--- AnyEvent-MP/MP.pm	2009/08/05 23:50:46	1.34
+++ AnyEvent-MP/MP.pm	2010/04/03 15:32:18	1.113
@@ -1,43 +1,71 @@
 =head1 NAME
 
-AnyEvent::MP - multi-processing/message-passing framework
+AnyEvent::MP - erlang-style multi-processing/message-passing framework
 
 =head1 SYNOPSIS
 
    use AnyEvent::MP;
 
-   $NODE      # contains this node's noderef
-   NODE       # returns this node's noderef
-   NODE $port # returns the noderef of the port
+   $NODE      # contains this node's node ID
+   NODE       # returns this node's node ID
 
+   $SELF      # receiving/own port id in rcv callbacks
+
+   # initialise the node so it can send/receive messages
+   configure;
+
+   # ports are message destinations
+
+   # sending messages
    snd $port, type => data...;
+   snd $port, @msg;
+   snd @msg_with_first_element_being_a_port;
 
-   $SELF      # receiving/own port id in rcv callbacks
+   # creating/using ports, the simple way
+   my $simple_port = port { my @msg = @_ };
 
-   rcv $port, smartmatch => $cb->($port, @msg);
+   # creating/using ports, tagged message matching
+   my $port = port;
+   rcv $port, ping => sub { snd $_[0], "pong" };
+   rcv $port, pong => sub { warn "pong received\n" };
+
+   # create a port on another node
+   my $port = spawn $node, $initfunc, @initdata;
+
+   # destroy a prot again
+   kil $port;  # "normal" kill
+   kil $port, my_error => "everything is broken"; # error kill
+
+   # monitoring
+   mon $localport, $cb->(@msg)      # callback is invoked on death
+   mon $localport, $otherport       # kill otherport on abnormal death
+   mon $localport, $otherport, @msg # send message on death
+
+   # temporarily execute code in port context
+   peval $port, sub { die "kill the port!" };
+
+   # execute callbacks in $SELF port context
+   my $timer = AE::timer 1, 0, psub {
+      die "kill the port, delayed";
+   };
+
+=head1 CURRENT STATUS
 
-   # examples:
-   rcv $port2, ping => sub { snd $_[0], "pong"; 0 };
-   rcv $port1, pong => sub { warn "pong received\n" };
-   snd $port2, ping => $port1;
-
-   # more, smarter, matches (_any_ is exported by this module)
-   rcv $port, [child_died => $pid] => sub { ...
-   rcv $port, [_any_, _any_, 3] => sub { .. $_[2] is 3
+   bin/aemp                - stable.
+   AnyEvent::MP            - stable API, should work.
+   AnyEvent::MP::Intro     - explains most concepts.
+   AnyEvent::MP::Kernel    - mostly stable API.
+   AnyEvent::MP::Global    - stable API.
 
 =head1 DESCRIPTION
 
 This module (-family) implements a simple message passing framework.
 
 Despite its simplicity, you can securely message other processes running
-on the same or other hosts.
+on the same or other hosts, and you can supervise entities remotely.
 
 For an introduction to this module family, see the L<AnyEvent::MP::Intro>
-manual page.
-
-At the moment, this module family is severly broken and underdocumented,
-so do not use. This was uploaded mainly to reserve the CPAN namespace -
-stay tuned! The basic API should be finished, however.
+manual page and the examples under F<eg/>.
 
 =head1 CONCEPTS
 
@@ -45,42 +73,69 @@
 
 =item port
 
-A port is something you can send messages to (with the C<snd> function).
+Not to be confused with a TCP port, a "port" is something you can send
+messages to (with the C<snd> function).
+
+Ports allow you to register C<rcv> handlers that can match all or just
+some messages. Messages send to ports will not be queued, regardless of
+anything was listening for them or not.
+
+=item port ID - C<nodeid#portname>
 
-Some ports allow you to register C<rcv> handlers that can match specific
-messages. All C<rcv> handlers will receive messages they match, messages
-will not be queued.
-
-=item port id - C<noderef#portname>
-
-A port id is normaly the concatenation of a noderef, a hash-mark (C<#>) as
-separator, and a port name (a printable string of unspecified format). An
-exception is the the node port, whose ID is identical to its node
-reference.
+A port ID is the concatenation of a node ID, a hash-mark (C<#>) as
+separator, and a port name (a printable string of unspecified format).
 
 =item node
 
-A node is a single process containing at least one port - the node
-port. You can send messages to node ports to find existing ports or to
-create new ports, among other things.
+A node is a single process containing at least one port - the node port,
+which enables nodes to manage each other remotely, and to create new
+ports.
 
-Nodes are either private (single-process only), slaves (connected to a
-master node only) or public nodes (connectable from unrelated nodes).
+Nodes are either public (have one or more listening ports) or private
+(no listening ports). Private nodes cannot talk to other private nodes
+currently.
 
-=item noderef - C<host:port,host:port...>, C<id@noderef>, C<id>
+=item node ID - C<[A-Z_][a-zA-Z0-9_\-.:]*>
 
-A node reference is a string that either simply identifies the node (for
-private and slave nodes), or contains a recipe on how to reach a given
-node (for public nodes).
+A node ID is a string that uniquely identifies the node within a
+network. Depending on the configuration used, node IDs can look like a
+hostname, a hostname and a port, or a random string. AnyEvent::MP itself
+doesn't interpret node IDs in any way.
 
-This recipe is simply a comma-separated list of C<address:port> pairs (for
-TCP/IP, other protocols might look different).
+=item binds - C<ip:port>
 
-Node references come in two flavours: resolved (containing only numerical
-addresses) or unresolved (where hostnames are used instead of addresses).
+Nodes can only talk to each other by creating some kind of connection to
+each other. To do this, nodes should listen on one or more local transport
+endpoints - binds. Currently, only standard C<ip:port> specifications can
+be used, which specify TCP ports to listen on.
 
