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|
// SPDX-License-Identifier: GPL-2.0-or-later
/*
* Network device driver for Cell Processor-Based Blade and Celleb platform
*
* (C) Copyright IBM Corp. 2005
* (C) Copyright 2006 TOSHIBA CORPORATION
*
* Authors : Utz Bacher <utz.bacher@de.ibm.com>
* Jens Osterkamp <Jens.Osterkamp@de.ibm.com>
*/
#include <linux/compiler.h>
#include <linux/crc32.h>
#include <linux/delay.h>
#include <linux/etherdevice.h>
#include <linux/ethtool.h>
#include <linux/firmware.h>
#include <linux/if_vlan.h>
#include <linux/in.h>
#include <linux/init.h>
#include <linux/interrupt.h>
#include <linux/gfp.h>
#include <linux/ioport.h>
#include <linux/ip.h>
#include <linux/kernel.h>
#include <linux/mii.h>
#include <linux/module.h>
#include <linux/netdevice.h>
#include <linux/device.h>
#include <linux/pci.h>
#include <linux/skbuff.h>
#include <linux/tcp.h>
#include <linux/types.h>
#include <linux/vmalloc.h>
#include <linux/wait.h>
#include <linux/workqueue.h>
#include <linux/bitops.h>
#include <net/checksum.h>
#include "spider_net.h"
MODULE_AUTHOR("Utz Bacher <utz.bacher@de.ibm.com> and Jens Osterkamp " \
"<Jens.Osterkamp@de.ibm.com>");
MODULE_DESCRIPTION("Spider Southbridge Gigabit Ethernet driver");
MODULE_LICENSE("GPL");
MODULE_VERSION(VERSION);
MODULE_FIRMWARE(SPIDER_NET_FIRMWARE_NAME);
static int rx_descriptors = SPIDER_NET_RX_DESCRIPTORS_DEFAULT;
static int tx_descriptors = SPIDER_NET_TX_DESCRIPTORS_DEFAULT;
module_param(rx_descriptors, int, 0444);
module_param(tx_descriptors, int, 0444);
MODULE_PARM_DESC(rx_descriptors, "number of descriptors used " \
"in rx chains");
MODULE_PARM_DESC(tx_descriptors, "number of descriptors used " \
"in tx chain");
char spider_net_driver_name[] = "spidernet";
static const struct pci_device_id spider_net_pci_tbl[] = {
{ PCI_VENDOR_ID_TOSHIBA_2, PCI_DEVICE_ID_TOSHIBA_SPIDER_NET,
PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0UL },
{ 0, }
};
MODULE_DEVICE_TABLE(pci, spider_net_pci_tbl);
/**
* spider_net_read_reg - reads an SMMIO register of a card
* @card: device structure
* @reg: register to read from
*
* returns the content of the specified SMMIO register.
*/
static inline u32
spider_net_read_reg(struct spider_net_card *card, u32 reg)
{
/* We use the powerpc specific variants instead of readl_be() because
* we know spidernet is not a real PCI device and we can thus avoid the
* performance hit caused by the PCI workarounds.
*/
return in_be32(card->regs + reg);
}
/**
* spider_net_write_reg - writes to an SMMIO register of a card
* @card: device structure
* @reg: register to write to
* @value: value to write into the specified SMMIO register
*/
static inline void
spider_net_write_reg(struct spider_net_card *card, u32 reg, u32 value)
{
/* We use the powerpc specific variants instead of writel_be() because
* we know spidernet is not a real PCI device and we can thus avoid the
* performance hit caused by the PCI workarounds.
*/
out_be32(card->regs + reg, value);
}
/**
* spider_net_write_phy - write to phy register
* @netdev: adapter to be written to
* @mii_id: id of MII
* @reg: PHY register
* @val: value to be written to phy register
*
* spider_net_write_phy_register writes to an arbitrary PHY
* register via the spider GPCWOPCMD register. We assume the queue does
* not run full (not more than 15 commands outstanding).
**/
static void
spider_net_write_phy(struct net_device *netdev, int mii_id,
int reg, int val)
{
struct spider_net_card *card = netdev_priv(netdev);
u32 writevalue;
writevalue = ((u32)mii_id << 21) |
((u32)reg << 16) | ((u32)val);
spider_net_write_reg(card, SPIDER_NET_GPCWOPCMD, writevalue);
}
/**
* spider_net_read_phy - read from phy register
* @netdev: network device to be read from
* @mii_id: id of MII
* @reg: PHY register
*
* Returns value read from PHY register
*
* spider_net_write_phy reads from an arbitrary PHY
* register via the spider GPCROPCMD register
**/
static int
spider_net_read_phy(struct net_device *netdev, int mii_id, int reg)
{
struct spider_net_card *card = netdev_priv(netdev);
u32 readvalue;
readvalue = ((u32)mii_id << 21) | ((u32)reg << 16);
spider_net_write_reg(card, SPIDER_NET_GPCROPCMD, readvalue);
/* we don't use semaphores to wait for an SPIDER_NET_GPROPCMPINT
* interrupt, as we poll for the completion of the read operation
* in spider_net_read_phy. Should take about 50 us
*/
do {
readvalue = spider_net_read_reg(card, SPIDER_NET_GPCROPCMD);
} while (readvalue & SPIDER_NET_GPREXEC);
readvalue &= SPIDER_NET_GPRDAT_MASK;
return readvalue;
}
/**
* spider_net_setup_aneg - initial auto-negotiation setup
* @card: device structure
**/
static void
spider_net_setup_aneg(struct spider_net_card *card)
{
struct mii_phy *phy = &card->phy;
u32 advertise = 0;
u16 bmsr, estat;
bmsr = spider_net_read_phy(card->netdev, phy->mii_id, MII_BMSR);
estat = spider_net_read_phy(card->netdev, phy->mii_id, MII_ESTATUS);
if (bmsr & BMSR_10HALF)
advertise |= ADVERTISED_10baseT_Half;
if (bmsr & BMSR_10FULL)
advertise |= ADVERTISED_10baseT_Full;
if (bmsr & BMSR_100HALF)
advertise |= ADVERTISED_100baseT_Half;
if (bmsr & BMSR_100FULL)
advertise |= ADVERTISED_100baseT_Full;
if ((bmsr & BMSR_ESTATEN) && (estat & ESTATUS_1000_TFULL))
advertise |= SUPPORTED_1000baseT_Full;
if ((bmsr & BMSR_ESTATEN) && (estat & ESTATUS_1000_THALF))
advertise |= SUPPORTED_1000baseT_Half;
sungem_phy_probe(phy, phy->mii_id);
phy->def->ops->setup_aneg(phy, advertise);
}
/**
* spider_net_rx_irq_off - switch off rx irq on this spider card
* @card: device structure
*
* switches off rx irq by masking them out in the GHIINTnMSK register
*/
static void
spider_net_rx_irq_off(struct spider_net_card *card)
{
u32 regvalue;
regvalue = SPIDER_NET_INT0_MASK_VALUE & (~SPIDER_NET_RXINT);
spider_net_write_reg(card, SPIDER_NET_GHIINT0MSK, regvalue);
}
/**
* spider_net_rx_irq_on - switch on rx irq on this spider card
* @card: device structure
*
* switches on rx irq by enabling them in the GHIINTnMSK register
*/
static void
spider_net_rx_irq_on(struct spider_net_card *card)
{
u32 regvalue;
regvalue = SPIDER_NET_INT0_MASK_VALUE | SPIDER_NET_RXINT;
spider_net_write_reg(card, SPIDER_NET_GHIINT0MSK, regvalue);
}
/**
* spider_net_set_promisc - sets the unicast address or the promiscuous mode
* @card: card structure
*
* spider_net_set_promisc sets the unicast destination address filter and
* thus either allows for non-promisc mode or promisc mode
*/
static void
spider_net_set_promisc(struct spider_net_card *card)
{
u32 macu, macl;
struct net_device *netdev = card->netdev;
if (netdev->flags & IFF_PROMISC) {
/* clear destination entry 0 */
spider_net_write_reg(card, SPIDER_NET_GMRUAFILnR, 0);
spider_net_write_reg(card, SPIDER_NET_GMRUAFILnR + 0x04, 0);
spider_net_write_reg(card, SPIDER_NET_GMRUA0FIL15R,
SPIDER_NET_PROMISC_VALUE);
} else {
macu = netdev->dev_addr[0];
macu <<= 8;
macu |= netdev->dev_addr[1];
memcpy(&macl, &netdev->dev_addr[2], sizeof(macl));
macu |= SPIDER_NET_UA_DESCR_VALUE;
spider_net_write_reg(card, SPIDER_NET_GMRUAFILnR, macu);
spider_net_write_reg(card, SPIDER_NET_GMRUAFILnR + 0x04, macl);
spider_net_write_reg(card, SPIDER_NET_GMRUA0FIL15R,
SPIDER_NET_NONPROMISC_VALUE);
}
}
/**
* spider_net_get_descr_status -- returns the status of a descriptor
* @hwdescr: descriptor to look at
*
* returns the status as in the dmac_cmd_status field of the descriptor
*/
static inline int
spider_net_get_descr_status(struct spider_net_hw_descr *hwdescr)
{
return hwdescr->dmac_cmd_status & SPIDER_NET_DESCR_IND_PROC_MASK;
}
/**
* spider_net_free_chain - free descriptor chain
* @card: card structure
* @chain: address of chain
*
*/
static void
spider_net_free_chain(struct spider_net_card *card,
struct spider_net_descr_chain *chain)
{
struct spider_net_descr *descr;
descr = chain->ring;
do {
descr->bus_addr = 0;
descr->hwdescr->next_descr_addr = 0;
descr = descr->next;
} while (descr != chain->ring);
dma_free_coherent(&card->pdev->dev, chain->num_desc * sizeof(struct spider_net_hw_descr),
chain->hwring, chain->dma_addr);
}
/**
* spider_net_init_chain - alloc and link descriptor chain
* @card: card structure
* @chain: address of chain
*
* We manage a circular list that mirrors the hardware structure,
* except that the hardware uses bus addresses.
