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path: root/drivers/net/ethernet/freescale/fsl_pq_mdio.c
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// SPDX-License-Identifier: GPL-2.0-or-later
/*
 * Freescale PowerQUICC Ethernet Driver -- MIIM bus implementation
 * Provides Bus interface for MIIM regs
 *
 * Author: Andy Fleming <afleming@freescale.com>
 * Modifier: Sandeep Gopalpet <sandeep.kumar@freescale.com>
 *
 * Copyright 2002-2004, 2008-2009 Freescale Semiconductor, Inc.
 *
 * Based on gianfar_mii.c and ucc_geth_mii.c (Li Yang, Kim Phillips)
 */

#include <linux/kernel.h>
#include <linux/string.h>
#include <linux/errno.h>
#include <linux/slab.h>
#include <linux/delay.h>
#include <linux/module.h>
#include <linux/mii.h>
#include <linux/of_address.h>
#include <linux/of_mdio.h>
#include <linux/of_device.h>

#include <asm/io.h>
#if IS_ENABLED(CONFIG_UCC_GETH)
#include <soc/fsl/qe/ucc.h>
#endif

#include "gianfar.h"

#define MIIMIND_BUSY		0x00000001
#define MIIMIND_NOTVALID	0x00000004
#define MIIMCFG_INIT_VALUE	0x00000007
#define MIIMCFG_RESET		0x80000000

#define MII_READ_COMMAND	0x00000001

struct fsl_pq_mii {
	u32 miimcfg;	/* MII management configuration reg */
	u32 miimcom;	/* MII management command reg */
	u32 miimadd;	/* MII management address reg */
	u32 miimcon;	/* MII management control reg */
	u32 miimstat;	/* MII management status reg */
	u32 miimind;	/* MII management indication reg */
};

struct fsl_pq_mdio {
	u8 res1[16];
	u32 ieventm;	/* MDIO Interrupt event register (for etsec2)*/
	u32 imaskm;	/* MDIO Interrupt mask register (for etsec2)*/
	u8 res2[4];
	u32 emapm;	/* MDIO Event mapping register (for etsec2)*/
	u8 res3[1280];
	struct fsl_pq_mii mii;
	u8 res4[28];
	u32 utbipar;	/* TBI phy address reg (only on UCC) */
	u8 res5[2728];
} __packed;

/* Number of microseconds to wait for an MII register to respond */
#define MII_TIMEOUT	1000

struct fsl_pq_mdio_priv {
	void __iomem *map;
	struct fsl_pq_mii __iomem *regs;
};

/*
 * Per-device-type data.  Each type of device tree node that we support gets
 * one of these.
 *
 * @mii_offset: the offset of the MII registers within the memory map of the
 * node.  Some nodes define only the MII registers, and some define the whole
 * MAC (which includes the MII registers).
 *
 * @get_tbipa: determines the address of the TBIPA register
 *
 * @ucc_configure: a special function for extra QE configuration
 */
struct fsl_pq_mdio_data {
	unsigned int mii_offset;	/* offset of the MII registers */
	uint32_t __iomem * (*get_tbipa)(void __iomem *p);
	void (*ucc_configure)(phys_addr_t start, phys_addr_t end);
};

/*
 * Write value to the PHY at mii_id at register regnum, on the bus attached
 * to the local interface, which may be different from the generic mdio bus
 * (tied to a single interface), waiting until the write is done before
 * returning. This is helpful in programming interfaces like the TBI which
 * control interfaces like onchip SERDES and are always tied to the local
 * mdio pins, which may not be the same as system mdio bus, used for
 * controlling the external PHYs, for example.
 */
static int fsl_pq_mdio_write(struct mii_bus *bus, int mii_id, int regnum,
		u16 value)
{
	struct fsl_pq_mdio_priv *priv = bus->priv;
	struct fsl_pq_mii __iomem *regs = priv->regs;
	unsigned int timeout;

	/* Set the PHY address and the register address we want to write */
	iowrite32be((mii_id << 8) | regnum, &regs->miimadd);

	/* Write out the value we want */
	iowrite32be(value, &regs->miimcon);

