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|
/*
* (C) Copyright 2009
* Marvell Semiconductor <www.marvell.com>
* Written-by: Prafulla Wadaskar <prafulla@marvell.com>
*
* (C) Copyright 2003
* Ingo Assmus <ingo.assmus@keymile.com>
*
* based on - Driver for MV64360X ethernet ports
* Copyright (C) 2002 rabeeh@galileo.co.il
*
* See file CREDITS for list of people who contributed to this
* project.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License as
* published by the Free Software Foundation; either version 2 of
* the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
* MA 02110-1301 USA
*/
#include <common.h>
#include <net.h>
#include <malloc.h>
#include <miiphy.h>
#include <asm/errno.h>
#include <asm/types.h>
#include <asm/byteorder.h>
#include <asm/arch/kirkwood.h>
#include "kirkwood_egiga.h"
/*
* smi_reg_read - miiphy_read callback function.
*
* Returns 16bit phy register value, or 0xffff on error
*/
static int smi_reg_read(char *devname, u8 phy_adr, u8 reg_ofs, u16 * data)
{
struct eth_device *dev = eth_get_dev_by_name(devname);
struct kwgbe_device *dkwgbe = to_dkwgbe(dev);
struct kwgbe_registers *regs = dkwgbe->regs;
u32 smi_reg;
u32 timeout;
/* Phyadr read request */
if (phy_adr == 0xEE && reg_ofs == 0xEE) {
/* */
*data = (u16) (KWGBEREG_RD(regs->phyadr) & PHYADR_MASK);
return 0;
}
/* check parameters */
if (phy_adr > PHYADR_MASK) {
printf("Err..(%s) Invalid PHY address %d\n",
__FUNCTION__, phy_adr);
return -EFAULT;
}
if (reg_ofs > PHYREG_MASK) {
printf("Err..(%s) Invalid register offset %d\n",
__FUNCTION__, reg_ofs);
return -EFAULT;
}
timeout = KWGBE_PHY_SMI_TIMEOUT;
/* wait till the SMI is not busy */
do {
/* read smi register */
smi_reg = KWGBEREG_RD(regs->smi);
if (timeout-- == 0) {
printf("Err..(%s) SMI busy timeout\n", __FUNCTION__);
return -EFAULT;
}
} while (smi_reg & KWGBE_PHY_SMI_BUSY_MASK);
/* fill the phy address and regiser offset and read opcode */
smi_reg = (phy_adr << KWGBE_PHY_SMI_DEV_ADDR_OFFS)
| (reg_ofs << KWGBE_SMI_REG_ADDR_OFFS)
| KWGBE_PHY_SMI_OPCODE_READ;
/* write the smi register */
KWGBEREG_WR(regs->smi, smi_reg);
/*wait till read value is ready */
timeout = KWGBE_PHY_SMI_TIMEOUT;
do {
/* read smi register */
smi_reg = KWGBEREG_RD(regs->smi);
if (timeout-- == 0) {
printf("Err..(%s) SMI read ready timeout\n",
__FUNCTION__);
return -EFAULT;
}
} while (!(smi_reg & KWGBE_PHY_SMI_READ_VALID_MASK));
/* Wait for the data to update in the SMI register */
for (timeout = 0; timeout < KWGBE_PHY_SMI_TIMEOUT; timeout++) ;
*data = (u16) (KWGBEREG_RD(regs->smi) & KWGBE_PHY_SMI_DATA_MASK);
debug("%s:(adr %d, off %d) value= %04x\n", __FUNCTION__, phy_adr,
reg_ofs, *data);
return 0;
}
/*
* smi_reg_write - imiiphy_write callback function.
