/* * Copyright (c) 2009-2011 Samsung Electronics Co., Ltd. * http://www.samsung.com/ * * Copyright 2008 Openmoko, Inc. * Copyright 2008 Simtec Electronics * Ben Dooks * http://armlinux.simtec.co.uk/ * * SAMSUNG - GPIOlib support * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 as * published by the Free Software Foundation. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifndef DEBUG_GPIO #define gpio_dbg(x...) do { } while (0) #else #define gpio_dbg(x...) printk(KERN_DEBUG x) #endif int samsung_gpio_setpull_updown(struct samsung_gpio_chip *chip, unsigned int off, samsung_gpio_pull_t pull) { void __iomem *reg = chip->base + 0x08; int shift = off * 2; u32 pup; pup = __raw_readl(reg); pup &= ~(3 << shift); pup |= pull << shift; __raw_writel(pup, reg); return 0; } samsung_gpio_pull_t samsung_gpio_getpull_updown(struct samsung_gpio_chip *chip, unsigned int off) { void __iomem *reg = chip->base + 0x08; int shift = off * 2; u32 pup = __raw_readl(reg); pup >>= shift; pup &= 0x3; return (__force samsung_gpio_pull_t)pup; } int s3c2443_gpio_setpull(struct samsung_gpio_chip *chip, unsigned int off, samsung_gpio_pull_t pull) { switch (pull) { case S3C_GPIO_PULL_NONE: pull = 0x01; break; case S3C_GPIO_PULL_UP: pull = 0x00; break; case S3C_GPIO_PULL_DOWN: pull = 0x02; break; } return samsung_gpio_setpull_updown(chip, off, pull); } samsung_gpio_pull_t s3c2443_gpio_getpull(struct samsung_gpio_chip *chip, unsigned int off) { samsung_gpio_pull_t pull; pull = samsung_gpio_getpull_updown(chip, off); switch (pull) { case 0x00: pull = S3C_GPIO_PULL_UP; break; case 0x01: case 0x03: pull = S3C_GPIO_PULL_NONE; break; case 0x02: pull = S3C_GPIO_PULL_DOWN; break; } return pull; } static int s3c24xx_gpio_setpull_1(struct samsung_gpio_chip *chip, unsigned int off, samsung_gpio_pull_t pull, samsung_gpio_pull_t updown) { void __iomem *reg = chip->base + 0x08; u32 pup = __raw_readl(reg); if (pull == updown) pup &= ~(1 << off); else if (pull == S3C_GPIO_PULL_NONE) pup |= (1 << off); else return -EINVAL; __raw_writel(pup, reg); return 0; } static samsung_gpio_pull_t s3c24xx_gpio_getpull_1(struct samsung_gpio_chip *chip, unsigned int off, samsung_gpio_pull_t updown) { void __iomem *reg = chip->base + 0x08; u32 pup = __raw_readl(reg); pup &= (1 << off); return pup ? S3C_GPIO_PULL_NONE : updown; } samsung_gpio_pull_t s3c24xx_gpio_getpull_1up(struct samsung_gpio_chip *chip, unsigned int off) { return s3c24xx_gpio_getpull_1(chip, off, S3C_GPIO_PULL_UP); } int s3c24xx_gpio_setpull_1up(struct samsung_gpio_chip *chip, unsigned int off, samsung_gpio_pull_t pull) { return s3c24xx_gpio_setpull_1(chip, off, pull, S3C_GPIO_PULL_UP); } samsung_gpio_pull_t s3c24xx_gpio_getpull_1down(struct samsung_gpio_chip *chip, unsigned int off) { return s3c24xx_gpio_getpull_1(chip, off, S3C_GPIO_PULL_DOWN); } int s3c24xx_gpio_setpull_1down(struct samsung_gpio_chip *chip, unsigned int off, samsung_gpio_pull_t pull) { return s3c24xx_gpio_setpull_1(chip, off, pull, S3C_GPIO_PULL_DOWN); } static int exynos_gpio_setpull(struct samsung_gpio_chip *chip, unsigned int off, samsung_gpio_pull_t pull) { if (pull == S3C_GPIO_PULL_UP) pull = 3; return samsung_gpio_setpull_updown(chip, off, pull); } static samsung_gpio_pull_t exynos_gpio_getpull(struct samsung_gpio_chip *chip, unsigned int off) { samsung_gpio_pull_t pull; pull = samsung_gpio_getpull_updown(chip, off); if (pull == 3) pull = S3C_GPIO_PULL_UP; return pull; } /* * samsung_gpio_setcfg_2bit - Samsung 2bit style GPIO configuration. * @chip: The gpio chip that is being configured. * @off: The offset for the GPIO being configured. * @cfg: The configuration value to set. * * This helper deal with the GPIO cases where the control register * has two bits of configuration per gpio, which have the following * functions: * 00 = input * 01 = output * 1x = special function */ static int samsung_gpio_setcfg_2bit(struct samsung_gpio_chip *chip, unsigned int off, unsigned int cfg) { void __iomem *reg = chip->base; unsigned int shift = off * 2; u32 con; if (samsung_gpio_is_cfg_special(cfg)) { cfg &= 0xf; if (cfg > 3) return -EINVAL; cfg <<= shift; } con = __raw_readl(reg); con &= ~(0x3 << shift); con |= cfg; __raw_writel(con, reg); return 0; } /* * samsung_gpio_getcfg_2bit - Samsung 2bit style GPIO configuration read. * @chip: The gpio chip that is being configured. * @off: The offset for the GPIO being configured. * * The reverse of samsung_gpio_setcfg_2bit(). Will return a value which * could be directly passed back to samsung_gpio_setcfg_2bit(), from the * S3C_GPIO_SPECIAL() macro. */ static unsigned int samsung_gpio_getcfg_2bit(struct samsung_gpio_chip *chip, unsigned int off) { u32 con; con = __raw_readl(chip->base); con >>= off * 2; con &= 3; /* this conversion works for IN and OUT as well as special mode */ return S3C_GPIO_SPECIAL(con); } /* * samsung_gpio_setcfg_4bit - Samsung 4bit single register GPIO config. * @chip: The gpio chip that is being configured. * @off: The offset for the GPIO being configured. * @cfg: The configuration value to set. * * This helper deal with the GPIO cases where the control register has 4 bits * of control per GPIO, generally in the form of: * 0000 = Input * 0001 = Output * others = Special functions (dependent on bank) * * Note, since the code to deal with the case where there are two control * registers instead of one, we do not have a separate set of functions for * each case. */ static int samsung_gpio_setcfg_4bit(struct samsung_gpio_chip *chip, unsigned int off, unsigned int cfg) { void __iomem *reg = chip->base; unsigned int shift = (off & 7) * 4; u32 con; if (off < 8 && chip->chip.ngpio > 8) reg -= 4; if (samsung_gpio_is_cfg_special(cfg)) { cfg &= 0xf; cfg <<= shift; } con = __raw_readl(reg); con &= ~(0xf << shift); con |= cfg; __raw_writel(con, reg); return 0; } /* * samsung_gpio_getcfg_4bit - Samsung 4bit single register GPIO config read. * @chip: The gpio chip that is being configured. * @off: The offset for the GPIO being configured. * * The reverse of samsung_gpio_setcfg_4bit(), turning a gpio configuration * register setting into a value the software can use, such as could be passed * to samsung_gpio_setcfg_4bit(). * * @sa samsung_gpio_getcfg_2bit */ static unsigned samsung_gpio_getcfg_4bit(struct samsung_gpio_chip *chip, unsigned int off) { void __iomem *reg = chip->base; unsigned int shift = (off & 7) * 4; u32 con; if (off < 8 && chip->chip.ngpio > 8) reg -= 4; con = __raw_readl(reg); con >>= shift; con &= 0xf; /* this conversion works for IN and OUT as well as special mode */ return S3C_GPIO_SPECIAL(con); } #ifdef CONFIG_PLAT_S3C24XX /* * s3c24xx_gpio_setcfg_abank - S3C24XX style GPIO configuration (Bank A) * @chip: The gpio chip that is being configured. * @off: The offset for the GPIO being configured. * @cfg: The configuration value to set. * * This helper deal with the GPIO cases where the control register * has one bit of configuration for the gpio, where setting the bit * means the pin is in special function mode and unset means output. */ static int s3c24xx_gpio_setcfg_abank(struct samsung_gpio_chip *chip, unsigned int off, unsigned int cfg) { void __iomem *reg = chip->base; unsigned int shift = off; u32 con; if (samsung_gpio_is_cfg_special(cfg)) { cfg &= 0xf; /* Map output to 0, and SFN2 to 1 */ cfg -= 1; if (cfg > 1) return -EINVAL; cfg <<= shift; } con = __raw_readl(reg); con &= ~(0x1 << shift); con |= cfg; __raw_writel(con, reg); return 0; } /* * s3c24xx_gpio_getcfg_abank - S3C24XX style GPIO configuration read (Bank A) * @chip: The gpio chip that is being configured. * @off: The offset for the GPIO being configured. * * The reverse of s3c24xx_gpio_setcfg_abank() turning an GPIO into a usable * GPIO configuration value. * * @sa samsung_gpio_getcfg_2bit * @sa samsung_gpio_getcfg_4bit */ static unsigned s3c24xx_gpio_getcfg_abank(struct samsung_gpio_chip *chip, unsigned int off) { u32 con; con = __raw_readl(chip->base); con >>= off; con &= 1; con++; return S3C_GPIO_SFN(con); } #endif #if defined(CONFIG_CPU_S5P6440) || defined(CONFIG_CPU_S5P6450) static int s5p64x0_gpio_setcfg_rbank(struct samsung_gpio_chip *chip, unsigned int off, unsigned int cfg) { void __iomem *reg = chip->base; unsigned int shift; u32 