-- 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. --NOTICE: UPGRADE-SCRIPT-NEEDED contents in this file are not auto-upgraded. -- This file contains table definitions for various abstractions and data -- structures for representing hypertables and lower-level concepts. -- Hypertable -- ========== -- -- The hypertable is an abstraction that represents a table that is -- partitioned in N dimensions, where each dimension maps to a column -- in the table. A dimension can either be 'open' or 'closed', which -- reflects the scheme that divides the dimension's keyspace into -- "slices". -- -- Conceptually, a partition -- called a "chunk", is a hypercube in -- the N-dimensional space. A chunk stores a subset of the -- hypertable's tuples on disk in its own distinct table. The slices -- that span the chunk's hypercube each correspond to a constraint on -- the chunk's table, enabling constraint exclusion during queries on -- the hypertable's data. -- -- -- Open dimensions ------------------ -- An open dimension does on-demand slicing, creating a new slice -- based on a configurable interval whenever a tuple falls outside the -- existing slices. Open dimensions fit well with columns that are -- incrementally increasing, such as time-based ones. -- -- Closed dimensions -------------------- -- A closed dimension completely divides its keyspace into a -- configurable number of slices. The number of slices can be -- reconfigured, but the new partitioning only affects newly created -- chunks. -- The unique constraint is table_name +schema_name. The ordering is -- important as we want index access when we filter by table_name CREATE SEQUENCE _timescaledb_catalog.hypertable_id_seq MINVALUE 1; CREATE TABLE _timescaledb_catalog.hypertable ( id INTEGER NOT NULL DEFAULT nextval('_timescaledb_catalog.hypertable_id_seq'), schema_name name NOT NULL, table_name name NOT NULL, associated_schema_name name NOT NULL, associated_table_prefix name NOT NULL, num_dimensions smallint NOT NULL, chunk_sizing_func_schema name NOT NULL, chunk_sizing_func_name name NOT NULL, chunk_target_size bigint NOT NULL, -- size in bytes compression_state smallint NOT NULL DEFAULT 0, compressed_hypertable_id integer, status int NOT NULL DEFAULT 0, -- table constraints CONSTRAINT hypertable_pkey PRIMARY KEY (id), CONSTRAINT hypertable_associated_schema_name_associated_table_prefix_key UNIQUE (associated_schema_name, associated_table_prefix), CONSTRAINT hypertable_table_name_schema_name_key UNIQUE (table_name, schema_name), CONSTRAINT hypertable_schema_name_check CHECK (schema_name != '_timescaledb_catalog'), -- internal compressed hypertables have compression state = 2 CONSTRAINT hypertable_dim_compress_check CHECK (num_dimensions > 0 OR compression_state = 2), CONSTRAINT hypertable_chunk_target_size_check CHECK (chunk_target_size >= 0), CONSTRAINT hypertable_compress_check CHECK ( (compression_state = 0 OR compression_state = 1 ) OR (compression_state = 2 AND compressed_hypertable_id IS NULL)), CONSTRAINT hypertable_compressed_hypertable_id_fkey FOREIGN KEY (compressed_hypertable_id) REFERENCES _timescaledb_catalog.hypertable (id) ); ALTER SEQUENCE _timescaledb_catalog.hypertable_id_seq OWNED BY _timescaledb_catalog.hypertable.id; SELECT pg_catalog.pg_extension_config_dump('_timescaledb_catalog.hypertable_id_seq', ''); SELECT pg_catalog.pg_extension_config_dump('_timescaledb_catalog.hypertable', 'WHERE id >= 1'); -- The tablespace table maps tablespaces