mirror of
https://github.com/mirage/qubes-mirage-firewall.git
synced 2024-10-01 01:05:39 -04:00
Read firewall rules from QubesDB. The module Rules contains a rule matcher instead of hardcoded rules now.
Co-Authored-By: Mindy Preston <yomimono@users.noreply.github.com>
This commit is contained in:
parent
02e515d27c
commit
87df5bdcc0
@ -7,9 +7,9 @@ FROM ocurrent/opam@sha256:3f3ce7e577a94942c7f9c63cbdd1ecbfe0ea793f581f69047f3155
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# Pin last known-good version for reproducible builds.
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# Remove this line (and the base image pin above) if you want to test with the
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# latest versions.
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RUN cd ~/opam-repository && git fetch origin master && git reset --hard ebac42783217016bd2c4108bbbef102aab56cdde && opam update
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RUN cd ~/opam-repository && git fetch origin master && git reset --hard 3548c2a8537029b8165466cd9c5a94bb7bc30405 && opam update
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RUN opam depext -i -y mirage.3.7.4 lwt.4.5.0
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RUN opam depext -i -y mirage.3.7.6 lwt.5.2.0
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RUN mkdir /home/opam/qubes-mirage-firewall
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ADD config.ml /home/opam/qubes-mirage-firewall/config.ml
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WORKDIR /home/opam/qubes-mirage-firewall
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@ -4,5 +4,5 @@ SOURCE_BUILD_DEP := firewall-build-dep
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firewall-build-dep:
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opam install -y depext
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opam depext -i -y mirage.3.7.4 lwt.4.5.0
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opam depext -i -y mirage.3.7.6 lwt.5.2.0
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@ -5,3 +5,8 @@ tar: build
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touch _build/mirage-firewall/modules.img
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cat /dev/null | gzip -n > _build/mirage-firewall/initramfs
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tar cjf mirage-firewall.tar.bz2 -C _build --mtime=./build-with-docker.sh mirage-firewall
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fetchmotron: qubes_firewall.xen
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test-mirage qubes_firewall.xen mirage-fw-test &
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sleep 1
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boot-mirage fetchmotron
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@ -165,6 +165,13 @@ This takes a little more setting up the first time, but will be much quicker aft
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2017-03-18 11:32:38 -00:00: INF [dao] Watching backend/vif
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2017-03-18 11:32:38 -00:00: INF [qubes.db] got update: "/qubes-netvm-domid" = "1"
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# Testing if the firewall works
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Build the test unikernel in the test directory.
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Install it to a vm which has the firewall as netvm.
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Set the rules for the testvm to "textfile".
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Run the test unikernel.
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# Security advisories
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See [issues tagged "security"](https://github.com/mirage/qubes-mirage-firewall/issues?utf8=%E2%9C%93&q=label%3Asecurity+) for security advisories affecting the firewall.
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@ -30,6 +30,9 @@ class client_iface eth ~domid ~gateway_ip ~client_ip client_mac : client_link =
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let log_header = Fmt.strf "dom%d:%a" domid Ipaddr.V4.pp client_ip in
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object
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val queue = FrameQ.create (Ipaddr.V4.to_string client_ip)
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val mutable rules = []
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method get_rules = rules
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method set_rules new_db = rules <- Dao.read_rules new_db client_ip
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method my_mac = ClientEth.mac eth
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method other_mac = client_mac
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method my_ip = gateway_ip
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@ -74,8 +77,8 @@ let input_ipv4 get_ts cache ~iface ~router packet =
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Lwt.return_unit
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)
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(** Connect to a new client's interface and listen for incoming frames. *)
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let add_vif get_ts { Dao.ClientVif.domid; device_id } ~client_ip ~router ~cleanup_tasks =
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(** Connect to a new client's interface and listen for incoming frames and firewall rule changes. *)
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let add_vif get_ts { Dao.ClientVif.domid; device_id } ~client_ip ~router ~cleanup_tasks qubesDB =
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Netback.make ~domid ~device_id >>= fun backend ->
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Log.info (fun f -> f "Client %d (IP: %s) ready" domid (Ipaddr.V4.to_string client_ip));
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ClientEth.connect backend >>= fun eth ->
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@ -83,28 +86,59 @@ let add_vif get_ts { Dao.ClientVif.domid; device_id } ~client_ip ~router ~cleanu
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let client_eth = router.Router.client_eth in
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let gateway_ip = Client_eth.client_gw client_eth in
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let iface = new client_iface eth ~domid ~gateway_ip ~client_ip client_mac in
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(* update the rules whenever QubesDB notices a change for this IP *)
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let qubesdb_updater =
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Lwt.catch
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(fun () ->
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let rec update current_db current_rules =
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Qubes.DB.got_new_commit qubesDB (Dao.db_root client_ip) current_db >>= fun new_db ->
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iface#set_rules new_db;
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let new_rules = iface#get_rules in
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(if current_rules = new_rules then
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Log.debug (fun m -> m "Rules did not change for %s" (Ipaddr.V4.to_string client_ip))
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else begin
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Log.debug (fun m -> m "New firewall rules for %s@.%a"
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(Ipaddr.V4.to_string client_ip)
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Fmt.(list ~sep:(unit "@.") Pf_qubes.Parse_qubes.pp_rule) new_rules);
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(* empty NAT table if rules are updated: they might deny old connections *)
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My_nat.remove_connections router.Router.nat client_ip;
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end);
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update new_db new_rules
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in
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update Qubes.DB.KeyMap.empty [])
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(function Lwt.Canceled -> Lwt.return_unit | e -> Lwt.fail e)
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in
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Cleanup.on_cleanup cleanup_tasks (fun () -> Lwt.cancel qubesdb_updater);
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Router.add_client router iface >>= fun () ->
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Cleanup.on_cleanup cleanup_tasks (fun () -> Router.remove_client router iface);
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let fixed_arp = Client_eth.ARP.create ~net:client_eth iface in
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let fragment_cache = ref (Fragments.Cache.empty (256 * 1024)) in
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Netback.listen backend ~header_size:Ethernet_wire.sizeof_ethernet (fun frame ->
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match Ethernet_packet.Unmarshal.of_cstruct frame with
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| Error err -> Log.warn (fun f -> f "Invalid Ethernet frame: %s" err); Lwt.return_unit
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| Ok (eth, payload) ->
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match eth.Ethernet_packet.ethertype with
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| `ARP -> input_arp ~fixed_arp ~iface payload
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| `IPv4 -> input_ipv4 get_ts fragment_cache ~iface ~router payload
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| `IPv6 -> Lwt.return_unit (* TODO: oh no! *)
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)
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>|= or_raise "Listen on client interface" Netback.pp_error
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let listener =
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Lwt.catch
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(fun () ->
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Netback.listen backend ~header_size:Ethernet_wire.sizeof_ethernet (fun frame ->
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match Ethernet_packet.Unmarshal.of_cstruct frame with
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| Error err -> Log.warn (fun f -> f "Invalid Ethernet frame: %s" err); Lwt.return_unit
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| Ok (eth, payload) ->
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match eth.Ethernet_packet.ethertype with
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| `ARP -> input_arp ~fixed_arp ~iface payload
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| `IPv4 -> input_ipv4 get_ts fragment_cache ~iface ~router payload
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| `IPv6 -> Lwt.return_unit (* TODO: oh no! *)
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)
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>|= or_raise "Listen on client interface" Netback.pp_error)
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(function Lwt.Canceled -> Lwt.return_unit | e -> Lwt.fail e)
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in
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Cleanup.on_cleanup cleanup_tasks (fun () -> Lwt.cancel listener);
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Lwt.pick [ qubesdb_updater ; listener ]
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(** A new client VM has been found in XenStore. Find its interface and connect to it. *)
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let add_client get_ts ~router vif client_ip =
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let add_client get_ts ~router vif client_ip qubesDB =
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let cleanup_tasks = Cleanup.create () in
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Log.info (fun f -> f "add client vif %a with IP %a" Dao.ClientVif.pp vif Ipaddr.V4.pp client_ip);
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Log.info (fun f -> f "add client vif %a with IP %a"
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Dao.ClientVif.pp vif Ipaddr.V4.pp client_ip);
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Lwt.async (fun () ->
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Lwt.catch (fun () ->
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add_vif get_ts vif ~client_ip ~router ~cleanup_tasks
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add_vif get_ts vif ~client_ip ~router ~cleanup_tasks qubesDB
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)
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(fun ex ->
