2005-04-16 15:20:36 -07:00
/* Advanced Micro Devices Inc. AMD8111E Linux Network Driver
* Copyright ( C ) 2004 Advanced Micro Devices
*
*
* Copyright 2001 , 2002 Jeff Garzik < jgarzik @ mandrakesoft . com > [ 8139 cp . c , tg3 . c ]
* Copyright ( C ) 2001 , 2002 David S . Miller ( davem @ redhat . com ) [ tg3 . c ]
* Copyright 1996 - 1999 Thomas Bogendoerfer [ pcnet32 . c ]
* Derived from the lance driver written 1993 , 1994 , 1995 by Donald Becker .
* Copyright 1993 United States Government as represented by the
* Director , National Security Agency . [ pcnet32 . c ]
* Carsten Langgaard , carstenl @ mips . com [ pcnet32 . c ]
* Copyright ( C ) 2000 MIPS Technologies , Inc . All rights reserved .
*
*
* 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 . , 59 Temple Place , Suite 330 , Boston , MA 02111 - 1307
* USA
Module Name :
amd8111e . c
Abstract :
AMD8111 based 10 / 100 Ethernet Controller Driver .
Environment :
Kernel Mode
Revision History :
3.0 .0
Initial Revision .
3.0 .1
1. Dynamic interrupt coalescing .
2. Removed prev_stats .
3. MII support .
4. Dynamic IPG support
3.0 .2 05 / 29 / 2003
1. Bug fix : Fixed failure to send jumbo packets larger than 4 k .
2. Bug fix : Fixed VLAN support failure .
3. Bug fix : Fixed receive interrupt coalescing bug .
4. Dynamic IPG support is disabled by default .
3.0 .3 06 / 05 / 2003
1. Bug fix : Fixed failure to close the interface if SMP is enabled .
3.0 .4 12 / 09 / 2003
1. Added set_mac_address routine for bonding driver support .
2. Tested the driver for bonding support
3. Bug fix : Fixed mismach in actual receive buffer lenth and lenth
indicated to the h / w .
4. Modified amd8111e_rx ( ) routine to receive all the received packets
in the first interrupt .
5. Bug fix : Corrected rx_errors reported in get_stats ( ) function .
3.0 .5 03 / 22 / 2004
1. Added NAPI support
*/
# include <linux/module.h>
# include <linux/kernel.h>
# include <linux/types.h>
# include <linux/compiler.h>
# include <linux/slab.h>
# include <linux/delay.h>
# include <linux/init.h>
# include <linux/ioport.h>
# include <linux/pci.h>
# include <linux/netdevice.h>
# include <linux/etherdevice.h>
# include <linux/skbuff.h>
# include <linux/ethtool.h>
# include <linux/mii.h>
# include <linux/if_vlan.h>
# include <linux/ctype.h>
# include <linux/crc32.h>
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# include <linux/dma-mapping.h>
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# include <asm/system.h>
# include <asm/io.h>
# include <asm/byteorder.h>
# include <asm/uaccess.h>
# if defined(CONFIG_VLAN_8021Q) || defined(CONFIG_VLAN_8021Q_MODULE)
# define AMD8111E_VLAN_TAG_USED 1
# else
# define AMD8111E_VLAN_TAG_USED 0
# endif
# include "amd8111e.h"
# define MODULE_NAME "amd8111e"
# define MODULE_VERS "3.0.5"
MODULE_AUTHOR ( " Advanced Micro Devices, Inc. " ) ;
MODULE_DESCRIPTION ( " AMD8111 based 10/100 Ethernet Controller. Driver Version 3.0.3 " ) ;
MODULE_LICENSE ( " GPL " ) ;
MODULE_DEVICE_TABLE ( pci , amd8111e_pci_tbl ) ;
module_param_array ( speed_duplex , int , NULL , 0 ) ;
MODULE_PARM_DESC ( speed_duplex , " Set device speed and duplex modes, 0: Auto Negotitate, 1: 10Mbps Half Duplex, 2: 10Mbps Full Duplex, 3: 100Mbps Half Duplex, 4: 100Mbps Full Duplex " ) ;
module_param_array ( coalesce , bool , NULL , 0 ) ;
MODULE_PARM_DESC ( coalesce , " Enable or Disable interrupt coalescing, 1: Enable, 0: Disable " ) ;
module_param_array ( dynamic_ipg , bool , NULL , 0 ) ;
MODULE_PARM_DESC ( dynamic_ipg , " Enable or Disable dynamic IPG, 1: Enable, 0: Disable " ) ;
static struct pci_device_id amd8111e_pci_tbl [ ] = {
{ PCI_VENDOR_ID_AMD , PCI_DEVICE_ID_AMD8111E_7462 ,
PCI_ANY_ID , PCI_ANY_ID , 0 , 0 , 0UL } ,
{ 0 , }
} ;
/*
This function will read the PHY registers .
*/
static int amd8111e_read_phy ( struct amd8111e_priv * lp , int phy_id , int reg , u32 * val )
{
void __iomem * mmio = lp - > mmio ;
unsigned int reg_val ;
unsigned int repeat = REPEAT_CNT ;
reg_val = readl ( mmio + PHY_ACCESS ) ;
while ( reg_val & PHY_CMD_ACTIVE )
reg_val = readl ( mmio + PHY_ACCESS ) ;
writel ( PHY_RD_CMD | ( ( phy_id & 0x1f ) < < 21 ) |
( ( reg & 0x1f ) < < 16 ) , mmio + PHY_ACCESS ) ;
do {
reg_val = readl ( mmio + PHY_ACCESS ) ;
udelay ( 30 ) ; /* It takes 30 us to read/write data */
} while ( - - repeat & & ( reg_val & PHY_CMD_ACTIVE ) ) ;
if ( reg_val & PHY_RD_ERR )
goto err_phy_read ;
* val = reg_val & 0xffff ;
return 0 ;
err_phy_read :
* val = 0 ;
return - EINVAL ;
}
/*
This function will write into PHY registers .
*/
static int amd8111e_write_phy ( struct amd8111e_priv * lp , int phy_id , int reg , u32 val )
{
unsigned int repeat = REPEAT_CNT
void __iomem * mmio = lp - > mmio ;
unsigned int reg_val ;
reg_val = readl ( mmio + PHY_ACCESS ) ;
while ( reg_val & PHY_CMD_ACTIVE )
reg_val = readl ( mmio + PHY_ACCESS ) ;
writel ( PHY_WR_CMD | ( ( phy_id & 0x1f ) < < 21 ) |
( ( reg & 0x1f ) < < 16 ) | val , mmio + PHY_ACCESS ) ;
do {
reg_val = readl ( mmio + PHY_ACCESS ) ;
udelay ( 30 ) ; /* It takes 30 us to read/write the data */
} while ( - - repeat & & ( reg_val & PHY_CMD_ACTIVE ) ) ;
if ( reg_val & PHY_RD_ERR )
goto err_phy_write ;
return 0 ;
err_phy_write :
return - EINVAL ;
}
/*
This is the mii register read function provided to the mii interface .
*/
static int amd8111e_mdio_read ( struct net_device * dev , int phy_id , int reg_num )
{
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
unsigned int reg_val ;
amd8111e_read_phy ( lp , phy_id , reg_num , & reg_val ) ;
return reg_val ;
}
/*
This is the mii register write function provided to the mii interface .
*/
static void amd8111e_mdio_write ( struct net_device * dev , int phy_id , int reg_num , int val )
{
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
amd8111e_write_phy ( lp , phy_id , reg_num , val ) ;
}
/*
This function will set PHY speed . During initialization sets the original speed to 100 full .
*/
static void amd8111e_set_ext_phy ( struct net_device * dev )
{
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
u32 bmcr , advert , tmp ;
/* Determine mii register values to set the speed */
advert = amd8111e_mdio_read ( dev , lp - > ext_phy_addr , MII_ADVERTISE ) ;
tmp = advert & ~ ( ADVERTISE_ALL | ADVERTISE_100BASE4 ) ;
switch ( lp - > ext_phy_option ) {
default :
case SPEED_AUTONEG : /* advertise all values */
tmp | = ( ADVERTISE_10HALF | ADVERTISE_10FULL |
ADVERTISE_100HALF | ADVERTISE_100FULL ) ;
break ;
case SPEED10_HALF :
tmp | = ADVERTISE_10HALF ;
break ;
case SPEED10_FULL :
tmp | = ADVERTISE_10FULL ;
break ;
case SPEED100_HALF :
tmp | = ADVERTISE_100HALF ;
break ;
case SPEED100_FULL :
tmp | = ADVERTISE_100FULL ;
break ;
}
if ( advert ! = tmp )
amd8111e_mdio_write ( dev , lp - > ext_phy_addr , MII_ADVERTISE , tmp ) ;
/* Restart auto negotiation */
bmcr = amd8111e_mdio_read ( dev , lp - > ext_phy_addr , MII_BMCR ) ;
bmcr | = ( BMCR_ANENABLE | BMCR_ANRESTART ) ;
amd8111e_mdio_write ( dev , lp - > ext_phy_addr , MII_BMCR , bmcr ) ;
}
/*
This function will unmap skb - > data space and will free
all transmit and receive skbuffs .
*/
static int amd8111e_free_skbs ( struct net_device * dev )
{
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
struct sk_buff * rx_skbuff ;
int i ;
/* Freeing transmit skbs */
for ( i = 0 ; i < NUM_TX_BUFFERS ; i + + ) {
if ( lp - > tx_skbuff [ i ] ) {
pci_unmap_single ( lp - > pci_dev , lp - > tx_dma_addr [ i ] , lp - > tx_skbuff [ i ] - > len , PCI_DMA_TODEVICE ) ;
dev_kfree_skb ( lp - > tx_skbuff [ i ] ) ;
lp - > tx_skbuff [ i ] = NULL ;
lp - > tx_dma_addr [ i ] = 0 ;
}
}
/* Freeing previously allocated receive buffers */
for ( i = 0 ; i < NUM_RX_BUFFERS ; i + + ) {
rx_skbuff = lp - > rx_skbuff [ i ] ;
if ( rx_skbuff ! = NULL ) {
pci_unmap_single ( lp - > pci_dev , lp - > rx_dma_addr [ i ] ,
lp - > rx_buff_len - 2 , PCI_DMA_FROMDEVICE ) ;
dev_kfree_skb ( lp - > rx_skbuff [ i ] ) ;
lp - > rx_skbuff [ i ] = NULL ;
lp - > rx_dma_addr [ i ] = 0 ;
}
}
return 0 ;
}
/*
This will set the receive buffer length corresponding to the mtu size of networkinterface .
