blob: aaa6a28a15d745e44d8f3c0c9d84858a8898f956 [file] [log] [blame]
/*
* Copyright (C) 2017 Michael Brown <mbrown@fensystems.co.uk>.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License as
* published by the Free Software Foundation; either version 2 of the
* License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
* 02110-1301, USA.
*
* You can also choose to distribute this program under the terms of
* the Unmodified Binary Distribution Licence (as given in the file
* COPYING.UBDL), provided that you have satisfied its requirements.
*/
FILE_LICENCE ( GPL2_OR_LATER_OR_UBDL );
#include <stdint.h>
#include <string.h>
#include <strings.h>
#include <unistd.h>
#include <errno.h>
#include <byteswap.h>
#include <ipxe/netdevice.h>
#include <ipxe/ethernet.h>
#include <ipxe/if_ether.h>
#include <ipxe/iobuf.h>
#include <ipxe/malloc.h>
#include <ipxe/umalloc.h>
#include <ipxe/pci.h>
#include "exanic.h"
/** @file
*
* Exablaze ExaNIC driver
*
*/
/* Disambiguate the various error causes */
#define EIO_ABORTED __einfo_error ( EINFO_EIO_ABORTED )
#define EINFO_EIO_ABORTED \
__einfo_uniqify ( EINFO_EIO, 0x01, "Frame aborted" )
#define EIO_CORRUPT __einfo_error ( EINFO_EIO_CORRUPT )
#define EINFO_EIO_CORRUPT \
__einfo_uniqify ( EINFO_EIO, 0x02, "CRC incorrect" )
#define EIO_HWOVFL __einfo_error ( EINFO_EIO_HWOVFL )
#define EINFO_EIO_HWOVFL \
__einfo_uniqify ( EINFO_EIO, 0x03, "Hardware overflow" )
#define EIO_STATUS( status ) \
EUNIQ ( EINFO_EIO, ( (status) & EXANIC_STATUS_ERROR_MASK ), \
EIO_ABORTED, EIO_CORRUPT, EIO_HWOVFL )
/**
* Write DMA base address register
*
* @v addr DMA base address
* @v reg Register
*/
static void exanic_write_base ( physaddr_t addr, void *reg ) {
uint32_t lo;
uint32_t hi;
/* Write high and low registers, setting flags as appropriate */
lo = addr;
if ( sizeof ( physaddr_t ) > sizeof ( uint32_t ) ) {
/* 64-bit build; may be a 32-bit or 64-bit address */
hi = ( ( ( uint64_t ) addr ) >> 32 );
if ( ! hi )
lo |= EXANIC_DMA_32_BIT;
} else {
/* 32-bit build; always a 32-bit address */
hi = 0;
lo |= EXANIC_DMA_32_BIT;
}
writel ( hi, ( reg + 0 ) );
writel ( lo, ( reg + 4 ) );
}
/**
* Clear DMA base address register
*
* @v reg Register
*/
static inline void exanic_clear_base ( void *reg ) {
/* Clear both high and low registers */
writel ( 0, ( reg + 0 ) );
writel ( 0, ( reg + 4 ) );
}
/******************************************************************************
*
* Device reset
*
******************************************************************************
*/
/**
* Reset hardware
*
* @v exanic ExaNIC device
*/
static void exanic_reset ( struct exanic *exanic ) {
void *port_regs;
unsigned int i;
/* Disable all possible ports */
for ( i = 0 ; i < EXANIC_MAX_PORTS ; i++ ) {
port_regs = ( exanic->regs + EXANIC_PORT_REGS ( i ) );
writel ( 0, ( port_regs + EXANIC_PORT_ENABLE ) );
writel ( 0, ( port_regs + EXANIC_PORT_IRQ ) );
exanic_clear_base ( port_regs + EXANIC_PORT_RX_BASE );
}
/* Disable transmit feedback */
exanic_clear_base ( exanic->regs + EXANIC_TXF_BASE );
}
/******************************************************************************