con; switch (off) { case 0: case 1: case 2: case 3: case 4: case 5: shift = (off & 7) * 4; reg -= 4; break; case 6: shift = ((off + 1) & 7) * 4; reg -= 4; default: shift = ((off + 1) & 7) * 4; break; } if (samsung_gpio_is_cfg_special(cfg)) { cfg &= 0xf; cfg <<= shift; } con = __raw_readl(reg); con &= ~(0xf << shift); con |= cfg; __raw_writel(con, reg); return 0; } #endif static void __init samsung_gpiolib_set_cfg(struct samsung_gpio_cfg *chipcfg, int nr_chips) { for (; nr_chips > 0; nr_chips--, chipcfg++) { if (!chipcfg->set_config) chipcfg->set_config = samsung_gpio_setcfg_4bit; if (!chipcfg->get_config) chipcfg->get_config = samsung_gpio_getcfg_4bit; if (!chipcfg->set_pull) chipcfg->set_pull = samsung_gpio_setpull_updown; if (!chipcfg->get_pull) chipcfg->get_pull = samsung_gpio_getpull_updown; } } struct samsung_gpio_cfg s3c24xx_gpiocfg_default = { .set_config = samsung_gpio_setcfg_2bit, .get_config = samsung_gpio_getcfg_2bit, }; #ifdef CONFIG_PLAT_S3C24XX static struct samsung_gpio_cfg s3c24xx_gpiocfg_banka = { .set_config = s3c24xx_gpio_setcfg_abank, .get_config = s3c24xx_gpio_getcfg_abank, }; #endif #if defined(CONFIG_ARCH_EXYNOS4) || defined(CONFIG_ARCH_EXYNOS5) static struct samsung_gpio_cfg exynos_gpio_cfg = { .set_pull = exynos_gpio_setpull, .get_pull = exynos_gpio_getpull, .set_config = samsung_gpio_setcfg_4bit, .get_config = samsung_gpio_getcfg_4bit, }; #endif #if defined(CONFIG_CPU_S5P6440) || defined(CONFIG_CPU_S5P6450) static struct samsung_gpio_cfg s5p64x0_gpio_cfg_rbank = { .cfg_eint = 0x3, .set_config = s5p64x0_gpio_setcfg_rbank, .get_config = samsung_gpio_getcfg_4bit, .set_pull = samsung_gpio_setpull_updown, .get_pull = samsung_gpio_getpull_updown, }; #endif static struct samsung_gpio_cfg samsung_gpio_cfgs[] = { [0] = { .cfg_eint = 0x0, }, [1] = { .cfg_eint = 0x3, }, [2] = { .cfg_eint = 0x7, }, [3] = { .cfg_eint = 0xF, }, [4] = { .cfg_eint = 0x0, .set_config = samsung_gpio_setcfg_2bit, .get_config = samsung_gpio_getcfg_2bit, }, [5] = { .cfg_eint = 0x2, .set_config = samsung_gpio_setcfg_2bit, .get_config = samsung_gpio_getcfg_2bit, }, [6] = { .cfg_eint = 0x3, .set_config = samsung_gpio_setcfg_2bit, .get_config = samsung_gpio_getcfg_2bit, }, [7] = { .set_config = samsung_gpio_setcfg_2bit, .get_config = samsung_gpio_getcfg_2bit, }, [8] = { .set_pull = exynos_gpio_setpull, .get_pull = exynos_gpio_getpull, }, [9] = { .cfg_eint = 0x3, .set_pull = exynos_gpio_setpull, .get_pull = exynos_gpio_getpull, } }; /* * Default routines for controlling GPIO, based on the original S3C24XX * GPIO functions which deal with the case where each gpio bank of the * chip is as following: * * base + 0x00: Control register, 2 bits per gpio * gpio n: 2 bits starting at (2*n) * 00 = input, 01 = output, others mean special-function * base + 0x04: Data register, 1 bit per gpio * bit n: data bit n */ static int samsung_gpiolib_2bit_input(struct gpio_chip *chip, unsigned offset) { struct samsung_gpio_chip *ourchip = to_samsung_gpio(chip); void __iomem *base = ourchip->base; unsigned long flags; unsigned long con; samsung_gpio_lock(ourchip, flags); con = __raw_readl(base + 0x00); con &= ~(3 << (offset * 2)); __raw_writel(con, base + 0x00); samsung_gpio_unlock(ourchip, flags); return 0; } static int samsung_gpiolib_2bit_output(struct gpio_chip *chip, unsigned offset, int value) { struct samsung_gpio_chip *ourchip = to_samsung_gpio(chip); void __iomem *base = ourchip->base; unsigned long flags; unsigned long dat; unsigned long con; samsung_gpio_lock(ourchip, flags); dat = __raw_readl(base + 0x04); dat &= ~(1 << offset); if (value) dat |= 1 << offset; __raw_writel(dat, base + 0x04); con = __raw_readl(base + 0x00); con &= ~(3 << (offset * 2)); con |= 1 << (offset * 2); __raw_writel(con, base + 0x00); __raw_writel(dat, base + 0x04); samsung_gpio_unlock(ourchip, flags); return 0; } /* * The samsung_gpiolib_4bit routines are to control the gpio banks where * the gpio configuration register (GPxCON) has 4 bits per GPIO, as the * following example: * * base + 0x00: Control register, 4 bits per gpio * gpio n: 4 bits starting at (4*n) * 0000 = input, 0001 = output, others mean special-function * base + 0x04: Data register, 1 bit per gpio * bit n: data bit n * * Note, since the data register is one bit per gpio and is at base + 0x4 * we can use samsung_gpiolib_get and samsung_gpiolib_set to change the * state of the output. */ static int samsung_gpiolib_4bit_input(struct gpio_chip *chip, unsigned int offset) { struct samsung_gpio_chip *ourchip = to_samsung_gpio(chip); void __iomem *base = ourchip->base; unsigned long con; con = __raw_readl(base + GPIOCON_OFF); if (ourchip->bitmap_gpio_int & BIT(offset)) con |= 0xf << con_4bit_shift(offset); else con &= ~(0xf << con_4bit_shift(offset)); __raw_writel(con, base + GPIOCON_OFF); gpio_dbg("%s: %p: CON now %08lx\n", __func__, base, con); return 0; } static int samsung_gpiolib_4bit_output(struct gpio_chip *chip, unsigned int offset, int value) { struct samsung_gpio_chip *ourchip = to_samsung_gpio(chip); void __iomem *base = ourchip->base; unsigned long con; unsigned long dat; con = __raw_readl(base + GPIOCON_OFF); con &= ~(0xf << con_4bit_shift(offset)); con |= 0x1 << con_4bit_shift(offset); dat = __raw_readl(base + GPIODAT_OFF); if (value) dat |= 1 << offset; else dat &= ~(1 << offset); __raw_writel(dat, base + GPIODAT_OFF); __raw_writel(con, base + GPIOCON_OFF); __raw_writel(dat, base + GPIODAT_OFF); gpio_dbg("%s: %p: CON %08lx, DAT %08lx\n", __func__, base, con, dat); return 0; } /* * The next set of routines are for the case where the GPIO configuration * registers are 4 bits per GPIO but there is more than one register (the * bank has more than 8 GPIOs. * * This case is the similar to the 4 bit case, but the registers are as * follows: * * base + 0x00: Control register, 4 bits per gpio (lower 8 GPIOs) * gpio n: 4 bits starting at (4*n) * 0000 = input, 0001 = output, others mean special-function * base + 0x04: Control register, 4 bits per gpio (up to 8 additions GPIOs) * gpio n: 4 bits starting at (4*n) * 0000 = input, 0001 = output, others mean special-function * base + 0x08: Data register, 1 bit per gpio * bit n: data bit n * * To allow us to use the samsung_gpiolib_get and samsung_gpiolib_set * routines we store the 'base + 0x4' address so that these routines see * the data register at ourchip->base + 0x04. */ static int samsung_gpiolib_4bit2_input(struct gpio_chip *chip, unsigned int offset) { struct samsung_gpio_chip *ourchip = to_samsung_gpio(chip); void __iomem *base = ourchip->base; void __iomem *regcon = base; unsigned long con; if (offset > 7) offset -= 8; else regcon -= 4; con = __raw_readl(regcon); con &= ~(0xf << con_4bit_shift(offset)); __raw_writel(con, regcon); gpio_dbg("%s: %p: CON %08lx\n", __func__, base, con); return 0; } static int samsung_gpiolib_4bit2_output(struct gpio_chip *chip, unsigned int offset, int value) { struct samsung_gpio_chip *ourchip = to_samsung_gpio(chip); void __iomem *base = ourchip->base; void __iomem *regcon = base; unsigned long con; unsigned long dat; unsigned con_offset = offset; if (con_offset > 7) con_offset -= 8; else regcon -= 4; con = __raw_readl(regcon); con &= ~(0xf << con_4bit_shift(con_offset)); con |= 0x1 << con_4bit_shift(con_offset); dat = __raw_readl(base + GPIODAT_OFF); if (value) dat |= 1 << offset; else dat &= ~(1 << offset); __raw_writel(dat, base + GPIODAT_OFF); __raw_writel(con, regcon); __raw_writel(dat, base + GPIODAT_OFF); gpio_dbg("%s: %p: CON %08lx, DAT %08lx\n", __func__, base, con, dat); return 0; } #ifdef CONFIG_PLAT_S3C24XX /* The next set of routines are for the case of s3c24xx bank a */ static int s3c24xx_gpiolib_banka_input(struct gpio_chip *chip, unsigned offset) { return -EINVAL; } static int s3c24xx_gpiolib_banka_output(struct gpio_chip *chip, unsigned offset, int value) { struct samsung_gpio_chip *ourchip = to_samsung_gpio(chip); void __iomem *base = ourchip->base; unsigned long flags; unsigned long dat; unsigned long con; local_irq_save(flags); con = __raw_readl(base + 0x00); dat = __raw_readl(base + 0x04); dat &= ~(1 << offset); if (value) dat |= 1 << offset; __raw_writel(dat, base + 0x04); con &= ~(1 << offset); __raw_writel(con, base + 