require 'active_record/connection_adapters/abstract_adapter' require 'active_record/connection_adapters/statement_pool' require 'arel/visitors/bind_visitor' gem 'sqlite3', '~> 1.3.6' require 'sqlite3' module ActiveRecord module ConnectionHandling # :nodoc: # sqlite3 adapter reuses sqlite_connection. def sqlite3_connection(config) # Require database. unless config[:database] raise ArgumentError, "No database file specified. Missing argument: database" end # Allow database path relative to Rails.root, but only if # the database path is not the special path that tells # Sqlite to build a database only in memory. if ':memory:' != config[:database] config[:database] = File.expand_path(config[:database], Rails.root) if defined?(Rails.root) dirname = File.dirname(config[:database]) Dir.mkdir(dirname) unless File.directory?(dirname) end db = SQLite3::Database.new( config[:database].to_s, :results_as_hash => true ) db.busy_timeout(ConnectionAdapters::SQLite3Adapter.type_cast_config_to_integer(config[:timeout])) if config[:timeout] ConnectionAdapters::SQLite3Adapter.new(db, logger, config) end end module ConnectionAdapters #:nodoc: class SQLite3Column < Column #:nodoc: class << self def binary_to_string(value) if value.encoding != Encoding::ASCII_8BIT value = value.force_encoding(Encoding::ASCII_8BIT) end value end end end # The SQLite3 adapter works SQLite 3.6.16 or newer # with the sqlite3-ruby drivers (available as gem from https://rubygems.org/gems/sqlite3). # # Options: # # * :database - Path to the database file. class SQLite3Adapter < AbstractAdapter class Version include Comparable def initialize(version_string) @version = version_string.split('.').map { |v| v.to_i } end def <=>(version_string) @version <=> version_string.split('.').map { |v| v.to_i } end end class StatementPool < ConnectionAdapters::StatementPool def initialize(connection, max) super @cache = Hash.new { |h,pid| h[pid] = {} } end def each(&block); cache.each(&block); end def key?(key); cache.key?(key); end def [](key); cache[key]; end def length; cache.length; end def []=(sql, key) while @max <= cache.size dealloc(cache.shift.last[:stmt]) end cache[sql] = key end def clear cache.values.each do |hash| dealloc hash[:stmt] end cache.clear end private def cache @cache[$$] end def dealloc(stmt) stmt.close unless stmt.closed? end end class BindSubstitution < Arel::Visitors::SQLite # :nodoc: include Arel::Visitors::BindVisitor end def initialize(connection, logger, config) super(connection, logger) @active = nil @statements = StatementPool.new(@connection, self.class.type_cast_config_to_integer(config.fetch(:statement_limit) { 1000 })) @config = config if self.class.type_cast_config_to_boolean(config.fetch(:prepared_statements) { true }) @prepared_statements = true @visitor = Arel::Visitors::SQLite.new self else @visitor = unprepared_visitor end end def adapter_name #:nodoc: 'SQLite' end # Returns true def supports_ddl_transactions? true end # Returns true if SQLite version is '3.6.8' or greater, false otherwise. def supports_savepoints? sqlite_version >= '3.6.8' end # Returns true, since this connection adapter supports prepared statement # caching. def supports_statement_cache? true end # Returns true, since this connection adapter supports migrations. def supports_migrations? #:nodoc: true end # Returns true. def supports_primary_key? #:nodoc: true end def requires_reloading? true end # Returns true def supports_add_column? true end def active? @active != false end # Disconnects from the database if already connected. Otherwise, this # method does nothing. def disconnect! super @active = false @connection.close rescue nil end # Clears the prepared statements cache. def clear_cache! @statements.clear end # Returns true def supports_count_distinct? #:nodoc: true end # Returns true def supports_autoincrement? #:nodoc: true end def