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1.1 |
=head1 Message Passing for the non-blocked Mind |
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=head2 Introduction and Terminology |
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This is a Tutorial about how to get the swing of the new L<AnyEvent::MP> |
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module. Which allows us to transparently pass messages to our own process and |
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to other process on other or the same host. |
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What kind of messages? Well, basically a message here means a list of Perl |
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strings, numbers, hashes and arrays, mostly everything that can be expressed as |
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L<JSON> string. |
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And next you might ask: between which entities are those messages "passed"? |
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Basically between C<nodes>, which are basically your applications (as in |
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processes) that use L<AnyEvent::MP> that run either on the same or different |
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hosts. |
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In this Tutorial I'll show you how to write a simple chat server based on |
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L<AnyEvent::MP>. |
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=head2 The Chat Client |
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Ok, lets start by implementing the "frontend" of the client. We will delay the |
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explanation and the code of the server until we finished the client, as the |
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most complex things actually happen in the client. |
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We will use L<AnyEvent::Handle> to do non-blocking IO read on standard input: |
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#!perl |
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use AnyEvent; |
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use AnyEvent::Handle; |
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sub send_message { |
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die "This is where we will send the messages to the server" |
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. "in the next step of this tutorial.\n" |
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} |
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# make an AnyEvent condition variable for the 'quit' condition |
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# (when we want to exit the client). |
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my $quit_cv = AnyEvent->condvar; |
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my $stdin_hdl = AnyEvent::Handle->new ( |
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fh => \*STDIN, |
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on_read => sub { |
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my ($hdl) = @_; |
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$hdl->push_read (line => sub { |
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my ($hdl, $line) = @_; |
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if ($line =~ /^\/quit/) { # /quit will end the client |
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$quit_cv->send; |
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} else { |
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send_message ($line); |
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} |
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}); |
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} |
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); |
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$quit_cv->recv; |
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This is now a very basic client. Explaining explicitly what L<AnyEvent::Handle> |
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does or what a I<condvar> is all about is out of scope of this document, please |
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elmex |
1.3 |
consult L<AnyEvent::Intro> or the manpages for L<AnyEvent> and |
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L<AnyEvent::Handle>. |
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elmex |
1.1 |
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=head2 First Step Into Messaging |
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Now we take a look at L<AnyEvent::MP>. We need to know what to do in |
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C<send_message>. This is an example how it might look like: |
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... # the use lines from the above snippet |
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use AnyEvent::MP; |
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sub send_message { |
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my ($msg) = @_; |
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snd $server_port, message => $msg; |
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} |
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... # the rest of the above script |
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The C<snd> function is exported by L<AnyEvent::MP>, it stands for 'send a |
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message'. The first argument is the I<port> (a I<port> is something that can |
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receive messages) of the server which will receive the message . How we get it |
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will be explained in the next step. The next arguments of C<snd> are |
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C<'message'> and C<$msg> are the first two elements of the I<message> (a |
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I<message> in L<AnyEvent::MP> is a be a simple list of values, which can be |
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sent to I<ports>). |
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Thats all fine so far, but how do we get the C<$server_port>? Well, we will |
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need to get the unique I<port id> of the server's port where he wants to |
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receive all the incoming chat messages. A I<port id> is unfortunately a very |
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unique string, which we are unable to know in advance. But L<AnyEvent::MP> |
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supports the concept of 'well known ports', which is basically a port on the |
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server side registered under a well known name. For example, the server has a |
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port for receiving chat messages with a unique I<port id> and registered it |
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under the name C<"chatter">. |
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As I<messages> can only be sent to a I<port id> and not just to a name we have |
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to ask the server I<node> what I<port id> has the well known port with the |
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name C<"chatter"> |
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Another new term, what is a I<node>: The messaging network that can be created with |
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L<AnyEvent::MP> consists of I<nodes>. A I<node> handles all the connection and |
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low level message sending logic for it's application. The application in this |
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case is the server. Also every client has/is a I<node>. |
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=head2 Getting The Chatter Port |
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Ok, lots of talk, now some code. Now we will actually get the C<$server_port> |
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from the backend: |
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... |
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use AnyEvent::MP; |
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my $resolved_cv = AnyEvent->condvar; |
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my $client_port = create_port; |
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my $server_node = "localhost:1299#"; |
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snd $server_node, wkp => "chatter", "$client_port", "resolved"; |
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my $server_port; |
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# setup a receiver callback for the 'resolved' message: |