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Log.warn (fun f -> f "Error with client %a: %s"
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@ -115,7 +149,7 @@ let add_client get_ts ~router vif client_ip =
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cleanup_tasks
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(** Watch XenStore for notifications of new clients. *)
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let listen get_ts router =
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let listen get_ts qubesDB router =
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Dao.watch_clients (fun new_set ->
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(* Check for removed clients *)
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!clients |> Dao.VifMap.iter (fun key cleanup ->
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@ -128,7 +162,8 @@ let listen get_ts router =
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(* Check for added clients *)
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new_set |> Dao.VifMap.iter (fun key ip_addr ->
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if not (Dao.VifMap.mem key !clients) then (
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let cleanup = add_client get_ts ~router key ip_addr in
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let cleanup = add_client get_ts ~router key ip_addr qubesDB in
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Log.debug (fun f -> f "client %a arrived" Dao.ClientVif.pp key);
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clients := !clients |> Dao.VifMap.add key cleanup
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)
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)
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@ -3,8 +3,8 @@
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(** Handling client VMs. *)
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val listen : (unit -> int64) -> Router.t -> 'a Lwt.t
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(** [listen get_timestamp router] is a thread that watches for clients being
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added to and removed from XenStore. Clients are connected to the client
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network and packets are sent via [router]. We ensure the source IP address
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is correct before routing a packet. *)
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val listen : (unit -> int64) -> Qubes.DB.t -> Router.t -> 'a Lwt.t
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(** [listen get_timestamp db router] is a thread that watches for clients being added to and
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removed from XenStore. Clients are connected to the client network and
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packets are sent via [router]. We ensure the source IP address is correct
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before routing a packet. *)
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@ -30,13 +30,14 @@ let main =
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package "netchannel" ~min:"1.11.0";
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package "mirage-net-xen";
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package "ipaddr" ~min:"4.0.0";
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package "mirage-qubes" ~min:"0.8.0";
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package "mirage-nat" ~min:"2.1.0";
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package "mirage-qubes" ~min:"0.8.2";
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package "mirage-nat" ~min:"2.2.1";
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package "mirage-logs";
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package "mirage-xen" ~min:"5.0.0";
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package "pf-qubes";
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]
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"Unikernel.Main" (mclock @-> job)
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"Unikernel.Main" (random @-> mclock @-> job)
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let () =
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register "qubes-firewall" [main $ default_monotonic_clock]
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register "qubes-firewall" [main $ default_random $ default_monotonic_clock]
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~argv:no_argv
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32
dao.ml
32
dao.ml
@ -33,6 +33,38 @@ let directory ~handle dir =
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| [""] -> [] (* XenStore client bug *)
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| items -> items
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let db_root client_ip =
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"/qubes-firewall/" ^ (Ipaddr.V4.to_string client_ip)
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let read_rules rules client_ip =
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let root = db_root client_ip in
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let rec get_rule n l : (Pf_qubes.Parse_qubes.rule list, string) result =
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let pattern = root ^ "/" ^ Printf.sprintf "%04d" n in
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Log.debug (fun f -> f "reading %s" pattern);
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match Qubes.DB.KeyMap.find_opt pattern rules with
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| None ->
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Log.debug (fun f -> f "rule %d does not exist; won't look for more" n);
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Ok (List.rev l)
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| Some rule ->
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Log.debug (fun f -> f "rule %d: %s" n rule);
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match Pf_qubes.Parse_qubes.parse_qubes ~number:n rule with
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| Error e -> Log.warn (fun f -> f "Error parsing rule %d: %s" n e); Error e
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| Ok rule ->
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Log.debug (fun f -> f "parsed rule: %a" Pf_qubes.Parse_qubes.pp_rule rule);
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get_rule (n+1) (rule :: l)
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in
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match get_rule 0 [] with
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| Ok l -> l
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| Error e ->
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Log.warn (fun f -> f "Defaulting to deny-all because of rule parse failure (%s)" e);
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[ Pf_qubes.Parse_qubes.({action = Drop;
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proto = None;
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specialtarget = None;
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dst = `any;
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dstports = None;
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icmp_type = None;
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number = 0;})]
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let vifs ~handle domid =
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match String.to_int domid with
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| None -> Log.err (fun f -> f "Invalid domid %S" domid); Lwt.return []
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7
dao.mli
7
dao.mli
@ -30,4 +30,11 @@ val read_network_config : Qubes.DB.t -> network_config Lwt.t
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(** [read_network_config db] fetches the configuration from QubesDB.
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If it isn't there yet, it waits until it is. *)
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val db_root : Ipaddr.V4.t -> string
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(** Returns the root path of the firewall rules in the QubesDB for a given IP address. *)
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val read_rules : string Qubes.DB.KeyMap.t -> Ipaddr.V4.t -> Pf_qubes.Parse_qubes.rule list
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(** [read_rules bindings ip] extracts firewall rule information for [ip] from [bindings].
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If any rules fail to parse, it will return only one rule denying all traffic. *)
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val set_iptables_error : Qubes.DB.t -> string -> unit Lwt.t
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@ -1,6 +1,12 @@
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+----------+
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| rules |
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+----------+
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+--------------------+
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| rules from QubesDB |
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+--------------------+
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^
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if-not-in-nat | then check
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+-----------+
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| nat-table |
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+-----------+
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^
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|checks
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103
firewall.ml
103
firewall.ml
@ -16,7 +16,7 @@ let transmit_ipv4 packet iface =
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iface#writev `IPv4 (fun b ->
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match Nat_packet.into_cstruct packet b with
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| Error e ->
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Log.warn (fun f -> f "Failed to NAT packet to %a: %a"
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Log.warn (fun f -> f "Failed to write packet to %a: %a"
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Ipaddr.V4.pp iface#other_ip
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Nat_packet.pp_error e);
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0
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@ -38,72 +38,6 @@ let forward_ipv4 t packet =
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| Some iface -> transmit_ipv4 packet iface
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| None -> Lwt.return_unit
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(* Packet classification *)
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let parse_ips ips = List.map (fun (ip_str, id) -> (Ipaddr.of_string_exn ip_str, id)) ips
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let clients = parse_ips Rules.clients
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let externals = parse_ips Rules.externals
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let resolve_client client =
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`Client (try List.assoc (Ipaddr.V4 client#other_ip) clients with Not_found -> `Unknown)
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let resolve_host = function
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| `Client c -> resolve_client c
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| `External ip -> `External (try List.assoc ip externals with Not_found -> `Unknown)
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| (`Firewall | `NetVM) as x -> x
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let classify ~src ~dst packet =
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let `IPv4 (_ip, transport) = packet in
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let proto =
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match transport with
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| `TCP ({Tcp.Tcp_packet.src_port; dst_port; _}, _) -> `TCP {sport = src_port; dport = dst_port}
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| `UDP ({Udp_packet.src_port; dst_port; _}, _) -> `UDP {sport = src_port; dport = dst_port}
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| `ICMP _ -> `ICMP
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in
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Some {
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packet;
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src;
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dst;
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proto;
