| /* |
| * LPC32xx Ethernet MAC interface driver |
| * |
| * (C) Copyright 2014 DENX Software Engineering GmbH |
| * Written-by: Albert ARIBAUD - 3ADEV <albert.aribaud@3adev.fr> |
| * |
| * SPDX-License-Identifier: GPL-2.0+ |
| */ |
| |
| #include <common.h> |
| #include <net.h> |
| #include <malloc.h> |
| #include <miiphy.h> |
| #include <asm/io.h> |
| #include <asm/errno.h> |
| #include <asm/types.h> |
| #include <asm/system.h> |
| #include <asm/byteorder.h> |
| #include <asm/arch/cpu.h> |
| #include <asm/arch/config.h> |
| |
| /* |
| * Notes: |
| * |
| * 1. Unless specified otherwise, all references to tables or paragraphs |
| * are to UM10326, "LPC32x0 and LPC32x0/01 User manual". |
| * |
| * 2. Only bitfield masks/values which are actually used by the driver |
| * are defined. |
| */ |
| |
| /* a single RX descriptor. The controller has an array of these */ |
| struct lpc32xx_eth_rxdesc { |
| u32 packet; /* Receive packet pointer */ |
| u32 control; /* Descriptor command status */ |
| }; |
| |
| #define LPC32XX_ETH_RX_DESC_SIZE (sizeof(struct lpc32xx_eth_rxdesc)) |
| |
| /* RX control bitfields/masks (see Table 330) */ |
| #define LPC32XX_ETH_RX_CTRL_SIZE_MASK 0x000007FF |
| #define LPC32XX_ETH_RX_CTRL_UNUSED 0x7FFFF800 |
| #define LPC32XX_ETH_RX_CTRL_INTERRUPT 0x80000000 |
| |
| /* a single RX status. The controller has an array of these */ |
| struct lpc32xx_eth_rxstat { |
| u32 statusinfo; /* Transmit Descriptor status */ |
| u32 statushashcrc; /* Transmit Descriptor CRCs */ |
| }; |
| |
| #define LPC32XX_ETH_RX_STAT_SIZE (sizeof(struct lpc32xx_eth_rxstat)) |
| |
| /* RX statusinfo bitfields/masks (see Table 333) */ |
| #define RX_STAT_RXSIZE 0x000007FF |
| /* Helper: OR of all errors except RANGE */ |
| #define RX_STAT_ERRORS 0x1B800000 |
| |
| /* a single TX descriptor. The controller has an array of these */ |
| struct lpc32xx_eth_txdesc { |
| u32 packet; /* Transmit packet pointer */ |
| u32 control; /* Descriptor control */ |
| }; |
| |
| #define LPC32XX_ETH_TX_DESC_SIZE (sizeof(struct lpc32xx_eth_txdesc)) |
| |
| /* TX control bitfields/masks (see Table 335) */ |
| #define TX_CTRL_TXSIZE 0x000007FF |
| #define TX_CTRL_LAST 0x40000000 |
| |
| /* a single TX status. The controller has an array of these */ |
| struct lpc32xx_eth_txstat { |
| u32 statusinfo; /* Transmit Descriptor status */ |
| }; |
| |
| #define LPC32XX_ETH_TX_STAT_SIZE (sizeof(struct lpc32xx_eth_txstat)) |
| |
| /* Ethernet MAC interface registers (see Table 283) */ |
| struct lpc32xx_eth_registers { |
| /* MAC registers - 0x3106_0000 to 0x3106_01FC */ |
| u32 mac1; /* MAC configuration register 1 */ |
| u32 mac2; /* MAC configuration register 2 */ |
| u32 ipgt; /* Back-to-back Inter-Packet Gap reg. */ |
| u32 ipgr; /* Non-back-to-back IPG register */ |
| u32 clrt; /* Collision Window / Retry register */ |
| u32 maxf; /* Maximum Frame register */ |
| u32 supp; /* Phy Support register */ |
