public ServiceExecutionResult<SorRole> updateSorRole( final SorPerson sorPerson, final SorRole sorRole) { Assert.notNull(sorPerson, "sorPerson cannot be null."); Assert.notNull(sorRole, "sorRole cannot be null."); final Set validationErrors = this.validator.validate(sorRole); if (!validationErrors.isEmpty()) { // since because of existing design we cannot raise exception, we can only rollback the // transaction through code // OR-384 if (TransactionAspectSupport.currentTransactionStatus() != null) { TransactionAspectSupport.currentTransactionStatus().setRollbackOnly(); } return new GeneralServiceExecutionResult<SorRole>(validationErrors); } final SorRole savedSorRole = this.personRepository.saveSorRole(sorRole); final Person person = this.personRepository.findByInternalId(sorPerson.getPersonId()); final Role role = person.findRoleBySoRRoleId(savedSorRole.getId()); if (role != null) { // update calculated role only if that role was previously converted to calculated one by // sorRoleElector role.recalculate(savedSorRole); this.personRepository.savePerson(person); } // else //do nothing i.e. don't update the calculated role if SorRoleElector Previously decided // not to convert this sor role to calculated role return new GeneralServiceExecutionResult<SorRole>(savedSorRole); }
public ServiceExecutionResult<ReconciliationResult> reconcile( final ReconciliationCriteria reconciliationCriteria) throws IllegalArgumentException { Assert.notNull(reconciliationCriteria, "reconciliationCriteria cannot be null"); logger.info("reconcile start"); final Set validationErrors = this.validator.validate(reconciliationCriteria); if (!validationErrors.isEmpty()) { Iterator iter = validationErrors.iterator(); while (iter.hasNext()) { logger.info("validation errors: " + iter.next()); } logger.info("reconcile start"); // since because of existing design we cannot raise exception, we can only rollback the // transaction through code // OR-384 if (TransactionAspectSupport.currentTransactionStatus() != null) { TransactionAspectSupport.currentTransactionStatus().setRollbackOnly(); } return new GeneralServiceExecutionResult<ReconciliationResult>(validationErrors); } final ReconciliationResult result = this.reconciler.reconcile(reconciliationCriteria); // (reconciliationCriteria, result); return new GeneralServiceExecutionResult<ReconciliationResult>(result); }
/** * Persists an SorPerson on update. * * @param sorPerson the person to update. * @return serviceExecutionResult. */ public ServiceExecutionResult<SorPerson> updateSorPerson(final SorPerson sorPerson) { final Set validationErrors = this.validator.validate(sorPerson); if (!validationErrors.isEmpty()) { Iterator iter = validationErrors.iterator(); while (iter.hasNext()) { logger.info("validation errors: " + iter.next()); } // since because of existing design we cannot raise exception, we can only rollback the // transaction through code // OR-384 if (TransactionAspectSupport.currentTransactionStatus() != null) { TransactionAspectSupport.currentTransactionStatus().setRollbackOnly(); } return new GeneralServiceExecutionResult<SorPerson>(validationErrors); } // do reconciliationCheck to make sure that modifications do not cause person to reconcile to a // different person if (!this.reconciler.reconcilesToSamePerson(sorPerson)) { throw new IllegalStateException(); } // Iterate over any sorRoles setting sorid and source id if not specified by SoR. for (final SorRole sorRole : sorPerson.getRoles()) { setRoleIdAndSource(sorRole, sorPerson.getSourceSor()); } // Save Sor Person final SorPerson savedSorPerson = this.personRepository.saveSorPerson(sorPerson); Person person = this.findPersonById(savedSorPerson.getPersonId()); Assert.notNull(person, "person cannot be null."); logger.info( "Verifying Number of calculated Roles before the calculate: " + person.getRoles().size()); // Iterate over sorRoles. SorRoles may be new or updated. for (final SorRole savedSorRole : savedSorPerson.getRoles()) { logger.info( "DefaultPersonService: savedSorPersonRole Found, savedSorRoleID: " + savedSorRole.getId()); logger.info("DefaultPersonService: savedSorPersonRole Found, Role Must be newly added."); // let sor role elector decide if this new role can be converted to calculated one sorRoleElector.addSorRole(savedSorRole, person); logger.info( "Verifying Number of calculated Roles after calculate: " + person.getRoles().size()); } for (final IdentifierAssigner ia : this.identifierAssigners) { ia.addIdentifierTo(sorPerson, person); } person = recalculatePersonBiodemInfo(person, savedSorPerson, RecalculationType.UPDATE, false); person = this.personRepository.savePerson(person); return new GeneralServiceExecutionResult<SorPerson>(savedSorPerson); }
