Win32::Daemon - Extension enabling Win32 Perl scripts to run as a true Win32 service.
use Win32::Daemon;
Win32::Daemon::StartService();
# ...process Perl code...
Win32::Daemon::StopService();
This extension enables a Win32 Perl script to act as a true Win32 service.
AcceptedControls()
CallbackTimer()
CreateService()
ConfigureService()
QueryServiceConfig()
DeleteService()
GetLastError()
GetSecurity()
GetServiceHandle()
HideService()
QueryLastMessage()
RegisterCallbacks()
RestoreService()
SetSecurity()
SetServiceBits()
ShowService()
StartService()
State()
StopService()
Timeout()
AcceptedControls( [$NewControls] )
This function queries (and optionally sets) the current list of controls that the service registers for.
By registering for a control the script is notifying the SCM that it is accepting the specified
control messages. For example, if you specify the SERVICE_ACCEPT_PAUSE_CONTINUE
control then
the SCM knows that the script will accept and process any attempt to pause and continue (resume
from paused state) the service.
Recognized accepted controls:
SERVICE_ACCEPT_STOP............The service accepts messages to stop.
SERVICE_ACCEPT_PAUSE_CONTINUE..The service accepts messages to pause
and continue.
SERVICE_ACCEPT_SHUTDOWN........The service accepts messages to
shutdown the system: when the OS is
shutting down the service will be
notified when it has accepted this
control.
Following controls are only recognized on Windows 2000 and higher:
SERVICE_ACCEPT_PARAMCHANGE.....The service accepts messages
notifying it of any parameter change
made to the service.
SERVICE_ACCEPT_NETBINDCHANGE...The service accepts messages
notifying it of any network binding
changes.
By default all of these controls are accepted. To change this pass in a value consisting of any of these values OR'ed together.
NOTE: You can query and set these controls at any time. However it is only supported to
set them before you start the service (calling the StartService()
function).
CallbackTimer( [ $NewTimerValue ] )
This function returns the value of the callback timer. The value is in milliseconds. This value indicates how often the "Running" callback subroutine will be called. Note that the calling of this routine will be blocked by any other callback.
If you pass in a value it will reset the timer to the specified frequency. Passing in a 0 will disable all "Running" callbacks. Passing in -1 will toggle the state between calling the "Running" callback subroutine and not calling it.
CreateService ( \%ServiceInfo )
This function creates a new service in the system configuration. The return is TRUE if the service was created, and FALSE otherwise. If an error occurred, call GetLastError to retrieve the actual error code.
NOTE: This function will fail if the script is not running with administrator privileges.
The hash describes the service to be created. The keys are:
name
The 'internal' service name; that is, the name of the registry key used to store the information on this service.
display
The 'display' service name; that is, the name displayed by the services control panel or MMC plugin.
path
The full path name to the executable. This should be the path to your Perl
executable, which will normally be the contents of $^X
.
NOTE: If you are using a compiled perl script (such as one
generated with PerlApp) as opposed to a text based perl script file then this
value must point to the actual compiled script's executable (eg. MyCompiledPerlService.exe
)
instead of ($^X
which usually points to perl.exe
). You can specify
any parameters to pass into the service using the parameters
key.
user
The username the service is to run under; this is optional.
password
The password to be used to log in the service; this is
technically optional, but needs to be specified if user
is.
parameters
The parameters to be passed to Perl; in other words, the command line you
would execute interactively, but without the leading ``perl ''. The parameters
key
value is appended to the path
key when starting the service.
Typically this will be something like:
MyPerlScript.pl /a /b /c
machine
The name of the machine to create the service on. Omission or an empty string specify the machine executing the call.
service_type
An integer representing the type of the service;
defaults to SERVICE_WIN32_OWN_PROCESS
.
start_type
An integer specifying how (or whether) the service is
to be started. The default is SERVICE_AUTO_START
.
error_control
An integer specifying how the Service Control Manager
is to react if the service fails to start. The default is
SERVICE_ERROR_IGNORE
, which in fact gets you an error log entry.
load_order
The name of the load order group of which this service
is a member. The default is membership in no group. See value
ServiceGroupOrder
in registry key
HKEY_LOCAL_MACHINE\System\CurrentControlSet\Control
for the names.
tag_id
An integer representing the startup order of the service within its load ordering group.
dependencies
A reference to the internal names of services and/or load ordering groups upon which this service depends. The default is no dependencies. Load order group names are prefixed with a '+' to distinguish them from service names.
description
A short text description of the service, displayed (at least) as flyover help by the MMC "services" plugin.
