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feat: ADR for incremental algolia indexing
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| Incremental Algolia Indexing | ||
| ============================ | ||
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| Status | ||
| ------ | ||
| Draft | ||
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| Context | ||
| ------- | ||
| The Enterprise Catalog Service produces an Algolia-based search index of its Content Metadata and Course Catalog | ||
| database. This index is entirely rebuilt at least nightly, working off a compendium of content records | ||
| resulting in a wholesale replacement of the prior Algolia index. This job is time consuming and memory intensive. | ||
| This job also relies heavily on separate but required processes responsible for retrieving filtered subsets of | ||
| content from external sources of truth, primarily Course Discovery, where synchronous tasks must be regularly | ||
| run in specific orders. This results in a system that is brittle - either entirely successful or entirely unsuccessful. | ||
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| Solution Approach | ||
| ----------------- | ||
| The goals should include: | ||
| - Implement new tasks that run alongside/augment the existing indexer until we’re able to entirely cut-over | ||
| - Support all current metadata types but doesn’t need to support them all on day 1 | ||
| - Support multiple methods of triggering: event bus, on-demand from django admin, on a schedule, from the existing | ||
| update_content_metadata job, etc. | ||
| - Invocation of the new indexing process should not be reliant on separate processes run synchronously before hand. | ||
| - Higher parallelization factor, i.e. 1 content item per celery task worker (and no task group coordination required) | ||
| - Provide a content-oriented method of determining content catalog membership that's not reliant on external services. | ||
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| Decision | ||
| -------- | ||
| We want to follow updates to content with individual and incremental updates to Algolia. To do this we both create | ||
| new functionality and reuse some existing functionality of our Algolia indexing infrastructure. | ||
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| ---------------------------------- | ||
| First, the existing indexing process begins with executing catalog queries against `search/all` to determine which | ||
| courses exist and belong to which catalogs. In order for incremental updates to work we first need to provide the | ||
| opposite semantic and instead be able to determine catalog membership from a given course (rather than courses from a | ||
| given catalog). We can make use of the new `apps.catalog.filters` python implementation which can take a catalog query | ||
| and a piece of content metadata and determine if the content matches the query (without the use of course discovery). | ||
| ---------------------------------- | ||
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| First is to address the way in which and the moments when we choose to invoke the process of indexing. Previously, | ||
| the bulk indexing logic was reliant on a completely separate task synchronously completing. In order to bulk index, | ||
| content records needed to be bulk updated. The update_content_metadata job's purpose is two fold, one is to ingest content | ||
| metadata from external service providers and standardize its format and enterprise representation, and two is to | ||
| build associations between said metadata records and customer catalogs by way of catalog query inclusion. Once this | ||
| information is entirely read and saved within the catalog service, the system is then ready to snapshot the state of | ||
| content in the form of algolia objects and entirely rebuild and replace our algolia index. | ||
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| This first A then B approach to wholesale rebuilding our indices is both time and resource intensive as well as brittle | ||
| and prone to outages. Not to mention the system is slow to fix should a partial or full error occur, as | ||
| everything must be rerun in a specific order. | ||
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| To remediate these symptoms, indexing content records will be dealt with on an individual object-shard/content metadata | ||
| object basis and will happen at the moment a record is saved to the ContentMetadata table. Tying the indexing process | ||
| to the model ``post_save()`` will decouple the task from any other time consuming, bulk job. In order to combat | ||
| redundant/unneeded requests, the record will be evaluated on two levels before an indexing task is kicked off. First | ||
| the contents metadata (modified_at) must be bumped from what's previously stored. Secondly, the content must have | ||
| associations with queries within the service. | ||
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| In order to incrementally update the Algolia index we need to introduce the ability to replace individual | ||
| object-shard documents in the index (today we just replace the whole index). This can be implemented by creating | ||
| methods to determine which Algolia object-shards exist for a piece of content. Once we have relevant IDs we are able to | ||
| determine if a create, update, or delete of them is required and can highjack existing processes that bulk construct | ||
| our algolia objects except on an individual basis. For simplicity sake an update will likely be a delete followed by | ||
| the creation of new objects. | ||
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| Incremental updates, through the act of saving individual records, will need to be triggered by something - such as | ||
| polling of updated content from Course Discovery, consumption of event-bus events, and/or triggering based on a nightly | ||
| Course Discovery crawl or Django Admin button. However it is not the responsibility of the indexer, nor this ADR | ||
| to determine when those events should occur, and in fact the indexing process should be able to handle any source of | ||
| content metadata record updating processes. | ||
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| Consequences | ||
