楼主 #1 2021-03-25 16:09:07 分享评论
- 无根浮萍
- 会员
- 注册时间: 2021-01-14
- 已发帖子: 62
- 积分: 31
全志官方tina linux sdk sys_config.fex 的 uart_debug_port 参数是如何影响uboot和linux
请问全志官方tina linux sdk sys_config.fex 的 uart_debug_port 参数是如何影响uboot和linux
离线
楼主 #2 2021-03-25 16:13:58 分享评论
- 无根浮萍
- 会员
- 注册时间: 2021-01-14
- 已发帖子: 62
- 积分: 31
Re: 全志官方tina linux sdk sys_config.fex 的 uart_debug_port 参数是如何影响uboot和linux
./lichee/brandy/u-boot-2011.09/board/sunxi/board_common.c: if(script_parser_patch("uart_para","uart_debug_port",(int *)(&uart_port_id),sizeof(int)/4))
./lichee/brandy/u-boot-2011.09/board/sunxi/board_common.c: printf("debug_mode_error : can't find uart_debug_port \n");
./lichee/brandy/u-boot-2014.07/board/sunxi/common/debug_mode.c: if(script_parser_patch("uart_para","uart_debug_port",(int *)(&uart_port_id),sizeof(int)/4))
./lichee/brandy/u-boot-2014.07/board/sunxi/common/debug_mode.c: printf("debug_mode_error : can't find uart_debug_port \n");
./lichee/brandy/pack_tools/update_boot0/update_boot0.c: if(!script_parser_fetch("uart_para", "uart_debug_port", value))
./lichee/brandy/pack_tools/update_fes1/update_fes1.c: if(!script_parser_fetch("uart_para", "uart_debug_port", value))
./lichee/brandy/pack_tools/update_uboot/update_uboot.c: if (!script_parser_fetch("uart_para", "uart_debug_port", value))
./lichee/brandy/pack_tools/update_toc0/main/main.c: if(!script_parser_fetch("uart_para", "uart_debug_port", value))离线
楼主 #3 2021-03-25 16:20:00 分享评论
- 无根浮萍
- 会员
- 注册时间: 2021-01-14
- 已发帖子: 62
- 积分: 31
Re: 全志官方tina linux sdk sys_config.fex 的 uart_debug_port 参数是如何影响uboot和linux
./out/violin-F1C200s/image/.sunxi.dts
/dts-v1/;
/memreserve/ 0x0000000081000000 0x0000000000010000;
/ {
model = "sun3iw1p1";
compatible = "arm,sun3iw1p1", "arm,sun3iw1p1";
interrupt-parent = <0x1>;
#address-cells = <0x2>;
#size-cells = <0x2>;
clocks {
compatible = "allwinner,sunxi-clk-init";
device_type = "clocks";
#address-cells = <0x2>;
#size-cells = <0x2>;
ranges;
reg = <0x0 0x1c20000 0x0 0x2d0>;
losc {
#clock-cells = <0x0>;
compatible = "allwinner,fixed-clock";
clock-frequency = <0x8000>;
clock-output-names = "losc";
};
hosc {
#clock-cells = <0x0>;
compatible = "allwinner,fixed-clock";
clock-frequency = <0x16e3600>;
clock-output-names = "hosc";
linux,phandle = <0x8>;
phandle = <0x8>;
};
pll_cpu {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-pll-clock";
lock-mode = "none";
assigned-clock-rates = <0x20e6da00>;
clock-output-names = "pll_cpu";
};
pll_audio {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-pll-clock";
lock-mode = "none";
clock-output-names = "pll_audio";
linux,phandle = <0x2>;
phandle = <0x2>;
};
pll_video {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-pll-clock";
lock-mode = "none";
assigned-clock-rates = <0x11b3dc40>;
clock-output-names = "pll_video";
linux,phandle = <0x3>;
phandle = <0x3>;
};
pll_ve {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-pll-clock";
lock-mode = "none";
clock-output-names = "pll_ve";
linux,phandle = <0xa>;
phandle = <0xa>;
};
pll_ddr {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-pll-clock";
lock-mode = "none";
assigned-clock-rates = <0x1298be00>;
clock-output-names = "pll_ddr";
};
pll_periph {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-pll-clock";
lock-mode = "none";
clock-output-names = "pll_periph";
linux,phandle = <0x4>;
phandle = <0x4>;
};
pll_audiox8 {
#clock-cells = <0x0>;
compatible = "allwinner,fixed-factor-clock";
clocks = <0x2>;
clock-mult = <0x8>;
clock-div = <0x1>;
clock-output-names = "pll_audiox8";
};
pll_audiox4 {
#clock-cells = <0x0>;
compatible = "allwinner,fixed-factor-clock";
clocks = <0x2>;
clock-mult = <0x8>;
clock-div = <0x2>;
clock-output-names = "pll_audiox4";
};
pll_audiox2 {
#clock-cells = <0x0>;
compatible = "allwinner,fixed-factor-clock";
clocks = <0x2>;
clock-mult = <0x8>;
clock-div = <0x4>;
clock-output-names = "pll_audiox2";
};
pll_videox2 {
#clock-cells = <0x0>;
compatible = "allwinner,fixed-factor-clock";
clocks = <0x3>;
clock-mult = <0x2>;
clock-div = <0x1>;
clock-output-names = "pll_videox2";
};
pll_periphx2 {
#clock-cells = <0x0>;
compatible = "allwinner,fixed-factor-clock";
clocks = <0x4>;
clock-mult = <0x2>;
clock-div = <0x1>;
clock-output-names = "pll_periphx2";
};
cpu {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "cpu";
};
pll_periphahb {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "pll_periphahb";
};
ahb1 {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "ahb1";
linux,phandle = <0x1e>;
phandle = <0x1e>;
};
apb1 {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "apb1";
};
sdmmc0_mod {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "sdmmc0_mod";
linux,phandle = <0x2a>;
phandle = <0x2a>;
};
sdmmc0_bus {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "sdmmc0_bus";
linux,phandle = <0x2b>;
phandle = <0x2b>;
};
sdmmc0_rst {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "sdmmc0_rst";
linux,phandle = <0x2c>;
phandle = <0x2c>;
};
sdmmc1_mod {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "sdmmc1_mod";
linux,phandle = <0x2f>;
phandle = <0x2f>;
};
sdmmc1_bus {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "sdmmc1_bus";
linux,phandle = <0x30>;
phandle = <0x30>;
};
sdmmc1_rst {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "sdmmc1_rst";
linux,phandle = <0x31>;
phandle = <0x31>;
};
spi0 {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "spi0";
linux,phandle = <0x1f>;
phandle = <0x1f>;
};
spi1 {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "spi1";
linux,phandle = <0x26>;
phandle = <0x26>;
};
usbphy0 {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "usbphy0";
linux,phandle = <0x3f>;
phandle = <0x3f>;
};
usbotg {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "usbotg";
linux,phandle = <0x40>;
phandle = <0x40>;
};
audio {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "audio";
linux,phandle = <0x41>;
phandle = <0x41>;
};
avs {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "avs";
};
codec {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "codec";
linux,phandle = <0x47>;
phandle = <0x47>;
};
spdif {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "spdif";
linux,phandle = <0x44>;
phandle = <0x44>;
};
debe {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "debe";
linux,phandle = <0x34>;
phandle = <0x34>;
};
defe {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "defe";
linux,phandle = <0x35>;
phandle = <0x35>;
};
tcon {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "tcon";
linux,phandle = <0x36>;
phandle = <0x36>;
};
deinterlace {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "deinterlace";
linux,phandle = <0x38>;
phandle = <0x38>;
};
tve_clk2 {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "tve_clk2";
linux,phandle = <0x37>;
phandle = <0x37>;
};
tve_clk1 {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "tve_clk1";
};
tvd {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "tvd";
linux,phandle = <0x39>;
phandle = <0x39>;
};
csi_m {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "csi_m";
linux,phandle = <0x3c>;
phandle = <0x3c>;
};
ve {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "ve";
linux,phandle = <0xb>;
phandle = <0xb>;
};
sdram {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "sdram";
};
dma {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "dma";
linux,phandle = <0x6>;
phandle = <0x6>;
};
pio {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "pio";
linux,phandle = <0x5>;
phandle = <0x5>;
};
uart0 {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "uart0";
linux,phandle = <0xc>;
phandle = <0xc>;
};
uart1 {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "uart1";
linux,phandle = <0xf>;
phandle = <0xf>;
};
uart2 {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "uart2";
linux,phandle = <0x12>;
phandle = <0x12>;
};
twi0 {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "twi0";
linux,phandle = <0x15>;
phandle = <0x15>;
};
twi1 {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "twi1";
linux,phandle = <0x18>;
phandle = <0x18>;
};
twi2 {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "twi2";
linux,phandle = <0x1b>;
phandle = <0x1b>;
};
rsb {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "rsb";
};
cir {
#clock-cells = <0x0>;
compatible = "allwinner,sunxi-periph-clock";
clock-output-names = "cir";
linux,phandle = <0x9>;
phandle = <0x9>;
};
};
soc {
compatible = "simple-bus";
#address-cells = <0x2>;
#size-cells = <0x2>;
device_type = "soc";
ranges;
pinctrl@01c20800 {
compatible = "allwinner,sun3iw1p1-pinctrl";
reg = <0x0 0x1c20800 0x0 0x400>;
interrupts = <0x26 0x27 0x28>;
device_type = "pio";
clocks = <0x5>;
gpio-controller;
interrupt-controller;
#interrupt-cells = <0x2>;
#size-cells = <0x0>;
#gpio-cells = <0x6>;
linux,phandle = <0x24>;
phandle = <0x24>;
ir@0 {
allwinner,function = "ir";
allwinner,muxsel = <0x4>;
allwinner,drive = <0x1>;
allwinner,pull = <0x1>;
linux,phandle = <0x7>;
phandle = <0x7>;
};
uart0@1 {
allwinner,pins = "PF2", "PF4";
allwinner,function = "io_disabled";
allwinner,muxsel = <0x7>;
allwinner,drive = <0x1>;
allwinner,pull = <0x1>;
linux,phandle = <0xe>;
phandle = <0xe>;
};
uart1@1 {
allwinner,pins = "PA3", "PA2";
allwinner,function = "io_disabled";
allwinner,muxsel = <0x7>;
allwinner,drive = <0x1>;
allwinner,pull = <0x1>;
linux,phandle = <0x11>;
phandle = <0x11>;
};
uart2@0 {
allwinner,pname = "uart2_tx", "uart2_rx";
allwinner,function = "uart2";
allwinner,muxsel = <0x3>;
allwinner,drive = <0x1>;
allwinner,pull = <0x1>;
linux,phandle = <0x13>;
phandle = <0x13>;
};
uart2@1 {
allwinner,function = "io_disabled";
allwinner,muxsel = <0x7>;
allwinner,drive = <0x1>;
allwinner,pull = <0x1>;
linux,phandle = <0x14>;
phandle = <0x14>;
};
twi0@1 {
allwinner,pins = "PD12", "PD0";
allwinner,function = "io_disabled";
allwinner,muxsel = <0x7>;
allwinner,drive = <0x1>;
allwinner,pull = <0x0>;
linux,phandle = <0x17>;
phandle = <0x17>;
};
twi1@1 {
allwinner,pins = "PB0", "PB1";
allwinner,function = "io_disabled";
allwinner,muxsel = <0x7>;
allwinner,drive = <0x1>;
allwinner,pull = <0x0>;
linux,phandle = <0x1a>;
phandle = <0x1a>;
};
twi2@1 {
allwinner,function = "io_disabled";
allwinner,muxsel = <0x7>;
allwinner,drive = <0x1>;
allwinner,pull = <0x0>;
linux,phandle = <0x1d>;
phandle = <0x1d>;
};
spi0@2 {
allwinner,pins = "PC0", "PC1", "PC2";
allwinner,function = "io_disabled";
allwinner,muxsel = <0x7>;
allwinner,drive = <0x1>;
allwinner,pull = <0x0>;
linux,phandle = <0x22>;
phandle = <0x22>;
};
spi0@3 {
allwinner,pins = "PC3";
allwinner,function = "io_disabled";
allwinner,muxsel = <0x7>;
allwinner,drive = <0x1>;
allwinner,pull = <0x0>;
linux,phandle = <0x23>;
phandle = <0x23>;
};
spi1@2 {
allwinner,function = "io_disabled";
allwinner,muxsel = <0x7>;
allwinner,drive = <0x1>;
allwinner,pull = <0x0>;
linux,phandle = <0x29>;
phandle = <0x29>;
};
csi0@0 {
allwinner,pins = "PE0", "PE1", "PE2", "PE3", "PE4", "PE5", "PE6", "PE7", "PE8", "PE9", "PE10";
allwinner,pname = "csi0_hsync", "csi0_vsync", "csi0_pck", "csi0_d0", "csi0_d1", "csi0_d2", "csi0_d3", "csi0_d4", "csi0_d5", "csi0_d6", "csi0_d7";
allwinner,function = "csi0";
allwinner,muxsel = <0x2>;
allwinner,drive = <0x1>;
allwinner,pull = <0x0>;
allwinner,data = <0x0>;
linux,phandle = <0x3d>;
phandle = <0x3d>;
};
csi0_sleep@0 {
allwinner,pins = "PE0", "PE1", "PE2", "PE3", "PE4", "PE5", "PE6", "PE7", "PE8", "PE9", "PE10";
