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server_test.ml
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server_test.ml
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(*
* Copyright (C) Citrix Systems Inc.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation; version 2.1 only. with the special
* exception on linking described in file LICENSE.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Lesser General Public License for more details.
*)
open OUnit
let ( |> ) a b = b a
let ( ++ ) a b x = a (b x)
let id x = x
let empty_store () = Store.create ()
let none = Transaction.none
let success f reply =
match Xs_protocol.get_ty reply with
| Xs_protocol.Op.Error ->
failwith (Printf.sprintf "Error: %s" (Xs_protocol.get_data reply))
| _ -> f reply
let failure f reply =
match Xs_protocol.get_ty reply with
| Xs_protocol.Op.Error -> f reply
| _ ->
failwith (Printf.sprintf "Expected failure, got success: %s" (Junk.hexify(Xs_protocol.to_string reply)))
let list f reply = match Xs_protocol.Unmarshal.list reply with
| Some x -> f x
| None -> failwith "Failed to unmarshal string list"
let string f reply = match Xs_protocol.Unmarshal.string reply with
| Some x -> f x
| None -> failwith "Failed to unmarshal string"
let acl f reply = match Xs_protocol.Unmarshal.acl reply with
| Some x -> f x
| None -> failwith "Failed to unmarshal acl"
let int32 f reply = match Xs_protocol.Unmarshal.int32 reply with
| Some x -> f x
| None -> failwith "Failed to unmarshal int32"
let equals expected got =
if expected <> got
then failwith (Printf.sprintf "Expected %s got %s" expected got)
type result =
| OK
| Err of string
| String of string
| StringList of (string list -> unit)
| Perms of (Xs_protocol.ACL.t -> unit)
| Tid of (int32 -> unit)
let check_result reply = function
| OK ->
success ignore reply
| String which ->
(success ++ string ++ equals) which reply
| Err which ->
(failure ++ string ++ equals) which reply
| StringList f ->
(success ++ list) f reply
| Perms f ->
(success ++ acl) f reply
| Tid f ->
(success ++ int32) f reply
let rpc store c tid payload =
let request = Xs_protocol.Request.print payload tid in
Call.reply store c request
let run store (payloads: (Connection.t * int32 * Xs_protocol.Request.payload * result) list) =
List.iter
(fun (c, tid, payload, expected_result) ->
check_result (rpc store c tid payload) expected_result
) payloads
let test_implicit_create () =
(* Write a path and check the parent nodes can be read *)
let dom0 = Connection.create (Xs_protocol.Domain 0) None in
let domU = Connection.create (Xs_protocol.Domain 1) None in
let store = empty_store () in
let open Xs_protocol.Request in
run store [
(* If a node doesn't exist, everyone gets ENOENT: *)
dom0, none, PathOp("/a", Read), Err "ENOENT";
domU, none, PathOp("/a", Read), Err "ENOENT";
(* If dom0 makes a node, suddenly domU gets EACCES: *)
dom0, none, PathOp("/a/b", Write "hello"), OK;
domU, none, PathOp("/a/b", Read), Err "EACCES";
(* dom0 can also see the implicit path created: *)
dom0, none, PathOp("/a", Read), OK;
(* domU gets EACCES: *)
domU, none, PathOp("/a", Read), Err "EACCES";
]
let test_directory_order () =
(* Create nodes in a particular order and check 'directory'
preserves the ordering *)
let dom0 = Connection.create (Xs_protocol.Domain 0) None in
