class Win32::Registry
Attributes
Disposition value (REG_CREATED_NEW_KEY or REG_OPENED_EXISTING_KEY).
Returns key handle value.
Same as subkey value of Registry.open
or Registry.create
method.
Win32::Registry
object of parent key, or nil if predefeined key.
Public Class Methods
— Registry.create
(key, subkey, desired = KEY_ALL_ACCESS, opt = REG_OPTION_RESERVED)
— Registry.create
(key, subkey, desired = KEY_ALL_ACCESS, opt = REG_OPTION_RESERVED) { |reg| … }
Create or open the registry key subkey under key. You can use predefined key HKEY_* (see Constants
)
If subkey is already exists, key is opened and Registry#created?
method will return false.
If block is given, the key is closed automatically.
# File ext/win32/lib/win32/registry.rb, line 457 def self.create(hkey, subkey, desired = KEY_ALL_ACCESS, opt = REG_OPTION_RESERVED) newkey, disp = API.CreateKey(hkey.hkey, subkey, opt, desired) obj = new(newkey, hkey, subkey, disp) if block_given? begin yield obj ensure obj.close end else obj end end
Replace %w+% into the environment value of what is contained between the %'s This method is used for REG_EXPAND_SZ.
For detail, see expandEnvironmentStrings Win32 API.
# File ext/win32/lib/win32/registry.rb, line 373 def self.expand_environ(str) str.gsub(Regexp.compile("%([^%]+)%".encode(str.encoding))) { v = $1.encode(LOCALE) (e = ENV[v] || ENV[v.upcase]; e.encode(str.encoding) if e) || $& } end
initialize
# File ext/win32/lib/win32/registry.rb, line 479 def initialize(hkey, parent, keyname, disposition) @hkey = hkey @parent = parent @keyname = keyname @disposition = disposition @hkeyfinal = [ hkey ] ObjectSpace.define_finalizer self, @@final.call(@hkeyfinal) end
— Registry.open
(key, subkey, desired = KEY_READ, opt = REG_OPTION_RESERVED)
— Registry.open
(key, subkey, desired = KEY_READ, opt = REG_OPTION_RESERVED) { |reg| … }
Open the registry key subkey under key. key is Win32::Registry
object of parent key. You can use predefined key HKEY_* (see Constants
) desired and opt is access mask and key option. For detail, see the MSDN. If block is given, the key is closed automatically.
# File ext/win32/lib/win32/registry.rb, line 429 def self.open(hkey, subkey, desired = KEY_READ, opt = REG_OPTION_RESERVED) subkey = subkey.chomp('\\') newkey = API.OpenKey(hkey.hkey, subkey, opt, desired) obj = new(newkey, hkey, subkey, REG_OPENED_EXISTING_KEY) if block_given? begin yield obj ensure obj.close end else obj end end
Convert registry type value to readable string.
# File ext/win32/lib/win32/registry.rb, line 395 def self.type2name(type) @@type2name[type] || type.to_s end
Convert 64-bit FILETIME integer into Time
object.
# File ext/win32/lib/win32/registry.rb, line 402 def self.wtime2time(wtime) Time.at((wtime - 116444736000000000) / 10000000) end
Public Instance Methods
Read a registry value named name and return its value data. The class of value is same as read
method returns.
If the value type is REG_EXPAND_SZ, returns value data whose environment variables are replaced. If the value type is neither REG_SZ, REG_MULTI_SZ, REG_DWORD, REG_DWORD_BIG_ENDIAN, nor REG_QWORD, TypeError
is raised.
The meaning of rtype is same as read
method.
# File ext/win32/lib/win32/registry.rb, line 679 def [](name, *rtype) type, data = read(name, *rtype) case type when REG_SZ, REG_DWORD, REG_QWORD, REG_MULTI_SZ data when REG_EXPAND_SZ Registry.expand_environ(data) else raise TypeError, "Type #{Registry.type2name(type)} is not supported." end end
Write value to a registry value named name.
If wtype is specified, the value type is it. Otherwise, the value type is depend on class of value: :Integer
REG_DWORD
:String
REG_SZ
:Array
REG_MULTI_SZ
# File ext/win32/lib/win32/registry.rb, line 777 def []=(name, rtype, value = nil) if value write name, rtype, value else case value = rtype when Integer write name, REG_DWORD, value when String write name, REG_SZ, value when Array write name, REG_MULTI_SZ, value else raise TypeError, "Unexpected type #{value.class}" end end value end
marshalling is not allowed
# File ext/win32/lib/win32/registry.rb, line 534 def _dump(depth) raise TypeError, "can't dump Win32::Registry" end
Close key.
After close, most method raise an error.
# File ext/win32/lib/win32/registry.rb, line 557 def close API.CloseKey(@hkey) @hkey = @parent = @keyname = nil @hkeyfinal[0] = nil end
Same as Win32::Registry.create
(self, subkey, desired, opt)
# File ext/win32/lib/win32/registry.rb, line 548 def create(subkey, desired = KEY_ALL_ACCESS, opt = REG_OPTION_RESERVED, &blk) self.class.create(self, subkey, desired, opt, &blk) end
Returns if key is created ((newly)). (see Registry.create
) – basically you call create then when you call created? on the instance returned it will tell if it was successful or not
# File ext/win32/lib/win32/registry.rb, line 504 def created? @disposition == REG_CREATED_NEW_KEY end
Delete a subkey named name and all its values.
If recursive is false, the subkey must not have subkeys. Otherwise, this method deletes all subkeys and values recursively.