allwinner,pname = "csi0_hsync", "csi0_vsync", "csi0_pck", "csi0_d0", "csi0_d1", "csi0_d2", "csi0_d3", "csi0_d4", "csi0_d5", "csi0_d6", "csi0_d7";
allwinner,function = "io_disabled";
allwinner,muxsel = <0x7>;
allwinner,drive = <0x1>;
allwinner,pull = <0x0>;
allwinner,data = <0x0>;
linux,phandle = <0x3e>;
phandle = <0x3e>;
};
pwm1@0 {
allwinner,function = "pwm1";
allwinner,muxsel = <0x3>;
allwinner,drive = <0x3>;
allwinner,pull = <0x1>;
linux,phandle = <0x3b>;
phandle = <0x3b>;
};
sdc0@1 {
allwinner,pins = "PF0", "PF1", "PF2", "PF3", "PF4", "PF5";
allwinner,function = "io_disabled";
allwinner,muxsel = <0x7>;
allwinner,drive = <0x1>;
allwinner,pull = <0x1>;
linux,phandle = <0x2e>;
phandle = <0x2e>;
};
sdc1@1 {
allwinner,pins = "PC0", "PC1", "PC2";
allwinner,function = "io_disabled";
allwinner,muxsel = <0x7>;
allwinner,drive = <0x1>;
allwinner,pull = <0x1>;
linux,phandle = <0x33>;
phandle = <0x33>;
};
daudio0@0 {
allwinner,function = "iis0";
allwinner,muxsel = <0x4>;
allwinner,drive = <0x1>;
allwinner,pull = <0x0>;
linux,phandle = <0x42>;
phandle = <0x42>;
};
daudio0_sleep@0 {
allwinner,function = "io_disabled";
allwinner,muxsel = <0x7>;
allwinner,drive = <0x1>;
allwinner,pull = <0x0>;
linux,phandle = <0x43>;
phandle = <0x43>;
};
daudio0@1 {
allwinner,function = "iis0";
allwinner,muxsel = <0x2>;
allwinner,drive = <0x1>;
allwinner,pull = <0x0>;
};
spdif@0 {
allwinner,pins = "PD17";
allwinner,function = "spdif0";
allwinner,muxsel = <0x3>;
allwinner,drive = <0x1>;
allwinner,pull = <0x0>;
linux,phandle = <0x45>;
phandle = <0x45>;
};
spdif_sleep@0 {
allwinner,pins = "PD17";
allwinner,function = "io_disabled";
allwinner,muxsel = <0x7>;
allwinner,drive = <0x1>;
allwinner,pull = <0x0>;
linux,phandle = <0x46>;
phandle = <0x46>;
};
card0_boot_para@0 {
linux,phandle = <0x4d>;
phandle = <0x4d>;
allwinner,pins = "PF0", "PF1", "PF2", "PF3", "PF4", "PF5";
allwinner,function = "card0_boot_para";
allwinner,pname = "sdc_d1", "sdc_d0", "sdc_clk", "sdc_cmd", "sdc_d3", "sdc_d2";
allwinner,muxsel = <0x2>;
allwinner,pull = <0x1>;
allwinner,drive = <0x2>;
allwinner,data = <0xffffffff>;
};
card2_boot_para@0 {
linux,phandle = <0x4e>;
phandle = <0x4e>;
allwinner,pins = "PC5", "PC6", "PC8", "PC9", "PC10", "PC11", "PC12", "PC13", "PC14", "PC15", "PC16", "PC1";
allwinner,function = "card2_boot_para";
allwinner,pname = "sdc_clk", "sdc_cmd", "sdc_d0", "sdc_d1", "sdc_d2", "sdc_d3", "sdc_d4", "sdc_d5", "sdc_d6", "sdc_d7", "sdc_emmc_rst", "sdc_ds";
allwinner,muxsel = <0x3>;
allwinner,pull = <0x1>;
allwinner,drive = <0x3>;
allwinner,data = <0xffffffff>;
};
card1_boot_para@0 {
linux,phandle = <0x4f>;
phandle = <0x4f>;
allwinner,pins = "PC0", "PC1", "PC2";
allwinner,function = "card1_boot_para";
allwinner,pname = "sdc_clk", "sdc_cmd", "sdc_d0";
allwinner,muxsel = <0x3>;
allwinner,pull = <0x1>;
allwinner,drive = <0x3>;
allwinner,data = <0xffffffff>;
};
twi_para@0 {
linux,phandle = <0x50>;
phandle = <0x50>;
allwinner,pins = "PD12", "PD0";
allwinner,function = "twi_para";
allwinner,pname = "twi_scl", "twi_sda";
allwinner,muxsel = <0x3>;
allwinner,pull = <0xffffffff>;
allwinner,drive = <0xffffffff>;
allwinner,data = <0xffffffff>;
};
uart_para@0 {
linux,phandle = <0x51>;
phandle = <0x51>;
allwinner,pins = "PA2", "PA3";
allwinner,function = "uart_para";
allwinner,pname = "uart_debug_tx", "uart_debug_rx";
allwinner,muxsel = <0x5>;
allwinner,pull = <0x1>;
allwinner,drive = <0xffffffff>;
allwinner,data = <0xffffffff>;
};
jtag_para@0 {
linux,phandle = <0x52>;
phandle = <0x52>;
allwinner,pins = "PH9", "PH10", "PH11", "PH12";
allwinner,function = "jtag_para";
allwinner,pname = "jtag_ms", "jtag_ck", "jtag_do", "jtag_di";
allwinner,muxsel = <0x3>;
allwinner,pull = <0xffffffff>;
allwinner,drive = <0xffffffff>;
allwinner,data = <0xffffffff>;
};
twi0@0 {
linux,phandle = <0x53>;
phandle = <0x53>;
allwinner,pins = "PD12", "PD0";
allwinner,function = "twi0";
allwinner,pname = "twi0_scl", "twi0_sda";
allwinner,muxsel = <0x3>;
allwinner,pull = <0xffffffff>;
allwinner,drive = <0xffffffff>;
allwinner,data = <0xffffffff>;
};
twi1@0 {
linux,phandle = <0x54>;
phandle = <0x54>;
allwinner,pins = "PB0", "PB1";
allwinner,function = "twi1";
allwinner,pname = "twi1_scl", "twi1_sda";
allwinner,muxsel = <0x2>;
allwinner,pull = <0xffffffff>;
allwinner,drive = <0xffffffff>;
allwinner,data = <0xffffffff>;
};
twi2@0 {
linux,phandle = <0x55>;
phandle = <0x55>;
allwinner,pins = "PD15", "PD16";
allwinner,function = "twi2";
allwinner,pname = "twi2_scl", "twi2_sda";
allwinner,muxsel = <0x4>;
allwinner,pull = <0xffffffff>;
allwinner,drive = <0xffffffff>;
allwinner,data = <0xffffffff>;
};
uart0@0 {
linux,phandle = <0x56>;
phandle = <0x56>;
allwinner,pins = "PF2", "PF4";
allwinner,function = "uart0";
allwinner,pname = "uart0_tx", "uart0_rx";
allwinner,muxsel = <0x3>;
allwinner,pull = <0x1>;
allwinner,drive = <0xffffffff>;
allwinner,data = <0xffffffff>;
};
uart1@0 {
linux,phandle = <0x57>;
phandle = <0x57>;
allwinner,pins = "PA2", "PA3";
allwinner,function = "uart1";
allwinner,pname = "uart1_tx", "uart1_rx";
allwinner,muxsel = <0x5>;
allwinner,pull = <0x1>;
allwinner,drive = <0xffffffff>;
allwinner,data = <0xffffffff>;
};
spi0@0 {
linux,phandle = <0x58>;
phandle = <0x58>;
allwinner,pins = "PC1";
allwinner,function = "spi0";
allwinner,pname = "spi0_cs0";
allwinner,muxsel = <0x2>;
allwinner,pull = <0x1>;
allwinner,drive = <0xffffffff>;
allwinner,data = <0xffffffff>;
};
spi0@1 {
linux,phandle = <0x59>;
phandle = <0x59>;
allwinner,pins = "PC0", "PC3", "PC2";
allwinner,function = "spi0";
allwinner,pname = "spi0_sclk", "spi0_mosi", "spi0_miso";
allwinner,muxsel = <0x2>;
allwinner,pull = <0xffffffff>;
allwinner,drive = <0xffffffff>;
allwinner,data = <0xffffffff>;
};
spi1@0 {
linux,phandle = <0x5a>;
phandle = <0x5a>;
allwinner,pins = "PE7";
allwinner,function = "spi1";
allwinner,pname = "spi1_cs0";
allwinner,muxsel = <0x4>;
allwinner,pull = <0x1>;
allwinner,drive = <0xffffffff>;
allwinner,data = <0xffffffff>;
};
spi1@1 {
linux,phandle = <0x5b>;
phandle = <0x5b>;
allwinner,pins = "PE9", "PE8", "PE10";
allwinner,function = "spi1";
allwinner,pname = "spi1_sclk", "spi1_mosi", "spi1_miso";
allwinner,muxsel = <0x4>;
allwinner,pull = <0xffffffff>;
allwinner,drive = <0xffffffff>;
allwinner,data = <0xffffffff>;
};
nand0@0 {
linux,phandle = <0x5c>;
phandle = <0x5c>;
allwinner,pins = "PC0", "PC1", "PC2", "PC4", "PC6", "PC7", "PC8", "PC9", "PC10", "PC11", "PC12", "PC13", "PC14";
allwinner,function = "nand0";
allwinner,pname = "nand0_we", "nand0_ale", "nand0_cle", "nand0_nre", "nand0_d0", "nand0_d1", "nand0_d2", "nand0_d3", "nand0_d4", "nand0_d5", "nand0_d6", "nand0_d7", "nand0_ndqs";
allwinner,muxsel = <0x2>;
allwinner,pull = <0x0>;
allwinner,drive = <0x1>;
allwinner,data = <0xffffffff>;
};
nand0@1 {
linux,phandle = <0x5d>;
phandle = <0x5d>;
allwinner,pins = "PC3", "PC5";
allwinner,function = "nand0";
allwinner,pname = "nand0_ce0", "nand0_rb0";
allwinner,muxsel = <0x2>;
allwinner,pull = <0x1>;
allwinner,drive = <0x1>;
allwinner,data = <0xffffffff>;
};
lcd0@0 {
linux,phandle = <0x5e>;
phandle = <0x5e>;
allwinner,pins = "PD1", "PD2", "PD3", "PD4", "PD5", "PD6", "PD7", "PD8", "PD9", "PD10", "PD11", "PD13", "PD14", "PD15", "PD16", "PD17";
allwinner,function = "lcd0";
allwinner,pname = "lcdd3", "lcdd4", "lcdd5", "lcdd6", "lcdd7", "lcdd10", "lcdd11", "lcdd12", "lcdd13", "lcdd14", "lcdd15", "lcdd19", "lcdd20", "lcdd21", "lcdd22", "lcdd23";
allwinner,muxsel = <0x2>;
allwinner,pull = <0x0>;
allwinner,drive = <0xffffffff>;
allwinner,data = <0xffffffff>;
};
lcd0@1 {
linux,phandle = <0x5f>;
phandle = <0x5f>;
allwinner,pins = "PD18", "PD19", "PD21";
allwinner,function = "lcd0";
allwinner,pname = "lcdclk", "lcdde", "lcdvsync";
allwinner,muxsel = <0x2>;
allwinner,pull = <0x0>;
allwinner,drive = <0x3>;
allwinner,data = <0xffffffff>;
};
pwm0_para@0 {
linux,phandle = <0x60>;
phandle = <0x60>;
allwinner,pins = "PE12";
allwinner,function = "pwm0_para";
allwinner,pname = "pwm_positive";
allwinner,muxsel = <0x4>;
allwinner,pull = <0x0>;
allwinner,drive = <0xffffffff>;
allwinner,data = <0xffffffff>;
};
pwm1_para@0 {
linux,phandle = <0x61>;
phandle = <0x61>;
allwinner,pins = "PE6";
allwinner,function = "pwm1_para";
allwinner,pname = "pwm_positive";
allwinner,muxsel = <0x3>;
allwinner,pull = <0x0>;
allwinner,drive = <0xffffffff>;
allwinner,data = <0xffffffff>;
};
vip0@0 {
linux,phandle = <0x62>;
phandle = <0x62>;
allwinner,pins = "PE2", "PE0", "PE1", "PE3", "PE4", "PE5", "PE6", "PE7", "PE8", "PE9", "PE10";
allwinner,function = "vip0";
allwinner,pname = "vip0_csi_pck", "vip0_csi_hsync", "vip0_csi_vsync", "vip0_csi_d0", "vip0_csi_d1", "vip0_csi_d2", "vip0_csi_d3", "vip0_csi_d4", "vip0_csi_d5", "vip0_csi_d6", "vip0_csi_d7";
allwinner,muxsel = <0x2>;
allwinner,pull = <0xffffffff>;
allwinner,drive = <0xffffffff>;
allwinner,data = <0xffffffff>;
};
vip0@1 {
linux,phandle = <0x63>;
phandle = <0x63>;
allwinner,pins = "PE11";
allwinner,function = "vip0";
allwinner,pname = "vip0_csi_mck";
allwinner,muxsel = <0x2>;
allwinner,pull = <0x1>;
allwinner,drive = <0x3>;
allwinner,data = <0x0>;
};
sdc0@0 {
linux,phandle = <0x64>;
phandle = <0x64>;
allwinner,pins = "PF0", "PF1", "PF2", "PF3", "PF4", "PF5";
allwinner,function = "sdc0";
allwinner,pname = "sdc0_d1", "sdc0_d0", "sdc0_clk", "sdc0_cmd", "sdc0_d3", "sdc0_d2";
allwinner,muxsel = <0x2>;
allwinner,pull = <0x1>;
allwinner,drive = <0x3>;
allwinner,data = <0xffffffff>;
};
sdc1@0 {
linux,phandle = <0x65>;
phandle = <0x65>;
allwinner,pins = "PC0", "PC1", "PC2";
allwinner,function = "sdc1";
allwinner,pname = "sdc1_clk", "sdc1_cmd", "sdc1_d0";
allwinner,muxsel = <0x3>;
allwinner,pull = <0x1>;
allwinner,drive = <0x2>;
allwinner,data = <0xffffffff>;
};
Vdevice@0 {
linux,phandle = <0x66>;
phandle = <0x66>;
allwinner,pins = "PC0", "PC1";
allwinner,function = "Vdevice";
allwinner,pname = "Vdevice_0", "Vdevice_1";
allwinner,muxsel = <0x4>;
allwinner,pull = <0x1>;
allwinner,drive = <0x2>;
allwinner,data = <0xffffffff>;
};
};
dma-controller@01c02000 {
compatible = "allwinner,sun3i-dma";
reg = <0x0 0x1c02000 0x0 0x1000>;
interrupts = <0x12>;
clocks = <0x6>;
#dma-cells = <0x2>;
linux,phandle = <0x25>;
phandle = <0x25>;
};
timer@1c20c00 {
compatible = "allwinner,sunxi-timer";
device_type = "timer";
reg = <0x0 0x1c20c00 0x0 0x90>;
interrupts = <0xd>;
clock-frequency = <0x16e3600>;
timer-prescale = <0x10>;
};
ir@01c22c00 {
compatible = "allwinner,ir";
reg = <0x0 0x1c22c00 0x0 0x400>;
interrupts = <0x6>;
pinctrl-names = "default";
pinctrl-0 = <0x7>;
clocks = <0x8 0x9>;
status = "okay";
};
ve@01c0e000 {
compatible = "allwinner,sunxi-cedar-ve";
reg = <0x0 0x1c0e000 0x0 0x1000 0x0 0x1c00000 0x0 0x3000 0x0 0x1c20000 0x0 0x800>;
interrupts = <0x22>;
clocks = <0xa 0xb>;
};
uart@01c25000 {
compatible = "allwinner,sun3i-uart";
device_type = "uart0";
reg = <0x0 0x1c25000 0x0 0x400>;
interrupts = <0x1>;
clocks = <0xc>;
pinctrl-names = "default", "sleep";
pinctrl-1 = <0xe>;
uart0_port = <0x0>;
uart0_type = <0x2>;
status = "disabled";
pinctrl-0 = <0x56>;
};
uart@01c25400 {
compatible = "allwinner,sun3i-uart";
device_type = "uart1";
reg = <0x0 0x1c25400 0x0 0x400>;
interrupts = <0x2>;
clocks = <0xf>;
pinctrl-names = "default", "sleep";
pinctrl-1 = <0x11>;
uart1_port = <0x1>;
uart1_type = <0x2>;
status = "okay";
pinctrl-0 = <0x57>;
};
uart@01c25800 {
compatible = "allwinner,sun3i-uart";
device_type = "uart2";
reg = <0x0 0x1c25800 0x0 0x400>;
