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reflect_test.go
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reflect_test.go
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package amino
import (
"math/rand"
"reflect"
"runtime/debug"
"testing"
"time"
"github.com/davecgh/go-spew/spew"
fuzz "github.com/google/gofuzz"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
"github.com/tendermint/go-amino/tests"
)
//-------------------------------------
// Non-interface Google fuzz tests
func TestCodecStruct(t *testing.T) {
for _, ptr := range tests.StructTypes {
rt := getTypeFromPointer(ptr)
name := rt.Name()
t.Run(name+":binary", func(t *testing.T) { _testCodec(t, rt, "binary") })
t.Run(name+":json", func(t *testing.T) { _testCodec(t, rt, "json") })
}
}
func TestCodecDef(t *testing.T) {
for _, ptr := range tests.DefTypes {
rt := getTypeFromPointer(ptr)
name := rt.Name()
t.Run(name+":binary", func(t *testing.T) { _testCodec(t, rt, "binary") })
t.Run(name+":json", func(t *testing.T) { _testCodec(t, rt, "json") })
}
}
func TestDeepCopyStruct(t *testing.T) {
for _, ptr := range tests.StructTypes {
rt := getTypeFromPointer(ptr)
name := rt.Name()
t.Run(name+":deepcopy", func(t *testing.T) { _testDeepCopy(t, rt) })
}
}
func TestDeepCopyDep(t *testing.T) {
for _, ptr := range tests.DefTypes {
rt := getTypeFromPointer(ptr)
name := rt.Name()
t.Run(name+":deepcopy", func(t *testing.T) { _testDeepCopy(t, rt) })
}
}
func _testCodec(t *testing.T, rt reflect.Type, codecType string) {
err := error(nil)
bz := []byte{}
cdc := NewCodec()
f := fuzz.New()
rv := reflect.New(rt)
rv2 := reflect.New(rt)
ptr := rv.Interface()
ptr2 := rv2.Interface()
rnd := rand.New(rand.NewSource(10))
f.RandSource(rnd)
f.Funcs(fuzzFuncs...)
defer func() {
if r := recover(); r != nil {
t.Fatalf("panic'd:\nreason: %v\n%s\nerr: %v\nbz: %X\nrv: %#v\nrv2: %#v\nptr: %v\nptr2: %v\n",
r, debug.Stack(), err, bz, rv, rv2, spw(ptr), spw(ptr2),
)
}
}()
for i := 0; i < 1e4; i++ {
f.Fuzz(ptr)
// Reset, which makes debugging decoding easier.
rv2 = reflect.New(rt)
ptr2 = rv2.Interface()
switch codecType {
case "binary":
bz, err = cdc.MarshalBinaryBare(ptr)
case "json":
bz, err = cdc.MarshalJSON(ptr)
default:
panic("should not happen")
}
require.Nil(t, err,
"failed to marshal %v to bytes: %v\n",
spw(ptr), err)
switch codecType {
case "binary":
err = cdc.UnmarshalBinaryBare(bz, ptr2)
case "json":
err = cdc.UnmarshalJSON(bz, ptr2)
default:
panic("should not happen")
}
require.Nil(t, err,
"failed to unmarshal bytes %X (%s): %v\nptr: %v\n",
bz, bz, err, spw(ptr))
require.Equal(t, ptr, ptr2,
"end to end failed.\nstart: %v\nend: %v\nbytes: %X\nstring(bytes): %s\n",
spw(ptr), spw(ptr2), bz, bz)
}
}
func _testDeepCopy(t *testing.T, rt reflect.Type) {
err := error(nil)
f := fuzz.New()
rv := reflect.New(rt)
ptr := rv.Interface()
rnd := rand.New(rand.NewSource(10))
f.RandSource(rnd)
f.Funcs(fuzzFuncs...)
