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authorReinhard Kotucha <reinhard.kotucha@web.de>2008-01-05 21:23:03 +0000
committerReinhard Kotucha <reinhard.kotucha@web.de>2008-01-05 21:23:03 +0000
commit61700e8be90ff6f495c0b1a9835fe07e9848de8d (patch)
treeba85dbc1413d5f834a501a8828e3b67678ba8524 /Master/tlpkg/tlperl/lib/Win32API
parent270728c6f3efcac6728d2c335c79824c356f428d (diff)
tlperl: Perl for scripts provided by TeX Live.
git-svn-id: svn://tug.org/texlive/trunk@6046 c570f23f-e606-0410-a88d-b1316a301751
Diffstat (limited to 'Master/tlpkg/tlperl/lib/Win32API')
-rw-r--r--Master/tlpkg/tlperl/lib/Win32API/Registry.pm1792
-rw-r--r--Master/tlpkg/tlperl/lib/Win32API/Registry/cRegistry.pc87
2 files changed, 1879 insertions, 0 deletions
diff --git a/Master/tlpkg/tlperl/lib/Win32API/Registry.pm b/Master/tlpkg/tlperl/lib/Win32API/Registry.pm
new file mode 100644
index 00000000000..dbf98b4e2e9
--- /dev/null
+++ b/Master/tlpkg/tlperl/lib/Win32API/Registry.pm
@@ -0,0 +1,1792 @@
+# Registry.pm -- Low-level access to functions/constants from WINREG.h
+
+package Win32API::Registry;
+
+use strict;
+use vars qw($VERSION @ISA @EXPORT @EXPORT_OK %EXPORT_TAGS); #@EXPORT_FAIL);
+$VERSION= '0.24';
+
+require Exporter;
+require DynaLoader;
+@ISA= qw(Exporter DynaLoader);
+
+@EXPORT= qw();
+%EXPORT_TAGS= (
+ Func => [qw( regConstant regLastError
+ AllowPriv AbortSystemShutdown InitiateSystemShutdown
+ RegCloseKey RegConnectRegistry RegCreateKey
+ RegCreateKeyEx RegDeleteKey RegDeleteValue
+ RegEnumKey RegEnumKeyEx RegEnumValue
+ RegFlushKey RegGetKeySecurity RegLoadKey
+ RegNotifyChangeKeyValue RegOpenKey RegOpenKeyEx
+ RegQueryInfoKey RegQueryMultipleValues RegQueryValue
+ RegQueryValueEx RegReplaceKey RegRestoreKey
+ RegSaveKey RegSetKeySecurity RegSetValue
+ RegSetValueEx RegUnLoadKey )],
+ FuncA => [qw(
+ AbortSystemShutdownA InitiateSystemShutdownA
+ RegConnectRegistryA RegCreateKeyA RegCreateKeyExA
+ RegDeleteKeyA RegDeleteValueA RegEnumKeyA
+ RegEnumKeyExA RegEnumValueA RegLoadKeyA
+ RegOpenKeyA RegOpenKeyExA RegQueryInfoKeyA
+ RegQueryMultipleValuesA RegQueryValueA RegQueryValueExA
+ RegReplaceKeyA RegRestoreKeyA RegSaveKeyA
+ RegSetValueA RegSetValueExA RegUnLoadKeyA )],
+ FuncW => [qw(
+ AbortSystemShutdownW InitiateSystemShutdownW
+ RegConnectRegistryW RegCreateKeyW RegCreateKeyExW
+ RegDeleteKeyW RegDeleteValueW RegEnumKeyW
+ RegEnumKeyExW RegEnumValueW RegLoadKeyW
+ RegOpenKeyW RegOpenKeyExW RegQueryInfoKeyW
+ RegQueryMultipleValuesW RegQueryValueW RegQueryValueExW
+ RegReplaceKeyW RegRestoreKeyW RegSaveKeyW
+ RegSetValueW RegSetValueExW RegUnLoadKeyW )],
+ HKEY_ => [qw(
+ HKEY_CLASSES_ROOT HKEY_CURRENT_CONFIG HKEY_CURRENT_USER
+ HKEY_DYN_DATA HKEY_LOCAL_MACHINE HKEY_PERFORMANCE_DATA
+ HKEY_USERS )],
+ KEY_ => [qw(
+ KEY_QUERY_VALUE KEY_SET_VALUE KEY_CREATE_SUB_KEY
+ KEY_ENUMERATE_SUB_KEYS KEY_NOTIFY KEY_CREATE_LINK
+ KEY_READ KEY_WRITE KEY_EXECUTE
+ KEY_ALL_ACCESS),
+ 'KEY_DELETE', # DELETE (0x00010000L)
+ 'KEY_READ_CONTROL', # READ_CONTROL (0x00020000L)
+ 'KEY_WRITE_DAC', # WRITE_DAC (0x00040000L)
+ 'KEY_WRITE_OWNER', # WRITE_OWNER (0x00080000L)
+ 'KEY_SYNCHRONIZE', # SYNCHRONIZE (0x00100000L) (not used)
+ ],
+ REG_ => [qw(
+ REG_OPTION_RESERVED REG_OPTION_NON_VOLATILE REG_OPTION_VOLATILE
+ REG_OPTION_CREATE_LINK REG_OPTION_BACKUP_RESTORE
+ REG_OPTION_OPEN_LINK REG_LEGAL_OPTION REG_CREATED_NEW_KEY
+ REG_OPENED_EXISTING_KEY REG_WHOLE_HIVE_VOLATILE REG_REFRESH_HIVE
+ REG_NO_LAZY_FLUSH REG_NOTIFY_CHANGE_ATTRIBUTES
+ REG_NOTIFY_CHANGE_NAME REG_NOTIFY_CHANGE_LAST_SET
+ REG_NOTIFY_CHANGE_SECURITY REG_LEGAL_CHANGE_FILTER
+ REG_NONE REG_SZ REG_EXPAND_SZ
+ REG_BINARY REG_DWORD REG_DWORD_LITTLE_ENDIAN
+ REG_DWORD_BIG_ENDIAN REG_LINK REG_MULTI_SZ
+ REG_RESOURCE_LIST REG_FULL_RESOURCE_DESCRIPTOR
+ REG_RESOURCE_REQUIREMENTS_LIST )],
+ SE_ => [qw(
+ SE_ASSIGNPRIMARYTOKEN_NAME SE_AUDIT_NAME
+ SE_BACKUP_NAME SE_CHANGE_NOTIFY_NAME
+ SE_CREATE_PAGEFILE_NAME SE_CREATE_PERMANENT_NAME
+ SE_CREATE_TOKEN_NAME SE_DEBUG_NAME
+ SE_INCREASE_QUOTA_NAME SE_INC_BASE_PRIORITY_NAME
+ SE_LOAD_DRIVER_NAME SE_LOCK_MEMORY_NAME
+ SE_MACHINE_ACCOUNT_NAME SE_PROF_SINGLE_PROCESS_NAME
+ SE_REMOTE_SHUTDOWN_NAME SE_RESTORE_NAME
+ SE_SECURITY_NAME SE_SHUTDOWN_NAME
+ SE_SYSTEMTIME_NAME SE_SYSTEM_ENVIRONMENT_NAME
+ SE_SYSTEM_PROFILE_NAME SE_TAKE_OWNERSHIP_NAME
+ SE_TCB_NAME SE_UNSOLICITED_INPUT_NAME )],
+);
+@EXPORT_OK= ();
+{ my $ref;
+ foreach $ref ( values(%EXPORT_TAGS) ) {
+ push( @EXPORT_OK, @$ref ) unless $ref->[0] =~ /^SE_/;
+ }
+}
+$EXPORT_TAGS{ALL}= [ @EXPORT_OK ]; # \@EXPORT_OK once SE_* settles down.
+# push( @EXPORT_OK, "JHEREG_TACOSALAD" ); # Used to test Mkconst2perl
+push( @EXPORT_OK, @{$EXPORT_TAGS{SE_}} );
+
+bootstrap Win32API::Registry $VERSION;
+
+# Preloaded methods go here.
+
+# To convert C constants to Perl code in cRegistry.pc
+# [instead of C or C++ code in cRegistry.h]:
+# * Modify F<Makefile.PL> to add WriteMakeFile() =>
+# CONST2PERL/postamble => [[ "Win32API::Registry" => ]] WRITE_PERL => 1.
+# * Either comment out C<#include "cRegistry.h"> from F<Registry.xs>
+# or make F<cRegistry.h> an empty file.
+# * Make sure the following C<if> block is not commented out.
+# * "nmake clean", "perl Makefile.PL", "nmake"
+
+if( ! defined &REG_NONE ) {
+ require "Win32API/Registry/cRegistry.pc";
+}
+
+# This would be convenient but inconsistant and hard to explain:
+#push( @{$EXPORT_TAGS{ALL}}, @{$EXPORT_TAGS{SE_}} )
+# if defined &SE_TCB_NAME;
+
+sub regConstant
+{
+ my( $name )= @_;
+ if( 1 != @_ || ! $name || $name =~ /\W/ ) {
+ require Carp;
+ Carp::croak( 'Usage: ',__PACKAGE__,'::regConstant("CONST_NAME")' );
+ }
+ my $proto= prototype $name;
+ if( defined \&$name
+ && defined $proto
+ && "" eq $proto ) {
+ no strict 'refs';
+ return &$name;
+ }
+ return undef;
+}
+
+# We provide this for backwards compatibility:
+sub constant
+{
+ my( $name )= @_;
+ my $value= regConstant( $name );
+ if( defined $value ) {
+ $!= 0;
+ return $value;
+ }
+ $!= 11; # EINVAL
+ return 0;
+}
+
+# BEGIN {
+# my $code= 'return _regLastError(@_)';
+# local( $!, $^E )= ( 1, 1 );
+# if( $! ne $^E ) {
+# $code= '
+# local( $^E )= _regLastError(@_);
+# my $ret= $^E;
+# return $ret;
+# ';
+# }
+# eval "sub regLastError { $code }";
+# die "$@" if $@;
+# }
+
+package Win32API::Registry::_error;
+
+use overload
+ '""' => sub {
+ require Win32 unless defined &Win32::FormatMessage;
+ $_ = Win32::FormatMessage(Win32API::Registry::_regLastError());
+ tr/\r\n//d;
+ return $_;
+ },
+ '0+' => sub { Win32API::Registry::_regLastError() },
+ 'fallback' => 1;
+
+sub new { return bless {}, shift }
+sub set { Win32API::Registry::_regLastError($_[1]); return $_[0] }
+
+package Win32API::Registry;
+
+my $_error = new Win32API::Registry::_error;
+
+sub regLastError {
+ require Carp;
+ Carp::croak('Usage: ',__PACKAGE__,'::regLastError( [$setWin32ErrCode] )') if @_ > 1;
+ $_error->set($_[0]) if defined $_[0];
+ return $_error;
+}
+
+# Since we ISA DynaLoader which ISA AutoLoader, we ISA AutoLoader so we
+# need this next chunk to prevent Win32API::Registry->nonesuch() from
+# looking for "nonesuch.al" and producing confusing error messages:
+use vars qw($AUTOLOAD);
+sub AUTOLOAD {
+ require Carp;
+ Carp::croak(
+ "Can't locate method $AUTOLOAD via package Win32API::Registry" );
+}
+
+# Replace "&rout;" with "goto &rout;" when that is supported on Win32.
