drivers/net/phy/mv88e61xx.c - pub/scm/linux/kernel/git/maz/u-boot - Git at Google

 /*
  * (C) Copyright 2009
  * Marvell Semiconductor <www.marvell.com>
  * Prafulla Wadaskar <prafulla@marvell.com>
  *
  * SPDX-License-Identifier:	GPL-2.0+
  */

 #include <common.h>
 #include <netdev.h>
 #include "mv88e61xx.h"

 /*
  * Uncomment either of the following line for local debug control;
  * otherwise global debug control will apply.
  */

 /* #undef DEBUG */
 /* #define DEBUG */

 #ifdef CONFIG_MV88E61XX_MULTICHIP_ADRMODE
 /* Chip Address mode
  * The Switch support two modes of operation
  * 1. single chip mode and
  * 2. Multi-chip mode
  * Refer section 9.2 &9.3 in chip datasheet-02 for more details
  *
  * By default single chip mode is configured
  * multichip mode operation can be configured in board header
  */
 static int mv88e61xx_busychk_multic(char *name, u32 devaddr)
 {
 	u16 reg = 0;
 	u32 timeout = MV88E61XX_PHY_TIMEOUT;

 	/* Poll till SMIBusy bit is clear */
 	do {
 		miiphy_read(name, devaddr, 0x0, &reg);
 		if (timeout-- == 0) {
 			printf("SMI busy timeout\n");
 			return -1;
 		}
 	} while (reg & (1 << 15));
 	return 0;
 }

 static void mv88e61xx_switch_write(char *name, u32 phy_adr,
 	u32 reg_ofs, u16 data)
 {
 	u16 mii_dev_addr;

 	/* command to read PHY dev address */
 	if (miiphy_read(name, 0xEE, 0xEE, &mii_dev_addr)) {
 		printf("Error..could not read PHY dev address\n");
 		return;
 	}
 	mv88e61xx_busychk_multic(name, mii_dev_addr);
 	/* Write data to Switch indirect data register */
 	miiphy_write(name, mii_dev_addr, 0x1, data);
 	/* Write command to Switch indirect command register (write) */
 	miiphy_write(name, mii_dev_addr, 0x0,
 		     reg_ofs | (phy_adr << 5) | (1 << 10) | (1 << 12) | (1 <<
 									 15));
 }

 static void mv88e61xx_switch_read(char *name, u32 phy_adr,
 	u32 reg_ofs, u16 *data)
 {
 	u16 mii_dev_addr;

 	/* command to read PHY dev address */
 	if (miiphy_read(name, 0xEE, 0xEE, &mii_dev_addr)) {
 		printf("Error..could not read PHY dev address\n");
 		return;
 	}
 	mv88e61xx_busychk_multic(name, mii_dev_addr);
 	/* Write command to Switch indirect command register (read) */
 	miiphy_write(name, mii_dev_addr, 0x0,
 		     reg_ofs | (phy_adr << 5) | (1 << 11) | (1 << 12) | (1 <<
 									 15));
 	mv88e61xx_busychk_multic(name, mii_dev_addr);
 	/* Read data from Switch indirect data register */
 	miiphy_read(name, mii_dev_addr, 0x1, data);
 }
 #endif /* CONFIG_MV88E61XX_MULTICHIP_ADRMODE */

 /*
  * Convenience macros for switch device/port reads/writes
  * These macros output valid 'mv88e61xx' U_BOOT_CMDs
  */

 #ifndef DEBUG
 #define WR_SWITCH_REG wr_switch_reg
 #define RD_SWITCH_REG rd_switch_reg
 #define WR_SWITCH_PORT_REG(n, p, r, d) \
 	WR_SWITCH_REG(n, (MV88E61XX_PRT_OFST+p), r, d)
 #define RD_SWITCH_PORT_REG(n, p, r, d) \
 	RD_SWITCH_REG(n, (MV88E61XX_PRT_OFST+p), r, d)
 #else
 static void WR_SWITCH_REG(char *name, u32 dev_adr, u32 reg_ofs, u16 data)
 {
 	printf("mv88e61xx %s dev %02x reg %02x write %04x\n",
 		name, dev_adr, reg_ofs, data);
 	wr_switch_reg(name, dev_adr, reg_ofs, data);
 }
 static void RD_SWITCH_REG(char *name, u32 dev_adr, u32 reg_ofs, u16 *data)
 {
 	rd_switch_reg(name, dev_adr, reg_ofs, data);
 	printf("mv88e61xx %s dev %02x reg %02x read %04x\n",
 		name, dev_adr, reg_ofs, *data);
 }
 static void WR_SWITCH_PORT_REG(char *name, u32 prt_adr, u32 reg_ofs,
 	u16 data)
 {
 	printf("mv88e61xx %s port %02x reg %02x write %04x\n",
 		name, prt_adr, reg_ofs, data);
 	wr_switch_reg(name, (MV88E61XX_PRT_OFST+prt_adr), reg_ofs, data);
 }
 static void RD_SWITCH_PORT_REG(char *name, u32 prt_adr, u32 reg_ofs,
 	u16 *data)
 {
 	rd_switch_reg(name, (MV88E61XX_PRT_OFST+prt_adr), reg_ofs, data);
 	printf("mv88e61xx %s port %02x reg %02x read %04x\n",
 		name, prt_adr, reg_ofs, *data);
 }
 #endif

