# -*- ruby -*- # frozen_string_literal: true require 'pg' unless defined?( PG ) require 'uri' require 'io/wait' require 'socket' # The PostgreSQL connection class. The interface for this class is based on # {libpq}[http://www.postgresql.org/docs/current/libpq.html], the C # application programmer's interface to PostgreSQL. Some familiarity with libpq # is recommended, but not necessary. # # For example, to send query to the database on the localhost: # # require 'pg' # conn = PG::Connection.open(:dbname => 'test') # res = conn.exec_params('SELECT $1 AS a, $2 AS b, $3 AS c', [1, 2, nil]) # # Equivalent to: # # res = conn.exec('SELECT 1 AS a, 2 AS b, NULL AS c') # # See the PG::Result class for information on working with the results of a query. # # Many methods of this class have three variants kind of: # 1. #exec - the base method which is an alias to #async_exec . # This is the method that should be used in general. # 2. #async_exec - the async aware version of the method, implemented by libpq's async API. # 3. #sync_exec - the method version that is implemented by blocking function(s) of libpq. # # Sync and async version of the method can be switched by Connection.async_api= , however it is not recommended to change the default. class PG::Connection # The order the options are passed to the ::connect method. CONNECT_ARGUMENT_ORDER = %w[host port options tty dbname user password] ### Quote a single +value+ for use in a connection-parameter string. def self.quote_connstr( value ) return "'" + value.to_s.gsub( /[\\']/ ) {|m| '\\' + m } + "'" end # Convert Hash options to connection String # # Values are properly quoted and escaped. def self.connect_hash_to_string( hash ) hash.map { |k,v| "#{k}=#{quote_connstr(v)}" }.join( ' ' ) end # Decode a connection string to Hash options # # Value are properly unquoted and unescaped. def self.connect_string_to_hash( str ) options = {} key = nil value = String.new str.scan(/\G\s*(?>([^\s\\\']+)\s*=\s*|([^\s\\\']+)|'((?:[^\'\\]|\\.)*)'|(\\.?)|(\S))(\s|\z)?/m) do |k, word, sq, esc, garbage, sep| raise ArgumentError, "unterminated quoted string in connection info string: #{str.inspect}" if garbage if k key = k else value << (word || (sq || esc).gsub(/\\(.)/, '\\1')) end if sep raise ArgumentError, "missing = after #{value.inspect}" unless key options[key.to_sym] = value key = nil value = String.new end end options end # URI defined in RFC3986 # This regexp is modified to allow host to specify multiple comma separated components captured as and to disallow comma in hostnames. # Taken from: https://github.com/ruby/ruby/blob/be04006c7d2f9aeb7e9d8d09d945b3a9c7850202/lib/uri/rfc3986_parser.rb#L6 HOST_AND_PORT = /(?(?(?\[(?:(?(?:\h{1,4}:){6}(?\h{1,4}:\h{1,4}|(?(?[1-9]\d|1\d{2}|2[0-4]\d|25[0-5]|\d)\.\g\.\g\.\g))|::(?:\h{1,4}:){5}\g|\h{1,4}?::(?:\h{1,4}:){4}\g|(?:(?:\h{1,4}:)?\h{1,4})?::(?:\h{1,4}:){3}\g|(?:(?:\h{1,4}:){,2}\h{1,4})?::(?:\h{1,4}:){2}\g|(?:(?:\h{1,4}:){,3}\h{1,4})?::\h{1,4}:\g|(?:(?:\h{1,4}:){,4}\h{1,4})?::\g|(?:(?:\h{1,4}:){,5}\h{1,4})?::\h{1,4}|(?:(?:\h{1,4}:){,6}\h{1,4})?::)|(?v\h+\.[!$&-.0-;=A-Z_a-z~]+))\])|\g|(?(?:%\h\h|[-\.!$&-+0-9;=A-Z_a-z~])+))?(?::(?\d*))?)/ POSTGRESQL_URI = /\A(?(?[A-Za-z][+\-.0-9A-Za-z]*):(?\/\/(?(?:(?(?:%\h\h|[!$&-.0-;=A-Z_a-z~])*)@)?(?#{HOST_AND_PORT}(?:,\g)*))(?(?:\/(?(?:%\h\h|[!$&-.0-;=@-Z_a-z~])*))*)|(?\/(?:(?(?:%\h\h|[!$&-.0-;=@-Z_a-z~])+)(?:\/\g)*)?)|(?\g(?:\/\g)*)|(?))(?:\?(?[^#]*))?(?:\#(?(?:%\h\h|[!$&-.0-;=@-Z_a-z~\/?])*))?)\z/ # Parse the connection +args+ into a connection-parameter string. # See PG::Connection.new for valid arguments. # # It accepts: # * an option String kind of "host=name port=5432" # * an option Hash kind of {host: "name", port: 5432} # * URI string # * URI object # * positional arguments # # The method adds the option "hostaddr" and "fallback_application_name" if they aren't already set. # The URI and the options string is passed through and "hostaddr" as well as "fallback_application_name" # are added to the end. def self::parse_connect_args( *args ) hash_arg = args.last.is_a?