diff options
Diffstat (limited to 'ext/dl')
| -rw-r--r-- | ext/dl/win32/extconf.rb | 3 | ||||
| -rw-r--r-- | ext/dl/win32/lib/Win32API.rb | 31 | ||||
| -rw-r--r-- | ext/dl/win32/lib/win32/registry.rb | 876 | ||||
| -rw-r--r-- | ext/dl/win32/lib/win32/resolv.rb | 379 | ||||
| -rw-r--r-- | ext/dl/win32/lib/win32/sspi.rb | 330 |
5 files changed, 0 insertions, 1619 deletions
diff --git a/ext/dl/win32/extconf.rb b/ext/dl/win32/extconf.rb deleted file mode 100644 index 03590f24fa..0000000000 --- a/ext/dl/win32/extconf.rb +++ /dev/null @@ -1,3 +0,0 @@ -if compiled?('dl') and !compiled?('fiddle') and $mswin||$bccwin||$mingw||$cygwin - create_makefile('win32') -end diff --git a/ext/dl/win32/lib/Win32API.rb b/ext/dl/win32/lib/Win32API.rb deleted file mode 100644 index 4d7d4887a5..0000000000 --- a/ext/dl/win32/lib/Win32API.rb +++ /dev/null @@ -1,31 +0,0 @@ -# -*- ruby -*- -# for backward compatibility -warn "Warning:#{caller[0].sub(/:in `.*'\z/, '')}: Win32API is deprecated after Ruby 1.9.1; use dl directly instead" if $VERBOSE - -require 'dl' - -class Win32API - DLL = {} - TYPEMAP = {"0" => DL::TYPE_VOID, "S" => DL::TYPE_VOIDP, "I" => DL::TYPE_LONG} - POINTER_TYPE = DL::SIZEOF_VOIDP == DL::SIZEOF_LONG_LONG ? 'q*' : 'l!*' - - def initialize(dllname, func, import, export = "0", calltype = :stdcall) - @proto = [import].join.tr("VPpNnLlIi", "0SSI").sub(/^(.)0*$/, '\1') - handle = DLL[dllname] ||= DL.dlopen(dllname) - @func = DL::CFunc.new(handle[func], TYPEMAP[export.tr("VPpNnLlIi", "0SSI")], func, calltype) - rescue DL::DLError => e - raise LoadError, e.message, e.backtrace - end - - def call(*args) - import = @proto.split("") - args.each_with_index do |x, i| - args[i], = [x == 0 ? nil : x].pack("p").unpack(POINTER_TYPE) if import[i] == "S" - args[i], = [x].pack("I").unpack("i") if import[i] == "I" - end - ret, = @func.call(args) - return ret || 0 - end - - alias Call call -end diff --git a/ext/dl/win32/lib/win32/registry.rb b/ext/dl/win32/lib/win32/registry.rb deleted file mode 100644 index 147830ae5d..0000000000 --- a/ext/dl/win32/lib/win32/registry.rb +++ /dev/null @@ -1,876 +0,0 @@ -require 'dl/import' -module Win32 - -=begin rdoc -= Win32 Registry - -win32/registry is registry accessor library for Win32 platform. -It uses dl/import to call Win32 Registry APIs. - -== example - Win32::Registry::HKEY_CURRENT_USER.open('SOFTWARE\foo') do |reg| - value = reg['foo'] # read a value - value = reg['foo', Win32::Registry::REG_SZ] # read a value with type - type, value = reg.read('foo') # read a value - reg['foo'] = 'bar' # write a value - reg['foo', Win32::Registry::REG_SZ] = 'bar' # write a value with type - reg.write('foo', Win32::Registry::REG_SZ, 'bar') # write a value - - reg.each_value { |name, type, data| ... } # Enumerate values - reg.each_key { |key, wtime| ... } # Enumerate subkeys - - reg.delete_value(name) # Delete a value - reg.delete_key(name) # Delete a subkey - reg.delete_key(name, true) # Delete a subkey recursively - end - -= Reference - -== Win32::Registry class - ---- info - ---- num_keys - ---- max_key_length - ---- num_values - ---- max_value_name_length - ---- max_value_length - ---- descriptor_length - ---- wtime - Returns an item of key information. - -=== constants ---- HKEY_CLASSES_ROOT - ---- HKEY_CURRENT_USER - ---- HKEY_LOCAL_MACHINE - ---- HKEY_PERFORMANCE_DATA - ---- HKEY_CURRENT_CONFIG - ---- HKEY_DYN_DATA - - Win32::Registry object whose key is predefined key. -For detail, see the MSDN[http://msdn.microsoft.com/library/en-us/sysinfo/base/predefined_keys.asp] article. - -=end rdoc - - WCHAR = Encoding::UTF_16LE - WCHAR_NUL = "\0".encode(WCHAR).freeze - WCHAR_SIZE = WCHAR_NUL.bytesize - LOCALE = Encoding.find(Encoding.locale_charmap) - - class Registry - - # - # For detail, see the MSDN[http://msdn.microsoft.com/library/en-us/sysinfo/base/registry.asp]. - # - # --- HKEY_* - # - # Predefined key ((*handle*)). - # These are Integer, not Win32::Registry. - # - # --- REG_* - # - # Registry value type. - # - # --- KEY_* - # - # Security access mask. - # - # --- KEY_OPTIONS_* - # - # Key options. - # - # --- REG_CREATED_NEW_KEY - # - # --- REG_OPENED_EXISTING_KEY - # - # If the key is created newly or opened existing key. - # See also Registry#disposition method. - module Constants - HKEY_CLASSES_ROOT = 0x80000000 - HKEY_CURRENT_USER = 0x80000001 - HKEY_LOCAL_MACHINE = 0x80000002 - HKEY_USERS = 0x80000003 - HKEY_PERFORMANCE_DATA = 0x80000004 - HKEY_PERFORMANCE_TEXT = 0x80000050 - HKEY_PERFORMANCE_NLSTEXT = 0x80000060 - HKEY_CURRENT_CONFIG = 0x80000005 - HKEY_DYN_DATA = 0x80000006 - - REG_NONE = 0 - REG_SZ = 1 - REG_EXPAND_SZ = 2 - REG_BINARY = 3 - REG_DWORD = 4 - REG_DWORD_LITTLE_ENDIAN = 4 - REG_DWORD_BIG_ENDIAN = 5 - REG_LINK = 6 - REG_MULTI_SZ = 7 - REG_RESOURCE_LIST = 8 - REG_FULL_RESOURCE_DESCRIPTOR = 9 - REG_RESOURCE_REQUIREMENTS_LIST = 10 - REG_QWORD = 11 - REG_QWORD_LITTLE_ENDIAN = 11 - - STANDARD_RIGHTS_READ = 0x00020000 - STANDARD_RIGHTS_WRITE = 0x00020000 - KEY_QUERY_VALUE = 0x0001 - KEY_SET_VALUE = 0x0002 - KEY_CREATE_SUB_KEY = 0x0004 - KEY_ENUMERATE_SUB_KEYS = 0x0008 - KEY_NOTIFY = 0x0010 - KEY_CREATE_LINK = 0x0020 - KEY_READ = STANDARD_RIGHTS_READ | - KEY_QUERY_VALUE | KEY_ENUMERATE_SUB_KEYS | KEY_NOTIFY - KEY_WRITE = STANDARD_RIGHTS_WRITE | - KEY_SET_VALUE | KEY_CREATE_SUB_KEY - KEY_EXECUTE = KEY_READ - KEY_ALL_ACCESS = KEY_READ | KEY_WRITE | KEY_CREATE_LINK - - REG_OPTION_RESERVED = 0x0000 - REG_OPTION_NON_VOLATILE = 0x0000 - REG_OPTION_VOLATILE = 0x0001 - REG_OPTION_CREATE_LINK = 0x0002 - REG_OPTION_BACKUP_RESTORE = 0x0004 - REG_OPTION_OPEN_LINK = 0x0008 - REG_LEGAL_OPTION = REG_OPTION_RESERVED | - REG_OPTION_NON_VOLATILE | REG_OPTION_CREATE_LINK | - REG_OPTION_BACKUP_RESTORE | REG_OPTION_OPEN_LINK - - REG_CREATED_NEW_KEY = 1 - REG_OPENED_EXISTING_KEY = 2 - - REG_WHOLE_HIVE_VOLATILE = 0x0001 - REG_REFRESH_HIVE = 0x0002 - REG_NO_LAZY_FLUSH = 0x0004 - REG_FORCE_RESTORE = 0x0008 - - MAX_KEY_LENGTH = 514 - MAX_VALUE_LENGTH = 32768 - end - include Constants - include Enumerable - - # - # Error - # - class Error < ::StandardError - module Kernel32 - extend DL::Importer - dlload "kernel32.dll" - end - FormatMessageW = Kernel32.extern "int FormatMessageW(int, void *, int, int, void *, int, void *)", :stdcall - def initialize(code) - @code = code - msg = WCHAR_NUL * 1024 - len = FormatMessageW.call(0x1200, 0, code, 0, msg, 1024, 0) - msg = msg[0, len].encode(LOCALE) - super msg.tr("\r".encode(msg.encoding), '').chomp - end - attr_reader :code - end - - # - # Predefined Keys - # - class PredefinedKey < Registry - def initialize(hkey, keyname) - @hkey = hkey - @parent = nil - @keyname = keyname - @disposition = REG_OPENED_EXISTING_KEY - end - - # Predefined keys cannot be closed - def close - raise Error.new(5) ## ERROR_ACCESS_DENIED - end - - # Fake #class method for Registry#open, Registry#create - def class - Registry - end - - # Make all - Constants.constants.grep(/^HKEY_/) do |c| - Registry.const_set c, new(Constants.const_get(c), c.to_s) - end - end - - # - # Win32 APIs - # - module API - extend DL::Importer - dlload "advapi32.dll" - [ - "long RegOpenKeyExW(void *, void *, long, long, void *)", - "long RegCreateKeyExW(void *, void *, long, long, long, long, void *, void *, void *)", - "long RegEnumValueW(void *, long, void *, void *, void *, void *, void *, void *)", - "long RegEnumKeyExW(void *, long, void *, void *, void *, void *, void *, void *)", - "long RegQueryValueExW(void *, void *, void *, void *, void *, void *)", - "long RegSetValueExW(void *, void *, long, long, void *, long)", - "long RegDeleteValue(void *, void *)", - "long RegDeleteKey(void *, void *)", - "long RegFlushKey(void *)", - "long RegCloseKey(void *)", - "long RegQueryInfoKey(void *, void *, void *, void *, void *, void *, void *, void *, void *, void *, void *, void *)", - ].each do |fn| - cfunc = extern fn, :stdcall - const_set cfunc.name.intern, cfunc - end - - module_function - - def check(result) - raise Error, result, caller(1) if result != 0 - end - - def win64? - /^(?:x64|x86_64)/ =~ RUBY_PLATFORM - end - - def packhandle(h) - win64? ? packqw(h) : packdw(h) - end - - def unpackhandle(h) - win64? ? unpackqw(h) : unpackdw(h) - end - - def packdw(dw) - [dw].pack('V') - end - - def unpackdw(dw) - dw += [0].pack('V') - dw.unpack('V')[0] - end - - def packqw(qw) - [ qw & 0xFFFFFFFF, qw >> 32 ].pack('VV') - end - - def unpackqw(qw) - qw = qw.unpack('VV') - (qw[1] << 32) | qw[0] - end - - def make_wstr(str) - str.encode(WCHAR) - end - - def OpenKey(hkey, name, opt, desired) - result = packhandle(0) - check RegOpenKeyExW.call(hkey, make_wstr(name), opt, desired, result) - unpackhandle(result) - end - - def CreateKey(hkey, name, opt, desired) - result = packhandle(0) - disp = packdw(0) - check RegCreateKeyExW.call(hkey, make_wstr(name), 0, 0, opt, desired, - 0, result, disp) - [ unpackhandle(result), unpackdw(disp) ] - end - - def EnumValue(hkey, index) - name = WCHAR_NUL * Constants::MAX_KEY_LENGTH - size = packdw(Constants::MAX_KEY_LENGTH) - check RegEnumValueW.call(hkey, index, name, size, 0, 0, 0, 0) - name[0, unpackdw(size)/WCHAR_SIZE].encode - end - - def EnumKey(hkey, index) - name = WCHAR_NUL * Constants::MAX_KEY_LENGTH - size = packdw(Constants::MAX_KEY_LENGTH) - wtime = ' ' * 8 - check RegEnumKeyExW.call(hkey, index, name, size, 