boobypi

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Posts posted by boobypi

  1. Uboot Software is a bit deceiving for now, as example : they release an gmac driver but without phy driver and no clocks tree for gmac driver available. No documentation about clock tree configuration, internal PHY is really bad, no chip ref seriously, not well configured for aneg but using init configuration from an old amlogic phy driver (*1) is working a lot better (when you plug a cable you have a link, basicaly :) )...arm make new with old but they didn't tell it, just fuck.
    *1 https://github.com/codesnake/linux-amlogic-old/blob/master/drivers/amlogic/ethernet/phy/am_internal.c

    Fixing save env on emmc instead sdcard working
    No realease log to know what is working and what is will working maybe in next 5 years :/
    sometimes i remember some taking about allwinner poor software support, i can say rockchip is same :)
    Without USB3 and better hw encoder/decoder h264, best Soc remain H3, if they can make an H3 with USB3, i will never buy another crap soc with crap sw release!

    But well this device can boot fine from emmc, (no check for the moment about used pins by sdcard socket) and it's can network boot with an old usb ethernet r8152 adapter well supported by uboot. make thing easier to test linux kernel and let closed enclosure!

  2. Maybe it's just an issue with miniloader at 0x40 or the shity trust.img - this thing make a 4gb file to write 4MB and i don't understand how it's a feature (i can modify uboot without changing trust.img... :/ ) . On my RK3328 4GB device i wasn't able to boot with the ayufans uboot build script but i'm able to boot using ayufans uboot with rockchip build script. Maybe wrong timing for RAM?

  3. In case of brick, there is 2 pad bottom emmc that can be shorted with a 10Ohm resistor or whatever near from you to put the box in maskrom mode (tested without problem).
    In maskrom mode you will need to load usb loader to do anything.

    Basicaly i done these steps

    mkdir rockchip/
    cd rockchip/
    git clone https://github.com/rockchip-linux/rkbin.git
    git clone https://github.com/rockchip-linux/u-boot.git
    git clone https://github.com/rockchip-linux/build.git
    
    sudo apt install gcc-aarch64-linux-gnu git-core gitk git-gui gcc-arm-linux-gnueabihf u-boot-tools
    //make uboot image
    ./mk-uboot.sh  rk3328-evb
     
    //tool for flashing in maskrom mode
    git clone https://github.com/rockchip-linux/rkdeveloptool.git
    cd rkdeveloptool/
    cat Readme.txt 
    autoreconf -i
    ./configure
    make
    
     
    
    sudo ./rkdeveloptool rd 3
    Reset Device OK.
    sudo ./rkdeveloptool db ../out/u-boot/RK3328MiniLoaderAll_MX10.bin 
    Downloading bootloader succeeded.
    
    //editing parameter_gpt file then erasing emmc
    sudo ./rkdeveloptool ef
    //writing new partition table
    sudo ./rkdeveloptool gpt ../parameter_gpt.txt
    
    **********GPT Info**********
    NO  LBA       Name                
    00  00000040  loader1
    01  00001F80  reserved1
    02  00002000  reserved2
    03  00004000  loader2
    04  00006000  atf
    05  00008000  boot
    06  00040000  rootfs
    
    sudo ./rkdeveloptool wl 0x40 ../out/u-boot/idbloader.img 
    sudo ./rkdeveloptool wl 0x4000 ../out/u-boot/uboot.img
    sudo ./rkdeveloptool wl 0x6000 ../out/u-boot/trust.img
    
    If i remember weel in this state the box don't want to start but wasn't in maskmode, I connect the 2 pads to short Emmc for 1 sec while connecting usb and i upgrade the loader with this cmd :
    sudo ./rkdeveloptool db ../out/u-boot/RK3328MiniLoaderAll_MX10.bin 
    Downloading bootloader succeeded.
    sudo ./rkdeveloptool ul ../out/u-boot/RK3328MiniLoaderAll_MX10.bin   
    Upgrading loader succeeded.
    
    Now it's booting with console at 1500000



     

  4. Hello,
    Just some word to know MX10 RK3328 can have an uboot legacy 4.4 working in emmc with the defaut rk3328-evb board config.
    I follow the guide [RK3328_Linux-Debian_V1.1_Development_Guide-20170711.pdf].
    I suggest before trying anything to be sure you have an working usb loader for your BOX (usb loader from rkbin github don't work for example).
    You can find it in android update firmware image, unpack it with https://github.com/TeeFirefly/rk2918_tools.git
    And try on box in recovery mode :

    To remenber information about your emmc (in case it show 0MB capacity)
    Be carefull with the default parameter_gpt file, 
    it's setup 512bytes page size and if you erase you emmc will show 0MB capacity so bad!)
    sudo ./rkdeveloptool rfi
    Flash Info:
            Manufacturer: SAMSUNG, value=00
            Flash Size: 29820 MB
            Block Size: 512 KB
            Page Size: 2 KB
            ECC Bits: 0
            Access Time: 40
            Flash CS: Flash<0> 
    
    sudo ./rkdeveloptool rd 3 //reboot device in maskrom mode
    sudo ./rkdeveloptool db RK3328MiniLoaderAll_MX10.bin (extracted from MX10 firmware)
    Downloading bootloader succeeded.  
    
