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@@ -5,10 +5,14 @@
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use std::{ffi::CStr, mem::size_of, slice};
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use qemu_api::{
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- bindings::{vmstate_info_int8, vmstate_info_uint8, vmstate_info_unused_buffer, VMStateFlags},
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+ bindings::{
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+ vmstate_info_bool, vmstate_info_int64, vmstate_info_int8, vmstate_info_uint64,
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+ vmstate_info_uint8, vmstate_info_unused_buffer, VMStateFlags,
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+ },
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c_str,
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+ cell::BqlCell,
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vmstate::{VMStateDescription, VMStateField},
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- vmstate_fields, vmstate_of, vmstate_unused,
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+ vmstate_fields, vmstate_of, vmstate_struct, vmstate_unused,
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zeroable::Zeroable,
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};
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@@ -132,3 +136,153 @@ fn test_vmstate_varray_multiply() {
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// The last VMStateField in VMSTATE_FOOA.
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assert_eq!(foo_fields[4].flags, VMStateFlags::VMS_END);
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}
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+
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+// =========================== Test VMSTATE_FOOB ===========================
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+// Test the use cases of the vmstate macro, corresponding to the following C
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+// macro variants:
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+// * VMSTATE_FOOB:
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+// - VMSTATE_BOOL_V
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+// - VMSTATE_U64
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+// - VMSTATE_STRUCT_VARRAY_UINT8
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+// - (no C version) MULTIPLY variant of VMSTATE_STRUCT_VARRAY_UINT32
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+// - VMSTATE_ARRAY
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+#[repr(C)]
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+#[derive(qemu_api_macros::offsets)]
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+struct FooB {
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+ arr_a: [FooA; FOO_ARRAY_MAX],
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+ num_a: u8,
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+ arr_a_mul: [FooA; FOO_ARRAY_MAX],
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+ num_a_mul: u32,
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+ wrap: BqlCell<u64>,
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+ val: bool,
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+ // FIXME: Use Timer array. Now we can't since it's hard to link savevm.c to test.
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+ arr_i64: [i64; FOO_ARRAY_MAX],
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+}
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+
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+static VMSTATE_FOOB: VMStateDescription = VMStateDescription {
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+ name: c_str!("foo_b").as_ptr(),
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+ version_id: 2,
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+ minimum_version_id: 1,
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+ fields: vmstate_fields! {
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+ vmstate_of!(FooB, val).with_version_id(2),
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+ vmstate_of!(FooB, wrap),
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+ vmstate_struct!(FooB, arr_a[0 .. num_a], &VMSTATE_FOOA, FooA).with_version_id(1),
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+ vmstate_struct!(FooB, arr_a_mul[0 .. num_a_mul * 32], &VMSTATE_FOOA, FooA).with_version_id(2),
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+ vmstate_of!(FooB, arr_i64),
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+ },
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+ ..Zeroable::ZERO
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+};
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+
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+#[test]
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+fn test_vmstate_bool_v() {
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+ let foo_fields: &[VMStateField] = unsafe { slice::from_raw_parts(VMSTATE_FOOB.fields, 6) };
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+
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+ // 1st VMStateField ("val") in VMSTATE_FOOB (corresponding to VMSTATE_BOOL_V)
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+ assert_eq!(
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+ unsafe { CStr::from_ptr(foo_fields[0].name) }.to_bytes_with_nul(),
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+ b"val\0"
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+ );
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+ assert_eq!(foo_fields[0].offset, 136);
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+ assert_eq!(foo_fields[0].num_offset, 0);
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+ assert_eq!(foo_fields[0].info, unsafe { &vmstate_info_bool });
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+ assert_eq!(foo_fields[0].version_id, 2);
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+ assert_eq!(foo_fields[0].size, 1);
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+ assert_eq!(foo_fields[0].num, 0);
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+ assert_eq!(foo_fields[0].flags, VMStateFlags::VMS_SINGLE);
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+ assert!(foo_fields[0].vmsd.is_null());
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+ assert!(foo_fields[0].field_exists.is_none());
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+}
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+
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+#[test]
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+fn test_vmstate_uint64() {
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+ let foo_fields: &[VMStateField] = unsafe { slice::from_raw_parts(VMSTATE_FOOB.fields, 6) };
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+
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+ // 2nd VMStateField ("wrap") in VMSTATE_FOOB (corresponding to VMSTATE_U64)
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+ assert_eq!(
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+ unsafe { CStr::from_ptr(foo_fields[1].name) }.to_bytes_with_nul(),
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+ b"wrap\0"
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+ );
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+ assert_eq!(foo_fields[1].offset, 128);
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+ assert_eq!(foo_fields[1].num_offset, 0);
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+ assert_eq!(foo_fields[1].info, unsafe { &vmstate_info_uint64 });
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+ assert_eq!(foo_fields[1].version_id, 0);
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+ assert_eq!(foo_fields[1].size, 8);
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+ assert_eq!(foo_fields[1].num, 0);
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+ assert_eq!(foo_fields[1].flags, VMStateFlags::VMS_SINGLE);
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+ assert!(foo_fields[1].vmsd.is_null());
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+ assert!(foo_fields[1].field_exists.is_none());
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+}
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+
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+#[test]
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+fn test_vmstate_struct_varray_uint8() {
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+ let foo_fields: &[VMStateField] = unsafe { slice::from_raw_parts(VMSTATE_FOOB.fields, 6) };
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+
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+ // 3rd VMStateField ("arr_a") in VMSTATE_FOOB (corresponding to
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+ // VMSTATE_STRUCT_VARRAY_UINT8)
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+ assert_eq!(
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+ unsafe { CStr::from_ptr(foo_fields[2].name) }.to_bytes_with_nul(),
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+ b"arr_a\0"
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+ );
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+ assert_eq!(foo_fields[2].offset, 0);
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+ assert_eq!(foo_fields[2].num_offset, 60);
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+ assert!(foo_fields[2].info.is_null()); // VMSTATE_STRUCT_VARRAY_UINT8 doesn't set info field.
