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/************************************************************************
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* s2io . c : A Linux PCI - X Ethernet driver for Neterion 10 GbE Server NIC
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* Copyright ( c ) 2002 - 2005 Neterion Inc .
* This software may be used and distributed according to the terms of
* the GNU General Public License ( GPL ) , incorporated herein by reference .
* Drivers based on or derived from this code fall under the GPL and must
* retain the authorship , copyright and license notice . This file is not
* a complete program and may only be used when the entire operating
* system is licensed under the GPL .
* See the file COPYING in this distribution for more information .
*
* Credits :
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* Jeff Garzik : For pointing out the improper error condition
* check in the s2io_xmit routine and also some
* issues in the Tx watch dog function . Also for
* patiently answering all those innumerable
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* questions regaring the 2.6 porting issues .
* Stephen Hemminger : Providing proper 2.6 porting mechanism for some
* macros available only in 2.6 Kernel .
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* Francois Romieu : For pointing out all code part that were
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* deprecated and also styling related comments .
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* Grant Grundler : For helping me get rid of some Architecture
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* dependent code .
* Christopher Hellwig : Some more 2.6 specific issues in the driver .
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*
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* The module loadable parameters that are supported by the driver and a brief
* explaination of all the variables .
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* rx_ring_num : This can be used to program the number of receive rings used
* in the driver .
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* rx_ring_sz : This defines the number of descriptors each ring can have . This
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* is also an array of size 8.
* tx_fifo_num : This defines the number of Tx FIFOs thats used int the driver .
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* tx_fifo_len : This too is an array of 8. Each element defines the number of
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* Tx descriptors that can be associated with each corresponding FIFO .
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
# include <linux/config.h>
# include <linux/module.h>
# include <linux/types.h>
# include <linux/errno.h>
# include <linux/ioport.h>
# include <linux/pci.h>
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# include <linux/dma-mapping.h>
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# include <linux/kernel.h>
# include <linux/netdevice.h>
# include <linux/etherdevice.h>
# include <linux/skbuff.h>
# include <linux/init.h>
# include <linux/delay.h>
# include <linux/stddef.h>
# include <linux/ioctl.h>
# include <linux/timex.h>
# include <linux/sched.h>
# include <linux/ethtool.h>
# include <linux/version.h>
# include <linux/workqueue.h>
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# include <linux/if_vlan.h>
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# include <asm/system.h>
# include <asm/uaccess.h>
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# include <asm/io.h>
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/* local include */
# include "s2io.h"
# include "s2io-regs.h"
/* S2io Driver name & version. */
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static char s2io_driver_name [ ] = " Neterion " ;
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static char s2io_driver_version [ ] = " Version 2.0.8.1 " ;
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static inline int RXD_IS_UP2DT ( RxD_t * rxdp )
{
int ret ;
ret = ( ( ! ( rxdp - > Control_1 & RXD_OWN_XENA ) ) & &
( GET_RXD_MARKER ( rxdp - > Control_2 ) ! = THE_RXD_MARK ) ) ;
return ret ;
}
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/*
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* Cards with following subsystem_id have a link state indication
* problem , 600 B , 600 C , 600 D , 640 B , 640 C and 640 D .
* macro below identifies these cards given the subsystem_id .
*/
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# define CARDS_WITH_FAULTY_LINK_INDICATORS(dev_type, subid) \
( dev_type = = XFRAME_I_DEVICE ) ? \
( ( ( ( subid > = 0x600B ) & & ( subid < = 0x600D ) ) | | \
( ( subid > = 0x640B ) & & ( subid < = 0x640D ) ) ) ? 1 : 0 ) : 0
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# define LINK_IS_UP(val64) (!(val64 & (ADAPTER_STATUS_RMAC_REMOTE_FAULT | \
ADAPTER_STATUS_RMAC_LOCAL_FAULT ) ) )
# define TASKLET_IN_USE test_and_set_bit(0, (&sp->tasklet_status))
# define PANIC 1
# define LOW 2
static inline int rx_buffer_level ( nic_t * sp , int rxb_size , int ring )
{
int level = 0 ;
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mac_info_t * mac_control ;
mac_control = & sp - > mac_control ;
if ( ( mac_control - > rings [ ring ] . pkt_cnt - rxb_size ) > 16 ) {
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level = LOW ;
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if ( rxb_size < = MAX_RXDS_PER_BLOCK ) {
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level = PANIC ;
}
}
return level ;
}
/* Ethtool related variables and Macros. */
static char s2io_gstrings [ ] [ ETH_GSTRING_LEN ] = {
" Register test \t (offline) " ,
" Eeprom test \t (offline) " ,
" Link test \t (online) " ,
" RLDRAM test \t (offline) " ,
" BIST Test \t (offline) "
} ;
static char ethtool_stats_keys [ ] [ ETH_GSTRING_LEN ] = {
{ " tmac_frms " } ,
{ " tmac_data_octets " } ,
{ " tmac_drop_frms " } ,
{ " tmac_mcst_frms " } ,
{ " tmac_bcst_frms " } ,
{ " tmac_pause_ctrl_frms " } ,
{ " tmac_any_err_frms " } ,
{ " tmac_vld_ip_octets " } ,
{ " tmac_vld_ip " } ,
{ " tmac_drop_ip " } ,
{ " tmac_icmp " } ,
{ " tmac_rst_tcp " } ,
{ " tmac_tcp " } ,
{ " tmac_udp " } ,
{ " rmac_vld_frms " } ,
{ " rmac_data_octets " } ,
{ " rmac_fcs_err_frms " } ,
{ " rmac_drop_frms " } ,
{ " rmac_vld_mcst_frms " } ,
{ " rmac_vld_bcst_frms " } ,
{ " rmac_in_rng_len_err_frms " } ,
{ " rmac_long_frms " } ,
{ " rmac_pause_ctrl_frms " } ,
{ " rmac_discarded_frms " } ,
{ " rmac_usized_frms " } ,
{ " rmac_osized_frms " } ,
{ " rmac_frag_frms " } ,
{ " rmac_jabber_frms " } ,
{ " rmac_ip " } ,
{ " rmac_ip_octets " } ,
{ " rmac_hdr_err_ip " } ,
{ " rmac_drop_ip " } ,
{ " rmac_icmp " } ,
{ " rmac_tcp " } ,
{ " rmac_udp " } ,
{ " rmac_err_drp_udp " } ,
{ " rmac_pause_cnt " } ,
{ " rmac_accepted_ip " } ,
{ " rmac_err_tcp " } ,
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{ " \n DRIVER STATISTICS " } ,
{ " single_bit_ecc_errs " } ,
{ " double_bit_ecc_errs " } ,
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} ;
# define S2IO_STAT_LEN sizeof(ethtool_stats_keys) / ETH_GSTRING_LEN
# define S2IO_STAT_STRINGS_LEN S2IO_STAT_LEN * ETH_GSTRING_LEN
# define S2IO_TEST_LEN sizeof(s2io_gstrings) / ETH_GSTRING_LEN
# define S2IO_STRINGS_LEN S2IO_TEST_LEN * ETH_GSTRING_LEN
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# define S2IO_TIMER_CONF(timer, handle, arg, exp) \
init_timer ( & timer ) ; \
timer . function = handle ; \
timer . data = ( unsigned long ) arg ; \
mod_timer ( & timer , ( jiffies + exp ) ) \
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/* Add the vlan */
static void s2io_vlan_rx_register ( struct net_device * dev ,
struct vlan_group * grp )
{
nic_t * nic = dev - > priv ;
unsigned long flags ;
spin_lock_irqsave ( & nic - > tx_lock , flags ) ;
nic - > vlgrp = grp ;
spin_unlock_irqrestore ( & nic - > tx_lock , flags ) ;
}
/* Unregister the vlan */
static void s2io_vlan_rx_kill_vid ( struct net_device * dev , unsigned long vid )
{
nic_t * nic = dev - > priv ;
unsigned long flags ;
spin_lock_irqsave ( & nic - > tx_lock , flags ) ;
if ( nic - > vlgrp )
nic - > vlgrp - > vlan_devices [ vid ] = NULL ;
spin_unlock_irqrestore ( & nic - > tx_lock , flags ) ;
}
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/*
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* Constants to be programmed into the Xena ' s registers , to configure
* the XAUI .
*/
# define SWITCH_SIGN 0xA5A5A5A5A5A5A5A5ULL
# define END_SIGN 0x0
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static u64 herc_act_dtx_cfg [ ] = {
/* Set address */
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0x8000051536750000ULL , 0x80000515367500E0ULL ,
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/* Write data */
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0x8000051536750004ULL , 0x80000515367500E4ULL ,
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/* Set address */
0x80010515003F0000ULL , 0x80010515003F00E0ULL ,
/* Write data */
0x80010515003F0004ULL , 0x80010515003F00E4ULL ,
/* Set address */
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0x801205150D440000ULL , 0x801205150D4400E0ULL ,
/* Write data */
0x801205150D440004ULL , 0x801205150D4400E4ULL ,
/* Set address */
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0x80020515F2100000ULL , 0x80020515F21000E0ULL ,
/* Write data */
0x80020515F2100004ULL , 0x80020515F21000E4ULL ,
/* Done */
END_SIGN
} ;
static u64 xena_mdio_cfg [ ] = {
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/* Reset PMA PLL */
0xC001010000000000ULL , 0xC0010100000000E0ULL ,
0xC0010100008000E4ULL ,
/* Remove Reset from PMA PLL */
0xC001010000000000ULL , 0xC0010100000000E0ULL ,
0xC0010100000000E4ULL ,
END_SIGN
} ;
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static u64 xena_dtx_cfg [ ] = {
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0x8000051500000000ULL , 0x80000515000000E0ULL ,
0x80000515D93500E4ULL , 0x8001051500000000ULL ,
0x80010515000000E0ULL , 0x80010515001E00E4ULL ,
0x8002051500000000ULL , 0x80020515000000E0ULL ,
0x80020515F21000E4ULL ,
/* Set PADLOOPBACKN */
0x8002051500000000ULL , 0x80020515000000E0ULL ,
0x80020515B20000E4ULL , 0x8003051500000000ULL ,
0x80030515000000E0ULL , 0x80030515B20000E4ULL ,
0x8004051500000000ULL , 0x80040515000000E0ULL ,
0x80040515B20000E4ULL , 0x8005051500000000ULL ,
0x80050515000000E0ULL , 0x80050515B20000E4ULL ,
SWITCH_SIGN ,
/* Remove PADLOOPBACKN */
0x8002051500000000ULL , 0x80020515000000E0ULL ,
0x80020515F20000E4ULL , 0x8003051500000000ULL ,
0x80030515000000E0ULL , 0x80030515F20000E4ULL ,
0x8004051500000000ULL , 0x80040515000000E0ULL ,
0x80040515F20000E4ULL , 0x8005051500000000ULL ,
0x80050515000000E0ULL , 0x80050515F20000E4ULL ,
END_SIGN
} ;
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/*
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* Constants for Fixing the MacAddress problem seen mostly on
* Alpha machines .
*/
static u64 fix_mac [ ] = {
0x0060000000000000ULL , 0x0060600000000000ULL ,
0x0040600000000000ULL , 0x0000600000000000ULL ,
0x0020600000000000ULL , 0x0060600000000000ULL ,
0x0020600000000000ULL , 0x0060600000000000ULL ,
0x0020600000000000ULL , 0x0060600000000000ULL ,
0x0020600000000000ULL , 0x0060600000000000ULL ,
0x0020600000000000ULL , 0x0060600000000000ULL ,
0x0020600000000000ULL , 0x0060600000000000ULL ,
0x0020600000000000ULL , 0x0060600000000000ULL ,
0x0020600000000000ULL , 0x0060600000000000ULL ,
0x0020600000000000ULL , 0x0060600000000000ULL ,
0x0020600000000000ULL , 0x0060600000000000ULL ,
0x0020600000000000ULL , 0x0000600000000000ULL ,
0x0040600000000000ULL , 0x0060600000000000ULL ,
END_SIGN
} ;
/* Module Loadable parameters. */
static unsigned int tx_fifo_num = 1 ;
static unsigned int tx_fifo_len [ MAX_TX_FIFOS ] =
{ [ 0 . . . ( MAX_TX_FIFOS - 1 ) ] = 0 } ;
static unsigned int rx_ring_num = 1 ;
static unsigned int rx_ring_sz [ MAX_RX_RINGS ] =
{ [ 0 . . . ( MAX_RX_RINGS - 1 ) ] = 0 } ;
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static unsigned int rts_frm_len [ MAX_RX_RINGS ] =
{ [ 0 . . . ( MAX_RX_RINGS - 1 ) ] = 0 } ;
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static unsigned int use_continuous_tx_intrs = 1 ;
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static unsigned int rmac_pause_time = 65535 ;
static unsigned int mc_pause_threshold_q0q3 = 187 ;
static unsigned int mc_pause_threshold_q4q7 = 187 ;
static unsigned int shared_splits ;
static unsigned int tmac_util_period = 5 ;
static unsigned int rmac_util_period = 5 ;
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static unsigned int bimodal = 0 ;
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# ifndef CONFIG_S2IO_NAPI
static unsigned int indicate_max_pkts ;
# endif
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/* Frequency of Rx desc syncs expressed as power of 2 */
static unsigned int rxsync_frequency = 3 ;
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/*
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* S2IO device table .
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* This table lists all the devices that this driver supports .
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*/
static struct pci_device_id s2io_tbl [ ] __devinitdata = {
{ PCI_VENDOR_ID_S2IO , PCI_DEVICE_ID_S2IO_WIN ,
PCI_ANY_ID , PCI_ANY_ID } ,
{ PCI_VENDOR_ID_S2IO , PCI_DEVICE_ID_S2IO_UNI ,
PCI_ANY_ID , PCI_ANY_ID } ,
{ PCI_VENDOR_ID_S2IO , PCI_DEVICE_ID_HERC_WIN ,
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PCI_ANY_ID , PCI_ANY_ID } ,
{ PCI_VENDOR_ID_S2IO , PCI_DEVICE_ID_HERC_UNI ,
PCI_ANY_ID , PCI_ANY_ID } ,
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{ 0 , }
} ;
MODULE_DEVICE_TABLE ( pci , s2io_tbl ) ;
static struct pci_driver s2io_driver = {
. name = " S2IO " ,
. id_table = s2io_tbl ,
. probe = s2io_init_nic ,
. remove = __devexit_p ( s2io_rem_nic ) ,
} ;
/* A simplifier macro used both by init and free shared_mem Fns(). */
# define TXD_MEM_PAGE_CNT(len, per_each) ((len+per_each - 1) / per_each)
/**
* init_shared_mem - Allocation and Initialization of Memory
* @ nic : Device private variable .
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* Description : The function allocates all the memory areas shared
* between the NIC and the driver . This includes Tx descriptors ,
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* Rx descriptors and the statistics block .
*/
static int init_shared_mem ( struct s2io_nic * nic )
{
u32 size ;
void * tmp_v_addr , * tmp_v_addr_next ;
dma_addr_t tmp_p_addr , tmp_p_addr_next ;
RxD_block_t * pre_rxd_blk = NULL ;
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int i , j , blk_cnt , rx_sz , tx_sz ;
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int lst_size , lst_per_page ;
struct net_device * dev = nic - > dev ;
# ifdef CONFIG_2BUFF_MODE
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unsigned long tmp ;
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buffAdd_t * ba ;
# endif
mac_info_t * mac_control ;
struct config_param * config ;
mac_control = & nic - > mac_control ;
config = & nic - > config ;
/* Allocation and initialization of TXDLs in FIOFs */
size = 0 ;
for ( i = 0 ; i < config - > tx_fifo_num ; i + + ) {
size + = config - > tx_cfg [ i ] . fifo_len ;
}
if ( size > MAX_AVAILABLE_TXDS ) {
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DBG_PRINT ( ERR_DBG , " %s: Requested TxDs too high, " ,
__FUNCTION__ ) ;
DBG_PRINT ( ERR_DBG , " Requested: %d, max supported: 8192 \n " , size ) ;
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return FAILURE ;
}
lst_size = ( sizeof ( TxD_t ) * config - > max_txds ) ;
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tx_sz = lst_size * size ;
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lst_per_page = PAGE_SIZE / lst_size ;
for ( i = 0 ; i < config - > tx_fifo_num ; i + + ) {
int fifo_len = config - > tx_cfg [ i ] . fifo_len ;
int list_holder_size = fifo_len * sizeof ( list_info_hold_t ) ;
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mac_control - > fifos [ i ] . list_info = kmalloc ( list_holder_size ,
GFP_KERNEL ) ;
if ( ! mac_control - > fifos [ i ] . list_info ) {
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DBG_PRINT ( ERR_DBG ,
" Malloc failed for list_info \n " ) ;
return - ENOMEM ;
}
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memset ( mac_control - > fifos [ i ] . list_info , 0 , list_holder_size ) ;
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}
for ( i = 0 ; i < config - > tx_fifo_num ; i + + ) {
int page_num = TXD_MEM_PAGE_CNT ( config - > tx_cfg [ i ] . fifo_len ,
lst_per_page ) ;
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mac_control - > fifos [ i ] . tx_curr_put_info . offset = 0 ;
mac_control - > fifos [ i ] . tx_curr_put_info . fifo_len =
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config - > tx_cfg [ i ] . fifo_len - 1 ;
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mac_control - > fifos [ i ] . tx_curr_get_info . offset = 0 ;
mac_control - > fifos [ i ] . tx_curr_get_info . fifo_len =
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config - > tx_cfg [ i ] . fifo_len - 1 ;
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mac_control - > fifos [ i ] . fifo_no = i ;
mac_control - > fifos [ i ] . nic = nic ;
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mac_control - > fifos [ i ] . max_txds = MAX_SKB_FRAGS + 1 ;
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for ( j = 0 ; j < page_num ; j + + ) {
int k = 0 ;
dma_addr_t tmp_p ;
void * tmp_v ;
tmp_v = pci_alloc_consistent ( nic - > pdev ,
PAGE_SIZE , & tmp_p ) ;
if ( ! tmp_v ) {
DBG_PRINT ( ERR_DBG ,
" pci_alloc_consistent " ) ;
DBG_PRINT ( ERR_DBG , " failed for TxDL \n " ) ;
return - ENOMEM ;
}
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/* If we got a zero DMA address(can happen on
* certain platforms like PPC ) , reallocate .
* Store virtual address of page we don ' t want ,
* to be freed later .
*/
if ( ! tmp_p ) {
mac_control - > zerodma_virt_addr = tmp_v ;
DBG_PRINT ( INIT_DBG ,
" %s: Zero DMA address for TxDL. " , dev - > name ) ;
DBG_PRINT ( INIT_DBG ,
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" Virtual address %p \n " , tmp_v ) ;
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tmp_v = pci_alloc_consistent ( nic - > pdev ,
PAGE_SIZE , & tmp_p ) ;
if ( ! tmp_v ) {
DBG_PRINT ( ERR_DBG ,
" pci_alloc_consistent " ) ;
DBG_PRINT ( ERR_DBG , " failed for TxDL \n " ) ;
return - ENOMEM ;
}
}
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while ( k < lst_per_page ) {
int l = ( j * lst_per_page ) + k ;
if ( l = = config - > tx_cfg [ i ] . fifo_len )
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break ;
mac_control - > fifos [ i ] . list_info [ l ] . list_virt_addr =
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tmp_v + ( k * lst_size ) ;
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mac_control - > fifos [ i ] . list_info [ l ] . list_phy_addr =
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tmp_p + ( k * lst_size ) ;
k + + ;
}
}
}
/* Allocation and initialization of RXDs in Rings */
size = 0 ;
for ( i = 0 ; i < config - > rx_ring_num ; i + + ) {
if ( config - > rx_cfg [ i ] . num_rxd % ( MAX_RXDS_PER_BLOCK + 1 ) ) {
DBG_PRINT ( ERR_DBG , " %s: RxD count of " , dev - > name ) ;
DBG_PRINT ( ERR_DBG , " Ring%d is not a multiple of " ,
i ) ;
DBG_PRINT ( ERR_DBG , " RxDs per Block " ) ;
return FAILURE ;
}
size + = config - > rx_cfg [ i ] . num_rxd ;
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mac_control - > rings [ i ] . block_count =
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config - > rx_cfg [ i ] . num_rxd / ( MAX_RXDS_PER_BLOCK + 1 ) ;
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mac_control - > rings [ i ] . pkt_cnt =
config - > rx_cfg [ i ] . num_rxd - mac_control - > rings [ i ] . block_count ;
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}
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size = ( size * ( sizeof ( RxD_t ) ) ) ;
rx_sz = size ;
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for ( i = 0 ; i < config - > rx_ring_num ; i + + ) {
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mac_control - > rings [ i ] . rx_curr_get_info . block_index = 0 ;
mac_control - > rings [ i ] . rx_curr_get_info . offset = 0 ;
mac_control - > rings [ i ] . rx_curr_get_info . ring_len =
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config - > rx_cfg [ i ] . num_rxd - 1 ;
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mac_control - > rings [ i ] . rx_curr_put_info . block_index = 0 ;
mac_control - > rings [ i ] . rx_curr_put_info . offset = 0 ;
mac_control - > rings [ i ] . rx_curr_put_info . ring_len =
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config - > rx_cfg [ i ] . num_rxd - 1 ;
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mac_control - > rings [ i ] . nic = nic ;
mac_control - > rings [ i ] . ring_no = i ;
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blk_cnt =
config - > rx_cfg [ i ] . num_rxd / ( MAX_RXDS_PER_BLOCK + 1 ) ;
/* Allocating all the Rx blocks */
for ( j = 0 ; j < blk_cnt ; j + + ) {
# ifndef CONFIG_2BUFF_MODE
size = ( MAX_RXDS_PER_BLOCK + 1 ) * ( sizeof ( RxD_t ) ) ;
# else
size = SIZE_OF_BLOCK ;
# endif
tmp_v_addr = pci_alloc_consistent ( nic - > pdev , size ,
& tmp_p_addr ) ;
if ( tmp_v_addr = = NULL ) {
/*
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* In case of failure , free_shared_mem ( )
* is called , which should free any
* memory that was alloced till the
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* failure happened .
*/
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mac_control - > rings [ i ] . rx_blocks [ j ] . block_virt_addr =
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tmp_v_addr ;
return - ENOMEM ;
}
memset ( tmp_v_addr , 0 , size ) ;
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mac_control - > rings [ i ] . rx_blocks [ j ] . block_virt_addr =
tmp_v_addr ;
mac_control - > rings [ i ] . rx_blocks [ j ] . block_dma_addr =
tmp_p_addr ;
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}
/* Interlinking all Rx Blocks */
for ( j = 0 ; j < blk_cnt ; j + + ) {
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tmp_v_addr =
mac_control - > rings [ i ] . rx_blocks [ j ] . block_virt_addr ;
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tmp_v_addr_next =
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mac_control - > rings [ i ] . rx_blocks [ ( j + 1 ) %
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blk_cnt ] . block_virt_addr ;
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tmp_p_addr =
mac_control - > rings [ i ] . rx_blocks [ j ] . block_dma_addr ;
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tmp_p_addr_next =
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mac_control - > rings [ i ] . rx_blocks [ ( j + 1 ) %
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blk_cnt ] . block_dma_addr ;
pre_rxd_blk = ( RxD_block_t * ) tmp_v_addr ;
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pre_rxd_blk - > reserved_1 = END_OF_BLOCK ; /* last RxD
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* marker .
*/
# ifndef CONFIG_2BUFF_MODE
pre_rxd_blk - > reserved_2_pNext_RxD_block =
( unsigned long ) tmp_v_addr_next ;
# endif
pre_rxd_blk - > pNext_RxD_Blk_physical =
( u64 ) tmp_p_addr_next ;
}
}
# ifdef CONFIG_2BUFF_MODE
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/*
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* Allocation of Storages for buffer addresses in 2 BUFF mode
* and the buffers as well .
*/
for ( i = 0 ; i < config - > rx_ring_num ; i + + ) {
blk_cnt =
config - > rx_cfg [ i ] . num_rxd / ( MAX_RXDS_PER_BLOCK + 1 ) ;
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mac_control - > rings [ i ] . ba = kmalloc ( ( sizeof ( buffAdd_t * ) * blk_cnt ) ,
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GFP_KERNEL ) ;
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if ( ! mac_control - > rings [ i ] . ba )
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return - ENOMEM ;
for ( j = 0 ; j < blk_cnt ; j + + ) {
int k = 0 ;
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mac_control - > rings [ i ] . ba [ j ] = kmalloc ( ( sizeof ( buffAdd_t ) *
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( MAX_RXDS_PER_BLOCK + 1 ) ) ,
GFP_KERNEL ) ;
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if ( ! mac_control - > rings [ i ] . ba [ j ] )
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return - ENOMEM ;
while ( k ! = MAX_RXDS_PER_BLOCK ) {
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ba = & mac_control - > rings [ i ] . ba [ j ] [ k ] ;
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ba - > ba_0_org = ( void * ) kmalloc
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( BUF0_LEN + ALIGN_SIZE , GFP_KERNEL ) ;
if ( ! ba - > ba_0_org )
return - ENOMEM ;
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tmp = ( unsigned long ) ba - > ba_0_org ;
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tmp + = ALIGN_SIZE ;
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tmp & = ~ ( ( unsigned long ) ALIGN_SIZE ) ;
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ba - > ba_0 = ( void * ) tmp ;
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ba - > ba_1_org = ( void * ) kmalloc
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( BUF1_LEN + ALIGN_SIZE , GFP_KERNEL ) ;
if ( ! ba - > ba_1_org )
return - ENOMEM ;
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tmp = ( unsigned long ) ba - > ba_1_org ;
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tmp + = ALIGN_SIZE ;
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tmp & = ~ ( ( unsigned long ) ALIGN_SIZE ) ;
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ba - > ba_1 = ( void * ) tmp ;
k + + ;
}
}
}
# endif
/* Allocation and initialization of Statistics block */
size = sizeof ( StatInfo_t ) ;
mac_control - > stats_mem = pci_alloc_consistent
( nic - > pdev , size , & mac_control - > stats_mem_phy ) ;
if ( ! mac_control - > stats_mem ) {
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/*
* In case of failure , free_shared_mem ( ) is called , which
* should free any memory that was alloced till the
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* failure happened .
*/
return - ENOMEM ;
}
mac_control - > stats_mem_sz = size ;
tmp_v_addr = mac_control - > stats_mem ;
mac_control - > stats_info = ( StatInfo_t * ) tmp_v_addr ;
memset ( tmp_v_addr , 0 , size ) ;
DBG_PRINT ( INIT_DBG , " %s:Ring Mem PHY: 0x%llx \n " , dev - > name ,
( unsigned long long ) tmp_p_addr ) ;
return SUCCESS ;
}
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/**
* free_shared_mem - Free the allocated Memory
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* @ nic : Device private variable .
* Description : This function is to free all memory locations allocated by
* the init_shared_mem ( ) function and return it to the kernel .
*/
static void free_shared_mem ( struct s2io_nic * nic )
{
int i , j , blk_cnt , size ;
void * tmp_v_addr ;
dma_addr_t tmp_p_addr ;
mac_info_t * mac_control ;
struct config_param * config ;
int lst_size , lst_per_page ;
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struct net_device * dev = nic - > dev ;
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if ( ! nic )
return ;
mac_control = & nic - > mac_control ;
config = & nic - > config ;
lst_size = ( sizeof ( TxD_t ) * config - > max_txds ) ;
lst_per_page = PAGE_SIZE / lst_size ;
for ( i = 0 ; i < config - > tx_fifo_num ; i + + ) {
int page_num = TXD_MEM_PAGE_CNT ( config - > tx_cfg [ i ] . fifo_len ,
lst_per_page ) ;
for ( j = 0 ; j < page_num ; j + + ) {
int mem_blks = ( j * lst_per_page ) ;
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if ( ! mac_control - > fifos [ i ] . list_info )
return ;
if ( ! mac_control - > fifos [ i ] . list_info [ mem_blks ] .
list_virt_addr )
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break ;
pci_free_consistent ( nic - > pdev , PAGE_SIZE ,
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mac_control - > fifos [ i ] .
list_info [ mem_blks ] .
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list_virt_addr ,
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mac_control - > fifos [ i ] .
list_info [ mem_blks ] .
