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|
// SPDX-License-Identifier: GPL-2.0-only
/*
* Pinmux & pinconf driver for the IP block found in the Nomadik SoC. This
* depends on gpio-nomadik and some handling is intertwined; see nmk_gpio_chips
* which is used by this driver to access the GPIO banks array.
*
* Copyright (C) 2008,2009 STMicroelectronics
* Copyright (C) 2009 Alessandro Rubini <rubini@unipv.it>
* Rewritten based on work by Prafulla WADASKAR <prafulla.wadaskar@st.com>
* Copyright (C) 2011-2013 Linus Walleij <linus.walleij@linaro.org>
*/
#include <linux/bitops.h>
#include <linux/cleanup.h>
#include <linux/clk.h>
#include <linux/device.h>
#include <linux/err.h>
#include <linux/gpio/driver.h>
#include <linux/init.h>
#include <linux/interrupt.h>
#include <linux/io.h>
#include <linux/kernel.h>
#include <linux/of.h>
#include <linux/of_address.h>
#include <linux/of_platform.h>
#include <linux/platform_device.h>
#include <linux/property.h>
#include <linux/seq_file.h>
#include <linux/slab.h>
#include <linux/spinlock.h>
#include <linux/types.h>
/* Since we request GPIOs from ourself */
#include <linux/pinctrl/consumer.h>
#include <linux/pinctrl/machine.h>
#include <linux/pinctrl/pinconf.h>
#include <linux/pinctrl/pinctrl.h>
#include <linux/pinctrl/pinmux.h>
#include "../core.h"
#include "../pinctrl-utils.h"
#include <linux/gpio/gpio-nomadik.h>
/*
* pin configurations are represented by 32-bit integers:
*
* bit 0.. 8 - Pin Number (512 Pins Maximum)
* bit 9..10 - Alternate Function Selection
* bit 11..12 - Pull up/down state
* bit 13 - Sleep mode behaviour
* bit 14 - Direction
* bit 15 - Value (if output)
* bit 16..18 - SLPM pull up/down state
* bit 19..20 - SLPM direction
* bit 21..22 - SLPM Value (if output)
* bit 23..25 - PDIS value (if input)
* bit 26 - Gpio mode
* bit 27 - Sleep mode
*
* to facilitate the definition, the following macros are provided
*
* PIN_CFG_DEFAULT - default config (0):
* pull up/down = disabled
* sleep mode = input/wakeup
* direction = input
* value = low
* SLPM direction = same as normal
* SLPM pull = same as normal
* SLPM value = same as normal
*
* PIN_CFG - default config with alternate function
*/
#define PIN_NUM_MASK 0x1ff
#define PIN_NUM(x) ((x) & PIN_NUM_MASK)
#define PIN_ALT_SHIFT 9
#define PIN_ALT_MASK (0x3 << PIN_ALT_SHIFT)
#define PIN_ALT(x) (((x) & PIN_ALT_MASK) >> PIN_ALT_SHIFT)
#define PIN_GPIO (NMK_GPIO_ALT_GPIO << PIN_ALT_SHIFT)
#define PIN_ALT_A (NMK_GPIO_ALT_A << PIN_ALT_SHIFT)
#define PIN_ALT_B (NMK_GPIO_ALT_B << PIN_ALT_SHIFT)
#define PIN_ALT_C (NMK_GPIO_ALT_C << PIN_ALT_SHIFT)
#define PIN_PULL_SHIFT 11
#define PIN_PULL_MASK (0x3 << PIN_PULL_SHIFT)
#define PIN_PULL(x) (((x) & PIN_PULL_MASK) >> PIN_PULL_SHIFT)
#define PIN_PULL_NONE (NMK_GPIO_PULL_NONE << PIN_PULL_SHIFT)
#define PIN_PULL_UP (NMK_GPIO_PULL_UP << PIN_PULL_SHIFT)
#define PIN_PULL_DOWN (NMK_GPIO_PULL_DOWN << PIN_PULL_SHIFT)
#define PIN_SLPM_SHIFT 13
#define PIN_SLPM_MASK (0x1 << PIN_SLPM_SHIFT)
#define PIN_SLPM(x) (((x) & PIN_SLPM_MASK) >> PIN_SLPM_SHIFT)
#define PIN_SLPM_MAKE_INPUT (NMK_GPIO_SLPM_INPUT << PIN_SLPM_SHIFT)
#define PIN_SLPM_NOCHANGE (NMK_GPIO_SLPM_NOCHANGE << PIN_SLPM_SHIFT)
/* These two replace the above in DB8500v2+ */
#define PIN_SLPM_WAKEUP_ENABLE (NMK_GPIO_SLPM_WAKEUP_ENABLE << PIN_SLPM_SHIFT)
#define PIN_SLPM_WAKEUP_DISABLE (NMK_GPIO_SLPM_WAKEUP_DISABLE << PIN_SLPM_SHIFT)
#define PIN_SLPM_USE_MUX_SETTINGS_IN_SLEEP PIN_SLPM_WAKEUP_DISABLE
#define PIN_SLPM_GPIO PIN_SLPM_WAKEUP_ENABLE /* In SLPM, pin is a gpio */
#define PIN_SLPM_ALTFUNC PIN_SLPM_WAKEUP_DISABLE /* In SLPM, pin is altfunc */
#define PIN_DIR_SHIFT 14
#define PIN_DIR_MASK (0x1 << PIN_DIR_SHIFT)
#define PIN_DIR(x) (((x) & PIN_DIR_MASK) >> PIN_DIR_SHIFT)
#define PIN_DIR_INPUT (0 << PIN_DIR_SHIFT)
#define PIN_DIR_OUTPUT (1 << PIN_DIR_SHIFT)
#define PIN_VAL_SHIFT 15
#define PIN_VAL_MASK (0x1 << PIN_VAL_SHIFT)
#define PIN_VAL(x) (((x) & PIN_VAL_MASK) >> PIN_VAL_SHIFT)
#define PIN_VAL_LOW (0 << PIN_VAL_SHIFT)
#define PIN_VAL_HIGH (1 << PIN_VAL_SHIFT)
#define PIN_SLPM_PULL_SHIFT 16
