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u-boot-brain/drivers/net/fm/eth.c
Tom Rini 83d290c56f SPDX: Convert all of our single license tags to Linux Kernel style 
When U-Boot started using SPDX tags we were among the early adopters and
there weren't a lot of other examples to borrow from.  So we picked the
area of the file that usually had a full license text and replaced it
with an appropriate SPDX-License-Identifier: entry.  Since then, the
Linux Kernel has adopted SPDX tags and they place it as the very first
line in a file (except where shebangs are used, then it's second line)
and with slightly different comment styles than us.

In part due to community overlap, in part due to better tag visibility
and in part for other minor reasons, switch over to that style.

This commit changes all instances where we have a single declared
license in the tag as both the before and after are identical in tag
contents.  There's also a few places where I found we did not have a tag
and have introduced one.

Signed-off-by: Tom Rini <trini@konsulko.com>
2018-05-07 09:34:12 -04:00

796 lines
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// SPDX-License-Identifier: GPL-2.0+
/*
* Copyright 2009-2012 Freescale Semiconductor, Inc.
* Dave Liu <daveliu@freescale.com>
*/
#include <common.h>
#include <asm/io.h>
#include <malloc.h>
#include <net.h>
#include <hwconfig.h>
#include <fm_eth.h>
#include <fsl_mdio.h>
#include <miiphy.h>
#include <phy.h>
#include <fsl_dtsec.h>
#include <fsl_tgec.h>
#include <fsl_memac.h>
#include "fm.h"
static struct eth_device *devlist[NUM_FM_PORTS];
static int num_controllers;
#if defined(CONFIG_MII) || defined(CONFIG_CMD_MII) && !defined(BITBANGMII)
#define TBIANA_SETTINGS (TBIANA_ASYMMETRIC_PAUSE | TBIANA_SYMMETRIC_PAUSE | \
TBIANA_FULL_DUPLEX)
#define TBIANA_SGMII_ACK 0x4001
#define TBICR_SETTINGS (TBICR_ANEG_ENABLE | TBICR_RESTART_ANEG | \
TBICR_FULL_DUPLEX | TBICR_SPEED1_SET)
/* Configure the TBI for SGMII operation */
static void dtsec_configure_serdes(struct fm_eth *priv)
{
#ifdef CONFIG_SYS_FMAN_V3
u32 value;
struct mii_dev bus;
bus.priv = priv->mac->phyregs;
bool sgmii_2500 = (priv->enet_if ==
PHY_INTERFACE_MODE_SGMII_2500) ? true : false;
int i = 0;
qsgmii_loop:
/* SGMII IF mode + AN enable only for 1G SGMII, not for 2.5G */
if (sgmii_2500)
value = PHY_SGMII_CR_PHY_RESET |
PHY_SGMII_IF_SPEED_GIGABIT |
PHY_SGMII_IF_MODE_SGMII;
else
value = PHY_SGMII_IF_MODE_SGMII | PHY_SGMII_IF_MODE_AN;
memac_mdio_write(&bus, i, MDIO_DEVAD_NONE, 0x14, value);
/* Dev ability according to SGMII specification */
value = PHY_SGMII_DEV_ABILITY_SGMII;
memac_mdio_write(&bus, i, MDIO_DEVAD_NONE, 0x4, value);
if (sgmii_2500) {
/* Adjust link timer for 2.5G SGMII,
* 1.6 ms in units of 3.2 ns:
* 1.6ms / 3.2ns = 5 * 10^5 = 0x7a120.
*/
memac_mdio_write(&bus, i, MDIO_DEVAD_NONE, 0x13, 0x0007);
memac_mdio_write(&bus, i, MDIO_DEVAD_NONE, 0x12, 0xa120);
} else {
/* Adjust link timer for SGMII,
* 1.6 ms in units of 8 ns:
* 1.6ms / 8ns = 2 * 10^5 = 0x30d40.
