Production postmortemENOMEM when trying to free memory

time to read 3 min | 541 words

We got a support call from a client, in the early hours of the morning, they were getting out-of-memory errors from their database and were understandably perturbed by that. They are running on a cloud system, so the first inclination of the admin when seeing the problem was deploying the server on a bigger instance, to at least get things running while they investigate. Doubling and then quadrupling the amount of memory that the system has had no impact. A few minutes after the system booted, it would raise an error about running out of memory.

Except that it wasn’t actually running out of memory. A scenario like that, when we give more memory to the system and still have out-of-memory errors can indicate a leak or unbounded process of some kind. That wasn’t the case here. In all system configurations (including the original one), there was plenty of additional memory in the system. Something else was going on.

When our support engineer looked at the actual details of the problem, it was quite puzzling. It looked something like this:

System.OutOfMemoryException: ENOMEM on Failed to munmap at Sparrow.Server.Platform.Posix.Syscall.munmap(IntPtr start, UIntPtr length);

That error made absolutely no sense, as you can imagine. We are trying to release memory, not allocate it. Common sense says that you can’t really fail when you are freeing memory. After all, how can you run out of memory? I’m trying to give you some, damn it!

It turns out that this model is too simplistic. You can actually run out of memory when trying to release it. The issue is that it isn’t you that is running out of memory, but the kernel. Here we are talking specifically about the Linux kernel, and how it works.

Obviously a very important aspect of the job of the kernel is managing the system memory, and to do that, the kernel itself needs memory. For managing the system memory, the kernel uses something called VMA (virtual memory area). Each VMA has its own permissions and attributes. In general, you never need to be aware of this detail.

However, there are certain pathological cases, where you need to set up different permissions and behaviors on a lot of memory areas. In the case we ran into, RavenDB was using an encrypted database. When running on an encrypted database, RavenDB ensures that all plain text data is written to memory that is locked (cannot be stored on disk / swapped out).

A side effect of that is that this means that for every piece of memory that we lock, the kernel needs to create its own VMA. Since each of them is operated on independently of the others. The kernel is using VMAs to manage its own map of the memory. and eventually, the number of the items in the map exceeds the configured value.

In this case, the munmap call released a portion of the memory back, which means that the kernel needs to split the VMA to separate pieces. But the number of items is limited, this is controlled by the vm.max_map_count value.

The default is typically 65530, but database systems often require a lot more of those. The default value is conservative, mind.

Adjusting the configuration would alleviate this problem, since that will give us sufficient space to operate normally.

More posts in "Production postmortem" series:

  1. (12 Dec 2023) The Spawn of Denial of Service
  2. (24 Jul 2023) The dog ate my request
  3. (03 Jul 2023) ENOMEM when trying to free memory
  4. (27 Jan 2023) The server ate all my memory
  5. (23 Jan 2023) The big server that couldn’t handle the load
  6. (16 Jan 2023) The heisenbug server
  7. (03 Oct 2022) Do you trust this server?
  8. (15 Sep 2022) The missed indexing reference
  9. (05 Aug 2022) The allocating query
  10. (22 Jul 2022) Efficiency all the way to Out of Memory error
  11. (18 Jul 2022) Broken networks and compressed streams
  12. (13 Jul 2022) Your math is wrong, recursion doesn’t work this way
  13. (12 Jul 2022) The data corruption in the node.js stack
  14. (11 Jul 2022) Out of memory on a clear sky
  15. (29 Apr 2022) Deduplicating replication speed
  16. (25 Apr 2022) The network latency and the I/O spikes
  17. (22 Apr 2022) The encrypted database that was too big to replicate
  18. (20 Apr 2022) Misleading security and other production snafus
  19. (03 Jan 2022) An error on the first act will lead to data corruption on the second act…
  20. (13 Dec 2021) The memory leak that only happened on Linux
  21. (17 Sep 2021) The Guinness record for page faults & high CPU
  22. (07 Jan 2021) The file system limitation
  23. (23 Mar 2020) high CPU when there is little work to be done
  24. (21 Feb 2020) The self signed certificate that couldn’t
  25. (31 Jan 2020) The slow slowdown of large systems
  26. (07 Jun 2019) Printer out of paper and the RavenDB hang
  27. (18 Feb 2019) This data corruption bug requires 3 simultaneous race conditions
  28. (25 Dec 2018) Handled errors and the curse of recursive error handling
  29. (23 Nov 2018) The ARM is killing me
  30. (22 Feb 2018) The unavailable Linux server
  31. (06 Dec 2017) data corruption, a view from INSIDE the sausage
  32. (01 Dec 2017) The random high CPU
  33. (07 Aug 2017) 30% boost with a single line change
  34. (04 Aug 2017) The case of 99.99% percentile
  35. (02 Aug 2017) The lightly loaded trashing server
  36. (23 Aug 2016) The insidious cost of managed memory
  37. (05 Feb 2016) A null reference in our abstraction
  38. (27 Jan 2016) The Razor Suicide
  39. (13 Nov 2015) The case of the “it is slow on that machine (only)”
  40. (21 Oct 2015) The case of the slow index rebuild
  41. (22 Sep 2015) The case of the Unicode Poo
  42. (03 Sep 2015) The industry at large
  43. (01 Sep 2015) The case of the lying configuration file
  44. (31 Aug 2015) The case of the memory eater and high load
  45. (14 Aug 2015) The case of the man in the middle
  46. (05 Aug 2015) Reading the errors
  47. (29 Jul 2015) The evil licensing code
  48. (23 Jul 2015) The case of the native memory leak
  49. (16 Jul 2015) The case of the intransigent new database
  50. (13 Jul 2015) The case of the hung over server
  51. (09 Jul 2015) The case of the infected cluster