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859 lines
28 KiB
859 lines
28 KiB
#-----------------------------------------------------------------//
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# Script: WMIFE.pm
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#
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# (c) 2001,2002 Microsoft Corporation. All rights reserved.
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#
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# addresses the generic OLE->WMI interface to test various stuff
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# defined on the given remote box
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#
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# Version: <2.01> 06/11/2002 : Serguei Kouzmine
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#
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#-----------------------------------------------------------------//
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package WMIFE;
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use lib $ENV{RAZZLETOOLPATH} . "\\PostBuildScripts";
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use lib $ENV{RAZZLETOOLPATH};
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use PbuildEnv;
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use Logmsg;
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require Exporter;
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use vars qw( @ISA @EXPORT_OK );
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@ISA = ( 'Exporter' );
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@EXPORT_OK = qw( $verbose );
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my $hPrivileges = {"SeBackupPrivilege" => "Backup",
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"SeSecurityPrivilege" => "Security",
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"SeRestorePrivilege" => "Restore",
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"SeShutdownPrivilege" => "ShutDown",
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"SeRemoteShutdownPrivilege" => "RemoteShutdown"
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};
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use strict;
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no strict 'refs';
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use Win32::OLE qw(in with);
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use Win32::OLE::Variant;
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# use 'in' loop for retrieve WQL cursors
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use vars qw( $verbose
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$NameSpace
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$impersonationLevel
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$authLevel
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$Privileges
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$ComputerName
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$MasterData
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$Provider
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$Query
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$DisplayFields
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$User
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$Password
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$DEBUG
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$TIMEOUT
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$sRootKey
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$sBootTestDataSubKey
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$sLogonUserDataSubKey
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);
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my $VERSION = "1.1";
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$TIMEOUT = 60;
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$DEBUG = 0;
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$verbose = ["NO","YES"];
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my $SEPARATOR = "\n". join("", map{chr(61)} 0..79). "\n";
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$NameSpace = "root\\cimv2";
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$sRootKey = "HKEY_LOCAL_MACHINE";
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$sBootTestDataSubKey = "SOFTWARE\\MICROSOFT\\BOOTTEST";
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$sLogonUserDataSubKey = "SOFTWARE\\MICROSOFT\\WINDOWS NT\\CURRENTVERSION\\WINLOGON";
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$impersonationLevel = "impersonate";
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$authLevel = "pktPrivacy";
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$Privileges = join(",", values(%$hPrivileges));
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$Provider = q(WbemScripting.SWbemLocator);
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$MasterData=
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q(winmgmts:{impersonationLevel=$impersonationLevel,authenticationLevel=$authLevel, ($Privileges)}!
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\\\\$ComputerName\\$NameSpace);
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sub ObjectExecMethod{
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my ($WbemObjClassName, $MethodName, $ComputerName, $ParameterName, $ParameterValue, $User, $Password) = @_;
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# play with the command line expansion
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# here.
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$DEBUG and print STDERR
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"ObjectExecMethod: using PROVIDER: ", $Provider, " " , $User, "\n";
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my $WbemLocator = Win32::OLE->new($Provider);
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OLEerrmsg("Could not instatiate $Provider") unless defined $WbemLocator;
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my $SWbemServices = ($User =~ /\*/) ?