supports_index_sort_order? true end # Returns 62. SQLite supports index names up to 64 # characters. The rest is used by rails internally to perform # temporary rename operations def allowed_index_name_length index_name_length - 2 end def native_database_types #:nodoc: { :primary_key => default_primary_key_type, :string => { :name => "varchar", :limit => 255 }, :text => { :name => "text" }, :integer => { :name => "integer" }, :float => { :name => "float" }, :decimal => { :name => "decimal" }, :datetime => { :name => "datetime" }, :timestamp => { :name => "datetime" }, :time => { :name => "time" }, :date => { :name => "date" }, :binary => { :name => "blob" }, :boolean => { :name => "boolean" } } end # Returns the current database encoding format as a string, eg: 'UTF-8' def encoding @connection.encoding.to_s end # Returns true. def supports_explain? true end # QUOTING ================================================== def quote(value, column = nil) if value.kind_of?(String) && column && column.type == :binary && column.class.respond_to?(:string_to_binary) s = column.class.string_to_binary(value).unpack("H*")[0] "x'#{s}'" else super end end def quote_string(s) #:nodoc: @connection.class.quote(s) end def quote_table_name_for_assignment(table, attr) quote_column_name(attr) end def quote_column_name(name) #:nodoc: %Q("#{name.to_s.gsub('"', '""')}") end # Quote date/time values for use in SQL input. Includes microseconds # if the value is a Time responding to usec. def quoted_date(value) #:nodoc: if value.respond_to?(:usec) "#{super}.#{sprintf("%06d", value.usec)}" else super end end def type_cast(value, column) # :nodoc: return value.to_f if BigDecimal === value return super unless String === value return super unless column && value value = super if column.type == :string && value.encoding == Encoding::ASCII_8BIT logger.error "Binary data inserted for `string` type on column `#{column.name}`" if logger value = value.encode Encoding::UTF_8 end value end # DATABASE STATEMENTS ====================================== def explain(arel, binds = []) sql = "EXPLAIN QUERY PLAN #{to_sql(arel, binds)}" ExplainPrettyPrinter.new.pp(exec_query(sql, 'EXPLAIN', binds)) end class ExplainPrettyPrinter # Pretty prints the result of a EXPLAIN QUERY PLAN in a way that resembles # the output of the SQLite shell: # # 0|0|0|SEARCH TABLE users USING INTEGER PRIMARY KEY (rowid=?) (~1 rows) # 0|1|1|SCAN TABLE posts (~100000 rows) # def pp(result) # :nodoc: result.rows.map do |row| row.join('|') end.join("\n") + "\n" end end def exec_query(sql, name = nil, binds = []) log(sql, name, binds) do # Don't cache statements if they are not prepared if without_prepared_statement?(binds) stmt = @connection.prepare(sql) cols = stmt.columns records = stmt.to_a stmt.close stmt = records else cache = @statements[sql] ||= { :stmt => @connection.prepare(sql) } stmt = cache[:stmt] cols = cache[:cols] ||= stmt.columns stmt.reset! stmt.bind_params binds.map { |col, val| type_cast(val, col) } end ActiveRecord::Result.new(cols, stmt.to_a) end end def exec_delete(sql, name = 'SQL', binds = []) exec_query(sql, name, binds) @connection.changes end alias :exec_update :exec_delete def last_inserted_id(result) @connection.last_insert_row_id end def execute(sql, name = nil) #:nodoc: log(sql, name) { @connection.execute(sql) } end def update_sql(sql, name = nil) #:nodoc: super @connection.changes end def delete_sql(sql, name = nil) #:nodoc: sql += " WHERE 1=1" unless sql =~ /WHERE/i super sql, name end def insert_sql(sql, name = nil, pk = nil, id_value = nil, sequence_name = nil) #:nodoc: super id_value || @connection.last_insert_row_id end alias :create :insert_sql def select_rows(sql, name = nil, binds = []) exec_query(sql, name, binds).rows end def create_savepoint execute("SAVEPOINT #{current_savepoint_name}") end def rollback_to_savepoint