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|
// SPDX-License-Identifier: GPL-2.0-or-later
/*
* ASIX AX88179/178A USB 3.0/2.0 to Gigabit Ethernet Devices
*
* Copyright (C) 2011-2013 ASIX
*/
#include <linux/module.h>
#include <linux/etherdevice.h>
#include <linux/mii.h>
#include <linux/usb.h>
#include <linux/crc32.h>
#include <linux/usb/usbnet.h>
#include <uapi/linux/mdio.h>
#include <linux/mdio.h>
#define AX88179_PHY_ID 0x03
#define AX_EEPROM_LEN 0x100
#define AX88179_EEPROM_MAGIC 0x17900b95
#define AX_MCAST_FLTSIZE 8
#define AX_MAX_MCAST 64
#define AX_INT_PPLS_LINK ((u32)BIT(16))
#define AX_RXHDR_L4_TYPE_MASK 0x1c
#define AX_RXHDR_L4_TYPE_UDP 4
#define AX_RXHDR_L4_TYPE_TCP 16
#define AX_RXHDR_L3CSUM_ERR 2
#define AX_RXHDR_L4CSUM_ERR 1
#define AX_RXHDR_CRC_ERR ((u32)BIT(29))
#define AX_RXHDR_DROP_ERR ((u32)BIT(31))
#define AX_ACCESS_MAC 0x01
#define AX_ACCESS_PHY 0x02
#define AX_ACCESS_EEPROM 0x04
#define AX_ACCESS_EFUS 0x05
#define AX_RELOAD_EEPROM_EFUSE 0x06
#define AX_PAUSE_WATERLVL_HIGH 0x54
#define AX_PAUSE_WATERLVL_LOW 0x55
#define PHYSICAL_LINK_STATUS 0x02
#define AX_USB_SS 0x04
#define AX_USB_HS 0x02
#define GENERAL_STATUS 0x03
/* Check AX88179 version. UA1:Bit2 = 0, UA2:Bit2 = 1 */
#define AX_SECLD 0x04
#define AX_SROM_ADDR 0x07
#define AX_SROM_CMD 0x0a
#define EEP_RD 0x04
#define EEP_BUSY 0x10
#define AX_SROM_DATA_LOW 0x08
#define AX_SROM_DATA_HIGH 0x09
#define AX_RX_CTL 0x0b
#define AX_RX_CTL_DROPCRCERR 0x0100
#define AX_RX_CTL_IPE 0x0200
#define AX_RX_CTL_START 0x0080
#define AX_RX_CTL_AP 0x0020
#define AX_RX_CTL_AM 0x0010
#define AX_RX_CTL_AB 0x0008
#define AX_RX_CTL_AMALL 0x0002
#define AX_RX_CTL_PRO 0x0001
#define AX_RX_CTL_STOP 0x0000
#define AX_NODE_ID 0x10
#define AX_MULFLTARY 0x16
#define AX_MEDIUM_STATUS_MODE 0x22
#define AX_MEDIUM_GIGAMODE 0x01
#define AX_MEDIUM_FULL_DUPLEX 0x02
#define AX_MEDIUM_EN_125MHZ 0x08
#define AX_MEDIUM_RXFLOW_CTRLEN 0x10
#define AX_MEDIUM_TXFLOW_CTRLEN 0x20
#define AX_MEDIUM_RECEIVE_EN 0x100
#define AX_MEDIUM_PS 0x200
#define AX_MEDIUM_JUMBO_EN 0x8040
#define AX_MONITOR_MOD 0x24
#define AX_MONITOR_MODE_RWLC 0x02
#define AX_MONITOR_MODE_RWMP 0x04
#define AX_MONITOR_MODE_PMEPOL 0x20
#define AX_MONITOR_MODE_PMETYPE 0x40
#define AX_GPIO_CTRL 0x25
#define AX_GPIO_CTRL_GPIO3EN 0x80
#define AX_GPIO_CTRL_GPIO2EN 0x40
#define AX_GPIO_CTRL_GPIO1EN 0x20
#define AX_PHYPWR_RSTCTL 0x26
#define AX_PHYPWR_RSTCTL_BZ 0x0010
#define AX_PHYPWR_RSTCTL_IPRL 0x0020
#define AX_PHYPWR_RSTCTL_AT 0x1000
#define AX_RX_BULKIN_QCTRL 0x2e
#define AX_CLK_SELECT 0x33
#define AX_CLK_SELECT_BCS 0x01
#define AX_CLK_SELECT_ACS 0x02
#define AX_CLK_SELECT_ULR 0x08
#define AX_RXCOE_CTL 0x34
#define AX_RXCOE_IP 0x01
#define AX_RXCOE_TCP 0x02
#define AX_RXCOE_UDP 0x04
#define AX_RXCOE_TCPV6 0x20
#define AX_RXCOE_UDPV6 0x40
#define AX_TXCOE_CTL 0x35
#define AX_TXCOE_IP 0x01
#define AX_TXCOE_TCP 0x02
#define AX_TXCOE_UDP 0x04
#define AX_TXCOE_TCPV6 0x20
#define AX_TXCOE_UDPV6 0x40
#define AX_LEDCTRL 0x73
#define GMII_PHY_PHYSR 0x11
#define GMII_PHY_PHYSR_SMASK 0xc000
#define GMII_PHY_PHYSR_GIGA 0x8000
#define GMII_PHY_PHYSR_100 0x4000
#define GMII_PHY_PHYSR_FULL 0x2000
#define GMII_PHY_PHYSR_LINK 0x400
#define GMII_LED_ACT 0x1a
#define GMII_LED_ACTIVE_MASK 0xff8f
#define GMII_LED0_ACTIVE BIT(4)
#define GMII_LED1_ACTIVE BIT(5)
#define GMII_LED2_ACTIVE BIT(6)
#define GMII_LED_LINK 0x1c
#define GMII_LED_LINK_MASK 0xf888
#define GMII_LED0_LINK_10 BIT(0)
#define GMII_LED0_LINK_100 BIT(1)
#define GMII_LED0_LINK_1000 BIT(2)
#define GMII_LED1_LINK_10 BIT(4)
#define GMII_LED1_LINK_100 BIT(5)
#define GMII_LED1_LINK_1000 BIT(6)
#define GMII_LED2_LINK_10 BIT(8)
#define GMII_LED2_LINK_100 BIT(9)
#define GMII_LED2_LINK_1000 BIT(10)
#define LED0_ACTIVE BIT(0)
#define LED0_LINK_10 BIT(1)
#define LED0_LINK_100 BIT(2)
#define LED0_LINK_1000 BIT(3)
#define LED0_FD BIT(4)
#define LED0_USB3_MASK 0x001f
#define LED1_ACTIVE BIT(5)
#define LED1_LINK_10 BIT(6)
#define LED1_LINK_100 BIT(7)
#define LED1_LINK_1000 BIT(8)
#define LED1_FD BIT(9)
#define LED1_USB3_MASK 0x03e0
#define LED2_ACTIVE BIT(10)
#define LED2_LINK_1000 BIT(13)
#define LED2_LINK_100 BIT(12)
#define LED2_LINK_10 BIT(11)
#define LED2_FD BIT(14)
#define LED_VALID BIT(15)
#define LED2_USB3_MASK 0x7c00
#define GMII_PHYPAGE 0x1e
#define GMII_PHY_PAGE_SELECT 0x1f
#define GMII_PHY_PGSEL_EXT 0x0007
#define GMII_PHY_PGSEL_PAGE0 0x0000
#define GMII_PHY_PGSEL_PAGE3 0x0003
#define GMII_PHY_PGSEL_PAGE5 0x0005
static int ax88179_reset(struct usbnet *dev);
struct ax88179_data {
u8 eee_enabled;
u8 eee_active;
u16 rxctl;
u8 in_pm;
u32 wol_supported;
u32 wolopts;
};
struct ax88179_int_data {
__le32 intdata1;
__le32 intdata2;
};
static const struct {
unsigned char ctrl, timer_l, timer_h, size, ifg;
} AX88179_BULKIN_SIZE[] = {
{7, 0x4f, 0, 0x12, 0xff},
{7, 0x20, 3, 0x16, 0xff},
{7, 0xae, 7, 0x18, 0xff},
{7, 0xcc, 0x4c, 0x18, 8},
};
static void ax88179_set_pm_mode(struct usbnet *dev, bool pm_mode)
{
struct ax88179_data *ax179_data = dev->driver_priv;
ax179_data->in_pm = pm_mode;
}
static int ax88179_in_pm(struct usbnet *dev)
{
struct ax88179_data *ax179_data = dev->driver_priv;
return ax179_data->in_pm;
}
static int __ax88179_read_cmd(struct usbnet *dev, u8 cmd, u16 value, u16 index,
u16 size, void *data)
{
int ret;
int (*fn)(struct usbnet *, u8, u8, u16, u16, void *, u16);
BUG_ON(!dev);
if (!ax88179_in_pm(dev))
fn = usbnet_read_cmd;
else
fn = usbnet_read_cmd_nopm;
ret = fn(dev, cmd, USB_DIR_IN | USB_TYPE_VENDOR | USB_RECIP_DEVICE,
value, index, data, size);
if (unlikely(ret < 0))
netdev_warn(dev->net, "Failed to read reg index 0x%04x: %d\n",
index, ret);
return ret;
}
