767 lines
23 KiB
C
767 lines
23 KiB
C
/*
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* Copyright (c) 2006-2022, 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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* 2022-10-20 luobeihai first version
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*/
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#include <board.h>
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#ifdef BSP_USING_ETH
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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 "lwipopts.h"
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/* debug option */
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//#define DRV_DEBUG
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//#define ETH_RX_DUMP
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//#define ETH_TX_DUMP
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#define LOG_TAG "drv.emac"
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#include "drv_eth.h"
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/* Global pointers on Tx and Rx descriptor used to transmit and receive descriptors */
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extern ETH_DMADescConfig_T *DMATxDescToSet, *DMARxDescToGet;
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/* Ethernet Rx & Tx DMA Descriptors */
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static ETH_DMADescConfig_T DMARxDscrTab[ETH_RXBUFNB], DMATxDscrTab[ETH_TXBUFNB];
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/* Ethernet Receive and Transmit buffers */
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static rt_uint8_t Rx_Buff[ETH_RXBUFNB][ETH_MAX_PACKET_SIZE], Tx_Buff[ETH_TXBUFNB][ETH_MAX_PACKET_SIZE];
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/* phy address */
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static uint8_t phy_addr = 0xFF;
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#define MAX_ADDR_LEN 6
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struct rt_apm32_eth
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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_timer_t poll_link_timer;
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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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uint32_t ETH_Speed; /*!< @ref ETH_Speed */
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uint32_t ETH_Mode; /*!< @ref ETH_Duplex_Mode */
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uint32_t ETH_HashTableHigh;
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uint32_t ETH_HashTableLow;
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};
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static struct rt_apm32_eth apm32_eth_device;
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static struct rt_semaphore tx_wait;
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static rt_bool_t tx_is_waiting = RT_FALSE;
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#if defined(ETH_RX_DUMP) || defined(ETH_TX_DUMP)
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#define __is_print(ch) ((unsigned int)((ch) - ' ') < 127u - ' ')
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static void dump_hex(const rt_uint8_t *ptr, rt_size_t buflen)
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{
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unsigned char *buf = (unsigned char *)ptr;
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int i, j;
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for (i = 0; i < buflen; i += 16)
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{
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rt_kprintf("%08X: ", i);
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for (j = 0; j < 16; j++)
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if (i + j < buflen)
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rt_kprintf("%02X ", buf[i + j]);
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else
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rt_kprintf(" ");
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rt_kprintf(" ");
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for (j = 0; j < 16; j++)
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if (i + j < buflen)
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rt_kprintf("%c", __is_print(buf[i + j]) ? buf[i + j] : '.');
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rt_kprintf("\n");
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}
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}
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#endif
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/* interrupt service routine */
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void ETH_IRQHandler(void)
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{
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rt_uint32_t status, ier;
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/* enter interrupt */
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rt_interrupt_enter();
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/* ETH DMA status registor */
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status = ETH->DMASTS;
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/* ETH DMA interrupt resgitor */
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ier = ETH->DMAINTEN;
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if(status & ETH_DMA_INT_MMC)
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{
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ETH_ClearDMAIntFlag(ETH_DMA_INT_MMC);
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}
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if(status & ETH_DMA_INT_NIS)
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{
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rt_uint32_t nis_clear = ETH_DMA_INT_NIS;
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/* [0]:Transmit Interrupt. */
