22. QEMU virt Armv8-A¶
Trusted Firmware-A (TF-A) implements the EL3 firmware layer for QEMU virt Armv8-A. BL1 is used as the BootROM, supplied with the -bios argument. When QEMU starts all CPUs are released simultaneously, BL1 selects a primary CPU to handle the boot and the secondaries are placed in a polling loop to be released by normal world via PSCI.
BL2 edits the Flattened Device Tree, FDT, generated by QEMU at run-time to add a node describing PSCI and also enable methods for the CPUs.
If ARM_LINUX_KERNEL_AS_BL33
is set to 1 then this FDT will be passed to BL33
via register x0, as expected by a Linux kernel. This allows a Linux kernel image
to be booted directly as BL33 rather than using a bootloader.
An ARM64 defconfig v5.5 Linux kernel is known to boot, FDT doesn’t need to be provided as it’s generated by QEMU.
Current limitations:
Only cold boot is supported
22.1. Getting non-TF images¶
QEMU_EFI.fd
can be downloaded from
http://snapshots.linaro.org/components/kernel/leg-virt-tianocore-edk2-upstream/latest/QEMU-KERNEL-AARCH64/RELEASE_GCC5/QEMU_EFI.fd
or, can be built as follows:
git clone https://github.com/tianocore/edk2.git
cd edk2
git submodule update --init
make -C BaseTools
source edksetup.sh
export GCC5_AARCH64_PREFIX=aarch64-linux-gnu-
build -a AARCH64 -t GCC5 -p ArmVirtPkg/ArmVirtQemuKernel.dsc
Then, you will get Build/ArmVirtQemuKernel-AARCH64/DEBUG_GCC5/FV/QEMU_EFI.fd
Please note you do not need to use GCC 5 in spite of the environment variable
GCC5_AARCH64_PREFIX
The rootfs can be built by using Buildroot as follows:
git clone git://git.buildroot.net/buildroot.git
cd buildroot
make qemu_aarch64_virt_defconfig
utils/config -e BR2_TARGET_ROOTFS_CPIO
utils/config -e BR2_TARGET_ROOTFS_CPIO_GZIP
make olddefconfig
make
Then, you will get output/images/rootfs.cpio.gz
.
22.2. Booting via semi-hosting option¶
Boot binaries, except BL1, are primarily loaded via semi-hosting so all binaries has to reside in the same directory as QEMU is started from. This is conveniently achieved with symlinks the local names as:
bl2.bin
-> BL2bl31.bin
-> BL31bl33.bin
-> BL33 (QEMU_EFI.fd
)Image
-> linux/arch/arm64/boot/Image
To build:
make CROSS_COMPILE=aarch64-none-elf- PLAT=qemu
To start (QEMU v5.0.0):
qemu-system-aarch64 -nographic -machine virt,secure=on -cpu cortex-a57 \
-kernel Image \
-append "console=ttyAMA0,38400 keep_bootcon" \
-initrd rootfs.cpio.gz -smp 2 -m 1024 -bios bl1.bin \
-d unimp -semihosting-config enable,target=native
22.3. Booting via flash based firmwares¶
Boot firmwares are loaded via secure FLASH0 device so bl1.bin
and
fip.bin
should be concatenated to create a flash.bin
that is flashed
onto secure FLASH0.
bl32.bin
-> BL32 (tee-header_v2.bin
)bl32_extra1.bin
-> BL32 Extra1 (tee-pager_v2.bin
)bl32_extra2.bin
-> BL32 Extra2 (tee-pageable_v2.bin
)bl33.bin
-> BL33 (QEMU_EFI.fd
)Image
-> linux/arch/arm64/boot/Image
To build:
make CROSS_COMPILE=aarch64-linux-gnu- PLAT=qemu BL32=bl32.bin \
BL32_EXTRA1=bl32_extra1.bin BL32_EXTRA2=bl32_extra2.bin \
BL33=bl33.bin BL32_RAM_LOCATION=tdram SPD=opteed all fip
To build with TBBR enabled, BL31 and BL32 encrypted with test key:
make CROSS_COMPILE=aarch64-linux-gnu- PLAT=qemu BL32=bl32.bin \
BL32_EXTRA1=bl32_extra1.bin BL32_EXTRA2=bl32_extra2.bin \
BL33=bl33.bin BL32_RAM_LOCATION=tdram SPD=opteed all fip \
MBEDTLS_DIR=<path-to-mbedtls-repo> TRUSTED_BOARD_BOOT=1 \
GENERATE_COT=1 DECRYPTION_SUPPORT=aes_gcm FW_ENC_STATUS=0 \
ENCRYPT_BL31=1 ENCRYPT_BL32=1
To build flash.bin:
dd if=build/qemu/release/bl1.bin of=flash.bin bs=4096 conv=notrunc
dd if=build/qemu/release/fip.bin of=flash.bin seek=64 bs=4096 conv=notrunc
To start (QEMU v5.0.0):
qemu-system-aarch64 -nographic -machine virt,secure=on -cpu cortex-a57 \
-kernel Image -no-acpi \
-append 'console=ttyAMA0,38400 keep_bootcon' \
-initrd rootfs.cpio.gz -smp 2 -m 1024 -bios flash.bin \
-d unimp