WSL2-Linux-Kernel/drivers/pinctrl/mediatek/pinctrl-mtk-common-v2.c

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C
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// SPDX-License-Identifier: GPL-2.0
/*
* Copyright (C) 2018 MediaTek Inc.
*
* Author: Sean Wang <sean.wang@mediatek.com>
*
*/
#include <linux/device.h>
#include <linux/err.h>
#include <linux/gpio.h>
#include <linux/io.h>
#include "pinctrl-mtk-common-v2.h"
/**
* struct mtk_drive_desc - the structure that holds the information
* of the driving current
* @min: the minimum current of this group
* @max: the maximum current of this group
* @step: the step current of this group
* @scal: the weight factor
*
* formula: output = ((input) / step - 1) * scal
*/
struct mtk_drive_desc {
u8 min;
u8 max;
u8 step;
u8 scal;
};
/* The groups of drive strength */
const struct mtk_drive_desc mtk_drive[] = {
[DRV_GRP0] = { 4, 16, 4, 1 },
[DRV_GRP1] = { 4, 16, 4, 2 },
[DRV_GRP2] = { 2, 8, 2, 1 },
[DRV_GRP3] = { 2, 8, 2, 2 },
[DRV_GRP4] = { 2, 16, 2, 1 },
};
static void mtk_w32(struct mtk_pinctrl *pctl, u32 reg, u32 val)
{
writel_relaxed(val, pctl->base + reg);
}
static u32 mtk_r32(struct mtk_pinctrl *pctl, u32 reg)
{
return readl_relaxed(pctl->base + reg);
}
void mtk_rmw(struct mtk_pinctrl *pctl, u32 reg, u32 mask, u32 set)
{
u32 val;
val = mtk_r32(pctl, reg);
val &= ~mask;
val |= set;
mtk_w32(pctl, reg, val);
}
static int mtk_hw_pin_field_lookup(struct mtk_pinctrl *hw, int pin,
const struct mtk_pin_reg_calc *rc,
struct mtk_pin_field *pfd)
{
const struct mtk_pin_field_calc *c, *e;
u32 bits;
c = rc->range;
e = c + rc->nranges;
while (c < e) {
if (pin >= c->s_pin && pin <= c->e_pin)
break;
c++;
}
if (c >= e) {
dev_err(hw->dev, "Out of range for pin = %d\n", pin);
return -EINVAL;
}
/* Calculated bits as the overall offset the pin is located at,
* if c->fixed is held, that determines the all the pins in the
* range use the same field with the s_pin.
*/
bits = c->fixed ? c->s_bit : c->s_bit + (pin - c->s_pin) * (c->x_bits);
/* Fill pfd from bits. For example 32-bit register applied is assumed
* when c->sz_reg is equal to 32.
*/
pfd->offset = c->s_addr + c->x_addrs * (bits / c->sz_reg);
pfd->bitpos = bits % c->sz_reg;
pfd->mask = (1 << c->x_bits) - 1;
/* pfd->next is used for indicating that bit wrapping-around happens
* which requires the manipulation for bit 0 starting in the next
* register to form the complete field read/write.
*/
pfd->next = pfd->bitpos + c->x_bits > c->sz_reg ? c->x_addrs : 0;
return 0;
}
static int mtk_hw_pin_field_get(struct mtk_pinctrl *hw, int pin,
int field, struct mtk_pin_field *pfd)
{
const struct mtk_pin_reg_calc *rc;
if (field < 0 || field >= PINCTRL_PIN_REG_MAX) {
dev_err(hw->dev, "Invalid Field %d\n", field);
return -EINVAL;
}
if (hw->soc->reg_cal && hw->soc->reg_cal[field].range) {
rc = &hw->soc->reg_cal[field];
} else {
dev_err(hw->dev, "Undefined range for field %d\n", field);
return -EINVAL;
}
return mtk_hw_pin_field_lookup(hw, pin, rc, pfd);
}
static void mtk_hw_bits_part(struct mtk_pin_field *pf, int *h, int *l)
{
*l = 32 - pf->bitpos;
*h = get_count_order(pf->mask) - *l;
}
static void mtk_hw_write_cross_field(struct mtk_pinctrl *hw,