*/
memac_mdio_write(&bus, i, MDIO_DEVAD_NONE, 0x13, 0x0003);
memac_mdio_write(&bus, i, MDIO_DEVAD_NONE, 0x12, 0x0d40);
}
/* Restart AN */
value = PHY_SGMII_CR_DEF_VAL | PHY_SGMII_CR_RESET_AN;
memac_mdio_write(&bus, i, MDIO_DEVAD_NONE, 0, value);
if ((priv->enet_if == PHY_INTERFACE_MODE_QSGMII) && (i < 3)) {
i++;
goto qsgmii_loop;
}
#else
struct dtsec *regs = priv->mac->base;
struct tsec_mii_mng *phyregs = priv->mac->phyregs;
/*
* Access TBI PHY registers at given TSEC register offset as
* opposed to the register offset used for external PHY accesses
*/
tsec_local_mdio_write(phyregs, in_be32(&regs->tbipa), 0, TBI_TBICON,
TBICON_CLK_SELECT);
tsec_local_mdio_write(phyregs, in_be32(&regs->tbipa), 0, TBI_ANA,
TBIANA_SGMII_ACK);
tsec_local_mdio_write(phyregs, in_be32(&regs->tbipa), 0,
TBI_CR, TBICR_SETTINGS);
#endif
}
static void dtsec_init_phy(struct eth_device *dev)
{
struct fm_eth *fm_eth = dev->priv;
#ifndef CONFIG_SYS_FMAN_V3
struct dtsec *regs = (struct dtsec *)CONFIG_SYS_FSL_FM1_DTSEC1_ADDR;
/* Assign a Physical address to the TBI */
out_be32(&regs->tbipa, CONFIG_SYS_TBIPA_VALUE);
#endif
if (fm_eth->enet_if == PHY_INTERFACE_MODE_SGMII ||
fm_eth->enet_if == PHY_INTERFACE_MODE_QSGMII ||
fm_eth->enet_if == PHY_INTERFACE_MODE_SGMII_2500)
dtsec_configure_serdes(fm_eth);
}
#ifdef CONFIG_PHYLIB
static int tgec_is_fibre(struct eth_device *dev)
{
struct fm_eth *fm = dev->priv;
char phyopt[20];
sprintf(phyopt, "fsl_fm%d_xaui_phy", fm->fm_index + 1);
return hwconfig_arg_cmp(phyopt, "xfi");
}
#endif
#endif
static u16 muram_readw(u16 *addr)
{
ulong base = (ulong)addr & ~0x3UL;
u32 val32 = in_be32((void *)base);
int byte_pos;
u16 ret;
byte_pos = (ulong)addr & 0x3UL;
if (byte_pos)
ret = (u16)(val32 & 0x0000ffff);
else
ret = (u16)((val32 & 0xffff0000) >> 16);
return ret;
}
static void muram_writew(u16 *addr, u16 val)
{
ulong base = (ulong)addr & ~0x3UL;
u32 org32 = in_be32((void *)base);
u32 val32;
int byte_pos;
byte_pos = (ulong)addr & 0x3UL;
if (byte_pos)
val32 = (org32 & 0xffff0000) | val;
else
val32 = (org32 & 0x0000ffff) | ((u32)val << 16);
out_be32((void *)base, val32);
}
static void bmi_rx_port_disable(struct fm_bmi_rx_port *rx_port)
{
int timeout = 1000000;
clrbits_be32(&rx_port->fmbm_rcfg, FMBM_RCFG_EN);
/* wait until the rx port is not busy */
while ((in_be32(&rx_port->fmbm_rst) & FMBM_RST_BSY) && timeout--)
;
}
static void bmi_rx_port_init(struct fm_bmi_rx_port *rx_port)
{
/* set BMI to independent mode, Rx port disable */
out_be32(&rx_port->fmbm_rcfg, FMBM_RCFG_IM);
/* clear FOF in IM case */
out_be32(&rx_port->fmbm_rim, 0);
/* Rx frame next engine -RISC */
out_be32(&rx_port->fmbm_rfne, NIA_ENG_RISC | NIA_RISC_AC_IM_RX);
/* Rx command attribute - no order, MR[3] = 1 */
clrbits_be32(&rx_port->fmbm_rfca, FMBM_RFCA_ORDER | FMBM_RFCA_MR_MASK);
setbits_be32(&rx_port->fmbm_rfca, FMBM_RFCA_MR(4));
/* enable Rx statistic counters */
out_be32(&rx_port->fmbm_rstc, FMBM_RSTC_EN);
