94

I have a table with a column of type JSON in my PostgreSQL DB (9.2). I have a hard time to map this column to a JPA2 Entity field type.

I tried to use String but when I save the entity I get an exception that it can't convert character varying to JSON.

What is the correct value type to use when dealing with a JSON column?

@Entity
public class MyEntity {

    private String jsonPayload; // this maps to a json column

    public MyEntity() {
    }
}

A simple workaround would be to define a text column.

2

12 Answers 12

89

If you're interested, here are a few code snippets to get the Hibernate custom user type in place. First extend the PostgreSQL dialect to tell it about the json type, thanks to Craig Ringer for the JAVA_OBJECT pointer:

import org.hibernate.dialect.PostgreSQL9Dialect;

import java.sql.Types;

/**
 * Wrap default PostgreSQL9Dialect with 'json' type.
 *
 * @author timfulmer
 */
public class JsonPostgreSQLDialect extends PostgreSQL9Dialect {

    public JsonPostgreSQLDialect() {

        super();

        this.registerColumnType(Types.JAVA_OBJECT, "json");
    }
}

Next implement org.hibernate.usertype.UserType. The implementation below maps String values to the json database type, and vice-versa. Remember Strings are immutable in Java. A more complex implementation could be used to map custom Java beans to JSON stored in the database as well.

package foo;

import org.hibernate.HibernateException;
import org.hibernate.engine.spi.SessionImplementor;
import org.hibernate.usertype.UserType;

import java.io.Serializable;
import java.sql.PreparedStatement;
import java.sql.ResultSet;
import java.sql.SQLException;
import java.sql.Types;

/**
 * @author timfulmer
 */
public class StringJsonUserType implements UserType {

    /**
     * Return the SQL type codes for the columns mapped by this type. The
     * codes are defined on <tt>java.sql.Types</tt>.
     *
     * @return int[] the typecodes
     * @see java.sql.Types
     */
    @Override
    public int[] sqlTypes() {
        return new int[] { Types.JAVA_OBJECT};
    }

    /**
     * The class returned by <tt>nullSafeGet()</tt>.
     *
     * @return Class
     */
    @Override
    public Class returnedClass() {
        return String.class;
    }

    /**
     * Compare two instances of the class mapped by this type for persistence "equality".
     * Equality of the persistent state.
     *
     * @param x
     * @param y
     * @return boolean
     */
    @Override
    public boolean equals(Object x, Object y) throws HibernateException {

        if( x== null){

            return y== null;
        }

        return x.equals( y);
    }

    /**
     * Get a hashcode for the instance, consistent with persistence "equality"
     */
    @Override
    public int hashCode(Object x) throws HibernateException {

        return x.hashCode();
    }

    /**
     * Retrieve an instance of the mapped class from a JDBC resultset. Implementors
     * should handle possibility of null values.
     *
     * @param rs      a JDBC result set
     * @param names   the column names
     * @param session
     * @param owner   the containing entity  @return Object
     * @throws org.hibernate.HibernateException
     *
     * @throws java.sql.SQLException
     */
    @Override
    public Object nullSafeGet(ResultSet rs, String[] names, SessionImplementor session, Object owner) throws HibernateException, SQLException {
        if(rs.getString(names[0]) == null){
            return null;
        }
        return rs.getString(names[0]);
    }

    /**
     * Write an instance of the mapped class to a prepared statement. Implementors
     * should handle possibility of null values. A multi-column type should be written
     * to parameters starting from <tt>index</tt>.
     *
     * @param st      a JDBC prepared statement
     * @param value   the object to write
     * @param index   statement parameter index
     * @param session
     * @throws org.hibernate.HibernateException
     *
     * @throws java.sql.SQLException
     */
    @Override
    public void nullSafeSet(PreparedStatement st, Object value, int index, SessionImplementor session) throws HibernateException, SQLException {
        if (value == null) {
            st.setNull(index, Types.OTHER);
            return;
        }

        st.setObject(index, value, Types.OTHER);
    }

    /**
     * Return a deep copy of the persistent state, stopping at entities and at
     * collections. It is not necessary to copy immutable objects, or null
     * values, in which case it is safe to simply return the argument.
     *
     * @param value the object to be cloned, which may be null
     * @return Object a copy
     */
    @Override
    public Object deepCopy(Object value) throws HibernateException {

        return value;
    }

    /**
     * Are objects of this type mutable?
     *
     * @return boolean
     */
    @Override
    public boolean isMutable() {
        return true;
    }

