xen/5289d225-nested-VMX-don-t-ignore-mapping-errors.patch

# Commit e02b14e531a95399fc9d8647ec3cc6f310a7d455
# Date 2013-11-18 09:39:01 +0100
# Author Jan Beulich <jbeulich@suse.com>
# Committer Jan Beulich <jbeulich@suse.com>
nested VMX: don't ignore mapping errors

Rather than ignoring failures to map the virtual VMCS as well as MSR or
I/O port bitmaps, convert those into failures of the respective
instructions (avoiding to dereference NULL pointers). Ultimately such
failures should be handled transparently (by using transient mappings
when they actually need to be accessed, just like nested SVM does).

Signed-off-by: Jan Beulich <jbeulich@suse.com>
Reviewed-by: Andrew Cooper <andrew.cooper3@citrix.com>
Acked-by: Eddie Dong <eddie.dong@intel.com>

--- a/xen/arch/x86/hvm/vmx/vvmx.c
+++ b/xen/arch/x86/hvm/vmx/vvmx.c
@@ -746,7 +746,7 @@ static void __clear_current_vvmcs(struct
         __vmpclear(virt_to_maddr(nvcpu->nv_n2vmcx));
 }
 
-static void __map_msr_bitmap(struct vcpu *v)
+static bool_t __must_check _map_msr_bitmap(struct vcpu *v)
 {
     struct nestedvmx *nvmx = &vcpu_2_nvmx(v);
     unsigned long gpa;
@@ -755,9 +755,11 @@ static void __map_msr_bitmap(struct vcpu
         hvm_unmap_guest_frame(nvmx->msrbitmap, 1);
     gpa = __get_vvmcs(vcpu_nestedhvm(v).nv_vvmcx, MSR_BITMAP);
     nvmx->msrbitmap = hvm_map_guest_frame_ro(gpa >> PAGE_SHIFT, 1);
+
+    return nvmx->msrbitmap != NULL;
 }
 
-static void __map_io_bitmap(struct vcpu *v, u64 vmcs_reg)
+static bool_t __must_check _map_io_bitmap(struct vcpu *v, u64 vmcs_reg)
 {
     struct nestedvmx *nvmx = &vcpu_2_nvmx(v);
     unsigned long gpa;
@@ -768,12 +770,14 @@ static void __map_io_bitmap(struct vcpu 
         hvm_unmap_guest_frame(nvmx->iobitmap[index], 1);
     gpa = __get_vvmcs(vcpu_nestedhvm(v).nv_vvmcx, vmcs_reg);
     nvmx->iobitmap[index] = hvm_map_guest_frame_ro(gpa >> PAGE_SHIFT, 1);
+
+    return nvmx->iobitmap[index] != NULL;
 }
 
-static inline void map_io_bitmap_all(struct vcpu *v)
+static inline bool_t __must_check map_io_bitmap_all(struct vcpu *v)
 {
-   __map_io_bitmap (v, IO_BITMAP_A);
-   __map_io_bitmap (v, IO_BITMAP_B);
+   return _map_io_bitmap(v, IO_BITMAP_A) &&
+          _map_io_bitmap(v, IO_BITMAP_B);
 }
 
 static void nvmx_purge_vvmcs(struct vcpu *v)
@@ -1609,9 +1613,15 @@ int nvmx_handle_vmptrld(struct cpu_user_
     if ( nvcpu->nv_vvmcxaddr == VMCX_EADDR )
     {
         nvcpu->nv_vvmcx = hvm_map_guest_frame_rw(gpa >> PAGE_SHIFT, 1);
-        nvcpu->nv_vvmcxaddr = gpa;
-        map_io_bitmap_all (v);
-        __map_msr_bitmap(v);
+        if ( nvcpu->nv_vvmcx )
+            nvcpu->nv_vvmcxaddr = gpa;
+        if ( !nvcpu->nv_vvmcx ||
+             !map_io_bitmap_all(v) ||
+             !_map_msr_bitmap(v) )
+        {
+            vmreturn(regs, VMFAIL_VALID);
+            goto out;
+        }
     }
 
     if ( cpu_has_vmx_vmcs_shadowing )
@@ -1723,6 +1733,7 @@ int nvmx_handle_vmwrite(struct cpu_user_
     struct nestedvcpu *nvcpu = &vcpu_nestedhvm(v);
     unsigned long operand; 
     u64 vmcs_encoding;
+    bool_t okay = 1;
 
     if ( decode_vmx_inst(regs, &decode, &operand, 0)
              != X86EMUL_OKAY )
@@ -1731,16 +1742,21 @@ int nvmx_handle_vmwrite(struct cpu_user_
     vmcs_encoding = reg_read(regs, decode.reg2);
     __set_vvmcs(nvcpu->nv_vvmcx, vmcs_encoding, operand);
 