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}
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let pp_ports fmt {sport; dport} =
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Format.fprintf fmt "sport=%d dport=%d" sport dport
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let pp_host fmt = function
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| `Client c -> Ipaddr.V4.pp fmt (c#other_ip)
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| `Unknown_client ip -> Format.fprintf fmt "unknown-client(%a)" Ipaddr.pp ip
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| `NetVM -> Format.pp_print_string fmt "net-vm"
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| `External ip -> Format.fprintf fmt "external(%a)" Ipaddr.pp ip
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| `Firewall -> Format.pp_print_string fmt "firewall"
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let pp_proto fmt = function
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| `UDP ports -> Format.fprintf fmt "UDP(%a)" pp_ports ports
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| `TCP ports -> Format.fprintf fmt "TCP(%a)" pp_ports ports
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| `ICMP -> Format.pp_print_string fmt "ICMP"
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| `Unknown -> Format.pp_print_string fmt "UnknownProtocol"
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let pp_packet t fmt {src = _; dst = _; proto; packet} =
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let `IPv4 (ip, _transport) = packet in
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let src = Router.classify t (Ipaddr.V4 ip.Ipv4_packet.src) in
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let dst = Router.classify t (Ipaddr.V4 ip.Ipv4_packet.dst) in
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Format.fprintf fmt "[src=%a dst=%a proto=%a]"
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pp_host src
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pp_host dst
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pp_proto proto
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let pp_transport_headers f = function
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| `ICMP (h, _) -> Icmpv4_packet.pp f h
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| `TCP (h, _) -> Tcp.Tcp_packet.pp f h
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| `UDP (h, _) -> Udp_packet.pp f h
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let pp_header f = function
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| `IPv4 (ip, transport) ->
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Fmt.pf f "%a %a"
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Ipv4_packet.pp ip
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pp_transport_headers transport
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(* NAT *)
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let translate t packet =
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@ -115,7 +49,7 @@ let add_nat_and_forward_ipv4 t packet =
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My_nat.add_nat_rule_and_translate t.Router.nat ~xl_host `NAT packet >>= function
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| Ok packet -> forward_ipv4 t packet
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| Error e ->
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Log.warn (fun f -> f "Failed to add NAT rewrite rule: %s (%a)" e pp_header packet);
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Log.warn (fun f -> f "Failed to add NAT rewrite rule: %s (%a)" e Nat_packet.pp packet);
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Lwt.return_unit
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(* Add a NAT rule to redirect this conversation to [host:port] instead of us. *)
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@ -127,23 +61,24 @@ let nat_to t ~host ~port packet =
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My_nat.add_nat_rule_and_translate t.Router.nat ~xl_host (`Redirect (target, port)) packet >>= function
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| Ok packet -> forward_ipv4 t packet
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| Error e ->
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Log.warn (fun f -> f "Failed to add NAT redirect rule: %s (%a)" e pp_header packet);
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Log.warn (fun f -> f "Failed to add NAT redirect rule: %s (%a)" e Nat_packet.pp packet);
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Lwt.return_unit
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(* Handle incoming packets *)
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let apply_rules t rules ~dst info =
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let packet = info.packet in
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match rules info, dst with
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let apply_rules t (rules : ('a, 'b) Packet.t -> Packet.action Lwt.t) ~dst (annotated_packet : ('a, 'b) Packet.t) : unit Lwt.t =
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let packet = to_mirage_nat_packet annotated_packet in
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rules annotated_packet >>= fun action ->
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match action, dst with
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| `Accept, `Client client_link -> transmit_ipv4 packet client_link
|
||||
| `Accept, (`External _ | `NetVM) -> transmit_ipv4 packet t.Router.uplink
|
||||
| `Accept, `Firewall ->
|
||||
Log.warn (fun f -> f "Bad rule: firewall can't accept packets %a" (pp_packet t) info);
|
||||
Log.warn (fun f -> f "Bad rule: firewall can't accept packets %a" Nat_packet.pp packet);
|
||||
Lwt.return_unit
|
||||
| `NAT, _ -> add_nat_and_forward_ipv4 t packet
|
||||
| `NAT, _ ->
|
||||
Log.debug (fun f -> f "adding NAT rule for %a" Nat_packet.pp packet);
|
||||
add_nat_and_forward_ipv4 t packet
|
||||
| `NAT_to (host, port), _ -> nat_to t packet ~host ~port
|
||||
| `Drop reason, _ ->
|
||||
Log.info (fun f -> f "Dropped packet (%s) %a" reason (pp_packet t) info);
|
||||
Log.debug (fun f -> f "Dropped packet (%s) %a" reason Nat_packet.pp packet);
|
||||
Lwt.return_unit
|
||||
|
||||
let handle_low_memory t =
|
||||
@ -165,9 +100,9 @@ let ipv4_from_client t ~src packet =
|
||||
(* No existing NAT entry. Check the firewall rules. *)
|
||||
let `IPv4 (ip, _transport) = packet in
|
||||
let dst = Router.classify t (Ipaddr.V4 ip.Ipv4_packet.dst) in
|
||||
match classify ~src:(resolve_client src) ~dst:(resolve_host dst) packet with
|
||||
match of_mirage_nat_packet ~src:(`Client src) ~dst packet with
|
||||
| None -> Lwt.return_unit
|
||||
| Some info -> apply_rules t Rules.from_client ~dst info
|
||||
| Some firewall_packet -> apply_rules t Rules.from_client ~dst firewall_packet
|
||||
|
||||
let ipv4_from_netvm t packet =
|
||||
handle_low_memory t >>= function
|
||||
@ -176,15 +111,17 @@ let ipv4_from_netvm t packet =
|
||||
let `IPv4 (ip, _transport) = packet in
|
||||
let src = Router.classify t (Ipaddr.V4 ip.Ipv4_packet.src) in
|
||||
let dst = Router.classify t (Ipaddr.V4 ip.Ipv4_packet.dst) in
|
||||
match classify ~src ~dst:(resolve_host dst) packet with
|
||||
match Packet.of_mirage_nat_packet ~src ~dst packet with
|
||||
| None -> Lwt.return_unit
|
||||
| Some info ->
|
||||
| Some _ ->
|
||||
match src with
|
||||
| `Client _ | `Firewall ->
|
||||
Log.warn (fun f -> f "Frame from NetVM has internal source IP address! %a" (pp_packet t) info);
|
||||
Log.warn (fun f -> f "Frame from NetVM has internal source IP address! %a" Nat_packet.pp packet);
|
||||
Lwt.return_unit
|
||||
| `External _ | `NetVM as src ->
|
||||
translate t packet >>= function
|
||||
| Some frame -> forward_ipv4 t frame
|
||||
| None ->
|
||||
apply_rules t Rules.from_netvm ~dst { info with src }
|
||||
match Packet.of_mirage_nat_packet ~src ~dst packet with
|
||||
| None -> Lwt.return_unit
|
||||
| Some packet -> apply_rules t Rules.from_netvm ~dst packet
|
||||
|
@ -31,6 +31,8 @@ class type client_link = object
|
||||
inherit interface
|
||||
method other_mac : Macaddr.t
|
||||
method log_header : string (* For log messages *)
|
||||
method get_rules: Pf_qubes.Parse_qubes.rule list
|
||||
method set_rules: string Qubes.DB.KeyMap.t -> unit
|
||||
end
|
||||
|
||||
(** An Ethernet header from [src]'s MAC address to [dst]'s with an IPv4 payload. *)
|
||||
|
@ -39,6 +39,10 @@ let random_user_port () =
|
||||
let reset t =
|
||||
Nat.reset t.table
|
||||
|
||||
let remove_connections t ip =
|
||||
let Mirage_nat.{ tcp ; udp } = Nat.remove_connections t.table ip in
|
||||
ignore(tcp, udp)
|
||||
|
||||
let add_nat_rule_and_translate t ~xl_host action packet =
|
||||
let apply_action xl_port =
|
||||
Lwt.catch (fun () ->
|
||||
@ -56,13 +60,13 @@ let add_nat_rule_and_translate t ~xl_host action packet =
|
||||
(* Because hash tables resize in big steps, this can happen even if we have a fair
|
||||
chunk of free memory. *)
|
||||
Log.warn (fun f -> f "Out_of_memory adding NAT rule. Dropping NAT table...");
|
||||
Nat.reset t.table >>= fun () ->
|
||||
reset t >>= fun () ->
|
||||
aux ~retries:(retries - 1)
|
||||
| Error `Overlap when retries < 0 -> Lwt.return (Error "Too many retries")
|
||||
| Error `Overlap ->
|
||||
if retries = 0 then (
|
||||
Log.warn (fun f -> f "Failed to find a free port; resetting NAT table");
|
||||
Nat.reset t.table >>= fun () ->
|
||||
reset t >>= fun () ->
|
||||
aux ~retries:(retries - 1)
|
||||
) else (
|
||||
aux ~retries:(retries - 1)
|
||||
|
@ -12,6 +12,7 @@ type action = [
|
||||
|
||||
val create : max_entries:int -> t Lwt.t
|
||||
val reset : t -> unit Lwt.t
|
||||
val remove_connections : t -> Ipaddr.V4.t -> unit
|
||||
val translate : t -> Nat_packet.t -> Nat_packet.t option Lwt.t
|
||||
val add_nat_rule_and_translate : t -> xl_host:Ipaddr.V4.t ->
|
||||
action -> Nat_packet.t -> (Nat_packet.t, string) result Lwt.t
|
||||
val add_nat_rule_and_translate : t ->
|
||||
xl_host:Ipaddr.V4.t -> action -> Nat_packet.t -> (Nat_packet.t, string) result Lwt.t
|
||||
|
65
packet.ml
65
packet.ml
@ -5,33 +5,60 @@ open Fw_utils
|
||||
|
||||
type port = int
|
||||
|
||||
type ports = {
|
||||
sport : port; (* Source port *)
|
||||
dport : port; (* Destination *)
|
||||
}
|
||||
|
||||
type host =
|
||||
type host =
|
||||
[ `Client of client_link | `Firewall | `NetVM | `External of Ipaddr.t ]
|
||||
|
||||
type ('src, 'dst) info = {
|
||||
packet : Nat_packet.t;
|
||||
type transport_header = [`TCP of Tcp.Tcp_packet.t
|
||||
|`UDP of Udp_packet.t
|
||||
|`ICMP of Icmpv4_packet.t]
|
||||
|
||||
type ('src, 'dst) t = {
|
||||
ipv4_header : Ipv4_packet.t;
|
||||
transport_header : transport_header;
|
||||
transport_payload : Cstruct.t;
|
||||
src : 'src;
|
||||
dst : 'dst;
|
||||
proto : [ `UDP of ports | `TCP of ports | `ICMP | `Unknown ];
|
||||
}
|
||||
let pp_transport_header f = function
|
||||
| `ICMP h -> Icmpv4_packet.pp f h
|
||||
| `TCP h -> Tcp.Tcp_packet.pp f h
|
||||
| `UDP h -> Udp_packet.pp f h
|
||||
|
||||
(* The first message in a TCP connection has SYN set and ACK clear. *)
|
||||
let is_tcp_start = function
|
||||
| `IPv4 (_ip, `TCP (hdr, _body)) -> Tcp.Tcp_packet.(hdr.syn && not hdr.ack)
|
||||
| _ -> false
|
||||
let pp_host fmt = function
|
||||
| `Client c -> Ipaddr.V4.pp fmt (c#other_ip)
|
||||
| `Unknown_client ip -> Format.fprintf fmt "unknown-client(%a)" Ipaddr.pp ip
|
||||
| `NetVM -> Format.pp_print_string fmt "net-vm"
|
||||
| `External ip -> Format.fprintf fmt "external(%a)" Ipaddr.pp ip
|
||||
| `Firewall -> Format.pp_print_string fmt "firewall(client-gw)"
|
||||
|
||||
(* The possible actions we can take for a packet: *)
|
||||
let to_mirage_nat_packet t : Nat_packet.t =
|
||||
match t.transport_header with
|
||||
| `TCP h -> `IPv4 (t.ipv4_header, (`TCP (h, t.transport_payload)))
|
||||
| `UDP h -> `IPv4 (t.ipv4_header, (`UDP (h, t.transport_payload)))
|
||||
| `ICMP h -> `IPv4 (t.ipv4_header, (`ICMP (h, t.transport_payload)))
|
||||
|
||||
let of_mirage_nat_packet ~src ~dst packet : ('a, 'b) t option =
|
||||
let `IPv4 (ipv4_header, ipv4_payload) = packet in
|
||||
let transport_header, transport_payload = match ipv4_payload with
|
||||
| `TCP (h, p) -> `TCP h, p
|
||||
| `UDP (h, p) -> `UDP h, p
|
||||
| `ICMP (h, p) -> `ICMP h, p
|
||||
in
|
||||
Some {
|
||||
ipv4_header;
|
||||
transport_header;
|
||||
transport_payload;
|
||||
src;
|
||||
dst;
|
||||
}
|
||||
|
||||
(* possible actions to take for a packet: *)
|
||||
type action = [
|
||||
| `Accept (* Send the packet to its destination. *)
|
||||
| `NAT (* Rewrite the packet's source field so packet appears to
|
||||
have come from the firewall, via an unused port.
|
||||
Also, add NAT rules so related packets will be translated accordingly. *)
|
||||
| `Accept (* Send to destination, unmodified. *)
|
||||
| `NAT (* Rewrite source field to the firewall's IP, with a fresh source port.