-Before using an unresolved node reference in a message you first have to
-resolve it.
+=item seed nodes
+
+When a node starts, it knows nothing about the network. To teach the node
+about the network it first has to contact some other node within the
+network. This node is called a seed.
+
+Apart from the fact that other nodes know them as seed nodes and they have
+to have fixed listening addresses, seed nodes are perfectly normal nodes -
+any node can function as a seed node for others.
+
+In addition to discovering the network, seed nodes are also used to
+maintain the network and to connect nodes that otherwise would have
+trouble connecting. They form the backbone of an AnyEvent::MP network.
+
+Seed nodes are expected to be long-running, and at least one seed node
+should always be available. They should also be relatively responsive - a
+seed node that blocks for long periods will slow down everybody else.
+
+=item seeds - C<host:port>
+
+Seeds are transport endpoint(s) (usually a hostname/IP address and a
+TCP port) of nodes that should be used as seed nodes.
+
+The nodes listening on those endpoints are expected to be long-running,
+and at least one of those should always be available. When nodes run out
+of connections (e.g. due to a network error), they try to re-establish
+connections to some seednodes again to join the network.
 
 =back
 
@@ -92,7 +147,7 @@
 
 package AnyEvent::MP;
 
-use AnyEvent::MP::Base;
+use AnyEvent::MP::Kernel;
 
 use common::sense;
 
@@ -102,11 +157,12 @@
 
 use base "Exporter";
 
-our $VERSION = '0.1';
+our $VERSION = 1.28;
+
 our @EXPORT = qw(
-   NODE $NODE *SELF node_of _any_
-   resolve_node initialise_node
-   snd rcv mon kil reg psub
+   NODE $NODE *SELF node_of after
+   configure
+   snd rcv mon mon_guard kil psub peval spawn cal
    port
 );
 
@@ -120,303 +176,276 @@
 
 =item $thisnode = NODE / $NODE
 
-The C<NODE> function returns, and the C<$NODE> variable contains
-the noderef of the local node. The value is initialised by a call
-to C<become_public> or C<become_slave>, after which all local port
-identifiers become invalid.
+The C<NODE> function returns, and the C<$NODE> variable contains, the node
+ID of the node running in the current process. This value is initialised by
+a call to C<configure>.
 
-=item $noderef = node_of $port
+=item $nodeid = node_of $port
 
-Extracts and returns the noderef from a portid or a noderef.
+Extracts and returns the node ID from a port ID or a node ID.
 
-=item initialise_node $noderef, $seednode, $seednode...
+=item configure $profile, key => value...
 
-=item initialise_node "slave/", $master, $master...
+=item configure key => value...
 
-Before a node can talk to other nodes on the network it has to initialise
-itself - the minimum a node needs to know is it's own name, and optionally
-it should know the noderefs of some other nodes in the network.
-
-This function initialises a node - it must be called exactly once (or
-never) before calling other AnyEvent::MP functions.
+Before a node can talk to other nodes on the network (i.e. enter
+"distributed mode") it has to configure itself - the minimum a node needs
+to know is its own name, and optionally it should know the addresses of
+some other nodes in the network to discover other nodes.
 
-All arguments are noderefs, which can be either resolved or unresolved.
+The key/value pairs are basically the same ones as documented for the
+F<aemp> command line utility (sans the set/del prefix).
 
-There are two types of networked nodes, public nodes and slave nodes:
+This function configures a node - it must be called exactly once (or
+never) before calling other AnyEvent::MP functions.
 
 =over 4
 
-=item public nodes
-
-For public nodes, C<$noderef> must either be a (possibly unresolved)
-noderef, in which case it will be resolved, or C<undef> (or missing), in
-which case the noderef will be guessed.
-
-Afterwards, the node will bind itself on all endpoints and try to connect
-to all additional C<$seednodes> that are specified. Seednodes are optional
-and can be used to quickly bootstrap the node into an existing network.
-
-=item slave nodes
-
-When the C<$noderef> is the special string C<slave/>, then the node will
-become a slave node. Slave nodes cannot be contacted from outside and will
-route most of their traffic to the master node that they attach to.
+=item step 1, gathering configuration from profiles
 
-At least one additional noderef is required: The node will try to connect
-to all of them and will become a slave attached to the first node it can
-successfully connect to.
+The function first looks up a profile in the aemp configuration (see the
+L<aemp> commandline utility). The profile name can be specified via the
+named C<profile> parameter or can simply be the first parameter). If it is
+missing, then the nodename (F<uname -n>) will be used as profile name.
+
+The profile data is then gathered as follows:
+
+First, all remaining key => value pairs (all of which are conveniently
+undocumented at the moment) will be interpreted as configuration
+data. Then they will be overwritten by any values specified in the global
+default configuration (see the F<aemp> utility), then the chain of
+profiles chosen by the profile name (and any C<parent> attributes).
+
+That means that the values specified in the profile have highest priority
+and the values specified directly via C<configure> have lowest priority,
+and can only be used to specify defaults.
+
+If the profile specifies a node ID, then this will become the node ID of
+this process. If not, then the profile name will be used as node ID. The
+special node ID of C<anon/> will be replaced by a random node ID.
+
+=item step 2, bind listener sockets
+
+The next step is to look up the binds in the profile, followed by binding
+aemp protocol listeners on all binds specified (it is possible and valid
+to have no binds, meaning that the node cannot be contacted form the
+outside. This means the node cannot talk to other nodes that also have no
+binds, but it can still talk to all "normal" nodes).
+
+If the profile does not specify a binds list, then a default of C<*> is
+used, meaning the node will bind on a dynamically-assigned port on every
+local IP address it finds.
+
+=item step 3, connect to seed nodes
+
+As the last step, the seeds list from the profile is passed to the
+L<AnyEvent::MP::Global> module, which will then use it to keep
+connectivity with at least one node at any point in time.
 