/* disable Rx performance counters */
out_be32(&rx_port->fmbm_rpc, 0);
}
static void bmi_tx_port_disable(struct fm_bmi_tx_port *tx_port)
{
int timeout = 1000000;
clrbits_be32(&tx_port->fmbm_tcfg, FMBM_TCFG_EN);
/* wait until the tx port is not busy */
while ((in_be32(&tx_port->fmbm_tst) & FMBM_TST_BSY) && timeout--)
;
}
static void bmi_tx_port_init(struct fm_bmi_tx_port *tx_port)
{
/* set BMI to independent mode, Tx port disable */
out_be32(&tx_port->fmbm_tcfg, FMBM_TCFG_IM);
/* Tx frame next engine -RISC */
out_be32(&tx_port->fmbm_tfne, NIA_ENG_RISC | NIA_RISC_AC_IM_TX);
out_be32(&tx_port->fmbm_tfene, NIA_ENG_RISC | NIA_RISC_AC_IM_TX);
/* Tx command attribute - no order, MR[3] = 1 */
clrbits_be32(&tx_port->fmbm_tfca, FMBM_TFCA_ORDER | FMBM_TFCA_MR_MASK);
setbits_be32(&tx_port->fmbm_tfca, FMBM_TFCA_MR(4));
/* enable Tx statistic counters */
out_be32(&tx_port->fmbm_tstc, FMBM_TSTC_EN);
/* disable Tx performance counters */
out_be32(&tx_port->fmbm_tpc, 0);
}
static int fm_eth_rx_port_parameter_init(struct fm_eth *fm_eth)
{
struct fm_port_global_pram *pram;
u32 pram_page_offset;
void *rx_bd_ring_base;
void *rx_buf_pool;
u32 bd_ring_base_lo, bd_ring_base_hi;
u32 buf_lo, buf_hi;
struct fm_port_bd *rxbd;
struct fm_port_qd *rxqd;
struct fm_bmi_rx_port *bmi_rx_port = fm_eth->rx_port;
int i;
/* alloc global parameter ram at MURAM */
pram = (struct fm_port_global_pram *)fm_muram_alloc(fm_eth->fm_index,
FM_PRAM_SIZE, FM_PRAM_ALIGN);
if (!pram) {
printf("%s: No muram for Rx global parameter\n", __func__);
return -ENOMEM;
}
fm_eth->rx_pram = pram;
/* parameter page offset to MURAM */
pram_page_offset = (void *)pram - fm_muram_base(fm_eth->fm_index);
/* enable global mode- snooping data buffers and BDs */
out_be32(&pram->mode, PRAM_MODE_GLOBAL);
/* init the Rx queue descriptor pionter */
out_be32(&pram->rxqd_ptr, pram_page_offset + 0x20);
/* set the max receive buffer length, power of 2 */
muram_writew(&pram->mrblr, MAX_RXBUF_LOG2);
/* alloc Rx buffer descriptors from main memory */
rx_bd_ring_base = malloc(sizeof(struct fm_port_bd)
* RX_BD_RING_SIZE);
if (!rx_bd_ring_base)
return -ENOMEM;
memset(rx_bd_ring_base, 0, sizeof(struct fm_port_bd)
* RX_BD_RING_SIZE);
/* alloc Rx buffer from main memory */
rx_buf_pool = malloc(MAX_RXBUF_LEN * RX_BD_RING_SIZE);
if (!rx_buf_pool)
return -ENOMEM;
memset(rx_buf_pool, 0, MAX_RXBUF_LEN * RX_BD_RING_SIZE);
debug("%s: rx_buf_pool = %p\n", __func__, rx_buf_pool);
/* save them to fm_eth */
fm_eth->rx_bd_ring = rx_bd_ring_base;
fm_eth->cur_rxbd = rx_bd_ring_base;
fm_eth->rx_buf = rx_buf_pool;
/* init Rx BDs ring */
rxbd = (struct fm_port_bd *)rx_bd_ring_base;
for (i = 0; i < RX_BD_RING_SIZE; i++) {
muram_writew(&rxbd->status, RxBD_EMPTY);
muram_writew(&rxbd->len, 0);
buf_hi = upper_32_bits(virt_to_phys(rx_buf_pool +
i * MAX_RXBUF_LEN));
buf_lo = lower_32_bits(virt_to_phys(rx_buf_pool +
i * MAX_RXBUF_LEN));
muram_writew(&rxbd->buf_ptr_hi, (u16)buf_hi);
out_be32(&rxbd->buf_ptr_lo, buf_lo);
