# frozen_string_literal: true require "active_record/connection_adapters/abstract_adapter" require "active_record/connection_adapters/statement_pool" require "active_record/connection_adapters/sqlite3/explain_pretty_printer" require "active_record/connection_adapters/sqlite3/quoting" require "active_record/connection_adapters/sqlite3/database_statements" require "active_record/connection_adapters/sqlite3/schema_creation" require "active_record/connection_adapters/sqlite3/schema_definitions" require "active_record/connection_adapters/sqlite3/schema_dumper" require "active_record/connection_adapters/sqlite3/schema_statements" gem "sqlite3", "~> 1.4" require "sqlite3" module ActiveRecord module ConnectionHandling # :nodoc: def sqlite3_connection(config) config = config.symbolize_keys # 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].to_s.start_with?("file:") 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, config.merge(results_as_hash: true) ) ConnectionAdapters::SQLite3Adapter.new(db, logger, nil, config) rescue Errno::ENOENT => error if error.message.include?("No such file or directory") raise ActiveRecord::NoDatabaseError else raise end end end module ConnectionAdapters # :nodoc: # The SQLite3 adapter works with the sqlite3-ruby drivers # (available as gem from https://rubygems.org/gems/sqlite3). # # Options: # # * :database - Path to the database file. class SQLite3Adapter < AbstractAdapter ADAPTER_NAME = "SQLite" include SQLite3::Quoting include SQLite3::SchemaStatements include SQLite3::DatabaseStatements NATIVE_DATABASE_TYPES = { primary_key: "integer PRIMARY KEY AUTOINCREMENT NOT NULL", string: { name: "varchar" }, text: { name: "text" }, integer: { name: "integer" }, float: { name: "float" }, decimal: { name: "decimal" }, datetime: { name: "datetime" }, time: { name: "time" }, date: { name: "date" }, binary: { name: "blob" }, boolean: { name: "boolean" }, json: { name: "json" }, } class StatementPool < ConnectionAdapters::StatementPool # :nodoc: private def dealloc(stmt) stmt.close unless stmt.closed? end end def initialize(connection, logger, connection_options, config) @memory_database = config[:database] == ":memory:" super(connection, logger, config) configure_connection end def self.database_exists?(config) config = config.symbolize_keys if config[:database] == ":memory:" true else database_file = defined?(Rails.root) ? File.expand_path(config[:database], Rails.root) : config[:database] File.exist?(database_file) end end def supports_ddl_transactions? true end def supports_savepoints? true end def supports_transaction_isolation? true end def supports_partial_index? true end def supports_expression_index? database_version >= "3.9.0" end def requires_reloading? true end def supports_foreign_keys? true end def supports_check_constraints? true end def supports_views? true end def supports_datetime_with_precision? true end def supports_json? true end def supports_common_table_expressions? database_version >= "3.8.3" end def supports_insert_on_conflict? database_version >= "3.24.0" end alias supports_insert_on_duplicate_skip? supports_insert_on_conflict? alias supports_insert_on_duplicate_update? supports_insert_on_conflict? alias supports_insert_conflict_target? supports_insert_on_conflict? def supports_concurrent_connections? !@memory_database end def active? !@connection.closed? end def reconnect! super connect if @connection.closed? end # Disconnects from the database if already connected. Otherwise, this # method does nothing. def disconnect! super @connection.close rescue nil end def supports_index_sort_order? true end def native_database_types # :nodoc: NATIVE_DATABASE_TYPES end # Returns the current database encoding format as a string, e.g. 'UTF-8' def encoding @connection.encoding.to_s end def supports_explain? true end def supports_lazy_transactions? true end # REFERENTIAL INTEGRITY ==================================== def disable_referential_integrity # :nodoc: old_foreign_keys = query_value("PRAGMA foreign_keys") old_defer_foreign_keys = query_value("PRAGMA defer_foreign_keys") begin execute("PRAGMA defer_foreign_keys = ON") execute("PRAGMA foreign_keys = OFF") yield ensure execute("PRAGMA defer_foreign_keys = #{old_defer_foreign_keys}") execute("PRAGMA foreign_keys = #{old_foreign_keys}") end end def all_foreign_keys_valid? # :nodoc: execute("PRAGMA foreign_key_check").blank? end # SCHEMA STATEMENTS ======================================== def primary_keys(table_name) # :nodoc: pks = table_structure(table_name).select { |f| f["pk"] > 0 } pks.sort_by { |f| f["pk"] }.map { |f| f["name"] } end def remove_index(table_name, column_name = nil, **options) # :nodoc: return if options[:if_exists] && !index_exists?(table_name, column_name, **options) index_name = index_name_for_remove(table_name, column_name, options) 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) schema_cache.clear_data_source_cache!(table_name.to_s) schema_cache.clear_data_source_cache!