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path: root/drivers/pci/pcie_imx.c
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/*
 * Freescale i.MX6 PCI Express Root-Complex driver
 *
 * Copyright (C) 2013 Marek Vasut <marex@denx.de>
 *
 * Based on upstream Linux kernel driver:
 * pci-imx6.c:		Sean Cross <xobs@kosagi.com>
 * pcie-designware.c:	Jingoo Han <jg1.han@samsung.com>
 *
 * SPDX-License-Identifier:	GPL-2.0
 */

#include <common.h>
#include <pci.h>
#include <asm/arch/clock.h>
#include <asm/arch/iomux.h>
#include <asm/arch/crm_regs.h>
#include <asm/io.h>
#include <asm/sizes.h>
#include <errno.h>

#define PCI_ACCESS_READ  0
#define PCI_ACCESS_WRITE 1

#define MX6_DBI_ADDR	0x01ffc000
#define MX6_DBI_SIZE	0x4000
#define MX6_IO_ADDR	0x01000000
#define MX6_IO_SIZE	0x100000
#define MX6_MEM_ADDR	0x01100000
#define MX6_MEM_SIZE	0xe00000
#define MX6_ROOT_ADDR	0x01f00000
#define MX6_ROOT_SIZE	0xfc000

/* PCIe Port Logic registers (memory-mapped) */
#define PL_OFFSET 0x700
#define PCIE_PHY_DEBUG_R0 (PL_OFFSET + 0x28)
#define PCIE_PHY_DEBUG_R1 (PL_OFFSET + 0x2c)
#define PCIE_PHY_DEBUG_R1_LINK_UP		(1 << 4)
#define PCIE_PHY_DEBUG_R1_LINK_IN_TRAINING	(1 << 29)

#define PCIE_PHY_CTRL (PL_OFFSET + 0x114)
#define PCIE_PHY_CTRL_DATA_LOC 0
#define PCIE_PHY_CTRL_CAP_ADR_LOC 16
#define PCIE_PHY_CTRL_CAP_DAT_LOC 17
#define PCIE_PHY_CTRL_WR_LOC 18
#define PCIE_PHY_CTRL_RD_LOC 19

#define PCIE_PHY_STAT (PL_OFFSET + 0x110)
#define PCIE_PHY_STAT_DATA_LOC 0
#define PCIE_PHY_STAT_ACK_LOC 16

/* PHY registers (not memory-mapped) */
#define PCIE_PHY_RX_ASIC_OUT 0x100D

#define PHY_RX_OVRD_IN_LO 0x1005
#define PHY_RX_OVRD_IN_LO_RX_DATA_EN (1 << 5)
#define PHY_RX_OVRD_IN_LO_RX_PLL_EN (1 << 3)

/* iATU registers */
#define PCIE_ATU_VIEWPORT		0x900
#define PCIE_ATU_REGION_INBOUND		(0x1 << 31)
#define PCIE_ATU_REGION_OUTBOUND	(0x0 << 31)
#define PCIE_ATU_REGION_INDEX1		(0x1 << 0)
#define PCIE_ATU_REGION_INDEX0		(0x0 << 0)
#define PCIE_ATU_CR1			0x904
#define PCIE_ATU_TYPE_MEM		(0x0 << 0)
#define PCIE_ATU_TYPE_IO		(0x2 << 0)
#define PCIE_ATU_TYPE_CFG0		(0x4 << 0)
#define PCIE_ATU_TYPE_CFG1		(0x5 << 0)
#define PCIE_ATU_CR2			0x908
#define PCIE_ATU_ENABLE			(0x1 << 31)
#define PCIE_ATU_BAR_MODE_ENABLE	(0x1 << 30)
#define PCIE_ATU_LOWER_BASE		0x90C
#define PCIE_ATU_UPPER_BASE		0x910
#define PCIE_ATU_LIMIT			0x914
#define PCIE_ATU_LOWER_TARGET		0x918
#define PCIE_ATU_BUS(x)			(((x) & 0xff) << 24)
#define PCIE_ATU_DEV(x)			(((x) & 0x1f) << 19)
#define PCIE_ATU_FUNC(x)		(((x) & 0x7) << 16)
#define PCIE_ATU_UPPER_TARGET		0x91C