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$WbemLocator->ConnectServer( $ComputerName, $NameSpace) :
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$WbemLocator->ConnectServer( $ComputerName, $NameSpace, $User, $Password );
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defined $SWbemServices or
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OLEerrmsg("Cannot connect: $ComputerName, $NameSpace");
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# Make sure we are using the appropriate security level
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OLEerrmsg("Error setting security level")
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if ( !($SWbemServices->{Security_}->{ImpersonationLevel} = 3) );
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map {
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$SWbemServices->{Security_}->{Privileges}->AddAsString($_)
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or OLEerrmsg( "Error setting $hPrivileges->$_ privileges");
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} keys %$hPrivileges;
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# Get the process object on the remote machine
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my $WbemObject = $SWbemServices->Get($WbemObjClassName);
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my $Result = $WbemObject->SetProperty($ParameterName, $ParameterValue) unless !defined($ParameterName);
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my $ProcessId = \0;
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#~ $REALDEBUG and
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#~ print $SEPARATOR , $WbemObject->Invoke("GetObjectText_"), $SEPARATOR;
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#~ too much info here
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my $ResultArrayRef = [(in $WbemObject->Invoke("Methods_"))];
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$DEBUG and print STDERR
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"$WbemObjClassName: METHODS_:\n";
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$DEBUG and
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map {&FormatDebugMsg($_->{"Name"}, $_->{"value"})} @$ResultArrayRef;
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OLEerrmsg("undefined method: $MethodName") unless grep {/$MethodName/i}
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map {$_->{"Name"}} @$ResultArrayRef;
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defined $WbemObject or
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OLEerrmsg("Could not create remote $WbemObjClassName");
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# Now invoke the method
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$DEBUG and
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print STDERR $WbemObject->{CommandLine}, "\n";
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OLEerrmsg("At $ComputerName, $ParameterName($ParameterValue) => $Result" )
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if ($Result = $WbemObject->Invoke($MethodName,
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$WbemObject->{CommandLine},
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undef,
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undef,
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$ProcessId)); # ):- $ProcessId not filled up :-(
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undef $WbemLocator;
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undef $SWbemServices;
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undef $WbemObject;
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Win32::OLE->Uninitialize();
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$DEBUG and print STDERR "OK\n";
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0;
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}
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sub ExecQuery{
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local ($ComputerName, $Query, $DisplayFields, $User, $Password) = @_;
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# the "local" keyword is necessary to get search/replace able to do /e switch
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my @MasterData = split (/\n/, $MasterData);
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my %Caption = map {$_=> $_} @$DisplayFields;
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# The values of %Caption must not be identical to the retrieved field names
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my $Caption = \%Caption;
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grep {s/\$\{?(\w+)\}?/${$1}/ge} @MasterData, $Query;
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# here we replace all the vars with their values
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$MasterData = join("", @MasterData);
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$Query =~ s/([^\\])\\([^\\])/$1\\\\$2/g;
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my $ResultSet = undef;
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$DEBUG and print STDERR
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"ExecQuery: using PROVIDER: ", $Provider, " " , $User, "\n";
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my $WbemLocator = Win32::OLE->new($Provider);
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OLEerrmsg("Could not instatiate $Provider") unless defined $WbemLocator;
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my $SWbemServices = ($User =~ /\*/) ?
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$WbemLocator->ConnectServer( $ComputerName, $NameSpace) :
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$WbemLocator->ConnectServer( $ComputerName, $NameSpace, $User, $Password );
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defined $SWbemServices or
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OLEerrmsg("Cannot connect: $ComputerName, $NameSpace");
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# Make sure we are using the appropriate security level
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OLEerrmsg("Error setting security level")
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if ( !($SWbemServices->{Security_}->{ImpersonationLevel} = 3) );
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map {
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$SWbemServices->{Security_}->{Privileges}->AddAsString($_)
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or OLEerrmsg( "Error setting $hPrivileges->$_ privileges");
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} keys %$hPrivileges;
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$DEBUG and print STDERR
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"\$Query: ", qq($Query), "\n";
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###
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### eval { $ResultSet = Win32::OLE->GetObject($MasterData)->ExecQuery($Query); };
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### $DEBUG and $Query = ""
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eval { $ResultSet = $SWbemServices->ExecQuery($Query); };
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#
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#
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my $ResultArrayRef = [(in $ResultSet)] unless ($@);
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$ResultArrayRef or
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print STDERR "Win32::OLE::LastError ", Win32::OLE::LastError, "\n";
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my @ResultCursor;
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# pack ResultSet -> ResultCursor;
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map {map {push @ResultCursor, {$Caption->{$_} => $ResultArrayRef->[0]->{$_}}}
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@$DisplayFields and shift @$ResultArrayRef}
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(0..$#$ResultArrayRef);
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Win32::OLE->Uninitialize();
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\@ResultCursor;
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}
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# &IsRunning($ProcMask, $runAtHost);
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# lists processes on the host $runAtHost to
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# find pattern $ProcMask.
