/* SPDX-License-Identifier: GPL-2.0-only */ #include #include #include #include #include #include #define CON_MASK(x) (0xf << ((x) << 2)) #define CON_SFR(x, v) ((v) << ((x) << 2)) #define DAT_MASK(x) (0x1 << (x)) #define DAT_SET(x) (0x1 << (x)) #define PULL_MASK(x) (0x3 << ((x) << 1)) #define PULL_MODE(x, v) ((v) << ((x) << 1)) #define DRV_MASK(x) (0x3 << ((x) << 1)) #define DRV_SET(x, m) ((m) << ((x) << 1)) #define RATE_MASK(x) (0x1 << (x + 16)) #define RATE_SET(x) (0x1 << (x + 16)) struct gpio_info { unsigned int reg_addr; /* Address of register for this part */ unsigned int max_gpio; /* Maximum GPIO in this part */ }; static const struct gpio_info gpio_data[EXYNOS_GPIO_NUM_PARTS] = { { EXYNOS5420_GPIO_PART1_BASE, GPIO_MAX_PORT_PART_1 }, { EXYNOS5420_GPIO_PART2_BASE, GPIO_MAX_PORT_PART_2 }, { EXYNOS5420_GPIO_PART3_BASE, GPIO_MAX_PORT_PART_3 }, { EXYNOS5420_GPIO_PART4_BASE, GPIO_MAX_PORT_PART_4 }, { EXYNOS5420_GPIO_PART5_BASE, GPIO_MAX_PORT_PART_5 }, { EXYNOS5420_GPIO_PART6_BASE, GPIO_MAX_PORT }, }; /* This macro gets gpio pin offset from 0..7 */ #define GPIO_BIT(x) ((x) & 0x7) static struct gpio_bank *gpio_get_bank(unsigned int gpio) { const struct gpio_info *data; unsigned int upto; int i; for (i = upto = 0, data = gpio_data; i < EXYNOS_GPIO_NUM_PARTS; i++, upto = data->max_gpio, data++) { if (gpio < data->max_gpio) { struct gpio_bank *bank; bank = (struct gpio_bank *)data->reg_addr; bank += (gpio - upto) / GPIO_PER_BANK; return bank; } } ASSERT(gpio < GPIO_MAX_PORT); /* ...which it will not be */ return NULL; } /* Common GPIO API - only available on Exynos5 */ void gpio_cfg_pin(int gpio, int cfg) { unsigned int value; struct gpio_bank *bank = gpio_get_bank(gpio); value = read32(&bank->con); value &= ~CON_MASK(GPIO_BIT(gpio)); value |= CON_SFR(GPIO_BIT(gpio), cfg); write32(&bank->con, value); } static int gpio_get_cfg(int gpio) { struct gpio_bank *bank = gpio_get_bank(gpio); int shift = GPIO_BIT(gpio) << 2; return (read32(&bank->con) & CON_MASK(GPIO_BIT(gpio))) >> shift; } void gpio_set_pull(int gpio, int mode) { unsigned int value; struct gpio_bank *bank = gpio_get_bank(gpio); value = read32(&bank->pull); value &= ~PULL_MASK(GPIO_BIT(gpio)); switch (mode) { case GPIO_PULL_DOWN: case GPIO_PULL_UP: value |= PULL_MODE(GPIO_BIT(gpio), mode); break; default: break; } write32(&bank->pull, value); } void gpio_set_drv(int gpio, int mode) { unsigned int value; struct gpio_bank *bank = gpio_get_bank(gpio); value = read32(&bank->drv); value &= ~DRV_MASK(GPIO_BIT(gpio)); switch (mode) { case GPIO_DRV_1X: case GPIO_DRV_2X: case GPIO_DRV_3X: case GPIO_DRV_4X: value |= DRV_SET(GPIO_BIT(gpio), mode); break; default: return; } write32(&bank->drv, value); } void gpio_set_rate(int gpio, int mode) { unsigned int value; struct gpio_bank *bank = gpio_get_bank(gpio); value = read32(&bank->drv); value &= ~RATE_MASK(GPIO_BIT(gpio)); switch (mode) { case GPIO_DRV_FAST: case GPIO_DRV_SLOW: value |= RATE_SET(GPIO_BIT(gpio)); break; default: return; } write32(&bank->drv, value); } int gpio_direction_input(unsigned int gpio) { gpio_cfg_pin(gpio, GPIO_INPUT); return 0; } int gpio_direction_output(unsigned int gpio, int value) { unsigned int val; struct gpio_bank *bank = gpio_get_bank(gpio); val = read32(&bank->dat); val &= ~DAT_MASK(GPIO_BIT(gpio)); if (value) val |= DAT_SET(GPIO_BIT(gpio)); write32(&bank->dat, val); gpio_cfg_pin(gpio, GPIO_OUTPUT); return 0; } int gpio_get_value(unsigned int gpio) { unsigned int value; struct gpio_bank *bank = gpio_get_bank(gpio); value = read32(&bank->dat); return !!(value & DAT_MASK(GPIO_BIT(gpio))); } int gpio_set_value(unsigned int gpio, int value) { unsigned int val; struct gpio_bank *bank = gpio_get_bank(gpio); val = read32(&bank->dat); val &= ~DAT_MASK(GPIO_BIT(gpio)); if (value) val |= DAT_SET(GPIO_BIT(gpio)); write32(&bank->dat, val); return 0; } /* * Add a delay here to give the lines time to settle * TODO(dianders): 5us does not always work, 10 is stable, so use 15 to be safe * Come back to this and sort out what the datasheet says */ #define GPIO_DELAY_US 15 int gpio_read_mvl3(unsigned int gpio) { int high, low; enum mvl3 value; if (gpio >= GPIO_MAX_PORT) return -1; gpio_direction_input(gpio); gpio_set_pull(gpio, GPIO_PULL_UP); udelay(GPIO_DELAY_US); high = gpio_get_value(gpio); gpio_set_pull(gpio, GPIO_PULL_DOWN); udelay(GPIO_DELAY_US); low = gpio_get_value(gpio); if (high && low) /* external pullup */ value = LOGIC_1; else if (!high && !low) /* external pulldown */ value = LOGIC_0; else /* floating */ value = LOGIC_Z; /* * Check if line is externally pulled high and * configure the internal pullup to match. For * floating and pulldowns, the GPIO is already * configured with an internal pulldown from the * above test. */ if (value == LOGIC_1) gpio_set_pull(gpio, GPIO_PULL_UP); return value; } /* * Display Exynos GPIO information */ void gpio_info(void) { unsigned int gpio; for (gpio = 0; gpio < GPIO_MAX_PORT; gpio++) { int cfg = gpio_get_cfg(gpio); printk(BIOS_INFO, "GPIO_%-3d: ", gpio); if (cfg == GPIO_INPUT) printk(BIOS_INFO, "input"); else if (cfg == GPIO_OUTPUT) printk(BIOS_INFO, "output"); else printk(BIOS_INFO, "func %d", cfg); if (cfg == GPIO_INPUT || cfg == GPIO_OUTPUT) printk(BIOS_INFO, ", value = %d", gpio_get_value(gpio)); printk(BIOS_INFO, "\n"); } }