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/*
* ipg . c : Device Driver for the IP1000 Gigabit Ethernet Adapter
*
* Copyright ( C ) 2003 , 2007 IC Plus Corp
*
* Original Author :
*
* Craig Rich
* Sundance Technology , Inc .
* www . sundanceti . com
* craig_rich @ sundanceti . com
*
* Current Maintainer :
*
* Sorbica Shieh .
* http : //www.icplus.com.tw
* sorbica @ icplus . com . tw
*
* Jesse Huang
* http : //www.icplus.com.tw
* jesse @ icplus . com . tw
*/
# include <linux/crc32.h>
# include <linux/ethtool.h>
# include <linux/mii.h>
# include <linux/mutex.h>
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# include <asm/div64.h>
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# define IPG_RX_RING_BYTES (sizeof(struct ipg_rx) * IPG_RFDLIST_LENGTH)
# define IPG_TX_RING_BYTES (sizeof(struct ipg_tx) * IPG_TFDLIST_LENGTH)
# define IPG_RESET_MASK \
( IPG_AC_GLOBAL_RESET | IPG_AC_RX_RESET | IPG_AC_TX_RESET | \
IPG_AC_DMA | IPG_AC_FIFO | IPG_AC_NETWORK | IPG_AC_HOST | \
IPG_AC_AUTO_INIT )
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# define ipg_w32(val32, reg) iowrite32((val32), ioaddr + (reg))
# define ipg_w16(val16, reg) iowrite16((val16), ioaddr + (reg))
# define ipg_w8(val8, reg) iowrite8((val8), ioaddr + (reg))
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# define ipg_r32(reg) ioread32(ioaddr + (reg))
# define ipg_r16(reg) ioread16(ioaddr + (reg))
# define ipg_r8(reg) ioread8(ioaddr + (reg))
enum {
netdev_io_size = 128
} ;
# include "ipg.h"
# define DRV_NAME "ipg"
MODULE_AUTHOR ( " IC Plus Corp. 2003 " ) ;
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MODULE_DESCRIPTION ( " IC Plus IP1000 Gigabit Ethernet Adapter Linux Driver " ) ;
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MODULE_LICENSE ( " GPL " ) ;
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/*
* Defaults
*/
# define IPG_MAX_RXFRAME_SIZE 0x0600
# define IPG_RXFRAG_SIZE 0x0600
# define IPG_RXSUPPORT_SIZE 0x0600
# define IPG_IS_JUMBO false
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/*
* Variable record - - index by leading revision / length
* Revision / Length ( = N * 4 ) , Address1 , Data1 , Address2 , Data2 , . . . , AddressN , DataN
*/
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static unsigned short DefaultPhyParam [ ] = {
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/* 11/12/03 IP1000A v1-3 rev=0x40 */
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/*--------------------------------------------------------------------------
( 0x4000 | ( 15 * 4 ) ) , 31 , 0x0001 , 27 , 0x01e0 , 31 , 0x0002 , 22 , 0x85bd , 24 , 0xfff2 ,
27 , 0x0c10 , 28 , 0x0c10 , 29 , 0x2c10 , 31 , 0x0003 , 23 , 0x92f6 ,
31 , 0x0000 , 23 , 0x003d , 30 , 0x00de , 20 , 0x20e7 , 9 , 0x0700 ,
- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - */
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/* 12/17/03 IP1000A v1-4 rev=0x40 */
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( 0x4000 | ( 07 * 4 ) ) , 31 , 0x0001 , 27 , 0x01e0 , 31 , 0x0002 , 27 , 0xeb8e , 31 ,
0x0000 ,
30 , 0x005e , 9 , 0x0700 ,
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/* 01/09/04 IP1000A v1-5 rev=0x41 */
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( 0x4100 | ( 07 * 4 ) ) , 31 , 0x0001 , 27 , 0x01e0 , 31 , 0x0002 , 27 , 0xeb8e , 31 ,
0x0000 ,
30 , 0x005e , 9 , 0x0700 ,
0x0000
} ;
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static const char * ipg_brand_name [ ] = {
" IC PLUS IP1000 1000/100/10 based NIC " ,
" Sundance Technology ST2021 based NIC " ,
" Tamarack Microelectronics TC9020/9021 based NIC " ,
" Tamarack Microelectronics TC9020/9021 based NIC " ,
" D-Link NIC " ,
" D-Link NIC IP1000A "
} ;
static struct pci_device_id ipg_pci_tbl [ ] __devinitdata = {
{ PCI_VDEVICE ( SUNDANCE , 0x1023 ) , 0 } ,
{ PCI_VDEVICE ( SUNDANCE , 0x2021 ) , 1 } ,
{ PCI_VDEVICE ( SUNDANCE , 0x1021 ) , 2 } ,
{ PCI_VDEVICE ( DLINK , 0x9021 ) , 3 } ,
{ PCI_VDEVICE ( DLINK , 0x4000 ) , 4 } ,
{ PCI_VDEVICE ( DLINK , 0x4020 ) , 5 } ,
{ 0 , }
} ;
MODULE_DEVICE_TABLE ( pci , ipg_pci_tbl ) ;
static inline void __iomem * ipg_ioaddr ( struct net_device * dev )
{
struct ipg_nic_private * sp = netdev_priv ( dev ) ;
return sp - > ioaddr ;
}
# ifdef IPG_DEBUG
static void ipg_dump_rfdlist ( struct net_device * dev )
{
struct ipg_nic_private * sp = netdev_priv ( dev ) ;
void __iomem * ioaddr = sp - > ioaddr ;
unsigned int i ;
u32 offset ;
IPG_DEBUG_MSG ( " _dump_rfdlist \n " ) ;
printk ( KERN_INFO " rx_current = %2.2x \n " , sp - > rx_current ) ;
printk ( KERN_INFO " rx_dirty = %2.2x \n " , sp - > rx_dirty ) ;
printk ( KERN_INFO " RFDList start address = %16.16lx \n " ,
( unsigned long ) sp - > rxd_map ) ;
printk ( KERN_INFO " RFDListPtr register = %8.8x%8.8x \n " ,
ipg_r32 ( IPG_RFDLISTPTR1 ) , ipg_r32 ( IPG_RFDLISTPTR0 ) ) ;
for ( i = 0 ; i < IPG_RFDLIST_LENGTH ; i + + ) {
offset = ( u32 ) & sp - > rxd [ i ] . next_desc - ( u32 ) sp - > rxd ;
printk ( KERN_INFO " %2.2x %4.4x RFDNextPtr = %16.16lx \n " , i ,
offset , ( unsigned long ) sp - > rxd [ i ] . next_desc ) ;
offset = ( u32 ) & sp - > rxd [ i ] . rfs - ( u32 ) sp - > rxd ;
printk ( KERN_INFO " %2.2x %4.4x RFS = %16.16lx \n " , i ,
offset , ( unsigned long ) sp - > rxd [ i ] . rfs ) ;
offset = ( u32 ) & sp - > rxd [ i ] . frag_info - ( u32 ) sp - > rxd ;
printk ( KERN_INFO " %2.2x %4.4x frag_info = %16.16lx \n " , i ,
offset , ( unsigned long ) sp - > rxd [ i ] . frag_info ) ;
}
}
static void ipg_dump_tfdlist ( struct net_device * dev )
{
struct ipg_nic_private * sp = netdev_priv ( dev ) ;
void __iomem * ioaddr = sp - > ioaddr ;
unsigned int i ;
u32 offset ;
IPG_DEBUG_MSG ( " _dump_tfdlist \n " ) ;
printk ( KERN_INFO " tx_current = %2.2x \n " , sp - > tx_current ) ;
printk ( KERN_INFO " tx_dirty = %2.2x \n " , sp - > tx_dirty ) ;
printk ( KERN_INFO " TFDList start address = %16.16lx \n " ,
( unsigned long ) sp - > txd_map ) ;
printk ( KERN_INFO " TFDListPtr register = %8.8x%8.8x \n " ,
ipg_r32 ( IPG_TFDLISTPTR1 ) , ipg_r32 ( IPG_TFDLISTPTR0 ) ) ;
for ( i = 0 ; i < IPG_TFDLIST_LENGTH ; i + + ) {
offset = ( u32 ) & sp - > txd [ i ] . next_desc - ( u32 ) sp - > txd ;
printk ( KERN_INFO " %2.2x %4.4x TFDNextPtr = %16.16lx \n " , i ,
offset , ( unsigned long ) sp - > txd [ i ] . next_desc ) ;
offset = ( u32 ) & sp - > txd [ i ] . tfc - ( u32 ) sp - > txd ;
printk ( KERN_INFO " %2.2x %4.4x TFC = %16.16lx \n " , i ,
offset , ( unsigned long ) sp - > txd [ i ] . tfc ) ;
offset = ( u32 ) & sp - > txd [ i ] . frag_info - ( u32 ) sp - > txd ;
printk ( KERN_INFO " %2.2x %4.4x frag_info = %16.16lx \n " , i ,
offset , ( unsigned long ) sp - > txd [ i ] . frag_info ) ;
}
}
# endif
static void ipg_write_phy_ctl ( void __iomem * ioaddr , u8 data )
{
ipg_w8 ( IPG_PC_RSVD_MASK & data , PHY_CTRL ) ;
ndelay ( IPG_PC_PHYCTRLWAIT_NS ) ;
}
static void ipg_drive_phy_ctl_low_high ( void __iomem * ioaddr , u8 data )
{
ipg_write_phy_ctl ( ioaddr , IPG_PC_MGMTCLK_LO | data ) ;
ipg_write_phy_ctl ( ioaddr , IPG_PC_MGMTCLK_HI | data ) ;
}
static void send_three_state ( void __iomem * ioaddr , u8 phyctrlpolarity )
{
phyctrlpolarity | = ( IPG_PC_MGMTDATA & 0 ) | IPG_PC_MGMTDIR ;
ipg_drive_phy_ctl_low_high ( ioaddr , phyctrlpolarity ) ;
}
static void send_end ( void __iomem * ioaddr , u8 phyctrlpolarity )
{
ipg_w8 ( ( IPG_PC_MGMTCLK_LO | ( IPG_PC_MGMTDATA & 0 ) | IPG_PC_MGMTDIR |
phyctrlpolarity ) & IPG_PC_RSVD_MASK , PHY_CTRL ) ;
}
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static u16 read_phy_bit ( void __iomem * ioaddr , u8 phyctrlpolarity )
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{
u16 bit_data ;
ipg_write_phy_ctl ( ioaddr , IPG_PC_MGMTCLK_LO | phyctrlpolarity ) ;
bit_data = ( ( ipg_r8 ( PHY_CTRL ) & IPG_PC_MGMTDATA ) > > 1 ) & 1 ;
ipg_write_phy_ctl ( ioaddr , IPG_PC_MGMTCLK_HI | phyctrlpolarity ) ;
return bit_data ;
}
/*
* Read a register from the Physical Layer device located
* on the IPG NIC , using the IPG PHYCTRL register .
*/
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static int mdio_read ( struct net_device * dev , int phy_id , int phy_reg )
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{
void __iomem * ioaddr = ipg_ioaddr ( dev ) ;
/*
* The GMII mangement frame structure for a read is as follows :
*
* | Preamble | st | op | phyad | regad | ta | data | idle |
* | < 32 1 s > | 01 | 10 | AAAAA | RRRRR | z0 | DDDDDDDDDDDDDDDD | z |
*
* < 32 1 s > = 32 consecutive logic 1 values
* A = bit of Physical Layer device address ( MSB first )
* R = bit of register address ( MSB first )
* z = High impedance state
* D = bit of read data ( MSB first )
*
* Transmission order is ' Preamble ' field first , bits transmitted
* left to right ( first to last ) .
*/
struct {
u32 field ;
unsigned int len ;
} p [ ] = {
{ GMII_PREAMBLE , 32 } , /* Preamble */
{ GMII_ST , 2 } , /* ST */
{ GMII_READ , 2 } , /* OP */
{ phy_id , 5 } , /* PHYAD */
{ phy_reg , 5 } , /* REGAD */
{ 0x0000 , 2 } , /* TA */
{ 0x0000 , 16 } , /* DATA */
{ 0x0000 , 1 } /* IDLE */
} ;
unsigned int i , j ;
u8 polarity , data ;
polarity = ipg_r8 ( PHY_CTRL ) ;
polarity & = ( IPG_PC_DUPLEX_POLARITY | IPG_PC_LINK_POLARITY ) ;
/* Create the Preamble, ST, OP, PHYAD, and REGAD field. */
for ( j = 0 ; j < 5 ; j + + ) {
for ( i = 0 ; i < p [ j ] . len ; i + + ) {
/* For each variable length field, the MSB must be
* transmitted first . Rotate through the field bits ,
* starting with the MSB , and move each bit into the
* the 1 st ( 2 ^ 1 ) bit position ( this is the bit position
* corresponding to the MgmtData bit of the PhyCtrl
* register for the IPG ) .
*
* Example : ST = 01 ;
*
* First write a ' 0 ' to bit 1 of the PhyCtrl
* register , then write a ' 1 ' to bit 1 of the
* PhyCtrl register .