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list_phy_addr ) ;
}
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/* If we got a zero DMA address during allocation,
* free the page now
*/
if ( mac_control - > zerodma_virt_addr ) {
pci_free_consistent ( nic - > pdev , PAGE_SIZE ,
mac_control - > zerodma_virt_addr ,
( dma_addr_t ) 0 ) ;
DBG_PRINT ( INIT_DBG ,
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" %s: Freeing TxDL with zero DMA addr. " ,
dev - > name ) ;
DBG_PRINT ( INIT_DBG , " Virtual address %p \n " ,
mac_control - > zerodma_virt_addr ) ;
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}
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kfree ( mac_control - > fifos [ i ] . list_info ) ;
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}
# ifndef CONFIG_2BUFF_MODE
size = ( MAX_RXDS_PER_BLOCK + 1 ) * ( sizeof ( RxD_t ) ) ;
# else
size = SIZE_OF_BLOCK ;
# endif
for ( i = 0 ; i < config - > rx_ring_num ; i + + ) {
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blk_cnt = mac_control - > rings [ i ] . block_count ;
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for ( j = 0 ; j < blk_cnt ; j + + ) {
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tmp_v_addr = mac_control - > rings [ i ] . rx_blocks [ j ] .
block_virt_addr ;
tmp_p_addr = mac_control - > rings [ i ] . rx_blocks [ j ] .
block_dma_addr ;
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if ( tmp_v_addr = = NULL )
break ;
pci_free_consistent ( nic - > pdev , size ,
tmp_v_addr , tmp_p_addr ) ;
}
}
# ifdef CONFIG_2BUFF_MODE
/* Freeing buffer storage addresses in 2BUFF mode. */
for ( i = 0 ; i < config - > rx_ring_num ; i + + ) {
blk_cnt =
config - > rx_cfg [ i ] . num_rxd / ( MAX_RXDS_PER_BLOCK + 1 ) ;
for ( j = 0 ; j < blk_cnt ; j + + ) {
int k = 0 ;
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if ( ! mac_control - > rings [ i ] . ba [ j ] )
continue ;
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while ( k ! = MAX_RXDS_PER_BLOCK ) {
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buffAdd_t * ba = & mac_control - > rings [ i ] . ba [ j ] [ k ] ;
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kfree ( ba - > ba_0_org ) ;
kfree ( ba - > ba_1_org ) ;
k + + ;
}
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kfree ( mac_control - > rings [ i ] . ba [ j ] ) ;
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}
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if ( mac_control - > rings [ i ] . ba )
kfree ( mac_control - > rings [ i ] . ba ) ;
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}
# endif
if ( mac_control - > stats_mem ) {
pci_free_consistent ( nic - > pdev ,
mac_control - > stats_mem_sz ,
mac_control - > stats_mem ,
mac_control - > stats_mem_phy ) ;
}
}
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/**
* s2io_verify_pci_mode -
*/
static int s2io_verify_pci_mode ( nic_t * nic )
{
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XENA_dev_config_t __iomem * bar0 = nic - > bar0 ;
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register u64 val64 = 0 ;
int mode ;
val64 = readq ( & bar0 - > pci_mode ) ;
mode = ( u8 ) GET_PCI_MODE ( val64 ) ;
if ( val64 & PCI_MODE_UNKNOWN_MODE )
return - 1 ; /* Unknown PCI mode */
return mode ;
}
/**
* s2io_print_pci_mode -
*/
static int s2io_print_pci_mode ( nic_t * nic )
{
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XENA_dev_config_t __iomem * bar0 = nic - > bar0 ;
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register u64 val64 = 0 ;
int mode ;
struct config_param * config = & nic - > config ;
val64 = readq ( & bar0 - > pci_mode ) ;
mode = ( u8 ) GET_PCI_MODE ( val64 ) ;
if ( val64 & PCI_MODE_UNKNOWN_MODE )
return - 1 ; /* Unknown PCI mode */
if ( val64 & PCI_MODE_32_BITS ) {
DBG_PRINT ( ERR_DBG , " %s: Device is on 32 bit " , nic - > dev - > name ) ;
} else {
DBG_PRINT ( ERR_DBG , " %s: Device is on 64 bit " , nic - > dev - > name ) ;
}
switch ( mode ) {
case PCI_MODE_PCI_33 :
DBG_PRINT ( ERR_DBG , " 33MHz PCI bus \n " ) ;
config - > bus_speed = 33 ;
break ;
case PCI_MODE_PCI_66 :
DBG_PRINT ( ERR_DBG , " 66MHz PCI bus \n " ) ;
config - > bus_speed = 133 ;
break ;
case PCI_MODE_PCIX_M1_66 :
DBG_PRINT ( ERR_DBG , " 66MHz PCIX(M1) bus \n " ) ;
config - > bus_speed = 133 ; /* Herc doubles the clock rate */
break ;
case PCI_MODE_PCIX_M1_100 :
DBG_PRINT ( ERR_DBG , " 100MHz PCIX(M1) bus \n " ) ;
config - > bus_speed = 200 ;
break ;
case PCI_MODE_PCIX_M1_133 :
DBG_PRINT ( ERR_DBG , " 133MHz PCIX(M1) bus \n " ) ;
config - > bus_speed = 266 ;
break ;
case PCI_MODE_PCIX_M2_66 :
DBG_PRINT ( ERR_DBG , " 133MHz PCIX(M2) bus \n " ) ;
config - > bus_speed = 133 ;
break ;
case PCI_MODE_PCIX_M2_100 :
DBG_PRINT ( ERR_DBG , " 200MHz PCIX(M2) bus \n " ) ;
config - > bus_speed = 200 ;
break ;
case PCI_MODE_PCIX_M2_133 :
DBG_PRINT ( ERR_DBG , " 266MHz PCIX(M2) bus \n " ) ;
config - > bus_speed = 266 ;
break ;
default :
return - 1 ; /* Unsupported bus speed */
}
return mode ;
}
2005-08-03 23:24:33 +04:00
/**
* init_nic - Initialization of hardware
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* @ nic : device peivate variable
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* Description : The function sequentially configures every block
* of the H / W from their reset values .
* Return Value : SUCCESS on success and
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* ' - 1 ' on failure ( endian settings incorrect ) .
*/
static int init_nic ( struct s2io_nic * nic )
{
XENA_dev_config_t __iomem * bar0 = nic - > bar0 ;
struct net_device * dev = nic - > dev ;
register u64 val64 = 0 ;
void __iomem * add ;
u32 time ;
int i , j ;
mac_info_t * mac_control ;
struct config_param * config ;
int mdio_cnt = 0 , dtx_cnt = 0 ;
unsigned long long mem_share ;
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int mem_size ;
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mac_control = & nic - > mac_control ;
config = & nic - > config ;
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/* to set the swapper controle on the card */
2005-08-03 23:24:33 +04:00
if ( s2io_set_swapper ( nic ) ) {
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DBG_PRINT ( ERR_DBG , " ERROR: Setting Swapper failed \n " ) ;
return - 1 ;
}
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/*
* Herc requires EOI to be removed from reset before XGXS , so . .
*/
if ( nic - > device_type & XFRAME_II_DEVICE ) {
val64 = 0xA500000000ULL ;
writeq ( val64 , & bar0 - > sw_reset ) ;
msleep ( 500 ) ;
val64 = readq ( & bar0 - > sw_reset ) ;
}
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/* Remove XGXS from reset state */
val64 = 0 ;
writeq ( val64 , & bar0 - > sw_reset ) ;
msleep ( 500 ) ;
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val64 = readq ( & bar0 - > sw_reset ) ;
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/* Enable Receiving broadcasts */
add = & bar0 - > mac_cfg ;
val64 = readq ( & bar0 - > mac_cfg ) ;
val64 | = MAC_RMAC_BCAST_ENABLE ;
writeq ( RMAC_CFG_KEY ( 0x4C0D ) , & bar0 - > rmac_cfg_key ) ;
writel ( ( u32 ) val64 , add ) ;
writeq ( RMAC_CFG_KEY ( 0x4C0D ) , & bar0 - > rmac_cfg_key ) ;
writel ( ( u32 ) ( val64 > > 32 ) , ( add + 4 ) ) ;
/* Read registers in all blocks */
val64 = readq ( & bar0 - > mac_int_mask ) ;
val64 = readq ( & bar0 - > mc_int_mask ) ;
val64 = readq ( & bar0 - > xgxs_int_mask ) ;
/* Set MTU */
val64 = dev - > mtu ;
writeq ( vBIT ( val64 , 2 , 14 ) , & bar0 - > rmac_max_pyld_len ) ;
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/*
* Configuring the XAUI Interface of Xena .
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* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
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* To Configure the Xena ' s XAUI , one has to write a series
* of 64 bit values into two registers in a particular
* sequence . Hence a macro ' SWITCH_SIGN ' has been defined
* which will be defined in the array of configuration values
2005-08-03 23:36:55 +04:00
* ( xena_dtx_cfg & xena_mdio_cfg ) at appropriate places
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* to switch writing from one regsiter to another . We continue
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* writing these values until we encounter the ' END_SIGN ' macro .
2005-08-03 23:24:33 +04:00
* For example , After making a series of 21 writes into
* dtx_control register the ' SWITCH_SIGN ' appears and hence we
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* start writing into mdio_control until we encounter END_SIGN .
*/
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if ( nic - > device_type & XFRAME_II_DEVICE ) {
while ( herc_act_dtx_cfg [ dtx_cnt ] ! = END_SIGN ) {
2005-08-03 23:41:38 +04:00
SPECIAL_REG_WRITE ( herc_act_dtx_cfg [ dtx_cnt ] ,
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& bar0 - > dtx_control , UF ) ;
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if ( dtx_cnt & 0x1 )
msleep ( 1 ) ; /* Necessary!! */
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dtx_cnt + + ;
}
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} else {
while ( 1 ) {
dtx_cfg :
while ( xena_dtx_cfg [ dtx_cnt ] ! = END_SIGN ) {
if ( xena_dtx_cfg [ dtx_cnt ] = = SWITCH_SIGN ) {
dtx_cnt + + ;
goto mdio_cfg ;
}
SPECIAL_REG_WRITE ( xena_dtx_cfg [ dtx_cnt ] ,
& bar0 - > dtx_control , UF ) ;
val64 = readq ( & bar0 - > dtx_control ) ;
dtx_cnt + + ;
}
mdio_cfg :
while ( xena_mdio_cfg [ mdio_cnt ] ! = END_SIGN ) {
if ( xena_mdio_cfg [ mdio_cnt ] = = SWITCH_SIGN ) {
mdio_cnt + + ;
goto dtx_cfg ;
}
SPECIAL_REG_WRITE ( xena_mdio_cfg [ mdio_cnt ] ,
& bar0 - > mdio_control , UF ) ;
val64 = readq ( & bar0 - > mdio_control ) ;
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mdio_cnt + + ;
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}
if ( ( xena_dtx_cfg [ dtx_cnt ] = = END_SIGN ) & &
( xena_mdio_cfg [ mdio_cnt ] = = END_SIGN ) ) {
break ;
} else {
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goto dtx_cfg ;
}
}
}
/* Tx DMA Initialization */
val64 = 0 ;
writeq ( val64 , & bar0 - > tx_fifo_partition_0 ) ;
writeq ( val64 , & bar0 - > tx_fifo_partition_1 ) ;
writeq ( val64 , & bar0 - > tx_fifo_partition_2 ) ;
writeq ( val64 , & bar0 - > tx_fifo_partition_3 ) ;
for ( i = 0 , j = 0 ; i < config - > tx_fifo_num ; i + + ) {
val64 | =
vBIT ( config - > tx_cfg [ i ] . fifo_len - 1 , ( ( i * 32 ) + 19 ) ,
13 ) | vBIT ( config - > tx_cfg [ i ] . fifo_priority ,
( ( i * 32 ) + 5 ) , 3 ) ;
if ( i = = ( config - > tx_fifo_num - 1 ) ) {
if ( i % 2 = = 0 )
i + + ;
}
switch ( i ) {
case 1 :
writeq ( val64 , & bar0 - > tx_fifo_partition_0 ) ;
val64 = 0 ;
break ;
case 3 :
writeq ( val64 , & bar0 - > tx_fifo_partition_1 ) ;
val64 = 0 ;
break ;
case 5 :
writeq ( val64 , & bar0 - > tx_fifo_partition_2 ) ;
val64 = 0 ;
break ;
case 7 :
writeq ( val64 , & bar0 - > tx_fifo_partition_3 ) ;
break ;
}
}
/* Enable Tx FIFO partition 0. */
val64 = readq ( & bar0 - > tx_fifo_partition_0 ) ;
val64 | = BIT ( 0 ) ; /* To enable the FIFO partition. */
writeq ( val64 , & bar0 - > tx_fifo_partition_0 ) ;
2005-08-03 23:27:09 +04:00
/*
* Disable 4 PCCs for Xena1 , 2 and 3 as per H / W bug
* SXE - 00 8 TRANSMIT DMA ARBITRATION ISSUE .
*/
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if ( ( nic - > device_type = = XFRAME_I_DEVICE ) & &
( get_xena_rev_id ( nic - > pdev ) < 4 ) )
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writeq ( PCC_ENABLE_FOUR , & bar0 - > pcc_enable ) ;
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val64 = readq ( & bar0 - > tx_fifo_partition_0 ) ;
DBG_PRINT ( INIT_DBG , " Fifo partition at: 0x%p is: 0x%llx \n " ,
& bar0 - > tx_fifo_partition_0 , ( unsigned long long ) val64 ) ;
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/*
* Initialization of Tx_PA_CONFIG register to ignore packet
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* integrity checking .
*/
val64 = readq ( & bar0 - > tx_pa_cfg ) ;
val64 | = TX_PA_CFG_IGNORE_FRM_ERR | TX_PA_CFG_IGNORE_SNAP_OUI |
TX_PA_CFG_IGNORE_LLC_CTRL | TX_PA_CFG_IGNORE_L2_ERR ;
writeq ( val64 , & bar0 - > tx_pa_cfg ) ;
/* Rx DMA intialization. */
val64 = 0 ;
for ( i = 0 ; i < config - > rx_ring_num ; i + + ) {
val64 | =
vBIT ( config - > rx_cfg [ i ] . ring_priority , ( 5 + ( i * 8 ) ) ,
3 ) ;
}
writeq ( val64 , & bar0 - > rx_queue_priority ) ;
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/*
* Allocating equal share of memory to all the
2005-04-17 02:20:36 +04:00
* configured Rings .
*/
val64 = 0 ;
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if ( nic - > device_type & XFRAME_II_DEVICE )
mem_size = 32 ;
else
mem_size = 64 ;
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for ( i = 0 ; i < config - > rx_ring_num ; i + + ) {
switch ( i ) {
case 0 :
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mem_share = ( mem_size / config - > rx_ring_num +
mem_size % config - > rx_ring_num ) ;
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val64 | = RX_QUEUE_CFG_Q0_SZ ( mem_share ) ;
continue ;
case 1 :
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mem_share = ( mem_size / config - > rx_ring_num ) ;
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val64 | = RX_QUEUE_CFG_Q1_SZ ( mem_share ) ;
continue ;
case 2 :
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mem_share = ( mem_size / config - > rx_ring_num ) ;
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val64 | = RX_QUEUE_CFG_Q2_SZ ( mem_share ) ;
continue ;
case 3 :
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mem_share = ( mem_size / config - > rx_ring_num ) ;
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val64 | = RX_QUEUE_CFG_Q3_SZ ( mem_share ) ;
continue ;
case 4 :
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mem_share = ( mem_size / config - > rx_ring_num ) ;
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val64 | = RX_QUEUE_CFG_Q4_SZ ( mem_share ) ;
continue ;
case 5 :
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mem_share = ( mem_size / config - > rx_ring_num ) ;
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val64 | = RX_QUEUE_CFG_Q5_SZ ( mem_share ) ;
continue ;
case 6 :
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mem_share = ( mem_size / config - > rx_ring_num ) ;
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val64 | = RX_QUEUE_CFG_Q6_SZ ( mem_share ) ;
continue ;
case 7 :
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mem_share = ( mem_size / config - > rx_ring_num ) ;
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val64 | = RX_QUEUE_CFG_Q7_SZ ( mem_share ) ;
continue ;
}
}
writeq ( val64 , & bar0 - > rx_queue_cfg ) ;
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/*
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* Filling Tx round robin registers
* as per the number of FIFOs
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*/
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switch ( config - > tx_fifo_num ) {
case 1 :
val64 = 0x0000000000000000ULL ;
writeq ( val64 , & bar0 - > tx_w_round_robin_0 ) ;
writeq ( val64 , & bar0 - > tx_w_round_robin_1 ) ;
writeq ( val64 , & bar0 - > tx_w_round_robin_2 ) ;
writeq ( val64 , & bar0 - > tx_w_round_robin_3 ) ;
writeq ( val64 , & bar0 - > tx_w_round_robin_4 ) ;
break ;
case 2 :
val64 = 0x0000010000010000ULL ;
writeq ( val64 , & bar0 - > tx_w_round_robin_0 ) ;
val64 = 0x0100000100000100ULL ;
writeq ( val64 , & bar0 - > tx_w_round_robin_1 ) ;
val64 = 0x0001000001000001ULL ;
writeq ( val64 , & bar0 - > tx_w_round_robin_2 ) ;
val64 = 0x0000010000010000ULL ;
writeq ( val64 , & bar0 - > tx_w_round_robin_3 ) ;
val64 = 0x0100000000000000ULL ;
writeq ( val64 , & bar0 - > tx_w_round_robin_4 ) ;
break ;
case 3 :
val64 = 0x0001000102000001ULL ;
writeq ( val64 , & bar0 - > tx_w_round_robin_0 ) ;
val64 = 0x0001020000010001ULL ;
writeq ( val64 , & bar0 - > tx_w_round_robin_1 ) ;
val64 = 0x0200000100010200ULL ;
writeq ( val64 , & bar0 - > tx_w_round_robin_2 ) ;
val64 = 0x0001000102000001ULL ;
writeq ( val64 , & bar0 - > tx_w_round_robin_3 ) ;
val64 = 0x0001020000000000ULL ;
writeq ( val64 , & bar0 - > tx_w_round_robin_4 ) ;
break ;
case 4 :
val64 = 0x0001020300010200ULL ;
writeq ( val64 , & bar0 - > tx_w_round_robin_0 ) ;
val64 = 0x0100000102030001ULL ;
writeq ( val64 , & bar0 - > tx_w_round_robin_1 ) ;
val64 = 0x0200010000010203ULL ;
writeq ( val64 , & bar0 - > tx_w_round_robin_2 ) ;
val64 = 0x0001020001000001ULL ;
writeq ( val64 , & bar0 - > tx_w_round_robin_3 ) ;
val64 = 0x0203000100000000ULL ;
writeq ( val64 , & bar0 - > tx_w_round_robin_4 ) ;
break ;
case 5 :
val64 = 0x0001000203000102ULL ;
writeq ( val64 , & bar0 - > tx_w_round_robin_0 ) ;
val64 = 0x0001020001030004ULL ;
writeq ( val64 , & bar0 - > tx_w_round_robin_1 ) ;
val64 = 0x0001000203000102ULL ;
writeq ( val64 , & bar0 - > tx_w_round_robin_2 ) ;
val64 = 0x0001020001030004ULL ;
writeq ( val64 , & bar0 - > tx_w_round_robin_3 ) ;
val64 = 0x0001000000000000ULL ;
writeq ( val64 , & bar0 - > tx_w_round_robin_4 ) ;
break ;
case 6 :
val64 = 0x0001020304000102ULL ;
writeq ( val64 , & bar0 - > tx_w_round_robin_0 ) ;
val64 = 0x0304050001020001ULL ;
writeq ( val64 , & bar0 - > tx_w_round_robin_1 ) ;
val64 = 0x0203000100000102ULL ;
writeq ( val64 , & bar0 - > tx_w_round_robin_2 ) ;
val64 = 0x0304000102030405ULL ;
writeq ( val64 , & bar0 - > tx_w_round_robin_3 ) ;
val64 = 0x0001000200000000ULL ;
writeq ( val64 , & bar0 - > tx_w_round_robin_4 ) ;
break ;
case 7 :
val64 = 0x0001020001020300ULL ;
writeq ( val64 , & bar0 - > tx_w_round_robin_0 ) ;
val64 = 0x0102030400010203ULL ;
writeq ( val64 , & bar0 - > tx_w_round_robin_1 ) ;
val64 = 0x0405060001020001ULL ;
writeq ( val64 , & bar0 - > tx_w_round_robin_2 ) ;
val64 = 0x0304050000010200ULL ;
writeq ( val64 , & bar0 - > tx_w_round_robin_3 ) ;
val64 = 0x0102030000000000ULL ;
writeq ( val64 , & bar0 - > tx_w_round_robin_4 ) ;
break ;
case 8 :
val64 = 0x0001020300040105ULL ;
writeq ( val64 , & bar0 - > tx_w_round_robin_0 ) ;
val64 = 0x0200030106000204ULL ;
writeq ( val64 , & bar0 - > tx_w_round_robin_1 ) ;
val64 = 0x0103000502010007ULL ;
writeq ( val64 , & bar0 - > tx_w_round_robin_2 ) ;
val64 = 0x0304010002060500ULL ;
writeq ( val64 , & bar0 - > tx_w_round_robin_3 ) ;
val64 = 0x0103020400000000ULL ;
writeq ( val64 , & bar0 - > tx_w_round_robin_4 ) ;
break ;
}
/* Filling the Rx round robin registers as per the
* number of Rings and steering based on QoS .
*/
switch ( config - > rx_ring_num ) {
case 1 :
val64 = 0x8080808080808080ULL ;
writeq ( val64 , & bar0 - > rts_qos_steering ) ;
break ;
case 2 :
val64 = 0x0000010000010000ULL ;
writeq ( val64 , & bar0 - > rx_w_round_robin_0 ) ;
val64 = 0x0100000100000100ULL ;
writeq ( val64 , & bar0 - > rx_w_round_robin_1 ) ;
val64 = 0x0001000001000001ULL ;
writeq ( val64 , & bar0 - > rx_w_round_robin_2 ) ;
val64 = 0x0000010000010000ULL ;
writeq ( val64 , & bar0 - > rx_w_round_robin_3 ) ;
val64 = 0x0100000000000000ULL ;
writeq ( val64 , & bar0 - > rx_w_round_robin_4 ) ;
val64 = 0x8080808040404040ULL ;
writeq ( val64 , & bar0 - > rts_qos_steering ) ;
break ;
case 3 :
val64 = 0x0001000102000001ULL ;
writeq ( val64 , & bar0 - > rx_w_round_robin_0 ) ;
val64 = 0x0001020000010001ULL ;
writeq ( val64 , & bar0 - > rx_w_round_robin_1 ) ;
val64 = 0x0200000100010200ULL ;
writeq ( val64 , & bar0 - > rx_w_round_robin_2 ) ;
val64 = 0x0001000102000001ULL ;
writeq ( val64 , & bar0 - > rx_w_round_robin_3 ) ;
val64 = 0x0001020000000000ULL ;
writeq ( val64 , & bar0 - > rx_w_round_robin_4 ) ;
val64 = 0x8080804040402020ULL ;
writeq ( val64 , & bar0 - > rts_qos_steering ) ;
break ;
case 4 :
val64 = 0x0001020300010200ULL ;
writeq ( val64 , & bar0 - > rx_w_round_robin_0 ) ;
val64 = 0x0100000102030001ULL ;
writeq ( val64 , & bar0 - > rx_w_round_robin_1 ) ;
val64 = 0x0200010000010203ULL ;
writeq ( val64 , & bar0 - > rx_w_round_robin_2 ) ;
val64 = 0x0001020001000001ULL ;
writeq ( val64 , & bar0 - > rx_w_round_robin_3 ) ;
val64 = 0x0203000100000000ULL ;
writeq ( val64 , & bar0 - > rx_w_round_robin_4 ) ;
val64 = 0x8080404020201010ULL ;
writeq ( val64 , & bar0 - > rts_qos_steering ) ;
break ;
case 5 :
val64 = 0x0001000203000102ULL ;
writeq ( val64 , & bar0 - > rx_w_round_robin_0 ) ;
val64 = 0x0001020001030004ULL ;
writeq ( val64 , & bar0 - > rx_w_round_robin_1 ) ;
val64 = 0x0001000203000102ULL ;
writeq ( val64 , & bar0 - > rx_w_round_robin_2 ) ;
val64 = 0x0001020001030004ULL ;
writeq ( val64 , & bar0 - > rx_w_round_robin_3 ) ;
val64 = 0x0001000000000000ULL ;
writeq ( val64 , & bar0 - > rx_w_round_robin_4 ) ;
val64 = 0x8080404020201008ULL ;
writeq ( val64 , & bar0 - > rts_qos_steering ) ;
break ;
case 6 :
val64 = 0x0001020304000102ULL ;
writeq ( val64 , & bar0 - > rx_w_round_robin_0 ) ;
val64 = 0x0304050001020001ULL ;
writeq ( val64 , & bar0 - > rx_w_round_robin_1 ) ;
val64 = 0x0203000100000102ULL ;
writeq ( val64 , & bar0 - > rx_w_round_robin_2 ) ;
val64 = 0x0304000102030405ULL ;
writeq ( val64 , & bar0 - > rx_w_round_robin_3 ) ;
val64 = 0x0001000200000000ULL ;
writeq ( val64 , & bar0 - > rx_w_round_robin_4 ) ;
val64 = 0x8080404020100804ULL ;
writeq ( val64 , & bar0 - > rts_qos_steering ) ;
break ;
case 7 :
val64 = 0x0001020001020300ULL ;
writeq ( val64 , & bar0 - > rx_w_round_robin_0 ) ;
val64 = 0x0102030400010203ULL ;
writeq ( val64 , & bar0 - > rx_w_round_robin_1 ) ;
val64 = 0x0405060001020001ULL ;
writeq ( val64 , & bar0 - > rx_w_round_robin_2 ) ;
val64 = 0x0304050000010200ULL ;
writeq ( val64 , & bar0 - > rx_w_round_robin_3 ) ;
val64 = 0x0102030000000000ULL ;
writeq ( val64 , & bar0 - > rx_w_round_robin_4 ) ;
val64 = 0x8080402010080402ULL ;
writeq ( val64 , & bar0 - > rts_qos_steering ) ;
break ;
case 8 :
val64 = 0x0001020300040105ULL ;
writeq ( val64 , & bar0 - > rx_w_round_robin_0 ) ;
val64 = 0x0200030106000204ULL ;
writeq ( val64 , & bar0 - > rx_w_round_robin_1 ) ;
val64 = 0x0103000502010007ULL ;
writeq ( val64 , & bar0 - > rx_w_round_robin_2 ) ;
val64 = 0x0304010002060500ULL ;
writeq ( val64 , & bar0 - > rx_w_round_robin_3 ) ;
val64 = 0x0103020400000000ULL ;
writeq ( val64 , & bar0 - > rx_w_round_robin_4 ) ;
val64 = 0x8040201008040201ULL ;
writeq ( val64 , & bar0 - > rts_qos_steering ) ;
break ;
}
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/* UDP Fix */
val64 = 0 ;
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for ( i = 0 ; i < 8 ; i + + )
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writeq ( val64 , & bar0 - > rts_frm_len_n [ i ] ) ;
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/* Set the default rts frame length for the rings configured */
val64 = MAC_RTS_FRM_LEN_SET ( dev - > mtu + 22 ) ;
for ( i = 0 ; i < config - > rx_ring_num ; i + + )
writeq ( val64 , & bar0 - > rts_frm_len_n [ i ] ) ;
/* Set the frame length for the configured rings
* desired by the user
*/
for ( i = 0 ; i < config - > rx_ring_num ; i + + ) {
/* If rts_frm_len[i] == 0 then it is assumed that user not
* specified frame length steering .
* If the user provides the frame length then program
* the rts_frm_len register for those values or else
* leave it as it is .
*/
if ( rts_frm_len [ i ] ! = 0 ) {
writeq ( MAC_RTS_FRM_LEN_SET ( rts_frm_len [ i ] ) ,
& bar0 - > rts_frm_len_n [ i ] ) ;
}
}
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/* Program statistics memory */
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writeq ( mac_control - > stats_mem_phy , & bar0 - > stat_addr ) ;
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if ( nic - > device_type = = XFRAME_II_DEVICE ) {
val64 = STAT_BC ( 0x320 ) ;
writeq ( val64 , & bar0 - > stat_byte_cnt ) ;
}
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/*
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* Initializing the sampling rate for the device to calculate the
* bandwidth utilization .
*/
val64 = MAC_TX_LINK_UTIL_VAL ( tmac_util_period ) |
MAC_RX_LINK_UTIL_VAL ( rmac_util_period ) ;
writeq ( val64 , & bar0 - > mac_link_util ) ;
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/*
* Initializing the Transmit and Receive Traffic Interrupt
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* Scheme .
*/
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/*
* TTI Initialization . Default Tx timer gets us about
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* 250 interrupts per sec . Continuous interrupts are enabled
* by default .
*/
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if ( nic - > device_type = = XFRAME_II_DEVICE ) {
int count = ( nic - > config . bus_speed * 125 ) / 2 ;
val64 = TTI_DATA1_MEM_TX_TIMER_VAL ( count ) ;
} else {
val64 = TTI_DATA1_MEM_TX_TIMER_VAL ( 0x2078 ) ;
}
val64 | = TTI_DATA1_MEM_TX_URNG_A ( 0xA ) |
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TTI_DATA1_MEM_TX_URNG_B ( 0x10 ) |
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TTI_DATA1_MEM_TX_URNG_C ( 0x30 ) | TTI_DATA1_MEM_TX_TIMER_AC_EN ;
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if ( use_continuous_tx_intrs )
val64 | = TTI_DATA1_MEM_TX_TIMER_CI_EN ;
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writeq ( val64 , & bar0 - > tti_data1_mem ) ;
val64 = TTI_DATA2_MEM_TX_UFC_A ( 0x10 ) |
TTI_DATA2_MEM_TX_UFC_B ( 0x20 ) |
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TTI_DATA2_MEM_TX_UFC_C ( 0x70 ) | TTI_DATA2_MEM_TX_UFC_D ( 0x80 ) ;
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writeq ( val64 , & bar0 - > tti_data2_mem ) ;
val64 = TTI_CMD_MEM_WE | TTI_CMD_MEM_STROBE_NEW_CMD ;
writeq ( val64 , & bar0 - > tti_command_mem ) ;
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/*
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* Once the operation completes , the Strobe bit of the command
* register will be reset . We poll for this particular condition
* We wait for a maximum of 500 ms for the operation to complete ,
* if it ' s not complete by then we return error .
*/
time = 0 ;
while ( TRUE ) {
val64 = readq ( & bar0 - > tti_command_mem ) ;
if ( ! ( val64 & TTI_CMD_MEM_STROBE_NEW_CMD ) ) {
break ;
}
if ( time > 10 ) {
DBG_PRINT ( ERR_DBG , " %s: TTI init Failed \n " ,
dev - > name ) ;
return - 1 ;
}
msleep ( 50 ) ;
time + + ;
}
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if ( nic - > config . bimodal ) {
int k = 0 ;
for ( k = 0 ; k < config - > rx_ring_num ; k + + ) {
val64 = TTI_CMD_MEM_WE | TTI_CMD_MEM_STROBE_NEW_CMD ;
val64 | = TTI_CMD_MEM_OFFSET ( 0x38 + k ) ;
writeq ( val64 , & bar0 - > tti_command_mem ) ;
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/*
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* Once the operation completes , the Strobe bit of the command
* register will be reset . We poll for this particular condition
* We wait for a maximum of 500 ms for the operation to complete ,
* if it ' s not complete by then we return error .