*
* Returns 0 if write succeed, -EINVAL on bad parameters
* -ETIME on timeout
*/
static int smi_reg_write(char *devname, u8 phy_adr, u8 reg_ofs, u16 data)
{
struct eth_device *dev = eth_get_dev_by_name(devname);
struct kwgbe_device *dkwgbe = to_dkwgbe(dev);
struct kwgbe_registers *regs = dkwgbe->regs;
u32 smi_reg;
u32 timeout;
/* Phyadr write request*/
if (phy_adr == 0xEE && reg_ofs == 0xEE) {
KWGBEREG_WR(regs->phyadr, data);
return 0;
}
/* check parameters */
if (phy_adr > PHYADR_MASK) {
printf("Err..(%s) Invalid phy address\n", __FUNCTION__);
return -EINVAL;
}
if (reg_ofs > PHYREG_MASK) {
printf("Err..(%s) Invalid register offset\n", __FUNCTION__);
return -EINVAL;
}
/* wait till the SMI is not busy */
timeout = KWGBE_PHY_SMI_TIMEOUT;
do {
/* read smi register */
smi_reg = KWGBEREG_RD(regs->smi);
if (timeout-- == 0) {
printf("Err..(%s) SMI busy timeout\n", __FUNCTION__);
return -ETIME;
}
} while (smi_reg & KWGBE_PHY_SMI_BUSY_MASK);
/* fill the phy addr and reg offset and write opcode and data */
smi_reg = (data << KWGBE_PHY_SMI_DATA_OFFS);
smi_reg |= (phy_adr << KWGBE_PHY_SMI_DEV_ADDR_OFFS)
| (reg_ofs << KWGBE_SMI_REG_ADDR_OFFS);
smi_reg &= ~KWGBE_PHY_SMI_OPCODE_READ;
/* write the smi register */
KWGBEREG_WR(regs->smi, smi_reg);
return 0;
}
/* Stop and checks all queues */
static void stop_queue(u32 * qreg)
{
u32 reg_data;
reg_data = readl(qreg);
if (reg_data & 0xFF) {
/* Issue stop command for active channels only */
writel((reg_data << 8), qreg);
/* Wait for all queue activity to terminate. */
do {
/*
* Check port cause register that all queues
* are stopped
*/
reg_data = readl(qreg);
}
while (reg_data & 0xFF);
}
}
/*
* set_access_control - Config address decode parameters for Ethernet unit
*
* This function configures the address decode parameters for the Gigabit
* Ethernet Controller according the given parameters struct.
*
* @regs Register struct pointer.
* @param Address decode parameter struct.
*/
static void set_access_control(struct kwgbe_registers *regs,
struct kwgbe_winparam *param)
{
u32 access_prot_reg;
/* Set access control register */
access_prot_reg = KWGBEREG_RD(regs->epap);
/* clear window permission */
access_prot_reg &= (~(3 << (param->win * 2)));
access_prot_reg |= (param->access_ctrl << (param->win * 2));
KWGBEREG_WR(regs->epap, access_prot_reg);
/* Set window Size reg (SR) */
KWGBEREG_WR(regs->barsz[param->win].size,
(((param->size / 0x10000) - 1) << 16));
/* Set window Base address reg (BA) */
KWGBEREG_WR(regs->barsz[param->win].bar,
(param->target | param->attrib | param->base_addr));
/* High address remap reg (HARR) */
if (param->win < 4)
KWGBEREG_WR(regs->ha_remap[param->win], param->high_addr);
/* Base address enable reg (BARER) */
if (param->enable == 1)
KWGBEREG_BITS_RESET(regs->bare, (1 << param->win));
else
KWGBEREG_BITS_SET(regs->bare, (1 << param->win));
}
static void set_dram_access(struct kwgbe_registers *regs)
{
struct kwgbe_winparam win_param;
int i;
for (i = 0; i < CONFIG_NR_DRAM_BANKS; i++) {
/* Set access parameters for DRAM bank i */
win_param.win = i; /* Use Ethernet window i */
/* Window target - DDR */
win_param.target = KWGBE_TARGET_DRAM;
/* Enable full access */
win_param.access_ctrl = EWIN_ACCESS_FULL;
win_param.high_addr = 0;
/* Get bank base */
win_param.base_addr = kw_sdram_bar(i);
win_param.size = kw_sdram_bs(i); /* Get bank size */
if (win_param.size == 0)
win_param.enable = 0;
else
win_param.enable = 1; /* Enable the access */
/* Enable DRAM bank */
switch (i) {
case 0:
win_param.attrib = EBAR_DRAM_CS0;
break;
case 1:
win_param.attrib = EBAR_DRAM_CS1;
break;
case 2:
win_param.attrib = EBAR_DRAM_CS2;
break;
case 3:
win_param.attrib = EBAR_DRAM_CS3;
break;
default:
/* invalide bank, disable access */
win_param.enable = 0;
win_param.attrib = 0;
break;
}
/* Set the access control for address window(EPAPR) RD/WR */
set_access_control(regs, &win_param);
}
}
/*
* port_init_mac_tables - Clear all entrance in the UC, SMC and OMC tables
*
* Go through all the DA filter tables (Unicast, Special Multicast & Other
* Multicast) and set each entry to 0.
