SQL FAQs

On this page Carat arrow pointing down
Warning:
As of November 24, 2023, CockroachDB v22.1 is no longer supported. For more details, refer to the Release Support Policy.

How do I bulk insert data into CockroachDB?

  • To bulk-insert data into an existing table, batch multiple rows in one multi-row INSERT statement and do not include the INSERT statements within a transaction. Experimentally determine the optimal batch size for your application by monitoring the performance for different batch sizes (10 rows, 100 rows, 1000 rows).

    Note:

    You can also use the IMPORT INTO statement to bulk-insert CSV data into an existing table.

  • To bulk-insert data into a new table, the IMPORT statement performs better than INSERT. IMPORT can also be used to migrate data from other databases like MySQL, Oracle, and PostgreSQL.

How do I auto-generate unique row IDs in CockroachDB?

To auto-generate unique row identifiers, use the UUID column with the gen_random_uuid() function as the default value:

icon/buttons/copy
> CREATE TABLE users (
        id UUID NOT NULL DEFAULT gen_random_uuid(),
        city STRING NOT NULL,
        name STRING NULL,
        address STRING NULL,
        credit_card STRING NULL,
        CONSTRAINT "primary" PRIMARY KEY (city ASC, id ASC),
        FAMILY "primary" (id, city, name, address, credit_card)
);
icon/buttons/copy
> INSERT INTO users (name, city) VALUES ('Petee', 'new york'), ('Eric', 'seattle'), ('Dan', 'seattle');
icon/buttons/copy
> SELECT * FROM users;
                   id                  |   city   | name  | address | credit_card
+--------------------------------------+----------+-------+---------+-------------+
  cf8ee4e2-cd74-449a-b6e6-a0fb2017baa4 | new york | Petee | NULL    | NULL
  2382564e-702f-42d9-a139-b6df535ae00a | seattle  | Eric  | NULL    | NULL
  7d27e40b-263a-4891-b29b-d59135e55650 | seattle  | Dan   | NULL    | NULL
(3 rows)

Alternatively, you can use the BYTES column with the uuid_v4() function as the default value instead:

icon/buttons/copy
> CREATE TABLE users2 (
        id BYTES DEFAULT uuid_v4(),
        city STRING NOT NULL,
        name STRING NULL,
        address STRING NULL,
        credit_card STRING NULL,
        CONSTRAINT "primary" PRIMARY KEY (city ASC, id ASC),
        FAMILY "primary" (id, city, name, address, credit_card)
);
icon/buttons/copy
> INSERT INTO users2 (name, city) VALUES ('Anna', 'new york'), ('Jonah', 'seattle'), ('Terry', 'chicago');
icon/buttons/copy
> SELECT * FROM users;
                        id                       |   city   | name  | address | credit_card
+------------------------------------------------+----------+-------+---------+-------------+
  4\244\277\323/\261M\007\213\275*\0060\346\025z | chicago  | Terry | NULL    | NULL
  \273*t=u.F\010\274f/}\313\332\373a             | new york | Anna  | NULL    | NULL
  \004\\\364nP\024L)\252\364\222r$\274O0         | seattle  | Jonah | NULL    | NULL
(3 rows)

In either case, generated IDs will be 128-bit, large enough for there to be virtually no chance of generating non-unique values. Also, once the table grows beyond a single key-value range (more than 512 MiB by default), new IDs will be scattered across all of the table's ranges and, therefore, likely across different nodes. This means that multiple nodes will share in the load.

This approach has the disadvantage of creating a primary key that may not be useful in a query directly, which can require a join with another table or a secondary index.

If it is important for generated IDs to be stored in the same key-value range, you can use an integer type with the unique_rowid() function as the default value, either explicitly or via the SERIAL pseudo-type:

icon/buttons/copy
> CREATE TABLE users3 (
        id INT DEFAULT unique_rowid(),
        city STRING NOT NULL,
        name STRING NULL,
        address STRING NULL,
        credit_card STRING NULL,
        CONSTRAINT "primary" PRIMARY KEY (city ASC, id ASC),
        FAMILY "primary" (id, city, name, address, credit_card)
);
icon/buttons/copy
> INSERT INTO users3 (name, city) VALUES ('Blake', 'chicago'), ('Hannah', 'seattle'), ('Bobby', 'seattle');
icon/buttons/copy
> SELECT * FROM users3;
          id         |  city   |  name  | address | credit_card
+--------------------+---------+--------+---------+-------------+
  469048192112197633 | chicago | Blake  | NULL    | NULL
  469048192112263169 | seattle | Hannah | NULL    | NULL
  469048192112295937 | seattle | Bobby  | NULL    | NULL
(3 rows)

