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In a database-centric application that is designed for multiple clients, I've always thought it was "better" to use a single database for ALL clients - associating records with proper indexes and keys. In listening to the Stack Overflow podcast, I heard Joel mention that FogBugz uses one database per client (so if there were 1000 clients, there would be 1000 databases). What are the advantages of using this architecture?

I understand that for some projects, clients need direct access to all of their data - in such an application, it's obvious that each client needs their own database. However, for projects where a client does not need to access the database directly, are there any advantages to using one database per client? It seems that in terms of flexibility, it's much simpler to use a single database with a single copy of the tables. It's easier to add new features, it's easier to create reports, and it's just easier to manage.

I was pretty confident in the "one database for all clients" method until I heard Joel (an experienced developer) mention that his software uses a different approach -- and I'm a little confused with his decision...

I've heard people cite that databases slow down with a large number of records, but any relational database with some merit isn't going to have that problem - especially if proper indexes and keys are used.

Any input is greatly appreciated!

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See also One Database vs. Multiple Databases in serverfault. –  Örjan Jämte Jul 6 '11 at 6:32
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10 Answers 10

up vote 26 down vote accepted

Assume there's no scaling penalty for storing all the clients in one database; for most people, and well configured databases/queries, this will be fairly true these days. If you're not one of these people, well, then the benefit of a single database is obvious.

In this situation, benefits come from the encapsulation of each client. From the code perspective, each client exists in isolation - there is no possible situation in which a database update might overwrite, corrupt, retrieve or alter data belonging to another client. This also simplifies the model, as you don't need to ever consider the fact that records might belong to another client.

You also get benefits of separability - it's trivial to pull out the data associated with a given client ,and move them to a different server. Or restore a backup of that client when the call up to say "We've deleted some key data!", using the builtin database mechanisms.

You get easy and free server mobility - if you outscale one database server, you can just host new clients on another server. If they were all in one database, you'd need to either get beefier hardware, or run the database over multiple machines.

You get easy versioning - if one client wants to stay on software version 1.0, and another wants 2.0, where 1.0 and 2.0 use different database schemas, there's no problem - you can migrate one without having to pull them out of one database.

I can think of a few dozen more, I guess. But all in all, the key concept is "simplicity". The product manages one client, and thus one database. There is never any complexity from the "But the database also contains other clients" issue. It fits the mental model of the user, where they exist alone. Advantages like being able to doing easy reporting on all clients at once, are minimal - how often do you want a report on the whole world, rather than just one client?

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In terms of keeping the "wall" between clients, that's what stored procedures and triggers are for (warning: not recommended for MySQL)--it is also trivially easy to (re)move clients' data to different servers if one has built the schema properly. "Simplicity" works the other way, too. If I have a single database, I can easily pool my connections and simplify that code. If I run out of connections, I just increase the pool; no need to monitor each client separately. –  BryanH Oct 19 '09 at 17:48
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To keep it simple. You can be sure that your client is only seeing their data. The client with fewer records doesn't have to pay the penalty of having to compete with hundreds of thousands of records that may be in the database but not theirs. I don't care how well everything is indexed and optimized there will be queries that determine that they have to scan every record.

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Here's one approach that I've seen before:

  • Each customer has a unique connection string stored in a master customer database.
  • The database is designed so that everything is segmented by CustomerID, even if there is a single customer on a database.
  • Scripts are created to migrate all customer data to a new database if needed, and then only that customer's connection string needs to be updated to point to the new location.

This allows for using a single database at first, and then easily segmenting later on once you've got a large number of clients, or more commonly when you have a couple of customers that overuse the system.

I've found that restoring specific customer data is really tough when all the data is in the same database, but managing upgrades is much simpler.

When using a single database per customer, you run into a huge problem of keeping all customers running at the same schema version, and that doesn't even consider backup jobs on a whole bunch of customer-specific databases. Naturally restoring data is easier, but if you make sure not to permanently delete records (just mark with a deleted flag or move to an archive table), then you have less need for database restore in the first place.

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Well, what if one of your clients tells you to restore to an earlier version of their data due to some botched import job or similar? Imagine how your clients would feel if you told them "you can't do that, since your data is shared between all our clients" or "Sorry, but your changes were lost because client X demanded a restore of the database".

