[mirror_ubuntu-kernels.git] / drivers / soc / bcm / bcm2835-power.c

// SPDX-License-Identifier: GPL-2.0+
/*
 * Power domain driver for Broadcom BCM2835
 *
 * Copyright (C) 2018 Broadcom
 */

#include <dt-bindings/soc/bcm2835-pm.h>
#include <linux/clk.h>
#include <linux/delay.h>
#include <linux/io.h>
#include <linux/mfd/bcm2835-pm.h>
#include <linux/module.h>
#include <linux/platform_device.h>
#include <linux/pm_domain.h>
#include <linux/reset-controller.h>
#include <linux/types.h>

#define PM_GNRIC                        0x00
#define PM_AUDIO                        0x04
#define PM_STATUS                       0x18
#define PM_RSTC				0x1c
#define PM_RSTS				0x20
#define PM_WDOG				0x24
#define PM_PADS0			0x28
#define PM_PADS2			0x2c
#define PM_PADS3			0x30
#define PM_PADS4			0x34
#define PM_PADS5			0x38
#define PM_PADS6			0x3c
#define PM_CAM0				0x44
#define PM_CAM0_LDOHPEN			BIT(2)
#define PM_CAM0_LDOLPEN			BIT(1)
#define PM_CAM0_CTRLEN			BIT(0)

#define PM_CAM1				0x48
#define PM_CAM1_LDOHPEN			BIT(2)
#define PM_CAM1_LDOLPEN			BIT(1)
#define PM_CAM1_CTRLEN			BIT(0)

#define PM_CCP2TX			0x4c
#define PM_CCP2TX_LDOEN			BIT(1)
#define PM_CCP2TX_CTRLEN		BIT(0)

#define PM_DSI0				0x50
#define PM_DSI0_LDOHPEN			BIT(2)
#define PM_DSI0_LDOLPEN			BIT(1)
#define PM_DSI0_CTRLEN			BIT(0)

#define PM_DSI1				0x54
#define PM_DSI1_LDOHPEN			BIT(2)
#define PM_DSI1_LDOLPEN			BIT(1)
#define PM_DSI1_CTRLEN			BIT(0)

#define PM_HDMI				0x58
#define PM_HDMI_RSTDR			BIT(19)
#define PM_HDMI_LDOPD			BIT(1)
#define PM_HDMI_CTRLEN			BIT(0)

#define PM_USB				0x5c
/* The power gates must be enabled with this bit before enabling the LDO in the
 * USB block.
 */
#define PM_USB_CTRLEN			BIT(0)

#define PM_PXLDO			0x60
#define PM_PXBG				0x64
#define PM_DFT				0x68
#define PM_SMPS				0x6c
#define PM_XOSC				0x70
#define PM_SPAREW			0x74
#define PM_SPARER			0x78
#define PM_AVS_RSTDR			0x7c
#define PM_AVS_STAT			0x80
#define PM_AVS_EVENT			0x84
#define PM_AVS_INTEN			0x88
#define PM_DUMMY			0xfc

#define PM_IMAGE			0x108
#define PM_GRAFX			0x10c
#define PM_PROC				0x110
#define PM_ENAB				BIT(12)
#define PM_ISPRSTN			BIT(8)
#define PM_H264RSTN			BIT(7)
#define PM_PERIRSTN			BIT(6)
#define PM_V3DRSTN			BIT(6)
#define PM_ISFUNC			BIT(5)
#define PM_MRDONE			BIT(4)
#define PM_MEMREP			BIT(3)
#define PM_ISPOW			BIT(2)
#define PM_POWOK			BIT(1)
#define PM_POWUP			BIT(0)
#define PM_INRUSH_SHIFT			13
#define PM_INRUSH_3_5_MA		0
#define PM_INRUSH_5_MA			1
#define PM_INRUSH_10_MA			2
#define PM_INRUSH_20_MA			3
#define PM_INRUSH_MASK			(3 << PM_INRUSH_SHIFT)

#define PM_PASSWORD			0x5a000000

#define PM_WDOG_TIME_SET		0x000fffff
#define PM_RSTC_WRCFG_CLR		0xffffffcf
#define PM_RSTS_HADWRH_SET		0x00000040
#define PM_RSTC_WRCFG_SET		0x00000030
#define PM_RSTC_WRCFG_FULL_RESET	0x00000020
#define PM_RSTC_RESET			0x00000102

#define PM_READ(reg) readl(power->base + (reg))
#define PM_WRITE(reg, val) writel(PM_PASSWORD | (val), power->base + (reg))

#define ASB_BRDG_VERSION                0x00
#define ASB_CPR_CTRL                    0x04

#define ASB_V3D_S_CTRL			0x08
#define ASB_V3D_M_CTRL			0x0c
#define ASB_ISP_S_CTRL			0x10
#define ASB_ISP_M_CTRL			0x14
#define ASB_H264_S_CTRL			0x18
#define ASB_H264_M_CTRL			0x1c

#define ASB_REQ_STOP                    BIT(0)
#define ASB_ACK                         BIT(1)
#define ASB_EMPTY                       BIT(2)
#define ASB_FULL                        BIT(3)

#define ASB_AXI_BRDG_ID			0x20

#define ASB_READ(reg) readl(power->asb + (reg))
#define ASB_WRITE(reg, val) writel(PM_PASSWORD | (val), power->asb + (reg))

struct bcm2835_power_domain {
	struct generic_pm_domain base;
	struct bcm2835_power *power;
	u32 domain;
	struct clk *clk;
};

struct bcm2835_power {
	struct device		*dev;
	/* PM registers. */
	void __iomem		*base;
	/* AXI Async bridge registers. */
	void __iomem		*asb;

	struct genpd_onecell_data pd_xlate;
	struct bcm2835_power_domain domains[BCM2835_POWER_DOMAIN_COUNT];
	struct reset_controller_dev reset;
};

static int bcm2835_asb_enable(struct bcm2835_power *power, u32 reg)
{
	u64 start;

	if (!reg)
		return 0;

	start = ktime_get_ns();

	/* Enable the module's async AXI bridges. */
	ASB_WRITE(reg, ASB_READ(reg) & ~ASB_REQ_STOP);
	while (ASB_READ(reg) & ASB_ACK) {
		cpu_relax();
		if (ktime_get_ns() - start >= 1000)
			return -ETIMEDOUT;
	}

	return 0;
}

static int bcm2835_asb_disable(struct bcm2835_power *power, u32 reg)
{
	u64 start;

	if (!reg)
		return 0;

	start = ktime_get_ns();

	/* Enable the module's async AXI bridges. */
	ASB_WRITE(reg, ASB_READ(reg) | ASB_REQ_STOP);
	while (!(ASB_READ(reg) & ASB_ACK)) {
		cpu_relax();
		if (ktime_get_ns() - start >= 1000)
			return -ETIMEDOUT;
	}

	return 0;
}

static int bcm2835_power_power_off(struct bcm2835_power_domain *pd, u32 pm_reg)
{
	struct bcm2835_power *power = pd->power;