*
* To do this , right shift the MSB of ST by the value :
* [ field length - 1 - # ST bits already written ]
* then left shift this result by 1.
*/
data = ( p [ j ] . field > > ( p [ j ] . len - 1 - i ) ) < < 1 ;
data & = IPG_PC_MGMTDATA ;
data | = polarity | IPG_PC_MGMTDIR ;
ipg_drive_phy_ctl_low_high ( ioaddr , data ) ;
}
}
send_three_state ( ioaddr , polarity ) ;
read_phy_bit ( ioaddr , polarity ) ;
/*
* For a read cycle , the bits for the next two fields ( TA and
* DATA ) are driven by the PHY ( the IPG reads these bits ) .
*/
for ( i = 0 ; i < p [ 6 ] . len ; i + + ) {
p [ 6 ] . field | =
( read_phy_bit ( ioaddr , polarity ) < < ( p [ 6 ] . len - 1 - i ) ) ;
}
send_three_state ( ioaddr , polarity ) ;
send_three_state ( ioaddr , polarity ) ;
send_three_state ( ioaddr , polarity ) ;
send_end ( ioaddr , polarity ) ;
/* Return the value of the DATA field. */
return p [ 6 ] . field ;
}
/*
* Write to a register from the Physical Layer device located
* on the IPG NIC , using the IPG PHYCTRL register .
*/
static void mdio_write ( struct net_device * dev , int phy_id , int phy_reg , int val )
{
void __iomem * ioaddr = ipg_ioaddr ( dev ) ;
/*
* The GMII mangement frame structure for a read is as follows :
*
* | Preamble | st | op | phyad | regad | ta | data | idle |
* | < 32 1 s > | 01 | 10 | AAAAA | RRRRR | z0 | DDDDDDDDDDDDDDDD | z |
*
* < 32 1 s > = 32 consecutive logic 1 values
* A = bit of Physical Layer device address ( MSB first )
* R = bit of register address ( MSB first )
* z = High impedance state
* D = bit of write data ( MSB first )
*
* Transmission order is ' Preamble ' field first , bits transmitted
* left to right ( first to last ) .
*/
struct {
u32 field ;
unsigned int len ;
} p [ ] = {
{ GMII_PREAMBLE , 32 } , /* Preamble */
{ GMII_ST , 2 } , /* ST */
{ GMII_WRITE , 2 } , /* OP */
{ phy_id , 5 } , /* PHYAD */
{ phy_reg , 5 } , /* REGAD */
{ 0x0002 , 2 } , /* TA */
{ val & 0xffff , 16 } , /* DATA */
{ 0x0000 , 1 } /* IDLE */
} ;
unsigned int i , j ;
u8 polarity , data ;
polarity = ipg_r8 ( PHY_CTRL ) ;
polarity & = ( IPG_PC_DUPLEX_POLARITY | IPG_PC_LINK_POLARITY ) ;
/* Create the Preamble, ST, OP, PHYAD, and REGAD field. */
for ( j = 0 ; j < 7 ; j + + ) {
for ( i = 0 ; i < p [ j ] . len ; i + + ) {
/* For each variable length field, the MSB must be
* transmitted first . Rotate through the field bits ,
* starting with the MSB , and move each bit into the
* the 1 st ( 2 ^ 1 ) bit position ( this is the bit position
* corresponding to the MgmtData bit of the PhyCtrl
* register for the IPG ) .
*
* Example : ST = 01 ;
*
* First write a ' 0 ' to bit 1 of the PhyCtrl
* register , then write a ' 1 ' to bit 1 of the
* PhyCtrl register .
*
* To do this , right shift the MSB of ST by the value :
* [ field length - 1 - # ST bits already written ]
* then left shift this result by 1.
*/
data = ( p [ j ] . field > > ( p [ j ] . len - 1 - i ) ) < < 1 ;
data & = IPG_PC_MGMTDATA ;
data | = polarity | IPG_PC_MGMTDIR ;
ipg_drive_phy_ctl_low_high ( ioaddr , data ) ;
}
}
/* The last cycle is a tri-state, so read from the PHY. */
for ( j = 7 ; j < 8 ; j + + ) {
for ( i = 0 ; i < p [ j ] . len ; i + + ) {
ipg_write_phy_ctl ( ioaddr , IPG_PC_MGMTCLK_LO | polarity ) ;
p [ j ] . field | = ( ( ipg_r8 ( PHY_CTRL ) &
IPG_PC_MGMTDATA ) > > 1 ) < < ( p [ j ] . len - 1 - i ) ;
ipg_write_phy_ctl ( ioaddr , IPG_PC_MGMTCLK_HI | polarity ) ;
}
}
}
static void ipg_set_led_mode ( struct net_device * dev )
{
struct ipg_nic_private * sp = netdev_priv ( dev ) ;
void __iomem * ioaddr = sp - > ioaddr ;
u32 mode ;
mode = ipg_r32 ( ASIC_CTRL ) ;
mode & = ~ ( IPG_AC_LED_MODE_BIT_1 | IPG_AC_LED_MODE | IPG_AC_LED_SPEED ) ;
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if ( ( sp - > led_mode & 0x03 ) > 1 )
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mode | = IPG_AC_LED_MODE_BIT_1 ; /* Write Asic Control Bit 29 */
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if ( ( sp - > led_mode & 0x01 ) = = 1 )
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mode | = IPG_AC_LED_MODE ; /* Write Asic Control Bit 14 */
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if ( ( sp - > led_mode & 0x08 ) = = 8 )
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mode | = IPG_AC_LED_SPEED ; /* Write Asic Control Bit 27 */
ipg_w32 ( mode , ASIC_CTRL ) ;
}
static void ipg_set_phy_set ( struct net_device * dev )
{
struct ipg_nic_private * sp = netdev_priv ( dev ) ;
void __iomem * ioaddr = sp - > ioaddr ;
int physet ;
physet = ipg_r8 ( PHY_SET ) ;
physet & = ~ ( IPG_PS_MEM_LENB9B | IPG_PS_MEM_LEN9 | IPG_PS_NON_COMPDET ) ;
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physet | = ( ( sp - > led_mode & 0x70 ) > > 4 ) ;
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ipg_w8 ( physet , PHY_SET ) ;
}
static int ipg_reset ( struct net_device * dev , u32 resetflags )
{
/* Assert functional resets via the IPG AsicCtrl
* register as specified by the ' resetflags ' input
* parameter .
*/
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void __iomem * ioaddr = ipg_ioaddr ( dev ) ;
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unsigned int timeout_count = 0 ;
IPG_DEBUG_MSG ( " _reset \n " ) ;
ipg_w32 ( ipg_r32 ( ASIC_CTRL ) | resetflags , ASIC_CTRL ) ;
/* Delay added to account for problem with 10Mbps reset. */
mdelay ( IPG_AC_RESETWAIT ) ;
while ( IPG_AC_RESET_BUSY & ipg_r32 ( ASIC_CTRL ) ) {
mdelay ( IPG_AC_RESETWAIT ) ;
if ( + + timeout_count > IPG_AC_RESET_TIMEOUT )
return - ETIME ;
}
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/* Set LED Mode in Asic Control */
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ipg_set_led_mode ( dev ) ;
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/* Set PHYSet Register Value */
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ipg_set_phy_set ( dev ) ;
return 0 ;
}
/* Find the GMII PHY address. */
static int ipg_find_phyaddr ( struct net_device * dev )
{
unsigned int phyaddr , i ;
for ( i = 0 ; i < 32 ; i + + ) {
u32 status ;
/* Search for the correct PHY address among 32 possible. */
phyaddr = ( IPG_NIC_PHY_ADDRESS + i ) % 32 ;
/* 10/22/03 Grace change verify from GMII_PHY_STATUS to
GMII_PHY_ID1
*/
status = mdio_read ( dev , phyaddr , MII_BMSR ) ;
if ( ( status ! = 0xFFFF ) & & ( status ! = 0 ) )
return phyaddr ;
}
return 0x1f ;
}
/*
* Configure IPG based on result of IEEE 802.3 PHY
* auto - negotiation .
*/
static int ipg_config_autoneg ( struct net_device * dev )
{
struct ipg_nic_private * sp = netdev_priv ( dev ) ;
void __iomem * ioaddr = sp - > ioaddr ;
unsigned int txflowcontrol ;
unsigned int rxflowcontrol ;
unsigned int fullduplex ;
u32 mac_ctrl_val ;
u32 asicctrl ;
u8 phyctrl ;
IPG_DEBUG_MSG ( " _config_autoneg \n " ) ;
asicctrl = ipg_r32 ( ASIC_CTRL ) ;
phyctrl = ipg_r8 ( PHY_CTRL ) ;
mac_ctrl_val = ipg_r32 ( MAC_CTRL ) ;
/* Set flags for use in resolving auto-negotation, assuming
* non - 1000 Mbps , half duplex , no flow control .
*/
fullduplex = 0 ;
txflowcontrol = 0 ;
rxflowcontrol = 0 ;
/* To accomodate a problem in 10Mbps operation,
* set a global flag if PHY running in 10 Mbps mode .
*/
sp - > tenmbpsmode = 0 ;
printk ( KERN_INFO " %s: Link speed = " , dev - > name ) ;
/* Determine actual speed of operation. */
switch ( phyctrl & IPG_PC_LINK_SPEED ) {
case IPG_PC_LINK_SPEED_10MBPS :
printk ( " 10Mbps. \n " ) ;
printk ( KERN_INFO " %s: 10Mbps operational mode enabled. \n " ,
dev - > name ) ;
sp - > tenmbpsmode = 1 ;
break ;
case IPG_PC_LINK_SPEED_100MBPS :
printk ( " 100Mbps. \n " ) ;
break ;
case IPG_PC_LINK_SPEED_1000MBPS :
printk ( " 1000Mbps. \n " ) ;
break ;
default :
printk ( " undefined! \n " ) ;
return 0 ;
}
if ( phyctrl & IPG_PC_DUPLEX_STATUS ) {
fullduplex = 1 ;
txflowcontrol = 1 ;
rxflowcontrol = 1 ;
}
/* Configure full duplex, and flow control. */
if ( fullduplex = = 1 ) {
/* Configure IPG for full duplex operation. */
printk ( KERN_INFO " %s: setting full duplex, " , dev - > name ) ;
mac_ctrl_val | = IPG_MC_DUPLEX_SELECT_FD ;
if ( txflowcontrol = = 1 ) {
printk ( " TX flow control " ) ;
mac_ctrl_val | = IPG_MC_TX_FLOW_CONTROL_ENABLE ;
} else {
printk ( " no TX flow control " ) ;
mac_ctrl_val & = ~ IPG_MC_TX_FLOW_CONTROL_ENABLE ;
}
if ( rxflowcontrol = = 1 ) {
printk ( " , RX flow control. " ) ;
mac_ctrl_val | = IPG_MC_RX_FLOW_CONTROL_ENABLE ;
} else {
printk ( " , no RX flow control. " ) ;
mac_ctrl_val & = ~ IPG_MC_RX_FLOW_CONTROL_ENABLE ;
}
printk ( " \n " ) ;
} else {
/* Configure IPG for half duplex operation. */
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printk ( KERN_INFO " %s: setting half duplex, "
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" no TX flow control, no RX flow control. \n " , dev - > name ) ;
mac_ctrl_val & = ~ IPG_MC_DUPLEX_SELECT_FD &
~ IPG_MC_TX_FLOW_CONTROL_ENABLE &
~ IPG_MC_RX_FLOW_CONTROL_ENABLE ;
}
ipg_w32 ( mac_ctrl_val , MAC_CTRL ) ;
return 0 ;
}
/* Determine and configure multicast operation and set
* receive mode for IPG .
*/
static void ipg_nic_set_multicast_list ( struct net_device * dev )
{
void __iomem * ioaddr = ipg_ioaddr ( dev ) ;
struct dev_mc_list * mc_list_ptr ;
unsigned int hashindex ;
u32 hashtable [ 2 ] ;
u8 receivemode ;
IPG_DEBUG_MSG ( " _nic_set_multicast_list \n " ) ;
receivemode = IPG_RM_RECEIVEUNICAST | IPG_RM_RECEIVEBROADCAST ;
if ( dev - > flags & IFF_PROMISC ) {
/* NIC to be configured in promiscuous mode. */
receivemode = IPG_RM_RECEIVEALLFRAMES ;
} else if ( ( dev - > flags & IFF_ALLMULTI ) | |
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( ( dev - > flags & IFF_MULTICAST ) & &
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( dev - > mc_count > IPG_MULTICAST_HASHTABLE_SIZE ) ) ) {
/* NIC to be configured to receive all multicast
* frames . */
receivemode | = IPG_RM_RECEIVEMULTICAST ;
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} else if ( ( dev - > flags & IFF_MULTICAST ) & & ( dev - > mc_count > 0 ) ) {
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/* NIC to be configured to receive selected
* multicast addresses . */
receivemode | = IPG_RM_RECEIVEMULTICASTHASH ;
}
/* Calculate the bits to set for the 64 bit, IPG HASHTABLE.
