Choose Level Compaction Files

Aaron G edited this page Feb 18, 2017 · 3 revisions

Introduction

Level compaction style is the default compaction style of RocksDB so it is also the most widely used compaction style among users. Sometimes users are curious that how level compaction choose which files to be compacted in each compaction. In this wiki, we will elaborate more on this topic to save your time in reading code :smirk:

Steps

  1. Go from level 0 to highest level to pick the first level, Lb, that the score of this level larger than 1 as the compaction base level.

  2. Determine the compaction output level Lo = Lb + 1

  3. According to different compaction priority options, find the first file that should be compacted with the highest priority. If the file or its parents on Lo(The files the key ranges of which overlap) are being compacted by another compaction job, skip to the file with the secondary highest priority until find one candidate file. Adds this file into compaction inputs.

  4. Keep expanding inputs until we are sure that there is a "clean cut" boundary between the files in input and the surrounding files. This will ensure that no parts of a key are lost during compaction. For example, we have five files with key range:

        f1[a1 a2] f2[a3 a4] f3[a4 a6] f4[a6 a7] f5[a8 a9]
    

    If we choose f3 in step 3, then in step 4, we have to expand inputs from {f3} to {f2, f3, f4} because the boundary of f2 and f3 are continuous, as are f3 and f4. The reason that two files may share the same user key boundary is that RocksDB store InternalKey in files which consists of user key, sequence number of key type. So files may store multiple InternalKeys with the same user key. Therefore, if compaction happens, all the InternalKeys with the same user key have to be compaction altogether.

  5. Check that the files in current inputs don't overlap with any files being compacted. Otherwise, try to find any manual compaction available. If not, abort this compaction pick job.

  6. Find all the files on Lo that overlap with the files in inputs and expand them as the same way in step 4 until we find a "clean cut" of files on Lo. If anyone of these files are being compacted, abort this compaction pick job. Otherwise, put them into output_level_inputs.

  7. An optional optimization step. See if we can further grow the number of inputs on Lb without changing the number of Lo files we pick up. We also choose NOT to expand if this would cause Lb to include InternalKey for some user key, while excluding other InternalKey for the same user key, i.e., "a non-clean cut". This can happen when one user key spans multiple files. The previous sentence may be confusing by words, so here I give an example to illustrate this expansion optimization.

    Consider such a case:

     Lb: f1[B E] f2[F G] f3[H I] f4[J M]
     Lo: f5[A C] f6[D K] f7[L O]
     

    If we initially pick f2 in step 3, now we will compact f2(inputs) and f6(output_level_inputs in step 4). But we can safely compact f2, f3 and f6 without expanding the output level.

  8. The files in inputs and output_level_inputs are the candidate files for this level compaction.

Cheers!:beers::beers::beers:

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