let store = empty_store () in
let open Xs_protocol.Request in
run store [
dom0, none, PathOp("/a/1", Write ""), OK;
dom0, none, PathOp("/a/2/foo", Write ""), OK;
dom0, none, PathOp("/a/3", Write ""), OK;
dom0, none, PathOp("/a", Directory), StringList (fun x -> assert_equal ~msg:"directory /a" ~printer:(String.concat ", ") ["1"; "2"; "3"] x);
]
let example_acl =
let open Xs_protocol.ACL in
{ owner = 5; other = READ; acl = [ 2, WRITE; 3, RDWR ] }
let test_setperms_getperms () =
(* Check that getperms(setperms(x)) = x *)
let dom0 = Connection.create (Xs_protocol.Domain 0) None in
let store = empty_store () in
let open Xs_protocol.Request in
run store [
dom0, none, PathOp("/foo", Write ""), OK;
dom0, none, PathOp("/foo", Setperms example_acl), OK;
dom0, none, PathOp("/foo", Getperms), Perms (fun x -> assert_equal ~msg:"perms /foo" ~printer:Xs_protocol.ACL.to_string x example_acl);
]
let test_setperms_owner () =
(* Check that only the owner of a node can setperms even
if another domain has read/write access *)
let dom0 = Connection.create (Xs_protocol.Domain 0) None in
let dom2 = Connection.create (Xs_protocol.Domain 2) None in
let dom5 = Connection.create (Xs_protocol.Domain 5) None in
let store = empty_store () in
let open Xs_protocol.Request in
run store [
dom0, none, PathOp("/foo", Write ""), OK;
dom0, none, PathOp("/foo", Setperms example_acl), OK;
(* owned by dom5, so dom2 can't setperms *)
dom2, none, PathOp("/foo", Setperms { example_acl with Xs_protocol.ACL.owner = 2 }), Err "EACCES";
(* dom5 sets the owner to dom2 *)
dom5, none, PathOp("/foo", Setperms { example_acl with Xs_protocol.ACL.owner = 2 }), OK;
(* dom2 sets the owner back to dom5 *)
dom2, none, PathOp("/foo", Setperms { example_acl with Xs_protocol.ACL.owner = 5 }), OK;
]
let test_mkdir () =
(* Check that mkdir creates usable nodes *)
let dom0 = Connection.create (Xs_protocol.Domain 0) None in
let store = empty_store () in
let open Xs_protocol.Request in
run store [
dom0, none, PathOp("/a/b", Read), Err "ENOENT";
dom0, none, PathOp("/a", Read), Err "ENOENT";
];
let tid = (success ++ int32) id (rpc store dom0 none Transaction_start) in
run store [
dom0, tid, PathOp("/bench/local/domain/0", Mkdir), OK;
dom0, tid, PathOp("/bench/local/domain/0", Setperms example_acl), OK;
dom0, tid, PathOp("/bench/local/domain/0", Read), OK;
dom0, tid, Transaction_end true, OK;
]
let test_empty () =
(* Check that I can read an empty value *)
let dom0 = Connection.create (Xs_protocol.Domain 0) None in
let store = empty_store () in
let open Xs_protocol.Request in
run store [
dom0, none, PathOp("/a", Write ""), OK;
dom0, none, PathOp("/a", Read), OK;
]
let test_directory () =
()
let test_rm () =
(* rm of a missing node from an existing parent should succeed *)
(* rm of a missing node from a missing parent should ENOENT *)
let dom0 = Connection.create (Xs_protocol.Domain 0) None in
let store = empty_store () in
let open Xs_protocol.Request in
run store [
dom0, none, PathOp("/a", Rm), OK;
dom0, none, PathOp("/a/b", Rm), Err "ENOENT";
dom0, none, PathOp("/a", Write "hello"), OK;
dom0, none, PathOp("/a/b", Rm), OK;
]
let test_restrict () =
(* Check that only dom0 can restrict to another domain
and that it loses access to dom0-only nodes. *)
