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    D1s XR829 wifi起不来,哪位帮忙看一下

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    • Z
      zcxhappy LV 5 last edited by whycan

      sunxi-rfkill soc@3000000:rfkill@0: module version: v1.0.9
      sunxi-rfkill soc@3000000:rfkill@0: devm_pinctrl_get() failed!
      sunxi-rfkill soc@3000000:rfkill@0: get gpio chip_en failed
      sunxi-rfkill soc@3000000:rfkill@0: get gpio power_en failed
      sunxi-rfkill soc@3000000:rfkill@0: wlan_busnum (2)
      sunxi-rfkill soc@3000000:rfkill@0: Missing wlan_power.
      sunxi-rfkill soc@3000000:rfkill@0: wlan clock[0] (32k-fanout1)
      sunxi-rfkill soc@3000000:rfkill@0: wlan_regon gpio=132 assert=1
      sunxi-rfkill soc@3000000:rfkill@0: wlan_hostwake gpio=128 assert=1
      sunxi-rfkill soc@3000000:rfkill@0: wakeup source is enabled
      sunxi-rfkill soc@3000000:rfkill@0: Missing bt_power.
      sunxi-rfkill soc@3000000:rfkill@0: bt clock[0] (32k-fanout1)
      sunxi-rfkill soc@3000000:rfkill@0: bt_rst gpio=133 assert=0
      [ADDR_MGT] addr_mgt_probe: module version: v1.0.10
      [ADDR_MGT] addr_mgt_probe: success.
      libphy: Fixed MDIO Bus: probed
      sun8iw20-pinctrl 2000000.pinctrl: 2000000.pinctrl supply vcc-pg not found, using dummy regulator
      sunxi gmac driver's version: 1.0.0
      gmac-power0: NULL
      gmac-power1: NULL
      gmac-power2: NULL
      Failed to alloc md5
      eth0: Use random mac address
      ======== XRADIO WIFI OPEN ========
      [XRADIO_ERR] debugfs isnot initialized
      [XRADIO] Driver Label:XR_V02.16.85_P2P_HT40_01.31   
      [XRADIO] Allocated hw_priv @ (____ptrval____)
      sunxi-rfkill soc@3000000:rfkill@0: bus_index: 2
      sunxi-rfkill soc@3000000:rfkill@0: wlan power on success
      sunxi_hosts[2] should not be null
      [XRADIO] Detect SDIO card 2
      sunxi-rfkill soc@3000000:rfkill@0: wlan power off success
      random: fast init done
      sunxi_hosts[2] should not be null
      [XRADIO] Remove SDIO card 2
      [SBUS_ERR] sdio probe timeout!
      [XRADIO_ERR] sbus_sdio_init failed
      
      /*
       * Allwinner Technology CO., Ltd. sun20iw1p1 fpga.
       *
       * fpga support.
       */
      
      /dts-v1/;
      
      #include "sun20iw1p1.dtsi"
      
      /{
      	compatible = "allwinner,d1", "arm,sun20iw1p1", "allwinner,sun20iw1p1";
      
      	aliases {
      		dsp0 = &dsp0;
      		dsp0_gpio_int= &dsp0_gpio_int;
      	};
      
      	dsp0: dsp0 {
      		compatible = "allwinner,sun20iw1-dsp";
      		status = "disabled";
      	};
      
      	dsp0_gpio_int: dsp0_gpio_int {
      		compatible = "allwinner,sun20iw1-dsp-gpio-int";
      		pin-group = "PB", "PC", "PD", "PE";
      		status = "disabled";
      	};
      
      	reg_vdd_cpu: vdd-cpu {
      		compatible = "sunxi-pwm-regulator";
      		pwms = <&pwm 0 5000 1>;
      		regulator-name = "vdd_cpu";
      		regulator-min-microvolt = <810000>;
      		regulator-max-microvolt = <1160000>;
      		regulator-ramp-delay = <25>;
      		regulator-always-on;
      		regulator-boot-on;
      		status = "okay";
      	};
      
      	reg_usb1_vbus: usb1-vbus {
      		compatible = "regulator-fixed";
      		regulator-name = "usb1-vbus";
      		regulator-min-microvolt = <5000000>;
      		regulator-max-microvolt = <5000000>;
      		regulator-enable-ramp-delay = <1000>;
      		gpio = <&pio PB 3 GPIO_ACTIVE_HIGH>;
      		enable-active-high;
      	};
      };
      
      &CPU0 {
      	cpu-supply = <&reg_vdd_cpu>;
      };
      
      &pio {
      	sdc0_pins_a: sdc0@0 {
      		allwinner,pins = "PF0", "PF1", "PF2",
      				 "PF3", "PF4", "PF5";
      		allwinner,function = "sdc0";
      		allwinner,muxsel = <2>;
      		allwinner,drive = <3>;
      		allwinner,pull = <1>;
      		pins = "PF0", "PF1", "PF2",
      		       "PF3", "PF4", "PF5";
      		function = "sdc0";
      		drive-strength = <30>;
      		bias-pull-up;
      		power-source = <3300>;
      	};
      
      
      	sdc0_pins_b: sdc0@1 {
      		pins = "PF0", "PF1", "PF2",
      		       "PF3", "PF4", "PF5";
      		function = "sdc0";
      		drive-strength = <30>;
      		bias-pull-up;
      		power-source = <1800>;
      	};
      
      	sdc0_pins_c: sdc0@2 {
      		pins = "PF0", "PF1", "PF2",
      			"PF3", "PF4", "PF5";
      		function = "gpio_in";
      	};
      
      	/* TODO: add jtag pin */
      	sdc0_pins_d: sdc0@3 {
      		pins = "PF2", "PF4";
      		function = "uart0";
      		drive-strength = <10>;
      		bias-pull-up;
      	};
      
      	sdc0_pins_e: sdc0@4 {
      		pins = "PF0", "PF1", "PF3",
      			"PF5";
      		function = "jtag";
      		drive-strength = <10>;
      		bias-pull-up;
      	};
      
      
      	sdc1_pins_a: sdc1@0 {
      		pins = "PG0", "PG1", "PG2",
      		       "PG3", "PG4", "PG5";
      		function = "sdc1";
      		drive-strength = <30>;
      		bias-pull-up;
      	};
      
      	sdc1_pins_b: sdc1@1 {
      		pins = "PG0", "PG1", "PG2",
      		       "PG3", "PG4", "PG5";
      			function = "gpio_in";
      	};
      
      	sdc2_pins_a: sdc2@0 {
      		/*allwinner,pins = "PC2", "PC3", "PC4",
      				 "PC5", "PC6", "PC7";
      		allwinner,function = "sdc2";
      		allwinner,muxsel = <3>;
      		allwinner,drive = <3>;
      		allwinner,pull = <1>;*/
      		pins = "PC2", "PC3", "PC4",
      			"PC5", "PC6", "PC7";
      		function = "sdc2";
      		drive-strength = <30>;
      		bias-pull-up;
      	};
      
      	sdc2_pins_b: sdc2@1 {
      		pins = "PC2", "PC3", "PC4",
      		       "PC5", "PC6", "PC7";
      		function = "gpio_in";
      	};
      
      	wlan_pins_a:wlan@0 {
      		pins = "PG11";
      		function = "clk_fanout1";
      	};
      
              uart0_pins_a: uart0_pins@0 {  /* For EVB1 board */
                      pins = "PE2", "PE3";
                      function = "uart0";
                      drive-strength = <10>;
                      bias-pull-up;
              };
      
              uart0_pins_b: uart0_pins@1 {  /* For EVB1 board */
                      pins = "PF2", "PF4";
                      function = "gpio_in";
              };
      
      	uart1_pins_a: uart1_pins@0 {  /* For EVB1 board */
      		pins = "PE8", "PE9", "PE10", "PE11";
      		function = "uart1";
      		drive-strength = <10>;
      		bias-pull-up;
      	};
      
      	uart1_pins_b: uart1_pins {  /* For EVB1 board */
      		pins = "PE8", "PE9", "PE10", "PE11";
      		function = "gpio_in";
      	};
      
      	uart2_pins_a: uart2_pins@0 {  /* For EVB1 board */
      		pins = "PC0", "PC1";
      		function = "uart2";
      		drive-strength = <10>;
      		bias-pull-up;
      	};
      
      	uart2_pins_b: uart2_pins@1 {  /* For EVB1 board */
      		pins = "PC0", "PC1";
      		function = "gpio_in";
      	};
      
      	uart3_pins_a: uart3_pins@0 {  /* For EVB1 board */
      		pins = "PD10", "PD11";
      		function = "uart3";
      		muxsel = <5>;
      		drive-strength = <10>;
      		bias-pull-up;
      	};
      
      	twi0_pins_a: twi0@0 {
      		pins = "PB10", "PB11";	/*sck sda*/
      		function = "twi0";
      		drive-strength = <10>;
      	};
      
      	twi0_pins_b: twi0@1 {
      		pins = "PB10", "PB11";
      		function = "gpio_in";
      	};
      
      	twi1_pins_a: twi1@0 {
      		pins = "PB4", "PB5";
      		function = "twi1";
      		drive-strength = <10>;
      	};
      
      	twi1_pins_b: twi1@1 {
      		pins = "PB4", "PB5";
      		function = "gpio_in";
      	};
      
              twi2_pins_a: twi2@0 {
                      pins = "PE12", "PE13";
                      function = "twi2";
                      drive-strength = <10>;
              };
      
              twi2_pins_b: twi2@1 {
                      pins = "PE12", "PE13";
                      function = "gpio_in";
              };
      
      	twi3_pins_a: twi3@0 {
      		pins = "PE6", "PE7";
      		function = "twi3";
      		drive-strength = <10>;
      	};
      
      	twi3_pins_b: twi3@1 {
      		pins = "PE6", "PE7";
      		function = "gpio_in";
      	};
      