*/
time = 0 ;
while ( TRUE ) {
val64 = readq ( & bar0 - > tti_command_mem ) ;
if ( ! ( val64 & TTI_CMD_MEM_STROBE_NEW_CMD ) ) {
break ;
}
if ( time > 10 ) {
DBG_PRINT ( ERR_DBG ,
" %s: TTI init Failed \n " ,
dev - > name ) ;
return - 1 ;
}
time + + ;
msleep ( 50 ) ;
}
}
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} else {
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/* RTI Initialization */
if ( nic - > device_type = = XFRAME_II_DEVICE ) {
/*
* Programmed to generate Apprx 500 Intrs per
* second
*/
int count = ( nic - > config . bus_speed * 125 ) / 4 ;
val64 = RTI_DATA1_MEM_RX_TIMER_VAL ( count ) ;
} else {
val64 = RTI_DATA1_MEM_RX_TIMER_VAL ( 0xFFF ) ;
}
val64 | = RTI_DATA1_MEM_RX_URNG_A ( 0xA ) |
RTI_DATA1_MEM_RX_URNG_B ( 0x10 ) |
RTI_DATA1_MEM_RX_URNG_C ( 0x30 ) | RTI_DATA1_MEM_RX_TIMER_AC_EN ;
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writeq ( val64 , & bar0 - > rti_data1_mem ) ;
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2005-08-03 23:38:01 +04:00
val64 = RTI_DATA2_MEM_RX_UFC_A ( 0x1 ) |
RTI_DATA2_MEM_RX_UFC_B ( 0x2 ) |
RTI_DATA2_MEM_RX_UFC_C ( 0x40 ) | RTI_DATA2_MEM_RX_UFC_D ( 0x80 ) ;
writeq ( val64 , & bar0 - > rti_data2_mem ) ;
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for ( i = 0 ; i < config - > rx_ring_num ; i + + ) {
val64 = RTI_CMD_MEM_WE | RTI_CMD_MEM_STROBE_NEW_CMD
| RTI_CMD_MEM_OFFSET ( i ) ;
writeq ( val64 , & bar0 - > rti_command_mem ) ;
/*
* Once the operation completes , the Strobe bit of the
* command register will be reset . We poll for this
* particular condition . We wait for a maximum of 500 ms
* for the operation to complete , if it ' s not complete
* by then we return error .
*/
time = 0 ;
while ( TRUE ) {
val64 = readq ( & bar0 - > rti_command_mem ) ;
if ( ! ( val64 & RTI_CMD_MEM_STROBE_NEW_CMD ) ) {
break ;
}
if ( time > 10 ) {
DBG_PRINT ( ERR_DBG , " %s: RTI init Failed \n " ,
dev - > name ) ;
return - 1 ;
}
time + + ;
msleep ( 50 ) ;
}
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}
}
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/*
* Initializing proper values as Pause threshold into all
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* the 8 Queues on Rx side .
*/
writeq ( 0xffbbffbbffbbffbbULL , & bar0 - > mc_pause_thresh_q0q3 ) ;
writeq ( 0xffbbffbbffbbffbbULL , & bar0 - > mc_pause_thresh_q4q7 ) ;
/* Disable RMAC PAD STRIPPING */
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add = & bar0 - > mac_cfg ;
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val64 = readq ( & bar0 - > mac_cfg ) ;
val64 & = ~ ( MAC_CFG_RMAC_STRIP_PAD ) ;
writeq ( RMAC_CFG_KEY ( 0x4C0D ) , & bar0 - > rmac_cfg_key ) ;
writel ( ( u32 ) ( val64 ) , add ) ;
writeq ( RMAC_CFG_KEY ( 0x4C0D ) , & bar0 - > rmac_cfg_key ) ;
writel ( ( u32 ) ( val64 > > 32 ) , ( add + 4 ) ) ;
val64 = readq ( & bar0 - > mac_cfg ) ;
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/*
* Set the time value to be inserted in the pause frame
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* generated by xena .
*/
val64 = readq ( & bar0 - > rmac_pause_cfg ) ;
val64 & = ~ ( RMAC_PAUSE_HG_PTIME ( 0xffff ) ) ;
val64 | = RMAC_PAUSE_HG_PTIME ( nic - > mac_control . rmac_pause_time ) ;
writeq ( val64 , & bar0 - > rmac_pause_cfg ) ;
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/*
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* Set the Threshold Limit for Generating the pause frame
* If the amount of data in any Queue exceeds ratio of
* ( mac_control . mc_pause_threshold_q0q3 or q4q7 ) / 256
* pause frame is generated
*/
val64 = 0 ;
for ( i = 0 ; i < 4 ; i + + ) {
val64 | =
( ( ( u64 ) 0xFF00 | nic - > mac_control .
mc_pause_threshold_q0q3 )
< < ( i * 2 * 8 ) ) ;
}
writeq ( val64 , & bar0 - > mc_pause_thresh_q0q3 ) ;
val64 = 0 ;
for ( i = 0 ; i < 4 ; i + + ) {
val64 | =
( ( ( u64 ) 0xFF00 | nic - > mac_control .
mc_pause_threshold_q4q7 )
< < ( i * 2 * 8 ) ) ;
}
writeq ( val64 , & bar0 - > mc_pause_thresh_q4q7 ) ;
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/*
* TxDMA will stop Read request if the number of read split has
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* exceeded the limit pointed by shared_splits
*/
val64 = readq ( & bar0 - > pic_control ) ;
val64 | = PIC_CNTL_SHARED_SPLITS ( shared_splits ) ;
writeq ( val64 , & bar0 - > pic_control ) ;
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/*
* Programming the Herc to split every write transaction
* that does not start on an ADB to reduce disconnects .
*/
if ( nic - > device_type = = XFRAME_II_DEVICE ) {
val64 = WREQ_SPLIT_MASK_SET_MASK ( 255 ) ;
writeq ( val64 , & bar0 - > wreq_split_mask ) ;
}
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/* Setting Link stability period to 64 ms */
if ( nic - > device_type = = XFRAME_II_DEVICE ) {
val64 = MISC_LINK_STABILITY_PRD ( 3 ) ;
writeq ( val64 , & bar0 - > misc_control ) ;
}
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return SUCCESS ;
}
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# define LINK_UP_DOWN_INTERRUPT 1
# define MAC_RMAC_ERR_TIMER 2
# if defined(CONFIG_MSI_MODE) || defined(CONFIG_MSIX_MODE)
# define s2io_link_fault_indication(x) MAC_RMAC_ERR_TIMER
# else
int s2io_link_fault_indication ( nic_t * nic )
{
if ( nic - > device_type = = XFRAME_II_DEVICE )
return LINK_UP_DOWN_INTERRUPT ;
else
return MAC_RMAC_ERR_TIMER ;
}
# endif
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/**
* en_dis_able_nic_intrs - Enable or Disable the interrupts
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* @ nic : device private variable ,
* @ mask : A mask indicating which Intr block must be modified and ,
* @ flag : A flag indicating whether to enable or disable the Intrs .
* Description : This function will either disable or enable the interrupts
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* depending on the flag argument . The mask argument can be used to
* enable / disable any Intr block .
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* Return Value : NONE .
*/
static void en_dis_able_nic_intrs ( struct s2io_nic * nic , u16 mask , int flag )
{
XENA_dev_config_t __iomem * bar0 = nic - > bar0 ;
register u64 val64 = 0 , temp64 = 0 ;
/* Top level interrupt classification */
/* PIC Interrupts */
if ( ( mask & ( TX_PIC_INTR | RX_PIC_INTR ) ) ) {
/* Enable PIC Intrs in the general intr mask register */
val64 = TXPIC_INT_M | PIC_RX_INT_M ;
if ( flag = = ENABLE_INTRS ) {
temp64 = readq ( & bar0 - > general_int_mask ) ;
temp64 & = ~ ( ( u64 ) val64 ) ;
writeq ( temp64 , & bar0 - > general_int_mask ) ;
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/*
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* If Hercules adapter enable GPIO otherwise
* disabled all PCIX , Flash , MDIO , IIC and GPIO
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* interrupts for now .
* TODO
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*/
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if ( s2io_link_fault_indication ( nic ) = =
LINK_UP_DOWN_INTERRUPT ) {
temp64 = readq ( & bar0 - > pic_int_mask ) ;
temp64 & = ~ ( ( u64 ) PIC_INT_GPIO ) ;
writeq ( temp64 , & bar0 - > pic_int_mask ) ;
temp64 = readq ( & bar0 - > gpio_int_mask ) ;
temp64 & = ~ ( ( u64 ) GPIO_INT_MASK_LINK_UP ) ;
writeq ( temp64 , & bar0 - > gpio_int_mask ) ;
} else {
writeq ( DISABLE_ALL_INTRS , & bar0 - > pic_int_mask ) ;
}
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/*
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* No MSI Support is available presently , so TTI and
* RTI interrupts are also disabled .
*/
} else if ( flag = = DISABLE_INTRS ) {
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/*
* Disable PIC Intrs in the general
* intr mask register
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*/
writeq ( DISABLE_ALL_INTRS , & bar0 - > pic_int_mask ) ;
temp64 = readq ( & bar0 - > general_int_mask ) ;
val64 | = temp64 ;
writeq ( val64 , & bar0 - > general_int_mask ) ;
}
}
/* DMA Interrupts */
/* Enabling/Disabling Tx DMA interrupts */
if ( mask & TX_DMA_INTR ) {
/* Enable TxDMA Intrs in the general intr mask register */
val64 = TXDMA_INT_M ;
if ( flag = = ENABLE_INTRS ) {
temp64 = readq ( & bar0 - > general_int_mask ) ;
temp64 & = ~ ( ( u64 ) val64 ) ;
writeq ( temp64 , & bar0 - > general_int_mask ) ;
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/*
* Keep all interrupts other than PFC interrupt
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* and PCC interrupt disabled in DMA level .
*/
val64 = DISABLE_ALL_INTRS & ~ ( TXDMA_PFC_INT_M |
TXDMA_PCC_INT_M ) ;
writeq ( val64 , & bar0 - > txdma_int_mask ) ;
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/*
* Enable only the MISC error 1 interrupt in PFC block
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*/
val64 = DISABLE_ALL_INTRS & ( ~ PFC_MISC_ERR_1 ) ;
writeq ( val64 , & bar0 - > pfc_err_mask ) ;
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/*
* Enable only the FB_ECC error interrupt in PCC block
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*/
val64 = DISABLE_ALL_INTRS & ( ~ PCC_FB_ECC_ERR ) ;
writeq ( val64 , & bar0 - > pcc_err_mask ) ;
} else if ( flag = = DISABLE_INTRS ) {
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/*
* Disable TxDMA Intrs in the general intr mask
* register
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*/
writeq ( DISABLE_ALL_INTRS , & bar0 - > txdma_int_mask ) ;
writeq ( DISABLE_ALL_INTRS , & bar0 - > pfc_err_mask ) ;
temp64 = readq ( & bar0 - > general_int_mask ) ;
val64 | = temp64 ;
writeq ( val64 , & bar0 - > general_int_mask ) ;
}
}
/* Enabling/Disabling Rx DMA interrupts */
if ( mask & RX_DMA_INTR ) {
/* Enable RxDMA Intrs in the general intr mask register */
val64 = RXDMA_INT_M ;
if ( flag = = ENABLE_INTRS ) {
temp64 = readq ( & bar0 - > general_int_mask ) ;
temp64 & = ~ ( ( u64 ) val64 ) ;
writeq ( temp64 , & bar0 - > general_int_mask ) ;
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/*
* All RxDMA block interrupts are disabled for now
* TODO
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*/
writeq ( DISABLE_ALL_INTRS , & bar0 - > rxdma_int_mask ) ;
} else if ( flag = = DISABLE_INTRS ) {
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/*
* Disable RxDMA Intrs in the general intr mask
* register
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*/
writeq ( DISABLE_ALL_INTRS , & bar0 - > rxdma_int_mask ) ;
temp64 = readq ( & bar0 - > general_int_mask ) ;
val64 | = temp64 ;
writeq ( val64 , & bar0 - > general_int_mask ) ;
}
}
/* MAC Interrupts */
/* Enabling/Disabling MAC interrupts */
if ( mask & ( TX_MAC_INTR | RX_MAC_INTR ) ) {
val64 = TXMAC_INT_M | RXMAC_INT_M ;
if ( flag = = ENABLE_INTRS ) {
temp64 = readq ( & bar0 - > general_int_mask ) ;
temp64 & = ~ ( ( u64 ) val64 ) ;
writeq ( temp64 , & bar0 - > general_int_mask ) ;
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/*
* All MAC block error interrupts are disabled for now
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* TODO
*/
} else if ( flag = = DISABLE_INTRS ) {
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/*
* Disable MAC Intrs in the general intr mask register
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*/
writeq ( DISABLE_ALL_INTRS , & bar0 - > mac_int_mask ) ;
writeq ( DISABLE_ALL_INTRS ,
& bar0 - > mac_rmac_err_mask ) ;
temp64 = readq ( & bar0 - > general_int_mask ) ;
val64 | = temp64 ;
writeq ( val64 , & bar0 - > general_int_mask ) ;
}
}
/* XGXS Interrupts */
if ( mask & ( TX_XGXS_INTR | RX_XGXS_INTR ) ) {
val64 = TXXGXS_INT_M | RXXGXS_INT_M ;
if ( flag = = ENABLE_INTRS ) {
temp64 = readq ( & bar0 - > general_int_mask ) ;
temp64 & = ~ ( ( u64 ) val64 ) ;
writeq ( temp64 , & bar0 - > general_int_mask ) ;
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/*
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* All XGXS block error interrupts are disabled for now
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* TODO
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*/
writeq ( DISABLE_ALL_INTRS , & bar0 - > xgxs_int_mask ) ;
} else if ( flag = = DISABLE_INTRS ) {
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/*
* Disable MC Intrs in the general intr mask register
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*/
writeq ( DISABLE_ALL_INTRS , & bar0 - > xgxs_int_mask ) ;
temp64 = readq ( & bar0 - > general_int_mask ) ;
val64 | = temp64 ;
writeq ( val64 , & bar0 - > general_int_mask ) ;
}
}
/* Memory Controller(MC) interrupts */
if ( mask & MC_INTR ) {
val64 = MC_INT_M ;
if ( flag = = ENABLE_INTRS ) {
temp64 = readq ( & bar0 - > general_int_mask ) ;
temp64 & = ~ ( ( u64 ) val64 ) ;
writeq ( temp64 , & bar0 - > general_int_mask ) ;
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/*
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* Enable all MC Intrs .
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*/
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writeq ( 0x0 , & bar0 - > mc_int_mask ) ;
writeq ( 0x0 , & bar0 - > mc_err_mask ) ;
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} else if ( flag = = DISABLE_INTRS ) {
/*
* Disable MC Intrs in the general intr mask register
*/
writeq ( DISABLE_ALL_INTRS , & bar0 - > mc_int_mask ) ;
temp64 = readq ( & bar0 - > general_int_mask ) ;
val64 | = temp64 ;
writeq ( val64 , & bar0 - > general_int_mask ) ;
}
}
/* Tx traffic interrupts */
if ( mask & TX_TRAFFIC_INTR ) {
val64 = TXTRAFFIC_INT_M ;
if ( flag = = ENABLE_INTRS ) {
temp64 = readq ( & bar0 - > general_int_mask ) ;
temp64 & = ~ ( ( u64 ) val64 ) ;
writeq ( temp64 , & bar0 - > general_int_mask ) ;
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/*
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* Enable all the Tx side interrupts
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* writing 0 Enables all 64 TX interrupt levels
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*/
writeq ( 0x0 , & bar0 - > tx_traffic_mask ) ;
} else if ( flag = = DISABLE_INTRS ) {
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/*
* Disable Tx Traffic Intrs in the general intr mask
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* register .
*/
writeq ( DISABLE_ALL_INTRS , & bar0 - > tx_traffic_mask ) ;
temp64 = readq ( & bar0 - > general_int_mask ) ;
val64 | = temp64 ;
writeq ( val64 , & bar0 - > general_int_mask ) ;
}
}
/* Rx traffic interrupts */
if ( mask & RX_TRAFFIC_INTR ) {
val64 = RXTRAFFIC_INT_M ;
if ( flag = = ENABLE_INTRS ) {
temp64 = readq ( & bar0 - > general_int_mask ) ;
temp64 & = ~ ( ( u64 ) val64 ) ;
writeq ( temp64 , & bar0 - > general_int_mask ) ;
/* writing 0 Enables all 8 RX interrupt levels */
writeq ( 0x0 , & bar0 - > rx_traffic_mask ) ;
} else if ( flag = = DISABLE_INTRS ) {
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/*
* Disable Rx Traffic Intrs in the general intr mask
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* register .
*/
writeq ( DISABLE_ALL_INTRS , & bar0 - > rx_traffic_mask ) ;
temp64 = readq ( & bar0 - > general_int_mask ) ;
val64 | = temp64 ;
writeq ( val64 , & bar0 - > general_int_mask ) ;
}
}
}
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static int check_prc_pcc_state ( u64 val64 , int flag , int rev_id , int herc )
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{
int ret = 0 ;
if ( flag = = FALSE ) {
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if ( ( ! herc & & ( rev_id > = 4 ) ) | | herc ) {
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if ( ! ( val64 & ADAPTER_STATUS_RMAC_PCC_IDLE ) & &
( ( val64 & ADAPTER_STATUS_RC_PRC_QUIESCENT ) = =
ADAPTER_STATUS_RC_PRC_QUIESCENT ) ) {
ret = 1 ;
}
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} else {
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if ( ! ( val64 & ADAPTER_STATUS_RMAC_PCC_FOUR_IDLE ) & &
( ( val64 & ADAPTER_STATUS_RC_PRC_QUIESCENT ) = =
ADAPTER_STATUS_RC_PRC_QUIESCENT ) ) {
ret = 1 ;
}
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}
} else {
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if ( ( ! herc & & ( rev_id > = 4 ) ) | | herc ) {
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if ( ( ( val64 & ADAPTER_STATUS_RMAC_PCC_IDLE ) = =
ADAPTER_STATUS_RMAC_PCC_IDLE ) & &
( ! ( val64 & ADAPTER_STATUS_RC_PRC_QUIESCENT ) | |
( ( val64 & ADAPTER_STATUS_RC_PRC_QUIESCENT ) = =
ADAPTER_STATUS_RC_PRC_QUIESCENT ) ) ) {
ret = 1 ;
}
} else {
if ( ( ( val64 & ADAPTER_STATUS_RMAC_PCC_FOUR_IDLE ) = =
ADAPTER_STATUS_RMAC_PCC_FOUR_IDLE ) & &
( ! ( val64 & ADAPTER_STATUS_RC_PRC_QUIESCENT ) | |
( ( val64 & ADAPTER_STATUS_RC_PRC_QUIESCENT ) = =
ADAPTER_STATUS_RC_PRC_QUIESCENT ) ) ) {
ret = 1 ;
}
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}
}
return ret ;
}
/**
* verify_xena_quiescence - Checks whether the H / W is ready
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* @ val64 : Value read from adapter status register .
* @ flag : indicates if the adapter enable bit was ever written once
* before .
* Description : Returns whether the H / W is ready to go or not . Depending
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* on whether adapter enable bit was written or not the comparison
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* differs and the calling function passes the input argument flag to
* indicate this .
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* Return : 1 If xena is quiescence
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* 0 If Xena is not quiescence
*/
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static int verify_xena_quiescence ( nic_t * sp , u64 val64 , int flag )
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{
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int ret = 0 , herc ;
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u64 tmp64 = ~ ( ( u64 ) val64 ) ;
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int rev_id = get_xena_rev_id ( sp - > pdev ) ;
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herc = ( sp - > device_type = = XFRAME_II_DEVICE ) ;
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if ( !
( tmp64 &
( ADAPTER_STATUS_TDMA_READY | ADAPTER_STATUS_RDMA_READY |
ADAPTER_STATUS_PFC_READY | ADAPTER_STATUS_TMAC_BUF_EMPTY |
ADAPTER_STATUS_PIC_QUIESCENT | ADAPTER_STATUS_MC_DRAM_READY |
ADAPTER_STATUS_MC_QUEUES_READY | ADAPTER_STATUS_M_PLL_LOCK |
ADAPTER_STATUS_P_PLL_LOCK ) ) ) {
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ret = check_prc_pcc_state ( val64 , flag , rev_id , herc ) ;
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}
return ret ;
}
/**
* fix_mac_address - Fix for Mac addr problem on Alpha platforms
* @ sp : Pointer to device specifc structure
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* Description :
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* New procedure to clear mac address reading problems on Alpha platforms
*
*/
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void fix_mac_address ( nic_t * sp )
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{
XENA_dev_config_t __iomem * bar0 = sp - > bar0 ;
u64 val64 ;
int i = 0 ;
while ( fix_mac [ i ] ! = END_SIGN ) {
writeq ( fix_mac [ i + + ] , & bar0 - > gpio_control ) ;
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udelay ( 10 ) ;
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val64 = readq ( & bar0 - > gpio_control ) ;
}
}
/**
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* start_nic - Turns the device on
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* @ nic : device private variable .
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* Description :
* This function actually turns the device on . Before this function is
* called , all Registers are configured from their reset states
* and shared memory is allocated but the NIC is still quiescent . On
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* calling this function , the device interrupts are cleared and the NIC is
* literally switched on by writing into the adapter control register .
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* Return Value :
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* SUCCESS on success and - 1 on failure .
*/
static int start_nic ( struct s2io_nic * nic )
{
XENA_dev_config_t __iomem * bar0 = nic - > bar0 ;
struct net_device * dev = nic - > dev ;
register u64 val64 = 0 ;
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u16 interruptible ;
u16 subid , i ;
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mac_info_t * mac_control ;
struct config_param * config ;
mac_control = & nic - > mac_control ;
config = & nic - > config ;
/* PRC Initialization and configuration */
for ( i = 0 ; i < config - > rx_ring_num ; i + + ) {
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writeq ( ( u64 ) mac_control - > rings [ i ] . rx_blocks [ 0 ] . block_dma_addr ,
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& bar0 - > prc_rxd0_n [ i ] ) ;
val64 = readq ( & bar0 - > prc_ctrl_n [ i ] ) ;
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if ( nic - > config . bimodal )
val64 | = PRC_CTRL_BIMODAL_INTERRUPT ;
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# ifndef CONFIG_2BUFF_MODE
val64 | = PRC_CTRL_RC_ENABLED ;
# else
val64 | = PRC_CTRL_RC_ENABLED | PRC_CTRL_RING_MODE_3 ;
# endif
writeq ( val64 , & bar0 - > prc_ctrl_n [ i ] ) ;
}
# ifdef CONFIG_2BUFF_MODE
/* Enabling 2 buffer mode by writing into Rx_pa_cfg reg. */
val64 = readq ( & bar0 - > rx_pa_cfg ) ;
val64 | = RX_PA_CFG_IGNORE_L2_ERR ;
writeq ( val64 , & bar0 - > rx_pa_cfg ) ;
# endif
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/*
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* Enabling MC - RLDRAM . After enabling the device , we timeout
* for around 100 ms , which is approximately the time required
* for the device to be ready for operation .
*/
val64 = readq ( & bar0 - > mc_rldram_mrs ) ;
val64 | = MC_RLDRAM_QUEUE_SIZE_ENABLE | MC_RLDRAM_MRS_ENABLE ;
SPECIAL_REG_WRITE ( val64 , & bar0 - > mc_rldram_mrs , UF ) ;
val64 = readq ( & bar0 - > mc_rldram_mrs ) ;
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msleep ( 100 ) ; /* Delay by around 100 ms. */
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/* Enabling ECC Protection. */
val64 = readq ( & bar0 - > adapter_control ) ;
val64 & = ~ ADAPTER_ECC_EN ;
writeq ( val64 , & bar0 - > adapter_control ) ;
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/*
* Clearing any possible Link state change interrupts that
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* could have popped up just before Enabling the card .
*/
val64 = readq ( & bar0 - > mac_rmac_err_reg ) ;
if ( val64 )
writeq ( val64 , & bar0 - > mac_rmac_err_reg ) ;
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/*
* Verify if the device is ready to be enabled , if so enable
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* it .
*/
val64 = readq ( & bar0 - > adapter_status ) ;
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if ( ! verify_xena_quiescence ( nic , val64 , nic - > device_enabled_once ) ) {
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DBG_PRINT ( ERR_DBG , " %s: device is not ready, " , dev - > name ) ;
DBG_PRINT ( ERR_DBG , " Adapter status reads: 0x%llx \n " ,
( unsigned long long ) val64 ) ;
return FAILURE ;
}
/* Enable select interrupts */
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interruptible = TX_TRAFFIC_INTR | RX_TRAFFIC_INTR ;
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interruptible | = TX_PIC_INTR | RX_PIC_INTR ;
interruptible | = TX_MAC_INTR | RX_MAC_INTR ;
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en_dis_able_nic_intrs ( nic , interruptible , ENABLE_INTRS ) ;
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/*
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* With some switches , link might be already up at this point .
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* Because of this weird behavior , when we enable laser ,
* we may not get link . We need to handle this . We cannot
* figure out which switch is misbehaving . So we are forced to
* make a global change .
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*/
/* Enabling Laser. */
val64 = readq ( & bar0 - > adapter_control ) ;
val64 | = ADAPTER_EOI_TX_ON ;
writeq ( val64 , & bar0 - > adapter_control ) ;
/* SXE-002: Initialize link and activity LED */
subid = nic - > pdev - > subsystem_device ;
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if ( ( ( subid & 0xFF ) > = 0x07 ) & &
( nic - > device_type = = XFRAME_I_DEVICE ) ) {
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val64 = readq ( & bar0 - > gpio_control ) ;
val64 | = 0x0000800000000000ULL ;
writeq ( val64 , & bar0 - > gpio_control ) ;
val64 = 0x0411040400000000ULL ;
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writeq ( val64 , ( void __iomem * ) bar0 + 0x2700 ) ;
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}
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/*
* Don ' t see link state interrupts on certain switches , so
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* directly scheduling a link state task from here .
*/
schedule_work ( & nic - > set_link_task ) ;
return SUCCESS ;
}
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/**
* free_tx_buffers - Free all queued Tx buffers
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* @ nic : device private variable .
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* Description :
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* Free all queued Tx buffers .
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* Return Value : void
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*/
static void free_tx_buffers ( struct s2io_nic * nic )
{
struct net_device * dev = nic - > dev ;
struct sk_buff * skb ;
TxD_t * txdp ;
int i , j ;
mac_info_t * mac_control ;
struct config_param * config ;
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int cnt = 0 , frg_cnt ;
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mac_control = & nic - > mac_control ;
config = & nic - > config ;
for ( i = 0 ; i < config - > tx_fifo_num ; i + + ) {
for ( j = 0 ; j < config - > tx_cfg [ i ] . fifo_len - 1 ; j + + ) {
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txdp = ( TxD_t * ) mac_control - > fifos [ i ] . list_info [ j ] .
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list_virt_addr ;
skb =
( struct sk_buff * ) ( ( unsigned long ) txdp - >
Host_Control ) ;
if ( skb = = NULL ) {
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memset ( txdp , 0 , sizeof ( TxD_t ) *
config - > max_txds ) ;
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continue ;
}
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frg_cnt = skb_shinfo ( skb ) - > nr_frags ;
pci_unmap_single ( nic - > pdev , ( dma_addr_t )
txdp - > Buffer_Pointer ,
skb - > len - skb - > data_len ,
PCI_DMA_TODEVICE ) ;
if ( frg_cnt ) {
TxD_t * temp ;
temp = txdp ;
txdp + + ;
for ( j = 0 ; j < frg_cnt ; j + + , txdp + + ) {
skb_frag_t * frag =
& skb_shinfo ( skb ) - > frags [ j ] ;
pci_unmap_page ( nic - > pdev ,
( dma_addr_t )
txdp - >
Buffer_Pointer ,
frag - > size ,
PCI_DMA_TODEVICE ) ;
}
txdp = temp ;
}
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dev_kfree_skb ( skb ) ;
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memset ( txdp , 0 , sizeof ( TxD_t ) * config - > max_txds ) ;
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cnt + + ;
}
DBG_PRINT ( INTR_DBG ,
" %s:forcibly freeing %d skbs on FIFO%d \n " ,
dev - > name , cnt , i ) ;
2005-08-03 23:24:33 +04:00
mac_control - > fifos [ i ] . tx_curr_get_info . offset = 0 ;
mac_control - > fifos [ i ] . tx_curr_put_info . offset = 0 ;
2005-04-17 02:20:36 +04:00
}
}
2005-08-03 23:24:33 +04:00
/**
* stop_nic - To stop the nic
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* @ nic ; device private variable .
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* Description :
* This function does exactly the opposite of what the start_nic ( )
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* function does . This function is called to stop the device .
* Return Value :
* void .
*/
static void stop_nic ( struct s2io_nic * nic )
{
XENA_dev_config_t __iomem * bar0 = nic - > bar0 ;
register u64 val64 = 0 ;
u16 interruptible , i ;
mac_info_t * mac_control ;
struct config_param * config ;
mac_control = & nic - > mac_control ;
config = & nic - > config ;
/* Disable all interrupts */
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interruptible = TX_TRAFFIC_INTR | RX_TRAFFIC_INTR ;
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interruptible | = TX_PIC_INTR | RX_PIC_INTR ;
interruptible | = TX_MAC_INTR | RX_MAC_INTR ;
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en_dis_able_nic_intrs ( nic , interruptible , DISABLE_INTRS ) ;
/* Disable PRCs */
for ( i = 0 ; i < config - > rx_ring_num ; i + + ) {
val64 = readq ( & bar0 - > prc_ctrl_n [ i ] ) ;
val64 & = ~ ( ( u64 ) PRC_CTRL_RC_ENABLED ) ;
writeq ( val64 , & bar0 - > prc_ctrl_n [ i ] ) ;
}
}
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/**
* fill_rx_buffers - Allocates the Rx side skbs
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* @ nic : device private variable
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* @ ring_no : ring number
* Description :
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* The function allocates Rx side skbs and puts the physical
* address of these buffers into the RxD buffer pointers , so that the NIC
* can DMA the received frame into these locations .
