.. SPDX-License-Identifier: GPL-2.0+ Pine64 Star64 ============= U-Boot for the Star64 uses the same U-Boot binaries as the VisionFive 2 board. In U-Boot SPL the actual board is detected and the device-tree patched accordingly. Building ~~~~~~~~ 1. Add the RISC-V toolchain to your PATH. 2. Setup ARCH & cross compilation environment variable: .. code-block:: none export CROSS_COMPILE= The M-mode software OpenSBI provides the supervisor binary interface (SBI) and is responsible for the switch to S-Mode. It is a prerequisite to build U-Boot. Support for the JH7110 was introduced in OpenSBI 1.2. It is recommended to use a current release. .. code-block:: console git clone https://github.com/riscv/opensbi.git cd opensbi make PLATFORM=generic FW_TEXT_START=0x40000000 Now build the U-Boot SPL and U-Boot proper. .. code-block:: console cd make starfive_visionfive2_defconfig make OPENSBI=$(opensbi_dir)/build/platform/generic/firmware/fw_dynamic.bin This will generate the U-Boot SPL image (spl/u-boot-spl.bin.normal.out) as well as the FIT image (u-boot.itb) with OpenSBI and U-Boot. Device-tree selection ~~~~~~~~~~~~~~~~~~~~~ U-Boot will set variable $fdtfile to starfive/jh7110-pine64-star64.dtb. To overrule this selection the variable can be set manually and saved in the environment :: env set fdtfile my_device-tree.dtb env save or the configuration variable CONFIG_DEFAULT_FDT_FILE can be used to set to provide a default value. Boot source selection ~~~~~~~~~~~~~~~~~~~~~ Boot mode is selected by an MSEL-DIP marked S1804 and GPIO_0 position adjacent to the 40pin GPIO header. ON/ONKE and number markings of the MSEL-DIP are misleading; Instead refer to the ``L`` (0) and ``H`` (1) silkscreen for accurate selection. + (QSPI) Flash: 00 + SD: 01 + EMMC: 10 + UART: 11 Preparing the SD-Card ~~~~~~~~~~~~~~~~~~~~~ The device firmware loads U-Boot SPL (u-boot-spl.bin.normal.out) from the partition with type GUID 2E54B353-1271-4842-806F-E436D6AF6985. You are free to choose any partition number. With the default configuration U-Boot SPL loads the U-Boot FIT image (u-boot.itb) from partition 2 (CONFIG_SYS_MMCSD_RAW_MODE_U_BOOT_PARTITION=0x2). When formatting it is recommended to use GUID BC13C2FF-59E6-4262-A352-B275FD6F7172 for this partition. The FIT image (u-boot.itb) is a combination of OpenSBI's fw_dynamic.bin, u-boot-nodtb.bin and the device tree blob. Format the SD card (make sure the disk has GPT, otherwise use gdisk to switch) .. code-block:: bash sudo sgdisk --clear \ --set-alignment=2 \ --new=1:4096:8191 --change-name=1:spl --typecode=1:2E54B353-1271-4842-806F-E436D6AF6985\ --new=2:8192:16383 --change-name=2:uboot --typecode=2:BC13C2FF-59E6-4262-A352-B275FD6F7172 \ --new=3:16384:1654784 --change-name=3:system --typecode=3:EBD0A0A2-B9E5-4433-87C0-68B6B72699C7 \ /dev/sdb Copy U-Boot to the SD card .. code-block:: bash sudo dd if=u-boot-spl.bin.normal.out of=/dev/sdb1 sudo dd if=u-boot.itb of=/dev/sdb2 sudo mount /dev/sdb3 /mnt/ sudo cp u-boot-spl.bin.normal.out /mnt/ sudo cp u-boot.itb /mnt/ sudo cp Image.gz /mnt/ sudo cp initramfs.cpio.gz /mnt/ sudo cp jh7110-starfive-visionfive-2.dtb /mnt/ sudo umount /mnt Booting ~~~~~~~ Once you plugin the sdcard and power up, you should see the U-Boot prompt. Serial Number and MAC address issues ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ U-Boot requires valid EEPROM data to determine which board-specific fix-up to apply at runtime. This affects the size of memory initialized, network mac address numbering, and tuning of the network PHYs. The Star64 does not currently ship with unique serial numbers per-device. Devices follow a pattern where the last mac address bytes are a sum of 0x7558 and the serial number (lower port mac0), or a sum of 0x7559 and the serial number (upper port mac1). As tested there are several 4gb model units where the serial number and network mac addresses collide with other devices (serial ``STAR64V1-2310-D004E000-00000005``, MACs ``6c:cf:39:00:75:61``, ``6c:cf:39:00:75:62``) Some early Star64 boards shipped with an uninitialized EEPROM and no write protect pull-up resistor in place. Later units of all 4gb and 8gb models sharing the same serial number in EEPROM data will have this problem that the network mac addresses are alike between different models and this may be corrected by defeating the write protect resistor to write new values. As an alternative to this, it may be worked around by overriding the mac addresses via U-Boot environment variables. It is required for any unit having uninitialized EEPROM and recommended for all later Star64 4gb model units (not properly serialized) to have decided on a new 6-byte serial number. This serial number should be high enough to avoid collision with other JH7110 boards and low enough not to overflow i.e. between ``cafe00`` and ``f00d00``. Update EEPROM values ^^^^^^^^^^^^^^^^^^^^ 1. Prepare EEPROM data in memory :: ## When there is no error to load existing data: mac read_eeprom ## When there is an error to load non-existing data: # "DRAM: Not a StarFive EEPROM data format - magic error" mac initialize 2. Set Star64 values :: ## Common values mac vendor PINE64 mac pcb_revision c1 mac bom_revision A ## Device-specific values # Year 2023 week 10 production date, 8GB DRAM, optional eMMC, serial cdef01 mac product_id STAR64V1-2310-D008E000-00cdef01 # Last three bytes mac0: 0x7558 + serial number 0xcdef01 mac mac0_address 6c:cf:39:ce:64:59 # Last three bytes mac1: 0x7559 + serial number 0xcdef01 mac mac1_address 6c:cf:39:ce:64:5a 3. Defeat write-protect pull-up resistor (if installed) and write to EEPROM :: mac write_eeprom Set Variables in U-Boot ^^^^^^^^^^^^^^^^^^^^^^^ .. note:: Changing just the serial number will not alter your MAC address The MAC addresses may be "set" as follows by writing as a custom config to SPI (Change the last 3 bytes of MAC addreses as appropriate): :: env set serial# STAR64V1-2310-D008E000-00cdef01 env set ethaddr 6c:cf:39:ce:64:59 env set eth1addr 6c:cf:39:ce:64:5a env save reset