In some cases, such as mass production or preparing a demo. We need u-boot environment stored in demo sdcard mirror image.  Here is a way: HW:  i.MX8MP evk SW:  LF_v5.15.52-2.1.0_images_IMX8MPEVK.zip The idea is to use fw_setenv to set the sdcard mirror as the operation on a real emmc/sdcard. Add test=ABCD in u-boot-initial-env for test purpose. And use fw_printenv to check and use hexdump to double confirm it. The uboot env is already written into sdcard mirror(imx-image-multimedia-imx8mpevk.wic). All those operations are on the host x86/x64 PC. ./fw_setenv -c fw_env.config -f u-boot-initial-env Environment WRONG, copy 0 Cannot read environment, using default ./fw_printenv -c fw_env.config Environment OK, copy 0 jh_root_dtb=imx8mp-evk-root.dtb loadbootscript=fatload mmc ${mmcdev}:${mmcpart} ${loadaddr} ${bsp_script}; mmc_boot=if mmc dev ${devnum}; then devtype=mmc; run scan_dev_for_boot_part; fi arch=arm baudrate=115200 ...... ...... ...... splashimage=0x50000000 test=ABCD usb_boot=usb start; if usb dev ${devnum}; then devtype=usb; run scan_dev_for_boot_part; fi vendor=freescale hexdump -s 0x400000 -n 2000 -C imx-image-multimedia-imx8mpevk.wic 00400000 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 |................| hexdump -s 0x400000 -n 10000 -C imx-image-multimedia-imx8mpevk.wic 00400000 5f a4 9b 97 20 6a 68 5f 72 6f 6f 74 5f 64 74 62 |_... jh_root_dtb| 00400010 3d 69 6d 78 38 6d 70 2d 65 76 6b 2d 72 6f 6f 74 |=imx8mp-evk-root| 00400020 2e 64 74 62 00 20 6c 6f 61 64 62 6f 6f 74 73 63 |.dtb. loadbootsc| 00400030 72 69 70 74 3d 66 61 74 6c 6f 61 64 20 6d 6d 63 |ript=fatload mmc| 00400040 20 24 7b 6d 6d 63 64 65 76 7d 3a 24 7b 6d 6d 63 | ${mmcdev}:${mmc| 00400050 70 61 72 74 7d 20 24 7b 6c 6f 61 64 61 64 64 72 |part} ${loadaddr| 00400060 7d 20 24 7b 62 73 70 5f 73 63 72 69 70 74 7d 3b |} ${bsp_script};| 00400070 00 20 6d 6d 63 5f 62 6f 6f 74 3d 69 66 20 6d 6d |. mmc_boot=if mm| ...... ...... ...... 00401390 76 3d 31 00 73 6f 63 3d 69 6d 78 38 6d 00 73 70 |v=1.soc=imx8m.sp| 004013a0 6c 61 73 68 69 6d 61 67 65 3d 30 78 35 30 30 30 |lashimage=0x5000| 004013b0 30 30 30 30 00 74 65 73 74 3d 41 42 43 44 00 75 |0000.test=ABCD.u| 004013c0 73 62 5f 62 6f 6f 74 3d 75 73 62 20 73 74 61 72 |sb_boot=usb star| 004013d0 74 3b 20 69 66 20 75 73 62 20 64 65 76 20 24 7b |t; if usb dev ${| 004013e0 64 65 76 6e 75 6d 7d 3b 20 74 68 65 6e 20 64 65 |devnum}; then de| flash the sdcard mirror into i.MX8MP evk board emmc to check uuu -b emmc_all imx-boot-imx8mp-lpddr4-evk-sd.bin-flash_evk imx-image-multimedia-imx8mpevk.wic  The first time boot, the enviroment is already there.  How to achieve that: a. fw_setenv/fw_printenv: https://github.com/sbabic/libubootenv.git Note: Please do not use uboot fw_setenv/fw_printenv Compile it on the host x86/x64 PC. It is used on host. b. u-boot-initial-env Under uboot, make u-boot-initial-env Note: Yocto deploys u-boot-initial-env by default c. fw_env.config  imx-image-multimedia-imx8mpevk.wic 0x400000 0x4000 0x400000 0x4000 are from uboot-imx\configs\imx8mp_evk_defconfig CONFIG_ENV_SIZE=0x4000 CONFIG_ENV_OFFSET=0x400000 Now, you can run  ./fw_setenv -c fw_env.config -f u-boot-initial-env

This package is a OTA upgrade implementation for smartlocker in i.MX7ULP kernel. The bootaux command for i.MX7ULP can also be applied to other projects. File description: smartlocker OTA upgrade user manual. Modified u-boot. Modification involves: Add bootaux command. To use this command, the M4 image will be read out from boot partition to TCM_L. (Or DDR and then it will be copied to TCM_L in the command) It took 19ms to read M4 image. Change u-boot default env. If M4 image and zImage read failed, recovery M4 image and zImage will be loaded. patch of u-boot changes. u-boot defconfig for bootaux change. sh script, updater.sh. Example for upgrade package. Power shutdown in copying upgrade files may cause file broken. So currently, we use below copy strategy: Copy upgrade file to target directory as tmp file. Delete target file. Rename tmp file to target file.