 =back
 
-This function will block until all nodes have been resolved and, for slave
-nodes, until it has successfully established a connection to a master
-server.
-
-Example: become a public node listening on the default node.
-
-   initialise_node;
-
-Example: become a public node, and try to contact some well-known master
-servers to become part of the network.
-
-   initialise_node undef, "master1", "master2";
-
-Example: become a public node listening on port C<4041>.
+Example: become a distributed node using the local node name as profile.
+This should be the most common form of invocation for "daemon"-type nodes.
 
-   initialise_node 4041;
+   configure
 
-Example: become a public node, only visible on localhost port 4044.
+Example: become an anonymous node. This form is often used for commandline
+clients.
 
-   initialise_node "locahost:4044";
+   configure nodeid => "anon/";
 
-Example: become a slave node to any of the specified master servers.
+Example: configure a node using a profile called seed, which si suitable
+for a seed node as it binds on all local addresses on a fixed port (4040,
+customary for aemp).
 
-   initialise_node "slave/", "master1", "192.168.13.17", "mp.example.net";
+   # use the aemp commandline utility
+   # aemp profile seed nodeid anon/ binds '*:4040'
 
-=item $cv = resolve_node $noderef
+   # then use it
+   configure profile => "seed";
 
-Takes an unresolved node reference that may contain hostnames and
-abbreviated IDs, resolves all of them and returns a resolved node
-reference.
+   # or simply use aemp from the shell again:
+   # aemp run profile seed
 
-In addition to C<address:port> pairs allowed in resolved noderefs, the
-following forms are supported:
-
-=over 4
-
-=item the empty string
-
-An empty-string component gets resolved as if the default port (4040) was
-specified.
-
-=item naked port numbers (e.g. C<1234>)
-
-These are resolved by prepending the local nodename and a colon, to be
-further resolved.
-
-=item hostnames (e.g. C<localhost:1234>, C<localhost>)
-
-These are resolved by using AnyEvent::DNS to resolve them, optionally
-looking up SRV records for the C<aemp=4040> port, if no port was
-specified.
-
-=back
+   # or provide a nicer-to-remember nodeid
+   # aemp run profile seed nodeid "$(hostname)"
 
 =item $SELF
 
 Contains the current port id while executing C<rcv> callbacks or C<psub>
 blocks.
 
-=item SELF, %SELF, @SELF...
+=item *SELF, SELF, %SELF, @SELF...
 
 Due to some quirks in how perl exports variables, it is impossible to
-just export C<$SELF>, all the symbols called C<SELF> are exported by this
+just export C<$SELF>, all the symbols named C<SELF> are exported by this
 module, but only C<$SELF> is currently used.
 
 =item snd $port, type => @data
 
 =item snd $port, @msg
 
-Send the given message to the given port ID, which can identify either
-a local or a remote port, and can be either a string or soemthignt hat
-stringifies a sa port ID (such as a port object :).
-
-While the message can be about anything, it is highly recommended to use a
-string as first element (a portid, or some word that indicates a request
-type etc.).
-
-The message data effectively becomes read-only after a call to this
-function: modifying any argument is not allowed and can cause many
-problems.
+Send the given message to the given port, which can identify either a
+local or a remote port, and must be a port ID.
+
+While the message can be almost anything, it is highly recommended to
+use a string as first element (a port ID, or some word that indicates a
+request type etc.) and to consist if only simple perl values (scalars,
+arrays, hashes) - if you think you need to pass an object, think again.
+
+The message data logically becomes read-only after a call to this
+function: modifying any argument (or values referenced by them) is
+forbidden, as there can be considerable time between the call to C<snd>
+and the time the message is actually being serialised - in fact, it might
+never be copied as within the same process it is simply handed to the
+receiving port.
 
 The type of data you can transfer depends on the transport protocol: when
 JSON is used, then only strings, numbers and arrays and hashes consisting
 of those are allowed (no objects). When Storable is used, then anything
 that Storable can serialise and deserialise is allowed, and for the local
-node, anything can be passed.
+node, anything can be passed. Best rely only on the common denominator of
+these.
 
 =item $local_port = port
 
-Create a new local port object that can be used either as a pattern
-matching port ("full port") or a single-callback port ("miniport"),
-depending on how C<rcv> callbacks are bound to the object.
-
-=item $port = port { my @msg = @_; $finished }
+Create a new local port object and returns its port ID. Initially it has
+no callbacks set and will throw an error when it receives messages.
 
-Creates a "miniport", that is, a very lightweight port without any pattern
-matching behind it, and returns its ID. Semantically the same as creating
-a port and calling C<rcv $port, $callback> on it.
+=item $local_port = port { my @msg = @_ }
 
-The block will be called for every message received on the port. When the
-callback returns a true value its job is considered "done" and the port
-will be destroyed. Otherwise it will stay alive.
+Creates a new local port, and returns its ID. Semantically the same as
+creating a port and calling C<rcv $port, $callback> on it.
 
-The message will be passed as-is, no extra argument (i.e. no port id) will
-be passed to the callback.
+The block will be called for every message received on the port, with the
+global variable C<$SELF> set to the port ID. Runtime errors will cause the
+port to be C<kil>ed. The message will be passed as-is, no extra argument
+(i.e. no port ID) will be passed to the callback.
 
