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02f4867a49
openwrt-xburst/package/ep80579-drivers/patches/150-ocracoke_island.patch
kaloz 23f27ea50b [x86]: add a subtarget and drivers for the Intel Tolapai SoC 
git-svn-id: svn://svn.openwrt.org/openwrt/trunk@20648 3c298f89-4303-0410-b956-a3cf2f4a3e73
2010-04-01 12:05:27 +00:00

748 lines
21 KiB
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Raw Blame History

--- a/Embedded/src/GbE/iegbe_oem_phy.c
+++ b/Embedded/src/GbE/iegbe_oem_phy.c
@@ -65,6 +65,10 @@ static int32_t iegbe_oem_link_m88_setup(
static int32_t iegbe_oem_set_phy_mode(struct iegbe_hw *hw);
static int32_t iegbe_oem_detect_phy(struct iegbe_hw *hw);
+static int32_t iegbe_oem_link_bcm5481_setup(struct iegbe_hw *hw);
+static int32_t bcm5481_read_18sv (struct iegbe_hw *hw, int sv, uint16_t *data);
+static int32_t oi_phy_setup (struct iegbe_hw *hw);
+
/**
* iegbe_oem_setup_link
* @hw: iegbe_hw struct containing device specific information
@@ -114,6 +118,10 @@ iegbe_oem_setup_link(struct iegbe_hw *hw
}
switch (hw->phy_id) {
+ case BCM5395S_PHY_ID:
+ return E1000_SUCCESS;
+ break;
+
case M88E1000_I_PHY_ID:
case M88E1141_E_PHY_ID:
ret_val = iegbe_oem_link_m88_setup(hw);
@@ -121,6 +129,12 @@ iegbe_oem_setup_link(struct iegbe_hw *hw
return ret_val;
}
break;
+ case BCM5481_PHY_ID:
+ ret_val = iegbe_oem_link_bcm5481_setup(hw);
+ if(ret_val) {
+ return ret_val;
+ }
+ break;
default:
DEBUGOUT("Invalid PHY ID\n");
return -E1000_ERR_PHY_TYPE;
@@ -179,6 +193,51 @@ iegbe_oem_setup_link(struct iegbe_hw *hw
#endif /* ifdef EXTERNAL_MDIO */
}
+/**
+ * iegbe_oem_link_bcm5481_setup
+ * @hw: iegbe_hw struct containing device specific information
+ *
+ * Returns E1000_SUCCESS, negative E1000 error code on failure
+ *
+ * copied verbatim from iegbe_oem_link_m88_setup
+ **/
+static int32_t
+iegbe_oem_link_bcm5481_setup(struct iegbe_hw *hw)
+{
+ int32_t ret_val;
+ uint16_t phy_data;
+
+ //DEBUGFUNC(__func__);
+
+ if(!hw)
+ return -1;
+
+ /* phy_reset_disable is set in iegbe_oem_set_phy_mode */
+ if(hw->phy_reset_disable)
+ return E1000_SUCCESS;
+
+ // Enable MDIX in extended control reg.
