require 'thread' require 'monitor' require 'set' require 'active_support/core_ext/module/synchronization' module ActiveRecord # Raised when a connection could not be obtained within the connection # acquisition timeout period. class ConnectionTimeoutError < ConnectionNotEstablished end module ConnectionAdapters # Connection pool base class for managing Active Record database # connections. # # == Introduction # # A connection pool synchronizes thread access to a limited number of # database connections. The basic idea is that each thread checks out a # database connection from the pool, uses that connection, and checks the # connection back in. ConnectionPool is completely thread-safe, and will # ensure that a connection cannot be used by two threads at the same time, # as long as ConnectionPool's contract is correctly followed. It will also # handle cases in which there are more threads than connections: if all # connections have been checked out, and a thread tries to checkout a # connection anyway, then ConnectionPool will wait until some other thread # has checked in a connection. # # == Obtaining (checking out) a connection # # Connections can be obtained and used from a connection pool in several # ways: # # 1. Simply use ActiveRecord::Base.connection as with Active Record 2.1 and # earlier (pre-connection-pooling). Eventually, when you're done with # the connection(s) and wish it to be returned to the pool, you call # ActiveRecord::Base.clear_active_connections!. This will be the # default behavior for Active Record when used in conjunction with # Action Pack's request handling cycle. # 2. Manually check out a connection from the pool with # ActiveRecord::Base.connection_pool.checkout. You are responsible for # returning this connection to the pool when finished by calling # ActiveRecord::Base.connection_pool.checkin(connection). # 3. Use ActiveRecord::Base.connection_pool.with_connection(&block), which # obtains a connection, yields it as the sole argument to the block, # and returns it to the pool after the block completes. # # Connections in the pool are actually AbstractAdapter objects (or objects # compatible with AbstractAdapter's interface). # # == Options # # There are two connection-pooling-related options that you can add to # your database connection configuration: # # * +pool+: number indicating size of connection pool (default 5) # * +wait_timeout+: number of seconds to block and wait for a connection # before giving up and raising a timeout error (default 5 seconds). class ConnectionPool attr_accessor :automatic_reconnect attr_reader :spec, :connections attr_reader :columns, :columns_hash, :primary_keys, :tables # Creates a new ConnectionPool object. +spec+ is a ConnectionSpecification # object which describes database connection information (e.g. adapter, # host name, username, password, etc), as well as the maximum size for # this ConnectionPool. # # The default ConnectionPool maximum size is 5. def initialize(spec) @spec = spec # The cache of reserved connections mapped to threads @reserved_connections = {} # The mutex used to synchronize pool access @connection_mutex = Monitor.new @queue = @connection_mutex.new_cond @timeout = spec.config[:wait_timeout] || 5 # default max pool size to 5 @size = (spec.config[:pool] && spec.config[:pool].to_i) || 5 @connections = [] @checked_out = [] @automatic_reconnect = true @tables = {} @columns = Hash.new do |h, table_name| h[table_name] = with_connection do |conn| # Fetch a list of columns conn.columns(table_name, "#{table_name} Columns").tap do |columns| # set primary key information columns.each do |column| column.primary = column.name == primary_keys[table_name] end end end end @columns_hash = Hash.new do |h, table_name| h[table_name] = Hash[columns[table_name].map { |col| [col.name, col] }] end @primary_keys = Hash.new do |h, table_name| h[table_name] = with_connection do |conn| table_exists?(table_name) ? conn.primary_key(table_name) : 'id' end end end # A cached lookup for table existence def table_exists?(name) return true if @tables.key? name with_connection do |conn| conn.tables.each { |table| @tables[table] = true } end @tables.key? name end # Clears out internal caches: # # * columns # * columns_hash # * tables def clear_cache! @columns.clear @columns_hash.clear @tables.clear end # Clear out internal caches for table with +table_name+ def clear_table_cache!(table_name) @columns.delete table_name @columns_hash.delete table_name @primary_keys.delete table_name end # Retrieve the connection associated with the current thread, or call # #checkout to obtain one if necessary. # # #connection can be called any number of times; the connection is # held in a hash keyed by the thread id. def connection @reserved_connections[current_connection_id] ||= checkout end # Signal that the thread is finished with the current connection. # #release_connection releases the connection-thread association # and returns the connection to the pool. def release_connection(with_id = current_connection_id) conn = @reserved_connections.delete(with_id) checkin conn if conn end # If a connection already exists yield it to the block. If no connection # exists checkout a connection, yield it to the block, and checkin the # connection when finished. def with_connection connection_id = current_connection_id fresh_connection = true unless @reserved_connections[connection_id] yield connection ensure release_connection(connection_id) if fresh_connection end # Returns true if a connection has already been opened. def connected? !