=head1 NAME AnyEvent::MP - 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 $SELF # receiving/own port id in rcv callbacks # ports are message endpoints # sending messages snd $port, type => data...; snd $port, @msg; snd @msg_with_first_element_being_a_port; # miniports my $miniport = port { my @msg = @_; 0 }; # full ports my $port = port; rcv $port, smartmatch => $cb->(@msg); rcv $port, ping => sub { snd $_[0], "pong"; 0 }; rcv $port, pong => sub { warn "pong received\n"; 0 }; # remote ports my $port = spawn $node, $initfunc, @initdata; # more, smarter, matches (_any_ is exported by this module) rcv $port, [child_died => $pid] => sub { ... rcv $port, [_any_, _any_, 3] => sub { .. $_[2] is 3 # monitoring mon $port, $cb->(@msg) # callback is invoked on death mon $port, $otherport # kill otherport on abnormal death mon $port, $otherport, @msg # send message on death =head1 CURRENT STATUS AnyEvent::MP - stable API, should work AnyEvent::MP::Intro - outdated AnyEvent::MP::Kernel - WIP AnyEvent::MP::Transport - mostly stable stay tuned. =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. For an introduction to this module family, see the L 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! =head1 CONCEPTS =over 4 =item port A port is something you can send messages to (with the C function). Some ports allow you to register C handlers that can match specific messages. All C handlers will receive messages they match, messages will not be queued. =item port id - C 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. =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. Nodes are either private (single-process only), slaves (connected to a master node only) or public nodes (connectable from unrelated nodes). =item noderef - C, C, C 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). This recipe is simply a comma-separated list of C pairs (for TCP/IP, other protocols might look different). Node references come in two flavours: resolved (containing only numerical addresses) or unresolved (where hostnames are used instead of addresses). Before using an unresolved node reference in a message you first have to resolve it. =back =head1 VARIABLES/FUNCTIONS =over 4 =cut package AnyEvent::MP; use AnyEvent::MP::Kernel; use common::sense; use Carp (); use AE (); use base "Exporter"; our $VERSION = $AnyEvent::MP::Kernel::VERSION; our @EXPORT = qw( NODE $NODE *SELF node_of _any_ resolve_node initialise_node snd rcv mon kil reg psub spawn port ); our $SELF; sub _self_die() { my $msg = $@; $msg =~ s/\n+$// unless ref $msg; kil $SELF, die => $msg; } =item $thisnode = NODE / $NODE The C function returns, and the C<$NODE> variable contains the noderef of the local node. The value is initialised by a call to C or C, after which all local port identifiers become invalid. =item $noderef = node_of $port Extracts and returns the noderef from a portid or a noderef. =item initialise_node $noderef, $seednode, $seednode... =item initialise_node "slave/", $master, $master... Before a node can talk to other nodes on the network it has to initialise itself - the minimum a node needs to know is it's own name, and optionally it should know the noderefs of some other nodes in the network. This function initialises a node - it must be called exactly once (or never) before calling other AnyEvent::MP functions. All arguments are noderefs, which can be either resolved or unresolved. There are two types of networked nodes, public nodes and slave nodes: =over 4 =item public nodes For public nodes, C<$noderef> must either be a (possibly unresolved) noderef, in which case it will be resolved, or C (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, 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. 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. =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>. initialise_node 4041; Example: become a public node, only visible on localhost port 4044. initialise_node "locahost:4044"; Example: become a slave node to any of the specified master servers. initialise_node "slave/", "master1", "192.168.13.17", "mp.example.net"; =item $cv = resolve_node $noderef Takes an unresolved node reference that may contain hostnames and abbreviated IDs, resolves all of them and returns a resolved node reference. In addition to C 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, C) These are resolved by using AnyEvent::DNS to resolve them, optionally looking up SRV records for the C port, if no port was specified. =back =item $SELF Contains the current port id while executing C callbacks or C blocks. =item SELF, %SELF, @SELF... Due to some quirks in how perl exports variables, it is impossible to just export C<$SELF>, all the symbols called C 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. 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. =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 callbacks are bound to the object. =item $port = port { my @msg = @_; $finished } 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 on it. 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. 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: my $port; $port = port { snd $otherport, reply => $port; }; =cut sub rcv($@); sub port(;&) { my $id = "$UNIQ." . $ID++; my $port = "$NODE#$id"; if (@_) { rcv $port, shift; } else { $PORT{$id} = sub { }; # nop } $port } =item reg $port, $name =item reg $name Registers the given port (or C<$SELF><<< if missing) 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 = @_ > 1 ? shift : $SELF || Carp::croak 'reg: called with one argument only, but $SELF not set,'; $REG{$_[0]} = $port; } =item rcv $port, $callback->(@msg) Replaces the callback on the specified miniport (after converting it to one if required). =item rcv $port, tagstring => $callback->(@msg), ... =item rcv $port, $smartmatch => $callback->(@msg), ... =item rcv $port, [$smartmatch...] => $callback->(@msg), ... Register callbacks to be called on matching messages on the given full port (after converting it to one if required) and return the port. The callback has to return a true value when its work is done, after which is will be removed, or a false value in which case it will stay registered. The global C<$SELF> (exported by this module) contains C<$port> while executing the callback. Runtime errors during callback execution will result in the port being Ced. 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. Any element in the match that is specified as C<_any_> (a function exported by this module) matches any single element of the message. 