#define PIN_SLPM_PULL_MASK (0x7 << PIN_SLPM_PULL_SHIFT)
#define PIN_SLPM_PULL(x) \
(((x) & PIN_SLPM_PULL_MASK) >> PIN_SLPM_PULL_SHIFT)
#define PIN_SLPM_PULL_NONE \
((1 + NMK_GPIO_PULL_NONE) << PIN_SLPM_PULL_SHIFT)
#define PIN_SLPM_PULL_UP \
((1 + NMK_GPIO_PULL_UP) << PIN_SLPM_PULL_SHIFT)
#define PIN_SLPM_PULL_DOWN \
((1 + NMK_GPIO_PULL_DOWN) << PIN_SLPM_PULL_SHIFT)
#define PIN_SLPM_DIR_SHIFT 19
#define PIN_SLPM_DIR_MASK (0x3 << PIN_SLPM_DIR_SHIFT)
#define PIN_SLPM_DIR(x) \
(((x) & PIN_SLPM_DIR_MASK) >> PIN_SLPM_DIR_SHIFT)
#define PIN_SLPM_DIR_INPUT ((1 + 0) << PIN_SLPM_DIR_SHIFT)
#define PIN_SLPM_DIR_OUTPUT ((1 + 1) << PIN_SLPM_DIR_SHIFT)
#define PIN_SLPM_VAL_SHIFT 21
#define PIN_SLPM_VAL_MASK (0x3 << PIN_SLPM_VAL_SHIFT)
#define PIN_SLPM_VAL(x) \
(((x) & PIN_SLPM_VAL_MASK) >> PIN_SLPM_VAL_SHIFT)
#define PIN_SLPM_VAL_LOW ((1 + 0) << PIN_SLPM_VAL_SHIFT)
#define PIN_SLPM_VAL_HIGH ((1 + 1) << PIN_SLPM_VAL_SHIFT)
#define PIN_SLPM_PDIS_SHIFT 23
#define PIN_SLPM_PDIS_MASK (0x3 << PIN_SLPM_PDIS_SHIFT)
#define PIN_SLPM_PDIS(x) \
(((x) & PIN_SLPM_PDIS_MASK) >> PIN_SLPM_PDIS_SHIFT)
#define PIN_SLPM_PDIS_NO_CHANGE (0 << PIN_SLPM_PDIS_SHIFT)
#define PIN_SLPM_PDIS_DISABLED (1 << PIN_SLPM_PDIS_SHIFT)
#define PIN_SLPM_PDIS_ENABLED (2 << PIN_SLPM_PDIS_SHIFT)
#define PIN_LOWEMI_SHIFT 25
#define PIN_LOWEMI_MASK (0x1 << PIN_LOWEMI_SHIFT)
#define PIN_LOWEMI(x) (((x) & PIN_LOWEMI_MASK) >> PIN_LOWEMI_SHIFT)
#define PIN_LOWEMI_DISABLED (0 << PIN_LOWEMI_SHIFT)
#define PIN_LOWEMI_ENABLED (1 << PIN_LOWEMI_SHIFT)
#define PIN_GPIOMODE_SHIFT 26
#define PIN_GPIOMODE_MASK (0x1 << PIN_GPIOMODE_SHIFT)
#define PIN_GPIOMODE(x) (((x) & PIN_GPIOMODE_MASK) >> PIN_GPIOMODE_SHIFT)
#define PIN_GPIOMODE_DISABLED (0 << PIN_GPIOMODE_SHIFT)
#define PIN_GPIOMODE_ENABLED (1 << PIN_GPIOMODE_SHIFT)
#define PIN_SLEEPMODE_SHIFT 27
#define PIN_SLEEPMODE_MASK (0x1 << PIN_SLEEPMODE_SHIFT)
#define PIN_SLEEPMODE(x) (((x) & PIN_SLEEPMODE_MASK) >> PIN_SLEEPMODE_SHIFT)
#define PIN_SLEEPMODE_DISABLED (0 << PIN_SLEEPMODE_SHIFT)
#define PIN_SLEEPMODE_ENABLED (1 << PIN_SLEEPMODE_SHIFT)
/* Shortcuts. Use these instead of separate DIR, PULL, and VAL. */
#define PIN_INPUT_PULLDOWN (PIN_DIR_INPUT | PIN_PULL_DOWN)
#define PIN_INPUT_PULLUP (PIN_DIR_INPUT | PIN_PULL_UP)
#define PIN_INPUT_NOPULL (PIN_DIR_INPUT | PIN_PULL_NONE)
#define PIN_OUTPUT_LOW (PIN_DIR_OUTPUT | PIN_VAL_LOW)
#define PIN_OUTPUT_HIGH (PIN_DIR_OUTPUT | PIN_VAL_HIGH)
#define PIN_SLPM_INPUT_PULLDOWN (PIN_SLPM_DIR_INPUT | PIN_SLPM_PULL_DOWN)
#define PIN_SLPM_INPUT_PULLUP (PIN_SLPM_DIR_INPUT | PIN_SLPM_PULL_UP)
#define PIN_SLPM_INPUT_NOPULL (PIN_SLPM_DIR_INPUT | PIN_SLPM_PULL_NONE)
#define PIN_SLPM_OUTPUT_LOW (PIN_SLPM_DIR_OUTPUT | PIN_SLPM_VAL_LOW)
#define PIN_SLPM_OUTPUT_HIGH (PIN_SLPM_DIR_OUTPUT | PIN_SLPM_VAL_HIGH)
#define PIN_CFG_DEFAULT (0)
#define PIN_CFG(num, alt) \
(PIN_CFG_DEFAULT |\
(PIN_NUM(num) | PIN_##alt))
#define PIN_CFG_INPUT(num, alt, pull) \
(PIN_CFG_DEFAULT |\
(PIN_NUM(num) | PIN_##alt | PIN_INPUT_##pull))
#define PIN_CFG_OUTPUT(num, alt, val) \
(PIN_CFG_DEFAULT |\
(PIN_NUM(num) | PIN_##alt | PIN_OUTPUT_##val))
/**
* struct nmk_pinctrl - state container for the Nomadik pin controller
* @dev: containing device pointer
* @pctl: corresponding pin controller device
* @soc: SoC data for this specific chip
* @prcm_base: PRCM register range virtual base
*/
struct nmk_pinctrl {
struct device *dev;
struct pinctrl_dev *pctl;
const struct nmk_pinctrl_soc_data *soc;
void __iomem *prcm_base;
};
/* See nmk_gpio_populate_chip() that fills this array. */
struct nmk_gpio_chip *nmk_gpio_chips[NMK_MAX_BANKS];
DEFINE_SPINLOCK(nmk_gpio_slpm_lock);
static void __nmk_gpio_set_mode(struct nmk_gpio_chip *nmk_chip,
unsigned int offset, int gpio_mode)
{
u32 afunc, bfunc;
afunc = readl(nmk_chip->addr + NMK_GPIO_AFSLA) & ~BIT(offset);
bfunc = readl(nmk_chip->addr + NMK_GPIO_AFSLB) & ~BIT(offset);
if (gpio_mode & NMK_GPIO_ALT_A)
afunc |= BIT(offset);
if (gpio_mode & NMK_GPIO_ALT_B)
bfunc |= BIT(offset);
writel(afunc, nmk_chip->addr + NMK_GPIO_AFSLA);
writel(bfunc, nmk_chip->addr + NMK_GPIO_AFSLB);