On this tutorial we will review the implementation of Flutter on the i.MX8MP using the Linux Desktop Image. Please find more information about Flutter using the following link: Flutter: Option to create GUIs for Embedded System... - NXP Community Requirements: Evaluation Kit for the i.MX 8M Plus Applications Processor. (i.MX 8M Plus Evaluation Kit | NXP Semiconductors) NXP Desktop Image for i.MX 8M Plus (GitHub - nxp-imx/meta-nxp-desktop at lf-6.1.1-1.0.0-langdale) Note: This tutorial is based on the NXP Desktop Image Ubuntu 22.04 with Yocto version 6.1.1 – Langdale. Steps: 1. First, run commands to update packages. $ sudo apt update $ sudo apt upgrade 2. Install Flutter for Linux using the following command. $ sudo snap install flutter --classic 3. Run the command to verify the correct installation. $ flutter doctor With this command you will find information about the installation. The important part for our purpose is the parameter "Linux toolchain - develop for Linux desktop". 4. Run the command “flutter create .” to create a flutter project, this framework will create different folders and files used to develop the application.  $ cd Documents $ mkdir flutter_hello $ cd flutter_hello $ flutter create .​ 5. Finally, you can run the “hello world” application using: $ flutter run Verify the program behavior incrementing the number displayed on the window.  

Platform: Demo images, i.MX8MPlus EVK   Some customer need test ffs gadget function on i.MX8MPlus EVK. Here is demo for ffs test, please connect EVK and Ubuntu PC before test.   Test script: #!/bin/sh # Setup the device (configfs) modprobe libcomposite mkdir -p config mount none config -t configfs cd config/usb_gadget/ mkdir g1 cd g1 echo 0x1fc9 >idVendor echo 0x0146 >idProduct mkdir strings/0x409 echo 12345 >strings/0x409/serialnumber echo "Signal 11" >strings/0x409/manufacturer echo "Test" >strings/0x409/product mkdir configs/c.1 mkdir configs/c.1/strings/0x409 echo "Config1" >configs/c.1/strings/0x409/configuration # Setup functionfs mkdir functions/ffs.usb0 ln -s functions/ffs.usb0 configs/c.1 cd ../../../ mkdir -p ffs mount usb0 ffs -t functionfs cd ffs ffs-test 64 & # from the Linux kernel, with mods! sleep 3 cd .. # Enable the USB device echo 38100000.usb > config/usb_gadget/g1/UDC   EVK log root@imx8mpevk:~# ./test2.sh [ 17.859597] file system registered ffs-test: dbg: ep0: writing descriptors (in v2 format) ffs-test: dbg: ep0: writing strings ffs-test: dbg: ep1: starting ffs-test: dbg: ep2: starting ffs-test: dbg: ep1: starts ffs-test: dbg: ep0: starts ffs-test: dbg: ep2: starts Event BIND Event ENABLE Ubuntu PC log: lzm@lzm-GL552VW:~$ lsusb -D /dev/bus/usb/001/008 Device: ID 1fc9:0146 NXP Semiconductors Test Device Descriptor: bLength 18 bDescriptorType 1 bcdUSB 2.10 bDeviceClass 0 bDeviceSubClass 0 bDeviceProtocol 0 bMaxPacketSize0 64 idVendor 0x1fc9 NXP Semiconductors idProduct 0x0146 bcdDevice 6.01 iManufacturer 1 Signal 11 iProduct 2 Test iSerial 3 12345 bNumConfigurations 1 Configuration Descriptor: bLength 9 bDescriptorType 2 wTotalLength 0x0020 bNumInterfaces 1 bConfigurationValue 1 iConfiguration 4 Config1 bmAttributes 0x80 (Bus Powered) MaxPower 2mA Interface Descriptor: bLength 9 bDescriptorType 4 bInterfaceNumber 0 bAlternateSetting 0 bNumEndpoints 2 bInterfaceClass 255 Vendor Specific Class bInterfaceSubClass 0 bInterfaceProtocol 0 iInterface 5 Source/Sink Endpoint Descriptor: bLength 7 bDescriptorType 5 bEndpointAddress 0x81 EP 1 IN bmAttributes 2 Transfer Type Bulk Synch Type None Usage Type Data wMaxPacketSize 0x0200 1x 512 bytes bInterval 0 Endpoint Descriptor: bLength 7 bDescriptorType 5 bEndpointAddress 0x01 EP 1 OUT bmAttributes 2 Transfer Type Bulk Synch Type None Usage Type Data wMaxPacketSize 0x0200 1x 512 bytes bInterval 1 Binary Object Store Descriptor: bLength 5 bDescriptorType 15 wTotalLength 0x0016 bNumDeviceCaps 2 USB 2.0 Extension Device Capability: bLength 7 bDescriptorType 16 bDevCapabilityType 2 bmAttributes 0x0000010e BESL Link Power Management (LPM) Supported BESL value 256 us SuperSpeed USB Device Capability: bLength 10 bDescriptorType 16 bDevCapabilityType 3 bmAttributes 0x00 wSpeedsSupported 0x000f Device can operate at Low Speed (1Mbps) Device can operate at Full Speed (12Mbps) Device can operate at High Speed (480Mbps) Device can operate at SuperSpeed (5Gbps) bFunctionalitySupport 1 Lowest fully-functional device speed is Full Speed (12Mbps) bU1DevExitLat 0 micro seconds bU2DevExitLat 0 micro seconds Device Status: 0x0001 Self Powered  

