74 lines
3.4 KiB
Markdown
74 lines
3.4 KiB
Markdown
---
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stage: Data Stores
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group: Database
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info: To determine the technical writer assigned to the Stage/Group associated with this page, see https://about.gitlab.com/handbook/engineering/ux/technical-writing/#assignments
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---
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# Query performance guidelines
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This document describes various guidelines to follow when optimizing SQL queries.
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When you are optimizing your SQL queries, there are two dimensions to pay attention to:
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1. The query execution time. This is paramount as it reflects how the user experiences GitLab.
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1. The query plan. Optimizing the query plan is important in allowing queries to independently scale over time. Realizing that an index keeps a query performing well as the table grows before the query degrades is an example of why we analyze these plans.
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## Timing guidelines for queries
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| Query Type | Maximum Query Time | Notes |
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|----|----|---|
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| General queries | `100ms` | This is not a hard limit, but if a query is getting above it, it is important to spend time understanding why it can or cannot be optimized. |
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| Queries in a migration | `100ms` | This is different than the total [migration time](../migration_style_guide.md#how-long-a-migration-should-take). |
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| Concurrent operations in a migration | `5min` | Concurrent operations do not block the database, but they block the GitLab update. This includes operations such as `add_concurrent_index` and `add_concurrent_foreign_key`. |
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| Background migrations | `1s` | |
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| Service Ping | `1s` | See the [Service Ping docs](../service_ping/implement.md) for more details. |
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- When analyzing your query's performance, pay attention to if the time you are seeing is on a [cold or warm cache](#cold-and-warm-cache). These guidelines apply for both cache types.
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- When working with batched queries, change the range and batch size to see how it effects the query timing and caching.
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- If an existing query is not performing well, make an effort to improve it. If it is too complex or would stall development, create a follow-up so it can be addressed in a timely manner. You can always ask the database reviewer or maintainer for help and guidance.
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## Cold and warm cache
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When evaluating query performance it is important to understand the difference between
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cold and warm cached queries.
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The first time a query is made, it is made on a "cold cache". Meaning it needs
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to read from disk. If you run the query again, the data can be read from the
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cache, or what PostgreSQL calls shared buffers. This is the "warm cache" query.
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When analyzing an [`EXPLAIN` plan](understanding_explain_plans.md), you can see
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the difference not only in the timing, but by looking at the output for `Buffers`
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by running your explain with `EXPLAIN(analyze, buffers)`. [Database Lab](understanding_explain_plans.md#database-lab-engine)
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automatically includes these options.
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If you are making a warm cache query, you see only the `shared hits`.
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For example in #database-lab:
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```plaintext
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Shared buffers:
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- hits: 36467 (~284.90 MiB) from the buffer pool
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- reads: 0 from the OS file cache, including disk I/O
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```
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Or in the explain plan from `psql`:
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```sql
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Buffers: shared hit=7323
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```
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If the cache is cold, you also see `reads`.
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In #database-lab:
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```plaintext
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Shared buffers:
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- hits: 17204 (~134.40 MiB) from the buffer pool
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- reads: 15229 (~119.00 MiB) from the OS file cache, including disk I/O
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```
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In `psql`:
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```sql
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Buffers: shared hit=7202 read=121
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```
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