*/
static void port_init_mac_tables(struct kwgbe_registers *regs)
{
int table_index;
/* Clear DA filter unicast table (Ex_dFUT) */
for (table_index = 0; table_index < 4; ++table_index)
KWGBEREG_WR(regs->dfut[table_index], 0);
for (table_index = 0; table_index < 64; ++table_index) {
/* Clear DA filter special multicast table (Ex_dFSMT) */
KWGBEREG_WR(regs->dfsmt[table_index], 0);
/* Clear DA filter other multicast table (Ex_dFOMT) */
KWGBEREG_WR(regs->dfomt[table_index], 0);
}
}
/*
* port_uc_addr - This function Set the port unicast address table
*
* This function locates the proper entry in the Unicast table for the
* specified MAC nibble and sets its properties according to function
* parameters.
* This function add/removes MAC addresses from the port unicast address
* table.
*
* @uc_nibble Unicast MAC Address last nibble.
* @option 0 = Add, 1 = remove address.
*
* RETURN: 1 if output succeeded. 0 if option parameter is invalid.
*/
static int port_uc_addr(struct kwgbe_registers *regs, u8 uc_nibble,
int option)
{
u32 unicast_reg;
u32 tbl_offset;
u32 reg_offset;
/* Locate the Unicast table entry */
uc_nibble = (0xf & uc_nibble);
/* Register offset from unicast table base */
tbl_offset = (uc_nibble / 4);
/* Entry offset within the above register */
reg_offset = uc_nibble % 4;
switch (option) {
case REJECT_MAC_ADDR:
/*
* Clear accepts frame bit at specified unicast
* DA table entry
*/
unicast_reg = KWGBEREG_RD(regs->dfut[tbl_offset]);
unicast_reg &= (0xFF << (8 * reg_offset));
KWGBEREG_WR(regs->dfut[tbl_offset], unicast_reg);
break;
case ACCEPT_MAC_ADDR:
/* Set accepts frame bit at unicast DA filter table entry */
unicast_reg = KWGBEREG_RD(regs->dfut[tbl_offset]);
unicast_reg &= (0xFF << (8 * reg_offset));
unicast_reg |= ((0x01 | (RXUQ << 1)) << (8 * reg_offset));
KWGBEREG_WR(regs->dfut[tbl_offset], unicast_reg);
break;
default:
return 0;
}
return 1;
}
/*
* port_uc_addr_set - This function Set the port Unicast address.
*/
static void port_uc_addr_set(struct kwgbe_registers *regs, u8 * p_addr)
{
u32 mac_h;
u32 mac_l;
mac_l = (p_addr[4] << 8) | (p_addr[5]);
mac_h = (p_addr[0] << 24) | (p_addr[1] << 16) | (p_addr[2] << 8) |
(p_addr[3] << 0);
KWGBEREG_WR(regs->macal, mac_l);
KWGBEREG_WR(regs->macah, mac_h);
/* Accept frames of this address */
port_uc_addr(regs, p_addr[5], ACCEPT_MAC_ADDR);
}
/*
* kwgbe_init_rx_desc_ring - Curve a Rx chain desc list and buffer in memory.
