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I was down the pub with a friend of mine yesterday and we started discussing the architecture in use at the company he works at. The conversation basically surrounded the pros/cons of a shared database architecture against a distributed independent application architecture - we couldn't get to a consensus in which case I'd like to hear people's opinions on the pros/cons of both approaches.

Basically, the company that he works for has a large architecture with many different applications. Some applications have a single database that they share between them. For example, there is 1 application which provides a UI for users to alter reference data. This reference data is used by another application which also accesses the same data. I believe the code is actually written as shared libraries (i.e. both applications will use a common code set that is redeployed for each (one has it as a dependency)).

There are also other applications with a database that is also used by other applications by direct JDBC connection with data access code (not common between the two apps - duplicated!! erghh!).

My question is around the pros/cons of this architecture vs. an architecture where each application contains it's "master" data in silo. If an application x requires data from application y they use web services or some messaging technology to receive that data.

The messaging approach would introduce a problem whereby reference data 'codes' (or foreign keys) which are used within the db's of other applications currently now have to be fetched from another source. In the current architecture the 'decodes' for these can change at any time and be reflected in the external application immediately, rather than having to have a master/slave relationship where data is copied - or an alternative where application x has to query application y just to display the decode values.

I had read Enterprise Integration Patterns and whilst it does give some examples of the advantages of messaging - i'm not so convinced.

Thanks Iain

share|improve this question
Hi Iain, have you gained more knowledge on that topic in the meantime. I wonder if your interested in an offline discussion. I am convinced that pros overweight cons for the shared database, however I am convinced that the current fashion in the way technology is thought is not compatible to my general feeling. I have some thoughts on an ideal architecture especially for big organizations and look for somebody who could honestly feedback on this without being blended by tribe thinking... – Quicker Mar 16 '15 at 11:44
@Quicker I'm one of the co-founders of a startup that has an interest in shared data integration patterns. We'd be interested in sharing ideas on this topic, if you're still willing to discuss your thoughts offline. Please contact dave@yodata.io and we can find a time to talk. – Brian Shamblen Apr 28 '15 at 16:18
up vote 10 down vote accepted

The advantages of message-based integration over a shared database is in my opinion very difficult to articulate.

There is the inevitable argument where the DBAs want to model all the relationships between the entities so that the data is 100% consistent at all times. On the other hand you have the developers warning the DBAs about tight-coupling that emerges from monolithic architecture and how applications bound to master tables cannot be changed easily.

I think both of these arguments are kind of scratching the surface, and building a system which is easy to change is challenging, regardless of how you do the integration. I want to put forward another kind of argument for SOA and message-based integration.

What it comes down to is this:

  1. Shared database integration is generally driven from a "big system" view of the world.
  2. Message based integration is generally driven from a "small system" view of the world.

How many times have you come across large systems with hundreds of users which do many, many different jobs supporting multiple and diverse business functions? I come across them all the time. They are the staple of enterprise software at the moment it seems.

One thing all these systems seem to have in common is that they are very expensive to change. And one of the reasons for this is, as Joe R says in his answer, tight coupling.

However, there are two types of coupling we need to consider.

The first is what I like to call technological coupling and this means vertical coupling inside the technology stack, usually n-tiered, between one tier and another tier.

So we have coupling between the database and data-access layer of a application, coupling between the data-access layer and business logic layer, etc. To regarding such coupling as bad seems to be par for the course, but thinking rationally, should we not expect a high degree of coupling between, say, the User business object, and the UserRepository persistence object, and the User database table?

Let's consider what coupling actually means at the implementation level. Coupling happens when code which "belongs" to one thing leaks into another thing. This leakage is inevitable when you have multiple layers basically talking about the same business concept.

The kind of coupling I'd like to address, and which is encouraged by the use of databases as an integration platform, is business capability coupling. This is where we have code belonging to one business capability leaking into another business capability.

As an example, imagine a typical back-end system supporting an ecommerce website system. You would generally have inventory, ordering, pricing, and CRM as your core cabilities.

If we model this domain inside a single database, we are in effect coupling different capabilities together. Every foreign key constraint potentially increases the degree of coupling between these capabilities. In fact, the system by this point can already be thought of as several different "services" integrated across a shared database.

This is the "big system" picture of the world, which is supported and encouraged by linking different areas of your enterprise together using huge 500+ table databases.

Contrast this with the "small system" picture of the world, where in our example back-end web application inventory, ordering, pricing, and CRM are completely separate applications, with their own technology stacks, their own project teams, their own release schedules, and their own databases.

They are separate so can be released more or less frequently depending on the volitility of the business capbility they are supporting. Each service will have it's own understanding of what a given entity is, and that will fit the definition of that entity according to the business capability it is supporting.

An example of this is the "User". CRM are going to have a very different definition of User than ordering. Ordering only cared about the user in terms of what the user is buying. CRM cares about other stuff like name, address, etc. This is not easily achieved with a single User table in a shared database.