@PreAuthorize("hasPermission(#sorRole, 'admin')") public ServiceExecutionResult<SorRole> validateAndSaveRoleForSorPerson( final SorPerson sorPerson, final SorRole sorRole) { logger.info(" validateAndSaveRoleForSorPerson start"); Assert.notNull(sorPerson, "SorPerson cannot be null."); Assert.notNull(sorRole, "SorRole cannot be null."); // check if the SoR Role has an ID assigned to it already and assign source sor setRoleIdAndSource(sorRole, sorPerson.getSourceSor()); final Set validationErrors = this.validator.validate(sorRole); if (!validationErrors.isEmpty()) { // since because of existing design we cannot raise exception, we can only rollback the // transaction through code // OR-384 if (TransactionAspectSupport.currentTransactionStatus() != null) { TransactionAspectSupport.currentTransactionStatus().setRollbackOnly(); } return new GeneralServiceExecutionResult<SorRole>(validationErrors); } final SorPerson newSorPerson = this.personRepository.saveSorPerson(sorPerson); Person person = this.personRepository.findByInternalId(newSorPerson.getPersonId()); final SorRole newSorRole = newSorPerson.findSorRoleBySorRoleId(sorRole.getSorId()); // let sor role elector decide if this new role can be converted to calculated one sorRoleElector.addSorRole(newSorRole, person); person = recalculatePersonBiodemInfo(person, newSorPerson, RecalculationType.UPDATE, false); this.personRepository.savePerson(person); logger.info("validateAndSaveRoleForSorPerson end"); return new GeneralServiceExecutionResult<SorRole>(newSorRole); }
/** * This does not explicitly delete the names because its assumed the recalculation will clean it * up. */ public boolean deleteSystemOfRecordPerson( final SorPerson sorPerson, final boolean mistake, final String terminationTypes) { Assert.notNull(sorPerson, "sorPerson cannot be null."); final String terminationTypeToUse = terminationTypes != null ? terminationTypes : Type.TerminationTypes.UNSPECIFIED.name(); final Person person = this.personRepository.findByInternalId(sorPerson.getPersonId()); Assert.notNull(person, "person cannot be null."); if (mistake) { Set<Role> rolesToDelete = new HashSet<Role>(); for (final SorRole sorRole : sorPerson.getRoles()) { for (final Role role : person.getRoles()) { if (sorRole.getId().equals(role.getSorRoleId())) { rolesToDelete.add(role); } } } for (final Role role : rolesToDelete) { // let sorRoleElector delete the role and add another role if required sorRoleElector.removeCalculatedRole( person, role, this.personRepository.getSoRRecordsForPerson(person)); } final Number number = this.personRepository.getCountOfSoRRecordsForPerson(person); if (number.intValue() == 1) { this.personRepository.deletePerson(person); } this.personRepository.deleteSorPerson(sorPerson); return true; } // we do this explicitly here because once they're gone we can't re-calculate? We might move to // this to the recalculateCalculatedPerson method. final Type terminationReason = this.referenceRepository.findType(Type.DataTypes.TERMINATION, terminationTypeToUse); for (final SorRole sorRole : sorPerson.getRoles()) { for (final Role role : person.getRoles()) { if (!role.isTerminated() && sorRole.getId().equals(role.getSorRoleId())) { role.expireNow(terminationReason, true); } } } this.personRepository.deleteSorPerson(sorPerson); this.personRepository.savePerson(person); Person p = recalculatePersonBiodemInfo(person, sorPerson, RecalculationType.DELETE, mistake); this.personRepository.savePerson(p); return true; }
public ServiceExecutionResult<Person> addPerson( final ReconciliationCriteria reconciliationCriteria) throws ReconciliationException, IllegalArgumentException, SorPersonAlreadyExistsException { Assert.notNull(reconciliationCriteria, "reconciliationCriteria cannot be null"); logger.info("addPerson start"); if (reconciliationCriteria.getSorPerson().getSorId() != null && this.findBySorIdentifierAndSource( reconciliationCriteria.getSorPerson().getSourceSor(), reconciliationCriteria.getSorPerson().getSorId()) != null) { // throw new IllegalStateException("CANNOT ADD SAME SOR RECORD."); throw new SorPersonAlreadyExistsException( this.findBySorIdentifierAndSource( reconciliationCriteria.getSorPerson().getSourceSor(), reconciliationCriteria.getSorPerson().getSorId())); } final Set validationErrors = this.validator.validate(reconciliationCriteria); if (!validationErrors.isEmpty()) { Iterator