*
* MAC address
*
******************************************************************************
*/
/**
* Read I2C line status
*
* @v basher Bit-bashing interface
* @v bit_id Bit number
* @ret zero Input is a logic 0
* @ret non-zero Input is a logic 1
*/
static int exanic_i2c_read_bit ( struct bit_basher *basher,
unsigned int bit_id ) {
struct exanic *exanic =
container_of ( basher, struct exanic, basher.basher );
unsigned int shift;
uint32_t i2c;
/* Identify bit */
assert ( bit_id == I2C_BIT_SDA );
shift = exanic->i2cfg.getsda;
/* Read I2C register */
DBG_DISABLE ( DBGLVL_IO );
i2c = readl ( exanic->regs + EXANIC_I2C );
DBG_ENABLE ( DBGLVL_IO );
return ( ( i2c >> shift ) & 1 );
}
/**
* Write I2C line status
*
* @v basher Bit-bashing interface
* @v bit_id Bit number
* @v data Value to write
*/
static void exanic_i2c_write_bit ( struct bit_basher *basher,
unsigned int bit_id, unsigned long data ) {
struct exanic *exanic =
container_of ( basher, struct exanic, basher.basher );
unsigned int shift;
uint32_t mask;
uint32_t i2c;
/* Identify shift */
assert ( ( bit_id == I2C_BIT_SCL ) || ( bit_id == I2C_BIT_SDA ) );
shift = ( ( bit_id == I2C_BIT_SCL ) ?
exanic->i2cfg.setscl : exanic->i2cfg.setsda );
mask = ( 1UL << shift );
/* Modify I2C register */
DBG_DISABLE ( DBGLVL_IO );
i2c = readl ( exanic->regs + EXANIC_I2C );
i2c &= ~mask;
if ( ! data )
i2c |= mask;
writel ( i2c, ( exanic->regs + EXANIC_I2C ) );
DBG_ENABLE ( DBGLVL_IO );
}
/** I2C bit-bashing interface operations */
static struct bit_basher_operations exanic_i2c_basher_ops = {
.read = exanic_i2c_read_bit,
.write = exanic_i2c_write_bit,
};
/** Possible I2C bus configurations */
static struct exanic_i2c_config exanic_i2cfgs[] = {
/* X2/X10 */
{ .setscl = 7, .setsda = 4, .getsda = 12 },
/* X4 */
{ .setscl = 7, .setsda = 5, .getsda = 13 },
};
/**
* Initialise EEPROM
*
* @v exanic ExaNIC device
* @v i2cfg I2C bus configuration
* @ret rc Return status code
*/
static int exanic_try_init_eeprom ( struct exanic *exanic,
struct exanic_i2c_config *i2cfg ) {
int rc;
/* Configure I2C bus */
memcpy ( &exanic->i2cfg, i2cfg, sizeof ( exanic->i2cfg ) );
/* Initialise I2C bus */
if ( ( rc = init_i2c_bit_basher ( &exanic->basher,
&exanic_i2c_basher_ops ) ) != 0 ) {
DBGC2 ( exanic, "EXANIC %p found no I2C bus via %d/%d/%d\n",
exanic, exanic->i2cfg.setscl,
exanic->i2cfg.setsda, exanic->i2cfg.getsda );
return rc;
}
/* Check for EEPROM presence */
init_i2c_eeprom ( &exanic->eeprom, EXANIC_EEPROM_ADDRESS );
if ( ( rc = i2c_check_presence ( &exanic->basher.i2c,
&exanic->eeprom ) ) != 0 ) {
DBGC2 ( exanic, "EXANIC %p found no EEPROM via %d/%d/%d\n",
exanic, exanic->i2cfg.setscl,
exanic->i2cfg.setsda, exanic->i2cfg.getsda );
return rc;
}
DBGC ( exanic, "EXANIC %p found EEPROM via %d/%d/%d\n",
exanic, exanic->i2cfg.setscl,
exanic->i2cfg.setsda, exanic->i2cfg.getsda );
return 0;
}
/**
* Initialise EEPROM
*
* @v exanic ExaNIC device
* @ret rc Return status code
*/
static int exanic_init_eeprom ( struct exanic *exanic ) {
struct exanic_i2c_config *i2cfg;