How to use UART4 on iMX8M from Linux User Space   The UART4 on iMX8MM-EVK and iMX8MN-EVK are thinking of debugging the M core which is not usable on Linux user space by default on pre-compiled images.   To use the UART4 on Linux user space you have to do the next modifications on the device tree and atf to assign that peripheral to Linux User Space     https://github.com/nxp-imx/imx-atf/blob/lf_v2.6/plat/imx/imx8m/imx8mm/imx8mm_bl31_setup.c     iMX8MN-EVK   imx8mn_bl31_setup.c   https://github.com/nxp-imx/imx-atf/blob/lf_v2.6/plat/imx/imx8m/imx8mn/imx8mn_bl31_setup.c   /* Master domain assignment */ RDC_MDAn(RDC_MDA_M7, DID1), /* peripherals domain permission */ - RDC_PDAPn(RDC_PDAP_UART4, D1R | D1W), + RDC_PDAPn(RDC_PDAP_UART4, D0R | D0W), RDC_PDAPn(RDC_PDAP_UART2, D0R | D0W), RDC_PDAPn(RDC_PDAP_RDC, D0R | D0W | D1R),       Device tree configurations for iMX8MN-EVK   iMX8MN-EVK.dtsi   https://github.com/nxp-imx/linux-imx/blob/lf-6.1.y/arch/arm64/boot/dts/freescale/imx8mn-evk.dtsi   &uart3 { pinctrl-names = "default"; pinctrl-0 = <&pinctrl_uart3>; assigned-clocks = <&clk IMX8MN_CLK_UART3>; assigned-clock-parents = <&clk IMX8MN_SYS_PLL1_80M>; uart-has-rtscts; status = "okay"; }; + &uart4 { + pinctrl-names = "default"; + pinctrl-0 = <&pinctrl_uart4>; + assigned-clocks = <&clk IMX8MN_CLK_UART4>; + assigned-clock-parents = <&clk IMX8MN_SYS_PLL1_80M>; + status = "okay"; + }; ********************** pinctrl_uart3: uart3grp { fsl,pins = < MX8MN_IOMUXC_ECSPI1_SCLK_UART3_DCE_RX 0x140 MX8MN_IOMUXC_ECSPI1_MOSI_UART3_DCE_TX 0x140 MX8MN_IOMUXC_ECSPI1_SS0_UART3_DCE_RTS_B 0x140 MX8MN_IOMUXC_ECSPI1_MISO_UART3_DCE_CTS_B 0x140 >; }; + pinctrl_uart4: uart4grp { + fsl,pins = < + MX8MN_IOMUXC_UART4_RXD_UART4_DCE_RX 0x140 + MX8MN_IOMUXC_UART4_TXD_UART4_DCE_TX 0x140 + >; + };   iMX8MM-EVK   https://github.com/nxp-imx/imx-atf/blob/lf_v2.6/plat/imx/imx8m/imx8mm/imx8mm_bl31_setup.c   imx8mm_bl31_setup.c   /* Master domain assignment */ RDC_MDAn(RDC_MDA_M7, DID1), /* peripherals domain permission */ - RDC_PDAPn(RDC_PDAP_UART4, D1R | D1W), + RDC_PDAPn(RDC_PDAP_UART4, D0R | D0W), RDC_PDAPn(RDC_PDAP_UART2, D0R | D0W), RDC_PDAPn(RDC_PDAP_RDC, D0R | D0W | D1R),   Device tree configurations for iMX8MM-EVK   iMX8MM-EVK.dtsi   https://github.com/nxp-imx/linux-imx/blob/lf-6.1.y/arch/arm64/boot/dts/freescale/imx8mm-evk.dtsi   &uart3 { pinctrl-names = "default"; pinctrl-0 = <&pinctrl_uart3>; assigned-clocks = <&clk IMX8MM_CLK_UART3>; assigned-clock-parents = <&clk IMX8MM_SYS_PLL1_80M>; uart-has-rtscts; status = "okay"; }; + &uart4 { + pinctrl-names = "default"; + pinctrl-0 = <&pinctrl_uart4>; + assigned-clocks = <&clk IMX8MM_CLK_UART4>; + assigned-clock-parents = <&clk IMX8MM_SYS_PLL1_80M>; + status = "okay"; + }; ********************** pinctrl_uart3: uart3grp { fsl,pins = < MX8MM_IOMUXC_ECSPI1_SCLK_UART3_DCE_RX 0x140 MX8MM_IOMUXC_ECSPI1_MOSI_UART3_DCE_TX 0x140 MX8MM_IOMUXC_ECSPI1_SS0_UART3_DCE_RTS_B 0x140 MX8MM_IOMUXC_ECSPI1_MISO_UART3_DCE_CTS_B 0x140 >; }; + pinctrl_uart4: uart4grp { + fsl,pins = < + MX8MM_IOMUXC_UART4_RXD_UART4_DCE_RX 0x140 + MX8MM_IOMUXC_UART4_TXD_UART4_DCE_TX 0x140 + >; + };   iMX8MP-EVK   https://github.com/nxp-imx/imx-atf/blob/lf_v2.6/plat/imx/imx8m/imx8mp/imx8mp_bl31_setup.c   imx8mp_bl31_setup.c   RDC_MDAn(RDC_MDA_M7, DID1), RDC_MDAn(RDC_MDA_LCDIF, DID2), RDC_MDAn(RDC_MDA_LCDIF2, DID2), RDC_MDAn(RDC_MDA_HDMI_TX, DID2), /* peripherals domain permission */ + RDC_PDAPn(RDC_PDAP_UART4, D0R | D0W), RDC_PDAPn(RDC_PDAP_UART2, D0R | D0W), RDC_PDAPn(RDC_PDAP_WDOG1, D0R | D0W), RDC_PDAPn(RDC_PDAP_RDC, D0R | D0W | D1R),   Device tree configurations for iMX8MP-EVK   iMX8MP-EVK.dts   https://github.com/nxp-imx/linux-imx/blob/lf-6.1.y/arch/arm64/boot/dts/freescale/imx8mp-evk.dts   &uart3 { pinctrl-names = "default"; pinctrl-0 = <&pinctrl_uart3>; assigned-clocks = <&clk IMX8MP_CLK_UART3>; assigned-clock-parents = <&clk IMX8MP_SYS_PLL1_80M>; fsl,uart-has-rtscts; status = "okay"; }; + &uart4 { + pinctrl-names = "default"; + pinctrl-0 = <&pinctrl_uart4>; + assigned-clocks = <&clk IMX8MP_CLK_UART4>; + assigned-clock-parents = <&clk IMX8MP_SYS_PLL1_80M>; + status = "okay"; + }; ************************************ pinctrl_uart3: uart3grp { fsl,pins = < MX8MP_IOMUXC_ECSPI1_SCLK__UART3_DCE_RX 0x140 MX8MP_IOMUXC_ECSPI1_MOSI__UART3_DCE_TX 0x140 MX8MP_IOMUXC_ECSPI1_SS0__UART3_DCE_RTS 0x140 MX8MP_IOMUXC_ECSPI1_MISO__UART3_DCE_CTS 0x140 >; }; + pinctrl_uart4: uart4grp { + fsl,pins = < + MX8MP_IOMUXC_UART4_RXD__UART4_DCE_RX 0x140 + MX8MP_IOMUXC_UART4_TXD__UART4_DCE_TX 0x140 + >; + };     After compiling the image with the changes previously shown, we obtained this result:      