    Now you are sure to be able to debrick the box if thing go wrong :)

     

     

    parameter_gpt.txt used
    
    FIRMWARE_VER: 6.0.0
    MACHINE_MODEL: RK3328
    MACHINE_ID: 007
    MANUFACTURER: RK3328
    MAGIC: 0x5041524B
    ATAG: 0x00200800
    MACHINE: 3328
    CHECK_MASK: 0x80
    PWR_HLD: 0,0,A,0,1
    #KERNEL_IMG: 0x00280000
    #FDT_NAME: rk-kernel.dtb
    #RECOVER_KEY: 1,1,0,20,0
    #in section; per section 2048(0x800) bytes  <<===== BE CAREFULL with PAGE SIZE BEFORE ERASE
    CMDLINE: mtdparts=rk29xxnand:0x00001f40@0x00000040(loader1),0x00000080@0x00001f80(reserved1),0x00002000@0x00002000(reserved2),0x00002000@0x00004000(loader2),0x00002000@0x00006000(atf),0x00038000@0x00008000(boot:bootable),-@0x0040000(rootfs)

     

     

    Spoiler

    ␀DDR version 1.08 20170712 4GB
    In
    SRX
    DDR3
    333MHz
    Bus Width=32 Col=11 Bank=8 Row=16 CS=1 Die Bus-Width=16 Size=4096MB
    ddrconfig:3
    OUT
    Boot1 Release Time: 2017-06-12, version: 2.44
    ChipType = 0x11, 230
    SdmmcInit=2 0
    BootCapSize=2000
    UserCapSize=29820MB
    FwPartOffset=2000 , 2000
    SdmmcInit=0 2
    StorageInit ok = 20633
    Raw SecureMode = 0
    SecureInit read PBA: 0x4
    SecureInit read PBA: 0x404
    SecureInit read PBA: 0x804
    SecureInit read PBA: 0xc04
    SecureInit read PBA: 0x1004
    SecureInit ret = 0, SecureMode = 0
    LoadTrustBL
    No find bl30.bin
    No find bl32.bin
    Load uboot, ReadLba = 2000
    Load OK, addr=0x200000, size=0x888dc
    RunBL31 0x10000
    NOTICE:  BL31: v1.3(debug):f947c7e
    NOTICE:  BL31: Built : 09:28:45, May 31 2017
    NOTICE:  BL31:Rockchip release version: v1.3
    INFO:    ARM GICv2 driver initialized
    INFO:    Using opteed sec cpu_context!
    INFO:    boot cpu mask: 1
    INFO:    plat_rockchip_pmu_init: pd status 0xe
    INFO:    BL31: Initializing runtime services
    WARNING: No OPTEE provided by BL2 boot loader, Booting device without OPTEE initialization. SMC`s destined for OPTEE will return SMC_UNK
    ERROR:   Error initializing runtime service opteed_fast
    INFO:    BL31: Preparing for EL3 exit to normal world
    INFO:    Entry point address = 0x200000
    INFO:    SPSR = 0x3c9


    U-Boot 2017.09-g9ea7f39-dirty (Dec 06 2017 - 11:07:06 -1000)

    Model: Rockchip RK3328 EVB
    DRAM:  4 GiB
    MMC:   rksdmmc@ff500000: 1, rksdmmc@ff520000: 0
    Card did not respond to voltage select!
    mmc_init: -95, time 9
    *** Warning - No block device, using default environment

    In:    serial@ff130000
    Out:   serial@ff130000
    Err:   serial@ff130000
    Model: Rockchip RK3328 EVB
    Net:   Net Initialization Skipped
    No ethernet found.
    Hit any key to stop autoboot:  0
    switch to partitions #0, OK
    mmc0(part 0) is current device
    Failed to mount ext2 filesystem...
    ** Unrecognized filesystem type **
    Card did not respond to voltage select!
    mmc_init: -95, time 9
    starting USB...
    USB0:   USB EHCI 1.00
    USB1:   USB OHCI 1.0
    USB2:   Core Release: 3.10a
    USB3:   Register 2000140 NbrPorts 2
    Starting the controller
    USB XHCI 1.10
    scanning bus 0 for devices... 2 USB Device(s) found
    scanning bus 1 for devices... 1 USB Device(s) found
    scanning bus 2 for devices... 1 USB Device(s) found
    scanning bus 3 for devices... 1 USB Device(s) found
           scanning usb for storage devices... 0 Storage Device(s) found