static int __ax88179_write_cmd(struct usbnet *dev, u8 cmd, u16 value, u16 index,
u16 size, const void *data)
{
int ret;
int (*fn)(struct usbnet *, u8, u8, u16, u16, const void *, u16);
BUG_ON(!dev);
if (!ax88179_in_pm(dev))
fn = usbnet_write_cmd;
else
fn = usbnet_write_cmd_nopm;
ret = fn(dev, cmd, USB_DIR_OUT | USB_TYPE_VENDOR | USB_RECIP_DEVICE,
value, index, data, size);
if (unlikely(ret < 0))
netdev_warn(dev->net, "Failed to write reg index 0x%04x: %d\n",
index, ret);
return ret;
}
static void ax88179_write_cmd_async(struct usbnet *dev, u8 cmd, u16 value,
u16 index, u16 size, void *data)
{
u16 buf;
if (2 == size) {
buf = *((u16 *)data);
cpu_to_le16s(&buf);
usbnet_write_cmd_async(dev, cmd, USB_DIR_OUT | USB_TYPE_VENDOR |
USB_RECIP_DEVICE, value, index, &buf,
size);
} else {
usbnet_write_cmd_async(dev, cmd, USB_DIR_OUT | USB_TYPE_VENDOR |
USB_RECIP_DEVICE, value, index, data,
size);
}
}
static int ax88179_read_cmd(struct usbnet *dev, u8 cmd, u16 value, u16 index,
u16 size, void *data)
{
int ret;
if (2 == size) {
u16 buf = 0;
ret = __ax88179_read_cmd(dev, cmd, value, index, size, &buf);
le16_to_cpus(&buf);
*((u16 *)data) = buf;
} else if (4 == size) {
u32 buf = 0;
ret = __ax88179_read_cmd(dev, cmd, value, index, size, &buf);
le32_to_cpus(&buf);
*((u32 *)data) = buf;
} else {
ret = __ax88179_read_cmd(dev, cmd, value, index, size, data);
}
return ret;
}
static int ax88179_write_cmd(struct usbnet *dev, u8 cmd, u16 value, u16 index,
u16 size, const void *data)
{
int ret;
if (2 == size) {
u16 buf;
buf = *((u16 *)data);
cpu_to_le16s(&buf);
ret = __ax88179_write_cmd(dev, cmd, value, index,
size, &buf);
} else {
ret = __ax88179_write_cmd(dev, cmd, value, index,
size, data);
}
return ret;
}
static void ax88179_status(struct usbnet *dev, struct urb *urb)
{
struct ax88179_int_data *event;
u32 link;
if (urb->actual_length < 8)
return;
event = urb->transfer_buffer;
le32_to_cpus((void *)&event->intdata1);
link = (((__force u32)event->intdata1) & AX_INT_PPLS_LINK) >> 16;
if (netif_carrier_ok(dev->net) != link) {
usbnet_link_change(dev, link, 1);
netdev_info(dev->net, "ax88179 - Link status is: %d\n", link);
}
}
static int ax88179_mdio_read(struct net_device *netdev, int phy_id, int loc)
{
struct usbnet *dev = netdev_priv(netdev);
u16 res;
ax88179_read_cmd(dev, AX_ACCESS_PHY, phy_id, (__u16)loc, 2, &res);
return res;
}
static void ax88179_mdio_write(struct net_device *netdev, int phy_id, int loc,
int val)
{
struct usbnet *dev = netdev_priv(netdev);
u16 res = (u16) val;
ax88179_write_cmd(dev, AX_ACCESS_PHY, phy_id, (__u16)loc, 2, &res);
}
static inline int ax88179_phy_mmd_indirect(struct usbnet *dev, u16 prtad,
u16 devad)
{
u16 tmp16;
int ret;
tmp16 = devad;
ret = ax88179_write_cmd(dev, AX_ACCESS_PHY, AX88179_PHY_ID,
MII_MMD_CTRL, 2, &tmp16);
tmp16 = prtad;
ret = ax88179_write_cmd(dev, AX_ACCESS_PHY, AX88179_PHY_ID,
MII_MMD_DATA, 2, &tmp16);
tmp16 = devad | MII_MMD_CTRL_NOINCR;
ret = ax88179_write_cmd(dev, AX_ACCESS_PHY, AX88179_PHY_ID,
MII_MMD_CTRL, 2, &tmp16);
return ret;
}
static int
ax88179_phy_read_mmd_indirect(struct usbnet *dev, u16 prtad, u16 devad)
{
int ret;
u16 tmp16;
ax88179_phy_mmd_indirect(dev, prtad, devad);
ret = ax88179_read_cmd(dev, AX_ACCESS_PHY, AX88179_PHY_ID,
MII_MMD_DATA, 2, &tmp16);
if (ret < 0)
return ret;
return tmp16;
}
static int
ax88179_phy_write_mmd_indirect(struct usbnet *dev, u16 prtad, u16 devad,
u16 data)
{
int ret;
ax88179_phy_mmd_indirect(dev, prtad, devad);
ret = ax88179_write_cmd(dev, AX_ACCESS_PHY, AX88179_PHY_ID,
MII_MMD_DATA, 2, &data);
if (ret < 0)
return ret;
return 0;
}
static int ax88179_suspend(struct usb_interface *intf, pm_message_t message)
{
struct usbnet *dev = usb_get_intfdata(intf);
struct ax88179_data *priv = dev->driver_priv;
u16 tmp16;
u8 tmp8;
ax88179_set_pm_mode(dev, true);
usbnet_suspend(intf, message);
/* Enable WoL */
if (priv->wolopts) {
ax88179_read_cmd(dev, AX_ACCESS_MAC, AX_MONITOR_MOD,
1, 1, &tmp8);
if (priv->wolopts & WAKE_PHY)
tmp8 |= AX_MONITOR_MODE_RWLC;
if (priv->wolopts & WAKE_MAGIC)
tmp8 |= AX_MONITOR_MODE_RWMP;
ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_MONITOR_MOD,
1, 1, &tmp8);
}
/* Disable RX path */
ax88179_read_cmd(dev, AX_ACCESS_MAC, AX_MEDIUM_STATUS_MODE,
2, 2, &tmp16);
tmp16 &= ~AX_MEDIUM_RECEIVE_EN;
ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_MEDIUM_STATUS_MODE,
2, 2, &tmp16);
/* Force bulk-in zero length */
ax88179_read_cmd(dev, AX_ACCESS_MAC, AX_PHYPWR_RSTCTL,
2, 2, &tmp16);
tmp16 |= AX_PHYPWR_RSTCTL_BZ | AX_PHYPWR_RSTCTL_IPRL;
ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_PHYPWR_RSTCTL,
2, 2, &tmp16);
/* change clock */
tmp8 = 0;
ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_CLK_SELECT, 1, 1, &tmp8);
/* Configure RX control register => stop operation */
tmp16 = AX_RX_CTL_STOP;
ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_RX_CTL, 2, 2, &tmp16);
ax88179_set_pm_mode(dev, false);
return 0;
}
/* This function is used to enable the autodetach function. */
/* This function is determined by offset 0x43 of EEPROM */
static int ax88179_auto_detach(struct usbnet *dev)
{
u16 tmp16;
u8 tmp8;
if (ax88179_read_cmd(dev, AX_ACCESS_EEPROM, 0x43, 1, 2, &tmp16) < 0)
return 0;
if ((tmp16 == 0xFFFF) || (!(tmp16 & 0x0100)))
return 0;
/* Enable Auto Detach bit */
tmp8 = 0;
ax88179_read_cmd(dev, AX_ACCESS_MAC, AX_CLK_SELECT, 1, 1, &tmp8);
tmp8 |= AX_CLK_SELECT_ULR;
ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_CLK_SELECT, 1, 1, &tmp8);
ax88179_read_cmd(dev, AX_ACCESS_MAC, AX_PHYPWR_RSTCTL, 2, 2, &tmp16);
tmp16 |= AX_PHYPWR_RSTCTL_AT;
ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_PHYPWR_RSTCTL, 2, 2, &tmp16);
return 0;
}
