/* * Copyright (C) 2014 STMicroelectronics Limited. * Author: Giuseppe Cavallaro * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 as * publishhed by the Free Software Foundation. */ #include "st-pincfg.h" #include / { aliases { /* 0-5: PIO_SBC */ gpio0 = &pio0; gpio1 = &pio1; gpio2 = &pio2; gpio3 = &pio3; gpio4 = &pio4; gpio5 = &pio5; /* 10-19: PIO_FRONT0 */ gpio6 = &pio10; gpio7 = &pio11; gpio8 = &pio12; gpio9 = &pio13; gpio10 = &pio14; gpio11 = &pio15; gpio12 = &pio16; gpio13 = &pio17; gpio14 = &pio18; gpio15 = &pio19; /* 20: PIO_FRONT1 */ gpio16 = &pio20; /* 30-35: PIO_REAR */ gpio17 = &pio30; gpio18 = &pio31; gpio19 = &pio32; gpio20 = &pio33; gpio21 = &pio34; gpio22 = &pio35; /* 40-42: PIO_FLASH */ gpio23 = &pio40; gpio24 = &pio41; gpio25 = &pio42; }; soc { pin-controller-sbc@961f080 { #address-cells = <1>; #size-cells = <1>; compatible = "st,stih407-sbc-pinctrl"; st,syscfg = <&syscfg_sbc>; reg = <0x0961f080 0x4>; reg-names = "irqmux"; interrupts = ; interrupt-names = "irqmux"; ranges = <0 0x09610000 0x6000>; pio0: gpio@9610000 { gpio-controller; #gpio-cells = <2>; interrupt-controller; #interrupt-cells = <2>; reg = <0x0 0x100>; st,bank-name = "PIO0"; }; pio1: gpio@9611000 { gpio-controller; #gpio-cells = <2>; interrupt-controller; #interrupt-cells = <2>; reg = <0x1000 0x100>; st,bank-name = "PIO1"; }; pio2: gpio@9612000 { gpio-controller; #gpio-cells = <2>; interrupt-controller; #interrupt-cells = <2>; reg = <0x2000 0x100>; st,bank-name = "PIO2"; }; pio3: gpio@9613000 { gpio-controller; #gpio-cells = <2>; interrupt-controller; #interrupt-cells = <2>; reg = <0x3000 0x100>; st,bank-name = "PIO3"; }; pio4: gpio@9614000 { gpio-controller; #gpio-cells = <2>; interrupt-controller; #interrupt-cells = <2>; reg = <0x4000 0x100>; st,bank-name = "PIO4"; }; pio5: gpio@9615000 { gpio-controller; #gpio-cells = <2>; interrupt-controller; #interrupt-cells = <2>; reg = <0x5000 0x100>; st,bank-name = "PIO5"; st,retime-pin-mask = <0x3f>; }; cec0 { pinctrl_cec0_default: cec0-default { st,pins { hdmi_cec = <&pio2 4 ALT1 BIDIR>; }; }; }; rc { pinctrl_ir: ir0 { st,pins { ir = <&pio4 0 ALT2 IN>; }; }; pinctrl_uhf: uhf0 { st,pins { ir = <&pio4 1 ALT2 IN>; }; }; pinctrl_tx: tx0 { st,pins { tx = <&pio4 2 ALT2 OUT>; }; }; pinctrl_tx_od: tx_od0 { st,pins { tx_od = <&pio4 3 ALT2 OUT>; }; }; }; /* SBC_ASC0 - UART10 */ sbc_serial0 { pinctrl_sbc_serial0: sbc_serial0-0 { st,pins { tx = <&pio3 4 ALT1 OUT>; rx = <&pio3 5 ALT1 IN>; }; }; }; /* SBC_ASC1 - UART11 */ sbc_serial1 { pinctrl_sbc_serial1: sbc_serial1-0 { st,pins { tx = <&pio2 6 ALT3 OUT>; rx = <&pio2 7 ALT3 IN>; }; }; }; i2c10 { pinctrl_i2c10_default: i2c10-default { st,pins { sda = <&pio4 6 ALT1 BIDIR>; scl = <&pio4 5 ALT1 BIDIR>; }; }; }; i2c11 { pinctrl_i2c11_default: i2c11-default { st,pins { sda = <&pio5 1 ALT1 BIDIR>; scl = <&pio5 0 ALT1 BIDIR>; }; }; }; keyscan { pinctrl_keyscan: keyscan { st,pins { keyin0 = <&pio4 0 ALT6 IN>; keyin1 = <&pio4 5 ALT4 IN>; keyin2 = <&pio0 4 ALT2 IN>; keyin3 = <&pio2 6 ALT2 IN>; keyout0 = <&pio4 6 ALT4 OUT>; keyout1 = <&pio1 7 ALT2 OUT>; keyout2 = <&pio0 6 ALT2 OUT>; keyout3 = <&pio2 7 ALT2 OUT>; }; }; }; gmac1 { /* * Almost all the boards based on STiH407 SoC have an embedded * switch where the mdio/mdc have