 /*
  * Local functions to read/write registers on the switch PHYs.
  * NOTE! This goes through switch, not direct miiphy, writes and reads!
  */

 /*
  * Make sure SMIBusy bit cleared before another
  * SMI operation can take place
  */
 static int mv88e61xx_busychk(char *name)
 {
 	u16 reg = 0;
 	u32 timeout = MV88E61XX_PHY_TIMEOUT;
 	do {
 		rd_switch_reg(name, MV88E61XX_GLB2REG_DEVADR,
 		       MV88E61XX_PHY_CMD, &reg);
 		if (timeout-- == 0) {
 			printf("SMI busy timeout\n");
 			return -1;
 		}
 	} while (reg & 1 << 15);	/* busy mask */
 	return 0;
 }

 static inline int mv88e61xx_switch_miiphy_write(char *name, u32 phy,
 	u32 reg, u16 data)
 {
 	/* write switch data reg then cmd reg then check completion */
 	wr_switch_reg(name, MV88E61XX_GLB2REG_DEVADR, MV88E61XX_PHY_DATA,
 		data);
 	wr_switch_reg(name, MV88E61XX_GLB2REG_DEVADR, MV88E61XX_PHY_CMD,
 		(MV88E61XX_PHY_WRITE_CMD | (phy << 5)  | reg));
 	return mv88e61xx_busychk(name);
 }

 static inline int mv88e61xx_switch_miiphy_read(char *name, u32 phy,
 	u32 reg, u16 *data)
 {
 	/* write switch cmd reg, check for completion */
 	wr_switch_reg(name, MV88E61XX_GLB2REG_DEVADR, MV88E61XX_PHY_CMD,
 		(MV88E61XX_PHY_READ_CMD | (phy << 5)  | reg));
 	if (mv88e61xx_busychk(name))
 		return -1;
 	/* read switch data reg and return success */
 	rd_switch_reg(name, MV88E61XX_GLB2REG_DEVADR, MV88E61XX_PHY_DATA, data);
 	return 0;
 }

 /*
  * Convenience macros for switch PHY reads/writes
  */

 #ifndef DEBUG
 #define WR_SWITCH_PHY_REG mv88e61xx_switch_miiphy_write
 #define RD_SWITCH_PHY_REG mv88e61xx_switch_miiphy_read
 #else
 static inline int WR_SWITCH_PHY_REG(char *name, u32 phy_adr,
 	u32 reg_ofs, u16 data)
 {
 	int r = mv88e61xx_switch_miiphy_write(name, phy_adr, reg_ofs, data);
 	if (r)
 		printf("** ERROR writing mv88e61xx %s phy %02x reg %02x\n",
 			name, phy_adr, reg_ofs);
 	else
 		printf("mv88e61xx %s phy %02x reg %02x write %04x\n",
 			name, phy_adr, reg_ofs, data);
 	return r;
 }
 static inline int RD_SWITCH_PHY_REG(char *name, u32 phy_adr,
 	u32 reg_ofs, u16 *data)
 {
 	int r = mv88e61xx_switch_miiphy_read(name, phy_adr, reg_ofs, data);
 	if (r)
 		printf("** ERROR reading mv88e61xx %s phy %02x reg %02x\n",
 			name, phy_adr, reg_ofs);
 	else
 		printf("mv88e61xx %s phy %02x reg %02x read %04x\n",
 			name, phy_adr, reg_ofs, *data);
 	return r;
 }
 #endif

 static void mv88e61xx_port_vlan_config(struct mv88e61xx_config *swconfig)
 {
 	u32 prt;
 	u16 reg;
 	char *name = swconfig->name;
 	u32 port_mask = swconfig->ports_enabled;

 	/* apply internal vlan config */
 	for (prt = 0; prt < MV88E61XX_MAX_PORTS_NUM; prt++) {
 		/* only for enabled ports */
 		if ((1 << prt) & port_mask) {
 			/* take vlan map from swconfig */
 			u8 vlanmap = swconfig->vlancfg[prt];
 			/* remove disabled ports from vlan map */
 			vlanmap &= swconfig->ports_enabled;
 			/* apply vlan map to port */
 			RD_SWITCH_PORT_REG(name, prt,
 				MV88E61XX_PRT_VMAP_REG, &reg);
 			reg &= ~((1 << MV88E61XX_MAX_PORTS_NUM) - 1);
 			reg |= vlanmap;
 			WR_SWITCH_PORT_REG(name, prt,
 				MV88E61XX_PRT_VMAP_REG, reg);
 		}
 	}
 }

 /*
  * Power up the specified port and reset PHY
  */
 static int mv88361xx_powerup(struct mv88e61xx_config *swconfig, u32 phy)
 {
 	char *name = swconfig->name;

 	/* Write Copper Specific control reg1 (0x10) for-
 	 * Enable Phy power up
 	 * Energy Detect on (sense&Xmit NLP Periodically
 	 * reset other settings default
 	 */
 	if (WR_SWITCH_PHY_REG(name, phy, 0x10, 0x3360))
 		return -1;

