/* * Copyright (c) 2024 Renesas Electronics Corporation * * SPDX-License-Identifier: Apache-2.0 */ #define DT_DRV_COMPAT renesas_rz_gpio #include #include #include #include #include "r_ioport.h" #include #include #include "gpio_renesas_rz.h" #include LOG_MODULE_REGISTER(rz_gpio, CONFIG_GPIO_LOG_LEVEL); #define LOG_DEV_ERR(dev, format, ...) LOG_ERR("%s:" #format, (dev)->name, ##__VA_ARGS__) #define LOG_DEV_DBG(dev, format, ...) LOG_DBG("%s:" #format, (dev)->name, ##__VA_ARGS__) struct gpio_rz_config { struct gpio_driver_config common; uint8_t ngpios; uint8_t port_num; bsp_io_port_t fsp_port; const ioport_cfg_t *fsp_cfg; const ioport_api_t *fsp_api; const struct device *int_dev; uint8_t tint_num[GPIO_RZ_MAX_TINT_NUM]; }; struct gpio_rz_data { struct gpio_driver_data common; sys_slist_t cb; ioport_instance_ctrl_t *fsp_ctrl; struct k_spinlock lock; }; struct gpio_rz_tint_isr_data { const struct device *gpio_dev; gpio_pin_t pin; }; struct gpio_rz_tint_data { struct gpio_rz_tint_isr_data tint_data[GPIO_RZ_MAX_TINT_NUM]; uint32_t irq_set_edge; }; struct gpio_rz_tint_config { void (*gpio_int_init)(void); }; static int gpio_rz_pin_config_get_raw(bsp_io_port_pin_t port_pin, uint32_t *flags); #ifdef CONFIG_GPIO_GET_CONFIG static int gpio_rz_pin_get_config(const struct device *dev, gpio_pin_t pin, gpio_flags_t *flags) { const struct gpio_rz_config *config = dev->config; bsp_io_port_pin_t port_pin = config->fsp_port | pin; gpio_rz_pin_config_get_raw(port_pin, flags); return 0; } #endif /* Get previous pin's configuration, used by pin_configure/pin_interrupt_configure api */ static int gpio_rz_pin_config_get_raw(bsp_io_port_pin_t port_pin, uint32_t *flags) { bsp_io_port_t port = (port_pin >> 8U) & 0xFF; gpio_pin_t pin = port_pin & 0xFF; volatile uint8_t *p_p = GPIO_RZ_IOPORT_P_REG_BASE_GET; volatile uint16_t *p_pm = GPIO_RZ_IOPORT_PM_REG_BASE_GET; uint8_t adr_offset; uint8_t p_value; uint16_t pm_value; adr_offset = (uint8_t)GPIO_RZ_REG_OFFSET(port, pin); p_p = &p_p[adr_offset]; p_pm = &p_pm[adr_offset]; p_value = GPIO_RZ_P_VALUE_GET(*p_p, pin); pm_value = GPIO_RZ_PM_VALUE_GET(*p_pm, pin); if (p_value) { *flags |= GPIO_OUTPUT_INIT_HIGH; } else { *flags |= GPIO_OUTPUT_INIT_LOW; } *flags |= ((pm_value << 16)); return 0; } static int gpio_rz_pin_configure(const struct device *dev, gpio_pin_t pin, gpio_flags_t flags) { const struct gpio_rz_config *config = dev->config; struct gpio_rz_data *data = dev->data; bsp_io_port_pin_t port_pin = config->fsp_port | pin; uint32_t ioport_config_data = 0; gpio_flags_t pre_flags; fsp_err_t err; gpio_rz_pin_config_get_raw(port_pin, &pre_flags); if (!flags) { /* Disconnect mode */ ioport_config_data = 0; } else if (!