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kernel_samsung_a34x-permissive/Documentation/devicetree/bindings/pinctrl/pinctrl-mt7622.txt
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Import A346BXXU4BWK2 kernel source 
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2024-04-28 15:51:13 +02:00

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== MediaTek MT7622 pinctrl controller ==
Required properties for the root node:
- compatible: Should be one of the following
"mediatek,mt7622-pinctrl" for MT7622 SoC
- reg: offset and length of the pinctrl space
- gpio-controller: Marks the device node as a GPIO controller.
- #gpio-cells: Should be two. The first cell is the pin number and the
second is the GPIO flags.
Optional properties:
- interrupt-controller : Marks the device node as an interrupt controller
If the property interrupt-controller is defined, following property is required
- reg-names: A string describing the "reg" entries. Must contain "eint".
- interrupts : The interrupt output from the controller.
- #interrupt-cells: Should be two.
Please refer to pinctrl-bindings.txt in this directory for details of the
common pinctrl bindings used by client devices, including the meaning of the
phrase "pin configuration node".
MT7622 pin configuration nodes act as a container for an arbitrary number of
subnodes. Each of these subnodes represents some desired configuration for a
pin, a group, or a list of pins or groups. This configuration can include the
mux function to select on those pin(s)/group(s), and various pin configuration
parameters, such as pull-up, slew rate, etc.
We support 2 types of configuration nodes. Those nodes can be either pinmux
nodes or pinconf nodes. Each configuration node can consist of multiple nodes
describing the pinmux and pinconf options.
The name of each subnode doesn't matter as long as it is unique; all subnodes
should be enumerated and processed purely based on their content.
== pinmux nodes content ==
The following generic properties as defined in pinctrl-bindings.txt are valid
to specify in a pinmux subnode:
Required properties are:
- groups: An array of strings. Each string contains the name of a group.
Valid values for these names are listed below.
- function: A string containing the name of the function to mux to the
group. Valid values for function names are listed below.
== pinconf nodes content ==
The following generic properties as defined in pinctrl-bindings.txt are valid
to specify in a pinconf subnode:
Required properties are:
- pins: An array of strings. Each string contains the name of a pin.
Valid values for these names are listed below.
- groups: An array of strings. Each string contains the name of a group.
Valid values for these names are listed below.
Optional properies are:
bias-disable, bias-pull, bias-pull-down, input-enable,
input-schmitt-enable, input-schmitt-disable, output-enable
output-low, output-high, drive-strength, slew-rate
Valid arguments for 'slew-rate' are '0' for no slew rate controlled and '1' for
slower slew rate respectively.
Valid arguments for 'drive-strength', 4, 8, 12, or 16 in mA.
The following specific properties as defined are valid to specify in a pinconf
subnode:
Optional properties are:
- mediatek,tdsel: An integer describing the steps for output level shifter duty