static int ax88179_resume(struct usb_interface *intf)
{
struct usbnet *dev = usb_get_intfdata(intf);
ax88179_set_pm_mode(dev, true);
usbnet_link_change(dev, 0, 0);
ax88179_reset(dev);
ax88179_set_pm_mode(dev, false);
return usbnet_resume(intf);
}
static void
ax88179_get_wol(struct net_device *net, struct ethtool_wolinfo *wolinfo)
{
struct usbnet *dev = netdev_priv(net);
struct ax88179_data *priv = dev->driver_priv;
wolinfo->supported = priv->wol_supported;
wolinfo->wolopts = priv->wolopts;
}
static int
ax88179_set_wol(struct net_device *net, struct ethtool_wolinfo *wolinfo)
{
struct usbnet *dev = netdev_priv(net);
struct ax88179_data *priv = dev->driver_priv;
if (wolinfo->wolopts & ~(priv->wol_supported))
return -EINVAL;
priv->wolopts = wolinfo->wolopts;
return 0;
}
static int ax88179_get_eeprom_len(struct net_device *net)
{
return AX_EEPROM_LEN;
}
static int
ax88179_get_eeprom(struct net_device *net, struct ethtool_eeprom *eeprom,
u8 *data)
{
struct usbnet *dev = netdev_priv(net);
u16 *eeprom_buff;
int first_word, last_word;
int i, ret;
if (eeprom->len == 0)
return -EINVAL;
eeprom->magic = AX88179_EEPROM_MAGIC;
first_word = eeprom->offset >> 1;
last_word = (eeprom->offset + eeprom->len - 1) >> 1;
eeprom_buff = kmalloc_array(last_word - first_word + 1, sizeof(u16),
GFP_KERNEL);
if (!eeprom_buff)
return -ENOMEM;
/* ax88179/178A returns 2 bytes from eeprom on read */
for (i = first_word; i <= last_word; i++) {
ret = __ax88179_read_cmd(dev, AX_ACCESS_EEPROM, i, 1, 2,
&eeprom_buff[i - first_word]);
if (ret < 0) {
kfree(eeprom_buff);
return -EIO;
}
}
memcpy(data, (u8 *)eeprom_buff + (eeprom->offset & 1), eeprom->len);
kfree(eeprom_buff);
return 0;
}
static int
ax88179_set_eeprom(struct net_device *net, struct ethtool_eeprom *eeprom,
u8 *data)
{
struct usbnet *dev = netdev_priv(net);
u16 *eeprom_buff;
int first_word;
int last_word;
int ret;
int i;
netdev_dbg(net, "write EEPROM len %d, offset %d, magic 0x%x\n",
eeprom->len, eeprom->offset, eeprom->magic);
if (eeprom->len == 0)
return -EINVAL;
if (eeprom->magic != AX88179_EEPROM_MAGIC)
return -EINVAL;
first_word = eeprom->offset >> 1;
last_word = (eeprom->offset + eeprom->len - 1) >> 1;
eeprom_buff = kmalloc_array(last_word - first_word + 1, sizeof(u16),
GFP_KERNEL);
if (!eeprom_buff)
return -ENOMEM;
/* align data to 16 bit boundaries, read the missing data from
the EEPROM */
if (eeprom->offset & 1) {
ret = ax88179_read_cmd(dev, AX_ACCESS_EEPROM, first_word, 1, 2,
&eeprom_buff[0]);
if (ret < 0) {
netdev_err(net, "Failed to read EEPROM at offset 0x%02x.\n", first_word);
goto free;
}
}
if ((eeprom->offset + eeprom->len) & 1) {
ret = ax88179_read_cmd(dev, AX_ACCESS_EEPROM, last_word, 1, 2,
&eeprom_buff[last_word - first_word]);
if (ret < 0) {
netdev_err(net, "Failed to read EEPROM at offset 0x%02x.\n", last_word);
goto free;
}
}
memcpy((u8 *)eeprom_buff + (eeprom->offset & 1), data, eeprom->len);
for (i = first_word; i <= last_word; i++) {
netdev_dbg(net, "write to EEPROM at offset 0x%02x, data 0x%04x\n",
i, eeprom_buff[i - first_word]);
ret = ax88179_write_cmd(dev, AX_ACCESS_EEPROM, i, 1, 2,
&eeprom_buff[i - first_word]);
if (ret < 0) {
netdev_err(net, "Failed to write EEPROM at offset 0x%02x.\n", i);
goto free;
}
msleep(20);
}
/* reload EEPROM data */
ret = ax88179_write_cmd(dev, AX_RELOAD_EEPROM_EFUSE, 0x0000, 0, 0, NULL);
if (ret < 0) {
netdev_err(net, "Failed to reload EEPROM data\n");
goto free;
}
ret = 0;
free:
kfree(eeprom_buff);
return ret;
}
static int ax88179_get_link_ksettings(struct net_device *net,
struct ethtool_link_ksettings *cmd)
{
struct usbnet *dev = netdev_priv(net);
mii_ethtool_get_link_ksettings(&dev->mii, cmd);
return 0;
}
static int ax88179_set_link_ksettings(struct net_device *net,
const struct ethtool_link_ksettings *cmd)
{
struct usbnet *dev = netdev_priv(net);
return mii_ethtool_set_link_ksettings(&dev->mii, cmd);
}
static int
ax88179_ethtool_get_eee(struct usbnet *dev, struct ethtool_eee *data)
{
int val;
/* Get Supported EEE */
val = ax88179_phy_read_mmd_indirect(dev, MDIO_PCS_EEE_ABLE,
MDIO_MMD_PCS);
if (val < 0)
return val;
data->supported = mmd_eee_cap_to_ethtool_sup_t(val);
/* Get advertisement EEE */
val = ax88179_phy_read_mmd_indirect(dev, MDIO_AN_EEE_ADV,
MDIO_MMD_AN);
if (val < 0)
return val;
data->advertised = mmd_eee_adv_to_ethtool_adv_t(val);
/* Get LP advertisement EEE */
val = ax88179_phy_read_mmd_indirect(dev, MDIO_AN_EEE_LPABLE,
MDIO_MMD_AN);
if (val < 0)
return val;
data->lp_advertised = mmd_eee_adv_to_ethtool_adv_t(val);
return 0;
}
static int
ax88179_ethtool_set_eee(struct usbnet *dev, struct ethtool_eee *data)
{
u16 tmp16 = ethtool_adv_to_mmd_eee_adv_t(data->advertised);
return ax88179_phy_write_mmd_indirect(dev, MDIO_AN_EEE_ADV,
MDIO_MMD_AN, tmp16);
}
static int ax88179_chk_eee(struct usbnet *dev)
{
struct ethtool_cmd ecmd = { .cmd = ETHTOOL_GSET };
struct ax88179_data *priv = dev->driver_priv;
mii_ethtool_gset(&dev->mii, &ecmd);
if (ecmd.duplex & DUPLEX_FULL) {
int eee_lp, eee_cap, eee_adv;
u32 lp, cap, adv, supported = 0;
eee_cap = ax88179_phy_read_mmd_indirect(dev,
MDIO_PCS_EEE_ABLE,
MDIO_MMD_PCS);
if (eee_cap < 0) {
priv->eee_active = 0;
return false;
}
cap = mmd_eee_cap_to_ethtool_sup_t(eee_cap);
if (!cap) {
priv->eee_active = 0;
return false;
}
eee_lp = ax88179_phy_read_mmd_indirect(dev,
MDIO_AN_EEE_LPABLE,
MDIO_MMD_AN);
if (eee_lp < 0) {
priv->eee_active = 0;
return false;
}
eee_adv = ax88179_phy_read_mmd_indirect(dev,
MDIO_AN_EEE_ADV,
MDIO_MMD_AN);
if (eee_adv < 0) {
priv->eee_active = 0;
return false;
}
adv = mmd_eee_adv_to_ethtool_adv_t(eee_adv);
lp = mmd_eee_adv_to_ethtool_adv_t(eee_lp);
supported = (ecmd.speed == SPEED_1000) ?