Upon insert or upsert, the unique_rowid() function generates a default value from the timestamp and ID of the node executing the insert. Such time-ordered values are likely to be globally unique except in cases where a very large number of IDs (100,000+) are generated per node per second. Also, there can be gaps and the order is not completely guaranteed.

For further background on UUIDs, see What is a UUID, and Why Should You Care?.

How do I generate unique, slowly increasing sequential numbers in CockroachDB?

Sequential numbers can be generated in CockroachDB using the unique_rowid() built-in function or using SQL sequences. However, note the following considerations:

  • Unless you need roughly-ordered numbers, use UUID values instead. See the previous FAQ for details.
  • Sequences produce unique values. However, not all values are guaranteed to be produced (e.g., when a transaction is canceled after it consumes a value) and the values may be slightly reordered (e.g., when a transaction that consumes a lower sequence number commits after a transaction that consumes a higher number).
  • For maximum performance, avoid using sequences or unique_rowid() to generate row IDs or indexed columns. Values generated in these ways are logically close to each other and can cause contention on a few data ranges during inserts. Instead, prefer UUID identifiers.
  • For performance reasons, we discourage indexing on sequential keys. If, however, you are working with a table that must be indexed on sequential keys, you should use hash-sharded indexes. Hash-sharded indexes distribute sequential traffic uniformly across ranges, eliminating single-range hot spots and improving write performance on sequentially-keyed indexes at a small cost to read performance.

What are the differences between UUID, sequences, and unique_rowid()?

Property UUID generated with uuid_v4() INT generated with unique_rowid() Sequences
Size 16 bytes 8 bytes 1 to 8 bytes
Ordering properties Unordered Highly time-ordered Highly time-ordered
Performance cost at generation Small, scalable Small, scalable Variable, can cause contention
Value distribution Uniformly distributed (128 bits) Contains time and space (node ID) components Dense, small values
Data locality Maximally distributed Values generated close in time are co-located Highly local
INSERT latency when used as key Small, insensitive to concurrency Small, but increases with concurrent INSERTs Higher
INSERT throughput when used as key Highest Limited by max throughput on 1 node Limited by max throughput on 1 node
Read throughput when used as key Highest (maximal parallelism) Limited Limited

How do I order writes to a table to closely follow time in CockroachDB?

Most use cases that ask for a strong time-based write ordering can be solved with other, more distribution-friendly solutions instead. For example, CockroachDB's time travel queries (AS OF SYSTEM TIME) support the following:

  • Paginating through all the changes to a table or dataset
  • Determining the order of changes to data over time
  • Determining the state of data at some point in the past
  • Determining the changes to data between two points of time

Consider also that the values generated by unique_rowid(), described in the previous FAQ entries, also provide an approximate time ordering.

However, if your application absolutely requires strong time-based write ordering, it is possible to create a strictly monotonic counter in CockroachDB that increases over time as follows:

  • Initially: CREATE TABLE cnt(val INT PRIMARY KEY); INSERT INTO cnt(val) VALUES(1);
  • In each transaction: INSERT INTO cnt(val) SELECT max(val)+1 FROM cnt RETURNING val;

This will cause INSERT transactions to conflict with each other and effectively force the transactions to commit one at a time throughout the cluster, which in turn guarantees the values generated in this way are strictly increasing over time without gaps. The caveat is that performance is severely limited as a result.

If you find yourself interested in this problem, please contact us and describe your situation. We would be glad to help you find alternative solutions and possibly extend CockroachDB to better match your needs.

How do I get the last ID/SERIAL value inserted into a table?

There’s no function in CockroachDB for returning last inserted values, but you can use the RETURNING clause of the INSERT statement.

