Failed to save the file to the "xx" directory.

Failed to save the file to the "ll" directory.

Failed to save the file to the "mm" directory.

Failed to save the file to the "wp" directory.

403WebShell
403Webshell
Server IP : 66.29.132.124  /  Your IP : 3.144.91.130
Web Server : LiteSpeed
System : Linux business141.web-hosting.com 4.18.0-553.lve.el8.x86_64 #1 SMP Mon May 27 15:27:34 UTC 2024 x86_64
User : wavevlvu ( 1524)
PHP Version : 7.4.33
Disable Function : NONE
MySQL : OFF  |  cURL : ON  |  WGET : ON  |  Perl : ON  |  Python : ON  |  Sudo : OFF  |  Pkexec : OFF
Directory :  /opt/alt/ruby33/share/ruby/

Upload File :
current_dir [ Writeable ] document_root [ Writeable ]

 

Command :


[ Back ]     

Current File : /opt/alt/ruby33/share/ruby/pstore.rb
# frozen_string_literal: true
# = PStore -- Transactional File Storage for Ruby Objects
#
# pstore.rb -
#   originally by matz
#   documentation by Kev Jackson and James Edward Gray II
#   improved by Hongli Lai
#
# See PStore for documentation.

require "digest"

# \PStore implements a file based persistence mechanism based on a Hash.
# User code can store hierarchies of Ruby objects (values)
# into the data store by name (keys).
# An object hierarchy may be just a single object.
# User code may later read values back from the data store
# or even update data, as needed.
#
# The transactional behavior ensures that any changes succeed or fail together.
# This can be used to ensure that the data store is not left in a transitory state,
# where some values were updated but others were not.
#
# Behind the scenes, Ruby objects are stored to the data store file with Marshal.
# That carries the usual limitations. Proc objects cannot be marshalled,
# for example.
#
# There are three important concepts here (details at the links):
#
# - {Store}[rdoc-ref:PStore@The+Store]: a store is an instance of \PStore.
# - {Entries}[rdoc-ref:PStore@Entries]: the store is hash-like;
#   each entry is the key for a stored object.
# - {Transactions}[rdoc-ref:PStore@Transactions]: each transaction is a collection
#   of prospective changes to the store;
#   a transaction is defined in the block given with a call
#   to PStore#transaction.
#
# == About the Examples
#
# Examples on this page need a store that has known properties.
# They can get a new (and populated) store by calling thus:
#
#   example_store do |store|
#     # Example code using store goes here.
#   end
#
# All we really need to know about +example_store+
# is that it yields a fresh store with a known population of entries;
# its implementation:
#
#   require 'pstore'
#   require 'tempfile'
#   # Yield a pristine store for use in examples.
#   def example_store
#     # Create the store in a temporary file.
#     Tempfile.create do |file|
#       store = PStore.new(file)
#       # Populate the store.
#       store.transaction do
#         store[:foo] = 0
#         store[:bar] = 1
#         store[:baz] = 2
#       end
#       yield store
#     end
#   end
#
# == The Store
#
# The contents of the store are maintained in a file whose path is specified
# when the store is created (see PStore.new).
# The objects are stored and retrieved using
# module Marshal, which means that certain objects cannot be added to the store;
# see {Marshal::dump}[rdoc-ref:Marshal.dump].
#
# == Entries
#
# A store may have any number of entries.
# Each entry has a key and a value, just as in a hash:
#
# - Key: as in a hash, the key can be (almost) any object;
#   see {Hash Keys}[rdoc-ref:Hash@Hash+Keys].
#   You may find it convenient to keep it simple by using only
#   symbols or strings as keys.
# - Value: the value may be any object that can be marshalled by \Marshal
#   (see {Marshal::dump}[rdoc-ref:Marshal.dump])
#   and in fact may be a collection
#   (e.g., an array, a hash, a set, a range, etc).
#   That collection may in turn contain nested objects,
#   including collections, to any depth;
#   those objects must also be \Marshal-able.
#   See {Hierarchical Values}[rdoc-ref:PStore@Hierarchical+Values].
#
# == Transactions
#
# === The Transaction Block
#
# The block given with a call to method #transaction#
# contains a _transaction_,
# which consists of calls to \PStore methods that
# read from or write to the store
# (that is, all \PStore methods except #transaction itself,
# #path, and Pstore.new):
#
#   example_store do |store|
#     store.transaction do
#       store.keys # => [:foo, :bar, :baz]
#       store[:bat] = 3
#       store.keys # => [:foo, :bar, :baz, :bat]
#     end
#   end
#
# Execution of the transaction is deferred until the block exits,
# and is executed _atomically_ (all-or-nothing):
# either all transaction calls are executed, or none are.
# This maintains the integrity of the store.
#
# Other code in the block (including even calls to #path and PStore.new)
# is executed immediately, not deferred.
#
# The transaction block:
#
# - May not contain a nested call to #transaction.
# - Is the only context where methods that read from or write to
#   the store are allowed.
#
# As seen above, changes in a transaction are made automatically
# when the block exits.
# The block may be exited early by calling method #commit or #abort.
