openproject/db/migrate/20210615150558_aggregate_journals.rb

require_relative './20200924085508_cleanup_orphaned_journal_data'
require_relative './migration_utils/utils'

class AggregateJournals < ActiveRecord::Migration[6.1]
  include ::Migration::Utils

  def up
    [Attachment,
     Changeset,
     Message,
     News,
     WikiContent,
     WorkPackage,
     Budget,
     TimeEntry,
     Document,
     Meeting,
     MeetingContent].each do |klass|
      say_with_time "Aggregating journals for #{klass}" do
        aggregate_journals(klass)
      end
    end

    # Now cleanup all orphaned attachable/customizable journals
    CleanupOrphanedJournalData.up
  end

  # The change is irreversible (aggregated journals cannot be broken down) but down will not cause database inconsistencies.

  def aggregate_journals(klass)
    in_configurable_batches(klass) do |instances|
      # Instantiating is faster than calculating the aggregated journals multiple times.
      aggregated_journals = aggregated_journals_of(klass, instances).to_a

      aggregated_journals
        .reject { |journal| journal.notes_id == journal.id }
        .each do |mismatched_journal|
        update_journal_notes(mismatched_journal)
      end

      remove_unnecessary_journals(klass, instances, aggregated_journals)
    end
  end

  def aggregated_journals_of(klass, instances)
    aggregated_journal(sql: Journal.where(journable_type: klass.name,
                                          journable_id: instances.pluck(:id))
                                   .to_sql)
  end

  def update_journal_notes(mismatched_journal)
    sql = <<~SQL
      UPDATE journals
      SET notes = :notes
      WHERE id = :id
    SQL

    suppress_messages do
      execute ::OpenProject::SqlSanitization.sanitize(sql, notes: mismatched_journal.notes, id: mismatched_journal.id)
    end
  end

  def remove_unnecessary_journals(klass, instances, aggregated_journals)
    # Only delete the journals (without callbacks as it is faster).
    # We remove the then orphaned attachable/customizable journals later.
    Journal
      .where(journable_type: klass.name, journable_id: instances.pluck(:id))
      .where.not(id: aggregated_journals.map(&:id))
      .delete_all
  end

  def aggregated_journal(journable: nil, sql: nil, until_version: nil)
    journals_preselection = raw_journals_subselect(journable, sql, until_version)

    # We wrap the sql with a subselect so that outside of this class,
    # The fields native to journals (e.g. id, version) can be referenced, without
    # having to also use a CASE/COALESCE statement.
    Journal
      .from(select_sql(journals_preselection))
      .select("DISTINCT *")
  end

  private

  # The sql used to query the database for the aggregated journals.
  # The query makes use of 4 parts (which are selected from/joined):
  #  * The minimum journal version that starts an aggregation group.
  #  * The maximum journal version that ends an aggregation group.
  #  * Journals with notes that are within the bounds of minimum version/maximum version.
  #  * Journals with notes that are within the bounds of the before mentioned journal notes and the maximum journal version.
  #
  # The maximum version are those journals, whose successor:
  #  * Where created by a different user
  #  * Where created after the configured aggregation period had expired (always relative to the journal under consideration).
  #
  # The minimum version then is the maximum version of the group before - 1.
  #
  # e.g. a group of 10 sequential journals might break into the following groups
  #
  #   Version 10 (User A, 6 minutes after 9)
  #   Version 9 (User A, 2 minutes after 8)
  #   Version 8 (User A, 4 minutes after 7)
  #   Version 7 (User A, 1 minute after 6)
  #   Version 6 (User A, 3 minutes after 5)
  #   Version 5 (User A, 1 minute after 4)
  #   Version 4 (User B, 1 minute after 3)
  #   Version 3 (User B, 4 minutes after 2)
  #   Version 2 (User A, 1 minute after 1)
  #   Version 1 (User A)
  #
  # would have the following maximum journals if the aggregation period where 5 minutes:
  #
  #   Version 10 (User A, 6 minutes after 9)
  #   Version 9 (User A, 2 minutes after 8)
  #   Version 4 (User B, 1 minute after 3)
  #   Version 2 (User A, 1 minute after 1)
  #
  # The last journal (one without a successor) of a journable will obviously also always be a maximum journal.
  #
  # If the aggregation period where to be expanded to 7 minutes, the maximum journals would be slightly different:
  #
  #   Version 10 (User A, 6 minutes after 9)
  #   Version 4 (User B, 1 minute after 3)
  #   Version 2 (User A, 1 minute after 1)
  #
  # As we do not store the aggregated journals, and rather calculate them on reading, the aggregated journals might be tuned
  # by a user.
  #
  # The minimum version in the example with the 5 minute aggregation period would then be calculated from the maximum version:
  #
  #   Version 10
  #   Version 5
  #   Version 3
  #   Version 1
  #
  # The first version will always be included.
  #
  # Without a journal with notes (the user commented on the journable) in between, the maximum journal is returned
  # as the representation of every aggregation group. This is possible as the journals (together with their data and their
  # customizable_journals/attachable_journals) represent the complete state of the journable at the given time.
  #
  # e.g. a group of 5 sequential journals without notes, belonging to the same user and created within the configured
  # time difference between one journal and its successor
  #
  #   Version 9
  #   Version 8
  #   Version 7
  #   Version 6
  #   Version 5
  #
  # would only return the last journal, Version 9.
  #
  # In case the group has one journal with notes in it, the last journal is also returned. But as we also want the note
  # to be returned, we return the note as if it would belong to the maximum journal version. This explicitly means
  # that all journals of the same group that are after the notes journal are also returned.
  #
  # e.g. a group of 5 sequential journals with only one note, belonging to the same user and created within the configured
  # time difference between one journal and its successor
  #
  #   Version 9
  #   Version 8
  #   Version 7
  #   Version 6 (note)
  #   Version 5
  #
  # would only return the last journal, Version 9, but would also return the note and the id of the journal the note
  # belongs to natively.
  #
  # But as we do not want to aggregate notes, the behaviour above can no longer work if there is more than one note in the
  # same group. In such a case, a group is cut into subsets. The journals returned will then only contain all the changes
  # up until a journal with notes. The only exception to this is the last journal note which might also contain changes
  # after it up to and including the maximum journal version of the group.

