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1422 1423 1424 1425 1426 1427 1428 1429 1430 1431 1432 1433 1434 1435 1436 1437 1438 1439 1440 1441 1442 1443 1444 1445 1446 1447 1448 1449 1450 1451 1452 1453 1454 1455 1456 1457 1458 1459 1460 1461 1462 1463 1464 1465 1466 1467 1468 1469 1470 1471 1472 1473 1474 1475 1476 1477 1478 1479 1480 1481 1482 1483 1484 1485 1486 1487 1488 1489 1490 1491 1492 1493 1494 1495 1496 1497 1498 1499 1500 1501 1502 1503 1504 1505 1506 1507 1508 1509 1510 1511 1512 1513 1514 1515 1516 1517 1518 1519 1520 1521 1522 1523 1524 1525 1526 1527 1528 1529 1530 1531 1532 1533 1534 1535 1536 1537 1538 1539 1540 1541 1542 1543 1544 1545 1546 1547 1548 1549 1550 1551 1552 1553 1554 1555 1556 1557 1558 1559 1560 1561 1562 1563 1564 1565 1566 1567 1568 1569 | /* * Copyright 2000, 2001 MontaVista Software Inc. * Author: MontaVista Software, Inc. * stevel@mvista.com or source@mvista.com * * This program is free software; you can distribute it and/or modify it * under the terms of the GNU General Public License (Version 2) as * published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 59 Temple Place - Suite 330, Boston MA 02111-1307, USA. * * Ethernet driver for the MIPS GT96100 Advanced Communication Controller. * * Revision history * * 11.11.2001 Moved to 2.4.14, ppopov@mvista.com. Modified driver to add * proper gt96100A support. * 12.05.2001 Moved eth port 0 to irq 3 (mapped to GT_SERINT0 on EV96100A) * in order for both ports to work. Also cleaned up boot * option support (mac address string parsing), fleshed out * gt96100_cleanup_module(), and other general code cleanups * <stevel@mvista.com>. */ #include <linux/module.h> #include <linux/kernel.h> #include <linux/string.h> #include <linux/timer.h> #include <linux/errno.h> #include <linux/in.h> #include <linux/ioport.h> #include <linux/slab.h> #include <linux/interrupt.h> #include <linux/pci.h> #include <linux/init.h> #include <linux/netdevice.h> #include <linux/etherdevice.h> #include <linux/skbuff.h> #include <linux/delay.h> #include <linux/ctype.h> #include <linux/bitops.h> #include <asm/irq.h> #include <asm/io.h> #define DESC_BE 1 #define DESC_DATA_BE 1 #define GT96100_DEBUG 2 #include "gt96100eth.h" // prototypes static void* dmaalloc(size_t size, dma_addr_t *dma_handle); static void dmafree(size_t size, void *vaddr); static void gt96100_delay(int msec); static int gt96100_add_hash_entry(struct net_device *dev, unsigned char* addr); static void read_mib_counters(struct gt96100_private *gp); static int read_MII(int phy_addr, u32 reg); static int write_MII(int phy_addr, u32 reg, u16 data); static int gt96100_init_module(void); static void gt96100_cleanup_module(void); static void dump_MII(int dbg_lvl, struct net_device *dev); static void dump_tx_desc(int dbg_lvl, struct net_device *dev, int i); static void dump_rx_desc(int dbg_lvl, struct net_device *dev, int i); static void dump_skb(int dbg_lvl, struct net_device *dev, struct sk_buff *skb); static void dump_hw_addr(int dbg_lvl, struct net_device *dev, const char* pfx, unsigned char* addr_str); static void update_stats(struct gt96100_private *gp); static void abort(struct net_device *dev, u32 abort_bits); static void hard_stop(struct net_device *dev); static void enable_ether_irq(struct net_device *dev); static void disable_ether_irq(struct net_device *dev); static int gt96100_probe1(struct pci_dev *pci, int port_num); static void reset_tx(struct net_device *dev); static void reset_rx(struct net_device *dev); static int gt96100_check_tx_consistent(struct gt96100_private *gp); static int gt96100_init(struct net_device *dev); static int gt96100_open(struct net_device *dev); static int gt96100_close(struct net_device *dev); static int gt96100_tx(struct sk_buff *skb, struct net_device *dev); static int gt96100_rx(struct net_device *dev, u32 status); static irqreturn_t gt96100_interrupt(int irq, void *dev_id, struct pt_regs *regs); static void gt96100_tx_timeout(struct net_device *dev); static void gt96100_set_rx_mode(struct net_device *dev); static struct net_device_stats* gt96100_get_stats(struct net_device *dev); extern char * __init prom_getcmdline(void); static int max_interrupt_work = 32; #define nibswap(x) ((((x) >> 4) & 0x0f) | (((x) << 4) & 0xf0)) #define RUN_AT(x) (jiffies + (x)) // For reading/writing 32-bit words and half-words from/to DMA memory #ifdef DESC_BE #define cpu_to_dma32 cpu_to_be32 #define dma32_to_cpu be32_to_cpu #define cpu_to_dma16 cpu_to_be16 #define dma16_to_cpu be16_to_cpu #else #define cpu_to_dma32 cpu_to_le32 #define dma32_to_cpu le32_to_cpu #define cpu_to_dma16 cpu_to_le16 #define dma16_to_cpu le16_to_cpu #endif static char mac0[18] = "00.02.03.04.05.06"; static char mac1[18] = "00.01.02.03.04.05"; MODULE_PARM(mac0, "c18"); MODULE_PARM(mac1, "c18"); MODULE_PARM_DESC(mac0, "MAC address for