rxbd++;
}
/* set the Rx queue descriptor */
rxqd = &pram->rxqd;
muram_writew(&rxqd->gen, 0);
bd_ring_base_hi = upper_32_bits(virt_to_phys(rx_bd_ring_base));
bd_ring_base_lo = lower_32_bits(virt_to_phys(rx_bd_ring_base));
muram_writew(&rxqd->bd_ring_base_hi, (u16)bd_ring_base_hi);
out_be32(&rxqd->bd_ring_base_lo, bd_ring_base_lo);
muram_writew(&rxqd->bd_ring_size, sizeof(struct fm_port_bd)
* RX_BD_RING_SIZE);
muram_writew(&rxqd->offset_in, 0);
muram_writew(&rxqd->offset_out, 0);
/* set IM parameter ram pointer to Rx Frame Queue ID */
out_be32(&bmi_rx_port->fmbm_rfqid, pram_page_offset);
return 0;
}
static int fm_eth_tx_port_parameter_init(struct fm_eth *fm_eth)
{
struct fm_port_global_pram *pram;
u32 pram_page_offset;
void *tx_bd_ring_base;
u32 bd_ring_base_lo, bd_ring_base_hi;
struct fm_port_bd *txbd;
struct fm_port_qd *txqd;
struct fm_bmi_tx_port *bmi_tx_port = fm_eth->tx_port;
int i;
/* alloc global parameter ram at MURAM */
pram = (struct fm_port_global_pram *)fm_muram_alloc(fm_eth->fm_index,
FM_PRAM_SIZE, FM_PRAM_ALIGN);
if (!pram) {
printf("%s: No muram for Tx global parameter\n", __func__);
return -ENOMEM;
}
fm_eth->tx_pram = pram;
/* parameter page offset to MURAM */
pram_page_offset = (void *)pram - fm_muram_base(fm_eth->fm_index);
/* enable global mode- snooping data buffers and BDs */
out_be32(&pram->mode, PRAM_MODE_GLOBAL);
/* init the Tx queue descriptor pionter */
out_be32(&pram->txqd_ptr, pram_page_offset + 0x40);
/* alloc Tx buffer descriptors from main memory */
tx_bd_ring_base = malloc(sizeof(struct fm_port_bd)
* TX_BD_RING_SIZE);
if (!tx_bd_ring_base)
return -ENOMEM;
memset(tx_bd_ring_base, 0, sizeof(struct fm_port_bd)
* TX_BD_RING_SIZE);
/* save it to fm_eth */
fm_eth->tx_bd_ring = tx_bd_ring_base;
fm_eth->cur_txbd = tx_bd_ring_base;
/* init Tx BDs ring */
txbd = (struct fm_port_bd *)tx_bd_ring_base;
for (i = 0; i < TX_BD_RING_SIZE; i++) {
muram_writew(&txbd->status, TxBD_LAST);
muram_writew(&txbd->len, 0);
muram_writew(&txbd->buf_ptr_hi, 0);
out_be32(&txbd->buf_ptr_lo, 0);
txbd++;
}
/* set the Tx queue decriptor */
txqd = &pram->txqd;
bd_ring_base_hi = upper_32_bits(virt_to_phys(tx_bd_ring_base));
bd_ring_base_lo = lower_32_bits(virt_to_phys(tx_bd_ring_base));
muram_writew(&txqd->bd_ring_base_hi, (u16)bd_ring_base_hi);
out_be32(&txqd->bd_ring_base_lo, bd_ring_base_lo);
muram_writew(&txqd->bd_ring_size, sizeof(struct fm_port_bd)
* TX_BD_RING_SIZE);
muram_writew(&txqd->offset_in, 0);
muram_writew(&txqd->offset_out, 0);
/* set IM parameter ram pointer to Tx Confirmation Frame Queue ID */
out_be32(&bmi_tx_port->fmbm_tcfqid, pram_page_offset);
return 0;
}
static int fm_eth_init(struct fm_eth *fm_eth)
{
int ret;
ret = fm_eth_rx_port_parameter_init(fm_eth);
if (ret)
return ret;
ret = fm_eth_tx_port_parameter_init(fm_eth);
if (ret)
return ret;
return 0;
}
static int fm_eth_startup(struct fm_eth *fm_eth)
{
struct fsl_enet_mac *mac;
int ret;
mac = fm_eth->mac;