}
static void __nmk_gpio_set_pull(struct nmk_gpio_chip *nmk_chip,
unsigned int offset, enum nmk_gpio_pull pull)
{
u32 pdis;
pdis = readl(nmk_chip->addr + NMK_GPIO_PDIS);
if (pull == NMK_GPIO_PULL_NONE) {
pdis |= BIT(offset);
nmk_chip->pull_up &= ~BIT(offset);
} else {
pdis &= ~BIT(offset);
}
writel(pdis, nmk_chip->addr + NMK_GPIO_PDIS);
if (pull == NMK_GPIO_PULL_UP) {
nmk_chip->pull_up |= BIT(offset);
writel(BIT(offset), nmk_chip->addr + NMK_GPIO_DATS);
} else if (pull == NMK_GPIO_PULL_DOWN) {
nmk_chip->pull_up &= ~BIT(offset);
writel(BIT(offset), nmk_chip->addr + NMK_GPIO_DATC);
}
}
static void __nmk_gpio_set_lowemi(struct nmk_gpio_chip *nmk_chip,
unsigned int offset, bool lowemi)
{
bool enabled = nmk_chip->lowemi & BIT(offset);
if (lowemi == enabled)
return;
if (lowemi)
nmk_chip->lowemi |= BIT(offset);
else
nmk_chip->lowemi &= ~BIT(offset);
writel_relaxed(nmk_chip->lowemi,
nmk_chip->addr + NMK_GPIO_LOWEMI);
}
static void __nmk_gpio_make_input(struct nmk_gpio_chip *nmk_chip,
unsigned int offset)
{
writel(BIT(offset), nmk_chip->addr + NMK_GPIO_DIRC);
}
static void __nmk_gpio_set_mode_safe(struct nmk_gpio_chip *nmk_chip,
unsigned int offset, int gpio_mode,
bool glitch)
{
u32 rwimsc = nmk_chip->rwimsc;
u32 fwimsc = nmk_chip->fwimsc;
if (glitch && nmk_chip->set_ioforce) {
u32 bit = BIT(offset);
/* Prevent spurious wakeups */
writel(rwimsc & ~bit, nmk_chip->addr + NMK_GPIO_RWIMSC);
writel(fwimsc & ~bit, nmk_chip->addr + NMK_GPIO_FWIMSC);
nmk_chip->set_ioforce(true);
}
__nmk_gpio_set_mode(nmk_chip, offset, gpio_mode);
if (glitch && nmk_chip->set_ioforce) {
nmk_chip->set_ioforce(false);
writel(rwimsc, nmk_chip->addr + NMK_GPIO_RWIMSC);
writel(fwimsc, nmk_chip->addr + NMK_GPIO_FWIMSC);
}
}
static void
nmk_gpio_disable_lazy_irq(struct nmk_gpio_chip *nmk_chip, unsigned int offset)
{
u32 falling = nmk_chip->fimsc & BIT(offset);
u32 rising = nmk_chip->rimsc & BIT(offset);
int gpio = nmk_chip->chip.base + offset;
int irq = irq_find_mapping(nmk_chip->chip.irq.domain, offset);
struct irq_data *d = irq_get_irq_data(irq);
if (!rising && !falling)
return;
if (!d || !irqd_irq_disabled(d))
return;
if (rising) {
nmk_chip->rimsc &= ~BIT(offset);
writel_relaxed(nmk_chip->rimsc,
nmk_chip->addr + NMK_GPIO_RIMSC);
}
if (falling) {
nmk_chip->fimsc &= ~BIT(offset);
writel_relaxed(nmk_chip->fimsc,
nmk_chip->addr + NMK_GPIO_FIMSC);
}
dev_dbg(nmk_chip->chip.parent, "%d: clearing interrupt mask\n", gpio);
}
static void nmk_write_masked(void __iomem *reg, u32 mask, u32 value)
{
u32 val;
val = readl(reg);
val = ((val & ~mask) | (value & mask));
writel(val, reg);
}
static void nmk_prcm_altcx_set_mode(struct nmk_pinctrl *npct,
unsigned int offset, unsigned int alt_num)
{
int i;
u16 reg;
u8 bit;
u8 alt_index;
const struct prcm_gpiocr_altcx_pin_desc *pin_desc;
const u16 *gpiocr_regs;
if (!npct->prcm_base)
return;
if (alt_num > PRCM_IDX_GPIOCR_ALTC_MAX) {
dev_err(npct->dev, "PRCM GPIOCR: alternate-C%i is invalid\n",
alt_num);
return;
}
for (i = 0 ; i < npct->soc->npins_altcx ; i++) {
if (npct->soc->altcx_pins[i].pin == offset)
break;
}
if (i == npct->soc->npins_altcx) {
dev_dbg(npct->dev, "PRCM GPIOCR: pin %i is not found\n",
offset);
return;
}
pin_desc = npct->soc->altcx_pins + i;
gpiocr_regs = npct->soc->prcm_gpiocr_registers;
/*
* If alt_num is NULL, just clear current ALTCx selection
* to make sure we come back to a pure ALTC selection
*/
if (!alt_num) {
for (i = 0 ; i < PRCM_IDX_GPIOCR_ALTC_MAX ; i++) {
if (pin_desc->altcx[i].used) {
reg = gpiocr_regs[pin_desc->altcx[i].reg_index];
bit = pin_desc->altcx[i].control_bit;
if (readl(npct->prcm_base + reg) & BIT(bit)) {
nmk_write_masked(npct->prcm_base + reg, BIT(bit), 0);
dev_dbg(npct->dev,
"PRCM GPIOCR: pin %i: alternate-C%i has been disabled\n",
offset, i + 1);
}
}
}
return;
}
alt_index = alt_num - 1;
if (!pin_desc->altcx[alt_index].used) {
dev_warn(npct->dev,
"PRCM GPIOCR: pin %i: alternate-C%i does not exist\n",
offset, alt_num);
return;
}
/*
* Check if any other ALTCx functions are activated on this pin
* and disable it first.
