Skip to main content
  1. building-web-archives/

Driving Crawls With Web Annotations

Without competing with Pinboard| ·1002 words
Web Archives Digital Preservation
Andy Jackson
Author
Andy Jackson
Fighting entropy since 1993

Originally published on the UK Web Archive blog on the 10th of November 2017.

The heart of the idea was simple. Rather than our traditional linear harvesting process, we would think in terms of annotating the live web, and imagine how we might use those annotations to drive the web-archiving process. From this perspective, each Target in the Web Curator Tool is really very similar to a bookmark on an social bookmarking service (like Pinboard, Diigo or Delicious1), except that as well as describing the web site, the annotations also drive the archiving of that site2.

In this unified model, some annotations may simply highlight a specific site or URL at some point in time, using descriptive metadata to help ensure important resources are made available to our users. Others might more explicitly drive the crawling process, by describing how often the site should be re-crawled, whether robots.txt should be obeyed, and so on. Crucially, where a particular website cannot be ruled as in-scope for UK legal deposit automatically, the annotations can be used to record any additional evidence that permits us to crawl the site. Any permissions we have sought in order to make an archived web site available under open access can also be recorded in much the same way.

Once we have crawled the URLs and sites of interest, we can then apply the same annotation model to the captured material. In particular, we can combine one or more targets with a selection of annotated snapshots to form a collection. These ‘instance annotations’ could be quite detailed, similar to those supported by web annotation services like Hypothes.is, and indeed this may provide a way for web archives to support and interoperate with services like that.3

Thinking in terms of annotations also makes it easier to peel processes apart from their results. For example, metadata that indicates whether we have passed those instances through a QA process can be recorded as annotations on our archived web, but the actual QA process itself can be done entirely outside of the tool that records the annotations.

To test out this approach, we built a prototype Annotation & Curation Tool (ACT) based on Drupal. Drupal makes it easy to create web UIs for custom content types, and we were able to create a simple, usable interface very quickly. This allowed curators to register URLs and specify the additional metadata we needed, including the crawl permissions, schedules and frequencies. But how do we use this to drive the crawl?

Our solution was to configure Drupal so that it provided a ‘crawl feed’ in a machine readable format. This was initially a simple list of data objects (one per Target), containing all the information we held about that Target, and where the list could be filtered by crawl frequency (daily, weekly, monthly, and so on). However, as the number of entries in the system grew, having the entire set of data associated with each Target eventually became unmanageable. This led to a simplified description that just contains the information we need to run a crawl, which looks something like this:

[
    {
        "id": 1,
        "title": "gov.uk Publications",
        "seeds": [
            "https://www.gov.uk/government/publications"
        ],
        "schedules": [
            {
                "frequency": "MONTHLY",
                "startDate": 1438246800000,
                "endDate": null
            }
        ],
        "scope": "root",
        "depth": "DEEP",
        "ignoreRobotsTxt": false,
        "documentUrlScheme": null,
        "loginPageUrl": null,
        "secretId": null,
        "logoutUrl": null,
        "watched": false
    },
    ...

This simple data export became the first of our web archiving APIs – a set of application programming interfaces we use to try to split large services into modular components4.

Of course, the output of the crawl engines also needs to meet some kind of standard so that the downstream indexing, ingesting and access tools know what to do. This works much like the API concept described above, but is even simpler, as we just rely on standard file formats in a fixed directory layout. Any crawler can be used as long as it outputs standard WARCs and logs, and puts them into the following directory layout:

/output/logs/{job-identifer}/{launch-timestamp}/*.log
/output/warcs/{job-identifer}/{launch-timestamp}/*.warc.gz

Where the {job-identifer} is used to specify which crawl job (and hence which crawl configuration) is being used, and the {launch-timestamp} is used to separate distinct jobs launched using the same overall configuration, reflecting repeated re-crawling of the same sites over time.

In other words, if we have two different crawler engines that can be driven by the same crawl feed data and output the same format results, we can switch between them easily. Similarly, we can make any kind of changes to our Annotation & Curation Tool, or even replace it entirely, and as long as it generates the same crawl feed data, the crawler engine doesn’t have to care. Finally, as we’ve also standardised the crawler output, the tools we use to post-process our crawl data can also be independent of the specific crawl engine in use.

This separation of components has been crucial to our recent progress. By de-coupling the different processes within the crawl lifecycle, each of the individual parts is able to be move at it’s own pace. Each can be modified, tested and rolled-out without affecting the others, if we so choose. True, making large changes that affect multiple components does require more careful management of the development process, but this is a small price to pay for the ease by which we can roll out improvements and bugfixes to individual components.

A prime example of this is how our Heritrix crawl engine itself has evolved over time, and that will be the subject of the next blog post.



  1. Although, noting that Delicious is now owned by Pinboard, I would like to make it clear that we are not attempting to compete with Pinboard. ↩︎

  2. Note that this is also a feature of some bookmarking sites. But we are not attempting to compete with Pinboard. ↩︎

  3. I’m not yet sure how this might work, but some combination of the Open Annotation Specification and Memento might be a good starting point. ↩︎

  4. For more information, see the Architecture section of this follow-up blog post ↩︎