+
+# Let user omit all buffer sizes:
+sub RegEnumKeyExA {
+ if( 6 == @_ ) { splice(@_,4,0,[]); splice(@_,2,0,[]); }
+ &_RegEnumKeyExA;
+}
+sub RegEnumKeyExW {
+ if( 6 == @_ ) { splice(@_,4,0,[]); splice(@_,2,0,[]); }
+ &_RegEnumKeyExW;
+}
+sub RegEnumValueA {
+ if( 6 == @_ ) { splice(@_,2,0,[]); push(@_,[]); }
+ &_RegEnumValueA;
+}
+sub RegEnumValueW {
+ if( 6 == @_ ) { splice(@_,2,0,[]); push(@_,[]); }
+ &_RegEnumValueW;
+}
+sub RegQueryInfoKeyA {
+ if( 11 == @_ ) { splice(@_,2,0,[]); }
+ &_RegQueryInfoKeyA;
+}
+sub RegQueryInfoKeyW {
+ if( 11 == @_ ) { splice(@_,2,0,[]); }
+ &_RegQueryInfoKeyW;
+}
+
+sub RegEnumKeyA {
+ push(@_,[]) if 3 == @_;
+ &_RegEnumKeyA;
+}
+sub RegEnumKeyW {
+ push(@_,[]) if 3 == @_;
+ &_RegEnumKeyW;
+}
+sub RegGetKeySecurity {
+ push(@_,[]) if 3 == @_;
+ &_RegGetKeySecurity;
+}
+sub RegQueryMultipleValuesA {
+ push(@_,[]) if 4 == @_;
+ &_RegQueryMultipleValuesA;
+}
+sub RegQueryMultipleValuesW {
+ push(@_,[]) if 4 == @_;
+ &_RegQueryMultipleValuesW;
+}
+sub RegQueryValueA {
+ push(@_,[]) if 3 == @_;
+ &_RegQueryValueA;
+}
+sub RegQueryValueW {
+ push(@_,[]) if 3 == @_;
+ &_RegQueryValueW;
+}
+sub RegQueryValueExA {
+ push(@_,[]) if 5 == @_;
+ &_RegQueryValueExA;
+}
+sub RegQueryValueExW {
+ push(@_,[]) if 5 == @_;
+ &_RegQueryValueExW;
+}
+sub RegSetValueA {
+ push(@_,0) if 4 == @_;
+ &_RegSetValueA;
+}
+sub RegSetValueW {
+ push(@_,0) if 4 == @_;
+ &_RegSetValueW;
+}
+sub RegSetValueExA {
+ push(@_,0) if 5 == @_;
+ &_RegSetValueExA;
+}
+sub RegSetValueExW {
+ push(@_,0) if 5 == @_;
+ &_RegSetValueExW;
+}
+
+# Aliases for non-Unicode functions:
+sub AbortSystemShutdown { &AbortSystemShutdownA; }
+sub InitiateSystemShutdown { &InitiateSystemShutdownA; }
+sub RegConnectRegistry { &RegConnectRegistryA; }
+sub RegCreateKey { &RegCreateKeyA; }
+sub RegCreateKeyEx { &RegCreateKeyExA; }
+sub RegDeleteKey { &RegDeleteKeyA; }
+sub RegDeleteValue { &RegDeleteValueA; }
+sub RegEnumKey { &RegEnumKeyA; }
+sub RegEnumKeyEx { &RegEnumKeyExA; }
+sub RegEnumValue { &RegEnumValueA; }
+sub RegLoadKey { &RegLoadKeyA; }
+sub RegOpenKey { &RegOpenKeyA; }
+sub RegOpenKeyEx { &RegOpenKeyExA; }
+sub RegQueryInfoKey { &RegQueryInfoKeyA; }
+sub RegQueryMultipleValues { &RegQueryMultipleValuesA; }
+sub RegQueryValue { &RegQueryValueA; }
+sub RegQueryValueEx { &RegQueryValueExA; }
+sub RegReplaceKey { &RegReplaceKeyA; }
+sub RegRestoreKey { &RegRestoreKeyA; }
+sub RegSaveKey { &RegSaveKeyA; }
+sub RegSetValue { &RegSetValueA; }
+sub RegSetValueEx { &RegSetValueExA; }
+sub RegUnLoadKey { &RegUnLoadKeyA; }
+
+1;
+__END__
+
+=head1 NAME
+
+Win32API::Registry - Low-level access to Win32 system API calls from WINREG.H
+
+=head1 SYNOPSIS
+
+ use Win32API::Registry 0.21 qw( :ALL );
+
+ RegOpenKeyEx( HKEY_LOCAL_MACHINE, "SYSTEM\\Disk", 0, KEY_READ, $key );
+ or die "Can't open HKEY_LOCAL_MACHINE\\SYSTEM\\Disk: ",
+ regLastError(),"\n";
+ RegQueryValueEx( $key, "Information", [], $type, $data, [] );
+ or die "Can't read HKEY_L*MACHINE\\SYSTEM\\Disk\\Information: ",
+ regLastError(),"\n";
+ [...]
+ RegCloseKey( $key )
+ or die "Can't close HKEY_LOCAL_MACHINE\\SYSTEM\\Disk: ",
+ regLastError(),"\n";
+
+=head1 DESCRIPTION
+
+This provides fairly low-level access to the Win32 System API
+calls dealing with the Registry [mostly from WINREG.H]. This
+is mostly intended to be used by other modules such as
+C<Win32::TieRegistry> [which provides an extremely Perl-friendly
+method for using the Registry].
+
+For a description of the logical structure of the Registry, see
+the documentation for the C<Win32::TieRegistry> module.
+
+To pass in C<NULL> as the pointer to an optional buffer, pass in
+an empty list reference, C<[]>.
+
+Beyond raw access to the API calls and related constants, this module
+handles smart buffer allocation and translation of return codes.
+
+All calls return a true value for success and a false value for
+failure. After any failure, C<$^E> should automatically be set
+to indicate the reason. However, current versions of Perl often
+overwrite C<$^E> too quickly, so you can use C<regLastError()>
+instead, which is only set by Win32API::Registry routines.
+
+Note that C<$!> is not set by these routines except by
+C<Win32API::Registry::constant()> when a constant is not defined.
+
+=head2 Exports
+
+Nothing is exported by default. The following tags can be used to
+have sets of symbols exported.
+
+[Note that much of the following documentation refers to the
+behavior of the underlying API calls which may vary in current
+and future versions of the Win32 API without any changes to this
+module. Therefore you should check the Win32 API documentation
+directly when needed.]
+
+=over
+
+=item :Func
+
+The basic function names:
+
+=over
+
+=item AllowPriv
+
+=item C<AllowPriv( $sPrivName, $bEnable )>
+
+Not a Win32 API call. Enables or disables a specific privilege for
+the current process. Returns a true value if successful and a false
+value [and sets C<$^E>/C<regLastError()>] on failure. This routine
+does not provide a way to tell if a privilege is currently enabled.
+
+C<$sPrivname> is a Win32 privilege name [see L</:SE_>]. For example,
+C<"SeBackupPrivilege"> [a.k.a. C<SE_BACKUP_NAME>] controls whether
+you can use C<RegSaveKey()> and C<"SeRestorePrivilege"> [a.k.a.
+C<SE_RESTORE_NAME>] controls whether you can use C<RegLoadKey()>.
+
+If C<$bEnable> is true, then C<AllowPriv()> tries to enable the
+privilege. Otherwise it tries to disable the privilege.
+
+=item AbortSystemShutdown
+
+=item C<AbortSystemShutdown( $sComputerName )>
+
+Tries to abort a remote shutdown request previously made via
+C<InitiateSystemShutdown()>. Returns a true value if successful
+and a false value [and sets C<$^E>/C<regLastError()>] on failure.
+
+=item InitiateSystemShutdown
+
+=item C<InitiateSystemShutdown( $sComputer, $sMessage, $uTimeoutSecs, $bForce, $bReboot )>
+
+Requests that a [remote] computer be shutdown or rebooted.
+Returns a true value if successful and a false value [and
+sets C<$^E>/C<regLastError()>] on failure.
+
+C<$sComputer> is the name [or address] of the computer to be
+shutdown or rebooted. You can use C<[]> [for C<NULL>] or C<"">
+to indicate the local computer.
+
+C<$sMessage> is the message to be displayed in a pop-up window
+on the desktop of the computer to be shutdown or rebooted until
+the timeout expires or the shutdown is aborted via
+C<AbortSystemShutdown()>. With C<$iTimeoutSecs == 0>, the
+message will never be visible.
+
+C<$iTimeoutSecs> is the number of seconds to wait before starting
+the shutdown.
+
+If C<$bForce> is false, then any applications running on the remote
+computer get a chance to prompt the remote user whether they want
+to save changes. Also, for any applications that do not exit quickly
+enough, the operating system will prompt the user whether they wish
+to wait longer for the application to exit or force it to exit now.