let dom0 = Connection.create (Xs_protocol.Domain 0) None in
let dom3 = Connection.create (Xs_protocol.Domain 3) None in
let dom7 = Connection.create (Xs_protocol.Domain 7) None in
let store = empty_store () in
let open Xs_protocol.Request in
run store [
dom0, none, PathOp("/foo", Write "bar"), OK;
dom0, none, PathOp("/foo", Setperms example_acl), OK;
dom3, none, PathOp("/foo", Write "bar"), OK;
dom7, none, PathOp("/foo", Write "bar"), Err "EACCES";
dom0, none, Restrict 7, OK;
dom0, none, PathOp("/foo", Write "bar"), Err "EACCES";
]
let test_set_target () =
(* Check that dom0 can grant dom1 access to dom2's nodes,
without which it wouldn't have access. *)
let dom0 = Connection.create (Xs_protocol.Domain 0) None in
let dom7 = Connection.create (Xs_protocol.Domain 7) None in
let store = empty_store () in
let open Xs_protocol.Request in
run store [
dom0, none, PathOp("/foo", Write "bar"), OK;
dom0, none, PathOp("/foo", Setperms example_acl), OK;
dom7, none, PathOp("/foo", Write "bar"), Err "EACCES";
dom0, none, Set_target(7, 5), OK;
dom7, none, PathOp("/foo", Write "bar"), OK;
]
let test_transactions_are_isolated () =
(* Check that other connections cannot see the nodes created
within an uncommitted transaction *)
let dom0 = Connection.create (Xs_protocol.Domain 0) None in
let store = empty_store () in
let open Xs_protocol.Request in
let tid = (success ++ int32) id (rpc store dom0 none Transaction_start) in
run store [
dom0, tid, PathOp("/foo", Write "bar"), OK;
dom0, none, PathOp("/foo", Read), Err "ENOENT";
dom0, tid, Transaction_end true, OK;
dom0, none, PathOp("/foo", Read), OK;
]
let test_independent_transactions_coalesce () =
(* Check that two parallel, unrelated transactions can be
coalesced properly *)
let dom0 = Connection.create (Xs_protocol.Domain 0) None in
let store = empty_store () in
let open Xs_protocol.Request in
run store [
dom0, none, PathOp("/a/b", Mkdir), OK;
dom0, none, PathOp("/1/2", Mkdir), OK;
];
let tid_1 = (success ++ int32) id (rpc store dom0 none Transaction_start) in
let tid_2 = (success ++ int32) id (rpc store dom0 none Transaction_start) in
run store [
dom0, tid_1, PathOp("/a/b", Write "foo"), OK;
dom0, tid_2, PathOp("/1/2", Write "foo"), OK;
dom0, tid_1, Transaction_end true, OK;
dom0, tid_2, Transaction_end true, OK;
dom0, none, PathOp("/a/b", Read), String "foo";
dom0, none, PathOp("/1/2", Read), String "foo";
]
let test_device_create_coalesce () =
(* Check that two parallel, device-creating transactions can coalesce *)
let dom0 = Connection.create (Xs_protocol.Domain 0) None in
let store = empty_store () in
let open Xs_protocol.Request in
run store [
dom0, none, PathOp("/local/domain/0/backend/vbd", Mkdir), OK;
dom0, none, PathOp("/local/domain/1/device/vbd", Mkdir), OK;
dom0, none, PathOp("/local/domain/2/device/vbd", Mkdir), OK;
];
let tid_1 = (success ++ int32) id (rpc store dom0 none Transaction_start) in
let tid_2 = (success ++ int32) id (rpc store dom0 none Transaction_start) in
run store [
dom0, tid_1, PathOp("/local/domain/0/backend/vbd/1/51712", Write "hello"), OK;
dom0, tid_1, PathOp("/local/domain/1/device/vbd/51712", Write "there"), OK;
dom0, tid_2, PathOp("/local/domain/0/backend/vbd/2/51712", Write "hello"), OK;
dom0, tid_2, PathOp("/local/domain/2/device/vbd/51712", Write "there"), OK;
dom0, tid_1, Transaction_end true, OK;
dom0, tid_2, Transaction_end true, OK;
dom0, none, PathOp("/local/domain/0/backend/vbd/1/51712", Read), String "hello";
dom0, none, PathOp("/local/domain/0/backend/vbd/2/51712", Read), String "hello";
]
let test_transactions_really_do_conflict () =
(* Check that transactions that really can't interleave are aborted *)
let dom0 = Connection.create (Xs_protocol.Domain 0) None in
let store = empty_store () in
let open Xs_protocol.Request in
run store [
dom0, none, PathOp("/a", Mkdir), OK;
];
let tid = (success ++ int32) id (rpc store dom0 none Transaction_start) in
run store [
dom0, tid, PathOp("/a", Directory), OK;
dom0, none, PathOp("/a/b", Write "hello"), OK;
dom0, tid, PathOp("/a/b", Write "there"), OK;
dom0, tid, Transaction_end true, Err "EAGAIN";
dom0, none, PathOp("/a/b", Read), String "hello"
]
let string_of_watch_events watch_events =
String.concat "; " (List.map (fun (k, v) -> k ^ ", " ^ v) watch_events)
let assert_watches c expected =
let got = List.rev (Queue.fold (fun acc x -> x :: acc) [] c.Connection.watch_events) in
assert_equal ~msg:"watches" ~printer:string_of_watch_events expected got
let test_watch_event_quota () =
(* Check that we can't exceed the per-domain watch event quota *)
let dom0 = Connection.create (Xs_protocol.Domain 0) None in
let dom1 = Connection.create (Xs_protocol.Domain 1) None in
let store = empty_store () in
let open Xs_protocol.Request in
(* No watch events are generated without registering *)
run store [
dom0, none, PathOp("/tool/xenstored/quota/number-of-queued-watch-events/1", Write "1"), OK;
dom0, none, PathOp("/a", Mkdir), OK;
dom0, none, PathOp("/a", Setperms Xs_protocol.ACL.({ owner = 0; other = RDWR; acl = []})), OK;
];
assert_watches dom1 [];
run store [
dom1, none, Watch ("/a", "token"), OK;
];
assert_watches dom1 [ ("/a", "token") ];
assert_equal ~msg:"nb_dropped_watches" ~printer:string_of_int 0 dom1.Connection.nb_dropped_watches;
(* This watch will be dropped *)
run store [
dom0, none, PathOp("/a", Write "hello"), OK;
];
assert_watches dom1 [ ("/a", "token") ];
assert_equal ~msg:"nb_dropped_watches" ~printer:string_of_int 1 dom1.Connection.nb_dropped_watches;
run store [
dom0, none, PathOp("/tool/xenstored/quota/number-of-queued-watch-events/1", Write "2"), OK;
dom0, none, PathOp("/a", Write "there"), OK;
];
assert_watches dom1 [ ("/a", "token"); ("/a", "token") ];
assert_equal ~msg:"nb_dropped_watches" ~printer:string_of_int 1 dom1.Connection.nb_dropped_watches
let test_simple_watches () =
(* Check that writes generate watches and reads do not *)
let dom0 = Connection.create (Xs_protocol.Domain 0) None in
let dom1 = Connection.create (Xs_protocol.Domain 1) None in
let store = empty_store () in
let open Xs_protocol.Request in
(* No watch events are generated without registering *)
run store [
dom0, none, PathOp("/a", Mkdir), OK;
dom0, none, PathOp("/a", Setperms Xs_protocol.ACL.({ owner = 0; other = RDWR; acl = []})), OK;
];
assert_watches dom0 [];
run store [
dom0, none, Watch ("/a", "token"), OK;
];
assert_watches dom0 [ ("/a", "token") ];
Queue.clear dom0.Connection.watch_events;
assert_watches dom0 [];
(* dom0 can see its own write via watches *)
run store [
dom0, none, PathOp("/a", Write "foo"), OK;
];
assert_watches dom0 [ ("/a", "token") ];
Queue.clear dom0.Connection.watch_events;
assert_watches dom0 [];
(* dom0 can see dom1's writes via watches *)
run store [
dom1, none, PathOp("/a", Write "foo"), OK;
];
assert_watches dom0 [ ("/a", "token") ];
Queue.clear dom0.Connection.watch_events;
assert_watches dom0 [];
(* reads don't generate watches *)
run store [
dom0, none, PathOp("/a", Read), OK;
dom0, none, PathOp("/a/1", Read), Err "ENOENT";
dom1, none, PathOp("/a", Read), OK;
dom1, none, PathOp("/a/1", Read), Err "ENOENT";
];
assert_watches dom0 []
let test_relative_watches () =
(* Check that watches for relative paths *)
let dom0 = Connection.create (Xs_protocol.Domain 0) None in
let store = empty_store () in
let open Xs_protocol.Request in
(* No watch events are generated without registering *)
run store [
dom0, none, PathOp("/local/domain/0/name", Write ""), OK;
dom0, none, PathOp("/local/domain/0/device", Write ""), OK;
dom0, none, Watch("device", "token"), OK;
];
assert_watches dom0 [ "device", "token" ];
Queue.clear dom0.Connection.watch_events;
assert_watches dom0 [];
run store [
dom0, none, PathOp("/local/domain/0/device/vbd", Write "hello"), OK;
];
assert_watches dom0 [ "device/vbd", "token" ]
let test_watches_read_perm () =
(* Check that a connection only receives a watch if it
can read the node that was modified. *)
let dom0 = Connection.create (Xs_protocol.Domain 0) None in
let dom1 = Connection.create (Xs_protocol.Domain 1) None in
let store = empty_store () in
let open Xs_protocol.Request in
run store [
dom1, none, Watch ("/a", "token"), OK;
];
assert_watches dom1 [ ("/a", "token") ];
Queue.clear dom1.Connection.watch_events;
assert_watches dom1 [];
run store [
dom0, none, PathOp("/a", Write "hello"), OK;
dom1, none, PathOp("/a", Read), Err "EACCES";
];
assert_watches dom1 []
let test_transaction_watches () =
(* Check that watches only appear on transaction commit
and not at all in the case of abort *)
let dom0 = Connection.create (Xs_protocol.Domain 0) None in
let store = empty_store () in
let open Xs_protocol.Request in
run store [
dom0, none, Watch ("/a", "token"), OK;
];
assert_watches dom0 [ ("/a", "token") ];
Queue.clear dom0.Connection.watch_events;
assert_watches dom0 [];
(* PathOp( Writes in a transaction don't generate watches immediately *)
let tid = (success ++ int32) id (rpc store dom0 none Transaction_start) in
run store [
dom0, tid, PathOp("/a", Write "hello"), OK;
];
assert_watches dom0 [];
(* If the transaction is aborted then no watches are generated *)
run store [
dom0, tid, Transaction_end false, OK
];
assert_watches dom0 [];
(* If the transaction successfully commits then the watches appear *)
let tid = (success ++ int32) id (rpc store dom0 none Transaction_start) in
run store [
dom0, tid, PathOp("/a", Write "hello"), OK;
dom0, tid, Transaction_end true, OK
];
assert_watches dom0 [ ("/a", "token") ]
let test_introduce_watches () =
(* Check that @introduceDomain watches appear on introduce *)
let dom0 = Connection.create (Xs_protocol.Domain 0) None in
let store = empty_store () in
let open Xs_protocol.Request in
run store [
dom0, none, Watch ("@introduceDomain", "token"), OK;
];
assert_watches dom0 [ ("@introduceDomain", "token") ];
Queue.clear dom0.Connection.watch_events;
assert_watches dom0 [];
run store [
dom0, none, Introduce(5, 5n, 5), OK;
];
assert_watches dom0 [ ("@introduceDomain", "token") ]
let test_release_watches () =
(* Check that @releaseDomain watches appear on introduce *)
()
let test_recursive_rm_watch () =
(* Check that rm generates recursive watches *)
()
let test_no_watch_no_error () =
(* Check that a write failure doesn't generate a watch *)
()
let test_bounded_watch_events () =
(* Check that the per-connection watch event queue is bounded *)
()
let test_quota () =
(* Check that node creation and destruction changes a quota *)
let dom0 = Connection.create (Xs_protocol.Domain 0) None in
let store = empty_store () in
let open Xs_protocol.Request in
let start = ref 0 in
let expect n x =
assert_equal ~msg:"quota" ~printer:string_of_int (!start + n) (int_of_string (List.hd x)) in
run store [
(* dom0, none, PathOp("/quota/entries-per-domain/0", Read), StringList (fun x -> start := int_of_string (List.hd x)); *)
dom0, none, PathOp("/a", Write "hello"), OK;
dom0, none, PathOp("/tool/xenstored/quota/entries-per-domain/0", Read), StringList (expect 1);
(* Implicit creation of 2 elements *)
dom0, none, PathOp("/a/b/c", Write "hello"), OK;
dom0, none, PathOp("/tool/xenstored/quota/entries-per-domain/0", Read), StringList (expect 3);
(* Remove one element *)
dom0, none, PathOp("/a/b/c", Rm), OK;
dom0, none, PathOp("/tool/xenstored/quota/entries-per-domain/0", Read), StringList (expect 2);
(* Recursive remove of 2 elements *)
dom0, none, PathOp("/a", Rm), OK;
dom0, none, PathOp("/tool/xenstored/quota/entries-per-domain/0", Read), StringList (expect 0);
(* Remove an already removed element *)
dom0, none, PathOp("/a", Rm), OK;
dom0, none, PathOp("/tool/xenstored/quota/entries-per-domain/0", Read), StringList (expect 0);
(* Remove a missing element: *)
dom0, none, PathOp("/a", Rm), OK;
dom0, none, PathOp("/a", Rm), OK;
dom0, none, PathOp("/a", Rm), OK;
dom0, none, PathOp("/tool/xenstored/quota/entries-per-domain/0", Read), StringList (expect 0);
(* Removing the root node is forbidden *)
dom0, none, PathOp("/", Rm), Err "EINVAL";
dom0, none, PathOp("/tool/xenstored/quota/entries-per-domain/0", Read), StringList (expect 0);
]
let test_quota_setperms () =
(* Check that one connection cannot exhaust another's quota *)
let dom0 = Connection.create (Xs_protocol.Domain 0) None in
let dom1 = Connection.create (Xs_protocol.Domain 1) None in
let store = empty_store () in
let open Xs_protocol.Request in
let dom1_quota = ref 0 in
let dom2_quota = ref 0 in
let expect quota n x =
assert_equal ~msg:"quota" ~printer:string_of_int (!quota + n) (int_of_string (List.hd x)) in
run store [
dom0, none, PathOp("/local/domain/1", Mkdir), OK;
dom0, none, PathOp("/local/domain/1", Setperms Xs_protocol.ACL.({owner = 1; other = NONE; acl = []})), OK;
dom1, none, PathOp("/local/domain/1/private", Mkdir), OK;
dom0, none, PathOp("/tool/xenstored/quota/entries-per-domain/1", Read), StringList (fun x -> dom1_quota := int_of_string (List.hd x));
dom0, none, PathOp("/tool/xenstored/quota/entries-per-domain/2", Read), StringList (fun x -> dom2_quota := int_of_string (List.hd x));
dom1, none, PathOp("/local/domain/1/private/foo", Write "hello"), OK;
dom0, none, PathOp("/tool/xenstored/quota/entries-per-domain/1", Read), StringList (expect dom1_quota 1);