    /**
     * Transform the object into its cacheable representation. At the very least this
     * method should perform a deep copy if the type is mutable. That may not be enough
     * for some implementations, however; for example, associations must be cached as
     * identifier values. (optional operation)
     *
     * @param value the object to be cached
     * @return a cachable representation of the object
     * @throws org.hibernate.HibernateException
     *
     */
    @Override
    public Serializable disassemble(Object value) throws HibernateException {
        return (String)this.deepCopy( value);
    }

    /**
     * Reconstruct an object from the cacheable representation. At the very least this
     * method should perform a deep copy if the type is mutable. (optional operation)
     *
     * @param cached the object to be cached
     * @param owner  the owner of the cached object
     * @return a reconstructed object from the cachable representation
     * @throws org.hibernate.HibernateException
     *
     */
    @Override
    public Object assemble(Serializable cached, Object owner) throws HibernateException {
        return this.deepCopy( cached);
    }

    /**
     * During merge, replace the existing (target) value in the entity we are merging to
     * with a new (original) value from the detached entity we are merging. For immutable
     * objects, or null values, it is safe to simply return the first parameter. For
     * mutable objects, it is safe to return a copy of the first parameter. For objects
     * with component values, it might make sense to recursively replace component values.
     *
     * @param original the value from the detached entity being merged
     * @param target   the value in the managed entity
     * @return the value to be merged
     */
    @Override
    public Object replace(Object original, Object target, Object owner) throws HibernateException {
        return original;
    }
}

Now all that's left is annotating the entities. Put something like this at the entity's class declaration:

@TypeDefs( {@TypeDef( name= "StringJsonObject", typeClass = StringJsonUserType.class)})

Then annotate the property:

@Type(type = "StringJsonObject")
public String getBar() {
    return bar;
}

Hibernate will take care of creating the column with json type for you, and handle the mapping back and forth. Inject additional libraries into the user type implementation for more advanced mapping.

Here's a quick sample GitHub project if anyone wants to play around with it:

https://github.com/timfulmer/hibernate-postgres-jsontype

16
  • 2
    No worries guys, I ended up with the code and this page in front of me and figured why not :) That might be the downside of the Java process. We get some pretty well thought through solutions to tough problems, but it's not easy to go in and add a good idea like generic SPI for new types. We're left with whatever the implementers, Hibernate in this case, put in place.
    – Tim Fulmer
    Apr 18, 2013 at 17:24
  • 3
    there's a problem in your implementation code for nullSafeGet. Instead of of if(rs.wasNull()) you should do if(rs.getString(names[0]) == null). I'm not sure what rs.wasNull() does, but in my case it burned me by returning true, when the value I was looking for was in fact not null.
    – rtcarlson
    Sep 11, 2013 at 15:22
  • 1
    @rtcarlson Nice catch! Sorry you had to go through that. I've updated the code above.
    – Tim Fulmer
    Sep 20, 2013 at 19:49
  • 3
    This solution worked nicely with Hibernate 4.2.7 except when retrieving null from json columns with the error 'No Dialect mapping for JDBC type: 1111'. However, adding the following line to the dialect class fixed it: this.registerHibernateType(Types.OTHER, "StringJsonUserType"); Nov 18, 2013 at 17:03
  • 8
    I don't see any code on the linked github-project ;-) BTW: Wouldn't it be useful to have this code as a library for reuse?
    – rü-
    Sep 30, 2015 at 11:06
40

See PgJDBC bug #265.

PostgreSQL is excessively, annoyingly strict about data type conversions. It won't implicitly cast text even to text-like values such as xml and json.

The strictly correct way to solve this problem is to write a custom Hibernate mapping type that uses the JDBC setObject method. This can be a fair bit of hassle, so you might just want to make PostgreSQL less strict by creating a weaker cast.

As noted by @markdsievers in the comments and this blog post, the original solution in this answer bypasses JSON validation. So it's not really what you want. It's safer to write:

CREATE OR REPLACE FUNCTION json_intext(text) RETURNS json AS $$
SELECT json_in($1::cstring); 
$$ LANGUAGE SQL IMMUTABLE;

CREATE CAST (text AS json) WITH FUNCTION json_intext(text) AS IMPLICIT;

AS IMPLICIT tells PostgreSQL it can convert without being explicitly told to, allowing things like this to work:

regress=# CREATE TABLE jsontext(x json);
CREATE TABLE
regress=# PREPARE test(text) AS INSERT INTO jsontext(x) VALUES ($1);
PREPARE
regress=# EXECUTE test('{}')
INSERT 0 1

Thanks to @markdsievers for pointing out the issue.