to hypertables. -- This allows spreading a hypertable's chunks across multiple disks. CREATE TABLE _timescaledb_catalog.tablespace ( id serial NOT NULL, hypertable_id int NOT NULL, tablespace_name name NOT NULL, -- table constraints CONSTRAINT tablespace_pkey PRIMARY KEY (id), CONSTRAINT tablespace_hypertable_id_tablespace_name_key UNIQUE (hypertable_id, tablespace_name), CONSTRAINT tablespace_hypertable_id_fkey FOREIGN KEY (hypertable_id) REFERENCES _timescaledb_catalog.hypertable (id) ON DELETE CASCADE ); SELECT pg_catalog.pg_extension_config_dump('_timescaledb_catalog.tablespace', ''); -- A dimension represents an axis along which data is partitioned. CREATE TABLE _timescaledb_catalog.dimension ( id serial NOT NULL , hypertable_id integer NOT NULL, column_name name NOT NULL, column_type REGTYPE NOT NULL, aligned boolean NOT NULL, -- closed dimensions num_slices smallint NULL, partitioning_func_schema name NULL, partitioning_func name NULL, -- open dimensions (e.g., time) interval_length bigint NULL, -- compress interval is used by rollup procedure during compression -- in order to merge multiple chunks into a single one compress_interval_length bigint NULL, integer_now_func_schema name NULL, integer_now_func name NULL, -- table constraints CONSTRAINT dimension_pkey PRIMARY KEY (id), CONSTRAINT dimension_hypertable_id_column_name_key UNIQUE (hypertable_id, column_name), CONSTRAINT dimension_check CHECK ((partitioning_func_schema IS NULL AND partitioning_func IS NULL) OR (partitioning_func_schema IS NOT NULL AND partitioning_func IS NOT NULL)), CONSTRAINT dimension_check1 CHECK ((num_slices IS NULL AND interval_length IS NOT NULL) OR (num_slices IS NOT NULL AND interval_length IS NULL)), CONSTRAINT dimension_check2 CHECK ((integer_now_func_schema IS NULL AND integer_now_func IS NULL) OR (integer_now_func_schema IS NOT NULL AND integer_now_func IS NOT NULL)), CONSTRAINT dimension_interval_length_check CHECK (interval_length IS NULL OR interval_length > 0), CONSTRAINT dimension_compress_interval_length_check CHECK (compress_interval_length IS NULL OR compress_interval_length > 0), CONSTRAINT dimension_hypertable_id_fkey FOREIGN KEY (hypertable_id) REFERENCES _timescaledb_catalog.hypertable (id) ON DELETE CASCADE ); SELECT pg_catalog.pg_extension_config_dump('_timescaledb_catalog.dimension', ''); SELECT pg_catalog.pg_extension_config_dump(pg_get_serial_sequence('_timescaledb_catalog.dimension', 'id'), ''); -- A dimension slice defines a keyspace range along a dimension -- axis. A chunk references a slice in each of its dimensions, forming -- a hypercube. CREATE TABLE _timescaledb_catalog.dimension_slice ( id serial NOT NULL, dimension_id integer NOT NULL, range_start bigint NOT NULL, range_end bigint NOT NULL, -- table constraints CONSTRAINT dimension_slice_pkey PRIMARY KEY (id), CONSTRAINT dimension_slice_dimension_id_range_start_range_end_key UNIQUE (dimension_id, range_start, range_end), CONSTRAINT dimension_slice_check CHECK (range_start <= range_end), CONSTRAINT dimension_slice_dimension_id_fkey FOREIGN KEY (dimension_id) REFERENCES _timescaledb_catalog.dimension (id) ON DELETE CASCADE ); SELECT pg_catalog.pg_extension_config_dump('_timescaledb_catalog.dimension_slice', ''); SELECT pg_catalog.pg_extension_config_dump(pg_get_serial_sequence('_timescaledb_catalog.dimension_slice', 'id'), ''); -- A chunk is a partition (hypercube) in an N-dimensional -- hyperspace. Each chunk is associated with N