/*
* Copyright (c) 2013, OpenCloudDB/MyCAT and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software;Designed and Developed mainly by many Chinese
* opensource volunteers. you can redistribute it and/or modify it under the
* terms of the GNU General Public License version 2 only, as published by the
* Free Software Foundation.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Any questions about this component can be directed to it's project Web address
* https://code.google.com/p/opencloudb/.
*
*/
package org.opencloudb.mpp;
import java.sql.SQLSyntaxErrorException;
import java.util.HashMap;
import java.util.LinkedHashMap;
import java.util.Map;
import java.util.Set;
import org.apache.log4j.Logger;
import org.opencloudb.route.RouteResultset;
import com.foundationdb.sql.StandardException;
import com.foundationdb.sql.parser.AggregateNode;
import com.foundationdb.sql.parser.AndNode;
import com.foundationdb.sql.parser.BetweenOperatorNode;
import com.foundationdb.sql.parser.BinaryOperatorNode;
import com.foundationdb.sql.parser.BinaryRelationalOperatorNode;
import com.foundationdb.sql.parser.ColumnReference;
import com.foundationdb.sql.parser.ConstantNode;
import com.foundationdb.sql.parser.CursorNode;
import com.foundationdb.sql.parser.FromBaseTable;
import com.foundationdb.sql.parser.FromList;
import com.foundationdb.sql.parser.FromSubquery;
import com.foundationdb.sql.parser.FromTable;
import com.foundationdb.sql.parser.GroupByList;
import com.foundationdb.sql.parser.InListOperatorNode;
import com.foundationdb.sql.parser.JoinNode;
import com.foundationdb.sql.parser.NodeTypes;
import com.foundationdb.sql.parser.NumericConstantNode;
import com.foundationdb.sql.parser.OrNode;
import com.foundationdb.sql.parser.OrderByColumn;
import com.foundationdb.sql.parser.OrderByList;
import com.foundationdb.sql.parser.QueryTreeNode;
import com.foundationdb.sql.parser.ResultColumn;
import com.foundationdb.sql.parser.ResultColumnList;
import com.foundationdb.sql.parser.ResultSetNode;
import com.foundationdb.sql.parser.RowConstructorNode;
import com.foundationdb.sql.parser.SelectNode;
import com.foundationdb.sql.parser.SubqueryNode;
import com.foundationdb.sql.parser.UnaryLogicalOperatorNode;
import com.foundationdb.sql.parser.UnionNode;
import com.foundationdb.sql.parser.ValueNode;
import com.foundationdb.sql.parser.ValueNodeList;
import com.foundationdb.sql.unparser.NodeToString;
public class SelectSQLAnalyser {
private static final Logger LOGGER = Logger
.getLogger(SelectSQLAnalyser.class);
private static String andTableName(SelectParseInf parsInf,
FromBaseTable fromTable) throws StandardException {
String tableName = fromTable.getOrigTableName().getTableName();
String aliasName = fromTable.getTableName().getTableName();
if ((aliasName != null) && !aliasName.equals(tableName)) {// store alias
// ->real
// name
// relation
parsInf.ctx.tableAliasMap.put(aliasName, tableName.toUpperCase());
}
tableName = tableName.toUpperCase();
Map<String, Set<ColumnRoutePair>> columVarMap = parsInf.ctx.tablesAndConditions
.get(tableName);
if (columVarMap == null) {
columVarMap = new LinkedHashMap<String, Set<ColumnRoutePair>>();
parsInf.ctx.tablesAndConditions.put(tableName, columVarMap);
}
return tableName;
}
public static String addLimitCondtionForSelectSQL(RouteResultset rrs,
CursorNode cursNode, int defaultMaxLimit) throws SQLSyntaxErrorException {
