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openwrt/target/linux/mediatek/dts/mt7981b-cudy-m3000-v1.dts

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mediatek: filogic: add support for Cudy M3000 v1 Hardware: SoC: MT7981b RAM: 256 MB Flash: 128 MB SPI NAND Ethernet: 1x 2.5Gbps (rtl8221b) 1x 1Gbps (integrated phy) WiFi: 2x2 MT7981 Buttons: Reset, WPS LED: 1x multicolor Solder on UART: - remove rubber ring on the bottom - remove screws - pull up the cylinder, maybe help by push on an ethernet socket with a screwdriver - remove the (3) screws holding the board in the frame - remove the board from the frame to get to the screws for the silver, flat heat shield - remove the (3) screws holding the heat shield - solder UART pins to the back of the board - make sure to have the pins point out on side with the black, finned heat spread - the markings for the pins are going to be below the silver heat shield - Vcc is not needed If you don't intend on using the UART outside of the installation process, you might not want to solder: - carefully scrape off the thin layer of epoxy on the holes (not the copper) - place your pin header with the UART attached in the holes - the pins, starting with the one closest to the socket: - Vcc (not required) - GND - RX - TX - either wedge the header or hold it with your fingers so that the pins stay in contact with the board Installation (UART): - attach an Ethernet cable to the 1Gbps port (black) on the router - hold the reset button while powering the router - press CTRL-C or wait for the timeout to get to the U-Boot prompt - prepare a TFTP server on the network to supply ..-initramfs-kernel.bin - use 'tftpboot' in the U-Boot shell to pull the image - boot the image using 'bootm' - push the ..-sysupgrade to the router using your preferred method - perform the upgrade with 'sysupgrade -n' There is a recovery mechanism that involves fetching a file called 'recovery.bin' but that is not understood yet. Signed-off-by: Leon M. Busch-George <leon@georgemail.eu>
2024-01-12 15:10:40 +00:00
// SPDX-License-Identifier: (GPL-2.0 OR MIT)
/dts-v1/;
#include "mt7981.dtsi"
/ {
model = "Cudy M3000 v1";
compatible = "cudy,m3000-v1", "mediatek,mt7981-spim-snand-rfb";
aliases {
label-mac-device = &gmac0;
led-boot = &led_status;
led-failsafe = &led_status;
led-running = &led_status;
led-upgrade = &led_status;
serial0 = &uart0;
};
chosen {
stdout-path = "serial0:115200n8";
};
gpio-keys {
compatible = "gpio-keys";
reset {
label = "reset";
gpios = <&pio 1 GPIO_ACTIVE_LOW>;
linux,code = <KEY_RESTART>;
};
wps {
label = "wps";
gpios = <&pio 0 GPIO_ACTIVE_LOW>;
linux,code = <KEY_WPS_BUTTON>;
};
};
leds {
compatible = "gpio-leds";
led_status: internet-white {
function = LED_FUNCTION_WAN_ONLINE;
color = <LED_COLOR_ID_WHITE>;
gpios = <&pio 10 GPIO_ACTIVE_LOW>;
};
internet-red {
function = LED_FUNCTION_WAN_ONLINE;
color = <LED_COLOR_ID_RED>;
gpios = <&pio 4 GPIO_ACTIVE_LOW>;
};
wan {
function = LED_FUNCTION_WAN;
color = <LED_COLOR_ID_GREEN>;
gpios = <&pio 5 GPIO_ACTIVE_LOW>;
};
lan {
function = LED_FUNCTION_LAN;
color = <LED_COLOR_ID_GREEN>;
gpios = <&pio 9 GPIO_ACTIVE_LOW>;
};
};
};
&uart0 {
status = "okay";
};
&watchdog {
status = "okay";
};
&eth {
pinctrl-names = "default";
pinctrl-0 = <&mdio_pins>;
status = "okay";
gmac0: mac@0 {
compatible = "mediatek,eth-mac";
reg = <0>;
phy-mode = "2500base-x";
phy-handle = <&rtl8221b_phy>;
mediatek: filogic: prevent faulty mac address assignment The vendor U-Boot on the Cudy M3000 and the Yuncore AX835 assign random mac addresses on boot and set the 'local-mac-address' property which prevents Openwrt from assigning the correct address from evmem. This patch removes the alias for ethernet0 so that U-Boot doesn't add the property, removes the workaround from 02_network, and adds back the nvmem definition for the M3000. Signed-off-by: Leon M. Busch-George <leon@georgemail.eu>
2024-05-17 18:10:25 +00:00
nvmem-cell-names = "mac-address";
