PluginDrivenExternalTable.java
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// to you under the Apache License, Version 2.0 (the
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//
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package org.apache.doris.datasource;
import org.apache.doris.catalog.Column;
import org.apache.doris.catalog.Env;
import org.apache.doris.catalog.PartitionItem;
import org.apache.doris.catalog.TableIf.TableType;
import org.apache.doris.catalog.Type;
import org.apache.doris.common.util.DebugPointUtil;
import org.apache.doris.common.util.Util;
import org.apache.doris.connector.api.Connector;
import org.apache.doris.connector.api.ConnectorCapability;
import org.apache.doris.connector.api.ConnectorColumn;
import org.apache.doris.connector.api.ConnectorColumnStatistics;
import org.apache.doris.connector.api.ConnectorMetadata;
import org.apache.doris.connector.api.ConnectorPartitionInfo;
import org.apache.doris.connector.api.ConnectorSession;
import org.apache.doris.connector.api.ConnectorTableSchema;
import org.apache.doris.connector.api.ConnectorTableStatistics;
import org.apache.doris.connector.api.ConnectorViewDefinition;
import org.apache.doris.connector.api.DorisConnectorException;
import org.apache.doris.connector.api.handle.ConnectorTableHandle;
import org.apache.doris.connector.api.handle.WriteOperation;
import org.apache.doris.connector.api.mvcc.ConnectorMvccSnapshot;
import org.apache.doris.connector.api.pushdown.ConnectorExpression;
import org.apache.doris.connector.api.write.ConnectorWritePlanProvider;
import org.apache.doris.datasource.mvcc.MvccSnapshot;
import org.apache.doris.datasource.systable.PartitionsSysTable;
import org.apache.doris.datasource.systable.PluginDrivenSysTable;
import org.apache.doris.datasource.systable.SysTable;
import org.apache.doris.qe.ConnectContext;
import org.apache.doris.qe.GlobalVariable;
import org.apache.doris.statistics.AnalysisInfo;
import org.apache.doris.statistics.BaseAnalysisTask;
import org.apache.doris.statistics.ColumnStatistic;
import org.apache.doris.statistics.ColumnStatisticBuilder;
import org.apache.doris.statistics.ExternalAnalysisTask;
import org.apache.doris.statistics.PluginDrivenSampleAnalysisTask;
import org.apache.doris.thrift.TTableDescriptor;
import org.apache.doris.thrift.TTableType;
import com.google.common.collect.Maps;
import org.apache.logging.log4j.LogManager;
import org.apache.logging.log4j.Logger;
import java.io.IOException;
import java.util.ArrayList;
import java.util.Collections;
import java.util.EnumSet;
import java.util.HashSet;
import java.util.LinkedHashMap;
import java.util.List;
import java.util.Map;
import java.util.Map.Entry;
import java.util.Optional;
import java.util.Set;
import java.util.stream.Collectors;
/**
* Generic {@link ExternalTable} for plugin-driven catalogs.
*
* <p>Provides table implementation that fetches schema from the connector SPI.
* Connector-specific behavior is accessed through the parent catalog's
* {@link org.apache.doris.connector.api.Connector} using opaque handles.</p>
*/
public class PluginDrivenExternalTable extends ExternalTable {
private static final Logger LOG = LogManager.getLogger(PluginDrivenExternalTable.class);
/**
* Whether this table is actually a view, resolved once from the connector in
* {@link #makeSureInitialized()} (gated on {@link #supportsView()}) and recomputed after GSON replay
* (the {@code objectCreated} reset). Mirrors legacy {@code IcebergExternalTable.isView}; derived
* metadata, not persisted.
*/
private boolean isView;
/** No-arg constructor for GSON deserialization. */
public PluginDrivenExternalTable() {
}
public PluginDrivenExternalTable(long id, String name, String remoteName,
ExternalCatalog catalog, ExternalDatabase db) {
super(id, name, remoteName, catalog, db, TableType.PLUGIN_EXTERNAL_TABLE);
}
/**
* Single seam for acquiring this table's {@link ConnectorTableHandle}. The base class resolves
* the handle for its own remote name; {@link PluginDrivenSysExternalTable} overrides this to
* thread a system-table handle through {@code initSchema}/{@code getNameToPartitionItems}/
* {@code fetchRowCount} without duplicating the metadata round-trip in each site.
*/
protected Optional<ConnectorTableHandle> resolveConnectorTableHandle(
ConnectorSession session, ConnectorMetadata metadata) {
String dbName = db != null ? db.getRemoteName() : "";
return metadata.getTableHandle(session, dbName, getRemoteName());
}
/**
* Resolves this table's write-target {@link ConnectorTableHandle} for the plugin-driven insert executor's
* per-handle transaction selection, failing loud if it cannot be resolved. A heterogeneous gateway needs
* the handle to open the SIBLING connector's transaction for a foreign (iceberg-on-HMS) table; a
* single-format connector ignores it (its {@code beginTransaction} defaults to the connector-level one), so
* this is byte-identical for it. Fails loud rather than returning null: a null handle is not an
* {@code instanceof} the gateway's own handle type and would misroute a plain write to the sibling.
*/
public ConnectorTableHandle resolveWriteTargetHandle() {
PluginDrivenExternalCatalog pluginCatalog = (PluginDrivenExternalCatalog) catalog;
ConnectorSession session = pluginCatalog.buildConnectorSession();
return resolveConnectorTableHandle(session, pluginCatalog.getConnector().getMetadata(session))
.orElseThrow(() -> new DorisConnectorException(
"Cannot resolve the connector table handle for write target " + getName()));
}
/**
* Returns the connector's synthetic scan predicates for this table at the given resolved MVCC
* {@code snapshot} ��� a connector "residual predicate" the read cannot enforce by file selection alone
* (e.g. a hudi incremental {@code _hoodie_commit_time} commit-time window), expressed in the neutral
* {@link ConnectorExpression} grammar. The analysis-time synthetic-predicate rule reverse-converts these
* into a {@code LogicalFilter} over this table's scan.
*
* <p>The {@code snapshot} is the one {@link org.apache.doris.datasource.mvcc.MvccTable#loadSnapshot}
* resolved at analysis time (retrieved from {@code StatementContext}), so the row-filter window is the
* SAME single resolution the scan-time {@code applySnapshot} threads onto the handle ��� file selection and
* the row filter can never diverge. Returns empty when the snapshot is not a plugin MVCC snapshot, the
* handle cannot be resolved, or the connector has no residual predicate (iceberg/paimon/... and every
* non-incremental read inherit the empty SPI default) ��� so the plan stays byte-identical.</p>
*/
public List<ConnectorExpression> getSyntheticScanPredicates(MvccSnapshot snapshot) {
if (!(snapshot instanceof PluginDrivenMvccSnapshot) || !(catalog instanceof PluginDrivenExternalCatalog)) {
return Collections.emptyList();
}
ConnectorMvccSnapshot connectorSnapshot = ((PluginDrivenMvccSnapshot) snapshot).getConnectorSnapshot();
PluginDrivenExternalCatalog pluginCatalog = (PluginDrivenExternalCatalog) catalog;
ConnectorSession session = pluginCatalog.buildConnectorSession();
ConnectorMetadata metadata = pluginCatalog.getConnector().getMetadata(session);
Optional<ConnectorTableHandle> handleOpt = resolveConnectorTableHandle(session, metadata);
if (!handleOpt.isPresent()) {
return Collections.emptyList();
}
return metadata.getSyntheticScanPredicates(session, handleOpt.get(), connectorSnapshot);
}
/**
* Returns whether the underlying connector supports multiple concurrent writers.
* Used by the planner to decide GATHER (single writer) vs parallel distribution.
