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Transitioning to/from a VMX guest requires KVM to manually save/load the bulk of CPU state that the guest is allowed to direclty access, e.g. XSAVE state, CR2, GPRs, etc... For obvious reasons, loading the guest's GPR snapshot prior to VM-Enter and saving the snapshot after VM-Exit is done via handcoded assembly. The assembly blob is written as inline asm so that it can easily access KVM-defined structs that are used to hold guest state, e.g. moving the blob to a standalone assembly file would require generating defines for struct offsets. The other relevant aspect of VMX transitions in KVM is the handling of VM-Exits. KVM doesn't employ a separate VM-Exit handler per se, but rather treats the VMX transition as a mega instruction (with many side effects), i.e. sets the VMCS.HOST_RIP to a label immediately following VMLAUNCH/VMRESUME. The label is then exposed to C code via a global variable definition in the inline assembly. Because of the global variable, KVM takes steps to (attempt to) ensure only a single instance of the owning C function, e.g. vmx_vcpu_run, is generated by the compiler. The earliest approach placed the inline assembly in a separate noinline function[1]. Later, the assembly was folded back into vmx_vcpu_run() and tagged with __noclone[2][3], which is still used today. After moving to __noclone, an edge case was encountered where GCC's -ftracer optimization resulted in the inline assembly blob being duplicated. This was "fixed" by explicitly disabling -ftracer in the __noclone definition[4]. Recently, it was found that disabling -ftracer causes build warnings for unsuspecting users of __noclone[5], and more importantly for KVM, prevents the compiler for properly optimizing vmx_vcpu_run()[6]. And perhaps most importantly of all, it was pointed out that there is no way to prevent duplication of a function with 100% reliability[7], i.e. more edge cases may be encountered in the future. So to summarize, the only way to prevent the compiler from duplicating the global variable definition is to move the variable out of inline assembly, which has been suggested several times over[1][7][8]. Resolve the aforementioned issues by moving the VMLAUNCH+VRESUME and VM-Exit "handler" to standalone assembly sub-routines. Moving only the core VMX transition codes allows the struct indexing to remain as inline assembly and also allows the sub-routines to be used by nested_vmx_check_vmentry_hw(). Reusing the sub-routines has a happy side-effect of eliminating two VMWRITEs in the nested_early_check path as there is no longer a need to dynamically change VMCS.HOST_RIP. Note that callers to vmx_vmenter() must account for the CALL modifying RSP, e.g. must subtract op-size from RSP when synchronizing RSP with VMCS.HOST_RSP and "restore" RSP prior to the CALL. There are no great alternatives to fudging RSP. Saving RSP in vmx_enter() is difficult because doing so requires a second register (VMWRITE does not provide an immediate encoding for the VMCS field and KVM supports Hyper-V's memory-based eVMCS ABI). The other more drastic alternative would be to use eschew VMCS.HOST_RSP and manually save/load RSP using a per-cpu variable (which can be encoded as e.g. gs:[imm]). But because a valid stack is needed at the time of VM-Exit (NMIs aren't blocked and a user could theoretically insert INT3/INT1ICEBRK at the VM-Exit handler), a dedicated per-cpu VM-Exit stack would be required. A dedicated stack isn't difficult to implement, but it would require at least one page per CPU and knowledge of the stack in the dumpstack routines. And in most cases there is essentially zero overhead in dynamically updating VMCS.HOST_RSP, e.g. the VMWRITE can be avoided for all but the first VMLAUNCH unless nested_early_check=1, which is not a fast path. In other words, avoiding the VMCS.HOST_RSP by using a dedicated stack would only make the code marginally less ugly while requiring at least one page per CPU and forcing the kernel to be aware (and approve) of the VM-Exit stack shenanigans. [1] cea15c24ca39 ("KVM: Move KVM context switch into own function") [2]a3b5ba49a8
("KVM: VMX: add the __noclone attribute to vmx_vcpu_run") [3]104f226bfd
("KVM: VMX: Fold __vmx_vcpu_run() into vmx_vcpu_run()") [4]95272c2937
("compiler-gcc: disable -ftracer for __noclone functions") [5] https://lkml.kernel.org/r/20181218140105.ajuiglkpvstt3qxs@treble [6] https://patchwork.kernel.org/patch/8707981/#21817015 [7] https://lkml.kernel.org/r/ri6y38lo23g.fsf@suse.cz [8] https://lkml.kernel.org/r/20181218212042.GE25620@tassilo.jf.intel.com Suggested-by: Andi Kleen <ak@linux.intel.com> Suggested-by: Martin Jambor <mjambor@suse.cz> Cc: Paolo Bonzini <pbonzini@redhat.com> Cc: Nadav Amit <namit@vmware.com> Cc: Andi Kleen <ak@linux.intel.com> Cc: Josh Poimboeuf <jpoimboe@redhat.com> Cc: Martin Jambor <mjambor@suse.cz> Cc: Arnd Bergmann <arnd@arndb.de> Cc: Steven Rostedt <rostedt@goodmis.org> Cc: Miroslav Benes <mbenes@suse.cz> Signed-off-by: Sean Christopherson <sean.j.christopherson@intel.com> Reviewed-by: Andi Kleen <ak@linux.intel.com> Signed-off-by: Paolo Bonzini <pbonzini@redhat.com>
25 lines
687 B
Makefile
25 lines
687 B
Makefile
# SPDX-License-Identifier: GPL-2.0
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ccflags-y += -Iarch/x86/kvm
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CFLAGS_x86.o := -I.
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CFLAGS_svm.o := -I.
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CFLAGS_vmx.o := -I.
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KVM := ../../../virt/kvm
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kvm-y += $(KVM)/kvm_main.o $(KVM)/coalesced_mmio.o \
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$(KVM)/eventfd.o $(KVM)/irqchip.o $(KVM)/vfio.o
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kvm-$(CONFIG_KVM_ASYNC_PF) += $(KVM)/async_pf.o
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kvm-y += x86.o mmu.o emulate.o i8259.o irq.o lapic.o \
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i8254.o ioapic.o irq_comm.o cpuid.o pmu.o mtrr.o \
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hyperv.o page_track.o debugfs.o
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kvm-intel-y += vmx/vmx.o vmx/vmenter.o vmx/pmu_intel.o vmx/vmcs12.o vmx/evmcs.o vmx/nested.o
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kvm-amd-y += svm.o pmu_amd.o
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obj-$(CONFIG_KVM) += kvm.o
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obj-$(CONFIG_KVM_INTEL) += kvm-intel.o
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obj-$(CONFIG_KVM_AMD) += kvm-amd.o
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