arm-trusted-firmware/docs/plat/hikey.rst

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Description

HiKey is one of 96boards. Hisilicon Kirin6220 processor is installed on HiKey.

More information are listed in link.

How to build

Code Locations

• ARM Trusted Firmware: link
• edk2: link
• OpenPlatformPkg: link
• l-loader: link
• uefi-tools: link
• atf-fastboot: link

Build Procedure

• Fetch all the above repositories into local host. Make all the repositories in the same ${BUILD_PATH}.

• Create the symbol link to OpenPlatformPkg in edk2.

  $cd ${BUILD_PATH}/edk2
  $ln -sf ../OpenPlatformPkg
  

• Prepare AARCH64 && AARCH32 toolchain. Prepare python.

• If your hikey hardware is built by CircuitCo, update uefi-tools/platform.config first. (optional) Uncomment the below sentence. Otherwise, UEFI can't output messages on serial console on hikey.

  BUILDFLAGS=-DSERIAL_BASE=0xF8015000
  

  If your hikey hardware is built by LeMarker, nothing to do.

• Build it as debug mode. Create your own build script file or you could refer to build_uefi.sh in l-loader git repository.

  BUILD_OPTION=DEBUG
  export AARCH64_TOOLCHAIN=GCC5
  export UEFI_TOOLS_DIR=${BUILD_PATH}/uefi-tools
  export EDK2_DIR=${BUILD_PATH}/edk2
  EDK2_OUTPUT_DIR=${EDK2_DIR}/Build/HiKey/${BUILD_OPTION}_${AARCH64_TOOLCHAIN}
  # Build fastboot for ARM Trust Firmware. It's used for recovery mode.
  cd ${BUILD_PATH}/atf-fastboot
  CROSS_COMPILE=aarch64-linux-gnu- make PLAT=hikey DEBUG=1
  # Convert DEBUG/RELEASE to debug/release
  FASTBOOT_BUILD_OPTION=$(echo ${BUILD_OPTION} | tr '[A-Z]' '[a-z]')
  cd ${EDK2_DIR}
  # Build UEFI & ARM Trust Firmware
  ${UEFI_TOOLS_DIR}/uefi-build.sh -b ${BUILD_OPTION} -a ../arm-trusted-firmware hikey
  # Generate l-loader.bin
  cd ${BUILD_PATH}/l-loader
  ln -sf ${EDK2_OUTPUT_DIR}/FV/bl1.bin
  ln -sf ${EDK2_OUTPUT_DIR}/FV/fip.bin
  ln -sf ${BUILD_PATH}/atf-fastboot/build/hikey/${FASTBOOT_BUILD_OPTION}/bl1.bin fastboot.bin
  python gen_loader.py -o l-loader.bin --img_bl1=bl1.bin --img_ns_bl1u=BL33_AP_UEFI.fd
  arm-linux-gnueabihf-gcc -c -o start.o start.S
  arm-linux-gnueabihf-ld -Bstatic -Tl-loader.lds -Ttext 0xf9800800 start.o -o loader
  arm-linux-gnueabihf-objcopy -O binary loader temp
  python gen_loader_hikey.py -o l-loader.bin --img_loader=temp --img_bl1=bl1.bin --img_ns_bl1u=fastboot.bin
  

• Generate partition table for aosp. The eMMC capacity is either 4GB or 8GB. Just change "aosp-4g" to "linux-4g" for debian.

  $PTABLE=aosp-4g SECTOR_SIZE=512 bash -x generate_ptable.sh
  

Setup Console

• Install ser2net. Use telnet as the console since UEFI fails to display Boot Manager GUI in minicom. If you don't need Boot Manager GUI, just ignore this section.

  $sudo apt-get install ser2net
  

• Configure ser2net.

  $sudo vi /etc/ser2net.conf
  

  Append one line for serial-over-USB in below. #ser2net.conf

  2004:telnet:0:/dev/ttyUSB0:115200 8DATABITS NONE 1STOPBIT banner
  

• Open the console.

  $telnet localhost 2004
  

  And you could open the console remotely, too.

Flush images in recovery mode

• Make sure Pin3-Pin4 on J15 are connected for recovery mode. Then power on HiKey.

• Remove the modemmanager package. This package may cause the idt tool failure.

  $sudo apt-get purge modemmanager
  

• Run the command to download l-loader.bin into HiKey.

  $sudo python hisi-idt.py -d /dev/ttyUSB1 --img1 l-loader.bin
  

• Update images. All aosp or debian images could be fetched from link.

  $sudo fastboot flash ptable prm_ptable.img
  $sudo fastboot flash fastboot fip.bin
  $sudo fastboot flash boot boot.img
  $sudo fastboot flash cache cache.img
  $sudo fastboot flash system system.img
  $sudo  fastboot flash userdata userdata.img
  

Boot UEFI in normal mode

• Make sure Pin3-Pin4 on J15 are open for normal boot mode. Then power on HiKey.
• Reference link

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