+ ret_val = iegbe_oem_read_phy_reg_ex(hw, BCM5481_ECTRL, &phy_data);
+ if(ret_val)
+ {
+ DEBUGOUT("Unable to read BCM5481_ECTRL register\n");
+ return ret_val;
+ }
+
+ phy_data &= ~BCM5481_ECTRL_DISMDIX;
+ ret_val = iegbe_oem_write_phy_reg_ex(hw, BCM5481_ECTRL, phy_data);
+ if(ret_val)
+ {
+ DEBUGOUT("Unable to write BCM5481_ECTRL register\n");
+ return ret_val;
+ }
+
+ ret_val = oi_phy_setup (hw);
+ if (ret_val)
+ return ret_val;
+
+ return E1000_SUCCESS;
+}
/**
* iegbe_oem_link_m88_setup
@@ -340,6 +399,11 @@ iegbe_oem_force_mdi(struct iegbe_hw *hw,
* see iegbe_phy_force_speed_duplex, which does the following for M88
*/
switch (hw->phy_id) {
+ case BCM5395S_PHY_ID:
+ case BCM5481_PHY_ID:
+ DEBUGOUT("WARNING: An empty iegbe_oem_force_mdi() has been called!\n");
+ break;
+
case M88E1000_I_PHY_ID:
case M88E1141_E_PHY_ID:
ret_val = iegbe_oem_read_phy_reg_ex(hw,
@@ -415,6 +479,8 @@ iegbe_oem_phy_reset_dsp(struct iegbe_hw
switch (hw->phy_id) {
case M88E1000_I_PHY_ID:
case M88E1141_E_PHY_ID:
+ case BCM5481_PHY_ID:
+ case BCM5395S_PHY_ID:
DEBUGOUT("No DSP to reset on OEM PHY\n");
break;
default:
@@ -460,6 +526,11 @@ iegbe_oem_cleanup_after_phy_reset(struct
* see iegbe_phy_force_speed_duplex, which does the following for M88
*/
switch (hw->phy_id) {
+ case BCM5395S_PHY_ID:
+ case BCM5481_PHY_ID:
+ DEBUGOUT("WARNING: An empty iegbe_oem_cleanup_after_phy_reset() has been called!\n");
+ break;
+
case M88E1000_I_PHY_ID:
case M88E1141_E_PHY_ID:
/*
@@ -573,6 +644,11 @@ iegbe_oem_set_phy_mode(struct iegbe_hw *
* use iegbe_set_phy_mode as example
*/
switch (hw->phy_id) {
+ case BCM5395S_PHY_ID:
+ case BCM5481_PHY_ID:
+ DEBUGOUT("WARNING: An empty iegbe_oem_set_phy_mode() has been called!\n");
+ break;
+
case M88E1000_I_PHY_ID:
case M88E1141_E_PHY_ID:
ret_val = iegbe_read_eeprom(hw,
@@ -641,6 +717,19 @@ iegbe_oem_detect_phy(struct iegbe_hw *hw
}
hw->phy_type = iegbe_phy_oem;
+{
+ // If MAC2 (BCM5395 switch), manually detect the phy
+ struct iegbe_adapter *adapter;
+ uint32_t device_number;
+ adapter = (struct iegbe_adapter *) hw->back;
+ device_number = PCI_SLOT(adapter->pdev->devfn);
+ if (device_number == ICP_XXXX_MAC_2) {
+ hw->phy_id = BCM5395S_PHY_ID;
+ hw->phy_revision = 0;
+ return E1000_SUCCESS;
+ }
+}
+
ret_val = iegbe_oem_read_phy_reg_ex(hw, PHY_ID1, &phy_id_high);
if(ret_val) {
DEBUGOUT("Unable to read PHY register PHY_ID1\n");
@@ -690,6 +779,8 @@ iegbe_oem_get_tipg(struct iegbe_hw *hw)
switch (hw->phy_id) {
case M88E1000_I_PHY_ID:
case M88E1141_E_PHY_ID:
+ case BCM5481_PHY_ID:
+ case BCM5395S_PHY_ID:
phy_num = DEFAULT_ICP_XXXX_TIPG_IPGT;
break;
default:
@@ -738,6 +829,8 @@ iegbe_oem_phy_is_copper(struct iegbe_hw
switch (hw->phy_id) {