*
* Returns 0 on success, <0 on failure
*/
static int
spider_net_init_chain(struct spider_net_card *card,
struct spider_net_descr_chain *chain)
{
int i;
struct spider_net_descr *descr;
struct spider_net_hw_descr *hwdescr;
dma_addr_t buf;
size_t alloc_size;
alloc_size = chain->num_desc * sizeof(struct spider_net_hw_descr);
chain->hwring = dma_alloc_coherent(&card->pdev->dev, alloc_size,
&chain->dma_addr, GFP_KERNEL);
if (!chain->hwring)
return -ENOMEM;
/* Set up the hardware pointers in each descriptor */
descr = chain->ring;
hwdescr = chain->hwring;
buf = chain->dma_addr;
for (i=0; i < chain->num_desc; i++, descr++, hwdescr++) {
hwdescr->dmac_cmd_status = SPIDER_NET_DESCR_NOT_IN_USE;
hwdescr->next_descr_addr = 0;
descr->hwdescr = hwdescr;
descr->bus_addr = buf;
descr->next = descr + 1;
descr->prev = descr - 1;
buf += sizeof(struct spider_net_hw_descr);
}
/* do actual circular list */
(descr-1)->next = chain->ring;
chain->ring->prev = descr-1;
spin_lock_init(&chain->lock);
chain->head = chain->ring;
chain->tail = chain->ring;
return 0;
}
/**
* spider_net_free_rx_chain_contents - frees descr contents in rx chain
* @card: card structure
*
* returns 0 on success, <0 on failure
*/
static void
spider_net_free_rx_chain_contents(struct spider_net_card *card)
{
struct spider_net_descr *descr;
descr = card->rx_chain.head;
do {
if (descr->skb) {
pci_unmap_single(card->pdev, descr->hwdescr->buf_addr,
SPIDER_NET_MAX_FRAME,
PCI_DMA_BIDIRECTIONAL);
dev_kfree_skb(descr->skb);
descr->skb = NULL;
}
descr = descr->next;
} while (descr != card->rx_chain.head);
}
/**
* spider_net_prepare_rx_descr - Reinitialize RX descriptor
* @card: card structure
* @descr: descriptor to re-init
*
* Return 0 on success, <0 on failure.
*
* Allocates a new rx skb, iommu-maps it and attaches it to the
* descriptor. Mark the descriptor as activated, ready-to-use.
*/
static int
spider_net_prepare_rx_descr(struct spider_net_card *card,
struct spider_net_descr *descr)
{
struct spider_net_hw_descr *hwdescr = descr->hwdescr;
dma_addr_t buf;
int offset;
int bufsize;
/* we need to round up the buffer size to a multiple of 128 */
bufsize = (SPIDER_NET_MAX_FRAME + SPIDER_NET_RXBUF_ALIGN - 1) &
(~(SPIDER_NET_RXBUF_ALIGN - 1));
/* and we need to have it 128 byte aligned, therefore we allocate a
* bit more
*/
/* allocate an skb */
descr->skb = netdev_alloc_skb(card->netdev,
bufsize + SPIDER_NET_RXBUF_ALIGN - 1);
if (!descr->skb) {
if (netif_msg_rx_err(card) && net_ratelimit())
dev_err(&card->netdev->dev,
"Not enough memory to allocate rx buffer\n");
card->spider_stats.alloc_rx_skb_error++;
return -ENOMEM;
}
hwdescr->buf_size = bufsize;
hwdescr->result_size = 0;
hwdescr->valid_size = 0;
hwdescr->data_status = 0;
hwdescr->data_error = 0;
offset = ((unsigned long)descr->skb->data) &
(SPIDER_NET_RXBUF_ALIGN - 1);
if (offset)
skb_reserve(descr->skb, SPIDER_NET_RXBUF_ALIGN - offset);
/* iommu-map the skb */
buf = pci_map_single(card->pdev, descr->skb->data,
SPIDER_NET_MAX_FRAME, PCI_DMA_FROMDEVICE);
if (pci_dma_mapping_error(card->pdev, buf)) {
dev_kfree_skb_any(descr->skb);
descr->skb = NULL;
if (netif_msg_rx_err(card) && net_ratelimit())
dev_err(&card->netdev->dev, "Could not iommu-map rx buffer\n");
card->spider_stats.rx_iommu_map_error++;
hwdescr->dmac_cmd_status = SPIDER_NET_DESCR_NOT_IN_USE;
} else {
hwdescr->buf_addr = buf;
wmb();
hwdescr->dmac_cmd_status = SPIDER_NET_DESCR_CARDOWNED |
SPIDER_NET_DMAC_NOINTR_COMPLETE;
}
return 0;
}
/**
* spider_net_enable_rxchtails - sets RX dmac chain tail addresses
* @card: card structure
*
* spider_net_enable_rxchtails sets the RX DMAC chain tail addresses in the
* chip by writing to the appropriate register. DMA is enabled in
* spider_net_enable_rxdmac.
*/
static inline void
spider_net_enable_rxchtails(struct spider_net_card *card)
{
/* assume chain is aligned correctly */
spider_net_write_reg(card, SPIDER_NET_GDADCHA ,
card->rx_chain.tail->bus_addr);
}
/**
* spider_net_enable_rxdmac - enables a receive DMA controller
* @card: card structure
*
* spider_net_enable_rxdmac enables the DMA controller by setting RX_DMA_EN
* in the GDADMACCNTR register
*/
static inline void
spider_net_enable_rxdmac(struct spider_net_card *card)
{
wmb();
spider_net_write_reg(card, SPIDER_NET_GDADMACCNTR,
SPIDER_NET_DMA_RX_VALUE);
}
/**
* spider_net_disable_rxdmac - disables the receive DMA controller
* @card: card structure
*
* spider_net_disable_rxdmac terminates processing on the DMA controller
* by turing off the DMA controller, with the force-end flag set.
*/
static inline void
spider_net_disable_rxdmac(struct spider_net_card *card)
{
spider_net_write_reg(card, SPIDER_NET_GDADMACCNTR,
SPIDER_NET_DMA_RX_FEND_VALUE);
}
/**
* spider_net_refill_rx_chain - refills descriptors/skbs in the rx chains
* @card: card structure
*
* refills descriptors in the rx chain: allocates skbs and iommu-maps them.
*/
static void
spider_net_refill_rx_chain(struct spider_net_card *card)
{
struct spider_net_descr_chain *chain = &card->rx_chain;
unsigned long flags;
/* one context doing the refill (and a second context seeing that
* and omitting it) is ok. If called by NAPI, we'll be called again
* as spider_net_decode_one_descr is called several times. If some
* interrupt calls us, the NAPI is about to clean up anyway.
*/
if (!spin_trylock_irqsave(&chain->lock, flags))
return;
while (spider_net_get_descr_status(chain->head->hwdescr) ==
SPIDER_NET_DESCR_NOT_IN_USE) {
if (spider_net_prepare_rx_descr(card, chain->head))
break;
chain->head = chain->head->next;
}
spin_unlock_irqrestore(&chain->lock, flags);
}
/**
* spider_net_alloc_rx_skbs - Allocates rx skbs in rx descriptor chains
* @card: card structure
*
* Returns 0 on success, <0 on failure.
*/
static int
spider_net_alloc_rx_skbs(struct spider_net_card *card)
{
struct spider_net_descr_chain *chain = &card->rx_chain;
struct spider_net_descr *start = chain->tail;
struct spider_net_descr *descr = start;
/* Link up the hardware chain pointers */
do {
descr->prev->hwdescr->next_descr_addr = descr->bus_addr;
descr = descr->next;
} while (descr != start);
/* Put at least one buffer into the chain. if this fails,
* we've got a problem. If not, spider_net_refill_rx_chain
* will do the rest at the end of this function.
*/
if (spider_net_prepare_rx_descr(card, chain->head))
goto error;
else
chain->head = chain->head->next;
/* This will allocate the rest of the rx buffers;
* if not, it's business as usual later on.
*/
spider_net_refill_rx_chain(card);
spider_net_enable_rxdmac(card);
return 0;
error:
spider_net_free_rx_chain_contents(card);
return -ENOMEM;
}
/**
* spider_net_get_multicast_hash - generates hash for multicast filter table
* @netdev: interface device structure
* @addr: multicast address
*
* returns the hash value.
*
* spider_net_get_multicast_hash calculates a hash value for a given multicast
* address, that is used to set the multicast filter tables
*/
static u8
spider_net_get_multicast_hash(struct net_device *netdev, __u8 *addr)
{
u32 crc;
u8 hash;
char addr_for_crc[ETH_ALEN] = { 0, };
int i, bit;
for (i = 0; i < ETH_ALEN * 8; i++) {
bit = (addr[i / 8] >> (i % 8)) & 1;
addr_for_crc[ETH_ALEN - 1 - i / 8] += bit << (7 - (i % 8));
}
crc = crc32_be(~0, addr_for_crc, netdev->addr_len);
hash = (crc >> 27);
hash <<= 3;
hash |= crc & 7;
hash &= 0xff;
return hash;
}
/**
* spider_net_set_multi - sets multicast addresses and promisc flags
* @netdev: interface device structure
*
* spider_net_set_multi configures multicast addresses as needed for the
* netdev interface. It also sets up multicast, allmulti and promisc
* flags appropriately
*/
static void
spider_net_set_multi(struct net_device *netdev)
{
struct netdev_hw_addr *ha;
u8 hash;
int i;
u32 reg;
struct spider_net_card *card = netdev_priv(netdev);
DECLARE_BITMAP(bitmask, SPIDER_NET_MULTICAST_HASHES) = {};
spider_net_set_promisc(card);
if (netdev->flags & IFF_ALLMULTI) {
for (i = 0; i < SPIDER_NET_MULTICAST_HASHES; i++) {
set_bit(i, bitmask);
}
goto write_hash;
}
/* well, we know, what the broadcast hash value is: it's xfd
hash = spider_net_get_multicast_hash(netdev, netdev->broadcast); */
set_bit(0xfd, bitmask);
netdev_for_each_mc_addr(ha, netdev) {
hash = spider_net_get_multicast_hash(netdev, ha->addr);
set_bit(hash, bitmask);
}
write_hash:
for (i = 0; i < SPIDER_NET_MULTICAST_HASHES / 4; i++) {
reg = 0;
if (test_bit(i * 4, bitmask))
reg += 0x08;
reg <<= 8;
if (test_bit(i * 4 + 1, bitmask))
reg += 0x08;
reg <<= 8;
if (test_bit(i * 4 + 2, bitmask))
reg += 0x08;
reg <<= 8;
if (test_bit(i * 4 + 3, bitmask))
reg += 0x08;
spider_net_write_reg(card, SPIDER_NET_GMRMHFILnR + i * 4, reg);
}
}
/**
* spider_net_prepare_tx_descr - fill tx descriptor with skb data
* @card: card structure
* @skb: packet to use
*
* returns 0 on success, <0 on failure.
*
* fills out the descriptor structure with skb data and len. Copies data,
* if needed (32bit DMA!)
