Chipcard::PCSC - Smart card reader interface library
my $hContext = new Chipcard::PCSC();
@ReadersList = $hContext->ListReaders ();
$hContext->GetStatusChange(\@readers_states, $timeout);
$apdu = Chipcard::PCSC::array_to_ascii(@apdu);
@apdu = Chipcard::PCSC::ascii_to_array($apdu);
$hContext = undef;
The PCSC module implements the Chipcard::PCSC class. Objects of this class are used to communicate with the PCSC-lite daemon (see pcscd(1) for more information).
PC/SC represents an abstraction layer to smart card readers. It provides a communication layer with a wide variety of smart card readers through a standardized API.
A PCSC object can be used to communicate with more than one reader through Chipcard::PCSC::Card objects. Please read Chipcard::PCSC::Card for extended information on how to talk to a smart card reader.
A PCSC object uses the following property: $pcsc_object->{hContext}
the context returned by the pcsc library
The following methods can be used to construct a PCSC object:
$hContext = new Chipcard::PCSC($scope, $remote_host);
$scope
is the scope of the connection to the PC/SC daemon. It can be any of the following:
$Chipcard::PCSC::SCARD_SCOPE_USER (not used by PCSClite);
$Chipcard::PCSC::SCARD_SCOPE_TERMINAL (not used by PCSClite);
$Chipcard::PCSC::SCARD_SCOPE_SYSTEM Services on the local machine;
$Chipcard::PCSC::SCARD_SCOPE_GLOBAL Services on a remote host.
$remote_host
is the host name of the remote machine to contact. It is only used when $scope
is equal to $Chipcard::PCSC::SCARD_SCOPE_GLOBAL
. A null value means localhost.
$hContext = new Chipcard::PCSC($scope);
This method is equivalent to:
$hContext = new Chipcard::PCSC($scope, 0);
$hContext = new Chipcard::PCSC();
This method is equivalent to:
$hContext = new Chipcard::PCSC($Chipcard::PCSC::SCARD_SCOPE_SYSTEM, 0);
Chipcard::PCSC constructors return an undef
value when the object can not be created. $Chipcard::PCSC::errno
can be used to get more information about the error. (See section "ERROR HANDLING" below for more information)
Here is a list of all the methods that can be used with a PCSC object.
hContext->ListReaders( $group );
This method returns the available readers in the given $group
. If omitted, $group
defaults to a null value meaning "all groups". Please note that as of this writing, $group
can safely be omitted as it is not used by PCSClite.
The return value upon successful completion is an array of strings: one string by available reader. If an error occurred, the undef value is returned and $Chipcard::PCSC::errno
should be used to get more information about the error. (See section "ERROR HANDLING" below for more information). The following example describes the use of ListReaders:
$hContext = new Chipcard::PCSC();
die ("Can't create the PCSC object: $Chipcard::PCSC::errno\n")
unless (defined $hContext);
@ReadersList = $hContext->ListReaders ();
die ("Can't get readers' list: $Chipcard::PCSC::errno\n")
unless (defined($ReadersList[0]));
$, = "\n ";
print @ReadersList . "\n";
$hContext->GetStatusChange(\@readers_states, $timeout);
The method $hContext->GetStatusChange(\@readers_states, $timeout)
uses a reference to a list of hashes.
# create the list or readers to watch
map { push @readers_states, ({'reader_name'=>"$_"}) } @ReadersList;
@StatusResult = $hContext->GetStatusChange(\@readers_states);
The keys of the hash are: 'reader_name', 'current_state', 'event_state' and 'ATR'.
To detect a status change you have to first get the status and then copy the 'event_state' in the 'current_state'. The method will return when both states are different or a timeout occurs.
@StatusResult = $hContext->GetStatusChange(\@readers_states);
foreach $reader (@readers_states)
{
$reader->{current_state} = $reader->{event_state};
}
@StatusResult = $hContext->GetStatusChange(\@readers_states);
$hContext->GetStatusChange(\@readers_states);
This method is equivalent to:
$hContext->GetStatusChange(\@readers_states, 0xFFFFFFFF);
The timeout is set to infinite.
$apdu_ref = Chipcard::PCSC::ascii_to_array($apdu);
The method Chipcard::PCSC::Card::Transmit()
uses references to arrays as in and out parameters. The Chipcard::PCSC::ascii_to_array()
is used to transform an APDU in ASCII format to a reference to an array in the good format.