*/
static inline void amd8111e_set_rx_buff_len ( struct net_device * dev )
{
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
unsigned int mtu = dev - > mtu ;
if ( mtu > ETH_DATA_LEN ) {
/* MTU + ethernet header + FCS
+ optional VLAN tag + skb reserve space 2 */
lp - > rx_buff_len = mtu + ETH_HLEN + 10 ;
lp - > options | = OPTION_JUMBO_ENABLE ;
} else {
lp - > rx_buff_len = PKT_BUFF_SZ ;
lp - > options & = ~ OPTION_JUMBO_ENABLE ;
}
}
/*
This function will free all the previously allocated buffers , determine new receive buffer length and will allocate new receive buffers . This function also allocates and initializes both the transmitter and receive hardware descriptors .
*/
static int amd8111e_init_ring ( struct net_device * dev )
{
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
int i ;
lp - > rx_idx = lp - > tx_idx = 0 ;
lp - > tx_complete_idx = 0 ;
lp - > tx_ring_idx = 0 ;
if ( lp - > opened )
/* Free previously allocated transmit and receive skbs */
amd8111e_free_skbs ( dev ) ;
else {
/* allocate the tx and rx descriptors */
if ( ( lp - > tx_ring = pci_alloc_consistent ( lp - > pci_dev ,
sizeof ( struct amd8111e_tx_dr ) * NUM_TX_RING_DR ,
& lp - > tx_ring_dma_addr ) ) = = NULL )
goto err_no_mem ;
if ( ( lp - > rx_ring = pci_alloc_consistent ( lp - > pci_dev ,
sizeof ( struct amd8111e_rx_dr ) * NUM_RX_RING_DR ,
& lp - > rx_ring_dma_addr ) ) = = NULL )
goto err_free_tx_ring ;
}
/* Set new receive buff size */
amd8111e_set_rx_buff_len ( dev ) ;
/* Allocating receive skbs */
for ( i = 0 ; i < NUM_RX_BUFFERS ; i + + ) {
if ( ! ( lp - > rx_skbuff [ i ] = dev_alloc_skb ( lp - > rx_buff_len ) ) ) {
/* Release previos allocated skbs */
for ( - - i ; i > = 0 ; i - - )
dev_kfree_skb ( lp - > rx_skbuff [ i ] ) ;
goto err_free_rx_ring ;
}
skb_reserve ( lp - > rx_skbuff [ i ] , 2 ) ;
}
/* Initilaizing receive descriptors */
for ( i = 0 ; i < NUM_RX_BUFFERS ; i + + ) {
lp - > rx_dma_addr [ i ] = pci_map_single ( lp - > pci_dev ,
lp - > rx_skbuff [ i ] - > data , lp - > rx_buff_len - 2 , PCI_DMA_FROMDEVICE ) ;
lp - > rx_ring [ i ] . buff_phy_addr = cpu_to_le32 ( lp - > rx_dma_addr [ i ] ) ;
lp - > rx_ring [ i ] . buff_count = cpu_to_le16 ( lp - > rx_buff_len - 2 ) ;
wmb ( ) ;
lp - > rx_ring [ i ] . rx_flags = cpu_to_le16 ( OWN_BIT ) ;
}
/* Initializing transmit descriptors */
for ( i = 0 ; i < NUM_TX_RING_DR ; i + + ) {
lp - > tx_ring [ i ] . buff_phy_addr = 0 ;
lp - > tx_ring [ i ] . tx_flags = 0 ;
lp - > tx_ring [ i ] . buff_count = 0 ;
}
return 0 ;
err_free_rx_ring :
pci_free_consistent ( lp - > pci_dev ,
sizeof ( struct amd8111e_rx_dr ) * NUM_RX_RING_DR , lp - > rx_ring ,
lp - > rx_ring_dma_addr ) ;
err_free_tx_ring :
pci_free_consistent ( lp - > pci_dev ,
sizeof ( struct amd8111e_tx_dr ) * NUM_TX_RING_DR , lp - > tx_ring ,
lp - > tx_ring_dma_addr ) ;
err_no_mem :
return - ENOMEM ;
}
/* This function will set the interrupt coalescing according to the input arguments */
static int amd8111e_set_coalesce ( struct net_device * dev , enum coal_mode cmod )
{
unsigned int timeout ;
unsigned int event_count ;
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
void __iomem * mmio = lp - > mmio ;
struct amd8111e_coalesce_conf * coal_conf = & lp - > coal_conf ;
switch ( cmod )
{
case RX_INTR_COAL :
timeout = coal_conf - > rx_timeout ;
event_count = coal_conf - > rx_event_count ;
if ( timeout > MAX_TIMEOUT | |
event_count > MAX_EVENT_COUNT )
return - EINVAL ;
timeout = timeout * DELAY_TIMER_CONV ;
writel ( VAL0 | STINTEN , mmio + INTEN0 ) ;
writel ( ( u32 ) DLY_INT_A_R0 | ( event_count < < 16 ) | timeout ,
mmio + DLY_INT_A ) ;
break ;
case TX_INTR_COAL :
timeout = coal_conf - > tx_timeout ;
event_count = coal_conf - > tx_event_count ;
if ( timeout > MAX_TIMEOUT | |
event_count > MAX_EVENT_COUNT )
return - EINVAL ;
timeout = timeout * DELAY_TIMER_CONV ;
writel ( VAL0 | STINTEN , mmio + INTEN0 ) ;
writel ( ( u32 ) DLY_INT_B_T0 | ( event_count < < 16 ) | timeout ,
mmio + DLY_INT_B ) ;
break ;
case DISABLE_COAL :
writel ( 0 , mmio + STVAL ) ;
writel ( STINTEN , mmio + INTEN0 ) ;
writel ( 0 , mmio + DLY_INT_B ) ;
writel ( 0 , mmio + DLY_INT_A ) ;
break ;
case ENABLE_COAL :
/* Start the timer */
writel ( ( u32 ) SOFT_TIMER_FREQ , mmio + STVAL ) ; /* 0.5 sec */
writel ( VAL0 | STINTEN , mmio + INTEN0 ) ;
break ;
default :
break ;
}
return 0 ;
}
/*
This function initializes the device registers and starts the device .
*/
static int amd8111e_restart ( struct net_device * dev )
{
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
void __iomem * mmio = lp - > mmio ;
int i , reg_val ;
/* stop the chip */
writel ( RUN , mmio + CMD0 ) ;
if ( amd8111e_init_ring ( dev ) )
return - ENOMEM ;
/* enable the port manager and set auto negotiation always */
writel ( ( u32 ) VAL1 | EN_PMGR , mmio + CMD3 ) ;
writel ( ( u32 ) XPHYANE | XPHYRST , mmio + CTRL2 ) ;
amd8111e_set_ext_phy ( dev ) ;
/* set control registers */
reg_val = readl ( mmio + CTRL1 ) ;
reg_val & = ~ XMTSP_MASK ;
writel ( reg_val | XMTSP_128 | CACHE_ALIGN , mmio + CTRL1 ) ;
/* enable interrupt */
writel ( APINT5EN | APINT4EN | APINT3EN | APINT2EN | APINT1EN |
APINT0EN | MIIPDTINTEN | MCCIINTEN | MCCINTEN | MREINTEN |
SPNDINTEN | MPINTEN | SINTEN | STINTEN , mmio + INTEN0 ) ;
writel ( VAL3 | LCINTEN | VAL1 | TINTEN0 | VAL0 | RINTEN0 , mmio + INTEN0 ) ;
/* initialize tx and rx ring base addresses */
writel ( ( u32 ) lp - > tx_ring_dma_addr , mmio + XMT_RING_BASE_ADDR0 ) ;
writel ( ( u32 ) lp - > rx_ring_dma_addr , mmio + RCV_RING_BASE_ADDR0 ) ;
writew ( ( u32 ) NUM_TX_RING_DR , mmio + XMT_RING_LEN0 ) ;
writew ( ( u16 ) NUM_RX_RING_DR , mmio + RCV_RING_LEN0 ) ;
/* set default IPG to 96 */
writew ( ( u32 ) DEFAULT_IPG , mmio + IPG ) ;
writew ( ( u32 ) ( DEFAULT_IPG - IFS1_DELTA ) , mmio + IFS1 ) ;
if ( lp - > options & OPTION_JUMBO_ENABLE ) {
writel ( ( u32 ) VAL2 | JUMBO , mmio + CMD3 ) ;
/* Reset REX_UFLO */
writel ( REX_UFLO , mmio + CMD2 ) ;
/* Should not set REX_UFLO for jumbo frames */
writel ( VAL0 | APAD_XMT | REX_RTRY , mmio + CMD2 ) ;
} else {
writel ( VAL0 | APAD_XMT | REX_RTRY | REX_UFLO , mmio + CMD2 ) ;
writel ( ( u32 ) JUMBO , mmio + CMD3 ) ;
}
# if AMD8111E_VLAN_TAG_USED
writel ( ( u32 ) VAL2 | VSIZE | VL_TAG_DEL , mmio + CMD3 ) ;
# endif
writel ( VAL0 | APAD_XMT | REX_RTRY , mmio + CMD2 ) ;
/* Setting the MAC address to the device */
for ( i = 0 ; i < ETH_ADDR_LEN ; i + + )
writeb ( dev - > dev_addr [ i ] , mmio + PADR + i ) ;
/* Enable interrupt coalesce */
if ( lp - > options & OPTION_INTR_COAL_ENABLE ) {
printk ( KERN_INFO " %s: Interrupt Coalescing Enabled. \n " ,
dev - > name ) ;
amd8111e_set_coalesce ( dev , ENABLE_COAL ) ;
}
/* set RUN bit to start the chip */
writel ( VAL2 | RDMD0 , mmio + CMD0 ) ;
writel ( VAL0 | INTREN | RUN , mmio + CMD0 ) ;
/* To avoid PCI posting bug */
readl ( mmio + CMD0 ) ;
return 0 ;
}
/*
This function clears necessary the device registers .