0, 0, 0, wtime) - [ name[0, unpackdw(size)/WCHAR_SIZE].encode, unpackqw(wtime) ] - end - - def QueryValue(hkey, name) - type = packdw(0) - size = packdw(0) - name = make_wstr(name) - check RegQueryValueExW.call(hkey, name, 0, type, 0, size) - data = "\0".force_encoding('ASCII-8BIT') * unpackdw(size) - check RegQueryValueExW.call(hkey, name, 0, type, data, size) - [ unpackdw(type), data[0, unpackdw(size)] ] - end - - def SetValue(hkey, name, type, data, size) - case type - when REG_SZ, REG_EXPAND_SZ, REG_MULTI_SZ - data = data.encode(WCHAR) - size ||= data.size + 1 - end - check RegSetValueExW.call(hkey, make_wstr(name), 0, type, data, size) - end - - def DeleteValue(hkey, name) - check RegDeleteValue.call(hkey, make_wstr(name)) - end - - def DeleteKey(hkey, name) - check RegDeleteKey.call(hkey, make_wstr(name)) - end - - def FlushKey(hkey) - check RegFlushKey.call(hkey) - end - - def CloseKey(hkey) - check RegCloseKey.call(hkey) - end - - def QueryInfoKey(hkey) - subkeys = packdw(0) - maxsubkeylen = packdw(0) - values = packdw(0) - maxvaluenamelen = packdw(0) - maxvaluelen = packdw(0) - secdescs = packdw(0) - wtime = ' ' * 8 - check RegQueryInfoKey.call(hkey, 0, 0, 0, subkeys, maxsubkeylen, 0, - values, maxvaluenamelen, maxvaluelen, secdescs, wtime) - [ unpackdw(subkeys), unpackdw(maxsubkeylen), unpackdw(values), - unpackdw(maxvaluenamelen), unpackdw(maxvaluelen), - unpackdw(secdescs), unpackqw(wtime) ] - 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[http://msdn.microsoft.com/library/en-us/sysinfo/base/expandenvironmentstrings.asp] \Win32 \API. - # - 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 - - @@type2name = { } - %w[ - REG_NONE REG_SZ REG_EXPAND_SZ REG_BINARY REG_DWORD - REG_DWORD_BIG_ENDIAN REG_LINK REG_MULTI_SZ - REG_RESOURCE_LIST REG_FULL_RESOURCE_DESCRIPTOR - REG_RESOURCE_REQUIREMENTS_LIST REG_QWORD - ].each do |type| - @@type2name[Constants.const_get(type)] = type - end - - # - # Convert registry type value to readable string. - # - def self.type2name(type) - @@type2name[type] || type.to_s - end - - # - # Convert 64-bit FILETIME integer into Time object. - # - def self.wtime2time(wtime) - Time.at((wtime - 116444736000000000) / 10000000) - end - - # - # Convert Time object or Integer object into 64-bit FILETIME. - # - def self.time2wtime(time) - time.to_i * 10000000 + 116444736000000000 - end - - # - # constructor - # - private_class_method :new - - # - # --- 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[http://msdn.microsoft.com/library/en-us/sysinfo/base/regopenkeyex.asp]. - # If block is given, the key is closed automatically. - 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 - - # - # --- 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. - # - 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 - - # - # finalizer - # - @@final = proc { |hkey| proc { API.CloseKey(hkey[0]) if hkey[0] } } - - # - # initialize - # - def initialize(hkey, parent, keyname, disposition) - @hkey = hkey - @parent = parent - @keyname = keyname - @disposition = disposition - @hkeyfinal = [ hkey ] - ObjectSpace.define_finalizer self, @@final.call(@hkeyfinal) - end - - # Returns key handle value. - attr_reader :hkey - # Win32::Registry object of parent key, or nil if predefeined key. - attr_reader :parent - # Same as subkey value of Registry.open or - # Registry.create method. - attr_reader :keyname - # Disposition value (REG_CREATED_NEW_KEY or REG_OPENED_EXISTING_KEY). - attr_reader :disposition - - # - # 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 - # - def created? - @disposition == REG_CREATED_NEW_KEY - end - - # - # Returns if key is not closed. - # - def open? - !@hkey.nil? - end - - # - # Full path of key such as 'HKEY_CURRENT_USER\SOFTWARE\foo\bar'. - # - def name - parent = self - name = @keyname - while parent = parent.parent - name = parent.keyname + '\\' + name - end - name - end - - def inspect - "\#<Win32::Registry key=#{name.inspect}>" - end - - # - # marshalling is not allowed - # - def _dump(depth) - raise TypeError, "can't dump Win32::Registry" - end - - # - # Same as Win32::Registry.open (self, subkey, desired, opt) - # - def open(subkey, desired = KEY_READ, opt = REG_OPTION_RESERVED, &blk) - self.class.open(self, subkey, desired, opt, &blk) - end - - # - # Same as Win32::Registry.create (self, subkey, desired, opt) - # - def create(subkey, desired = KEY_ALL_ACCESS, opt = REG_OPTION_RESERVED, &blk) - self.class.create(self, subkey, desired, opt, &blk) - end - - # - # Close key. - # - # After close, most method raise an error. - # - def close - API.CloseKey(@hkey) - @hkey = @parent = @keyname = nil - @hkeyfinal[0] = nil - end - - # - # Enumerate values. - # - def each_value - index = 0 - while true - begin - subkey = API.EnumValue(@hkey, index) - rescue Error - break - end - begin - type, data = read(subkey) - rescue Error - next - end - yield subkey, type, data - index += 1 - end - index - end - alias each each_value - - # - # Enumerate subkeys. - # - # subkey is String which contains name of subkey. - # wtime is last write time as FILETIME (64-bit integer). - # (see Registry.wtime2time) - # - def each_key - index = 0 - while true - begin - subkey, wtime = API.EnumKey(@hkey, index) - rescue Error - break - end - yield subkey, wtime - index += 1 - end - index - end - - # - # return keys as an array - # - def keys - keys_ary = [] - each_key { |key,| keys_ary << key } - keys_ary - 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 - # String (contains binary data) - # - # When rtype is specified, the value type must be included by - # rtype array, or TypeError is raised. - def read(name, *rtype) - type, data = API.QueryValue(@hkey, name) - unless rtype.empty? or rtype.include?(type) - raise TypeError, "Type mismatch (expect #{rtype.inspect} but #{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 - [ 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 #{type} is not supported." - end - end - - # - # 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. - # - 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 #{type} is not supported." - end - end - - # Read a REG_SZ(read_s), REG_DWORD(read_i), or REG_BINARY(read_bin) - # registry value named name. - # - # If the values type does not match, TypeError is raised. - def read_s(name) - read(name, REG_SZ)[1] - 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. - # - 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 - - # - # Read a REG_SZ(read_s), REG_DWORD(read_i), or REG_BINARY(read_bin) - # registry value named name. - # - # If the values type does not match, TypeError is raised. - # - def read_i(name) - read(name, REG_DWORD, REG_DWORD_BIG_ENDIAN, REG_QWORD)[1] - end - - # - # Read a REG_SZ(read_s), REG_DWORD(read_i), or REG_BINARY(read_bin) - # registry value named name. - # - # If the values type does not match, TypeError is raised. - # - def read_bin(name) - read(name, REG_BINARY)[1] - 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. - # - def write(name, type, data) - case type - when REG_SZ, REG_EXPAND_SZ - data = data.to_s + "\0" - when REG_MULTI_SZ - data = data.to_a.join("\0") + "\0\0" - when REG_BINARY - 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 #{type}" - end - API.SetValue(@hkey, name, type, data, data.length) - 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 - # - 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 - - # - # Write value to a registry value named name. - # - # The value type is REG_SZ(write_s), REG_DWORD(write_i), or - # REG_BINARY(write_bin). - # - def write_s(name, value) - write name, REG_SZ, value.to_s - end - - # - # Write value to a registry value named name. - # - # The value type is REG_SZ(write_s), REG_DWORD(write_i), or - # REG_BINARY(write_bin). - # - def write_i(name, value) - write name, REG_DWORD, value.to_i - end - - # - # Write value to a registry value named name. - # - # The value type is REG_SZ(write_s), REG_DWORD(write_i), or - # REG_BINARY(write_bin). - # - def write_bin(name, value) - write name, REG_BINARY, value.to_s - end - - # - # Delete a registry value named name. - # We can not delete the `default' value. - # - def delete_value(name) - API.DeleteValue(@hkey, name) - end - alias delete delete_value - - # - # 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. - # - 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 - - # - # Write all the attributes into the registry file. - # - 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[http://msdn.microsoft.com/library/en-us/sysinfo/base/regqueryinfokey.asp] Win32 API. - # - def info - API.QueryInfoKey(@hkey) - end - - # - # Returns an item of key information. - # - %w[ - num_keys max_key_length - num_values max_value_name_length max_value_length - descriptor_length wtime - ].each_with_index do |s, i| - eval <<-__END__ - def #{s} - info[#{i}] - end - __END__ - end - end -end diff --git a/ext/dl/win32/lib/win32/resolv.rb b/ext/dl/win32/lib/win32/resolv.rb deleted file mode 100644 index 8a65472877..0000000000 --- a/ext/dl/win32/lib/win32/resolv.rb +++ /dev/null @@ -1,379 +0,0 @@ -=begin -= Win32 DNS and DHCP I/F - -=end - -require "dl/import" -require 'win32/registry' - -module Win32 - module Resolv - API = Registry::API - - def self.get_hosts_path - path = get_hosts_dir - path = File.expand_path('hosts', path) - File.exist?