OK335xS davinci mdio driver hacking
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/******************************************************************************* * OK335xS davinci mdio driver hacking * 说明: * 以前一直也想对网卡驱动的工作原理进行跟踪,这次正好有机会,先跟mdio接口部分 * 的代码。 * * 2016-3-1 深圳 南山平山村 曾剑锋 ******************************************************************************/ static struct platform_driver davinci_mdio_driver = { .driver = { .name = "davinci_mdio", .owner = THIS_MODULE, .pm = &davinci_mdio_pm_ops, }, .probe = davinci_mdio_probe, ---------+ .remove = __devexit_p(davinci_mdio_remove), | }; | | static int __init davinci_mdio_init(void) | { | return platform_driver_register(&davinci_mdio_driver); | } | device_initcall(davinci_mdio_init); | | static void __exit davinci_mdio_exit(void) | { | platform_driver_unregister(&davinci_mdio_driver); | } | module_exit(davinci_mdio_exit); | | MODULE_LICENSE("GPL"); | MODULE_DESCRIPTION("DaVinci MDIO driver"); | | | static int __devinit davinci_mdio_probe(struct platform_device *pdev) <-------+ { struct mdio_platform_data *pdata = pdev->dev.platform_data; struct device *dev = &pdev->dev; struct davinci_mdio_data *data; struct resource *res; struct phy_device *phy; int ret, addr; data = kzalloc(sizeof(*data), GFP_KERNEL); if (!data) { dev_err(dev, "failed to alloc device data\n"); return -ENOMEM; } data->pdata = pdata ? (*pdata) : default_pdata; data->bus = mdiobus_alloc(); if (!data->bus) { dev_err(dev, "failed to alloc mii bus\n"); ret = -ENOMEM; goto bail_out; } data->bus->name = dev_name(dev); data->bus->read = davinci_mdio_read, data->bus->write = davinci_mdio_write, data->bus->reset = davinci_mdio_reset, data->bus->parent = dev; data->bus->priv = data; snprintf(data->bus->id, MII_BUS_ID_SIZE, "%x", pdev->id); pm_runtime_enable(&pdev->dev); pm_runtime_get_sync(&pdev->dev); data->clk = clk_get(&pdev->dev, "fck"); if (IS_ERR(data->clk)) { data->clk = NULL; dev_err(dev, "failed to get device clock\n"); ret = PTR_ERR(data->clk); goto bail_out; } dev_set_drvdata(dev, data); data->dev = dev; spin_lock_init(&data->lock); res = platform_get_resource(pdev, IORESOURCE_MEM, 0); if (!res) { dev_err(dev, "could not find register map resource\n"); ret = -ENOENT; goto bail_out; } res = devm_request_mem_region(dev, res->start, resource_size(res), dev_name(dev)); if (!res) { dev_err(dev, "could not allocate register map resource\n"); ret = -ENXIO; goto bail_out; } data->regs = devm_ioremap_nocache(dev, res->start, resource_size(res)); if (!data->regs) { dev_err(dev, "could not map mdio registers\n"); ret = -ENOMEM; goto bail_out; } /* register the mii bus */ ret = mdiobus_register(data->bus); -----------------------+ if (ret) | goto bail_out; | | /* scan and dump the bus */ | for (addr = 0; addr < PHY_MAX_ADDR; addr++) { | phy = data->bus->phy_map[addr]; | if (phy) { | dev_info(dev, "phy[%d]: device %s, driver %s\n", | phy->addr, dev_name(&phy->dev), | phy->drv ? phy->drv->name : "unknown"); | } | } | | return 0; | | bail_out: | if (data->bus) | mdiobus_free(data->bus); | if (data->clk) | clk_put(data->clk); | pm_runtime_put_sync(&pdev->dev); | pm_runtime_disable(&pdev->dev); | | kfree(data); | | return ret; | } | | int mdiobus_register(struct mii_bus *bus) <-------------------+ { int i, err; if (NULL == bus || NULL == bus->name || NULL == bus->read || NULL == bus->write) return -EINVAL; BUG_ON(bus->state != MDIOBUS_ALLOCATED && bus->state != MDIOBUS_UNREGISTERED); bus->dev.parent = bus->parent; bus->dev.class = &mdio_bus_class; bus->dev.groups = NULL; dev_set_name(&bus->dev, "%s", bus->id); err = device_register(&bus->dev); if (err) { printk(KERN_ERR "mii_bus %s failed to register\n", bus->id); return -EINVAL; } mutex_init(&bus->mdio_lock); if (bus->reset) bus->reset(bus); for (i = 0; i < PHY_MAX_ADDR; i++) { if ((bus->phy_mask & (1 << i)) == 0) { struct phy_device *phydev; phydev = mdiobus_scan(bus, i); -----------------------+ if (IS_ERR(phydev)) { | err = PTR_ERR(phydev); | goto error; | } | } | } | | bus->state = MDIOBUS_REGISTERED; | pr_info("%s: probed\n", bus->name); | return 