-If you need the local port id in the callback, this works nicely:
+If you want to stop/destroy the port, simply C<kil> it:
 
-   my $port; $port = port {
-      snd $otherport, reply => $port;
+   my $port = port {
+      my @msg = @_;
+      ...
+      kil $SELF;
    };
 
 =cut
 
 sub rcv($@);
 
+sub _kilme {
+   die "received message on port without callback";
+}
+
 sub port(;&) {
    my $id = "$UNIQ." . $ID++;
    my $port = "$NODE#$id";
 
-   if (@_) {
-      rcv $port, shift;
-   } else {
-      $PORT{$id} = sub { }; # nop
-   }
+   rcv $port, shift || \&_kilme;
 
    $port
 }
 
-=item reg $port, $name
-
-Registers the given port under the name C<$name>. If the name already
-exists it is replaced.
-
-A port can only be registered under one well known name.
-
-A port automatically becomes unregistered when it is killed.
-
-=cut
-
-sub reg(@) {
-   my ($port, $name) = @_;
+=item rcv $local_port, $callback->(@msg)
 
-   $REG{$name} = $port;
-}
+Replaces the default callback on the specified port. There is no way to
+remove the default callback: use C<sub { }> to disable it, or better
+C<kil> the port when it is no longer needed.
 
-=item rcv $port, $callback->(@msg)
+The global C<$SELF> (exported by this module) contains C<$port> while
+executing the callback. Runtime errors during callback execution will
+result in the port being C<kil>ed.
 
-Replaces the callback on the specified miniport (after converting it to
-one if required).
+The default callback received all messages not matched by a more specific
+C<tag> match.
 
-=item rcv $port, tagstring        => $callback->(@msg), ...
+=item rcv $local_port, tag => $callback->(@msg_without_tag), ...
 
-=item rcv $port, $smartmatch      => $callback->(@msg), ...
+Register (or replace) callbacks to be called on messages starting with the
+given tag on the given port (and return the port), or unregister it (when
+C<$callback> is C<$undef> or missing). There can only be one callback
+registered for each tag.
 
-=item rcv $port, [$smartmatch...] => $callback->(@msg), ...
+The original message will be passed to the callback, after the first
+element (the tag) has been removed. The callback will use the same
+environment as the default callback (see above).
 
-Register callbacks to be called on matching messages on the given full
-port (after converting it to one if required).
+Example: create a port and bind receivers on it in one go.
 
-The callback has to return a true value when its work is done, after
-which is will be removed, or a false value in which case it will stay
-registered.
+  my $port = rcv port,
+     msg1 => sub { ... },
+     msg2 => sub { ... },
+  ;
 
-The global C<$SELF> (exported by this module) contains C<$port> while
-executing the callback.
+Example: create a port, bind receivers and send it in a message elsewhere
+in one go:
 
-Runtime errors wdurign callback execution will result in the port being
-C<kil>ed.
+   snd $otherport, reply =>
+      rcv port,
+         msg1 => sub { ... },
+         ...
+   ;
 
-If the match is an array reference, then it will be matched against the
-first elements of the message, otherwise only the first element is being
-matched.
+Example: temporarily register a rcv callback for a tag matching some port
+(e.g. for an rpc reply) and unregister it after a message was received.
 
-Any element in the match that is specified as C<_any_> (a function
-exported by this module) matches any single element of the message.
+   rcv $port, $otherport => sub {
+      my @reply = @_;
 
-While not required, it is highly recommended that the first matching
-element is a string identifying the message. The one-string-only match is
-also the most efficient match (by far).
+      rcv $SELF, $otherport;
+   };
 
 =cut
 
 sub rcv($@) {
    my $port = shift;
-   my ($noderef, $portid) = split /#/, $port, 2;
+   my ($nodeid, $portid) = split /#/, $port, 2;
 
-   ($NODE{$noderef} || add_node $noderef) == $NODE{""}
+   $NODE{$nodeid} == $NODE{""}
       or Carp::croak "$port: rcv can only be called on local ports, caught";
 
-   if (@_ == 1) {
-      my $cb = shift;
-      delete $PORT_DATA{$portid};
-      $PORT{$portid} = sub {
-         local $SELF = $port;
-         eval {
-            &$cb
-               and kil $port;
-         };
-         _self_die if $@;
-      };
-   } else {
-      my $self = $PORT_DATA{$portid} ||= do {
-         my $self = bless {
-            id    => $port,
-         }, "AnyEvent::MP::Port";
-
-         $PORT{$portid} = sub {
-            local $SELF = $port;
-
-            eval {
-               for (@{ $self->{rc0}{$_[0]} }) {
-                  $_ && &{$_->[0]}
-                     && undef $_;
-               }
-
-               for (@{ $self->{rcv}{$_[0]} }) {
-                  $_ && [@_[1 .. @{$_->[1]}]] ~~ $_->[1]
-                     && &{$_->[0]}
-                     && undef $_;
-               }
+   while (@_) {
+      if (ref $_[0]) {
+         if (my $self = $PORT_DATA{$portid}) {
+            "AnyEvent::MP::Port" eq ref $self
+               or Carp::croak "$port: rcv can only be called on message matching ports, caught";
 
-               for (@{ $self->{any} }) {
-                  $_ && [@_[0 .. $#{$_->[1]}]] ~~ $_->[1]
-                     && &{$_->[0]}
-                     && undef $_;
+            $self->[0] = shift;
+         } else {
+            my $cb = shift;
+            $PORT{$portid} = sub {
+               local $SELF = $port;
+               eval { &$cb }; _self_die if $@;
+            };
+         }
+      } elsif (defined $_[0]) {
+         my $self = $PORT_DATA{$portid} ||= do {
+            my $self = bless [$PORT{$portid} || sub { }, { }, $port], "AnyEvent::MP::Port";
+
+            $PORT{$portid} = sub {
+               local $SELF = $port;
+
+               if (my $cb = $self->[1]{$_[0]}) {
+                  shift;
+                  eval { &$cb }; _self_die if $@;
+               } else {
+                  &{ $self->[0] };
                }
             };
-            _self_die if $@;
-         };
 