* The IPG applies a cyclic - redundancy - check ( the same CRC
* used to calculate the frame data FCS ) to the destination
* address all incoming multicast frames whose destination
* address has the multicast bit set . The least significant
* 6 bits of the CRC result are used as an addressing index
* into the hash table . If the value of the bit addressed by
* this index is a 1 , the frame is passed to the host system .
*/
/* Clear hashtable. */
hashtable [ 0 ] = 0x00000000 ;
hashtable [ 1 ] = 0x00000000 ;
/* Cycle through all multicast addresses to filter. */
for ( mc_list_ptr = dev - > mc_list ;
mc_list_ptr ! = NULL ; mc_list_ptr = mc_list_ptr - > next ) {
/* Calculate CRC result for each multicast address. */
hashindex = crc32_le ( 0xffffffff , mc_list_ptr - > dmi_addr ,
ETH_ALEN ) ;
/* Use only the least significant 6 bits. */
hashindex = hashindex & 0x3F ;
/* Within "hashtable", set bit number "hashindex"
* to a logic 1.
*/
set_bit ( hashindex , ( void * ) hashtable ) ;
}
/* Write the value of the hashtable, to the 4, 16 bit
* HASHTABLE IPG registers .
*/
ipg_w32 ( hashtable [ 0 ] , HASHTABLE_0 ) ;
ipg_w32 ( hashtable [ 1 ] , HASHTABLE_1 ) ;
ipg_w8 ( IPG_RM_RSVD_MASK & receivemode , RECEIVE_MODE ) ;
IPG_DEBUG_MSG ( " ReceiveMode = %x \n " , ipg_r8 ( RECEIVE_MODE ) ) ;
}
static int ipg_io_config ( struct net_device * dev )
{
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struct ipg_nic_private * sp = netdev_priv ( dev ) ;
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void __iomem * ioaddr = ipg_ioaddr ( dev ) ;
u32 origmacctrl ;
u32 restoremacctrl ;
IPG_DEBUG_MSG ( " _io_config \n " ) ;
origmacctrl = ipg_r32 ( MAC_CTRL ) ;
restoremacctrl = origmacctrl | IPG_MC_STATISTICS_ENABLE ;
/* Based on compilation option, determine if FCS is to be
* stripped on receive frames by IPG .
*/
if ( ! IPG_STRIP_FCS_ON_RX )
restoremacctrl | = IPG_MC_RCV_FCS ;
/* Determine if transmitter and/or receiver are
* enabled so we may restore MACCTRL correctly .
*/
if ( origmacctrl & IPG_MC_TX_ENABLED )
restoremacctrl | = IPG_MC_TX_ENABLE ;
if ( origmacctrl & IPG_MC_RX_ENABLED )
restoremacctrl | = IPG_MC_RX_ENABLE ;
/* Transmitter and receiver must be disabled before setting
* IFSSelect .
*/
ipg_w32 ( ( origmacctrl & ( IPG_MC_RX_DISABLE | IPG_MC_TX_DISABLE ) ) &
IPG_MC_RSVD_MASK , MAC_CTRL ) ;
/* Now that transmitter and receiver are disabled, write
* to IFSSelect .
*/
ipg_w32 ( ( origmacctrl & IPG_MC_IFS_96BIT ) & IPG_MC_RSVD_MASK , MAC_CTRL ) ;
/* Set RECEIVEMODE register. */
ipg_nic_set_multicast_list ( dev ) ;
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ipg_w16 ( sp - > max_rxframe_size , MAX_FRAME_SIZE ) ;
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ipg_w8 ( IPG_RXDMAPOLLPERIOD_VALUE , RX_DMA_POLL_PERIOD ) ;
ipg_w8 ( IPG_RXDMAURGENTTHRESH_VALUE , RX_DMA_URGENT_THRESH ) ;
ipg_w8 ( IPG_RXDMABURSTTHRESH_VALUE , RX_DMA_BURST_THRESH ) ;
ipg_w8 ( IPG_TXDMAPOLLPERIOD_VALUE , TX_DMA_POLL_PERIOD ) ;
ipg_w8 ( IPG_TXDMAURGENTTHRESH_VALUE , TX_DMA_URGENT_THRESH ) ;
ipg_w8 ( IPG_TXDMABURSTTHRESH_VALUE , TX_DMA_BURST_THRESH ) ;
ipg_w16 ( ( IPG_IE_HOST_ERROR | IPG_IE_TX_DMA_COMPLETE |
IPG_IE_TX_COMPLETE | IPG_IE_INT_REQUESTED |
IPG_IE_UPDATE_STATS | IPG_IE_LINK_EVENT |
IPG_IE_RX_DMA_COMPLETE | IPG_IE_RX_DMA_PRIORITY ) , INT_ENABLE ) ;
ipg_w16 ( IPG_FLOWONTHRESH_VALUE , FLOW_ON_THRESH ) ;
ipg_w16 ( IPG_FLOWOFFTHRESH_VALUE , FLOW_OFF_THRESH ) ;
/* IPG multi-frag frame bug workaround.
* Per silicon revision B3 eratta .
*/
ipg_w16 ( ipg_r16 ( DEBUG_CTRL ) | 0x0200 , DEBUG_CTRL ) ;
/* IPG TX poll now bug workaround.
* Per silicon revision B3 eratta .
*/
ipg_w16 ( ipg_r16 ( DEBUG_CTRL ) | 0x0010 , DEBUG_CTRL ) ;
/* IPG RX poll now bug workaround.
* Per silicon revision B3 eratta .
*/
ipg_w16 ( ipg_r16 ( DEBUG_CTRL ) | 0x0020 , DEBUG_CTRL ) ;
/* Now restore MACCTRL to original setting. */
ipg_w32 ( IPG_MC_RSVD_MASK & restoremacctrl , MAC_CTRL ) ;
/* Disable unused RMON statistics. */
ipg_w32 ( IPG_RZ_ALL , RMON_STATISTICS_MASK ) ;
/* Disable unused MIB statistics. */
ipg_w32 ( IPG_SM_MACCONTROLFRAMESXMTD | IPG_SM_MACCONTROLFRAMESRCVD |
IPG_SM_BCSTOCTETXMTOK_BCSTFRAMESXMTDOK | IPG_SM_TXJUMBOFRAMES |
IPG_SM_MCSTOCTETXMTOK_MCSTFRAMESXMTDOK | IPG_SM_RXJUMBOFRAMES |
IPG_SM_BCSTOCTETRCVDOK_BCSTFRAMESRCVDOK |
IPG_SM_UDPCHECKSUMERRORS | IPG_SM_TCPCHECKSUMERRORS |
IPG_SM_IPCHECKSUMERRORS , STATISTICS_MASK ) ;
return 0 ;
}
/*
* Create a receive buffer within system memory and update
* NIC private structure appropriately .
*/
static int ipg_get_rxbuff ( struct net_device * dev , int entry )
{
struct ipg_nic_private * sp = netdev_priv ( dev ) ;
struct ipg_rx * rxfd = sp - > rxd + entry ;
struct sk_buff * skb ;
u64 rxfragsize ;
IPG_DEBUG_MSG ( " _get_rxbuff \n " ) ;
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skb = netdev_alloc_skb ( dev , sp - > rxsupport_size + NET_IP_ALIGN ) ;
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if ( ! skb ) {
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sp - > rx_buff [ entry ] = NULL ;
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return - ENOMEM ;
}
/* Adjust the data start location within the buffer to
* align IP address field to a 16 byte boundary .
*/
skb_reserve ( skb , NET_IP_ALIGN ) ;
/* Associate the receive buffer with the IPG NIC. */
skb - > dev = dev ;
/* Save the address of the sk_buff structure. */
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sp - > rx_buff [ entry ] = skb ;
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rxfd - > frag_info = cpu_to_le64 ( pci_map_single ( sp - > pdev , skb - > data ,
sp - > rx_buf_sz , PCI_DMA_FROMDEVICE ) ) ;
/* Set the RFD fragment length. */
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rxfragsize = sp - > rxfrag_size ;
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rxfd - > frag_info | = cpu_to_le64 ( ( rxfragsize < < 48 ) & IPG_RFI_FRAGLEN ) ;
return 0 ;
}
static int init_rfdlist ( struct net_device * dev )
{
struct ipg_nic_private * sp = netdev_priv ( dev ) ;
void __iomem * ioaddr = sp - > ioaddr ;
unsigned int i ;
IPG_DEBUG_MSG ( " _init_rfdlist \n " ) ;
for ( i = 0 ; i < IPG_RFDLIST_LENGTH ; i + + ) {
struct ipg_rx * rxfd = sp - > rxd + i ;
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if ( sp - > rx_buff [ i ] ) {
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pci_unmap_single ( sp - > pdev ,
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le64_to_cpu ( rxfd - > frag_info ) & ~ IPG_RFI_FRAGLEN ,
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sp - > rx_buf_sz , PCI_DMA_FROMDEVICE ) ;
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dev_kfree_skb_irq ( sp - > rx_buff [ i ] ) ;
sp - > rx_buff [ i ] = NULL ;
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}
/* Clear out the RFS field. */
rxfd - > rfs = 0x0000000000000000 ;
if ( ipg_get_rxbuff ( dev , i ) < 0 ) {
/*
* A receive buffer was not ready , break the
* RFD list here .
*/
IPG_DEBUG_MSG ( " Cannot allocate Rx buffer. \n " ) ;
/* Just in case we cannot allocate a single RFD.
* Should not occur .
*/
if ( i = = 0 ) {
printk ( KERN_ERR " %s: No memory available "
" for RFD list. \n " , dev - > name ) ;
return - ENOMEM ;
}
}
rxfd - > next_desc = cpu_to_le64 ( sp - > rxd_map +
sizeof ( struct ipg_rx ) * ( i + 1 ) ) ;
}
sp - > rxd [ i - 1 ] . next_desc = cpu_to_le64 ( sp - > rxd_map ) ;
sp - > rx_current = 0 ;
sp - > rx_dirty = 0 ;
/* Write the location of the RFDList to the IPG. */
ipg_w32 ( ( u32 ) sp - > rxd_map , RFD_LIST_PTR_0 ) ;
ipg_w32 ( 0x00000000 , RFD_LIST_PTR_1 ) ;
return 0 ;
}
static void init_tfdlist ( struct net_device * dev )
{
struct ipg_nic_private * sp = netdev_priv ( dev ) ;
void __iomem * ioaddr = sp - > ioaddr ;
unsigned int i ;
IPG_DEBUG_MSG ( " _init_tfdlist \n " ) ;
for ( i = 0 ; i < IPG_TFDLIST_LENGTH ; i + + ) {
struct ipg_tx * txfd = sp - > txd + i ;
txfd - > tfc = cpu_to_le64 ( IPG_TFC_TFDDONE ) ;
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if ( sp - > tx_buff [ i ] ) {
dev_kfree_skb_irq ( sp - > tx_buff [ i ] ) ;
sp - > tx_buff [ i ] = NULL ;
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}
txfd - > next_desc = cpu_to_le64 ( sp - > txd_map +
sizeof ( struct ipg_tx ) * ( i + 1 ) ) ;
}
sp - > txd [ i - 1 ] . next_desc = cpu_to_le64 ( sp - > txd_map ) ;
sp - > tx_current = 0 ;
sp - > tx_dirty = 0 ;
/* Write the location of the TFDList to the IPG. */
IPG_DDEBUG_MSG ( " Starting TFDListPtr = %8.8x \n " ,
( u32 ) sp - > txd_map ) ;
ipg_w32 ( ( u32 ) sp - > txd_map , TFD_LIST_PTR_0 ) ;
ipg_w32 ( 0x00000000 , TFD_LIST_PTR_1 ) ;
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sp - > reset_current_tfd = 1 ;
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}
/*
* Free all transmit buffers which have already been transfered
* via DMA to the IPG .
*/
static void ipg_nic_txfree ( struct net_device * dev )
{
struct ipg_nic_private * sp = netdev_priv ( dev ) ;
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unsigned int released , pending , dirty ;
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IPG_DEBUG_MSG ( " _nic_txfree \n " ) ;
pending = sp - > tx_current - sp - > tx_dirty ;
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dirty = sp - > tx_dirty % IPG_TFDLIST_LENGTH ;
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for ( released = 0 ; released < pending ; released + + ) {
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struct sk_buff * skb = sp - > tx_buff [ dirty ] ;
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struct ipg_tx * txfd = sp - > txd + dirty ;
IPG_DEBUG_MSG ( " TFC = %16.16lx \n " , ( unsigned long ) txfd - > tfc ) ;
/* Look at each TFD's TFC field beginning
* at the last freed TFD up to the current TFD .
* If the TFDDone bit is set , free the associated
* buffer .