(path) ? path : nil - end - - def self.get_resolv_info - search, nameserver = get_info - if search.empty? - search = nil - else - search.delete("") - search.uniq! - end - if nameserver.empty? - nameserver = nil - else - nameserver.delete("") - nameserver.delete("0.0.0.0") - nameserver.uniq! - end - [ search, nameserver ] - end - -module Kernel32 - extend DL::Importer - dlload "kernel32" -end -getv = Kernel32.extern "int GetVersionExA(void *)", :stdcall -info = [ 148, 0, 0, 0, 0 ].pack('V5') + "\0" * 128 -getv.call(info) -if info.unpack('V5')[4] == 2 # VER_PLATFORM_WIN32_NT -#==================================================================== -# Windows NT -#==================================================================== - module_eval <<-'__EOS__', __FILE__, __LINE__+1 - TCPIP_NT = 'SYSTEM\CurrentControlSet\Services\Tcpip\Parameters' - - class << self - private - def get_hosts_dir - Registry::HKEY_LOCAL_MACHINE.open(TCPIP_NT) do |reg| - reg.read_s_expand('DataBasePath') - end - end - - def get_info - search = nil - nameserver = [] - Registry::HKEY_LOCAL_MACHINE.open(TCPIP_NT) do |reg| - begin - slist = reg.read_s('SearchList') - search = slist.split(/,\s*/) unless slist.empty? - rescue Registry::Error - end - - if add_search = search.nil? - search = [] - begin - nvdom = reg.read_s('NV Domain') - unless nvdom.empty? - @search = [ nvdom ] - if reg.read_i('UseDomainNameDevolution') != 0 - if /^\w+\./ =~ nvdom - devo = $' - end - end - end - rescue Registry::Error - end - end - - reg.open('Interfaces') do |h| - h.each_key do |iface,| - h.open(iface) do |regif| - begin - [ 'NameServer', 'DhcpNameServer' ].each do |key| - begin - ns = regif.read_s(key) - rescue - else - unless ns.empty? - nameserver.concat(ns.split(/[,\s]\s*/)) - break - end - end - end - rescue Registry::Error - end - - if add_search - begin - [ 'Domain', 'DhcpDomain' ].each do |key| - dom = regif.read_s(key) - unless dom.empty? - search.concat(dom.split(/,\s*/)) - break - end - end - rescue Registry::Error - end - end - end - end - end - search << devo if add_search and devo - end - [ search.uniq, nameserver.uniq ] - end - end - __EOS__ -else -#==================================================================== -# Windows 9x -#==================================================================== - module_eval <<-'__EOS__', __FILE__, __LINE__+1 - TCPIP_9X = 'SYSTEM\CurrentControlSet\Services\VxD\MSTCP' - DHCP_9X = 'SYSTEM\CurrentControlSet\Services\VxD\DHCP' - WINDOWS = 'Software\Microsoft\Windows\CurrentVersion' - - class << self - # private - - def get_hosts_dir - Registry::HKEY_LOCAL_MACHINE.open(WINDOWS) do |reg| - reg.read_s_expand('SystemRoot') - end - end - - def get_info - search = [] - nameserver = [] - begin - Registry::HKEY_LOCAL_MACHINE.open(TCPIP_9X) do |reg| - if reg.read_s("EnableDNS") == "1" - domain = reg.read_s("Domain") - ns = reg.read_s("NameServer") - slist = reg.read_s("SearchList") - search << domain unless domain.empty? - search.concat(slist.split(/,\s*/)) - nameserver.concat(ns.split(/[,\s]\s*/)) - end - end - rescue Registry::Error - end - - dhcpinfo = get_dhcpinfo - search.concat(dhcpinfo[0]) - nameserver.concat(dhcpinfo[1]) - [ search, nameserver ] - end - - def get_dhcpinfo - macaddrs = {} - ipaddrs = {} - WsControl.get_iflist.each do |index, macaddr, *ipaddr| - macaddrs[macaddr] = 1 - ipaddr.each { |ipaddr| ipaddrs[ipaddr] = 1 } - end - iflist = [ macaddrs, ipaddrs ] - - search = [] - nameserver = [] - version = -1 - Registry::HKEY_LOCAL_MACHINE.open(DHCP_9X) do |reg| - begin - version = API.unpackdw(reg.read_bin("Version")) - rescue Registry::Error - end - - reg.each_key do |key,| - catch(:not_used) do - reg.open(key) do |regdi| - dom, ns = get_dhcpinfo_key(version, regdi, iflist) - search << dom if dom - nameserver.concat(ns) if ns - end - end - end - end - [ search, nameserver ] - end - - def get_dhcpinfo_95(reg) - dhcp = reg.read_bin("DhcpInfo") - [ - API.unpackdw(dhcp[4..7]), - API.unpackdw(dhcp[8..11]), - 1, - dhcp[45..50], - reg.read_bin("OptionInfo"), - ] - end - - def get_dhcpinfo_98(reg) - [ - API.unpackdw(reg.read_bin("DhcpIPAddress")), - API.unpackdw(reg.read_bin("DhcpSubnetMask")), - API.unpackdw(reg.read_bin("HardwareType")), - reg.read_bin("HardwareAddress"), - reg.read_bin("OptionInfo"), - ] - end - - def get_dhcpinfo_key(version, reg, iflist) - info = case version - when 1 - get_dhcpinfo_95(reg) - when 2 - get_dhcpinfo_98(reg) - else - begin - get_dhcpinfo_98(reg) - rescue Registry::Error - get_dhcpinfo_95(reg) - end - end - ipaddr, netmask, hwtype, macaddr, opt = info - throw :not_used unless - ipaddr and ipaddr != 0 and - netmask and netmask != 0 and - macaddr and macaddr.size == 6 and - hwtype == 1 and - iflist[0][macaddr] and iflist[1][ipaddr] - - size = opt.size - idx = 0 - while idx <= size - opttype = opt[idx] - optsize = opt[idx + 1] - optval = opt[idx + 2, optsize] - case opttype - when 0xFF ## term - break - when 0x0F ## domain - domain = optval.chomp("\0") - when 0x06 ## dns - nameserver = optval.scan(/..../).collect { |addr| - "%d.