|
||||
Also, add translation rules for future traffic in both directions,
|
||||
between these hosts on these ports, and corresponding ICMP error traffic. *)
|
||||
| `NAT_to of host * port (* As for [`NAT], but also rewrite the packet's
|
||||
destination fields so it will be sent to [host:port]. *)
|
||||
| `Drop of string (* Drop the packet and log the given reason. *)
|
||||
| `Drop of string (* Drop packet for this reason. *)
|
||||
]
|
||||
|
39
packet.mli
Normal file
39
packet.mli
Normal file
@ -0,0 +1,39 @@
|
||||
type port = int
|
||||
|
||||
type host =
|
||||
[ `Client of Fw_utils.client_link (** an IP address on the private network *)
|
||||
| `Firewall (** the firewall's IP on the private network *)
|
||||
| `NetVM (** the IP of the firewall's default route *)
|
||||
| `External of Ipaddr.t (** an IP on the public network *)
|
||||
]
|
||||
|
||||
type transport_header = [`TCP of Tcp.Tcp_packet.t
|
||||
|`UDP of Udp_packet.t
|
||||
|`ICMP of Icmpv4_packet.t]
|
||||
|
||||
type ('src, 'dst) t = {
|
||||
ipv4_header : Ipv4_packet.t;
|
||||
transport_header : transport_header;
|
||||
transport_payload : Cstruct.t;
|
||||
src : 'src;
|
||||
dst : 'dst;
|
||||
}
|
||||
|
||||
val pp_transport_header : Format.formatter -> transport_header -> unit
|
||||
|
||||
val pp_host : Format.formatter -> host -> unit
|
||||
|
||||
val to_mirage_nat_packet : ('a, 'b) t -> Nat_packet.t
|
||||
|
||||
val of_mirage_nat_packet : src:'a -> dst:'b -> Nat_packet.t -> ('a, 'b) t option
|
||||
|
||||
(* possible actions to take for a packet: *)
|
||||
type action = [
|
||||
| `Accept (* Send to destination, unmodified. *)
|
||||
| `NAT (* Rewrite source field to the firewall's IP, with a fresh source port.
|
||||
Also, add translation rules for future traffic in both directions,
|
||||
between these hosts on these ports, and corresponding ICMP error traffic. *)
|
||||
| `NAT_to of host * port (* As for [`NAT], but also rewrite the packet's
|
||||
destination fields so it will be sent to [host:port]. *)
|
||||
| `Drop of string (* Drop packet for this reason. *)
|
||||
]
|
@ -10,14 +10,13 @@ type t = private {
|
||||
nat : My_nat.t;
|
||||
uplink : interface;
|
||||
}
|
||||
(** A routing table. *)
|
||||
|
||||
val create :
|
||||
client_eth:Client_eth.t ->
|
||||
uplink:interface ->
|
||||
nat:My_nat.t ->
|
||||
t
|
||||
(** [create ~client_eth ~uplink] is a new routing table
|
||||
(** [create ~client_eth ~uplink ~nat] is a new routing table
|
||||
that routes packets outside of [client_eth] via [uplink]. *)
|
||||
|
||||
val target : t -> Ipv4_packet.t -> interface option
|
||||
|
133
rules.ml
133
rules.ml
@ -1,62 +1,101 @@
|
||||
(* Copyright (C) 2015, Thomas Leonard <thomas.leonard@unikernel.com>
|
||||
See the README file for details. *)
|
||||
|
||||
(** Put your firewall rules in this file. *)
|
||||
(** This module applies firewall rules from QubesDB. *)
|
||||
|
||||
open Packet (* Allow us to use definitions in packet.ml *)
|
||||
open Packet
|
||||
open Lwt.Infix
|
||||
module Q = Pf_qubes.Parse_qubes
|
||||
|
||||
(* List your AppVM IP addresses here if you want to match on them in the rules below.
|
||||
Any client not listed here will appear as [`Client `Unknown]. *)
|
||||
let clients = [
|
||||
(*
|
||||
"10.137.0.12", `Dev;
|
||||
"10.137.0.14", `Untrusted;
|
||||
*)
|
||||
let src = Logs.Src.create "rules" ~doc:"Firewall rules"
|
||||
module Log = (val Logs.src_log src : Logs.LOG)
|
||||
|
||||
(* the upstream NetVM will redirect TCP and UDP port 53 traffic with
|
||||
these destination IPs to its upstream nameserver. *)
|
||||
let default_dns_servers = [
|
||||
Ipaddr.V4.of_string_exn "10.139.1.1";
|
||||
Ipaddr.V4.of_string_exn "10.139.1.2";
|
||||
]
|
||||
let dns_port = 53
|
||||
|
||||
(* List your external (non-AppVM) IP addresses here if you want to match on them in the rules below.
|
||||
Any external machine not listed here will appear as [`External `Unknown]. *)
|
||||
let externals = [
|
||||
(*
|
||||
"8.8.8.8", `GoogleDNS;
|
||||
*)
|
||||
]
|
||||
module Classifier = struct
|
||||
|
||||
(* OCaml normally warns if you don't match all fields, but that's OK here. *)
|
||||
[@@@ocaml.warning "-9"]
|
||||
let matches_port dstports (port : int) = match dstports with
|
||||
| None -> true
|
||||
| Some (Q.Range_inclusive (min, max)) -> min <= port && port <= max
|
||||
|
||||
(** This function decides what to do with a packet from a client VM.
|
||||
let matches_proto rule packet = match rule.Q.proto, rule.Q.specialtarget with
|
||||
| None, None -> true
|
||||
| None, Some `dns when List.mem packet.ipv4_header.Ipv4_packet.dst default_dns_servers -> begin
|
||||
(* specialtarget=dns applies only to the specialtarget destination IPs, and
|
||||
specialtarget=dns is also implicitly tcp/udp port 53 *)
|
||||
match packet.transport_header with
|
||||
| `TCP header -> header.Tcp.Tcp_packet.dst_port = dns_port
|
||||
| `UDP header -> header.Udp_packet.dst_port = dns_port
|
||||
| _ -> false
|
||||
end
|
||||
(* DNS rules can only match traffic headed to the specialtarget hosts, so any other destination
|
||||
isn't a match for DNS rules *)
|
||||
| None, Some `dns -> false
|
||||
| Some rule_proto, _ -> match rule_proto, packet.transport_header with
|
||||
| `tcp, `TCP header -> matches_port rule.Q.dstports header.Tcp.Tcp_packet.dst_port
|
||||
| `udp, `UDP header -> matches_port rule.Q.dstports header.Udp_packet.dst_port
|
||||
| `icmp, `ICMP header ->
|
||||
begin
|
||||
match rule.Q.icmp_type with
|
||||
| None -> true
|
||||
| Some rule_icmp_type ->
|
||||
0 = compare rule_icmp_type @@ Icmpv4_wire.ty_to_int header.Icmpv4_packet.ty
|
||||
end
|
||||
| _, _ -> false
|
||||
|
||||
It takes as input an argument [info] (of type [Packet.info]) describing the
|
||||
packet, and returns an action (of type [Packet.action]) to perform.
|
||||
let matches_dest rule packet =
|
||||
let ip = packet.ipv4_header.Ipv4_packet.dst in
|
||||
match rule.Q.dst with
|
||||
| `any -> Lwt.return @@ `Match rule
|
||||
| `hosts subnet ->
|
||||
Lwt.return @@ if (Ipaddr.Prefix.mem Ipaddr.(V4 ip) subnet) then `Match rule else `No_match
|
||||
| `dnsname name ->
|
||||
Log.warn (fun f -> f "Resolving %a" Domain_name.pp name);
|
||||
Lwt.return @@ `No_match
|
||||
|
||||
See packet.ml for the definitions of [info] and [action].
|
||||
end
|
||||
|
||||
Note: If the packet matched an existing NAT rule then this isn't called. *)
|
||||
let from_client (info : ([`Client of _], _) Packet.info) : Packet.action =
|
||||
match info with
|
||||
(* Examples (add your own rules here):
|
||||
let find_first_match packet acc rule =
|
||||
match acc with
|
||||
| `No_match ->
|
||||
if Classifier.matches_proto rule packet
|
||||
then Classifier.matches_dest rule packet
|
||||
else Lwt.return `No_match
|
||||
| q -> Lwt.return q
|
||||
|
||||
1. Allows Dev to send SSH packets to Untrusted.
|
||||
Note: responses are not covered by this!
|
||||
2. Allows Untrusted to reply to Dev.
|
||||
3. Blocks an external site.
|
||||
(* Does the packet match our rules? *)
|
||||
let classify_client_packet (packet : ([`Client of Fw_utils.client_link], _) Packet.t) =
|
||||
let (`Client client_link) = packet.src in
|
||||
let rules = client_link#get_rules in
|
||||
Lwt_list.fold_left_s (find_first_match packet) `No_match rules >|= function
|
||||
| `No_match -> `Drop "No matching rule; assuming default drop"
|
||||
| `Match {Q.action = Q.Accept; _} -> `Accept
|
||||
| `Match ({Q.action = Q.Drop; _} as rule) ->
|
||||
`Drop (Format.asprintf "rule number %a explicitly drops this packet" Q.pp_rule rule)
|
||||
|
||||
In all cases, make sure you've added the VM name to [clients] or [externals] above, or it won't
|
||||
match anything! *)
|
||||
(*
|
||||
| { src = `Client `Dev; dst = `Client `Untrusted; proto = `TCP { dport = 22 } } -> `Accept
|
||||
| { src = `Client `Untrusted; dst = `Client `Dev; proto = `TCP _; packet }
|
||||
when not (is_tcp_start packet) -> `Accept
|
||||
| { dst = `External `GoogleDNS } -> `Drop "block Google DNS"
|
||||
*)
|
||||
| { dst = (`External _ | `NetVM) } -> `NAT
|
||||
| { dst = `Firewall; proto = `UDP { dport = 53 } } -> `NAT_to (`NetVM, 53)
|
||||
| { dst = `Firewall } -> `Drop "packet addressed to firewall itself"
|
||||
| { dst = `Client _ } -> `Drop "prevent communication between client VMs by default"
|
||||
let translate_accepted_packets packet =
|
||||
classify_client_packet packet >|= function
|
||||
| `Accept -> `NAT
|
||||
| `Drop s -> `Drop s
|
||||
|
||||
(** Decide what to do with a packet received from the outside world.