*/
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if ( ! ( txfd - > tfc & cpu_to_le64 ( IPG_TFC_TFDDONE ) ) )
break ;
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/* Free the transmit buffer. */
if ( skb ) {
pci_unmap_single ( sp - > pdev ,
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le64_to_cpu ( txfd - > frag_info ) & ~ IPG_TFI_FRAGLEN ,
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skb - > len , PCI_DMA_TODEVICE ) ;
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dev_kfree_skb_irq ( skb ) ;
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sp - > tx_buff [ dirty ] = NULL ;
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}
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dirty = ( dirty + 1 ) % IPG_TFDLIST_LENGTH ;
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}
sp - > tx_dirty + = released ;
if ( netif_queue_stopped ( dev ) & &
( sp - > tx_current ! = ( sp - > tx_dirty + IPG_TFDLIST_LENGTH ) ) ) {
netif_wake_queue ( dev ) ;
}
}
static void ipg_tx_timeout ( struct net_device * dev )
{
struct ipg_nic_private * sp = netdev_priv ( dev ) ;
void __iomem * ioaddr = sp - > ioaddr ;
ipg_reset ( dev , IPG_AC_TX_RESET | IPG_AC_DMA | IPG_AC_NETWORK |
IPG_AC_FIFO ) ;
spin_lock_irq ( & sp - > lock ) ;
/* Re-configure after DMA reset. */
if ( ipg_io_config ( dev ) < 0 ) {
printk ( KERN_INFO " %s: Error during re-configuration. \n " ,
dev - > name ) ;
}
init_tfdlist ( dev ) ;
spin_unlock_irq ( & sp - > lock ) ;
ipg_w32 ( ( ipg_r32 ( MAC_CTRL ) | IPG_MC_TX_ENABLE ) & IPG_MC_RSVD_MASK ,
MAC_CTRL ) ;
}
/*
* For TxComplete interrupts , free all transmit
* buffers which have already been transfered via DMA
* to the IPG .
*/
static void ipg_nic_txcleanup ( struct net_device * dev )
{
struct ipg_nic_private * sp = netdev_priv ( dev ) ;
void __iomem * ioaddr = sp - > ioaddr ;
unsigned int i ;
IPG_DEBUG_MSG ( " _nic_txcleanup \n " ) ;
for ( i = 0 ; i < IPG_TFDLIST_LENGTH ; i + + ) {
/* Reading the TXSTATUS register clears the
* TX_COMPLETE interrupt .
*/
u32 txstatusdword = ipg_r32 ( TX_STATUS ) ;
IPG_DEBUG_MSG ( " TxStatus = %8.8x \n " , txstatusdword ) ;
/* Check for Transmit errors. Error bits only valid if
* TX_COMPLETE bit in the TXSTATUS register is a 1.
*/
if ( ! ( txstatusdword & IPG_TS_TX_COMPLETE ) )
break ;
/* If in 10Mbps mode, indicate transmit is ready. */
if ( sp - > tenmbpsmode ) {
netif_wake_queue ( dev ) ;
}
/* Transmit error, increment stat counters. */
if ( txstatusdword & IPG_TS_TX_ERROR ) {
IPG_DEBUG_MSG ( " Transmit error. \n " ) ;
sp - > stats . tx_errors + + ;
}
/* Late collision, re-enable transmitter. */
if ( txstatusdword & IPG_TS_LATE_COLLISION ) {
IPG_DEBUG_MSG ( " Late collision on transmit. \n " ) ;
ipg_w32 ( ( ipg_r32 ( MAC_CTRL ) | IPG_MC_TX_ENABLE ) &
IPG_MC_RSVD_MASK , MAC_CTRL ) ;
}
/* Maximum collisions, re-enable transmitter. */
if ( txstatusdword & IPG_TS_TX_MAX_COLL ) {
IPG_DEBUG_MSG ( " Maximum collisions on transmit. \n " ) ;
ipg_w32 ( ( ipg_r32 ( MAC_CTRL ) | IPG_MC_TX_ENABLE ) &
IPG_MC_RSVD_MASK , MAC_CTRL ) ;
}
/* Transmit underrun, reset and re-enable
* transmitter .
*/
if ( txstatusdword & IPG_TS_TX_UNDERRUN ) {
IPG_DEBUG_MSG ( " Transmitter underrun. \n " ) ;
sp - > stats . tx_fifo_errors + + ;
ipg_reset ( dev , IPG_AC_TX_RESET | IPG_AC_DMA |
IPG_AC_NETWORK | IPG_AC_FIFO ) ;
/* Re-configure after DMA reset. */
if ( ipg_io_config ( dev ) < 0 ) {
printk ( KERN_INFO
" %s: Error during re-configuration. \n " ,
dev - > name ) ;
}
init_tfdlist ( dev ) ;
ipg_w32 ( ( ipg_r32 ( MAC_CTRL ) | IPG_MC_TX_ENABLE ) &
IPG_MC_RSVD_MASK , MAC_CTRL ) ;
}
}
ipg_nic_txfree ( dev ) ;
}
/* Provides statistical information about the IPG NIC. */
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static struct net_device_stats * ipg_nic_get_stats ( struct net_device * dev )
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{
struct ipg_nic_private * sp = netdev_priv ( dev ) ;
void __iomem * ioaddr = sp - > ioaddr ;
u16 temp1 ;
u16 temp2 ;
IPG_DEBUG_MSG ( " _nic_get_stats \n " ) ;
/* Check to see if the NIC has been initialized via nic_open,
* before trying to read statistic registers .
*/
if ( ! test_bit ( __LINK_STATE_START , & dev - > state ) )
return & sp - > stats ;
sp - > stats . rx_packets + = ipg_r32 ( IPG_FRAMESRCVDOK ) ;
sp - > stats . tx_packets + = ipg_r32 ( IPG_FRAMESXMTDOK ) ;
sp - > stats . rx_bytes + = ipg_r32 ( IPG_OCTETRCVOK ) ;
sp - > stats . tx_bytes + = ipg_r32 ( IPG_OCTETXMTOK ) ;
temp1 = ipg_r16 ( IPG_FRAMESLOSTRXERRORS ) ;
sp - > stats . rx_errors + = temp1 ;
sp - > stats . rx_missed_errors + = temp1 ;
temp1 = ipg_r32 ( IPG_SINGLECOLFRAMES ) + ipg_r32 ( IPG_MULTICOLFRAMES ) +
ipg_r32 ( IPG_LATECOLLISIONS ) ;
temp2 = ipg_r16 ( IPG_CARRIERSENSEERRORS ) ;
sp - > stats . collisions + = temp1 ;
sp - > stats . tx_dropped + = ipg_r16 ( IPG_FRAMESABORTXSCOLLS ) ;
sp - > stats . tx_errors + = ipg_r16 ( IPG_FRAMESWEXDEFERRAL ) +
ipg_r32 ( IPG_FRAMESWDEFERREDXMT ) + temp1 + temp2 ;
sp - > stats . multicast + = ipg_r32 ( IPG_MCSTOCTETRCVDOK ) ;
/* detailed tx_errors */
sp - > stats . tx_carrier_errors + = temp2 ;
/* detailed rx_errors */
sp - > stats . rx_length_errors + = ipg_r16 ( IPG_INRANGELENGTHERRORS ) +
ipg_r16 ( IPG_FRAMETOOLONGERRRORS ) ;
sp - > stats . rx_crc_errors + = ipg_r16 ( IPG_FRAMECHECKSEQERRORS ) ;
/* Unutilized IPG statistic registers. */
ipg_r32 ( IPG_MCSTFRAMESRCVDOK ) ;
return & sp - > stats ;
}
/* Restore used receive buffers. */
static int ipg_nic_rxrestore ( struct net_device * dev )
{
struct ipg_nic_private * sp = netdev_priv ( dev ) ;
const unsigned int curr = sp - > rx_current ;
unsigned int dirty = sp - > rx_dirty ;
IPG_DEBUG_MSG ( " _nic_rxrestore \n " ) ;
for ( dirty = sp - > rx_dirty ; curr - dirty > 0 ; dirty + + ) {
unsigned int entry = dirty % IPG_RFDLIST_LENGTH ;
/* rx_copybreak may poke hole here and there. */
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if ( sp - > rx_buff [ entry ] )
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continue ;
/* Generate a new receive buffer to replace the
* current buffer ( which will be released by the
* Linux system ) .
*/
if ( ipg_get_rxbuff ( dev , entry ) < 0 ) {
IPG_DEBUG_MSG ( " Cannot allocate new Rx buffer. \n " ) ;
break ;
}
/* Reset the RFS field. */
sp - > rxd [ entry ] . rfs = 0x0000000000000000 ;
}
sp - > rx_dirty = dirty ;
return 0 ;
}
/* use jumboindex and jumbosize to control jumbo frame status
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* initial status is jumboindex = - 1 and jumbosize = 0
* 1. jumboindex = - 1 and jumbosize = 0 : previous jumbo frame has been done .
* 2. jumboindex ! = - 1 and jumbosize ! = 0 : jumbo frame is not over size and receiving
* 3. jumboindex = - 1 and jumbosize ! = 0 : jumbo frame is over size , already dump
* previous receiving and need to continue dumping the current one
*/
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enum {
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NORMAL_PACKET ,
ERROR_PACKET
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} ;
enum {
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FRAME_NO_START_NO_END = 0 ,
FRAME_WITH_START = 1 ,
FRAME_WITH_END = 10 ,
FRAME_WITH_START_WITH_END = 11
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} ;
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static void ipg_nic_rx_free_skb ( struct net_device * dev )
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{
struct ipg_nic_private * sp = netdev_priv ( dev ) ;
unsigned int entry = sp - > rx_current % IPG_RFDLIST_LENGTH ;
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if ( sp - > rx_buff [ entry ] ) {
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struct ipg_rx * rxfd = sp - > rxd + entry ;
pci_unmap_single ( sp - > pdev ,
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le64_to_cpu ( rxfd - > frag_info ) & ~ IPG_RFI_FRAGLEN ,
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sp - > rx_buf_sz , PCI_DMA_FROMDEVICE ) ;
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dev_kfree_skb_irq ( sp - > rx_buff [ entry ] ) ;
sp - > rx_buff [ entry ] = NULL ;
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}
}
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static int ipg_nic_rx_check_frame_type ( struct net_device * dev )
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{
struct ipg_nic_private * sp = netdev_priv ( dev ) ;
struct ipg_rx * rxfd = sp - > rxd + ( sp - > rx_current % IPG_RFDLIST_LENGTH ) ;
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int type = FRAME_NO_START_NO_END ;
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if ( le64_to_cpu ( rxfd - > rfs ) & IPG_RFS_FRAMESTART )
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type + = FRAME_WITH_START ;
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if ( le64_to_cpu ( rxfd - > rfs ) & IPG_RFS_FRAMEEND )
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type + = FRAME_WITH_END ;
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return type ;
}
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static int ipg_nic_rx_check_error ( struct net_device * dev )
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{
struct ipg_nic_private * sp = netdev_priv ( dev ) ;
unsigned int entry = sp - > rx_current % IPG_RFDLIST_LENGTH ;
struct ipg_rx * rxfd = sp - > rxd + entry ;
if ( IPG_DROP_ON_RX_ETH_ERRORS & & ( le64_to_cpu ( rxfd - > rfs ) &
( IPG_RFS_RXFIFOOVERRUN | IPG_RFS_RXRUNTFRAME |
IPG_RFS_RXALIGNMENTERROR | IPG_RFS_RXFCSERROR |
IPG_RFS_RXOVERSIZEDFRAME | IPG_RFS_RXLENGTHERROR ) ) ) {
IPG_DEBUG_MSG ( " Rx error, RFS = %16.16lx \n " ,
( unsigned long ) rxfd - > rfs ) ;
/* Increment general receive error statistic. */
sp - > stats . rx_errors + + ;
/* Increment detailed receive error statistics. */
if ( le64_to_cpu ( rxfd - > rfs ) & IPG_RFS_RXFIFOOVERRUN ) {
IPG_DEBUG_MSG ( " RX FIFO overrun occured. \n " ) ;
sp - > stats . rx_fifo_errors + + ;
}
if ( le64_to_cpu ( rxfd - > rfs ) & IPG_RFS_RXRUNTFRAME ) {
IPG_DEBUG_MSG ( " RX runt occured. \n " ) ;
sp - > stats . rx_length_errors + + ;
}
/* Do nothing for IPG_RFS_RXOVERSIZEDFRAME,
* error count handled by a IPG statistic register .
*/
if ( le64_to_cpu ( rxfd - > rfs ) & IPG_RFS_RXALIGNMENTERROR ) {
IPG_DEBUG_MSG ( " RX alignment error occured. \n " ) ;
sp - > stats . rx_frame_errors + + ;
}
/* Do nothing for IPG_RFS_RXFCSERROR, error count
* handled by a IPG statistic register .
*/
/* Free the memory associated with the RX
* buffer since it is erroneous and we will
* not pass it to higher layer processes .