/*
 * PHY access functions
 */
static int pcie_phy_poll_ack(void __iomem *dbi_base, int exp_val)
{
	u32 val;
	u32 max_iterations = 10;
	u32 wait_counter = 0;

	do {
		val = readl(dbi_base + PCIE_PHY_STAT);
		val = (val >> PCIE_PHY_STAT_ACK_LOC) & 0x1;
		wait_counter++;

		if (val == exp_val)
			return 0;

		udelay(1);
	} while (wait_counter < max_iterations);

	return -ETIMEDOUT;
}

static int pcie_phy_wait_ack(void __iomem *dbi_base, int addr)
{
	u32 val;
	int ret;

	val = addr << PCIE_PHY_CTRL_DATA_LOC;
	writel(val, dbi_base + PCIE_PHY_CTRL);

	val |= (0x1 << PCIE_PHY_CTRL_CAP_ADR_LOC);
	writel(val, dbi_base + PCIE_PHY_CTRL);

	ret = pcie_phy_poll_ack(dbi_base, 1);
	if (ret)
		return ret;

	val = addr << PCIE_PHY_CTRL_DATA_LOC;
	writel(val, dbi_base + PCIE_PHY_CTRL);

	ret = pcie_phy_poll_ack(dbi_base, 0);
	if (ret)
		return ret;

	return 0;
}

/* Read from the 16-bit PCIe PHY control registers (not memory-mapped) */
static int pcie_phy_read(void __iomem *dbi_base, int addr , int *data)
{
	u32 val, phy_ctl;
	int ret;

	ret = pcie_phy_wait_ack(dbi_base, addr);
	if (ret)
		return ret;

	/* assert Read signal */
	phy_ctl = 0x1 << PCIE_PHY_CTRL_RD_LOC;
	writel(phy_ctl, dbi_base + PCIE_PHY_CTRL);

	ret = pcie_phy_poll_ack(dbi_base, 1);
	if (ret)
		return ret;

	val = readl(dbi_base + PCIE_PHY_STAT);
	*data = val & 0xffff;

	/* deassert Read signal */
	writel(0x00, dbi_base + PCIE_PHY_CTRL);

	ret = pcie_phy_poll_ack(dbi_base, 0);
	if (ret)
		return ret;

	return 0;
}

static int pcie_phy_write(void __iomem *dbi_base, int addr, int data)
{
	u32 var;
	int ret;

	/* write addr */
	/* cap addr */
	ret = pcie_phy_wait_ack(dbi_base, addr);
	if (ret)
		return ret;

	var = data << PCIE_PHY_CTRL_DATA_LOC;
	writel(var, dbi_base + PCIE_PHY_CTRL);

	/* capture data */
	var |= (0x1 << PCIE_PHY_CTRL_CAP_DAT_LOC);
	writel(var, dbi_base + PCIE_PHY_CTRL);

	ret = pcie_phy_poll_ack(dbi_base, 1);
	if (ret)
		return ret;

	/* deassert cap data */
	var = data << PCIE_PHY_CTRL_DATA_LOC;
	writel(var, dbi_base + PCIE_PHY_CTRL);

	/* wait for ack de-assertion */
	ret = pcie_phy_poll_ack(dbi_base, 0);
	if (ret)
		return ret;

	/* assert wr signal */
	var = 0x1 << PCIE_PHY_CTRL_WR_LOC;
	writel(var, dbi_base + PCIE_PHY_CTRL);

	/* wait for ack */
	ret = pcie_phy_poll_ack(dbi_base, 1);
	if (ret)
		return ret;

	/* deassert wr signal */
	var = data << PCIE_PHY_CTRL_DATA_LOC;
	writel(var, dbi_base + PCIE_PHY_CTRL);

	/* wait for ack de-assertion */
	ret = pcie_phy_poll_ack(dbi_base, 0);
	if (ret)
		return ret;

	writel(0x0, dbi_base + PCIE_PHY_CTRL);

	return 0;
}

static int imx6_pcie_link_up(void)
{
	u32 rc, ltssm;
	int rx_valid, temp;

	/* link is debug bit 36, debug register 1 starts at bit 32 */
	rc = readl(MX6_DBI_ADDR + PCIE_PHY_DEBUG_R1);
	if ((rc & PCIE_PHY_DEBUG_R1_LINK_UP) &&
	    !(rc & PCIE_PHY_DEBUG_R1_LINK_IN_TRAINING))
		return -EAGAIN;