	/* Wait for the transaction to finish */
	timeout = MII_TIMEOUT;
	while ((ioread32be(&regs->miimind) & MIIMIND_BUSY) && timeout) {
		cpu_relax();
		timeout--;
	}

	return timeout ? 0 : -ETIMEDOUT;
}

/*
 * Read the bus for PHY at addr mii_id, register regnum, and return the value.
 * Clears miimcom first.
 *
 * All PHY operation done on the bus attached to the local interface, which
 * may be different from the generic mdio bus.  This is helpful in programming
 * interfaces like the TBI which, in turn, control interfaces like on-chip
 * SERDES and are always tied to the local mdio pins, which may not be the
 * same as system mdio bus, used for controlling the external PHYs, for eg.
 */
static int fsl_pq_mdio_read(struct mii_bus *bus, int mii_id, int regnum)
{
	struct fsl_pq_mdio_priv *priv = bus->priv;
	struct fsl_pq_mii __iomem *regs = priv->regs;
	unsigned int timeout;
	u16 value;

	/* Set the PHY address and the register address we want to read */
	iowrite32be((mii_id << 8) | regnum, &regs->miimadd);

	/* Clear miimcom, and then initiate a read */
	iowrite32be(0, &regs->miimcom);
	iowrite32be(MII_READ_COMMAND, &regs->miimcom);

	/* Wait for the transaction to finish, normally less than 100us */
	timeout = MII_TIMEOUT;
	while ((ioread32be(&regs->miimind) &
	       (MIIMIND_NOTVALID | MIIMIND_BUSY)) && timeout) {
		cpu_relax();
		timeout--;
	}

	if (!timeout)
		return -ETIMEDOUT;

	/* Grab the value of the register from miimstat */
	value = ioread32be(&regs->miimstat);

	dev_dbg(&bus->dev, "read %04x from address %x/%x\n", value, mii_id, regnum);
	return value;
}

/* Reset the MIIM registers, and wait for the bus to free */
static int fsl_pq_mdio_reset(struct mii_bus *bus)
{
	struct fsl_pq_mdio_priv *priv = bus->priv;
	struct fsl_pq_mii __iomem *regs = priv->regs;
	unsigned int timeout;

	mutex_lock(&bus->mdio_lock);

	/* Reset the management interface */
	iowrite32be(MIIMCFG_RESET, &regs->miimcfg);

	/* Setup the MII Mgmt clock speed */
	iowrite32be(MIIMCFG_INIT_VALUE, &regs->miimcfg);

	/* Wait until the bus is free */
	timeout = MII_TIMEOUT;
	while ((ioread32be(&regs->miimind) & MIIMIND_BUSY) && timeout) {
		cpu_relax();
		timeout--;
	}

	mutex_unlock(&bus->mdio_lock);

	if (!timeout) {
		dev_err(&bus->dev, "timeout waiting for MII bus\n");
		return -EBUSY;
	}

	return 0;
}

#if IS_ENABLED(CONFIG_GIANFAR)
/*
 * Return the TBIPA address, starting from the address
 * of the mapped GFAR MDIO registers (struct gfar)
 * This is mildly evil, but so is our hardware for doing this.
 * Also, we have to cast back to struct gfar because of
 * definition weirdness done in gianfar.h.
 */
static uint32_t __iomem *get_gfar_tbipa_from_mdio(void __iomem *p)
{
	struct gfar __iomem *enet_regs = p;

	return &enet_regs->tbipa;
}

/*
 * Return the TBIPA address, starting from the address
 * of the mapped GFAR MII registers (gfar_mii_regs[] within struct gfar)
 */
static uint32_t __iomem *get_gfar_tbipa_from_mii(void __iomem *p)
{
	return get_gfar_tbipa_from_mdio(container_of(p, struct gfar, gfar_mii_regs));
}

/*
 * Return the TBIPAR address for an eTSEC2 node
 */
static uint32_t __iomem *get_etsec_tbipa(void __iomem *p)
{
	return p;
}
#endif

#if IS_ENABLED(CONFIG_UCC_GETH)
/*
 * Return the TBIPAR address for a QE MDIO node, starting from the address
 * of the mapped MII registers (struct fsl_pq_mii)
 */
static uint32_t __iomem *get_ucc_tbipa(void __iomem *p)
{
	struct fsl_pq_mdio __iomem *mdio = container_of(p, struct fsl_pq_mdio, mii);

	return &mdio->utbipar;
}

/*
 * Find the UCC node that controls the given MDIO node
 *
 * For some reason, the QE MDIO nodes are not children of the UCC devices
 * that control them.  Therefore, we need to scan all UCC nodes looking for
 * the one that encompases the given MDIO node.  We do this by comparing
 * physical addresses.  The 'start' and 'end' addresses of the MDIO node are
 * passed, and the correct UCC node will cover the entire address range.
 *
 * This assumes that there is only one QE MDIO node in the entire device tree.
 */
static void ucc_configure(phys_addr_t start, phys_addr_t end)
{
	static bool found_mii_master;
	struct device_node *np = NULL;

	if (found_mii_master)
		return;

	for_each_compatible_node(np, NULL, "ucc_geth") {
		struct resource res;
		const uint32_t *iprop;
		uint32_t id;
		int ret;

		ret = of_address_to_resource(np, 0, &res);
		if (ret < 0) {
			pr_debug("fsl-pq-mdio: no address range in node %pOF\n",
				 np);
			continue;
		}