+At any of these prompts the user can press B<CANCEL> to abort the
+shutdown but if no applications have unsaved data, they will likely
+all exit quickly and the shutdown will progress with the remote user
+having no option to cancel the shutdown.
+
+If C<$bForce> is true, all applications are told to exit immediately
+and so will not prompt the user even if there is unsaved data. Any
+applications that take too long to exit will be forcibly killed after
+a short time. The only way to abort the shutdown is to call
+C<AbortSystemShutdown()> before the timeout expires and there is no
+way to abort the shutdown once it has begun.
+
+If C<$bReboot> is true, the computer will automatically reboot once
+the shutdown is complete. If C<$bReboot> is false, then when the
+shutdown is complete the computer will halt at a screen indicating
+that the shutdown is complete and offering a way for the user to
+start to boot the computer.
+
+You must have the C<"SeRemoteShutdownPrivilege"> privilege
+on the remote computer for this call to succeed. If shutting
+down the local computer, then the calling process must have
+the C<"SeShutdownPrivilege"> privilege and have it enabled.
+
+=item RegCloseKey
+
+=item C<RegCloseKey( $hKey )>
+
+Closes the handle to a Registry key returned by C<RegOpenKeyEx()>,
+C<RegConnectRegistry()>, C<RegCreateKeyEx()>, or a few other
+routines. Returns a true value if successful and a false value
+[and sets C<$^E>/C<regLastError()>] on failure.
+
+=item RegConnectRegistry
+
+=item C<RegConnectRegistry( $sComputer, $hRootKey, $ohKey )>
+
+Connects to one of the root Registry keys of a remote computer.
+Returns a true value if successful and a false value [and
+sets C<$^E>/C<regLastError()>] on failure.
+
+C<$sComputer> is the name [or address] of a remote computer
+whose Registry you wish to access.
+
+C<$hKey> must be either C<HKEY_LOCAL_MACHINE> or C<HKEY_USERS>
+and specifies which root Registry key on the remote computer
+you wish to have access to.
+
+C<$phKey> will be set to the handle to be used to access the
+remote Registry key if the call succeeds.
+
+=item regConstant
+
+=item C<$value= regConstant( $sConstantName )>
+
+Fetch the value of a constant. Returns C<undef> if C<$sConstantName>
+is not the name of a constant supported by this module. Never sets
+C<$!> nor C<$^E>.
+
+This function is rarely used since you will usually get the value of a
+constant by having that constant imported into your package by listing
+the constant name in the C<use Win32API::Registry> statement and then
+simply using the constant name in your code [perhaps followed by
+C<()>]. This function is useful for verifying constant names not in
+Perl code, for example, after prompting a user to type in a constant
+name.
+
+=item RegCreateKey
+
+=item C<RegCreateKey( $hKey, $sSubKey, $ohSubKey )>
+
+This routine is meant only for compatibility with Windows version
+3.1. Use C<RegCreateKeyEx()> instead.
+
+=item RegCreateKeyEx
+
+=item C<RegCreateKeyEx( $hKey, $sSubKey, $uZero, $sClass, $uOpts, $uAccess, $pSecAttr, $ohNewKey, $ouDisp )>
+
+Creates a new Registry subkey. Returns a true value if successful and
+a false value [and sets C<$^E>/C<regLastError()>] on failure.
+
+C<$hKey> is the handle to a Registry key [either C<HKEY_*> or from
+a previous call].
+
+C<$sSubKey> is the name of the new subkey to be created.
+
+C<$iZero> is reserved for future use and should always be specified
+as C<0>.
+
+C<$sClass> is a string to be used as the class for the new
+subkey. We are not aware of any current use for Registry key
+class information so the empty string, C<"">, should usually
+be used here.
+
+C<$iOpts> is a numeric value containing bits that control options
+used while creating the new subkey. C<REG_OPTION_NON_VOLATILE>
+is the default. C<REG_OPTION_VOLATILE> [which is ignored on
+Windows 95] means the data stored under this key is not kept
+in a file and will not be preserved when the system reboots.
+C<REG_OPTION_BACKUP_RESTORE> [also ignored on Windows 95] means
+ignore the C<$iAccess> parameter and try to open the new key with
+the access required to backup or restore the key.
+
+C<$iAccess> is a numeric mask of bits specifying what type of
+access is desired when opening the new subkey. See C<RegOpenKeyEx()>.
+
+C<$pSecAttr> is a C<SECURITY_ATTRIBUTES> structure packed into
+a Perl string which controls whether the returned handle can be
+inherited by child processes. Normally you would pass C<[]> for
+this parameter to have C<NULL> passed to the underlying API
+indicating that the handle cannot be inherited. If not under
+Windows95, then C<$pSecAttr> also allows you to specify
+C<SECURITY_DESCRIPTOR> that controls which users will have
+what type of access to the new key -- otherwise the new key
+inherits its security from its parent key.
+
+C<$phKey> will be set to the handle to be used to access the new
+subkey if the call succeeds.
+
+C<$piDisp> will be set to either C<REG_CREATED_NEW_KEY> or
+C<REG_OPENED_EXISTING_KEY> to indicate for which reason the
+call succeeded. Can be specified as C<[]> if you don't care.
+
+If C<$phKey> and C<$piDisp> start out as integers, then they will
+probably remain unchanged if the call fails.
+
+=item RegDeleteKey
+
+=item C<RegDeleteKey( $hKey, $sSubKey )>
+
+Deletes a subkey of an open Registry key provided that the subkey
+contains no subkeys of its own [but the subkey may contain values].
+Returns a true value if successful and a false value [and sets
+C<$^E>/C<regLastError()>] on failure.
+
+C<$hKey> is the handle to a Registry key [either C<HKEY_*> or from
+a previous call].
+
+C<$sSubKey> is the name of the subkey to be deleted.
+
+=item RegDeleteValue
+
+=item C<RegDeleteValue( $hKey, $sValueName )>
+
+Deletes a value from an open Registry key. Returns a true value if
+successful and a false value [and sets C<$^E>/C<regLastError()>] on
+failure.
+
+C<$hKey> is the handle to a Registry key [either C<HKEY_*> or from
+a previous call].
+
+C<$sValueKey> is the name of the value to be deleted.
+
+=item RegEnumKey
+
+=item C<RegEnumKey( $hKey, $uIndex, $osName, $ilNameSize )>
+
+This routine is meant only for compatibility with Windows version
+3.1. Use C<RegEnumKeyEx()> instead.
+
+=item RegEnumKeyEx
+
+=item C<RegEnumKeyEx( $hKey, $uIndex, $osName, $iolName, $pNull, $osClass, $iolClass, $opftLastWrite )>
+
+Lets you enumerate the names of all of the subkeys directly under
+an open Registry key. Returns a true value if successful and a false
+value [and sets C<$^E>/C<regLastError()>] on failure.
+
+C<$hKey> is the handle to a Registry key [either C<HKEY_*> or from
+a previous call].
+
+C<$iIndex> is the sequence number of the immediate subkey that
+you want information on. Start with this value as C<0> then
+repeat the call incrementing this value each time until the
+call fails with C<$^E>/C<regLastError()> numerically equal to
+C<ERROR_NO_MORE_ITEMS>.
+
+C<$sName> will be set to the name of the subkey. Can be C<[]> if
+you don't care about the name.
+
+C<$plName> initially specifies the [minimum] buffer size to be
+allocated for C<$sName>. Will be set to the length of the subkey
+name if the requested subkey exists even if C<$sName> isn't
+successfully set to the subkey name. See L<Buffer sizes> for
+more information.
+
+C<$pNull> is reserved for future used and should be passed as C<[]>.
+
+C<$sClass> will be set to the class name for the subkey. Can be
+C<[]> if you don't care about the class.
+
+C<$plClass> initially specifies the [minimum] buffer size to be
+allocated for C<$sClass> and will be set to the length of the
+subkey class name if the requested subkey exists. See L<Buffer
+sizes> for more information.
+
+C<$pftLastWrite> will be set to a C<FILETIME> structure packed
+into a Perl string and indicating when the subkey was last changed.
+Can be C<[]>.
+
+You may omit both C<$plName> and C<$plClass> to get the same effect
+as passing in C<[]> for each of them.
+
+=item RegEnumValue
+
+=item C<RegEnumValue( $hKey, $uIndex, $osValName, $iolValName, $pNull, $ouType, $opValData, $iolValData )>
+
+Lets you enumerate the names of all of the values contained in an
+open Registry key. Returns a true value if successful and a false
+value [and sets C<$^E>/C<regLastError()>] on failure.
+
+C<$hKey> is the handle to a Registry key [either C<HKEY_*> or from
+a previous call].
+
+C<$iIndex> is the sequence number of the value that you want
+information on. Start with this value as C<0> then repeat the
+call incrementing this value each time until the call fails with
+C<ERROR_NO_MORE_ITEMS>.
+
+C<$sValName> will be set to the name of the value. Can be C<[]>
+if you don't care about the name.
+
+C<$plValName> initially specifies the [minimum] buffer size to be
+allocated for C<$sValName>. Will be set to the length of the value
+name if the requested value exists even if C<$sValName> isn't
+successfully set to the value name. See L<Buffer sizes> for
+more information.
+
+C<$pNull> is reserved for future used and should be passed as C<[]>.
+
+C<$piType> will be set to the type of data stored in the value data.
+If the call succeeds, it will be set to a C<REG_*> value unless
+passed in as C<[]>.
+
+C<$pValData> will be set to the data [packed into a Perl string]
+that is stored in the requested value. Can be C<[]> if you don't
+care about the value data.
+
+C<$plValData> initially specifies the [minimum] buffer size to be
+allocated for C<$sValData> and will be set to the length of the
+value data if the requested value exists. See L<Buffer sizes> for
+more information.
+
+You may omit both C<$plValName> and C<$plValData> to get the same
+effect as passing in C<[]> for each of them.
+
+=item RegFlushKey
+
+=item C<RegFlushKey( $hKey )>
+
+Forces the data stored under an open Registry key to be flushed
+to the disk file where the data is preserved between reboots.
+Forced flushing is not guaranteed to be efficient so this routine
+should almost never be called. Returns a true value if successful
+and a false value [and sets C<$^E>/C<regLastError()>] on failure.
