Perl extension for writing prpc clients
use RPC::pClient; $sock = IO::Socket::INET->new('PeerAddr' => 'joes.host.de', 'PeerPort' => 2570, 'Proto' => 'tcp'); $connection = new RPC::pClient('sock' => $sock, 'application' => 'My App', 'version' => '1.0', 'user' => 'joe', 'password' => 'hello!');
pRPC (Perl \s-1RPC\s0) is a package that simplifies the writing of Perl based client/server applications. RPC::pServer is the package used on the server side, and you guess what RPC::pClient is for. See RPC::pClient\|(3) for this part.
pRPC works by defining a set of of functions that may be executed by the client. For example, the server might offer a function \*(L"multiply\*(R" to the client. Now a function call
@result = $con->Call('multiply', $a, $b);
on the client will be mapped to a corresponding call
multiply($con, $data, $a, $b);
on the server. (See the funcTable description below for $data.) The function calls result will be returned to the client and stored in the array @result. Simple, eh? :-)
The client constructor. Returns a client object or an error string, thus you typically use it like this: $client = RPC::pClient->new ( ... ); if (!ref($client)) { print STDERR "Error while creating client object: $client\n"; } else { # Do real stuff ... }
calls a function on the server; the arguments are a function name, followed by function arguments. It returns the function results, if successfull. After executing Call() you should always check the error attribute: An empty string indicates success. Thus the equivalent to $c = Add($a, $b) # Use $c ... is $c = $client->Call("Add", $a, $b); if ($client->error) { # Do something in case of error ... } else { # Use $c ... }
Similar to and internally used by Call. Receives the same arguments, but the result is prepended by a status value: If this status value is \s-1TRUE\s0, then all went fine and the following result array is valid. Otherwise an error occurred and the error message follows immediately after the status code. Example: my($status, @result) = $client->CallInt("Add", $a, $b); if (!$status) { # Do something in case of error my $errmsg = shift @result || "Unknown error"; ... } else { ... }
This method can be used to get or set the cipher attribute, thus the encryption mode. If the method is passed an argument, the argument will be used as the new encryption mode. ('undef' for no encryption.) In either case the current encryption mode will be returned. Example: # Get the current encryption mode $mode = $server->Encrypt();
# Currently disable encryption $server->Encrypt(undef);
# Switch back to the old mode $server->Encrypt($mode);
Client attributes will typically be supplied with the \*(C`new\*(C' constructor.
An object of type IO::Socket, which should be connected to the server.
This attribute can be used to add encryption quite easily. pRPC is not bound to a certain encryption method, but to a block encryption \s-1API\s0. The attribute is an object supporting the methods blocksize, encrypt and decrypt. For example, the modules Crypt::DES and Crypt::IDEA support such an interface. Note that you can set or remove encryption on the fly (putting \*(C`undef\*(C' as attribute value will stop encryption), but you have to be sure, that both sides change the encryption mode. Do not modify this attribute directly, use the encrypt method instead! However, it is legal to pass the attribute to the constructor. Example: use Crypt::DES; $crypt = DES->new(pack("H*", "0123456789abcdef")); $client->Encrypt($crypt);
# or, to stop encryption $client->Encrypt(undef);
it is part of the pRPC authorization process, that the client must obeye a login procedure where he will pass an application name, a protocol version and optionally a user name and password. You do not care for that (except passing the right values, of course :-), this is done within the client constructor.
this attribute is the Storable object created for communication with the server. You may use this, for example, when you want to change the encryption mode with Storable::Encrypt(). See Storable\|(3).
#!/usr/local/bin/perl -T use 5.0004; # Yes, this really *is* required. use strict; # Always a good choice.
use IO::Socket(); use RPC::pClient;
# Constants my $MY_APPLICATION = "Test Application"; my $MY_VERSION = 1.0; my $MY_USER = "foo"; my $MY_PASSWORD = "bar";
# Connect to the server my $sock = IO::Socket::INET->new('PeerAddr' => 'joes.host.de', 'PeerPort' => 5000, 'Proto' => 'tcp'); if (!defined($sock)) { die "Cannot connect: $!\n"; }
# Login procedure my $client = RPC::pClient->new('sock' => $sock, 'application' => $MY_APPLICATION, 'version' => $MY_VERSION, 'user' => $MY_USER, 'password' => $MY_PASSWORD); if (!ref($client)) { die "Cannot create client: $client\n"; }
# Call multiply function my $a = $client->Call("multiply", 3, 4); if ($client->error) { die "An error occurred while multiplying: $a\n"; }
Jochen Wiedmann, [email protected]
pRPC::Server\|(3), Storable\|(3), Sys::Syslog\|(3)
For an example application, see DBD::pNET\|(3).