	/*
	 * From L0, initiate MAC entry to gen2 if EP/RC supports gen2.
	 * Wait 2ms (LTSSM timeout is 24ms, PHY lock is ~5us in gen2).
	 * If (MAC/LTSSM.state == Recovery.RcvrLock)
	 * && (PHY/rx_valid==0) then pulse PHY/rx_reset. Transition
	 * to gen2 is stuck
	 */
	pcie_phy_read((void *)MX6_DBI_ADDR, PCIE_PHY_RX_ASIC_OUT, &rx_valid);
	ltssm = readl(MX6_DBI_ADDR + PCIE_PHY_DEBUG_R0) & 0x3F;

	if (rx_valid & 0x01)
		return 0;

	if (ltssm != 0x0d)
		return 0;

	printf("transition to gen2 is stuck, reset PHY!\n");

	pcie_phy_read((void *)MX6_DBI_ADDR, PHY_RX_OVRD_IN_LO, &temp);
	temp |= (PHY_RX_OVRD_IN_LO_RX_DATA_EN | PHY_RX_OVRD_IN_LO_RX_PLL_EN);
	pcie_phy_write((void *)MX6_DBI_ADDR, PHY_RX_OVRD_IN_LO, temp);

	udelay(3000);

	pcie_phy_read((void *)MX6_DBI_ADDR, PHY_RX_OVRD_IN_LO, &temp);
	temp &= ~(PHY_RX_OVRD_IN_LO_RX_DATA_EN | PHY_RX_OVRD_IN_LO_RX_PLL_EN);
	pcie_phy_write((void *)MX6_DBI_ADDR, PHY_RX_OVRD_IN_LO, temp);

	return 0;
}

/*
 * iATU region setup
 */
static int imx_pcie_regions_setup(void)
{
	/*
	 * i.MX6 defines 16MB in the AXI address map for PCIe.
	 *
	 * That address space excepted the pcie registers is
	 * split and defined into different regions by iATU,
	 * with sizes and offsets as follows:
	 *
	 * 0x0100_0000 --- 0x010F_FFFF 1MB IORESOURCE_IO
	 * 0x0110_0000 --- 0x01EF_FFFF 14MB IORESOURCE_MEM
	 * 0x01F0_0000 --- 0x01FF_FFFF 1MB Cfg + Registers
	 */

	/* CMD reg:I/O space, MEM space, and Bus Master Enable */
	setbits_le32(MX6_DBI_ADDR | PCI_COMMAND,
		     PCI_COMMAND_IO | PCI_COMMAND_MEMORY | PCI_COMMAND_MASTER);

	/* Set the CLASS_REV of RC CFG header to PCI_CLASS_BRIDGE_PCI */
	setbits_le32(MX6_DBI_ADDR + PCI_CLASS_REVISION,
		     PCI_CLASS_BRIDGE_PCI << 16);

	/* Region #0 is used for Outbound CFG space access. */
	writel(0, MX6_DBI_ADDR + PCIE_ATU_VIEWPORT);

	writel(MX6_ROOT_ADDR, MX6_DBI_ADDR + PCIE_ATU_LOWER_BASE);
	writel(0, MX6_DBI_ADDR + PCIE_ATU_UPPER_BASE);
	writel(MX6_ROOT_ADDR + MX6_ROOT_SIZE, MX6_DBI_ADDR + PCIE_ATU_LIMIT);

	writel(0, MX6_DBI_ADDR + PCIE_ATU_LOWER_TARGET);
	writel(0, MX6_DBI_ADDR + PCIE_ATU_UPPER_TARGET);
	writel(PCIE_ATU_TYPE_CFG0, MX6_DBI_ADDR + PCIE_ATU_CR1);
	writel(PCIE_ATU_ENABLE, MX6_DBI_ADDR + PCIE_ATU_CR2);

	return 0;
}

/*
 * PCI Express accessors
 */
static uint32_t get_bus_address(pci_dev_t d, int where)
{
	uint32_t va_address;

	/* Reconfigure Region #0 */
	writel(0, MX6_DBI_ADDR + PCIE_ATU_VIEWPORT);

	if (PCI_BUS(d) < 2)
		writel(PCIE_ATU_TYPE_CFG0, MX6_DBI_ADDR + PCIE_ATU_CR1);
	else
		writel(PCIE_ATU_TYPE_CFG1, MX6_DBI_ADDR + PCIE_ATU_CR1);

	if (PCI_BUS(d) == 0) {
		va_address = MX6_DBI_ADDR;
	} else {
		writel(d << 8, MX6_DBI_ADDR + PCIE_ATU_LOWER_TARGET);
		va_address = MX6_IO_ADDR + SZ_16M - SZ_1M;
	}

	va_address += (where & ~0x3);

	return va_address;
}

static int imx_pcie_addr_valid(pci_dev_t d)
{
	if ((PCI_BUS(d) == 0) && (PCI_DEV(d) > 1))
		return -EINVAL;
	if ((PCI_BUS(d) == 1) && (PCI_DEV(d) > 0))
		return -EINVAL;
	return 0;
}