ConfigureService( \%ServiceInfo )
Modify a service created with CreateService
. Same arguments as
CreateService
.
If you specify a parameters
key you MUST specify a path
key.
DeleteService ($Machine, $ServiceName )
This function deletes an existing service. The return is TRUE if the service was deleted, and FALSE otherwise. If an error occurred, call GetLastError to retrieve the actual error code.
The arguments are the name of the machine (an empty string specifies
the machine executing the call), and the 'internal' service name (i.e.
the string passed in the name
element when the service was created).
A running service may not be deleted.
GetSecurity( $Machine, $ServiceName )
This will return a binary Security Descriptor (SD) that is associated with the specified service on the specified machine.
The SD is in self-relative format. It can be imported into a [Win32::Perms](https://metacpan.org/pod/Win32%3A%3APerms)
object using
the Win32::Perms
object's Import()
method.
RegisterCallbacks( $CodeRef | \%Hash )
This will register specified code subroutines that will be called when specified
events take place. For example if you register a subroutine with the
pause
event then this routine will be called when there is an attempt to pause the
service. Not all events must have callbacks registered.
If only a reference to a subroutine is passed in then it will be called for each and every event. You can pass in a hash containing particular key names (listed below) with code references.
Possible hash key names:
Key Name Event
------------- --------------------------------------
start....................The service is starting.
pause....................The service is entering a paused state.
continue.................The service is resuming from a paused
state.
stop.....................The service is stopping (see note below).
running..................The service is running (see note below).
interrogate..............The service is being queried for
information.
shutdown.................The system is being shut down.
preshutdown..............The system is about to begin shutting
down (Vista+ only).
param_change.............There has been a parameter change to
the system.
net_bind_add.............A new network binding has been made.
net_bind_remove..........A network binding has been removed.
net_bind_enable..........A network binding has been enabled.
net_bind_disable.........A network binding has been disabled.
device_event.............A device has generated some event.
hardware_profile_change..A change has been made to the system's
hardware profile.
power_event..............A power event has occured (eg change to
battery power).
session_change...........There has been a change in session.
user_defined.............A user defined event has been sent to
the service.
NOTES:
The Stop
state
When a service calls into the registered "stop" callback routine
the script should call the StopService()
function. This tells the service to terminate
and return back to the Perl script. This is the only way for the service to know that it
must stop.
The Running
state
Periodically the extension will call into a registered
"Running" subroutine. This allows the script to process data. This routine should be fast
and return quickly otherwise it will block other callback events from being run. The
frequency of calling the "Running" subroutine is dictated by the callback timer value
passed into StartService()
and any changes made to this value by calling into
CallbackTimer()
.
SetSecurity( $Machine, $ServiceName, $BinarySD | $Win32PermsObject )
This applies the specified Security Descriptor (SD) to the specified service on the specified machine. You must have appropriate permissions to call this function.
The specified SD can be either a binary SD (in self-relative or absolute format) or it can be a Win32::Perms object.
This only sets the DACL and SACL. The owner and group are not set even if they are specified in the SD.
StartService( [ \%Context, $CallbackTimer ] )
This starts a new service thread. The script should call this as soon as possible. When the service manager starts the service Perl is started and the script is loaded.
This function returns the thread handle of the service thread. If you call into this more than once it will only return the thread handle (it won't create another new service thread).
Callback Mode
If the script has already registered callback routines (using RegisterCallbacks()
) then
the call into StartService()
will not return until the service has stopped. However
callbacks will be made for each state change and callback timer timeout (refer to RegisterCallbacks()
).
StopService()
This will instruct the service to terminate.
Timeout( [$TimeoutValue] )
This function sets the new timeout value indicating how long a command will wait before Win32::Daemon tells the Service Control Manager that the command failed.
QueryLastMessage( [$fResetMessage] )
This function returns the last message that the service manager has sent to the service.
Pass in a non zero value to reset the pending message to SERVICE_CONTROL_NONE
. This way
your script can tell when two of the same messages come in.
Occasionally the service manager will send messages to the service. These messages
typically request the service to change from one state to another. It is important that
the Perl script responds to each message otherwise the service manager becomes confused
about the current state of the service. For example, if the service manager is submits
a SERVICE_PAUSE_PENDING
then it expects the Perl script to recognize the change to a paused
state and submit the new state by calling State( SERVICE_PAUSED )
.