| u32 test; |
| u32 mcfg; /* MII management configuration reg. */ |
| u32 mcmd; /* MII management command register */ |
| u32 madr; /* MII management address register */ |
| u32 mwtd; /* MII management wite data register */ |
| u32 mrdd; /* MII management read data register */ |
| u32 mind; /* MII management indicators register */ |
| u32 reserved1[2]; |
| u32 sa0; /* Station address register 0 */ |
| u32 sa1; /* Station address register 1 */ |
| u32 sa2; /* Station address register 2 */ |
| u32 reserved2[45]; |
| /* Control registers */ |
| u32 command; |
| u32 status; |
| u32 rxdescriptor; |
| u32 rxstatus; |
| u32 rxdescriptornumber; /* actually, number MINUS ONE */ |
| u32 rxproduceindex; /* head of rx desc fifo */ |
| u32 rxconsumeindex; /* tail of rx desc fifo */ |
| u32 txdescriptor; |
| u32 txstatus; |
| u32 txdescriptornumber; /* actually, number MINUS ONE */ |
| u32 txproduceindex; /* head of rx desc fifo */ |
| u32 txconsumeindex; /* tail of rx desc fifo */ |
| u32 reserved3[10]; |
| u32 tsv0; /* Transmit status vector register 0 */ |
| u32 tsv1; /* Transmit status vector register 1 */ |
| u32 rsv; /* Receive status vector register */ |
| u32 reserved4[3]; |
| u32 flowcontrolcounter; |
| u32 flowcontrolstatus; |
| u32 reserved5[34]; |
| /* RX filter registers - 0x3106_0200 to 0x3106_0FDC */ |
| u32 rxfilterctrl; |
| u32 rxfilterwolstatus; |
| u32 rxfilterwolclear; |
| u32 reserved6; |
| u32 hashfilterl; |
| u32 hashfilterh; |
| u32 reserved7[882]; |
| /* Module control registers - 0x3106_0FE0 to 0x3106_0FF8 */ |
| u32 intstatus; /* Interrupt status register */ |
| u32 intenable; |
| u32 intclear; |
| u32 intset; |
| u32 reserved8; |
| u32 powerdown; |
| u32 reserved9; |
| }; |
| |
| /* MAC1 register bitfields/masks and offsets (see Table 283) */ |
| #define MAC1_RECV_ENABLE 0x00000001 |
| #define MAC1_PASS_ALL_RX_FRAMES 0x00000002 |
| #define MAC1_SOFT_RESET 0x00008000 |
| /* Helper: general reset */ |
| #define MAC1_RESETS 0x0000CF00 |
| |
| /* MAC2 register bitfields/masks and offsets (see Table 284) */ |
| #define MAC2_FULL_DUPLEX 0x00000001 |
| #define MAC2_CRC_ENABLE 0x00000010 |
| #define MAC2_PAD_CRC_ENABLE 0x00000020 |
| |
| /* SUPP register bitfields/masks and offsets (see Table 290) */ |
| #define SUPP_SPEED 0x00000100 |
| |
| /* MCFG register bitfields/masks and offsets (see Table 292) */ |
| #define MCFG_RESET_MII_MGMT 0x00008000 |
| /* divide clock by 28 (see Table 293) */ |
| #define MCFG_CLOCK_SELECT_DIV28 0x0000001C |
| |
| /* MADR register bitfields/masks and offsets (see Table 295) */ |
| #define MADR_REG_MASK 0x0000001F |
| #define MADR_PHY_MASK 0x00001F00 |
| #define MADR_REG_OFFSET 0 |
| #define MADR_PHY_OFFSET 8 |
| |
| /* MIND register bitfields/masks (see Table 298) */ |
| #define MIND_BUSY 0x00000001 |
| |
| /* COMMAND register bitfields/masks and offsets (see Table 283) */ |
| #define COMMAND_RXENABLE 0x00000001 |