been used for managing the SMI * iface via I2C. For this reason these lines can be allocated * by using dedicated configuration (in case of there will be a * standard PHY transceiver on-board). */ pinctrl_rgmii1: rgmii1-0 { st,pins { txd0 = <&pio0 0 ALT1 OUT DE_IO 0 CLK_A>; txd1 = <&pio0 1 ALT1 OUT DE_IO 0 CLK_A>; txd2 = <&pio0 2 ALT1 OUT DE_IO 0 CLK_A>; txd3 = <&pio0 3 ALT1 OUT DE_IO 0 CLK_A>; txen = <&pio0 5 ALT1 OUT DE_IO 0 CLK_A>; txclk = <&pio0 6 ALT1 IN NICLK 0 CLK_A>; rxd0 = <&pio1 4 ALT1 IN DE_IO 0 CLK_A>; rxd1 = <&pio1 5 ALT1 IN DE_IO 0 CLK_A>; rxd2 = <&pio1 6 ALT1 IN DE_IO 0 CLK_A>; rxd3 = <&pio1 7 ALT1 IN DE_IO 0 CLK_A>; rxdv = <&pio2 0 ALT1 IN DE_IO 0 CLK_A>; rxclk = <&pio2 2 ALT1 IN NICLK 0 CLK_A>; clk125 = <&pio3 7 ALT4 IN NICLK 0 CLK_A>; phyclk = <&pio2 3 ALT4 OUT NICLK 1250 CLK_B>; }; }; pinctrl_rgmii1_mdio: rgmii1-mdio { st,pins { mdio = <&pio1 0 ALT1 OUT BYPASS 0>; mdc = <&pio1 1 ALT1 OUT NICLK 0 CLK_A>; mdint = <&pio1 3 ALT1 IN BYPASS 0>; }; }; pinctrl_rgmii1_mdio_1: rgmii1-mdio-1 { st,pins { mdio = <&pio1 0 ALT1 OUT BYPASS 0>; mdc = <&pio1 1 ALT1 OUT NICLK 0 CLK_A>; }; }; pinctrl_mii1: mii1 { st,pins { txd0 = <&pio0 0 ALT1 OUT SE_NICLK_IO 0 CLK_A>; txd1 = <&pio0 1 ALT1 OUT SE_NICLK_IO 0 CLK_A>; txd2 = <&pio0 2 ALT1 OUT SE_NICLK_IO 0 CLK_A>; txd3 = <&pio0 3 ALT1 OUT SE_NICLK_IO 0 CLK_A>; txer = <&pio0 4 ALT1 OUT SE_NICLK_IO 0 CLK_A>; txen = <&pio0 5 ALT1 OUT SE_NICLK_IO 0 CLK_A>; txclk = <&pio0 6 ALT1 IN NICLK 0 CLK_A>; col = <&pio0 7 ALT1 IN BYPASS 1000>; mdio = <&pio1 0 ALT1 OUT BYPASS 1500>; mdc = <&pio1 1 ALT1 OUT NICLK 0 CLK_A>; crs = <&pio1 2 ALT1 IN BYPASS 1000>; mdint = <&pio1 3 ALT1 IN BYPASS 0>; rxd0 = <&pio1 4 ALT1 IN SE_NICLK_IO 0 CLK_A>; rxd1 = <&pio1 5 ALT1 IN SE_NICLK_IO 0 CLK_A>; rxd2 = <&pio1 6 ALT1 IN SE_NICLK_IO 0 CLK_A>; rxd3 = <&pio1 7 ALT1 IN SE_NICLK_IO 0 CLK_A>; rxdv = <&pio2 0 ALT1 IN SE_NICLK_IO 0 CLK_A>; rx_er = <&pio2 1 ALT1 IN SE_NICLK_IO 0 CLK_A>; rxclk = <&pio2 2 ALT1 IN NICLK 0 CLK_A>; phyclk = <&pio2 3 ALT1 OUT NICLK 0 CLK_A>; }; }; pinctrl_rmii1: rmii1-0 { st,pins { txd0 = <&pio0 0 ALT1 OUT SE_NICLK_IO 0 CLK_A>; txd1 = <&pio0 1 ALT1 OUT SE_NICLK_IO 0 CLK_A>; txen = <&pio0 5 ALT1 OUT SE_NICLK_IO 0 CLK_A>; mdio = <&pio1 0 ALT1 OUT BYPASS 0>; mdc = <&pio1 1 ALT1 OUT NICLK 0 CLK_A>; mdint = <&pio1 3 ALT1 IN BYPASS 0>; rxd0 = <&pio1 4 ALT1 IN SE_NICLK_IO 0 CLK_B>; rxd1 = <&pio1 5 ALT1 IN SE_NICLK_IO 0 CLK_B>; rxdv = <&pio2 0 ALT1 IN SE_NICLK_IO 0 CLK_B>; rx_er = <&pio2 1 ALT1 IN SE_NICLK_IO 0 CLK_A>; }; }; pinctrl_rmii1_phyclk: rmii1_phyclk { st,pins { phyclk = <&pio2 3 ALT1 OUT NICLK 0 CLK_A>; }; }; pinctrl_rmii1_phyclk_ext: rmii1_phyclk_ext { st,pins { phyclk = <&pio2 3 ALT2 IN NICLK 0 CLK_A>; }; }; }; pwm1 { pinctrl_pwm1_chan0_default: pwm1-0-default { st,pins { pwm-out = <&pio3 0 ALT1 OUT>; pwm-capturein = <&pio3 2 ALT1 IN>; }; }; pinctrl_pwm1_chan1_default: pwm1-1-default { st,pins { pwm-capturein = <&pio4 3 ALT1 IN>; pwm-out = <&pio4 4 ALT1 OUT>; }; }; pinctrl_pwm1_chan2_default: pwm1-2-default { st,pins { pwm-out = <&pio4 6 ALT3 OUT>; }; }; pinctrl_pwm1_chan3_default: pwm1-3-default { st,pins { pwm-out = <&pio4 7 ALT3 OUT>; }; }; }; spi10 { pinctrl_spi10_default: spi10-4w-alt1-0 { st,pins { mtsr = <&pio4 6 ALT1 OUT>; mrst = <&pio4 7 ALT1 IN>; scl = <&pio4 5 ALT1 OUT>; }; }; pinctrl_spi10_3w_alt1_0: spi10-3w-alt1-0 { st,pins { mtsr = <&pio4 6 ALT1 BIDIR_PU>; scl = <&pio4 5 ALT1 OUT>; }; }; }; spi11 { pinctrl_spi11_default: spi11-4w-alt2-0 { st,pins { mtsr = <&pio3 1 ALT2 OUT>; mrst = <&pio3 0 ALT2 IN>; scl = <&pio3 2 ALT2 OUT>; }; }; pinctrl_spi11_3w_alt2_0: spi11-3w-alt2-0 { st,pins { mtsr = <&pio3 1 ALT2 BIDIR_PU>; scl = <&pio3 2 ALT2 OUT>; }; }; }; spi12 { pinctrl_spi12_default: spi12-4w-alt2-0 { st,pins { mtsr = <&pio3 6 ALT2 OUT>; mrst = <&pio3 4 ALT2 IN>; scl = <&pio3 7 ALT2 OUT>; }; }; pinctrl_spi12_3w_alt2_0: spi12-3w-alt2-0 { st,pins { mtsr = <&pio3 6 ALT2 BIDIR_PU>; scl = <&pio3 7 ALT2 OUT>; }; }; }; }; pin-controller-front0@920f080 { #address-cells = <1>; #size-cells = <1>; compatible = "st,stih407-front-pinctrl"; st,syscfg = <&syscfg_front>; reg = <0x0920f080 0x4>; reg-names = "irqmux"; interrupts = ; interrupt-names = "irqmux"; ranges = <0 0x09200000 0x10000>; pio10: pio@9200000 { gpio-controller; #gpio-cells = <2>; interrupt-controller; #interrupt-cells = <2>; reg = <0x0 0x100>; st,bank-name = "PIO10"; }; pio11: pio@9201000 { gpio-controller; #gpio-cells = <2>; interrupt-controller; #interrupt-cells = <2>; reg = <0x1000 0x100>; st,bank-name = "PIO11"; }; pio12: pio@9202000 { gpio-controller; #gpio-cells = <2>; interrupt-controller; #interrupt-cells = <2>; reg = <0x2000 0x100>; st,bank-name = "PIO12"; }; pio13: pio@9203000 { gpio-controller; #gpio-cells = <2>; interrupt-controller; #interrupt-cells = <2>; reg = <0x3000 0x100>; st,bank-name = "PIO13"; }; pio14: pio@9204000 { gpio-controller; #gpio-cells = <2>; interrupt-controller; #interrupt-cells = <2>; reg = <0x4000 0x100>; st,bank-name = "PIO14"; }; pio15: pio@9205000 { gpio-controller; #gpio-cells = <2>; interrupt-controller; #interrupt-cells = <2>; reg = <0x5000 0x100>; st,bank-name = "PIO15"; }; pio16: pio@9206000 { gpio-controller; #gpio-cells = <2>; interrupt-controller; #interrupt-cells = <2>; reg = <0x6000 0x100>; st,bank-name = "PIO16"; }; pio17: pio@9207000 { gpio-controller; #gpio-cells = <2>; interrupt-controller; #interrupt-cells = <2>; reg = <0x7000 0x100>; st,bank-name = "PIO17"; }; pio18: pio@9208000 { gpio-controller; #gpio-cells = <2>; interrupt-controller; #interrupt-cells = <2>; reg = <0x8000 0x100>; st,bank-name = "PIO18"; }; pio19: pio@9209000 { gpio-controller; #gpio-cells = <2>; interrupt-controller; #interrupt-cells = <2>; reg = <0x9000 0x100>; st,bank-name = "PIO19"; }; /* Comms */ serial0 { pinctrl_serial0: serial0-0 { st,pins { tx = <&pio17 0 ALT1 OUT>; rx = <&pio17 1 ALT1 IN>; }; }; pinctrl_serial0_hw_flowctrl: serial0-0_hw_flowctrl { st,pins { tx = <&pio17 0 ALT1 OUT>; rx = <&pio17 1 ALT1 IN>; cts = <&pio17 2 ALT1 IN>; rts = <&pio17 3 ALT1 OUT>; }; }; }; serial1 { pinctrl_serial1: serial1-0 { st,pins { tx = <&pio16 0 ALT1 OUT>; rx = <&pio16 1 ALT1 IN>; }; }; }; serial2 { pinctrl_serial2: serial2-0 { st,pins { tx = <&pio15 0 ALT1 OUT>; rx = <&pio15 1 ALT1 IN>; }; }; }; mmc1 { pinctrl_sd1: sd1-0 { st,pins { sd_clk = <&pio19 3 ALT5 BIDIR NICLK 0 CLK_B>; sd_cmd = <&pio19 2 ALT5 BIDIR_PU BYPASS 0>; sd_dat0 = <&pio19 4 ALT5 BIDIR_PU BYPASS 0>; sd_dat1 = <&pio19 5 ALT5 BIDIR_PU BYPASS 0>; sd_dat2 = <&pio19 6 