u-boot/arch/arm/dts/zynqmp-sm-k26-revA.dts

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// SPDX-License-Identifier: GPL-2.0
/*
* dts file for Xilinx ZynqMP SM-K26 rev1/B/A
*
* (C) Copyright 2020 - 2021, Xilinx, Inc.
*
* Michal Simek <michal.simek@xilinx.com>
*/
/dts-v1/;
#include "zynqmp.dtsi"
#include "zynqmp-clk-ccf.dtsi"
#include <dt-bindings/input/input.h>
#include <dt-bindings/gpio/gpio.h>
#include <dt-bindings/phy/phy.h>
#include <dt-bindings/pinctrl/pinctrl-zynqmp.h>
/ {
model = "ZynqMP SM-K26 Rev1/B/A";
compatible = "xlnx,zynqmp-sm-k26-rev1", "xlnx,zynqmp-sm-k26-revB",
"xlnx,zynqmp-sm-k26-revA", "xlnx,zynqmp-sm-k26",
"xlnx,zynqmp";
aliases {
i2c0 = &i2c0;
i2c1 = &i2c1;
mmc0 = &sdhci0;
mmc1 = &sdhci1;
nvmem0 = &eeprom;
nvmem1 = &eeprom_cc;
rtc0 = &rtc;
serial0 = &uart0;
serial1 = &uart1;
serial2 = &dcc;
spi0 = &qspi;
spi1 = &spi0;
spi2 = &spi1;
usb0 = &usb0;
usb1 = &usb1;
};
chosen {
bootargs = "earlycon";
stdout-path = "serial1:115200n8";
};
memory@0 {
device_type = "memory"; /* 4GB */
reg = <0x0 0x0 0x0 0x80000000>, <0x8 0x00000000 0x0 0x80000000>;
};
gpio-keys {
compatible = "gpio-keys";
autorepeat;
fwuen {
label = "fwuen";
gpios = <&gpio 12 GPIO_ACTIVE_LOW>;
linux,code = <BTN_MISC>;
wakeup-source;
autorepeat;
};
};
leds {
compatible = "gpio-leds";
ds35-led {
label = "heartbeat";
gpios = <&gpio 7 GPIO_ACTIVE_HIGH>;
linux,default-trigger = "heartbeat";
};
ds36-led {
label = "vbus_det";
gpios = <&gpio 8 GPIO_ACTIVE_HIGH>;
default-state = "on";
};
};
ams {
compatible = "iio-hwmon";
io-channels = <&xilinx_ams 0>, <&xilinx_ams 1>, <&xilinx_ams 2>,
<&xilinx_ams 3>, <&xilinx_ams 4>, <&xilinx_ams 5>,
<&xilinx_ams 6>, <&xilinx_ams 7>, <&xilinx_ams 8>,
<&xilinx_ams 9>, <&xilinx_ams 10>, <&xilinx_ams 11>,
<&xilinx_ams 12>, <&xilinx_ams 13>, <&xilinx_ams 14>,
<&xilinx_ams 15>, <&xilinx_ams 16>, <&xilinx_ams 17>,
<&xilinx_ams 18>, <&xilinx_ams 19>, <&xilinx_ams 20>,
<&xilinx_ams 21>, <&xilinx_ams 22>, <&xilinx_ams 23>,
<&xilinx_ams 24>, <&xilinx_ams 25>, <&xilinx_ams 26>,
<&xilinx_ams 27>, <&xilinx_ams 28>, <&xilinx_ams 29>;
};
pwm-fan {
compatible = "pwm-fan";
status = "okay";
pwms = <&ttc0 2 40000 0>;
};
};
&modepin_gpio {
label = "modepin";
};
&ttc0 {
status = "okay";
#pwm-cells = <3>;
};
&uart1 { /* MIO36/MIO37 */
status = "okay";
};
&pinctrl0 {
status = "okay";
pinctrl_sdhci0_default: sdhci0-default {
conf {
groups = "sdio0_0_grp";
slew-rate = <SLEW_RATE_SLOW>;
power-source = <IO_STANDARD_LVCMOS18>;
bias-disable;
};
mux {
groups = "sdio0_0_grp";
function = "sdio0";
};
};
};
&qspi { /* MIO 0-5 - U143 */
status = "okay";
flash@0 { /* MT25QU512A */
compatible = "mt25qu512a", "jedec,spi-nor"; /* 64MB */
#address-cells = <1>;
#size-cells = <1>;
reg = <0>;
spi-tx-bus-width = <4>;
spi-rx-bus-width = <4>;
spi-max-frequency = <40000000>; /* 40MHz */
partition@0 {
label = "Image Selector";
reg = <0x0 0x80000>; /* 512KB */
read-only;
lock;
};
partition@80000 {
label = "Image Selector Golden";
reg = <0x80000 0x80000>; /* 512KB */
read-only;
lock;
};
partition@100000 {
label = "Persistent Register";
reg = <0x100000 0x20000>; /* 128KB */
};
partition@120000 {
label = "Persistent Register Backup";
reg = <0x120000 0x20000>; /* 128KB */
};
partition@140000 {
label = "Open_1";
reg = <0x140000 0xC0000>; /* 768KB */
};
partition@200000 {
label = "Image A (FSBL, PMU, ATF, U-Boot)";
