Spark Queries🔗
To use Iceberg in Spark, first configure Spark catalogs. Iceberg uses Apache Spark's DataSourceV2 API for data source and catalog implementations.
Querying with SQL🔗
In Spark 3, tables use identifiers that include a catalog name.
Metadata tables, like history
and snapshots
, can use the Iceberg table name as a namespace.
For example, to read from the files
metadata table for prod.db.table
:
content | file_path | file_format | spec_id | partition | record_count | file_size_in_bytes | column_sizes | value_counts | null_value_counts | nan_value_counts | lower_bounds | upper_bounds | key_metadata | split_offsets | equality_ids | sort_order_id |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
0 | s3:/.../table/data/00000-3-8d6d60e8-d427-4809-bcf0-f5d45a4aad96.parquet | PARQUET | 0 | {1999-01-01, 01} | 1 | 597 | [1 -> 90, 2 -> 62] | [1 -> 1, 2 -> 1] | [1 -> 0, 2 -> 0] | [] | [1 -> , 2 -> c] | [1 -> , 2 -> c] | null | [4] | null | null |
0 | s3:/.../table/data/00001-4-8d6d60e8-d427-4809-bcf0-f5d45a4aad96.parquet | PARQUET | 0 | {1999-01-01, 02} | 1 | 597 | [1 -> 90, 2 -> 62] | [1 -> 1, 2 -> 1] | [1 -> 0, 2 -> 0] | [] | [1 -> , 2 -> b] | [1 -> , 2 -> b] | null | [4] | null | null |
0 | s3:/.../table/data/00002-5-8d6d60e8-d427-4809-bcf0-f5d45a4aad96.parquet | PARQUET | 0 | {1999-01-01, 03} | 1 | 597 | [1 -> 90, 2 -> 62] | [1 -> 1, 2 -> 1] | [1 -> 0, 2 -> 0] | [] | [1 -> , 2 -> a] | [1 -> , 2 -> a] | null | [4] | null | null |
Querying with DataFrames🔗
To load a table as a DataFrame, use table
:
Catalogs with DataFrameReader🔗
Paths and table names can be loaded with Spark's DataFrameReader
interface. How tables are loaded depends on how
the identifier is specified. When using spark.read.format("iceberg").load(table)
or spark.table(table)
the table
variable can take a number of forms as listed below:
file:///path/to/table
: loads a HadoopTable at given pathtablename
: loadscurrentCatalog.currentNamespace.tablename
catalog.tablename
: loadstablename
from the specified catalog.namespace.tablename
: loadsnamespace.tablename
from current catalogcatalog.namespace.tablename
: loadsnamespace.tablename
from the specified catalog.namespace1.namespace2.tablename
: loadsnamespace1.namespace2.tablename
from current catalog
The above list is in order of priority. For example: a matching catalog will take priority over any namespace resolution.
Time travel🔗
SQL🔗
Spark 3.3 and later supports time travel in SQL queries using TIMESTAMP AS OF
or VERSION AS OF
clauses.
The VERSION AS OF
clause can contain a long snapshot ID or a string branch or tag name.
Info
Note: If the name of a branch or tag is the same as a snapshot ID, then the snapshot which is selected for time travel is the snapshot
with the given snapshot ID. For example, consider the case where there is a tag named '1' and it references snapshot with ID 2.
If the version travel clause is VERSION AS OF '1'
, time travel will be done to the snapshot with ID 1.
If this is not desired, rename the tag or branch with a well-defined prefix such as 'snapshot-1'.