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# for all process found, collect the
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# $1 of the search
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# e.g. you get language of the running postbuiild with
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# the pattern:
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# "\\\\POSTBUILDSCRIPTS\\\\PBUILD\\\.CMD\\\"\\s\+\\\-l[: ]\(\\w\{3\}\)";
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#
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# plus some properties of the $ProcessSet
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# return value: array pointer. The arguments are filtered out by default:
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# (/S:\\BLD_WNXF1\RELEASE\GER\3562.X86FRE.MAIN.011002-1901\PRO /TEMPDRIVE:D /#T:7)
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# PID= 00220
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# NAME= winnt32.exe
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# CMD= \\bld_wnxf1\release\ger\3562.x86fre.main.011002-1901\pro\i386\winnt32.exe /s:\\bld_wnxf1\release\ger\3562.x86fre.main.011002-1901\pro /tempdrive:d /#t:7
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sub IsRunning{
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my (
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$WMIclass, $ProcMask, $Field, $Fields, $runAtHost) = @_;
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# filter out arguments
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$ProcMask = $ProcMask."\\\"\? \(\.\+\)\$" unless $ProcMask=~/\(/;
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$DEBUG and print STDERR $ProcMask, "\n";
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my $ProcessSet;
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my @result;
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my $Moniker = "winmgmts:{impersonationLevel=impersonate}!\\\\HOST\\root\\cimv2";
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$Moniker =~ s/HOST/$runAtHost/;
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$DEBUG and print STDERR
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"using MONIKER: ", $Moniker, "\n";
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eval {
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$ProcessSet = Win32::OLE->GetObject($Moniker)->InstancesOf ($WMIclass); };
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unless($@){
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foreach my $ProcessInst (in $ProcessSet){
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push @result, join("\n",
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uc($1), map {"$_=".$ProcessInst->{$_}} @$Fields),
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if $ProcessInst->{$Field} =~ m/$ProcMask/gi;
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}
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}else{
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print STDERR Win32::OLE->LastError, "\n";
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}
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$DEBUG and print STDERR join ("\n", @result) , "\n";
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\@result;
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}
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# supplyRegData
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# usage:
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# $defaultData = {
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# "DEBUG" => $DEBUG,
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# "Lang" => $Lang ,
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# ...
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# }
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# $volatileData = {}
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#
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# &supplyRegData($sTargetcomputer, $REGISTRY_KEY,
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# $defaultData, $volatileData , $FovWrite);
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#
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#
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sub supplyRegData{
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my ($sTargetcomputer, $sBootTestDataSubKey, $defaultData, $volatileData, $FovWrite) = @_;
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use strict;
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use Win32API::Registry 0.21 qw(HKEY_LOCAL_MACHINE
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REG_OPTION_VOLATILE
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REG_OPTION_NON_VOLATILE
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KEY_ALL_ACCESS
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KEY_READ
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REG_SZ
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regLastError
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RegConnectRegistry
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RegOpenKeyEx
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RegEnumValue
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RegQueryInfoKey
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RegQueryValueEx
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RegCreateKeyEx
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RegSetValueEx
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RegDeleteValue
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RegCloseKey
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);
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# This provides fairly low-level access to the Win32 System API calls
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# dealing with the Registry [mostly from WINREG.H]. This is mostly
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my $hRootKey = $sRootKey;
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{ no strict 'refs';
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$hRootKey =~ s/(\w+)/$1/eeg;
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use strict 'refs';
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}
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my $sStatusSubKey = "STATUS";
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my $ohKey = undef;
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my $ohSubKey = undef;
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my $ohStatusSubKey = undef;
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my $ocValues;
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my $olValName;
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my $olValData;
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my $olSecDesc;
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my $opValData;
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my $osValName;
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my $sValueNames = [];
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my $sValueName;
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my $nStatus = undef;
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$DEBUG and print STDERR
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"COMPUTER: ".uc($sTargetcomputer)."\n";
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&RegConnectRegistry( $sTargetcomputer,
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$hRootKey,
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$ohKey )
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or die "Can't open $hRootKey: ", regLastError(),"\n";
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$DEBUG and print STDERR
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"Registry Key: ".$sRootKey."\\$sBootTestDataSubKey\n";
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$nStatus = &RegOpenKeyEx( $ohKey,
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$sBootTestDataSubKey ."\\". $sStatusSubKey,
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0,
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KEY_READ,
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$ohStatusSubKey );
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if (scalar(keys(%$volatileData))){
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$sValueName = (keys(%$volatileData))[0];
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$opValData = undef;
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if ($nStatus){
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&RegQueryValueEx( $ohStatusSubKey,
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$sValueName ,
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[],
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[],
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$opValData,
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[] );
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# error is ignored.