*/
public boolean supportsParallelWrite() {
if (!(catalog instanceof PluginDrivenExternalCatalog)) {
return false;
}
Connector connector = ((PluginDrivenExternalCatalog) catalog).getConnector();
// requiresParallelWrite is byte-inert for a heterogeneous gateway (hive and iceberg both true), so the
// connector-level answer needs no per-handle resolution here.
return connector != null && connector.requiresParallelWrite();
}
/**
* Resolves this table's connector handle for a per-handle write-capability probe, or empty on any miss (a
* null connector, or an unresolvable handle). A heterogeneous gateway needs the handle to answer write
* capabilities per-table (its iceberg tables differ from its hive tables); a single-format connector ignores
* the handle (the per-handle overloads default to connector-level), so this is byte-identical for it.
*/
private Optional<ConnectorTableHandle> resolveWriteCapabilityHandle(Connector connector) {
ConnectorSession session = ((PluginDrivenExternalCatalog) catalog).buildConnectorSession();
return resolveConnectorTableHandle(session, connector.getMetadata(session));
}
/**
* The write operations the connector admits for THIS table, resolved per-handle so a heterogeneous gateway
* admits DELETE/MERGE/OVERWRITE for its iceberg tables but only INSERT/OVERWRITE for its hive tables.
* Degrades to the empty set (all writes rejected) on any miss, mirroring {@link #fetchSyntheticWriteColumns()}.
*/
public Set<WriteOperation> connectorSupportedWriteOperations() {
if (!(catalog instanceof PluginDrivenExternalCatalog)) {
return EnumSet.noneOf(WriteOperation.class);
}
Connector connector = ((PluginDrivenExternalCatalog) catalog).getConnector();
if (connector == null) {
return EnumSet.noneOf(WriteOperation.class);
}
return resolveWriteCapabilityHandle(connector)
.map(connector::supportedWriteOperations)
.orElseGet(() -> EnumSet.noneOf(WriteOperation.class));
}
/**
* Whether the connector admits branch writes for THIS table, resolved per-handle (iceberg supports
* write-to-branch, hive does not). Degrades to false on any miss.
*/
public boolean connectorSupportsWriteBranch() {
if (!(catalog instanceof PluginDrivenExternalCatalog)) {
return false;
}
Connector connector = ((PluginDrivenExternalCatalog) catalog).getConnector();
if (connector == null) {
return false;
}
return resolveWriteCapabilityHandle(connector)
.map(connector::supportsWriteBranch)
.orElse(false);
}
/**
* Returns whether THIS table supports background per-column auto-analyze. The statistics auto-collector
* consults this (in place of the legacy {@code instanceof IcebergExternalTable} whitelist) to admit a flipped
* plugin table into the auto-analyze framework. Resolved per-table via {@link #hasScanCapability} (not the
* connector-wide set alone) so a heterogeneous hive catalog can express the legacy
* {@code StatisticsUtil.supportAutoAnalyze} gate of {@code dlaType HIVE || ICEBERG} but NOT {@code HUDI}: a
* uniform-format connector (native iceberg/paimon) still declares it connector-wide, while hive emits it
* per-table for its plain-hive tables and reflects the iceberg sibling's connector-wide set onto an
* iceberg-on-HMS table's delegated schema ��� so hudi-on-HMS, whose connector declares neither, is correctly
* withheld. Mirrors {@link #supportsTopNLazyMaterialize} / {@link #supportsNestedColumnPrune}.
*/
public boolean supportsColumnAutoAnalyze() {
return hasScanCapability(ConnectorCapability.SUPPORTS_COLUMN_AUTO_ANALYZE);
}
/**
* Returns whether THIS table supports Top-N lazy materialization. The nereids Top-N lazy-materialize probe
* consults this (in place of the legacy exact-class {@code SUPPORT_RELATION_TYPES} membership) to enable
* lazy materialization for a flipped plugin table. Resolved per-table via {@link #hasScanCapability}: a
* uniform-format connector (iceberg) declares it connector-wide, a heterogeneous connector (hive) emits it
* only for its orc/parquet tables ��� so a hive text/csv/json/view table is correctly excluded, as it was in
* legacy {@code MaterializeProbeVisitor}.
*/
public boolean supportsTopNLazyMaterialize() {
return hasScanCapability(ConnectorCapability.SUPPORTS_TOPN_LAZY_MATERIALIZE);
}
/**
* Returns whether THIS table supports nested-column pruning (reading only the accessed STRUCT/ARRAY/MAP
* sub-fields). The nereids nested-column-prune probe ({@code LogicalFileScan.supportPruneNestedColumn})
* consults this (in place of the legacy exact-class {@code IcebergExternalTable} arm) to enable pruning for a
* flipped plugin table, and the {@code SlotTypeReplacer} name-to-field-id rewrite is gated on the same
* answer. Resolved per-table via {@link #hasScanCapability} for the same reason as Top-N: legacy gated it on
* the per-table file format (parquet/orc only), which a connector-wide capability cannot express for a
* heterogeneous hive catalog.
*/
public boolean supportsNestedColumnPrune() {
return hasScanCapability(ConnectorCapability.SUPPORTS_NESTED_COLUMN_PRUNE);
}
/**
* Returns whether THIS table exposes a connector metadata table (e.g. the hudi commit timeline) queryable via
* the {@code hudi_meta()} / TIMELINE TVF. Resolved per-table via {@link #hasScanCapability}: a uniform
* connector (hudi) declares it connector-wide, and the hive gateway reflects it onto a hudi-on-HMS table's
* schema so the TVF keeps serving it after the flip; a connector with no metadata table returns false and the
* TVF rejects the table.
*/
public boolean supportsMetadataTable() {
return hasScanCapability(ConnectorCapability.SUPPORTS_METADATA_TABLE);
}
/**
* Returns whether THIS table supports {@code ANALYZE ... WITH SAMPLE}. Consulted by
* {@code AnalysisManager.canSample}, {@code AnalyzeTableCommand.isSamplingPartition}, {@link
* #createAnalysisTask} (to return a sample-capable task) and the background auto-analyze method choice.
* Resolved per-table via {@link #hasScanCapability}: hive emits it for its plain-hive tables only (legacy
* {@code dlaType==HIVE}), so iceberg/hudi-on-HMS are excluded; native iceberg/paimon never declare it (their
* {@code doSample} is unimplemented), keeping their current build-time reject. Mirrors
* {@link #supportsTopNLazyMaterialize}.
*/
public boolean supportsSampleAnalyze() {
return hasScanCapability(ConnectorCapability.SUPPORTS_SAMPLE_ANALYZE);
}
/**
* Whether this table supports a per-table-refinable scan-planning capability, resolved connector-wide OR
* per-table. A uniform-format connector (iceberg ��� every table orc/parquet) declares the capability for all
* its tables via {@link Connector#getCapabilities()}; a heterogeneous connector (hive) whose eligibility is
* per-table file-format gated instead emits the capability name per-table in the
* {@link ConnectorTableSchema#PER_TABLE_CAPABILITIES_KEY} schema marker, read here from the already-cached
* schema (no remote round-trip). The two sources are additive, so single-format connectors never emit the
* marker and behave exactly as before. fe-core never inspects the file format ��� the connector decides which
* of its tables qualify by emitting (or not) the capability name.
*/
private boolean hasScanCapability(ConnectorCapability capability) {
if (!(catalog instanceof PluginDrivenExternalCatalog)) {
return false;
}
Connector connector = ((PluginDrivenExternalCatalog) catalog).getConnector();
if (connector == null) {
return false;
}
if (connector.getCapabilities().contains(capability)) {
return true;
}
String csv = rawTableProperties().get(ConnectorTableSchema.PER_TABLE_CAPABILITIES_KEY);
if (csv == null || csv.isEmpty()) {
return false;
}
for (String name : csv.split(",")) {
if (name.trim().equals(capability.name())) {
return true;
}
}
return false;
}
/**
* Returns whether the underlying connector's table properties are user-facing and safe to render in
* SHOW CREATE TABLE. The SHOW CREATE TABLE plugin-driven arm renders LOCATION + PROPERTIES (+ the
* pre-rendered PARTITION BY / ORDER BY clauses) only when this is true (in place of the legacy
* paimon-only engine-name gate, which doubled as the JDBC/ES credential-leak guard).
