# SPDX-License-Identifier: (GPL-2.0-only OR BSD-2-Clause) # Copyright (C) Sunplus Co., Ltd. %YAML 1.2 --- $id: http://devicetree.org/schemas/pinctrl/sunplus,sp7021-pinctrl.yaml# $schema: http://devicetree.org/meta-schemas/core.yaml# title: Sunplus SP7021 Pin Controller maintainers: - Dvorkin Dmitry - Wells Lu description: | The Sunplus SP7021 pin controller is used to control SoC pins. Please refer to pinctrl-bindings.txt in this directory for details of the common pinctrl bindings used by client devices. SP7021 has 99 digital GPIO pins which are numbered from GPIO 0 to 98. All are multiplexed with some special function pins. SP7021 has 3 types of special function pins: (1) function-group pins: Ex 1 (SPI-NOR flash): If control-field SPI_FLASH_SEL is set to 1, GPIO 83, 84, 86 and 87 will be pins of SPI-NOR flash. If it is set to 2, GPIO 76, 78, 79 and 81 will be pins of SPI-NOR flash. Ex 2 (UART_0): If control-bit UA0_SEL is set to 1, GPIO 88 and 89 will be TX and RX pins of UART_0 (UART channel 0). Ex 3 (eMMC): If control-bit EMMC_SEL is set to 1, GPIO 72, 73, 74, 75, 76, 77, 78, 79, 80, 81 will be pins of an eMMC device. Properties "function" and "groups" are used to select function-group pins. (2) fully pin-mux (like phone exchange mux) pins: GPIO 8 to 71 are 'fully pin-mux' pins. Any pins of peripherals of SP7021 (ex: UART_1, UART_2, UART_3, UART_4, I2C_0, I2C_1, and etc.) can be routed to any pins of fully pin-mux pins. Ex 1 (UART channel 1): If control-field UA1_TX_SEL is set to 3, TX pin of UART_1 will be routed to GPIO 10 (3 - 1 + 8 = 10). If control-field UA1_RX_SEL is set to 4, RX pin of UART_1 will be routed to GPIO 11 (4 - 1 + 8 = 11). If control-field UA1_RTS_SEL is set to 5, RTS pin of UART_1 will be routed to GPIO 12 (5 - 1 + 8 = 12). If control-field UA1_CTS_SEL is set to 6, CTS pin of UART_1 will be routed to GPIO 13 (6 - 1 + 8 = 13). Ex 2 (I2C channel 0): If control-field I2C0_CLK_SEL is set to 20, CLK pin of I2C_0 will be routed to GPIO 27 (20 - 1 + 8 = 27). If control-field I2C0_DATA_SEL is set to 21, DATA pin of I2C_0 will be routed to GPIO 28 (21 - 1 + 9 = 28). Totally, SP7021 has 120 peripheral pins. The peripheral pins can be routed to any of 64 'fully pin-mux' pins. (3) I/O processor pins SP7021 has a built-in I/O processor. Any GPIO pins (GPIO 0 to 98) can be set to pins of I/O processor. Vendor property "sunplus,pins" is used to select "fully pin-mux" pins, "I/O processor pins" and "digital GPIO" pins. The device node of pin controller of Sunplus SP7021 has following properties. properties: compatible: const: sunplus,sp7021-pctl gpio-controller: true '#gpio-cells': const: 2 reg: items: - description: the MOON2 registers - description: the GPIOXT registers - description: the FIRST registers - description: the MOON1 registers reg-names: items: - const: moon2 - const: gpioxt - const: first - const: moon1 clocks: maxItems: 1 resets: maxItems: 1 patternProperties: '-pins$': type: object description: | A pinctrl node should contain at least one subnodes representing the pins or function-pins group available on the machine. Each subnode will list the pins it needs, and how they should be configured. Pinctrl node's client devices use subnodes for desired pin configuration. Client device subnodes use below standard properties. $ref: pinmux-node.yaml# properties: sunplus,pins: description: | Define 'sunplus,pins' which are used by pinctrl node's client device. It consists of one or more integers which represents the config setting for corresponding pin. Each integer defines a individual pin in which: Bit 32~24: defines GPIO number. Its range is 0 ~ 98. Bit 23~16: defines types: (1) fully pin-mux pins (2) IO processor pins (3) digital GPIO pins Bit 15~8: defines pins of peripherals (which are defined in 'include/dt-binging/pinctrl/sppctl.h'). Bit 7~0: defines types or initial-state of digital GPIO pins. Please use macro SPPCTL_IOPAD to define the integers for pins. $ref: /schemas/types.yaml#/definitions/uint32-array function: description: | Define pin-function which is used by pinctrl node's client device. The name should be one of string in the following enumeration. $ref: /schemas/types.yaml#/definitions/string enum: [ SPI_FLASH, SPI_FLASH_4BIT, SPI_NAND, CARD0_EMMC, SD_CARD, UA0, FPGA_IFX, HDMI_TX, LCDIF, USB0_OTG, USB1_OTG ] groups: description: | Define pin-group in a specified pin-function. The name should be one of string in the following enumeration. $ref: /schemas/types.yaml#/definitions/string enum: [ SPI_FLASH1, SPI_FLASH2, SPI_FLASH_4BIT1, SPI_FLASH_4BIT2, SPI_NAND, CARD0_EMMC, SD_CARD, UA0, FPGA_IFX, HDMI_TX1, HDMI_TX2, HDMI_TX3, LCDIF, USB0_OTG, USB1_OTG ] sunplus,zerofunc: description: | This is a vendor specific property. It is used to disable pins which are not used by pinctrl node's client device. Some pins may be enabled by boot-loader. We can use this property to disable them. $ref: /schemas/types.yaml#/definitions/uint32-array additionalProperties: false allOf: - if: properties: function: enum: - SPI_FLASH then: properties: groups: enum: - SPI_FLASH1 - SPI_FLASH2 - if: properties: function: enum: - SPI_FLASH_4BIT then: properties: groups: enum: - SPI_FLASH_4BIT1 - SPI_FLASH_4BIT2 - if: properties: function: enum: - SPI_NAND then: properties: groups: enum: - SPI_NAND - if: properties: function: enum: - CARD0_EMMC then: properties: groups: enum: - CARD0_EMMC - if: properties: function: enum: - SD_CARD then: properties: groups: enum: - SD_CARD - if: properties: function: enum: - UA0 then: properties: groups: enum: - UA0 - if: properties: function: enum: - FPGA_IFX then: properties: groups: enum: - FPGA_IFX - if: properties: function: enum: - HDMI_TX then: properties: groups: enum: - HDMI_TX1 - HDMI_TX2 - HDMI_TX3 - if: properties: function: enum: - LCDIF then: properties: groups: enum: - LCDIF - if: properties: function: enum: - USB0_OTG then: properties: groups: enum: - USB0_OTG - if: properties: function: enum: - USB1_OTG then: properties: groups: enum: - USB1_OTG required: - compatible - reg - reg-names - "#gpio-cells" - gpio-controller - clocks - resets additionalProperties: false allOf: - $ref: pinctrl.yaml# examples: - | #include pinctrl@9c000100 { compatible = "sunplus,sp7021-pctl"; reg = <0x9c000100 0x100>, <0x9c000300 0x100>, <0x9c0032e4 0x1c>, <0x9c000080 0x20>; reg-names = "moon2", "gpioxt", "first", "moon1"; gpio-controller; #gpio-cells = <2>; clocks = <&clkc 0x83>; resets = <&rstc 0x73>; uart0-pins { function = "UA0"; groups = "UA0"; }; spinand0-pins { function = "SPI_NAND"; groups = "SPI_NAND"; }; uart1-pins { sunplus,pins = < SPPCTL_IOPAD(11, SPPCTL_PCTL_G_PMUX, MUXF_UA1_TX, 0) SPPCTL_IOPAD(10, SPPCTL_PCTL_G_PMUX, MUXF_UA1_RX, 0) >; }; uart2-pins { sunplus,pins = < SPPCTL_IOPAD(20, SPPCTL_PCTL_G_PMUX, MUXF_UA1_TX, 0) SPPCTL_IOPAD(21, SPPCTL_PCTL_G_PMUX, MUXF_UA1_RX, 0) SPPCTL_IOPAD(22, SPPCTL_PCTL_G_PMUX, MUXF_UA1_RTS, 0) SPPCTL_IOPAD(23, SPPCTL_PCTL_G_PMUX, MUXF_UA1_CTS, 0) >; }; emmc-pins { function = "CARD0_EMMC"; groups = "CARD0_EMMC"; }; sdcard-pins { function = "SD_CARD"; groups = "SD_CARD"; sunplus,pins = < SPPCTL_IOPAD(91, SPPCTL_PCTL_G_GPIO, 0, 0) >; }; hdmi_A_tx1-pins { function = "HDMI_TX"; groups = "HDMI_TX1"; }; hdmi_A_tx2-pins { function = "HDMI_TX"; groups = "HDMI_TX2"; }; hdmi_A_tx3-pins { function = "HDMI_TX"; groups = "HDMI_TX3"; }; ethernet-pins { sunplus,pins = < SPPCTL_IOPAD(49,SPPCTL_PCTL_G_PMUX,MUXF_L2SW_CLK_OUT,0) SPPCTL_IOPAD(44,SPPCTL_PCTL_G_PMUX,MUXF_L2SW_MAC_SMI_MDC,0) SPPCTL_IOPAD(43,SPPCTL_PCTL_G_PMUX,MUXF_L2SW_MAC_SMI_MDIO,0) SPPCTL_IOPAD(52,SPPCTL_PCTL_G_PMUX,MUXF_L2SW_P0_MAC_RMII_TXEN,0) SPPCTL_IOPAD(50,SPPCTL_PCTL_G_PMUX,MUXF_L2SW_P0_MAC_RMII_TXD0,0) SPPCTL_IOPAD(51,SPPCTL_PCTL_G_PMUX,MUXF_L2SW_P0_MAC_RMII_TXD1,0) SPPCTL_IOPAD(46,SPPCTL_PCTL_G_PMUX,MUXF_L2SW_P0_MAC_RMII_CRSDV,0) SPPCTL_IOPAD(47,SPPCTL_PCTL_G_PMUX,MUXF_L2SW_P0_MAC_RMII_RXD0,0) SPPCTL_IOPAD(48,SPPCTL_PCTL_G_PMUX,MUXF_L2SW_P0_MAC_RMII_RXD1,0) >; sunplus,zerofunc = < MUXF_L2SW_LED_FLASH0 MUXF_L2SW_LED_ON0 MUXF_L2SW_P0_MAC_RMII_RXER >; }; }; ...