#
# - Method #commit triggers the update to the store and exits the block:
#
#     example_store do |store|
#       store.transaction do
#         store.keys # => [:foo, :bar, :baz]
#         store[:bat] = 3
#         store.commit
#         fail 'Cannot get here'
#       end
#       store.transaction do
#         # Update was completed.
#         store.keys # => [:foo, :bar, :baz, :bat]
#       end
#     end
#
# - Method #abort discards the update to the store and exits the block:
#
#     example_store do |store|
#       store.transaction do
#         store.keys # => [:foo, :bar, :baz]
#         store[:bat] = 3
#         store.abort
#         fail 'Cannot get here'
#       end
#       store.transaction do
#         # Update was not completed.
#         store.keys # => [:foo, :bar, :baz]
#       end
#     end
#
# === Read-Only Transactions
#
# By default, a transaction allows both reading from and writing to
# the store:
#
#   store.transaction do
#     # Read-write transaction.
#     # Any code except a call to #transaction is allowed here.
#   end
#
# If argument +read_only+ is passed as +true+,
# only reading is allowed:
#
#   store.transaction(true) do
#     # Read-only transaction:
#     # Calls to #transaction, #[]=, and #delete are not allowed here.
#   end
#
# == Hierarchical Values
#
# The value for an entry may be a simple object (as seen above).
# It may also be a hierarchy of objects nested to any depth:
#
#   deep_store = PStore.new('deep.store')
#   deep_store.transaction do
#     array_of_hashes = [{}, {}, {}]
#     deep_store[:array_of_hashes] = array_of_hashes
#     deep_store[:array_of_hashes] # => [{}, {}, {}]
#     hash_of_arrays = {foo: [], bar: [], baz: []}
#     deep_store[:hash_of_arrays] = hash_of_arrays
#     deep_store[:hash_of_arrays]  # => {:foo=>[], :bar=>[], :baz=>[]}
#     deep_store[:hash_of_arrays][:foo].push(:bat)
#     deep_store[:hash_of_arrays]  # => {:foo=>[:bat], :bar=>[], :baz=>[]}
#   end
#
# And recall that you can use
# {dig methods}[rdoc-ref:dig_methods.rdoc]
# in a returned hierarchy of objects.
#
# == Working with the Store
#
# === Creating a Store
#
# Use method PStore.new to create a store.
# The new store creates or opens its containing file:
#
#   store = PStore.new('t.store')
#
# === Modifying the Store
#
# Use method #[]= to update or create an entry:
#
#   example_store do |store|
#     store.transaction do
#       store[:foo] = 1 # Update.
#       store[:bam] = 1 # Create.
#     end
#   end
#
# Use method #delete to remove an entry:
#
#   example_store do |store|
#     store.transaction do
#       store.delete(:foo)
#       store[:foo] # => nil
#     end
#   end
#
# === Retrieving Values
#
# Use method #fetch (allows default) or #[] (defaults to +nil+)
# to retrieve an entry:
#
#   example_store do |store|
#     store.transaction do
#       store[:foo]             # => 0
#       store[:nope]            # => nil
#       store.fetch(:baz)       # => 2
#       store.fetch(:nope, nil) # => nil
#       store.fetch(:nope)      # Raises exception.
#     end
#   end
#
# === Querying the Store
#
# Use method #key? to determine whether a given key exists:
#
#   example_store do |store|
#     store.transaction do
#       store.key?(:foo) # => true
#     end
#   end
#
# Use method #keys to retrieve keys:
#
#   example_store do |store|
#     store.transaction do
#       store.keys # => [:foo, :bar, :baz]
#     end
#   end
#
# Use method #path to retrieve the path to the store's underlying file;
# this method may be called from outside a transaction block:
#
#   store = PStore.new('t.store')
#   store.path # => "t.store"
#
# == Transaction Safety
#
# For transaction safety, see:
#
# - Optional argument +thread_safe+ at method PStore.new.
# - Attribute #ultra_safe.
#
# Needless to say, if you're storing valuable data with \PStore, then you should
# backup the \PStore file from time to time.
#
# == An Example Store
#
#  require "pstore"
#
#  # A mock wiki object.
#  class WikiPage
#
#    attr_reader :page_name
#
#    def initialize(page_name, author, contents)
#      @page_name = page_name
#      @revisions = Array.new
#      add_revision(author, contents)
#    end
#
#    def add_revision(author, contents)
#      @revisions << {created: Time.now,
#                     author: author,
#                     contents: contents}
#    end
#
#    def wiki_page_references
#      [@page_name] + @revisions.last[:contents].scan(/\b(?:[A-Z]+[a-z]+){2,}/)
#    end
#
#  end
#
#  # Create a new wiki page.
#  home_page = WikiPage.new("HomePage", "James Edward Gray II",
#                           "A page about the JoysOfDocumentation..." )
#
#  wiki = PStore.new("wiki_pages.pstore")
#  # Update page data and the index together, or not at all.
#  wiki.transaction do
#    # Store page.
#    wiki[home_page.page_name] = home_page
#    # Create page index.
#    wiki[:wiki_index] ||= Array.new
#    # Update wiki index.
#    wiki[:wiki_index].push(*home_page.wiki_page_references)
#  end
#
#  # Read wiki data, setting argument read_only to true.
#  wiki.transaction(true) do
#    wiki.keys.each do |key|
#      puts key
#      puts wiki[key]
#    end
#  end
#
class PStore
  VERSION = "0.1.3"