*/
for (i = 0 ; i < PRCM_IDX_GPIOCR_ALTC_MAX ; i++) {
if (i == alt_index)
continue;
if (pin_desc->altcx[i].used) {
reg = gpiocr_regs[pin_desc->altcx[i].reg_index];
bit = pin_desc->altcx[i].control_bit;
if (readl(npct->prcm_base + reg) & BIT(bit)) {
nmk_write_masked(npct->prcm_base + reg, BIT(bit), 0);
dev_dbg(npct->dev,
"PRCM GPIOCR: pin %i: alternate-C%i has been disabled\n",
offset, i + 1);
}
}
}
reg = gpiocr_regs[pin_desc->altcx[alt_index].reg_index];
bit = pin_desc->altcx[alt_index].control_bit;
dev_dbg(npct->dev, "PRCM GPIOCR: pin %i: alternate-C%i has been selected\n",
offset, alt_index + 1);
nmk_write_masked(npct->prcm_base + reg, BIT(bit), BIT(bit));
}
/*
* Safe sequence used to switch IOs between GPIO and Alternate-C mode:
* - Save SLPM registers
* - Set SLPM=0 for the IOs you want to switch and others to 1
* - Configure the GPIO registers for the IOs that are being switched
* - Set IOFORCE=1
* - Modify the AFLSA/B registers for the IOs that are being switched
* - Set IOFORCE=0
* - Restore SLPM registers
* - Any spurious wake up event during switch sequence to be ignored and
* cleared
*/
static void nmk_gpio_glitch_slpm_init(unsigned int *slpm)
{
int i;
for (i = 0; i < NMK_MAX_BANKS; i++) {
struct nmk_gpio_chip *chip = nmk_gpio_chips[i];
unsigned int temp = slpm[i];
if (!chip)
break;
clk_enable(chip->clk);
slpm[i] = readl(chip->addr + NMK_GPIO_SLPC);
writel(temp, chip->addr + NMK_GPIO_SLPC);
}
}
static void nmk_gpio_glitch_slpm_restore(unsigned int *slpm)
{
int i;
for (i = 0; i < NMK_MAX_BANKS; i++) {
struct nmk_gpio_chip *chip = nmk_gpio_chips[i];
if (!chip)
break;
writel(slpm[i], chip->addr + NMK_GPIO_SLPC);
clk_disable(chip->clk);
}
}
/* Only called by gpio-nomadik but requires knowledge of struct nmk_pinctrl. */
int __maybe_unused nmk_prcm_gpiocr_get_mode(struct pinctrl_dev *pctldev, int gpio)
{
int i;
u16 reg;
u8 bit;
struct nmk_pinctrl *npct = pinctrl_dev_get_drvdata(pctldev);
const struct prcm_gpiocr_altcx_pin_desc *pin_desc;
const u16 *gpiocr_regs;
if (!npct->prcm_base)
return NMK_GPIO_ALT_C;
for (i = 0; i < npct->soc->npins_altcx; i++) {
if (npct->soc->altcx_pins[i].pin == gpio)
break;
}
if (i == npct->soc->npins_altcx)
return NMK_GPIO_ALT_C;
pin_desc = npct->soc->altcx_pins + i;
gpiocr_regs = npct->soc->prcm_gpiocr_registers;
for (i = 0; i < PRCM_IDX_GPIOCR_ALTC_MAX; i++) {
if (pin_desc->altcx[i].used) {
reg = gpiocr_regs[pin_desc->altcx[i].reg_index];
bit = pin_desc->altcx[i].control_bit;
if (readl(npct->prcm_base + reg) & BIT(bit))
return NMK_GPIO_ALT_C + i + 1;
}
}
return NMK_GPIO_ALT_C;
}
static int nmk_get_groups_cnt(struct pinctrl_dev *pctldev)
{
struct nmk_pinctrl *npct = pinctrl_dev_get_drvdata(pctldev);
return npct->soc->ngroups;
}
static const char *nmk_get_group_name(struct pinctrl_dev *pctldev,
unsigned int selector)
{
struct nmk_pinctrl *npct = pinctrl_dev_get_drvdata(pctldev);
return npct->soc->groups[selector].grp.name;
}
static int nmk_get_group_pins(struct pinctrl_dev *pctldev, unsigned int selector,
const unsigned int **pins,
unsigned int *num_pins)
{
struct nmk_pinctrl *npct = pinctrl_dev_get_drvdata(pctldev);
*pins = npct->soc->groups[selector].grp.pins;
*num_pins = npct->soc->groups[selector].grp.npins;
return 0;
}
/* This makes the mapping from pin number to a GPIO chip. We also return the pin
* offset in the GPIO chip for convenience (and to avoid a second loop).