( Hash ) ? args.pop.transform_keys(&:to_sym) : {} option_string = "" iopts = {} if args.length == 1 case args.first when URI, POSTGRESQL_URI uri = args.first.to_s uri_match = POSTGRESQL_URI.match(uri) if uri_match['query'] iopts = URI.decode_www_form(uri_match['query']).to_h.transform_keys(&:to_sym) end # extract "host1,host2" from "host1:5432,host2:5432" iopts[:host] = uri_match['hostports'].split(',', -1).map do |hostport| hostmatch = /\A#{HOST_AND_PORT}\z/.match(hostport) hostmatch['IPv6address'] || hostmatch['IPv4address'] || hostmatch['reg-name']&.gsub(/%(\h\h)/){ $1.hex.chr } end.join(',') oopts = {} when /=/ # Option string style option_string = args.first.to_s iopts = connect_string_to_hash(option_string) oopts = {} else # Positional parameters (only host given) iopts[CONNECT_ARGUMENT_ORDER.first.to_sym] = args.first oopts = iopts.dup end else # Positional parameters max = CONNECT_ARGUMENT_ORDER.length raise ArgumentError, "Extra positional parameter %d: %p" % [ max + 1, args[max] ] if args.length > max CONNECT_ARGUMENT_ORDER.zip( args ) do |(k,v)| iopts[ k.to_sym ] = v if v end iopts.delete(:tty) # ignore obsolete tty parameter oopts = iopts.dup end iopts.merge!( hash_arg ) oopts.merge!( hash_arg ) # Resolve DNS in Ruby to avoid blocking state while connecting, when it ... if (host=iopts[:host]) && !iopts[:hostaddr] hostaddrs = host.split(",", -1).map do |mhost| if !mhost.empty? && !mhost.start_with?("/") && # isn't UnixSocket # isn't a path on Windows (RUBY_PLATFORM !~ /mingw|mswin/ || mhost !~ /\A\w:[\/\\]/) if Fiber.respond_to?(:scheduler) && Fiber.scheduler && RUBY_VERSION < '3.1.' # Use a second thread to avoid blocking of the scheduler. # `IPSocket.getaddress` isn't fiber aware before ruby-3.1. Thread.new{ IPSocket.getaddress(mhost) rescue '' }.value else IPSocket.getaddress(mhost) rescue '' end end end oopts[:hostaddr] = hostaddrs.join(",") if hostaddrs.any? end if !iopts[:fallback_application_name] oopts[:fallback_application_name] = $0.sub( /^(.{30}).{4,}(.{30})$/ ){ $1+"..."+$2 } end if uri uri += uri_match['query'] ? "&" : "?" uri += URI.encode_www_form( oopts ) return uri else option_string += ' ' unless option_string.empty? && oopts.empty? return option_string + connect_hash_to_string(oopts) end end # call-seq: # conn.copy_data( sql [, coder] ) {|sql_result| ... } -> PG::Result # # Execute a copy process for transferring data to or from the server. # # This issues the SQL COPY command via #exec. The response to this # (if there is no error in the command) is a PG::Result object that # is passed to the block, bearing a status code of PGRES_COPY_OUT or # PGRES_COPY_IN (depending on the specified copy direction). # The application should then use #put_copy_data or #get_copy_data # to receive or transmit data rows and should return from the block # when finished. # # #copy_data returns another PG::Result object when the data transfer # is complete. An exception is raised if some problem was encountered, # so it isn't required to make use of any of them. # At this point further SQL commands can be issued via #exec. # (It is not possible to execute other SQL commands using the same # connection while the COPY operation is in progress.) # # This method ensures, that the copy process is properly terminated # in case of client side or server side failures. Therefore, in case # of blocking mode of operation, #copy_data is preferred to raw calls # of #put_copy_data, #get_copy_data and #put_copy_end. # # _coder_ can be a PG::Coder derivation # (typically PG::TextEncoder::CopyRow or PG::TextDecoder::CopyRow). # This enables encoding of data fields