    Device 0: unknown device
    No ethernet found.
    missing environment variable: pxeuuid
    missing environment variable: bootfile
    Retrieving file: pxelinux.cfg/00000000
    No ethernet found.
    missing environment variable: bootfile
    Retrieving file: pxelinux.cfg/0000000
    No ethernet found.
    missing environment variable: bootfile
    Retrieving file: pxelinux.cfg/000000
    No ethernet found.
    missing environment variable: bootfile
    Retrieving file: pxelinux.cfg/00000
    No ethernet found.
    missing environment variable: bootfile
    Retrieving file: pxelinux.cfg/0000
    No ethernet found.
    missing environment variable: bootfile
    Retrieving file: pxelinux.cfg/000
    No ethernet found.
    missing environment variable: bootfile
    Retrieving file: pxelinux.cfg/00
    No ethernet found.
    missing environment variable: bootfile
    Retrieving file: pxelinux.cfg/0
    No ethernet found.
    missing environment variable: bootfile
    Retrieving file: pxelinux.cfg/default-arm-rockchip
    No ethernet found.
    missing environment variable: bootfile
    Retrieving file: pxelinux.cfg/default-arm
    No ethernet found.
    missing environment variable: bootfile
    Retrieving file: pxelinux.cfg/default
    No ethernet found.
    Config file not found
    No ethernet found.
    No ethernet found.
    => ␇␇␇␇
    =>
    => printenv
    arch=arm
    baudrate=1500000
    board=evb_rk3328
    board_name=evb_rk3328
    boot_a_script=load ${devtype} ${devnum}:${distro_bootpart} ${scriptaddr} ${prefix}${script}; source ${scriptaddr}
    boot_efi_binary=load ${devtype} ${devnum}:${distro_bootpart} ${kernel_addr_r} efi/boot/bootaa64.efi; if fdt addr ${fdt_addr_r}; then bootefi ${kernel_addr_r} ${fdt_addr_r};else bootefi ${kernel_addr_r} ${fdtcontroladdr};fi
    boot_extlinux=sysboot ${devtype} ${devnum}:${distro_bootpart} any ${scriptaddr} ${prefix}extlinux/extlinux.conf
    boot_net_usb_start=usb start
    boot_prefixes=/ /boot/
    boot_script_dhcp=boot.scr.uimg
    boot_scripts=boot.scr.uimg boot.scr
    boot_targets=mmc0 mmc1 usb0 pxe dhcp
    bootcmd=run distro_bootcmd
    bootcmd_dhcp=run boot_net_usb_start; if dhcp ${scriptaddr} ${boot_script_dhcp}; then source ${scriptaddr}; fi;setenv efi_fdtfile ${fdtfile}; setenv efi_old_vci ${bootp_vci};setenv efi_old_arch ${bootp_arch};setenv bootp_vci PXEClient:Arch:00011:UNDI:003000;setenv bootp_arch 0xb;if dhcp ${kernel_addr_r}; then tftpboot ${fdt_addr_r} dtb/${efi_fdtfile};if fdt addr ${fdt_addr_r}; then bootefi ${kernel_addr_r} ${fdt_addr_r}; else bootefi ${kernel_addr_r} ${fdtcontroladdr};fi;fi;setenv bootp_vci ${efi_old_vci};setenv bootp_arch ${efi_old_arch};setenv efi_fdtfile;setenv efi_old_arch;setenv efi_old_vci;
    bootcmd_mmc0=setenv devnum 0; run mmc_boot
    bootcmd_mmc1=setenv devnum 1; run mmc_boot
    bootcmd_pxe=run boot_net_usb_start; dhcp; if pxe get; then pxe boot; fi
    bootcmd_usb0=setenv devnum 0; run usb_boot
    bootdelay=2
    cpu=armv8
    devnum=0
    devplist=6
    devtype=mmc
    distro_bootcmd=for target in ${boot_targets}; do run bootcmd_${target}; done
    efi_dtb_prefixes=/ /dtb/ /dtb/current/
    fdt_addr_r=0x01f00000
    fdtcontroladdr=fcf21668
    kernel_addr_r=0x02000000
    load_efi_dtb=load ${devtype} ${devnum}:${distro_bootpart} ${fdt_addr_r} ${prefix}${efi_fdtfile}
    mmc_boot=if mmc dev ${devnum}; then setenv devtype mmc; run scan_dev_for_boot_part; fi
    partitions=uuid_disk=${uuid_gpt_disk};name=loader1,start=32K,size=4000K,uuid=${uuid_gpt_loader1};name=loader2,start=8MB,size=4MB,uuid=${uuid_gpt_loader2};name=trust,size=4M,uuid=${uuid_gpt_atf};name=boot,size=112M,bootable,uuid=${uuid_gpt_boot};name=rootfs,size=-,uuid=B921B045-1DF0-41C3-AF44-4C6F280D3FAE;
    pxefile_addr_r=0x00600000
    ramdisk_addr_r=0x04000000
    scan_dev_for_boot=echo Scanning ${devtype} ${devnum}:${distro_bootpart}...; for prefix in ${boot_prefixes}; do run scan_dev_for_extlinux; run scan_dev_for_scripts; done;run scan_dev_for_efi;
    scan_dev_for_boot_part=part list ${devtype} ${devnum} -bootable devplist; env exists devplist || setenv devplist 1; for distro_bootpart in ${devplist}; do if fstype ${devtype} ${devnum}:${distro_bootpart} bootfstype; then run scan_dev_for_boot; fi; done
    scan_dev_for_efi=setenv efi_fdtfile ${fdtfile}; for prefix in ${efi_dtb_prefixes}; do if test -e ${devtype} ${devnum}:${distro_bootpart} ${prefix}${efi_fdtfile}; then run load_efi_dtb; fi;done;if test -e ${devtype} ${devnum}:${distro_bootpart} efi/boot/bootaa64.efi; then echo Found EFI removable media binary efi/boot/bootaa64.efi; run boot_efi_binary; echo EFI LOAD FAILED: continuing...; fi; setenv efi_fdtfile
    scan_dev_for_extlinux=if test -e ${devtype} ${devnum}:${distro_bootpart} ${prefix}extlinux/extlinux.conf; then echo Found ${prefix}extlinux/extlinux.conf; run boot_extlinux; echo SCRIPT FAILED: continuing...; fi
    scan_dev_for_scripts=for script in ${boot_scripts}; do if test -e ${devtype} ${devnum}:${distro_bootpart} ${prefix}${script}; then echo Found U-Boot script ${prefix}${script}; run boot_a_script; echo SCRIPT FAILED: continuing...; fi; done
    scriptaddr=0x00500000
    soc=rockchip
    stderr=serial@ff130000
    stdin=serial@ff130000
    stdout=serial@ff130000
    usb_boot=usb start; if usb dev ${devnum}; then setenv devtype usb; run scan_dev_for_boot_part; fi
    vendor=rockchip