6
  • 2
    Worth reading the resulting blog post of this answer. Inparticular the comment section highlights the dangers of this (allows invalid json) and the alternative / superior solution. Dec 11, 2013 at 1:03
  • @markdsievers Thankyou. I've updated the post with a corrected solution. Dec 11, 2013 at 2:53
  • @CraigRinger No problem. Thank you for your prolific PG / JPA / JDBC contributions, many have been of great assistance to me. Dec 11, 2013 at 3:25
  • 1
    @CraigRinger Since you're going through the cstring conversion anyway, couldn't you simply use CREATE CAST (text AS json) WITH INOUT? Jun 16, 2014 at 12:44
  • @NickBarnes that solution also worked perfectly for me (and from what I had seen, it fails on invalid JSON, as it should). Thanks! Dec 12, 2014 at 10:22
33

Maven dependency

The first thing you need to do is to set up the following Hibernate Types Maven dependency in your project pom.xml configuration file:

<dependency>
    <groupId>com.vladmihalcea</groupId>
    <artifactId>hibernate-types-52</artifactId>
    <version>${hibernate-types.version}</version>
</dependency>

Domain model

Now, you need to declare the JsonType on either class level or in a package-info.java package-level descriptor, like this:

@TypeDef(name = "json", typeClass = JsonType.class)

And, the entity mapping will look like this:

@Type(type = "json")
@Column(columnDefinition = "jsonb")
private Location location;

If you're using Hibernate 5 or later, then the JSON type is registered automatically by the Postgre92Dialect.

Otherwise, you need to register it yourself:

public class PostgreSQLDialect extends PostgreSQL91Dialect {

    public PostgreSQL92Dialect() {
        super();
        this.registerColumnType( Types.JAVA_OBJECT, "jsonb" );
    }
}
10
  • Nice example, but can this be used with some generic DAO, like Spring Data JPA repositories to query data without native queries like we can do with MongoDB? I didn't find any valid answer or solution to this case. Yes we can store the data, and we can retreive them by filtering columns in RDBMS, but I cannot filter by JSONB coluns so far. I wish I am wrong and there is such solution. Sep 6, 2017 at 20:37
  • Yes, you can. But you need to use nativ queries which are supported by Spring Data JPA too. Sep 6, 2017 at 20:52
  • I see, that was actually my questin, if we can go without native queries, but just via objects methods. Something like @Document annotation for MongoDB style. So I assume this is not so far in case of PostgreSQL and the only solution is native queries -> nasty :-), but thanks for confirmation. Sep 6, 2017 at 21:17
  • It would be good to see in future something like entity which really represents table and document annotation on fields type of json and I can use Spring repositories to do CRUD stuff on the fly. Think is that I am generating quite advanced REST API for databases with Spring. But with JSON in place I am facing quite unexpected overhead so I will need to process every single document with generate queries as well. Sep 6, 2017 at 21:20
  • You can use Hibernate OGM with MongoDB if JSON is your single store. Sep 7, 2017 at 4:24
16

In case someone is interested, you can use JPA 2.1 @Convert / @Converter functionality with Hibernate. You would have to use the pgjdbc-ng JDBC driver though. This way you don't have to use any proprietary extensions, dialects and custom types per field.

@javax.persistence.Converter
public static class MyCustomConverter implements AttributeConverter<MuCustomClass, String> {

    @Override
    @NotNull
    public String convertToDatabaseColumn(@NotNull MuCustomClass myCustomObject) {
        ...
    }

    @Override
    @NotNull
    public MuCustomClass convertToEntityAttribute(@NotNull String databaseDataAsJSONString) {
        ...
    }
}

...

@Convert(converter = MyCustomConverter.class)
private MyCustomClass attribute;
5
  • This sounds useful - what types should it convert between to be able to write JSON? Is it <MyCustomClass, String> or some other type?
    – myrosia
    Jul 22, 2015 at 18:56
  • Thanks - just verified that it works for me (JPA 2.1, Hibernate 4.3.10, pgjdbc-ng 0.5, Postgres 9.3)
    – myrosia
    Jul 23, 2015 at 12:03
  • Is it possible to make it work without specifing @Column(columnDefinition = "json") on the field? Hibernate is making a varchar(255) without this definition. Aug 6, 2015 at 21:39
  • Hibernate cannot possibly know what column type you want there, but you insist that it's Hibernate's responsibility to update the database schema. So I guess it picks the default one.
    – vasily
    Aug 10, 2015 at 0:44
  • This works with Gson as the "custom" class, and you can return the resultant JsonElement as a JsonObject, JsonArray, JSonPrimitive, or JsonNull. No need for TypeDefs or anything else, just use columnDefinition = "jsonb" and it reads just fine. Very sexy, great answer!
    – JJ Ward
    Jun 23, 2022 at 14:40
8

I tried many methods I found on the Internet, most of them are not working, some of them are too complex. The below one works for me and is much more simple if you don't have that strict requirements for PostgreSQL type validation.