constraints that define -- the chunk's hypercube. Tuples that fall within the chunk's -- hypercube are stored in the chunk's data table, as given by -- 'schema_name' and 'table_name'. CREATE SEQUENCE _timescaledb_catalog.chunk_id_seq MINVALUE 1; CREATE TABLE _timescaledb_catalog.chunk ( id integer NOT NULL DEFAULT nextval('_timescaledb_catalog.chunk_id_seq'), hypertable_id int NOT NULL, schema_name name NOT NULL, table_name name NOT NULL, compressed_chunk_id integer , dropped boolean NOT NULL DEFAULT FALSE, status integer NOT NULL DEFAULT 0, osm_chunk boolean NOT NULL DEFAULT FALSE, creation_time timestamptz NOT NULL, -- table constraints CONSTRAINT chunk_pkey PRIMARY KEY (id), CONSTRAINT chunk_schema_name_table_name_key UNIQUE (schema_name, table_name), CONSTRAINT chunk_compressed_chunk_id_fkey FOREIGN KEY (compressed_chunk_id) REFERENCES _timescaledb_catalog.chunk (id), CONSTRAINT chunk_hypertable_id_fkey FOREIGN KEY (hypertable_id) REFERENCES _timescaledb_catalog.hypertable (id) ); ALTER SEQUENCE _timescaledb_catalog.chunk_id_seq OWNED BY _timescaledb_catalog.chunk.id; CREATE INDEX chunk_hypertable_id_idx ON _timescaledb_catalog.chunk (hypertable_id); CREATE INDEX chunk_compressed_chunk_id_idx ON _timescaledb_catalog.chunk (compressed_chunk_id); --we could use a partial index (where osm_chunk is true). However, the catalog code --does not work with partial/functional indexes. So we instead have a full index here. --Another option would be to use the status field to identify a OSM chunk. However bit --operations only work on varbit datatype and not integer datatype. CREATE INDEX chunk_osm_chunk_idx ON _timescaledb_catalog.chunk (osm_chunk, hypertable_id); CREATE INDEX chunk_hypertable_id_creation_time_idx ON _timescaledb_catalog.chunk(hypertable_id, creation_time); SELECT pg_catalog.pg_extension_config_dump('_timescaledb_catalog.chunk', ''); SELECT pg_catalog.pg_extension_config_dump('_timescaledb_catalog.chunk_id_seq', ''); -- A chunk constraint maps a dimension slice to a chunk. Each -- constraint associated with a chunk will also be a table constraint -- on the chunk's data table. CREATE TABLE _timescaledb_catalog.chunk_constraint ( chunk_id integer NOT NULL, dimension_slice_id integer NULL, constraint_name name NOT NULL, hypertable_constraint_name name NULL, -- table constraints CONSTRAINT chunk_constraint_chunk_id_constraint_name_key UNIQUE (chunk_id, constraint_name), CONSTRAINT chunk_constraint_chunk_id_fkey FOREIGN KEY (chunk_id) REFERENCES _timescaledb_catalog.chunk (id), CONSTRAINT chunk_constraint_dimension_slice_id_fkey FOREIGN KEY (dimension_slice_id) REFERENCES _timescaledb_catalog.dimension_slice (id) ); CREATE INDEX chunk_constraint_dimension_slice_id_idx ON _timescaledb_catalog.chunk_constraint (dimension_slice_id); SELECT pg_catalog.pg_extension_config_dump('_timescaledb_catalog.chunk_constraint', ''); CREATE SEQUENCE _timescaledb_catalog.chunk_constraint_name; SELECT pg_catalog.pg_extension_config_dump('_timescaledb_catalog.chunk_constraint_name', ''); CREATE TABLE _timescaledb_catalog.chunk_index ( chunk_id integer NOT NULL, index_name name NOT NULL, hypertable_id integer NOT NULL, hypertable_index_name name NOT NULL, -- table constraints CONSTRAINT chunk_index_chunk_id_index_name_key UNIQUE (chunk_id, index_name), CONSTRAINT chunk_index_chunk_id_fkey FOREIGN KEY (chunk_id) REFERENCES _timescaledb_catalog.chunk (id) ON DELETE CASCADE, CONSTRAINT chunk_index_hypertable_id_fkey FOREIGN KEY (hypertable_id) REFERENCES _timescaledb_catalog.hypertable (id) ON DELETE CASCADE ); CREATE INDEX chunk_index_hypertable_id_hypertable_index_name_idx ON _timescaledb_catalog.chunk_index (hypertable_id, hypertable_index_name); SELECT pg_catalog.pg_extension_config_dump('_timescaledb_catalog.chunk_index', ''); -- Default jobs are given the id space [1,1000). User-installed jobs and any jobs created inside tests -- are given the id space [1000, INT_MAX). That way, we do not pg_dump jobs that are always default-installed -- inside other .sql scripts. This avoids insertion conflicts during pg_restore. CREATE SEQUENCE _timescaledb_config.bgw_job_id_seq MINVALUE 1000; SELECT pg_catalog.pg_extension_config_dump('_timescaledb_config.bgw_job_id_seq', ''); -- We put columns that can be null or have variable length -- last. This allow us to read the important fields above in the -- scheduler without materializing these fields below, which the -- scheduler does not neeed. CREATE TABLE _timescaledb_config.bgw_job ( id integer NOT NULL DEFAULT nextval('_timescaledb_config.bgw_job_id_seq'), application_name name NOT NULL, schedule_interval interval NOT NULL, max_runtime interval NOT NULL, max_retries integer NOT NULL, retry_period interval NOT NULL, proc_schema name NOT NULL, proc_name name NOT NULL, owner regrole NOT NULL DEFAULT pg_catalog.quote_ident(current_role)::regrole, scheduled bool NOT NULL DEFAULT TRUE, fixed_schedule bool not null default true, initial_start timestamptz, hypertable_id integer, config jsonb, check_schema name, check_name name, timezone text, -- table constraints CONSTRAINT bgw_job_pkey PRIMARY KEY (id), CONSTRAINT bgw_job_hypertable_id_fkey FOREIGN KEY (hypertable_id) REFERENCES _timescaledb_catalog.hypertable (id) ON DELETE CASCADE ); ALTER SEQUENCE _timescaledb_config.bgw_job_id_seq OWNED BY _timescaledb_config.bgw_job.id; CREATE INDEX bgw_job_proc_hypertable_id_idx ON _timescaledb_config.bgw_job (proc_schema, proc_name, hypertable_id); SELECT pg_catalog.pg_extension_config_dump('_timescaledb_config.bgw_job', 'WHERE id >= 1000'); CREATE TABLE _timescaledb_internal.bgw_job_stat ( job_id integer NOT NULL, last_start timestamptz NOT NULL DEFAULT NOW(), last_finish timestamptz NOT NULL, next_start timestamptz NOT NULL, last_successful_finish timestamptz NOT NULL, last_run_success bool NOT NULL, total_runs bigint NOT NULL, total_duration interval NOT NULL, total_duration_failures interval NOT NULL, total_successes bigint NOT NULL, total_failures bigint NOT NULL, total_crashes bigint NOT NULL, consecutive_failures int NOT NULL, consecutive_crashes int NOT NULL, flags int NOT NULL DEFAULT 0, -- table constraints CONSTRAINT bgw_job_stat_pkey PRIMARY KEY (job_id), CONSTRAINT bgw_job_stat_job_id_fkey FOREIGN KEY (job_id) REFERENCES _timescaledb_config.bgw_job (id) ON DELETE CASCADE ); --The job_stat table is not dumped by pg_dump on purpose because --the statistics probably aren't very meaningful across instances. -- Now we define a special stats table for each job/chunk pair. This will be used by the scheduler -- to determine whether to run a specific job on a specific chunk. CREATE TABLE _timescaledb_internal.bgw_policy_chunk_stats ( job_id integer NOT NULL, chunk_id integer NOT NULL, num_times_job_run integer, last_time_job_run timestamptz, -- table constraints CONSTRAINT bgw_policy_chunk_stats_job_id_chunk_id_key UNIQUE (job_id, chunk_id), CONSTRAINT bgw_policy_chunk_stats_chunk_id_fkey FOREIGN KEY (chunk_id) REFERENCES _timescaledb_catalog.chunk (id) ON DELETE CASCADE, CONSTRAINT bgw_policy_chunk_stats_job_id_fkey FOREIGN KEY (job_id) REFERENCES _timescaledb_config.bgw_job (id) ON DELETE CASCADE ); CREATE TABLE _timescaledb_catalog.metadata ( key NAME NOT NULL, value text NOT NULL, include_in_telemetry boolean NOT NULL, -- table constraints CONSTRAINT metadata_pkey PRIMARY KEY (key) ); SELECT pg_catalog.pg_extension_config_dump('_timescaledb_catalog.metadata', $$ WHERE key <> 'uuid' $$); -- Log with events that will be sent out with the telemetry. The log -- will be flushed after it has been sent out. We do not save it to -- backups since it should not contain important data. CREATE TABLE _timescaledb_catalog.telemetry_event ( created timestamptz NOT NULL DEFAULT current_timestamp, tag name NOT NULL, body jsonb NOT NULL ); CREATE TABLE _timescaledb_catalog.continuous_agg ( mat_hypertable_id integer NOT NULL, raw_hypertable_id integer NOT NULL, parent_mat_hypertable_id integer, user_view_schema name NOT NULL, user_view_name name NOT NULL, partial_view_schema name NOT NULL, partial_view_name name NOT NULL, bucket_width bigint NOT NULL, direct_view_schema name NOT NULL, direct_view_name name NOT NULL, materialized_only bool NOT NULL DEFAULT FALSE, finalized bool NOT NULL DEFAULT TRUE, -- table constraints CONSTRAINT continuous_agg_pkey PRIMARY KEY (mat_hypertable_id), CONSTRAINT continuous_agg_partial_view_schema_partial_view_name_key UNIQUE (partial_view_schema, partial_view_name), CONSTRAINT continuous_agg_user_view_schema_user_view_name_key UNIQUE (user_view_schema, user_view_name), CONSTRAINT continuous_agg_mat_hypertable_id_fkey FOREIGN KEY (mat_hypertable_id) REFERENCES _timescaledb_catalog.hypertable (id) ON DELETE CASCADE, CONSTRAINT continuous_agg_raw_hypertable_id_fkey FOREIGN KEY (raw_hypertable_id) REFERENCES _timescaledb_catalog.hypertable (id) ON DELETE CASCADE, CONSTRAINT continuous_agg_parent_mat_hypertable_id_fkey FOREIGN KEY (parent_mat_hypertable_id) REFERENCES _timescaledb_catalog.continuous_agg (mat_hypertable_id) ON DELETE CASCADE ); CREATE INDEX continuous_agg_raw_hypertable_id_idx ON _timescaledb_catalog.continuous_agg (raw_hypertable_id); SELECT pg_catalog.pg_extension_config_dump('_timescaledb_catalog.continuous_agg', ''); -- See the comments for ContinuousAggsBucketFunction structure. CREATE TABLE _timescaledb_catalog.continuous_aggs_bucket_function ( mat_hypertable_id integer NOT NULL, -- The bucket function bucket_func regprocedure NOT NULL, -- `bucket_width` argument of the function, e.g. "1 month" bucket_width text NOT NULL, -- optional `origin` argument of the function provided by the user bucket_origin text, -- optional `offset` argument of the function provided by the user bucket_offset text, -- optional `timezone` argument of the function provided by the user bucket_timezone text, -- fixed or variable sized bucket bucket_fixed_width bool NOT NULL, -- table constraints CONSTRAINT continuous_aggs_bucket_function_pkey PRIMARY KEY (mat_hypertable_id), CONSTRAINT continuous_aggs_bucket_function_mat_hypertable_id_fkey FOREIGN KEY (mat_hypertable_id) REFERENCES _timescaledb_catalog.hypertable (id) ON DELETE CASCADE ); SELECT pg_catalog.pg_extension_config_dump('_timescaledb_catalog.continuous_aggs_bucket_function', ''); CREATE TABLE _timescaledb_catalog.continuous_aggs_invalidation_threshold ( hypertable_id integer NOT NULL, watermark bigint NOT NULL, -- table constraints