/* * Copyright (c) 2016 Intel Corporation. * * SPDX-License-Identifier: Apache-2.0 */ #include #include #include #include #include "qm_ss_gpio.h" #include "qm_ss_isr.h" #include "ss_clk.h" #include "gpio_utils.h" struct ss_gpio_qmsi_config { qm_ss_gpio_t gpio; u8_t num_pins; }; struct ss_gpio_qmsi_runtime { sys_slist_t callbacks; u32_t pin_callbacks; #ifdef CONFIG_GPIO_QMSI_API_REENTRANCY struct k_sem sem; #endif /* CONFIG_GPIO_QMSI_API_REENTRANCY */ #ifdef CONFIG_DEVICE_POWER_MANAGEMENT u32_t device_power_state; qm_ss_gpio_context_t gpio_ctx; #endif }; #ifdef CONFIG_GPIO_QMSI_API_REENTRANCY #define RP_GET(dev) (&((struct ss_gpio_qmsi_runtime *)(dev->driver_data))->sem) #else #define RP_GET(context) (NULL) #endif /* CONFIG_GPIO_QMSI_API_REENTRANCY */ #ifdef CONFIG_DEVICE_POWER_MANAGEMENT static void ss_gpio_qmsi_set_power_state(struct device *dev, u32_t power_state) { struct ss_gpio_qmsi_runtime *context = dev->driver_data; context->device_power_state = power_state; } static u32_t ss_gpio_qmsi_get_power_state(struct device *dev) { struct ss_gpio_qmsi_runtime *context = dev->driver_data; return context->device_power_state; } static int ss_gpio_suspend_device(struct device *dev) { const struct ss_gpio_qmsi_config *gpio_config = dev->config->config_info; struct ss_gpio_qmsi_runtime *drv_data = dev->driver_data; qm_ss_gpio_save_context(gpio_config->gpio, &drv_data->gpio_ctx); ss_gpio_qmsi_set_power_state(dev, DEVICE_PM_SUSPEND_STATE); return 0; } static int ss_gpio_resume_device_from_suspend(struct device *dev) { const struct ss_gpio_qmsi_config *gpio_config = dev->config->config_info; struct ss_gpio_qmsi_runtime *drv_data = dev->driver_data; qm_ss_gpio_restore_context(gpio_config->gpio, &drv_data->gpio_ctx); ss_gpio_qmsi_set_power_state(dev, DEVICE_PM_ACTIVE_STATE); return 0; } /* * Implements the driver control management functionality * the *context may include IN data or/and OUT data */ static int ss_gpio_qmsi_device_ctrl(struct device *port, u32_t ctrl_command, void *context) { if (ctrl_command == DEVICE_PM_SET_POWER_STATE) { if (*((u32_t *)context) == DEVICE_PM_SUSPEND_STATE) { return ss_gpio_suspend_device(port); } else if (*((u32_t *)context) == DEVICE_PM_ACTIVE_STATE) { return ss_gpio_resume_device_from_suspend(port); } } else if (ctrl_command == DEVICE_PM_GET_POWER_STATE) { *((u32_t *)context) = ss_gpio_qmsi_get_power_state(port); } return 0; } #else #define ss_gpio_qmsi_set_power_state(...) #endif /* CONFIG_DEVICE_POWER_MANAGEMENT */ static int ss_gpio_qmsi_init(struct device *dev); #ifdef CONFIG_GPIO_QMSI_SS_0 static const struct ss_gpio_qmsi_config ss_gpio_0_config = { .gpio = QM_SS_GPIO_0, .num_pins = QM_SS_GPIO_NUM_PINS, }; static struct ss_gpio_qmsi_runtime ss_gpio_0_runtime; DEVICE_DEFINE(ss_gpio_0, CONFIG_GPIO_QMSI_SS_0_NAME, &ss_gpio_qmsi_init, ss_gpio_qmsi_device_ctrl, &ss_gpio_0_runtime, &ss_gpio_0_config, POST_KERNEL, CONFIG_KERNEL_INIT_PRIORITY_DEVICE, NULL); #endif /* CONFIG_GPIO_QMSI_SS_0 */ #ifdef CONFIG_GPIO_QMSI_SS_1 static const struct ss_gpio_qmsi_config ss_gpio_1_config = { .gpio = QM_SS_GPIO_1, .num_pins = QM_SS_GPIO_NUM_PINS, }; static struct ss_gpio_qmsi_runtime