use of com.orientechnologies.orient.core.id.ORecordId in project orientdb by orientechnologies.
the class ORecordSerializerBinaryV0 method readLinkMap.
private Map<Object, OIdentifiable> readLinkMap(final BytesContainer bytes, final ODocument document) {
int size = OVarIntSerializer.readAsInteger(bytes);
final ORecordLazyMap result = new ORecordLazyMap(document);
result.setInternalStatus(ORecordElement.STATUS.UNMARSHALLING);
try {
while ((size--) > 0) {
final OType keyType = readOType(bytes);
final Object key = deserializeValue(bytes, keyType, document);
final ORecordId value = readOptimizedLink(bytes);
if (value.equals(NULL_RECORD_ID))
result.put(key, null);
else
result.put(key, value);
}
return result;
} finally {
result.setInternalStatus(ORecordElement.STATUS.LOADED);
}
}
use of com.orientechnologies.orient.core.id.ORecordId in project orientdb by orientechnologies.
the class OLinkSerializer method deserializeFromByteBufferObject.
/**
* {@inheritDoc}
*/
@Override
public OIdentifiable deserializeFromByteBufferObject(ByteBuffer buffer) {
final int clusterId = buffer.getShort();
final byte[] stream = new byte[OLongSerializer.LONG_SIZE];
buffer.get(stream);
// Wrong implementation but needed for binary compatibility
final long clusterPosition = OLongSerializer.INSTANCE.deserialize(stream, 0);
return new ORecordId(clusterId, clusterPosition);
}
use of com.orientechnologies.orient.core.id.ORecordId in project orientdb by orientechnologies.
the class ODatabaseCompare method compareRecords.
@SuppressFBWarnings("NP_NULL_ON_SOME_PATH")
private boolean compareRecords(ODocumentHelper.RIDMapper ridMapper) {
listener.onMessage("\nStarting deep comparison record by record. This may take a few minutes. Wait please...");
Collection<String> clusterNames1 = makeDbCall(databaseOne, new ODbRelatedCall<Collection<String>>() {
@Override
public Collection<String> call(ODatabaseDocumentInternal database) {
return database.getClusterNames();
}
});
for (final String clusterName : clusterNames1) {
// CHECK IF THE CLUSTER IS INCLUDED
if (includeClusters != null) {
if (!includeClusters.contains(clusterName))
continue;
} else if (excludeClusters != null) {
if (excludeClusters.contains(clusterName))
continue;
}
final int clusterId1 = makeDbCall(databaseOne, new ODbRelatedCall<Integer>() {
@Override
public Integer call(ODatabaseDocumentInternal database) {
return database.getClusterIdByName(clusterName);
}
});
final long[] db1Range = makeDbCall(databaseOne, new ODbRelatedCall<long[]>() {
@Override
public long[] call(ODatabaseDocumentInternal database) {
return database.getStorage().getClusterDataRange(clusterId1);
}
});
final long[] db2Range = makeDbCall(databaseTwo, new ODbRelatedCall<long[]>() {
@Override
public long[] call(ODatabaseDocumentInternal database) {
return database.getStorage().getClusterDataRange(clusterId1);
}
});
final long db1Max = db1Range[1];
final long db2Max = db2Range[1];
databaseOne.activateOnCurrentThread();
final ODocument doc1 = new ODocument();
databaseTwo.activateOnCurrentThread();
final ODocument doc2 = new ODocument();
final ORecordId rid = new ORecordId(clusterId1);
// TODO why this maximums can be different?
