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I like the idea of document databases, especially MongoDB. It allows for faster development as we don't have to adjust database schema's. However MongoDB doesn't support multi-document transactions and doesn't guarantee that modifications get written to disk immediately like normal databases (I know that you can make the time between flushes quite small, but it's still no guarantee).

Most of our projects are not that big that they need things like multi-server environments. So keeping that in mind. Are there any single server MongoDB-like document databases that support multi-document transactions and reliable flushing to disk?

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What do you mean, "written to disk immediately like normal databases"? It's common for high performance database to use a journal (or Write ahead log) to maximize write consistency while batching write operations. MongoDB has this and is highly recommended (and the default in 64bit 2.0+). MongoDB doesn't have an option for immediate/forced write to journal though (some DBs do). For MongoDB -- it's configurable from 2-300ms. –  WiredPrairie Feb 19 '13 at 16:48
That's exactly what I mean. With databases like PostgreSQL if I write something to the database and the transaction succeeded, I'm sure that the data will be there if the machine goes down. MongoDB comes close to this with journaling. But as you notice it doens't guarantee it. –  Tim Feb 19 '13 at 16:56
Yes this is the 'D' in ACID. –  Michael Papile Feb 19 '13 at 17:03
Hmm what few people actually know is that even straight to disk has a delay on it due to how data is actually written by the OS to the disk sectors, in fact if the server goes down suddenly you probably will lose maybe a couple of OPs from SQL –  Sammaye Feb 19 '13 at 17:57
@Tim - There's an option in Postresql and not a requirement that the WAL be configured for immediate, rather than delayed writes. –  WiredPrairie Feb 19 '13 at 18:25

11 Answers 11

up vote 5 down vote accepted

A very short answer to your specific (but brief) requirements:

Are there any single server MongoDB-like document databases that support multi-document transactions and reliable flushing to disk?

  1. RavenDB [1] provides support for multi-doc transactions [2]. Unfortunately I don't know it handles durability.

  2. CouchDB [3] provides durable writes, but no multi-doc transactions

  3. RethinkDB [4] provides durable writes, but no multi-doc transactions.

So you might wonder what's different about these 3 solutions? Most of the time is their querying support (I'd say RethinkDB has the most advanced one covering pretty much all types of queries: sub-queries, JOINs, aggregations, etc.), their history (read: production readiness -- here I'd probably say CouchDB is in the lead), their distribution model (you mentioned that's not interesting for you), their licensing (RavenDB: commercial, CouchDB: Apache License, Rethinkdb: AGPL).

The next step would be for you to briefly look over their feature set and figure out which one comes close to your needs and give it a try.

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Eventually consistent techs like couchdb do not provide durable writes, it in facts breaks durability. Unless they have a method for ensuring immediate write to disk and immediate replication –  Sammaye Feb 22 '13 at 10:03
@Sammaye CouchDB is a single server database. It allows you to set up master-master replication but that's a different story. CouchDB writes to disk before acknowledging an operation. Eventually consistency has very little to do with durability per se: basically a synchronously replicated database can be non-durable. –  Alex Popescu Feb 22 '13 at 20:07
Strange I read this page: guide.couchdb.org/draft/performance.html whereby it says: ..."buffers store data in memory before committing it to disk to ensure a higher data throughput. In the event of a power loss or crash (of hard- or software), the data is gone."... and last time I checked immediate replication is a requirement for true durability outside of single server setups, I am also unsure what you men by it being a single sever database, I am fairly certain couchdb can be setup in a cluster: guide.couchdb.org/draft/clustering.html –  Sammaye Feb 22 '13 at 20:21
Ignore the edited part of my last comment, I read wrong, but the reference to the couchdb site still stands –  Sammaye Feb 22 '13 at 20:27
I didn't know the default was changed. But you can still enable it. For reference @Sammaye refers to this paragraph: "Delayed commit (along with sequential UUIDs) is probably the most important CouchDB configuration setting for performance. When it is set to true (the default), CouchDB allows operations to be run against the disk without an explicit fsync after each operation" –  Alex Popescu Feb 22 '13 at 20:27

It might be worthwhile to look at ArangoDB. It is a multi model database with a flexible data model for documents, graphs, and key-values. With respect to your specific requirements, ArangoDB database has full ACID transactions which can span over multiple documents in the same collection as well as over multiple collections (see Transactions in ArangoDB). That is, you can execute a group of manipulations to your documents together in a transaction and have guaranteed atomicity and isolation. If you additionally set waitForSync: true (as described further down on said page), you get a guaranteed sync to disk before your transaction reports completion. Note that this happens automatically if your transaction spans multiple collections.

