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com.datastax.driver.core.SchemaParser Maven / Gradle / Ivy
/*
* Copyright DataStax, Inc.
*
* This software can be used solely with DataStax Enterprise. Please consult the license at
* http://www.datastax.com/terms/datastax-dse-driver-license-terms
*/
package com.datastax.driver.core;
import static com.datastax.driver.core.SchemaElement.AGGREGATE;
import static com.datastax.driver.core.SchemaElement.FUNCTION;
import static com.datastax.driver.core.SchemaElement.KEYSPACE;
import static com.datastax.driver.core.SchemaElement.TABLE;
import static com.datastax.driver.core.SchemaElement.TYPE;
import static com.datastax.driver.core.SchemaElement.VIEW;
import com.datastax.driver.core.exceptions.BusyConnectionException;
import com.datastax.driver.core.exceptions.ConnectionException;
import com.google.common.collect.Lists;
import com.google.common.collect.Maps;
import java.util.ArrayList;
import java.util.Collections;
import java.util.Comparator;
import java.util.HashMap;
import java.util.Iterator;
import java.util.LinkedHashMap;
import java.util.List;
import java.util.Map;
import java.util.concurrent.ExecutionException;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
abstract class SchemaParser {
private static final Logger logger = LoggerFactory.getLogger(SchemaParser.class);
private static final TypeCodec> LIST_OF_TEXT_CODEC =
TypeCodec.list(TypeCodec.varchar());
private static final SchemaParser V2_PARSER = new V2SchemaParser();
private static final SchemaParser V3_PARSER = new V3SchemaParser();
private static final SchemaParser V4_PARSER = new V4SchemaParser();
static SchemaParser forVersion(VersionNumber cassandraVersion) {
if (cassandraVersion.getMajor() >= 4) return V4_PARSER;
if (cassandraVersion.getMajor() >= 3) return V3_PARSER;
return V2_PARSER;
}
static SchemaParser forDseVersion(VersionNumber dseVersion) {
if (dseVersion.getMajor() > 6 || (dseVersion.getMajor() == 6 && dseVersion.getMinor() >= 7)) {
return V4_PARSER;
}
if (dseVersion.getMajor() >= 5) return V3_PARSER;
return V2_PARSER;
}
abstract SystemRows fetchSystemRows(
Cluster cluster,
SchemaElement targetType,
String targetKeyspace,
String targetName,
List targetSignature,
Connection connection,
VersionNumber cassandraVersion)
throws ConnectionException, BusyConnectionException, ExecutionException, InterruptedException;
abstract String tableNameColumn();
void refresh(
Cluster cluster,
SchemaElement targetType,
String targetKeyspace,
String targetName,
List targetSignature,
Connection connection,
VersionNumber cassandraVersion)
throws ConnectionException, BusyConnectionException, ExecutionException,
InterruptedException {
SystemRows rows =
fetchSystemRows(
cluster,
targetType,
targetKeyspace,
targetName,
targetSignature,
connection,
cassandraVersion);
Metadata metadata;
try {
metadata = cluster.getMetadata();
} catch (IllegalStateException e) {
logger.warn("Unable to refresh metadata, cluster has been closed");
return;
}
metadata.lock.lock();
try {
if (targetType == null || targetType == KEYSPACE) {
// building the whole schema or a keyspace
assert rows.keyspaces != null;
Map keyspaces = buildKeyspaces(rows, cassandraVersion, cluster);
updateKeyspaces(metadata, metadata.keyspaces, keyspaces, targetKeyspace);
// If we rebuild all from scratch or have an updated keyspace, rebuild the token map
// since some replication on some keyspace may have changed
metadata.rebuildTokenMap();
} else {
assert targetKeyspace != null;
KeyspaceMetadata keyspace = metadata.keyspaces.get(targetKeyspace);
// If we update a keyspace we don't know about, something went
// wrong. Log an error and schedule a full schema rebuild.
if (keyspace == null) {
logger.info(
String.format(
"Asked to rebuild %s %s.%s but I don't know keyspace %s",
targetType, targetKeyspace, targetName, targetKeyspace));
metadata.cluster.submitSchemaRefresh(null, null, null, null);
} else {
switch (targetType) {
case TABLE:
if (rows.tables.containsKey(targetKeyspace)) {
Map tables =
buildTables(
keyspace,
rows.tables.get(targetKeyspace),
rows.columns.get(targetKeyspace),
rows.indexes.get(targetKeyspace),
cassandraVersion,
cluster);
updateTables(metadata, keyspace.tables, tables, targetName);
}
if (rows.views.containsKey(targetKeyspace)) {
Map tables =
buildViews(
keyspace,
rows.views.get(targetKeyspace),
rows.columns.get(targetKeyspace),
cassandraVersion,
cluster);
updateViews(metadata, keyspace.views, tables, targetName);
}
break;
case TYPE:
if (rows.udts.containsKey(targetKeyspace)) {
Map userTypes =
buildUserTypes(
keyspace, rows.udts.get(targetKeyspace), cassandraVersion, cluster);
updateUserTypes(metadata, keyspace.userTypes, userTypes, targetName);
}
break;
case FUNCTION:
if (rows.functions.containsKey(targetKeyspace)) {
Map functions =
buildFunctions(
keyspace, rows.functions.get(targetKeyspace), cassandraVersion, cluster);
updateFunctions(metadata, keyspace.functions, functions, targetName);
}
break;
case AGGREGATE:
if (rows.aggregates.containsKey(targetKeyspace)) {
Map aggregates =
buildAggregates(
keyspace, rows.aggregates.get(targetKeyspace), cassandraVersion, cluster);
updateAggregates(metadata, keyspace.aggregates, aggregates, targetName);
}
break;
}
}
}
} catch (RuntimeException e) {
// Failure to parse the schema is definitively wrong so log a full-on error, but this won't
// generally prevent queries to
// work and this can happen when new Cassandra versions modify stuff in the schema and the
// driver hasn't yet be modified.
