/* gpio_sch.c - Driver implementation for Intel SCH GPIO controller */ /* * Copyright (c) 2015 Intel Corporation. * * SPDX-License-Identifier: Apache-2.0 */ #include #include #include #include #include #include #include "gpio_sch.h" #include "gpio_utils.h" #define SYS_LOG_LEVEL CONFIG_SYS_LOG_GPIO_LEVEL #include /* Define GPIO_SCH_LEGACY_IO_PORTS_ACCESS * inside soc.h if the GPIO controller * requires I/O port access instead of * memory mapped I/O. */ #ifdef GPIO_SCH_LEGACY_IO_PORTS_ACCESS #define _REG_READ sys_in32 #define _REG_WRITE sys_out32 #define _REG_SET_BIT sys_io_set_bit #define _REG_CLEAR_BIT sys_io_clear_bit #else #define _REG_READ sys_read32 #define _REG_WRITE sys_write32 #define _REG_SET_BIT sys_set_bit #define _REG_CLEAR_BIT sys_clear_bit #endif /* GPIO_SCH_LEGACY_IO_PORTS_ACCESS */ #define DEFINE_MM_REG_READ(__reg, __off) \ static inline u32_t _read_##__reg(u32_t addr) \ { \ return _REG_READ(addr + __off); \ } #define DEFINE_MM_REG_WRITE(__reg, __off) \ static inline void _write_##__reg(u32_t data, u32_t addr) \ { \ _REG_WRITE(data, addr + __off); \ } DEFINE_MM_REG_READ(glvl, GPIO_SCH_REG_GLVL) DEFINE_MM_REG_WRITE(glvl, GPIO_SCH_REG_GLVL) DEFINE_MM_REG_WRITE(gtpe, GPIO_SCH_REG_GTPE) DEFINE_MM_REG_WRITE(gtne, GPIO_SCH_REG_GTNE) DEFINE_MM_REG_READ(gts, GPIO_SCH_REG_GTS) DEFINE_MM_REG_WRITE(gts, GPIO_SCH_REG_GTS) static void _set_bit(u32_t base_addr, u32_t bit, u8_t set) { if (!set) { _REG_CLEAR_BIT(base_addr, bit); } else { _REG_SET_BIT(base_addr, bit); } } #define DEFINE_MM_REG_SET_BIT(__reg, __off) \ static inline void _set_bit_##__reg(u32_t addr, \ u32_t bit, u8_t set) \ { \ _set_bit(addr + __off, bit, set); \ } DEFINE_MM_REG_SET_BIT(gen, GPIO_SCH_REG_GEN) DEFINE_MM_REG_SET_BIT(gio, GPIO_SCH_REG_GIO) DEFINE_MM_REG_SET_BIT(glvl, GPIO_SCH_REG_GLVL) DEFINE_MM_REG_SET_BIT(gtpe, GPIO_SCH_REG_GTPE) DEFINE_MM_REG_SET_BIT(gtne, GPIO_SCH_REG_GTNE) static inline void _set_data_reg(u32_t *reg, u8_t pin, u8_t set) { *reg &= ~(BIT(pin)); *reg |= (set << pin) & BIT(pin); } static void _gpio_pin_config(struct device *dev, u32_t pin, int flags) { const struct gpio_sch_config *info = dev->config->config_info; struct gpio_sch_data *gpio = dev->driver_data; u8_t active_high = 0; u8_t active_low = 0; _set_bit_gen(info->regs, pin, 1); _set_bit_gio(info->regs, pin, !(flags & GPIO_DIR_MASK)); if (flags & GPIO_INT) { if (flags & GPIO_INT_ACTIVE_HIGH) { active_high = 1; } else { active_low = 1; } SYS_LOG_DBG("Setting up pin %d to active_high %d and " "active_low %d", active_high, active_low); } /* We store the gtpe/gtne settings. These will be used once * we enable the callback for the pin, or the whole port */ _set_data_reg(&gpio->int_regs.gtpe, pin, active_high); _set_data_reg(&gpio->int_regs.gtne, pin, active_low); } static inline void _gpio_port_config(struct device *dev, int flags) { const struct gpio_sch_config *info = dev->config->config_info; int pin; for (pin = 0; pin < info->bits; pin++) { _gpio_pin_config(dev, pin, flags); } } static int gpio_sch_config(struct device *dev, int access_op, u32_t pin, int flags) { const struct gpio_sch_config *info = dev->config->config_info; if (access_op == GPIO_ACCESS_BY_PIN) { if (pin >= info->bits) { return -EINVAL; } _gpio_pin_config(dev, pin, flags); } else { _gpio_port_config(dev, flags); } return 0; } static int gpio_sch_write(struct device *dev, int access_op, u32_t pin, u32_t value) { const struct gpio_sch_config *info = dev->config->config_info; if (access_op == GPIO_ACCESS_BY_PIN) { if (pin >= info->bits) { return -ENOTSUP; } _set_bit_glvl(info->regs, pin, value); } else { _write_glvl(info->regs, value); } return 0; } static int gpio_sch_read(struct device *dev, int access_op, u32_t pin, u32_t *value) { const struct gpio_sch_config *info = dev->config->config_info; *value = _read_glvl(info->regs); if (access_op == GPIO_ACCESS_BY_PIN) { if (pin >= info->bits) { return -ENOTSUP; } *value = !!