You can update the service manager with the current status using the State()
function.
Possible values returned are:
Valid Service Control Messages
------------------------------
SERVICE_CONTROL_NONE............No message is pending.
SERVICE_CONTROL_STOP............The SCM is requesting the service to
stop. This results in State()
reporting SERVICE_STOP_PENDING.
SERVICE_CONTROL_PAUSE...........The SCM is requesting the service to
pause. This results in State()
reporting SERVICE_PAUSE_PENDING.
SERVICE_CONTROL_CONTINUE........The SCM is requesting the service to
continue from a paused state. This
results in State() reporting
SERVICE_CONTINUE_PENDING.
SERVICE_CONTROL_INTERROGATE.....The service manager is querying the
service's state
SERVICE_CONTROL_USER_DEFINED....This is a user defined control.
There are 127 of these beginning
with SERVICE_CONTROL_USER_DEFINED
as the base.
Windows 2000 specific messages:
SERVICE_CONTROL_SHUTDOWN........The machine is shutting down. This
indicates that the service has
roughly 20 seconds to clean up and
terminate. This time can be extended
by submitting SERVICE_STOP_PENDING
via the State() function.
SERVICE_CONTROL_PARAMCHANGE.....Service parameters have been
modified.
SERVICE_CONTROL_NETBINDADD......A network binding as been added.
SERVICE_CONTROL_NETBINDREMOVE...A network binding has been removed.
SERVICE_CONTROL_NETBINDENABLE...A network binding has been enabled.
SERVICE_CONTROL_NETBINDDISABLE..A network binding has been disabled.
SERVICE_CONTROL_DEVICEEVENT.....A device has generated some event.
SERVICE_CONTROL_HARDWAREPROFILECHANGE
A change has been made to the
system's hardware profile.
SERVICE_CONTROL_POWEREVENT......A power event has occured (eg change
to battery power).
SERVICE_CONTROL_SESSIONCHANGE...There has been a change in session.
Windows Vista+ specific messages:
SERVICE_CONTROL_PRESHUTDOWN ....The machine is about to shut down.
This provides the service much more
time to shutdown than
SERVICE_CONTROL_SHUTDOWN.
Note: When the system shuts down it will send a SERVICE_CONTROL_SHUTDOWN
message. The
Perl script has approximately 20 seconds to perform any shutdown activities before the
Control Manger stops the service. If more time is needed call the State()
function
passing in the SERVICE_STOP_PENDING
control message along with how many seconds it will
take to shutdown the service. This time value is only an estimate. When the service is
finally ready to stop it must submit the SERVICE_STOPPED
message as in:
if( SERVICE_CONTROL_SHUTDOWN == State() )
{
Win32::Daemon::State( SERVICE_STOP_PENDING, 30_000 );
#...process code...
Win32::Daemon::State( SERVICE_STOPPED );
}
State([$NewState [, $Hint ] || \%Hash ] )
This function returns the current state of the service. It can optionally update the status of the service as well. This is the last status reported to the service manager.
Optionally you can pass in a value that will be sent to the service manager. Optionally you can pass in a numeric value indicating the "hint". This is the number of milliseconds the SCM can expect to wait before the service responds to the request. For example, if your service script reports a hint of 30,000 milliseconds means that the SCM will have to wait for 30 seconds for the script to change the service's state before deciding that the script is non responsive.
If you are setting/updating the state instead of passing in the state and wait hint you could pass in a hash reference. This allows you to specify the state, wait hint and error state. You can use the following keys:
Hash Key
--------
state..........Valid service state (see table below).
waithint.......A wait hint explained above. This is in milliseconds.
error..........Any 32 bit error code. This is what will be reported
if an application queries the error state of the
service. It is also what is reported if a call to
start the services fails.
To reset an error state pass in NO_ERROR.
The only invalid error value is 0xFFFFFFFF.
Example of passing in an error:
Win32::Daemon::State( { error => 0x12345678 } );
# Later to reset the error:
Win32::Daemon::State( { error => NO_ERROR } );
Possible values returned (or submitted):
Valid Service States
--------------------
SERVICE_NOT_READY..........The SCM has not yet been initialized. If
the SCM is slow or busy then this value
will result from a call to State().