CONSTRAINT continuous_aggs_invalidation_threshold_pkey PRIMARY KEY (hypertable_id), CONSTRAINT continuous_aggs_invalidation_threshold_hypertable_id_fkey FOREIGN KEY (hypertable_id) REFERENCES _timescaledb_catalog.hypertable (id) ON DELETE CASCADE ); SELECT pg_catalog.pg_extension_config_dump('_timescaledb_catalog.continuous_aggs_invalidation_threshold', ''); CREATE TABLE _timescaledb_catalog.continuous_aggs_watermark ( mat_hypertable_id integer NOT NULL, watermark bigint NOT NULL, -- table constraints CONSTRAINT continuous_aggs_watermark_pkey PRIMARY KEY (mat_hypertable_id), CONSTRAINT continuous_aggs_watermark_mat_hypertable_id_fkey FOREIGN KEY (mat_hypertable_id) REFERENCES _timescaledb_catalog.continuous_agg (mat_hypertable_id) ON DELETE CASCADE ); SELECT pg_catalog.pg_extension_config_dump('_timescaledb_catalog.continuous_aggs_watermark', ''); -- this does not have an FK on the materialization table since INSERTs to this -- table are performance critical CREATE TABLE _timescaledb_catalog.continuous_aggs_hypertable_invalidation_log ( hypertable_id integer NOT NULL, lowest_modified_value bigint NOT NULL, greatest_modified_value bigint NOT NULL ); SELECT pg_catalog.pg_extension_config_dump('_timescaledb_catalog.continuous_aggs_hypertable_invalidation_log', ''); CREATE INDEX continuous_aggs_hypertable_invalidation_log_idx ON _timescaledb_catalog.continuous_aggs_hypertable_invalidation_log (hypertable_id, lowest_modified_value ASC); -- per cagg copy of invalidation log CREATE TABLE _timescaledb_catalog.continuous_aggs_materialization_invalidation_log ( materialization_id integer, lowest_modified_value bigint NOT NULL, greatest_modified_value bigint NOT NULL, -- table constraints CONSTRAINT continuous_aggs_materialization_invalid_materialization_id_fkey FOREIGN KEY (materialization_id) REFERENCES _timescaledb_catalog.continuous_agg (mat_hypertable_id) ON DELETE CASCADE ); SELECT pg_catalog.pg_extension_config_dump('_timescaledb_catalog.continuous_aggs_materialization_invalidation_log', ''); CREATE INDEX continuous_aggs_materialization_invalidation_log_idx ON _timescaledb_catalog.continuous_aggs_materialization_invalidation_log (materialization_id, lowest_modified_value ASC); /* the source of this data is the enum from the source code that lists * the algorithms. This table is NOT dumped. */ CREATE TABLE _timescaledb_catalog.compression_algorithm ( id smallint NOT NULL, version smallint NOT NULL, name name NOT NULL, description text, -- table constraints CONSTRAINT compression_algorithm_pkey PRIMARY KEY (id) ); CREATE TABLE _timescaledb_catalog.compression_settings ( relid regclass NOT NULL, segmentby text[], orderby text[], orderby_desc bool[], orderby_nullsfirst bool[], CONSTRAINT compression_settings_pkey PRIMARY KEY (relid), CONSTRAINT compression_settings_check_segmentby CHECK (array_ndims(segmentby) = 1), CONSTRAINT compression_settings_check_orderby_null CHECK ((orderby IS NULL AND orderby_desc IS NULL AND orderby_nullsfirst IS NULL) OR (orderby IS NOT NULL AND orderby_desc IS NOT NULL AND orderby_nullsfirst IS NOT NULL)), CONSTRAINT compression_settings_check_orderby_cardinality CHECK (array_ndims(orderby) = 1 AND array_ndims(orderby_desc) = 1 AND array_ndims(orderby_nullsfirst) = 1 AND cardinality(orderby) = cardinality(orderby_desc) AND cardinality(orderby) = cardinality(orderby_nullsfirst)) ); SELECT pg_catalog.pg_extension_config_dump('_timescaledb_catalog.compression_settings', ''); CREATE TABLE _timescaledb_catalog.compression_chunk_size ( chunk_id integer NOT NULL, compressed_chunk_id integer NOT NULL, uncompressed_heap_size bigint NOT NULL, uncompressed_toast_size bigint NOT NULL, uncompressed_index_size bigint NOT NULL, compressed_heap_size bigint NOT NULL, compressed_toast_size bigint NOT NULL, compressed_index_size bigint NOT NULL, numrows_pre_compression bigint, numrows_post_compression bigint, numrows_frozen_immediately bigint, -- table constraints CONSTRAINT compression_chunk_size_pkey PRIMARY KEY (chunk_id), CONSTRAINT compression_chunk_size_chunk_id_fkey FOREIGN KEY (chunk_id) REFERENCES _timescaledb_catalog.chunk (id) ON DELETE CASCADE, CONSTRAINT compression_chunk_size_compressed_chunk_id_fkey FOREIGN KEY (compressed_chunk_id) REFERENCES _timescaledb_catalog.chunk (id) ON DELETE CASCADE ); SELECT pg_catalog.pg_extension_config_dump('_timescaledb_catalog.compression_chunk_size', ''); CREATE TABLE _timescaledb_catalog.continuous_agg_migrate_plan ( mat_hypertable_id integer NOT NULL, start_ts TIMESTAMPTZ NOT NULL DEFAULT pg_catalog.now(), end_ts TIMESTAMPTZ, user_view_definition TEXT, -- table constraints CONSTRAINT continuous_agg_migrate_plan_pkey PRIMARY KEY (mat_hypertable_id) ); SELECT pg_catalog.pg_extension_config_dump('_timescaledb_catalog.continuous_agg_migrate_plan', ''); CREATE TABLE _timescaledb_catalog.continuous_agg_migrate_plan_step ( mat_hypertable_id integer NOT NULL, step_id serial NOT NULL, status TEXT NOT NULL DEFAULT 'NOT STARTED', -- NOT STARTED, STARTED, FINISHED, CANCELED start_ts TIMESTAMPTZ, end_ts TIMESTAMPTZ, type TEXT NOT NULL, config JSONB, -- table constraints CONSTRAINT continuous_agg_migrate_plan_step_pkey PRIMARY KEY (mat_hypertable_id, step_id), CONSTRAINT continuous_agg_migrate_plan_step_mat_hypertable_id_fkey FOREIGN KEY (mat_hypertable_id) REFERENCES _timescaledb_catalog.continuous_agg_migrate_plan (mat_hypertable_id) ON DELETE CASCADE, CONSTRAINT continuous_agg_migrate_plan_step_check CHECK (start_ts <= end_ts), CONSTRAINT continuous_agg_migrate_plan_step_check2 CHECK (type IN ('CREATE NEW CAGG', 'DISABLE POLICIES', 'COPY POLICIES', 'ENABLE POLICIES', 'SAVE WATERMARK', 'REFRESH NEW CAGG', 'COPY DATA', 'OVERRIDE CAGG', 'DROP OLD CAGG')) ); SELECT pg_catalog.pg_extension_config_dump('_timescaledb_catalog.continuous_agg_migrate_plan_step', ''); SELECT pg_catalog.pg_extension_config_dump(pg_get_serial_sequence('_timescaledb_catalog.continuous_agg_migrate_plan_step', 'step_id'), ''); CREATE TABLE _timescaledb_internal.job_errors ( job_id integer not null, pid integer, start_time timestamptz, finish_time timestamptz, error_data jsonb ); -- Set table permissions -- We need to grant SELECT to PUBLIC for all tables even those not -- marked as being dumped because pg_dump will try to access all -- tables initially to detect inheritance chains and then decide -- which objects actually need to be dumped. GRANT SELECT ON ALL TABLES IN SCHEMA _timescaledb_catalog TO PUBLIC; GRANT SELECT ON ALL TABLES IN SCHEMA _timescaledb_config TO PUBLIC; GRANT SELECT ON ALL TABLES IN SCHEMA _timescaledb_internal TO PUBLIC; GRANT SELECT ON ALL SEQUENCES IN SCHEMA _timescaledb_catalog TO PUBLIC; GRANT SELECT ON ALL SEQUENCES IN SCHEMA _timescaledb_config TO PUBLIC; GRANT SELECT ON ALL SEQUENCES IN SCHEMA _timescaledb_internal TO PUBLIC; -- We want to restrict access to the job errors to only work through -- the job_errors view. REVOKE ALL ON _timescaledb_internal.job_errors FROM PUBLIC;