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$opValData = "(undef)" unless $opValData;
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&RegCloseKey($ohStatusSubKey);
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}
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if ($nStatus ){
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$DEBUG and print STDERR
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"\\\\$sTargetcomputer\\$sRootKey\\$sBootTestDataSubKey\\$sStatusSubKey\\$sValueName: ",$opValData, "\n";
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$FovWrite or return 1;
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}
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}
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RegCreateKeyEx($ohKey,
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$sBootTestDataSubKey,
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0,
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"",
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REG_OPTION_NON_VOLATILE,
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KEY_ALL_ACCESS,
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[],
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$ohSubKey,
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[]);
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RegCloseKey($ohSubKey);
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&RegOpenKeyEx( $ohKey,
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$sBootTestDataSubKey ,
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0,
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KEY_ALL_ACCESS,
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$ohSubKey )
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or die "Can't open $sBootTestDataSubKey: \n", regLastError(),"\n";
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&RegQueryInfoKey($ohSubKey,
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[],
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[],
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[],
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[],
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[],
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[],
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$ocValues,
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$olValName,
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$olValData,
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[],
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[]
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)
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or die "Can't query $sBootTestDataSubKey: ", regLastError(),"\n";
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$DEBUG and print STDERR
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$ocValues, " values found\n";
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foreach my $Data (keys(%$defaultData)){
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if ($FovWrite){
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# tsanders: existing values do not get overwritten.
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&RegDeleteValue($ohSubKey,
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$Data);
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$DEBUG and print STDERR
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"\t\tDeleting Default Data: \"$Data\"\n\t\t$^E\n";
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#ignore the "$^E" here.
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}
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&RegSetValueEx($ohSubKey,
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$Data,
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0,
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REG_SZ,
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$defaultData->{$Data},
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0
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)
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or die "Can't RegSetValueEx($Data,...$defaultData->{$Data}: ", regLastError(),"\n";
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}
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foreach my $nCnt (0..$ocValues-1){
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&RegEnumValue($ohSubKey,
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$nCnt,
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$osValName,
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0,
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[],
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[],
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$opValData,
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0 );
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push @$sValueNames, $osValName;
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}
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foreach $sValueName (@$sValueNames){
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&RegQueryValueEx( $ohSubKey,
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$sValueName ,
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[],
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[],
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$opValData,
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[] )
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or die "Can't read $sValueName: ", regLastError(),"\n";
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$DEBUG and print STDERR
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"$sValueName=$opValData\n";
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}
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RegCreateKeyEx($ohSubKey,
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$sStatusSubKey,
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0,
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"",
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REG_OPTION_VOLATILE,