final long clusterMax = Math.max(db1Max, db2Max);
final OStorage storage;
ODatabaseDocumentInternal selectedDatabase;
if (clusterMax == db1Max)
selectedDatabase = databaseOne;
else
selectedDatabase = databaseTwo;
OPhysicalPosition[] physicalPositions = makeDbCall(selectedDatabase, new ODbRelatedCall<OPhysicalPosition[]>() {
@Override
public OPhysicalPosition[] call(ODatabaseDocumentInternal database) {
return database.getStorage().ceilingPhysicalPositions(clusterId1, new OPhysicalPosition(0));
}
});
OStorageConfiguration configuration1 = makeDbCall(databaseOne, new ODbRelatedCall<OStorageConfiguration>() {
@Override
public OStorageConfiguration call(ODatabaseDocumentInternal database) {
return database.getStorage().getConfiguration();
}
});
OStorageConfiguration configuration2 = makeDbCall(databaseTwo, new ODbRelatedCall<OStorageConfiguration>() {
@Override
public OStorageConfiguration call(ODatabaseDocumentInternal database) {
return database.getStorage().getConfiguration();
}
});
String storageType1 = makeDbCall(databaseOne, new ODbRelatedCall<String>() {
@Override
public String call(ODatabaseDocumentInternal database) {
return database.getStorage().getType();
}
});
String storageType2 = makeDbCall(databaseTwo, new ODbRelatedCall<String>() {
@Override
public String call(ODatabaseDocumentInternal database) {
return database.getStorage().getType();
}
});
long recordsCounter = 0;
while (physicalPositions.length > 0) {
for (OPhysicalPosition physicalPosition : physicalPositions) {
try {
recordsCounter++;
final long position = physicalPosition.clusterPosition;
rid.setClusterPosition(position);
if (rid.equals(new ORecordId(configuration1.indexMgrRecordId)) && rid.equals(new ORecordId(configuration2.indexMgrRecordId)))
continue;
if (rid.equals(new ORecordId(configuration1.schemaRecordId)) && rid.equals(new ORecordId(configuration2.schemaRecordId)))
continue;
if (rid.getClusterId() == 0 && rid.getClusterPosition() == 0) {
// Skip the compare of raw structure if the storage type are different, due the fact that are different by definition.
if (!storageType1.equals(storageType2))
continue;
}
final ORecordId rid2;
if (ridMapper == null)
rid2 = rid;
else {
final ORID newRid = ridMapper.map(rid);
if (newRid == null)
rid2 = rid;
else
rid2 = new ORecordId(newRid);
}
final ORawBuffer buffer1 = makeDbCall(databaseOne, new ODbRelatedCall<ORawBuffer>() {
@Override
public ORawBuffer call(ODatabaseDocumentInternal database) {
return database.getStorage().readRecord(rid, null, true, false, null).getResult();
}
});
final ORawBuffer buffer2 = makeDbCall(databaseTwo, new ODbRelatedCall<ORawBuffer>() {
@Override
public ORawBuffer call(ODatabaseDocumentInternal database) {
return database.getStorage().readRecord(rid2, null, true, false, null).getResult();
}
});
if (buffer1 == null && buffer2 == null)
// BOTH RECORD NULL, OK
continue;
else if (buffer1 == null && buffer2 != null) {
// REC1 NULL
listener.onMessage("\n- ERR: RID=" + clusterId1 + ":" + position + " is null in DB1");
++differences;
} else if (buffer1 != null && buffer2 == null) {
// REC2 NULL
listener.onMessage("\n- ERR: RID=" + clusterId1 + ":" + position + " is null in DB2");
++differences;
} else {
if (buffer1.recordType != buffer2.recordType) {
listener.onMessage("\n- ERR: RID=" + clusterId1 + ":" + position + " recordType is different: " + (char) buffer1.recordType + " <-> " + (char) buffer2.recordType);
++differences;
}
if (buffer1.buffer == null && buffer2.buffer == null) {
} else if (buffer1.buffer == null && buffer2.buffer != null) {
listener.onMessage("\n- ERR: RID=" + clusterId1 + ":" + position + " content is different: null <-> " + buffer2.buffer.length);
++differences;
} else if (buffer1.buffer != null && buffer2.buffer == null) {
listener.onMessage("\n- ERR: RID=" + clusterId1 + ":" + position + " content is different: " + buffer1.buffer.length + " <-> null");
++differences;
} else {
if (buffer1.recordType == ODocument.RECORD_TYPE) {
// DOCUMENT: TRY TO INSTANTIATE AND COMPARE
makeDbCall(databaseOne, new ODocumentHelper.ODbRelatedCall<Object>() {
public Object call(ODatabaseDocumentInternal database) {
doc1.reset();
doc1.fromStream(buffer1.buffer);
return null;
}
});
makeDbCall(databaseTwo, new ODocumentHelper.ODbRelatedCall<Object>() {
public Object call(ODatabaseDocumentInternal database) {
doc2.reset();
doc2.fromStream(buffer2.buffer);
return null;
}
});
if (rid.toString().equals(configuration1.schemaRecordId) && rid.toString().equals(configuration2.schemaRecordId)) {
makeDbCall(databaseOne, new ODocumentHelper.ODbRelatedCall<java.lang.Object>() {
