semaphore tx_buf_free;
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};
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static struct gd32_emac gd32_emac_device0;
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/**
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* Initializes the DMA Tx descriptors in chain mode.
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*/
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static void EMAC_DMA_tx_desc_init(EMAC_DMADESCTypeDef *DMATxDescTab, uint8_t* TxBuff, uint32_t TxBuffCount)
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{
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uint32_t i = 0;
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EMAC_DMADESCTypeDef *DMATxDesc;
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/* Fill each DMATxDesc descriptor with the right values */
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for(i=0; i < TxBuffCount; i++)
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{
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/* Get the pointer on the ith member of the Tx Desc list */
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DMATxDesc = DMATxDescTab + i;
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/* Set Second Address Chained bit */
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DMATxDesc->Status = EMAC_DMATxDesc_TCH;
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/* Set Buffer1 address pointer */
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DMATxDesc->Buffer1Addr = (uint32_t)(&TxBuff[i*EMAC_MAX_PACKET_SIZE]);
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/* Initialize the next descriptor with the Next Descriptor Polling Enable */
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if(i < (TxBuffCount-1))
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{
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/* Set next descriptor address register with next descriptor base address */
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DMATxDesc->Buffer2NextDescAddr = (uint32_t)(DMATxDescTab+i+1);
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}
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else
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{
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/* For last descriptor, set next descriptor address register equal to the first descriptor base address */
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DMATxDesc->Buffer2NextDescAddr = (uint32_t) DMATxDescTab;
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}
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}
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}
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/**
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* Initializes the DMA Rx descriptors in chain mode.
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*/
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static void EMAC_DMA_rx_desc_init(EMAC_DMADESCTypeDef *DMARxDescTab, uint8_t *RxBuff, uint32_t RxBuffCount)
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{
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uint32_t i = 0;
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EMAC_DMADESCTypeDef *DMARxDesc;
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/* Fill each DMARxDesc descriptor with the right values */
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for(i=0; i < RxBuffCount; i++)
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{
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/* Get the pointer on the ith member of the Rx Desc list */
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DMARxDesc = DMARxDescTab+i;
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/* Set Own bit of the Rx descriptor Status */
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DMARxDesc->Status = EMAC_DMARxDesc_OWN;
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/* Set Buffer1 size and Second Address Chained bit */
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DMARxDesc->ControlBufferSize = EMAC_DMARxDesc_RCH | (uint32_t)EMAC_MAX_PACKET_SIZE;
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/* Set Buffer1 address pointer */
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DMARxDesc->Buffer1Addr = (uint32_t)(&RxBuff[i*EMAC_MAX_PACKET_SIZE]);
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/* Initialize the next descriptor with the Next Descriptor Polling Enable */
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if(i < (RxBuffCount-1))
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{
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/* Set next descriptor address register with next descriptor base address */
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DMARxDesc->Buffer2NextDescAddr = (uint32_t)(DMARxDescTab+i+1);
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}
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else
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{
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/* For last descriptor, set next descriptor address register equal to the first descriptor base address */
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DMARxDesc->Buffer2NextDescAddr = (uint32_t)(DMARxDescTab);
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}
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}
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}
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static rt_err_t gd32_emac_init(rt_device_t dev)
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{
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struct gd32_emac * gd32_emac_device;
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struct rt_synopsys_eth * ETHERNET_MAC;
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gd32_emac_device = (struct gd32_emac *)dev;
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ETHERNET_MAC = gd32_emac_device->ETHERNET_MAC;