/* Rx/TxBDs, Rx/TxQDs, Rx buff and parameter ram init */
ret = fm_eth_init(fm_eth);
if (ret)
return ret;
/* setup the MAC controller */
mac->init_mac(mac);
/* For some reason we need to set SPEED_100 */
if (((fm_eth->enet_if == PHY_INTERFACE_MODE_SGMII) ||
(fm_eth->enet_if == PHY_INTERFACE_MODE_SGMII_2500) ||
(fm_eth->enet_if == PHY_INTERFACE_MODE_QSGMII)) &&
mac->set_if_mode)
mac->set_if_mode(mac, fm_eth->enet_if, SPEED_100);
/* init bmi rx port, IM mode and disable */
bmi_rx_port_init(fm_eth->rx_port);
/* init bmi tx port, IM mode and disable */
bmi_tx_port_init(fm_eth->tx_port);
return 0;
}
static void fmc_tx_port_graceful_stop_enable(struct fm_eth *fm_eth)
{
struct fm_port_global_pram *pram;
pram = fm_eth->tx_pram;
/* graceful stop transmission of frames */
setbits_be32(&pram->mode, PRAM_MODE_GRACEFUL_STOP);
sync();
}
static void fmc_tx_port_graceful_stop_disable(struct fm_eth *fm_eth)
{
struct fm_port_global_pram *pram;
pram = fm_eth->tx_pram;
/* re-enable transmission of frames */
clrbits_be32(&pram->mode, PRAM_MODE_GRACEFUL_STOP);
sync();
}
static int fm_eth_open(struct eth_device *dev, bd_t *bd)
{
struct fm_eth *fm_eth;
struct fsl_enet_mac *mac;
#ifdef CONFIG_PHYLIB
int ret;
#endif
fm_eth = (struct fm_eth *)dev->priv;
mac = fm_eth->mac;
/* setup the MAC address */
if (dev->enetaddr[0] & 0x01) {
printf("%s: MacAddress is multcast address\n", __func__);
return 1;
}
mac->set_mac_addr(mac, dev->enetaddr);
/* enable bmi Rx port */
setbits_be32(&fm_eth->rx_port->fmbm_rcfg, FMBM_RCFG_EN);
/* enable MAC rx/tx port */
mac->enable_mac(mac);
/* enable bmi Tx port */
setbits_be32(&fm_eth->tx_port->fmbm_tcfg, FMBM_TCFG_EN);
/* re-enable transmission of frame */
fmc_tx_port_graceful_stop_disable(fm_eth);
#ifdef CONFIG_PHYLIB
if (fm_eth->phydev) {
ret = phy_startup(fm_eth->phydev);
if (ret) {
printf("%s: Could not initialize\n",
fm_eth->phydev->dev->name);
return ret;
}
} else {
return 0;
}
#else
fm_eth->phydev->speed = SPEED_1000;
fm_eth->phydev->link = 1;
fm_eth->phydev->duplex = DUPLEX_FULL;
#endif
/* set the MAC-PHY mode */
mac->set_if_mode(mac, fm_eth->enet_if, fm_eth->phydev->speed);
if (!fm_eth->phydev->link)
printf("%s: No link.\n", fm_eth->phydev->dev->name);
return fm_eth->phydev->link ? 0 : -1;
}
static void fm_eth_halt(struct eth_device *dev)
{
struct fm_eth *fm_eth;
struct fsl_enet_mac *mac;
fm_eth = (struct fm_eth *)dev->priv;
mac = fm_eth->mac;
/* graceful stop the transmission of frames */
fmc_tx_port_graceful_stop_enable(fm_eth);
/* disable bmi Tx port */
bmi_tx_port_disable(fm_eth->tx_port);
/* disable MAC rx/tx port */
mac->disable_mac(mac);
/* disable bmi Rx port */
bmi_rx_port_disable(fm_eth->rx_port);
#ifdef CONFIG_PHYLIB
if (fm_eth->phydev)
phy_shutdown(fm_eth->phydev);
#endif
}
static int fm_eth_send(struct eth_device *dev, void *buf, int len)
{
struct fm_eth *fm_eth;
struct fm_port_global_pram *pram;
struct fm_port_bd *txbd, *txbd_base;
u16 offset_in;
int i;