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if((status & ier) & ETH_DMA_INT_TX) /* packet transmission */
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{
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if (tx_is_waiting == RT_TRUE)
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{
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tx_is_waiting = RT_FALSE;
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rt_sem_release(&tx_wait);
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}
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nis_clear |= ETH_DMA_INT_TX;
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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) & ETH_DMA_INT_RX) /* packet reception */
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{
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/* a frame has been received */
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eth_device_ready(&(apm32_eth_device.parent));
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nis_clear |= ETH_DMA_INT_RX;
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}
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/* [14]:Early Receive Interrupt. */
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ETH_ClearDMAIntFlag(nis_clear);
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}
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if(status & ETH_DMA_INT_AIS)
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{
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rt_uint32_t ais_clear = ETH_DMA_INT_AIS;
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/* [1]:Transmit Process Stopped. */
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if(status & ETH_DMA_INT_TPS)
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{
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ais_clear |= ETH_DMA_INT_TPS;
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}
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/* [3]:Transmit Jabber Timeout. */
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if(status & ETH_DMA_INT_TJT)
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{
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ais_clear |= ETH_DMA_INT_TJT;
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}
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/* [4]: Receive FIFO Overflow. */
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if(status & ETH_DMA_INT_RO)
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{
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ais_clear |= ETH_DMA_INT_RO;
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}
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/* [5]: Transmit Underflow. */
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if(status & ETH_DMA_INT_TU)
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{
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ais_clear |= ETH_DMA_INT_TU;
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}
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/* [7]: Receive Buffer Unavailable. */
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if(status & ETH_DMA_INT_RBU)
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{
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ais_clear |= ETH_DMA_INT_RBU;
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}
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/* [8]: Receive Process Stopped. */
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if(status & ETH_DMA_INT_RPS)
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{
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ais_clear |= ETH_DMA_INT_RPS;
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}
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/* [9]: Receive Watchdog Timeout. */
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if(status & ETH_DMA_INT_RWT)
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{
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ais_clear |= ETH_DMA_INT_RWT;
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}
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/* [10]: Early Transmit Interrupt. */
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/* [13]: Fatal Bus Error. */
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if(status & ETH_DMA_INT_FBE)
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{
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ais_clear |= ETH_DMA_INT_FBE;
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}
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ETH_ClearDMAIntFlag(ais_clear);
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}
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/* leave interrupt */
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rt_interrupt_leave();
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}
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#if (LWIP_IPV4 && LWIP_IGMP) || (LWIP_IPV6 && LWIP_IPV6_MLD)
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/* polynomial: 0x04C11DB7 */
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static uint32_t ethcrc(const uint8_t *data, size_t length)
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{
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uint32_t crc = 0xffffffff;
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size_t i;
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int j;
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for (i = 0; i < length; i++)
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{
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for (j = 0; j < 8; j++)
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{
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if (((crc >> 31) ^ (data[i] >> j)) & 0x01)
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{
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/* x^26+x^23+x^22+x^16+x^12+x^11+x^10+x^8+x^7+x^5+x^4+x^2+x+1 */
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crc = (crc << 1) ^ 0x04C11DB7;
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}