NumericConstantNode offCountNode = new NumericConstantNode();
offCountNode.setNodeType(NodeTypes.INT_CONSTANT_NODE);
offCountNode.setValue(defaultMaxLimit);
cursNode.init(cursNode.statementToString(),
cursNode.getResultSetNode(), cursNode.getName(),
cursNode.getOrderByList(), cursNode.getOffsetClause(),
offCountNode, cursNode.getUpdateMode(),
cursNode.getUpdatableColumns());
rrs.setLimitSize(defaultMaxLimit);
try {
return new NodeToString().toString(cursNode);
} catch (StandardException e) {
throw new SQLSyntaxErrorException(e);
}
}
/**
* anlayse group ,order ,limit condtions
*
* @param rrs
* @param ast
* @throws StandardException
* @throws SQLSyntaxErrorException
*/
public static String analyseMergeInf(RouteResultset rrs, QueryTreeNode ast,
boolean modifySQLLimit, int defaultMaxLimit)
throws SQLSyntaxErrorException {
CursorNode rsNode = (CursorNode) ast;
NumericConstantNode offsetNode = null;
NumericConstantNode offCountNode = null;
ResultSetNode resultNode = rsNode.getResultSetNode();
if (resultNode instanceof SelectNode) {
Map<String, Integer> aggrColumns = new HashMap<String, Integer>();
boolean hasAggrColumn = false;
SelectNode selNode = (SelectNode) resultNode;
ResultColumnList colums = selNode.getResultColumns();
for (int i = 0; i < colums.size(); i++) {
ResultColumn col = colums.get(i);
ValueNode exp = col.getExpression();
if (exp instanceof AggregateNode) {
hasAggrColumn = true;
String colName = col.getName();
String aggName = ((AggregateNode) exp).getAggregateName();
if (colName != null) {
aggrColumns
.put(colName, MergeCol.getMergeType(aggName));
}
}
}
if (!aggrColumns.isEmpty()) {
rrs.setMergeCols(aggrColumns);
}
if (hasAggrColumn) {
rrs.setHasAggrColumn(true);
}
GroupByList groupL = selNode.getGroupByList();
if (groupL != null && !groupL.isEmpty()) {
String[] groupCols = new String[groupL.size()];
for (int i = 0; i < groupCols.length; i++) {
groupCols[i] = groupL.get(i).getColumnName();
}
rrs.setGroupByCols(groupCols);
}
}
OrderByList orderBy = rsNode.getOrderByList();
if (orderBy != null && !orderBy.isEmpty()) {
// get column and alias map
Map<String, ResultColumn> nameToColumn = new HashMap<String, ResultColumn>();
ResultColumnList colums = ((SelectNode) resultNode)
.getResultColumns();
for (int j = 0; j < colums.size(); j++) {
ResultColumn col = colums.get(j);
ValueNode exp = col.getExpression();
if (exp != null) {
nameToColumn.put(exp.getColumnName(), col);
}
}
LinkedHashMap<String, Integer> orderCols = new LinkedHashMap<String, Integer>();
for (int i = 0; i < orderBy.size(); i++) {
OrderByColumn orderCol = orderBy.get(i);
ValueNode orderExp = orderCol.getExpression();
if (!(orderExp instanceof ColumnReference)) {
throw new SQLSyntaxErrorException(
" aggregated column should has a alias in order to be used in order by clause");
}
String columnName = orderExp.getColumnName();
ResultColumn rc = nameToColumn.get(orderExp.getColumnName());
if (rc != null) {
columnName = rc.getName();
}
orderCols.put(columnName,
orderCol.isAscending() ? OrderCol.COL_ORDER_TYPE_ASC
: OrderCol.COL_ORDER_TYPE_DESC);
}
rrs.setOrderByCols(orderCols);
}
if (rsNode.getOffsetClause() != null) {
offsetNode = (NumericConstantNode) rsNode.getOffsetClause();
rrs.setLimitStart(Integer
.parseInt(offsetNode.getValue().toString()));
}
if (rsNode.getFetchFirstClause() != null) {
offCountNode = (NumericConstantNode) rsNode.getFetchFirstClause();