-- time travel to October 26, 1986 at 01:21:00
SELECT * FROM prod.db.table TIMESTAMP AS OF '1986-10-26 01:21:00';
-- time travel to snapshot with id 10963874102873L
SELECT * FROM prod.db.table VERSION AS OF 10963874102873;
-- time travel to the head snapshot of audit-branch
SELECT * FROM prod.db.table VERSION AS OF 'audit-branch';
-- time travel to the snapshot referenced by the tag historical-snapshot
SELECT * FROM prod.db.table VERSION AS OF 'historical-snapshot';
In addition, FOR SYSTEM_TIME AS OF
and FOR SYSTEM_VERSION AS OF
clauses are also supported:
SELECT * FROM prod.db.table FOR SYSTEM_TIME AS OF '1986-10-26 01:21:00';
SELECT * FROM prod.db.table FOR SYSTEM_VERSION AS OF 10963874102873;
SELECT * FROM prod.db.table FOR SYSTEM_VERSION AS OF 'audit-branch';
SELECT * FROM prod.db.table FOR SYSTEM_VERSION AS OF 'historical-snapshot';
Timestamps may also be supplied as a Unix timestamp, in seconds:
-- timestamp in seconds
SELECT * FROM prod.db.table TIMESTAMP AS OF 499162860;
SELECT * FROM prod.db.table FOR SYSTEM_TIME AS OF 499162860;
The branch or tag may also be specified using a similar syntax to metadata tables, with branch_<branchname>
or tag_<tagname>
:
SELECT * FROM prod.db.table.`branch_audit-branch`;
SELECT * FROM prod.db.table.`tag_historical-snapshot`;
(Identifiers with "-" are not valid, and so must be escaped using back quotes.)
Note that the identifier with branch or tag may not be used in combination with VERSION AS OF
.
DataFrame🔗
To select a specific table snapshot or the snapshot at some time in the DataFrame API, Iceberg supports four Spark read options:
snapshot-id
selects a specific table snapshotas-of-timestamp
selects the current snapshot at a timestamp, in millisecondsbranch
selects the head snapshot of the specified branch. Note that currently branch cannot be combined with as-of-timestamp.tag
selects the snapshot associated with the specified tag. Tags cannot be combined withas-of-timestamp
.
// time travel to October 26, 1986 at 01:21:00
spark.read
.option("as-of-timestamp", "499162860000")
.format("iceberg")
.load("path/to/table")
// time travel to snapshot with ID 10963874102873L
spark.read
.option("snapshot-id", 10963874102873L)
.format("iceberg")
.load("path/to/table")
// time travel to tag historical-snapshot
spark.read
.option(SparkReadOptions.TAG, "historical-snapshot")
.format("iceberg")
.load("path/to/table")
// time travel to the head snapshot of audit-branch
spark.read
.option(SparkReadOptions.BRANCH, "audit-branch")
.format("iceberg")
.load("path/to/table")
Info
Spark 3.0 and earlier versions do not support using option
with table
in DataFrameReader commands. All options will be silently
ignored. Do not use table
when attempting to time-travel or use other options. See SPARK-32592.
Incremental read🔗
To read appended data incrementally, use:
start-snapshot-id
Start snapshot ID used in incremental scans (exclusive).end-snapshot-id
End snapshot ID used in incremental scans (inclusive). This is optional. Omitting it will default to the current snapshot.
// get the data added after start-snapshot-id (10963874102873L) until end-snapshot-id (63874143573109L)
spark.read
.format("iceberg")
.option("start-snapshot-id", "10963874102873")
.option("end-snapshot-id", "63874143573109")
.load("path/to/table")
Info
Currently gets only the data from append
operation. Cannot support replace
, overwrite
, delete
operations.
Incremental read works with both V1 and V2 format-version.
Incremental read is not supported by Spark's SQL syntax.
Inspecting tables🔗
To inspect a table's history, snapshots, and other metadata, Iceberg supports metadata tables.
Metadata tables are identified by adding the metadata table name after the original table name. For example, history for db.table
is read using db.table.history
.
History🔗
To show table history:
made_current_at | snapshot_id | parent_id | is_current_ancestor |
---|---|---|---|
2019-02-08 03:29:51.215 | 5781947118336215154 | NULL | true |
2019-02-08 03:47:55.948 | 5179299526185056830 | 5781947118336215154 | true |
2019-02-09 16:24:30.13 | 296410040247533544 | 5179299526185056830 | false |
2019-02-09 16:32:47.336 | 2999875608062437330 | 5179299526185056830 | true |
2019-02-09 19:42:03.919 | 8924558786060583479 | 2999875608062437330 | true |
2019-02-09 19:49:16.343 | 6536733823181975045 | 8924558786060583479 | true |
Info
This shows a commit that was rolled back. The example has two snapshots with the same parent, and one is not an ancestor of the current table state.