ALT5 BIDIR_PU BYPASS 0>; sd_dat3 = <&pio19 7 ALT5 BIDIR_PU BYPASS 0>; sd_led = <&pio16 6 ALT6 OUT>; sd_pwren = <&pio16 7 ALT6 OUT>; sd_cd = <&pio19 0 ALT6 IN>; sd_wp = <&pio19 1 ALT6 IN>; }; }; }; i2c0 { pinctrl_i2c0_default: i2c0-default { st,pins { sda = <&pio10 6 ALT2 BIDIR>; scl = <&pio10 5 ALT2 BIDIR>; }; }; }; i2c1 { pinctrl_i2c1_default: i2c1-default { st,pins { sda = <&pio11 1 ALT2 BIDIR>; scl = <&pio11 0 ALT2 BIDIR>; }; }; }; i2c2 { pinctrl_i2c2_default: i2c2-default { st,pins { sda = <&pio15 6 ALT2 BIDIR>; scl = <&pio15 5 ALT2 BIDIR>; }; }; pinctrl_i2c2_alt2_1: i2c2-alt2-1 { st,pins { sda = <&pio12 6 ALT2 BIDIR>; scl = <&pio12 5 ALT2 BIDIR>; }; }; }; i2c3 { pinctrl_i2c3_default: i2c3-alt1-0 { st,pins { sda = <&pio18 6 ALT1 BIDIR>; scl = <&pio18 5 ALT1 BIDIR>; }; }; pinctrl_i2c3_alt1_1: i2c3-alt1-1 { st,pins { sda = <&pio17 7 ALT1 BIDIR>; scl = <&pio17 6 ALT1 BIDIR>; }; }; pinctrl_i2c3_alt3_0: i2c3-alt3-0 { st,pins { sda = <&pio13 6 ALT3 BIDIR>; scl = <&pio13 5 ALT3 BIDIR>; }; }; }; spi0 { pinctrl_spi0_default: spi0-4w-alt2-0 { st,pins { mtsr = <&pio10 6 ALT2 OUT>; mrst = <&pio10 7 ALT2 IN>; scl = <&pio10 5 ALT2 OUT>; }; }; pinctrl_spi0_3w_alt2_0: spi0-3w-alt2-0 { st,pins { mtsr = <&pio10 6 ALT2 BIDIR_PU>; scl = <&pio10 5 ALT2 OUT>; }; }; pinctrl_spi0_4w_alt1_0: spi0-4w-alt1-0 { st,pins { mtsr = <&pio19 7 ALT1 OUT>; mrst = <&pio19 5 ALT1 IN>; scl = <&pio19 6 ALT1 OUT>; }; }; pinctrl_spi0_3w_alt1_0: spi0-3w-alt1-0 { st,pins { mtsr = <&pio19 7 ALT1 BIDIR_PU>; scl = <&pio19 6 ALT1 OUT>; }; }; }; spi1 { pinctrl_spi1_default: spi1-4w-alt2-0 { st,pins { mtsr = <&pio11 1 ALT2 OUT>; mrst = <&pio11 2 ALT2 IN>; scl = <&pio11 0 ALT2 OUT>; }; }; pinctrl_spi1_3w_alt2_0: spi1-3w-alt2-0 { st,pins { mtsr = <&pio11 1 ALT2 BIDIR_PU>; scl = <&pio11 0 ALT2 OUT>; }; }; pinctrl_spi1_4w_alt1_0: spi1-4w-alt1-0 { st,pins { mtsr = <&pio14 3 ALT1 OUT>; mrst = <&pio14 4 ALT1 IN>; scl = <&pio14 2 ALT1 OUT>; }; }; pinctrl_spi1_3w_alt1_0: spi1-3w-alt1-0 { st,pins { mtsr = <&pio14 3 ALT1 BIDIR_PU>; scl = <&pio14 2 ALT1 OUT>; }; }; }; spi2 { pinctrl_spi2_default: spi2-4w-alt2-0 { st,pins { mtsr = <&pio12 6 ALT2 OUT>; mrst = <&pio12 7 ALT2 IN>; scl = <&pio12 5 ALT2 OUT>; }; }; pinctrl_spi2_3w_alt2_0: spi2-3w-alt2-0 { st,pins { mtsr = <&pio12 6 ALT2 BIDIR_PU>; scl = <&pio12 5 ALT2 OUT>; }; }; pinctrl_spi2_4w_alt1_0: spi2-4w-alt1-0 { st,pins { mtsr = <&pio14 6 ALT1 OUT>; mrst = <&pio14 7 ALT1 IN>; scl = <&pio14 5 ALT1 OUT>; }; }; pinctrl_spi2_3w_alt1_0: spi2-3w-alt1-0 { st,pins { mtsr = <&pio14 6 ALT1 BIDIR_PU>; scl = <&pio14 5 ALT1 OUT>; }; }; pinctrl_spi2_4w_alt2_1: spi2-4w-alt2-1 { st,pins { mtsr = <&pio15 6 ALT2 OUT>; mrst = <&pio15 7 ALT2 IN>; scl = <&pio15 5 ALT2 OUT>; }; }; pinctrl_spi2_3w_alt2_1: spi2-3w-alt2-1 { st,pins { mtsr = <&pio15 6 ALT2 BIDIR_PU>; scl = <&pio15 5 ALT2 OUT>; }; }; }; spi3 { pinctrl_spi3_default: spi3-4w-alt3-0 { st,pins { mtsr = <&pio13 6 ALT3 OUT>; mrst = <&pio13 7 ALT3 IN>; scl = <&pio13 5 ALT3 OUT>; }; }; pinctrl_spi3_3w_alt3_0: spi3-3w-alt3-0 { st,pins { mtsr = <&pio13 6 ALT3 BIDIR_PU>; scl = <&pio13 5 ALT3 OUT>; }; }; pinctrl_spi3_4w_alt1_0: spi3-4w-alt1-0 { st,pins { mtsr = <&pio17 7 ALT1 OUT>; mrst = <&pio17 5 ALT1 IN>; scl = <&pio17 6 ALT1 OUT>; }; }; pinctrl_spi3_3w_alt1_0: spi3-3w-alt1-0 { st,pins { mtsr = <&pio17 7 ALT1 BIDIR_PU>; scl = <&pio17 6 ALT1 OUT>; }; }; pinctrl_spi3_4w_alt1_1: spi3-4w-alt1-1 { st,pins { mtsr = <&pio18 6 ALT1 OUT>; mrst = <&pio18 7 ALT1 IN>; scl = <&pio18 5 ALT1 OUT>; }; }; pinctrl_spi3_3w_alt1_1: spi3-3w-alt1-1 { st,pins { mtsr = <&pio18 6 ALT1 BIDIR_PU>; scl = <&pio18 5 ALT1 OUT>; }; }; }; tsin0 { pinctrl_tsin0_parallel: tsin0_parallel { st,pins { DATA7 = <&pio10 4 ALT1 IN SE_NICLK_IO 0 CLK_A>; DATA6 = <&pio10 5 ALT1 IN SE_NICLK_IO 0 CLK_A>; DATA5 = <&pio10 6 ALT1 IN SE_NICLK_IO 0 CLK_A>; DATA4 = <&pio10 7 ALT1 IN SE_NICLK_IO 0 CLK_A>; DATA3 = <&pio11 0 ALT1 IN SE_NICLK_IO 0 CLK_A>; DATA2 = <&pio11 1 ALT1 IN SE_NICLK_IO 0 CLK_A>; DATA1 = <&pio11 2 ALT1 IN SE_NICLK_IO 0 CLK_A>; DATA0 = <&pio11 3 ALT1 IN SE_NICLK_IO 0 CLK_A>; CLKIN = <&pio10 3 ALT1 IN CLKNOTDATA 0 CLK_A>; VALID = <&pio10 1 ALT1 IN SE_NICLK_IO 0 CLK_A>; ERROR = <&pio10 0 ALT1 IN SE_NICLK_IO 0 CLK_A>; PKCLK = <&pio10 2 ALT1 IN SE_NICLK_IO 0 CLK_A>; }; }; pinctrl_tsin0_serial: tsin0_serial { st,pins { DATA7 = <&pio10 4 ALT1 IN SE_NICLK_IO 0 CLK_A>; CLKIN = <&pio10 3 ALT1 IN CLKNOTDATA 0 CLK_A>; VALID = <&pio10 1 ALT1 IN SE_NICLK_IO 0 CLK_A>; ERROR = <&pio10 0 ALT1 IN SE_NICLK_IO 0 CLK_A>; PKCLK = <&pio10 2 ALT1 IN SE_NICLK_IO 0 CLK_A>; }; }; }; tsin1 { pinctrl_tsin1_parallel: tsin1_parallel { st,pins { DATA7 = <&pio12 0 ALT1 IN SE_NICLK_IO 0 CLK_A>; DATA6 = <&pio12 1 ALT1 IN SE_NICLK_IO 0 CLK_A>; DATA5 = <&pio12 2 ALT1 IN SE_NICLK_IO 0 CLK_A>; DATA4 = <&pio12 3 ALT1 IN SE_NICLK_IO 0 CLK_A>; DATA3 = <&pio12 4 ALT1 IN SE_NICLK_IO 0 CLK_A>; DATA2 = <&pio12 5 ALT1 IN SE_NICLK_IO 0 CLK_A>; DATA1 = <&pio12 6 ALT1 IN SE_NICLK_IO 0 CLK_A>; DATA0 = <&pio12 7 ALT1 IN SE_NICLK_IO 0 CLK_A>; CLKIN = <&pio11 7 ALT1 IN CLKNOTDATA 0 CLK_A>; VALID = <&pio11 5 ALT1 IN SE_NICLK_IO 0 CLK_A>; ERROR = <&pio11 4 ALT1 IN SE_NICLK_IO 0 CLK_A>; PKCLK = <&pio11 6 ALT1 IN SE_NICLK_IO 0 CLK_A>; }; }; pinctrl_tsin1_serial: tsin1_serial { st,pins { DATA7 = <&pio12 0 ALT1 IN SE_NICLK_IO 0 CLK_A>; CLKIN = <&pio11 7 ALT1 IN CLKNOTDATA 0 CLK_A>; VALID = <&pio11 5 ALT1 IN SE_NICLK_IO 0 CLK_A>; ERROR = <&pio11 4 ALT1 IN SE_NICLK_IO 0 CLK_A>; PKCLK = <&pio11 6 ALT1 IN SE_NICLK_IO 0 CLK_A>; }; }; }; tsin2 { pinctrl_tsin2_parallel: tsin2_parallel { st,pins { DATA7 = <&pio13 4 ALT1 IN SE_NICLK_IO 0 CLK_A>; DATA6 = <&pio13 5 ALT2 IN SE_NICLK_IO 0 CLK_B>; DATA5 = <&pio13 6 ALT2 IN SE_NICLK_IO 0 CLK_B>; DATA4 = <&pio13 7 ALT2 IN SE_NICLK_IO 0 CLK_B>; DATA3 = <&pio14 0 ALT2 IN SE_NICLK_IO 0 CLK_A>; DATA2 = <&pio14 1 ALT2 IN SE_NICLK_IO 0 CLK_B>; DATA1 = <&pio14 2 ALT2 IN SE_NICLK_IO 0 CLK_A>; DATA0 = <&pio14 3 ALT2 IN SE_NICLK_IO 0 CLK_A>; CLKIN = <&pio13 3 ALT1 IN CLKNOTDATA 0 CLK_A>; VALID = <&pio13 1 ALT1 IN SE_NICLK_IO 0 CLK_A>; ERROR = <&pio13 0 ALT1 IN SE_NICLK_IO 0 CLK_A>; PKCLK = <&pio13 2 ALT1 IN SE_NICLK_IO 0 CLK_A>; }; }; pinctrl_tsin2_serial: tsin2_serial { st,pins { DATA7 = <&pio13 4 ALT1 IN SE_NICLK_IO 0 CLK_A>; CLKIN = <&pio13 3 ALT1 IN CLKNOTDATA 0 CLK_A>; VALID = <&pio13 1 ALT1 IN SE_NICLK_IO 0 CLK_A>; ERROR = <&pio13 0 ALT1 IN SE_NICLK_IO 0 CLK_A>; PKCLK = <&pio13 2 ALT1 IN SE_NICLK_IO 0 CLK_A>; }; }; }; tsin3 { pinctrl_tsin3_serial: tsin3_serial { st,pins { DATA7 = <&pio14 1 