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|
/*
* Cirrus Logic EP93xx ethernet MAC / MII driver.
*
* Copyright (C) 2010, 2009
* Matthias Kaehlcke <matthias@kaehlcke.net>
*
* Copyright (C) 2004, 2005
* Cory T. Tusar, Videon Central, Inc., <ctusar@videon-central.com>
*
* Based on the original eth.[ch] Cirrus Logic EP93xx Rev D. Ethernet Driver,
* which is
*
* (C) Copyright 2002 2003
* Adam Bezanson, Network Audio Technologies, Inc.
* <bezanson@netaudiotech.com>
*
* 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.,
* 675 Mass Ave, Cambridge, MA 02139, USA.
*/
#include <command.h>
#include <common.h>
#include <asm/arch/ep93xx.h>
#include <asm/io.h>
#include <malloc.h>
#include <miiphy.h>
#include <linux/types.h>
#include "ep93xx_eth.h"
#define GET_PRIV(eth_dev) ((struct ep93xx_priv *)(eth_dev)->priv)
#define GET_REGS(eth_dev) (GET_PRIV(eth_dev)->regs)
/* ep93xx_miiphy ops forward declarations */
static int ep93xx_miiphy_read(const char * const dev, unsigned char const addr,
unsigned char const reg, unsigned short * const value);
static int ep93xx_miiphy_write(const char * const dev, unsigned char const addr,
unsigned char const reg, unsigned short const value);
#if defined(EP93XX_MAC_DEBUG)
/**
* Dump ep93xx_mac values to the terminal.
*/
static void dump_dev(struct eth_device *dev)
{
struct ep93xx_priv *priv = GET_PRIV(dev);
int i;
printf("\ndump_dev()\n");
printf(" rx_dq.base %p\n", priv->rx_dq.base);
printf(" rx_dq.current %p\n", priv->rx_dq.current);
printf(" rx_dq.end %p\n", priv->rx_dq.end);
printf(" rx_sq.base %p\n", priv->rx_sq.base);
printf(" rx_sq.current %p\n", priv->rx_sq.current);
printf(" rx_sq.end %p\n", priv->rx_sq.end);
for (i = 0; i < NUMRXDESC; i++)
printf(" rx_buffer[%2.d] %p\n", i, NetRxPackets[i]);
printf(" tx_dq.base %p\n", priv->tx_dq.base);
printf(" tx_dq.current %p\n", priv->tx_dq.current);
printf(" tx_dq.end %p\n", priv->tx_dq.end);
printf(" tx_sq.base %p\n", priv->tx_sq.base);
printf(" tx_sq.current %p\n", priv->tx_sq.current);
printf(" tx_sq.end %p\n", priv->tx_sq.end);
}
/**
* Dump all RX status queue entries to the terminal.
*/
static void dump_rx_status_queue(struct eth_device *dev)
{
struct ep93xx_priv *priv = GET_PRIV(dev);
int i;
printf("\ndump_rx_status_queue()\n");
printf(" descriptor address word1 word2\n");
for (i = 0; i < NUMRXDESC; i++) {
printf(" [ %p ] %08X %08X\n",
priv->rx_sq.base + i,
(priv->rx_sq.base + i)->word1,
(priv->rx_sq.base + i)->word2);
}
}
/**
* Dump all RX descriptor queue entries to the terminal.
*/
static void dump_rx_descriptor_queue(struct eth_device *dev)
{
struct ep93xx_priv *priv = GET_PRIV(dev);
int i;
printf("\ndump_rx_descriptor_queue()\n");
printf(" descriptor address word1 word2\n");
for (i = 0; i < NUMRXDESC; i++) {
printf(" [ %p ] %08X %08X\n",
priv->rx_dq.base + i,
(priv->rx_dq.base + i)->word1,
(priv->rx_dq.base + i)->word2);
}
}
/**
* Dump all TX descriptor queue entries to the terminal.
*/
static void dump_tx_descriptor_queue(struct eth_device *dev)
{
struct ep93xx_priv *priv = GET_PRIV(dev);
int i;
printf("\ndump_tx_descriptor_queue()\n");
printf(" descriptor address word1 word2\n");
for (i = 0; i < NUMTXDESC; i++) {
printf(" [ %p ] %08X %08X\n",
priv->tx_dq.base + i,
(priv->tx_dq.base + i)->word1,
(priv->tx_dq.base + i)->word2);
}
}
/**
* Dump all TX status queue entries to the terminal.