0x00); __raw_writel(dat, base + 0x04); local_irq_restore(flags); return 0; } #endif /* The next set of routines are for the case of s5p64x0 bank r */ static int s5p64x0_gpiolib_rbank_input(struct gpio_chip *chip, unsigned int offset) { struct samsung_gpio_chip *ourchip = to_samsung_gpio(chip); void __iomem *base = ourchip->base; void __iomem *regcon = base; unsigned long con; unsigned long flags; switch (offset) { case 6: offset += 1; case 0: case 1: case 2: case 3: case 4: case 5: regcon -= 4; break; default: offset -= 7; break; } samsung_gpio_lock(ourchip, flags); con = __raw_readl(regcon); con &= ~(0xf << con_4bit_shift(offset)); __raw_writel(con, regcon); samsung_gpio_unlock(ourchip, flags); return 0; } static int s5p64x0_gpiolib_rbank_output(struct gpio_chip *chip, unsigned int offset, int value) { struct samsung_gpio_chip *ourchip = to_samsung_gpio(chip); void __iomem *base = ourchip->base; void __iomem *regcon = base; unsigned long con; unsigned long dat; unsigned long flags; unsigned con_offset = offset; switch (con_offset) { case 6: con_offset += 1; case 0: case 1: case 2: case 3: case 4: case 5: regcon -= 4; break; default: con_offset -= 7; break; } samsung_gpio_lock(ourchip, flags); con = __raw_readl(regcon); con &= ~(0xf << con_4bit_shift(con_offset)); con |= 0x1 << con_4bit_shift(con_offset); dat = __raw_readl(base + GPIODAT_OFF); if (value) dat |= 1 << offset; else dat &= ~(1 << offset); __raw_writel(con, regcon); __raw_writel(dat, base + GPIODAT_OFF); samsung_gpio_unlock(ourchip, flags); return 0; } static void samsung_gpiolib_set(struct gpio_chip *chip, unsigned offset, int value) { struct samsung_gpio_chip *ourchip = to_samsung_gpio(chip); void __iomem *base = ourchip->base; unsigned long flags; unsigned long dat; samsung_gpio_lock(ourchip, flags); dat = __raw_readl(base + 0x04); dat &= ~(1 << offset); if (value) dat |= 1 << offset; __raw_writel(dat, base + 0x04); samsung_gpio_unlock(ourchip, flags); } static int samsung_gpiolib_get(struct gpio_chip *chip, unsigned offset) { struct samsung_gpio_chip *ourchip = to_samsung_gpio(chip); unsigned long val; val = __raw_readl(ourchip->base + 0x04); val >>= offset; val &= 1; return val; } /* * CONFIG_S3C_GPIO_TRACK enables the tracking of the s3c specific gpios * for use with the configuration calls, and other parts of the s3c gpiolib * support code. * * Not all s3c support code will need this, as some configurations of cpu * may only support one or two different configuration options and have an * easy gpio to samsung_gpio_chip mapping function. If this is the case, then * the machine support file should provide its own samsung_gpiolib_getchip() * and any other necessary functions. */ #ifdef CONFIG_S3C_GPIO_TRACK struct samsung_gpio_chip *s3c_gpios[S3C_GPIO_END]; static __init void s3c_gpiolib_track(struct samsung_gpio_chip *chip) { unsigned int gpn; int i; gpn = chip->chip.base; for (i = 0; i < chip->chip.ngpio; i++, gpn++) { BUG_ON(gpn >= ARRAY_SIZE(s3c_gpios)); s3c_gpios[gpn] = chip; } } #endif /* CONFIG_S3C_GPIO_TRACK */ /* * samsung_gpiolib_add() - add the Samsung gpio_chip. * @chip: The chip to register * * This is a wrapper to gpiochip_add() that takes our specific gpio chip * information and makes the necessary alterations for the platform and * notes the information for use with the configuration systems and any * other parts of the system. */ static void __init samsung_gpiolib_add(struct samsung_gpio_chip *chip) { struct gpio_chip *gc = &chip->chip; int ret; BUG_ON(!chip->base); BUG_ON(!gc->label); BUG_ON(!gc->ngpio); spin_lock_init(&chip->lock); if (!gc->direction_input) gc->direction_input = samsung_gpiolib_2bit_input; if (!gc->direction_output) gc->direction_output = samsung_gpiolib_2bit_output; if (!gc->set) gc->set = samsung_gpiolib_set; if (!gc->get) gc->get = samsung_gpiolib_get; #ifdef CONFIG_PM if (chip->pm != NULL) { if (!chip->pm->save || !chip->pm->resume) printk(KERN_ERR "gpio: %s has missing PM functions\n", gc->label); } else printk(KERN_ERR "gpio: %s has no PM function\n", gc->label); #endif /* gpiochip_add() prints own failure message on error. */ ret = gpiochip_add(gc); if (ret >= 0) s3c_gpiolib_track(chip); } #if defined(CONFIG_PLAT_S3C24XX) && defined(CONFIG_OF) static int s3c24xx_gpio_xlate(struct gpio_chip *gc, const struct of_phandle_args *gpiospec, u32 *flags) { unsigned int pin; if (WARN_ON(gc->of_gpio_n_cells < 3)) return -EINVAL; if (WARN_ON(gpiospec->args_count < gc->of_gpio_n_cells)) return -EINVAL; if (gpiospec->args[0] > gc->ngpio) return -EINVAL; pin = gc->base + gpiospec->args[0]; if (s3c_gpio_cfgpin(pin, S3C_GPIO_SFN(gpiospec->args[1]))) pr_warn("gpio_xlate: failed to set pin function\n"); if (s3c_gpio_setpull(pin, gpiospec->args[2] & 0xffff)) pr_warn("gpio_xlate: failed to set pin pull up/down\n"); if (flags) *flags = gpiospec->args[2] >> 16; return gpiospec->args[0]; } static const struct of_device_id s3c24xx_gpio_dt_match[] __initdata = { { .compatible = "samsung,s3c24xx-gpio", }, {} }; static __init void s3c24xx_gpiolib_attach_ofnode(struct samsung_gpio_chip *chip, u64 base, u64 offset) { struct gpio_chip *gc = &chip->chip; u64 address; if (!of_have_populated_dt()) return; address = chip->base ? base + ((u32)chip->base & 0xfff) : base + offset; gc->of_node = of_find_matching_node_by_address(NULL, s3c24xx_gpio_dt_match, address); if (!gc->of_node) { pr_info("gpio: device tree node not found for gpio controller" " with base address %08llx\n", address); return; } gc->of_gpio_n_cells = 3; gc->of_xlate = s3c24xx_gpio_xlate; } #else static __init void s3c24xx_gpiolib_attach_ofnode(struct samsung_gpio_chip *chip, u64 base, u64 offset) { return; } #endif /* defined(CONFIG_PLAT_S3C24XX) && defined(CONFIG_OF) */ static void __init s3c24xx_gpiolib_add_chips(struct samsung_gpio_chip *chip, int nr_chips, void __iomem *base) { int i; struct gpio_chip *gc = &chip->chip; for (i = 0 ; i < nr_chips; i++, chip++) { /* skip banks not present on SoC */ if (chip->chip.base >= S3C_GPIO_END) continue; if (!chip->config) chip->config = &s3c24xx_gpiocfg_default; if (!chip->pm) chip->pm = __gpio_pm(&samsung_gpio_pm_2bit); if ((base != NULL) && (chip->base == NULL)) chip->base = base + ((i) * 0x10); if (!gc->direction_input) gc->direction_input = samsung_gpiolib_2bit_input; if (!gc->direction_output) gc->direction_output = samsung_gpiolib_2bit_output; samsung_gpiolib_add(chip); s3c24xx_gpiolib_attach_ofnode(chip, S3C24XX_PA_GPIO, i * 0x10); } } static void __init samsung_gpiolib_add_2bit_chips(struct samsung_gpio_chip *chip, int nr_chips, void __iomem *base, unsigned int offset) { int i; for (i = 0 ; i < nr_chips; i++, chip++) { chip->chip.direction_input = samsung_gpiolib_2bit_input; chip->chip.direction_output = samsung_gpiolib_2bit_output; if (!chip->config) chip->config = &samsung_gpio_cfgs[7]; if (!chip->pm) chip->pm = __gpio_pm(&samsung_gpio_pm_2bit); if ((base != NULL) && (chip->base == NULL)) chip->base = base + ((i) * offset); samsung_gpiolib_add(chip); } } /* * samsung_gpiolib_add_4bit_chips - 4bit single register GPIO config. * @chip: The gpio chip that is being configured. * @nr_chips: The no of chips (gpio ports) for the GPIO being configured. * * This helper deal with the GPIO cases where the control register has 4 bits * of control per GPIO, generally in the form of: * 0000 = Input * 0001 = Output * others = Special functions (dependent on bank) * * Note, since the code to deal with the case where there are two control * registers instead of one, we do not have a separate set of function * (samsung_gpiolib_add_4bit2_chips)for each case. */ static void __init samsung_gpiolib_add_4bit_chips(struct samsung_gpio_chip *chip, int nr_chips, void __iomem *base) { int i; for (i = 0 ; i < nr_chips; i++, chip++) { chip->chip.direction_input = samsung_gpiolib_4bit_input; chip->chip.direction_output = samsung_gpiolib_4bit_output; if (!chip->config) chip->config = &samsung_gpio_cfgs[2]; if (!chip->pm) chip->pm = __gpio_pm(&samsung_gpio_pm_4bit); if ((base != NULL) && (chip->base == NULL)) chip->base = base + ((i) * 0x20); chip->bitmap_gpio_int = 0; samsung_gpiolib_add(chip); } } static void __init samsung_gpiolib_add_4bit2_chips(struct samsung_gpio_chip *chip, int nr_chips) { for (; nr_chips > 0; nr_chips--, chip++) { chip->chip.direction_input = samsung_gpiolib_4bit2_input; chip->chip.direction_output = samsung_gpiolib_4bit2_output; if (!chip->config) chip->config = &samsung_gpio_cfgs[2]; if (!chip->pm) chip->pm = __gpio_pm(&samsung_gpio_pm_4bit); samsung_gpiolib_add(chip); } } static void __init s5p64x0_gpiolib_add_rbank(struct samsung_gpio_chip *chip, int nr_chips) { for (; nr_chips > 0; nr_chips--, chip++) { chip->chip.direction_input = s5p64x0_gpiolib_rbank_input; chip->chip.direction_output = s5p64x0_gpiolib_rbank_output; if (!chip->pm) chip->pm = __gpio_pm(&samsung_gpio_pm_4bit); samsung_gpiolib_add(chip); } } int samsung_gpiolib_to_irq(struct gpio_chip *chip, unsigned int offset) { struct samsung_gpio_chip *samsung_chip = container_of(chip, struct samsung_gpio_chip, chip); return samsung_chip->irq_base + offset; } #ifdef CONFIG_PLAT_S3C24XX static int s3c24xx_gpiolib_fbank_to_irq(struct gpio_chip *chip, unsigned offset) { if (offset < 4) return IRQ_EINT0 + offset; if (offset < 8) return IRQ_EINT4 + offset - 4; return -EINVAL; } #endif #ifdef CONFIG_PLAT_S3C64XX static int s3c64xx_gpiolib_mbank_to_irq(struct gpio_chip *chip, unsigned pin) { return pin < 5 ? IRQ_EINT(23) + pin : -ENXIO; } static int s3c64xx_gpiolib_lbank_to_irq(struct gpio_chip *chip, unsigned pin) { return pin >= 8 ? IRQ_EINT(16) + pin - 8 : -ENXIO; } #endif struct samsung_gpio_chip s3c24xx_gpios[] = { #ifdef CONFIG_PLAT_S3C24XX { .config = &s3c24xx_gpiocfg_banka, .chip = { .base = S3C2410_GPA(0), .owner = THIS_MODULE, .label = "GPIOA", .ngpio = 24, .direction_input = s3c24xx_gpiolib_banka_input, .direction_output = s3c24xx_gpiolib_banka_output, }, }, { .chip = { .base = S3C2410_GPB(0), .owner = THIS_MODULE, .label = "GPIOB", .ngpio = 16, }, }, { .chip = { .base = S3C2410_GPC(0), .owner = THIS_MODULE, .label = "GPIOC", .ngpio = 16, }, }, { .chip = { .base = S3C2410_GPD(0), .owner = THIS_MODULE, .label = "GPIOD", .ngpio = 16, }, }, { .chip = { .base = S3C2410_GPE(0), .label = "GPIOE", .owner = THIS_MODULE, .ngpio = 16, }, }, { .chip = { .base = S3C2410_GPF(0), .owner = THIS_MODULE, .label = "GPIOF", .ngpio = 8, .to_irq = s3c24xx_gpiolib_fbank_to_irq, }, }, { .irq_base = IRQ_EINT8, .chip = { .base = S3C2410_GPG(0), .owner = THIS_MODULE, .label = "GPIOG", .ngpio = 16, .to_irq = samsung_gpiolib_to_irq, }, }, { .chip = { .base = S3C2410_GPH(0), .owner = THIS_MODULE, .label = "GPIOH", .ngpio = 11, }, }, /* GPIOS for the S3C2443 and later devices. */ { .base = S3C2440_GPJCON, .chip = { .base = S3C2410_GPJ(0), .owner = THIS_MODULE, .label = "GPIOJ", .ngpio = 16, }, }, { .base = S3C2443_GPKCON, .chip = { .base = S3C2410_GPK(0), .owner = THIS_MODULE, .label = "GPIOK", .ngpio = 16, }, }, { .base = S3C2443_GPLCON, .chip = { .base = S3C2410_GPL(0), .owner = THIS_MODULE, .label = "GPIOL", .ngpio = 15, }, }, { .base = S3C2443_GPMCON, .chip = { .base = S3C2410_GPM(0), .owner = THIS_MODULE, .label = "GPIOM", .ngpio = 2, }, }, #endif }; /* * GPIO bank summary: * * Bank GPIOs Style SlpCon ExtInt Group * A 8 4Bit Yes 1 * B 7 4Bit Yes 1 * C 8 4Bit Yes 2 * D 5 4Bit Yes 3 * E 5 4Bit Yes None * F 16 2Bit Yes 4 [1] * G 7 4Bit Yes 5 * H 10 4Bit[2] Yes 6 * I 16 2Bit Yes None * J 12 2Bit Yes None * K 16 4Bit[2] No None * L 15 4Bit[2] No None * M 6 4Bit No IRQ_EINT * N 16 2Bit No IRQ_EINT * O 16 2Bit Yes 7 * P 15 2Bit Yes 8 * Q 9 2Bit Yes 9 * * [1] BANKF pins 14,15 do not form part of the external interrupt sources * [2] BANK has two control registers, GPxCON0 and GPxCON1 */ static struct samsung_gpio_chip s3c64xx_gpios_4bit[] = { #ifdef CONFIG_PLAT_S3C64XX { .chip = { .base = S3C64XX_GPA(0), .ngpio = S3C64XX_GPIO_A_NR, .label = "GPA", }, }, { .chip = { .base = S3C64XX_GPB(0), .ngpio = S3C64XX_GPIO_B_NR, .label = "GPB", }, }, { .chip = { .base = S3C64XX_GPC(0), .ngpio = S3C64XX_GPIO_C_NR, .label = "GPC", }, }, { .chip = { .base = S3C64XX_GPD(0), .ngpio = S3C64XX_GPIO_D_NR, .label = "GPD", }, }, { .config = &samsung_gpio_cfgs[0], .chip = { .base = S3C64XX_GPE(0), .ngpio = S3C64XX_GPIO_E_NR, .label = "GPE", }, }, { .base = S3C64XX_GPG_BASE, .chip = { .base = S3C64XX_GPG(0), .ngpio = S3C64XX_GPIO_G_NR, .label = "GPG", }, }, { .base = S3C64XX_GPM_BASE, .config = &samsung_gpio_cfgs[1], .chip = { .base = S3C64XX_GPM(0), .ngpio = S3C64XX_GPIO_M_NR, .label = "GPM", .to_irq = s3c64xx_gpiolib_mbank_to_irq, }, }, #endif }; static struct samsung_gpio_chip s3c64xx_gpios_4bit2[] = { #ifdef CONFIG_PLAT_S3C64XX { .base = S3C64XX_GPH_BASE + 0x4, .chip = { .base = S3C64XX_GPH(0), .ngpio = S3C64XX_GPIO_H_NR, .label = "GPH", }, }, { .base = S3C64XX_GPK_BASE + 0x4, .config = &samsung_gpio_cfgs[0], .chip = { .base = S3C64XX_GPK(0), .ngpio = S3C64XX_GPIO_K_NR, .label = "GPK", }, }, { .base = S3C64XX_GPL_BASE + 0x4, .config = &samsung_gpio_cfgs[1], .chip = { .base = S3C64XX_GPL(0), .ngpio = S3C64XX_GPIO_L_NR, .label = "GPL", .to_irq = s3c64xx_gpiolib_lbank_to_irq, }, }, #endif }; static struct samsung_gpio_chip s3c64xx_gpios_2bit[] = { #ifdef CONFIG_PLAT_S3C64XX { .base = S3C64XX_GPF_BASE, .config = &samsung_gpio_cfgs[6], .chip = { .base = S3C64XX_GPF(0), .ngpio = S3C64XX_GPIO_F_NR, .label = "GPF", }, }, { .config = &samsung_gpio_cfgs[7], .chip = { .base = S3C64XX_GPI(0), .ngpio = S3C64XX_GPIO_I_NR, .label = "GPI", }, }, { .config = &samsung_gpio_cfgs[7], .chip = { .base = S3C64XX_GPJ(0), .ngpio = S3C64XX_GPIO_J_NR, .label = "GPJ", }, }, { .config = &samsung_gpio_cfgs[6], .chip = { .base = S3C64XX_GPO(0), .ngpio = S3C64XX_GPIO_O_NR, .label = "GPO", }, }, { .config = &samsung_gpio_cfgs[6], .chip = { .base = S3C64XX_GPP(0), .ngpio = S3C64XX_GPIO_P_NR, .label = "GPP", }, }, { .config = &samsung_gpio_cfgs[6], .chip = { .base = S3C64XX_GPQ(0), .ngpio = S3C64XX_GPIO_Q_NR, .label = "GPQ", }, }, { .base = S3C64XX_GPN_BASE, .irq_base = IRQ_EINT(0), .config = &samsung_gpio_cfgs[5], .chip = { .base = S3C64XX_GPN(0), .ngpio = S3C64XX_GPIO_N_NR, .label = "GPN", .to_irq = samsung_gpiolib_to_irq, }, }, #endif }; /* * S5P6440 GPIO bank summary: * * Bank GPIOs Style SlpCon ExtInt Group * A 6 4Bit Yes 1 * B 7 4Bit Yes 1 * C 8 4Bit Yes 2 * F 2 2Bit Yes 4 [1] * G 7 4Bit Yes 5 * H 10 4Bit[2] Yes 6 * I 16 2Bit Yes None * J 12 2Bit Yes None * N 16 2Bit No IRQ_EINT * P 8 2Bit Yes 8 * R 15 4Bit[2] Yes 8 */ static struct samsung_gpio_chip s5p6440_gpios_4bit[] = { #ifdef CONFIG_CPU_S5P6440 { .chip = { .base = S5P6440_GPA(0), .ngpio = S5P6440_GPIO_A_NR, .label = "GPA", }, }, { .chip = { .base = S5P6440_GPB(0), .ngpio = S5P6440_GPIO_B_NR, .label = "GPB", }, }, { .chip = { .base = S5P6440_GPC(0), .ngpio = S5P6440_GPIO_C_NR, .label = "GPC", }, }, { .base = S5P64X0_GPG_BASE, .chip = { .base = S5P6440_GPG(0), .ngpio = S5P6440_GPIO_G_NR, .label = "GPG", }, }, #endif }; static struct samsung_gpio_chip s5p6440_gpios_4bit2[] = { #ifdef CONFIG_CPU_S5P6440 { .base = S5P64X0_GPH_BASE + 0x4, .chip = { .base = S5P6440_GPH(0), .ngpio = S5P6440_GPIO_H_NR, .label = "GPH", }, }, #endif }; static struct samsung_gpio_chip s5p6440_gpios_rbank[] = { #ifdef CONFIG_CPU_S5P6440 { .base = S5P64X0_GPR_BASE + 0x4, .config = &s5p64x0_gpio_cfg_rbank, .chip = { .base = S5P6440_GPR(0), .ngpio = S5P6440_GPIO_R_NR, .label = "GPR", }, }, #endif }; static struct samsung_gpio_chip s5p6440_gpios_2bit[] = { #ifdef CONFIG_CPU_S5P6440 { .base = S5P64X0_GPF_BASE, .config = &samsung_gpio_cfgs[6], .chip = { .base = S5P6440_GPF(0), .ngpio = S5P6440_GPIO_F_NR, .label = "GPF", }, }, { .base = S5P64X0_GPI_BASE, .config = &samsung_gpio_cfgs[4], .chip = { .base = S5P6440_GPI(0), .ngpio = S5P6440_GPIO_I_NR, .label = "GPI", }, }, { .base = S5P64X0_GPJ_BASE, .config = &samsung_gpio_cfgs[4], .chip = { .base = S5P6440_GPJ(0), .ngpio = S5P6440_GPIO_J_NR, .label = "GPJ", }, }, { .base = S5P64X0_GPN_BASE, .config = &samsung_gpio_cfgs[5], .chip = { .base = S5P6440_GPN(0), .ngpio = S5P6440_GPIO_N_NR, .label = "GPN", }, }, { .base = S5P64X0_GPP_BASE, .config = &samsung_gpio_cfgs[6], .chip = { .base = S5P6440_GPP(0), .ngpio = S5P6440_GPIO_P_NR, .label = "GPP", }, }, #endif }; /* * S5P6450 GPIO bank summary: * * Bank GPIOs Style SlpCon ExtInt Group * A 6 4Bit Yes 1 * B 7 4Bit Yes 1 * C 8 4Bit Yes 2 * D 8 4Bit Yes None * F 2 2Bit Yes None * G 14 4Bit[2] Yes 5 * H 10 4Bit[2] Yes 6 * I 16 2Bit