defer func() {
if r := recover(); r != nil {
t.Fatalf("panic'd:\nreason: %v\n%s\nerr: %v\nrv: %#v\nptr: %v\n",
r, debug.Stack(), err, rv, spw(ptr),
)
}
}()
for i := 0; i < 1e4; i++ {
f.Fuzz(ptr)
ptr2 := DeepCopy(ptr)
require.Equal(t, ptr, ptr2,
"end to end failed.\nstart: %v\nend: %v\nbytes: %X\nstring(bytes): %s\n",
spw(ptr), spw(ptr2))
}
}
//----------------------------------------
// Register/interface tests
func TestCodecBinaryRegister1(t *testing.T) {
cdc := NewCodec()
//cdc.RegisterInterface((*tests.Interface1)(nil), nil)
cdc.RegisterConcrete((*tests.Concrete1)(nil), "Concrete1", nil)
bz, err := cdc.MarshalBinaryBare(struct{ tests.Interface1 }{tests.Concrete1{}})
assert.NotNil(t, err, "unregistered interface")
assert.Empty(t, bz)
}
func TestCodecBinaryRegister2(t *testing.T) {
cdc := NewCodec()
cdc.RegisterInterface((*tests.Interface1)(nil), nil)
cdc.RegisterConcrete((*tests.Concrete1)(nil), "Concrete1", nil)
bz, err := cdc.MarshalBinaryBare(struct{ tests.Interface1 }{tests.Concrete1{}})
assert.Nil(t, err, "correctly registered")
assert.Equal(t, []byte{0xa, 0x4, 0xe3, 0xda, 0xb8, 0x33}, bz,
"prefix bytes did not match")
}
func TestCodecBinaryRegister3(t *testing.T) {
cdc := NewCodec()
cdc.RegisterConcrete((*tests.Concrete1)(nil), "Concrete1", nil)
cdc.RegisterInterface((*tests.Interface1)(nil), nil)
bz, err := cdc.MarshalBinaryBare(struct{ tests.Interface1 }{tests.Concrete1{}})
assert.Nil(t, err, "correctly registered")
assert.Equal(t, []byte{0xa, 0x4, 0xe3, 0xda, 0xb8, 0x33}, bz,
"prefix bytes did not match")
}
func TestCodecBinaryRegister4(t *testing.T) {
cdc := NewCodec()
cdc.RegisterConcrete((*tests.Concrete1)(nil), "Concrete1", nil)
cdc.RegisterInterface((*tests.Interface1)(nil), &InterfaceOptions{
AlwaysDisambiguate: true,
})
bz, err := cdc.MarshalBinaryBare(struct{ tests.Interface1 }{tests.Concrete1{}})
assert.Nil(t, err, "correctly registered")
assert.Equal(t, []byte{0xa, 0x8, 0x0, 0x12, 0xb5, 0x86, 0xe3, 0xda, 0xb8, 0x33}, bz,
"prefix bytes did not match")
}
func TestCodecBinaryRegister5(t *testing.T) {
cdc := NewCodec()
//cdc.RegisterConcrete((*tests.Concrete1)(nil), "Concrete1", nil)
cdc.RegisterInterface((*tests.Interface1)(nil), nil)
bz, err := cdc.MarshalBinaryBare(struct{ tests.Interface1 }{tests.Concrete1{}})
assert.NotNil(t, err, "concrete type not registered")
assert.Empty(t, bz)
}
func TestCodecBinaryRegister6(t *testing.T) {
cdc := NewCodec()
cdc.RegisterInterface((*tests.Interface1)(nil), nil)
cdc.RegisterConcrete((*tests.Concrete1)(nil), "Concrete1", nil)
assert.Panics(t, func() {
cdc.RegisterConcrete((*tests.Concrete2)(nil), "Concrete1", nil)
}, "duplicate concrete name")
}
func TestCodecBinaryRegister7(t *testing.T) {
cdc := NewCodec()
cdc.RegisterInterface((*tests.Interface1)(nil), nil)
cdc.RegisterConcrete((*tests.Concrete1)(nil), "Concrete1", nil)
cdc.RegisterConcrete((*tests.Concrete2)(nil), "Concrete2", nil)
{ // test tests.Concrete1, no conflict.