Metadata Log Entries🔗
To show table metadata log entries:
timestamp | file | latest_snapshot_id | latest_schema_id | latest_sequence_number |
---|---|---|---|---|
2022-07-28 10:43:52.93 | s3://.../table/metadata/00000-9441e604-b3c2-498a-a45a-6320e8ab9006.metadata.json | null | null | null |
2022-07-28 10:43:57.487 | s3://.../table/metadata/00001-f30823df-b745-4a0a-b293-7532e0c99986.metadata.json | 170260833677645300 | 0 | 1 |
2022-07-28 10:43:58.25 | s3://.../table/metadata/00002-2cc2837a-02dc-4687-acc1-b4d86ea486f4.metadata.json | 958906493976709774 | 0 | 2 |
Snapshots🔗
To show the valid snapshots for a table:
committed_at | snapshot_id | parent_id | operation | manifest_list | summary |
---|---|---|---|---|---|
2019-02-08 03:29:51.215 | 57897183625154 | null | append | s3://.../table/metadata/snap-57897183625154-1.avro | { added-records -> 2478404, total-records -> 2478404, added-data-files -> 438, total-data-files -> 438, spark.app.id -> application_1520379288616_155055 } |
You can also join snapshots to table history. For example, this query will show table history, with the application ID that wrote each snapshot:
select
h.made_current_at,
s.operation,
h.snapshot_id,
h.is_current_ancestor,
s.summary['spark.app.id']
from prod.db.table.history h
join prod.db.table.snapshots s
on h.snapshot_id = s.snapshot_id
order by made_current_at;
made_current_at | operation | snapshot_id | is_current_ancestor | summary[spark.app.id] |
---|---|---|---|---|
2019-02-08 03:29:51.215 | append | 57897183625154 | true | application_1520379288616_155055 |
2019-02-09 16:24:30.13 | delete | 29641004024753 | false | application_1520379288616_151109 |
2019-02-09 16:32:47.336 | append | 57897183625154 | true | application_1520379288616_155055 |
2019-02-08 03:47:55.948 | overwrite | 51792995261850 | true | application_1520379288616_152431 |
Entries🔗
To show all the table's current manifest entries for both data and delete files.
status | snapshot_id | sequence_number | file_sequence_number | data_file | readable_metrics |
---|---|---|---|---|---|
2 | 57897183625154 | 0 | 0 | {"content":0,"file_path":"s3:/.../table/data/00047-25-833044d0-127b-415c-b874-038a4f978c29-00612.parquet","file_format":"PARQUET","spec_id":0,"record_count":15,"file_size_in_bytes":473,"column_sizes":{1:103},"value_counts":{1:15},"null_value_counts":{1:0},"nan_value_counts":{},"lower_bounds":{1:},"upper_bounds":{1:},"key_metadata":null,"split_offsets":[4],"equality_ids":null,"sort_order_id":0} | {"c1":{"column_size":103,"value_count":15,"null_value_count":0,"nan_value_count":null,"lower_bound":1,"upper_bound":3}} |
Files🔗
To show a table's current files:
content | file_path | file_format | spec_id | record_count | file_size_in_bytes | column_sizes | value_counts | null_value_counts | nan_value_counts | lower_bounds | upper_bounds | key_metadata | split_offsets | equality_ids | sort_order_id | readable_metrics |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
0 | s3:/.../table/data/00042-3-a9aa8b24-20bc-4d56-93b0-6b7675782bb5-00001.parquet | PARQUET | 0 | 1 | 652 | {1:52,2:48} | {1:1,2:1} | {1:0,2:0} | {} | {1:,2:d} | {1:,2:d} | NULL | [4] | NULL | 0 | {"data":{"column_size":48,"value_count":1,"null_value_count":0,"nan_value_count":null,"lower_bound":"d","upper_bound":"d"},"id":{"column_size":52,"value_count":1,"null_value_count":0,"nan_value_count":null,"lower_bound":1,"upper_bound":1}} |