GT96100 ethernet port 0"); MODULE_PARM_DESC(mac1, "MAC address for GT96100 ethernet port 1"); /* * Info for the GT96100 ethernet controller's ports. */ static struct gt96100_if_t { struct net_device *dev; unsigned int iobase; // IO Base address of this port int irq; // IRQ number of this port char *mac_str; } gt96100_iflist[NUM_INTERFACES] = { { NULL, GT96100_ETH0_BASE, GT96100_ETHER0_IRQ, mac0 }, { NULL, GT96100_ETH1_BASE, GT96100_ETHER1_IRQ, mac1 } }; static inline const char* chip_name(int chip_rev) { switch (chip_rev) { case REV_GT96100: return "GT96100"; case REV_GT96100A_1: case REV_GT96100A: return "GT96100A"; default: return "Unknown GT96100"; } } /* DMA memory allocation, derived from pci_alloc_consistent. */ static void * dmaalloc(size_t size, dma_addr_t *dma_handle) { void *ret; ret = (void *)__get_free_pages(GFP_ATOMIC | GFP_DMA, get_order(size)); if (ret != NULL) { dma_cache_inv((unsigned long)ret, size); if (dma_handle != NULL) *dma_handle = virt_to_phys(ret); /* bump virtual address up to non-cached area */ ret = (void*)KSEG1ADDR(ret); } return ret; } static void dmafree(size_t size, void *vaddr) { vaddr = (void*)KSEG0ADDR(vaddr); free_pages((unsigned long)vaddr, get_order(size)); } static void gt96100_delay(int ms) { if (in_interrupt()) return; else msleep_interruptible(ms); } static int parse_mac_addr(struct net_device *dev, char* macstr) { int i, j; unsigned char result, value; for (i=0; i<6; i++) { result = 0; if (i != 5 && *(macstr+2) != '.') { err(__FILE__ "invalid mac address format: %d %c\n", i, *(macstr+2)); return -EINVAL; } for (j=0; j<2; j++) { if (isxdigit(*macstr) && (value = isdigit(*macstr) ? *macstr-'0' : toupper(*macstr)-'A'+10) < 16) { result = result*16 + value; macstr++; } else { err(__FILE__ "invalid mac address " "character: %c\n", *macstr); return -EINVAL; } } macstr++; // step over '.' dev->dev_addr[i] = result; } return 0; } static int read_MII(int phy_addr, u32 reg) { int timedout = 20; u32 smir = smirOpCode | (phy_addr << smirPhyAdBit) | (reg << smirRegAdBit); // wait for last operation to complete while (GT96100_READ(GT96100_ETH_SMI_REG) & smirBusy) { // snooze for 1 msec and check again gt96100_delay(1); if (--timedout == 0) { printk(KERN_ERR "%s: busy timeout!!\n", __FUNCTION__); return -ENODEV; } } GT96100_WRITE(GT96100_ETH_SMI_REG, smir); timedout = 20; // wait for read to complete while (!((smir = GT96100_READ(GT96100_ETH_SMI_REG)) & smirReadValid)) { // snooze for 1 msec and check again gt96100_delay(1); if (--timedout == 0) { printk(KERN_ERR "%s: timeout!!\n", __FUNCTION__); return -ENODEV; } } return (int)(smir & smirDataMask); } static void dump_tx_desc(int dbg_lvl, struct net_device *dev, int i) { struct gt96100_private *gp = netdev_priv(dev); gt96100_td_t *td = &gp->tx_ring[i]; dbg(dbg_lvl, "Tx descriptor at 0x%08lx:\n", virt_to_phys(td)); dbg(dbg_lvl, " cmdstat=%04x, byte_cnt=%04x, buff_ptr=%04x, next=%04x\n", dma32_to_cpu(td->cmdstat), dma16_to_cpu(td->byte_cnt), dma32_to_cpu(td->buff_ptr), dma32_to_cpu(td->next)); } static void dump_rx_desc(int dbg_lvl, struct net_device *dev, int i) { struct gt96100_private *gp = netdev_priv(dev); gt96100_rd_t *rd = &gp->rx_ring[i]; dbg(dbg_lvl, "Rx descriptor at 0x%08lx:\n", virt_to_phys(rd)); dbg(dbg_lvl, " cmdstat=%04x, buff_sz=%04x, byte_cnt=%04x, " "buff_ptr=%04x, next=%04x\n", dma32_to_cpu(rd->cmdstat), dma16_to_cpu(rd->buff_sz), dma16_to_cpu(rd->byte_cnt), dma32_to_cpu(rd->buff_ptr), dma32_to_cpu(rd->next)); } static int write_MII(int phy_addr, u32 reg, u16 data) { int timedout = 20; u32 smir = (phy_addr << smirPhyAdBit) | (reg << smirRegAdBit) | data; // wait for last operation to complete while (GT96100_READ(GT96100_ETH_SMI_REG) & smirBusy) { // snooze for 1 msec and check again gt96100_delay(1); if (--timedout == 0) { printk(KERN_ERR "%s: busy timeout!!\n", __FUNCTION__); return -1; } } GT96100_WRITE(GT96100_ETH_SMI_REG, smir); return 0; } static void dump_MII(int dbg_lvl, struct net_device *dev) { int i, val; struct gt96100_private *gp = netdev_priv(dev); if (dbg_lvl <= GT96100_DEBUG) { for (i=0; i<7; i++) { if ((val = read_MII(gp->phy_addr, i)) >= 0) printk("MII Reg %d=%x\n", i, val); } for (i=16; i<21; i++) { if ((val = read_MII(gp->phy_addr, i)) >= 0) printk("MII Reg %d=%x\n", i, val); } } } static void dump_hw_addr(int dbg_lvl, struct net_device *dev, const char* pfx, unsigned char* addr_str) { int i; char buf[100], octet[5]; if (dbg_lvl <= GT96100_DEBUG) { strcpy(buf, pfx); for (i = 0; i < 6; i++) { sprintf(octet, "%2.2x%s", addr_str[i], i<5 ? ":" : "\n"); strcat(buf, octet); } info("%s", buf); } } static void dump_skb(int dbg_lvl, struct net_device *dev, struct sk_buff *skb) { int i; unsigned char* skbdata; if (dbg_lvl <= GT96100_DEBUG) { dbg(dbg_lvl, "%s: skb=%p, skb->data=%p, skb->len=%d\n", __FUNCTION__, skb, skb->data, skb->len); skbdata = (unsigned char*)KSEG1ADDR(skb->data); for (i=0; i<skb->len; i++) { if (!