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I have some experience with CouchDB and ArangoDB which I can share:

You can run CouchDB with durability turned on (delayed_commits = false) so it will also sync your data to disk. However, this is a global setting so it affects all writes. AFAIK you cannot set it on a per-collection level (the CouchDB term for "collection" would be "database").

Regarding multi-document operations: CouchDB has MVCC, so reading multiple documents from the same database provides a consistent result even in the face of parallel writers. Writing multiple documents to the same database can also be made transactional for special cases, e.g. when using the bulk documents API. But there is no way to execute cross-database operations in CouchDB. This is just not intended.

On ArangoDB: in ArangoDB you can turn on immediate syncing to disk on a per-collection level: you can turn it on for collections which you cannot tolerate any data loss in. You can turn immediate syncing off for not-so-important collections for performance reasons. It will then still sync modifications to disk frequently, but not immediately. It provides multi-document and multi-collection transactions.

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Checkout the following:

  1. arangodb

  2. rethinkdb

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You do not have to adjust schemas in document data stores, but that does not mean you do not need some sort of schema as you probably want to do something meaningful with your data. It appears you would like an ACID database. If you have relational data, and you need transactions with that data, well it sounds very much like you need a relational database.

With "NoSQL" databases like Mongo, you are giving up ACID for features like many writable replicas, sharding, and quick accessing of document data. Sounds like you do not benefit from that so why take the tradeoff? A lot of people have been doing hybrid approaches lately with PostgreSQL by storing documents in a relational table as blobs of JSON. With this, you can have the advantage of storing your data as not strictly structured columns where it is not needed.

So if you have multiple documents that you need to be transactional on update, you can column out the keys, and have a column "document" or something where it is simply a blob of JSON where you serialize and deserialize it. This is not criticizing Mongo or other document stores as a database but it is just not really a good choice for transactional multidocument data. MarkLogic I believe does ACID over multiple documents too.

I think a lot of people find appeal with mongodb due to the schema-less-ness but I think in the end they get bit by trying to shoehorn a relational model into it. So as always the DB choice depends on how your data is.

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We already considered a hybrid solution using PostgreSQL. However this doesn't allow for a completely flexible schema as MongoDB does. If we want another indexed column we still have to adjust the schema. –  Tim Feb 19 '13 at 19:17
Not quite. You only need to adjust the schema if you need another column. Indexes can be added and removed as required for the cost of rebuilding them. Don't be afraid to split up your index definitions into logical files for revision-control, and apply them as required (presumably with convenience scripts for clean rebuilds and CI testing) –  Recurse Feb 20 '13 at 2:30

there are so many nosql databases and definitely its hard to choose one. You will have to come up with proper requirements and know exactly what you want. Following link compared almost all the popular nosql databases http://kkovacs.eu/cassandra-vs-mongodb-vs-couchdb-vs-redis

I hope this helps.

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If I were you I would take a close look at Solr. The underlying data-layer (Lucene) is by far the most mature of the NoSQL databases, and Solr makes installing, configuring, and integrating a single-host lucene store trivial.

In answer to your question, it supports user-delineated transactions. The read-optimised nature of Lucene can make it unsuitable for many applications, but most of those are well suited to Solr/Lucene+[SQL,Cassandra,CouchDB,RDF] depending on the requirements.

Personally I tend to start with Solr+SQL or Solr+RDF, but I know some people who love the whole NodeJS+CouchDB style, and I am convinced of the value of the flexibility that provides.

The bottom line is that there are enough NoSQL and SQL-extensions out there that care about data integrity to satisfy any requirement you have without you having to compromise you or your users' data.

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When I used solr a few years ago, it wasn't suitable for this kind of use. It crashed under high commit volume, and commits were slow. There's been some recent work on NRT but it's still got a ways to go. See caveats listed here: wiki.apache.org/solr/NearRealtimeSearch –  Frank Farmer Feb 20 '13 at 1:41
@FrankFarmer unfortunately the questioner didn't provide details of the 'kind of use' they were putting the system to. I can only assume your case was high-volume small-write. I have run Lucene on low-volume large-write/high-volume large-read projects without any instability issues at all, and haven't found anything better than Lucene for that purpose. The class of applications with a small set of hv-sw data and a large set of lv-lw data is significant, and Solr+? is a good candidate for that. –  Recurse Feb 20 '13 at 2:37

Berkeley DB is one we used. It supports ACID. It does have transactions, but as to your term "multidocument" applies, I'm not entirely sure. I imagine so long as each database (i.e. individual document) shares the same BDB environment (i.e. where transactions are stored) then maybe that gets what you want. BDB does have other tradeoffs though. With fully durability and high concurrency, commits are pretty slow.