*/
static int
spider_net_prepare_tx_descr(struct spider_net_card *card,
struct sk_buff *skb)
{
struct spider_net_descr_chain *chain = &card->tx_chain;
struct spider_net_descr *descr;
struct spider_net_hw_descr *hwdescr;
dma_addr_t buf;
unsigned long flags;
buf = pci_map_single(card->pdev, skb->data, skb->len, PCI_DMA_TODEVICE);
if (pci_dma_mapping_error(card->pdev, buf)) {
if (netif_msg_tx_err(card) && net_ratelimit())
dev_err(&card->netdev->dev, "could not iommu-map packet (%p, %i). "
"Dropping packet\n", skb->data, skb->len);
card->spider_stats.tx_iommu_map_error++;
return -ENOMEM;
}
spin_lock_irqsave(&chain->lock, flags);
descr = card->tx_chain.head;
if (descr->next == chain->tail->prev) {
spin_unlock_irqrestore(&chain->lock, flags);
pci_unmap_single(card->pdev, buf, skb->len, PCI_DMA_TODEVICE);
return -ENOMEM;
}
hwdescr = descr->hwdescr;
chain->head = descr->next;
descr->skb = skb;
hwdescr->buf_addr = buf;
hwdescr->buf_size = skb->len;
hwdescr->next_descr_addr = 0;
hwdescr->data_status = 0;
hwdescr->dmac_cmd_status =
SPIDER_NET_DESCR_CARDOWNED | SPIDER_NET_DMAC_TXFRMTL;
spin_unlock_irqrestore(&chain->lock, flags);
if (skb->ip_summed == CHECKSUM_PARTIAL)
switch (ip_hdr(skb)->protocol) {
case IPPROTO_TCP:
hwdescr->dmac_cmd_status |= SPIDER_NET_DMAC_TCP;
break;
case IPPROTO_UDP:
hwdescr->dmac_cmd_status |= SPIDER_NET_DMAC_UDP;
break;
}
/* Chain the bus address, so that the DMA engine finds this descr. */
wmb();
descr->prev->hwdescr->next_descr_addr = descr->bus_addr;
netif_trans_update(card->netdev); /* set netdev watchdog timer */
return 0;
}
static int
spider_net_set_low_watermark(struct spider_net_card *card)
{
struct spider_net_descr *descr = card->tx_chain.tail;
struct spider_net_hw_descr *hwdescr;
unsigned long flags;
int status;
int cnt=0;
int i;
/* Measure the length of the queue. Measurement does not
* need to be precise -- does not need a lock.
*/
while (descr != card->tx_chain.head) {
status = descr->hwdescr->dmac_cmd_status & SPIDER_NET_DESCR_NOT_IN_USE;
if (status == SPIDER_NET_DESCR_NOT_IN_USE)
break;
descr = descr->next;
cnt++;
}
/* If TX queue is short, don't even bother with interrupts */
if (cnt < card->tx_chain.num_desc/4)
return cnt;
/* Set low-watermark 3/4th's of the way into the queue. */
descr = card->tx_chain.tail;
cnt = (cnt*3)/4;
for (i=0;i<cnt; i++)
descr = descr->next;
/* Set the new watermark, clear the old watermark */
spin_lock_irqsave(&card->tx_chain.lock, flags);
descr->hwdescr->dmac_cmd_status |= SPIDER_NET_DESCR_TXDESFLG;
if (card->low_watermark && card->low_watermark != descr) {
hwdescr = card->low_watermark->hwdescr;
hwdescr->dmac_cmd_status =
hwdescr->dmac_cmd_status & ~SPIDER_NET_DESCR_TXDESFLG;
}
card->low_watermark = descr;
spin_unlock_irqrestore(&card->tx_chain.lock, flags);
return cnt;
}
/**
* spider_net_release_tx_chain - processes sent tx descriptors
* @card: adapter structure
* @brutal: if set, don't care about whether descriptor seems to be in use
*
* returns 0 if the tx ring is empty, otherwise 1.
*
* spider_net_release_tx_chain releases the tx descriptors that spider has
* finished with (if non-brutal) or simply release tx descriptors (if brutal).
* If some other context is calling this function, we return 1 so that we're
* scheduled again (if we were scheduled) and will not lose initiative.
*/
static int
spider_net_release_tx_chain(struct spider_net_card *card, int brutal)
{
struct net_device *dev = card->netdev;
struct spider_net_descr_chain *chain = &card->tx_chain;
struct spider_net_descr *descr;
struct spider_net_hw_descr *hwdescr;
struct sk_buff *skb;
u32 buf_addr;
unsigned long flags;
int status;
while (1) {
spin_lock_irqsave(&chain->lock, flags);
if (chain->tail == chain->head) {
spin_unlock_irqrestore(&chain->lock, flags);
return 0;
}
descr = chain->tail;
hwdescr = descr->hwdescr;
status = spider_net_get_descr_status(hwdescr);
switch (status) {
case SPIDER_NET_DESCR_COMPLETE:
dev->stats.tx_packets++;
dev->stats.tx_bytes += descr->skb->len;
break;
case SPIDER_NET_DESCR_CARDOWNED:
if (!brutal) {
spin_unlock_irqrestore(&chain->lock, flags);
return 1;
}
/* fallthrough, if we release the descriptors
* brutally (then we don't care about
* SPIDER_NET_DESCR_CARDOWNED)
*/
fallthrough;
case SPIDER_NET_DESCR_RESPONSE_ERROR:
case SPIDER_NET_DESCR_PROTECTION_ERROR:
case SPIDER_NET_DESCR_FORCE_END:
if (netif_msg_tx_err(card))
dev_err(&card->netdev->dev, "forcing end of tx descriptor "
"with status x%02x\n", status);
dev->stats.tx_errors++;
break;
default:
dev->stats.tx_dropped++;
if (!brutal) {
spin_unlock_irqrestore(&chain->lock, flags);
return 1;
}
}
chain->tail = descr->next;
hwdescr->dmac_cmd_status |= SPIDER_NET_DESCR_NOT_IN_USE;
skb = descr->skb;
descr->skb = NULL;
buf_addr = hwdescr->buf_addr;
spin_unlock_irqrestore(&chain->lock, flags);
/* unmap the skb */
if (skb) {
pci_unmap_single(card->pdev, buf_addr, skb->len,
PCI_DMA_TODEVICE);
dev_consume_skb_any(skb);
}
}
return 0;
}
/**
* spider_net_kick_tx_dma - enables TX DMA processing
* @card: card structure
*
* This routine will start the transmit DMA running if
* it is not already running. This routine ned only be
* called when queueing a new packet to an empty tx queue.
* Writes the current tx chain head as start address
* of the tx descriptor chain and enables the transmission
* DMA engine.
*/
static inline void
spider_net_kick_tx_dma(struct spider_net_card *card)
{
struct spider_net_descr *descr;
if (spider_net_read_reg(card, SPIDER_NET_GDTDMACCNTR) &
SPIDER_NET_TX_DMA_EN)
goto out;
descr = card->tx_chain.tail;
for (;;) {
if (spider_net_get_descr_status(descr->hwdescr) ==
SPIDER_NET_DESCR_CARDOWNED) {
spider_net_write_reg(card, SPIDER_NET_GDTDCHA,
descr->bus_addr);
spider_net_write_reg(card, SPIDER_NET_GDTDMACCNTR,
SPIDER_NET_DMA_TX_VALUE);
break;
}
if (descr == card->tx_chain.head)
break;
descr = descr->next;
}
out:
mod_timer(&card->tx_timer, jiffies + SPIDER_NET_TX_TIMER);
}
/**
* spider_net_xmit - transmits a frame over the device
* @skb: packet to send out
* @netdev: interface device structure
*
* returns NETDEV_TX_OK on success, NETDEV_TX_BUSY on failure
*/
static netdev_tx_t
spider_net_xmit(struct sk_buff *skb, struct net_device *netdev)
{
int cnt;
struct spider_net_card *card = netdev_priv(netdev);
spider_net_release_tx_chain(card, 0);
if (spider_net_prepare_tx_descr(card, skb) != 0) {
netdev->stats.tx_dropped++;
netif_stop_queue(netdev);
return NETDEV_TX_BUSY;
}
cnt = spider_net_set_low_watermark(card);
if (cnt < 5)
spider_net_kick_tx_dma(card);
return NETDEV_TX_OK;
}
/**
* spider_net_cleanup_tx_ring - cleans up the TX ring
* @t: timer context used to obtain the pointer to net card data structure
*
* spider_net_cleanup_tx_ring is called by either the tx_timer
* or from the NAPI polling routine.
* This routine releases resources associted with transmitted
* packets, including updating the queue tail pointer.
*/
static void
spider_net_cleanup_tx_ring(struct timer_list *t)
{
struct spider_net_card *card = from_timer(card, t, tx_timer);
if ((spider_net_release_tx_chain(card, 0) != 0) &&
(card->netdev->flags & IFF_UP)) {
spider_net_kick_tx_dma(card);
netif_wake_queue(card->netdev);
}
}
/**
* spider_net_do_ioctl - called for device ioctls
* @netdev: interface device structure
* @ifr: request parameter structure for ioctl
* @cmd: command code for ioctl
*
* returns 0 on success, <0 on failure. Currently, we have no special ioctls.
* -EOPNOTSUPP is returned, if an unknown ioctl was requested
*/
static int
spider_net_do_ioctl(struct net_device *netdev, struct ifreq *ifr, int cmd)
{
switch (cmd) {
default:
return -EOPNOTSUPP;
}
}
/**
* spider_net_pass_skb_up - takes an skb from a descriptor and passes it on
* @descr: descriptor to process
* @card: card structure
*
* Fills out skb structure and passes the data to the stack.
* The descriptor state is not changed.