rrs.setLimitSize(Integer.parseInt(offCountNode.getValue()
.toString()));
}
// if no limit in sql and defaultMaxLimit not equals -1 ,then and limit
if ((modifySQLLimit) && (offCountNode == null)
&& (defaultMaxLimit != -1)&& !rrs.hasPrimaryKeyToCache()) {
return addLimitCondtionForSelectSQL(rrs, rsNode, defaultMaxLimit);
} else if (modifySQLLimit && offsetNode != null) {
offsetNode.setValue(0);
offCountNode.setValue(rrs.getLimitStart() + rrs.getLimitSize());
try {
return new NodeToString().toString(ast);
} catch (StandardException e) {
throw new SQLSyntaxErrorException(e);
}
} else {
return null;
}
}
public static void analyse(SelectParseInf parsInf, QueryTreeNode ast)
throws SQLSyntaxErrorException {
try {
analyseSQL(parsInf, ast, false);
} catch (StandardException e) {
throw new SQLSyntaxErrorException(e);
}
}
private static void addTableName(FromSubquery theSub, SelectParseInf parsInf)
throws StandardException {
FromList fromList = ((SelectNode) theSub.getSubquery()).getFromList();
if (fromList.size() == 1) {
FromTable fromT = fromList.get(0);
if (fromT instanceof FromBaseTable) {
FromBaseTable baseT = ((FromBaseTable) fromT);
String tableName = baseT.getOrigTableName().getTableName();
String corrName = theSub.getCorrelationName();
if (corrName != null) {
andTableName(parsInf, baseT);
parsInf.ctx.tableAliasMap.put(corrName,
tableName.toUpperCase());
}
}
}
}
private static void analyseSQL(SelectParseInf parsInf, QueryTreeNode ast,
boolean notOpt) throws StandardException {
SelectNode selNode = null;
switch (ast.getNodeType()) {
case NodeTypes.CURSOR_NODE: {
ResultSetNode rsNode = ((CursorNode) ast).getResultSetNode();
if (rsNode instanceof UnionNode) {
UnionNode unionNode = (UnionNode) rsNode;
analyseSQL(parsInf, unionNode.getLeftResultSet(), notOpt);
analyseSQL(parsInf, unionNode.getRightResultSet(), notOpt);
return;
} else if (!(rsNode instanceof SelectNode)) {
LOGGER.info("ignore not select node "
+ rsNode.getClass().getCanonicalName());
return;
}
selNode = (SelectNode) rsNode;
break;
}
case NodeTypes.SELECT_NODE: {
selNode = (SelectNode) ast;
break;
}
case NodeTypes.SUBQUERY_NODE: {
SubqueryNode subq = (SubqueryNode) ast;
selNode = (SelectNode) subq.getResultSet();
break;
}
case NodeTypes.FROM_SUBQUERY: {
FromSubquery subq = (FromSubquery) ast;
selNode = (SelectNode) subq.getSubquery();
break;
}
case NodeTypes.UNION_NODE: {
UnionNode unionNode = (UnionNode) ast;
analyseSQL(parsInf, unionNode.getLeftResultSet(), notOpt);
analyseSQL(parsInf, unionNode.getRightResultSet(), notOpt);
return;
}
default: {
LOGGER.info("todo :not select node "
+ ast.getClass().getCanonicalName());
return;
}
}
FromList fromList = selNode.getFromList();
int formSize = fromList.size();
String defaultTableName = null;
if (formSize == 1) {
FromTable fromT = fromList.get(0);
if (fromT instanceof FromBaseTable) {
FromBaseTable baseT = ((FromBaseTable) fromT);
defaultTableName = baseT.getOrigTableName().getTableName();
} else if (fromT instanceof JoinNode) {
ResultSetNode leftNode = ((JoinNode) fromT).getLeftResultSet();
if (leftNode instanceof FromBaseTable) {
defaultTableName = ((FromBaseTable) leftNode)
.getOrigTableName().getTableName();
}
}
} else if (formSize > 1) {
FromTable fromT = fromList.get(0);
if (fromT instanceof FromBaseTable) {
FromBaseTable baseT = ((FromBaseTable) fromT);
defaultTableName = baseT.getOrigTableName().getTableName();
