soc/intel/ehl: Provide function to change PHY-to-MAC IRQ polarity
EHL MAC side expects a rising edge signal for an IRQ. Based on the mainboard wiring it could be necessary to change the interrupt polarity. This patch provides the functionality to invert a falling edge signal that comes from an external PHY. The inverting can be activated via devicetree parameter. Change-Id: Ia314014c7cacbeb72629c773c8c0bb5f002a3f54 Signed-off-by: Mario Scheithauer <mario.scheithauer@siemens.com> Reviewed-on: https://review.coreboot.org/c/coreboot/+/63888 Tested-by: build bot (Jenkins) <no-reply@coreboot.org> Reviewed-by: Werner Zeh <werner.zeh@siemens.com>
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@ -56,6 +56,12 @@ enum tsn_phy_type {
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SGMII_plus = 3,
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SGMII_plus = 3,
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};
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};
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/* TSN GBE PHY-to-MAC IRQ polarity: 0: falling edge, 1: rising edge */
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enum tsn_phy_irq_polarity {
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FALLING_EDGE,
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RISING_EDGE,
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};
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/*
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/*
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* PSE native pins and ownership assignment:-
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* PSE native pins and ownership assignment:-
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* 0: Disable/pins are not owned by PSE/host
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* 0: Disable/pins are not owned by PSE/host
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@ -395,6 +401,8 @@ struct soc_intel_elkhartlake_config {
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bool PseTsnGbeMultiVcEnable[MAX_PSE_TSN_PORTS];
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bool PseTsnGbeMultiVcEnable[MAX_PSE_TSN_PORTS];
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/* PSE TSN Phy Interface Type */
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/* PSE TSN Phy Interface Type */
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enum tsn_phy_type PseTsnGbePhyType[MAX_PSE_TSN_PORTS];
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enum tsn_phy_type PseTsnGbePhyType[MAX_PSE_TSN_PORTS];
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enum tsn_phy_irq_polarity pch_tsn_phy_irq_edge;
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enum tsn_phy_irq_polarity pse_tsn_phy_irq_edge[MAX_PSE_TSN_PORTS];
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/* PSE related */
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/* PSE related */
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/*
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/*
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@ -3,13 +3,38 @@
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#ifndef _SOC_ELKHARTLAKE_TSN_GBE_H_
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#ifndef _SOC_ELKHARTLAKE_TSN_GBE_H_
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#define _SOC_ELKHARTLAKE_TSN_GBE_H_
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#define _SOC_ELKHARTLAKE_TSN_GBE_H_
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#define MAC_ADDR_LEN 6
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#define MAC_ADDR_LEN 6
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#define TSN_MAC_ADD0_HIGH 0x300 /* MAC Address0 High register */
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#define TSN_MAC_ADD0_HIGH 0x300 /* MAC Address0 High register */
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#define TSN_MAC_ADD0_LOW 0x304 /* MAC Address0 Low register */
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#define TSN_MAC_ADD0_LOW 0x304 /* MAC Address0 Low register */
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#define TSN_GMII_TIMEOUT_MS 20
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#define TSN_MAC_MDIO_ADR 0x200 /* MAC MDIO Address register */
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#define TSN_MAC_MDIO_ADR_MASK 0x03FF7F0E
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#define TSN_MAC_PHYAD(pa) (pa << 21) /* Physical Layer Address */
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#define TSN_MAC_REGAD(rda) (rda << 16) /* Register/Device Address */
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#define TSN_MAC_CLK_TRAIL_4 (4 << 12) /* 4 Trailing Clocks */
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#define TSN_MAC_CSR_CLK_DIV_62 (1 << 8) /* 0001: CSR=100-150 MHz; CSR/62 */
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#define TSN_MAC_OP_CMD_WRITE (1 << 2) /* GMII Operation Command Write */
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#define TSN_MAC_OP_CMD_READ (3 << 2) /* GMII Operation Command Read */
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#define TSN_MAC_GMII_BUSY (1 << 0) /* GMII Busy bit */
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/* MDIO - Adhoc PHY Sublayer Register */
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#define TSN_MAC_MDIO_ADHOC_ADR 0x15
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/* Global Configuration Register */
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#define TSN_MAC_MDIO_GCR 0x0
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/* PHY to MAC Interrupt Polarity bit */
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#define TSN_MAC_PHY2MAC_INTR_POL (1 << 6)
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#define TSN_MAC_MDIO_DATA 0x204 /* MAC MDIO Data register */
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/* We need one function we can call to get a MAC address to use. */
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/* We need one function we can call to get a MAC address to use. */
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/* This function can be coded somewhere else but must exist. */
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/* This function can be coded somewhere else but must exist. */
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enum cb_err mainboard_get_mac_address(struct device *dev, uint8_t mac[MAC_ADDR_LEN]);
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enum cb_err mainboard_get_mac_address(struct device *dev, uint8_t mac[MAC_ADDR_LEN]);
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enum cb_err phy_gmii_ready(void *base);
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uint16_t tsn_mdio_read(void *base, uint8_t phy_adr, uint8_t reg_adr);
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void tsn_mdio_write(void *base, uint8_t phy_adr, uint8_t reg_adr, uint16_t data);
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#endif /* _SOC_ELKHARTLAKE_TSN_GBE_H_ */
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#endif /* _SOC_ELKHARTLAKE_TSN_GBE_H_ */
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@ -3,7 +3,9 @@
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#include <console/console.h>
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#include <console/console.h>
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#include <device/pci.h>
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#include <device/pci.h>
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#include <device/pci_ids.h>
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#include <device/pci_ids.h>
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#include <soc/soc_chip.h>
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#include <soc/tsn_gbe.h>
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#include <soc/tsn_gbe.h>
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#include <timer.h>
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static void program_mac_address(struct device *dev, void *base)
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static void program_mac_address(struct device *dev, void *base)
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{
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{
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@ -26,14 +28,99 @@ static void program_mac_address(struct device *dev, void *base)
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(mac[3] << 24) | (mac[2] << 16) | (mac[1] << 8) | mac[0]);
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(mac[3] << 24) | (mac[2] << 16) | (mac[1] << 8) | mac[0]);
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}
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}
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enum cb_err phy_gmii_ready(void *base)
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{
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struct stopwatch sw;
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stopwatch_init_msecs_expire(&sw, TSN_GMII_TIMEOUT_MS);
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do {
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if (!(read32((base + TSN_MAC_MDIO_ADR)) & TSN_MAC_GMII_BUSY))
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return CB_SUCCESS;
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} while (!stopwatch_expired(&sw));
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printk(BIOS_ERR, "%s Timeout after %ld msec\n", __func__,
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stopwatch_duration_msecs(&sw));
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return CB_ERR;
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}
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uint16_t tsn_mdio_read(void *base, uint8_t phy_adr, uint8_t reg_adr)
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{
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uint16_t data = 0;
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enum cb_err status;
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clrsetbits32(base + TSN_MAC_MDIO_ADR, TSN_MAC_MDIO_ADR_MASK,
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TSN_MAC_PHYAD(phy_adr) | TSN_MAC_REGAD(reg_adr)
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| TSN_MAC_CLK_TRAIL_4 | TSN_MAC_CSR_CLK_DIV_62
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| TSN_MAC_OP_CMD_READ | TSN_MAC_GMII_BUSY);
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/* Wait for MDIO frame transfer to complete before reading MDIO DATA register */
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status = phy_gmii_ready(base);
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if (status == CB_ERR) {
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printk(BIOS_ERR, "%s TSN GMII busy. PHY Adr: 0x%x, Reg 0x%x\n",
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__func__, phy_adr, reg_adr);
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} else {
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data = read16(base + TSN_MAC_MDIO_DATA);
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printk(BIOS_DEBUG, "%s PHY Adr: 0x%x, Reg: 0x%x , Data: 0x%x\n",
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__func__, phy_adr, reg_adr, data);
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}
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return data;
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}
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void tsn_mdio_write(void *base, uint8_t phy_adr, uint8_t reg_adr, uint16_t data)
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{
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enum cb_err status;
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setbits16(base + TSN_MAC_MDIO_DATA, data);
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clrsetbits32(base + TSN_MAC_MDIO_ADR, TSN_MAC_MDIO_ADR_MASK,
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TSN_MAC_PHYAD(phy_adr) | TSN_MAC_REGAD(reg_adr)
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| TSN_MAC_CLK_TRAIL_4 | TSN_MAC_CSR_CLK_DIV_62
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| TSN_MAC_OP_CMD_WRITE | TSN_MAC_GMII_BUSY);
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/* Wait for MDIO frame transfer to complete before do next */
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status = phy_gmii_ready(base);
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if (status == CB_ERR)
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printk(BIOS_ERR, "%s TSN GMII busy. PHY Adr: 0x%x, Reg 0x%x\n",
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__func__, phy_adr, reg_adr);
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else
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printk(BIOS_DEBUG, "%s PHY Adr: 0x%x, Reg: 0x%x , Data: 0x%x\n",
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__func__, phy_adr, reg_adr, data);
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}
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static void tsn_set_phy2mac_irq_polarity(void *base, enum tsn_phy_irq_polarity pol)
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{
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uint16_t gcr_reg;
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if (pol == RISING_EDGE) {
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/* Read TSN adhoc PHY sublayer register - global configuration register */
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gcr_reg = tsn_mdio_read(base, TSN_MAC_MDIO_ADHOC_ADR, TSN_MAC_MDIO_GCR);
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gcr_reg |= TSN_MAC_PHY2MAC_INTR_POL;
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tsn_mdio_write(base, TSN_MAC_MDIO_ADHOC_ADR, TSN_MAC_MDIO_GCR, gcr_reg);
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}
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}
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static void gbe_tsn_init(struct device *dev)
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static void gbe_tsn_init(struct device *dev)
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{
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{
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/* Get the base address of the I/O registers in memory space */
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/* Get the base address of the I/O registers in memory space */
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struct resource *gbe_tsn_res = find_resource(dev, PCI_BASE_ADDRESS_0);
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struct resource *gbe_tsn_res = find_resource(dev, PCI_BASE_ADDRESS_0);
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void *io_mem_base = (void *)(uintptr_t)gbe_tsn_res->base;
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void *io_mem_base = (void *)(uintptr_t)gbe_tsn_res->base;
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config_t *config = config_of(dev);
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/* Program MAC address */
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/* Program MAC address */
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program_mac_address(dev, io_mem_base);
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program_mac_address(dev, io_mem_base);
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/* Set PHY-to-MAC IRQ polarity according to devicetree */
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switch (dev->path.pci.devfn) {
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case PCH_DEVFN_GBE:
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tsn_set_phy2mac_irq_polarity(io_mem_base, config->pch_tsn_phy_irq_edge);
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break;
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case PCH_DEVFN_PSEGBE0:
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tsn_set_phy2mac_irq_polarity(io_mem_base, config->pse_tsn_phy_irq_edge[0]);
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break;
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case PCH_DEVFN_PSEGBE1:
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tsn_set_phy2mac_irq_polarity(io_mem_base, config->pse_tsn_phy_irq_edge[1]);
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break;
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}
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}
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}
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static struct device_operations gbe_tsn_ops = {
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static struct device_operations gbe_tsn_ops = {
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