	/* Enable functional isolation */
	PM_WRITE(pm_reg, PM_READ(pm_reg) & ~PM_ISFUNC);

	/* Enable electrical isolation */
	PM_WRITE(pm_reg, PM_READ(pm_reg) & ~PM_ISPOW);

	/* Open the power switches. */
	PM_WRITE(pm_reg, PM_READ(pm_reg) & ~PM_POWUP);

	return 0;
}

static int bcm2835_power_power_on(struct bcm2835_power_domain *pd, u32 pm_reg)
{
	struct bcm2835_power *power = pd->power;
	struct device *dev = power->dev;
	u64 start;
	int ret;
	int inrush;
	bool powok;

	/* If it was already powered on by the fw, leave it that way. */
	if (PM_READ(pm_reg) & PM_POWUP)
		return 0;

	/* Enable power.  Allowing too much current at once may result
	 * in POWOK never getting set, so start low and ramp it up as
	 * necessary to succeed.
	 */
	powok = false;
	for (inrush = PM_INRUSH_3_5_MA; inrush <= PM_INRUSH_20_MA; inrush++) {
		PM_WRITE(pm_reg,
			 (PM_READ(pm_reg) & ~PM_INRUSH_MASK) |
			 (inrush << PM_INRUSH_SHIFT) |
			 PM_POWUP);

		start = ktime_get_ns();
		while (!(powok = !!(PM_READ(pm_reg) & PM_POWOK))) {
			cpu_relax();
			if (ktime_get_ns() - start >= 3000)
				break;
		}
	}
	if (!powok) {
		dev_err(dev, "Timeout waiting for %s power OK\n",
			pd->base.name);
		ret = -ETIMEDOUT;
		goto err_disable_powup;
	}

	/* Disable electrical isolation */
	PM_WRITE(pm_reg, PM_READ(pm_reg) | PM_ISPOW);

	/* Repair memory */
	PM_WRITE(pm_reg, PM_READ(pm_reg) | PM_MEMREP);
	start = ktime_get_ns();
	while (!(PM_READ(pm_reg) & PM_MRDONE)) {
		cpu_relax();
		if (ktime_get_ns() - start >= 1000) {
			dev_err(dev, "Timeout waiting for %s memory repair\n",
				pd->base.name);
			ret = -ETIMEDOUT;
			goto err_disable_ispow;
		}
	}

	/* Disable functional isolation */
	PM_WRITE(pm_reg, PM_READ(pm_reg) | PM_ISFUNC);

	return 0;

err_disable_ispow:
	PM_WRITE(pm_reg, PM_READ(pm_reg) & ~PM_ISPOW);
err_disable_powup:
	PM_WRITE(pm_reg, PM_READ(pm_reg) & ~(PM_POWUP | PM_INRUSH_MASK));
	return ret;
}

static int bcm2835_asb_power_on(struct bcm2835_power_domain *pd,
				u32 pm_reg,
				u32 asb_m_reg,
				u32 asb_s_reg,
				u32 reset_flags)
{
	struct bcm2835_power *power = pd->power;
	int ret;

	ret = clk_prepare_enable(pd->clk);
	if (ret) {
		dev_err(power->dev, "Failed to enable clock for %s\n",
			pd->base.name);
		return ret;
	}

	/* Wait 32 clocks for reset to propagate, 1 us will be enough */
	udelay(1);

	clk_disable_unprepare(pd->clk);

	/* Deassert the resets. */
	PM_WRITE(pm_reg, PM_READ(pm_reg) | reset_flags);

	ret = clk_prepare_enable(pd->clk);
	if (ret) {
		dev_err(power->dev, "Failed to enable clock for %s\n",
			pd->base.name);
		goto err_enable_resets;
	}

	ret = bcm2835_asb_enable(power, asb_m_reg);
	if (ret) {
		dev_err(power->dev, "Failed to enable ASB master for %s\n",
			pd->base.name);
		goto err_disable_clk;
	}
	ret = bcm2835_asb_enable(power, asb_s_reg);
	if (ret) {
		dev_err(power->dev, "Failed to enable ASB slave for %s\n",
			pd->base.name);
		goto err_disable_asb_master;
	}

	return 0;

err_disable_asb_master:
	bcm2835_asb_disable(power, asb_m_reg);
err_disable_clk:
	clk_disable_unprepare(pd->clk);
err_enable_resets:
	PM_WRITE(pm_reg, PM_READ(pm_reg) & ~reset_flags);
	return ret;
}

static int bcm2835_asb_power_off(struct bcm2835_power_domain *pd,
				 u32 pm_reg,
				 u32 asb_m_reg,
				 u32 asb_s_reg,
				 u32 reset_flags)
{
	struct bcm2835_power *power = pd->power;
	int ret;

	ret = bcm2835_asb_disable(power, asb_s_reg);
	if (ret) {
		dev_warn(power->dev, "Failed to disable ASB slave for %s\n",
			 pd->base.name);
		return ret;
	}
	ret = bcm2835_asb_disable(power, asb_m_reg);
	if (ret) {
		dev_warn(power->dev, "Failed to disable ASB master for %s\n",
			 pd->base.name);
		bcm2835_asb_enable(power, asb_s_reg);
		return ret;
	}

	clk_disable_unprepare(pd->clk);

	/* Assert the resets. */
	PM_WRITE(pm_reg, PM_READ(pm_reg) & ~reset_flags);

	return 0;
}

static int bcm2835_power_pd_power_on(struct generic_pm_domain *domain)
{
	struct bcm2835_power_domain *pd =
		container_of(domain, struct bcm2835_power_domain, base);
	struct bcm2835_power *power = pd->power;

	switch (pd->domain) {
	case BCM2835_POWER_DOMAIN_GRAFX:
		return bcm2835_power_power_on(pd, PM_GRAFX);

	case BCM2835_POWER_DOMAIN_GRAFX_V3D:
		return bcm2835_asb_power_on(pd, PM_GRAFX,
					    ASB_V3D_M_CTRL, ASB_V3D_S_CTRL,
					    PM_V3DRSTN);

	case BCM2835_POWER_DOMAIN_IMAGE:
		return bcm2835_power_power_on(pd, PM_IMAGE);

	case BCM2835_POWER_DOMAIN_IMAGE_PERI:
		return bcm2835_asb_power_on(pd, PM_IMAGE,
					    0, 0,
					    PM_PERIRSTN);

	case BCM2835_POWER_DOMAIN_IMAGE_ISP:
		return bcm2835_asb_power_on(pd, PM_IMAGE,
					    ASB_ISP_M_CTRL, ASB_ISP_S_CTRL,
					    PM_ISPRSTN);

	case BCM2835_POWER_DOMAIN_IMAGE_H264:
		return bcm2835_asb_power_on(pd, PM_IMAGE,
					    ASB_H264_M_CTRL, ASB_H264_S_CTRL,
					    PM_H264RSTN);

	case BCM2835_POWER_DOMAIN_USB:
		PM_WRITE(PM_USB, PM_USB_CTRLEN);
		return 0;