}
}
for (int i = 0; i < formSize; i++) {
FromTable fromT = fromList.get(i);
if (fromT instanceof FromBaseTable) {
andTableName(parsInf, (FromBaseTable) fromT);
} else if (fromT instanceof JoinNode) {
anlyseJoinNode(parsInf, notOpt, (JoinNode) fromT);
} else if (fromT instanceof FromSubquery) {
analyseSQL(parsInf, ((FromSubquery) fromT).getSubquery(),
notOpt);
} else {
if (LOGGER.isDebugEnabled()) {
LOGGER.debug("todo parse" + fromT.getClass().toString());
}
}
}
ValueNode valueNode = selNode.getWhereClause();
if (valueNode == null) {
return;
}
analyseWhereCondition(parsInf, notOpt, defaultTableName, valueNode);
}
private static void anlyseJoinNode(SelectParseInf parsInf, boolean notOpt,
JoinNode joinNd) throws StandardException {
// FromSubquery
ResultSetNode leftNode = joinNd.getLeftResultSet();
if (leftNode instanceof FromSubquery) {
FromSubquery theSub = (FromSubquery) leftNode;
addTableName(theSub, parsInf);
analyseSQL(parsInf, theSub, notOpt);
} else if (leftNode instanceof FromBaseTable) {
andTableName(parsInf, (FromBaseTable) leftNode);
} else if (leftNode instanceof JoinNode) {
anlyseJoinNode(parsInf, notOpt, (JoinNode) leftNode);
}
ResultSetNode rightNode = joinNd.getRightResultSet();
if (rightNode instanceof FromSubquery) {
FromSubquery theSub = (FromSubquery) rightNode;
addTableName(theSub, parsInf);
analyseSQL(parsInf, theSub, notOpt);
} else {
andTableName(parsInf, (FromBaseTable) rightNode);
}
BinaryOperatorNode joinClause = (BinaryOperatorNode) joinNd
.getJoinClause();
if (joinClause instanceof BinaryRelationalOperatorNode) {
BinaryRelationalOperatorNode joinOpt = (BinaryRelationalOperatorNode) joinClause;
addTableJoinInf(parsInf.ctx,
(ColumnReference) joinOpt.getLeftOperand(),
(ColumnReference) joinOpt.getRightOperand());
} else if (joinClause instanceof AndNode
|| joinClause instanceof OrNode) {
BinaryRelationalOperatorNode joinOpt = (BinaryRelationalOperatorNode) joinClause
.getLeftOperand();
joinClause.getLeftOperand();
addTableJoinInf(parsInf.ctx,
(ColumnReference) joinOpt.getLeftOperand(),
(ColumnReference) joinOpt.getRightOperand());
} else {
throw new StandardException("can't get join info "
+ joinNd.toString());
}
}
public static void analyseWhereCondition(SelectParseInf parsInf,
boolean notOpt, String defaultTableName, ValueNode valueNode)
throws StandardException {
// valueNode.treePrint();
if (valueNode instanceof BinaryOperatorNode) {
BinaryOperatorNode binRelNode = (BinaryOperatorNode) valueNode;
ValueNode leftOp = binRelNode.getLeftOperand();
ValueNode wrightOp = binRelNode.getRightOperand();
tryColumnCondition(parsInf, defaultTableName,
binRelNode.getMethodName(), leftOp, wrightOp, notOpt);
} else if (valueNode instanceof SubqueryNode) {
analyseSQL(parsInf, valueNode, notOpt);
} else if (valueNode instanceof UnaryLogicalOperatorNode) {
UnaryLogicalOperatorNode logicNode = (UnaryLogicalOperatorNode) valueNode;
boolean theNotOpt = logicNode.getOperator().equals("not") | notOpt;
analyseWhereCondition(parsInf, theNotOpt, defaultTableName,
logicNode.getOperand());
} else if (valueNode instanceof InListOperatorNode) {
if (notOpt) {
return;
}
InListOperatorNode theOpNode = (InListOperatorNode) valueNode;
parseIncondition(defaultTableName, theOpNode, parsInf.ctx);
// addConstCondition(theOpNode.getLeftOperand().getNodeList().get(0),
// theOpNode.getRightOperandList(), "IN", ctx,