(i % 16)) printk(KERN_DEBUG "\n %3.3x: %2.2x,", i, skbdata[i]); else printk(KERN_DEBUG "%2.2x,", skbdata[i]); } printk(KERN_DEBUG "\n"); } } static int gt96100_add_hash_entry(struct net_device *dev, unsigned char* addr) { struct gt96100_private *gp = netdev_priv(dev); //u16 hashResult, stmp; //unsigned char ctmp, hash_ea[6]; u32 tblEntry1, tblEntry0, *tblEntryAddr; int i; tblEntry1 = hteValid | hteRD; tblEntry1 |= (u32)addr[5] << 3; tblEntry1 |= (u32)addr[4] << 11; tblEntry1 |= (u32)addr[3] << 19; tblEntry1 |= ((u32)addr[2] & 0x1f) << 27; dbg(3, "%s: tblEntry1=%x\n", __FUNCTION__, tblEntry1); tblEntry0 = ((u32)addr[2] >> 5) & 0x07; tblEntry0 |= (u32)addr[1] << 3; tblEntry0 |= (u32)addr[0] << 11; dbg(3, "%s: tblEntry0=%x\n", __FUNCTION__, tblEntry0); #if 0 for (i=0; i<6; i++) { // nibble swap ctmp = nibswap(addr[i]); // invert every nibble hash_ea[i] = ((ctmp&1)<<3) | ((ctmp&8)>>3) | ((ctmp&2)<<1) | ((ctmp&4)>>1); hash_ea[i] |= ((ctmp&0x10)<<3) | ((ctmp&0x80)>>3) | ((ctmp&0x20)<<1) | ((ctmp&0x40)>>1); } dump_hw_addr(3, dev, "%s: nib swap/invt addr=", __FUNCTION__, hash_ea); if (gp->hash_mode == 0) { hashResult = ((u16)hash_ea[0] & 0xfc) << 7; stmp = ((u16)hash_ea[0] & 0x03) | (((u16)hash_ea[1] & 0x7f) << 2); stmp ^= (((u16)hash_ea[1] >> 7) & 0x01) | ((u16)hash_ea[2] << 1); stmp ^= (u16)hash_ea[3] | (((u16)hash_ea[4] & 1) << 8); hashResult |= stmp; } else { return -1; // don't support hash mode 1 } dbg(3, "%s: hashResult=%x\n", __FUNCTION__, hashResult); tblEntryAddr = (u32 *)(&gp->hash_table[((u32)hashResult & 0x7ff) << 3]); dbg(3, "%s: tblEntryAddr=%p\n", tblEntryAddr, __FUNCTION__); for (i=0; i<HASH_HOP_NUMBER; i++) { if ((*tblEntryAddr & hteValid) && !(*tblEntryAddr & hteSkip)) { // This entry is already occupied, go to next entry tblEntryAddr += 2; dbg(3, "%s: skipping to %p\n", __FUNCTION__, tblEntryAddr); } else { memset(tblEntryAddr, 0, 8); tblEntryAddr[1] = cpu_to_dma32(tblEntry1); tblEntryAddr[0] = cpu_to_dma32(tblEntry0); break; } } if (i >= HASH_HOP_NUMBER) { err("%s: expired!\n", __FUNCTION__); return -1; // Couldn't find an unused entry } #else tblEntryAddr = (u32 *)gp->hash_table; for (i=0; i<RX_HASH_TABLE_SIZE/4; i+=2) { tblEntryAddr[i+1] = cpu_to_dma32(tblEntry1); tblEntryAddr[i] = cpu_to_dma32(tblEntry0); } #endif return 0; } static void read_mib_counters(struct gt96100_private *gp) { u32* mib_regs = (u32*)&gp->mib; int i; for (i=0; i<sizeof(mib_counters_t)/sizeof(u32); i++) mib_regs[i] = GT96100ETH_READ(gp, GT96100_ETH_MIB_COUNT_BASE + i*sizeof(u32)); } static void update_stats(struct gt96100_private *gp) { mib_counters_t *mib = &gp->mib; struct net_device_stats *stats = &gp->stats; read_mib_counters(gp); stats->rx_packets = mib->totalFramesReceived; stats->tx_packets = mib->framesSent; stats->rx_bytes = mib->totalByteReceived; stats->tx_bytes = mib->byteSent; stats->rx_errors = mib->totalFramesReceived - mib->framesReceived; //the tx error counters are incremented by the ISR //rx_dropped incremented by gt96100_rx //tx_dropped incremented by gt96100_tx stats->multicast = mib->multicastFramesReceived; // collisions incremented by gt96100_tx_complete stats->rx_length_errors = mib->oversizeFrames + mib->fragments; // The RxError condition means the Rx DMA encountered a // CPU owned descriptor, which, if things are working as // they should, means the Rx ring has overflowed. stats->rx_over_errors = mib->macRxError; stats->rx_crc_errors = mib->cRCError; } static void abort(struct net_device *dev, u32 abort_bits) { struct gt96100_private *gp = netdev_priv(dev); int timedout = 100; // wait up to 100 msec for hard stop to complete dbg(3, "%s\n", __FUNCTION__); // Return if neither Rx or Tx abort bits are set if (!(abort_bits & (sdcmrAR | sdcmrAT))) return; // make sure only the Rx/Tx abort bits are set abort_bits &= (sdcmrAR | sdcmrAT); spin_lock(&gp->lock); // abort any Rx/Tx DMA immediately GT96100ETH_WRITE(gp, GT96100_ETH_SDMA_COMM, abort_bits); dbg(3, "%s: SDMA comm = %x\n", __FUNCTION__, GT96100ETH_READ(gp, GT96100_ETH_SDMA_COMM)); // wait for abort to complete while (GT96100ETH_READ(gp, GT96100_ETH_SDMA_COMM) & abort_bits) { // snooze for 1 msec and check again gt96100_delay(1); if (--timedout == 0) { err("%s: timeout!!