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DefaultDatabaseWriter.java
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DefaultDatabaseWriter.java
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/**
* Licensed to JumpMind Inc under one or more contributor
* license agreements. See the NOTICE file distributed
* with this work for additional information regarding
* copyright ownership. JumpMind Inc licenses this file
* to you under the GNU General Public License, version 3.0 (GPLv3)
* (the "License"); you may not use this file except in compliance
* with the License.
*
* You should have received a copy of the GNU General Public License,
* version 3.0 (GPLv3) along with this library; if not, see
* <http://www.gnu.org/licenses/>.
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
*/
package org.jumpmind.symmetric.io.data.writer;
import java.io.StringReader;
import java.lang.reflect.Method;
import java.sql.Types;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import org.apache.commons.io.IOUtils;
import org.apache.commons.lang.ArrayUtils;
import org.apache.commons.lang.StringUtils;
import org.jumpmind.db.io.DatabaseXmlUtil;
import org.jumpmind.db.model.Column;
import org.jumpmind.db.model.Database;
import org.jumpmind.db.model.Table;
import org.jumpmind.db.platform.DatabaseInfo;
import org.jumpmind.db.platform.IDatabasePlatform;
import org.jumpmind.db.sql.DmlStatement;
import org.jumpmind.db.sql.DmlStatement.DmlType;
import org.jumpmind.db.sql.ISqlRowMapper;
import org.jumpmind.db.sql.ISqlTemplate;
import org.jumpmind.db.sql.ISqlTransaction;
import org.jumpmind.db.sql.Row;
import org.jumpmind.db.sql.SqlException;
import org.jumpmind.db.sql.SqlScriptReader;
import org.jumpmind.symmetric.io.data.Batch;
import org.jumpmind.symmetric.io.data.CsvData;
import org.jumpmind.symmetric.io.data.CsvUtils;
import org.jumpmind.symmetric.io.data.DataContext;
import org.jumpmind.symmetric.io.data.writer.Conflict.DetectConflict;
import org.jumpmind.symmetric.io.data.writer.Conflict.DetectExpressionKey;
import org.jumpmind.util.CollectionUtils;
import org.jumpmind.util.FormatUtils;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
public class DefaultDatabaseWriter extends AbstractDatabaseWriter {
protected final static Logger log = LoggerFactory.getLogger(DefaultDatabaseWriter.class);
public static final String CUR_DATA = "DatabaseWriter.CurData";
protected IDatabasePlatform platform;
protected ISqlTransaction transaction;
protected DmlStatement currentDmlStatement;
protected Object[] currentDmlValues;
public DefaultDatabaseWriter(IDatabasePlatform platform) {
this(platform, null, null);
}
public DefaultDatabaseWriter(IDatabasePlatform platform, DatabaseWriterSettings settings) {
this(platform, null, settings);
}
public DefaultDatabaseWriter(IDatabasePlatform platform,
IDatabaseWriterConflictResolver conflictResolver, DatabaseWriterSettings settings) {
super(conflictResolver, settings);
this.platform = platform;
}
@Override
public void open(DataContext context) {
super.open(context);
this.transaction = platform.getSqlTemplate().startSqlTransaction();
}
@Override
public boolean start(Table table) {
this.currentDmlStatement = null;
boolean process = super.start(table);
if (process && targetTable != null) {
allowInsertIntoAutoIncrementColumns(true, this.targetTable);
}
return process;
}
@Override
public void end(Table table) {
super.end(table);
allowInsertIntoAutoIncrementColumns(false, this.targetTable);
}
@Override
public void end(Batch batch, boolean inError) {
this.currentDmlStatement = null;
super.end(batch, inError);
}
@Override
public void close() {
super.close();