*/
static void
spider_net_pass_skb_up(struct spider_net_descr *descr,
struct spider_net_card *card)
{
struct spider_net_hw_descr *hwdescr = descr->hwdescr;
struct sk_buff *skb = descr->skb;
struct net_device *netdev = card->netdev;
u32 data_status = hwdescr->data_status;
u32 data_error = hwdescr->data_error;
skb_put(skb, hwdescr->valid_size);
/* the card seems to add 2 bytes of junk in front
* of the ethernet frame
*/
#define SPIDER_MISALIGN 2
skb_pull(skb, SPIDER_MISALIGN);
skb->protocol = eth_type_trans(skb, netdev);
/* checksum offload */
skb_checksum_none_assert(skb);
if (netdev->features & NETIF_F_RXCSUM) {
if ( ( (data_status & SPIDER_NET_DATA_STATUS_CKSUM_MASK) ==
SPIDER_NET_DATA_STATUS_CKSUM_MASK) &&
!(data_error & SPIDER_NET_DATA_ERR_CKSUM_MASK))
skb->ip_summed = CHECKSUM_UNNECESSARY;
}
if (data_status & SPIDER_NET_VLAN_PACKET) {
/* further enhancements: HW-accel VLAN */
}
/* update netdevice statistics */
netdev->stats.rx_packets++;
netdev->stats.rx_bytes += skb->len;
/* pass skb up to stack */
netif_receive_skb(skb);
}
static void show_rx_chain(struct spider_net_card *card)
{
struct spider_net_descr_chain *chain = &card->rx_chain;
struct spider_net_descr *start= chain->tail;
struct spider_net_descr *descr= start;
struct spider_net_hw_descr *hwd = start->hwdescr;
struct device *dev = &card->netdev->dev;
u32 curr_desc, next_desc;
int status;
int tot = 0;
int cnt = 0;
int off = start - chain->ring;
int cstat = hwd->dmac_cmd_status;
dev_info(dev, "Total number of descrs=%d\n",
chain->num_desc);
dev_info(dev, "Chain tail located at descr=%d, status=0x%x\n",
off, cstat);
curr_desc = spider_net_read_reg(card, SPIDER_NET_GDACTDPA);
next_desc = spider_net_read_reg(card, SPIDER_NET_GDACNEXTDA);
status = cstat;
do
{
hwd = descr->hwdescr;
off = descr - chain->ring;
status = hwd->dmac_cmd_status;
if (descr == chain->head)
dev_info(dev, "Chain head is at %d, head status=0x%x\n",
off, status);
if (curr_desc == descr->bus_addr)
dev_info(dev, "HW curr desc (GDACTDPA) is at %d, status=0x%x\n",
off, status);
if (next_desc == descr->bus_addr)
dev_info(dev, "HW next desc (GDACNEXTDA) is at %d, status=0x%x\n",
off, status);
if (hwd->next_descr_addr == 0)
dev_info(dev, "chain is cut at %d\n", off);
if (cstat != status) {
int from = (chain->num_desc + off - cnt) % chain->num_desc;
int to = (chain->num_desc + off - 1) % chain->num_desc;
dev_info(dev, "Have %d (from %d to %d) descrs "
"with stat=0x%08x\n", cnt, from, to, cstat);
cstat = status;
cnt = 0;
}
cnt ++;
tot ++;
descr = descr->next;
} while (descr != start);
dev_info(dev, "Last %d descrs with stat=0x%08x "
"for a total of %d descrs\n", cnt, cstat, tot);
#ifdef DEBUG
/* Now dump the whole ring */
descr = start;
do
{
struct spider_net_hw_descr *hwd = descr->hwdescr;
status = spider_net_get_descr_status(hwd);
cnt = descr - chain->ring;
dev_info(dev, "Descr %d stat=0x%08x skb=%p\n",
cnt, status, descr->skb);
dev_info(dev, "bus addr=%08x buf addr=%08x sz=%d\n",
descr->bus_addr, hwd->buf_addr, hwd->buf_size);
dev_info(dev, "next=%08x result sz=%d valid sz=%d\n",
hwd->next_descr_addr, hwd->result_size,
hwd->valid_size);
dev_info(dev, "dmac=%08x data stat=%08x data err=%08x\n",
hwd->dmac_cmd_status, hwd->data_status,
hwd->data_error);
dev_info(dev, "\n");
descr = descr->next;
} while (descr != start);
#endif
}
/**
* spider_net_resync_head_ptr - Advance head ptr past empty descrs
* @card: card structure
*
* If the driver fails to keep up and empty the queue, then the
* hardware wil run out of room to put incoming packets. This
* will cause the hardware to skip descrs that are full (instead
* of halting/retrying). Thus, once the driver runs, it wil need
* to "catch up" to where the hardware chain pointer is at.
*/
static void spider_net_resync_head_ptr(struct spider_net_card *card)
{
unsigned long flags;
struct spider_net_descr_chain *chain = &card->rx_chain;
struct spider_net_descr *descr;
int i, status;
/* Advance head pointer past any empty descrs */
descr = chain->head;
status = spider_net_get_descr_status(descr->hwdescr);
if (status == SPIDER_NET_DESCR_NOT_IN_USE)
return;
spin_lock_irqsave(&chain->lock, flags);
descr = chain->head;
status = spider_net_get_descr_status(descr->hwdescr);
for (i=0; i<chain->num_desc; i++) {
if (status != SPIDER_NET_DESCR_CARDOWNED) break;
descr = descr->next;
status = spider_net_get_descr_status(descr->hwdescr);
}
chain->head = descr;
spin_unlock_irqrestore(&chain->lock, flags);
}
static int spider_net_resync_tail_ptr(struct spider_net_card *card)
{
struct spider_net_descr_chain *chain = &card->rx_chain;
struct spider_net_descr *descr;
int i, status;
/* Advance tail pointer past any empty and reaped descrs */
descr = chain->tail;
status = spider_net_get_descr_status(descr->hwdescr);
for (i=0; i<chain->num_desc; i++) {
if ((status != SPIDER_NET_DESCR_CARDOWNED) &&
(status != SPIDER_NET_DESCR_NOT_IN_USE)) break;
descr = descr->next;
status = spider_net_get_descr_status(descr->hwdescr);
}
chain->tail = descr;
if ((i == chain->num_desc) || (i == 0))
return 1;
return 0;
}
/**
* spider_net_decode_one_descr - processes an RX descriptor
* @card: card structure
*
* Returns 1 if a packet has been sent to the stack, otherwise 0.
*
* Processes an RX descriptor by iommu-unmapping the data buffer
* and passing the packet up to the stack. This function is called
* in softirq context, e.g. either bottom half from interrupt or
* NAPI polling context.
*/
static int
spider_net_decode_one_descr(struct spider_net_card *card)
{
struct net_device *dev = card->netdev;
struct spider_net_descr_chain *chain = &card->rx_chain;
struct spider_net_descr *descr = chain->tail;
struct spider_net_hw_descr *hwdescr = descr->hwdescr;
u32 hw_buf_addr;
int status;
status = spider_net_get_descr_status(hwdescr);
/* Nothing in the descriptor, or ring must be empty */
if ((status == SPIDER_NET_DESCR_CARDOWNED) ||
(status == SPIDER_NET_DESCR_NOT_IN_USE))
return 0;
/* descriptor definitively used -- move on tail */
chain->tail = descr->next;
/* unmap descriptor */
hw_buf_addr = hwdescr->buf_addr;
hwdescr->buf_addr = 0xffffffff;
pci_unmap_single(card->pdev, hw_buf_addr,
SPIDER_NET_MAX_FRAME, PCI_DMA_FROMDEVICE);
if ( (status == SPIDER_NET_DESCR_RESPONSE_ERROR) ||
(status == SPIDER_NET_DESCR_PROTECTION_ERROR) ||
(status == SPIDER_NET_DESCR_FORCE_END) ) {
if (netif_msg_rx_err(card))
dev_err(&dev->dev,
"dropping RX descriptor with state %d\n", status);
dev->stats.rx_dropped++;
goto bad_desc;
}
if ( (status != SPIDER_NET_DESCR_COMPLETE) &&
(status != SPIDER_NET_DESCR_FRAME_END) ) {
if (netif_msg_rx_err(card))
dev_err(&card->netdev->dev,
"RX descriptor with unknown state %d\n", status);
card->spider_stats.rx_desc_unk_state++;
goto bad_desc;
}
/* The cases we'll throw away the packet immediately */
if (hwdescr->data_error & SPIDER_NET_DESTROY_RX_FLAGS) {
if (netif_msg_rx_err(card))
dev_err(&card->netdev->dev,
"error in received descriptor found, "
"data_status=x%08x, data_error=x%08x\n",
hwdescr->data_status, hwdescr->data_error);
goto bad_desc;
}
if (hwdescr->dmac_cmd_status & SPIDER_NET_DESCR_BAD_STATUS) {
dev_err(&card->netdev->dev, "bad status, cmd_status=x%08x\n",
hwdescr->dmac_cmd_status);
pr_err("buf_addr=x%08x\n", hw_buf_addr);
pr_err("buf_size=x%08x\n", hwdescr->buf_size);
pr_err("next_descr_addr=x%08x\n", hwdescr->next_descr_addr);
pr_err("result_size=x%08x\n", hwdescr->result_size);
pr_err("valid_size=x%08x\n", hwdescr->valid_size);
pr_err("data_status=x%08x\n", hwdescr->data_status);
pr_err("data_error=x%08x\n", hwdescr->data_error);
pr_err("which=%ld\n", descr - card->rx_chain.ring);
card->spider_stats.rx_desc_error++;
goto bad_desc;
}
/* Ok, we've got a packet in descr */
spider_net_pass_skb_up(descr, card);
descr->skb = NULL;
hwdescr->dmac_cmd_status = SPIDER_NET_DESCR_NOT_IN_USE;
return 1;
bad_desc:
if (netif_msg_rx_err(card))
show_rx_chain(card);
dev_kfree_skb_irq(descr->skb);
descr->skb = NULL;
hwdescr->dmac_cmd_status = SPIDER_NET_DESCR_NOT_IN_USE;
return 0;
}
/**
* spider_net_poll - NAPI poll function called by the stack to return packets
* @napi: napi device structure
* @budget: number of packets we can pass to the stack at most
*
* returns 0 if no more packets available to the driver/stack. Returns 1,
* if the quota is exceeded, but the driver has still packets.
*
* spider_net_poll returns all packets from the rx descriptors to the stack
* (using netif_receive_skb). If all/enough packets are up, the driver
* reenables interrupts and returns 0. If not, 1 is returned.
*/
static int spider_net_poll(struct napi_struct *napi, int budget)
{
struct spider_net_card *card = container_of(napi, struct spider_net_card, napi);
int packets_done = 0;
while (packets_done < budget) {
if (!spider_net_decode_one_descr(card))
break;
packets_done++;
}
if ((packets_done == 0) && (card->num_rx_ints != 0)) {
if (!spider_net_resync_tail_ptr(card))
packets_done = budget;
spider_net_resync_head_ptr(card);
}
card->num_rx_ints = 0;
spider_net_refill_rx_chain(card);
spider_net_enable_rxdmac(card);
spider_net_cleanup_tx_ring(&card->tx_timer);
/* if all packets are in the stack, enable interrupts and return 0 */
/* if not, return 1 */
if (packets_done < budget) {
napi_complete_done(napi, packets_done);
spider_net_rx_irq_on(card);
card->ignore_rx_ramfull = 0;
}
return packets_done;
}
/**
* spider_net_set_mac - sets the MAC of an interface
* @netdev: interface device structure
* @p: pointer to new MAC address
*
* Returns 0 on success, <0 on failure. Currently, we don't support this
* and will always return EOPNOTSUPP.