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KEY_ALL_ACCESS,
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[],
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$ohStatusSubKey,
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[]);
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foreach my $Data (keys(%$volatileData)){
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&RegSetValueEx($ohStatusSubKey,
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$Data,
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0,
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REG_SZ,
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$volatileData->{$Data},
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0
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)
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or die "Can't RegSetValueEx($Data,...$volatileData->{$Data}: ",
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regLastError(),"\n";
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}
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map {defined($_) and RegCloseKey($_)} ($ohSubKey, $ohKey, $ohStatusSubKey);
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0;
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}
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sub OLEerrmsg($)
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{
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my $text = shift;
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errmsg( "$text (". Win32::OLE->LastError(). ")" );
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exit 1;
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}
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sub ScheduleTime{
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use Time::localtime;
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my $shiftTime = shift;
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my $tNow = time();
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$DEBUG and print STDERR
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"Current time: " , &localtime->hour(), ":", &localtime->min(), "\n";
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$tNow += $shiftTime;
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my @result = map {sprintf("%02d", $_)} (&localtime($tNow)-> hour(),
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&localtime($tNow)-> min(),
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&localtime($tNow)-> sec(),
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&localtime($tNow)-> mon() + 1,
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&localtime($tNow)-> mday(),
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&localtime($tNow)-> year() + 1900
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);
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$DEBUG and print STDERR
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"Schedule time: " , $result[0], ":",
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$result[1], ":",
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$result[2], " ",
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$result[3], "/",
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$result[4], "/",
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$result[5], "\n";
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\@result;
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}
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sub FormatDebugMsg{
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format STDERR =
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# field name field value
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@<<<<<<<<<<<<<<<<<<< @<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<
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$_[0] $_[1]
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.
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write STDERR;
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}
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# BackTick
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# sample usage: &BackTick("dir");
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# &BackTick(<<BLOCKBOUNDARY);
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# ...cmd code...
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# BLOCKBOUNDARY
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|
# passes block of code to the cmd interpreter.
|
|
# lines are concatenated
|
|
# comments thrown away
|
|
# useful stuff when the code is already
|
|
# developed and just needs to be inserted in place
|
|
# has limitations.
|
|
|
|
sub BackTick{
|
|
my ($cmd) = @_;
|
|
my $res = undef;
|
|
$DEBUG and
|
|
print STDERR join(" &", grep (!/^:|REM/i, ($cmd =~ /^(.+)/gm)));
|
|
$cmd = join(" &", grep (!/^:|REM/i, ($cmd =~ /^(.+)/gm)));
|
|
$res=qx ($cmd);
|
|
$res;
|
|
}
|
|
|
|
|
|
|
|
sub pPpPinfo{
|
|
|
|
my @infa = @_;
|
|
my $opBrws = Win32::OLE->new("WScript.Shell");
|
|
$opBrws->Popup(join("\n", @infa), $TIMEOUT ,
|
|
ref($opBrws) . "<- $0,". $VERSION,
|
|
0 + 64);
|
|
undef($opBrws);
|
|
Win32::OLE->FreeUnusedLibraries();
|
|
Win32::OLE->Uninitialize();
|
|
1;
|
|
}
|
|
|
|
1;
|
|
__END__
|
|
#-------------------------------------------------------------//
|
|
|
|
=head1 NAME
|
|
|
|
B<WMIFE> - Interface the query engine exposed by WMI
|
|
|
|
=head1 SYNOPSIS
|
|
|
|
use WMIFE;
|
|
|
|
&WMIFE::ExecQuery($ComputerName, $Query, [@Fields]);
|
|
&WMIFE::FormatDebugMsg($Comment, $Field);
|
|
|
|
=head1 DESCRIPTION
|
|
|
|
Generates the WQL (A.K.A. WMI SQL) query on the remote machine against
|
|
its namespace.
|
|
|
|
Sample objects that reside on the remote box $ComputerName are:
|
|
|
|
* local files [/.//ROOT/CIMV2/CIM_DATAFILE],
|
|
* running processes [/.//ROOT/CIMV2/WIN32_PROCESSES],
|
|
* registry entries [/.//ROOT/DEFAULT/STDREGPROV].
|
|
|
|
The WMI is functional even in the absence of logon sessions on $ComputerName.
