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3222 3223 3224 3225 3226 3227 3228 3229 3230 3231 3232 3233 3234 3235 3236 3237 3238 3239 3240 3241 3242 3243 3244 3245 3246 3247 3248 3249 3250 3251 3252 3253 3254 3255 3256 3257 3258 3259 3260 3261 3262 3263 3264 3265 3266 3267 3268 3269 3270 3271 3272 3273 3274 3275 3276 3277 | /******************************************************************************* * * Linux ThunderLAN Driver * * tlan.c * by James Banks * * (C) 1997-1998 Caldera, Inc. * (C) 1998 James Banks * (C) 1999-2001 Torben Mathiasen * (C) 2002 Samuel Chessman * * This software may be used and distributed according to the terms * of the GNU General Public License, incorporated herein by reference. * ** Useful (if not required) reading: * * Texas Instruments, ThunderLAN Programmer's Guide, * TI Literature Number SPWU013A * available in PDF format from www.ti.com * Level One, LXT901 and LXT970 Data Sheets * available in PDF format from www.level1.com * National Semiconductor, DP83840A Data Sheet * available in PDF format from www.national.com * Microchip Technology, 24C01A/02A/04A Data Sheet * available in PDF format from www.microchip.com * ******************************************************************************/ #define pr_fmt(fmt) KBUILD_MODNAME ": " fmt #include <linux/hardirq.h> #include <linux/module.h> #include <linux/init.h> #include <linux/interrupt.h> #include <linux/ioport.h> #include <linux/eisa.h> #include <linux/pci.h> #include <linux/dma-mapping.h> #include <linux/netdevice.h> #include <linux/etherdevice.h> #include <linux/delay.h> #include <linux/spinlock.h> #include <linux/workqueue.h> #include <linux/mii.h> #include "tlan.h" /* For removing EISA devices */ static struct net_device *tlan_eisa_devices; static int tlan_devices_installed; /* Set speed, duplex and aui settings */ static int aui[MAX_TLAN_BOARDS]; static int duplex[MAX_TLAN_BOARDS]; static int speed[MAX_TLAN_BOARDS]; static int boards_found; module_param_array(aui, int, NULL, 0); module_param_array(duplex, int, NULL, 0); module_param_array(speed, int, NULL, 0); MODULE_PARM_DESC(aui, "ThunderLAN use AUI port(s) (0-1)"); MODULE_PARM_DESC(duplex, "ThunderLAN duplex setting(s) (0-default, 1-half, 2-full)"); MODULE_PARM_DESC(speed, "ThunderLAN port speed setting(s) (0,10,100)"); MODULE_AUTHOR("Maintainer: Samuel Chessman <chessman@tux.org>"); MODULE_DESCRIPTION("Driver for TI ThunderLAN based ethernet PCI adapters"); MODULE_LICENSE("GPL"); /* Turn on debugging. * See Documentation/networking/device_drivers/ethernet/ti/tlan.rst for details */ static int debug; module_param(debug, int, 0); MODULE_PARM_DESC(debug, "ThunderLAN debug mask"); static const char tlan_signature[] = "TLAN"; static const char tlan_banner[] = "ThunderLAN driver v1.17\n"; static int tlan_have_pci; static int tlan_have_eisa; static const char * const media[] = { "10BaseT-HD", "10BaseT-FD", "100baseTx-HD", "100BaseTx-FD", "100BaseT4", NULL }; static struct board { const char *device_label; u32 flags; u16 addr_ofs; } board_info[] = { { "Compaq Netelligent 10 T PCI UTP", TLAN_ADAPTER_ACTIVITY_LED, 0x83 }, { "Compaq Netelligent 10/100 TX PCI UTP", TLAN_ADAPTER_ACTIVITY_LED, 0x83 }, { "Compaq Integrated NetFlex-3/P", TLAN_ADAPTER_NONE, 0x83 }, { "Compaq NetFlex-3/P", TLAN_ADAPTER_UNMANAGED_PHY | TLAN_ADAPTER_BIT_RATE_PHY, 0x83 }, { "Compaq NetFlex-3/P", TLAN_ADAPTER_NONE, 0x83 }, { "Compaq Netelligent Integrated 10/100 TX UTP", TLAN_ADAPTER_ACTIVITY_LED, 0x83 }, { "Compaq Netelligent Dual 10/100 TX PCI UTP", TLAN_ADAPTER_NONE, 0x83 }, { "Compaq Netelligent 10/100 TX Embedded UTP", TLAN_ADAPTER_NONE, 0x83 }, { "Olicom OC-2183/2185", TLAN_ADAPTER_USE_INTERN_10, 0x83 }, { "Olicom OC-2325", TLAN_ADAPTER_ACTIVITY_LED | TLAN_ADAPTER_UNMANAGED_PHY, 0xf8 }, { "Olicom OC-2326", TLAN_ADAPTER_ACTIVITY_LED | TLAN_ADAPTER_USE_INTERN_10, 0xf8 }, { "Compaq Netelligent 10/100 TX UTP", TLAN_ADAPTER_ACTIVITY_LED, 0x83 }, { "Compaq Netelligent 10 T/2 PCI UTP/coax", TLAN_ADAPTER_NONE, 0x83 }, { "Compaq NetFlex-3/E", TLAN_ADAPTER_ACTIVITY_LED | /* EISA card */ TLAN_ADAPTER_UNMANAGED_PHY | TLAN_ADAPTER_BIT_RATE_PHY, 0x83 }, { "Compaq NetFlex-3/E", TLAN_ADAPTER_ACTIVITY_LED, 0x83 }, /* EISA card */ }; static const struct pci_device_id tlan_pci_tbl[] = { { PCI_VENDOR_ID_COMPAQ, PCI_DEVICE_ID_COMPAQ_NETEL10, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0 }, { PCI_VENDOR_ID_COMPAQ, PCI_DEVICE_ID_COMPAQ_NETEL100, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 1 }, { PCI_VENDOR_ID_COMPAQ, PCI_DEVICE_ID_COMPAQ_NETFLEX3I, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 2 }, { PCI_VENDOR_ID_COMPAQ, PCI_DEVICE_ID_COMPAQ_THUNDER, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 3 }, { PCI_VENDOR_ID_COMPAQ, PCI_DEVICE_ID_COMPAQ_NETFLEX3B, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 4 }, { PCI_VENDOR_ID_COMPAQ, PCI_DEVICE_ID_COMPAQ_NETEL100PI, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 5 }, { PCI_VENDOR_ID_COMPAQ, PCI_DEVICE_ID_COMPAQ_NETEL100D, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 6 }, { PCI_VENDOR_ID_COMPAQ, PCI_DEVICE_ID_COMPAQ_NETEL100I, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 7 }, { PCI_VENDOR_ID_OLICOM, PCI_DEVICE_ID_OLICOM_OC2183, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 8 }, { PCI_VENDOR_ID_OLICOM, PCI_DEVICE_ID_OLICOM_OC2325, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 9 }, { PCI_VENDOR_ID_OLICOM, PCI_DEVICE_ID_OLICOM_OC2326, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 10 }, { PCI_VENDOR_ID_COMPAQ, PCI_DEVICE_ID_NETELLIGENT_10_100_WS_5100, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 11 }, { PCI_VENDOR_ID_COMPAQ, PCI_DEVICE_ID_NETELLIGENT_10_T2, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 12 }, { 0,} }; MODULE_DEVICE_TABLE(pci, tlan_pci_tbl); static void tlan_eisa_probe(void); static void tlan_eisa_cleanup(void); static int tlan_init(struct net_device *); static int tlan_open(struct net_device *dev); static netdev_tx_t tlan_start_tx(struct sk_buff *, struct net_device *); static irqreturn_t tlan_handle_interrupt(int, void *); static int tlan_close(struct net_device *); static struct net_device_stats *tlan_get_stats(struct net_device *); static void tlan_set_multicast_list(struct net_device *); static int tlan_ioctl(struct net_device *dev, struct ifreq *rq, int cmd); static int tlan_probe1(struct pci_dev *pdev, long ioaddr, int irq, int rev, const struct pci_device_id *ent); static void tlan_tx_timeout(struct net_device *dev, unsigned int txqueue); static void tlan_tx_timeout_work(struct work_struct *work); static int tlan_init_one(struct pci_dev *pdev, const struct pci_device_id *ent); static u32 tlan_handle_tx_eof(struct net_device *, u16); static u32 tlan_handle_stat_overflow(struct net_device *, u16); static u32 tlan_handle_rx_eof(struct net_device *, u16); static u32 tlan_handle_dummy(struct net_device *, u16); static u32 tlan_handle_tx_eoc(struct net_device *, u16); static u32 tlan_handle_status_check(struct net_device *, u16); static u32 tlan_handle_rx_eoc(struct net_device *, u16); static void tlan_timer(struct timer_list *t); static void tlan_phy_monitor(struct timer_list *t); static void tlan_reset_lists(struct net_device *); static void tlan_free_lists(struct net_device *); static void tlan_print_dio(u16); static void tlan_print_list(struct tlan_list *, char *, int); static void tlan_read_and_clear_stats(struct net_device *, int); static void tlan_reset_adapter(struct net_device *); static void tlan_finish_reset(struct net_device *); static void tlan_set_mac(struct net_device *, int areg, const char *mac); static void __tlan_phy_print(struct net_device *); static void tlan_phy_print(struct net_device *); static void tlan_phy_detect(struct net_device *); static void tlan_phy_power_down(struct net_device *); static void tlan_phy_power_up(struct net_device *); static void tlan_phy_reset(struct net_device *); static void tlan_phy_start_link(struct net_device *); static void tlan_phy_finish_auto_neg(struct net_device *); /* static int tlan_phy_nop(struct net_device *); static int tlan_phy_internal_check(struct net_device *); static int tlan_phy_internal_service(struct net_device *); static int tlan_phy_dp83840a_check(struct net_device *); */ static bool __tlan_mii_read_reg(struct net_device *, u16, u16, u16 *); static void tlan_mii_read_reg(struct net_device *, u16, u16, u16 *); static void tlan_mii_send_data(u16, u32, unsigned); static void tlan_mii_sync(u16); static void __tlan_mii_write_reg(struct net_device *, u16, u16, u16); static void tlan_mii_write_reg(struct net_device *, u16, u16, u16); static void tlan_ee_send_start(u16); static int tlan_ee_send_byte(u16, u8, int); static void tlan_ee_receive_byte(u16, u8 *, int); static int tlan_ee_read_byte(struct net_device *, u8, u8 *); static inline void tlan_store_skb(struct tlan_list *tag, struct sk_buff *skb) { unsigned long addr = (unsigned long)skb; tag->buffer[9].address = addr; tag->buffer[8].address = upper_32_bits(addr); } static inline struct sk_buff * tlan_get_skb(const struct tlan_list *tag) { unsigned long addr; addr = tag->buffer[9].address; addr |= ((unsigned long) tag->buffer[8].address << 16) << 16; return (struct sk_buff *) addr; } static u32 (*tlan_int_vector[TLAN_INT_NUMBER_OF_INTS])(struct net_device *, u16) = { NULL, tlan_handle_tx_eof, tlan_handle_stat_overflow, tlan_handle_rx_eof, tlan_handle_dummy, tlan_handle_tx_eoc, tlan_handle_status_check, tlan_handle_rx_eoc }; static void tlan_set_timer(struct net_device *dev, u32 ticks, u32 type) { struct tlan_priv *priv = netdev_priv(dev); unsigned long flags = 0; spin_lock_irqsave(&priv->lock, flags); if (priv->timer.function != NULL && priv->timer_type != TLAN_TIMER_ACTIVITY) { spin_unlock_irqrestore(&priv->lock, flags); return; } priv->timer.function = tlan_timer; spin_unlock_irqrestore(&priv->lock, flags); priv->timer_set_at = jiffies; priv->timer_type = type; mod_timer(&priv->timer, jiffies + ticks); } /***************************************************************************** ****************************************************************************** ThunderLAN driver primary functions these functions are more or less common to all linux network drivers. ****************************************************************************** *****************************************************************************/ /*************************************************************** * tlan_remove_one * * Returns: * Nothing * Parms: * None * * Goes through the TLanDevices list and frees the device * structs and memory associated with each device (lists * and buffers). It also ureserves the IO port regions * associated with this device. * **************************************************************/ static void tlan_remove_one(struct pci_dev *pdev) { struct net_device *dev = pci_get_drvdata(pdev); struct tlan_priv *priv = netdev_priv(dev); unregister_netdev(dev); if (priv->dma_storage) { dma_free_coherent(&priv->pci_dev->dev, priv->dma_size, priv->dma_storage, priv->dma_storage_dma); } #ifdef CONFIG_PCI pci_release_regions(pdev); #endif cancel_work_sync(&priv->tlan_tqueue); free_netdev(dev); } static void tlan_start(struct net_device *dev) { tlan_reset_lists(dev); /* NOTE: It might not be necessary to read the stats before a reset if you don't care what the values are. */ tlan_read_and_clear_stats(dev, TLAN_IGNORE); tlan_reset_adapter(dev); netif_wake_queue(dev); } static void tlan_stop(struct net_device *dev) { struct tlan_priv *priv = netdev_priv(dev); del_timer_sync(&priv->media_timer); tlan_read_and_clear_stats(dev, TLAN_RECORD); outl(TLAN_HC_AD_RST, dev->base_addr + TLAN_HOST_CMD); /* Reset and power down phy */ tlan_reset_adapter(dev); if (priv->timer.function != NULL) { del_timer_sync(&priv->timer); priv->timer.function = NULL; } } static int __maybe_unused tlan_suspend(struct device *dev_d) { struct net_device *dev = dev_get_drvdata(dev_d); if (netif_running(dev)) tlan_stop(dev); netif_device_detach(dev); return 0; } static int __maybe_unused tlan_resume(struct device *dev_d) { struct net_device *dev = dev_get_drvdata(dev_d); netif_device_attach(dev); if (netif_running(dev)) tlan_start(dev); return 0; } static SIMPLE_DEV_PM_OPS(tlan_pm_ops, tlan_suspend, tlan_resume); static struct pci_driver tlan_driver = { .name = "tlan", .id_table = tlan_pci_tbl, .probe = tlan_init_one, .remove = tlan_remove_one, .driver.pm = &tlan_pm_ops, }; static int __init tlan_probe(void) { int rc = -ENODEV; pr_info("%s", tlan_banner); TLAN_DBG(TLAN_DEBUG_PROBE, "Starting PCI Probe....\n"); /* Use new style PCI probing. Now the kernel will do most of this for us */ rc = pci_register_driver(&tlan_driver); if (rc != 0) { pr_err("Could not register pci driver\n"); goto err_out_pci_free; } TLAN_DBG(TLAN_DEBUG_PROBE, "Starting EISA Probe....\n"); tlan_eisa_probe(); pr_info("%d device%s installed, PCI: %d EISA: %d\n", tlan_devices_installed, tlan_devices_installed == 1 ? "" : "s", tlan_have_pci, tlan_have_eisa); if (tlan_devices_installed == 0) { rc = -ENODEV; goto err_out_pci_unreg; } return 0; err_out_pci_unreg: pci_unregister_driver(&tlan_driver); err_out_pci_free: return rc; } static int tlan_init_one(struct pci_dev *pdev, const struct pci_device_id *ent) { return tlan_probe1(pdev, -1, -1, 0, ent); } /* *************************************************************** * tlan_probe1 * * Returns: * 0 on success, error code on error * Parms: * none * * The name is lower case to fit in with all the rest of * the netcard_probe names. This function looks for * another TLan based adapter, setting it up with the * allocated device struct if one is found. * tlan_probe has been ported to the new net API and * now allocates its own device structure. This function * is also used by modules. * **************************************************************/ static int tlan_probe1(struct pci_dev *pdev, long ioaddr, int irq, int rev, const struct pci_device_id *ent) { struct net_device *dev; struct tlan_priv *priv; u16 device_id; int reg, rc = -ENODEV; #ifdef CONFIG_PCI if (pdev) { rc = pci_enable_device(pdev); if (rc) return rc; rc = pci_request_regions(pdev, tlan_signature); if (rc) { pr_err("Could not reserve IO regions\n"); goto err_out; } } #endif /* CONFIG_PCI */ dev = alloc_etherdev(sizeof(struct tlan_priv)); if (dev == NULL) { rc = -ENOMEM; goto err_out_regions; } SET_NETDEV_DEV(dev, &pdev->dev); priv = netdev_priv(dev); priv->pci_dev = pdev; priv->dev = dev; /* Is this a PCI device? */ if (pdev) { u32 pci_io_base = 0; priv->adapter = &board_info[ent->driver_data]; rc = dma_set_mask(&pdev->dev, DMA_BIT_MASK(32)); if (rc) { pr_err("No suitable PCI mapping available\n"); goto err_out_free_dev; } for (reg = 0; reg <= 5; reg++) { if (pci_resource_flags(pdev, reg) & IORESOURCE_IO) { pci_io_base = pci_resource_start(pdev, reg); TLAN_DBG(TLAN_DEBUG_GNRL, "IO mapping is available at %x.\n", pci_io_base); break; } } if (!pci_io_base) { pr_err("No IO mappings available\n"); rc = -EIO; goto err_out_free_dev; } dev->base_addr = pci_io_base; dev->irq = pdev->irq; priv->adapter_rev = pdev->revision; pci_set_master(pdev); pci_set_drvdata(pdev, dev); } else { /* EISA card */ /* This is a hack. We need to know which board structure * is suited for this adapter */ device_id = inw(ioaddr + EISA_ID2); if (device_id == 0x20F1) { priv->adapter = &board_info[13]; /* NetFlex-3/E */ priv->adapter_rev = 23; /* TLAN 2.3 */ } else { priv->adapter = &board_info[14]; priv->adapter_rev = 10; /* TLAN 1.0 */ } dev->base_addr = ioaddr; dev->irq = irq; } /* Kernel parameters */ if (dev->mem_start) { priv->aui = dev->mem_start & 0x01; priv->duplex = ((dev->mem_start & 0x06) == 0x06) ? 0 : (dev->mem_start & 0x06) >> 1; priv->speed = ((dev->mem_start & 0x18) == 0x18) ? 0 : (dev->mem_start & 0x18) >> 3; if (priv->speed == 0x1) priv->speed = TLAN_SPEED_10; else if (priv->speed == 0x2) priv->speed = TLAN_SPEED_100; debug = priv->debug = dev->mem_end; } else { priv->aui = aui[boards_found]; priv->speed = speed[boards_found]; priv->duplex = duplex[boards_found]; priv->debug = debug; } /* This will be used when we get an adapter error from * within our irq handler */ INIT_WORK(&priv->tlan_tqueue, tlan_tx_timeout_work); spin_lock_init(&priv->lock); rc = tlan_init(dev); if (rc) { pr_err("Could not set up device\n"); goto err_out_free_dev; } rc = register_netdev(dev); if (rc) { pr_err("Could not register device\n"); goto err_out_uninit; } tlan_devices_installed++; boards_found++; /* pdev is NULL if this is an EISA device */ if (pdev) tlan_have_pci++; else { priv->next_device = tlan_eisa_devices; tlan_eisa_devices = dev; tlan_have_eisa++; } netdev_info(dev, "irq=%2d, io=%04x, %s, Rev. %d\n", (int)dev->irq, (int)dev->base_addr, priv->adapter->device_label, priv->adapter_rev); return 0; err_out_uninit: dma_free_coherent(&priv->pci_dev->dev, priv->dma_size, priv->dma_storage, priv->dma_storage_dma); err_out_free_dev: free_netdev(dev); err_out_regions: #ifdef CONFIG_PCI if (pdev) pci_release_regions(pdev); err_out: #endif if (pdev) pci_disable_device(pdev); return rc; } static void tlan_eisa_cleanup(void) { struct net_device *dev; struct tlan_priv *priv; while (tlan_have_eisa) { dev = tlan_eisa_devices; priv = netdev_priv(dev); if (priv->dma_storage) { dma_free_coherent(&priv->pci_dev->dev, priv->dma_size, priv->dma_storage, priv->dma_storage_dma); } release_region(dev->base_addr, 0x10); unregister_netdev(dev); tlan_eisa_devices = priv->next_device; free_netdev(dev); tlan_have_eisa--; } } static void __exit tlan_exit(void) { pci_unregister_driver(&tlan_driver); if (tlan_have_eisa) tlan_eisa_cleanup(); } /* Module loading/unloading */ module_init(tlan_probe); module_exit(tlan_exit); /************************************************************** * tlan_eisa_probe * * Returns: 0 on success, 1 otherwise * * Parms: None * * * This functions probes for EISA devices and calls * TLan_probe1 when one is found. * *************************************************************/ static void __init tlan_eisa_probe(void) { long ioaddr; int irq; u16 device_id; if (!EISA_bus) { TLAN_DBG(TLAN_DEBUG_PROBE, "No EISA bus present\n"); return; } /* Loop through all slots of the EISA bus */ for (ioaddr = 0x1000; ioaddr < 0x9000; ioaddr += 0x1000) { TLAN_DBG(TLAN_DEBUG_PROBE, "EISA_ID 0x%4x: 0x%4x\n", (int) ioaddr + 0xc80, inw(ioaddr + EISA_ID)); TLAN_DBG(TLAN_DEBUG_PROBE, "EISA_ID 0x%4x: 0x%4x\n", (int) ioaddr + 0xc82, inw(ioaddr + EISA_ID2)); TLAN_DBG(TLAN_DEBUG_PROBE, "Probing for EISA adapter at IO: 0x%4x : ", (int) ioaddr); if (request_region(ioaddr, 0x10, tlan_signature) == NULL) goto out; if (inw(ioaddr + EISA_ID) != 0x110E) { release_region(ioaddr, 0x10); goto out; } device_id = inw(ioaddr + EISA_ID2); if (device_id != 0x20F1 && device_id != 0x40F1) { release_region(ioaddr, 0x10); goto out; } /* check if adapter is enabled */ if (inb(ioaddr + EISA_CR) != 0x1) { release_region(ioaddr, 0x10); goto out2; } if (debug == 0x10) pr_info("Found one\n"); /* Get irq from board */ switch (inb(ioaddr + 0xcc0)) { case(0x10): irq = 5; break; case(0x20): irq = 9; break; case(0x40): irq = 10; break; case(0x80): irq = 11; break; default: goto out; } /* Setup the newly found eisa adapter */ tlan_probe1(NULL, ioaddr, irq, 12, NULL); continue; out: if (debug == 0x10) pr_info("None found\n"); continue; out2: if (debug == 0x10) pr_info("Card found but it is not enabled, skipping\n"); continue; } } #ifdef CONFIG_NET_POLL_CONTROLLER static void tlan_poll(struct net_device *dev) { disable_irq(dev->irq); tlan_handle_interrupt(dev->irq, dev); enable_irq(dev->irq); } #endif static const struct net_device_ops tlan_netdev_ops = { .ndo_open = tlan_open, .ndo_stop = tlan_close, .ndo_start_xmit = tlan_start_tx, .ndo_tx_timeout = tlan_tx_timeout, .ndo_get_stats = tlan_get_stats, .ndo_set_rx_mode = tlan_set_multicast_list, .ndo_eth_ioctl = tlan_ioctl, .ndo_set_mac_address = eth_mac_addr, .ndo_validate_addr = eth_validate_addr, #ifdef CONFIG_NET_POLL_CONTROLLER .ndo_poll_controller = tlan_poll, #endif }; static void tlan_get_drvinfo(struct net_device *dev, struct ethtool_drvinfo *info) { struct tlan_priv *priv = netdev_priv(dev); strscpy(info->driver, KBUILD_MODNAME, sizeof(info->driver)); if (priv->pci_dev) strscpy(info->bus_info, pci_name(priv->pci_dev), sizeof(info->bus_info)); else strscpy(info->bus_info, "EISA", sizeof(info->bus_info)); } static int tlan_get_eeprom_len(struct net_device *dev) { return TLAN_EEPROM_SIZE; } static int tlan_get_eeprom(struct net_device *dev, struct ethtool_eeprom *eeprom, u8 *data) { int i; for (i = 0; i < TLAN_EEPROM_SIZE; i++) if (tlan_ee_read_byte(dev, i, &data[i])) return -EIO; return 0; } static const struct ethtool_ops tlan_ethtool_ops = { .get_drvinfo = tlan_get_drvinfo, .get_link = ethtool_op_get_link, .get_eeprom_len = tlan_get_eeprom_len, .get_eeprom = tlan_get_eeprom, }; /*************************************************************** * tlan_init * * Returns: * 0 on success, error code otherwise. * Parms: * dev The structure of the device to be * init'ed. * * This function completes the initialization of the * device structure and driver. It reserves the IO * addresses, allocates memory for the lists and bounce * buffers, retrieves the MAC address from the eeprom * and assignes the device's methods. * **************************************************************/ static int tlan_init(struct net_device *dev) { int dma_size; int err; int i; struct tlan_priv *priv; u8 addr[ETH_ALEN]; priv = netdev_priv(dev); dma_size = (TLAN_NUM_RX_LISTS + TLAN_NUM_TX_LISTS) * (sizeof(struct tlan_list)); priv->dma_storage = dma_alloc_coherent(&priv->pci_dev->dev, dma_size, &priv->dma_storage_dma, GFP_KERNEL); priv->dma_size = dma_size; if (priv->dma_storage == NULL) { pr_err("Could not allocate lists and buffers for %s\n", dev->name); return -ENOMEM; } priv->rx_list = (struct tlan_list *) ALIGN((unsigned long)priv->dma_storage, 8); priv->rx_list_dma = ALIGN(priv->dma_storage_dma, 8); priv->tx_list = priv->rx_list + TLAN_NUM_RX_LISTS; priv->tx_list_dma = priv->rx_list_dma + sizeof(struct tlan_list)*TLAN_NUM_RX_LISTS; err = 0; for (i = 0; i < ETH_ALEN; i++) err |= tlan_ee_read_byte(dev, (u8) priv->adapter->addr_ofs + i, addr + i); if (err) { pr_err("%s: Error reading MAC from eeprom: %d\n", dev->name, err); } /* Olicom OC-2325/OC-2326 have the address byte-swapped */ if (priv->adapter->addr_ofs == 0xf8) { for (i = 0; i < ETH_ALEN; i += 2) { char tmp = addr[i]; addr[i] = addr[i + 1]; addr[i + 1] = tmp; } } eth_hw_addr_set(dev, addr); netif_carrier_off(dev); /* Device methods */ dev->netdev_ops = &tlan_netdev_ops; dev->ethtool_ops = &tlan_ethtool_ops; dev->watchdog_timeo = TX_TIMEOUT; return 0; } /*************************************************************** * tlan_open * * Returns: * 0 on success, error code otherwise. * Parms: * dev Structure of device to be opened. * * This routine puts the driver and TLAN adapter in a * state where it is ready to send and receive packets. * It allocates the IRQ, resets and brings the adapter * out of reset, and allows interrupts. It also delays * the startup for autonegotiation or sends a Rx GO * command to the adapter, as appropriate. * **************************************************************/ static int tlan_open(struct net_device *dev) { struct tlan_priv *priv = netdev_priv(dev); int err; priv->tlan_rev = tlan_dio_read8(dev->base_addr, TLAN_DEF_REVISION); err = request_irq(dev->irq, tlan_handle_interrupt, IRQF_SHARED, dev->name, dev); if (err) { netdev_err(dev, "Cannot open because IRQ %d is already in use\n", dev->irq); return err; } timer_setup(&priv->timer, NULL, 0); timer_setup(&priv->media_timer, tlan_phy_monitor, 0); tlan_start(dev); TLAN_DBG(TLAN_DEBUG_GNRL, "%s: Opened. TLAN Chip Rev: %x\n", dev->name, priv->tlan_rev); return 0; } /************************************************************** * tlan_ioctl * * Returns: * 0 on success, error code otherwise * Params: * dev structure of device to receive ioctl. * * rq ifreq structure to hold userspace data. * * cmd ioctl command. * * *************************************************************/ static int tlan_ioctl(struct net_device *dev, struct ifreq *rq, int cmd) { struct tlan_priv *priv = netdev_priv(dev); struct mii_ioctl_data *data = if_mii(rq); u32 phy = priv->phy[priv->phy_num]; if (!priv->phy_online) return -EAGAIN; switch (cmd) { case SIOCGMIIPHY: /* get address of MII PHY in use. */ data->phy_id = phy; fallthrough; case SIOCGMIIREG: /* read MII PHY register. */ tlan_mii_read_reg(dev, data->phy_id & 0x1f, data->reg_num & 0x1f, &data->val_out); return 0; case SIOCSMIIREG: /* write MII PHY register. */ tlan_mii_write_reg(dev, data->phy_id & 0x1f, data->reg_num & 0x1f, data->val_in); return 0; default: return -EOPNOTSUPP; } } /*************************************************************** * tlan_tx_timeout * * Returns: nothing * * Params: * dev structure of device which timed out * during transmit. * **************************************************************/ static void tlan_tx_timeout(struct net_device *dev, unsigned int txqueue) { TLAN_DBG(TLAN_DEBUG_GNRL, "%s: Transmit timed out.\n", dev->name); /* Ok so we timed out, lets see what we can do about it...*/ tlan_free_lists(dev); tlan_reset_lists(dev); tlan_read_and_clear_stats(dev, TLAN_IGNORE); tlan_reset_adapter(dev); netif_trans_update(dev); /* prevent tx timeout */ netif_wake_queue(dev); } /*************************************************************** * tlan_tx_timeout_work * * Returns: nothing * * Params: * work work item of device which timed out * **************************************************************/ static void tlan_tx_timeout_work(struct work_struct *work) { struct tlan_priv *priv = container_of(work, struct tlan_priv, tlan_tqueue); tlan_tx_timeout(priv->dev, UINT_MAX); } /*************************************************************** * tlan_start_tx * * Returns: * 0 on success, non-zero on failure. * Parms: * skb A pointer to the sk_buff containing the * frame to be sent. * dev The device to send the data on. * * This function adds a frame to the Tx list to be sent * ASAP. First it verifies that the adapter is ready and * there is room in the queue. Then it sets up the next * available list, copies the frame to the corresponding * buffer. If the adapter Tx channel is idle, it gives * the adapter a Tx Go command on the list, otherwise it * sets the forward address of the previous list to point * to this one. Then it frees the sk_buff. * **************************************************************/ static netdev_tx_t tlan_start_tx(struct sk_buff *skb, struct net_device *dev) { struct tlan_priv *priv = netdev_priv(dev); dma_addr_t tail_list_phys; struct tlan_list *tail_list; unsigned long flags; unsigned int txlen; if (!priv->phy_online) { TLAN_DBG(TLAN_DEBUG_TX, "TRANSMIT: %s PHY is not ready\n", dev->name); dev_kfree_skb_any(skb); return NETDEV_TX_OK; } if (skb_padto(skb, TLAN_MIN_FRAME_SIZE)) return NETDEV_TX_OK; txlen = max(skb->len, (unsigned int)TLAN_MIN_FRAME_SIZE); tail_list = priv->tx_list + priv->tx_tail; tail_list_phys = priv->tx_list_dma + sizeof(struct tlan_list)*priv->tx_tail; if (tail_list->c_stat != TLAN_CSTAT_UNUSED) { TLAN_DBG(TLAN_DEBUG_TX, "TRANSMIT: %s is busy (Head=%d Tail=%d)\n", dev->name, priv->tx_head, priv->tx_tail); netif_stop_queue(dev); priv->tx_busy_count++; return NETDEV_TX_BUSY; } tail_list->forward = 0; tail_list->buffer[0].address = dma_map_single(&priv->pci_dev->dev, skb->data, txlen, DMA_TO_DEVICE); tlan_store_skb(tail_list, skb); tail_list->frame_size = (u16) txlen; tail_list->buffer[0].count = TLAN_LAST_BUFFER | (u32) txlen; tail_list->buffer[1].count = 0; tail_list->buffer[1].address = 0; spin_lock_irqsave(&priv->lock, flags); tail_list->c_stat = TLAN_CSTAT_READY; if (!priv->tx_in_progress) { priv->tx_in_progress = 1; TLAN_DBG(TLAN_DEBUG_TX, "TRANSMIT: Starting TX on buffer %d\n", priv->tx_tail); outl(tail_list_phys, dev->base_addr + TLAN_CH_PARM); outl(TLAN_HC_GO, dev->base_addr + TLAN_HOST_CMD); } else { TLAN_DBG(TLAN_DEBUG_TX, "TRANSMIT: Adding buffer %d to TX channel\n", priv->tx_tail); if (priv->tx_tail == 0) { (priv->tx_list + (TLAN_NUM_TX_LISTS - 1))->forward = tail_list_phys; } else { (priv->tx_list + (priv->tx_tail - 1))->forward = tail_list_phys; } } spin_unlock_irqrestore(&priv->lock, flags); CIRC_INC(priv->tx_tail, TLAN_NUM_TX_LISTS); return NETDEV_TX_OK; } /*************************************************************** * tlan_handle_interrupt * * Returns: * Nothing * Parms: * irq The line on which the interrupt * occurred. * dev_id A pointer to the device assigned to * this irq line. * * This function handles an interrupt generated by its * assigned TLAN adapter. The function deactivates * interrupts on its adapter, records the type of * interrupt, executes the appropriate subhandler, and * acknowdges the interrupt to the adapter (thus * re-enabling adapter interrupts. * **************************************************************/ static irqreturn_t tlan_handle_interrupt(int irq, void *dev_id) { struct net_device *dev = dev_id; struct tlan_priv *priv = netdev_priv(dev); u16 host_int; u16 type; spin_lock(&priv->lock); host_int = inw(dev->base_addr + TLAN_HOST_INT); type = (host_int & TLAN_HI_IT_MASK) >> 2; if (type) { u32 ack; u32 host_cmd; outw(host_int, dev->base_addr + TLAN_HOST_INT); ack = tlan_int_vector[type](dev, host_int); if (ack) { host_cmd = TLAN_HC_ACK | ack | (type << 18); outl(host_cmd, dev->base_addr + TLAN_HOST_CMD); } } spin_unlock(&priv->lock); return IRQ_RETVAL(type); } /*************************************************************** * tlan_close * * Returns: * An error code. * Parms: * dev The device structure of the device to * close. * * This function shuts down the adapter. It records any * stats, puts the adapter into reset state, deactivates * its time as needed, and frees the irq it is using. * **************************************************************/ static int tlan_close(struct net_device *dev) { tlan_stop(dev); free_irq(dev->irq, dev); tlan_free_lists(dev); TLAN_DBG(TLAN_DEBUG_GNRL, "Device %s closed.