(flags & GPIO_OPEN_DRAIN)) { /* PM register */ ioport_config_data &= GPIO_RZ_PIN_CONFIGURE_INPUT_OUTPUT_RESET; if (flags & GPIO_INPUT) { if (flags & GPIO_OUTPUT) { ioport_config_data |= IOPORT_CFG_PORT_DIRECTION_OUTPUT_INPUT; } else { ioport_config_data |= IOPORT_CFG_PORT_DIRECTION_INPUT; } } else if (flags & GPIO_OUTPUT) { ioport_config_data &= GPIO_RZ_PIN_CONFIGURE_INPUT_OUTPUT_RESET; ioport_config_data |= IOPORT_CFG_PORT_DIRECTION_OUTPUT; } /* P register */ if (!(flags & (GPIO_OUTPUT_INIT_HIGH | GPIO_OUTPUT_INIT_LOW))) { flags |= pre_flags & (GPIO_OUTPUT_INIT_HIGH | GPIO_OUTPUT_INIT_LOW); } if (flags & GPIO_OUTPUT_INIT_HIGH) { ioport_config_data |= IOPORT_CFG_PORT_OUTPUT_HIGH; } else if (flags & GPIO_OUTPUT_INIT_LOW) { ioport_config_data &= ~(IOPORT_CFG_PORT_OUTPUT_HIGH); } /* PUPD register */ if (flags & GPIO_PULL_UP) { ioport_config_data |= IOPORT_CFG_PULLUP_ENABLE; } else if (flags & GPIO_PULL_DOWN) { ioport_config_data |= IOPORT_CFG_PULLUP_ENABLE; } /* ISEL register */ if (flags & GPIO_INT_ENABLE) { ioport_config_data |= GPIO_RZ_PIN_CONFIGURE_INT_ENABLE; } else if (flags & GPIO_INT_DISABLE) { ioport_config_data &= GPIO_RZ_PIN_CONFIGURE_INT_DISABLE; } /* Drive Ability register */ ioport_config_data |= GPIO_RZ_PIN_CONFIGURE_GET_DRIVE_ABILITY(flags); /* Filter register, see in renesas-rz-gpio-ioport.h */ ioport_config_data |= GPIO_RZ_PIN_CONFIGURE_GET_FILTER(flags); } else { return -ENOTSUP; } err = config->fsp_api->pinCfg(data->fsp_ctrl, port_pin, ioport_config_data); if (err != FSP_SUCCESS) { return -EIO; } return 0; } static int gpio_rz_port_get_raw(const struct device *dev, gpio_port_value_t *value) { const struct gpio_rz_config *config = dev->config; struct gpio_rz_data *data = dev->data; fsp_err_t err; ioport_size_t port_value; err = config->fsp_api->portRead(data->fsp_ctrl, config->fsp_port, &port_value); if (err != FSP_SUCCESS) { return -EIO; } *value = (gpio_port_value_t)port_value; return 0; } static int gpio_rz_port_set_masked_raw(const struct device *dev, gpio_port_pins_t mask, gpio_port_value_t value) { const struct gpio_rz_config *config = dev->config; struct gpio_rz_data *data = dev->data; ioport_size_t port_mask = (ioport_size_t)mask; ioport_size_t port_value = (ioport_size_t)value; fsp_err_t err; err = config->fsp_api->portWrite(data->fsp_ctrl, config->fsp_port, port_value, port_mask); if (err != FSP_SUCCESS) { return -EIO; } return 0; } static int gpio_rz_port_set_bits_raw(const struct device *dev, gpio_port_pins_t pins) { const struct gpio_rz_config *config = dev->config; struct gpio_rz_data *data = dev->data; ioport_size_t mask = (ioport_size_t)pins; ioport_size_t value = (ioport_size_t)pins; fsp_err_t err; err = config->fsp_api->portWrite(data->fsp_ctrl, config->fsp_port, value, mask); if (err != FSP_SUCCESS) { return -EIO; } return 0; } static int gpio_rz_port_clear_bits_raw(const struct device *dev, gpio_port_pins_t pins) { const struct gpio_rz_config *config = dev->config; struct gpio_rz_data *data = dev->data; ioport_size_t mask = (ioport_size_t)pins; ioport_size_t value = 0x00; fsp_err_t err; err = config->fsp_api->portWrite(data->fsp_ctrl, config->fsp_port, value, mask); if (err != FSP_SUCCESS) { return -EIO; } return 0; } static int gpio_rz_port_toggle_bits(const struct device *dev, gpio_port_pins_t pins) { const struct gpio_rz_config *config = dev->config; struct gpio_rz_data *data = dev->data; bsp_io_port_pin_t port_pin; gpio_flags_t pre_flags; ioport_size_t value = 0; fsp_err_t err; for (uint8_t idx = 0; idx < config->ngpios; idx++) { if (pins & (1U << idx)) { port_pin = config->fsp_port | idx; gpio_rz_pin_config_get_raw(port_pin, &pre_flags); if (pre_flags & GPIO_OUTPUT_INIT_HIGH) { value &= (1U << idx); } else if (pre_flags & GPIO_OUTPUT_INIT_LOW) { value |= (1U << idx); } } } err = config->fsp_api->portWrite(data->fsp_ctrl, config->fsp_port, value, (ioport_size_t)pins); if (err != FSP_SUCCESS) { return -EIO; } return 0; } #define GPIO_RZ_HAS_INTERRUPT DT_HAS_COMPAT_STATUS_OKAY(renesas_rz_gpio_int) #if GPIO_RZ_HAS_INTERRUPT static int gpio_rz_int_disable(const struct device *dev, uint8_t tint_num) { struct gpio_rz_tint_data *data = dev->data; volatile uint32_t *tssr = &R_INTC_IM33->TSSR0; volatile uint32_t *titsr = &R_INTC_IM33->TITSR0; volatile uint32_t *tscr = &R_INTC_IM33->TSCR; /* Get register offset base on interrupt number. */ tssr = &tssr[tint_num / 4]; titsr = &titsr[tint_num / 16]; irq_disable(GPIO_RZ_TINT_IRQ_GET(tint_num)); /* Disable interrupt and clear interrupt source. */ *tssr &= ~(0xFF << GPIO_RZ_TSSR_OFFSET(tint_num)); /* Reset interrupt dectect type to default. */ *titsr &= ~(0x3 << GPIO_RZ_TITSR_OFFSET(tint_num)); /* Clear interrupt detection status. */ if (data->irq_set_edge & BIT(tint_num)) { *tscr &= ~BIT(tint_num); data->irq_set_edge &= ~BIT(tint_num); } data->tint_data[tint_num].gpio_dev = NULL; data->tint_data[tint_num].pin = UINT8_MAX; return 0; } static int gpio_rz_int_enable(const struct device *int_dev, const struct device *gpio_dev, uint8_t tint_num, uint8_t irq_type, gpio_pin_t pin) { struct gpio_rz_tint_data *int_data = int_dev->data; const struct gpio_rz_config *gpio_config = gpio_dev->config; volatile uint32_t *tssr = &R_INTC_IM33->TSSR0; volatile uint32_t *titsr = &R_INTC_IM33->TITSR0; tssr = &tssr[tint_num / 4]; titsr = &titsr[tint_num / 16]; /* Select interrupt detect type. */ *titsr |= (irq_type << GPIO_RZ_TITSR_OFFSET(tint_num)); /* Select interrupt source base on port and pin number.