Make PostgreSQL jdbc string type as unspecified, like <connection-url> jdbc:postgresql://localhost:test?stringtype=‌​unspecified </connect‌​ion-url>

1
3

I had a similar problem with Postgres (javax.persistence.PersistenceException: org.hibernate.MappingException: No Dialect mapping for JDBC type: 1111) when executing native queries (via EntityManager) that retrieved json fields in the projection although the Entity class has been annotated with TypeDefs. The same query translated in HQL was executed without any problem. To solve this I had to modify JsonPostgreSQLDialect this way:

public class JsonPostgreSQLDialect extends PostgreSQL9Dialect {

public JsonPostgreSQLDialect() {

    super();

    this.registerColumnType(Types.JAVA_OBJECT, "json");
    this.registerHibernateType(Types.OTHER, "myCustomType.StringJsonUserType");
}

Where myCustomType.StringJsonUserType is the class name of the class implementing the json type (from above, Tim Fulmer answer) .

2

There is an easier to to do this which doesn't involve creating a function by using WITH INOUT

CREATE TABLE jsontext(x json);

INSERT INTO jsontext VALUES ($${"a":1}$$::text);
ERROR:  column "x" is of type json but expression is of type text
LINE 1: INSERT INTO jsontext VALUES ($${"a":1}$$::text);

CREATE CAST (text AS json)
  WITH INOUT
  AS ASSIGNMENT;

INSERT INTO jsontext VALUES ($${"a":1}$$::text);
INSERT 0 1
1
  • Thanks, used this to cast varchar to ltree, works perfectly. Mar 20, 2018 at 8:10
1

All the above solution did not work for me. Finally I made use of native queries to insert the data.

Step -1 Create an abstract class AbstractEntity which will implements Persistable with annotation @MappedSuperclass (part of javax.persistence) Step -2 In this class create your sequence generator because you can not generate a sequencer with the native queries. @Id @GeneratedValues @Column private Long seqid;

Dont forget - Your entity class should extends your abstract class. (helping your sequence to work as well it may works on date as well(check for date i am not sure))

Step- 3 In repo interface write the native query.

value="INSERT INTO table(?,?)values(:?,:cast(:jsonString as json))",nativeQuery=true

Step - 4 This will convert your java string object to json and insert/store in database and also you will be able to increment the sequence on each insertion as well.

I got casting error when I worked using converter. Also type-52 personally I avoided to use that in my project. Please upvote my ans if it works for you guys.

1

I ran into this issue when I migrated my projects from MySQL 8.0.21 to Postgres 13. My project uses Spring boot with the Hibernate types dependency version 2.7.1. In my case the solution was simple. enter image description here

All I needed to do was change that and it worked.

Referenced from the Hibernate Types Documentation page.

0

I was running into this and didn't want to enable stuff via connection string, and allow implicit conversions. At first I tried to use @Type, but because I'm using a custom converter to serialize/deserialize a Map to/from JSON, I couldn't apply a @Type annotation. Turns out I just needed to specify columnDefinition = "json" in my @Column annotation.

@Convert(converter = HashMapConverter.class)
@Column(name = "extra_fields", columnDefinition = "json")
private Map<String, String> extraFields;
1
  • 5
    Where have you defined this HashMapConverter class. How it look like.
    – sandeep
    May 29, 2020 at 7:56
0

I encountered the column "roles" is of type json but expression is of type character varying exception with the following entity with Postgres:

@Entity
@TypeDefs(@TypeDef(name = "json", typeClass = JsonBinaryType.class))
@Data
@AllArgsConstructor
@NoArgsConstructor
@Builder
@EqualsAndHashCode(of = "extId")
public class ManualTaskUser {

    @Id
    private String extId;

    @Type(type = "json")
    @Column(columnDefinition = "json")
    private Set<Role> roles;

}

It should be mentioned that Role is an enum and not a POJO.

In the generated SQL I could see that the Set was correctly serialized like this: ["SYSTEM","JOURNEY","ADMIN","OBJECTION","DEVOPS","ASSESSMENT"].

Changing the typeClass in the TypeDef annotation from JsonStringType to JsonBinaryType solved the problem! Thanks to Joseph Waweru for the hint!

0

Use hibernate-specific annotations JdbcTypeCode and SqlType:

import org.hibername.annotations.JdbcTypeCode;
import org.hibername.type.SqlType;
import jakarta.persistence.Entity;

@Entity
public class MyEntity {

    @JdbcTypeCode(SqlTypes.JSON)
    private List<String> myJsonArray;

    @JdbcTypeCode(SqlTypes.JSON)
    private Map<String, String> myJsonObject;

    public MyEntity() {
    }
}

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