*/
public boolean supportsShowCreateDdl() {
if (!(catalog instanceof PluginDrivenExternalCatalog)) {
return false;
}
Connector connector = ((PluginDrivenExternalCatalog) catalog).getConnector();
return connector != null
&& connector.getCapabilities().contains(ConnectorCapability.SUPPORTS_SHOW_CREATE_DDL);
}
/**
* Returns whether the underlying connector exposes views (declares {@code SUPPORTS_VIEW}). When true,
* {@link #isView()} resolves this table's view-ness from the connector ({@code viewExists}) and the
* catalog merges the connector's {@code listViewNames} back into {@code SHOW TABLES}. View-less
* connectors (jdbc/es) return false and keep every object a non-view. Mirror of the other capability
* helpers.
*/
public boolean supportsView() {
if (!(catalog instanceof PluginDrivenExternalCatalog)) {
return false;
}
Connector connector = ((PluginDrivenExternalCatalog) catalog).getConnector();
return connector != null
&& connector.getCapabilities().contains(ConnectorCapability.SUPPORTS_VIEW);
}
/**
* Returns whether the underlying connector requires dynamic-partition writes to be
* hash-distributed by partition columns and locally sorted by them (e.g. MaxCompute Storage
* API). Used by {@code PhysicalConnectorTableSink} to require that distribution + sort for
* dynamic-partition writes; defaults to false so non-partitioned connectors are unaffected.
*/
public boolean requirePartitionLocalSortOnWrite() {
if (!(catalog instanceof PluginDrivenExternalCatalog)) {
return false;
}
Connector connector = ((PluginDrivenExternalCatalog) catalog).getConnector();
return connector != null && connector.requiresPartitionLocalSort();
}
/**
* Returns whether the underlying connector requires dynamic-partition writes to be hash-distributed by
* partition columns but <b>not</b> locally sorted (e.g. Hive: the file writer buffers a per-partition
* writer, so the hash alone keeps each partition on one instance without a sort). Used by
* {@code PhysicalConnectorTableSink} to require that hash distribution (no {@code MustLocalSortOrderSpec}) for
* dynamic-partition writes; a connector sets at most one of this and {@link #requirePartitionLocalSortOnWrite()}.
* Defaults to false so non-partitioned connectors are unaffected.
*/
public boolean requirePartitionHashOnWrite() {
if (!(catalog instanceof PluginDrivenExternalCatalog)) {
return false;
}
Connector connector = ((PluginDrivenExternalCatalog) catalog).getConnector();
if (connector == null) {
return false;
}
// Per-table: hive requires partition-hash writes but iceberg does not, so resolve the handle.
return resolveWriteCapabilityHandle(connector)
.map(connector::requiresPartitionHashWrite)
.orElse(false);
}
/**
* Returns whether the underlying connector maps write data columns positionally against the full
* table schema (e.g. MaxCompute), requiring the sink to project rows to full-schema order with
* unmentioned columns filled. Name-mapped connectors (e.g. JDBC) return false and keep their data
* in user/cols order. Used by {@code BindSink.bindConnectorTableSink}; defaults to false.
*/
public boolean requiresFullSchemaWriteOrder() {
if (!(catalog instanceof PluginDrivenExternalCatalog)) {
return false;
}
Connector connector = ((PluginDrivenExternalCatalog) catalog).getConnector();
return connector != null && connector.requiresFullSchemaWriteOrder();
}
/**
* Returns whether the underlying connector's data files retain partition columns, so a static-partition
* write must materialize the PARTITION-clause literal into the data column instead of NULL-filling it
* (e.g. Iceberg). Connectors that strip partition columns and refill them from {@code
* static_partition_values} (e.g. MaxCompute) return false. Used by {@code BindSink.bindConnectorTableSink};
* defaults to false.
*/
public boolean materializeStaticPartitionValues() {
if (!(catalog instanceof PluginDrivenExternalCatalog)) {
return false;
}
Connector connector = ((PluginDrivenExternalCatalog) catalog).getConnector();
if (connector == null) {
return false;
}
// Per-table: iceberg retains partition columns (materialize the PARTITION literal), hive does not.
return resolveWriteCapabilityHandle(connector)
.map(connector::requiresMaterializeStaticPartitionValues)
.orElse(false);
}
@Override
public boolean supportsExternalMetadataPreload() {
if (!(catalog instanceof PluginDrivenExternalCatalog)) {
return false;
}
// F11: gate async metadata pre-load on the connector-declared SUPPORTS_METADATA_PRELOAD capability
// (replacing the legacy engine-name "jdbc" string, per the iron rule). jdbc and iceberg both declare
// it; connectors not yet validated for concurrent pre-warming (e.g. ES) do not, and fall back to
// synchronous load at binding time. Pure planning/lock-latency optimization, no correctness effect.
Connector connector = ((PluginDrivenExternalCatalog) catalog).getConnector();
return connector != null
&& connector.getCapabilities().contains(ConnectorCapability.SUPPORTS_METADATA_PRELOAD);
}
@Override
public Optional<SchemaCacheValue> initSchema() {
PluginDrivenExternalCatalog pluginCatalog = (PluginDrivenExternalCatalog) catalog;
// Keep the JDBC schema delay debug point available for manual regression verification.
if ("jdbc".equalsIgnoreCase(pluginCatalog.getType())
&& DebugPointUtil.isEnable("PluginDrivenExternalTable.initSchema.sleep")) {
long sleepMs = DebugPointUtil.getDebugParamOrDefault(
"PluginDrivenExternalTable.initSchema.sleep", "sleepMs", 0L);
if (sleepMs > 0) {
LOG.info("debug point PluginDrivenExternalTable.initSchema.sleep hit for {}.{}, sleep {}ms",
db != null ? db.getRemoteName() : "", getRemoteName(), sleepMs);
try {
Thread.sleep(sleepMs);
} catch (InterruptedException ignore) {
Thread.currentThread().interrupt();
}
}
}
Connector connector = pluginCatalog.getConnector();
ConnectorSession session = pluginCatalog.buildConnectorSession();
ConnectorMetadata metadata = connector.getMetadata(session);
String dbName = db != null ? db.getRemoteName() : "";
String tableName = getRemoteName();
if (isView()) {
// A connector view has no table handle (the SDK tableExists() is false for views); build the schema
// from the view definition's columns instead. Mirrors legacy IcebergUtils.loadViewSchemaCacheValue
// (icebergView.schema()). Gated on isView() => only view-supporting connectors (SUPPORTS_VIEW) reach
// here; view-less connectors (jdbc/paimon/maxcompute) keep isView()==false and skip this.
ConnectorViewDefinition viewDefinition = metadata.getViewDefinition(session, dbName, tableName);
ConnectorTableSchema viewSchema = new ConnectorTableSchema(
tableName, viewDefinition.getColumns(), null, Collections.emptyMap());
return Optional.of(toSchemaCacheValue(metadata, session, dbName, tableName, viewSchema));
}
Optional<ConnectorTableHandle> handleOpt = resolveConnectorTableHandle(session, metadata);
if (!handleOpt.isPresent()) {
LOG.warn("Table handle not found for plugin-driven table: {}.{}", dbName, tableName);
return Optional.empty();
}
ConnectorTableSchema tableSchema = metadata.getTableSchema(session, handleOpt.get());
return Optional.of(toSchemaCacheValue(metadata, session, dbName, tableName, tableSchema));
}
/**
* Converts a connector {@link ConnectorTableSchema} into a {@link PluginDrivenSchemaCacheValue}:
* applies identifier mapping to the column names and derives the partition-column views from the
* {@code partition_columns} property. Shared by {@link #initSchema()} (latest schema) and the
* MVCC subclass (schema AS OF a pinned snapshot), so both produce byte-identical cache values.