\n", dev->name); return 0; } /*************************************************************** * tlan_get_stats * * Returns: * A pointer to the device's statistics structure. * Parms: * dev The device structure to return the * stats for. * * This function updates the devices statistics by reading * the TLAN chip's onboard registers. Then it returns the * address of the statistics structure. * **************************************************************/ static struct net_device_stats *tlan_get_stats(struct net_device *dev) { struct tlan_priv *priv = netdev_priv(dev); int i; /* Should only read stats if open ? */ tlan_read_and_clear_stats(dev, TLAN_RECORD); TLAN_DBG(TLAN_DEBUG_RX, "RECEIVE: %s EOC count = %d\n", dev->name, priv->rx_eoc_count); TLAN_DBG(TLAN_DEBUG_TX, "TRANSMIT: %s Busy count = %d\n", dev->name, priv->tx_busy_count); if (debug & TLAN_DEBUG_GNRL) { tlan_print_dio(dev->base_addr); tlan_phy_print(dev); } if (debug & TLAN_DEBUG_LIST) { for (i = 0; i < TLAN_NUM_RX_LISTS; i++) tlan_print_list(priv->rx_list + i, "RX", i); for (i = 0; i < TLAN_NUM_TX_LISTS; i++) tlan_print_list(priv->tx_list + i, "TX", i); } return &dev->stats; } /*************************************************************** * tlan_set_multicast_list * * Returns: * Nothing * Parms: * dev The device structure to set the * multicast list for. * * This function sets the TLAN adaptor to various receive * modes. If the IFF_PROMISC flag is set, promiscuous * mode is acitviated. Otherwise, promiscuous mode is * turned off. If the IFF_ALLMULTI flag is set, then * the hash table is set to receive all group addresses. * Otherwise, the first three multicast addresses are * stored in AREG_1-3, and the rest are selected via the * hash table, as necessary. * **************************************************************/ static void tlan_set_multicast_list(struct net_device *dev) { struct netdev_hw_addr *ha; u32 hash1 = 0; u32 hash2 = 0; int i; u32 offset; u8 tmp; if (dev->flags & IFF_PROMISC) { tmp = tlan_dio_read8(dev->base_addr, TLAN_NET_CMD); tlan_dio_write8(dev->base_addr, TLAN_NET_CMD, tmp | TLAN_NET_CMD_CAF); } else { tmp = tlan_dio_read8(dev->base_addr, TLAN_NET_CMD); tlan_dio_write8(dev->base_addr, TLAN_NET_CMD, tmp & ~TLAN_NET_CMD_CAF); if (dev->flags & IFF_ALLMULTI) { for (i = 0; i < 3; i++) tlan_set_mac(dev, i + 1, NULL); tlan_dio_write32(dev->base_addr, TLAN_HASH_1, 0xffffffff); tlan_dio_write32(dev->base_addr, TLAN_HASH_2, 0xffffffff); } else { i = 0; netdev_for_each_mc_addr(ha, dev) { if (i < 3) { tlan_set_mac(dev, i + 1, (char *) &ha->addr); } else { offset = tlan_hash_func((u8 *)&ha->addr); if (offset < 32) hash1 |= (1 << offset); else hash2 |= (1 << (offset - 32)); } i++; } for ( ; i < 3; i++) tlan_set_mac(dev, i + 1, NULL); tlan_dio_write32(dev->base_addr, TLAN_HASH_1, hash1); tlan_dio_write32(dev->base_addr, TLAN_HASH_2, hash2); } } } /***************************************************************************** ****************************************************************************** ThunderLAN driver interrupt vectors and table please see chap. 4, "Interrupt Handling" of the "ThunderLAN Programmer's Guide" for more informations on handling interrupts generated by TLAN based adapters. ****************************************************************************** *****************************************************************************/ /*************************************************************** * tlan_handle_tx_eof * * Returns: * 1 * Parms: * dev Device assigned the IRQ that was * raised. * host_int The contents of the HOST_INT * port. * * This function handles Tx EOF interrupts which are raised * by the adapter when it has completed sending the * contents of a buffer. If detemines which list/buffer * was completed and resets it. If the buffer was the last * in the channel (EOC), then the function checks to see if * another buffer is ready to send, and if so, sends a Tx * Go command. Finally, the driver activates/continues the * activity LED. * **************************************************************/ static u32 tlan_handle_tx_eof(struct net_device *dev, u16 host_int) { struct tlan_priv *priv = netdev_priv(dev); int eoc = 0; struct tlan_list *head_list; dma_addr_t head_list_phys; u32 ack = 0; u16 tmp_c_stat; TLAN_DBG(TLAN_DEBUG_TX, "TRANSMIT: Handling TX EOF (Head=%d Tail=%d)\n", priv->tx_head, priv->tx_tail); head_list = priv->tx_list + priv->tx_head; while (((tmp_c_stat = head_list->c_stat) & TLAN_CSTAT_FRM_CMP) && (ack < 255)) { struct sk_buff *skb = tlan_get_skb(head_list); ack++; dma_unmap_single(&priv->pci_dev->dev, head_list->buffer[0].address, max(skb->len, (unsigned int)TLAN_MIN_FRAME_SIZE), DMA_TO_DEVICE); dev_kfree_skb_any(skb); head_list->buffer[8].address = 0; head_list->buffer[9].address = 0; if (tmp_c_stat & TLAN_CSTAT_EOC) eoc = 1; dev->stats.tx_bytes += head_list->frame_size; head_list->c_stat = TLAN_CSTAT_UNUSED; netif_start_queue(dev); CIRC_INC(priv->tx_head, TLAN_NUM_TX_LISTS); head_list = priv->tx_list + priv->tx_head; } if (!ack) netdev_info(dev, "Received interrupt for uncompleted TX frame\n"); if (eoc) { TLAN_DBG(TLAN_DEBUG_TX, "TRANSMIT: handling TX EOC (Head=%d Tail=%d)\n", priv->tx_head, priv->tx_tail); head_list = priv->tx_list + priv->tx_head; head_list_phys = priv->tx_list_dma + sizeof(struct tlan_list)*priv->tx_head; if ((head_list->c_stat & TLAN_CSTAT_READY) == TLAN_CSTAT_READY) { outl(head_list_phys, dev->base_addr + TLAN_CH_PARM); ack |= TLAN_HC_GO; } else { priv->tx_in_progress = 0; } } if (priv->adapter->flags & TLAN_ADAPTER_ACTIVITY_LED) { tlan_dio_write8(dev->base_addr, TLAN_LED_REG, TLAN_LED_LINK | TLAN_LED_ACT); if (priv->timer.function == NULL) { priv->timer.function = tlan_timer; priv->timer.expires = jiffies + TLAN_TIMER_ACT_DELAY; priv->timer_set_at = jiffies; priv->timer_type = TLAN_TIMER_ACTIVITY; add_timer(&priv->timer); } else if (priv->timer_type == TLAN_TIMER_ACTIVITY) { priv->timer_set_at = jiffies; } } return ack; } /*************************************************************** * TLan_HandleStatOverflow * * Returns: * 1 * Parms: * dev Device assigned the IRQ that was * raised. * host_int The contents of the HOST_INT * port. * * This function handles the Statistics Overflow interrupt * which means that one or more of the TLAN statistics * registers has reached 1/2 capacity and needs to be read. * **************************************************************/ static u32 tlan_handle_stat_overflow(struct net_device *dev, u16 host_int) { tlan_read_and_clear_stats(dev, TLAN_RECORD); return 1; } /*************************************************************** * TLan_HandleRxEOF * * Returns: * 1 * Parms: * dev Device assigned the IRQ that was * raised. * host_int The contents of the HOST_INT * port. * * This function handles the Rx EOF interrupt which * indicates a frame has been received by the adapter from * the net and the frame has been transferred to memory. * The function determines the bounce buffer the frame has * been loaded into, creates a new sk_buff big enough to * hold the frame, and sends it to protocol stack. It * then resets the used buffer and appends it to the end * of the list. If the frame was the last in the Rx * channel (EOC), the function restarts the receive channel * by sending an Rx Go command to the adapter. Then it * activates/continues the activity LED. * **************************************************************/ static u32 tlan_handle_rx_eof(struct net_device *dev, u16 host_int) { struct tlan_priv *priv = netdev_priv(dev); u32 ack = 0; int eoc = 0; struct tlan_list *head_list; struct sk_buff *skb; struct tlan_list *tail_list; u16 tmp_c_stat; dma_addr_t head_list_phys; TLAN_DBG(TLAN_DEBUG_RX, "RECEIVE: handling RX EOF (Head=%d Tail=%d)\n", priv->rx_head, priv->rx_tail); head_list = priv->rx_list + priv->rx_head; head_list_phys = priv->rx_list_dma + sizeof(struct tlan_list)*priv->rx_head; while (((tmp_c_stat = head_list->c_stat) & TLAN_CSTAT_FRM_CMP) && (ack < 255)) { dma_addr_t frame_dma = head_list->buffer[0].address; u32 frame_size = head_list->frame_size; struct sk_buff *new_skb; ack++; if (tmp_c_stat & TLAN_CSTAT_EOC) eoc = 1; new_skb = netdev_alloc_skb_ip_align(dev, TLAN_MAX_FRAME_SIZE + 5); if (!new_skb) goto drop_and_reuse; skb = tlan_get_skb(head_list); dma_unmap_single(&priv->pci_dev->dev, frame_dma, TLAN_MAX_FRAME_SIZE, DMA_FROM_DEVICE); skb_put(skb, frame_size); dev->stats.rx_bytes += frame_size; skb->protocol = eth_type_trans(skb, dev); netif_rx(skb); head_list->buffer[0].address = dma_map_single(&priv->pci_dev->dev, new_skb->data, TLAN_MAX_FRAME_SIZE, DMA_FROM_DEVICE); tlan_store_skb(head_list, new_skb); drop_and_reuse: head_list->forward = 0; head_list->c_stat = 0; tail_list = priv->rx_list + priv->rx_tail; tail_list->forward = head_list_phys; CIRC_INC(priv->rx_head, TLAN_NUM_RX_LISTS); CIRC_INC(priv->rx_tail, TLAN_NUM_RX_LISTS); head_list = priv->rx_list + priv->rx_head; head_list_phys = priv->rx_list_dma + sizeof(struct tlan_list)*priv->rx_head; } if (!ack) netdev_info(dev, "Received interrupt for uncompleted RX frame\n"); if (eoc) { TLAN_DBG(TLAN_DEBUG_RX, "RECEIVE: handling RX EOC (Head=%d Tail=%d)\n", priv->rx_head, priv->rx_tail); head_list = priv->rx_list + priv->rx_head; head_list_phys = priv->rx_list_dma + sizeof(struct tlan_list)*priv->rx_head; outl(head_list_phys, dev->base_addr + TLAN_CH_PARM); ack |= TLAN_HC_GO | TLAN_HC_RT; priv->rx_eoc_count++; } if (priv->adapter->flags & TLAN_ADAPTER_ACTIVITY_LED) { tlan_dio_write8(dev->base_addr, TLAN_LED_REG, TLAN_LED_LINK | TLAN_LED_ACT); if (priv->timer.function == NULL) { priv->timer.function = tlan_timer; priv->timer.expires = jiffies + TLAN_TIMER_ACT_DELAY; priv->timer_set_at = jiffies; priv->timer_type = TLAN_TIMER_ACTIVITY; add_timer(&priv->timer); } else if (priv->timer_type == TLAN_TIMER_ACTIVITY) { priv->timer_set_at = jiffies; } } return ack; } /*************************************************************** * tlan_handle_dummy * * Returns: * 1 * Parms: * dev Device assigned the IRQ that was * raised. * host_int The contents of the HOST_INT * port. * * This function handles the Dummy interrupt, which is * raised whenever a test interrupt is generated by setting * the Req_Int bit of HOST_CMD to 1. * **************************************************************/ static u32 tlan_handle_dummy(struct net_device *dev, u16 host_int) { netdev_info(dev, "Test interrupt\n"); return 1; } /*************************************************************** * tlan_handle_tx_eoc * * Returns: * 1 * Parms: * dev Device assigned the IRQ that was * raised. * host_int The contents of the HOST_INT * port. * * This driver is structured to determine EOC occurrences by * reading the CSTAT member of the list structure. Tx EOC * interrupts are disabled via the DIO INTDIS register. * However, TLAN chips before revision 3.0 didn't have this * functionality, so process EOC events if this is the * case. * **************************************************************/ static u32 tlan_handle_tx_eoc(struct net_device *dev, u16 host_int) { struct tlan_priv *priv = netdev_priv(dev); struct tlan_list *head_list; dma_addr_t head_list_phys; u32 ack = 1; if (priv->tlan_rev < 0x30) { TLAN_DBG(TLAN_DEBUG_TX, "TRANSMIT: handling TX EOC (Head=%d Tail=%d) -- IRQ\n", priv->tx_head, priv->tx_tail); head_list = priv->tx_list + priv->tx_head; head_list_phys = priv->tx_list_dma + sizeof(struct tlan_list)*priv->tx_head; if ((head_list->c_stat & TLAN_CSTAT_READY) == TLAN_CSTAT_READY) { netif_stop_queue(dev); outl(head_list_phys, dev->base_addr + TLAN_CH_PARM); ack |= TLAN_HC_GO; } else { priv->tx_in_progress = 0; } } return