This article will introduce you to the relevant knowledge about mongodb and introduce the storage engine in MongoDB. I hope it will be helpful to you!
Last time we talked about the mongodb cluster, which is divided intomaster-slave cluster and sharded cluster. For the shards in the sharded cluster, here is what is needed Pay attention to the following points, let’s review them together:
certainshard keys(shards A shard key is an index field or composite index field that exists in each document in the collection) will cause allread or write requeststo operate on a single data block or shard, which will result in a single sharded server If the load is too heavy, the self-increasing shard key will easily cause writing problems [Recommendation:MongoDB video tutorial]
For coarse-grained sharding keys,may result in many documents using the same sharding key
In this case, these documents cannot be split into multiple data blocks, this will limit mongodb's ability to evenly distribute data
Sharding keys and queries There is no correlation, which will cause poor query performance
For the above points, we must be aware of them. If we encounter similar problems in actual work, we can try to learn to deal with them
Today we will take a brief look atWhat is the storage engine of mongodb
When it comes to the storage engine of mongodb, we need to know that it is in mongodb 3.0 At that time, the concept ofpluggable storage enginewas introduced
Now there are mainly these engines:
When the storage engine first came out, the default was to use the MMAPV1 storage engine.
MMAPV1 engine, we can probably know it by looking at the name. He uses mmap to do it, and uses the principle of linux memory mapping
The MMAPV1 engine is not used now because theWiredTiger storage engine is better, for example, compare WiredTiger has the following advantages:
WiredTiger can better utilize the processing capabilities of multi-core systems
WiredTigerThe lock granularity is smaller
The MMAPV1 engine uses table-level locks. When there are concurrent operations on a single table, the throughput will be affected. Limitations
WiredTiger uses document-level locks, which improves concurrency and throughput
WiredTiger uses prefix compression, which saves memory space consumption compared to MMAPV1
And WiredTiger alsoprovides a compression algorithm, which can greatly reduce the impact on the hard disk. Resource consumption
We can see from the above figure that WiredTigerThe principle of writing to disk is also very simple The
We can all think with our fingers,How could the designer of mongodb allow this situation to exist, then there must be a solution, as follows
As shown in the picture above, there is an extrajournaling buffer
andjournal file
Buffer that stores mongodb addition, deletion and modification instructions
Similar to the transaction log in a relational database
The purpose of introducing Journaling is:
Journaling can enable the mongodb database to quickly recover after an unexpected failure
Journaling's The logging function looks a bit like the aof persistence in redis. It can only be said that it is similar
In mongodb 2.4, the Journaling logging function is enabled by default, when we start the mongod instance, the service will check whether the data needs to be restored
So there will be no mongodb data loss mentioned above
In addition, we need to know here that journaling’s logging function will write logs whenmongodb needs to perform write operations, that is, when adding, deleting, or modifying, which will affect performance
Butmongodb will not record the read operation in the cache, so it will not be recorded in the journaling log, so the read operation will have no impact
That’s it for today. What I have learned, if there is any deviation, please correct me
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