nixpkgs/nixos/tests/bittorrent.nix

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# This test runs a Bittorrent tracker on one machine, and verifies
# that two client machines can download the torrent using
# `transmission'. The first client (behind a NAT router) downloads
# from the initial seeder running on the tracker. Then we kill the
# initial seeder. The second client downloads from the first client,
# which only works if the first client successfully uses the UPnP-IGD
# protocol to poke a hole in the NAT.
import ./make-test.nix ({ pkgs, ... }:
let
# Some random file to serve.
file = pkgs.nixUnstable.src;
miniupnpdConf = nodes: pkgs.writeText "miniupnpd.conf"
''
ext_ifname=eth1
listening_ip=${(pkgs.lib.head nodes.router.config.networking.interfaces.eth2.ip4).address}/24
allow 1024-65535 192.168.2.0/24 1024-65535
'';
in
{
2014-06-28 14:04:49 +00:00
name = "bittorrent";
meta = with pkgs.stdenv.lib.maintainers; {
maintainers = [ iElectric eelco chaoflow rob wkennington ];
};
nodes =
{ tracker =
{ config, pkgs, ... }:
{ environment.systemPackages = [ pkgs.transmission pkgs.opentracker ];
# We need Apache on the tracker to serve the torrents.
services.httpd.enable = true;
services.httpd.adminAddr = "foo@example.org";
services.httpd.documentRoot = "/tmp";
networking.firewall.enable = false; # FIXME: figure out what ports we actually need
};
router =
{ config, pkgs, ... }:
{ environment.systemPackages = [ pkgs.miniupnpd ];
virtualisation.vlans = [ 1 2 ];
networking.nat.enable = true;
networking.nat.internalInterfaces = [ "eth2" ];
networking.nat.externalInterface = "eth1";
networking.firewall.enable = false;
};
client1 =
{ config, pkgs, nodes, ... }:
{ environment.systemPackages = [ pkgs.transmission ];
virtualisation.vlans = [ 2 ];
networking.defaultGateway =
(pkgs.lib.head nodes.router.config.networking.interfaces.eth2.ip4).address;
networking.firewall.enable = false;
};
client2 =
{ config, pkgs, ... }:
{ environment.systemPackages = [ pkgs.transmission ];
networking.firewall.enable = false;
};
};
testScript =
{ nodes, ... }:
''
startAll;
# Enable NAT on the router and start miniupnpd.
$router->waitForUnit("nat");
$router->succeed(
"iptables -w -t nat -N MINIUPNPD",
"iptables -w -t nat -A PREROUTING -i eth1 -j MINIUPNPD",
"echo 1 > /proc/sys/net/ipv4/ip_forward",
"miniupnpd -f ${miniupnpdConf nodes}"
);
# Create the torrent.
$tracker->succeed("mkdir /tmp/data");
$tracker->succeed("cp ${file} /tmp/data/test.tar.bz2");
$tracker->succeed("transmission-create /tmp/data/test.tar.bz2 -p -t http://${(pkgs.lib.head nodes.tracker.config.networking.interfaces.eth1.ip4).address}:6969/announce -o /tmp/test.torrent");
$tracker->succeed("chmod 644 /tmp/test.torrent");
# Start the tracker. !!! use a less crappy tracker
$tracker->waitForUnit("network.target");
$tracker->succeed("opentracker -p 6969 >&2 &");
$tracker->waitForOpenPort(6969);
# Start the initial seeder.
my $pid = $tracker->succeed("transmission-cli /tmp/test.torrent -M -w /tmp/data >&2 & echo \$!");
# Now we should be able to download from the client behind the NAT.
$tracker->waitForUnit("httpd");
$client1->waitForUnit("network.target");
$client1->succeed("transmission-cli http://tracker/test.torrent -w /tmp >&2 &");
$client1->waitForFile("/tmp/test.tar.bz2");
$client1->succeed("cmp /tmp/test.tar.bz2 ${file}");
# Bring down the initial seeder.
$tracker->succeed("kill -9 $pid");
# Now download from the second client. This can only succeed if
# the first client created a NAT hole in the router.
$client2->waitForUnit("network.target");
$client2->succeed("transmission-cli http://tracker/test.torrent -M -w /tmp >&2 &");
$client2->waitForFile("/tmp/test.tar.bz2");
$client2->succeed("cmp /tmp/test.tar.bz2 ${file}");
'';
})