		/* if our mdio regs fall within this UCC regs range */
		if ((start < res.start) || (end > res.end))
			continue;

		iprop = of_get_property(np, "cell-index", NULL);
		if (!iprop) {
			iprop = of_get_property(np, "device-id", NULL);
			if (!iprop) {
				pr_debug("fsl-pq-mdio: no UCC ID in node %pOF\n",
					 np);
				continue;
			}
		}

		id = be32_to_cpup(iprop);

		/*
		 * cell-index and device-id for QE nodes are
		 * numbered from 1, not 0.
		 */
		if (ucc_set_qe_mux_mii_mng(id - 1) < 0) {
			pr_debug("fsl-pq-mdio: invalid UCC ID in node %pOF\n",
				 np);
			continue;
		}

		pr_debug("fsl-pq-mdio: setting node UCC%u to MII master\n", id);
		found_mii_master = true;
	}
}

#endif

static const struct of_device_id fsl_pq_mdio_match[] = {
#if IS_ENABLED(CONFIG_GIANFAR)
	{
		.compatible = "fsl,gianfar-tbi",
		.data = &(struct fsl_pq_mdio_data) {
			.mii_offset = 0,
			.get_tbipa = get_gfar_tbipa_from_mii,
		},
	},
	{
		.compatible = "fsl,gianfar-mdio",
		.data = &(struct fsl_pq_mdio_data) {
			.mii_offset = 0,
			.get_tbipa = get_gfar_tbipa_from_mii,
		},
	},
	{
		.type = "mdio",
		.compatible = "gianfar",
		.data = &(struct fsl_pq_mdio_data) {
			.mii_offset = offsetof(struct fsl_pq_mdio, mii),
			.get_tbipa = get_gfar_tbipa_from_mdio,
		},
	},
	{
		.compatible = "fsl,etsec2-tbi",
		.data = &(struct fsl_pq_mdio_data) {
			.mii_offset = offsetof(struct fsl_pq_mdio, mii),
			.get_tbipa = get_etsec_tbipa,
		},
	},
	{
		.compatible = "fsl,etsec2-mdio",
		.data = &(struct fsl_pq_mdio_data) {
			.mii_offset = offsetof(struct fsl_pq_mdio, mii),
			.get_tbipa = get_etsec_tbipa,
		},
	},
#endif
#if IS_ENABLED(CONFIG_UCC_GETH)
	{
		.compatible = "fsl,ucc-mdio",
		.data = &(struct fsl_pq_mdio_data) {
			.mii_offset = 0,
			.get_tbipa = get_ucc_tbipa,
			.ucc_configure = ucc_configure,
		},
	},
	{
		/* Legacy UCC MDIO node */
		.type = "mdio",
		.compatible = "ucc_geth_phy",
		.data = &(struct fsl_pq_mdio_data) {
			.mii_offset = 0,
			.get_tbipa = get_ucc_tbipa,
			.ucc_configure = ucc_configure,
		},
	},
#endif
	/* No Kconfig option for Fman support yet */
	{
		.compatible = "fsl,fman-mdio",
		.data = &(struct fsl_pq_mdio_data) {
			.mii_offset = 0,
			/* Fman TBI operations are handled elsewhere */
		},
	},

	{},
};
MODULE_DEVICE_TABLE(of, fsl_pq_mdio_match);

static void set_tbipa(const u32 tbipa_val, struct platform_device *pdev,
		      uint32_t __iomem * (*get_tbipa)(void __iomem *),
		      void __iomem *reg_map, struct resource *reg_res)
{
	struct device_node *np = pdev->dev.of_node;
	uint32_t __iomem *tbipa;
	bool tbipa_mapped;

	tbipa = of_iomap(np, 1);
	if (tbipa) {
		tbipa_mapped = true;
	} else {
		tbipa_mapped = false;
		tbipa = (*get_tbipa)(reg_map);

