pinebuds/platform/hal/hal_gpio.c

509 lines
15 KiB
C

/***************************************************************************
*
* Copyright 2015-2019 BES.
* All rights reserved. All unpublished rights reserved.
*
* No part of this work may be used or reproduced in any form or by any
* means, or stored in a database or retrieval system, without prior written
* permission of BES.
*
* Use of this work is governed by a license granted by BES.
* This work contains confidential and proprietary information of
* BES. which is protected by copyright, trade secret,
* trademark and other intellectual property rights.
*
****************************************************************************/
#include "stdarg.h"
#include "stdio.h"
#include "plat_types.h"
#include "plat_addr_map.h"
#include "hal_gpio.h"
#include "reg_gpio.h"
#include "hal_trace.h"
#include "cmsis_nvic.h"
#include "hal_uart.h"
#ifdef PMU_HAS_LED_PIN
#include "pmu.h"
#endif
#define HAL_GPIO_BANK_NUM 1
#define HAL_GPIO_PORT_NUM 1
#define HAL_GPIO_PIN_NUM_EACH_PORT (32)
#define HAL_GPIO_PIN_NUM_EACH_BANK (HAL_GPIO_PORT_NUM*HAL_GPIO_PIN_NUM_EACH_PORT)
#define HAL_GPIO_PIN_TO_BANK(pin) \
((pin)/HAL_GPIO_PIN_NUM_EACH_BANK)
#define HAL_GPIO_PIN_TO_PORT(pin) \
(((pin)%HAL_GPIO_PIN_NUM_EACH_BANK)/HAL_GPIO_PIN_NUM_EACH_PORT)
#ifdef GPIOAUX_BASE
#define HAL_GPIO_AUX_BANK_NUM 1
#define HAL_GPIO_AUX_PORT_NUM 1
#define HAL_GPIO_AUX_PIN_NUM_EACH_PORT (8)
#define HAL_GPIO_AUX_PIN_NUM_EACH_BANK (HAL_GPIO_AUX_PORT_NUM*HAL_GPIO_AUX_PIN_NUM_EACH_PORT)
#define HAL_GPIO_AUX_PIN_TO_BANK(pin) \
(((pin) - HAL_GPIO_PIN_P4_0)/HAL_GPIO_AUX_PIN_NUM_EACH_BANK)
#define HAL_GPIO_AUX_PIN_TO_PORT(pin) \
((((pin) - HAL_GPIO_PIN_P4_0)%HAL_GPIO_AUX_PIN_NUM_EACH_BANK)/HAL_GPIO_AUX_PIN_NUM_EACH_PORT)
#endif
typedef void (* _HAL_GPIO_IRQ_HANDLER)(void);
struct GPIO_PORT_T {
__IO uint32_t GPIO_DR; // 0x00
__IO uint32_t GPIO_DDR; // 0x04
__IO uint32_t GPIO_CTL; // 0x08
};
struct GPIO_BANK_T {
struct GPIO_PORT_T port[HAL_GPIO_PORT_NUM];
struct GPIO_PORT_T _port_reserved[3];
__IO uint32_t GPIO_INTEN; // 0x30
__IO uint32_t GPIO_INTMASK; // 0x34
__IO uint32_t GPIO_INTTYPE_LEVEL; // 0x38
__IO uint32_t GPIO_INT_POLARITY; // 0x3C
__I uint32_t GPIO_INTSTATUS; // 0x40
__I uint32_t GPIO_RAW_INTSTATUS; // 0x44
__IO uint32_t GPIO_DEBOUNCE; // 0x48
__IO uint32_t GPIO_PORTA_EOI; // 0x4C
__I uint32_t GPIO_EXT_PORT[HAL_GPIO_PORT_NUM]; // 0x50
__I uint32_t GPIO_EXT_PORT_reserved[3];
__IO uint32_t GPIO_LS_SYNC; // 0x60
};
void _hal_gpio_bank0_irq_handler(void);
