A Consistent CRUD API for Next Generation MongoDB Drivers

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Jeremy Mikola
April 16, 2015
Category: Technical

One of the more notable challenges with maintaining a suite of drivers across many languages has been following individual language idioms while still keeping their APIs consistent with each other. For example, the Ruby driver should feel like any other Ruby library when it comes to design and naming conventions. At the same time, the behavior for API calls should be the same across all of the drivers.

Towards the end of 2014, a handful of MongoDB driver developers started working on a CRUD API specification for our next generation drivers. The CRUD acronym refers to create, read, update, and delete operations, which are commonly found on each driver's Collection interface. In truth, the spec covers a bit more than those four methods:

  • Create
  • Read
  • Update
  • Delete
  • Count
  • Replace
  • Aggregate
  • Distinct
  • Bulk, One or Many
  • Find and Modify

For obvious reasons, we decided to do without the full CRUDCRADBOoMFaM acronym and stick with CRUD.

Compared to the Server Selection and SDAM specifications, which deal with internal driver behavior, the CRUD API is a high-level specification; however, the goal of improving consistency across our drivers is one and the same. To ensure that multiple language viewpoints were considered in drafting the spec, the team included Craig Wilson (C#), Jeff Yemin (Java), Tyler Brock (C and C++), and myself (representing PHP and other dynamic languages).

What's in a Name?

There are only two hard things in Computer Science: cache invalidation and naming things.

— Phil Karlton

The spec's position on function and option names perhaps best illustrates the balancing act between language idiomaticity and cross-driver consistency. While the spec is flexible on style (e.g. snake_case or camelCase, common suffixes), certain root words are non-negotiable. The spec doesn't attempt to define an exhaustive list of permitted deviations, but it does provide a few examples for guidance:

  • batchSize and batch_size are both acceptable, but batchCount is not since "batch" and "size" are root words.
  • maxTimeMS can be abbreviated as maxTime if the language provides a data type with millisecond precision (e.g. TimeSpan in C#), but maximumTime is too verbose.
  • If a driver's find() method needs a typed options class (e.g. Java) in lieu of a hash literal (e.g. JavaScript) or named parameters (e.g. Python), FindOptions or FindArgs are both OK, but QueryParams would be inconsistent.
  • Some languages may prefer to prefix a boolean options with "is" or "has", so a bulk write's ordered option could be named isOrdered.

Several Options for Handling Options

In addition to naming conventions, the spec acknowledges that each language has its own conventions for expressing optional parameters to functions. Ruby and Python support named parameters, JavaScript and PHP might use hash literals, C++ or C# may use an options class, and Java could opt for a fluent builder class. Ultimately, we decided not to require method overloading, since it was only supported by a few languages.

Required parameters, such as the fieldName for a distinct command or the pipeline for an aggregation, must always be positional arguments on the CRUD method. This ensures that all drivers will present a consistent public API for each method and their essential inputs.

Query Modifiers and Cursor Flags

The query API found in our legacy drivers differentiates between query modifiers and wire protocol flags. Commonly used query modifiers include $orderBy, for sorting query results, or $hint, for suggesting an index. Wire protocol flags, on the other hand, might be used to instruct the server to create a tailable cursor. Depending on the driver, these options might be specified via arguments to find() or any of various setter methods on a mutable Cursor object. The CRUD API now enforces consistent naming for these options and ensures they will all be specified in the same manner, be it an options structure for find() or a fluent interface.

Ultimately, users should never have to think about whether these query options are modifiers within the query document or bit flags at the protocol level. That distinction is an implementation detail of today's server API. Similar to how MongoDB 2.6 introduced write commands and deprecated write operations in the wire protocol, we expect a future version of the server to do the same for queries. In fact, progress for find and getMore commands has already begun in SERVER-15176. By abstracting away these details in the CRUD API, we can achieve a bit of future-proofing for our drivers and the applications that use them.

A Step Towards Self-documenting Code

One of the common pain points with our legacy API, especially for beginners, was that update operations affected only a single document by default while deletes would remove everything matching the criteria. The inconsistency around the name of this limit option (is it multi, multiple, or justOne?) was icing on the cake. This is definitely something we wanted to fix in the CRUD spec, but one has to tread carefully when changing the behavior of methods that can modify or delete data.

In the interest of not surprising any users by silently changing defaults, we opted to define some new, more descriptive methods:

  • deleteOne(filter)
  • deleteMany(filter)
  • replaceOne(filter, replacement, options)
  • updateOne(filter, update, options)
  • updateMany(filter, update, options)

The most striking change is that we've moved the limit option into the name of each method. This allows drivers to leave their existing update() and delete() (or remove()) methods as-is. Secondly, delete operations will now require a filter option, which means it will take a bit more effort to inadvertently wipe out a collection (deleteMany({}) instead of remove()). And lastly, we wanted to acknowledge that the difference between replacing an entire document and updating specific fields in one or many documents. By having each method check if the document contains atomic modifiers, we hope to help users avoid the mistake of clobbering an entire document when they expected to modify specific fields, or vice versa.

Less is More

Some things are better left unsaid. While the CRUD spec contains a lot of detail, there are a few subjects which aren't addressed:

  • Read preferences
  • Write concerns
  • Fluent API for bulk writes
  • Explaining queries

With regard to read preferences and write concerns, we noted that not every driver allows those options to be specified on a per-operation basis. For some, read preferences and write concerns are only set on the Client, Database, or Collection objects. Nevertheless, the spec happily permits drivers to support additional options on its read and write methods.

The Bulk API, which first appeared in the MongoDB shell and select drivers around the time MongoDB 2.6 was released, was left alone. The CRUD spec defines a single bulkWrite() method, that receives an array of models each describing the parameters for insert, update, or delete operations. We felt this method was more versatile, as it does not impose a fluent API (with all of its method calls) upon the user, nor does it hide the list of operations within a builder object. Users can create, examine, or modify the list however they like before executing it through the new method, or even re-use it entirely in a subsequent call.

Lastly, we spent a fair amount of time discussing (and bikeshedding) the API for explaining queries, aggregation pipelines, and any other operations that might be supported by MongoDB 3.0 and beyond (e.g. SERVER-10448). Ultimately, we determined that explain is not a typical use case for drivers, in contrast to the shell. We also did not want to effectively double the public API of the CRUD specification by defining explainable variants of each method. That said, all drivers will continue to provide the necessary tools to execute explains (either through queries or command execution).

Wrapping Up

If you're interested in digging deeper into any of the topics discussed in this article (and some that weren't, such as error reporting), do give the CRUD API spec a look. We've also published a set of standardized acceptance tests in YAML and JSON formats, which are being used by many of our next generation drivers that implement the spec.


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About the Author - Jeremy

Jeremy Mikola is a software engineer at MongoDB's NYC office. As a member of the driver and evangelism team, he helps develop the PHP driver and contributes to various OSS projects, such as Doctrine ODM and React PHP. Jeremy lives in Hoboken, NJ and is known to enjoy a good sandwich.

  • API: Application programming interface
  • CRUD: Create read update delete
  • JSON: JavaScript object notation
  • SDAM: Server discovery and monitoring
  • YAML: YAML ain't markup language
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