    Environment size: 3903/32764 bytes
    =>
    arch=arm
    baudrate=1500000
    board=evb_rk3328
    board_name=evb_rk3328
    boot_a_script=load ${devtype} ${devnum}:${distro_bootpart} ${scriptaddr} ${prefix}${script}; source ${scriptaddr}
    boot_efi_binary=load ${devtype} ${devnum}:${distro_bootpart} ${kernel_addr_r} efi/boot/bootaa64.efi; if fdt addr ${fdt_addr_r}; then bootefi ${kernel_addr_r} ${fdt_addr_r};else bootefi ${kernel_addr_r} ${fdtcontroladdr};fi
    boot_extlinux=sysboot ${devtype} ${devnum}:${distro_bootpart} any ${scriptaddr} ${prefix}extlinux/extlinux.conf
    boot_net_usb_start=usb start
    boot_prefixes=/ /boot/
    boot_script_dhcp=boot.scr.uimg
    boot_scripts=boot.scr.uimg boot.scr
    boot_targets=mmc0 mmc1 usb0 pxe dhcp
    bootcmd=run distro_bootcmd
    bootcmd_dhcp=run boot_net_usb_start; if dhcp ${scriptaddr} ${boot_script_dhcp}; then source ${scriptaddr}; fi;setenv efi_fdtfile ${fdtfile}; setenv efi_old_vci ${bootp_vci};setenv efi_old_arch ${bootp_arch};setenv bootp_vci PXEClient:Arch:00011:UNDI:003000;setenv bootp_arch 0xb;if dhcp ${kernel_addr_r}; then tftpboot ${fdt_addr_r} dtb/${efi_fdtfile};if fdt addr ${fdt_addr_r}; then bootefi ${kernel_addr_r} ${fdt_addr_r}; else bootefi ${kernel_addr_r} ${fdtcontroladdr};fi;fi;setenv bootp_vci ${efi_old_vci};setenv bootp_arch ${efi_old_arch};setenv efi_fdtfile;setenv efi_old_arch;setenv efi_old_vci;
    bootcmd_mmc0=setenv devnum 0; run mmc_boot
    bootcmd_mmc1=setenv devnum 1; run mmc_boot
    bootcmd_pxe=run boot_net_usb_start; dhcp; if pxe get; then pxe boot; fi
    bootcmd_usb0=setenv devnum 0; run usb_boot
    bootdelay=2
    cpu=armv8
    devnum=0
    devplist=6
    devtype=mmc
    distro_bootcmd=for target in ${boot_targets}; do run bootcmd_${target}; done
    efi_dtb_prefixes=/ /dtb/ /dtb/current/
    fdt_addr_r=0x01f00000
    fdtcontroladdr=fcf21668
    kernel_addr_r=0x02000000
    load_efi_dtb=load ${devtype} ${devnum}:${distro_bootpart} ${fdt_addr_r} ${prefix}${efi_fdtfile}
    mmc_boot=if mmc dev ${devnum}; then setenv devtype mmc; run scan_dev_for_boot_part; fi
    partitions=uuid_disk=${uuid_gpt_disk};name=loader1,start=32K,size=4000K,uuid=${uuid_gpt_loader1};name=loader2,start=8MB,size=4MB,uuid=${uuid_gpt_loader2};name=trust,size=4M,uuid=${uuid_gpt_atf};name=boot,size=112M,bootable,uuid=${uuid_gpt_boot};name=rootfs,size=-,uuid=B921B045-1DF0-41C3-AF44-4C6F280D3FAE;
    pxefile_addr_r=0x00600000
    ramdisk_addr_r=0x04000000
    scan_dev_for_boot=echo Scanning ${devtype} ${devnum}:${distro_bootpart}...; for prefix in ${boot_prefixes}; do run scan_dev_for_extlinux; run scan_dev_for_scripts; done;run scan_dev_for_efi;
    scan_dev_for_boot_part=part list ${devtype} ${devnum} -bootable devplist; env exists devplist || setenv devplist 1; for distro_bootpart in ${devplist}; do if fstype ${devtype} ${devnum}:${distro_bootpart} bootfstype; then run scan_dev_for_boot; fi; done
    scan_dev_for_efi=setenv efi_fdtfile ${fdtfile}; for prefix in ${efi_dtb_prefixes}; do if test -e ${devtype} ${devnum}:${distro_bootpart} ${prefix}${efi_fdtfile}; then run load_efi_dtb; fi;done;if test -e ${devtype} ${devnum}:${distro_bootpart} efi/boot/bootaa64.efi; then echo Found EFI removable media binary efi/boot/bootaa64.efi; run boot_efi_binary; echo EFI LOAD FAILED: continuing...; fi; setenv efi_fdtfile
    scan_dev_for_extlinux=if test -e ${devtype} ${devnum}:${distro_bootpart} ${prefix}extlinux/extlinux.conf; then echo Found ${prefix}extlinux/extlinux.conf; run boot_extlinux; echo SCRIPT FAILED: continuing...; fi
    scan_dev_for_scripts=for script in ${boot_scripts}; do if test -e ${devtype} ${devnum}:${distro_bootpart} ${prefix}${script}; then echo Found U-Boot script ${prefix}${script}; run boot_a_script; echo SCRIPT FAILED: continuing...; fi; done
    scriptaddr=0x00500000
    soc=rockchip
    stderr=serial@ff130000
    stdin=serial@ff130000
    stdout=serial@ff130000
    usb_boot=usb start; if usb dev ${devnum}; then setenv devtype usb; run scan_dev_for_boot_part; fi
    vendor=rockchip