* The NIC supports 3 receive modes , viz
* 1. single buffer ,
* 2. three buffer and
* 3. Five buffer modes .
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* Each mode defines how many fragments the received frame will be split
* up into by the NIC . The frame is split into L3 header , L4 Header ,
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* L4 payload in three buffer mode and in 5 buffer mode , L4 payload itself
* is split into 3 fragments . As of now only single buffer mode is
* supported .
* Return Value :
* SUCCESS on success or an appropriate - ve value on failure .
*/
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int fill_rx_buffers ( struct s2io_nic * nic , int ring_no )
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{
struct net_device * dev = nic - > dev ;
struct sk_buff * skb ;
RxD_t * rxdp ;
int off , off1 , size , block_no , block_no1 ;
int offset , offset1 ;
u32 alloc_tab = 0 ;
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u32 alloc_cnt ;
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mac_info_t * mac_control ;
struct config_param * config ;
# ifdef CONFIG_2BUFF_MODE
RxD_t * rxdpnext ;
int nextblk ;
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u64 tmp ;
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buffAdd_t * ba ;
dma_addr_t rxdpphys ;
# endif
# ifndef CONFIG_S2IO_NAPI
unsigned long flags ;
# endif
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RxD_t * first_rxdp = NULL ;
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mac_control = & nic - > mac_control ;
config = & nic - > config ;
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alloc_cnt = mac_control - > rings [ ring_no ] . pkt_cnt -
atomic_read ( & nic - > rx_bufs_left [ ring_no ] ) ;
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size = dev - > mtu + HEADER_ETHERNET_II_802_3_SIZE +
HEADER_802_2_SIZE + HEADER_SNAP_SIZE ;
while ( alloc_tab < alloc_cnt ) {
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block_no = mac_control - > rings [ ring_no ] . rx_curr_put_info .
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block_index ;
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block_no1 = mac_control - > rings [ ring_no ] . rx_curr_get_info .
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block_index ;
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off = mac_control - > rings [ ring_no ] . rx_curr_put_info . offset ;
off1 = mac_control - > rings [ ring_no ] . rx_curr_get_info . offset ;
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# ifndef CONFIG_2BUFF_MODE
offset = block_no * ( MAX_RXDS_PER_BLOCK + 1 ) + off ;
offset1 = block_no1 * ( MAX_RXDS_PER_BLOCK + 1 ) + off1 ;
# else
offset = block_no * ( MAX_RXDS_PER_BLOCK ) + off ;
offset1 = block_no1 * ( MAX_RXDS_PER_BLOCK ) + off1 ;
# endif
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rxdp = mac_control - > rings [ ring_no ] . rx_blocks [ block_no ] .
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block_virt_addr + off ;
if ( ( offset = = offset1 ) & & ( rxdp - > Host_Control ) ) {
DBG_PRINT ( INTR_DBG , " %s: Get and Put " , dev - > name ) ;
DBG_PRINT ( INTR_DBG , " info equated \n " ) ;
goto end ;
}
# ifndef CONFIG_2BUFF_MODE
if ( rxdp - > Control_1 = = END_OF_BLOCK ) {
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mac_control - > rings [ ring_no ] . rx_curr_put_info .
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block_index + + ;
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mac_control - > rings [ ring_no ] . rx_curr_put_info .
block_index % = mac_control - > rings [ ring_no ] . block_count ;
block_no = mac_control - > rings [ ring_no ] . rx_curr_put_info .
block_index ;
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off + + ;
off % = ( MAX_RXDS_PER_BLOCK + 1 ) ;
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mac_control - > rings [ ring_no ] . rx_curr_put_info . offset =
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off ;
rxdp = ( RxD_t * ) ( ( unsigned long ) rxdp - > Control_2 ) ;
DBG_PRINT ( INTR_DBG , " %s: Next block at: %p \n " ,
dev - > name , rxdp ) ;
}
# ifndef CONFIG_S2IO_NAPI
spin_lock_irqsave ( & nic - > put_lock , flags ) ;
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mac_control - > rings [ ring_no ] . put_pos =
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( block_no * ( MAX_RXDS_PER_BLOCK + 1 ) ) + off ;
spin_unlock_irqrestore ( & nic - > put_lock , flags ) ;
# endif
# else
if ( rxdp - > Host_Control = = END_OF_BLOCK ) {
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mac_control - > rings [ ring_no ] . rx_curr_put_info .
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block_index + + ;
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mac_control - > rings [ ring_no ] . rx_curr_put_info . block_index
% = mac_control - > rings [ ring_no ] . block_count ;
block_no = mac_control - > rings [ ring_no ] . rx_curr_put_info
. block_index ;
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off = 0 ;
DBG_PRINT ( INTR_DBG , " %s: block%d at: 0x%llx \n " ,
dev - > name , block_no ,
( unsigned long long ) rxdp - > Control_1 ) ;
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mac_control - > rings [ ring_no ] . rx_curr_put_info . offset =
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off ;
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rxdp = mac_control - > rings [ ring_no ] . rx_blocks [ block_no ] .
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block_virt_addr ;
}
# ifndef CONFIG_S2IO_NAPI
spin_lock_irqsave ( & nic - > put_lock , flags ) ;
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mac_control - > rings [ ring_no ] . put_pos = ( block_no *
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( MAX_RXDS_PER_BLOCK + 1 ) ) + off ;
spin_unlock_irqrestore ( & nic - > put_lock , flags ) ;
# endif
# endif
# ifndef CONFIG_2BUFF_MODE
if ( rxdp - > Control_1 & RXD_OWN_XENA )
# else
if ( rxdp - > Control_2 & BIT ( 0 ) )
# endif
{
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mac_control - > rings [ ring_no ] . rx_curr_put_info .
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offset = off ;
goto end ;
}
# ifdef CONFIG_2BUFF_MODE
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/*
* RxDs Spanning cache lines will be replenished only
* if the succeeding RxD is also owned by Host . It
* will always be the ( ( 8 * i ) + 3 ) and ( ( 8 * i ) + 6 )
* descriptors for the 48 byte descriptor . The offending
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* decsriptor is of - course the 3 rd descriptor .
*/
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rxdpphys = mac_control - > rings [ ring_no ] . rx_blocks [ block_no ] .
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block_dma_addr + ( off * sizeof ( RxD_t ) ) ;
if ( ( ( u64 ) ( rxdpphys ) ) % 128 > 80 ) {
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rxdpnext = mac_control - > rings [ ring_no ] . rx_blocks [ block_no ] .
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block_virt_addr + ( off + 1 ) ;
if ( rxdpnext - > Host_Control = = END_OF_BLOCK ) {
nextblk = ( block_no + 1 ) %
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( mac_control - > rings [ ring_no ] . block_count ) ;
rxdpnext = mac_control - > rings [ ring_no ] . rx_blocks
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[ nextblk ] . block_virt_addr ;
}
if ( rxdpnext - > Control_2 & BIT ( 0 ) )
goto end ;
}
# endif
# ifndef CONFIG_2BUFF_MODE
skb = dev_alloc_skb ( size + NET_IP_ALIGN ) ;
# else
skb = dev_alloc_skb ( dev - > mtu + ALIGN_SIZE + BUF0_LEN + 4 ) ;
# endif
if ( ! skb ) {
DBG_PRINT ( ERR_DBG , " %s: Out of " , dev - > name ) ;
DBG_PRINT ( ERR_DBG , " memory to allocate SKBs \n " ) ;
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if ( first_rxdp ) {
wmb ( ) ;
first_rxdp - > Control_1 | = RXD_OWN_XENA ;
}
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return - ENOMEM ;
}
# ifndef CONFIG_2BUFF_MODE
skb_reserve ( skb , NET_IP_ALIGN ) ;
memset ( rxdp , 0 , sizeof ( RxD_t ) ) ;
rxdp - > Buffer0_ptr = pci_map_single
( nic - > pdev , skb - > data , size , PCI_DMA_FROMDEVICE ) ;
rxdp - > Control_2 & = ( ~ MASK_BUFFER0_SIZE ) ;
rxdp - > Control_2 | = SET_BUFFER0_SIZE ( size ) ;
rxdp - > Host_Control = ( unsigned long ) ( skb ) ;
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if ( alloc_tab & ( ( 1 < < rxsync_frequency ) - 1 ) )
rxdp - > Control_1 | = RXD_OWN_XENA ;
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off + + ;
off % = ( MAX_RXDS_PER_BLOCK + 1 ) ;
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mac_control - > rings [ ring_no ] . rx_curr_put_info . offset = off ;
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# else
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ba = & mac_control - > rings [ ring_no ] . ba [ block_no ] [ off ] ;
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skb_reserve ( skb , BUF0_LEN ) ;
2005-06-29 02:25:31 +04:00
tmp = ( ( unsigned long ) skb - > data & ALIGN_SIZE ) ;
if ( tmp )
skb_reserve ( skb , ( ALIGN_SIZE + 1 ) - tmp ) ;
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memset ( rxdp , 0 , sizeof ( RxD_t ) ) ;
rxdp - > Buffer2_ptr = pci_map_single
( nic - > pdev , skb - > data , dev - > mtu + BUF0_LEN + 4 ,
PCI_DMA_FROMDEVICE ) ;
rxdp - > Buffer0_ptr =
pci_map_single ( nic - > pdev , ba - > ba_0 , BUF0_LEN ,
PCI_DMA_FROMDEVICE ) ;
rxdp - > Buffer1_ptr =
pci_map_single ( nic - > pdev , ba - > ba_1 , BUF1_LEN ,
PCI_DMA_FROMDEVICE ) ;
rxdp - > Control_2 = SET_BUFFER2_SIZE ( dev - > mtu + 4 ) ;
rxdp - > Control_2 | = SET_BUFFER0_SIZE ( BUF0_LEN ) ;
rxdp - > Control_2 | = SET_BUFFER1_SIZE ( 1 ) ; /* dummy. */
rxdp - > Control_2 | = BIT ( 0 ) ; /* Set Buffer_Empty bit. */
rxdp - > Host_Control = ( u64 ) ( ( unsigned long ) ( skb ) ) ;
2005-08-03 23:41:38 +04:00
if ( alloc_tab & ( ( 1 < < rxsync_frequency ) - 1 ) )
rxdp - > Control_1 | = RXD_OWN_XENA ;
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off + + ;
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mac_control - > rings [ ring_no ] . rx_curr_put_info . offset = off ;
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# endif
2005-08-03 23:27:09 +04:00
rxdp - > Control_2 | = SET_RXD_MARKER ;
2005-08-03 23:24:33 +04:00
2005-08-03 23:41:38 +04:00
if ( ! ( alloc_tab & ( ( 1 < < rxsync_frequency ) - 1 ) ) ) {
if ( first_rxdp ) {
wmb ( ) ;
first_rxdp - > Control_1 | = RXD_OWN_XENA ;
}
first_rxdp = rxdp ;
}
2005-04-17 02:20:36 +04:00
atomic_inc ( & nic - > rx_bufs_left [ ring_no ] ) ;
alloc_tab + + ;
}
end :
2005-08-03 23:41:38 +04:00
/* Transfer ownership of first descriptor to adapter just before
* exiting . Before that , use memory barrier so that ownership
* and other fields are seen by adapter correctly .
*/
if ( first_rxdp ) {
wmb ( ) ;
first_rxdp - > Control_1 | = RXD_OWN_XENA ;
}
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return SUCCESS ;
}
/**
2005-08-03 23:24:33 +04:00
* free_rx_buffers - Frees all Rx buffers
2005-04-17 02:20:36 +04:00
* @ sp : device private variable .
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* Description :
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* This function will free all Rx buffers allocated by host .
* Return Value :
* NONE .
*/
static void free_rx_buffers ( struct s2io_nic * sp )
{
struct net_device * dev = sp - > dev ;
int i , j , blk = 0 , off , buf_cnt = 0 ;
RxD_t * rxdp ;
struct sk_buff * skb ;
mac_info_t * mac_control ;
struct config_param * config ;
# ifdef CONFIG_2BUFF_MODE
buffAdd_t * ba ;
# endif
mac_control = & sp - > mac_control ;
config = & sp - > config ;
for ( i = 0 ; i < config - > rx_ring_num ; i + + ) {
for ( j = 0 , blk = 0 ; j < config - > rx_cfg [ i ] . num_rxd ; j + + ) {
off = j % ( MAX_RXDS_PER_BLOCK + 1 ) ;
2005-08-03 23:24:33 +04:00
rxdp = mac_control - > rings [ i ] . rx_blocks [ blk ] .
block_virt_addr + off ;
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# ifndef CONFIG_2BUFF_MODE
if ( rxdp - > Control_1 = = END_OF_BLOCK ) {
rxdp =
( RxD_t * ) ( ( unsigned long ) rxdp - >
Control_2 ) ;
j + + ;
blk + + ;
}
# else
if ( rxdp - > Host_Control = = END_OF_BLOCK ) {
blk + + ;
continue ;
}
# endif
if ( ! ( rxdp - > Control_1 & RXD_OWN_XENA ) ) {
memset ( rxdp , 0 , sizeof ( RxD_t ) ) ;
continue ;
}
skb =
( struct sk_buff * ) ( ( unsigned long ) rxdp - >
Host_Control ) ;
if ( skb ) {
# ifndef CONFIG_2BUFF_MODE
pci_unmap_single ( sp - > pdev , ( dma_addr_t )
rxdp - > Buffer0_ptr ,
dev - > mtu +
HEADER_ETHERNET_II_802_3_SIZE
+ HEADER_802_2_SIZE +
HEADER_SNAP_SIZE ,
PCI_DMA_FROMDEVICE ) ;
# else
2005-08-03 23:24:33 +04:00
ba = & mac_control - > rings [ i ] . ba [ blk ] [ off ] ;
2005-04-17 02:20:36 +04:00
pci_unmap_single ( sp - > pdev , ( dma_addr_t )
rxdp - > Buffer0_ptr ,
BUF0_LEN ,
PCI_DMA_FROMDEVICE ) ;
pci_unmap_single ( sp - > pdev , ( dma_addr_t )
rxdp - > Buffer1_ptr ,
BUF1_LEN ,
PCI_DMA_FROMDEVICE ) ;
pci_unmap_single ( sp - > pdev , ( dma_addr_t )
rxdp - > Buffer2_ptr ,
dev - > mtu + BUF0_LEN + 4 ,
PCI_DMA_FROMDEVICE ) ;
# endif
dev_kfree_skb ( skb ) ;
atomic_dec ( & sp - > rx_bufs_left [ i ] ) ;
buf_cnt + + ;
}
memset ( rxdp , 0 , sizeof ( RxD_t ) ) ;
}
2005-08-03 23:24:33 +04:00
mac_control - > rings [ i ] . rx_curr_put_info . block_index = 0 ;
mac_control - > rings [ i ] . rx_curr_get_info . block_index = 0 ;
mac_control - > rings [ i ] . rx_curr_put_info . offset = 0 ;
mac_control - > rings [ i ] . rx_curr_get_info . offset = 0 ;
2005-04-17 02:20:36 +04:00
atomic_set ( & sp - > rx_bufs_left [ i ] , 0 ) ;
DBG_PRINT ( INIT_DBG , " %s:Freed 0x%x Rx Buffers on ring%d \n " ,
dev - > name , buf_cnt , i ) ;
}
}
/**
* s2io_poll - Rx interrupt handler for NAPI support
* @ dev : pointer to the device structure .
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* @ budget : The number of packets that were budgeted to be processed
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* during one pass through the ' Poll " function.
* Description :
* Comes into picture only if NAPI support has been incorporated . It does
* the same thing that rx_intr_handler does , but not in a interrupt context
* also It will process only a given number of packets .
* Return value :
* 0 on success and 1 if there are No Rx packets to be processed .
*/
2005-08-03 23:24:33 +04:00
# if defined(CONFIG_S2IO_NAPI)
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static int s2io_poll ( struct net_device * dev , int * budget )
{
nic_t * nic = dev - > priv ;
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int pkt_cnt = 0 , org_pkts_to_process ;
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mac_info_t * mac_control ;
struct config_param * config ;
2005-09-05 06:25:58 +04:00
XENA_dev_config_t __iomem * bar0 = nic - > bar0 ;
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u64 val64 ;
int i ;
2005-04-17 02:20:36 +04:00
2005-08-03 23:29:20 +04:00
atomic_inc ( & nic - > isr_cnt ) ;
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mac_control = & nic - > mac_control ;
config = & nic - > config ;
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nic - > pkts_to_process = * budget ;
if ( nic - > pkts_to_process > dev - > quota )
nic - > pkts_to_process = dev - > quota ;
org_pkts_to_process = nic - > pkts_to_process ;
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val64 = readq ( & bar0 - > rx_traffic_int ) ;
writeq ( val64 , & bar0 - > rx_traffic_int ) ;
for ( i = 0 ; i < config - > rx_ring_num ; i + + ) {
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rx_intr_handler ( & mac_control - > rings [ i ] ) ;
pkt_cnt = org_pkts_to_process - nic - > pkts_to_process ;
if ( ! nic - > pkts_to_process ) {
/* Quota for the current iteration has been met */
goto no_rx ;
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}
}
if ( ! pkt_cnt )
pkt_cnt = 1 ;
dev - > quota - = pkt_cnt ;
* budget - = pkt_cnt ;
netif_rx_complete ( dev ) ;
for ( i = 0 ; i < config - > rx_ring_num ; i + + ) {
if ( fill_rx_buffers ( nic , i ) = = - ENOMEM ) {
DBG_PRINT ( ERR_DBG , " %s:Out of memory " , dev - > name ) ;
DBG_PRINT ( ERR_DBG , " in Rx Poll!! \n " ) ;
break ;
}
}
/* Re enable the Rx interrupts. */
en_dis_able_nic_intrs ( nic , RX_TRAFFIC_INTR , ENABLE_INTRS ) ;
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atomic_dec ( & nic - > isr_cnt ) ;
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return 0 ;
2005-08-03 23:24:33 +04:00
no_rx :
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dev - > quota - = pkt_cnt ;
* budget - = pkt_cnt ;
for ( i = 0 ; i < config - > rx_ring_num ; i + + ) {
if ( fill_rx_buffers ( nic , i ) = = - ENOMEM ) {
DBG_PRINT ( ERR_DBG , " %s:Out of memory " , dev - > name ) ;
DBG_PRINT ( ERR_DBG , " in Rx Poll!! \n " ) ;
break ;
}
}
2005-08-03 23:29:20 +04:00
atomic_dec ( & nic - > isr_cnt ) ;
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return 1 ;
}
2005-08-03 23:24:33 +04:00
# endif
/**
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* rx_intr_handler - Rx interrupt handler
* @ nic : device private variable .
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* Description :
* If the interrupt is because of a received frame or if the
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* receive ring contains fresh as yet un - processed frames , this function is
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* called . It picks out the RxD at which place the last Rx processing had
* stopped and sends the skb to the OSM ' s Rx handler and then increments
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* the offset .
* Return Value :
* NONE .
*/
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static void rx_intr_handler ( ring_info_t * ring_data )
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{
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nic_t * nic = ring_data - > nic ;
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struct net_device * dev = ( struct net_device * ) nic - > dev ;
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int get_block , get_offset , put_block , put_offset , ring_bufs ;
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rx_curr_get_info_t get_info , put_info ;
RxD_t * rxdp ;
struct sk_buff * skb ;
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# ifndef CONFIG_S2IO_NAPI
int pkt_cnt = 0 ;
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# endif
2005-08-03 23:29:20 +04:00
spin_lock ( & nic - > rx_lock ) ;
if ( atomic_read ( & nic - > card_state ) = = CARD_DOWN ) {
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DBG_PRINT ( INTR_DBG , " %s: %s going down for reset \n " ,
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__FUNCTION__ , dev - > name ) ;
spin_unlock ( & nic - > rx_lock ) ;
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return ;
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}
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get_info = ring_data - > rx_curr_get_info ;
get_block = get_info . block_index ;
put_info = ring_data - > rx_curr_put_info ;
put_block = put_info . block_index ;
ring_bufs = get_info . ring_len + 1 ;
rxdp = ring_data - > rx_blocks [ get_block ] . block_virt_addr +
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get_info . offset ;
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get_offset = ( get_block * ( MAX_RXDS_PER_BLOCK + 1 ) ) +
get_info . offset ;
# ifndef CONFIG_S2IO_NAPI
spin_lock ( & nic - > put_lock ) ;
put_offset = ring_data - > put_pos ;
spin_unlock ( & nic - > put_lock ) ;
# else
put_offset = ( put_block * ( MAX_RXDS_PER_BLOCK + 1 ) ) +
put_info . offset ;
# endif
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while ( RXD_IS_UP2DT ( rxdp ) & &
( ( ( get_offset + 1 ) % ring_bufs ) ! = put_offset ) ) {
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skb = ( struct sk_buff * ) ( ( unsigned long ) rxdp - > Host_Control ) ;
if ( skb = = NULL ) {
DBG_PRINT ( ERR_DBG , " %s: The skb is " ,
dev - > name ) ;
DBG_PRINT ( ERR_DBG , " Null in Rx Intr \n " ) ;
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spin_unlock ( & nic - > rx_lock ) ;
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return ;
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}
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# ifndef CONFIG_2BUFF_MODE
pci_unmap_single ( nic - > pdev , ( dma_addr_t )
rxdp - > Buffer0_ptr ,
dev - > mtu +
HEADER_ETHERNET_II_802_3_SIZE +
HEADER_802_2_SIZE +
HEADER_SNAP_SIZE ,
PCI_DMA_FROMDEVICE ) ;
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# else
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pci_unmap_single ( nic - > pdev , ( dma_addr_t )
rxdp - > Buffer0_ptr ,
BUF0_LEN , PCI_DMA_FROMDEVICE ) ;
pci_unmap_single ( nic - > pdev , ( dma_addr_t )
rxdp - > Buffer1_ptr ,
BUF1_LEN , PCI_DMA_FROMDEVICE ) ;
pci_unmap_single ( nic - > pdev , ( dma_addr_t )
rxdp - > Buffer2_ptr ,
dev - > mtu + BUF0_LEN + 4 ,
PCI_DMA_FROMDEVICE ) ;
# endif
rx_osm_handler ( ring_data , rxdp ) ;
get_info . offset + + ;
ring_data - > rx_curr_get_info . offset =
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get_info . offset ;
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rxdp = ring_data - > rx_blocks [ get_block ] . block_virt_addr +
get_info . offset ;
if ( get_info . offset & &
( ! ( get_info . offset % MAX_RXDS_PER_BLOCK ) ) ) {
get_info . offset = 0 ;
ring_data - > rx_curr_get_info . offset
= get_info . offset ;
get_block + + ;
get_block % = ring_data - > block_count ;
ring_data - > rx_curr_get_info . block_index
= get_block ;
rxdp = ring_data - > rx_blocks [ get_block ] . block_virt_addr ;
}
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get_offset = ( get_block * ( MAX_RXDS_PER_BLOCK + 1 ) ) +
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get_info . offset ;
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# ifdef CONFIG_S2IO_NAPI
nic - > pkts_to_process - = 1 ;
if ( ! nic - > pkts_to_process )
break ;
# else
pkt_cnt + + ;
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if ( ( indicate_max_pkts ) & & ( pkt_cnt > indicate_max_pkts ) )
break ;
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# endif
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}
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spin_unlock ( & nic - > rx_lock ) ;
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}
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/**
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* tx_intr_handler - Transmit interrupt handler
* @ nic : device private variable
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* Description :
* If an interrupt was raised to indicate DMA complete of the
* Tx packet , this function is called . It identifies the last TxD
* whose buffer was freed and frees all skbs whose data have already
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* DMA ' ed into the NICs internal memory .
* Return Value :
* NONE
*/
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static void tx_intr_handler ( fifo_info_t * fifo_data )
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{
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nic_t * nic = fifo_data - > nic ;
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struct net_device * dev = ( struct net_device * ) nic - > dev ;
tx_curr_get_info_t get_info , put_info ;
struct sk_buff * skb ;
TxD_t * txdlp ;
u16 j , frg_cnt ;
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get_info = fifo_data - > tx_curr_get_info ;
put_info = fifo_data - > tx_curr_put_info ;
txdlp = ( TxD_t * ) fifo_data - > list_info [ get_info . offset ] .
list_virt_addr ;
while ( ( ! ( txdlp - > Control_1 & TXD_LIST_OWN_XENA ) ) & &
( get_info . offset ! = put_info . offset ) & &
( txdlp - > Host_Control ) ) {
/* Check for TxD errors */
if ( txdlp - > Control_1 & TXD_T_CODE ) {
unsigned long long err ;
err = txdlp - > Control_1 & TXD_T_CODE ;
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if ( ( err > > 48 ) = = 0xA ) {
DBG_PRINT ( TX_DBG , " TxD returned due \
to loss of link \ n " );
}
else {
DBG_PRINT ( ERR_DBG , " ***TxD error \
% llx \ n " , err);
}
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}
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skb = ( struct sk_buff * ) ( ( unsigned long )
txdlp - > Host_Control ) ;
if ( skb = = NULL ) {
DBG_PRINT ( ERR_DBG , " %s: Null skb " ,
__FUNCTION__ ) ;
DBG_PRINT ( ERR_DBG , " in Tx Free Intr \n " ) ;
return ;
}
frg_cnt = skb_shinfo ( skb ) - > nr_frags ;
nic - > tx_pkt_count + + ;
pci_unmap_single ( nic - > pdev , ( dma_addr_t )
txdlp - > Buffer_Pointer ,
skb - > len - skb - > data_len ,
PCI_DMA_TODEVICE ) ;
if ( frg_cnt ) {
TxD_t * temp ;
temp = txdlp ;
txdlp + + ;
for ( j = 0 ; j < frg_cnt ; j + + , txdlp + + ) {
skb_frag_t * frag =
& skb_shinfo ( skb ) - > frags [ j ] ;
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if ( ! txdlp - > Buffer_Pointer )
break ;
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pci_unmap_page ( nic - > pdev ,
( dma_addr_t )
txdlp - >
Buffer_Pointer ,
frag - > size ,
PCI_DMA_TODEVICE ) ;
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}
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txdlp = temp ;
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}
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memset ( txdlp , 0 ,
( sizeof ( TxD_t ) * fifo_data - > max_txds ) ) ;
/* Updating the statistics block */
nic - > stats . tx_bytes + = skb - > len ;
dev_kfree_skb_irq ( skb ) ;
get_info . offset + + ;
get_info . offset % = get_info . fifo_len + 1 ;
txdlp = ( TxD_t * ) fifo_data - > list_info
[ get_info . offset ] . list_virt_addr ;
fifo_data - > tx_curr_get_info . offset =
get_info . offset ;
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}
spin_lock ( & nic - > tx_lock ) ;
if ( netif_queue_stopped ( dev ) )
netif_wake_queue ( dev ) ;
spin_unlock ( & nic - > tx_lock ) ;
}
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/**
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* alarm_intr_handler - Alarm Interrrupt handler
* @ nic : device private variable
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* Description : If the interrupt was neither because of Rx packet or Tx
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* complete , this function is called . If the interrupt was to indicate
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* a loss of link , the OSM link status handler is invoked for any other
* alarm interrupt the block that raised the interrupt is displayed
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* and a H / W reset is issued .
* Return Value :
* NONE
*/
static void alarm_intr_handler ( struct s2io_nic * nic )
{
struct net_device * dev = ( struct net_device * ) nic - > dev ;
XENA_dev_config_t __iomem * bar0 = nic - > bar0 ;
register u64 val64 = 0 , err_reg = 0 ;
/* Handling link status change error Intr */
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if ( s2io_link_fault_indication ( nic ) = = MAC_RMAC_ERR_TIMER ) {
err_reg = readq ( & bar0 - > mac_rmac_err_reg ) ;
writeq ( err_reg , & bar0 - > mac_rmac_err_reg ) ;
if ( err_reg & RMAC_LINK_STATE_CHANGE_INT ) {
schedule_work ( & nic - > set_link_task ) ;
}
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}
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/* Handling Ecc errors */
val64 = readq ( & bar0 - > mc_err_reg ) ;
writeq ( val64 , & bar0 - > mc_err_reg ) ;
if ( val64 & ( MC_ERR_REG_ECC_ALL_SNG | MC_ERR_REG_ECC_ALL_DBL ) ) {
if ( val64 & MC_ERR_REG_ECC_ALL_DBL ) {
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nic - > mac_control . stats_info - > sw_stat .
double_ecc_errs + + ;
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DBG_PRINT ( INIT_DBG , " %s: Device indicates " ,
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dev - > name ) ;
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DBG_PRINT ( INIT_DBG , " double ECC error!! \n " ) ;
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if ( nic - > device_type ! = XFRAME_II_DEVICE ) {
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/* Reset XframeI only if critical error */
if ( val64 & ( MC_ERR_REG_MIRI_ECC_DB_ERR_0 |
MC_ERR_REG_MIRI_ECC_DB_ERR_1 ) ) {
netif_stop_queue ( dev ) ;
schedule_work ( & nic - > rst_timer_task ) ;
}
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}
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} else {
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nic - > mac_control . stats_info - > sw_stat .
single_ecc_errs + + ;
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}
}
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/* In case of a serious error, the device will be Reset. */
val64 = readq ( & bar0 - > serr_source ) ;
if ( val64 & SERR_SOURCE_ANY ) {
DBG_PRINT ( ERR_DBG , " %s: Device indicates " , dev - > name ) ;
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DBG_PRINT ( ERR_DBG , " serious error %llx!! \n " ,
( unsigned long long ) val64 ) ;
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netif_stop_queue ( dev ) ;
schedule_work ( & nic - > rst_timer_task ) ;
}
/*
* Also as mentioned in the latest Errata sheets if the PCC_FB_ECC
* Error occurs , the adapter will be recycled by disabling the
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* adapter enable bit and enabling it again after the device
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* becomes Quiescent .
