# encoding: UTF-8 # -- # Copyright (C) 2008-2011 10gen Inc. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # ++ module Mongo # Instantiates and manages connections to a MongoDB replica set. class ReplSetConnection < Connection REPL_SET_OPTS = [:read, :refresh_mode, :refresh_interval, :require_primary, :read_secondary, :rs_name, :name] attr_reader :replica_set_name, :seeds, :refresh_interval, :refresh_mode, :refresh_version, :manager # Create a connection to a MongoDB replica set. # # Once connected to a replica set, you can find out which nodes are primary, secondary, and # arbiters with the corresponding accessors: Connection#primary, Connection#secondaries, and # Connection#arbiters. This is useful if your application needs to connect manually to nodes other # than the primary. # # @param [Array] seeds "host:port" strings # # @option opts [String] :name (nil) The name of the replica set to connect to. You # can use this option to verify that you're connecting to the right replica set. # @option opts [Boolean, Hash] :safe (false) Set the default safe-mode options # propogated to DB objects instantiated off of this Connection. This # default can be overridden upon instantiation of any DB by explicity setting a :safe value # on initialization. # @option opts [:primary, :secondary] :read (:primary) The default read preference for Mongo::DB # objects created from this connection object. If +:secondary+ is chosen, reads will be sent # to one of the closest available secondary nodes. If a secondary node cannot be located, the # read will be sent to the primary. # @option opts [Logger] :logger (nil) Logger instance to receive driver operation log. # @option opts [Integer] :pool_size (1) The maximum number of socket connections allowed per # connection pool. Note: this setting is relevant only for multi-threaded applications. # @option opts [Float] :pool_timeout (5.0) When all of the connections a pool are checked out, # this is the number of seconds to wait for a new connection to be released before throwing an exception. # Note: this setting is relevant only for multi-threaded applications. # @option opts [Float] :op_timeout (nil) The number of seconds to wait for a read operation to time out. # @option opts [Float] :connect_timeout (30) The number of seconds to wait before timing out a # connection attempt. # @option opts [Boolean] :ssl (false) If true, create the connection to the server using SSL. # @option opts [Boolean] :refresh_mode (false) Set this to :sync to periodically update the # state of the connection every :refresh_interval seconds. Replica set connection failures # will always trigger a complete refresh. This option is useful when you want to add new nodes # or remove replica set nodes not currently in use by the driver. # @option opts [Integer] :refresh_interval (90) If :refresh_mode is enabled, this is the number of seconds # between calls to check the replica set's state. # @option opts [Boolean] :require_primary (true) If true, require a primary node for the connection # to succeed. Otherwise, connection will succeed as long as there's at least one secondary node. # Note: that the number of seed nodes does not have to be equal to the number of replica set members. # The purpose of seed nodes is to permit the driver to find at least one replica set member even if a member is down. # # @example Connect to a replica set and provide two seed nodes. # Mongo::ReplSetConnection.new(['localhost:30000', 'localhost:30001']) # # @example Connect to a replica set providing two seed nodes and ensuring a connection to the replica set named 'prod': # Mongo::ReplSetConnection.new(['localhost:30000', 'localhost:30001'], :name => 'prod') # # @example Connect to a replica set providing two seed nodes and allowing reads from a secondary node: # Mongo::ReplSetConnection.new(['localhost:30000', 'localhost:30001'], :read => :secondary) # # @see http://api.mongodb.org/ruby/current/file.REPLICA_SETS.html Replica sets in Ruby # # @raise [ReplicaSetConnectionError] This is raised if a replica set name is specified and the # driver fails to connect to a replica set with that name. def initialize(*args) if args.last.is_a?(Hash) opts = args.pop else opts = {} end unless args.length > 0 raise MongoArgumentError, "A ReplSetConnection requires at least one seed node." end # This is temporary until support for the old format is dropped @seeds = [] if args.first.last.is_a?