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else
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{
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crc = crc << 1;
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}
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}
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}
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return ~crc;
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}
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#define HASH_BITS 6 /* #bits in hash */
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static void register_multicast_address(struct rt_apm32_eth *apm32_eth, const uint8_t *mac)
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{
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uint32_t crc;
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uint8_t hash;
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/* calculate crc32 value of mac address */
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crc = ethcrc(mac, 6);
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/* only upper 6 bits (HASH_BITS) are used
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* which point to specific bit in he hash registers
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*/
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hash = (crc >> 26) & 0x3F;
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//rt_kprintf("register_multicast_address crc: %08X hash: %02X\n", crc, hash);
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if (hash > 31)
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{
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apm32_eth->ETH_HashTableHigh |= 1 << (hash - 32);
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ETH->HTH = apm32_eth->ETH_HashTableHigh;
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}
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else
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{
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apm32_eth->ETH_HashTableLow |= 1 << hash;
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ETH->HTL = apm32_eth->ETH_HashTableLow;
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}
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}
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#endif /* (LWIP_IPV4 && LWIP_IGMP) || (LWIP_IPV6 && LWIP_IPV6_MLD) */
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#if LWIP_IPV4 && LWIP_IGMP
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static err_t igmp_mac_filter( struct netif *netif, const ip4_addr_t *ip4_addr, enum netif_mac_filter_action action )
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{
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uint8_t mac[6];
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const uint8_t *p = (const uint8_t *)ip4_addr;
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struct rt_apm32_eth *apm32_eth = (struct rt_apm32_eth *)netif->state;
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mac[0] = 0x01;
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mac[1] = 0x00;
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mac[2] = 0x5E;
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mac[3] = *(p+1) & 0x7F;
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mac[4] = *(p+2);
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mac[5] = *(p+3);
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register_multicast_address(apm32_eth, mac);
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if(1)
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{
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rt_kprintf("%s %s %s ", __FUNCTION__, (action==NETIF_ADD_MAC_FILTER)?"add":"del", ip4addr_ntoa(ip4_addr));
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rt_kprintf("%02X:%02X:%02X:%02X:%02X:%02X\n", mac[0], mac[1], mac[2], mac[3], mac[4], mac[5]);
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}
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return 0;
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}
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#endif /* LWIP_IPV4 && LWIP_IGMP */
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#if LWIP_IPV6 && LWIP_IPV6_MLD
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static err_t mld_mac_filter( struct netif *netif, const ip6_addr_t *ip6_addr, enum netif_mac_filter_action action )
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{
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uint8_t mac[6];
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const uint8_t *p = (const uint8_t *)&ip6_addr->addr[3];
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struct rt_apm32_eth *apm32_eth = (struct rt_apm32_eth *)netif->state;
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mac[0] = 0x33;
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mac[1] = 0x33;
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mac[2] = *(p+0);
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mac[3] = *(p+1);
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mac[4] = *(p+2);
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mac[5] = *(p+3);
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register_multicast_address(apm32_eth, mac);
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if(1)
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{
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rt_kprintf("%s %s %s ", __FUNCTION__, (action==NETIF_ADD_MAC_FILTER)?"add":"del", ip6addr_ntoa(ip6_addr));
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rt_kprintf("%02X:%02X:%02X:%02X:%02X:%02X\n", mac[0], mac[1], mac[2], mac[3], mac[4], mac[5]);
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}
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return 0;
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}
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#endif /* LWIP_IPV6 && LWIP_IPV6_MLD */
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/* initialize the interface */