(new_name.to_s) exec_query "ALTER TABLE #{quote_table_name(table_name)} RENAME TO #{quote_table_name(new_name)}" rename_table_indexes(table_name, new_name) end def add_column(table_name, column_name, type, **options) # :nodoc: if invalid_alter_table_type?(type, options) alter_table(table_name) do |definition| definition.column(column_name, type, **options) end else super end end def remove_column(table_name, column_name, type = nil, **options) # :nodoc: alter_table(table_name) do |definition| definition.remove_column column_name definition.foreign_keys.delete_if { |fk| fk.column == column_name.to_s } end end def remove_columns(table_name, *column_names, type: nil, **options) # :nodoc: alter_table(table_name) do |definition| column_names.each do |column_name| definition.remove_column column_name end column_names = column_names.map(&:to_s) definition.foreign_keys.delete_if { |fk| column_names.include?(fk.column) } end end def change_column_default(table_name, column_name, default_or_changes) # :nodoc: default = extract_new_default_value(default_or_changes) alter_table(table_name) do |definition| definition[column_name].default = default end end def change_column_null(table_name, column_name, null, default = nil) # :nodoc: 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| definition[column_name].instance_eval do self.type = aliased_types(type.to_s, type) self.options.merge!(options) end end end def rename_column(table_name, column_name, new_column_name) # :nodoc: column = column_for(table_name, column_name) alter_table(table_name, rename: { column.name => new_column_name.to_s }) rename_column_indexes(table_name, column.name, new_column_name) end def add_reference(table_name, ref_name, **options) # :nodoc: super(table_name, ref_name, type: :integer, **options) end alias :add_belongs_to :add_reference def foreign_keys(table_name) fk_info = exec_query("PRAGMA foreign_key_list(#{quote(table_name)})", "SCHEMA") fk_info.map do |row| options = { column: row["from"], primary_key: row["to"], on_delete: extract_foreign_key_action(row["on_delete"]), on_update: extract_foreign_key_action(row["on_update"]) } ForeignKeyDefinition.new(table_name, row["table"], options) end end def build_insert_sql(insert) # :nodoc: sql = +"INSERT #{insert.into} #{insert.values_list}" if insert.skip_duplicates? sql << " ON CONFLICT #{insert.conflict_target} DO NOTHING" elsif insert.update_duplicates? sql << " ON CONFLICT #{insert.conflict_target} DO UPDATE SET " if insert.raw_update_sql? sql << insert.raw_update_sql else sql << insert.touch_model_timestamps_unless { |column| "#{column} IS excluded.#{column}" } sql << insert.updatable_columns.map { |column| "#{column}=excluded.#{column}" }.join(",") end end sql end def shared_cache? # :nodoc: @config.fetch(:flags, 0).anybits?(::SQLite3::Constants::Open::SHAREDCACHE) end def get_database_version # :nodoc: SQLite3Adapter::Version.new(query_value("SELECT sqlite_version(*)")) end def check_version # :nodoc: if database_version < "3.8.0" raise "Your version of SQLite (#{database_version}) is too old. Active Record supports SQLite >= 3.8." end end class SQLite3Integer < Type::Integer # :nodoc: private def _limit # INTEGER storage class can be stored 8 bytes value. # See https://www.sqlite.org/datatype3.html#storage_classes_and_datatypes limit || 8 end end ActiveRecord::Type.register(:integer, SQLite3Integer, adapter: :sqlite3) class << self private def initialize_type_map(m) super register_class_with_limit m, %r(int)i, SQLite3Integer end end TYPE_MAP = Type::TypeMap.new.tap { |m| initialize_type_map(m) } private def type_map TYPE_MAP end # See https://www.sqlite.org/limits.html, # the default value is 999 when not configured. def bind_params_length 999 end def table_structure(table_name) structure = exec_query("PRAGMA table_info(#{quote_table_name(table_name)})", "SCHEMA") raise(ActiveRecord::StatementInvalid, "Could not find table '#{table_name}'") if structure.empty? table_structure_with_collation(table_name, structure) end alias column_definitions table_structure def extract_value_from_default(default) case default when /^null$/i nil # Quoted types when /^'(.*)'$/m $1.gsub("''", "'") # Quoted types when /^"(.*)"$/m $1.gsub('""', '"') # Numeric types when /\A-?\d+(\.\d*)?\z/ $& else # Anything else is blank or some function # and we can't know the value of that, so return nil. nil end end def extract_default_function(default_value, default) default if has_default_function?(default_value, default) end def has_default_function?(default_value, default) !default_value && %r{\w+\(.*\)|CURRENT_TIME|CURRENT_DATE|CURRENT_TIMESTAMP}.match?(default) end # See: https://www.sqlite.org/lang_altertable.html # SQLite has an additional restriction on the ALTER TABLE statement def invalid_alter_table_type?