*/
val64 = readq ( & bar0 - > pcc_err_reg ) ;
writeq ( val64 , & bar0 - > pcc_err_reg ) ;
if ( val64 & PCC_FB_ECC_DB_ERR ) {
u64 ac = readq ( & bar0 - > adapter_control ) ;
ac & = ~ ( ADAPTER_CNTL_EN ) ;
writeq ( ac , & bar0 - > adapter_control ) ;
ac = readq ( & bar0 - > adapter_control ) ;
schedule_work ( & nic - > set_link_task ) ;
}
/* Other type of interrupts are not being handled now, TODO */
}
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/**
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* wait_for_cmd_complete - waits for a command to complete .
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* @ sp : private member of the device structure , which is a pointer to the
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* s2io_nic structure .
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* Description : Function that waits for a command to Write into RMAC
* ADDR DATA registers to be completed and returns either success or
* error depending on whether the command was complete or not .
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* Return value :
* SUCCESS on success and FAILURE on failure .
*/
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int wait_for_cmd_complete ( nic_t * sp )
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{
XENA_dev_config_t __iomem * bar0 = sp - > bar0 ;
int ret = FAILURE , cnt = 0 ;
u64 val64 ;
while ( TRUE ) {
val64 = readq ( & bar0 - > rmac_addr_cmd_mem ) ;
if ( ! ( val64 & RMAC_ADDR_CMD_MEM_STROBE_CMD_EXECUTING ) ) {
ret = SUCCESS ;
break ;
}
msleep ( 50 ) ;
if ( cnt + + > 10 )
break ;
}
return ret ;
}
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/**
* s2io_reset - Resets the card .
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* @ sp : private member of the device structure .
* Description : Function to Reset the card . This function then also
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* restores the previously saved PCI configuration space registers as
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* the card reset also resets the configuration space .
* Return value :
* void .
*/
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void s2io_reset ( nic_t * sp )
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{
XENA_dev_config_t __iomem * bar0 = sp - > bar0 ;
u64 val64 ;
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u16 subid , pci_cmd ;
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/* Back up the PCI-X CMD reg, dont want to lose MMRBC, OST settings */
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pci_read_config_word ( sp - > pdev , PCIX_COMMAND_REGISTER , & ( pci_cmd ) ) ;
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val64 = SW_RESET_ALL ;
writeq ( val64 , & bar0 - > sw_reset ) ;
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/*
* At this stage , if the PCI write is indeed completed , the
* card is reset and so is the PCI Config space of the device .
* So a read cannot be issued at this stage on any of the
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* registers to ensure the write into " sw_reset " register
* has gone through .
* Question : Is there any system call that will explicitly force
* all the write commands still pending on the bus to be pushed
* through ?
* As of now I ' am just giving a 250 ms delay and hoping that the
* PCI write to sw_reset register is done by this time .
*/
msleep ( 250 ) ;
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/* Restore the PCI state saved during initialization. */
pci_restore_state ( sp - > pdev ) ;
pci_write_config_word ( sp - > pdev , PCIX_COMMAND_REGISTER ,
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pci_cmd ) ;
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s2io_init_pci ( sp ) ;
msleep ( 250 ) ;
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/* Set swapper to enable I/O register access */
s2io_set_swapper ( sp ) ;
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/* Clear certain PCI/PCI-X fields after reset */
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if ( sp - > device_type = = XFRAME_II_DEVICE ) {
/* Clear parity err detect bit */
pci_write_config_word ( sp - > pdev , PCI_STATUS , 0x8000 ) ;
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/* Clearing PCIX Ecc status register */
pci_write_config_dword ( sp - > pdev , 0x68 , 0x7C ) ;
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/* Clearing PCI_STATUS error reflected here */
writeq ( BIT ( 62 ) , & bar0 - > txpic_int_reg ) ;
}
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/* Reset device statistics maintained by OS */
memset ( & sp - > stats , 0 , sizeof ( struct net_device_stats ) ) ;
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/* SXE-002: Configure link and activity LED to turn it off */
subid = sp - > pdev - > subsystem_device ;
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if ( ( ( subid & 0xFF ) > = 0x07 ) & &
( sp - > device_type = = XFRAME_I_DEVICE ) ) {
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val64 = readq ( & bar0 - > gpio_control ) ;
val64 | = 0x0000800000000000ULL ;
writeq ( val64 , & bar0 - > gpio_control ) ;
val64 = 0x0411040400000000ULL ;
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writeq ( val64 , ( void __iomem * ) bar0 + 0x2700 ) ;
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}
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/*
* Clear spurious ECC interrupts that would have occured on
* XFRAME II cards after reset .
*/
if ( sp - > device_type = = XFRAME_II_DEVICE ) {
val64 = readq ( & bar0 - > pcc_err_reg ) ;
writeq ( val64 , & bar0 - > pcc_err_reg ) ;
}
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sp - > device_enabled_once = FALSE ;
}
/**
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* s2io_set_swapper - to set the swapper controle on the card
* @ sp : private member of the device structure ,
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* pointer to the s2io_nic structure .
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* Description : Function to set the swapper control on the card
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* correctly depending on the ' endianness ' of the system .
* Return value :
* SUCCESS on success and FAILURE on failure .
*/
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int s2io_set_swapper ( nic_t * sp )
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{
struct net_device * dev = sp - > dev ;
XENA_dev_config_t __iomem * bar0 = sp - > bar0 ;
u64 val64 , valt , valr ;
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/*
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* Set proper endian settings and verify the same by reading
* the PIF Feed - back register .
*/
val64 = readq ( & bar0 - > pif_rd_swapper_fb ) ;
if ( val64 ! = 0x0123456789ABCDEFULL ) {
int i = 0 ;
u64 value [ ] = { 0xC30000C3C30000C3ULL , /* FE=1, SE=1 */
0x8100008181000081ULL , /* FE=1, SE=0 */
0x4200004242000042ULL , /* FE=0, SE=1 */
0 } ; /* FE=0, SE=0 */
while ( i < 4 ) {
writeq ( value [ i ] , & bar0 - > swapper_ctrl ) ;
val64 = readq ( & bar0 - > pif_rd_swapper_fb ) ;
if ( val64 = = 0x0123456789ABCDEFULL )
break ;
i + + ;
}
if ( i = = 4 ) {
DBG_PRINT ( ERR_DBG , " %s: Endian settings are wrong, " ,
dev - > name ) ;
DBG_PRINT ( ERR_DBG , " feedback read %llx \n " ,
( unsigned long long ) val64 ) ;
return FAILURE ;
}
valr = value [ i ] ;
} else {
valr = readq ( & bar0 - > swapper_ctrl ) ;
}
valt = 0x0123456789ABCDEFULL ;
writeq ( valt , & bar0 - > xmsi_address ) ;
val64 = readq ( & bar0 - > xmsi_address ) ;
if ( val64 ! = valt ) {
int i = 0 ;
u64 value [ ] = { 0x00C3C30000C3C300ULL , /* FE=1, SE=1 */
0x0081810000818100ULL , /* FE=1, SE=0 */
0x0042420000424200ULL , /* FE=0, SE=1 */
0 } ; /* FE=0, SE=0 */
while ( i < 4 ) {
writeq ( ( value [ i ] | valr ) , & bar0 - > swapper_ctrl ) ;
writeq ( valt , & bar0 - > xmsi_address ) ;
val64 = readq ( & bar0 - > xmsi_address ) ;
if ( val64 = = valt )
break ;
i + + ;
}
if ( i = = 4 ) {
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unsigned long long x = val64 ;
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DBG_PRINT ( ERR_DBG , " Write failed, Xmsi_addr " ) ;
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DBG_PRINT ( ERR_DBG , " reads:0x%llx \n " , x ) ;
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return FAILURE ;
}
}
val64 = readq ( & bar0 - > swapper_ctrl ) ;
val64 & = 0xFFFF000000000000ULL ;
# ifdef __BIG_ENDIAN
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/*
* The device by default set to a big endian format , so a
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* big endian driver need not set anything .
*/
val64 | = ( SWAPPER_CTRL_TXP_FE |
SWAPPER_CTRL_TXP_SE |
SWAPPER_CTRL_TXD_R_FE |
SWAPPER_CTRL_TXD_W_FE |
SWAPPER_CTRL_TXF_R_FE |
SWAPPER_CTRL_RXD_R_FE |
SWAPPER_CTRL_RXD_W_FE |
SWAPPER_CTRL_RXF_W_FE |
SWAPPER_CTRL_XMSI_FE |
SWAPPER_CTRL_XMSI_SE |
SWAPPER_CTRL_STATS_FE | SWAPPER_CTRL_STATS_SE ) ;
writeq ( val64 , & bar0 - > swapper_ctrl ) ;
# else
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/*
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* Initially we enable all bits to make it accessible by the
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* driver , then we selectively enable only those bits that
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* we want to set .
*/
val64 | = ( SWAPPER_CTRL_TXP_FE |
SWAPPER_CTRL_TXP_SE |
SWAPPER_CTRL_TXD_R_FE |
SWAPPER_CTRL_TXD_R_SE |
SWAPPER_CTRL_TXD_W_FE |
SWAPPER_CTRL_TXD_W_SE |
SWAPPER_CTRL_TXF_R_FE |
SWAPPER_CTRL_RXD_R_FE |
SWAPPER_CTRL_RXD_R_SE |
SWAPPER_CTRL_RXD_W_FE |
SWAPPER_CTRL_RXD_W_SE |
SWAPPER_CTRL_RXF_W_FE |
SWAPPER_CTRL_XMSI_FE |
SWAPPER_CTRL_XMSI_SE |
SWAPPER_CTRL_STATS_FE | SWAPPER_CTRL_STATS_SE ) ;
writeq ( val64 , & bar0 - > swapper_ctrl ) ;
# endif
val64 = readq ( & bar0 - > swapper_ctrl ) ;
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/*
* Verifying if endian settings are accurate by reading a
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* feedback register .
*/
val64 = readq ( & bar0 - > pif_rd_swapper_fb ) ;
if ( val64 ! = 0x0123456789ABCDEFULL ) {
/* Endian settings are incorrect, calls for another dekko. */
DBG_PRINT ( ERR_DBG , " %s: Endian settings are wrong, " ,
dev - > name ) ;
DBG_PRINT ( ERR_DBG , " feedback read %llx \n " ,
( unsigned long long ) val64 ) ;
return FAILURE ;
}
return SUCCESS ;
}
/* ********************************************************* *
* Functions defined below concern the OS part of the driver *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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/**
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* s2io_open - open entry point of the driver
* @ dev : pointer to the device structure .
* Description :
* This function is the open entry point of the driver . It mainly calls a
* function to allocate Rx buffers and inserts them into the buffer
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* descriptors and then enables the Rx part of the NIC .
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* Return value :
* 0 on success and an appropriate ( - ) ve integer as defined in errno . h
* file on failure .
*/
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int s2io_open ( struct net_device * dev )
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{
nic_t * sp = dev - > priv ;
int err = 0 ;
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/*
* Make sure you have link off by default every time
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* Nic is initialized
*/
netif_carrier_off ( dev ) ;
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sp - > last_link_state = 0 ;
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/* Initialize H/W and enable interrupts */
if ( s2io_card_up ( sp ) ) {
DBG_PRINT ( ERR_DBG , " %s: H/W initialization failed \n " ,
dev - > name ) ;
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err = - ENODEV ;
goto hw_init_failed ;
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}
/* After proper initialization of H/W, register ISR */
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err = request_irq ( ( int ) sp - > pdev - > irq , s2io_isr , SA_SHIRQ ,
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sp - > name , dev ) ;
if ( err ) {
DBG_PRINT ( ERR_DBG , " %s: ISR registration failed \n " ,
dev - > name ) ;
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goto isr_registration_failed ;
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}
if ( s2io_set_mac_addr ( dev , dev - > dev_addr ) = = FAILURE ) {
DBG_PRINT ( ERR_DBG , " Set Mac Address Failed \n " ) ;
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err = - ENODEV ;
goto setting_mac_address_failed ;
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}
netif_start_queue ( dev ) ;
return 0 ;
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setting_mac_address_failed :
free_irq ( sp - > pdev - > irq , dev ) ;
isr_registration_failed :
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del_timer_sync ( & sp - > alarm_timer ) ;
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s2io_reset ( sp ) ;
hw_init_failed :
return err ;
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}
/**
* s2io_close - close entry point of the driver
* @ dev : device pointer .
* Description :
* This is the stop entry point of the driver . It needs to undo exactly
* whatever was done by the open entry point , thus it ' s usually referred to
* as the close function . Among other things this function mainly stops the
* Rx side of the NIC and frees all the Rx buffers in the Rx rings .
* Return value :
* 0 on success and an appropriate ( - ) ve integer as defined in errno . h
* file on failure .
*/
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int s2io_close ( struct net_device * dev )
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{
nic_t * sp = dev - > priv ;
flush_scheduled_work ( ) ;
netif_stop_queue ( dev ) ;
/* Reset card, kill tasklet and free Tx and Rx buffers. */
s2io_card_down ( sp ) ;
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free_irq ( sp - > pdev - > irq , dev ) ;
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sp - > device_close_flag = TRUE ; /* Device is shut down. */
return 0 ;
}
/**
* s2io_xmit - Tx entry point of te driver
* @ skb : the socket buffer containing the Tx data .
* @ dev : device pointer .
* Description :
* This function is the Tx entry point of the driver . S2IO NIC supports
* certain protocol assist features on Tx side , namely CSO , S / G , LSO .
* NOTE : when device cant queue the pkt , just the trans_start variable will
* not be upadted .
* Return value :
* 0 on success & 1 on failure .
*/
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int s2io_xmit ( struct sk_buff * skb , struct net_device * dev )
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{
nic_t * sp = dev - > priv ;
u16 frg_cnt , frg_len , i , queue , queue_len , put_off , get_off ;
register u64 val64 ;
TxD_t * txdp ;
TxFIFO_element_t __iomem * tx_fifo ;
unsigned long flags ;
# ifdef NETIF_F_TSO
int mss ;
# endif
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u16 vlan_tag = 0 ;
int vlan_priority = 0 ;
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mac_info_t * mac_control ;
struct config_param * config ;
mac_control = & sp - > mac_control ;
config = & sp - > config ;
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DBG_PRINT ( TX_DBG , " %s: In Neterion Tx routine \n " , dev - > name ) ;
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spin_lock_irqsave ( & sp - > tx_lock , flags ) ;
if ( atomic_read ( & sp - > card_state ) = = CARD_DOWN ) {
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DBG_PRINT ( TX_DBG , " %s: Card going down for reset \n " ,
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dev - > name ) ;
spin_unlock_irqrestore ( & sp - > tx_lock , flags ) ;
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dev_kfree_skb ( skb ) ;
return 0 ;
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}
queue = 0 ;
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/* Get Fifo number to Transmit based on vlan priority */
if ( sp - > vlgrp & & vlan_tx_tag_present ( skb ) ) {
vlan_tag = vlan_tx_tag_get ( skb ) ;
vlan_priority = vlan_tag > > 13 ;
queue = config - > fifo_mapping [ vlan_priority ] ;
}
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put_off = ( u16 ) mac_control - > fifos [ queue ] . tx_curr_put_info . offset ;
get_off = ( u16 ) mac_control - > fifos [ queue ] . tx_curr_get_info . offset ;
txdp = ( TxD_t * ) mac_control - > fifos [ queue ] . list_info [ put_off ] .
list_virt_addr ;
queue_len = mac_control - > fifos [ queue ] . tx_curr_put_info . fifo_len + 1 ;
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/* Avoid "put" pointer going beyond "get" pointer */
if ( txdp - > Host_Control | | ( ( ( put_off + 1 ) % queue_len ) = = get_off ) ) {
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DBG_PRINT ( TX_DBG , " Error in xmit, No free TXDs. \n " ) ;
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netif_stop_queue ( dev ) ;
dev_kfree_skb ( skb ) ;
spin_unlock_irqrestore ( & sp - > tx_lock , flags ) ;
return 0 ;
}
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/* A buffer with no data will be dropped */
if ( ! skb - > len ) {
DBG_PRINT ( TX_DBG , " %s:Buffer has no data.. \n " , dev - > name ) ;
dev_kfree_skb ( skb ) ;
spin_unlock_irqrestore ( & sp - > tx_lock , flags ) ;
return 0 ;
}
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# ifdef NETIF_F_TSO
mss = skb_shinfo ( skb ) - > tso_size ;
if ( mss ) {
txdp - > Control_1 | = TXD_TCP_LSO_EN ;
txdp - > Control_1 | = TXD_TCP_LSO_MSS ( mss ) ;
}
# endif
frg_cnt = skb_shinfo ( skb ) - > nr_frags ;
frg_len = skb - > len - skb - > data_len ;
txdp - > Buffer_Pointer = pci_map_single
( sp - > pdev , skb - > data , frg_len , PCI_DMA_TODEVICE ) ;
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txdp - > Host_Control = ( unsigned long ) skb ;
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if ( skb - > ip_summed = = CHECKSUM_HW ) {
txdp - > Control_2 | =
( TXD_TX_CKO_IPV4_EN | TXD_TX_CKO_TCP_EN |
TXD_TX_CKO_UDP_EN ) ;
}
txdp - > Control_2 | = config - > tx_intr_type ;
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if ( sp - > vlgrp & & vlan_tx_tag_present ( skb ) ) {
txdp - > Control_2 | = TXD_VLAN_ENABLE ;
txdp - > Control_2 | = TXD_VLAN_TAG ( vlan_tag ) ;
}
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txdp - > Control_1 | = ( TXD_BUFFER0_SIZE ( frg_len ) |
TXD_GATHER_CODE_FIRST ) ;
txdp - > Control_1 | = TXD_LIST_OWN_XENA ;
/* For fragmented SKB. */
for ( i = 0 ; i < frg_cnt ; i + + ) {
skb_frag_t * frag = & skb_shinfo ( skb ) - > frags [ i ] ;
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/* A '0' length fragment will be ignored */
if ( ! frag - > size )
continue ;
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txdp + + ;
txdp - > Buffer_Pointer = ( u64 ) pci_map_page
( sp - > pdev , frag - > page , frag - > page_offset ,
frag - > size , PCI_DMA_TODEVICE ) ;
txdp - > Control_1 | = TXD_BUFFER0_SIZE ( frag - > size ) ;
}
txdp - > Control_1 | = TXD_GATHER_CODE_LAST ;
tx_fifo = mac_control - > tx_FIFO_start [ queue ] ;
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val64 = mac_control - > fifos [ queue ] . list_info [ put_off ] . list_phy_addr ;
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writeq ( val64 , & tx_fifo - > TxDL_Pointer ) ;
val64 = ( TX_FIFO_LAST_TXD_NUM ( frg_cnt ) | TX_FIFO_FIRST_LIST |
TX_FIFO_LAST_LIST ) ;
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# ifdef NETIF_F_TSO
if ( mss )
val64 | = TX_FIFO_SPECIAL_FUNC ;
# endif
writeq ( val64 , & tx_fifo - > List_Control ) ;
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mmiowb ( ) ;
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put_off + + ;
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put_off % = mac_control - > fifos [ queue ] . tx_curr_put_info . fifo_len + 1 ;
mac_control - > fifos [ queue ] . tx_curr_put_info . offset = put_off ;
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/* Avoid "put" pointer going beyond "get" pointer */
if ( ( ( put_off + 1 ) % queue_len ) = = get_off ) {
DBG_PRINT ( TX_DBG ,
" No free TxDs for xmit, Put: 0x%x Get:0x%x \n " ,
put_off , get_off ) ;
netif_stop_queue ( dev ) ;
}
dev - > trans_start = jiffies ;
spin_unlock_irqrestore ( & sp - > tx_lock , flags ) ;
return 0 ;
}
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static void
s2io_alarm_handle ( unsigned long data )
{
nic_t * sp = ( nic_t * ) data ;
alarm_intr_handler ( sp ) ;
mod_timer ( & sp - > alarm_timer , jiffies + HZ / 2 ) ;
}
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static void s2io_txpic_intr_handle ( nic_t * sp )
{
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XENA_dev_config_t __iomem * bar0 = sp - > bar0 ;
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u64 val64 ;
val64 = readq ( & bar0 - > pic_int_status ) ;
if ( val64 & PIC_INT_GPIO ) {
val64 = readq ( & bar0 - > gpio_int_reg ) ;
if ( ( val64 & GPIO_INT_REG_LINK_DOWN ) & &
( val64 & GPIO_INT_REG_LINK_UP ) ) {
val64 | = GPIO_INT_REG_LINK_DOWN ;
val64 | = GPIO_INT_REG_LINK_UP ;
writeq ( val64 , & bar0 - > gpio_int_reg ) ;
goto masking ;
}
if ( ( ( sp - > last_link_state = = LINK_UP ) & &
( val64 & GPIO_INT_REG_LINK_DOWN ) ) | |
( ( sp - > last_link_state = = LINK_DOWN ) & &
( val64 & GPIO_INT_REG_LINK_UP ) ) ) {
val64 = readq ( & bar0 - > gpio_int_mask ) ;
val64 | = GPIO_INT_MASK_LINK_DOWN ;
val64 | = GPIO_INT_MASK_LINK_UP ;
writeq ( val64 , & bar0 - > gpio_int_mask ) ;
s2io_set_link ( ( unsigned long ) sp ) ;
}
masking :
if ( sp - > last_link_state = = LINK_UP ) {
/*enable down interrupt */
val64 = readq ( & bar0 - > gpio_int_mask ) ;
/* unmasks link down intr */
val64 & = ~ GPIO_INT_MASK_LINK_DOWN ;
/* masks link up intr */
val64 | = GPIO_INT_MASK_LINK_UP ;
writeq ( val64 , & bar0 - > gpio_int_mask ) ;
} else {
/*enable UP Interrupt */
val64 = readq ( & bar0 - > gpio_int_mask ) ;
/* unmasks link up interrupt */
val64 & = ~ GPIO_INT_MASK_LINK_UP ;
/* masks link down interrupt */
val64 | = GPIO_INT_MASK_LINK_DOWN ;
writeq ( val64 , & bar0 - > gpio_int_mask ) ;
}
}
}
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/**
* s2io_isr - ISR handler of the device .
* @ irq : the irq of the device .
* @ dev_id : a void pointer to the dev structure of the NIC .
* @ pt_regs : pointer to the registers pushed on the stack .
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* Description : This function is the ISR handler of the device . It
* identifies the reason for the interrupt and calls the relevant
* service routines . As a contongency measure , this ISR allocates the
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* recv buffers , if their numbers are below the panic value which is
* presently set to 25 % of the original number of rcv buffers allocated .
* Return value :
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* IRQ_HANDLED : will be returned if IRQ was handled by this routine
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* IRQ_NONE : will be returned if interrupt is not from our device
*/
static irqreturn_t s2io_isr ( int irq , void * dev_id , struct pt_regs * regs )
{
struct net_device * dev = ( struct net_device * ) dev_id ;
nic_t * sp = dev - > priv ;
XENA_dev_config_t __iomem * bar0 = sp - > bar0 ;
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int i ;
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u64 reason = 0 , val64 ;
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mac_info_t * mac_control ;
struct config_param * config ;
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atomic_inc ( & sp - > isr_cnt ) ;
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mac_control = & sp - > mac_control ;
config = & sp - > config ;
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/*
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* Identify the cause for interrupt and call the appropriate
* interrupt handler . Causes for the interrupt could be ;
* 1. Rx of packet .
* 2. Tx complete .
* 3. Link down .
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* 4. Error in any functional blocks of the NIC .
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*/
reason = readq ( & bar0 - > general_int_status ) ;
if ( ! reason ) {
/* The interrupt was not raised by Xena. */
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atomic_dec ( & sp - > isr_cnt ) ;
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return IRQ_NONE ;
}
# ifdef CONFIG_S2IO_NAPI
if ( reason & GEN_INTR_RXTRAFFIC ) {
if ( netif_rx_schedule_prep ( dev ) ) {
en_dis_able_nic_intrs ( sp , RX_TRAFFIC_INTR ,
DISABLE_INTRS ) ;
__netif_rx_schedule ( dev ) ;
}
}
# else
/* If Intr is because of Rx Traffic */
if ( reason & GEN_INTR_RXTRAFFIC ) {
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/*
* rx_traffic_int reg is an R1 register , writing all 1 ' s
* will ensure that the actual interrupt causing bit get ' s
* cleared and hence a read can be avoided .
*/
val64 = 0xFFFFFFFFFFFFFFFFULL ;
writeq ( val64 , & bar0 - > rx_traffic_int ) ;
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for ( i = 0 ; i < config - > rx_ring_num ; i + + ) {
rx_intr_handler ( & mac_control - > rings [ i ] ) ;
}
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}
# endif
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/* If Intr is because of Tx Traffic */
if ( reason & GEN_INTR_TXTRAFFIC ) {
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/*
* tx_traffic_int reg is an R1 register , writing all 1 ' s
* will ensure that the actual interrupt causing bit get ' s
* cleared and hence a read can be avoided .
*/
val64 = 0xFFFFFFFFFFFFFFFFULL ;
writeq ( val64 , & bar0 - > tx_traffic_int ) ;
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for ( i = 0 ; i < config - > tx_fifo_num ; i + + )
tx_intr_handler ( & mac_control - > fifos [ i ] ) ;
}
2005-08-03 23:38:59 +04:00
if ( reason & GEN_INTR_TXPIC )
s2io_txpic_intr_handle ( sp ) ;
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/*
* If the Rx buffer count is below the panic threshold then
* reallocate the buffers from the interrupt handler itself ,
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* else schedule a tasklet to reallocate the buffers .
*/
# ifndef CONFIG_S2IO_NAPI
for ( i = 0 ; i < config - > rx_ring_num ; i + + ) {
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int ret ;
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int rxb_size = atomic_read ( & sp - > rx_bufs_left [ i ] ) ;
int level = rx_buffer_level ( sp , rxb_size , i ) ;
if ( ( level = = PANIC ) & & ( ! TASKLET_IN_USE ) ) {
DBG_PRINT ( INTR_DBG , " %s: Rx BD hit " , dev - > name ) ;
DBG_PRINT ( INTR_DBG , " PANIC levels \n " ) ;
if ( ( ret = fill_rx_buffers ( sp , i ) ) = = - ENOMEM ) {
DBG_PRINT ( ERR_DBG , " %s:Out of memory " ,
dev - > name ) ;
DBG_PRINT ( ERR_DBG , " in ISR!! \n " ) ;
clear_bit ( 0 , ( & sp - > tasklet_status ) ) ;
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atomic_dec ( & sp - > isr_cnt ) ;
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return IRQ_HANDLED ;
}
clear_bit ( 0 , ( & sp - > tasklet_status ) ) ;
} else if ( level = = LOW ) {
tasklet_schedule ( & sp - > task ) ;
}
}
# endif
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atomic_dec ( & sp - > isr_cnt ) ;
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return IRQ_HANDLED ;
}
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/**
* s2io_updt_stats -
*/
static void s2io_updt_stats ( nic_t * sp )
{
XENA_dev_config_t __iomem * bar0 = sp - > bar0 ;
u64 val64 ;
int cnt = 0 ;
if ( atomic_read ( & sp - > card_state ) = = CARD_UP ) {
/* Apprx 30us on a 133 MHz bus */
val64 = SET_UPDT_CLICKS ( 10 ) |
STAT_CFG_ONE_SHOT_EN | STAT_CFG_STAT_EN ;
writeq ( val64 , & bar0 - > stat_cfg ) ;
do {
udelay ( 100 ) ;
val64 = readq ( & bar0 - > stat_cfg ) ;
if ( ! ( val64 & BIT ( 0 ) ) )
break ;
cnt + + ;
if ( cnt = = 5 )
break ; /* Updt failed */
} while ( 1 ) ;
}
}
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/**
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* s2io_get_stats - Updates the device statistics structure .
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* @ dev : pointer to the device structure .
* Description :
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* This function updates the device statistics structure in the s2io_nic
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* structure and returns a pointer to the same .
* Return value :
* pointer to the updated net_device_stats structure .
*/
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struct net_device_stats * s2io_get_stats ( struct net_device * dev )
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{
nic_t * sp = dev - > priv ;
mac_info_t * mac_control ;
struct config_param * config ;
2005-08-03 23:24:33 +04:00
2005-04-17 02:20:36 +04:00
mac_control = & sp - > mac_control ;
config = & sp - > config ;
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/* Configure Stats for immediate updt */
s2io_updt_stats ( sp ) ;
sp - > stats . tx_packets =
le32_to_cpu ( mac_control - > stats_info - > tmac_frms ) ;
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sp - > stats . tx_errors =
le32_to_cpu ( mac_control - > stats_info - > tmac_any_err_frms ) ;
sp - > stats . rx_errors =
le32_to_cpu ( mac_control - > stats_info - > rmac_drop_frms ) ;
sp - > stats . multicast =
le32_to_cpu ( mac_control - > stats_info - > rmac_vld_mcst_frms ) ;
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sp - > stats . rx_length_errors =
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le32_to_cpu ( mac_control - > stats_info - > rmac_long_frms ) ;
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return ( & sp - > stats ) ;
}
/**
* s2io_set_multicast - entry point for multicast address enable / disable .
* @ dev : pointer to the device structure
* Description :
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* This function is a driver entry point which gets called by the kernel
* whenever multicast addresses must be enabled / disabled . This also gets
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* called to set / reset promiscuous mode . Depending on the deivce flag , we
* determine , if multicast address must be enabled or if promiscuous mode
* is to be disabled etc .
* Return value :
* void .