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static rt_err_t rt_apm32_eth_init(rt_device_t dev)
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{
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struct rt_apm32_eth * apm32_eth = (struct rt_apm32_eth *)dev;
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ETH_Config_T ETH_InitStructure;
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/* Enable ETHERNET clock */
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RCM_EnableAHB1PeriphClock(RCM_AHB1_PERIPH_ETH_MAC | RCM_AHB1_PERIPH_ETH_MAC_Tx |
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RCM_AHB1_PERIPH_ETH_MAC_Rx);
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/* Reset ETHERNET on AHB Bus */
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ETH_Reset();
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/* Software reset */
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ETH_SoftwareReset();
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/* Wait for software reset */
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while(ETH_ReadSoftwareReset() == SET);
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/* ETHERNET Configuration --------------------------------------------------*/
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/* Call ETH_StructInit if you don't like to configure all ETH_InitStructure parameter */
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ETH_ConfigStructInit(Ð_InitStructure);
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/* Fill ETH_InitStructure parametrs */
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/*------------------------ MAC -----------------------------------*/
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ETH_InitStructure.autoNegotiation = ETH_AUTONEGOTIATION_ENABLE;
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ETH_InitStructure.speed = (ETH_SPEED_T)apm32_eth->ETH_Speed;
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ETH_InitStructure.mode = (ETH_MODE_T)apm32_eth->ETH_Mode;
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ETH_InitStructure.loopbackMode = ETH_LOOPBACKMODE_DISABLE;
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ETH_InitStructure.retryTransmission = ETH_RETRYTRANSMISSION_DISABLE;
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ETH_InitStructure.automaticPadCRCStrip = ETH_AUTOMATICPADCRCSTRIP_DISABLE;
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ETH_InitStructure.receiveAll = ETH_RECEIVEAll_DISABLE;
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ETH_InitStructure.broadcastFramesReception = ETH_BROADCASTFRAMESRECEPTION_ENABLE;
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ETH_InitStructure.promiscuousMode = ETH_PROMISCUOUS_MODE_DISABLE;
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ETH_InitStructure.multicastFramesFilter = ETH_MULTICASTFRAMESFILTER_HASHTABLE;
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ETH_InitStructure.hashTableHigh = apm32_eth->ETH_HashTableHigh;
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ETH_InitStructure.hashTableLow = apm32_eth->ETH_HashTableLow;
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ETH_InitStructure.unicastFramesFilter = ETH_UNICASTFRAMESFILTER_PERFECT;
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#ifdef HARDWARE_CHECKSUM
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ETH_InitStructure.checksumOffload = ETH_CHECKSUMOFFLAOD_ENABLE;
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#endif
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/*------------------------ DMA -----------------------------------*/
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/* When we use the Checksum offload feature, we need to enable the Store and Forward mode:
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the store and forward guarantee that a whole frame is stored in the FIFO, so the MAC can insert/verify the checksum,
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if the checksum is OK the DMA can handle the frame otherwise the frame is dropped */
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ETH_InitStructure.dropTCPIPChecksumErrorFrame = ETH_DROPTCPIPCHECKSUMERRORFRAME_ENABLE;
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ETH_InitStructure.receiveStoreForward = ETH_RECEIVESTOREFORWARD_ENABLE;
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ETH_InitStructure.flushReceivedFrame = ETH_FLUSHRECEIVEDFRAME_DISABLE;
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ETH_InitStructure.transmitStoreForward = ETH_TRANSMITSTOREFORWARD_ENABLE;
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ETH_InitStructure.forwardErrorFrames = ETH_FORWARDERRORFRAMES_DISABLE;
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ETH_InitStructure.forwardUndersizedGoodFrames = ETH_FORWARDUNDERSIZEDGOODFRAMES_DISABLE;
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ETH_InitStructure.secondFrameOperate = ETH_SECONDFRAMEOPERARTE_ENABLE;
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ETH_InitStructure.addressAlignedBeats = ETH_ADDRESSALIGNEDBEATS_ENABLE;
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ETH_InitStructure.fixedBurst = ETH_FIXEDBURST_ENABLE;
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ETH_InitStructure.rxDMABurstLength = ETH_RXDMABURSTLENGTH_32BEAT;
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ETH_InitStructure.txDMABurstLength = ETH_TXDMABURSTLENGTH_32BEAT;
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ETH_InitStructure.DMAArbitration = ETH_DMAARBITRATION_ROUNDROBIN_RXTX_2_1;
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/* configure Ethernet */
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ETH_Config(Ð_InitStructure, phy_addr);
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/* Enable DMA Receive interrupt (need to enable in this case Normal interrupt) */
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ETH_EnableDMAInterrupt(ETH_DMA_INT_NIS | ETH_DMA_INT_RX | ETH_DMA_INT_TX);
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NVIC_EnableIRQ(ETH_IRQn);
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/* Initialize Tx Descriptors list: Chain Mode */
