Notice: When decoding, the java version of hessian will default skip and ignore non-exist fields. From the version of v1.6.0 , dubbo-go-hessian2 will skip non-exist fields too, while that before v1.6.0 will return errors.
It's a golang hessian library used by Apache/dubbo-go.
There is a big performance improvement, and some bugs fix for v1.6.0, thanks to micln, pantianying, zonghaishang, willson-chen, champly.
- All JDK Exceptions
- Field Alias By Alias
- Java Bigdecimal
- Java Date & Time
- Java Generic Invokation
- Java Extends
- Dubbo Attachements
- Skipping unregistered POJO
- Emoji
Cross languages message definition should be careful, the following situations should be avoided:
- define object that only exists in a special language
- using various java exceptions (using error code/message instead)
So we can maintain a cross language type mapping:
hessian type | java type | golang type |
---|---|---|
null | null | nil |
binary | byte[] | []byte |
boolean | boolean | bool |
date | java.util.Date | time.Time |
double | double | float64 |
int | int | int32 |
long | long | int64 |
string | java.lang.String | string |
list | java.util.List | slice |
map | java.util.Map | map |
object | custom define object | custom define struct |
OTHER COMMON USING TYPE | ||
big decimal | java.math.BigDecimal | github.com/dubbogo/gost/math/big/Decimal |
big integer | java.math.BigInteger | github.com/dubbogo/gost/math/big/Integer |
type Circular struct {
Value
Previous *Circular
Next *Circular
}
type Value struct {
Num int
}
func (Circular) JavaClassName() string {
return "com.company.Circular"
}
c := &Circular{}
c.Num = 12345
c.Previous = c
c.Next = c
e := NewEncoder()
err := e.Encode(c)
if err != nil {
panic(err)
}
bytes := e.Buffer()
decodedObject, err := NewDecoder(bytes).Decode()
if err != nil {
panic(err)
}
circular, ok := obj.(*Circular)
// ...
Hessian encoder default converts filed names of struct to lower camelcase, but you can customize it using hessian
tag.
Example:
type MyUser struct {
UserFullName string `hessian:"user_full_name"`
FamilyPhoneNumber string // default convert to => familyPhoneNumber
}
func (MyUser) JavaClassName() string {
return "com.company.myuser"
}
user := &MyUser{
UserFullName: "username",
FamilyPhoneNumber: "010-12345678",
}
e := hessian.NewEncoder()
err := e.Encode(user)
if err != nil {
panic(err)
}
The encoded bytes of the struct MyUser
is as following:
00000000 43 12 63 6f 6d 2e 63 6f 6d 70 61 6e 79 2e 6d 79 |C.com.company.my|
00000010 75 73 65 72 92 0e 75 73 65 72 5f 66 75 6c 6c 5f |user..user_full_|
00000020 6e 61 6d 65 11 66 61 6d 69 6c 79 50 68 6f 6e 65 |name.familyPhone|
00000030 4e 75 6d 62 65 72 60 08 75 73 65 72 6e 61 6d 65 |Number`.username|
00000040 0c 30 31 30 2d 31 32 33 34 35 36 37 38 |.010-12345678|
Hessian decoder finds the correct target field though comparing all filed names of struct one by one until matching.