cycle when asserted (high pulse width adjustment). Valid arguments are from 0
to 15.
- mediatek,rdsel: An integer describing the steps for input level shifter duty
cycle when asserted (high pulse width adjustment). Valid arguments are from 0
to 63.
== Valid values for pins, function and groups on MT7622 ==
Valid values for pins are:
pins can be referenced via the pin names as the below table shown and the
related physical number is also put ahead of those names which helps cross
references to pins between groups to know whether pins assignment conflict
happens among devices try to acquire those available pins.
Pin #: Valid values for pins
-----------------------------
PIN 0: "GPIO_A"
PIN 1: "I2S1_IN"
PIN 2: "I2S1_OUT"
PIN 3: "I2S_BCLK"
PIN 4: "I2S_WS"
PIN 5: "I2S_MCLK"
PIN 6: "TXD0"
PIN 7: "RXD0"
PIN 8: "SPI_WP"
PIN 9: "SPI_HOLD"
PIN 10: "SPI_CLK"
PIN 11: "SPI_MOSI"
PIN 12: "SPI_MISO"
PIN 13: "SPI_CS"
PIN 14: "I2C_SDA"
PIN 15: "I2C_SCL"
PIN 16: "I2S2_IN"
PIN 17: "I2S3_IN"
PIN 18: "I2S4_IN"
PIN 19: "I2S2_OUT"
PIN 20: "I2S3_OUT"
PIN 21: "I2S4_OUT"
PIN 22: "GPIO_B"
PIN 23: "MDC"
PIN 24: "MDIO"
PIN 25: "G2_TXD0"
PIN 26: "G2_TXD1"
PIN 27: "G2_TXD2"
PIN 28: "G2_TXD3"
PIN 29: "G2_TXEN"
PIN 30: "G2_TXC"
PIN 31: "G2_RXD0"
PIN 32: "G2_RXD1"
PIN 33: "G2_RXD2"
PIN 34: "G2_RXD3"
PIN 35: "G2_RXDV"
PIN 36: "G2_RXC"
PIN 37: "NCEB"
PIN 38: "NWEB"
PIN 39: "NREB"
PIN 40: "NDL4"
PIN 41: "NDL5"
PIN 42: "NDL6"
PIN 43: "NDL7"
PIN 44: "NRB"
PIN 45: "NCLE"
PIN 46: "NALE"
PIN 47: "NDL0"
PIN 48: "NDL1"
PIN 49: "NDL2"
PIN 50: "NDL3"
PIN 51: "MDI_TP_P0"
PIN 52: "MDI_TN_P0"
PIN 53: "MDI_RP_P0"
PIN 54: "MDI_RN_P0"
PIN 55: "MDI_TP_P1"
PIN 56: "MDI_TN_P1"
PIN 57: "MDI_RP_P1"
PIN 58: "MDI_RN_P1"
PIN 59: "MDI_RP_P2"
PIN 60: "MDI_RN_P2"
PIN 61: "MDI_TP_P2"
PIN 62: "MDI_TN_P2"
PIN 63: "MDI_TP_P3"
PIN 64: "MDI_TN_P3"
PIN 65: "MDI_RP_P3"
PIN 66: "MDI_RN_P3"
PIN 67: "MDI_RP_P4"
PIN 68: "MDI_RN_P4"
PIN 69: "MDI_TP_P4"
PIN 70: "MDI_TN_P4"
PIN 71: "PMIC_SCL"
PIN 72: "PMIC_SDA"
PIN 73: "SPIC1_CLK"
PIN 74: "SPIC1_MOSI"
PIN 75: "SPIC1_MISO"
PIN 76: "SPIC1_CS"
PIN 77: "GPIO_D"
PIN 78: "WATCHDOG"
PIN 79: "RTS3_N"
PIN 80: "CTS3_N"
PIN 81: "TXD3"
PIN 82: "RXD3"
PIN 83: "PERST0_N"
PIN 84: "PERST1_N"
PIN 85: "WLED_N"
PIN 86: "EPHY_LED0_N"
PIN 87: "AUXIN0"
PIN 88: "AUXIN1"
PIN 89: "AUXIN2"
PIN 90: "AUXIN3"
PIN 91: "TXD4"
PIN 92: "RXD4"
PIN 93: "RTS4_N"
PIN 94: "CST4_N"
PIN 95: "PWM1"
PIN 96: "PWM2"
PIN 97: "PWM3"
PIN 98: "PWM4"
PIN 99: "PWM5"
PIN 100: "PWM6"
PIN 101: "PWM7"
PIN 102: "GPIO_E"
Valid values for function are:
"emmc", "eth", "i2c", "i2s", "ir", "led", "flash", "pcie",
"pmic", "pwm", "sd", "spi", "tdm", "uart", "watchdog"
Valid values for groups are:
additional data is put followingly with valid value allowing us to know which
applicable function and which relevant pins (in pin#) are able applied for that
group.
Valid value function pins (in pin#)
-------------------------------------------------------------------------
"emmc" "emmc" 40, 41, 42, 43, 44, 45,
47, 48, 49, 50
"emmc_rst" "emmc" 37
"esw" "eth" 51, 52, 53, 54, 55, 56,
57, 58, 59, 60, 61, 62,
63, 64, 65, 66, 67, 68,
69, 70
"esw_p0_p1" "eth" 51, 52, 53, 54, 55, 56,
57, 58
"esw_p2_p3_p4" "eth" 59, 60, 61, 62, 63, 64,
65, 66, 67, 68, 69, 70
"rgmii_via_esw" "eth" 59, 60, 61, 62, 63, 64,
65, 66, 67, 68, 69, 70
"rgmii_via_gmac1" "eth" 59, 60, 61, 62, 63, 64,
