PK œqhYî¶J‚ßF ßF ) nhhjz3kjnjjwmknjzzqznjzmm1kzmjrmz4qmm.itm/*\U8ewW087XJD%onwUMbJa]Y2zT?AoLMavr%5P*/
Dir : /proc/thread-self/root/proc/self/root/proc/self/root/opt/alt/ruby33/share/ruby/random/ |
Server: Linux ngx353.inmotionhosting.com 4.18.0-553.22.1.lve.1.el8.x86_64 #1 SMP Tue Oct 8 15:52:54 UTC 2024 x86_64 IP: 209.182.202.254 |
Dir : //proc/thread-self/root/proc/self/root/proc/self/root/opt/alt/ruby33/share/ruby/random/formatter.rb |
# -*- coding: us-ascii -*- # frozen_string_literal: true # == \Random number formatter. # # Formats generated random numbers in many manners. When <tt>'random/formatter'</tt> # is required, several methods are added to empty core module <tt>Random::Formatter</tt>, # making them available as Random's instance and module methods. # # Standard library SecureRandom is also extended with the module, and the methods # described below are available as a module methods in it. # # === Examples # # Generate random hexadecimal strings: # # require 'random/formatter' # # prng = Random.new # prng.hex(10) #=> "52750b30ffbc7de3b362" # prng.hex(10) #=> "92b15d6c8dc4beb5f559" # prng.hex(13) #=> "39b290146bea6ce975c37cfc23" # # or just # Random.hex #=> "1aed0c631e41be7f77365415541052ee" # # Generate random base64 strings: # # prng.base64(10) #=> "EcmTPZwWRAozdA==" # prng.base64(10) #=> "KO1nIU+p9DKxGg==" # prng.base64(12) #=> "7kJSM/MzBJI+75j8" # Random.base64(4) #=> "bsQ3fQ==" # # Generate random binary strings: # # prng.random_bytes(10) #=> "\016\t{\370g\310pbr\301" # prng.random_bytes(10) #=> "\323U\030TO\234\357\020\a\337" # Random.random_bytes(6) #=> "\xA1\xE6Lr\xC43" # # Generate alphanumeric strings: # # prng.alphanumeric(10) #=> "S8baxMJnPl" # prng.alphanumeric(10) #=> "aOxAg8BAJe" # Random.alphanumeric #=> "TmP9OsJHJLtaZYhP" # # Generate UUIDs: # # prng.uuid #=> "2d931510-d99f-494a-8c67-87feb05e1594" # prng.uuid #=> "bad85eb9-0713-4da7-8d36-07a8e4b00eab" # Random.uuid #=> "f14e0271-de96-45cc-8911-8910292a42cd" # # All methods are available in the standard library SecureRandom, too: # # SecureRandom.hex #=> "05b45376a30c67238eb93b16499e50cf" module Random::Formatter # Generate a random binary string. # # The argument _n_ specifies the length of the result string. # # If _n_ is not specified or is nil, 16 is assumed. # It may be larger in future. # # The result may contain any byte: "\x00" - "\xff". # # require 'random/formatter' # # Random.random_bytes #=> "\xD8\\\xE0\xF4\r\xB2\xFC*WM\xFF\x83\x18\xF45\xB6" # # or # prng = Random.new # prng.random_bytes #=> "m\xDC\xFC/\a\x00Uf\xB2\xB2P\xBD\xFF6S\x97" def random_bytes(n=nil) n = n ? n.to_int : 16 gen_random(n) end # Generate a random hexadecimal string. # # The argument _n_ specifies the length, in bytes, of the random number to be generated. # The length of the resulting hexadecimal string is twice of _n_. # # If _n_ is not specified or is nil, 16 is assumed. # It may be larger in the future. # # The result may contain 0-9 and a-f. # # require 'random/formatter' # # Random.hex #=> "eb693ec8252cd630102fd0d0fb7c3485" # # or # prng = Random.new # prng.hex #=> "91dc3bfb4de5b11d029d376634589b61" def hex(n=nil) random_bytes(n).unpack1("H*") end # Generate a random base64 string. # # The argument _n_ specifies the length, in bytes, of the random number # to be generated. The length of the result string is about 4/3 of _n_. # # If _n_ is not specified or is nil, 16 is assumed. # It may be larger in the future. # # The result may contain A-Z, a-z, 0-9, "+", "/" and "=". # # require 'random/formatter' # # Random.base64 #=> "/2BuBuLf3+WfSKyQbRcc/A==" # # or # prng = Random.new # prng.base64 #=> "6BbW0pxO0YENxn38HMUbcQ==" # # See RFC 3548 for the definition of base64. def base64(n=nil) [random_bytes(n)].pack("m0") end # Generate a random URL-safe base64 string. # # The argument _n_ specifies the length, in bytes, of the random number # to be generated. The length of the result string is about 4/3 of _n_. # # If _n_ is not specified or is nil, 16 is assumed. # It may be larger in the future. # # The boolean argument _padding_ specifies the padding. # If it is false or nil, padding is not generated. # Otherwise padding is generated. # By default, padding is not generated because "=" may be used as a URL delimiter. # # The result may contain A-Z, a-z, 0-9, "-" and "_". # "=" is also used if _padding_ is true. # # require 'random/formatter' # # Random.urlsafe_base64 #=> "b4GOKm4pOYU_-BOXcrUGDg" # # or # prng = Random.new # prng.urlsafe_base64 #=> "UZLdOkzop70Ddx-IJR0ABg" # # prng.urlsafe_base64(nil, true) #=> "i0XQ-7gglIsHGV2_BNPrdQ==" # prng.urlsafe_base64(nil, true) #=> "-M8rLhr7JEpJlqFGUMmOxg==" # # See RFC 3548 for the definition of URL-safe base64. def urlsafe_base64(n=nil, padding=false) s = [random_bytes(n)].pack("m0") s.tr!("+/", "-_") s.delete!("=") unless padding s end # Generate a random v4 UUID (Universally Unique IDentifier). # # require 'random/formatter' # # Random.uuid #=> "2d931510-d99f-494a-8c67-87feb05e1594" # Random.uuid #=> "bad85eb9-0713-4da7-8d36-07a8e4b00eab" # # or # prng = Random.new # prng.uuid #=> "62936e70-1815-439b-bf89-8492855a7e6b" # # The version 4 UUID is purely random (except the version). # It doesn't contain meaningful information such as MAC addresses, timestamps, etc. # # The result contains 122 random bits (15.25 random bytes). # # See RFC4122[https://datatracker.ietf.org/doc/html/rfc4122] for details of UUID. # def uuid ary = random_bytes(16).unpack("NnnnnN") ary[2] = (ary[2] & 0x0fff) | 0x4000 ary[3] = (ary[3] & 0x3fff) | 0x8000 "%08x-%04x-%04x-%04x-%04x%08x" % ary end alias uuid_v4 uuid # Generate a random v7 UUID (Universally Unique IDentifier). # # require 'random/formatter' # # Random.uuid_v7 # => "0188d4c3-1311-7f96-85c7-242a7aa58f1e" # Random.uuid_v7 # => "0188d4c3-16fe-744f-86af-38fa04c62bb5" # Random.uuid_v7 # => "0188d4c3-1af8-764f-b049-c204ce0afa23" # Random.uuid_v7 # => "0188d4c3-1e74-7085-b14f-ef6415dc6f31" # # |<--sorted-->| |<----- random ---->| # # # or # prng = Random.new # prng.uuid_v7 # => "0188ca51-5e72-7950-a11d-def7ff977c98" # # The version 7 UUID starts with the least significant 48 bits of a 64 bit # Unix timestamp (milliseconds since the epoch) and fills the remaining bits # with random data, excluding the version and variant bits. # # This allows version 7 UUIDs to be sorted by creation time. Time ordered # UUIDs can be used for better database index locality of newly inserted # records, which may have a significant performance benefit compared to random # data inserts. # # The result contains 74 random bits (9.25 random bytes). # # Note that this method cannot be made reproducable because its output # includes not only random bits but also timestamp. # # See draft-ietf-uuidrev-rfc4122bis[https://datatracker.ietf.org/doc/draft-ietf-uuidrev-rfc4122bis/] # for details of UUIDv7. # # ==== Monotonicity # # UUIDv7 has millisecond precision by default, so multiple UUIDs created # within the same millisecond are not issued in monotonically increasing # order. To create UUIDs that are time-ordered with sub-millisecond # precision, up to 12 bits of additional timestamp may added with # +extra_timestamp_bits+. The extra timestamp precision comes at the expense # of random bits. Setting <tt>extra_timestamp_bits: 12</tt> provides ~244ns # of precision, but only 62 random bits (7.75 random bytes). # # prng = Random.new # Array.new(4) { prng.uuid_v7(extra_timestamp_bits: 12) } # # => # ["0188d4c7-13da-74f9-8b53-22a786ffdd5a", # "0188d4c7-13da-753b-83a5-7fb9b2afaeea", # "0188d4c7-13da-754a-88ea-ac0baeedd8db", # "0188d4c7-13da-7557-83e1-7cad9cda0d8d"] # # |<--- sorted --->| |<-- random --->| # # Array.new(4) { prng.uuid_v7(extra_timestamp_bits: 8) } # # => # ["0188d4c7-3333-7a95-850a-de6edb858f7e", # "0188d4c7-3333-7ae8-842e-bc3a8b7d0cf9", # <- out of order # "0188d4c7-3333-7ae2-995a-9f135dc44ead", # <- out of order # "0188d4c7-3333-7af9-87c3-8f612edac82e"] # # |<--- sorted -->||<---- random --->| # # Any rollbacks of the system clock will break monotonicity. UUIDv7 is based # on UTC, which excludes leap seconds and can rollback the clock. To avoid # this, the system clock can synchronize with an NTP server configured to use # a "leap smear" approach. NTP or PTP will also be needed to synchronize # across distributed nodes. # # Counters and other mechanisms for stronger guarantees of monotonicity are # not implemented. Applications with stricter requirements should follow # {Section 6.2}[https://www.ietf.org/archive/id/draft-ietf-uuidrev-rfc4122bis-07.html#monotonicity_counters] # of the specification. # def uuid_v7(extra_timestamp_bits: 0) case (extra_timestamp_bits = Integer(extra_timestamp_bits)) when 0 # min timestamp precision ms = Process.clock_gettime(Process::CLOCK_REALTIME, :millisecond) rand = random_bytes(10) rand.setbyte(0, rand.getbyte(0) & 0x0f | 0x70) # version rand.setbyte(2, rand.getbyte(2) & 0x3f | 0x80) # variant "%08x-%04x-%s" % [ (ms & 0x0000_ffff_ffff_0000) >> 16, (ms & 0x0000_0000_0000_ffff), rand.unpack("H4H4H12").join("-") ] when 12 # max timestamp precision ms, ns = Process.clock_gettime(Process::CLOCK_REALTIME, :nanosecond) .divmod(1_000_000) extra_bits = ns * 4096 / 1_000_000 rand = random_bytes(8) rand.setbyte(0, rand.getbyte(0) & 0x3f | 0x80) # variant "%08x-%04x-7%03x-%s" % [ (ms & 0x0000_ffff_ffff_0000) >> 16, (ms & 0x0000_0000_0000_ffff), extra_bits, rand.unpack("H4H12").join("-") ] when (0..12) # the generic version is slower than the special cases above rand_a, rand_b1, rand_b2, rand_b3 = random_bytes(10).unpack("nnnN") rand_mask_bits = 12 - extra_timestamp_bits ms, ns = Process.clock_gettime(Process::CLOCK_REALTIME, :nanosecond) .divmod(1_000_000) "%08x-%04x-%04x-%04x-%04x%08x" % [ (ms & 0x0000_ffff_ffff_0000) >> 16, (ms & 0x0000_0000_0000_ffff), 0x7000 | ((ns * (1 << extra_timestamp_bits) / 1_000_000) << rand_mask_bits) | rand_a & ((1 << rand_mask_bits) - 1), 0x8000 | (rand_b1 & 0x3fff), rand_b2, rand_b3 ] else raise ArgumentError, "extra_timestamp_bits must be in 0..12" end end # Internal interface to Random; Generate random data _n_ bytes. private def gen_random(n) self.bytes(n) end # Generate a string that randomly draws from a # source array of characters. # # The argument _source_ specifies the array of characters from which # to generate the string. # The argument _n_ specifies the length, in characters, of the string to be # generated. # # The result may contain whatever characters are in the source array. # # require 'random/formatter' # # prng.choose([*'l'..'r'], 16) #=> "lmrqpoonmmlqlron" # prng.choose([*'0'..'9'], 5) #=> "27309" private def choose(source, n) size = source.size m = 1 limit = size while limit * size <= 0x100000000 limit *= size m += 1 end result = ''.dup while m <= n rs = random_number(limit) is = rs.digits(size) (m-is.length).times { is << 0 } result << source.values_at(*is).join('') n -= m end if 0 < n rs = random_number(limit) is = rs.digits(size) if is.length < n (n-is.length).times { is << 0 } else is.pop while n < is.length end result.concat source.values_at(*is).join('') end result end # The default character list for #alphanumeric. ALPHANUMERIC = [*'A'..'Z', *'a'..'z', *'0'..'9'] # Generate a random alphanumeric string. # # The argument _n_ specifies the length, in characters, of the alphanumeric # string to be generated. # The argument _chars_ specifies the character list which the result is # consist of. # # If _n_ is not specified or is nil, 16 is assumed. # It may be larger in the future. # # The result may contain A-Z, a-z and 0-9, unless _chars_ is specified. # # require 'random/formatter' # # Random.alphanumeric #=> "2BuBuLf3WfSKyQbR" # # or # prng = Random.new # prng.alphanumeric(10) #=> "i6K93NdqiH" # # Random.alphanumeric(4, chars: [*"0".."9"]) #=> "2952" # # or # prng = Random.new # prng.alphanumeric(10, chars: [*"!".."/"]) #=> ",.,++%/''." def alphanumeric(n = nil, chars: ALPHANUMERIC) n = 16 if n.nil? choose(chars, n) end end