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/* Software reset */
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ETHERNET_MAC->BMR |= (1<<0); /* [bit0]SWR (Software Reset) */
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/* Wait for software reset */
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while(ETHERNET_MAC->BMR & (1<<0));
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/* Configure ETHERNET */
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EMAC_init(ETHERNET_MAC, SystemCoreClock);
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/* mask all GMAC MMC Interrupt.*/
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ETHERNET_MAC->mmc_cntl = (1<<3) | (1<<0); /* MMC Counter Freeze and reset. */
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ETHERNET_MAC->mmc_intr_mask_rx = 0xFFFFFFFF;
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ETHERNET_MAC->mmc_intr_mask_tx = 0xFFFFFFFF;
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ETHERNET_MAC->mmc_ipc_intr_mask_rx = 0xFFFFFFFF;
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/* Enable DMA Receive interrupt (need to enable in this case Normal interrupt) */
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EMAC_INT_config(ETHERNET_MAC, EMAC_DMA_INT_NIS | EMAC_DMA_INT_R | EMAC_DMA_INT_T , ENABLE);
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/* Initialize Tx Descriptors list: Chain Mode */
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EMAC_DMA_tx_desc_init(gd32_emac_device->DMATxDscrTab, &gd32_emac_device->Tx_Buff[0][0], EMAC_TXBUFNB);
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gd32_emac_device->DMATxDescToSet = gd32_emac_device->DMATxDscrTab;
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/* Set Transmit Descriptor List Address Register */
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ETHERNET_MAC->TDLAR = (uint32_t) gd32_emac_device->DMATxDescToSet;
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/* Initialize Rx Descriptors list: Chain Mode */
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EMAC_DMA_rx_desc_init(gd32_emac_device->DMARxDscrTab, &gd32_emac_device->Rx_Buff[0][0], EMAC_RXBUFNB);
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gd32_emac_device->DMARxDescToGet = gd32_emac_device->DMARxDscrTab;
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/* Set Receive Descriptor List Address Register */
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ETHERNET_MAC->RDLAR = (uint32_t) gd32_emac_device->DMARxDescToGet;
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/* MAC address configuration */
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EMAC_MAC_Addr_config(ETHERNET_MAC, EMAC_MAC_Address0, (uint8_t*)&gd32_emac_device->dev_addr[0]);
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NVIC_EnableIRQ( gd32_emac_device->ETHER_MAC_IRQ );
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/* Enable MAC and DMA transmission and reception */
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EMAC_start(ETHERNET_MAC);
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return RT_EOK;
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}
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static rt_err_t gd32_emac_open(rt_device_t dev, rt_uint16_t oflag)
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{
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return RT_EOK;
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}
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static rt_err_t gd32_emac_close(rt_device_t dev)
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{
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return RT_EOK;
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}
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static rt_ssize_t gd32_emac_read(rt_device_t dev, rt_off_t pos, void* buffer, rt_size_t size)
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{
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return -RT_ENOSYS;
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}
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static rt_ssize_t gd32_emac_write (rt_device_t dev, rt_off_t pos, const void* buffer, rt_size_t size)
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{
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return -RT_ENOSYS;
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}
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static rt_err_t gd32_emac_control(rt_device_t dev, int cmd, void *args)
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{
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struct gd32_emac * gd32_emac_device = (struct gd32_emac *)dev;
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switch (cmd)
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{
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case NIOCTL_GADDR:
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/* get mac address */
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if (args) memcpy(args, &gd32_emac_device->dev_addr[0], MAX_ADDR_LEN);
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else return -RT_ERROR;
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break;
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default :
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break;
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}
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return RT_EOK;
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}
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static void EMAC_IRQHandler(struct gd32_emac * gd32_emac_device)
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{
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rt_uint32_t status, ier;
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struct rt_synopsys_eth * ETHERNET_MAC;
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ETHERNET_MAC = gd32_emac_device->ETHERNET_MAC;
