/* SPDX-License-Identifier: GPL-2.0 */ /* * Copyright (C) 2020 Marvell International Ltd. * * Defines some GPIO information used in multiple places */ #ifndef __CVMX_HELPER_GPIO_H__ #define __CVMX_HELPER_GPIO_H__ #define CVMX_GPIO_NAME_LEN 32 /** Length of name */ enum cvmx_gpio_type { CVMX_GPIO_PIN_OCTEON, /** GPIO pin is directly connected to OCTEON */ CVMX_GPIO_PIN_PCA953X, /** GPIO pin is NXP PCA953X compat chip */ CVMX_GPIO_PIN_PCA957X, CVMX_GPIO_PIN_PCF857X, /** GPIO pin is NXP PCF857X compat chip */ CVMX_GPIO_PIN_PCA9698, /** GPIO pin is NXP PCA9698 compat chip */ CVMX_GPIO_PIN_CS4343, /** Inphi/Cortina CS4343 GPIO pins */ CVMX_GPIO_PIN_OTHER, /** GPIO pin is something else */ }; enum cvmx_gpio_operation { CVMX_GPIO_OP_CONFIG, /** Initial configuration of the GPIO pin */ CVMX_GPIO_OP_SET, /** Set pin */ CVMX_GPIO_OP_CLEAR, /** Clear pin */ CVMX_GPIO_OP_READ, /** Read pin */ CVMX_GPIO_OP_TOGGLE, /** Toggle pin */ CVMX_GPIO_OP_BLINK_START, /** Put in blink mode (if supported) */ CVMX_GPIO_OP_BLINK_STOP, /** Takes the pin out of blink mode */ CVMX_GPIO_OP_SET_LINK, /** Put in link monitoring mode */ CVMX_GPIO_OP_SET_ACT, /** Put in RX activity mode */ }; /** * Inphi CS4343 output source select values for the GPIO_GPIOX output_src_sel. */ enum cvmx_inphi_cs4343_gpio_gpio_output_src_sel { GPIO_SEL_DRIVE = 0, /** Value of GPIOX_DRIVE */ GPIO_SEL_DELAY = 1, /** Drive delayed */ GPIO_SEL_TOGGLE = 2, /** Used for blinking */ GPIO_SEL_EXT = 3, /** External function */ GPIO_SEL_EXT_DELAY = 4, /** External function delayed */ }; /** Inphi GPIO_GPIOX configuration register */ union cvmx_inphi_cs4343_gpio_cfg_reg { u16 u; struct { u16: 4; /** Data source for the GPIO output */ u16 output_src_sel : 3; /** 1 = GPIO output is inverted before being output */ u16 invert_output : 1; /** 1 = GPIO input is inverted before being processed */ u16 invert_input : 1; /** 0 = 2.5v/1.8v signalling, 1 = 1.2v signalling */ u16 iovddsel_1v2 : 1; /** * 0 = output selected by outen bit * 1 = output controlled by selected GPIO output source */ u16 outen_ovr : 1; /** 0 = GPIO is input only, 1 = GPIO output driver enabled */ u16 outen : 1; u16: 2; u16 pullup_1k; /** 1 = enable 1K pad pullup */ u16 pullup_10k; /** 1 = enable 10K pad pullup */ } s; }; #define CVMX_INPHI_CS4343_GPIO_CFG_OFFSET 0x0 /** * This selects which port the GPIO gets its signals from when configured * as an output. */ enum cvmx_inphi_cs4343_gpio_output_cfg_port { PORT_0_HOST_RX = 0, /** Port pair 0 host RX */ PORT_0_LINE_RX = 1, /** Port pair 0 line RX */ PORT_1_HOST_RX = 2, /** Port pair 1 host RX */ PORT_1_LINE_RX = 3, /** Port pair 1 line RX */ PORT_3_HOST_RX = 4, /** Port pair 3 host RX */ PORT_3_LINE_RX = 5, /** Port pair 3 line RX */ PORT_2_HOST_RX = 6, /** Port pair 2 host RX */ PORT_2_LINE_RX = 7, /** Port pair 2 line RX */ COMMON = 8, /** Common */ }; enum cvmx_inphi_cs4343_gpio_output_cfg_function { RX_LOS = 0, /** Port - 1 = Receive LOS (from DSP) */ RX_LOL = 1, /** Port - 1 = Receive LOL (inverted from MSEQ) */ EDC_CONVERGED = 2, /** Port - 1 = EDC converged (from DSP) */ /** Port - 1 = PRBS checker in sync (inverted from SDS) */ RX_PRBS_SYNC = 3, COMMON_LOGIC_0 = 