+
+C<$hKey> is the handle to a Registry key [either C<HKEY_*> or from
+a previous call].
+
+=item RegGetKeySecurity
+
+=item C<RegGetKeySecurity( $hKey, $uSecInfo, $opSecDesc, $iolSecDesc )>
+
+Retrieves one of the C<SECURITY_DESCRIPTOR> structures describing
+part of the security for an open Registry key. Returns a true value
+if successful and a false value [and sets C<$^E>/C<regLastError()>]
+on failure.
+
+C<$hKey> is the handle to a Registry key [either C<HKEY_*> or from
+a previous call].
+
+C<$iSecInfo> is a numeric C<SECURITY_INFORMATION> value that
+specifies which parts of the C<SECURITY_DESCRIPTOR> structure
+to retrieve. Should be C<OWNER_SECURITY_INFORMATION>,
+C<GROUP_SECURITY_INFORMATION>, C<DACL_SECURITY_INFORMATION>, or
+or C<SACL_SECURITY_INFORMATION> or two or more of these bits
+combined using C<|>.
+
+C<$pSecDesc> will be set to the requested C<SECURITY_DESCRIPTOR>
+structure [packed into a Perl string].
+
+C<$plSecDesc> initially specifies the [minimum] buffer size to be
+allocated for C<$sSecDesc> and will be set to the length of the
+security descriptor. See L<Buffer sizes> for more information.
+You may omit this parameter to get the same effect as passing in
+C<[]> for it.
+
+=item regLastError
+
+=item C<$svError= regLastError();>
+
+=item C<regLastError( $uError );>
+
+Returns the last error encountered by a routine from this module.
+It is just like C<$^E> except it isn't changed by anything except
+routines from this module. Ideally you could just use C<$^E>, but
+current versions of Perl often overwrite C<$^E> before you get a
+chance to check it and really old versions of Perl don't really
+support C<$^E> under Win32.
+
+Just like C<$^E>, in a numeric context C<regLastError()> returns
+the numeric error value while in a string context it returns a
+text description of the error [actually it returns a Perl scalar
+that contains both values so C<$x= regLastError()> causes C<$x>
+to give different values in string vs. numeric contexts].
+
+The last form sets the error returned by future calls to
+C<regLastError()> and should not be used often. C<$uError> must
+be a numeric error code. Also returns the dual-valued version
+of C<$uError>.
+
+=item RegLoadKey
+
+=item C<RegLoadKey( $hKey, $sSubKey, $sFileName )>
+
+Loads a hive file. That is, it creates a new subkey in the
+Registry and associates that subkey with a disk file that contains
+a Registry hive so that the new subkey can be used to access the
+keys and values stored in that hive. Hives are usually created
+via C<RegSaveKey()>. Returns a true value if successful and a
+false value [and sets C<$^E>/C<regLastError()>] on failure.
+
+C<$hKey> is the handle to a Registry key that can have hives
+loaded to it. This must be C<HKEY_LOCAL_MACHINE>, C<HKEY_USERS>,
+or a remote version of one of these from a call to
+C<RegConnectRegistry()>.
+
+C<$sSubKey> is the name of the new subkey to created and associated
+with the hive file.
+
+C<$sFileName> is the name of the hive file to be loaded. This
+file name is interpretted relative to the
+C<%SystemRoot%/System32/config> directory on the computer where
+the C<$hKey> key resides. If C<$sFileName> is on a FAT file
+system, then its name must not have an extension.
+
+You must have the C<SE_RESTORE_NAME> privilege to use this routine.
+
+WARNING: Loading of hive files via a network share may silently
+corrupt the hive and so should not be attempted [this is a problem
+in at least some versions of the underlying API which this module
+does not try to fix or avoid]. To access a hive file located on a
+remote computer, connect to the remote computer's Registry and load
+the hive via that.
+
+=item RegNotifyChangeKeyValue
+
+=item C<RegNotifyChangeKeyValue( $hKey, $bWatchSubtree, $uNotifyFilter, $hEvent, $bAsync )>
+
+Arranges for your process to be notified when part of the Registry
+is changed. Returns a true value if successful and a false value
+[and sets C<$^E>/C<regLastError()>] on failure.
+
+C<$hKey> is the handle to a Registry key [either C<HKEY_*> or from
+a previous call] for which you wish to be notified when any changes
+are made to it.
+
+If C<$bWatchSubtree> is true, then changes to any subkey or
+descendant of C<$hKey> are also reported.
+
+C<$iNotifyFilter> controllers what types of changes are reported. It
+is a numeric value containing one or more of the following bit masks:
+
+=over
+
+=item C<REG_NOTIFY_CHANGE_NAME>
+
+Notify if a subkey is added or deleted to a monitored key.
+
+=item C<REG_NOTIFY_CHANGE_LAST_SET>
+
+Notify if a value in a monitored key is added, deleted, or modified.
+
+=item C<REG_NOTIFY_CHANGE_SECURITY>
+
+Notify if a security descriptor of a monitored key is changed.
+
+=item C<REG_NOTIFY_CHANGE_ATTRIBUTES>
+
+Notify if any attributes of a monitored key are changed [class
+name or security descriptors].
+
+=back
+
+C<$hEvent> is ignored unless C<$bAsync> is true. Otherwise, C<$hEvent>
+is a handle to a Win32 I<event> that will be signaled when changes are
+to be reported.
+
+If C<$bAsync> is true, then C<RegNotifyChangeKeyValue()> returns
+immediately and uses C<$hEvent> to notify your process of changes.
+If C<$bAsync> is false, then C<RegNotifyChangeKeyValue()> does
+not return until there is a change to be notified of.
+
+This routine does not work with Registry keys on remote computers.
+
+=item RegOpenKey
+
+=item C<RegOpenKey( $hKey, $sSubKey, $ohSubKey )>
+
+This routine is meant only for compatibility with Windows version
+3.1. Use C<RegOpenKeyEx()> instead.
+
+=item RegOpenKeyEx
+
+=item C<RegOpenKeyEx( $hKey, $sSubKey, $uOptions, $uAccess, $ohSubKey )>
+
+Opens an existing Registry key. Returns a true value if successful
+and a false value [and sets C<$^E>/C<regLastError()>] on failure.
+
+C<$hKey> is the handle to a Registry key [either C<HKEY_*> or from
+a previous call].
+
+C<$sSubKey> is the name of an existing subkey to be opened.
+Can be C<""> or C<[]> to open an additional handle to the
+key specified by C<$hKey>.
+
+C<$iOptions> is a numeric value containing bits that control options
+used while opening the subkey. There are currently no supported
+options so this parameter should be specified as C<0>.
+
+C<$iAccess> is a numeric mask of bits specifying what type of
+access is desired when opening the new subkey. Should be a
+combination of one or more of the following bit masks:
+
+=over
+
+=item C<KEY_ALL_ACCESS>
+
+ KEY_READ | KEY_WRITE | KEY_CREATE_LINK
+
+=item C<KEY_READ>
+
+ KEY_QUERY_VALUE | KEY_ENUMERATE_SUBKEYS | KEY_NOTIFY | STANDARD_RIGHTS_READ
+
+=item C<KEY_WRITE>
+
+ KEY_SET_VALUE | KEY_CREATE_SUB_KEY | STANDARD_RIGHTS_WRITE
+
+=item C<KEY_QUERY_VALUE>
+
+=item C<KEY_SET_VALUE>
+
+=item C<KEY_ENUMERATE_SUB_KEYS>
+
+=item C<KEY_CREATE_SUB_KEY>
+
+=item C<KEY_NOTIFY>
+
+Allows you to use C<RegNotifyChangeKeyValue()> on the opened key.
+
+=item C<KEY_EXECUTE>
+
+Same as C<KEY_READ>.
+
+=item C<KEY_CREATE_LINK>
+
+Gives you permission to create a symbolic link like
+C<HKEY_CLASSES_ROOT> and C<HKEY_CURRENT_USER>, though the method for
+doing so is not documented [and probably requires use of the mostly
+undocumented "native" routines, C<Nt*()> a.k.a. C<Zw*()>].
+
+=back
+
+C<$phKey> will be set to the handle to be used to access the new subkey
+if the call succeeds.
+
+=item RegQueryInfoKey
+
+=item C<RegQueryInfoKey( $hKey, $osClass, $iolClass, $pNull, $ocSubKeys, $olSubKey, $olSubClass, $ocValues, $olValName, $olValData, $olSecDesc, $opftTime )>
+
+Gets miscellaneous information about an open Registry key.
+Returns a true value if successful and a false value [and
+sets C<$^E>/C<regLastError()>] on failure.
+
+C<$hKey> is the handle to a Registry key [either C<HKEY_*> or from
+a previous call].
+
+C<$sClass> will be set to the class name for the key. Can be
+C<[]> if you don't care about the class.
+
+C<$plClass> initially specifies the [minimum] buffer size to be
+allocated for C<$sClass> and will be set to the length of the
+key's class name. See L<Buffer sizes> for more information.
+You may omit this parameter to get the same effect as passing in
+C<[]> for it.
+
+C<$pNull> is reserved for future use and should be passed as C<[]>.
+
+C<$pcSubKeys> will be set to the count of the number of subkeys
+directly under this key. Can be C<[]>.
+
+C<$plSubKey> will be set to the length of the longest subkey name.
+Can be C<[]>.
+
+C<$plSubClass> will be set to the length of the longest class name
+used with an immediate subkey of this key. Can be C<[]>.
+
+C<$pcValues> will be set to the count of the number of values in
+this key. Can be C<[]>.
+
+C<$plValName> will be set to the length of the longest value name
+in this key. Can be C<[]>.
+
+C<$plValData> will be set to the length of the longest value data
+in this key. Can be C<[]>.
+
+C<$plSecDesc> will be set to the length of this key's full security
+descriptor.
+
+C<$pftTime> will be set to a C<FILETIME> structure packed
+into a Perl string and indicating when this key was last changed.
+Can be C<[]>.
+
+=item RegQueryMultipleValues
+
+=item C<RegQueryMultipleValues( $hKey, $ioarValueEnts, $icValueEnts, $opBuffer, $iolBuffer )>
+
+Allows you to use a single call to query several values from a single
+open Registry key to maximize efficiency. Returns a true value if
+successful and a false value [and sets C<$^E>/C<regLastError()>] on
+failure.