    Environment size: 3903/32764 bytes
    => help
    ?       - alias for 'help'
    base    - print or set address offset
    bdinfo  - print Board Info structure
    boot    - boot default, i.e., run 'bootcmd'
    bootd   - boot default, i.e., run 'bootcmd'
    bootefi - Boots an EFI payload from memory
    bootelf - Boot from an ELF image in memory
    booti   - boot arm64 Linux Image image from memory
    bootm   - boot application image from memory
    bootp   - boot image via network using BOOTP/TFTP protocol
    bootvx  - Boot vxWorks from an ELF image
    bootz   - boot Linux zImage image from memory
    cmp     - memory compare
    coninfo - print console devices and information
    cp      - memory copy
    crc32   - checksum calculation
    dhcp    - boot image via network using DHCP/TFTP protocol
    dm      - Driver model low level access
    echo    - echo args to console
    editenv - edit environment variable
    env     - environment handling commands
    erase   - erase FLASH memory
    exit    - exit script
    ext2load- load binary file from a Ext2 filesystem
    ext2ls  - list files in a directory (default /)
    ext4load- load binary file from a Ext4 filesystem
    ext4ls  - list files in a directory (default /)
    ext4size- determine a file's size
    false   - do nothing, unsuccessfully
    fastboot- use USB or UDP Fastboot protocol
    fatinfo - print information about filesystem
    fatload - load binary file from a dos filesystem
    fatls   - list files in a directory (default /)
    fatsize - determine a file's size
    fatwrite- write file into a dos filesystem
    fdt     - flattened device tree utility commands
    flinfo  - print FLASH memory information
    fstype  - Look up a filesystem type
    go      - start application at address 'addr'
    gpt     - GUID Partition Table
    help    - print command description/usage
    iminfo  - print header information for application image
    imxtract- extract a part of a multi-image
    itest   - return true/false on integer compare
    load    - load binary file from a filesystem
    loadb   - load binary file over serial line (kermit mode)
    loads   - load S-Record file over serial line
    loadx   - load binary file over serial line (xmodem mode)
    loady   - load binary file over serial line (ymodem mode)
    loop    - infinite loop on address range
    ls      - list files in a directory (default /)
    md      - memory display
    mii     - MII utility commands
    mm      - memory modify (auto-incrementing address)
    mmc     - MMC sub system
    mmcinfo - display MMC info
    mw      - memory write (fill)
    nfs     - boot image via network using NFS protocol
    nm      - memory modify (constant address)
    part    - disk partition related commands
    ping    - send ICMP ECHO_REQUEST to network host
    printenv- print environment variables
    protect - enable or disable FLASH write protection
    pxe     - commands to get and boot from pxe files
    reset   - Perform RESET of the CPU
    rockusb - Use the rockusb Protocol
    run     - run commands in an environment variable
    save    - save file to a filesystem
    saveenv - save environment variables to persistent storage
    setenv  - set environment variables
    showvar - print local hushshell variables
    size    - determine a file's size
    sleep   - delay execution for some time
    source  - run script from memory
    sysboot - command to get and boot from syslinux files
    test    - minimal test like /bin/sh
    tftpboot- boot image via network using TFTP protocol
    time    - run commands and summarize execution time
    true    - do nothing, successfully
    usb     - USB sub-system
    usbboot - boot from USB device
    version - print monitor, compiler and linker version
    => save
      save saveenv
    => saveenv
    Saving Environment to MMC...
    Card did not respond to voltage select!
    mmc_init: -95, time 9
    !No block device
    =>
    =>