SUPPORTED_1000baseT_Full :
SUPPORTED_100baseT_Full;
if (!(lp & adv & supported)) {
priv->eee_active = 0;
return false;
}
priv->eee_active = 1;
return true;
}
priv->eee_active = 0;
return false;
}
static void ax88179_disable_eee(struct usbnet *dev)
{
u16 tmp16;
tmp16 = GMII_PHY_PGSEL_PAGE3;
ax88179_write_cmd(dev, AX_ACCESS_PHY, AX88179_PHY_ID,
GMII_PHY_PAGE_SELECT, 2, &tmp16);
tmp16 = 0x3246;
ax88179_write_cmd(dev, AX_ACCESS_PHY, AX88179_PHY_ID,
MII_PHYADDR, 2, &tmp16);
tmp16 = GMII_PHY_PGSEL_PAGE0;
ax88179_write_cmd(dev, AX_ACCESS_PHY, AX88179_PHY_ID,
GMII_PHY_PAGE_SELECT, 2, &tmp16);
}
static void ax88179_enable_eee(struct usbnet *dev)
{
u16 tmp16;
tmp16 = GMII_PHY_PGSEL_PAGE3;
ax88179_write_cmd(dev, AX_ACCESS_PHY, AX88179_PHY_ID,
GMII_PHY_PAGE_SELECT, 2, &tmp16);
tmp16 = 0x3247;
ax88179_write_cmd(dev, AX_ACCESS_PHY, AX88179_PHY_ID,
MII_PHYADDR, 2, &tmp16);
tmp16 = GMII_PHY_PGSEL_PAGE5;
ax88179_write_cmd(dev, AX_ACCESS_PHY, AX88179_PHY_ID,
GMII_PHY_PAGE_SELECT, 2, &tmp16);
tmp16 = 0x0680;
ax88179_write_cmd(dev, AX_ACCESS_PHY, AX88179_PHY_ID,
MII_BMSR, 2, &tmp16);
tmp16 = GMII_PHY_PGSEL_PAGE0;
ax88179_write_cmd(dev, AX_ACCESS_PHY, AX88179_PHY_ID,
GMII_PHY_PAGE_SELECT, 2, &tmp16);
}
static int ax88179_get_eee(struct net_device *net, struct ethtool_eee *edata)
{
struct usbnet *dev = netdev_priv(net);
struct ax88179_data *priv = dev->driver_priv;
edata->eee_enabled = priv->eee_enabled;
edata->eee_active = priv->eee_active;
return ax88179_ethtool_get_eee(dev, edata);
}
static int ax88179_set_eee(struct net_device *net, struct ethtool_eee *edata)
{
struct usbnet *dev = netdev_priv(net);
struct ax88179_data *priv = dev->driver_priv;
int ret;
priv->eee_enabled = edata->eee_enabled;
if (!priv->eee_enabled) {
ax88179_disable_eee(dev);
} else {
priv->eee_enabled = ax88179_chk_eee(dev);
if (!priv->eee_enabled)
return -EOPNOTSUPP;
ax88179_enable_eee(dev);
}
ret = ax88179_ethtool_set_eee(dev, edata);
if (ret)
return ret;
mii_nway_restart(&dev->mii);
usbnet_link_change(dev, 0, 0);
return ret;
}
static int ax88179_ioctl(struct net_device *net, struct ifreq *rq, int cmd)
{
struct usbnet *dev = netdev_priv(net);
return generic_mii_ioctl(&dev->mii, if_mii(rq), cmd, NULL);
}
static const struct ethtool_ops ax88179_ethtool_ops = {
.get_link = ethtool_op_get_link,
.get_msglevel = usbnet_get_msglevel,
.set_msglevel = usbnet_set_msglevel,
.get_wol = ax88179_get_wol,
.set_wol = ax88179_set_wol,
.get_eeprom_len = ax88179_get_eeprom_len,
.get_eeprom = ax88179_get_eeprom,
.set_eeprom = ax88179_set_eeprom,
.get_eee = ax88179_get_eee,
.set_eee = ax88179_set_eee,
.nway_reset = usbnet_nway_reset,
.get_link_ksettings = ax88179_get_link_ksettings,
.set_link_ksettings = ax88179_set_link_ksettings,
.get_ts_info = ethtool_op_get_ts_info,
};
static void ax88179_set_multicast(struct net_device *net)
{
struct usbnet *dev = netdev_priv(net);
struct ax88179_data *data = dev->driver_priv;
u8 *m_filter = ((u8 *)dev->data);
data->rxctl = (AX_RX_CTL_START | AX_RX_CTL_AB | AX_RX_CTL_IPE);
if (net->flags & IFF_PROMISC) {
data->rxctl |= AX_RX_CTL_PRO;
} else if (net->flags & IFF_ALLMULTI ||
netdev_mc_count(net) > AX_MAX_MCAST) {
data->rxctl |= AX_RX_CTL_AMALL;
} else if (netdev_mc_empty(net)) {
/* just broadcast and directed */
} else {
/* We use dev->data for our 8 byte filter buffer
* to avoid allocating memory that is tricky to free later
*/
u32 crc_bits;
struct netdev_hw_addr *ha;
memset(m_filter, 0, AX_MCAST_FLTSIZE);
netdev_for_each_mc_addr(ha, net) {
crc_bits = ether_crc(ETH_ALEN, ha->addr) >> 26;
*(m_filter + (crc_bits >> 3)) |= (1 << (crc_bits & 7));
}
ax88179_write_cmd_async(dev, AX_ACCESS_MAC, AX_MULFLTARY,
AX_MCAST_FLTSIZE, AX_MCAST_FLTSIZE,
m_filter);
data->rxctl |= AX_RX_CTL_AM;
}
ax88179_write_cmd_async(dev, AX_ACCESS_MAC, AX_RX_CTL,
2, 2, &data->rxctl);
}
static int
ax88179_set_features(struct net_device *net, netdev_features_t features)
{
u8 tmp;
struct usbnet *dev = netdev_priv(net);
netdev_features_t changed = net->features ^ features;
if (changed & NETIF_F_IP_CSUM) {
ax88179_read_cmd(dev, AX_ACCESS_MAC, AX_TXCOE_CTL, 1, 1, &tmp);
tmp ^= AX_TXCOE_TCP | AX_TXCOE_UDP;
ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_TXCOE_CTL, 1, 1, &tmp);
}
if (changed & NETIF_F_IPV6_CSUM) {
ax88179_read_cmd(dev, AX_ACCESS_MAC, AX_TXCOE_CTL, 1, 1, &tmp);
tmp ^= AX_TXCOE_TCPV6 | AX_TXCOE_UDPV6;
ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_TXCOE_CTL, 1, 1, &tmp);
}
if (changed & NETIF_F_RXCSUM) {
ax88179_read_cmd(dev, AX_ACCESS_MAC, AX_RXCOE_CTL, 1, 1, &tmp);
tmp ^= AX_RXCOE_IP | AX_RXCOE_TCP | AX_RXCOE_UDP |
AX_RXCOE_TCPV6 | AX_RXCOE_UDPV6;
ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_RXCOE_CTL, 1, 1, &tmp);
}
return 0;
}
static int ax88179_change_mtu(struct net_device *net, int new_mtu)
{
struct usbnet *dev = netdev_priv(net);
u16 tmp16;
net->mtu = new_mtu;
dev->hard_mtu = net->mtu + net->hard_header_len;
if (net->mtu > 1500) {
ax88179_read_cmd(dev, AX_ACCESS_MAC, AX_MEDIUM_STATUS_MODE,
2, 2, &tmp16);
tmp16 |= AX_MEDIUM_JUMBO_EN;
ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_MEDIUM_STATUS_MODE,
2, 2, &tmp16);
} else {
ax88179_read_cmd(dev, AX_ACCESS_MAC, AX_MEDIUM_STATUS_MODE,
2, 2, &tmp16);
tmp16 &= ~AX_MEDIUM_JUMBO_EN;
ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_MEDIUM_STATUS_MODE,
2, 2, &tmp16);
}
/* max qlen depend on hard_mtu and rx_urb_size */
usbnet_update_max_qlen(dev);
return 0;
}
static int ax88179_set_mac_addr(struct net_device *net, void *p)
{
struct usbnet *dev = netdev_priv(net);
struct sockaddr *addr = p;
int ret;
if (netif_running(net))
return -EBUSY;
if (!is_valid_ether_addr(addr->sa_data))
return -EADDRNOTAVAIL;
eth_hw_addr_set(net, addr->sa_data);
/* Set the MAC address */
ret = ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_NODE_ID, ETH_ALEN,
ETH_ALEN, net->dev_addr);
if (ret < 0)
return ret;
return 0;
}
static const struct net_device_ops ax88179_netdev_ops = {
.ndo_open = usbnet_open,
.ndo_stop = usbnet_stop,
.ndo_start_xmit = usbnet_start_xmit,
.ndo_tx_timeout = usbnet_tx_timeout,
.ndo_get_stats64 = dev_get_tstats64,
.ndo_change_mtu = ax88179_change_mtu,