+
+C<$hKey> is the handle to a Registry key [either C<HKEY_*> or from
+a previous call].
+
+C<$pValueEnts> should contain a list of C<VALENT> structures packed
+into a single Perl string. Each C<VALENT> structure should have
+the C<ve_valuename> entry [the first 4 bytes] pointing to a string
+containing the name of a value stored in this key. The remaining
+fields are set if the function succeeds.
+
+C<$cValueEnts> should contain the count of the number of C<VALENT>
+structures contained in C<$pValueEnts>.
+
+C<$pBuffer> will be set to the data from all of the requested values
+concatenated into a single Perl string.
+
+C<$plBuffer> initially specifies the [minimum] buffer size to be
+allocated for C<$sBuffer> and will be set to the total length of
+the data to be written to C<$sBuffer>. See L<Buffer sizes> for
+more information. You may omit this parameter to get the same
+effect as passing in C<[]> for it.
+
+Here is sample code to populate C<$pValueEnts>:
+
+ # @ValueNames= ...list of value name strings...;
+ $cValueEnts= @ValueNames;
+ $pValueEnts= pack( " p x4 x4 x4 " x $cValueEnts, @ValueNames );
+
+Here is sample code to retrieve the data type and data length
+returned in C<$pValueEnts>:
+
+ @Lengths= unpack( " x4 L x4 x4 " x $cValueEnts, $pValueEnts );
+ @Types= unpack( " x4 x4 x4 L " x $cValueEnts, $pValueEnts );
+
+Given the above, and assuming you haven't modified C<$sBuffer> since
+the call, you can also extract the value data strings from C<$sBuffer>
+by using the pointers returned in C<$pValueEnts>:
+
+ @Data= unpack( join( "", map {" x4 x4 P$_ x4 "} @Lengths ),
+ $pValueEnts );
+
+Much better is to use the lengths and extract directly from
+C<$sBuffer> using C<unpack()> [or C<substr()>]:
+
+ @Data= unpack( join("",map("P$_",@Lengths)), $sBuffer );
+
+=item RegQueryValue
+
+=item C<RegQueryValue( $hKey, $sSubKey, $osValueData, $iolValueData )>
+
+This routine is meant only for compatibility with Windows version
+3.1. Use C<RegQueryValueEx()> instead. This routine can only
+query unamed values [a.k.a. "default values"], that is, values with
+a name of C<"">.
+
+=item RegQueryValueEx
+
+=item C<RegQueryValueEx( $hKey, $sValueName, $pNull, $ouType, $opValueData, $iolValueData )>
+
+Lets you look up value data stored in an open Registry key by
+specifying the value name. Returns a true value if successful
+and a false value [and sets C<$^E>/C<regLastError()>] on failure.
+
+C<$hKey> is the handle to a Registry key [either C<HKEY_*> or from
+a previous call].
+
+C<$sValueName> is the name of the value whose data you wish to
+retrieve.
+
+C<$pNull> this parameter is reserved for future use and should be
+specified as C<[]>.
+
+C<$piType> will be set to indicate what type of data is stored in
+the named value. Will be set to a C<REG_*> value if the function
+succeeds.
+
+C<$pValueData> will be set to the value data [packed into a Perl
+string] that is stored in the named value. Can be C<[]> if you
+don't care about the value data.
+
+C<$plValueData> initially specifies the [minimum] buffer size to be
+allocated for C<$sValueData> and will be set to the size [always
+in bytes] of the data to be written to C<$sValueData>, even if
+C<$sValueData> is not successfully written to. See L<Buffer sizes>
+for more information.
+
+=item RegReplaceKey
+
+=item C<RegReplaceKey( $hKey, $sSubKey, $sNewFile, $sOldFile )>
+
+Lets you replace an entire hive when the system is next booted.
+Returns a true value if successful and a false value [and sets
+C<$^E>/C<regLastError()>] on failure.
+
+C<$hKey> is the handle to a Registry key that has hive(s)
+loaded in it. This must be C<HKEY_LOCAL_MACHINE>,
+C<HKEY_USERS>, or a remote version of one of these from
+a call to C<RegConnectRegistry()>.
+
+C<$sSubKey> is the name of the subkey of C<$hKey> whose hive
+you wish to have replaced on the next reboot.
+
+C<$sNewFile> is the name of a file that will replace the existing
+hive file when the system reboots.
+
+C<$sOldFile> is the file name to save the current hive file to
+when the system reboots.
+
+C<$sNewFile> and C<$sOldFile> are interpretted relative to the
+C<%SystemRoot%/System32/config> directory on the computer where
+the C<$hKey> key resides [I think]. If either file is [would be]
+on a FAT file system, then its name must not have an extension.
+
+You must have the C<SE_RESTORE_NAME> privilege to use this routine.
+
+=item RegRestoreKey
+
+=item C<RegRestoreKey( $hKey, $sFileName, $uFlags )>
+
+Reads in a hive file and copies its contents over an existing
+Registry tree. Returns a true value if successful and a false
+value [and sets C<$^E>/C<regLastError()>] on failure.
+
+C<$hKey> is the handle to a Registry key [either C<HKEY_*> or from
+a previous call].
+
+C<$sFileName> is the name of the hive file to be read. For each
+value and subkey in this file, a value or subkey will be added
+or replaced in C<$hKey>.
+
+C<$uFlags> is usally C<0>. It can also be C<REG_WHOLE_HIVE_VOLATILE>
+which, rather than copying the hive over the existing key,
+replaces the existing key with a temporary, memory-only Registry
+key and then copies the hive contents into it. This option only
+works if C<$hKey> is C<HKEY_LOCAL_MACHINE>, C<HKEY_USERS>, or a
+remote version of one of these from a call to C<RegConnectRegistry()>.
+
+C<RegRestoreKey> does I<not> delete values nor keys from the
+existing Registry tree when there is no corresponding value/key
+in the hive file.
+
+=item RegSaveKey
+
+=item C<RegSaveKey( $hKey, $sFileName, $pSecAttr )>
+
+Dumps any open Registry key and all of its subkeys and values into
+a new hive file. Returns a true value if successful and a false
+value [and sets C<$^E>/C<regLastError()>] on failure.
+
+C<$hKey> is the handle to a Registry key [either C<HKEY_*> or from
+a previous call].
+
+C<$sFileName> is the name of the file that the Registry tree
+should be saved to. It is interpretted relative to the
+C<%SystemRoot%/System32/config> directory on the computer where
+the C<$hKey> key resides. If C<$sFileName> is on a FAT file system,
+then it must not have an extension.
+
+C<$pSecAttr> contains a C<SECURITY_ATTRIBUTES> structure that specifies
+the permissions to be set on the new file that is created. This can
+be C<[]>.
+
+You must have the C<SE_RESTORE_NAME> privilege to use this routine.
+
+=item RegSetKeySecurity
+
+=item C<RegSetKeySecurity( $hKey, $uSecInfo, $pSecDesc )>
+
+Sets [part of] the C<SECURITY_DESCRIPTOR> structure describing part
+of the security for an open Registry key. Returns a true value if
+successful and a false value [and sets C<$^E>/C<regLastError()>] on
+failure.
+
+C<$hKey> is the handle to a Registry key [either C<HKEY_*> or from
+a previous call].
+
+C<$uSecInfo> is a numeric C<SECURITY_INFORMATION> value that
+specifies which C<SECURITY_DESCRIPTOR> structure to set. Should
+be C<OWNER_SECURITY_INFORMATION>, C<GROUP_SECURITY_INFORMATION>,
+C<DACL_SECURITY_INFORMATION>, or C<SACL_SECURITY_INFORMATION>
+or two or more of these bits combined using C<|>.
+
+C<$pSecDesc> contains the new C<SECURITY_DESCRIPTOR> structure
+packed into a Perl string.
+
+=item RegSetValue
+
+=item C<RegSetValue( $hKey, $sSubKey, $uType, $sValueData, $lValueData )>
+
+This routine is meant only for compatibility with Windows version
+3.1. Use C<RegSetValueEx()> instead. This routine can only
+set unamed values [a.k.a. "default values"].
+
+=item RegSetValueEx
+
+=item C<RegSetValueEx( $hKey, $sName, $uZero, $uType, $pData, $lData )>
+
+Adds or replaces a value in an open Registry key. Returns
+a true value if successful and a false value [and sets
+C<$^E>/C<regLastError()>] on failure.
+
+C<$hKey> is the handle to a Registry key [either C<HKEY_*> or from
+a previous call].
+
+C<$sName> is the name of the value to be set.
+
+C<$uZero> is reserved for future use and should be specified as C<0>.
+
+C<$uType> is the type of data stored in C<$pData>. It should
+be a C<REG_*> value.
+
+C<$pData> is the value data packed into a Perl string.
+
+C<$lData> is the length of the value data that is stored in C<$pData>.
+You will usually omit this parameter or pass in C<0> to have
+C<length($pData)> used. In both of these cases, if C<$iType> is
+C<REG_SZ> or C<REG_EXPAND_SZ>, C<RegSetValueEx()> will append a
+trailing C<'\0'> to the end of C<$pData> [unless there is already
+one].
+
+=item RegUnLoadKey
+
+=item C<RegUnLoadKey( $hKey, $sSubKey )>
+
+Unloads a previously loaded hive file. That is, closes the
+hive file then deletes the subkey that was providing access
+to it. Returns a true value if successful and a false value
+[and sets C<$^E>/C<regLastError()>] on failure.
+
+C<$hKey> is the handle to a Registry key that has hives
+loaded in it. This must be C<HKEY_LOCAL_MACHINE>, C<HKEY_USERS>,
+or a remote version of one of these from a call to
+C<RegConnectRegistry()>.
+
+C<$sSubKey> is the name of the subkey whose hive you wish to
+have unloaded.
+
+=item :FuncA
+
+The ASCII-specific function names.