0 | s3:/.../table/data/00000-0-f9709213-22ca-4196-8733-5cb15d2afeb9-00001.parquet | PARQUET | 0 | 1 | 643 | {1:46,2:48} | {1:1,2:1} | {1:0,2:0} | {} | {1:,2:a} | {1:,2:a} | NULL | [4] | NULL | 0 | {"data":{"column_size":48,"value_count":1,"null_value_count":0,"nan_value_count":null,"lower_bound":"a","upper_bound":"a"},"id":{"column_size":46,"value_count":1,"null_value_count":0,"nan_value_count":null,"lower_bound":1,"upper_bound":1}} |
0 | s3:/.../table/data/00001-1-f9709213-22ca-4196-8733-5cb15d2afeb9-00001.parquet | PARQUET | 0 | 2 | 644 | {1:49,2:51} | {1:2,2:2} | {1:0,2:0} | {} | {1:,2:b} | {1:,2:c} | NULL | [4] | NULL | 0 | {"data":{"column_size":51,"value_count":2,"null_value_count":0,"nan_value_count":null,"lower_bound":"b","upper_bound":"c"},"id":{"column_size":49,"value_count":2,"null_value_count":0,"nan_value_count":null,"lower_bound":2,"upper_bound":3}} |
1 | s3:/.../table/data/00081-4-a9aa8b24-20bc-4d56-93b0-6b7675782bb5-00001-deletes.parquet | PARQUET | 0 | 1 | 1560 | {2147483545:46,2147483546:152} | {2147483545:1,2147483546:1} | {2147483545:0,2147483546:0} | {} | {2147483545:,2147483546:s3:/.../table/data/00000-0-f9709213-22ca-4196-8733-5cb15d2afeb9-00001.parquet} | {2147483545:,2147483546:s3:/.../table/data/00000-0-f9709213-22ca-4196-8733-5cb15d2afeb9-00001.parquet} | NULL | [4] | NULL | NULL | {"data":{"column_size":null,"value_count":null,"null_value_count":null,"nan_value_count":null,"lower_bound":null,"upper_bound":null},"id":{"column_size":null,"value_count":null,"null_value_count":null,"nan_value_count":null,"lower_bound":null,"upper_bound":null}} |
2 | s3:/.../table/data/00047-25-833044d0-127b-415c-b874-038a4f978c29-00612.parquet | PARQUET | 0 | 126506 | 28613985 | {100:135377,101:11314} | {100:126506,101:126506} | {100:105434,101:11} | {} | {100:0,101:17} | {100:404455227527,101:23} | NULL | NULL | [1] | 0 | {"id":{"column_size":135377,"value_count":126506,"null_value_count":105434,"nan_value_count":null,"lower_bound":0,"upper_bound":404455227527},"data":{"column_size":11314,"value_count":126506,"null_value_count": 11,"nan_value_count":null,"lower_bound":17,"upper_bound":23}} |
Info
Content refers to type of content stored by the data file: * 0 Data * 1 Position Deletes * 2 Equality Deletes
To show only data files or delete files, query prod.db.table.data_files
and prod.db.table.delete_files
respectively.
To show all files, data files and delete files across all tracked snapshots, query prod.db.table.all_files
, prod.db.table.all_data_files
and prod.db.table.all_delete_files
respectively.
Manifests🔗
To show a table's current file manifests:
path | length | partition_spec_id | added_snapshot_id | added_data_files_count | existing_data_files_count | deleted_data_files_count | partition_summaries |
---|---|---|---|---|---|---|---|
s3://.../table/metadata/45b5290b-ee61-4788-b324-b1e2735c0e10-m0.avro | 4479 | 0 | 6668963634911763636 | 8 | 0 | 0 | [[false,null,2019-05-13,2019-05-15]] |
Note:
- Fields within
partition_summaries
column of the manifests table correspond tofield_summary
structs within manifest list, with the following order:contains_null
contains_nan
lower_bound
upper_bound
contains_nan
could return null, which indicates that this information is not available from the file's metadata. This usually occurs when reading from V1 table, wherecontains_nan
is not populated.