*/
static void dump_tx_status_queue(struct eth_device *dev)
{
struct ep93xx_priv *priv = GET_PRIV(dev);
int i;
printf("\ndump_tx_status_queue()\n");
printf(" descriptor address word1\n");
for (i = 0; i < NUMTXDESC; i++) {
printf(" [ %p ] %08X\n",
priv->rx_sq.base + i,
(priv->rx_sq.base + i)->word1);
}
}
#else
#define dump_dev(x)
#define dump_rx_descriptor_queue(x)
#define dump_rx_status_queue(x)
#define dump_tx_descriptor_queue(x)
#define dump_tx_status_queue(x)
#endif /* defined(EP93XX_MAC_DEBUG) */
/**
* Reset the EP93xx MAC by twiddling the soft reset bit and spinning until
* it's cleared.
*/
static void ep93xx_mac_reset(struct eth_device *dev)
{
struct mac_regs *mac = GET_REGS(dev);
uint32_t value;
debug("+ep93xx_mac_reset");
value = readl(&mac->selfctl);
value |= SELFCTL_RESET;
writel(value, &mac->selfctl);
while (readl(&mac->selfctl) & SELFCTL_RESET)
; /* noop */
debug("-ep93xx_mac_reset");
}
/* Eth device open */
static int ep93xx_eth_open(struct eth_device *dev, bd_t *bd)
{
struct ep93xx_priv *priv = GET_PRIV(dev);
struct mac_regs *mac = GET_REGS(dev);
uchar *mac_addr = dev->enetaddr;
int i;
debug("+ep93xx_eth_open");
/* Reset the MAC */
ep93xx_mac_reset(dev);
/* Reset the descriptor queues' current and end address values */
priv->tx_dq.current = priv->tx_dq.base;
priv->tx_dq.end = (priv->tx_dq.base + NUMTXDESC);
priv->tx_sq.current = priv->tx_sq.base;
priv->tx_sq.end = (priv->tx_sq.base + NUMTXDESC);
priv->rx_dq.current = priv->rx_dq.base;
priv->rx_dq.end = (priv->rx_dq.base + NUMRXDESC);
priv->rx_sq.current = priv->rx_sq.base;
priv->rx_sq.end = (priv->rx_sq.base + NUMRXDESC);
/*
* Set the transmit descriptor and status queues' base address,
* current address, and length registers. Set the maximum frame
* length and threshold. Enable the transmit descriptor processor.
*/
writel((uint32_t)priv->tx_dq.base, &mac->txdq.badd);
writel((uint32_t)priv->tx_dq.base, &mac->txdq.curadd);
writel(sizeof(struct tx_descriptor) * NUMTXDESC, &mac->txdq.blen);
writel((uint32_t)priv->tx_sq.base, &mac->txstsq.badd);
writel((uint32_t)priv->tx_sq.base, &mac->txstsq.curadd);
writel(sizeof(struct tx_status) * NUMTXDESC, &mac->txstsq.blen);
writel(0x00040000, &mac->txdthrshld);
writel(0x00040000, &mac->txststhrshld);
writel((TXSTARTMAX << 0) | (PKTSIZE_ALIGN << 16), &mac->maxfrmlen);
writel(BMCTL_TXEN, &mac->bmctl);
/*
* Set the receive descriptor and status queues' base address,
* current address, and length registers. Enable the receive
* descriptor processor.
*/
writel((uint32_t)priv->rx_dq.base, &mac->rxdq.badd);
writel((uint32_t)priv->rx_dq.base, &mac->rxdq.curadd);
writel(sizeof(struct rx_descriptor) * NUMRXDESC, &mac->rxdq.blen);
writel((uint32_t)priv->rx_sq.base, &mac->rxstsq.badd);
writel((uint32_t)priv->rx_sq.base, &mac->rxstsq.curadd);
writel(sizeof(struct rx_status) * NUMRXDESC, &mac->rxstsq.blen);
writel(0x00040000, &mac->rxdthrshld);
writel(BMCTL_RXEN, &mac->bmctl);
writel(0x00040000, &mac->rxststhrshld);
/* Wait until the receive descriptor processor is active */
while (!(readl(&mac->bmsts) & BMSTS_RXACT))
; /* noop */
/*
* Initialize the RX descriptor queue. Clear the TX descriptor queue.