For example, this is how you’d use RETURNING to return a value auto-generated via unique_rowid() or SERIAL:

icon/buttons/copy
> CREATE TABLE users (id INT DEFAULT unique_rowid(), name STRING);
icon/buttons/copy
> INSERT INTO users (name) VALUES ('mike') RETURNING id;

What is transaction contention?

Transaction contention occurs when transactions issued from multiple clients at the same time operate on the same data. This can cause transactions to wait on each other and decrease performance, like when many people try to check out with the same cashier at a store.

For more information about contention, see Transaction Contention.

Does CockroachDB support JOIN?

CockroachDB supports SQL joins.

Does CockroachDB support JSON or Protobuf datatypes?

Yes, the JSONB data type is supported.

How do I know which index CockroachDB will select for a query?

To see which indexes CockroachDB is using for a given query, you can use the EXPLAIN statement, which will print out the query plan, including any indexes that are being used:

icon/buttons/copy
> EXPLAIN SELECT col1 FROM tbl1;

If you'd like to tell the query planner which index to use, you can do so via some special syntax for index hints:

icon/buttons/copy
> SELECT col1 FROM tbl1@idx1;

How do I log SQL queries?

You can enable the CockroachDB logging channels that record SQL events.

Does CockroachDB support a UUID type?

Yes. For more details, see UUID.

How does CockroachDB sort results when ORDER BY is not used?

When an ORDER BY clause is not used in a query, rows are processed or returned in a non-deterministic order. "Non-deterministic" means that the actual order can depend on the logical plan, the order of data on disk, the topology of the CockroachDB cluster, and is generally variable over time.

Why are my INT columns returned as strings in JavaScript?

In CockroachDB, all INTs are represented with 64 bits of precision, but JavaScript numbers only have 53 bits of precision. This means that large integers stored in CockroachDB are not exactly representable as JavaScript numbers. For example, JavaScript will round the integer 235191684988928001 to the nearest representable value, 235191684988928000. Notice that the last digit is different. This is particularly problematic when using the unique_rowid() function, since unique_rowid() nearly always returns integers that require more than 53 bits of precision to represent.

To avoid this loss of precision, Node's pg driver will, by default, return all CockroachDB INTs as strings.

icon/buttons/copy
// Schema: CREATE TABLE users (id INT DEFAULT unique_rowid(), name STRING);
pgClient.query("SELECT id FROM users WHERE name = 'Roach' LIMIT 1", function(err, res) {
  var idString = res.rows[0].id;
  // idString === '235191684988928001'
  // typeof idString === 'string'
});

To perform another query using the value of idString, you can simply use idString directly, even where an INT type is expected. The string will automatically be coerced into a CockroachDB INT.

icon/buttons/copy
pgClient.query("UPDATE users SET name = 'Ms. Roach' WHERE id = $1", [idString], function(err, res) {
  // All should be well!
});

If you instead need to perform arithmetic on INTs in JavaScript, you will need to use a big integer library like Long.js. Do not use the built-in parseInt function.

icon/buttons/copy
parseInt(idString, 10) + 1; // WRONG: returns 235191684988928000
require('long').fromString(idString).add(1).toString(); // GOOD: returns '235191684988928002'

Can I use CockroachDB as a key-value store?

CockroachDB is a distributed SQL database built on a transactional and strongly-consistent key-value store. Although it is not possible to access the key-value store directly, you can mirror direct access using a "simple" table of two columns, with one set as the primary key:

> CREATE TABLE kv (k INT PRIMARY KEY, v BYTES);

When such a "simple" table has no indexes or foreign keys, INSERT/UPSERT/UPDATE/DELETE statements translate to key-value operations with minimal overhead (single digit percent slowdowns). For example, the following UPSERT to add or replace a row in the table would translate into a single key-value Put operation:

> UPSERT INTO kv VALUES (1, b'hello')

This SQL table approach also offers you a well-defined query language, a known transaction model, and the flexibility to add more columns to the table if the need arises.

No. For full text search, Cockroach Labs recommends that you use a search engine like Elasticsearch or Solr. You can use CockroachDB change data capture (CDC) to set up a change feed to keep Elasticsearch and Solr indexes synchronized to your CockroachDB tables.

For details, see Full Text Indexing and Search in CockroachDB.

See also


Yes No
On this page

Yes No