 	/* Write PHY ctrl reg (0x0) to apply
 	 * Phy reset (set bit 15 low)
 	 * reset other default values
 	 */
 	if (WR_SWITCH_PHY_REG(name, phy, 0x00, 0x9140))
 		return -1;

 	return 0;
 }

 /*
  * Default Setup for LED[0]_Control (ref: Table 46 Datasheet-3)
  * is set to "On-1000Mb/s Link, Off Else"
  * This function sets it to "On-Link, Blink-Activity, Off-NoLink"
  *
  * This is optional settings may be needed on some boards
  * to setup PHY LEDs default configuration to detect 10/100/1000Mb/s
  * Link status
  */
 static int mv88361xx_led_init(struct mv88e61xx_config *swconfig, u32 phy)
 {
 	char *name = swconfig->name;

 	if (swconfig->led_init != MV88E61XX_LED_INIT_EN)
 		return 0;

 	/* set page address to 3 */
 	if (WR_SWITCH_PHY_REG(name, phy, 0x16, 0x0003))
 		return -1;

 	/*
 	 * set LED Func Ctrl reg
 	 * value 0x0001 = LED[0] On-Link, Blink-Activity, Off-NoLink
 	 */
 	if (WR_SWITCH_PHY_REG(name, phy, 0x10, 0x0001))
 		return -1;

 	/* set page address to 0 */
 	if (WR_SWITCH_PHY_REG(name, phy, 0x16, 0x0000))
 		return -1;

 	return 0;
 }

 /*
  * Reverse Transmit polarity for Media Dependent Interface
  * Pins (MDIP) bits in Copper Specific Control Register 3
  * (Page 0, Reg 20 for each phy (except cpu port)
  * Reference: Section 1.1 Switch datasheet-3
  *
  * This is optional settings may be needed on some boards
  * for PHY<->magnetics h/w tuning
  */
 static int mv88361xx_reverse_mdipn(struct mv88e61xx_config *swconfig, u32 phy)
 {
 	char *name = swconfig->name;

 	if (swconfig->mdip != MV88E61XX_MDIP_REVERSE)
 		return 0;

 	/*Reverse MDIP/N[3:0] bits */
 	if (WR_SWITCH_PHY_REG(name, phy, 0x14, 0x000f))
 		return -1;

 	return 0;
 }

 /*
  * Marvell 88E61XX Switch initialization
  */
 int mv88e61xx_switch_initialize(struct mv88e61xx_config *swconfig)
 {
 	u32 prt;
 	u16 reg;
 	char *idstr;
 	char *name = swconfig->name;
 	int time;

 	if (miiphy_set_current_dev(name)) {
 		printf("%s failed\n", __FUNCTION__);
 		return -1;
 	}

 	if (!(swconfig->cpuport & ((1 << 4) | (1 << 5)))) {
 		swconfig->cpuport = (1 << 5);
 		printf("Invalid cpu port config, using default port5\n");
 	}

 	RD_SWITCH_PORT_REG(name, 0, MII_PHYSID2, &reg);
 	switch (reg &= 0xfff0) {
 	case 0x1610:
 		idstr = "88E6161";
 		break;
 	case 0x1650:
 		idstr = "88E6165";
 		break;
 	case 0x1210:
 		idstr = "88E6123";
 		/* ports 2,3,4 not available */
 		swconfig->ports_enabled &= 0x023;
 		break;
 	default:
 		/* Could not detect switch id */
 		idstr = "88E61??";
 		break;
 	}

 	/* be sure all ports are disabled */
 	for (prt = 0; prt < MV88E61XX_MAX_PORTS_NUM; prt++) {
 		RD_SWITCH_PORT_REG(name, prt, MV88E61XX_PRT_CTRL_REG, &reg);
 		reg &= ~0x3;
 		WR_SWITCH_PORT_REG(name, prt, MV88E61XX_PRT_CTRL_REG, reg);
 	}

 	/* wait 2 ms for queues to drain */
 	udelay(2000);

 	/* reset switch */
 	RD_SWITCH_REG(name, MV88E61XX_GLBREG_DEVADR, MV88E61XX_SGCR, &reg);
 	reg |= 0x8000;
 	WR_SWITCH_REG(name, MV88E61XX_GLBREG_DEVADR, MV88E61XX_SGCR, reg);

 	/* wait up to 1 second for switch reset complete */
 	for (time = 1000; time; time--) {
 		RD_SWITCH_REG(name, MV88E61XX_GLBREG_DEVADR, MV88E61XX_SGSR,
 			&reg);
 		if ((reg & 0xc800) == 0xc800)
 			break;
 		udelay(1000);
 	}
 	if (!time)
 		return -1;