unsigned int i;
int rc;
/* Try all possible bus configurations */
for ( i = 0 ; i < ( sizeof ( exanic_i2cfgs ) /
sizeof ( exanic_i2cfgs[0] ) ) ; i++ ) {
i2cfg = &exanic_i2cfgs[i];
if ( ( rc = exanic_try_init_eeprom ( exanic, i2cfg ) ) == 0 )
return 0;
}
DBGC ( exanic, "EXANIC %p found no EEPROM\n", exanic );
return -ENODEV;
}
/**
* Fetch base MAC address
*
* @v exanic ExaNIC device
* @ret rc Return status code
*/
static int exanic_fetch_mac ( struct exanic *exanic ) {
struct i2c_interface *i2c = &exanic->basher.i2c;
int rc;
/* Initialise EEPROM */
if ( ( rc = exanic_init_eeprom ( exanic ) ) != 0 )
return rc;
/* Fetch base MAC address */
if ( ( rc = i2c->read ( i2c, &exanic->eeprom, 0, exanic->mac,
sizeof ( exanic->mac ) ) ) != 0 ) {
DBGC ( exanic, "EXANIC %p could not read MAC address: %s\n",
exanic, strerror ( rc ) );
return rc;
}
return 0;
}
/******************************************************************************
*
* Link state
*
******************************************************************************
*/
/**
* Check link state
*
* @v netdev Network device
*/
static void exanic_check_link ( struct net_device *netdev ) {
struct exanic_port *port = netdev->priv;
uint32_t status;
uint32_t speed;
/* Report port status changes */
status = readl ( port->regs + EXANIC_PORT_STATUS );
speed = readl ( port->regs + EXANIC_PORT_SPEED );
if ( status != port->status ) {
DBGC ( port, "EXANIC %s port status %#08x speed %dMbps\n",
netdev->name, status, speed );
if ( status & EXANIC_PORT_STATUS_LINK ) {
netdev_link_up ( netdev );
} else {
netdev_link_down ( netdev );
}
port->status = status;
}
}
/**
* Check link state periodically
*
* @v retry Link state check timer
* @v over Failure indicator
*/
static void exanic_expired ( struct retry_timer *timer, int over __unused ) {
struct exanic_port *port =
container_of ( timer, struct exanic_port, timer );
struct net_device *netdev = port->netdev;
static const uint32_t speeds[] = {
100, 1000, 10000, 40000, 100000,
};
unsigned int index;
/* Restart timer */
start_timer_fixed ( timer, EXANIC_LINK_INTERVAL );
/* Check link state */
exanic_check_link ( netdev );
/* Do nothing further if link is already up */
if ( netdev_link_ok ( netdev ) )
return;
/* Do nothing further unless we have a valid list of supported speeds */
if ( ! port->speeds )
return;
/* Autonegotiation is not supported; try manually selecting
* the next supported link speed.
*/
do {
if ( ! port->speed )
port->speed = ( 8 * sizeof ( port->speeds ) );
port->speed--;
} while ( ! ( ( 1UL << port->speed ) & port->speeds ) );
index = ( port->speed - ( ffs ( EXANIC_CAPS_SPEED_MASK ) - 1 ) );
assert ( index < ( sizeof ( speeds ) / sizeof ( speeds[0] ) ) );
/* Attempt the selected speed */
DBGC ( netdev, "EXANIC %s attempting %dMbps\n",
netdev->name, speeds[index] );
writel ( speeds[index], ( port->regs + EXANIC_PORT_SPEED ) );
}
/******************************************************************************
*
* Network device interface
*
******************************************************************************
*/
/**
* Open network device