(*value & BIT(pin)); } return 0; } static void _gpio_sch_poll_status(void *arg1, void *unused1, void *unused2) { struct device *dev = (struct device *)arg1; const struct gpio_sch_config *info = dev->config->config_info; struct gpio_sch_data *gpio = dev->driver_data; ARG_UNUSED(unused1); ARG_UNUSED(unused2); /* Cleaning up GTS first */ _write_gts(_read_gts(info->regs), info->regs); while (gpio->poll) { u32_t status; status = _read_gts(info->regs); if (!status) { goto loop; } _gpio_fire_callbacks(&gpio->callbacks, dev, status); /* It's not documented but writing the same status value * into GTS tells to the controller it got handled. */ _write_gts(status, info->regs); loop: k_timer_start(&gpio->poll_timer, GPIO_SCH_POLLING_MSEC, 0); k_timer_status_sync(&gpio->poll_timer); } } static void _gpio_sch_manage_callback(struct device *dev) { struct gpio_sch_data *gpio = dev->driver_data; /* Start the fiber only when relevant */ if (!sys_slist_is_empty(&gpio->callbacks) && gpio->cb_enabled) { if (!gpio->poll) { SYS_LOG_DBG("Starting SCH GPIO polling fiber"); gpio->poll = 1; k_thread_create(&gpio->polling_thread, gpio->polling_stack, GPIO_SCH_POLLING_STACK_SIZE, (k_thread_entry_t)_gpio_sch_poll_status, dev, NULL, NULL, K_PRIO_COOP(1), 0, 0); } } else { gpio->poll = 0; } } static int gpio_sch_manage_callback(struct device *dev, struct gpio_callback *callback, bool set) { struct gpio_sch_data *gpio = dev->driver_data; _gpio_manage_callback(&gpio->callbacks, callback, set); _gpio_sch_manage_callback(dev); return 0; } static int gpio_sch_enable_callback(struct device *dev, int access_op, u32_t pin) { const struct gpio_sch_config *info = dev->config->config_info; struct gpio_sch_data *gpio = dev->driver_data; if (access_op == GPIO_ACCESS_BY_PIN) { u32_t bits = BIT(pin); if (pin >= info->bits) { return -ENOTSUP; } _set_bit_gtpe(info->regs, pin, !!(bits & gpio->int_regs.gtpe)); _set_bit_gtne(info->regs, pin, !!(bits & gpio->int_regs.gtne)); gpio->cb_enabled |= bits; } else { _write_gtpe(gpio->int_regs.gtpe, info->regs); _write_gtne(gpio->int_regs.gtne, info->regs); gpio->cb_enabled = BIT_MASK(info->bits); } _gpio_sch_manage_callback(dev); return 0; } static int gpio_sch_disable_callback(struct device *dev, int access_op, u32_t pin) { const struct gpio_sch_config *info = dev->config->config_info; struct gpio_sch_data *gpio = dev->driver_data; if (access_op == GPIO_ACCESS_BY_PIN) { if (pin >= info->bits) { return -ENOTSUP; } _set_bit_gtpe(info->regs, pin, 0); _set_bit_gtne(info->regs, pin, 0); gpio->cb_enabled &= ~BIT(pin); } else { _write_gtpe(0, info->regs); _write_gtne(0, info->regs); gpio->cb_enabled = 0; } _gpio_sch_manage_callback(dev); return 0; } static const struct gpio_driver_api gpio_sch_api = { .config = gpio_sch_config, .write = gpio_sch_write, .read = gpio_sch_read, .manage_callback = gpio_sch_manage_callback, .enable_callback = gpio_sch_enable_callback, .disable_callback = gpio_sch_disable_callback, }; static int gpio_sch_init(struct device *dev) { struct gpio_sch_data *gpio = dev->driver_data; dev->driver_api = &gpio_sch_api; k_timer_init(&gpio->poll_timer, NULL, NULL); SYS_LOG_DBG("SCH GPIO Intel Driver initialized on device: %p", dev); return 0; } #if CONFIG_GPIO_SCH_0 static const struct gpio_sch_config gpio_sch_0_config = { .regs = GPIO_SCH_0_BASE_ADDR, .bits = GPIO_SCH_0_BITS, }; static struct gpio_sch_data gpio_data_0; DEVICE_INIT(gpio_0, CONFIG_GPIO_SCH_0_DEV_NAME, gpio_sch_init, &gpio_data_0, &gpio_sch_0_config, POST_KERNEL, CONFIG_GPIO_SCH_INIT_PRIORITY); #endif /* CONFIG_GPIO_SCH_0 */ #if CONFIG_GPIO_SCH_1 static const struct gpio_sch_config gpio_sch_1_config = { .regs = GPIO_SCH_1_BASE_ADDR, .bits = GPIO_SCH_1_BITS, }; static struct gpio_sch_data gpio_data_1; DEVICE_INIT(gpio_1, CONFIG_GPIO_SCH_1_DEV_NAME, gpio_sch_init, &gpio_data_1, &gpio_sch_1_config, POST_KERNEL, CONFIG_GPIO_SCH_INIT_PRIORITY); #endif /* CONFIG_GPIO_SCH_1 */