If you get this value, just keep calling
State() until you get
SERVICE_START_PENDING.
SERVICE_STOPPED............The service is stopped.
SERVICE_RUNNING............The service is running.
SERVICE_PAUSED.............The service is paused.
SERVICE_START_PENDING......The service manager is attempting to
start the service.
SERVICE_STOP_PENDING.......The service manager is attempting to
stop the service.
SERVICE_CONTINUE_PENDING...The service manager is attempting to
resume the service.
SERVICE_PAUSE_PENDING......The service manager is attempting to
pause the service.
Callbacks were introduced in version v20030617.
The Win32::Daemon supports the concept of event callbacks. This allows a script to register a particular subroutine with a particular event. When the event occurs it will call the Perl subroutine registered with that event. This can make it very simple to write scripts.
You register a callback subroutine by calling into the RegisterCallbacks()
function.
You can pass in a code reference or a hash. A code reference will register the specified
subroutine with all events. A hash allows you to pick which events you want to
register for which subroutines. You do not have to register all events. If an event is
not registered for a subroutine then the script will not be notified when the event
occurs.
At a minimum a script should register for the 'Start' and 'Running' states. This enables the script to actually start and to periodically process data.
When an event callback occurs the subroutine should change the state accordingly by
passing in the new state into State()
. For example the 'Start' callback would call
State( SERVICE_RUNNING )
to inform the service that it is officially running. Another
example is the 'Pause' state should call State( SERVICE_PAUSED )
to inform the service
that it is officially paused.
Once callback subroutines are registered the script enters the service mode by calling
StartService()
. This will being the process of calling the event callback routines.
Note that when callback routines are registered the StartService()
function will not
return until a callback routine calls StopService()
(typically the 'Stop' event callback
would call StopService()
.
When calling into StartService()
you can pass in a hash reference. This reference is known as
a "context" hash. For every callback the hash will be passed into the callback routine. This enables
a script to query and set data in the hash--essentially letting you pass information across to
different callback events. This context hash is not required.
When a callback is made it always passes two parameters in: $State and $Context. $State is simply
the state change that caused the callback. This represents the event that took place (e.g. SERVICE_PAUSE_PENDING
,
SERVICE_START_PENDING
, etc). The $Context is a reference to the context hash that was passed into
the StartService()
function.
A typical callback routine should look similar to:
sub Callback_Start
{
my( $Event, $Context ) = @_;
$Context->{last_event} = $Event;
# ...do some work here...
# Tell the service manager that we have now
# entered the running state.
Win32::Daemon::State( SERVICE_RUNNING );
return();
}
Refer to Example 4: Using a single callback
and Example 5: Using different callback routines
for an example of using callbacks.
Many users like to compile their perl scripts into executable programs. This way it is much easier to copy them around from machine to machine since all necessary files, packages and binaries are compiled into one .exe file. These compiled perl scripts are compatible with Win32::Deamon as long as you install it correctly.
If you are going to compile your Win32::Daemon based perl script into an .exe there is nothing unique you need to do
to your Win32::Daemon code with one single exception of the call into Win32::Daemon::CreateService()
. When passing in
the 'path' and 'parameters' values into CreateService()
observe the following simple rules:
If using a Perl script
path........The full path to the Perl interpeter ($^X).
This is typically:
c:\perl\bin\perl.exe
parameters..This value MUST start with the full path to the perl
script file and append any parameters
that you want passed into the service. For
Example:
c:\scripts\myPerlService.pl -param1 -param2 "c:\\Param2Path"
If using a compiled Perl application
path........The full path to the compiled Perl application.
For example:
c:\compiledscripts\myPerlService.exe
parameters..This value is just the list of parameters
that you want passed into the service. For
Example:
-param1 -param2 "c:\\Param2Path"
Refer to "Example 3: Install the service" for an example.
This example service will delete all .tmp files from the c:\temp directory every time it starts. It will immediately terminate.
use Win32::Daemon;
# Tell the OS to start processing the service...
Win32::Daemon::StartService();
# Wait until the service manager is ready for us to continue...
while( SERVICE_START_PENDING != Win32::Daemon::State() )
{
sleep( 1 );
}
# Now let the service manager know that we are running...
Win32::Daemon::State( SERVICE_RUNNING );
# Okay, go ahead and process stuff...
unlink( glob( "c:\\temp\\*.tmp" ) );
# Tell the OS that the service is terminating...
Win32::Daemon::StopService();
This particular example does not really illustrate the capabilities of a Perl based service.