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$client_port->rcv (resolved => sub { |
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my ($client_port, $type, $chatter_port_id) = @_; |
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print "Resolved the server port 'chatter' to $chatter_port_id\n"; |
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$server_port = $chatter_port_id; |
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$resolved_cv->send; |
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1 |
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}); |
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# lets block the client until we resolved the server port. |
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$resolved_cv->recv; |
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# now setup another receiver callback for the chat messages: |
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$client_port->rcv (message => sub { |
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my ($client_port, $type, $msg) = @_; |
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print "chat> $msg\n"; |
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0 |
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}); |
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# send the server a 'join' message: |
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snd $server_port, join => "$client_port"; |
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sub send_message { ... |
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Now that was a lot of new stuff. In order to ask the server and receive an |
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answer we need to have a I<port> where we can receive the answer. |
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This is what C<create_port> will do for us, it just creates a new local |
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port and returns us an object (that will btw. stringify to the I<port id>), |
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that we can use to receive messages. |
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Next thing is the C<$server_node>. In order to refer to another node we need |
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some kind of string to reference it. The I<noderef> is basically a comma |
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seperated list of C<host:port> pairs. We assume in this tutorial that the |
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server runs on your localhost at port 1299, this gives us the noderef |
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C<"localhost:1299">. |
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Now you might ask what the C<"#"> at the end in C<$server_node> the above |
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example is about. Well, what I didn't tell you yet is that each I<node> has a |
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default I<port> to receive messages. The default port is the empty string |
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C<"">. The I<default port> of a I<node> also provides some special services for |
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us, for example resolving a well known port to a I<port id>. |
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Now to this line: |
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snd $server_node, wkp => "chatter", "$client_port", "resolved"; |
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We send a message with first element being C<'wkp'> (standing for 'well known |
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port'). Then the well known port name that we want to resolve to a I<port id>: |
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C<"chatter">. And in order for the server node to be able to send us back the |
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resolved I<port id> we have to tell it where to send the result message: The |
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result message will have as it's first argument the string C<"resolved"> and |
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will be sent to C<"$client_port"> (the I<port id> of our own just created |
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port). |
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Next this is this: |
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$client_port->rcv (resolved => sub { |
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my ($client_port, $type, $chatter_port_id) = @_; |
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... |
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1 |
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}); |
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This sets up a receiver on our own port for the result message with the first |
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argument being the string C<"resolved">. Receivers can match the contents of |
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the messages before actually 'sending' it to the given callback. |
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B<Please note> that the given callback has to return either a true or a false |
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value for indicating whether it is B<done> (true value) or still wants to |
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B<continue> (false value) receiving messages. |
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In this case we tell the C<$client_port> to look into the received messages and |
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look for the string C<"resolved"> in the first element of the message. If it is |
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found, the given callback will be called with the C<$client_port> as first |
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argument, and the message as the remaining arguments. |
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We name the first element of the message C<$type> in this case. It's a common |
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idiom to code the 'type' of a message into it's first element, this allows for |
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simple matching. |
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The result message will contain the I<port id> of the well known port C<"chatter"> |
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as next element, and will be put in C<$chatter_port_id>. |
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Next we just assign C<$server_port> and return a 1 (a true value) |
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from the callback. It indicates that we are done and don't want to receive |
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further C<'resolved'> messages with this callback. |
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Now we continue to the rest of the client by calling C<send> on |
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C<$resolved_cv>. |
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First new step after this is setting up the chat message receiver callback. |
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$client_port->rcv (message => sub { |
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my ($client_port, $type, $msg) = @_; |
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print "chat> $msg\n"; |
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0 |
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}); |
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We assume that all messages that are broadcasted to all clients by the server |
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will contain as first element the string C<"message"> and the actual message as |
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second element. The callback returns a false value this time, to indicate that |
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it wants to continue receiving messages. |
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Last but not least we actually tell the server to send us |
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the new chat messages from other clients. We do so by sending the |
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message type C<'join'> followed by our own I<port id>. |
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# send the server a 'join' message: |
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snd $server_port, join => "$client_port"; |
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Then the server knows where to send all the new messages to. |
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=head2 The Finished Client |
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This is the complete client script: |
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#!perl |