*/
static void s2io_set_multicast ( struct net_device * dev )
{
int i , j , prev_cnt ;
struct dev_mc_list * mclist ;
nic_t * sp = dev - > priv ;
XENA_dev_config_t __iomem * bar0 = sp - > bar0 ;
u64 val64 = 0 , multi_mac = 0x010203040506ULL , mask =
0xfeffffffffffULL ;
u64 dis_addr = 0xffffffffffffULL , mac_addr = 0 ;
void __iomem * add ;
if ( ( dev - > flags & IFF_ALLMULTI ) & & ( ! sp - > m_cast_flg ) ) {
/* Enable all Multicast addresses */
writeq ( RMAC_ADDR_DATA0_MEM_ADDR ( multi_mac ) ,
& bar0 - > rmac_addr_data0_mem ) ;
writeq ( RMAC_ADDR_DATA1_MEM_MASK ( mask ) ,
& bar0 - > rmac_addr_data1_mem ) ;
val64 = RMAC_ADDR_CMD_MEM_WE |
RMAC_ADDR_CMD_MEM_STROBE_NEW_CMD |
RMAC_ADDR_CMD_MEM_OFFSET ( MAC_MC_ALL_MC_ADDR_OFFSET ) ;
writeq ( val64 , & bar0 - > rmac_addr_cmd_mem ) ;
/* Wait till command completes */
wait_for_cmd_complete ( sp ) ;
sp - > m_cast_flg = 1 ;
sp - > all_multi_pos = MAC_MC_ALL_MC_ADDR_OFFSET ;
} else if ( ( dev - > flags & IFF_ALLMULTI ) & & ( sp - > m_cast_flg ) ) {
/* Disable all Multicast addresses */
writeq ( RMAC_ADDR_DATA0_MEM_ADDR ( dis_addr ) ,
& bar0 - > rmac_addr_data0_mem ) ;
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writeq ( RMAC_ADDR_DATA1_MEM_MASK ( 0x0 ) ,
& bar0 - > rmac_addr_data1_mem ) ;
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val64 = RMAC_ADDR_CMD_MEM_WE |
RMAC_ADDR_CMD_MEM_STROBE_NEW_CMD |
RMAC_ADDR_CMD_MEM_OFFSET ( sp - > all_multi_pos ) ;
writeq ( val64 , & bar0 - > rmac_addr_cmd_mem ) ;
/* Wait till command completes */
wait_for_cmd_complete ( sp ) ;
sp - > m_cast_flg = 0 ;
sp - > all_multi_pos = 0 ;
}
if ( ( dev - > flags & IFF_PROMISC ) & & ( ! sp - > promisc_flg ) ) {
/* Put the NIC into promiscuous mode */
add = & bar0 - > mac_cfg ;
val64 = readq ( & bar0 - > mac_cfg ) ;
val64 | = MAC_CFG_RMAC_PROM_ENABLE ;
writeq ( RMAC_CFG_KEY ( 0x4C0D ) , & bar0 - > rmac_cfg_key ) ;
writel ( ( u32 ) val64 , add ) ;
writeq ( RMAC_CFG_KEY ( 0x4C0D ) , & bar0 - > rmac_cfg_key ) ;
writel ( ( u32 ) ( val64 > > 32 ) , ( add + 4 ) ) ;
val64 = readq ( & bar0 - > mac_cfg ) ;
sp - > promisc_flg = 1 ;
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DBG_PRINT ( INFO_DBG , " %s: entered promiscuous mode \n " ,
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dev - > name ) ;
} else if ( ! ( dev - > flags & IFF_PROMISC ) & & ( sp - > promisc_flg ) ) {
/* Remove the NIC from promiscuous mode */
add = & bar0 - > mac_cfg ;
val64 = readq ( & bar0 - > mac_cfg ) ;
val64 & = ~ MAC_CFG_RMAC_PROM_ENABLE ;
writeq ( RMAC_CFG_KEY ( 0x4C0D ) , & bar0 - > rmac_cfg_key ) ;
writel ( ( u32 ) val64 , add ) ;
writeq ( RMAC_CFG_KEY ( 0x4C0D ) , & bar0 - > rmac_cfg_key ) ;
writel ( ( u32 ) ( val64 > > 32 ) , ( add + 4 ) ) ;
val64 = readq ( & bar0 - > mac_cfg ) ;
sp - > promisc_flg = 0 ;
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DBG_PRINT ( INFO_DBG , " %s: left promiscuous mode \n " ,
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dev - > name ) ;
}
/* Update individual M_CAST address list */
if ( ( ! sp - > m_cast_flg ) & & dev - > mc_count ) {
if ( dev - > mc_count >
( MAX_ADDRS_SUPPORTED - MAC_MC_ADDR_START_OFFSET - 1 ) ) {
DBG_PRINT ( ERR_DBG , " %s: No more Rx filters " ,
dev - > name ) ;
DBG_PRINT ( ERR_DBG , " can be added, please enable " ) ;
DBG_PRINT ( ERR_DBG , " ALL_MULTI instead \n " ) ;
return ;
}
prev_cnt = sp - > mc_addr_count ;
sp - > mc_addr_count = dev - > mc_count ;
/* Clear out the previous list of Mc in the H/W. */
for ( i = 0 ; i < prev_cnt ; i + + ) {
writeq ( RMAC_ADDR_DATA0_MEM_ADDR ( dis_addr ) ,
& bar0 - > rmac_addr_data0_mem ) ;
writeq ( RMAC_ADDR_DATA1_MEM_MASK ( 0ULL ) ,
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& bar0 - > rmac_addr_data1_mem ) ;
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val64 = RMAC_ADDR_CMD_MEM_WE |
RMAC_ADDR_CMD_MEM_STROBE_NEW_CMD |
RMAC_ADDR_CMD_MEM_OFFSET
( MAC_MC_ADDR_START_OFFSET + i ) ;
writeq ( val64 , & bar0 - > rmac_addr_cmd_mem ) ;
/* Wait for command completes */
if ( wait_for_cmd_complete ( sp ) ) {
DBG_PRINT ( ERR_DBG , " %s: Adding " ,
dev - > name ) ;
DBG_PRINT ( ERR_DBG , " Multicasts failed \n " ) ;
return ;
}
}
/* Create the new Rx filter list and update the same in H/W. */
for ( i = 0 , mclist = dev - > mc_list ; i < dev - > mc_count ;
i + + , mclist = mclist - > next ) {
memcpy ( sp - > usr_addrs [ i ] . addr , mclist - > dmi_addr ,
ETH_ALEN ) ;
for ( j = 0 ; j < ETH_ALEN ; j + + ) {
mac_addr | = mclist - > dmi_addr [ j ] ;
mac_addr < < = 8 ;
}
mac_addr > > = 8 ;
writeq ( RMAC_ADDR_DATA0_MEM_ADDR ( mac_addr ) ,
& bar0 - > rmac_addr_data0_mem ) ;
writeq ( RMAC_ADDR_DATA1_MEM_MASK ( 0ULL ) ,
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& bar0 - > rmac_addr_data1_mem ) ;
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val64 = RMAC_ADDR_CMD_MEM_WE |
RMAC_ADDR_CMD_MEM_STROBE_NEW_CMD |
RMAC_ADDR_CMD_MEM_OFFSET
( i + MAC_MC_ADDR_START_OFFSET ) ;
writeq ( val64 , & bar0 - > rmac_addr_cmd_mem ) ;
/* Wait for command completes */
if ( wait_for_cmd_complete ( sp ) ) {
DBG_PRINT ( ERR_DBG , " %s: Adding " ,
dev - > name ) ;
DBG_PRINT ( ERR_DBG , " Multicasts failed \n " ) ;
return ;
}
}
}
}
/**
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* s2io_set_mac_addr - Programs the Xframe mac address
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* @ dev : pointer to the device structure .
* @ addr : a uchar pointer to the new mac address which is to be set .
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* Description : This procedure will program the Xframe to receive
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* frames with new Mac Address
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* Return value : SUCCESS on success and an appropriate ( - ) ve integer
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* as defined in errno . h file on failure .
*/
int s2io_set_mac_addr ( struct net_device * dev , u8 * addr )
{
nic_t * sp = dev - > priv ;
XENA_dev_config_t __iomem * bar0 = sp - > bar0 ;
register u64 val64 , mac_addr = 0 ;
int i ;
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/*
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* Set the new MAC address as the new unicast filter and reflect this
* change on the device address registered with the OS . It will be
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* at offset 0.
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*/
for ( i = 0 ; i < ETH_ALEN ; i + + ) {
mac_addr < < = 8 ;
mac_addr | = addr [ i ] ;
}
writeq ( RMAC_ADDR_DATA0_MEM_ADDR ( mac_addr ) ,
& bar0 - > rmac_addr_data0_mem ) ;
val64 =
RMAC_ADDR_CMD_MEM_WE | RMAC_ADDR_CMD_MEM_STROBE_NEW_CMD |
RMAC_ADDR_CMD_MEM_OFFSET ( 0 ) ;
writeq ( val64 , & bar0 - > rmac_addr_cmd_mem ) ;
/* Wait till command completes */
if ( wait_for_cmd_complete ( sp ) ) {
DBG_PRINT ( ERR_DBG , " %s: set_mac_addr failed \n " , dev - > name ) ;
return FAILURE ;
}
return SUCCESS ;
}
/**
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* s2io_ethtool_sset - Sets different link parameters .
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* @ sp : private member of the device structure , which is a pointer to the * s2io_nic structure .
* @ info : pointer to the structure with parameters given by ethtool to set
* link information .
* Description :
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* The function sets different link parameters provided by the user onto
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* the NIC .
* Return value :
* 0 on success .
*/
static int s2io_ethtool_sset ( struct net_device * dev ,
struct ethtool_cmd * info )
{
nic_t * sp = dev - > priv ;
if ( ( info - > autoneg = = AUTONEG_ENABLE ) | |
( info - > speed ! = SPEED_10000 ) | | ( info - > duplex ! = DUPLEX_FULL ) )
return - EINVAL ;
else {
s2io_close ( sp - > dev ) ;
s2io_open ( sp - > dev ) ;
}
return 0 ;
}
/**
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* s2io_ethtol_gset - Return link specific information .
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* @ sp : private member of the device structure , pointer to the
* s2io_nic structure .
* @ info : pointer to the structure with parameters given by ethtool
* to return link information .
* Description :
* Returns link specific information like speed , duplex etc . . to ethtool .
* Return value :
* return 0 on success .
*/
static int s2io_ethtool_gset ( struct net_device * dev , struct ethtool_cmd * info )
{
nic_t * sp = dev - > priv ;
info - > supported = ( SUPPORTED_10000baseT_Full | SUPPORTED_FIBRE ) ;
info - > advertising = ( SUPPORTED_10000baseT_Full | SUPPORTED_FIBRE ) ;
info - > port = PORT_FIBRE ;
/* info->transceiver?? TODO */
if ( netif_carrier_ok ( sp - > dev ) ) {
info - > speed = 10000 ;
info - > duplex = DUPLEX_FULL ;
} else {
info - > speed = - 1 ;
info - > duplex = - 1 ;
}
info - > autoneg = AUTONEG_DISABLE ;
return 0 ;
}
/**
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* s2io_ethtool_gdrvinfo - Returns driver specific information .
* @ sp : private member of the device structure , which is a pointer to the
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* s2io_nic structure .
* @ info : pointer to the structure with parameters given by ethtool to
* return driver information .
* Description :
* Returns driver specefic information like name , version etc . . to ethtool .
* Return value :
* void
*/
static void s2io_ethtool_gdrvinfo ( struct net_device * dev ,
struct ethtool_drvinfo * info )
{
nic_t * sp = dev - > priv ;
strncpy ( info - > driver , s2io_driver_name , sizeof ( s2io_driver_name ) ) ;
strncpy ( info - > version , s2io_driver_version ,
sizeof ( s2io_driver_version ) ) ;
strncpy ( info - > fw_version , " " , 32 ) ;
strncpy ( info - > bus_info , pci_name ( sp - > pdev ) , 32 ) ;
info - > regdump_len = XENA_REG_SPACE ;
info - > eedump_len = XENA_EEPROM_SPACE ;
info - > testinfo_len = S2IO_TEST_LEN ;
info - > n_stats = S2IO_STAT_LEN ;
}
/**
* s2io_ethtool_gregs - dumps the entire space of Xfame into the buffer .
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* @ sp : private member of the device structure , which is a pointer to the
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* s2io_nic structure .
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* @ regs : pointer to the structure with parameters given by ethtool for
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* dumping the registers .
* @ reg_space : The input argumnet into which all the registers are dumped .
* Description :
* Dumps the entire register space of xFrame NIC into the user given
* buffer area .
* Return value :
* void .
*/
static void s2io_ethtool_gregs ( struct net_device * dev ,
struct ethtool_regs * regs , void * space )
{
int i ;
u64 reg ;
u8 * reg_space = ( u8 * ) space ;
nic_t * sp = dev - > priv ;
regs - > len = XENA_REG_SPACE ;
regs - > version = sp - > pdev - > subsystem_device ;
for ( i = 0 ; i < regs - > len ; i + = 8 ) {
reg = readq ( sp - > bar0 + i ) ;
memcpy ( ( reg_space + i ) , & reg , 8 ) ;
}
}
/**
* s2io_phy_id - timer function that alternates adapter LED .
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* @ data : address of the private member of the device structure , which
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* is a pointer to the s2io_nic structure , provided as an u32 .
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* Description : This is actually the timer function that alternates the
* adapter LED bit of the adapter control bit to set / reset every time on
* invocation . The timer is set for 1 / 2 a second , hence tha NIC blinks
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* once every second .
*/
static void s2io_phy_id ( unsigned long data )
{
nic_t * sp = ( nic_t * ) data ;
XENA_dev_config_t __iomem * bar0 = sp - > bar0 ;
u64 val64 = 0 ;
u16 subid ;
subid = sp - > pdev - > subsystem_device ;
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if ( ( sp - > device_type = = XFRAME_II_DEVICE ) | |
( ( subid & 0xFF ) > = 0x07 ) ) {
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val64 = readq ( & bar0 - > gpio_control ) ;
val64 ^ = GPIO_CTRL_GPIO_0 ;
writeq ( val64 , & bar0 - > gpio_control ) ;
} else {
val64 = readq ( & bar0 - > adapter_control ) ;
val64 ^ = ADAPTER_LED_ON ;
writeq ( val64 , & bar0 - > adapter_control ) ;
}
mod_timer ( & sp - > id_timer , jiffies + HZ / 2 ) ;
}
/**
* s2io_ethtool_idnic - To physically identify the nic on the system .
* @ sp : private member of the device structure , which is a pointer to the
* s2io_nic structure .
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* @ id : pointer to the structure with identification parameters given by
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* ethtool .
* Description : Used to physically identify the NIC on the system .
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* The Link LED will blink for a time specified by the user for
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* identification .
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* NOTE : The Link has to be Up to be able to blink the LED . Hence
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* identification is possible only if it ' s link is up .
* Return value :
* int , returns 0 on success
*/
static int s2io_ethtool_idnic ( struct net_device * dev , u32 data )
{
u64 val64 = 0 , last_gpio_ctrl_val ;
nic_t * sp = dev - > priv ;
XENA_dev_config_t __iomem * bar0 = sp - > bar0 ;
u16 subid ;
subid = sp - > pdev - > subsystem_device ;
last_gpio_ctrl_val = readq ( & bar0 - > gpio_control ) ;
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if ( ( sp - > device_type = = XFRAME_I_DEVICE ) & &
( ( subid & 0xFF ) < 0x07 ) ) {
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val64 = readq ( & bar0 - > adapter_control ) ;
if ( ! ( val64 & ADAPTER_CNTL_EN ) ) {
printk ( KERN_ERR
" Adapter Link down, cannot blink LED \n " ) ;
return - EFAULT ;
}
}
if ( sp - > id_timer . function = = NULL ) {
init_timer ( & sp - > id_timer ) ;
sp - > id_timer . function = s2io_phy_id ;
sp - > id_timer . data = ( unsigned long ) sp ;
}
mod_timer ( & sp - > id_timer , jiffies ) ;
if ( data )
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msleep_interruptible ( data * HZ ) ;
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else
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msleep_interruptible ( MAX_FLICKER_TIME ) ;
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del_timer_sync ( & sp - > id_timer ) ;
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if ( CARDS_WITH_FAULTY_LINK_INDICATORS ( sp - > device_type , subid ) ) {
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writeq ( last_gpio_ctrl_val , & bar0 - > gpio_control ) ;
last_gpio_ctrl_val = readq ( & bar0 - > gpio_control ) ;
}
return 0 ;
}
/**
* s2io_ethtool_getpause_data - Pause frame frame generation and reception .
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* @ sp : private member of the device structure , which is a pointer to the
* s2io_nic structure .
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* @ ep : pointer to the structure with pause parameters given by ethtool .
* Description :
* Returns the Pause frame generation and reception capability of the NIC .
* Return value :
* void
*/
static void s2io_ethtool_getpause_data ( struct net_device * dev ,
struct ethtool_pauseparam * ep )
{
u64 val64 ;
nic_t * sp = dev - > priv ;
XENA_dev_config_t __iomem * bar0 = sp - > bar0 ;
val64 = readq ( & bar0 - > rmac_pause_cfg ) ;
if ( val64 & RMAC_PAUSE_GEN_ENABLE )
ep - > tx_pause = TRUE ;
if ( val64 & RMAC_PAUSE_RX_ENABLE )
ep - > rx_pause = TRUE ;
ep - > autoneg = FALSE ;
}
/**
* s2io_ethtool_setpause_data - set / reset pause frame generation .
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* @ sp : private member of the device structure , which is a pointer to the
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* s2io_nic structure .
* @ ep : pointer to the structure with pause parameters given by ethtool .
* Description :
* It can be used to set or reset Pause frame generation or reception
* support of the NIC .
* Return value :
* int , returns 0 on Success
*/
static int s2io_ethtool_setpause_data ( struct net_device * dev ,
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struct ethtool_pauseparam * ep )
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{
u64 val64 ;
nic_t * sp = dev - > priv ;
XENA_dev_config_t __iomem * bar0 = sp - > bar0 ;
val64 = readq ( & bar0 - > rmac_pause_cfg ) ;
if ( ep - > tx_pause )
val64 | = RMAC_PAUSE_GEN_ENABLE ;
else
val64 & = ~ RMAC_PAUSE_GEN_ENABLE ;
if ( ep - > rx_pause )
val64 | = RMAC_PAUSE_RX_ENABLE ;
else
val64 & = ~ RMAC_PAUSE_RX_ENABLE ;
writeq ( val64 , & bar0 - > rmac_pause_cfg ) ;
return 0 ;
}
/**
* read_eeprom - reads 4 bytes of data from user given offset .
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* @ sp : private member of the device structure , which is a pointer to the
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* s2io_nic structure .
* @ off : offset at which the data must be written
* @ data : Its an output parameter where the data read at the given
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* offset is stored .
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* Description :
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* Will read 4 bytes of data from the user given offset and return the
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* read data .
* NOTE : Will allow to read only part of the EEPROM visible through the
* I2C bus .
* Return value :
* - 1 on failure and 0 on success .
*/
# define S2IO_DEV_ID 5
static int read_eeprom ( nic_t * sp , int off , u32 * data )
{
int ret = - 1 ;
u32 exit_cnt = 0 ;
u64 val64 ;
XENA_dev_config_t __iomem * bar0 = sp - > bar0 ;
val64 = I2C_CONTROL_DEV_ID ( S2IO_DEV_ID ) | I2C_CONTROL_ADDR ( off ) |
I2C_CONTROL_BYTE_CNT ( 0x3 ) | I2C_CONTROL_READ |
I2C_CONTROL_CNTL_START ;
SPECIAL_REG_WRITE ( val64 , & bar0 - > i2c_control , LF ) ;
while ( exit_cnt < 5 ) {
val64 = readq ( & bar0 - > i2c_control ) ;
if ( I2C_CONTROL_CNTL_END ( val64 ) ) {
* data = I2C_CONTROL_GET_DATA ( val64 ) ;
ret = 0 ;
break ;
}
msleep ( 50 ) ;
exit_cnt + + ;
}
return ret ;
}
/**
* write_eeprom - actually writes the relevant part of the data value .
* @ sp : private member of the device structure , which is a pointer to the
* s2io_nic structure .
* @ off : offset at which the data must be written
* @ data : The data that is to be written
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* @ cnt : Number of bytes of the data that are actually to be written into
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* the Eeprom . ( max of 3 )
* Description :
* Actually writes the relevant part of the data value into the Eeprom
* through the I2C bus .
* Return value :
* 0 on success , - 1 on failure .
*/
static int write_eeprom ( nic_t * sp , int off , u32 data , int cnt )
{
int exit_cnt = 0 , ret = - 1 ;
u64 val64 ;
XENA_dev_config_t __iomem * bar0 = sp - > bar0 ;
val64 = I2C_CONTROL_DEV_ID ( S2IO_DEV_ID ) | I2C_CONTROL_ADDR ( off ) |
I2C_CONTROL_BYTE_CNT ( cnt ) | I2C_CONTROL_SET_DATA ( data ) |
I2C_CONTROL_CNTL_START ;
SPECIAL_REG_WRITE ( val64 , & bar0 - > i2c_control , LF ) ;
while ( exit_cnt < 5 ) {
val64 = readq ( & bar0 - > i2c_control ) ;
if ( I2C_CONTROL_CNTL_END ( val64 ) ) {
if ( ! ( val64 & I2C_CONTROL_NACK ) )
ret = 0 ;
break ;
}
msleep ( 50 ) ;
exit_cnt + + ;
}
return ret ;
}
/**
* s2io_ethtool_geeprom - reads the value stored in the Eeprom .
* @ sp : private member of the device structure , which is a pointer to the * s2io_nic structure .
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* @ eeprom : pointer to the user level structure provided by ethtool ,
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* containing all relevant information .
* @ data_buf : user defined value to be written into Eeprom .
* Description : Reads the values stored in the Eeprom at given offset
* for a given length . Stores these values int the input argument data
* buffer ' data_buf ' and returns these to the caller ( ethtool . )
* Return value :
* int 0 on success
*/
static int s2io_ethtool_geeprom ( struct net_device * dev ,
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struct ethtool_eeprom * eeprom , u8 * data_buf )
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{
u32 data , i , valid ;
nic_t * sp = dev - > priv ;
eeprom - > magic = sp - > pdev - > vendor | ( sp - > pdev - > device < < 16 ) ;
if ( ( eeprom - > offset + eeprom - > len ) > ( XENA_EEPROM_SPACE ) )
eeprom - > len = XENA_EEPROM_SPACE - eeprom - > offset ;
for ( i = 0 ; i < eeprom - > len ; i + = 4 ) {
if ( read_eeprom ( sp , ( eeprom - > offset + i ) , & data ) ) {
DBG_PRINT ( ERR_DBG , " Read of EEPROM failed \n " ) ;
return - EFAULT ;
}
valid = INV ( data ) ;
memcpy ( ( data_buf + i ) , & valid , 4 ) ;
}
return 0 ;
}
/**
* s2io_ethtool_seeprom - tries to write the user provided value in Eeprom
* @ sp : private member of the device structure , which is a pointer to the
* s2io_nic structure .
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* @ eeprom : pointer to the user level structure provided by ethtool ,
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* containing all relevant information .
* @ data_buf ; user defined value to be written into Eeprom .
* Description :
* Tries to write the user provided value in the Eeprom , at the offset
* given by the user .
* Return value :
* 0 on success , - EFAULT on failure .
*/
static int s2io_ethtool_seeprom ( struct net_device * dev ,
struct ethtool_eeprom * eeprom ,
u8 * data_buf )
{
int len = eeprom - > len , cnt = 0 ;
u32 valid = 0 , data ;
nic_t * sp = dev - > priv ;
if ( eeprom - > magic ! = ( sp - > pdev - > vendor | ( sp - > pdev - > device < < 16 ) ) ) {
DBG_PRINT ( ERR_DBG ,
" ETHTOOL_WRITE_EEPROM Err: Magic value " ) ;
DBG_PRINT ( ERR_DBG , " is wrong, Its not 0x%x \n " ,
eeprom - > magic ) ;
return - EFAULT ;
}
while ( len ) {
data = ( u32 ) data_buf [ cnt ] & 0x000000FF ;
if ( data ) {
valid = ( u32 ) ( data < < 24 ) ;
} else
valid = data ;
if ( write_eeprom ( sp , ( eeprom - > offset + cnt ) , valid , 0 ) ) {
DBG_PRINT ( ERR_DBG ,
" ETHTOOL_WRITE_EEPROM Err: Cannot " ) ;
DBG_PRINT ( ERR_DBG ,
" write into the specified offset \n " ) ;
return - EFAULT ;
}
cnt + + ;
len - - ;
}
return 0 ;
}
/**
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* s2io_register_test - reads and writes into all clock domains .
* @ sp : private member of the device structure , which is a pointer to the
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* s2io_nic structure .
* @ data : variable that returns the result of each of the test conducted b
* by the driver .
* Description :
* Read and write into all clock domains . The NIC has 3 clock domains ,
* see that registers in all the three regions are accessible .
* Return value :
* 0 on success .
*/
static int s2io_register_test ( nic_t * sp , uint64_t * data )
{
XENA_dev_config_t __iomem * bar0 = sp - > bar0 ;
u64 val64 = 0 ;
int fail = 0 ;
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val64 = readq ( & bar0 - > pif_rd_swapper_fb ) ;
if ( val64 ! = 0x123456789abcdefULL ) {
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fail = 1 ;
DBG_PRINT ( INFO_DBG , " Read Test level 1 fails \n " ) ;
}
val64 = readq ( & bar0 - > rmac_pause_cfg ) ;
if ( val64 ! = 0xc000ffff00000000ULL ) {
fail = 1 ;
DBG_PRINT ( INFO_DBG , " Read Test level 2 fails \n " ) ;
}
val64 = readq ( & bar0 - > rx_queue_cfg ) ;
if ( val64 ! = 0x0808080808080808ULL ) {
fail = 1 ;
DBG_PRINT ( INFO_DBG , " Read Test level 3 fails \n " ) ;
}
val64 = readq ( & bar0 - > xgxs_efifo_cfg ) ;
if ( val64 ! = 0x000000001923141EULL ) {
fail = 1 ;
DBG_PRINT ( INFO_DBG , " Read Test level 4 fails \n " ) ;
}
val64 = 0x5A5A5A5A5A5A5A5AULL ;
writeq ( val64 , & bar0 - > xmsi_data ) ;
val64 = readq ( & bar0 - > xmsi_data ) ;
if ( val64 ! = 0x5A5A5A5A5A5A5A5AULL ) {
fail = 1 ;
DBG_PRINT ( ERR_DBG , " Write Test level 1 fails \n " ) ;
}
val64 = 0xA5A5A5A5A5A5A5A5ULL ;
writeq ( val64 , & bar0 - > xmsi_data ) ;
val64 = readq ( & bar0 - > xmsi_data ) ;
if ( val64 ! = 0xA5A5A5A5A5A5A5A5ULL ) {
fail = 1 ;
DBG_PRINT ( ERR_DBG , " Write Test level 2 fails \n " ) ;
}
* data = fail ;
return 0 ;
}
/**
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* s2io_eeprom_test - to verify that EEprom in the xena can be programmed .
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* @ sp : private member of the device structure , which is a pointer to the
* s2io_nic structure .
* @ data : variable that returns the result of each of the test conducted by
* the driver .
* Description :
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* Verify that EEPROM in the xena can be programmed using I2C_CONTROL
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* register .
* Return value :
* 0 on success .
*/
static int s2io_eeprom_test ( nic_t * sp , uint64_t * data )
{
int fail = 0 ;
u32 ret_data ;
/* Test Write Error at offset 0 */
if ( ! write_eeprom ( sp , 0 , 0 , 3 ) )
fail = 1 ;
/* Test Write at offset 4f0 */
if ( write_eeprom ( sp , 0x4F0 , 0x01234567 , 3 ) )
fail = 1 ;
if ( read_eeprom ( sp , 0x4F0 , & ret_data ) )
fail = 1 ;
if ( ret_data ! = 0x01234567 )
fail = 1 ;
/* Reset the EEPROM data go FFFF */
write_eeprom ( sp , 0x4F0 , 0xFFFFFFFF , 3 ) ;
/* Test Write Request Error at offset 0x7c */
if ( ! write_eeprom ( sp , 0x07C , 0 , 3 ) )
fail = 1 ;
/* Test Write Request at offset 0x7fc */
if ( write_eeprom ( sp , 0x7FC , 0x01234567 , 3 ) )
fail = 1 ;
if ( read_eeprom ( sp , 0x7FC , & ret_data ) )
fail = 1 ;
if ( ret_data ! = 0x01234567 )
fail = 1 ;
/* Reset the EEPROM data go FFFF */
write_eeprom ( sp , 0x7FC , 0xFFFFFFFF , 3 ) ;
/* Test Write Error at offset 0x80 */
if ( ! write_eeprom ( sp , 0x080 , 0 , 3 ) )
fail = 1 ;
/* Test Write Error at offset 0xfc */
if ( ! write_eeprom ( sp , 0x0FC , 0 , 3 ) )
fail = 1 ;
/* Test Write Error at offset 0x100 */
if ( ! write_eeprom ( sp , 0x100 , 0 , 3 ) )
fail = 1 ;
/* Test Write Error at offset 4ec */
if ( ! write_eeprom ( sp , 0x4EC , 0 , 3 ) )
fail = 1 ;
* data = fail ;
return 0 ;
}
/**
* s2io_bist_test - invokes the MemBist test of the card .
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* @ sp : private member of the device structure , which is a pointer to the
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* s2io_nic structure .
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* @ data : variable that returns the result of each of the test conducted by
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* the driver .
* Description :
* This invokes the MemBist test of the card . We give around
* 2 secs time for the Test to complete . If it ' s still not complete
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* within this peiod , we consider that the test failed .
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* Return value :
* 0 on success and - 1 on failure .
