File 5c8fb951-x86-HVM-finish-IOREQs-correctly-on-com... of Package xen.12877

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File 5c8fb951-x86-HVM-finish-IOREQs-correctly-on-completion.patch of Package xen.12877

# Commit 522a2f3c5c89cc78c0e2b05af924b76cef7d4bff
# Date 2019-03-18 16:29:21 +0100
# Author Igor Druzhinin <igor.druzhinin@citrix.com>
# Committer Jan Beulich <jbeulich@suse.com>
x86/hvm: finish IOREQs correctly on completion path

Since the introduction of linear_{read,write}() helpers in 3bdec530a5
(x86/HVM: split page straddling emulated accesses in more cases) the
completion path for IOREQs has been broken: if there is an IOREQ in
progress but hvm_copy_{to,from}_guest_linear() returns HVMTRANS_okay
(e.g. when P2M type of source/destination has been changed by IOREQ
handler) the execution will never re-enter hvmemul_do_io() where
IOREQs are completed. This usually results in a domain crash upon
the execution of the next IOREQ entering hvmemul_do_io() and finding
the remnants of the previous IOREQ in the state machine.

This particular issue has been discovered in relation to p2m_ioreq_server
type where an emulator changed the memory type between p2m_ioreq_server
and p2m_ram_rw in process of responding to IOREQ which made
hvm_copy_..() to behave differently on the way back.

Fix it for now by checking if IOREQ completion is required (which
can be identified by querying MMIO cache) before trying to finish
a memory access immediately through hvm_copy_..(), re-enter
hvmemul_do_io() otherwise. This change alone only addresses IOREQ
completion issue for P2M type changing from MMIO to RAM in the
middle of emulation but leaves a case where new IOREQs might be
introduced by P2M changes from RAM to MMIO (which is less likely
to find in practice) that requires more substantial changes in
MMIO emulation code.

Signed-off-by: Igor Druzhinin <igor.druzhinin@citrix.com>
Reviewed-by: Paul Durrant <paul.durrant@citrix.com>

--- a/xen/arch/x86/hvm/emulate.c
+++ b/xen/arch/x86/hvm/emulate.c
@@ -931,7 +931,7 @@ static int hvmemul_phys_mmio_access(
  * cache indexed by linear MMIO address.
  */
 static struct hvm_mmio_cache *hvmemul_find_mmio_cache(
-    struct hvm_vcpu_io *vio, unsigned long gla, uint8_t dir)
+    struct hvm_vcpu_io *vio, unsigned long gla, uint8_t dir, bool create)
 {
     unsigned int i;
     struct hvm_mmio_cache *cache;
@@ -945,6 +945,9 @@ static struct hvm_mmio_cache *hvmemul_fi
             return cache;
     }
 
+    if ( !create )
+        return NULL;
+
     i = vio->mmio_cache_count;
     if( i == ARRAY_SIZE(vio->mmio_cache) )
         return NULL;
@@ -979,7 +982,7 @@ static int hvmemul_linear_mmio_access(
 {
     struct hvm_vcpu_io *vio = &current->arch.hvm_vcpu.hvm_io;
     unsigned long offset = gla & ~PAGE_MASK;
-    struct hvm_mmio_cache *cache = hvmemul_find_mmio_cache(vio, gla, dir);
+    struct hvm_mmio_cache *cache = hvmemul_find_mmio_cache(vio, gla, dir, true);
     unsigned int chunk, buffer_offset = 0;
     paddr_t gpa;
     unsigned long one_rep = 1;
@@ -1068,8 +1071,9 @@ static int linear_read(unsigned long add
                        uint32_t pfec, struct hvm_emulate_ctxt *hvmemul_ctxt)
 {
     pagefault_info_t pfinfo;
+    struct hvm_vcpu_io *vio = &current->arch.hvm_vcpu.hvm_io;
     unsigned int offset = addr & ~PAGE_MASK;
-    int rc;
+    int rc = HVMTRANS_bad_gfn_to_mfn;
 
     if ( offset + bytes > PAGE_SIZE )
     {
@@ -1083,7 +1087,14 @@ static int linear_read(unsigned long add
         return rc;
     }
 
-    rc = hvm_copy_from_guest_linear(p_data, addr, bytes, pfec, &pfinfo);
+    /*
+     * If there is an MMIO cache entry for the access then we must be re-issuing
+     * an access that was previously handled as MMIO. Thus it is imperative that
+     * we handle this access in the same way to guarantee completion and hence
+     * clean up any interim state.
+     */
+    if ( !hvmemul_find_mmio_cache(vio, addr, IOREQ_READ, false) )
+        rc = hvm_copy_from_guest_linear(p_data, addr, bytes, pfec, &pfinfo);
 
     switch ( rc )
     {
@@ -1114,8 +1125,9 @@ static int linear_write(unsigned long ad
                         uint32_t pfec, struct hvm_emulate_ctxt *hvmemul_ctxt)
 {
     pagefault_info_t pfinfo;
+    struct hvm_vcpu_io *vio = &current->arch.hvm_vcpu.hvm_io;
     unsigned int offset = addr & ~PAGE_MASK;
-    int rc;
+    int rc = HVMTRANS_bad_gfn_to_mfn;
 
     if ( offset + bytes > PAGE_SIZE )
     {
@@ -1129,7 +1141,14 @@ static int linear_write(unsigned long ad
         return rc;
     }
 
-    rc = hvm_copy_to_guest_linear(addr, p_data, bytes, pfec, &pfinfo);
+    /*
+     * If there is an MMIO cache entry for the access then we must be re-issuing
+     * an access that was previously handled as MMIO. Thus it is imperative that
+     * we handle this access in the same way to guarantee completion and hence
+     * clean up any interim state.
+     */
+    if ( !hvmemul_find_mmio_cache(vio, addr, IOREQ_WRITE, false) )
+        rc = hvm_copy_to_guest_linear(addr, p_data, bytes, pfec, &pfinfo);
 
     switch ( rc )
     {

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