*/ *tssr |= (GPIO_RZ_TSSR_VAL(gpio_config->port_num, pin)) << GPIO_RZ_TSSR_OFFSET(tint_num); if (irq_type == GPIO_RZ_TINT_EDGE_RISING || irq_type == GPIO_RZ_TINT_EDGE_FALLING) { int_data->irq_set_edge |= BIT(tint_num); /* Clear interrupt status. */ R_INTC_IM33->TSCR &= ~BIT(tint_num); } int_data->tint_data[tint_num].gpio_dev = gpio_dev; int_data->tint_data[tint_num].pin = pin; irq_enable(GPIO_RZ_TINT_IRQ_GET(tint_num)); return 0; } static int gpio_rz_pin_interrupt_configure(const struct device *dev, gpio_pin_t pin, enum gpio_int_mode mode, enum gpio_int_trig trig) { const struct gpio_rz_config *config = dev->config; struct gpio_rz_data *data = dev->data; bsp_io_port_pin_t port_pin = config->fsp_port | pin; uint8_t tint_num = config->tint_num[pin]; uint8_t irq_type = 0; gpio_flags_t pre_flags = 0; k_spinlock_key_t key; if (tint_num >= GPIO_RZ_MAX_TINT_NUM) { LOG_DEV_ERR(dev, "Invalid TINT interrupt:%d >= %d", tint_num, GPIO_RZ_MAX_TINT_NUM); } if (pin > config->ngpios) { return -EINVAL; } if (trig == GPIO_INT_TRIG_BOTH) { return -ENOTSUP; } key = k_spin_lock(&data->lock); if (mode == GPIO_INT_MODE_DISABLED) { gpio_rz_pin_config_get_raw(port_pin, &pre_flags); pre_flags |= GPIO_INT_DISABLE; gpio_rz_pin_configure(dev, pin, pre_flags); gpio_rz_int_disable(config->int_dev, tint_num); goto exit_unlock; } if (mode == GPIO_INT_MODE_EDGE) { irq_type = GPIO_RZ_TINT_EDGE_RISING; if (trig == GPIO_INT_TRIG_LOW) { irq_type = GPIO_RZ_TINT_EDGE_FALLING; } } else { irq_type = GPIO_RZ_TINT_LEVEL_HIGH; if (trig == GPIO_INT_TRIG_LOW) { irq_type = GPIO_RZ_TINT_LEVEL_LOW; } } /* Set register ISEL */ gpio_rz_pin_config_get_raw(port_pin, &pre_flags); pre_flags |= GPIO_INT_ENABLE; gpio_rz_pin_configure(dev, pin, pre_flags); gpio_rz_int_enable(config->int_dev, dev, tint_num, irq_type, pin); exit_unlock: k_spin_unlock(&data->lock, key); return 0; } static int gpio_rz_manage_callback(const struct device *dev, struct gpio_callback *callback, bool set) { struct gpio_rz_data *data = dev->data; return gpio_manage_callback(&data->cb, callback, set); } static void gpio_rz_isr(const struct device *dev, uint8_t pin) { struct gpio_rz_data *data = dev->data; gpio_fire_callbacks(&data->cb, dev, BIT(pin)); } static void gpio_rz_tint_isr(uint16_t irq, const struct device *dev) { struct gpio_rz_tint_data *data = dev->data; volatile uint32_t *tscr = &R_INTC_IM33->TSCR; uint8_t tint_num; tint_num = irq - GPIO_RZ_TINT_IRQ_OFFSET; if (!(*tscr & BIT(tint_num))) { LOG_DEV_DBG(dev, "tint:%u spurious irq, status 0", tint_num); return; } if (data->irq_set_edge & BIT(tint_num)) { *tscr &= ~BIT(tint_num); } gpio_rz_isr(data->tint_data[tint_num].gpio_dev, data->tint_data[tint_num].pin); } static int gpio_rz_int_init(const struct device *dev) { const struct gpio_rz_tint_config *config = dev->config; config->gpio_int_init(); return 0; } #endif static DEVICE_API(gpio, gpio_rz_driver_api) = { .pin_configure = gpio_rz_pin_configure, #ifdef CONFIG_GPIO_GET_CONFIG .pin_get_config = gpio_rz_pin_get_config, #endif .port_get_raw = gpio_rz_port_get_raw, .port_set_masked_raw = gpio_rz_port_set_masked_raw, .port_set_bits_raw = gpio_rz_port_set_bits_raw, .port_clear_bits_raw = gpio_rz_port_clear_bits_raw, .port_toggle_bits = gpio_rz_port_toggle_bits, #if GPIO_RZ_HAS_INTERRUPT .pin_interrupt_configure = gpio_rz_pin_interrupt_configure, .manage_callback = gpio_rz_manage_callback, #endif }; /*Initialize GPIO interrupt device*/ #define GPIO_RZ_TINT_ISR_DECLARE(irq_num, node_id) \ static void rz_gpio_isr_##irq_num(void *param) \ { \ gpio_rz_tint_isr(DT_IRQ_BY_IDX(node_id, irq_num, irq), param); \ } #define GPIO_RZ_TINT_ISR_INIT(node_id, irq_num) LISTIFY(irq_num, \ GPIO_RZ_TINT_ISR_DECLARE, (), node_id) #define GPIO_RZ_TINT_CONNECT(irq_num, node_id) \ IRQ_CONNECT(DT_IRQ_BY_IDX(node_id, irq_num, irq), \ DT_IRQ_BY_IDX(node_id, irq_num, priority), rz_gpio_isr_##irq_num, \ DEVICE_DT_GET(node_id), 0); #define GPIO_RZ_TINT_CONNECT_FUNC(node_id) \ static void rz_gpio_tint_connect_func##node_id(void) \ { \ LISTIFY(DT_NUM_IRQS(node_id), \ GPIO_RZ_TINT_CONNECT, (;), \ node_id) \ } /* Initialize GPIO device*/ #define GPIO_RZ_INT_INIT(node_id) \ GPIO_RZ_TINT_ISR_INIT(node_id, DT_NUM_IRQS(node_id)) \ GPIO_RZ_TINT_CONNECT_FUNC(node_id) \ static const struct gpio_rz_tint_config rz_gpio_tint_cfg_##node_id = { \ .gpio_int_init = rz_gpio_tint_connect_func##node_id, \ }; \ static struct gpio_rz_tint_data rz_gpio_tint_data_##node_id = {}; \ DEVICE_DT_DEFINE(node_id, gpio_rz_int_init, NULL, &rz_gpio_tint_data_##node_id, \ &rz_gpio_tint_cfg_##node_id, POST_KERNEL, \ UTIL_DEC(CONFIG_GPIO_INIT_PRIORITY), NULL); DT_FOREACH_STATUS_OKAY(renesas_rz_gpio_int, GPIO_RZ_INT_INIT) #define VALUE_2X(i, _) UTIL_X2(i) #define PIN_IRQ_GET(idx, inst) \ COND_CODE_1(DT_INST_PROP_HAS_IDX(inst, irqs, idx), \ ([DT_INST_PROP_BY_IDX(inst, irqs, idx)] = \ DT_INST_PROP_BY_IDX(inst, irqs, UTIL_INC(idx)),), \ ()) #define PIN_IRQS_GET(inst) \ FOR_EACH_FIXED_ARG(PIN_IRQ_GET, (), inst, \ LISTIFY(DT_INST_PROP_LEN_OR(inst, irqs, 0), VALUE_2X, (,))) #define RZG_GPIO_PORT_INIT(inst) \ static ioport_cfg_t g_ioport_##inst##_cfg = { \ .number_of_pins = 0, \ .p_pin_cfg_data = NULL, \ .p_extend = NULL, \ }; \ static const struct gpio_rz_config gpio_rz_##inst##_config = { \ .common = \ { \ .port_pin_mask = \ (gpio_port_pins_t)GPIO_PORT_PIN_MASK_FROM_DT_INST(inst), \ }, \ .fsp_port = (uint32_t)DT_INST_REG_ADDR(inst), \ .port_num = (uint8_t)DT_NODE_CHILD_IDX(DT_DRV_INST(inst)), \ .ngpios = (uint8_t)DT_INST_PROP(inst, ngpios), \ .fsp_cfg = &g_ioport_##inst##_cfg, \ .fsp_api = &g_ioport_on_ioport, \ .int_dev = DEVICE_DT_GET_OR_NULL(DT_INST(0, renesas_rz_gpio_int)), \ .tint_num = {PIN_IRQS_GET(inst)}, \ }; \ static ioport_instance_ctrl_t g_ioport_##inst##_ctrl; \ static struct gpio_rz_data gpio_rz_##inst##_data = { \ .fsp_ctrl = &g_ioport_##inst##_ctrl, \ }; \ DEVICE_DT_INST_DEFINE(inst, NULL, NULL, &gpio_rz_##inst##_data, &gpio_rz_##inst##_config, \ POST_KERNEL, CONFIG_GPIO_INIT_PRIORITY, &gpio_rz_driver_api); DT_INST_FOREACH_STATUS_OKAY(RZG_GPIO_PORT_INIT)