iter = validationErrors.iterator(); while (iter.hasNext()) { logger.info("validation errors: " + iter.next()); } // since because of existing design we cannot raise exception, we can only rollback the // transaction through code // OR-384 if (TransactionAspectSupport.currentTransactionStatus() != null) { TransactionAspectSupport.currentTransactionStatus().setRollbackOnly(); } return new GeneralServiceExecutionResult<Person>(validationErrors); } final ReconciliationResult result = this.reconciler.reconcile(reconciliationCriteria); switch (result.getReconciliationType()) { case NONE: return new GeneralServiceExecutionResult<Person>( saveSorPersonAndConvertToCalculatedPerson(reconciliationCriteria)); case EXACT: return new GeneralServiceExecutionResult<Person>( addNewSorPersonAndLinkWithMatchedCalculatedPerson(reconciliationCriteria, result)); } this.criteriaCache.put(reconciliationCriteria, result); logger.info("addPerson start"); throw new ReconciliationException(result); }
public ServiceExecutionResult<Person> validateAndSavePersonAndRole( final ReconciliationCriteria reconciliationCriteria) { logger.info(" validateAndSavePersonAndRole start"); SorPerson sorPerson = reconciliationCriteria.getSorPerson(); if (sorPerson == null || sorPerson.getRoles() == null) throw new IllegalArgumentException("Sor Person not found in provided criteria."); SorRole sorRole = reconciliationCriteria.getSorPerson().getRoles().get(0); if (sorRole == null) throw new IllegalArgumentException("Sor Role not found for provided criteria."); setRoleIdAndSource(sorRole, sorPerson.getSourceSor()); final Set validationErrors = this.validator.validate(sorRole); if (!validationErrors.isEmpty()) { // since because of existing design we cannot raise exception, we can only rollback the // transaction through code // OR-384 if (TransactionAspectSupport.currentTransactionStatus() != null) { TransactionAspectSupport.currentTransactionStatus().setRollbackOnly(); } return new GeneralServiceExecutionResult<Person>(validationErrors); } Long personId = sorPerson.getPersonId(); if (personId == null) { logger.info("calling saveSorPersonAndConvertToCalculatedPerson"); // add new Sor Person and roles, create calculated person return new GeneralServiceExecutionResult<Person>( saveSorPersonAndConvertToCalculatedPerson(reconciliationCriteria)); } else { // Add new Sor Person and role and link to the existing person Person thisPerson = this.personRepository.findByInternalId(personId); try { logger.info("calling addSorPersonAndLink"); Person savedPerson = this.addSorPersonAndLink(reconciliationCriteria, thisPerson); return new GeneralServiceExecutionResult<Person>(savedPerson); } catch (SorPersonAlreadyExistsException sorE) { throw new IllegalArgumentException( "If a sor Person of the same source already exists, should call the other method to add the role only"); } } }
public void init() throws IOException { this._logger = LoggerFactory.getLogger(AcquirePort.class); selector = Selector.open(); // 通过open方法来打开一个未绑定的ServerSocketChannel实例 ServerSocketChannel server = ServerSocketChannel.open(); InetSocketAddress isa = new InetSocketAddress(_acquirePort); // 将该ServerSocketChannel绑定到指定IP地址 server.socket().bind(isa); // 设置ServerSocket以非阻塞方式工作 server.configureBlocking(false); // 将server注册到指定Selector对象 server.register(selector, SelectionKey.OP_ACCEPT); // 定义准备执行读取数据的ByteBuffer ByteBuffer buff = ByteBuffer.allocate(1024); while (selector.select() > 0) { // 依次处理selector上的每个已选择的SelectionKey Set<SelectionKey> sks = selector.selectedKeys(); Iterator keys = sks.iterator(); while (keys.hasNext()) { SelectionKey sk = (SelectionKey) keys.next(); // 从selector上的已选择Key集中删除正在处理的SelectionKey keys.remove(); // 如果sk对应的通道包含客户端的连接请求 if (sk.isAcceptable()) { // 调用accept方法接受连接,产生服务器端对应的SocketChannel SocketChannel sc = server.accept(); // 设置采用非阻塞模式 sc.configureBlocking(false); // 将该SocketChannel也注册到selector sc.register(selector, SelectionKey.OP_READ); } // 如果sk对应的通道有数据需要读取 if (sk.isReadable()) { // 获取该SelectionKey对应的Channel,该Channel中有可读的数据 SocketChannel sc = (SocketChannel) sk.channel(); // 开始读取数据 try { while (sc.read(buff) > 0) { buff.flip(); this._logger.info("content" + buff); sc.write(buff); if (buff.hasRemaining()) { buff.compact(); } else { buff.clear(); } } // 打印从该sk对应的Channel里读取到的数据 this._logger.info("accpect content" + buff); } // 如果捕捉到该sk对应的Channel出现了异常,即表明该Channel // 对应的Client出现了问题,所以从Selector中取消sk的注册 catch (IOException ex) { // 从Selector中删除指定的SelectionKey sk.cancel(); if (sk.channel() != null) { sk.channel().close(); } } } } } }