# This style of Win32::Daemon use is obsolete. It still works but the
# callback model is more efficient and easier to use. Refer to examples 4
#and 5.
use Win32;
use Win32::Daemon;
$SERVICE_SLEEP_TIME = 20; # 20 milliseconds
$PrevState = SERVICE_START_PENDING;
Win32::Daemon::StartService();
while( SERVICE_STOPPED != ( $State = Win32::Daemon::State() ) )
{
if( SERVICE_START_PENDING == $State )
{
# Initialization code
Win32::Daemon::State( SERVICE_RUNNING );
$PrevState = SERVICE_RUNNING;
}
elsif( SERVICE_STOP_PENDING == $State )
{
Win32::Daemon::State( SERVICE_STOPPED );
}
elsif( SERVICE_PAUSE_PENDING == $State )
{
# "Pausing...";
Win32::Daemon::State( SERVICE_PAUSED );
$PrevState = SERVICE_PAUSED;
next;
}
elsif( SERVICE_CONTINUE_PENDING == $State )
{
# "Resuming...";
Win32::Daemon::State( SERVICE_RUNNING );
$PrevState = SERVICE_RUNNING;
next;
}
elsif( SERVICE_STOP_PENDING == $State )
{
# "Stopping...";
Win32::Daemon::State( SERVICE_STOPPED );
$PrevState = SERVICE_STOPPED;
next;
}
elsif( SERVICE_RUNNING == $State )
{
# The service is running as normal...
# ...add the main code here...
}
else
{
# Got an unhandled control message. Set the state to
# whatever the previous state was.
Win32::Daemon::State( $PrevState );
}
# Check for any outstanding commands. Pass in a non zero value
# and it resets the Last Message to SERVICE_CONTROL_NONE.
if( SERVICE_CONTROL_NONE != ( my $Message = Win32::Daemon::QueryLastMessage( 1 ) ) )
{
if( SERVICE_CONTROL_INTERROGATE == $Message )
{
# Got here if the Service Control Manager is requesting
# the current state of the service. This can happen for
# a variety of reasons. Report the last state we set.
Win32::Daemon::State( $PrevState );
}
elsif( SERVICE_CONTROL_SHUTDOWN == $Message )
{
# Yikes! The system is shutting down. We had better clean up
# and stop.
# Tell the SCM that we are preparing to shutdown and that we
# expect it to take 25 seconds (so don't terminate us for at
# least 25 seconds)...
Win32::Daemon::State( SERVICE_STOP_PENDING, 25000 );
}
}
# Snooze for awhile so we don't suck up cpu time...
Win32::Sleep( $SERVICE_SLEEP_TIME );
}
# We are done so close down...
Win32::Daemon::StopService();
For the 'path' key the $^X equates to the full path of the perl executable. Since no user is specified it defaults to the LocalSystem.
use Win32::Daemon;
# If using a compiled perl script (eg. myPerlService.exe) then
# $ServicePath must be the path to the .exe as in:
# $ServicePath = 'c:\CompiledPerlScripts\myPerlService.exe';
# Otherwise it must point to the Perl interpreter (perl.exe) which
# is conviently provided by the $^X variable...
my $ServicePath = $^X;
# If using a compiled perl script then $ServiceParams
# must be the parameters to pass into your Perl service as in:
# $ServiceParams = '-param1 -param2 "c:\\Param2Path"';
# OTHERWISE
# it MUST point to the perl script file that is the service such as:
my $ServiceParams = 'c:\perl\scripts\myPerlService.pl -param1 -param2 "c:\\Param2Path"';
my %service_info = (
machine => '',
name => 'PerlTest',
display => 'Oh my GOD, Perl is a service!',
path => $ServicePath,
user => '',
pwd => '',
description => 'Some text description of this service',
parameters => $ServiceParams
);
if( Win32::Daemon::CreateService( \%service_info ) )
{
print "Successfully added.\n";
}
else
{
print "Failed to add service: " . Win32::FormatMessage( Win32::Daemon::GetLastError() ) . "\n";
}
In this example only one subroutine is used for all callbacks. The CallbackRoutine() subroutine will receive all event callbacks. Basically this callback routine will have to do essentially the same thing that the main while loop in "Example 2: Typical skeleton code" does.