      	/*gmac_pins_a: gmac@0 {
      		pins = "PE0", "PE1", "PE2", "PE3",
      		       "PE4", "PE5", "PE6", "PE7",
      		       "PE8", "PE9", "PE10", "PE11",
      		       "PE12", "PE13", "PE14", "PE15";
      		function = "gmac0";
      		drive-strength = <10>;
      	};*/
      	gmac_pins_a: gmac@0 {
      		pins = "PG0", "PG1", "PG2", "PG3",
      		       "PG4", "PG5", "PG6", "PG7",
      		       "PG8", "PG9", "PG10", 
      		       "PG12", "PG13", "PG14", "PG15";
      		function = "gmac0";
      		drive-strength = <10>;
      	};
      
      	/*gmac_pins_b: gmac@1 {
      		pins = "PE0", "PE1", "PE2", "PE3",
      		       "PE4", "PE5", "PE6", "PE7",
      		       "PE8", "PE9", "PE10", "PE11",
      		       "PE12", "PE13", "PE14", "PE15";
      		function = "gpio_in";
      	};*/
      	gmac_pins_b: gmac@1 {
      		pins = "PG0", "PG1", "PG2", "PG3",
      		       "PG4", "PG5", "PG6", "PG7",
      		       "PG8", "PG9", "PG10", 
      		       "PG12", "PG13", "PG14", "PG15";
      		function = "gpio_in";
      	};
      
      	dmic_pins_a: dmic@0 {
      		/* DMIC_PIN: CLK, DATA0, DATA1, DATA2, DATA3*/
      		pins = "PB12", "PB11", "PB10", "PE14", "PB8";
      		function = "dmic";
      		drive-strength = <20>;
      		bias-disable;
      	};
      
      	dmic_pins_b: dmic@1 {
      		pins = "PB12", "PB11", "PB10", "PE14", "PB8";
      		function = "io_disabled";
      		drive-strength = <20>;
      		bias-disable;
      	};
      
      	daudio0_pins_a: daudio0@0 {
      		pins = "PE17", "PE16", "PE15", "PE14", "PE13";
      		function = "i2s0";
      		drive-strength = <20>;
      		bias-disable;
      	};
      
      	daudio0_pins_b: daudio0_sleep@0 {
      		pins = "PE17", "PE16", "PE15", "PE14", "PE13";
      		function = "io_disabled";
      		drive-strength = <20>;
      		bias-disable;
      	};
      
      	daudio1_pins_a: daudio1@0 {
      		pins = "PG11", "PG12", "PG13", "PG14", "PG15";
      		function = "i2s1";
      		drive-strength = <20>;
      		bias-disable;
      	};
      
      	daudio1_pins_b: daudio1_sleep@0 {
      		pins = "PG11", "PG12", "PG13", "PG14", "PG15";
      		function = "io_disabled";
      		drive-strength = <20>;
      		bias-disable;
      	};
      
      	daudio2_pins_a: daudio2@0 {
      		/* I2S_PIN: MCLK, BCLK, LRCK */
      		pins = "PF6", "PF3", "PF5";
      		function = "i2s2";
      		drive-strength = <20>;
      		bias-disable;
      	};
      
      	daudio2_pins_b: daudio2@1 {
      		/* I2S_PIN: DOUT0 */
      		pins = "PF1";
      		function = "i2s2_dout";
      		drive-strength = <20>;
      		bias-disable;
      	};
      
      	daudio2_pins_c: daudio2@2 {
      		/* I2S_PIN: DIN0 */
      		pins = "PF0";
      		function = "i2s2_din";
      		drive-strength = <20>;
      		bias-disable;
      	};
      
      	daudio2_pins_d: daudio2_sleep@0 {
      		pins = "PF6", "PF3", "PF5", "PF1", "PF0";
      		function = "io_disabled";
      		drive-strength = <20>;
      		bias-disable;
      	};
      
      	spdif_pins_a: spdif@0 {
      		/* SPDIF_PIN: SPDIF_OUT */
      		pins = "PG18";
      		function = "spdif";
      		drive-strength = <20>;
      		bias-disable;
      	};
      
      	spdif_pins_b: spdif_sleep@0 {
      		pins = "PG18";
      		function = "io_disabled";
      		drive-strength = <20>;
      		bias-disable;
      	};
      
      	spi0_pins_a: spi0@0 {
      		pins = "PC2", "PC4", "PC5"; /* clk, mosi, miso */
      		function = "spi0";
      		muxsel = <2>;
      
      		drive-strength = <20>;
      	};
      
      	spi0_pins_b: spi0@1 {
      		pins = "PC3", "PC7", "PC6";
      		function = "spi0";
      		muxsel = <2>;
      		drive-strength = <20>;
      		bias-pull-up;   /* cs, hold, wp should be pulled up */
      	};
      
      	spi0_pins_c: spi0@2 {
      		pins = "PC2", "PC3", "PC4", "PC5","PC6", "PC7";
      		function = "gpio_in";
      		muxsel = <0>;
      		drive-strength = <10>;
      	};
      
      	spi1_pins_a: spi1@0 {
      		pins = "PD11", "PD12", "PD13"; /* clk, mosi, miso */
      		function = "spi1";
      		drive-strength = <10>;
      	};
      
      	spi1_pins_b: spi1@1 {
      		pins = "PD10", "PD14", "PD15";
      		function = "spi1";
      		drive-strength = <10>;
      		bias-pull-up;   /* cs, hold, wp should be pulled up */
      	};
      
      	spi1_pins_c: spi1@2 {
      		pins = "PD10", "PD11", "PD12", "PD13","PD14", "PD15";
      		function = "gpio_in";
      		drive-strength = <10>;
      	};
      
      	ledc_pins_a: ledc@0 {
      		pins = "PC0";
      		function = "ledc";
      		drive-strength = <10>;
      	};
      
      	ledc_pins_b: ledc@1 {
      		pins = "PC0";
      		function = "gpio_in";
      	};
      
      	pwm0_pin_a: pwm0@0 {
      		pins = "PD16";
      		function = "pwm0";
      		drive-strength = <10>;
      		bias-pull-up;
      	};
      
      	pwm0_pin_b: pwm0@1 {
      		pins = "PD16";
      		function = "gpio_in";
      		bias-disable;
      	};
      
      	pwm2_pin_a: pwm2@0 {
      		pins = "PD18";
      		function = "pwm2";
      		drive-strength = <10>;
      		bias-pull-up;
      	};
      
      	pwm2_pin_b: pwm2@1 {
      		pins = "PD18";
      		function = "gpio_out";
      	};
      
      	pwm7_pin_a: pwm7@0 {
      		pins = "PD22";
      		function = "pwm7";
      		drive-strength = <10>;
      		bias-pull-up;
      	};
      
      	pwm7_pin_b: pwm7@1 {
      		pins = "PD22";
      		function = "gpio_in";
      	};
      
      
      	s_cir0_pins_a: s_cir@0 {
      		pins = "PB7";
      		function = "ir";
      		drive-strength = <10>;
      		bias-pull-up;
      	};
      
      	s_cir0_pins_b: s_cir@1 {
      		pins = "PB7";
      		function = "gpio_in";
      	};
      
      	ir1_pins_a: ir1@0 {
      		pins = "PB0";
      		function = "ir";
      		drive-strength = <10>;
      		bias-pull-up;
      	};
      
      	ir1_pins_b: ir1@1 {
      		pins = "PB0";
      		function = "gpio_in";
      	};
      
      	can0_pins_a: can0_pins_a@0 {
      		pins = "PB2", "PB3";
      		function = "can0";
      		drive-strength = <10>;
      		bias-pull-up;
      	};
      
      	can0_pins_b: can0_pins_b@1 {
      		pins = "PB2", "PB3";
      		function = "gpio_in";
      	};
      
      	can1_pins_a: can1_pins_a@0 {
      		pins = "PB4", "PB5";
      		function = "can1";
      		drive-strength = <10>;
      		bias-pull-up;
      	};
      
      	can1_pins_b: can1_pins_b@1 {
      		pins = "PB4", "PB5";
      		function = "gpio_in";
      	};
      };
      