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Give a try to: http://www.orientdb.org/

"OrientDB has the flexibility of the Document databases and the power of the Graph databases to manage relationships. It can work in schema-less mode, schema-full or a mix of both. Supports advanced features such as ACID Transactions, Fast Indexes, Native and SQL queries. It imports and exports documents in JSON. OrientDB uses a new indexing algorithm called MVRB-Tree, derived from the Red-Black Tree and from the B+Tree with benefits of both: fast insertion and ultra fast lookup".

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I would suggest you look at Couchbase.

Couchbase can be run single server & you can add nodes later if you want.

Couchbase has memcached integrated so you have fast caching of common data, with a reliable method of writing updates to disk.

They also have a new query language (in development but you can use it now) called NQL ("Nickel") that gives you SQL like access, if that's important to you.

With cross-datacenter replication, you can keep two DBs on different machines or data centers in sync, which is good for having an offsite backup. This also allows you to add elastic search if you wish to have a full text search engine for those types of queries.

In short, Couchbase is a pretty complete solution, all open source and has intelligent (in my opinion) architecture for addressing the typical problems with distributed databases (e.g.: every document is "owned" by a given node, so all changes go to that node, and then the updates are replicated, this is better, I think, than say Riak where you can have updates go to two nodes and then have to be reconciled.)

You can use Couchbase on one node to run the database for many projects by separating the projects into different buckets.

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Personally I believe you really need to check what your requirements are.

Due to the dynamics of how the OS of your server works it is complicated to say that everything "immediately" goes to disk even when you tell it to. certainly I know ACID techs like SQL are vulnerable to partial corruption through unfinished business and losing operations within a specific window when a single server goes down, unfortunately this is one of the problems of using a single server; you have no choice but to accept it.

I should note that a transaction does not ensure that your server will receive the entire data before failure ( http://en.wikipedia.org/wiki/Database_transaction ), I mean what if the server dies part way through a transaction?

You can perform a safe rollback based on constraints with transactions but few databases will provide the ability to continue playing the transaction unless they have already received all necessary data for it (which isn't normally the case), by which time the data might even be stale anyway.

In fact due to the weight of some transactions and the amount of queries performed within them I reckon you might get a greater window of operational loss using transactions than you might from the 60ms write to disk window on MongoDB at times. But of course that depends upon abuse, however, just like stored procedures, this abuse is common place.

Transactions shine on cascading deletes and typical scenarios like transferring money in a bank account, however, cascadable deletes are normally better done (as most sites do) by a cronjob with the application marking the row as deleted (to avoid the rollback of a transaction showing the deleted data back to the user again); this way you can do a lot of stuff to ensure consistency that you cannot in real-time do while the user is using your application.

So you should really question why you need a tech and what it will succeed in doing, atm the brevity of your question tells me your not sure about your requirements completely.

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A crashing MongoDB instance can cause data in the database to corrupt (as in half of the operations to do are executed, since it doesn't support multidocument transactions). As far as I know this isn't possible with PostgreSQL. This is what we need. –  Tim Feb 19 '13 at 19:19
@Tim True it isn't possible if you want your speed to crawl to a point where to won't scale beyond small sites, transactions were only really designed to be used for vital mission critical procedures really. –  Sammaye Feb 19 '13 at 19:42
@Tim Basically if you use anything but transactions and someone tells you you can't get corruption cos this database can defy the laws of computing is lieing. Even with using transactions there is a small chance the transaction can be corrupted –  Sammaye Feb 19 '13 at 19:45
@Sammaye Your suggestion that databases avoiding corruption is somehow 'defying the laws of computing' is disingenious. While there are some wicked problems involving interactions between multi-layer caching when using consumer grade hardware, thousands of people have implemented corruption free transaction protocols. That MongoDB hasn't is a problem, and the culture you exhibit here -- a disregard for 4 decades of database theory MongoDB has cultivated -- is as much a problem as its lack of ACID. –  Recurse Feb 20 '13 at 1:06
Yes, I do. For starters take a look at research.microsoft.com/en-us/people/philbe/ccontrol.aspx and then at lca2007.linux.org.au/talk/278.html. The point of ACID isn't that you won't lose the data you're writing, it's that you never write data that is critical to the consistency of the database. IT IS HARD, which is why only thousands of programmers have done it rather than millions. Postgres is mature enough the smart money is on your friend misconfiguring or misusing it; however, it is possible they have found a bug. But the design of Postgres is Consistent. –  Recurse Feb 20 '13 at 8:18

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