*/
static int
spider_net_set_mac(struct net_device *netdev, void *p)
{
struct spider_net_card *card = netdev_priv(netdev);
u32 macl, macu, regvalue;
struct sockaddr *addr = p;
if (!is_valid_ether_addr(addr->sa_data))
return -EADDRNOTAVAIL;
memcpy(netdev->dev_addr, addr->sa_data, ETH_ALEN);
/* switch off GMACTPE and GMACRPE */
regvalue = spider_net_read_reg(card, SPIDER_NET_GMACOPEMD);
regvalue &= ~((1 << 5) | (1 << 6));
spider_net_write_reg(card, SPIDER_NET_GMACOPEMD, regvalue);
/* write mac */
macu = (netdev->dev_addr[0]<<24) + (netdev->dev_addr[1]<<16) +
(netdev->dev_addr[2]<<8) + (netdev->dev_addr[3]);
macl = (netdev->dev_addr[4]<<8) + (netdev->dev_addr[5]);
spider_net_write_reg(card, SPIDER_NET_GMACUNIMACU, macu);
spider_net_write_reg(card, SPIDER_NET_GMACUNIMACL, macl);
/* switch GMACTPE and GMACRPE back on */
regvalue = spider_net_read_reg(card, SPIDER_NET_GMACOPEMD);
regvalue |= ((1 << 5) | (1 << 6));
spider_net_write_reg(card, SPIDER_NET_GMACOPEMD, regvalue);
spider_net_set_promisc(card);
return 0;
}
/**
* spider_net_link_reset
* @netdev: net device structure
*
* This is called when the PHY_LINK signal is asserted. For the blade this is
* not connected so we should never get here.
*
*/
static void
spider_net_link_reset(struct net_device *netdev)
{
struct spider_net_card *card = netdev_priv(netdev);
del_timer_sync(&card->aneg_timer);
/* clear interrupt, block further interrupts */
spider_net_write_reg(card, SPIDER_NET_GMACST,
spider_net_read_reg(card, SPIDER_NET_GMACST));
spider_net_write_reg(card, SPIDER_NET_GMACINTEN, 0);
/* reset phy and setup aneg */
card->aneg_count = 0;
card->medium = BCM54XX_COPPER;
spider_net_setup_aneg(card);
mod_timer(&card->aneg_timer, jiffies + SPIDER_NET_ANEG_TIMER);
}
/**
* spider_net_handle_error_irq - handles errors raised by an interrupt
* @card: card structure
* @status_reg: interrupt status register 0 (GHIINT0STS)
* @error_reg1: interrupt status register 1 (GHIINT1STS)
* @error_reg2: interrupt status register 2 (GHIINT2STS)
*
* spider_net_handle_error_irq treats or ignores all error conditions
* found when an interrupt is presented
*/
static void
spider_net_handle_error_irq(struct spider_net_card *card, u32 status_reg,
u32 error_reg1, u32 error_reg2)
{
u32 i;
int show_error = 1;
/* check GHIINT0STS ************************************/
if (status_reg)
for (i = 0; i < 32; i++)
if (status_reg & (1<<i))
switch (i)
{
/* let error_reg1 and error_reg2 evaluation decide, what to do
case SPIDER_NET_PHYINT:
case SPIDER_NET_GMAC2INT:
case SPIDER_NET_GMAC1INT:
case SPIDER_NET_GFIFOINT:
case SPIDER_NET_DMACINT:
case SPIDER_NET_GSYSINT:
break; */
case SPIDER_NET_GIPSINT:
show_error = 0;
break;
case SPIDER_NET_GPWOPCMPINT:
/* PHY write operation completed */
show_error = 0;
break;
case SPIDER_NET_GPROPCMPINT:
/* PHY read operation completed */
/* we don't use semaphores, as we poll for the completion
* of the read operation in spider_net_read_phy. Should take
* about 50 us
*/
show_error = 0;
break;
case SPIDER_NET_GPWFFINT:
/* PHY command queue full */
if (netif_msg_intr(card))
dev_err(&card->netdev->dev, "PHY write queue full\n");
show_error = 0;
break;
/* case SPIDER_NET_GRMDADRINT: not used. print a message */
/* case SPIDER_NET_GRMARPINT: not used. print a message */
/* case SPIDER_NET_GRMMPINT: not used. print a message */
case SPIDER_NET_GDTDEN0INT:
/* someone has set TX_DMA_EN to 0 */
show_error = 0;
break;
case SPIDER_NET_GDDDEN0INT:
case SPIDER_NET_GDCDEN0INT:
case SPIDER_NET_GDBDEN0INT:
case SPIDER_NET_GDADEN0INT:
/* someone has set RX_DMA_EN to 0 */
show_error = 0;
break;
/* RX interrupts */
case SPIDER_NET_GDDFDCINT:
case SPIDER_NET_GDCFDCINT:
case SPIDER_NET_GDBFDCINT:
case SPIDER_NET_GDAFDCINT:
/* case SPIDER_NET_GDNMINT: not used. print a message */
/* case SPIDER_NET_GCNMINT: not used. print a message */
/* case SPIDER_NET_GBNMINT: not used. print a message */
/* case SPIDER_NET_GANMINT: not used. print a message */
/* case SPIDER_NET_GRFNMINT: not used. print a message */
show_error = 0;
break;
/* TX interrupts */
case SPIDER_NET_GDTFDCINT:
show_error = 0;
break;
case SPIDER_NET_GTTEDINT:
show_error = 0;
break;
case SPIDER_NET_GDTDCEINT:
/* chain end. If a descriptor should be sent, kick off
* tx dma
if (card->tx_chain.tail != card->tx_chain.head)
spider_net_kick_tx_dma(card);
*/
show_error = 0;
break;
/* case SPIDER_NET_G1TMCNTINT: not used. print a message */
/* case SPIDER_NET_GFREECNTINT: not used. print a message */
}
/* check GHIINT1STS ************************************/
if (error_reg1)
for (i = 0; i < 32; i++)
if (error_reg1 & (1<<i))
switch (i)
{
case SPIDER_NET_GTMFLLINT:
/* TX RAM full may happen on a usual case.
* Logging is not needed.
*/
show_error = 0;
break;
case SPIDER_NET_GRFDFLLINT:
case SPIDER_NET_GRFCFLLINT:
case SPIDER_NET_GRFBFLLINT:
case SPIDER_NET_GRFAFLLINT:
case SPIDER_NET_GRMFLLINT:
/* Could happen when rx chain is full */
if (card->ignore_rx_ramfull == 0) {
card->ignore_rx_ramfull = 1;
spider_net_resync_head_ptr(card);
spider_net_refill_rx_chain(card);
spider_net_enable_rxdmac(card);
card->num_rx_ints ++;
napi_schedule(&card->napi);
}
show_error = 0;
break;
/* case SPIDER_NET_GTMSHTINT: problem, print a message */
case SPIDER_NET_GDTINVDINT:
/* allrighty. tx from previous descr ok */
show_error = 0;
break;
/* chain end */
case SPIDER_NET_GDDDCEINT:
case SPIDER_NET_GDCDCEINT:
case SPIDER_NET_GDBDCEINT:
case SPIDER_NET_GDADCEINT:
spider_net_resync_head_ptr(card);
spider_net_refill_rx_chain(card);
spider_net_enable_rxdmac(card);
card->num_rx_ints ++;
napi_schedule(&card->napi);
show_error = 0;
break;
/* invalid descriptor */
case SPIDER_NET_GDDINVDINT:
case SPIDER_NET_GDCINVDINT:
case SPIDER_NET_GDBINVDINT:
case SPIDER_NET_GDAINVDINT:
/* Could happen when rx chain is full */
spider_net_resync_head_ptr(card);
spider_net_refill_rx_chain(card);
spider_net_enable_rxdmac(card);
card->num_rx_ints ++;
napi_schedule(&card->napi);
show_error = 0;
break;
/* case SPIDER_NET_GDTRSERINT: problem, print a message */
/* case SPIDER_NET_GDDRSERINT: problem, print a message */
/* case SPIDER_NET_GDCRSERINT: problem, print a message */
/* case SPIDER_NET_GDBRSERINT: problem, print a message */
/* case SPIDER_NET_GDARSERINT: problem, print a message */
/* case SPIDER_NET_GDSERINT: problem, print a message */
/* case SPIDER_NET_GDTPTERINT: problem, print a message */
/* case SPIDER_NET_GDDPTERINT: problem, print a message */
/* case SPIDER_NET_GDCPTERINT: problem, print a message */
/* case SPIDER_NET_GDBPTERINT: problem, print a message */
/* case SPIDER_NET_GDAPTERINT: problem, print a message */
default:
show_error = 1;
break;
}
/* check GHIINT2STS ************************************/
if (error_reg2)
for (i = 0; i < 32; i++)
if (error_reg2 & (1<<i))
switch (i)
{
/* there is nothing we can (want to) do at this time. Log a
* message, we can switch on and off the specific values later on
case SPIDER_NET_GPROPERINT:
case SPIDER_NET_GMCTCRSNGINT:
case SPIDER_NET_GMCTLCOLINT:
case SPIDER_NET_GMCTTMOTINT:
case SPIDER_NET_GMCRCAERINT:
case SPIDER_NET_GMCRCALERINT:
case SPIDER_NET_GMCRALNERINT:
case SPIDER_NET_GMCROVRINT:
case SPIDER_NET_GMCRRNTINT:
case SPIDER_NET_GMCRRXERINT:
case SPIDER_NET_GTITCSERINT:
case SPIDER_NET_GTIFMTERINT:
case SPIDER_NET_GTIPKTRVKINT:
case SPIDER_NET_GTISPINGINT:
case SPIDER_NET_GTISADNGINT:
case SPIDER_NET_GTISPDNGINT:
case SPIDER_NET_GRIFMTERINT:
case SPIDER_NET_GRIPKTRVKINT:
case SPIDER_NET_GRISPINGINT:
case SPIDER_NET_GRISADNGINT:
case SPIDER_NET_GRISPDNGINT:
break;
*/
default:
break;
}
if ((show_error) && (netif_msg_intr(card)) && net_ratelimit())
dev_err(&card->netdev->dev, "Error interrupt, GHIINT0STS = 0x%08x, "
"GHIINT1STS = 0x%08x, GHIINT2STS = 0x%08x\n",
status_reg, error_reg1, error_reg2);
/* clear interrupt sources */
spider_net_write_reg(card, SPIDER_NET_GHIINT1STS, error_reg1);
spider_net_write_reg(card, SPIDER_NET_GHIINT2STS, error_reg2);
}
/**
* spider_net_interrupt - interrupt handler for spider_net
* @irq: interrupt number
* @ptr: pointer to net_device
*
* returns IRQ_HANDLED, if interrupt was for driver, or IRQ_NONE, if no
* interrupt found raised by card.