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/* get DMA IT status */
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status = ETHERNET_MAC->SR;
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ier = ETHERNET_MAC->IER;
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/* GMAC MMC Interrupt. */
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if(status & EMAC_DMA_INT_GMI)
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{
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volatile rt_uint32_t dummy;
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volatile rt_uint32_t * reg;
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EMAC_TRACE("EMAC_DMA_INT_GMI\r\n");
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/* read clear all MMC interrupt. */
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reg = ÐERNET_MAC->mmc_cntl;
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while((uint32_t)reg < (uint32_t)ÐERNET_MAC->rxicmp_err_octets)
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{
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dummy = *reg++;
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}
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}
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/* Normal interrupt summary. */
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if(status & EMAC_DMA_INT_NIS)
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{
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rt_uint32_t nis_clear = EMAC_DMA_INT_NIS;
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/* [0]:Transmit Interrupt. */
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if((status & ier) & EMAC_DMA_INT_T) /* packet transmission */
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{
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rt_sem_release(&gd32_emac_device->tx_buf_free);
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nis_clear |= EMAC_DMA_INT_T;
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}
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/* [2]:Transmit Buffer Unavailable. */
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/* [6]:Receive Interrupt. */
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if((status & ier) & EMAC_DMA_INT_R) /* packet reception */
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{
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/* a frame has been received */
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eth_device_ready(&(gd32_emac_device->parent));
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nis_clear |= EMAC_DMA_INT_R;
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}
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/* [14]:Early Receive Interrupt. */
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EMAC_clear_pending(ETHERNET_MAC, nis_clear);
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}
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/* Abnormal interrupt summary. */
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if( status & EMAC_DMA_INT_AIS)
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{
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rt_uint32_t ais_clear = EMAC_DMA_INT_AIS;
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/* [1]:Transmit Process Stopped. */
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/* [3]:Transmit Jabber Timeout. */
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/* [4]: Receive FIFO Overflow. */
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/* [5]: Transmit Underflow. */
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/* [7]: Receive Buffer Unavailable. */
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/* [8]: Receive Process Stopped. */
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/* [9]: Receive Watchdog Timeout. */
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/* [10]: Early Transmit Interrupt. */
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/* [13]: Fatal Bus Error. */
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EMAC_clear_pending(ETHERNET_MAC, ais_clear);
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}
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}
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void ENET_IRQHandler(void)
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{
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/* enter interrupt */
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rt_interrupt_enter();
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EMAC_IRQHandler(&gd32_emac_device0);
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/* leave interrupt */
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rt_interrupt_leave();
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}
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/* EtherNet Device Interface */
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rt_err_t gd32_emac_tx( rt_device_t dev, struct pbuf* p)
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{
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struct pbuf* q;
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char * to;
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struct gd32_emac * gd32_emac_device;
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struct rt_synopsys_eth * ETHERNET_MAC;
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gd32_emac_device = (struct gd32_emac *)dev;
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ETHERNET_MAC = gd32_emac_device->ETHERNET_MAC;
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/* get free tx buffer */
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{
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rt_err_t result;
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result = rt_sem_take(&gd32_emac_device->tx_buf_free, RT_TICK_PER_SECOND/10);
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if (result != RT_EOK) return -RT_ERROR;