 	/* Port based VLANs configuration */
 	mv88e61xx_port_vlan_config(swconfig);

 	if (swconfig->rgmii_delay == MV88E61XX_RGMII_DELAY_EN) {
 		/*
 		 * Enable RGMII delay on Tx and Rx for CPU port
 		 * Ref: sec 9.5 of chip datasheet-02
 		 */
 		/*Force port link down */
 		WR_SWITCH_PORT_REG(name, 5, MV88E61XX_PCS_CTRL_REG, 0x10);
 		/* configure port RGMII delay */
 		WR_SWITCH_PORT_REG(name, 4,
 			MV88E61XX_RGMII_TIMECTRL_REG, 0x81e7);
 		RD_SWITCH_PORT_REG(name, 5,
 			MV88E61XX_RGMII_TIMECTRL_REG, &reg);
 		WR_SWITCH_PORT_REG(name, 5,
 			MV88E61XX_RGMII_TIMECTRL_REG, reg | 0x18);
 		WR_SWITCH_PORT_REG(name, 4,
 			MV88E61XX_RGMII_TIMECTRL_REG, 0xc1e7);
 		/* Force port to RGMII FDX 1000Base then up */
 		WR_SWITCH_PORT_REG(name, 5, MV88E61XX_PCS_CTRL_REG, 0x1e);
 		WR_SWITCH_PORT_REG(name, 5, MV88E61XX_PCS_CTRL_REG, 0x3e);
 	}

 	for (prt = 0; prt < MV88E61XX_MAX_PORTS_NUM; prt++) {

 		/* configure port's PHY */
 		if (!((1 << prt) & swconfig->cpuport)) {
 			/* port 4 has phy 6, not 4 */
 			int phy = (prt == 4) ? 6 : prt;
 			if (mv88361xx_powerup(swconfig, phy))
 				return -1;
 			if (mv88361xx_reverse_mdipn(swconfig, phy))
 				return -1;
 			if (mv88361xx_led_init(swconfig, phy))
 				return -1;
 		}

 		/* set port VID to port+1 except for cpu port */
 		if (!((1 << prt) & swconfig->cpuport)) {
 			RD_SWITCH_PORT_REG(name, prt,
 				MV88E61XX_PRT_VID_REG, &reg);
 			WR_SWITCH_PORT_REG(name, prt,
 				MV88E61XX_PRT_VID_REG,
 				(reg & ~1023) | (prt+1));
 		}

 		/*Program port state */
 		RD_SWITCH_PORT_REG(name, prt,
 			MV88E61XX_PRT_CTRL_REG, &reg);
 		WR_SWITCH_PORT_REG(name, prt,
 			MV88E61XX_PRT_CTRL_REG,
 			reg | (swconfig->portstate & 0x03));

 	}

 	printf("%s Initialized on %s\n", idstr, name);
 	return 0;
 }

 #ifdef CONFIG_MV88E61XX_CMD
 static int
 do_switch(cmd_tbl_t *cmdtp, int flag, int argc, char * const argv[])
 {
 	char *name, *endp;
 	int write = 0;
 	enum { dev, prt, phy } target = dev;
 	u32 addrlo, addrhi, addr;
 	u32 reglo, reghi, reg;
 	u16 data, rdata;

 	if (argc < 7)
 		return -1;

 	name = argv[1];

 	if (strcmp(argv[2], "phy") == 0)
 		target = phy;
 	else if (strcmp(argv[2], "port") == 0)
 		target = prt;
 	else if (strcmp(argv[2], "dev") != 0)
 		return 1;

 	addrlo = simple_strtoul(argv[3], &endp, 16);

 	if (!*endp) {
 		addrhi = addrlo;
 	} else {
 		while (*endp < '0' || *endp > '9')
 			endp++;
 		addrhi = simple_strtoul(endp, NULL, 16);
 	}

 	reglo = simple_strtoul(argv[5], &endp, 16);
 	if (!*endp) {
 		reghi = reglo;
 	} else {
 		while (*endp < '0' || *endp > '9')
 			endp++;
 		reghi = simple_strtoul(endp, NULL, 16);
 	}

 	if (strcmp(argv[6], "write") == 0)
 		write = 1;
 	else if (strcmp(argv[6], "read") != 0)
 		return 1;

 	data = simple_strtoul(argv[7], NULL, 16);

 	for (addr = addrlo; addr <= addrhi; addr++) {
 		for (reg = reglo; reg <= reghi; reg++) {
 			if (write) {
 				if (target == phy)
 					mv88e61xx_switch_miiphy_write(
 						name, addr, reg, data);
 				else if (target == prt)
 					wr_switch_reg(name,
 						addr+MV88E61XX_PRT_OFST,
 						reg, data);
 				else
 					wr_switch_reg(name, addr, reg, data);
 			} else {
 				if (target == phy)
 					mv88e61xx_switch_miiphy_read(
 						name, addr, reg, &rdata);
 				else if (target == prt)
 					rd_switch_reg(name,
 						addr+MV88E61XX_PRT_OFST,
 						reg, &rdata);
 				else
 					rd_switch_reg(name, addr, reg, &rdata);
 				printf("%s %s %s %02x %s %02x %s %04x\n",
 					argv[0], argv[1], argv[2], addr,
 					argv[4], reg, argv[6], rdata);
 				if (write && argc == 7 && rdata != data)
 					return 1;
 			}
 		}
 	}
 	return 0;
 }

