debian-mirror-gitlab/app/models/concerns/atomic_internal_id.rb
2020-03-13 15:44:24 +05:30

121 lines
3.9 KiB
Ruby

# frozen_string_literal: true
# Include atomic internal id generation scheme for a model
#
# This allows us to atomically generate internal ids that are
# unique within a given scope.
#
# For example, let's generate internal ids for Issue per Project:
# ```
# class Issue < ApplicationRecord
# has_internal_id :iid, scope: :project, init: ->(s) { s.project.issues.maximum(:iid) }
# end
# ```
#
# This generates unique internal ids per project for newly created issues.
# The generated internal id is saved in the `iid` attribute of `Issue`.
#
# This concern uses InternalId records to facilitate atomicity.
# In the absence of a record for the given scope, one will be created automatically.
# In this situation, the `init` block is called to calculate the initial value.
# In the example above, we calculate the maximum `iid` of all issues
# within the given project.
#
# Note that a model may have more than one internal id associated with possibly
# different scopes.
module AtomicInternalId
extend ActiveSupport::Concern
class_methods do
def has_internal_id(column, scope:, init:, ensure_if: nil, track_if: nil, presence: true, backfill: false) # rubocop:disable Naming/PredicateName
# We require init here to retain the ability to recalculate in the absence of a
# InternalId record (we may delete records in `internal_ids` for example).
raise "has_internal_id requires a init block, none given." unless init
raise "has_internal_id needs to be defined on association." unless self.reflect_on_association(scope)
before_validation :"track_#{scope}_#{column}!", on: :create, if: track_if
before_validation :"ensure_#{scope}_#{column}!", on: :create, if: ensure_if
validates column, presence: presence
define_method("ensure_#{scope}_#{column}!") do
return if backfill && self.class.where(column => nil).exists?
scope_value = internal_id_read_scope(scope)
value = read_attribute(column)
return value unless scope_value
if value.nil?
# We don't have a value yet and use a InternalId record to generate
# the next value.
value = InternalId.generate_next(
self,
internal_id_scope_attrs(scope),
internal_id_scope_usage,
init)
write_attribute(column, value)
end
value
end
define_method("track_#{scope}_#{column}!") do
return unless @internal_id_needs_tracking
scope_value = internal_id_read_scope(scope)
return unless scope_value
value = read_attribute(column)
if value.present?
# The value was set externally, e.g. by the user
# We update the InternalId record to keep track of the greatest value.
InternalId.track_greatest(
self,
internal_id_scope_attrs(scope),
internal_id_scope_usage,
value,
init)
@internal_id_needs_tracking = false
end
end
define_method("#{column}=") do |value|
super(value).tap do |v|
# Indicate the iid was set from externally
@internal_id_needs_tracking = true
end
end
define_method("reset_#{scope}_#{column}") do
if value = read_attribute(column)
did_reset = InternalId.reset(
self,
internal_id_scope_attrs(scope),
internal_id_scope_usage,
value)
if did_reset
write_attribute(column, nil)
end
end
read_attribute(column)
end
end
end
def internal_id_scope_attrs(scope)
scope_value = internal_id_read_scope(scope)
{ scope_value.class.table_name.singularize.to_sym => scope_value } if scope_value
end
def internal_id_scope_usage
self.class.table_name.to_sym
end
def internal_id_read_scope(scope)
association(scope).reader
end
end