      &uart0 {
      	pinctrl-names = "default", "sleep";
      	pinctrl-0 = <&uart0_pins_a>;
      	pinctrl-1 = <&uart0_pins_b>;
      	status = "okay";
      };
      
      &uart1 {
      	pinctrl-names = "default", "sleep";
      	pinctrl-0 = <&uart1_pins_a>;
      	pinctrl-1 = <&uart1_pins_b>;
      	status = "okay";
      };
      
      &uart2 {
      	pinctrl-names = "default", "sleep";
      	pinctrl-0 = <&uart2_pins_a>;
      	pinctrl-1 = <&uart2_pins_b>;
      	status = "disabled";
      };
      
      &uart3 {
      	compatible = "allwinner,sun20iw1-dsp-uart";
      	pinctrl-names = "default", "sleep";
      	pinctrl-0 = <&uart3_pins_a>;
      	pinctrl-1 = <&uart3_pins_a>;
      	status = "disabled";
      };
      
      &soc {
      	card0_boot_para@2 {
      		/*
      		 * Avoid dtc compiling warnings.
      		 * @TODO: Developer should modify this to the actual value
      		 */
      		reg = <0x0 0x2 0x0 0x0>;
      		device_type = "card0_boot_para";
      		card_ctrl = <0x0>;
      		card_high_speed = <0x1>;
      		card_line = <0x4>;
      		pinctrl-0 = <&sdc0_pins_a>;
      	};
      
      	rfkill: rfkill@0 {
      		compatible    = "allwinner,sunxi-rfkill";
      		chip_en;
      		power_en;
      		status        = "okay";
      
      		wlan: wlan@0 {
      			compatible    = "allwinner,sunxi-wlan";
                  pinctrl-0 = <&wlan_pins_a>;
      		    pinctrl-names = "default";
      
      			clock-names = "32k-fanout1";
      			clocks = <&ccu CLK_FANOUT1_OUT>;
      			// wlan_busnum    = <0x1>;
                  wlan_busnum    = <0x2>;
      			/*wlan_regon    = <&pio PE 3 GPIO_ACTIVE_HIGH>;*/
      			wlan_regon    = <&pio PE 4 GPIO_ACTIVE_HIGH>;
      			/*wlan_hostwake  = <&pio PG 10 GPIO_ACTIVE_HIGH>;*/
      			wlan_hostwake  = <&pio PE 0 GPIO_ACTIVE_HIGH>;
      			/*wlan_power    = "VCC-3V3";*/
      			/*wlan_power_vol = <3300000>;*/
      			/*interrupt-parent = <&pio>;
      			interrupts = < PG 11 IRQ_TYPE_LEVEL_HIGH>;*/
      			wakeup-source;
      		};
      		
      		bt: bt@0 {
      			compatible    = "allwinner,sunxi-bt";
      			/*pinctrl-0 = <&wlan_pins_a>;
      			pinctrl-names = "default";
      			clock-names = "32k-fanout1";
      			clocks = <&ccu CLK_FANOUT1_OUT>;*/
      			/*bt_power_num = <0x01>;*/
      			/*bt_power      = "axp803-dldo1";*/
      			/*bt_io_regulator = "axp803-dldo1";*/
      			/*bt_io_vol = <3300000>;*/
      			/*bt_power_vol = <330000>;*/
      			clock-names = "32k-fanout1";
      			clocks = <&ccu CLK_FANOUT1_OUT>;
      			bt_rst_n      = <&pio PE 5 GPIO_ACTIVE_LOW>;
      			status        = "okay";
      		};
      	};
      
      	btlpm: btlpm@0 {
      		compatible  = "allwinner,sunxi-btlpm";
      		uart_index  = <0x1>;
      		bt_wake     = <&pio PE 6 GPIO_ACTIVE_HIGH>;
      		bt_hostwake = <&pio PE 7 GPIO_ACTIVE_HIGH>;
      		status      = "okay";
      	};
      
      	addr_mgt: addr_mgt@0 {
      		compatible     = "allwinner,sunxi-addr_mgt";
      		type_addr_wifi = <0x0>;
      		type_addr_bt   = <0x0>;
      		type_addr_eth  = <0x0>;
      		status         = "okay";
      	};
      
          // sdc2: sdmmc@4022000 {
      	// 	compatible = "allwinner,sunxi-mmc-v5p3x";
      	// 	device_type = "sdc2";
      	// 	reg = <0x0 0x04022000 0x0 0x1000>;
      	// 	interrupts-extended = <&plic0 58 IRQ_TYPE_LEVEL_HIGH>;
      	// 	clocks = <&dcxo24M>,
      	// 			 <&ccu CLK_PLL_PERIPH0_2X>,
      	// 			 <&ccu CLK_MMC2>,
      	// 			 <&ccu CLK_BUS_MMC2>;
      	// 	clock-names = "osc24m","pll_periph","mmc","ahb";
      	// 	resets = <&ccu RST_BUS_MMC2>;
      	// 	reset-names = "rst";
      	// 	pinctrl-names = "default","sleep";
      	// 	pinctrl-0 = <&sdc2_pins_a>;
      	// 	pinctrl-1 = <&sdc2_pins_b>;
      	// 	max-frequency = <50000000>;
      	// 	bus-width = <4>;
      	// 	cap-sd-highspeed;
      	// 	no-mmc;
          //     no-sd;
      	// 	keep-power-in-suspend;
      	// 	sunxi-dly-52M-ddr4  = <1 0 0 0 2>;
      	// 	sunxi-dly-104M  = <1 0 0 0 1>;
      	// 	sunxi-dly-208M  = <1 0 0 0 1>;
      	// 	status = "okay";
      	// };
      };
      
      &sdc2 {
      	bus-width = <4>;
      	no-mmc;
      	no-sd;
      	cap-sd-highspeed;
      	/*sd-uhs-sdr12*/
      	/*sd-uhs-sdr25;*/
      	// sd-uhs-sdr50;
      	/*sd-uhs-ddr50;*/
      	/*sd-uhs-sdr104;*/
      	/*sunxi-power-save-mode;*/
      	/*sunxi-dis-signal-vol-sw;*/
      	cap-sdio-irq;
      	keep-power-in-suspend;
      	ignore-pm-notify;
      	max-frequency = <150000000>;
      	ctl-spec-caps = <0x8>;
      	status = "okay";
      };
      
      &sdc0 {
      	bus-width = <4>;
      	cd-gpios = <&pio PF 6 (GPIO_ACTIVE_LOW | GPIO_PULL_UP)>;
      	/*non-removable;*/
      	/*broken-cd;*/
      	/*cd-inverted;*/
      	/*data3-detect;*/
      	/*card-pwr-gpios = <&pio PH 14 1 1 2 0xffffffff>;*/
      	cd-used-24M;
      	cap-sd-highspeed;
      	/*sd-uhs-sdr50;*/
      	/*sd-uhs-ddr50;*/
      	/*sd-uhs-sdr104;*/
      	no-sdio;
      	/*no-mmc;*/
      	sunxi-power-save-mode;
      	/*sunxi-dis-signal-vol-sw;*/
      	max-frequency = <150000000>;
      	ctl-spec-caps = <0x8>;
      	/*vmmc-supply = <&reg_dcdc1>;*/
      	/*vqmmc33sw-supply = <&reg_dcdc1>;*/
      	/*vdmmc33sw-supply = <&reg_dcdc1>;*/
      	/*vqmmc18sw-supply = <&reg_eldo1>;*/
      	/*vdmmc18sw-supply = <&reg_eldo1>;*/
      	status = "okay";
      };
      
      &sdc1 {
      	bus-width = <4>;
      	no-mmc;
      	no-sd;
      	cap-sd-highspeed;
      	/*sd-uhs-sdr12*/
      	/*sd-uhs-sdr25;*/
      	/*sd-uhs-sdr50;*/
      	/*sd-uhs-ddr50;*/
      	/*sd-uhs-sdr104;*/
      	/*sunxi-power-save-mode;*/
      	/*sunxi-dis-signal-vol-sw;*/
      	cap-sdio-irq;
      	keep-power-in-suspend;
      	ignore-pm-notify;
      	max-frequency = <150000000>;
      	ctl-spec-caps = <0x8>;
      	status = "disabled";
      };
      