// defaultTableName, notOpt);
} else if (valueNode instanceof BetweenOperatorNode) {
// where条件仅有一个between
analyseBetween((BetweenOperatorNode) valueNode, defaultTableName,
parsInf.ctx);
} else {
if (LOGGER.isDebugEnabled()) {
LOGGER.debug("todo parse where cond\r\n "
+ valueNode.getClass().getCanonicalName());
}
// valueNode.treePrint();
}
}
// 分析between操作符
private static void analyseBetween(BetweenOperatorNode valueNode,
String defaultTableName, ShardingParseInfo ctx) {
String columnName = valueNode.getLeftOperand().getColumnName();
if (columnName != null) {
String beginValue = String.valueOf(((ConstantNode) valueNode
.getRightOperandList().get(0)).getValue());
String endValue = String.valueOf(((ConstantNode) valueNode
.getRightOperandList().get(1)).getValue());
RangeValue rv = new RangeValue(beginValue, endValue, RangeValue.EE);
ctx.addShardingExpr(defaultTableName.toUpperCase(), columnName, rv);
}
}
private static void tryColumnCondition(SelectParseInf parsInf,
String defaultTableName, String methodName, ValueNode leftOp,
ValueNode wrightOp, boolean notOpt) throws StandardException {
// 简单的 column=aaa的情况
if (leftOp instanceof ColumnReference) {
addConstCondition(leftOp, wrightOp, methodName, parsInf,
defaultTableName, notOpt);
return;
} else if (wrightOp instanceof ColumnReference) {
addConstCondition(wrightOp, leftOp, methodName, parsInf,
defaultTableName, notOpt);
return;
}
// 左边 为(a=b) ,(a>b)
if (leftOp instanceof BinaryOperatorNode) {
BinaryOperatorNode theOptNode = (BinaryOperatorNode) leftOp;
tryColumnCondition(parsInf, defaultTableName,
theOptNode.getMethodName(), theOptNode.getLeftOperand(),
theOptNode.getRightOperand(), notOpt);
} else if (leftOp instanceof InListOperatorNode) {
InListOperatorNode theOpNode = (InListOperatorNode) leftOp;
addConstCondition(theOpNode.getLeftOperand().getNodeList().get(0),
theOpNode.getRightOperandList(), "IN", parsInf,
defaultTableName, notOpt);
} else if (leftOp instanceof BetweenOperatorNode) {
BetweenOperatorNode op = (BetweenOperatorNode) leftOp;
analyseBetween(op, defaultTableName, parsInf.ctx);
}
// 右边 为(a=b) ,(a>b)
if (wrightOp instanceof BinaryOperatorNode) {
BinaryOperatorNode theOptNode = (BinaryOperatorNode) wrightOp;
tryColumnCondition(parsInf, defaultTableName,
theOptNode.getMethodName(), theOptNode.getLeftOperand(),
theOptNode.getRightOperand(), notOpt);
} else if (wrightOp instanceof InListOperatorNode) {
InListOperatorNode theOpNode = (InListOperatorNode) wrightOp;
addConstCondition(theOpNode.getLeftOperand().getNodeList().get(0),
theOpNode.getRightOperandList(), "IN", parsInf,
defaultTableName, notOpt);
} else if (wrightOp instanceof BetweenOperatorNode) {
BetweenOperatorNode op = (BetweenOperatorNode) wrightOp;
analyseBetween(op, defaultTableName, parsInf.ctx);
}
}
private static String getTableNameForColumn(String defaultTable,
ColumnReference column, Map<String, String> tableAliasMap) {
String tableName = column.getTableName();
if (tableName == null) {
tableName = defaultTable;
} else {
// judge if is alias table name
String realTableName = tableAliasMap.get(tableName);
if (realTableName != null) {
return realTableName;
}
}
return tableName.toUpperCase();
}
private static void parseIncondition(String tableName,
InListOperatorNode theOpNode, ShardingParseInfo ctx) {
ValueNodeList columnLst = theOpNode.getLeftOperand().getNodeList();