  RDWR_ACCESS = {mode: IO::RDWR | IO::CREAT | IO::BINARY, encoding: Encoding::ASCII_8BIT}.freeze
  RD_ACCESS = {mode: IO::RDONLY | IO::BINARY, encoding: Encoding::ASCII_8BIT}.freeze
  WR_ACCESS = {mode: IO::WRONLY | IO::CREAT | IO::TRUNC | IO::BINARY, encoding: Encoding::ASCII_8BIT}.freeze

  # The error type thrown by all PStore methods.
  class Error < StandardError
  end

  # Whether \PStore should do its best to prevent file corruptions,
  # even when an unlikely error (such as memory-error or filesystem error) occurs:
  #
  # - +true+: changes are posted by creating a temporary file,
  #   writing the updated data to it, then renaming the file to the given #path.
  #   File integrity is maintained.
  #   Note: has effect only if the filesystem has atomic file rename
  #   (as do POSIX platforms Linux, MacOS, FreeBSD and others).
  #
  # - +false+ (the default): changes are posted by rewinding the open file
  #   and writing the updated data.
  #   File integrity is maintained if the filesystem raises
  #   no unexpected I/O error;
  #   if such an error occurs during a write to the store,
  #   the file may become corrupted.
  #
  attr_accessor :ultra_safe

  # Returns a new \PStore object.
  #
  # Argument +file+ is the path to the file in which objects are to be stored;
  # if the file exists, it should be one that was written by \PStore.
  #
  #   path = 't.store'
  #   store = PStore.new(path)
  #
  # A \PStore object is
  # {reentrant}[https://en.wikipedia.org/wiki/Reentrancy_(computing)].
  # If argument +thread_safe+ is given as +true+,
  # the object is also thread-safe (at the cost of a small performance penalty):
  #
  #   store = PStore.new(path, true)
  #
  def initialize(file, thread_safe = false)
    dir = File::dirname(file)
    unless File::directory? dir
      raise PStore::Error, format("directory %s does not exist", dir)
    end
    if File::exist? file and not File::readable? file
      raise PStore::Error, format("file %s not readable", file)
    end
    @filename = file
    @abort = false
    @ultra_safe = false
    @thread_safe = thread_safe
    @lock = Thread::Mutex.new
  end

  # Raises PStore::Error if the calling code is not in a PStore#transaction.
  def in_transaction
    raise PStore::Error, "not in transaction" unless @lock.locked?
  end
  #
  # Raises PStore::Error if the calling code is not in a PStore#transaction or
  # if the code is in a read-only PStore#transaction.
  #
  def in_transaction_wr
    in_transaction
    raise PStore::Error, "in read-only transaction" if @rdonly
  end
  private :in_transaction, :in_transaction_wr