|
|
|
|
=head1 METHODS
|
|
|
|
=head2 FormatDebugMsg($fieldName, $FieldValue)
|
|
|
|
Nice (?) formatting of the RDB like table field output (A.K.A. browse view):
|
|
|
|
Name perl.exe
|
|
Description perl.exe
|
|
ProcessID 2920
|
|
ParentProce 2692
|
|
ExecutableP d:\ntt\tools\perl\bin\perl.exe
|
|
...
|
|
|
|
|
|
=head2 ExecQuery($ComputerName, $Query, $DisplayFields)
|
|
|
|
Execute the WMI WQL query against the namespace of the remote machine
|
|
where
|
|
$ComputerName is the name of the machine which namespaces are about to be queried.
|
|
$Query the string representing the query, with the dollarsigned names placeholders for parameters
|
|
$DisplayFields reference to the field list to retusn the result
|
|
|
|
The return value is a reference to the like the RDB cursor.
|
|
(array of hashes where keys are described in $DisplayFields array).
|
|
If no data is returned from the query the returned value is a reference to undefined value.
|
|
|
|
=head2 ObjectExecMethod($MethodName, $ComputerName, $ParameterName, $ParameterValue, $User, $Password
|
|
|
|
Access the namespace on the remote box $ComputerName, and execute the method $MethodName of the class
|
|
$WbemObjClassName (currently only for Win32_Process). Supply the parameter(s) via name/value.
|
|
PErfurm the call under $User account, proving the password.
|
|
|
|
=head2 Sample calls:
|
|
|
|
|
|
=head2 To list files in the root directory of the logical disk labeled $Drive of the machine $Machine
|
|
|
|
$Results = &WMIFE::ExecQuery($Machine,
|
|
qq(SELECT * FROM cim_Datafile WHERE Drive="$Drive" AND Path="\\\\" "),
|
|
[qw(Drive Path Name)]);
|
|
|
|
|
|
=head2 To list logical disks of the machine $Machine
|
|
|
|
$Results = &WMIFE::ExecQuery($Machine,
|
|
qq(SELECT * FROM Win32_LogicalDisk WHERE DriveType=3),
|
|
[qw(Name Description)]);
|
|
|
|
=head2 To list the running processes
|
|
|
|
$Results = &WMIFE::ExecQuery($ComputerName,
|
|
qq(SELECT * FROM Win32_Process),
|
|
[qw(Name Description ProcessID ParentProcessId ExecutablePath )]);
|
|
|
|
|
|
|
|
|
|
=head2 To view installed software
|
|
|
|
$Results = &WMIFE::ExecQuery($ComputerName,
|
|
qq(SELECT * FROM Win32_Product),
|
|
[qw(Name Vendor Version)]);
|
|
|
|
|
|
=head2 To verify administrators group
|
|
|
|
$Results = &WMIFE::ExecQuery($ComputerName,
|
|
qq(SELECT * FROM Win32_GroupUser WHERE GroupComponent="Win32_Group.Domain=\\"$ComputerName\\",Name=\\"Administrators\\""),
|
|
[qw(GroupComponent)]);
|
|
|
|
|
|
=head2 To browse the process dependency hierarchy
|
|
$Results = &WMIFE::ExecQuery($ComputerName,
|
|
qq(SELECT * FROM CIM_ProcessExecutable),
|
|
[qw(Antecedent Dependent)]);
|
|
|
|
|
|
=head2 Query who is currently logged to somewhere.
|
|
|
|
|
|
$Results =
|
|
&WMIFE::ExecQuery($ENV{"COMPUTERNAME"}, # interactive session
|
|
qq(SELECT * FROM Win32_LogonSession WHERE LogonType=2),
|
|
[qw(LogonId LogonType)]);
|
|
|
|
foreach my $Result (@$Results){
|
|
|
|
$DEBUG and
|
|
map {&WMIFE::FormatDebugMsg($_, $Result->{$_})} keys (%$Result);
|
|
|
|
push @Ids, $Result->{"LogonId"};
|
|
|
|
}
|
|
|
|
|
|
$Results =
|
|
&WMIFE::ExecQuery($ENV{"COMPUTERNAME"}, # Difficult to build the WHERE condition.