ALT1 IN SE_NICLK_IO 0 CLK_A>; CLKIN = <&pio14 0 ALT1 IN CLKNOTDATA 0 CLK_A>; VALID = <&pio13 6 ALT1 IN SE_NICLK_IO 0 CLK_A>; ERROR = <&pio13 5 ALT1 IN SE_NICLK_IO 0 CLK_A>; PKCLK = <&pio13 7 ALT1 IN SE_NICLK_IO 0 CLK_A>; }; }; }; tsin4 { pinctrl_tsin4_serial_alt3: tsin4_serial_alt3 { st,pins { DATA7 = <&pio14 6 ALT3 IN SE_NICLK_IO 0 CLK_A>; CLKIN = <&pio14 5 ALT3 IN CLKNOTDATA 0 CLK_A>; VALID = <&pio14 3 ALT3 IN SE_NICLK_IO 0 CLK_B>; ERROR = <&pio14 2 ALT3 IN SE_NICLK_IO 0 CLK_B>; PKCLK = <&pio14 4 ALT3 IN SE_NICLK_IO 0 CLK_A>; }; }; }; tsin5 { pinctrl_tsin5_serial_alt1: tsin5_serial_alt1 { st,pins { DATA7 = <&pio18 4 ALT1 IN SE_NICLK_IO 0 CLK_A>; CLKIN = <&pio18 3 ALT1 IN CLKNOTDATA 0 CLK_A>; VALID = <&pio18 1 ALT1 IN SE_NICLK_IO 0 CLK_A>; ERROR = <&pio18 0 ALT1 IN SE_NICLK_IO 0 CLK_A>; PKCLK = <&pio18 2 ALT1 IN SE_NICLK_IO 0 CLK_A>; }; }; pinctrl_tsin5_serial_alt2: tsin5_serial_alt2 { st,pins { DATA7 = <&pio19 4 ALT2 IN SE_NICLK_IO 0 CLK_A>; CLKIN = <&pio19 3 ALT2 IN CLKNOTDATA 0 CLK_A>; VALID = <&pio19 1 ALT2 IN SE_NICLK_IO 0 CLK_A>; ERROR = <&pio19 0 ALT2 IN SE_NICLK_IO 0 CLK_A>; PKCLK = <&pio19 2 ALT2 IN SE_NICLK_IO 0 CLK_A>; }; }; }; tsout0 { pinctrl_tsout0_parallel: tsout0_parallel { st,pins { DATA7 = <&pio12 0 ALT3 OUT SE_NICLK_IO 0 CLK_A>; DATA6 = <&pio12 1 ALT3 OUT SE_NICLK_IO 0 CLK_A>; DATA5 = <&pio12 2 ALT3 OUT SE_NICLK_IO 0 CLK_A>; DATA4 = <&pio12 3 ALT3 OUT SE_NICLK_IO 0 CLK_A>; DATA3 = <&pio12 4 ALT3 OUT SE_NICLK_IO 0 CLK_A>; DATA2 = <&pio12 5 ALT3 OUT SE_NICLK_IO 0 CLK_A>; DATA1 = <&pio12 6 ALT3 OUT SE_NICLK_IO 0 CLK_A>; DATA0 = <&pio12 7 ALT3 OUT SE_NICLK_IO 0 CLK_A>; CLKIN = <&pio11 7 ALT3 OUT NICLK 0 CLK_A>; VALID = <&pio11 5 ALT3 OUT SE_NICLK_IO 0 CLK_A>; ERROR = <&pio11 4 ALT3 OUT SE_NICLK_IO 0 CLK_A>; PKCLK = <&pio11 6 ALT3 OUT SE_NICLK_IO 0 CLK_A>; }; }; pinctrl_tsout0_serial: tsout0_serial { st,pins { DATA7 = <&pio12 0 ALT3 OUT SE_NICLK_IO 0 CLK_A>; CLKIN = <&pio11 7 ALT3 OUT NICLK 0 CLK_A>; VALID = <&pio11 5 ALT3 OUT SE_NICLK_IO 0 CLK_A>; ERROR = <&pio11 4 ALT3 OUT SE_NICLK_IO 0 CLK_A>; PKCLK = <&pio11 6 ALT3 OUT SE_NICLK_IO 0 CLK_A>; }; }; }; tsout1 { pinctrl_tsout1_serial: tsout1_serial { st,pins { DATA7 = <&pio19 4 ALT1 OUT SE_NICLK_IO 0 CLK_A>; CLKIN = <&pio19 3 ALT1 OUT NICLK 0 CLK_A>; VALID = <&pio19 1 ALT1 OUT SE_NICLK_IO 0 CLK_A>; ERROR = <&pio19 0 ALT1 OUT SE_NICLK_IO 0 CLK_A>; PKCLK = <&pio19 2 ALT1 OUT SE_NICLK_IO 0 CLK_A>; }; }; }; mtsin0 { pinctrl_mtsin0_parallel: mtsin0_parallel { st,pins { DATA7 = <&pio10 4 ALT3 IN SE_NICLK_IO 0 CLK_A>; DATA6 = <&pio10 5 ALT3 IN SE_NICLK_IO 0 CLK_A>; DATA5 = <&pio10 6 ALT3 IN SE_NICLK_IO 0 CLK_A>; DATA4 = <&pio10 7 ALT3 IN SE_NICLK_IO 0 CLK_A>; DATA3 = <&pio11 0 ALT3 IN SE_NICLK_IO 0 CLK_A>; DATA2 = <&pio11 1 ALT3 IN SE_NICLK_IO 0 CLK_A>; DATA1 = <&pio11 2 ALT3 IN SE_NICLK_IO 0 CLK_A>; DATA0 = <&pio11 3 ALT3 IN SE_NICLK_IO 0 CLK_A>; CLKIN = <&pio10 3 ALT3 IN CLKNOTDATA 0 CLK_A>; VALID = <&pio10 1 ALT3 IN SE_NICLK_IO 0 CLK_A>; ERROR = <&pio10 0 ALT3 IN SE_NICLK_IO 0 CLK_A>; PKCLK = <&pio10 2 ALT3 IN SE_NICLK_IO 0 CLK_A>; }; }; }; systrace { pinctrl_systrace_default: systrace-default { st,pins { trc_data0 = <&pio11 3 ALT5 OUT>; trc_data1 = <&pio11 4 ALT5 OUT>; trc_data2 = <&pio11 5 ALT5 OUT>; trc_data3 = <&pio11 