interrupts = <0x3>;
clocks = <0x12>;
pinctrl-names = "default", "sleep";
pinctrl-0 = <0x13>;
pinctrl-1 = <0x14>;
uart2_port = <0x2>;
uart2_type = <0x4>;
status = "disabled";
};
twi@0x01c27000 {
#address-cells = <0x1>;
#size-cells = <0x0>;
compatible = "allwinner,sun3i-twi";
device_type = "twi0";
reg = <0x0 0x1c27000 0x0 0x400>;
interrupts = <0x7>;
clocks = <0x15>;
clock-frequency = <0x186a0>;
pinctrl-names = "default", "sleep";
pinctrl-1 = <0x17>;
status = "okay";
pinctrl-0 = <0x53>;
io_expand@0x38 {
compatible = "nxp,pcf8574a";
i2c-max-frequency = <0x186a0>;
reg = <0x20>;
device_type = "io_expand";
gpio_base = <0x7f8>;
};
touchscreen0@0x4A {
compatible = "atmel,mxt336t";
reg = <0x4a>;
atmel,suspend_mode = <0x0>;
};
touchscreen1@0x48 {
compatible = "ctp_icn85xx";
reg = <0x48>;
device_type = "touchscreen1";
};
rtc@0x51 {
compatible = "nxp,pcf8563";
i2c-max-frequency = <0x186a0>;
reg = <0x51>;
};
sensor_gc0308@0x42 {
compatible = "allwinner,sensor_gc0308";
i2c-max-frequency = <0x186a0>;
reg = <0x42>;
status = "okay";
};
};
twi@0x01c27400 {
#address-cells = <0x1>;
#size-cells = <0x0>;
compatible = "allwinner,sun3i-twi";
device_type = "twi1";
reg = <0x0 0x1c27400 0x0 0x400>;
interrupts = <0x8>;
clocks = <0x18>;
clock-frequency = <0x30d40>;
pinctrl-names = "default", "sleep";
pinctrl-1 = <0x1a>;
status = "disabled";
pinctrl-0 = <0x54>;
};
twi@0x01c27800 {
#address-cells = <0x1>;
#size-cells = <0x0>;
compatible = "allwinner,sun3i-twi";
device_type = "twi2";
reg = <0x0 0x1c27800 0x0 0x400>;
interrupts = <0x9>;
clocks = <0x1b>;
clock-frequency = <0x186a0>;
pinctrl-names = "default", "sleep";
pinctrl-1 = <0x1d>;
status = "disabled";
pinctrl-0 = <0x55>;
};
spi@01c05000 {
#address-cells = <0x1>;
#size-cells = <0x0>;
compatible = "allwinner,sun8i-spi";
device_type = "spi0";
reg = <0x0 0x1c05000 0x0 0x1000>;
interrupts = <0xa>;
clocks = <0x1e 0x1f>;
clock-frequency = <0x5f5e100>;
pinctrl-names = "default", "sleep";
pinctrl-1 = <0x22 0x23>;
spi0_cs_number = <0x1>;
spi0_cs_bitmap = <0x1>;
sd-spi-sel = <0x24 0x0 0x1 0x1 0x1 0x0 0x0>;
sd-spi-act = <0x1>;
dmas = <0x25 0x0 0x4 0x25 0x0 0x4>;
dma-names = "rx", "tx";
status = "disabled";
pinctrl-0 = <0x58 0x59>;
nor_flash@0 {
#address-cells = <0x1>;
#size-cells = <0x1>;
compatible = "st,m25p64";
spi-max-frequency = <0x2faf080>;
reg = <0x0>;
};
};
spinand@01c05000 {
compatible = "allwinner,sunxi-spinand";
device_type = "spinand";
reg = <0x0 0x1c05000 0x0 0x1000>;
interrupts = <0xa>;
clocks = <0x1e 0x1f>;
pinctrl-names = "default", "sleep";
pinctrl-0 = <0x58 0x59>;
pinctrl-1 = <0x22 0x23>;
nand0_regulator1 = "vcc-nand";
nand0_regulator2 = "none";
nand0_cache_level = <0x55aaaa55>;
nand0_flush_cache_num = <0x55aaaa55>;
nand0_capacity_level = <0x55aaaa55>;
nand0_id_number_ctl = <0x55aaaa55>;
nand0_print_level = <0x55aaaa55>;
nand0_p0 = <0x55aaaa55>;
nand0_p1 = <0x55aaaa55>;
nand0_p2 = <0x55aaaa55>;
nand0_p3 = <0x55aaaa55>;
status = "okay";
};
spi@01c06000 {
#address-cells = <0x1>;
#size-cells = <0x0>;
compatible = "allwinner,sun8i-spi";
device_type = "spi1";
reg = <0x0 0x1c06000 0x0 0x1000>;
interrupts = <0xb>;
clocks = <0x1e 0x26>;
clock-frequency = <0x5f5e100>;
pinctrl-names = "default", "sleep";
pinctrl-1 = <0x29>;
spi1_cs_number = <0x1>;
spi1_cs_bitmap = <0x1>;
status = "okay";
pinctrl-0 = <0x5a 0x5b>;
mmc-slot@0 {
#address-cells = <0x1>;
#size-cells = <0x1>;
compatible = "mmc-spi-slot";
spi-max-frequency = <0x17d7840>;
device_type = "mmc-spi";
reg = <0x0>;
voltage-ranges = <0xce4 0xce4>;
};
};
sdmmc@01c0f000 {
compatible = "allwinner,sun3iw1p1-sdmmc0";
device_type = "sdc0";
reg = <0x0 0x1c0f000 0x0 0x1000>;
interrupts = <0x17>;
clocks = <0x8 0x4 0x2a 0x2b 0x2c>;
clock-names = "osc24m", "pll_periph", "mmc", "ahb", "rst";
pinctrl-names = "default", "sleep";
pinctrl-1 = <0x2e>;
max-frequency = <0x2faf080>;
bus-width = <0x4>;
cap-sdio-irq;
keep-power-in-suspend;
ignore-pm-notify;
status = "okay";
sdc0_buswidth = <0x4>;
pinctrl-0 = <0x64>;
sdc0_det = <0x24 0x0 0x1 0x0 0x1 0x3 0xffffffff>;
sdc0_use_wp = <0x0>;
sdc0_wp;
sdc0_isio = <0x0>;
sdc0_regulator = "none";
};
sdmmc@01c10000 {
compatible = "allwinner,sun3iw1p1-sdmmc1";
device_type = "sdc1";
reg = <0x0 0x1c10000 0x0 0x1000>;
interrupts = <0x18>;
clocks = <0x8 0x4 0x2f 0x30 0x31>;
clock-names = "osc24m", "pll_periph", "mmc", "ahb", "rst";
pinctrl-names = "default", "sleep";
pinctrl-1 = <0x33>;
max-frequency = <0x2faf080>;
bus-width = <0x1>;
no-sdio;
no-sd;
non-removable;
cap-sdio-irq;
keep-power-in-suspend;
ignore-pm-notify;
sunxi-dly-52M-ddr4 = <0x1 0x0 0x0 0x0 0x2>;
sunxi-dly-104M = <0x1 0x0 0x0 0x0 0x1>;
sunxi-dly-208M = <0x1 0x0 0x0 0x0 0x1>;
status = "okay";
sdc1_detmode = <0x4>;
sdc1_buswidth = <0x1>;
pinctrl-0 = <0x65>;
sdc1_det;
sdc1_use_wp = <0x0>;
sdc1_wp;
sdc1_isio = <0x1>;
sdc1_regulator = "none";
};
disp@0x01e00000 {
compatible = "allwinner,sunxi-disp";
reg = <0x0 0x1e00000 0x0 0x20000 0x0 0x1c0c000 0x0 0x1000 0x0 0x1e70000 0x0 0x10000>;
interrupts = <0x1d 0x1f 0x1e 0x21>;
clocks = <0x34 0x35 0x36 0x37 0x38>;
status = "okay";
device_type = "disp";
disp_init_enable = <0x1>;
disp_mode = <0x0>;
screen0_output_type = <0x1>;
screen0_output_mode = <0x4>;
screen1_output_type = <0x1>;
screen1_output_mode = <0x4>;
fb0_framebuffer_num = <0x2>;
fb0_pixel_sequence = <0x0>;
fb0_scaler_mode_enable = <0x0>;
fb0_format = <0x0>;
fb0_width = <0x0>;
fb0_height = <0x0>;
fb1_framebuffer_num = <0x0>;
fb1_pixel_sequence = <0x0>;
fb1_scaler_mode_enable = <0x0>;
fb1_format = <0x0>;
fb1_width = <0x0>;
fb1_height = <0x0>;
lcd0_backlight = <0x32>;
lcd1_backlight = <0x32>;
lcd0_bright = <0x32>;
lcd0_contrast = <0x32>;
lcd0_saturation = <0x39>;
lcd0_hue = <0x32>;
lcd1_bright = <0x32>;
lcd1_contrast = <0x32>;
lcd1_saturation = <0x39>;
lcd1_hue = <0x32>;
};
tvd0@01c0b000 {
compatible = "allwinner,sunxi-tvd";
reg = <0x0 0x1c0b000 0x0 0x1000>;
interrupts = <0x1b>;
clocks = <0x39>;
tvd_used = <0x1>;
tvd_if = <0x0>;
status = "okay";
};
lcd0@01c0c000 {
compatible = "allwinner,sunxi-lcd0";
pinctrl-names = "active", "sleep";
status = "okay";
device_type = "lcd0";
lcd_used = <0x1>;
lcd_driver_name = "ili6122_800x480";
lcd_if = <0x0>;
lcd_x = <0x320>;
lcd_y = <0x1e0>;
lcd_width = <0x6d>;
lcd_height = <0x3f>;
lcd_dclk_freq = <0x21>;
lcd_pwm_used = <0x1>;
lcd_pwm_ch = <0x0>;
lcd_pwm_freq = <0xc350>;
lcd_pwm_pol = <0x1>;
lcd_hbp = <0x37>;
lcd_ht = <0x420>;
lcd_hspw = <0x14>;
lcd_vbp = <0x23>;
lcd_vt = <0x20d>;
lcd_vspw = <0xa>;
lcd_hv_if = <0x0>;
lcd_hv_smode = <0x0>;
lcd_hv_s888_if = <0x0>;
lcd_hv_syuv_if = <0x0>;
lcd_hv_vspw = <0xa>;
lcd_hv_hspw = <0x14>;
lcd_hv_sync_polarity = <0x3>;
lcd_lvds_if = <0x0>;
lcd_lvds_colordepth = <0x1>;
lcd_lvds_mode = <0x0>;
lcd_lvds_ch = <0x0>;
lcd_lvds_bitwidth = <0x0>;
lcd_lvds_io_cross = <0x0>;
lcd_cpu_if = <0x0>;
lcd_frm = <0x1>;
lcd_rb_swap = <0x1>;
lcd_io_phase = <0x0>;
lcd_gamma_en = <0x0>;
lcd_bright_curve_en = <0x0>;
lcd_cmap_en = <0x0>;
deu_mode = <0x0>;
lcdgamma4iep = <0x16>;
lcd_io_cfg0 = <0x0>;
smart_color = <0x5a>;
lcd_gpio_0 = <0x7fb>;
pinctrl-0 = <0x5e 0x5f>;
};
pwm@01c21000 {
compatible = "allwinner,sunxi-pwm";
reg = <0x0 0x1c21000 0x0 0x8>;
pwm-number = <0x1>;
pwm-base = <0x0>;
pwms = <0x3a>;
};
pwm0@01c21000 {
compatible = "allwinner,sunxi-pwm0";
pinctrl-names = "active", "sleep";
reg_base = <0x1c21000>;
reg_busy_offset = <0x0>;
reg_busy_shift = <0x1c>;
reg_enable_offset = <0x0>;
reg_enable_shift = <0x4>;
reg_clk_gating_offset = <0x0>;
reg_clk_gating_shift = <0x6>;
reg_bypass_offset = <0x0>;
reg_bypass_shift = <0x9>;
reg_pulse_start_offset = <0x0>;
reg_pulse_start_shift = <0x8>;
reg_mode_offset = <0x0>;
reg_mode_shift = <0x7>;
reg_polarity_offset = <0x0>;
reg_polarity_shift = <0x5>;
reg_period_offset = <0x4>;
reg_period_shift = <0x10>;
reg_period_width = <0x10>;
reg_active_offset = <0x4>;
reg_active_shift = <0x0>;
reg_active_width = <0x10>;
reg_prescal_offset = <0x0>;
reg_prescal_shift = <0x0>;
reg_prescal_width = <0x4>;
};
pwm1@01c21000 {
compatible = "allwinner,sunxi-pwm1";
pinctrl-names = "active", "sleep";
pinctrl-0 = <0x3b>;
reg_base = <0x1c21000>;
reg_busy_offset = <0x0>;
reg_busy_shift = <0x1d>;
reg_enable_offset = <0x0>;
reg_enable_shift = <0x13>;
reg_clk_gating_offset = <0x0>;
reg_clk_gating_shift = <0x15>;
reg_bypass_offset = <0x0>;
reg_bypass_shift = <0x18>;
reg_pulse_start_offset = <0x0>;
reg_pulse_start_shift = <0x17>;
reg_mode_offset = <0x0>;
reg_mode_shift = <0x16>;
reg_polarity_offset = <0x0>;
reg_polarity_shift = <0x14>;
reg_period_offset = <0x8>;
reg_period_shift = <0x10>;
reg_period_width = <0x10>;
reg_active_offset = <0x8>;
reg_active_shift = <0x0>;
reg_active_width = <0x10>;
reg_prescal_offset = <0x0>;
reg_prescal_shift = <0xf>;
reg_prescal_width = <0x4>;
linux,phandle = <0x3a>;
phandle = <0x3a>;
};
deinterlace@0x01e70000 {
compatible = "allwinner,sunxi-deinterlace";
reg = <0x0 0x1e70000 0x0 0x80>;
interrupts = <0x21>;
clocks = <0x38 0x3>;
status = "disabled";
device_type = "di";
};
csi_res@0x01cb0000 {
compatible = "allwinner,sunxi-csi";
reg = <0x0 0x1cb0000 0x0 0x1000>;
clocks = <0x3c 0x3 0x8>;
clocks-index = <0x0 0x1 0x2>;
status = "okay";
};
vfe@0 {
device_type = "csi0";
compatible = "allwinner,sunxi-vfe";
interrupts = <0x20>;
pinctrl-names = "default", "sleep";
pinctrl-0 = <0x3d>;
pinctrl-1 = <0x3e>;
csi_sel = <0x0>;
csi0_sensor_list = <0x0>;
csi0_mck = <0x24 0x4 0xb 0x2 0x1 0x3 0x0>;
status = "okay";
dev@1 {
csi0_dev0_mname = "gc0308";
csi0_dev0_twi_addr = <0x42>;
csi0_dev0_twi_id = <0x0>;
csi0_dev0_pos = "rear";
csi0_dev0_isp_used = <0x0>;
csi0_dev0_fmt = <0x0>;
csi0_dev0_stby_mode = <0x0>;
csi0_dev0_vflip = <0x0>;
csi0_dev0_hflip = <0x0>;
csi0_dev0_iovdd = <0x0>;
csi0_dev0_iovdd_vol = <0x0>;
csi0_dev0_avdd = <0x0>;
csi0_dev0_avdd_vol = <0x0>;
csi0_dev0_dvdd = <0x0>;
csi0_dev0_dvdd_vol = <0x0>;
csi0_dev0_afvdd = <0x0>;
csi0_dev0_afvdd_vol = <0x0>;
csi0_dev0_power_en;
csi0_dev0_reset = <0x7fc>;
csi0_dev0_pwdn;
csi0_dev0_flash_en;
csi0_dev0_flash_mode;
csi0_dev0_af_pwdn;
csi0_dev0_act_used = <0x0>;
csi0_dev0_act_name = <0x0>;
csi0_dev0_act_slave = <0x0>;
status = "okay";
};
};
usbc0@0 {
device_type = "usbc0";
compatible = "allwinner,sunxi-otg-manager";
usb_port_type = <0x0>;
usb_detect_type = <0x1>;
usb_detect_mode = <0x0>;
usb_drv_vbus_gpio = <0x7ff>;
usb_host_init_state = <0x0>;
usb_regulator_io = "nocare";
usb_wakeup_suspend = <0x0>;
usb_luns = <0x3>;
usb_serial_unique = <0x0>;
usb_serial_number = "20080411";
rndis_wceis = <0x1>;
status = "okay";
usb_id_gpio;
usb_det_vbus_gpio;
usb_board_sel = <0x1>;
usb_regulator_vol = <0x0>;
};
udc-controller@0x01c13000 {
compatible = "allwinner,sunxi-udc";
reg = <0x0 0x1c13000 0x0 0x1000 0x0 0x1c00000 0x0 0x100>;
interrupts = <0x1a>;
clocks = <0x3f 0x40>;
status = "okay";
};
otghci0-controller@0x01c13000 {
compatible = "allwinner,sunxi-hcd0";
reg = <0x0 0x1c13000 0x0 0x1000 0x0 0x1c00000 0x0 0x100>;
interrupts = <0x1a>;
clocks = <0x3f 0x40>;
hci_ctrl_no = <0x0>;
status = "okay";
};
daudio@0x01c22000 {
compatible = "allwinner,sunxi-daudio";
reg = <0x0 0x1c22000 0x0 0x3c>;
clocks = <0x2 0x41>;
pinctrl-names = "default", "sleep";
pinctrl-0 = <0x42>;
pinctrl-1 = <0x43>;
word_select_size = <0x20>;
pcm_sync_period = <0x20>;
pcm_lsb_first = <0x0>;
over_sample_rate = <0x80>;
slot_width_select = <0x10>;
pcm_sync_type = <0x0>;
pcm_start_slot = <0x0>;
tx_data_mode = <0x0>;
rx_data_mode = <0x0>;
tdm_config = <0x1>;
tdm_num = <0x0>;