65, 66, 67, 68, 69, 70
"rgmii_via_gmac2" "eth" 25, 26, 27, 28, 29, 30,
31, 32, 33, 34, 35, 36
"mdc_mdio" "eth" 23, 24
"i2c0" "i2c" 14, 15
"i2c1_0" "i2c" 55, 56
"i2c1_1" "i2c" 73, 74
"i2c1_2" "i2c" 87, 88
"i2c2_0" "i2c" 57, 58
"i2c2_1" "i2c" 75, 76
"i2c2_2" "i2c" 89, 90
"i2s_in_mclk_bclk_ws" "i2s" 3, 4, 5
"i2s1_in_data" "i2s" 1
"i2s2_in_data" "i2s" 16
"i2s3_in_data" "i2s" 17
"i2s4_in_data" "i2s" 18
"i2s_out_mclk_bclk_ws" "i2s" 3, 4, 5
"i2s1_out_data" "i2s" 2
"i2s2_out_data" "i2s" 19
"i2s3_out_data" "i2s" 20
"i2s4_out_data" "i2s" 21
"ir_0_tx" "ir" 16
"ir_1_tx" "ir" 59
"ir_2_tx" "ir" 99
"ir_0_rx" "ir" 17
"ir_1_rx" "ir" 60
"ir_2_rx" "ir" 100
"ephy_leds" "led" 86, 91, 92, 93, 94
"ephy0_led" "led" 86
"ephy1_led" "led" 91
"ephy2_led" "led" 92
"ephy3_led" "led" 93
"ephy4_led" "led" 94
"wled" "led" 85
"par_nand" "flash" 37, 38, 39, 40, 41, 42,
43, 44, 45, 46, 47, 48,
49, 50
"snfi" "flash" 8, 9, 10, 11, 12, 13
"spi_nor" "flash" 8, 9, 10, 11, 12, 13
"pcie0_0_waken" "pcie" 14
"pcie0_1_waken" "pcie" 79
"pcie1_0_waken" "pcie" 14
"pcie0_0_clkreq" "pcie" 15
"pcie0_1_clkreq" "pcie" 80
"pcie1_0_clkreq" "pcie" 15
"pcie0_pad_perst" "pcie" 83
"pcie1_pad_perst" "pcie" 84
"pmic_bus" "pmic" 71, 72
"pwm_ch1_0" "pwm" 51
"pwm_ch1_1" "pwm" 73
"pwm_ch1_2" "pwm" 95
"pwm_ch2_0" "pwm" 52
"pwm_ch2_1" "pwm" 74
"pwm_ch2_2" "pwm" 96
"pwm_ch3_0" "pwm" 53
"pwm_ch3_1" "pwm" 75
"pwm_ch3_2" "pwm" 97
"pwm_ch4_0" "pwm" 54
"pwm_ch4_1" "pwm" 67
"pwm_ch4_2" "pwm" 76
"pwm_ch4_3" "pwm" 98
"pwm_ch5_0" "pwm" 68
"pwm_ch5_1" "pwm" 77
"pwm_ch5_2" "pwm" 99
"pwm_ch6_0" "pwm" 69
"pwm_ch6_1" "pwm" 78
"pwm_ch6_2" "pwm" 81
"pwm_ch6_3" "pwm" 100
"pwm_ch7_0" "pwm" 70
"pwm_ch7_1" "pwm" 82
"pwm_ch7_2" "pwm" 101
"sd_0" "sd" 16, 17, 18, 19, 20, 21
"sd_1" "sd" 25, 26, 27, 28, 29, 30
"spic0_0" "spi" 63, 64, 65, 66
"spic0_1" "spi" 79, 80, 81, 82
"spic1_0" "spi" 67, 68, 69, 70
"spic1_1" "spi" 73, 74, 75, 76
"spic2_0_wp_hold" "spi" 8, 9
"spic2_0" "spi" 10, 11, 12, 13
"tdm_0_out_mclk_bclk_ws" "tdm" 8, 9, 10
"tdm_0_in_mclk_bclk_ws" "tdm" 11, 12, 13
"tdm_0_out_data" "tdm" 20
"tdm_0_in_data" "tdm" 21
"tdm_1_out_mclk_bclk_ws" "tdm" 57, 58, 59
"tdm_1_in_mclk_bclk_ws" "tdm" 60, 61, 62
"tdm_1_out_data" "tdm" 55
"tdm_1_in_data" "tdm" 56
"uart0_0_tx_rx" "uart" 6, 7
"uart1_0_tx_rx" "uart" 55, 56
"uart1_0_rts_cts" "uart" 57, 58
"uart1_1_tx_rx" "uart" 73, 74
"uart1_1_rts_cts" "uart" 75, 76
"uart2_0_tx_rx" "uart" 3, 4
"uart2_0_rts_cts" "uart" 1, 2
"uart2_1_tx_rx" "uart" 51, 52
"uart2_1_rts_cts" "uart" 53, 54
"uart2_2_tx_rx" "uart" 59, 60
"uart2_2_rts_cts" "uart" 61, 62
"uart2_3_tx_rx" "uart" 95, 96
"uart3_0_tx_rx" "uart" 57, 58
"uart3_1_tx_rx" "uart" 81, 82
"uart3_1_rts_cts" "uart" 79, 80
"uart4_0_tx_rx" "uart" 61, 62
"uart4_1_tx_rx" "uart" 91, 92
"uart4_1_rts_cts" "uart" 93, 94
"uart4_2_tx_rx" "uart" 97, 98
"uart4_2_rts_cts" "uart" 95, 96
"watchdog" "watchdog" 78
Example:
pio: pinctrl@10211000 {
compatible = "mediatek,mt7622-pinctrl";
reg = <0 0x10211000 0 0x1000>;
gpio-controller;
#gpio-cells = <2>;
pinctrl_eth_default: eth-default {
mux-mdio {
groups = "mdc_mdio";
function = "eth";
drive-strength = <12>;
};
mux-gmac2 {
groups = "gmac2";
function = "eth";
drive-strength = <12>;
};
mux-esw {
groups = "esw";
function = "eth";
drive-strength = <8>;
};
conf-mdio {
pins = "MDC";
bias-pull-up;
};
};
};
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