Example:
$SendData = Chipcard::PCSC::ascii_to_array("00 A4 01 00 02 01 00");
$apdu = Chipcard::PCSC::array_to_ascii($apdu_ref);
This method is used to convert the result of a Chipcard::PCSC::Card::Transmit()
into ASCII format.
Example:
$RecvData = $hCard->Transmit($SendData);
print Chipcard::PCSC::array_to_ascii($RecvData);
All functions from PCSC objects save the return value in a global variable called $Chipcard::PCSC::errno
. This variable therefore holds the latest status of PCSC.
It is a double-typed magical variable that behaves just like $!
. This means that it both holds a numerical value describing the error and the corresponding string. The numerical value may change from a system to another as it depends on the PCSC library...
Here is a small example of how to use it:
$hContext = new Chipcard::PCSC();
die ("Can't create the PCSC object: $Chipcard::PCSC::errno\n")
unless (defined $hContext);
In case the last call was successful, $Chipcard::PCSC::errno
contains the SCARD_S_SUCCESS
status. Here is a list of all possible error codes. They are defined as read-only variables with in the PCSC module:
$Chipcard::PCSC::SCARD_S_SUCCESS
$Chipcard::PCSC::SCARD_E_CANCELLED
$Chipcard::PCSC::SCARD_E_CANT_DISPOSE
$Chipcard::PCSC::SCARD_E_CARD_UNSUPPORTED
$Chipcard::PCSC::SCARD_E_DUPLICATE_READER
$Chipcard::PCSC::SCARD_E_INSUFFICIENT_BUFFER
$Chipcard::PCSC::SCARD_E_INVALID_ATR
$Chipcard::PCSC::SCARD_E_INVALID_HANDLE
$Chipcard::PCSC::SCARD_E_INVALID_PARAMETER
$Chipcard::PCSC::SCARD_E_INVALID_TARGET
$Chipcard::PCSC::SCARD_E_INVALID_VALUE
$Chipcard::PCSC::SCARD_E_NO_MEMORY
$Chipcard::PCSC::SCARD_E_NO_SERVICE
$Chipcard::PCSC::SCARD_E_NO_SMARTCARD
$Chipcard::PCSC::SCARD_E_NOT_READY
$Chipcard::PCSC::SCARD_E_NOT_TRANSACTED
$Chipcard::PCSC::SCARD_E_PCI_TOO_SMALL
$Chipcard::PCSC::SCARD_E_PROTO_MISMATCH
$Chipcard::PCSC::SCARD_E_READER_UNAVAILABLE
$Chipcard::PCSC::SCARD_E_READER_UNSUPPORTED
$Chipcard::PCSC::SCARD_E_SERVICE_STOPPED
$Chipcard::PCSC::SCARD_E_SHARING_VIOLATION
$Chipcard::PCSC::SCARD_E_SYSTEM_CANCELLED
$Chipcard::PCSC::SCARD_E_TIMEOUT
$Chipcard::PCSC::SCARD_E_UNKNOWN_CARD
$Chipcard::PCSC::SCARD_E_UNKNOWN_READER
$Chipcard::PCSC::SCARD_E_UNSUPPORTED_FEATURE
$Chipcard::PCSC::SCARD_W_REMOVED_CARD
$Chipcard::PCSC::SCARD_W_RESET_CARD
$Chipcard::PCSC::SCARD_W_SECURITY_VIOLATION
$Chipcard::PCSC::SCARD_W_UNPOWERED_CARD
$Chipcard::PCSC::SCARD_W_UNRESPONSIVE_CARD
$Chipcard::PCSC::SCARD_W_UNSUPPORTED_CARD
PCSClite users will also be able to use the following (PCSClite specific) codes:
$Chipcard::PCSC::SCARD_INSERTED
$Chipcard::PCSC::SCARD_REMOVED
$Chipcard::PCSC::SCARD_RESET
$Chipcard::PCSC::SCARD_SCOPE_GLOBAL
In addition, the wrapper defines:
$Chipcard::PCSC::SCARD_P_ALREADY_CONNECTED
$Chipcard::PCSC::SCARD_P_NOT_CONNECTED
pcscd(1) manpage has useful information about PC/SC lite. Chipcard::PCSC::Card manpage gives information about how to communicate with a reader and the smart card inside it.
(C) Lionel VICTOR & Ludovic ROUSSEAU, 2001-2004, GNU GPL (C) Ludovic ROUSSEAU, 2005-2008, GNU GPL
Lionel VICTOR <[email protected]>
<[email protected]>
Ludovic ROUSSEAU <[email protected]>