You can download the latest UEFI build by clicking the Azure Pipelines icon below. Click Artifacts button in Azure Pipelines, then download UEFI.elf in ELF directory.
This package demonstrates an AArch64 UEFI implementation for hacked Lumia 950, Lumia 950 XL and Hapanero. Currently, it is able to boot Windows 10 ARM64, as well as Linux. See notes below for more details.
Please be aware that MSM8992 have reduced support status due to the lack of testing device.
Applicable to all supported targets unless noted.
- Low-speed I/O: I2C, GPIO, SPMI and Pinmux (TLMM).
- Power Management: PMIC and Resource Power Manager (RPM).
- High-speed I/O for firmware and HLOS use: eMMC (SDR50 in firmware, HS200/HS400 in OS), PCI Express (Firmware-configured, HLOS Only, x2 Lane)
- Peripherals: Touchscreen (QUP I2C), side-band buttons (TLMM GPIO and PMIC GPIO)
- Display FrameBuffer depends on stock Qualcomm UEFI for boostrapping, MDP is not fully implemented.
I am too busy to write an average-user instruction. So, if you are interested in, you are welcome to contribute to an easy instruction for all Lumia 950 XL users.
Or you can buy me a coffee: PayPal.
If you are familiar with EDK2, you don't need to use my build script.
- Checkout a copy of EDK2. Switch to
UDK2018branch. Commit49fa59e82e4c6ea798f65fc4e5948eae63ad6e07absolutely works for you. - Checkout this repository under EDK2's worktree.
- Install ACPI tools from your package manager or ACPICA website.
- Install
uuid-devandpython(or equivalent package on your distribution). - Install Linaro AArch64 GCC toolchains, my build
script uses
gcc-linaro-7.2.1-2017.11. Then untar them. I place everything under/optdirectory, so I have directories like/opt/gcc-linaro-7.2.1-2017.11-x86_64_aarch64-elf/bin. If you placed it somewhere else, modify build scripts. - Run EDK2 BaseTools setup (
make -C BaseTools). - Copy
rundbbuild.shinToolsdirectory to your EDK2 worktree root directory. - By default only MSM8994 target is built. To build all, set environment variable
BUILDALL. - Start build:
. rundbbuild.sh --950xl --development
If you checked out the EDK2 repository under Windows and build it using WSL, you will have trouble locating BaseTools Python classes due to file case sensitive behavior changes in WSL. Run the following PowerShell script under EDK2 directory prior to build:
Get-ChildItem .\BaseTools\ -Directory -Recurse | Foreach-Object { fsutil.exe file setCaseSensitiveInfo $_.FullName }
You only need to run it once.
Per UEFI specification, ARM32 UEFI cannot boot ARM64 binaries directly. A recent engineering change removed the dependency of Little Kernel. LK can still boot it, but the path is untested.
To run this UEFI build on Lumia 950 XL, the following procedure is required:
- Check out Boot Shim. This Boot Manager Application
implements a simple ELF loader for the kickstarter (LK) with Secure Monitor Call for EL1 transition.
You will need branch
msm8994-aa64. - Place
UEFI.elfin the WP EFIESP root directory, copy Boot Shim EFI application to the EFIESP partition, create a new BCD entry for it. - Select this boot entry to enter UEFI.
To re-flash UEFI, simply place new UEFI.elf in WP EFIESP root directory.
Qualcomm Snapdragon MSM8992/MSM8994 implements a subset of PSCI interface for multi-processor startup. However, required
commands like PSCI_SYSTEM_OFF and PSCI_SYSTEM_RESET are not implemented. Hence we use PMIC to shutdown
platform (there's a bug in RT that will be fixed) instead of PSCI. Additionally, 8992/8994 uses HVC call for
PSCI commands instead of SMC call.
The ACPI tables are copied from stock Windows Phone FFU, hence these device IDs are likely not be recognized by Linux.
To get started, starts with the device tree of Qualcomm MSM8994 MTP. The repository devicetree-rebasing with
DT content from Android Linux Kernel is sufficient for DT development. To boot with device tree, add it in your
GRUB configuration:
devicetree /lumia-950-xl.dtb
linux /vmlinuz ..... acpi=no
PSCI partially works. If you want to use PSCI for multi-processor startup, add the following code to your DT:
psci {
compatible = "arm,psci-0.2";
method = "hvc";
};
And use psci for core-enable method.
For MSM8994, PCI Express Root Port 1 is firmware-initialized. Similarly, MSM8992 have PCI Express Root Port 0 initialized. Hence it is not necessary to supply qcom,pcie in device tree. Instead, supply a firmware-initialized PCI bus device pci-host-cam-generic. ACPI MCFG table is supplied for your reference.
- EFIDroid Project
- Andrei Warkentin and his RaspberryPiPkg
- Sarah Purohit
- Googulator
All code except drivers in GPLDriver directory are licensed under BSD 2-Clause.
GPL Drivers are licensed under GPLv2 license.