// So log, but let things go otherwise.
logger.error(
"Error parsing schema from Cassandra system tables: the schema in Cluster#getMetadata() will appear incomplete or stale",
e);
} finally {
metadata.lock.unlock();
}
}
private Map buildKeyspaces(
SystemRows rows, VersionNumber cassandraVersion, Cluster cluster) {
Map keyspaces = new LinkedHashMap();
for (Row keyspaceRow : rows.keyspaces) {
KeyspaceMetadata keyspace = KeyspaceMetadata.build(keyspaceRow, cassandraVersion);
Map userTypes =
buildUserTypes(keyspace, rows.udts.get(keyspace.getName()), cassandraVersion, cluster);
for (UserType userType : userTypes.values()) {
keyspace.add(userType);
}
Map tables =
buildTables(
keyspace,
rows.tables.get(keyspace.getName()),
rows.columns.get(keyspace.getName()),
rows.indexes.get(keyspace.getName()),
cassandraVersion,
cluster);
for (TableMetadata table : tables.values()) {
keyspace.add(table);
}
Map functions =
buildFunctions(
keyspace, rows.functions.get(keyspace.getName()), cassandraVersion, cluster);
for (FunctionMetadata function : functions.values()) {
keyspace.add(function);
}
Map aggregates =
buildAggregates(
keyspace, rows.aggregates.get(keyspace.getName()), cassandraVersion, cluster);
for (AggregateMetadata aggregate : aggregates.values()) {
keyspace.add(aggregate);
}
Map views =
buildViews(
keyspace,
rows.views.get(keyspace.getName()),
rows.columns.get(keyspace.getName()),
cassandraVersion,
cluster);
for (MaterializedViewMetadata view : views.values()) {
keyspace.add(view);
}
keyspaces.put(keyspace.getName(), keyspace);
}
if (rows.virtualKeyspaces != null) {
for (Row keyspaceRow : rows.virtualKeyspaces) {
KeyspaceMetadata keyspace = KeyspaceMetadata.buildVirtual(keyspaceRow, cassandraVersion);
Map tables =
buildTables(
keyspace,
rows.virtualTables.get(keyspace.getName()),
rows.virtualColumns.get(keyspace.getName()),
Collections.>emptyMap(),
cassandraVersion,
cluster);
for (TableMetadata table : tables.values()) {
keyspace.add(table);
}
keyspaces.put(keyspace.getName(), keyspace);
}
}
return keyspaces;
}
private Map buildTables(
KeyspaceMetadata keyspace,
List tableRows,
Map> colsDefs,
Map> indexDefs,
VersionNumber cassandraVersion,
Cluster cluster) {
Map tables = new LinkedHashMap();
if (tableRows != null) {
for (Row tableDef : tableRows) {
String cfName = tableDef.getString(tableNameColumn());
try {
Map cols = colsDefs == null ? null : colsDefs.get(cfName);
if (cols == null || cols.isEmpty()) {
if (cassandraVersion.getMajor() >= 2) {
// In C* >= 2.0, we should never have no columns metadata because at the very least we
// should
// have the metadata corresponding to the default CQL metadata. So if we don't have
// any columns,
// that can only mean that the table got creating concurrently with our schema
// queries, and the
// query for columns metadata reached the node before the table was persisted while
// the table
// metadata one reached it afterwards. We could make the query to the column metadata
// sequential
// with the table metadata instead of in parallel, but it's probably not worth making
// it slower
// all the time to avoid this race since 1) it's very very uncommon and 2) we can just
// ignore the
// incomplete table here for now and it'll get updated next time with no particular
// consequence
// (if the table creation was concurrent with our querying, we'll get a notifciation
// later and
// will reupdate the schema for it anyway). See JAVA-320 for why we need this.
continue;
} else {
// C* 1.2 don't persists default CQL metadata, so it's possible not to have columns
// (for thirft
// tables). But in that case TableMetadata.build() knows how to handle it.
