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/*
* This program is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 as published
* by the Free Software Foundation.
*
* Copyright (C) 2010 John Crispin <john@phrozen.org>
* Copyright (C) 2013-2015 Lantiq Beteiligungs-GmbH & Co.KG
*/
#include <linux/init.h>
#include <linux/io.h>
#include <linux/ioport.h>
#include <linux/pm.h>
#include <linux/export.h>
#include <linux/delay.h>
#include <linux/of_address.h>
#include <linux/of_platform.h>
#include <linux/reset-controller.h>
#include <asm/reboot.h>
#include <lantiq_soc.h>
#include "../prom.h"
/* reset request register */
#define RCU_RST_REQ 0x0010
/* reset status register */
#define RCU_RST_STAT 0x0014
/* vr9 gphy registers */
#define RCU_GFS_ADD0_XRX200 0x0020
#define RCU_GFS_ADD1_XRX200 0x0068
/* xRX300 gphy registers */
#define RCU_GFS_ADD0_XRX300 0x0020
#define RCU_GFS_ADD1_XRX300 0x0058
#define RCU_GFS_ADD2_XRX300 0x00AC
/* xRX330 gphy registers */
#define RCU_GFS_ADD0_XRX330 0x0020
#define RCU_GFS_ADD1_XRX330 0x0058
#define RCU_GFS_ADD2_XRX330 0x00AC
#define RCU_GFS_ADD3_XRX330 0x0264
/* xbar BE flag */
#define RCU_AHB_ENDIAN 0x004C
#define RCU_VR9_BE_AHB1S 0x00000008
/* reboot bit */
#define RCU_RD_GPHY0_XRX200 BIT(31)
#define RCU_RD_SRST BIT(30)
#define RCU_RD_GPHY1_XRX200 BIT(29)
/* xRX300 bits */
#define RCU_RD_GPHY0_XRX300 BIT(31)
#define RCU_RD_GPHY1_XRX300 BIT(29)
#define RCU_RD_GPHY2_XRX300 BIT(28)
/* xRX330 bits */
#define RCU_RD_GPHY0_XRX330 BIT(31)
#define RCU_RD_GPHY1_XRX330 BIT(29)
#define RCU_RD_GPHY2_XRX330 BIT(28)
#define RCU_RD_GPHY3_XRX330 BIT(10)
/* reset cause */
#define RCU_STAT_SHIFT 26
/* boot selection */
#define RCU_BOOT_SEL(x) ((x >> 18) & 0x7)
#define RCU_BOOT_SEL_XRX200(x) (((x >> 17) & 0xf) | ((x >> 8) & 0x10))
/* dwc2 USB configuration registers */
#define RCU_USB1CFG 0x0018
#define RCU_USB2CFG 0x0034
/* USB DMA endianness bits */
#define RCU_USBCFG_HDSEL_BIT BIT(11)
#define RCU_USBCFG_HOST_END_BIT BIT(10)
#define RCU_USBCFG_SLV_END_BIT BIT(9)
/* USB reset bits */
#define RCU_USBRESET 0x0010
#define USBRESET_BIT BIT(4)
#define RCU_USBRESET2 0x0048
#define USB1RESET_BIT BIT(4)
#define USB2RESET_BIT BIT(5)
#define RCU_CFG1A 0x0038
#define RCU_CFG1B 0x003C
/* USB PMU devices */
#define PMU_AHBM BIT(15)
#define PMU_USB0 BIT(6)
#define PMU_USB1 BIT(27)
/* USB PHY PMU devices */
#define PMU_USB0_P BIT(0)
#define PMU_USB1_P BIT(26)
/* remapped base addr of the reset control unit */
static void __iomem *ltq_rcu_membase;
static struct device_node *ltq_rcu_np;
static DEFINE_SPINLOCK(ltq_rcu_lock);
static void ltq_rcu_w32(uint32_t val, uint32_t reg_off)
{
ltq_w32(val, ltq_rcu_membase + reg_off);
}
static uint32_t ltq_rcu_r32(uint32_t reg_off)
{
return ltq_r32(ltq_rcu_membase + reg_off);
}
static void ltq_rcu_w32_mask(uint32_t clr, uint32_t set, uint32_t reg_off)
{
unsigned long flags;
spin_lock_irqsave(<q_rcu_lock, flags);
ltq_rcu_w32((ltq_rcu_r32(reg_off) & ~(clr)) | (set), reg_off);
spin_unlock_irqrestore(<q_rcu_lock, flags);
}
/* This function is used by the watchdog driver */
int ltq_reset_cause(void)
{
u32 val = ltq_rcu_r32(RCU_RST_STAT);
return val >> RCU_STAT_SHIFT;
