diff --git a/bsp/tm4c129x/drivers/drv_eth.c b/bsp/tm4c129x/drivers/drv_eth.c index 12d9f88f3e09b4756eb9c837c367b562e11ed65c..11b96a10a5d82623db647553da22bb0ac783054f 100644 --- a/bsp/tm4c129x/drivers/drv_eth.c +++ b/bsp/tm4c129x/drivers/drv_eth.c @@ -89,10 +89,12 @@ #define PHY_PHYS_ADDR 0 #endif +#if 1 #ifndef EMAC_PHY_CONFIG #define EMAC_PHY_CONFIG (EMAC_PHY_TYPE_INTERNAL | EMAC_PHY_INT_MDIX_EN | \ EMAC_PHY_AN_100B_T_FULL_DUPLEX) #endif +#endif /** * If necessary, set the defaui32t number of transmit and receive DMA descriptors @@ -142,6 +144,11 @@ extern void lwIPHostGetTime(u32_t *time_s, u32_t *time_ns); #include "lwipopts.h" #include "drv_eth.h" +/* Define those to better describe your network interface. */ +#define IFNAME0 't' +#define IFNAME1 'i' + + /** * A structure used to keep track of driver state and error counts. */ @@ -233,6 +240,13 @@ static tStellarisIF g_StellarisIFData = { volatile uint32_t g_ui32NormalInts; volatile uint32_t g_ui32AbnormalInts; +/** + * Status flag for EEE link established + */ +#if EEE_SUPPORT +volatile bool g_bEEELinkActive; +#endif + /** * A macro which determines whether a pointer is within the SRAM address * space and, hence, points to a buffer that the Ethernet MAC can directly @@ -335,9 +349,35 @@ tivaif_hwinit(struct netif *psNetif) { uint16_t ui16Val; + /* clear the EEE Link Active flag */ +#if EEE_SUPPORT + g_bEEELinkActive = false; +#endif + + /* Set MAC hardware address length */ + psNetif->hwaddr_len = ETHARP_HWADDR_LEN; + + /* Set MAC hardware address */ + EMACAddrGet(EMAC0_BASE, 0, &(psNetif->hwaddr[0])); + + /* Maximum transfer unit */ + psNetif->mtu = 1500; + + /* Device capabilities */ + psNetif->flags = NETIF_FLAG_BROADCAST | NETIF_FLAG_ETHARP | NETIF_FLAG_LINK_UP; + /* Initialize the DMA descriptors. */ InitDMADescriptors(); +#if defined(EMAC_PHY_IS_EXT_MII) || defined(EMAC_PHY_IS_EXT_RMII) + /* If PHY is external then reset the PHY before configuring it */ + EMACPHYWrite(EMAC0_BASE, PHY_PHYS_ADDR, EPHY_BMCR, + EPHY_BMCR_MIIRESET); + + while((EMACPHYRead(EMAC0_BASE, PHY_PHYS_ADDR, EPHY_BMCR) & + EPHY_BMCR_MIIRESET) == EPHY_BMCR_MIIRESET); +#endif + /* Clear any stray PHY interrupts that may be set. */ ui16Val = EMACPHYRead(EMAC0_BASE, PHY_PHYS_ADDR, EPHY_MISR1); ui16Val = EMACPHYRead(EMAC0_BASE, PHY_PHYS_ADDR, EPHY_MISR2); @@ -398,8 +438,13 @@ tivaif_hwinit(struct netif *psNetif) IntMasterEnable(); /* Tell the PHY to start an auto-negotiation cycle. */ +#if defined(EMAC_PHY_IS_EXT_MII) || defined(EMAC_PHY_IS_EXT_RMII) + EMACPHYWrite(EMAC0_BASE, PHY_PHYS_ADDR, EPHY_BMCR, (EPHY_BMCR_SPEED | + EPHY_BMCR_DUPLEXM | EPHY_BMCR_ANEN | EPHY_BMCR_RESTARTAN)); +#else EMACPHYWrite(EMAC0_BASE, PHY_PHYS_ADDR, EPHY_BMCR, (EPHY_BMCR_ANEN | EPHY_BMCR_RESTARTAN)); +#endif } #ifdef DEBUG @@ -484,16 +529,16 @@ tivaif_check_pbuf(struct pbuf *p) tivaif_trace_pbuf("Copied:", pBuf); #endif