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ETH_ConfigDMATxDescChain(DMATxDscrTab, &Tx_Buff[0][0], ETH_TXBUFNB);
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/* Initialize Rx Descriptors list: Chain Mode */
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ETH_ConfigDMARxDescChain(DMARxDscrTab, &Rx_Buff[0][0], ETH_RXBUFNB);
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/* MAC address configuration */
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ETH_ConfigMACAddress(ETH_MAC_ADDRESS0, (u8*)&apm32_eth_device.dev_addr[0]);
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/* Enable MAC and DMA transmission and reception */
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ETH_Start();
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#if LWIP_IPV4 && LWIP_IGMP
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netif_set_igmp_mac_filter(apm32_eth->parent.netif, igmp_mac_filter);
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#endif /* LWIP_IPV4 && LWIP_IGMP */
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#if LWIP_IPV6 && LWIP_IPV6_MLD
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netif_set_mld_mac_filter(apm32_eth->parent.netif, mld_mac_filter);
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#endif /* LWIP_IPV6 && LWIP_IPV6_MLD */
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return RT_EOK;
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}
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static rt_err_t rt_apm32_eth_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 rt_apm32_eth_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_size_t rt_apm32_eth_read(rt_device_t dev, rt_off_t pos, void* buffer, rt_size_t size)
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{
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rt_set_errno(-RT_ENOSYS);
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return 0;
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}
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static rt_size_t rt_apm32_eth_write (rt_device_t dev, rt_off_t pos, const void* buffer, rt_size_t size)
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{
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rt_set_errno(-RT_ENOSYS);
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return 0;
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}
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static rt_err_t rt_apm32_eth_control(rt_device_t dev, int cmd, void *args)
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{
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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) rt_memcpy(args, apm32_eth_device.dev_addr, 6);
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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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/* ethernet device interface */
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/* transmit packet. */
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rt_err_t rt_apm32_eth_tx( rt_device_t dev, struct pbuf* p)
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{
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struct pbuf* q;
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rt_uint32_t offset;
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/* Check if the descriptor is owned by the ETHERNET DMA (when set) or CPU (when reset) */
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while ((DMATxDescToSet->Status & ETH_DMATXDESC_OWN) != (uint32_t)RESET)
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{
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rt_err_t result;
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rt_uint32_t level;
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level = rt_hw_interrupt_disable();
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tx_is_waiting = RT_TRUE;
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rt_hw_interrupt_enable(level);
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/* it's own bit set, wait it */
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result = rt_sem_take(&tx_wait, RT_WAITING_FOREVER);
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if (result == RT_EOK) break;
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if (result == -RT_ERROR) return -RT_ERROR;
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}
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offset = 0;
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for (q = p; q != NULL; q = q->next)
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{
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uint8_t *to;
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/* Copy the frame to be sent into memory pointed by the current ETHERNET DMA Tx descriptor */
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to = (uint8_t*)((DMATxDescToSet->Buffer1Addr) + offset);
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memcpy(to, q->payload, q->len);
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offset += q->len;
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}
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#ifdef ETH_TX_DUMP
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rt_kprintf("tx_dump, len:%d\r\n", p->tot_len);
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dump_hex((rt_uint8_t*)(DMATxDescToSet->Buffer1Addr), p->tot_len);
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#endif
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/* Setting the Frame Length: bits[12:0] */
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DMATxDescToSet->ControlBufferSize = (p->tot_len & ETH_DMATXDESC_TXBS1);
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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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DMATxDescToSet->Status |= ETH_DMATXDESC_LS | ETH_DMATXDESC_FS;
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/* Enable TX Completion Interrupt */