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}
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to = (char *)gd32_emac_device->DMATxDescToSet->Buffer1Addr;
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for (q = p; q != NULL; q = q->next)
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{
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/* Copy the frame to be sent into memory pointed by the current ETHERNET DMA Tx descriptor */
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memcpy(to, q->payload, q->len);
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to += q->len;
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}
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#ifdef EMAC_TX_DUMP
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{
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rt_uint32_t i;
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rt_uint8_t *ptr = (rt_uint8_t*)(gd32_emac_device->DMATxDescToSet->Buffer1Addr);
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EMAC_TRACE("\r\n%c%c tx_dump:", gd32_emac_device->parent.netif->name[0], gd32_emac_device->parent.netif->name[1]);
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for(i=0; i<p->tot_len; i++)
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{
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if( (i%8) == 0 )
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{
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EMAC_TRACE(" ");
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}
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if( (i%16) == 0 )
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{
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EMAC_TRACE("\r\n");
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}
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EMAC_TRACE("%02x ",*ptr);
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ptr++;
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}
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EMAC_TRACE("\r\ndump done!\r\n");
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}
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#endif
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/* Setting the Frame Length: bits[12:0] */
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gd32_emac_device->DMATxDescToSet->ControlBufferSize = (p->tot_len & EMAC_DMATxDesc_TBS1);
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/* Setting the last segment and first segment bits (in this case a frame is transmitted in one descriptor) */
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gd32_emac_device->DMATxDescToSet->Status |= EMAC_DMATxDesc_LS | EMAC_DMATxDesc_FS;
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/* Enable TX Completion Interrupt */
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gd32_emac_device->DMATxDescToSet->Status |= EMAC_DMATxDesc_IC;
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#ifdef CHECKSUM_BY_HARDWARE
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gd32_emac_device->DMATxDescToSet->Status |= EMAC_DMATxDesc_ChecksumTCPUDPICMPFull;
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/* clean ICMP checksum */
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{
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struct eth_hdr *ethhdr = (struct eth_hdr *)(gd32_emac_device->DMATxDescToSet->Buffer1Addr);
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/* is IP ? */
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if( ethhdr->type == htons(ETHTYPE_IP) )
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{
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struct ip_hdr *iphdr = (struct ip_hdr *)(gd32_emac_device->DMATxDescToSet->Buffer1Addr + SIZEOF_ETH_HDR);
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/* is ICMP ? */
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if( IPH_PROTO(iphdr) == IP_PROTO_ICMP )
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{
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struct icmp_echo_hdr *iecho = (struct icmp_echo_hdr *)(gd32_emac_device->DMATxDescToSet->Buffer1Addr + SIZEOF_ETH_HDR + sizeof(struct ip_hdr) );
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iecho->chksum = 0;
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}
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}
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}
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#endif
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/* Set Own bit of the Tx descriptor Status: gives the buffer back to ETHERNET DMA */
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gd32_emac_device->DMATxDescToSet->Status |= EMAC_DMATxDesc_OWN;
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/* When Tx Buffer unavailable flag is set: clear it and resume transmission */
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if ((ETHERNET_MAC->SR & EMAC_DMASR_TBUS) != (uint32_t)RESET)
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{
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/* Clear TBUS ETHERNET DMA flag */
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ETHERNET_MAC->SR = EMAC_DMASR_TBUS;
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/* Transmit Poll Demand to resume DMA transmission*/
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ETHERNET_MAC->TPDR = 0;
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}
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/* Update the ETHERNET DMA global Tx descriptor with next Tx decriptor */
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/* Chained Mode */
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/* Selects the next DMA Tx descriptor list for next buffer to send */
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gd32_emac_device->DMATxDescToSet = (EMAC_DMADESCTypeDef*) (gd32_emac_device->DMATxDescToSet->Buffer2NextDescAddr);
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/* Return SUCCESS */