|
|
qq(SELECT * FROM Win32_LoggedOnUser),
|
|
[qw(Antecedent Dependent)]);
|
|
my @Users = ();
|
|
my $User = undef;
|
|
my $LoggedUser = undef;
|
|
my @LoggedUsers = ();
|
|
|
|
# a little bit ugly.
|
|
|
|
foreach my $Id (grep {/\d+/} @Ids){
|
|
|
|
foreach my $Result (@$Results){
|
|
|
|
$User = $Result->{"Antecedent"};
|
|
if ($User =~ /\S/){
|
|
push @Users, $User;
|
|
}
|
|
|
|
if ((grep {/\b$Id\b/} $Result->{"Dependent"})){
|
|
$LoggedUser = pop @Users;
|
|
push @LoggedUsers, $LoggedUser;
|
|
$DEBUG and &WMIFE::FormatDebugMsg("win32_user", $LoggedUser);
|
|
$DEBUG and &WMIFE::FormatDebugMsg("win32_logonSession", $Id);
|
|
}
|
|
}
|
|
}
|
|
|
|
map {($user, $domain) = (/Win32_Account.Domain=\"(\w+)\",Name=\"(\w+)\"/);
|
|
$DEBUG and
|
|
print $user, "\t" , $domain,"\n"; } @LoggedUsers;
|
|
|
|
|
|
|
|
=head2 To list the $Result contents, the following framework may be used:
|
|
|
|
use WMIFE;
|
|
|
|
&WMIFE::ExecQuery($ENV{"COMPUTERNAME"},
|
|
qq(SELECT * FROM Win32_BootConfiguration),
|
|
[qw(Caption BootDirectory Description)]);
|
|
|
|
foreach my $Result (@$Results){
|
|
map {&WMIFE::FormatDebugMsg($_, $Result->{$_})} keys (%$Result);
|
|
}
|
|
|
|
|
|
|
|
=head2 To design the new query
|
|
|
|
please use the %WINDIR%\SYSTEM32\WBEM\wbemtest.exe vendor shell for accessing and
|
|
querying the WMI classes and then use the query string designed in that shell as an argument to the Perl qq()
|
|
[double backslashes]
|
|
|
|
Some queries may take long time to execute, before being sufficiently refined.
|
|
|
|
=head1 SEE ALSO
|
|
|
|
Whole bunch of tools interfacing WMI is in progress. Note that the Perl interface to WMI is not as powerful as
|
|
VBSCRIPT/JSCRIPT since there is no working examples for P/P (A.K.A. object sinking) and in general any
|
|
interface(s) other than SQL. the design of such sample code might prove to be complicated indeed.
|
|
|
|
|
|
=head2 supplyRegData($sTargetcomputer, $Lang, $BldNum, $Sku, $Drive, $BuildName, $Unattend, $FovWrite)
|
|
|
|
Write the data to the REGISTRY of the Boot test machine to start the execution
|
|
of test build installation.
|
|
|
|
The REGISTRY path where the data is stored is:
|
|
|
|
HKEY_LOCAL_MACHINE\SOFTWARE\MICROSOFT\BOOTTEST
|
|
|
|
The data includes the following fields:
|
|
|
|
-------------+-----------------------------------------------------------
|
|
$Lang | fields are used to find the test bits, in the form:
|
|
$BuildName | $Drive\$Lang\$BuildName
|
|
$BldNum | $BldNum, $Sku and $Lang are used to verify the
|
|
$Sku | REGISTRY data is actual for the build being installed.
|
|
$Drive | target drive for winnt32.exe
|
|
$Unattend | location of the answer file
|
|
|
|
The data is written by the postbuild on the build machine (NTDEV\NTBUILD),
|
|
and is later consumed from boot machine side by (NTDEV\<AUTOGENERATED> user).