Partitions🔗
To show a table's current partitions:
partition | spec_id | record_count | file_count | total_data_file_size_in_bytes | position_delete_record_count | position_delete_file_count | equality_delete_record_count | equality_delete_file_count | last_updated_at(μs) | last_updated_snapshot_id |
---|---|---|---|---|---|---|---|---|---|---|
{20211001, 11} | 0 | 1 | 1 | 100 | 2 | 1 | 0 | 0 | 1633086034192000 | 9205185327307503337 |
{20211002, 11} | 0 | 4 | 3 | 500 | 1 | 1 | 0 | 0 | 1633172537358000 | 867027598972211003 |
{20211001, 10} | 0 | 7 | 4 | 700 | 0 | 0 | 0 | 0 | 1633082598716000 | 3280122546965981531 |
{20211002, 10} | 0 | 3 | 2 | 400 | 0 | 0 | 1 | 1 | 1633169159489000 | 6941468797545315876 |
Note:
-
For unpartitioned tables, the partitions table will not contain the partition and spec_id fields.
-
The partitions metadata table shows partitions with data files or delete files in the current snapshot. However, delete files are not applied, and so in some cases partitions may be shown even though all their data rows are marked deleted by delete files.
Positional Delete Files🔗
To show all positional delete files from the current snapshot of table:
file_path | pos | row | spec_id | delete_file_path |
---|---|---|---|---|
s3:/.../table/data/00042-3-a9aa8b24-20bc-4d56-93b0-6b7675782bb5-00001.parquet | 1 | 0 | 0 | s3:/.../table/data/00191-1933-25e9f2f3-d863-4a69-a5e1-f9aeeebe60bb-00001-deletes.parquet |
All Metadata Tables🔗
These tables are unions of the metadata tables specific to the current snapshot, and return metadata across all snapshots.
Danger
The "all" metadata tables may produce more than one row per data file or manifest file because metadata files may be part of more than one table snapshot.
All Data Files🔗
To show all of the table's data files and each file's metadata:
content | file_path | file_format | partition | record_count | file_size_in_bytes | column_sizes | value_counts | null_value_counts | nan_value_counts | lower_bounds | upper_bounds | key_metadata | split_offsets | equality_ids | sort_order_id |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
0 | s3://.../dt=20210102/00000-0-756e2512-49ae-45bb-aae3-c0ca475e7879-00001.parquet | PARQUET | {20210102} | 14 | 2444 | {1 -> 94, 2 -> 17} | {1 -> 14, 2 -> 14} | {1 -> 0, 2 -> 0} | {} | {1 -> 1, 2 -> 20210102} | {1 -> 2, 2 -> 20210102} | null | [4] | null | 0 |
0 | s3://.../dt=20210103/00000-0-26222098-032f-472b-8ea5-651a55b21210-00001.parquet | PARQUET | {20210103} | 14 | 2444 | {1 -> 94, 2 -> 17} | {1 -> 14, 2 -> 14} | {1 -> 0, 2 -> 0} | {} | {1 -> 1, 2 -> 20210103} | {1 -> 3, 2 -> 20210103} | null | [4] | null | 0 |
0 | s3://.../dt=20210104/00000-0-a3bb1927-88eb-4f1c-bc6e-19076b0d952e-00001.parquet | PARQUET | {20210104} | 14 | 2444 | {1 -> 94, 2 -> 17} | {1 -> 14, 2 -> 14} | {1 -> 0, 2 -> 0} | {} | {1 -> 1, 2 -> 20210104} | {1 -> 3, 2 -> 20210104} | null | [4] | null | 0 |
All Delete Files🔗
To show the table's delete files and each file's metadata from all the snapshots:
content | file_path | file_format | spec_id | record_count | file_size_in_bytes | column_sizes | value_counts | null_value_counts | nan_value_counts | lower_bounds | upper_bounds | key_metadata | split_offsets | equality_ids | sort_order_id | readable_metrics |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