| #define COMMAND_TXENABLE 0x00000002 |
| #define COMMAND_PASSRUNTFRAME 0x00000040 |
| #define COMMAND_RMII 0x00000200 |
| #define COMMAND_FULL_DUPLEX 0x00000400 |
| /* Helper: general reset */ |
| #define COMMAND_RESETS 0x00000038 |
| |
| /* STATUS register bitfields/masks and offsets (see Table 283) */ |
| #define STATUS_RXSTATUS 0x00000001 |
| #define STATUS_TXSTATUS 0x00000002 |
| |
| /* RXFILTERCTRL register bitfields/masks (see Table 319) */ |
| #define RXFILTERCTRL_ACCEPTBROADCAST 0x00000002 |
| #define RXFILTERCTRL_ACCEPTPERFECT 0x00000020 |
| |
| /* Buffers and descriptors */ |
| |
| #define ATTRS(n) __aligned(n) |
| |
| #define TX_BUF_COUNT 4 |
| #define RX_BUF_COUNT 4 |
| |
| struct lpc32xx_eth_buffers { |
| ATTRS(4) struct lpc32xx_eth_txdesc tx_desc[TX_BUF_COUNT]; |
| ATTRS(4) struct lpc32xx_eth_txstat tx_stat[TX_BUF_COUNT]; |
| ATTRS(PKTALIGN) u8 tx_buf[TX_BUF_COUNT*PKTSIZE_ALIGN]; |
| ATTRS(4) struct lpc32xx_eth_rxdesc rx_desc[RX_BUF_COUNT]; |
| ATTRS(8) struct lpc32xx_eth_rxstat rx_stat[RX_BUF_COUNT]; |
| ATTRS(PKTALIGN) u8 rx_buf[RX_BUF_COUNT*PKTSIZE_ALIGN]; |
| }; |
| |
| /* port device data struct */ |
| struct lpc32xx_eth_device { |
| struct eth_device dev; |
| struct lpc32xx_eth_registers *regs; |
| struct lpc32xx_eth_buffers *bufs; |
| bool phy_rmii; |
| }; |
| |
| #define LPC32XX_ETH_DEVICE_SIZE (sizeof(struct lpc32xx_eth_device)) |
| |
| /* generic macros */ |
| #define to_lpc32xx_eth(_d) container_of(_d, struct lpc32xx_eth_device, dev) |
| |
| /* timeout for MII polling */ |
| #define MII_TIMEOUT 10000000 |
| |
| /* limits for PHY and register addresses */ |
| #define MII_MAX_REG (MADR_REG_MASK >> MADR_REG_OFFSET) |
| |
| #define MII_MAX_PHY (MADR_PHY_MASK >> MADR_PHY_OFFSET) |
| |
| DECLARE_GLOBAL_DATA_PTR; |
| |
| #if defined(CONFIG_PHYLIB) || defined(CONFIG_MII) || defined(CONFIG_CMD_MII) |
| /* |
| * mii_reg_read - miiphy_read callback function. |
| * |
| * Returns 16bit phy register value, or 0xffff on error |
| */ |
| static int mii_reg_read(struct mii_dev *bus, int phy_adr, int devad, |
| int reg_ofs) |
| { |
| u16 data = 0; |
| struct eth_device *dev = eth_get_dev_by_name(bus->name); |
| struct lpc32xx_eth_device *dlpc32xx_eth = to_lpc32xx_eth(dev); |
| struct lpc32xx_eth_registers *regs = dlpc32xx_eth->regs; |
| u32 mind_reg; |
| u32 timeout; |
| |
| /* check parameters */ |
| if (phy_adr > MII_MAX_PHY) { |
| printf("%s:%u: Invalid PHY address %d\n", |
| __func__, __LINE__, phy_adr); |
| return -EFAULT; |
| } |
| if (reg_ofs > MII_MAX_REG) { |
| printf("%s:%u: Invalid register offset %d\n", |
| __func__, __LINE__, reg_ofs); |
| return -EFAULT; |
| } |
| |
| /* write the phy and reg addressse into the MII address reg */ |
| writel((phy_adr << MADR_PHY_OFFSET) | (reg_ofs << MADR_REG_OFFSET), |
| ®s->madr); |
| |
| /* write 1 to the MII command register to cause a read */ |
| writel(1, ®s->mcmd); |
| |