Yes None * J 12 2Bit Yes None * K 5 4Bit Yes None * N 16 2Bit No IRQ_EINT * P 11 2Bit Yes 8 * Q 14 2Bit Yes None * R 15 4Bit[2] Yes None * S 8 2Bit Yes None * * [1] BANKF pins 14,15 do not form part of the external interrupt sources * [2] BANK has two control registers, GPxCON0 and GPxCON1 */ static struct samsung_gpio_chip s5p6450_gpios_4bit[] = { #ifdef CONFIG_CPU_S5P6450 { .chip = { .base = S5P6450_GPA(0), .ngpio = S5P6450_GPIO_A_NR, .label = "GPA", }, }, { .chip = { .base = S5P6450_GPB(0), .ngpio = S5P6450_GPIO_B_NR, .label = "GPB", }, }, { .chip = { .base = S5P6450_GPC(0), .ngpio = S5P6450_GPIO_C_NR, .label = "GPC", }, }, { .chip = { .base = S5P6450_GPD(0), .ngpio = S5P6450_GPIO_D_NR, .label = "GPD", }, }, { .base = S5P6450_GPK_BASE, .chip = { .base = S5P6450_GPK(0), .ngpio = S5P6450_GPIO_K_NR, .label = "GPK", }, }, #endif }; static struct samsung_gpio_chip s5p6450_gpios_4bit2[] = { #ifdef CONFIG_CPU_S5P6450 { .base = S5P64X0_GPG_BASE + 0x4, .chip = { .base = S5P6450_GPG(0), .ngpio = S5P6450_GPIO_G_NR, .label = "GPG", }, }, { .base = S5P64X0_GPH_BASE + 0x4, .chip = { .base = S5P6450_GPH(0), .ngpio = S5P6450_GPIO_H_NR, .label = "GPH", }, }, #endif }; static struct samsung_gpio_chip s5p6450_gpios_rbank[] = { #ifdef CONFIG_CPU_S5P6450 { .base = S5P64X0_GPR_BASE + 0x4, .config = &s5p64x0_gpio_cfg_rbank, .chip = { .base = S5P6450_GPR(0), .ngpio = S5P6450_GPIO_R_NR, .label = "GPR", }, }, #endif }; static struct samsung_gpio_chip s5p6450_gpios_2bit[] = { #ifdef CONFIG_CPU_S5P6450 { .base = S5P64X0_GPF_BASE, .config = &samsung_gpio_cfgs[6], .chip = { .base = S5P6450_GPF(0), .ngpio = S5P6450_GPIO_F_NR, .label = "GPF", }, }, { .base = S5P64X0_GPI_BASE, .config = &samsung_gpio_cfgs[4], .chip = { .base = S5P6450_GPI(0), .ngpio = S5P6450_GPIO_I_NR, .label = "GPI", }, }, { .base = S5P64X0_GPJ_BASE, .config = &samsung_gpio_cfgs[4], .chip = { .base = S5P6450_GPJ(0), .ngpio = S5P6450_GPIO_J_NR, .label = "GPJ", }, }, { .base = S5P64X0_GPN_BASE, .config = &samsung_gpio_cfgs[5], .chip = { .base = S5P6450_GPN(0), .ngpio = S5P6450_GPIO_N_NR, .label = "GPN", }, }, { .base = S5P64X0_GPP_BASE, .config = &samsung_gpio_cfgs[6], .chip = { .base = S5P6450_GPP(0), .ngpio = S5P6450_GPIO_P_NR, .label = "GPP", }, }, { .base = S5P6450_GPQ_BASE, .config = &samsung_gpio_cfgs[5], .chip = { .base = S5P6450_GPQ(0), .ngpio = S5P6450_GPIO_Q_NR, .label = "GPQ", }, }, { .base = S5P6450_GPS_BASE, .config = &samsung_gpio_cfgs[6], .chip = { .base = S5P6450_GPS(0), .ngpio = S5P6450_GPIO_S_NR, .label = "GPS", }, }, #endif }; /* * S5PC100 GPIO bank summary: * * Bank GPIOs Style INT Type * A0 8 4Bit GPIO_INT0 * A1 5 4Bit GPIO_INT1 * B 8 4Bit GPIO_INT2 * C 5 4Bit GPIO_INT3 * D 7 4Bit GPIO_INT4 * E0 8 4Bit GPIO_INT5 * E1 6 4Bit GPIO_INT6 * F0 8 4Bit GPIO_INT7 * F1 8 4Bit GPIO_INT8 * F2 8 4Bit GPIO_INT9 * F3 4 4Bit GPIO_INT10 * G0 8 4Bit GPIO_INT11 * G1 3 4Bit GPIO_INT12 * G2 7 4Bit GPIO_INT13 * G3 7 4Bit GPIO_INT14 * H0 8 4Bit WKUP_INT * H1 8 4Bit WKUP_INT * H2 8 4Bit WKUP_INT * H3 8 4Bit WKUP_INT * I 8 4Bit GPIO_INT15 * J0 8 4Bit GPIO_INT16 * J1 5 4Bit GPIO_INT17 * J2 8 4Bit GPIO_INT18 * J3 8 4Bit GPIO_INT19 * J4 4 4Bit GPIO_INT20 * K0 8 4Bit None * K1 6 4Bit None * K2 8 4Bit None * K3 8 4Bit None * L0 8 4Bit None * L1 8 4Bit None * L2 8 4Bit None * L3 8 4Bit None */ static struct samsung_gpio_chip s5pc100_gpios_4bit[] = { #ifdef CONFIG_CPU_S5PC100 { .chip = { .base = S5PC100_GPA0(0), .ngpio = S5PC100_GPIO_A0_NR, .label = "GPA0", }, }, { .chip = { .base = S5PC100_GPA1(0), .ngpio = S5PC100_GPIO_A1_NR, .label = "GPA1", }, }, { .chip = { .base = S5PC100_GPB(0), .ngpio = S5PC100_GPIO_B_NR, .label = "GPB", }, }, { .chip = { .base = S5PC100_GPC(0), .ngpio = S5PC100_GPIO_C_NR, .label = "GPC", }, }, { .chip = { .base = S5PC100_GPD(0), .ngpio = S5PC100_GPIO_D_NR, .label = "GPD", }, }, { .chip = { .base = S5PC100_GPE0(0), .ngpio = S5PC100_GPIO_E0_NR, .label = "GPE0", }, }, { .chip = { .base = S5PC100_GPE1(0), .ngpio = S5PC100_GPIO_E1_NR, .label = "GPE1", }, }, { .chip = { .base = S5PC100_GPF0(0), .ngpio = S5PC100_GPIO_F0_NR, .label = "GPF0", }, }, { .chip = { .base = S5PC100_GPF1(0), .ngpio = S5PC100_GPIO_F1_NR, .label = "GPF1", }, }, { .chip = { .base = S5PC100_GPF2(0), .ngpio = S5PC100_GPIO_F2_NR, .label = "GPF2", }, }, { .chip = { .base = S5PC100_GPF3(0), .ngpio = S5PC100_GPIO_F3_NR, .label = "GPF3", }, }, { .chip = { .base = S5PC100_GPG0(0), .ngpio = S5PC100_GPIO_G0_NR, .label = "GPG0", }, }, { .chip = { .base = S5PC100_GPG1(0), .ngpio = S5PC100_GPIO_G1_NR, .label = "GPG1", }, }, { .chip = { .base = S5PC100_GPG2(0), .ngpio = S5PC100_GPIO_G2_NR, .label = "GPG2", }, }, { .chip = { .base = S5PC100_GPG3(0), .ngpio = S5PC100_GPIO_G3_NR, .label = "GPG3", }, }, { .chip = { .base = S5PC100_GPI(0), .ngpio = S5PC100_GPIO_I_NR, .label = "GPI", }, }, { .chip = { .base = S5PC100_GPJ0(0), .ngpio = S5PC100_GPIO_J0_NR, .label = "GPJ0", }, }, { .chip = { .base = S5PC100_GPJ1(0), .ngpio = S5PC100_GPIO_J1_NR, .label = "GPJ1", }, }, { .chip = { .base = S5PC100_GPJ2(0), .ngpio = S5PC100_GPIO_J2_NR, .label = "GPJ2", }, }, { .chip = { .base = S5PC100_GPJ3(0), .ngpio = S5PC100_GPIO_J3_NR, .label = "GPJ3", }, }, { .chip = { .base = S5PC100_GPJ4(0), .ngpio = S5PC100_GPIO_J4_NR, .label = "GPJ4", }, }, { .chip = { .base = S5PC100_GPK0(0), .ngpio = S5PC100_GPIO_K0_NR, .label = "GPK0", }, }, { .chip = { .base = S5PC100_GPK1(0), .ngpio = S5PC100_GPIO_K1_NR, .label = "GPK1", }, }, { .chip = { .base = S5PC100_GPK2(0), .ngpio = S5PC100_GPIO_K2_NR, .label = "GPK2", }, }, { .chip = { .base = S5PC100_GPK3(0), .ngpio = S5PC100_GPIO_K3_NR, .label = "GPK3", }, }, { .chip = { .base = S5PC100_GPL0(0), .ngpio = S5PC100_GPIO_L0_NR, .label = "GPL0", }, }, { .chip = { .base = S5PC100_GPL1(0), .ngpio = S5PC100_GPIO_L1_NR, .label = "GPL1", }, }, { .chip = { .base = S5PC100_GPL2(0), .ngpio = S5PC100_GPIO_L2_NR, .label = "GPL2", }, }, { .chip = { .base = S5PC100_GPL3(0), .ngpio = S5PC100_GPIO_L3_NR, .label = "GPL3", }, }, { .chip = { .base = S5PC100_GPL4(0), .ngpio = S5PC100_GPIO_L4_NR, .label = "GPL4", }, }, { .base = (S5P_VA_GPIO + 0xC00), .irq_base = IRQ_EINT(0), .chip = { .base = S5PC100_GPH0(0), .ngpio = S5PC100_GPIO_H0_NR, .label = "GPH0", .to_irq = samsung_gpiolib_to_irq, }, }, { .base = (S5P_VA_GPIO + 0xC20), .irq_base = IRQ_EINT(8), .chip = { .base = S5PC100_GPH1(0), .ngpio = S5PC100_GPIO_H1_NR, .label = "GPH1", .to_irq = samsung_gpiolib_to_irq, }, }, { .base = (S5P_VA_GPIO + 0xC40), .irq_base = IRQ_EINT(16), .chip = { .base = S5PC100_GPH2(0), .ngpio = S5PC100_GPIO_H2_NR, .label = "GPH2", .to_irq = samsung_gpiolib_to_irq, }, }, { .base = (S5P_VA_GPIO + 0xC60), .irq_base = IRQ_EINT(24), .chip = { .base = S5PC100_GPH3(0), .ngpio = S5PC100_GPIO_H3_NR, .label = "GPH3", .to_irq = samsung_gpiolib_to_irq, }, }, #endif }; /* * Followings are the gpio banks in S5PV210/S5PC110 * * The 'config' member when left to NULL, is initialized to the default * structure samsung_gpio_cfgs[3] in the init function below. * * The 'base' member is also initialized in the init function below. * Note: The initialization of 'base' member of samsung_gpio_chip structure * uses the above macro and depends on the banks being listed in order here. */ static struct samsung_gpio_chip s5pv210_gpios_4bit[] = { #ifdef CONFIG_CPU_S5PV210 { .chip = { .base = S5PV210_GPA0(0), .ngpio = S5PV210_GPIO_A0_NR, .label = "GPA0", }, }, { .chip = { .base = S5PV210_GPA1(0), .ngpio = S5PV210_GPIO_A1_NR, .label = "GPA1", }, }, { .chip = { .base = S5PV210_GPB(0), .ngpio = S5PV210_GPIO_B_NR, .label = "GPB", }, }, { .chip = { .base = S5PV210_GPC0(0), .ngpio = S5PV210_GPIO_C0_NR, .label = "GPC0", }, }, { .chip = { .base = S5PV210_GPC1(0), .ngpio = S5PV210_GPIO_C1_NR, .label = "GPC1", }, }, { .chip = { .base = S5PV210_GPD0(0), .ngpio = S5PV210_GPIO_D0_NR, .label = "GPD0", }, }, { .chip = { .base = S5PV210_GPD1(0), .ngpio = S5PV210_GPIO_D1_NR, .label = "GPD1", }, }, { .chip = { .base = S5PV210_GPE0(0), .ngpio = S5PV210_GPIO_E0_NR, .label = "GPE0", }, }, { .chip = { .base = S5PV210_GPE1(0), .ngpio = S5PV210_GPIO_E1_NR, .label = "GPE1", }, }, { .chip = { .base = S5PV210_GPF0(0), .ngpio = S5PV210_GPIO_F0_NR, .label = "GPF0", }, }, { .chip = { .base = S5PV210_GPF1(0), .ngpio = S5PV210_GPIO_F1_NR, .label = "GPF1", }, }, { .chip = { .base = S5PV210_GPF2(0), .ngpio = S5PV210_GPIO_F2_NR, .label = "GPF2", }, }, { .chip = { .base = S5PV210_GPF3(0), .ngpio = S5PV210_GPIO_F3_NR, .label = "GPF3", }, }, { .chip = { .base = S5PV210_GPG0(0), .ngpio = S5PV210_GPIO_G0_NR, .label = "GPG0", }, }, { .chip = { .base = S5PV210_GPG1(0), .ngpio = S5PV210_GPIO_G1_NR, .label = "GPG1", }, }, { .chip = { .base = S5PV210_GPG2(0), .ngpio = S5PV210_GPIO_G2_NR, .label = "GPG2", }, }, { .chip = { .base = S5PV210_GPG3(0), .ngpio = S5PV210_GPIO_G3_NR, .label = "GPG3", }, }, { .chip = { .base = S5PV210_GPI(0), .ngpio = S5PV210_GPIO_I_NR, .label = "GPI", }, }, { .chip = { .base = S5PV210_GPJ0(0), .ngpio = S5PV210_GPIO_J0_NR, .label = "GPJ0", }, }, { .chip = { .base = S5PV210_GPJ1(0), .ngpio = S5PV210_GPIO_J1_NR, .label = "GPJ1", }, }, { .chip = { .base = S5PV210_GPJ2(0), .ngpio = S5PV210_GPIO_J2_NR, .label = "GPJ2", }, }, { .chip = { .base = S5PV210_GPJ3(0), .ngpio = S5PV210_GPIO_J3_NR, .label = "GPJ3", }, }, { .chip = { .base = S5PV210_GPJ4(0), .ngpio = S5PV210_GPIO_J4_NR, .label = "GPJ4", }, }, { .chip = { .base = S5PV210_MP01(0), .ngpio = S5PV210_GPIO_MP01_NR, .label = "MP01", }, }, { .chip = { .base = S5PV210_MP02(0), .ngpio = S5PV210_GPIO_MP02_NR, .label = "MP02", }, }, { .chip = { .base = S5PV210_MP03(0), .ngpio = S5PV210_GPIO_MP03_NR, .label = "MP03", }, }, { .chip = { .base = S5PV210_MP04(0), .ngpio = S5PV210_GPIO_MP04_NR, .label = "MP04", }, }, { .chip = { .base = S5PV210_MP05(0), .ngpio = S5PV210_GPIO_MP05_NR, .label = "MP05", }, }, { .base = (S5P_VA_GPIO + 0xC00), .irq_base = IRQ_EINT(0), .chip = { .base = S5PV210_GPH0(0), .ngpio = S5PV210_GPIO_H0_NR, .label = "GPH0", .to_irq = samsung_gpiolib_to_irq, }, }, { .base = (S5P_VA_GPIO + 0xC20), .irq_base = IRQ_EINT(8), .chip = { .base = S5PV210_GPH1(0), .ngpio = S5PV210_GPIO_H1_NR, .label = "GPH1", .to_irq = samsung_gpiolib_to_irq, }, }, { .base = (S5P_VA_GPIO + 0xC40), .irq_base = IRQ_EINT(16), .chip = { .base = S5PV210_GPH2(0), .ngpio = S5PV210_GPIO_H2_NR, .label = "GPH2", .to_irq = samsung_gpiolib_to_irq, }, }, { .base = (S5P_VA_GPIO + 0xC60), .irq_base = IRQ_EINT(24), .chip = { .base = S5PV210_GPH3(0), .ngpio = S5PV210_GPIO_H3_NR, .label = "GPH3", .to_irq = samsung_gpiolib_to_irq, }, }, #endif }; /* * Followings are the gpio banks in EXYNOS SoCs * * The 'config' member when left to NULL, is initialized to the default * structure exynos_gpio_cfg in the init function below. * * The 'base' member is also initialized in the init function below. * Note: The initialization of 'base' member of samsung_gpio_chip structure * uses the above macro and depends on the banks being listed in order here. */ #ifdef CONFIG_ARCH_EXYNOS4 static struct samsung_gpio_chip exynos4_gpios_1[] = { { .chip = { .base = EXYNOS4_GPA0(0), .ngpio = EXYNOS4_GPIO_A0_NR, .label = "GPA0", }, }, { .chip = { .base = EXYNOS4_GPA1(0), .ngpio = EXYNOS4_GPIO_A1_NR, .label = "GPA1", }, }, { .chip = { .base = EXYNOS4_GPB(0), .ngpio = EXYNOS4_GPIO_B_NR, .label = "GPB", }, }, { .chip = { .base = EXYNOS4_GPC0(0), .ngpio = EXYNOS4_GPIO_C0_NR, .label = "GPC0", }, }, { .chip = { .base = EXYNOS4_GPC1(0), .ngpio = EXYNOS4_GPIO_C1_NR, .label = "GPC1", }, }, { .chip = { .base = EXYNOS4_GPD0(0), .ngpio = EXYNOS4_GPIO_D0_NR, .label = "GPD0", }, }, { .chip = { .base = EXYNOS4_GPD1(0), .ngpio = EXYNOS4_GPIO_D1_NR, .label = "GPD1", }, }, { .chip = { .base = EXYNOS4_GPE0(0), .ngpio = EXYNOS4_GPIO_E0_NR, .label = "GPE0", }, }, { .chip = { .base = EXYNOS4_GPE1(0), .ngpio = EXYNOS4_GPIO_E1_NR, .label = "GPE1", }, }, { .chip = { .base = EXYNOS4_GPE2(0), .ngpio = EXYNOS4_GPIO_E2_NR, .label = "GPE2", }, }, { .chip = { .base = EXYNOS4_GPE3(0), .ngpio = EXYNOS4_GPIO_E3_NR, .label = "GPE3", }, }, { .chip = { .base = EXYNOS4_GPE4(0), .ngpio = EXYNOS4_GPIO_E4_NR, .label = "GPE4", }, }, { .chip = { .base = EXYNOS4_GPF0(0), .ngpio = EXYNOS4_GPIO_F0_NR, .label = "GPF0", }, }, { .chip = { .base = EXYNOS4_GPF1(0), .ngpio = EXYNOS4_GPIO_F1_NR, .label = "GPF1", }, }, { .chip = { .base = EXYNOS4_GPF2(0), .ngpio = EXYNOS4_GPIO_F2_NR, .label = "GPF2", }, }, { .chip = { .base = EXYNOS4_GPF3(0), .ngpio = EXYNOS4_GPIO_F3_NR, .label = "GPF3", }, }, }; #endif #ifdef CONFIG_ARCH_EXYNOS4 static struct samsung_gpio_chip exynos4_gpios_2[] = { { .chip = { .base = EXYNOS4_GPJ0(0), .ngpio = EXYNOS4_GPIO_J0_NR, .label = "GPJ0", }, }, { .chip = { .base = EXYNOS4_GPJ1(0), .ngpio = EXYNOS4_GPIO_J1_NR, .label = "GPJ1", }, }, { .chip = { .base = EXYNOS4_GPK0(0), .ngpio = EXYNOS4_GPIO_K0_NR, .label = "GPK0", }, }, { .chip = { .base = EXYNOS4_GPK1(0), .ngpio = EXYNOS4_GPIO_K1_NR, .label = "GPK1", }, }, { .chip = { .base = EXYNOS4_GPK2(0), .ngpio = EXYNOS4_GPIO_K2_NR, .label = "GPK2", }, }, { .chip = { .base = EXYNOS4_GPK3(0), .ngpio = EXYNOS4_GPIO_K3_NR, .label = "GPK3", }, }, { .chip = { .base = EXYNOS4_GPL0(0), .ngpio = EXYNOS4_GPIO_L0_NR, .label = "GPL0", }, }, { .chip = { .base = EXYNOS4_GPL1(0), .ngpio = EXYNOS4_GPIO_L1_NR, .label = "GPL1", }, }, { .chip = { .base = EXYNOS4_GPL2(0), .ngpio = EXYNOS4_GPIO_L2_NR, .label = "GPL2", }, }, { .config = &samsung_gpio_cfgs[8], .chip = { .base = EXYNOS4_GPY0(0), .ngpio = EXYNOS4_GPIO_Y0_NR, .label = "GPY0", }, }, { .config = &samsung_gpio_cfgs[8], .chip = { .base = EXYNOS4_GPY1(0), .ngpio = EXYNOS4_GPIO_Y1_NR, .label = "GPY1", }, }, { .config = &samsung_gpio_cfgs[8], .chip = { .base = EXYNOS4_GPY2(0), .ngpio = EXYNOS4_GPIO_Y2_NR, .label = "GPY2", }, }, { .config = &samsung_gpio_cfgs[8], .chip = { .base = EXYNOS4_GPY3(0), .ngpio = EXYNOS4_GPIO_Y3_NR, .label = "GPY3", }, }, { .config = &samsung_gpio_cfgs[8], .chip = { .base = EXYNOS4_GPY4(0), .ngpio = EXYNOS4_GPIO_Y4_NR, .label = "GPY4", }, }, { .config = &samsung_gpio_cfgs[8], .chip = { .base = EXYNOS4_GPY5(0), .ngpio = EXYNOS4_GPIO_Y5_NR, .label = "GPY5", }, }, { .config = &samsung_gpio_cfgs[8], .chip = { .base = EXYNOS4_GPY6(0), .ngpio = EXYNOS4_GPIO_Y6_NR, .label = "GPY6", }, }, { .config = &samsung_gpio_cfgs[9], .irq_base = IRQ_EINT(0), .chip = { .base = EXYNOS4_GPX0(0), .ngpio = EXYNOS4_GPIO_X0_NR, .label = "GPX0", .to_irq = samsung_gpiolib_to_irq, }, }, { .config = &samsung_gpio_cfgs[9], .irq_base = IRQ_EINT(8), .chip = { .base = EXYNOS4_GPX1(0), .ngpio = EXYNOS4_GPIO_X1_NR, .label = "GPX1", .to_irq = samsung_gpiolib_to_irq, }, }, { .config = &samsung_gpio_cfgs[9], .irq_base = IRQ_EINT(16), .chip = { .base = EXYNOS4_GPX2(0), .ngpio = EXYNOS4_GPIO_X2_NR, .label = "GPX2", .to_irq = samsung_gpiolib_to_irq, }, }, { .config = &samsung_gpio_cfgs[9], .irq_base = IRQ_EINT(24), .chip = { .base = EXYNOS4_GPX3(0), .ngpio = EXYNOS4_GPIO_X3_NR, .label = "GPX3", .to_irq = samsung_gpiolib_to_irq, }, }, }; #endif #ifdef CONFIG_ARCH_EXYNOS4 static struct samsung_gpio_chip exynos4_gpios_3[] = { { .chip = { .base = EXYNOS4_GPZ(0), .ngpio = EXYNOS4_GPIO_Z_NR, .label = "GPZ", }, }, }; #endif #ifdef CONFIG_ARCH_EXYNOS5 static struct samsung_gpio_chip exynos5_gpios_1[] = { { .chip = { .base = EXYNOS5_GPA0(0), .ngpio = EXYNOS5_GPIO_A0_NR, .label = "GPA0", }, }, { .chip = { .base = EXYNOS5_GPA1(0), .ngpio = EXYNOS5_GPIO_A1_NR, .label = "GPA1", }, }, { .chip = { .base = EXYNOS5_GPA2(0), .ngpio = EXYNOS5_GPIO_A2_NR, .label = "GPA2", }, }, { .chip = { .base = EXYNOS5_GPB0(0), .ngpio = EXYNOS5_GPIO_B0_NR, .label = "GPB0", }, }, { .chip = { .base = EXYNOS5_GPB1(0), .ngpio = EXYNOS5_GPIO_B1_NR, .label = "GPB1", }, }, { .chip = { .base = EXYNOS5_GPB2(0), .ngpio = EXYNOS5_GPIO_B2_NR, .label = "GPB2", }, }, { .chip = { .base = EXYNOS5_GPB3(0), .ngpio = EXYNOS5_GPIO_B3_NR, .label = "GPB3", }, }, { .chip = { .base = EXYNOS5_GPC0(0), .ngpio = EXYNOS5_GPIO_C0_NR, .label = "GPC0", }, }, { .chip = { .base = EXYNOS5_GPC1(0), .ngpio = EXYNOS5_GPIO_C1_NR, .label = "GPC1", }, }, { .chip = { .base = EXYNOS5_GPC2(0), .ngpio = EXYNOS5_GPIO_C2_NR, .label = "GPC2", }, }, { .chip = { .base = EXYNOS5_GPC3(0), .ngpio = EXYNOS5_GPIO_C3_NR, .label = "GPC3", }, }, { .chip = { .base = EXYNOS5_GPD0(0), .ngpio = EXYNOS5_GPIO_D0_NR, .label = "GPD0", }, }, { .chip = { .base = EXYNOS5_GPD1(0), .ngpio = EXYNOS5_GPIO_D1_NR, .label = "GPD1", }, }, { .chip = { .base = EXYNOS5_GPY0(0), .ngpio = EXYNOS5_GPIO_Y0_NR, .label = "GPY0", }, }, { .chip = { .base = EXYNOS5_GPY1(0), .ngpio = EXYNOS5_GPIO_Y1_NR, .label = "GPY1", }, }, { .chip = { .base = EXYNOS5_GPY2(0), .ngpio = EXYNOS5_GPIO_Y2_NR, .label = "GPY2", }, }, { .chip = { .base = EXYNOS5_GPY3(0), .ngpio = EXYNOS5_GPIO_Y3_NR, .label = "GPY3", }, }, { .chip = { .base = EXYNOS5_GPY4(0), .ngpio = EXYNOS5_GPIO_Y4_NR, .label = "GPY4", }, }, { .chip = { .base = EXYNOS5_GPY5(0), .ngpio = EXYNOS5_GPIO_Y5_NR, .label = "GPY5", }, }, { .chip = { .base = EXYNOS5_GPY6(0), .ngpio = EXYNOS5_GPIO_Y6_NR, .label = "GPY6", }, }, { .chip = { .base = EXYNOS5_GPC4(0), .ngpio = EXYNOS5_GPIO_C4_NR, .label = "GPC4", }, }, { .config = &samsung_gpio_cfgs[9], .irq_base = IRQ_EINT(0), .chip = { .base = EXYNOS5_GPX0(0), .ngpio = EXYNOS5_GPIO_X0_NR, .label = "GPX0", .to_irq = samsung_gpiolib_to_irq, }, }, { .config = &samsung_gpio_cfgs[9], .irq_base = IRQ_EINT(8), .chip = { .base = EXYNOS5_GPX1(0), .ngpio = EXYNOS5_GPIO_X1_NR, .label = "GPX1", .to_irq = samsung_gpiolib_to_irq, }, }, { .config = &samsung_gpio_cfgs[9], .irq_base = IRQ_EINT(16), .chip = { .base = EXYNOS5_GPX2(0), .ngpio = EXYNOS5_GPIO_X2_NR, .label = "GPX2", .to_irq = samsung_gpiolib_to_irq, }, }, { .config = &samsung_gpio_cfgs[9], .irq_base = IRQ_EINT(24), .chip = { .base = EXYNOS5_GPX3(0), .ngpio = EXYNOS5_GPIO_X3_NR, .label = "GPX3", .to_irq = samsung_gpiolib_to_irq, }, }, }; #endif #ifdef CONFIG_ARCH_EXYNOS5 static struct samsung_gpio_chip exynos5_gpios_2[] = { { .chip = { .base = EXYNOS5_GPE0(0), .ngpio = EXYNOS5_GPIO_E0_NR, .label = "GPE0", }, }, { .chip = { .base = EXYNOS5_GPE1(0), .ngpio = EXYNOS5_GPIO_E1_NR, .label = "GPE1", }, }, { .chip = { .base = EXYNOS5_GPF0(0), .ngpio = EXYNOS5_GPIO_F0_NR, .label = "GPF0", }, }, { .chip = { .base = EXYNOS5_GPF1(0), .ngpio = EXYNOS5_GPIO_F1_NR, .label = "GPF1", }, }, { .chip = { .base = EXYNOS5_GPG0(0), .ngpio = EXYNOS5_GPIO_G0_NR, .label = "GPG0", }, }, { .chip = { .base = EXYNOS5_GPG1(0), .ngpio = EXYNOS5_GPIO_G1_NR, .label = "GPG1", }, }, { .chip = { .base = EXYNOS5_GPG2(0), .ngpio = EXYNOS5_GPIO_G2_NR, .label = "GPG2", }, }, { .chip = { .base = EXYNOS5_GPH0(0), .ngpio = EXYNOS5_GPIO_H0_NR, .label = "GPH0", }, }, { .chip = { .base = EXYNOS5_GPH1(0), .ngpio = EXYNOS5_GPIO_H1_NR, .label = "GPH1", }, }, }; #endif #ifdef CONFIG_ARCH_EXYNOS5 static struct samsung_gpio_chip exynos5_gpios_3[] = { { .chip = { .base = EXYNOS5_GPV0(0), .ngpio = EXYNOS5_GPIO_V0_NR, .label = "GPV0", }, }, { .chip = { .base = EXYNOS5_GPV1(0), .ngpio = EXYNOS5_GPIO_V1_NR, .label = "GPV1", }, }, { .chip = { .base = EXYNOS5_GPV2(0), .ngpio = EXYNOS5_GPIO_V2_NR, .label = "GPV2", }, }, { .chip = { .base = EXYNOS5_GPV3(0), .ngpio = EXYNOS5_GPIO_V3_NR, .label = "GPV3", }, }, { .chip = { .base = EXYNOS5_GPV4(0), .ngpio = EXYNOS5_GPIO_V4_NR, .label = "GPV4", }, }, }; #endif #ifdef CONFIG_ARCH_EXYNOS5 static struct samsung_gpio_chip exynos5_gpios_4[] = { { .chip = { .base = EXYNOS5_GPZ(0), .ngpio = EXYNOS5_GPIO_Z_NR, .label = "GPZ", }, }, }; #endif #if defined(CONFIG_ARCH_EXYNOS) && defined(CONFIG_OF) static int exynos_gpio_xlate(struct gpio_chip *gc, const struct of_phandle_args *gpiospec, u32 *flags) { unsigned int pin; if (WARN_ON(gc->of_gpio_n_cells < 4)) return -EINVAL; if (WARN_ON(gpiospec->args_count < gc->of_gpio_n_cells)) return -EINVAL; if (gpiospec->args[0] > gc->ngpio) return -EINVAL; pin = gc->base + gpiospec->args[0]; if (s3c_gpio_cfgpin(pin, S3C_GPIO_SFN(gpiospec->args[1]))) pr_warn("gpio_xlate: failed to set pin function\n"); if (s3c_gpio_setpull(pin, gpiospec->args[2] & 0xffff)) pr_warn("gpio_xlate: failed to set pin pull up/down\n"); if (s5p_gpio_set_drvstr(pin, gpiospec->args[3])) pr_warn("gpio_xlate: failed to set pin drive strength\n"); if (flags) *flags = gpiospec->args[2] >> 16; return gpiospec->args[0]; } static const struct of_device_id exynos_gpio_dt_match[] __initdata = { { .compatible = "samsung,exynos4-gpio", }, {} }; static __init void exynos_gpiolib_attach_ofnode(struct samsung_gpio_chip *chip, u64 base, u64 offset) { struct gpio_chip *gc = &chip->chip; u64 address; if (!of_have_populated_dt()) return; address = chip->base ? base + ((u32)chip->base & 0xfff) : base + offset; gc->of_node = of_find_matching_node_by_address(NULL, exynos_gpio_dt_match, address); if (!gc->of_node) { pr_info("gpio: device tree node not found for gpio controller" " with base address %08llx\n", address); return; } gc->of_gpio_n_cells = 4; gc->of_xlate = exynos_gpio_xlate; } #elif defined(CONFIG_ARCH_EXYNOS) static __init void exynos_gpiolib_attach_ofnode(struct samsung_gpio_chip *chip, u64 base, u64 offset) { return; } #endif /* defined(CONFIG_ARCH_EXYNOS) && defined(CONFIG_OF) */ static __init void exynos4_gpiolib_init(void) { #ifdef CONFIG_CPU_EXYNOS4210 struct samsung_gpio_chip *chip; int i, nr_chips; void __iomem *gpio_base1, *gpio_base2, *gpio_base3; int group = 0; void __iomem *gpx_base; #ifdef CONFIG_PINCTRL_SAMSUNG /* * This gpio driver includes support for device tree support and * there are platforms using it. In order to maintain * compatibility with those platforms, and to allow non-dt * Exynos4210 platforms to use this gpiolib support, a check * is added to find out if there is a active pin-controller * driver support available. If it is available, this gpiolib * support is ignored and the gpiolib support available in * pin-controller driver is used. This is a temporary check and * will go away when all of the Exynos4210 platforms have * switched to using device tree and the pin-ctrl driver. */ struct device_node *pctrl_np; const char *pctrl_compat = "samsung,pinctrl-exynos4210"; pctrl_np = of_find_compatible_node(NULL, NULL, pctrl_compat); if (pctrl_np) if (of_device_is_available(pctrl_np)) return; #endif /* gpio part1 */ gpio_base1 = ioremap(EXYNOS4_PA_GPIO1, SZ_4K); if (gpio_base1 == NULL) { pr_err("unable to ioremap for gpio_base1\n"); goto err_ioremap1; } chip = exynos4_gpios_1; nr_chips = ARRAY_SIZE(exynos4_gpios_1); for (i = 0; i < nr_chips; i++, chip++) { if (!chip->config) { chip->config = &exynos_gpio_cfg; chip->group = group++; } exynos_gpiolib_attach_ofnode(chip, EXYNOS4_PA_GPIO1, i * 0x20); } samsung_gpiolib_add_4bit_chips(exynos4_gpios_1, nr_chips, gpio_base1); /* gpio part2 */ gpio_base2 = ioremap(EXYNOS4_PA_GPIO2, SZ_4K); if (gpio_base2 == NULL) { pr_err("unable to ioremap for gpio_base2\n"); goto err_ioremap2; } /* need to set base address for gpx */ chip = &exynos4_gpios_2[16]; gpx_base = gpio_base2 + 0xC00; for (i = 0; i < 4; i++, chip++, gpx_base += 0x20) chip->base = gpx_base; chip = exynos4_gpios_2; nr_chips = ARRAY_SIZE(exynos4_gpios_2); for (i = 0; i < nr_chips; i++, chip++) { if (!chip->config) { chip->config = &exynos_gpio_cfg; chip->group = group++; } exynos_gpiolib_attach_ofnode(chip, EXYNOS4_PA_GPIO2, i * 0x20); } samsung_gpiolib_add_4bit_chips(exynos4_gpios_2, nr_chips, gpio_base2); /* gpio part3 */ gpio_base3 = ioremap(EXYNOS4_PA_GPIO3, SZ_256); if (gpio_base3 == NULL) { pr_err("unable to ioremap for gpio_base3\n"); goto err_ioremap3; } chip = exynos4_gpios_3; nr_chips = ARRAY_SIZE(exynos4_gpios_3); for (i = 0; i < nr_chips; i++, chip++) { if (!chip->config) { chip->config = &exynos_gpio_cfg; chip->group = group++; } exynos_gpiolib_attach_ofnode(chip, EXYNOS4_PA_GPIO3, i * 0x20); } samsung_gpiolib_add_4bit_chips(exynos4_gpios_3, nr_chips, gpio_base3); #if defined(CONFIG_CPU_EXYNOS4210) && defined(CONFIG_S5P_GPIO_INT) s5p_register_gpioint_bank(IRQ_GPIO_XA, 0, IRQ_GPIO1_NR_GROUPS); s5p_register_gpioint_bank(IRQ_GPIO_XB, IRQ_GPIO1_NR_GROUPS, IRQ_GPIO2_NR_GROUPS); #endif return; err_ioremap3: iounmap(gpio_base2); err_ioremap2: iounmap(gpio_base1); err_ioremap1: return; #endif /* CONFIG_CPU_EXYNOS4210 */ } static __init void exynos5_gpiolib_init(void) { #ifdef CONFIG_SOC_EXYNOS5250 struct samsung_gpio_chip *chip; int i, nr_chips; void __iomem *gpio_base1, *gpio_base2, *gpio_base3, *gpio_base4; int group = 0; void __iomem *gpx_base; /* gpio part1 */ gpio_base1 = ioremap(EXYNOS5_PA_GPIO1, SZ_4K); if (gpio_base1 == NULL) { pr_err("unable to ioremap for gpio_base1\n"); goto err_ioremap1; } /* need to set base address for gpc4 */ exynos5_gpios_1[20].base = gpio_base1 + 0x2E0; /* need to set base address for gpx */ chip = &exynos5_gpios_1[21]; gpx_base = gpio_base1 + 0xC00; for (i = 0; i < 