-         $self
-      };
+            $self
+         };
 
-      "AnyEvent::MP::Port" eq ref $self
-         or Carp::croak "$port: rcv can only be called on message matching ports, caught";
+         "AnyEvent::MP::Port" eq ref $self
+            or Carp::croak "$port: rcv can only be called on message matching ports, caught";
 
-      while (@_) {
-         my ($match, $cb) = splice @_, 0, 2;
+         my ($tag, $cb) = splice @_, 0, 2;
 
-         if (!ref $match) {
-            push @{ $self->{rc0}{$match}      }, [$cb];
-         } elsif (("ARRAY" eq ref $match && !ref $match->[0])) {
-            my ($type, @match) = @$match;
-            @match
-               ? push @{ $self->{rcv}{$match->[0]} }, [$cb, \@match]
-               : push @{ $self->{rc0}{$match->[0]} }, [$cb];
+         if (defined $cb) {
+            $self->[1]{$tag} = $cb;
          } else {
-            push @{ $self->{any}              }, [$cb, $match];
+            delete $self->[1]{$tag};
          }
       }
    }
@@ -424,12 +453,52 @@
    $port
 }
 
+=item peval $port, $coderef[, @args]
+
+Evaluates the given C<$codref> within the contetx of C<$port>, that is,
+when the code throews an exception the C<$port> will be killed.
+
+Any remaining args will be passed to the callback. Any return values will
+be returned to the caller.
+
+This is useful when you temporarily want to execute code in the context of
+a port.
+
+Example: create a port and run some initialisation code in it's context.
+
+   my $port = port { ... };
+
+   peval $port, sub {
+      init
+         or die "unable to init";
+   };
+
+=cut
+
+sub peval($$) {
+   local $SELF = shift;
+   my $cb = shift;
+
+   if (wantarray) {
+      my @res = eval { &$cb };
+      _self_die if $@;
+      @res
+   } else {
+      my $res = eval { &$cb };
+      _self_die if $@;
+      $res
+   }
+}
+
 =item $closure = psub { BLOCK }
 
 Remembers C<$SELF> and creates a closure out of the BLOCK. When the
 closure is executed, sets up the environment in the same way as in C<rcv>
 callbacks, i.e. runtime errors will cause the port to get C<kil>ed.
 
+The effect is basically as if it returned C<< sub { peval $SELF, sub {
+BLOCK } } >>.
+
 This is useful when you register callbacks from C<rcv> callbacks:
 
    rcv delayed_reply => sub {
@@ -462,24 +531,60 @@
    }
 }
 
-=item $guard = mon $port, $cb->(@reason)
+=item $guard = mon $port, $cb->(@reason)    # call $cb when $port dies
+
+=item $guard = mon $port, $rcvport          # kill $rcvport when $port dies
 
-=item $guard = mon $port, $otherport
+=item $guard = mon $port                    # kill $SELF when $port dies
 
-=item $guard = mon $port, $otherport, @msg
+=item $guard = mon $port, $rcvport, @msg    # send a message when $port dies
 
-Monitor the given port and do something when the port is killed.
+Monitor the given port and do something when the port is killed or
+messages to it were lost, and optionally return a guard that can be used
+to stop monitoring again.
 
-In the first form, the callback is simply called with any number
-of C<@reason> elements (no @reason means that the port was deleted
+In the first form (callback), the callback is simply called with any
+number of C<@reason> elements (no @reason means that the port was deleted
 "normally"). Note also that I<< the callback B<must> never die >>, so use
 C<eval> if unsure.
 
-In the second form, the other port will be C<kil>'ed with C<@reason>, iff
-a @reason was specified, i.e. on "normal" kils nothing happens, while
-under all other conditions, the other port is killed with the same reason.
-
-In the last form, a message of the form C<@msg, @reason> will be C<snd>.
+In the second form (another port given), the other port (C<$rcvport>)
+will be C<kil>'ed with C<@reason>, if a @reason was specified, i.e. on
+"normal" kils nothing happens, while under all other conditions, the other
+port is killed with the same reason.
+
+The third form (kill self) is the same as the second form, except that
+C<$rvport> defaults to C<$SELF>.
+
+In the last form (message), a message of the form C<@msg, @reason> will be
+C<snd>.
+
+Monitoring-actions are one-shot: once messages are lost (and a monitoring
+alert was raised), they are removed and will not trigger again.
+
+As a rule of thumb, monitoring requests should always monitor a port from
+a local port (or callback). The reason is that kill messages might get
+lost, just like any other message. Another less obvious reason is that
+even monitoring requests can get lost (for example, when the connection
+to the other node goes down permanently). When monitoring a port locally
+these problems do not exist.
+
+C<mon> effectively guarantees that, in the absence of hardware failures,
+after starting the monitor, either all messages sent to the port will
+arrive, or the monitoring action will be invoked after possible message
+loss has been detected. No messages will be lost "in between" (after
+the first lost message no further messages will be received by the
+port). After the monitoring action was invoked, further messages might get
+delivered again.
+
+Inter-host-connection timeouts and monitoring depend on the transport
+used. The only transport currently implemented is TCP, and AnyEvent::MP
+relies on TCP to detect node-downs (this can take 10-15 minutes on a
+non-idle connection, and usually around two hours for idle connections).
+
+This means that monitoring is good for program errors and cleaning up
+stuff eventually, but they are no replacement for a timeout when you need
+to ensure some maximum latency.
 