*/
static void kwgbe_init_rx_desc_ring(struct kwgbe_device *dkwgbe)
{
struct kwgbe_rxdesc *p_rx_desc;
int i;
/* initialize the Rx descriptors ring */
p_rx_desc = dkwgbe->p_rxdesc;
for (i = 0; i < RINGSZ; i++) {
p_rx_desc->cmd_sts =
KWGBE_BUFFER_OWNED_BY_DMA | KWGBE_RX_EN_INTERRUPT;
p_rx_desc->buf_size = PKTSIZE_ALIGN;
p_rx_desc->byte_cnt = 0;
p_rx_desc->buf_ptr = dkwgbe->p_rxbuf + i * PKTSIZE_ALIGN;
if (i == (RINGSZ - 1))
p_rx_desc->nxtdesc_p = dkwgbe->p_rxdesc;
else {
p_rx_desc->nxtdesc_p = (struct kwgbe_rxdesc *)
((u32) p_rx_desc + KW_RXQ_DESC_ALIGNED_SIZE);
p_rx_desc = p_rx_desc->nxtdesc_p;
}
}
dkwgbe->p_rxdesc_curr = dkwgbe->p_rxdesc;
}
static int kwgbe_init(struct eth_device *dev)
{
struct kwgbe_device *dkwgbe = to_dkwgbe(dev);
struct kwgbe_registers *regs = dkwgbe->regs;
/* setup RX rings */
kwgbe_init_rx_desc_ring(dkwgbe);
/* Clear the ethernet port interrupts */
KWGBEREG_WR(regs->ic, 0);
KWGBEREG_WR(regs->ice, 0);
/* Unmask RX buffer and TX end interrupt */
KWGBEREG_WR(regs->pim, INT_CAUSE_UNMASK_ALL);
/* Unmask phy and link status changes interrupts */
KWGBEREG_WR(regs->peim, INT_CAUSE_UNMASK_ALL_EXT);
set_dram_access(regs);
port_init_mac_tables(regs);
port_uc_addr_set(regs, dkwgbe->dev.enetaddr);
/* Assign port configuration and command. */
KWGBEREG_WR(regs->pxc, PRT_CFG_VAL);
KWGBEREG_WR(regs->pxcx, PORT_CFG_EXTEND_VALUE);
KWGBEREG_WR(regs->psc0, PORT_SERIAL_CONTROL_VALUE);
/* Disable port initially */
KWGBEREG_BITS_SET(regs->psc0, KWGBE_SERIAL_PORT_EN);
/* Assign port SDMA configuration */
KWGBEREG_WR(regs->sdc, PORT_SDMA_CFG_VALUE);
KWGBEREG_WR(regs->tqx[0].qxttbc, QTKNBKT_DEF_VAL);
KWGBEREG_WR(regs->tqx[0].tqxtbc, (QMTBS_DEF_VAL << 16) | QTKNRT_DEF_VAL);
/* Turn off the port/RXUQ bandwidth limitation */
KWGBEREG_WR(regs->pmtu, 0);
/* Set maximum receive buffer to 9700 bytes */
KWGBEREG_WR(regs->psc0, KWGBE_MAX_RX_PACKET_9700BYTE
| (KWGBEREG_RD(regs->psc0) & MRU_MASK));
/*
* Set ethernet MTU for leaky bucket mechanism to 0 - this will
* disable the leaky bucket mechanism .
