Awesome
ZMQ::FFI 
version agnostic Perl bindings for ØMQ using ffi
ZMQ::FFI exposes a high level, transparent, OO interface to zeromq independent of the underlying libzmq version. Where semantics differ, it will dispatch to the appropriate backend for you. As it uses ffi, there is no dependency on XS or compilation.
ZMQ::FFI is implemented using FFI::Platypus.
EXAMPLES
send/recv
use 5.012;
use ZMQ::FFI qw(ZMQ_REQ ZMQ_REP);
my $endpoint = "ipc://zmq-ffi-$$";
my $ctx = ZMQ::FFI->new();
my $s1 = $ctx->socket(ZMQ_REQ);
$s1->connect($endpoint);
my $s2 = $ctx->socket(ZMQ_REP);
$s2->bind($endpoint);
$s1->send('ohhai');
say $s2->recv();
# ohhai
pub/sub
use 5.012;
use ZMQ::FFI qw(ZMQ_PUB ZMQ_SUB);
use Time::HiRes q(usleep);
my $endpoint = "ipc://zmq-ffi-$$";
my $ctx = ZMQ::FFI->new();
my $s = $ctx->socket(ZMQ_SUB);
my $p = $ctx->socket(ZMQ_PUB);
$s->connect($endpoint);
$p->bind($endpoint);
# all topics
{
$s->subscribe('');
until ($s->has_pollin) {
# compensate for slow subscriber
usleep 100_000;
$p->send('ohhai');
}
say $s->recv();
# ohhai
$s->unsubscribe('');
}
# specific topics
{
$s->subscribe('topic1');
$s->subscribe('topic2');
until ($s->has_pollin) {
usleep 100_000;
$p->send('topic1 ohhai');
$p->send('topic2 ohhai');
}
while ($s->has_pollin) {
say join ' ', $s->recv();
# topic1 ohhai
# topic2 ohhai
}
}
multipart
use 5.012;
use ZMQ::FFI qw(ZMQ_DEALER ZMQ_ROUTER);
my $endpoint = "ipc://zmq-ffi-$$";
my $ctx = ZMQ::FFI->new();
my $d = $ctx->socket(ZMQ_DEALER);
$d->set_identity('dealer');
my $r = $ctx->socket(ZMQ_ROUTER);
$d->connect($endpoint);
$r->bind($endpoint);
$d->send_multipart([qw(ABC DEF GHI)]);
say join ' ', $r->recv_multipart;
# dealer ABC DEF GHI
nonblocking
use 5.012;
use ZMQ::FFI qw(ZMQ_PUSH ZMQ_PULL);
use AnyEvent;
use EV;
my $endpoint = "ipc://zmq-ffi-$$";
my $ctx = ZMQ::FFI->new();
my @messages = qw(foo bar baz);
my $pull = $ctx->socket(ZMQ_PULL);
$pull->bind($endpoint);
my $fd = $pull->get_fd();
my $recv = 0;
my $w = AE::io $fd, 0, sub {
while ( $pull->has_pollin ) {
say $pull->recv();
# foo, bar, baz
$recv++;
if ($recv == 3) {
EV::break();
}
}
};
my $push = $ctx->socket(ZMQ_PUSH);
$push->connect($endpoint);
my $sent = 0;
my $t;
$t = AE::timer 0, .1, sub {
$push->send($messages[$sent]);
$sent++;
if ($sent == 3) {
undef $t;
}
};
EV::run();
specifying versions
use ZMQ::FFI;
# 2.x context
my $ctx = ZMQ::FFI->new( soname => 'libzmq.so.1' );
my ($major, $minor, $patch) = $ctx->version;
# 3.x context
my $ctx = ZMQ::FFI->new( soname => 'libzmq.so.3' );
my ($major, $minor, $patch) = $ctx->version;
INSTALL
cpanm -v ZMQ::FFI
BUILD
A docker image is provided with a pre-configured testing environment. To test the module:
./docker-run dzil test
To build a dist tarball:
./docker-run dzil build
To clean build artifacts:
./docker-run dzil clean
Tests will run against every stable version of zeromq as well as master. If you would like an interactive shell inside the container run ./docker-shell
If you would prefer a native local setup refer to the Dockerfile and translate the setup steps accordingly for your distribution/platform (I personally use the docker container, and this is also how tests run under Travis).