*/
protected PluginDrivenSchemaCacheValue toSchemaCacheValue(ConnectorMetadata metadata,
ConnectorSession session, String dbName, String tableName, ConnectorTableSchema tableSchema) {
// Apply identifier mapping to column names (lowercase / explicit mapping)
List<ConnectorColumn> mappedColumns = new ArrayList<>(tableSchema.getColumns().size());
for (ConnectorColumn col : tableSchema.getColumns()) {
String mappedName = metadata.fromRemoteColumnName(session, dbName, tableName, col.getName());
if (!mappedName.equals(col.getName())) {
ConnectorColumn remapped = new ConnectorColumn(mappedName, col.getType(),
col.getComment(), col.isNullable(), col.getDefaultValue(), col.isKey());
// Preserve the WITH_TIMEZONE marker across the name remap (the 6-arg ctor defaults it off)
// so DESC still shows the Extra marker for renamed/explicitly-mapped TZ columns.
if (col.isWithTimeZone()) {
remapped = remapped.withTimeZone();
}
mappedColumns.add(remapped);
} else {
mappedColumns.add(col);
}
}
List<Column> columns = ConnectorColumnConverter.convertColumns(mappedColumns);
// Identify partition columns from the connector's "partition_columns" property (a CSV of
// RAW remote column names; producer: MaxComputeConnectorMetadata). We keep two aligned
// views: the Doris Columns (with mapped/local names, used for getPartitionColumns + types)
// and the raw remote names (used to index the raw-keyed partition-value maps from the SPI).
// The columns themselves are already present in `columns` (the connector appends partition
// columns to the schema, mirroring legacy); here we only mark which ones are partitions.
List<Column> partitionColumns = new ArrayList<>();
List<String> partitionColumnRemoteNames = new ArrayList<>();
String partColsProp = tableSchema.getProperties().get("partition_columns");
if (partColsProp != null && !partColsProp.isEmpty()) {
Map<String, Column> byName = Maps.newHashMapWithExpectedSize(columns.size());
for (Column c : columns) {
byName.putIfAbsent(c.getName(), c);
}
for (String rawName : partColsProp.split(",")) {
rawName = rawName.trim();
if (rawName.isEmpty()) {
continue;
}
String mappedName = metadata.fromRemoteColumnName(session, dbName, tableName, rawName);
Column col = byName.get(mappedName);
if (col != null) {
partitionColumns.add(col);
partitionColumnRemoteNames.add(rawName);
}
}
}
return new PluginDrivenSchemaCacheValue(columns, partitionColumns, partitionColumnRemoteNames,
tableSchema.getProperties());
}
@Override
protected synchronized void makeSureInitialized() {
super.makeSureInitialized();
if (!objectCreated) {
objectCreated = true;
isView = resolveIsView();
}
}
@Override
public boolean isView() {
makeSureInitialized();
return isView;
}
/**
* Resolves whether this table is a view by consulting the connector ({@code viewExists}), mirroring
* legacy {@code IcebergExternalTable.makeSureInitialized -> catalog.viewExists}. Gated on
* {@link #supportsView()} so view-less connectors (jdbc/es/paimon/maxcompute) issue no remote call and
* stay {@code isView()==false}. The system-table subclass overrides this to a constant {@code false}
* (metadata tables like {@code $snapshots} are never views, and a {@code viewExists} on their synthetic
* name would be a wasted ��� possibly failing ��� round-trip).
*/
protected boolean resolveIsView() {
if (!supportsView()) {
return false;
}
PluginDrivenExternalCatalog pluginCatalog = (PluginDrivenExternalCatalog) catalog;
Connector connector = pluginCatalog.getConnector();
if (connector == null) {
return false;
}
ConnectorSession session = pluginCatalog.buildConnectorSession();
ConnectorMetadata metadata = connector.getMetadata(session);
String dbName = db != null ? db.getRemoteName() : "";
return metadata.viewExists(session, dbName, getRemoteName());
}
/**
* Returns the stored SQL text of this view, mirroring legacy {@code IcebergExternalTable.getViewText}.
* Issues one connector round-trip ({@code getViewDefinition}) ��� the same single remote load the legacy
* query path made ��� so {@code BindRelation} (and SHOW CREATE) can parse and analyze the view body.
* Callers gate on {@link #supportsView()} + {@link #isView()}; on a view-less connector the SPI default
* fails loud. (Legacy {@code getSqlDialect} is intentionally not ported ��� it has no caller; the view
* body is converted by the session dialect in {@code BindRelation.parseAndAnalyzeExternalView}, and the
* connector already uses the view's own dialect internally to pick the SQL representation.)
*/
public String getViewText() {
PluginDrivenExternalCatalog pluginCatalog = (PluginDrivenExternalCatalog) catalog;
Connector connector = pluginCatalog.getConnector();
ConnectorSession session = pluginCatalog.buildConnectorSession();
ConnectorMetadata metadata = connector.getMetadata(session);
String dbName = db != null ? db.getRemoteName() : "";
ConnectorViewDefinition definition = metadata.getViewDefinition(session, dbName, getRemoteName());
return definition.getSql();
}
/**
* Renders the connector's native {@code SHOW CREATE TABLE} DDL (a fresh, cache-bypassing metastore read) for
* the SHOW CREATE TABLE command's connector arm. Mirrors {@link #getViewText}'s single connector round-trip
* (and, like it, is safe to call under the command's table read-lock ��� no {@code makeSureInitialized}). Returns
* {@link Optional#empty()} when the connector supplies no native DDL (iceberg/paimon/es/jdbc inherit the empty
* SPI default {@link ConnectorMetadata#renderShowCreateTableDdl}), or when the handle cannot be resolved ��� the
* command then falls through to the generic {@code Env.getDdlStmt} rendering unchanged. A native-rendering
* connector (hive) returns the full statement, fetched fresh so it reflects a just-applied external ALTER even
* while DESC serves a cached schema.
*/
public Optional<String> getShowCreateTableDdl() {
PluginDrivenExternalCatalog pluginCatalog = (PluginDrivenExternalCatalog) catalog;
Connector connector = pluginCatalog.getConnector();
if (connector == null) {
return Optional.empty();
}
ConnectorSession session = pluginCatalog.buildConnectorSession();
ConnectorMetadata metadata = connector.getMetadata(session);
Optional<ConnectorTableHandle> handleOpt = resolveConnectorTableHandle(session, metadata);
if (!handleOpt.isPresent()) {
return Optional.empty();
}
return metadata.renderShowCreateTableDdl(session, handleOpt.get());
}
@Override
public boolean isPartitionedTable() {
makeSureInitialized();
return !getPartitionColumns().isEmpty();
}
@Override
public List<Column> getPartitionColumns(Optional<MvccSnapshot> snapshot) {
return getPartitionColumns();
}
public List<Column> getPartitionColumns() {
makeSureInitialized();
return getSchemaCacheValue()
.map(value -> ((PluginDrivenSchemaCacheValue) value).getPartitionColumns())
.orElse(Collections.emptyList());
}
/**
* Opens the hidden-column gate while a row-level DML over THIS table is in flight, mirroring legacy
* {@code IcebergExternalTable.needInternalHiddenColumns}. The signal is the neutral per-table ctx flag
* the generic {@code RowLevelDmlCommand} sets (not an iceberg concept); a connector with no synthetic
* write columns appends nothing even with the gate open, so this stays correct for every connector type.
*/
@Override
protected boolean needInternalHiddenColumns() {
ConnectContext ctx = ConnectContext.get();
return ctx != null && ctx.needsSyntheticWriteColForTable(getId());
}
/**
* Appends the connector's request-scoped synthetic write columns to the full schema when a write/DML
* over this table is in flight. The base schema (including any always-present hidden columns the
* connector declares through the schema cache, e.g. iceberg v3 row-lineage) comes from
* {@code super.getFullSchema()}; the request-scoped columns (e.g. iceberg's row-id STRUCT) are fetched
* live from the connector ��� they must not be cached ��� and appended only when the request gate is open:
* show-hidden, or the synthetic-write-column ctx flag set for this table during row-level DML. Mirrors
* legacy {@code IcebergExternalTable.getFullSchema}, but connector-agnostic (iron-law: no iceberg branch
* here) ��� a connector with no synthetic write columns (jdbc/es/paimon/maxcompute) keeps its byte-identical
* full schema.