}
EXPORT_SYMBOL_GPL(ltq_reset_cause);
/* allow platform code to find out what source we booted from */
unsigned char ltq_boot_select(void)
{
u32 val = ltq_rcu_r32(RCU_RST_STAT);
if (of_device_is_compatible(ltq_rcu_np, "lantiq,rcu-xrx200"))
return RCU_BOOT_SEL_XRX200(val);
return RCU_BOOT_SEL(val);
}
struct ltq_gphy_reset {
u32 rd;
u32 addr;
};
/* reset / boot a gphy */
static struct ltq_gphy_reset xrx200_gphy[] = {
{RCU_RD_GPHY0_XRX200, RCU_GFS_ADD0_XRX200},
{RCU_RD_GPHY1_XRX200, RCU_GFS_ADD1_XRX200},
};
/* reset / boot a gphy */
static struct ltq_gphy_reset xrx300_gphy[] = {
{RCU_RD_GPHY0_XRX300, RCU_GFS_ADD0_XRX300},
{RCU_RD_GPHY1_XRX300, RCU_GFS_ADD1_XRX300},
{RCU_RD_GPHY2_XRX300, RCU_GFS_ADD2_XRX300},
};
/* reset / boot a gphy */
static struct ltq_gphy_reset xrx330_gphy[] = {
{RCU_RD_GPHY0_XRX330, RCU_GFS_ADD0_XRX330},
{RCU_RD_GPHY1_XRX330, RCU_GFS_ADD1_XRX330},
{RCU_RD_GPHY2_XRX330, RCU_GFS_ADD2_XRX330},
{RCU_RD_GPHY3_XRX330, RCU_GFS_ADD3_XRX330},
};
static void xrx200_gphy_boot_addr(struct ltq_gphy_reset *phy_regs,
dma_addr_t dev_addr)
{
ltq_rcu_w32_mask(0, phy_regs->rd, RCU_RST_REQ);
ltq_rcu_w32(dev_addr, phy_regs->addr);
ltq_rcu_w32_mask(phy_regs->rd, 0, RCU_RST_REQ);
}
/* reset and boot a gphy. these phys only exist on xrx200 SoC */
int xrx200_gphy_boot(struct device *dev, unsigned int id, dma_addr_t dev_addr)
{
struct clk *clk;
if (!of_device_is_compatible(ltq_rcu_np, "lantiq,rcu-xrx200")) {
dev_err(dev, "this SoC has no GPHY\n");
return -EINVAL;
}
if (of_machine_is_compatible("lantiq,vr9")) {
clk = clk_get_sys("1f203000.rcu", "gphy");
if (IS_ERR(clk))
return PTR_ERR(clk);
clk_enable(clk);
}
dev_info(dev, "booting GPHY%u firmware at %X\n", id, dev_addr);
if (of_machine_is_compatible("lantiq,vr9")) {
if (id >= ARRAY_SIZE(xrx200_gphy)) {
dev_err(dev, "%u is an invalid gphy id\n", id);
return -EINVAL;
}
xrx200_gphy_boot_addr(&xrx200_gphy[id], dev_addr);
} else if (of_machine_is_compatible("lantiq,ar10")) {
if (id >= ARRAY_SIZE(xrx300_gphy)) {
dev_err(dev, "%u is an invalid gphy id\n", id);
return -EINVAL;
}
xrx200_gphy_boot_addr(&xrx300_gphy[id], dev_addr);
} else if (of_machine_is_compatible("lantiq,grx390")) {
if (id >= ARRAY_SIZE(xrx330_gphy)) {
dev_err(dev, "%u is an invalid gphy id\n", id);
return -EINVAL;
}
xrx200_gphy_boot_addr(&xrx330_gphy[id], dev_addr);
}
return 0;
}
/* reset a io domain for u micro seconds */
void ltq_reset_once(unsigned int module, ulong u)
{
ltq_rcu_w32(ltq_rcu_r32(RCU_RST_REQ) | module, RCU_RST_REQ);
udelay(u);
ltq_rcu_w32(ltq_rcu_r32(RCU_RST_REQ) & ~module, RCU_RST_REQ);
}
static int ltq_assert_device(struct reset_controller_dev *rcdev,
unsigned long id)
{
u32 val;
if (id < 8)
return -1;
val = ltq_rcu_r32(RCU_RST_REQ);
val |= BIT(id);
ltq_rcu_w32(val, RCU_RST_REQ);
return 0;
}
static int ltq_deassert_device(struct reset_controller_dev *rcdev,
unsigned long id)
{
u32 val;
if (id < 8)
return -1;
val = ltq_rcu_r32(RCU_RST_REQ);
val &= ~BIT(id);
ltq_rcu_w32(val, RCU_RST_REQ);
return 0;
}
static int ltq_reset_device(struct reset_controller_dev *rcdev,
unsigned long id)
{
ltq_assert_device(rcdev, id);
return ltq_deassert_device(rcdev, id);
}