i.MX93 DDR stress test tool is different with previous i.MX tool. This Chinese article describe how to debug i.MX93 DDR and introduce DDR config tool usage.

     The following steps allow you to add a pad Wakeup on i.MX 8QuadMax MEK CPU Board. On the Host.   Cloning the Linux kernel repository.   Clone the i.MX Linux Kernel repo to the home directory. cd ~ git clone -b lf-5.10.72-2.2.0 https://source.codeaurora.org/external/imx/linux-imx cd linux-imx/ Patching the device tree.   Open the imx8qm-mek.dts file: vim arch/arm64/boot/dts/freescale/imx8qm-mek.dts Add the following lines: &lsio_gpio2{       pad-wakeup-num = <1>;       pad-wakeup = <81 4 1>; }; In the line pad-wakeup-num = <1>; , the number "1" corresponds to the number of pads that you want to add. The line pad-wakeup = <81 4 1>; has three parameters: The first parameter corresponds to the "pin_id", you can find it in include/dt-bindings/pinctrl/pads-imx8qm.h , in this example we are using "IMX8QM_MIPI_CSI1_I2C0_SDA". The second parameter corresponds to the "'type'", you can find it in the i.MX 8QuadMax Applications Processor Reference Manual, in the page 802:   For this example we are using "LOW". The third parameter corresponds to the "line", the number of bit in 32bit gpio group, you can find it in include/dt-bindings/pinctrl/pads-imx8qm.h In this example, "IMX8QM_MIPI_CSI1_I2C0_SDA" belongs to gpio group 2, line 1. Build the device tree.   Setup your toolchain, for example: source /opt/fsl-imx-wayland/5.10-hardknott/environment-setup-cortexa53-crypto-poky-linux Generate config file. make imx_v8_defconfig Compile the device tree. make freescale/imx8qm-mek.dtb Copy the .dtb file to the MEK CPU Board, for example with scp: scp imx8qm-mek.dtb root@<MEK_CPU_Board_IP>:/home/root Alternatively, you may copy the .dtb file directly to the FAT32 partition where the Kernel and Device Tree files are located. On the MEK CPU Board.   Switching the device tree.   To copy the updated device tree to the corresponding partition, first create a directory. mkdir Partition_1 Mount the partition one. mount /dev/mmcblk1p1 Partition_1/ Copy or move the device tree into partition one. cp imx8qm-mek.dtb Partition_1/ Reboot the board. reboot How to wake up the i.MX 8QuadMax MEK CPU Board.   In this example a wire was soldered on "R204":     Run the following command on the MEK CPU Board: echo mem > /sys/power/state And you will see something like: [   53.769266] PM: suspend entry (deep) [   53.902130] Filesystems sync: 0.129 seconds [   53.908068] Freezing user space processes ... (elapsed 0.002 seconds) done. [   53.917189] OOM killer disabled. [   53.920420] Freezing remaining freezable tasks ... (elapsed 0.001 seconds) done. [   53.929626] printk: Suspending console(s) (use no_console_suspend to debug) Connect the wire that was soldered on "R204" to ground, the MEK CPU Board will wake up and you will see something like: [   54.687125] fec 5b040000.ethernet eth0: Link is Down [   54.689876] PM: suspend devices took 0.756 seconds [   54.709570] Disabling non-boot CPUs ... [   54.710562] CPU1: shutdown [   54.711582] psci: CPU1 killed (polled 0 ms) [   54.714360] CPU2: shutdown [   54.715376] psci: CPU2 killed (polled 0 ms) [   54.717365] CPU3: shutdown [   54.718382] psci: CPU3 killed (polled 0 ms) [   54.719887] CPU4: shutdown [   54.720884] psci: CPU4 killed (polled 4 ms) [   54.722213] CPU5: shutdown [   54.723229] psci: CPU5 killed (polled 0 ms) [   54.724731] Enabling non-boot CPUs ... [   54.725388] Detected VIPT I-cache on CPU1 [   54.725423] GICv3: CPU1: found redistributor 1 region 0:0x0000000051b20000 [   54.725486] CPU1: Booted secondary processor 0x0000000001 [0x410fd034] [   54.726455] CPU1 is up [   54.726930] Detected VIPT I-cache on CPU2 [   54.726947] GICv3: CPU2: found redistributor 2 region 0:0x0000000051b40000 [   54.726976] CPU2: Booted secondary processor 0x0000000002 [0x410fd034] [   54.727478] CPU2 is up [   54.727955] Detected VIPT I-cache on CPU3 [   54.727971] GICv3: CPU3: found redistributor 3 region 0:0x0000000051b60000 [   54.728001] CPU3: Booted secondary processor 0x0000000003 [0x410fd034] [   54.728497] CPU3 is up [   54.729806] Detected PIPT I-cache on CPU4 [   54.729825] GICv3: CPU4: found redistributor 100 region 0:0x0000000051b80000 [   54.729857] CPU4: Booted secondary processor 0x0000000100 [0x410fd082] [   54.730490] CPU4 is up [   54.730985] Detected PIPT I-cache on CPU5 [   54.730999] GICv3: CPU5: found redistributor 101 region 0:0x0000000051ba0000 [   54.731021] CPU5: Booted secondary processor 0x0000000101 [0x410fd082] [   54.731679] CPU5 is up [   54.756440] hdmi_rx_hd_core_clk: failed to set clock parent -16 [   54.765828] gpio-mxc 5d0a0000.gpio: wakeup by pad, line 1 [   54.844242] ahci-imx 5f020000.sata: external osc is used. [   54.913582] caam 31400000.crypto: registering rng-caam [   54.918358] PM: resume devices took 0.148 seconds [   55.096663] OOM killer enabled. [   55.099814] Restarting tasks ... done. [   55.111833] PM: suspend exit  