      
      /*
      tvd configuration
      used                   (create device, 0: do not create device, 1: create device)
      agc_auto_enable        (0: agc manual mode,agc_manual_value is valid; 1: agc auto mode)
      agc_manual_value       (agc manual value, default value is 64)
      cagc_enable            (cagc        0: disable, 1: enable)
      fliter_used            (3d fliter   0: disable, 1: enable)
      support two PMU power  (tvd_power0, tvd_power1)
      support two GPIO power (tvd_gpio0, tvd_gpio1)
      NOTICE: If tvd need pmu power or gpio power,params need be configured under [tvd]
      tvd_sw                 (the switch of all tvd driver.)
      tvd_interface          (0: cvbs, 1: ypbpr,)
      tvd_format             (0:TVD_PL_YUV420 , 1: MB_YUV420, 2: TVD_PL_YUV422)
      tvd_system             (0:ntsc, 1:pal)
      tvd_row                (total row number in multi channel mode 1-2)
      tvd_column             (total column number in multi channel mode 1-2)
      tvd_channelx_en        (0:disable, 1~4:position in multi channel mode,In single channel
                             mode,mean enable)
      tvd_row*tvd_column is the total tvd channel number to be used in multichannel mode
      +--------------------+--------------------+
      |                    |                    |
      |                    |                    |
      |         1          |         2          |
      |                    |                    |
      |                    |                    |
      +--------------------+--------------------+
      |                    |                    |
      |                    |                    |
      |         3          |         4          |
      |                    |                    |
      |                    |                    |
      +--------------------+--------------------+
      */
      
      &tvd {
      	tvd_sw          = <1>;
      	tvd_interface   = <0>;
      	tvd_format      = <0>;
      	tvd_system      = <1>;
      	tvd_row         = <1>;
      	tvd_column      = <1>;
      	tvd_channel0_en = <1>;
      	tvd_channel1_en = <0>;
      	tvd_channel2_en = <0>;
      	tvd_channel3_en = <0>;
      	/*tvd_gpio0 = <&pio PD 22 GPIO_ACTIVE_HIGH>;*/
      	/*tvd_gpio1 = <&pio PD 23 GPIO_ACTIVE_HIGH>;*/
      	/*tvd_gpio2 = <&pio PD 24 GPIO_ACTIVE_HIGH>;*/
      	/*	dc1sw-supply = <&reg_dc1sw>;*/
      	/*	eldo3-supply = <&reg_eldo3>;*/
      	/*tvd_power0      = "dc1sw"*/
      	/*tvd_power1      = "eldo3"*/
      };
      
      &tvd0 {
      	used                    = <1>;
      	agc_auto_enable         = <1>;
      	agc_manual_value        = <64>;
      	cagc_enable             = <1>;
      	fliter_used             = <1>;
      };
      
      /* Audio Driver modules */
      &sunxi_rpaf_dsp0 {
      	status = "disabled";
      };
      
      /* if audiocodec is used, sdc0 and uart0 should be closed to enable PA. */
      &codec {
      	/* MIC and headphone gain setting */
      	mic1gain 	= <0x1F>;
      	mic2gain 	= <0x1F>;
      	mic3gain 	= <0x1F>;
      	/* ADC/DAC DRC/HPF func enabled */
              /* 0x1:DAP_HP_EN; 0x2:DAP_SPK_EN; 0x3:DAP_HPSPK_EN */
      	adcdrc_cfg 	= <0x0>;
      	adchpf_cfg 	= <0x1>;
      	dacdrc_cfg 	= <0x0>;
      	dachpf_cfg 	= <0x0>;
      	/* Volume about */
      	digital_vol 	= <0x00>;
      	lineout_vol 	= <0x1a>;
      	headphonegain	= <0x03>;
      	/* Pa enabled about */
      	pa_level 	= <0x01>;
      	pa_pwr_level 	= <0x01>;
      	pa_msleep_time 	= <0x78>;
      	/* gpio-spk	= <&pio PF 2 GPIO_ACTIVE_HIGH>;*/
      	/* gpio-spk-pwr	= <&pio PF 4 GPIO_ACTIVE_HIGH>; */
      	/* CMA config about */
      	playback_cma	= <128>;
      	capture_cma	= <256>;
      	/* regulator about */
      	/* avcc-supply	= <&reg_aldo1>; */
      	/* hpvcc-supply	= <&reg_eldo1>; */
      	status = "okay";
      };
      
      &sndcodec {
      	hp_detect_case	= <0x00>;
      	jack_enable	= <0x01>;
      	status = "okay";
      };
      
      &dummy_cpudai {
      	status = "okay";
      };
      
      &dmic {
      	pinctrl-names   = "default","sleep";
      	pinctrl-0       = <&dmic_pins_a>;
      	pinctrl-1       = <&dmic_pins_b>;
      	status = "okay";
      };
      
      &dmic_codec {
      	status = "okay";
      };
      
      &sounddmic {
      	status = "okay";
      };
      
      /*-----------------------------------------------------------------------------
       * pcm_lrck_period	16/32/64/128/256
       *			(set 0x20 for HDMI audio out)
       * slot_width_select	16bits/20bits/24bits/32bits
       *			(set 0x20 for HDMI audio out)
       * frametype		0 --> short frame = 1 clock width;
       *			1 --> long frame = 2 clock width;
       * tdm_config		0 --> pcm
       *			1 --> i2s
       *			(set 0x01 for HDMI audio out)
       * mclk_div		0 --> not output
       *			1/2/4/6/8/12/16/24/32/48/64/96/128/176/192
       *			(set mclk as external codec clk source, freq is pll_audio/mclk_div)
       * pinctrl_used		0 --> I2S/PCM use for internal (e.g. HDMI)
       *			1 --> I2S/PCM use for external audio
       * daudio_type:		0 --> external audio type
       *			1 --> HDMI audio type
       *---------------------------------------------------------------------------*/
      &daudio0 {
      	mclk_div 	= <0x01>;
      	frametype 	= <0x00>;
      	tdm_config 	= <0x01>;
      	sign_extend 	= <0x00>;
      	msb_lsb_first 	= <0x00>;
      	pcm_lrck_period = <0x80>;
      	slot_width_select = <0x20>;
      	pinctrl-names   = "default", "sleep";
      	pinctrl-0       = <&daudio0_pins_a>;
      	pinctrl-1       = <&daudio0_pins_b>;
      	pinctrl_used	= <0x0>;
      	status = "disabled";
      };
      
      /*-----------------------------------------------------------------------------
       * simple-audio-card,name	name of sound card, e.g.
       *				"snddaudio0" --> use for external audio
       *				"sndhdmi" --> use for HDMI audio
       * sound-dai			"snd-soc-dummy" --> use for I2S
       *				"hdmiaudio" --> use for HDMI audio
       *				"ac108" --> use for external audio of ac108
       *---------------------------------------------------------------------------*/
      &sounddaudio0 {
      	/* simple-audio-card,format = "i2s"; */
      	/* simple-audio-card,frame-master = <&daudio0_master>; */
      	/* simple-audio-card,bitclock-master = <&daudio0_master>; */
      	/* simple-audio-card,bitclock-inversion; */
      	/* simple-audio-card,frame-inversion; */
      	status = "disabled";
      	daudio0_master: simple-audio-card,codec {
      		/* sound-dai = <&ac108>; */
      	};
      };
      
      &daudio1 {
      	mclk_div 	= <0x01>;
      	frametype 	= <0x00>;
      	tdm_config 	= <0x01>;
      	sign_extend 	= <0x00>;
      	msb_lsb_first 	= <0x00>;
      	pcm_lrck_period = <0x80>;
      	slot_width_select = <0x20>;
      	pinctrl-names   = "default", "sleep";
      	pinctrl-0       = <&daudio1_pins_a>;
      	pinctrl-1       = <&daudio1_pins_b>;
      	pinctrl_used	= <0x0>;
      	status = "disabled";
      };
      
      &sounddaudio1 {
      	status = "disabled";
      	daudio1_master: simple-audio-card,codec {
      		/* sound-dai = <&ac108>; */
      	};
      };
      
      &daudio2 {
      	mclk_div 	= <0x01>;
      	frametype 	= <0x00>;
      	tdm_config 	= <0x01>;
      	sign_extend 	= <0x00>;
      	tx_data_mode 	= <0x00>;
      	rx_data_mode 	= <0x00>;
      	msb_lsb_first 	= <0x00>;
      	pcm_lrck_period = <0x80>;
      	slot_width_select = <0x20>;
      	asrc_function_en  = <0x00>;
      	pinctrl-names   = "default", "sleep";
      	pinctrl-0       = <&daudio2_pins_a &daudio2_pins_b &daudio2_pins_c>;
      	pinctrl-1       = <&daudio2_pins_d>;
      	pinctrl_used	= <0x1>;
      	daudio_type	= <0x0>;
      	status = "disabled";
      };
      
      /* if HDMI audio is used, daudio2 should be enable. */
      &hdmiaudio {
      	status = "disabled";
      };
      
      &sounddaudio2 {
      	status = "okay";
      	daudio2_master: simple-audio-card,codec {
      		/* sound-dai = <&ac108>; */
      	};
      };
      