*/
static void amd8111e_init_hw_default ( struct amd8111e_priv * lp )
{
unsigned int reg_val ;
unsigned int logic_filter [ 2 ] = { 0 , } ;
void __iomem * mmio = lp - > mmio ;
/* stop the chip */
writel ( RUN , mmio + CMD0 ) ;
/* AUTOPOLL0 Register */ /*TBD default value is 8100 in FPS */
writew ( 0x8100 | lp - > ext_phy_addr , mmio + AUTOPOLL0 ) ;
/* Clear RCV_RING_BASE_ADDR */
writel ( 0 , mmio + RCV_RING_BASE_ADDR0 ) ;
/* Clear XMT_RING_BASE_ADDR */
writel ( 0 , mmio + XMT_RING_BASE_ADDR0 ) ;
writel ( 0 , mmio + XMT_RING_BASE_ADDR1 ) ;
writel ( 0 , mmio + XMT_RING_BASE_ADDR2 ) ;
writel ( 0 , mmio + XMT_RING_BASE_ADDR3 ) ;
/* Clear CMD0 */
writel ( CMD0_CLEAR , mmio + CMD0 ) ;
/* Clear CMD2 */
writel ( CMD2_CLEAR , mmio + CMD2 ) ;
/* Clear CMD7 */
writel ( CMD7_CLEAR , mmio + CMD7 ) ;
/* Clear DLY_INT_A and DLY_INT_B */
writel ( 0x0 , mmio + DLY_INT_A ) ;
writel ( 0x0 , mmio + DLY_INT_B ) ;
/* Clear FLOW_CONTROL */
writel ( 0x0 , mmio + FLOW_CONTROL ) ;
/* Clear INT0 write 1 to clear register */
reg_val = readl ( mmio + INT0 ) ;
writel ( reg_val , mmio + INT0 ) ;
/* Clear STVAL */
writel ( 0x0 , mmio + STVAL ) ;
/* Clear INTEN0 */
writel ( INTEN0_CLEAR , mmio + INTEN0 ) ;
/* Clear LADRF */
writel ( 0x0 , mmio + LADRF ) ;
/* Set SRAM_SIZE & SRAM_BOUNDARY registers */
writel ( 0x80010 , mmio + SRAM_SIZE ) ;
/* Clear RCV_RING0_LEN */
writel ( 0x0 , mmio + RCV_RING_LEN0 ) ;
/* Clear XMT_RING0/1/2/3_LEN */
writel ( 0x0 , mmio + XMT_RING_LEN0 ) ;
writel ( 0x0 , mmio + XMT_RING_LEN1 ) ;
writel ( 0x0 , mmio + XMT_RING_LEN2 ) ;
writel ( 0x0 , mmio + XMT_RING_LEN3 ) ;
/* Clear XMT_RING_LIMIT */
writel ( 0x0 , mmio + XMT_RING_LIMIT ) ;
/* Clear MIB */
writew ( MIB_CLEAR , mmio + MIB_ADDR ) ;
/* Clear LARF */
amd8111e_writeq ( * ( u64 * ) logic_filter , mmio + LADRF ) ;
/* SRAM_SIZE register */
reg_val = readl ( mmio + SRAM_SIZE ) ;
if ( lp - > options & OPTION_JUMBO_ENABLE )
writel ( VAL2 | JUMBO , mmio + CMD3 ) ;
# if AMD8111E_VLAN_TAG_USED
writel ( VAL2 | VSIZE | VL_TAG_DEL , mmio + CMD3 ) ;
# endif
/* Set default value to CTRL1 Register */
writel ( CTRL1_DEFAULT , mmio + CTRL1 ) ;
/* To avoid PCI posting bug */
readl ( mmio + CMD2 ) ;
}
/*
This function disables the interrupt and clears all the pending
interrupts in INT0
*/
static void amd8111e_disable_interrupt ( struct amd8111e_priv * lp )
{
u32 intr0 ;
/* Disable interrupt */
writel ( INTREN , lp - > mmio + CMD0 ) ;
/* Clear INT0 */
intr0 = readl ( lp - > mmio + INT0 ) ;
writel ( intr0 , lp - > mmio + INT0 ) ;
/* To avoid PCI posting bug */
readl ( lp - > mmio + INT0 ) ;
}
/*
This function stops the chip .
*/
static void amd8111e_stop_chip ( struct amd8111e_priv * lp )
{
writel ( RUN , lp - > mmio + CMD0 ) ;
/* To avoid PCI posting bug */
readl ( lp - > mmio + CMD0 ) ;
}
/*
This function frees the transmiter and receiver descriptor rings .
*/
static void amd8111e_free_ring ( struct amd8111e_priv * lp )
{
/* Free transmit and receive skbs */
amd8111e_free_skbs ( lp - > amd8111e_net_dev ) ;
/* Free transmit and receive descriptor rings */
if ( lp - > rx_ring ) {
pci_free_consistent ( lp - > pci_dev ,
sizeof ( struct amd8111e_rx_dr ) * NUM_RX_RING_DR ,
lp - > rx_ring , lp - > rx_ring_dma_addr ) ;
lp - > rx_ring = NULL ;
}
if ( lp - > tx_ring ) {
pci_free_consistent ( lp - > pci_dev ,
sizeof ( struct amd8111e_tx_dr ) * NUM_TX_RING_DR ,
lp - > tx_ring , lp - > tx_ring_dma_addr ) ;
lp - > tx_ring = NULL ;
}
}
# if AMD8111E_VLAN_TAG_USED
/*
This is the receive indication function for packets with vlan tag .
*/
static int amd8111e_vlan_rx ( struct amd8111e_priv * lp , struct sk_buff * skb , u16 vlan_tag )
{
# ifdef CONFIG_AMD8111E_NAPI
return vlan_hwaccel_receive_skb ( skb , lp - > vlgrp , vlan_tag ) ;
# else
return vlan_hwaccel_rx ( skb , lp - > vlgrp , vlan_tag ) ;
# endif /* CONFIG_AMD8111E_NAPI */
}
# endif
/*
This function will free all the transmit skbs that are actually transmitted by the device . It will check the ownership of the skb before freeing the skb .
*/
static int amd8111e_tx ( struct net_device * dev )
{
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
int tx_index = lp - > tx_complete_idx & TX_RING_DR_MOD_MASK ;
int status ;
/* Complete all the transmit packet */
while ( lp - > tx_complete_idx ! = lp - > tx_idx ) {
tx_index = lp - > tx_complete_idx & TX_RING_DR_MOD_MASK ;
status = le16_to_cpu ( lp - > tx_ring [ tx_index ] . tx_flags ) ;
if ( status & OWN_BIT )
break ; /* It still hasn't been Txed */
lp - > tx_ring [ tx_index ] . buff_phy_addr = 0 ;
/* We must free the original skb */
if ( lp - > tx_skbuff [ tx_index ] ) {
pci_unmap_single ( lp - > pci_dev , lp - > tx_dma_addr [ tx_index ] ,
lp - > tx_skbuff [ tx_index ] - > len ,
PCI_DMA_TODEVICE ) ;
dev_kfree_skb_irq ( lp - > tx_skbuff [ tx_index ] ) ;
lp - > tx_skbuff [ tx_index ] = NULL ;
lp - > tx_dma_addr [ tx_index ] = 0 ;
}
lp - > tx_complete_idx + + ;
/*COAL update tx coalescing parameters */
lp - > coal_conf . tx_packets + + ;
lp - > coal_conf . tx_bytes + = lp - > tx_ring [ tx_index ] . buff_count ;
if ( netif_queue_stopped ( dev ) & &
lp - > tx_complete_idx > lp - > tx_idx - NUM_TX_BUFFERS + 2 ) {
/* The ring is no longer full, clear tbusy. */
/* lp->tx_full = 0; */
netif_wake_queue ( dev ) ;
}
}
return 0 ;
}
# ifdef CONFIG_AMD8111E_NAPI
/* This function handles the driver receive operation in polling mode */
static int amd8111e_rx_poll ( struct net_device * dev , int * budget )
{
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
int rx_index = lp - > rx_idx & RX_RING_DR_MOD_MASK ;
void __iomem * mmio = lp - > mmio ;
struct sk_buff * skb , * new_skb ;
int min_pkt_len , status ;
unsigned int intr0 ;
int num_rx_pkt = 0 ;
/*int max_rx_pkt = NUM_RX_BUFFERS;*/
short pkt_len ;
# if AMD8111E_VLAN_TAG_USED
short vtag ;
# endif
int rx_pkt_limit = dev - > quota ;
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unsigned long flags ;
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do {
/* process receive packets until we use the quota*/
/* If we own the next entry, it's a new packet. Send it up. */
while ( 1 ) {
status = le16_to_cpu ( lp - > rx_ring [ rx_index ] . rx_flags ) ;
if ( status & OWN_BIT )
break ;
/*
* There is a tricky error noted by John Murphy ,
* < murf @ perftech . com > to Russ Nelson : Even with
* full - sized * buffers it ' s possible for a
* jabber packet to use two buffers , with only
* the last correctly noting the error .
*/
if ( status & ERR_BIT ) {
/* reseting flags */
lp - > rx_ring [ rx_index ] . rx_flags & = RESET_RX_FLAGS ;
goto err_next_pkt ;
}
/* check for STP and ENP */
if ( ! ( ( status & STP_BIT ) & & ( status & ENP_BIT ) ) ) {
/* reseting flags */
lp - > rx_ring [ rx_index ] . rx_flags & = RESET_RX_FLAGS ;
goto err_next_pkt ;
}
pkt_len = le16_to_cpu ( lp - > rx_ring [ rx_index ] . msg_count ) - 4 ;
# if AMD8111E_VLAN_TAG_USED
vtag = status & TT_MASK ;
/*MAC will strip vlan tag*/
if ( lp - > vlgrp ! = NULL & & vtag ! = 0 )
min_pkt_len = MIN_PKT_LEN - 4 ;
else
# endif
min_pkt_len = MIN_PKT_LEN ;
if ( pkt_len < min_pkt_len ) {
lp - > rx_ring [ rx_index ] . rx_flags & = RESET_RX_FLAGS ;
lp - > drv_rx_errors + + ;
goto err_next_pkt ;
}
if ( - - rx_pkt_limit < 0 )
goto rx_not_empty ;
if ( ! ( new_skb = dev_alloc_skb ( lp - > rx_buff_len ) ) ) {
/* if allocation fail,
ignore that pkt and go to next one */
lp - > rx_ring [ rx_index ] . rx_flags & = RESET_RX_FLAGS ;
lp - > drv_rx_errors + + ;
goto err_next_pkt ;
}
skb_reserve ( new_skb , 2 ) ;
skb = lp - > rx_skbuff [ rx_index ] ;
pci_unmap_single ( lp - > pci_dev , lp - > rx_dma_addr [ rx_index ] ,
lp - > rx_buff_len - 2 , PCI_DMA_FROMDEVICE ) ;
skb_put ( skb , pkt_len ) ;
skb - > dev = dev ;
lp - > rx_skbuff [ rx_index ] = new_skb ;
new_skb - > dev = dev ;
lp - > rx_dma_addr [ rx_index ] = pci_map_single ( lp - > pci_dev ,
new_skb - > data ,
lp - > rx_buff_len - 2 ,
PCI_DMA_FROMDEVICE ) ;
skb - > protocol = eth_type_trans ( skb , dev ) ;
# if AMD8111E_VLAN_TAG_USED
if ( lp - > vlgrp ! = NULL & & ( vtag = = TT_VLAN_TAGGED ) ) {
amd8111e_vlan_rx ( lp , skb ,
le16_to_cpu ( lp - > rx_ring [ rx_index ] . tag_ctrl_info ) ) ;
} else
# endif
netif_receive_skb ( skb ) ;
/*COAL update rx coalescing parameters*/
lp - > coal_conf . rx_packets + + ;
lp - > coal_conf . rx_bytes + = pkt_len ;
num_rx_pkt + + ;
dev - > last_rx = jiffies ;
err_next_pkt :
lp - > rx_ring [ rx_index ] . buff_phy_addr
= cpu_to_le32 ( lp - > rx_dma_addr [ rx_index ] ) ;
lp - > rx_ring [ rx_index ] . buff_count =
cpu_to_le16 ( lp - > rx_buff_len - 2 ) ;
wmb ( ) ;
lp - > rx_ring [ rx_index ] . rx_flags | = cpu_to_le16 ( OWN_BIT ) ;
rx_index = ( + + lp - > rx_idx ) & RX_RING_DR_MOD_MASK ;
}
/* Check the interrupt status register for more packets in the
mean time . Process them since we have not used up our quota . */
intr0 = readl ( mmio + INT0 ) ;
/*Ack receive packets */
writel ( intr0 & RINT0 , mmio + INT0 ) ;
} while ( intr0 & RINT0 ) ;
/* Receive descriptor is empty now */
dev - > quota - = num_rx_pkt ;
* budget - = num_rx_pkt ;
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spin_lock_irqsave ( & lp - > lock , flags ) ;
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netif_rx_complete ( dev ) ;
writel ( VAL0 | RINTEN0 , mmio + INTEN0 ) ;
writel ( VAL2 | RDMD0 , mmio + CMD0 ) ;
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spin_unlock_irqrestore ( & lp - > lock , flags ) ;
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return 0 ;
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rx_not_empty :
/* Do not call a netif_rx_complete */
dev - > quota - = num_rx_pkt ;
* budget - = num_rx_pkt ;
return 1 ;
}
# else
/*
This function will check the ownership of receive buffers and descriptors . It will indicate to kernel up to half the number of maximum receive buffers in the descriptor ring , in a single receive interrupt . It will also replenish the descriptors with new skbs .