cols = Collections.emptyMap();
}
}
List cfIndexes = (indexDefs == null) ? null : indexDefs.get(cfName);
TableMetadata table =
TableMetadata.build(
keyspace,
tableDef,
cols,
cfIndexes,
tableNameColumn(),
cassandraVersion,
cluster);
tables.put(table.getName(), table);
} catch (RuntimeException e) {
// See #refresh for why we'd rather not propagate this further
logger.error(
String.format(
"Error parsing schema for table %s.%s: "
+ "Cluster.getMetadata().getKeyspace(\"%s\").getTable(\"%s\") will be missing or incomplete",
keyspace.getName(), cfName, keyspace.getName(), cfName),
e);
}
}
}
return tables;
}
private Map buildUserTypes(
KeyspaceMetadata keyspace,
List udtRows,
VersionNumber cassandraVersion,
Cluster cluster) {
Map userTypes = new LinkedHashMap();
if (udtRows != null) {
for (Row udtRow : maybeSortUdts(udtRows, cluster, keyspace.getName())) {
UserType type = UserType.build(keyspace, udtRow, cassandraVersion, cluster, userTypes);
userTypes.put(type.getTypeName(), type);
}
}
return userTypes;
}
// Some schema versions require parsing UDTs in a specific order
protected List maybeSortUdts(List udtRows, Cluster cluster, String keyspace) {
return udtRows;
}
private Map buildFunctions(
KeyspaceMetadata keyspace,
List functionRows,
VersionNumber cassandraVersion,
Cluster cluster) {
Map functions = new LinkedHashMap();
if (functionRows != null) {
for (Row functionRow : functionRows) {
FunctionMetadata function =
FunctionMetadata.build(keyspace, functionRow, cassandraVersion, cluster);
if (function != null) {
String name =
Metadata.fullFunctionName(function.getSimpleName(), function.getArguments().values());
functions.put(name, function);
}
}
}
return functions;
}
private Map buildAggregates(
KeyspaceMetadata keyspace,
List aggregateRows,
VersionNumber cassandraVersion,
Cluster cluster) {
Map aggregates = new LinkedHashMap();
if (aggregateRows != null) {
for (Row aggregateRow : aggregateRows) {
AggregateMetadata aggregate =
AggregateMetadata.build(keyspace, aggregateRow, cassandraVersion, cluster);
if (aggregate != null) {
String name =
Metadata.fullFunctionName(aggregate.getSimpleName(), aggregate.getArgumentTypes());
aggregates.put(name, aggregate);
}
}
}
return aggregates;
}
private Map buildViews(
KeyspaceMetadata keyspace,
List viewRows,
Map> colsDefs,
VersionNumber cassandraVersion,
Cluster cluster) {
Map views =
new LinkedHashMap();
if (viewRows != null) {
for (Row viewRow : viewRows) {
String viewName = viewRow.getString("view_name");
try {
Map cols = colsDefs.get(viewName);
if (cols == null || cols.isEmpty())
continue; // we probably raced, we will update the metadata next time
MaterializedViewMetadata view =
MaterializedViewMetadata.build(keyspace, viewRow, cols, cassandraVersion, cluster);
if (view != null) views.put(view.getName(), view);
} catch (RuntimeException e) {
// See #refresh for why we'd rather not propagate this further
logger.error(
String.format(
"Error parsing schema for view %s.%s: "
+ "Cluster.getMetadata().getKeyspace(\"%s\").getView(\"%s\") will be missing or incomplete",
keyspace.getName(), viewName, keyspace.getName(), viewName),
e);
}
}
}
return views;
}
// Update oldKeyspaces with the changes contained in newKeyspaces.
// This method also takes care of triggering the relevant events
private void updateKeyspaces(
Metadata metadata,
Map oldKeyspaces,
Map newKeyspaces,
String keyspaceToRebuild) {
Iterator it = oldKeyspaces.values().iterator();
while (it.hasNext()) {
KeyspaceMetadata oldKeyspace = it.next();
String keyspaceName = oldKeyspace.getName();
// If we're rebuilding only a single keyspace, we should only consider that one
// because newKeyspaces will only contain that keyspace.
