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- Concatenating UUIDs in a batch can be done up to 50 records.
- Retrieving one record at a time at a rate of 40 requests/second uses up about 700MB of database RAM in 15 minutes. Retrieving more records at a time or more having many concurrent users doing multi-records lookups concurrently will use up more DB memory and likely result the DB crashing when it runs out of memory.
- The optimal range in terms of time and resource is about 10-20 records for 1 user.
- It's up to the application developer to make a decision of concatenating UUIDs, and if so, how many UUIDs. Many applications have different needs, to look up a handful of records or hundreds of thousands of records. This report will lay out the facts for the developer to be informed about the pros and cons of concatenating UUIDs.
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We initially started out testing with 8 users. As seen here, for up to 20 UUIDs, the average response time were less than 40ms for both API calls and with minimal errors. As we added more UUIDs, 30 and 40 UUIDs, the response time doubled up and more errors occurred while the request rate is indirectly proportional to the average response time, now down by half from the 1 record baseline test. The database restarted once during the 30 and 40 UUID test runs. Knowing that the data-export use case only sent up to 40 requests per second, we scaled down the number of virtual users to 1 to see if it helps. Here are the results with 1 user:
With one user the request rate was able to be scaled down to a realistic 40 requests/sec. The average response time was less than 30ms for both API calls. Tests also ran for 40 and 50 UUIDs concatenation, and like the 9 8 users tests, request rate is cut down by half while the response time increased by half. The surprising thing was that even with 50 records the database did not crash during the test run.
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This graph shows the CPU utilization of the modules in the first six tests. The one series that we are interested are in is mod-inventory-storage which has the highest of all the spikes. With the request rates rate that were was thrown at it and the number of records that it has to process, deserialize from stringstrings, the CPU utilization is quite high. The surprising thing is its Okapi CPU utilization for the 1-unique-record test is quite low compared to the 1 record, not unique. modis constant across the tests. mod-authtoken's CPU usage is rightly high because it's being called for each API call, but as expected its CPU utilization is less decreases when more records are concatenated as there is not as much need to go to mod-authentication. This decrease can be seen from 1 record to 10 records to 20 records to 30 and 40 records concatenation tests, with 40 UUIDs concatenation using the least CPU cycles.
The second round of tests runs with 1 virtual users produced the following results:
The pattern seen in 8 virtual users tests with varied numbers of UUIDs concatenated are repeated here in the 1 virtual tests. Higher CPU utilizations for mod-circulation-storage as more UUIDs are being retrieved and processed, while mod-authtoken's CPU usage decreases.
Database
With 8 virtual users database CPU utilization across the tests doesn't vary much between 10 and 40 UUIDs concatenation tests. Retrieving 1 record at a time uses less CPU than when searching for many records at a time. Note the spikes and troughs in tests with 20, 30, and 40 records tests. This is due to memory issues, more below.
For the 1-user tests, the CPU usage is rather constant and are very low:
Previously there are spikes and sudden drops in CPU utilizations in 8-users tests. This is due to excessive memory usage by the database. The next two graphs show the database freeable memory being used up as time goes on. A fresh database starts out with nearly 8000MB but the more these tests were run the more memory was used up and held up so that eventually after a run or two the database crashed and restarted on its own, shown by the dips to nearly 100MB remaining.
Even with the 1 record test, with 8 users, the database used up a lot of memory, about 4000MB. Tests with 10 through 40 records concatenation resulted in a crash during the 15 minutes test. During this time the DB Reader instance took over so minimal disruption of no more than 2 minutes was observed.
Things were not much more promising with 1 user tests:
For a 1 user 1 record lookup test, the slope of memory usage is not as steep as in the 40 records or 50 records look up tests. These are 15 minutes tests.
Why is the database using up so much memory? There were no slow queries, as the queries used in these lookup operations utilized indexes. The only plausible is that perhaps the count_estimate() calls used up and held up memories because its logic is fairly complex and might be resource intensive: https://github.com/folio-org/raml-module-builder#estimated-totalrecords
Discussions
Concatenating UUIDs seemed like a good idea, up to a point. It certainly returns results a faster due to less trips to mod-inventory-storage and less trips to mod-authtoken. However, the storage module works much harder to deserialize all the records coming back, and the database uses up memory at a much faster rate and could result in a DB crash minutes into the test run if looking up more than 20 records at once. The amount of load also causes issues. If only one user creates loads by the number of concatenated UUDIs then the database could handle it fairly easily, but if there are multiple users generating the same load then database errors would likely be generated. Likewise the more records concatenated result in more system resources being consumed, no matter the number of users. Therefore, it's up to the app developer to decide whether or not concatenating UUIDs in lookups make sense or not while taking into consideration the expected load and the number of concurrent users. This pattern does not apply for a use case that has many concurrent users, for example, but may be applicable for background tasks.
Another factor to consider is in the near future, improvements made in caching Okapi tokens will naturally eliminate the need to go to mod-authtoken on every API call to get the same type of resource. Concatenation may not gain as much benefit.