+
+Each of these is identical to the version listed above without the
+trailing "A":
+
+ AbortSystemShutdownA InitiateSystemShutdownA
+ RegConnectRegistryA RegCreateKeyA RegCreateKeyExA
+ RegDeleteKeyA RegDeleteValueA RegEnumKeyA
+ RegEnumKeyExA RegEnumValueA RegLoadKeyA
+ RegOpenKeyA RegOpenKeyExA RegQueryInfoKeyA
+ RegQueryMultipleValuesA RegQueryValueA RegQueryValueExA
+ RegReplaceKeyA RegRestoreKeyA RegSaveKeyA
+ RegSetValueA RegSetValueExA RegUnLoadKeyA
+
+=item :FuncW
+
+The UNICODE-specific function names. These are the same as the
+versions listed above without the trailing "W" except that string
+parameters are UNICODE strings rather than ASCII strings, as
+indicated.
+
+=item AbortSystemShutdownW
+
+=item C<AbortSystemShutdownW( $swComputerName )>
+
+C<$swComputerName> is UNICODE.
+
+=item InitiateSystemShutdownW
+
+=item C<InitiateSystemShutdownW( $swComputer, $swMessage, $uTimeoutSecs, $bForce, $bReboot )>
+
+C<$swComputer> and C<$swMessage> are UNICODE.
+
+=item RegConnectRegistryW
+
+=item C<RegConnectRegistryW( $swComputer, $hRootKey, $ohKey )>
+
+C<$swComputer> is UNICODE.
+
+=item RegCreateKeyW
+
+=item C<RegCreateKeyW( $hKey, $swSubKey, $ohSubKey )>
+
+C<$swSubKey> is UNICODE.
+
+=item RegCreateKeyExW
+
+=item C<RegCreateKeyExW( $hKey, $swSubKey, $uZero, $swClass, $uOpts, $uAccess, $pSecAttr, $ohNewKey, $ouDisp )>
+
+C<$swSubKey> and C<$swClass> are UNICODE.
+
+=item RegDeleteKeyW
+
+=item C<RegDeleteKeyW( $hKey, $swSubKey )>
+
+C<$swSubKey> is UNICODE.
+
+=item RegDeleteValueW
+
+=item C<RegDeleteValueW( $hKey, $swValueName )>
+
+C<$swValueName> is UNICODE.
+
+=item RegEnumKeyW
+
+=item C<RegEnumKeyW( $hKey, $uIndex, $oswName, $ilwNameSize )>
+
+C<$oswName> is UNICODE and C<$ilwNameSize> is measured as number of
+C<WCHAR>s.
+
+=item RegEnumKeyExW
+
+=item C<RegEnumKeyExW( $hKey, $uIndex, $oswName, $iolwName, $pNull, $oswClass, $iolwClass, $opftLastWrite )>
+
+C<$swName> and C<$swClass> are UNICODE and C<$iolwName> and C<$iolwClass>
+are measured as number of C<WCHAR>s.
+
+=item RegEnumValueW
+
+=item C<RegEnumValueW( $hKey, $uIndex, $oswName, $iolwName, $pNull, $ouType, $opData, $iolData )>
+
+C<$oswName> is UNICODE and C<$iolwName> is measured as number
+of C<WCHAR>s.
+
+C<$opData> is UNICODE if C<$piType> is C<REG_SZ>, C<REG_EXPAND_SZ>,
+or C<REG_MULTI_SZ>. Note that C<$iolData> is measured as number
+of bytes even in these cases.
+
+=item RegLoadKeyW
+
+=item C<RegLoadKeyW( $hKey, $swSubKey, $swFileName )>
+
+C<$swSubKey> and C<$swFileName> are UNICODE.
+
+=item RegOpenKeyW
+
+=item C<RegOpenKeyW( $hKey, $swSubKey, $ohSubKey )>
+
+C<$swSubKey> is UNICODE.
+
+=item RegOpenKeyExW
+
+=item C<RegOpenKeyExW( $hKey, $swSubKey, $uOptions, $uAccess, $ohSubKey )>
+
+C<$swSubKey> is UNICODE.
+
+=item RegQueryInfoKeyW
+
+=item C<RegQueryInfoKeyW( $hKey, $oswClass, $iolwClass, $pNull, $ocSubKeys, $olwSubKey, $olwSubClass, $ocValues, $olwValName, $olValData, $olSecDesc, $opftTime )>
+
+C<$swClass> is UNICODE. C<$iolwClass>, C<$olwSubKey>, C<$olwSubClass>,
+and C<$olwValName> are measured as number of C<WCHAR>s. Note that
+C<$olValData> is measured as number of bytes.
+
+=item RegQueryMultipleValuesW
+
+=item C<RegQueryMultipleValuesW( $hKey, $ioarValueEnts, $icValueEnts, $opBuffer, $iolBuffer )>
+
+The C<ve_valuename> fields of the C<VALENT> [actually C<VALENTW>]
+structures in C<$ioarValueEnts> are UNICODE. Values of type C<REG_SZ>,
+C<REG_EXPAND_SZ>, and C<REG_MULTI_SZ> are written to C<$opBuffer>
+in UNICODE. Note that C<$iolBuffer> and the C<ve_valuelen> fields
+of the C<VALENT> [C<VALENTW>] structures are measured as number of
+bytes.
+
+=item RegQueryValueW
+
+=item C<RegQueryValueW( $hKey, $swSubKey, $oswValueData, $iolValueData )>
+
+C<$swSubKey> and C<$oswValueData> are UNICODE. Note that
+C<$iolValueData> is measured as number of bytes.
+
+=item RegQueryValueExW
+
+=item C<RegQueryValueExW( $hKey, $swName, $pNull, $ouType, $opData, $iolData )>
+
+C<$swName> is UNICODE.
+
+C<$opData> is UNICODE if C<$ouType> is C<REG_SZ>, C<REG_EXPAND_SZ>,
+or C<REG_MULTI_SZ>. Note that C<$iolData> is measured as number of
+bytes even in these cases.
+
+=item RegReplaceKeyW
+
+=item C<RegReplaceKeyW( $hKey, $swSubKey, $swNewFile, $swOldFile )>
+
+C<$swSubKey>, C<$swNewFile>, and C<$swOldFile> are UNICODE.
+
+=item RegRestoreKeyW
+
+=item C<RegRestoreKeyW( $hKey, $swFileName, $uFlags )>
+
+C<$swFileName> is UNICODE.
+
+=item RegSaveKeyW
+
+=item C<RegSaveKeyW( $hKey, $swFileName, $pSecAttr )>
+
+C<$swFileName> is UNICODE.
+
+=item RegSetValueW
+
+=item C<RegSetValueW( $hKey, $swSubKey, $uType, $swValueData, $lValueData )>
+
+C<$swSubKey> and C<$swValueData> are UNICODE. Note that
+C<$lValueData> is measured as number of bytes even though
+C<$swValueData> is always UNICODE.
+
+=item RegSetValueExW
+
+=item C<RegSetValueExW( $hKey, $swName, $uZero, $uType, $pData, $lData )>
+
+C<$swName> is UNICODE.
+
+C<$pData> is UNICODE if C<$uType> is C<REG_SZ>, C<REG_EXPAND_SZ>,
+or C<REG_MULTI_SZ>. Note that C<$lData> is measured as number of
+bytes even in these cases.
+
+=item RegUnLoadKeyW
+
+=item C<RegUnLoadKeyW( $hKey, $swSubKey )>
+
+C<$swSubKey> is UNICODE.
+
+=item :HKEY_
+
+All C<HKEY_*> constants:
+
+ HKEY_CLASSES_ROOT HKEY_CURRENT_CONFIG HKEY_CURRENT_USER
+ HKEY_DYN_DATA HKEY_LOCAL_MACHINE HKEY_PERFORMANCE_DATA
+ HKEY_USERS
+
+=item :KEY_
+
+All C<KEY_*> constants:
+
+ KEY_QUERY_VALUE KEY_SET_VALUE KEY_CREATE_SUB_KEY
+ KEY_ENUMERATE_SUB_KEYS KEY_NOTIFY KEY_CREATE_LINK
+ KEY_READ KEY_WRITE KEY_EXECUTE
+ KEY_ALL_ACCESS
+
+=item :REG_
+
+All C<REG_*> constants:
+
+ REG_CREATED_NEW_KEY REG_OPENED_EXISTING_KEY
+
+ REG_LEGAL_CHANGE_FILTER REG_NOTIFY_CHANGE_ATTRIBUTES
+ REG_NOTIFY_CHANGE_NAME REG_NOTIFY_CHANGE_LAST_SET
+ REG_NOTIFY_CHANGE_SECURITY REG_LEGAL_OPTION
+
+ REG_OPTION_BACKUP_RESTORE REG_OPTION_CREATE_LINK
+ REG_OPTION_NON_VOLATILE REG_OPTION_OPEN_LINK
+ REG_OPTION_RESERVED REG_OPTION_VOLATILE
+
+ REG_WHOLE_HIVE_VOLATILE REG_REFRESH_HIVE
+ REG_NO_LAZY_FLUSH
+
+ REG_NONE REG_SZ
+ REG_EXPAND_SZ REG_BINARY
+ REG_DWORD REG_DWORD_LITTLE_ENDIAN
+ REG_DWORD_BIG_ENDIAN REG_LINK
+ REG_MULTI_SZ REG_RESOURCE_LIST
+ REG_FULL_RESOURCE_DESCRIPTOR REG_RESOURCE_REQUIREMENTS_LIST
+
+=item :ALL
+
+All of the above.
+
+=item :SE_
+
+The strings for the following privilege names:
+
+ SE_ASSIGNPRIMARYTOKEN_NAME SE_AUDIT_NAME
+ SE_BACKUP_NAME SE_CHANGE_NOTIFY_NAME
+ SE_CREATE_PAGEFILE_NAME SE_CREATE_PERMANENT_NAME
+ SE_CREATE_TOKEN_NAME SE_DEBUG_NAME
+ SE_INCREASE_QUOTA_NAME SE_INC_BASE_PRIORITY_NAME
+ SE_LOAD_DRIVER_NAME SE_LOCK_MEMORY_NAME
+ SE_MACHINE_ACCOUNT_NAME SE_PROF_SINGLE_PROCESS_NAME
+ SE_REMOTE_SHUTDOWN_NAME SE_RESTORE_NAME
+ SE_SECURITY_NAME SE_SHUTDOWN_NAME
+ SE_SYSTEMTIME_NAME SE_SYSTEM_ENVIRONMENT_NAME
+ SE_SYSTEM_PROFILE_NAME SE_TAKE_OWNERSHIP_NAME
+ SE_TCB_NAME SE_UNSOLICITED_INPUT_NAME
+
+It can be difficult to successfully build this module in a way
+that makes these constants available. So some builds of this
+module may not make them available. For such builds, trying
+to export any of these constants will cause a fatal error.
