202 lines
8.5 KiB
Ruby
202 lines
8.5 KiB
Ruby
# frozen_string_literal: true
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module Gitlab
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module Usage
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module Metrics
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class NameSuggestion
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FREE_TEXT_METRIC_NAME = "<please fill metric name>"
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REDIS_EVENT_METRIC_NAME = "<please fill metric name, suggested format is: {subject}_{verb}{ing|ed}_{object} eg: users_creating_epics or merge_requests_viewed_in_single_file_mode>"
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CONSTRAINTS_PROMPT_TEMPLATE = "<adjective describing: '%{constraints}'>"
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class << self
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def for(operation, relation: nil, column: nil)
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case operation
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when :count
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name_suggestion(column: column, relation: relation, prefix: 'count')
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when :distinct_count
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name_suggestion(column: column, relation: relation, prefix: 'count_distinct', distinct: :distinct)
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when :estimate_batch_distinct_count
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name_suggestion(column: column, relation: relation, prefix: 'estimate_distinct_count')
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when :sum
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name_suggestion(column: column, relation: relation, prefix: 'sum')
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when :average
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name_suggestion(column: column, relation: relation, prefix: 'average')
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when :redis
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REDIS_EVENT_METRIC_NAME
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when :alt
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FREE_TEXT_METRIC_NAME
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else
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raise ArgumentError, "#{operation} operation not supported"
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end
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end
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private
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def name_suggestion(relation:, column: nil, prefix: nil, distinct: nil)
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# rubocop: disable CodeReuse/ActiveRecord
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relation = relation.unscope(where: :created_at)
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# rubocop: enable CodeReuse/ActiveRecord
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parts = [prefix]
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arel_column = arelize_column(relation, column)
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# nil as column indicates that the counting would use fallback value of primary key.
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# Because counting primary key from relation is the conceptual equal to counting all
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# records from given relation, in order to keep name suggestion more condensed
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# primary key column is skipped.
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# eg: SELECT COUNT(id) FROM issues would translate as count_issues and not
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# as count_id_from_issues since it does not add more information to the name suggestion
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if arel_column != Arel::Table.new(relation.table_name)[relation.primary_key]
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parts << arel_column.name
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parts << 'from'
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end
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arel = arel_query(relation: relation, column: arel_column, distinct: distinct)
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constraints = parse_constraints(relation: relation, arel: arel)
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# In some cases due to performance reasons metrics are instrumented with joined relations
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# where relation listed in FROM statement is not the one that includes counted attribute
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# in such situations to make name suggestion more intuitive source should be inferred based
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# on the relation that provide counted attribute
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# EG: SELECT COUNT(deployments.environment_id) FROM clusters
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# JOIN deployments ON deployments.cluster_id = cluster.id
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# should be translated into:
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# count_environment_id_from_deployments_with_clusters
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# instead of
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# count_environment_id_from_clusters_with_deployments
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actual_source = parse_source(relation, arel_column)
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append_constraints_prompt(actual_source, [constraints], parts)
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parts << actual_source
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parts += process_joined_relations(actual_source, arel, relation, constraints)
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parts.compact.join('_').delete('"')
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end
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def append_constraints_prompt(target, constraints, parts)
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applicable_constraints = constraints.select { |constraint| constraint.include?(target) }
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return unless applicable_constraints.any?
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parts << CONSTRAINTS_PROMPT_TEMPLATE % { constraints: applicable_constraints.join(' AND ') }
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end
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def parse_constraints(relation:, arel:)
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connection = relation.connection
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::Gitlab::Usage::Metrics::NamesSuggestions::RelationParsers::Constraints
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.new(connection)
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.accept(arel, collector(connection))
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.value
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end
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# TODO: joins with `USING` keyword
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def process_joined_relations(actual_source, arel, relation, where_constraints)
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joins = parse_joins(connection: relation.connection, arel: arel)
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return [] unless joins.any?
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sources = [relation.table_name, *joins.map { |join| join[:source] }]
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joins = extract_joins_targets(joins, sources)
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relations = if actual_source != relation.table_name
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build_relations_tree(joins + [{ source: relation.table_name }], actual_source)
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else
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# in case where counter attribute comes from joined relations, the relations
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# diagram has to be built bottom up, thus source and target are reverted
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build_relations_tree(joins + [{ source: relation.table_name }], actual_source, source_key: :target, target_key: :source)
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end
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collect_join_parts(relations: relations[actual_source], joins: joins, wheres: where_constraints)
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end
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def parse_joins(connection:, arel:)
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::Gitlab::Usage::Metrics::NamesSuggestions::RelationParsers::Joins
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.new(connection)
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.accept(arel)
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end
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def extract_joins_targets(joins, sources)
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joins.map do |join|
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source_regex = /(#{join[:source]})\.(\w+_)*id/i
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tables_except_src = (sources - [join[:source]]).join('|')
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target_regex = /(?<target>#{tables_except_src})\.(\w+_)*id/i
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join_cond_regex = /(#{source_regex}\s+=\s+#{target_regex})|(#{target_regex}\s+=\s+#{source_regex})/i
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matched = join_cond_regex.match(join[:constraints])
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if matched
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join[:target] = matched[:target]
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join[:constraints].gsub!(/#{join_cond_regex}(\s+(and|or))*/i, '')
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end
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join
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end
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end
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def build_relations_tree(joins, parent, source_key: :source, target_key: :target)
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return [] if joins.blank?
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tree = {}
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tree[parent] = []
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joins.each do |join|
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if join[source_key] == parent
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tree[parent] << build_relations_tree(joins - [join], join[target_key], source_key: source_key, target_key: target_key)
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end
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end
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tree
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end
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def collect_join_parts(relations:, joins:, wheres:, parts: [], conjunctions: %w[with having including].cycle)
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conjunction = conjunctions.next
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relations.each do |subtree|
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subtree.each do |parent, children|
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parts << "<#{conjunction}>"
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join_constraints = joins.find { |join| join[:source] == parent }&.dig(:constraints)
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append_constraints_prompt(parent, [wheres, join_constraints].compact, parts)
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parts << parent
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collect_join_parts(relations: children, joins: joins, wheres: wheres, parts: parts, conjunctions: conjunctions)
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end
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end
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parts
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end
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def arelize_column(relation, column)
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case column
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when Arel::Attribute
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column
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when NilClass
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Arel::Table.new(relation.table_name)[relation.primary_key]
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when String
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if column.include?('.')
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table, col = column.split('.')
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Arel::Table.new(table)[col]
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else
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Arel::Table.new(relation.table_name)[column]
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end
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when Symbol
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arelize_column(relation, column.to_s)
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end
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end
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def parse_source(relation, column)
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column.relation.name || relation.table_name
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end
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def collector(connection)
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Arel::Collectors::SubstituteBinds.new(connection, Arel::Collectors::SQLString.new)
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end
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def arel_query(relation:, column: nil, distinct: nil)
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column ||= relation.primary_key
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if column.is_a?(Arel::Attribute)
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relation.select(column.count(distinct)).arel
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else
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relation.select(relation.all.table[column].count(distinct)).arel
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end
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end
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end
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end
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end
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end
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end
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