dmas = <0x25 0x0 0xe 0x25 0x0 0xe>;
dma-names = "rx-tx", "rx-tx";
status = "okay";
linux,phandle = <0x4a>;
phandle = <0x4a>;
};
spdif-controller@0x01c21400 {
compatible = "allwinner,sunxi-spdif";
reg = <0x0 0x1c21400 0x0 0x38>;
clocks = <0x2 0x44>;
pinctrl-names = "default", "sleep";
pinctrl-0 = <0x45>;
pinctrl-1 = <0x46>;
dmas = <0x25 0x0 0x1 0x25 0x0 0x1>;
status = "disabled";
linux,phandle = <0x4b>;
phandle = <0x4b>;
};
codec@0x01c23c00 {
compatible = "allwinner,sunxi-internal-codec";
reg = <0x0 0x1c23c00 0x0 0x9c>;
clocks = <0x2 0x47>;
gpio_shdn = <0x0>;
headphonevol = <0x3b>;
spkervol = <0x1b>;
maingain = <0x4>;
hp_dirused = <0x0>;
pa_sleep_time = <0x15e>;
status = "okay";
linux,phandle = <0x49>;
phandle = <0x49>;
};
cpudai0-controller@0x01c22000 {
compatible = "allwinner,sunxi-internal-cpudai";
reg = <0x0 0x1c23c00 0x0 0x9c>;
clocks = <0x47>;
dmas = <0x25 0x0 0xc 0x25 0x0 0xc>;
dma-names = "rx-tx", "rx-tx";
status = "okay";
linux,phandle = <0x48>;
phandle = <0x48>;
};
sound@0 {
compatible = "allwinner,sunxi-codec-machine";
sunxi,cpudai-controller = <0x48>;
sunxi,audio-codec = <0x49>;
hp_detect_case = <0x0>;
status = "okay";
};
sound@1 {
compatible = "allwinner,sunxi-daudio0-machine";
sunxi,daudio0-controller = <0x4a>;
sunxi,snddaudio-codec = "nau8540.2-001d";
sunxi,snddaudio-codec-dai = "nau8540-hifi";
status = "okay";
};
sound@2 {
compatible = "allwinner,sunxi-spdif-machine";
sunxi,spdif-controller = <0x4b>;
status = "okay";
};
wlan {
compatible = "allwinner,sunxi-wlan";
wlan-reset-pin = <0x24 0x3 0x10 0x0 0x1 0x1 0x1>;
wlan-irq-pin = <0x24 0x3 0xd 0x0 0x6 0x1 0x1>;
wlan_busnum = <0x0>;
status = "okay";
device_type = "wlan";
wlan_board_sel = <0x1>;
wlan_hostwake = <0x24 0x4 0xc 0x6 0xffffffff 0xffffffff 0x1>;
wlan_regon = <0x7f9>;
};
vdevice@0 {
compatible = "allwinner,sun3i-vdevice";
device_type = "Vdevice";
pinctrl-names = "default";
test-gpios = <0x24 0x3 0x1 0x1 0x2 0x2 0x1>;
status = "disabled";
pinctrl-0 = <0x66>;
};
keyboard {
compatible = "allwinner,keyboard_2000mv";
reg = <0x0 0x1c23400 0x0 0x400>;
interrupts = <0x16>;
status = "okay";
pwr-key = <0x24 0x3 0xe 0x0 0x6 0x1 0x0>;
usb-sts = <0x24 0x3 0xa 0x0 0x6 0x1 0x0>;
key_cnt = <0x6>;
key0 = <0xf8 0x73>;
key1 = <0x193 0x72>;
key2 = <0x24d 0x8b>;
key3 = <0x307 0x1c>;
key4 = <0x3c1 0x66>;
key5 = <0x4b9 0x67>;
};
pwr_off_ctrl {
compatible = "allwinner,pwr_off_ctrl";
status = "okay";
};
battery {
compatible = "allwinner,LRADC_battery";
reg = <0x0 0x1c23400 0x0 0x400>;
interrupts = <0x16>;
status = "okay";
};
wirelesskey@0 {
compatible = "allwinner,wireless-key";
gpio-key = <0x24 0x4 0x3 0x0 0x6 0x1 0x1>;
debounce = <0x0>;
status = "disabled";
};
tp_key@0x01c24800 {
compatible = "allwinner,tp_key";
reg = <0x0 0x1c24800 0x0 0xf0>;
interrupts = <0x14>;
key_cnt = <0xa>;
key1 = <0x118 0x73>;
key2 = <0x230 0x72>;
key3 = <0x366 0x77>;
key4 = <0x48f 0x1c>;
key5 = <0x5b4 0x175>;
key6 = <0x6cd 0x66>;
key7 = <0x82f 0x0>;
key8 = <0x95f 0x0>;
key9 = <0xa78 0x0>;
key10 = <0xb87 0x0>;
status = "okay";
};
product {
device_type = "product";
version = "100";
machine = "evb";
};
platform {
device_type = "platform";
eraseflag = <0x1>;
debug_mode = <0x1>;
};
target {
device_type = "target";
boot_clock = <0x198>;
storage_type = <0x6>;
burn_key = <0x0>;
};
norflash {
device_type = "norflash";
size = <0x10>;
};
power_sply {
device_type = "power_sply";
dcdc1_vol = <0xbb8>;
dcdc2_vol = <0x4b0>;
dcdc3_vol = <0x4b0>;
dcdc4_vol = <0x4b0>;
dcdc5_vol = <0x5dc>;
aldo2_vol = <0x708>;
aldo3_vol = <0xbb8>;
};
pwr_ctrl {
device_type = "pwr_ctrl";
power_off_key = <0x24 0x3 0x14 0x0 0x0 0xffffffff 0x1>;
power_on = <0x24 0x0 0x1 0x1 0xffffffff 0xffffffff 0x0>;
pwroff_gpio_is_irq = <0x0>;
};
card_boot {
device_type = "card_boot";
logical_start = <0xa000>;
sprite_gpio0;
};
pm_para {
device_type = "pm_para";
standby_mode = <0x1>;
};
card0_boot_para {
device_type = "card0_boot_para";
card_ctrl = <0x0>;
card_high_speed = <0x1>;
card_line = <0x4>;
pinctrl-0 = <0x4d>;
};
card2_boot_para {
device_type = "card2_boot_para";
card_ctrl = <0x2>;
card_high_speed = <0x1>;
card_line = <0x8>;
pinctrl-0 = <0x4e>;
};
card1_boot_para {
device_type = "card1_boot_para";
card_ctrl = <0x1>;
card_high_speed = <0x1>;
card_line = <0x1>;
pinctrl-0 = <0x4f>;
};
twi_para {
device_type = "twi_para";
twi_port = <0x0>;
pinctrl-0 = <0x50>;
};
uart_para {
device_type = "uart_para";
uart_debug_port = <0x1>;
pinctrl-0 = <0x51>;
};
jtag_para {
device_type = "jtag_para";
jtag_enable = <0x0>;
pinctrl-0 = <0x52>;
};
dram {
device_type = "dram";
dram_clk = <0x1e0>;
dram_type = <0x3>;
dram_zq = <0x77bb>;
dram_odt_en = <0x1>;
dram_para1 = <0x4319f4>;
dram_para2 = <0x5>;
dram_mr0 = <0x620>;
dram_mr1 = <0x0>;
dram_mr2 = <0x8>;
dram_mr3 = <0x0>;
dram_tpr0 = <0x6141b10>;
dram_tpr1 = <0x40416>;
dram_tpr2 = <0x3030306>;
dram_tpr3 = <0x2006>;
dram_tpr4 = <0x5040405>;
dram_tpr5 = <0x5050302>;
dram_tpr6 = <0x90006644>;
dram_tpr7 = <0x42c21590>;
dram_tpr8 = <0xd05612c0>;
dram_tpr9 = <0x83def>;
dram_tpr10 = <0x18082356>;
dram_tpr11 = <0x32034156>;
dram_tpr12 = <0x0>;
dram_tpr13 = <0x0>;
};
rtp_para {
device_type = "rtp_para";
rtp_used = <0x0>;
rtp_screen_size = <0x5>;
rtp_regidity_level = <0x5>;
rtp_press_threshold_enable = <0x0>;
rtp_press_threshold = <0x1f40>;
rtp_sensitive_level = <0xf>;
rtp_exchange_x_y_flag = <0x0>;
};
ctp {
device_type = "ctp";
status = "okay";
ctp_twi_id = <0x0>;
ctp_twi_addr = <0x48>;
ctp_screen_max_x = <0x320>;
ctp_screen_max_y = <0x1e0>;
ctp_revert_x_flag = <0x1>;
ctp_revert_y_flag = <0x1>;
ctp_exchange_x_y_flag = <0x1>;
};
tkey_para {
device_type = "tkey_para";
tkey_used = <0x0>;
tkey_twi_id;
tkey_twi_addr;
tkey_int;
};
motor_para {
device_type = "motor_para";
motor_used = <0x0>;
};
nand0 {
device_type = "nand0";
nand0_support_2ch = <0x0>;
status = "disabled";
pinctrl-0 = <0x5c 0x5d>;
nand0_regulator1 = "vcc-nand";
nand0_regulator2 = "none";
nand0_cache_level = <0x55aaaa55>;
nand0_flush_cache_num = <0x55aaaa55>;
nand0_capacity_level = <0x55aaaa55>;
nand0_id_number_ctl = <0x55aaaa55>;
nand0_print_level = <0x55aaaa55>;
nand0_p0 = <0x55aaaa55>;
nand0_p1 = <0x55aaaa55>;
nand0_p2 = <0x55aaaa55>;
nand0_p3 = <0x55aaaa55>;
};
pwm0_para {
device_type = "pwm0_para";
pwm_used = <0x0>;
pinctrl-0 = <0x60>;
};
pwm1_para {
device_type = "pwm1_para";
pwm_used = <0x0>;
pinctrl-0 = <0x61>;
};
vip0 {
device_type = "vip0";
status = "okay";
pinctrl-0 = <0x62 0x63>;
vip0_mname = "gc0308";
vip0_twi_addr = <0x42>;
vip0_twi_id = <0x0>;
vip0_isp_used = <0x0>;
vip0_fmt = <0x0>;
vip0_stby_mode = <0x0>;
vip0_vflip = <0x0>;
vip0_hflip = <0x0>;
vip0_iovdd;
vip0_iovdd_vol = <0x2ab980>;
vip0_avdd;
vip0_avdd_vol = <0x2ab980>;
vip0_dvdd;
vip0_dvdd_vol = <0x16e360>;
vip0_afvdd;
vip0_afvdd_vol = <0x2ab980>;
vip0_power_en;
vip0_reset = <0x7fc>;
vip0_pwdn;
vip0_flash_en;
vip0_flash_mode;
vip0_af_pwdn;
};
tvout_para {
device_type = "tvout_para";
tvout_used;
tvout_channel_num;
tv_en;
};
tvin_para {
device_type = "tvin_para";
tvin_used;
tvin_channel_num;
};
smc {
device_type = "smc";
smc_used;
smc_rst;
smc_vppen;
smc_vppp;
smc_det;
smc_vccen;
smc_sck;
smc_sda;
};
gsensor_para {
device_type = "gsensor_para";
gsensor_used = <0x0>;
gsensor_twi_id = <0x2>;
gsensor_twi_addr = <0x18>;
gsensor_int1 = <0x24 0x0 0x9 0x6 0x1 0xffffffff 0xffffffff>;
gsensor_int2;
};
gps_para {
device_type = "gps_para";
};
gy_para {
device_type = "gy_para";
gy_used = <0x0>;
gy_twi_id = <0x2>;
gy_twi_addr = <0x6a>;
gy_int1 = <0x24 0x0 0xa 0x6 0x1 0xffffffff 0xffffffff>;
gy_int2;
};
ls_para {
device_type = "ls_para";
ls_used = <0x0>;
ls_twi_id = <0x2>;
ls_twi_addr = <0x23>;
ls_int = <0x24 0x0 0xc 0x6 0x1 0xffffffff 0xffffffff>;
};
compass_para {
device_type = "compass_para";
compass_used = <0x0>;
compass_twi_id = <0x2>;
compass_twi_addr = <0xd>;
compass_int = <0x24 0x0 0xb 0x6 0x1 0xffffffff 0xffffffff>;
};
bt_para {
device_type = "bt_para";
bt_used;
bt_uart_id;
bt_wakeup;
bt_gpio;
bt_rst;
};
audiospdif {
device_type = "audiospdif";
status = "disabled";
};
spdif_machine {
device_type = "spdif_machine";
status = "disabled";
};
audiohdmi {
device_type = "audiohdmi";
status = "disabled";
};
hdmi_machine {
device_type = "hdmi_machine";
status = "disabled";
};
pmu0 {
device_type = "pmu0";
status = "disabled";
pmu_id = <0x6>;
pmu_twi_addr = <0x34>;
pmu_twi_id = <0x1>;
pmu_irq_id = <0x0>;
pmu_chg_ic_temp = <0x0>;
pmu_battery_rdc = <0x64>;
pmu_battery_cap = <0x0>;
pmu_runtime_chgcur = <0x1c2>;
pmu_suspend_chgcur = <0x5dc>;
pmu_shutdown_chgcur = <0x5dc>;
pmu_init_chgvol = <0x1068>;
pmu_ac_vol = <0xfa0>;
pmu_ac_cur = <0x0>;
pmu_usbpc_vol = <0x1130>;
pmu_usbpc_cur = <0x1f4>;
pmu_battery_warning_level1 = <0xf>;
pmu_battery_warning_level2 = <0x0>;
pmu_chgled_func = <0x0>;
pmu_chgled_type = <0x0>;
pmu_bat_para1 = <0x0>;
pmu_bat_para2 = <0x0>;
pmu_bat_para3 = <0x0>;
pmu_bat_para4 = <0x0>;
pmu_bat_para5 = <0x0>;
pmu_bat_para6 = <0x0>;
pmu_bat_para7 = <0x0>;
pmu_bat_para8 = <0x0>;
pmu_bat_para9 = <0x5>;
pmu_bat_para10 = <0x8>;
pmu_bat_para11 = <0x9>;
pmu_bat_para12 = <0xa>;
pmu_bat_para13 = <0xd>;
pmu_bat_para14 = <0x10>;
pmu_bat_para15 = <0x14>;
pmu_bat_para16 = <0x21>;
pmu_bat_para17 = <0x29>;
pmu_bat_para18 = <0x2e>;
pmu_bat_para19 = <0x32>;
pmu_bat_para20 = <0x35>;
pmu_bat_para21 = <0x39>;
pmu_bat_para22 = <0x3d>;
pmu_bat_para23 = <0x43>;
pmu_bat_para24 = <0x49>;
pmu_bat_para25 = <0x4e>;
pmu_bat_para26 = <0x54>;
pmu_bat_para27 = <0x58>;
pmu_bat_para28 = <0x5c>;
pmu_bat_para29 = <0x5d>;
pmu_bat_para30 = <0x5e>;
pmu_bat_para31 = <0x5f>;
pmu_bat_para32 = <0x64>;
pmu_bat_temp_enable = <0x0>;
pmu_bat_charge_ltf = <0x8d5>;
pmu_bat_charge_htf = <0x184>;
pmu_bat_shutdown_ltf = <0xc80>;
pmu_bat_shutdown_htf = <0xed>;
pmu_bat_temp_para1 = <0x1d2a>;
pmu_bat_temp_para2 = <0x1180>;
pmu_bat_temp_para3 = <0xdbe>;
pmu_bat_temp_para4 = <0xae2>;
pmu_bat_temp_para5 = <0x8af>;
pmu_bat_temp_para6 = <0x6fc>;
pmu_bat_temp_para7 = <0x5a8>;
pmu_bat_temp_para8 = <0x3c9>;
pmu_bat_temp_para9 = <0x298>;
pmu_bat_temp_para10 = <0x1d2>;
pmu_bat_temp_para11 = <0x189>;
pmu_bat_temp_para12 = <0x14d>;
pmu_bat_temp_para13 = <0x11b>;
pmu_bat_temp_para14 = <0xf2>;
pmu_bat_temp_para15 = <0xb3>;
pmu_bat_temp_para16 = <0x86>;
pmu_powkey_off_time = <0x1770>;
pmu_powkey_off_func = <0x0>;
pmu_powkey_off_en = <0x1>;
pmu_powkey_long_time = <0x5dc>;
pmu_powkey_on_time = <0x3e8>;
};
pmu0_regu {
device_type = "pmu0_regu";
regulator_count = <0x17>;
regulator1 = "axp28_rtc";
regulator2 = "axp28_aldo1";
regulator3 = "axp28_aldo2";
regulator4 = "axp28_aldo3";
regulator5 = "axp28_dldo1";
regulator6 = "axp28_dldo2";
regulator7 = "axp28_dldo3";
regulator8 = "axp28_dldo4";
regulator9 = "axp28_eldo1";
regulator0 = "axp28_eldo2";
regulator11 = "axp28_eldo3";
regulator12 = "axp28_fldo1";
regulator13 = "axp28_fldo2";
regulator14 = "axp28_dcdc1";
regulator15 = "axp28_dcdc2";
regulator16 = "axp28_dcdc3";
regulator17 = "axp28_dcdc4";
regulator18 = "axp28_dcdc5";
regulator19 = "axp28_dcdc6";
regulator20 = "axp28_dcdc7";
regulator21 = "axp28_gpio0ldo";
regulator22 = "axp28_gpio1ldo";
};
dvfs_table {
device_type = "dvfs_table";
max_freq = <0x47868c00>;
min_freq = <0x1c9c3800>;
LV_count = <0x8>;
LV1_freq = <0x5b8d8000>;
LV1_volt = <0x5dc>;
LV2_freq = <0x501bd000>;
LV2_volt = <0x5b4>;
LV3_freq = <0x47868c00>;
LV3_volt = <0x528>;
LV4_freq = <0x3c14dc00>;
LV4_volt = <0x4b0>;
LV5_freq = <0x30a32c00>;
LV5_volt = <0x44c>;
LV6_freq = <0x269fb200>;
LV6_volt = <0x410>;