*/
2008-01-24 13:01:17 +03:00
if ( sp - > rx_buff [ entry ] ) {
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pci_unmap_single ( sp - > pdev ,
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le64_to_cpu ( rxfd - > frag_info ) & ~ IPG_RFI_FRAGLEN ,
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sp - > rx_buf_sz , PCI_DMA_FROMDEVICE ) ;
2008-01-24 13:01:17 +03:00
dev_kfree_skb_irq ( sp - > rx_buff [ entry ] ) ;
sp - > rx_buff [ entry ] = NULL ;
2007-09-18 04:13:55 +04:00
}
2008-01-24 13:01:17 +03:00
return ERROR_PACKET ;
2007-09-18 04:13:55 +04:00
}
2008-01-24 13:01:17 +03:00
return NORMAL_PACKET ;
2007-09-18 04:13:55 +04:00
}
static void ipg_nic_rx_with_start_and_end ( struct net_device * dev ,
struct ipg_nic_private * sp ,
struct ipg_rx * rxfd , unsigned entry )
{
2008-01-24 13:01:17 +03:00
struct ipg_jumbo * jumbo = & sp - > jumbo ;
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struct sk_buff * skb ;
int framelen ;
2008-01-24 13:01:17 +03:00
if ( jumbo - > found_start ) {
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dev_kfree_skb_irq ( jumbo - > skb ) ;
2008-01-24 13:01:17 +03:00
jumbo - > found_start = 0 ;
jumbo - > current_size = 0 ;
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jumbo - > skb = NULL ;
}
2007-11-30 10:55:43 +03:00
/* 1: found error, 0 no error */
2008-01-24 13:01:17 +03:00
if ( ipg_nic_rx_check_error ( dev ) ! = NORMAL_PACKET )
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return ;
2008-01-24 13:01:17 +03:00
skb = sp - > rx_buff [ entry ] ;
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if ( ! skb )
return ;
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/* accept this frame and send to upper layer */
2007-09-18 04:13:55 +04:00
framelen = le64_to_cpu ( rxfd - > rfs ) & IPG_RFS_RXFRAMELEN ;
2008-06-23 15:36:00 +04:00
if ( framelen > sp - > rxfrag_size )
framelen = sp - > rxfrag_size ;
2007-09-18 04:13:55 +04:00
skb_put ( skb , framelen ) ;
skb - > protocol = eth_type_trans ( skb , dev ) ;
skb - > ip_summed = CHECKSUM_NONE ;
netif_rx ( skb ) ;
2008-01-24 13:01:17 +03:00
sp - > rx_buff [ entry ] = NULL ;
2007-09-18 04:13:55 +04:00
}
static void ipg_nic_rx_with_start ( struct net_device * dev ,
struct ipg_nic_private * sp ,
struct ipg_rx * rxfd , unsigned entry )
{
2008-01-24 13:01:17 +03:00
struct ipg_jumbo * jumbo = & sp - > jumbo ;
2007-09-18 04:13:55 +04:00
struct pci_dev * pdev = sp - > pdev ;
struct sk_buff * skb ;
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/* 1: found error, 0 no error */
2008-01-24 13:01:17 +03:00
if ( ipg_nic_rx_check_error ( dev ) ! = NORMAL_PACKET )
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return ;
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/* accept this frame and send to upper layer */
2008-01-24 13:01:17 +03:00
skb = sp - > rx_buff [ entry ] ;
2007-09-18 04:13:55 +04:00
if ( ! skb )
return ;
2008-01-24 13:01:17 +03:00
if ( jumbo - > found_start )
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dev_kfree_skb_irq ( jumbo - > skb ) ;
2007-09-18 04:13:55 +04:00
2008-11-20 02:54:38 +03:00
pci_unmap_single ( pdev , le64_to_cpu ( rxfd - > frag_info ) & ~ IPG_RFI_FRAGLEN ,
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sp - > rx_buf_sz , PCI_DMA_FROMDEVICE ) ;
2008-06-23 15:36:00 +04:00
skb_put ( skb , sp - > rxfrag_size ) ;
2007-09-18 04:13:55 +04:00
2008-01-24 13:01:17 +03:00
jumbo - > found_start = 1 ;
2008-06-23 15:36:00 +04:00
jumbo - > current_size = sp - > rxfrag_size ;
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jumbo - > skb = skb ;
2008-01-24 13:01:17 +03:00
sp - > rx_buff [ entry ] = NULL ;
2007-09-18 04:13:55 +04:00
}
static void ipg_nic_rx_with_end ( struct net_device * dev ,
struct ipg_nic_private * sp ,
struct ipg_rx * rxfd , unsigned entry )
{
2008-01-24 13:01:17 +03:00
struct ipg_jumbo * jumbo = & sp - > jumbo ;
2007-09-18 04:13:55 +04:00
2007-11-30 10:55:43 +03:00
/* 1: found error, 0 no error */
2008-01-24 13:01:17 +03:00
if ( ipg_nic_rx_check_error ( dev ) = = NORMAL_PACKET ) {
struct sk_buff * skb = sp - > rx_buff [ entry ] ;
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if ( ! skb )
return ;
2008-01-24 13:01:17 +03:00
if ( jumbo - > found_start ) {
2007-09-18 04:13:55 +04:00
int framelen , endframelen ;
framelen = le64_to_cpu ( rxfd - > rfs ) & IPG_RFS_RXFRAMELEN ;
2008-06-23 15:34:29 +04:00
endframelen = framelen - jumbo - > current_size ;
2008-06-23 15:36:18 +04:00
if ( framelen > sp - > rxsupport_size )
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dev_kfree_skb_irq ( jumbo - > skb ) ;
2007-09-18 04:13:55 +04:00
else {
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memcpy ( skb_put ( jumbo - > skb , endframelen ) ,
skb - > data , endframelen ) ;
2007-09-18 04:13:55 +04:00
jumbo - > skb - > protocol =
eth_type_trans ( jumbo - > skb , dev ) ;
jumbo - > skb - > ip_summed = CHECKSUM_NONE ;
netif_rx ( jumbo - > skb ) ;
}
}
2008-01-24 13:01:17 +03:00
jumbo - > found_start = 0 ;
jumbo - > current_size = 0 ;
2007-09-18 04:13:55 +04:00
jumbo - > skb = NULL ;
ipg_nic_rx_free_skb ( dev ) ;
} else {
2007-11-30 10:53:51 +03:00
dev_kfree_skb_irq ( jumbo - > skb ) ;
2008-01-24 13:01:17 +03:00
jumbo - > found_start = 0 ;
jumbo - > current_size = 0 ;
2007-09-18 04:13:55 +04:00
jumbo - > skb = NULL ;
}
}
static void ipg_nic_rx_no_start_no_end ( struct net_device * dev ,
struct ipg_nic_private * sp ,
struct ipg_rx * rxfd , unsigned entry )
{
2008-01-24 13:01:17 +03:00
struct ipg_jumbo * jumbo = & sp - > jumbo ;
2007-09-18 04:13:55 +04:00
2007-11-30 10:55:43 +03:00
/* 1: found error, 0 no error */
2008-01-24 13:01:17 +03:00
if ( ipg_nic_rx_check_error ( dev ) = = NORMAL_PACKET ) {
struct sk_buff * skb = sp - > rx_buff [ entry ] ;
2007-09-18 04:13:55 +04:00
if ( skb ) {
2008-01-24 13:01:17 +03:00
if ( jumbo - > found_start ) {
2008-06-23 15:36:00 +04:00
jumbo - > current_size + = sp - > rxfrag_size ;
2008-06-23 15:36:18 +04:00
if ( jumbo - > current_size < = sp - > rxsupport_size ) {
2007-09-18 04:13:55 +04:00
memcpy ( skb_put ( jumbo - > skb ,
2008-06-23 15:36:00 +04:00
sp - > rxfrag_size ) ,
skb - > data , sp - > rxfrag_size ) ;
2007-09-18 04:13:55 +04:00
}
}
ipg_nic_rx_free_skb ( dev ) ;
}
} else {
2007-11-30 10:53:51 +03:00
dev_kfree_skb_irq ( jumbo - > skb ) ;
2008-01-24 13:01:17 +03:00
jumbo - > found_start = 0 ;
jumbo - > current_size = 0 ;
2007-09-18 04:13:55 +04:00
jumbo - > skb = NULL ;
}
}
2008-06-23 15:35:16 +04:00
static int ipg_nic_rx_jumbo ( struct net_device * dev )
2007-09-18 04:13:55 +04:00
{
struct ipg_nic_private * sp = netdev_priv ( dev ) ;
unsigned int curr = sp - > rx_current ;
void __iomem * ioaddr = sp - > ioaddr ;
unsigned int i ;
IPG_DEBUG_MSG ( " _nic_rx \n " ) ;
for ( i = 0 ; i < IPG_MAXRFDPROCESS_COUNT ; i + + , curr + + ) {
unsigned int entry = curr % IPG_RFDLIST_LENGTH ;
struct ipg_rx * rxfd = sp - > rxd + entry ;
2008-11-20 02:54:38 +03:00
if ( ! ( rxfd - > rfs & cpu_to_le64 ( IPG_RFS_RFDDONE ) ) )
2007-09-18 04:13:55 +04:00
break ;
switch ( ipg_nic_rx_check_frame_type ( dev ) ) {
2008-01-24 13:01:17 +03:00
case FRAME_WITH_START_WITH_END :
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ipg_nic_rx_with_start_and_end ( dev , sp , rxfd , entry ) ;
2007-09-18 04:13:55 +04:00
break ;
2008-01-24 13:01:17 +03:00
case FRAME_WITH_START :
2008-06-23 15:34:29 +04:00
ipg_nic_rx_with_start ( dev , sp , rxfd , entry ) ;
2007-09-18 04:13:55 +04:00
break ;
2008-01-24 13:01:17 +03:00
case FRAME_WITH_END :
2008-06-23 15:34:29 +04:00
ipg_nic_rx_with_end ( dev , sp , rxfd , entry ) ;
2007-09-18 04:13:55 +04:00
break ;
2008-01-24 13:01:17 +03:00
case FRAME_NO_START_NO_END :
2008-06-23 15:34:29 +04:00
ipg_nic_rx_no_start_no_end ( dev , sp , rxfd , entry ) ;
2007-09-18 04:13:55 +04:00
break ;
}
}
sp - > rx_current = curr ;
if ( i = = IPG_MAXRFDPROCESS_COUNT ) {
/* There are more RFDs to process, however the
* allocated amount of RFD processing time has
* expired . Assert Interrupt Requested to make
* sure we come back to process the remaining RFDs .
*/
ipg_w32 ( ipg_r32 ( ASIC_CTRL ) | IPG_AC_INT_REQUEST , ASIC_CTRL ) ;
}
ipg_nic_rxrestore ( dev ) ;
return 0 ;
}
static int ipg_nic_rx ( struct net_device * dev )
{
/* Transfer received Ethernet frames to higher network layers. */
struct ipg_nic_private * sp = netdev_priv ( dev ) ;
unsigned int curr = sp - > rx_current ;
void __iomem * ioaddr = sp - > ioaddr ;
struct ipg_rx * rxfd ;
unsigned int i ;
IPG_DEBUG_MSG ( " _nic_rx \n " ) ;
# define __RFS_MASK \
cpu_to_le64 ( IPG_RFS_RFDDONE | IPG_RFS_FRAMESTART | IPG_RFS_FRAMEEND )
for ( i = 0 ; i < IPG_MAXRFDPROCESS_COUNT ; i + + , curr + + ) {
unsigned int entry = curr % IPG_RFDLIST_LENGTH ;
2008-01-24 13:01:17 +03:00
struct sk_buff * skb = sp - > rx_buff [ entry ] ;
2007-09-18 04:13:55 +04:00
unsigned int framelen ;
rxfd = sp - > rxd + entry ;
if ( ( ( rxfd - > rfs & __RFS_MASK ) ! = __RFS_MASK ) | | ! skb )
break ;
/* Get received frame length. */
framelen = le64_to_cpu ( rxfd - > rfs ) & IPG_RFS_RXFRAMELEN ;
/* Check for jumbo frame arrival with too small
* RXFRAG_SIZE .
*/
2008-06-23 15:36:00 +04:00
if ( framelen > sp - > rxfrag_size ) {
2007-09-18 04:13:55 +04:00
IPG_DEBUG_MSG
( " RFS FrameLen > allocated fragment size. \n " ) ;
2008-06-23 15:36:00 +04:00
framelen = sp - > rxfrag_size ;
2007-09-18 04:13:55 +04:00
}
2007-10-14 22:41:29 +04:00
if ( ( IPG_DROP_ON_RX_ETH_ERRORS & & ( le64_to_cpu ( rxfd - > rfs ) &
2007-09-18 04:13:55 +04:00
( IPG_RFS_RXFIFOOVERRUN | IPG_RFS_RXRUNTFRAME |
IPG_RFS_RXALIGNMENTERROR | IPG_RFS_RXFCSERROR |
2007-10-14 22:41:29 +04:00
IPG_RFS_RXOVERSIZEDFRAME | IPG_RFS_RXLENGTHERROR ) ) ) ) {
2007-09-18 04:13:55 +04:00
IPG_DEBUG_MSG ( " Rx error, RFS = %16.16lx \n " ,
( unsigned long int ) rxfd - > rfs ) ;
/* Increment general receive error statistic. */
sp - > stats . rx_errors + + ;
/* Increment detailed receive error statistics. */
2007-10-14 22:41:29 +04:00
if ( le64_to_cpu ( rxfd - > rfs ) & IPG_RFS_RXFIFOOVERRUN ) {
2007-09-18 04:13:55 +04:00
IPG_DEBUG_MSG ( " RX FIFO overrun occured. \n " ) ;
sp - > stats . rx_fifo_errors + + ;
}
2007-10-14 22:41:29 +04:00
if ( le64_to_cpu ( rxfd - > rfs ) & IPG_RFS_RXRUNTFRAME ) {
2007-09-18 04:13:55 +04:00
IPG_DEBUG_MSG ( " RX runt occured. \n " ) ;
sp - > stats . rx_length_errors + + ;
}
2007-10-14 22:41:29 +04:00
if ( le64_to_cpu ( rxfd - > rfs ) & IPG_RFS_RXOVERSIZEDFRAME ) ;
2007-09-18 04:13:55 +04:00
/* Do nothing, error count handled by a IPG
* statistic register .