case M88E1000_I_PHY_ID:
case M88E1141_E_PHY_ID:
+ case BCM5481_PHY_ID:
+ case BCM5395S_PHY_ID:
isCopper = TRUE;
break;
default:
@@ -796,13 +889,13 @@ iegbe_oem_get_phy_dev_number(struct iegb
switch(device_number)
{
case ICP_XXXX_MAC_0:
- hw->phy_addr = 0x00;
+ hw->phy_addr = 0x01;
break;
case ICP_XXXX_MAC_1:
- hw->phy_addr = 0x01;
+ hw->phy_addr = 0x02;
break;
case ICP_XXXX_MAC_2:
- hw->phy_addr = 0x02;
+ hw->phy_addr = 0x00;
break;
default: hw->phy_addr = 0x00;
}
@@ -851,6 +944,12 @@ iegbe_oem_mii_ioctl(struct iegbe_adapter
if(!adapter || !ifr) {
return -1;
}
+
+ // If MAC2 (BCM5395 switch) then leave now
+ if ((PCI_SLOT(adapter->pdev->devfn)) == ICP_XXXX_MAC_2) {
+ return -1;
+ }
+
switch (data->reg_num) {
case PHY_CTRL:
if(mii_reg & MII_CR_POWER_DOWN) {
@@ -987,6 +1086,11 @@ void iegbe_oem_get_phy_regs(struct iegbe
* [10] = mdix mode
*/
switch (adapter->hw.phy_id) {
+ case BCM5395S_PHY_ID:
+ case BCM5481_PHY_ID:
+ DEBUGOUT("WARNING: An empty iegbe_oem_get_phy_regs() has been called!\n");
+ break;
+
case M88E1000_I_PHY_ID:
case M88E1141_E_PHY_ID:
if(corrected_len > 0) {
@@ -1068,8 +1172,13 @@ iegbe_oem_phy_loopback(struct iegbe_adap
* Loopback configuration is the same for each of the supported PHYs.
*/
switch (adapter->hw.phy_id) {
+ case BCM5395S_PHY_ID:
+ DEBUGOUT("WARNING: An empty iegbe_oem_phy_loopback() has been called!\n");
+ break;
+
case M88E1000_I_PHY_ID:
case M88E1141_E_PHY_ID:
+ case BCM5481_PHY_ID:
adapter->hw.autoneg = FALSE;
@@ -1182,8 +1291,14 @@ iegbe_oem_loopback_cleanup(struct iegbe_
}
switch (adapter->hw.phy_id) {
+ case BCM5395S_PHY_ID:
+ DEBUGOUT("WARNING: An empty iegbe_oem_loopback_cleanup() has been called!\n");
+ return;
+ break;
+
case M88E1000_I_PHY_ID:
case M88E1141_E_PHY_ID:
+ case BCM5481_PHY_ID:
default:
adapter->hw.autoneg = TRUE;
@@ -1243,6 +1358,11 @@ iegbe_oem_phy_speed_downgraded(struct ie
*/
switch (hw->phy_id) {
+ case BCM5395S_PHY_ID:
+ case BCM5481_PHY_ID:
+ *isDowngraded = 0;
+ break;
+
case M88E1000_I_PHY_ID:
case M88E1141_E_PHY_ID:
ret_val = iegbe_oem_read_phy_reg_ex(hw, M88E1000_PHY_SPEC_STATUS,
@@ -1305,6 +1425,11 @@ iegbe_oem_check_polarity(struct iegbe_hw
*/
switch (hw->phy_id) {
+ case BCM5395S_PHY_ID:
+ case BCM5481_PHY_ID:
+ *polarity = 0;
+ break;
+
case M88E1000_I_PHY_ID:
case M88E1141_E_PHY_ID:
/* return the Polarity bit in the Status register. */
@@ -1367,6 +1492,25 @@ iegbe_oem_phy_is_full_duplex(struct iegb
*/
switch (hw->phy_id) {
+ case BCM5395S_PHY_ID:
+ /* Always full duplex */
+ *isFD = 1;
+ break;
+
+ case BCM5481_PHY_ID:
+ ret_val = iegbe_read_phy_reg(hw, BCM5481_ASTAT, &phy_data);
+ if(ret_val) return ret_val;
+
+ switch (BCM5481_ASTAT_HCD(phy_data)) {
+ case BCM5481_ASTAT_1KBTFD:
+ case BCM5481_ASTAT_100BTXFD:
+ *isFD = 1;
+ break;
+ default:
+ *isFD = 0;
+ }
+ break;
+
case M88E1000_I_PHY_ID:
case M88E1141_E_PHY_ID:
ret_val = iegbe_oem_read_phy_reg_ex(hw, M88E1000_PHY_SPEC_STATUS,
@@ -1423,6 +1567,25 @@ iegbe_oem_phy_is_speed_1000(struct iegbe
*/
switch (hw->phy_id) {
+ case BCM5395S_PHY_ID:
+ /* Always 1000mb */
+ *is1000 = 1;
+ break;
+
+ case BCM5481_PHY_ID:
+ ret_val = iegbe_read_phy_reg(hw, BCM5481_ASTAT, &phy_data);
+ if(ret_val) return ret_val;
+
+ switch (BCM5481_ASTAT_HCD(phy_data)) {
+ case BCM5481_ASTAT_1KBTFD:
+ case BCM5481_ASTAT_1KBTHD:
+ *is1000 = 1;
+ break;
+ default:
+ *is1000 = 0;
+ }
+ break;
+
case M88E1000_I_PHY_ID:
case M88E1141_E_PHY_ID:
ret_val = iegbe_oem_read_phy_reg_ex(hw, M88E1000_PHY_SPEC_STATUS,
@@ -1478,6 +1641,25 @@ iegbe_oem_phy_is_speed_100(struct iegbe_
* see iegbe_config_mac_to_phy
*/
switch (hw->phy_id) {
+ case BCM5395S_PHY_ID:
+ /* Always 1000Mb, never 100mb */
+ *is100 = 0;
+ break;
+
+ case BCM5481_PHY_ID:
+ ret_val = iegbe_read_phy_reg(hw, BCM5481_ASTAT, &phy_data);
+ if(ret_val) return ret_val;
+
+ switch (BCM5481_ASTAT_HCD(phy_data)) {
+ case BCM5481_ASTAT_100BTXFD:
+ case BCM5481_ASTAT_100BTXHD:
+ *is100 = 1;
+ break;
+ default:
+ *is100 = 0;
+ }
+ break;
+
case M88E1000_I_PHY_ID:
case M88E1141_E_PHY_ID:
ret_val = iegbe_oem_read_phy_reg_ex(hw,
@@ -1535,6 +1717,11 @@ iegbe_oem_phy_get_info(struct iegbe_hw *
* see iegbe_phy_m88_get_info
*/
switch (hw->phy_id) {
+ case BCM5395S_PHY_ID:
+ case BCM5481_PHY_ID:
+ DEBUGOUT("WARNING: An empty iegbe_oem_phy_get_info() has been called!\n");
+ break;
+
case M88E1000_I_PHY_ID:
case M88E1141_E_PHY_ID:
/* The downshift status is checked only once, after link is
@@ -1636,8 +1823,13 @@ iegbe_oem_phy_hw_reset(struct iegbe_hw *
* the M88 used in truxton.
*/
switch (hw->phy_id) {
+ case BCM5395S_PHY_ID:
+ DEBUGOUT("WARNING: An empty iegbe_oem_phy_hw_reset() has been called!\n");
+ break;
+
case M88E1000_I_PHY_ID:
case M88E1141_E_PHY_ID:
+ case BCM5481_PHY_ID:
ret_val = iegbe_oem_read_phy_reg_ex(hw, PHY_CTRL, &phy_data);
if(ret_val) {
DEBUGOUT("Unable to read register PHY_CTRL\n");
@@ -1699,6 +1891,8 @@ iegbe_oem_phy_init_script(struct iegbe_h
switch (hw->phy_id) {
case M88E1000_I_PHY_ID:
case M88E1141_E_PHY_ID:
+ case BCM5481_PHY_ID:
+ case BCM5395S_PHY_ID:
DEBUGOUT("Nothing to do for OEM PHY Init");
break;
default:
@@ -1735,6 +1929,11 @@ iegbe_oem_read_phy_reg_ex(struct iegbe_h
return -1;
}
+ if (hw->phy_id == BCM5395S_PHY_ID) {
+ DEBUGOUT("WARNING: iegbe_oem_read_phy_reg_ex() has been unexpectedly called!\n");
+ return -1;
+ }
+
/* call the GCU func that will read the phy
*
* Make note that the M88 phy is what'll be used on Truxton.
