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/*
* Copyright (c) 2016-2021, ARM Limited and Contributors. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <assert.h>
#include <errno.h>
#include <platform_def.h>
#include <common/debug.h>
#include <drivers/delay_timer.h>
#include <drivers/gpio.h>
#include <lib/mmio.h>
#include <plat/common/platform.h>
#include <plat_private.h>
#include <soc.h>
struct gpio_save {
uint32_t swporta_dr;
uint32_t swporta_ddr;
uint32_t inten;
uint32_t intmask;
uint32_t inttype_level;
uint32_t int_polarity;
uint32_t debounce;
uint32_t ls_sync;
} store_gpio[3];
static uint32_t store_grf_gpio[(GRF_GPIO2D_HE - GRF_GPIO2A_IOMUX) / 4 + 1];
#define SWPORTA_DR 0x00
#define SWPORTA_DDR 0x04
#define INTEN 0x30
#define INTMASK 0x34
#define INTTYPE_LEVEL 0x38
#define INT_POLARITY 0x3c
#define DEBOUNCE 0x48
#define LS_SYNC 0x60
#define EXT_PORTA 0x50
#define PMU_GPIO_PORT0 0
#define PMU_GPIO_PORT1 1
#define GPIO_PORT2 2
#define GPIO_PORT3 3
#define GPIO_PORT4 4
#define PMU_GRF_GPIO0A_P 0x40
#define GRF_GPIO2A_P 0xe040
#define GPIO_P_MASK 0x03
#define GET_GPIO_PORT(pin) (pin / 32)
#define GET_GPIO_NUM(pin) (pin % 32)
#define GET_GPIO_BANK(pin) ((pin % 32) / 8)
#define GET_GPIO_ID(pin) ((pin % 32) % 8)
enum {
ENC_ZDZU,
ENC_ZUDR,
ENC_ZUDZ,
NUM_ENC
};
static const struct port_info {
uint32_t clkgate_reg;
uint32_t pull_base;
uint32_t port_base;
/*
* Selects the pull mode encoding per bank,
* first index for pull_type_{hw2sw,sw2hw}
*/
uint8_t pull_enc[4];
uint8_t clkgate_bit;
uint8_t max_bank;
} port_info[] = {
{
.clkgate_reg = PMUCRU_BASE + CRU_PMU_CLKGATE_CON(1),
.pull_base = PMUGRF_BASE + PMUGRF_GPIO0A_P,
.port_base = GPIO0_BASE,
.pull_enc = {ENC_ZDZU, ENC_ZDZU},
.clkgate_bit = PCLK_GPIO0_GATE_SHIFT,
.max_bank = 1,
}, {
.clkgate_reg = PMUCRU_BASE + CRU_PMU_CLKGATE_CON(1),
.pull_base = PMUGRF_BASE + PMUGRF_GPIO1A_P,
.port_base = GPIO1_BASE,
.pull_enc = {ENC_ZUDR, ENC_ZUDR, ENC_ZUDR, ENC_ZUDR},
.clkgate_bit = PCLK_GPIO1_GATE_SHIFT,
.max_bank = 3,
}, {
.clkgate_reg = CRU_BASE + CRU_CLKGATE_CON(31),
.pull_base = GRF_BASE + GRF_GPIO2A_P,
.port_base = GPIO2_BASE,
.pull_enc = {ENC_ZUDR, ENC_ZUDR, ENC_ZDZU, ENC_ZDZU},
.clkgate_bit = PCLK_GPIO2_GATE_SHIFT,
.max_bank = 3,
}, {
.clkgate_reg = CRU_BASE + CRU_CLKGATE_CON(31),
.pull_base = GRF_BASE + GRF_GPIO3A_P,
.port_base = GPIO3_BASE,
.pull_enc = {ENC_ZUDR, ENC_ZUDR, ENC_ZUDR, ENC_ZUDR},
.clkgate_bit = PCLK_GPIO3_GATE_SHIFT,
.max_bank = 3,
}, {
.clkgate_reg = CRU_BASE + CRU_CLKGATE_CON(31),
.pull_base = GRF_BASE + GRF_GPIO4A_P,
.port_base = GPIO4_BASE,
.pull_enc = {ENC_ZUDR, ENC_ZUDR, ENC_ZUDR, ENC_ZUDR},
.clkgate_bit = PCLK_GPIO4_GATE_SHIFT,
.max_bank = 3,
}
};
/*
* Mappings between TF-A constants and hardware encodings:
* there are 3 different encoding schemes that may differ between
* banks of the same port: the corresponding value of the pull_enc array
* in port_info is used as the first index
*/
static const uint8_t pull_type_hw2sw[NUM_ENC][4] = {
[ENC_ZDZU] = {GPIO_PULL_NONE, GPIO_PULL_DOWN, GPIO_PULL_NONE, GPIO_PULL_UP},
[ENC_ZUDR] = {GPIO_PULL_NONE, GPIO_PULL_UP, GPIO_PULL_DOWN, GPIO_PULL_REPEATER},
[ENC_ZUDZ] = {GPIO_PULL_NONE, GPIO_PULL_UP, GPIO_PULL_DOWN, GPIO_PULL_NONE}
};
static const uint8_t pull_type_sw2hw[NUM_ENC][4] = {
[ENC_ZDZU] = {
[GPIO_PULL_NONE] = 0,
[GPIO_PULL_DOWN] = 1,