4; i++, chip++, gpx_base += 0x20) chip->base = gpx_base; chip = exynos5_gpios_1; nr_chips = ARRAY_SIZE(exynos5_gpios_1); for (i = 0; i < nr_chips; i++, chip++) { if (!chip->config) { chip->config = &exynos_gpio_cfg; chip->group = group++; } exynos_gpiolib_attach_ofnode(chip, EXYNOS5_PA_GPIO1, i * 0x20); } samsung_gpiolib_add_4bit_chips(exynos5_gpios_1, nr_chips, gpio_base1); /* gpio part2 */ gpio_base2 = ioremap(EXYNOS5_PA_GPIO2, SZ_4K); if (gpio_base2 == NULL) { pr_err("unable to ioremap for gpio_base2\n"); goto err_ioremap2; } chip = exynos5_gpios_2; nr_chips = ARRAY_SIZE(exynos5_gpios_2); for (i = 0; i < nr_chips; i++, chip++) { if (!chip->config) { chip->config = &exynos_gpio_cfg; chip->group = group++; } exynos_gpiolib_attach_ofnode(chip, EXYNOS5_PA_GPIO2, i * 0x20); } samsung_gpiolib_add_4bit_chips(exynos5_gpios_2, nr_chips, gpio_base2); /* gpio part3 */ gpio_base3 = ioremap(EXYNOS5_PA_GPIO3, SZ_4K); if (gpio_base3 == NULL) { pr_err("unable to ioremap for gpio_base3\n"); goto err_ioremap3; } /* need to set base address for gpv */ exynos5_gpios_3[0].base = gpio_base3; exynos5_gpios_3[1].base = gpio_base3 + 0x20; exynos5_gpios_3[2].base = gpio_base3 + 0x60; exynos5_gpios_3[3].base = gpio_base3 + 0x80; exynos5_gpios_3[4].base = gpio_base3 + 0xC0; chip = exynos5_gpios_3; nr_chips = ARRAY_SIZE(exynos5_gpios_3); for (i = 0; i < nr_chips; i++, chip++) { if (!chip->config) { chip->config = &exynos_gpio_cfg; chip->group = group++; } exynos_gpiolib_attach_ofnode(chip, EXYNOS5_PA_GPIO3, i * 0x20); } samsung_gpiolib_add_4bit_chips(exynos5_gpios_3, nr_chips, gpio_base3); /* gpio part4 */ gpio_base4 = ioremap(EXYNOS5_PA_GPIO4, SZ_4K); if (gpio_base4 == NULL) { pr_err("unable to ioremap for gpio_base4\n"); goto err_ioremap4; } chip = exynos5_gpios_4; nr_chips = ARRAY_SIZE(exynos5_gpios_4); for (i = 0; i < nr_chips; i++, chip++) { if (!chip->config) { chip->config = &exynos_gpio_cfg; chip->group = group++; } exynos_gpiolib_attach_ofnode(chip, EXYNOS5_PA_GPIO4, i * 0x20); } samsung_gpiolib_add_4bit_chips(exynos5_gpios_4, nr_chips, gpio_base4); return; err_ioremap4: iounmap(gpio_base3); err_ioremap3: iounmap(gpio_base2); err_ioremap2: iounmap(gpio_base1); err_ioremap1: return; #endif /* CONFIG_SOC_EXYNOS5250 */ } /* TODO: cleanup soc_is_* */ static __init int samsung_gpiolib_init(void) { struct samsung_gpio_chip *chip; int i, nr_chips; int group = 0; samsung_gpiolib_set_cfg(samsung_gpio_cfgs, ARRAY_SIZE(samsung_gpio_cfgs)); if (soc_is_s3c24xx()) { s3c24xx_gpiolib_add_chips(s3c24xx_gpios, ARRAY_SIZE(s3c24xx_gpios), S3C24XX_VA_GPIO); } else if (soc_is_s3c64xx()) { samsung_gpiolib_add_2bit_chips(s3c64xx_gpios_2bit, ARRAY_SIZE(s3c64xx_gpios_2bit), S3C64XX_VA_GPIO + 0xE0, 0x20); samsung_gpiolib_add_4bit_chips(s3c64xx_gpios_4bit, ARRAY_SIZE(s3c64xx_gpios_4bit), S3C64XX_VA_GPIO); samsung_gpiolib_add_4bit2_chips(s3c64xx_gpios_4bit2, ARRAY_SIZE(s3c64xx_gpios_4bit2)); } else if (soc_is_s5p6440()) { samsung_gpiolib_add_2bit_chips(s5p6440_gpios_2bit, ARRAY_SIZE(s5p6440_gpios_2bit), NULL, 0x0); samsung_gpiolib_add_4bit_chips(s5p6440_gpios_4bit, ARRAY_SIZE(s5p6440_gpios_4bit), S5P_VA_GPIO); samsung_gpiolib_add_4bit2_chips(s5p6440_gpios_4bit2, ARRAY_SIZE(s5p6440_gpios_4bit2)); s5p64x0_gpiolib_add_rbank(s5p6440_gpios_rbank, ARRAY_SIZE(s5p6440_gpios_rbank)); } else if (soc_is_s5p6450()) { samsung_gpiolib_add_2bit_chips(s5p6450_gpios_2bit, ARRAY_SIZE(s5p6450_gpios_2bit), NULL, 0x0); samsung_gpiolib_add_4bit_chips(s5p6450_gpios_4bit, ARRAY_SIZE(s5p6450_gpios_4bit), S5P_VA_GPIO); samsung_gpiolib_add_4bit2_chips(s5p6450_gpios_4bit2, ARRAY_SIZE(s5p6450_gpios_4bit2)); s5p64x0_gpiolib_add_rbank(s5p6450_gpios_rbank, ARRAY_SIZE(s5p6450_gpios_rbank)); } else if (soc_is_s5pc100()) { group = 0; chip = s5pc100_gpios_4bit; nr_chips = ARRAY_SIZE(s5pc100_gpios_4bit); for (i = 0; i < nr_chips; i++, chip++) { if (!chip->config) { chip->config = &samsung_gpio_cfgs[3]; chip->group = group++; } } samsung_gpiolib_add_4bit_chips(s5pc100_gpios_4bit, nr_chips, S5P_VA_GPIO); #if defined(CONFIG_CPU_S5PC100) && defined(CONFIG_S5P_GPIO_INT) s5p_register_gpioint_bank(IRQ_GPIOINT, 0, S5P_GPIOINT_GROUP_MAXNR); #endif } else if (soc_is_s5pv210()) { group = 0; chip = s5pv210_gpios_4bit; nr_chips = ARRAY_SIZE(s5pv210_gpios_4bit); for (i = 0; i < nr_chips; i++, chip++) { if (!chip->config) { chip->config = &samsung_gpio_cfgs[3]; chip->group = group++; } } samsung_gpiolib_add_4bit_chips(s5pv210_gpios_4bit, nr_chips, S5P_VA_GPIO); #if defined(CONFIG_CPU_S5PV210) && defined(CONFIG_S5P_GPIO_INT) s5p_register_gpioint_bank(IRQ_GPIOINT, 0, S5P_GPIOINT_GROUP_MAXNR); #endif } else if (soc_is_exynos4210()) { exynos4_gpiolib_init(); } else if (soc_is_exynos5250()) { exynos5_gpiolib_init(); } else { WARN(1, "Unknown SoC in gpio-samsung, no GPIOs added\n"); return -ENODEV; } return 0; } core_initcall(samsung_gpiolib_init); int s3c_gpio_cfgpin(unsigned int pin, unsigned int config) { struct samsung_gpio_chip *chip = samsung_gpiolib_getchip(pin); unsigned long flags; int offset; int ret; if (!chip) return -EINVAL; offset = pin - chip->chip.base; samsung_gpio_lock(chip, flags); ret = samsung_gpio_do_setcfg(chip, offset, config); samsung_gpio_unlock(chip, flags); return ret; } EXPORT_SYMBOL(s3c_gpio_cfgpin); int s3c_gpio_cfgpin_range(unsigned int start, unsigned int nr, unsigned int cfg) { int ret; for (; nr > 0; nr--, start++) { ret = s3c_gpio_cfgpin(start, cfg); if (ret != 0) return ret; } return 0; } EXPORT_SYMBOL_GPL(s3c_gpio_cfgpin_range); int s3c_gpio_cfgall_range(unsigned int start, unsigned int nr, unsigned int cfg, samsung_gpio_pull_t pull) { int ret; for (; nr > 0; nr--, start++) { s3c_gpio_setpull(start, pull); ret = s3c_gpio_cfgpin(start, cfg); if (ret != 0) return ret; } return 0; } EXPORT_SYMBOL_GPL(s3c_gpio_cfgall_range); unsigned s3c_gpio_getcfg(unsigned int pin) { struct samsung_gpio_chip *chip = samsung_gpiolib_getchip(pin); unsigned long flags; unsigned ret = 0; int offset; if (chip) { offset = pin - chip->chip.base; samsung_gpio_lock(chip, flags); ret = samsung_gpio_do_getcfg(chip, offset); samsung_gpio_unlock(chip, flags); } return ret; } EXPORT_SYMBOL(s3c_gpio_getcfg); int s3c_gpio_setpull(unsigned int pin, samsung_gpio_pull_t pull) { struct samsung_gpio_chip *chip = samsung_gpiolib_getchip(pin); unsigned long flags; int offset, ret; if (!chip) return -EINVAL; offset = pin - chip->chip.base; samsung_gpio_lock(chip, flags); ret = samsung_gpio_do_setpull(chip, offset, pull); samsung_gpio_unlock(chip, flags); return ret; } EXPORT_SYMBOL(s3c_gpio_setpull); samsung_gpio_pull_t s3c_gpio_getpull(unsigned int pin) { struct samsung_gpio_chip *chip = samsung_gpiolib_getchip(pin); unsigned long flags; int offset; u32 pup = 0; if (chip) { offset = pin - chip->chip.base; samsung_gpio_lock(chip, flags); pup = samsung_gpio_do_getpull(chip, offset); samsung_gpio_unlock(chip, flags); } return (__force samsung_gpio_pull_t)pup; } EXPORT_SYMBOL(s3c_gpio_getpull); #ifdef CONFIG_S5P_GPIO_DRVSTR s5p_gpio_drvstr_t s5p_gpio_get_drvstr(unsigned int pin) { struct samsung_gpio_chip *chip = samsung_gpiolib_getchip(pin); unsigned int off; void __iomem *reg; int shift; u32 drvstr; if (!chip) return -EINVAL; off = pin - chip->chip.base; shift = off * 2; reg = chip->base + 0x0C; drvstr = __raw_readl(reg); drvstr = drvstr >> shift; drvstr &= 0x3; return (__force s5p_gpio_drvstr_t)drvstr; } EXPORT_SYMBOL(s5p_gpio_get_drvstr); int s5p_gpio_set_drvstr(unsigned int pin, s5p_gpio_drvstr_t drvstr) { struct samsung_gpio_chip *chip = samsung_gpiolib_getchip(pin); unsigned int off; void __iomem *reg; int shift; u32 tmp; if (!chip) return -EINVAL; off = pin - chip->chip.base; shift = off * 2; reg = chip->base + 0x0C; tmp = __raw_readl(reg); tmp &= ~(0x3 << shift); tmp |= drvstr << shift; __raw_writel(tmp, reg); return 0; } EXPORT_SYMBOL(s5p_gpio_set_drvstr); #endif /* CONFIG_S5P_GPIO_DRVSTR */ #ifdef CONFIG_PLAT_S3C24XX unsigned int s3c2410_modify_misccr(unsigned int clear, unsigned int change) { unsigned long flags; unsigned long misccr; local_irq_save(flags); misccr = __raw_readl(S3C24XX_MISCCR); misccr &= ~clear; misccr ^= change; __raw_writel(misccr, S3C24XX_MISCCR); local_irq_restore(flags); return misccr; } EXPORT_SYMBOL(s3c2410_modify_misccr); #endif