ScriptError is the superclass for errors raised when a script can not be executed because of a LoadError, NotImplementedError or a SyntaxError. Note these type of ScriptErrors are not StandardError and will not be rescued unless it is specified explicitly (or its ancestor Exception).
Raised when a feature is not implemented on the current platform. For example, methods depending on the fsync or fork system calls may raise this exception if the underlying operating system or Ruby runtime does not support them.
Note that if fork raises a NotImplementedError, then respond_to?(:fork) returns false.
A generic error class raised when an invalid operation is attempted.
[1, 2, 3].freeze << 4
raises the exception:
RuntimeError: can't modify frozen Array
Kernel.raise will raise a RuntimeError if no Exception class is specified.
raise "ouch"
raises the exception:
RuntimeError: ouch
Raised when attempting a potential unsafe operation, typically when the $SAFE level is raised above 0.
foo = "bar" proc = Proc.new do $SAFE = 3 foo.untaint end proc.call
raises the exception:
SecurityError: Insecure: Insecure operation `untaint' at level 3
OLEProperty helper class of Property with arguments.
Raised when an IO operation fails.
File.open("/etc/hosts") {|f| f << "example"} #=> IOError: not opened for writing File.open("/etc/hosts") {|f| f.close; f.read } #=> IOError: closed stream
Note that some IO failures raise SystemCallErrors and these are not subclasses of IOError:
File.open("does/not/exist") #=> Errno::ENOENT: No such file or directory - does/not/exist
A class that provides two-phase lock with a counter. See Sync_m for details.
The Comparable mixin is used by classes whose objects may be ordered. The class must define the <=> operator, which compares the receiver against another object, returning -1, 0, or +1 depending on whether the receiver is less than, equal to, or greater than the other object. If the other object is not comparable then the <=> operator should return nil. Comparable uses <=> to implement the conventional comparison operators (<, <=, ==, >=, and >) and the method between?.
class SizeMatters include Comparable attr :str def <=>(other) str.size <=> other.str.size end def initialize(str) @str = str end def inspect @str end end s1 = SizeMatters.new("Z") s2 = SizeMatters.new("YY") s3 = SizeMatters.new("XXX") s4 = SizeMatters.new("WWWW") s5 = SizeMatters.new("VVVVV") s1 < s2 #=> true s4.between?(s1, s3) #=> false s4.between?(s3, s5) #=> true [ s3, s2, s5, s4, s1 ].sort #=> [Z, YY, XXX, WWWW, VVVVV]
The Observer pattern (also known as publish/subscribe) provides a simple mechanism for one object to inform a set of interested third-party objects when its state changes.
The notifying class mixes in the Observable module, which provides the methods for managing the associated observer objects.
The observable object must:
assert that it has #changed
call #notify_observers
An observer subscribes to updates using Observable#add_observer, which also specifies the method called via notify_observers. The default method for notify_observers is update.
The following example demonstrates this nicely. A Ticker, when run, continually receives the stock Price for its @symbol. A Warner is a general observer of the price, and two warners are demonstrated, a WarnLow and a WarnHigh, which print a warning if the price is below or above their set limits, respectively.
The update callback allows the warners to run without being explicitly called. The system is set up with the Ticker and several observers, and the observers do their duty without the top-level code having to interfere.
Note that the contract between publisher and subscriber (observable and observer) is not declared or enforced. The Ticker publishes a time and a price, and the warners receive that. But if you don’t ensure that your contracts are correct, nothing else can warn you.
require "observer" class Ticker ### Periodically fetch a stock price. include Observable def initialize(symbol) @symbol = symbol end def run last_price = nil loop do price = Price.fetch(@symbol) print "Current price: #{price}\n" if price != last_price changed # notify observers last_price = price notify_observers(Time.now, price) end sleep 1 end end end class Price ### A mock class to fetch a stock price (60 - 140). def self.fetch(symbol) 60 + rand(80) end end class Warner ### An abstract observer of Ticker objects. def initialize(ticker, limit) @limit = limit ticker.add_observer(self) end end class WarnLow < Warner def update(time, price) # callback for observer if price < @limit print "--- #{time.to_s}: Price below #@limit: #{price}\n" end end end class WarnHigh < Warner def update(time, price) # callback for observer if price > @limit print "+++ #{time.to_s}: Price above #@limit: #{price}\n" end end end ticker = Ticker.new("MSFT") WarnLow.new(ticker, 80) WarnHigh.new(ticker, 120) ticker.run
Produces:
Current price: 83 Current price: 75 --- Sun Jun 09 00:10:25 CDT 2002: Price below 80: 75 Current price: 90 Current price: 134 +++ Sun Jun 09 00:10:25 CDT 2002: Price above 120: 134 Current price: 134 Current price: 112 Current price: 79 --- Sun Jun 09 00:10:25 CDT 2002: Price below 80: 79
This library is an interface to secure random number generators which are suitable for generating session keys in HTTP cookies, etc.