if ((keyspaceToRebuild == null || keyspaceToRebuild.equals(keyspaceName))
&& !newKeyspaces.containsKey(keyspaceName)) {
it.remove();
metadata.triggerOnKeyspaceRemoved(oldKeyspace);
}
}
for (KeyspaceMetadata newKeyspace : newKeyspaces.values()) {
KeyspaceMetadata oldKeyspace = oldKeyspaces.put(newKeyspace.getName(), newKeyspace);
if (oldKeyspace == null) {
metadata.triggerOnKeyspaceAdded(newKeyspace);
} else if (!oldKeyspace.equals(newKeyspace)) {
metadata.triggerOnKeyspaceChanged(newKeyspace, oldKeyspace);
}
Map oldTables =
oldKeyspace == null
? new HashMap()
: new HashMap(oldKeyspace.tables);
updateTables(metadata, oldTables, newKeyspace.tables, null);
Map oldTypes =
oldKeyspace == null
? new HashMap()
: new HashMap(oldKeyspace.userTypes);
updateUserTypes(metadata, oldTypes, newKeyspace.userTypes, null);
Map oldFunctions =
oldKeyspace == null
? new HashMap()
: new HashMap(oldKeyspace.functions);
updateFunctions(metadata, oldFunctions, newKeyspace.functions, null);
Map oldAggregates =
oldKeyspace == null
? new HashMap()
: new HashMap(oldKeyspace.aggregates);
updateAggregates(metadata, oldAggregates, newKeyspace.aggregates, null);
Map oldViews =
oldKeyspace == null
? new HashMap()
: new HashMap(oldKeyspace.views);
updateViews(metadata, oldViews, newKeyspace.views, null);
}
}
private void updateTables(
Metadata metadata,
Map oldTables,
Map newTables,
String tableToRebuild) {
Iterator it = oldTables.values().iterator();
while (it.hasNext()) {
TableMetadata oldTable = it.next();
String tableName = oldTable.getName();
// If we're rebuilding only a single table, we should only consider that one
// because newTables will only contain that table.
if ((tableToRebuild == null || tableToRebuild.equals(tableName))
&& !newTables.containsKey(tableName)) {
it.remove();
metadata.triggerOnTableRemoved(oldTable);
}
}
for (TableMetadata newTable : newTables.values()) {
TableMetadata oldTable = oldTables.put(newTable.getName(), newTable);
if (oldTable == null) {
metadata.triggerOnTableAdded(newTable);
} else {
// if we're updating a table only, we need to copy views from old table to the new table.
if (tableToRebuild != null) {
for (MaterializedViewMetadata view : oldTable.getViews()) {
view.setBaseTable(newTable);
}
}
if (!oldTable.equals(newTable)) {
metadata.triggerOnTableChanged(newTable, oldTable);
}
}
}
}
private void updateUserTypes(
Metadata metadata,
Map oldTypes,
Map newTypes,
String typeToRebuild) {
Iterator it = oldTypes.values().iterator();
while (it.hasNext()) {
UserType oldType = it.next();
String typeName = oldType.getTypeName();
if ((typeToRebuild == null || typeToRebuild.equals(typeName))
&& !newTypes.containsKey(typeName)) {
it.remove();
metadata.triggerOnUserTypeRemoved(oldType);
}
}
for (UserType newType : newTypes.values()) {
UserType oldType = oldTypes.put(newType.getTypeName(), newType);
if (oldType == null) {
metadata.triggerOnUserTypeAdded(newType);
} else if (!newType.equals(oldType)) {
metadata.triggerOnUserTypeChanged(newType, oldType);
}
}
}
private void updateFunctions(
Metadata metadata,
Map oldFunctions,
Map newFunctions,
String functionToRebuild) {
Iterator it = oldFunctions.values().iterator();
while (it.hasNext()) {
FunctionMetadata oldFunction = it.next();
String oldFunctionName =
Metadata.fullFunctionName(
oldFunction.getSimpleName(), oldFunction.getArguments().values());
if ((functionToRebuild == null || functionToRebuild.equals(oldFunctionName))
&& !newFunctions.containsKey(oldFunctionName)) {
it.remove();
metadata.triggerOnFunctionRemoved(oldFunction);
}
}
for (FunctionMetadata newFunction : newFunctions.values()) {
String newFunctionName =
Metadata.fullFunctionName(
newFunction.getSimpleName(), newFunction.getArguments().values());
FunctionMetadata oldFunction = oldFunctions.put(newFunctionName, newFunction);
if (oldFunction == null) {
metadata.triggerOnFunctionAdded(newFunction);
} else if (!newFunction.equals(oldFunction)) {
metadata.triggerOnFunctionChanged(newFunction, oldFunction);
}
}
}
private void updateAggregates(
Metadata metadata,
Map oldAggregates,
Map newAggregates,
String aggregateToRebuild) {