|
||||
Note: If the packet matched an existing NAT rule then this isn't called. *)
|
||||
let from_netvm (info : ([`NetVM | `External of _], _) Packet.info) : Packet.action =
|
||||
match info with
|
||||
| _ -> `Drop "drop by default"
|
||||
(** Packets from the private interface that don't match any NAT table entry are being checked against the fw rules here *)
|
||||
let from_client (packet : ([`Client of Fw_utils.client_link], _) Packet.t) : Packet.action Lwt.t =
|
||||
match packet with
|
||||
| { dst = `Firewall; transport_header = `UDP header; _ } ->
|
||||
if header.Udp_packet.dst_port = dns_port
|
||||
then Lwt.return @@ `NAT_to (`NetVM, dns_port)
|
||||
else Lwt.return @@ `Drop "packet addressed to client gateway"
|
||||
| { dst = `External _ ; _ } | { dst = `NetVM; _ } -> translate_accepted_packets packet
|
||||
| { dst = `Firewall ; _ } -> Lwt.return @@ `Drop "packet addressed to firewall itself"
|
||||
| { dst = `Client _ ; _ } -> classify_client_packet packet
|
||||
| _ -> Lwt.return @@ `Drop "could not classify packet"
|
||||
|
||||
(** Packets from the outside world that don't match any NAT table entry are being dropped by default *)
|
||||
let from_netvm (_packet : ([`NetVM | `External of _], _) Packet.t) : Packet.action Lwt.t =
|
||||
Lwt.return @@ `Drop "drop by default"
|
||||
|
27
test/config.ml
Normal file
27
test/config.ml
Normal file
@ -0,0 +1,27 @@
|
||||
open Mirage
|
||||
|
||||
let pin = "git+https://github.com/roburio/alcotest.git#mirage"
|
||||
|
||||
let packages = [
|
||||
package "ethernet";
|
||||
package "arp";
|
||||
package "arp-mirage";
|
||||
package "ipaddr";
|
||||
package "tcpip" ~sublibs:["stack-direct"; "icmpv4"; "ipv4"; "udp"; "tcp"];
|
||||
package "mirage-qubes";
|
||||
package "mirage-qubes-ipv4";
|
||||
package "dns-client" ~sublibs:["mirage"];
|
||||
package ~pin "alcotest";
|
||||
package ~pin "alcotest-mirage";
|
||||
]
|
||||
|
||||
let client =
|
||||
foreign ~packages
|
||||
"Unikernel.Client" @@ random @-> time @-> mclock @-> network @-> qubesdb @-> job
|
||||
|
||||
let db = default_qubesdb
|
||||
let network = default_network
|
||||
|
||||
let () =
|
||||
let job = [ client $ default_random $ default_time $ default_monotonic_clock $ network $ db ] in
|
||||
register "http-fetch" job
|
138
test/test.sh
Executable file
138
test/test.sh
Executable file
@ -0,0 +1,138 @@
|
||||
#!/bin/bash
|
||||
function explain_commands {
|
||||
echo "1) Set up test qubes:"
|
||||
echo "First, set up the test-mirage script from https://github.com/talex5/qubes-test-mirage.git"
|
||||
|
||||
echo "Then, use `qubes-manager` to create two new AppVMs called `mirage-fw-test` and `fetchmotron`.
|
||||
You can make it standalone or not and use any template (it doesn't matter
|
||||
because unikernels already contain all their code and don't need to use a disk
|
||||
to boot)."
|
||||
|
||||
echo "Next, still in dom0, create a new `mirage-fw-test` and `fetchmotron` kernels, with an empty `modules.img` and `vmlinuz` and a compressed empty file for the initramfs, and then set that as the kernel for the new VMs:
|
||||
|
||||
mkdir /var/lib/qubes/vm-kernels/mirage-fw-test
|
||||
cd /var/lib/qubes/vm-kernels/mirage-fw-test
|
||||
touch modules.img vmlinuz test-mirage-ok
|
||||
cat /dev/null | gzip > initramfs
|
||||
qvm-prefs -s mirage-fw-test kernel mirage-fw-test
|
||||
|
||||
mkdir /var/lib/qubes/vm-kernels/fetchmotron
|
||||
cd /var/lib/qubes/vm-kernels/fetchmotron
|
||||
touch modules.img vmlinuz test-mirage-ok
|
||||
cat /dev/null | gzip > initramfs
|
||||
qvm-prefs -s fetchmotron kernel fetchmotron
|
||||
"
|
||||
}
|
||||
|
||||
function explain_service {
|
||||
echo "2) Set up rule update service:"
|
||||
echo "In dom0, make a new service:
|
||||
|
||||
sudo bash
|
||||
echo /usr/local/bin/update-firewall > /etc/qubes-rpc/yomimono.updateFirewall
|
||||
|
||||
Make a policy file for this service, YOUR_DEV_VM being the qube from which you build (e.g. ocamldev):
|
||||
|
||||
cd /etc/qubes-rpc/policy
|
||||
cat << EOF >> yomimono.updateFirewall
|
||||
YOUR_DEV_VM dom0 allow
|
||||
|
||||
copy the update-firewall script:
|
||||
|
||||
cd /usr/local/bin
|
||||
qvm-run -p YOUR_DEV_VM 'cat /path/to/qubes-mirage-firewall/test/update-firewall.sh' > update-firewall
|
||||
chmod +x update-firewall
|
||||
|
||||
Now, back to YOUR_DEV_VM. Let's test to change fetchmotron's firewall rules:
|
||||
|
||||
qrexec-client-vm dom0 yomimono.updateFirewall"
|
||||
}
|
||||
|
||||
function explain_upstream {
|
||||
echo "Also, start the test services on the upstream NetVM (which is available at 10.137.0.5 from the test unikernel).
|
||||
For the UDP and TCP reply services:
|
||||
Install nmap-ncat (to persist this package, install it in your sys-net template VM):
|
||||
|
||||
sudo dnf install nmap-ncat
|
||||
|
||||
Allow incoming traffic from local virtual interfaces on the appropriate ports,
|
||||
then run the services:
|
||||
|
||||
sudo iptables -I INPUT -i vif+ -p udp --dport $udp_echo_port -j ACCEPT
|
||||
sudo iptables -I INPUT -i vif+ -p tcp --dport $tcp_echo_port_lower -j ACCEPT
|
||||
sudo iptables -I INPUT -i vif+ -p tcp --dport $tcp_echo_port_upper -j ACCEPT
|
||||
ncat -e /bin/cat -k -u -l $udp_echo_port &
|
||||
ncat -e /bin/cat -k -l $tcp_echo_port_lower &
|
||||
ncat -e /bin/cat -k -l $tcp_echo_port_upper &
|
||||
"
|
||||
}
|
||||
|
||||
if ! [ -x "$(command -v test-mirage)" ]; then
|
||||
echo 'Error: test-mirage is not installed.' >&2
|
||||
explain_commands >&2
|
||||
exit 1
|
||||
fi
|
||||
qrexec-client-vm dom0 yomimono.updateFirewall
|
||||
if [ $? -ne 0 ]; then
|
||||
echo "Error: can't update firewall rules." >&2
|
||||
explain_service >&2
|
||||
exit 1
|
||||
fi
|
||||
echo_host=10.137.0.5
|
||||
udp_echo_port=1235
|
||||
tcp_echo_port_lower=6668
|
||||
tcp_echo_port_upper=6670
|
||||
|
||||
# Pretest that checks if our echo servers work.
|
||||
# NOTE: we assume the dev qube has the same netvm as fetchmotron.
|
||||
# If yours is different, this test will fail (comment it out)
|
||||
function pretest {
|
||||
protocol=$1
|
||||
port=$2
|
||||
if [ "$protocol" = "udp" ]; then
|
||||
udp_arg="-u"
|
||||
else
|
||||
udp_arg=""
|
||||
fi
|
||||
reply=$(echo hi | nc $udp_arg $echo_host -w 1 $port)
|
||||
if [ "$reply" != "hi" ]; then
|
||||
echo "echo hi | nc $udp_arg $echo_host -w 1 $port"
|
||||
echo "echo services not reachable at $protocol $echo_host:$port" >&2
|
||||
explain_upstream >&2
|
||||
exit 1
|
||||
fi
|
||||
}
|
||||
|
||||
pretest "udp" "$udp_echo_port"
|
||||
pretest "tcp" "$tcp_echo_port_lower"
|
||||
pretest "tcp" "$tcp_echo_port_upper"
|
||||
|
||||
echo "We're gonna set up a unikernel for the mirage-fw-test qube"
|
||||
cd ..
|
||||
make clean && \
|
||||
#mirage configure -t xen -l "application:error,net-xen xenstore:error,firewall:debug,frameQ:debug,uplink:debug,rules:debug,udp:debug,ipv4:debug,fw-resolver:debug" && \
|
||||
mirage configure -t xen -l "net-xen xenstore:error,application:warning,qubes.db:warning" && \
|
||||
#mirage configure -t xen -l "*:debug" && \
|
||||
make depend && \
|
||||
make
|
||||
if [ $? -ne 0 ]; then
|
||||
echo "Could not build unikernel for mirage-fw-test qube" >&2
|
||||
exit 1
|
||||
fi
|
||||
cd test
|
||||
|
||||
echo "We're gonna set up a unikernel for fetchmotron qube"
|
||||
make clean && \
|
||||
mirage configure -t qubes -l "net-xen frontend:error,firewall test:debug" && \
|
||||
#mirage configure -t qubes -l "*:error" && \
|
||||
make depend && \
|
||||
make
|
||||
if [ $? -ne 0 ]; then
|
||||
echo "Could not build unikernel for fetchmotron qube" >&2
|
||||
exit 1
|
||||
fi
|
||||
|
||||
cd ..