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return RT_EOK;
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}
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/* reception a Ethernet packet. */
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struct pbuf * gd32_emac_rx(rt_device_t dev)
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{
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struct pbuf* p;
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rt_uint32_t framelength = 0;
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struct gd32_emac * gd32_emac_device;
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struct rt_synopsys_eth * ETHERNET_MAC;
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gd32_emac_device = (struct gd32_emac *)dev;
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ETHERNET_MAC = gd32_emac_device->ETHERNET_MAC;
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/* init p pointer */
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p = RT_NULL;
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/* Check if the descriptor is owned by the ETHERNET DMA (when set) or CPU (when reset) */
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if(((gd32_emac_device->DMARxDescToGet->Status & EMAC_DMARxDesc_OWN) != (uint32_t)RESET))
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{
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return p;
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}
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if (((gd32_emac_device->DMARxDescToGet->Status & EMAC_DMARxDesc_ES) == (uint32_t)RESET) &&
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((gd32_emac_device->DMARxDescToGet->Status & EMAC_DMARxDesc_LS) != (uint32_t)RESET) &&
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((gd32_emac_device->DMARxDescToGet->Status & EMAC_DMARxDesc_FS) != (uint32_t)RESET))
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{
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/* Get the Frame Length of the received packet: substruct 4 bytes of the CRC */
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framelength = ((gd32_emac_device->DMARxDescToGet->Status & EMAC_DMARxDesc_FL)
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>> EMAC_DMARXDESC_FRAME_LENGTHSHIFT) - 4;
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/* allocate buffer */
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p = pbuf_alloc(PBUF_LINK, framelength, PBUF_RAM);
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if (p != RT_NULL)
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{
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const char * from;
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struct pbuf* q;
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from = (const char *)gd32_emac_device->DMARxDescToGet->Buffer1Addr;
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for (q = p; q != RT_NULL; q= q->next)
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{
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/* Copy the received frame into buffer from memory pointed by the current ETHERNET DMA Rx descriptor */
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memcpy(q->payload, from, q->len);
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from += q->len;
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}
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#ifdef EMAC_RX_DUMP
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{
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rt_uint32_t i;
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rt_uint8_t *ptr = (rt_uint8_t*)(gd32_emac_device->DMARxDescToGet->Buffer1Addr);
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EMAC_TRACE("\r\n%c%c rx_dump:", gd32_emac_device->parent.netif->name[0], gd32_emac_device->parent.netif->name[1]);
|
|
for(i=0; i<p->tot_len; i++)
|
|
{
|
|
if( (i%8) == 0 )
|
|
{
|
|
EMAC_TRACE(" ");
|
|
}
|
|
if( (i%16) == 0 )
|
|
{
|
|
EMAC_TRACE("\r\n");
|
|
}
|
|
EMAC_TRACE("%02x ",*ptr);
|
|
ptr++;
|
|
}
|
|
EMAC_TRACE("\r\ndump done!\r\n");
|
|
}
|
|
#endif
|
|
}
|
|
}
|
|
|
|
/* Set Own bit of the Rx descriptor Status: gives the buffer back to ETHERNET DMA */
|
|
gd32_emac_device->DMARxDescToGet->Status = EMAC_DMARxDesc_OWN;
|
|
|
|
/* When Rx Buffer unavailable flag is set: clear it and resume reception */
|
|
if ((ETHERNET_MAC->SR & EMAC_DMASR_RBUS) != (uint32_t)RESET)
|
|
{
|
|
/* Clear RBUS ETHERNET DMA flag */
|
|
ETHERNET_MAC->SR = EMAC_DMASR_RBUS;
|
|
/* Resume DMA reception */
|
|
ETHERNET_MAC->RPDR = 0;
|
|
}
|
|
|
|
/* Update the ETHERNET DMA global Rx descriptor with next Rx decriptor */
|
|
/* Chained Mode */
|
|
if((gd32_emac_device->DMARxDescToGet->ControlBufferSize & EMAC_DMARxDesc_RCH) != (uint32_t)RESET)
|
|
{
|
|
/* Selects the next DMA Rx descriptor list for next buffer to read */
|
|
gd32_emac_device->DMARxDescToGet = (EMAC_DMADESCTypeDef*) (gd32_emac_device->DMARxDescToGet->Buffer2NextDescAddr);
|
|
}
|
|
else /* Ring Mode */
|
|
{
|
|
if((gd32_emac_device->DMARxDescToGet->ControlBufferSize & EMAC_DMARxDesc_RER) != (uint32_t)RESET)
|
|
{
|
|
/* Selects the first DMA Rx descriptor for next buffer to read: last Rx descriptor was used */
|
|
gd32_emac_device->DMARxDescToGet = (EMAC_DMADESCTypeDef*) (ETHERNET_MAC->RDLAR);
|
|
}
|
|
else
|
|
{
|
|
/* Selects the next DMA Rx descriptor list for next buffer to read */
|
|
gd32_emac_device->DMARxDescToGet = (EMAC_DMADESCTypeDef*) ((uint32_t)gd32_emac_device->DMARxDescToGet + 0x10 + ((ETHERNET_MAC->BMR & EMAC_DMABMR_DSL) >> 2));
|
|
}
|
|
}
|
|
|
|
return p;
|
|
}
|
|
|
|
/*!
|
|
\brief configures the nested vectored interrupt controller
|
|
\param[in] none
|
|
\param[out] none
|
|
\retval none
|
|
*/
|
|
static void nvic_configuration(void)
|
|
{
|
|
nvic_vector_table_set(NVIC_VECTTAB_FLASH, 0x0);
|
|
nvic_priority_group_set(NVIC_PRIGROUP_PRE2_SUB2);
|
|
nvic_irq_enable(ENET_IRQn, 0, 0);
|
|
}
|
|
|
|
/*!