reg = <0x200000 0xD00000>; /* 13MB */
};
partition@f00000 {
label = "ImgSel Image A Catch";
reg = <0xF00000 0x80000>; /* 512KB */
read-only;
lock;
};
partition@f80000 {
label = "Image B (FSBL, PMU, ATF, U-Boot)";
reg = <0xF80000 0xD00000>; /* 13MB */
};
partition@1c80000 {
label = "ImgSel Image B Catch";
reg = <0x1C80000 0x80000>; /* 512KB */
read-only;
lock;
};
partition@1d00000 {
label = "Open_2";
reg = <0x1D00000 0x100000>; /* 1MB */
};
partition@1e00000 {
label = "Recovery Image";
reg = <0x1E00000 0x200000>; /* 2MB */
read-only;
lock;
};
partition@2000000 {
label = "Recovery Image Backup";
reg = <0x2000000 0x200000>; /* 2MB */
read-only;
lock;
};
partition@2200000 {
label = "U-Boot storage variables";
reg = <0x2200000 0x20000>; /* 128KB */
};
partition@2220000 {
label = "U-Boot storage variables backup";
reg = <0x2220000 0x20000>; /* 128KB */
};
partition@2240000 {
label = "SHA256";
reg = <0x2240000 0x10000>; /* 256B but 64KB sector */
read-only;
lock;
};
partition@2250000 {
label = "User";
reg = <0x2250000 0x1db0000>; /* 29.5 MB */
};
};
};
&sdhci0 { /* MIO13-23 - 16GB emmc MTFC16GAPALBH-IT - U133A */
status = "okay";
pinctrl-names = "default";
pinctrl-0 = <&pinctrl_sdhci0_default>;
non-removable;
disable-wp;
bus-width = <8>;
xlnx,mio-bank = <0>;
assigned-clock-rates = <187498123>;
};
&spi1 { /* MIO6, 9-11 */
status = "okay";
label = "TPM";
num-cs = <1>;
tpm@0 { /* slm9670 - U144 */
compatible = "infineon,slb9670", "tcg,tpm_tis-spi";
reg = <0>;
spi-max-frequency = <18500000>;
};
};
&i2c1 {
status = "okay";
xilinx: common: Enabling generic function for DT reselection U-Boot support board detection at run time and based on it change DT. This feature is implemented for SOM Kria platforms which contain two eeproms which contain information about SOM module and CC (Carrier card). Full U-Boot starts with minimal DT file defined by CONFIG_DEFAULT_DEVICE_TREE which is available in multi DTB fit image. It is using default setup of board_name variable initializaed to DEVICE_TREE which corresponds to CONFIG_DEFAULT_DEVICE_TREE option. When DTB_RESELECT is enabled board_detection() is called. Keep it your mind that this code is called before relocation. board_detection() is calling xilinx_read_eeprom() which fills board_info (xilinx_board_description) structure which are parsed in board_name_decode(). Based on DT configuration and amount of nvmemX aliases name of the board is composed by concatenating CONFIG_SYS_BOARD "-" <board_name> "-rev" <board_revision> "-" <cc_name> "-rev" <cc_revision>. If CC is not present or more are available it keeps going. When board name is composed and returned from board_name_decode() it is assigned to board_name variable which is used by board_fit_config_name_match() which is called via fdtdec_setup() when it goes over config options in multi dtb FIT image. From practical point of view multi DTB image is key point here which has to contain configs for detected combinations. Unfortunately as of now they have to be full DTBs and DTBOs are not supported. That's why configuration like: config_X { description = "zynqmp-board-cc"; fdt = "board", "cc"; }; needs to be squashed together with: fdtoverlay -o zynqmp-board-cc -i arch/arm/dts/zynqmp-board.dtb \ arch/arm/dts/zynqmp-cc.dtbo and only one dtb is in fit: config_X { description = "zynqmp-board-cc"; fdt = "board-cc"; }; For creating multi DTBs fit image use mkimage -E, e.g.: mkimage -E -f all.its all.dtb When DTB_RESELECT is enabled xilinx_read_eeprom() is called before relocation and it uses calloc for getting a buffer. Because this is dynamic memory it is not relocated that's why xilinx_read_eeprom() is called again as the part of board_init(). This second read with calloc buffer placed in proper position board_late_init_xilinx() can setup u-boot variables as before. Signed-off-by: Michal Simek <michal.simek@xilinx.com>
2021-08-11 12:23:54 +00:00
u-boot,dm-pre-reloc;
clock-frequency = <400000>;
scl-gpios = <&gpio 24 GPIO_ACTIVE_HIGH>;
sda-gpios = <&gpio 25 GPIO_ACTIVE_HIGH>;
eeprom: eeprom@50 { /* u46 - also at address 0x58 */
xilinx: common: Enabling generic function for DT reselection U-Boot support board detection at run time and based on it change DT. This feature is implemented for SOM Kria platforms which contain two eeproms which contain information about SOM module and CC (Carrier card). Full U-Boot starts with minimal DT file defined by CONFIG_DEFAULT_DEVICE_TREE which is available in multi DTB fit image. It is using default setup of board_name variable initializaed to DEVICE_TREE which corresponds to CONFIG_DEFAULT_DEVICE_TREE option. When DTB_RESELECT is enabled board_detection() is called. Keep it your mind that this code is called before relocation. board_detection() is calling xilinx_read_eeprom() which fills board_info (xilinx_board_description) structure which are parsed in board_name_decode(). Based on DT configuration and amount of nvmemX aliases name of the board is composed by concatenating CONFIG_SYS_BOARD "-" <board_name> "-rev" <board_revision> "-" <cc_name> "-rev" <cc_revision>. If CC is not present or more are available it keeps going. When board name is composed and returned from board_name_decode() it is assigned to board_name variable which is used by board_fit_config_name_match() which is called via fdtdec_setup() when it goes over config options in multi dtb FIT image. From practical point of view multi DTB image is key point here which has to contain configs for detected combinations. Unfortunately as of now they have to be full DTBs and DTBOs are not supported. That's why configuration like: config_X { description = "zynqmp-board-cc"; fdt = "board", "cc"; }; needs to be squashed together with: fdtoverlay -o zynqmp-board-cc -i arch/arm/dts/zynqmp-board.dtb \ arch/arm/dts/zynqmp-cc.dtbo and only one dtb is in fit: config_X { description = "zynqmp-board-cc"; fdt = "board-cc"; }; For creating multi DTBs fit image use mkimage -E, e.g.: mkimage -E -f all.its all.dtb When DTB_RESELECT is enabled xilinx_read_eeprom() is called before relocation and it uses calloc for getting a buffer. Because this is dynamic memory it is not relocated that's why xilinx_read_eeprom() is called again as the part of board_init(). This second read with calloc buffer placed in proper position board_late_init_xilinx() can setup u-boot variables as before. Signed-off-by: Michal Simek <michal.simek@xilinx.com>
2021-08-11 12:23:54 +00:00
u-boot,dm-pre-reloc;
compatible = "st,24c64", "atmel,24c64"; /* st m24c64 */
reg = <0x50>;
/* WP pin EE_WP_EN connected to slg7x644092@68 */
};
eeprom_cc: eeprom@51 { /* required by spec - also at address 0x59 */