|
||||
test-mirage qubes_firewall.xen mirage-fw-test &
|
||||
cd test
|
||||
test-mirage http_fetch.xen fetchmotron
|
357
test/unikernel.ml
Normal file
357
test/unikernel.ml
Normal file
@ -0,0 +1,357 @@
|
||||
open Lwt.Infix
|
||||
(* https://www.qubes-os.org/doc/vm-interface/#firewall-rules-in-4x *)
|
||||
let src = Logs.Src.create "firewall test" ~doc:"Firewalltest"
|
||||
module Log = (val Logs.src_log src : Logs.LOG)
|
||||
|
||||
(* TODO
|
||||
* things we can have in rule
|
||||
* - action:
|
||||
x accept (UDP fetch test)
|
||||
x drop (TCP connect denied test)
|
||||
* - proto:
|
||||
x None (TCP connect denied test)
|
||||
x TCP (TCP connect test)
|
||||
x UDP (UDP fetch test)
|
||||
x ICMP (ping test)
|
||||
* - specialtarget:
|
||||
x None (UDP fetch test, TCP connect denied test)
|
||||
x DNS (TCP connect test, TCP connect denied test)
|
||||
* - destination:
|
||||
x Any (TCP connect denied test)
|
||||
x Some ipv4 host (UDP fetch test)
|
||||
Some ipv6 host (we can't do this right now)
|
||||
Some hostname (need a bunch of DNS stuff for that)
|
||||
* - destination ports:
|
||||
x none (TCP connect denied test)
|
||||
x range is one port (UDP fetch test)
|
||||
x range has different ports in pair
|
||||
* - icmp type:
|
||||
x None (TCP connect denied, UDP fetch test)
|
||||
x query type (ping test)
|
||||
error type
|
||||
x - errors related to allowed traffic (does it have a host waiting for it?)
|
||||
x - directly allowed outbound icmp errors (e.g. for forwarding)
|
||||
* - number (ordering over rules, to resolve conflicts by precedence)
|
||||
no overlap between rules, i.e. ordering unimportant
|
||||
error case: multiple rules with same number?
|
||||
x conflicting rules (specific accept rules with low numbers, drop all with high number)
|
||||
*)
|
||||
|
||||
(* Point-to-point links out of a netvm always have this IP TODO clarify with Marek *)
|
||||
let netvm = "10.137.0.5"
|
||||
(* default "nameserver"s, which netvm redirects to whatever its real nameservers are *)
|
||||
let nameserver_1, nameserver_2 = "10.139.1.1", "10.139.1.2"
|
||||
|
||||
module Client (R: Mirage_random.S) (Time: Mirage_time.S) (Clock : Mirage_clock.MCLOCK) (NET: Mirage_net.S) (DB : Qubes.S.DB) = struct
|
||||
module E = Ethernet.Make(NET)
|
||||
module A = Arp.Make(E)(Time)
|
||||
module I = Qubesdb_ipv4.Make(DB)(R)(Clock)(E)(A)
|
||||
module Icmp = Icmpv4.Make(I)
|
||||
module U = Udp.Make(I)(R)
|
||||
module T = Tcp.Flow.Make(I)(Time)(Clock)(R)
|
||||
|
||||
module Alcotest = Alcotest_mirage.Make(Clock)
|
||||
|
||||
module Stack = struct
|
||||
(* A Mirage_stack.V4 implementation which diverts DHCP messages to a DHCP
|
||||
server. The DHCP server needs to get the entire Ethernet frame, because
|
||||
the Ethernet source address is the address to send replies to, its IPv4
|
||||
addresses (source, destination) do not matter (since the DHCP client that
|
||||
sent this request does not have an IP address yet). ARP cannot be used
|
||||
by DHCP, because the client does not have an IP address (and thus no ARP
|
||||
replies). *)
|
||||
|
||||
module UDPV4 = U
|
||||
module TCPV4 = T
|
||||
module IPV4 = I
|
||||
|
||||
type t = {
|
||||
net : NET.t ; eth : E.t ; arp : A.t ;
|
||||
ip : I.t ; icmp : Icmp.t ; udp : U.t ; tcp : T.t ;
|
||||
udp_listeners : (int, U.callback) Hashtbl.t ;
|
||||
tcp_listeners : (int, T.listener) Hashtbl.t ;
|
||||
mutable icmp_listener : (src:Ipaddr.V4.t -> dst:Ipaddr.V4.t -> Cstruct.t -> unit Lwt.t) option ;
|
||||
}
|
||||
|
||||
let ipv4 { ip ; _ } = ip
|
||||
let udpv4 { udp ; _ } = udp
|
||||
let tcpv4 { tcp ; _ } = tcp
|
||||
let icmpv4 { icmp ; _ } = icmp
|
||||
|
||||
let listener h port = Hashtbl.find_opt h port
|
||||
let udp_listener h ~dst_port = listener h dst_port
|
||||
|
||||
let listen_udpv4 { udp_listeners ; _ } ~port cb =
|
||||
Hashtbl.replace udp_listeners port cb
|
||||
|
||||
let stop_listen_udpv4 { udp_listeners ; _ } ~port =
|
||||
Hashtbl.remove udp_listeners port
|
||||
|
||||
let listen_tcpv4 ?keepalive { tcp_listeners ; _ } ~port cb =
|
||||
Hashtbl.replace tcp_listeners port { T.process = cb ; T.keepalive }
|
||||
|
||||
let stop_listen_tcpv4 { tcp_listeners ; _ } ~port =
|
||||
Hashtbl.remove tcp_listeners port
|
||||
|
||||
let listen_icmp t cb = t.icmp_listener <- cb
|
||||
|
||||
let listen t =
|
||||
let ethif_listener =
|
||||
E.input
|
||||
~arpv4:(A.input t.arp)
|
||||
~ipv4:(
|
||||
I.input
|
||||
~tcp:(T.input t.tcp ~listeners:(listener t.tcp_listeners))
|
||||
~udp:(U.input t.udp ~listeners:(udp_listener t.udp_listeners))
|
||||
~default:(fun ~proto ~src ~dst buf ->
|
||||
match proto with
|
||||
| 1 ->
|
||||
begin match t.icmp_listener with
|
||||
| None -> Icmp.input t.icmp ~src ~dst buf
|
||||
| Some cb -> cb ~src ~dst buf
|
||||
end
|
||||
| _ -> Lwt.return_unit)
|
||||
t.ip)
|
||||
~ipv6:(fun _ -> Lwt.return_unit)
|
||||
t.eth
|
||||
in
|
||||
NET.listen t.net ~header_size:Ethernet_wire.sizeof_ethernet ethif_listener
|
||||
>>= function
|
||||
| Error e ->
|
||||
Logs.warn (fun p -> p "%a" NET.pp_error e) ;
|
||||
Lwt.return_unit
|
||||
| Ok _res -> Lwt.return_unit
|
||||
|
||||
let connect net eth arp ip icmp udp tcp =
|
||||
{ net ; eth ; arp ; ip ; icmp ; udp ; tcp ;
|
||||
udp_listeners = Hashtbl.create 2 ;
|
||||
tcp_listeners = Hashtbl.create 2 ;
|
||||
icmp_listener = None ;
|
||||
}
|
||||
|
||||
let disconnect _ =
|
||||
Logs.warn (fun m -> m "ignoring disconnect");
|
||||
Lwt.return_unit
|
||||
end
|
||||
|
||||
module Dns = Dns_client_mirage.Make(R)(Time)(Clock)(Stack)
|
||||
|
||||
let make_ping_packet payload =
|
||||
let echo_request = { Icmpv4_packet.code = 0; (* constant for echo request/reply *)
|
||||
ty = Icmpv4_wire.Echo_request;
|
||||
subheader = Icmpv4_packet.(Id_and_seq (0, 0)); } in
|
||||
Icmpv4_packet.Marshal.make_cstruct echo_request ~payload
|
||||
|
||||
let is_ping_reply src server packet =
|
||||
0 = Ipaddr.V4.(compare src @@ of_string_exn server) &&
|
||||
packet.Icmpv4_packet.code = 0 &&
|
||||
packet.Icmpv4_packet.ty = Icmpv4_wire.Echo_reply &&
|
||||
packet.Icmpv4_packet.subheader = Icmpv4_packet.(Id_and_seq (0, 0))
|
||||
|
||||
let ping_denied_listener server resp_received stack =
|
||||
let icmp_listener ~src ~dst:_ buf =
|
||||
(* hopefully this is a reply to an ICMP echo request we sent *)
|
||||
Log.info (fun f -> f "ping test: ICMP message received from %a: %a" I.pp_ipaddr src Cstruct.hexdump_pp buf);
|
||||
match Icmpv4_packet.Unmarshal.of_cstruct buf with
|
||||
| Error e -> Log.err (fun f -> f "couldn't parse ICMP packet: %s" e);
|
||||
Lwt.return_unit
|
||||
| Ok (packet, _payload) ->
|
||||
Log.info (fun f -> f "ICMP message: %a" Icmpv4_packet.pp packet);
|
||||
if is_ping_reply src server packet then resp_received := true;
|
||||
Lwt.return_unit
|
||||
in
|
||||
Stack.listen_icmp stack (Some icmp_listener)
|
||||
|
||||
let ping_expect_failure server stack () =
|
||||
let resp_received = ref false in
|
||||
Log.info (fun f -> f "Entering ping test: %s" server);
|
||||
ping_denied_listener server resp_received stack;
|
||||
Icmp.write (Stack.icmpv4 stack) ~dst:(Ipaddr.V4.of_string_exn server) (make_ping_packet (Cstruct.of_string "hi")) >>= function
|
||||
| Error e -> Log.err (fun f -> f "ping test: error sending ping: %a" Icmp.pp_error e); Lwt.return_unit
|
||||
| Ok () ->
|
||||
Log.info (fun f -> f "ping test: sent ping to %s" server);
|
||||
Time.sleep_ns 2_000_000_000L >>= fun () ->
|
||||
(if !resp_received then
|
||||
