This release contains various bug fixes. It does not include any new features.
- Fixed two bugs in the tool that lead to initialisation failure on larger Microkit systems.
- Disabled the
KernelArmVtimerUpdateVOffset
kernel configuration option by default.- This is necessary for Microkit VMs where they rely on knowing the actual surpassed time. More details are in the pull request.
- Enabled FPU for QEMU RISC-V virt and Pine64 Star64.
- libmicrokit builds with hardware floating point enabled and, while it does not use the FPU, it means that every object linked with libmicrokit must also build with hardware floating point enabled. Previously using floating point operations would cause a crash in user-space.
- Fixed the loader link address for the MaaXBoard.
- This does mean that if you target the MaaxBoard you will have to loader Microkit images at a different address. See the manual for details.
- Added error checking for overlapping memory regions.
- Included every TCB register in the monitor logs when a fault occurs.
- Made the tool compile from source with a Rust version lower that 1.79.0.
- Specified a minimum Rust version for the tool (1.73.0).
- Fixed typo in the
--help
output of the tool. - Minor README fixes.
- Updated PyYAML dependency in requirements.txt to 6.0.2 (from 6.0).
This release aims to add support for requested features by the community, in order to allow more people to use and transition to Microkit. There is of course still more to be done over the next couple of releases.
This release has no breaking changes.
- Added support for RISC-V 64-bit based platforms.
- Added a new 'benchmark' configuration to allow access to the in-kernel performance tracking.
- Add the ability to configure the stack size of a PD.
- Export ARM architectural timer to user-space for the QEMU virt AArch64 platform.
- This platform does not have any other timer so this is allows having a timer driver when simulating/developing Microkit systems with QEMU.
- Add new APIs for 'deferred' versions of
microkit_notify
andmicrokit_irq_ack
. See the manual for details on when and how to use these.
- Made a number of internal changes to the tool to improve performance and peak memory
usage.
- The tool's performance was not noticeable until building larger systems with Microkit. Now invoking the Microkit tool with a large system should not take more than 500ms-1s to complete. There are more opportunities for optimisation if we do run into the tool slowing down however.
- Fixed the loader to not print unless in debug mode (matching the behaviour of the kernel and monitor).
- Add error checking for duplicate symbols between
setvar_vaddr
attributes andsetvar
elements. - Fixed an internal issue that prevented the Monitor from printing out correct fault information in debug mode.
- Fixed the parsing of parent protection domains, previously non-trivial cases were leading to errors.
- Fixed the tool to explicitly skip ELF segments that are not declared as loadable, previously the tool assumed all segments would be loaded at runtime.
- Fix permissions applied to the distributed/packaged SDK. Previously this would cause
sudo
access to move/remove the SDK. - Fixed an internal issue that prevented a memory region from being allocated at a fixed physical address that is not part of device memory (e.g within RAM).
This release adds support for the following platforms:
- QEMU virt (RISC-V 64-bit)
- Pine64 Star64
This release represents the first release since the seL4 Microkit was adopted by the seL4 Foundation.
This release has no breaking changes.
- Added support for 'passive' protection domains.
- Added protection domain hierarchy allowing PDs to manage faults caused by child PDs and control their execution.
- Added virtualisation support and a new 'virtual machine' abstraction that allows users to create systems with guest operating systems (such as Linux).
- Add the ability to specify the type of IRQ trigger on IRQ elements in the SDF. Previously all IRQs were registered as level triggered, now users are given the option of specifying an IRQ as 'edge' triggered which is needed for writing certain device drivers.
- Added support for building the Microkit SDK on macOS. If you are on macOS, you can now develop with Microkit without Docker or a virtual machine.
- Rewrote the Microkit tool from Python to Rust. This is meant to be a purely internal
change and should not affect the use of the tool at all. This does however introduce
a new dependency on Rust. See the README for building the new tool from source.
- This was done primarily to decrease 3rd party dependencies and make it easier to build the Microkit SDK from source.
- Fixed the libmicrokit linker script to work with the LLVM linker, LLD. This means that non-GCC build systems can link with libmicrokit.
- Removed compiler provided includes (such as stdint.h and stdbool.h) from libmicrokit. This means that the libmicrokit header no longer depends on any system provided headers, making the SDK more self-contained.
- Various fixes and improvements to the manual.
- Various other bug-fixes and error message improvements to the Microkit tool.
This release adds support for the following platforms:
- Avnet MaaXBoard
- HardKernel Odroid-C2
- HardKernel Odroid-C4
- NXP i.MX8MM-EVK
- NXP i.MX8MQ-EVK
- QEMU virt (AArch64)
- Xilinx ZCU102