0, /** Common - Logic 0 */ COMMON_GPIO1_INPUT = 1, /** Common - GPIO 1 input */ COMMON_GPIO2_INPUT = 2, /** Common - GPIO 2 input */ COMMON_GPIO3_INPUT = 3, /** Common - GPIO 3 input */ COMMON_GPIO4_INPUT = 4, /** Common - GPIO 4 input */ COMMON_INTERR_INPUT = 5, /** Common - INTERR input */ /** Common - Interrupt output from GLOBAL_INT register */ COMMON_GLOBAL_INT = 6, /** Common - Interrupt output from GPIO_INT register */ COMMON_GPIO_INT = 7, /** Common - Temp/voltage monitor interrupt */ COMMON_MONITOR_INT = 8, /** Common - Selected clock output of global clock monitor */ COMMON_GBL_CLKMON_CLK = 9, }; union cvmx_inphi_cs4343_gpio_output_cfg { u16 u; struct { u16: 8; u16 port : 4; /** port */ u16 function : 4; /** function */ } s; }; #define CVMX_INPHI_CS4343_GPIO_OUTPUT_CFG_OFFSET 0x1 union cvmx_inphi_cs4343_gpio_drive { u16 u; struct { u16: 15; u16 value : 1; /** output value */ } s; }; #define CVMX_INPHI_CS4343_GPIO_DRIVE_OFFSET 0x2 union cvmx_inphi_cs4343_gpio_value { u16 u; struct { u16: 15; u16 value : 1; /** input value (read-only) */ } s; }; #define CVMX_INPHI_CS4343_GPIO_VALUE_OFFSET 0x3 union cvmx_inphi_cs4343_gpio_toggle { u16 u; struct { /** Toggle rate in ms, multiply by 2 to get period in ms */ u16 rate : 16; } s; }; #define CVMX_INPHI_CS4343_GPIO_TOGGLE_OFFSET 0x4 union cvmx_inphi_cs4343_gpio_delay { u16 u; struct { /** On delay for GPIO output in ms when enabled */ u16 on_delay : 16; } s; }; #define CVMX_INPHI_CS4343_GPIO_DELAY_OFFSET 0x5 /** * GPIO flags associated with a GPIO pin (can be combined) */ enum cvmx_gpio_flags { CVMX_GPIO_ACTIVE_HIGH = 0, /** Active high (default) */ CVMX_GPIO_ACTIVE_LOW = 1, /** Active low (inverted) */ CVMX_GPIO_OPEN_COLLECTOR = 2, /** Output is open-collector */ }; /** Default timer number to use for outputting a frequency [0..3] */ #define CVMX_GPIO_DEFAULT_TIMER 3 /** Configuration data for native Octeon GPIO pins */ struct cvmx_octeon_gpio_data { int cpu_node; /** CPU node for GPIO pin */ int timer; /** Timer number used when in toggle mode, 0-3 */ }; struct cvmx_pcf857x_gpio_data { unsigned int latch_out; }; #define CVMX_INPHI_CS4343_EFUSE_PDF_SKU_REG 0x19f #define CVMX_INPHI_CS4343_SKU_CS4223 0x10 #define CVMX_INPHI_CS4343_SKU_CS4224 0x11 #define CVMX_INPHI_CS4343_SKU_CS4343 0x12 #define CVMX_INPHI_CS4343_SKU_CS4221 0x13 #define CVMX_INPHI_CS4343_SKU_CS4227 0x14 #define CVMX_INPHI_CS4343_SKU_CS4341 0x16 struct cvmx_cs4343_gpio_data { int reg_offset; /** Base register address for GPIO */ enum cvmx_gpio_operation last_op; u8 link_port; /** Link port number for link status */ u16 sku; /** Value from CS4224_EFUSE_PDF_SKU register */ u8 out_src_sel; u8 field_func; bool out_en; bool is_cs4343; /** True if dual package */ struct phy_device *phydev; }; struct cvmx_fdt_gpio_info; /** Function called for GPIO operations */ typedef int (*cvmx_fdt_gpio_op_func_t)(struct cvmx_fdt_gpio_info *, enum cvmx_gpio_operation); /** * GPIO descriptor */ struct cvmx_fdt_gpio_info { struct cvmx_fdt_gpio_info *next; /** For list of GPIOs */ char name[CVMX_GPIO_NAME_LEN]; /** Name of GPIO */ int pin; /** GPIO pin number */ enum cvmx_gpio_type gpio_type; /** Type of GPIO controller */ int of_offset; /** Offset