/*
 * Replace the original ARM DABT handler with a simple jump-back one.
 *
 * The problem here is that if we have a PCIe bridge attached to this PCIe
 * controller, but no PCIe device is connected to the bridges' downstream
 * port, the attempt to read/write from/to the config space will produce
 * a DABT. This is a behavior of the controller and can not be disabled
 * unfortuatelly.
 *
 * To work around the problem, we backup the current DABT handler address
 * and replace it with our own DABT handler, which only bounces right back
 * into the code.
 */
static void imx_pcie_fix_dabt_handler(bool set)
{
	extern uint32_t *_data_abort;
	uint32_t *data_abort_addr = (uint32_t *)&_data_abort;

	static const uint32_t data_abort_bounce_handler = 0xe25ef004;
	uint32_t data_abort_bounce_addr = (uint32_t)&data_abort_bounce_handler;

	static uint32_t data_abort_backup;

	if (set) {
		data_abort_backup = *data_abort_addr;
		*data_abort_addr = data_abort_bounce_addr;
	} else {
		*data_abort_addr = data_abort_backup;
	}
}

static int imx_pcie_read_config(struct pci_controller *hose, pci_dev_t d,
				int where, u32 *val)
{
	uint32_t va_address;
	int ret;

	ret = imx_pcie_addr_valid(d);
	if (ret) {
		*val = 0xffffffff;
		return ret;
	}

	va_address = get_bus_address(d, where);

	/*
	 * Read the PCIe config space. We must replace the DABT handler
	 * here in case we got data abort from the PCIe controller, see
	 * imx_pcie_fix_dabt_handler() description. Note that writing the
	 * "val" with valid value is also imperative here as in case we
	 * did got DABT, the val would contain random value.
	 */
	imx_pcie_fix_dabt_handler(true);
	writel(0xffffffff, val);
	*val = readl(va_address);
	imx_pcie_fix_dabt_handler(false);

	return 0;
}

static int imx_pcie_write_config(struct pci_controller *hose, pci_dev_t d,
			int where, u32 val)
{
	uint32_t va_address = 0;
	int ret;

	ret = imx_pcie_addr_valid(d);
	if (ret)
		return ret;

	va_address = get_bus_address(d, where);

	/*
	 * Write the PCIe config space. We must replace the DABT handler
	 * here in case we got data abort from the PCIe controller, see
	 * imx_pcie_fix_dabt_handler() description.
	 */
	imx_pcie_fix_dabt_handler(true);
	writel(val, va_address);
	imx_pcie_fix_dabt_handler(false);

	return 0;
}

/*
 * Initial bus setup
 */
static int imx6_pcie_assert_core_reset(void)
{
	struct iomuxc *iomuxc_regs = (struct iomuxc *)IOMUXC_BASE_ADDR;

	setbits_le32(&iomuxc_regs->gpr[1], IOMUXC_GPR1_TEST_POWERDOWN);
	clrbits_le32(&iomuxc_regs->gpr[1], IOMUXC_GPR1_REF_SSP_EN);

	return 0;
}

static int imx6_pcie_init_phy(void)
{
	struct iomuxc *iomuxc_regs = (struct iomuxc *)IOMUXC_BASE_ADDR;

	clrbits_le32(&iomuxc_regs->gpr[12], IOMUXC_GPR12_APPS_LTSSM_ENABLE);

	clrsetbits_le32(&iomuxc_regs->gpr[12],
			IOMUXC_GPR12_DEVICE_TYPE_MASK,
			IOMUXC_GPR12_DEVICE_TYPE_RC);
	clrsetbits_le32(&iomuxc_regs->gpr[12],
			IOMUXC_GPR12_LOS_LEVEL_MASK,
			IOMUXC_GPR12_LOS_LEVEL_9);