static struct GPIO_BANK_T * const gpio_bank[HAL_GPIO_BANK_NUM] = { (struct GPIO_BANK_T *)GPIO_BASE, };
static HAL_GPIO_PIN_IRQ_HANDLER gpio_irq_handler[HAL_GPIO_PIN_NUM] = {0};
static _HAL_GPIO_IRQ_HANDLER _gpio_irq_handler[HAL_GPIO_BANK_NUM] = {_hal_gpio_bank0_irq_handler, };
#ifdef GPIOAUX_BASE
void _hal_gpio_aux_bank0_irq_handler(void);
static struct GPIO_BANK_T * const gpio_aux_bank[HAL_GPIO_BANK_NUM] = { (struct GPIO_BANK_T *)GPIOAUX_BASE, };
#if defined(CHIP_BEST2000) && defined(PMU_HAS_LED_PIN)
static struct GPIO_BANK_T * const aon_gpio_aux_bank[HAL_GPIO_BANK_NUM] = { (struct GPIO_BANK_T *)AON_GPIOAUX_BASE, };
#endif
static _HAL_GPIO_IRQ_HANDLER _gpio_aux_irq_handler[HAL_GPIO_AUX_BANK_NUM] = {_hal_gpio_aux_bank0_irq_handler, };
#endif
static const char * const err_bad_pin = "Bad GPIO pin %u (should < %u)";
enum HAL_GPIO_DIR_T hal_gpio_pin_get_dir(enum HAL_GPIO_PIN_T pin)
{
int pin_offset = 0;
int bank = 0, port = 0;
enum HAL_GPIO_DIR_T dir = 0;
enum HAL_GPIO_PIN_T max_pin = HAL_GPIO_PIN_NUM;
#ifdef PMU_HAS_LED_PIN
max_pin = HAL_GPIO_PIN_LED_NUM;
#endif
ASSERT(pin < max_pin, err_bad_pin, pin, max_pin);
if (0)
{
}
#ifdef PMU_HAS_LED_PIN
else if (pin == HAL_GPIO_PIN_LED1 || pin == HAL_GPIO_PIN_LED2)
{
return pmu_led_get_direction(pin);
}
#endif
#ifdef GPIOAUX_BASE
else if (pin >= HAL_GPIO_PIN_P4_0)
{
bank = HAL_GPIO_AUX_PIN_TO_BANK(pin);
port = HAL_GPIO_AUX_PIN_TO_PORT(pin);
pin_offset = pin%HAL_GPIO_AUX_PIN_NUM_EACH_PORT;
if (gpio_aux_bank[bank]->port[port].GPIO_DDR & (0x1<<pin_offset))
dir = HAL_GPIO_DIR_OUT;
else
dir = HAL_GPIO_DIR_IN;
}
#endif
else
{
bank = HAL_GPIO_PIN_TO_BANK(pin);
port = HAL_GPIO_PIN_TO_PORT(pin);
pin_offset = pin%HAL_GPIO_PIN_NUM_EACH_PORT;
if (gpio_bank[bank]->port[port].GPIO_DDR & (0x1<<pin_offset))
dir = HAL_GPIO_DIR_OUT;
else
dir = HAL_GPIO_DIR_IN;
}
return dir;
}
void hal_gpio_pin_set_dir(enum HAL_GPIO_PIN_T pin, enum HAL_GPIO_DIR_T dir, uint8_t val_for_out)
{
int pin_offset = 0;
int bank = 0, port = 0;
enum HAL_GPIO_PIN_T max_pin = HAL_GPIO_PIN_NUM;
#ifdef PMU_HAS_LED_PIN
max_pin = HAL_GPIO_PIN_LED_NUM;
#endif
ASSERT(pin < max_pin, err_bad_pin, pin, max_pin);
if(dir == HAL_GPIO_DIR_OUT) {
if(val_for_out) {
hal_gpio_pin_set(pin);
} else {
hal_gpio_pin_clr(pin);
}
}
if (0)
{
}
#ifdef PMU_HAS_LED_PIN
else if (pin == HAL_GPIO_PIN_LED1 || pin == HAL_GPIO_PIN_LED2)
{
pmu_led_set_direction(pin, dir);
}
#endif
#ifdef GPIOAUX_BASE
else if (pin >= HAL_GPIO_PIN_P4_0)
{
bank = HAL_GPIO_AUX_PIN_TO_BANK(pin);
port = HAL_GPIO_AUX_PIN_TO_PORT(pin);
pin_offset = pin%HAL_GPIO_AUX_PIN_NUM_EACH_PORT;
if(dir == HAL_GPIO_DIR_OUT)