 Example: call a given callback when C<$port> is killed.
 
@@ -487,20 +592,20 @@
 
 Example: kill ourselves when C<$port> is killed abnormally.
 
-   mon $port, $self;
+   mon $port;
 
-Example: send us a restart message another C<$port> is killed.
+Example: send us a restart message when another C<$port> is killed.
 
    mon $port, $self => "restart";
 
 =cut
 
 sub mon {
-   my ($noderef, $port) = split /#/, shift, 2;
+   my ($nodeid, $port) = split /#/, shift, 2;
 
-   my $node = $NODE{$noderef} || add_node $noderef;
+   my $node = $NODE{$nodeid} || add_node $nodeid;
 
-   my $cb = shift;
+   my $cb = @_ ? shift : $SELF || Carp::croak 'mon: called with one argument only, but $SELF not set,';
 
    unless (ref $cb) {
       if (@_) {
@@ -517,7 +622,7 @@
    $node->monitor ($port, $cb);
 
    defined wantarray
-      and AnyEvent::Util::guard { $node->unmonitor ($port, $cb) }
+      and ($cb += 0, AnyEvent::Util::guard { $node->unmonitor ($port, $cb) })
 }
 
 =item $guard = mon_guard $port, $ref, $ref...
@@ -528,10 +633,10 @@
 Optionally returns a guard that will stop the monitoring.
 
 This function is useful when you create e.g. timers or other watchers and
-want to free them when the port gets killed:
+want to free them when the port gets killed (note the use of C<psub>):
 
   $port->rcv (start => sub {
-     my $timer; $timer = mon_guard $port, AE::timer 1, 1, sub {
+     my $timer; $timer = mon_guard $port, AE::timer 1, 1, psub {
         undef $timer if 0.9 < rand;
      });
   });
@@ -541,28 +646,21 @@
 sub mon_guard {
    my ($port, @refs) = @_;
 
+   #TODO: mon-less form?
+
    mon $port, sub { 0 && @refs }
 }
 
-=item lnk $port1, $port2
-
-Link two ports. This is simply a shorthand for:
-
-   mon $port1, $port2;
-   mon $port2, $port1;
-
-It means that if either one is killed abnormally, the other one gets
-killed as well.
-
 =item kil $port[, @reason]
 
 Kill the specified port with the given C<@reason>.
 
-If no C<@reason> is specified, then the port is killed "normally" (linked
-ports will not be kileld, or even notified).
+If no C<@reason> is specified, then the port is killed "normally" -
+monitor callback will be invoked, but the kil will not cause linked ports
+(C<mon $mport, $lport> form) to get killed.
 
-Otherwise, linked ports get killed with the same reason (second form of
-C<mon>, see below).
+If a C<@reason> is specified, then linked ports (C<mon $mport, $lport>
+form) get killed with the same reason.
 
 Runtime errors while evaluating C<rcv> callbacks or inside C<psub> blocks
 will be reported as reason C<< die => $@ >>.
@@ -570,59 +668,167 @@
 Transport/communication errors are reported as C<< transport_error =>
 $message >>.
 
-=back
+=cut
 
-=head1 NODE MESSAGES
+=item $port = spawn $node, $initfunc[, @initdata]
 
-Nodes understand the following messages sent to them. Many of them take
-arguments called C<@reply>, which will simply be used to compose a reply
-message - C<$reply[0]> is the port to reply to, C<$reply[1]> the type and
-the remaining arguments are simply the message data.
+Creates a port on the node C<$node> (which can also be a port ID, in which
+case it's the node where that port resides).
 
-While other messages exist, they are not public and subject to change.
+The port ID of the newly created port is returned immediately, and it is
+possible to immediately start sending messages or to monitor the port.
 
-=over 4
+After the port has been created, the init function is called on the remote
+node, in the same context as a C<rcv> callback. This function must be a
+fully-qualified function name (e.g. C<MyApp::Chat::Server::init>). To
+specify a function in the main program, use C<::name>.
+
+If the function doesn't exist, then the node tries to C<require>
+the package, then the package above the package and so on (e.g.
+C<MyApp::Chat::Server>, C<MyApp::Chat>, C<MyApp>) until the function
+exists or it runs out of package names.
+
+The init function is then called with the newly-created port as context
+object (C<$SELF>) and the C<@initdata> values as arguments. It I<must>
+call one of the C<rcv> functions to set callbacks on C<$SELF>, otherwise
+the port might not get created.
+
+A common idiom is to pass a local port, immediately monitor the spawned
+port, and in the remote init function, immediately monitor the passed
+local port. This two-way monitoring ensures that both ports get cleaned up
+when there is a problem.
+
+C<spawn> guarantees that the C<$initfunc> has no visible effects on the
+caller before C<spawn> returns (by delaying invocation when spawn is
+called for the local node).
+
+Example: spawn a chat server port on C<$othernode>.
+
+   # this node, executed from within a port context:
+   my $server = spawn $othernode, "MyApp::Chat::Server::connect", $SELF;
+   mon $server;
+
+   # init function on C<$othernode>
+   sub connect {
+      my ($srcport) = @_;
+
+      mon $srcport;
+
+      rcv $SELF, sub {
+         ...
+      };
+   }
 
 =cut
 
-=item lookup => $name, @reply
+sub _spawn {
+   my $port = shift;
+   my $init = shift;
+
+   # rcv will create the actual port
+   local $SELF = "$NODE#$port";
+   eval {
+      &{ load_func $init }
+   };
+   _self_die if $@;
+}
+
+sub spawn(@) {
+   my ($nodeid, undef) = split /#/, shift, 2;
+
+   my $id = "$RUNIQ." . $ID++;
 
-Replies with the port ID of the specified well-known port, or C<undef>.
+   $_[0] =~ /::/
+      or Carp::croak "spawn init function must be a fully-qualified name, caught";
 
-=item devnull => ...
+   snd_to_func $nodeid, "AnyEvent::MP::_spawn" => $id, @_;
 
-Generic data sink/CPU heat conversion.
+   "$nodeid#$id"
+}
+
+=item after $timeout, @msg
 
-=item relay => $port, @msg
+=item after $timeout, $callback
 
-Simply forwards the message to the given port.
+Either sends the given message, or call the given callback, after the
+specified number of seconds.
 