*/
@Override
public List<Column> getFullSchema() {
List<Column> schema = super.getFullSchema();
if (schema == null || !(Util.showHiddenColumns() || needInternalHiddenColumns())) {
return schema;
}
List<ConnectorColumn> synthetic = fetchSyntheticWriteColumns();
if (synthetic.isEmpty()) {
return schema;
}
List<Column> result = new ArrayList<>(schema);
result.addAll(ConnectorColumnConverter.convertColumns(synthetic));
return result;
}
/**
* Fetches the connector's declared synthetic write columns for this table, in engine-neutral form.
* Degrades to an empty list on any miss (non-plugin catalog, a read-only connector with no write-plan
* provider, or an unresolvable table handle) and never throws ��� schema resolution must not fail a query.
*/
private List<ConnectorColumn> fetchSyntheticWriteColumns() {
if (!(catalog instanceof PluginDrivenExternalCatalog)) {
return Collections.emptyList();
}
PluginDrivenExternalCatalog pluginCatalog = (PluginDrivenExternalCatalog) catalog;
Connector connector = pluginCatalog.getConnector();
if (connector == null) {
return Collections.emptyList();
}
// Resolve the handle first so the write provider is selected per-table (a heterogeneous gateway routes
// iceberg-on-HMS to its sibling by the handle type); both null-degrade checks keep the empty fallback.
// Equivalent result for single-format connectors (getWritePlanProvider(handle) defaults to the no-arg
// one); this gated (show-hidden / row-level-DML) path resolves the handle before the provider-null check,
// so a read-only connector now resolves the handle here ��� a no-op for a write-capable connector, which
// resolved it regardless.
ConnectorSession session = pluginCatalog.buildConnectorSession();
ConnectorMetadata metadata = connector.getMetadata(session);
Optional<ConnectorTableHandle> handleOpt = resolveConnectorTableHandle(session, metadata);
if (!handleOpt.isPresent()) {
return Collections.emptyList();
}
ConnectorWritePlanProvider writePlanProvider = connector.getWritePlanProvider(handleOpt.get());
if (writePlanProvider == null) {
return Collections.emptyList();
}
return writePlanProvider.getSyntheticWriteColumns(session, handleOpt.get());
}
/** The raw connector-emitted table-property map (including FE-internal / render-hint keys). */
private Map<String, String> rawTableProperties() {
makeSureInitialized();
return getSchemaCacheValue()
.map(value -> ((PluginDrivenSchemaCacheValue) value).getTableProperties())
.orElse(Collections.emptyMap());
}
/**
* The connector's user-facing table properties (e.g. paimon coreOptions: path / file.format /
* write-only), used by SHOW CREATE TABLE to render the PROPERTIES(...) block (D-046). The
* FE-internal schema-control keys ({@code partition_columns} / {@code primary_keys}, emitted by
* the connector so {@link #initSchema()} can derive the partition columns) and the SHOW CREATE
* render-hint keys ({@code show.location} / {@code show.partition-clause} / {@code show.sort-clause},
* rendered as the LOCATION / PARTITION BY / ORDER BY clauses via {@link #getShowLocation()} etc.) and the
* per-table capability marker ({@code connector.per-table-capabilities}, consumed by {@link
* #supportsTopNLazyMaterialize()} / {@link #supportsNestedColumnPrune()}) are stripped ��� they are not
* user-facing options and must not leak into the rendered PROPERTIES(...).
*/
public Map<String, String> getTableProperties() {
Map<String, String> raw = rawTableProperties();
Map<String, String> result = new LinkedHashMap<>();
for (Map.Entry<String, String> entry : raw.entrySet()) {
String key = entry.getKey();
if ("partition_columns".equals(key) || "primary_keys".equals(key)
|| ConnectorTableSchema.SHOW_LOCATION_KEY.equals(key)
|| ConnectorTableSchema.SHOW_PARTITION_CLAUSE_KEY.equals(key)
|| ConnectorTableSchema.SHOW_SORT_CLAUSE_KEY.equals(key)
|| ConnectorTableSchema.PER_TABLE_CAPABILITIES_KEY.equals(key)
|| ConnectorTableSchema.DISTRIBUTION_COLUMNS_KEY.equals(key)) {
continue;
}
result.put(entry.getKey(), entry.getValue());
}
return result;
}
/**
* The table location string for the SHOW CREATE TABLE {@code LOCATION '...'} clause. Reads the
* connector's {@code show.location} render-hint key, falling back to the user-facing {@code path}
* property (paimon carries its location there, and keeps it in PROPERTIES). Returns "" if neither
* is present.
*/
public String getShowLocation() {
Map<String, String> raw = rawTableProperties();
String location = raw.getOrDefault(ConnectorTableSchema.SHOW_LOCATION_KEY, "");
return location.isEmpty() ? raw.getOrDefault("path", "") : location;
}
/** The pre-rendered {@code PARTITION BY ...} clause for SHOW CREATE TABLE, or "" if none. */
public String getShowPartitionClause() {
return rawTableProperties().getOrDefault(ConnectorTableSchema.SHOW_PARTITION_CLAUSE_KEY, "");
}
/** The pre-rendered {@code ORDER BY (...)} clause for SHOW CREATE TABLE, or "" if none. */
public String getShowSortClause() {
return rawTableProperties().getOrDefault(ConnectorTableSchema.SHOW_SORT_CLAUSE_KEY, "");
}
@Override
public boolean supportInternalPartitionPruned() {
// Unconditional true, mirroring legacy MaxComputeExternalTable (and IcebergExternalTable).
// This override is shared by every SPI-driven connector (jdbc/es/trino/max_compute via
// CatalogFactory.SPI_READY_TYPES) and true is correct for all of them, partitioned or not:
// - partitioned -> PruneFileScanPartition prunes to the surviving partitions;
// - non-partitioned -> PruneFileScanPartition takes its IF branch and pruneExternalPartitions
// returns NOT_PRUNED for empty partition columns, so the scan reads all.
// It must NOT be gated on `!getPartitionColumns().isEmpty()`: returning false for a
// non-partitioned table sends PruneFileScanPartition down its ELSE branch, which overwrites the
// selection with SelectedPartitions(0, {}, isPruned=true). PluginDrivenScanNode.getSplits() then
// reads that as "pruned to zero partitions" and short-circuits to no splits, so a filtered query
// over a non-partitioned table silently returns zero rows (data loss). See FIX-NONPART-PRUNE-DATALOSS.
return true;
}
@Override
public Map<String, PartitionItem> getNameToPartitionItems(Optional<MvccSnapshot> snapshot) {
List<Column> partitionColumns = getPartitionColumns();
if (partitionColumns.isEmpty()) {
return Collections.emptyMap();
}
List<String> remoteNames = getSchemaCacheValue()
.map(value -> ((PluginDrivenSchemaCacheValue) value).getPartitionColumnRemoteNames())
.orElse(Collections.emptyList());
List<Type> types = partitionColumns.stream().map(Column::getType).collect(Collectors.toList());
PluginDrivenExternalCatalog pluginCatalog = (PluginDrivenExternalCatalog) catalog;
Connector connector = pluginCatalog.getConnector();
ConnectorSession session = pluginCatalog.buildConnectorSession();
ConnectorMetadata metadata = connector.getMetadata(session);
Optional<ConnectorTableHandle> handleOpt = resolveConnectorTableHandle(session, metadata);
if (!handleOpt.isPresent()) {
return Collections.emptyMap();
}
// One round-trip, no FE-side partition-value cache (per CACHE-P1: the cutover lists
// partitions per query instead of maintaining a second-level cache). The connector returns
// each partition's display name plus a raw-keyed value map; we extract values in
// partition-column order via the cached remote names.
