require 'benchmark' require 'date' # Method that requires a library, ensuring that rubygems is loaded # This is used in the database adaptors to require DB drivers. Reasons: # (1) database drivers are the only third-party library that Rails depend upon # (2) they are often installed as gems def require_library_or_gem(library_name) begin require library_name rescue LoadError => cannot_require # 1. Requiring the module is unsuccessful, maybe it's a gem and nobody required rubygems yet. Try. begin require 'rubygems' rescue LoadError => rubygems_not_installed raise cannot_require end # 2. Rubygems is installed and loaded. Try to load the library again begin require library_name rescue LoadError => gem_not_installed raise cannot_require end end end module ActiveRecord class Base class ConnectionSpecification #:nodoc: attr_reader :config, :adapter_method def initialize (config, adapter_method) @config, @adapter_method = config, adapter_method end end # The class -> [adapter_method, config] map @@defined_connections = {} # Establishes the connection to the database. Accepts a hash as input where # the :adapter key must be specified with the name of a database adapter (in lower-case) # example for regular databases (MySQL, Postgresql, etc): # # ActiveRecord::Base.establish_connection( # :adapter => "mysql", # :host => "localhost", # :username => "myuser", # :password => "mypass", # :database => "somedatabase" # ) # # Example for SQLite database: # # ActiveRecord::Base.establish_connection( # :adapter => "sqlite", # :dbfile => "path/to/dbfile" # ) # # Also accepts keys as strings (for parsing from yaml for example): # ActiveRecord::Base.establish_connection( # "adapter" => "sqlite", # "dbfile" => "path/to/dbfile" # ) # # The exceptions AdapterNotSpecified, AdapterNotFound and ArgumentError # may be returned on an error. # # == Connecting to another database for a single model # # To support different connections for different classes, you can # simply call establish_connection with the classes you wish to have # different connections for: # # class Courses < ActiveRecord::Base # ... # end # # Courses.establish_connection( ... ) def self.establish_connection(spec = nil) case spec when nil raise AdapterNotSpecified unless defined? RAILS_ENV establish_connection(RAILS_ENV) when ConnectionSpecification @@defined_connections[self] = spec when Symbol, String if configuration = configurations[spec.to_s] establish_connection(configuration) else raise AdapterNotSpecified, "#{spec} database is not configured" end else spec = symbolize_strings_in_hash(spec) unless spec.key?(:adapter) then raise AdapterNotSpecified, "database configuration does not specify adapter" end adapter_method = "#{spec[:adapter]}_connection" unless respond_to?(adapter_method) then raise AdapterNotFound, "database configuration specifies nonexistent #{spec[:adapter]} adapter" end remove_connection establish_connection(ConnectionSpecification.new(spec, adapter_method)) end end # Locate the connection of the nearest super class. This can be an # active or defined connections: 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 self.retrieve_connection #:nodoc: klass = self until klass == ActiveRecord::Base.superclass Thread.current['active_connections'] ||= {} if Thread.current['active_connections'][klass] return Thread.current['active_connections'][klass] elsif @@defined_connections[klass] klass.connection = @@defined_connections[klass] return self.connection end klass = klass.superclass end raise ConnectionNotEstablished end # Returns true if a connection that's accessible to this class have already been opened. def self.connected? klass = self until klass == ActiveRecord::Base.superclass if Thread.current['active_connections'].is_a?(Hash) && Thread.current['active_connections'][klass] return true else klass = klass.superclass end end return false 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 argument for establish_connection, for easy # re-establishing of the connection. def self.remove_connection(klass=self) conn = @@defined_connections[klass] @@defined_connections.delete(klass) Thread.current['active_connections'] ||= {} Thread.current['active_connections'][klass] = nil conn.config if conn end # Set the connection for the class. def self.connection=(spec) raise ConnectionNotEstablished unless spec conn = self.send(spec.adapter_method, spec.config) Thread.current['active_connections'] ||= {} Thread.current['active_connections'][self] = conn end # Converts all strings in a hash to symbols. def self.symbolize_strings_in_hash(hash) hash.inject({}) do |hash_with_symbolized_strings, pair| hash_with_symbolized_strings[pair.first.to_sym] = pair.last hash_with_symbolized_strings end end end module ConnectionAdapters # :nodoc: class Column # :nodoc: attr_reader :name, :default, :type, :limit # The name should contain the name of the column, such as "name" in "name varchar(250)" # The default should contain the type-casted default of the column, such as 1 in "count int(11) DEFAULT 1" # The type parameter should either contain :integer, :float, :datetime, :date, :text, or :string # The sql_type is just used for extracting the limit, such as 10 in "varchar(10)" def initialize(name, default, sql_type = nil) @name, @default, @type = name, default, simplified_type(sql_type) @limit = extract_limit(sql_type) unless sql_type.nil? end def default type_cast(@default) end def klass case type when :integer then Fixnum when :float then Float when :datetime then Time when :date then Date when :timestamp then Time when :time then Time when :text, :string then String when :binary then String when :boolean then Object end end def type_cast(value) if value.nil? then return nil end case type when :string then value when :text then value when :integer then value.to_i when :float then value.to_f when :datetime then string_to_time(value) when :timestamp then string_to_time(value) when :time then string_to_dummy_time(value) when :date then string_to_date(value) when :binary then binary_to_string(value) when :boolean then (value == "t" or value == true ? true : false) else value end end def human_name Base.human_attribute_name(@name) end def string_to_binary(value) value end def binary_to_string(value) value end private def string_to_date(string) return string if Date === string date_array = ParseDate.parsedate(string) # treat 0000-00-00 as nil Date.new(date_array[0], date_array[1], date_array[2]) rescue nil end def string_to_time(string) return string if Time === string time_array = ParseDate.parsedate(string).compact # treat 0000-00-00 00:00:00 as nil Time.send(Base.default_timezone, *time_array) rescue nil end def string_to_dummy_time(string) return string if Time === string time_array = ParseDate.parsedate(string) # pad the resulting array with dummy date information time_array[0] = 2000; time_array[1] = 1; time_array[2] = 1; Time.send(Base.default_timezone, *time_array) rescue nil end def extract_limit(sql_type) $1.to_i if sql_type =~ /\((.*)\)/ end def simplified_type(field_type) case field_type when /int/i :integer when /float|double|decimal|numeric/i :float when /datetime/i :datetime when /timestamp/i :timestamp when /time/i :time when /date/i :date when /clob/i, /text/i :text when /blob/i, /binary/i :binary when /char/i, /string/i :string when /boolean/i :boolean end end end # All the concrete database adapters follow the interface laid down in this class. # You can use this interface directly by borrowing the database connection from the Base with # Base.connection. class AbstractAdapter @@row_even = true include Benchmark def initialize(connection, logger = nil) # :nodoc: @connection, @logger = connection, logger @runtime = 0 end # Returns an array of record hashes with the column names as a keys and fields as values. def select_all(sql, name = nil) end # Returns a record hash with the column names as a keys and fields as values. def select_one(sql, name = nil) end # Returns an array of column objects for the table specified by +table_name+. def columns(table_name, name = nil) end # Returns the last auto-generated ID from the affected table. def insert(sql, name = nil, pk = nil, id_value = nil) end # Executes the update statement and returns the number of rows affected. def update(sql, name = nil) end # Executes the delete statement and returns the number of rows affected. def delete(sql, name = nil) end def reset_runtime # :nodoc: rt = @runtime @runtime = 0 return rt end # Wrap a block in a transaction. Returns result of block. def transaction(start_db_transaction = true) begin if block_given? begin_db_transaction if start_db_transaction result = yield commit_db_transaction if start_db_transaction result end rescue Exception => database_transaction_rollback rollback_db_transaction if start_db_transaction raise end end # Begins the transaction (and turns off auto-committing). def begin_db_transaction() end # Commits the transaction (and turns on auto-committing). def commit_db_transaction() end # Rollsback the transaction (and turns on auto-committing). Must be done if the transaction block # raises an exception or returns false. def rollback_db_transaction() end def quote(value, column = nil) case value when String if column && column.type == :binary "'#{quote_string(column.string_to_binary(value))}'" # ' (for ruby-mode) else "'#{quote_string(value)}'" # ' (for ruby-mode) end when NilClass then "NULL" when TrueClass then (column && column.type == :boolean ? "'t'" : "1") when FalseClass then (column && column.type == :boolean ? "'f'" : "0") when Float, Fixnum, Bignum then value.to_s when Date then "'#{value.to_s}'" when Time, DateTime then "'#{value.strftime("%Y-%m-%d %H:%M:%S")}'" else "'#{quote_string(value.to_yaml)}'" end end def quote_string(s) s.gsub(/\\/, '\&\&').gsub(/'/, "''") # ' (for ruby-mode) end def quote_column_name(name) return name end # Returns a string of the CREATE TABLE SQL statements for recreating the entire structure of the database. def structure_dump() end def add_limit!(sql, limit) sql << " LIMIT #{limit}" end protected def log(sql, name, connection, &action) begin if @logger.nil? || @logger.level > Logger::INFO action.call(connection) else result = nil bm = measure { result = action.call(connection) } @runtime += bm.real log_info(sql, name, bm.real) result end rescue => e log_info("#{e.message}: #{sql}", name, 0) raise ActiveRecord::StatementInvalid, "#{e.message}: #{sql}" end end def log_info(sql, name, runtime) if @logger.nil? then return end @logger.info( format_log_entry( "#{name.nil? ? "SQL" : name} (#{sprintf("%f", runtime)})", sql.gsub(/ +/, " ") ) ) end def format_log_entry(message, dump = nil) if @@row_even then @@row_even = false; caller_color = "1;32"; message_color = "4;33"; dump_color = "1;37" else @@row_even = true; caller_color = "1;36"; message_color = "4;35"; dump_color = "0;37" end log_entry = " \e[#{message_color}m#{message}\e[m" log_entry << " \e[#{dump_color}m%s\e[m" % dump if dump.kind_of?(String) && !dump.nil? log_entry << " \e[#{dump_color}m%p\e[m" % dump if !dump.kind_of?(String) && !dump.nil? log_entry end end end end