public Object call(ODatabaseDocumentInternal database) {
convertSchemaDoc(doc1);
return null;
}
});
makeDbCall(databaseTwo, new ODocumentHelper.ODbRelatedCall<java.lang.Object>() {
public Object call(ODatabaseDocumentInternal database) {
convertSchemaDoc(doc2);
return null;
}
});
}
if (!ODocumentHelper.hasSameContentOf(doc1, databaseOne, doc2, databaseTwo, ridMapper)) {
listener.onMessage("\n- ERR: RID=" + clusterId1 + ":" + position + " document content is different");
listener.onMessage("\n--- REC1: " + new String(buffer1.buffer));
listener.onMessage("\n--- REC2: " + new String(buffer2.buffer));
listener.onMessage("\n");
++differences;
}
} else {
if (buffer1.buffer.length != buffer2.buffer.length) {
// CHECK IF THE TRIMMED SIZE IS THE SAME
final String rec1 = new String(buffer1.buffer).trim();
final String rec2 = new String(buffer2.buffer).trim();
if (rec1.length() != rec2.length()) {
listener.onMessage("\n- ERR: RID=" + clusterId1 + ":" + position + " content length is different: " + buffer1.buffer.length + " <-> " + buffer2.buffer.length);
if (buffer1.recordType == ODocument.RECORD_TYPE)
listener.onMessage("\n--- REC1: " + rec1);
if (buffer2.recordType == ODocument.RECORD_TYPE)
listener.onMessage("\n--- REC2: " + rec2);
listener.onMessage("\n");
++differences;
}
} else {
// CHECK BYTE PER BYTE
for (int b = 0; b < buffer1.buffer.length; ++b) {
if (buffer1.buffer[b] != buffer2.buffer[b]) {
listener.onMessage("\n- ERR: RID=" + clusterId1 + ":" + position + " content is different at byte #" + b + ": " + buffer1.buffer[b] + " <-> " + buffer2.buffer[b]);
listener.onMessage("\n--- REC1: " + new String(buffer1.buffer));
listener.onMessage("\n--- REC2: " + new String(buffer2.buffer));
listener.onMessage("\n");
++differences;
break;
}
}
}
}
}
}
} catch (RuntimeException e) {
OLogManager.instance().error(this, "Error during data comparison of records with rid " + rid);
throw e;
}
}
final OPhysicalPosition[] curPosition = physicalPositions;
physicalPositions = makeDbCall(selectedDatabase, new ODbRelatedCall<OPhysicalPosition[]>() {
@Override
public OPhysicalPosition[] call(ODatabaseDocumentInternal database) {
return database.getStorage().higherPhysicalPositions(clusterId1, curPosition[curPosition.length - 1]);
}
});
if (recordsCounter % 10000 == 0)
listener.onMessage("\n" + recordsCounter + " records were processed for cluster " + clusterName + " ...");
}
listener.onMessage("\nCluster comparison was finished, " + recordsCounter + " records were processed for cluster " + clusterName + " ...");
}
return true;
}
use of com.orientechnologies.orient.core.id.ORecordId in project orientdb by orientechnologies.
the class OLazyRecordMultiIterator method next.
public OIdentifiable next() {
if (!hasNext())
throw new NoSuchElementException();
final Iterator<OIdentifiable> underlying = getCurrentIterator();
OIdentifiable value = underlying.next();
if (value == null)
return null;
if (value instanceof ORecordId && convertToRecord) {
value = ((ORecordId) value).getRecord();
if (underlying instanceof OLazyIterator<?>)
((OLazyIterator<OIdentifiable>) underlying).update(value);
}
return value;
}
use of com.orientechnologies.orient.core.id.ORecordId in project orientdb by orientechnologies.
the class ODatabaseDocumentTx method executeHideRecord.
/**
* This method is internal, it can be subject to signature change or be removed, do not use.
*
* @Internal
*/
public boolean executeHideRecord(OIdentifiable record, final OPERATION_MODE iMode) {
checkOpeness();
checkIfActive();
final ORecordId rid = (ORecordId) record.getIdentity();
if (rid == null)
throw new ODatabaseException("Cannot hide record because it has no identity. Probably was created from scratch or contains projections of fields rather than a full record");
if (!rid.isValid())
return false;
checkSecurity(ORule.ResourceGeneric.CLUSTER, ORole.PERMISSION_DELETE, getClusterNameById(rid.getClusterId()));
getMetadata().makeThreadLocalSchemaSnapshot();
if (record instanceof ODocument)
ODocumentInternal.checkClass((ODocument) record, this);
ORecordSerializationContext.pushContext();
try {
final OStorageOperationResult<Boolean> operationResult;
operationResult = storage.hideRecord(rid, iMode.ordinal(), null);
// REMOVE THE RECORD FROM 1 AND 2 LEVEL CACHES
if (!operationResult.isMoved())
getLocalCache().deleteRecord(rid);
return operationResult.getResult();
} finally {
ORecordSerializationContext.pullContext();
getMetadata().clearThreadLocalSchemaSnapshot();
}
}
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