The following example shows the order of the matching rules:
type MyUser struct {
MobilePhone string `hessian:"mobile-phone"`
}
// You must define the tag of struct for lookup filed form encoded binary bytes, in this case:
// 00000000 43 12 63 6f 6d 2e 63 6f 6d 70 61 6e 79 2e 6d 79 |C.com.company.my|
// 00000010 75 73 65 72 91 0c 6d 6f 62 69 6c 65 2d 70 68 6f |user..mobile-pho|
// 00000020 6e 65 60 0b 31 37 36 31 32 33 34 31 32 33 34 |ne`.17612341234|
//
// mobile-phone(tag lookup) => mobilePhone(lowerCameCase) => MobilePhone(SameCase) => mobilephone(lowercase)
// ^ will matched
type MyUser struct {
MobilePhone string
}
// The following encoded binary bytes will be hit automatically:
//
// 00000000 43 12 63 6f 6d 2e 63 6f 6d 70 61 6e 79 2e 6d 79 |C.com.company.my|
// 00000010 75 73 65 72 91 0b 6d 6f 62 69 6c 65 50 68 6f 6e |user..mobilePhon|
// 00000020 65 60 0b 31 37 36 31 32 33 34 31 32 33 34 |e`.17612341234|
//
// mobile-phone(tag lookup) => mobilePhone(lowerCameCase) => MobilePhone(SameCase) => mobilephone(lowercase)
// ^ will matched
//
// 00000000 43 12 63 6f 6d 2e 63 6f 6d 70 61 6e 79 2e 6d 79 |C.com.company.my|
// 00000010 75 73 65 72 91 0b 4d 6f 62 69 6c 65 50 68 6f 6e |user..MobilePhon|
// 00000020 65 60 0b 31 37 36 31 32 33 34 31 32 33 34 |e`.17612341234|
//
// mobile-phone(tag lookup) => mobilePhone(lowerCameCase) => MobilePhone(SameCase) => mobilephone(lowercase)
// ^ will matched
//
// 00000000 43 12 63 6f 6d 2e 63 6f 6d 70 61 6e 79 2e 6d 79 |C.com.company.my|
// 00000010 75 73 65 72 91 0b 6d 6f 62 69 6c 65 70 68 6f 6e |user..mobilephon|
// 00000020 65 60 0b 31 37 36 31 32 33 34 31 32 33 34 |e`.17612341234|
//
// mobile-phone(tag lookup) => mobilePhone(lowerCameCase) => MobilePhone(SameCase) => mobilephone(lowercase)
// ^ will matched
You can use hessian.SetTagIdentifier
to customize tag-identifier of hessian, which takes effect to both encoder and decoder.
Example:
hessian.SetTagIdentifier("json")
type MyUser struct {
UserFullName string `json:"user_full_name"`
FamilyPhoneNumber string // default convert to => familyPhoneNumber
}
func (MyUser) JavaClassName() string {
return "com.company.myuser"
}
user := &MyUser{
UserFullName: "username",
FamilyPhoneNumber: "010-12345678",
}
e := hessian.NewEncoder()
err := e.Encode(user)
if err != nil {
panic(err)
}
The encoded bytes of the struct MyUser
is as following:
00000000 43 12 63 6f 6d 2e 63 6f 6d 70 61 6e 79 2e 6d 79 |C.com.company.my|
00000010 75 73 65 72 92 0e 75 73 65 72 5f 66 75 6c 6c 5f |user..user_full_|
00000020 6e 61 6d 65 11 66 61 6d 69 6c 79 50 68 6f 6e 65 |name.familyPhone|
00000030 4e 75 6d 62 65 72 60 08 75 73 65 72 6e 61 6d 65 |Number`.username|
00000040 0c 30 31 30 2d 31 32 33 34 35 36 37 38 |.010-12345678|
By default, the output of Hessian Java impl of a Java collection like java.util.HashSet will be decoded as []interface{}
in go-hessian2
.
To apply the one-to-one mapping relationship between certain Java collection class and your Go struct, examples are as follows:
//use HashSet as example
//define your struct, which should implements hessian.JavaCollectionObject
type JavaHashSet struct {
value []interface{}
}
//get the inside slice value
func (j *JavaHashSet) Get() []interface{} {
return j.value
}
//set the inside slice value
func (j *JavaHashSet) Set(v []interface{}) {
j.value = v
}
//should be the same as the class name of the Java collection
func (j *JavaHashSet) JavaClassName() string {
return "java.util.HashSet"
}
func init() {
//register your struct so that hessian can recognized it when encoding and decoding
SetCollectionSerialize(&JavaHashSet{})
}
go-hessian2
supports inheritance struct, but the following situations should be avoided.
- Avoid fields with the same name in multiple parent struct
The following struct C
have inherited field Name
(default from the first parent),
but it's confused in logic.
type A struct { Name string }
type B struct { Name string }
type C struct {
A
B
}
- Avoid inheritance for a pointer of struct
The following definition is valid for golang syntax,
but the parent will be nil when create a new Dog, like dog := Dog{}
,
which will not happen in java inheritance,
and is also not supported by go-hessian2
.
type Dog struct {
*Animal
}