xilinx: common: Enabling generic function for DT reselection U-Boot support board detection at run time and based on it change DT. This feature is implemented for SOM Kria platforms which contain two eeproms which contain information about SOM module and CC (Carrier card). Full U-Boot starts with minimal DT file defined by CONFIG_DEFAULT_DEVICE_TREE which is available in multi DTB fit image. It is using default setup of board_name variable initializaed to DEVICE_TREE which corresponds to CONFIG_DEFAULT_DEVICE_TREE option. When DTB_RESELECT is enabled board_detection() is called. Keep it your mind that this code is called before relocation. board_detection() is calling xilinx_read_eeprom() which fills board_info (xilinx_board_description) structure which are parsed in board_name_decode(). Based on DT configuration and amount of nvmemX aliases name of the board is composed by concatenating CONFIG_SYS_BOARD "-" <board_name> "-rev" <board_revision> "-" <cc_name> "-rev" <cc_revision>. If CC is not present or more are available it keeps going. When board name is composed and returned from board_name_decode() it is assigned to board_name variable which is used by board_fit_config_name_match() which is called via fdtdec_setup() when it goes over config options in multi dtb FIT image. From practical point of view multi DTB image is key point here which has to contain configs for detected combinations. Unfortunately as of now they have to be full DTBs and DTBOs are not supported. That's why configuration like: config_X { description = "zynqmp-board-cc"; fdt = "board", "cc"; }; needs to be squashed together with: fdtoverlay -o zynqmp-board-cc -i arch/arm/dts/zynqmp-board.dtb \ arch/arm/dts/zynqmp-cc.dtbo and only one dtb is in fit: config_X { description = "zynqmp-board-cc"; fdt = "board-cc"; }; For creating multi DTBs fit image use mkimage -E, e.g.: mkimage -E -f all.its all.dtb When DTB_RESELECT is enabled xilinx_read_eeprom() is called before relocation and it uses calloc for getting a buffer. Because this is dynamic memory it is not relocated that's why xilinx_read_eeprom() is called again as the part of board_init(). This second read with calloc buffer placed in proper position board_late_init_xilinx() can setup u-boot variables as before. Signed-off-by: Michal Simek <michal.simek@xilinx.com>
2021-08-11 12:23:54 +00:00
u-boot,dm-pre-reloc;
compatible = "st,24c64", "atmel,24c64"; /* st m24c64 */
reg = <0x51>;
};
/* da9062@30 - u170 - also at address 0x31 */
/* da9131@33 - u167 */
da9131: pmic@33 {
compatible = "dlg,da9131";
reg = <0x33>;
regulators {
da9131_buck1: buck1 {
regulator-name = "da9131_buck1";
regulator-boot-on;
regulator-always-on;
};
da9131_buck2: buck2 {
regulator-name = "da9131_buck2";
regulator-boot-on;
regulator-always-on;
};
};
};
/* da9130@32 - u166 */
da9130: pmic@32 {
compatible = "dlg,da9130";
reg = <0x32>;
regulators {
da9130_buck1: buck1 {
regulator-name = "da9130_buck1";
regulator-boot-on;
regulator-always-on;
};
};
};
/* slg7x644091@70 - u168 NOT accessible due to address conflict with stdp4320 */
/*
* stdp4320 - u27 FW has below two issues to be fixed in next board revision.
* Device acknowledging to addresses 0x5C, 0x5D, 0x70, 0x72, 0x76.
* Address conflict with slg7x644091@70 making both the devices NOT accessible.
* With the FW fix, stdp4320 should respond to address 0x73 only.