@@ -1782,6 +1981,11 @@ iegbe_oem_set_trans_gasket(struct iegbe_
}
switch (hw->phy_id) {
+ case BCM5395S_PHY_ID:
+ case BCM5481_PHY_ID:
+ DEBUGOUT("WARNING: An empty iegbe_oem_set_trans_gasket() has been called!\n");
+ break;
+
case M88E1000_I_PHY_ID:
case M88E1141_E_PHY_ID:
/* Gasket set correctly for Marvell Phys, so nothing to do */
@@ -1886,6 +2090,8 @@ iegbe_oem_phy_needs_reset_with_mac(struc
switch (hw->phy_id) {
case M88E1000_I_PHY_ID:
case M88E1141_E_PHY_ID:
+ case BCM5481_PHY_ID:
+ case BCM5395S_PHY_ID:
ret_val = FALSE;
break;
default:
@@ -1935,6 +2141,8 @@ iegbe_oem_config_dsp_after_link_change(s
switch (hw->phy_id) {
case M88E1000_I_PHY_ID:
case M88E1141_E_PHY_ID:
+ case BCM5481_PHY_ID:
+ case BCM5395S_PHY_ID:
DEBUGOUT("No DSP to configure on OEM PHY");
break;
default:
@@ -1978,6 +2186,12 @@ iegbe_oem_get_cable_length(struct iegbe_
}
switch (hw->phy_id) {
+ case BCM5395S_PHY_ID:
+ case BCM5481_PHY_ID:
+ *min_length = 0;
+ *max_length = iegbe_igp_cable_length_150;
+ break;
+
case M88E1000_I_PHY_ID:
case M88E1141_E_PHY_ID:
ret_val = iegbe_oem_read_phy_reg_ex(hw,
@@ -2061,6 +2275,23 @@ iegbe_oem_phy_is_link_up(struct iegbe_hw
*/
switch (hw->phy_id) {
+ case BCM5395S_PHY_ID:
+ /* Link always up */
+ *isUp = TRUE;
+ return E1000_SUCCESS;
+ break;
+
+ case BCM5481_PHY_ID:
+ iegbe_oem_read_phy_reg_ex(hw, BCM5481_ESTAT, &phy_data);
+ ret_val = iegbe_oem_read_phy_reg_ex(hw, BCM5481_ESTAT, &phy_data);
+ if(ret_val)
+ {
+ DEBUGOUT("Unable to read PHY register BCM5481_ESTAT\n");
+ return ret_val;
+ }
+ statusMask = BCM5481_ESTAT_LINK;
+ break;
+
case M88E1000_I_PHY_ID:
case M88E1141_E_PHY_ID:
iegbe_oem_read_phy_reg_ex(hw, M88E1000_PHY_SPEC_STATUS, &phy_data);
@@ -2092,3 +2323,210 @@ iegbe_oem_phy_is_link_up(struct iegbe_hw
#endif /* ifdef EXTERNAL_MDIO */
}
+
+
+//-----
+// Read BCM5481 expansion register
+//
+int32_t
+bcm5481_read_ex (struct iegbe_hw *hw, uint16_t reg, uint16_t *data)
+{
+ int ret;
+ uint16_t selector;
+ uint16_t reg_data;
+
+ // Get the current value of bits 15:12
+ ret = iegbe_oem_read_phy_reg_ex (hw, 0x15, &selector);
+ if (ret)
+ return ret;
+
+ // Select the expansion register
+ selector &= 0xf000;
+ selector |= (0xf << 8) | (reg);
+ iegbe_oem_write_phy_reg_ex (hw, 0x17, selector);
+
+ // Read the expansion register
+ ret = iegbe_oem_read_phy_reg_ex (hw, 0x15, &reg_data);
+
+ // De-select the expansion registers.