\n", __FUNCTION__); break; } } spin_unlock(&gp->lock); } static void hard_stop(struct net_device *dev) { struct gt96100_private *gp = netdev_priv(dev); dbg(3, "%s\n", __FUNCTION__); disable_ether_irq(dev); abort(dev, sdcmrAR | sdcmrAT); // disable port GT96100ETH_WRITE(gp, GT96100_ETH_PORT_CONFIG, 0); } static void enable_ether_irq(struct net_device *dev) { struct gt96100_private *gp = netdev_priv(dev); u32 intMask; /* * route ethernet interrupt to GT_SERINT0 for port 0, * GT_INT0 for port 1. */ int intr_mask_reg = (gp->port_num == 0) ? GT96100_SERINT0_MASK : GT96100_INT0_HIGH_MASK; if (gp->chip_rev >= REV_GT96100A_1) { intMask = icrTxBufferLow | icrTxEndLow | icrTxErrorLow | icrRxOVR | icrTxUdr | icrRxBufferQ0 | icrRxErrorQ0 | icrMIIPhySTC | icrEtherIntSum; } else { intMask = icrTxBufferLow | icrTxEndLow | icrTxErrorLow | icrRxOVR | icrTxUdr | icrRxBuffer | icrRxError | icrMIIPhySTC | icrEtherIntSum; } // unmask interrupts GT96100ETH_WRITE(gp, GT96100_ETH_INT_MASK, intMask); intMask = GT96100_READ(intr_mask_reg); intMask |= 1<<gp->port_num; GT96100_WRITE(intr_mask_reg, intMask); } static void disable_ether_irq(struct net_device *dev) { struct gt96100_private *gp = netdev_priv(dev); u32 intMask; int intr_mask_reg = (gp->port_num == 0) ? GT96100_SERINT0_MASK : GT96100_INT0_HIGH_MASK; intMask = GT96100_READ(intr_mask_reg); intMask &= ~(1<<gp->port_num); GT96100_WRITE(intr_mask_reg, intMask); GT96100ETH_WRITE(gp, GT96100_ETH_INT_MASK, 0); } /* * Init GT96100 ethernet controller driver */ static int gt96100_init_module(void) { struct pci_dev *pci; int i, retval=0; u32 cpuConfig; /* * Stupid probe because this really isn't a PCI device */ if (!(pci = pci_find_device(PCI_VENDOR_ID_MARVELL, PCI_DEVICE_ID_MARVELL_GT96100, NULL)) && !(pci = pci_find_device(PCI_VENDOR_ID_MARVELL, PCI_DEVICE_ID_MARVELL_GT96100A, NULL))) { printk(KERN_ERR __FILE__ ": GT96100 not found!\n"); return -ENODEV; } cpuConfig = GT96100_READ(GT96100_CPU_INTERF_CONFIG); if (cpuConfig & (1<<12)) { printk(KERN_ERR __FILE__ ": must be in Big Endian mode!\n"); return -ENODEV; } for (i=0; i < NUM_INTERFACES; i++) retval |= gt96100_probe1(pci, i); return retval; } static int __init gt96100_probe1(struct pci_dev *pci, int port_num) { struct gt96100_private *gp = NULL; struct gt96100_if_t *gtif = >96100_iflist[port_num]; int phy_addr, phy_id1, phy_id2; u32 phyAD; int retval; unsigned char chip_rev; struct net_device *dev = NULL; if (gtif->irq < 0) { printk(KERN_ERR "%s: irq unknown - probing not supported\n", __FUNCTION__); return -ENODEV; } pci_read_config_byte(pci, PCI_REVISION_ID, &chip_rev); if (chip_rev >= REV_GT96100A_1) { phyAD = GT96100_READ(GT96100_ETH_PHY_ADDR_REG); phy_addr = (phyAD >> (5*port_num)) & 0x1f; } else { /* * not sure what's this about -- probably a gt bug */ phy_addr = port_num; phyAD = GT96100_READ(GT96100_ETH_PHY_ADDR_REG); phyAD &= ~(0x1f << (port_num*5)); phyAD |= phy_addr << (port_num*5); GT96100_WRITE(GT96100_ETH_PHY_ADDR_REG, phyAD); } // probe for the external PHY if ((phy_id1 = read_MII(phy_addr, 2)) <= 0 || (phy_id2 = read_MII(phy_addr, 3)) <= 0) { printk(KERN_ERR "%s: no PHY found on MII%d\n", __FUNCTION__, port_num); return -ENODEV; } if (!request_region(gtif->iobase, GT96100_ETH_IO_SIZE, "GT96100ETH")) { printk(KERN_ERR "%s: request_region failed\n", __FUNCTION__); return -EBUSY; } dev = alloc_etherdev(sizeof(struct gt96100_private)); if (!dev) goto out; gtif->dev = dev; /* private struct aligned and zeroed by alloc_etherdev */ /* Fill in the 'dev' fields. */ dev->base_addr = gtif->iobase; dev->irq = gtif->irq; if ((retval = parse_mac_addr(dev, gtif->mac_str))) { err("%s: MAC address parse failed\n", __FUNCTION__); retval = -EINVAL; goto out1; } gp = netdev_priv(dev); memset(gp, 0, sizeof(*gp)); // clear it gp->port_num = port_num; gp->io_size = GT96100_ETH_IO_SIZE; gp->port_offset = port_num * GT96100_ETH_IO_SIZE; gp->phy_addr = phy_addr; gp->chip_rev = chip_rev; info("%s found at 0x%x, irq %d\n", chip_name(gp->chip_rev), gtif->iobase, gtif->irq); dump_hw_addr(0, dev, "HW Address ", dev->dev_addr); info("%s chip revision=%d\n", chip_name(gp->chip_rev), gp->chip_rev); info("%s ethernet port %d\n", chip_name(gp->chip_rev), gp->port_num); info("external PHY ID1=0x%04x, ID2=0x%04x\n", phy_id1, phy_id2); // Allocate Rx and Tx descriptor rings if (gp->rx_ring == NULL) { // All descriptors in ring must be 16-byte aligned gp->rx_ring = dmaalloc(sizeof(gt96100_rd_t) * RX_RING_SIZE + sizeof(gt96100_td_t) * TX_RING_SIZE, &gp->rx_ring_dma); if (gp->rx_ring == NULL) { retval = -ENOMEM; goto out1; } gp->tx_ring = (gt96100_td_t *)(gp->rx_ring + RX_RING_SIZE); gp->tx_ring_dma = gp->rx_ring_dma + sizeof(gt96100_rd_t) * RX_RING_SIZE; } // Allocate the Rx Data Buffers if (gp->rx_buff == NULL) { gp->rx_buff = dmaalloc(PKT_BUF_SZ*RX_RING_SIZE, &gp->rx_buff_dma); if (gp->rx_buff == NULL) { retval = -ENOMEM; goto out2; } } dbg(3, "%s: rx_ring=%p, tx_ring=%p\n", __FUNCTION__, gp->rx_ring, gp->tx_ring); // Allocate Rx Hash Table if (gp->hash_table == NULL) { gp->hash_table = (char*)dmaalloc(RX_HASH_TABLE_SIZE, &gp->hash_table_dma); if (gp->hash_table == NULL) { retval = -ENOMEM; goto out3; } } dbg(3, "%s: hash=%p\n", __FUNCTION__, gp->hash_table); spin_lock_init(&gp->lock); dev->open = gt96100_open; dev->hard_start_xmit = gt96100_tx; dev->stop = gt96100_close; dev->get_stats = gt96100_get_stats; //dev->do_ioctl = gt96100_ioctl; dev->set_multicast_list = gt96100_set_rx_mode; dev->tx_timeout = gt96100_tx_timeout; dev->watchdog_timeo = GT96100ETH_TX_TIMEOUT; retval = register_netdev(dev); if (retval) goto out4; return 0; out4: dmafree(RX_HASH_TABLE_SIZE, gp->hash_table_dma); out3: dmafree(PKT_BUF_SZ*RX_RING_SIZE, gp->rx_buff); out2: dmafree(sizeof(gt96100_rd_t) * RX_RING_SIZE + sizeof(gt96100_td_t) * TX_RING_SIZE, gp->rx_ring); out1: free_netdev (dev); out: release_region(gtif->iobase, GT96100_ETH_IO_SIZE); err("%s failed. Returns %d\n", __FUNCTION__, retval); return retval; } static void reset_tx(struct net_device *dev) { struct gt96100_private *gp = netdev_priv(dev); int i; abort(dev, sdcmrAT); for (i=0; i<TX_RING_SIZE; i++) { if (gp->tx_skbuff[i]) { if (in_interrupt()) dev_kfree_skb_irq(gp->tx_skbuff[i]); else dev_kfree_skb(gp->tx_skbuff[i]); gp->tx_skbuff[i] = NULL; } gp->tx_ring[i].cmdstat = 0; // CPU owns gp->tx_ring[i].byte_cnt = 0; gp->tx_ring[i].buff_ptr = 0; gp->tx_ring[i].next = cpu_to_dma32(gp->tx_ring_dma + sizeof(gt96100_td_t) * (i+1)); dump_tx_desc(4, dev, i); } /* Wrap the ring. */ gp->tx_ring[i-1].next = cpu_to_dma32(gp->tx_ring_dma); // setup only the lowest priority TxCDP reg GT96100ETH_WRITE(gp, GT96100_ETH_CURR_TX_DESC_PTR0, gp->tx_ring_dma); GT96100ETH_WRITE(gp, GT96100_ETH_CURR_TX_DESC_PTR1, 0); // init Tx indeces and pkt counter gp->tx_next_in = gp->tx_next_out = 0; gp->tx_count = 0; } static void reset_rx(struct net_device *dev) { struct gt96100_private *gp = netdev_priv(dev); int i; abort(dev, sdcmrAR); for (i=0; i<RX_RING_SIZE; i++) { gp->rx_ring[i].next = cpu_to_dma32(gp->rx_ring_dma + sizeof(gt96100_rd_t) * (i+1)); gp->rx_ring[i].buff_ptr = cpu_to_dma32(gp->rx_buff_dma + i*PKT_BUF_SZ); gp->rx_ring[i].buff_sz = cpu_to_dma16(PKT_BUF_SZ); // Give ownership to device, set first and last, enable intr gp->rx_ring[i].cmdstat = cpu_to_dma32((u32)(rxFirst | rxLast | rxOwn | rxEI)); dump_rx_desc(4, dev, i); } /* Wrap the ring. */ gp->rx_ring[i-1].next = cpu_to_dma32(gp->rx_ring_dma); // Setup only the lowest priority RxFDP and RxCDP regs for (i=0; i<4; i++) { if (i == 0) { GT96100ETH_WRITE(gp, GT96100_ETH_1ST_RX_DESC_PTR0, gp->rx_ring_dma); GT96100ETH_WRITE(gp, GT96100_ETH_CURR_RX_DESC_PTR0, gp->rx_ring_dma); } else { GT96100ETH_WRITE(gp, GT96100_ETH_1ST_RX_DESC_PTR0 + i*4, 0); GT96100ETH_WRITE(gp, GT96100_ETH_CURR_RX_DESC_PTR0 + i*4, 0); } } // init Rx NextOut index gp->rx_next_out = 0; } // Returns 1 if the Tx counter and indeces don't gel static int gt96100_check_tx_consistent(struct gt96100_private *gp) { int diff = gp->tx_next_in - gp->tx_next_out; diff = diff<0 ? TX_RING_SIZE + diff : diff; diff = gp->tx_count == TX_RING_SIZE ? diff + TX_RING_SIZE : diff; return (diff != gp->tx_count); } static int gt96100_init(struct net_device *dev) { struct gt96100_private *gp = netdev_priv(dev); u32 tmp; u16 mii_reg; dbg(3, "%s: dev=%p\n", __FUNCTION__, dev); dbg(3, "%s: scs10_lo=%4x, scs10_hi=%4x\n", __FUNCTION__, GT96100_READ(0x8), GT96100_READ(0x10)); dbg(3, "%s: scs32_lo=%4x, scs32_hi=%4x\n", __FUNCTION__, GT96100_READ(0x18), GT96100_READ(0x20)); // Stop and disable Port hard_stop(dev); // Setup CIU Arbiter tmp = GT96100_READ(GT96100_CIU_ARBITER_CONFIG); tmp |= (0x0c << (gp->port_num*2)); // set Ether DMA req priority to hi #ifndef DESC_BE tmp &= ~(1<<31); // set desc endianess to little #else tmp |= (1<<31); #endif GT96100_WRITE(GT96100_CIU_ARBITER_CONFIG, tmp); dbg(3, "%s: CIU Config=%x/%x\n", __FUNCTION__, tmp, GT96100_READ(GT96100_CIU_ARBITER_CONFIG)); // Set routing. tmp = GT96100_READ(GT96100_ROUTE_MAIN) & (0x3f << 18); tmp |= (0x07 << (18 + gp->port_num*3)); GT96100_WRITE(GT96100_ROUTE_MAIN, tmp); /* set MII as peripheral func */ tmp = GT96100_READ(GT96100_GPP_CONFIG2); tmp |= 0x7fff << (gp->port_num*16); GT96100_WRITE(GT96100_GPP_CONFIG2, tmp); /* Set up MII port pin directions */ tmp = GT96100_READ(GT96100_GPP_IO2); tmp |= 0x003d << (gp->port_num*16); GT96100_WRITE(GT96100_GPP_IO2, tmp); // Set-up hash table memset(gp->hash_table, 0, RX_HASH_TABLE_SIZE); // clear it gp->hash_mode = 0; // Add a single entry to hash table - our ethernet address gt96100_add_hash_entry(dev, dev->dev_addr); // Set-up DMA ptr to hash table GT96100ETH_WRITE(gp, GT96100_ETH_HASH_TBL_PTR, gp->hash_table_dma); dbg(3, "%s: Hash Tbl Ptr=%x\n", __FUNCTION__, GT96100ETH_READ(gp, GT96100_ETH_HASH_TBL_PTR)); // Setup Tx reset_tx(dev); dbg(3, "%s: Curr Tx Desc Ptr0=%x\n", __FUNCTION__, GT96100ETH_READ(gp, GT96100_ETH_CURR_TX_DESC_PTR0)); // Setup Rx reset_rx(dev); dbg(3, "%s: 1st/Curr Rx Desc Ptr0=%x/%x\n", __FUNCTION__, GT96100ETH_READ(gp, GT96100_ETH_1ST_RX_DESC_PTR0), GT96100ETH_READ(gp, GT96100_ETH_CURR_RX_DESC_PTR0)); // eth port config register GT96100ETH_WRITE(gp, GT96100_ETH_PORT_CONFIG_EXT, pcxrFCTL | pcxrFCTLen | pcxrFLP | pcxrDPLXen); mii_reg = read_MII(gp->phy_addr, 0x11); /* int