if (transaction != null) {
this.transaction.close();
}
}
@Override
protected void commit(boolean earlyCommit) {
if (transaction != null) {
try {
statistics.get(batch).startTimer(DataWriterStatisticConstants.DATABASEMILLIS);
this.transaction.commit();
if (!earlyCommit) {
notifyFiltersBatchCommitted();
} else {
notifyFiltersEarlyCommit();
}
} finally {
statistics.get(batch).stopTimer(DataWriterStatisticConstants.DATABASEMILLIS);
}
}
super.commit(earlyCommit);
}
@Override
protected void rollback() {
if (transaction != null) {
try {
statistics.get(batch).startTimer(DataWriterStatisticConstants.DATABASEMILLIS);
this.transaction.rollback();
notifyFiltersBatchRolledback();
} finally {
statistics.get(batch).stopTimer(DataWriterStatisticConstants.DATABASEMILLIS);
}
}
super.rollback();
}
@Override
protected LoadStatus insert(CsvData data) {
try {
statistics.get(batch).startTimer(DataWriterStatisticConstants.DATABASEMILLIS);
if (requireNewStatement(DmlType.INSERT, data, false, true, null)) {
this.lastUseConflictDetection = true;
this.currentDmlStatement = platform.createDmlStatement(DmlType.INSERT, targetTable, writerSettings.getTextColumnExpression());
if (log.isDebugEnabled()) {
log.debug("Preparing dml: " + this.currentDmlStatement.getSql());
}
transaction.prepare(this.currentDmlStatement.getSql());
}
try {
Conflict conflict = writerSettings.pickConflict(this.targetTable, batch);
String[] values = (String[]) ArrayUtils.addAll(getRowData(data, CsvData.ROW_DATA),
this.currentDmlStatement.getLookupKeyData(getLookupDataMap(data, conflict)));
long count = execute(data, values);
statistics.get(batch).increment(DataWriterStatisticConstants.INSERTCOUNT, count);
if (count > 0) {
return LoadStatus.SUCCESS;
} else {
context.put(CUR_DATA,getCurData(transaction));
return LoadStatus.CONFLICT;
}
} catch (SqlException ex) {
if (platform.getSqlTemplate().isUniqueKeyViolation(ex)) {
if (!platform.getDatabaseInfo().isRequiresSavePointsInTransaction()) {
context.put(CONFLICT_ERROR, ex);
context.put(CUR_DATA,getCurData(transaction));
return LoadStatus.CONFLICT;
} else {
log.info("Detected a conflict via an exception, but cannot perform conflict resolution because the database in use requires savepoints");
throw ex;
}
} else {
throw ex;
}
}
} catch (SqlException ex) {
logFailureDetails(ex, data, true);
throw ex;
} finally {
statistics.get(batch).stopTimer(DataWriterStatisticConstants.DATABASEMILLIS);
}
}
@Override
protected LoadStatus delete(CsvData data, boolean useConflictDetection) {
try {
statistics.get(batch).startTimer(DataWriterStatisticConstants.DATABASEMILLIS);
Conflict conflict = writerSettings.pickConflict(this.targetTable, batch);
Map<String, String> lookupDataMap = null;
if (requireNewStatement(DmlType.DELETE, data, useConflictDetection, useConflictDetection,
conflict.getDetectType())) {
this.lastUseConflictDetection = useConflictDetection;
List<Column> lookupKeys = null;
if (!useConflictDetection) {
lookupKeys = targetTable.getPrimaryKeyColumnsAsList();
} else {
switch (conflict.getDetectType()) {
case USE_OLD_DATA:
lookupKeys = targetTable.getColumnsAsList();
break;
case USE_VERSION:
case USE_TIMESTAMP:
List<Column> lookupColumns = new ArrayList<Column>();
Column versionColumn = targetTable.getColumnWithName(conflict
.getDetectExpression());
if (versionColumn != null) {
lookupColumns.add(versionColumn);
} else {
log.error(
"Could not find the timestamp/version column with the name {}. Defaulting to using primary keys for the lookup.",
conflict.getDetectExpression());
}
Column[] pks = targetTable.getPrimaryKeyColumns();
for (Column column : pks) {
// make sure all of the PK keys are in the list