* Clear the RX and TX status queues. Enqueue the RX descriptor and
* status entries to the MAC.
*/
for (i = 0; i < NUMRXDESC; i++) {
/* set buffer address */
(priv->rx_dq.base + i)->word1 = (uint32_t)NetRxPackets[i];
/* set buffer length, clear buffer index and NSOF */
(priv->rx_dq.base + i)->word2 = PKTSIZE_ALIGN;
}
memset(priv->tx_dq.base, 0,
(sizeof(struct tx_descriptor) * NUMTXDESC));
memset(priv->rx_sq.base, 0,
(sizeof(struct rx_status) * NUMRXDESC));
memset(priv->tx_sq.base, 0,
(sizeof(struct tx_status) * NUMTXDESC));
writel(NUMRXDESC, &mac->rxdqenq);
writel(NUMRXDESC, &mac->rxstsqenq);
/* Set the primary MAC address */
writel(AFP_IAPRIMARY, &mac->afp);
writel(mac_addr[0] | (mac_addr[1] << 8) |
(mac_addr[2] << 16) | (mac_addr[3] << 24),
&mac->indad);
writel(mac_addr[4] | (mac_addr[5] << 8), &mac->indad_upper);
/* Turn on RX and TX */
writel(RXCTL_IA0 | RXCTL_BA | RXCTL_SRXON |
RXCTL_RCRCA | RXCTL_MA, &mac->rxctl);
writel(TXCTL_STXON, &mac->txctl);
/* Dump data structures if we're debugging */
dump_dev(dev);
dump_rx_descriptor_queue(dev);
dump_rx_status_queue(dev);
dump_tx_descriptor_queue(dev);
dump_tx_status_queue(dev);
debug("-ep93xx_eth_open");
return 1;
}
/**
* Halt EP93xx MAC transmit and receive by clearing the TxCTL and RxCTL
* registers.
*/
static void ep93xx_eth_close(struct eth_device *dev)
{
struct mac_regs *mac = GET_REGS(dev);
debug("+ep93xx_eth_close");
writel(0x00000000, &mac->rxctl);
writel(0x00000000, &mac->txctl);
debug("-ep93xx_eth_close");
}
/**
* Copy a frame of data from the MAC into the protocol layer for further
* processing.
*/
static int ep93xx_eth_rcv_packet(struct eth_device *dev)
{
struct mac_regs *mac = GET_REGS(dev);
struct ep93xx_priv *priv = GET_PRIV(dev);
int len = -1;
debug("+ep93xx_eth_rcv_packet");
if (RX_STATUS_RFP(priv->rx_sq.current)) {
if (RX_STATUS_RWE(priv->rx_sq.current)) {
/*
* We have a good frame. Extract the frame's length
* from the current rx_status_queue entry, and copy
* the frame's data into NetRxPackets[] of the
* protocol stack. We track the total number of
* bytes in the frame (nbytes_frame) which will be
* used when we pass the data off to the protocol
* layer via NetReceive().
*/
len = RX_STATUS_FRAME_LEN(priv->rx_sq.current);
NetReceive((uchar *)priv->rx_dq.current->word1, len);
debug("reporting %d bytes...\n", len);
} else {
/* Do we have an erroneous packet? */
error("packet rx error, status %08X %08X",
priv->rx_sq.current->word1,
priv->rx_sq.current->word2);
dump_rx_descriptor_queue(dev);
dump_rx_status_queue(dev);
}
/*
* Clear the associated status queue entry, and
* increment our current pointers to the next RX
* descriptor and status queue entries (making sure
* we wrap properly).
