-- This file and its contents are licensed under the Apache License 2.0. -- Please see the included NOTICE for copyright information and -- LICENSE-APACHE for a copy of the license. -- This file contains utility functions to get the relation size -- of hypertables, chunks, and indexes on hypertables. CREATE OR REPLACE FUNCTION _timescaledb_internal.relation_size(relation REGCLASS) RETURNS TABLE (total_size BIGINT, heap_size BIGINT, index_size BIGINT, toast_size BIGINT) AS '@MODULE_PATHNAME@', 'ts_relation_size' LANGUAGE C VOLATILE; CREATE OR REPLACE VIEW _timescaledb_internal.hypertable_chunk_local_size AS SELECT h.schema_name AS hypertable_schema, h.table_name AS hypertable_name, h.id AS hypertable_id, c.id AS chunk_id, c.schema_name AS chunk_schema, c.table_name AS chunk_name, COALESCE((relsize).total_size, 0) AS total_bytes, COALESCE((relsize).heap_size, 0) AS heap_bytes, COALESCE((relsize).index_size, 0) AS index_bytes, COALESCE((relsize).toast_size, 0) AS toast_bytes, COALESCE((relcompsize).total_size, 0) AS compressed_total_size, COALESCE((relcompsize).heap_size, 0) AS compressed_heap_size, COALESCE((relcompsize).index_size, 0) AS compressed_index_size, COALESCE((relcompsize).toast_size, 0) AS compressed_toast_size FROM _timescaledb_catalog.hypertable h JOIN _timescaledb_catalog.chunk c ON h.id = c.hypertable_id AND c.dropped IS FALSE JOIN LATERAL _timescaledb_internal.relation_size( format('%I.%I'::text, c.schema_name, c.table_name)::regclass) AS relsize ON TRUE LEFT JOIN _timescaledb_catalog.chunk comp ON comp.id = c.compressed_chunk_id LEFT JOIN LATERAL _timescaledb_internal.relation_size( CASE WHEN comp.schema_name IS NOT NULL AND comp.table_name IS NOT NULL THEN format('%I.%I', comp.schema_name, comp.table_name)::regclass ELSE NULL::regclass END ) AS relcompsize ON TRUE; GRANT SELECT ON _timescaledb_internal.hypertable_chunk_local_size TO PUBLIC; CREATE OR REPLACE FUNCTION _timescaledb_internal.data_node_hypertable_info( node_name NAME, schema_name_in name, table_name_in name ) RETURNS TABLE ( table_bytes bigint, index_bytes bigint, toast_bytes bigint, total_bytes bigint) AS '@MODULE_PATHNAME@', 'ts_dist_remote_hypertable_info' LANGUAGE C VOLATILE STRICT; CREATE OR REPLACE FUNCTION _timescaledb_internal.data_node_chunk_info( node_name NAME, schema_name_in name, table_name_in name ) RETURNS TABLE ( chunk_id integer, chunk_schema name, chunk_name name, table_bytes bigint, index_bytes bigint, toast_bytes bigint, total_bytes bigint) AS '@MODULE_PATHNAME@', 'ts_dist_remote_chunk_info' LANGUAGE C VOLATILE STRICT; CREATE OR REPLACE FUNCTION _timescaledb_internal.hypertable_local_size( schema_name_in name, table_name_in name) RETURNS TABLE ( table_bytes BIGINT, index_bytes BIGINT, toast_bytes BIGINT, total_bytes BIGINT) LANGUAGE SQL VOLATILE STRICT AS $BODY$ /* get the main hypertable id and sizes */ WITH _hypertable_sizes AS ( SELECT id, COALESCE((relsize).total_size, 0) AS total_bytes, COALESCE((relsize).heap_size, 0) AS heap_bytes, COALESCE((relsize).index_size, 0) AS index_bytes, COALESCE((relsize).toast_size, 0) AS toast_bytes, 0::BIGINT AS compressed_total_size, 0::BIGINT AS compressed_index_size, 0::BIGINT AS compressed_toast_size, 0::BIGINT AS compressed_heap_size FROM _timescaledb_catalog.hypertable JOIN LATERAL _timescaledb_internal.relation_size( format('%I.