%d.%d.%d" % addr.unpack('C4') - } - end - idx += optsize + 2 - end - [ domain, nameserver ] - rescue Registry::Error - throw :not_used - end - end - - module WsControl - module WSock32 - extend DL::Importer - dlload "wsock32.dll" - end - WsControl = WSock32.extern "int WsControl(int, int, void *, void *, void *, void *", :stdcall - WSAGetLastError = WSock32.extern "int WSAGetLastError(void)", :stdcall - - MAX_TDI_ENTITIES = 512 - IPPROTO_TCP = 6 - WSCTL_TCP_QUERY_INFORMATION = 0 - INFO_CLASS_GENERIC = 0x100 - INFO_CLASS_PROTOCOL = 0x200 - INFO_TYPE_PROVIDER = 0x100 - ENTITY_LIST_ID = 0 - GENERIC_ENTITY = 0 - CL_NL_ENTITY = 0x301 - IF_ENTITY = 0x200 - ENTITY_TYPE_ID = 1 - CL_NL_IP = 0x303 - IF_MIB = 0x202 - IF_MIB_STATS_ID = 1 - IP_MIB_ADDRTABLE_ENTRY_ID = 0x102 - - def self.wsctl(tei_entity, tei_instance, - toi_class, toi_type, toi_id, - buffsize) - reqinfo = [ - ## TDIEntityID - tei_entity, tei_instance, - ## TDIObjectID - toi_class, toi_type, toi_id, - ## TCP_REQUEST_INFORMATION_EX - "" - ].pack('VVVVVa16') - reqsize = API.packdw(reqinfo.size) - buff = "\0" * buffsize - buffsize = API.packdw(buffsize) - result = WsControl.call( - IPPROTO_TCP, - WSCTL_TCP_QUERY_INFORMATION, - reqinfo, reqsize, - buff, buffsize) - if result != 0 - raise RuntimeError, "WsControl failed.(#{result})" - end - [ buff, API.unpackdw(buffsize) ] - end - private_class_method :wsctl - - def self.get_iflist - # Get TDI Entity List - entities, size = - wsctl(GENERIC_ENTITY, 0, - INFO_CLASS_GENERIC, - INFO_TYPE_PROVIDER, - ENTITY_LIST_ID, - MAX_TDI_ENTITIES * 8) # sizeof(TDIEntityID) - entities = entities[0, size]. - scan(/.{8}/). - collect { |e| e.unpack('VV') } - - # Get MIB Interface List - iflist = [] - ifcount = 0 - entities.each do |entity, instance| - if( (entity & IF_ENTITY)>0 ) - ifcount += 1 - etype, = wsctl(entity, instance, - INFO_CLASS_GENERIC, - INFO_TYPE_PROVIDER, - ENTITY_TYPE_ID, - 4) - if( (API.unpackdw(etype) & IF_MIB)==IF_MIB ) - ifentry, = wsctl(entity, instance, - INFO_CLASS_PROTOCOL, - INFO_TYPE_PROVIDER, - IF_MIB_STATS_ID, - 21 * 4 + 8 + 130) # sizeof(IFEntry) - iflist << [ - API.unpackdw(ifentry[0,4]), - ifentry[20, 6] - ] - end - end - end - - # Get IP Addresses - entities.each do |entity, instance| - if entity == CL_NL_ENTITY - etype, = wsctl(entity, instance, - INFO_CLASS_GENERIC, - INFO_TYPE_PROVIDER, - ENTITY_TYPE_ID, - 4) - if API.unpackdw(etype) == CL_NL_IP - ipentries, = wsctl(entity, instance, - INFO_CLASS_PROTOCOL, - INFO_TYPE_PROVIDER, - IP_MIB_ADDRTABLE_ENTRY_ID, - 24 * (ifcount+1)) # sizeof(IPAddrEntry) - ipentries.scan(/.{24}/) do |ipentry| - ipaddr, index = ipentry.unpack('VV') - if ifitem = iflist.assoc(index) - ifitem << ipaddr - end - end - end - end - end - iflist - end - end - __EOS__ -end -#==================================================================== - end -end diff --git a/ext/dl/win32/lib/win32/sspi.rb b/ext/dl/win32/lib/win32/sspi.rb deleted file mode 100644 index 6022df96c3..0000000000 --- a/ext/dl/win32/lib/win32/sspi.rb +++ /dev/null @@ -1,330 +0,0 @@ -# -# = win32/sspi.rb -# -# Copyright (c) 2006-2007 Justin Bailey -# -# Written and maintained by Justin Bailey <jgbailey@gmail.com>. -# -# This program is free software. You can re-distribute and/or -# modify this program under the same terms of ruby itself --- -# Ruby Distribution License or GNU General Public License. -# - -require 'Win32API' - -# Implements bindings to Win32 SSPI functions, focused on authentication to a proxy server over HTTP. -module Win32 - module SSPI - # Specifies how credential structure requested will be used. Only SECPKG_CRED_OUTBOUND is used - # here. - SECPKG_CRED_INBOUND = 0x00000001 - SECPKG_CRED_OUTBOUND = 0x00000002 - SECPKG_CRED_BOTH = 0x00000003 - - # Format of token. NETWORK format is used here. - SECURITY_NATIVE_DREP = 0x00000010 - SECURITY_NETWORK_DREP = 0x00000000 - - # InitializeSecurityContext Requirement flags - ISC_REQ_REPLAY_DETECT = 0x00000004 - ISC_REQ_SEQUENCE_DETECT = 0x00000008 - ISC_REQ_CONFIDENTIALITY = 0x00000010 - ISC_REQ_USE_SESSION_KEY = 0x00000020 - ISC_REQ_PROMPT_FOR_CREDS = 0x00000040 - ISC_REQ_CONNECTION = 0x00000800 - - # Win32 API Functions. Uses Win32API to bind methods to