*/
memset((void *)priv->rx_sq.current, 0,
sizeof(struct rx_status));
priv->rx_sq.current++;
if (priv->rx_sq.current >= priv->rx_sq.end)
priv->rx_sq.current = priv->rx_sq.base;
priv->rx_dq.current++;
if (priv->rx_dq.current >= priv->rx_dq.end)
priv->rx_dq.current = priv->rx_dq.base;
/*
* Finally, return the RX descriptor and status entries
* back to the MAC engine, and loop again, checking for
* more descriptors to process.
*/
writel(1, &mac->rxdqenq);
writel(1, &mac->rxstsqenq);
} else {
len = 0;
}
debug("-ep93xx_eth_rcv_packet %d", len);
return len;
}
/**
* Send a block of data via ethernet.
*/
static int ep93xx_eth_send_packet(struct eth_device *dev,
void * const packet, int const length)
{
struct mac_regs *mac = GET_REGS(dev);
struct ep93xx_priv *priv = GET_PRIV(dev);
int ret = -1;
debug("+ep93xx_eth_send_packet");
/* Parameter check */
BUG_ON(packet == NULL);
/*
* Initialize the TX descriptor queue with the new packet's info.
* Clear the associated status queue entry. Enqueue the packet
* to the MAC for transmission.
*/
/* set buffer address */
priv->tx_dq.current->word1 = (uint32_t)packet;
/* set buffer length and EOF bit */
priv->tx_dq.current->word2 = length | TX_DESC_EOF;
/* clear tx status */
priv->tx_sq.current->word1 = 0;
/* enqueue the TX descriptor */
writel(1, &mac->txdqenq);
/* wait for the frame to become processed */
while (!TX_STATUS_TXFP(priv->tx_sq.current))
; /* noop */
if (!TX_STATUS_TXWE(priv->tx_sq.current)) {
error("packet tx error, status %08X",
priv->tx_sq.current->word1);
dump_tx_descriptor_queue(dev);
dump_tx_status_queue(dev);
/* TODO: Add better error handling? */
goto eth_send_out;
}
ret = 0;
/* Fall through */
eth_send_out:
debug("-ep93xx_eth_send_packet %d", ret);
return ret;
}
#if defined(CONFIG_MII)
int ep93xx_miiphy_initialize(bd_t * const bd)
{
miiphy_register("ep93xx_eth0", ep93xx_miiphy_read, ep93xx_miiphy_write);
return 0;
}
#endif
/**
* Initialize the EP93xx MAC. The MAC hardware is reset. Buffers are
* allocated, if necessary, for the TX and RX descriptor and status queues,
* as well as for received packets. The EP93XX MAC hardware is initialized.
* Transmit and receive operations are enabled.
*/
int ep93xx_eth_initialize(u8 dev_num, int base_addr)
{
int ret = -1;
struct eth_device *dev;
struct ep93xx_priv *priv;
debug("+ep93xx_eth_initialize");
priv = malloc(sizeof(*priv));
if (!priv) {
error("malloc() failed");
goto eth_init_failed_0;
}
memset(priv, 0, sizeof(*priv));
priv->regs = (struct mac_regs *)base_addr;
priv->tx_dq.base = calloc(NUMTXDESC,
sizeof(struct tx_descriptor));
if (priv->tx_dq.base == NULL) {
error("calloc() failed");
goto eth_init_failed_1;
}
priv->tx_sq.base = calloc(NUMTXDESC,
sizeof(struct tx_status));
if (priv->tx_sq.base == NULL) {
error("calloc() failed");
goto eth_init_failed_2;
}
priv->rx_dq.base = calloc(NUMRXDESC,
sizeof(struct rx_descriptor));
if (priv->rx_dq.base == NULL) {
error("calloc() failed");
goto eth_init_failed_3;
}
priv->rx_sq.base = calloc(NUMRXDESC,
sizeof(struct rx_status));
if (priv->rx_sq.base == NULL) {
error("calloc() failed");
goto eth_init_failed_4;
}
dev = malloc(sizeof *dev);
if (dev == NULL) {
error("malloc() failed");
goto eth_init_failed_5;
}
memset(dev, 0, sizeof *dev);
dev->iobase = base_addr;
dev->priv = priv;
dev->init = ep93xx_eth_open;
dev->halt = ep93xx_eth_close;
dev->send = ep93xx_eth_send_packet;
dev->recv = ep93xx_eth_rcv_packet;
sprintf(dev->name, "ep93xx_eth-%hu", dev_num);
eth_register(dev);
/* Done! */
ret = 1;
goto eth_init_done;
eth_init_failed_5:
free(priv->rx_sq.base);
/* Fall through */
eth_init_failed_4:
free(priv->rx_dq.base);
/* Fall through */
eth_init_failed_3:
free(priv->tx_sq.base);
/* Fall through */
eth_init_failed_2:
free(priv->tx_dq.base);
/* Fall through */
eth_init_failed_1:
free(priv);
/* Fall through */
eth_init_failed_0:
/* Fall through */
eth_init_done:
debug("-ep93xx_eth_initialize %d", ret);
return ret;
}
#if defined(CONFIG_MII)
/**
* Maximum MII address we support
*/
#define MII_ADDRESS_MAX 31
/**
* Maximum MII register address we support
*/
#define MII_REGISTER_MAX 31
/**
* Read a 16-bit value from an MII register.