*/
KWGBEREG_WR(regs->pmtu, 0);
/* Assignment of Rx CRDB of given RXUQ */
KWGBEREG_WR(regs->rxcdp[RXUQ].rxcdp, (u32) dkwgbe->p_rxdesc_curr);
/* Enable port Rx. */
KWGBEREG_WR(regs->rqc, (1 << RXUQ));
#if (defined (CONFIG_MII) || defined (CONFIG_CMD_MII)) \
&& defined (CONFIG_SYS_FAULT_ECHO_LINK_DOWN)
u16 phyadr;
miiphy_read(dev->name, 0xEE, 0xEE, &phyadr);
if (!miiphy_link(dev->name, phyadr)) {
printf("%s: No link on %s\n", __FUNCTION__, dev->name);
return -1;
}
#endif
return 0;
}
static int kwgbe_halt(struct eth_device *dev)
{
struct kwgbe_device *dkwgbe = to_dkwgbe(dev);
struct kwgbe_registers *regs = dkwgbe->regs;
/* Disable all gigE address decoder */
KWGBEREG_WR(regs->bare, 0x3f);
stop_queue(®s->tqc);
stop_queue(®s->rqc);
/* Enable port */
KWGBEREG_BITS_RESET(regs->psc0, KWGBE_SERIAL_PORT_EN);
/* Set port is not reset */
KWGBEREG_BITS_RESET(regs->psc1, 1 << 4);
#ifdef CONFIG_SYS_MII_MODE
/* Set MMI interface up */
KWGBEREG_BITS_RESET(regs->psc1, 1 << 3);
#endif
/* Disable & mask ethernet port interrupts */
KWGBEREG_WR(regs->ic, 0);
KWGBEREG_WR(regs->ice, 0);
KWGBEREG_WR(regs->pim, 0);
KWGBEREG_WR(regs->peim, 0);
return 0;
}
static int kwgbe_send(struct eth_device *dev, volatile void *dataptr,
int datasize)
{
struct kwgbe_device *dkwgbe = to_dkwgbe(dev);
struct kwgbe_registers *regs = dkwgbe->regs;
struct kwgbe_txdesc *p_txdesc = dkwgbe->p_txdesc;
u32 cmd_sts;
if ((u32) dataptr & 0x07) {
printf("Err..(%s) xmit dataptr not 64bit aligned\n",
__FUNCTION__);
return -1;
}
p_txdesc->cmd_sts = KWGBE_ZERO_PADDING | KWGBE_GEN_CRC;
p_txdesc->cmd_sts |= KWGBE_TX_FIRST_DESC | KWGBE_TX_LAST_DESC;
p_txdesc->cmd_sts |= KWGBE_BUFFER_OWNED_BY_DMA;
p_txdesc->cmd_sts |= KWGBE_TX_EN_INTERRUPT;
p_txdesc->buf_ptr = (u8 *) dataptr;
p_txdesc->byte_cnt = datasize;
/* Apply send command using zeroth RXUQ */
KWGBEREG_WR(regs->tcqdp[TXUQ], (u32) p_txdesc);
KWGBEREG_WR(regs->tqc, (1 << TXUQ));
/*
* wait for packet xmit completion
*/
cmd_sts = readl(&p_txdesc->cmd_sts);
while (cmd_sts & KWGBE_BUFFER_OWNED_BY_DMA) {
/* return fail if error is detected */
if ((cmd_sts & (KWGBE_ERROR_SUMMARY | KWGBE_TX_LAST_FRAME)) ==
(KWGBE_ERROR_SUMMARY | KWGBE_TX_LAST_FRAME) &&
cmd_sts & (KWGBE_UR_ERROR | KWGBE_RL_ERROR)) {
printf("Err..(%s) in xmit packet\n", __FUNCTION__);
return -1;
}
cmd_sts = readl(&p_txdesc->cmd_sts);
};
return 0;
}
static int kwgbe_recv(struct eth_device *dev)
{
struct kwgbe_device *dkwgbe = to_dkwgbe(dev);
struct kwgbe_rxdesc *p_rxdesc_curr = dkwgbe->p_rxdesc_curr;
u32 cmd_sts;
u32 timeout = 0;
/* wait untill rx packet available or timeout */
do {
if (timeout < KWGBE_PHY_SMI_TIMEOUT)
timeout++;
else {
debug("%s time out...\n", __FUNCTION__);
return -1;
}
} while (readl(&p_rxdesc_curr->cmd_sts) & KWGBE_BUFFER_OWNED_BY_DMA);
if (p_rxdesc_curr->byte_cnt != 0) {
debug("%s: Received %d byte Packet @ 0x%x (cmd_sts= %08x)\n",
__FUNCTION__, (u32) p_rxdesc_curr->byte_cnt,
(u32) p_rxdesc_curr->buf_ptr,
(u32) p_rxdesc_curr->cmd_sts);
}
/*
* In case received a packet without first/last bits on
* OR the error summary bit is on,
* the packets needs to be dropeed.