LV7_freq = <0x0>;
LV7_volt = <0x410>;
LV8_freq = <0x0>;
LV8_volt = <0x410>;
};
fel_key {
device_type = "fel_key";
keyen_flag = <0x1>;
fel_key_max = <0x1aa>;
fel_key_min = <0x100>;
};
partitions {
device_type = "partitions";
bootlogo {
device_type = "bootlogo";
offset = <0x2000>;
size = <0x400>;
};
env {
device_type = "env";
offset = <0x2400>;
size = <0x200>;
};
boot {
device_type = "boot";
offset = <0x2600>;
size = <0x3000>;
};
rootfs {
device_type = "rootfs";
offset = <0x5600>;
size = <0xc800>;
};
rootfs_data {
device_type = "rootfs_data";
offset = <0x11e00>;
size = <0xc800>;
};
misc {
device_type = "misc";
offset = <0x1e600>;
size = <0x200>;
};
private {
device_type = "private";
offset = <0x1e800>;
size = <0x200>;
};
UDISK {
device_type = "UDISK";
offset = <0x1ea00>;
size = <0x0>;
};
};
};
aliases {
serial0 = "/soc/uart@01c25000", "/soc/uart@01c25000";
serial1 = "/soc/uart@01c25400", "/soc/uart@01c25400";
serial2 = "/soc/uart@01c25800", "/soc/uart@01c25800";
twi0 = "/soc/twi@0x01c27000", "/soc/twi@0x01c27000";
twi1 = "/soc/twi@0x01c27400", "/soc/twi@0x01c27400";
twi2 = "/soc/twi@0x01c27800", "/soc/twi@0x01c27800";
spi0 = "/soc/spi@01c05000", "/soc/spi@01c05000";
spinand = "/soc/spinand@01c05000", "/soc/spinand@01c05000";
spi1 = "/soc/spi@01c06000", "/soc/spi@01c06000";
mmc0 = "/soc/sdmmc@01c0f000", "/soc/sdmmc@01c0f000";
mmc1 = "/soc/sdmmc@01c10000", "/soc/sdmmc@01c10000";
global_timer0 = "/soc/timer@1c20c00", "/soc/timer@1c20c00";
csi_res0 = "/soc/csi_res@0x01cb0000", "/soc/csi_res@0x01cb0000";
vfe0 = "/soc/vfe@0", "/soc/vfe@0";
disp = "/soc/disp@0x01e00000", "/soc/disp@0x01e00000";
lcd0 = "/soc/lcd0@01c0c000", "/soc/lcd0@01c0c000";
tvd = "/soc/tvd0@01c0b000", "/soc/tvd0@01c0b000";
pwm = "/soc/pwm@01c21000", "/soc/pwm@01c21000";
pwm0 = "/soc/pwm0@01c21000", "/soc/pwm0@01c21000";
pwm1 = "/soc/pwm1@01c21000", "/soc/pwm1@01c21000";
};
chosen {
bootargs = "earlyprintk=sunxi-uart,0x01c25000 loglevel=8 initcall_debug=1 console=ttyS0 init=/init";
linux,initrd-start = <0x0 0x0>;
linux,initrd-end = <0x0 0x0>;
};
cpus {
#address-cells = <0x1>;
#size-cells = <0x0>;
cpu@0 {
device_type = "cpu";
compatible = "arm,arm926ejs";
reg = <0x0>;
};
};
sram_ctrl {
device_type = "sram_ctrl";
compatible = "allwinner,sram_ctrl";
reg = <0x0 0x1c00000 0x0 0x100>;
};
ion {
compatible = "allwinner,sunxi-ion";
system {
type = <0x0>;
};
cma {
type = <0x4>;
};
system_contig {
type = <0x1>;
};
};
memory@80000000 {
device_type = "memory";
reg = <0x0 0x80000000 0x0 0x2000000>;
};
interrupt-controller@01c20400 {
compatible = "allwinner,sun3i-intc";
#interrupt-cells = <0x1>;
#address-cells = <0x0>;
device_type = "intc";
interrupt-controller;
reg = <0x0 0x1c20400 0x0 0x1000>;
linux,phandle = <0x1>;
phandle = <0x1>;
};
watchdog@01c20ca0 {
compatible = "allwinner,sun3i-wdt";
reg = <0x0 0x1c20ca0 0x0 0x18>;
};
};./out/violin-F1C200s/image/sys_config.fex
;A31 PAD application
;---------------------------------------------------------------------------------------------------------
; 说明: 脚本中的字符串区分大小写,用户可以修改"="后面的数值,但是不要修改前面的字符串
; 描述gpio的形式:Port:端口+组内序号<功能分配><内部电阻状态><驱动能力><输出电平状态>
;---------------------------------------------------------------------------------------------------------
[product]
version = "100"
machine = "evb"
[platform]
eraseflag = 1
debug_mode = 1
;----------------------------------------------------------------------------------
; system configuration
; ?
;dcdc1_vol ---set dcdc1 voltage,mV,1600-3400,100mV/step
;dcdc2_vol ---set dcdc2 voltage,mV,600-1540,20mV/step
;dcdc3_vol ---set dcdc3 voltage,mV,600-1860,20mV/step
;dcdc4_vol ---set dcdc4 voltage,mV,600-1540,20mV/step
;dcdc5_vol ---set dcdc5 voltage,mV,1000-2550,50mV/step
;aldo2_vol ---set aldo2 voltage,mV,700-3300,100mV/step
;aldo3_vol ---set aldo3 voltage,mV,700-3300,100mV/step
;----------------------------------------------------------------------------------
;----------------------------------------------------------------------------------
; storage_type 0:nand 1:sd 2:emmc 3:spinor 4:emmc3 5:spinand 6:sd1
;
; as spi0 and sdc0 both use PC0-PC2
; for spinor, set [target] storage_type = 3, [spi0] spi0_used = 1 , [sdc1] sdc1_used = 0
; for spinand, set [target] storage_type = 5, [spi0] spi0_used = 1 , [sdc1] sdc1_used = 0
; for sd1, set [target] storage_type = 6, [spi0] spi0_used = 0 , [sdc1] sdc1_used = 1
;----------------------------------------------------------------------------------
[target]
boot_clock = 408
storage_type = 6
burn_key = 0
[norflash]
size = 16
[power_sply]
dcdc1_vol = 3000
dcdc2_vol = 1200
dcdc3_vol = 1200
dcdc4_vol = 1200
dcdc5_vol = 1500
aldo2_vol = 1800
aldo3_vol = 3000
;[power_ctrl]
;power_off_key = port:PD14<0><0><default><1>
;power_on = port:PD15<1><0><default><0>
[pwr_ctrl]
power_off_key = port:PD20<0><0><default><1>
power_on = port:PA1<1><default><default><0>
pwroff_gpio_is_irq = 0
[card_boot]
logical_start = 40960
sprite_gpio0 =
;card_no = 1
;---------------------------------------------------------------------------------------------------------
; if 1 == standby_mode, then support super standby;
; else, support normal standby.
;---------------------------------------------------------------------------------------------------------
[pm_para]
standby_mode = 1
[card0_boot_para]
card_ctrl = 0
card_high_speed = 1
card_line = 4
sdc_d1 = port:PF0<2><1><2><default>
sdc_d0 = port:PF1<2><1><2><default>
sdc_clk = port:PF2<2><1><2><default>
sdc_cmd = port:PF3<2><1><2><default>
sdc_d3 = port:PF4<2><1><2><default>
sdc_d2 = port:PF5<2><1><2><default>
[card2_boot_para]
card_ctrl = 2
card_high_speed = 1
card_line = 8
sdc_clk = port:PC5<3><1><3><default>
sdc_cmd = port:PC6<3><1><3><default>
sdc_d0 = port:PC8<3><1><3><default>
sdc_d1 = port:PC9<3><1><3><default>
sdc_d2 = port:PC10<3><1><3><default>
sdc_d3 = port:PC11<3><1><3><default>
sdc_d4 = port:PC12<3><1><3><default>
sdc_d5 = port:PC13<3><1><3><default>
sdc_d6 = port:PC14<3><1><3><default>
sdc_d7 = port:PC15<3><1><3><default>
sdc_emmc_rst = port:PC16<3><1><3><default>
sdc_ds = port:PC01<3><1><3><default>
[card1_boot_para]
card_ctrl = 1
card_high_speed = 1
card_line = 1
sdc_clk = port:PC0<3><1><3><default>
sdc_cmd = port:PC1<3><1><3><default>
sdc_d0 = port:PC2<3><1><3><default>
[twi_para]
twi_port = 0
twi_scl = port:PD12<3><default><default><default>
twi_sda = port:PD00<3><default><default><default>
[uart_para]
uart_debug_port = 1
uart_debug_tx = port:PA2<5><1><default><default>
uart_debug_rx = port:PA3<5><1><default><default>
[jtag_para]
jtag_enable = 0
jtag_ms = port:PH9<3><default><default><default>
jtag_ck = port:PH10<3><default><default><default>
jtag_do = port:PH11<3><default><default><default>
jtag_di = port:PH12<3><default><default><default>
;*****************************************************************************
;sdram configuration
;
;*****************************************************************************
[dram_para]
dram_clk = 480
dram_type = 3
dram_zq = 0x77bb
dram_odt_en = 1
dram_para1 = 0x004319f4
dram_para2 = 0x5
dram_mr0 = 0x620
dram_mr1 = 0x0
dram_mr2 = 0x8
dram_mr3 = 0
dram_tpr0 = 0x06141B10
dram_tpr1 = 0x40416
dram_tpr2 = 0x03030306
dram_tpr3 = 0x2006
dram_tpr4 = 0x05040405
dram_tpr5 = 0x05050302
dram_tpr6 = 0x90006644
dram_tpr7 = 0x42c21590
dram_tpr8 = 0xd05612c0
dram_tpr9 = 0x00083def
dram_tpr10 = 0x18082356
dram_tpr11 = 0x32034156
dram_tpr12 = 0
dram_tpr13 = 0
;----------------------------------------------------------------------------------
;i2c configuration
;----------------------------------------------------------------------------------
[twi0]
twi0_used = 1
twi0_scl = port:PD12<3><default><default><default>
twi0_sda = port:PD00<3><default><default><default>
[twi1]
twi1_used = 0
twi1_scl = port:PB00<2><default><default><default>
twi1_sda = port:PB01<2><default><default><default>
[twi2]
twi2_used = 0
twi2_scl = port:PD15<4><default><default><default>
twi2_sda = port:PD16<4><default><default><default>
;----------------------------------------------------------------------------------
;TWI device configuration
;compatible --- device name
;reg --- device address
;----------------------------------------------------------------------------------
;[twi0/twi_board0]
;compatible =
;reg =
[io_expand]
compatible = "nxp,pcf8574a"
reg = 0x20
gpio_base = 2040
;int-gpio = port:PE09<6><default><1><1>
;----------------------------------------------------------------------------------
;uart configuration
;uart_type --- 2 (2 wire), 4 (4 wire), 8 (8 wire, full function)
;----------------------------------------------------------------------------------
[uart0]
uart0_used = 0
uart0_port = 0
uart0_type = 2
uart0_tx = port:PF2<3><1><default><default>
uart0_rx = port:PF4<3><1><default><default>
[uart1]
uart1_used = 1
uart1_port = 1
uart1_type = 2
uart1_tx = port:PA2<5><1><default><default>
uart1_rx = port:PA3<5><1><default><default>
;----------------------------------------------------------------------------------
;SPI controller configuration
;----------------------------------------------------------------------------------
[spi0]
spi0_used = 0
spi0_cs_number = 1
spi0_cs_bitmap = 1
spi0_cs0 = port:PC1<2><1><default><default>
spi0_sclk = port:PC0<2><default><default><default>
spi0_mosi = port:PC3<2><default><default><default>
spi0_miso = port:PC2<2><default><default><default>
[spi1]
spi1_used = 1
spi1_cs_number = 1
spi1_cs_bitmap = 1
spi1_cs0 = port:PE07<4><1><default><default>
spi1_sclk = port:PE09<4><default><default><default>
spi1_mosi = port:PE08<4><default><default><default>
spi1_miso = port:PE10<4><default><default><default>
;----------------------------------------------------------------------------------
;SPI device configuration
;compatible --- device name
;spi-max-frequency --- work frequency
;reg --- chip select
;optional properties: spi-cpha, spi-cpol, spi-cs-high
;----------------------------------------------------------------------------------
;[spi0/spi_board0]
;compatible =
;spi-max-frequency =
;reg =
;spi-cpha
;spi-cpol
;spi-cs-high
;----------------------------------------------------------------------------------
;resistance tp configuration
;----------------------------------------------------------------------------------
[rtp_para]
rtp_used = 0
rtp_screen_size = 5
rtp_regidity_level = 5
rtp_press_threshold_enable = 0
rtp_press_threshold = 0x1f40
rtp_sensitive_level = 0xf
rtp_exchange_x_y_flag = 0
;----------------------------------------------------------------------------------
;capacitor tp configuration
;external int function
;wakeup output function
;notice --- tp_int_port & tp_io_port use the same port
;----------------------------------------------------------------------------------
[ctp]
ctp_used = 1
ctp_twi_id = 0
ctp_twi_addr = 0x48
ctp_screen_max_x = 800
ctp_screen_max_y = 480
ctp_revert_x_flag = 1
ctp_revert_y_flag = 1
ctp_exchange_x_y_flag = 1
;ctp_int_port = port:PE12<6><default><default><1>
;ctp_wakeup = 2045
[twi0/touchscreen1]
compatible = "ctp_icn85xx"
reg = 0x48
;----------------------------------------------------------------------------------
;touch key configuration
;----------------------------------------------------------------------------------
[tkey_para]
tkey_used = 0
tkey_twi_id =
tkey_twi_addr =
tkey_int =
;----------------------------------------------------------------------------------
;motor configuration