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All tables should be partitioned by TenantID. This gives you possibility to backup/restore partitions for only one client :) –  dariol May 20 '10 at 23:03
    
@dario-g: Sounds like you're supporting a shared database approach. Please explain what you mean by partitioning by TenantID, as this may not be obvious. –  Gruber Sep 21 '12 at 14:56
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In Oracle you can partition a table and move the partitions to remote locations, however you still have a single table. –  givanse Feb 6 at 18:18
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As for the pain of upgrading 1000 database servers at once, some fairly simple automation should take care of that. As long as each database maintains an identical schema, then it won't really be an issue. We also use the database per client approach, and it works well for us.

Here is an article on this exact topic (yes, it is MSDN, but it is a technology independent article): http://msdn.microsoft.com/en-us/library/aa479086.aspx.

Another discussion of multi-tenancy as it relates to your data model here: http://www.ayende.com/Blog/archive/2008/08/07/Multi-Tenancy--The-Physical-Data-Model.aspx

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Anybody knows a tool which automates upgrading multiple databases for say, MySQL? If you decide to use the isolation approach you need to make sure that the 1000 databases are up to date, mirroring the schema of a designated master database. –  Gruber Sep 21 '12 at 14:50
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Scalability. Security. Our company uses 1 DB per customer approach as well. It also makes code a bit easier to maintain as well.

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Thanks for your input -- all excellent and very valid points. I suppose I'm looking more at upgrade flexibility. If you need to modify the schema to add a new feature (lets say for a web application) or to enhance existing features, it's simple to do in a single database. If you had to replicate this change across 1000 separate databases, the chance of error increases. What if an operation fails? How long does it take to upgrade every client?

If proper backups are kept (or if your database was structured where data was never actually overwritten), restoring data for a particular client is trivial.

The simplicity of the code, while important, doesn't really get extremely complicated. Depending on the language used and the methodologies, it's simple to create objects that represent only that specific client (which store a particular Client ID) and the rest of the project only has to be coded for a single object (sort of like a single client).

Scalability is something to consider - you're right that it's easy to take a single isolated database and move it to a different physical server; however, it's becoming increasingly easier to cluster servers together - and even without clustering, it seems like it'd be a small change to point each client at a database SERVER that hosts the universal database (so you could have two or three database servers hosting only a single database each, for instance). This approach keeps the upgrade process limited to only three databases.

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u seem to be leaning towards the Shared approach. im with you. –  cottsak Apr 22 '09 at 10:33
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I'm just adding this answer to include the word multi-tenant here. I was searching for this, using "multitenant" as the query, and this one didn't appear.

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edit the original question or just add the tag. –  lubos hasko Oct 13 '09 at 17:41
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I didn't have enough reputation at the time, check my response date. –  Daniel Magliola Oct 13 '09 at 21:38
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There are a couple of meanings of "database"

  • the hardware box
  • the running software (e.g. "the oracle")
  • the particular set of data files
  • the particular login or schema

It's likely Joel means one of the lower layers. In this case, it's just a matter of software configuration management... you don't have to patch 1000 software servers to fix a security bug, for example.

I think it's a good idea, so that a software bug doesn't leak information across clients. Imagine the case with an errant where clause that showed me your customer data as well as my own.

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No. he means the database. The thing that gets created when you issue a "CREATE DATABASE" statement. –  BobbyShaftoe Dec 15 '08 at 6:25
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In regulated industries such as health care it may be a requirement of one database per customer, possibly even a separate database server.

The simple answer to updating multiple databases when you upgrade is to do the upgrade as a transaction, and take a snapshot before upgrading if necessary. If you are running your operations well then you should be able to apply the upgrade to any number of databases.

Clustering is not really a solution to the problem of indices and full table scans. If you move to a cluster, very little changes. If you have have many smaller databases to distribute over multiple machines you can do this more cheaply without a cluster. Reliability and availability are considerations but can be dealt with in other ways (some people will still need a cluster but majority probably don't).

I'd be interested in hearing a little more context from you on this because clustering is not a simple topic and is expensive to implement in the RDBMS world. There is a lot of talk/bravado about clustering in the non-relational world Google Bigtable etc. but they are solving a different set of problems, and lose some of the useful features from an RDBMS.

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