	writel((0x0 << IOMUXC_GPR8_PCS_TX_DEEMPH_GEN1_OFFSET) |
	       (0x0 << IOMUXC_GPR8_PCS_TX_DEEMPH_GEN2_3P5DB_OFFSET) |
	       (20 << IOMUXC_GPR8_PCS_TX_DEEMPH_GEN2_6DB_OFFSET) |
	       (127 << IOMUXC_GPR8_PCS_TX_SWING_FULL_OFFSET) |
	       (127 << IOMUXC_GPR8_PCS_TX_SWING_LOW_OFFSET),
	       &iomuxc_regs->gpr[8]);

	return 0;
}

static int imx6_pcie_deassert_core_reset(void)
{
	struct iomuxc *iomuxc_regs = (struct iomuxc *)IOMUXC_BASE_ADDR;

	/* FIXME: Power-up GPIO goes here. */

	/* Enable PCIe */
	clrbits_le32(&iomuxc_regs->gpr[1], IOMUXC_GPR1_TEST_POWERDOWN);
	setbits_le32(&iomuxc_regs->gpr[1], IOMUXC_GPR1_REF_SSP_EN);

	enable_pcie_clock();

	/*
	 * Wait for the clock to settle a bit, when the clock are sourced
	 * from the CPU, we need about 30mS to settle.
	 */
	mdelay(30);

	/* FIXME: GPIO reset goes here */
	mdelay(100);

	return 0;
}

static int imx_pcie_link_up(void)
{
	struct iomuxc *iomuxc_regs = (struct iomuxc *)IOMUXC_BASE_ADDR;
	uint32_t tmp;
	int count = 0;

	imx6_pcie_assert_core_reset();
	imx6_pcie_init_phy();
	imx6_pcie_deassert_core_reset();

	imx_pcie_regions_setup();

	/*
	 * FIXME: Force the PCIe RC to Gen1 operation
	 * The RC must be forced into Gen1 mode before bringing the link
	 * up, otherwise no downstream devices are detected. After the
	 * link is up, a managed Gen1->Gen2 transition can be initiated.
	 */
	tmp = readl(MX6_DBI_ADDR + 0x7c);
	tmp &= ~0xf;
	tmp |= 0x1;
	writel(tmp, MX6_DBI_ADDR + 0x7c);

	/* LTSSM enable, starting link. */
	setbits_le32(&iomuxc_regs->gpr[12], IOMUXC_GPR12_APPS_LTSSM_ENABLE);

	while (!imx6_pcie_link_up()) {
		udelay(10);
		count++;
		if (count >= 2000) {
			debug("phy link never came up\n");
			debug("DEBUG_R0: 0x%08x, DEBUG_R1: 0x%08x\n",
			      readl(MX6_DBI_ADDR + PCIE_PHY_DEBUG_R0),
			      readl(MX6_DBI_ADDR + PCIE_PHY_DEBUG_R1));
			return -EINVAL;
		}
	}

	return 0;
}

void imx_pcie_init(void)
{
	/* Static instance of the controller. */
	static struct pci_controller	pcc;
	struct pci_controller		*hose = &pcc;
	int ret;

	memset(&pcc, 0, sizeof(pcc));

	/* PCI I/O space */
	pci_set_region(&hose->regions[0],
		       MX6_IO_ADDR, MX6_IO_ADDR,
		       MX6_IO_SIZE, PCI_REGION_IO);

	/* PCI memory space */
	pci_set_region(&hose->regions[1],
		       MX6_MEM_ADDR, MX6_MEM_ADDR,
		       MX6_MEM_SIZE, PCI_REGION_MEM);

	/* System memory space */
	pci_set_region(&hose->regions[2],
		       MMDC0_ARB_BASE_ADDR, MMDC0_ARB_BASE_ADDR,
		       0xefffffff, PCI_REGION_MEM | PCI_REGION_SYS_MEMORY);

	hose->region_count = 3;

	pci_set_ops(hose,
		    pci_hose_read_config_byte_via_dword,
		    pci_hose_read_config_word_via_dword,
		    imx_pcie_read_config,
		    pci_hose_write_config_byte_via_dword,
		    pci_hose_write_config_word_via_dword,
		    imx_pcie_write_config);

	/* Start the controller. */
	ret = imx_pcie_link_up();

	if (!ret) {
		pci_register_hose(hose);
		hose->last_busno = pci_hose_scan(hose);
	}
}

/* Probe function. */
void pci_init_board(void)
{
	imx_pcie_init();
}