in device tree */ int phandle; struct cvmx_fdt_i2c_bus_info *i2c_bus; /** I2C bus descriptor */ int i2c_addr; /** Address on i2c bus */ enum cvmx_gpio_flags flags; /** Flags associated with pin */ int num_pins; /** Total number of pins */ unsigned int latch_out; /** Latched output for 857x */ /** Rate in ms between toggle states */ int toggle_rate; /** Pointer to user data for user-defined functions */ void *data; /** Function to set, clear, toggle, etc. */ cvmx_fdt_gpio_op_func_t op_func; /* Two values are used to detect the initial case where nothing has * been configured. Initially, all of the following will be false * which will force the initial state to be properly set. */ /** True if the GPIO pin is currently set, useful for toggle */ bool is_set; /** Set if configured to invert */ bool invert_set; /** Set if input is to be inverted */ bool invert_input; /** Set if direction is configured as output */ bool dir_out; /** Set if direction is configured as input */ bool dir_in; /** Pin is set to toggle periodically */ bool toggle; /** True if LED is used to indicate link status */ bool link_led; /** True if LED is used to indicate rx activity */ bool rx_act_led; /** True if LED is used to indicate tx activity */ bool tx_act_led; /** True if LED is used to indicate networking errors */ bool error_led; /** True if LED can automatically show link */ bool hw_link; }; /** LED datastructure */ struct cvmx_fdt_gpio_led { struct cvmx_fdt_gpio_led *next, *prev; /** List of LEDs */ char name[CVMX_GPIO_NAME_LEN]; /** Name */ struct cvmx_fdt_gpio_info *gpio; /** GPIO for LED */ int of_offset; /** Device tree node */ /** True if active low, note that GPIO contains this info */ bool active_low; }; /** * Returns the operation function for the GPIO phandle * * @param[in] fdt_addr Pointer to FDT * @param phandle phandle of GPIO entry * * Return: Pointer to op function or NULL if not found. */ cvmx_fdt_gpio_op_func_t cvmx_fdt_gpio_get_op_func(const void *fdt_addr, int phandle); /** * Given a phandle to a GPIO device return the type of GPIO device it is. * * @param[in] fdt_addr Address of flat device tree * @param phandle phandle to GPIO * @param[out] size Number of pins (optional, may be NULL) * * Return: Type of GPIO device or PIN_ERROR if error */ enum cvmx_gpio_type cvmx_fdt_get_gpio_type(const void *fdt_addr, int phandle, int *size); /** * Return a GPIO handle given a GPIO phandle of the form <&gpio pin flags> * * @param[in] fdt_addr Address of flat device tree * @param of_offset node offset of GPIO device * @param prop_name name of property * * Return: pointer to GPIO handle or NULL if error */ struct cvmx_fdt_gpio_info *cvmx_fdt_gpio_get_info(const void *fdt_addr, int of_offset, const char *prop_name); /** * Return a GPIO handle given a GPIO phandle of the form <&gpio pin flags> * * @param[in] fdt_addr Address of flat device tree * @param of_offset node offset for property * @param prop_name name of property * * Return: pointer to GPIO handle or NULL if error */ struct cvmx_fdt_gpio_info *cvmx_fdt_gpio_get_info_phandle(const void *fdt_addr, int of_offset, const char *prop_name); /** * Parses a GPIO entry and fills in the