*/
static struct nmk_gpio_chip *find_nmk_gpio_from_pin(unsigned int pin,
unsigned int *offset)
{
int i, j = 0;
struct nmk_gpio_chip *nmk_gpio;
/* We assume that pins are allocated in bank order. */
for (i = 0; i < NMK_MAX_BANKS; i++) {
nmk_gpio = nmk_gpio_chips[i];
if (!nmk_gpio)
continue;
if (pin >= j && pin < j + nmk_gpio->chip.ngpio) {
if (offset)
*offset = pin - j;
return nmk_gpio;
}
j += nmk_gpio->chip.ngpio;
}
return NULL;
}
static struct gpio_chip *find_gc_from_pin(unsigned int pin)
{
struct nmk_gpio_chip *nmk_gpio = find_nmk_gpio_from_pin(pin, NULL);
if (nmk_gpio)
return &nmk_gpio->chip;
return NULL;
}
static void nmk_pin_dbg_show(struct pinctrl_dev *pctldev, struct seq_file *s,
unsigned int offset)
{
struct gpio_chip *chip = find_gc_from_pin(offset);
if (!chip) {
seq_printf(s, "invalid pin offset");
return;
}
nmk_gpio_dbg_show_one(s, pctldev, chip, offset - chip->base, offset);
}
static int nmk_dt_add_map_mux(struct pinctrl_map **map, unsigned int *reserved_maps,
unsigned int *num_maps, const char *group,
const char *function)
{
if (*num_maps == *reserved_maps)
return -ENOSPC;
(*map)[*num_maps].type = PIN_MAP_TYPE_MUX_GROUP;
(*map)[*num_maps].data.mux.group = group;
(*map)[*num_maps].data.mux.function = function;
(*num_maps)++;
return 0;
}
static int nmk_dt_add_map_configs(struct pinctrl_map **map,
unsigned int *reserved_maps,
unsigned int *num_maps, const char *group,
unsigned long *configs, unsigned int num_configs)
{
unsigned long *dup_configs;
if (*num_maps == *reserved_maps)
return -ENOSPC;
dup_configs = kmemdup(configs, num_configs * sizeof(*dup_configs),
GFP_KERNEL);
if (!dup_configs)
return -ENOMEM;
(*map)[*num_maps].type = PIN_MAP_TYPE_CONFIGS_PIN;
(*map)[*num_maps].data.configs.group_or_pin = group;
(*map)[*num_maps].data.configs.configs = dup_configs;
(*map)[*num_maps].data.configs.num_configs = num_configs;
(*num_maps)++;
return 0;
}
#define NMK_CONFIG_PIN(x, y) { .property = x, .config = y, }
#define NMK_CONFIG_PIN_ARRAY(x, y) { .property = x, .choice = y, \
.size = ARRAY_SIZE(y), }
static const unsigned long nmk_pin_input_modes[] = {
PIN_INPUT_NOPULL,
PIN_INPUT_PULLUP,
PIN_INPUT_PULLDOWN,
};
static const unsigned long nmk_pin_output_modes[] = {
PIN_OUTPUT_LOW,
PIN_OUTPUT_HIGH,
PIN_DIR_OUTPUT,
};
static const unsigned long nmk_pin_sleep_modes[] = {
PIN_SLEEPMODE_DISABLED,
PIN_SLEEPMODE_ENABLED,
};
static const unsigned long nmk_pin_sleep_input_modes[] = {
PIN_SLPM_INPUT_NOPULL,
PIN_SLPM_INPUT_PULLUP,
PIN_SLPM_INPUT_PULLDOWN,
PIN_SLPM_DIR_INPUT,
};
static const unsigned long nmk_pin_sleep_output_modes[] = {
PIN_SLPM_OUTPUT_LOW,
PIN_SLPM_OUTPUT_HIGH,
PIN_SLPM_DIR_OUTPUT,
};
static const unsigned long nmk_pin_sleep_wakeup_modes[] = {
PIN_SLPM_WAKEUP_DISABLE,
PIN_SLPM_WAKEUP_ENABLE,
};
static const unsigned long nmk_pin_gpio_modes[] = {
PIN_GPIOMODE_DISABLED,
PIN_GPIOMODE_ENABLED,
};
static const unsigned long nmk_pin_sleep_pdis_modes[] = {
PIN_SLPM_PDIS_DISABLED,
PIN_SLPM_PDIS_ENABLED,
};
struct nmk_cfg_param {
const char *property;
unsigned long config;
const unsigned long *choice;
int size;
};
static const struct nmk_cfg_param nmk_cfg_params[] = {
NMK_CONFIG_PIN_ARRAY("ste,input", nmk_pin_input_modes),
NMK_CONFIG_PIN_ARRAY("ste,output", nmk_pin_output_modes),
NMK_CONFIG_PIN_ARRAY("ste,sleep", nmk_pin_sleep_modes),
NMK_CONFIG_PIN_ARRAY("ste,sleep-input", nmk_pin_sleep_input_modes),
NMK_CONFIG_PIN_ARRAY("ste,sleep-output", nmk_pin_sleep_output_modes),
NMK_CONFIG_PIN_ARRAY("ste,sleep-wakeup", nmk_pin_sleep_wakeup_modes),
NMK_CONFIG_PIN_ARRAY("ste,gpio", nmk_pin_gpio_modes),
NMK_CONFIG_PIN_ARRAY("ste,sleep-pull-disable", nmk_pin_sleep_pdis_modes),
};
static int nmk_dt_pin_config(int index, int val, unsigned long *config)
{
if (!nmk_cfg_params[index].choice) {
*config = nmk_cfg_params[index].config;
} else {
/* test if out of range */
if (val < nmk_cfg_params[index].size) {
*config = nmk_cfg_params[index].config |
nmk_cfg_params[index].choice[val];
}
}
return 0;
}
static const char *nmk_find_pin_name(struct pinctrl_dev *pctldev, const char *pin_name)
{
int i, pin_number;
struct nmk_pinctrl *npct = pinctrl_dev_get_drvdata(pctldev);
if (sscanf((char *)pin_name, "GPIO%d", &pin_number) == 1)
for (i = 0; i < npct->soc->npins; i++)
if (npct->soc->pins[i].number == pin_number)
return npct->soc->pins[i].name;
return NULL;
}
static bool nmk_pinctrl_dt_get_config(struct device_node *np,
unsigned long *configs)
{
bool has_config = 0;
unsigned long cfg = 0;
int i, val, ret;
for (i = 0; i < ARRAY_SIZE(nmk_cfg_params); i++) {
ret = of_property_read_u32(np, nmk_cfg_params[i].property, &val);
if (ret != -EINVAL) {
