On Wed, May 19, 2021 at 10:28 AM Greg Kroah-Hartman <gregkh@xxxxxxxxxxxxxxxxxxx> wrote: > > On Wed, May 19, 2021 at 09:05:35AM +0530, Anup Patel wrote: > > From: Anup Patel <anup@xxxxxxxxxxxxxx> > > > > This series adds initial KVM RISC-V support. Currently, we are able to boot > > Linux on RV64/RV32 Guest with multiple VCPUs. > > > > Key aspects of KVM RISC-V added by this series are: > > 1. No RISC-V specific KVM IOCTL > > 2. Minimal possible KVM world-switch which touches only GPRs and few CSRs > > 3. Both RV64 and RV32 host supported > > 4. Full Guest/VM switch is done via vcpu_get/vcpu_put infrastructure > > 5. KVM ONE_REG interface for VCPU register access from user-space > > 6. PLIC emulation is done in user-space > > 7. Timer and IPI emuation is done in-kernel > > 8. Both Sv39x4 and Sv48x4 supported for RV64 host > > 9. MMU notifiers supported > > 10. Generic dirtylog supported > > 11. FP lazy save/restore supported > > 12. SBI v0.1 emulation for KVM Guest available > > 13. Forward unhandled SBI calls to KVM userspace > > 14. Hugepage support for Guest/VM > > 15. IOEVENTFD support for Vhost > > > > Here's a brief TODO list which we will work upon after this series: > > 1. SBI v0.2 emulation in-kernel > > 2. SBI v0.2 hart state management emulation in-kernel > > 3. In-kernel PLIC emulation > > 4. ..... and more ..... > > > > This series can be found in riscv_kvm_v18 branch at: > > https//github.com/avpatel/linux.git > > > > Our work-in-progress KVMTOOL RISC-V port can be found in riscv_v7 branch > > at: https//github.com/avpatel/kvmtool.git > > > > The QEMU RISC-V hypervisor emulation is done by Alistair and is available > > in master branch at: https://git.qemu.org/git/qemu.git > > > > To play around with KVM RISC-V, refer KVM RISC-V wiki at: > > https://github.com/kvm-riscv/howto/wiki > > https://github.com/kvm-riscv/howto/wiki/KVM-RISCV64-on-QEMU > > https://github.com/kvm-riscv/howto/wiki/KVM-RISCV64-on-Spike > > > > Changes since v17: > > - Rebased on Linux-5.13-rc2 > > - Moved to new KVM MMU notifier APIs > > - Removed redundant kvm_arch_vcpu_uninit() > > - Moved KVM RISC-V sources to drivers/staging for compliance with > > Linux RISC-V patch acceptance policy > > What is this new "patch acceptance policy" and what does it have to do > with drivers/staging? The Linux RISC-V patch acceptance policy is here: Documentation/riscv/patch-acceptance.rst As-per this policy, the Linux RISC-V maintainers will only accept patches for frozen/ratified RISC-V extensions. Basically, it links the Linux RISC-V development process with the RISC-V foundation process which is painfully slow. The KVM RISC-V patches have been sitting on the lists for almost 2 years now. The requirements for freezing RISC-V H-extension (hypervisor extension) keeps changing and we are not clear when it will be frozen. In fact, quite a few people have already implemented RISC-V H-extension in hardware as well and KVM RISC-V works on real HW as well. Rationale of moving KVM RISC-V to drivers/staging is to continue KVM RISC-V development without breaking the Linux RISC-V patch acceptance policy until RISC-V H-extension is frozen. Once, RISC-V H-extension is frozen we will move KVM RISC-V back to arch/riscv (like other architectures). > > What does drivers/staging/ have to do with this at all? Did anyone ask > the staging maintainer about this? Yes, Paolo (KVM maintainer) suggested having KVM RISC-V under drivers/staging until RISC-V H-extension is frozen and continue the KVM RISC-V development from there. > > Not cool, and not something I'm about to take without some very good > reasons... Regards, Anup