gpio_1_runtime; DEVICE_DEFINE(ss_gpio_1, CONFIG_GPIO_QMSI_SS_1_NAME, &ss_gpio_qmsi_init, ss_gpio_qmsi_device_ctrl, &gpio_1_runtime, &ss_gpio_1_config, POST_KERNEL, CONFIG_KERNEL_INIT_PRIORITY_DEVICE, NULL); #endif /* CONFIG_GPIO_QMSI_SS_1 */ static void ss_gpio_qmsi_callback(void *data, u32_t status) { struct device *port = data; struct ss_gpio_qmsi_runtime *context = port->driver_data; const u32_t enabled_mask = context->pin_callbacks & status; if (enabled_mask) { _gpio_fire_callbacks(&context->callbacks, port, enabled_mask); } } static void ss_qmsi_write_bit(u32_t *target, u8_t bit, u8_t value) { if (value) { sys_set_bit((uintptr_t) target, bit); } else { sys_clear_bit((uintptr_t) target, bit); } } static inline void ss_qmsi_pin_config(struct device *port, u32_t pin, int flags) { const struct ss_gpio_qmsi_config *gpio_config = port->config->config_info; qm_ss_gpio_t gpio = gpio_config->gpio; u32_t controller; qm_ss_gpio_port_config_t cfg = { 0 }; switch (gpio) { #ifdef CONFIG_GPIO_QMSI_SS_0 case QM_SS_GPIO_0: controller = QM_SS_GPIO_0_BASE; break; #endif /* CONFIG_GPIO_QMSI_SS_0 */ #ifdef CONFIG_GPIO_QMSI_SS_1 case QM_SS_GPIO_1: controller = QM_SS_GPIO_1_BASE; break; #endif /* CONFIG_GPIO_QMSI_SS_1 */ default: return; } cfg.direction = __builtin_arc_lr(controller + QM_SS_GPIO_SWPORTA_DDR); cfg.int_en = __builtin_arc_lr(controller + QM_SS_GPIO_INTEN); cfg.int_type = __builtin_arc_lr(controller + QM_SS_GPIO_INTTYPE_LEVEL); cfg.int_polarity = __builtin_arc_lr(controller + QM_SS_GPIO_INT_POLARITY); cfg.int_debounce = __builtin_arc_lr(controller + QM_SS_GPIO_DEBOUNCE); cfg.callback = ss_gpio_qmsi_callback; cfg.callback_data = port; ss_qmsi_write_bit(&cfg.direction, pin, (flags & GPIO_DIR_MASK)); if (flags & GPIO_INT) { ss_qmsi_write_bit(&cfg.int_type, pin, (flags & GPIO_INT_EDGE)); ss_qmsi_write_bit(&cfg.int_polarity, pin, (flags & GPIO_INT_ACTIVE_HIGH)); ss_qmsi_write_bit(&cfg.int_debounce, pin, (flags & GPIO_INT_DEBOUNCE)); ss_qmsi_write_bit(&cfg.int_en, pin, 1); } else { ss_qmsi_write_bit(&cfg.int_en, pin, 0); } if (IS_ENABLED(CONFIG_GPIO_QMSI_API_REENTRANCY)) { k_sem_take(RP_GET(port), K_FOREVER); } qm_ss_gpio_set_config(gpio, &cfg); if (IS_ENABLED(CONFIG_GPIO_QMSI_API_REENTRANCY)) { k_sem_give(RP_GET(port)); } } static inline void ss_qmsi_port_config(struct device *port, int flags) { const struct ss_gpio_qmsi_config *gpio_config = port->config->config_info; u8_t num_pins = gpio_config->num_pins; int i; for (i = 0; i < num_pins; i++) { ss_qmsi_pin_config(port, i, flags); } } static inline int ss_gpio_qmsi_config(struct device *port, int access_op, u32_t pin, int flags) { /* check for an invalid pin configuration */ if ((flags & GPIO_INT) && (flags & GPIO_DIR_OUT)) { return -EINVAL; } if (access_op == GPIO_ACCESS_BY_PIN) { ss_qmsi_pin_config(port, pin, flags); } else { ss_qmsi_port_config(port, flags); } return 0; } static inline int ss_gpio_qmsi_write(struct device *port, int access_op, u32_t pin, u32_t value) { const struct ss_gpio_qmsi_config *gpio_config = port->config->config_info; qm_ss_gpio_t gpio = gpio_config->gpio; if (IS_ENABLED(CONFIG_GPIO_QMSI_API_REENTRANCY)) { k_sem_take(RP_GET(port), K_FOREVER); } if (access_op == GPIO_ACCESS_BY_PIN) { if (value) { qm_ss_gpio_set_pin(gpio, pin); } else { qm_ss_gpio_clear_pin(gpio, pin); } } else { qm_ss_gpio_write_port(gpio, value); } if (IS_ENABLED(CONFIG_GPIO_QMSI_API_REENTRANCY)) { k_sem_give(RP_GET(port)); } return 0; } static inline int ss_gpio_qmsi_read(struct device *port, int access_op, u32_t pin, u32_t *value) { const struct ss_gpio_qmsi_config *gpio_config = port->config->config_info; qm_ss_gpio_t gpio = gpio_config->gpio; qm_ss_gpio_state_t state; if (access_op == GPIO_ACCESS_BY_PIN) { qm_ss_gpio_read_pin(gpio, pin, &state); *value = state; } else { qm_ss_gpio_read_port(gpio, value); } return 0; } static inline int ss_gpio_qmsi_manage_callback(struct device *port, struct gpio_callback *callback, bool set) { struct ss_gpio_qmsi_runtime *context = port->driver_data; _gpio_manage_callback(&context->callbacks, callback, set); return 0; } static inline int ss_gpio_qmsi_enable_callback(struct device *port, int access_op, u32_t pin) { struct ss_gpio_qmsi_runtime *context = port->driver_data; if (IS_ENABLED(CONFIG_GPIO_QMSI_API_REENTRANCY)) { k_sem_take(RP_GET(port), K_FOREVER); } if (access_op == GPIO_ACCESS_BY_PIN) { context->pin_callbacks |= BIT(pin); } else { context->pin_callbacks = 0xffffffff; } if (IS_ENABLED(CONFIG_GPIO_QMSI_API_REENTRANCY)) { k_sem_give(RP_GET(port)); } return 0; } static inline int ss_gpio_qmsi_disable_callback(struct device *port, int access_op, u32_t pin) { struct ss_gpio_qmsi_runtime *context = port->driver_data; if (IS_ENABLED(CONFIG_GPIO_QMSI_API_REENTRANCY)) { k_sem_take(RP_GET(port), K_FOREVER); } if (access_op == GPIO_ACCESS_BY_PIN) { context->pin_callbacks &= ~BIT(pin); } else { context->pin_callbacks = 0; } if (IS_ENABLED(CONFIG_GPIO_QMSI_API_REENTRANCY)) { k_sem_give(RP_GET(port)); } return 0; } static const struct gpio_driver_api api_funcs = { .config = ss_gpio_qmsi_config, .write = ss_gpio_qmsi_write, .read = ss_gpio_qmsi_read, .manage_callback = ss_gpio_qmsi_manage_callback, .enable_callback = ss_gpio_qmsi_enable_callback, .disable_callback = ss_gpio_qmsi_disable_callback, }; void ss_gpio_isr(void *arg) { struct device *port = arg; const struct ss_gpio_qmsi_config *gpio_config = port->config->config_info; if (gpio_config->gpio == QM_SS_GPIO_0) { qm_ss_gpio_0_isr(NULL); } else { qm_ss_gpio_1_isr(NULL); } } static int ss_gpio_qmsi_init(struct device *port) { const struct ss_gpio_qmsi_config *gpio_config = port->config->config_info; u32_t *scss_intmask = NULL; if (IS_ENABLED(CONFIG_GPIO_QMSI_API_REENTRANCY)) { k_sem_init(RP_GET(port), 0, UINT_MAX); k_sem_give(RP_GET(port)); } switch (gpio_config->gpio) { #ifdef CONFIG_GPIO_QMSI_SS_0 case QM_SS_GPIO_0: IRQ_CONNECT(IRQ_GPIO0_INTR, CONFIG_GPIO_QMSI_SS_0_IRQ_PRI, ss_gpio_isr, DEVICE_GET(ss_gpio_0), 0); irq_enable(IRQ_GPIO0_INTR); ss_clk_gpio_enable(QM_SS_GPIO_0); scss_intmask = (u32_t *)&QM_INTERRUPT_ROUTER->ss_gpio_0_int_mask; *scss_intmask &= ~BIT(8); break; #endif /* CONFIG_GPIO_QMSI_SS_0 */ #ifdef CONFIG_GPIO_QMSI_SS_1 case QM_SS_GPIO_1: IRQ_CONNECT(IRQ_GPIO1_INTR, CONFIG_GPIO_QMSI_SS_1_IRQ_PRI, ss_gpio_isr, DEVICE_GET(ss_gpio_1), 0); irq_enable(IRQ_GPIO1_INTR); ss_clk_gpio_enable(QM_SS_GPIO_1); scss_intmask = (u32_t *)&QM_INTERRUPT_ROUTER->ss_gpio_1_int_mask; *scss_intmask &= ~BIT(8); break; #endif /* CONFIG_GPIO_QMSI_SS_1 */ default: return -EIO; } ss_gpio_qmsi_set_power_state(port, DEVICE_PM_ACTIVE_STATE); port->driver_api = &api_funcs; return 0; }