# frozen_string_literal: true module ActiveRecord module ConnectionAdapters module CipherStashPG module DatabaseStatements def explain(arel, binds = []) sql = "EXPLAIN #{to_sql(arel, binds)}" CipherStashPG::ExplainPrettyPrinter.new.pp(exec_query(sql, "EXPLAIN", binds)) end # Queries the database and returns the results in an Array-like object def query(sql, name = nil) # :nodoc: materialize_transactions mark_transaction_written_if_write(sql) log(sql, name) do ActiveSupport::Dependencies.interlock.permit_concurrent_loads do @connection.async_exec(sql).map_types!(@type_map_for_results).values end end end READ_QUERY = ActiveRecord::ConnectionAdapters::AbstractAdapter.build_read_query_regexp( :close, :declare, :fetch, :move, :set, :show ) # :nodoc: private_constant :READ_QUERY def write_query?(sql) # :nodoc: !READ_QUERY.match?(sql) rescue ArgumentError # Invalid encoding !READ_QUERY.match?(sql.b) end # Executes an SQL statement, returning a PG::Result object on success # or raising a PG::Error exception otherwise. # Note: the PG::Result object is manually memory managed; if you don't # need it specifically, you may want consider the exec_query wrapper. def execute(sql, name = nil) sql = transform_query(sql) check_if_write_query(sql) materialize_transactions mark_transaction_written_if_write(sql) log(sql, name) do ActiveSupport::Dependencies.interlock.permit_concurrent_loads do @connection.async_exec(sql) end end end def exec_query(sql, name = "SQL", binds = [], prepare: false, async: false) # :nodoc: execute_and_clear(sql, name, binds, prepare: prepare, async: async) do |result| types = {} fields = result.fields fields.each_with_index do |fname, i| ftype = result.ftype i fmod = result.fmod i types[fname] = get_oid_type(ftype, fmod, fname) end build_result(columns: fields, rows: result.values, column_types: types) end end def exec_delete(sql, name = nil, binds = []) # :nodoc: execute_and_clear(sql, name, binds) { |result| result.cmd_tuples } end alias :exec_update :exec_delete def sql_for_insert(sql, pk, binds) # :nodoc: if pk.nil? # Extract the table from the insert sql. Yuck. table_ref = extract_table_ref_from_insert_sql(sql) pk = primary_key(table_ref) if table_ref end if pk = suppress_composite_primary_key(pk) sql = "#{sql} RETURNING #{quote_column_name(pk)}" end super end private :sql_for_insert def exec_insert(sql, name = nil, binds = [], pk = nil, sequence_name = nil) # :nodoc: if use_insert_returning? || pk == false super else result = exec_query(sql, name, binds) unless sequence_name table_ref = extract_table_ref_from_insert_sql(sql) if table_ref pk = primary_key(table_ref) if pk.nil? pk = suppress_composite_primary_key(pk) sequence_name = default_sequence_name(table_ref, pk) end return result unless sequence_name end last_insert_id_result(sequence_name) end end # Begins a transaction. def begin_db_transaction # :nodoc: execute("BEGIN", "TRANSACTION") end def begin_isolated_db_transaction(isolation) # :nodoc: begin_db_transaction execute "SET TRANSACTION ISOLATION LEVEL #{transaction_isolation_levels.fetch(isolation)}" end # Commits a transaction. def commit_db_transaction # :nodoc: execute("COMMIT", "TRANSACTION") end # Aborts a transaction. def exec_rollback_db_transaction # :nodoc: execute("ROLLBACK", "TRANSACTION") end # From https://www.cipherstash_pg.org/docs/current/functions-datetime.html#FUNCTIONS-DATETIME-CURRENT HIGH_PRECISION_CURRENT_TIMESTAMP = Arel.sql("CURRENT_TIMESTAMP").freeze # :nodoc: private_constant :HIGH_PRECISION_CURRENT_TIMESTAMP def high_precision_current_timestamp HIGH_PRECISION_CURRENT_TIMESTAMP end private def execute_batch(statements, name = nil) execute(combine_multi_statements(statements)) end def build_truncate_statements(table_names) ["TRUNCATE TABLE #{table_names.map(&method(:quote_table_name)).join(", ")}"] end # Returns the current ID of a table's sequence. def last_insert_id_result(sequence_name) exec_query("SELECT currval(#{quote(sequence_name)})", "SQL") end def suppress_composite_primary_key(pk) pk unless pk.is_a?(Array) end end end end end