/* SPDX-License-Identifier: GPL-2.0 */ /* * Copyright (C) 2017 Intel Corporation. * Copyright 2019 Google LLC * * Modified from coreboot gpio.h */ #ifndef __ASM_INTEL_PINCTRL_H #define __ASM_INTEL_PINCTRL_H #include #include /** * struct pad_config - config for a pad * @pad: offset of pad within community * @pad_config: Pad config data corresponding to DW0, DW1, etc. */ struct pad_config { int pad; u32 pad_config[4]; }; #include /* GPIO community IOSF sideband clock gating */ #define MISCCFG_GPSIDEDPCGEN BIT(5) /* GPIO community RCOMP clock gating */ #define MISCCFG_GPRCOMPCDLCGEN BIT(4) /* GPIO community RTC clock gating */ #define MISCCFG_GPRTCDLCGEN BIT(3) /* GFX controller clock gating */ #define MISCCFG_GSXSLCGEN BIT(2) /* GPIO community partition clock gating */ #define MISCCFG_GPDPCGEN BIT(1) /* GPIO community local clock gating */ #define MISCCFG_GPDLCGEN BIT(0) /* Enable GPIO community power management configuration */ #define MISCCFG_ENABLE_GPIO_PM_CONFIG (MISCCFG_GPSIDEDPCGEN | \ MISCCFG_GPRCOMPCDLCGEN | MISCCFG_GPRTCDLCGEN | MISCCFG_GSXSLCGEN \ | MISCCFG_GPDPCGEN | MISCCFG_GPDLCGEN) /* * GPIO numbers may not be contiguous and instead will have a different * starting pin number for each pad group. */ #define INTEL_GPP_BASE(first_of_community, start_of_group, end_of_group,\ group_pad_base) \ { \ .first_pad = (start_of_group) - (first_of_community), \ .size = (end_of_group) - (start_of_group) + 1, \ .acpi_pad_base = (group_pad_base), \ } /* * A pad base of -1 indicates that this group uses contiguous numbering * and a pad base should not be used for this group. */ #define PAD_BASE_NONE -1 /* The common/default group numbering is contiguous */ #define INTEL_GPP(first_of_community, start_of_group, end_of_group) \ INTEL_GPP_BASE(first_of_community, start_of_group, end_of_group,\ PAD_BASE_NONE) /** * struct reset_mapping - logical to actual value for PADRSTCFG in DW0 * * Note that the values are expected to be within the field placement of the * register itself. i.e. if the reset field is at 31:30 then the values within * logical and chipset should occupy 31:30. */ struct reset_mapping { u32 logical; u32 chipset; }; /** * struct pad_group - describes the groups within each community * * @first_pad: offset of first pad of the group relative to the community * @size: size of the group * @acpi_pad_base: starting pin number for the pads in this group when they are * used in ACPI. This is only needed if the pins are not contiguous across * groups. Most groups will have this set to PAD_BASE_NONE and use * contiguous numbering for ACPI. */ struct pad_group { int first_pad; uint size; int acpi_pad_base; }; /** * struct pad_community - community of pads * * This describes a community, or each group within a community when multiple * groups exist inside a community * * @name: Community name * @num_gpi_regs: number of gpi registers in community * @max_pads_per_group: number of pads in each group; number of pads bit-mapped * in each GPI status/en and Host Own Reg * @first_pad: first pad in community * @last_pad: last pad in community * @host_own_reg_0: offset to Host Ownership Reg 0 * @gpi_int_sts_reg_0: offset to GPI Int STS Reg 0 * @gpi_int_en_reg_0: offset to GPI Int Enable Reg 0 * @gpi_smi_sts_reg_0: offset to GPI SMI STS Reg 0 * @gpi_smi_en_reg_0: offset to GPI SMI EN Reg 0 * @pad_cfg_base: offset to first PAD_GFG_DW0 Reg * @gpi_status_offset: specifies offset in struct gpi_status * @port: PCR Port ID * @reset_map: PADRSTCFG logical to chipset mapping * @num_reset_vals: number of values in @reset_map * @groups; list of groups for this community * @num_groups: number of groups */ struct pad_community { const char *name; size_t num_gpi_regs; size_t max_pads_per_group; uint first_pad; uint last_pad; u16 host_own_reg_0; u16 gpi_int_sts_reg_0; u16 gpi_int_en_reg_0; u16 gpi_smi_sts_reg_0; u16 gpi_smi_en_reg_0; u16 pad_cfg_base; u8 gpi_status_offset; u8 port; const struct reset_mapping *reset_map; size_t num_reset_vals; const struct pad_group *groups; size_t num_groups; }; /** * struct intel_pinctrl_priv - private data for each pinctrl device * * @comm: Pad community for this device * @num_cfgs: Number of configuration words for each pad * @itss: ITSS device (for interrupt handling) * @itss_pol_cfg: Use to program Interrupt Polarity Control (IPCx) register * Each bit represents IRQx Active High Polarity Disable configuration: * when set to 1, the interrupt polarity associated with IRQx is inverted * to appear as Active Low to IOAPIC and vice versa */ struct intel_pinctrl_priv { const struct pad_community *comm; int num_cfgs; struct udevice *itss; bool itss_pol_cfg; }; /* Exported common operations for the pinctrl driver */ extern const struct pinctrl_ops intel_pinctrl_ops; /* Exported common probe function for the pinctrl driver */ int intel_pinctrl_probe(struct udevice *dev); /** * intel_pinctrl_of_to_plat() - Handle common plat setup * * @dev: Pinctrl device * @comm: Pad community for this device * @num_cfgs: Number of configuration words for each pad * Return: 0 if OK, -EDOM if @comm is NULL, other -ve value on other error */ int intel_pinctrl_of_to_plat(struct udevice *dev, const struct pad_community *comm, int num_cfgs); /** * pinctrl_route_gpe() - set GPIO groups for the general-purpose-event blocks * * The values from PMC register GPE_CFG are passed which is then mapped to * proper groups for MISCCFG. This basically sets the MISCCFG register bits: * dw0 = gpe0_route[11:8]. This is ACPI GPE0b. * dw1 = gpe0_route[15:12]. This is ACPI GPE0c. * dw2 = gpe0_route[19:16]. This is ACPI GPE0d. * * @dev: ITSS device * @gpe0b: Value for GPE0B * @gpe0c: Value for GPE0C * @gpe0d: Value for GPE0D * Return: 0 if OK, -ve on error */ int pinctrl_route_gpe(struct udevice *dev, uint gpe0b, uint gpe0c, uint gpe0d); /** * pinctrl_config_pads() - Configure a list of pads * * Configures multiple pads using the provided data from the device tree. * * @dev: pinctrl device (any will do) * @pads: Pad data, consisting of a pad number followed by num_cfgs entries * containing the data for that pad (num_cfgs is set by the pinctrl device) * @pads_count: Number of pads to configure * Return: 0 if OK, -ve on error */ int pinctrl_config_pads(struct udevice *dev, u32 *pads, int pads_count); /** * pinctrl_gpi_clear_int_cfg() - Set up the interrupts for use * * This enables the interrupt inputs and clears the status register bits * * Return: 0 if OK, -ve on error */ int pinctrl_gpi_clear_int_cfg(void); /** * pinctrl_config_pads_for_node() - Configure pads * * Set up the pads using the data in a given node * * @dev: pinctrl device (any will do) * @node: Node containing the 'pads' property with the data in it * Return: 0 if OK, -ve on error */ int pinctrl_config_pads_for_node(struct udevice *dev, ofnode node); /** * pinctrl_read_pads() - Read pad data from a node * * @dev: pinctrl device (any will do, it is just used to get config) * @node: Node to read pad data from * @prop: Property name to use (e.g. "pads") * @padsp: Returns a pointer to an allocated array of pad data, in the format: * * * * ... * * The number of pad config values is set by the pinctrl controller. * The caller must free this array. * @pad_countp: Returns the number of pads read * @ereturn 0 if OK, -ve on error */ int pinctrl_read_pads(struct udevice *dev, ofnode node, const char *prop, u32 **padsp, int *pad_countp); /** * pinctrl_count_pads() - Count the number of pads in a pad array * * This used used with of-platdata where the array may be smaller than its * maximum size. This function searches for the last pad in the array by finding * the first 'zero' record * * This works out the number of records in the array. Each record has one word * for the pad and num_cfgs words for the config. * * @dev: pinctrl device (any will do) * @pads: Array of pad data * @size: Size of pad data in bytes * Return: number of pads represented by the data */ int pinctrl_count_pads(struct udevice *dev, u32 *pads, int size); /** * intel_pinctrl_get_config_reg_offset() - Get offset of pin config registers * * This works out the register offset of a pin within the p2sb region. * * @dev: Pinctrl device * @offset: GPIO offset within this device * Return: register offset of first register within the GPIO p2sb region */ u32 intel_pinctrl_get_config_reg_offset(struct udevice *dev, uint offset); /** * intel_pinctrl_get_config_reg_addr() - Get address of pin config registers * * This works out the absolute address of the registers for a pin * @dev: Pinctrl device * @offset: GPIO offset within this device * Return: register address of first register within the GPIO p2sb region */ u32 intel_pinctrl_get_config_reg_addr(struct udevice *dev, uint offset); /** * intel_pinctrl_get_config_reg() - Get the value of a GPIO register * * @dev: Pinctrl device * @offset: GPIO offset within this device * Return: register value within the GPIO p2sb region */ u32 intel_pinctrl_get_config_reg(struct udevice *dev, uint offset); /** * intel_pinctrl_get_pad() - Get pad information for a pad * * This is used by the GPIO controller to find the pinctrl used by a pad. * * @pad: Pad to check * @devp: Returns pinctrl device containing that pad * @offsetp: Returns offset of pad within that pinctrl device * Return: 0 if OK, -ENOTBLK if pad number is invalid */ int intel_pinctrl_get_pad(uint pad, struct udevice **devp, uint *offsetp); /** * intel_pinctrl_get_acpi_pin() - Get the ACPI pin for a pinctrl pin * * Maps a pinctrl pin (in terms of its offset within the pins controlled by that * pinctrl) to an ACPI GPIO pin-table entry. * * @dev: Pinctrl device to check * @offset: Offset of pin within that device (0 = first) * Return: associated ACPI GPIO pin-table entry, or standard pin number if the * ACPI pad base is not set */ int intel_pinctrl_get_acpi_pin(struct udevice *dev, uint offset); #endif