*/
2007-10-14 22:41:29 +04:00
if ( le64_to_cpu ( rxfd - > rfs ) & IPG_RFS_RXALIGNMENTERROR ) {
2007-09-18 04:13:55 +04:00
IPG_DEBUG_MSG ( " RX alignment error occured. \n " ) ;
sp - > stats . rx_frame_errors + + ;
}
2007-10-14 22:41:29 +04:00
if ( le64_to_cpu ( rxfd - > rfs ) & IPG_RFS_RXFCSERROR ) ;
2007-09-18 04:13:55 +04:00
/* Do nothing, error count handled by a IPG
* statistic register .
*/
/* Free the memory associated with the RX
* buffer since it is erroneous and we will
* not pass it to higher layer processes .
*/
if ( skb ) {
2007-10-14 22:41:29 +04:00
__le64 info = rxfd - > frag_info ;
2007-09-18 04:13:55 +04:00
pci_unmap_single ( sp - > pdev ,
2007-10-14 22:41:29 +04:00
le64_to_cpu ( info ) & ~ IPG_RFI_FRAGLEN ,
2007-09-18 04:13:55 +04:00
sp - > rx_buf_sz , PCI_DMA_FROMDEVICE ) ;
2007-11-30 10:53:51 +03:00
dev_kfree_skb_irq ( skb ) ;
2007-09-18 04:13:55 +04:00
}
} else {
/* Adjust the new buffer length to accomodate the size
* of the received frame .
*/
skb_put ( skb , framelen ) ;
/* Set the buffer's protocol field to Ethernet. */
skb - > protocol = eth_type_trans ( skb , dev ) ;
2007-11-30 10:54:33 +03:00
/* The IPG encountered an error with (or
* there were no ) IP / TCP / UDP checksums .
* This may or may not indicate an invalid
* IP / TCP / UDP frame was received . Let the
* upper layer decide .
2007-09-18 04:13:55 +04:00
*/
2007-11-30 10:54:33 +03:00
skb - > ip_summed = CHECKSUM_NONE ;
2007-09-18 04:13:55 +04:00
/* Hand off frame for higher layer processing.
* The function netif_rx ( ) releases the sk_buff
* when processing completes .
*/
netif_rx ( skb ) ;
}
/* Assure RX buffer is not reused by IPG. */
2008-01-24 13:01:17 +03:00
sp - > rx_buff [ entry ] = NULL ;
2007-09-18 04:13:55 +04:00
}
/*
* If there are more RFDs to proces and the allocated amount of RFD
* processing time has expired , assert Interrupt Requested to make
* sure we come back to process the remaining RFDs .
*/
if ( i = = IPG_MAXRFDPROCESS_COUNT )
ipg_w32 ( ipg_r32 ( ASIC_CTRL ) | IPG_AC_INT_REQUEST , ASIC_CTRL ) ;
# ifdef IPG_DEBUG
/* Check if the RFD list contained no receive frame data. */
if ( ! i )
sp - > EmptyRFDListCount + + ;
# endif
2007-10-14 22:41:29 +04:00
while ( ( le64_to_cpu ( rxfd - > rfs ) & IPG_RFS_RFDDONE ) & &
! ( ( le64_to_cpu ( rxfd - > rfs ) & IPG_RFS_FRAMESTART ) & &
( le64_to_cpu ( rxfd - > rfs ) & IPG_RFS_FRAMEEND ) ) ) {
2007-09-18 04:13:55 +04:00
unsigned int entry = curr + + % IPG_RFDLIST_LENGTH ;
rxfd = sp - > rxd + entry ;
IPG_DEBUG_MSG ( " Frame requires multiple RFDs. \n " ) ;
/* An unexpected event, additional code needed to handle
* properly . So for the time being , just disregard the
* frame .
*/
/* Free the memory associated with the RX
* buffer since it is erroneous and we will
* not pass it to higher layer processes .
*/
2008-01-24 13:01:17 +03:00
if ( sp - > rx_buff [ entry ] ) {
2007-09-18 04:13:55 +04:00
pci_unmap_single ( sp - > pdev ,
2007-10-14 22:41:29 +04:00
le64_to_cpu ( rxfd - > frag_info ) & ~ IPG_RFI_FRAGLEN ,
2007-09-18 04:13:55 +04:00
sp - > rx_buf_sz , PCI_DMA_FROMDEVICE ) ;
2008-01-24 13:01:17 +03:00
dev_kfree_skb_irq ( sp - > rx_buff [ entry ] ) ;
2007-09-18 04:13:55 +04:00
}
/* Assure RX buffer is not reused by IPG. */
2008-01-24 13:01:17 +03:00
sp - > rx_buff [ entry ] = NULL ;
2007-09-18 04:13:55 +04:00
}
sp - > rx_current = curr ;
/* Check to see if there are a minimum number of used
* RFDs before restoring any ( should improve performance . )
*/
if ( ( curr - sp - > rx_dirty ) > = IPG_MINUSEDRFDSTOFREE )
ipg_nic_rxrestore ( dev ) ;
return 0 ;
}
static void ipg_reset_after_host_error ( struct work_struct * work )
{
struct ipg_nic_private * sp =
container_of ( work , struct ipg_nic_private , task . work ) ;
struct net_device * dev = sp - > dev ;
IPG_DDEBUG_MSG ( " DMACtrl = %8.8x \n " , ioread32 ( sp - > ioaddr + IPG_DMACTRL ) ) ;
/*
* Acknowledge HostError interrupt by resetting
* IPG DMA and HOST .
*/
ipg_reset ( dev , IPG_AC_GLOBAL_RESET | IPG_AC_HOST | IPG_AC_DMA ) ;
init_rfdlist ( dev ) ;
init_tfdlist ( dev ) ;
if ( ipg_io_config ( dev ) < 0 ) {
printk ( KERN_INFO " %s: Cannot recover from PCI error. \n " ,
dev - > name ) ;
schedule_delayed_work ( & sp - > task , HZ ) ;
}
}
static irqreturn_t ipg_interrupt_handler ( int irq , void * dev_inst )
{
struct net_device * dev = dev_inst ;
struct ipg_nic_private * sp = netdev_priv ( dev ) ;
void __iomem * ioaddr = sp - > ioaddr ;
unsigned int handled = 0 ;
u16 status ;
IPG_DEBUG_MSG ( " _interrupt_handler \n " ) ;
2008-06-23 15:35:16 +04:00
if ( sp - > is_jumbo )
ipg_nic_rxrestore ( dev ) ;
2008-01-11 01:25:30 +03:00
spin_lock ( & sp - > lock ) ;
2007-09-18 04:13:55 +04:00
/* Get interrupt source information, and acknowledge
* some ( i . e . TxDMAComplete , RxDMAComplete , RxEarly ,
* IntRequested , MacControlFrame , LinkEvent ) interrupts
* if issued . Also , all IPG interrupts are disabled by
* reading IntStatusAck .
*/
status = ipg_r16 ( INT_STATUS_ACK ) ;
IPG_DEBUG_MSG ( " IntStatusAck = %4.4x \n " , status ) ;
/* Shared IRQ of remove event. */
if ( ! ( status & IPG_IS_RSVD_MASK ) )
goto out_enable ;
handled = 1 ;
if ( unlikely ( ! netif_running ( dev ) ) )
2008-01-11 01:25:30 +03:00
goto out_unlock ;
2007-09-18 04:13:55 +04:00
/* If RFDListEnd interrupt, restore all used RFDs. */
if ( status & IPG_IS_RFD_LIST_END ) {
IPG_DEBUG_MSG ( " RFDListEnd Interrupt. \n " ) ;
/* The RFD list end indicates an RFD was encountered
* with a 0 NextPtr , or with an RFDDone bit set to 1
* ( indicating the RFD is not read for use by the
* IPG . ) Try to restore all RFDs .
*/
ipg_nic_rxrestore ( dev ) ;
# ifdef IPG_DEBUG
/* Increment the RFDlistendCount counter. */
sp - > RFDlistendCount + + ;
# endif
}
/* If RFDListEnd, RxDMAPriority, RxDMAComplete, or
* IntRequested interrupt , process received frames . */
if ( ( status & IPG_IS_RX_DMA_PRIORITY ) | |
( status & IPG_IS_RFD_LIST_END ) | |
( status & IPG_IS_RX_DMA_COMPLETE ) | |
( status & IPG_IS_INT_REQUESTED ) ) {
# ifdef IPG_DEBUG
/* Increment the RFD list checked counter if interrupted
* only to check the RFD list . */
if ( status & ( ~ ( IPG_IS_RX_DMA_PRIORITY | IPG_IS_RFD_LIST_END |
IPG_IS_RX_DMA_COMPLETE | IPG_IS_INT_REQUESTED ) &
( IPG_IS_HOST_ERROR | IPG_IS_TX_DMA_COMPLETE |
IPG_IS_LINK_EVENT | IPG_IS_TX_COMPLETE |
IPG_IS_UPDATE_STATS ) ) )
sp - > RFDListCheckedCount + + ;
# endif
2008-06-23 15:35:16 +04:00
if ( sp - > is_jumbo )
ipg_nic_rx_jumbo ( dev ) ;
else
ipg_nic_rx ( dev ) ;
2007-09-18 04:13:55 +04:00
}
/* If TxDMAComplete interrupt, free used TFDs. */
if ( status & IPG_IS_TX_DMA_COMPLETE )
ipg_nic_txfree ( dev ) ;
/* TxComplete interrupts indicate one of numerous actions.
* Determine what action to take based on TXSTATUS register .
*/
if ( status & IPG_IS_TX_COMPLETE )
ipg_nic_txcleanup ( dev ) ;
/* If UpdateStats interrupt, update Linux Ethernet statistics */
if ( status & IPG_IS_UPDATE_STATS )
ipg_nic_get_stats ( dev ) ;
/* If HostError interrupt, reset IPG. */
if ( status & IPG_IS_HOST_ERROR ) {
IPG_DDEBUG_MSG ( " HostError Interrupt \n " ) ;
schedule_delayed_work ( & sp - > task , 0 ) ;
}
/* If LinkEvent interrupt, resolve autonegotiation. */
if ( status & IPG_IS_LINK_EVENT ) {
if ( ipg_config_autoneg ( dev ) < 0 )
printk ( KERN_INFO " %s: Auto-negotiation error. \n " ,
dev - > name ) ;
}
/* If MACCtrlFrame interrupt, do nothing. */
if ( status & IPG_IS_MAC_CTRL_FRAME )
IPG_DEBUG_MSG ( " MACCtrlFrame interrupt. \n " ) ;
/* If RxComplete interrupt, do nothing. */
if ( status & IPG_IS_RX_COMPLETE )
IPG_DEBUG_MSG ( " RxComplete interrupt. \n " ) ;
/* If RxEarly interrupt, do nothing. */
if ( status & IPG_IS_RX_EARLY )
IPG_DEBUG_MSG ( " RxEarly interrupt. \n " ) ;
out_enable :
/* Re-enable IPG interrupts. */
ipg_w16 ( IPG_IE_TX_DMA_COMPLETE | IPG_IE_RX_DMA_COMPLETE |
IPG_IE_HOST_ERROR | IPG_IE_INT_REQUESTED | IPG_IE_TX_COMPLETE |
IPG_IE_LINK_EVENT | IPG_IE_UPDATE_STATS , INT_ENABLE ) ;
2008-01-11 01:25:30 +03:00
out_unlock :
2007-09-18 04:13:55 +04:00
spin_unlock ( & sp - > lock ) ;
2008-01-11 01:25:30 +03:00
2007-09-18 04:13:55 +04:00
return IRQ_RETVAL ( handled ) ;
}
static void ipg_rx_clear ( struct ipg_nic_private * sp )
{
unsigned int i ;
for ( i = 0 ; i < IPG_RFDLIST_LENGTH ; i + + ) {
2008-01-24 13:01:17 +03:00
if ( sp - > rx_buff [ i ] ) {
2007-09-18 04:13:55 +04:00
struct ipg_rx * rxfd = sp - > rxd + i ;
2008-01-24 13:01:17 +03:00
dev_kfree_skb_irq ( sp - > rx_buff [ i ] ) ;
sp - > rx_buff [ i ] = NULL ;
2007-09-18 04:13:55 +04:00
pci_unmap_single ( sp - > pdev ,
2007-10-14 22:41:29 +04:00
le64_to_cpu ( rxfd - > frag_info ) & ~ IPG_RFI_FRAGLEN ,
2007-09-18 04:13:55 +04:00
sp - > rx_buf_sz , PCI_DMA_FROMDEVICE ) ;
}
}
}
static void ipg_tx_clear ( struct ipg_nic_private * sp )
{
unsigned int i ;
for ( i = 0 ; i < IPG_TFDLIST_LENGTH ; i + + ) {
2008-01-24 13:01:17 +03:00
if ( sp - > tx_buff [ i ] ) {
2007-09-18 04:13:55 +04:00
struct ipg_tx * txfd = sp - > txd + i ;
pci_unmap_single ( sp - > pdev ,
2007-10-14 22:41:29 +04:00
le64_to_cpu ( txfd - > frag_info ) & ~ IPG_TFI_FRAGLEN ,
2008-01-24 13:01:17 +03:00
sp - > tx_buff [ i ] - > len , PCI_DMA_TODEVICE ) ;
2007-09-18 04:13:55 +04:00
2008-01-24 13:01:17 +03:00
dev_kfree_skb_irq ( sp - > tx_buff [ i ] ) ;
2007-09-18 04:13:55 +04:00
2008-01-24 13:01:17 +03:00
sp - > tx_buff [ i ] = NULL ;
2007-09-18 04:13:55 +04:00
}
}
}
static int ipg_nic_open ( struct net_device * dev )
{
struct ipg_nic_private * sp = netdev_priv ( dev ) ;
void __iomem * ioaddr = sp - > ioaddr ;
struct pci_dev * pdev = sp - > pdev ;
int rc ;
IPG_DEBUG_MSG ( " _nic_open \n " ) ;
2008-06-23 15:36:18 +04:00
sp - > rx_buf_sz = sp - > rxsupport_size ;
2007-09-18 04:13:55 +04:00
/* Check for interrupt line conflicts, and request interrupt
* line for IPG .