Detailed Features List of i.MX35 PDK board I.MX35 CPU Card Additional Resources I.MX35 PDK Board Flashing SD Card i.MX35 PDK Board Flashing NAND i.MX35 PDK Linux Booting SD Loading Redboot Binary Directly to RAM Fixing Redboot RAM Bug Fixing Redboot RAM bug (CSD1 not activated)

[中文翻译版] 见附件   原文链接： https://community.nxp.com/docs/DOC-342174 

i.MX8 series contains internal HiFi4 DSP. It is targeted for Audio related signal processing. SOF (Sound Open Firmware) is open source audio DSP firmware, driver and SDK. This document introduces basic theory about IIR/FIR digital filters, how to design IIR/FIR digital filters and the Equalizer filters implementation by SOF. After that, the document also describes how HiFi4 DSP MAC engine accelerate the EQ filters calculation.

Symptoms   When configure a gpio pin for a driver in the dts/dtsi file like below example,   e.g.   a-switch {            compatible = "a-switch-driver";            pinctrl-names = "default";            pinctrl-0 = <&pinctrl_switch>;            gpios = <&lsio_gpio1 1 GPIO_ACTIVE_HIGH>;            status = "okay"; };   pinctrl_switch: switch_gpio {     fsl,pins = < IMX8QXP_SPI2_SDO_LSIO_GPIO1_IO01    0x21 >; };   then you may get the error when request the gpio in the driver during the kernel boot up.   Error message like this: a-switch: failed to request gpio a-switch: probe of a-switch failed with error -22   Linux version: L5.4.x   Diagnosis   Because the gpio_mxc_init function run before the function imx_scu_driver_init. The pm_domains for gpio is not ready before running mxc_gpio_probe, so gpio request will be failed.     Solution   There are two ways to resolve this issue 1. Build the driver as a module. i.e. select the driver in kernel’s menuconfig as “M”. Then , run “insmod” to load the driver after the kernel boot up.   OR   2. Apply below patch, let gpio driver init after scu driver. diff --git a/drivers/gpio/gpio-mxc.c b/drivers/gpio/gpio-mxc.c index 1dfe513f8fcf..52b5799040b3 100644 --- a/drivers/gpio/gpio-mxc.c +++ b/drivers/gpio/gpio-mxc.c @@ -892,7 +892,7 @@ static int __init gpio_mxc_init(void) return platform_driver_register(&mxc_gpio_driver); } -subsys_initcall(gpio_mxc_init); +device_initcall(gpio_mxc_init);  