constants contained in class. - module API - # Can be called with AcquireCredentialsHandle.call() - AcquireCredentialsHandle = Win32API.new("secur32", "AcquireCredentialsHandle", 'ppLpppppp', 'L') - # Can be called with InitializeSecurityContext.call() - InitializeSecurityContext = Win32API.new("secur32", "InitializeSecurityContext", 'pppLLLpLpppp', 'L') - # Can be called with DeleteSecurityContext.call() - DeleteSecurityContext = Win32API.new("secur32", "DeleteSecurityContext", 'P', 'L') - # Can be called with FreeCredentialsHandle.call() - FreeCredentialsHandle = Win32API.new("secur32", "FreeCredentialsHandle", 'P', 'L') - end - - # SecHandle struct - class SecurityHandle - def upper - @struct.unpack("LL")[1] - end - - def lower - @struct.unpack("LL")[0] - end - - def to_p - @struct ||= "\0" * 8 - end - end - - # Some familiar aliases for the SecHandle structure - CredHandle = CtxtHandle = SecurityHandle - - # TimeStamp struct - class TimeStamp - attr_reader :struct - - def to_p - @struct ||= "\0" * 8 - end - end - - # Creates binary representaiton of a SecBufferDesc structure, - # including the SecBuffer contained inside. - class SecurityBuffer - - SECBUFFER_TOKEN = 2 # Security token - - TOKENBUFSIZE = 12288 - SECBUFFER_VERSION = 0 - - def initialize(buffer = nil) - @buffer = buffer || "\0" * TOKENBUFSIZE - @bufferSize = @buffer.length - @type = SECBUFFER_TOKEN - end - - def bufferSize - unpack - @bufferSize - end - - def bufferType - unpack - @type - end - - def token - unpack - @buffer - end - - def to_p - # Assumption is that when to_p is called we are going to get a packed structure. Therefore, - # set @unpacked back to nil so we know to unpack when accessors are next accessed. - @unpacked = nil - # Assignment of inner structure to variable is very important here. Without it, - # will not be able to unpack changes to the structure. Alternative, nested unpacks, - # does not work (i.e. @struct.unpack("LLP12")[2].unpack("LLP12") results in "no associated pointer") - @sec_buffer ||= [@bufferSize, @type, @buffer].pack("LLP") - @struct ||= [SECBUFFER_VERSION, 1, @sec_buffer].pack("LLP") - end - - private - - # Unpacks the SecurityBufferDesc structure into member variables. We - # only want to do this once per struct, so the struct is deleted - # after unpacking. - def unpack - if ! @unpacked && @sec_buffer && @struct - @bufferSize, @type = @sec_buffer.unpack("LL") - @buffer = @sec_buffer.unpack("LLP#{@bufferSize}")[2] - @struct = nil - @sec_buffer = nil - @unpacked = true - end - end - end - - # SEC_WINNT_AUTH_IDENTITY structure - class Identity - SEC_WINNT_AUTH_IDENTITY_ANSI = 0x1 - - attr_accessor :user, :domain, :password - - def initialize(user = nil, domain = nil, password = nil) - @user = user - @domain = domain - @password = password - @flags = SEC_WINNT_AUTH_IDENTITY_ANSI - end - - def to_p - [@user, @user ? @user.length : 0, - @domain, @domain ? @domain.length : 0, - @password, @password ? @password.length : 0, - @flags].pack("PLPLPLL") - end - end - - # Takes a return result from an SSPI function and interprets the value. - class SSPIResult - # Good results - SEC_E_OK = 0x00000000 - SEC_I_CONTINUE_NEEDED = 0x00090312 - - # These are generally returned by InitializeSecurityContext - SEC_E_INSUFFICIENT_MEMORY = 0x80090300 - SEC_E_INTERNAL_ERROR = 0x80090304 - SEC_E_INVALID_HANDLE = 0x80090301 - SEC_E_INVALID_TOKEN = 0x80090308 - SEC_E_LOGON_DENIED = 0x8009030C - SEC_E_NO_AUTHENTICATING_AUTHORITY = 0x80090311 - SEC_E_NO_CREDENTIALS = 0x8009030E - SEC_E_TARGET_UNKNOWN = 0x80090303 - SEC_E_UNSUPPORTED_FUNCTION = 0x80090302 - SEC_E_WRONG_PRINCIPAL = 0x80090322 - - # These are generally returned by AcquireCredentialsHandle - SEC_E_NOT_OWNER = 0x80090306 - SEC_E_SECPKG_NOT_FOUND = 0x80090305 - SEC_E_UNKNOWN_CREDENTIALS = 0x8009030D - - @@map = {} - constants.each { |v| @@map[self.const_get(v.to_s)] = v } - - attr_reader :value - - def initialize(value) - # convert to unsigned long - value = [value].pack("L").unpack("L").first - raise "#{value.to_s(16)} is not a recognized result" unless @@map.has_key? value - @value = value - end - - def to_s - @@map[@value].to_s - end - - def ok? - @value == SEC_I_CONTINUE_NEEDED || @value == SEC_E_OK - end - - def ==(other) - if other.is_a?(SSPIResult) - @value == other.value - elsif other.is_a?