fm_eth = (struct fm_eth *)dev->priv;
pram = fm_eth->tx_pram;
txbd = fm_eth->cur_txbd;
/* find one empty TxBD */
for (i = 0; muram_readw(&txbd->status) & TxBD_READY; i++) {
udelay(100);
if (i > 0x1000) {
printf("%s: Tx buffer not ready, txbd->status = 0x%x\n",
dev->name, muram_readw(&txbd->status));
return 0;
}
}
/* setup TxBD */
muram_writew(&txbd->buf_ptr_hi, (u16)upper_32_bits(virt_to_phys(buf)));
out_be32(&txbd->buf_ptr_lo, lower_32_bits(virt_to_phys(buf)));
muram_writew(&txbd->len, len);
sync();
muram_writew(&txbd->status, TxBD_READY | TxBD_LAST);
sync();
/* update TxQD, let RISC to send the packet */
offset_in = muram_readw(&pram->txqd.offset_in);
offset_in += sizeof(struct fm_port_bd);
if (offset_in >= muram_readw(&pram->txqd.bd_ring_size))
offset_in = 0;
muram_writew(&pram->txqd.offset_in, offset_in);
sync();
/* wait for buffer to be transmitted */
for (i = 0; muram_readw(&txbd->status) & TxBD_READY; i++) {
udelay(100);
if (i > 0x10000) {
printf("%s: Tx error, txbd->status = 0x%x\n",
dev->name, muram_readw(&txbd->status));
return 0;
}
}
/* advance the TxBD */
txbd++;
txbd_base = (struct fm_port_bd *)fm_eth->tx_bd_ring;
if (txbd >= (txbd_base + TX_BD_RING_SIZE))
txbd = txbd_base;
/* update current txbd */
fm_eth->cur_txbd = (void *)txbd;
return 1;
}
static int fm_eth_recv(struct eth_device *dev)
{
struct fm_eth *fm_eth;
struct fm_port_global_pram *pram;
struct fm_port_bd *rxbd, *rxbd_base;
u16 status, len;
u32 buf_lo, buf_hi;
u8 *data;
u16 offset_out;
int ret = 1;
fm_eth = (struct fm_eth *)dev->priv;
pram = fm_eth->rx_pram;
rxbd = fm_eth->cur_rxbd;
status = muram_readw(&rxbd->status);
while (!(status & RxBD_EMPTY)) {
if (!(status & RxBD_ERROR)) {
buf_hi = muram_readw(&rxbd->buf_ptr_hi);
buf_lo = in_be32(&rxbd->buf_ptr_lo);
data = (u8 *)((ulong)(buf_hi << 16) << 16 | buf_lo);
len = muram_readw(&rxbd->len);
net_process_received_packet(data, len);
} else {
printf("%s: Rx error\n", dev->name);
ret = 0;
}
/* clear the RxBDs */
muram_writew(&rxbd->status, RxBD_EMPTY);
muram_writew(&rxbd->len, 0);
sync();
/* advance RxBD */
rxbd++;
rxbd_base = (struct fm_port_bd *)fm_eth->rx_bd_ring;
if (rxbd >= (rxbd_base + RX_BD_RING_SIZE))
rxbd = rxbd_base;
/* read next status */
status = muram_readw(&rxbd->status);
/* update RxQD */
offset_out = muram_readw(&pram->rxqd.offset_out);
offset_out += sizeof(struct fm_port_bd);
if (offset_out >= muram_readw(&pram->rxqd.bd_ring_size))
offset_out = 0;
muram_writew(&pram->rxqd.offset_out, offset_out);
sync();
}
fm_eth->cur_rxbd = (void *)rxbd;
return ret;
}
static int fm_eth_init_mac(struct fm_eth *fm_eth, struct ccsr_fman *reg)
{
struct fsl_enet_mac *mac;
int num;
void *base, *phyregs = NULL;
num = fm_eth->num;
#ifdef CONFIG_SYS_FMAN_V3
#ifndef CONFIG_FSL_FM_10GEC_REGULAR_NOTATION
if (fm_eth->type == FM_ETH_10G_E) {
/* 10GEC1/10GEC2 use mEMAC9/mEMAC10 on T2080/T4240.
* 10GEC3/10GEC4 use mEMAC1/mEMAC2 on T2080.
* 10GEC1 uses mEMAC1 on T1024.
* so it needs to change the num.
