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2422 2423 2424 2425 2426 2427 2428 2429 2430 2431 2432 2433 2434 2435 2436 2437 2438 2439 2440 2441 2442 2443 2444 2445 2446 2447 2448 2449 2450 2451 2452 2453 2454 2455 2456 2457 2458 2459 2460 2461 2462 2463 2464 2465 2466 2467 2468 2469 2470 2471 2472 2473 2474 2475 2476 2477 2478 2479 2480 2481 2482 2483 2484 2485 2486 2487 2488 2489 2490 2491 2492 2493 2494 2495 2496 2497 2498 2499 2500 2501 2502 2503 2504 2505 2506 2507 2508 2509 2510 2511 2512 2513 2514 2515 2516 2517 2518 2519 2520 2521 2522 2523 2524 2525 2526 2527 2528 2529 2530 2531 2532 2533 2534 2535 2536 2537 2538 | // 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); |