execute("ROLLBACK TO SAVEPOINT #{current_savepoint_name}") end def release_savepoint execute("RELEASE SAVEPOINT #{current_savepoint_name}") end def begin_db_transaction #:nodoc: log('begin transaction',nil) { @connection.transaction } end def commit_db_transaction #:nodoc: log('commit transaction',nil) { @connection.commit } end def rollback_db_transaction #:nodoc: log('rollback transaction',nil) { @connection.rollback } end # SCHEMA STATEMENTS ======================================== def tables(name = nil, table_name = nil) #:nodoc: sql = <<-SQL SELECT name FROM sqlite_master WHERE type = 'table' AND NOT name = 'sqlite_sequence' SQL sql << " AND name = #{quote_table_name(table_name)}" if table_name exec_query(sql, 'SCHEMA').map do |row| row['name'] end end def table_exists?(table_name) table_name && tables(nil, table_name).any? end # Returns an array of +SQLite3Column+ objects for the table specified by +table_name+. def columns(table_name) #:nodoc: table_structure(table_name).map do |field| case field["dflt_value"] when /^null$/i field["dflt_value"] = nil when /^'(.*)'$/m field["dflt_value"] = $1.gsub("''", "'") when /^"(.*)"$/m field["dflt_value"] = $1.gsub('""', '"') end SQLite3Column.new(field['name'], field['dflt_value'], field['type'], field['notnull'].to_i == 0) end end # Returns an array of indexes for the given table. def indexes(table_name, name = nil) #:nodoc: exec_query("PRAGMA index_list(#{quote_table_name(table_name)})", 'SCHEMA').map do |row| IndexDefinition.new( table_name, row['name'], row['unique'] != 0, exec_query("PRAGMA index_info('#{row['name']}')", "SCHEMA").map { |col| col['name'] }) end end def primary_key(table_name) #:nodoc: column = table_structure(table_name).find { |field| field['pk'] == 1 } column && column['name'] end def remove_index!(table_name, index_name) #:nodoc: exec_query "DROP INDEX #{quote_column_name(index_name)}" end # Renames a table. # # Example: # rename_table('octopuses', 'octopi') def rename_table(table_name, new_name) exec_query "ALTER TABLE #{quote_table_name(table_name)} RENAME TO #{quote_table_name(new_name)}" rename_table_indexes(table_name, new_name) end # See: http://www.sqlite.org/lang_altertable.html # SQLite has an additional restriction on the ALTER TABLE statement def valid_alter_table_options( type, options) type.to_sym != :primary_key end def add_column(table_name, column_name, type, options = {}) #:nodoc: if supports_add_column? && valid_alter_table_options( type, options ) super(table_name, column_name, type, options) else alter_table(table_name) do |definition| definition.column(column_name, type, options) end end end def remove_column(table_name, column_name, type = nil, options = {}) #:nodoc: alter_table(table_name) do |definition| definition.remove_column column_name end end def change_column_default(table_name, column_name, default) #:nodoc: alter_table(table_name) do |definition| definition[column_name].default = default end end def change_column_null(table_name, column_name, null, default = nil) unless null || default.nil? exec_query("UPDATE #{quote_table_name(table_name)} SET #{quote_column_name(column_name)}=#{quote(default)} WHERE #{quote_column_name(column_name)} IS NULL") end alter_table(table_name) do |definition| definition[column_name].null = null end end def change_column(table_name, column_name, type, options = {}) #:nodoc: alter_table(table_name) do |definition| include_default = options_include_default?(options) definition[column_name].instance_eval do self.type = type self.limit = options[:limit] if options.include?(:limit) self.default = options[:default] if include_default self.null = options[:null] if options.include?(:null) self.precision = options[:precision] if options.include?(:precision) self.scale = options[:scale] if options.include?