|
|
\brief configures the different GPIO ports
|
|
\param[in] none
|
|
\param[out] none
|
|
\retval none
|
|
*/
|
|
static void enet_gpio_config(void)
|
|
{
|
|
rcu_periph_clock_enable(RCU_GPIOA);
|
|
rcu_periph_clock_enable(RCU_GPIOB);
|
|
rcu_periph_clock_enable(RCU_GPIOC);
|
|
rcu_periph_clock_enable(RCU_GPIOD);
|
|
rcu_periph_clock_enable(RCU_GPIOG);
|
|
rcu_periph_clock_enable(RCU_GPIOH);
|
|
rcu_periph_clock_enable(RCU_GPIOI);
|
|
|
|
gpio_af_set(GPIOA, GPIO_AF_0, GPIO_PIN_8);
|
|
gpio_mode_set(GPIOA, GPIO_MODE_AF, GPIO_PUPD_NONE, GPIO_PIN_8);
|
|
gpio_output_options_set(GPIOA, GPIO_OTYPE_PP, GPIO_OSPEED_200MHZ,GPIO_PIN_8);
|
|
|
|
/* enable SYSCFG clock */
|
|
rcu_periph_clock_enable(RCU_SYSCFG);
|
|
|
|
/* choose DIV2 to get 50MHz from 200MHz on CKOUT0 pin (PA8) to clock the PHY */
|
|
rcu_ckout0_config(RCU_CKOUT0SRC_PLLP, RCU_CKOUT0_DIV4);
|
|
syscfg_enet_phy_interface_config(SYSCFG_ENET_PHY_RMII);
|
|
|
|
/* PA1: ETH_RMII_REF_CLK */
|
|
gpio_mode_set(GPIOA, GPIO_MODE_AF, GPIO_PUPD_NONE, GPIO_PIN_1);
|
|
gpio_output_options_set(GPIOA, GPIO_OTYPE_PP, GPIO_OSPEED_200MHZ,GPIO_PIN_1);
|
|
|
|
/* PA2: ETH_MDIO */
|
|
gpio_mode_set(GPIOA, GPIO_MODE_AF, GPIO_PUPD_NONE, GPIO_PIN_2);
|
|
gpio_output_options_set(GPIOA, GPIO_OTYPE_PP, GPIO_OSPEED_200MHZ,GPIO_PIN_2);
|
|
|
|
/* PA7: ETH_RMII_CRS_DV */
|
|
gpio_mode_set(GPIOA, GPIO_MODE_AF, GPIO_PUPD_NONE, GPIO_PIN_7);
|
|
gpio_output_options_set(GPIOA, GPIO_OTYPE_PP, GPIO_OSPEED_200MHZ,GPIO_PIN_7);
|
|
|
|
gpio_af_set(GPIOA, GPIO_AF_11, GPIO_PIN_1);
|
|
gpio_af_set(GPIOA, GPIO_AF_11, GPIO_PIN_2);
|
|
gpio_af_set(GPIOA, GPIO_AF_11, GPIO_PIN_7);
|
|
|
|
/* PB11: ETH_RMII_TX_EN */
|
|
gpio_mode_set(GPIOB, GPIO_MODE_AF, GPIO_PUPD_NONE, GPIO_PIN_11);
|
|
gpio_output_options_set(GPIOB, GPIO_OTYPE_PP, GPIO_OSPEED_200MHZ,GPIO_PIN_11);
|
|
|
|
/* PB12: ETH_RMII_TXD0 */
|
|
gpio_mode_set(GPIOB, GPIO_MODE_AF, GPIO_PUPD_NONE, GPIO_PIN_12);
|
|
gpio_output_options_set(GPIOB, GPIO_OTYPE_PP, GPIO_OSPEED_200MHZ,GPIO_PIN_12);
|
|
|
|
/* PB13: ETH_RMII_TXD1 */
|
|
gpio_mode_set(GPIOB, GPIO_MODE_AF, GPIO_PUPD_NONE, GPIO_PIN_13);
|
|
gpio_output_options_set(GPIOB, GPIO_OTYPE_PP, GPIO_OSPEED_200MHZ,GPIO_PIN_13);
|
|
|
|
gpio_af_set(GPIOB, GPIO_AF_11, GPIO_PIN_11);
|
|
gpio_af_set(GPIOB, GPIO_AF_11, GPIO_PIN_12);
|
|
gpio_af_set(GPIOB, GPIO_AF_11, GPIO_PIN_13);
|
|
|
|
/* PC1: ETH_MDC */
|
|
gpio_mode_set(GPIOC, GPIO_MODE_AF, GPIO_PUPD_NONE, GPIO_PIN_1);