struct mtk_pin_field *pf, int value)
{
int nbits_l, nbits_h;
mtk_hw_bits_part(pf, &nbits_h, &nbits_l);
mtk_rmw(hw, pf->offset, pf->mask << pf->bitpos,
(value & pf->mask) << pf->bitpos);
mtk_rmw(hw, pf->offset + pf->next, BIT(nbits_h) - 1,
(value & pf->mask) >> nbits_l);
}
static void mtk_hw_read_cross_field(struct mtk_pinctrl *hw,
struct mtk_pin_field *pf, int *value)
{
int nbits_l, nbits_h, h, l;
mtk_hw_bits_part(pf, &nbits_h, &nbits_l);
l = (mtk_r32(hw, pf->offset) >> pf->bitpos) & (BIT(nbits_l) - 1);
h = (mtk_r32(hw, pf->offset + pf->next)) & (BIT(nbits_h) - 1);
*value = (h << nbits_l) | l;
}
int mtk_hw_set_value(struct mtk_pinctrl *hw, int pin, int field, int value)
{
struct mtk_pin_field pf;
int err;
err = mtk_hw_pin_field_get(hw, pin, field, &pf);
if (err)
return err;
if (!pf.next)
mtk_rmw(hw, pf.offset, pf.mask << pf.bitpos,
(value & pf.mask) << pf.bitpos);
else
mtk_hw_write_cross_field(hw, &pf, value);
return 0;
}
int mtk_hw_get_value(struct mtk_pinctrl *hw, int pin, int field, int *value)
{
struct mtk_pin_field pf;
int err;
err = mtk_hw_pin_field_get(hw, pin, field, &pf);
if (err)
return err;
if (!pf.next)
*value = (mtk_r32(hw, pf.offset) >> pf.bitpos) & pf.mask;
else
mtk_hw_read_cross_field(hw, &pf, value);
return 0;
}
/* Revision 0 */
int mtk_pinconf_drive_set(struct mtk_pinctrl *hw,
const struct mtk_pin_desc *desc, u32 arg)
{
const struct mtk_drive_desc *tb;
int err = -ENOTSUPP;
tb = &mtk_drive[desc->drv_n];
/* 4mA when (e8, e4) = (0, 0)
* 8mA when (e8, e4) = (0, 1)
* 12mA when (e8, e4) = (1, 0)
* 16mA when (e8, e4) = (1, 1)
*/
if ((arg >= tb->min && arg <= tb->max) && !(arg % tb->step)) {
arg = (arg / tb->step - 1) * tb->scal;
err = mtk_hw_set_value(hw, desc->number, PINCTRL_PIN_REG_E4,
arg & 0x1);
if (err)
return err;
err = mtk_hw_set_value(hw, desc->number, PINCTRL_PIN_REG_E8,
(arg & 0x2) >> 1);
if (err)
return err;
}
return err;
}
int mtk_pinconf_drive_get(struct mtk_pinctrl *hw,
const struct mtk_pin_desc *desc, int *val)
{
const struct mtk_drive_desc *tb;
int err, val1, val2;
tb = &mtk_drive[desc->drv_n];
err = mtk_hw_get_value(hw, desc->number, PINCTRL_PIN_REG_E4, &val1);
if (err)
return err;
err = mtk_hw_get_value(hw, desc->number, PINCTRL_PIN_REG_E8, &val2);
if (err)
return err;
/* 4mA when (e8, e4) = (0, 0); 8mA when (e8, e4) = (0, 1)
* 12mA when (e8, e4) = (1, 0); 16mA when (e8, e4) = (1, 1)
*/
*val = (((val2 << 1) + val1) / tb->scal + 1) * tb->step;
return 0;
}
/* Revision 1 */
int mtk_pinconf_drive_set_rev1(struct mtk_pinctrl *hw,
const struct mtk_pin_desc *desc, u32 arg)
{
const struct mtk_drive_desc *tb;
int err = -ENOTSUPP;
tb = &mtk_drive[desc->drv_n];
if ((arg >= tb->min && arg <= tb->max) && !(arg % tb->step)) {
arg = (arg / tb->step - 1) * tb->scal;
err = mtk_hw_set_value(hw, desc->number, PINCTRL_PIN_REG_DRV,
arg);
if (err)
return err;
}
return err;
}
int mtk_pinconf_drive_get_rev1(struct mtk_pinctrl *hw,
const struct mtk_pin_desc *desc, int *val)
{
const struct mtk_drive_desc *tb;
int err, val1;
tb = &mtk_drive[desc->drv_n];
err = mtk_hw_get_value(hw, desc->number, PINCTRL_PIN_REG_DRV, &val1);
if (err)
return err;
*val = ((val1 & 0x7) / tb->scal + 1) * tb->step;
return 0;
}