*
* This is the interrupt handler, that turns off
* interrupts for this device and makes the stack poll the driver
*/
static irqreturn_t
spider_net_interrupt(int irq, void *ptr)
{
struct net_device *netdev = ptr;
struct spider_net_card *card = netdev_priv(netdev);
u32 status_reg, error_reg1, error_reg2;
status_reg = spider_net_read_reg(card, SPIDER_NET_GHIINT0STS);
error_reg1 = spider_net_read_reg(card, SPIDER_NET_GHIINT1STS);
error_reg2 = spider_net_read_reg(card, SPIDER_NET_GHIINT2STS);
if (!(status_reg & SPIDER_NET_INT0_MASK_VALUE) &&
!(error_reg1 & SPIDER_NET_INT1_MASK_VALUE) &&
!(error_reg2 & SPIDER_NET_INT2_MASK_VALUE))
return IRQ_NONE;
if (status_reg & SPIDER_NET_RXINT ) {
spider_net_rx_irq_off(card);
napi_schedule(&card->napi);
card->num_rx_ints ++;
}
if (status_reg & SPIDER_NET_TXINT)
napi_schedule(&card->napi);
if (status_reg & SPIDER_NET_LINKINT)
spider_net_link_reset(netdev);
if (status_reg & SPIDER_NET_ERRINT )
spider_net_handle_error_irq(card, status_reg,
error_reg1, error_reg2);
/* clear interrupt sources */
spider_net_write_reg(card, SPIDER_NET_GHIINT0STS, status_reg);
return IRQ_HANDLED;
}
#ifdef CONFIG_NET_POLL_CONTROLLER
/**
* spider_net_poll_controller - artificial interrupt for netconsole etc.
* @netdev: interface device structure
*
* see Documentation/networking/netconsole.rst
*/
static void
spider_net_poll_controller(struct net_device *netdev)
{
disable_irq(netdev->irq);
spider_net_interrupt(netdev->irq, netdev);
enable_irq(netdev->irq);
}
#endif /* CONFIG_NET_POLL_CONTROLLER */
/**
* spider_net_enable_interrupts - enable interrupts
* @card: card structure
*
* spider_net_enable_interrupt enables several interrupts
*/
static void
spider_net_enable_interrupts(struct spider_net_card *card)
{
spider_net_write_reg(card, SPIDER_NET_GHIINT0MSK,
SPIDER_NET_INT0_MASK_VALUE);
spider_net_write_reg(card, SPIDER_NET_GHIINT1MSK,
SPIDER_NET_INT1_MASK_VALUE);
spider_net_write_reg(card, SPIDER_NET_GHIINT2MSK,
SPIDER_NET_INT2_MASK_VALUE);
}
/**
* spider_net_disable_interrupts - disable interrupts
* @card: card structure
*
* spider_net_disable_interrupts disables all the interrupts
*/
static void
spider_net_disable_interrupts(struct spider_net_card *card)
{
spider_net_write_reg(card, SPIDER_NET_GHIINT0MSK, 0);
spider_net_write_reg(card, SPIDER_NET_GHIINT1MSK, 0);
spider_net_write_reg(card, SPIDER_NET_GHIINT2MSK, 0);
spider_net_write_reg(card, SPIDER_NET_GMACINTEN, 0);
}
/**
* spider_net_init_card - initializes the card
* @card: card structure
*
* spider_net_init_card initializes the card so that other registers can
* be used
*/
static void
spider_net_init_card(struct spider_net_card *card)
{
spider_net_write_reg(card, SPIDER_NET_CKRCTRL,
SPIDER_NET_CKRCTRL_STOP_VALUE);
spider_net_write_reg(card, SPIDER_NET_CKRCTRL,
SPIDER_NET_CKRCTRL_RUN_VALUE);
/* trigger ETOMOD signal */
spider_net_write_reg(card, SPIDER_NET_GMACOPEMD,
spider_net_read_reg(card, SPIDER_NET_GMACOPEMD) | 0x4);
spider_net_disable_interrupts(card);
}
/**
* spider_net_enable_card - enables the card by setting all kinds of regs
* @card: card structure
*
* spider_net_enable_card sets a lot of SMMIO registers to enable the device
*/
static void
spider_net_enable_card(struct spider_net_card *card)
{
int i;
/* the following array consists of (register),(value) pairs
* that are set in this function. A register of 0 ends the list
*/
u32 regs[][2] = {
{ SPIDER_NET_GRESUMINTNUM, 0 },
{ SPIDER_NET_GREINTNUM, 0 },
/* set interrupt frame number registers */
/* clear the single DMA engine registers first */
{ SPIDER_NET_GFAFRMNUM, SPIDER_NET_GFXFRAMES_VALUE },
{ SPIDER_NET_GFBFRMNUM, SPIDER_NET_GFXFRAMES_VALUE },
{ SPIDER_NET_GFCFRMNUM, SPIDER_NET_GFXFRAMES_VALUE },
{ SPIDER_NET_GFDFRMNUM, SPIDER_NET_GFXFRAMES_VALUE },
/* then set, what we really need */
{ SPIDER_NET_GFFRMNUM, SPIDER_NET_FRAMENUM_VALUE },
/* timer counter registers and stuff */
{ SPIDER_NET_GFREECNNUM, 0 },
{ SPIDER_NET_GONETIMENUM, 0 },
{ SPIDER_NET_GTOUTFRMNUM, 0 },
/* RX mode setting */
{ SPIDER_NET_GRXMDSET, SPIDER_NET_RXMODE_VALUE },
/* TX mode setting */
{ SPIDER_NET_GTXMDSET, SPIDER_NET_TXMODE_VALUE },
/* IPSEC mode setting */
{ SPIDER_NET_GIPSECINIT, SPIDER_NET_IPSECINIT_VALUE },
{ SPIDER_NET_GFTRESTRT, SPIDER_NET_RESTART_VALUE },
{ SPIDER_NET_GMRWOLCTRL, 0 },
{ SPIDER_NET_GTESTMD, 0x10000000 },
{ SPIDER_NET_GTTQMSK, 0x00400040 },
{ SPIDER_NET_GMACINTEN, 0 },
/* flow control stuff */
{ SPIDER_NET_GMACAPAUSE, SPIDER_NET_MACAPAUSE_VALUE },
{ SPIDER_NET_GMACTXPAUSE, SPIDER_NET_TXPAUSE_VALUE },
{ SPIDER_NET_GMACBSTLMT, SPIDER_NET_BURSTLMT_VALUE },
{ 0, 0}
};
i = 0;
while (regs[i][0]) {
spider_net_write_reg(card, regs[i][0], regs[i][1]);
i++;
}
/* clear unicast filter table entries 1 to 14 */
for (i = 1; i <= 14; i++) {
spider_net_write_reg(card,
SPIDER_NET_GMRUAFILnR + i * 8,
0x00080000);
spider_net_write_reg(card,
SPIDER_NET_GMRUAFILnR + i * 8 + 4,
0x00000000);
}
spider_net_write_reg(card, SPIDER_NET_GMRUA0FIL15R, 0x08080000);
spider_net_write_reg(card, SPIDER_NET_ECMODE, SPIDER_NET_ECMODE_VALUE);
/* set chain tail address for RX chains and
* enable DMA
*/
spider_net_enable_rxchtails(card);
spider_net_enable_rxdmac(card);
spider_net_write_reg(card, SPIDER_NET_GRXDMAEN, SPIDER_NET_WOL_VALUE);
spider_net_write_reg(card, SPIDER_NET_GMACLENLMT,
SPIDER_NET_LENLMT_VALUE);
spider_net_write_reg(card, SPIDER_NET_GMACOPEMD,
SPIDER_NET_OPMODE_VALUE);
spider_net_write_reg(card, SPIDER_NET_GDTDMACCNTR,
SPIDER_NET_GDTBSTA);
}
/**
* spider_net_download_firmware - loads firmware into the adapter
* @card: card structure
* @firmware_ptr: pointer to firmware data
*
* spider_net_download_firmware loads the firmware data into the
* adapter. It assumes the length etc. to be allright.
*/
static int
spider_net_download_firmware(struct spider_net_card *card,
const void *firmware_ptr)
{
int sequencer, i;
const u32 *fw_ptr = firmware_ptr;
/* stop sequencers */
spider_net_write_reg(card, SPIDER_NET_GSINIT,
SPIDER_NET_STOP_SEQ_VALUE);
for (sequencer = 0; sequencer < SPIDER_NET_FIRMWARE_SEQS;
sequencer++) {
spider_net_write_reg(card,
SPIDER_NET_GSnPRGADR + sequencer * 8, 0);
for (i = 0; i < SPIDER_NET_FIRMWARE_SEQWORDS; i++) {
spider_net_write_reg(card, SPIDER_NET_GSnPRGDAT +
sequencer * 8, *fw_ptr);
fw_ptr++;
}
}
if (spider_net_read_reg(card, SPIDER_NET_GSINIT))
return -EIO;
spider_net_write_reg(card, SPIDER_NET_GSINIT,
SPIDER_NET_RUN_SEQ_VALUE);
return 0;
}
/**
* spider_net_init_firmware - reads in firmware parts
* @card: card structure
*
* Returns 0 on success, <0 on failure
*
* spider_net_init_firmware opens the sequencer firmware and does some basic
* checks. This function opens and releases the firmware structure. A call
* to download the firmware is performed before the release.
*
* Firmware format
* ===============
* spider_fw.bin is expected to be a file containing 6*1024*4 bytes, 4k being
* the program for each sequencer. Use the command
* tail -q -n +2 Seq_code1_0x088.txt Seq_code2_0x090.txt \
* Seq_code3_0x098.txt Seq_code4_0x0A0.txt Seq_code5_0x0A8.txt \
* Seq_code6_0x0B0.txt | xxd -r -p -c4 > spider_fw.bin
*
* to generate spider_fw.bin, if you have sequencer programs with something
* like the following contents for each sequencer:
* <ONE LINE COMMENT>
* <FIRST 4-BYTES-WORD FOR SEQUENCER>
* <SECOND 4-BYTES-WORD FOR SEQUENCER>
* ...