List<ConnectorPartitionInfo> partitions =
metadata.listPartitions(session, handleOpt.get(), Optional.empty());
List<String> partitionNames = new ArrayList<>(partitions.size());
List<List<String>> partitionValues = new ArrayList<>(partitions.size());
for (ConnectorPartitionInfo partition : partitions) {
partitionNames.add(partition.getPartitionName());
List<String> values = new ArrayList<>(remoteNames.size());
for (String remoteName : remoteNames) {
values.add(partition.getPartitionValues().get(remoteName));
}
partitionValues.add(values);
}
// Reuse TablePartitionValues so the PartitionItem construction (ListPartitionItem,
// isHive=false) is identical to legacy MaxComputeExternalMetaCache.loadPartitionValues,
// then invert id->item via id->name (mirroring MaxComputeExternalTable.getNameToPartitionItems).
TablePartitionValues tablePartitionValues = new TablePartitionValues();
tablePartitionValues.addPartitions(partitionNames, partitionValues, types,
Collections.nCopies(partitionNames.size(), 0L));
Map<Long, PartitionItem> idToPartitionItem = tablePartitionValues.getIdToPartitionItem();
Map<Long, String> idToNameMap = tablePartitionValues.getPartitionIdToNameMap();
Map<String, PartitionItem> nameToPartitionItem = Maps.newHashMapWithExpectedSize(idToPartitionItem.size());
for (Entry<Long, PartitionItem> entry : idToPartitionItem.entrySet()) {
nameToPartitionItem.put(idToNameMap.get(entry.getKey()), entry.getValue());
}
return nameToPartitionItem;
}
/**
* Partition display-name -> per-column partition values (in partition-column order), sourced from the
* connector's {@code listPartitions} in one round-trip (no FE-side partition-value cache, per the
* cutover's connector-owned caching). Values are extracted by the cached remote names; a value absent
* from the connector's raw map is left {@code null} (the partition_values() TVF renders it as SQL NULL,
* mirroring the legacy HMS {@code HivePartitionValues.getNameToPartitionValues()}). Empty for a
* non-partitioned table or an unresolved handle. Partition order preserved via a {@link LinkedHashMap}.
*
* <p>Deliberately separate from {@link #getNameToPartitionItems} (not a shared helper) so that live
* path stays byte- and cost-identical for paimon/iceberg ��� a shared name-keyed map would collapse the
* pathological duplicate-partition-name case that the parallel-list build there tolerates.
*/
public Map<String, List<String>> getNameToPartitionValues(Optional<MvccSnapshot> snapshot) {
if (getPartitionColumns().isEmpty()) {
return Collections.emptyMap();
}
List<String> remoteNames = getSchemaCacheValue()
.map(value -> ((PluginDrivenSchemaCacheValue) value).getPartitionColumnRemoteNames())
.orElse(Collections.emptyList());
PluginDrivenExternalCatalog pluginCatalog = (PluginDrivenExternalCatalog) catalog;
Connector connector = pluginCatalog.getConnector();
ConnectorSession session = pluginCatalog.buildConnectorSession();
ConnectorMetadata metadata = connector.getMetadata(session);
Optional<ConnectorTableHandle> handleOpt = resolveConnectorTableHandle(session, metadata);
if (!handleOpt.isPresent()) {
return Collections.emptyMap();
}
List<ConnectorPartitionInfo> partitions =
metadata.listPartitions(session, handleOpt.get(), Optional.empty());
Map<String, List<String>> nameToValues = Maps.newLinkedHashMap();
for (ConnectorPartitionInfo partition : partitions) {
List<String> values = new ArrayList<>(remoteNames.size());
for (String remoteName : remoteNames) {
values.add(partition.getPartitionValues().get(remoteName));
}
nameToValues.put(partition.getPartitionName(), values);
}
return nameToValues;
}
/**
* Engine-neutral rows for a connector metadata table (the {@code hudi_meta()} / TIMELINE TVF), sourced from
* the connector's {@link ConnectorMetadata#getMetadataTableRows} in one round-trip. {@code kind} selects the
* metadata table (currently only {@code "timeline"}). Each returned row is the ordered String cell values the
* TVF renders (nulls -> SQL NULL). Empty for an unresolved handle. A NEW standalone method (like
* {@link #getNameToPartitionValues}) ��� byte/cost-invariant for paimon/iceberg, which never declare
* {@code SUPPORTS_METADATA_TABLE} and so never reach this via the capability-gated TVF arm. No TCCL pin here;
* the connector pins internally (bundled hudi timeline reflection).
*/
public List<List<String>> getMetadataTableRows(String kind) {
if (!(catalog instanceof PluginDrivenExternalCatalog)) {
return Collections.emptyList();
}
PluginDrivenExternalCatalog pluginCatalog = (PluginDrivenExternalCatalog) catalog;
Connector connector = pluginCatalog.getConnector();
if (connector == null) {
return Collections.emptyList();
}
ConnectorSession session = pluginCatalog.buildConnectorSession();
ConnectorMetadata metadata = connector.getMetadata(session);
Optional<ConnectorTableHandle> handleOpt = resolveConnectorTableHandle(session, metadata);
if (!handleOpt.isPresent()) {
return Collections.emptyList();
}
return metadata.getMetadataTableRows(session, handleOpt.get(), kind);
}
@Override
public long getCachedRowCount() {
// Do NOT call makeSureInitialized() here.
// ExternalTable.getCachedRowCount() intentionally returns -1 for uninitialized tables
// so that SHOW TABLE STATUS / information_schema.tables stays non-blocking.
if (!isObjectCreated()) {
return -1;
}
return Env.getCurrentEnv().getExtMetaCacheMgr().getRowCountCache()
.getCachedRowCount(catalog.getId(), dbId, id, false);
}
@Override
public String getComment() {
return getComment(false);
}
@Override
public String getComment(boolean escapeQuota) {
String remoteDbName = db != null ? db.getRemoteName() : "";
try {
PluginDrivenExternalCatalog pluginCatalog = (PluginDrivenExternalCatalog) catalog;
Connector connector = pluginCatalog.getConnector();
ConnectorSession session = pluginCatalog.buildConnectorSession();
ConnectorMetadata metadata = connector.getMetadata(session);
String tableName = getRemoteName();
String comment = metadata.getTableComment(session, remoteDbName, tableName);
if (escapeQuota && comment != null) {
return comment.replace("'", "\\'");
}
return comment != null ? comment : "";
} catch (Exception e) {
LOG.debug("Failed to get table comment for {}.{}", remoteDbName, name, e);
return "";
}
}
/**
* Exposes the connector's system tables (e.g. {@code tbl$snapshots}) through the live fe-core
* system-table machinery. Delegates name discovery to the connector SPI
* ({@link ConnectorMetadata#listSupportedSysTables}); each returned bare name (already lowercase)
* is wrapped in a {@link PluginDrivenSysTable} so {@link org.apache.doris.catalog.TableIf#findSysTable}
* resolves {@code tbl$name} and {@link org.apache.doris.datasource.systable.SysTableResolver} can
* build the transient sys ExternalTable. Mirrors the legacy no-cache getTableHandle pattern: the
* handle/name list is fetched per call (system-table planning is infrequent), so no extra caching.
*/
@Override
public Map<String, SysTable> getSupportedSysTables() {
if (!(catalog instanceof PluginDrivenExternalCatalog)) {
return Collections.emptyMap();
}
makeSureInitialized();
PluginDrivenExternalCatalog pluginCatalog = (PluginDrivenExternalCatalog) catalog;
Connector connector = pluginCatalog.getConnector();
ConnectorSession session = pluginCatalog.buildConnectorSession();
ConnectorMetadata metadata = connector.getMetadata(session);
Optional<ConnectorTableHandle> handleOpt = resolveConnectorTableHandle(session, metadata);
if (!handleOpt.isPresent()) {
return Collections.emptyMap();
}
List<String> names = metadata.listSupportedSysTables(session, handleOpt.get());
if (names.isEmpty()) {
return Collections.emptyMap();
}
// Keep keys exactly as returned by the connector (already lowercase) so the inherited,
// case-sensitive findSysTable exact-match works, mirroring legacy PaimonSysTable keys.