@connections.empty? end # Disconnects all connections in the pool, and clears the pool. def disconnect! @reserved_connections.each do |name,conn| checkin conn end @reserved_connections = {} @connections.each do |conn| conn.disconnect! end @connections = [] end # Clears the cache which maps classes def clear_reloadable_connections! @reserved_connections.each do |name, conn| checkin conn end @reserved_connections = {} @connections.each do |conn| conn.disconnect! if conn.requires_reloading? end @connections.delete_if do |conn| conn.requires_reloading? end end # Verify active connections and remove and disconnect connections # associated with stale threads. def verify_active_connections! #:nodoc: clear_stale_cached_connections! @connections.each do |connection| connection.verify! end end # Return any checked-out connections back to the pool by threads that # are no longer alive. def clear_stale_cached_connections! keys = @reserved_connections.keys - Thread.list.find_all { |t| t.alive? }.map { |thread| thread.object_id } keys.each do |key| checkin @reserved_connections[key] @reserved_connections.delete(key) end end # Check-out a database connection from the pool, indicating that you want # to use it. You should call #checkin when you no longer need this. # # This is done by either returning an existing connection, or by creating # a new connection. If the maximum number of connections for this pool has # already been reached, but the pool is empty (i.e. they're all being used), # then this method will wait until a thread has checked in a connection. # The wait time is bounded however: if no connection can be checked out # within the timeout specified for this pool, then a ConnectionTimeoutError # exception will be raised. # # Returns: an AbstractAdapter object. # # Raises: # - ConnectionTimeoutError: no connection can be obtained from the pool # within the timeout period. def checkout # Checkout an available connection @connection_mutex.synchronize do loop do conn = if @checked_out.size < @connections.size checkout_existing_connection elsif @connections.size < @size checkout_new_connection end return conn if conn @queue.wait(@timeout) if(@checked_out.size < @connections.size) next else clear_stale_cached_connections! if @size == @checked_out.size raise ConnectionTimeoutError, "could not obtain a database connection#{" within #{@timeout} seconds" if @timeout}. The max pool size is currently #{@size}; consider increasing it." end end end end end # Check-in a database connection back into the pool, indicating that you # no longer need this connection. # # +conn+: an AbstractAdapter object, which was obtained by earlier by # calling +checkout+ on this pool. def checkin(conn) @connection_mutex.synchronize do conn.run_callbacks :checkin do @checked_out.delete conn @queue.signal end end end synchronize :clear_reloadable_connections!, :verify_active_connections!, :connected?, :disconnect!, :with => :@connection_mutex private def new_connection ActiveRecord::Base.send(spec.adapter_method, spec.config) end def current_connection_id #:nodoc: Thread.current.object_id end def checkout_new_connection raise ConnectionNotEstablished unless @automatic_reconnect c = new_connection @connections << c checkout_and_verify(c) end def checkout_existing_connection c = (@connections - @checked_out).first checkout_and_verify(c) end def checkout_and_verify(c) c.run_callbacks :checkout do c.verify! @checked_out << c end c end end # ConnectionHandler is a collection of ConnectionPool objects. It is used # for keeping separate connection pools for Active Record models that connect # to different databases. # # For example, suppose that you have 5 models, with the following hierarchy: # # | # +-- Book # | | # | +-- ScaryBook # | +-- GoodBook # +-- Author # +-- BankAccount # # Suppose that Book is to connect to a separate database (i.e. one other # than the default database). Then Book, ScaryBook and GoodBook will all use # the same connection pool. Likewise, Author and BankAccount will use the # same connection pool. However, the connection pool used by Author/BankAccount # is not the same as the one used by Book/ScaryBook/GoodBook. # # Normally there is only a single ConnectionHandler instance, accessible via # ActiveRecord::Base.connection_handler. Active Record models use this to # determine that connection pool that they should use. class ConnectionHandler attr_reader :connection_pools def initialize(pools = {}) @connection_pools = pools end def establish_connection(name, spec) @connection_pools[name] = ConnectionAdapters::ConnectionPool.new(spec) end # Returns any connections in use by the current thread back to the pool, # and also returns connections to the pool cached by threads that are no # longer alive. def clear_active_connections! @connection_pools.each_value {|pool| pool.release_connection } end # Clears the cache which maps classes def clear_reloadable_connections! @connection_pools.each_value {|pool| pool.clear_reloadable_connections! } end def clear_all_connections! @connection_pools.each_value {|pool| pool.disconnect! } end # Verify active connections. def verify_active_connections! #:nodoc: @connection_pools.each_value {|pool| pool.verify_active_connections! } end # Locate the connection of the nearest super class. This can be an # active or defined connection: if it is the latter, it will be # opened and set as the active connection for the class it was defined # for (not necessarily the current class). def retrieve_connection(klass) #:nodoc: pool = retrieve_connection_pool(klass) (pool && pool.connection) or raise ConnectionNotEstablished end # Returns true if a connection that's accessible to this class has # already been opened. def connected?(klass) conn = retrieve_connection_pool(klass) conn && conn.connected? end # Remove the connection for this class. This will close the active # connection and the defined connection (if they exist). The result # can be used as an argument for establish_connection, for easily # re-establishing the connection. def remove_connection(klass) pool = @connection_pools[klass.name] return nil unless pool pool.automatic_reconnect = false pool.disconnect! pool.spec.config end def retrieve_connection_pool(klass) pool = @connection_pools[klass.name] return pool if pool return nil if ActiveRecord::Base == klass retrieve_connection_pool klass.superclass end end class ConnectionManagement def initialize(app) @app = app end def call(env) @app.call(env) ensure # Don't return connection (and perform implicit rollback) if # this request is a part of integration test unless env.key?("rack.test") ActiveRecord::Base.clear_active_connections! end end end end end