You can use this library in your application by requiring it:
require 'securerandom'
It supports the following secure random number generators:
openssl
/dev/urandom
Win32
Generate random hexadecimal strings:
require 'securerandom' p SecureRandom.hex(10) #=> "52750b30ffbc7de3b362" p SecureRandom.hex(10) #=> "92b15d6c8dc4beb5f559" p SecureRandom.hex(13) #=> "39b290146bea6ce975c37cfc23"
Generate random base64 strings:
p SecureRandom.base64(10) #=> "EcmTPZwWRAozdA==" p SecureRandom.base64(10) #=> "KO1nIU+p9DKxGg==" p SecureRandom.base64(12) #=> "7kJSM/MzBJI+75j8"
Generate random binary strings:
p SecureRandom.random_bytes(10) #=> "\016\t{\370g\310pbr\301" p SecureRandom.random_bytes(10) #=> "\323U\030TO\234\357\020\a\337"
Generate UUIDs:
p SecureRandom.uuid #=> "2d931510-d99f-494a-8c67-87feb05e1594" p SecureRandom.uuid #=> "bad85eb9-0713-4da7-8d36-07a8e4b00eab"
A module that provides a two-phase lock with a counter.
A module that provides a two-phase lock with a counter.
The marshaling library converts collections of Ruby objects into a byte stream, allowing them to be stored outside the currently active script. This data may subsequently be read and the original objects reconstituted.
Marshaled data has major and minor version numbers stored along with the object information. In normal use, marshaling can only load data written with the same major version number and an equal or lower minor version number. If Ruby’s “verbose” flag is set (normally using -d, -v, -w, or –verbose) the major and minor numbers must match exactly. Marshal versioning is independent of Ruby’s version numbers. You can extract the version by reading the first two bytes of marshaled data.
str = Marshal.dump("thing") RUBY_VERSION #=> "1.9.0" str[0].ord #=> 4 str[1].ord #=> 8
Some objects cannot be dumped: if the objects to be dumped include bindings, procedure or method objects, instances of class IO, or singleton objects, a TypeError will be raised.
If your class has special serialization needs (for example, if you want to serialize in some specific format), or if it contains objects that would otherwise not be serializable, you can implement your own serialization strategy.
There are two methods of doing this, your object can define either marshal_dump and marshal_load or _dump and _load. marshal_dump will take precedence over _dump if both are defined. marshal_dump may result in smaller Marshal strings.
By design, Marshal.load can deserialize almost any class loaded into the Ruby process. In many cases this can lead to remote code execution if the Marshal data is loaded from an untrusted source.
As a result, Marshal.load is not suitable as a general purpose serialization format and you should never unmarshal user supplied input or other untrusted data.
If you need to deserialize untrusted data, use JSON or another serialization format that is only able to load simple, ‘primitive’ types such as String, Array, Hash, etc. Never allow user input to specify arbitrary types to deserialize into.
When dumping an object the method marshal_dump will be called. marshal_dump must return a result containing the information necessary for marshal_load to reconstitute the object. The result can be any object.
When loading an object dumped using marshal_dump the object is first allocated then marshal_load is called with the result from marshal_dump. marshal_load must recreate the object from the information in the result.
Example:
class MyObj def initialize name, version, data @name = name @version = version @data = data end def marshal_dump [@name, @version] end def marshal_load array @name, @version = array end end
Use _dump and _load when you need to allocate the object you’re restoring yourself.
When dumping an object the instance method _dump is called with an Integer which indicates the maximum depth of objects to dump (a value of -1 implies that you should disable depth checking). _dump must return a String containing the information necessary to reconstitute the object.
The class method _load should take a String and use it to return an object of the same class.
Example:
class MyObj def initialize name, version, data @name = name @version = version @data = data end def _dump level [@name, @version].join ':' end def self._load args new(*args.split(':')) end end
Since Marshal.dump outputs a string you can have _dump return a Marshal string which is Marshal.loaded in _load for complex objects.
This exception is raised if a generator or unparser error occurs.
POP3 authentication error.
Potentially raised when a specification is validated.
This exception is raised if a parser error occurs.
Represents an SMTP authentication error.
You don’t want to use this class. Really. Use XPath, which is a wrapper for this class. Believe me. You don’t want to poke around in here. There is strange, dark magic at work in this code. Beware. Go back! Go back while you still can!