Updating Data
Differences between updating data in ClickHouse and OLTP databases
When it comes to handling updates, ClickHouse and OLTP databases diverge significantly due to their underlying design philosophies and target use cases. For example, PostgreSQL, a row-oriented, ACID-compliant relational database, supports robust and transactional update and delete operations, ensuring data consistency and integrity through mechanisms like Multi-Version Concurrency Control (MVCC). This allows for safe and reliable modifications even in high-concurrency environments.
Conversely, ClickHouse is a column-oriented database optimized for read-heavy analytics and high throughput append-only operations. While it does natively support in-place updates and delete, they must be used carefully to avoid high I/O. Alternatively, tables can be restructured to convert delete and update into appended operations where they are processed asynchronously and/or at read time, thus reflecting the focus on high-throughput data ingestion and efficient query performance over real-time data manipulation.
Methods to update data in ClickHouse
There are several ways to update data in ClickHouse, each with its own advantages and performance characteristics. You should select the appropriate method based on your data model and the amount of data you intend to update.
For both operations, if the number of submitted mutations constantly exceeds the number of mutations that are processed in the background over some time interval, the queue of non-materialized mutations that have to be applied will continue to grow. This will result in the eventual degradation of SELECT
query performance.
In summary, update operations should be issued carefully, and the mutations queue should be tracked closely using the system.mutations
table. Do not issue updates frequently as you would in OLTP databases. If you have a requirement for frequent updates, see ReplacingMergeTree.
Method | Syntax | When to use |
---|---|---|
Update mutation | ALTER TABLE [table] UPDATE | Use when data must be updated to disk immediately (e.g. for compliance). Negatively affects SELECT performance. |
Lightweight update | ALTER TABLE [table] UPDATE | Enable using SET apply_mutations_on_fly = 1; . Use when updating small amounts of data. Rows are immediately returned with updated data in all subsequent SELECT queries but are initially only internally marked as updated on disk. |
ReplacingMergeTree | ENGINE = ReplacingMergeTree | Use when updating large amounts of data. This table engine is optimized for data deduplication on merges. |
Here is a summary of the different ways to update data in ClickHouse:
Update Mutations
Update mutations - can be issued through a ALTER TABLE … UPDATE
command e.g.
ALTER TABLE posts_temp
(UPDATE AnswerCount = AnswerCount + 1 WHERE AnswerCount = 0)
These are extremely IO-heavy, rewriting all the parts that match the WHERE
expression. There is no atomicity to this process - parts are substituted for mutated parts as soon as they are ready, and a SELECT
query that starts executing during a mutation will see data from parts that have already been mutated along with data from parts that have not been mutated yet. Users can track the state of the progress via the systems.mutations table. These are I/O intense operations and should be used sparingly as they can impact cluster SELECT
performance.
Read more about update mutations.
Lightweight Updates (only available in ClickHouse Cloud)
Lightweight updates provide a mechanism to update rows such that they are updated immediately, and subsequent SELECT
queries will automatically return with the changed values (this incurs an overhead and will slow queries). This effectively addresses the atomicity limitation of normal mutations. We show an example below:
SET apply_mutations_on_fly = 1;
SELECT ViewCount
FROM posts
WHERE Id = 404346
┌─ViewCount─┐
│ 26762 │
└───────────┘
1 row in set. Elapsed: 0.115 sec. Processed 59.55 million rows, 238.25 MB (517.83 million rows/s., 2.07 GB/s.)
Peak memory usage: 113.65 MiB.
-increment count
ALTER TABLE posts
(UPDATE ViewCount = ViewCount + 1 WHERE Id = 404346)
SELECT ViewCount
FROM posts
WHERE Id = 404346
┌─ViewCount─┐
│ 26763 │
└───────────┘
1 row in set. Elapsed: 0.149 sec. Processed 59.55 million rows, 259.91 MB (399.99 million rows/s., 1.75 GB/s.)
Note that for lightweight updates, a mutation is still used to update the data; it is just not materialized immediately and applied during SELECT
queries. It will still be applied in the background as an asynchronous process and incurs the same heavy overhead as a mutation and thus is an I/O intense operation that should be used sparingly. The expressions that can be used with this operation are also limited (see here for details).
Read more about lightweight updates.