	case BCM2835_POWER_DOMAIN_DSI0:
		PM_WRITE(PM_DSI0, PM_DSI0_CTRLEN);
		PM_WRITE(PM_DSI0, PM_DSI0_CTRLEN | PM_DSI0_LDOHPEN);
		return 0;

	case BCM2835_POWER_DOMAIN_DSI1:
		PM_WRITE(PM_DSI1, PM_DSI1_CTRLEN);
		PM_WRITE(PM_DSI1, PM_DSI1_CTRLEN | PM_DSI1_LDOHPEN);
		return 0;

	case BCM2835_POWER_DOMAIN_CCP2TX:
		PM_WRITE(PM_CCP2TX, PM_CCP2TX_CTRLEN);
		PM_WRITE(PM_CCP2TX, PM_CCP2TX_CTRLEN | PM_CCP2TX_LDOEN);
		return 0;

	case BCM2835_POWER_DOMAIN_HDMI:
		PM_WRITE(PM_HDMI, PM_READ(PM_HDMI) | PM_HDMI_RSTDR);
		PM_WRITE(PM_HDMI, PM_READ(PM_HDMI) | PM_HDMI_CTRLEN);
		PM_WRITE(PM_HDMI, PM_READ(PM_HDMI) & ~PM_HDMI_LDOPD);
		usleep_range(100, 200);
		PM_WRITE(PM_HDMI, PM_READ(PM_HDMI) & ~PM_HDMI_RSTDR);
		return 0;

	default:
		dev_err(power->dev, "Invalid domain %d\n", pd->domain);
		return -EINVAL;
	}
}

static int bcm2835_power_pd_power_off(struct generic_pm_domain *domain)
{
	struct bcm2835_power_domain *pd =
		container_of(domain, struct bcm2835_power_domain, base);
	struct bcm2835_power *power = pd->power;

	switch (pd->domain) {
	case BCM2835_POWER_DOMAIN_GRAFX:
		return bcm2835_power_power_off(pd, PM_GRAFX);

	case BCM2835_POWER_DOMAIN_GRAFX_V3D:
		return bcm2835_asb_power_off(pd, PM_GRAFX,
					     ASB_V3D_M_CTRL, ASB_V3D_S_CTRL,
					     PM_V3DRSTN);

	case BCM2835_POWER_DOMAIN_IMAGE:
		return bcm2835_power_power_off(pd, PM_IMAGE);

	case BCM2835_POWER_DOMAIN_IMAGE_PERI:
		return bcm2835_asb_power_off(pd, PM_IMAGE,
					     0, 0,
					     PM_PERIRSTN);

	case BCM2835_POWER_DOMAIN_IMAGE_ISP:
		return bcm2835_asb_power_off(pd, PM_IMAGE,
					     ASB_ISP_M_CTRL, ASB_ISP_S_CTRL,
					     PM_ISPRSTN);

	case BCM2835_POWER_DOMAIN_IMAGE_H264:
		return bcm2835_asb_power_off(pd, PM_IMAGE,
					     ASB_H264_M_CTRL, ASB_H264_S_CTRL,
					     PM_H264RSTN);

	case BCM2835_POWER_DOMAIN_USB:
		PM_WRITE(PM_USB, 0);
		return 0;

	case BCM2835_POWER_DOMAIN_DSI0:
		PM_WRITE(PM_DSI0, PM_DSI0_CTRLEN);
		PM_WRITE(PM_DSI0, 0);
		return 0;

	case BCM2835_POWER_DOMAIN_DSI1:
		PM_WRITE(PM_DSI1, PM_DSI1_CTRLEN);
		PM_WRITE(PM_DSI1, 0);
		return 0;

	case BCM2835_POWER_DOMAIN_CCP2TX:
		PM_WRITE(PM_CCP2TX, PM_CCP2TX_CTRLEN);
		PM_WRITE(PM_CCP2TX, 0);
		return 0;

	case BCM2835_POWER_DOMAIN_HDMI:
		PM_WRITE(PM_HDMI, PM_READ(PM_HDMI) | PM_HDMI_LDOPD);
		PM_WRITE(PM_HDMI, PM_READ(PM_HDMI) & ~PM_HDMI_CTRLEN);
		return 0;

	default:
		dev_err(power->dev, "Invalid domain %d\n", pd->domain);
		return -EINVAL;
	}
}

static int
bcm2835_init_power_domain(struct bcm2835_power *power,
			  int pd_xlate_index, const char *name)
{
	struct device *dev = power->dev;
	struct bcm2835_power_domain *dom = &power->domains[pd_xlate_index];

	dom->clk = devm_clk_get(dev->parent, name);
	if (IS_ERR(dom->clk)) {
		int ret = PTR_ERR(dom->clk);

		if (ret == -EPROBE_DEFER)
			return ret;

		/* Some domains don't have a clk, so make sure that we
		 * don't deref an error pointer later.
		 */
		dom->clk = NULL;
	}

	dom->base.name = name;
	dom->base.power_on = bcm2835_power_pd_power_on;
	dom->base.power_off = bcm2835_power_pd_power_off;

	dom->domain = pd_xlate_index;
	dom->power = power;

	/* XXX: on/off at boot? */
	pm_genpd_init(&dom->base, NULL, true);

	power->pd_xlate.domains[pd_xlate_index] = &dom->base;

	return 0;
}

/** bcm2835_reset_reset - Resets a block that has a reset line in the
 * PM block.
 *
 * The consumer of the reset controller must have the power domain up
 * -- there's no reset ability with the power domain down.  To reset
 * the sub-block, we just disable its access to memory through the
 * ASB, reset, and re-enable.
 */
static int bcm2835_reset_reset(struct reset_controller_dev *rcdev,
			       unsigned long id)
{
	struct bcm2835_power *power = container_of(rcdev, struct bcm2835_power,
						   reset);
	struct bcm2835_power_domain *pd;
	int ret;

	switch (id) {
	case BCM2835_RESET_V3D:
		pd = &power->domains[BCM2835_POWER_DOMAIN_GRAFX_V3D];
		break;
	case BCM2835_RESET_H264:
		pd = &power->domains[BCM2835_POWER_DOMAIN_IMAGE_H264];
		break;
	case BCM2835_RESET_ISP:
		pd = &power->domains[BCM2835_POWER_DOMAIN_IMAGE_ISP];
		break;
	default:
		dev_err(power->dev, "Bad reset id %ld\n", id);
		return -EINVAL;
	}

	ret = bcm2835_power_pd_power_off(&pd->base);
	if (ret)
		return ret;

	return bcm2835_power_pd_power_on(&pd->base);
}

static int bcm2835_reset_status(struct reset_controller_dev *rcdev,
				unsigned long id)
{
	struct bcm2835_power *power = container_of(rcdev, struct bcm2835_power,
						   reset);

	switch (id) {
	case BCM2835_RESET_V3D:
		return !PM_READ(PM_GRAFX & PM_V3DRSTN);
	case BCM2835_RESET_H264:
		return !PM_READ(PM_IMAGE & PM_H264RSTN);
	case BCM2835_RESET_ISP:
		return !PM_READ(PM_IMAGE & PM_ISPRSTN);
	default:
		return -EINVAL;
	}
}

static const struct reset_control_ops bcm2835_reset_ops = {
	.reset = bcm2835_reset_reset,
	.status = bcm2835_reset_status,
};

static const char *const power_domain_names[] = {
	[BCM2835_POWER_DOMAIN_GRAFX] = "grafx",
	[BCM2835_POWER_DOMAIN_GRAFX_V3D] = "v3d",