      &spdif {
      	pinctrl-names   = "default","sleep";
      	pinctrl-0       = <&spdif_pins_a>;
      	pinctrl-1       = <&spdif_pins_b>;
      	status = "okay";
      };
      
      &soundspdif {
      	status = "okay";
      };
      
      /*
       *usb_port_type: usb mode. 0-device, 1-host, 2-otg.
       *usb_detect_type: usb hotplug detect mode. 0-none, 1-vbus/id detect, 2-id/dpdm detect.
       *usb_detect_mode: 0-thread scan, 1-id gpio interrupt.
       *usb_id_gpio: gpio for id detect.
       *usb_det_vbus_gpio: gpio for id detect. gpio or "axp_ctrl";
       *usb_wakeup_suspend:0-SUPER_STANDBY, 1-USB_STANDBY.
       */
      &usbc0 {
      	device_type = "usbc0";
      	usb_port_type = <0x2>;
      	usb_detect_type = <0x1>;
      	usb_detect_mode = <0>;
      	usb_id_gpio = <&pio PB 6 GPIO_ACTIVE_HIGH>;
      	enable-active-high;
      	usb_det_vbus_gpio = <&pio PB 2 GPIO_ACTIVE_HIGH>;
      	usb_wakeup_suspend = <0>;
      	usb_serial_unique = <0>;
      	usb_serial_number = "20080411";
      	rndis_wceis = <1>;
      	status = "okay";
      };
      
      &ehci0 {
      	drvvbus-supply = <&reg_usb1_vbus>;
      };
      
      &ohci0 {
      	drvvbus-supply = <&reg_usb1_vbus>;
      };
      
      &usbc1 {
      	device_type = "usbc1";
          usb_port_type = <0x01>;
          sb_detect_type = <0x1>;	
      	usb_regulator_io = "nocare";
      	usb_wakeup_suspend = <0>;
      	status = "okay";
      };
      
      &ehci1 {
      	status = "okay";
      };
      
      &ohci1 {
      	status = "okay";
      };
      
      &twi0 {
      	clock-frequency = <400000>;
      	pinctrl-0 = <&twi0_pins_a>;
      	pinctrl-1 = <&twi0_pins_b>;
      	pinctrl-names = "default", "sleep";
      	status = "disabled";
      
      	eeprom@50 {
      		compatible = "atmel,24c16";
      		reg = <0x50>;
      		status = "disabled";
      	};
      };
      
      &twi1 {
      	clock-frequency = <400000>;
      	pinctrl-0 = <&twi1_pins_a>;
      	pinctrl-1 = <&twi1_pins_b>;
      	pinctrl-names = "default", "sleep";
      	status = "disabled";
      };
      
      &twi2 {
      	clock-frequency = <400000>;
      	pinctrl-0 = <&twi2_pins_a>;
      	pinctrl-1 = <&twi2_pins_b>;
      	pinctrl-names = "default", "sleep";
      	dmas = <&dma 45>, <&dma 45>;
      	dma-names = "tx", "rx";
      	status = "okay";
      
      	/* pcf8574-usage:
      	 * only use gpio0~7, 0 means PP0.
      	 * pin set:
      	 * gpios = <&pcf8574 0 GPIO_ACTIVE_LOW>;
      	 * interrupt set:
      	 * interrupt-parent = <&pcf8574>;
      	 * interrupts = <0 IRQ_TYPE_EDGE_FALLING>;
      	 */
      	pcf8574: gpio@38 {
      		compatible = "nxp,pcf8574";
      		reg = <0x38>;
      		gpio_base = <2020>;
      		gpio-controller;
      		#gpio-cells = <2>;
      		interrupt-controller;
      		#interrupt-cells = <2>;
      		interrupt-parent = <&pio>;
      		interrupts = <PB 2 IRQ_TYPE_EDGE_FALLING>;
      		status = "disabled";
      	};
      
      	ctp@14 {
                      compatible = "allwinner,goodix";
                      device_type = "ctp";
                      reg = <0x14>;
                      status = "okay";
                      ctp_name = "gt9xxnew_ts";
                      ctp_twi_id = <0x2>;
                      ctp_twi_addr = <0x14>;
                      ctp_screen_max_x = <0x320>;
                      ctp_screen_max_y = <0x1e0>;
                      ctp_revert_x_flag = <0x0>;
                      ctp_revert_y_flag = <0x0>;
                      ctp_exchange_x_y_flag = <0x0>;
                      ctp_int_port = <&pio PE 10 GPIO_ACTIVE_HIGH>;
                      ctp_wakeup = <&pio PE 11 GPIO_ACTIVE_HIGH>;
                      /*ctp-supply = <&reg_aldo2>;*/
                      /*ctp_power_ldo = <&reg_aldo2>;*/
                      /*ctp_power_ldo_vol = <3300>;*/
      	};
      };
      
      &twi3 {
      	clock-frequency = <400000>;
      	pinctrl-0 = <&twi3_pins_a>;
      	pinctrl-1 = <&twi3_pins_b>;
      	pinctrl-names = "default", "sleep";
      	status = "disabled";
      };
      
      &gmac0 {
      	phy-mode = "rgmii";
      	use_ephy25m = <0>;
      	pinctrl-0 = <&gmac_pins_a>;
      	pinctrl-1 = <&gmac_pins_b>;
      	pinctrl-names = "default", "sleep";
      	/*phy-rst = <&pio PE 16 GPIO_ACTIVE_HIGH>;*/
      	tx-delay = <3>; /*2~4*/
      	rx-delay = <0>;
      	status = "okay";
      };
      
      &spi0 {
      	clock-frequency = <100000000>;
      	// pinctrl-0 = <&spi0_pins_a &spi0_pins_b>;
      	// pinctrl-1 = <&spi0_pins_c>;
      	pinctrl-0 = <&spi0_pins_a &spi0_pins_b>;
      	pinctrl-1 = <&spi0_pins_c>;
      	pinctrl-names = "default", "sleep";
      	/*spi-supply = <&reg_dcdc1>;*/
      	spi_slave_mode = <0>;
      	spi0_cs_number = <1>;
          spi0_cs_bitmap = <1>;
      	status = "okay";
      
      	spi-nand@0 {
      		compatible = "spi-nand";
      		spi-max-frequency=<100000000>;
      		reg = <0x0>;
      		spi-rx-bus-width=<0x01>;
      		spi-tx-bus-width=<0x01>;
      		status="okay";
      	};
      
      	spi-nor@0 {
      		compatible = "jedec,spi-nor";
      		spi-max-frequency=<30000000>;
      		reg = <0x0>;
      		spi-rx-bus-width=<0x01>;
      		spi-tx-bus-width=<0x01>;
      		status="disabled";
      	};
      };
      
      &spi1 {
      	clock-frequency = <100000000>;
      	pinctrl-0 = <&spi1_pins_a &spi1_pins_b>;
      	pinctrl-1 = <&spi1_pins_c>;
      	pinctrl-names = "default", "sleep";
      	spi_slave_mode = <0>;
      	status = "disabled";
      
      	spi_board1@0 {
      		device_type = "spi_board1";
      		compatible = "rohm,dh2228fv";
      		spi-max-frequency = <0x5f5e100>;
      		reg = <0x0>;
      		spi-rx-bus-width = <0x4>;
      		spi-tx-bus-width = <0x4>;
      		status = "disabled";
      	};
      };
      
      &ledc {
      	pinctrl-names = "default", "sleep";
      	pinctrl-0 = <&ledc_pins_a>;
      	pinctrl-1 = <&ledc_pins_b>;
      	led_count = <12>;
      	output_mode = "GRB";
      	reset_ns = <84>;
      	t1h_ns = <800>;
      	t1l_ns = <320>;
      	t0h_ns = <300>;
      	t0l_ns = <800>;
      	wait_time0_ns = <84>;
      	wait_time1_ns = <84>;
      	wait_data_time_ns = <600000>;
      	status	= "disabled";
      };
      
      &keyboard0 {
      	key0 = <210 0x160>;
      	wakeup-source;
      	status = "disabled";
      };
      