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use AnyEvent; |
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use AnyEvent::Handle; |
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use AnyEvent::MP; |
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my $resolved_cv = AnyEvent->condvar; |
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my $client_port = create_port; |
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my $server_node = "localhost:1299#"; |
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snd $server_node, wkp => "chatter", "$client_port", "resolved"; |
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my $server_port; |
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# setup a receiver callback for the 'resolved' message: |
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$client_port->rcv (resolved => sub { |
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my ($client_port, $type, $chatter_port_id) = @_; |
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print "Resolved the server port 'chatter' to $chatter_port_id\n"; |
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$server_port = $chatter_port_id; |
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$resolved_cv->send; |
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1 |
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}); |
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# lets block the client until we resolved the server port. |
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$resolved_cv->recv; |
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# now setup another receiver callback for the chat messages: |
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$client_port->rcv (message => sub { |
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my ($client_port, $type, $msg) = @_; |
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print "chat> $msg\n"; |
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0 |
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}); |
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# send the server a 'join' message: |
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snd $server_port, join => "$client_port"; |
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sub send_message { |
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my ($msg) = @_; |
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snd $server_port, message => $msg; |
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} |
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# make an AnyEvent condition variable for the 'quit' condition |
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# (when we want to exit the client). |
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my $quit_cv = AnyEvent->condvar; |
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my $stdin_hdl = AnyEvent::Handle->new ( |
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fh => \*STDIN, |
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on_read => sub { |
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my ($hdl) = @_; |
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$hdl->push_read (line => sub { |
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my ($hdl, $line) = @_; |
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if ($line =~ /^\/quit/) { # /quit will end the client |
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$quit_cv->send; |
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} else { |
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send_message ($line); |
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} |
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}); |
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} |
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); |
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$quit_cv->recv; |
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=head2 The Server |
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Ok, now finally to the server. What do we need? Well, we need to setup |
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the well known port C<"chatter"> where all clients send their messages to. |
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Up and into code right now: |
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#!perl |
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use AnyEvent; |
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use AnyEvent::MP; |
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become_public "localhost:1299"; |
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my $chatter_port = create_port; |
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$chatter_port->register ("chatter"); |
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my %client_ports; |
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$chatter_port->rcv (join => sub { |
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my ($chatter_port, $type, $client_port) = @_; |
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$client_ports{$client_port} = 1; |
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0 |
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}); |
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$chatter_port->rcv (message => sub { |
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my ($chatter_port, $type, $msg) = @_; |
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snd $_, message => $msg for keys %client_ports; |
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0 |
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}); |
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AnyEvent->condvar->recv; |
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This is all. Looks much easier, doesn't it? I'll explain it only shortly, as |
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we had the discussion of the C<rcv> method in the client part of this tutorial |
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elmex |
1.2 |
above. |
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First this: |
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become_public "localhost:1299"; |
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This will tell our I<node> to become a I<public> node, which means that it can |
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be contacted via TCP. The first argument should be the I<noderef> the server |
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wants to be reachable at. In this case it's the TCP port 1299 on localhost. |
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Next we bascially setup two receivers, one for the C<join> messages and |
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elmex |
1.1 |
another one for the actual messages of type C<messsage>. |
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In the C<join> message we get the client's port, which we just remember in the |
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C<%client_ports> hash. In the receiver for the message type C<message> we will |
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just iterate through all known C<%client_ports> and relay the message to them. |
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elmex |
1.2 |
And thats it. |
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elmex |
1.1 |
=head2 The Remaining Problems |
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The shown implementation still has some bugs. For instance: How does the |
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server know that the client isn't there anymore, and can cleanup the |
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C<%client_ports> hash? And also the chat messages have no originator, |
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so we don't know who actually sent the message (which would be quite useful |
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for human-to-human interaction: to know who the other one is :). |
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But aside from these issues I hope this tutorial got you the swing of |
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L<AnyEvent::MP> and explained some common idioms. |
383 |
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384 |
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=head1 SEE ALSO |
385 |
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386 |
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L<AnyEvent> |
387 |
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388 |
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L<AnyEvent::Handle> |
389 |
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390 |
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L<AnyEvent::MP> |
391 |
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392 |
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=head1 AUTHOR |
393 |
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394 |
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Robin Redeker <elmex@ta-sa.org> |