 U_BOOT_CMD(mv88e61xx, 8, 0, do_switch,
 	"Read or write mv88e61xx switch registers",
 	"<ethdevice> dev|port|phy <addr> reg <reg> write <data>\n"
 	"<ethdevice> dev|port|phy <addr> reg <reg> read [<data>]\n"
 	"    - read/write switch device, port or phy at (addr,reg)\n"
 	"      addr=0..0x1C for dev, 0..5 for port or phy.\n"
 	"      reg=0..0x1F.\n"
 	"      data=0..0xFFFF (tested if present against actual read).\n"
 	"      All numeric parameters are assumed to be hex.\n"
 	"      <addr> and <<reg> arguments can be ranges (x..y)"
 );
 #endif /* CONFIG_MV88E61XX_CMD */
	/*
	* (C) Copyright 2009
	* Marvell Semiconductor <www.marvell.com>
	* Prafulla Wadaskar <prafulla@marvell.com>
	*
	* SPDX-License-Identifier: GPL-2.0+
	*/

	#include <common.h>
	#include <netdev.h>
	#include "mv88e61xx.h"

	/*
	* Uncomment either of the following line for local debug control;
	* otherwise global debug control will apply.
	*/

	/* #undef DEBUG */
	/* #define DEBUG */

	#ifdef CONFIG_MV88E61XX_MULTICHIP_ADRMODE
	/* Chip Address mode
	* The Switch support two modes of operation
	* 1. single chip mode and
	* 2. Multi-chip mode
	* Refer section 9.2 &9.3 in chip datasheet-02 for more details
	*
	* By default single chip mode is configured
	* multichip mode operation can be configured in board header
	*/
	static int mv88e61xx_busychk_multic(char *name, u32 devaddr)
	{
	u16 reg = 0;
	u32 timeout = MV88E61XX_PHY_TIMEOUT;

	/* Poll till SMIBusy bit is clear */
	do {
	miiphy_read(name, devaddr, 0x0, &reg);
	if (timeout-- == 0) {
	printf("SMI busy timeout\n");
	return -1;
	}
	} while (reg & (1 << 15));
	return 0;
	}

	static void mv88e61xx_switch_write(char *name, u32 phy_adr,
	u32 reg_ofs, u16 data)
	{
	u16 mii_dev_addr;

	/* command to read PHY dev address */
	if (miiphy_read(name, 0xEE, 0xEE, &mii_dev_addr)) {
	printf("Error..could not read PHY dev address\n");
	return;
	}
	mv88e61xx_busychk_multic(name, mii_dev_addr);
	/* Write data to Switch indirect data register */
	miiphy_write(name, mii_dev_addr, 0x1, data);
	/* Write command to Switch indirect command register (write) */
	miiphy_write(name, mii_dev_addr, 0x0,
	reg_ofs \| (phy_adr << 5) \| (1 << 10) \| (1 << 12) \| (1 <<
	15));
	}

	static void mv88e61xx_switch_read(char *name, u32 phy_adr,
	u32 reg_ofs, u16 *data)
	{
	u16 mii_dev_addr;

	/* command to read PHY dev address */
	if (miiphy_read(name, 0xEE, 0xEE, &mii_dev_addr)) {
	printf("Error..could not read PHY dev address\n");
	return;
	}
	mv88e61xx_busychk_multic(name, mii_dev_addr);
	/* Write command to Switch indirect command register (read) */
	miiphy_write(name, mii_dev_addr, 0x0,
	reg_ofs \| (phy_adr << 5) \| (1 << 11) \| (1 << 12) \| (1 <<
	15));
	mv88e61xx_busychk_multic(name, mii_dev_addr);
	/* Read data from Switch indirect data register */
	miiphy_read(name, mii_dev_addr, 0x1, data);
	}
	#endif /* CONFIG_MV88E61XX_MULTICHIP_ADRMODE */

	/*
	* Convenience macros for switch device/port reads/writes
	* These macros output valid 'mv88e61xx' U_BOOT_CMDs
	*/

	#ifndef DEBUG
	#define WR_SWITCH_REG wr_switch_reg
	#define RD_SWITCH_REG rd_switch_reg
	#define WR_SWITCH_PORT_REG(n, p, r, d) \
	WR_SWITCH_REG(n, (MV88E61XX_PRT_OFST+p), r, d)
	#define RD_SWITCH_PORT_REG(n, p, r, d) \
	RD_SWITCH_REG(n, (MV88E61XX_PRT_OFST+p), r, d)
	#else
	static void WR_SWITCH_REG(char *name, u32 dev_adr, u32 reg_ofs, u16 data)
	{
	printf("mv88e61xx %s dev %02x reg %02x write %04x\n",
	name, dev_adr, reg_ofs, data);
	wr_switch_reg(name, dev_adr, reg_ofs, data);
	}
	static void RD_SWITCH_REG(char name, u32 dev_adr, u32 reg_ofs, u16 data)
	{
	rd_switch_reg(name, dev_adr, reg_ofs, data);
	printf("mv88e61xx %s dev %02x reg %02x read %04x\n",
	name, dev_adr, reg_ofs, *data);
	}
	static void WR_SWITCH_PORT_REG(char *name, u32 prt_adr, u32 reg_ofs,
	u16 data)
	{
	printf("mv88e61xx %s port %02x reg %02x write %04x\n",
	name, prt_adr, reg_ofs, data);
	wr_switch_reg(name, (MV88E61XX_PRT_OFST+prt_adr), reg_ofs, data);
	}
	static void RD_SWITCH_PORT_REG(char *name, u32 prt_adr, u32 reg_ofs,
	u16 *data)
	{
	rd_switch_reg(name, (MV88E61XX_PRT_OFST+prt_adr), reg_ofs, data);
	printf("mv88e61xx %s port %02x reg %02x read %04x\n",
	name, prt_adr, reg_ofs, *data);
	}
	#endif