Customer is asking high-capacity external storage(for example >64GB) support on i.MX BSP, ext4 is ok for HC storage, but it can’t be supported by Windows. Pls find NFTS and exFAT support status on Linux BSP below: Updated test result on L5.4.70.2.3.0 and L6.1.22: L5.4.70.2.3.0 1.You can enable ntfs support in kernel config as below,  ntfs can be mounted normally, but you can only modify existing file content in disk, you can’t create/delete/rename file on disk. > File systems > DOS/FAT/NT Filesystems   Log: root@imx8mpevk:~# mount -t ntfs /dev/sda1 /mnt/fat/ [  662.732869] ntfs: volume version 3.1. root@imx8mpevk:~# cp ntfs-3g /mnt/fat/ cp: cannot create regular file '/mnt/fat/ntfs-3g': Permission denied root@imx8mpevk:~# ls /mnt/fat/ 111.png  Image_org  System Volume Information  gpuinfo.sh root@imx8mpevk:~# vi /mnt/fat/gpuinfo.sh root@imx8mpevk:~# umount /mnt/fat/ root@imx8mpevk:~# ntfs file system can be accessed via ntfs-3g in user space as below //build: wget https://tuxera.com/opensource/ntfs-3g_ntfsprogs-2017.3.23.tgz tar zxvf ntfs-3g_ntfsprogs-2017.3.23.tgz cd ntfs-3g_ntfsprogs-2017.3.23/ source ../../sdk/environment-setup-aarch64-poky-linux   ./configure --host=aarch64-linux --build=aarch64-poky-linux --disable-shared --enable-static   make   ls /src/ntfs-3g   //put it into rootfs cp ntfs-3g /bin   //test log: root@imx8mpevk:/# [ 1058.724471] usb 1-1: USB disconnect, device number 4 [ 1062.058613] usb 1-1: new high-speed USB device number 5 using xhci-hcd [ 1062.214029] usb-storage 1-1:1.0: USB Mass Storage device detected [ 1062.220986] scsi host0: usb-storage 1-1:1.0 [ 1063.235871] scsi 0:0:0:0: Direct-Access     VendorCo ProductCode      2.00 PQ: 0 ANSI: 4 [ 1063.246185] sd 0:0:0:0: [sda] 15728640 512-byte logical blocks: (8.05 GB/7.50 GiB) [ 1063.254023] sd 0:0:0:0: [sda] Write Protect is off [ 1063.259164] sd 0:0:0:0: [sda] No Caching mode page found [ 1063.264540] sd 0:0:0:0: [sda] Assuming drive cache: write through [ 1063.296946]  sda: sda1 [ 1063.300860] sd 0:0:0:0: [sda] Attached SCSI removable disk   root@imx8mpevk:/# ntfs-3g /dev/sda1 /mnt/fat/ root@imx8mpevk:/# ls /mnt/fat/ README  System Volume Information  gpu.sh  gpuinfo.sh root@imx8mpevk:/# cp /unit_tests/memtool /mnt/fat/ root@imx8mpevk:/# umount /mnt/fat/ root@imx8mpevk:/# ntfs-3g /dev/sda1 /mnt/fat/ root@imx8mpevk:/# ls /mnt/fat/ README  System Volume Information  gpu.sh  gpuinfo.sh  memtool root@imx8mpevk:/#   3.exFAT is not supported on this BSP..   L6.1.22(you can check it on L5.15 and above, should be the same) You can enable ntfs support in kernel config as below, full features can be supported. > File systems > DOS/FAT/EXFAT/NT Filesystems   Pls use ‘-t ntfs3’ during mounting, otherwise it will be mounted as ‘read-only’ Log: root@imx8ulpevk:~# mount -t ntfs3 /dev/sda1 /mnt/fat/ root@imx8ulpevk:~# ls /mnt/fat/ 111.png   Image_org  'System Volume Information' root@imx8ulpevk:~# root@imx8ulpevk:~# cp gpuinfo.sh /mnt/fat/ root@imx8ulpevk:~# umount /mnt/fat/ root@imx8ulpevk:~# root@imx8ulpevk:~# mount -t ntfs3 /dev/sda1 /mnt/fat/ root@imx8ulpevk:~# ls /mnt/fat/ 111.png   Image_org  'System Volume Information'   gpuinfo.sh root@imx8ulpevk:~#   exFAT has been supported in L6.1.22. > File systems > DOS/FAT/EXFAT/NT Filesystems   /dev/sda1 on /run/media/sda1 type exfat (rw,relatime,fmask=0022,dmask=0022,iocharset=utf8,errors=remount-ro) root@imx8ulpevk:~# ls /run/media/sda1 'Certificate of Completion.pdf'             carlife.MP4 Image_org                                  example.tflite L5.4.70_2.3.0                              mx8mp_vpu.txt NXP-5G.mp4                                 sd.mp4 'System Volume Information'                 vela.ini android_p9.0.0_2.1.0-auto-ga_image_8qmek root@imx8ulpevk:~# ls Image_org  gpuinfo.sh root@imx8ulpevk:~# cp gpuinfo.sh /run/media/sda1/ root@imx8ulpevk:~# umount /run/media/sda1 root@imx8ulpevk:~#