nvmem-cells = <&macaddr_bdinfo_de00 1>;
mediatek: filogic: add support for Cudy M3000 v1 Hardware: SoC: MT7981b RAM: 256 MB Flash: 128 MB SPI NAND Ethernet: 1x 2.5Gbps (rtl8221b) 1x 1Gbps (integrated phy) WiFi: 2x2 MT7981 Buttons: Reset, WPS LED: 1x multicolor Solder on UART: - remove rubber ring on the bottom - remove screws - pull up the cylinder, maybe help by push on an ethernet socket with a screwdriver - remove the (3) screws holding the board in the frame - remove the board from the frame to get to the screws for the silver, flat heat shield - remove the (3) screws holding the heat shield - solder UART pins to the back of the board - make sure to have the pins point out on side with the black, finned heat spread - the markings for the pins are going to be below the silver heat shield - Vcc is not needed If you don't intend on using the UART outside of the installation process, you might not want to solder: - carefully scrape off the thin layer of epoxy on the holes (not the copper) - place your pin header with the UART attached in the holes - the pins, starting with the one closest to the socket: - Vcc (not required) - GND - RX - TX - either wedge the header or hold it with your fingers so that the pins stay in contact with the board Installation (UART): - attach an Ethernet cable to the 1Gbps port (black) on the router - hold the reset button while powering the router - press CTRL-C or wait for the timeout to get to the U-Boot prompt - prepare a TFTP server on the network to supply ..-initramfs-kernel.bin - use 'tftpboot' in the U-Boot shell to pull the image - boot the image using 'bootm' - push the ..-sysupgrade to the router using your preferred method - perform the upgrade with 'sysupgrade -n' There is a recovery mechanism that involves fetching a file called 'recovery.bin' but that is not understood yet. Signed-off-by: Leon M. Busch-George <leon@georgemail.eu>
2024-01-12 15:10:40 +00:00
};
gmac1: mac@1 {
compatible = "mediatek,eth-mac";
reg = <1>;
phy-mode = "gmii";
phy-handle = <&int_gbe_phy>;
nvmem-cell-names = "mac-address";
nvmem-cells = <&macaddr_bdinfo_de00 0>;
};
};
&mdio_bus {
rtl8221b_phy: ethernet-phy@1 {
compatible = "ethernet-phy-ieee802.3-c45";
reg = <1>;
reset-gpios = <&pio 39 GPIO_ACTIVE_LOW>;
interrupts = <38 IRQ_TYPE_LEVEL_LOW>;
reset-assert-us = <100000>;
reset-deassert-us = <100000>;
};
};
&spi0 {
pinctrl-names = "default";
pinctrl-0 = <&spi0_flash_pins>;
status = "okay";
spi_nand: spi_nand@0 {
compatible = "spi-nand";
#address-cells = <1>;
#size-cells = <1>;
reg = <0>;
spi-max-frequency = <52000000>;
spi-tx-buswidth = <4>;
spi-rx-buswidth = <4>;
partitions {
compatible = "fixed-partitions";
#address-cells = <1>;
#size-cells = <1>;
mediatek,nmbm;
mediatek,bmt-max-ratio = <1>;
mediatek,bmt-max-reserved-blocks = <64>;
partition@0 {
label = "BL2";
reg = <0x0000000 0x0100000>;
read-only;
};
partition@100000 {
label = "u-boot-env";
reg = <0x0100000 0x0080000>;
};
factory: partition@180000 {
label = "Factory";
reg = <0x0180000 0x0200000>;
read-only;
};
bdinfo: partition@380000 {
label = "bdinfo";
reg = <0x0380000 0x0040000>;
read-only;
nvmem-layout {
compatible = "fixed-layout";
#address-cells = <1>;
#size-cells = <1>;
macaddr_bdinfo_de00: macaddr@de00 {
#nvmem-cell-cells = <1>;
compatible = "mac-base";
reg = <0xde00 0x6>;
};
};
};
partition@3c0000 {
label = "FIP";
reg = <0x03c0000 0x0200000>;
};
partition@5c0000 {
label = "ubi";
reg = <0x05c0000 0x4000000>;
};
};
};
};
&pio {
spi0_flash_pins: spi0-pins {
mux {
function = "spi";
groups = "spi0", "spi0_wp_hold";
};
conf-pu {
pins = "SPI0_CS", "SPI0_HOLD", "SPI0_WP";
drive-strength = <MTK_DRIVE_8mA>;
bias-pull-up = <MTK_PUPD_SET_R1R0_11>;
};
conf-pd {
pins = "SPI0_CLK", "SPI0_MOSI", "SPI0_MISO";
drive-strength = <MTK_DRIVE_8mA>;
bias-pull-down = <MTK_PUPD_SET_R1R0_11>;
};
};
};
&wifi {
status = "okay";
mediatek,mtd-eeprom = <&factory 0x0>;
};
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