	/*
	* Local functions to read/write registers on the switch PHYs.
	* NOTE! This goes through switch, not direct miiphy, writes and reads!
	*/

	/*
	* Make sure SMIBusy bit cleared before another
	* SMI operation can take place
	*/
	static int mv88e61xx_busychk(char *name)
	{
	u16 reg = 0;
	u32 timeout = MV88E61XX_PHY_TIMEOUT;
	do {
	rd_switch_reg(name, MV88E61XX_GLB2REG_DEVADR,
	MV88E61XX_PHY_CMD, &reg);
	if (timeout-- == 0) {
	printf("SMI busy timeout\n");
	return -1;
	}
	} while (reg & 1 << 15); /* busy mask */
	return 0;
	}

	static inline int mv88e61xx_switch_miiphy_write(char *name, u32 phy,
	u32 reg, u16 data)
	{
	/* write switch data reg then cmd reg then check completion */
	wr_switch_reg(name, MV88E61XX_GLB2REG_DEVADR, MV88E61XX_PHY_DATA,
	data);
	wr_switch_reg(name, MV88E61XX_GLB2REG_DEVADR, MV88E61XX_PHY_CMD,
	(MV88E61XX_PHY_WRITE_CMD \| (phy << 5) \| reg));
	return mv88e61xx_busychk(name);
	}

	static inline int mv88e61xx_switch_miiphy_read(char *name, u32 phy,
	u32 reg, u16 *data)
	{
	/* write switch cmd reg, check for completion */
	wr_switch_reg(name, MV88E61XX_GLB2REG_DEVADR, MV88E61XX_PHY_CMD,
	(MV88E61XX_PHY_READ_CMD \| (phy << 5) \| reg));
	if (mv88e61xx_busychk(name))
	return -1;
	/* read switch data reg and return success */
	rd_switch_reg(name, MV88E61XX_GLB2REG_DEVADR, MV88E61XX_PHY_DATA, data);
	return 0;
	}

	/*
	* Convenience macros for switch PHY reads/writes
	*/

	#ifndef DEBUG
	#define WR_SWITCH_PHY_REG mv88e61xx_switch_miiphy_write
	#define RD_SWITCH_PHY_REG mv88e61xx_switch_miiphy_read
	#else
	static inline int WR_SWITCH_PHY_REG(char *name, u32 phy_adr,
	u32 reg_ofs, u16 data)
	{
	int r = mv88e61xx_switch_miiphy_write(name, phy_adr, reg_ofs, data);
	if (r)
	printf("** ERROR writing mv88e61xx %s phy %02x reg %02x\n",
	name, phy_adr, reg_ofs);
	else
	printf("mv88e61xx %s phy %02x reg %02x write %04x\n",
	name, phy_adr, reg_ofs, data);
	return r;
	}
	static inline int RD_SWITCH_PHY_REG(char *name, u32 phy_adr,
	u32 reg_ofs, u16 *data)
	{
	int r = mv88e61xx_switch_miiphy_read(name, phy_adr, reg_ofs, data);
	if (r)
	printf("** ERROR reading mv88e61xx %s phy %02x reg %02x\n",
	name, phy_adr, reg_ofs);
	else
	printf("mv88e61xx %s phy %02x reg %02x read %04x\n",
	name, phy_adr, reg_ofs, *data);
	return r;
	}
	#endif

	static void mv88e61xx_port_vlan_config(struct mv88e61xx_config *swconfig)
	{
	u32 prt;
	u16 reg;
	char *name = swconfig->name;
	u32 port_mask = swconfig->ports_enabled;

	/* apply internal vlan config */
	for (prt = 0; prt < MV88E61XX_MAX_PORTS_NUM; prt++) {
	/* only for enabled ports */
	if ((1 << prt) & port_mask) {
	/* take vlan map from swconfig */
	u8 vlanmap = swconfig->vlancfg[prt];
	/* remove disabled ports from vlan map */
	vlanmap &= swconfig->ports_enabled;
	/* apply vlan map to port */
	RD_SWITCH_PORT_REG(name, prt,
	MV88E61XX_PRT_VMAP_REG, &reg);
	reg &= ~((1 << MV88E61XX_MAX_PORTS_NUM) - 1);
	reg \|= vlanmap;
	WR_SWITCH_PORT_REG(name, prt,
	MV88E61XX_PRT_VMAP_REG, reg);
	}
	}
	}

	/*
	* Power up the specified port and reset PHY
	*/
	static int mv88361xx_powerup(struct mv88e61xx_config *swconfig, u32 phy)
	{
	char *name = swconfig->name;

	/* Write Copper Specific control reg1 (0x10) for-
	* Enable Phy power up
	* Energy Detect on (sense&Xmit NLP Periodically
	* reset other settings default
	*/
	if (WR_SWITCH_PHY_REG(name, phy, 0x10, 0x3360))
	return -1;