bz, err := cdc.MarshalBinaryBare(struct{ tests.Interface1 }{tests.Concrete1{}})
assert.Nil(t, err, "correctly registered")
assert.Equal(t, []byte{0xa, 0x4, 0xe3, 0xda, 0xb8, 0x33}, bz,
"disfix bytes did not match")
}
{ // test tests.Concrete2, no conflict
bz, err := cdc.MarshalBinaryBare(struct{ tests.Interface1 }{tests.Concrete2{}})
assert.Nil(t, err, "correctly registered")
assert.Equal(t, []byte{0xa, 0x4, 0x6a, 0x9, 0xca, 0x1}, bz,
"disfix bytes did not match")
}
}
// Serialize and deserialize a non-nil interface value.
func TestCodecBinaryRegister8(t *testing.T) {
cdc := NewCodec()
cdc.RegisterInterface((*tests.Interface1)(nil), nil)
cdc.RegisterConcrete(tests.Concrete3{}, "Concrete3", nil)
assert.Panics(t, func() {
cdc.RegisterConcrete(tests.Concrete2{}, "Concrete3", nil)
}, "duplicate concrete name")
var c3 tests.Concrete3
copy(c3[:], []byte("0123"))
bz, err := cdc.MarshalBinaryBare(c3)
assert.Nil(t, err)
assert.Equal(t, []byte{0x53, 0x37, 0x21, 0x1, 0x4, 0x30, 0x31, 0x32, 0x33}, bz,
"Concrete3 incorrectly serialized")
var i1 tests.Interface1
err = cdc.UnmarshalBinaryBare(bz, &i1)
assert.Nil(t, err)
assert.Equal(t, c3, i1)
}
// Like TestCodecBinaryRegister8, but JSON.
func TestCodecJSONRegister8(t *testing.T) {
cdc := NewCodec()
cdc.RegisterInterface((*tests.Interface1)(nil), nil)
cdc.RegisterConcrete(tests.Concrete3{}, "Concrete3", nil)
var c3 tests.Concrete3
copy(c3[:], []byte("0123"))
// NOTE: We don't wrap c3...
// But that's OK, JSON still writes the disfix bytes by default.
bz, err := cdc.MarshalJSON(c3)
assert.Nil(t, err)
assert.Equal(t, []byte(`{"type":"Concrete3","value":"MDEyMw=="}`),
bz, "Concrete3 incorrectly serialized")
var i1 tests.Interface1
err = cdc.UnmarshalJSON(bz, &i1)
assert.Nil(t, err)
assert.Equal(t, c3, i1)
}
// Like TestCodecBinaryRegister8, but serialize the concrete value directly.
func TestCodecBinaryRegister9(t *testing.T) {
cdc := NewCodec()
cdc.RegisterInterface((*tests.Interface1)(nil), nil)
cdc.RegisterConcrete(tests.Concrete3{}, "Concrete3", nil)
assert.Panics(t, func() {
cdc.RegisterConcrete(tests.Concrete2{}, "Concrete3", nil)
}, "duplicate concrete name")
var c3 tests.Concrete3
copy(c3[:], []byte("0123"))
bz, err := cdc.MarshalBinaryBare(c3)
assert.Nil(t, err)
assert.Equal(t, []byte{0x53, 0x37, 0x21, 0x1, 0x4, 0x30, 0x31, 0x32, 0x33}, bz,
"Concrete3 incorrectly serialized")
var i1 tests.Interface1
err = cdc.UnmarshalBinaryBare(bz, &i1)
assert.Nil(t, err)
assert.Equal(t, c3, i1)
}
// Like TestCodecBinaryRegister8 but read into concrete var.