*/
static int s2io_bist_test ( nic_t * sp , uint64_t * data )
{
u8 bist = 0 ;
int cnt = 0 , ret = - 1 ;
pci_read_config_byte ( sp - > pdev , PCI_BIST , & bist ) ;
bist | = PCI_BIST_START ;
pci_write_config_word ( sp - > pdev , PCI_BIST , bist ) ;
while ( cnt < 20 ) {
pci_read_config_byte ( sp - > pdev , PCI_BIST , & bist ) ;
if ( ! ( bist & PCI_BIST_START ) ) {
* data = ( bist & PCI_BIST_CODE_MASK ) ;
ret = 0 ;
break ;
}
msleep ( 100 ) ;
cnt + + ;
}
return ret ;
}
/**
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* s2io - link_test - verifies the link state of the nic
* @ sp ; private member of the device structure , which is a pointer to the
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* s2io_nic structure .
* @ data : variable that returns the result of each of the test conducted by
* the driver .
* Description :
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* The function verifies the link state of the NIC and updates the input
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* argument ' data ' appropriately .
* Return value :
* 0 on success .
*/
static int s2io_link_test ( nic_t * sp , uint64_t * data )
{
XENA_dev_config_t __iomem * bar0 = sp - > bar0 ;
u64 val64 ;
val64 = readq ( & bar0 - > adapter_status ) ;
if ( val64 & ADAPTER_STATUS_RMAC_LOCAL_FAULT )
* data = 1 ;
return 0 ;
}
/**
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* s2io_rldram_test - offline test for access to the RldRam chip on the NIC
* @ sp - private member of the device structure , which is a pointer to the
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* s2io_nic structure .
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* @ data - variable that returns the result of each of the test
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* conducted by the driver .
* Description :
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* This is one of the offline test that tests the read and write
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* access to the RldRam chip on the NIC .
* Return value :
* 0 on success .
*/
static int s2io_rldram_test ( nic_t * sp , uint64_t * data )
{
XENA_dev_config_t __iomem * bar0 = sp - > bar0 ;
u64 val64 ;
int cnt , iteration = 0 , test_pass = 0 ;
val64 = readq ( & bar0 - > adapter_control ) ;
val64 & = ~ ADAPTER_ECC_EN ;
writeq ( val64 , & bar0 - > adapter_control ) ;
val64 = readq ( & bar0 - > mc_rldram_test_ctrl ) ;
val64 | = MC_RLDRAM_TEST_MODE ;
writeq ( val64 , & bar0 - > mc_rldram_test_ctrl ) ;
val64 = readq ( & bar0 - > mc_rldram_mrs ) ;
val64 | = MC_RLDRAM_QUEUE_SIZE_ENABLE ;
SPECIAL_REG_WRITE ( val64 , & bar0 - > mc_rldram_mrs , UF ) ;
val64 | = MC_RLDRAM_MRS_ENABLE ;
SPECIAL_REG_WRITE ( val64 , & bar0 - > mc_rldram_mrs , UF ) ;
while ( iteration < 2 ) {
val64 = 0x55555555aaaa0000ULL ;
if ( iteration = = 1 ) {
val64 ^ = 0xFFFFFFFFFFFF0000ULL ;
}
writeq ( val64 , & bar0 - > mc_rldram_test_d0 ) ;
val64 = 0xaaaa5a5555550000ULL ;
if ( iteration = = 1 ) {
val64 ^ = 0xFFFFFFFFFFFF0000ULL ;
}
writeq ( val64 , & bar0 - > mc_rldram_test_d1 ) ;
val64 = 0x55aaaaaaaa5a0000ULL ;
if ( iteration = = 1 ) {
val64 ^ = 0xFFFFFFFFFFFF0000ULL ;
}
writeq ( val64 , & bar0 - > mc_rldram_test_d2 ) ;
val64 = ( u64 ) ( 0x0000003fffff0000ULL ) ;
writeq ( val64 , & bar0 - > mc_rldram_test_add ) ;
val64 = MC_RLDRAM_TEST_MODE ;
writeq ( val64 , & bar0 - > mc_rldram_test_ctrl ) ;
val64 | =
MC_RLDRAM_TEST_MODE | MC_RLDRAM_TEST_WRITE |
MC_RLDRAM_TEST_GO ;
writeq ( val64 , & bar0 - > mc_rldram_test_ctrl ) ;
for ( cnt = 0 ; cnt < 5 ; cnt + + ) {
val64 = readq ( & bar0 - > mc_rldram_test_ctrl ) ;
if ( val64 & MC_RLDRAM_TEST_DONE )
break ;
msleep ( 200 ) ;
}
if ( cnt = = 5 )
break ;
val64 = MC_RLDRAM_TEST_MODE ;
writeq ( val64 , & bar0 - > mc_rldram_test_ctrl ) ;
val64 | = MC_RLDRAM_TEST_MODE | MC_RLDRAM_TEST_GO ;
writeq ( val64 , & bar0 - > mc_rldram_test_ctrl ) ;
for ( cnt = 0 ; cnt < 5 ; cnt + + ) {
val64 = readq ( & bar0 - > mc_rldram_test_ctrl ) ;
if ( val64 & MC_RLDRAM_TEST_DONE )
break ;
msleep ( 500 ) ;
}
if ( cnt = = 5 )
break ;
val64 = readq ( & bar0 - > mc_rldram_test_ctrl ) ;
if ( val64 & MC_RLDRAM_TEST_PASS )
test_pass = 1 ;
iteration + + ;
}
if ( ! test_pass )
* data = 1 ;
else
* data = 0 ;
return 0 ;
}
/**
* s2io_ethtool_test - conducts 6 tsets to determine the health of card .
* @ sp : private member of the device structure , which is a pointer to the
* s2io_nic structure .
* @ ethtest : pointer to a ethtool command specific structure that will be
* returned to the user .
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* @ data : variable that returns the result of each of the test
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* conducted by the driver .
* Description :
* This function conducts 6 tests ( 4 offline and 2 online ) to determine
* the health of the card .
* Return value :
* void
*/
static void s2io_ethtool_test ( struct net_device * dev ,
struct ethtool_test * ethtest ,
uint64_t * data )
{
nic_t * sp = dev - > priv ;
int orig_state = netif_running ( sp - > dev ) ;
if ( ethtest - > flags = = ETH_TEST_FL_OFFLINE ) {
/* Offline Tests. */
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if ( orig_state )
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s2io_close ( sp - > dev ) ;
if ( s2io_register_test ( sp , & data [ 0 ] ) )
ethtest - > flags | = ETH_TEST_FL_FAILED ;
s2io_reset ( sp ) ;
if ( s2io_rldram_test ( sp , & data [ 3 ] ) )
ethtest - > flags | = ETH_TEST_FL_FAILED ;
s2io_reset ( sp ) ;
if ( s2io_eeprom_test ( sp , & data [ 1 ] ) )
ethtest - > flags | = ETH_TEST_FL_FAILED ;
if ( s2io_bist_test ( sp , & data [ 4 ] ) )
ethtest - > flags | = ETH_TEST_FL_FAILED ;
if ( orig_state )
s2io_open ( sp - > dev ) ;
data [ 2 ] = 0 ;
} else {
/* Online Tests. */
if ( ! orig_state ) {
DBG_PRINT ( ERR_DBG ,
" %s: is not up, cannot run test \n " ,
dev - > name ) ;
data [ 0 ] = - 1 ;
data [ 1 ] = - 1 ;
data [ 2 ] = - 1 ;
data [ 3 ] = - 1 ;
data [ 4 ] = - 1 ;
}
if ( s2io_link_test ( sp , & data [ 2 ] ) )
ethtest - > flags | = ETH_TEST_FL_FAILED ;
data [ 0 ] = 0 ;
data [ 1 ] = 0 ;
data [ 3 ] = 0 ;
data [ 4 ] = 0 ;
}
}
static void s2io_get_ethtool_stats ( struct net_device * dev ,
struct ethtool_stats * estats ,
u64 * tmp_stats )
{
int i = 0 ;
nic_t * sp = dev - > priv ;
StatInfo_t * stat_info = sp - > mac_control . stats_info ;
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s2io_updt_stats ( sp ) ;
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tmp_stats [ i + + ] =
( u64 ) le32_to_cpu ( stat_info - > tmac_frms_oflow ) < < 32 |
le32_to_cpu ( stat_info - > tmac_frms ) ;
tmp_stats [ i + + ] =
( u64 ) le32_to_cpu ( stat_info - > tmac_data_octets_oflow ) < < 32 |
le32_to_cpu ( stat_info - > tmac_data_octets ) ;
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tmp_stats [ i + + ] = le64_to_cpu ( stat_info - > tmac_drop_frms ) ;
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tmp_stats [ i + + ] =
( u64 ) le32_to_cpu ( stat_info - > tmac_mcst_frms_oflow ) < < 32 |
le32_to_cpu ( stat_info - > tmac_mcst_frms ) ;
tmp_stats [ i + + ] =
( u64 ) le32_to_cpu ( stat_info - > tmac_bcst_frms_oflow ) < < 32 |
le32_to_cpu ( stat_info - > tmac_bcst_frms ) ;
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tmp_stats [ i + + ] = le64_to_cpu ( stat_info - > tmac_pause_ctrl_frms ) ;
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tmp_stats [ i + + ] =
( u64 ) le32_to_cpu ( stat_info - > tmac_any_err_frms_oflow ) < < 32 |
le32_to_cpu ( stat_info - > tmac_any_err_frms ) ;
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tmp_stats [ i + + ] = le64_to_cpu ( stat_info - > tmac_vld_ip_octets ) ;
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tmp_stats [ i + + ] =
( u64 ) le32_to_cpu ( stat_info - > tmac_vld_ip_oflow ) < < 32 |
le32_to_cpu ( stat_info - > tmac_vld_ip ) ;
tmp_stats [ i + + ] =
( u64 ) le32_to_cpu ( stat_info - > tmac_drop_ip_oflow ) < < 32 |
le32_to_cpu ( stat_info - > tmac_drop_ip ) ;
tmp_stats [ i + + ] =
( u64 ) le32_to_cpu ( stat_info - > tmac_icmp_oflow ) < < 32 |
le32_to_cpu ( stat_info - > tmac_icmp ) ;
tmp_stats [ i + + ] =
( u64 ) le32_to_cpu ( stat_info - > tmac_rst_tcp_oflow ) < < 32 |
le32_to_cpu ( stat_info - > tmac_rst_tcp ) ;
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tmp_stats [ i + + ] = le64_to_cpu ( stat_info - > tmac_tcp ) ;
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tmp_stats [ i + + ] = ( u64 ) le32_to_cpu ( stat_info - > tmac_udp_oflow ) < < 32 |
le32_to_cpu ( stat_info - > tmac_udp ) ;
tmp_stats [ i + + ] =
( u64 ) le32_to_cpu ( stat_info - > rmac_vld_frms_oflow ) < < 32 |
le32_to_cpu ( stat_info - > rmac_vld_frms ) ;
tmp_stats [ i + + ] =
( u64 ) le32_to_cpu ( stat_info - > rmac_data_octets_oflow ) < < 32 |
le32_to_cpu ( stat_info - > rmac_data_octets ) ;
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tmp_stats [ i + + ] = le64_to_cpu ( stat_info - > rmac_fcs_err_frms ) ;
tmp_stats [ i + + ] = le64_to_cpu ( stat_info - > rmac_drop_frms ) ;
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tmp_stats [ i + + ] =
( u64 ) le32_to_cpu ( stat_info - > rmac_vld_mcst_frms_oflow ) < < 32 |
le32_to_cpu ( stat_info - > rmac_vld_mcst_frms ) ;
tmp_stats [ i + + ] =
( u64 ) le32_to_cpu ( stat_info - > rmac_vld_bcst_frms_oflow ) < < 32 |
le32_to_cpu ( stat_info - > rmac_vld_bcst_frms ) ;
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tmp_stats [ i + + ] = le32_to_cpu ( stat_info - > rmac_in_rng_len_err_frms ) ;
tmp_stats [ i + + ] = le64_to_cpu ( stat_info - > rmac_long_frms ) ;
tmp_stats [ i + + ] = le64_to_cpu ( stat_info - > rmac_pause_ctrl_frms ) ;
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tmp_stats [ i + + ] =
( u64 ) le32_to_cpu ( stat_info - > rmac_discarded_frms_oflow ) < < 32 |
le32_to_cpu ( stat_info - > rmac_discarded_frms ) ;
tmp_stats [ i + + ] =
( u64 ) le32_to_cpu ( stat_info - > rmac_usized_frms_oflow ) < < 32 |
le32_to_cpu ( stat_info - > rmac_usized_frms ) ;
tmp_stats [ i + + ] =
( u64 ) le32_to_cpu ( stat_info - > rmac_osized_frms_oflow ) < < 32 |
le32_to_cpu ( stat_info - > rmac_osized_frms ) ;
tmp_stats [ i + + ] =
( u64 ) le32_to_cpu ( stat_info - > rmac_frag_frms_oflow ) < < 32 |
le32_to_cpu ( stat_info - > rmac_frag_frms ) ;
tmp_stats [ i + + ] =
( u64 ) le32_to_cpu ( stat_info - > rmac_jabber_frms_oflow ) < < 32 |
le32_to_cpu ( stat_info - > rmac_jabber_frms ) ;
tmp_stats [ i + + ] = ( u64 ) le32_to_cpu ( stat_info - > rmac_ip_oflow ) < < 32 |
le32_to_cpu ( stat_info - > rmac_ip ) ;
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tmp_stats [ i + + ] = le64_to_cpu ( stat_info - > rmac_ip_octets ) ;
tmp_stats [ i + + ] = le32_to_cpu ( stat_info - > rmac_hdr_err_ip ) ;
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tmp_stats [ i + + ] = ( u64 ) le32_to_cpu ( stat_info - > rmac_drop_ip_oflow ) < < 32 |
le32_to_cpu ( stat_info - > rmac_drop_ip ) ;
tmp_stats [ i + + ] = ( u64 ) le32_to_cpu ( stat_info - > rmac_icmp_oflow ) < < 32 |
le32_to_cpu ( stat_info - > rmac_icmp ) ;
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tmp_stats [ i + + ] = le64_to_cpu ( stat_info - > rmac_tcp ) ;
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tmp_stats [ i + + ] = ( u64 ) le32_to_cpu ( stat_info - > rmac_udp_oflow ) < < 32 |
le32_to_cpu ( stat_info - > rmac_udp ) ;
tmp_stats [ i + + ] =
( u64 ) le32_to_cpu ( stat_info - > rmac_err_drp_udp_oflow ) < < 32 |
le32_to_cpu ( stat_info - > rmac_err_drp_udp ) ;
tmp_stats [ i + + ] =
( u64 ) le32_to_cpu ( stat_info - > rmac_pause_cnt_oflow ) < < 32 |
le32_to_cpu ( stat_info - > rmac_pause_cnt ) ;
tmp_stats [ i + + ] =
( u64 ) le32_to_cpu ( stat_info - > rmac_accepted_ip_oflow ) < < 32 |
le32_to_cpu ( stat_info - > rmac_accepted_ip ) ;
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tmp_stats [ i + + ] = le32_to_cpu ( stat_info - > rmac_err_tcp ) ;
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tmp_stats [ i + + ] = 0 ;
tmp_stats [ i + + ] = stat_info - > sw_stat . single_ecc_errs ;
tmp_stats [ i + + ] = stat_info - > sw_stat . double_ecc_errs ;
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}
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int s2io_ethtool_get_regs_len ( struct net_device * dev )
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{
return ( XENA_REG_SPACE ) ;
}
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u32 s2io_ethtool_get_rx_csum ( struct net_device * dev )
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{
nic_t * sp = dev - > priv ;
return ( sp - > rx_csum ) ;
}
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int s2io_ethtool_set_rx_csum ( struct net_device * dev , u32 data )
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{
nic_t * sp = dev - > priv ;
if ( data )
sp - > rx_csum = 1 ;
else
sp - > rx_csum = 0 ;
return 0 ;
}
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int s2io_get_eeprom_len ( struct net_device * dev )
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{
return ( XENA_EEPROM_SPACE ) ;
}
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int s2io_ethtool_self_test_count ( struct net_device * dev )
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{
return ( S2IO_TEST_LEN ) ;
}
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void s2io_ethtool_get_strings ( struct net_device * dev ,
u32 stringset , u8 * data )
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{
switch ( stringset ) {
case ETH_SS_TEST :
memcpy ( data , s2io_gstrings , S2IO_STRINGS_LEN ) ;
break ;
case ETH_SS_STATS :
memcpy ( data , & ethtool_stats_keys ,
sizeof ( ethtool_stats_keys ) ) ;
}
}
static int s2io_ethtool_get_stats_count ( struct net_device * dev )
{
return ( S2IO_STAT_LEN ) ;
}
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int s2io_ethtool_op_set_tx_csum ( struct net_device * dev , u32 data )
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{
if ( data )
dev - > features | = NETIF_F_IP_CSUM ;
else
dev - > features & = ~ NETIF_F_IP_CSUM ;
return 0 ;
}
static struct ethtool_ops netdev_ethtool_ops = {
. get_settings = s2io_ethtool_gset ,
. set_settings = s2io_ethtool_sset ,
. get_drvinfo = s2io_ethtool_gdrvinfo ,
. get_regs_len = s2io_ethtool_get_regs_len ,
. get_regs = s2io_ethtool_gregs ,
. get_link = ethtool_op_get_link ,
. get_eeprom_len = s2io_get_eeprom_len ,
. get_eeprom = s2io_ethtool_geeprom ,
. set_eeprom = s2io_ethtool_seeprom ,
. get_pauseparam = s2io_ethtool_getpause_data ,
. set_pauseparam = s2io_ethtool_setpause_data ,
. get_rx_csum = s2io_ethtool_get_rx_csum ,
. set_rx_csum = s2io_ethtool_set_rx_csum ,
. get_tx_csum = ethtool_op_get_tx_csum ,
. set_tx_csum = s2io_ethtool_op_set_tx_csum ,
. get_sg = ethtool_op_get_sg ,
. set_sg = ethtool_op_set_sg ,
# ifdef NETIF_F_TSO
. get_tso = ethtool_op_get_tso ,
. set_tso = ethtool_op_set_tso ,
# endif
. self_test_count = s2io_ethtool_self_test_count ,
. self_test = s2io_ethtool_test ,
. get_strings = s2io_ethtool_get_strings ,
. phys_id = s2io_ethtool_idnic ,
. get_stats_count = s2io_ethtool_get_stats_count ,
. get_ethtool_stats = s2io_get_ethtool_stats
} ;
/**
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* s2io_ioctl - Entry point for the Ioctl
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* @ dev : Device pointer .
* @ ifr : An IOCTL specefic structure , that can contain a pointer to
* a proprietary structure used to pass information to the driver .
* @ cmd : This is used to distinguish between the different commands that
* can be passed to the IOCTL functions .
* Description :
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* Currently there are no special functionality supported in IOCTL , hence
* function always return EOPNOTSUPPORTED
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*/
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int s2io_ioctl ( struct net_device * dev , struct ifreq * rq , int cmd )
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{
return - EOPNOTSUPP ;
}
/**
* s2io_change_mtu - entry point to change MTU size for the device .
* @ dev : device pointer .
* @ new_mtu : the new MTU size for the device .
* Description : A driver entry point to change MTU size for the device .
* Before changing the MTU the device must be stopped .
* Return value :
* 0 on success and an appropriate ( - ) ve integer as defined in errno . h
* file on failure .
*/
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int s2io_change_mtu ( struct net_device * dev , int new_mtu )
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{
nic_t * sp = dev - > priv ;
if ( ( new_mtu < MIN_MTU ) | | ( new_mtu > S2IO_JUMBO_SIZE ) ) {
DBG_PRINT ( ERR_DBG , " %s: MTU size is invalid. \n " ,
dev - > name ) ;
return - EPERM ;
}
dev - > mtu = new_mtu ;
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if ( netif_running ( dev ) ) {
s2io_card_down ( sp ) ;
netif_stop_queue ( dev ) ;
if ( s2io_card_up ( sp ) ) {
DBG_PRINT ( ERR_DBG , " %s: Device bring up failed \n " ,
__FUNCTION__ ) ;
}
if ( netif_queue_stopped ( dev ) )
netif_wake_queue ( dev ) ;
} else { /* Device is down */
XENA_dev_config_t __iomem * bar0 = sp - > bar0 ;
u64 val64 = new_mtu ;
writeq ( vBIT ( val64 , 2 , 14 ) , & bar0 - > rmac_max_pyld_len ) ;
}
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return 0 ;
}
/**
* s2io_tasklet - Bottom half of the ISR .
* @ dev_adr : address of the device structure in dma_addr_t format .
* Description :
* This is the tasklet or the bottom half of the ISR . This is
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* an extension of the ISR which is scheduled by the scheduler to be run
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* when the load on the CPU is low . All low priority tasks of the ISR can
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* be pushed into the tasklet . For now the tasklet is used only to
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* replenish the Rx buffers in the Rx buffer descriptors .
* Return value :
* void .
*/
static void s2io_tasklet ( unsigned long dev_addr )
{
struct net_device * dev = ( struct net_device * ) dev_addr ;
nic_t * sp = dev - > priv ;
int i , ret ;
mac_info_t * mac_control ;
struct config_param * config ;
mac_control = & sp - > mac_control ;
config = & sp - > config ;
if ( ! TASKLET_IN_USE ) {
for ( i = 0 ; i < config - > rx_ring_num ; i + + ) {
ret = fill_rx_buffers ( sp , i ) ;
if ( ret = = - ENOMEM ) {
DBG_PRINT ( ERR_DBG , " %s: Out of " ,
dev - > name ) ;
DBG_PRINT ( ERR_DBG , " memory in tasklet \n " ) ;
break ;
} else if ( ret = = - EFILL ) {
DBG_PRINT ( ERR_DBG ,
" %s: Rx Ring %d is full \n " ,
dev - > name , i ) ;
break ;
}
}
clear_bit ( 0 , ( & sp - > tasklet_status ) ) ;
}
}
/**
* s2io_set_link - Set the LInk status
* @ data : long pointer to device private structue
* Description : Sets the link status for the adapter
*/
static void s2io_set_link ( unsigned long data )
{
nic_t * nic = ( nic_t * ) data ;
struct net_device * dev = nic - > dev ;
XENA_dev_config_t __iomem * bar0 = nic - > bar0 ;
register u64 val64 ;
u16 subid ;
if ( test_and_set_bit ( 0 , & ( nic - > link_state ) ) ) {
/* The card is being reset, no point doing anything */
return ;
}
subid = nic - > pdev - > subsystem_device ;
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if ( s2io_link_fault_indication ( nic ) = = MAC_RMAC_ERR_TIMER ) {
/*
* Allow a small delay for the NICs self initiated
* cleanup to complete .
*/
msleep ( 100 ) ;
}
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val64 = readq ( & bar0 - > adapter_status ) ;
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if ( verify_xena_quiescence ( nic , val64 , nic - > device_enabled_once ) ) {
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if ( LINK_IS_UP ( val64 ) ) {
val64 = readq ( & bar0 - > adapter_control ) ;
val64 | = ADAPTER_CNTL_EN ;
writeq ( val64 , & bar0 - > adapter_control ) ;
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if ( CARDS_WITH_FAULTY_LINK_INDICATORS ( nic - > device_type ,
subid ) ) {
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val64 = readq ( & bar0 - > gpio_control ) ;
val64 | = GPIO_CTRL_GPIO_0 ;
writeq ( val64 , & bar0 - > gpio_control ) ;
val64 = readq ( & bar0 - > gpio_control ) ;
} else {
val64 | = ADAPTER_LED_ON ;
writeq ( val64 , & bar0 - > adapter_control ) ;
}
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if ( s2io_link_fault_indication ( nic ) = =
MAC_RMAC_ERR_TIMER ) {
val64 = readq ( & bar0 - > adapter_status ) ;
if ( ! LINK_IS_UP ( val64 ) ) {
DBG_PRINT ( ERR_DBG , " %s: " , dev - > name ) ;
DBG_PRINT ( ERR_DBG , " Link down " ) ;
DBG_PRINT ( ERR_DBG , " after " ) ;
DBG_PRINT ( ERR_DBG , " enabling " ) ;
DBG_PRINT ( ERR_DBG , " device \n " ) ;
}
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}
if ( nic - > device_enabled_once = = FALSE ) {
nic - > device_enabled_once = TRUE ;
}
s2io_link ( nic , LINK_UP ) ;
} else {
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if ( CARDS_WITH_FAULTY_LINK_INDICATORS ( nic - > device_type ,
subid ) ) {
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val64 = readq ( & bar0 - > gpio_control ) ;
val64 & = ~ GPIO_CTRL_GPIO_0 ;
writeq ( val64 , & bar0 - > gpio_control ) ;
val64 = readq ( & bar0 - > gpio_control ) ;
}
s2io_link ( nic , LINK_DOWN ) ;
}
} else { /* NIC is not Quiescent. */
DBG_PRINT ( ERR_DBG , " %s: Error: " , dev - > name ) ;
DBG_PRINT ( ERR_DBG , " device is not Quiescent \n " ) ;
netif_stop_queue ( dev ) ;
}
clear_bit ( 0 , & ( nic - > link_state ) ) ;
}
static void s2io_card_down ( nic_t * sp )
{
int cnt = 0 ;
XENA_dev_config_t __iomem * bar0 = sp - > bar0 ;
unsigned long flags ;
register u64 val64 = 0 ;
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del_timer_sync ( & sp - > alarm_timer ) ;
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/* If s2io_set_link task is executing, wait till it completes. */
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while ( test_and_set_bit ( 0 , & ( sp - > link_state ) ) ) {
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msleep ( 50 ) ;
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}
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atomic_set ( & sp - > card_state , CARD_DOWN ) ;
/* disable Tx and Rx traffic on the NIC */
stop_nic ( sp ) ;
/* Kill tasklet. */
tasklet_kill ( & sp - > task ) ;
/* Check if the device is Quiescent and then Reset the NIC */
do {
val64 = readq ( & bar0 - > adapter_status ) ;
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if ( verify_xena_quiescence ( sp , val64 , sp - > device_enabled_once ) ) {
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break ;
}
msleep ( 50 ) ;
cnt + + ;
if ( cnt = = 10 ) {
DBG_PRINT ( ERR_DBG ,
" s2io_close:Device not Quiescent " ) ;
DBG_PRINT ( ERR_DBG , " adaper status reads 0x%llx \n " ,
( unsigned long long ) val64 ) ;
break ;
}
} while ( 1 ) ;
s2io_reset ( sp ) ;
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/* Waiting till all Interrupt handlers are complete */
cnt = 0 ;
do {
msleep ( 10 ) ;
if ( ! atomic_read ( & sp - > isr_cnt ) )
break ;
cnt + + ;
} while ( cnt < 5 ) ;
spin_lock_irqsave ( & sp - > tx_lock , flags ) ;
/* Free all Tx buffers */
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free_tx_buffers ( sp ) ;
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spin_unlock_irqrestore ( & sp - > tx_lock , flags ) ;
/* Free all Rx buffers */
spin_lock_irqsave ( & sp - > rx_lock , flags ) ;
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free_rx_buffers ( sp ) ;
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spin_unlock_irqrestore ( & sp - > rx_lock , flags ) ;
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clear_bit ( 0 , & ( sp - > link_state ) ) ;
}
static int s2io_card_up ( nic_t * sp )
{
int i , ret ;
mac_info_t * mac_control ;
struct config_param * config ;
struct net_device * dev = ( struct net_device * ) sp - > dev ;
/* Initialize the H/W I/O registers */
if ( init_nic ( sp ) ! = 0 ) {
DBG_PRINT ( ERR_DBG , " %s: H/W initialization failed \n " ,
dev - > name ) ;
return - ENODEV ;
}
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/*
* Initializing the Rx buffers . For now we are considering only 1
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* Rx ring and initializing buffers into 30 Rx blocks
*/
mac_control = & sp - > mac_control ;
config = & sp - > config ;
for ( i = 0 ; i < config - > rx_ring_num ; i + + ) {
if ( ( ret = fill_rx_buffers ( sp , i ) ) ) {
DBG_PRINT ( ERR_DBG , " %s: Out of memory in Open \n " ,
dev - > name ) ;
s2io_reset ( sp ) ;
free_rx_buffers ( sp ) ;
return - ENOMEM ;
}
DBG_PRINT ( INFO_DBG , " Buf in ring:%d is %d: \n " , i ,
atomic_read ( & sp - > rx_bufs_left [ i ] ) ) ;
}
/* Setting its receive mode */
s2io_set_multicast ( dev ) ;
/* Enable tasklet for the device */
tasklet_init ( & sp - > task , s2io_tasklet , ( unsigned long ) dev ) ;
/* Enable Rx Traffic and interrupts on the NIC */
if ( start_nic ( sp ) ) {
DBG_PRINT ( ERR_DBG , " %s: Starting NIC failed \n " , dev - > name ) ;
tasklet_kill ( & sp - > task ) ;
s2io_reset ( sp ) ;
free_irq ( dev - > irq , dev ) ;
free_rx_buffers ( sp ) ;
return - ENODEV ;
}
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S2IO_TIMER_CONF ( sp - > alarm_timer , s2io_alarm_handle , sp , ( HZ / 2 ) ) ;
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atomic_set ( & sp - > card_state , CARD_UP ) ;
return 0 ;
}
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/**
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* s2io_restart_nic - Resets the NIC .
* @ data : long pointer to the device private structure
* Description :
* This function is scheduled to be run by the s2io_tx_watchdog
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* function after 0.5 secs to reset the NIC . The idea is to reduce
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* the run time of the watch dog routine which is run holding a
* spin lock .