given to #put_copy_data # or decoding of fields received by #get_copy_data. # # Example with CSV input format: # conn.exec "create table my_table (a text,b text,c text,d text)" # conn.copy_data "COPY my_table FROM STDIN CSV" do # conn.put_copy_data "some,data,to,copy\n" # conn.put_copy_data "more,data,to,copy\n" # end # This creates +my_table+ and inserts two CSV rows. # # The same with text format encoder PG::TextEncoder::CopyRow # and Array input: # enco = PG::TextEncoder::CopyRow.new # conn.copy_data "COPY my_table FROM STDIN", enco do # conn.put_copy_data ['some', 'data', 'to', 'copy'] # conn.put_copy_data ['more', 'data', 'to', 'copy'] # end # # Example with CSV output format: # conn.copy_data "COPY my_table TO STDOUT CSV" do # while row=conn.get_copy_data # p row # end # end # This prints all rows of +my_table+ to stdout: # "some,data,to,copy\n" # "more,data,to,copy\n" # # The same with text format decoder PG::TextDecoder::CopyRow # and Array output: # deco = PG::TextDecoder::CopyRow.new # conn.copy_data "COPY my_table TO STDOUT", deco do # while row=conn.get_copy_data # p row # end # end # This receives all rows of +my_table+ as ruby array: # ["some", "data", "to", "copy"] # ["more", "data", "to", "copy"] def copy_data( sql, coder=nil ) raise PG::NotInBlockingMode, "copy_data can not be used in nonblocking mode" if nonblocking? res = exec( sql ) case res.result_status when PGRES_COPY_IN begin if coder old_coder = self.encoder_for_put_copy_data self.encoder_for_put_copy_data = coder end yield res rescue Exception => err errmsg = "%s while copy data: %s" % [ err.class.name, err.message ] put_copy_end( errmsg ) get_result raise else put_copy_end get_last_result ensure self.encoder_for_put_copy_data = old_coder if coder end when PGRES_COPY_OUT begin if coder old_coder = self.decoder_for_get_copy_data self.decoder_for_get_copy_data = coder end yield res rescue Exception => err cancel while get_copy_data end while get_result end raise else res = get_last_result if !res || res.result_status != PGRES_COMMAND_OK while get_copy_data end while get_result end raise PG::NotAllCopyDataRetrieved, "Not all COPY data retrieved" end res ensure self.decoder_for_get_copy_data = old_coder if coder end else raise ArgumentError, "SQL command is no COPY statement: #{sql}" end end # Backward-compatibility aliases for stuff that's moved into PG. class << self define_method( :isthreadsafe, &PG.method(:isthreadsafe) ) end # # call-seq: # conn.transaction { |conn| ... } -> result of the block # # Executes a +BEGIN+ at the start of the block, # and a +COMMIT+ at the end of the block, or # +ROLLBACK+ if any exception occurs. def transaction exec "BEGIN" res = yield(self) rescue Exception cancel if transaction_status == PG::PQTRANS_ACTIVE block exec "ROLLBACK" raise else exec "COMMIT" res end ### Returns an array of Hashes with connection defaults. See ::conndefaults ### for details. def conndefaults return self.class.conndefaults end ### Return the Postgres connection defaults structure as a Hash keyed by option ### keyword (as a Symbol). ### ### See also #conndefaults def self.conndefaults_hash return self.conndefaults.each_with_object({}) do |info, hash| hash[ info[:keyword].to_sym ] = info[:val] end end ### Returns a Hash with connection defaults. See ::conndefaults_hash ### for details. def conndefaults_hash return self.class.conndefaults_hash end ### Return the Postgres connection info structure as a Hash keyed by option ### keyword (as a Symbol). ### ### See also #conninfo def conninfo_hash return self.conninfo.each_with_object({}) do |info, hash| hash[ info[:keyword].to_sym ] = info[:val] end end # Method 'ssl_attribute' was introduced in PostgreSQL 9.5. if self.instance_methods.find{|m| m.to_sym == :ssl_attribute } # call-seq: # conn.ssl_attributes -> Hash # # Returns SSL-related information about the connection as key/value pairs # # The available attributes varies depending on the SSL library being used, # and the type of connection. # # See also #ssl_attribute def ssl_attributes ssl_attribute_names.each.with_object({}) do |n,h| h[n] = ssl_attribute(n) end end end # call-seq: # conn.get_result() -> PG::Result # conn.get_result() {|pg_result| block } # # Blocks waiting for the next result from a call to # #send_query (or another asynchronous command), and returns # it. Returns +nil+ if no more results are available. # # Note: call this function repeatedly until it returns +nil+, or else # you will not be able to issue further commands. # # If the optional code block is given, it will be passed result as an argument, # and the PG::Result object will automatically be cleared when the block terminates. # In this instance, conn.exec returns the value of the block. def get_result block sync_get_result end alias async_get_result get_result # call-seq: # conn.get_copy_data( [ nonblock = false [, decoder = nil ]] ) -> Object # # Return one row of data, +nil+ # if the copy is done, or +false+ if the call would # block (only possible if _nonblock_ is true). # # If _decoder_ is not set or +nil+, data is returned as binary string. # # If _decoder_ is set to a PG::Coder derivation, the return type depends on this decoder. # PG::TextDecoder::CopyRow decodes the received data fields from one row of PostgreSQL's # COPY text format to an Array of Strings. # Optionally the decoder can type cast the single fields to various Ruby types in one step, # if PG::TextDecoder::CopyRow#type_map is set accordingly. # # See also #copy_data. # def get_copy_data(async=false, decoder=nil) if async return sync_get_copy_data(async, decoder) else while (res=sync_get_copy_data(true, decoder)) == false socket_io.wait_readable consume_input end return res end end alias async_get_copy_data get_copy_data # In async_api=true mode (default) all send calls run nonblocking. # The difference is that setnonblocking(true) disables automatic handling of would-block cases. # In async_api=false mode all send calls run directly on libpq. # Blocking vs. nonblocking state can be changed in libpq. # call-seq: # conn.setnonblocking(Boolean) -> nil # # Sets the nonblocking status of the connection. # In the blocking state, calls to #send_query # will block until the message is sent to the server, # but will not wait for the query results. # In the nonblocking state, calls to #send_query # will return an error if the socket is not ready for # writing. # Note: This function does not affect #exec, because # that function doesn't return until the server has # processed the query and returned the results. # # Returns +nil+. def setnonblocking(enabled) singleton_class.async_send_api = !enabled self.flush_data = !enabled sync_setnonblocking(true) end alias async_setnonblocking setnonblocking # sync/async isnonblocking methods are switched by async_setnonblocking() # call-seq: # conn.isnonblocking() -> Boolean # # Returns the blocking status of the database connection. # Returns +true+ if the connection is set to nonblocking mode and +false+ if blocking. def isnonblocking false end alias async_isnonblocking isnonblocking alias nonblocking? isnonblocking # call-seq: # conn.put_copy_data( buffer [, encoder] ) -> Boolean # # Transmits _buffer_ as copy data to the server. # Returns true if the data was sent, false if it was # not sent (false is only possible if the connection # is in nonblocking mode, and this command would block). # # _encoder_ can be a PG::Coder derivation (typically PG::TextEncoder::CopyRow). # This encodes the data fields given as _buffer_ from an Array of Strings to # PostgreSQL's COPY text format inclusive proper escaping. Optionally # the encoder can type cast the fields from various Ruby types in one step, # if PG::TextEncoder::CopyRow#type_map is set accordingly. # # Raises an exception if an error occurs. # # See also #copy_data. # def put_copy_data(buffer, encoder=nil) until sync_put_copy_data(buffer, encoder) flush end flush end alias async_put_copy_data put_copy_data # call-seq: # conn.put_copy_end( [ error_message ] ) -> Boolean # # Sends end-of-data indication to the server. # # _error_message_ is an optional parameter, and if set, # forces the COPY command to fail with the string # _error_message_. # # Returns true if the end-of-data was sent, #false* if it was # not sent (*false* is only possible if the connection # is in nonblocking mode, and this command would block). def put_copy_end(*args) until sync_put_copy_end(*args) flush end flush end alias async_put_copy_end put_copy_end if method_defined? :sync_encrypt_password # call-seq: # conn.encrypt_password( password, username, algorithm=nil ) -> String # # This function is intended to be used by client applications that wish to send commands like ALTER USER joe PASSWORD 'pwd'. # It is good practice not to send the original cleartext password in such a command, because it might be exposed in command logs, activity displays, and so on. # Instead, use this function to convert the password to encrypted form before it is sent. # # The +password+ and +username+ arguments are the cleartext password, and the SQL name of the user it is for. # +algorithm+ specifies the encryption algorithm to use to encrypt the password. # Currently supported algorithms are +md5+ and +scram-sha-256+ (+on+ and +off+ are also accepted as aliases for +md5+, for compatibility with older server versions). # Note that support for +scram-sha-256+ was introduced in PostgreSQL version 10, and will not work correctly with older server versions. # If algorithm is omitted or +nil+, this function will query the server for the current value of the +password_encryption+ setting. # That can block, and will fail if the current transaction is aborted, or if the connection is busy executing another query. # If you wish to use the default algorithm for the server but want to avoid blocking, query +password_encryption+ yourself before calling #encrypt_password, and pass that value as the algorithm. # # Return value is the encrypted password. # The caller can assume the string doesn't contain any special characters that would require escaping. # # Available since PostgreSQL-10. # See also corresponding {libpq function}[https://www.postgresql.org/docs/current/libpq-misc.html#LIBPQ-PQENCRYPTPASSWORDCONN]. def encrypt_password( password, username, algorithm=nil ) algorithm ||= exec("SHOW password_encryption").getvalue(0,0) sync_encrypt_password(password, username, algorithm) end alias async_encrypt_password encrypt_password end # call-seq: # conn.reset() # # Resets the backend connection. This method closes the # backend connection and tries to re-connect. def reset reset_start async_connect_or_reset(:reset_poll) end alias async_reset reset # call-seq: # conn.cancel() -> String # # Requests cancellation of the command currently being # processed. # # Returns +nil+ on success, or a string containing the # error message if a failure occurs. def cancel be_pid = backend_pid be_key = backend_key cancel_request = [0x10, 1234, 5678, be_pid, be_key].pack("NnnNN") if Fiber.respond_to?