| /* wait till the MII is not busy */ |
| timeout = MII_TIMEOUT; |
| do { |
| /* read MII indicators register */ |
| mind_reg = readl(®s->mind); |
| if (--timeout == 0) |
| break; |
| } while (mind_reg & MIND_BUSY); |
| |
| /* write 0 to the MII command register to finish the read */ |
| writel(0, ®s->mcmd); |
| |
| if (timeout == 0) { |
| printf("%s:%u: MII busy timeout\n", __func__, __LINE__); |
| return -EFAULT; |
| } |
| |
| data = (u16) readl(®s->mrdd); |
| |
| debug("%s:(adr %d, off %d) => %04x\n", __func__, phy_adr, |
| reg_ofs, data); |
| |
| return data; |
| } |
| |
| /* |
| * mii_reg_write - imiiphy_write callback function. |
| * |
| * Returns 0 if write succeed, -EINVAL on bad parameters |
| * -ETIME on timeout |
| */ |
| static int mii_reg_write(struct mii_dev *bus, int phy_adr, int devad, |
| int reg_ofs, u16 data) |
| { |
| struct eth_device *dev = eth_get_dev_by_name(bus->name); |
| struct lpc32xx_eth_device *dlpc32xx_eth = to_lpc32xx_eth(dev); |
| struct lpc32xx_eth_registers *regs = dlpc32xx_eth->regs; |
| u32 mind_reg; |
| u32 timeout; |
| |
| /* check parameters */ |
| if (phy_adr > MII_MAX_PHY) { |
| printf("%s:%u: Invalid PHY address %d\n", |
| __func__, __LINE__, phy_adr); |
| return -EFAULT; |
| } |
| if (reg_ofs > MII_MAX_REG) { |
| printf("%s:%u: Invalid register offset %d\n", |
| __func__, __LINE__, reg_ofs); |
| return -EFAULT; |
| } |
| |
| /* write the phy and reg addressse into the MII address reg */ |
| writel((phy_adr << MADR_PHY_OFFSET) | (reg_ofs << MADR_REG_OFFSET), |
| ®s->madr); |
| |
| /* write data to the MII write register */ |
| writel(data, ®s->mwtd); |
| |
| /* wait till the MII is not busy */ |
| timeout = MII_TIMEOUT; |
| do { |
| /* read MII indicators register */ |
| mind_reg = readl(®s->mind); |
| if (--timeout == 0) |
| break; |
| } while (mind_reg & MIND_BUSY); |
| |
| if (timeout == 0) { |
| printf("%s:%u: MII busy timeout\n", __func__, |
| __LINE__); |
| return -EFAULT; |
| } |
| |
| /*debug("%s:(adr %d, off %d) <= %04x\n", __func__, phy_adr, |
| reg_ofs, data);*/ |
| |
| return 0; |
| } |
| #endif |
| |
| /* |
| * Provide default Ethernet buffers base address if target did not. |
| * Locate buffers in SRAM at 0x00001000 to avoid cache issues and |
| * maximize throughput. |
| */ |
| #if !defined(CONFIG_LPC32XX_ETH_BUFS_BASE) |
| #define CONFIG_LPC32XX_ETH_BUFS_BASE 0x00001000 |
| #endif |
| |
| static struct lpc32xx_eth_device lpc32xx_eth = { |
| .regs = (struct lpc32xx_eth_registers *)LPC32XX_ETH_BASE, |
| .bufs = (struct lpc32xx_eth_buffers *)CONFIG_LPC32XX_ETH_BUFS_BASE, |
| #if defined(CONFIG_RMII) |
| .phy_rmii = true, |
| #endif |
| }; |
| |
| #define TX_TIMEOUT 10000 |
| |
| static int lpc32xx_eth_send(struct eth_device *dev, void *dataptr, int datasize) |
| { |
| struct lpc32xx_eth_device *lpc32xx_eth_device = |
| container_of(dev, struct lpc32xx_eth_device, dev); |
| struct lpc32xx_eth_registers *regs = lpc32xx_eth_device->regs; |