	/* Write PHY ctrl reg (0x0) to apply
	* Phy reset (set bit 15 low)
	* reset other default values
	*/
	if (WR_SWITCH_PHY_REG(name, phy, 0x00, 0x9140))
	return -1;

	return 0;
	}

	/*
	* Default Setup for LED[0]_Control (ref: Table 46 Datasheet-3)
	* is set to "On-1000Mb/s Link, Off Else"
	* This function sets it to "On-Link, Blink-Activity, Off-NoLink"
	*
	* This is optional settings may be needed on some boards
	* to setup PHY LEDs default configuration to detect 10/100/1000Mb/s
	* Link status
	*/
	static int mv88361xx_led_init(struct mv88e61xx_config *swconfig, u32 phy)
	{
	char *name = swconfig->name;

	if (swconfig->led_init != MV88E61XX_LED_INIT_EN)
	return 0;

	/* set page address to 3 */
	if (WR_SWITCH_PHY_REG(name, phy, 0x16, 0x0003))
	return -1;

	/*
	* set LED Func Ctrl reg
	* value 0x0001 = LED[0] On-Link, Blink-Activity, Off-NoLink
	*/
	if (WR_SWITCH_PHY_REG(name, phy, 0x10, 0x0001))
	return -1;

	/* set page address to 0 */
	if (WR_SWITCH_PHY_REG(name, phy, 0x16, 0x0000))
	return -1;

	return 0;
	}

	/*
	* Reverse Transmit polarity for Media Dependent Interface
	* Pins (MDIP) bits in Copper Specific Control Register 3
	* (Page 0, Reg 20 for each phy (except cpu port)
	* Reference: Section 1.1 Switch datasheet-3
	*
	* This is optional settings may be needed on some boards
	* for PHY<->magnetics h/w tuning
	*/
	static int mv88361xx_reverse_mdipn(struct mv88e61xx_config *swconfig, u32 phy)
	{
	char *name = swconfig->name;

	if (swconfig->mdip != MV88E61XX_MDIP_REVERSE)
	return 0;

	/Reverse MDIP/N[3:0] bits /
	if (WR_SWITCH_PHY_REG(name, phy, 0x14, 0x000f))
	return -1;

	return 0;
	}

	/*
	* Marvell 88E61XX Switch initialization
	*/
	int mv88e61xx_switch_initialize(struct mv88e61xx_config *swconfig)
	{
	u32 prt;
	u16 reg;
	char *idstr;
	char *name = swconfig->name;
	int time;

	if (miiphy_set_current_dev(name)) {
	printf("%s failed\n", __FUNCTION__);
	return -1;
	}

	if (!(swconfig->cpuport & ((1 << 4) \| (1 << 5)))) {
	swconfig->cpuport = (1 << 5);
	printf("Invalid cpu port config, using default port5\n");
	}

	RD_SWITCH_PORT_REG(name, 0, MII_PHYSID2, &reg);
	switch (reg &= 0xfff0) {
	case 0x1610:
	idstr = "88E6161";
	break;
	case 0x1650:
	idstr = "88E6165";
	break;
	case 0x1210:
	idstr = "88E6123";
	/* ports 2,3,4 not available */
	swconfig->ports_enabled &= 0x023;
	break;
	default:
	/* Could not detect switch id */
	idstr = "88E61??";
	break;
	}

	/* be sure all ports are disabled */
	for (prt = 0; prt < MV88E61XX_MAX_PORTS_NUM; prt++) {
	RD_SWITCH_PORT_REG(name, prt, MV88E61XX_PRT_CTRL_REG, &reg);
	reg &= ~0x3;
	WR_SWITCH_PORT_REG(name, prt, MV88E61XX_PRT_CTRL_REG, reg);
	}

	/* wait 2 ms for queues to drain */
	udelay(2000);

	/* reset switch */
	RD_SWITCH_REG(name, MV88E61XX_GLBREG_DEVADR, MV88E61XX_SGCR, &reg);
	reg \|= 0x8000;
	WR_SWITCH_REG(name, MV88E61XX_GLBREG_DEVADR, MV88E61XX_SGCR, reg);

	/* wait up to 1 second for switch reset complete */
	for (time = 1000; time; time--) {
	RD_SWITCH_REG(name, MV88E61XX_GLBREG_DEVADR, MV88E61XX_SGSR,
	&reg);
	if ((reg & 0xc800) == 0xc800)
	break;
	udelay(1000);
	}
	if (!time)
	return -1;