%I', schema_name, table_name)::regclass) AS relsize ON TRUE WHERE schema_name = schema_name_in AND table_name = table_name_in ), /* calculate the size of the hypertable chunks */ _chunk_sizes AS ( SELECT chunk_id, COALESCE(ch.total_bytes, 0) AS total_bytes, COALESCE(ch.heap_bytes, 0) AS heap_bytes, COALESCE(ch.index_bytes, 0) AS index_bytes, COALESCE(ch.toast_bytes, 0) AS toast_bytes, COALESCE(ch.compressed_total_size, 0) AS compressed_total_size, COALESCE(ch.compressed_index_size, 0) AS compressed_index_size, COALESCE(ch.compressed_toast_size, 0) AS compressed_toast_size, COALESCE(ch.compressed_heap_size, 0) AS compressed_heap_size FROM _timescaledb_internal.hypertable_chunk_local_size ch JOIN _hypertable_sizes ht ON ht.id = ch.hypertable_id WHERE hypertable_schema = schema_name_in AND hypertable_name = table_name_in ) /* calculate the SUM of the hypertable and chunk sizes */ SELECT (SUM(heap_bytes) + SUM(compressed_heap_size))::BIGINT AS heap_bytes, (SUM(index_bytes) + SUM(compressed_index_size))::BIGINT AS index_bytes, (SUM(toast_bytes) + SUM(compressed_toast_size))::BIGINT AS toast_bytes, (SUM(total_bytes) + SUM(compressed_total_size))::BIGINT AS total_bytes FROM (SELECT * FROM _hypertable_sizes UNION ALL SELECT * FROM _chunk_sizes) AS sizes; $BODY$ SET search_path TO pg_catalog, pg_temp; CREATE OR REPLACE FUNCTION _timescaledb_internal.hypertable_remote_size( schema_name_in name, table_name_in name) RETURNS TABLE ( table_bytes bigint, index_bytes bigint, toast_bytes bigint, total_bytes bigint, node_name NAME) LANGUAGE SQL VOLATILE STRICT AS $BODY$ SELECT sum(entry.table_bytes)::bigint AS table_bytes, sum(entry.index_bytes)::bigint AS index_bytes, sum(entry.toast_bytes)::bigint AS toast_bytes, sum(entry.total_bytes)::bigint AS total_bytes, srv.node_name FROM ( SELECT s.node_name FROM _timescaledb_catalog.hypertable AS ht, _timescaledb_catalog.hypertable_data_node AS s WHERE ht.schema_name = schema_name_in AND ht.table_name = table_name_in AND s.hypertable_id = ht.id ) AS srv LEFT OUTER JOIN LATERAL _timescaledb_internal.data_node_hypertable_info( srv.node_name, schema_name_in, table_name_in) entry ON TRUE GROUP BY srv.node_name; $BODY$ SET search_path TO pg_catalog, pg_temp; -- Get relation size of hypertable -- like pg_relation_size(hypertable) -- -- hypertable - hypertable to get size of -- -- Returns: -- table_bytes - Disk space used by hypertable (like pg_relation_size(hypertable)) -- index_bytes - Disk space used by indexes -- toast_bytes - Disk space of toast tables -- total_bytes - Total disk space used by the specified table, including all indexes and TOAST data CREATE OR REPLACE FUNCTION @extschema@.hypertable_detailed_size( hypertable REGCLASS) RETURNS TABLE (table_bytes BIGINT, index_bytes BIGINT, toast_bytes BIGINT, total_bytes BIGINT, node_name NAME) LANGUAGE PLPGSQL VOLATILE STRICT AS $BODY$ DECLARE table_name NAME = NULL; schema_name NAME = NULL; is_distributed BOOL = FALSE; BEGIN SELECT relname, nspname, replication_factor > 0 INTO table_name, schema_name, is_distributed FROM pg_class c INNER JOIN pg_namespace n ON (n.OID = c.relnamespace) INNER JOIN _timescaledb_catalog.hypertable ht ON (ht.schema_name = n.nspname AND ht.table_name = c.relname) WHERE c.OID = hypertable; IF table_name IS NULL THEN SELECT h.schema_name, h.table_name, replication_factor > 0 INTO schema_name, table_name, is_distributed FROM pg_class c INNER JOIN pg_namespace n ON (n.OID = c.relnamespace) INNER JOIN _timescaledb_catalog.continuous_agg a ON (a.user_view_schema = n.nspname AND a.user_view_name = c.relname) INNER JOIN _timescaledb_catalog.hypertable h ON h.id = a.mat_hypertable_id WHERE c.OID = hypertable; IF table_name IS NULL THEN RETURN; END IF; END IF; CASE WHEN is_distributed THEN RETURN QUERY SELECT *, NULL::name FROM _timescaledb_internal.hypertable_local_size(schema_name, table_name) UNION SELECT * FROM _timescaledb_internal.hypertable_remote_size(schema_name, table_name); ELSE RETURN QUERY SELECT *, NULL::name FROM _timescaledb_internal.hypertable_local_size(schema_name, table_name); END CASE; END; $BODY$ SET search_path TO pg_catalog, pg_temp; --- returns total-bytes for a hypertable (includes table + index) CREATE OR REPLACE FUNCTION @extschema@.hypertable_size( hypertable REGCLASS) RETURNS BIGINT LANGUAGE SQL VOLATILE STRICT AS $BODY$ -- One row per data node is returned (in case of a distributed -- hypertable), so sum them up: SELECT sum(total_bytes)::bigint FROM @extschema@.hypertable_detailed_size(hypertable); $BODY$ SET search_path TO pg_catalog, pg_temp; CREATE OR REPLACE FUNCTION _timescaledb_internal.chunks_local_size( schema_name_in name, table_name_in name) RETURNS TABLE ( chunk_id integer, chunk_schema NAME, chunk_name NAME, table_bytes bigint, index_bytes bigint, toast_bytes bigint, total_bytes bigint) LANGUAGE SQL VOLATILE STRICT AS $BODY$ SELECT ch.chunk_id, ch.chunk_schema, ch.chunk_name, (ch.total_bytes - COALESCE( ch.index_bytes , 0 ) - COALESCE( ch.toast_bytes, 0 ) + COALESCE( ch.compressed_heap_size , 0 ))::bigint as heap_bytes, (COALESCE( ch.index_bytes, 0 ) + COALESCE( ch.compressed_index_size , 0) )::bigint as index_bytes, (COALESCE( ch.toast_bytes, 0 ) + COALESCE( ch.compressed_toast_size, 0 ))::bigint as toast_bytes, (ch.total_bytes + COALESCE( ch.compressed_total_size, 0 ))::bigint as total_bytes FROM _timescaledb_internal.hypertable_chunk_local_size ch WHERE ch.hypertable_schema = schema_name_in AND ch.hypertable_name = table_name_in; $BODY$ SET search_path TO pg_catalog, pg_temp; ---should return same information as chunks_local_size-- CREATE OR REPLACE FUNCTION _timescaledb_internal.chunks_remote_size( schema_name_in name, table_name_in name) RETURNS TABLE ( chunk_id integer, chunk_schema NAME, chunk_name NAME, table_bytes bigint, index_bytes bigint, toast_bytes bigint, total_bytes bigint, node_name NAME) LANGUAGE SQL VOLATILE STRICT AS $BODY$ SELECT entry.chunk_id, entry.chunk_schema, entry.chunk_name, entry.table_bytes AS table_bytes, entry.index_bytes AS index_bytes, entry.toast_bytes AS toast_bytes, entry.total_bytes AS total_bytes, srv.node_name FROM ( SELECT s.node_name FROM _timescaledb_catalog.hypertable AS ht, _timescaledb_catalog.hypertable_data_node AS s WHERE ht.schema_name = schema_name_in AND ht.table_name = table_name_in AND s.hypertable_id = ht.id ) AS srv LEFT OUTER JOIN LATERAL _timescaledb_internal.data_node_chunk_info( srv.node_name, schema_name_in, table_name_in) entry ON TRUE WHERE entry.chunk_name IS NOT NULL; $BODY$ SET search_path TO pg_catalog, pg_temp; -- Get relation size of the chunks of an hypertable -- hypertable - hypertable to get size of -- -- Returns: -- chunk_schema - schema name for chunk -- chunk_name - chunk table name -- table_bytes - Disk space used by chunk table -- index_bytes - Disk space used by indexes -- toast_bytes - Disk space of toast tables -- total_bytes - Disk space used in total -- node_name - node on which chunk lives if this is -- a distributed hypertable. CREATE OR REPLACE FUNCTION @extschema@.chunks_detailed_size( hypertable REGCLASS ) RETURNS TABLE ( chunk_schema NAME, chunk_name NAME, table_bytes BIGINT, index_bytes BIGINT, toast_bytes BIGINT, total_bytes BIGINT, node_name NAME) LANGUAGE PLPGSQL VOLATILE STRICT AS $BODY$ DECLARE table_name NAME; schema_name NAME; is_distributed BOOL; BEGIN SELECT relname, nspname, replication_factor > 0 INTO table_name, schema_name, is_distributed FROM pg_class c INNER JOIN pg_namespace n ON (n.OID = c.relnamespace) INNER JOIN _timescaledb_catalog.hypertable ht ON (ht.schema_name = n.nspname AND ht.table_name = c.relname) WHERE c.OID = hypertable; IF table_name IS NULL THEN RETURN; END IF; CASE WHEN is_distributed THEN RETURN QUERY SELECT ch.chunk_schema, ch.chunk_name, ch.table_bytes, ch.index_bytes, ch.toast_bytes, ch.total_bytes, ch.node_name FROM _timescaledb_internal.chunks_remote_size(schema_name, table_name) ch; ELSE RETURN QUERY SELECT chl.chunk_schema, chl.chunk_name, chl.table_bytes, chl.index_bytes, chl.toast_bytes, chl.total_bytes, NULL::NAME FROM _timescaledb_internal.chunks_local_size(schema_name, table_name) chl; END CASE; END; $BODY$ SET search_path TO pg_catalog, pg_temp; ---------- end of detailed size functions ------ CREATE OR REPLACE FUNCTION _timescaledb_internal.range_value_to_pretty( time_value BIGINT, column_type REGTYPE ) RETURNS TEXT LANGUAGE PLPGSQL STABLE AS $BODY$ DECLARE BEGIN IF NOT (time_value > (-9223372036854775808)::bigint AND time_value < 9223372036854775807::bigint) THEN RETURN ''; END IF; IF time_value IS NULL THEN RETURN format('%L', NULL); END IF; CASE column_type WHEN 'BIGINT'::regtype, 'INTEGER'::regtype, 'SMALLINT'::regtype THEN RETURN format('%L', time_value); -- scale determined by user. WHEN 'TIMESTAMP'::regtype, 'TIMESTAMPTZ'::regtype THEN -- assume time_value is in microsec RETURN format('%1$L', _timescaledb_internal.to_timestamp(time_value)); -- microseconds WHEN 'DATE'::regtype THEN RETURN format('%L', timezone('UTC',_timescaledb_internal.to_timestamp(time_value))::date); ELSE RETURN time_value; END CASE; END $BODY$ SET search_path TO pg_catalog, pg_temp; -- Convenience function to return approximate row count -- -- relation - table or hypertable to get approximate row count for -- -- Returns: -- Estimated number of rows according to catalog tables CREATE OR REPLACE FUNCTION @extschema@.approximate_row_count(relation REGCLASS) RETURNS BIGINT LANGUAGE PLPGSQL VOLATILE STRICT AS $BODY$ DECLARE local_table_name NAME = NULL; local_schema_name NAME = NULL; is_distributed BOOL = FALSE; is_compressed BOOL = FALSE; uncompressed_row_count BIGINT = 0; compressed_row_count BIGINT = 0; local_compressed_hypertable_id INTEGER = 0; local_compressed_chunk_id INTEGER = 0; compressed_hypertable_oid OID; local_compressed_chunk_oid OID; max_compressed_row_count BIGINT = 1000; is_compressed_chunk INTEGER; BEGIN SELECT relname, nspname FROM pg_class c INNER JOIN pg_namespace n ON (n.OID = c.relnamespace) INTO local_table_name, local_schema_name WHERE c.OID = relation; -- Check for input relation is Hypertable IF EXISTS (SELECT 1 FROM _timescaledb_catalog.hypertable WHERE table_name = local_table_name AND schema_name = local_schema_name) THEN SELECT compressed_hypertable_id FROM _timescaledb_catalog.hypertable INTO local_compressed_hypertable_id WHERE table_name = local_table_name AND schema_name = local_schema_name; IF local_compressed_hypertable_id IS NOT NULL THEN uncompressed_row_count = _timescaledb_internal.get_approx_row_count(relation); WITH compressed_hypertable AS (SELECT table_name, schema_name FROM _timescaledb_catalog.hypertable ht WHERE ht.id = local_compressed_hypertable_id) SELECT c.oid INTO compressed_hypertable_oid FROM pg_class c INNER JOIN compressed_hypertable h ON (c.relname = h.table_name) INNER JOIN pg_namespace n ON (n.nspname = h.schema_name); compressed_row_count = _timescaledb_internal.get_approx_row_count(compressed_hypertable_oid); RETURN (uncompressed_row_count + (compressed_row_count * max_compressed_row_count)); ELSE uncompressed_row_count = _timescaledb_internal.get_approx_row_count(relation); RETURN uncompressed_row_count; END IF; END IF; -- Check for input relation is CHUNK IF EXISTS (SELECT 1 FROM _timescaledb_catalog.chunk WHERE table_name = local_table_name AND schema_name = local_schema_name) THEN with compressed_chunk as (select 1 as is_compressed_chunk from _timescaledb_catalog.chunk c inner join _timescaledb_catalog.hypertable h on (c.hypertable_id = h.compressed_hypertable_id) where c.table_name = local_table_name and c.schema_name = local_schema_name ), chunk_temp as (select compressed_chunk_id from _timescaledb_catalog.chunk c where c.table_name = local_table_name and c.schema_name = local_schema_name) select ct.compressed_chunk_id, cc.is_compressed_chunk from chunk_temp ct LEFT OUTER JOIN compressed_chunk cc ON 1 = 1 INTO local_compressed_chunk_id, is_compressed_chunk; -- 'input is chunk #1'; IF is_compressed_chunk IS NULL AND local_compressed_chunk_id IS NOT NULL THEN -- 'Include both uncompressed and compressed chunk #2'; WITH compressed_ns_oid AS ( SELECT table_name, oid FROM _timescaledb_catalog.chunk ch INNER JOIN pg_namespace ns ON (ch.id = local_compressed_chunk_id and ch.schema_name = ns.nspname)) SELECT c.oid FROM pg_class c INNER JOIN compressed_ns_oid ON ( c.relnamespace = compressed_ns_oid.oid AND c.relname = compressed_ns_oid.table_name) INTO local_compressed_chunk_oid; uncompressed_row_count = _timescaledb_internal.get_approx_row_count(relation); compressed_row_count = _timescaledb_internal.get_approx_row_count(local_compressed_chunk_oid); RETURN uncompressed_row_count + (compressed_row_count * max_compressed_row_count); ELSIF is_compressed_chunk IS NULL AND local_compressed_chunk_id IS NULL THEN -- 'input relation is uncompressed chunk #3'; uncompressed_row_count = _timescaledb_internal.get_approx_row_count(relation); RETURN uncompressed_row_count; ELSE -- 'compressed chunk only #4'; compressed_row_count = _timescaledb_internal.get_approx_row_count(relation) * max_compressed_row_count; RETURN compressed_row_count; END IF; END IF; -- Check for input relation is Plain RELATION uncompressed_row_count = _timescaledb_internal.get_approx_row_count(relation); RETURN uncompressed_row_count; END; $BODY$ SET search_path TO pg_catalog, pg_temp; CREATE OR REPLACE FUNCTION _timescaledb_internal.get_approx_row_count(relation REGCLASS) RETURNS BIGINT LANGUAGE SQL VOLATILE STRICT AS $BODY$ WITH RECURSIVE inherited_id(oid) AS ( SELECT relation UNION ALL SELECT i.inhrelid FROM pg_inherits i JOIN inherited_id b ON i.inhparent = b.oid ) -- reltuples for partitioned tables is the sum of it's children in pg14 so we need to filter those out SELECT COALESCE((SUM(reltuples) FILTER (WHERE reltuples > 0 AND relkind <> 'p')), 0)::BIGINT FROM inherited_id JOIN pg_class USING (oid); $BODY$ SET search_path TO pg_catalog, pg_temp; -------- stats