*/
if (fm_eth->num >= 2)
num -= 2;
else
num += 8;
}
#endif
base = &reg->memac[num].fm_memac;
phyregs = &reg->memac[num].fm_memac_mdio;
#else
/* Get the mac registers base address */
if (fm_eth->type == FM_ETH_1G_E) {
base = &reg->mac_1g[num].fm_dtesc;
phyregs = &reg->mac_1g[num].fm_mdio.miimcfg;
} else {
base = &reg->mac_10g[num].fm_10gec;
phyregs = &reg->mac_10g[num].fm_10gec_mdio;
}
#endif
/* alloc mac controller */
mac = malloc(sizeof(struct fsl_enet_mac));
if (!mac)
return -ENOMEM;
memset(mac, 0, sizeof(struct fsl_enet_mac));
/* save the mac to fm_eth struct */
fm_eth->mac = mac;
#ifdef CONFIG_SYS_FMAN_V3
init_memac(mac, base, phyregs, MAX_RXBUF_LEN);
#else
if (fm_eth->type == FM_ETH_1G_E)
init_dtsec(mac, base, phyregs, MAX_RXBUF_LEN);
else
init_tgec(mac, base, phyregs, MAX_RXBUF_LEN);
#endif
return 0;
}
static int init_phy(struct eth_device *dev)
{
struct fm_eth *fm_eth = dev->priv;
#ifdef CONFIG_PHYLIB
struct phy_device *phydev = NULL;
u32 supported;
#endif
if (fm_eth->type == FM_ETH_1G_E)
dtsec_init_phy(dev);
#ifdef CONFIG_PHYLIB
if (fm_eth->bus) {
phydev = phy_connect(fm_eth->bus, fm_eth->phyaddr, dev,
fm_eth->enet_if);
if (!phydev) {
printf("Failed to connect\n");
return -1;
}
} else {
return 0;
}
if (fm_eth->type == FM_ETH_1G_E) {
supported = (SUPPORTED_10baseT_Half |
SUPPORTED_10baseT_Full |
SUPPORTED_100baseT_Half |
SUPPORTED_100baseT_Full |
SUPPORTED_1000baseT_Full);
} else {
supported = SUPPORTED_10000baseT_Full;
if (tgec_is_fibre(dev))
phydev->port = PORT_FIBRE;
}
phydev->supported &= supported;
phydev->advertising = phydev->supported;
fm_eth->phydev = phydev;
phy_config(phydev);
#endif
return 0;
}
int fm_eth_initialize(struct ccsr_fman *reg, struct fm_eth_info *info)
{
struct eth_device *dev;
struct fm_eth *fm_eth;
int i, num = info->num;
int ret;
/* alloc eth device */
dev = (struct eth_device *)malloc(sizeof(struct eth_device));
if (!dev)
return -ENOMEM;
memset(dev, 0, sizeof(struct eth_device));
/* alloc the FMan ethernet private struct */
fm_eth = (struct fm_eth *)malloc(sizeof(struct fm_eth));
if (!fm_eth)
return -ENOMEM;
memset(fm_eth, 0, sizeof(struct fm_eth));
/* save off some things we need from the info struct */
fm_eth->fm_index = info->index - 1; /* keep as 0 based for muram */
fm_eth->num = num;
fm_eth->type = info->type;
fm_eth->rx_port = (void *)&reg->port[info->rx_port_id - 1].fm_bmi;
fm_eth->tx_port = (void *)&reg->port[info->tx_port_id - 1].fm_bmi;
/* set the ethernet max receive length */
fm_eth->max_rx_len = MAX_RXBUF_LEN;
/* init global mac structure */
ret = fm_eth_init_mac(fm_eth, reg);
if (ret)
return ret;
/* keep same as the manual, we call FMAN1, FMAN2, DTSEC1, DTSEC2, etc */
if (fm_eth->type == FM_ETH_1G_E)
sprintf(dev->name, "FM%d@DTSEC%d", info->index, num + 1);
else
sprintf(dev->name, "FM%d@TGEC%d", info->index, num + 1);
devlist[num_controllers++] = dev;
dev->iobase = 0;
dev->priv = (void *)fm_eth;
dev->init = fm_eth_open;
dev->halt = fm_eth_halt;
dev->send = fm_eth_send;
dev->recv = fm_eth_recv;
fm_eth->dev = dev;
fm_eth->bus = info->bus;
fm_eth->phyaddr = info->phy_addr;
fm_eth->enet_if = info->enet_if;
/* startup the FM im */
ret = fm_eth_startup(fm_eth);
if (ret)
return ret;
init_phy(dev);
/* clear the ethernet address */
for (i = 0; i < 6; i++)
dev->enetaddr[i] = 0;
eth_register(dev);
return 0;
}
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