+ selector &= 0xf000;
+ iegbe_oem_write_phy_reg_ex (hw, 0x17, selector);
+
+ if (ret)
+ return ret;
+
+ *data = reg_data;
+ return ret;
+}
+
+//-----
+// Read reg 0x18 sub-register
+//
+static int32_t
+bcm5481_read_18sv (struct iegbe_hw *hw, int sv, uint16_t *data)
+{
+ int ret;
+ uint16_t tmp_data;
+
+ // Select reg 0x18, sv
+ tmp_data = ((sv & BCM5481_R18H_SV_MASK) << 12) | BCM5481_R18H_SV_MCTRL;
+ ret = iegbe_oem_write_phy_reg_ex (hw, BCM5481_R18H, tmp_data);
+ if(ret)
+ return ret;
+
+ // Read reg 0x18, sv
+ ret = iegbe_oem_read_phy_reg_ex (hw, BCM5481_R18H, &tmp_data);
+ if(ret)
+ return ret;
+
+ *data = tmp_data;
+ return ret;
+}
+
+//-----
+// Read reg 0x1C sub-register
+//
+int32_t
+bcm5481_read_1csv (struct iegbe_hw *hw, int sv, uint16_t *data)
+{
+ int ret;
+ uint16_t tmp_data;
+
+ // Select reg 0x1c, sv
+ tmp_data = ((sv & BCM5481_R1CH_SV_MASK) << BCM5481_R1CH_SV_SHIFT);
+
+ ret = iegbe_oem_write_phy_reg_ex (hw, BCM5481_R1CH, tmp_data);
+ if(ret)
+ return ret;
+
+ // Read reg 0x1c, sv
+ ret = iegbe_oem_read_phy_reg_ex (hw, BCM5481_R1CH, &tmp_data);
+ if(ret)
+ return ret;
+
+ *data = tmp_data;
+ return ret;
+}
+
+//-----
+// Read-modify-write a 0x1C register.
+//
+// hw - hardware access info.
+// reg - 0x1C register to modify.
+// data - bits which should be set.
+// mask - the '1' bits in this argument will be cleared in the data
+// read from 'reg' then 'data' will be or'd in and the result
+// will be written to 'reg'.
+
+int32_t
+bcm5481_rmw_1csv (struct iegbe_hw *hw, uint16_t reg, uint16_t data, uint16_t mask)
+{
+ int32_t ret;
+ uint16_t reg_data;
+
+ ret = 0;
+
+ ret = bcm5481_read_1csv (hw, reg, &reg_data);
+ if (ret)
+ {
+ DEBUGOUT("Unable to read BCM5481 1CH register\n");
+ printk (KERN_ERR "Unable to read BCM5481 1CH register [0x%x]\n", reg);
+ return ret;
+ }
+
+ reg_data &= ~mask;
+ reg_data |= (BCM5481_R1CH_WE | data);
+
+ ret = iegbe_oem_write_phy_reg_ex (hw, BCM5481_R1CH, reg_data);
+ if(ret)
+ {
+ DEBUGOUT("Unable to write BCM5481 1CH register\n");
+ printk (KERN_ERR "Unable to write BCM5481 1CH register\n");
+ return ret;
+ }
+
+ return ret;
+}
+
+int32_t
+oi_phy_setup (struct iegbe_hw *hw)
+{
+ int ret;
+ uint16_t pmii_data;
+ uint16_t mctrl_data;
+ uint16_t cacr_data;
+
+ ret = 0;
+
+ // Set low power mode via reg 0x18, sv010, bit 6
+ // Do a read-modify-write on reg 0x18, sv010 register to preserve existing bits.