enable register */ mii_reg |= 2; /* enable mii interrupt */ write_MII(gp->phy_addr, 0x11, mii_reg); dbg(3, "%s: PhyAD=%x\n", __FUNCTION__, GT96100_READ(GT96100_ETH_PHY_ADDR_REG)); // setup DMA // We want the Rx/Tx DMA to write/read data to/from memory in // Big Endian mode. Also set DMA Burst Size to 8 64Bit words. #ifdef DESC_DATA_BE GT96100ETH_WRITE(gp, GT96100_ETH_SDMA_CONFIG, (0xf<<sdcrRCBit) | sdcrRIFB | (3<<sdcrBSZBit)); #else GT96100ETH_WRITE(gp, GT96100_ETH_SDMA_CONFIG, sdcrBLMR | sdcrBLMT | (0xf<<sdcrRCBit) | sdcrRIFB | (3<<sdcrBSZBit)); #endif dbg(3, "%s: SDMA Config=%x\n", __FUNCTION__, GT96100ETH_READ(gp, GT96100_ETH_SDMA_CONFIG)); // start Rx DMA GT96100ETH_WRITE(gp, GT96100_ETH_SDMA_COMM, sdcmrERD); dbg(3, "%s: SDMA Comm=%x\n", __FUNCTION__, GT96100ETH_READ(gp, GT96100_ETH_SDMA_COMM)); // enable this port (set hash size to 1/2K) GT96100ETH_WRITE(gp, GT96100_ETH_PORT_CONFIG, pcrEN | pcrHS); dbg(3, "%s: Port Config=%x\n", __FUNCTION__, GT96100ETH_READ(gp, GT96100_ETH_PORT_CONFIG)); /* * Disable all Type-of-Service queueing. All Rx packets will be * treated normally and will be sent to the lowest priority * queue. * * Disable flow-control for now. FIXME: support flow control? */ // clear all the MIB ctr regs GT96100ETH_WRITE(gp, GT96100_ETH_PORT_CONFIG_EXT, pcxrFCTL | pcxrFCTLen | pcxrFLP | pcxrPRIOrxOverride); read_mib_counters(gp); GT96100ETH_WRITE(gp, GT96100_ETH_PORT_CONFIG_EXT, pcxrFCTL | pcxrFCTLen | pcxrFLP | pcxrPRIOrxOverride | pcxrMIBclrMode); dbg(3, "%s: Port Config Ext=%x\n", __FUNCTION__, GT96100ETH_READ(gp, GT96100_ETH_PORT_CONFIG_EXT)); netif_start_queue(dev); dump_MII(4, dev); // enable interrupts enable_ether_irq(dev); // we should now be receiving frames return 0; } static int gt96100_open(struct net_device *dev) { int retval; dbg(2, "%s: dev=%p\n", __FUNCTION__, dev); // Initialize and startup the GT-96100 ethernet port if ((retval = gt96100_init(dev))) { err("error in gt96100_init\n"); free_irq(dev->irq, dev); return retval; } if ((retval = request_irq(dev->irq, >96100_interrupt, SA_SHIRQ, dev->name, dev))) { err("unable to get IRQ %d\n", dev->irq); return retval; } dbg(2, "%s: Initialization done.\n", __FUNCTION__); return 0; } static int gt96100_close(struct net_device *dev) { dbg(3, "%s: dev=%p\n", __FUNCTION__, dev); // stop the device if (netif_device_present(dev)) { netif_stop_queue(dev); hard_stop(dev); } free_irq(dev->irq, dev); return 0; } static int gt96100_tx(struct sk_buff *skb, struct net_device *dev) { struct gt96100_private *gp = netdev_priv(dev); unsigned long flags; int nextIn; spin_lock_irqsave(&gp->lock, flags); nextIn = gp->tx_next_in; dbg(3, "%s: nextIn=%d\n", __FUNCTION__, nextIn); if (gp->tx_count >= TX_RING_SIZE) { warn("Tx Ring full, pkt dropped.\n"); gp->stats.tx_dropped++; spin_unlock_irqrestore(&gp->lock, flags); return 1; } if (!(gp->last_psr & psrLink)) { err("%s: Link down, pkt dropped.\n", __FUNCTION__); gp->stats.tx_dropped++; spin_unlock_irqrestore(&gp->lock, flags); return 1; } if (dma32_to_cpu(gp->tx_ring[nextIn].cmdstat) & txOwn) { err("%s: device owns descriptor, pkt dropped.\n", __FUNCTION__); gp->stats.tx_dropped++; // stop the queue, so Tx timeout can fix it netif_stop_queue(dev); spin_unlock_irqrestore(&gp->lock, flags); return 1; } // Prepare the Descriptor at tx_next_in gp->tx_skbuff[nextIn] = skb; gp->tx_ring[nextIn].byte_cnt = cpu_to_dma16(skb->len); gp->tx_ring[nextIn].buff_ptr = cpu_to_dma32(virt_to_phys(skb->data)); // make sure packet gets written back to memory dma_cache_wback_inv((unsigned long)(skb->data), skb->len); // Give ownership to device, set first and last desc, enable interrupt // Setting of ownership bit must be *last*! gp->tx_ring[nextIn].cmdstat = cpu_to_dma32((u32)(txOwn | txGenCRC | txEI | txPad | txFirst | txLast)); dump_tx_desc(4, dev, nextIn); dump_skb(4, dev, skb); // increment tx_next_in with wrap gp->tx_next_in = (nextIn + 1) % TX_RING_SIZE; // If DMA is stopped, restart if (!(GT96100ETH_READ(gp, GT96100_ETH_PORT_STATUS) & psrTxLow)) GT96100ETH_WRITE(gp, GT96100_ETH_SDMA_COMM, sdcmrERD | sdcmrTXDL); // increment count and stop queue if full if (++gp->tx_count == TX_RING_SIZE) { gp->tx_full = 1; netif_stop_queue(dev); dbg(2, "Tx Ring now full, queue stopped.\n"); } dev->trans_start = jiffies; spin_unlock_irqrestore(&gp->lock, flags); return 0; } static int gt96100_rx(struct net_device *dev, u32 status) { struct gt96100_private *gp = netdev_priv(dev); struct sk_buff *skb; int pkt_len, nextOut, cdp; gt96100_rd_t *rd; u32 cmdstat; dbg(3, "%s: dev=%p, status=%x\n", __FUNCTION__, dev, status); cdp = (GT96100ETH_READ(gp, GT96100_ETH_1ST_RX_DESC_PTR0) - gp->rx_ring_dma) / sizeof(gt96100_rd_t); // Continue until we reach 1st descriptor pointer for (nextOut = gp->rx_next_out; nextOut != cdp; nextOut = (nextOut + 1) % RX_RING_SIZE) { if (--gp->intr_work_done == 0) break; rd = &gp->rx_ring[nextOut]; cmdstat = dma32_to_cpu(rd->cmdstat); dbg(4, "%s: Rx desc cmdstat=%x, nextOut=%d\n", __FUNCTION__, cmdstat, nextOut); if (cmdstat & (u32)rxOwn) { //err("%s: device owns descriptor!