1 /* SPDX-License-Identifier: GPL-2.0-only */ 2 3 #ifndef _LINUX_GPIO_REGMAP_H 4 #define _LINUX_GPIO_REGMAP_H 5 6 struct device; 7 struct fwnode_handle; 8 struct gpio_regmap; 9 struct irq_domain; 10 struct regmap; 11 12 #define GPIO_REGMAP_ADDR_ZERO ((unsigned int)(-1)) 13 #define GPIO_REGMAP_ADDR(addr) ((addr) ? : GPIO_REGMAP_ADDR_ZERO) 14 15 /** 16 * struct gpio_regmap_config - Description of a generic regmap gpio_chip. 17 * @parent: The parent device 18 * @regmap: The regmap used to access the registers 19 * given, the name of the device is used 20 * @fwnode: (Optional) The firmware node. 21 * If not given, the fwnode of the parent is used. 22 * @label: (Optional) Descriptive name for GPIO controller. 23 * If not given, the name of the device is used. 24 * @ngpio: Number of GPIOs 25 * @names: (Optional) Array of names for gpios 26 * @reg_dat_base: (Optional) (in) register base address 27 * @reg_set_base: (Optional) set register base address 28 * @reg_clr_base: (Optional) clear register base address 29 * @reg_dir_in_base: (Optional) in setting register base address 30 * @reg_dir_out_base: (Optional) out setting register base address 31 * @reg_stride: (Optional) May be set if the registers (of the 32 * same type, dat, set, etc) are not consecutive. 33 * @ngpio_per_reg: Number of GPIOs per register 34 * @irq_domain: (Optional) IRQ domain if the controller is 35 * interrupt-capable 36 * @reg_mask_xlate: (Optional) Translates base address and GPIO 37 * offset to a register/bitmask pair. If not 38 * given the default gpio_regmap_simple_xlate() 39 * is used. 40 * @drvdata: (Optional) Pointer to driver specific data which is 41 * not used by gpio-remap but is provided "as is" to the 42 * driver callback(s). 43 * 44 * The ->reg_mask_xlate translates a given base address and GPIO offset to 45 * register and mask pair. The base address is one of the given register 46 * base addresses in this structure. 47 * 48 * Although all register base addresses are marked as optional, there are 49 * several rules: 50 * 1. if you only have @reg_dat_base set, then it is input-only 51 * 2. if you only have @reg_set_base set, then it is output-only 52 * 3. if you have either @reg_dir_in_base or @reg_dir_out_base set, then 53 * you have to set both @reg_dat_base and @reg_set_base 54 * 4. if you have @reg_set_base set, you may also set @reg_clr_base to have 55 * two different registers for setting and clearing the output. This is 56 * also valid for the output-only case. 57 * 5. @reg_dir_in_base and @reg_dir_out_base are exclusive; is there really 58 * hardware which has redundant registers? 59 * 60 * Note: All base addresses may have the special value %GPIO_REGMAP_ADDR_ZERO 61 * which forces the address to the value 0. 62 */ 63 struct gpio_regmap_config { 64 struct device *parent; 65 struct regmap *regmap; 66 struct fwnode_handle *fwnode; 67 68 const char *label; 69 int ngpio; 70 const char *const *names; 71 72 unsigned int reg_dat_base; 73 unsigned int reg_set_base; 74 unsigned int reg_clr_base; 75 unsigned int reg_dir_in_base; 76 unsigned int reg_dir_out_base; 77 int reg_stride; 78 int ngpio_per_reg; 79 struct irq_domain *irq_domain; 80 81 int (*reg_mask_xlate)(struct gpio_regmap *gpio, unsigned int base, 82 unsigned int offset, unsigned int *reg, 83 unsigned int *mask); 84 85 void *drvdata; 86 }; 87 88 struct gpio_regmap *gpio_regmap_register(const struct gpio_regmap_config *config); 89 void gpio_regmap_unregister(struct gpio_regmap *gpio); 90 struct gpio_regmap *devm_gpio_regmap_register(struct device *dev, 91 const struct gpio_regmap_config *config); 92 void *gpio_regmap_get_drvdata(struct gpio_regmap *gpio); 93 94 #endif /* _LINUX_GPIO_REGMAP_H */ 95