# frozen-string-literal: true
module Sequel
class Database
# ---------------------
# :section: 7 - Miscellaneous methods
# These methods don't fit neatly into another category.
# ---------------------
# Hash of extension name symbols to callable objects to load the extension
# into the Database object (usually by extending it with a module defined
# in the extension).
EXTENSIONS = {}
# The general default size for string columns for all Sequel::Database
# instances.
DEFAULT_STRING_COLUMN_SIZE = 255
# Empty exception regexp to class map, used by default if Sequel doesn't
# have specific support for the database in use.
DEFAULT_DATABASE_ERROR_REGEXPS = {}.freeze
# Mapping of schema type symbols to class or arrays of classes for that
# symbol.
SCHEMA_TYPE_CLASSES = {:string=>String, :integer=>Integer, :date=>Date, :datetime=>[Time, DateTime].freeze,
:time=>Sequel::SQLTime, :boolean=>[TrueClass, FalseClass].freeze, :float=>Float, :decimal=>BigDecimal,
:blob=>Sequel::SQL::Blob}.freeze
# Nested hook Proc; each new hook Proc just wraps the previous one.
@initialize_hook = proc{|db| }
# Register a hook that will be run when a new Database is instantiated. It is
# called with the new database handle.
def self.after_initialize(&block)
raise Error, "must provide block to after_initialize" unless block
Sequel.synchronize do
previous = @initialize_hook
@initialize_hook = proc do |db|
previous.call(db)
block.call(db)
end
end
end
# Apply an extension to all Database objects created in the future.
def self.extension(*extensions)
after_initialize{|db| db.extension(*extensions)}
end
# Register an extension callback for Database objects. ext should be the
# extension name symbol, and mod should either be a Module that the
# database is extended with, or a callable object called with the database
# object. If mod is not provided, a block can be provided and is treated
# as the mod object.
def self.register_extension(ext, mod=nil, &block)
if mod
raise(Error, "cannot provide both mod and block to Database.register_extension") if block
if mod.is_a?(Module)
block = proc{|db| db.extend(mod)}
else
block = mod
end
end
Sequel.synchronize{EXTENSIONS[ext] = block}
end
# Run the after_initialize hook for the given +instance+.
def self.run_after_initialize(instance)
@initialize_hook.call(instance)
end
# Converts a uri to an options hash. These options are then passed
# to a newly created database object.
def self.uri_to_options(uri)
{
:user => uri.user,
:password => uri.password,
:port => uri.port,
:host => uri.hostname,
:database => (m = /\/(.*)/.match(uri.path)) && (m[1])