[GPIO_PULL_UP] = 3,
[GPIO_PULL_REPEATER] = -1
},
[ENC_ZUDR] = {
[GPIO_PULL_NONE] = 0,
[GPIO_PULL_DOWN] = 2,
[GPIO_PULL_UP] = 1,
[GPIO_PULL_REPEATER] = 3
},
[ENC_ZUDZ] = {
[GPIO_PULL_NONE] = 0,
[GPIO_PULL_DOWN] = 2,
[GPIO_PULL_UP] = 1,
[GPIO_PULL_REPEATER] = -1
}
};
/* Return old clock state, enables clock, in order to do GPIO access */
static int gpio_get_clock(uint32_t gpio_number)
{
uint32_t port = GET_GPIO_PORT(gpio_number);
assert(port < 5U);
const struct port_info *info = &port_info[port];
if ((mmio_read_32(info->clkgate_reg) & (1U << info->clkgate_bit)) == 0U) {
return 0;
}
mmio_write_32(
info->clkgate_reg,
BITS_WITH_WMASK(0, 1, info->clkgate_bit)
);
return 1;
}
/* Restore old state of gpio clock, assuming it is running now */
void gpio_put_clock(uint32_t gpio_number, uint32_t clock_state)
{
if (clock_state == 0) {
return;
}
uint32_t port = GET_GPIO_PORT(gpio_number);
const struct port_info *info = &port_info[port];
mmio_write_32(info->clkgate_reg, BITS_WITH_WMASK(1, 1, info->clkgate_bit));
}
static int get_pull(int gpio)
{
uint32_t port = GET_GPIO_PORT(gpio);
uint32_t bank = GET_GPIO_BANK(gpio);
uint32_t id = GET_GPIO_ID(gpio);
uint32_t val, clock_state;
assert(port < 5U);
const struct port_info *info = &port_info[port];
assert(bank <= info->max_bank);
clock_state = gpio_get_clock(gpio);
val = (mmio_read_32(info->pull_base + 4 * bank) >> (id * 2)) & GPIO_P_MASK;
gpio_put_clock(gpio, clock_state);
return pull_type_hw2sw[info->pull_enc[bank]][val];
}
static void set_pull(int gpio, int pull)
{
uint32_t port = GET_GPIO_PORT(gpio);
uint32_t bank = GET_GPIO_BANK(gpio);
uint32_t id = GET_GPIO_ID(gpio);
uint32_t clock_state;
assert(port < 5U);
const struct port_info *info = &port_info[port];
assert(bank <= info->max_bank);
uint8_t val = pull_type_sw2hw[info->pull_enc[bank]][pull];
assert(val != (uint8_t)-1);
clock_state = gpio_get_clock(gpio);
mmio_write_32(
info->pull_base + 4 * bank,
BITS_WITH_WMASK(val, GPIO_P_MASK, id * 2)
);
gpio_put_clock(gpio, clock_state);
}
static void set_direction(int gpio, int direction)
{
uint32_t port = GET_GPIO_PORT(gpio);
uint32_t num = GET_GPIO_NUM(gpio);
uint32_t clock_state;
assert((port < 5) && (num < 32));
clock_state = gpio_get_clock(gpio);
/*
* in gpio.h
* #define GPIO_DIR_OUT 0
* #define GPIO_DIR_IN 1
* but rk3399 gpio direction 1: output, 0: input
* so need to revert direction value
*/
mmio_setbits_32(
port_info[port].port_base + SWPORTA_DDR,
((direction == 0) ? 1 : 0) << num
);
gpio_put_clock(gpio, clock_state);
}
static int get_direction(int gpio)
{
uint32_t port = GET_GPIO_PORT(gpio);
uint32_t num = GET_GPIO_NUM(gpio);
int direction, clock_state;
assert((port < 5U) && (num < 32U));
clock_state = gpio_get_clock(gpio);
/*
* in gpio.h
* #define GPIO_DIR_OUT 0
* #define GPIO_DIR_IN 1
* but rk3399 gpio direction 1: output, 0: input
* so need to revert direction value
*/
direction = (((mmio_read_32(
port_info[port].port_base + SWPORTA_DDR
) >> num) & 1U) == 0) ? 1 : 0;
gpio_put_clock(gpio, clock_state);
return direction;
}
static int get_value(int gpio)
{
uint32_t port = GET_GPIO_PORT(gpio);
uint32_t num = GET_GPIO_NUM(gpio);
int value, clock_state;
assert((port < 5) && (num < 32));
clock_state = gpio_get_clock(gpio);
value = (mmio_read_32(port_info[port].port_base + EXT_PORTA) >> num) &
0x1U;