related to compression ------ CREATE OR REPLACE VIEW _timescaledb_internal.compressed_chunk_stats AS SELECT srcht.schema_name AS hypertable_schema, srcht.table_name AS hypertable_name, srcch.schema_name AS chunk_schema, srcch.table_name AS chunk_name, CASE WHEN srcch.compressed_chunk_id IS NULL THEN 'Uncompressed'::text ELSE 'Compressed'::text END AS compression_status, map.uncompressed_heap_size, map.uncompressed_index_size, map.uncompressed_toast_size, map.uncompressed_heap_size + map.uncompressed_toast_size + map.uncompressed_index_size AS uncompressed_total_size, map.compressed_heap_size, map.compressed_index_size, map.compressed_toast_size, map.compressed_heap_size + map.compressed_toast_size + map.compressed_index_size AS compressed_total_size FROM _timescaledb_catalog.hypertable AS srcht JOIN _timescaledb_catalog.chunk AS srcch ON srcht.id = srcch.hypertable_id AND srcht.compressed_hypertable_id IS NOT NULL AND srcch.dropped = FALSE LEFT JOIN _timescaledb_catalog.compression_chunk_size map ON srcch.id = map.chunk_id; GRANT SELECT ON _timescaledb_internal.compressed_chunk_stats TO PUBLIC; CREATE OR REPLACE FUNCTION _timescaledb_internal.data_node_compressed_chunk_stats (node_name name, schema_name_in name, table_name_in name) RETURNS TABLE ( chunk_schema name, chunk_name name, compression_status text, before_compression_table_bytes bigint, before_compression_index_bytes bigint, before_compression_toast_bytes bigint, before_compression_total_bytes bigint, after_compression_table_bytes bigint, after_compression_index_bytes bigint, after_compression_toast_bytes bigint, after_compression_total_bytes bigint ) AS '@MODULE_PATHNAME@' , 'ts_dist_remote_compressed_chunk_info' LANGUAGE C VOLATILE STRICT; CREATE OR REPLACE FUNCTION _timescaledb_internal.compressed_chunk_local_stats (schema_name_in name, table_name_in name) RETURNS TABLE ( chunk_schema name, chunk_name name, compression_status text, before_compression_table_bytes bigint, before_compression_index_bytes bigint, before_compression_toast_bytes bigint, before_compression_total_bytes bigint, after_compression_table_bytes bigint, after_compression_index_bytes bigint, after_compression_toast_bytes bigint, after_compression_total_bytes bigint) LANGUAGE SQL STABLE STRICT AS $BODY$ SELECT ch.chunk_schema, ch.chunk_name, ch.compression_status, ch.uncompressed_heap_size, ch.uncompressed_index_size, ch.uncompressed_toast_size, ch.uncompressed_total_size, ch.compressed_heap_size, ch.compressed_index_size, ch.compressed_toast_size, ch.compressed_total_size FROM _timescaledb_internal.compressed_chunk_stats ch WHERE ch.hypertable_schema = schema_name_in AND ch.hypertable_name = table_name_in; $BODY$ SET search_path TO pg_catalog, pg_temp; CREATE OR REPLACE FUNCTION _timescaledb_internal.compressed_chunk_remote_stats (schema_name_in name, table_name_in name) RETURNS TABLE ( chunk_schema name, chunk_name name, compression_status text, before_compression_table_bytes bigint, before_compression_index_bytes bigint, before_compression_toast_bytes bigint, before_compression_total_bytes bigint, after_compression_table_bytes bigint, after_compression_index_bytes bigint, after_compression_toast_bytes bigint, after_compression_total_bytes bigint, node_name name) LANGUAGE SQL STABLE STRICT AS $BODY$ SELECT ch.