}
end
private_class_method :uri_to_options
# The options hash for this database
attr_reader :opts
# Set the timezone to use for this database, overridding Sequel.database_timezone.
attr_writer :timezone
# The specific default size of string columns for this Sequel::Database, usually 255 by default.
attr_accessor :default_string_column_size
# Whether to check the bytesize of strings before typecasting (to avoid typecasting strings that
# would be too long for the given type), true by default. Strings that are too long will raise
# a typecasting error.
attr_accessor :check_string_typecast_bytesize
# Constructs a new instance of a database connection with the specified
# options hash.
#
# Accepts the following options:
# :after_connect :: A callable object called after each new connection is made, with the
# connection object (and server argument if the callable accepts 2 arguments),
# useful for customizations that you want to apply to all connections.
# :before_preconnect :: Callable that runs after extensions from :preconnect_extensions are loaded,
# but before any connections are created.
# :cache_schema :: Whether schema should be cached for this Database instance
# :check_string_typecast_bytesize :: Whether to check the bytesize of strings before typecasting.
# :connect_sqls :: An array of sql strings to execute on each new connection, after :after_connect runs.
# :default_string_column_size :: The default size of string columns, 255 by default.
# :extensions :: Extensions to load into this Database instance. Can be a symbol, array of symbols,
# or string with extensions separated by columns. These extensions are loaded after
# connections are made by the :preconnect option.
# :keep_reference :: Whether to keep a reference to this instance in Sequel::DATABASES, true by default.
# :logger :: A specific logger to use.
# :loggers :: An array of loggers to use.
# :log_connection_info :: Whether connection information should be logged when logging queries.
# :log_warn_duration :: The number of elapsed seconds after which queries should be logged at warn level.
# :name :: A name to use for the Database object, displayed in PoolTimeout.
# :preconnect :: Automatically create the maximum number of connections, so that they don't
# need to be created as needed. This is useful when connecting takes a long time
# and you want to avoid possible latency during runtime.
# Set to :concurrently to create the connections in separate threads. Otherwise
# they'll be created sequentially.
# :preconnect_extensions :: Similar to the :extensions option, but loads the extensions before the
# connections are made by the :preconnect option.
# :quote_identifiers :: Whether to quote identifiers.
# :servers :: A hash specifying a server/shard specific options, keyed by shard symbol.
# :single_threaded :: Whether to use a single-threaded connection pool.
# :sql_log_level :: Method to use to log SQL to a logger, :info by default.
#
# For sharded connection pools, :after_connect and :connect_sqls can be specified per-shard.
#
# All options given are also passed to the connection pool. Additional options respected by
# the connection pool are :max_connections, :pool_timeout, :servers, and :servers_hash. See the
# connection pool documentation for details.
def initialize(opts = OPTS)
@opts ||= opts
@opts = connection_pool_default_options.merge(@opts)
@loggers = Array(@opts[:logger]) + Array(@opts[:loggers])
@opts[:servers] = {} if @opts[:servers].is_a?(String)
@sharded = !!@opts[:servers]
@opts[:adapter_class] = self.class
@opts[:single_threaded] = @single_threaded = typecast_value_boolean(@opts.fetch(:single_threaded, Sequel.single_threaded))
@default_string_column_size = @opts[:default_string_column_size] || DEFAULT_STRING_COLUMN_SIZE
@check_string_typecast_bytesize = typecast_value_boolean(@opts.fetch(:check_string_typecast_bytesize, true))
@schemas = {}
@prepared_statements = {}
@transactions = {}
@symbol_literal_cache = {}
@timezone = nil
@dataset_class = dataset_class_default
@cache_schema = typecast_value_boolean(@opts.fetch(:cache_schema, true))
@dataset_modules = []
@loaded_extensions = []
@schema_type_classes = SCHEMA_TYPE_CLASSES.dup
self.sql_log_level = @opts[:sql_log_level] ? @opts[:sql_log_level].to_sym : :info
self.log_warn_duration = @opts[:log_warn_duration]
self.log_connection_info = typecast_value_boolean(@opts[:log_connection_info])
@pool = ConnectionPool.get_pool(self, @opts)
reset_default_dataset
adapter_initialize
keep_reference = typecast_value_boolean(@opts[:keep_reference]) != false
begin
Sequel.synchronize{::Sequel::DATABASES.push(self)} if keep_reference
Sequel::Database.run_after_initialize(self)
initialize_load_extensions(:preconnect_extensions)
if before_preconnect = @opts[:before_preconnect]
before_preconnect.call(self)
end
if typecast_value_boolean(@opts[:preconnect]) && @pool.respond_to?(:preconnect, true)
concurrent = typecast_value_string(@opts[:preconnect]) == "concurrently"
@pool.send(:preconnect, concurrent)
end
initialize_load_extensions(:extensions)
test_connection if typecast_value_boolean(@opts.fetch(:test, true)) && respond_to?(:connect, true)