| struct lpc32xx_eth_buffers *bufs = lpc32xx_eth_device->bufs; |
| int timeout, tx_index; |
| |
| /* time out if transmit descriptor array remains full too long */ |
| timeout = TX_TIMEOUT; |
| while ((readl(®s->status) & STATUS_TXSTATUS) && |
| (readl(®s->txconsumeindex) |
| == readl(®s->txproduceindex))) { |
| if (timeout-- == 0) |
| return -1; |
| } |
| |
| /* determine next transmit packet index to use */ |
| tx_index = readl(®s->txproduceindex); |
| |
| /* set up transmit packet */ |
| writel((u32)dataptr, &bufs->tx_desc[tx_index].packet); |
| writel(TX_CTRL_LAST | ((datasize - 1) & TX_CTRL_TXSIZE), |
| &bufs->tx_desc[tx_index].control); |
| writel(0, &bufs->tx_stat[tx_index].statusinfo); |
| |
| /* pass transmit packet to DMA engine */ |
| tx_index = (tx_index + 1) % TX_BUF_COUNT; |
| writel(tx_index, ®s->txproduceindex); |
| |
| /* transmission succeeded */ |
| return 0; |
| } |
| |
| #define RX_TIMEOUT 1000000 |
| |
| static int lpc32xx_eth_recv(struct eth_device *dev) |
| { |
| struct lpc32xx_eth_device *lpc32xx_eth_device = |
| container_of(dev, struct lpc32xx_eth_device, dev); |
| struct lpc32xx_eth_registers *regs = lpc32xx_eth_device->regs; |
| struct lpc32xx_eth_buffers *bufs = lpc32xx_eth_device->bufs; |
| int timeout, rx_index; |
| |
| /* time out if receive descriptor array remains empty too long */ |
| timeout = RX_TIMEOUT; |
| while (readl(®s->rxproduceindex) == readl(®s->rxconsumeindex)) { |
| if (timeout-- == 0) |
| return -1; |
| } |
| |
| /* determine next receive packet index to use */ |
| rx_index = readl(®s->rxconsumeindex); |
| |
| /* if data was valid, pass it on */ |
| if (!(bufs->rx_stat[rx_index].statusinfo & RX_STAT_ERRORS)) { |
| net_process_received_packet( |
| &(bufs->rx_buf[rx_index * PKTSIZE_ALIGN]), |
| (bufs->rx_stat[rx_index].statusinfo |
| & RX_STAT_RXSIZE) + 1); |
| } |
| |
| /* pass receive slot back to DMA engine */ |
| rx_index = (rx_index + 1) % RX_BUF_COUNT; |
| writel(rx_index, ®s->rxconsumeindex); |
| |
| /* reception successful */ |
| return 0; |
| } |
| |
| static int lpc32xx_eth_write_hwaddr(struct eth_device *dev) |
| { |
| struct lpc32xx_eth_device *lpc32xx_eth_device = |
| container_of(dev, struct lpc32xx_eth_device, dev); |
| struct lpc32xx_eth_registers *regs = lpc32xx_eth_device->regs; |
| |
| /* Save station address */ |
| writel((unsigned long) (dev->enetaddr[0] | |
| (dev->enetaddr[1] << 8)), ®s->sa2); |
| writel((unsigned long) (dev->enetaddr[2] | |
| (dev->enetaddr[3] << 8)), ®s->sa1); |
| writel((unsigned long) (dev->enetaddr[4] | |
| (dev->enetaddr[5] << 8)), ®s->sa0); |
| |
| return 0; |
| } |
| |
| static int lpc32xx_eth_init(struct eth_device *dev) |
| { |
| struct lpc32xx_eth_device *lpc32xx_eth_device = |
| container_of(dev, struct lpc32xx_eth_device, dev); |
| struct lpc32xx_eth_registers *regs = lpc32xx_eth_device->regs; |
| struct lpc32xx_eth_buffers *bufs = lpc32xx_eth_device->bufs; |