+ ret = bcm5481_read_18sv (hw, BCM5481_R18H_SV_PMII, &pmii_data);
+ if (ret)
+ {
+ DEBUGOUT("Unable to read BCM5481_R18H_SV_PMII register\n");
+ printk (KERN_ERR "Unable to read BCM5481_R18H_SV_PMII register\n");
+ return ret;
+ }
+
+ // Set the LPM bit in the data just read and write back to sv010
+ // The shadow register select bits [2:0] are set by reading the sv010
+ // register.
+ pmii_data |= BCM5481_R18H_SV010_LPM;
+ ret = iegbe_oem_write_phy_reg_ex (hw, BCM5481_R18H, pmii_data);
+ if(ret)
+ {
+ DEBUGOUT("Unable to write BCM5481_R18H register\n");
+ printk (KERN_ERR "Unable to write BCM5481_R18H register\n");
+ return ret;
+ }
+
+
+ // Set the RGMII RXD to RXC skew bit in reg 0x18, sv111
+
+ if (bcm5481_read_18sv (hw, BCM5481_R18H_SV_MCTRL, &mctrl_data))
+ {
+ DEBUGOUT("Unable to read BCM5481_R18H_SV_MCTRL register\n");
+ printk (KERN_ERR "Unable to read BCM5481_R18H_SV_MCTRL register\n");
+ return ret;
+ }
+ mctrl_data |= (BCM5481_R18H_WE | BCM5481_R18H_SV111_SKEW);
+
+ ret = iegbe_oem_write_phy_reg_ex (hw, BCM5481_R18H, mctrl_data);
+ if(ret)
+ {
+ DEBUGOUT("Unable to write BCM5481_R18H register\n");
+ printk (KERN_ERR "Unable to write BCM5481_R18H register\n");
+ return ret;
+ }
+
+ // Enable RGMII transmit clock delay in reg 0x1c, sv00011
+ ret = bcm5481_read_1csv (hw, BCM5481_R1CH_CACR, &cacr_data);
+ if (ret)
+ {
+ DEBUGOUT("Unable to read BCM5481_R1CH_CACR register\n");
+ printk (KERN_ERR "Unable to read BCM5481_R1CH_CACR register\n");
+ return ret;
+ }
+
+ cacr_data |= (BCM5481_R1CH_WE | BCM5481_R1CH_CACR_TCD);
+
+ ret = iegbe_oem_write_phy_reg_ex (hw, BCM5481_R1CH, cacr_data);
+ if(ret)
+ {
+ DEBUGOUT("Unable to write BCM5481_R1CH register\n");
+ printk (KERN_ERR "Unable to write BCM5481_R1CH register\n");
+ return ret;
+ }
+
+ // Enable dual link speed indication (0x1c, sv 00010, bit 2)
+ ret = bcm5481_rmw_1csv (hw, BCM5481_R1CH_SC1, BCM5481_R1CH_SC1_LINK, BCM5481_R1CH_SC1_LINK);
+ if (ret)
+ return ret;
+
+ // Enable link and activity on ACTIVITY LED (0x1c, sv 01001, bit 4=1, bit 3=0)
+ ret = bcm5481_rmw_1csv (hw, BCM5481_R1CH_LCTRL, BCM5481_R1CH_LCTRL_ALEN, BCM5481_R1CH_LCTRL_ALEN | BCM5481_R1CH_LCTRL_AEN);
+ if (ret)
+ return ret;
+
+ return ret;
+}
--- a/Embedded/src/GbE/iegbe_oem_phy.h
+++ b/Embedded/src/GbE/iegbe_oem_phy.h
@@ -95,6 +95,8 @@ int32_t iegbe_oem_phy_is_link_up(struct
#define DEFAULT_ICP_XXXX_TIPG_IPGT 8 /* Inter Packet Gap Transmit Time */
#define ICP_XXXX_TIPG_IPGT_MASK 0x000003FFUL
+#define BCM5481_PHY_ID 0x0143BCA0
+#define BCM5395S_PHY_ID 0x0143BCF0
/* Miscellaneous defines */
#ifdef IEGBE_10_100_ONLY
@@ -103,5 +105,65 @@ int32_t iegbe_oem_phy_is_link_up(struct
#define ICP_XXXX_AUTONEG_ADV_DEFAULT 0x2F
#endif
+/* BCM5481 specifics */
+
+#define BCM5481_ECTRL (0x10)
+#define BCM5481_ESTAT (0x11)
+#define BCM5481_RXERR (0x12)
+#define BCM5481_EXPRW (0x15)
+#define BCM5481_EXPACC (0x17)
+#define BCM5481_ASTAT (0x19)
+#define BCM5481_R18H (0x18)
+#define BCM5481_R1CH (0x1c)
+
+/* indirect register access via register 18h */
+
+#define BCM5481_R18H_SV_MASK (7) // Mask for SV bits.