-    if ( vmcs_encoding == IO_BITMAP_A || vmcs_encoding == IO_BITMAP_A_HIGH )
-        __map_io_bitmap (v, IO_BITMAP_A);
-    else if ( vmcs_encoding == IO_BITMAP_B || 
-              vmcs_encoding == IO_BITMAP_B_HIGH )
-        __map_io_bitmap (v, IO_BITMAP_B);
+    switch ( vmcs_encoding )
+    {
+    case IO_BITMAP_A: case IO_BITMAP_A_HIGH:
+        okay = _map_io_bitmap(v, IO_BITMAP_A);
+        break;
+    case IO_BITMAP_B: case IO_BITMAP_B_HIGH:
+        okay = _map_io_bitmap(v, IO_BITMAP_B);
+        break;
+    case MSR_BITMAP: case MSR_BITMAP_HIGH:
+        okay = _map_msr_bitmap(v);
+        break;
+    }
 
-    if ( vmcs_encoding == MSR_BITMAP || vmcs_encoding == MSR_BITMAP_HIGH )
-        __map_msr_bitmap(v);
+    vmreturn(regs, okay ? VMSUCCEED : VMFAIL_VALID);
 
-    vmreturn(regs, VMSUCCEED);
     return X86EMUL_OKAY;
 }
- Upstream patches from Jan 5281fad4-numa-sched-leave-node-affinity-alone-if-not-in-auto-mode.patch 52820823-nested-SVM-adjust-guest-handling-of-structure-mappings.patch 52820863-VMX-don-t-crash-processing-d-debug-key.patch 5282492f-x86-eliminate-has_arch_mmios.patch 52864df2-credit-Update-other-parameters-when-setting-tslice_ms.patch 52864f30-fix-leaking-of-v-cpu_affinity_saved-on-domain-destruction.patch 5289d225-nested-VMX-don-t-ignore-mapping-errors.patch 528a0eb0-x86-consider-modules-when-cutting-off-memory.patch 528f606c-x86-hvm-reset-TSC-to-0-after-domain-resume-from-S3.patch 528f609c-x86-crash-disable-the-watchdog-NMIs-on-the-crashing-cpu.patch 52932418-x86-xsave-fix-nonlazy-state-handling.patch - Add missing requires to pciutils package for xend-tools - bnc#851749 - Xen service file does not call xend properly xend.service - bnc#851386 - VUL-0: xen: XSA-78: Insufficient TLB flushing in VT-d (iommu) code 528a0e5b-TLB-flushing-in-dma_pte_clear_one.patch - bnc#849667 - VUL-0: xen: XSA-74: Lock order reversal between page_alloc_lock and mm_rwlock CVE-2013-4553-xsa74.patch - bnc#849665 - VUL-0: CVE-2013-4551: xen: XSA-75: Host crash due to guest VMX instruction execution 52809208-nested-VMX-VMLANUCH-VMRESUME-emulation-must-check-permission-1st.patch - bnc#849668 - VUL-0: xen: XSA-76: Hypercalls exposed to privilege rings 1 and 2 of HVM guests OBS-URL: https://build.opensuse.org/package/show/Virtualization/xen?expand=0&rev=279 2013-11-26 20:18:36 +00:00			`# Commit e02b14e531a95399fc9d8647ec3cc6f310a7d455`
			`# Date 2013-11-18 09:39:01 +0100`
			`# Author Jan Beulich <jbeulich@suse.com>`
			`# Committer Jan Beulich <jbeulich@suse.com>`
			`nested VMX: don't ignore mapping errors`

			`Rather than ignoring failures to map the virtual VMCS as well as MSR or`
			`I/O port bitmaps, convert those into failures of the respective`
			`instructions (avoiding to dereference NULL pointers). Ultimately such`
			`failures should be handled transparently (by using transient mappings`
			`when they actually need to be accessed, just like nested SVM does).`

			`Signed-off-by: Jan Beulich <jbeulich@suse.com>`
			`Reviewed-by: Andrew Cooper <andrew.cooper3@citrix.com>`
			`Acked-by: Eddie Dong <eddie.dong@intel.com>`

			`--- a/xen/arch/x86/hvm/vmx/vvmx.c`
			`+++ b/xen/arch/x86/hvm/vmx/vvmx.c`
			`@@ -746,7 +746,7 @@ static void __clear_current_vvmcs(struct`
			`__vmpclear(virt_to_maddr(nvcpu->nv_n2vmcx));`
			`}`

			`-static void __map_msr_bitmap(struct vcpu *v)`
			`+static bool_t __must_check _map_msr_bitmap(struct vcpu *v)`
			`{`
			`struct nestedvmx *nvmx = &vcpu_2_nvmx(v);`
			`unsigned long gpa;`
			`@@ -755,9 +755,11 @@ static void __map_msr_bitmap(struct vcpu`
			`hvm_unmap_guest_frame(nvmx->msrbitmap, 1);`
			`gpa = __get_vvmcs(vcpu_nestedhvm(v).nv_vvmcx, MSR_BITMAP);`
			`nvmx->msrbitmap = hvm_map_guest_frame_ro(gpa >> PAGE_SHIFT, 1);`
			`+`
			`+ return nvmx->msrbitmap != NULL;`
			`}`