1 | s3:/.../table/data/00081-4-a9aa8b24-20bc-4d56-93b0-6b7675782bb5-00001-deletes.parquet | PARQUET | 0 | 1 | 1560 | {2147483545:46,2147483546:152} | {2147483545:1,2147483546:1} | {2147483545:0,2147483546:0} | {} | {2147483545:,2147483546:s3:/.../table/data/00000-0-f9709213-22ca-4196-8733-5cb15d2afeb9-00001.parquet} | {2147483545:,2147483546:s3:/.../table/data/00000-0-f9709213-22ca-4196-8733-5cb15d2afeb9-00001.parquet} | NULL | [4] | NULL | NULL | {"data":{"column_size":null,"value_count":null,"null_value_count":null,"nan_value_count":null,"lower_bound":null,"upper_bound":null},"id":{"column_size":null,"value_count":null,"null_value_count":null,"nan_value_count":null,"lower_bound":null,"upper_bound":null}} |
2 | s3:/.../table/data/00047-25-833044d0-127b-415c-b874-038a4f978c29-00612.parquet | PARQUET | 0 | 126506 | 28613985 | {100:135377,101:11314} | {100:126506,101:126506} | {100:105434,101:11} | {} | {100:0,101:17} | {100:404455227527,101:23} | NULL | NULL | [1] | 0 | {"id":{"column_size":135377,"value_count":126506,"null_value_count":105434,"nan_value_count":null,"lower_bound":0,"upper_bound":404455227527},"data":{"column_size":11314,"value_count":126506,"null_value_count": 11,"nan_value_count":null,"lower_bound":17,"upper_bound":23}} |
All Entries🔗
To show the table's manifest entries from all the snapshots for both data and delete files:
status | snapshot_id | sequence_number | file_sequence_number | data_file | readable_metrics |
---|---|---|---|---|---|
2 | 57897183625154 | 0 | 0 | {"content":0,"file_path":"s3:/.../table/data/00047-25-833044d0-127b-415c-b874-038a4f978c29-00612.parquet","file_format":"PARQUET","spec_id":0,"record_count":15,"file_size_in_bytes":473,"column_sizes":{1:103},"value_counts":{1:15},"null_value_counts":{1:0},"nan_value_counts":{},"lower_bounds":{1:},"upper_bounds":{1:},"key_metadata":null,"split_offsets":[4],"equality_ids":null,"sort_order_id":0} | {"c1":{"column_size":103,"value_count":15,"null_value_count":0,"nan_value_count":null,"lower_bound":1,"upper_bound":3}} |
All Manifests🔗
To show all of the table's manifest files:
path | length | partition_spec_id | added_snapshot_id | added_data_files_count | existing_data_files_count | deleted_data_files_count | partition_summaries |
---|---|---|---|---|---|---|---|
s3://.../metadata/a85f78c5-3222-4b37-b7e4-faf944425d48-m0.avro | 6376 | 0 | 6272782676904868561 | 2 | 0 | 0 | [{false, false, 20210101, 20210101}] |
Note:
- Fields within
partition_summaries
column of the manifests table correspond tofield_summary
structs within manifest list, with the following order:contains_null
contains_nan
lower_bound
upper_bound
contains_nan
could return null, which indicates that this information is not available from the file's metadata. This usually occurs when reading from V1 table, wherecontains_nan
is not populated.
References🔗
To show a table's known snapshot references:
name | type | snapshot_id | max_reference_age_in_ms | min_snapshots_to_keep | max_snapshot_age_in_ms |
---|---|---|---|---|---|
main | BRANCH | 4686954189838128572 | 10 | 20 | 30 |
testTag | TAG | 4686954189838128572 | 10 | null | null |
Inspecting with DataFrames🔗
Metadata tables can be loaded using the DataFrameReader API:
// named metastore table
spark.read.format("iceberg").load("db.table.files")
// Hadoop path table
spark.read.format("iceberg").load("hdfs://nn:8020/path/to/table#files")
Time Travel with Metadata Tables🔗
To inspect a tables's metadata with the time travel feature:
-- get the table's file manifests at timestamp Sep 20, 2021 08:00:00
SELECT * FROM prod.db.table.manifests TIMESTAMP AS OF '2021-09-20 08:00:00';
-- get the table's partitions with snapshot id 10963874102873L
SELECT * FROM prod.db.table.partitions VERSION AS OF 10963874102873;
Metadata tables can also be inspected with time travel using the DataFrameReader API: