# frozen_string_literal: true gem "pg", "~> 1.1" require "pg" require "active_support/core_ext/object/try" require "active_record/connection_adapters/abstract_adapter" require "active_record/connection_adapters/statement_pool" require "active_record/connection_adapters/postgresql/column" require "active_record/connection_adapters/postgresql/database_statements" require "active_record/connection_adapters/postgresql/explain_pretty_printer" require "active_record/connection_adapters/postgresql/oid" require "active_record/connection_adapters/postgresql/quoting" require "active_record/connection_adapters/postgresql/referential_integrity" require "active_record/connection_adapters/postgresql/schema_creation" require "active_record/connection_adapters/postgresql/schema_definitions" require "active_record/connection_adapters/postgresql/schema_dumper" require "active_record/connection_adapters/postgresql/schema_statements" require "active_record/connection_adapters/postgresql/type_metadata" require "active_record/connection_adapters/postgresql/utils" module ActiveRecord module ConnectionHandling # :nodoc: # Establishes a connection to the database that's used by all Active Record objects def postgresql_connection(config) conn_params = config.symbolize_keys.compact # Map ActiveRecords param names to PGs. conn_params[:user] = conn_params.delete(:username) if conn_params[:username] conn_params[:dbname] = conn_params.delete(:database) if conn_params[:database] # Forward only valid config params to PG::Connection.connect. valid_conn_param_keys = PG::Connection.conndefaults_hash.keys + [:requiressl] conn_params.slice!(*valid_conn_param_keys) ConnectionAdapters::PostgreSQLAdapter.new( ConnectionAdapters::PostgreSQLAdapter.new_client(conn_params), logger, conn_params, config, ) end end module ConnectionAdapters # The PostgreSQL adapter works with the native C (https://github.com/ged/ruby-pg) driver. # # Options: # # * :host - Defaults to a Unix-domain socket in /tmp. On machines without Unix-domain sockets, # the default is to connect to localhost. # * :port - Defaults to 5432. # * :username - Defaults to be the same as the operating system name of the user running the application. # * :password - Password to be used if the server demands password authentication. # * :database - Defaults to be the same as the username. # * :schema_search_path - An optional schema search path for the connection given # as a string of comma-separated schema names. This is backward-compatible with the :schema_order option. # * :encoding - An optional client encoding that is used in a SET client_encoding TO # call on the connection. # * :min_messages - An optional client min messages that is used in a # SET client_min_messages TO call on the connection. # * :variables - An optional hash of additional parameters that # will be used in SET SESSION key = val calls on the connection. # * :insert_returning - An optional boolean to control the use of RETURNING for INSERT statements # defaults to true. # # Any further options are used as connection parameters to libpq. See # https://www.postgresql.org/docs/current/static/libpq-connect.html for the # list of parameters. # # In addition, default connection parameters of libpq can be set per environment variables. # See https://www.postgresql.org/docs/current/static/libpq-envars.html . class PostgreSQLAdapter < AbstractAdapter ADAPTER_NAME = "PostgreSQL" class << self def new_client(conn_params) PG.connect(conn_params) rescue ::PG::Error => error if conn_params && conn_params[:dbname] && error.message.include?(conn_params[:dbname]) raise ActiveRecord::NoDatabaseError.db_error(conn_params[:dbname]) elsif conn_params && conn_params[:user] && error.message.include?(conn_params[:user]) raise ActiveRecord::DatabaseConnectionError.username_error(conn_params[:user]) elsif conn_params && conn_params[:hostname] && error.message.include?(conn_params[:hostname]) raise ActiveRecord::DatabaseConnectionError.hostname_error(conn_params[:hostname]) else raise ActiveRecord::ConnectionNotEstablished, error.message end end end ## # :singleton-method: # PostgreSQL allows the creation of "unlogged" tables, which do not record # data in the PostgreSQL Write-Ahead Log. This can make the tables faster, # but significantly increases the risk of data loss if the database # crashes. As a result, this should not be used in production # environments. If you would like all created tables to be unlogged in # the test environment you can add the following line to your test.rb # file: # # ActiveRecord::ConnectionAdapters::PostgreSQLAdapter.create_unlogged_tables = true class_attribute :create_unlogged_tables, default: false ## # :singleton-method: # PostgreSQL supports multiple types for DateTimes. By default if you use `datetime` # in migrations, Rails will translate this to a PostgreSQL "timestamp without time zone". # Change this in an initializer to use another NATIVE_DATABASE_TYPES. For example, to # store DateTimes as "timestamp with time zone": # # ActiveRecord::ConnectionAdapters::PostgreSQLAdapter.datetime_type = :timestamptz # # Or if you are adding a custom type: # # ActiveRecord::ConnectionAdapters::PostgreSQLAdapter::NATIVE_DATABASE_TYPES[:my_custom_type] = { name: "my_custom_type_name" } # ActiveRecord::ConnectionAdapters::PostgreSQLAdapter.datetime_type = :my_custom_type # # If you're using :ruby as your config.active_record.schema_format and you change this # setting, you should immediately run bin/rails db:migrate to update the types in your schema.rb. class_attribute :datetime_type, default: :timestamp NATIVE_DATABASE_TYPES = { primary_key: "bigserial primary key", string: { name: "character varying" }, text: { name: "text" }, integer: { name: "integer", limit: 4 }, float: { name: "float" }, decimal: { name: "decimal" }, datetime: {}, # set dynamically based on datetime_type timestamp: { name: "timestamp" }, timestamptz: { name: "timestamptz" }, time: { name: "time" }, date: { name: "date" }, daterange: { name: "daterange" }, numrange: { name: "numrange" }, tsrange: { name: "tsrange" }, tstzrange: { name: "tstzrange" }, int4range: { name: "int4range" }, int8range: { name: "int8range" }, binary: { name: "bytea" }, boolean: { name: "boolean" }, xml: { name: "xml" }, tsvector: { name: "tsvector" }, hstore: { name: "hstore" }, inet: { name: "inet" }, cidr: { name: "cidr" }, macaddr: { name: "macaddr" }, uuid: { name: "uuid" }, json: { name: "json" }, jsonb: { name: "jsonb" }, ltree: { name: "ltree" }, citext: { name: "citext" }, point: { name: "point" }, line: { name: "line" }, lseg: { name: "lseg" }, box: { name: "box" }, path: { name: "path" }, polygon: { name: "polygon" }, circle: { name: "circle" }, bit: { name: "bit" }, bit_varying: { name: "bit varying" }, money: { name: "money" }, interval: { name: "interval" }, oid: { name: "oid" }, } OID = PostgreSQL::OID # :nodoc: include PostgreSQL::Quoting include PostgreSQL::ReferentialIntegrity include PostgreSQL::SchemaStatements include PostgreSQL::DatabaseStatements def supports_bulk_alter? true end def supports_index_sort_order? true end def supports_partitioned_indexes? database_version >= 110_000 end def supports_partial_index? true end def supports_expression_index? true end def supports_transaction_isolation? true end def supports_foreign_keys? true end def supports_check_constraints? true end def supports_validate_constraints? true end def supports_views? true end def supports_datetime_with_precision? true end def supports_json? true end def supports_comments? true end def supports_savepoints? true end def supports_insert_returning? true end def supports_insert_on_conflict? database_version >= 90500 end alias supports_insert_on_duplicate_skip? supports_insert_on_conflict? alias supports_insert_on_duplicate_update? supports_insert_on_conflict? alias supports_insert_conflict_target? supports_insert_on_conflict? def index_algorithms { concurrently: "CONCURRENTLY" } end class StatementPool < ConnectionAdapters::StatementPool # :nodoc: def initialize(connection, max) super(max) @connection = connection @counter = 0 end def next_key "a#{@counter += 1}" end private def dealloc(key) @connection.query "DEALLOCATE #{key}" if connection_active? rescue PG::Error end def connection_active? @connection.status == PG::CONNECTION_OK rescue PG::Error false end end # Initializes and connects a PostgreSQL adapter. def initialize(connection, logger, connection_parameters, config) super(connection, logger, config) @connection_parameters = connection_parameters # @local_tz is initialized as nil to avoid warnings when connect tries to use it @local_tz = nil @max_identifier_length = nil configure_connection add_pg_encoders add_pg_decoders @type_map = Type::HashLookupTypeMap.new initialize_type_map @local_tz = execute("SHOW TIME ZONE", "SCHEMA").first["TimeZone"] @use_insert_returning = @config.key?(:insert_returning) ? self.class.type_cast_config_to_boolean(@config[:insert_returning]) : true end def self.database_exists?(config) !!ActiveRecord::Base.postgresql_connection(config) rescue ActiveRecord::NoDatabaseError false end # Is this connection alive and ready for queries? def active? @lock.synchronize do @connection.query ";" end true rescue PG::Error false end def reload_type_map # :nodoc: type_map.clear initialize_type_map end # Close then reopen the connection. def reconnect! @lock.synchronize do super @connection.reset configure_connection reload_type_map rescue PG::ConnectionBad connect end end def reset! @lock.synchronize do clear_cache! reset_transaction unless @connection.transaction_status == ::PG::PQTRANS_IDLE @connection.query "ROLLBACK" end @connection.query "DISCARD ALL" configure_connection end end # Disconnects from the database if already connected. Otherwise, this # method does nothing. def disconnect! @lock.synchronize do super @connection.close rescue nil end end def discard! # :nodoc: super @connection.socket_io.reopen(IO::NULL) rescue nil @connection = nil end def native_database_types # :nodoc: self.class.native_database_types end def self.native_database_types # :nodoc: @native_database_types ||= begin types = NATIVE_DATABASE_TYPES.dup types[:datetime] = types[datetime_type] types end end def set_standard_conforming_strings execute("SET standard_conforming_strings = on", "SCHEMA") end def supports_ddl_transactions? true end def supports_advisory_locks? true end def supports_explain? true end def supports_extensions? true end def supports_materialized_views? true end def supports_foreign_tables? true end def supports_pgcrypto_uuid? database_version >= 90400 end def supports_optimizer_hints? unless defined?(@has_pg_hint_plan) @has_pg_hint_plan = extension_available?("pg_hint_plan") end @has_pg_hint_plan end def supports_common_table_expressions? true end def supports_lazy_transactions? true end def get_advisory_lock(lock_id) # :nodoc: unless lock_id.is_a?(Integer) && lock_id.bit_length <= 63 raise(ArgumentError, "PostgreSQL requires advisory lock ids to be a signed 64 bit integer") end query_value("SELECT pg_try_advisory_lock(#{lock_id})") end def release_advisory_lock(lock_id) # :nodoc: unless lock_id.is_a?(Integer) && lock_id.bit_length <= 63 raise(ArgumentError, "PostgreSQL requires advisory lock ids to be a signed 64 bit integer") end query_value("SELECT pg_advisory_unlock(#{lock_id})") end def enable_extension(name) exec_query("CREATE EXTENSION IF NOT EXISTS \"#{name}\"").tap { reload_type_map } end def disable_extension(name) exec_query("DROP EXTENSION IF EXISTS \"#{name}\" CASCADE").tap { reload_type_map } end def extension_available?(name) query_value("SELECT true FROM pg_available_extensions WHERE name = #{quote(name)}", "SCHEMA") end def extension_enabled?(name) query_value("SELECT installed_version IS NOT NULL FROM pg_available_extensions WHERE name = #{quote(name)}", "SCHEMA") end def extensions exec_query("SELECT extname FROM pg_extension", "SCHEMA").cast_values end # Returns the configured supported identifier length supported by PostgreSQL def max_identifier_length @max_identifier_length ||= query_value("SHOW max_identifier_length", "SCHEMA").to_i end # Set the authorized user for this session def session_auth=(user) clear_cache! execute("SET SESSION AUTHORIZATION #{user}") end def use_insert_returning? @use_insert_returning end # Returns the version of the connected PostgreSQL server. def get_database_version # :nodoc: @connection.server_version end alias :postgresql_version :database_version def default_index_type?(index) # :nodoc: index.using == :btree || super end def build_insert_sql(insert) # :nodoc: sql = +"INSERT #{insert.into} #{insert.values_list}" if insert.skip_duplicates? sql << " ON CONFLICT #{insert.conflict_target} DO NOTHING" elsif insert.update_duplicates? sql << " ON CONFLICT #{insert.conflict_target} DO UPDATE SET " if insert.raw_update_sql? sql << insert.raw_update_sql else sql << insert.touch_model_timestamps_unless { |column| "#{insert.model.quoted_table_name}.#{column} IS NOT DISTINCT FROM excluded.#{column}" } sql << insert.updatable_columns.map { |column| "#{column}=excluded.#{column}" }.join(",") end end sql << " RETURNING #{insert.returning}" if insert.returning sql end def check_version # :nodoc: if database_version < 90300 raise "Your version of PostgreSQL (#{database_version}) is too old. Active Record supports PostgreSQL >= 9.3." end end class << self def initialize_type_map(m) # :nodoc: m.register_type "int2", Type::Integer.new(limit: 2) m.register_type "int4", Type::Integer.new(limit: 4) m.register_type "int8", Type::Integer.new(limit: 8) m.register_type "oid", OID::Oid.new m.register_type "float4", Type::Float.new m.alias_type "float8", "float4" m.register_type "text", Type::Text.new register_class_with_limit m, "varchar", Type::String m.alias_type "char", "varchar" m.alias_type "name", "varchar" m.alias_type "bpchar", "varchar" m.register_type "bool", Type::Boolean.new register_class_with_limit m, "bit", OID::Bit register_class_with_limit m, "varbit", OID::BitVarying m.register_type "date", OID::Date.new m.register_type "money", OID::Money.new m.register_type "bytea", OID::Bytea.new m.register_type "point", OID::Point.new m.register_type "hstore", OID::Hstore.new m.register_type "json", Type::Json.new m.register_type "jsonb", OID::Jsonb.new m.register_type "cidr", OID::Cidr.new m.register_type "inet", OID::Inet.new m.register_type "uuid", OID::Uuid.new m.register_type "xml", OID::Xml.new m.register_type "tsvector", OID::SpecializedString.new(:tsvector) m.register_type "macaddr", OID::Macaddr.new m.register_type "citext", OID::SpecializedString.new(:citext) m.register_type "ltree", OID::SpecializedString.new(:ltree) m.register_type "line", OID::SpecializedString.new(:line) m.register_type "lseg", OID::SpecializedString.new(:lseg) m.register_type "box", OID::SpecializedString.new(:box) m.register_type "path", OID::SpecializedString.new(:path) m.register_type "polygon", OID::SpecializedString.new(:polygon) m.register_type "circle", OID::SpecializedString.new(:circle) register_class_with_precision m, "time", Type::Time register_class_with_precision m, "timestamp", OID::Timestamp register_class_with_precision m, "timestamptz", OID::TimestampWithTimeZone m.register_type "numeric" do |_, fmod, sql_type| precision = extract_precision(sql_type) scale = extract_scale(sql_type) # The type for the numeric depends on the width of the field, # so we'll do something special here. # # When dealing with decimal columns: # # places after decimal = fmod - 4 & 0xffff # places before decimal = (fmod - 4) >> 16 & 0xffff if fmod && (fmod - 4 & 0xffff).zero? # FIXME: Remove this class, and the second argument to # lookups on PG Type::DecimalWithoutScale.new(precision: precision) else OID::Decimal.new(precision: precision, scale: scale) end end m.register_type "interval" do |*args, sql_type| precision = extract_precision(sql_type) OID::Interval.new(precision: precision) end end end private def type_map @type_map ||= Type::HashLookupTypeMap.new end def initialize_type_map(m = type_map) self.class.initialize_type_map(m) load_additional_types end # Extracts the value from a PostgreSQL column default definition. def extract_value_from_default(default) case default # Quoted types when /\A[(B]?'(.*)'.*::"?([\w. ]+)"?(?:\[\])?\z/m # The default 'now'::date is CURRENT_DATE if $1 == "now" && $2 == "date" nil else $1.gsub("''", "'") end # Boolean types when "true", "false" default # Numeric types when /\A\(?(-?\d+(\.\d*)?)\)?(::bigint)?\z/ $1 # Object identifier types when /\A-?\d+\z/ $1 else # Anything else is blank, some user type, or some function # and we can't know the value of that, so return nil. nil end end def extract_default_function(default_value, default) default if has_default_function?(default_value, default) end def has_default_function?(default_value, default) !default_value && %r{\w+\(.*\)|\(.*\)::\w+|CURRENT_DATE|CURRENT_TIMESTAMP}.match?(default) end # See https://www.postgresql.org/docs/current/static/errcodes-appendix.html VALUE_LIMIT_VIOLATION = "22001" NUMERIC_VALUE_OUT_OF_RANGE = "22003" NOT_NULL_VIOLATION = "23502" FOREIGN_KEY_VIOLATION = "23503" UNIQUE_VIOLATION = "23505" SERIALIZATION_FAILURE = "40001" DEADLOCK_DETECTED = "40P01" DUPLICATE_DATABASE = "42P04" LOCK_NOT_AVAILABLE = "55P03" QUERY_CANCELED = "57014" def translate_exception(exception, message:, sql:, binds:) return exception unless exception.respond_to?(:result) case exception.result.try(:error_field, PG::PG_DIAG_SQLSTATE) when nil if exception.message.match?(/connection is closed/i) ConnectionNotEstablished.new(exception) else super end when UNIQUE_VIOLATION RecordNotUnique.new(message, sql: sql, binds: binds) when FOREIGN_KEY_VIOLATION InvalidForeignKey.new(message, sql: sql, binds: binds) when VALUE_LIMIT_VIOLATION ValueTooLong.new(message, sql: sql, binds: binds) when NUMERIC_VALUE_OUT_OF_RANGE RangeError.new(message, sql: sql, binds: binds) when NOT_NULL_VIOLATION NotNullViolation.new(message, sql: sql, binds: binds) when SERIALIZATION_FAILURE SerializationFailure.new(message, sql: sql, binds: binds) when DEADLOCK_DETECTED Deadlocked.new(message, sql: sql, binds: binds) when DUPLICATE_DATABASE DatabaseAlreadyExists.new(message, sql: sql, binds: binds) when LOCK_NOT_AVAILABLE LockWaitTimeout.new(message, sql: sql, binds: binds) when QUERY_CANCELED QueryCanceled.new(message, sql: sql, binds: binds) else super end end def get_oid_type(oid, fmod, column_name, sql_type = "") if !type_map.key?(oid) load_additional_types([oid]) end type_map.fetch(oid, fmod, sql_type) { warn "unknown OID #{oid}: failed to recognize type of '#{column_name}'. It will be treated as String." Type.default_value.tap do |cast_type| type_map.register_type(oid, cast_type) end } end def load_additional_types(oids = nil) initializer = OID::TypeMapInitializer.new(type_map) load_types_queries(initializer, oids) do |query| execute_and_clear(query, "SCHEMA", []) do |records| initializer.run(records) end end end def load_types_queries(initializer, oids) query = <<~SQL SELECT t.oid, t.typname, t.typelem, t.typdelim, t.typinput, r.rngsubtype, t.typtype, t.typbasetype FROM pg_type as t LEFT JOIN pg_range as r ON oid = rngtypid SQL if oids yield query + "WHERE t.oid IN (%s)" % oids.join(", ") else yield query + initializer.query_conditions_for_known_type_names yield query + initializer.query_conditions_for_known_type_types yield query + initializer.query_conditions_for_array_types end end FEATURE_NOT_SUPPORTED = "0A000" # :nodoc: def execute_and_clear(sql, name, binds, prepare: false, async: false) sql = transform_query(sql) check_if_write_query(sql) if !prepare || without_prepared_statement?(binds) result = exec_no_cache(sql, name, binds, async: async) else result = exec_cache(sql, name, binds, async: async) end begin ret = yield result ensure result.clear end ret end def exec_no_cache(sql, name, binds, async: false) materialize_transactions mark_transaction_written_if_write(sql) # make sure we carry over any changes to ActiveRecord.default_timezone that have been # made since we established the connection update_typemap_for_default_timezone type_casted_binds = type_casted_binds(binds) log(sql, name, binds, type_casted_binds, async: async) do ActiveSupport::Dependencies.interlock.permit_concurrent_loads do @connection.exec_params(sql, type_casted_binds) end end end def exec_cache(sql, name, binds, async: false) materialize_transactions mark_transaction_written_if_write(sql) update_typemap_for_default_timezone stmt_key = prepare_statement(sql, binds) type_casted_binds = type_casted_binds(binds) log(sql, name, binds, type_casted_binds, stmt_key, async: async) do ActiveSupport::Dependencies.interlock.permit_concurrent_loads do @connection.exec_prepared(stmt_key, type_casted_binds) end end rescue ActiveRecord::StatementInvalid => e raise unless is_cached_plan_failure?(e) # Nothing we can do if we are in a transaction because all commands # will raise InFailedSQLTransaction if in_transaction? raise ActiveRecord::PreparedStatementCacheExpired.new(e.cause.message) else @lock.synchronize do # outside of transactions we can simply flush this query and retry @statements.delete sql_key(sql) end retry end end # Annoyingly, the code for prepared statements whose return value may # have changed is FEATURE_NOT_SUPPORTED. # # This covers various different error types so we need to do additional # work to classify the exception definitively as a # ActiveRecord::PreparedStatementCacheExpired # # Check here for more details: # https://git.postgresql.org/gitweb/?p=postgresql.git;a=blob;f=src/backend/utils/cache/plancache.c#l573 def is_cached_plan_failure?(e) pgerror = e.cause pgerror.result.result_error_field(PG::PG_DIAG_SQLSTATE) == FEATURE_NOT_SUPPORTED && pgerror.result.result_error_field(PG::PG_DIAG_SOURCE_FUNCTION) == "RevalidateCachedQuery" rescue false end def in_transaction? open_transactions > 0 end # Returns the statement identifier for the client side cache # of statements def sql_key(sql) "#{schema_search_path}-#{sql}" end # Prepare the statement if it hasn't been prepared, return # the statement key. def prepare_statement(sql, binds) @lock.synchronize do sql_key = sql_key(sql) unless @statements.key? sql_key nextkey = @statements.next_key begin @connection.prepare nextkey, sql rescue => e raise translate_exception_class(e, sql, binds) end # Clear the queue @connection.get_last_result @statements[sql_key] = nextkey end @statements[sql_key] end end # Connects to a PostgreSQL server and sets up the adapter depending on the # connected server's