// only once and are always at the end of the
// list
lookupColumns.remove(column);
lookupColumns.add(column);
}
lookupKeys = lookupColumns;
break;
case USE_PK_DATA:
default:
lookupKeys = targetTable.getPrimaryKeyColumnsAsList();
break;
}
}
if (lookupKeys == null || lookupKeys.size() == 0) {
lookupKeys = targetTable.getColumnsAsList();
}
int lookupKeyCountBeforeColumnRemoval = lookupKeys.size();
Iterator<Column> it = lookupKeys.iterator();
while (it.hasNext()) {
Column col = it.next();
if ((platform.isLob(col.getMappedTypeCode()) && data.isNoBinaryOldData())
|| !platform.canColumnBeUsedInWhereClause(col)) {
it.remove();
}
}
if (lookupKeys.size() == 0) {
String msg = "There are no keys defined for "
+ targetTable.getFullyQualifiedTableName()
+ ". Cannot build an update statement. ";
if (lookupKeyCountBeforeColumnRemoval > 0) {
msg += "The only keys defined are binary and they have been removed.";
}
throw new IllegalStateException(msg);
}
lookupDataMap = getLookupDataMap(data, conflict);
boolean[] nullKeyValues = new boolean[lookupKeys.size()];
for (int i = 0; i < lookupKeys.size(); i++) {
Column column = lookupKeys.get(i);
nullKeyValues[i] = !column.isRequired()
&& lookupDataMap.get(column.getName()) == null;
}
this.currentDmlStatement = platform.createDmlStatement(DmlType.DELETE,
targetTable.getCatalog(), targetTable.getSchema(), targetTable.getName(),
lookupKeys.toArray(new Column[lookupKeys.size()]), null, nullKeyValues, writerSettings.getTextColumnExpression());
if (log.isDebugEnabled()) {
log.debug("Preparing dml: " + this.currentDmlStatement.getSql());
}
transaction.prepare(this.currentDmlStatement.getSql());
}
try {
lookupDataMap = lookupDataMap == null ? getLookupDataMap(data, conflict) : lookupDataMap;
long count = execute(data, this.currentDmlStatement.getLookupKeyData(lookupDataMap));
statistics.get(batch).increment(DataWriterStatisticConstants.DELETECOUNT, count);
if (count > 0) {
return LoadStatus.SUCCESS;
} else {
context.put(CUR_DATA,null); // since a delete conflicted, there's no row to delete, so no cur data.
return LoadStatus.CONFLICT;
}
} catch (SqlException ex) {
if (platform.getSqlTemplate().isUniqueKeyViolation(ex)
&& !platform.getDatabaseInfo().isRequiresSavePointsInTransaction()) {
context.put(CUR_DATA,null); // since a delete conflicted, there's no row to delete, so no cur data.
return LoadStatus.CONFLICT;
} else {
throw ex;
}
}
} catch (SqlException ex) {
logFailureDetails(ex, data, true);
throw ex;
} finally {
statistics.get(batch).stopTimer(DataWriterStatisticConstants.DATABASEMILLIS);
}
}
@Override
protected LoadStatus update(CsvData data, boolean applyChangesOnly, boolean useConflictDetection) {
try {
statistics.get(batch).startTimer(DataWriterStatisticConstants.DATABASEMILLIS);
String[] rowData = getRowData(data, CsvData.ROW_DATA);
String[] oldData = getRowData(data, CsvData.OLD_DATA);
ArrayList<String> changedColumnNameList = new ArrayList<String>();
ArrayList<String> changedColumnValueList = new ArrayList<String>();
ArrayList<Column> changedColumnsList = new ArrayList<Column>();
for (int i = 0; i < targetTable.getColumnCount(); i++) {
Column column = targetTable.getColumn(i);
if (column != null) {
if (doesColumnNeedUpdated(i, column, data, rowData, oldData, applyChangesOnly)) {
changedColumnNameList.add(column.getName());
changedColumnsList.add(column);
changedColumnValueList.add(rowData[i]);
}
}
}
if (changedColumnNameList.size() > 0) {
Map<String, String> lookupDataMap = null;
Conflict conflict = writerSettings.pickConflict(this.targetTable, batch);
if (requireNewStatement(DmlType.UPDATE, data, applyChangesOnly,