+For this reason, none of these symbols are currently included
+in the C<":ALL"> grouping.
+
+=back
+
+=head2 The Win32API:: heirarchy
+
+This and the other Win32API:: modules are meant to expose the
+nearly raw API calls so they can be used from Perl code in any
+way they might be used from C code. This provides the following
+advantages:
+
+=over
+
+=item Many modules can be written by people that don't have a C compiler.
+
+=item Encourages more module code to be written in Perl [not C].
+
+Perl code is often much easier to inspect, debug, customize, and
+enhance than XS code.
+
+=item Allows those already familiar with the Win32 API to get
+off to a quick start.
+
+=item Provides an interactive tool for exploring even obscure
+details of the Win32 API.
+
+It can be very useful to interactively explore ad-hoc calls into
+parts of the Win32 API using:
+
+ perl -de 0
+
+=item Ensures that native Win32 data structures can be used.
+
+This allows maximum efficiency. It also allows data from one
+module [for example, time or security information from the
+C<Win32API::Registry> or C<Win32API::File> modules] to be used
+with other modules [for example, C<Win32API::Time> and
+C<Win32API::SecDesc>].
+
+=item Provides a single version of the XS interface to each API
+call where improvements can be collected.
+
+=back
+
+=head2 Buffer sizes
+
+For each parameter that specifies a buffer size, a value of C<0>
+can be passed. For parameter that are pointers to buffer sizes,
+you can also pass in C<NULL> by specifying an empty list reference,
+C<[]>. Both of these cases will ensure that the variable has
+I<some> buffer space allocated to it and pass in that buffer's
+allocated size. Many of the calls indicate, via C<ERROR_MORE_DATA>,
+that the buffer size was not sufficient and the F<Registry.xs>
+code will automatically enlarge the buffer to the required size
+and repeat the call.
+
+Numeric buffer sizes are used as minimum initial sizes for the
+buffers. The larger of this size and the size of space already
+allocated to the scalar will be passed to the underlying routine.
+If that size was insufficient, and the underlying call provides
+an easy method for determining the needed buffer size, then the
+buffer will be enlarged and the call repeated as above.
+
+The underlying calls define buffer size parameter as unsigned, so
+negative buffer sizes are treated as very large positive buffer
+sizes which usually cause C<malloc()> to fail.
+
+To force the F<Registry.xs> code to pass in a specific value for
+a buffer size, preceed the size with an equals sign via C<"=".>.
+Buffer sizes that are passed in as strings starting with an equals
+sign will have the equal sign stripped and the remainder of the string
+interpretted as a number [via C's C<strtoul()> using only base 10]
+which will be passed to the underlying routine [even if the allocated
+buffer is actually larger]. The F<Registry.xs> code will enlarge the
+buffer to the specified size, if needed, but will not enlarge the
+buffer based on the underlying routine requesting more space.
+
+Some Reg*() calls may not currently set the buffer size when they
+return C<ERROR_MORE_DATA>. But some that are not documented as
+doing so, currently do so anyway. So the code assumes that any
+routine I<might> do this and resizes any buffers and repeats the
+call. We hope that eventually all routines will provide this
+feature.
+
+When you use C<[]> for a buffer size, you can still find the
+length of the data returned by using C<length($buffer)>. Note
+that this length will be in bytes while a few of the buffer
+sizes would have been in units of wide characters.
+
+Note that the RegQueryValueEx*() and RegEnumValue*() calls
+will trim the trailing C<'\0'> [if present] from the returned data
+values of type C<REG_SZ> or C<REG_EXPAND_SZ> but only if the
+value data length parameter is omitted [or specified as C<[]>].
+
+The RegSetValueEx*() calls will add a trailing C<'\0'> [if
+missing] to the supplied data values of type C<REG_SZ> and
+C<REG_EXPAND_SZ> but only if the value data length parameter
+is omitted [or specified as C<0>].
+
+=head2 Hungarian Notation
+
+The following abbreviations are used at the start of each parameter
+name to hint at aspects of how the parameter is used. The prefix
+is always in lower case and followed by a capital letter that starts
+the descriptive part of the parameter name. Several of the following
+abbreviations can be combined into a single prefix.
+
+Probably not all of these prefix notations are used by this module.
+This document section may be included in any C<Win32API> module and
+so covers some notations not used by this specific module.
+
+=over
+
+=item s
+
+A string. In C, a C<'\0'>-terminated C<char *>. In Perl, just a
+string except that it will be truncated at the first C<"\0">, if
+it contains one.
+
+=item sw
+
+A wide [UNICODE] string. In C, a C<L'\0'>-terminated C<WCHAR *>.
+In Perl, a string that contains UNICODE data. You can convert a
+string to UNICODE in Perl via:
+
+ $string= "This is an example string";
+ $unicode= pack( "S*", unpack("C*",$string), 0 );
+
+Note how C<, 0> above causes an explicit C<L'\0'> to be added since
+Perl's implicit C<'\0'> that it puts after each of its strings is not
+wide enough to terminate a UNICODE string. So UNICODE strings are
+different than regular strings in that the Perl version of a regular
+string will not include the trialing C<'\0'> while the Perl version
+of a UNICODE string must include the trailing C<L'\0'>.
+
+If a UNICODE string contains no non-ASCII characters, then you
+can convert it back into a normal string via:
+
+ $string= pack( "C*", unpack("S*",$unicode) );
+ $string =~ s/\0$//;
+
+=item p
+
+A pointer to some buffer [usually containing some C<struct>]. In C,
+a C<void *> or some other pointer type. In Perl, a string that is
+usually manipulated using C<pack> and C<unpack>. The "p" is usually
+followed by more prefix character(s) to indicate what type of data is
+stored in the bufffer.
+
+=item a
+
+A packed array. In C, an array [usually of C<struct>s]. In Perl, a
+string containing the packed data. The "a" is usually followed by
+more prefix character(s) to indicate the data type of the elements.
+
+These packed arrays are also called "vectors" in places to avoid
+confusion with Perl arrays.
+
+=item n
+
+A generic number. In C, any of the integer or floating point data
+types. In Perl, a number; either an integer, unsigned, or double
+[IV, UV, or NV, respectively]. Usually an integer.
+
+=item iv
+
+A signed integral value. In C, any of the signed integer data types.
+In Perl, an integer [IV].
+
+=item u
+
+An unsigned integral value. In C, any of the unsigned integer data
+types. In Perl, an unsigned integer [UV].
+
+=item d
+
+A floating-point number. In C, a C<float> or C<double> or, perhaps,
+a C<long double>. In Perl, a double-precision floating-point number
+[NV].
+
+=item b
+
+A Boolean value. In C, any integer data type, though usually via
+a type alias of C<bool> or C<BOOL>, containing either a 0 [false] or
+non-zero [true] value. In Perl, a scalar containing a Boolean value
+[C<0>, C<"">, or C<undef> for "false" and anything else for "true"].
+
+=item c
+
+A count of items. In C, any integer data type. In Perl, an unsigned
+integer [UV]. Usually used in conjunction with a "vector" parameter
+[see L</a> above] to indicate the number of elements.
+
+=item l
+
+A length [in bytes]. In C, any integer data type. In Perl, an
+unsigned integer [UV]. Usually used in conjunction with a "string"
+or "pointer" parameter [see L</s> and L</p> above] to indicate the
+buffer size or the size of the value stored in the buffer.
+
+For strings, there is no general rule as to whether the trailing
+C<'\0'> is included in such sizes. For this reason, the C<Win32API>
+modules follow the Perl rule of always allocating one extra byte
+and reporting buffer sizes as being one smaller than allocated in
+case the C<'\0'> is not included in the size.
+
+=item lw
+
+A length measured as number of UNICODE characters. In C, a count
+of C<WCHAR>s. In Perl, an unsigned integer [UV] counting "shorts"
+[see "s" and "S" in C<pack> and C<unpack>].
+
+For UNICODE strings, the trailing C<L'\0'> may or may not be
+included in a length so, again, we always allocate extra room
+for one and don't report that extra space.
+
+=item h
+
+A handle. In C, a C<HANDLE> or more-specific handle data type.
+In Perl, an unsigned integer [UV]. In C, these handles are often
+actually some type of pointer, but Perl just treats them as opaque
+numbers, as it should. This prefix is also used for other pointers
+that are treated as integers in Perl code.
+
+=item r
+
+A record. In C, almost always a C<struct> or perhaps C<union>. Note
+that C C<struct>s are rarely passed by value so the "r" is almost
+always preceeded by a "p" or "a" [see L</p> and L</a> above]. For
+the very rare unadorned "r", Perl stores the record in the same way
+as a "pr", that is, in a string. For the very rare case where Perl
+explicitly stores a pointer to the C<struct> rather than storing the
+C<struct> directly in a Perl string, the prefix "pp" or "ppr" or even
+"par" is used.
+
+=item sv
+
+=item rv
+
+=item hv
+
+=item av
+
+=item cv
+
+A Perl data type. Respectively, a scalar value [SV], a reference
+[RV] [usually to a scalar], a hash [HV], a Perl array [AV], or a Perl
+code reference [PVCV]. For the "hv", "av", and "cv" prefixes, a
+leading "rv" is usually assumed. For a parameter to an XS subroutine,
+a prefix of "sv" means the parameter is a scalar and so may be a string
+or a number [or C<undef>] or even both at the same time. So "sv"
+doesn't imply a leading "rv".
+
+=item Input or Output
+
+Whether a parameter is for input data, output data, or both is usually
+not reflected by the data type prefix. In cases where this is not
+obvious nor reflected in the parameter name proper, we may use the
+following in front of the data type prefix.
+
+=over
+
+=item i
+
+An input parameter given to the API [usually omitted].
