A ComposedSet allows multiple sets to be queried like a single set.
To create a composed set with any number of sets use:
Gem::Resolver.compose_sets set1, set2
This method will eliminate nesting of composed sets.
A GitSpecification represents a gem that is sourced from a git repository and is being loaded through a gem dependencies file through the git: option.
Represents a possible Specification object returned from IndexSet. Used to delay needed to download full Specification objects when only the name and version are needed.
A LocalSpecification comes from a .gem file on the local filesystem.
The LockSpecification comes from a lockfile (Gem::RequestSet::Lockfile).
A LockSpecification’s dependency information is pre-filled from the lockfile.
The Resolver::SpecSpecification contains common functionality for Resolver specifications that are backed by a Gem::Specification.
A Resolver::Specification contains a subset of the information contained in a Gem::Specification. Only the information necessary for dependency resolution in the resolver is included.
Gem::Security default exception type
The TrustDir manages the trusted certificates for gem signature verification.
The StaticSet is a static set of gem specifications used for testing only. It is available by requiring Gem::TestCase.
RFC 2617 Digest Access Authentication for WEBrick
Use this class to add digest authentication to a WEBrick servlet.
Here is an example of how to set up DigestAuth:
config = { :Realm => 'DigestAuth example realm' } htdigest = WEBrick::HTTPAuth::Htdigest.new 'my_password_file' htdigest.set_passwd config[:Realm], 'username', 'password' htdigest.flush config[:UserDB] = htdigest digest_auth = WEBrick::HTTPAuth::DigestAuth.new config
When using this as with a servlet be sure not to create a new DigestAuth object in the servlet’s initialize. By default WEBrick creates a new servlet instance for every request and the DigestAuth object must be used across requests.
Digest authentication for proxy servers. See DigestAuth for details.
Htdigest accesses apache-compatible digest password files. Passwords are matched to a realm where they are valid. For security, the path for a digest password database should be stored outside of the paths available to the HTTP server.
Htdigest is intended for use with WEBrick::HTTPAuth::DigestAuth and stores passwords using cryptographic hashes.
htpasswd = WEBrick::HTTPAuth::Htdigest.new 'my_password_file' htpasswd.set_passwd 'my realm', 'username', 'password' htpasswd.flush
AbstractServlet allows HTTP server modules to be reused across multiple servers and allows encapsulation of functionality.
By default a servlet will respond to GET, HEAD (through an alias to GET) and OPTIONS requests.
By default a new servlet is initialized for every request. A servlet instance can be reused by overriding ::get_instance in the AbstractServlet subclass.
class Simple < WEBrick::HTTPServlet::AbstractServlet def do_GET request, response status, content_type, body = do_stuff_with request response.status = status response['Content-Type'] = content_type response.body = body end def do_stuff_with request return 200, 'text/plain', 'you got a page' end end
This servlet can be mounted on a server at a given path:
server.mount '/simple', Simple
Servlets can be configured via initialize. The first argument is the HTTP server the servlet is being initialized for.
class Configurable < Simple
def initialize server, color, size
super server
@color = color
@size = size
end
def do_stuff_with request
content = "<p " \
%q{style="color: #{@color}; font-size: #{@size}"} \
">Hello, World!"
return 200, "text/html", content
end
end
This servlet must be provided two arguments at mount time:
server.mount '/configurable', Configurable, 'red', '2em'
Root of the HTTP status class hierarchy
An object representation of a stack frame, initialized by Kernel#caller_locations.
For example:
# caller_locations.rb def a(skip) caller_locations(skip) end def b(skip) a(skip) end def c(skip) b(skip) end c(0..2).map do |call| puts call.to_s end
Running ruby caller_locations.rb will produce:
caller_locations.rb:2:in `a' caller_locations.rb:5:in `b' caller_locations.rb:8:in `c'
Here’s another example with a slightly different result:
# foo.rb class Foo attr_accessor :locations def initialize(skip) @locations = caller_locations(skip) end end Foo.new(0..2).locations.map do |call| puts call.to_s end
Now run ruby foo.rb and you should see:
init.rb:4:in `initialize' init.rb:8:in `new' init.rb:8:in `<main>'
Includes URI::REGEXP::PATTERN
An error that occurred during the resolution process
SSLServer represents a TCP/IP server socket with Secure Sockets Layer.
The parent class for all primitive encodings. Attributes are the same as for ASN1Data, with the addition of tagging. Primitive values can never be encoded with indefinite length form, thus it is not possible to set the indefinite_length attribute for Primitive and its sub-classes.
Primitive sub-classes and their mapping to Ruby classes OpenSSL::ASN1::EndOfContent <=> value is always nil
OpenSSL::ASN1::Boolean <=> value is true or false
OpenSSL::ASN1::Integer <=> value is an OpenSSL::BN
OpenSSL::ASN1::BitString <=> value is a String
OpenSSL::ASN1::OctetString <=> value is a String
OpenSSL::ASN1::Null <=> value is always nil
OpenSSL::ASN1::Object <=> value is a String
OpenSSL::ASN1::Enumerated <=> value is an OpenSSL::BN
OpenSSL::ASN1::UTF8String <=> value is a String
OpenSSL::ASN1::NumericString <=> value is a String
OpenSSL::ASN1::PrintableString <=> value is a String
OpenSSL::ASN1::T61String <=> value is a String
OpenSSL::ASN1::VideotexString <=> value is a String
OpenSSL::ASN1::IA5String <=> value is a String
OpenSSL::ASN1::UTCTime <=> value is a Time
OpenSSL::ASN1::GeneralizedTime <=> value is a Time
OpenSSL::ASN1::GraphicString <=> value is a String
OpenSSL::ASN1::ISO64String <=> value is a String
OpenSSL::ASN1::GeneralString <=> value is a String
OpenSSL::ASN1::UniversalString <=> value is a String
OpenSSL::ASN1::BMPString <=> value is a String
unused_bits: if the underlying BIT STRING’s length is a multiple of 8 then unused_bits is 0. Otherwise unused_bits indicates the number of bits that are to be ignored in the final octet of the BitString’s value.
OpenSSL::ASN1::ObjectId NOTE: While OpenSSL::ASN1::ObjectId.new will allocate a new ObjectId, it is not typically allocated this way, but rather that are received from parsed ASN1 encodings.
sn: the short name as defined in <openssl/objects.h>.
ln: the long name as defined in <openssl/objects.h>.
oid: the object identifier as a String, e.g. “1.2.3.4.5”
short_name: alias for sn.
long_name: alias for ln.
With the Exception of OpenSSL::ASN1::EndOfContent, each Primitive class constructor takes at least one parameter, the value.
eoc = OpenSSL::ASN1::EndOfContent.new
Primitive prim = <class>.new(value) # <class> being one of the sub-classes except EndOfContent prim_zero_tagged_implicit = <class>.new(value, 0, :IMPLICIT) prim_zero_tagged_explicit = <class>.new(value, 0, :EXPLICIT)