useConflictDetection, conflict.getDetectType())) {
lastApplyChangesOnly = applyChangesOnly;
lastUseConflictDetection = useConflictDetection;
List<Column> lookupKeys = null;
if (!useConflictDetection) {
lookupKeys = targetTable.getPrimaryKeyColumnsAsList();
} else {
switch (conflict.getDetectType()) {
case USE_CHANGED_DATA:
ArrayList<Column> lookupColumns = new ArrayList<Column>(
changedColumnsList);
Column[] pks = targetTable.getPrimaryKeyColumns();
for (Column column : pks) {
// make sure all of the PK keys are in the
// list only once and are always at the end
// of the list
lookupColumns.remove(column);
lookupColumns.add(column);
}
removeExcludedColumns(conflict, lookupColumns);
lookupKeys = lookupColumns;
break;
case USE_OLD_DATA:
lookupKeys = targetTable.getColumnsAsList();
break;
case USE_VERSION:
case USE_TIMESTAMP:
lookupColumns = new ArrayList<Column>();
Column versionColumn = targetTable.getColumnWithName(conflict
.getDetectExpression());
if (versionColumn != null) {
lookupColumns.add(versionColumn);
} else {
log.error(
"Could not find the timestamp/version column with the name {}. Defaulting to using primary keys for the lookup.",
conflict.getDetectExpression());
}
pks = targetTable.getPrimaryKeyColumns();
for (Column column : pks) {
// make sure all of the PK keys are in the
// list only once and are always at the end
// of the list
lookupColumns.remove(column);
lookupColumns.add(column);
}
lookupKeys = lookupColumns;
break;
case USE_PK_DATA:
default:
lookupKeys = targetTable.getPrimaryKeyColumnsAsList();
break;
}
}
if (lookupKeys == null || lookupKeys.size() == 0) {
lookupKeys = targetTable.getColumnsAsList();
}
int lookupKeyCountBeforeColumnRemoval = lookupKeys.size();
Iterator<Column> it = lookupKeys.iterator();
while (it.hasNext()) {
Column col = it.next();
if ((platform.isLob(col.getMappedTypeCode()) && data.isNoBinaryOldData())
|| !platform.canColumnBeUsedInWhereClause(col)) {
it.remove();
}
}
if (lookupKeys.size() == 0) {
String msg = "There are no keys defined for "
+ targetTable.getFullyQualifiedTableName()
+ ". Cannot build an update statement. ";
if (lookupKeyCountBeforeColumnRemoval > 0) {
msg += "The only keys defined are binary and they have been removed.";
}
throw new IllegalStateException(msg);
}
lookupDataMap = getLookupDataMap(data, conflict);
boolean[] nullKeyValues = new boolean[lookupKeys.size()];
for (int i = 0; i < lookupKeys.size(); i++) {
Column column = lookupKeys.get(i);
// the isRequired is a bit of a hack. This nullKeyValues
// should really be checking against the object values
// because some null values get translated into empty
// strings
nullKeyValues[i] = !column.isRequired()
&& lookupDataMap.get(column.getName()) == null;
}
this.currentDmlStatement = platform.createDmlStatement(DmlType.UPDATE,
targetTable.getCatalog(), targetTable.getSchema(),
targetTable.getName(),
lookupKeys.toArray(new Column[lookupKeys.size()]),
changedColumnsList.toArray(new Column[changedColumnsList.size()]),
nullKeyValues, writerSettings.getTextColumnExpression());
if (log.isDebugEnabled()) {
log.debug("Preparing dml: " + this.currentDmlStatement.getSql());
}
transaction.prepare(this.currentDmlStatement.getSql());
}
rowData = (String[]) changedColumnValueList
.toArray(new String[changedColumnValueList.size()]);
lookupDataMap = lookupDataMap == null ? getLookupDataMap(data, conflict) : lookupDataMap;
String[] values = (String[]) ArrayUtils.addAll(rowData,
this.currentDmlStatement.getLookupKeyData(lookupDataMap));
try {
long count = execute(data, values);
statistics.get(batch)
.increment(DataWriterStatisticConstants.UPDATECOUNT, count);
if (count > 0) {
