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authorSean Christopherson <sean.j.christopherson@intel.com>2019-01-23 14:39:23 -0800
committerGreg Kroah-Hartman <gregkh@linuxfoundation.org>2019-03-23 08:44:40 +0100
commit2866808ffc0f0147e84d5643f9f4731401303df3 (patch)
tree4a658b550bc3343c7ee63c6513b42535eab478bd /arch/x86/kvm/vmx.c
parent71e005f009ffeb3372e41ed58cc4d3b6453cebfd (diff)
KVM: nVMX: Sign extend displacements of VMX instr's mem operands
commit 946c522b603f281195af1df91837a1d4d1eb3bc9 upstream. The VMCS.EXIT_QUALIFCATION field reports the displacements of memory operands for various instructions, including VMX instructions, as a naturally sized unsigned value, but masks the value by the addr size, e.g. given a ModRM encoded as -0x28(%ebp), the -0x28 displacement is reported as 0xffffffd8 for a 32-bit address size. Despite some weird wording regarding sign extension, the SDM explicitly states that bits beyond the instructions address size are undefined: In all cases, bits of this field beyond the instruction’s address size are undefined. Failure to sign extend the displacement results in KVM incorrectly treating a negative displacement as a large positive displacement when the address size of the VMX instruction is smaller than KVM's native size, e.g. a 32-bit address size on a 64-bit KVM. The very original decoding, added by commit 064aea774768 ("KVM: nVMX: Decoding memory operands of VMX instructions"), sort of modeled sign extension by truncating the final virtual/linear address for a 32-bit address size. I.e. it messed up the effective address but made it work by adjusting the final address. When segmentation checks were added, the truncation logic was kept as-is and no sign extension logic was introduced. In other words, it kept calculating the wrong effective address while mostly generating the correct virtual/linear address. As the effective address is what's used in the segment limit checks, this results in KVM incorreclty injecting #GP/#SS faults due to non-existent segment violations when a nested VMM uses negative displacements with an address size smaller than KVM's native address size. Using the -0x28(%ebp) example, an EBP value of 0x1000 will result in KVM using 0x100000fd8 as the effective address when checking for a segment limit violation. This causes a 100% failure rate when running a 32-bit KVM build as L1 on top of a 64-bit KVM L0. Fixes: f9eb4af67c9d ("KVM: nVMX: VMX instructions: add checks for #GP/#SS exceptions") Cc: stable@vger.kernel.org Signed-off-by: Sean Christopherson <sean.j.christopherson@intel.com> Signed-off-by: Paolo Bonzini <pbonzini@redhat.com> Signed-off-by: Greg Kroah-Hartman <gregkh@linuxfoundation.org>
Diffstat (limited to 'arch/x86/kvm/vmx.c')
-rw-r--r--arch/x86/kvm/vmx.c4
1 files changed, 4 insertions, 0 deletions
diff --git a/arch/x86/kvm/vmx.c b/arch/x86/kvm/vmx.c
index 14553f6c03a6..b5520c17c2a1 100644
--- a/arch/x86/kvm/vmx.c
+++ b/arch/x86/kvm/vmx.c
@@ -6656,6 +6656,10 @@ static int get_vmx_mem_address(struct kvm_vcpu *vcpu,
/* Addr = segment_base + offset */
/* offset = base + [index * scale] + displacement */
off = exit_qualification; /* holds the displacement */
+ if (addr_size == 1)
+ off = (gva_t)sign_extend64(off, 31);
+ else if (addr_size == 0)
+ off = (gva_t)sign_extend64(off, 15);
if (base_is_valid)
off += kvm_register_read(vcpu, base_reg);
if (index_is_valid)