6 ALT5 OUT>; trc_clk = <&pio11 7 ALT5 OUT>; }; }; }; }; pin-controller-front1@921f080 { #address-cells = <1>; #size-cells = <1>; compatible = "st,stih407-front-pinctrl"; st,syscfg = <&syscfg_front>; reg = <0x0921f080 0x4>; reg-names = "irqmux"; interrupts = ; interrupt-names = "irqmux"; ranges = <0 0x09210000 0x10000>; pio20: pio@9210000 { gpio-controller; #gpio-cells = <2>; interrupt-controller; #interrupt-cells = <2>; reg = <0x0 0x100>; st,bank-name = "PIO20"; }; tsin4 { pinctrl_tsin4_serial_alt1: tsin4_serial_alt1 { st,pins { DATA7 = <&pio20 4 ALT1 IN SE_NICLK_IO 0 CLK_A>; CLKIN = <&pio20 3 ALT1 IN CLKNOTDATA 0 CLK_A>; VALID = <&pio20 1 ALT1 IN SE_NICLK_IO 0 CLK_A>; ERROR = <&pio20 0 ALT1 IN SE_NICLK_IO 0 CLK_A>; PKCLK = <&pio20 2 ALT1 IN SE_NICLK_IO 0 CLK_A>; }; }; }; }; pin-controller-rear@922f080 { #address-cells = <1>; #size-cells = <1>; compatible = "st,stih407-rear-pinctrl"; st,syscfg = <&syscfg_rear>; reg = <0x0922f080 0x4>; reg-names = "irqmux"; interrupts = ; interrupt-names = "irqmux"; ranges = <0 0x09220000 0x6000>; pio30: gpio@9220000 { gpio-controller; #gpio-cells = <2>; interrupt-controller; #interrupt-cells = <2>; reg = <0x0 0x100>; st,bank-name = "PIO30"; }; pio31: gpio@9221000 { gpio-controller; #gpio-cells = <2>; interrupt-controller; #interrupt-cells = <2>; reg = <0x1000 0x100>; st,bank-name = "PIO31"; }; pio32: gpio@9222000 { gpio-controller; #gpio-cells = <2>; interrupt-controller; #interrupt-cells = <2>; reg = <0x2000 0x100>; st,bank-name = "PIO32"; }; pio33: gpio@9223000 { gpio-controller; #gpio-cells = <2>; interrupt-controller; #interrupt-cells = <2>; reg = <0x3000 0x100>; st,bank-name = "PIO33"; }; pio34: gpio@9224000 { gpio-controller; #gpio-cells = <2>; interrupt-controller; #interrupt-cells = <2>; reg = <0x4000 0x100>; st,bank-name = "PIO34"; }; pio35: gpio@9225000 { gpio-controller; #gpio-cells = <2>; interrupt-controller; #interrupt-cells = <2>; reg = <0x5000 0x100>; st,bank-name = "PIO35"; st,retime-pin-mask = <0x7f>; }; i2c4 { pinctrl_i2c4_default: i2c4-default { st,pins { sda = <&pio30 1 ALT1 BIDIR>; scl = <&pio30 0 ALT1 BIDIR>; }; }; }; i2c5 { pinctrl_i2c5_default: i2c5-default { st,pins { sda = <&pio34 4 ALT1 BIDIR>; scl = <&pio34 3 ALT1 BIDIR>; }; }; }; usb3 { pinctrl_usb3: usb3-2 { st,pins { usb-oc-detect = <&pio35 4 ALT1 IN>; usb-pwr-enable = <&pio35 5 ALT1 OUT>; usb-vbus-valid = <&pio35 6 ALT1 IN>; }; }; }; pwm0 { pinctrl_pwm0_chan0_default: pwm0-0-default { st,pins { pwm-capturein = <&pio31 0 ALT1 IN>; pwm-out = <&pio31 1 ALT1 OUT>; }; }; }; spi4 { pinctrl_spi4_default: spi4-4w-alt1-0 { st,pins { mtsr = <&pio30 1 ALT1 OUT>; mrst = <&pio30 2 ALT1 IN>; scl = <&pio30 0 ALT1 OUT>; }; }; pinctrl_spi4_3w_alt1_0: spi4-3w-alt1-0 { st,pins { mtsr = <&pio30 1 ALT1 BIDIR_PU>; scl = <&pio30 0 ALT1 OUT>; }; }; pinctrl_spi4_4w_alt3_0: spi4-4w-alt3-0 { st,pins { mtsr = <&pio34 1 ALT3 OUT>; mrst = <&pio34 2 ALT3 IN>; scl = <&pio34 0 ALT3 OUT>; }; }; pinctrl_spi4_3w_alt3_0: spi4-3w-alt3-0 { st,pins { mtsr = <&pio34 1 ALT3 BIDIR_PU>; scl = <&pio34 0 ALT3 OUT>; }; }; }; i2s_out { pinctrl_i2s_8ch_out: i2s_8ch_out{ st,pins { mclk = <&pio33 5 ALT1 OUT>; lrclk = <&pio33 7 ALT1 OUT>; sclk = <&pio33 6 ALT1 OUT>; data0 = <&pio33 4 ALT1 OUT>; data1 = <&pio34 