return LoadStatus.SUCCESS;
} else {
context.put(CUR_DATA,getCurData(transaction));
return LoadStatus.CONFLICT;
}
} catch (SqlException ex) {
if (platform.getSqlTemplate().isUniqueKeyViolation(ex)
&& !platform.getDatabaseInfo().isRequiresSavePointsInTransaction()) {
context.put(CUR_DATA,getCurData(transaction));
return LoadStatus.CONFLICT;
} else {
throw ex;
}
}
} else {
if (log.isDebugEnabled()) {
log.debug("Not running update for table {} with pk of {}. There was no change to apply",
targetTable.getFullyQualifiedTableName(), data.getCsvData(CsvData.PK_DATA));
}
// There was no change to apply
return LoadStatus.SUCCESS;
}
} catch (SqlException ex) {
logFailureDetails(ex, data, true);
throw ex;
} finally {
statistics.get(batch).stopTimer(DataWriterStatisticConstants.DATABASEMILLIS);
}
}
@Override
protected boolean create(CsvData data) {
String xml = null;
try {
transaction.commit();
statistics.get(batch).startTimer(DataWriterStatisticConstants.DATABASEMILLIS);
xml = data.getParsedData(CsvData.ROW_DATA)[0];
log.info("About to create table using the following definition: {}", xml);
StringReader reader = new StringReader(xml);
Database db = DatabaseXmlUtil.read(reader, false);
if (writerSettings.isCreateTableAlterCaseToMatchDatabaseDefault()) {
platform.alterCaseToMatchDatabaseDefaultCase(db);
}
platform.makePlatformSpecific(db);
if (writerSettings.isAlterTable()) {
platform.alterDatabase(db, !writerSettings.isCreateTableFailOnError());
} else {
platform.createDatabase(db, writerSettings.isCreateTableDropFirst(), !writerSettings.isCreateTableFailOnError());
}
platform.resetCachedTableModel();
statistics.get(batch).increment(DataWriterStatisticConstants.CREATECOUNT);
return true;
} catch (RuntimeException ex) {
log.error("Failed to alter table using the following xml: {}", xml);
throw ex;
} finally {
statistics.get(batch).stopTimer(DataWriterStatisticConstants.DATABASEMILLIS);
}
}
@Override
protected boolean sql(CsvData data) {
try {
statistics.get(batch).startTimer(DataWriterStatisticConstants.DATABASEMILLIS);
String script = data.getParsedData(CsvData.ROW_DATA)[0];
List<String> sqlStatements = getSqlStatements(script);
long count = 0;
for (String sql : sqlStatements) {
sql = preprocessSqlStatement(sql);
transaction.prepare(sql);
if (log.isDebugEnabled()) {
log.debug("About to run: {}", sql);
}
count += transaction.prepareAndExecute(sql);
if (log.isDebugEnabled()) {
log.debug("{} rows updated when running: {}", count, sql);
}
}
statistics.get(batch).increment(DataWriterStatisticConstants.SQLCOUNT);
statistics.get(batch).increment(DataWriterStatisticConstants.SQLROWSAFFECTEDCOUNT,
count);
return true;
} finally {
statistics.get(batch).stopTimer(DataWriterStatisticConstants.DATABASEMILLIS);
}
}
protected boolean requireNewStatement(DmlType currentType, CsvData data,
boolean applyChangesOnly, boolean useConflictDetection,
Conflict.DetectConflict detectType) {
boolean requiresNew = currentDmlStatement == null || lastData == null
|| currentDmlStatement.getDmlType() != currentType
|| lastData.getDataEventType() != data.getDataEventType()
|| lastApplyChangesOnly != applyChangesOnly
|| lastUseConflictDetection != useConflictDetection;
if (!requiresNew && currentType == DmlType.UPDATE) {
String currentChanges = Arrays.toString(data.getChangedDataIndicators());
String lastChanges = Arrays.toString(lastData.getChangedDataIndicators());
requiresNew = !currentChanges.equals(lastChanges);
}
if (!requiresNew) {
requiresNew |= containsNullLookupKeyDataSinceLastStatement(currentType, data,
detectType);
}
return requiresNew;
}
protected boolean containsNullLookupKeyDataSinceLastStatement(DmlType currentType,
