| Aspeed family boards (``*-bmc``, ``ast2500-evb``, ``ast2600-evb``) |
| ================================================================== |
| |
| The QEMU Aspeed machines model BMCs of various OpenPOWER systems and |
| Aspeed evaluation boards. They are based on different releases of the |
| Aspeed SoC : the AST2400 integrating an ARM926EJ-S CPU (400MHz), the |
| AST2500 with an ARM1176JZS CPU (800MHz) and more recently the AST2600 |
| with dual cores ARM Cortex-A7 CPUs (1.2GHz). |
| |
| The SoC comes with RAM, Gigabit ethernet, USB, SD/MMC, USB, SPI, I2C, |
| etc. |
| |
| AST2400 SoC based machines : |
| |
| - ``palmetto-bmc`` OpenPOWER Palmetto POWER8 BMC |
| - ``quanta-q71l-bmc`` OpenBMC Quanta BMC |
| - ``supermicrox11-bmc`` Supermicro X11 BMC |
| |
| AST2500 SoC based machines : |
| |
| - ``ast2500-evb`` Aspeed AST2500 Evaluation board |
| - ``romulus-bmc`` OpenPOWER Romulus POWER9 BMC |
| - ``witherspoon-bmc`` OpenPOWER Witherspoon POWER9 BMC |
| - ``sonorapass-bmc`` OCP SonoraPass BMC |
| - ``fp5280g2-bmc`` Inspur FP5280G2 BMC |
| - ``g220a-bmc`` Bytedance G220A BMC |
| - ``yosemitev2-bmc`` Facebook YosemiteV2 BMC |
| - ``tiogapass-bmc`` Facebook Tiogapass BMC |
| |
| AST2600 SoC based machines : |
| |
| - ``ast2600-evb`` Aspeed AST2600 Evaluation board (Cortex-A7) |
| - ``tacoma-bmc`` OpenPOWER Witherspoon POWER9 AST2600 BMC |
| - ``rainier-bmc`` IBM Rainier POWER10 BMC |
| - ``fuji-bmc`` Facebook Fuji BMC |
| - ``bletchley-bmc`` Facebook Bletchley BMC |
| - ``fby35-bmc`` Facebook fby35 BMC |
| - ``qcom-dc-scm-v1-bmc`` Qualcomm DC-SCM V1 BMC |
| - ``qcom-firework-bmc`` Qualcomm Firework BMC |
| |
| Supported devices |
| ----------------- |
| |
| * SMP (for the AST2600 Cortex-A7) |
| * Interrupt Controller (VIC) |
| * Timer Controller |
| * RTC Controller |
| * I2C Controller, including the new register interface of the AST2600 |
| * System Control Unit (SCU) |
| * SRAM mapping |
| * X-DMA Controller (basic interface) |
| * Static Memory Controller (SMC or FMC) - Only SPI Flash support |
| * SPI Memory Controller |
| * USB 2.0 Controller |
| * SD/MMC storage controllers |
| * SDRAM controller (dummy interface for basic settings and training) |
| * Watchdog Controller |
| * GPIO Controller (Master only) |
| * UART |
| * Ethernet controllers |
| * Front LEDs (PCA9552 on I2C bus) |
| * LPC Peripheral Controller (a subset of subdevices are supported) |
| * Hash/Crypto Engine (HACE) - Hash support only. TODO: HMAC and RSA |
| * ADC |
| * Secure Boot Controller (AST2600) |
| * eMMC Boot Controller (dummy) |
| * PECI Controller (minimal) |
| * I3C Controller |
| |
| |
| Missing devices |
| --------------- |
| |
| * Coprocessor support |
| * PWM and Fan Controller |
| * Slave GPIO Controller |
| * Super I/O Controller |
| * PCI-Express 1 Controller |
| * Graphic Display Controller |
| * MCTP Controller |
| * Mailbox Controller |
| * Virtual UART |
| * eSPI Controller |
| |
| Boot options |
| ------------ |
| |
| The Aspeed machines can be started using the ``-kernel`` and ``-dtb`` options |
| to load a Linux kernel or from a firmware. Images can be downloaded from the |
| OpenBMC jenkins : |
| |
| https://jenkins.openbmc.org/job/ci-openbmc/lastSuccessfulBuild/ |
| |
| or directly from the OpenBMC GitHub release repository : |
| |
| https://github.com/openbmc/openbmc/releases |
| |
| To boot a kernel directly from a Linux build tree: |
| |
| .. code-block:: bash |
| |
| $ qemu-system-arm -M ast2600-evb -nographic \ |
| -kernel arch/arm/boot/zImage \ |
| -dtb arch/arm/boot/dts/aspeed-ast2600-evb.dtb \ |
| -initrd rootfs.cpio |
| |
| The image should be attached as an MTD drive. Run : |
| |
| .. code-block:: bash |
| |
| $ qemu-system-arm -M romulus-bmc -nic user \ |
| -drive file=obmc-phosphor-image-romulus.static.mtd,format=raw,if=mtd -nographic |
| |
| Options specific to Aspeed machines are : |
| |
| * ``execute-in-place`` which emulates the boot from the CE0 flash |
| device by using the FMC controller to load the instructions, and |
| not simply from RAM. This takes a little longer. |
| |
| * ``fmc-model`` to change the FMC Flash model. FW needs support for |
| the chip model to boot. |
| |
| * ``spi-model`` to change the SPI Flash model. |
| |
| For instance, to start the ``ast2500-evb`` machine with a different |
| FMC chip and a bigger (64M) SPI chip, use : |