gpio info data structure * * @param[in] fdt_addr Address of FDT * @param phandle phandle for GPIO * @param pin pin number * @param flags flags set (1 = invert) * @param[out] gpio GPIO info data structure * * Return: 0 for success, -1 on error */ int cvmx_fdt_parse_gpio(const void *fdt_addr, int phandle, int pin, u32 flags, struct cvmx_fdt_gpio_info *gpio); /** * @param gpio GPIO descriptor to assign timer to * @param timer Octeon hardware timer number [0..3] */ void cvmx_fdt_gpio_set_timer(struct cvmx_fdt_gpio_info *gpio, int timer); /** * Given a GPIO pin descriptor, input the value of that pin * * @param pin GPIO pin descriptor * * Return: 0 if low, 1 if high, -1 on error. Note that the input will be * inverted if the CVMX_GPIO_ACTIVE_LOW flag bit is set. */ int cvmx_fdt_gpio_get(struct cvmx_fdt_gpio_info *pin); /** * Sets a GPIO pin given the GPIO descriptor * * @param gpio GPIO pin descriptor * @param value value to set it to, 0 or 1 * * Return: 0 on success, -1 on error. * * NOTE: If the CVMX_GPIO_ACTIVE_LOW flag is set then the output value will be * inverted. */ int cvmx_fdt_gpio_set(struct cvmx_fdt_gpio_info *gpio, int value); /** * Sets the blink frequency for a GPIO pin * * @param gpio GPIO handle * @param freq Frequency in hz [0..500] */ void cvmx_fdt_gpio_set_freq(struct cvmx_fdt_gpio_info *gpio, int freq); /** * Enables or disables blinking a GPIO pin * * @param gpio GPIO handle * @param blink True to start blinking, false to stop * * Return: 0 for success, -1 on error * NOTE: Not all GPIO types support blinking. */ int cvmx_fdt_gpio_set_blink(struct cvmx_fdt_gpio_info *gpio, bool blink); /** * Alternates between link and blink mode * * @param gpio GPIO handle * @param blink True to start blinking, false to use link status * * Return: 0 for success, -1 on error * NOTE: Not all GPIO types support this. */ int cvmx_fdt_gpio_set_link_blink(struct cvmx_fdt_gpio_info *gpio, bool blink); static inline bool cvmx_fdt_gpio_hw_link_supported(const struct cvmx_fdt_gpio_info *gpio) { return gpio->hw_link; } /** * Configures a GPIO pin as input or output * * @param gpio GPIO pin to configure * @param output Set to true to make output, false for input */ void cvmx_fdt_gpio_set_output(struct cvmx_fdt_gpio_info *gpio, bool output); /** * Allocates an LED data structure * @param[in] name name to assign LED * @param of_offset Device tree offset * @param gpio GPIO assigned to LED (can be NULL) * @param last Previous LED to build a list * * Return: pointer to LED data structure or NULL if out of memory */ struct cvmx_fdt_gpio_led *cvmx_alloc_led(const char *name, int of_offset, struct cvmx_fdt_gpio_info *gpio, struct cvmx_fdt_gpio_led *last); /** * Parses an LED in the device tree * * @param[in] fdt_addr Pointer to flat device tree * @param led_of_offset Device tree offset of LED * @param gpio GPIO data structure to use (can be NULL) * @param last Previous LED if this is a group of LEDs * * Return: Pointer to LED data structure or NULL if error */ struct cvmx_fdt_gpio_led *cvmx_fdt_parse_led(const void *fdt_addr, int led_of_offset, struct cvmx_fdt_gpio_info *gpio, struct cvmx_fdt_gpio_led *last); #endif /* __CVMX_HELPER_GPIO_H__ */