static const struct reset_control_ops reset_ops = {
.reset = ltq_reset_device,
.assert = ltq_assert_device,
.deassert = ltq_deassert_device,
};
static struct reset_controller_dev reset_dev = {
.ops = &reset_ops,
.owner = THIS_MODULE,
.nr_resets = 32,
.of_reset_n_cells = 1,
};
void ltq_rst_init(void)
{
reset_dev.of_node = of_find_compatible_node(NULL, NULL,
"lantiq,xway-reset");
if (!reset_dev.of_node)
pr_err("Failed to find reset controller node");
else
reset_controller_register(&reset_dev);
}
static void ltq_machine_restart(char *command)
{
u32 val = ltq_rcu_r32(RCU_RST_REQ);
if (of_device_is_compatible(ltq_rcu_np, "lantiq,rcu-xrx200"))
val |= RCU_RD_GPHY1_XRX200 | RCU_RD_GPHY0_XRX200;
val |= RCU_RD_SRST;
local_irq_disable();
ltq_rcu_w32(val, RCU_RST_REQ);
unreachable();
}
static void ltq_machine_halt(void)
{
local_irq_disable();
unreachable();
}
static void ltq_machine_power_off(void)
{
local_irq_disable();
unreachable();
}
static void ltq_usb_init(void)
{
/* Power for USB cores 1 & 2 */
ltq_pmu_enable(PMU_AHBM);
ltq_pmu_enable(PMU_USB0);
ltq_pmu_enable(PMU_USB1);
ltq_rcu_w32(ltq_rcu_r32(RCU_CFG1A) | BIT(0), RCU_CFG1A);
ltq_rcu_w32(ltq_rcu_r32(RCU_CFG1B) | BIT(0), RCU_CFG1B);
/* Enable USB PHY power for cores 1 & 2 */
ltq_pmu_enable(PMU_USB0_P);
ltq_pmu_enable(PMU_USB1_P);
/* Configure cores to host mode */
ltq_rcu_w32(ltq_rcu_r32(RCU_USB1CFG) & ~RCU_USBCFG_HDSEL_BIT,
RCU_USB1CFG);
ltq_rcu_w32(ltq_rcu_r32(RCU_USB2CFG) & ~RCU_USBCFG_HDSEL_BIT,
RCU_USB2CFG);
/* Select DMA endianness (Host-endian: big-endian) */
ltq_rcu_w32((ltq_rcu_r32(RCU_USB1CFG) & ~RCU_USBCFG_SLV_END_BIT)
| RCU_USBCFG_HOST_END_BIT, RCU_USB1CFG);
ltq_rcu_w32(ltq_rcu_r32((RCU_USB2CFG) & ~RCU_USBCFG_SLV_END_BIT)
| RCU_USBCFG_HOST_END_BIT, RCU_USB2CFG);
/* Hard reset USB state machines */
ltq_rcu_w32(ltq_rcu_r32(RCU_USBRESET) | USBRESET_BIT, RCU_USBRESET);
udelay(50 * 1000);
ltq_rcu_w32(ltq_rcu_r32(RCU_USBRESET) & ~USBRESET_BIT, RCU_USBRESET);
/* Soft reset USB state machines */
ltq_rcu_w32(ltq_rcu_r32(RCU_USBRESET2)
| USB1RESET_BIT | USB2RESET_BIT, RCU_USBRESET2);
udelay(50 * 1000);
ltq_rcu_w32(ltq_rcu_r32(RCU_USBRESET2)
& ~(USB1RESET_BIT | USB2RESET_BIT), RCU_USBRESET2);
}
static int __init mips_reboot_setup(void)
{
struct resource res;
ltq_rcu_np = of_find_compatible_node(NULL, NULL, "lantiq,rcu-xway");
if (!ltq_rcu_np)
ltq_rcu_np = of_find_compatible_node(NULL, NULL,
"lantiq,rcu-xrx200");
/* check if all the reset register range is available */
if (!ltq_rcu_np)
panic("Failed to load reset resources from devicetree");
if (of_address_to_resource(ltq_rcu_np, 0, &res))
panic("Failed to get rcu memory range");
if (!request_mem_region(res.start, resource_size(&res), res.name))
pr_err("Failed to request rcu memory");
ltq_rcu_membase = ioremap_nocache(res.start, resource_size(&res));
if (!ltq_rcu_membase)
panic("Failed to remap core memory");
if (of_machine_is_compatible("lantiq,ar9") ||
of_machine_is_compatible("lantiq,vr9"))
ltq_usb_init();
_machine_restart = ltq_machine_restart;
_machine_halt = ltq_machine_halt;
pm_power_off = ltq_machine_power_off;
return 0;
}
arch_initcall(mips_reboot_setup);
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