CsvData data, DetectConflict detectType) {
boolean foundNullValueChange = false;
if (currentType == DmlType.UPDATE || currentType == DmlType.DELETE) {
if (detectType != null
&& (detectType == DetectConflict.USE_CHANGED_DATA || detectType == DetectConflict.USE_OLD_DATA)) {
String[] lastOldData = lastData.getParsedData(CsvData.OLD_DATA);
String[] newOldData = data.getParsedData(CsvData.OLD_DATA);
if (lastOldData != null && newOldData != null) {
for (int i = 0; i < lastOldData.length && i < newOldData.length; i++) {
String lastValue = lastOldData[i];
String value = newOldData[i];
if ((lastValue != null && value == null)
|| (value != null && lastValue == null)) {
foundNullValueChange = true;
}
}
}
} else {
String[] lastpkData = lastData.getParsedData(CsvData.PK_DATA);
String[] newpkData = data.getParsedData(CsvData.PK_DATA);
if (lastpkData != null && newpkData != null) {
for (int i = 0; i < lastpkData.length && i < newpkData.length; i++) {
String lastValue = lastpkData[i];
String value = newpkData[i];
if ((lastValue != null && value == null)
|| (value != null && lastValue == null)) {
foundNullValueChange = true;
}
}
}
}
}
return foundNullValueChange;
}
@Override
protected void targetTableWasChangedByFilter(Table oldTargetTable) {
// allow for auto increment columns to be inserted into if appropriate
if (oldTargetTable!=null) {
allowInsertIntoAutoIncrementColumns(false, oldTargetTable);
}
allowInsertIntoAutoIncrementColumns(true, targetTable);
}
private void removeExcludedColumns(Conflict conflict,
ArrayList<Column> lookupColumns) {
String excludedString = conflict.getDetectExpressionValue(
DetectExpressionKey.EXCLUDED_COLUMN_NAMES);
if (!StringUtils.isBlank(excludedString)) {
String excludedColumns[] = excludedString.split(",");
if (excludedColumns.length > 0) {
Iterator<Column> iter = lookupColumns.iterator();
while (iter.hasNext()) {
Column column = iter.next();
for (String excludedColumn : excludedColumns) {
if (excludedColumn.trim().equalsIgnoreCase(column.getName())) {
iter.remove();
break;
}
}
}
}
}
}
@Override
protected void logFailureDetails(Throwable e, CsvData data, boolean logLastDmlDetails) {
StringBuilder failureMessage = new StringBuilder();
failureMessage.append("Failed to process a ");
failureMessage.append(data.getDataEventType().toString().toLowerCase());
failureMessage.append(" event in batch ");
failureMessage.append(batch.getBatchId());
failureMessage.append(".\n");
if (logLastDmlDetails && this.currentDmlStatement != null) {
failureMessage.append("Failed sql was: ");
failureMessage.append(this.currentDmlStatement.getSql());
failureMessage.append("\n");
}
if (logLastDmlDetails && this.currentDmlValues != null) {
failureMessage.append("Failed sql parameters: ");
failureMessage.append(StringUtils.abbreviate(Arrays.toString(currentDmlValues), CsvData.MAX_DATA_SIZE_TO_PRINT_TO_LOG));
failureMessage.append("\n");
failureMessage.append("Failed sql parameters types: ");
failureMessage.append(Arrays.toString(this.currentDmlStatement.getTypes()));
failureMessage.append("\n");
}
data.writeCsvDataDetails(failureMessage);
log.info(failureMessage.toString(), e);
}
@Override
protected void bindVariables(Map<String, Object> variables) {
super.bindVariables(variables);
ISqlTemplate template = platform.getSqlTemplate();
Class<?> templateClass = template.getClass();
if (templateClass.getSimpleName().equals("JdbcSqlTemplate")) {
try {
Method method = templateClass.getMethod("getDataSource");
variables.put("DATASOURCE", method.invoke(template));
} catch (Exception e) {
log.warn("Had trouble looking up the datasource used by the sql template", e);
}
}
}