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+ assert_eq!(foo_fields[2].version_id, 1);
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+ assert_eq!(foo_fields[2].size, 20);
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+ assert_eq!(foo_fields[2].num, 0);
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+ assert_eq!(
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+ foo_fields[2].flags.0,
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+ VMStateFlags::VMS_STRUCT.0 | VMStateFlags::VMS_VARRAY_UINT8.0
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+ );
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+ assert_eq!(foo_fields[2].vmsd, &VMSTATE_FOOA);
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+ assert!(foo_fields[2].field_exists.is_none());
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+}
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+
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+#[test]
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+fn test_vmstate_struct_varray_uint32_multiply() {
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+ let foo_fields: &[VMStateField] = unsafe { slice::from_raw_parts(VMSTATE_FOOB.fields, 6) };
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+
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+ // 4th VMStateField ("arr_a_mul") in VMSTATE_FOOB (corresponding to
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+ // (no C version) MULTIPLY variant of VMSTATE_STRUCT_VARRAY_UINT32)
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+ assert_eq!(
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+ unsafe { CStr::from_ptr(foo_fields[3].name) }.to_bytes_with_nul(),
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+ b"arr_a_mul\0"
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+ );
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+ assert_eq!(foo_fields[3].offset, 64);
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+ assert_eq!(foo_fields[3].num_offset, 124);
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+ assert!(foo_fields[3].info.is_null()); // VMSTATE_STRUCT_VARRAY_UINT8 doesn't set info field.
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+ assert_eq!(foo_fields[3].version_id, 2);
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+ assert_eq!(foo_fields[3].size, 20);
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+ assert_eq!(foo_fields[3].num, 32);
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+ assert_eq!(
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+ foo_fields[3].flags.0,
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+ VMStateFlags::VMS_STRUCT.0
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+ | VMStateFlags::VMS_VARRAY_UINT32.0
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+ | VMStateFlags::VMS_MULTIPLY_ELEMENTS.0
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+ );
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+ assert_eq!(foo_fields[3].vmsd, &VMSTATE_FOOA);
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+ assert!(foo_fields[3].field_exists.is_none());
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+}
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+
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+#[test]
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+fn test_vmstate_macro_array() {
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+ let foo_fields: &[VMStateField] = unsafe { slice::from_raw_parts(VMSTATE_FOOB.fields, 6) };
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+
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+ // 5th VMStateField ("arr_i64") in VMSTATE_FOOB (corresponding to
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+ // VMSTATE_ARRAY)
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+ assert_eq!(
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+ unsafe { CStr::from_ptr(foo_fields[4].name) }.to_bytes_with_nul(),
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+ b"arr_i64\0"
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+ );
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+ assert_eq!(foo_fields[4].offset, 144);
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+ assert_eq!(foo_fields[4].num_offset, 0);
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+ assert_eq!(foo_fields[4].info, unsafe { &vmstate_info_int64 });
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+ assert_eq!(foo_fields[4].version_id, 0);
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+ assert_eq!(foo_fields[4].size, 8);
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+ assert_eq!(foo_fields[4].num, FOO_ARRAY_MAX as i32);
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+ assert_eq!(foo_fields[4].flags, VMStateFlags::VMS_ARRAY);
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+ assert!(foo_fields[4].vmsd.is_null());
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+ assert!(foo_fields[4].field_exists.is_none());
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+
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+ // The last VMStateField in VMSTATE_FOOB.
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+ assert_eq!(foo_fields[5].flags, VMStateFlags::VMS_END);
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+}
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Zhao Liu