*/
static int amd8111e_rx ( struct net_device * dev )
{
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
struct sk_buff * skb , * new_skb ;
int rx_index = lp - > rx_idx & RX_RING_DR_MOD_MASK ;
int min_pkt_len , status ;
int num_rx_pkt = 0 ;
int max_rx_pkt = NUM_RX_BUFFERS ;
short pkt_len ;
# if AMD8111E_VLAN_TAG_USED
short vtag ;
# endif
/* If we own the next entry, it's a new packet. Send it up. */
while ( + + num_rx_pkt < = max_rx_pkt ) {
status = le16_to_cpu ( lp - > rx_ring [ rx_index ] . rx_flags ) ;
if ( status & OWN_BIT )
return 0 ;
/* check if err summary bit is set */
if ( status & ERR_BIT ) {
/*
* There is a tricky error noted by John Murphy ,
* < murf @ perftech . com > to Russ Nelson : Even with full - sized
* buffers it ' s possible for a jabber packet to use two
* buffers , with only the last correctly noting the error . */
/* reseting flags */
lp - > rx_ring [ rx_index ] . rx_flags & = RESET_RX_FLAGS ;
goto err_next_pkt ;
}
/* check for STP and ENP */
if ( ! ( ( status & STP_BIT ) & & ( status & ENP_BIT ) ) ) {
/* reseting flags */
lp - > rx_ring [ rx_index ] . rx_flags & = RESET_RX_FLAGS ;
goto err_next_pkt ;
}
pkt_len = le16_to_cpu ( lp - > rx_ring [ rx_index ] . msg_count ) - 4 ;
# if AMD8111E_VLAN_TAG_USED
vtag = status & TT_MASK ;
/*MAC will strip vlan tag*/
if ( lp - > vlgrp ! = NULL & & vtag ! = 0 )
min_pkt_len = MIN_PKT_LEN - 4 ;
else
# endif
min_pkt_len = MIN_PKT_LEN ;
if ( pkt_len < min_pkt_len ) {
lp - > rx_ring [ rx_index ] . rx_flags & = RESET_RX_FLAGS ;
lp - > drv_rx_errors + + ;
goto err_next_pkt ;
}
if ( ! ( new_skb = dev_alloc_skb ( lp - > rx_buff_len ) ) ) {
/* if allocation fail,
ignore that pkt and go to next one */
lp - > rx_ring [ rx_index ] . rx_flags & = RESET_RX_FLAGS ;
lp - > drv_rx_errors + + ;
goto err_next_pkt ;
}
skb_reserve ( new_skb , 2 ) ;
skb = lp - > rx_skbuff [ rx_index ] ;
pci_unmap_single ( lp - > pci_dev , lp - > rx_dma_addr [ rx_index ] ,
lp - > rx_buff_len - 2 , PCI_DMA_FROMDEVICE ) ;
skb_put ( skb , pkt_len ) ;
skb - > dev = dev ;
lp - > rx_skbuff [ rx_index ] = new_skb ;
new_skb - > dev = dev ;
lp - > rx_dma_addr [ rx_index ] = pci_map_single ( lp - > pci_dev ,
new_skb - > data , lp - > rx_buff_len - 2 , PCI_DMA_FROMDEVICE ) ;
skb - > protocol = eth_type_trans ( skb , dev ) ;
# if AMD8111E_VLAN_TAG_USED
if ( lp - > vlgrp ! = NULL & & ( vtag = = TT_VLAN_TAGGED ) ) {
amd8111e_vlan_rx ( lp , skb ,
le16_to_cpu ( lp - > rx_ring [ rx_index ] . tag_ctrl_info ) ) ;
} else
# endif
netif_rx ( skb ) ;
/*COAL update rx coalescing parameters*/
lp - > coal_conf . rx_packets + + ;
lp - > coal_conf . rx_bytes + = pkt_len ;
dev - > last_rx = jiffies ;
err_next_pkt :
lp - > rx_ring [ rx_index ] . buff_phy_addr
= cpu_to_le32 ( lp - > rx_dma_addr [ rx_index ] ) ;
lp - > rx_ring [ rx_index ] . buff_count =
cpu_to_le16 ( lp - > rx_buff_len - 2 ) ;
wmb ( ) ;
lp - > rx_ring [ rx_index ] . rx_flags | = cpu_to_le16 ( OWN_BIT ) ;
rx_index = ( + + lp - > rx_idx ) & RX_RING_DR_MOD_MASK ;
}
return 0 ;
}
# endif /* CONFIG_AMD8111E_NAPI */
/*
This function will indicate the link status to the kernel .
*/
static int amd8111e_link_change ( struct net_device * dev )
{
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
int status0 , speed ;
/* read the link change */
status0 = readl ( lp - > mmio + STAT0 ) ;
if ( status0 & LINK_STATS ) {
if ( status0 & AUTONEG_COMPLETE )
lp - > link_config . autoneg = AUTONEG_ENABLE ;
else
lp - > link_config . autoneg = AUTONEG_DISABLE ;
if ( status0 & FULL_DPLX )
lp - > link_config . duplex = DUPLEX_FULL ;
else
lp - > link_config . duplex = DUPLEX_HALF ;
speed = ( status0 & SPEED_MASK ) > > 7 ;
if ( speed = = PHY_SPEED_10 )
lp - > link_config . speed = SPEED_10 ;
else if ( speed = = PHY_SPEED_100 )
lp - > link_config . speed = SPEED_100 ;
printk ( KERN_INFO " %s: Link is Up. Speed is %s Mbps %s Duplex \n " , dev - > name ,
( lp - > link_config . speed = = SPEED_100 ) ? " 100 " : " 10 " ,
( lp - > link_config . duplex = = DUPLEX_FULL ) ? " Full " : " Half " ) ;
netif_carrier_on ( dev ) ;
}
else {
lp - > link_config . speed = SPEED_INVALID ;
lp - > link_config . duplex = DUPLEX_INVALID ;
lp - > link_config . autoneg = AUTONEG_INVALID ;
printk ( KERN_INFO " %s: Link is Down. \n " , dev - > name ) ;
netif_carrier_off ( dev ) ;
}
return 0 ;
}
/*
This function reads the mib counters .
*/
static int amd8111e_read_mib ( void __iomem * mmio , u8 MIB_COUNTER )
{
unsigned int status ;
unsigned int data ;
unsigned int repeat = REPEAT_CNT ;
writew ( MIB_RD_CMD | MIB_COUNTER , mmio + MIB_ADDR ) ;
do {
status = readw ( mmio + MIB_ADDR ) ;
udelay ( 2 ) ; /* controller takes MAX 2 us to get mib data */
}
while ( - - repeat & & ( status & MIB_CMD_ACTIVE ) ) ;
data = readl ( mmio + MIB_DATA ) ;
return data ;
}
/*
This function reads the mib registers and returns the hardware statistics . It updates previous internal driver statistics with new values .