Map<String, SysTable> result = Maps.newHashMapWithExpectedSize(names.size());
for (String sysName : names) {
if (metadata.isPartitionValuesSysTable(session, handleOpt.get(), sysName)) {
// Connector declares this name is served by the generic partition_values TVF (e.g. hive
// t$partitions), not a native scan. Key on the singleton's OWN name (== "partitions"):
// PartitionsSysTable strips its hard-wired "$partitions" suffix in createFunction, so a
// differing key would crash there; identical to sysName for hive today, strictly safer.
result.put(PartitionsSysTable.INSTANCE.getSysTableName(), PartitionsSysTable.INSTANCE);
} else {
result.put(sysName, new PluginDrivenSysTable(sysName));
}
}
return Collections.unmodifiableMap(result);
}
@Override
public void gsonPostProcess() throws IOException {
super.gsonPostProcess();
// After deserializing a migrated old table (e.g., EsExternalTable ��� PluginDrivenExternalTable),
// fix the table type so that BindRelation routes to LogicalFileScan (new path).
if (type != TableType.PLUGIN_EXTERNAL_TABLE) {
LOG.info("Migrating table '{}' type from {} to PLUGIN_EXTERNAL_TABLE", name, type);
type = TableType.PLUGIN_EXTERNAL_TABLE;
}
}
@Override
public BaseAnalysisTask createAnalysisTask(AnalysisInfo info) {
makeSureInitialized();
if (supportsSampleAnalyze()) {
// A flipped plain-hive table keeps ANALYZE ... WITH SAMPLE working (ExternalAnalysisTask.doSample
// throws NotImplementedException). iceberg/paimon do NOT declare the capability, so they stay on the
// byte-identical ExternalAnalysisTask path ��� the extra check is one cached capability lookup.
return new PluginDrivenSampleAnalysisTask(info);
}
return new ExternalAnalysisTask(info);
}
/**
* The query-planner column-statistics fast path (consulted by {@code ColumnStatisticsCacheLoader} on a
* stats-cache miss): asks the connector for the no-scan column stats it can serve cheaply and turns the raw
* facts into a Doris {@link ColumnStatistic}. Empty (fe-core falls back to a full ANALYZE) when the
* connector has no such stats. Mirrors legacy {@code HMSExternalTable.getHiveColumnStats} +
* {@code setStatData}: the connector returns raw ndv / numNulls / (string) avgColLen, and THIS side does the
* Doris-type-dependent size math the connector cannot (it must not import fe-type) ��� a string column's size
* is {@code round(avgColLen * count)}, every other type's is {@code count * <slot width>}; min/max stay
* unconstrained (the {@link ColumnStatisticBuilder} defaults, i.e. legacy's NEGATIVE/POSITIVE_INFINITY).
*/
@Override
public Optional<ColumnStatistic> getColumnStatistic(String colName) {
makeSureInitialized();
if (!(catalog instanceof PluginDrivenExternalCatalog)) {
return Optional.empty();
}
PluginDrivenExternalCatalog pluginCatalog = (PluginDrivenExternalCatalog) catalog;
Connector connector = pluginCatalog.getConnector();
if (connector == null) {
return Optional.empty();
}
ConnectorSession session = pluginCatalog.buildConnectorSession();
ConnectorMetadata metadata = connector.getMetadata(session);
Optional<ConnectorTableHandle> handleOpt = resolveConnectorTableHandle(session, metadata);
if (!handleOpt.isPresent()) {
return Optional.empty();
}
Optional<ConnectorColumnStatistics> statsOpt =
metadata.getColumnStatistics(session, handleOpt.get(), colName);
if (!statsOpt.isPresent()) {
return Optional.empty();
}
return toColumnStatistic(statsOpt.get(), getColumn(colName));
}
/**
* The raw per-file byte sizes that {@code ANALYZE ... WITH SAMPLE} seed-shuffles and cumulates into a sample
* scale factor, from the connector's file listing (like legacy {@code HMSExternalTable.getChunkSizes}). The
* connector returns only the raw byte lengths; the Doris-type slot-width math stays fe-core-side in the sample
* task. Overrides {@link ExternalTable#getChunkSizes()} (which throws {@code NotImplementedException}); returns
* empty on any miss (non-plugin catalog / null connector / unresolved handle) so a connector that cannot list
* degrades the sampler to scale factor 1. Inert for iceberg/paimon ��� only reached from the sample task, which
* they never create. No TCCL pin here; the hive {@code listFileSizes} impl pins internally (parity with
* {@link #fetchRowCount()} / {@link #getColumnStatistic}).
*/
@Override
public List<Long> getChunkSizes() {
makeSureInitialized();
if (!(catalog instanceof PluginDrivenExternalCatalog)) {
return Collections.emptyList();
}
PluginDrivenExternalCatalog pluginCatalog = (PluginDrivenExternalCatalog) catalog;
Connector connector = pluginCatalog.getConnector();
if (connector == null) {
return Collections.emptyList();
}
ConnectorSession session = pluginCatalog.buildConnectorSession();
ConnectorMetadata metadata = connector.getMetadata(session);
Optional<ConnectorTableHandle> handleOpt = resolveConnectorTableHandle(session, metadata);
if (!handleOpt.isPresent()) {
return Collections.emptyList();
}
return metadata.listFileSizes(session, handleOpt.get());
}
/**
* The table's distribution (bucketing) column names, lowercased, from the connector's per-table
* {@code connector.distribution-columns} schema marker (read from the already-cached schema, no round-trip).
* Overrides the {@code TableIf} empty default so a flipped bucketed hive table matches legacy
* {@code HMSExternalTable.getDistributionColumnNames} (which lowercased on this side too). Empty for a
* non-bucketed table and for connectors that emit no marker (paimon/iceberg) ��� byte-invariant for them. Used by
* sampled ANALYZE to pick the linear-vs-DUJ1 NDV estimator.
*/
@Override
public Set<String> getDistributionColumnNames() {
String csv = rawTableProperties().get(ConnectorTableSchema.DISTRIBUTION_COLUMNS_KEY);
if (csv == null || csv.isEmpty()) {
return Collections.emptySet();
}
Set<String> result = new HashSet<>();
for (String name : csv.split(",")) {
String trimmed = name.trim();
if (!trimmed.isEmpty()) {
result.add(trimmed.toLowerCase());
}
}
return result;
}
/**
* Turns the connector's raw {@link ConnectorColumnStatistics} into a Doris {@link ColumnStatistic},
* doing the Doris-type-dependent size math the connector cannot (legacy {@code setStatData} parity): a
* string column (avgSizeBytes >= 0) sizes to {@code round(avgColLen * count)}, every other type to
* {@code count * <slot width>}; {@code avgSizeByte = dataSize / count}; min/max stay at the builder's
* unconstrained defaults. Empty when the column is unknown or the row count is non-positive (no size
* basis, legacy returned empty). Package-private + static so the math can be unit-tested directly.