*/
static int ep93xx_miiphy_read(const char * const dev, unsigned char const addr,
unsigned char const reg, unsigned short * const value)
{
struct mac_regs *mac = (struct mac_regs *)MAC_BASE;
int ret = -1;
uint32_t self_ctl;
debug("+ep93xx_miiphy_read");
/* Parameter checks */
BUG_ON(dev == NULL);
BUG_ON(addr > MII_ADDRESS_MAX);
BUG_ON(reg > MII_REGISTER_MAX);
BUG_ON(value == NULL);
/*
* Save the current SelfCTL register value. Set MAC to suppress
* preamble bits. Wait for any previous MII command to complete
* before issuing the new command.
*/
self_ctl = readl(&mac->selfctl);
#if defined(CONFIG_MII_SUPPRESS_PREAMBLE)
writel(self_ctl & ~(1 << 8), &mac->selfctl);
#endif /* defined(CONFIG_MII_SUPPRESS_PREAMBLE) */
while (readl(&mac->miists) & MIISTS_BUSY)
; /* noop */
/*
* Issue the MII 'read' command. Wait for the command to complete.
* Read the MII data value.
*/
writel(MIICMD_OPCODE_READ | ((uint32_t)addr << 5) | (uint32_t)reg,
&mac->miicmd);
while (readl(&mac->miists) & MIISTS_BUSY)
; /* noop */
*value = (unsigned short)readl(&mac->miidata);
/* Restore the saved SelfCTL value and return. */
writel(self_ctl, &mac->selfctl);
ret = 0;
/* Fall through */
debug("-ep93xx_miiphy_read");
return ret;
}
/**
* Write a 16-bit value to an MII register.
*/
static int ep93xx_miiphy_write(const char * const dev, unsigned char const addr,
unsigned char const reg, unsigned short const value)
{
struct mac_regs *mac = (struct mac_regs *)MAC_BASE;
int ret = -1;
uint32_t self_ctl;
debug("+ep93xx_miiphy_write");
/* Parameter checks */
BUG_ON(dev == NULL);
BUG_ON(addr > MII_ADDRESS_MAX);
BUG_ON(reg > MII_REGISTER_MAX);
/*
* Save the current SelfCTL register value. Set MAC to suppress
* preamble bits. Wait for any previous MII command to complete
* before issuing the new command.
*/
self_ctl = readl(&mac->selfctl);
#if defined(CONFIG_MII_SUPPRESS_PREAMBLE)
writel(self_ctl & ~(1 << 8), &mac->selfctl);
#endif /* defined(CONFIG_MII_SUPPRESS_PREAMBLE) */
while (readl(&mac->miists) & MIISTS_BUSY)
; /* noop */
/* Issue the MII 'write' command. Wait for the command to complete. */
writel((uint32_t)value, &mac->miidata);
writel(MIICMD_OPCODE_WRITE | ((uint32_t)addr << 5) | (uint32_t)reg,
&mac->miicmd);
while (readl(&mac->miists) & MIISTS_BUSY)
; /* noop */
/* Restore the saved SelfCTL value and return. */
writel(self_ctl, &mac->selfctl);
ret = 0;
/* Fall through */
debug("-ep93xx_miiphy_write");
return ret;
}
#endif /* defined(CONFIG_MII) */
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