0 ALT1 OUT>; data2 = <&pio34 1 ALT1 OUT>; data3 = <&pio34 2 ALT1 OUT>; }; }; pinctrl_i2s_2ch_out: i2s_2ch_out{ st,pins { mclk = <&pio33 5 ALT1 OUT>; lrclk = <&pio33 7 ALT1 OUT>; sclk = <&pio33 6 ALT1 OUT>; data0 = <&pio33 4 ALT1 OUT>; }; }; }; i2s_in { pinctrl_i2s_8ch_in: i2s_8ch_in{ st,pins { mclk = <&pio32 5 ALT1 IN>; lrclk = <&pio32 7 ALT1 IN>; sclk = <&pio32 6 ALT1 IN>; data0 = <&pio32 4 ALT1 IN>; data1 = <&pio33 0 ALT1 IN>; data2 = <&pio33 1 ALT1 IN>; data3 = <&pio33 2 ALT1 IN>; data4 = <&pio33 3 ALT1 IN>; }; }; pinctrl_i2s_2ch_in: i2s_2ch_in{ st,pins { mclk = <&pio32 5 ALT1 IN>; lrclk = <&pio32 7 ALT1 IN>; sclk = <&pio32 6 ALT1 IN>; data0 = <&pio32 4 ALT1 IN>; }; }; }; spdif_out { pinctrl_spdif_out: spdif_out{ st,pins { spdif_out = <&pio34 7 ALT1 OUT>; }; }; }; serial3 { pinctrl_serial3: serial3-0 { st,pins { tx = <&pio31 3 ALT1 OUT>; rx = <&pio31 4 ALT1 IN>; }; }; }; }; pin-controller-flash@923f080 { #address-cells = <1>; #size-cells = <1>; compatible = "st,stih407-flash-pinctrl"; st,syscfg = <&syscfg_flash>; reg = <0x0923f080 0x4>; reg-names = "irqmux"; interrupts = ; interrupt-names = "irqmux"; ranges = <0 0x09230000 0x3000>; pio40: gpio@9230000 { gpio-controller; #gpio-cells = <2>; interrupt-controller; #interrupt-cells = <2>; reg = <0 0x100>; st,bank-name = "PIO40"; }; pio41: gpio@9231000 { gpio-controller; #gpio-cells = <2>; interrupt-controller; #interrupt-cells = <2>; reg = <0x1000 0x100>; st,bank-name = "PIO41"; }; pio42: gpio@9232000 { gpio-controller; #gpio-cells = <2>; interrupt-controller; #interrupt-cells = <2>; reg = <0x2000 0x100>; st,bank-name = "PIO42"; }; mmc0 { pinctrl_mmc0: mmc0-0 { st,pins { emmc_clk = <&pio40 6 ALT1 BIDIR>; emmc_cmd = <&pio40 7 ALT1 BIDIR_PU>; emmc_d0 = <&pio41 0 ALT1 BIDIR_PU>; emmc_d1 = <&pio41 1 ALT1 BIDIR_PU>; emmc_d2 = <&pio41 2 ALT1 BIDIR_PU>; emmc_d3 = <&pio41 3 ALT1 BIDIR_PU>; emmc_d4 = <&pio41 4 ALT1 BIDIR_PU>; emmc_d5 = <&pio41 5 ALT1 BIDIR_PU>; emmc_d6 = <&pio41 6 ALT1 BIDIR_PU>; emmc_d7 = <&pio41 7 ALT1 BIDIR_PU>; }; }; pinctrl_sd0: sd0-0 { st,pins { sd_clk = <&pio40 6 ALT1 BIDIR>; sd_cmd = <&pio40 7 ALT1 BIDIR_PU>; sd_dat0 = <&pio41 0 ALT1 BIDIR_PU>; sd_dat1 = <&pio41 1 ALT1 BIDIR_PU>; sd_dat2 = <&pio41 2 ALT1 BIDIR_PU>; sd_dat3 = <&pio41 3 ALT1 BIDIR_PU>; sd_led = <&pio42 0 ALT2 OUT>; sd_pwren = <&pio42 2 ALT2 OUT>; sd_vsel = <&pio42 3 ALT2 OUT>; sd_cd = <&pio42 4 ALT2 IN>; sd_wp = <&pio42 5 ALT2 IN>; }; }; }; fsm { pinctrl_fsm: fsm { st,pins { spi-fsm-clk = <&pio40 1 ALT1 OUT>; spi-fsm-cs = <&pio40 0 ALT1 OUT>; spi-fsm-mosi = <&pio40 2 ALT1 OUT>; spi-fsm-miso = <&pio40 3 ALT1 IN>; spi-fsm-hol = <&pio40 5 ALT1 OUT>; spi-fsm-wp = <&pio40 4 ALT1 OUT>; }; }; }; nand { pinctrl_nand: nand { st,pins { nand_cs1 = <&pio40 6 ALT3 OUT>; nand_cs0 = <&pio40 7 ALT3 OUT>; nand_d0 = <&pio41 0 ALT3 BIDIR>; nand_d1 = <&pio41 1 ALT3 BIDIR>; nand_d2 = <&pio41 2 ALT3 BIDIR>; nand_d3 = <&pio41 3 ALT3 BIDIR>; nand_d4 = <&pio41 4 ALT3 BIDIR>; nand_d5 = <&pio41 5 ALT3 BIDIR>; nand_d6 = <&pio41 6 ALT3 BIDIR>; nand_d7 = <&pio41 7 ALT3 BIDIR>; nand_we = <&pio42 0 ALT3 OUT>; nand_dqs = <&pio42 1 ALT3 OUT>; nand_ale = <&pio42 2 ALT3 OUT>; nand_cle = <&pio42 3 ALT3 OUT>; nand_rnb = <&pio42 4 ALT3 IN>; nand_oe = <&pio42 5 ALT3 OUT>; }; }; }; }; }; };