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DMATxDescToSet->Status |= ETH_DMATXDESC_INTC;
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#ifdef CHECKSUM_BY_HARDWARE
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DMATxDescToSet->Status |= ETH_DMATxDesc_ChecksumTCPUDPICMPFull;
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/* clean ICMP checksum APM32F need */
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{
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struct eth_hdr *ethhdr = (struct eth_hdr *)(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 *)(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 *)(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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DMATxDescToSet->Status |= ETH_DMATXDESC_OWN;
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/* When Tx Buffer unavailable flag is set: clear it and resume transmission */
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if ((ETH->DMASTS & BIT2) != (u32)RESET)
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{
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/** Clear TBUS ETHERNET DMA flag */
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ETH->DMASTS = BIT2;
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/** Resume DMA transmission*/
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ETH->DMATXPD = 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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DMATxDescToSet = (ETH_DMADescConfig_T*) (DMATxDescToSet->Buffer2NextDescAddr);
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/* Return SUCCESS */
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return RT_EOK;
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}
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/* reception packet. */
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struct pbuf *rt_apm32_eth_rx(rt_device_t dev)
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{
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struct pbuf* p;
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rt_uint32_t offset = 0, framelength = 0;
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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(((DMARxDescToGet->Status & ETH_DMARXDESC_OWN) != (uint32_t)RESET))
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return p;
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if (((DMARxDescToGet->Status & ETH_DMARXDESC_ERRS) == (uint32_t)RESET) &&
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((DMARxDescToGet->Status & ETH_DMARXDESC_LDES) != (uint32_t)RESET) &&
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((DMARxDescToGet->Status & ETH_DMARXDESC_FDES) != (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 = ((DMARxDescToGet->Status & ETH_DMARXDESC_FL) >> ETH_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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struct pbuf* q;
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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, (uint8_t *)((DMARxDescToGet->Buffer1Addr) + offset), q->len);
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offset += q->len;
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}
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#ifdef ETH_RX_DUMP
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rt_kprintf("rx_dump, len:%d\r\n", p->tot_len);
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dump_hex((rt_uint8_t*)(DMARxDescToGet->Buffer1Addr), p->tot_len);
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#endif
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}
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}
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/* Set Own bit of the Rx descriptor Status: gives the buffer back to ETHERNET DMA */
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DMARxDescToGet->Status = ETH_DMARXDESC_OWN;
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/* When Rx Buffer unavailable flag is set: clear it and resume reception */
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if ((ETH->DMASTS & BIT7) != (u32)RESET)
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{
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/* Clear RBUS ETHERNET DMA flag */
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ETH->DMASTS = BIT7;
|
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/* Resume DMA reception */
|
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ETH->DMARXPD = 0;
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}
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|
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/* Update the ETHERNET DMA global Rx descriptor with next Rx decriptor */
|
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/* Chained Mode */
|
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if((DMARxDescToGet->ControlBufferSize & ETH_DMARXDESC_RXCH) != (uint32_t)RESET)
|
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{
|
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/* Selects the next DMA Rx descriptor list for next buffer to read */
|
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DMARxDescToGet = (ETH_DMADescConfig_T*) (DMARxDescToGet->Buffer2NextDescAddr);
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}
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else /* Ring Mode */
|
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{
|
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if((DMARxDescToGet->ControlBufferSize & ETH_DMARXDESC_RXER) != (uint32_t)RESET)
|
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{
|
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/* Selects the first DMA Rx descriptor for next buffer to read: last Rx descriptor was used */
|
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DMARxDescToGet = (ETH_DMADescConfig_T*) (ETH->DMARXDLADDR);
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}
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else
|
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{