| int index; |
| |
| /* Initial MAC initialization */ |
| writel(MAC1_PASS_ALL_RX_FRAMES, ®s->mac1); |
| writel(MAC2_PAD_CRC_ENABLE | MAC2_CRC_ENABLE, ®s->mac2); |
| writel(PKTSIZE_ALIGN, ®s->maxf); |
| |
| /* Retries: 15 (0xF). Collision window: 57 (0x37). */ |
| writel(0x370F, ®s->clrt); |
| |
| /* Set IP gap pt 2 to default 0x12 but pt 1 to non-default 0 */ |
| writel(0x0012, ®s->ipgr); |
| |
| /* pass runt (smaller than 64 bytes) frames */ |
| if (lpc32xx_eth_device->phy_rmii) |
| writel(COMMAND_PASSRUNTFRAME | COMMAND_RMII, ®s->command); |
| else |
| writel(COMMAND_PASSRUNTFRAME, ®s->command); |
| |
| /* Configure Full/Half Duplex mode */ |
| if (miiphy_duplex(dev->name, CONFIG_PHY_ADDR) == FULL) { |
| setbits_le32(®s->mac2, MAC2_FULL_DUPLEX); |
| setbits_le32(®s->command, COMMAND_FULL_DUPLEX); |
| writel(0x15, ®s->ipgt); |
| } else { |
| writel(0x12, ®s->ipgt); |
| } |
| |
| /* Configure 100MBit/10MBit mode */ |
| if (miiphy_speed(dev->name, CONFIG_PHY_ADDR) == _100BASET) |
| writel(SUPP_SPEED, ®s->supp); |
| else |
| writel(0, ®s->supp); |
| |
| /* Save station address */ |
| writel((unsigned long) (dev->enetaddr[0] | |
| (dev->enetaddr[1] << 8)), ®s->sa2); |
| writel((unsigned long) (dev->enetaddr[2] | |
| (dev->enetaddr[3] << 8)), ®s->sa1); |
| writel((unsigned long) (dev->enetaddr[4] | |
| (dev->enetaddr[5] << 8)), ®s->sa0); |
| |
| /* set up transmit buffers */ |
| for (index = 0; index < TX_BUF_COUNT; index++) { |
| bufs->tx_desc[index].control = 0; |
| bufs->tx_stat[index].statusinfo = 0; |
| } |
| writel((u32)(&bufs->tx_desc), (u32 *)®s->txdescriptor); |
| writel((u32)(&bufs->tx_stat), ®s->txstatus); |
| writel(TX_BUF_COUNT-1, ®s->txdescriptornumber); |
| |
| /* set up receive buffers */ |
| for (index = 0; index < RX_BUF_COUNT; index++) { |
| bufs->rx_desc[index].packet = |
| (u32) (bufs->rx_buf+index*PKTSIZE_ALIGN); |
| bufs->rx_desc[index].control = PKTSIZE_ALIGN - 1; |
| bufs->rx_stat[index].statusinfo = 0; |
| bufs->rx_stat[index].statushashcrc = 0; |
| } |
| writel((u32)(&bufs->rx_desc), ®s->rxdescriptor); |
| writel((u32)(&bufs->rx_stat), ®s->rxstatus); |
| writel(RX_BUF_COUNT-1, ®s->rxdescriptornumber); |
| |
| /* Enable broadcast and matching address packets */ |
| writel(RXFILTERCTRL_ACCEPTBROADCAST | |
| RXFILTERCTRL_ACCEPTPERFECT, ®s->rxfilterctrl); |
| |
| /* Clear and disable interrupts */ |
| writel(0xFFFF, ®s->intclear); |
| writel(0, ®s->intenable); |
| |
| /* Enable receive and transmit mode of MAC ethernet core */ |
| setbits_le32(®s->command, COMMAND_RXENABLE | COMMAND_TXENABLE); |
| setbits_le32(®s->mac1, MAC1_RECV_ENABLE); |
| |
| /* |
| * Perform a 'dummy' first send to work around Ethernet.1 |
| * erratum (see ES_LPC3250 rev. 9 dated 1 June 2011). |
| * Use zeroed "index" variable as the dummy. |
| */ |
| |
| index = 0; |
| lpc32xx_eth_send(dev, &index, 4); |
| |
| return 0; |
| } |
| |