+#define BCM5481_R18H_SV_ACTRL (0) // SV000 Aux. control
+#define BCM5481_R18H_SV_10BT (1) // SV001 10Base-T
+#define BCM5481_R18H_SV_PMII (2) // SV010 Power/MII control
+#define BCM5481_R18H_SV_MTEST (4) // SV100 Misc. test
+#define BCM5481_R18H_SV_MCTRL (7) // SV111 Misc. control
+
+#define BCM5481_R18H_SV001_POL (1 << 13) // Polarity
+#define BCM5481_R18H_SV010_LPM (1 << 6)
+#define BCM5481_R18H_SV111_SKEW (1 << 8)
+#define BCM5481_R18H_WE (1 << 15) // Write enable
+
+// 0x1c registers
+#define BCM5481_R1CH_SV_SHIFT (10)
+#define BCM5481_R1CH_SV_MASK (0x1f)
+#define BCM5481_R1CH_SC1 (0x02) // sv00010 Spare control 1
+#define BCM5481_R1CH_CACR (0x03) // sv00011 Clock alignment control
+#define BCM5481_R1CH_LCTRL (0x09) // sv01001 LED control
+#define BCM5481_R1CH_LEDS1 (0x0d) // sv01101 LED selector 1
+
+// 0x1c common
+#define BCM5481_R1CH_WE (1 << 15) // Write enable
+
+// 0x1c, sv 00010
+#define BCM5481_R1CH_SC1_LINK (1 << 2) // sv00010 Linkspeed
+
+// 0x1c, sv 00011
+#define BCM5481_R1CH_CACR_TCD (1 << 9) // sv00011 RGMII tx clock delay
+
+// 0x1c, sv 01001
+#define BCM5481_R1CH_LCTRL_ALEN (1 << 4) // Activity/Link enable on ACTIVITY LED
+#define BCM5481_R1CH_LCTRL_AEN (1 << 3) // Activity enable on ACTIVITY LED
+
+#define BCM5481_ECTRL_DISMDIX (1 <<14)
+
+#define BCM5481_MCTRL_AUTOMDIX (1 <<9)
+
+#define BCM5481_ESTAT_LINK (1 << 8)
+
+#define BCM5481_ASTAT_ANC (1 << 15)
+#define BCM5481_ASTAT_ANHCD (7 << 8)
+#define BCM5481_ASTAT_HCD(x) ((x >> 8) & 7)
+#define BCM5481_ASTAT_1KBTFD (0x7)
+#define BCM5481_ASTAT_1KBTHD (0x6)
+#define BCM5481_ASTAT_100BTXFD (0x5)
+#define BCM5481_ASTAT_100BTXHD (0x3)
+
#endif /* ifndef _IEGBE_OEM_PHY_H_ */
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