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[Xen-devel] [PATCH v2 3/3] nested vmx: fix CR0/CR4 emulation



While emulate CR0 and CR4 for nested virtualization, set the CR0/CR4
guest host mask to 0xffffffff in shadow VMCS, then calculate the
corresponding read shadow separately for CR0 and CR4. While getting
the VM exit for CR0/CR4 access, check if L1 VMM owns the bit. If so,
inject the VM exit to L1 VMM. Otherwise, L0 will handle it and sync
the value to L1 virtual VMCS.

Signed-off-by: Dongxiao Xu <dongxiao.xu@xxxxxxxxx>
---
 xen/arch/x86/hvm/vmx/vvmx.c |  121 ++++++++++++++++++++++++++++++++++---------
 1 files changed, 96 insertions(+), 25 deletions(-)

diff --git a/xen/arch/x86/hvm/vmx/vvmx.c b/xen/arch/x86/hvm/vmx/vvmx.c
index 0f13884..d7de286 100644
--- a/xen/arch/x86/hvm/vmx/vvmx.c
+++ b/xen/arch/x86/hvm/vmx/vvmx.c
@@ -833,6 +833,7 @@ static void load_shadow_guest_state(struct vcpu *v)
     void *vvmcs = nvcpu->nv_vvmcx;
     int i;
     u32 control;
+    u64 cr_gh_mask, cr_read_shadow;
 
     /* vvmcs.gstate to shadow vmcs.gstate */
     for ( i = 0; i < ARRAY_SIZE(vmcs_gstate_field); i++ )
@@ -854,10 +855,20 @@ static void load_shadow_guest_state(struct vcpu *v)
     vvmcs_to_shadow(vvmcs, VM_ENTRY_EXCEPTION_ERROR_CODE);
     vvmcs_to_shadow(vvmcs, VM_ENTRY_INSTRUCTION_LEN);
 
-    vvmcs_to_shadow(vvmcs, CR0_READ_SHADOW);
-    vvmcs_to_shadow(vvmcs, CR4_READ_SHADOW);
-    vvmcs_to_shadow(vvmcs, CR0_GUEST_HOST_MASK);
-    vvmcs_to_shadow(vvmcs, CR4_GUEST_HOST_MASK);
+    /*
+     * While emulate CR0 and CR4 for nested virtualization, set the CR0/CR4
+     * guest host mask to 0xffffffff in shadow VMCS (follow the host L1 VMCS),
+     * then calculate the corresponding read shadow separately for CR0 and CR4.
+     */
+    cr_gh_mask = __get_vvmcs(vvmcs, CR0_GUEST_HOST_MASK);
+    cr_read_shadow = (__get_vvmcs(vvmcs, GUEST_CR0) & ~cr_gh_mask) |
+                          (__get_vvmcs(vvmcs, CR0_READ_SHADOW) & cr_gh_mask);
+    __vmwrite(CR0_READ_SHADOW, cr_read_shadow);
+
+    cr_gh_mask = __get_vvmcs(vvmcs, CR4_GUEST_HOST_MASK);
+    cr_read_shadow = (__get_vvmcs(vvmcs, GUEST_CR4) & ~cr_gh_mask) |
+                          (__get_vvmcs(vvmcs, CR4_READ_SHADOW) & cr_gh_mask);
+    __vmwrite(CR4_READ_SHADOW, cr_read_shadow);
 
     /* TODO: PDPTRs for nested ept */
     /* TODO: CR3 target control */
@@ -913,8 +924,6 @@ static void virtual_vmentry(struct cpu_user_regs *regs)
 static void sync_vvmcs_guest_state(struct vcpu *v, struct cpu_user_regs *regs)
 {
     int i;
-    unsigned long mask;
-    unsigned long cr;
     struct nestedvcpu *nvcpu = &vcpu_nestedhvm(v);
     void *vvmcs = nvcpu->nv_vvmcx;
 
@@ -925,23 +934,6 @@ static void sync_vvmcs_guest_state(struct vcpu *v, struct 
cpu_user_regs *regs)
     __set_vvmcs(vvmcs, GUEST_RIP, regs->eip);
     __set_vvmcs(vvmcs, GUEST_RSP, regs->esp);
 