*, srv.node_name FROM ( SELECT s.node_name FROM _timescaledb_catalog.hypertable AS ht, _timescaledb_catalog.hypertable_data_node AS s WHERE ht.schema_name = schema_name_in AND ht.table_name = table_name_in AND s.hypertable_id = ht.id) AS srv LEFT OUTER JOIN LATERAL _timescaledb_internal.data_node_compressed_chunk_stats ( srv.node_name, schema_name_in, table_name_in) ch ON TRUE WHERE ch.chunk_name IS NOT NULL; $BODY$ SET search_path TO pg_catalog, pg_temp; -- Get per chunk compression statistics for a hypertable that has -- compression enabled CREATE OR REPLACE FUNCTION @extschema@.chunk_compression_stats (hypertable REGCLASS) RETURNS TABLE ( chunk_schema name, chunk_name name, compression_status text, before_compression_table_bytes bigint, before_compression_index_bytes bigint, before_compression_toast_bytes bigint, before_compression_total_bytes bigint, after_compression_table_bytes bigint, after_compression_index_bytes bigint, after_compression_toast_bytes bigint, after_compression_total_bytes bigint, node_name name) LANGUAGE PLPGSQL STABLE STRICT AS $BODY$ DECLARE table_name name; schema_name name; is_distributed bool; BEGIN SELECT relname, nspname, replication_factor > 0 INTO table_name, schema_name, is_distributed FROM pg_class c INNER JOIN pg_namespace n ON (n.OID = c.relnamespace) INNER JOIN _timescaledb_catalog.hypertable ht ON (ht.schema_name = n.nspname AND ht.table_name = c.relname) WHERE c.OID = hypertable; IF table_name IS NULL THEN RETURN; END IF; CASE WHEN is_distributed THEN RETURN QUERY SELECT * FROM _timescaledb_internal.compressed_chunk_remote_stats (schema_name, table_name); ELSE RETURN QUERY SELECT *, NULL::name FROM _timescaledb_internal.compressed_chunk_local_stats (schema_name, table_name); END CASE; END; $BODY$ SET search_path TO pg_catalog, pg_temp; -- Get compression statistics for a hypertable that has -- compression enabled CREATE OR REPLACE FUNCTION @extschema@.hypertable_compression_stats (hypertable REGCLASS) RETURNS TABLE ( total_chunks bigint, number_compressed_chunks bigint, before_compression_table_bytes bigint, before_compression_index_bytes bigint, before_compression_toast_bytes bigint, before_compression_total_bytes bigint, after_compression_table_bytes bigint, after_compression_index_bytes bigint, after_compression_toast_bytes bigint, after_compression_total_bytes bigint, node_name name) LANGUAGE SQL STABLE STRICT AS $BODY$ SELECT count(*)::bigint AS total_chunks, (count(*) FILTER (WHERE ch.compression_status = 'Compressed'))::bigint AS number_compressed_chunks, sum(ch.before_compression_table_bytes)::bigint AS before_compression_table_bytes, sum(ch.before_compression_index_bytes)::bigint AS before_compression_index_bytes, sum(ch.before_compression_toast_bytes)::bigint AS before_compression_toast_bytes, sum(ch.before_compression_total_bytes)::bigint AS before_compression_total_bytes, sum(ch.after_compression_table_bytes)::bigint AS after_compression_table_bytes, sum(ch.after_compression_index_bytes)::bigint AS after_compression_index_bytes, sum(ch.after_compression_toast_bytes)::bigint AS after_compression_toast_bytes, sum(ch.after_compression_total_bytes)::bigint AS after_compression_total_bytes, ch.node_name FROM @extschema@.chunk_compression_stats(hypertable) ch GROUP BY ch.node_name; $BODY$ SET search_path TO pg_catalog, pg_temp; -------------Get index size for hypertables ------- --schema_name - schema_name for hypertable index -- index_name - index on hyper table ---note that the query matches against the hypertable's schema name as -- the input is on the hypertable index and