func TestCodecBinaryRegister10(t *testing.T) {
cdc := NewCodec()
cdc.RegisterInterface((*tests.Interface1)(nil), nil)
cdc.RegisterConcrete(tests.Concrete3{}, "Concrete3", nil)
var c3a tests.Concrete3
copy(c3a[:], []byte("0123"))
bz, err := cdc.MarshalBinaryBare(c3a)
assert.Nil(t, err)
assert.Equal(t, []byte{0x53, 0x37, 0x21, 0x1, 0x4, 0x30, 0x31, 0x32, 0x33}, bz,
"Concrete3 incorrectly serialized")
var c3b tests.Concrete3
err = cdc.UnmarshalBinaryBare(bz, &c3b)
assert.Nil(t, err)
assert.Equal(t, c3a, c3b)
}
func TestCodecBinaryStructFieldNilInterface(t *testing.T) {
cdc := NewCodec()
cdc.RegisterInterface((*tests.Interface1)(nil), nil)
cdc.RegisterConcrete((*tests.InterfaceFieldsStruct)(nil), "interfaceFields", nil)
i1 := &tests.InterfaceFieldsStruct{F1: new(tests.InterfaceFieldsStruct), F2: nil}
bz, err := cdc.MarshalBinaryLengthPrefixed(i1)
assert.Nil(t, err, "unexpected error")
i2 := new(tests.InterfaceFieldsStruct)
err = cdc.UnmarshalBinaryLengthPrefixed(bz, i2)
assert.Nil(t, err, "unexpected error")
require.Equal(t, i1, i2, "i1 and i2 should be the same after decoding")
}
//----------------------------------------
// Misc.
func spw(o interface{}) string {
return spew.Sprintf("%#v", o)
}
var fuzzFuncs = []interface{}{
func(i **int8, c fuzz.Continue) {
// Prefer nil instead of zero, for deep equality.
// (go-amino decoder will always prefer nil).
var i_ int8
c.Fuzz(&i_)
if i_ == 0 {
*i = nil
} else {
*i = &i_
}
},
func(i **int16, c fuzz.Continue) {
// Prefer nil instead of zero, for deep equality.
// (go-amino decoder will always prefer nil).
var i_ int16
c.Fuzz(&i_)
if i_ == 0 {
*i = nil
} else {
*i = &i_
}
},
func(i **int32, c fuzz.Continue) {
// Prefer nil instead of zero, for deep equality.
// (go-amino decoder will always prefer nil).
var i_ int32
c.Fuzz(&i_)
if i_ == 0 {
*i = nil
} else {
*i = &i_
}
},
func(i **int64, c fuzz.Continue) {
// Prefer nil instead of zero, for deep equality.
// (go-amino decoder will always prefer nil).
var i_ int64
c.Fuzz(&i_)
if i_ == 0 {
*i = nil
} else {
*i = &i_
}
},
func(i **int, c fuzz.Continue) {
// Prefer nil instead of zero, for deep equality.
// (go-amino decoder will always prefer nil).
var i_ int
c.Fuzz(&i_)
if i_ == 0 {
*i = nil
} else {
*i = &i_
}
},
func(ui **uint8, c fuzz.Continue) {
// Prefer nil instead of zero, for deep equality.
// (go-amino decoder will always prefer nil).
var ui_ uint8
c.Fuzz(&ui_)
if ui_ == 0 {
*ui = nil
} else {
*ui = &ui_
}
},
func(ptr ***uint8, c fuzz.Continue) {
// Prefer nil instead of zero, for deep equality.
// (go-amino decoder will always prefer nil).
var ui_ uint8
c.Fuzz(&ui_)
if ui_ == 0 {
*ptr = nil
} else {
*ptr = new(*uint8)
**ptr = new(uint8)
***ptr = ui_
}
},
func(ptr ****uint8, c fuzz.Continue) {
// Prefer nil instead of zero, for deep equality.
// (go-amino decoder will always prefer nil).
var ui_ uint8
c.Fuzz(&ui_)
if ui_ == 0 {
*ptr = nil
} else {
*ptr = new(**uint8)
**ptr = new(*uint8)
***ptr = new(uint8)
****ptr = ui_
}
},
func(ui **uint16, c fuzz.Continue) {
// Prefer nil instead of zero, for deep equality.
