#include "rtl8195a.h" #include "build_info.h" #ifdef PLATFORM_FREERTOS #include "FreeRTOS.h" #include "task.h" #include "semphr.h" #endif #include "osdep_service.h" #include "lwip_netconf.h" #include "ethernet_api.h" #include "lwip_intf.h" #include "ethernet_mii.h" #include "platform_opts.h" #include "ethernet_ex_api.h" #if defined(CONFIG_MII_EN) static _sema mii_rx_sema; static _mutex mii_tx_mutex; extern struct netif xnetif[NET_IF_NUM]; static u8 TX_BUFFER[1518]; static u8 RX_BUFFER[1518]; static u8 *pTmpTxDesc = NULL; static u8 *pTmpRxDesc = NULL; static u8 *pTmpTxPktBuf = NULL; static u8 *pTmpRxPktBuf = NULL; int dhcp_ethernet_mii = 1; int ethernet_if_default = 0; extern int lwip_init_done; static _sema mii_linkup_sema; void mii_rx_thread(void* param){ u32 len = 0; u8* pbuf = RX_BUFFER; while(1){ if (rtw_down_sema(&mii_rx_sema) == _FAIL){ DBG_8195A("%s, Take Semaphore Fail\n", __FUNCTION__); goto exit; } // continues read the rx ring until its empty while(1){ len = ethernet_receive(); if(len){ //DBG_8195A("mii_recv len = %d\n\r", len); ethernet_read(pbuf, len); // calculate the time duration ethernetif_mii_recv(&xnetif[NET_IF_NUM - 1], len); //__rtl_memDump_v1_00(pbuf, len, "ethernet_receive Data:"); //rtw_memset(pbuf, 0, len); }else if(len == 0){ break; } } } exit: rtw_free_sema(&mii_rx_sema); vTaskDelete(NULL); } void dhcp_start_mii(void* param) { while(1) { if (rtw_down_sema(&mii_linkup_sema) == _FAIL){ DBG_8195A("%s, Take Semaphore Fail\n", __FUNCTION__); break; } LwIP_DHCP(NET_IF_NUM - 1, DHCP_START); } rtw_free_sema(&mii_linkup_sema); vTaskDelete(NULL); } void mii_intr_handler(u32 Event, u32 Data) { switch(Event) { case ETH_TXDONE: //DBG_8195A("TX Data = %d\n", Data); break; case ETH_RXDONE: //DBG_8195A("\r\nRX Data = %d\n", Data); // wake up rx thread to receive data rtw_up_sema_from_isr(&mii_rx_sema); break; case ETH_LINKUP: DBG_8195A("Link Up\n"); if(dhcp_ethernet_mii == 1) rtw_up_sema_from_isr(&mii_linkup_sema); break; case ETH_LINKDOWN: DBG_8195A("Link Down\n"); break; default: DBG_8195A("Unknown event !!\n"); break; } } void ethernet_demo(void* param){ u8 mac[6]; /* Initilaize the LwIP stack */ // can not init twice if(!lwip_init_done) LwIP_Init(); DBG_8195A("LWIP Init done\n"); ethernet_irq_hook(mii_intr_handler); if(pTmpTxDesc) { free(pTmpTxDesc); pTmpTxDesc = NULL; } if(pTmpRxDesc) { free(pTmpRxDesc); pTmpRxDesc = NULL; } if(pTmpTxPktBuf) { free(pTmpTxPktBuf); pTmpTxPktBuf = NULL; } if(pTmpRxPktBuf) { free(pTmpRxPktBuf); pTmpRxPktBuf = NULL; } pTmpTxDesc = (u8 *)malloc(/*MII_TX_DESC_CNT*/MII_TX_DESC_NO * ETH_TX_DESC_SIZE); pTmpRxDesc = (u8 *)malloc(/*MII_RX_DESC_CNT*/MII_RX_DESC_NO * ETH_RX_DESC_SIZE); pTmpTxPktBuf = (u8 *)malloc(/*MII_TX_DESC_CNT*/MII_TX_DESC_NO * ETH_PKT_BUF_SIZE); pTmpRxPktBuf = (u8 *)malloc(/*MII_RX_DESC_CNT*/MII_RX_DESC_NO * ETH_PKT_BUF_SIZE); if(pTmpTxDesc == NULL || pTmpRxDesc == NULL || pTmpTxPktBuf == NULL || pTmpRxPktBuf == NULL) { printf("TX/RX descriptor malloc fail\n"); return; } memset(pTmpTxDesc, 0, MII_TX_DESC_NO * ETH_TX_DESC_SIZE); memset(pTmpRxDesc, 0, MII_RX_DESC_NO * ETH_RX_DESC_SIZE); memset(pTmpTxPktBuf, 0, MII_TX_DESC_NO * ETH_PKT_BUF_SIZE); memset(pTmpRxPktBuf, 0, MII_RX_DESC_NO * ETH_PKT_BUF_SIZE); //size 160 128 12288 12288 ethernet_set_descnum(MII_TX_DESC_NO, MII_RX_DESC_NO); printf("TRX descriptor number setting done\n"); ethernet_trx_pre_setting(pTmpTxDesc, pTmpRxDesc, pTmpTxPktBuf, pTmpRxPktBuf); printf("TRX pre setting done\n"); ethernet_init(); #if 0 DBG_INFO_MSG_OFF(_DBG_MII_); DBG_WARN_MSG_OFF(_DBG_MII_); DBG_ERR_MSG_ON(_DBG_MII_); #endif /*get mac*/ ethernet_address(mac); memcpy((void*)xnetif[NET_IF_NUM - 1].hwaddr,(void*)mac, 6); rtw_init_sema(&mii_rx_sema,0); rtw_mutex_init(&mii_tx_mutex); if(xTaskCreate(mii_rx_thread, ((const char*)"mii_rx_th"), 1024, NULL, tskIDLE_PRIORITY+5, NULL) != pdPASS) DBG_8195A("\n\r%s xTaskCreate(mii_rx_thread) failed", __FUNCTION__); DBG_8195A("\nEthernet_mii Init done, interface %d",NET_IF_NUM - 1); if(dhcp_ethernet_mii == 1) LwIP_DHCP(NET_IF_NUM - 1, DHCP_START); vTaskDelete(NULL); } void ethernet_mii_init() { printf("\ninitializing Ethernet_mii......\n"); // set the ethernet interface as default ethernet_if_default = 1; rtw_init_sema(&mii_linkup_sema,0); if( xTaskCreate((TaskFunction_t)dhcp_start_mii, "DHCP_MII", 1024, NULL, 2, NULL) != pdPASS) { DBG_8195A("Cannot create demo task\n\r"); } if( xTaskCreate((TaskFunction_t)ethernet_demo, "ETH_DEMO", 1024, NULL, 2, NULL) != pdPASS) { DBG_8195A("Cannot create demo task\n\r"); } } void rltk_mii_recv(struct eth_drv_sg *sg_list, int sg_len){ struct eth_drv_sg *last_sg; u8* pbuf = RX_BUFFER; for (last_sg = &sg_list[sg_len]; sg_list < last_sg; ++sg_list) { if (sg_list->buf != 0) { rtw_memcpy((void *)(sg_list->buf), pbuf, sg_list->len); pbuf+=sg_list->len; } } } s8 rltk_mii_send(struct eth_drv_sg *sg_list, int sg_len, int total_len){ int ret =0; struct eth_drv_sg *last_sg; u8* pdata = TX_BUFFER; u8 retry_cnt = 0; u32 size = 0; for (last_sg = &sg_list[sg_len]; sg_list < last_sg; ++sg_list) { rtw_memcpy(pdata, (void *)(sg_list->buf), sg_list->len); pdata += sg_list->len; size += sg_list->len; } pdata = TX_BUFFER; //DBG_8195A("mii_send len= %d\n\r", size); rtw_mutex_get(&mii_tx_mutex); while(1){ ret = ethernet_write(pdata, size); if(ret > 0){ ethernet_send(); ret = 0; break; } if(++retry_cnt > 3){ DBG_8195A("TX drop\n\r"); ret = -1; } else rtw_udelay_os(1); } rtw_mutex_put(&mii_tx_mutex); return ret; } #endif //CONFIG_MII_EN