      /*----------------------------------------------------------------------------------
      disp init configuration
      
      disp_mode             (0:screen0<screen0,fb0>)
      screenx_output_type   (0:none; 1:lcd; 2:tv; 3:hdmi;5:vdpo)
      screenx_output_mode   (used for hdmi output, 0:480i 1:576i 2:480p 3:576p 4:720p50)
                            (5:720p60 6:1080i50 7:1080i60 8:1080p24 9:1080p50 10:1080p60)
      screenx_output_format (for hdmi, 0:RGB 1:yuv444 2:yuv422 3:yuv420)
      screenx_output_bits   (for hdmi, 0:8bit 1:10bit 2:12bit 2:16bit)
      screenx_output_eotf   (for hdmi, 0:reserve 4:SDR 16:HDR10 18:HLG)
      screenx_output_cs     (for hdmi, 0:undefined  257:BT709 260:BT601  263:BT2020)
      screenx_output_dvi_hdmi (for hdmi, 0:undefined 1:dvi mode 2:hdmi mode)
      screen0_output_range   (for hdmi, 0:default 1:full 2:limited)
      screen0_output_scan    (for hdmi, 0:no data 1:overscan 2:underscan)
      screen0_output_aspect_ratio  (for hdmi, 8-same as original picture 9-4:3 10-16:9 11-14:9)
      fbx format            (4:RGB655 5:RGB565 6:RGB556 7:ARGB1555 8:RGBA5551 9:RGB888 10:ARGB8888 12:ARGB4444)
      fbx pixel sequence    (0:ARGB 1:BGRA 2:ABGR 3:RGBA)
      fb0_scaler_mode_enable(scaler mode enable, used FE)
      fbx_width,fbx_height  (framebuffer horizontal/vertical pixels, fix to output resolution while equal 0)
      lcdx_backlight        (lcd init backlight,the range:[0,256],default:197
      lcdx_yy               (lcd init screen bright/contrast/saturation/hue, value:0~100, default:50/50/57/50)
      lcd0_contrast         (LCD contrast, 0~100)
      lcd0_saturation       (LCD saturation, 0~100)
      lcd0_hue              (LCD hue, 0~100)
      framebuffer software rotation setting:
      disp_rotation_used:   (0:disable; 1:enable,you must set fbX_width to lcd_y,
      set fbX_height to lcd_x)
      degreeX:              (X:screen index; 0:0 degree; 1:90 degree; 3:270 degree)
      degreeX_Y:            (X:screen index; Y:layer index 0~15; 0:0 degree; 1:90 degree; 3:270 degree)
      devX_output_type : config output type in bootGUI framework in UBOOT-2018.
      				   (0:none; 1:lcd; 2:tv; 4:hdmi;)
      devX_output_mode : config output resolution(see include/video/sunxi_display2.h) of bootGUI framework in UBOOT-2018
      devX_screen_id   : config display index of bootGUI framework in UBOOT-2018
      devX_do_hpd      : whether do hpd detectation or not in UBOOT-2018
      chn_cfg_mode     : Hardware DE channel allocation config. 0:single display with 6
      				   channel, 1:dual display with 4 channel in main display and 2 channel in second
                         display, 2:dual display with 3 channel in main display and 3 channel in second
                         in display.
      ----------------------------------------------------------------------------------*/
      &disp {
      	disp_init_enable         = <1>;
      	disp_mode                = <0>;
      
      	screen0_output_type      = <1>;
      	screen0_output_mode      = <4>;
      
      	screen1_output_type      = <3>;
      	screen1_output_mode      = <4>;
      	
      	screen1_output_format    = <0>;
      	screen1_output_bits      = <0>;
      	screen1_output_eotf      = <4>;
      	screen1_output_cs        = <257>;
      	screen1_output_dvi_hdmi  = <2>;
      	screen1_output_range     = <2>;
      	screen1_output_scan      = <0>;
      	screen1_output_aspect_ratio = <8>;
      	dev0_output_type         = <1>;
      	dev0_output_mode         = <4>;
      	dev0_screen_id           = <0>;
      	dev0_do_hpd              = <0>;
      
      	dev1_output_type         = <4>;
      	dev1_output_mode         = <10>;
      	dev1_screen_id           = <1>;
      	dev1_do_hpd              = <1>;
      
      	def_output_dev           = <0>;
      	hdmi_mode_check          = <1>;
      	disp_rotation_used		 = <1>;
      	degree0					 = <0>;
      	fb0_format               = <0>;
      	fb0_buffer_num           = <1>;	
      	/*fb0_width                = <800>;*/
      	/*fb0_height               = <480>;*/  /*read from lcd*/
      	fb1_format               = <0>;
      	fb1_width                = <0>;
      	fb1_height               = <0>;
      	chn_cfg_mode             = <1>;
      
      	disp_para_zone           = <1>;
      	/*VCC-LCD*/
      /*	dc1sw-supply = <&reg_dc1sw>;*/
      	/*VCC-DSI*/
      /*	eldo3-supply = <&reg_eldo3>;*/
      	/*VCC-PD*/
      /*	dcdc1-supply = <&reg_dcdc1>;*/
      };
      
      /*----------------------------------------------------------------------------------
      ;lcd0 configuration
      
      ;lcd_if:               0:hv(sync+de); 1:8080; 2:ttl; 3:lvds; 4:dsi; 5:edp; 6:extend dsi
      ;lcd_hv_if             0:Parallel RGB; 8:Serial RGB; 10:Dummy RGB; 11: RGB Dummy;12:CCIR656
      ;lcd_hv_clk_phase      0:0 degree;1:90 degree;2:180 degree;3:270 degree
      ;lcd_hv_sync_polarity  0:vs low,hs low; 1:vs high,hslow; 2:vs low,hs high; 3:vs high,hs high
      ;lcd_hv_syuv_seq       0:YUYV; 1:YVYU; 2:UYVY; 3:VYUY
      ;lcd_cpu_if            0:18bit/1 cycle parallel(RGB666); 4:16bit/1cycle parallel (RGB565)
      ;                      6:18bit/3 cycle parallel(RGB666); 7:16bit/2cycle parallel (RGB565)
      ;lcd_cpu_te            0:frame auto trigger; 1:frame triggered by te rising edge; 2:frame triggered by te falling edge;
      ;lcd_dsi_if            0:video mode; 1: Command mode; 2:video burst mode
      ;lcd_dsi_te            0:frame auto trigger; 1:frame triggered by te rising edge; 2:frame triggered by te falling edge;
      ;lcd_x:                lcd horizontal resolution
      ;lcd_y:                lcd vertical resolution
      ;lcd_width:            width of lcd in mm
      ;lcd_height:           height of lcd in mm
      ;lcd_dclk_freq:        in MHZ unit
      ;lcd_pwm_freq:         in HZ unit
      ;lcd_pwm_pol:          lcd backlight PWM polarity
      ;lcd_pwm_max_limit     lcd backlight PWM max limit(<=255)
      ;lcd_hbp:              hsync back porch(pixel) + hsync plus width(pixel);
      ;lcd_ht:               hsync total cycle(pixel)
      ;lcd_vbp:              vsync back porch(line) + vysnc plus width(line)
      ;lcd_vt:               vysnc total cycle(line)
      ;lcd_hspw:             hsync plus width(pixel)
      ;lcd_vspw:             vysnc plus width(pixel)
      ;lcd_lvds_if:          0:single link;  1:dual link
      ;lcd_lvds_colordepth:  0:8bit; 1:6bit
      ;lcd_lvds_mode:        0:NS mode; 1:JEIDA mode
      ;lcd_frm:              0:disable; 1:enable rgb666 dither; 2:enable rgb656 dither
      ;lcd_io_phase:         0:noraml; 1:intert phase(0~3bit: vsync phase; 4~7bit:hsync phase;
      ;                      8~11bit:dclk phase; 12~15bit:de phase)
      ;lcd_gamma_en          lcd gamma correction enable
      ;lcd_bright_curve_en   lcd bright curve correction enable
      ;lcd_cmap_en           lcd color map function enable
      ;deu_mode              0:smoll lcd screen; 1:large lcd screen(larger than 10inch)
      ;lcdgamma4iep:         Smart Backlight parameter, lcd gamma vale * 10;
      ;                      decrease it while lcd is not bright enough; increase while lcd is too bright
      ;smart_color           90:normal lcd screen 65:retina lcd screen(9.7inch)
      ;Pin setting for special function ie.LVDS, RGB data or vsync
      ;   name(donot care) = port:PD12<pin function><pull up or pull down><drive ability><output level>
      ;Pin setting for gpio:
      ;   lcd_gpio_X     = port:PD12<pin function><pull up or pull down><drive ability><output level>
      ;Pin setting for backlight enable pin
      ;   lcd_bl_en     = port:PD12<pin function><pull up or pull down><drive ability><output level>
      ;fsync setting, pulse to csi
      ;lcd_fsync_en          (0:disable fsync,1:enable)
      ;lcd_fsync_act_time    (active time of fsync, unit:pixel)
      ;lcd_fsync_dis_time    (disactive time of fsync, unit:pixel)
      ;lcd_fsync_pol         (0:positive;1:negative)
      ;gpio config: <&pio for cpu or &r_pio for cpus, port, port num, pio function,
      pull up or pull down(default 0), driver level(default 1), data>
      ;For dual link lvds: use lvds2link_pins_a  and lvds2link_pins_b instead
      ;For rgb24: use rgb24_pins_a  and rgb24_pins_b instead
      ;For lvds1: use lvds1_pins_a  and lvds1_pins_b instead
      ;For lvds0: use lvds0_pins_a  and lvds0_pins_b instead
      ;----------------------------------------------------------------------------------*/
      /*
      &lcd0 {
      	lcd_used            = <0>;
      