// (go-amino decoder will always prefer nil).
var ui_ uint16
c.Fuzz(&ui_)
if ui_ == 0 {
*ui = nil
} else {
*ui = &ui_
}
},
func(ui **uint32, c fuzz.Continue) {
// Prefer nil instead of zero, for deep equality.
// (go-amino decoder will always prefer nil).
var ui_ uint32
c.Fuzz(&ui_)
if ui_ == 0 {
*ui = nil
} else {
*ui = &ui_
}
},
func(ui **uint64, c fuzz.Continue) {
// Prefer nil instead of zero, for deep equality.
// (go-amino decoder will always prefer nil).
var ui_ uint64
c.Fuzz(&ui_)
if ui_ == 0 {
*ui = nil
} else {
*ui = &ui_
}
},
func(ui **uint, c fuzz.Continue) {
// Prefer nil instead of zero, for deep equality.
// (go-amino decoder will always prefer nil).
var ui_ uint
c.Fuzz(&ui_)
if ui_ == 0 {
*ui = nil
} else {
*ui = &ui_
}
},
func(s **string, c fuzz.Continue) {
// Prefer nil instead of zero, for deep equality.
// (go-amino decoder will always prefer nil).
s_ := randString(c)
if len(s_) == 0 {
*s = nil
} else {
*s = &s_
}
},
func(bz **[]byte, c fuzz.Continue) {
// Prefer nil instead of zero, for deep equality.
// (go-amino decoder will always prefer nil).
var bz_ []byte
c.Fuzz(&bz_)
if len(bz_) == 0 {
*bz = nil
} else {
*bz = &bz_
}
},
func(tyme *time.Time, c fuzz.Continue) {
// Set time.Unix(_,_) to wipe .wal
switch c.Intn(4) {
case 0:
ns := c.Int63n(10)
*tyme = time.Unix(0, ns)
case 1:
ns := c.Int63n(1e10)
*tyme = time.Unix(0, ns)
case 2:
const maxSeconds = 4611686018 // (1<<63 - 1) / 1e9
s := c.Int63n(maxSeconds)
ns := c.Int63n(1e10)
*tyme = time.Unix(s, ns)
case 3:
s := c.Int63n(10)
ns := c.Int63n(1e10)
*tyme = time.Unix(s, ns)
}
// Strip timezone and monotonic for deep equality.
// Also set to UTC.
*tyme = tyme.Truncate(0).UTC()
},
func(esz *[]*tests.EmptyStruct, c fuzz.Continue) {
n := c.Intn(4)
switch n {
case 0:
// Prefer nil over empty slice.
*esz = nil
default:
// Slice of empty struct pointers should be nil,
// since we don't set amino:"empty_elements".
*esz = make([]*tests.EmptyStruct, n)
for i := 0; i < n; i++ {
(*esz)[i] = nil
}
}
},
}
//----------------------------------------
// From https://github.com/google/gofuzz/blob/master/fuzz.go
// (Apache2.0 License)
// TODO move to tmlibs/common/random.go?
type charRange struct {
first, last rune
}
// choose returns a random unicode character from the given range, using the
// given randomness source.
func (r *charRange) choose(rand fuzz.Continue) rune {
count := int64(r.last - r.first)
return r.first + rune(rand.Int63n(count))
}
var unicodeRanges = []charRange{
{' ', '~'}, // ASCII characters
{'\u00a0', '\u02af'}, // Multi-byte encoded characters
{'\u4e00', '\u9fff'}, // Common CJK (even longer encodings)
}
// randString makes a random string up to 20 characters long. The returned string
// may include a variety of (valid) UTF-8 encodings.
func randString(r fuzz.Continue) string {
n := r.Intn(19) + 1
runes := make([]rune, n)
for i := range runes {
runes[i] = unicodeRanges[r.Intn(len(unicodeRanges))].choose(r)
}
return string(runes)
}