Query Caches Overview
Demand scenario
Most data analysis scenarios are to write less and read more. The data is written once and read multiple times frequently. For example, the dimensions and indicators involved in a report are calculated once in the early morning, but hundreds or even thousands of times a day. Page access, so it is very suitable for caching the result set. In data analysis or BI applications, the following business scenarios exist:
- High concurrency scenario, Doris can better support high concurrency, but a single server cannot carry too high QPS
- Complex Chart Kanban, complex Dashboard or large-screen application, data comes from multiple tables, and each page has dozens of queries. Although each query only takes tens of milliseconds, the overall query time will be several seconds.
- Trend Analysis, for queries within a given date range, indicators are displayed on a daily basis, such as querying the trend of the number of users in the last 7 days. This type of query has a large amount of data, a wide query range, and the query time often takes tens of seconds.
- User repeated query, if the product does not have an anti-refresh mechanism, the user repeatedly refreshes the page due to manual error or other reasons, resulting in a large number of repeated SQL submissions.
In the above four scenarios, the solution at the application layer puts the query results into Redis and periodically updates the cache or the user manually refreshes the cache. However, this solution has the following problems:
- Inconsistent data, unable to detect data updates, causing users to often see old data
- Low hit rate, the entire query result is cached. If the data is written in real time, the cache fails frequently, the hit rate is low and the system load is heavy.
- Additional Cost, introducing external cache components will bring system complexity and increase additional costs.
solution
This partition cache strategy can solve the above problems, giving priority to ensuring data consistency, and on this basis, refining the cache granularity and improving the hit rate, so it has the following characteristics:
- Users do not need to worry about data consistency. Cache invalidation is controlled through versioning. The cached data is consistent with the data queried from BE.
- There are no additional components and costs, the cache results are stored in BE's memory, and users can adjust the cache memory size as needed
- Implemented one caching strategy, SQLCache
- Use consistent hashing to solve the problem of BE nodes going online and offline. The caching algorithm in BE is an improved LRU
scenes to be used
Currently, it supports one method: SQL Cache, and supports OlapTable internal table and Hive external table.
SQL Cache: Only SQL statements that are completely consistent will hit the cache. For details, see: sql-cache-manual.md
Monitoring
FE monitoring items:
query_table //The number of tables in Query
query_olap_table //The number of Olap tables in Query
cache_mode_sql //Identify the number of Query whose cache mode is sql
cache_hit_sql //The number of Query hits in Cache with mode sql
Cache hit rate = cache_hit_sql / query_olap_table
BE monitoring items:
query_cache_memory_total_byte //Cache memory size
query_query_cache_sql_total_count //The number of SQL cached
SQL average data size = cache_memory_total / cache_sql_total
Other monitoring: You can view the CPU and memory indicators of the BE node, Query Percentile and other indicators in the Query statistics from Grafana, and adjust the Cache parameters to achieve business goals.
Related parameters
- cache_result_max_row_count
The maximum number of rows that the query result set can put into the cache. The default is 3000.
vim fe/conf/fe.conf
cache_result_max_row_count=3000
- cache_result_max_data_size
The maximum data size of the query result set placed in the cache is 30M by default. It can be adjusted according to the actual situation, but it is recommended not to set it too large to avoid excessive memory usage. Result sets exceeding this size will not be cached.
vim fe/conf/fe.conf
cache_result_max_data_size=31457280
- cache_last_version_interval_second
The minimum time interval between the latest version of the cached query partition and the current version. Only the query results of partitions that are larger than this interval and have not been updated will be cached. The default is 30, in seconds.
vim fe/conf/fe.conf
cache_last_version_interval_second=30
- query_cache_max_size_mb and query_cache_elasticity_size
query_cache_max_size_mb is the upper memory limit of the cache, query_cache_elasticity_size is the memory size that the cache can stretch. When the total cache size on BE exceeds query_cache_max_size + cache_elasticity_size, it will start to be cleaned up and the memory will be controlled below query_cache_max_size.
These two parameters can be set according to the number of BE nodes, node memory size, and cache hit rate. Calculation method: If 10,000 Queries are cached, each Query caches 1,000 rows, each row is 128 bytes, and is distributed on 10 BEs, then each BE requires about 128M memory (10,000 1,000 128/10).
vim be/conf/be.conf
query_cache_max_size_mb=256
query_cache_elasticity_size_mb=128