*/
static struct net_device_stats * amd8111e_get_stats ( struct net_device * dev )
{
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
void __iomem * mmio = lp - > mmio ;
unsigned long flags ;
/* struct net_device_stats *prev_stats = &lp->prev_stats; */
struct net_device_stats * new_stats = & lp - > stats ;
if ( ! lp - > opened )
return & lp - > stats ;
spin_lock_irqsave ( & lp - > lock , flags ) ;
/* stats.rx_packets */
new_stats - > rx_packets = amd8111e_read_mib ( mmio , rcv_broadcast_pkts ) +
amd8111e_read_mib ( mmio , rcv_multicast_pkts ) +
amd8111e_read_mib ( mmio , rcv_unicast_pkts ) ;
/* stats.tx_packets */
new_stats - > tx_packets = amd8111e_read_mib ( mmio , xmt_packets ) ;
/*stats.rx_bytes */
new_stats - > rx_bytes = amd8111e_read_mib ( mmio , rcv_octets ) ;
/* stats.tx_bytes */
new_stats - > tx_bytes = amd8111e_read_mib ( mmio , xmt_octets ) ;
/* stats.rx_errors */
/* hw errors + errors driver reported */
new_stats - > rx_errors = amd8111e_read_mib ( mmio , rcv_undersize_pkts ) +
amd8111e_read_mib ( mmio , rcv_fragments ) +
amd8111e_read_mib ( mmio , rcv_jabbers ) +
amd8111e_read_mib ( mmio , rcv_alignment_errors ) +
amd8111e_read_mib ( mmio , rcv_fcs_errors ) +
amd8111e_read_mib ( mmio , rcv_miss_pkts ) +
lp - > drv_rx_errors ;
/* stats.tx_errors */
new_stats - > tx_errors = amd8111e_read_mib ( mmio , xmt_underrun_pkts ) ;
/* stats.rx_dropped*/
new_stats - > rx_dropped = amd8111e_read_mib ( mmio , rcv_miss_pkts ) ;
/* stats.tx_dropped*/
new_stats - > tx_dropped = amd8111e_read_mib ( mmio , xmt_underrun_pkts ) ;
/* stats.multicast*/
new_stats - > multicast = amd8111e_read_mib ( mmio , rcv_multicast_pkts ) ;
/* stats.collisions*/
new_stats - > collisions = amd8111e_read_mib ( mmio , xmt_collisions ) ;
/* stats.rx_length_errors*/
new_stats - > rx_length_errors =
amd8111e_read_mib ( mmio , rcv_undersize_pkts ) +
amd8111e_read_mib ( mmio , rcv_oversize_pkts ) ;
/* stats.rx_over_errors*/
new_stats - > rx_over_errors = amd8111e_read_mib ( mmio , rcv_miss_pkts ) ;
/* stats.rx_crc_errors*/
new_stats - > rx_crc_errors = amd8111e_read_mib ( mmio , rcv_fcs_errors ) ;
/* stats.rx_frame_errors*/
new_stats - > rx_frame_errors =
amd8111e_read_mib ( mmio , rcv_alignment_errors ) ;
/* stats.rx_fifo_errors */
new_stats - > rx_fifo_errors = amd8111e_read_mib ( mmio , rcv_miss_pkts ) ;
/* stats.rx_missed_errors */
new_stats - > rx_missed_errors = amd8111e_read_mib ( mmio , rcv_miss_pkts ) ;
/* stats.tx_aborted_errors*/
new_stats - > tx_aborted_errors =
amd8111e_read_mib ( mmio , xmt_excessive_collision ) ;
/* stats.tx_carrier_errors*/
new_stats - > tx_carrier_errors =
amd8111e_read_mib ( mmio , xmt_loss_carrier ) ;
/* stats.tx_fifo_errors*/
new_stats - > tx_fifo_errors = amd8111e_read_mib ( mmio , xmt_underrun_pkts ) ;
/* stats.tx_window_errors*/
new_stats - > tx_window_errors =
amd8111e_read_mib ( mmio , xmt_late_collision ) ;
/* Reset the mibs for collecting new statistics */
/* writew(MIB_CLEAR, mmio + MIB_ADDR);*/
spin_unlock_irqrestore ( & lp - > lock , flags ) ;
return new_stats ;
}
/* This function recalculate the interupt coalescing mode on every interrupt
according to the datarate and the packet rate .
*/
static int amd8111e_calc_coalesce ( struct net_device * dev )
{
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
struct amd8111e_coalesce_conf * coal_conf = & lp - > coal_conf ;
int tx_pkt_rate ;
int rx_pkt_rate ;
int tx_data_rate ;
int rx_data_rate ;
int rx_pkt_size ;
int tx_pkt_size ;
tx_pkt_rate = coal_conf - > tx_packets - coal_conf - > tx_prev_packets ;
coal_conf - > tx_prev_packets = coal_conf - > tx_packets ;
tx_data_rate = coal_conf - > tx_bytes - coal_conf - > tx_prev_bytes ;
coal_conf - > tx_prev_bytes = coal_conf - > tx_bytes ;
rx_pkt_rate = coal_conf - > rx_packets - coal_conf - > rx_prev_packets ;
coal_conf - > rx_prev_packets = coal_conf - > rx_packets ;
rx_data_rate = coal_conf - > rx_bytes - coal_conf - > rx_prev_bytes ;
coal_conf - > rx_prev_bytes = coal_conf - > rx_bytes ;
if ( rx_pkt_rate < 800 ) {
if ( coal_conf - > rx_coal_type ! = NO_COALESCE ) {
coal_conf - > rx_timeout = 0x0 ;
coal_conf - > rx_event_count = 0 ;
amd8111e_set_coalesce ( dev , RX_INTR_COAL ) ;
coal_conf - > rx_coal_type = NO_COALESCE ;
}
}
else {
rx_pkt_size = rx_data_rate / rx_pkt_rate ;
if ( rx_pkt_size < 128 ) {
if ( coal_conf - > rx_coal_type ! = NO_COALESCE ) {
coal_conf - > rx_timeout = 0 ;
coal_conf - > rx_event_count = 0 ;
amd8111e_set_coalesce ( dev , RX_INTR_COAL ) ;
coal_conf - > rx_coal_type = NO_COALESCE ;
}
}
else if ( ( rx_pkt_size > = 128 ) & & ( rx_pkt_size < 512 ) ) {
if ( coal_conf - > rx_coal_type ! = LOW_COALESCE ) {
coal_conf - > rx_timeout = 1 ;
coal_conf - > rx_event_count = 4 ;
amd8111e_set_coalesce ( dev , RX_INTR_COAL ) ;
coal_conf - > rx_coal_type = LOW_COALESCE ;
}
}
else if ( ( rx_pkt_size > = 512 ) & & ( rx_pkt_size < 1024 ) ) {
if ( coal_conf - > rx_coal_type ! = MEDIUM_COALESCE ) {
coal_conf - > rx_timeout = 1 ;
coal_conf - > rx_event_count = 4 ;
amd8111e_set_coalesce ( dev , RX_INTR_COAL ) ;
coal_conf - > rx_coal_type = MEDIUM_COALESCE ;
}
}
else if ( rx_pkt_size > = 1024 ) {
if ( coal_conf - > rx_coal_type ! = HIGH_COALESCE ) {
coal_conf - > rx_timeout = 2 ;
coal_conf - > rx_event_count = 3 ;
amd8111e_set_coalesce ( dev , RX_INTR_COAL ) ;
coal_conf - > rx_coal_type = HIGH_COALESCE ;
}
}
}
/* NOW FOR TX INTR COALESC */
if ( tx_pkt_rate < 800 ) {
if ( coal_conf - > tx_coal_type ! = NO_COALESCE ) {
coal_conf - > tx_timeout = 0x0 ;
coal_conf - > tx_event_count = 0 ;
amd8111e_set_coalesce ( dev , TX_INTR_COAL ) ;
coal_conf - > tx_coal_type = NO_COALESCE ;
}
}
else {
tx_pkt_size = tx_data_rate / tx_pkt_rate ;
if ( tx_pkt_size < 128 ) {
if ( coal_conf - > tx_coal_type ! = NO_COALESCE ) {
coal_conf - > tx_timeout = 0 ;
coal_conf - > tx_event_count = 0 ;
amd8111e_set_coalesce ( dev , TX_INTR_COAL ) ;
coal_conf - > tx_coal_type = NO_COALESCE ;
}
}
else if ( ( tx_pkt_size > = 128 ) & & ( tx_pkt_size < 512 ) ) {
if ( coal_conf - > tx_coal_type ! = LOW_COALESCE ) {
coal_conf - > tx_timeout = 1 ;
coal_conf - > tx_event_count = 2 ;
amd8111e_set_coalesce ( dev , TX_INTR_COAL ) ;
coal_conf - > tx_coal_type = LOW_COALESCE ;
}
}
else if ( ( tx_pkt_size > = 512 ) & & ( tx_pkt_size < 1024 ) ) {
if ( coal_conf - > tx_coal_type ! = MEDIUM_COALESCE ) {
coal_conf - > tx_timeout = 2 ;
coal_conf - > tx_event_count = 5 ;
amd8111e_set_coalesce ( dev , TX_INTR_COAL ) ;
coal_conf - > tx_coal_type = MEDIUM_COALESCE ;
}
}
else if ( tx_pkt_size > = 1024 ) {
if ( tx_pkt_size > = 1024 ) {
if ( coal_conf - > tx_coal_type ! = HIGH_COALESCE ) {
coal_conf - > tx_timeout = 4 ;
coal_conf - > tx_event_count = 8 ;
amd8111e_set_coalesce ( dev , TX_INTR_COAL ) ;
coal_conf - > tx_coal_type = HIGH_COALESCE ;
}
}
}
}
return 0 ;
}
/*
This is device interrupt function . It handles transmit , receive , link change and hardware timer interrupts .
*/
static irqreturn_t amd8111e_interrupt ( int irq , void * dev_id , struct pt_regs * regs )
{
struct net_device * dev = ( struct net_device * ) dev_id ;
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
void __iomem * mmio = lp - > mmio ;
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unsigned int intr0 , intren0 ;
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unsigned int handled = 1 ;
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if ( unlikely ( dev = = NULL ) )
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return IRQ_NONE ;
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spin_lock ( & lp - > lock ) ;
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/* disabling interrupt */
writel ( INTREN , mmio + CMD0 ) ;
/* Read interrupt status */
intr0 = readl ( mmio + INT0 ) ;
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intren0 = readl ( mmio + INTEN0 ) ;
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/* Process all the INT event until INTR bit is clear. */
if ( ! ( intr0 & INTR ) ) {
handled = 0 ;
goto err_no_interrupt ;
}
/* Current driver processes 4 interrupts : RINT,TINT,LCINT,STINT */
writel ( intr0 , mmio + INT0 ) ;
/* Check if Receive Interrupt has occurred. */
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# ifdef CONFIG_AMD8111E_NAPI
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if ( intr0 & RINT0 ) {
if ( netif_rx_schedule_prep ( dev ) ) {
/* Disable receive interupts */
writel ( RINTEN0 , mmio + INTEN0 ) ;
/* Schedule a polling routine */
__netif_rx_schedule ( dev ) ;
}
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else if ( intren0 & RINTEN0 ) {
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printk ( " ************Driver bug! \
interrupt while in poll \ n " );
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/* Fix by disable receive interrupts */
writel ( RINTEN0 , mmio + INTEN0 ) ;
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}
}
# else
if ( intr0 & RINT0 ) {
amd8111e_rx ( dev ) ;
writel ( VAL2 | RDMD0 , mmio + CMD0 ) ;
}
# endif /* CONFIG_AMD8111E_NAPI */
/* Check if Transmit Interrupt has occurred. */
if ( intr0 & TINT0 )
amd8111e_tx ( dev ) ;
/* Check if Link Change Interrupt has occurred. */
if ( intr0 & LCINT )
amd8111e_link_change ( dev ) ;
/* Check if Hardware Timer Interrupt has occurred. */
if ( intr0 & STINT )
amd8111e_calc_coalesce ( dev ) ;
err_no_interrupt :
writel ( VAL0 | INTREN , mmio + CMD0 ) ;
2005-05-12 16:40:38 -07:00
spin_unlock ( & lp - > lock ) ;
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return IRQ_RETVAL ( handled ) ;
}
# ifdef CONFIG_NET_POLL_CONTROLLER
static void amd8111e_poll ( struct net_device * dev )
{
unsigned long flags ;
local_save_flags ( flags ) ;
local_irq_disable ( ) ;
amd8111e_interrupt ( 0 , dev , NULL ) ;
local_irq_restore ( flags ) ;
}
# endif
/*
This function closes the network interface and updates the statistics so that most recent statistics will be available after the interface is down .
*/
static int amd8111e_close ( struct net_device * dev )
{
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
netif_stop_queue ( dev ) ;
spin_lock_irq ( & lp - > lock ) ;
amd8111e_disable_interrupt ( lp ) ;
amd8111e_stop_chip ( lp ) ;
amd8111e_free_ring ( lp ) ;
netif_carrier_off ( lp - > amd8111e_net_dev ) ;
/* Delete ipg timer */
if ( lp - > options & OPTION_DYN_IPG_ENABLE )
del_timer_sync ( & lp - > ipg_data . ipg_timer ) ;
spin_unlock_irq ( & lp - > lock ) ;
free_irq ( dev - > irq , dev ) ;
/* Update the statistics before closing */
amd8111e_get_stats ( dev ) ;
lp - > opened = 0 ;
return 0 ;
}
/* This function opens new interface.It requests irq for the device, initializes the device,buffers and descriptors, and starts the device.
*/
static int amd8111e_open ( struct net_device * dev )
{
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
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if ( dev - > irq = = 0 | | request_irq ( dev - > irq , amd8111e_interrupt , IRQF_SHARED ,
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dev - > name , dev ) )
return - EAGAIN ;
spin_lock_irq ( & lp - > lock ) ;
amd8111e_init_hw_default ( lp ) ;
if ( amd8111e_restart ( dev ) ) {
spin_unlock_irq ( & lp - > lock ) ;
if ( dev - > irq )
free_irq ( dev - > irq , dev ) ;
return - ENOMEM ;
}
/* Start ipg timer */
if ( lp - > options & OPTION_DYN_IPG_ENABLE ) {
add_timer ( & lp - > ipg_data . ipg_timer ) ;
printk ( KERN_INFO " %s: Dynamic IPG Enabled. \n " , dev - > name ) ;
}
lp - > opened = 1 ;
spin_unlock_irq ( & lp - > lock ) ;
netif_start_queue ( dev ) ;
return 0 ;
}
/*
This function checks if there is any transmit descriptors available to queue more packet .
*/
static int amd8111e_tx_queue_avail ( struct amd8111e_priv * lp )
{
int tx_index = lp - > tx_idx & TX_BUFF_MOD_MASK ;
if ( lp - > tx_skbuff [ tx_index ] ! = 0 )
return - 1 ;
else
return 0 ;
}
/*
This function will queue the transmit packets to the descriptors and will trigger the send operation . It also initializes the transmit descriptors with buffer physical address , byte count , ownership to hardware etc .
*/
static int amd8111e_start_xmit ( struct sk_buff * skb , struct net_device * dev )
{
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
int tx_index ;
unsigned long flags ;
spin_lock_irqsave ( & lp - > lock , flags ) ;
tx_index = lp - > tx_idx & TX_RING_DR_MOD_MASK ;
lp - > tx_ring [ tx_index ] . buff_count = cpu_to_le16 ( skb - > len ) ;
lp - > tx_skbuff [ tx_index ] = skb ;
lp - > tx_ring [ tx_index ] . tx_flags = 0 ;
# if AMD8111E_VLAN_TAG_USED
if ( ( lp - > vlgrp ! = NULL ) & & vlan_tx_tag_present ( skb ) ) {
lp - > tx_ring [ tx_index ] . tag_ctrl_cmd | =
cpu_to_le16 ( TCC_VLAN_INSERT ) ;
lp - > tx_ring [ tx_index ] . tag_ctrl_info =
cpu_to_le16 ( vlan_tx_tag_get ( skb ) ) ;
}
# endif
lp - > tx_dma_addr [ tx_index ] =
pci_map_single ( lp - > pci_dev , skb - > data , skb - > len , PCI_DMA_TODEVICE ) ;
lp - > tx_ring [ tx_index ] . buff_phy_addr =
( u32 ) cpu_to_le32 ( lp - > tx_dma_addr [ tx_index ] ) ;
/* Set FCS and LTINT bits */
wmb ( ) ;
lp - > tx_ring [ tx_index ] . tx_flags | =
cpu_to_le16 ( OWN_BIT | STP_BIT | ENP_BIT | ADD_FCS_BIT | LTINT_BIT ) ;
lp - > tx_idx + + ;
/* Trigger an immediate send poll. */
writel ( VAL1 | TDMD0 , lp - > mmio + CMD0 ) ;
writel ( VAL2 | RDMD0 , lp - > mmio + CMD0 ) ;
dev - > trans_start = jiffies ;
if ( amd8111e_tx_queue_avail ( lp ) < 0 ) {
netif_stop_queue ( dev ) ;
}
spin_unlock_irqrestore ( & lp - > lock , flags ) ;
return 0 ;
}
/*
This function returns all the memory mapped registers of the device .
*/
static void amd8111e_read_regs ( struct amd8111e_priv * lp , u32 * buf )
{
void __iomem * mmio = lp - > mmio ;
/* Read only necessary registers */
buf [ 0 ] = readl ( mmio + XMT_RING_BASE_ADDR0 ) ;
buf [ 1 ] = readl ( mmio + XMT_RING_LEN0 ) ;
buf [ 2 ] = readl ( mmio + RCV_RING_BASE_ADDR0 ) ;
buf [ 3 ] = readl ( mmio + RCV_RING_LEN0 ) ;
buf [ 4 ] = readl ( mmio + CMD0 ) ;
buf [ 5 ] = readl ( mmio + CMD2 ) ;
buf [ 6 ] = readl ( mmio + CMD3 ) ;
buf [ 7 ] = readl ( mmio + CMD7 ) ;
buf [ 8 ] = readl ( mmio + INT0 ) ;
buf [ 9 ] = readl ( mmio + INTEN0 ) ;
buf [ 10 ] = readl ( mmio + LADRF ) ;
buf [ 11 ] = readl ( mmio + LADRF + 4 ) ;
buf [ 12 ] = readl ( mmio + STAT0 ) ;
}
/*
amd8111e crc generator implementation is different from the kernel
ether_crc ( ) function .
*/
static int amd8111e_ether_crc ( int len , char * mac_addr )
{
int i , byte ;
unsigned char octet ;
u32 crc = INITCRC ;
for ( byte = 0 ; byte < len ; byte + + ) {
octet = mac_addr [ byte ] ;
for ( i = 0 ; i < 8 ; i + + ) {
/*If the next bit form the input stream is 1,subtract the divisor (CRC32) from the dividend(crc).*/
if ( ( octet & 0x1 ) ^ ( crc & 0x1 ) ) {
crc > > = 1 ;
crc ^ = CRC32 ;
}
else
crc > > = 1 ;
octet > > = 1 ;
}
}
return crc ;
}
/*
This function sets promiscuos mode , all - multi mode or the multicast address
list to the device .
*/
static void amd8111e_set_multicast_list ( struct net_device * dev )
{
struct dev_mc_list * mc_ptr ;
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
u32 mc_filter [ 2 ] ;
int i , bit_num ;
if ( dev - > flags & IFF_PROMISC ) {
printk ( KERN_INFO " %s: Setting promiscuous mode. \n " , dev - > name ) ;
writel ( VAL2 | PROM , lp - > mmio + CMD2 ) ;
return ;
}
else
writel ( PROM , lp - > mmio + CMD2 ) ;
if ( dev - > flags & IFF_ALLMULTI | | dev - > mc_count > MAX_FILTER_SIZE ) {
/* get all multicast packet */
mc_filter [ 1 ] = mc_filter [ 0 ] = 0xffffffff ;
lp - > mc_list = dev - > mc_list ;
lp - > options | = OPTION_MULTICAST_ENABLE ;
amd8111e_writeq ( * ( u64 * ) mc_filter , lp - > mmio + LADRF ) ;
return ;
}
if ( dev - > mc_count = = 0 ) {
/* get only own packets */
mc_filter [ 1 ] = mc_filter [ 0 ] = 0 ;
lp - > mc_list = NULL ;
lp - > options & = ~ OPTION_MULTICAST_ENABLE ;
amd8111e_writeq ( * ( u64 * ) mc_filter , lp - > mmio + LADRF ) ;
/* disable promiscous mode */
writel ( PROM , lp - > mmio + CMD2 ) ;
return ;
}
/* load all the multicast addresses in the logic filter */
lp - > options | = OPTION_MULTICAST_ENABLE ;
lp - > mc_list = dev - > mc_list ;
mc_filter [ 1 ] = mc_filter [ 0 ] = 0 ;
for ( i = 0 , mc_ptr = dev - > mc_list ; mc_ptr & & i < dev - > mc_count ;
i + + , mc_ptr = mc_ptr - > next ) {
bit_num = ( amd8111e_ether_crc ( ETH_ALEN , mc_ptr - > dmi_addr ) > > 26 ) & 0x3f ;
mc_filter [ bit_num > > 5 ] | = 1 < < ( bit_num & 31 ) ;
}
amd8111e_writeq ( * ( u64 * ) mc_filter , lp - > mmio + LADRF ) ;
/* To eliminate PCI posting bug */
readl ( lp - > mmio + CMD2 ) ;
}
static void amd8111e_get_drvinfo ( struct net_device * dev , struct ethtool_drvinfo * info )
{
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
struct pci_dev * pci_dev = lp - > pci_dev ;
strcpy ( info - > driver , MODULE_NAME ) ;
strcpy ( info - > version , MODULE_VERS ) ;
sprintf ( info - > fw_version , " %u " , chip_version ) ;
strcpy ( info - > bus_info , pci_name ( pci_dev ) ) ;
}
static int amd8111e_get_regs_len ( struct net_device * dev )
{
return AMD8111E_REG_DUMP_LEN ;
}
static void amd8111e_get_regs ( struct net_device * dev , struct ethtool_regs * regs , void * buf )
{
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
regs - > version = 0 ;
amd8111e_read_regs ( lp , buf ) ;
}
static int amd8111e_get_settings ( struct net_device * dev , struct ethtool_cmd * ecmd )
{
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
spin_lock_irq ( & lp - > lock ) ;
mii_ethtool_gset ( & lp - > mii_if , ecmd ) ;
spin_unlock_irq ( & lp - > lock ) ;
return 0 ;
}
static int amd8111e_set_settings ( struct net_device * dev , struct ethtool_cmd * ecmd )
{
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
int res ;
spin_lock_irq ( & lp - > lock ) ;
res = mii_ethtool_sset ( & lp - > mii_if , ecmd ) ;
spin_unlock_irq ( & lp - > lock ) ;
return res ;
}
static int amd8111e_nway_reset ( struct net_device * dev )
{
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
return mii_nway_restart ( & lp - > mii_if ) ;
}
static u32 amd8111e_get_link ( struct net_device * dev )
{
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
return mii_link_ok ( & lp - > mii_if ) ;
}
static void amd8111e_get_wol ( struct net_device * dev , struct ethtool_wolinfo * wol_info )
{
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
wol_info - > supported = WAKE_MAGIC | WAKE_PHY ;
if ( lp - > options & OPTION_WOL_ENABLE )
wol_info - > wolopts = WAKE_MAGIC ;
}
static int amd8111e_set_wol ( struct net_device * dev , struct ethtool_wolinfo * wol_info )
{
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
if ( wol_info - > wolopts & ~ ( WAKE_MAGIC | WAKE_PHY ) )
return - EINVAL ;
spin_lock_irq ( & lp - > lock ) ;
if ( wol_info - > wolopts & WAKE_MAGIC )
lp - > options | =
( OPTION_WOL_ENABLE | OPTION_WAKE_MAGIC_ENABLE ) ;
else if ( wol_info - > wolopts & WAKE_PHY )
lp - > options | =
( OPTION_WOL_ENABLE | OPTION_WAKE_PHY_ENABLE ) ;
else
lp - > options & = ~ OPTION_WOL_ENABLE ;
spin_unlock_irq ( & lp - > lock ) ;
return 0 ;
}
static struct ethtool_ops ops = {
. get_drvinfo = amd8111e_get_drvinfo ,
. get_regs_len = amd8111e_get_regs_len ,
. get_regs = amd8111e_get_regs ,
. get_settings = amd8111e_get_settings ,
. set_settings = amd8111e_set_settings ,
. nway_reset = amd8111e_nway_reset ,
. get_link = amd8111e_get_link ,
. get_wol = amd8111e_get_wol ,
. set_wol = amd8111e_set_wol ,
} ;
/*
This function handles all the ethtool ioctls . It gives driver info , gets / sets driver speed , gets memory mapped register values , forces auto negotiation , sets / gets WOL options for ethtool application .