-=item eval => $string[ @reply]
+This is simply a utility function that comes in handy at times - the
+AnyEvent::MP author is not convinced of the wisdom of having it, though,
+so it may go away in the future.
 
-Evaluates the given string. If C<@reply> is given, then a message of the
-form C<@reply, $@, @evalres> is sent.
+=cut
 
-Example: crash another node.
+sub after($@) {
+   my ($timeout, @action) = @_;
 
-   snd $othernode, eval => "exit";
+   my $t; $t = AE::timer $timeout, 0, sub {
+      undef $t;
+      ref $action[0]
+         ? $action[0]()
+         : snd @action;
+   };
+}
 
-=item time => @reply
+=item cal $port, @msg, $callback[, $timeout]
 
-Replies the the current node time to C<@reply>.
+A simple form of RPC - sends a message to the given C<$port> with the
+given contents (C<@msg>), but adds a reply port to the message.
 
-Example: tell the current node to send the current time to C<$myport> in a
-C<timereply> message.
+The reply port is created temporarily just for the purpose of receiving
+the reply, and will be C<kil>ed when no longer needed.
 
-   snd $NODE, time => $myport, timereply => 1, 2;
-   # => snd $myport, timereply => 1, 2, <time>
+A reply message sent to the port is passed to the C<$callback> as-is.
+
+If an optional time-out (in seconds) is given and it is not C<undef>,
+then the callback will be called without any arguments after the time-out
+elapsed and the port is C<kil>ed.
+
+If no time-out is given (or it is C<undef>), then the local port will
+monitor the remote port instead, so it eventually gets cleaned-up.
+
+Currently this function returns the temporary port, but this "feature"
+might go in future versions unless you can make a convincing case that
+this is indeed useful for something.
+
+=cut
+
+sub cal(@) {
+   my $timeout = ref $_[-1] ? undef : pop;
+   my $cb = pop;
+
+   my $port = port {
+      undef $timeout;
+      kil $SELF;
+      &$cb;
+   };
+
+   if (defined $timeout) {
+      $timeout = AE::timer $timeout, 0, sub {
+         undef $timeout;
+         kil $port;
+         $cb->();
+      };
+   } else {
+      mon $_[0], sub {
+         kil $port;
+         $cb->();
+      };
+   }
+
+   push @_, $port;
+   &snd;
+
+   $port
+}
 
 =back
 
 =head1 AnyEvent::MP vs. Distributed Erlang
 
-AnyEvent::MP got lots of its ideas from distributed erlang (erlang node
-== aemp node, erlang process == aemp port), so many of the documents and
-programming techniques employed by erlang apply to AnyEvent::MP. Here is a
+AnyEvent::MP got lots of its ideas from distributed Erlang (Erlang node
+== aemp node, Erlang process == aemp port), so many of the documents and
+programming techniques employed by Erlang apply to AnyEvent::MP. Here is a
 sample:
 
    http://www.erlang.se/doc/programming_rules.shtml
@@ -634,54 +840,60 @@
 
 =over 4
 
-=item * Node references contain the recipe on how to contact them.
-
-Erlang relies on special naming and DNS to work everywhere in the
-same way. AEMP relies on each node knowing it's own address(es), with
-convenience functionality.
+=item * Node IDs are arbitrary strings in AEMP.
 
-This means that AEMP requires a less tightly controlled environment at the
-cost of longer node references and a slightly higher management overhead.
+Erlang relies on special naming and DNS to work everywhere in the same
+way. AEMP relies on each node somehow knowing its own address(es) (e.g. by
+configuration or DNS), and possibly the addresses of some seed nodes, but
+will otherwise discover other nodes (and their IDs) itself.
+
+=item * Erlang has a "remote ports are like local ports" philosophy, AEMP
+uses "local ports are like remote ports".
+
+The failure modes for local ports are quite different (runtime errors
+only) then for remote ports - when a local port dies, you I<know> it dies,
+when a connection to another node dies, you know nothing about the other
+port.
+
+Erlang pretends remote ports are as reliable as local ports, even when
+they are not.
+
+AEMP encourages a "treat remote ports differently" philosophy, with local
+ports being the special case/exception, where transport errors cannot
+occur.
 
 =item * Erlang uses processes and a mailbox, AEMP does not queue.
 
-Erlang uses processes that selctively receive messages, and therefore
-needs a queue. AEMP is event based, queuing messages would serve no useful
-purpose.
+Erlang uses processes that selectively receive messages, and therefore
+needs a queue. AEMP is event based, queuing messages would serve no
+useful purpose. For the same reason the pattern-matching abilities of
+AnyEvent::MP are more limited, as there is little need to be able to
+filter messages without dequeuing them.
 
-(But see L<Coro::MP> for a more erlang-like process model on top of AEMP).
+(But see L<Coro::MP> for a more Erlang-like process model on top of AEMP).
 
 =item * Erlang sends are synchronous, AEMP sends are asynchronous.
 