ValueNodeList columnValLst = theOpNode.getRightOperandList()
.getNodeList();
int columnSize = columnLst.size();
for (int i = 0; i < columnSize; i++) {
ValueNode columNode = columnLst.get(i);
if (!(columNode instanceof ColumnReference)) {
continue;
}
ColumnReference columRef = (ColumnReference) columNode;
tableName = getTableNameForColumn(tableName, columRef,
ctx.tableAliasMap);
String colName = columRef.getColumnName();
final Object[] values = new Object[columnValLst.size()];
for (int j = 0; j < values.length; j++) {
ValueNode valNode = columnValLst.get(j);
if (valNode instanceof ConstantNode) {
values[j] = ((ConstantNode) valNode).getValue();
} else {
// rows
RowConstructorNode rowConsNode = (RowConstructorNode) valNode;
values[j] = ((ConstantNode) rowConsNode.getNodeList()
.get(i)).getValue();
}
}
ctx.addShardingExpr(tableName, colName, values);
}
}
private static void addTableJoinInf(ShardingParseInfo ctx,
ColumnReference leftColum, ColumnReference rightColm)
throws StandardException {
// A.a=B.b
String leftTable = ctx.getTableName(leftColum.getTableName());
String rightTale = ctx.getTableName(rightColm.getTableName());
ctx.addJoin(new JoinRel(leftTable, leftColum.getColumnName(),
rightTale, rightColm.getColumnName()));
}
private static void addConstCondition(ValueNode leftOp, ValueNode wrightOp,
String method, SelectParseInf parsInf, String defaultTableName,
boolean notOpt) throws StandardException {
String upMethod = method.toUpperCase();
if (notOpt) {
return;
}
// System.out.println("before method name :"+method);
if (!(upMethod.equals("EQUALS") || upMethod.equals("IN"))) {
return;
}
// System.out.println("after method name :"+method);
if (wrightOp instanceof ConstantNode) {
ColumnReference leftColumRef = (ColumnReference) leftOp;
String tableName = getTableNameForColumn(defaultTableName,
leftColumRef, parsInf.ctx.tableAliasMap);
parsInf.ctx.addShardingExpr(tableName, leftOp.getColumnName(),
((ConstantNode) wrightOp).getValue());
} else if (wrightOp instanceof RowConstructorNode) {
if (!(leftOp instanceof ColumnReference)) {
return;
}
String tableName = getTableNameForColumn(defaultTableName,
(ColumnReference) leftOp, parsInf.ctx.tableAliasMap);
ValueNodeList valList = ((RowConstructorNode) wrightOp)
.getNodeList();
final Object[] values = new Object[valList.size()];
for (int i = 0; i < values.length; i++) {
ValueNode valNode = valList.get(i);
values[i] = ((ConstantNode) valNode).getValue();
}
parsInf.ctx.addShardingExpr(tableName, leftOp.getColumnName(),
values);
} else if (wrightOp instanceof ColumnReference) {
ColumnReference wrightRef = (ColumnReference) wrightOp;
if (leftOp instanceof ConstantNode) {
String tableName = getTableNameForColumn(defaultTableName,
wrightRef, parsInf.ctx.tableAliasMap);
parsInf.ctx.addShardingExpr(tableName, leftOp.getColumnName(),
((ConstantNode) leftOp).getValue());
} else if (leftOp instanceof ColumnReference) {
ColumnReference leftCol = (ColumnReference) leftOp;
addTableJoinInf(parsInf.ctx, leftCol, wrightRef);
} else {
if (LOGGER.isDebugEnabled()) {
LOGGER.debug("todo ,parse condition: "
+ leftOp.getClass().getCanonicalName());
}
}
} else if (wrightOp instanceof SubqueryNode) {
analyseSQL(parsInf, ((SubqueryNode) wrightOp).getResultSet(),
notOpt);
} else {
if (LOGGER.isDebugEnabled()) {
LOGGER.debug("todo ,parse condition: "
+ wrightOp.getClass().getCanonicalName());
}
}
}
}