*/
static int amd8111e_ioctl ( struct net_device * dev , struct ifreq * ifr , int cmd )
{
struct mii_ioctl_data * data = if_mii ( ifr ) ;
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
int err ;
u32 mii_regval ;
if ( ! capable ( CAP_NET_ADMIN ) )
return - EPERM ;
switch ( cmd ) {
case SIOCGMIIPHY :
data - > phy_id = lp - > ext_phy_addr ;
/* fallthru */
case SIOCGMIIREG :
spin_lock_irq ( & lp - > lock ) ;
err = amd8111e_read_phy ( lp , data - > phy_id ,
data - > reg_num & PHY_REG_ADDR_MASK , & mii_regval ) ;
spin_unlock_irq ( & lp - > lock ) ;
data - > val_out = mii_regval ;
return err ;
case SIOCSMIIREG :
spin_lock_irq ( & lp - > lock ) ;
err = amd8111e_write_phy ( lp , data - > phy_id ,
data - > reg_num & PHY_REG_ADDR_MASK , data - > val_in ) ;
spin_unlock_irq ( & lp - > lock ) ;
return err ;
default :
/* do nothing */
break ;
}
return - EOPNOTSUPP ;
}
static int amd8111e_set_mac_address ( struct net_device * dev , void * p )
{
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
int i ;
struct sockaddr * addr = p ;
memcpy ( dev - > dev_addr , addr - > sa_data , dev - > addr_len ) ;
spin_lock_irq ( & lp - > lock ) ;
/* Setting the MAC address to the device */
for ( i = 0 ; i < ETH_ADDR_LEN ; i + + )
writeb ( dev - > dev_addr [ i ] , lp - > mmio + PADR + i ) ;
spin_unlock_irq ( & lp - > lock ) ;
return 0 ;
}
/*
This function changes the mtu of the device . It restarts the device to initialize the descriptor with new receive buffers .
*/
static int amd8111e_change_mtu ( struct net_device * dev , int new_mtu )
{
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
int err ;
if ( ( new_mtu < AMD8111E_MIN_MTU ) | | ( new_mtu > AMD8111E_MAX_MTU ) )
return - EINVAL ;
if ( ! netif_running ( dev ) ) {
/* new_mtu will be used
when device starts netxt time */
dev - > mtu = new_mtu ;
return 0 ;
}
spin_lock_irq ( & lp - > lock ) ;
/* stop the chip */
writel ( RUN , lp - > mmio + CMD0 ) ;
dev - > mtu = new_mtu ;
err = amd8111e_restart ( dev ) ;
spin_unlock_irq ( & lp - > lock ) ;
if ( ! err )
netif_start_queue ( dev ) ;
return err ;
}
# if AMD8111E_VLAN_TAG_USED
static void amd8111e_vlan_rx_register ( struct net_device * dev , struct vlan_group * grp )
{
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
spin_lock_irq ( & lp - > lock ) ;
lp - > vlgrp = grp ;
spin_unlock_irq ( & lp - > lock ) ;
}
static void amd8111e_vlan_rx_kill_vid ( struct net_device * dev , unsigned short vid )
{
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
spin_lock_irq ( & lp - > lock ) ;
if ( lp - > vlgrp )
lp - > vlgrp - > vlan_devices [ vid ] = NULL ;
spin_unlock_irq ( & lp - > lock ) ;
}
# endif
static int amd8111e_enable_magicpkt ( struct amd8111e_priv * lp )
{
writel ( VAL1 | MPPLBA , lp - > mmio + CMD3 ) ;
writel ( VAL0 | MPEN_SW , lp - > mmio + CMD7 ) ;
/* To eliminate PCI posting bug */
readl ( lp - > mmio + CMD7 ) ;
return 0 ;
}
static int amd8111e_enable_link_change ( struct amd8111e_priv * lp )
{
/* Adapter is already stoped/suspended/interrupt-disabled */
writel ( VAL0 | LCMODE_SW , lp - > mmio + CMD7 ) ;
/* To eliminate PCI posting bug */
readl ( lp - > mmio + CMD7 ) ;
return 0 ;
}
/* This function is called when a packet transmission fails to complete within a resonable period, on the assumption that an interrupts have been failed or the interface is locked up. This function will reinitialize the hardware */
static void amd8111e_tx_timeout ( struct net_device * dev )
{
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
int err ;
printk ( KERN_ERR " %s: transmit timed out, resetting \n " ,
dev - > name ) ;
spin_lock_irq ( & lp - > lock ) ;
err = amd8111e_restart ( dev ) ;
spin_unlock_irq ( & lp - > lock ) ;
if ( ! err )
netif_wake_queue ( dev ) ;
}
static int amd8111e_suspend ( struct pci_dev * pci_dev , pm_message_t state )
{
struct net_device * dev = pci_get_drvdata ( pci_dev ) ;
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
if ( ! netif_running ( dev ) )
return 0 ;
/* disable the interrupt */
spin_lock_irq ( & lp - > lock ) ;
amd8111e_disable_interrupt ( lp ) ;
spin_unlock_irq ( & lp - > lock ) ;
netif_device_detach ( dev ) ;
/* stop chip */
spin_lock_irq ( & lp - > lock ) ;
if ( lp - > options & OPTION_DYN_IPG_ENABLE )
del_timer_sync ( & lp - > ipg_data . ipg_timer ) ;
amd8111e_stop_chip ( lp ) ;
spin_unlock_irq ( & lp - > lock ) ;
if ( lp - > options & OPTION_WOL_ENABLE ) {
/* enable wol */
if ( lp - > options & OPTION_WAKE_MAGIC_ENABLE )
amd8111e_enable_magicpkt ( lp ) ;
if ( lp - > options & OPTION_WAKE_PHY_ENABLE )
amd8111e_enable_link_change ( lp ) ;
pci_enable_wake ( pci_dev , PCI_D3hot , 1 ) ;
pci_enable_wake ( pci_dev , PCI_D3cold , 1 ) ;
}
else {
pci_enable_wake ( pci_dev , PCI_D3hot , 0 ) ;
pci_enable_wake ( pci_dev , PCI_D3cold , 0 ) ;
}
pci_save_state ( pci_dev ) ;
pci_set_power_state ( pci_dev , PCI_D3hot ) ;
return 0 ;
}
static int amd8111e_resume ( struct pci_dev * pci_dev )
{
struct net_device * dev = pci_get_drvdata ( pci_dev ) ;
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
if ( ! netif_running ( dev ) )
return 0 ;
pci_set_power_state ( pci_dev , PCI_D0 ) ;
pci_restore_state ( pci_dev ) ;
pci_enable_wake ( pci_dev , PCI_D3hot , 0 ) ;
pci_enable_wake ( pci_dev , PCI_D3cold , 0 ) ; /* D3 cold */
netif_device_attach ( dev ) ;
spin_lock_irq ( & lp - > lock ) ;
amd8111e_restart ( dev ) ;
/* Restart ipg timer */
if ( lp - > options & OPTION_DYN_IPG_ENABLE )
mod_timer ( & lp - > ipg_data . ipg_timer ,
jiffies + IPG_CONVERGE_JIFFIES ) ;
spin_unlock_irq ( & lp - > lock ) ;
return 0 ;
}
static void __devexit amd8111e_remove_one ( struct pci_dev * pdev )
{
struct net_device * dev = pci_get_drvdata ( pdev ) ;
if ( dev ) {
unregister_netdev ( dev ) ;
iounmap ( ( ( struct amd8111e_priv * ) netdev_priv ( dev ) ) - > mmio ) ;
free_netdev ( dev ) ;
pci_release_regions ( pdev ) ;
pci_disable_device ( pdev ) ;
pci_set_drvdata ( pdev , NULL ) ;
}
}
static void amd8111e_config_ipg ( struct net_device * dev )
{
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
struct ipg_info * ipg_data = & lp - > ipg_data ;
void __iomem * mmio = lp - > mmio ;
unsigned int prev_col_cnt = ipg_data - > col_cnt ;
unsigned int total_col_cnt ;
unsigned int tmp_ipg ;
if ( lp - > link_config . duplex = = DUPLEX_FULL ) {
ipg_data - > ipg = DEFAULT_IPG ;
return ;
}
if ( ipg_data - > ipg_state = = SSTATE ) {
if ( ipg_data - > timer_tick = = IPG_STABLE_TIME ) {
ipg_data - > timer_tick = 0 ;
ipg_data - > ipg = MIN_IPG - IPG_STEP ;
ipg_data - > current_ipg = MIN_IPG ;
ipg_data - > diff_col_cnt = 0xFFFFFFFF ;
ipg_data - > ipg_state = CSTATE ;
}
else
ipg_data - > timer_tick + + ;
}
if ( ipg_data - > ipg_state = = CSTATE ) {
/* Get the current collision count */
total_col_cnt = ipg_data - > col_cnt =
amd8111e_read_mib ( mmio , xmt_collisions ) ;
if ( ( total_col_cnt - prev_col_cnt ) <