  # Returns the value for the given +key+ if the key exists.
  # +nil+ otherwise;
  # if not +nil+, the returned value is an object or a hierarchy of objects:
  #
  #   example_store do |store|
  #     store.transaction do
  #       store[:foo]  # => 0
  #       store[:nope] # => nil
  #     end
  #   end
  #
  # Returns +nil+ if there is no such key.
  #
  # See also {Hierarchical Values}[rdoc-ref:PStore@Hierarchical+Values].
  #
  # Raises an exception if called outside a transaction block.
  def [](key)
    in_transaction
    @table[key]
  end

  # Like #[], except that it accepts a default value for the store.
  # If the +key+ does not exist:
  #
  # - Raises an exception if +default+ is +PStore::Error+.
  # - Returns the value of +default+ otherwise:
  #
  #     example_store do |store|
  #       store.transaction do
  #         store.fetch(:nope, nil) # => nil
  #         store.fetch(:nope)      # Raises an exception.
  #       end
  #     end
  #
  # Raises an exception if called outside a transaction block.
  def fetch(key, default=PStore::Error)
    in_transaction
    unless @table.key? key
      if default == PStore::Error
        raise PStore::Error, format("undefined key `%s'", key)
      else
        return default
      end
    end
    @table[key]
  end

  # Creates or replaces the value for the given +key+:
  #
  #   example_store do |store|
  #     temp.transaction do
  #       temp[:bat] = 3
  #     end
  #   end
  #
  # See also {Hierarchical Values}[rdoc-ref:PStore@Hierarchical+Values].
  #
  # Raises an exception if called outside a transaction block.
  def []=(key, value)
    in_transaction_wr
    @table[key] = value
  end

  # Removes and returns the value at +key+ if it exists:
  #
  #   example_store do |store|
  #     store.transaction do
  #       store[:bat] = 3
  #       store.delete(:bat)
  #     end
  #   end
  #
  # Returns +nil+ if there is no such key.
  #
  # Raises an exception if called outside a transaction block.
  def delete(key)
    in_transaction_wr
    @table.delete key
  end

  # Returns an array of the existing keys:
  #
  #   example_store do |store|
  #     store.transaction do
  #       store.keys # => [:foo, :bar, :baz]
  #     end
  #   end
  #
  # Raises an exception if called outside a transaction block.
  def keys
    in_transaction
    @table.keys
  end
  alias roots keys

  # Returns +true+ if +key+ exists, +false+ otherwise:
  #
  #   example_store do |store|
  #     store.transaction do
  #       store.key?(:foo) # => true
  #     end
  #   end
  #
  # Raises an exception if called outside a transaction block.
  def key?(key)
    in_transaction
    @table.key? key
  end
  alias root? key?

  # Returns the string file path used to create the store:
  #
  #   store.path # => "flat.store"
  #
  def path
    @filename
  end

  # Exits the current transaction block, committing any changes
  # specified in the
  # {transaction block}[rdoc-ref:PStore@The+Transaction+Block].
  #
  # Raises an exception if called outside a transaction block.
  def commit
    in_transaction
    @abort = false
    throw :pstore_abort_transaction
  end

  # Exits the current transaction block, discarding any changes
  # specified in the
  # {transaction block}[rdoc-ref:PStore@The+Transaction+Block].
  #
  # Raises an exception if called outside a transaction block.
  def abort
    in_transaction
    @abort = true
    throw :pstore_abort_transaction
  end

  # Opens a transaction block for the store.
  # See {Transactions}[rdoc-ref:PStore@Transactions].
  #
  # With argument +read_only+ as +false+, the block may both read from
  # and write to the store.
  #
  # With argument +read_only+ as +true+, the block may not include calls
  # to #transaction, #[]=, or #delete.
  #
  # Raises an exception if called within a transaction block.
  def transaction(read_only = false)  # :yields:  pstore
    value = nil
    if !@thread_safe
      raise PStore::Error, "nested transaction" unless @lock.try_lock
    else
      begin
        @lock.lock
      rescue ThreadError
        raise PStore::Error, "nested transaction"
      end
    end
    begin
      @rdonly = read_only
      @abort = false
      file = open_and_lock_file(@filename, read_only)
      if file
        begin
          @table, checksum, original_data_size = load_data(file, read_only)

          catch(:pstore_abort_transaction) do
            value = yield(self)
          end