;----------------------------------------------------------------------------------
[motor_para]
motor_used = 0
;motor_shake = port:power3<1><default><default><1>
[nand0_para]
nand0_support_2ch = 0
nand0_used = 0
nand0_we = port:PC00<2><0><1><default>
nand0_ale = port:PC01<2><0><1><default>
nand0_cle = port:PC02<2><0><1><default>
nand0_ce0 = port:PC03<2><1><1><default>
nand0_nre = port:PC04<2><0><1><default>
nand0_rb0 = port:PC05<2><1><1><default>
nand0_d0 = port:PC06<2><0><1><default>
nand0_d1 = port:PC07<2><0><1><default>
nand0_d2 = port:PC08<2><0><1><default>
nand0_d3 = port:PC09<2><0><1><default>
nand0_d4 = port:PC10<2><0><1><default>
nand0_d5 = port:PC11<2><0><1><default>
nand0_d6 = port:PC12<2><0><1><default>
nand0_d7 = port:PC13<2><0><1><default>
nand0_ndqs = port:PC14<2><0><1><default>
nand0_regulator1 = "vcc-nand"
nand0_regulator2 = "none"
nand0_cache_level = 0x55aaaa55
nand0_flush_cache_num = 0x55aaaa55
nand0_capacity_level = 0x55aaaa55
nand0_id_number_ctl = 0x55aaaa55
nand0_print_level = 0x55aaaa55
nand0_p0 = 0x55aaaa55
nand0_p1 = 0x55aaaa55
nand0_p2 = 0x55aaaa55
nand0_p3 = 0x55aaaa55
;----------------------------------------------------------------------------------
;disp init configuration
;
;disp_mode (0:screen0<screen0,fb0>)
;screenx_output_type (0:none; 1:lcd; 3:hdmi;)
;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)
;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)
;----------------------------------------------------------------------------------
[disp]
disp_init_enable = 1
disp_mode = 0
screen0_output_type = 1
screen0_output_mode = 4
screen1_output_type = 1
screen1_output_mode = 4
fb0_framebuffer_num = 2
fb0_pixel_sequence = 0
fb0_scaler_mode_enable = 0
fb0_format = 0
fb0_width = 0
fb0_height = 0
fb1_framebuffer_num = 0
fb1_pixel_sequence = 0
fb1_scaler_mode_enable = 0
fb1_format = 0
fb1_width = 0
fb1_height = 0
lcd0_backlight = 50
lcd1_backlight = 50
lcd0_bright = 50
lcd0_contrast = 50
lcd0_saturation = 57
lcd0_hue = 50
lcd1_bright = 50
lcd1_contrast = 50
lcd1_saturation = 57
lcd1_hue = 50
;----------------------------------------------------------------------------------
;lcd0 configuration
;lcd_if: 0:hv(sync+de); 1:8080; 2:ttl; 3:lvds; 4:dsi; 5:edp; 6:extend dsi
;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
;lcd_ht: hsync total cycle
;lcd_vbp: vsync back porch
;lcd_vt: vysnc total cycle
;lcd_hspw: hsync plus width
;lcd_vspw: vysnc plus width
;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)
;----------------------------------------------------------------------------------
[lcd0]
lcd_used = 1
;-------------------------------------
; avdisplay lcd
;-------------------------------------
lcd_driver_name = "ili6122_800x480"
lcd_if = 0
lcd_x = 800
lcd_y = 480
lcd_width = 109
lcd_height = 63
lcd_dclk_freq = 33
lcd_pwm_used = 1
lcd_pwm_ch = 0
lcd_pwm_freq = 50000
lcd_pwm_pol = 1
lcd_hbp = 55
lcd_ht = 1056
lcd_hspw = 20
lcd_vbp = 35
lcd_vt = 525
lcd_vspw = 10
lcd_hv_if = 0
lcd_hv_smode = 0
lcd_hv_s888_if = 0
lcd_hv_syuv_if = 0
lcd_hv_vspw = 10
lcd_hv_hspw = 20
lcd_hv_sync_polarity = 3
;-------------------------------------
; qiutianwei lcd
;-------------------------------------
;lcd_x = 800
;lcd_y = 480
;lcd_width = 108
;lcd_height = 64
;lcd_dclk_freq = 33
;lcd_pwm_used = 1
;lcd_pwm_ch = 0
;lcd_pwm_freq = 50000
;lcd_pwm_pol = 1
;lcd_hbp = 88
;lcd_ht = 928
;lcd_hspw = 48
;lcd_vbp = 35
;lcd_vt = 525
;lcd_vspw = 3
;lcd_hv_if = 0
;lcd_hv_smode = 0
;lcd_hv_s888_if = 0
;lcd_hv_syuv_if = 0
;lcd_hv_vspw = 10
;lcd_hv_hspw = 123
;lcd_x = 1024
;lcd_y = 600
;lcd_width = 154
;lcd_height = 86
;lcd_dclk_freq = 50
;lcd_pwm_used = 1
;lcd_pwm_ch = 0
;lcd_pwm_freq = 50000
;lcd_pwm_pol = 1
;lcd_hbp = 160
;lcd_ht = 1344
;lcd_hspw = 48
;lcd_vbp = 23
;lcd_vt = 635
;lcd_vspw = 3
;lcd_hv_if = 0
;lcd_hv_smode = 0
;lcd_hv_s888_if = 0
;lcd_hv_syuv_if = 0
;lcd_hv_vspw = 10
;lcd_hv_hspw = 123
lcd_lvds_if = 0
lcd_lvds_colordepth = 1
lcd_lvds_mode = 0
lcd_lvds_ch = 0
lcd_lvds_bitwidth = 0
lcd_lvds_io_cross = 0
lcd_cpu_if = 0
lcd_frm = 1
lcd_rb_swap = 1
lcd_io_phase = 0x0000
lcd_gamma_en = 0
lcd_bright_curve_en = 0
lcd_cmap_en = 0
deu_mode = 0
lcdgamma4iep = 22
lcd_io_cfg0 = 0x00000000
smart_color = 90
;lcd_bl_en_used = 0
;lcd_bl_en = port:PE12<1><0><default><1>
;lcd_power = port:PE06<1><0><default><0>
lcd_gpio_0 = 2043
;lcdd2 = port:PD00<2><0><default><default>
lcdd3 = port:PD01<2><0><default><default>
lcdd4 = port:PD02<2><0><default><default>
lcdd5 = port:PD03<2><0><default><default>
lcdd6 = port:PD04<2><0><default><default>
lcdd7 = port:PD05<2><0><default><default>
lcdd10 = port:PD06<2><0><default><default>
lcdd11 = port:PD07<2><0><default><default>
lcdd12 = port:PD08<2><0><default><default>
lcdd13 = port:PD09<2><0><default><default>
lcdd14 = port:PD10<2><0><default><default>
lcdd15 = port:PD11<2><0><default><default>
;lcdd18 = port:PD12<2><0><default><default>
lcdd19 = port:PD13<2><0><default><default>
lcdd20 = port:PD14<2><0><default><default>
lcdd21 = port:PD15<2><0><default><default>
lcdd22 = port:PD16<2><0><default><default>
lcdd23 = port:PD17<2><0><default><default>
lcdclk = port:PD18<2><0><3><default>
lcdde = port:PD19<2><0><3><default>
;lcdhsync = port:PD20<2><0><3><default>
lcdvsync = port:PD21<2><0><3><default>
;----------------------------------------------------------------------------------
;pwm config
;----------------------------------------------------------------------------------
[pwm0_para]
pwm_used = 0
;pwm_positive = port:PH00<2><0><default><default>
pwm_positive = port:PE12<4><0><default><default>
[pwm1_para]
pwm_used = 0
pwm_positive = port:PE06<3><0><default><default>
;--------------------------------------------------------------------------------
;vip (video input port) configuration
;vip(x)_used: 0:disable 1:enable
;vip(x)_isp_used 0:not use isp 1:use isp
;vip(x)_fmt: 0:yuv 1:bayer raw rgb
;vip(x)_stby_mode: 0:not shut down power at standby 1:shut down power at standby
;vip(x)_vflip: flip in vertical direction 0:disable 1:enable
;vip(x)_hflip: flip in horizontal direction 0:disable 1:enable
;vip(x)_iovdd: camera module io power handle string, pmu power supply
;vip(x)_iovdd_vol: camera module io power voltage, pmu power supply
;vip(x)_avdd: camera module analog power handle string, pmu power supply
;vip(x)_avdd_vol: camera module analog power voltage, pmu power supply
;vip(x)_dvdd: camera module core power handle string, pmu power supply
;vip(x)_dvdd_vol: camera module core power voltage, pmu power supply
;vip(x)_afvdd: camera module vcm power handle string, pmu power supply
;vip(x)_afvdd_vol: camera module vcm power voltage, pmu power supply
;fill voltage in uV, e.g. iovdd = 2.8V, vip_devx_iovdd_vol = 2800000
;fill handle string as below:
;axp22_eldo3
;axp22_dldo4
;axp22_eldo2
;fill handle string "" when not using any pmu power supply
;--------------------------------------------------------------------------------
[vip0]
vip0_used = 1
vip0_csi_pck = port:PE02<2><default><default><default>
vip0_csi_mck = port:PE11<2><1><3><0>
vip0_csi_hsync = port:PE00<2><default><default><default>
vip0_csi_vsync = port:PE01<2><default><default><default>
vip0_csi_d0 = port:PE03<2><default><default><default>
vip0_csi_d1 = port:PE04<2><default><default><default>
vip0_csi_d2 = port:PE05<2><default><default><default>
vip0_csi_d3 = port:PE06<2><default><default><default>
vip0_csi_d4 = port:PE07<2><default><default><default>
vip0_csi_d5 = port:PE08<2><default><default><default>
vip0_csi_d6 = port:PE09<2><default><default><default>
vip0_csi_d7 = port:PE10<2><default><default><default>
;vip0_csi_sck = port:PD12<2><default><default><default>
;vip0_csi_sda = port:PD00<2><default><default><default>
vip0_mname = "gc0308"
vip0_twi_addr = 0x42
vip0_twi_id = 0
vip0_isp_used = 0
vip0_fmt = 0
vip0_stby_mode = 0
vip0_vflip = 0
vip0_hflip = 0
vip0_iovdd = ""
vip0_iovdd_vol = 2800000
vip0_avdd = ""
vip0_avdd_vol = 2800000
vip0_dvdd = ""
vip0_dvdd_vol = 1500000
vip0_afvdd = ""
vip0_afvdd_vol = 2800000
vip0_power_en =
vip0_reset = 2044
vip0_pwdn = ""
vip0_flash_en =
vip0_flash_mode =
vip0_af_pwdn =
;--------------------------------------------------------------------------------
;tv configuration
;
;--------------------------------------------------------------------------------
[tvout_para]
tvout_used =
tvout_channel_num =
tv_en =
[tvin_para]
tvin_used =
tvin_channel_num =
; ------------------------------------------------------------------------------|
; de-interlace configuration
;--------------------------------------------------------------------------------
[di]
di_used = 0
;--------------------------------------------------------------------------------
; SDMMC PINS MAPPING |
; ------------------------------------------------------------------------------|
; Config Guide |
; sdc_used: 1-enable card, 0-disable card |
; sdc_detmode: card detect mode |
; 1-detect card by gpio polling |
; 2-detect card by gpio irq(must use IO with irq function) |
; 3-no detect, always in for boot card |
; 4-manually insert and remove by /proc/driver/sunxi-mmc.x/insert|
; sdc_buswidth: card bus width, 1-1bit, 4-4bit, 8-8bit |
; sdc_use_wp: 1-with write protect IO, 0-no write protect IO |
; sdc_isio: for sdio card |
; sdc_regulator: power control.if card supports UHS-I/DDR and HS200 timing for|
; SD3.0 or eMMC4.5, regulator must be configured. the value is |
; the ldo name of AXP221, eg: sdc_regulator = "axp22_eldo2" |
; other: GPIO Mapping configuration |
; ------------------------------------------------------------------------------|
; Note: |
; 1 if detmode=2, sdc_det's config=6 |
; else if detmode=1, sdc_det's config=0 |
; else sdc_det IO is not necessary |
; 2 if the customer wants to support UHS-I and HS200 features, he must provide|
; an independent power supply for the card. This is only used in platforms |
; that supports SD3.0 cards and eMMC4.4+ flashes |
;--------------------------------------------------------------------------------
[sdc0]
sdc0_used = 1
;sdc0_detmode = 4
sdc0_buswidth = 4
sdc0_d1 = port:PF00<2><1><3><default>
sdc0_d0 = port:PF01<2><1><3><default>
sdc0_clk = port:PF02<2><1><3><default>
sdc0_cmd = port:PF03<2><1><3><default>
sdc0_d3 = port:PF04<2><1><3><default>
sdc0_d2 = port:PF05<2><1><3><default>
sdc0_det = port:PA01<0><1><3><default>
sdc0_use_wp = 0
sdc0_wp =
sdc0_isio = 0
sdc0_regulator = "none"
[sdc1]
sdc1_used = 1
sdc1_detmode = 4
sdc1_buswidth = 1
sdc1_clk = port:PC00<3><1><2><default>
sdc1_cmd = port:PC01<3><1><2><default>
sdc1_d0 = port:PC02<3><1><2><default>
sdc1_det =
sdc1_use_wp = 0
sdc1_wp =
sdc1_isio = 1
sdc1_regulator = "none"
; ------------------------------------------------------------------------------|
; sim card configuration
;--------------------------------------------------------------------------------
[smc]
smc_used =
smc_rst =
smc_vppen =
smc_vppp =
smc_det =
smc_vccen =
smc_sck =
smc_sda =
;--------------------------------
;[usbc0]:控制器0的配置。
;usb_used:USB使能标志。置1,表示系统中USB模块可用,置0,则表示系统USB禁用。
;usb_port_type:USB端口的使用情况。 0:device only;1:host only;2:OTG
;usb_detect_type:USB端口的检查方式。0:不做检测;1:vbus/id检查;2:id/dpdm检查
;usb_id_gpio:USB ID pin脚配置。具体请参考gpio配置说明。
;usb_det_vbus_gpio:USB DET_VBUS pin脚配置。具体请参考gpio配置说明。
;usb_drv_vbus_gpio:USB DRY_VBUS pin脚配置。具体请参考gpio配置说明。
;usb_det_vbus_gpio: "axp_ctrl",表示axp 提供
;--------------------------------
;--------------------------------
;--- USB0控制标志