( ipg_data - > diff_col_cnt ) ) {
ipg_data - > diff_col_cnt =
total_col_cnt - prev_col_cnt ;
ipg_data - > ipg = ipg_data - > current_ipg ;
}
ipg_data - > current_ipg + = IPG_STEP ;
if ( ipg_data - > current_ipg < = MAX_IPG )
tmp_ipg = ipg_data - > current_ipg ;
else {
tmp_ipg = ipg_data - > ipg ;
ipg_data - > ipg_state = SSTATE ;
}
writew ( ( u32 ) tmp_ipg , mmio + IPG ) ;
writew ( ( u32 ) ( tmp_ipg - IFS1_DELTA ) , mmio + IFS1 ) ;
}
mod_timer ( & lp - > ipg_data . ipg_timer , jiffies + IPG_CONVERGE_JIFFIES ) ;
return ;
}
static void __devinit amd8111e_probe_ext_phy ( struct net_device * dev )
{
struct amd8111e_priv * lp = netdev_priv ( dev ) ;
int i ;
for ( i = 0x1e ; i > = 0 ; i - - ) {
u32 id1 , id2 ;
if ( amd8111e_read_phy ( lp , i , MII_PHYSID1 , & id1 ) )
continue ;
if ( amd8111e_read_phy ( lp , i , MII_PHYSID2 , & id2 ) )
continue ;
lp - > ext_phy_id = ( id1 < < 16 ) | id2 ;
lp - > ext_phy_addr = i ;
return ;
}
lp - > ext_phy_id = 0 ;
lp - > ext_phy_addr = 1 ;
}
static int __devinit amd8111e_probe_one ( struct pci_dev * pdev ,
const struct pci_device_id * ent )
{
int err , i , pm_cap ;
unsigned long reg_addr , reg_len ;
struct amd8111e_priv * lp ;
struct net_device * dev ;
err = pci_enable_device ( pdev ) ;
if ( err ) {
printk ( KERN_ERR " amd8111e: Cannot enable new PCI device, "
" exiting. \n " ) ;
return err ;
}
if ( ! ( pci_resource_flags ( pdev , 0 ) & IORESOURCE_MEM ) ) {
printk ( KERN_ERR " amd8111e: Cannot find PCI base address "
" exiting. \n " ) ;
err = - ENODEV ;
goto err_disable_pdev ;
}
err = pci_request_regions ( pdev , MODULE_NAME ) ;
if ( err ) {
printk ( KERN_ERR " amd8111e: Cannot obtain PCI resources, "
" exiting. \n " ) ;
goto err_disable_pdev ;
}
pci_set_master ( pdev ) ;
/* Find power-management capability. */
if ( ( pm_cap = pci_find_capability ( pdev , PCI_CAP_ID_PM ) ) = = 0 ) {
printk ( KERN_ERR " amd8111e: No Power Management capability, "
" exiting. \n " ) ;
goto err_free_reg ;
}
/* Initialize DMA */
2005-05-16 10:15:11 -07:00
if ( pci_set_dma_mask ( pdev , DMA_32BIT_MASK ) < 0 ) {
2005-04-16 15:20:36 -07:00
printk ( KERN_ERR " amd8111e: DMA not supported, "
" exiting. \n " ) ;
2005-05-16 10:15:11 -07:00
goto err_free_reg ;
}
2005-04-16 15:20:36 -07:00
reg_addr = pci_resource_start ( pdev , 0 ) ;
reg_len = pci_resource_len ( pdev , 0 ) ;
dev = alloc_etherdev ( sizeof ( struct amd8111e_priv ) ) ;
if ( ! dev ) {
printk ( KERN_ERR " amd8111e: Etherdev alloc failed, exiting. \n " ) ;
err = - ENOMEM ;
goto err_free_reg ;
}
SET_MODULE_OWNER ( dev ) ;
SET_NETDEV_DEV ( dev , & pdev - > dev ) ;
# if AMD8111E_VLAN_TAG_USED
dev - > features | = NETIF_F_HW_VLAN_TX | NETIF_F_HW_VLAN_RX ;
dev - > vlan_rx_register = amd8111e_vlan_rx_register ;
dev - > vlan_rx_kill_vid = amd8111e_vlan_rx_kill_vid ;
# endif
lp = netdev_priv ( dev ) ;
lp - > pci_dev = pdev ;
lp - > amd8111e_net_dev = dev ;
lp - > pm_cap = pm_cap ;
spin_lock_init ( & lp - > lock ) ;
lp - > mmio = ioremap ( reg_addr , reg_len ) ;
if ( lp - > mmio = = 0 ) {
printk ( KERN_ERR " amd8111e: Cannot map device registers, "
" exiting \n " ) ;
err = - ENOMEM ;
goto err_free_dev ;
}
/* Initializing MAC address */
for ( i = 0 ; i < ETH_ADDR_LEN ; i + + )
dev - > dev_addr [ i ] = readb ( lp - > mmio + PADR + i ) ;
/* Setting user defined parametrs */
lp - > ext_phy_option = speed_duplex [ card_idx ] ;
if ( coalesce [ card_idx ] )
lp - > options | = OPTION_INTR_COAL_ENABLE ;
if ( dynamic_ipg [ card_idx + + ] )
lp - > options | = OPTION_DYN_IPG_ENABLE ;
/* Initialize driver entry points */
dev - > open = amd8111e_open ;
dev - > hard_start_xmit = amd8111e_start_xmit ;
dev - > stop = amd8111e_close ;
dev - > get_stats = amd8111e_get_stats ;
dev - > set_multicast_list = amd8111e_set_multicast_list ;
dev - > set_mac_address = amd8111e_set_mac_address ;
dev - > do_ioctl = amd8111e_ioctl ;
dev - > change_mtu = amd8111e_change_mtu ;
SET_ETHTOOL_OPS ( dev , & ops ) ;
dev - > irq = pdev - > irq ;
dev - > tx_timeout = amd8111e_tx_timeout ;
dev - > watchdog_timeo = AMD8111E_TX_TIMEOUT ;
# ifdef CONFIG_AMD8111E_NAPI
dev - > poll = amd8111e_rx_poll ;
dev - > weight = 32 ;
# endif
# ifdef CONFIG_NET_POLL_CONTROLLER
dev - > poll_controller = amd8111e_poll ;
# endif
# if AMD8111E_VLAN_TAG_USED
dev - > features | = NETIF_F_HW_VLAN_TX | NETIF_F_HW_VLAN_RX ;
dev - > vlan_rx_register = amd8111e_vlan_rx_register ;
dev - > vlan_rx_kill_vid = amd8111e_vlan_rx_kill_vid ;
# endif
/* Probe the external PHY */
amd8111e_probe_ext_phy ( dev ) ;
/* setting mii default values */
lp - > mii_if . dev = dev ;
lp - > mii_if . mdio_read = amd8111e_mdio_read ;
lp - > mii_if . mdio_write = amd8111e_mdio_write ;
lp - > mii_if . phy_id = lp - > ext_phy_addr ;
/* Set receive buffer length and set jumbo option*/
amd8111e_set_rx_buff_len ( dev ) ;
err = register_netdev ( dev ) ;
if ( err ) {
printk ( KERN_ERR " amd8111e: Cannot register net device, "
" exiting. \n " ) ;
goto err_iounmap ;
}
pci_set_drvdata ( pdev , dev ) ;
/* Initialize software ipg timer */
if ( lp - > options & OPTION_DYN_IPG_ENABLE ) {
init_timer ( & lp - > ipg_data . ipg_timer ) ;
lp - > ipg_data . ipg_timer . data = ( unsigned long ) dev ;
lp - > ipg_data . ipg_timer . function = ( void * ) & amd8111e_config_ipg ;
lp - > ipg_data . ipg_timer . expires = jiffies +
IPG_CONVERGE_JIFFIES ;
lp - > ipg_data . ipg = DEFAULT_IPG ;
lp - > ipg_data . ipg_state = CSTATE ;
} ;
/* display driver and device information */
chip_version = ( readl ( lp - > mmio + CHIPID ) & 0xf0000000 ) > > 28 ;
printk ( KERN_INFO " %s: AMD-8111e Driver Version: %s \n " , dev - > name , MODULE_VERS ) ;
printk ( KERN_INFO " %s: [ Rev %x ] PCI 10/100BaseT Ethernet " , dev - > name , chip_version ) ;
for ( i = 0 ; i < 6 ; i + + )
printk ( " %2.2x%c " , dev - > dev_addr [ i ] , i = = 5 ? ' ' : ' : ' ) ;
printk ( " \n " ) ;
if ( lp - > ext_phy_id )
printk ( KERN_INFO " %s: Found MII PHY ID 0x%08x at address 0x%02x \n " ,
dev - > name , lp - > ext_phy_id , lp - > ext_phy_addr ) ;
else
printk ( KERN_INFO " %s: Couldn't detect MII PHY, assuming address 0x01 \n " ,
dev - > name ) ;
return 0 ;
err_iounmap :
iounmap ( lp - > mmio ) ;
err_free_dev :
free_netdev ( dev ) ;
err_free_reg :
pci_release_regions ( pdev ) ;
err_disable_pdev :
pci_disable_device ( pdev ) ;
pci_set_drvdata ( pdev , NULL ) ;
return err ;
}
static struct pci_driver amd8111e_driver = {
. name = MODULE_NAME ,
. id_table = amd8111e_pci_tbl ,
. probe = amd8111e_probe_one ,
. remove = __devexit_p ( amd8111e_remove_one ) ,
. suspend = amd8111e_suspend ,
. resume = amd8111e_resume
} ;
static int __init amd8111e_init ( void )
{
return pci_module_init ( & amd8111e_driver ) ;
}
static void __exit amd8111e_cleanup ( void )
{
pci_unregister_driver ( & amd8111e_driver ) ;
}
module_init ( amd8111e_init ) ;
module_exit ( amd8111e_cleanup ) ;