*/
static void s2io_restart_nic ( unsigned long data )
{
struct net_device * dev = ( struct net_device * ) data ;
nic_t * sp = dev - > priv ;
s2io_card_down ( sp ) ;
if ( s2io_card_up ( sp ) ) {
DBG_PRINT ( ERR_DBG , " %s: Device bring up failed \n " ,
dev - > name ) ;
}
netif_wake_queue ( dev ) ;
DBG_PRINT ( ERR_DBG , " %s: was reset by Tx watchdog timer \n " ,
dev - > name ) ;
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}
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/**
* s2io_tx_watchdog - Watchdog for transmit side .
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* @ dev : Pointer to net device structure
* Description :
* This function is triggered if the Tx Queue is stopped
* for a pre - defined amount of time when the Interface is still up .
* If the Interface is jammed in such a situation , the hardware is
* reset ( by s2io_close ) and restarted again ( by s2io_open ) to
* overcome any problem that might have been caused in the hardware .
* Return value :
* void
*/
static void s2io_tx_watchdog ( struct net_device * dev )
{
nic_t * sp = dev - > priv ;
if ( netif_carrier_ok ( dev ) ) {
schedule_work ( & sp - > rst_timer_task ) ;
}
}
/**
* rx_osm_handler - To perform some OS related operations on SKB .
* @ sp : private member of the device structure , pointer to s2io_nic structure .
* @ skb : the socket buffer pointer .
* @ len : length of the packet
* @ cksum : FCS checksum of the frame .
* @ ring_no : the ring from which this RxD was extracted .
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* Description :
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* This function is called by the Tx interrupt serivce routine to perform
* some OS related operations on the SKB before passing it to the upper
* layers . It mainly checks if the checksum is OK , if so adds it to the
* SKBs cksum variable , increments the Rx packet count and passes the SKB
* to the upper layer . If the checksum is wrong , it increments the Rx
* packet error count , frees the SKB and returns error .
* Return value :
* SUCCESS on success and - 1 on failure .
*/
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static int rx_osm_handler ( ring_info_t * ring_data , RxD_t * rxdp )
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{
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nic_t * sp = ring_data - > nic ;
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struct net_device * dev = ( struct net_device * ) sp - > dev ;
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struct sk_buff * skb = ( struct sk_buff * )
( ( unsigned long ) rxdp - > Host_Control ) ;
int ring_no = ring_data - > ring_no ;
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u16 l3_csum , l4_csum ;
# ifdef CONFIG_2BUFF_MODE
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int buf0_len = RXD_GET_BUFFER0_SIZE ( rxdp - > Control_2 ) ;
int buf2_len = RXD_GET_BUFFER2_SIZE ( rxdp - > Control_2 ) ;
int get_block = ring_data - > rx_curr_get_info . block_index ;
int get_off = ring_data - > rx_curr_get_info . offset ;
buffAdd_t * ba = & ring_data - > ba [ get_block ] [ get_off ] ;
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unsigned char * buff ;
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# else
u16 len = ( u16 ) ( ( RXD_GET_BUFFER0_SIZE ( rxdp - > Control_2 ) ) > > 48 ) ; ;
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# endif
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skb - > dev = dev ;
if ( rxdp - > Control_1 & RXD_T_CODE ) {
unsigned long long err = rxdp - > Control_1 & RXD_T_CODE ;
DBG_PRINT ( ERR_DBG , " %s: Rx error Value: 0x%llx \n " ,
dev - > name , err ) ;
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dev_kfree_skb ( skb ) ;
sp - > stats . rx_crc_errors + + ;
atomic_dec ( & sp - > rx_bufs_left [ ring_no ] ) ;
rxdp - > Host_Control = 0 ;
return 0 ;
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}
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/* Updating statistics */
rxdp - > Host_Control = 0 ;
sp - > rx_pkt_count + + ;
sp - > stats . rx_packets + + ;
# ifndef CONFIG_2BUFF_MODE
sp - > stats . rx_bytes + = len ;
# else
sp - > stats . rx_bytes + = buf0_len + buf2_len ;
# endif
# ifndef CONFIG_2BUFF_MODE
skb_put ( skb , len ) ;
# else
buff = skb_push ( skb , buf0_len ) ;
memcpy ( buff , ba - > ba_0 , buf0_len ) ;
skb_put ( skb , buf2_len ) ;
# endif
if ( ( rxdp - > Control_1 & TCP_OR_UDP_FRAME ) & &
( sp - > rx_csum ) ) {
l3_csum = RXD_GET_L3_CKSUM ( rxdp - > Control_1 ) ;
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l4_csum = RXD_GET_L4_CKSUM ( rxdp - > Control_1 ) ;
if ( ( l3_csum = = L3_CKSUM_OK ) & & ( l4_csum = = L4_CKSUM_OK ) ) {
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/*
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* NIC verifies if the Checksum of the received
* frame is Ok or not and accordingly returns
* a flag in the RxD .
*/
skb - > ip_summed = CHECKSUM_UNNECESSARY ;
} else {
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/*
* Packet with erroneous checksum , let the
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* upper layers deal with it .
*/
skb - > ip_summed = CHECKSUM_NONE ;
}
} else {
skb - > ip_summed = CHECKSUM_NONE ;
}
skb - > protocol = eth_type_trans ( skb , dev ) ;
# ifdef CONFIG_S2IO_NAPI
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if ( sp - > vlgrp & & RXD_GET_VLAN_TAG ( rxdp - > Control_2 ) ) {
/* Queueing the vlan frame to the upper layer */
vlan_hwaccel_receive_skb ( skb , sp - > vlgrp ,
RXD_GET_VLAN_TAG ( rxdp - > Control_2 ) ) ;
} else {
netif_receive_skb ( skb ) ;
}
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# else
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if ( sp - > vlgrp & & RXD_GET_VLAN_TAG ( rxdp - > Control_2 ) ) {
/* Queueing the vlan frame to the upper layer */
vlan_hwaccel_rx ( skb , sp - > vlgrp ,
RXD_GET_VLAN_TAG ( rxdp - > Control_2 ) ) ;
} else {
netif_rx ( skb ) ;
}
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# endif
dev - > last_rx = jiffies ;
atomic_dec ( & sp - > rx_bufs_left [ ring_no ] ) ;
return SUCCESS ;
}
/**
* s2io_link - stops / starts the Tx queue .
* @ sp : private member of the device structure , which is a pointer to the
* s2io_nic structure .
* @ link : inidicates whether link is UP / DOWN .
* Description :
* This function stops / starts the Tx queue depending on whether the link
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* status of the NIC is is down or up . This is called by the Alarm
* interrupt handler whenever a link change interrupt comes up .
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* Return value :
* void .
*/
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void s2io_link ( nic_t * sp , int link )
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{
struct net_device * dev = ( struct net_device * ) sp - > dev ;
if ( link ! = sp - > last_link_state ) {
if ( link = = LINK_DOWN ) {
DBG_PRINT ( ERR_DBG , " %s: Link down \n " , dev - > name ) ;
netif_carrier_off ( dev ) ;
} else {
DBG_PRINT ( ERR_DBG , " %s: Link Up \n " , dev - > name ) ;
netif_carrier_on ( dev ) ;
}
}
sp - > last_link_state = link ;
}
/**
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* get_xena_rev_id - to identify revision ID of xena .
* @ pdev : PCI Dev structure
* Description :
* Function to identify the Revision ID of xena .
* Return value :
* returns the revision ID of the device .
*/
int get_xena_rev_id ( struct pci_dev * pdev )
{
u8 id = 0 ;
int ret ;
ret = pci_read_config_byte ( pdev , PCI_REVISION_ID , ( u8 * ) & id ) ;
return id ;
}
/**
* s2io_init_pci - Initialization of PCI and PCI - X configuration registers .
* @ sp : private member of the device structure , which is a pointer to the
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* s2io_nic structure .
* Description :
* This function initializes a few of the PCI and PCI - X configuration registers
* with recommended values .
* Return value :
* void
*/
static void s2io_init_pci ( nic_t * sp )
{
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u16 pci_cmd = 0 , pcix_cmd = 0 ;
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/* Enable Data Parity Error Recovery in PCI-X command register. */
pci_read_config_word ( sp - > pdev , PCIX_COMMAND_REGISTER ,
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& ( pcix_cmd ) ) ;
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pci_write_config_word ( sp - > pdev , PCIX_COMMAND_REGISTER ,
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( pcix_cmd | 1 ) ) ;
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pci_read_config_word ( sp - > pdev , PCIX_COMMAND_REGISTER ,
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& ( pcix_cmd ) ) ;
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/* Set the PErr Response bit in PCI command register. */
pci_read_config_word ( sp - > pdev , PCI_COMMAND , & pci_cmd ) ;
pci_write_config_word ( sp - > pdev , PCI_COMMAND ,
( pci_cmd | PCI_COMMAND_PARITY ) ) ;
pci_read_config_word ( sp - > pdev , PCI_COMMAND , & pci_cmd ) ;
/* Forcibly disabling relaxed ordering capability of the card. */
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pcix_cmd & = 0xfffd ;
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pci_write_config_word ( sp - > pdev , PCIX_COMMAND_REGISTER ,
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pcix_cmd ) ;
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pci_read_config_word ( sp - > pdev , PCIX_COMMAND_REGISTER ,
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& ( pcix_cmd ) ) ;
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}
MODULE_AUTHOR ( " Raghavendra Koushik <raghavendra.koushik@neterion.com> " ) ;
MODULE_LICENSE ( " GPL " ) ;
module_param ( tx_fifo_num , int , 0 ) ;
module_param ( rx_ring_num , int , 0 ) ;
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module_param_array ( tx_fifo_len , uint , NULL , 0 ) ;
module_param_array ( rx_ring_sz , uint , NULL , 0 ) ;
module_param_array ( rts_frm_len , uint , NULL , 0 ) ;
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module_param ( use_continuous_tx_intrs , int , 1 ) ;
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module_param ( rmac_pause_time , int , 0 ) ;
module_param ( mc_pause_threshold_q0q3 , int , 0 ) ;
module_param ( mc_pause_threshold_q4q7 , int , 0 ) ;
module_param ( shared_splits , int , 0 ) ;
module_param ( tmac_util_period , int , 0 ) ;
module_param ( rmac_util_period , int , 0 ) ;
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module_param ( bimodal , bool , 0 ) ;
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# ifndef CONFIG_S2IO_NAPI
module_param ( indicate_max_pkts , int , 0 ) ;
# endif
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module_param ( rxsync_frequency , int , 0 ) ;
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/**
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* s2io_init_nic - Initialization of the adapter .
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* @ pdev : structure containing the PCI related information of the device .
* @ pre : List of PCI devices supported by the driver listed in s2io_tbl .
* Description :
* The function initializes an adapter identified by the pci_dec structure .
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* All OS related initialization including memory and device structure and
* initlaization of the device private variable is done . Also the swapper
* control register is initialized to enable read and write into the I / O
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* registers of the device .
* Return value :
* returns 0 on success and negative on failure .
*/
static int __devinit
s2io_init_nic ( struct pci_dev * pdev , const struct pci_device_id * pre )
{
nic_t * sp ;
struct net_device * dev ;
int i , j , ret ;
int dma_flag = FALSE ;
u32 mac_up , mac_down ;
u64 val64 = 0 , tmp64 = 0 ;
XENA_dev_config_t __iomem * bar0 = NULL ;
u16 subid ;
mac_info_t * mac_control ;
struct config_param * config ;
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int mode ;
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# ifdef CONFIG_S2IO_NAPI
DBG_PRINT ( ERR_DBG , " NAPI support has been enabled \n " ) ;
# endif
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if ( ( ret = pci_enable_device ( pdev ) ) ) {
DBG_PRINT ( ERR_DBG ,
" s2io_init_nic: pci_enable_device failed \n " ) ;
return ret ;
}
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if ( ! pci_set_dma_mask ( pdev , DMA_64BIT_MASK ) ) {
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DBG_PRINT ( INIT_DBG , " s2io_init_nic: Using 64bit DMA \n " ) ;
dma_flag = TRUE ;
if ( pci_set_consistent_dma_mask
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( pdev , DMA_64BIT_MASK ) ) {
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DBG_PRINT ( ERR_DBG ,
" Unable to obtain 64bit DMA for \
consistent allocations \ n " );
pci_disable_device ( pdev ) ;
return - ENOMEM ;
}
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} else if ( ! pci_set_dma_mask ( pdev , DMA_32BIT_MASK ) ) {
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DBG_PRINT ( INIT_DBG , " s2io_init_nic: Using 32bit DMA \n " ) ;
} else {
pci_disable_device ( pdev ) ;
return - ENOMEM ;
}
if ( pci_request_regions ( pdev , s2io_driver_name ) ) {
DBG_PRINT ( ERR_DBG , " Request Regions failed \n " ) ,
pci_disable_device ( pdev ) ;
return - ENODEV ;
}
dev = alloc_etherdev ( sizeof ( nic_t ) ) ;
if ( dev = = NULL ) {
DBG_PRINT ( ERR_DBG , " Device allocation failed \n " ) ;
pci_disable_device ( pdev ) ;
pci_release_regions ( pdev ) ;
return - ENODEV ;
}
pci_set_master ( pdev ) ;
pci_set_drvdata ( pdev , dev ) ;
SET_MODULE_OWNER ( dev ) ;
SET_NETDEV_DEV ( dev , & pdev - > dev ) ;
/* Private member variable initialized to s2io NIC structure */
sp = dev - > priv ;
memset ( sp , 0 , sizeof ( nic_t ) ) ;
sp - > dev = dev ;
sp - > pdev = pdev ;
sp - > high_dma_flag = dma_flag ;
sp - > device_enabled_once = FALSE ;
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if ( ( pdev - > device = = PCI_DEVICE_ID_HERC_WIN ) | |
( pdev - > device = = PCI_DEVICE_ID_HERC_UNI ) )
sp - > device_type = XFRAME_II_DEVICE ;
else
sp - > device_type = XFRAME_I_DEVICE ;
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/* Initialize some PCI/PCI-X fields of the NIC. */
s2io_init_pci ( sp ) ;
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/*
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* Setting the device configuration parameters .
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* Most of these parameters can be specified by the user during
* module insertion as they are module loadable parameters . If
* these parameters are not not specified during load time , they
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* are initialized with default values .
*/
mac_control = & sp - > mac_control ;
config = & sp - > config ;
/* Tx side parameters. */
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if ( tx_fifo_len [ 0 ] = = 0 )
tx_fifo_len [ 0 ] = DEFAULT_FIFO_LEN ; /* Default value. */
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config - > tx_fifo_num = tx_fifo_num ;
for ( i = 0 ; i < MAX_TX_FIFOS ; i + + ) {
config - > tx_cfg [ i ] . fifo_len = tx_fifo_len [ i ] ;
config - > tx_cfg [ i ] . fifo_priority = i ;
}
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/* mapping the QoS priority to the configured fifos */
for ( i = 0 ; i < MAX_TX_FIFOS ; i + + )
config - > fifo_mapping [ i ] = fifo_map [ config - > tx_fifo_num ] [ i ] ;
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config - > tx_intr_type = TXD_INT_TYPE_UTILZ ;
for ( i = 0 ; i < config - > tx_fifo_num ; i + + ) {
config - > tx_cfg [ i ] . f_no_snoop =
( NO_SNOOP_TXD | NO_SNOOP_TXD_BUFFER ) ;
if ( config - > tx_cfg [ i ] . fifo_len < 65 ) {
config - > tx_intr_type = TXD_INT_TYPE_PER_LIST ;
break ;
}
}
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config - > max_txds = MAX_SKB_FRAGS + 1 ;
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/* Rx side parameters. */
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if ( rx_ring_sz [ 0 ] = = 0 )
rx_ring_sz [ 0 ] = SMALL_BLK_CNT ; /* Default value. */
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config - > rx_ring_num = rx_ring_num ;
for ( i = 0 ; i < MAX_RX_RINGS ; i + + ) {
config - > rx_cfg [ i ] . num_rxd = rx_ring_sz [ i ] *
( MAX_RXDS_PER_BLOCK + 1 ) ;
config - > rx_cfg [ i ] . ring_priority = i ;
}
for ( i = 0 ; i < rx_ring_num ; i + + ) {
config - > rx_cfg [ i ] . ring_org = RING_ORG_BUFF1 ;
config - > rx_cfg [ i ] . f_no_snoop =
( NO_SNOOP_RXD | NO_SNOOP_RXD_BUFFER ) ;
}
/* Setting Mac Control parameters */
mac_control - > rmac_pause_time = rmac_pause_time ;
mac_control - > mc_pause_threshold_q0q3 = mc_pause_threshold_q0q3 ;
mac_control - > mc_pause_threshold_q4q7 = mc_pause_threshold_q4q7 ;
/* Initialize Ring buffer parameters. */
for ( i = 0 ; i < config - > rx_ring_num ; i + + )
atomic_set ( & sp - > rx_bufs_left [ i ] , 0 ) ;
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/* Initialize the number of ISRs currently running */
atomic_set ( & sp - > isr_cnt , 0 ) ;
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/* initialize the shared memory used by the NIC and the host */
if ( init_shared_mem ( sp ) ) {
DBG_PRINT ( ERR_DBG , " %s: Memory allocation failed \n " ,
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__FUNCTION__ ) ;
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ret = - ENOMEM ;
goto mem_alloc_failed ;
}
sp - > bar0 = ioremap ( pci_resource_start ( pdev , 0 ) ,
pci_resource_len ( pdev , 0 ) ) ;
if ( ! sp - > bar0 ) {
DBG_PRINT ( ERR_DBG , " %s: S2IO: cannot remap io mem1 \n " ,
dev - > name ) ;
ret = - ENOMEM ;
goto bar0_remap_failed ;
}
sp - > bar1 = ioremap ( pci_resource_start ( pdev , 2 ) ,
pci_resource_len ( pdev , 2 ) ) ;
if ( ! sp - > bar1 ) {
DBG_PRINT ( ERR_DBG , " %s: S2IO: cannot remap io mem2 \n " ,
dev - > name ) ;
ret = - ENOMEM ;
goto bar1_remap_failed ;
}
dev - > irq = pdev - > irq ;
dev - > base_addr = ( unsigned long ) sp - > bar0 ;
/* Initializing the BAR1 address as the start of the FIFO pointer. */
for ( j = 0 ; j < MAX_TX_FIFOS ; j + + ) {
mac_control - > tx_FIFO_start [ j ] = ( TxFIFO_element_t __iomem * )
( sp - > bar1 + ( j * 0x00020000 ) ) ;
}
/* Driver entry points */
dev - > open = & s2io_open ;
dev - > stop = & s2io_close ;
dev - > hard_start_xmit = & s2io_xmit ;
dev - > get_stats = & s2io_get_stats ;
dev - > set_multicast_list = & s2io_set_multicast ;
dev - > do_ioctl = & s2io_ioctl ;
dev - > change_mtu = & s2io_change_mtu ;
SET_ETHTOOL_OPS ( dev , & netdev_ethtool_ops ) ;
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dev - > features | = NETIF_F_HW_VLAN_TX | NETIF_F_HW_VLAN_RX ;
dev - > vlan_rx_register = s2io_vlan_rx_register ;
dev - > vlan_rx_kill_vid = ( void * ) s2io_vlan_rx_kill_vid ;
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/*
* will use eth_mac_addr ( ) for dev - > set_mac_address
* mac address will be set every time dev - > open ( ) is called
*/
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# if defined(CONFIG_S2IO_NAPI)
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dev - > poll = s2io_poll ;
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dev - > weight = 32 ;
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# endif
dev - > features | = NETIF_F_SG | NETIF_F_IP_CSUM ;
if ( sp - > high_dma_flag = = TRUE )
dev - > features | = NETIF_F_HIGHDMA ;
# ifdef NETIF_F_TSO
dev - > features | = NETIF_F_TSO ;
# endif
dev - > tx_timeout = & s2io_tx_watchdog ;
dev - > watchdog_timeo = WATCH_DOG_TIMEOUT ;
INIT_WORK ( & sp - > rst_timer_task ,
( void ( * ) ( void * ) ) s2io_restart_nic , dev ) ;
INIT_WORK ( & sp - > set_link_task ,
( void ( * ) ( void * ) ) s2io_set_link , sp ) ;
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pci_save_state ( sp - > pdev ) ;
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/* Setting swapper control on the NIC, for proper reset operation */
if ( s2io_set_swapper ( sp ) ) {
DBG_PRINT ( ERR_DBG , " %s:swapper settings are wrong \n " ,
dev - > name ) ;
ret = - EAGAIN ;
goto set_swap_failed ;
}
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/* Verify if the Herc works on the slot its placed into */
if ( sp - > device_type & XFRAME_II_DEVICE ) {
mode = s2io_verify_pci_mode ( sp ) ;
if ( mode < 0 ) {
DBG_PRINT ( ERR_DBG , " %s: " , __FUNCTION__ ) ;
DBG_PRINT ( ERR_DBG , " Unsupported PCI bus mode \n " ) ;
ret = - EBADSLT ;
goto set_swap_failed ;
}
}
/* Not needed for Herc */
if ( sp - > device_type & XFRAME_I_DEVICE ) {
/*
* Fix for all " FFs " MAC address problems observed on
* Alpha platforms
*/
fix_mac_address ( sp ) ;
s2io_reset ( sp ) ;
}
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/*
* MAC address initialization .
* For now only one mac address will be read and used .
*/
bar0 = sp - > bar0 ;
val64 = RMAC_ADDR_CMD_MEM_RD | RMAC_ADDR_CMD_MEM_STROBE_NEW_CMD |
RMAC_ADDR_CMD_MEM_OFFSET ( 0 + MAC_MAC_ADDR_START_OFFSET ) ;
writeq ( val64 , & bar0 - > rmac_addr_cmd_mem ) ;
wait_for_cmd_complete ( sp ) ;
tmp64 = readq ( & bar0 - > rmac_addr_data0_mem ) ;
mac_down = ( u32 ) tmp64 ;
mac_up = ( u32 ) ( tmp64 > > 32 ) ;
memset ( sp - > def_mac_addr [ 0 ] . mac_addr , 0 , sizeof ( ETH_ALEN ) ) ;
sp - > def_mac_addr [ 0 ] . mac_addr [ 3 ] = ( u8 ) ( mac_up ) ;
sp - > def_mac_addr [ 0 ] . mac_addr [ 2 ] = ( u8 ) ( mac_up > > 8 ) ;
sp - > def_mac_addr [ 0 ] . mac_addr [ 1 ] = ( u8 ) ( mac_up > > 16 ) ;
sp - > def_mac_addr [ 0 ] . mac_addr [ 0 ] = ( u8 ) ( mac_up > > 24 ) ;
sp - > def_mac_addr [ 0 ] . mac_addr [ 5 ] = ( u8 ) ( mac_down > > 16 ) ;
sp - > def_mac_addr [ 0 ] . mac_addr [ 4 ] = ( u8 ) ( mac_down > > 24 ) ;
/* Set the factory defined MAC address initially */
dev - > addr_len = ETH_ALEN ;
memcpy ( dev - > dev_addr , sp - > def_mac_addr , ETH_ALEN ) ;
/*
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* Initialize the tasklet status and link state flags
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* and the card state parameter
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*/
atomic_set ( & ( sp - > card_state ) , 0 ) ;
sp - > tasklet_status = 0 ;
sp - > link_state = 0 ;
/* Initialize spinlocks */
spin_lock_init ( & sp - > tx_lock ) ;
# ifndef CONFIG_S2IO_NAPI
spin_lock_init ( & sp - > put_lock ) ;
# endif
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spin_lock_init ( & sp - > rx_lock ) ;
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/*
* SXE - 002 : Configure link and activity LED to init state
* on driver load .
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*/
subid = sp - > pdev - > subsystem_device ;
if ( ( subid & 0xFF ) > = 0x07 ) {
val64 = readq ( & bar0 - > gpio_control ) ;
val64 | = 0x0000800000000000ULL ;
writeq ( val64 , & bar0 - > gpio_control ) ;
val64 = 0x0411040400000000ULL ;
writeq ( val64 , ( void __iomem * ) bar0 + 0x2700 ) ;
val64 = readq ( & bar0 - > gpio_control ) ;
}
sp - > rx_csum = 1 ; /* Rx chksum verify enabled by default */
if ( register_netdev ( dev ) ) {
DBG_PRINT ( ERR_DBG , " Device registration failed \n " ) ;
ret = - ENODEV ;
goto register_failed ;
}
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if ( sp - > device_type & XFRAME_II_DEVICE ) {
DBG_PRINT ( ERR_DBG , " %s: Neterion Xframe II 10GbE adapter " ,
dev - > name ) ;
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DBG_PRINT ( ERR_DBG , " (rev %d), %s " ,
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get_xena_rev_id ( sp - > pdev ) ,
s2io_driver_version ) ;
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# ifdef CONFIG_2BUFF_MODE
DBG_PRINT ( ERR_DBG , " , Buffer mode %d " , 2 ) ;
# endif
DBG_PRINT ( ERR_DBG , " \n Copyright(c) 2002-2005 Neterion Inc. \n " ) ;
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DBG_PRINT ( ERR_DBG , " MAC ADDR: %02x:%02x:%02x:%02x:%02x:%02x \n " ,
sp - > def_mac_addr [ 0 ] . mac_addr [ 0 ] ,
sp - > def_mac_addr [ 0 ] . mac_addr [ 1 ] ,
sp - > def_mac_addr [ 0 ] . mac_addr [ 2 ] ,
sp - > def_mac_addr [ 0 ] . mac_addr [ 3 ] ,
sp - > def_mac_addr [ 0 ] . mac_addr [ 4 ] ,
sp - > def_mac_addr [ 0 ] . mac_addr [ 5 ] ) ;
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mode = s2io_print_pci_mode ( sp ) ;
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if ( mode < 0 ) {
DBG_PRINT ( ERR_DBG , " Unsupported PCI bus mode " ) ;
ret = - EBADSLT ;
goto set_swap_failed ;
}
} else {
DBG_PRINT ( ERR_DBG , " %s: Neterion Xframe I 10GbE adapter " ,
dev - > name ) ;
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DBG_PRINT ( ERR_DBG , " (rev %d), %s " ,
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get_xena_rev_id ( sp - > pdev ) ,
s2io_driver_version ) ;
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# ifdef CONFIG_2BUFF_MODE
DBG_PRINT ( ERR_DBG , " , Buffer mode %d " , 2 ) ;
# endif
DBG_PRINT ( ERR_DBG , " \n Copyright(c) 2002-2005 Neterion Inc. \n " ) ;
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DBG_PRINT ( ERR_DBG , " MAC ADDR: %02x:%02x:%02x:%02x:%02x:%02x \n " ,
sp - > def_mac_addr [ 0 ] . mac_addr [ 0 ] ,
sp - > def_mac_addr [ 0 ] . mac_addr [ 1 ] ,
sp - > def_mac_addr [ 0 ] . mac_addr [ 2 ] ,
sp - > def_mac_addr [ 0 ] . mac_addr [ 3 ] ,
sp - > def_mac_addr [ 0 ] . mac_addr [ 4 ] ,
sp - > def_mac_addr [ 0 ] . mac_addr [ 5 ] ) ;
}
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/* Initialize device name */
strcpy ( sp - > name , dev - > name ) ;
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if ( sp - > device_type & XFRAME_II_DEVICE )
strcat ( sp - > name , " : Neterion Xframe II 10GbE adapter " ) ;
else
strcat ( sp - > name , " : Neterion Xframe I 10GbE adapter " ) ;
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/* Initialize bimodal Interrupts */
sp - > config . bimodal = bimodal ;
if ( ! ( sp - > device_type & XFRAME_II_DEVICE ) & & bimodal ) {
sp - > config . bimodal = 0 ;
DBG_PRINT ( ERR_DBG , " %s:Bimodal intr not supported by Xframe I \n " ,
dev - > name ) ;
}
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/*
* Make Link state as off at this point , when the Link change
* interrupt comes the state will be automatically changed to
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* the right state .
*/
netif_carrier_off ( dev ) ;
return 0 ;
register_failed :
set_swap_failed :
iounmap ( sp - > bar1 ) ;
bar1_remap_failed :
iounmap ( sp - > bar0 ) ;
bar0_remap_failed :
mem_alloc_failed :
free_shared_mem ( sp ) ;
pci_disable_device ( pdev ) ;
pci_release_regions ( pdev ) ;
pci_set_drvdata ( pdev , NULL ) ;
free_netdev ( dev ) ;
return ret ;
}
/**
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* s2io_rem_nic - Free the PCI device
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* @ pdev : structure containing the PCI related information of the device .
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* Description : This function is called by the Pci subsystem to release a
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* PCI device and free up all resource held up by the device . This could
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* be in response to a Hot plug event or when the driver is to be removed
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* from memory .
*/
static void __devexit s2io_rem_nic ( struct pci_dev * pdev )
{
struct net_device * dev =
( struct net_device * ) pci_get_drvdata ( pdev ) ;
nic_t * sp ;
if ( dev = = NULL ) {
DBG_PRINT ( ERR_DBG , " Driver Data is NULL!! \n " ) ;
return ;
}
sp = dev - > priv ;
unregister_netdev ( dev ) ;
free_shared_mem ( sp ) ;
iounmap ( sp - > bar0 ) ;
iounmap ( sp - > bar1 ) ;
pci_disable_device ( pdev ) ;
pci_release_regions ( pdev ) ;
pci_set_drvdata ( pdev , NULL ) ;
free_netdev ( dev ) ;
}
/**
* s2io_starter - Entry point for the driver
* Description : This function is the entry point for the driver . It verifies
* the module loadable parameters and initializes PCI configuration space .
*/
int __init s2io_starter ( void )
{
return pci_module_init ( & s2io_driver ) ;
}
/**
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* s2io_closer - Cleanup routine for the driver
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* Description : This function is the cleanup routine for the driver . It unregist * ers the driver .
*/
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void s2io_closer ( void )
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{
pci_unregister_driver ( & s2io_driver ) ;
DBG_PRINT ( INIT_DBG , " cleanup done \n " ) ;
}
module_init ( s2io_starter ) ;
module_exit ( s2io_closer ) ;