gpio_aux_bank[bank]->port[port].GPIO_DDR |= 0x1<<pin_offset;
else
gpio_aux_bank[bank]->port[port].GPIO_DDR &= ~(0x1<<pin_offset);
}
#endif
else
{
bank = HAL_GPIO_PIN_TO_BANK(pin);
port = HAL_GPIO_PIN_TO_PORT(pin);
pin_offset = pin%HAL_GPIO_PIN_NUM_EACH_PORT;
if(dir == HAL_GPIO_DIR_OUT)
gpio_bank[bank]->port[port].GPIO_DDR |= 0x1<<pin_offset;
else
gpio_bank[bank]->port[port].GPIO_DDR &= ~(0x1<<pin_offset);
}
}
void hal_gpio_pin_set(enum HAL_GPIO_PIN_T pin)
{
int pin_offset = 0;
int bank = 0, port = 0;
enum HAL_GPIO_PIN_T max_pin = HAL_GPIO_PIN_NUM;
#ifdef PMU_HAS_LED_PIN
max_pin = HAL_GPIO_PIN_LED_NUM;
#endif
ASSERT(pin < max_pin, err_bad_pin, pin, max_pin);
if (0)
{
}
#ifdef PMU_HAS_LED_PIN
else if (pin == HAL_GPIO_PIN_LED1 || pin == HAL_GPIO_PIN_LED2)
{
#ifdef CHIP_BEST2000
pin_offset = pin - HAL_GPIO_PIN_LED1 + 6;
aon_gpio_aux_bank[0]->port[0].GPIO_DR |= 0x1<<pin_offset;
#else
pmu_led_set_value(pin, 1);
#endif
}
#endif
#ifdef GPIOAUX_BASE
else if (pin >= HAL_GPIO_PIN_P4_0)
{
bank = HAL_GPIO_AUX_PIN_TO_BANK(pin);
port = HAL_GPIO_AUX_PIN_TO_PORT(pin);
pin_offset = pin%HAL_GPIO_AUX_PIN_NUM_EACH_PORT;
gpio_aux_bank[bank]->port[port].GPIO_DR |= 0x1<<pin_offset;
}
#endif
else
{
bank = HAL_GPIO_PIN_TO_BANK(pin);
port = HAL_GPIO_PIN_TO_PORT(pin);
pin_offset = pin%HAL_GPIO_PIN_NUM_EACH_PORT;
gpio_bank[bank]->port[port].GPIO_DR |= 0x1<<pin_offset;
}
}
void hal_gpio_pin_clr(enum HAL_GPIO_PIN_T pin)
{
int pin_offset = 0;
int bank = 0, port = 0;
enum HAL_GPIO_PIN_T max_pin = HAL_GPIO_PIN_NUM;
#ifdef PMU_HAS_LED_PIN
max_pin = HAL_GPIO_PIN_LED_NUM;
#endif
ASSERT(pin < max_pin, err_bad_pin, pin, max_pin);
if (0)
{
}
#ifdef PMU_HAS_LED_PIN
else if (pin == HAL_GPIO_PIN_LED1 || pin == HAL_GPIO_PIN_LED2)
{
#ifdef CHIP_BEST2000
pin_offset = pin - HAL_GPIO_PIN_LED1 + 6;
aon_gpio_aux_bank[0]->port[0].GPIO_DR &= ~(0x1<<pin_offset);
#else
pmu_led_set_value(pin, 0);
#endif
}
#endif
#ifdef GPIOAUX_BASE
else if (pin >= HAL_GPIO_PIN_P4_0)
{
bank = HAL_GPIO_AUX_PIN_TO_BANK(pin);
port = HAL_GPIO_AUX_PIN_TO_PORT(pin);
pin_offset = pin%HAL_GPIO_AUX_PIN_NUM_EACH_PORT;
gpio_aux_bank[bank]->port[port].GPIO_DR &= ~(0x1<<pin_offset);
}
#endif
else
{
bank = HAL_GPIO_PIN_TO_BANK(pin);
port = HAL_GPIO_PIN_TO_PORT(pin);
pin_offset = pin%HAL_GPIO_PIN_NUM_EACH_PORT;
gpio_bank[bank]->port[port].GPIO_DR &= ~(0x1<<pin_offset);
}
}
uint8_t hal_gpio_pin_get_val(enum HAL_GPIO_PIN_T pin)
{
int pin_offset = 0;
int bank = 0, port = 0;
enum HAL_GPIO_PIN_T max_pin = HAL_GPIO_PIN_NUM;
#ifdef PMU_HAS_LED_PIN
max_pin = HAL_GPIO_PIN_LED_NUM;