*/
cmd_sts = readl(&p_rxdesc_curr->cmd_sts);
if ((cmd_sts &
(KWGBE_RX_FIRST_DESC | KWGBE_RX_LAST_DESC))
!= (KWGBE_RX_FIRST_DESC | KWGBE_RX_LAST_DESC)) {
printf("Err..(%s) Dropping packet spread on"
" multiple descriptors\n", __FUNCTION__);
} else if (cmd_sts & KWGBE_ERROR_SUMMARY) {
printf("Err..(%s) Dropping packet with errors\n",
__FUNCTION__);
} else {
/* !!! call higher layer processing */
debug("%s: Sending Received packet to"
" upper layer (NetReceive)\n", __FUNCTION__);
/* let the upper layer handle the packet */
NetReceive((p_rxdesc_curr->buf_ptr + RX_BUF_OFFSET),
(int)(p_rxdesc_curr->byte_cnt - RX_BUF_OFFSET));
}
/*
* free these descriptors and point next in the ring
*/
p_rxdesc_curr->cmd_sts =
KWGBE_BUFFER_OWNED_BY_DMA | KWGBE_RX_EN_INTERRUPT;
p_rxdesc_curr->buf_size = PKTSIZE_ALIGN;
p_rxdesc_curr->byte_cnt = 0;
writel((unsigned)p_rxdesc_curr->nxtdesc_p, &dkwgbe->p_rxdesc_curr);
return 0;
}
int kirkwood_egiga_initialize(bd_t * bis)
{
struct kwgbe_device *dkwgbe;
struct eth_device *dev;
int devnum;
char *s, buf[NAMESIZE * 2];
u8 used_ports[MAX_KWGBE_DEVS] = CONFIG_KIRKWOOD_EGIGA_PORTS;
for (devnum = 0; devnum < MAX_KWGBE_DEVS; devnum++) {
/*skip if port is configured not to use */
if (used_ports[devnum] == 0)
continue;
if (!(dkwgbe = malloc(sizeof(struct kwgbe_device))))
goto error1;
memset(dkwgbe, 0, sizeof(struct kwgbe_device));
if (!(dkwgbe->p_rxdesc =
(struct kwgbe_rxdesc *)memalign(PKTALIGN,
KW_RXQ_DESC_ALIGNED_SIZE
* RINGSZ + 1)))
goto error2;
if (!(dkwgbe->p_rxbuf = (u8 *) memalign(PKTALIGN, RINGSZ
* PKTSIZE_ALIGN + 1)))
goto error3;
if (!(dkwgbe->p_txdesc = (struct kwgbe_txdesc *)
memalign(PKTALIGN, sizeof(struct kwgbe_txdesc) + 1))) {
free(dkwgbe->p_rxbuf);
error3:
free(dkwgbe->p_rxdesc);
error2:
free(dkwgbe);
error1:
printf("Err.. %s Failed to allocate memory\n",
__FUNCTION__);
return -1;
}
dev = &dkwgbe->dev;
/* must be less than NAMESIZE (16) */
sprintf(dev->name, "egiga%d", devnum);
/* Extract the MAC address from the environment */
switch (devnum) {
case 0:
dkwgbe->regs = (void *)KW_EGIGA0_BASE;
s = "ethaddr";
break;
case 1:
dkwgbe->regs = (void *)KW_EGIGA1_BASE;
s = "eth1addr";
break;
default: /* this should never happen */
printf("Err..(%s) Invalid device number %d\n",
__FUNCTION__, devnum);
return -1;
}
while (!eth_getenv_enetaddr(s, dev->enetaddr)) {
/* Generate Ramdom MAC addresses if not set */
sprintf(buf, "00:50:43:%02x:%02x:%02x",
get_random_hex(), get_random_hex(),
get_random_hex());
setenv(s, buf);
}
dev->init = (void *)kwgbe_init;
dev->halt = (void *)kwgbe_halt;
dev->send = (void *)kwgbe_send;
dev->recv = (void *)kwgbe_recv;
eth_register(dev);
#if defined(CONFIG_MII) || defined(CONFIG_CMD_MII)
miiphy_register(dev->name, smi_reg_read, smi_reg_write);
/* Set phy address of the port */
miiphy_write(dev->name, 0xEE, 0xEE, PHY_BASE_ADR + devnum);
#endif
}
return 0;
}
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