Log.err (fun f -> f "ping test failed: server %s got a response, block expected :(" server)
|
||||
else
|
||||
Log.err (fun f -> f "ping test passed: successfully blocked :)")
|
||||
);
|
||||
Stack.listen_icmp stack None;
|
||||
Lwt.return_unit
|
||||
|
||||
let icmp_error_type stack () =
|
||||
let resp_correct = ref false in
|
||||
let echo_server = Ipaddr.V4.of_string_exn netvm in
|
||||
let icmp_callback ~src ~dst:_ buf =
|
||||
if Ipaddr.V4.compare src echo_server = 0 then begin
|
||||
(* TODO: check that packet is error packet *)
|
||||
match Icmpv4_packet.Unmarshal.of_cstruct buf with
|
||||
| Error e -> Log.err (fun f -> f "Error parsing icmp packet %s" e)
|
||||
| Ok (packet, _) ->
|
||||
(* TODO don't hardcode the numbers, make a datatype *)
|
||||
if packet.Icmpv4_packet.code = 10 (* unreachable, admin prohibited *)
|
||||
then resp_correct := true
|
||||
else Log.debug (fun f -> f "Unrelated icmp packet %a" Icmpv4_packet.pp packet)
|
||||
end;
|
||||
Lwt.return_unit
|
||||
in
|
||||
let content = Cstruct.of_string "important data" in
|
||||
Stack.listen_icmp stack (Some icmp_callback);
|
||||
U.write ~src_port:1337 ~dst:echo_server ~dst_port:1338 (Stack.udpv4 stack) content >>= function
|
||||
| Ok () -> (* .. listener: test with accept rule, if we get reply we're good *)
|
||||
Time.sleep_ns 1_000_000_000L >>= fun () ->
|
||||
if !resp_correct
|
||||
then Log.info (fun m -> m "UDP fetch test to port %d succeeded :)" 1338)
|
||||
else Log.err (fun f -> f "UDP fetch test to port %d: failed. :( correct response not received" 1338);
|
||||
Stack.listen_icmp stack None;
|
||||
Lwt.return_unit
|
||||
| Error e ->
|
||||
Log.err (fun f -> f "UDP fetch test to port %d failed: :( couldn't write the packet: %a"
|
||||
1338 U.pp_error e);
|
||||
Lwt.return_unit
|
||||
|
||||
let tcp_connect msg server port tcp () =
|
||||
Log.info (fun f -> f "Entering tcp connect test: %s:%d" server port);
|
||||
let ip = Ipaddr.V4.of_string_exn server in
|
||||
let msg' = Printf.sprintf "TCP connect test %s to %s:%d" msg server port in
|
||||
T.create_connection tcp (ip, port) >>= function
|
||||
| Ok flow ->
|
||||
Log.info (fun f -> f "%s passed :)" msg');
|
||||
T.close flow
|
||||
| Error e -> Log.err (fun f -> f "%s failed: Connection failed (%a) :(" msg' T.pp_error e);
|
||||
Lwt.return_unit
|
||||
|
||||
let tcp_connect_denied msg server port tcp () =
|
||||
let ip = Ipaddr.V4.of_string_exn server in
|
||||
let msg' = Printf.sprintf "TCP connect denied test %s to %s:%d" msg server port in
|
||||
let connect = (T.create_connection tcp (ip, port) >>= function
|
||||
| Ok flow ->
|
||||
Log.err (fun f -> f "%s failed: Connection should be denied, but was not. :(" msg');
|
||||
T.close flow
|
||||
| Error e -> Log.info (fun f -> f "%s passed (error text: %a) :)" msg' T.pp_error e);
|
||||
Lwt.return_unit)
|
||||
in
|
||||
let timeout = (
|
||||
Time.sleep_ns 1_000_000_000L >>= fun () ->
|
||||
Log.info (fun f -> f "%s passed :)" msg');
|
||||
Lwt.return_unit)
|
||||
in
|
||||
Lwt.pick [ connect ; timeout ]
|
||||
|
||||
let udp_fetch ~src_port ~echo_server_port stack () =
|
||||
Log.info (fun f -> f "Entering udp fetch test: %d -> %s:%d"
|
||||
src_port netvm echo_server_port);
|
||||
let resp_correct = ref false in
|
||||
let echo_server = Ipaddr.V4.of_string_exn netvm in
|
||||
let content = Cstruct.of_string "important data" in
|
||||
let udp_listener : U.callback = (fun ~src ~dst:_ ~src_port buf ->
|
||||
Log.debug (fun f -> f "listen_udpv4 function invoked for packet: %a" Cstruct.hexdump_pp buf);
|
||||
if ((0 = Ipaddr.V4.compare echo_server src) && src_port = echo_server_port) then
|
||||
match Cstruct.equal buf content with
|
||||
| true -> (* yay *)
|
||||
Log.info (fun f -> f "UDP fetch test to port %d: passed :)" echo_server_port);
|
||||
resp_correct := true;
|
||||
Lwt.return_unit
|
||||
| false -> (* oh no *)
|
||||
Log.err (fun f -> f "UDP fetch test to port %d: failed. :( Packet corrupted; expected %a but got %a"
|
||||
echo_server_port Cstruct.hexdump_pp content Cstruct.hexdump_pp buf);
|
||||
Lwt.return_unit
|
||||
else
|
||||
begin
|
||||
(* disregard this packet *)
|
||||
Log.debug (fun f -> f "packet is not from the echo server or has the wrong source port (%d but we wanted %d)"
|
||||
src_port echo_server_port);
|
||||
(* don't cancel the listener, since we want to keep listening *)
|
||||
Lwt.return_unit
|
||||
end
|
||||
)
|
||||
in
|
||||
Stack.listen_udpv4 stack ~port:src_port udp_listener;
|
||||
U.write ~src_port ~dst:echo_server ~dst_port:echo_server_port (Stack.udpv4 stack) content >>= function
|
||||
| Ok () -> (* .. listener: test with accept rule, if we get reply we're good *)
|
||||
Time.sleep_ns 1_000_000_000L >>= fun () ->
|
||||
Stack.stop_listen_udpv4 stack ~port:src_port;
|
||||
if !resp_correct then Lwt.return_unit else begin
|
||||
Log.err (fun f -> f "UDP fetch test to port %d: failed. :( correct response not received" echo_server_port);
|
||||
Lwt.return_unit
|
||||
end
|
||||
| Error e ->
|
||||
Log.err (fun f -> f "UDP fetch test to port %d failed: :( couldn't write the packet: %a"
|
||||
echo_server_port U.pp_error e);
|
||||
Lwt.return_unit
|
||||
|
||||
let dns_expect_failure ~nameserver ~hostname stack () =
|
||||
let lookup = Domain_name.(of_string_exn hostname |> host_exn) in
|
||||
let nameserver' = `UDP, (Ipaddr.V4.of_string_exn nameserver, 53) in
|
||||
let dns = Dns.create ~nameserver:nameserver' stack in
|
||||
Dns.gethostbyname dns lookup >>= function
|
||||
| Error (`Msg s) when String.compare s "Truncated UDP response" <> 0 -> Log.debug (fun f -> f "DNS test to %s failed as expected: %s"
|
||||
nameserver s);
|
||||
Log.info (fun f -> f "DNS traffic to %s correctly blocked :)" nameserver);
|
||||
Lwt.return_unit
|
||||
| Error (`Msg s) ->
|
||||
Log.debug (fun f -> f "DNS test to %s failed unexpectedly (truncated response): %s :("
|
||||
nameserver s);
|
||||
Lwt.return_unit
|
||||
| Ok addr -> Log.err (fun f -> f "DNS test to %s should have been blocked, but looked up %s:%a" nameserver hostname Ipaddr.V4.pp addr);
|
||||
Lwt.return_unit
|
||||
|
||||
let dns_then_tcp_denied server stack () =
|
||||
let parsed_server = Domain_name.(of_string_exn server |> host_exn) in
|
||||
(* ask dns about server *)
|
||||
Log.debug (fun f -> f "going to make a dns thing using nameserver %s" nameserver_1);
|
||||
let dns = Dns.create ~nameserver:(`UDP, ((Ipaddr.V4.of_string_exn nameserver_1), 53)) stack in
|
||||
Log.debug (fun f -> f "OK, going to look up %s now" server);
|
||||
Dns.gethostbyname dns parsed_server >>= function
|
||||
| Error (`Msg s) -> Log.err (fun f -> f "couldn't look up ip for %s: %s" server s); Lwt.return_unit
|
||||
| Ok addr ->
|
||||
Log.debug (fun f -> f "looked up ip for %s: %a" server Ipaddr.V4.pp addr);
|
||||
Log.err (fun f -> f "Do more stuff here!!!! :(");
|
||||
Lwt.return_unit
|
||||
|
||||
let start _random _time _clock network db =
|
||||
E.connect network >>= fun ethernet ->
|
||||
A.connect ethernet >>= fun arp ->
|
||||
I.connect db ethernet arp >>= fun ipv4 ->
|
||||
Icmp.connect ipv4 >>= fun icmp ->
|
||||
U.connect ipv4 >>= fun udp ->
|
||||
T.connect ipv4 >>= fun tcp ->
|
||||
|
||||
let stack = Stack.connect network ethernet arp ipv4 icmp udp tcp in
|
||||
Lwt.async (fun () -> Stack.listen stack);
|
||||
|
||||
(* put this first because tcp_connect_denied tests also generate icmp messages *)
|
||||
let general_tests : unit Alcotest.test = ("firewall tests", [
|
||||