characteristics. def connect @connection = self.class.new_client(@connection_parameters) configure_connection add_pg_encoders add_pg_decoders end # Configures the encoding, verbosity, schema search path, and time zone of the connection. # This is called by #connect and should not be called manually. def configure_connection if @config[:encoding] @connection.set_client_encoding(@config[:encoding]) end self.client_min_messages = @config[:min_messages] || "warning" self.schema_search_path = @config[:schema_search_path] || @config[:schema_order] # Use standard-conforming strings so we don't have to do the E'...' dance. set_standard_conforming_strings variables = @config.fetch(:variables, {}).stringify_keys # If using Active Record's time zone support configure the connection to return # TIMESTAMP WITH ZONE types in UTC. unless variables["timezone"] if ActiveRecord.default_timezone == :utc variables["timezone"] = "UTC" elsif @local_tz variables["timezone"] = @local_tz end end # Set interval output format to ISO 8601 for ease of parsing by ActiveSupport::Duration.parse execute("SET intervalstyle = iso_8601", "SCHEMA") # SET statements from :variables config hash # https://www.postgresql.org/docs/current/static/sql-set.html variables.map do |k, v| if v == ":default" || v == :default # Sets the value to the global or compile default execute("SET SESSION #{k} TO DEFAULT", "SCHEMA") elsif !v.nil? execute("SET SESSION #{k} TO #{quote(v)}", "SCHEMA") end end end # Returns the list of a table's column names, data types, and default values. # # The underlying query is roughly: # SELECT column.name, column.type, default.value, column.comment # FROM column LEFT JOIN default # ON column.table_id = default.table_id # AND column.num = default.column_num # WHERE column.table_id = get_table_id('table_name') # AND column.num > 0 # AND NOT column.is_dropped # ORDER BY column.num # # If the table name is not prefixed with a schema, the database will # take the first match from the schema search path. # # Query implementation notes: # - format_type includes the column size constraint, e.g. varchar(50) # - ::regclass is a function that gives the id for a table name def column_definitions(table_name) query(<<~SQL, "SCHEMA") SELECT a.attname, format_type(a.atttypid, a.atttypmod), pg_get_expr(d.adbin, d.adrelid), a.attnotnull, a.atttypid, a.atttypmod, c.collname, col_description(a.attrelid, a.attnum) AS comment FROM pg_attribute a LEFT JOIN pg_attrdef d ON a.attrelid = d.adrelid AND a.attnum = d.adnum LEFT JOIN pg_type t ON a.atttypid = t.oid LEFT JOIN pg_collation c ON a.attcollation = c.oid AND a.attcollation <> t.typcollation WHERE a.attrelid = #{quote(quote_table_name(table_name))}::regclass AND a.attnum > 0 AND NOT a.attisdropped ORDER BY a.attnum SQL end def extract_table_ref_from_insert_sql(sql) sql[/into\s("[A-Za-z0-9_."\[\]\s]+"|[A-Za-z0-9_."\[\]]+)\s*/im] $1.strip if $1 end def arel_visitor Arel::Visitors::PostgreSQL.new(self) end def build_statement_pool StatementPool.new(@connection, self.class.type_cast_config_to_integer(@config[:statement_limit])) end def can_perform_case_insensitive_comparison_for?(column) @case_insensitive_cache ||= {} @case_insensitive_cache[column.sql_type] ||= begin sql = <<~SQL SELECT exists( SELECT * FROM pg_proc WHERE proname = 'lower' AND proargtypes = ARRAY[#{quote column.sql_type}::regtype]::oidvector ) OR exists( SELECT * FROM pg_proc INNER JOIN pg_cast ON ARRAY[casttarget]::oidvector = proargtypes WHERE proname = 'lower' AND castsource = #{quote column.sql_type}::regtype ) SQL execute_and_clear(sql, "SCHEMA", []) do |result| result.getvalue(0, 0) end end end def add_pg_encoders map = PG::TypeMapByClass.new map[Integer] = PG::TextEncoder::Integer.new map[TrueClass] = PG::TextEncoder::Boolean.new