Iterator it = oldAggregates.values().iterator();
while (it.hasNext()) {
AggregateMetadata oldAggregate = it.next();
String oldAggregateName =
Metadata.fullFunctionName(oldAggregate.getSimpleName(), oldAggregate.getArgumentTypes());
if ((aggregateToRebuild == null || aggregateToRebuild.equals(oldAggregateName))
&& !newAggregates.containsKey(oldAggregateName)) {
it.remove();
metadata.triggerOnAggregateRemoved(oldAggregate);
}
}
for (AggregateMetadata newAggregate : newAggregates.values()) {
String newAggregateName =
Metadata.fullFunctionName(newAggregate.getSimpleName(), newAggregate.getArgumentTypes());
AggregateMetadata oldAggregate = oldAggregates.put(newAggregateName, newAggregate);
if (oldAggregate == null) {
metadata.triggerOnAggregateAdded(newAggregate);
} else if (!newAggregate.equals(oldAggregate)) {
metadata.triggerOnAggregateChanged(newAggregate, oldAggregate);
}
}
}
private void updateViews(
Metadata metadata,
Map oldViews,
Map newViews,
String viewToRebuild) {
Iterator it = oldViews.values().iterator();
while (it.hasNext()) {
MaterializedViewMetadata oldView = it.next();
String aggregateName = oldView.getName();
if ((viewToRebuild == null || viewToRebuild.equals(aggregateName))
&& !newViews.containsKey(aggregateName)) {
it.remove();
metadata.triggerOnMaterializedViewRemoved(oldView);
}
}
for (MaterializedViewMetadata newView : newViews.values()) {
MaterializedViewMetadata oldView = oldViews.put(newView.getName(), newView);
if (oldView == null) {
metadata.triggerOnMaterializedViewAdded(newView);
} else if (!newView.equals(oldView)) {
metadata.triggerOnMaterializedViewChanged(newView, oldView);
}
}
}
static Map> groupByKeyspace(ResultSet rs) {
if (rs == null) return Collections.emptyMap();
Map> result = new HashMap>();
for (Row row : rs) {
String ksName = row.getString(KeyspaceMetadata.KS_NAME);
List l = result.get(ksName);
if (l == null) {
l = new ArrayList();
result.put(ksName, l);
}
l.add(row);
}
return result;
}
static Map>> groupByKeyspaceAndCf(ResultSet rs, String tableName) {
if (rs == null) return Collections.emptyMap();
Map>> result = Maps.newHashMap();
for (Row row : rs) {
String ksName = row.getString(KeyspaceMetadata.KS_NAME);
String cfName = row.getString(tableName);
Map> rowsByCf = result.get(ksName);
if (rowsByCf == null) {
rowsByCf = Maps.newHashMap();
result.put(ksName, rowsByCf);
}
List l = rowsByCf.get(cfName);
if (l == null) {
l = Lists.newArrayList();
rowsByCf.put(cfName, l);
}
l.add(row);
}
return result;
}
static Map>> groupByKeyspaceAndCf(
ResultSet rs, VersionNumber cassandraVersion, String tableName) {
if (rs == null) return Collections.emptyMap();
Map>> result =
new HashMap>>();
for (Row row : rs) {
String ksName = row.getString(KeyspaceMetadata.KS_NAME);
String cfName = row.getString(tableName);
Map> colsByCf = result.get(ksName);
if (colsByCf == null) {
colsByCf = new HashMap>();
result.put(ksName, colsByCf);
}
Map l = colsByCf.get(cfName);
if (l == null) {
l = new HashMap();
colsByCf.put(cfName, l);
}
ColumnMetadata.Raw c = ColumnMetadata.Raw.fromRow(row, cassandraVersion);
l.put(c.name, c);
}
return result;
}
private static ResultSetFuture queryAsync(
String query, Connection connection, ProtocolVersion protocolVersion)
throws ConnectionException, BusyConnectionException {
DefaultResultSetFuture future =
new DefaultResultSetFuture(null, protocolVersion, new Requests.Query(query));
connection.write(future);
return future;
}
private static ResultSet get(ResultSetFuture future)
throws InterruptedException, ExecutionException {
return (future == null) ? null : future.get();
}
/**
* The rows from the system tables that we want to parse to metadata classes. The format of these
* rows depends on the Cassandra version, but our parsing code knows how to handle the
* differences.
*/
private static class SystemRows {
final ResultSet keyspaces;
final Map> tables;
final Map>> columns;
final Map> udts;
final Map> functions;
final Map> aggregates;
final Map> views;
final Map>> indexes;
final ResultSet virtualKeyspaces;
final Map> virtualTables;
final Map>> virtualColumns;
public SystemRows(
ResultSet keyspaces,
Map> tables,
Map>> columns,