not the chunk index. CREATE OR REPLACE FUNCTION _timescaledb_internal.indexes_local_size( schema_name_in NAME, index_name_in NAME ) RETURNS TABLE ( hypertable_id INTEGER, total_bytes BIGINT ) LANGUAGE SQL VOLATILE STRICT AS $BODY$ WITH chunk_index_size (num_bytes) AS ( SELECT COALESCE(sum(pg_relation_size(c.oid)), 0)::bigint FROM pg_class c, pg_namespace n, _timescaledb_catalog.chunk ch, _timescaledb_catalog.chunk_index ci, _timescaledb_catalog.hypertable h WHERE ch.schema_name = n.nspname AND c.relnamespace = n.oid AND c.relname = ci.index_name AND ch.id = ci.chunk_id AND h.id = ci.hypertable_id AND h.schema_name = schema_name_in AND ci.hypertable_index_name = index_name_in ) SELECT h.id, -- Add size of index on all chunks + index size on root table (SELECT num_bytes FROM chunk_index_size) + pg_relation_size(format('%I.%I', schema_name_in, index_name_in)::regclass)::bigint FROM pg_class c, pg_index i, _timescaledb_catalog.hypertable h WHERE i.indexrelid = format('%I.%I', schema_name_in, index_name_in)::regclass AND c.oid = i.indrelid AND h.schema_name = schema_name_in AND h.table_name = c.relname; $BODY$ SET search_path TO pg_catalog, pg_temp; CREATE OR REPLACE FUNCTION _timescaledb_internal.data_node_index_size (node_name name, schema_name_in name, index_name_in name) RETURNS TABLE ( hypertable_id INTEGER, total_bytes BIGINT) AS '@MODULE_PATHNAME@' , 'ts_dist_remote_hypertable_index_info' LANGUAGE C VOLATILE STRICT; CREATE OR REPLACE FUNCTION _timescaledb_internal.indexes_remote_size( schema_name_in NAME, table_name_in NAME, index_name_in NAME ) RETURNS BIGINT LANGUAGE SQL VOLATILE STRICT AS $BODY$ SELECT sum(entry.total_bytes)::bigint AS total_bytes FROM ( SELECT s.node_name FROM _timescaledb_catalog.hypertable AS ht, _timescaledb_catalog.hypertable_data_node AS s WHERE ht.schema_name = schema_name_in AND ht.table_name = table_name_in AND s.hypertable_id = ht.id ) AS srv JOIN LATERAL _timescaledb_internal.data_node_index_size( srv.node_name, schema_name_in, index_name_in) entry ON TRUE; $BODY$ SET search_path TO pg_catalog, pg_temp; -- Get sizes of indexes on a hypertable -- -- index_name - index on hyper table -- -- Returns: -- total_bytes - size of index on disk CREATE OR REPLACE FUNCTION @extschema@.hypertable_index_size( index_name REGCLASS ) RETURNS BIGINT LANGUAGE PLPGSQL VOLATILE STRICT AS $BODY$ DECLARE ht_index_name NAME; ht_schema_name NAME; ht_name NAME; is_distributed BOOL; ht_id INTEGER; index_bytes BIGINT; BEGIN SELECT c.relname, cl.relname, nsp.nspname, ht.replication_factor > 0 INTO ht_index_name, ht_name, ht_schema_name, is_distributed FROM pg_class c, pg_index cind, pg_class cl, pg_namespace nsp, _timescaledb_catalog.hypertable ht WHERE c.oid = cind.indexrelid AND cind.indrelid = cl.oid AND cl.relnamespace = nsp.oid AND c.oid = index_name AND ht.schema_name = nsp.nspname ANd ht.table_name = cl.relname; IF ht_index_name IS NULL THEN RETURN NULL; END IF; -- get the local size or size of access node indexes SELECT il.total_bytes INTO index_bytes FROM _timescaledb_internal.indexes_local_size(ht_schema_name, ht_index_name) il; IF index_bytes IS NULL THEN index_bytes = 0; END IF; -- Add size from data nodes IF is_distributed THEN index_bytes = index_bytes + _timescaledb_internal.indexes_remote_size(ht_schema_name, ht_name, ht_index_name); END IF; RETURN index_bytes; END; $BODY$ SET search_path TO pg_catalog, pg_temp; -------------End index size for hypertables -------