| static int lpc32xx_eth_halt(struct eth_device *dev) |
| { |
| struct lpc32xx_eth_device *lpc32xx_eth_device = |
| container_of(dev, struct lpc32xx_eth_device, dev); |
| struct lpc32xx_eth_registers *regs = lpc32xx_eth_device->regs; |
| |
| /* Reset all MAC logic */ |
| writel(MAC1_RESETS, ®s->mac1); |
| writel(COMMAND_RESETS, ®s->command); |
| /* Let reset condition settle */ |
| udelay(2000); |
| |
| return 0; |
| } |
| |
| #if defined(CONFIG_PHYLIB) |
| int lpc32xx_eth_phylib_init(struct eth_device *dev, int phyid) |
| { |
| struct lpc32xx_eth_device *lpc32xx_eth_device = |
| container_of(dev, struct lpc32xx_eth_device, dev); |
| struct mii_dev *bus; |
| struct phy_device *phydev; |
| int ret; |
| |
| bus = mdio_alloc(); |
| if (!bus) { |
| printf("mdio_alloc failed\n"); |
| return -ENOMEM; |
| } |
| bus->read = mii_reg_read; |
| bus->write = mii_reg_write; |
| strcpy(bus->name, dev->name); |
| |
| ret = mdio_register(bus); |
| if (ret) { |
| printf("mdio_register failed\n"); |
| free(bus); |
| return -ENOMEM; |
| } |
| |
| if (lpc32xx_eth_device->phy_rmii) |
| phydev = phy_connect(bus, phyid, dev, PHY_INTERFACE_MODE_RMII); |
| else |
| phydev = phy_connect(bus, phyid, dev, PHY_INTERFACE_MODE_MII); |
| |
| if (!phydev) { |
| printf("phy_connect failed\n"); |
| return -ENODEV; |
| } |
| |
| phy_config(phydev); |
| phy_startup(phydev); |
| |
| return 0; |
| } |
| #endif |
| |
| int lpc32xx_eth_initialize(bd_t *bis) |
| { |
| struct eth_device *dev = &lpc32xx_eth.dev; |
| struct lpc32xx_eth_registers *regs = lpc32xx_eth.regs; |
| |
| /* |
| * Set RMII management clock rate. With HCLK at 104 MHz and |
| * a divider of 28, this will be 3.72 MHz. |
| */ |
| writel(MCFG_RESET_MII_MGMT, ®s->mcfg); |
| writel(MCFG_CLOCK_SELECT_DIV28, ®s->mcfg); |
| |
| /* Reset all MAC logic */ |
| writel(MAC1_RESETS, ®s->mac1); |
| writel(COMMAND_RESETS, ®s->command); |
| |
| /* wait 10 ms for the whole I/F to reset */ |
| udelay(10000); |
| |
| /* must be less than sizeof(dev->name) */ |
| strcpy(dev->name, "eth0"); |
| |
| dev->init = (void *)lpc32xx_eth_init; |
| dev->halt = (void *)lpc32xx_eth_halt; |
| dev->send = (void *)lpc32xx_eth_send; |
| dev->recv = (void *)lpc32xx_eth_recv; |
| dev->write_hwaddr = (void *)lpc32xx_eth_write_hwaddr; |
| |
| /* Release SOFT reset to let MII talk to PHY */ |
| clrbits_le32(®s->mac1, MAC1_SOFT_RESET); |
| |
| /* register driver before talking to phy */ |
| eth_register(dev); |
| |
| #if defined(CONFIG_PHYLIB) |
| lpc32xx_eth_phylib_init(dev, CONFIG_PHY_ADDR); |
| #elif defined(CONFIG_MII) || defined(CONFIG_CMD_MII) |
| int retval; |
| struct mii_dev *mdiodev = mdio_alloc(); |
| if (!mdiodev) |
| return -ENOMEM; |
| strncpy(mdiodev->name, dev->name, MDIO_NAME_LEN); |
| mdiodev->read = mii_reg_read; |
| mdiodev->write = mii_reg_write; |
| |
| retval = mdio_register(mdiodev); |
| if (retval < 0) |
| return retval; |
| #endif |
| |
| return 0; |
| } |