ack; } /*************************************************************** * tlan_handle_status_check * * Returns: * 0 if Adapter check, 1 if Network Status check. * Parms: * dev Device assigned the IRQ that was * raised. * host_int The contents of the HOST_INT * port. * * This function handles Adapter Check/Network Status * interrupts generated by the adapter. It checks the * vector in the HOST_INT register to determine if it is * an Adapter Check interrupt. If so, it resets the * adapter. Otherwise it clears the status registers * and services the PHY. * **************************************************************/ static u32 tlan_handle_status_check(struct net_device *dev, u16 host_int) { struct tlan_priv *priv = netdev_priv(dev); u32 ack; u32 error; u8 net_sts; u32 phy; u16 tlphy_ctl; u16 tlphy_sts; ack = 1; if (host_int & TLAN_HI_IV_MASK) { netif_stop_queue(dev); error = inl(dev->base_addr + TLAN_CH_PARM); netdev_info(dev, "Adaptor Error = 0x%x\n", error); tlan_read_and_clear_stats(dev, TLAN_RECORD); outl(TLAN_HC_AD_RST, dev->base_addr + TLAN_HOST_CMD); schedule_work(&priv->tlan_tqueue); netif_wake_queue(dev); ack = 0; } else { TLAN_DBG(TLAN_DEBUG_GNRL, "%s: Status Check\n", dev->name); phy = priv->phy[priv->phy_num]; net_sts = tlan_dio_read8(dev->base_addr, TLAN_NET_STS); if (net_sts) { tlan_dio_write8(dev->base_addr, TLAN_NET_STS, net_sts); TLAN_DBG(TLAN_DEBUG_GNRL, "%s: Net_Sts = %x\n", dev->name, (unsigned) net_sts); } if ((net_sts & TLAN_NET_STS_MIRQ) && (priv->phy_num == 0)) { __tlan_mii_read_reg(dev, phy, TLAN_TLPHY_STS, &tlphy_sts); __tlan_mii_read_reg(dev, phy, TLAN_TLPHY_CTL, &tlphy_ctl); if (!(tlphy_sts & TLAN_TS_POLOK) && !(tlphy_ctl & TLAN_TC_SWAPOL)) { tlphy_ctl |= TLAN_TC_SWAPOL; __tlan_mii_write_reg(dev, phy, TLAN_TLPHY_CTL, tlphy_ctl); } else if ((tlphy_sts & TLAN_TS_POLOK) && (tlphy_ctl & TLAN_TC_SWAPOL)) { tlphy_ctl &= ~TLAN_TC_SWAPOL; __tlan_mii_write_reg(dev, phy, TLAN_TLPHY_CTL, tlphy_ctl); } if (debug) __tlan_phy_print(dev); } } return ack; } /*************************************************************** * tlan_handle_rx_eoc * * Returns: * 1 * Parms: * dev Device assigned the IRQ that was * raised. * host_int The contents of the HOST_INT * port. * * This driver is structured to determine EOC occurrences by * reading the CSTAT member of the list structure. Rx EOC * interrupts are disabled via the DIO INTDIS register. * However, TLAN chips before revision 3.0 didn't have this * CSTAT member or a INTDIS register, so if this chip is * pre-3.0, process EOC interrupts normally. * **************************************************************/ static u32 tlan_handle_rx_eoc(struct net_device *dev, u16 host_int) { struct tlan_priv *priv = netdev_priv(dev); dma_addr_t head_list_phys; u32 ack = 1; if (priv->tlan_rev < 0x30) { TLAN_DBG(TLAN_DEBUG_RX, "RECEIVE: Handling RX EOC (head=%d tail=%d) -- IRQ\n", priv->rx_head, priv->rx_tail); head_list_phys = priv->rx_list_dma + sizeof(struct tlan_list)*priv->rx_head; outl(head_list_phys, dev->base_addr + TLAN_CH_PARM); ack |= TLAN_HC_GO | TLAN_HC_RT; priv->rx_eoc_count++; } return ack; } /***************************************************************************** ****************************************************************************** ThunderLAN driver timer function ****************************************************************************** *****************************************************************************/ /*************************************************************** * tlan_timer * * Returns: * Nothing * Parms: * data A value given to add timer when * add_timer was called. * * This function handles timed functionality for the * TLAN driver. The two current timer uses are for * delaying for autonegotionation and driving the ACT LED. * - Autonegotiation requires being allowed about * 2 1/2 seconds before attempting to transmit a * packet. It would be a very bad thing to hang * the kernel this long, so the driver doesn't * allow transmission 'til after this time, for * certain PHYs. It would be much nicer if all * PHYs were interrupt-capable like the internal * PHY. * - The ACT LED, which shows adapter activity, is * driven by the driver, and so must be left on * for a short period to power up the LED so it * can be seen. This delay can be changed by * changing the TLAN_TIMER_ACT_DELAY in tlan.h, * if desired. 100 ms produces a slightly * sluggish response. * **************************************************************/ static void tlan_timer(struct timer_list *t) { struct tlan_priv *priv = from_timer(priv, t, timer); struct net_device *dev = priv->dev; u32 elapsed; unsigned long flags = 0; priv->timer.function = NULL; switch (priv->timer_type) { case TLAN_TIMER_PHY_PDOWN: tlan_phy_power_down(dev); break; case TLAN_TIMER_PHY_PUP: tlan_phy_power_up(dev); break; case TLAN_TIMER_PHY_RESET: tlan_phy_reset(dev); break; case TLAN_TIMER_PHY_START_LINK: tlan_phy_start_link(dev); break; case TLAN_TIMER_PHY_FINISH_AN: tlan_phy_finish_auto_neg(dev); break; case TLAN_TIMER_FINISH_RESET: tlan_finish_reset(dev); break; case TLAN_TIMER_ACTIVITY: spin_lock_irqsave(&priv->lock, flags); if (priv->timer.function == NULL) { elapsed = jiffies - priv->timer_set_at; if (elapsed >= TLAN_TIMER_ACT_DELAY) { tlan_dio_write8(dev->base_addr, TLAN_LED_REG, TLAN_LED_LINK); } else { priv->timer.expires = priv->timer_set_at + TLAN_TIMER_ACT_DELAY; spin_unlock_irqrestore(&priv->lock, flags); add_timer(&priv->timer); break; } } spin_unlock_irqrestore(&priv->lock, flags); break; default: break; } } /***************************************************************************** ****************************************************************************** ThunderLAN driver adapter related routines ****************************************************************************** *****************************************************************************/ /*************************************************************** * tlan_reset_lists * * Returns: * Nothing * Parms: * dev The device structure with the list * structures to be reset. * * This routine sets the variables associated with managing * the TLAN lists to their initial values. * **************************************************************/ static void tlan_reset_lists(struct net_device *dev) { struct tlan_priv *priv = netdev_priv(dev); int i; struct tlan_list *list; dma_addr_t list_phys; struct sk_buff *skb; priv->tx_head = 0; priv->tx_tail = 0; for (i = 0; i < TLAN_NUM_TX_LISTS; i++) { list = priv->tx_list + i; list->c_stat = TLAN_CSTAT_UNUSED; list->buffer[0].address = 0; list->buffer[2].count = 0; list->buffer[2].address = 0; list->buffer[8].address = 0; list->buffer[9].address = 0; } priv->rx_head = 0; priv->rx_tail = TLAN_NUM_RX_LISTS - 1; for (i = 0; i < TLAN_NUM_RX_LISTS; i++) { list = priv->rx_list + i; list_phys = priv->rx_list_dma + sizeof(struct tlan_list)*i; list->c_stat = TLAN_CSTAT_READY; list->frame_size = TLAN_MAX_FRAME_SIZE; list->buffer[0].count = TLAN_MAX_FRAME_SIZE | TLAN_LAST_BUFFER; skb = netdev_alloc_skb_ip_align(dev, TLAN_MAX_FRAME_SIZE + 5); if (!skb) break; list->buffer[0].address = dma_map_single(&priv->pci_dev->dev, skb->data, TLAN_MAX_FRAME_SIZE, DMA_FROM_DEVICE); tlan_store_skb(list, skb); list->buffer[1].count = 0; list->buffer[1].address = 0; list->forward = list_phys + sizeof(struct tlan_list); } /* in case ran out of memory early, clear bits */ while (i < TLAN_NUM_RX_LISTS) { tlan_store_skb(priv->rx_list + i, NULL); ++i; } list->forward = 0; } static void tlan_free_lists(struct net_device *dev) { struct tlan_priv *priv = netdev_priv(dev); int i; struct tlan_list *list; struct sk_buff *skb; for (i = 0; i < TLAN_NUM_TX_LISTS; i++) { list = priv->tx_list + i; skb = tlan_get_skb(list); if (skb) { dma_unmap_single(&priv->pci_dev->dev, list->buffer[0].address, max(skb->len, (unsigned int)TLAN_MIN_FRAME_SIZE), DMA_TO_DEVICE); dev_kfree_skb_any(skb); list->buffer[8].address = 0; list->buffer[9].address = 0; } } for (i = 0; i < TLAN_NUM_RX_LISTS; i++) { list = priv->rx_list + i; skb = tlan_get_skb(list); if (skb) { dma_unmap_single(&priv->pci_dev->dev, list->buffer[0].address, TLAN_MAX_FRAME_SIZE, DMA_FROM_DEVICE); dev_kfree_skb_any(skb); list->buffer[8].address = 0; list->buffer[9].address = 0; } } } /*************************************************************** * tlan_print_dio * * Returns: * Nothing * Parms: * io_base Base IO port of the device of * which to print DIO registers. * * This function prints out all the internal (DIO) * registers of a TLAN chip. * **************************************************************/ static void tlan_print_dio(u16 io_base) { u32 data0, data1; int i; pr_info("Contents of internal registers for io base 0x%04hx\n", io_base); pr_info("Off. +0 +4\n"); for (i = 0; i < 0x4C; i += 8) { data0 = tlan_dio_read32(io_base, i); data1 = tlan_dio_read32(io_base, i + 0x4); pr_info("0x%02x 0x%08x 0x%08x\n", i, data0, data1); } } /*************************************************************** * TLan_PrintList * * Returns: * Nothing * Parms: * list A pointer to the struct tlan_list structure to * be printed. * type A string to designate type of list, * "Rx" or "Tx". * num The index of the list. * * This function prints out the contents of the list * pointed to by the list parameter. * **************************************************************/ static void tlan_print_list(struct tlan_list *list, char *type, int num) { int i; pr_info("%s List %d at %p\n", type, num, list); pr_info(" Forward = 0x%08x\n", list->forward); pr_info(" CSTAT = 0x%04hx\n", list->c_stat); pr_info(" Frame Size = 0x%04hx\n", list->frame_size); /* for (i = 0; i < 10; i++) { */ for (i = 0; i < 2; i++) { pr_info(" Buffer[%d].count, addr = 0x%08x, 0x%08x\n", i, list->buffer[i].count, list->buffer[i].address); } } /*************************************************************** * tlan_read_and_clear_stats * * Returns: * Nothing * Parms: * dev Pointer to device structure of adapter * to which to read stats. * record Flag indicating whether to add * * This functions reads all the internal status registers * of the TLAN chip, which clears them as a side effect. * It then either adds the values to the device's status * struct, or discards them, depending on whether record * is TLAN_RECORD (!