(type, options) type.to_sym == :primary_key || options[:primary_key] || options[:null] == false && options[:default].nil? end def alter_table( table_name, foreign_keys = foreign_keys(table_name), check_constraints = check_constraints(table_name), **options ) altered_table_name = "a#{table_name}" caller = lambda do |definition| rename = options[:rename] || {} foreign_keys.each do |fk| if column = rename[fk.options[:column]] fk.options[:column] = column end to_table = strip_table_name_prefix_and_suffix(fk.to_table) definition.foreign_key(to_table, **fk.options) end check_constraints.each do |chk| definition.check_constraint(chk.expression, **chk.options) end yield definition if block_given? end transaction do disable_referential_integrity do move_table(table_name, altered_table_name, options.merge(temporary: true)) move_table(altered_table_name, table_name, &caller) end end end def move_table(from, to, options = {}, &block) copy_table(from, to, options, &block) drop_table(from) end def copy_table(from, to, options = {}) from_primary_key = primary_key(from) options[:id] = false create_table(to, **options) do |definition| @definition = definition if from_primary_key.is_a?(Array) @definition.primary_keys from_primary_key end columns(from).each do |column| column_name = options[:rename] ? (options[:rename][column.name] || options[:rename][column.name.to_sym] || column.name) : column.name @definition.column(column_name, column.type, limit: column.limit, default: column.default, precision: column.precision, scale: column.scale, null: column.null, collation: column.collation, primary_key: column_name == from_primary_key ) end yield @definition if block_given? end copy_table_indexes(from, to, options[:rename] || {}) copy_table_contents(from, to, @definition.columns.map(&:name), options[:rename] || {}) end def copy_table_indexes(from, to, rename = {}) indexes(from).each do |index| name = index.name if to == "a#{from}" name = "t#{name}" elsif from == "a#{to}" name = name[1..-1] end columns = index.columns if columns.is_a?(Array) to_column_names = columns(to).map(&:name) columns = columns.map { |c| rename[c] || c }.select do |column| to_column_names.include?(column) end end unless columns.empty? # index name can't be the same options = { name: name.gsub(/(^|_)(#{from})_/, "\\1#{to}_"), internal: true } options[:unique] = true if index.unique options[:where] = index.where if index.where options[:order] = index.orders if index.orders add_index(to, columns, **options) end end end def copy_table_contents(from, to, columns, rename = {}) column_mappings = Hash[columns.map { |name| [name, name] }] rename.each { |a| column_mappings[a.last] = a.first } from_columns = columns(from).collect(&:name) columns = columns.find_all { |col| from_columns.include?(column_mappings[col]) } from_columns_to_copy = columns.map { |col| column_mappings[col] } quoted_columns = columns.map { |col| quote_column_name(col) } * "," quoted_from_columns = from_columns_to_copy.map { |col| quote_column_name(col) } * "," exec_query("INSERT INTO #{quote_table_name(to)} (#{quoted_columns}) SELECT #{quoted_from_columns} FROM #{quote_table_name(from)}") end def translate_exception(exception, message:, sql:, binds:) # 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 if exception.message.match?(/(column(s)? .* (is|are) not unique|UNIQUE constraint failed: .*)/i) RecordNotUnique.new(message, sql: sql, binds: binds) elsif exception.message.match?(/(.* may not be NULL|NOT NULL constraint failed: .*)/i) NotNullViolation.new(message, sql: sql, binds: binds) elsif exception.message.match?(/FOREIGN KEY constraint failed/i) InvalidForeignKey.new(message, sql: sql, binds: binds) elsif exception.message.match?(/called on a closed database/i) ConnectionNotEstablished.new(exception) else super end end COLLATE_REGEX = /.*"(\w+)".*collate\s+"(\w+)".*/i.freeze def table_structure_with_collation(table_name, basic_structure) collation_hash = {} sql = <<~SQL SELECT sql FROM (SELECT * FROM sqlite_master UNION ALL SELECT * FROM sqlite_temp_master) WHERE type = 'table' AND name = #{quote(table_name)} SQL # Result will have following sample string # CREATE TABLE "users" ("id" INTEGER PRIMARY KEY AUTOINCREMENT NOT NULL, # "password_digest" varchar COLLATE "NOCASE"); result = query_value(sql, "SCHEMA") if result # Splitting with left parentheses and discarding the first part will return all # columns separated with comma(,). columns_string = result.split("(", 2).last columns_string.split(",").each do |column_string| # This regex will match the column name and collation type and will save # the value in $1 and $2 respectively. collation_hash[$1] = $2 if COLLATE_REGEX =~ column_string end basic_structure.map do |column| column_name = column["name"] if collation_hash.has_key? column_name column["collation"] = collation_hash[column_name] end column end else basic_structure.to_a end end def arel_visitor Arel::Visitors::SQLite.new(self) end def build_statement_pool StatementPool.new(self.class.type_cast_config_to_integer(@config[:statement_limit])) end def connect @connection = ::SQLite3::Database.new( @config[:database].to_s, @config.merge(results_as_hash: true) ) configure_connection end def configure_connection @connection.busy_timeout(self.class.type_cast_config_to_integer(@config[:timeout])) if @config[:timeout] execute("PRAGMA foreign_keys = ON", "SCHEMA") end end ActiveSupport.run_load_hooks(:active_record_sqlite3adapter, SQLite3Adapter) end end