map[FalseClass] = PG::TextEncoder::Boolean.new @connection.type_map_for_queries = map end def update_typemap_for_default_timezone if @default_timezone != ActiveRecord.default_timezone && @timestamp_decoder decoder_class = ActiveRecord.default_timezone == :utc ? PG::TextDecoder::TimestampUtc : PG::TextDecoder::TimestampWithoutTimeZone @timestamp_decoder = decoder_class.new(@timestamp_decoder.to_h) @connection.type_map_for_results.add_coder(@timestamp_decoder) @default_timezone = ActiveRecord.default_timezone # if default timezone has changed, we need to reconfigure the connection # (specifically, the session time zone) configure_connection end end def add_pg_decoders @default_timezone = nil @timestamp_decoder = nil coders_by_name = { "int2" => PG::TextDecoder::Integer, "int4" => PG::TextDecoder::Integer, "int8" => PG::TextDecoder::Integer, "oid" => PG::TextDecoder::Integer, "float4" => PG::TextDecoder::Float, "float8" => PG::TextDecoder::Float, "numeric" => PG::TextDecoder::Numeric, "bool" => PG::TextDecoder::Boolean, "timestamp" => PG::TextDecoder::TimestampUtc, "timestamptz" => PG::TextDecoder::TimestampWithTimeZone, } known_coder_types = coders_by_name.keys.map { |n| quote(n) } query = <<~SQL % known_coder_types.join(", ") SELECT t.oid, t.typname FROM pg_type as t WHERE t.typname IN (%s) SQL coders = execute_and_clear(query, "SCHEMA", []) do |result| result.filter_map { |row| construct_coder(row, coders_by_name[row["typname"]]) } end map = PG::TypeMapByOid.new coders.each { |coder| map.add_coder(coder) } @connection.type_map_for_results = map @type_map_for_results = PG::TypeMapByOid.new @type_map_for_results.default_type_map = map @type_map_for_results.add_coder(PG::TextDecoder::Bytea.new(oid: 17, name: "bytea")) @type_map_for_results.add_coder(MoneyDecoder.new(oid: 790, name: "money")) # extract timestamp decoder for use in update_typemap_for_default_timezone @timestamp_decoder = coders.find { |coder| coder.name == "timestamp" } update_typemap_for_default_timezone end def construct_coder(row, coder_class) return unless coder_class coder_class.new(oid: row["oid"].to_i, name: row["typname"]) end class MoneyDecoder < PG::SimpleDecoder # :nodoc: TYPE = OID::Money.new def decode(value, tuple = nil, field = nil) TYPE.deserialize(value) end end ActiveRecord::Type.add_modifier({ array: true }, OID::Array, adapter: :postgresql) ActiveRecord::Type.add_modifier({ range: true }, OID::Range, adapter: :postgresql) ActiveRecord::Type.register(:bit, OID::Bit, adapter: :postgresql) ActiveRecord::Type.register(:bit_varying, OID::BitVarying, adapter: :postgresql) ActiveRecord::Type.register(:binary, OID::Bytea, adapter: :postgresql) ActiveRecord::Type.register(:cidr, OID::Cidr, adapter: :postgresql) ActiveRecord::Type.register(:date, OID::Date, adapter: :postgresql) ActiveRecord::Type.register(:datetime, OID::DateTime, adapter: :postgresql) ActiveRecord::Type.register(:decimal, OID::Decimal, adapter: :postgresql) ActiveRecord::Type.register(:enum, OID::Enum, adapter: :postgresql) ActiveRecord::Type.register(:hstore, OID::Hstore, adapter: :postgresql) ActiveRecord::Type.register(:inet, OID::Inet, adapter: :postgresql) ActiveRecord::Type.register(:interval, OID::Interval, adapter: :postgresql) ActiveRecord::Type.register(:jsonb, OID::Jsonb, adapter: :postgresql) ActiveRecord::Type.register(:money, OID::Money, adapter: :postgresql) ActiveRecord::Type.register(:point, OID::Point, adapter: :postgresql) ActiveRecord::Type.register(:legacy_point, OID::LegacyPoint, adapter: :postgresql) ActiveRecord::Type.register(:uuid, OID::Uuid, adapter: :postgresql) ActiveRecord::Type.register(:vector, OID::Vector, adapter: :postgresql) ActiveRecord::Type.register(:xml, OID::Xml, adapter: :postgresql) end end end