0; | | error: | while (--i >= 0) { | if (bus->phy_map[i]) | device_unregister(&bus->phy_map[i]->dev); | } | device_del(&bus->dev); | return err; | } | EXPORT_SYMBOL(mdiobus_register); | | struct phy_device *mdiobus_scan(struct mii_bus *bus, int addr) <-------+ { struct phy_device *phydev; int err; phydev = get_phy_device(bus, addr); -----------+ if (IS_ERR(phydev) || phydev == NULL) | return phydev; | | err = phy_device_register(phydev); ---------------+ | if (err) { | | phy_device_free(phydev); | | return NULL; | | } | | | | return phydev; | | } | | EXPORT_SYMBOL(mdiobus_scan); | | | | int phy_device_register(struct phy_device *phydev) <-------+ | { | int err; | | /* Don‘t register a phy if one is already registered at this | * address */ | if (phydev->bus->phy_map[phydev->addr]) | return -EINVAL; | phydev->bus->phy_map[phydev->addr] = phydev; | | /* Run all of the fixups for this PHY */ | phy_scan_fixups(phydev); ------------------+ | | | err = device_register(&phydev->dev); | | if (err) { | | pr_err("phy %d failed to register\n", phydev->addr); | | goto out; | | } | | | | return 0; | | | | out: | | phydev->bus->phy_map[phydev->addr] = NULL; | | return err; | | } | | EXPORT_SYMBOL(phy_device_register); | | | | /* Runs any matching fixups for this phydev */ | | int phy_scan_fixups(struct phy_device *phydev) <-----------+ | { | struct phy_fixup *fixup; | | mutex_lock(&phy_fixup_lock); | list_for_each_entry(fixup, &phy_fixup_list, list) { | if (phy_needs_fixup(phydev, fixup)) { | int err; | | err = fixup->run(phydev); | | if (err < 0) { | mutex_unlock(&phy_fixup_lock); | return err; | } | } | } | mutex_unlock(&phy_fixup_lock); | | return 0; | } | | struct phy_device * get_phy_device(struct mii_bus *bus, int addr) <--------+ { struct phy_device *dev = NULL; u32 phy_id; int r; r = get_phy_id(bus, addr, &phy_id); ------------------+ if (r) | return ERR_PTR(r); | | /* If the phy_id is mostly Fs, there is no device there */ | if ((phy_id & 0x1fffffff) == 0x1fffffff) | return NULL; | | dev = phy_device_create(bus, addr, phy_id); --------*----+ | | return dev; | | } | | EXPORT_SYMBOL(get_phy_device); | | | | int get_phy_id(struct mii_bus *bus, int addr, u32 *phy_id) <-------+ | { | int phy_reg; | | /* Grab the bits from PHYIR1, and put them | * in the upper half */ | phy_reg = mdiobus_read(bus, addr, MII_PHYSID1); | | if (phy_reg < 0) | return -EIO; | | *phy_id = (phy_reg & 0xffff) << 16; | | /* Grab the bits from PHYIR2, and put them in the lower half */ | phy_reg = mdiobus_read(bus, addr, MII_PHYSID2); | | if (phy_reg < 0) | return -EIO; | | *phy_id |= (phy_reg & 0xffff); | | return 0; | } | EXPORT_SYMBOL(get_phy_id); | | static struct phy_device* phy_device_create(struct mii_bus *bus, <------+ int addr, int phy_id) { struct phy_device *dev; /* We allocate the device, and initialize the * default values */ dev = kzalloc(sizeof(*dev), GFP_KERNEL); if (NULL == dev) return (struct phy_device*) PTR_ERR((void*)-ENOMEM); dev->dev.release = phy_device_release; dev->speed = 0; dev->duplex = -1; dev->pause = dev->asym_pause = 0; dev->link = 1; dev->interface = PHY_INTERFACE_MODE_GMII; dev->autoneg = AUTONEG_ENABLE; dev->addr = addr; dev->phy_id = phy_id; dev->bus = bus; dev->dev.parent = bus->parent; dev->dev.bus = &mdio_bus_type; // important dev->irq = bus->irq != NULL ? bus->irq[addr] : PHY_POLL; dev_set_name(&dev->dev, PHY_ID_FMT, bus->id, addr); dev->state = PHY_DOWN; mutex_init(&dev->lock); INIT_DELAYED_WORK(&dev->state_queue, phy_state_machine); ----------+ | /* Request the appropriate module unconditionally; don‘t | bother trying to do so only if it isn‘t already loaded, | because that gets complicated. A hotplug event would have | done an unconditional modprobe anyway. | We don‘t do normal hotplug because it won‘t work for MDIO | -- because it relies on the device staying around for long | enough for the driver to get loaded. With MDIO, the NIC | driver will get bored and give up as soon as it finds that | there‘s no driver _already_ loaded. */ | request_module(MDIO_MODULE_PREFIX MDIO_ID_FMT, MDIO_ID_ARGS(phy_id)); | | return