*
* @v netdev Network device
* @ret rc Return status code
*/
static int exanic_open ( struct net_device *netdev ) {
struct exanic_port *port = netdev->priv;
struct exanic_tx_chunk *tx;
unsigned int i;
/* Reset transmit region contents */
for ( i = 0 ; i < port->tx_count ; i++ ) {
tx = ( port->tx + ( i * sizeof ( *tx ) ) );
writew ( port->txf_slot, &tx->desc.txf_slot );
writeb ( EXANIC_TYPE_RAW, &tx->desc.type );
writeb ( 0, &tx->desc.flags );
writew ( 0, &tx->pad );
}
/* Reset receive region contents */
memset_user ( port->rx, 0, 0xff, EXANIC_RX_LEN );
/* Reset transmit feedback region */
*(port->txf) = 0;
/* Reset counters */
port->tx_prod = 0;
port->tx_cons = 0;
port->rx_cons = 0;
/* Map receive region */
exanic_write_base ( phys_to_bus ( user_to_phys ( port->rx, 0 ) ),
( port->regs + EXANIC_PORT_RX_BASE ) );
/* Enable promiscuous mode */
writel ( EXANIC_PORT_FLAGS_PROMISC,
( port->regs + EXANIC_PORT_FLAGS ) );
/* Reset to default speed and clear cached status */
writel ( port->default_speed, ( port->regs + EXANIC_PORT_SPEED ) );
port->speed = 0;
port->status = 0;
/* Enable port */
wmb();
writel ( EXANIC_PORT_ENABLE_ENABLED,
( port->regs + EXANIC_PORT_ENABLE ) );
/* Start link state timer */
start_timer_fixed ( &port->timer, EXANIC_LINK_INTERVAL );
return 0;
}
/**
* Close network device
*
* @v netdev Network device
*/
static void exanic_close ( struct net_device *netdev ) {
struct exanic_port *port = netdev->priv;
/* Stop link state timer */
stop_timer ( &port->timer );
/* Disable port */
writel ( 0, ( port->regs + EXANIC_PORT_ENABLE ) );
wmb();
/* Clear receive region */
exanic_clear_base ( port->regs + EXANIC_PORT_RX_BASE );
/* Discard any in-progress receive */
if ( port->rx_iobuf ) {
netdev_rx_err ( netdev, port->rx_iobuf, -ECANCELED );
port->rx_iobuf = NULL;
}
}
/**
* Transmit packet
*
* @v netdev Network device
* @v iobuf I/O buffer
* @ret rc Return status code
*/
static int exanic_transmit ( struct net_device *netdev,
struct io_buffer *iobuf ) {
struct exanic_port *port = netdev->priv;
struct exanic_tx_chunk *tx;
unsigned int tx_fill;
unsigned int tx_index;
size_t offset;
size_t len;
uint8_t *src;
uint8_t *dst;
/* Sanity check */
len = iob_len ( iobuf );
if ( len > sizeof ( tx->data ) ) {
DBGC ( port, "EXANIC %s transmit too large\n", netdev->name );
return -ENOTSUP;
}
/* Get next transmit descriptor */
tx_fill = ( port->tx_prod - port->tx_cons );
if ( tx_fill >= port->tx_count ) {
DBGC ( port, "EXANIC %s out of transmit descriptors\n",
netdev->name );
return -ENOBUFS;
}
tx_index = ( port->tx_prod & ( port->tx_count - 1 ) );
offset = ( tx_index * sizeof ( *tx ) );
tx = ( port->tx + offset );
DBGC2 ( port, "EXANIC %s TX %04x at [%05zx,%05zx)\n",
netdev->name, port->tx_prod, ( port->tx_offset + offset ),
( port->tx_offset + offset +
offsetof ( typeof ( *tx ), data ) + len ) );
port->tx_prod++;
/* Populate transmit descriptor */
writew ( port->tx_prod, &tx->desc.txf_id );
writew ( ( sizeof ( tx->pad ) + len ), &tx->desc.len );
/* Copy data to transmit region. There is no DMA on the
* transmit data path.