+
+=item o
+
+An output-only parameter taken from the API. You should not get a
+warning if such a parameter is C<undef> when you pass it into the
+function. You should get an error if such a parameter is read-only.
+You can [usually] pass in C<[]> for such a parameter to have the
+parameter silently ignored.
+
+The output may be written directly into the Perl variable passed
+to the subroutine, the same way the buffer parameter to Perl's
+C<sysread()>. This method is often avoided in Perl because
+the call then lacks any visual cue that some parameters are being
+overwritten. But this method closely matches the C API which is
+what we are trying to do.
+
+=item io
+
+Input given to the API then overwritten with output taken from the
+API. You should get a warning [if B<-w> is in effect] if such a
+parameter is C<undef> when you pass it into the function [unless it
+is a buffer or buffer length parameter]. If the value is read-only,
+then [for most parameters] the output is silently not written. This
+is because it is often convenient to pass in read-only constants for
+many such parameters. You can also usually pass in C<[]> for such
+parameters.
+
+=back
+
+=item pp
+
+=item ppr
+
+=item par
+
+=item pap
+
+These are just unusual combinations of prefix characters described above.
+
+For each, a pointer is stored in a [4-byte] Perl string. You can
+usually use C<unpack "P"> to access the real data from Perl.
+
+For "ppr" [and often for "pp"], the pointer points directly at a
+C C<struct>. For "par", the pointer points to the first element
+of a C [packed] array of C<struct>s. For "pap", the pointer points
+to a C [packed] array of pointers to other things.
+
+=item ap
+
+Here we have a list of pointers packed into a single Perl string.
+
+=back
+
+=head1 BUGS
+
+The old ActiveState ports of Perl for Win32 [but not, ActivePerl, the
+ActiveState distributions of standard Perl 5.004 and beyond] do not support
+the tools for building extensions and so do not support this extension.
+
+No routines are provided for using the data returned in the C<FILETIME>
+buffers. Those are in the C<Win32API::Time> module.
+
+No routines are provided for dealing with UNICODE data effectively.
+See L</:FuncW> above for some simple-minded UNICODE methods.
+
+Parts of the module test will fail if used on a version of Perl
+that does not yet set C<$^E> based on C<GetLastError()>.
+
+On NT 4.0 [at least], the RegEnum*() calls do not set the required
+buffer sizes when returning C<ERROR_MORE_DATA> so this module will
+not grow the buffers in such cases. C<Win32::TieRegistry> overcomes
+this by using values from C<RegQueryInfoKey()> for buffer sizes in
+RegEnum* calls.
+
+On NT 4.0 [at least], C<RegQueryInfoKey()> on C<HKEY_PERFORMANCE_DATA>
+never succeeds. Also, C<RegQueryValueEx()> on C<HKEY_PERFORMANCE_DATA>
+never returns the required buffer size. To access C<HKEY_PERFORMANCE_DATA>
+you will need to keep growing the data buffer until the call succeeds.
+
+Because C<goto &subroutine> seems to be buggy under Win32 Perl,
+it is not used in the stubs in F<Registry.pm>.
+
+=head1 AUTHOR
+
+Tye McQueen, tye@metronet.com, http://www.metronet.com/~tye/.
+
+=head1 SEE ALSO
+
+=over
+
+=item L<Win32::TieRegistry>
+
+=item L<Win32::Registry>
+
+=back
+
+=cut
diff --git a/Master/tlpkg/tlperl/lib/Win32API/Registry/cRegistry.pc b/Master/tlpkg/tlperl/lib/Win32API/Registry/cRegistry.pc
new file mode 100644
index 00000000000..9659d0c4361
--- /dev/null
+++ b/Master/tlpkg/tlperl/lib/Win32API/Registry/cRegistry.pc
@@ -0,0 +1,87 @@
+# Generated by cRegistry_pc.cxx.
+# Package Win32API::Registry with options:
+# CPLUSPLUS => q[1]
+# IFDEF => q[ /^SE_/ ? '__cplusplus' : /REG_/ ]
+# IMPORT_LIST => [q[/._/], q[!/[a-z]/]]
+# VALUES => { KEY_DELETE=>q[DELETE], KEY_READ_CONTROL=>q[READ_CONTROL], KEY_WRITE_OWNER=>q[WRITE_OWNER], KEY_SYNCHRONIZE=>q[SYNCHRONIZE], KEY_WRITE_DAC=>q[WRITE_DAC] }
+# WRITE_PERL => q[1]
+# Perl files eval'd:
+# Registry.pm => last if /^\s*(bootstrap|XSLoader::load)\b/
+# C files included:
+# Registry.xs => last if m#/[/*]\s*CONSTS_DEFINED\b|^\s*MODULE\b#
+sub HKEY_CLASSES_ROOT () { 0x80000000 }
+sub HKEY_CURRENT_CONFIG () { 0x80000005 }
+sub HKEY_CURRENT_USER () { 0x80000001 }
+sub HKEY_DYN_DATA () { 0x80000006 }
+sub HKEY_LOCAL_MACHINE () { 0x80000002 }
+sub HKEY_PERFORMANCE_DATA () { 0x80000004 }
+sub HKEY_USERS () { 0x80000003 }
+sub KEY_ALL_ACCESS () { 983103 }
+sub KEY_CREATE_LINK () { 32 }
+sub KEY_CREATE_SUB_KEY () { 4 }
+sub KEY_DELETE () { 65536 }
+sub KEY_ENUMERATE_SUB_KEYS () { 8 }
+sub KEY_EXECUTE () { 131097 }
+sub KEY_NOTIFY () { 16 }
+sub KEY_QUERY_VALUE () { 1 }
+sub KEY_READ () { 131097 }
+sub KEY_READ_CONTROL () { 131072 }
+sub KEY_SET_VALUE () { 2 }
+sub KEY_SYNCHRONIZE () { 1048576 }
+sub KEY_WRITE () { 131078 }
+sub KEY_WRITE_DAC () { 262144 }
+sub KEY_WRITE_OWNER () { 524288 }
+sub REG_BINARY () { 3 }
+sub REG_CREATED_NEW_KEY () { 1 }
+sub REG_DWORD () { 4 }
+sub REG_DWORD_BIG_ENDIAN () { 5 }
+sub REG_DWORD_LITTLE_ENDIAN () { 4 }
+sub REG_EXPAND_SZ () { 2 }
+sub REG_FULL_RESOURCE_DESCRIPTOR () { 9 }
+sub REG_LEGAL_CHANGE_FILTER () { 15 }
+sub REG_LEGAL_OPTION () { 15 }
+sub REG_LINK () { 6 }
+sub REG_MULTI_SZ () { 7 }
+sub REG_NONE () { 0 }
+sub REG_NOTIFY_CHANGE_ATTRIBUTES () { 2 }
+sub REG_NOTIFY_CHANGE_LAST_SET () { 4 }
+sub REG_NOTIFY_CHANGE_NAME () { 1 }
+sub REG_NOTIFY_CHANGE_SECURITY () { 8 }
+sub REG_NO_LAZY_FLUSH () { 4 }
+sub REG_OPENED_EXISTING_KEY () { 2 }
+sub REG_OPTION_BACKUP_RESTORE () { 4 }
+sub REG_OPTION_CREATE_LINK () { 2 }
+sub REG_OPTION_NON_VOLATILE () { 0 }
+sub REG_OPTION_OPEN_LINK () { 8 }
+sub REG_OPTION_RESERVED () { 0 }
+sub REG_OPTION_VOLATILE () { 1 }
+sub REG_REFRESH_HIVE () { 2 }
+sub REG_RESOURCE_LIST () { 8 }
+sub REG_RESOURCE_REQUIREMENTS_LIST () { 10 }
+sub REG_SZ () { 1 }
+sub REG_WHOLE_HIVE_VOLATILE () { 1 }
+sub SE_ASSIGNPRIMARYTOKEN_NAME () { 'SeAssignPrimaryTokenPrivilege' }
+sub SE_AUDIT_NAME () { 'SeAuditPrivilege' }
+sub SE_BACKUP_NAME () { 'SeBackupPrivilege' }
+sub SE_CHANGE_NOTIFY_NAME () { 'SeChangeNotifyPrivilege' }
+sub SE_CREATE_PAGEFILE_NAME () { 'SeCreatePagefilePrivilege' }
+sub SE_CREATE_PERMANENT_NAME () { 'SeCreatePermanentPrivilege' }
+sub SE_CREATE_TOKEN_NAME () { 'SeCreateTokenPrivilege' }
+sub SE_DEBUG_NAME () { 'SeDebugPrivilege' }
+sub SE_INCREASE_QUOTA_NAME () { 'SeIncreaseQuotaPrivilege' }
+sub SE_INC_BASE_PRIORITY_NAME () { 'SeIncreaseBasePriorityPrivilege' }
+sub SE_LOAD_DRIVER_NAME () { 'SeLoadDriverPrivilege' }
+sub SE_LOCK_MEMORY_NAME () { 'SeLockMemoryPrivilege' }
+sub SE_MACHINE_ACCOUNT_NAME () { 'SeMachineAccountPrivilege' }
+sub SE_PROF_SINGLE_PROCESS_NAME () { 'SeProfileSingleProcessPrivilege' }
+sub SE_REMOTE_SHUTDOWN_NAME () { 'SeRemoteShutdownPrivilege' }
+sub SE_RESTORE_NAME () { 'SeRestorePrivilege' }
+sub SE_SECURITY_NAME () { 'SeSecurityPrivilege' }
+sub SE_SHUTDOWN_NAME () { 'SeShutdownPrivilege' }
+sub SE_SYSTEMTIME_NAME () { 'SeSystemtimePrivilege' }
+sub SE_SYSTEM_ENVIRONMENT_NAME () { 'SeSystemEnvironmentPrivilege' }
+sub SE_SYSTEM_PROFILE_NAME () { 'SeSystemProfilePrivilege' }
+sub SE_TAKE_OWNERSHIP_NAME () { 'SeTakeOwnershipPrivilege' }
+sub SE_TCB_NAME () { 'SeTcbPrivilege' }
+sub SE_UNSOLICITED_INPUT_NAME () { 'SeUnsolicitedInputPrivilege' }
+1;