=0) or TLAN_IGNORE (==0). * **************************************************************/ static void tlan_read_and_clear_stats(struct net_device *dev, int record) { u32 tx_good, tx_under; u32 rx_good, rx_over; u32 def_tx, crc, code; u32 multi_col, single_col; u32 excess_col, late_col, loss; outw(TLAN_GOOD_TX_FRMS, dev->base_addr + TLAN_DIO_ADR); tx_good = inb(dev->base_addr + TLAN_DIO_DATA); tx_good += inb(dev->base_addr + TLAN_DIO_DATA + 1) << 8; tx_good += inb(dev->base_addr + TLAN_DIO_DATA + 2) << 16; tx_under = inb(dev->base_addr + TLAN_DIO_DATA + 3); outw(TLAN_GOOD_RX_FRMS, dev->base_addr + TLAN_DIO_ADR); rx_good = inb(dev->base_addr + TLAN_DIO_DATA); rx_good += inb(dev->base_addr + TLAN_DIO_DATA + 1) << 8; rx_good += inb(dev->base_addr + TLAN_DIO_DATA + 2) << 16; rx_over = inb(dev->base_addr + TLAN_DIO_DATA + 3); outw(TLAN_DEFERRED_TX, dev->base_addr + TLAN_DIO_ADR); def_tx = inb(dev->base_addr + TLAN_DIO_DATA); def_tx += inb(dev->base_addr + TLAN_DIO_DATA + 1) << 8; crc = inb(dev->base_addr + TLAN_DIO_DATA + 2); code = inb(dev->base_addr + TLAN_DIO_DATA + 3); outw(TLAN_MULTICOL_FRMS, dev->base_addr + TLAN_DIO_ADR); multi_col = inb(dev->base_addr + TLAN_DIO_DATA); multi_col += inb(dev->base_addr + TLAN_DIO_DATA + 1) << 8; single_col = inb(dev->base_addr + TLAN_DIO_DATA + 2); single_col += inb(dev->base_addr + TLAN_DIO_DATA + 3) << 8; outw(TLAN_EXCESSCOL_FRMS, dev->base_addr + TLAN_DIO_ADR); excess_col = inb(dev->base_addr + TLAN_DIO_DATA); late_col = inb(dev->base_addr + TLAN_DIO_DATA + 1); loss = inb(dev->base_addr + TLAN_DIO_DATA + 2); if (record) { dev->stats.rx_packets += rx_good; dev->stats.rx_errors += rx_over + crc + code; dev->stats.tx_packets += tx_good; dev->stats.tx_errors += tx_under + loss; dev->stats.collisions += multi_col + single_col + excess_col + late_col; dev->stats.rx_over_errors += rx_over; dev->stats.rx_crc_errors += crc; dev->stats.rx_frame_errors += code; dev->stats.tx_aborted_errors += tx_under; dev->stats.tx_carrier_errors += loss; } } /*************************************************************** * TLan_Reset * * Returns: * 0 * Parms: * dev Pointer to device structure of adapter * to be reset. * * This function resets the adapter and it's physical * device. See Chap. 3, pp. 9-10 of the "ThunderLAN * Programmer's Guide" for details. The routine tries to * implement what is detailed there, though adjustments * have been made. * **************************************************************/ static void tlan_reset_adapter(struct net_device *dev) { struct tlan_priv *priv = netdev_priv(dev); int i; u32 addr; u32 data; u8 data8; priv->tlan_full_duplex = false; priv->phy_online = 0; netif_carrier_off(dev); /* 1. Assert reset bit. */ data = inl(dev->base_addr + TLAN_HOST_CMD); data |= TLAN_HC_AD_RST; outl(data, dev->base_addr + TLAN_HOST_CMD); udelay(1000); /* 2. Turn off interrupts. (Probably isn't necessary) */ data = inl(dev->base_addr + TLAN_HOST_CMD); data |= TLAN_HC_INT_OFF; outl(data, dev->base_addr + TLAN_HOST_CMD); /* 3. Clear AREGs and HASHs. */ for (i = TLAN_AREG_0; i <= TLAN_HASH_2; i += 4) tlan_dio_write32(dev->base_addr, (u16) i, 0); /* 4. Setup NetConfig register. */ data = TLAN_NET_CFG_1FRAG | TLAN_NET_CFG_1CHAN | TLAN_NET_CFG_PHY_EN; tlan_dio_write16(dev->base_addr, TLAN_NET_CONFIG, (u16) data); /* 5. Load Ld_Tmr and Ld_Thr in HOST_CMD. */ outl(TLAN_HC_LD_TMR | 0x3f, dev->base_addr + TLAN_HOST_CMD); outl(TLAN_HC_LD_THR | 0x9, dev->base_addr + TLAN_HOST_CMD); /* 6. Unreset the MII by setting NMRST (in NetSio) to 1. */ outw(TLAN_NET_SIO, dev->base_addr + TLAN_DIO_ADR); addr = dev->base_addr + TLAN_DIO_DATA + TLAN_NET_SIO; tlan_set_bit(TLAN_NET_SIO_NMRST, addr); /* 7. Setup the remaining registers. */ if (priv->tlan_rev >= 0x30) { data8 = TLAN_ID_TX_EOC | TLAN_ID_RX_EOC; tlan_dio_write8(dev->base_addr, TLAN_INT_DIS, data8); } tlan_phy_detect(dev); data = TLAN_NET_CFG_1FRAG | TLAN_NET_CFG_1CHAN; if (priv->adapter->flags & TLAN_ADAPTER_BIT_RATE_PHY) { data |= TLAN_NET_CFG_BIT; if (priv->aui == 1) { tlan_dio_write8(dev->base_addr, TLAN_ACOMMIT, 0x0a); } else if (priv->duplex == TLAN_DUPLEX_FULL) { tlan_dio_write8(dev->base_addr, TLAN_ACOMMIT, 0x00); priv->tlan_full_duplex = true; } else { tlan_dio_write8(dev->base_addr, TLAN_ACOMMIT, 0x08); } } /* don't power down internal PHY if we're going to use it */ if (priv->phy_num == 0 || (priv->adapter->flags & TLAN_ADAPTER_USE_INTERN_10)) data |= TLAN_NET_CFG_PHY_EN; tlan_dio_write16(dev->base_addr, TLAN_NET_CONFIG, (u16) data); if (priv->adapter->flags & TLAN_ADAPTER_UNMANAGED_PHY) tlan_finish_reset(dev); else tlan_phy_power_down(dev); } static void tlan_finish_reset(struct net_device *dev) { struct tlan_priv *priv = netdev_priv(dev); u8 data; u32 phy; u8 sio; u16 status; u16 partner; u16 tlphy_ctl; u16 tlphy_par; u16 tlphy_id1, tlphy_id2; int i; phy = priv->phy[priv->phy_num]; data = TLAN_NET_CMD_NRESET | TLAN_NET_CMD_NWRAP; if (priv->tlan_full_duplex) data |= TLAN_NET_CMD_DUPLEX; tlan_dio_write8(dev->base_addr, TLAN_NET_CMD, data); data = TLAN_NET_MASK_MASK4 | TLAN_NET_MASK_MASK5; if (priv->phy_num == 0) data |= TLAN_NET_MASK_MASK7; tlan_dio_write8(dev->base_addr, TLAN_NET_MASK, data); tlan_dio_write16(dev->base_addr, TLAN_MAX_RX, ((1536)+7)&~7); tlan_mii_read_reg(dev, phy, MII_GEN_ID_HI, &tlphy_id1); tlan_mii_read_reg(dev, phy, MII_GEN_ID_LO, &tlphy_id2); if ((priv->adapter->flags & TLAN_ADAPTER_UNMANAGED_PHY) || (priv->aui)) { status = MII_GS_LINK; netdev_info(dev, "Link forced\n"); } else { tlan_mii_read_reg(dev, phy, MII_GEN_STS, &status); udelay(1000); tlan_mii_read_reg(dev, phy, MII_GEN_STS, &status); if (status & MII_GS_LINK) { /* We only support link info on Nat.Sem. PHY's */ if ((tlphy_id1 == NAT_SEM_ID1) && (tlphy_id2 == NAT_SEM_ID2)) { tlan_mii_read_reg(dev, phy, MII_AN_LPA, &partner); tlan_mii_read_reg(dev, phy, TLAN_TLPHY_PAR, &tlphy_par); netdev_info(dev, "Link active, %s %uMbps %s-Duplex\n", !(tlphy_par & TLAN_PHY_AN_EN_STAT) ? "forced" : "Autonegotiation enabled,", tlphy_par & TLAN_PHY_SPEED_100 ? 100 : 10, tlphy_par & TLAN_PHY_DUPLEX_FULL ? "Full" : "Half"); if (tlphy_par & TLAN_PHY_AN_EN_STAT) { netdev_info(dev, "Partner capability:"); for (i = 5; i < 10; i++) if (partner & (1 << i)) pr_cont(" %s", media[i-5]); pr_cont("\n"); } } else netdev_info(dev, "Link active\n"); /* Enabling link beat monitoring */ priv->media_timer.expires = jiffies + HZ; add_timer(&priv->media_timer); } } if (priv->phy_num == 0) { tlan_mii_read_reg(dev, phy, TLAN_TLPHY_CTL, &tlphy_ctl); tlphy_ctl |= TLAN_TC_INTEN; tlan_mii_write_reg(dev, phy, TLAN_TLPHY_CTL, tlphy_ctl); sio = tlan_dio_read8(dev->base_addr, TLAN_NET_SIO); sio |= TLAN_NET_SIO_MINTEN; tlan_dio_write8(dev->base_addr, TLAN_NET_SIO, sio); } if (status & MII_GS_LINK) { tlan_set_mac(dev, 0, dev->dev_addr); priv->phy_online = 1; outb((TLAN_HC_INT_ON >> 8), dev->base_addr + TLAN_HOST_CMD + 1); if (debug >= 1 && debug != TLAN_DEBUG_PROBE) outb((TLAN_HC_REQ_INT >> 8), dev->base_addr + TLAN_HOST_CMD + 1); outl(priv->rx_list_dma, dev->base_addr + TLAN_CH_PARM); outl(TLAN_HC_GO | TLAN_HC_RT, dev->base_addr + TLAN_HOST_CMD); tlan_dio_write8(dev->base_addr, TLAN_LED_REG, TLAN_LED_LINK); netif_carrier_on(dev); } else { netdev_info(dev, "Link inactive, will retry in 10 secs...\n"); tlan_set_timer(dev, (10*HZ), TLAN_TIMER_FINISH_RESET); return; } tlan_set_multicast_list(dev); } /*************************************************************** * tlan_set_mac * * Returns: * Nothing * Parms: * dev Pointer to device structure of adapter * on which to change the AREG. * areg The AREG to set the address in (0 - 3). * mac A pointer to an array of chars. Each * element stores one byte of the address. * IE, it isn't in ascii. * * This function transfers a MAC address to one of the * TLAN AREGs (address registers). The TLAN chip locks * the register on writing to offset 0 and unlocks the * register after writing to offset 5. If NULL is passed * in mac, then the AREG is filled with 0's. * **************************************************************/ static void tlan_set_mac(struct net_device *dev, int areg, const char *mac) { int i; areg *= 6; if (mac != NULL) { for (i = 0; i < 6; i++) tlan_dio_write8(dev->base_addr, TLAN_AREG_0 + areg + i, mac[i]); } else { for (i = 0; i < 6; i++) tlan_dio_write8(dev->base_addr, TLAN_AREG_0 + areg + i, 0); } } /***************************************************************************** ****************************************************************************** ThunderLAN driver PHY layer routines ****************************************************************************** *****************************************************************************/ /********************************************************************* * __tlan_phy_print * * Returns: * Nothing * Parms: * dev A pointer to the device structure of the * TLAN device having the PHYs to be detailed. * * This function prints the registers a PHY (aka transceiver). * ********************************************************************/ static void __tlan_phy_print(struct net_device *dev) { struct tlan_priv *priv = netdev_priv(dev); u16 i, data0, data1, data2, data3, phy; lockdep_assert_held(&priv->lock); phy = priv->phy[priv->phy_num]; if (priv->adapter->flags & TLAN_ADAPTER_UNMANAGED_PHY) { netdev_info(dev, "Unmanaged PHY\n"); } else if (phy <= TLAN_PHY_MAX_ADDR) { netdev_info(dev, "PHY 0x%02x\n", phy); pr_info(" Off. +0 +1 +2 +3\n"); for (i = 0; i < 0x20; i += 4) { __tlan_mii_read_reg(dev, phy, i, &data0); __tlan_mii_read_reg(dev, phy, i + 1, &data1); __tlan_mii_read_reg(dev, phy, i + 2, &data2); __tlan_mii_read_reg(dev, phy, i + 3, &data3); pr_info(" 0x%02x 0x%04hx 0x%04hx 0x%04hx 0x%04hx\n", i, data0, data1, data2, data3); } } else { netdev_info(dev, "Invalid PHY\n"); } } static void tlan_phy_print(struct net_device *dev) { struct tlan_priv *priv = netdev_priv(dev); unsigned long flags; spin_lock_irqsave(&priv->lock, flags); __tlan_phy_print(dev); spin_unlock_irqrestore(&priv->lock, flags); } /********************************************************************* * tlan_phy_detect * * Returns: * Nothing * Parms: * dev A pointer to the device structure of the adapter * for which the PHY needs determined. * * So far I've found that adapters which have external PHYs * may also use the internal PHY for part of the functionality. * (eg, AUI/Thinnet). This function finds out if this TLAN * chip has an internal PHY, and then finds the first external * PHY (starting from address 0) if it exists). * ********************************************************************/ static void tlan_phy_detect(struct net_device *dev) { struct tlan_priv *priv = netdev_priv(dev); u16 control; u16 hi; u16 lo; u32 phy; if (priv->adapter->flags & TLAN_ADAPTER_UNMANAGED_PHY) { priv->phy_num = 0xffff; return; } tlan_mii_read_reg(dev, TLAN_PHY_MAX_ADDR, MII_GEN_ID_HI, &hi); if (hi != 0xffff) priv->phy[0] = TLAN_PHY_MAX_ADDR; else priv->phy[0] = TLAN_PHY_NONE; priv->phy[1] = TLAN_PHY_NONE; for (phy = 0; phy <= TLAN_PHY_MAX_ADDR; phy++) { tlan_mii_read_reg(dev, phy, MII_GEN_CTL, &control); tlan_mii_read_reg(dev, phy, MII_GEN_ID_HI, &hi); tlan_mii_read_reg(dev, phy, MII_GEN_ID_LO, &lo); if ((control != 0xffff) || (hi != 0xffff) || (lo != 0xffff)) { TLAN_DBG(TLAN_DEBUG_GNRL, "PHY found at %02x %04x %04x %04x\n", phy, control, hi, lo); if ((priv->phy[1] == TLAN_PHY_NONE) && (phy != TLAN_PHY_MAX_ADDR)) { priv->phy[1] = phy; } } } if (priv->phy[1] != TLAN_PHY_NONE) priv->phy_num = 1; else if (priv->phy[0] != TLAN_PHY_NONE) priv->phy_num = 0; else netdev_info(dev, "Cannot initialize device, no PHY was found!