|
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/* Selects the next DMA Rx descriptor list for next buffer to read */
|
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DMARxDescToGet = (ETH_DMADescConfig_T*) ((uint32_t)DMARxDescToGet + 0x10 + ((ETH->DMABMOD & 0x0000007C) >> 2));
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}
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}
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|
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return p;
|
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}
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enum {
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PHY_LINK_MASK = (1 << 0),
|
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PHY_100M_MASK = (1 << 1),
|
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PHY_DUPLEX_MASK = (1 << 2),
|
|
};
|
|
|
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static void phy_linkchange(void)
|
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{
|
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uint8_t phy_speed_new = 0;
|
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static uint8_t phy_speed = 0;
|
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uint16_t status = ETH_ReadPHYRegister(phy_addr, PHY_BSR);
|
|
|
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LOG_D("phy basic status reg is 0x%X", status);
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|
|
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if(status & (PHY_AUTONEGO_COMPLETE | PHY_LINKED_STATUS))
|
|
{
|
|
uint16_t SR;
|
|
|
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phy_speed_new |= PHY_LINK_MASK;
|
|
|
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SR = ETH_ReadPHYRegister(phy_addr, PHY_Status_REG);
|
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LOG_D("phy control status reg is 0x%X", SR);
|
|
|
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if (PHY_Status_SPEED_100M(SR))
|
|
{
|
|
phy_speed_new |= PHY_100M_MASK;
|
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}
|
|
|
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if (PHY_Status_FULL_DUPLEX(SR))
|
|
{
|
|
phy_speed_new |= PHY_DUPLEX_MASK;
|
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}
|
|
}
|
|
|
|
/* linkchange */
|
|
if(phy_speed_new != phy_speed)
|
|
{
|
|
if(phy_speed_new & PHY_LINK_MASK)
|
|
{
|
|
LOG_D("link up ");
|
|
|
|
if(phy_speed_new & PHY_100M_MASK)
|
|
{
|
|
LOG_D("100Mbps");
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|
apm32_eth_device.ETH_Speed = ETH_SPEED_100M;
|
|
}
|
|
else
|
|
{
|
|
apm32_eth_device.ETH_Speed = ETH_SPEED_10M;
|
|
LOG_D("10Mbps");
|
|
}
|
|
|
|
if(phy_speed_new & PHY_DUPLEX_MASK)
|
|
{
|
|
LOG_D("full-duplex\r\n");
|
|
apm32_eth_device.ETH_Mode = ETH_MODE_FULLDUPLEX;
|
|
}
|
|
else
|
|
{
|
|
LOG_D("half-duplex\r\n");
|
|
apm32_eth_device.ETH_Mode = ETH_MODE_HALFDUPLEX;
|
|
}
|
|
rt_apm32_eth_init((rt_device_t)&apm32_eth_device);
|
|
|
|
/* send link up. */
|
|
eth_device_linkchange(&apm32_eth_device.parent, RT_TRUE);
|
|
} /* link up. */
|
|
else
|
|
{
|
|
LOG_I("link down\r\n");
|
|
/* send link down. */
|
|
eth_device_linkchange(&apm32_eth_device.parent, RT_FALSE);
|
|
} /* link down. */
|
|
|
|
phy_speed = phy_speed_new;
|
|
} /* linkchange */
|
|
}
|
|
|
|
static void phy_monitor_thread_entry(void *parameter)
|
|
{
|
|
uint8_t detected_count = 0;
|
|
|
|
while(phy_addr == 0xFF)
|
|
{
|
|
/* phy search */
|
|
rt_uint32_t i, temp;
|
|
for (i = 0; i <= 0x1F; i++)
|
|
{
|
|
temp = ETH_ReadPHYRegister(i, PHY_ID1_REG);
|
|
|
|
if (temp != 0xFFFF && temp != 0x00)
|
|
{
|
|
phy_addr = i;
|
|
break;
|
|
}
|
|
}
|
|
|
|
detected_count++;
|
|
rt_thread_mdelay(1000);
|
|
|
|
if (detected_count > 10)
|
|
{
|
|
LOG_E("No PHY device was detected, please check hardware!");
|
|
}
|
|
}
|
|
|
|
LOG_D("Found a phy, address:0x%02X", phy_addr);
|
|
|
|
/* RESET PHY */
|
|
LOG_D("RESET PHY!\r\n");
|
|
ETH_WritePHYRegister(phy_addr, PHY_BCR, PHY_RESET);
|
|
rt_thread_delay(RT_TICK_PER_SECOND * 2);
|
|
ETH_WritePHYRegister(phy_addr, PHY_BCR, PHY_AUTONEGOTIATION);
|
|
|
|
phy_linkchange();
|
|
|
|
apm32_eth_device.poll_link_timer = rt_timer_create("phylnk", (void (*)(void*))phy_linkchange,
|
|
NULL, RT_TICK_PER_SECOND, RT_TIMER_FLAG_PERIODIC);
|
|
if (!apm32_eth_device.poll_link_timer || rt_timer_start(apm32_eth_device.poll_link_timer) != RT_EOK)
|
|
{
|
|
LOG_E("Start link change detection timer failed");
|
|
}
|
|
}
|
|
|
|
static int rt_hw_apm32_eth_init(void)
|
|
{
|
|
extern void phy_reset(void);
|
|
phy_reset();
|
|
|
|
void ETH_GPIO_Configuration(void);
|
|
ETH_GPIO_Configuration();
|
|
|
|
apm32_eth_device.ETH_Speed = ETH_SPEED_100M;
|
|
apm32_eth_device.ETH_Mode = ETH_MODE_FULLDUPLEX;
|
|
|
|
/* set mac address. */
|
|
apm32_eth_device.dev_addr[0] = 0x00;
|
|
apm32_eth_device.dev_addr[1] = 0x00;
|
|
apm32_eth_device.dev_addr[2] = 0x00;
|
|
apm32_eth_device.dev_addr[3] = 0x00;
|
|
apm32_eth_device.dev_addr[4] = 0x00;
|
|
apm32_eth_device.dev_addr[5] = 0x08;
|
|
|
|
apm32_eth_device.parent.parent.init = rt_apm32_eth_init;
|
|
apm32_eth_device.parent.parent.open = rt_apm32_eth_open;
|
|
apm32_eth_device.parent.parent.close = rt_apm32_eth_close;
|
|
apm32_eth_device.parent.parent.read = rt_apm32_eth_read;
|
|
apm32_eth_device.parent.parent.write = rt_apm32_eth_write;
|
|
apm32_eth_device.parent.parent.control = rt_apm32_eth_control;
|
|
apm32_eth_device.parent.parent.user_data = RT_NULL;
|
|
|
|
apm32_eth_device.parent.eth_rx = rt_apm32_eth_rx;
|
|
apm32_eth_device.parent.eth_tx = rt_apm32_eth_tx;
|
|
|
|
/* init tx semaphore */
|
|
rt_sem_init(&tx_wait, "tx_wait", 0, RT_IPC_FLAG_FIFO);
|
|
|
|
/* register eth device */
|
|
eth_device_init(&(apm32_eth_device.parent), "e0");
|
|
|
|
/* start phy monitor */
|
|
{
|
|
rt_thread_t tid;
|
|
tid = rt_thread_create("phy",
|
|
phy_monitor_thread_entry,
|
|
RT_NULL,
|
|
512,
|
|
RT_THREAD_PRIORITY_MAX - 2,
|
|
2);
|
|
if (tid != RT_NULL)
|
|
rt_thread_startup(tid);
|
|
}
|
|
|
|
return RT_EOK;
|
|
}
|
|
INIT_DEVICE_EXPORT(rt_hw_apm32_eth_init);
|
|
|
|
#endif /* BSP_USING_ETH */
|