(Integer) warn "Initiating a ReplSetConnection with seeds passed as individual [host, port] array arguments is deprecated." warn "Please specify hosts as an array of 'host:port' strings; the old format will be removed in v2.0" @seeds = args else args.first.map do |host_port| seed = host_port.split(":") seed[1] = seed[1].to_i seeds << seed end end # TODO: add a method for replacing this list of node. @seeds.freeze # Refresh @last_refresh = Time.now @refresh_version = 0 # No connection manager by default. @manager = nil @old_managers = [] # Lock for request ids. @id_lock = Mutex.new @pool_mutex = Mutex.new @connected = false @safe_mutex_lock = Mutex.new @safe_mutexes = Hash.new {|hash, key| hash[key] = Mutex.new} @connect_mutex = Mutex.new @refresh_mutex = Mutex.new check_opts(opts) setup(opts) end def valid_opts GENERIC_OPTS + REPL_SET_OPTS end def inspect "" end # Initiate a connection to the replica set. def connect log(:info, "Connecting...") @connect_mutex.synchronize do return if @connected discovered_seeds = @manager ? @manager.seeds : [] @manager = PoolManager.new(self, discovered_seeds) Thread.current[:managers] ||= Hash.new Thread.current[:managers][self] = @manager @manager.connect @refresh_version += 1 if @require_primary && @manager.primary.nil? #TODO: in v2.0, we'll let this be optional and do a lazy connect. close raise ConnectionFailure, "Failed to connect to primary node." elsif @manager.read_pool.nil? close raise ConnectionFailure, "Failed to connect to any node." else @connected = true end end end # Determine whether a replica set refresh is # required. If so, run a hard refresh. You can # force a hard refresh by running # ReplSetConnection#hard_refresh! # # @return [Boolean] +true+ unless a hard refresh # is run and the refresh lock can't be acquired. def refresh(opts={}) if !connected? log(:info, "Trying to check replica set health but not " + "connected...") return hard_refresh! end log(:debug, "Checking replica set connection health...") @manager.check_connection_health if @manager.refresh_required? return hard_refresh! end return true end # Force a hard refresh of this connection's view # of the replica set. # # @return [Boolean] +true+ if hard refresh # occurred. +false+ is returned when unable # to get the refresh lock. def hard_refresh! log(:info, "Initiating hard refresh...") discovered_seeds = @manager ? @manager.seeds : [] new_manager = PoolManager.new(self, discovered_seeds | @seeds) new_manager.connect Thread.current[:managers][self] = new_manager # TODO: make sure that connect has succeeded @old_managers << @manager @manager = new_manager @refresh_version += 1 return true end def connected? @connected && (@manager.primary_pool || @manager.read_pool) end # @deprecated def connecting? warn "ReplSetConnection#connecting? is deprecated and will be removed in v2.0." false end # The replica set primary's host name. # # @return [String] def host @manager.primary_pool.host end # The replica set primary's port. # # @return [Integer] def port @manager.primary_pool.port end def nodes warn "ReplSetConnection#nodes is DEPRECATED and will be removed in v2.0. " + "Please use ReplSetConnection#seeds instead." @seeds end # Determine whether we're reading from a primary node. If false, # this connection connects to a secondary node and @read_secondaries is true. # # @return [Boolean] def read_primary? @manager.read_pool == @manager.primary_pool end alias :primary? :read_primary? def read_preference @read end # Close the connection to the database. def close(opts={}) if opts[:soft] @manager.close(:soft => true) if @manager else @manager.close if @manager end # Clear the reference to this object. if Thread.current[:managers] Thread.current[:managers].delete(self) end @connected = false end # If a ConnectionFailure is raised, this method will be called # to close the connection and reset connection values. # @deprecated def reset_connection close warn "ReplSetConnection#reset_connection is now deprecated and will be removed in v2.0. " + "Use ReplSetConnection#close instead." end # Returns +true+ if it's okay to read from a secondary node. # Since this is a replica set, this must always be true. # # This method exist primarily so that Cursor objects will # generate query messages with a slaveOkay value of +true+. # # @return [Boolean] +true+ def slave_ok? true end def authenticate_pools if primary_pool primary_pool.authenticate_existing end secondary_pools.each do |pool| pool.authenticate_existing end end def logout_pools(db) if primary_pool primary_pool.logout_existing(db) end secondary_pools.each do |pool| pool.logout_existing(db) end end # Generic socket checkout # Takes a block that returns a socket from pool def checkout(&block) if connected? sync_refresh else connect end begin socket = block.call rescue => ex checkin(socket) if socket raise ex end if socket socket else @connected = false raise ConnectionFailure.new("Could not checkout a socket.") end end # Checkout best available socket by trying primary # pool first and then falling back to secondary. def checkout_best checkout do socket = get_socket_from_pool(:primary) if !socket connect socket = get_socket_from_pool(:secondary) end socket end end # Checkout a socket for reading (i.e., a secondary node). # Note that @read_pool might point to the primary pool # if no read pool has been defined. def checkout_reader checkout do socket = get_socket_from_pool(:read) if !socket connect socket = get_socket_from_pool(:primary) end socket end end # Checkout a socket from a secondary # For :read_preference => :secondary_only def checkout_secondary checkout do get_socket_from_pool(:secondary) end end # Checkout a socket for writing (i.e., a primary node). def checkout_writer checkout do get_socket_from_pool(:primary) end end # Checkin a socket used for reading. def checkin_reader(socket) if socket socket.pool.checkin(socket) end sync_refresh end # Checkin a socket used for writing. def checkin_writer(socket) if socket socket.pool.checkin(socket) end sync_refresh end def close_socket(socket) begin socket.close if socket rescue IOError log(:info, "Tried to close socket #{socket} but already closed.") end end def ensure_manager Thread.current[:managers] ||= Hash.new if Thread.current[:managers][self] != @manager Thread.current[:managers][self] = @manager end end def get_socket_from_pool(pool_type) ensure_manager pool = case pool_type when :primary primary_pool when :secondary secondary_pool when :read read_pool end begin if pool pool.checkout end rescue ConnectionFailure => ex log(:info, "Failed to checkout from #{pool} with #{ex.class}; #{ex.message}") return nil end end def local_manager Thread.current[:managers][self] if Thread.current[:managers] end def arbiters local_manager.arbiters.nil? ? [] : local_manager.arbiters end def primary local_manager ? local_manager.primary : nil end # Note: might want to freeze these after connecting. def secondaries local_manager ? local_manager.secondaries : [] end def hosts local_manager ? local_manager.hosts : [] end def primary_pool local_manager ? local_manager.primary_pool : nil end def read_pool local_manager ? local_manager.read_pool : nil end def secondary_pool local_manager ? local_manager.secondary_pool : nil end def secondary_pools local_manager ? local_manager.secondary_pools : [] end def tag_map local_manager ? local_manager.tag_map : {} end def max_bson_size if local_manager && local_manager.max_bson_size local_manager.max_bson_size else Mongo::DEFAULT_MAX_BSON_SIZE end end private # Parse option hash def setup(opts) # Require a primary node to connect? @require_primary = opts.fetch(:require_primary, true) # Refresh @refresh_mode = opts.fetch(:refresh_mode, false) @refresh_interval = opts.fetch(:refresh_interval, 90) if @refresh_mode && @refresh_interval < 60 @refresh_interval = 60 unless ENV['TEST_MODE'] = 'TRUE' end if @refresh_mode == :async warn ":async refresh mode has been deprecated. Refresh mode will be disabled." elsif ![:sync, false].include?(@refresh_mode) raise MongoArgumentError, "Refresh mode must be either :sync or false." end # Are we allowing reads from secondaries? if opts[:read_secondary] warn ":read_secondary options has now been deprecated and will " + "be removed in driver v2.0. Use the :read option instead." @read_secondary = opts.fetch(:read_secondary, false) @read = :secondary else @read = opts.fetch(:read, :primary) Mongo::Support.validate_read_preference(@read) end # Replica set name if opts[:rs_name] warn ":rs_name option has been deprecated and will be removed in v2.0. " + "Please use :name instead." @replica_set_name = opts[:rs_name] else @replica_set_name = opts[:name] end opts[:connect_timeout] = opts[:connect_timeout] || 30 super opts end # Checkout a socket connected to a node with one of # the provided tags. If no such node exists, raise # an exception. # # NOTE: will be available in driver release v2.0. def checkout_tagged(tags) tags.each do |k, v| pool = self.tag_map[{k.to_s => v}] if pool socket = pool.checkout return socket end end raise NodeWithTagsNotFound, "Could not find a connection tagged with #{tags}." end def prune_managers @old_managers.each do |manager| if manager != @manager if manager.closed? @old_managers.delete(manager) else manager.close(:soft => true) end end end end def sync_refresh if @refresh_mode == :sync && ((Time.now - @last_refresh) > @refresh_interval) @last_refresh = Time.now if @refresh_mutex.try_lock begin refresh prune_managers ensure @refresh_mutex.unlock end end end end end end