| ------------ | ||
| Ideally this incremental process will allow us to provide a closer to real-time index using fewer resources. It will | ||
| also provide us with more flexibility about including non-course-discovery content in catalogs because we will | ||
| no-longer rely on a query to course-discovery's `search/all` endpoint and instead rely on the metadata records in the | ||
| catalog service, regardless of it's source. | ||
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| Alternatives Considered | ||
| ----------------------- | ||
| No alternatives were considered. |
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docs/decisions/0010-incremental-content-metadata-updating.rst
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| Incremental Content Metadata Updating | ||
| ===================================== | ||
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| Status | ||
| ------ | ||
| Draft | ||
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| Context | ||
| ------- | ||
| The Enterprise Catalog Service implicitly relies on external services as sources of truth for content surfaced to | ||
| organizations within the suite of enterprise products and tools. For the most part this external source of truth has | ||
| been assumed to be the `course-discovery` service. The ``update_content_metadata`` job has relied on `course-discovery` | ||
| to not only expose the content metadata of courses, programs and pathways but also to determine customer catalog | ||
| associations with specific subsets of content, meaning enterprise curated content filters are evaluated externally as a | ||
| black box solution to what content belongs to which customers. This is burdensome to both the catalog service as it has | ||
| little control over how the underlying content filtering logic functions and to the external service as redundant data | ||
| must be requested for each and every query filter. Should the catalog service own the responsibility of determining the | ||
| associations between a single piece of content and any of the customers' catalogs, not only would we just have to | ||
| request all data a single time from external sources for bulk jobs, but we could also easily support creation, updates | ||
| and deletes of single pieces of content communicated to the catalog service on an individual basis. | ||
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| Decision | ||
| -------- | ||
| The existing indexing process begins with executing catalog queries against `search/all` to determine which | ||
| courses exist and belong to which catalogs. In order for incremental updates to work we first need to provide the | ||
| opposite semantic and instead be able to determine catalog membership from a given piece of content (rather than | ||
| courses from a given catalog). We can make use of the new `apps.catalog.filters` python implementation which can take a | ||
| catalog query and a piece of content metadata and determine if the content matches the query (without the use of course | ||
| discovery). | ||
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| We will implement a two sided approach to content updating that will be introduced as parallel work to existing | ||
| ``update_content_metadata`` tasks and can eventually replace old infrastructure. The first method will be a bulk | ||
| job similar to the current ``update_content_metadata`` task to query external sources of content and update any records | ||
| should they mismatch using `apps.catalog.filters` to determine the query-content association sets. And second, an event | ||
| signal receiver which will process any individual content update events that are received. The intention is for the | ||
| majority of updates in the catalog service to happen at the moment they are updated in their external source and the | ||
| signal is fired, only to be cleaned up and verified by the bulk job later on should something go wrong. | ||
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| While this new process will remove the need to constantly query and burden the `course-discovery` search/all endpoint | ||
| we will still most likely need to request the full metadata of each course/content object similar to how the current | ||
| task handles the flow. | ||
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| An event receiver based approach to individual content updates also opens up our possibilities to ingesting content | ||
| from other sources of truth that are hooked up to the edx event-bus. This means that it will be easier for enterprise | ||
| to ingest content from many sources, instead of relying on those services first going through course-discovery. | ||
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| Consequences | ||
| ------------ | ||
| As alluded to earlier, this change means that we will no longer have to repeatedly request data from course-discovery's | ||
| search/all endpoint as we won't need to rely on the service to do our filtering logic, which was one of the main | ||
| contributing factors as to the long run time of the ``update_content_metadata`` task. Additionally, housing | ||
| our own filtering logic will allow us to maintain and tweak/improve upon the functionality should we want additional | ||
| features. | ||
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| The signal based individual updates will also mean that we will have a significantly smaller window of lag for content | ||
| updates propagating throughout the enterprise system. | ||
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| Alternatives Considered | ||
| ----------------------- | ||
| There are a number of ways that individual content updates could be communicated to the catalog service. Event-bus | ||
| based signal handling restricts the catalog service to sources of truth that have integrated with the event bus | ||
| service/software. We considered instead exposing an api endpoint that would take in a content update event and process | ||
| the data as needed, however it was decided that this approach is brittle and prone to losing updates in transit as | ||
| it would be difficult to ensure the update was fully communicated and processed by the catalog service should anything | ||
| go wrong. |