      	lcd_driver_name     = "tft08006";
      	lcd_backlight       = <100>;
      	lcd_if              = <4>;
      
      	lcd_x               = <800>;
      	lcd_y               = <1280>;
      	lcd_width           = <52>;
      	lcd_height          = <52>;
      	lcd_dclk_freq       = <70>;
      
      	lcd_pwm_used        = <1>;
      	lcd_pwm_ch          = <2>;
      	lcd_pwm_freq        = <1000>;
      	lcd_pwm_pol         = <0>;
      	lcd_pwm_max_limit   = <255>;
      
      	lcd_hbp             = <32>;
      	lcd_ht              = <868>;
      	lcd_hspw            = <4>;
      	lcd_vbp             = <12>;
      	lcd_vt              = <1311>;
      	lcd_vspw            = <4>;
      
      	lcd_dsi_if          = <0>;
      	lcd_dsi_lane        = <4>;
      	lcd_lvds_if         = <0>;
      	lcd_lvds_colordepth = <0>;
      	lcd_lvds_mode       = <0>;
      	lcd_frm             = <0>;
      	lcd_hv_clk_phase    = <0>;
      	lcd_hv_sync_polarity= <0>;
      	lcd_io_phase        = <0x0000>;
      	lcd_gamma_en        = <0>;
      	lcd_bright_curve_en = <0>;
      	lcd_cmap_en         = <0>;
      	lcd_fsync_en        = <0>;
      	lcd_fsync_act_time  = <1000>;
      	lcd_fsync_dis_time  = <1000>;
      	lcd_fsync_pol       = <0>;
      
      	deu_mode            = <0>;
      	lcdgamma4iep        = <22>;
      	smart_color         = <90>;
      
      	lcd_gpio_0 =  <&pio PG 13 GPIO_ACTIVE_HIGH>;
      	pinctrl-0 = <&dsi4lane_pins_a>;
      	pinctrl-1 = <&dsi4lane_pins_b>;
      };
      */
      
      &lcd0 {
      	lcd_used            = <1>;
      
      	lcd_driver_name     = "default_lcd";
      	lcd_backlight       = <50>;
      	lcd_if              = <0>;
      
      	lcd_x               = <800>;
      	lcd_y               = <480>;
      	lcd_width           = <150>;
      	lcd_height          = <94>;
      	lcd_dclk_freq       = <48>;
      
      	lcd_pwm_used        = <1>;
      	lcd_pwm_ch          = <7>;
      	lcd_pwm_freq        = <500>;
      	lcd_pwm_pol         = <0>;
      
      	lcd_hbp             = <55>;
      	lcd_ht              = <1240>;
      	lcd_hspw            = <20>;
      	lcd_vbp             = <35>;
      	lcd_vt              = <650>;
      	lcd_vspw            = <10>;
      
      	lcd_lvds_if         = <0>;
      	lcd_lvds_colordepth = <1>;
      	lcd_lvds_mode       = <0>;
      	lcd_frm             = <0>;
      	lcd_io_phase        = <0x0000>;
      	lcd_gamma_en        = <0>;
      	lcd_bright_curve_en = <0>;
      	lcd_cmap_en         = <0>;
      
      	deu_mode            = <0>;
      	lcdgamma4iep        = <22>;
      	smart_color         = <90>;
      
      	pinctrl-0 = <&rgb18_pins_a>;
      	pinctrl-1 = <&rgb18_pins_b>;
      /*
      	lcd_driver_name     = "default_lcd";
      	lcd_backlight       = <150>;
      	lcd_if              = <3>;
      
      	lcd_x               = <1280>;
      	lcd_y               = <800>;
      	lcd_width           = <150>;
      	lcd_height          = <94>;
      	lcd_dclk_freq       = <71>;
      	lcd_rb_swap			= <0>;
      	
      	lcd_pwm_used        = <1>;
      	lcd_pwm_ch          = <7>;
      	lcd_pwm_freq        = <50000>;
      	lcd_pwm_pol         = <1>;
      	lcd_pwm_max_limit   = <255>;
      
      	lcd_hbp             = <20>;
      	lcd_ht              = <1418>;
      	lcd_hspw            = <10>;
      	lcd_vbp             = <10>;
      	lcd_vt              = <814>;
      	lcd_vspw            = <5>;
      
      	lcd_lvds_if         = <0>;
      	lcd_lvds_colordepth = <1>;
      	lcd_lvds_mode       = <0>;
      	lcd_frm             = <1>;
      	lcd_io_phase        = <0x0000>;
      	lcd_hv_clk_phase	= <0>;
      	lcd_hv_sync_polarity = <0>;
      	lcd_gamma_en        = <0>;
      	lcd_bright_curve_en = <0>;
      	lcd_cmap_en         = <0>;
      	lcd_fsync_act_time  = <1000>;
      	lcd_fsync_dis_time  = <1000>;
      	
      	deu_mode            = <0>;
      	lcdgamma4iep        = <22>;
      	smart_color         = <90>;
      
      	pinctrl-0 = <&lvds0_pins_a>;
      	pinctrl-1 = <&lvds0_pins_b>;
      	lcd_bl_en = <&pio PD 20 GPIO_ACTIVE_HIGH>;	
      
      	lcd_driver_name     = "he0801a068";
      	lcd_backlight       = <50>;
      	lcd_if              = <4>;
      
      	lcd_x               = <800>;
      	lcd_y               = <1280>;
      	lcd_width           = <52>;
      	lcd_height          = <52>;
      	lcd_dclk_freq       = <78>;
      
      	lcd_pwm_used        = <1>;
      	lcd_pwm_ch          = <7>;
      	lcd_pwm_freq        = <50000>;
      	lcd_pwm_pol         = <1>;
      	lcd_pwm_max_limit   = <255>;
      
      	lcd_hbp             = <149>;
      	lcd_ht              = <978>;
      	lcd_hspw            = <16>;
      	lcd_vbp             = <7>;
      	lcd_vt              = <1329>;
      	lcd_vspw            = <5>;
      
      	lcd_dsi_lane        = <4>;
      	lcd_lvds_if         = <0>;
      	lcd_lvds_colordepth = <1>;
      	lcd_lvds_mode       = <0>;
      	lcd_frm             = <0>;
      	lcd_io_phase        = <0x0000>;
      	lcd_gamma_en        = <0>;
      	lcd_bright_curve_en = <0>;
      	lcd_cmap_en         = <0>;
      	lcd_fsync_act_time  = <1000>;
      	lcd_fsync_dis_time  = <1000>;
      	
      	deu_mode            = <0>;
      	lcdgamma4iep        = <22>;
      	smart_color         = <90>;
      
      	pinctrl-0 = <&dsi4lane_pins_a>;
      	pinctrl-1 = <&dsi4lane_pins_b>;
      	lcd_gpio_0 = <&pio PD 20 GPIO_ACTIVE_HIGH>;	
      */
      };
      
      &hdmi {
      	hdmi_used = <0>;
      	hdmi_power_cnt = <0>;
      	hdmi_cts_compatibility = <1>;
      	hdmi_hdcp_enable = <1>;
      	hdmi_hdcp22_enable = <0>;
      	hdmi_cec_support = <1>;
      	hdmi_cec_super_standby = <0>;
      
      	ddc_en_io_ctrl = <0>;
      	power_io_ctrl = <0>;
      };
      
      &pwm0 {
      	pinctrl-names = "active", "sleep";
      	pinctrl-0 = <&pwm0_pin_a>;
      	pinctrl-1 = <&pwm0_pin_b>;
      	status = "okay";
      };
      
      &pwm2 {
      	pinctrl-names = "active", "sleep";
      	pinctrl-0 = <&pwm2_pin_a>;
      	pinctrl-1 = <&pwm2_pin_b>;
      	status = "okay";
      };
      
      
      &pwm7 {
      	pinctrl-names = "active", "sleep";
      	pinctrl-0 = <&pwm7_pin_a>;
      	pinctrl-1 = <&pwm7_pin_b>;
      	status = "okay";
      };
      
      &rtp {
      	allwinner,tp-sensitive-adjust = <0xf>;
      	allwinner,filter-type = <0x1>;
      	allwinner,ts-attached;
      	status = "disabled";
      };
      
      &tpadc {
      	key_cnt = <5>;
      	key1 = <420 115>;
      	key2 = <870 114>;
      	key3 = <1290 119>;
      	key4 = <1630 373>;
      	key5 = <1950 28>;
      	status = "disabled";
      };
      