if (nmk_dt_pin_config(i, val, &cfg) == 0) {
*configs |= cfg;
has_config = 1;
}
}
}
return has_config;
}
static int nmk_pinctrl_dt_subnode_to_map(struct pinctrl_dev *pctldev,
struct device_node *np,
struct pinctrl_map **map,
unsigned int *reserved_maps,
unsigned int *num_maps)
{
int ret;
const char *function = NULL;
unsigned long configs = 0;
bool has_config = 0;
struct property *prop;
struct device_node *np_config;
ret = of_property_read_string(np, "function", &function);
if (ret >= 0) {
const char *group;
ret = of_property_count_strings(np, "groups");
if (ret < 0)
goto exit;
ret = pinctrl_utils_reserve_map(pctldev, map,
reserved_maps,
num_maps, ret);
if (ret < 0)
goto exit;
of_property_for_each_string(np, "groups", prop, group) {
ret = nmk_dt_add_map_mux(map, reserved_maps, num_maps,
group, function);
if (ret < 0)
goto exit;
}
}
has_config = nmk_pinctrl_dt_get_config(np, &configs);
np_config = of_parse_phandle(np, "ste,config", 0);
if (np_config) {
has_config |= nmk_pinctrl_dt_get_config(np_config, &configs);
of_node_put(np_config);
}
if (has_config) {
const char *gpio_name;
const char *pin;
ret = of_property_count_strings(np, "pins");
if (ret < 0)
goto exit;
ret = pinctrl_utils_reserve_map(pctldev, map,
reserved_maps,
num_maps, ret);
if (ret < 0)
goto exit;
of_property_for_each_string(np, "pins", prop, pin) {
gpio_name = nmk_find_pin_name(pctldev, pin);
ret = nmk_dt_add_map_configs(map, reserved_maps,
num_maps,
gpio_name, &configs, 1);
if (ret < 0)
goto exit;
}
}
exit:
return ret;
}
static int nmk_pinctrl_dt_node_to_map(struct pinctrl_dev *pctldev,
struct device_node *np_config,
struct pinctrl_map **map,
unsigned int *num_maps)
{
unsigned int reserved_maps;
struct device_node *np;
int ret;
reserved_maps = 0;
*map = NULL;
*num_maps = 0;
for_each_child_of_node(np_config, np) {
ret = nmk_pinctrl_dt_subnode_to_map(pctldev, np, map,
&reserved_maps, num_maps);
if (ret < 0) {
pinctrl_utils_free_map(pctldev, *map, *num_maps);
of_node_put(np);
return ret;
}
}
return 0;
}
static const struct pinctrl_ops nmk_pinctrl_ops = {
.get_groups_count = nmk_get_groups_cnt,
.get_group_name = nmk_get_group_name,
.get_group_pins = nmk_get_group_pins,
.pin_dbg_show = nmk_pin_dbg_show,
.dt_node_to_map = nmk_pinctrl_dt_node_to_map,
.dt_free_map = pinctrl_utils_free_map,
};
static int nmk_pmx_get_funcs_cnt(struct pinctrl_dev *pctldev)
{
struct nmk_pinctrl *npct = pinctrl_dev_get_drvdata(pctldev);
return npct->soc->nfunctions;
}
static const char *nmk_pmx_get_func_name(struct pinctrl_dev *pctldev,
unsigned int function)
{
struct nmk_pinctrl *npct = pinctrl_dev_get_drvdata(pctldev);
return npct->soc->functions[function].name;
}
static int nmk_pmx_get_func_groups(struct pinctrl_dev *pctldev,
unsigned int function,
const char * const **groups,
unsigned * const num_groups)
{
struct nmk_pinctrl *npct = pinctrl_dev_get_drvdata(pctldev);
*groups = npct->soc->functions[function].groups;
*num_groups = npct->soc->functions[function].ngroups;
return 0;
}
static int nmk_pmx_set(struct pinctrl_dev *pctldev, unsigned int function,
unsigned int group)
{
struct nmk_pinctrl *npct = pinctrl_dev_get_drvdata(pctldev);
const struct nmk_pingroup *g;
static unsigned int slpm[NMK_MAX_BANKS];
unsigned long flags = 0;
bool glitch;
int ret = -EINVAL;
int i;
g = &npct->soc->groups[group];
if (g->altsetting < 0)
return -EINVAL;
dev_dbg(npct->dev, "enable group %s, %zu pins\n", g->grp.name, g->grp.npins);
/*
* If we're setting altfunc C by setting both AFSLA and AFSLB to 1,
* we may pass through an undesired state. In this case we take
* some extra care.
*
* Safe sequence used to switch IOs between GPIO and Alternate-C mode:
* - Save SLPM registers (since we have a shadow register in the
* nmk_chip we're using that as backup)
* - Set SLPM=0 for the IOs you want to switch and others to 1
* - Configure the GPIO registers for the IOs that are being switched
* - Set IOFORCE=1
* - Modify the AFLSA/B registers for the IOs that are being switched
* - Set IOFORCE=0
* - Restore SLPM registers
* - Any spurious wake up event during switch sequence to be ignored
* and cleared
*
* We REALLY need to save ALL slpm registers, because the external
* IOFORCE will switch *all* ports to their sleepmode setting to as
* to avoid glitches. (Not just one port!)
*/
glitch = ((g->altsetting & NMK_GPIO_ALT_C) == NMK_GPIO_ALT_C);
if (glitch) {
spin_lock_irqsave(&nmk_gpio_slpm_lock, flags);
/* Initially don't put any pins to sleep when switching */
memset(slpm, 0xff, sizeof(slpm));
/*
* Then mask the pins that need to be sleeping now when we're
* switching to the ALT C function.