#endif
ASSERT(pin < max_pin, err_bad_pin, pin, max_pin);
if (0)
{
}
#ifdef PMU_HAS_LED_PIN
else if (pin == HAL_GPIO_PIN_LED1 || pin == HAL_GPIO_PIN_LED2)
{
#ifdef CHIP_BEST2000
pin_offset = pin - HAL_GPIO_PIN_LED1 + 6;
return (((aon_gpio_aux_bank[0]->GPIO_EXT_PORT[0]) & (0x1<<pin_offset)) >> pin_offset);
#else
return pmu_led_get_value(pin);
#endif
}
#endif
#ifdef GPIOAUX_BASE
else if (pin >= HAL_GPIO_PIN_P4_0)
{
bank = HAL_GPIO_AUX_PIN_TO_BANK(pin);
port = HAL_GPIO_AUX_PIN_TO_PORT(pin);
pin_offset = pin%HAL_GPIO_AUX_PIN_NUM_EACH_PORT;
/* when as input : read back outside signal value */
/* when as output: read back DR register value ,same as read back DR register */
return (((gpio_aux_bank[bank]->GPIO_EXT_PORT[port]) & (0x1<<pin_offset)) >> pin_offset);
}
#endif
else
{
bank = HAL_GPIO_PIN_TO_BANK(pin);
port = HAL_GPIO_PIN_TO_PORT(pin);
pin_offset = pin%HAL_GPIO_PIN_NUM_EACH_PORT;
/* when as input : read back outside signal value */
/* when as output: read back DR register value ,same as read back DR register */
return (((gpio_bank[bank]->GPIO_EXT_PORT[port]) & (0x1<<pin_offset)) >> pin_offset);
}
}
void _hal_gpio_bank0_irq_handler(void)
{
uint32_t raw_status = 0, bank = 0, pin_offset = 0;
raw_status = gpio_bank[bank]->GPIO_RAW_INTSTATUS;
if (raw_status == 0)
{
return;
}
/* clear irq */
gpio_bank[bank]->GPIO_PORTA_EOI = raw_status;
while (raw_status) {
if (raw_status & 0x1) {
if (gpio_irq_handler[pin_offset]) {
gpio_irq_handler[pin_offset](pin_offset + bank*HAL_GPIO_PIN_NUM_EACH_BANK);
}
}
raw_status >>= 1;
++pin_offset;
}
}
#ifdef GPIOAUX_BASE
void _hal_gpio_aux_bank0_irq_handler(void)
{
uint32_t raw_status = 0, bank = 0, pin_offset = 0;
raw_status = 0;
bank = 0;
pin_offset = 0;
raw_status = gpio_aux_bank[bank]->GPIO_RAW_INTSTATUS;
if (raw_status == 0)
return;
/* clear irq */
gpio_aux_bank[bank]->GPIO_PORTA_EOI = raw_status;
while (raw_status) {
if (raw_status & 0x1) {
if (gpio_irq_handler[pin_offset + HAL_GPIO_PIN_P4_0]) {
gpio_irq_handler[pin_offset + HAL_GPIO_PIN_P4_0](pin_offset + HAL_GPIO_PIN_P4_0 + bank*HAL_GPIO_PIN_NUM_EACH_BANK);
}
}
raw_status >>= 1;
++pin_offset;
}
}
#endif
uint8_t hal_gpio_setup_irq(enum HAL_GPIO_PIN_T pin, const struct HAL_GPIO_IRQ_CFG_T *cfg)
{
int pin_offset = 0;
int bank = 0, port = 0;
enum HAL_GPIO_PIN_T max_pin = HAL_GPIO_PIN_NUM;
#if defined(PMU_HAS_LED_PIN) && defined(PMU_HAS_LED_IRQ)
max_pin = HAL_GPIO_PIN_LED_NUM;
#endif
ASSERT(pin < max_pin, err_bad_pin, pin, max_pin);
if (0)
{
}
#if defined(PMU_HAS_LED_PIN) && defined(PMU_HAS_LED_IRQ)