Map> udts,
Map> functions,
Map> aggregates,
Map> views,
Map>> indexes,
ResultSet virtualKeyspaces,
Map> virtualTables,
Map>> virtualColumns) {
this.keyspaces = keyspaces;
this.tables = tables;
this.columns = columns;
this.udts = udts;
this.functions = functions;
this.aggregates = aggregates;
this.views = views;
this.indexes = indexes;
this.virtualKeyspaces = virtualKeyspaces;
this.virtualTables = virtualTables;
this.virtualColumns = virtualColumns;
}
}
private static class V2SchemaParser extends SchemaParser {
private static final String SELECT_KEYSPACES = "SELECT * FROM system.schema_keyspaces";
private static final String SELECT_COLUMN_FAMILIES =
"SELECT * FROM system.schema_columnfamilies";
private static final String SELECT_COLUMNS = "SELECT * FROM system.schema_columns";
private static final String SELECT_USERTYPES = "SELECT * FROM system.schema_usertypes";
private static final String SELECT_FUNCTIONS = "SELECT * FROM system.schema_functions";
private static final String SELECT_AGGREGATES = "SELECT * FROM system.schema_aggregates";
private static final String CF_NAME = "columnfamily_name";
@Override
SystemRows fetchSystemRows(
Cluster cluster,
SchemaElement targetType,
String targetKeyspace,
String targetName,
List targetSignature,
Connection connection,
VersionNumber cassandraVersion)
throws ConnectionException, BusyConnectionException, ExecutionException,
InterruptedException {
boolean isSchemaOrKeyspace = (targetType == null || targetType == KEYSPACE);
String whereClause = "";
if (targetType != null) {
whereClause = " WHERE keyspace_name = '" + targetKeyspace + '\'';
if (targetType == TABLE) whereClause += " AND columnfamily_name = '" + targetName + '\'';
else if (targetType == TYPE) whereClause += " AND type_name = '" + targetName + '\'';
else if (targetType == FUNCTION)
whereClause +=
" AND function_name = '"
+ targetName
+ "' AND signature = "
+ LIST_OF_TEXT_CODEC.format(targetSignature);
else if (targetType == AGGREGATE)
whereClause +=
" AND aggregate_name = '"
+ targetName
+ "' AND signature = "
+ LIST_OF_TEXT_CODEC.format(targetSignature);
}
ResultSetFuture ksFuture = null,
udtFuture = null,
cfFuture = null,
colsFuture = null,
functionsFuture = null,
aggregatesFuture = null;
ProtocolVersion protocolVersion =
cluster.getConfiguration().getProtocolOptions().getProtocolVersion();
if (isSchemaOrKeyspace)
ksFuture = queryAsync(SELECT_KEYSPACES + whereClause, connection, protocolVersion);
if (isSchemaOrKeyspace && supportsUdts(cassandraVersion) || targetType == TYPE)
udtFuture = queryAsync(SELECT_USERTYPES + whereClause, connection, protocolVersion);
if (isSchemaOrKeyspace || targetType == TABLE) {
cfFuture = queryAsync(SELECT_COLUMN_FAMILIES + whereClause, connection, protocolVersion);
colsFuture = queryAsync(SELECT_COLUMNS + whereClause, connection, protocolVersion);
}
if ((isSchemaOrKeyspace && supportsUdfs(cassandraVersion) || targetType == FUNCTION))
functionsFuture = queryAsync(SELECT_FUNCTIONS + whereClause, connection, protocolVersion);
if (isSchemaOrKeyspace && supportsUdfs(cassandraVersion) || targetType == AGGREGATE)
aggregatesFuture = queryAsync(SELECT_AGGREGATES + whereClause, connection, protocolVersion);
return new SystemRows(
get(ksFuture),
groupByKeyspace(get(cfFuture)),
groupByKeyspaceAndCf(get(colsFuture), cassandraVersion, CF_NAME),
groupByKeyspace(get(udtFuture)),
groupByKeyspace(get(functionsFuture)),
groupByKeyspace(get(aggregatesFuture)),
// No views nor separate indexes table in Cassandra 2:
Collections.>emptyMap(),
Collections.>>emptyMap(),
null,
Collections.>emptyMap(),
Collections.>>emptyMap());
}
@Override
String tableNameColumn() {
return CF_NAME;
}
private boolean supportsUdts(VersionNumber cassandraVersion) {
return cassandraVersion.getMajor() > 2
|| (cassandraVersion.getMajor() == 2 && cassandraVersion.getMinor() >= 1);
}
private boolean supportsUdfs(VersionNumber cassandraVersion) {
return cassandraVersion.getMajor() > 2
|| (cassandraVersion.getMajor() == 2 && cassandraVersion.getMinor() >= 2);
}
}
private static class V3SchemaParser extends SchemaParser {
protected static final String SELECT_KEYSPACES = "SELECT * FROM system_schema.keyspaces";