|
|
The registry access across the network hence the use of HKEY_LOCAL_MACHINE.
|
|
The default REGISTRY key names are:
|
|
|
|
HKLM\SOFTWARE\MICROSOFT\BOOTTEST\_BldNum => $BldNum
|
|
HKLM\SOFTWARE\MICROSOFT\BOOTTEST\_BuildArch => $_BuildArch
|
|
HKLM\SOFTWARE\MICROSOFT\BOOTTEST\LANG => $Lang
|
|
HKLM\SOFTWARE\MICROSOFT\BOOTTEST\_BldSku => $Sku
|
|
HKLM\SOFTWARE\MICROSOFT\BOOTTEST\_BuildType => $_BuildType
|
|
HKLM\SOFTWARE\MICROSOFT\BOOTTEST\_BldDrive => $Drive
|
|
HKLM\SOFTWARE\MICROSOFT\BOOTTEST\Unattend => $Unattend
|
|
HKLM\SOFTWARE\MICROSOFT\BOOTTEST\_BldName => $BuildName
|
|
|
|
Running regedit.exe will show the following data:
|
|
|
|
+-----------------------------------------------
|
|
|Windows Registry Editor Version 5.00
|
|
|
|
|
|[HKEY_LOCAL_MACHINE\SOFTWARE\MICROSOFT\BOOTTEST]
|
|
|"_BuildArch"="x86"
|
|
|"_BuildType"="fre"
|
|
|"_BldSku"="SRV"
|
|
|"_BldName"="3615.x86fre.main.020306-1639"
|
|
|"_BldDrive"="D"
|
|
|"Unattend"="unattend.txt"
|
|
|"LANG"="GER"
|
|
|"_BldNum"="3615"
|
|
|
|
|
|[HKEY_LOCAL_MACHINE\SOFTWARE\MICROSOFT\BOOTTEST\Status]
|
|
|"COMPUTERNAME"="BLD_WNXF1"
|
|
+-----------------------------------------------
|
|
|
|
|
|
The Status subkey is to prevent concurrent execution of the more than one
|
|
test build install on the single test machine. The function will return
|
|
the data observed e.g.
|
|
\\sergueik4\HKEY_LOCAL_MACHINE\SOFTWARE\MICROSOFT\BOOTTEST\STATUS\COMPUTERNAME: SERGUEIK2
|
|
|
|
To ignore the presence of the Status set $FovWrite = 1.
|
|
Booting test machine (but not logging off of the user) will cause Status
|
|
key to disappear.
|
|
|
|
=head2 &ScheduleTime($Delay)
|
|
|
|
Calculate the time/date for execution of the scheduled tasks in
|
|
$Delay secs from NOW.
|
|
Example usage:
|
|
|
|
use WMIFE;
|
|
$WMIFE::DEBUG = 1;
|
|
my $DELAY1 = 1800; # delay in 1800 secs = 30 min
|
|
my $string = "/st %HH%:%MM%:%SS% /sd %mm%/%dd%/%yyyy%" ;
|
|
|
|
my $marker = ["HH" , "MM", "SS", "mm", "dd", "yyyy"];
|
|
# this is the way to set the date/time of scheduled task
|
|
my $ScheduleTime = &WMIFE::ScheduleTime($DELAY1);
|
|
print STDERR "\"$string\"\t";
|
|
map {$string =~ s/\%$marker->[$_]\%/$ScheduleTime->[$_]/g;}
|
|
(0..$#$marker);
|
|
print STDERR "\"$string\"\n";
|
|
|
|
|
|
Current time: 15:51
|
|
Schedule time: 16:21:32 03/25/2002
|
|
"/st %HH%:%MM%:%SS% /sd %mm%/%dd%/%yyyy%"
|
|
"/st 16:21:32 /sd 03/25/2002"
|
|
|
|
=head1 AUTHOR
|
|
Serguei Kouzmine [email protected]
|
|
|
|
=cut
|
|
1;
|