use Win32::Daemon;
Win32::Daemon::RegisterCallbacks( \&CallbackRoutine );
%Context = (
count => 0,
start_time => time(),
);
# Start the service passing in a context and
# indicating to callback using the "Running" event
# every 2000 milliseconds (2 seconds).
Win32::Daemon::StartService( \%Context, 2000 );
sub CallbackRoutine
{
my( $Event, $Context ) = @_;
$Context->{last_event} = $Event;
if( SERVICE_RUNNING == $Event )
{
# ... process your main stuff here...
# ... note that here there is no need to
# change the state
}
elsif( SERVICE_START_PENDING == $Event )
{
# Initialization code
# ...do whatever you need to do to start...
$Context->{last_state} = SERVICE_RUNNING;
Win32::Daemon::State( SERVICE_RUNNING );
}
elsif( SERVICE_PAUSE_PENDING == $Event )
{
$Context->{last_state} = SERVICE_PAUSED;
Win32::Daemon::State( SERVICE_PAUSED );
}
elsif( SERVICE_CONTINUE_PENDING == $Event )
{
$Context->{last_state} = SERVICE_RUNNING;
Win32::Daemon::State( SERVICE_RUNNING );
}
elsif( SERVICE_STOP_PENDING == $Event )
{
$Context->{last_state} = SERVICE_STOPPED;
Win32::Daemon::State( SERVICE_STOPPED );
# We need to notify the Daemon that we want to stop callbacks
# and the service.
Win32::Daemon::StopService();
}
else
{
# Take care of unhandled states by setting the State()
# to whatever the last state was we set...
Win32::Daemon::State( $Context->{last_state} );
}
return();
}
use Win32::Daemon;
Win32::Daemon::RegisterCallbacks( {
start => \&Callback_Start,
running => \&Callback_Running,
stop => \&Callback_Stop,
pause => \&Callback_Pause,
continue => \&Callback_Continue,
} );
my %Context = (
last_state => SERVICE_STOPPED,
start_time => time(),
);
# Start the service passing in a context and
# indicating to callback using the "Running" event
# every 2000 milliseconds (2 seconds).
Win32::Daemon::StartService( \%Context, 2000 );
sub Callback_Running
{
my( $Event, $Context ) = @_;
# Note that here you want to check that the state
# is indeed SERVICE_RUNNING. Even though the Running
# callback is called it could have done so before
# calling the "Start" callback.
if( SERVICE_RUNNING == Win32::Daemon::State() )
{
# ... process your main stuff here...
# ... note that here there is no need to
# change the state
}
}
sub Callback_Start
{
my( $Event, $Context ) = @_;
# Initialization code
# ...do whatever you need to do to start...
$Context->{last_state} = SERVICE_RUNNING;
Win32::Daemon::State( SERVICE_RUNNING );
}
sub Callback_Pause
{
my( $Event, $Context ) = @_;
$Context->{last_state} = SERVICE_PAUSED;
Win32::Daemon::State( SERVICE_PAUSED );
}
sub Callback_Continue
{
my( $Event, $Context ) = @_;
$Context->{last_state} = SERVICE_RUNNING;
Win32::Daemon::State( SERVICE_RUNNING );
}
sub Callback_Stop
{
my( $Event, $Context ) = @_;
$Context->{last_state} = SERVICE_STOPPED;
Win32::Daemon::State( SERVICE_STOPPED );
# We need to notify the Daemon that we want to stop callbacks and the service.
Win32::Daemon::StopService();
}
Starting with build 20080321 the "running" callback is deprecated and replaced with the "timer" callback. Scripts should no longer test for a state of SERVICE_RUNNING but instead check for the state of SERVICE_CONTROL_TIMER to indicate whether or not a callback has occurred due to a timer.
If a script...
Legacy scripts which call Win32::Daemon::Callback() passing in only one catchall subroutine reference will be most impacted as they will expect.
Dave Roth, Roth Consulting, http://www.roth.net/
Haiko Strotbek [email protected]
Jan Dubois [email protected]
Marc Pijnappels [email protected]
Olivier Mengué [email protected]
Dave has retired from active development of this module. It is now being maintained as part of the libwin32 project [email protected].
Copyright © 1998 - 2011 the Win32::Daemon "AUTHOR" and "CONTRIBUTORS" as listed above.
This library is free software and may be distributed under the same terms as perl itself.