		/*
		 * Add consistency check to make sure TBI is contained within
		 * the mapped range (not because we would get a segfault,
		 * rather to catch bugs in computing TBI address). Print error
		 * message but continue anyway.
		 */
		if ((void *)tbipa > reg_map + resource_size(reg_res) - 4)
			dev_err(&pdev->dev, "invalid register map (should be at least 0x%04zx to contain TBI address)\n",
				((void *)tbipa - reg_map) + 4);
	}

	iowrite32be(be32_to_cpu(tbipa_val), tbipa);

	if (tbipa_mapped)
		iounmap(tbipa);
}

static int fsl_pq_mdio_probe(struct platform_device *pdev)
{
	const struct of_device_id *id =
		of_match_device(fsl_pq_mdio_match, &pdev->dev);
	const struct fsl_pq_mdio_data *data;
	struct device_node *np = pdev->dev.of_node;
	struct resource res;
	struct device_node *tbi;
	struct fsl_pq_mdio_priv *priv;
	struct mii_bus *new_bus;
	int err;

	if (!id) {
		dev_err(&pdev->dev, "Failed to match device\n");
		return -ENODEV;
	}

	data = id->data;

	dev_dbg(&pdev->dev, "found %s compatible node\n", id->compatible);

	new_bus = mdiobus_alloc_size(sizeof(*priv));
	if (!new_bus)
		return -ENOMEM;

	priv = new_bus->priv;
	new_bus->name = "Freescale PowerQUICC MII Bus",
	new_bus->read = &fsl_pq_mdio_read;
	new_bus->write = &fsl_pq_mdio_write;
	new_bus->reset = &fsl_pq_mdio_reset;

	err = of_address_to_resource(np, 0, &res);
	if (err < 0) {
		dev_err(&pdev->dev, "could not obtain address information\n");
		goto error;
	}

	snprintf(new_bus->id, MII_BUS_ID_SIZE, "%pOFn@%llx", np,
		 (unsigned long long)res.start);

	priv->map = of_iomap(np, 0);
	if (!priv->map) {
		err = -ENOMEM;
		goto error;
	}

	/*
	 * Some device tree nodes represent only the MII registers, and
	 * others represent the MAC and MII registers.  The 'mii_offset' field
	 * contains the offset of the MII registers inside the mapped register
	 * space.
	 */
	if (data->mii_offset > resource_size(&res)) {
		dev_err(&pdev->dev, "invalid register map\n");
		err = -EINVAL;
		goto error;
	}
	priv->regs = priv->map + data->mii_offset;

	new_bus->parent = &pdev->dev;
	platform_set_drvdata(pdev, new_bus);

	if (data->get_tbipa) {
		for_each_child_of_node(np, tbi) {
			if (of_node_is_type(tbi, "tbi-phy")) {
				dev_dbg(&pdev->dev, "found TBI PHY node %pOFP\n",
					tbi);
				break;
			}
		}

		if (tbi) {
			const u32 *prop = of_get_property(tbi, "reg", NULL);
			if (!prop) {
				dev_err(&pdev->dev,
					"missing 'reg' property in node %pOF\n",
					tbi);
				err = -EBUSY;
				goto error;
			}
			set_tbipa(*prop, pdev,
				  data->get_tbipa, priv->map, &res);
		}
	}

	if (data->ucc_configure)
		data->ucc_configure(res.start, res.end);

	err = of_mdiobus_register(new_bus, np);
	if (err) {
		dev_err(&pdev->dev, "cannot register %s as MDIO bus\n",
			new_bus->name);
		goto error;
	}

	return 0;

error:
	if (priv->map)
		iounmap(priv->map);

	kfree(new_bus);

	return err;
}


static int fsl_pq_mdio_remove(struct platform_device *pdev)
{
	struct device *device = &pdev->dev;
	struct mii_bus *bus = dev_get_drvdata(device);
	struct fsl_pq_mdio_priv *priv = bus->priv;

	mdiobus_unregister(bus);

	iounmap(priv->map);
	mdiobus_free(bus);

	return 0;
}

static struct platform_driver fsl_pq_mdio_driver = {
	.driver = {
		.name = "fsl-pq_mdio",
		.of_match_table = fsl_pq_mdio_match,
	},
	.probe = fsl_pq_mdio_probe,
	.remove = fsl_pq_mdio_remove,
};

module_platform_driver(fsl_pq_mdio_driver);

MODULE_LICENSE("GPL");