*/
/* slg7x644092@68 - u169 */
/* Also connected via JA1C as C23/C24 */
};
&gpio {
status = "okay";
gpio-line-names = "QSPI_CLK", "QSPI_DQ1", "QSPI_DQ2", "QSPI_DQ3", "QSPI_DQ0", /* 0 - 4 */
"QSPI_CS_B", "SPI_CLK", "LED1", "LED2", "SPI_CS_B", /* 5 - 9 */
"SPI_MISO", "SPI_MOSI", "FWUEN", "EMMC_DAT0", "EMMC_DAT1", /* 10 - 14 */
"EMMC_DAT2", "EMMC_DAT3", "EMMC_DAT4", "EMMC_DAT5", "EMMC_DAT6", /* 15 - 19 */
"EMMC_DAT7", "EMMC_CMD", "EMMC_CLK", "EMMC_RST", "I2C1_SCL", /* 20 - 24 */
"I2C1_SDA", "", "", "", "", /* 25 - 29 */
"", "", "", "", "", /* 30 - 34 */
"", "", "", "", "", /* 35 - 39 */
"", "", "", "", "", /* 40 - 44 */
"", "", "", "", "", /* 45 - 49 */
"", "", "", "", "", /* 50 - 54 */
"", "", "", "", "", /* 55 - 59 */
"", "", "", "", "", /* 60 - 64 */
"", "", "", "", "", /* 65 - 69 */
"", "", "", "", "", /* 70 - 74 */
"", "", "", /* 75 - 77, MIO end and EMIO start */
"", "", /* 78 - 79 */
"", "", "", "", "", /* 80 - 84 */
"", "", "", "", "", /* 85 - 89 */
"", "", "", "", "", /* 90 - 94 */
"", "", "", "", "", /* 95 - 99 */
"", "", "", "", "", /* 100 - 104 */
"", "", "", "", "", /* 105 - 109 */
"", "", "", "", "", /* 110 - 114 */
"", "", "", "", "", /* 115 - 119 */
"", "", "", "", "", /* 120 - 124 */
"", "", "", "", "", /* 125 - 129 */
"", "", "", "", "", /* 130 - 134 */
"", "", "", "", "", /* 135 - 139 */
"", "", "", "", "", /* 140 - 144 */
"", "", "", "", "", /* 145 - 149 */
"", "", "", "", "", /* 150 - 154 */
"", "", "", "", "", /* 155 - 159 */
"", "", "", "", "", /* 160 - 164 */
"", "", "", "", "", /* 165 - 169 */
"", "", "", ""; /* 170 - 174 */
};
&xilinx_ams {
status = "okay";
};
&ams_ps {
status = "okay";
};
&ams_pl {
status = "okay";
};
&zynqmp_dpsub {
status = "okay";
};
&rtc {
status = "okay";
};
&lpd_dma_chan1 {
status = "okay";
};
&lpd_dma_chan2 {
status = "okay";
};
&lpd_dma_chan3 {
status = "okay";
};
&lpd_dma_chan4 {
status = "okay";
};
&lpd_dma_chan5 {
status = "okay";
};
&lpd_dma_chan6 {
status = "okay";
};
&lpd_dma_chan7 {
status = "okay";
};
&lpd_dma_chan8 {
status = "okay";
};
&fpd_dma_chan1 {
status = "okay";
};
&fpd_dma_chan2 {
status = "okay";
};
&fpd_dma_chan3 {
status = "okay";
};
&fpd_dma_chan4 {
status = "okay";
};
&fpd_dma_chan5 {
status = "okay";
};
&fpd_dma_chan6 {
status = "okay";
};
&fpd_dma_chan7 {
status = "okay";
};
&fpd_dma_chan8 {
status = "okay";
};
&gpu {
status = "okay";
};
&lpd_watchdog {
status = "okay";
};
&watchdog0 {
status = "okay";
};
&cpu_opp_table {
opp00 {
opp-hz = /bits/ 64 <1333333333>;
};
opp01 {
opp-hz = /bits/ 64 <666666666>;
};
opp02 {
opp-hz = /bits/ 64 <444444444>;
};
opp03 {
opp-hz = /bits/ 64 <333333333>;
};
};