\n", __FUNCTION__); // DMA is not finished updating descriptor??? // Leave and come back later to pick-up where // we left off. break; } // Drop this received pkt if there were any errors if (((cmdstat & (u32)(rxErrorSummary)) && (cmdstat & (u32)(rxFirst))) || (status & icrRxError)) { // update the detailed rx error counters that // are not covered by the MIB counters. if (cmdstat & (u32)rxOverrun) gp->stats.rx_fifo_errors++; cmdstat |= (u32)rxOwn; rd->cmdstat = cpu_to_dma32(cmdstat); continue; } /* * Must be first and last (ie only) descriptor of packet. We * ignore (drop) any packets that do not fit in one descriptor. * Every descriptor's receive buffer is large enough to hold * the maximum 802.3 frame size, so a multi-descriptor packet * indicates an error. Most if not all corrupted packets will * have already been dropped by the above check for the * rxErrorSummary status bit. */ if (!(cmdstat & (u32)rxFirst) || !(cmdstat & (u32)rxLast)) { if (cmdstat & (u32)rxFirst) { /* * This is the first descriptor of a * multi-descriptor packet. It isn't corrupted * because the above check for rxErrorSummary * would have dropped it already, so what's * the deal with this packet? Good question, * let's dump it out. */ err("%s: desc not first and last!\n", __FUNCTION__); dump_rx_desc(0, dev, nextOut); } cmdstat |= (u32)rxOwn; rd->cmdstat = cpu_to_dma32(cmdstat); // continue to drop every descriptor of this packet continue; } pkt_len = dma16_to_cpu(rd->byte_cnt); /* Create new skb. */ skb = dev_alloc_skb(pkt_len+2); if (skb == NULL) { err("%s: Memory squeeze, dropping packet.\n", __FUNCTION__); gp->stats.rx_dropped++; cmdstat |= (u32)rxOwn; rd->cmdstat = cpu_to_dma32(cmdstat); continue; } skb->dev = dev; skb_reserve(skb, 2); /* 16 byte IP header align */ memcpy(skb_put(skb, pkt_len), &gp->rx_buff[nextOut*PKT_BUF_SZ], pkt_len); skb->protocol = eth_type_trans(skb, dev); dump_skb(4, dev, skb); netif_rx(skb); /* pass the packet to upper layers */ dev->last_rx = jiffies; // now we can release ownership of this desc back to device cmdstat |= (u32)rxOwn; rd->cmdstat = cpu_to_dma32(cmdstat); } if (nextOut == gp->rx_next_out) dbg(3, "%s: RxCDP did not increment?\n", __FUNCTION__); gp->rx_next_out = nextOut; return 0; } static void gt96100_tx_complete(struct net_device *dev, u32 status) { struct gt96100_private *gp = netdev_priv(dev); int nextOut, cdp; gt96100_td_t *td; u32 cmdstat; cdp = (GT96100ETH_READ(gp, GT96100_ETH_CURR_TX_DESC_PTR0) - gp->tx_ring_dma) / sizeof(gt96100_td_t); // Continue until we reach the current descriptor pointer for (nextOut = gp->tx_next_out; nextOut != cdp; nextOut = (nextOut + 1) % TX_RING_SIZE) { if (--gp->intr_work_done == 0) break; td = &gp->tx_ring[nextOut]; cmdstat = dma32_to_cpu(td->cmdstat); dbg(3, "%s: Tx desc cmdstat=%x, nextOut=%d\n", __FUNCTION__, cmdstat, nextOut); if (cmdstat & (u32)txOwn) { /* * DMA is not finished writing descriptor??? * Leave and come back later to pick-up where * we left off. */ break; } // increment Tx error stats if (cmdstat & (u32)txErrorSummary) { dbg(2, "%s: Tx error, cmdstat = %x\n", __FUNCTION__, cmdstat); gp->stats.tx_errors++; if (cmdstat & (u32)txReTxLimit) gp->stats.tx_aborted_errors++; if (cmdstat & (u32)txUnderrun) gp->stats.tx_fifo_errors++; if (cmdstat & (u32)txLateCollision) gp->stats.tx_window_errors++; } if (cmdstat & (u32)txCollision) gp->stats.collisions += (u32)((cmdstat & txReTxCntMask) >> txReTxCntBit); // Wake the queue if the ring was full if (gp->tx_full) { gp->tx_full = 0; if (gp->last_psr & psrLink) { netif_wake_queue(dev); dbg(2, "%s: Tx Ring was full, queue waked\n", __FUNCTION__); } } // decrement tx ring buffer count if (gp->tx_count) gp->tx_count--; // free the skb if (gp->tx_skbuff[nextOut]) { dbg(3, "%s: good Tx, skb=%p\n", __FUNCTION__, gp->tx_skbuff[nextOut]); dev_kfree_skb_irq(gp->tx_skbuff[nextOut]); gp->tx_skbuff[nextOut] = NULL; } else { err("%s: no skb!\n", __FUNCTION__); } } gp->tx_next_out = nextOut; if (gt96100_check_tx_consistent(gp)) { err("%s: Tx queue inconsistent!\n", __FUNCTION__); } if ((status & icrTxEndLow) && gp->tx_count != 0) { // we must restart the DMA dbg(3, "%s: Restarting Tx DMA\n", __FUNCTION__); GT96100ETH_WRITE(gp, GT96100_ETH_SDMA_COMM, sdcmrERD | sdcmrTXDL); } } static irqreturn_t gt96100_interrupt(int irq, void *dev_id, struct pt_regs *regs) { struct net_device *dev = (struct net_device *)dev_id; struct gt96100_private *gp = netdev_priv(dev); u32 status; int handled = 0; if (dev == NULL) { err("%s: null dev ptr\n", __FUNCTION__); return IRQ_NONE; } dbg(3, "%s: entry, icr=%x\n", __FUNCTION__, GT96100ETH_READ(gp, GT96100_ETH_INT_CAUSE)); spin_lock(&gp->lock); gp->intr_work_done = max_interrupt_work; while (gp->intr_work_done > 0) { status = GT96100ETH_READ(gp, GT96100_ETH_INT_CAUSE); // ACK interrupts GT96100ETH_WRITE(gp, GT96100_ETH_INT_CAUSE, ~status); if ((status & icrEtherIntSum) == 0 && !