(:scale) end end end def rename_column(table_name, column_name, new_column_name) #:nodoc: unless columns(table_name).detect{|c| c.name == column_name.to_s } raise ActiveRecord::ActiveRecordError, "Missing column #{table_name}.#{column_name}" end alter_table(table_name, :rename => {column_name.to_s => new_column_name.to_s}) rename_column_indexes(table_name, column_name, new_column_name) end protected def select(sql, name = nil, binds = []) #:nodoc: exec_query(sql, name, binds) end def table_structure(table_name) structure = exec_query("PRAGMA table_info(#{quote_table_name(table_name)})", 'SCHEMA').to_hash raise(ActiveRecord::StatementInvalid, "Could not find table '#{table_name}'") if structure.empty? structure end def alter_table(table_name, options = {}) #:nodoc: altered_table_name = "a#{table_name}" caller = lambda {|definition| yield definition if block_given?} transaction do move_table(table_name, altered_table_name, options.merge(:temporary => true)) move_table(altered_table_name, table_name, &caller) end end def move_table(from, to, options = {}, &block) #:nodoc: copy_table(from, to, options, &block) drop_table(from) end def copy_table(from, to, options = {}) #:nodoc: from_primary_key = primary_key(from) options[:id] = false create_table(to, options) do |definition| @definition = definition @definition.primary_key(from_primary_key) if from_primary_key.present? columns(from).each do |column| column_name = options[:rename] ? (options[:rename][column.name] || options[:rename][column.name.to_sym] || column.name) : column.name next if column_name == from_primary_key @definition.column(column_name, column.type, :limit => column.limit, :default => column.default, :precision => column.precision, :scale => column.scale, :null => column.null) end yield @definition if block_given? end copy_table_indexes(from, to, options[:rename] || {}) copy_table_contents(from, to, @definition.columns.map {|column| column.name}, options[:rename] || {}) end def copy_table_indexes(from, to, rename = {}) #:nodoc: indexes(from).each do |index| name = index.name if to == "a#{from}" name = "t#{name}" elsif from == "a#{to}" name = name[1..-1] end to_column_names = columns(to).map { |c| c.name } columns = index.columns.map {|c| rename[c] || c }.select do |column| to_column_names.include?(column) end unless columns.empty? # index name can't be the same opts = { name: name.gsub(/(^|_)(#{from})_/, "\\1#{to}_"), internal: true } opts[:unique] = true if index.unique add_index(to, columns, opts) end end end def copy_table_contents(from, to, columns, rename = {}) #:nodoc: column_mappings = Hash[columns.map {|name| [name, name]}] rename.each { |a| column_mappings[a.last] = a.first } from_columns = columns(from).collect {|col| col.name} columns = columns.find_all{|col| from_columns.include?(column_mappings[col])} quoted_columns = columns.map { |col| quote_column_name(col) } * ',' quoted_to = quote_table_name(to) raw_column_mappings = Hash[columns(from).map { |c| [c.name, c] }] exec_query("SELECT * FROM #{quote_table_name(from)}").each do |row| sql = "INSERT INTO #{quoted_to} (#{quoted_columns}) VALUES (" column_values = columns.map do |col| quote(row[column_mappings[col]], raw_column_mappings[col]) end sql << column_values * ', ' sql << ')' exec_query sql end end def sqlite_version @sqlite_version ||= SQLite3Adapter::Version.new(select_value('select sqlite_version(*)')) end def default_primary_key_type if supports_autoincrement? 'INTEGER PRIMARY KEY AUTOINCREMENT NOT NULL' else 'INTEGER PRIMARY KEY NOT NULL' end end def translate_exception(exception, message) case exception.message # SQLite 3.8.2 returns a newly formatted error message: # UNIQUE constraint failed: *table_name*.*column_name* # Older versions of SQLite return: # column *column_name* is not unique when /column(s)? .* (is|are) not unique/, /UNIQUE constraint failed: .*/ RecordNotUnique.new(message, exception) else super end end end end end