Extend the fastops test to cover instructions that operate on 8-bit data.
Support for 8-bit instructions was omitted from the original commit purely
due to complications with BT not having a r/m8 variant. To keep the
RFLAGS.CF behavior deterministic and not heavily biased to '0' or '1',
continue using BT, but cast and load the to-be-tested value into a
dedicated 32-bit constraint.
Supporting 8-bit operations will allow using guest_test_fastops() as-is to
provide full coverage for DIV and IDIV. For divide operations, covering
all operand sizes _is_ interesting, because KVM needs provide exception
fixup for each size (failure to handle a #DE could panic the host).
Link: https://lore.kernel.org/all/aIF7ZhWZxlkcpm4y@google.com
Signed-off-by: Sean Christopherson <seanjc@google.com>
---
.../testing/selftests/kvm/x86/fastops_test.c | 20 ++++++++++++-------
1 file changed, 13 insertions(+), 7 deletions(-)
diff --git a/tools/testing/selftests/kvm/x86/fastops_test.c b/tools/testing/selftests/kvm/x86/fastops_test.c
index 2ac89d6c1e46..6c9a2dbf6365 100644
--- a/tools/testing/selftests/kvm/x86/fastops_test.c
+++ b/tools/testing/selftests/kvm/x86/fastops_test.c
@@ -10,12 +10,13 @@
*/
#define guest_execute_fastop_1(FEP, insn, __val, __flags) \
({ \
- __asm__ __volatile__("bt $0, %[val]\n\t" \
+ __asm__ __volatile__("bt $0, %[ro_val]\n\t" \
FEP insn " %[val]\n\t" \
"pushfq\n\t" \
"pop %[flags]\n\t" \
: [val]"+r"(__val), [flags]"=r"(__flags) \
- : : "cc", "memory"); \
+ : [ro_val]"rm"((uint32_t)__val) \
+ : "cc", "memory"); \
})
#define guest_test_fastop_1(insn, type_t, __val) \
@@ -36,12 +37,13 @@
#define guest_execute_fastop_2(FEP, insn, __input, __output, __flags) \
({ \
- __asm__ __volatile__("bt $0, %[output]\n\t" \
+ __asm__ __volatile__("bt $0, %[ro_val]\n\t" \
FEP insn " %[input], %[output]\n\t" \
"pushfq\n\t" \
"pop %[flags]\n\t" \
: [output]"+r"(__output), [flags]"=r"(__flags) \
- : [input]"r"(__input) : "cc", "memory"); \
+ : [input]"r"(__input), [ro_val]"rm"((uint32_t)__output) \
+ : "cc", "memory"); \
})
#define guest_test_fastop_2(insn, type_t, __val1, __val2) \
@@ -63,12 +65,13 @@
#define guest_execute_fastop_cl(FEP, insn, __shift, __output, __flags) \
({ \
- __asm__ __volatile__("bt $0, %[output]\n\t" \
+ __asm__ __volatile__("bt $0, %[ro_val]\n\t" \
FEP insn " %%cl, %[output]\n\t" \
"pushfq\n\t" \
"pop %[flags]\n\t" \
: [output]"+r"(__output), [flags]"=r"(__flags) \
- : "c"(__shift) : "cc", "memory"); \
+ : "c"(__shift), [ro_val]"rm"((uint32_t)__output) \
+ : "cc", "memory"); \
})
#define guest_test_fastop_cl(insn, type_t, __val1, __val2) \
@@ -115,14 +118,16 @@ do { \
guest_test_fastop_2("add" suffix, type_t, vals[i], vals[j]); \
guest_test_fastop_2("adc" suffix, type_t, vals[i], vals[j]); \
guest_test_fastop_2("and" suffix, type_t, vals[i], vals[j]); \
+if (sizeof(type_t) != 1) { \
guest_test_fastop_2("bsf" suffix, type_t, vals[i], vals[j]); \
guest_test_fastop_2("bsr" suffix, type_t, vals[i], vals[j]); \
guest_test_fastop_2("bt" suffix, type_t, vals[i], vals[j]); \
guest_test_fastop_2("btc" suffix, type_t, vals[i], vals[j]); \
guest_test_fastop_2("btr" suffix, type_t, vals[i], vals[j]); \
guest_test_fastop_2("bts" suffix, type_t, vals[i], vals[j]); \
- guest_test_fastop_2("cmp" suffix, type_t, vals[i], vals[j]); \
guest_test_fastop_2("imul" suffix, type_t, vals[i], vals[j]); \
+} \
+ guest_test_fastop_2("cmp" suffix, type_t, vals[i], vals[j]); \
guest_test_fastop_2("or" suffix, type_t, vals[i], vals[j]); \
guest_test_fastop_2("sbb" suffix, type_t, vals[i], vals[j]); \
guest_test_fastop_2("sub" suffix, type_t, vals[i], vals[j]); \
@@ -142,6 +147,7 @@ do { \
static void guest_code(void)
{
+ guest_test_fastops(uint8_t, "b");
guest_test_fastops(uint16_t, "w");
guest_test_fastops(uint32_t, "l");
guest_test_fastops(uint64_t, "q");
--
2.51.0.384.g4c02a37b29-goog© 2016 - 2025 Red Hat, Inc.