;--------------------------------
;[usbc0]
;usbc0_used = 0
;usb_port_type = 2
;usb_detect_type = 1
;usb_id_gpio = port:PH09<0><1><default><default>
;usb_det_vbus_gpio = "axp_ctrl"
;usb_drv_vbus_gpio = port:PB07<1><0><default><0>
;usb_host_init_state = 0
;usb_regulator_io = "nocare"
;usb_regulator_vol = 0
;usb_wakeup_suspend = 0
;--- USB Device
;usb_luns = 3
;usb_serial_unique = 0
;usb_serial_number = "20080411"
[usbc0]
usbc0_used = 1
usb_port_type = 0
usb_detect_type = 1
usb_id_gpio =
usb_det_vbus_gpio =
usb_board_sel = 1
usb_drv_vbus_gpio = 2047
usb_host_init_state = 0
usb_regulator_io = "nocare"
usb_regulator_vol = 0
usb_wakeup_suspend = 0
; USB Device
usb_luns = 3
usb_serial_unique = 0
usb_serial_number = "20080411"
;--------------------------------
;--- USB1控制标志
;--------------------------------
;[usbc1]
;usbc1_used = 0
;usb_drv_vbus_gpio = port:PB06<1><0><default><0>
;usb_host_init_state = 1
;usb_regulator_io = "nocare"
;usb_regulator_vol = 0
;usb_wakeup_suspend = 0
;--------------------------------------------------------------------------------
; G sensor configuration
; gs_twi_id --- TWI ID for controlling Gsensor (0: TWI0, 1: TWI1, 2: TWI2)
;--------------------------------------------------------------------------------
[gsensor_para]
gsensor_used = 0
gsensor_twi_id = 2
gsensor_twi_addr = 0x18
gsensor_int1 = port:PA09<6><1><default><default>
gsensor_int2 =
;--------------------------------------------------------------------------------
; gps gpio configuration
; gps_spi_id --- the index of SPI controller. 0: SPI0, 1: SPI1, 2: SPI2, 15: no SPI used
; gps_spi_cs_num --- the chip select number of SPI controller. 0: SPI CS0, 1: SPI CS1
; gps_lradc --- the lradc number for GPS used. 0 and 1 is valid, set 2 if not use lradc
;--------------------------------------------------------------------------------
[gps_para]
;--------------------------------------------------------------------------------
;wlan configuration
;clocks: 32k clk
;wlan_power_num: the number of inputs for wifi power
;wlan_power(n): wifi power(n)
;wlan_io_regulator: the power of wifi io
;wlan_busnum: no. of bus(usb or bus)
;wlan_regon: wifi function enable/reset io
;wlan_hostwake: wifi device wake-up host
;status: okay
;--------------------------------------------------------------------------------
[wlan]
wlan_used = 1
compatible = "allwinner,sunxi-wlan"
wlan_busnum = 0
;wlan_power_num =
;wlan_power1 =
;wlan_io_regulator =
wlan_board_sel = 1
;wlan_hostwake = port:PD13<6><default><default><default>
wlan_hostwake = port:PE12<6><default><default><1>
;wlan_regon = port:PD16<1><1><3><0>
wlan_regon = 2041
;--------------------------------------------------------------------------------
;gyroscope
;--------------------------------------------------------------------------------
[gy_para]
gy_used = 0
gy_twi_id = 2
gy_twi_addr = 0x6a
gy_int1 = port:PA10<6><1><default><default>
gy_int2 =
;--------------------------------------------------------------------------------
;light sensor
;--------------------------------------------------------------------------------
[ls_para]
ls_used = 0
ls_twi_id = 2
ls_twi_addr = 0x23
ls_int = port:PA12<6><1><default><default>
;--------------------------------------------------------------------------------
;compass
;--------------------------------------------------------------------------------
[compass_para]
compass_used = 0
compass_twi_id = 2
compass_twi_addr = 0x0d
compass_int = port:PA11<6><1><default><default>
;--------------------------------------------------------------------------------
;blue tooth
;bt_used ---- blue tooth used (0- no used, 1- used)
;bt_uard_id ---- uart index
;--------------------------------------------------------------------------------
[bt_para]
bt_used =
bt_uart_id =
bt_wakeup =
bt_gpio =
bt_rst =
;--------------------------------------------------------------------------------
; NOTE :Make sure spdif_used = 0x1,spdifmach_used = 0x1,
; if register the sound card spdif.
;--------------------------------------------------------------------------------
[audiospdif]
audiospdif_used = 0
[spdif_machine]
spdif_machine_used = 0
;----------------------------------------------------------------------------------
; NOTE :Make sure hdmi_used = 0x1,hdmimach_used = 0x1,
; if register the sound card hdmi.
;---------------------------------------------------------------------------------
[audiohdmi]
audiohdmi_used = 0
[hdmi_machine]
hdmi_machine_used = 0
;--------------------------------------------------------------------------------
;allwinner,pcm_lrck_period :16/32/64/128/256
;allwinner,pcm_lrckr_period :no use
;allwinner,slot_width_select :16bits/20bits/24bits/32bits
;allwinner,pcm_lsb_first :0: msb first; 1: lsb first
;allwinner,tx_data_mode :0: 16bit linear PCM; 1: 8bit linear PCM; 2: 8bit u-law; 3: 8bit a-law
;allwinner,rx_data_mode :0: 16bit linear PCM; 1: 8bit linear PCM; 2: 8bit u-law; 3: 8bit a-law
;allwinner,daudio_master :1: SND_SOC_DAIFMT_CBM_CFM(codec clk & FRM master) use
; 2: SND_SOC_DAIFMT_CBS_CFM(codec clk slave & FRM master) not use
; 3: SND_SOC_DAIFMT_CBM_CFS(codec clk master & frame slave) not use
; 4: SND_SOC_DAIFMT_CBS_CFS(codec clk & FRM slave) use
;allwinner,audio_format: 1:SND_SOC_DAIFMT_I2S(standard i2s format). use
; 2:SND_SOC_DAIFMT_RIGHT_J(right justfied format).
; 3:SND_SOC_DAIFMT_LEFT_J(left justfied format)
; 4:SND_SOC_DAIFMT_DSP_A(pcm. MSB is available on 2nd BCLK rising edge after LRC rising edge). use
; 5:SND_SOC_DAIFMT_DSP_B(pcm. MSB is available on 1nd BCLK rising edge after LRC rising edge)
;allwinner,signal_inversion:1:SND_SOC_DAIFMT_NB_NF(normal bit clock + frame) use
; 2:SND_SOC_DAIFMT_NB_IF(normal BCLK + inv FRM)
; 3:SND_SOC_DAIFMT_IB_NF(invert BCLK + nor FRM) use
; 4:SND_SOC_DAIFMT_IB_IF(invert BCLK + FRM)
;allwinner,frametype :0: long frame = 2 clock width; 1: short frame
;allwinner,tdm_config :0:pcm 1:i2s
;allwinner,daudio0_used :0:not use 1:use
;-------------------------------------------------------------------------------
; NOTE :Make sure daudio0mach_used = 0x1,daudio0_used = 0x1,
; if register the sound card DAUDIO0.
;--------------------------------------------------------------------------------
;[daudio0_machine]
;daudio0_machine_used = 0
;-----------------------------------------------------------------------------
;[daudio0]
;pcm_lrck_period = 0x20
;pcm_lrckr_period = 0x01
;slot_width_select = 0x10
;pcm_lsb_first = 0x0
;tx_data_mode = 0x0
;rx_data_mode = 0x0
;daudio_master = 0x04
;audio_format = 0x01
;signal_inversion = 0x01
;frametype = 0x0
;tdm_config = 0x01
;daudio0_used = 0
;--------------------------------------------------------------------------------------
;allwinner,headphonevol :headphone volume:0x0--0x3f 0db--(-62db) 1db/step
;allwinner,spkervol : speaker volume:0x0--0x1f 0db-(-43.5db) 1.5db/step
;allwinner,earpiecevol : earpiece volume:0x0--0x1f 0db-(-43.5db) 1.5db/step
;allwinner,maingain : mainmic gain:0x0---0x7 0x0-0db 0x1:24db 3db/step
;allwinner,headsetmicgain : headphonemic gain:0x0---0x7 0x0-0db 0x1:24db 3db/step
;allwinner,adcagc_cfg : 1:use adcagc 0:no use
;allwinner,adcdrc_cfg : 1:use adcdrc 0:no use
;allwinner,adchpf_cfg : 1:use adchpf 0:no use
;allwinner,dacdrc_cfg : 1:use adcdrc 0:no use
;allwinner,dachpf_cfg : 1:use adchpf 0:no use
;allwinner,aif2config : 1:use aif2 0:no use
;allwinner,aif3config : 1:use aif3 0:no use
;--------------------------------------------------------------------------------
; NOTE :Make sure audiocodec_machine_used = 0x1,sun50i2s_used = 0x1
; sun50codec_used = 0x1,if register the sound card audiocodec.
;---------------------------------------------------------------------------------
;[audiocodec_machine]
;audiocodec_machine_used = 0
;-------------------------------------------------------------------------------------
;used ---0:not used,1:used
;pmu_id ---0:axp19x,1:axp209,2:axp22x,3:axp806,4:axp808,5:axp809,6:axp803,7:axp813
;pmu_twi_addr ---slave address
;pmu_twi_id ---i2c bus number (0 TWI0, 1 TWI2, 2 TWI3)
;pmu_irq_id ---irq number (0 irq0,1 irq1)
;pmu_chg_ic_temp ---intelligence charge pmu temperature. when it is 0, this function is closed.
;pmu_battery_rdc ---battery initial resistance
;pmu_battery_cap ---battery capability,mAh
;pmu_runtime_chgcur ---set initial charging current limite,mA, 300/450/600/750/900/1050/1200/1350/1500/1650/1800/1950/
;pmu_suspend_chgcur ---set suspend charging current limite,mA, 300/450/600/750/900/1050/1200/1350/1500/1650/1800/1950/
;pmu_shutdown_chgcur ---set shutdown charging current limite,mA, 300/450/600/750/900/1050/1200/1350/1500/1650/1800/1950/
;pmu_init_chgvol ---set initial charing target voltage,mV,4100/4220/4200/4240
;pmu_ac_vol ---set usb-ac limited voltage level,mV,4000/4100/4200/4300/4400/4500/4600/4700,0 - not limite
;pmu_ac_cur ---set usb-ac limited current level,mA,500/900, 0 - not limite
;pmu_usbpc_vol ---set usb-pc limited voltage level,mV,4000/4100/4200/4300/4400/4500/4600/4700,0 - not limite
;pmu_usbpc_cur ---set usb-pc limited current level,mA,500/900, 0 - not limite
;pmu_battery_warning_level1 ---low power warning high level,5%-20%,1%/step
;pmu_battery_warning_level2 ---low power warning low level,0%-15%,1%/step
;pmu_chgled_func ---CHGKED pin control, 0:controlled by pmu,1:controlled by Charger
;pmu_chgled_type ---CHGLED Type select when pmu_chgled_func=0,0:Type A, 1:type B
;pmu_bat_para1 ---battery indication at 3.13V
;pmu_bat_para2 ---battery indication at 3.27V
;pmu_bat_para3 ---battery indication at 3.34V
;pmu_bat_para4 ---battery indication at 3.41V
;pmu_bat_para5 ---battery indication at 3.48V
;pmu_bat_para6 ---battery indication at 3.52V
;pmu_bat_para7 ---battery indication at 3.55V
;pmu_bat_para8 ---battery indication at 3.57V
;pmu_bat_para9 ---battery indication at 3.59V
;pmu_bat_para10 ---battery indication at 3.61V
;pmu_bat_para11 ---battery indication at 3.63V
;pmu_bat_para12 ---battery indication at 3.64V
;pmu_bat_para13 ---battery indication at 3.66V
;pmu_bat_para14 ---battery indication at 3.7V
;pmu_bat_para15 ---battery indication at 3.73V
;pmu_bat_para16 ---battery indication at 3.77V
;pmu_bat_para17 ---battery indication at 3.78V
;pmu_bat_para18 ---battery indication at 3.8V
;pmu_bat_para19 ---battery indication at 3.82V
;pmu_bat_para20 ---battery indication at 3.84V
;pmu_bat_para21 ---battery indication at 3.85V
;pmu_bat_para22 ---battery indication at 3.87V
;pmu_bat_para23 ---battery indication at 3.91V
;pmu_bat_para24 ---battery indication at 3.94V
;pmu_bat_para25 ---battery indication at 3.98V
;pmu_bat_para26 ---battery indication at 4.01V
;pmu_bat_para27 ---battery indication at 4.05V
;pmu_bat_para28 ---battery indication at 4.08V
;pmu_bat_para29 ---battery indication at 4.1V
;pmu_bat_para30 ---battery indication at 4.12V
;pmu_bat_para31 ---battery indication at 4.14V
;pmu_bat_para32 ---battery indication at 4.15V
;pmu_bat_temp_enable ---battery temp detect enable
;pmu_bat_charge_ltf ---charge battery temp low threshold voltage
;pmu_bat_charge_htf ---charge battery temp high threshold voltage
;pmu_bat_shutdown_ltf ---shutdown battery temp low threshold voltage
;pmu_bat_shutdown_htf ---shutdown battery temp high threshold voltage
;pmu_bat_temp_para1 ---battery temp -25 voltage
;pmu_bat_temp_para2 ---battery temp -15 voltage
;pmu_bat_temp_para3 ---battery temp -10 voltage
;pmu_bat_temp_para4 ---battery temp -5 voltage