Hello everyone, this document will share an step by step guide of the configuration needed in a Linux PC to compile the SDK examples we provide, as well as how to download them in an easy way. Requirements: I.MX 8M Mini EVK SDK package (for i.MX8MM) UUU tool First step would be to get the SDK package, this include documentation and code, which is available at the MCUXpresso builder webpage: https://mcuxpresso.nxp.com/en/welcome Click on the select a development board and select the package for your development kit or the i.MX MPU   This guide is focused on Linux build so will select GCC package and Linux host PC as the environment. Click on build and wait for the SDK package to be ready for download. Note1: Click on select all if the whole middleware package is desired Note2: it is possible to select each middleware that are desired. On new window select download SDK Select on new pop-up window download both SDK and documentation Read and accept EULA so the download start Decompress the package using the following command: $ tar -xvzf ~/SDK_2_13_0_EVK-MIMX8MM.tar.gz -C ~/SDK_2_13_0_EVK-MIMX8MM Next will be to download the GCC from the ARM webpage, gcc-arm-none-eabi-10.3-2021.10-x86_64-linux.tar.bz2 https://developer.arm.com/downloads/-/gnu-rm Note that the GCC version used is based on the minimum version required, since this was tested and supported, this could be found within the SDK documentation (~/SDK_2_13_0_EVK-MIMX8MM/docs/MCUXpresso SDK Release Notes for EVK-MIMX8MM) Once downloaded we can decompress and configure the environment: $ tar -xf gcc-arm-none-eabi-10.3-2021.10-x86_64-linux.tar.bz2 $ export ARMGCC_DIR=~/gcc-arm-none-eabi-10.3-2021.10 $ export PATH=$PATH:~/gcc-arm-none-eabi-10.3-2021.10 $ sudo apt-get install cmake  Check the version >= 3.0.x $ cmake --version Once this is done we enter the path of the example of our choice and compile using the script, as necessary using debug, release or all. $ cd ~/SDK_2_13_0_EVK-MIMX8MM/boards/evkmimx8mm/demo_apps/hello_world/armgcc $./build_release.sh The binary (elf and bin) will be found inside the folder according to whether we use debug or release script. For this example we used release script: $ cd release Once builded we can move/download the binaries from the Linux host PC to the board by using the UUU tool with the command fat_write #### we put the board in fastboot mode by entering the command in the uboot terminal fastboot 0 #### From the Linux terminal introduce the UUU command to  download to the FAT partition of the eMMC of the baord: ## For rproc it is needed the .elf binary ## $ uuu -v -b fat_write hello_world.elf mmc 0:1 hello_world.elf ## For bootaux it is needed the .bin binary ## $  uuu -v -b fat_write hello_world.bin mmc 0:1 hello_world.bin Once with the binaries in the FAT partition of the SD/eMMC of our board we can make the necessary modifications (device tree/bootargs) to test the Cortex-M examples. For any question regarding this document, please create a community thread and tag me if needed. Saludos/Regards, Aldo.

BSP: L6.1.36 Some customer need use adb under usb ffs. The adb in Yocto can greatly improves development efficiency. This is a demo for enabling adb on Yocto.   Yocto local.conf IMAGE_INSTALL:append = "android-tools android-tools-adbd" PREFERRED_PROVIDER_android-tools-conf = "android-tools-conf-configfs"   Test script for launching adbd modprobe g_ffs idVendor=0x1fc9 idProduct=0x0146 iSerialNumber="ZhimingLiu" mkdir -p /dev/usb-ffs/adb mount -t functionfs adb /dev/usb-ffs/adb -o uid=2000,gid=2000 adbd &   Test on Windows: PS C:\Users\Administrator\Desktop\platform-tools> .\adb.exe devices List of devices attached ZhimingLiu device PS C:\Users\Administrator\Desktop\platform-tools> .\adb.exe shell sh-5.2# uname -a Linux imx8mp-lpddr4-evk 6.1.36+g04b05c5527e9 #1 SMP PREEMPT Fri Nov 24 04:46:22 UTC 2023 aarch64 GNU/Linux sh-5.2# ls config ffs t.sh test2.sh sh-5.2# cd / sh-5.2# ls bin dev home lost+found mnt proc run srv tmp usr boot etc lib media opt root sbin sys unit_tests var sh-5.2#

  Platform & BSP :i.MX8MPlus, L6.1.36   The attachments enable the i.MX8MPlus pci function in uboot. lspci in Linux root@imx8mpevk:~# lspci -nn 00:00.0 PCI bridge [0604]: Synopsys, Inc. DWC_usb3 / PCIe bridge [16c3:abcd] (rev 01) 01:00.0 Ethernet controller [0200]: Marvell Technology Group Ltd. Device [1b4b:2b42] (rev 11) pci test results in uboot:  u-boot=> pci BusDevFun VendorId DeviceId Device Class Sub-Class _____________________________________________________________ 00.00.00 0x16c3 0xabcd Bridge device 0x04 u-boot=> pci bar 00.00.00 ID Base Size Width Type ---------------------------------------------------------- 0 0x0000000018000000 0x0000000000100000 32 MEM u-boot=> pci regions 00 Buses 00-01 # Bus start Phys start Size Flags 0 0x0000000000000000 0x000000001ff80000 0x0000000000010000 io 1 0x0000000018000000 0x0000000018000000 0x0000000007f00000 mem 2 0x0000000040000000 0x0000000040000000 0x0000000016000000 mem sysmem 3 0x0000000058000000 0x0000000058000000 0x00000000a8000000 mem sysmem 4 0x0000000100000000 0x0000000100000000 0x00000000c0000000 mem sysmem u-boot=> pci header 00.00.00 vendor ID = 0x16c3 device ID = 0xabcd command register ID = 0x0007 status register = 0x0010 revision ID = 0x01 class code = 0x06 (Bridge device) sub class code = 0x04 programming interface = 0x00 cache line = 0x08 latency time = 0x00 header type = 0x01 BIST = 0x00 base address 0 = 0x18000000 base address 1 = 0x00000000 primary bus number = 0x00 secondary bus number = 0x01 subordinate bus number = 0x01 secondary latency timer = 0x00 IO base = 0x10 IO limit = 0x00 secondary status = 0x0000 memory base = 0x1820 memory limit = 0x1810 prefetch memory base = 0xfff0 prefetch memory limit = 0x0000 prefetch memory base upper = 0x00000000 prefetch memory limit upper = 0x00000000 IO base upper 16 bits = 0x0000 IO limit upper 16 bits = 0x0000 expansion ROM base address = 0x18100000 interrupt line = 0xff interrupt pin = 0x01 bridge control = 0x0000

