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I have some JPA code (with Hibernate as the provider) that is throwing the dreaded ClassCastException. However, it only seems to be occurring on certain computers and not others with the exact same codebase, configuration, database schema and data. Has anybody else encountered this? Is there a way to resolve it? I am fairly certain it is not a bug in my code since it is working in certain environments (on development machines that are newer Macbook Pros) but not in others (a Mac Mini and an Amazon Linux AMI).

For reference, this shows up when trying to authenticate a user through Spring Security using digest authentication. Spring is configured to retrieve the list of users by calling a bean that implements the UserDetailsService interface:

public class HttpDigestUserDetailsService implements UserDetailsService {

    private static final Logger log = LoggerFactory.getLogger(HttpDigestUserDetailsService.class);

    UserService userService;

    public UserDetails loadUserByUsername(String username) throws UsernameNotFoundException {

    List<User> users = userService.findBy("username", username);
    User user = users.get(0);
    return new HttpDigestUserDetails(user);

The error occurs when calling userService.findBy(). UserService is implemented by UserServiceImpl as follows:

@Transactional(propagation = Propagation.REQUIRED)
public class UserServiceImpl extends AbstractService<User> implements UserService {
    private static final Logger log = LoggerFactory.getLogger(UserServiceImpl.class);

    public Class getPersistentObjectClass() {
        return User.class;

    public void signUp(User user) {

And the real findBy method is implemented in AbstractRestService:

@Transactional(propagation = Propagation.REQUIRED)
public abstract class AbstractService<T extends PO> implements EntityService<T> {
    public List<T> findBy(String ... fields) {
        Map<String, Object> map = new HashMap<String, Object>();
        for (int i=0; i<fields.length - 1; i+=2) {
            map.put(fields[i], fields[i+1]);
        return findBy(map);

    public List<T> findBy(Map<String, Object> fields) {
        String queryString = String.format("SELECT o FROM %s o", getPersistentObjectClass().getName());
        StringBuilder sb = new StringBuilder();
        Set<String> fieldsSet = fields.keySet();
        boolean first = true;

        for (String fieldName : fieldsSet) {
            if (first) { sb.append(" WHERE "); first = false; } else sb.append(" AND ");
            sb.append(String.format("o.%s = :%s", fieldName, fieldName));
        queryString = queryString + sb.toString();

        TypedQuery<T> q = getEntityManager().createQuery(queryString, getPersistentObjectClass());
        for (String fieldName : fieldsSet) {
            q.setParameter(fieldName, fields.get(fieldName));

        List<T> results = q.getResultList();
        return results;

The User domain object is annotated as follows (omitting getters/setters that are just simple properties:

@Table(name = "users")
public class User extends PO {

    private Patient patient;
    private Provider provider;
    private Set<UserRole> userRoles;

    @OneToOne(fetch = FetchType.EAGER)
    @JoinColumn(name = "patient_id", nullable = true)
    public Patient getPatient() {
        return Patient;

    public void setPatient(Patient patient) {
        this.patient = patient;

    @OneToOne(fetch = FetchType.EAGER)
    @JoinColumn(name = "provider_id", nullable = true)
    public Provider getProvider() {
        return provider;

    public void setProvider() {
        this.provider = provider;

    @OneToMany(mappedBy = "user", fetch = FetchType.EAGER, cascade = CascadeType.ALL)
    public Set<UserRole> getUserRoles() {
        return userRoles;

    public void setUserRoles(Set<UserRole> userRoles) {
        this.userRoles = userRoles;

And finally, the PO base object that all domain objects extend:

public class PO implements Serializable {
    private Long id;

    @Column(name = "id")
    public Long getId() {
        return id;

Patient and Provider also extend PO, and have inverse mappings back to User. I can add that code if it would be helpful to see it.

Finally, here is the exception and stack trace I receive:

HTTP Status 500 - org.hibernate.PropertyAccessException: IllegalArgumentException occurred calling getter of; nested exception is javax.persistence.PersistenceException: org.hibernate.PropertyAccessException: IllegalArgumentException occurred calling getter of

java.lang.IllegalArgumentException: java.lang.ClassCastException@7e46a468
sun.reflect.GeneratedMethodAccessor57.invoke(Unknown Source)

I've read about issues with Hibernate relating to how Proxy objects are created when loading domain objects that extend from a shared superclass, but most of the advice I've seen says you should ensure you put your annotations on the properties and not the fields (which we're already doing), or use eager loading to avoid proxies being created (all our associations use eager loading already). I'm also confused as to why proxies are being created at all, as I thought that only occurs when you need to lazy load associations. I'm assuming it has something to do with transaction management in this case.

I've been banging my head against the wall on this for two days now with little progress, so I'd appreciate any pointers.

share|improve this question
Hi, I'm having a similar problem, did you manage to solve it? If so please post an answer – Simon B Jun 19 '14 at 9:31

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