;pmu_bat_temp_para5 ---battery temp 0 voltage
;pmu_bat_temp_para6 ---battery temp 5 voltage
;pmu_bat_temp_para7 ---battery temp 10 voltage
;pmu_bat_temp_para8 ---battery temp 20 voltage
;pmu_bat_temp_para9 ---battery temp 30 voltage
;pmu_bat_temp_para10 ---battery temp 40 voltage
;pmu_bat_temp_para11 ---battery temp 45 voltage
;pmu_bat_temp_para12 ---battery temp 50 voltage
;pmu_bat_temp_para13 ---battery temp 55 voltage
;pmu_bat_temp_para14 ---battery temp 60 voltage
;pmu_bat_temp_para15 ---battery temp 70 voltage
;pmu_bat_temp_para16 ---battery temp 80 voltage
;pmu_powkey_off_time ---set pek off time,ms, 4000/6000/8000/10000
;pmu_powkey_off_func ---set pek off func, 0:shutdown,1:restart
;pmu_powkey_off_en ---set pek offlevel powerdown or not, 0:not powerdown,1:powerdown
;pmu_powkey_long_time ---set pek pek long irq time,ms,1000/1500/2000/2500
;pmu_powkey_on_time ---set pek on time,ms,128/1000/2000/3000
;--------------------------------------------------------------------------------------------------------
;--------------------------------------------------------------------------------------------------------
;pmu0 is axp81x
;--------------------------------------------------------------------------------------------------------
[pmu0]
used = 0
pmu_id = 6
pmu_twi_addr = 0x34
pmu_twi_id = 1
pmu_irq_id = 0
pmu_chg_ic_temp = 0
pmu_battery_rdc = 100
pmu_battery_cap = 0
pmu_runtime_chgcur = 450
pmu_suspend_chgcur = 1500
pmu_shutdown_chgcur = 1500
pmu_init_chgvol = 4200
pmu_ac_vol = 4000
pmu_ac_cur = 0
pmu_usbpc_vol = 4400
pmu_usbpc_cur = 500
pmu_battery_warning_level1 = 15
pmu_battery_warning_level2 = 0
pmu_chgled_func = 0
pmu_chgled_type = 0
pmu_bat_para1 = 0
pmu_bat_para2 = 0
pmu_bat_para3 = 0
pmu_bat_para4 = 0
pmu_bat_para5 = 0
pmu_bat_para6 = 0
pmu_bat_para7 = 0
pmu_bat_para8 = 0
pmu_bat_para9 = 5
pmu_bat_para10 = 8
pmu_bat_para11 = 9
pmu_bat_para12 = 10
pmu_bat_para13 = 13
pmu_bat_para14 = 16
pmu_bat_para15 = 20
pmu_bat_para16 = 33
pmu_bat_para17 = 41
pmu_bat_para18 = 46
pmu_bat_para19 = 50
pmu_bat_para20 = 53
pmu_bat_para21 = 57
pmu_bat_para22 = 61
pmu_bat_para23 = 67
pmu_bat_para24 = 73
pmu_bat_para25 = 78
pmu_bat_para26 = 84
pmu_bat_para27 = 88
pmu_bat_para28 = 92
pmu_bat_para29 = 93
pmu_bat_para30 = 94
pmu_bat_para31 = 95
pmu_bat_para32 = 100
pmu_bat_temp_enable = 0
pmu_bat_charge_ltf = 2261
pmu_bat_charge_htf = 388
pmu_bat_shutdown_ltf = 3200
pmu_bat_shutdown_htf = 237
pmu_bat_temp_para1 = 7466
pmu_bat_temp_para2 = 4480
pmu_bat_temp_para3 = 3518
pmu_bat_temp_para4 = 2786
pmu_bat_temp_para5 = 2223
pmu_bat_temp_para6 = 1788
pmu_bat_temp_para7 = 1448
pmu_bat_temp_para8 = 969
pmu_bat_temp_para9 = 664
pmu_bat_temp_para10 = 466
pmu_bat_temp_para11 = 393
pmu_bat_temp_para12 = 333
pmu_bat_temp_para13 = 283
pmu_bat_temp_para14 = 242
pmu_bat_temp_para15 = 179
pmu_bat_temp_para16 = 134
pmu_powkey_off_time = 6000
pmu_powkey_off_func = 0
pmu_powkey_off_en = 1
pmu_powkey_long_time = 1500
pmu_powkey_on_time = 1000
;--------------------------------------------------------------------------------------------------------
;pmu0 is axp81x
;regulator tree
;--------------------------------------------------------------------------------------------------------
[pmu0_regu]
regulator_count = 23
regulator1 = "axp28_rtc"
regulator2 = "axp28_aldo1"
regulator3 = "axp28_aldo2"
regulator4 = "axp28_aldo3"
regulator5 = "axp28_dldo1"
regulator6 = "axp28_dldo2"
regulator7 = "axp28_dldo3"
regulator8 = "axp28_dldo4"
regulator9 = "axp28_eldo1"
regulator0 = "axp28_eldo2"
regulator11 = "axp28_eldo3"
regulator12 = "axp28_fldo1"
regulator13 = "axp28_fldo2"
regulator14 = "axp28_dcdc1"
regulator15 = "axp28_dcdc2"
regulator16 = "axp28_dcdc3"
regulator17 = "axp28_dcdc4"
regulator18 = "axp28_dcdc5"
regulator19 = "axp28_dcdc6"
regulator20 = "axp28_dcdc7"
regulator21 = "axp28_gpio0ldo"
regulator22 = "axp28_gpio1ldo"
;----------------------------------------------------------------------------------
; dvfs voltage-frequency table configuration
;
; max_freq: cpu maximum frequency, based on Hz
; min_freq: cpu minimum frequency, based on Hz
;
; LV_count: count of LV_freq/LV_volt, must be < 16
;
; LV1: core vdd is 1.50v if cpu frequency is (1344Mhz, 1536Mhz]
; LV2: core vdd is 1.46v if cpu frequency is (1200Mhz, 1344Mhz]
; LV3: core vdd is 1.32v if cpu frequency is (1008Mhz, 1200Mhz]
; LV4: core vdd is 1.20v if cpu frequency is (816Mhz, 1008Mhz]
; LV5: core vdd is 1.10v if cpu frequency is (648Mhz, 816Mhz]
; LV6: core vdd is 1.04v if cpu frequency is (120Mhz, 648Mhz]
; LV7: core vdd is 1.04v if cpu frequency is (120Mhz, 648Mhz]
; LV8: core vdd is 1.04v if cpu frequency is (120Mhz, 648Mhz]
;
;----------------------------------------------------------------------------------
[dvfs_table]
;extremity_freq = 1344000000
max_freq = 1200000000
min_freq = 480000000
LV_count = 8
LV1_freq = 1536000000
LV1_volt = 1500
LV2_freq = 1344000000
LV2_volt = 1460
LV3_freq = 1200000000
LV3_volt = 1320
LV4_freq = 1008000000
LV4_volt = 1200
LV5_freq = 816000000
LV5_volt = 1100
LV6_freq = 648000000
LV6_volt = 1040
LV7_freq = 0
LV7_volt = 1040
LV8_freq = 0
LV8_volt = 1040
;----------------------------------------------------------------------------------
;virtual device
;virtual device for pinctrl testing
;device have pin PA1 PA2
;----------------------------------------------------------------------------------
[Vdevice]
Vdevice_used = 0
Vdevice_0 = port:PC00<4><1><2><default>
Vdevice_1 = port:PC01<4><1><2><default>
[fel_key]
keyen_flag = 1
fel_key_max = 426
fel_key_min = 256
[partitions]
[partitions/bootlogo]
offset = 8192
size = 1024
[partitions/env]
offset = 9216
size = 512
[partitions/boot]
offset = 9728
size = 12288
[partitions/rootfs]
offset = 22016
size = 51200
[partitions/rootfs_data]
offset = 73216
size = 51200
[partitions/misc]
offset = 124416
size = 512
[partitions/private]
offset = 124928
size = 512
[partitions/UDISK]
offset = 125440
size = 0编译Linux的时候, 会把 sys_config.fex 转换成 dts 文件?
离线
楼主 #4 2021-03-25 16:24:24 分享评论
- 无根浮萍
- 会员
- 注册时间: 2021-01-14
- 已发帖子: 62
- 积分: 31
Re: 全志官方tina linux sdk sys_config.fex 的 uart_debug_port 参数是如何影响uboot和linux
为了验证楼上的想法, 我把
./target/allwinner/violin-F1C200s/configs/sys_config.fex
[uart_para]
uart_debug_port = 1
uart_debug_tx = port:PA2<5><1><default><default>
uart_debug_rx = port:PA3<5><1><default><default>改成:
[uart_para]
uart_debug_port = 0
uart_debug_tx = port:PE0<5><1><default><default>
uart_debug_rx = port:PE0<5><1><default><default>然后执行make 命令
看 ./out/violin-F1C200s/image/.sunxi.dts 会不会跟着变化
离线
楼主 #5 2021-03-25 16:32:27 分享评论
- 无根浮萍
- 会员
- 注册时间: 2021-01-14
- 已发帖子: 62
- 积分: 31
Re: 全志官方tina linux sdk sys_config.fex 的 uart_debug_port 参数是如何影响uboot和linux
执行 pack 之后
./out/violin-F1C200s/image/.sunxi.dts
变了:
uart_para@0 {
linux,phandle = <0x51>;
phandle = <0x51>;
allwinner,pins = "PE0", "PE0";
allwinner,function = "uart_para";
allwinner,pname = "uart_debug_tx", "uart_debug_rx";
allwinner,muxsel = <0x5>;
allwinner,pull = <0x1>;
allwinner,drive = <0xffffffff>;
allwinner,data = <0xffffffff>;
};离线
楼主 #6 2021-03-25 16:37:14 分享评论
- 无根浮萍
- 会员
- 注册时间: 2021-01-14
- 已发帖子: 62
- 积分: 31
Re: 全志官方tina linux sdk sys_config.fex 的 uart_debug_port 参数是如何影响uboot和linux
看来, 对于linux kernel 来说, sys_config.fex 最终是生成了 dtb 文件, 继续研究 sys_config.fex 如何影响 u-boot的
离线
#7 2021-03-25 17:29:00 分享评论
- raspberryman
- 会员
- 注册时间: 2019-12-27
- 已发帖子: 503
- 积分: 465
Re: 全志官方tina linux sdk sys_config.fex 的 uart_debug_port 参数是如何影响uboot和linux
离线
#8 2021-03-26 08:43:38 分享评论
- cloudxxcloud
- 会员
- 注册时间: 2021-02-20
- 已发帖子: 39
- 积分: 26.5
Re: 全志官方tina linux sdk sys_config.fex 的 uart_debug_port 参数是如何影响uboot和linux
感觉就全志的 有点奇葩,其它家的都是用设备树
离线
#9 2021-03-26 09:46:12 分享评论
- shaoxi2010
- 会员
- 注册时间: 2019-06-13
- 已发帖子: 389
- 积分: 338
Re: 全志官方tina linux sdk sys_config.fex 的 uart_debug_port 参数是如何影响uboot和linux
这个你可以看看内核下的script的dts程序源码,全志在其基础上修改了源码,添加了一个参数-F专用于修改sysconfig到dts上去
离线
#10 2021-03-26 09:47:23 分享评论
- shaoxi2010
- 会员
- 注册时间: 2019-06-13
- 已发帖子: 389
- 积分: 338
Re: 全志官方tina linux sdk sys_config.fex 的 uart_debug_port 参数是如何影响uboot和linux
然后影响boot和uboot是通过update_boot0和update_uboot修改了二进制head部分的二进制,从而影响到串口输出
离线
#11 2021-03-26 09:49:57 分享评论
- shaoxi2010
- 会员
- 注册时间: 2019-06-13
- 已发帖子: 389
- 积分: 338
Re: 全志官方tina linux sdk sys_config.fex 的 uart_debug_port 参数是如何影响uboot和linux
这个就是这部分实现了uboot和boot0修改
printf "update bootloader\n"
update_boot0 boot0_nand.fex sys_config.bin NAND > /dev/null
update_boot0 boot0_sdcard.fex sys_config.bin SDMMC_CARD > /dev/null
#update_boot0 boot0_spinor.fex sys_config.bin SDMMC_CARD > /dev/null
update_fes1 fes1.fex sys_config.bin > /dev/null
update_uboot -no_merge u-boot.fex sys_config.bin > /dev/null
离线
#12 2021-03-26 09:51:50 分享评论
- shaoxi2010
- 会员
- 注册时间: 2019-06-13
- 已发帖子: 389
- 积分: 338
Re: 全志官方tina linux sdk sys_config.fex 的 uart_debug_port 参数是如何影响uboot和linux
这部分是实现dts的修改
cp sys_config.fex sys_config2.fex
sed -i "s/\(\[dram\)_para\(\]\)/\1\2/g" sys_config2.fex
sed -i "s/\(\[nand[0-9]\)_para\(\]\)/\1\2/g" sys_config2.fex
${RUN_DIR}/bin/dtc -@ -O dtb -o ${2} \
-b 0 \
-F sys_config2.fex \
-I dts \
${1}.pre
离线
楼主 #13 2021-03-26 10:08:42 分享评论
- 无根浮萍
- 会员
- 注册时间: 2021-01-14
- 已发帖子: 62
- 积分: 31
Re: 全志官方tina linux sdk sys_config.fex 的 uart_debug_port 参数是如何影响uboot和linux
感谢楼上两位大佬的提示,我继续摸索摸索,感觉全志这种实现太无厘头了 
离线
#14 2021-03-28 23:37:42 分享评论
- TeveT
- 会员
- 注册时间: 2019-07-01
- 已发帖子: 149
- 积分: 92
Re: 全志官方tina linux sdk sys_config.fex 的 uart_debug_port 参数是如何影响uboot和linux
楼主用的是3.5的吗,4.9的内核版本,已经可以直接操作dts了呀
离线
#15 2021-03-28 23:43:43 分享评论
- raspberryman
- 会员
- 注册时间: 2019-12-27
- 已发帖子: 503
- 积分: 465
Re: 全志官方tina linux sdk sys_config.fex 的 uart_debug_port 参数是如何影响uboot和linux
TeveT 说:
楼主用的是3.5的吗,4.9的内核版本,已经可以直接操作dts了呀
请问如何选择linux版本?f1c200s tina3.5
离线
#16 2021-03-29 08:47:41 分享评论
- TeveT
- 会员
- 注册时间: 2019-07-01
- 已发帖子: 149
- 积分: 92
Re: 全志官方tina linux sdk sys_config.fex 的 uart_debug_port 参数是如何影响uboot和linux
不是直接lunch么,内核版本选择没弄过
raspberryman 说:
TeveT 说:楼主用的是3.5的吗,4.9的内核版本,已经可以直接操作dts了呀
请问如何选择linux版本?f1c200s tina3.5
离线
#17 2021-03-29 08:58:01 分享评论
- 歌以咏志
- 会员
- 注册时间: 2019-09-21
- 已发帖子: 219
- 积分: 210
Re: 全志官方tina linux sdk sys_config.fex 的 uart_debug_port 参数是如何影响uboot和linux
ubuntu:/opt/f1c100s/Tina_rel/tina$ source build/envsetup.sh
Setup env done! Please run lunch next.
ubuntu:/opt/f1c100s/Tina_rel/tina$ lunch
You're building on Linux
Lunch menu... pick a combo:
1. astar_dm2-tina
2. astar_dm-tina
3. astar_evb-tina
...
90. v5_dvb-tina
91. v5_lindeni-tina
92. violin_F1C200s-tina
Which would you like? [Default violin_F1C200s]: 92
============================================
TINA_BUILD_TOP=/opt/f1c100s/Tina_rel/tina
TINA_TARGET_ARCH=arm
TARGET_PRODUCT=violin_F1C200s
TARGET_PLATFORM=violin
TARGET_BOARD=violin-F1C200s
TARGET_BUILD_VARIANT=tina
TARGET_BUILD_TYPE=release
TARGET_KERNEL_VERSION=3.10
TARGET_UBOOT=u-boot-2014.07
TARGET_CHIP=sun3iw1p1
============================================
ubuntu:/opt/f1c100s/Tina_rel/tina$默认的根本没得选。
离线
#18 2021-03-29 09:09:31 分享评论
- TeveT
- 会员
- 注册时间: 2019-07-01
- 已发帖子: 149
- 积分: 92
Re: 全志官方tina linux sdk sys_config.fex 的 uart_debug_port 参数是如何影响uboot和linux
原来是3.10 ,那没事了
离线
#19 2021-09-19 19:01:41 分享评论
- hoel
- 会员
- 注册时间: 2019-06-15
- 已发帖子: 96
- 积分: 31
Re: 全志官方tina linux sdk sys_config.fex 的 uart_debug_port 参数是如何影响uboot和linux
@歌以咏志
你好,你知道哪里可以买到你用的 TINA VIOLIN 吗? (Tina_rel)
离线
感谢为中文互联网持续输出优质内容的各位老铁们。
QQ: 516333132, 微信(wechat): whycan_cn (哇酷网/挖坑网/填坑网) service@whycan.cn