This demo for all(bootloader, device tree, Linux kernel, rootfs) in spi. It uses raw read(sf read)/raw write(sf write in uuu script) to achieve that. sf probe 0; sf read ${fdt_addr} 0x500000 0x100000; sf read ${loadaddr} 0x600000 0x1E00000; sf read ${initrd_addr} 0x2400000 0x600000; setenv bootargs console=${console},${baudrate} earlycon=${earlycon},${baudrate} rdinit=/linuxrc; booti ${loadaddr} ${initrd_addr} ${fdt_addr} |-- 0001-all-in-spi-demo-lf-5.10.72-2.2.0.patch --- patch for this demo |-- demo_binary | |-- flash.b0.bin --- b0 bootloader | |-- flash.bin --- c0 bootloader | |-- Image-imx8qxpc0mek.bin --- Linux kernel | |-- imx8qxp-mek.dtb --- device tree | |-- uramdisk_boot.rootfs.aarch64.img --- ram disk | |-- uuu.qspi.all.b0.uuu --- uuu script for b0 | `-- uuu.qspi.all.uuu --- uuu script for c0 `-- readme.txt --- this file # The spi layout used is: # - --------- -------------------------------------------- # | | flash.bin | env | dtb | Image |rootfs| # - --------------- -------------------------------------- # ^ ^ ^ ^ ^ ^ ^ # | | | | | | | # 0 4kiB 4MiB 5MiB 6MiB 36MiB 42MiB 0x1000 0x400000 0x500000 0x600000 0x2400000 Test: HW: i.MX8QXP MEK SW: lf-5.10.72-2.2.0 + 0001-all-in-spi-demo-lf-5.10.72-2.2.0.patch Test log: SF: Detected mt35xu512aba with page size 256 Bytes, erase size 128 KiB, total 64 MiB device 0 offset 0x500000, size 0x100000 SF: 1048576 bytes @ 0x500000 Read: OK device 0 offset 0x600000, size 0x1e00000 SF: 31457280 bytes @ 0x600000 Read: OK device 0 offset 0x2400000, size 0x600000 SF: 6291456 bytes @ 0x2400000 Read: OK [ 4.787552] imx6q-pcie 5f010000.pcie: unable to add pcie port. [ 4.797467] Freeing unused kernel memory: 2944K [ 4.807379] Run /linuxrc as init process Starting syslogd: OK Starting klogd: OK Running sysctl: OK Starting network: OK /bin/sh: can't access tty; job control turned off / #  

  1) Remove all "network" parameter from .../ltib-dir/rootfs/rc.d/rc.conf 2) Add the path of rootfs in the /etc/exports file: /home/user/ltib"dir/rootfs/rootfs *(rw,sync,no_root_squash)   then execute :- #exportfs -ra 3) Execute NFS server /etc/init.d/nfs restart  

An i.MX50 customer encountered such kernel bug recently. Android UI has no response, because the suspend work queue is blocked:     suspend       pm_suspend         enter_state           suspend_prepare / suspend_finish             pm_prepare_console / pm_restore_console               vt_move_to_console                 vt_waitactive                   vt_event_wait                     wait_event_interruptible Confimed the same bug can also happen on imx6SL which is running linux 3.0.35. e.g. by echo standby/mem > /sys/power/state It takes over thousand suspend/resume cycles to reproduce the problem. The bug fix has been merged since linux 3.6: commit a7b12929be6cc55eab2dac3330fa9f5984e12dda

This is a simple known-how for how to enable KASAN on L4.14.98 with i.MX8/8X and also a collection of related patches for fixing issues reported by KASAN.   Enable KASAN: It's very simple, just enable "CONFIG_KASAN" in kernel configuration. Besides this, adjusting the kernel's loading address is also required, due to KASAN (which will alloc more memory as a "tracker" for each allocation). For e.g., on imx8qxp MEK, we need to change the kernel loadaddr in uboot:     0x80280000 --> 0xE0280000 through uboot env: setenv loadaddr 0xE0280000 After this, it supposed to be working.   KASAN related patches on L4.14.98: KASAN will do detection/sanitizing for any memory allocation/access. In case of L4.14.98 on i.MX8/8X, there're several "BUG" reported by KASAN in default BSP. The attached patches are a collection for these issues.    Note: not all "BUG" reported by KASAN are really bug. Most of them are just some programming rule related problems and may not really cause memory access violation.

This article is to show how to use CLK2 for PCIe ref clock for i.MX8MQ. Test Environment  i.MX8MQ + BSP L5.10.52 Background In order to cost down, some customers used CLK2 as PCIe reference clock as below while no external OSC installed, which is different with i.MX8MQ EVK design, so no clock output for PCIe.  Checked L4.14.98_2.3.0 and found it added internal PLL for PCIe clock support. Solution The attached patch based on 4.14.98 can’t be used directly on 5.10.52, the following is the main modification for PLLOUT of PCIe clock. PLLOUT Monitor Configuration Register contains bits to control the clock that will be generated on the CCM clock mapped to CLK2_P/N.