This question is about making an architectural choice prior to delving into the details of experimentation and implementation. It's about the suitability, in scalability and performance terms, of elasticsearch v.s. MongoDB, for a somewhat specific purpose.
Hypothetically both store data objects that have fields and values, and allow querying that body of objects. So presumably filtering out subsets of the objects according to fields selected ad-hoc, is something fit for both.
My application will revolve around selecting objects according to criteria. It would select objects by filtering simultaneously by more than a single field, put differently, its query filtering criteria would typically comprise anywhere between 1 and 5 fields, maybe more in some cases. Whereas the fields chosen as filters would be a subset of a much larger amount of fields. Picture some 20 field names existing, and each query is an attempt to filter the objects by few fields out of those overall 20 fields (It can be less or more than 20 overall field names existing, I just used this number to demonstrate the ratio of fields to fields used as filters in every discrete query). The filtering can be by the existence of the chosen fields, as well as by the field values, e.g. filtering out objects that have field A, and their field B is between x and y, and their field C is equal to w.
My application will be continuously doing this sort of filtering, whereas there would be nothing or very little constant in terms of which fields are used for the filtering at any moment. Perhaps in elasticsearch indexes need to be defined, but maybe even without indexes speed is at par with that of MongoDB.
As per the data getting into the store, there are no special details about that.. the objects would be almost never changed after having been inserted. Perhaps old objects would need to be dropped, I'd like to assume both data stores support expire deleting stuff internally or by an application made query. (Less frequently, objects that fit a certain query would need to be dropped as well).
What do you think? And, have you experimented this aspect?
I am interested in the performance and the scalability of it, of each of the two data stores, for this kind of task. This is the sort of an architectural desing question, and details of store-specific options or query cornerstones that should make it well architected are welcome as a demonstration of a fully thought-out suggestion.