	[BCM2835_POWER_DOMAIN_IMAGE] = "image",
	[BCM2835_POWER_DOMAIN_IMAGE_PERI] = "peri_image",
	[BCM2835_POWER_DOMAIN_IMAGE_H264] = "h264",
	[BCM2835_POWER_DOMAIN_IMAGE_ISP] = "isp",

	[BCM2835_POWER_DOMAIN_USB] = "usb",
	[BCM2835_POWER_DOMAIN_DSI0] = "dsi0",
	[BCM2835_POWER_DOMAIN_DSI1] = "dsi1",
	[BCM2835_POWER_DOMAIN_CAM0] = "cam0",
	[BCM2835_POWER_DOMAIN_CAM1] = "cam1",
	[BCM2835_POWER_DOMAIN_CCP2TX] = "ccp2tx",
	[BCM2835_POWER_DOMAIN_HDMI] = "hdmi",
};

static int bcm2835_power_probe(struct platform_device *pdev)
{
	struct bcm2835_pm *pm = dev_get_drvdata(pdev->dev.parent);
	struct device *dev = &pdev->dev;
	struct bcm2835_power *power;
	static const struct {
		int parent, child;
	} domain_deps[] = {
		{ BCM2835_POWER_DOMAIN_GRAFX, BCM2835_POWER_DOMAIN_GRAFX_V3D },
		{ BCM2835_POWER_DOMAIN_IMAGE, BCM2835_POWER_DOMAIN_IMAGE_PERI },
		{ BCM2835_POWER_DOMAIN_IMAGE, BCM2835_POWER_DOMAIN_IMAGE_H264 },
		{ BCM2835_POWER_DOMAIN_IMAGE, BCM2835_POWER_DOMAIN_IMAGE_ISP },
		{ BCM2835_POWER_DOMAIN_IMAGE_PERI, BCM2835_POWER_DOMAIN_USB },
		{ BCM2835_POWER_DOMAIN_IMAGE_PERI, BCM2835_POWER_DOMAIN_CAM0 },
		{ BCM2835_POWER_DOMAIN_IMAGE_PERI, BCM2835_POWER_DOMAIN_CAM1 },
	};
	int ret = 0, i;
	u32 id;

	power = devm_kzalloc(dev, sizeof(*power), GFP_KERNEL);
	if (!power)
		return -ENOMEM;
	platform_set_drvdata(pdev, power);

	power->dev = dev;
	power->base = pm->base;
	power->asb = pm->asb;

	id = ASB_READ(ASB_AXI_BRDG_ID);
	if (id != 0x62726467 /* "BRDG" */) {
		dev_err(dev, "ASB register ID returned 0x%08x\n", id);
		return -ENODEV;
	}

	power->pd_xlate.domains = devm_kcalloc(dev,
					       ARRAY_SIZE(power_domain_names),
					       sizeof(*power->pd_xlate.domains),
					       GFP_KERNEL);
	if (!power->pd_xlate.domains)
		return -ENOMEM;

	power->pd_xlate.num_domains = ARRAY_SIZE(power_domain_names);

	for (i = 0; i < ARRAY_SIZE(power_domain_names); i++) {
		ret = bcm2835_init_power_domain(power, i, power_domain_names[i]);
		if (ret)
			goto fail;
	}

	for (i = 0; i < ARRAY_SIZE(domain_deps); i++) {
		pm_genpd_add_subdomain(&power->domains[domain_deps[i].parent].base,
				       &power->domains[domain_deps[i].child].base);
	}

	power->reset.owner = THIS_MODULE;
	power->reset.nr_resets = BCM2835_RESET_COUNT;
	power->reset.ops = &bcm2835_reset_ops;
	power->reset.of_node = dev->parent->of_node;

	ret = devm_reset_controller_register(dev, &power->reset);
	if (ret)
		goto fail;

	of_genpd_add_provider_onecell(dev->parent->of_node, &power->pd_xlate);

	dev_info(dev, "Broadcom BCM2835 power domains driver");
	return 0;

fail:
	for (i = 0; i < ARRAY_SIZE(power_domain_names); i++) {
		struct generic_pm_domain *dom = &power->domains[i].base;

		if (dom->name)
			pm_genpd_remove(dom);
	}
	return ret;
}

static int bcm2835_power_remove(struct platform_device *pdev)
{
	return 0;
}

static struct platform_driver bcm2835_power_driver = {
	.probe		= bcm2835_power_probe,
	.remove		= bcm2835_power_remove,
	.driver = {
		.name =	"bcm2835-power",
	},
};
module_platform_driver(bcm2835_power_driver);

MODULE_AUTHOR("Eric Anholt <eric@anholt.net>");
MODULE_DESCRIPTION("Driver for Broadcom BCM2835 PM power domains and reset");
MODULE_LICENSE("GPL");
Commit	Line	Data
670c6726 EA	1	// SPDX-License-Identifier: GPL-2.0+
	2	/*
	3	* Power domain driver for Broadcom BCM2835
	4	*
	5	* Copyright (C) 2018 Broadcom
	6	*/
	7
	8	#include <dt-bindings/soc/bcm2835-pm.h>
	9	#include <linux/clk.h>
	10	#include <linux/delay.h>
	11	#include <linux/io.h>
	12	#include <linux/mfd/bcm2835-pm.h>
	13	#include <linux/module.h>
	14	#include <linux/platform_device.h>
	15	#include <linux/pm_domain.h>
	16	#include <linux/reset-controller.h>
	17	#include <linux/types.h>
	18
	19	#define PM_GNRIC 0x00
	20	#define PM_AUDIO 0x04
	21	#define PM_STATUS 0x18
	22	#define PM_RSTC 0x1c
	23	#define PM_RSTS 0x20
	24	#define PM_WDOG 0x24
	25	#define PM_PADS0 0x28
	26	#define PM_PADS2 0x2c
	27	#define PM_PADS3 0x30
	28	#define PM_PADS4 0x34
	29	#define PM_PADS5 0x38
	30	#define PM_PADS6 0x3c
	31	#define PM_CAM0 0x44
	32	#define PM_CAM0_LDOHPEN BIT(2)
	33	#define PM_CAM0_LDOLPEN BIT(1)
	34	#define PM_CAM0_CTRLEN BIT(0)
	35
	36	#define PM_CAM1 0x48
	37	#define PM_CAM1_LDOHPEN BIT(2)
	38	#define PM_CAM1_LDOLPEN BIT(1)
	39	#define PM_CAM1_CTRLEN BIT(0)
	40
	41	#define PM_CCP2TX 0x4c
	42	#define PM_CCP2TX_LDOEN BIT(1)
	43	#define PM_CCP2TX_CTRLEN BIT(0)
	44
	45	#define PM_DSI0 0x50
	46	#define PM_DSI0_LDOHPEN BIT(2)
	47	#define PM_DSI0_LDOLPEN BIT(1)
	48	#define PM_DSI0_CTRLEN BIT(0)
	49
	50	#define PM_DSI1 0x54
	51	#define PM_DSI1_LDOHPEN BIT(2)
	52	#define PM_DSI1_LDOLPEN BIT(1)
	53	#define PM_DSI1_CTRLEN BIT(0)
	54
	55	#define PM_HDMI 0x58
	56	#define PM_HDMI_RSTDR BIT(19)
	57	#define PM_HDMI_LDOPD BIT(1)
	58	#define PM_HDMI_CTRLEN BIT(0)
	59
	60	#define PM_USB 0x5c
	61	/* The power gates must be enabled with this bit before enabling the LDO in the
	62	* USB block.
	63	*/
	64	#define PM_USB_CTRLEN BIT(0)
65
66	#define PM_PXLDO 0x60
67	#define PM_PXBG 0x64
68	#define PM_DFT 0x68
69	#define PM_SMPS 0x6c
70	#define PM_XOSC 0x70
71	#define PM_SPAREW 0x74
72	#define PM_SPARER 0x78
73	#define PM_AVS_RSTDR 0x7c
74	#define PM_AVS_STAT 0x80
75	#define PM_AVS_EVENT 0x84
76	#define PM_AVS_INTEN 0x88
77	#define PM_DUMMY 0xfc
78
79	#define PM_IMAGE 0x108
80	#define PM_GRAFX 0x10c
81	#define PM_PROC 0x110
82	#define PM_ENAB BIT(12)
83	#define PM_ISPRSTN BIT(8)
84	#define PM_H264RSTN BIT(7)
85	#define PM_PERIRSTN BIT(6)
86	#define PM_V3DRSTN BIT(6)
87	#define PM_ISFUNC BIT(5)
88	#define PM_MRDONE BIT(4)
89	#define PM_MEMREP BIT(3)
90	#define PM_ISPOW BIT(2)
91	#define PM_POWOK BIT(1)
92	#define PM_POWUP BIT(0)
93	#define PM_INRUSH_SHIFT 13
94	#define PM_INRUSH_3_5_MA 0
95	#define PM_INRUSH_5_MA 1
96	#define PM_INRUSH_10_MA 2
97	#define PM_INRUSH_20_MA 3
98	#define PM_INRUSH_MASK (3 << PM_INRUSH_SHIFT)
99
100	#define PM_PASSWORD 0x5a000000
101
102	#define PM_WDOG_TIME_SET 0x000fffff
103	#define PM_RSTC_WRCFG_CLR 0xffffffcf
104	#define PM_RSTS_HADWRH_SET 0x00000040
105	#define PM_RSTC_WRCFG_SET 0x00000030
106	#define PM_RSTC_WRCFG_FULL_RESET 0x00000020
107	#define PM_RSTC_RESET 0x00000102
108
109	#define PM_READ(reg) readl(power->base + (reg))
110	#define PM_WRITE(reg, val) writel(PM_PASSWORD \| (val), power->base + (reg))
111
112	#define ASB_BRDG_VERSION 0x00
113	#define ASB_CPR_CTRL 0x04
114
115	#define ASB_V3D_S_CTRL 0x08
116	#define ASB_V3D_M_CTRL 0x0c
117	#define ASB_ISP_S_CTRL 0x10
118	#define ASB_ISP_M_CTRL 0x14
119	#define ASB_H264_S_CTRL 0x18
120	#define ASB_H264_M_CTRL 0x1c
121
122	#define ASB_REQ_STOP BIT(0)
123	#define ASB_ACK BIT(1)
124	#define ASB_EMPTY BIT(2)
125	#define ASB_FULL BIT(3)
126
127	#define ASB_AXI_BRDG_ID 0x20
128
129	#define ASB_READ(reg) readl(power->asb + (reg))
130	#define ASB_WRITE(reg, val) writel(PM_PASSWORD \| (val), power->asb + (reg))
131
132	struct bcm2835_power_domain {
133	struct generic_pm_domain base;
134	struct bcm2835_power *power;
135	u32 domain;
136	struct clk *clk;
137	};
138
139	struct bcm2835_power {
140	struct device *dev;
141	/* PM registers. */
142	void __iomem *base;
143	/* AXI Async bridge registers. */
144	void __iomem *asb;
145
146	struct genpd_onecell_data pd_xlate;
147	struct bcm2835_power_domain domains[BCM2835_POWER_DOMAIN_COUNT];
148	struct reset_controller_dev reset;
149	};
150
151	static int bcm2835_asb_enable(struct bcm2835_power *power, u32 reg)
152	{
7f3d6c8e EA	153	u64 start;
	154
	155	if (!reg)
	156	return 0;
	157
	158	start = ktime_get_ns();
670c6726 EA	159
	160	/* Enable the module's async AXI bridges. */
	161	ASB_WRITE(reg, ASB_READ(reg) & ~ASB_REQ_STOP);
	162	while (ASB_READ(reg) & ASB_ACK) {
	163	cpu_relax();
	164	if (ktime_get_ns() - start >= 1000)
	165	return -ETIMEDOUT;
	166	}
	167
	168	return 0;
	169	}
	170
	171	static int bcm2835_asb_disable(struct bcm2835_power *power, u32 reg)
	172	{
7f3d6c8e EA	173	u64 start;
	174
	175	if (!reg)
	176	return 0;
	177
	178	start = ktime_get_ns();
670c6726 EA	179
	180	/* Enable the module's async AXI bridges. */
	181	ASB_WRITE(reg, ASB_READ(reg) \| ASB_REQ_STOP);
	182	while (!(ASB_READ(reg) & ASB_ACK)) {
	183	cpu_relax();
	184	if (ktime_get_ns() - start >= 1000)
	185	return -ETIMEDOUT;
	186	}
	187
	188	return 0;
	189	}
	190
	191	static int bcm2835_power_power_off(struct bcm2835_power_domain *pd, u32 pm_reg)
	192	{
	193	struct bcm2835_power *power = pd->power;
	194
	195	/* Enable functional isolation */
	196	PM_WRITE(pm_reg, PM_READ(pm_reg) & ~PM_ISFUNC);
	197
	198	/* Enable electrical isolation */
	199	PM_WRITE(pm_reg, PM_READ(pm_reg) & ~PM_ISPOW);
	200
	201	/* Open the power switches. */
	202	PM_WRITE(pm_reg, PM_READ(pm_reg) & ~PM_POWUP);
	203
	204	return 0;
	205	}
	206
	207	static int bcm2835_power_power_on(struct bcm2835_power_domain *pd, u32 pm_reg)
	208	{
	209	struct bcm2835_power *power = pd->power;
	210	struct device *dev = power->dev;
	211	u64 start;
	212	int ret;
	213	int inrush;
	214	bool powok;
	215
	216	/* If it was already powered on by the fw, leave it that way. */
	217	if (PM_READ(pm_reg) & PM_POWUP)
	218	return 0;
	219
	220	/* Enable power. Allowing too much current at once may result
	221	* in POWOK never getting set, so start low and ramp it up as
	222	* necessary to succeed.
	223	*/
	224	powok = false;
	225	for (inrush = PM_INRUSH_3_5_MA; inrush <= PM_INRUSH_20_MA; inrush++) {
	226	PM_WRITE(pm_reg,
	227	(PM_READ(pm_reg) & ~PM_INRUSH_MASK) \|
	228	(inrush << PM_INRUSH_SHIFT) \|
	229	PM_POWUP);
	230
	231	start = ktime_get_ns();
	232	while (!(powok = !!(PM_READ(pm_reg) & PM_POWOK))) {
	233	cpu_relax();
	234	if (ktime_get_ns() - start >= 3000)
	235	break;
	236	}
	237	}
	238	if (!powok) {
	239	dev_err(dev, "Timeout waiting for %s power OK\n",
	240	pd->base.name);
	241	ret = -ETIMEDOUT;
	242	goto err_disable_powup;
243	}
244
245	/* Disable electrical isolation */
246	PM_WRITE(pm_reg, PM_READ(pm_reg) \| PM_ISPOW);
247
248	/* Repair memory */
249	PM_WRITE(pm_reg, PM_READ(pm_reg) \| PM_MEMREP);
250	start = ktime_get_ns();
251	while (!(PM_READ(pm_reg) & PM_MRDONE)) {
252	cpu_relax();
253	if (ktime_get_ns() - start >= 1000) {
254	dev_err(dev, "Timeout waiting for %s memory repair\n",
255	pd->base.name);
256	ret = -ETIMEDOUT;
257	goto err_disable_ispow;
258	}
259	}
260
261	/* Disable functional isolation */
262	PM_WRITE(pm_reg, PM_READ(pm_reg) \| PM_ISFUNC);
263
264	return 0;
265
266	err_disable_ispow:
267	PM_WRITE(pm_reg, PM_READ(pm_reg) & ~PM_ISPOW);
268	err_disable_powup:
269	PM_WRITE(pm_reg, PM_READ(pm_reg) & ~(PM_POWUP \| PM_INRUSH_MASK));
270	return ret;
271	}
272
273	static int bcm2835_asb_power_on(struct bcm2835_power_domain *pd,
274	u32 pm_reg,
275	u32 asb_m_reg,
276	u32 asb_s_reg,
277	u32 reset_flags)
278	{
279	struct bcm2835_power *power = pd->power;
280	int ret;
281
282	ret = clk_prepare_enable(pd->clk);
283	if (ret) {
284	dev_err(power->dev, "Failed to enable clock for %s\n",
285	pd->base.name);
286	return ret;
287	}
288
289	/* Wait 32 clocks for reset to propagate, 1 us will be enough */
290	udelay(1);
291
292	clk_disable_unprepare(pd->clk);
293
294	/* Deassert the resets. */
295	PM_WRITE(pm_reg, PM_READ(pm_reg) \| reset_flags);
296
297	ret = clk_prepare_enable(pd->clk);
298	if (ret) {
299	dev_err(power->dev, "Failed to enable clock for %s\n",
300	pd->base.name);
301	goto err_enable_resets;
302	}
303
304	ret = bcm2835_asb_enable(power, asb_m_reg);
305	if (ret) {
306	dev_err(power->dev, "Failed to enable ASB master for %s\n",
307	pd->base.name);
308	goto err_disable_clk;
309	}
310	ret = bcm2835_asb_enable(power, asb_s_reg);
311	if (ret) {
312	dev_err(power->dev, "Failed to enable ASB slave for %s\n",
313	pd->base.name);
314	goto err_disable_asb_master;
315	}
316
317	return 0;
318
319	err_disable_asb_master:
320	bcm2835_asb_disable(power, asb_m_reg);
321	err_disable_clk:
322	clk_disable_unprepare(pd->clk);
323	err_enable_resets:
324	PM_WRITE(pm_reg, PM_READ(pm_reg) & ~reset_flags);
325	return ret;
326	}
327
328	static int bcm2835_asb_power_off(struct bcm2835_power_domain *pd,
329	u32 pm_reg,
330	u32 asb_m_reg,
331	u32 asb_s_reg,
332	u32 reset_flags)
333	{
334	struct bcm2835_power *power = pd->power;
335	int ret;
336
337	ret = bcm2835_asb_disable(power, asb_s_reg);
338	if (ret) {
339	dev_warn(power->dev, "Failed to disable ASB slave for %s\n",
340	pd->base.name);
341	return ret;
342	}
343	ret = bcm2835_asb_disable(power, asb_m_reg);
344	if (ret) {
345	dev_warn(power->dev, "Failed to disable ASB master for %s\n",
346	pd->base.name);
347	bcm2835_asb_enable(power, asb_s_reg);
348	return ret;
349	}
350
351	clk_disable_unprepare(pd->clk);
352
353	/* Assert the resets. */
354	PM_WRITE(pm_reg, PM_READ(pm_reg) & ~reset_flags);
355
356	return 0;
357	}
358
359	static int bcm2835_power_pd_power_on(struct generic_pm_domain *domain)
360	{
361	struct bcm2835_power_domain *pd =
362	container_of(domain, struct bcm2835_power_domain, base);
363	struct bcm2835_power *power = pd->power;
364
365	switch (pd->domain) {
366	case BCM2835_POWER_DOMAIN_GRAFX:
367	return bcm2835_power_power_on(pd, PM_GRAFX);
368
369	case BCM2835_POWER_DOMAIN_GRAFX_V3D:
370	return bcm2835_asb_power_on(pd, PM_GRAFX,
371	ASB_V3D_M_CTRL, ASB_V3D_S_CTRL,
372	PM_V3DRSTN);
373
374	case BCM2835_POWER_DOMAIN_IMAGE:
375	return bcm2835_power_power_on(pd, PM_IMAGE);
376
377	case BCM2835_POWER_DOMAIN_IMAGE_PERI:
378	return bcm2835_asb_power_on(pd, PM_IMAGE,
379	0, 0,
380	PM_PERIRSTN);
381
382	case BCM2835_POWER_DOMAIN_IMAGE_ISP:
383	return bcm2835_asb_power_on(pd, PM_IMAGE,
384	ASB_ISP_M_CTRL, ASB_ISP_S_CTRL,
385	PM_ISPRSTN);
386
387	case BCM2835_POWER_DOMAIN_IMAGE_H264:
388	return bcm2835_asb_power_on(pd, PM_IMAGE,
389	ASB_H264_M_CTRL, ASB_H264_S_CTRL,
390	PM_H264RSTN);
391
392	case BCM2835_POWER_DOMAIN_USB:
393	PM_WRITE(PM_USB, PM_USB_CTRLEN);
394	return 0;
395
396	case BCM2835_POWER_DOMAIN_DSI0:
397	PM_WRITE(PM_DSI0, PM_DSI0_CTRLEN);
398	PM_WRITE(PM_DSI0, PM_DSI0_CTRLEN \| PM_DSI0_LDOHPEN);
399	return 0;
400
401	case BCM2835_POWER_DOMAIN_DSI1:
402	PM_WRITE(PM_DSI1, PM_DSI1_CTRLEN);
403	PM_WRITE(PM_DSI1, PM_DSI1_CTRLEN \| PM_DSI1_LDOHPEN);
404	return 0;
405
406	case BCM2835_POWER_DOMAIN_CCP2TX:
407	PM_WRITE(PM_CCP2TX, PM_CCP2TX_CTRLEN);
408	PM_WRITE(PM_CCP2TX, PM_CCP2TX_CTRLEN \| PM_CCP2TX_LDOEN);
409	return 0;
410
411	case BCM2835_POWER_DOMAIN_HDMI:
412	PM_WRITE(PM_HDMI, PM_READ(PM_HDMI) \| PM_HDMI_RSTDR);
413	PM_WRITE(PM_HDMI, PM_READ(PM_HDMI) \| PM_HDMI_CTRLEN);
414	PM_WRITE(PM_HDMI, PM_READ(PM_HDMI) & ~PM_HDMI_LDOPD);
415	usleep_range(100, 200);
416	PM_WRITE(PM_HDMI, PM_READ(PM_HDMI) & ~PM_HDMI_RSTDR);
417	return 0;
418
419	default:
420	dev_err(power->dev, "Invalid domain %d\n", pd->domain);
421	return -EINVAL;
422	}
423	}
424
425	static int bcm2835_power_pd_power_off(struct generic_pm_domain *domain)
426	{
427	struct bcm2835_power_domain *pd =
428	container_of(domain, struct bcm2835_power_domain, base);
429	struct bcm2835_power *power = pd->power;
430
431	switch (pd->domain) {
432	case BCM2835_POWER_DOMAIN_GRAFX:
433	return bcm2835_power_power_off(pd, PM_GRAFX);
434
435	case BCM2835_POWER_DOMAIN_GRAFX_V3D:
436	return bcm2835_asb_power_off(pd, PM_GRAFX,
437	ASB_V3D_M_CTRL, ASB_V3D_S_CTRL,
438	PM_V3DRSTN);
439
440	case BCM2835_POWER_DOMAIN_IMAGE:
441	return bcm2835_power_power_off(pd, PM_IMAGE);
442
443	case BCM2835_POWER_DOMAIN_IMAGE_PERI:
444	return bcm2835_asb_power_off(pd, PM_IMAGE,
445	0, 0,
446	PM_PERIRSTN);
447
448	case BCM2835_POWER_DOMAIN_IMAGE_ISP:
449	return bcm2835_asb_power_off(pd, PM_IMAGE,
450	ASB_ISP_M_CTRL, ASB_ISP_S_CTRL,
451	PM_ISPRSTN);
452
453	case BCM2835_POWER_DOMAIN_IMAGE_H264:
454	return bcm2835_asb_power_off(pd, PM_IMAGE,
455	ASB_H264_M_CTRL, ASB_H264_S_CTRL,
456	PM_H264RSTN);
457
458	case BCM2835_POWER_DOMAIN_USB:
459	PM_WRITE(PM_USB, 0);
460	return 0;
461
462	case BCM2835_POWER_DOMAIN_DSI0:
463	PM_WRITE(PM_DSI0, PM_DSI0_CTRLEN);
464	PM_WRITE(PM_DSI0, 0);
465	return 0;
466
467	case BCM2835_POWER_DOMAIN_DSI1:
468	PM_WRITE(PM_DSI1, PM_DSI1_CTRLEN);
469	PM_WRITE(PM_DSI1, 0);
470	return 0;
471
472	case BCM2835_POWER_DOMAIN_CCP2TX:
473	PM_WRITE(PM_CCP2TX, PM_CCP2TX_CTRLEN);
474	PM_WRITE(PM_CCP2TX, 0);
475	return 0;
476
477	case BCM2835_POWER_DOMAIN_HDMI:
478	PM_WRITE(PM_HDMI, PM_READ(PM_HDMI) \| PM_HDMI_LDOPD);
479	PM_WRITE(PM_HDMI, PM_READ(PM_HDMI) & ~PM_HDMI_CTRLEN);
480	return 0;
481
482	default:
483	dev_err(power->dev, "Invalid domain %d\n", pd->domain);
484	return -EINVAL;
485	}
486	}
487
4deabfae	488	static int
670c6726 EA	489	bcm2835_init_power_domain(struct bcm2835_power *power,
	490	int pd_xlate_index, const char *name)
	491	{
	492	struct device *dev = power->dev;
	493	struct bcm2835_power_domain *dom = &power->domains[pd_xlate_index];
	494
	495	dom->clk = devm_clk_get(dev->parent, name);
4deabfae EA	496	if (IS_ERR(dom->clk)) {
	497	int ret = PTR_ERR(dom->clk);
	498
	499	if (ret == -EPROBE_DEFER)
	500	return ret;
	501
	502	/* Some domains don't have a clk, so make sure that we
	503	* don't deref an error pointer later.
	504	*/
	505	dom->clk = NULL;
	506	}
670c6726 EA	507
	508	dom->base.name = name;
	509	dom->base.power_on = bcm2835_power_pd_power_on;
	510	dom->base.power_off = bcm2835_power_pd_power_off;
	511
	512	dom->domain = pd_xlate_index;
	513	dom->power = power;
	514
	515	/* XXX: on/off at boot? */
	516	pm_genpd_init(&dom->base, NULL, true);
	517
	518	power->pd_xlate.domains[pd_xlate_index] = &dom->base;
4deabfae EA	519
4deabfae EA	520	return 0;
670c6726 EA	521	}
	522
	523	/** bcm2835_reset_reset - Resets a block that has a reset line in the
	524	* PM block.
	525	*
	526	* The consumer of the reset controller must have the power domain up
	527	* -- there's no reset ability with the power domain down. To reset
	528	* the sub-block, we just disable its access to memory through the
	529	* ASB, reset, and re-enable.
	530	*/
	531	static int bcm2835_reset_reset(struct reset_controller_dev *rcdev,
	532	unsigned long id)
	533	{
	534	struct bcm2835_power *power = container_of(rcdev, struct bcm2835_power,
	535	reset);
	536	struct bcm2835_power_domain *pd;
	537	int ret;
	538
	539	switch (id) {
	540	case BCM2835_RESET_V3D:
	541	pd = &power->domains[BCM2835_POWER_DOMAIN_GRAFX_V3D];
	542	break;
	543	case BCM2835_RESET_H264:
	544	pd = &power->domains[BCM2835_POWER_DOMAIN_IMAGE_H264];
	545	break;
	546	case BCM2835_RESET_ISP:
	547	pd = &power->domains[BCM2835_POWER_DOMAIN_IMAGE_ISP];
	548	break;
	549	default:
	550	dev_err(power->dev, "Bad reset id %ld\n", id);
	551	return -EINVAL;
	552	}
	553
	554	ret = bcm2835_power_pd_power_off(&pd->base);
	555	if (ret)
	556	return ret;
	557
	558	return bcm2835_power_pd_power_on(&pd->base);
	559	}
	560
	561	static int bcm2835_reset_status(struct reset_controller_dev *rcdev,
	562	unsigned long id)
	563	{
	564	struct bcm2835_power *power = container_of(rcdev, struct bcm2835_power,
	565	reset);
	566
	567	switch (id) {
	568	case BCM2835_RESET_V3D:
	569	return !PM_READ(PM_GRAFX & PM_V3DRSTN);
	570	case BCM2835_RESET_H264:
	571	return !PM_READ(PM_IMAGE & PM_H264RSTN);
	572	case BCM2835_RESET_ISP:
	573	return !PM_READ(PM_IMAGE & PM_ISPRSTN);
	574	default:
	575	return -EINVAL;
	576	}
	577	}
	578
722f7610	579	static const struct reset_control_ops bcm2835_reset_ops = {
670c6726 EA	580	.reset = bcm2835_reset_reset,
	581	.status = bcm2835_reset_status,
	582	};
	583
	584	static const char *const power_domain_names[] = {
	585	[BCM2835_POWER_DOMAIN_GRAFX] = "grafx",
	586	[BCM2835_POWER_DOMAIN_GRAFX_V3D] = "v3d",
	587
	588	[BCM2835_POWER_DOMAIN_IMAGE] = "image",
	589	[BCM2835_POWER_DOMAIN_IMAGE_PERI] = "peri_image",
	590	[BCM2835_POWER_DOMAIN_IMAGE_H264] = "h264",
	591	[BCM2835_POWER_DOMAIN_IMAGE_ISP] = "isp",
	592
	593	[BCM2835_POWER_DOMAIN_USB] = "usb",
	594	[BCM2835_POWER_DOMAIN_DSI0] = "dsi0",
	595	[BCM2835_POWER_DOMAIN_DSI1] = "dsi1",
	596	[BCM2835_POWER_DOMAIN_CAM0] = "cam0",
	597	[BCM2835_POWER_DOMAIN_CAM1] = "cam1",
	598	[BCM2835_POWER_DOMAIN_CCP2TX] = "ccp2tx",
	599	[BCM2835_POWER_DOMAIN_HDMI] = "hdmi",
	600	};
	601
	602	static int bcm2835_power_probe(struct platform_device *pdev)
	603	{
	604	struct bcm2835_pm *pm = dev_get_drvdata(pdev->dev.parent);
	605	struct device *dev = &pdev->dev;
	606	struct bcm2835_power *power;
	607	static const struct {
	608	int parent, child;
	609	} domain_deps[] = {
	610	{ BCM2835_POWER_DOMAIN_GRAFX, BCM2835_POWER_DOMAIN_GRAFX_V3D },
	611	{ BCM2835_POWER_DOMAIN_IMAGE, BCM2835_POWER_DOMAIN_IMAGE_PERI },
	612	{ BCM2835_POWER_DOMAIN_IMAGE, BCM2835_POWER_DOMAIN_IMAGE_H264 },
	613	{ BCM2835_POWER_DOMAIN_IMAGE, BCM2835_POWER_DOMAIN_IMAGE_ISP },
	614	{ BCM2835_POWER_DOMAIN_IMAGE_PERI, BCM2835_POWER_DOMAIN_USB },
	615	{ BCM2835_POWER_DOMAIN_IMAGE_PERI, BCM2835_POWER_DOMAIN_CAM0 },
	616	{ BCM2835_POWER_DOMAIN_IMAGE_PERI, BCM2835_POWER_DOMAIN_CAM1 },
	617	};
4deabfae	618	int ret = 0, i;
670c6726 EA	619	u32 id;
	620
	621	power = devm_kzalloc(dev, sizeof(*power), GFP_KERNEL);
	622	if (!power)
	623	return -ENOMEM;
	624	platform_set_drvdata(pdev, power);
	625
	626	power->dev = dev;
	627	power->base = pm->base;
	628	power->asb = pm->asb;
	629
	630	id = ASB_READ(ASB_AXI_BRDG_ID);
	631	if (id != 0x62726467 /* "BRDG" */) {
	632	dev_err(dev, "ASB register ID returned 0x%08x\n", id);
	633	return -ENODEV;
	634	}
	635
	636	power->pd_xlate.domains = devm_kcalloc(dev,
	637	ARRAY_SIZE(power_domain_names),
	638	sizeof(*power->pd_xlate.domains),
	639	GFP_KERNEL);
	640	if (!power->pd_xlate.domains)
	641	return -ENOMEM;
	642
	643	power->pd_xlate.num_domains = ARRAY_SIZE(power_domain_names);
	644
4deabfae EA	645	for (i = 0; i < ARRAY_SIZE(power_domain_names); i++) {
	646	ret = bcm2835_init_power_domain(power, i, power_domain_names[i]);
	647	if (ret)
	648	goto fail;
	649	}
670c6726 EA	650
	651	for (i = 0; i < ARRAY_SIZE(domain_deps); i++) {
	652	pm_genpd_add_subdomain(&power->domains[domain_deps[i].parent].base,
	653	&power->domains[domain_deps[i].child].base);
	654	}
	655
	656	power->reset.owner = THIS_MODULE;
	657	power->reset.nr_resets = BCM2835_RESET_COUNT;
	658	power->reset.ops = &bcm2835_reset_ops;
	659	power->reset.of_node = dev->parent->of_node;
	660
	661	ret = devm_reset_controller_register(dev, &power->reset);
	662	if (ret)
4deabfae	663	goto fail;
670c6726 EA	664
	665	of_genpd_add_provider_onecell(dev->parent->of_node, &power->pd_xlate);
	666
	667	dev_info(dev, "Broadcom BCM2835 power domains driver");
	668	return 0;
4deabfae EA	669
	670	fail:
	671	for (i = 0; i < ARRAY_SIZE(power_domain_names); i++) {
	672	struct generic_pm_domain *dom = &power->domains[i].base;
	673
	674	if (dom->name)
	675	pm_genpd_remove(dom);
	676	}
	677	return ret;
670c6726 EA	678	}
	679
	680	static int bcm2835_power_remove(struct platform_device *pdev)
	681	{
	682	return 0;
	683	}
	684
	685	static struct platform_driver bcm2835_power_driver = {
	686	.probe = bcm2835_power_probe,
	687	.remove = bcm2835_power_remove,
	688	.driver = {
	689	.name = "bcm2835-power",
	690	},
	691	};
	692	module_platform_driver(bcm2835_power_driver);
	693
	694	MODULE_AUTHOR("Eric Anholt <eric@anholt.net>");
	695	MODULE_DESCRIPTION("Driver for Broadcom BCM2835 PM power domains and reset");
	696	MODULE_LICENSE("GPL");