-    /* SDM 20.6.6: L2 guest execution may change GUEST CR0/CR4 */
-    mask = __get_vvmcs(vvmcs, CR0_GUEST_HOST_MASK);
-    if ( ~mask )
-    {
-        cr = __get_vvmcs(vvmcs, GUEST_CR0);
-        cr = (cr & mask) | (__vmread(GUEST_CR0) & ~mask);
-        __set_vvmcs(vvmcs, GUEST_CR0, cr);
-    }
-
-    mask = __get_vvmcs(vvmcs, CR4_GUEST_HOST_MASK);
-    if ( ~mask )
-    {
-        cr = __get_vvmcs(vvmcs, GUEST_CR4);
-        cr = (cr & mask) | (__vmread(GUEST_CR4) & ~mask);
-        __set_vvmcs(vvmcs, GUEST_CR4, cr);
-    }
-
     /* CR3 sync if exec doesn't want cr3 load exiting: i.e. nested EPT */
     if ( !(__n2_exec_control(v) & CPU_BASED_CR3_LOAD_EXITING) )
         shadow_to_vvmcs(vvmcs, GUEST_CR3);
@@ -1745,8 +1737,87 @@ int nvmx_n2_vmexit_handler(struct cpu_user_regs *regs,
                 nvcpu->nv_vmexit_pending = 1;
         }
         else  /* CR0, CR4, CLTS, LMSW */
-            nvcpu->nv_vmexit_pending = 1;
-
+        {
+            /*
+             * While getting the VM exit for CR0/CR4 access, check if L1 VMM 
owns
+             * the bit.
+             * If so, inject the VM exit to L1 VMM.
+             * Otherwise, L0 will handle it and sync the value to L1 virtual 
VMCS.
+             */
+            unsigned long old_val, val, changed_bits;
+            switch ( VMX_CONTROL_REG_ACCESS_TYPE(exit_qualification) )
+            {
+            case VMX_CONTROL_REG_ACCESS_TYPE_MOV_TO_CR:
+            {
+                unsigned long gp = 
VMX_CONTROL_REG_ACCESS_GPR(exit_qualification);
+                unsigned long *reg;
+                if ( (reg = decode_register(gp, guest_cpu_user_regs(), 0)) == 
NULL )
+                {
+                    gdprintk(XENLOG_ERR, "invalid gpr: %lx\n", gp);
+                    break;
+                }
+                val = *reg;
+                if ( cr == 0 )
+                {
+                    u64 cr0_gh_mask = __get_vvmcs(nvcpu->nv_vvmcx, 
CR0_GUEST_HOST_MASK);
+                    old_val = __vmread(CR0_READ_SHADOW);
+                    changed_bits = old_val ^ val;
+                    if ( changed_bits & cr0_gh_mask )
+                        nvcpu->nv_vmexit_pending = 1;
+                    else
+                    {
+                        u64 guest_cr0 = __get_vvmcs(nvcpu->nv_vvmcx, 
GUEST_CR0);
+                        __set_vvmcs(nvcpu->nv_vvmcx, GUEST_CR0, (guest_cr0 & 
cr0_gh_mask) | (val & ~cr0_gh_mask));
+                    }
+                }
+                else if ( cr == 4 )
+                {
+                    u64 cr4_gh_mask = __get_vvmcs(nvcpu->nv_vvmcx, 
CR4_GUEST_HOST_MASK);
+                    old_val = __vmread(CR4_READ_SHADOW);
+                    changed_bits = old_val ^ val;
+                    if ( changed_bits & cr4_gh_mask )
+                        nvcpu->nv_vmexit_pending = 1;
+                    else
+                    {
+                        u64 guest_cr4 = __get_vvmcs(nvcpu->nv_vvmcx, 
GUEST_CR4);
+                        __set_vvmcs(nvcpu->nv_vvmcx, GUEST_CR4, (guest_cr4 & 
cr4_gh_mask) | (val & ~cr4_gh_mask));
+                    }
+                }
+                else
+                    nvcpu->nv_vmexit_pending = 1;
+                break;
+            }
+            case VMX_CONTROL_REG_ACCESS_TYPE_CLTS:
+            {
+                u64 cr0_gh_mask = __get_vvmcs(nvcpu->nv_vvmcx, 
CR0_GUEST_HOST_MASK);
+                if ( cr0_gh_mask & X86_CR0_TS )
+                    nvcpu->nv_vmexit_pending = 1;
+                else
+                {
+                    u64 guest_cr0 = __get_vvmcs(nvcpu->nv_vvmcx, GUEST_CR0);
+                    __set_vvmcs(nvcpu->nv_vvmcx, GUEST_CR0, (guest_cr0 & 
~X86_CR0_TS));
+                }
+                break;
+            }
+            case VMX_CONTROL_REG_ACCESS_TYPE_LMSW:
+            {
+                u64 cr0_gh_mask = __get_vvmcs(nvcpu->nv_vvmcx, 
CR0_GUEST_HOST_MASK);
+                old_val = __vmread(CR0_READ_SHADOW) & 0xf;
+                val = (exit_qualification >> 16) & 0xf;
+                changed_bits = old_val ^ val;
+                if ( changed_bits & cr0_gh_mask )
+                    nvcpu->nv_vmexit_pending = 1;
+                else
+                {
+                    u64 guest_cr0 = __get_vvmcs(nvcpu->nv_vvmcx, GUEST_CR0);
+                    __set_vvmcs(nvcpu->nv_vvmcx, GUEST_CR0, (guest_cr0 & 
cr0_gh_mask) | (val & ~cr0_gh_mask));
+                }
+                break;
+            }
+            default:
+                break;
+            }
+        }
         break;
     }
     case EXIT_REASON_APIC_ACCESS:
-- 
1.7.1


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