(Fixnum) - @value == @@map[other] - else - false - end - end - end - - # Handles "Negotiate" type authentication. Geared towards authenticating with a proxy server over HTTP - class NegotiateAuth - attr_accessor :credentials, :context, :contextAttributes, :user, :domain - - # Default request flags for SSPI functions - REQUEST_FLAGS = ISC_REQ_CONFIDENTIALITY | ISC_REQ_REPLAY_DETECT | ISC_REQ_CONNECTION - - # NTLM tokens start with this header always. Encoding alone adds "==" and newline, so remove those - B64_TOKEN_PREFIX = ["NTLMSSP"].pack("m").delete("=\n") - - # Given a connection and a request path, performs authentication as the current user and returns - # the response from a GET request. The connnection should be a Net::HTTP object, and it should - # have been constructed using the Net::HTTP.Proxy method, but anything that responds to "get" will work. - # If a user and domain are given, will authenticate as the given user. - # Returns the response received from the get method (usually Net::HTTPResponse) - def NegotiateAuth.proxy_auth_get(http, path, user = nil, domain = nil) - raise "http must respond to :get" unless http.respond_to?(:get) - nego_auth = self.new user, domain - - resp = http.get path, { "Proxy-Authorization" => "Negotiate " + nego_auth.get_initial_token } - if resp["Proxy-Authenticate"] - resp = http.get path, { "Proxy-Authorization" => "Negotiate " + nego_auth.complete_authentication(resp["Proxy-Authenticate"].split(" ").last.strip) } - end - - resp - end - - # Creates a new instance ready for authentication as the given user in the given domain. - # Defaults to current user and domain as defined by ENV["USERDOMAIN"] and ENV["USERNAME"] if - # no arguments are supplied. - def initialize(user = nil, domain = nil) - if user.nil? && domain.nil? && ENV["USERNAME"].nil? && ENV["USERDOMAIN"].nil? - raise "A username or domain must be supplied since they cannot be retrieved from the environment" - end - - @user = user || ENV["USERNAME"] - @domain = domain || ENV["USERDOMAIN"] - end - - # Gets the initial Negotiate token. Returns it as a base64 encoded string suitable for use in HTTP. Can - # be easily decoded, however. - def get_initial_token - raise "This object is no longer usable because its resources have been freed." if @cleaned_up - get_credentials - - outputBuffer = SecurityBuffer.new - @context = CtxtHandle.new - @contextAttributes = "\0" * 4 - - result = SSPIResult.new(API::InitializeSecurityContext.call(@credentials.to_p, nil, nil, - REQUEST_FLAGS,0, SECURITY_NETWORK_DREP, nil, 0, @context.to_p, outputBuffer.to_p, @contextAttributes, TimeStamp.new.to_p)) - - if result.ok? then - return encode_token(outputBuffer.token) - else - raise "Error: #{result.to_s}" - end - end - - # Takes a token and gets the next token in the Negotiate authentication chain. Token can be Base64 encoded or not. - # The token can include the "Negotiate" header and it will be stripped. - # Does not indicate if SEC_I_CONTINUE or SEC_E_OK was returned. - # Token returned is Base64 encoded w/ all new lines removed. - def complete_authentication(token) - raise "This object is no longer usable because its resources have been freed." if @cleaned_up - - # Nil token OK, just set it to empty string - token = "" if token.nil? - - if token.include? "Negotiate" - # If the Negotiate prefix is passed in, assume we are seeing "Negotiate <token>" and get the token. - token = token.split(" ").last - end - - if token.include? B64_TOKEN_PREFIX - # indicates base64 encoded token - token = token.strip.unpack("m")[0] - end - - outputBuffer = SecurityBuffer.new - result = SSPIResult.new(API::InitializeSecurityContext.call(@credentials.to_p, @context.to_p, nil, - REQUEST_FLAGS, 0, SECURITY_NETWORK_DREP, SecurityBuffer.new(token).to_p, 0, - @context.to_p, - outputBuffer.to_p, @contextAttributes, TimeStamp.new.to_p)) - - if result.ok? then - return encode_token(outputBuffer.token) - else - raise "Error: #{result.to_s}" - end - ensure - # need to make sure we don't clean up if we've already cleaned up. - clean_up unless @cleaned_up - end - - private - - def clean_up - # free structures allocated - @cleaned_up = true - API::FreeCredentialsHandle.call(@credentials.to_p) - API::DeleteSecurityContext.call(@context.to_p) - @context = nil - @credentials = nil - @contextAttributes = nil - end - - # Gets credentials based on user, domain or both. If both are nil, an error occurs - def get_credentials - @credentials = CredHandle.new - ts = TimeStamp.new - @identity = Identity.new @user, @domain - result = SSPIResult.new(API::AcquireCredentialsHandle.call(nil, "Negotiate", SECPKG_CRED_OUTBOUND, nil, @identity.to_p, - nil, nil, @credentials.to_p, ts.to_p)) - raise "Error acquire credentials: #{result}" unless result.ok? - end - - def encode_token(t) - # encode64 will add newlines every 60 characters so we need to remove those. - [t].pack("m").delete("\n") - end - end - end -end
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