* <1024th 4-BYTES-WORD FOR SEQUENCER>
*/
static int
spider_net_init_firmware(struct spider_net_card *card)
{
struct firmware *firmware = NULL;
struct device_node *dn;
const u8 *fw_prop = NULL;
int err = -ENOENT;
int fw_size;
if (request_firmware((const struct firmware **)&firmware,
SPIDER_NET_FIRMWARE_NAME, &card->pdev->dev) == 0) {
if ( (firmware->size != SPIDER_NET_FIRMWARE_LEN) &&
netif_msg_probe(card) ) {
dev_err(&card->netdev->dev,
"Incorrect size of spidernet firmware in " \
"filesystem. Looking in host firmware...\n");
goto try_host_fw;
}
err = spider_net_download_firmware(card, firmware->data);
release_firmware(firmware);
if (err)
goto try_host_fw;
goto done;
}
try_host_fw:
dn = pci_device_to_OF_node(card->pdev);
if (!dn)
goto out_err;
fw_prop = of_get_property(dn, "firmware", &fw_size);
if (!fw_prop)
goto out_err;
if ( (fw_size != SPIDER_NET_FIRMWARE_LEN) &&
netif_msg_probe(card) ) {
dev_err(&card->netdev->dev,
"Incorrect size of spidernet firmware in host firmware\n");
goto done;
}
err = spider_net_download_firmware(card, fw_prop);
done:
return err;
out_err:
if (netif_msg_probe(card))
dev_err(&card->netdev->dev,
"Couldn't find spidernet firmware in filesystem " \
"or host firmware\n");
return err;
}
/**
* spider_net_open - called upon ifonfig up
* @netdev: interface device structure
*
* returns 0 on success, <0 on failure
*
* spider_net_open allocates all the descriptors and memory needed for
* operation, sets up multicast list and enables interrupts
*/
int
spider_net_open(struct net_device *netdev)
{
struct spider_net_card *card = netdev_priv(netdev);
int result;
result = spider_net_init_firmware(card);
if (result)
goto init_firmware_failed;
/* start probing with copper */
card->aneg_count = 0;
card->medium = BCM54XX_COPPER;
spider_net_setup_aneg(card);
if (card->phy.def->phy_id)
mod_timer(&card->aneg_timer, jiffies + SPIDER_NET_ANEG_TIMER);
result = spider_net_init_chain(card, &card->tx_chain);
if (result)
goto alloc_tx_failed;
card->low_watermark = NULL;
result = spider_net_init_chain(card, &card->rx_chain);
if (result)
goto alloc_rx_failed;
/* Allocate rx skbs */
result = spider_net_alloc_rx_skbs(card);
if (result)
goto alloc_skbs_failed;
spider_net_set_multi(netdev);
/* further enhancement: setup hw vlan, if needed */
result = -EBUSY;
if (request_irq(netdev->irq, spider_net_interrupt,
IRQF_SHARED, netdev->name, netdev))
goto register_int_failed;
spider_net_enable_card(card);
netif_start_queue(netdev);
netif_carrier_on(netdev);
napi_enable(&card->napi);
spider_net_enable_interrupts(card);
return 0;
register_int_failed:
spider_net_free_rx_chain_contents(card);
alloc_skbs_failed:
spider_net_free_chain(card, &card->rx_chain);
alloc_rx_failed:
spider_net_free_chain(card, &card->tx_chain);
alloc_tx_failed:
del_timer_sync(&card->aneg_timer);
init_firmware_failed:
return result;
}
/**
* spider_net_link_phy
* @t: timer context used to obtain the pointer to net card data structure
*/
static void spider_net_link_phy(struct timer_list *t)
{
struct spider_net_card *card = from_timer(card, t, aneg_timer);
struct mii_phy *phy = &card->phy;
/* if link didn't come up after SPIDER_NET_ANEG_TIMEOUT tries, setup phy again */
if (card->aneg_count > SPIDER_NET_ANEG_TIMEOUT) {
pr_debug("%s: link is down trying to bring it up\n",
card->netdev->name);
switch (card->medium) {
case BCM54XX_COPPER:
/* enable fiber with autonegotiation first */
if (phy->def->ops->enable_fiber)
phy->def->ops->enable_fiber(phy, 1);
card->medium = BCM54XX_FIBER;
break;
case BCM54XX_FIBER:
/* fiber didn't come up, try to disable fiber autoneg */
if (phy->def->ops->enable_fiber)
phy->def->ops->enable_fiber(phy, 0);
card->medium = BCM54XX_UNKNOWN;
break;
case BCM54XX_UNKNOWN:
/* copper, fiber with and without failed,
* retry from beginning
*/
spider_net_setup_aneg(card);
card->medium = BCM54XX_COPPER;
break;
}
card->aneg_count = 0;
mod_timer(&card->aneg_timer, jiffies + SPIDER_NET_ANEG_TIMER);
return;
}
/* link still not up, try again later */
if (!(phy->def->ops->poll_link(phy))) {
card->aneg_count++;
mod_timer(&card->aneg_timer, jiffies + SPIDER_NET_ANEG_TIMER);
return;
}
/* link came up, get abilities */
phy->def->ops->read_link(phy);
spider_net_write_reg(card, SPIDER_NET_GMACST,
spider_net_read_reg(card, SPIDER_NET_GMACST));
spider_net_write_reg(card, SPIDER_NET_GMACINTEN, 0x4);
if (phy->speed == 1000)
spider_net_write_reg(card, SPIDER_NET_GMACMODE, 0x00000001);
else
spider_net_write_reg(card, SPIDER_NET_GMACMODE, 0);
card->aneg_count = 0;
pr_info("%s: link up, %i Mbps, %s-duplex %sautoneg.\n",
card->netdev->name, phy->speed,
phy->duplex == 1 ? "Full" : "Half",
phy->autoneg == 1 ? "" : "no ");
}
/**
* spider_net_setup_phy - setup PHY
* @card: card structure
*
* returns 0 on success, <0 on failure
*
* spider_net_setup_phy is used as part of spider_net_probe.
**/
static int
spider_net_setup_phy(struct spider_net_card *card)
{
struct mii_phy *phy = &card->phy;
spider_net_write_reg(card, SPIDER_NET_GDTDMASEL,
SPIDER_NET_DMASEL_VALUE);
spider_net_write_reg(card, SPIDER_NET_GPCCTRL,
SPIDER_NET_PHY_CTRL_VALUE);
phy->dev = card->netdev;
phy->mdio_read = spider_net_read_phy;
phy->mdio_write = spider_net_write_phy;
for (phy->mii_id = 1; phy->mii_id <= 31; phy->mii_id++) {
unsigned short id;
id = spider_net_read_phy(card->netdev, phy->mii_id, MII_BMSR);
if (id != 0x0000 && id != 0xffff) {
if (!sungem_phy_probe(phy, phy->mii_id)) {
pr_info("Found %s.\n", phy->def->name);
break;
}
}
}
return 0;
}
/**
* spider_net_workaround_rxramfull - work around firmware bug
* @card: card structure
*
* no return value
**/
static void
spider_net_workaround_rxramfull(struct spider_net_card *card)
{
int i, sequencer = 0;
/* cancel reset */
spider_net_write_reg(card, SPIDER_NET_CKRCTRL,
SPIDER_NET_CKRCTRL_RUN_VALUE);
/* empty sequencer data */
for (sequencer = 0; sequencer < SPIDER_NET_FIRMWARE_SEQS;
sequencer++) {
spider_net_write_reg(card, SPIDER_NET_GSnPRGADR +
sequencer * 8, 0x0);
for (i = 0; i < SPIDER_NET_FIRMWARE_SEQWORDS; i++) {
spider_net_write_reg(card, SPIDER_NET_GSnPRGDAT +
sequencer * 8, 0x0);
}
}
/* set sequencer operation */
spider_net_write_reg(card, SPIDER_NET_GSINIT, 0x000000fe);
/* reset */
spider_net_write_reg(card, SPIDER_NET_CKRCTRL,
SPIDER_NET_CKRCTRL_STOP_VALUE);
}
/**
* spider_net_stop - called upon ifconfig down
* @netdev: interface device structure
*
* always returns 0
*/
int
spider_net_stop(struct net_device *netdev)
{
struct spider_net_card *card = netdev_priv(netdev);
napi_disable(&card->napi);
netif_carrier_off(netdev);
netif_stop_queue(netdev);
del_timer_sync(&card->tx_timer);
del_timer_sync(&card->aneg_timer);
spider_net_disable_interrupts(card);
free_irq(netdev->irq, netdev);
spider_net_write_reg(card, SPIDER_NET_GDTDMACCNTR,
SPIDER_NET_DMA_TX_FEND_VALUE);
/* turn off DMA, force end */
spider_net_disable_rxdmac(card);
/* release chains */
spider_net_release_tx_chain(card, 1);
spider_net_free_rx_chain_contents(card);
spider_net_free_chain(card, &card->tx_chain);
spider_net_free_chain(card, &card->rx_chain);
return 0;
}
/**
* spider_net_tx_timeout_task - task scheduled by the watchdog timeout
* function (to be called not under interrupt status)
* @work: work context used to obtain the pointer to net card data structure
*
* called as task when tx hangs, resets interface (if interface is up)
*/
static void
spider_net_tx_timeout_task(struct work_struct *work)
{
struct spider_net_card *card =
container_of(work, struct spider_net_card, tx_timeout_task);
struct net_device *netdev = card->netdev;
if (!(netdev->flags & IFF_UP))
goto out;
netif_device_detach(netdev);
spider_net_stop(netdev);
spider_net_workaround_rxramfull(card);
spider_net_init_card(card);
if (spider_net_setup_phy(card))
goto out;
spider_net_open(netdev);
spider_net_kick_tx_dma(card);
netif_device_attach(netdev);
out:
atomic_dec(&card->tx_timeout_task_counter);
}
/**
* spider_net_tx_timeout - called when the tx timeout watchdog kicks in.