protected static final String SELECT_TABLES = "SELECT * FROM system_schema.tables";
protected static final String SELECT_COLUMNS = "SELECT * FROM system_schema.columns";
protected static final String SELECT_USERTYPES = "SELECT * FROM system_schema.types";
protected static final String SELECT_FUNCTIONS = "SELECT * FROM system_schema.functions";
protected static final String SELECT_AGGREGATES = "SELECT * FROM system_schema.aggregates";
protected static final String SELECT_INDEXES = "SELECT * FROM system_schema.indexes";
protected static final String SELECT_VIEWS = "SELECT * FROM system_schema.views";
private static final String TABLE_NAME = "table_name";
@Override
SystemRows fetchSystemRows(
Cluster cluster,
SchemaElement targetType,
String targetKeyspace,
String targetName,
List targetSignature,
Connection connection,
VersionNumber cassandraVersion)
throws ConnectionException, BusyConnectionException, ExecutionException,
InterruptedException {
boolean isSchemaOrKeyspace = (targetType == null || targetType == KEYSPACE);
ResultSetFuture ksFuture = null,
udtFuture = null,
cfFuture = null,
colsFuture = null,
functionsFuture = null,
aggregatesFuture = null,
indexesFuture = null,
viewsFuture = null;
ProtocolVersion protocolVersion =
cluster.getConfiguration().getProtocolOptions().getProtocolVersion();
if (isSchemaOrKeyspace)
ksFuture =
queryAsync(
SELECT_KEYSPACES
+ whereClause(targetType, targetKeyspace, targetName, targetSignature),
connection,
protocolVersion);
if (isSchemaOrKeyspace || targetType == TYPE)
udtFuture =
queryAsync(
SELECT_USERTYPES
+ whereClause(targetType, targetKeyspace, targetName, targetSignature),
connection,
protocolVersion);
if (isSchemaOrKeyspace || targetType == TABLE) {
cfFuture =
queryAsync(
SELECT_TABLES
+ whereClause(targetType, targetKeyspace, targetName, targetSignature),
connection,
protocolVersion);
colsFuture =
queryAsync(
SELECT_COLUMNS
+ whereClause(targetType, targetKeyspace, targetName, targetSignature),
connection,
protocolVersion);
indexesFuture =
queryAsync(
SELECT_INDEXES
+ whereClause(targetType, targetKeyspace, targetName, targetSignature),
connection,
protocolVersion);
viewsFuture =
queryAsync(
SELECT_VIEWS
+ whereClause(
targetType == TABLE ? VIEW : targetType,
targetKeyspace,
targetName,
targetSignature),
connection,
protocolVersion);
}
if (isSchemaOrKeyspace || targetType == FUNCTION)
functionsFuture =
queryAsync(
SELECT_FUNCTIONS
+ whereClause(targetType, targetKeyspace, targetName, targetSignature),
connection,
protocolVersion);
if (isSchemaOrKeyspace || targetType == AGGREGATE)
aggregatesFuture =
queryAsync(
SELECT_AGGREGATES
+ whereClause(targetType, targetKeyspace, targetName, targetSignature),
connection,
protocolVersion);
return new SystemRows(
get(ksFuture),
groupByKeyspace(get(cfFuture)),
groupByKeyspaceAndCf(get(colsFuture), cassandraVersion, TABLE_NAME),
groupByKeyspace(get(udtFuture)),
groupByKeyspace(get(functionsFuture)),
groupByKeyspace(get(aggregatesFuture)),
groupByKeyspace(get(viewsFuture)),
groupByKeyspaceAndCf(get(indexesFuture), TABLE_NAME),
null,
Collections.>emptyMap(),
Collections.>>emptyMap());
}
@Override
String tableNameColumn() {
return TABLE_NAME;
}
protected String whereClause(
SchemaElement targetType,
String targetKeyspace,
String targetName,
List targetSignature) {
String whereClause = "";
if (targetType != null) {
whereClause = " WHERE keyspace_name = '" + targetKeyspace + '\'';
if (targetType == TABLE) whereClause += " AND table_name = '" + targetName + '\'';
else if (targetType == VIEW) whereClause += " AND view_name = '" + targetName + '\'';
else if (targetType == TYPE) whereClause += " AND type_name = '" + targetName + '\'';
else if (targetType == FUNCTION)
whereClause +=
" AND function_name = '"
+ targetName
+ "' AND argument_types = "
+ LIST_OF_TEXT_CODEC.format(targetSignature);
else if (targetType == AGGREGATE)
whereClause +=
" AND aggregate_name = '"
+ targetName
+ "' AND argument_types = "
+ LIST_OF_TEXT_CODEC.format(targetSignature);
}
return whereClause;
}
// Used by maybeSortUdts to sort at each dependency group alphabetically.