.ndo_set_mac_address = ax88179_set_mac_addr,
.ndo_validate_addr = eth_validate_addr,
.ndo_eth_ioctl = ax88179_ioctl,
.ndo_set_rx_mode = ax88179_set_multicast,
.ndo_set_features = ax88179_set_features,
};
static int ax88179_check_eeprom(struct usbnet *dev)
{
u8 i, buf, eeprom[20];
u16 csum, delay = HZ / 10;
unsigned long jtimeout;
/* Read EEPROM content */
for (i = 0; i < 6; i++) {
buf = i;
if (ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_SROM_ADDR,
1, 1, &buf) < 0)
return -EINVAL;
buf = EEP_RD;
if (ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_SROM_CMD,
1, 1, &buf) < 0)
return -EINVAL;
jtimeout = jiffies + delay;
do {
ax88179_read_cmd(dev, AX_ACCESS_MAC, AX_SROM_CMD,
1, 1, &buf);
if (time_after(jiffies, jtimeout))
return -EINVAL;
} while (buf & EEP_BUSY);
__ax88179_read_cmd(dev, AX_ACCESS_MAC, AX_SROM_DATA_LOW,
2, 2, &eeprom[i * 2]);
if ((i == 0) && (eeprom[0] == 0xFF))
return -EINVAL;
}
csum = eeprom[6] + eeprom[7] + eeprom[8] + eeprom[9];
csum = (csum >> 8) + (csum & 0xff);
if ((csum + eeprom[10]) != 0xff)
return -EINVAL;
return 0;
}
static int ax88179_check_efuse(struct usbnet *dev, u16 *ledmode)
{
u8 i;
u8 efuse[64];
u16 csum = 0;
if (ax88179_read_cmd(dev, AX_ACCESS_EFUS, 0, 64, 64, efuse) < 0)
return -EINVAL;
if (*efuse == 0xFF)
return -EINVAL;
for (i = 0; i < 64; i++)
csum = csum + efuse[i];
while (csum > 255)
csum = (csum & 0x00FF) + ((csum >> 8) & 0x00FF);
if (csum != 0xFF)
return -EINVAL;
*ledmode = (efuse[51] << 8) | efuse[52];
return 0;
}
static int ax88179_convert_old_led(struct usbnet *dev, u16 *ledvalue)
{
u16 led;
/* Loaded the old eFuse LED Mode */
if (ax88179_read_cmd(dev, AX_ACCESS_EEPROM, 0x3C, 1, 2, &led) < 0)
return -EINVAL;
led >>= 8;
switch (led) {
case 0xFF:
led = LED0_ACTIVE | LED1_LINK_10 | LED1_LINK_100 |
LED1_LINK_1000 | LED2_ACTIVE | LED2_LINK_10 |
LED2_LINK_100 | LED2_LINK_1000 | LED_VALID;
break;
case 0xFE:
led = LED0_ACTIVE | LED1_LINK_1000 | LED2_LINK_100 | LED_VALID;
break;
case 0xFD:
led = LED0_ACTIVE | LED1_LINK_1000 | LED2_LINK_100 |
LED2_LINK_10 | LED_VALID;
break;
case 0xFC:
led = LED0_ACTIVE | LED1_ACTIVE | LED1_LINK_1000 | LED2_ACTIVE |
LED2_LINK_100 | LED2_LINK_10 | LED_VALID;
break;
default:
led = LED0_ACTIVE | LED1_LINK_10 | LED1_LINK_100 |
LED1_LINK_1000 | LED2_ACTIVE | LED2_LINK_10 |
LED2_LINK_100 | LED2_LINK_1000 | LED_VALID;
break;
}
*ledvalue = led;
return 0;
}
static int ax88179_led_setting(struct usbnet *dev)
{
u8 ledfd, value = 0;
u16 tmp, ledact, ledlink, ledvalue = 0, delay = HZ / 10;
unsigned long jtimeout;
/* Check AX88179 version. UA1 or UA2*/
ax88179_read_cmd(dev, AX_ACCESS_MAC, GENERAL_STATUS, 1, 1, &value);
if (!(value & AX_SECLD)) { /* UA1 */
value = AX_GPIO_CTRL_GPIO3EN | AX_GPIO_CTRL_GPIO2EN |
AX_GPIO_CTRL_GPIO1EN;
if (ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_GPIO_CTRL,
1, 1, &value) < 0)
return -EINVAL;
}
/* Check EEPROM */
if (!ax88179_check_eeprom(dev)) {
value = 0x42;
if (ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_SROM_ADDR,
1, 1, &value) < 0)
return -EINVAL;
value = EEP_RD;
if (ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_SROM_CMD,
1, 1, &value) < 0)
return -EINVAL;
jtimeout = jiffies + delay;
do {
ax88179_read_cmd(dev, AX_ACCESS_MAC, AX_SROM_CMD,
1, 1, &value);
if (time_after(jiffies, jtimeout))
return -EINVAL;
} while (value & EEP_BUSY);
ax88179_read_cmd(dev, AX_ACCESS_MAC, AX_SROM_DATA_HIGH,
1, 1, &value);
ledvalue = (value << 8);
ax88179_read_cmd(dev, AX_ACCESS_MAC, AX_SROM_DATA_LOW,
1, 1, &value);
ledvalue |= value;
/* load internal ROM for defaule setting */
if ((ledvalue == 0xFFFF) || ((ledvalue & LED_VALID) == 0))
ax88179_convert_old_led(dev, &ledvalue);
} else if (!ax88179_check_efuse(dev, &ledvalue)) {
if ((ledvalue == 0xFFFF) || ((ledvalue & LED_VALID) == 0))
ax88179_convert_old_led(dev, &ledvalue);
} else {
ax88179_convert_old_led(dev, &ledvalue);
}
tmp = GMII_PHY_PGSEL_EXT;
ax88179_write_cmd(dev, AX_ACCESS_PHY, AX88179_PHY_ID,
GMII_PHY_PAGE_SELECT, 2, &tmp);
tmp = 0x2c;
ax88179_write_cmd(dev, AX_ACCESS_PHY, AX88179_PHY_ID,
GMII_PHYPAGE, 2, &tmp);
ax88179_read_cmd(dev, AX_ACCESS_PHY, AX88179_PHY_ID,
GMII_LED_ACT, 2, &ledact);
ax88179_read_cmd(dev, AX_ACCESS_PHY, AX88179_PHY_ID,
GMII_LED_LINK, 2, &ledlink);
ledact &= GMII_LED_ACTIVE_MASK;
ledlink &= GMII_LED_LINK_MASK;
if (ledvalue & LED0_ACTIVE)
ledact |= GMII_LED0_ACTIVE;
if (ledvalue & LED1_ACTIVE)
ledact |= GMII_LED1_ACTIVE;
if (ledvalue & LED2_ACTIVE)
ledact |= GMII_LED2_ACTIVE;
if (ledvalue & LED0_LINK_10)
ledlink |= GMII_LED0_LINK_10;
if (ledvalue & LED1_LINK_10)
ledlink |= GMII_LED1_LINK_10;
if (ledvalue & LED2_LINK_10)
ledlink |= GMII_LED2_LINK_10;
if (ledvalue & LED0_LINK_100)
ledlink |= GMII_LED0_LINK_100;
if (ledvalue & LED1_LINK_100)
ledlink |= GMII_LED1_LINK_100;
if (ledvalue & LED2_LINK_100)
ledlink |= GMII_LED2_LINK_100;
if (ledvalue & LED0_LINK_1000)
ledlink |= GMII_LED0_LINK_1000;
if (ledvalue & LED1_LINK_1000)
ledlink |= GMII_LED1_LINK_1000;
if (ledvalue & LED2_LINK_1000)
ledlink |= GMII_LED2_LINK_1000;
tmp = ledact;
ax88179_write_cmd(dev, AX_ACCESS_PHY, AX88179_PHY_ID,
GMII_LED_ACT, 2, &tmp);
tmp = ledlink;
ax88179_write_cmd(dev, AX_ACCESS_PHY, AX88179_PHY_ID,
GMII_LED_LINK, 2, &tmp);
tmp = GMII_PHY_PGSEL_PAGE0;
ax88179_write_cmd(dev, AX_ACCESS_PHY, AX88179_PHY_ID,
GMII_PHY_PAGE_SELECT, 2, &tmp);
/* LED full duplex setting */
ledfd = 0;
if (ledvalue & LED0_FD)
ledfd |= 0x01;
else if ((ledvalue & LED0_USB3_MASK) == 0)
ledfd |= 0x02;
if (ledvalue & LED1_FD)
ledfd |= 0x04;
else if ((ledvalue & LED1_USB3_MASK) == 0)
ledfd |= 0x08;
if (ledvalue & LED2_FD)
ledfd |= 0x10;
else if ((ledvalue & LED2_USB3_MASK) == 0)
ledfd |= 0x20;
ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_LEDCTRL, 1, 1, &ledfd);
return 0;
}
static void ax88179_get_mac_addr(struct usbnet *dev)
{
u8 mac[ETH_ALEN];
memset(mac, 0, sizeof(mac));
/* Maybe the boot loader passed the MAC address via device tree */
if (!eth_platform_get_mac_address(&dev->udev->dev, mac)) {
netif_dbg(dev, ifup, dev->net,
"MAC address read from device tree");
} else {
ax88179_read_cmd(dev, AX_ACCESS_MAC, AX_NODE_ID, ETH_ALEN,
ETH_ALEN, mac);