*/
src = iobuf->data;
dst = tx->data;
while ( len-- )
writeb ( *(src++), dst++ );
/* Send transmit command */
wmb();
writel ( ( port->tx_offset + offset ),
( port->regs + EXANIC_PORT_TX_COMMAND ) );
return 0;
}
/**
* Poll for completed packets
*
* @v netdev Network device
*/
static void exanic_poll_tx ( struct net_device *netdev ) {
struct exanic_port *port = netdev->priv;
/* Report any completed packets */
while ( port->tx_cons != *(port->txf) ) {
DBGC2 ( port, "EXANIC %s TX %04x complete\n",
netdev->name, port->tx_cons );
netdev_tx_complete_next ( netdev );
port->tx_cons++;
}
}
/**
* Poll for received packets
*
* @v netdev Network device
*/
static void exanic_poll_rx ( struct net_device *netdev ) {
struct exanic_port *port = netdev->priv;
struct exanic_rx_chunk *rx;
struct exanic_rx_descriptor desc;
uint8_t current;
uint8_t previous;
size_t offset;
size_t len;
for ( ; ; port->rx_cons++ ) {
/* Fetch descriptor */
offset = ( ( port->rx_cons * sizeof ( *rx ) ) % EXANIC_RX_LEN );
copy_from_user ( &desc, port->rx,
( offset + offsetof ( typeof ( *rx ), desc ) ),
sizeof ( desc ) );
/* Calculate generation */
current = ( port->rx_cons / ( EXANIC_RX_LEN / sizeof ( *rx ) ));
previous = ( current - 1 );
/* Do nothing if no chunk is ready */
if ( desc.generation == previous )
break;
/* Allocate I/O buffer if needed */
if ( ! port->rx_iobuf ) {
port->rx_iobuf = alloc_iob ( EXANIC_MAX_RX_LEN );
if ( ! port->rx_iobuf ) {
/* Wait for next poll */
break;
}
port->rx_rc = 0;
}
/* Calculate chunk length */
len = ( desc.len ? desc.len : sizeof ( rx->data ) );
/* Append data to I/O buffer */
if ( len <= iob_tailroom ( port->rx_iobuf ) ) {
copy_from_user ( iob_put ( port->rx_iobuf, len ),
port->rx,
( offset + offsetof ( typeof ( *rx ),
data ) ), len );
} else {
DBGC ( port, "EXANIC %s RX too large\n",
netdev->name );
port->rx_rc = -ERANGE;
}
/* Check for overrun */
rmb();
copy_from_user ( &desc.generation, port->rx,
( offset + offsetof ( typeof ( *rx ),
desc.generation ) ),
sizeof ( desc.generation ) );
if ( desc.generation != current ) {
DBGC ( port, "EXANIC %s RX overrun\n", netdev->name );
port->rx_rc = -ENOBUFS;
continue;
}
/* Wait for end of packet */
if ( ! desc.len )
continue;
/* Check for receive errors */
if ( desc.status & EXANIC_STATUS_ERROR_MASK ) {
port->rx_rc = -EIO_STATUS ( desc.status );
DBGC ( port, "EXANIC %s RX %04x error: %s\n",
netdev->name, port->rx_cons,
strerror ( port->rx_rc ) );
} else {
DBGC2 ( port, "EXANIC %s RX %04x\n",
netdev->name, port->rx_cons );
}
/* Hand off to network stack */
if ( port->rx_rc ) {
netdev_rx_err ( netdev, port->rx_iobuf, port->rx_rc );
} else {
iob_unput ( port->rx_iobuf, 4 /* strip CRC */ );
netdev_rx ( netdev, port->rx_iobuf );
}
port->rx_iobuf = NULL;
}
}
/**
* Poll for completed and received packets
*
* @v netdev Network device
*/
static void exanic_poll ( struct net_device *netdev ) {
/* Poll for completed packets */
exanic_poll_tx ( netdev );
/* Poll for received packets */
exanic_poll_rx ( netdev );
}
/** ExaNIC network device operations */
static struct net_device_operations exanic_operations = {
.open = exanic_open,
.close = exanic_close,
.transmit = exanic_transmit,
.poll = exanic_poll,
};
/******************************************************************************
*