*
* IMPORTANT : Disable IPG interrupts prior to registering
* IRQ .
*/
ipg_w16 ( 0x0000 , INT_ENABLE ) ;
/* Register the interrupt line to be used by the IPG within
* the Linux system .
*/
rc = request_irq ( pdev - > irq , & ipg_interrupt_handler , IRQF_SHARED ,
dev - > name , dev ) ;
if ( rc < 0 ) {
printk ( KERN_INFO " %s: Error when requesting interrupt. \n " ,
dev - > name ) ;
goto out ;
}
dev - > irq = pdev - > irq ;
rc = - ENOMEM ;
sp - > rxd = dma_alloc_coherent ( & pdev - > dev , IPG_RX_RING_BYTES ,
& sp - > rxd_map , GFP_KERNEL ) ;
if ( ! sp - > rxd )
goto err_free_irq_0 ;
sp - > txd = dma_alloc_coherent ( & pdev - > dev , IPG_TX_RING_BYTES ,
& sp - > txd_map , GFP_KERNEL ) ;
if ( ! sp - > txd )
goto err_free_rx_1 ;
rc = init_rfdlist ( dev ) ;
if ( rc < 0 ) {
printk ( KERN_INFO " %s: Error during configuration. \n " ,
dev - > name ) ;
goto err_free_tx_2 ;
}
init_tfdlist ( dev ) ;
rc = ipg_io_config ( dev ) ;
if ( rc < 0 ) {
printk ( KERN_INFO " %s: Error during configuration. \n " ,
dev - > name ) ;
goto err_release_tfdlist_3 ;
}
/* Resolve autonegotiation. */
if ( ipg_config_autoneg ( dev ) < 0 )
printk ( KERN_INFO " %s: Auto-negotiation error. \n " , dev - > name ) ;
/* initialize JUMBO Frame control variable */
2008-01-24 13:01:17 +03:00
sp - > jumbo . found_start = 0 ;
sp - > jumbo . current_size = 0 ;
2008-06-23 15:34:50 +04:00
sp - > jumbo . skb = NULL ;
2008-06-23 15:35:37 +04:00
2007-09-18 04:13:55 +04:00
/* Enable transmit and receive operation of the IPG. */
ipg_w32 ( ( ipg_r32 ( MAC_CTRL ) | IPG_MC_RX_ENABLE | IPG_MC_TX_ENABLE ) &
IPG_MC_RSVD_MASK , MAC_CTRL ) ;
netif_start_queue ( dev ) ;
out :
return rc ;
err_release_tfdlist_3 :
ipg_tx_clear ( sp ) ;
ipg_rx_clear ( sp ) ;
err_free_tx_2 :
dma_free_coherent ( & pdev - > dev , IPG_TX_RING_BYTES , sp - > txd , sp - > txd_map ) ;
err_free_rx_1 :
dma_free_coherent ( & pdev - > dev , IPG_RX_RING_BYTES , sp - > rxd , sp - > rxd_map ) ;
err_free_irq_0 :
free_irq ( pdev - > irq , dev ) ;
goto out ;
}
static int ipg_nic_stop ( struct net_device * dev )
{
struct ipg_nic_private * sp = netdev_priv ( dev ) ;
void __iomem * ioaddr = sp - > ioaddr ;
struct pci_dev * pdev = sp - > pdev ;
IPG_DEBUG_MSG ( " _nic_stop \n " ) ;
netif_stop_queue ( dev ) ;
IPG_DDEBUG_MSG ( " RFDlistendCount = %i \n " , sp - > RFDlistendCount ) ;
IPG_DDEBUG_MSG ( " RFDListCheckedCount = %i \n " , sp - > rxdCheckedCount ) ;
IPG_DDEBUG_MSG ( " EmptyRFDListCount = %i \n " , sp - > EmptyRFDListCount ) ;
IPG_DUMPTFDLIST ( dev ) ;
do {
( void ) ipg_r16 ( INT_STATUS_ACK ) ;
ipg_reset ( dev , IPG_AC_GLOBAL_RESET | IPG_AC_HOST | IPG_AC_DMA ) ;
synchronize_irq ( pdev - > irq ) ;
} while ( ipg_r16 ( INT_ENABLE ) & IPG_IE_RSVD_MASK ) ;
ipg_rx_clear ( sp ) ;
ipg_tx_clear ( sp ) ;
pci_free_consistent ( pdev , IPG_RX_RING_BYTES , sp - > rxd , sp - > rxd_map ) ;
pci_free_consistent ( pdev , IPG_TX_RING_BYTES , sp - > txd , sp - > txd_map ) ;
free_irq ( pdev - > irq , dev ) ;
return 0 ;
}
static int ipg_nic_hard_start_xmit ( struct sk_buff * skb , struct net_device * dev )
{
struct ipg_nic_private * sp = netdev_priv ( dev ) ;
void __iomem * ioaddr = sp - > ioaddr ;
unsigned int entry = sp - > tx_current % IPG_TFDLIST_LENGTH ;
unsigned long flags ;
struct ipg_tx * txfd ;
IPG_DDEBUG_MSG ( " _nic_hard_start_xmit \n " ) ;
/* If in 10Mbps mode, stop the transmit queue so
* no more transmit frames are accepted .
*/
if ( sp - > tenmbpsmode )
netif_stop_queue ( dev ) ;
2008-01-24 13:01:17 +03:00
if ( sp - > reset_current_tfd ) {
sp - > reset_current_tfd = 0 ;
2007-09-18 04:13:55 +04:00
entry = 0 ;
}
txfd = sp - > txd + entry ;
2008-01-24 13:01:17 +03:00
sp - > tx_buff [ entry ] = skb ;
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/* Clear all TFC fields, except TFDDONE. */
txfd - > tfc = cpu_to_le64 ( IPG_TFC_TFDDONE ) ;
/* Specify the TFC field within the TFD. */
txfd - > tfc | = cpu_to_le64 ( IPG_TFC_WORDALIGNDISABLED |
2008-03-17 01:22:14 +03:00
( IPG_TFC_FRAMEID & sp - > tx_current ) |
2007-09-18 04:13:55 +04:00
( IPG_TFC_FRAGCOUNT & ( 1 < < 24 ) ) ) ;
2008-03-17 01:22:14 +03:00
/*
* 16 - - 17 ( WordAlign ) < - 3 ( disable ) ,
* 0 - - 15 ( FrameId ) < - sp - > tx_current ,
* 24 - - 27 ( FragCount ) < - 1
*/
2007-09-18 04:13:55 +04:00
/* Request TxComplete interrupts at an interval defined
* by the constant IPG_FRAMESBETWEENTXCOMPLETES .
* Request TxComplete interrupt for every frame
* if in 10 Mbps mode to accomodate problem with 10 Mbps
* processing .
*/
if ( sp - > tenmbpsmode )
txfd - > tfc | = cpu_to_le64 ( IPG_TFC_TXINDICATE ) ;
2008-01-11 01:53:15 +03:00
txfd - > tfc | = cpu_to_le64 ( IPG_TFC_TXDMAINDICATE ) ;
2007-09-18 04:13:55 +04:00
/* Based on compilation option, determine if FCS is to be
* appended to transmit frame by IPG .
*/
if ( ! ( IPG_APPEND_FCS_ON_TX ) )
txfd - > tfc | = cpu_to_le64 ( IPG_TFC_FCSAPPENDDISABLE ) ;
/* Based on compilation option, determine if IP, TCP and/or
* UDP checksums are to be added to transmit frame by IPG .
*/
if ( IPG_ADD_IPCHECKSUM_ON_TX )
txfd - > tfc | = cpu_to_le64 ( IPG_TFC_IPCHECKSUMENABLE ) ;
if ( IPG_ADD_TCPCHECKSUM_ON_TX )
txfd - > tfc | = cpu_to_le64 ( IPG_TFC_TCPCHECKSUMENABLE ) ;
if ( IPG_ADD_UDPCHECKSUM_ON_TX )
txfd - > tfc | = cpu_to_le64 ( IPG_TFC_UDPCHECKSUMENABLE ) ;
/* Based on compilation option, determine if VLAN tag info is to be
* inserted into transmit frame by IPG .
*/
if ( IPG_INSERT_MANUAL_VLAN_TAG ) {
txfd - > tfc | = cpu_to_le64 ( IPG_TFC_VLANTAGINSERT |
( ( u64 ) IPG_MANUAL_VLAN_VID < < 32 ) |
( ( u64 ) IPG_MANUAL_VLAN_CFI < < 44 ) |
( ( u64 ) IPG_MANUAL_VLAN_USERPRIORITY < < 45 ) ) ;
}
/* The fragment start location within system memory is defined
* by the sk_buff structure ' s data field . The physical address
* of this location within the system ' s virtual memory space
* is determined using the IPG_HOST2BUS_MAP function .
*/
txfd - > frag_info = cpu_to_le64 ( pci_map_single ( sp - > pdev , skb - > data ,
skb - > len , PCI_DMA_TODEVICE ) ) ;
/* The length of the fragment within system memory is defined by
* the sk_buff structure ' s len field .
*/
txfd - > frag_info | = cpu_to_le64 ( IPG_TFI_FRAGLEN &
( ( u64 ) ( skb - > len & 0xffff ) < < 48 ) ) ;
/* Clear the TFDDone bit last to indicate the TFD is ready
* for transfer to the IPG .