rescue
Sequel.synchronize{::Sequel::DATABASES.delete(self)} if keep_reference
raise
end
end
# Freeze internal data structures for the Database instance.
def freeze
valid_connection_sql
metadata_dataset
@opts.freeze
@loggers.freeze
@pool.freeze
@dataset_class.freeze
@dataset_modules.freeze
@schema_type_classes.freeze
@loaded_extensions.freeze
metadata_dataset
super
end
# Disallow dup/clone for Database instances
undef_method :dup, :clone, :initialize_copy
# :nocov:
if RUBY_VERSION >= '1.9.3'
# :nocov:
undef_method :initialize_clone, :initialize_dup
end
# Cast the given type to a literal type
#
# DB.cast_type_literal(Float) # double precision
# DB.cast_type_literal(:foo) # foo
def cast_type_literal(type)
type_literal(:type=>type)
end
# Load an extension into the receiver. In addition to requiring the extension file, this
# also modifies the database to work with the extension (usually extending it with a
# module defined in the extension file). If no related extension file exists or the
# extension does not have specific support for Database objects, an Error will be raised.
# Returns self.
def extension(*exts)
Sequel.extension(*exts)
exts.each do |ext|
if pr = Sequel.synchronize{EXTENSIONS[ext]}
if Sequel.synchronize{@loaded_extensions.include?(ext) ? false : (@loaded_extensions << ext)}
pr.call(self)
end
else
raise(Error, "Extension #{ext} does not have specific support handling individual databases (try: Sequel.extension #{ext.inspect})")
end
end
self
end
# Convert the given timestamp from the application's timezone,
# to the databases's timezone or the default database timezone if
# the database does not have a timezone.
def from_application_timestamp(v)
Sequel.convert_output_timestamp(v, timezone)
end
# Returns a string representation of the database object including the
# class name and connection URI and options used when connecting (if any).
def inspect
a = []
a << uri.inspect if uri
if (oo = opts[:orig_opts]) && !oo.empty?
a << oo.inspect
end
"#<#{self.class}: #{a.join(' ')}>"
end
# Proxy the literal call to the dataset.
#
# DB.literal(1) # 1
# DB.literal(:a) # a
# DB.literal('a') # 'a'
def literal(v)
schema_utility_dataset.literal(v)
end
# Return the literalized version of the symbol if cached, or
# nil if it is not cached.
def literal_symbol(sym)
Sequel.synchronize{@symbol_literal_cache[sym]}
end
# Set the cached value of the literal symbol.
def literal_symbol_set(sym, lit)
Sequel.synchronize{@symbol_literal_cache[sym] = lit}
end
# Synchronize access to the prepared statements cache.
def prepared_statement(name)
Sequel.synchronize{prepared_statements[name]}
end
# Proxy the quote_identifier method to the dataset,
# useful for quoting unqualified identifiers for use
# outside of datasets.
def quote_identifier(v)
schema_utility_dataset.quote_identifier(v)
end
# Return ruby class or array of classes for the given type symbol.
def schema_type_class(type)
@schema_type_classes[type]
end
# Default serial primary key options, used by the table creation code.
def serial_primary_key_options
{:primary_key => true, :type => Integer, :auto_increment => true}
end
# Cache the prepared statement object at the given name.
def set_prepared_statement(name, ps)
Sequel.synchronize{prepared_statements[name] = ps}
end
# Whether this database instance uses multiple servers, either for sharding
# or for primary/replica configurations.
def sharded?
@sharded
end
# The timezone to use for this database, defaulting to Sequel.database_timezone.
def timezone
@timezone || Sequel.database_timezone
end
# Convert the given timestamp to the application's timezone,
# from the databases's timezone or the default database timezone if
# the database does not have a timezone.
def to_application_timestamp(v)
Sequel.convert_timestamp(v, timezone)
end
# Typecast the value to the given column_type. Calls
# typecast_value_#{column_type} if the method exists,
# otherwise returns the value.
# This method should raise Sequel::InvalidValue if assigned value
# is invalid.
def typecast_value(column_type, value)
return nil if value.nil?