protected List<String> getSqlStatements(String script) {
List<String> sqlStatements = new ArrayList<String>();
SqlScriptReader scriptReader = new SqlScriptReader(new StringReader(script));
try {
String sql = scriptReader.readSqlStatement();
while (sql != null) {
sqlStatements.add(sql);
sql = scriptReader.readSqlStatement();
}
return sqlStatements;
} finally {
IOUtils.closeQuietly(scriptReader);
}
}
protected String preprocessSqlStatement(String sql) {
sql = FormatUtils.replace("nodeId", batch.getTargetNodeId(), sql);
if (targetTable != null) {
sql = FormatUtils.replace("catalogName", quoteString(targetTable.getCatalog()),sql);
sql = FormatUtils.replace("schemaName", quoteString(targetTable.getSchema()), sql);
sql = FormatUtils.replace("tableName", quoteString(targetTable.getName()), sql);
} else if (sourceTable != null){
sql = FormatUtils.replace("catalogName", quoteString(sourceTable.getCatalog()),sql);
sql = FormatUtils.replace("schemaName", quoteString(sourceTable.getSchema()), sql);
sql = FormatUtils.replace("tableName", quoteString(sourceTable.getName()), sql);
}
sql = platform.scrubSql(sql);
sql = FormatUtils.replace("sourceNodeId", (String) context.get("sourceNodeId"), sql);
sql = FormatUtils.replace("sourceNodeExternalId",
(String) context.get("sourceNodeExternalId"), sql);
sql = FormatUtils.replace("sourceNodeGroupId", (String) context.get("sourceNodeGroupId"),
sql);
sql = FormatUtils.replace("targetNodeId", (String) context.get("targetNodeId"), sql);
sql = FormatUtils.replace("targetNodeExternalId",
(String) context.get("targetNodeExternalId"), sql);
sql = FormatUtils.replace("targetNodeGroupId", (String) context.get("targetNodeGroupId"),
sql);
return sql;
}
protected String quoteString(String string) {
if (!StringUtils.isEmpty(string)) {
String quote = platform.getDdlBuilder().isDelimitedIdentifierModeOn() ? platform
.getDatabaseInfo().getDelimiterToken() : "";
return String.format("%s%s%s", quote, string, quote);
} else {
return string;
}
}
protected boolean doesColumnNeedUpdated(int targetColumnIndex, Column column, CsvData data, String[] rowData, String[] oldData,
boolean applyChangesOnly) {
boolean needsUpdated = true;
if (!platform.getDatabaseInfo().isAutoIncrementUpdateAllowed() && column.isAutoIncrement()) {
needsUpdated = false;
} else if (oldData != null && applyChangesOnly) {
/*
* Old data isn't captured for some lob fields. When both values are
* null, then we always have to update because we don't know if the
* lob field was previously null.
*/
boolean containsEmptyLobColumn = platform.isLob(column.getMappedTypeCode())
&& StringUtils.isBlank(oldData[targetColumnIndex]);
needsUpdated = !StringUtils.equals(rowData[targetColumnIndex], oldData[targetColumnIndex])
|| data.getParsedData(CsvData.OLD_DATA) == null
|| containsEmptyLobColumn;
if (containsEmptyLobColumn) {
// indicate that we are considering the column to be changed
data.getChangedDataIndicators()[sourceTable.getColumnIndex(column.getName())] = true;
}
} else {
/*
* This is in support of creating update statements that don't use
* the keys in the set portion of the update statement. </p> In
* oracle (and maybe not only in oracle) if there is no index on
* child table on FK column and update is performing on PK on master
* table, table lock is acquired on child table. Table lock is taken
* not in exclusive mode, but lock contentions is possible.
*/
needsUpdated = !column.isPrimaryKey()
|| !StringUtils.equals(rowData[targetColumnIndex], getPkDataFor(data, column));
/*
* A primary key change isn't indicated in the change data indicators when there is no old
* data. Need to update it manually in that case.
