Microchip PolarFire SoC Icicle Kit (``microchip-icicle-kit``) ============================================================= Microchip PolarFire SoC Icicle Kit integrates a PolarFire SoC, with one SiFive's E51 plus four U54 cores and many on-chip peripherals and an FPGA. For more details about Microchip PolarFire SoC, please see: https://www.microsemi.com/product-directory/soc-fpgas/5498-polarfire-soc-fpga The Icicle Kit board information can be found here: https://www.microsemi.com/existing-parts/parts/152514 Supported devices ----------------- The ``microchip-icicle-kit`` machine supports the following devices: * 1 E51 core * 4 U54 cores * Core Level Interruptor (CLINT) * Platform-Level Interrupt Controller (PLIC) * L2 Loosely Integrated Memory (L2-LIM) * DDR memory controller * 5 MMUARTs * 1 DMA controller * 2 GEM Ethernet controllers * 1 SDHC storage controller Boot options ------------ The ``microchip-icicle-kit`` machine can start using the standard -bios functionality for loading its BIOS image, aka Hart Software Services (HSS_). HSS loads the second stage bootloader U-Boot from an SD card. Then a kernel can be loaded from U-Boot. It also supports direct kernel booting via the -kernel option along with the device tree blob via -dtb. When direct kernel boot is used, the OpenSBI fw_dynamic BIOS image is used to boot a payload like U-Boot or OS kernel directly. The user provided DTB should have the following requirements: * The /cpus node should contain at least one subnode for E51 and the number of subnodes should match QEMU's ``-smp`` option * The /memory reg size should match QEMU’s selected ram_size via ``-m`` * Should contain a node for the CLINT device with a compatible string "riscv,clint0" QEMU follows below truth table to select which payload to execute: ===== ========== ======= -bios -kernel payload ===== ========== ======= N N HSS Y don't care HSS N Y kernel ===== ========== ======= The memory is set to 1537 MiB by default which is the minimum required high memory size by HSS. A sanity check on ram size is performed in the machine init routine to prompt user to increase the RAM size to > 1537 MiB when less than 1537 MiB ram is detected. Running HSS ----------- HSS 2020.12 release is tested at the time of writing. To build an HSS image that can be booted by the ``microchip-icicle-kit`` machine, type the following in the HSS source tree: .. code-block:: bash $ export CROSS_COMPILE=riscv64-linux- $ cp boards/mpfs-icicle-kit-es/def_config .config $ make BOARD=mpfs-icicle-kit-es Download the official SD card image released by Microchip and prepare it for QEMU usage: .. code-block:: bash $ wget ftp://ftpsoc.microsemi.com/outgoing/core-image-minimal-dev-icicle-kit-es-sd-20201009141623.rootfs.wic.gz $ gunzip core-image-minimal-dev-icicle-kit-es-sd-20201009141623.rootfs.wic.gz $ qemu-img resize core-image-minimal-dev-icicle-kit-es-sd-20201009141623.rootfs.wic 4G Then we can boot the machine by: .. code-block:: bash $ qemu-system-riscv64 -M microchip-icicle-kit -smp 5 \ -bios path/to/hss.bin -sd path/to/sdcard.img \ -nic user,model=cadence_gem \ -nic tap,ifname=tap,model=cadence_gem,script=no \ -display none -serial stdio \ -chardev socket,id=serial1,path=serial1.sock,server=on,wait=on \ -serial chardev:serial1 With above command line, current terminal session will be used for the first serial port. Open another terminal window, and use `minicom` to connect the second serial port. .. code-block:: bash $ minicom -D unix\#serial1.sock HSS output is on the first serial port (stdio) and U-Boot outputs on the second serial port. U-Boot will automatically load the Linux kernel from the SD card image. .. _HSS: https://github.com/polarfire-soc/hart-software-services