else if (pin == HAL_GPIO_PIN_LED1 || pin == HAL_GPIO_PIN_LED2)
{
return pmu_gpio_setup_irq(pin, cfg);
}
#endif
#ifdef GPIOAUX_BASE
else if (pin >= HAL_GPIO_PIN_P4_0)
{
bank = HAL_GPIO_AUX_PIN_TO_BANK(pin);
port = HAL_GPIO_AUX_PIN_TO_PORT(pin);
pin_offset = pin%HAL_GPIO_AUX_PIN_NUM_EACH_PORT;
/* only port A support irq */
if (port != 0)
return 0;
if (cfg->irq_enable) {
gpio_aux_bank[bank]->GPIO_INTMASK |= (0x1<<pin_offset);
if (cfg->irq_debounce)
gpio_aux_bank[bank]->GPIO_DEBOUNCE |= 0x1<<pin_offset;
else
gpio_aux_bank[bank]->GPIO_DEBOUNCE &= ~(0x1<<pin_offset);
if (cfg->irq_type == HAL_GPIO_IRQ_TYPE_EDGE_SENSITIVE)
gpio_aux_bank[bank]->GPIO_INTTYPE_LEVEL |= 0x1<<pin_offset;
else
gpio_aux_bank[bank]->GPIO_INTTYPE_LEVEL &= ~(0x1<<pin_offset);
if (cfg->irq_polarity == HAL_GPIO_IRQ_POLARITY_HIGH_RISING)
gpio_aux_bank[bank]->GPIO_INT_POLARITY |= 0x1<<pin_offset;
else
gpio_aux_bank[bank]->GPIO_INT_POLARITY &= ~(0x1<<pin_offset);
gpio_irq_handler[pin] = cfg->irq_handler;
NVIC_SetVector(GPIOAUX_IRQn, (uint32_t)_gpio_aux_irq_handler[bank]);
NVIC_SetPriority(GPIOAUX_IRQn, IRQ_PRIORITY_NORMAL);
NVIC_EnableIRQ(GPIOAUX_IRQn);
gpio_aux_bank[bank]->GPIO_INTMASK &= ~(0x1<<pin_offset);
gpio_aux_bank[bank]->GPIO_INTEN |= 0x1<<pin_offset;
}
else {
gpio_aux_bank[bank]->GPIO_INTMASK |= (0x1<<pin_offset);
gpio_aux_bank[bank]->GPIO_INTEN &= ~(0x1<<pin_offset);
gpio_irq_handler[pin] = 0;
}
}
#endif
else
{
bank = HAL_GPIO_PIN_TO_BANK(pin);
port = HAL_GPIO_PIN_TO_PORT(pin);
pin_offset = pin%HAL_GPIO_PIN_NUM_EACH_PORT;
/* only port A support irq */
if (port != 0)
return 0;
if (cfg->irq_enable) {
gpio_bank[bank]->GPIO_INTMASK |= (0x1<<pin_offset);
if (cfg->irq_debounce)
gpio_bank[bank]->GPIO_DEBOUNCE |= 0x1<<pin_offset;
else
gpio_bank[bank]->GPIO_DEBOUNCE &= ~(0x1<<pin_offset);
if (cfg->irq_type == HAL_GPIO_IRQ_TYPE_EDGE_SENSITIVE)
gpio_bank[bank]->GPIO_INTTYPE_LEVEL |= 0x1<<pin_offset;
else
gpio_bank[bank]->GPIO_INTTYPE_LEVEL &= ~(0x1<<pin_offset);
if (cfg->irq_polarity == HAL_GPIO_IRQ_POLARITY_HIGH_RISING)
gpio_bank[bank]->GPIO_INT_POLARITY |= 0x1<<pin_offset;
else
gpio_bank[bank]->GPIO_INT_POLARITY &= ~(0x1<<pin_offset);
gpio_irq_handler[pin] = cfg->irq_handler;
NVIC_SetVector(GPIO_IRQn, (uint32_t)_gpio_irq_handler[bank]);
NVIC_SetPriority(GPIO_IRQn, IRQ_PRIORITY_NORMAL);
NVIC_EnableIRQ(GPIO_IRQn);
gpio_bank[bank]->GPIO_INTMASK &= ~(0x1<<pin_offset);
gpio_bank[bank]->GPIO_INTEN |= 0x1<<pin_offset;
}
else {
gpio_bank[bank]->GPIO_INTMASK |= (0x1<<pin_offset);
gpio_bank[bank]->GPIO_INTEN &= ~(0x1<<pin_offset);
gpio_irq_handler[pin] = 0;
}
}
return 0;
}