			`-static void __map_io_bitmap(struct vcpu *v, u64 vmcs_reg)`
			`+static bool_t __must_check _map_io_bitmap(struct vcpu *v, u64 vmcs_reg)`
			`{`
			`struct nestedvmx *nvmx = &vcpu_2_nvmx(v);`
			`unsigned long gpa;`
			`@@ -768,12 +770,14 @@ static void __map_io_bitmap(struct vcpu`
			`hvm_unmap_guest_frame(nvmx->iobitmap[index], 1);`
			`gpa = __get_vvmcs(vcpu_nestedhvm(v).nv_vvmcx, vmcs_reg);`
			`nvmx->iobitmap[index] = hvm_map_guest_frame_ro(gpa >> PAGE_SHIFT, 1);`
			`+`
			`+ return nvmx->iobitmap[index] != NULL;`
			`}`

			`-static inline void map_io_bitmap_all(struct vcpu *v)`
			`+static inline bool_t __must_check map_io_bitmap_all(struct vcpu *v)`
			`{`
			`- __map_io_bitmap (v, IO_BITMAP_A);`
			`- __map_io_bitmap (v, IO_BITMAP_B);`
			`+ return _map_io_bitmap(v, IO_BITMAP_A) &&`
			`+ _map_io_bitmap(v, IO_BITMAP_B);`
			`}`

			`static void nvmx_purge_vvmcs(struct vcpu *v)`
			`@@ -1609,9 +1613,15 @@ int nvmx_handle_vmptrld(struct cpu_user_`
			`if ( nvcpu->nv_vvmcxaddr == VMCX_EADDR )`
			`{`
			`nvcpu->nv_vvmcx = hvm_map_guest_frame_rw(gpa >> PAGE_SHIFT, 1);`
			`- nvcpu->nv_vvmcxaddr = gpa;`
			`- map_io_bitmap_all (v);`
			`- __map_msr_bitmap(v);`
			`+ if ( nvcpu->nv_vvmcx )`
			`+ nvcpu->nv_vvmcxaddr = gpa;`
			`+ if ( !nvcpu->nv_vvmcx \|\|`
			`+ !map_io_bitmap_all(v) \|\|`
			`+ !_map_msr_bitmap(v) )`
			`+ {`
			`+ vmreturn(regs, VMFAIL_VALID);`
			`+ goto out;`
			`+ }`
			`}`

			`if ( cpu_has_vmx_vmcs_shadowing )`
			`@@ -1723,6 +1733,7 @@ int nvmx_handle_vmwrite(struct cpu_user_`
			`struct nestedvcpu *nvcpu = &vcpu_nestedhvm(v);`
			`unsigned long operand;`
			`u64 vmcs_encoding;`
			`+ bool_t okay = 1;`

			`if ( decode_vmx_inst(regs, &decode, &operand, 0)`
			`!= X86EMUL_OKAY )`
			`@@ -1731,16 +1742,21 @@ int nvmx_handle_vmwrite(struct cpu_user_`
			`vmcs_encoding = reg_read(regs, decode.reg2);`
			`__set_vvmcs(nvcpu->nv_vvmcx, vmcs_encoding, operand);`

			`- if ( vmcs_encoding == IO_BITMAP_A \|\| vmcs_encoding == IO_BITMAP_A_HIGH )`
			`- __map_io_bitmap (v, IO_BITMAP_A);`
			`- else if ( vmcs_encoding == IO_BITMAP_B \|\|`
			`- vmcs_encoding == IO_BITMAP_B_HIGH )`
			`- __map_io_bitmap (v, IO_BITMAP_B);`
			`+ switch ( vmcs_encoding )`
			`+ {`
			`+ case IO_BITMAP_A: case IO_BITMAP_A_HIGH:`
			`+ okay = _map_io_bitmap(v, IO_BITMAP_A);`
			`+ break;`
			`+ case IO_BITMAP_B: case IO_BITMAP_B_HIGH:`
			`+ okay = _map_io_bitmap(v, IO_BITMAP_B);`
			`+ break;`
			`+ case MSR_BITMAP: case MSR_BITMAP_HIGH:`
			`+ okay = _map_msr_bitmap(v);`
			`+ break;`
			`+ }`

			`- if ( vmcs_encoding == MSR_BITMAP \|\| vmcs_encoding == MSR_BITMAP_HIGH )`
			`- __map_msr_bitmap(v);`
			`+ vmreturn(regs, okay ? VMSUCCEED : VMFAIL_VALID);`

			`- vmreturn(regs, VMSUCCEED);`
			`return X86EMUL_OKAY;`
			`}`