* @netdev: interface device structure
* @txqueue: unused
*
* called, if tx hangs. Schedules a task that resets the interface
*/
static void
spider_net_tx_timeout(struct net_device *netdev, unsigned int txqueue)
{
struct spider_net_card *card;
card = netdev_priv(netdev);
atomic_inc(&card->tx_timeout_task_counter);
if (netdev->flags & IFF_UP)
schedule_work(&card->tx_timeout_task);
else
atomic_dec(&card->tx_timeout_task_counter);
card->spider_stats.tx_timeouts++;
}
static const struct net_device_ops spider_net_ops = {
.ndo_open = spider_net_open,
.ndo_stop = spider_net_stop,
.ndo_start_xmit = spider_net_xmit,
.ndo_set_rx_mode = spider_net_set_multi,
.ndo_set_mac_address = spider_net_set_mac,
.ndo_do_ioctl = spider_net_do_ioctl,
.ndo_tx_timeout = spider_net_tx_timeout,
.ndo_validate_addr = eth_validate_addr,
/* HW VLAN */
#ifdef CONFIG_NET_POLL_CONTROLLER
/* poll controller */
.ndo_poll_controller = spider_net_poll_controller,
#endif /* CONFIG_NET_POLL_CONTROLLER */
};
/**
* spider_net_setup_netdev_ops - initialization of net_device operations
* @netdev: net_device structure
*
* fills out function pointers in the net_device structure
*/
static void
spider_net_setup_netdev_ops(struct net_device *netdev)
{
netdev->netdev_ops = &spider_net_ops;
netdev->watchdog_timeo = SPIDER_NET_WATCHDOG_TIMEOUT;
/* ethtool ops */
netdev->ethtool_ops = &spider_net_ethtool_ops;
}
/**
* spider_net_setup_netdev - initialization of net_device
* @card: card structure
*
* Returns 0 on success or <0 on failure
*
* spider_net_setup_netdev initializes the net_device structure
**/
static int
spider_net_setup_netdev(struct spider_net_card *card)
{
int result;
struct net_device *netdev = card->netdev;
struct device_node *dn;
struct sockaddr addr;
const u8 *mac;
SET_NETDEV_DEV(netdev, &card->pdev->dev);
pci_set_drvdata(card->pdev, netdev);
timer_setup(&card->tx_timer, spider_net_cleanup_tx_ring, 0);
netdev->irq = card->pdev->irq;
card->aneg_count = 0;
timer_setup(&card->aneg_timer, spider_net_link_phy, 0);
netif_napi_add(netdev, &card->napi,
spider_net_poll, SPIDER_NET_NAPI_WEIGHT);
spider_net_setup_netdev_ops(netdev);
netdev->hw_features = NETIF_F_RXCSUM | NETIF_F_IP_CSUM;
if (SPIDER_NET_RX_CSUM_DEFAULT)
netdev->features |= NETIF_F_RXCSUM;
netdev->features |= NETIF_F_IP_CSUM | NETIF_F_LLTX;
/* some time: NETIF_F_HW_VLAN_CTAG_TX | NETIF_F_HW_VLAN_CTAG_RX |
* NETIF_F_HW_VLAN_CTAG_FILTER
*/
/* MTU range: 64 - 2294 */
netdev->min_mtu = SPIDER_NET_MIN_MTU;
netdev->max_mtu = SPIDER_NET_MAX_MTU;
netdev->irq = card->pdev->irq;
card->num_rx_ints = 0;
card->ignore_rx_ramfull = 0;
dn = pci_device_to_OF_node(card->pdev);
if (!dn)
return -EIO;
mac = of_get_property(dn, "local-mac-address", NULL);
if (!mac)
return -EIO;
memcpy(addr.sa_data, mac, ETH_ALEN);
result = spider_net_set_mac(netdev, &addr);
if ((result) && (netif_msg_probe(card)))
dev_err(&card->netdev->dev,
"Failed to set MAC address: %i\n", result);
result = register_netdev(netdev);
if (result) {
if (netif_msg_probe(card))
dev_err(&card->netdev->dev,
"Couldn't register net_device: %i\n", result);
return result;
}
if (netif_msg_probe(card))
pr_info("Initialized device %s.\n", netdev->name);
return 0;
}
/**
* spider_net_alloc_card - allocates net_device and card structure
*
* returns the card structure or NULL in case of errors
*
* the card and net_device structures are linked to each other
*/
static struct spider_net_card *
spider_net_alloc_card(void)
{
struct net_device *netdev;
struct spider_net_card *card;
netdev = alloc_etherdev(struct_size(card, darray,
tx_descriptors + rx_descriptors));
if (!netdev)
return NULL;
card = netdev_priv(netdev);
card->netdev = netdev;
card->msg_enable = SPIDER_NET_DEFAULT_MSG;
INIT_WORK(&card->tx_timeout_task, spider_net_tx_timeout_task);
init_waitqueue_head(&card->waitq);
atomic_set(&card->tx_timeout_task_counter, 0);
card->rx_chain.num_desc = rx_descriptors;
card->rx_chain.ring = card->darray;
card->tx_chain.num_desc = tx_descriptors;
card->tx_chain.ring = card->darray + rx_descriptors;
return card;
}
/**
* spider_net_undo_pci_setup - releases PCI ressources
* @card: card structure
*
* spider_net_undo_pci_setup releases the mapped regions
*/
static void
spider_net_undo_pci_setup(struct spider_net_card *card)
{
iounmap(card->regs);
pci_release_regions(card->pdev);
}
/**
* spider_net_setup_pci_dev - sets up the device in terms of PCI operations
* @pdev: PCI device
*
* Returns the card structure or NULL if any errors occur
*
* spider_net_setup_pci_dev initializes pdev and together with the
* functions called in spider_net_open configures the device so that
* data can be transferred over it
* The net_device structure is attached to the card structure, if the
* function returns without error.
**/
static struct spider_net_card *
spider_net_setup_pci_dev(struct pci_dev *pdev)
{
struct spider_net_card *card;
unsigned long mmio_start, mmio_len;
if (pci_enable_device(pdev)) {
dev_err(&pdev->dev, "Couldn't enable PCI device\n");
return NULL;
}
if (!(pci_resource_flags(pdev, 0) & IORESOURCE_MEM)) {
dev_err(&pdev->dev,
"Couldn't find proper PCI device base address.\n");
goto out_disable_dev;
}
if (pci_request_regions(pdev, spider_net_driver_name)) {
dev_err(&pdev->dev,
"Couldn't obtain PCI resources, aborting.\n");
goto out_disable_dev;
}
pci_set_master(pdev);
card = spider_net_alloc_card();
if (!card) {
dev_err(&pdev->dev,
"Couldn't allocate net_device structure, aborting.\n");
goto out_release_regions;
}
card->pdev = pdev;
/* fetch base address and length of first resource */
mmio_start = pci_resource_start(pdev, 0);
mmio_len = pci_resource_len(pdev, 0);
card->netdev->mem_start = mmio_start;
card->netdev->mem_end = mmio_start + mmio_len;
card->regs = ioremap(mmio_start, mmio_len);
if (!card->regs) {
dev_err(&pdev->dev,
"Couldn't obtain PCI resources, aborting.\n");
goto out_release_regions;
}
return card;
out_release_regions:
pci_release_regions(pdev);
out_disable_dev:
pci_disable_device(pdev);
return NULL;
}
/**
* spider_net_probe - initialization of a device
* @pdev: PCI device
* @ent: entry in the device id list
*
* Returns 0 on success, <0 on failure
*
* spider_net_probe initializes pdev and registers a net_device
* structure for it. After that, the device can be ifconfig'ed up
**/
static int
spider_net_probe(struct pci_dev *pdev, const struct pci_device_id *ent)
{
int err = -EIO;
struct spider_net_card *card;
card = spider_net_setup_pci_dev(pdev);
if (!card)
goto out;
spider_net_workaround_rxramfull(card);
spider_net_init_card(card);
err = spider_net_setup_phy(card);
if (err)
goto out_undo_pci;
err = spider_net_setup_netdev(card);
if (err)
goto out_undo_pci;
return 0;
out_undo_pci:
spider_net_undo_pci_setup(card);
free_netdev(card->netdev);
out:
return err;
}
/**
* spider_net_remove - removal of a device
* @pdev: PCI device
*
* Returns 0 on success, <0 on failure
*
* spider_net_remove is called to remove the device and unregisters the
* net_device
**/
static void
spider_net_remove(struct pci_dev *pdev)
{
struct net_device *netdev;
struct spider_net_card *card;
netdev = pci_get_drvdata(pdev);
card = netdev_priv(netdev);
wait_event(card->waitq,
atomic_read(&card->tx_timeout_task_counter) == 0);
unregister_netdev(netdev);
/* switch off card */
spider_net_write_reg(card, SPIDER_NET_CKRCTRL,
SPIDER_NET_CKRCTRL_STOP_VALUE);
spider_net_write_reg(card, SPIDER_NET_CKRCTRL,
SPIDER_NET_CKRCTRL_RUN_VALUE);
spider_net_undo_pci_setup(card);
free_netdev(netdev);
}
static struct pci_driver spider_net_driver = {
.name = spider_net_driver_name,
.id_table = spider_net_pci_tbl,
.probe = spider_net_probe,
.remove = spider_net_remove
};
/**
* spider_net_init - init function when the driver is loaded
*
* spider_net_init registers the device driver
*/
static int __init spider_net_init(void)
{
printk(KERN_INFO "Spidernet version %s.\n", VERSION);
if (rx_descriptors < SPIDER_NET_RX_DESCRIPTORS_MIN) {
rx_descriptors = SPIDER_NET_RX_DESCRIPTORS_MIN;
pr_info("adjusting rx descriptors to %i.\n", rx_descriptors);
}
if (rx_descriptors > SPIDER_NET_RX_DESCRIPTORS_MAX) {
rx_descriptors = SPIDER_NET_RX_DESCRIPTORS_MAX;
pr_info("adjusting rx descriptors to %i.\n", rx_descriptors);
}
if (tx_descriptors < SPIDER_NET_TX_DESCRIPTORS_MIN) {
tx_descriptors = SPIDER_NET_TX_DESCRIPTORS_MIN;
pr_info("adjusting tx descriptors to %i.\n", tx_descriptors);
}
if (tx_descriptors > SPIDER_NET_TX_DESCRIPTORS_MAX) {
tx_descriptors = SPIDER_NET_TX_DESCRIPTORS_MAX;
pr_info("adjusting tx descriptors to %i.\n", tx_descriptors);
}
return pci_register_driver(&spider_net_driver);
}
/**
* spider_net_cleanup - exit function when driver is unloaded
*
* spider_net_cleanup unregisters the device driver
*/
static void __exit spider_net_cleanup(void)
{
pci_unregister_driver(&spider_net_driver);
}
module_init(spider_net_init);
module_exit(spider_net_cleanup);
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