*/
data.getChangedDataIndicators()[sourceTable.getColumnIndex(column.getName())] = needsUpdated;
}
return needsUpdated;
}
protected int execute(CsvData data, String[] values) {
currentDmlValues = platform.getObjectValues(batch.getBinaryEncoding(), values,
currentDmlStatement.getMetaData(), false, writerSettings.isFitToColumn());
if (log.isDebugEnabled()) {
log.debug("Submitting data {} with types {}", Arrays.toString(currentDmlValues),
Arrays.toString(this.currentDmlStatement.getTypes()));
}
return transaction.addRow(data, currentDmlValues, this.currentDmlStatement.getTypes());
}
@Override
protected Table lookupTableAtTarget(Table sourceTable) {
String tableNameKey = sourceTable.getTableKey();
Table table = targetTables.get(tableNameKey);
if (table == null) {
table = platform.getTableFromCache(sourceTable.getCatalog(), sourceTable.getSchema(),
sourceTable.getName(), false);
if (table != null) {
table = table.copyAndFilterColumns(sourceTable.getColumnNames(),
sourceTable.getPrimaryKeyColumnNames(),
this.writerSettings.isUsePrimaryKeysFromSource());
Column[] columns = table.getColumns();
for (Column column : columns) {
if (column != null) {
int typeCode = column.getMappedTypeCode();
if (this.writerSettings.isTreatDateTimeFieldsAsVarchar()
&& (typeCode == Types.DATE || typeCode == Types.TIME || typeCode == Types.TIMESTAMP)) {
column.setMappedTypeCode(Types.VARCHAR);
}
}
}
targetTables.put(tableNameKey, table);
}
}
return table;
}
public DmlStatement getCurrentDmlStatement() {
return currentDmlStatement;
}
public ISqlTransaction getTransaction() {
return transaction;
}
public IDatabasePlatform getPlatform() {
return platform;
}
public DatabaseWriterSettings getWriterSettings() {
return writerSettings;
}
protected String getCurData(ISqlTransaction transaction) {
String curVal = null;
if (writerSettings.isSaveCurrentValueOnError()) {
String[] keyNames = Table.getArrayColumns(context.getTable().getPrimaryKeyColumns());
String[] columnNames = Table.getArrayColumns(context.getTable().getColumns());
org.jumpmind.db.model.Table targetTable = platform.getTableFromCache(
context.getTable().getCatalog(), context.getTable().getSchema(),
context.getTable().getName(), false);
targetTable = targetTable.copyAndFilterColumns(columnNames, keyNames, true);
String[] data = context.getData().getParsedData(CsvData.OLD_DATA);
if (data == null) {
data = context.getData().getParsedData(CsvData.ROW_DATA);
}
Column[] columns = targetTable.getColumns();
Object[] objectValues = platform.getObjectValues(context.getBatch().getBinaryEncoding(), data,
columns);
Map<String, Object> columnDataMap = CollectionUtils
.toMap(columnNames, objectValues);
Column[] pkColumns = targetTable.getPrimaryKeyColumns();
Object[] args = new Object[pkColumns.length];
for (int i = 0; i < pkColumns.length; i++) {
args[i] = columnDataMap.get(pkColumns[i].getName());
}
DmlStatement sqlStatement = platform
.createDmlStatement(DmlType.SELECT, targetTable, writerSettings.getTextColumnExpression());
Row row = null;
List<Row> list = transaction.query(sqlStatement.getSql(),
new ISqlRowMapper<Row>() {
public Row mapRow(Row row) {
return row;
}
}
, args, null);
if (list != null && list.size() > 0) {
row=list.get(0);
}
if (row != null) {
String[] existData = platform.getStringValues(context.getBatch().getBinaryEncoding(),
columns, row, false, false);
if (existData != null) {
curVal = CsvUtils.escapeCsvData(existData);
}
}
}
return curVal;
}
@Override
protected void allowInsertIntoAutoIncrementColumns(boolean value, Table table) {
DatabaseInfo dbInfo = platform.getDatabaseInfo();
String quote = dbInfo.getDelimiterToken();
String catalogSeparator = dbInfo.getCatalogSeparator();
String schemaSeparator = dbInfo.getSchemaSeparator();
transaction.allowInsertIntoAutoIncrementColumns(value, table, quote, catalogSeparator, schemaSeparator);
}
}