      &gpadc {
      	channel_num = <1>;
      	channel_select = <0x01>;
      	channel_data_select = <0>;
      	channel_compare_select = <0x01>;
      	channel_cld_select = <0x01>;
      	channel_chd_select = <0>;
      	channel0_compare_lowdata = <1600000>;
      	channel0_compare_higdata = <1200000>;
      	channel1_compare_lowdata = <460000>;
      	channel1_compare_higdata = <1200000>;
      	key_cnt = <5>;
      	key0_vol = <210>;
      	key0_val = <0x19c>;
      	key1_vol = <410>;
      	key1_val = <0x197>;
      	key2_vol = <590>;
      	key2_val = <158>;
      	key3_vol = <750>;
      	key3_val = <28>;
      	key4_vol = <880>;
      	key4_val = <28>;
      	status = "okay";
      	wakeup-source;
      };
      
      &s_cir0 {
      	pinctrl-names = "default", "sleep";
      	pinctrl-0 = <&s_cir0_pins_a>;
      	pinctrl-1 = <&s_cir0_pins_b>;
      	ir_protocol_used		= <0>;
      	ir_addr_code0			= <0x0>;
      	status = "disabled";
      };
      
      &ir1 {
      	pinctrl-names = "default", "sleep";
      	pinctrl-0 = <&ir1_pins_a>;
      	pinctrl-1 = <&ir1_pins_b>;
      	status = "disabled";
      };
      
      /*
      &can0 {
      	pinctrl-names = "default", "sleep";
      	pinctrl-0 = <&can0_pins_a>;
      	pinctrl-1 = <&can0_pins_b>;
      	status = "disabled";
      };
      
      &can1 {
      	pinctrl-names = "default", "sleep";
      	pinctrl-0 = <&can1_pins_a>;
      	pinctrl-1 = <&can1_pins_b>;
      	status = "disabled";
      };
      */
      
      
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      • WhycanService
        WhycanService LV 8 last edited by

        如果使用sdc2作为wifi,需要更换sdc2驱动为v5x那个

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        • Z
          zcxhappy LV 5 @WhycanService last edited by

          @whycanservice v5x.JPG
          是不是在这里配置呢?

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          • WhycanService
            WhycanService LV 8 @zcxhappy last edited by

            @zcxhappy 是在dtsi里配置

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            • Z
              zcxhappy LV 5 @WhycanService last edited by whycan

              @whycanservice

              		sdc2: sdmmc@4022000 {
              			compatible = "allwinner,sunxi-mmc-v4p6x";
              			device_type = "sdc2";
              			reg = <0x0 0x04022000 0x0 0x1000>;
              			interrupts-extended = <&plic0 58 IRQ_TYPE_LEVEL_HIGH>;
              			clocks = <&dcxo24M>,
              				 <&ccu CLK_PLL_PERIPH0_2X>,
              				 <&ccu CLK_MMC2>,
              				 <&ccu CLK_BUS_MMC2>;
              			clock-names = "osc24m","pll_periph","mmc","ahb";
              			resets = <&ccu RST_BUS_MMC2>;
              			reset-names = "rst";
              			pinctrl-names = "default","sleep";
              			pinctrl-0 = <&sdc2_pins_a>;
              			pinctrl-1 = <&sdc2_pins_b>;
              			bus-width = <4>;
              			req-page-count = <2>;
              			cap-mmc-highspeed;
              			cap-cmd23;
              			mmc-cache-ctrl;
              			non-removable;
              			/*max-frequency = <200000000>;*/
              			max-frequency = <50000000>;
              			cap-erase;
              			mmc-high-capacity-erase-size;
              			no-sdio;
              			no-sd;
              			/*-- speed mode --*/
              			/*sm0: DS26_SDR12*/
              			/*sm1: HSSDR52_SDR25*/
              			/*sm2: HSDDR52_DDR50*/
              			/*sm3: HS200_SDR104*/
              			/*sm4: HS400*/
              			/*-- frequency point --*/
              			/*f0: CLK_400K*/
              			/*f1: CLK_25M*/
              			/*f2: CLK_50M*/
              			/*f3: CLK_100M*/
              			/*f4: CLK_150M*/
              			/*f5: CLK_200M*/
              
              			sdc_tm4_sm0_freq0 = <0>;
              			sdc_tm4_sm0_freq1 = <0>;
              			sdc_tm4_sm1_freq0 = <0x00000000>;
              			sdc_tm4_sm1_freq1 = <0>;
              			sdc_tm4_sm2_freq0 = <0x00000000>;
              			sdc_tm4_sm2_freq1 = <0>;
              			sdc_tm4_sm3_freq0 = <0x05000000>;
              			sdc_tm4_sm3_freq1 = <0x00000005>;
              			sdc_tm4_sm4_freq0 = <0x00050000>;
              			sdc_tm4_sm4_freq1 = <0x00000004>;
              			sdc_tm4_sm4_freq0_cmd = <0>;
              			sdc_tm4_sm4_freq1_cmd = <0>;
              
              			/*vmmc-supply = <&reg_3p3v>;*/
              			/*vqmc-supply = <&reg_3p3v>;*/
              			/*vdmc-supply = <&reg_3p3v>;*/
              			/*vmmc = "vcc-card";*/
              			/*vqmc = "";*/
              			/*vdmc = "";*/
              			/*sunxi-power-save-mode;*/
              		};
              

              这里吗 要怎么改 。。。

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              • WhycanService
                WhycanService LV 8 last edited by

                compatible = "allwinner,sunxi-mmc-v4p6x";

                我晚点发一个配置好的

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                • Z
                  zcxhappy LV 5 @WhycanService last edited by

                  @whycanservice 原理图.png
                  这是我的原理图

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                  • Z
                    zcxhappy LV 5 @zcxhappy last edited by

                    @zcxhappy
                    最终我通过以下步骤wifi终于跑起来了。。。
                    1)insmod xr829.ko

                    root@TinaLinux:/# insmod xr829.ko
                    ======== XRADIO WIFI OPEN ========
                    [XRADIO_ERR] debugfs isnot initialized
                    [XRADIO] Driver Label:XR_V02.16.85_P2P_HT40_01.31   
                    [XRADIO] Allocated hw_priv @ (____ptrval____)
                    sunxi-rfkill soc@3000000:rfkill@0: bus_index: 1
                    sunxi-rfkill soc@3000000:rfkill@0: wlan power on success
                    sunxi-mmc 4021000.sdmmc: sdc set ios:clk 0Hz bm PP pm UP vdd 21 width 1 timing LEGACY(SDR12) dt B
                    [XRADIO] Detect SDIO card 1
                    sunxi-mmc 4021000.sdmmc: no vqmmc,Check if there is regulator
                    sunxi-mmc 4021000.sdmmc: sdc set ios:clk 400000Hz bm PP pm ON vdd 21 width 1 timing LEGACY(SDR12) dt B
                    sunxi-mmc 4021000.sdmmc: sdc set ios:clk 400000Hz bm PP pm ON vdd 21 width 1 timing LEGACY(SDR12) dt B
                    sunxi-mmc 4021000.sdmmc: sdc set ios:clk 400000Hz bm PP pm ON vdd 21 width 1 timing LEGACY(SDR12) dt B
                    sunxi-mmc 4021000.sdmmc: sdc set ios:clk 400000Hz bm PP pm ON vdd 21 width 1 timing SD-HS(SDR25) dt B
                    sunxi-mmc 4021000.sdmmc: sdc set ios:clk 50000000Hz bm PP pm ON vdd 21 width 1 timing SD-HS(SDR25) dt B
                    sunxi-mmc 4021000.sdmmc: sdc set ios:clk 50000000Hz bm PP pm ON vdd 21 width 4 timing SD-HS(SDR25) dt B
                    mmc1: new high speed SDIO card at address 0001
                    [SBUS] XRadio Device:sdio clk=50000000
                    [XRADIO] XRADIO_HW_REV 1.0 detected.
                    [XRADIO] xradio_update_dpllctrl: DPLL_CTRL Sync=0x00c00000.
                    [XRADIO] Bootloader complete
                    [XRADIO] Firmware completed.
                    [WSM] Firmware Label:XR_C09.08.52.73_DBG_02.122 2GHZ HT40 May 18 2021 13:36:09
                    [XRADIO] Firmware Startup Done.
                    [XRADIO_WRN] enable Multi-Rx!
                    ieee80211 phy0: Selected rate control algorithm 'minstrel_ht'
                    

                    2)ifconfig wlan0 up
                    3)/etc/init.d/wpa_supplicant start
                    4)wifi_connect_ap_test xxx xxx

                    5) ping baidu.com

                    root@TinaLinux:~# ping baidu.com
                    PING baidu.com (39.156.66.10): 56 data bytes
                    64 bytes from 39.156.66.10: seq=0 ttl=52 time=46.361 ms
                    64 bytes from 39.156.66.10: seq=1 ttl=52 time=96.778 ms
                    64 bytes from 39.156.66.10: seq=2 ttl=52 time=52.996 ms
                    64 bytes from 39.156.66.10: seq=3 ttl=52 time=53.184 ms
                    64 bytes from 39.156.66.10: seq=4 ttl=52 time=55.643 ms
                    

                    中途以为硬件问题,重新打板了,做了些修改SDC2换成SDC1😖

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