private static final Comparator sortByTypeName =
new Comparator() {
@Override
public int compare(Row o1, Row o2) {
String type1 = o1.getString(UserType.TYPE_NAME);
String type2 = o2.getString(UserType.TYPE_NAME);
if (type1 == null && type2 == null) {
return 0;
} else if (type2 == null) {
return 1;
} else if (type1 == null) {
return -1;
} else {
return type1.compareTo(type2);
}
}
};
@Override
protected List maybeSortUdts(List udtRows, Cluster cluster, String keyspace) {
if (udtRows.size() < 2) return udtRows;
// For C* 3+, user-defined type resolution must be done in proper order
// to guarantee that nested UDTs get resolved
DirectedGraph graph = new DirectedGraph(sortByTypeName, udtRows);
for (Row from : udtRows) {
for (Row to : udtRows) {
if (from != to && dependsOn(to, from, cluster, keyspace)) graph.addEdge(from, to);
}
}
return graph.topologicalSort();
}
private boolean dependsOn(Row udt1, Row udt2, Cluster cluster, String keyspace) {
List fieldTypes = udt1.getList(UserType.COLS_TYPES, String.class);
String typeName = udt2.getString(UserType.TYPE_NAME);
for (String fieldTypeStr : fieldTypes) {
// use shallow user types since some definitions might not be known at this stage
DataType fieldType =
DataTypeCqlNameParser.parse(fieldTypeStr, cluster, keyspace, null, null, false, true);
if (references(fieldType, typeName)) return true;
}
return false;
}
private boolean references(DataType dataType, String typeName) {
if (dataType instanceof UserType.Shallow
&& ((UserType.Shallow) dataType).typeName.equals(typeName)) return true;
for (DataType arg : dataType.getTypeArguments()) {
if (references(arg, typeName)) return true;
}
if (dataType instanceof TupleType) {
for (DataType arg : ((TupleType) dataType).getComponentTypes()) {
if (references(arg, typeName)) return true;
}
}
return false;
}
}
private static class V4SchemaParser extends V3SchemaParser {
private static final String SELECT_VIRTUAL_KEYSPACES =
"SELECT * FROM system_virtual_schema.keyspaces";
private static final String SELECT_VIRTUAL_TABLES =
"SELECT * FROM system_virtual_schema.tables";
private static final String SELECT_VIRTUAL_COLUMNS =
"SELECT * FROM system_virtual_schema.columns";
private static final String TABLE_NAME = "table_name";
@Override
SystemRows fetchSystemRows(
Cluster cluster,
SchemaElement targetType,
String targetKeyspace,
String targetName,
List targetSignature,
Connection connection,
VersionNumber cassandraVersion)
throws ConnectionException, BusyConnectionException, ExecutionException,
InterruptedException {
boolean isSchemaOrKeyspace = (targetType == null || targetType == KEYSPACE);
ResultSetFuture ksFuture = null,
udtFuture = null,
cfFuture = null,
colsFuture = null,
functionsFuture = null,
aggregatesFuture = null,
indexesFuture = null,
viewsFuture = null,
virtualKeyspacesFuture = null,
virtualTableFuture = null,
virtualColumnsFuture = null;
ProtocolVersion protocolVersion =
cluster.getConfiguration().getProtocolOptions().getProtocolVersion();
if (isSchemaOrKeyspace) {
ksFuture =
queryAsync(
SELECT_KEYSPACES
+ whereClause(targetType, targetKeyspace, targetName, targetSignature),
connection,
protocolVersion);
virtualKeyspacesFuture =
queryAsync(
SELECT_VIRTUAL_KEYSPACES
+ whereClause(targetType, targetKeyspace, targetName, targetSignature),
connection,
protocolVersion);
virtualColumnsFuture =
queryAsync(
SELECT_VIRTUAL_COLUMNS
+ whereClause(targetType, targetKeyspace, targetName, targetSignature),
connection,
protocolVersion);
virtualTableFuture =
queryAsync(
SELECT_VIRTUAL_TABLES
+ whereClause(targetType, targetKeyspace, targetName, targetSignature),
connection,
protocolVersion);
}
if (isSchemaOrKeyspace || targetType == TYPE) {
udtFuture =
queryAsync(
SELECT_USERTYPES
+ whereClause(targetType, targetKeyspace, targetName, targetSignature),
connection,
protocolVersion);
}
if (isSchemaOrKeyspace || targetType == TABLE) {
cfFuture =
queryAsync(
SELECT_TABLES
+ whereClause(targetType, targetKeyspace, targetName, targetSignature),
connection,
protocolVersion);
colsFuture =
queryAsync(
SELECT_COLUMNS
+ whereClause(targetType, targetKeyspace, targetName, targetSignature),
connection,
protocolVersion);
indexesFuture =
queryAsync(
SELECT_INDEXES
+ whereClause(targetType, targetKeyspace, targetName, targetSignature),
connection,
protocolVersion);
viewsFuture =
queryAsync(
SELECT_VIEWS
+ whereClause(
targetType == TABLE ? VIEW : targetType,
targetKeyspace,
targetName,
targetSignature),
connection,
protocolVersion);
}
if (isSchemaOrKeyspace || targetType == FUNCTION) {
functionsFuture =
queryAsync(
SELECT_FUNCTIONS
+ whereClause(targetType, targetKeyspace, targetName, targetSignature),
connection,
protocolVersion);
}
if (isSchemaOrKeyspace || targetType == AGGREGATE) {
aggregatesFuture =
queryAsync(
SELECT_AGGREGATES
+ whereClause(targetType, targetKeyspace, targetName, targetSignature),
connection,
protocolVersion);
}
return new SystemRows(
get(ksFuture),
groupByKeyspace(get(cfFuture)),
groupByKeyspaceAndCf(get(colsFuture), cassandraVersion, TABLE_NAME),
groupByKeyspace(get(udtFuture)),
groupByKeyspace(get(functionsFuture)),
groupByKeyspace(get(aggregatesFuture)),
groupByKeyspace(get(viewsFuture)),
groupByKeyspaceAndCf(get(indexesFuture), TABLE_NAME),
get(virtualKeyspacesFuture),
groupByKeyspace(get(virtualTableFuture)),
groupByKeyspaceAndCf(get(virtualColumnsFuture), cassandraVersion, TABLE_NAME));
}
}
}