("UDP fetch", `Quick, udp_fetch ~src_port:9090 ~echo_server_port:1235 stack);
|
||||
("Ping expect failure", `Quick, ping_expect_failure "8.8.8.8" stack );
|
||||
(* TODO: ping_expect_success to the netvm, for which we have an icmptype rule in update-firewall.sh *)
|
||||
("ICMP error type", `Quick, icmp_error_type stack)
|
||||
] ) in
|
||||
Alcotest.run ~and_exit:false "name" [ general_tests ] >>= fun () ->
|
||||
let tcp_tests : unit Alcotest.test = ("tcp tests", [
|
||||
(* this test fails on 4.0R3
|
||||
("TCP connect", `Quick, tcp_connect "when trying specialtarget" nameserver_1 53 tcp); *)
|
||||
("TCP connect", `Quick, tcp_connect_denied "" netvm 53 tcp);
|
||||
("TCP connect", `Quick, tcp_connect_denied "when trying below range" netvm 6667 tcp);
|
||||
("TCP connect", `Quick, tcp_connect "when trying lower bound in range" netvm 6668 tcp);
|
||||
("TCP connect", `Quick, tcp_connect "when trying upper bound in range" netvm 6670 tcp);
|
||||
("TCP connect", `Quick, tcp_connect_denied "when trying above range" netvm 6671 tcp);
|
||||
("TCP connect", `Quick, tcp_connect_denied "" netvm 8082 tcp);
|
||||
] ) in
|
||||
|
||||
(* replace the udp-related listeners with the right one for tcp *)
|
||||
Alcotest.run "name" [ tcp_tests ] >>= fun () ->
|
||||
(* use the stack abstraction only after the other tests have run, since it's not friendly with outside use of its modules *)
|
||||
let stack_tests = "stack tests", [
|
||||
("DNS expect failure", `Quick, dns_expect_failure ~nameserver:"8.8.8.8" ~hostname:"mirage.io" stack);
|
||||
|
||||
(* the test below won't work on @linse's internet,
|
||||
* because the nameserver there doesn't answer on TCP port 53,
|
||||
* only UDP port 53. Dns_mirage_client.ml disregards our request
|
||||
* to use UDP and uses TCP anyway, so this request can never work there. *)
|
||||
(* If we can figure out a way to have this test unikernel do a UDP lookup with minimal pain,
|
||||
* we should re-enable this test. *)
|
||||
("DNS lookup + TCP connect", `Quick, dns_then_tcp_denied "google.com" stack);
|
||||
] in
|
||||
Alcotest.run "name" [ stack_tests ]
|
||||
end
|
54
test/update-firewall.sh
Normal file
54
test/update-firewall.sh
Normal file
@ -0,0 +1,54 @@
|
||||
#!/bin/sh
|
||||
|
||||
# this script sets a deny-all rule for a particular VM, set here as TEST_VM.
|
||||
# it is intended to be used as part of a test suite which analyzes whether
|
||||
# an upstream FirewallVM correctly applies rule changes when they occur.
|
||||
|
||||
# Copy this script into dom0 at /usr/local/bin/update-firewall.sh so it can be
|
||||
# remotely triggered by your development VM as part of the firewall testing
|
||||
# script.
|
||||
|
||||
TEST_VM=fetchmotron
|
||||
|
||||
#echo "Current $TEST_VM firewall rules:"
|
||||
#qvm-firewall $TEST_VM list
|
||||
|
||||
echo "Removing $TEST_VM rules..."
|
||||
rc=0
|
||||
while [ "$rc" = "0" ]; do
|
||||
qvm-firewall $TEST_VM del --rule-no 0
|
||||
rc=$?
|
||||
done
|
||||
|
||||
#echo "$TEST_VM firewall rules are now:"
|
||||
#qvm-firewall $TEST_VM list
|
||||
|
||||
#echo "Setting $TEST_VM specialtarget=dns rule:"
|
||||
qvm-firewall $TEST_VM add accept specialtarget=dns
|
||||
|
||||
#echo "Setting $TEST_VM allow rule for UDP port 1235 to 10.137.0.5:"
|
||||
qvm-firewall $TEST_VM add accept 10.137.0.5 udp 1235
|
||||
|
||||
#echo "Setting $TEST_VM allow rule for UDP port 1338 to 10.137.0.5:"
|
||||
qvm-firewall $TEST_VM add accept 10.137.0.5 udp 1338
|
||||
|
||||
#echo "Setting $TEST_VM allow rule for TCP port 6668-6670 to 10.137.0.5:"
|
||||
qvm-firewall $TEST_VM add accept 10.137.0.5 tcp 6668-6670
|
||||
|
||||
#echo "Setting $TEST_VM allow rule for ICMP type 8 (ping) to 10.137.0.5:"
|
||||
qvm-firewall $TEST_VM add accept 10.137.0.5 icmp icmptype=8
|
||||
|
||||
#echo "Setting $TEST_VM allow rule for bogus.linse.me:"
|
||||
qvm-firewall $TEST_VM add accept dsthost=bogus.linse.me
|
||||
|
||||
#echo "Setting deny rule to host google.com:"
|
||||
qvm-firewall $TEST_VM add drop dsthost=google.com
|
||||
|
||||
#echo "Setting allow-all on port 443 rule:"
|
||||
qvm-firewall $TEST_VM add accept proto=tcp dstports=443-443
|
||||
|
||||
#echo "Setting $TEST_VM deny-all rule:"
|
||||
qvm-firewall $TEST_VM add drop
|
||||
|
||||
echo "$TEST_VM firewall rules are now:"
|
||||
qvm-firewall $TEST_VM list
|
43
unikernel.ml
43
unikernel.ml
@ -7,27 +7,15 @@ open Qubes
|
||||
let src = Logs.Src.create "unikernel" ~doc:"Main unikernel code"
|
||||
module Log = (val Logs.src_log src : Logs.LOG)
|
||||
|
||||
module Main (Clock : Mirage_clock.MCLOCK) = struct
|
||||
module Main (R : Mirage_random.S)(Clock : Mirage_clock.MCLOCK) = struct
|
||||
|
||||
(* Set up networking and listen for incoming packets. *)
|
||||
let network nat qubesDB =
|
||||
(* Read configuration from QubesDB *)
|
||||
Dao.read_network_config qubesDB >>= fun config ->
|
||||
(* Initialise connection to NetVM *)
|
||||
Uplink.connect config >>= fun uplink ->
|
||||
let network uplink qubesDB router =
|
||||
(* Report success *)
|
||||
Dao.set_iptables_error qubesDB "" >>= fun () ->
|
||||
(* Set up client-side networking *)
|
||||
let client_eth = Client_eth.create
|
||||
~client_gw:config.Dao.clients_our_ip in
|
||||
(* Set up routing between networks and hosts *)
|
||||
let router = Router.create
|
||||
~client_eth
|
||||
~uplink:(Uplink.interface uplink)
|
||||
~nat
|
||||
in
|
||||
(* Handle packets from both networks *)
|
||||
Lwt.choose [
|
||||
Client_net.listen Clock.elapsed_ns router;
|
||||
Client_net.listen Clock.elapsed_ns qubesDB router;
|
||||
Uplink.listen uplink Clock.elapsed_ns router
|
||||
]
|
||||
|
||||
@ -49,17 +37,18 @@ module Main (Clock : Mirage_clock.MCLOCK) = struct
|
||||
)
|
||||
|
||||
(* Main unikernel entry point (called from auto-generated main.ml). *)
|
||||
let start _clock =
|
||||
let start _random _clock =
|
||||
let start_time = Clock.elapsed_ns () in
|
||||
(* Start qrexec agent, GUI agent and QubesDB agent in parallel *)
|
||||
let qrexec = RExec.connect ~domid:0 () in
|
||||
GUI.connect ~domid:0 () |> watch_gui;
|
||||
let qubesDB = DB.connect ~domid:0 () in
|
||||
|
||||
(* Wait for clients to connect *)
|
||||
qrexec >>= fun qrexec ->
|
||||
let agent_listener = RExec.listen qrexec Command.handler in
|
||||
qubesDB >>= fun qubesDB ->
|
||||
let startup_time =
|
||||
let startup_time =
|
||||
let (-) = Int64.sub in
|
||||
let time_in_ns = Clock.elapsed_ns () - start_time in
|
||||
Int64.to_float time_in_ns /. 1e9
|
||||
@ -72,7 +61,23 @@ module Main (Clock : Mirage_clock.MCLOCK) = struct
|
||||
(* Set up networking *)
|
||||
let max_entries = Key_gen.nat_table_size () in
|
||||
My_nat.create ~max_entries >>= fun nat ->
|
||||
let net_listener = network nat qubesDB in
|
||||
|
||||
(* Read network configuration from QubesDB *)
|
||||
Dao.read_network_config qubesDB >>= fun config ->
|
||||
|
||||
Uplink.connect config >>= fun uplink ->
|
||||
(* Set up client-side networking *)
|
||||
let client_eth = Client_eth.create
|
||||
~client_gw:config.Dao.clients_our_ip in
|
||||
(* Set up routing between networks and hosts *)
|
||||
let router = Router.create
|
||||
~client_eth
|
||||
~uplink:(Uplink.interface uplink)
|
||||
~nat
|
||||
in
|
||||
|
||||
let net_listener = network uplink qubesDB router in
|
||||
|
||||
(* Report memory usage to XenStore *)
|
||||
Memory_pressure.init ();
|
||||
(* Run until something fails or we get a shutdown request. *)
|
||||
|
Loading…
Reference in New Issue
Block a user