This picture to me is more prefereable to the shared database route and the main reason is that the resulting system will better model the actual business processes it is supposed to be supporting. One of the main tenets of DDD is that a system should resemble as much as possible the business who owns it.

In a typical business these various capabilities are not implemented by one big business team, but instead are implemented by small teams, often completely separate from each other, who communicate between themselves often by sending requests and directives, or by letting another team know that a certain process or task has been started/completed etc.

OK, but without the shared database, the website now relies on data from all of these different services for it's UI. It still needs to display this stuff together on the same screen. How can the website "presentation" layer assemble all this and render it to the UI?

Additionally, what if CRM wants to know when a customer orders something? What if ordering want to know when the price of a product changes, or the product is out of stock in the inventory? If these services are completely separate then how can they exchange data?

Addressing the UI question first, this can be done with composite UIs. There are many techniques for this, but suffice to say it's a relatively well known landscape and not really our focus here.

The second question of how do these services communicate is, well, they exchange messages. What kind of messages? Events. Events are published by one system in order that they are consumed by any other system which is interested in that event.

In our ecommerce example, kinds of events could be:

  1. OrderPlacedByCustomer
  2. CustomerStatusUpdatedFromSilverToGold
  3. PriceOfProductChanged
  4. ProductStockExhausted

These events have business meaning. That means we can get an additional benefit with the small system approach which is that the integration medium itself has business meaning, and can be expressed in business language, which lends itself well to scrum and agile methodologies.

So I don't think that from a technological perspective there is much difference between Database vs Messaging integration approaches. But I do think there is a huge difference in the driving forces behind them, and to my mind, the logical outcome of adopting more of a small systems mindset provides better business value overall.

Hope this helps and is not too rambling.

share|improve this answer
Thank you for sharing your thoughts. So I understand and tend to agree with the "small system" world - given your example, a handful of major departments are segregated into independent systems with their own databases and business rules. Data isn't considered duplicated since each system keeps a different representation of the data for different purposes. What about cross-cutting entities - like role-based access control. is that it's own system that the others communicate with via APIs and MQ messages? – diegohb Jan 11 '14 at 15:58
You raise an interesting question - to be honest not thought much about cross cutting concerns, however paradigms such as claims-based authentication (which is used by Sharepoint 2013 and is very much "it's own system") is likely to fill these gaps. – Tom Redfern Jan 12 '14 at 20:46
Thanks! that makes sense - RBAC (via claims) management, user provisioning, and authentication/authorization is all it's own subsystem exposed via APIs to the rest of the subsystems. – diegohb Jan 13 '14 at 18:13
Hi Iain, have you gained more knowledge on that topic in the meantime. I wonder if your interested in an offline discussion. I am convinced that pros overweight cons for the shared database, however I am convinced that the current fashion in the way technology is thought is not compatible to my general feeling. I have some thoughts on an ideal architecture especially for big organizations and look for somebody who could honestly feedback on this without being blended by tribe thinking... – Quicker Mar 12 '15 at 16:14
@Quicker you should probably write this comment under Iain's question if you want him to repond - it won't show up in his notifications if you post under this answer. Also would be happy to participate in an offline discussion - I find this topic one of the most important dicussions in software development today. – Tom Redfern Mar 12 '15 at 16:23

Here is one con of a shared database-architecture, which is enough to avoid it:

Tight coupling - If one application requires changes to the master database tables - the other applications will need re-testing and possibly changing to accommodate those changes.

Shared database architectures end up avoiding serious changes to the schema. The master database and associated applications tend to stagnate, resulting in a company that can't offer innovative new products.

This MSDN article, one of many, explains how loosely coupled services can help with the scenario above. Loosely coupled systems can innovate and change without the rest of the company having to change at the same time - leading to a company that can respond well to customer demands.

share|improve this answer
I think this is something of a fallacy. You would be correct if everything was bound to tables. But that's what stored procedures and views are for, right? Then if the underlying tables change it won't affect the dependent systems. – Tom Redfern Oct 7 '13 at 15:12
Thanks for the comment - don't you think the stored procedures would need to be retested if the underlying tables changed? – Joe R Oct 7 '13 at 15:40
Yes I guess so. They will need to be retested. But the same would be true if you change message schema - this also means that all systems consuming this message can be affected. – Tom Redfern Oct 7 '13 at 15:58
I think you're mainly correct - I have had many arguments with DBAs here around vertical coupling and how messaging fixes it, but it doesn't really. I think the benefits of messaging are deeper - see my answer below. – Tom Redfern Oct 7 '13 at 16:01
I read that tight/lose coupling argument all over the place. In practice if you to change data relations somewhere in a service oriented setup, you need to adapt all interfaces and all depending systems. The same goes for attributes most of the time. So what is the point then? In a shared database env. you could have a quality/gate keeper for the schema only. So governance enforcement is much more easy to be implemented via a 4-eyes-principle. Even cost-wise it is hard to believe that maintaining hundreds of interfaces is cheaper than afforrding a database schema quality keeper. – Quicker Mar 16 '15 at 12:00

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