netif_dbg(dev, ifup, dev->net,
"MAC address read from ASIX chip");
}
if (is_valid_ether_addr(mac)) {
eth_hw_addr_set(dev->net, mac);
} else {
netdev_info(dev->net, "invalid MAC address, using random\n");
eth_hw_addr_random(dev->net);
}
ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_NODE_ID, ETH_ALEN, ETH_ALEN,
dev->net->dev_addr);
}
static int ax88179_bind(struct usbnet *dev, struct usb_interface *intf)
{
struct ax88179_data *ax179_data;
usbnet_get_endpoints(dev, intf);
ax179_data = kzalloc(sizeof(*ax179_data), GFP_KERNEL);
if (!ax179_data)
return -ENOMEM;
dev->driver_priv = ax179_data;
dev->net->netdev_ops = &ax88179_netdev_ops;
dev->net->ethtool_ops = &ax88179_ethtool_ops;
dev->net->needed_headroom = 8;
dev->net->max_mtu = 4088;
/* Initialize MII structure */
dev->mii.dev = dev->net;
dev->mii.mdio_read = ax88179_mdio_read;
dev->mii.mdio_write = ax88179_mdio_write;
dev->mii.phy_id_mask = 0xff;
dev->mii.reg_num_mask = 0xff;
dev->mii.phy_id = 0x03;
dev->mii.supports_gmii = 1;
dev->net->features |= NETIF_F_SG | NETIF_F_IP_CSUM |
NETIF_F_IPV6_CSUM | NETIF_F_RXCSUM | NETIF_F_TSO;
dev->net->hw_features |= dev->net->features;
netif_set_tso_max_size(dev->net, 16384);
ax88179_reset(dev);
return 0;
}
static void ax88179_unbind(struct usbnet *dev, struct usb_interface *intf)
{
struct ax88179_data *ax179_data = dev->driver_priv;
u16 tmp16;
/* Configure RX control register => stop operation */
tmp16 = AX_RX_CTL_STOP;
ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_RX_CTL, 2, 2, &tmp16);
tmp16 = 0;
ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_CLK_SELECT, 1, 1, &tmp16);
/* Power down ethernet PHY */
tmp16 = 0;
ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_PHYPWR_RSTCTL, 2, 2, &tmp16);
kfree(ax179_data);
}
static void
ax88179_rx_checksum(struct sk_buff *skb, u32 *pkt_hdr)
{
skb->ip_summed = CHECKSUM_NONE;
/* checksum error bit is set */
if ((*pkt_hdr & AX_RXHDR_L3CSUM_ERR) ||
(*pkt_hdr & AX_RXHDR_L4CSUM_ERR))
return;
/* It must be a TCP or UDP packet with a valid checksum */
if (((*pkt_hdr & AX_RXHDR_L4_TYPE_MASK) == AX_RXHDR_L4_TYPE_TCP) ||
((*pkt_hdr & AX_RXHDR_L4_TYPE_MASK) == AX_RXHDR_L4_TYPE_UDP))
skb->ip_summed = CHECKSUM_UNNECESSARY;
}
static int ax88179_rx_fixup(struct usbnet *dev, struct sk_buff *skb)
{
struct sk_buff *ax_skb;
int pkt_cnt;
u32 rx_hdr;
u16 hdr_off;
u32 *pkt_hdr;
/* At the end of the SKB, there's a header telling us how many packets
* are bundled into this buffer and where we can find an array of
* per-packet metadata (which contains elements encoded into u16).
*/
/* SKB contents for current firmware:
* <packet 1> <padding>
* ...
* <packet N> <padding>
* <per-packet metadata entry 1> <dummy header>
* ...
* <per-packet metadata entry N> <dummy header>
* <padding2> <rx_hdr>
*
* where:
* <packet N> contains pkt_len bytes:
* 2 bytes of IP alignment pseudo header
* packet received
* <per-packet metadata entry N> contains 4 bytes:
* pkt_len and fields AX_RXHDR_*
* <padding> 0-7 bytes to terminate at
* 8 bytes boundary (64-bit).
* <padding2> 4 bytes to make rx_hdr terminate at
* 8 bytes boundary (64-bit)
* <dummy-header> contains 4 bytes:
* pkt_len=0 and AX_RXHDR_DROP_ERR
* <rx-hdr> contains 4 bytes:
* pkt_cnt and hdr_off (offset of
* <per-packet metadata entry 1>)
*
* pkt_cnt is number of entrys in the per-packet metadata.
* In current firmware there is 2 entrys per packet.
* The first points to the packet and the
* second is a dummy header.
* This was done probably to align fields in 64-bit and
* maintain compatibility with old firmware.
* This code assumes that <dummy header> and <padding2> are
* optional.
*/
if (skb->len < 4)
return 0;
skb_trim(skb, skb->len - 4);
rx_hdr = get_unaligned_le32(skb_tail_pointer(skb));
pkt_cnt = (u16)rx_hdr;
hdr_off = (u16)(rx_hdr >> 16);
if (pkt_cnt == 0)
return 0;
/* Make sure that the bounds of the metadata array are inside the SKB
* (and in front of the counter at the end).
*/
if (pkt_cnt * 4 + hdr_off > skb->len)
return 0;
pkt_hdr = (u32 *)(skb->data + hdr_off);
/* Packets must not overlap the metadata array */
skb_trim(skb, hdr_off);
for (; pkt_cnt > 0; pkt_cnt--, pkt_hdr++) {
u16 pkt_len_plus_padd;
u16 pkt_len;
le32_to_cpus(pkt_hdr);
pkt_len = (*pkt_hdr >> 16) & 0x1fff;
pkt_len_plus_padd = (pkt_len + 7) & 0xfff8;
/* Skip dummy header used for alignment
*/
if (pkt_len == 0)
continue;
if (pkt_len_plus_padd > skb->len)
return 0;
/* Check CRC or runt packet */
if ((*pkt_hdr & (AX_RXHDR_CRC_ERR | AX_RXHDR_DROP_ERR)) ||
pkt_len < 2 + ETH_HLEN) {
dev->net->stats.rx_errors++;
skb_pull(skb, pkt_len_plus_padd);
continue;
}
/* last packet */
if (pkt_len_plus_padd == skb->len) {
skb_trim(skb, pkt_len);
/* Skip IP alignment pseudo header */
skb_pull(skb, 2);
skb->truesize = SKB_TRUESIZE(pkt_len_plus_padd);
ax88179_rx_checksum(skb, pkt_hdr);
return 1;
}
ax_skb = skb_clone(skb, GFP_ATOMIC);
if (!ax_skb)
return 0;
skb_trim(ax_skb, pkt_len);
/* Skip IP alignment pseudo header */
skb_pull(ax_skb, 2);
skb->truesize = pkt_len_plus_padd +
SKB_DATA_ALIGN(sizeof(struct sk_buff));
ax88179_rx_checksum(ax_skb, pkt_hdr);
usbnet_skb_return(dev, ax_skb);
skb_pull(skb, pkt_len_plus_padd);
}
return 0;
}
static struct sk_buff *
ax88179_tx_fixup(struct usbnet *dev, struct sk_buff *skb, gfp_t flags)
{
u32 tx_hdr1, tx_hdr2;
int frame_size = dev->maxpacket;
int headroom;
void *ptr;
tx_hdr1 = skb->len;
tx_hdr2 = skb_shinfo(skb)->gso_size; /* Set TSO mss */
if (((skb->len + 8) % frame_size) == 0)
tx_hdr2 |= 0x80008000; /* Enable padding */
headroom = skb_headroom(skb) - 8;
if ((dev->net->features & NETIF_F_SG) && skb_linearize(skb))
return NULL;
if ((skb_header_cloned(skb) || headroom < 0) &&
pskb_expand_head(skb, headroom < 0 ? 8 : 0, 0, GFP_ATOMIC)) {
dev_kfree_skb_any(skb);
return NULL;
}
ptr = skb_push(skb, 8);
put_unaligned_le32(tx_hdr1, ptr);
put_unaligned_le32(tx_hdr2, ptr + 4);
usbnet_set_skb_tx_stats(skb, (skb_shinfo(skb)->gso_segs ?: 1), 0);
return skb;
}
static int ax88179_link_reset(struct usbnet *dev)
{
struct ax88179_data *ax179_data = dev->driver_priv;
u8 tmp[5], link_sts;
u16 mode, tmp16, delay = HZ / 10;
u32 tmp32 = 0x40000000;