# File ext/win32/lib/win32/registry.rb, line 840 def delete_key(name, recursive = false) if recursive open(name, KEY_ALL_ACCESS) do |reg| reg.keys.each do |key| begin reg.delete_key(key, true) rescue Error # end end end API.DeleteKey(@hkey, name) else begin API.EnumKey @hkey, 0 rescue Error return API.DeleteKey(@hkey, name) end raise Error.new(5) ## ERROR_ACCESS_DENIED end end
Delete a registry value named name. We can not delete the `default' value.
# File ext/win32/lib/win32/registry.rb, line 829 def delete_value(name) API.DeleteValue(@hkey, name) end
Enumerate subkeys.
subkey is String
which contains name of subkey. wtime is last write time as FILETIME (64-bit integer). (see Registry.wtime2time
)
# File ext/win32/lib/win32/registry.rb, line 603 def each_key index = 0 while true begin subkey, wtime = API.EnumKey(@hkey, index) rescue Error break end subkey = export_string(subkey) yield subkey, wtime index += 1 end index end
Enumerate values.
# File ext/win32/lib/win32/registry.rb, line 566 def each_value index = 0 while true begin subkey = API.EnumValue(@hkey, index) rescue Error break end subkey = export_string(subkey) begin type, data = read(subkey) rescue Error else yield subkey, type, data end index += 1 end index end
Write all the attributes into the registry file.
# File ext/win32/lib/win32/registry.rb, line 865 def flush API.FlushKey @hkey end
Returns key information as Array
of: :num_keys
The number of subkeys.
:max_key_length
Maximum length of name of subkeys.
:num_values
The number of values.
:max_value_name_length
Maximum length of name of values.
:max_value_length
Maximum length of value of values.
:descriptor_length
Length of security descriptor.
:wtime
Last write time as FILETIME(64-bit integer)
For detail, see RegQueryInfoKey Win32
API
.
# File ext/win32/lib/win32/registry.rb, line 888 def info API.QueryInfoKey(@hkey) end
# File ext/win32/lib/win32/registry.rb, line 527 def inspect "\#<Win32::Registry key=#{name.inspect}>" end
return keys as an array
# File ext/win32/lib/win32/registry.rb, line 621 def keys keys_ary = [] each_key { |key,| keys_ary << key } keys_ary end
Full path of key such as 'HKEY_CURRENT_USERSOFTWAREfoobar'.
# File ext/win32/lib/win32/registry.rb, line 518 def name parent = self name = @keyname while parent = parent.parent name = parent.keyname + '\\' + name end name end
Same as Win32::Registry.open
(self, subkey, desired, opt)
# File ext/win32/lib/win32/registry.rb, line 541 def open(subkey, desired = KEY_READ, opt = REG_OPTION_RESERVED, &blk) self.class.open(self, subkey, desired, opt, &blk) end
Returns if key is not closed.
# File ext/win32/lib/win32/registry.rb, line 511 def open? !@hkey.nil? end
Read a registry value named name and return array of [ type, data ]. When name is nil, the `default' value is read. type is value type. (see Win32::Registry::Constants
module) data is value data, its class is: :REG_SZ, REG_EXPAND_SZ
String
:REG_MULTI_SZ
Array of String
:REG_DWORD, REG_DWORD_BIG_ENDIAN, REG_QWORD
Integer
:REG_BINARY, REG_NONE
String (contains binary data)
When rtype is specified, the value type must be included by rtype array, or TypeError
is raised.
# File ext/win32/lib/win32/registry.rb, line 643 def read(name, *rtype) type, data = API.QueryValue(@hkey, name) unless rtype.empty? or rtype.include?(type) raise TypeError, "Type mismatch (expect [#{ rtype.map{|t|Registry.type2name(t)}.join(', ')}] but #{ Registry.type2name(type)} present)" end case type when REG_SZ, REG_EXPAND_SZ [ type, data.encode(name.encoding, WCHAR).chop ] when REG_MULTI_SZ [ type, data.encode(name.encoding, WCHAR).split(/\0/) ] when REG_BINARY, REG_NONE [ type, data ] when REG_DWORD [ type, API.unpackdw(data) ] when REG_DWORD_BIG_ENDIAN [ type, data.unpack('N')[0] ] when REG_QWORD [ type, API.unpackqw(data) ] else raise TypeError, "Type #{Registry.type2name(type)} is not supported." end end
Read a REG_SZ or REG_EXPAND_SZ registry value named name.
If the value type is REG_EXPAND_SZ, environment variables are replaced. Unless the value type is REG_SZ or REG_EXPAND_SZ, TypeError
is raised.
# File ext/win32/lib/win32/registry.rb, line 705 def read_s_expand(name) type, data = read(name, REG_SZ, REG_EXPAND_SZ) if type == REG_EXPAND_SZ Registry.expand_environ(data) else data end end
return values as an array
# File ext/win32/lib/win32/registry.rb, line 590 def values vals_ary = [] each_value { |*, val| vals_ary << val } vals_ary end
Write data to a registry value named name. When name is nil, write to the `default' value.
type is type value. (see Registry::Constants
module) Class
of data must be same as which read
method returns.
# File ext/win32/lib/win32/registry.rb, line 742 def write(name, type, data) termsize = 0 case type when REG_SZ, REG_EXPAND_SZ data = data.encode(WCHAR) termsize = WCHAR_SIZE when REG_MULTI_SZ data = data.to_a.map {|s| s.encode(WCHAR)}.join(WCHAR_NUL) << WCHAR_NUL termsize = WCHAR_SIZE when REG_BINARY, REG_NONE data = data.to_s when REG_DWORD data = API.packdw(data.to_i) when REG_DWORD_BIG_ENDIAN data = [data.to_i].pack('N') when REG_QWORD data = API.packqw(data.to_i) else raise TypeError, "Unsupported type #{Registry.type2name(type)}" end API.SetValue(@hkey, name, type, data, data.bytesize + termsize) end