*/
for (i = 0; i < g->grp.npins; i++) {
struct nmk_gpio_chip *nmk_chip;
unsigned int bit;
nmk_chip = find_nmk_gpio_from_pin(g->grp.pins[i], &bit);
if (!nmk_chip) {
dev_err(npct->dev,
"invalid pin offset %d in group %s at index %d\n",
g->grp.pins[i], g->grp.name, i);
goto out_pre_slpm_init;
}
slpm[nmk_chip->bank] &= ~BIT(bit);
}
nmk_gpio_glitch_slpm_init(slpm);
}
for (i = 0; i < g->grp.npins; i++) {
struct nmk_gpio_chip *nmk_chip;
unsigned int bit;
nmk_chip = find_nmk_gpio_from_pin(g->grp.pins[i], &bit);
if (!nmk_chip) {
dev_err(npct->dev,
"invalid pin offset %d in group %s at index %d\n",
g->grp.pins[i], g->grp.name, i);
goto out_glitch;
}
dev_dbg(npct->dev, "setting pin %d to altsetting %d\n",
g->grp.pins[i], g->altsetting);
clk_enable(nmk_chip->clk);
/*
* If the pin is switching to altfunc, and there was an
* interrupt installed on it which has been lazy disabled,
* actually mask the interrupt to prevent spurious interrupts
* that would occur while the pin is under control of the
* peripheral. Only SKE does this.
*/
nmk_gpio_disable_lazy_irq(nmk_chip, bit);
__nmk_gpio_set_mode_safe(nmk_chip, bit,
(g->altsetting & NMK_GPIO_ALT_C), glitch);
clk_disable(nmk_chip->clk);
/*
* Call PRCM GPIOCR config function in case ALTC
* has been selected:
* - If selection is a ALTCx, some bits in PRCM GPIOCR registers
* must be set.
* - If selection is pure ALTC and previous selection was ALTCx,
* then some bits in PRCM GPIOCR registers must be cleared.
*/
if ((g->altsetting & NMK_GPIO_ALT_C) == NMK_GPIO_ALT_C)
nmk_prcm_altcx_set_mode(npct, g->grp.pins[i],
g->altsetting >> NMK_GPIO_ALT_CX_SHIFT);
}
/* When all pins are successfully reconfigured we get here */
ret = 0;
out_glitch:
if (glitch)
nmk_gpio_glitch_slpm_restore(slpm);
out_pre_slpm_init:
if (glitch)
spin_unlock_irqrestore(&nmk_gpio_slpm_lock, flags);
return ret;
}
static int nmk_gpio_request_enable(struct pinctrl_dev *pctldev,
struct pinctrl_gpio_range *range,
unsigned int pin)
{
struct nmk_pinctrl *npct = pinctrl_dev_get_drvdata(pctldev);
struct nmk_gpio_chip *nmk_chip;
struct gpio_chip *chip;
unsigned int bit;
if (!range) {
dev_err(npct->dev, "invalid range\n");
return -EINVAL;
}
if (!range->gc) {
dev_err(npct->dev, "missing GPIO chip in range\n");
return -EINVAL;
}
chip = range->gc;
nmk_chip = gpiochip_get_data(chip);
dev_dbg(npct->dev, "enable pin %u as GPIO\n", pin);
find_nmk_gpio_from_pin(pin, &bit);
clk_enable(nmk_chip->clk);
/* There is no glitch when converting any pin to GPIO */
__nmk_gpio_set_mode(nmk_chip, bit, NMK_GPIO_ALT_GPIO);
clk_disable(nmk_chip->clk);
return 0;
}
static void nmk_gpio_disable_free(struct pinctrl_dev *pctldev,
struct pinctrl_gpio_range *range,
unsigned int pin)
{
struct nmk_pinctrl *npct = pinctrl_dev_get_drvdata(pctldev);
dev_dbg(npct->dev, "disable pin %u as GPIO\n", pin);
/* Set the pin to some default state, GPIO is usually default */
}
static const struct pinmux_ops nmk_pinmux_ops = {
.get_functions_count = nmk_pmx_get_funcs_cnt,
.get_function_name = nmk_pmx_get_func_name,
.get_function_groups = nmk_pmx_get_func_groups,
.set_mux = nmk_pmx_set,
.gpio_request_enable = nmk_gpio_request_enable,
.gpio_disable_free = nmk_gpio_disable_free,
.strict = true,
};
static int nmk_pin_config_get(struct pinctrl_dev *pctldev, unsigned int pin,
unsigned long *config)
{
/* Not implemented */
return -EINVAL;
}
static int nmk_pin_config_set(struct pinctrl_dev *pctldev, unsigned int pin,
unsigned long *configs, unsigned int num_configs)
{
static const char * const pullnames[] = {
[NMK_GPIO_PULL_NONE] = "none",
[NMK_GPIO_PULL_UP] = "up",
[NMK_GPIO_PULL_DOWN] = "down",
[3] /* illegal */ = "??"
};
static const char * const slpmnames[] = {
[NMK_GPIO_SLPM_INPUT] = "input/wakeup",
[NMK_GPIO_SLPM_NOCHANGE] = "no-change/no-wakeup",
};
struct nmk_pinctrl *npct = pinctrl_dev_get_drvdata(pctldev);
struct nmk_gpio_chip *nmk_chip;
unsigned int bit;
unsigned long cfg;
int pull, slpm, output, val, i;
bool lowemi, gpiomode, sleep;
nmk_chip = find_nmk_gpio_from_pin(pin, &bit);
if (!nmk_chip) {
dev_err(npct->dev,
"invalid pin offset %d\n", pin);
return -EINVAL;
}
for (i = 0; i < num_configs; i++) {
/*
* The pin config contains pin number and altfunction fields,
* here we just ignore that part. It's being handled by the
* framework and pinmux callback respectively.
*/
cfg = configs[i];
pull = PIN_PULL(cfg);
slpm = PIN_SLPM(cfg);
output = PIN_DIR(cfg);
val = PIN_VAL(cfg);
lowemi = PIN_LOWEMI(cfg);
gpiomode = PIN_GPIOMODE(cfg);
sleep = PIN_SLEEPMODE(cfg);
if (sleep) {
int slpm_pull = PIN_SLPM_PULL(cfg);
int slpm_output = PIN_SLPM_DIR(cfg);
int slpm_val = PIN_SLPM_VAL(cfg);
/* All pins go into GPIO mode at sleep */
gpiomode = true;
/*
* The SLPM_* values are normal values + 1 to allow zero
* to mean "same as normal".