-Sending messages in erlang is synchronous and blocks the process. AEMP
-sends are immediate, connection establishment is handled in the
-background.
-
-=item * Erlang can silently lose messages, AEMP cannot.
-
-Erlang makes few guarantees on messages delivery - messages can get lost
-without any of the processes realising it (i.e. you send messages a, b,
-and c, and the other side only receives messages a and c).
-
-AEMP guarantees correct ordering, and the guarantee that there are no
-holes in the message sequence.
-
-=item * In erlang, processes can be declared dead and later be found to be
-alive.
-
-In erlang it can happen that a monitored process is declared dead and
-linked processes get killed, but later it turns out that the process is
-still alive - and can receive messages.
-
-In AEMP, when port monitoring detects a port as dead, then that port will
-eventually be killed - it cannot happen that a node detects a port as dead
-and then later sends messages to it, finding it is still alive.
+Sending messages in Erlang is synchronous and blocks the process (and
+so does not need a queue that can overflow). AEMP sends are immediate,
+connection establishment is handled in the background.
+
+=item * Erlang suffers from silent message loss, AEMP does not.
+
+Erlang implements few guarantees on messages delivery - messages can get
+lost without any of the processes realising it (i.e. you send messages a,
+b, and c, and the other side only receives messages a and c).
+
+AEMP guarantees correct ordering, and the guarantee that after one message
+is lost, all following ones sent to the same port are lost as well, until
+monitoring raises an error, so there are no silent "holes" in the message
+sequence.
 
 =item * Erlang can send messages to the wrong port, AEMP does not.
 
-In erlang it is quite possible that a node that restarts reuses a process
-ID known to other nodes for a completely different process, causing
-messages destined for that process to end up in an unrelated process.
+In Erlang it is quite likely that a node that restarts reuses a process ID
+known to other nodes for a completely different process, causing messages
+destined for that process to end up in an unrelated process.
 
 AEMP never reuses port IDs, so old messages or old port IDs floating
 around in the network will not be sent to an unrelated port.
@@ -689,24 +901,94 @@
 =item * Erlang uses unprotected connections, AEMP uses secure
 authentication and can use TLS.
 
-AEMP can use a proven protocol - SSL/TLS - to protect connections and
+AEMP can use a proven protocol - TLS - to protect connections and
 securely authenticate nodes.
 
 =item * The AEMP protocol is optimised for both text-based and binary
 communications.
 
-The AEMP protocol, unlike the erlang protocol, supports both
-language-independent text-only protocols (good for debugging) and binary,
-language-specific serialisers (e.g. Storable).
+The AEMP protocol, unlike the Erlang protocol, supports both programming
+language independent text-only protocols (good for debugging) and binary,
+language-specific serialisers (e.g. Storable). By default, unless TLS is
+used, the protocol is actually completely text-based.
 
 It has also been carefully designed to be implementable in other languages
-with a minimum of work while gracefully degrading fucntionality to make the
+with a minimum of work while gracefully degrading functionality to make the
 protocol simple.
 
+=item * AEMP has more flexible monitoring options than Erlang.
+
+In Erlang, you can chose to receive I<all> exit signals as messages
+or I<none>, there is no in-between, so monitoring single processes is
+difficult to implement. Monitoring in AEMP is more flexible than in
+Erlang, as one can choose between automatic kill, exit message or callback
+on a per-process basis.
+
+=item * Erlang tries to hide remote/local connections, AEMP does not.
+
+Monitoring in Erlang is not an indicator of process death/crashes, in the
+same way as linking is (except linking is unreliable in Erlang).
+
+In AEMP, you don't "look up" registered port names or send to named ports
+that might or might not be persistent. Instead, you normally spawn a port
+on the remote node. The init function monitors you, and you monitor the
+remote port. Since both monitors are local to the node, they are much more
+reliable (no need for C<spawn_link>).
+
+This also saves round-trips and avoids sending messages to the wrong port
+(hard to do in Erlang).
+
+=back
+
+=head1 RATIONALE
+
+=over 4
+
+=item Why strings for port and node IDs, why not objects?
+
+We considered "objects", but found that the actual number of methods
+that can be called are quite low. Since port and node IDs travel over
+the network frequently, the serialising/deserialising would add lots of
+overhead, as well as having to keep a proxy object everywhere.
+
+Strings can easily be printed, easily serialised etc. and need no special
+procedures to be "valid".
+
+And as a result, a port with just a default receiver consists of a single
+closure stored in a global hash - it can't become much cheaper.
+
+=item Why favour JSON, why not a real serialising format such as Storable?
+
+In fact, any AnyEvent::MP node will happily accept Storable as framing
+format, but currently there is no way to make a node use Storable by
+default (although all nodes will accept it).
+
+The default framing protocol is JSON because a) JSON::XS is many times
+faster for small messages and b) most importantly, after years of
+experience we found that object serialisation is causing more problems
+than it solves: Just like function calls, objects simply do not travel
+easily over the network, mostly because they will always be a copy, so you
+always have to re-think your design.
+
+Keeping your messages simple, concentrating on data structures rather than
+objects, will keep your messages clean, tidy and efficient.
+
 =back
 
 =head1 SEE ALSO
 
+L<AnyEvent::MP::Intro> - a gentle introduction.
+
+L<AnyEvent::MP::Kernel> - more, lower-level, stuff.
+
+L<AnyEvent::MP::Global> - network maintenance and port groups, to find
+your applications.
+
+L<AnyEvent::MP::DataConn> - establish data connections between nodes.
+
+L<AnyEvent::MP::LogCatcher> - simple service to display log messages from
+all nodes.
+
 L<AnyEvent>.
 
 =head1 AUTHOR