*/
txfd - > tfc & = cpu_to_le64 ( ~ IPG_TFC_TFDDONE ) ;
spin_lock_irqsave ( & sp - > lock , flags ) ;
sp - > tx_current + + ;
mmiowb ( ) ;
ipg_w32 ( IPG_DC_TX_DMA_POLL_NOW , DMA_CTRL ) ;
if ( sp - > tx_current = = ( sp - > tx_dirty + IPG_TFDLIST_LENGTH ) )
2008-01-11 01:45:05 +03:00
netif_stop_queue ( dev ) ;
2007-09-18 04:13:55 +04:00
spin_unlock_irqrestore ( & sp - > lock , flags ) ;
return NETDEV_TX_OK ;
}
static void ipg_set_phy_default_param ( unsigned char rev ,
struct net_device * dev , int phy_address )
{
unsigned short length ;
unsigned char revision ;
unsigned short * phy_param ;
unsigned short address , value ;
phy_param = & DefaultPhyParam [ 0 ] ;
length = * phy_param & 0x00FF ;
revision = ( unsigned char ) ( ( * phy_param ) > > 8 ) ;
phy_param + + ;
while ( length ! = 0 ) {
if ( rev = = revision ) {
while ( length > 1 ) {
address = * phy_param ;
value = * ( phy_param + 1 ) ;
phy_param + = 2 ;
mdio_write ( dev , phy_address , address , value ) ;
length - = 4 ;
}
break ;
} else {
phy_param + = length / 2 ;
length = * phy_param & 0x00FF ;
revision = ( unsigned char ) ( ( * phy_param ) > > 8 ) ;
phy_param + + ;
}
}
}
static int read_eeprom ( struct net_device * dev , int eep_addr )
{
void __iomem * ioaddr = ipg_ioaddr ( dev ) ;
unsigned int i ;
int ret = 0 ;
u16 value ;
value = IPG_EC_EEPROM_READOPCODE | ( eep_addr & 0xff ) ;
ipg_w16 ( value , EEPROM_CTRL ) ;
for ( i = 0 ; i < 1000 ; i + + ) {
u16 data ;
mdelay ( 10 ) ;
data = ipg_r16 ( EEPROM_CTRL ) ;
if ( ! ( data & IPG_EC_EEPROM_BUSY ) ) {
ret = ipg_r16 ( EEPROM_DATA ) ;
break ;
}
}
return ret ;
}
static void ipg_init_mii ( struct net_device * dev )
{
struct ipg_nic_private * sp = netdev_priv ( dev ) ;
struct mii_if_info * mii_if = & sp - > mii_if ;
int phyaddr ;
mii_if - > dev = dev ;
mii_if - > mdio_read = mdio_read ;
mii_if - > mdio_write = mdio_write ;
mii_if - > phy_id_mask = 0x1f ;
mii_if - > reg_num_mask = 0x1f ;
mii_if - > phy_id = phyaddr = ipg_find_phyaddr ( dev ) ;
if ( phyaddr ! = 0x1f ) {
u16 mii_phyctrl , mii_1000cr ;
u8 revisionid = 0 ;
mii_1000cr = mdio_read ( dev , phyaddr , MII_CTRL1000 ) ;
mii_1000cr | = ADVERTISE_1000FULL | ADVERTISE_1000HALF |
GMII_PHY_1000BASETCONTROL_PreferMaster ;
mdio_write ( dev , phyaddr , MII_CTRL1000 , mii_1000cr ) ;
mii_phyctrl = mdio_read ( dev , phyaddr , MII_BMCR ) ;
/* Set default phyparam */
pci_read_config_byte ( sp - > pdev , PCI_REVISION_ID , & revisionid ) ;
ipg_set_phy_default_param ( revisionid , dev , phyaddr ) ;
/* Reset PHY */
mii_phyctrl | = BMCR_RESET | BMCR_ANRESTART ;
mdio_write ( dev , phyaddr , MII_BMCR , mii_phyctrl ) ;
}
}
static int ipg_hw_init ( struct net_device * dev )
{
struct ipg_nic_private * sp = netdev_priv ( dev ) ;
void __iomem * ioaddr = sp - > ioaddr ;
unsigned int i ;
int rc ;
2007-11-30 10:54:51 +03:00
/* Read/Write and Reset EEPROM Value */
2007-09-18 04:13:55 +04:00
/* Read LED Mode Configuration from EEPROM */
2008-01-24 13:01:17 +03:00
sp - > led_mode = read_eeprom ( dev , 6 ) ;
2007-09-18 04:13:55 +04:00
/* Reset all functions within the IPG. Do not assert
* RST_OUT as not compatible with some PHYs .
*/
rc = ipg_reset ( dev , IPG_RESET_MASK ) ;
if ( rc < 0 )
goto out ;
ipg_init_mii ( dev ) ;
/* Read MAC Address from EEPROM */
for ( i = 0 ; i < 3 ; i + + )
sp - > station_addr [ i ] = read_eeprom ( dev , 16 + i ) ;
for ( i = 0 ; i < 3 ; i + + )
ipg_w16 ( sp - > station_addr [ i ] , STATION_ADDRESS_0 + 2 * i ) ;
/* Set station address in ethernet_device structure. */
dev - > dev_addr [ 0 ] = ipg_r16 ( STATION_ADDRESS_0 ) & 0x00ff ;
dev - > dev_addr [ 1 ] = ( ipg_r16 ( STATION_ADDRESS_0 ) & 0xff00 ) > > 8 ;
dev - > dev_addr [ 2 ] = ipg_r16 ( STATION_ADDRESS_1 ) & 0x00ff ;
dev - > dev_addr [ 3 ] = ( ipg_r16 ( STATION_ADDRESS_1 ) & 0xff00 ) > > 8 ;
dev - > dev_addr [ 4 ] = ipg_r16 ( STATION_ADDRESS_2 ) & 0x00ff ;
dev - > dev_addr [ 5 ] = ( ipg_r16 ( STATION_ADDRESS_2 ) & 0xff00 ) > > 8 ;
out :
return rc ;
}
static int ipg_ioctl ( struct net_device * dev , struct ifreq * ifr , int cmd )
{
struct ipg_nic_private * sp = netdev_priv ( dev ) ;
int rc ;
mutex_lock ( & sp - > mii_mutex ) ;
rc = generic_mii_ioctl ( & sp - > mii_if , if_mii ( ifr ) , cmd , NULL ) ;
mutex_unlock ( & sp - > mii_mutex ) ;
return rc ;
}
static int ipg_nic_change_mtu ( struct net_device * dev , int new_mtu )
{
2008-06-23 15:36:35 +04:00
struct ipg_nic_private * sp = netdev_priv ( dev ) ;
2008-06-23 15:36:56 +04:00
int err ;
2008-06-23 15:36:35 +04:00
2007-09-18 04:13:55 +04:00
/* Function to accomodate changes to Maximum Transfer Unit
* ( or MTU ) of IPG NIC . Cannot use default function since
* the default will not allow for MTU > 1500 bytes .
*/
IPG_DEBUG_MSG ( " _nic_change_mtu \n " ) ;
2008-06-23 15:36:56 +04:00
/*
* Check that the new MTU value is between 68 ( 14 byte header , 46 byte
* payload , 4 byte FCS ) and 10 KB , which is the largest supported MTU .
2007-09-18 04:13:55 +04:00
*/
2008-06-23 15:36:56 +04:00
if ( new_mtu < 68 | | new_mtu > 10240 )
2007-09-18 04:13:55 +04:00
return - EINVAL ;
2008-06-23 15:36:56 +04:00
err = ipg_nic_stop ( dev ) ;
if ( err )
return err ;
2007-09-18 04:13:55 +04:00
dev - > mtu = new_mtu ;
2008-06-23 15:36:56 +04:00
sp - > max_rxframe_size = new_mtu ;
sp - > rxfrag_size = new_mtu ;
if ( sp - > rxfrag_size > 4088 )
sp - > rxfrag_size = 4088 ;
sp - > rxsupport_size = sp - > max_rxframe_size ;
if ( new_mtu > 0x0600 )
sp - > is_jumbo = true ;
else
sp - > is_jumbo = false ;
return ipg_nic_open ( dev ) ;
2007-09-18 04:13:55 +04:00
}
static int ipg_get_settings ( struct net_device * dev , struct ethtool_cmd * cmd )
{
struct ipg_nic_private * sp = netdev_priv ( dev ) ;
int rc ;
mutex_lock ( & sp - > mii_mutex ) ;
rc = mii_ethtool_gset ( & sp - > mii_if , cmd ) ;
mutex_unlock ( & sp - > mii_mutex ) ;
return rc ;
}
static int ipg_set_settings ( struct net_device * dev , struct ethtool_cmd * cmd )
{
struct ipg_nic_private * sp = netdev_priv ( dev ) ;
int rc ;
mutex_lock ( & sp - > mii_mutex ) ;
rc = mii_ethtool_sset ( & sp - > mii_if , cmd ) ;
mutex_unlock ( & sp - > mii_mutex ) ;
return rc ;
}
static int ipg_nway_reset ( struct net_device * dev )
{
struct ipg_nic_private * sp = netdev_priv ( dev ) ;
int rc ;
mutex_lock ( & sp - > mii_mutex ) ;
rc = mii_nway_restart ( & sp - > mii_if ) ;
mutex_unlock ( & sp - > mii_mutex ) ;
return rc ;
}
static struct ethtool_ops ipg_ethtool_ops = {
. get_settings = ipg_get_settings ,
. set_settings = ipg_set_settings ,
. nway_reset = ipg_nway_reset ,
} ;
2007-12-12 01:20:30 +03:00
static void __devexit ipg_remove ( struct pci_dev * pdev )
2007-09-18 04:13:55 +04:00
{
struct net_device * dev = pci_get_drvdata ( pdev ) ;
struct ipg_nic_private * sp = netdev_priv ( dev ) ;
IPG_DEBUG_MSG ( " _remove \n " ) ;
/* Un-register Ethernet device. */
unregister_netdev ( dev ) ;
pci_iounmap ( pdev , sp - > ioaddr ) ;
pci_release_regions ( pdev ) ;
free_netdev ( dev ) ;
pci_disable_device ( pdev ) ;
pci_set_drvdata ( pdev , NULL ) ;
}
2009-01-08 04:26:14 +03:00
static const struct net_device_ops ipg_netdev_ops = {
. ndo_open = ipg_nic_open ,
. ndo_stop = ipg_nic_stop ,
. ndo_start_xmit = ipg_nic_hard_start_xmit ,
. ndo_get_stats = ipg_nic_get_stats ,
. ndo_set_multicast_list = ipg_nic_set_multicast_list ,
. ndo_do_ioctl = ipg_ioctl ,
. ndo_tx_timeout = ipg_tx_timeout ,
. ndo_change_mtu = ipg_nic_change_mtu ,
. ndo_set_mac_address = eth_mac_addr ,
. ndo_validate_addr = eth_validate_addr ,
} ;
2007-09-18 04:13:55 +04:00
static int __devinit ipg_probe ( struct pci_dev * pdev ,
const struct pci_device_id * id )
{
unsigned int i = id - > driver_data ;
struct ipg_nic_private * sp ;
struct net_device * dev ;
void __iomem * ioaddr ;
int rc ;
rc = pci_enable_device ( pdev ) ;
if ( rc < 0 )
goto out ;
printk ( KERN_INFO " %s: %s \n " , pci_name ( pdev ) , ipg_brand_name [ i ] ) ;
pci_set_master ( pdev ) ;
2009-04-07 06:01:14 +04:00
rc = pci_set_dma_mask ( pdev , DMA_BIT_MASK ( 40 ) ) ;
2007-09-18 04:13:55 +04:00
if ( rc < 0 ) {
2009-04-07 06:01:15 +04:00
rc = pci_set_dma_mask ( pdev , DMA_BIT_MASK ( 32 ) ) ;
2007-09-18 04:13:55 +04:00
if ( rc < 0 ) {
printk ( KERN_ERR " %s: DMA config failed. \n " ,
pci_name ( pdev ) ) ;
goto err_disable_0 ;
}
}
/*
* Initialize net device .
*/
dev = alloc_etherdev ( sizeof ( struct ipg_nic_private ) ) ;
if ( ! dev ) {
printk ( KERN_ERR " %s: alloc_etherdev failed \n " , pci_name ( pdev ) ) ;
rc = - ENOMEM ;
goto err_disable_0 ;
}
sp = netdev_priv ( dev ) ;
spin_lock_init ( & sp - > lock ) ;
mutex_init ( & sp - > mii_mutex ) ;
2008-06-23 15:36:56 +04:00
sp - > is_jumbo = IPG_IS_JUMBO ;
2008-06-23 15:36:00 +04:00
sp - > rxfrag_size = IPG_RXFRAG_SIZE ;
2008-06-23 15:36:18 +04:00
sp - > rxsupport_size = IPG_RXSUPPORT_SIZE ;
2008-06-23 15:36:35 +04:00
sp - > max_rxframe_size = IPG_MAX_RXFRAME_SIZE ;
2008-06-23 15:35:16 +04:00
2007-09-18 04:13:55 +04:00
/* Declare IPG NIC functions for Ethernet device methods.
*/
2009-01-08 04:26:14 +03:00
dev - > netdev_ops = & ipg_netdev_ops ;
2007-09-18 04:13:55 +04:00
SET_NETDEV_DEV ( dev , & pdev - > dev ) ;
SET_ETHTOOL_OPS ( dev , & ipg_ethtool_ops ) ;
rc = pci_request_regions ( pdev , DRV_NAME ) ;
if ( rc )
goto err_free_dev_1 ;
ioaddr = pci_iomap ( pdev , 1 , pci_resource_len ( pdev , 1 ) ) ;
if ( ! ioaddr ) {
printk ( KERN_ERR " %s cannot map MMIO \n " , pci_name ( pdev ) ) ;
rc = - EIO ;
goto err_release_regions_2 ;
}
/* Save the pointer to the PCI device information. */
sp - > ioaddr = ioaddr ;
sp - > pdev = pdev ;
sp - > dev = dev ;
INIT_DELAYED_WORK ( & sp - > task , ipg_reset_after_host_error ) ;
pci_set_drvdata ( pdev , dev ) ;
rc = ipg_hw_init ( dev ) ;
if ( rc < 0 )
goto err_unmap_3 ;
rc = register_netdev ( dev ) ;
if ( rc < 0 )
goto err_unmap_3 ;
printk ( KERN_INFO " Ethernet device registered as: %s \n " , dev - > name ) ;
out :
return rc ;
err_unmap_3 :
pci_iounmap ( pdev , ioaddr ) ;
err_release_regions_2 :
pci_release_regions ( pdev ) ;
err_free_dev_1 :
free_netdev ( dev ) ;
err_disable_0 :
pci_disable_device ( pdev ) ;
goto out ;
}
static struct pci_driver ipg_pci_driver = {
. name = IPG_DRIVER_NAME ,
. id_table = ipg_pci_tbl ,
. probe = ipg_probe ,
. remove = __devexit_p ( ipg_remove ) ,
} ;
static int __init ipg_init_module ( void )
{
return pci_register_driver ( & ipg_pci_driver ) ;
}
static void __exit ipg_exit_module ( void )
{
pci_unregister_driver ( & ipg_pci_driver ) ;
}
module_init ( ipg_init_module ) ;
module_exit ( ipg_exit_module ) ;