| |
| .. code-block:: bash |
| |
| -M ast2500-evb,fmc-model=mx25l25635e,spi-model=mx66u51235f |
| |
| |
| Aspeed minibmc family boards (``ast1030-evb``) |
| ================================================================== |
| |
| The QEMU Aspeed machines model mini BMCs of various Aspeed evaluation |
| boards. They are based on different releases of the |
| Aspeed SoC : the AST1030 integrating an ARM Cortex M4F CPU (200MHz). |
| |
| The SoC comes with SRAM, SPI, I2C, etc. |
| |
| AST1030 SoC based machines : |
| |
| - ``ast1030-evb`` Aspeed AST1030 Evaluation board (Cortex-M4F) |
| |
| Supported devices |
| ----------------- |
| |
| * SMP (for the AST1030 Cortex-M4F) |
| * Interrupt Controller (VIC) |
| * Timer Controller |
| * I2C Controller |
| * System Control Unit (SCU) |
| * SRAM mapping |
| * Static Memory Controller (SMC or FMC) - Only SPI Flash support |
| * SPI Memory Controller |
| * USB 2.0 Controller |
| * Watchdog Controller |
| * GPIO Controller (Master only) |
| * UART |
| * LPC Peripheral Controller (a subset of subdevices are supported) |
| * Hash/Crypto Engine (HACE) - Hash support only. TODO: HMAC and RSA |
| * ADC |
| * Secure Boot Controller |
| * PECI Controller (minimal) |
| |
| |
| Missing devices |
| --------------- |
| |
| * PWM and Fan Controller |
| * Slave GPIO Controller |
| * Mailbox Controller |
| * Virtual UART |
| * eSPI Controller |
| * I3C Controller |
| |
| Boot options |
| ------------ |
| |
| The Aspeed machines can be started using the ``-kernel`` to load a |
| Zephyr OS or from a firmware. Images can be downloaded from the |
| ASPEED GitHub release repository : |
| |
| https://github.com/AspeedTech-BMC/zephyr/releases |
| |
| To boot a kernel directly from a Zephyr build tree: |
| |
| .. code-block:: bash |
| |
| $ qemu-system-arm -M ast1030-evb -nographic \ |
| -kernel zephyr.elf |
| |
| Facebook Yosemite v3.5 Platform and CraterLake Server (``fby35``) |
| ================================================================== |
| |
| Facebook has a series of multi-node compute server designs named |
| Yosemite. The most recent version released was |
| `Yosemite v3 <https://www.opencompute.org/documents/ocp-yosemite-v3-platform-design-specification-1v16-pdf>`__. |
| |
| Yosemite v3.5 is an iteration on this design, and is very similar: there's a |
| baseboard with a BMC, and 4 server slots. The new server board design termed |
| "CraterLake" includes a Bridge IC (BIC), with room for expansion boards to |
| include various compute accelerators (video, inferencing, etc). At the moment, |
| only the first server slot's BIC is included. |
| |
| Yosemite v3.5 is itself a sled which fits into a 40U chassis, and 3 sleds |
| can be fit into a chassis. See `here <https://www.opencompute.org/products/423/wiwynn-yosemite-v3-server>`__ |
| for an example. |
| |
| In this generation, the BMC is an AST2600 and each BIC is an AST1030. The BMC |
| runs `OpenBMC <https://github.com/facebook/openbmc>`__, and the BIC runs |
| `OpenBIC <https://github.com/facebook/openbic>`__. |
| |
| Firmware images can be retrieved from the Github releases or built from the |
| source code, see the README's for instructions on that. This image uses the |
| "fby35" machine recipe from OpenBMC, and the "yv35-cl" target from OpenBIC. |
| Some reference images can also be found here: |
| |
| .. code-block:: bash |
| |
| $ wget https://github.com/facebook/openbmc/releases/download/openbmc-e2294ff5d31d/fby35.mtd |
| $ wget https://github.com/peterdelevoryas/OpenBIC/releases/download/oby35-cl-2022.13.01/Y35BCL.elf |
| |
| Since this machine has multiple SoC's, each with their own serial console, the |
| recommended way to run it is to allocate a pseudoterminal for each serial |
| console and let the monitor use stdio. Also, starting in a paused state is |
| useful because it allows you to attach to the pseudoterminals before the boot |
| process starts. |
| |
| .. code-block:: bash |
| |
| $ qemu-system-arm -machine fby35 \ |
| -drive file=fby35.mtd,format=raw,if=mtd \ |
| -device loader,file=Y35BCL.elf,addr=0,cpu-num=2 \ |
| -serial pty -serial pty -serial mon:stdio \ |
| -display none -S |
| $ screen /dev/tty0 # In a separate TMUX pane, terminal window, etc. |
| $ screen /dev/tty1 |
| $ (qemu) c # Start the boot process once screen is setup. |