unsigned long jtimeout;
jtimeout = jiffies + delay;
while (tmp32 & 0x40000000) {
mode = 0;
ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_RX_CTL, 2, 2, &mode);
ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_RX_CTL, 2, 2,
&ax179_data->rxctl);
/*link up, check the usb device control TX FIFO full or empty*/
ax88179_read_cmd(dev, 0x81, 0x8c, 0, 4, &tmp32);
if (time_after(jiffies, jtimeout))
return 0;
}
mode = AX_MEDIUM_RECEIVE_EN | AX_MEDIUM_TXFLOW_CTRLEN |
AX_MEDIUM_RXFLOW_CTRLEN;
ax88179_read_cmd(dev, AX_ACCESS_MAC, PHYSICAL_LINK_STATUS,
1, 1, &link_sts);
ax88179_read_cmd(dev, AX_ACCESS_PHY, AX88179_PHY_ID,
GMII_PHY_PHYSR, 2, &tmp16);
if (!(tmp16 & GMII_PHY_PHYSR_LINK)) {
return 0;
} else if (GMII_PHY_PHYSR_GIGA == (tmp16 & GMII_PHY_PHYSR_SMASK)) {
mode |= AX_MEDIUM_GIGAMODE | AX_MEDIUM_EN_125MHZ;
if (dev->net->mtu > 1500)
mode |= AX_MEDIUM_JUMBO_EN;
if (link_sts & AX_USB_SS)
memcpy(tmp, &AX88179_BULKIN_SIZE[0], 5);
else if (link_sts & AX_USB_HS)
memcpy(tmp, &AX88179_BULKIN_SIZE[1], 5);
else
memcpy(tmp, &AX88179_BULKIN_SIZE[3], 5);
} else if (GMII_PHY_PHYSR_100 == (tmp16 & GMII_PHY_PHYSR_SMASK)) {
mode |= AX_MEDIUM_PS;
if (link_sts & (AX_USB_SS | AX_USB_HS))
memcpy(tmp, &AX88179_BULKIN_SIZE[2], 5);
else
memcpy(tmp, &AX88179_BULKIN_SIZE[3], 5);
} else {
memcpy(tmp, &AX88179_BULKIN_SIZE[3], 5);
}
/* RX bulk configuration */
ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_RX_BULKIN_QCTRL, 5, 5, tmp);
dev->rx_urb_size = (1024 * (tmp[3] + 2));
if (tmp16 & GMII_PHY_PHYSR_FULL)
mode |= AX_MEDIUM_FULL_DUPLEX;
ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_MEDIUM_STATUS_MODE,
2, 2, &mode);
ax179_data->eee_enabled = ax88179_chk_eee(dev);
netif_carrier_on(dev->net);
return 0;
}
static int ax88179_reset(struct usbnet *dev)
{
u8 buf[5];
u16 *tmp16;
u8 *tmp;
struct ax88179_data *ax179_data = dev->driver_priv;
struct ethtool_eee eee_data;
tmp16 = (u16 *)buf;
tmp = (u8 *)buf;
/* Power up ethernet PHY */
*tmp16 = 0;
ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_PHYPWR_RSTCTL, 2, 2, tmp16);
*tmp16 = AX_PHYPWR_RSTCTL_IPRL;
ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_PHYPWR_RSTCTL, 2, 2, tmp16);
msleep(500);
*tmp = AX_CLK_SELECT_ACS | AX_CLK_SELECT_BCS;
ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_CLK_SELECT, 1, 1, tmp);
msleep(200);
/* Ethernet PHY Auto Detach*/
ax88179_auto_detach(dev);
/* Read MAC address from DTB or asix chip */
ax88179_get_mac_addr(dev);
memcpy(dev->net->perm_addr, dev->net->dev_addr, ETH_ALEN);
/* RX bulk configuration */
memcpy(tmp, &AX88179_BULKIN_SIZE[0], 5);
ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_RX_BULKIN_QCTRL, 5, 5, tmp);
dev->rx_urb_size = 1024 * 20;
*tmp = 0x34;
ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_PAUSE_WATERLVL_LOW, 1, 1, tmp);
*tmp = 0x52;
ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_PAUSE_WATERLVL_HIGH,
1, 1, tmp);
/* Enable checksum offload */
*tmp = AX_RXCOE_IP | AX_RXCOE_TCP | AX_RXCOE_UDP |
AX_RXCOE_TCPV6 | AX_RXCOE_UDPV6;
ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_RXCOE_CTL, 1, 1, tmp);
*tmp = AX_TXCOE_IP | AX_TXCOE_TCP | AX_TXCOE_UDP |
AX_TXCOE_TCPV6 | AX_TXCOE_UDPV6;
ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_TXCOE_CTL, 1, 1, tmp);
/* Configure RX control register => start operation */
*tmp16 = AX_RX_CTL_DROPCRCERR | AX_RX_CTL_IPE | AX_RX_CTL_START |
AX_RX_CTL_AP | AX_RX_CTL_AMALL | AX_RX_CTL_AB;
ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_RX_CTL, 2, 2, tmp16);
*tmp = AX_MONITOR_MODE_PMETYPE | AX_MONITOR_MODE_PMEPOL |
AX_MONITOR_MODE_RWMP;
ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_MONITOR_MOD, 1, 1, tmp);
/* Configure default medium type => giga */
*tmp16 = AX_MEDIUM_RECEIVE_EN | AX_MEDIUM_TXFLOW_CTRLEN |
AX_MEDIUM_RXFLOW_CTRLEN | AX_MEDIUM_FULL_DUPLEX |
AX_MEDIUM_GIGAMODE;
ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_MEDIUM_STATUS_MODE,
2, 2, tmp16);
/* Check if WoL is supported */
ax179_data->wol_supported = 0;
if (ax88179_read_cmd(dev, AX_ACCESS_MAC, AX_MONITOR_MOD,
1, 1, &tmp) > 0)
ax179_data->wol_supported = WAKE_MAGIC | WAKE_PHY;
ax88179_led_setting(dev);
ax179_data->eee_enabled = 0;
ax179_data->eee_active = 0;
ax88179_disable_eee(dev);
ax88179_ethtool_get_eee(dev, &eee_data);
eee_data.advertised = 0;
ax88179_ethtool_set_eee(dev, &eee_data);
/* Restart autoneg */
mii_nway_restart(&dev->mii);
usbnet_link_change(dev, 0, 0);
return 0;
}
static int ax88179_stop(struct usbnet *dev)
{
u16 tmp16;
ax88179_read_cmd(dev, AX_ACCESS_MAC, AX_MEDIUM_STATUS_MODE,
2, 2, &tmp16);
tmp16 &= ~AX_MEDIUM_RECEIVE_EN;
ax88179_write_cmd(dev, AX_ACCESS_MAC, AX_MEDIUM_STATUS_MODE,
2, 2, &tmp16);
return 0;
}
static const struct driver_info ax88179_info = {
.description = "ASIX AX88179 USB 3.0 Gigabit Ethernet",
.bind = ax88179_bind,
.unbind = ax88179_unbind,
.status = ax88179_status,
.link_reset = ax88179_link_reset,
.reset = ax88179_reset,
.stop = ax88179_stop,
.flags = FLAG_ETHER | FLAG_FRAMING_AX,
.rx_fixup = ax88179_rx_fixup,
.tx_fixup = ax88179_tx_fixup,
};
static const struct driver_info ax88178a_info = {
.description = "ASIX AX88178A USB 2.0 Gigabit Ethernet",
.bind = ax88179_bind,
.unbind = ax88179_unbind,
.status = ax88179_status,
.link_reset = ax88179_link_reset,
.reset = ax88179_reset,
.stop = ax88179_stop,
.flags = FLAG_ETHER | FLAG_FRAMING_AX,
.rx_fixup = ax88179_rx_fixup,
.tx_fixup = ax88179_tx_fixup,
};
static const struct driver_info cypress_GX3_info = {
.description = "Cypress GX3 SuperSpeed to Gigabit Ethernet Controller",
.bind = ax88179_bind,
.unbind = ax88179_unbind,
.status = ax88179_status,
.link_reset = ax88179_link_reset,
.reset = ax88179_reset,
.stop = ax88179_stop,
.flags = FLAG_ETHER | FLAG_FRAMING_AX,
.rx_fixup = ax88179_rx_fixup,
.tx_fixup = ax88179_tx_fixup,
};
static const struct driver_info dlink_dub1312_info = {
.description = "D-Link DUB-1312 USB 3.0 to Gigabit Ethernet Adapter",
.bind = ax88179_bind,
.unbind = ax88179_unbind,
.status = ax88179_status,
.link_reset = ax88179_link_reset,
.reset = ax88179_reset,
.stop = ax88179_stop,
.flags = FLAG_ETHER | FLAG_FRAMING_AX,
.rx_fixup = ax88179_rx_fixup,