*/
if (slpm_pull)
pull = slpm_pull - 1;
if (slpm_output)
output = slpm_output - 1;
if (slpm_val)
val = slpm_val - 1;
dev_dbg(nmk_chip->chip.parent,
"pin %d: sleep pull %s, dir %s, val %s\n",
pin,
slpm_pull ? pullnames[pull] : "same",
slpm_output ? (output ? "output" : "input")
: "same",
slpm_val ? (val ? "high" : "low") : "same");
}
dev_dbg(nmk_chip->chip.parent,
"pin %d [%#lx]: pull %s, slpm %s (%s%s), lowemi %s\n",
pin, cfg, pullnames[pull], slpmnames[slpm],
output ? "output " : "input",
output ? (val ? "high" : "low") : "",
lowemi ? "on" : "off");
clk_enable(nmk_chip->clk);
if (gpiomode)
/* No glitch when going to GPIO mode */
__nmk_gpio_set_mode(nmk_chip, bit, NMK_GPIO_ALT_GPIO);
if (output) {
__nmk_gpio_make_output(nmk_chip, bit, val);
} else {
__nmk_gpio_make_input(nmk_chip, bit);
__nmk_gpio_set_pull(nmk_chip, bit, pull);
}
/* TODO: isn't this only applicable on output pins? */
__nmk_gpio_set_lowemi(nmk_chip, bit, lowemi);
__nmk_gpio_set_slpm(nmk_chip, bit, slpm);
clk_disable(nmk_chip->clk);
} /* for each config */
return 0;
}
static const struct pinconf_ops nmk_pinconf_ops = {
.pin_config_get = nmk_pin_config_get,
.pin_config_set = nmk_pin_config_set,
};
static struct pinctrl_desc nmk_pinctrl_desc = {
.name = "pinctrl-nomadik",
.pctlops = &nmk_pinctrl_ops,
.pmxops = &nmk_pinmux_ops,
.confops = &nmk_pinconf_ops,
.owner = THIS_MODULE,
};
static const struct of_device_id nmk_pinctrl_match[] = {
{
.compatible = "stericsson,stn8815-pinctrl",
.data = (void *)PINCTRL_NMK_STN8815,
},
{
.compatible = "stericsson,db8500-pinctrl",
.data = (void *)PINCTRL_NMK_DB8500,
},
{},
};
#ifdef CONFIG_PM_SLEEP
static int nmk_pinctrl_suspend(struct device *dev)
{
struct nmk_pinctrl *npct;
npct = dev_get_drvdata(dev);
if (!npct)
return -EINVAL;
return pinctrl_force_sleep(npct->pctl);
}
static int nmk_pinctrl_resume(struct device *dev)
{
struct nmk_pinctrl *npct;
npct = dev_get_drvdata(dev);
if (!npct)
return -EINVAL;
return pinctrl_force_default(npct->pctl);
}
#endif
static int nmk_pinctrl_probe(struct platform_device *pdev)
{
struct fwnode_handle *fwnode = dev_fwnode(&pdev->dev);
struct fwnode_handle *prcm_fwnode;
struct nmk_pinctrl *npct;
uintptr_t version = 0;
int i;
npct = devm_kzalloc(&pdev->dev, sizeof(*npct), GFP_KERNEL);
if (!npct)
return -ENOMEM;
version = (uintptr_t)device_get_match_data(&pdev->dev);
/* Poke in other ASIC variants here */
if (version == PINCTRL_NMK_STN8815)
nmk_pinctrl_stn8815_init(&npct->soc);
if (version == PINCTRL_NMK_DB8500)
nmk_pinctrl_db8500_init(&npct->soc);
/*
* Since we depend on the GPIO chips to provide clock and register base
* for the pin control operations, make sure that we have these
* populated before we continue. Follow the phandles to instantiate
* them. The GPIO portion of the actual hardware may be probed before
* or after this point: it shouldn't matter as the APIs are orthogonal.
*/
for (i = 0; i < NMK_MAX_BANKS; i++) {
struct fwnode_handle *gpio_fwnode;
struct nmk_gpio_chip *nmk_chip;
gpio_fwnode = fwnode_find_reference(fwnode, "nomadik-gpio-chips", i);
if (IS_ERR(gpio_fwnode))
continue;
dev_info(&pdev->dev, "populate NMK GPIO %d \"%pfwP\"\n", i, gpio_fwnode);
nmk_chip = nmk_gpio_populate_chip(gpio_fwnode, pdev);
if (IS_ERR(nmk_chip))
dev_err(&pdev->dev,
"could not populate nmk chip struct - continue anyway\n");
else
/* We are NOT compatible with mobileye,eyeq5-gpio. */
BUG_ON(nmk_chip->is_mobileye_soc);
fwnode_handle_put(gpio_fwnode);
}
prcm_fwnode = fwnode_find_reference(fwnode, "prcm", 0);
if (!IS_ERR(prcm_fwnode)) {
npct->prcm_base = fwnode_iomap(prcm_fwnode, 0);
fwnode_handle_put(prcm_fwnode);
}
if (!npct->prcm_base) {
if (version == PINCTRL_NMK_STN8815) {
dev_info(&pdev->dev,
"No PRCM base, assuming no ALT-Cx control is available\n");
} else {
dev_err(&pdev->dev, "missing PRCM base address\n");
return -EINVAL;
}
}
nmk_pinctrl_desc.pins = npct->soc->pins;
nmk_pinctrl_desc.npins = npct->soc->npins;
npct->dev = &pdev->dev;
npct->pctl = devm_pinctrl_register(&pdev->dev, &nmk_pinctrl_desc, npct);
if (IS_ERR(npct->pctl)) {
dev_err(&pdev->dev, "could not register Nomadik pinctrl driver\n");
return PTR_ERR(npct->pctl);
}
platform_set_drvdata(pdev, npct);
dev_info(&pdev->dev, "initialized Nomadik pin control driver\n");
return 0;
}
static SIMPLE_DEV_PM_OPS(nmk_pinctrl_pm_ops,
nmk_pinctrl_suspend,
nmk_pinctrl_resume);
static struct platform_driver nmk_pinctrl_driver = {
.driver = {
.name = "pinctrl-nomadik",
.of_match_table = nmk_pinctrl_match,
.pm = &nmk_pinctrl_pm_ops,
},
.probe = nmk_pinctrl_probe,
};
static int __init nmk_pinctrl_init(void)
{
return platform_driver_register(&nmk_pinctrl_driver);
}
core_initcall(nmk_pinctrl_init);
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