dev; | } | | void phy_state_machine(struct work_struct *work) <-------------+ { struct delayed_work *dwork = to_delayed_work(work); struct phy_device *phydev = container_of(dwork, struct phy_device, state_queue); int needs_aneg = 0; int err = 0; mutex_lock(&phydev->lock); if (phydev->adjust_state) phydev->adjust_state(phydev->attached_dev); switch(phydev->state) { case PHY_DOWN: case PHY_STARTING: case PHY_READY: case PHY_PENDING: break; case PHY_UP: needs_aneg = 1; phydev->link_timeout = PHY_AN_TIMEOUT; break; case PHY_AN: err = phy_read_status(phydev); if (err < 0) break; /* If the link is down, give up on * negotiation for now */ if (!phydev->link) { phydev->state = PHY_NOLINK; netif_carrier_off(phydev->attached_dev); phydev->adjust_link(phydev->attached_dev); break; } /* Check if negotiation is done. Break * if there‘s an error */ err = phy_aneg_done(phydev); if (err < 0) break; /* If AN is done, we‘re running */ if (err > 0) { phydev->state = PHY_RUNNING; netif_carrier_on(phydev->attached_dev); phydev->adjust_link(phydev->attached_dev); } else if (0 == phydev->link_timeout--) { int idx; needs_aneg = 1; /* If we have the magic_aneg bit, * we try again */ if (phydev->drv->flags & PHY_HAS_MAGICANEG) break; /* The timer expired, and we still * don‘t have a setting, so we try * forcing it until we find one that * works, starting from the fastest speed, * and working our way down */ idx = phy_find_valid(0, phydev->supported); phydev->speed = settings[idx].speed; phydev->duplex = settings[idx].duplex; phydev->autoneg = AUTONEG_DISABLE; pr_info("Trying %d/%s\n", phydev->speed, DUPLEX_FULL == phydev->duplex ? "FULL" : "HALF"); } break; case PHY_NOLINK: err = phy_read_status(phydev); if (err) break; if (phydev->link) { phydev->state = PHY_RUNNING; netif_carrier_on(phydev->attached_dev); phydev->adjust_link(phydev->attached_dev); } break; case PHY_FORCING: err = genphy_update_link(phydev); if (err) break; if (phydev->link) { phydev->state = PHY_RUNNING; netif_carrier_on(phydev->attached_dev); } else { if (0 == phydev->link_timeout--) { phy_force_reduction(phydev); needs_aneg = 1; } } phydev->adjust_link(phydev->attached_dev); break; case PHY_RUNNING: /* Only register a CHANGE if we are * polling */ if (PHY_POLL == phydev->irq) phydev->state = PHY_CHANGELINK; break; case PHY_CHANGELINK: err = phy_read_status(phydev); if (err) break; if (phydev->link) { phydev->state = PHY_RUNNING; netif_carrier_on(phydev->attached_dev); } else { phydev->state = PHY_NOLINK; netif_carrier_off(phydev->attached_dev); } phydev->adjust_link(phydev->attached_dev); if (PHY_POLL != phydev->irq) err = phy_config_interrupt(phydev, PHY_INTERRUPT_ENABLED); break; case PHY_HALTED: if (phydev->link) { phydev->link = 0; netif_carrier_off(phydev->attached_dev); phydev->adjust_link(phydev->attached_dev); } break; case PHY_RESUMING: err = phy_clear_interrupt(phydev); if (err) break; err = phy_config_interrupt(phydev, PHY_INTERRUPT_ENABLED); if (err) break; if (AUTONEG_ENABLE == phydev->autoneg) { err = phy_aneg_done(phydev); if (err < 0) break; /* err > 0 if AN is done. * Otherwise, it‘s 0, and we‘re * still waiting for AN */ if (err > 0) { err = phy_read_status(phydev); if (err) break; if (phydev->link) { phydev->state = PHY_RUNNING; netif_carrier_on(phydev->attached_dev); } else phydev->state = PHY_NOLINK; phydev->adjust_link(phydev->attached_dev); } else { phydev->state = PHY_AN; phydev->link_timeout = PHY_AN_TIMEOUT; } } else { err = phy_read_status(phydev); ---------+ if (err) | break; | | if (phydev->link) { | phydev->state = PHY_RUNNING; | netif_carrier_on(phydev->attached_dev); | } else | phydev->state = PHY_NOLINK; | phydev->adjust_link(phydev->attached_dev); | } | break; | } | | mutex_unlock(&phydev->lock); | | if (needs_aneg) | err = phy_start_aneg(phydev); | | if (err < 0) | phy_error(phydev); | | schedule_delayed_work(&phydev->state_queue, PHY_STATE_TIME * HZ); | } | | static inline int phy_read_status(struct phy_device *phydev) { <--------+ return phydev->drv->read_status(phydev); }
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