meth = "typecast_value_#{column_type}"
begin
# Allow calling private methods as per-type typecasting methods are private
respond_to?(meth, true) ? send(meth, value) : value
rescue ArgumentError, TypeError => e
raise Sequel.convert_exception_class(e, InvalidValue)
end
end
# Returns the URI use to connect to the database. If a URI
# was not used when connecting, returns nil.
def uri
opts[:uri]
end
# Explicit alias of uri for easier subclassing.
def url
uri
end
private
# Per adapter initialization method, empty by default.
def adapter_initialize
end
# Returns true when the object is considered blank.
# The only objects that are blank are nil, false,
# strings with all whitespace, and ones that respond
# true to empty?
def blank_object?(obj)
return obj.blank? if obj.respond_to?(:blank?)
case obj
when NilClass, FalseClass
true
when Numeric, TrueClass
false
when String
obj.strip.empty?
else
obj.respond_to?(:empty?) ? obj.empty? : false
end
end
# An enumerable yielding pairs of regexps and exception classes, used
# to match against underlying driver exception messages in
# order to raise a more specific Sequel::DatabaseError subclass.
def database_error_regexps
DEFAULT_DATABASE_ERROR_REGEXPS
end
# Return the Sequel::DatabaseError subclass to wrap the given
# exception in.
def database_error_class(exception, opts)
database_specific_error_class(exception, opts) || DatabaseError
end
# Return the SQLState for the given exception, if one can be determined
def database_exception_sqlstate(exception, opts)
nil
end
# Return a specific Sequel::DatabaseError exception class if
# one is appropriate for the underlying exception,
# or nil if there is no specific exception class.
def database_specific_error_class(exception, opts)
return DatabaseDisconnectError if disconnect_error?(exception, opts)
if sqlstate = database_exception_sqlstate(exception, opts)
if klass = database_specific_error_class_from_sqlstate(sqlstate)
return klass
end
else
database_error_regexps.each do |regexp, klss|
return klss if exception.message =~ regexp
end
end
nil
end
NOT_NULL_CONSTRAINT_SQLSTATES = %w'23502'.freeze.each(&:freeze)
FOREIGN_KEY_CONSTRAINT_SQLSTATES = %w'23503 23506 23504'.freeze.each(&:freeze)
UNIQUE_CONSTRAINT_SQLSTATES = %w'23505'.freeze.each(&:freeze)
CHECK_CONSTRAINT_SQLSTATES = %w'23513 23514'.freeze.each(&:freeze)
SERIALIZATION_CONSTRAINT_SQLSTATES = %w'40001'.freeze.each(&:freeze)
# Given the SQLState, return the appropriate DatabaseError subclass.
def database_specific_error_class_from_sqlstate(sqlstate)
case sqlstate
when *NOT_NULL_CONSTRAINT_SQLSTATES
NotNullConstraintViolation
when *FOREIGN_KEY_CONSTRAINT_SQLSTATES
ForeignKeyConstraintViolation
when *UNIQUE_CONSTRAINT_SQLSTATES
UniqueConstraintViolation
when *CHECK_CONSTRAINT_SQLSTATES
CheckConstraintViolation
when *SERIALIZATION_CONSTRAINT_SQLSTATES
SerializationFailure
end
end
# Return true if exception represents a disconnect error, false otherwise.
def disconnect_error?(exception, opts)
opts[:disconnect]
end
# Load extensions during initialization from the given key in opts.
def initialize_load_extensions(key)
case exts = @opts[key]
when String
extension(*exts.split(',').map(&:to_sym))
when Array
extension(*exts)
when Symbol
extension(exts)
when nil
# nothing
else
raise Error, "unsupported Database #{key.inspect} option: #{@opts[key].inspect}"
end
end
# Convert the given exception to an appropriate Sequel::DatabaseError
# subclass, keeping message and backtrace.
def raise_error(exception, opts=OPTS)
if !opts[:classes] || Array(opts[:classes]).any?{|c| exception.is_a?(c)}
raise Sequel.convert_exception_class(exception, database_error_class(exception, opts))