|
|
gpio_output_options_set(GPIOC, GPIO_OTYPE_PP, GPIO_OSPEED_200MHZ,GPIO_PIN_1);
|
|
|
|
/* PC4: ETH_RMII_RXD0 */
|
|
gpio_mode_set(GPIOC, GPIO_MODE_AF, GPIO_PUPD_NONE, GPIO_PIN_4);
|
|
gpio_output_options_set(GPIOC, GPIO_OTYPE_PP, GPIO_OSPEED_200MHZ,GPIO_PIN_4);
|
|
|
|
/* PC5: ETH_RMII_RXD1 */
|
|
gpio_mode_set(GPIOC, GPIO_MODE_AF, GPIO_PUPD_NONE, GPIO_PIN_5);
|
|
gpio_output_options_set(GPIOC, GPIO_OTYPE_PP, GPIO_OSPEED_200MHZ,GPIO_PIN_5);
|
|
|
|
gpio_af_set(GPIOC, GPIO_AF_11, GPIO_PIN_1);
|
|
gpio_af_set(GPIOC, GPIO_AF_11, GPIO_PIN_4);
|
|
gpio_af_set(GPIOC, GPIO_AF_11, GPIO_PIN_5);
|
|
}
|
|
|
|
|
|
int rt_hw_gd32_eth_init(void)
|
|
{
|
|
rt_kprintf("rt_gd32_eth_init...\n");
|
|
|
|
/* enable ethernet clock */
|
|
rcu_periph_clock_enable(RCU_ENET);
|
|
rcu_periph_clock_enable(RCU_ENETTX);
|
|
rcu_periph_clock_enable(RCU_ENETRX);
|
|
|
|
nvic_configuration();
|
|
|
|
/* configure the GPIO ports for ethernet pins */
|
|
enet_gpio_config();
|
|
|
|
/* set autonegotiation mode */
|
|
gd32_emac_device0.phy_mode = EMAC_PHY_AUTO;
|
|
gd32_emac_device0.ETHERNET_MAC = ETHERNET_MAC0;
|
|
gd32_emac_device0.ETHER_MAC_IRQ = ENET_IRQn;
|
|
|
|
// OUI 00-00-0E FUJITSU LIMITED
|
|
gd32_emac_device0.dev_addr[0] = 0x00;
|
|
gd32_emac_device0.dev_addr[1] = 0x00;
|
|
gd32_emac_device0.dev_addr[2] = 0x0E;
|
|
/* set mac address: (only for test) */
|
|
gd32_emac_device0.dev_addr[3] = 0x12;
|
|
gd32_emac_device0.dev_addr[4] = 0x34;
|
|
gd32_emac_device0.dev_addr[5] = 0x56;
|
|
|
|
gd32_emac_device0.parent.parent.init = gd32_emac_init;
|
|
gd32_emac_device0.parent.parent.open = gd32_emac_open;
|
|
gd32_emac_device0.parent.parent.close = gd32_emac_close;
|
|
gd32_emac_device0.parent.parent.read = gd32_emac_read;
|
|
gd32_emac_device0.parent.parent.write = gd32_emac_write;
|
|
gd32_emac_device0.parent.parent.control = gd32_emac_control;
|
|
gd32_emac_device0.parent.parent.user_data = RT_NULL;
|
|
|
|
gd32_emac_device0.parent.eth_rx = gd32_emac_rx;
|
|
gd32_emac_device0.parent.eth_tx = gd32_emac_tx;
|
|
|
|
/* init tx buffer free semaphore */
|
|
rt_sem_init(&gd32_emac_device0.tx_buf_free, "tx_buf0", EMAC_TXBUFNB, RT_IPC_FLAG_FIFO);
|
|
eth_device_init(&(gd32_emac_device0.parent), "e0");
|
|
|
|
/* change device link status */
|
|
eth_device_linkchange(&(gd32_emac_device0.parent), RT_TRUE);
|
|
|
|
return 0;
|
|
}
|
|
INIT_DEVICE_EXPORT(rt_hw_gd32_eth_init);
|