  # e.g. a group of 5 sequential journals with only one note, belonging to the same user and created within the configured
  # time difference between one journal and its successor
  #
  #   Version 9
  #   Version 8 (note)
  #   Version 7
  #   Version 6 (note)
  #   Version 5
  #
  # would return the last journal, Version 9, but with the note of Version 8 and also a reference in the form of
  # note_id pointing to Version 8. It would also return Version 6, with its note and a reference in the form of note_id
  # this time pointing to the native journal, Version 6.
  #
  # The journals that are considered for aggregation can also be reduced by providing a subselect. Doing so, one
  # can e.g. consider only the journals created after a certain time.
  def select_sql(journals_preselection)
    <<~SQL
      (#{Journal
           .from(start_group_journals_select(journals_preselection))
           .joins(end_group_journals_join(journals_preselection))
           .joins(notes_in_group_join(journals_preselection))
           .joins(additional_notes_in_group_join(journals_preselection))
           .select(projection_list).to_sql}) journals
    SQL
  end

  def user_or_time_group_breaking_journals_subselect(journals_preselection)
    <<~SQL
      SELECT
        predecessor.*,
        row_number() OVER (ORDER BY predecessor.journable_type, predecessor.journable_id, predecessor.version ASC) #{group_number_alias}
      FROM #{journals_preselection} predecessor
        LEFT OUTER JOIN #{journals_preselection} successor
        ON predecessor.version + 1 = successor.version
        AND predecessor.journable_type = successor.journable_type
        AND predecessor.journable_id = successor.journable_id
        WHERE (predecessor.user_id != successor.user_id
        OR #{beyond_aggregation_time_condition})
        OR successor.id IS NULL
    SQL
  end

  def notes_journals_subselect(journals_preselection)
    <<~SQL
      (SELECT
        notes_journals.*
      FROM #{journals_preselection} notes_journals
        WHERE notes_journals.notes != '' AND notes_journals.notes IS NOT NULL)
    SQL
  end

  def start_group_journals_select(journals_preselection)
    "(#{user_or_time_group_breaking_journals_subselect(journals_preselection)}) #{start_group_journals_alias}"
  end

  def end_group_journals_join(journals_preselection)
    group_journals_join_condition = <<~SQL
      #{start_group_journals_alias}.#{group_number_alias} = #{end_group_journals_alias}.#{group_number_alias} - 1
      AND #{start_group_journals_alias}.journable_type = #{end_group_journals_alias}.journable_type
      AND #{start_group_journals_alias}.journable_id = #{end_group_journals_alias}.journable_id
    SQL

    end_group_journals = <<~SQL
      RIGHT OUTER JOIN
        (#{user_or_time_group_breaking_journals_subselect(journals_preselection)}) #{end_group_journals_alias}
        ON #{group_journals_join_condition}
    SQL