	/* Port based VLANs configuration */
	mv88e61xx_port_vlan_config(swconfig);

	if (swconfig->rgmii_delay == MV88E61XX_RGMII_DELAY_EN) {
	/*
	* Enable RGMII delay on Tx and Rx for CPU port
	* Ref: sec 9.5 of chip datasheet-02
	*/
	/Force port link down /
	WR_SWITCH_PORT_REG(name, 5, MV88E61XX_PCS_CTRL_REG, 0x10);
	/* configure port RGMII delay */
	WR_SWITCH_PORT_REG(name, 4,
	MV88E61XX_RGMII_TIMECTRL_REG, 0x81e7);
	RD_SWITCH_PORT_REG(name, 5,
	MV88E61XX_RGMII_TIMECTRL_REG, &reg);
	WR_SWITCH_PORT_REG(name, 5,
	MV88E61XX_RGMII_TIMECTRL_REG, reg \| 0x18);
	WR_SWITCH_PORT_REG(name, 4,
	MV88E61XX_RGMII_TIMECTRL_REG, 0xc1e7);
	/* Force port to RGMII FDX 1000Base then up */
	WR_SWITCH_PORT_REG(name, 5, MV88E61XX_PCS_CTRL_REG, 0x1e);
	WR_SWITCH_PORT_REG(name, 5, MV88E61XX_PCS_CTRL_REG, 0x3e);
	}

	for (prt = 0; prt < MV88E61XX_MAX_PORTS_NUM; prt++) {

	/* configure port's PHY */
	if (!((1 << prt) & swconfig->cpuport)) {
	/* port 4 has phy 6, not 4 */
	int phy = (prt == 4) ? 6 : prt;
	if (mv88361xx_powerup(swconfig, phy))
	return -1;
	if (mv88361xx_reverse_mdipn(swconfig, phy))
	return -1;
	if (mv88361xx_led_init(swconfig, phy))
	return -1;
	}

	/* set port VID to port+1 except for cpu port */
	if (!((1 << prt) & swconfig->cpuport)) {
	RD_SWITCH_PORT_REG(name, prt,
	MV88E61XX_PRT_VID_REG, &reg);
	WR_SWITCH_PORT_REG(name, prt,
	MV88E61XX_PRT_VID_REG,
	(reg & ~1023) \| (prt+1));
	}

	/Program port state /
	RD_SWITCH_PORT_REG(name, prt,
	MV88E61XX_PRT_CTRL_REG, &reg);
	WR_SWITCH_PORT_REG(name, prt,
	MV88E61XX_PRT_CTRL_REG,
	reg \| (swconfig->portstate & 0x03));

	}

	printf("%s Initialized on %s\n", idstr, name);
	return 0;
	}

	#ifdef CONFIG_MV88E61XX_CMD
	static int
	do_switch(cmd_tbl_t cmdtp, int flag, int argc, char const argv[])
	{
	char name, endp;
	int write = 0;
	enum { dev, prt, phy } target = dev;
	u32 addrlo, addrhi, addr;
	u32 reglo, reghi, reg;
	u16 data, rdata;

	if (argc < 7)
	return -1;

	name = argv[1];

	if (strcmp(argv[2], "phy") == 0)
	target = phy;
	else if (strcmp(argv[2], "port") == 0)
	target = prt;
	else if (strcmp(argv[2], "dev") != 0)
	return 1;

	addrlo = simple_strtoul(argv[3], &endp, 16);

	if (!*endp) {
	addrhi = addrlo;
	} else {
	while (endp < '0' \|\| endp > '9')
	endp++;
	addrhi = simple_strtoul(endp, NULL, 16);
	}

	reglo = simple_strtoul(argv[5], &endp, 16);
	if (!*endp) {
	reghi = reglo;
	} else {
	while (endp < '0' \|\| endp > '9')
	endp++;
	reghi = simple_strtoul(endp, NULL, 16);
	}

	if (strcmp(argv[6], "write") == 0)
	write = 1;
	else if (strcmp(argv[6], "read") != 0)
	return 1;

	data = simple_strtoul(argv[7], NULL, 16);

	for (addr = addrlo; addr <= addrhi; addr++) {
	for (reg = reglo; reg <= reghi; reg++) {
	if (write) {
	if (target == phy)
	mv88e61xx_switch_miiphy_write(
	name, addr, reg, data);
	else if (target == prt)
	wr_switch_reg(name,
	addr+MV88E61XX_PRT_OFST,
	reg, data);
	else
	wr_switch_reg(name, addr, reg, data);
	} else {
	if (target == phy)
	mv88e61xx_switch_miiphy_read(
	name, addr, reg, &rdata);
	else if (target == prt)
	rd_switch_reg(name,
	addr+MV88E61XX_PRT_OFST,
	reg, &rdata);
	else
	rd_switch_reg(name, addr, reg, &rdata);
	printf("%s %s %s %02x %s %02x %s %04x\n",
	argv[0], argv[1], argv[2], addr,
	argv[4], reg, argv[6], rdata);
	if (write && argc == 7 && rdata != data)
	return 1;
	}
	}
	}
	return 0;
	}

	U_BOOT_CMD(mv88e61xx, 8, 0, do_switch,
	"Read or write mv88e61xx switch registers",
	"<ethdevice> dev\|port\|phy <addr> reg <reg> write <data>\n"
	"<ethdevice> dev\|port\|phy <addr> reg <reg> read [<data>]\n"
	" - read/write switch device, port or phy at (addr,reg)\n"
	" addr=0..0x1C for dev, 0..5 for port or phy.\n"
	" reg=0..0x1F.\n"
	" data=0..0xFFFF (tested if present against actual read).\n"
	" All numeric parameters are assumed to be hex.\n"
	" <addr> and <<reg> arguments can be ranges (x..y)"
	);
	#endif /* CONFIG_MV88E61XX_CMD */