gpio_put_clock(gpio, clock_state);
return value;
}
static void set_value(int gpio, int value)
{
uint32_t port = GET_GPIO_PORT(gpio);
uint32_t num = GET_GPIO_NUM(gpio);
uint32_t clock_state;
assert((port < 5U) && (num < 32U));
clock_state = gpio_get_clock(gpio);
mmio_clrsetbits_32(
port_info[port].port_base + SWPORTA_DR,
1 << num,
((value == 0) ? 0 : 1) << num
);
gpio_put_clock(gpio, clock_state);
}
void plat_rockchip_save_gpio(void)
{
unsigned int i;
uint32_t cru_gate_save;
cru_gate_save = mmio_read_32(CRU_BASE + CRU_CLKGATE_CON(31));
/*
* when shutdown logic, we need to save gpio2 ~ gpio4 register,
* we need to enable gpio2 ~ gpio4 clock here, since it may be gating,
* and we do not care gpio0 and gpio1 clock gate, since we never
* gating them
*/
mmio_write_32(CRU_BASE + CRU_CLKGATE_CON(31),
BITS_WITH_WMASK(0, 0x07, PCLK_GPIO2_GATE_SHIFT));
/*
* since gpio0, gpio1 are pmugpio, they will keep ther value
* when shutdown logic power rail, so only need to save gpio2 ~ gpio4
* register value
*/
for (i = 2; i < 5; i++) {
uint32_t base = port_info[i].port_base;
store_gpio[i - 2] = (struct gpio_save) {
.swporta_dr = mmio_read_32(base + SWPORTA_DR),
.swporta_ddr = mmio_read_32(base + SWPORTA_DDR),
.inten = mmio_read_32(base + INTEN),
.intmask = mmio_read_32(base + INTMASK),
.inttype_level = mmio_read_32(base + INTTYPE_LEVEL),
.int_polarity = mmio_read_32(base + INT_POLARITY),
.debounce = mmio_read_32(base + DEBOUNCE),
.ls_sync = mmio_read_32(base + LS_SYNC),
};
}
mmio_write_32(CRU_BASE + CRU_CLKGATE_CON(31),
cru_gate_save | REG_SOC_WMSK);
/*
* gpio0, gpio1 in pmuiomux, they will keep ther value
* when shutdown logic power rail, so only need to save gpio2 ~ gpio4
* iomux register value
*/
for (i = 0; i < ARRAY_SIZE(store_grf_gpio); i++)
store_grf_gpio[i] =
mmio_read_32(GRF_BASE + GRF_GPIO2A_IOMUX + i * 4);
}
void plat_rockchip_restore_gpio(void)
{
int i;
uint32_t cru_gate_save;
for (i = 0; i < ARRAY_SIZE(store_grf_gpio); i++)
mmio_write_32(GRF_BASE + GRF_GPIO2A_IOMUX + i * 4,
REG_SOC_WMSK | store_grf_gpio[i]);
cru_gate_save = mmio_read_32(CRU_BASE + CRU_CLKGATE_CON(31));
/*
* when shutdown logic, we need to save gpio2 ~ gpio4 register,
* we need to enable gpio2 ~ gpio4 clock here, since it may be gating,
* and we do not care gpio0 and gpio1 clock gate, since we never
* gating them
*/
mmio_write_32(CRU_BASE + CRU_CLKGATE_CON(31),
BITS_WITH_WMASK(0, 0x07, PCLK_GPIO2_GATE_SHIFT));
for (i = 2; i < 5; i++) {
uint32_t base = port_info[i].port_base;
const struct gpio_save *save = &store_gpio[i - 2];
mmio_write_32(base + SWPORTA_DR, save->swporta_dr);
mmio_write_32(base + SWPORTA_DDR, save->swporta_ddr);
mmio_write_32(base + INTEN, save->inten);
mmio_write_32(base + INTMASK, save->intmask);
mmio_write_32(base + INTTYPE_LEVEL, save->inttype_level),
mmio_write_32(base + INT_POLARITY, save->int_polarity);
mmio_write_32(base + DEBOUNCE, save->debounce);
mmio_write_32(base + LS_SYNC, save->ls_sync);
}
mmio_write_32(CRU_BASE + CRU_CLKGATE_CON(31),
cru_gate_save | REG_SOC_WMSK);
}
const gpio_ops_t rk3399_gpio_ops = {
.get_direction = get_direction,
.set_direction = set_direction,
.get_value = get_value,
.set_value = set_value,
.set_pull = set_pull,
.get_pull = get_pull,
};
void plat_rockchip_gpio_init(void)
{
gpio_init(&rk3399_gpio_ops);
}
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