* PCI interface
*
******************************************************************************
*/
/**
* Probe port
*
* @v exanic ExaNIC device
* @v dev Parent device
* @v index Port number
* @ret rc Return status code
*/
static int exanic_probe_port ( struct exanic *exanic, struct device *dev,
unsigned int index ) {
struct net_device *netdev;
struct exanic_port *port;
void *port_regs;
uint32_t status;
size_t tx_len;
int rc;
/* Do nothing if port is not physically present */
port_regs = ( exanic->regs + EXANIC_PORT_REGS ( index ) );
status = readl ( port_regs + EXANIC_PORT_STATUS );
tx_len = readl ( port_regs + EXANIC_PORT_TX_LEN );
if ( ( status & EXANIC_PORT_STATUS_ABSENT ) || ( tx_len == 0 ) ) {
rc = 0;
goto absent;
}
/* Allocate network device */
netdev = alloc_etherdev ( sizeof ( *port ) );
if ( ! netdev ) {
rc = -ENOMEM;
goto err_alloc_netdev;
}
netdev_init ( netdev, &exanic_operations );
netdev->dev = dev;
port = netdev->priv;
memset ( port, 0, sizeof ( *port ) );
exanic->port[index] = port;
port->netdev = netdev;
port->regs = port_regs;
timer_init ( &port->timer, exanic_expired, &netdev->refcnt );
/* Identify transmit region */
port->tx_offset = readl ( port->regs + EXANIC_PORT_TX_OFFSET );
if ( tx_len > EXANIC_MAX_TX_LEN )
tx_len = EXANIC_MAX_TX_LEN;
assert ( ! ( tx_len & ( tx_len - 1 ) ) );
port->tx = ( exanic->tx + port->tx_offset );
port->tx_count = ( tx_len / sizeof ( struct exanic_tx_chunk ) );
/* Identify transmit feedback region */
port->txf_slot = EXANIC_TXF_SLOT ( index );
port->txf = ( exanic->txf +
( port->txf_slot * sizeof ( *(port->txf) ) ) );
/* Allocate receive region (via umalloc()) */
port->rx = umalloc ( EXANIC_RX_LEN );
if ( ! port->rx ) {
rc = -ENOMEM;
goto err_alloc_rx;
}
/* Set MAC address */
memcpy ( netdev->hw_addr, exanic->mac, ETH_ALEN );
netdev->hw_addr[ ETH_ALEN - 1 ] += index;
/* Record default link speed and supported speeds */
port->default_speed = readl ( port->regs + EXANIC_PORT_SPEED );
port->speeds = ( exanic->caps & EXANIC_CAPS_SPEED_MASK );
/* Register network device */
if ( ( rc = register_netdev ( netdev ) ) != 0 )
goto err_register_netdev;
DBGC ( port, "EXANIC %s port %d TX [%#05zx,%#05zx) TXF %#02x RX "
"[%#lx,%#lx)\n", netdev->name, index, port->tx_offset,
( port->tx_offset + tx_len ), port->txf_slot,
user_to_phys ( port->rx, 0 ),
user_to_phys ( port->rx, EXANIC_RX_LEN ) );
/* Set initial link state */
exanic_check_link ( netdev );
return 0;
unregister_netdev ( netdev );
err_register_netdev:
ufree ( port->rx );
err_alloc_rx:
netdev_nullify ( netdev );
netdev_put ( netdev );
err_alloc_netdev:
absent:
return rc;
}
/**
* Probe port
*
* @v exanic ExaNIC device
* @v index Port number
*/
static void exanic_remove_port ( struct exanic *exanic, unsigned int index ) {
struct exanic_port *port;
/* Do nothing if port is not physically present */
port = exanic->port[index];
if ( ! port )
return;
/* Unregister network device */
unregister_netdev ( port->netdev );
/* Free receive region */
ufree ( port->rx );
/* Free network device */
netdev_nullify ( port->netdev );
netdev_put ( port->netdev );
}
/**
* Probe PCI device
*
* @v pci PCI device
* @ret rc Return status code
*/
static int exanic_probe ( struct pci_device *pci ) {
struct exanic *exanic;
unsigned long regs_bar_start;