\n"); } static void tlan_phy_power_down(struct net_device *dev) { struct tlan_priv *priv = netdev_priv(dev); u16 value; TLAN_DBG(TLAN_DEBUG_GNRL, "%s: Powering down PHY(s).\n", dev->name); value = MII_GC_PDOWN | MII_GC_LOOPBK | MII_GC_ISOLATE; tlan_mii_sync(dev->base_addr); tlan_mii_write_reg(dev, priv->phy[priv->phy_num], MII_GEN_CTL, value); if ((priv->phy_num == 0) && (priv->phy[1] != TLAN_PHY_NONE)) { /* if using internal PHY, the external PHY must be powered on */ if (priv->adapter->flags & TLAN_ADAPTER_USE_INTERN_10) value = MII_GC_ISOLATE; /* just isolate it from MII */ tlan_mii_sync(dev->base_addr); tlan_mii_write_reg(dev, priv->phy[1], MII_GEN_CTL, value); } /* Wait for 50 ms and powerup * This is arbitrary. It is intended to make sure the * transceiver settles. */ tlan_set_timer(dev, msecs_to_jiffies(50), TLAN_TIMER_PHY_PUP); } static void tlan_phy_power_up(struct net_device *dev) { struct tlan_priv *priv = netdev_priv(dev); u16 value; TLAN_DBG(TLAN_DEBUG_GNRL, "%s: Powering up PHY.\n", dev->name); tlan_mii_sync(dev->base_addr); value = MII_GC_LOOPBK; tlan_mii_write_reg(dev, priv->phy[priv->phy_num], MII_GEN_CTL, value); tlan_mii_sync(dev->base_addr); /* Wait for 500 ms and reset the * transceiver. The TLAN docs say both 50 ms and * 500 ms, so do the longer, just in case. */ tlan_set_timer(dev, msecs_to_jiffies(500), TLAN_TIMER_PHY_RESET); } static void tlan_phy_reset(struct net_device *dev) { struct tlan_priv *priv = netdev_priv(dev); u16 phy; u16 value; unsigned long timeout = jiffies + HZ; phy = priv->phy[priv->phy_num]; TLAN_DBG(TLAN_DEBUG_GNRL, "%s: Resetting PHY.\n", dev->name); tlan_mii_sync(dev->base_addr); value = MII_GC_LOOPBK | MII_GC_RESET; tlan_mii_write_reg(dev, phy, MII_GEN_CTL, value); do { tlan_mii_read_reg(dev, phy, MII_GEN_CTL, &value); if (time_after(jiffies, timeout)) { netdev_err(dev, "PHY reset timeout\n"); return; } } while (value & MII_GC_RESET); /* Wait for 500 ms and initialize. * I don't remember why I wait this long. * I've changed this to 50ms, as it seems long enough. */ tlan_set_timer(dev, msecs_to_jiffies(50), TLAN_TIMER_PHY_START_LINK); } static void tlan_phy_start_link(struct net_device *dev) { struct tlan_priv *priv = netdev_priv(dev); u16 ability; u16 control; u16 data; u16 phy; u16 status; u16 tctl; phy = priv->phy[priv->phy_num]; TLAN_DBG(TLAN_DEBUG_GNRL, "%s: Trying to activate link.\n", dev->name); tlan_mii_read_reg(dev, phy, MII_GEN_STS, &status); tlan_mii_read_reg(dev, phy, MII_GEN_STS, &ability); if ((status & MII_GS_AUTONEG) && (!priv->aui)) { ability = status >> 11; if (priv->speed == TLAN_SPEED_10 && priv->duplex == TLAN_DUPLEX_HALF) { tlan_mii_write_reg(dev, phy, MII_GEN_CTL, 0x0000); } else if (priv->speed == TLAN_SPEED_10 && priv->duplex == TLAN_DUPLEX_FULL) { priv->tlan_full_duplex = true; tlan_mii_write_reg(dev, phy, MII_GEN_CTL, 0x0100); } else if (priv->speed == TLAN_SPEED_100 && priv->duplex == TLAN_DUPLEX_HALF) { tlan_mii_write_reg(dev, phy, MII_GEN_CTL, 0x2000); } else if (priv->speed == TLAN_SPEED_100 && priv->duplex == TLAN_DUPLEX_FULL) { priv->tlan_full_duplex = true; tlan_mii_write_reg(dev, phy, MII_GEN_CTL, 0x2100); } else { /* Set Auto-Neg advertisement */ tlan_mii_write_reg(dev, phy, MII_AN_ADV, (ability << 5) | 1); /* Enablee Auto-Neg */ tlan_mii_write_reg(dev, phy, MII_GEN_CTL, 0x1000); /* Restart Auto-Neg */ tlan_mii_write_reg(dev, phy, MII_GEN_CTL, 0x1200); /* Wait for 4 sec for autonegotiation * to complete. The max spec time is less than this * but the card need additional time to start AN. * .5 sec should be plenty extra. */ netdev_info(dev, "Starting autonegotiation\n"); tlan_set_timer(dev, (2*HZ), TLAN_TIMER_PHY_FINISH_AN); return; } } if ((priv->aui) && (priv->phy_num != 0)) { priv->phy_num = 0; data = TLAN_NET_CFG_1FRAG | TLAN_NET_CFG_1CHAN | TLAN_NET_CFG_PHY_EN; tlan_dio_write16(dev->base_addr, TLAN_NET_CONFIG, data); tlan_set_timer(dev, msecs_to_jiffies(40), TLAN_TIMER_PHY_PDOWN); return; } else if (priv->phy_num == 0) { control = 0; tlan_mii_read_reg(dev, phy, TLAN_TLPHY_CTL, &tctl); if (priv->aui) { tctl |= TLAN_TC_AUISEL; } else { tctl &= ~TLAN_TC_AUISEL; if (priv->duplex == TLAN_DUPLEX_FULL) { control |= MII_GC_DUPLEX; priv->tlan_full_duplex = true; } if (priv->speed == TLAN_SPEED_100) control |= MII_GC_SPEEDSEL; } tlan_mii_write_reg(dev, phy, MII_GEN_CTL, control); tlan_mii_write_reg(dev, phy, TLAN_TLPHY_CTL, tctl); } /* Wait for 2 sec to give the transceiver time * to establish link. */ tlan_set_timer(dev, (4*HZ), TLAN_TIMER_FINISH_RESET); } static void tlan_phy_finish_auto_neg(struct net_device *dev) { struct tlan_priv *priv = netdev_priv(dev); u16 an_adv; u16 an_lpa; u16 mode; u16 phy; u16 status; phy = priv->phy[priv->phy_num]; tlan_mii_read_reg(dev, phy, MII_GEN_STS, &status); udelay(1000); tlan_mii_read_reg(dev, phy, MII_GEN_STS, &status); if (!(status & MII_GS_AUTOCMPLT)) { /* Wait for 8 sec to give the process * more time. Perhaps we should fail after a while. */ tlan_set_timer(dev, 2 * HZ, TLAN_TIMER_PHY_FINISH_AN); return; } netdev_info(dev, "Autonegotiation complete\n"); tlan_mii_read_reg(dev, phy, MII_AN_ADV, &an_adv); tlan_mii_read_reg(dev, phy, MII_AN_LPA, &an_lpa); mode = an_adv & an_lpa & 0x03E0; if (mode & 0x0100) priv->tlan_full_duplex = true; else if (!(mode & 0x0080) && (mode & 0x0040)) priv->tlan_full_duplex = true; /* switch to internal PHY for 10 Mbps */ if ((!(mode & 0x0180)) && (priv->adapter->flags & TLAN_ADAPTER_USE_INTERN_10) && (priv->phy_num != 0)) { priv->phy_num = 0; tlan_set_timer(dev, msecs_to_jiffies(400), TLAN_TIMER_PHY_PDOWN); return; } if (priv->phy_num == 0) { if ((priv->duplex == TLAN_DUPLEX_FULL) || (an_adv & an_lpa & 0x0040)) { tlan_mii_write_reg(dev, phy, MII_GEN_CTL, MII_GC_AUTOENB | MII_GC_DUPLEX); netdev_info(dev, "Starting internal PHY with FULL-DUPLEX\n"); } else { tlan_mii_write_reg(dev, phy, MII_GEN_CTL, MII_GC_AUTOENB); netdev_info(dev, "Starting internal PHY with HALF-DUPLEX\n"); } } /* Wait for 100 ms. No reason in partiticular. */ tlan_set_timer(dev, msecs_to_jiffies(100), TLAN_TIMER_FINISH_RESET); } /********************************************************************* * * tlan_phy_monitor * * Returns: * None * * Params: * data The device structure of this device. * * * This function monitors PHY condition by reading the status * register via the MII bus, controls LINK LED and notifies the * kernel about link state. * *******************************************************************/ static void tlan_phy_monitor(struct timer_list *t) { struct tlan_priv *priv = from_timer(priv, t, media_timer); struct net_device *dev = priv->dev; u16 phy; u16 phy_status; phy = priv->phy[priv->phy_num]; /* Get PHY status register */ tlan_mii_read_reg(dev, phy, MII_GEN_STS, &phy_status); /* Check if link has been lost */ if (!(phy_status & MII_GS_LINK)) { if (netif_carrier_ok(dev)) { printk(KERN_DEBUG "TLAN: %s has lost link\n", dev->name); tlan_dio_write8(dev->base_addr, TLAN_LED_REG, 0); netif_carrier_off(dev); if (priv->adapter->flags & TLAN_ADAPTER_USE_INTERN_10) { /* power down internal PHY */ u16 data = MII_GC_PDOWN | MII_GC_LOOPBK | MII_GC_ISOLATE; tlan_mii_sync(dev->base_addr); tlan_mii_write_reg(dev, priv->phy[0], MII_GEN_CTL, data); /* set to external PHY */ priv->phy_num = 1; /* restart autonegotiation */ tlan_set_timer(dev, msecs_to_jiffies(400), TLAN_TIMER_PHY_PDOWN); return; } } } /* Link restablished? */ if ((phy_status & MII_GS_LINK) && !netif_carrier_ok(dev)) { tlan_dio_write8(dev->base_addr, TLAN_LED_REG, TLAN_LED_LINK); printk(KERN_DEBUG "TLAN: %s has reestablished link\n", dev->name); netif_carrier_on(dev); } priv->media_timer.expires = jiffies + HZ; add_timer(&priv->media_timer); } /***************************************************************************** ****************************************************************************** ThunderLAN driver MII routines these routines are based on the information in chap. 2 of the "ThunderLAN Programmer's Guide", pp. 15-24. ****************************************************************************** *****************************************************************************/ /*************************************************************** * __tlan_mii_read_reg * * Returns: * false if ack received ok * true if no ack received or other error * * Parms: * dev The device structure containing * The io address and interrupt count * for this device. * phy The address of the PHY to be queried. * reg The register whose contents are to be * retrieved. * val A pointer to a variable to store the * retrieved value. * * This function uses the TLAN's MII bus to retrieve the contents * of a given register on a PHY. It sends the appropriate info * and then reads the 16-bit register value from the MII bus via * the TLAN SIO register. * **************************************************************/ static bool __tlan_mii_read_reg(struct net_device *dev, u16 phy, u16 reg, u16 *val) { u8 nack; u16 sio, tmp; u32 i; bool err; int minten; struct tlan_priv *priv = netdev_priv(dev); lockdep_assert_held(&priv->lock); err = false; outw(TLAN_NET_SIO, dev->base_addr + TLAN_DIO_ADR); sio = dev->base_addr + TLAN_DIO_DATA + TLAN_NET_SIO; tlan_mii_sync(dev->base_addr); minten = tlan_get_bit(TLAN_NET_SIO_MINTEN, sio); if (minten) tlan_clear_bit(TLAN_NET_SIO_MINTEN, sio); tlan_mii_send_data(dev->base_addr, 0x1, 2); /* start (01b) */ tlan_mii_send_data(dev->base_addr, 0x2, 2); /* read (10b) */ tlan_mii_send_data(dev->base_addr, phy, 5); /* device # */ tlan_mii_send_data(dev->base_addr, reg, 5); /* register # */ tlan_clear_bit(TLAN_NET_SIO_MTXEN, sio); /* change direction */ tlan_clear_bit(TLAN_NET_SIO_MCLK, sio); /* clock idle bit */ tlan_set_bit(TLAN_NET_SIO_MCLK, sio); tlan_clear_bit(TLAN_NET_SIO_MCLK, sio); /* wait 300ns */ nack = tlan_get_bit(TLAN_NET_SIO_MDATA, sio); /* check for ACK */ tlan_set_bit(TLAN_NET_SIO_MCLK, sio); /* finish ACK */ if (nack) { /* no ACK, so fake it */ for (i = 0; i < 16; i++) { tlan_clear_bit(TLAN_NET_SIO_MCLK, sio); tlan_set_bit(TLAN_NET_SIO_MCLK, sio); } tmp = 0xffff; err = true; } else { /* ACK, so read data */ for (tmp = 0, i = 0x8000; i; i >>= 1) { tlan_clear_bit(TLAN_NET_SIO_MCLK, sio); if (tlan_get_bit(TLAN_NET_SIO_MDATA, sio)) tmp |= i; tlan_set_bit(TLAN_NET_SIO_MCLK, sio); } } tlan_clear_bit(TLAN_NET_SIO_MCLK, sio); /* idle cycle */ tlan_set_bit(TLAN_NET_SIO_MCLK, sio); if (minten) tlan_set_bit(TLAN_NET_SIO_MINTEN, sio); *val = tmp; return err; } static void tlan_mii_read_reg(struct net_device *dev, u16 phy, u16 reg, u16 *val) { struct tlan_priv *priv = netdev_priv(dev); unsigned long flags; spin_lock_irqsave(&priv->lock, flags); __tlan_mii_read_reg(dev, phy, reg, val); spin_unlock_irqrestore(&priv->lock, flags); } /*************************************************************** * tlan_mii_send_data * * Returns: * Nothing * Parms: * base_port The base IO port of the adapter in * question. * dev The address of the PHY to be queried. * data The value to be placed on the MII bus. * num_bits The number of bits in data that are to * be placed on the MII bus. * * This function sends on sequence of bits on the MII * configuration bus. * **************************************************************/ static void tlan_mii_send_data(u16 base_port, u32 data, unsigned num_bits) { u16 sio; u32 i; if (num_bits == 0) return; outw(TLAN_NET_SIO, base_port + TLAN_DIO_ADR); sio = base_port + TLAN_DIO_DATA + TLAN_NET_SIO; tlan_set_bit(TLAN_NET_SIO_MTXEN, sio); for (i = (0x1 << (num_bits - 1)); i; i >>= 1) { tlan_clear_bit(TLAN_NET_SIO_MCLK, sio); (void) tlan_get_bit(TLAN_NET_SIO_MCLK, sio); if (data & i) tlan_set_bit(TLAN_NET_SIO_MDATA, sio); else tlan_clear_bit(TLAN_NET_SIO_MDATA, sio); tlan_set_bit(TLAN_NET_SIO_MCLK, sio); (void) tlan_get_bit(TLAN_NET_SIO_MCLK, sio); } } /*************************************************************** * TLan_MiiSync * * Returns: * Nothing * Parms: * base_port The base IO port of the adapter in * question. * * This functions syncs all PHYs in terms of the MII configuration * bus. * **************************************************************/ static void tlan_mii_sync(u16 base_port) { int i; u16 sio; outw(TLAN_NET_SIO, base_port + TLAN_DIO_ADR); sio = base_port + TLAN_DIO_DATA + TLAN_NET_SIO; tlan_clear_bit(TLAN_NET_SIO_MTXEN, sio); for (i = 0; i < 32; i++) { tlan_clear_bit(TLAN_NET_SIO_MCLK, sio); tlan_set_bit(TLAN_NET_SIO_MCLK, sio); } } /*************************************************************** * __tlan_mii_write_reg * * Returns: * Nothing * Parms: * dev The device structure for the device * to write to. * phy The address of the PHY to be written to. * reg The register whose contents are to be * written. * val The value to be written to the register. * * This function uses the TLAN's MII bus to write the contents of a * given register on a PHY. It sends the appropriate info and then * writes the 16-bit register value from the MII configuration bus * via the TLAN SIO register. * **************************************************************/ static void __tlan_mii_write_reg(struct net_device *dev, u16 phy, u16 reg, u16 val) { u16 sio; int minten; struct tlan_priv *priv = netdev_priv(dev); lockdep_assert_held(&priv->lock); outw(TLAN_NET_SIO, dev->base_addr + TLAN_DIO_ADR); sio = dev->base_addr + TLAN_DIO_DATA + TLAN_NET_SIO; tlan_mii_sync(dev->base_addr); minten = tlan_get_bit(TLAN_NET_SIO_MINTEN, sio); if (minten) tlan_clear_bit(TLAN_NET_SIO_MINTEN, sio); tlan_mii_send_data(dev->base_addr, 0x1, 2); /* start (01b) */ tlan_mii_send_data(dev->base_addr, 0x1, 2); /* write (01b) */ tlan_mii_send_data(dev->base_addr, phy, 5); /* device # */ tlan_mii_send_data(dev->base_addr, reg, 5); /* register # */ tlan_mii_send_data(dev->base_addr, 0x2, 2); /* send ACK */ tlan_mii_send_data(dev->base_addr, val, 16); /* send data */ tlan_clear_bit(TLAN_NET_SIO_MCLK, sio); /* idle cycle */ tlan_set_bit(TLAN_NET_SIO_MCLK, sio); if (minten) tlan_set_bit(TLAN_NET_SIO_MINTEN, sio); } static void tlan_mii_write_reg(struct net_device *dev, u16 phy, u16 reg, u16 val) { struct tlan_priv *priv = netdev_priv(dev); unsigned long flags; spin_lock_irqsave(&priv->lock, flags); __tlan_mii_write_reg(dev, phy, reg, val); spin_unlock_irqrestore(&priv->lock, flags); } /***************************************************************************** ****************************************************************************** ThunderLAN driver eeprom routines the Compaq netelligent 10 and 10/100 cards use a microchip 24C02A EEPROM. these functions are based on information in microchip's data sheet. I don't know how well this functions will work with other Eeproms. ****************************************************************************** *****************************************************************************/ /*************************************************************** * tlan_ee_send_start * * Returns: * Nothing * Parms: * io_base The IO port base address for the * TLAN device with the EEPROM to * use. * * This function sends a start cycle to an EEPROM attached * to a TLAN chip. * **************************************************************/ static void tlan_ee_send_start(u16 io_base) { u16 sio; outw(TLAN_NET_SIO, io_base + TLAN_DIO_ADR); sio = io_base + TLAN_DIO_DATA + TLAN_NET_SIO; tlan_set_bit(TLAN_NET_SIO_ECLOK, sio); tlan_set_bit(TLAN_NET_SIO_EDATA, sio); tlan_set_bit(TLAN_NET_SIO_ETXEN, sio); tlan_clear_bit(TLAN_NET_SIO_EDATA, sio); tlan_clear_bit(TLAN_NET_SIO_ECLOK, sio); } /*************************************************************** * tlan_ee_send_byte * * Returns: * If the correct ack was received, 0, otherwise 1 * Parms: io_base The IO port base address for the * TLAN device with the EEPROM to * use. * data The 8 bits of information to * send to the EEPROM. * stop If TLAN_EEPROM_STOP is passed, a * stop cycle is sent after the * byte is sent after the ack is * read. * * This function sends a byte on the serial EEPROM line, * driving the clock to send each bit. The function then * reverses transmission direction and reads an acknowledge * bit. * **************************************************************/ static int tlan_ee_send_byte(u16 io_base, u8 data, int stop) { int err; u8 place; u16 sio; outw(TLAN_NET_SIO, io_base + TLAN_DIO_ADR); sio = io_base + TLAN_DIO_DATA + TLAN_NET_SIO; /* Assume clock is low, tx is enabled; */ for (place = 0x80; place != 0; place >>= 1) { if (place & data) tlan_set_bit(TLAN_NET_SIO_EDATA, sio); else tlan_clear_bit(TLAN_NET_SIO_EDATA, sio); tlan_set_bit(TLAN_NET_SIO_ECLOK, sio); tlan_clear_bit(TLAN_NET_SIO_ECLOK, sio); } tlan_clear_bit(TLAN_NET_SIO_ETXEN, sio); tlan_set_bit(TLAN_NET_SIO_ECLOK, sio); err = tlan_get_bit(TLAN_NET_SIO_EDATA, sio); tlan_clear_bit(TLAN_NET_SIO_ECLOK, sio); tlan_set_bit(TLAN_NET_SIO_ETXEN, sio); if ((!err) && stop) { /* STOP, raise data while clock is high */ tlan_clear_bit(TLAN_NET_SIO_EDATA, sio); tlan_set_bit(TLAN_NET_SIO_ECLOK, sio); tlan_set_bit(TLAN_NET_SIO_EDATA, sio); } return err; } /*************************************************************** * tlan_ee_receive_byte * * Returns: * Nothing * Parms: * io_base The IO port base address for the * TLAN device with the EEPROM to * use. * data An address to a char to hold the * data sent from the EEPROM. * stop If TLAN_EEPROM_STOP is passed, a * stop cycle is sent after the * byte is received, and no ack is * sent. * * This function receives 8 bits of data from the EEPROM * over the serial link. It then sends and ack bit, or no * ack and a stop bit. This function is used to retrieve * data after the address of a byte in the EEPROM has been * sent. * **************************************************************/ static void tlan_ee_receive_byte(u16 io_base, u8 *data, int stop) { u8 place; u16 sio; outw(TLAN_NET_SIO, io_base + TLAN_DIO_ADR); sio = io_base + TLAN_DIO_DATA + TLAN_NET_SIO; *data = 0; /* Assume clock is low, tx is enabled; */ tlan_clear_bit(TLAN_NET_SIO_ETXEN, sio); for (place = 0x80; place; place >>= 1) { tlan_set_bit(TLAN_NET_SIO_ECLOK, sio); if (tlan_get_bit(TLAN_NET_SIO_EDATA, sio)) *data |= place; tlan_clear_bit(TLAN_NET_SIO_ECLOK, sio); } tlan_set_bit(TLAN_NET_SIO_ETXEN, sio); if (!stop) { tlan_clear_bit(TLAN_NET_SIO_EDATA, sio); /* ack = 0 */ tlan_set_bit(TLAN_NET_SIO_ECLOK, sio); tlan_clear_bit(TLAN_NET_SIO_ECLOK, sio); } else { tlan_set_bit(TLAN_NET_SIO_EDATA, sio); /* no ack = 1 (?) */ tlan_set_bit(TLAN_NET_SIO_ECLOK, sio); tlan_clear_bit(TLAN_NET_SIO_ECLOK, sio); /* STOP, raise data while clock is high */ tlan_clear_bit(TLAN_NET_SIO_EDATA, sio); tlan_set_bit(TLAN_NET_SIO_ECLOK, sio); tlan_set_bit(TLAN_NET_SIO_EDATA, sio); } } /*************************************************************** * tlan_ee_read_byte * * Returns: * No error = 0, else, the stage at which the error * occurred. * Parms: * io_base The IO port base address for the * TLAN device with the EEPROM to * use. * ee_addr The address of the byte in the * EEPROM whose contents are to be * retrieved. * data An address to a char to hold the * data obtained from the EEPROM. * * This function reads a byte of information from an byte * cell in the EEPROM. * **************************************************************/ static int tlan_ee_read_byte(struct net_device *dev, u8 ee_addr, u8 *data) { int err; struct tlan_priv *priv = netdev_priv(dev); unsigned long flags = 0; int ret = 0; spin_lock_irqsave(&priv->lock, flags); tlan_ee_send_start(dev->base_addr); err = tlan_ee_send_byte(dev->base_addr, 0xa0, TLAN_EEPROM_ACK); if (err) { ret = 1; goto fail; } err = tlan_ee_send_byte(dev->base_addr, ee_addr, TLAN_EEPROM_ACK); if (err) { ret = 2; goto fail; } tlan_ee_send_start(dev->base_addr); err = tlan_ee_send_byte(dev->base_addr, 0xa1, TLAN_EEPROM_ACK); if (err) { ret = 3; goto fail; } tlan_ee_receive_byte(dev->base_addr, data, TLAN_EEPROM_STOP); fail: spin_unlock_irqrestore(&priv->lock, flags); return ret; } |