     

    RK3328MiniLoaderAll.bin

  5. Maybe i tell bullshit but i saw a kernel4.4 driver for mali400 released with NanoPi Fire2A & Fire3 Boards.
     

    Spoiler

     

    
    gpu@c0070000 {
    			compatible = "arm,mali-400", "arm,mali-utgard";
    			reg = <PHYS_BASE_VR 0x10000>;
    			interrupts = <IRQ_VR>, <IRQ_VR>, <IRQ_VR>,
    				   <IRQ_VR>, <IRQ_VR>, <IRQ_VR>, <IRQ_VR>;
    			interrupt-names = "IRQGP", "IRQGPMMU", "IRQPP0",
    				"IRQPPMMU0", "IRQPP1", "IRQPPMMU1", "IRQPMU";
    			pmu_domain_config = <0x1 0x4 0x8 0x0 0x0 0x0 0x0 0x0
    						0x0 0x2 0x0 0x0>;
    			pmu_switch_delay = <0xff>;
    			clocks = <&vr>;
    			clock-names = "clk_mali";
    			resets = <&nexell_reset RESET_ID_VR>;
    			reset-names = "vr-reset";
    		};
    
    		video-codec@c0080000 {
    			compatible = "nexell, nx-vpu";
    			reg = <0xc0080000 0x4000>;
    			interrupts = <IRQ_CODA960_HOST>,
    				<IRQ_CODA960_JPG>;
    			resets = <&nexell_reset RESET_ID_CODA_A>,
    				<&nexell_reset RESET_ID_CODA_P>,
    				<&nexell_reset RESET_ID_CODA_C>;
    			reset-names = "vpu-a-reset", "vpu-p-reset",
    				"vpu-c-reset";
    			clocks = <&pclk>, <&bclk>;
    			status = "okay";
    			sram = <0 0>;
    		};
    
    		mpegts_0: mpegts0@c005d000 {
    			compatible = "nexell,nx-mpegts";
    			reg = <0xc005d000 0x4000>;
    			reset-names = "mpegts0-rst";
    			resets = <&nexell_reset RESET_ID_MPEGTSI>;
    			clock-names = "mpegts0-clk";
    			clocks = <&mpegtsi>;
    			channel_num = <0>;
    			status = "disabled";
    		};
    
    		mpegts_1: mpegts1@c005d000 {
    			compatible = "nexell,nx-mpegts";
    			reg = <0xc005d000 0x4000>;
    			reset-names = "mpegts1-rst";
    			resets = <&nexell_reset RESET_ID_MPEGTSI>;
    			clock-names = "mpegts1-clk";
    			clocks = <&mpegtsi>;
    			channel_num = <1>;
    			status = "disabled";
    		};