DRIVER_STATS_INC(TXCopyCount); - - /* Reduce the reference count on the original pbuf since - * we're not going to hold on to it after returning from - * tivaif_transmit. Note that we already bumped - * the reference count at the top of tivaif_transmit. - */ - pbuf_free(p); } } + /* Reduce the reference count on the original pbuf since we're not + * going to hold on to it after returning from tivaif_transmit. + * Note that we already bumped the reference count at the top of + * tivaif_transmit. + */ + pbuf_free(p); + /* Send back the new pbuf pointer or NULL if an error occurred. */ return(pBuf); } @@ -573,7 +618,7 @@ tivaif_transmit(net_device_t dev, struct pbuf *p) { /** * The current write descriptor has a pbuf attached to it so this - * implies that the ring is fui32l. Reject this transmit request with a + * implies that the ring is full. Reject this transmit request with a * memory error since we can't satisfy it just now. */ pbuf_free(p); @@ -630,13 +675,8 @@ tivaif_transmit(net_device_t dev, struct pbuf *p) pDesc->Desc.ui32CtrlStatus = 0; } -#ifdef RT_LWIP_USING_HW_CHECKSUM pDesc->Desc.ui32CtrlStatus |= (DES0_TX_CTRL_IP_ALL_CKHSUMS | DES0_TX_CTRL_CHAINED); -#else - pDesc->Desc.ui32CtrlStatus |= (DES0_TX_CTRL_NO_CHKSUM | - DES0_TX_CTRL_CHAINED); -#endif /* Decrement our descriptor counter, move on to the next buffer in the * pbuf chain. */ @@ -761,7 +801,7 @@ tivaif_receive(net_device_t dev) { tDescriptorList *pDescList; tStellarisIF *pIF; - struct pbuf *pBuf; + static struct pbuf *pBuf = NULL; uint32_t ui32DescEnd; /* Get a pointer to our state data */ @@ -773,10 +813,10 @@ tivaif_receive(net_device_t dev) /* Start with a NULL pbuf so that we don't try to link chain the first * time round. */ - pBuf = NULL; + //pBuf = NULL; /* Determine where we start and end our walk of the descriptor list */ - ui32DescEnd = pDescList->ui32Read ? (pDescList->ui32Read - 1) : (pDescList->ui32NumDescs - 1); + ui32DescEnd = pDescList->ui32Read ? (pDescList->ui32Read - 1) : (pDescList->ui32NumDescs - 1); /* Step through the descriptors that are marked for CPU attention. */ while(pDescList->ui32Read != ui32DescEnd) @@ -816,7 +856,7 @@ tivaif_receive(net_device_t dev) if(pBuf) { /* Link this pbuf to the last one we looked at since this buffer - * is a continuation of an existing frame (split across mui32tiple + * is a continuation of an existing frame (split across multiple * pbufs). Note that we use pbuf_cat() here rather than * pbuf_chain() since we don't want to increase the reference * count of either pbuf - we only want to link them together. @@ -843,6 +883,7 @@ tivaif_receive(net_device_t dev) pbuf_free(pBuf); LINK_STATS_INC(link.drop); DRIVER_STATS_INC(RXPacketErrCount); + pBuf = NULL; } else { @@ -860,13 +901,11 @@ tivaif_receive(net_device_t dev) #if NO_SYS if(ethernet_input(pBuf, psNetif) != RT_EOK) - { #else - //if(tcpip_input(pBuf, psNetif) != RT_EOK) - if((rt_mb_send(dev->rx_pbuf_mb, (rt_uint32_t)pBuf) != RT_EOK) || - (eth_device_ready(&(dev->parent)) != RT_EOK)) - { + //if(tcpip_input(pBuf, psNetif) != ERR_OK) + if(rt_mb_send(dev->rx_pbuf_mb, (rt_uint32_t)pBuf) != RT_EOK) #endif + { /* drop the packet */ LWIP_DEBUGF(NETIF_DEBUG, ("tivaif_input: input error\n")); pbuf_free(pBuf); @@ -943,6 +982,9 @@ void tivaif_process_phy_interrupt(net_device_t dev) { uint16_t ui16Val, ui16Status; +#if EEE_SUPPORT + uint16_t ui16EEEStatus; +#endif uint32_t ui32Config, ui32Mode, ui32RxMaxFrameSize; /* Read the PHY interrupt status. This clears all interrupt sources. @@ -951,13 +993,16 @@ tivaif_process_phy_interrupt(net_device_t dev) */ ui16Val = EMACPHYRead(EMAC0_BASE, PHY_PHYS_ADDR, EPHY_MISR1); - /* - * Dummy read PHY REG EPHY_BMSR, it will force update the EPHY_STS register - */ - EMACPHYRead(EMAC0_BASE, PHY_PHYS_ADDR, EPHY_BMSR); /* Read the current PHY status. */ ui16Status = EMACPHYRead(EMAC0_BASE, PHY_PHYS_ADDR, EPHY_STS); + /* If EEE mode support is requested then read the value of the Link + * partners status + */ +#if EEE_SUPPORT + ui16EEEStatus = EMACPHYMMDRead(EMAC0_BASE, PHY_PHYS_ADDR, 0x703D); +#endif + /* Has the link status changed? */ if(ui16Val & EPHY_MISR1_LINKSTAT) { @@ -972,6 +1017,19 @@ tivaif_process_phy_interrupt(net_device_t dev) eth_device_linkchange(&(dev->parent), RT_TRUE); #endif + /* if the link has been advertised as EEE capable then configure + * the MAC register for LPI timers and manually set the PHY link + * status bit + */ +#if EEE_SUPPORT + if(ui16EEEStatus & 0x2) + { + EMACLPIConfig(EMAC0_BASE, true, 1000, 36); + EMACLPILinkSet(EMAC0_BASE); + g_bEEELinkActive = true; + } +#endif + /* In this case we drop through since we may need to reconfigure * the MAC depending upon the speed and half/fui32l-duplex settings. */ @@ -985,6 +1043,16 @@ tivaif_process_phy_interrupt(net_device_t dev) //tcpip_callback((tcpip_callback_fn)netif_set_link_down, psNetif); eth_device_linkchange(&(dev->parent), RT_FALSE); #endif + + /* if the link has been advertised as EEE capable then clear the + * MAC register LPI timers and manually clear the PHY link status + * bit + */ +#if EEE_SUPPORT + g_bEEELinkActive = false; + EMACLPILinkClear(EMAC0_BASE); + EMACLPIConfig(EMAC0_BASE, false, 1000, 0); +#endif } } @@ -1061,11 +1129,17 @@ tivaif_interrupt(net_device_t dev, uint32_t ui32Status) */ if(ui32Status & EMAC_INT_TRANSMIT) { +#if EEE_SUPPORT + if(g_bEEELinkActive) + { + EMACLPIEnter(EMAC0_BASE); + } +#endif tivaif_process_transmit(dev->dma_if); } /** - * Process the receive DMA list and pass all successfui32ly received packets + * Process the receive DMA list and pass all successfully received packets * up the stack. We also call this function in cases where the receiver has * stalled due to missing buffers since the receive function will attempt to * allocate new pbufs for descriptor entries which have none.