dom0, none, PathOp("/tool/xenstored/quota/entries-per-domain/2", Read), StringList (expect dom2_quota 0);
(* Hand this node to domain 2 (who doesn't want it) *)
dom1, none, PathOp("/local/domain/1/private/foo", Setperms Xs_protocol.ACL.({owner = 2; other = NONE; acl = []})), OK;
(* Domain 2's quota shouldn't be affected: *)
dom0, none, PathOp("/tool/xenstored/quota/entries-per-domain/2", Read), StringList (expect dom2_quota 0);
]
let test_quota_maxsize () =
let dom0 = Connection.create (Xs_protocol.Domain 0) None in
let store = empty_store () in
let open Xs_protocol.Request in
run store [
dom0, none, PathOp("/tool/xenstored/quota/default/entry-length", Write "5"), OK;
dom0, none, PathOp("/a", Write "hello"), OK;
dom0, none, PathOp("/a", Write "hello2"), Err "E2BIG";
dom0, none, PathOp("/tool/xenstored/quota/default/entry-length", Write "6"), OK;
dom0, none, PathOp("/a", Write "hello2"), OK;
]
let test_quota_maxent () =
let dom0 = Connection.create (Xs_protocol.Domain 0) None in
let store = empty_store () in
let open Xs_protocol.Request in
run store [
(* Side effect creates the quota entry *)
dom0, none, PathOp("/first", Write "post"), OK;
dom0, none, PathOp("/tool/xenstored/quota/default/number-of-entries", Write "1"), OK;
dom0, none, PathOp("/a", Write "hello"), Err "EQUOTA";
dom0, none, PathOp("/tool/xenstored/quota/number-of-entries/0", Write "2"), OK;
dom0, none, PathOp("/a", Write "hello"), OK;
dom0, none, PathOp("/a", Write "there"), OK;
dom0, none, PathOp("/b", Write "hello"), Err "EQUOTA";
]
let test_control_perms () =
let dom1 = Connection.create (Xs_protocol.Domain 1) None in
let store = empty_store () in
let open Xs_protocol.Request in
run store [
dom1, none, PathOp("/quota/default/number-of-entries", Write "1"), Err "EACCES";
dom1, none, PathOp("/tool/xenstored/log/reply-err/ENOENT", Write "1"), Err "EACCES";
]
let _ =
let verbose = ref false in
Arg.parse [
"-verbose", Arg.Unit (fun _ -> verbose := true), "Run in verbose mode";
] (fun x -> Printf.fprintf stderr "Ignoring argument: %s" x)
"Test xenstore server code";
let suite = "xenstore" >:::
[
"test_implicit_create" >:: test_implicit_create;
"test_directory_order" >:: test_directory_order;
"getperms(setperms)" >:: test_setperms_getperms;
"test_setperms_owner" >:: test_setperms_owner;
"test_mkdir" >:: test_mkdir;
"test_empty" >:: test_empty;
"test_rm" >:: test_rm;
"test_restrict" >:: test_restrict;
"test_set_target" >:: test_set_target;
"transactions_are_isolated" >:: test_transactions_are_isolated;
"independent_transactions_coalesce" >:: test_independent_transactions_coalesce;
"device_create_coalesce" >:: test_device_create_coalesce;
"test_transactions_really_do_conflict" >:: test_transactions_really_do_conflict;
"test_simple_watches" >:: test_simple_watches;
"test_relative_watches" >:: test_relative_watches;
(* "test_watches_read_perm" >:: test_watches_read_perm; *)
"test_transaction_watches" >:: test_transaction_watches;
"test_introduce_watches" >:: test_introduce_watches;
"test_quota" >:: test_quota;
"test_quota_setperms" >:: test_quota_setperms;
"test_quota_maxsize" >:: test_quota_maxsize;
"test_quota_maxent" >:: test_quota_maxent;
"test_watch_event_quota" >:: test_watch_event_quota;
"test_control_perms" >:: test_control_perms;
] in
run_test_tt ~verbose:!verbose suite