     

  6. Do you know your link with comment reference isn't working in firefox? I have to check the share button to see proposed url and find the tutorial
    Maybe it's more simple to make an pdf or a quote like this :

    On 11/8/2017 at 9:54 AM, Myy said:

    @Tido Glad you make it through. As always, ugly terrain and crystal bunny are the most GPU intensive operations.

    I guess that you're screen works at 55Hz ?

     

    Anyway, scripting the Mali user-space binary drivers sound nice and all until you realize that, besides wayland (weston only I'd say), DRM (used by almost nobody currently) and fbdev (used only by mediacenter-like distros), they won't be very useful. The X11 ones require a specific X Server, or you'll get a terrific crash when X starts...


    Anyway, something like :

    
    mkdir -p ~/.local/lib
    cd ~/.local/lib
    wget https://github.com/rockchip-linux/libmali/raw/rockchip/lib/arm-linux-gnueabihf/libmali-midgard-t76x-r14p0-r1p0-wayland.so -O libmali.so
    for file_to_link in libGLESv1_CM.so{,.1} libGLESv2.so{,.2} libEGL.so{,.1} libgbm.so{,.1,.1.0.0} libOpenCL.so{,.1,.1.0.0}; do ln -s libmali.so $file_to_link; done
    echo "alias mali_exec LD_LIBRARY_PATH=\$LD_LIBRARY_PATH:`echo ~/.local/lib`" >> ~/.bashrc

    Might do the trick for now. This is actually untested though. This should add a "mali_exec" command that can be used like this :

    
    mali_exec glmark2-es2-drm

    Providing a Nvidia Optimus bumblebee-like execution mechanism.

  7. 3 hours ago, Tido said:

    To my understanding, did you go/read through that thread, I am asking, because just above your post it says: 4.14.0-rc6 .

    So have you taken the time to read or not ?

    The tutorial has already been written by Myy.

     

    Well u are right, i misreading first page, sorrye
    Plz share a link to the tutorial, i don't find it

     

  8. Hello

    • Just to understand a little bit can we use the binary libmali with lastest kernel with patch (Myy) or it 's necessary to start from 4.4 kernel and port mainline patches to 4.4 kernel?
      I buy an rk3328 device only because it's seem there is an kernel - not prehistoric - with gpu available but after some read i find documentation poor and community less active (in number) than sunxi linux team. I hope to be able to compile QT5 webkit  with gpu mesa dependancy but maybe it's very early to dream about it :)

      A link to Myy tutorial (RK3288) if already exist need to be under light ^^
      Tks for what is sharing here
  9. 12 hours ago, mdel said:

    i'm still looking at my original z28 pro before testing linux images 

     

    Maybe you can check a big file copy from sdcard to android emmc to see speed throughtput and maybe confirming sdcard socket is spi wired (lower speed than real sdmmc controller)

  10. example of command (tested on OP PC) to boot openwrt in ram from a tftp server (sharing dtb, uimage and rootfs) :

    setenv ipaddr 192.168.x.x
    setenv serverip 192.168.x.x
    setenv netmask 255.255.255.0
    setenv kernel_addr_r 0x42000000
    setenv fdt_addr_r 0x43000000
    setenv ramdisk_addr_r 0x43300000
    setenv rootfsaddr 0x43300000
    
    setenv tftpLoadUBoot tftpboot 0x42000000 openwrt-sunxi-uImage
    setenv tftpLoadDTB tftpboot 0x43000000 dtb
    setenv tftpLoadROOTFSRAM tftpboot 0x43300000 openwrt-sunxi-root.ext4
    setenv tftpLoadCMD run tftpLoadUBoot tftpLoadDTB tftpLoadROOTFSRAM
    setenv bootargs console=ttyS0,115200 mem=512M earlyprintk root=/dev/ram0 rw ramdisk_size=200000 initrd=0x43300000,100M
    saveenv
    run tftpLoadCMD
    bootm 0x42000000 - 0x43000000 - 0x43300000

     

  11. Hello,

     

    I would like to know if it's possible to put a mainline uboot with ethernet, usb support and lunch the old legacy kernel with it?
    I need it to be able to boot remotely (tftp) or from usb to make backup, restore without remove sdcard or lunch a recovery mode remotely by lora and a little uC speaking on uart of OPI.
    With mainline uboot it's easy to lunch openwrt on a ramdisk without mounting sdcard.
    If i can do the same (mainline uboot) with legacy kernel, i m happy.
    Thanks