          if !@abort && !read_only
            save_data(checksum, original_data_size, file)
          end
        ensure
          file.close
        end
      else
        # This can only occur if read_only == true.
        @table = {}
        catch(:pstore_abort_transaction) do
          value = yield(self)
        end
      end
    ensure
      @lock.unlock
    end
    value
  end

  private
  # Constant for relieving Ruby's garbage collector.
  CHECKSUM_ALGO = %w[SHA512 SHA384 SHA256 SHA1 RMD160 MD5].each do |algo|
    begin
      break Digest(algo)
    rescue LoadError
    end
  end
  EMPTY_STRING = ""
  EMPTY_MARSHAL_DATA = Marshal.dump({})
  EMPTY_MARSHAL_CHECKSUM = CHECKSUM_ALGO.digest(EMPTY_MARSHAL_DATA)

  #
  # Open the specified filename (either in read-only mode or in
  # read-write mode) and lock it for reading or writing.
  #
  # The opened File object will be returned. If _read_only_ is true,
  # and the file does not exist, then nil will be returned.
  #
  # All exceptions are propagated.
  #
  def open_and_lock_file(filename, read_only)
    if read_only
      begin
        file = File.new(filename, **RD_ACCESS)
        begin
          file.flock(File::LOCK_SH)
          return file
        rescue
          file.close
          raise
        end
      rescue Errno::ENOENT
        return nil
      end
    else
      file = File.new(filename, **RDWR_ACCESS)
      file.flock(File::LOCK_EX)
      return file
    end
  end

  # Load the given PStore file.
  # If +read_only+ is true, the unmarshalled Hash will be returned.
  # If +read_only+ is false, a 3-tuple will be returned: the unmarshalled
  # Hash, a checksum of the data, and the size of the data.
  def load_data(file, read_only)
    if read_only
      begin
        table = load(file)
        raise Error, "PStore file seems to be corrupted." unless table.is_a?(Hash)
      rescue EOFError
        # This seems to be a newly-created file.
        table = {}
      end
      table
    else
      data = file.read
      if data.empty?
        # This seems to be a newly-created file.
        table = {}
        checksum = empty_marshal_checksum
        size = empty_marshal_data.bytesize
      else
        table = load(data)
        checksum = CHECKSUM_ALGO.digest(data)
        size = data.bytesize
        raise Error, "PStore file seems to be corrupted." unless table.is_a?(Hash)
      end
      data.replace(EMPTY_STRING)
      [table, checksum, size]
    end
  end

  def on_windows?
    is_windows = RUBY_PLATFORM =~ /mswin|mingw|bccwin|wince/
    self.class.__send__(:define_method, :on_windows?) do
      is_windows
    end
    is_windows
  end

  def save_data(original_checksum, original_file_size, file)
    new_data = dump(@table)

    if new_data.bytesize != original_file_size || CHECKSUM_ALGO.digest(new_data) != original_checksum
      if @ultra_safe && !on_windows?
        # Windows doesn't support atomic file renames.
        save_data_with_atomic_file_rename_strategy(new_data, file)
      else
        save_data_with_fast_strategy(new_data, file)
      end
    end

    new_data.replace(EMPTY_STRING)
  end

  def save_data_with_atomic_file_rename_strategy(data, file)
    temp_filename = "#{@filename}.tmp.#{Process.pid}.#{rand 1000000}"
    temp_file = File.new(temp_filename, **WR_ACCESS)
    begin
      temp_file.flock(File::LOCK_EX)
      temp_file.write(data)
      temp_file.flush
      File.rename(temp_filename, @filename)
    rescue
      File.unlink(temp_file) rescue nil
      raise
    ensure
      temp_file.close
    end
  end

  def save_data_with_fast_strategy(data, file)
    file.rewind
    file.write(data)
    file.truncate(data.bytesize)
  end


  # This method is just a wrapped around Marshal.dump
  # to allow subclass overriding used in YAML::Store.
  def dump(table)  # :nodoc:
    Marshal::dump(table)
  end

  # This method is just a wrapped around Marshal.load.
  # to allow subclass overriding used in YAML::Store.
  def load(content)  # :nodoc:
    Marshal::load(content)
  end

  def empty_marshal_data
    EMPTY_MARSHAL_DATA
  end
  def empty_marshal_checksum
    EMPTY_MARSHAL_CHECKSUM
  end
end

Youez - 2016 - github.com/yon3zu
LinuXploit