unsigned long tx_bar_start;
size_t tx_bar_len;
int i;
int rc;
/* Allocate and initialise structure */
exanic = zalloc ( sizeof ( *exanic ) );
if ( ! exanic ) {
rc = -ENOMEM;
goto err_alloc;
}
pci_set_drvdata ( pci, exanic );
/* Fix up PCI device */
adjust_pci_device ( pci );
/* Map registers */
regs_bar_start = pci_bar_start ( pci, EXANIC_REGS_BAR );
exanic->regs = pci_ioremap ( pci, regs_bar_start, EXANIC_REGS_LEN );
if ( ! exanic->regs ) {
rc = -ENODEV;
goto err_ioremap_regs;
}
/* Reset device */
exanic_reset ( exanic );
/* Read capabilities */
exanic->caps = readl ( exanic->regs + EXANIC_CAPS );
/* Power up PHYs */
writel ( EXANIC_POWER_ON, ( exanic->regs + EXANIC_POWER ) );
/* Fetch base MAC address */
if ( ( rc = exanic_fetch_mac ( exanic ) ) != 0 )
goto err_fetch_mac;
DBGC ( exanic, "EXANIC %p capabilities %#08x base MAC %s\n",
exanic, exanic->caps, eth_ntoa ( exanic->mac ) );
/* Map transmit region */
tx_bar_start = pci_bar_start ( pci, EXANIC_TX_BAR );
tx_bar_len = pci_bar_size ( pci, EXANIC_TX_BAR );
exanic->tx = pci_ioremap ( pci, tx_bar_start, tx_bar_len );
if ( ! exanic->tx ) {
rc = -ENODEV;
goto err_ioremap_tx;
}
/* Allocate transmit feedback region (shared between all ports) */
exanic->txf = malloc_phys ( EXANIC_TXF_LEN, EXANIC_ALIGN );
if ( ! exanic->txf ) {
rc = -ENOMEM;
goto err_alloc_txf;
}
memset ( exanic->txf, 0, EXANIC_TXF_LEN );
exanic_write_base ( virt_to_bus ( exanic->txf ),
( exanic->regs + EXANIC_TXF_BASE ) );
/* Allocate and initialise per-port network devices */
for ( i = 0 ; i < EXANIC_MAX_PORTS ; i++ ) {
if ( ( rc = exanic_probe_port ( exanic, &pci->dev, i ) ) != 0 )
goto err_probe_port;
}
return 0;
i = EXANIC_MAX_PORTS;
err_probe_port:
for ( i-- ; i >= 0 ; i-- )
exanic_remove_port ( exanic, i );
exanic_reset ( exanic );
free_phys ( exanic->txf, EXANIC_TXF_LEN );
err_alloc_txf:
iounmap ( exanic->tx );
err_ioremap_tx:
iounmap ( exanic->regs );
err_fetch_mac:
err_ioremap_regs:
free ( exanic );
err_alloc:
return rc;
}
/**
* Remove PCI device
*
* @v pci PCI device
*/
static void exanic_remove ( struct pci_device *pci ) {
struct exanic *exanic = pci_get_drvdata ( pci );
unsigned int i;
/* Remove all ports */
for ( i = 0 ; i < EXANIC_MAX_PORTS ; i++ )
exanic_remove_port ( exanic, i );
/* Reset device */
exanic_reset ( exanic );
/* Free transmit feedback region */
free_phys ( exanic->txf, EXANIC_TXF_LEN );
/* Unmap transmit region */
iounmap ( exanic->tx );
/* Unmap registers */
iounmap ( exanic->regs );
/* Free device */
free ( exanic );
}
/** ExaNIC PCI device IDs */
static struct pci_device_id exanic_ids[] = {
PCI_ROM ( 0x10ee, 0x2b00, "exanic-old", "ExaNIC (old)", 0 ),
PCI_ROM ( 0x1ce4, 0x0001, "exanic-x4", "ExaNIC X4", 0 ),
PCI_ROM ( 0x1ce4, 0x0002, "exanic-x2", "ExaNIC X2", 0 ),
PCI_ROM ( 0x1ce4, 0x0003, "exanic-x10", "ExaNIC X10", 0 ),
PCI_ROM ( 0x1ce4, 0x0004, "exanic-x10gm", "ExaNIC X10 GM", 0 ),
PCI_ROM ( 0x1ce4, 0x0005, "exanic-x40", "ExaNIC X40", 0 ),
PCI_ROM ( 0x1ce4, 0x0006, "exanic-x10hpt", "ExaNIC X10 HPT", 0 ),
PCI_ROM ( 0x1ce4, 0x0007, "exanic-x40g", "ExaNIC X40", 0 ),
};
/** ExaNIC PCI driver */
struct pci_driver exanic_driver __pci_driver = {
.ids = exanic_ids,
.id_count = ( sizeof ( exanic_ids ) / sizeof ( exanic_ids[0] ) ),
.probe = exanic_probe,
.remove = exanic_remove,
};