  12. Equation for board with SDIO wlan and bluetooth, no gmac:

    the SDIO module is wired with a full uart RTS CTS (UART0 | UART1) for Bluetooth and a sdmmc (SDMMC0 | SDMMC1 | SDMMC0_EXT).
    UART1 is multiplexed with SDMMC0_EXT.
    UART2 has a pin switch (UART2-0 | UART2-1).
    UART2-1 isn't multiplexed with SDMMC0. SDMMC0 available.
    UART2-0 is multiplexed with SDMMC0.
    SPI2 is multiplexed with SDMMC0_EXT.

     

    I see four possibilities :
    - The console is UART2-0 (multiplexed with SDMMC0). SDMMC0_EXT and SDMMC1 are dedicated to the SDIO module. Boot possible with an SDMMC0 sdcard but loss of the UART2 console. => (maybe an idea about bug boot with uart connected)
    - The console is UART2-1 (not multiplexed with SDMMC0). UART1 (disable SDMMC0_EXT) for serial bluetooth, SDMMC1 and SDMMC0 are dedicated to the SDIO module and SD socket. Boot possible with an SDMMC0 sdcard.

    - The console is UART2-1 (not multiplexed with SDMMC0). UART0 for serial bluetooth, SDMMC1, SDMMC0 and SDMMC0_EXT can be dedicated to the SDIO module and SD socket. Boot possible with an sdcard if SDMMC0 is available on sd socket. Boot possible with an spi nor flash if SDMMC0_EXT is available on sd socket.
    - The console is UART1 (multiplexed with SDMMC0_EXT). UART0 for Bluetooth, SDMMC1|SDMMC0 for sdio wlan. SDMMC1|SDMMC0 for sd socket. Boot possible with an SDMMC0.
    - The console is UART0. UART1 (multiplexed with SDMMC0_EXT) for Bluetooth, SDMMC1|SDMMC0 for sdio wlan and SD port. SDMMC1|SDMMC0 for sd socket. Boot possible with an SDMMC0.


    As information ROCK64 use UART2-1 for serial console.
    Sorry for brainstorming but it's needed to make the right uboot with output on right serial console

  13. Equation for Z28 PRO with SDIO wlan bluetooth (FN6222B), gmac :

    the SDIO module is wired with a full uart RTS CTS (UART0 | UART1) for Bluetooth and a sdmmc (SDMMC0 | SDMMC1 | SDMMC_EXT).
    UART0, SDMMC1 unavailable because multiplexed with GMAC
    UART1 is multiplexed with SDMMC_EXT.
    UART2 has a pin switch (UART2-0 | UART2-1).
    UART2-1 isn't multiplexed with SDMMC0. SDMMC0 available.
    UART2-0 is multiplexed with SDMMC0.
    SPI2 is multiplexed with SDMMC_EXT.

     

    I see only one possibilitie :
    UART2-1 is serial console, let available SDMMC0.
    UART1 is for bluetooth link => SDMMC0_EXT unavailable.
    As SDMMC1 is unavailable because multiplexed with GMAC, SDMMC0 is for sdio wlan.
    Next big question is how is wired sdsocket? is it spi wired?

  14. On 11/1/2017 at 12:09 AM, mdel said:

     

    i don't quite understand how sdmmc1 (not bootable sd port,  according to the datasheet) would be used on this device, when those pins are shared with the gmac bus which is activated on the z28 pro with gigabit.

     

    Also seeing that the same routing exists on the rock64 schematics (gmac pins + rtl8111) and sdmmc1 is not routed on the board.

    there are also some sdmmc0_ext pins i don't quite understand the purpose in the datasheet.

     

    I don't understand this fact, look like hidden information in public datasheet no mention about external sdmmc or alternate pin select, even in rk3399 datasheet...
    I 'am asking if people try booting Z28 pro with a kill clk on emmc to stard sdcard boot. I supose yes but if yes it's crazy not understandable why z28 pro don't boot on mmc0

     

  15. Just a word to say, finaly i am sure SDIO host don't handle SPI mode - no way to connect CS/SS to sdio interface, so bad. SDcard can work in spi mode but not reverse.
    Really SDIO has a big potential (bandwidht, low power) but hard to use for hackers. Example there no ethernet chip based on sdio, but lot of wlan - really strange!

    The way to use sdio0 on rk3328 is soldering sdcard including a working u boot, soldering is easy and safe but not easy to adjust u boot. Soldering sdsocket is weak mecanicaly...maybe an bid sd to microsd is better.