*/
static Optional<ColumnStatistic> toColumnStatistic(ConnectorColumnStatistics stats, Column column) {
long count = stats.getRowCount();
if (column == null || count <= 0) {
return Optional.empty();
}
double dataSize;
if (stats.getAvgSizeBytes() >= 0) {
dataSize = Math.round(stats.getAvgSizeBytes() * count);
} else {
// Long arithmetic (count * slotSize) exactly like legacy setStatData, then widened.
dataSize = count * column.getType().getSlotSize();
}
ColumnStatisticBuilder builder = new ColumnStatisticBuilder(count);
builder.setNdv(stats.getNdv());
builder.setNumNulls(stats.getNumNulls());
builder.setDataSize(dataSize);
builder.setAvgSizeByte(dataSize / count);
return Optional.of(builder.build());
}
@Override
public long fetchRowCount() {
makeSureInitialized();
PluginDrivenExternalCatalog pluginCatalog = (PluginDrivenExternalCatalog) catalog;
Connector connector = pluginCatalog.getConnector();
ConnectorSession session = pluginCatalog.buildConnectorSession();
ConnectorMetadata metadata = connector.getMetadata(session);
Optional<ConnectorTableHandle> handleOpt = resolveConnectorTableHandle(session, metadata);
if (!handleOpt.isPresent()) {
return UNKNOWN_ROW_COUNT;
}
Optional<ConnectorTableStatistics> statsOpt = metadata.getTableStatistics(session, handleOpt.get());
if (statsOpt.isPresent()) {
ConnectorTableStatistics stats = statsOpt.get();
if (stats.getRowCount() >= 0) {
return stats.getRowCount();
}
// The connector surfaced an on-disk data size but no exact row count (e.g. a hive table with
// totalSize set but no numRows). Estimate the cardinality as dataSize / <average Doris row
// width> ��� the Doris-type-dependent division the connector cannot perform (it must not import
// fe-type). Connector-agnostic: every other connector reports dataSize -1, so this branch is
// inert for them. Mirrors legacy StatisticsUtil.getHiveRowCount's totalSize/estimatedRowSize
// path (row width summed over the FULL schema, partition columns included, exactly as legacy).
// A quotient that truncates to 0 is NOT a valid "empty table" answer ��� legacy collapsed 0 ->
// UNKNOWN and fell through to the file-list estimate below, so only a positive quotient returns.
if (stats.getDataSize() > 0) {
long rowWidth = estimatedRowWidth(false);
if (rowWidth > 0) {
long rows = stats.getDataSize() / rowWidth;
if (rows > 0) {
return rows;
}
}
}
}
// Neither an exact count nor a metastore-recorded size: estimate the on-disk data size by listing
// the table's data files (connector-provided; every non-file connector returns -1) and divide by the
// row width, this time EXCLUDING partition columns because their values live in the directory path,
// not the data files. Mirrors legacy HMSExternalTable.getRowCountFromFileList. Gated by the global
// feature flag because the listing can be a costly remote round-trip; the connector self-samples,
// pins its classloader, and degrades to -1 rather than throwing.
if (GlobalVariable.enable_get_row_count_from_file_list) {
long dataSize = metadata.estimateDataSizeByListingFiles(session, handleOpt.get());
if (dataSize > 0) {
long rowWidth = estimatedRowWidth(true);
if (rowWidth > 0) {
// 0 -> UNKNOWN (legacy getRowCountFromFileList's `rows > 0 ? rows : UNKNOWN` gate).
long rows = dataSize / rowWidth;
if (rows > 0) {
return rows;
}
}
}
}
return UNKNOWN_ROW_COUNT;
}
/**
* Sum of Doris slot sizes over the full schema (or over the non-partition columns when
* {@code excludePartitionColumns}) ��� the average uncompressed row width used to turn a connector-reported
* on-disk data size into an estimated row count. Mirrors the two legacy hive formulas: a metastore
* {@code totalSize} is divided by the FULL-schema width ({@code StatisticsUtil.getHiveRowCount}), whereas
* a file-listed size is divided by the width EXCLUDING partition columns (whose values are not stored in
* the data files, {@code HMSExternalTable.getRowCountFromFileList}). Returns 0 for an empty/unavailable
* schema, which {@link #fetchRowCount} treats as "cannot estimate" (-> UNKNOWN).
*/
private long estimatedRowWidth(boolean excludePartitionColumns) {
List<Column> schema = getFullSchema();
if (schema == null) {
return 0;
}
List<Column> partitionColumns = excludePartitionColumns ? getPartitionColumns() : null;
long rowWidth = 0;
for (Column column : schema) {
if (partitionColumns != null && partitionColumns.contains(column)) {
continue;
}
rowWidth += column.getDataType().getSlotSize();
}
return rowWidth;
}
@Override
public String getEngine() {
// Return the legacy engine name based on the actual catalog type,
// not the generic "Plugin" from PLUGIN_EXTERNAL_TABLE.toEngineName().
// This preserves user-visible compatibility for migrated JDBC/ES tables
// across SHOW TABLE STATUS, information_schema.tables, REST API, etc.
String catalogType = catalog instanceof PluginDrivenExternalCatalog
? ((PluginDrivenExternalCatalog) catalog).getType() : "";
switch (catalogType) {
case "jdbc":
return TableType.JDBC_EXTERNAL_TABLE.toEngineName();
case "es":
return TableType.ES_EXTERNAL_TABLE.toEngineName();
case "iceberg":
// P6.5-T06: preserve the legacy IcebergExternalTable engine name "iceberg"
// (TableType.ICEBERG_EXTERNAL_TABLE.toEngineName()) for migrated iceberg base/sys tables,
// instead of the generic "Plugin" from PLUGIN_EXTERNAL_TABLE.
return TableType.ICEBERG_EXTERNAL_TABLE.toEngineName();
case "trino-connector":
// TableType.TRINO_CONNECTOR_EXTERNAL_TABLE.toEngineName() returns null
// (no switch case in TableType.toEngineName), matching legacy behavior.
return TableType.TRINO_CONNECTOR_EXTERNAL_TABLE.toEngineName();
case "max_compute":
// TableType.MAX_COMPUTE_EXTERNAL_TABLE.toEngineName() returns null
// (no switch case in TableType.toEngineName), matching legacy behavior.
return TableType.MAX_COMPUTE_EXTERNAL_TABLE.toEngineName();
case "paimon":
// TableType.PAIMON_EXTERNAL_TABLE.toEngineName() returns "paimon",
// preserving the legacy PaimonExternalTable engine name.
return TableType.PAIMON_EXTERNAL_TABLE.toEngineName();
case "hms":
// Post-flip an HMS external catalog is a PluginDrivenExternalCatalog (type "hms");
// legacy HMSExternalTable displayed engine "hms" (TableType.HMS_EXTERNAL_TABLE.toEngineName()),
// NOT "hive" ��� the CREATE-TABLE engine (CreateTableInfo.pluginCatalogTypeToEngine -> "hive")
// is a separate concern. Falling through to "Plugin" would regress SHOW TABLE STATUS /
// information_schema.tables.
return TableType.HMS_EXTERNAL_TABLE.toEngineName();
default:
return super.getEngine();
}
}
@Override
public String getEngineTableTypeName() {
String catalogType = catalog instanceof PluginDrivenExternalCatalog
? ((PluginDrivenExternalCatalog) catalog).getType() : "";
switch (catalogType) {
case "jdbc":
return TableType.JDBC_EXTERNAL_TABLE.name();
case "es":
return TableType.ES_EXTERNAL_TABLE.name();
case "iceberg":
return TableType.ICEBERG_EXTERNAL_TABLE.name();
case "trino-connector":
return TableType.TRINO_CONNECTOR_EXTERNAL_TABLE.name();
case "max_compute":
return TableType.MAX_COMPUTE_EXTERNAL_TABLE.name();
case "paimon":
return TableType.PAIMON_EXTERNAL_TABLE.name();
case "hms":
return TableType.HMS_EXTERNAL_TABLE.name();
default:
return TableType.PLUGIN_EXTERNAL_TABLE.name();
}
}
@Override
public TTableDescriptor toThrift() {
makeSureInitialized();
PluginDrivenExternalCatalog pluginCatalog = (PluginDrivenExternalCatalog) catalog;
Connector connector = pluginCatalog.getConnector();
ConnectorSession session = pluginCatalog.buildConnectorSession();
ConnectorMetadata metadata = connector.getMetadata(session);
String dbName = db != null ? db.getRemoteName() : "";
List<Column> schema = getFullSchema();
TTableDescriptor desc = metadata.buildTableDescriptor(session,
getId(), getName(), dbName, getRemoteName(),
schema.size(), pluginCatalog.getId());
if (desc != null) {
return desc;
}
LOG.warn("Connector returned null table descriptor for plugin table {}.{}, "
+ "using generic fallback", dbName, getName());
return new TTableDescriptor(getId(), TTableType.SCHEMA_TABLE,
schema.size(), 0, getName(), dbName);
}
}