(status & (icrTxBufferLow|icrTxBufferHigh|icrRxBuffer))) break; handled = 1; if (status & icrMIIPhySTC) { u32 psr = GT96100ETH_READ(gp, GT96100_ETH_PORT_STATUS); if (gp->last_psr != psr) { dbg(0, "port status:\n"); dbg(0, " %s MBit/s, %s-duplex, " "flow-control %s, link is %s,\n", psr & psrSpeed ? "100":"10", psr & psrDuplex ? "full":"half", psr & psrFctl ? "disabled":"enabled", psr & psrLink ? "up":"down"); dbg(0, " TxLowQ is %s, TxHighQ is %s, " "Transmitter is %s\n", psr & psrTxLow ? "running":"stopped", psr & psrTxHigh ? "running":"stopped", psr & psrTxInProg ? "on":"off"); if ((psr & psrLink) && !gp->tx_full && netif_queue_stopped(dev)) { dbg(0, "%s: Link up, waking queue.\n", __FUNCTION__); netif_wake_queue(dev); } else if (!(psr & psrLink) && !netif_queue_stopped(dev)) { dbg(0, "%s: Link down, stopping queue.\n", __FUNCTION__); netif_stop_queue(dev); } gp->last_psr = psr; } if (--gp->intr_work_done == 0) break; } if (status & (icrTxBufferLow | icrTxEndLow)) gt96100_tx_complete(dev, status); if (status & (icrRxBuffer | icrRxError)) { gt96100_rx(dev, status); } // Now check TX errors (RX errors were handled in gt96100_rx) if (status & icrTxErrorLow) { err("%s: Tx resource error\n", __FUNCTION__); if (--gp->intr_work_done == 0) break; } if (status & icrTxUdr) { err("%s: Tx underrun error\n", __FUNCTION__); if (--gp->intr_work_done == 0) break; } } if (gp->intr_work_done == 0) { // ACK any remaining pending interrupts GT96100ETH_WRITE(gp, GT96100_ETH_INT_CAUSE, 0); dbg(3, "%s: hit max work\n", __FUNCTION__); } dbg(3, "%s: exit, icr=%x\n", __FUNCTION__, GT96100ETH_READ(gp, GT96100_ETH_INT_CAUSE)); spin_unlock(&gp->lock); return IRQ_RETVAL(handled); } static void gt96100_tx_timeout(struct net_device *dev) { struct gt96100_private *gp = netdev_priv(dev); unsigned long flags; spin_lock_irqsave(&gp->lock, flags); if (!(gp->last_psr & psrLink)) { err("tx_timeout: link down.\n"); spin_unlock_irqrestore(&gp->lock, flags); } else { if (gt96100_check_tx_consistent(gp)) err("tx_timeout: Tx ring error.\n"); disable_ether_irq(dev); spin_unlock_irqrestore(&gp->lock, flags); reset_tx(dev); enable_ether_irq(dev); netif_wake_queue(dev); } } static void gt96100_set_rx_mode(struct net_device *dev) { struct gt96100_private *gp = netdev_priv(dev); unsigned long flags; //struct dev_mc_list *mcptr; dbg(3, "%s: dev=%p, flags=%x\n", __FUNCTION__, dev, dev->flags); // stop the Receiver DMA abort(dev, sdcmrAR); spin_lock_irqsave(&gp->lock, flags); if (dev->flags & IFF_PROMISC) { GT96100ETH_WRITE(gp, GT96100_ETH_PORT_CONFIG, pcrEN | pcrHS | pcrPM); } #if 0 /* FIXME: currently multicast doesn't work - need to get hash table working first. */ if (dev->mc_count) { // clear hash table memset(gp->hash_table, 0, RX_HASH_TABLE_SIZE); // Add our ethernet address gt96100_add_hash_entry(dev, dev->dev_addr); for (mcptr = dev->mc_list; mcptr; mcptr = mcptr->next) { dump_hw_addr(2, dev, __FUNCTION__ ": addr=", mcptr->dmi_addr); gt96100_add_hash_entry(dev, mcptr->dmi_addr); } } #endif // restart Rx DMA GT96100ETH_WRITE(gp, GT96100_ETH_SDMA_COMM, sdcmrERD); spin_unlock_irqrestore(&gp->lock, flags); } static struct net_device_stats * gt96100_get_stats(struct net_device *dev) { struct gt96100_private *gp = netdev_priv(dev); unsigned long flags; dbg(3, "%s: dev=%p\n", __FUNCTION__, dev); if (netif_device_present(dev)) { spin_lock_irqsave (&gp->lock, flags); update_stats(gp); spin_unlock_irqrestore (&gp->lock, flags); } return &gp->stats; } static void gt96100_cleanup_module(void) { int i; for (i=0; i<NUM_INTERFACES; i++) { struct gt96100_if_t *gtif = >96100_iflist[i]; if (gtif->dev != NULL) { struct gt96100_private *gp = (struct gt96100_private *) netdev_priv(gtif->dev); unregister_netdev(gtif->dev); dmafree(RX_HASH_TABLE_SIZE, gp->hash_table_dma); dmafree(PKT_BUF_SZ*RX_RING_SIZE, gp->rx_buff); dmafree(sizeof(gt96100_rd_t) * RX_RING_SIZE + sizeof(gt96100_td_t) * TX_RING_SIZE, gp->rx_ring); free_netdev(gtif->dev); release_region(gtif->iobase, gp->io_size); } } } static int __init gt96100_setup(char *options) { char *this_opt; if (!options || !*options) return 0; while ((this_opt = strsep (&options, ",")) != NULL) { if (!*this_opt) continue; if (!strncmp(this_opt, "mac0:", 5)) { memcpy(mac0, this_opt+5, 17); mac0[17]= '\0'; } else if (!strncmp(this_opt, "mac1:", 5)) { memcpy(mac1, this_opt+5, 17); mac1[17]= '\0'; } } return 1; } __setup("gt96100eth=", gt96100_setup); module_init(gt96100_init_module); module_exit(gt96100_cleanup_module); MODULE_AUTHOR("Steve Longerbeam <stevel@mvista.com>"); MODULE_DESCRIPTION("GT96100 Ethernet driver"); |