.tx_fixup = ax88179_tx_fixup,
};
static const struct driver_info sitecom_info = {
.description = "Sitecom USB 3.0 to Gigabit Adapter",
.bind = ax88179_bind,
.unbind = ax88179_unbind,
.status = ax88179_status,
.link_reset = ax88179_link_reset,
.reset = ax88179_reset,
.stop = ax88179_stop,
.flags = FLAG_ETHER | FLAG_FRAMING_AX,
.rx_fixup = ax88179_rx_fixup,
.tx_fixup = ax88179_tx_fixup,
};
static const struct driver_info samsung_info = {
.description = "Samsung USB Ethernet Adapter",
.bind = ax88179_bind,
.unbind = ax88179_unbind,
.status = ax88179_status,
.link_reset = ax88179_link_reset,
.reset = ax88179_reset,
.stop = ax88179_stop,
.flags = FLAG_ETHER | FLAG_FRAMING_AX,
.rx_fixup = ax88179_rx_fixup,
.tx_fixup = ax88179_tx_fixup,
};
static const struct driver_info lenovo_info = {
.description = "Lenovo OneLinkDock Gigabit LAN",
.bind = ax88179_bind,
.unbind = ax88179_unbind,
.status = ax88179_status,
.link_reset = ax88179_link_reset,
.reset = ax88179_reset,
.stop = ax88179_stop,
.flags = FLAG_ETHER | FLAG_FRAMING_AX,
.rx_fixup = ax88179_rx_fixup,
.tx_fixup = ax88179_tx_fixup,
};
static const struct driver_info belkin_info = {
.description = "Belkin USB Ethernet Adapter",
.bind = ax88179_bind,
.unbind = ax88179_unbind,
.status = ax88179_status,
.link_reset = ax88179_link_reset,
.reset = ax88179_reset,
.stop = ax88179_stop,
.flags = FLAG_ETHER | FLAG_FRAMING_AX,
.rx_fixup = ax88179_rx_fixup,
.tx_fixup = ax88179_tx_fixup,
};
static const struct driver_info toshiba_info = {
.description = "Toshiba USB Ethernet Adapter",
.bind = ax88179_bind,
.unbind = ax88179_unbind,
.status = ax88179_status,
.link_reset = ax88179_link_reset,
.reset = ax88179_reset,
.stop = ax88179_stop,
.flags = FLAG_ETHER | FLAG_FRAMING_AX,
.rx_fixup = ax88179_rx_fixup,
.tx_fixup = ax88179_tx_fixup,
};
static const struct driver_info mct_info = {
.description = "MCT USB 3.0 Gigabit Ethernet Adapter",
.bind = ax88179_bind,
.unbind = ax88179_unbind,
.status = ax88179_status,
.link_reset = ax88179_link_reset,
.reset = ax88179_reset,
.stop = ax88179_stop,
.flags = FLAG_ETHER | FLAG_FRAMING_AX,
.rx_fixup = ax88179_rx_fixup,
.tx_fixup = ax88179_tx_fixup,
};
static const struct driver_info at_umc2000_info = {
.description = "AT-UMC2000 USB 3.0/USB 3.1 Gen 1 to Gigabit Ethernet Adapter",
.bind = ax88179_bind,
.unbind = ax88179_unbind,
.status = ax88179_status,
.link_reset = ax88179_link_reset,
.reset = ax88179_reset,
.stop = ax88179_stop,
.flags = FLAG_ETHER | FLAG_FRAMING_AX,
.rx_fixup = ax88179_rx_fixup,
.tx_fixup = ax88179_tx_fixup,
};
static const struct driver_info at_umc200_info = {
.description = "AT-UMC200 USB 3.0/USB 3.1 Gen 1 to Fast Ethernet Adapter",
.bind = ax88179_bind,
.unbind = ax88179_unbind,
.status = ax88179_status,
.link_reset = ax88179_link_reset,
.reset = ax88179_reset,
.stop = ax88179_stop,
.flags = FLAG_ETHER | FLAG_FRAMING_AX,
.rx_fixup = ax88179_rx_fixup,
.tx_fixup = ax88179_tx_fixup,
};
static const struct driver_info at_umc2000sp_info = {
.description = "AT-UMC2000/SP USB 3.0/USB 3.1 Gen 1 to Gigabit Ethernet Adapter",
.bind = ax88179_bind,
.unbind = ax88179_unbind,
.status = ax88179_status,
.link_reset = ax88179_link_reset,
.reset = ax88179_reset,
.stop = ax88179_stop,
.flags = FLAG_ETHER | FLAG_FRAMING_AX,
.rx_fixup = ax88179_rx_fixup,
.tx_fixup = ax88179_tx_fixup,
};
static const struct usb_device_id products[] = {
{
/* ASIX AX88179 10/100/1000 */
USB_DEVICE_AND_INTERFACE_INFO(0x0b95, 0x1790, 0xff, 0xff, 0),
.driver_info = (unsigned long)&ax88179_info,
}, {
/* ASIX AX88178A 10/100/1000 */
USB_DEVICE_AND_INTERFACE_INFO(0x0b95, 0x178a, 0xff, 0xff, 0),
.driver_info = (unsigned long)&ax88178a_info,
}, {
/* Cypress GX3 SuperSpeed to Gigabit Ethernet Bridge Controller */
USB_DEVICE_AND_INTERFACE_INFO(0x04b4, 0x3610, 0xff, 0xff, 0),
.driver_info = (unsigned long)&cypress_GX3_info,
}, {
/* D-Link DUB-1312 USB 3.0 to Gigabit Ethernet Adapter */
USB_DEVICE_AND_INTERFACE_INFO(0x2001, 0x4a00, 0xff, 0xff, 0),
.driver_info = (unsigned long)&dlink_dub1312_info,
}, {
/* Sitecom USB 3.0 to Gigabit Adapter */
USB_DEVICE_AND_INTERFACE_INFO(0x0df6, 0x0072, 0xff, 0xff, 0),
.driver_info = (unsigned long)&sitecom_info,
}, {
/* Samsung USB Ethernet Adapter */
USB_DEVICE_AND_INTERFACE_INFO(0x04e8, 0xa100, 0xff, 0xff, 0),
.driver_info = (unsigned long)&samsung_info,
}, {
/* Lenovo OneLinkDock Gigabit LAN */
USB_DEVICE_AND_INTERFACE_INFO(0x17ef, 0x304b, 0xff, 0xff, 0),
.driver_info = (unsigned long)&lenovo_info,
}, {
/* Belkin B2B128 USB 3.0 Hub + Gigabit Ethernet Adapter */
USB_DEVICE_AND_INTERFACE_INFO(0x050d, 0x0128, 0xff, 0xff, 0),
.driver_info = (unsigned long)&belkin_info,
}, {
/* Toshiba USB 3.0 GBit Ethernet Adapter */
USB_DEVICE_AND_INTERFACE_INFO(0x0930, 0x0a13, 0xff, 0xff, 0),
.driver_info = (unsigned long)&toshiba_info,
}, {
/* Magic Control Technology U3-A9003 USB 3.0 Gigabit Ethernet Adapter */
USB_DEVICE_AND_INTERFACE_INFO(0x0711, 0x0179, 0xff, 0xff, 0),
.driver_info = (unsigned long)&mct_info,
}, {
/* Allied Telesis AT-UMC2000 USB 3.0/USB 3.1 Gen 1 to Gigabit Ethernet Adapter */
USB_DEVICE_AND_INTERFACE_INFO(0x07c9, 0x000e, 0xff, 0xff, 0),
.driver_info = (unsigned long)&at_umc2000_info,
}, {
/* Allied Telesis AT-UMC200 USB 3.0/USB 3.1 Gen 1 to Fast Ethernet Adapter */
USB_DEVICE_AND_INTERFACE_INFO(0x07c9, 0x000f, 0xff, 0xff, 0),
.driver_info = (unsigned long)&at_umc200_info,
}, {
/* Allied Telesis AT-UMC2000/SP USB 3.0/USB 3.1 Gen 1 to Gigabit Ethernet Adapter */
USB_DEVICE_AND_INTERFACE_INFO(0x07c9, 0x0010, 0xff, 0xff, 0),
.driver_info = (unsigned long)&at_umc2000sp_info,
},
{ },
};
MODULE_DEVICE_TABLE(usb, products);
static struct usb_driver ax88179_178a_driver = {
.name = "ax88179_178a",
.id_table = products,
.probe = usbnet_probe,
.suspend = ax88179_suspend,
.resume = ax88179_resume,
.reset_resume = ax88179_resume,
.disconnect = usbnet_disconnect,
.supports_autosuspend = 1,
.disable_hub_initiated_lpm = 1,
};
module_usb_driver(ax88179_178a_driver);
MODULE_DESCRIPTION("ASIX AX88179/178A based USB 3.0/2.0 Gigabit Ethernet Devices");
MODULE_LICENSE("GPL");
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