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). Example: create a port and bind receivers on it in one go. my $port = rcv port, msg1 => sub { ...; 0 }, msg2 => sub { ...; 0 }, ; Example: create a port, bind receivers and send it in a message elsewhere in one go: snd $otherport, reply => rcv port, msg1 => sub { ...; 0 }, ... ; =cut sub rcv($@) { my $port = shift; my ($noderef, $portid) = split /#/, $port, 2; ($NODE{$noderef} || add_node $noderef) == $NODE{""} or Carp::croak "$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 $_; } for (@{ $self->{any} }) { $_ && [@_[0 .. $#{$_->[1]}]] ~~ $_->[1] && &{$_->[0]} && undef $_; } }; _self_die if $@; }; $self }; "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; 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]; } else { push @{ $self->{any} }, [$cb, $match]; } } } $port } =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 callbacks, i.e. runtime errors will cause the port to get Ced. This is useful when you register callbacks from C callbacks: rcv delayed_reply => sub { my ($delay, @reply) = @_; my $timer = AE::timer $delay, 0, psub { snd @reply, $SELF; }; }; =cut sub psub(&) { my $cb = shift; my $port = $SELF or Carp::croak "psub can only be called from within rcv or psub callbacks, not"; sub { local $SELF = $port; if (wantarray) { my @res = eval { &$cb }; _self_die if $@; @res } else { my $res = eval { &$cb }; _self_die if $@; $res } } } =item $guard = mon $port, $cb->(@reason) =item $guard = mon $port, $rcvport =item $guard = mon $port =item $guard = mon $port, $rcvport, @msg Monitor the given port and do something when the port is killed or messages to it were lost, and optionally return a guard that can be used to stop monitoring again. C effectively guarantees that, in the absence of hardware failures, that after starting the monitor, either all messages sent to the port will arrive, or the monitoring action will be invoked after possible message loss has been detected. No messages will be lost "in between" (after the first lost message no further messages will be received by the port). After the monitoring action was invoked, further messages might get delivered again. In the first form (callback), the callback is simply called with any number of C<@reason> elements (no @reason means that the port was deleted "normally"). Note also that I<< the callback B never die >>, so use C if unsure. In the second form (another port given), the other port (C<$rcvport>) will be C'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. 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. 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 exmaple, when the connection to the other node goes down permanently). When monitoring a port locally these problems do not exist. Example: call a given callback when C<$port> is killed. mon $port, sub { warn "port died because of <@_>\n" }; Example: kill ourselves when C<$port> is killed abnormally. mon $port; Example: send us a restart message when another C<$port> is killed. mon $port, $self => "restart"; =cut sub mon { my ($noderef, $port) = split /#/, shift, 2; my $node = $NODE{$noderef} || add_node $noderef; my $cb = @_ ? shift : $SELF || Carp::croak 'mon: called with one argument only, but $SELF not set,'; unless (ref $cb) { if (@_) { # send a kill info message my (@msg) = ($cb, @_); $cb = sub { snd @msg, @_ }; } else { # simply kill other port my $port = $cb; $cb = sub { kil $port, @_ if @_ }; } } $node->monitor ($port, $cb); defined wantarray and AnyEvent::Util::guard { $node->unmonitor ($port, $cb) } } =item $guard = mon_guard $port, $ref, $ref... Monitors the given C<$port> and keeps the passed references. When the port is killed, the references will be freed. 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: $port->rcv (start => sub { my $timer; $timer = mon_guard $port, AE::timer 1, 1, sub { undef $timer if 0.9 < rand; }); }); =cut sub mon_guard { my ($port, @refs) = @_; #TODO: mon-less form? mon $port, sub { 0 && @refs } } =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). Otherwise, linked ports get killed with the same reason (second form of C, see below). Runtime errors while evaluating C callbacks or inside C blocks will be reported as reason C<< die => $@ >>. Transport/communication errors are reported as C<< transport_error => $message >>. =cut =item $port = spawn $node, $initfunc[, @initdata] Creates a port on the node C<$node> (which can also be a port ID, in which case it's the node where that port resides). The port ID of the newly created port is return immediately, and it is permissible to immediately start sending messages or monitor the port. After the port has been created, the init function is called. This function must be a fully-qualified function name (e.g. C). To specify a function in the main program, use C<::name>. If the function doesn't exist, then the node tries to C the package, then the package above the package and so on (e.g. C, C, C) 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<$SELF>) and the C<@initdata> values as arguments. A common idiom is to pass your own port, monitor the spawned port, and in the init function, monitor the original port. This two-way monitoring ensures that both ports get cleaned up when there is a problem. Example: spawn a chat server port on C<$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 sub _spawn { my $port = shift; my $init = shift; local $SELF = "$NODE#$port"; eval { &{ load_func $init } }; _self_die if $@; } sub spawn(@) { my ($noderef, undef) = split /#/, shift, 2; my $id = "$RUNIQ." . $ID++; $_[0] =~ /::/ or Carp::croak "spawn init function must be a fully-qualified name, caught"; ($NODE{$noderef} || add_node $noderef) ->send (["", "AnyEvent::MP::_spawn" => $id, @_]); "$noderef#$id" } =back =head1 NODE MESSAGES Nodes understand the following messages sent to them. Many of them take arguments called C<@reply>, which will simply be used to compose a reply message - C<$reply[0]> is the port to reply to, C<$reply[1]> the type and the remaining arguments are simply the message data. While other messages exist, they are not public and subject to change. =over 4 =cut =item lookup => $name, @reply Replies with the port ID of the specified well-known port, or C. =item devnull => ... Generic data sink/CPU heat conversion. =item relay => $port, @msg Simply forwards the message to the given port. =item eval => $string[ @reply] Evaluates the given string. If C<@reply> is given, then a message of the form C<@reply, $@, @evalres> is sent. Example: crash another node. snd $othernode, eval => "exit"; =item time => @reply Replies the the current node time to C<@reply>. Example: tell the current node to send the current time to C<$myport> in a C message. snd $NODE, time => $myport, timereply => 1, 2; # => snd $myport, timereply => 1, 2,