    Arel.sql(end_group_journals)
  end

  def notes_in_group_join(journals_preselection)
    # As we right join on the minimum journal version, the minimum might be empty. We thus have to coalesce in such
    # case as <= will not interpret NULL as 0.
    # This also works if we do not fetch the whole set of journals starting from the first journal but rather
    # start somewhere within the set. This might take place e.g. when fetching only the journals that are
    # created after a certain point in time which is done when displaying of the last month in the activity module.
    breaking_journals_notes_join_condition = <<~SQL
      COALESCE(#{start_group_journals_alias}.version, 0) + 1 <= #{notes_in_group_alias}.version
      AND #{end_group_journals_alias}.version >= #{notes_in_group_alias}.version
      AND #{end_group_journals_alias}.journable_type = #{notes_in_group_alias}.journable_type
      AND #{end_group_journals_alias}.journable_id = #{notes_in_group_alias}.journable_id
    SQL

    breaking_journals_notes = <<~SQL
      LEFT OUTER JOIN
        #{notes_journals_subselect(journals_preselection)} #{notes_in_group_alias}
        ON #{breaking_journals_notes_join_condition}
    SQL

    Arel.sql(breaking_journals_notes)
  end

  def additional_notes_in_group_join(journals_preselection)
    successor_journals_notes_join_condition = <<~SQL
      #{notes_in_group_alias}.version < successor_notes.version
      AND #{end_group_journals_alias}.version >= successor_notes.version
      AND #{end_group_journals_alias}.journable_type = successor_notes.journable_type
      AND #{end_group_journals_alias}.journable_id = successor_notes.journable_id
    SQL

    successor_journals_notes = <<~SQL
      LEFT OUTER JOIN
        #{notes_journals_subselect(journals_preselection)} successor_notes
        ON #{successor_journals_notes_join_condition}
    SQL

    Arel.sql(successor_journals_notes)
  end

  def projection_list
    projections = <<~SQL
      #{end_group_journals_alias}.journable_type,
      #{end_group_journals_alias}.journable_id,
      #{end_group_journals_alias}.user_id,
      #{end_group_journals_alias}.activity_type,
      #{notes_projection} notes,
      #{notes_id_projection} notes_id,
      #{notes_in_group_alias}.version notes_version,
      #{version_projection} AS version,
      #{created_at_projection} created_at,
      #{updated_at_projection} updated_at,
      #{id_projection} id
    SQL

    Arel.sql(projections)
  end

  def id_projection
    attribute_projection(:id)
  end

  def version_projection
    attribute_projection(:version)
  end

  def created_at_projection
    attribute_projection(:created_at)
  end

  def updated_at_projection
    attribute_projection(:updated_at)
  end

  def attribute_projection(attribute)
    <<~SQL
      CASE
        WHEN successor_notes.version IS NOT NULL THEN #{notes_in_group_alias}.#{attribute}
        ELSE #{end_group_journals_alias}.#{attribute} END
    SQL
  end

  def notes_id_projection
    <<~SQL
      COALESCE(#{notes_in_group_alias}.id, #{end_group_journals_alias}.id)
    SQL
  end

  def notes_projection
    <<~SQL
      COALESCE(#{notes_in_group_alias}.notes, '')
    SQL
  end

  def raw_journals_subselect(journable, sql, until_version)
    if sql
      raise 'until_version used together with sql' if until_version

      "(#{sql})"
    elsif journable
      limit = until_version ? "AND journals.version <= #{until_version}" : ''

      <<~SQL
        (
          SELECT * from journals
          WHERE journals.journable_id = #{journable.id}
          AND journals.journable_type = '#{journable.class.name}'
          #{limit}
        )
      SQL
    else
      where = until_version ? "WHERE journals.version <= #{until_version}" : ''

      <<~SQL
        (SELECT * from journals #{where})
      SQL
    end
  end

  # Returns a SQL condition that will determine whether two entries are too far apart (temporal)
  # to be considered for aggregation. This takes the current instance settings for temporal
  # proximity into account.
  def beyond_aggregation_time_condition
    aggregation_time_seconds = Setting.journal_aggregation_time_minutes.to_i.minutes
    if aggregation_time_seconds == 0
      # if aggregation is disabled, we consider everything to be beyond aggregation time
      # even if creation dates are exactly equal
      return '(true = true)'
    end

    difference = "(successor.created_at - predecessor.created_at)"
    threshold = "interval '#{aggregation_time_seconds} second'"

    "(#{difference} > #{threshold})"
  end

  def start_group_journals_alias
    "start_groups_journals"
  end

  def end_group_journals_alias
    "end_groups_journals"
  end

  def group_number_alias
    "group_number"
  end

  def notes_in_group_alias
    "notes_in_group_journals"
  end
end