(:scheduler) && Fiber.scheduler && RUBY_PLATFORM =~ /mingw|mswin/ # Ruby's nonblocking IO is not really supported on Windows. # We work around by using threads and explicit calls to wait_readable/wait_writable. cl = Thread.new(socket_io.remote_address) { |ra| ra.connect }.value begin cl.write_nonblock(cancel_request) rescue IO::WaitReadable, Errno::EINTR cl.wait_writable retry end begin cl.read_nonblock(1) rescue IO::WaitReadable, Errno::EINTR cl.wait_readable retry rescue EOFError end elsif RUBY_ENGINE == 'truffleruby' begin cl = socket_io.remote_address.connect rescue NotImplementedError # Workaround for truffleruby < 21.3.0 cl2 = Socket.for_fd(socket_io.fileno) cl2.autoclose = false adr = cl2.remote_address if adr.ip? cl = TCPSocket.new(adr.ip_address, adr.ip_port) cl.autoclose = false else cl = UNIXSocket.new(adr.unix_path) cl.autoclose = false end end cl.write(cancel_request) cl.read(1) else cl = socket_io.remote_address.connect # Send CANCEL_REQUEST_CODE and parameters cl.write(cancel_request) # Wait for the postmaster to close the connection, which indicates that it's processed the request. cl.read(1) end cl.close nil rescue SystemCallError => err err.to_s end alias async_cancel cancel private def async_connect_or_reset(poll_meth) # Now grab a reference to the underlying socket so we know when the connection is established socket = socket_io # Track the progress of the connection, waiting for the socket to become readable/writable before polling it poll_status = PG::PGRES_POLLING_WRITING until poll_status == PG::PGRES_POLLING_OK || poll_status == PG::PGRES_POLLING_FAILED # If the socket needs to read, wait 'til it becomes readable to poll again case poll_status when PG::PGRES_POLLING_READING socket.wait_readable # ...and the same for when the socket needs to write when PG::PGRES_POLLING_WRITING socket.wait_writable end # Check to see if it's finished or failed yet poll_status = send( poll_meth ) end raise(PG::ConnectionBad, error_message) unless status == PG::CONNECTION_OK # Set connection to nonblocking to handle all blocking states in ruby. # That way a fiber scheduler is able to handle IO requests. sync_setnonblocking(true) self.flush_data = true set_default_encoding self end class << self # call-seq: # PG::Connection.new -> conn # PG::Connection.new(connection_hash) -> conn # PG::Connection.new(connection_string) -> conn # PG::Connection.new(host, port, options, tty, dbname, user, password) -> conn # # Create a connection to the specified server. # # +connection_hash+ must be a ruby Hash with connection parameters. # See the {list of valid parameters}[https://www.postgresql.org/docs/current/libpq-connect.html#LIBPQ-PARAMKEYWORDS] in the PostgreSQL documentation. # # There are two accepted formats for +connection_string+: plain keyword = value strings and URIs. # See the documentation of {connection strings}[https://www.postgresql.org/docs/current/libpq-connect.html#LIBPQ-CONNSTRING]. # # The positional parameter form has the same functionality except that the missing parameters will always take on default values. The parameters are: # [+host+] # server hostname # [+port+] # server port number # [+options+] # backend options # [+tty+] # (ignored in all versions of PostgreSQL) # [+dbname+] # connecting database name # [+user+] # login user name # [+password+] # login password # # Examples: # # # Connect using all defaults # PG::Connection.new # # # As a Hash # PG::Connection.new( dbname: 'test', port: 5432 ) # # # As a String # PG::Connection.new( "dbname=test port=5432" ) # # # As an Array # PG::Connection.new( nil, 5432, nil, nil, 'test', nil, nil ) # # # As an URI # PG::Connection.new( "postgresql://user:pass@pgsql.example.com:5432/testdb?sslmode=require" ) # # If the Ruby default internal encoding is set (i.e., Encoding.default_internal != nil), the # connection will have its +client_encoding+ set accordingly. # # Raises a PG::Error if the connection fails. def new(*args, **kwargs) conn = self.connect_start(*args, **kwargs ) or raise(PG::Error, "Unable to create a new connection") raise(PG::ConnectionBad, conn.error_message) if conn.status == PG::CONNECTION_BAD conn.send(:async_connect_or_reset, :connect_poll) end alias async_connect new alias connect new alias open new alias setdb new alias setdblogin new # call-seq: # PG::Connection.ping(connection_hash) -> Integer # PG::Connection.ping(connection_string) -> Integer # PG::Connection.ping(host, port, options, tty, dbname, login, password) -> Integer # # Check server status. # # See PG::Connection.new for a description of the parameters. # # Returns one of: # [+PQPING_OK+] # server is accepting connections # [+PQPING_REJECT+] # server is alive but rejecting connections # [+PQPING_NO_RESPONSE+] # could not establish connection # [+PQPING_NO_ATTEMPT+] # connection not attempted (bad params) def ping(*args) if Fiber.respond_to?(:scheduler) && Fiber.scheduler # Run PQping in a second thread to avoid blocking of the scheduler. # Unfortunately there's no nonblocking way to run ping. Thread.new { sync_ping(*args) }.value else sync_ping(*args) end end alias async_ping ping REDIRECT_CLASS_METHODS = { :new => [:async_connect, :sync_connect], :connect => [:async_connect, :sync_connect], :open => [:async_connect, :sync_connect], :setdb => [:async_connect, :sync_connect], :setdblogin => [:async_connect, :sync_connect], :ping => [:async_ping, :sync_ping], } # These methods are affected by PQsetnonblocking REDIRECT_SEND_METHODS = { :isnonblocking => [:async_isnonblocking, :sync_isnonblocking], :nonblocking? => [:async_isnonblocking, :sync_isnonblocking], :put_copy_data => [:async_put_copy_data, :sync_put_copy_data], :put_copy_end => [:async_put_copy_end, :sync_put_copy_end], :flush => [:async_flush, :sync_flush], } REDIRECT_METHODS = { :exec => [:async_exec, :sync_exec], :query => [:async_exec, :sync_exec], :exec_params => [:async_exec_params, :sync_exec_params], :prepare => [:async_prepare, :sync_prepare], :exec_prepared => [:async_exec_prepared, :sync_exec_prepared], :describe_portal => [:async_describe_portal, :sync_describe_portal], :describe_prepared => [:async_describe_prepared, :sync_describe_prepared], :setnonblocking => [:async_setnonblocking, :sync_setnonblocking], :get_result => [:async_get_result, :sync_get_result], :get_last_result => [:async_get_last_result, :sync_get_last_result], :get_copy_data => [:async_get_copy_data, :sync_get_copy_data], :reset => [:async_reset, :sync_reset], :set_client_encoding => [:async_set_client_encoding, :sync_set_client_encoding], :client_encoding= => [:async_set_client_encoding, :sync_set_client_encoding], :cancel => [:async_cancel, :sync_cancel], } if PG::Connection.instance_methods.include? :async_encrypt_password REDIRECT_METHODS.merge!({ :encrypt_password => [:async_encrypt_password, :sync_encrypt_password], }) end def async_send_api=(enable) REDIRECT_SEND_METHODS.each do |ali, (async, sync)| undef_method(ali) if method_defined?(ali) alias_method( ali, enable ? async : sync ) end end # Switch between sync and async libpq API. # # PG::Connection.async_api = true # this is the default. # It sets an alias from #exec to #async_exec, #reset to #async_reset and so on. # # PG::Connection.async_api = false # sets an alias from #exec to #sync_exec, #reset to #sync_reset and so on. # # pg-1.1.0+ defaults to libpq's async API for query related blocking methods. # pg-1.3.0+ defaults to libpq's async API for all possibly blocking methods. # # _PLEASE_ _NOTE_: This method is not part of the public API and is for debug and development use only. # Do not use this method in production code. # Any issues with the default setting of async_api=true should be reported to the maintainers instead. # def async_api=(enable) self.async_send_api = enable REDIRECT_METHODS.each do |ali, (async, sync)| remove_method(ali) if method_defined?(ali) alias_method( ali, enable ? async : sync ) end REDIRECT_CLASS_METHODS.each do |ali, (async, sync)| singleton_class.remove_method(ali) if method_defined?(ali) singleton_class.alias_method(ali, enable ? async : sync ) end end end self.async_api = true end # class PG::Connection