else
raise exception
end
end
# Swallow database errors, unless they are connect/disconnect errors.
def swallow_database_error
yield
rescue Sequel::DatabaseDisconnectError, DatabaseConnectionError
# Always raise disconnect errors
raise
rescue Sequel::DatabaseError
# Don't raise other database errors.
nil
# else
# Don't rescue other exceptions, they will be raised normally.
end
# Check the bytesize of a string before conversion. There is no point
# trying to typecast strings that would be way too long.
def typecast_check_string_length(string, max_size)
if @check_string_typecast_bytesize && string.bytesize > max_size
raise InvalidValue, "string too long to typecast (bytesize: #{string.bytesize}, max: #{max_size})"
end
string
end
# Check the bytesize of the string value, if value is a string.
def typecast_check_length(value, max_size)
typecast_check_string_length(value, max_size) if String === value
value
end
# Typecast the value to an SQL::Blob
def typecast_value_blob(value)
value.is_a?(Sequel::SQL::Blob) ? value : Sequel::SQL::Blob.new(value)
end
# Typecast the value to true, false, or nil
def typecast_value_boolean(value)
case value
when false, 0, "0", /\Af(alse)?\z/i, /\Ano?\z/i
false
else
blank_object?(value) ? nil : true
end
end
# Typecast the value to a Date
def typecast_value_date(value)
case value
when DateTime, Time
Date.new(value.year, value.month, value.day)
when Date
value
when String
Sequel.string_to_date(typecast_check_string_length(value, 100))
when Hash
Date.new(*[:year, :month, :day].map{|x| typecast_check_length(value[x] || value[x.to_s], 100).to_i})
else
raise InvalidValue, "invalid value for Date: #{value.inspect}"
end
end
# Typecast the value to a DateTime or Time depending on Sequel.datetime_class
def typecast_value_datetime(value)
case value
when String
Sequel.typecast_to_application_timestamp(typecast_check_string_length(value, 100))
when Hash
[:year, :month, :day, :hour, :minute, :second, :nanos, :offset].each do |x|
typecast_check_length(value[x] || value[x.to_s], 100)
end
Sequel.typecast_to_application_timestamp(value)
else
Sequel.typecast_to_application_timestamp(value)
end
end
if RUBY_VERSION >= '2.4'
# Typecast a string to a BigDecimal
alias _typecast_value_string_to_decimal BigDecimal
else
# :nocov:
def _typecast_value_string_to_decimal(value)
d = BigDecimal(value)
if d.zero?
# BigDecimal parsing is loose by default, returning a 0 value for
# invalid input. If a zero value is received, use Float to check
# for validity.
begin
Float(value)
rescue ArgumentError
raise InvalidValue, "invalid value for BigDecimal: #{value.inspect}"
end
end
d
end
# :nocov:
end
# Typecast the value to a BigDecimal
def typecast_value_decimal(value)
case value
when BigDecimal
value
when Numeric
BigDecimal(value.to_s)
when String
_typecast_value_string_to_decimal(typecast_check_string_length(value, 1000))
else
raise InvalidValue, "invalid value for BigDecimal: #{value.inspect}"
end
end
# Typecast the value to a Float
def typecast_value_float(value)
Float(typecast_check_length(value, 1000))
end
# Typecast the value to an Integer
def typecast_value_integer(value)
case value
when String
typecast_check_string_length(value, 100)
if value =~ /\A-?0+(\d)/
Integer(value, 10)
else
Integer(value)
end
else
Integer(value)
end
end
# Typecast the value to a String
def typecast_value_string(value)
case value
when Hash, Array
raise Sequel::InvalidValue, "invalid value for String: #{value.inspect}"
else
value.to_s
end
end
# Typecast the value to a Time
def typecast_value_time(value)
case value
when Time
if value.is_a?(SQLTime)
value
else
SQLTime.create(value.hour, value.min, value.sec, value.nsec/1000.0)
end
when String
Sequel.string_to_time(typecast_check_string_length(value, 100))
when Hash
SQLTime.create(*[:hour, :minute, :second].map{|x| typecast_check_length(value[x] || value[x.to_s], 100).to_i})
else
raise Sequel::InvalidValue, "invalid value for Time: #{value.inspect}"
end
end
end
end