%% %% %CopyrightBegin% %% %% Copyright Ericsson AB 1997-2010. All Rights Reserved. %% %% The contents of this file are subject to the Erlang Public License, %% Version 1.1, (the "License"); you may not use this file except in %% compliance with the License. You should have received a copy of the %% Erlang Public License along with this software. If not, it can be %% retrieved online at http://www.erlang.org/. %% %% Software distributed under the License is distributed on an "AS IS" %% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See %% the License for the specific language governing rights and limitations %% under the License. %% %% %CopyrightEnd% %% %% -module(mnesia_consistency_test). -author('hakan@erix.ericsson.se'). -compile([export_all]). -include("mnesia_test_lib.hrl"). init_per_testcase(Func, Conf) -> mnesia_test_lib:init_per_testcase(Func, Conf). end_per_testcase(Func, Conf) -> mnesia_test_lib:end_per_testcase(Func, Conf). %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% all(doc) -> ["Verify transaction consistency", "Consistency is the property of the application that requires any", "execution of the transaction to take the database from one", "consistent state to another. Verify that the database is", "consistent at any point in time.", "Verify for various configurations.", " Verify for both set and bag"]; all(suite) -> [ consistency_after_restart, consistency_after_dump_tables, consistency_after_add_replica, consistency_after_del_replica, consistency_after_move_replica, consistency_after_transform_table, consistency_after_change_table_copy_type, consistency_after_fallback, consistency_after_restore, consistency_after_rename_of_node, checkpoint_retainer_consistency, backup_consistency ]. %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % stolen from mnesia_tpcb.erl: %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%% Account record, total size must be at least 100 bytes -define(ACCOUNT_FILLER, {123456789012345678901234567890123456789012345678901234567890, 123456789012345678901234567890123456789012345678901234567890, 123456789012345678901234567890123456789012345678901234}). -record(account, { id = 0, %% Unique account id branch_id = 0, %% Branch where the account is held balance = 0, %% Account balance filler = ?ACCOUNT_FILLER %% Gap filler to ensure size >= 100 bytes }). %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%% Branch record, total size must be at least 100 bytes -define(BRANCH_FILLER, {123456789012345678901234567890123456789012345678901234567890, 123456789012345678901234567890123456789012345678901234567890, 123456789012345678901234567890123456789012345678901234567890}). %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%% Teller record, total size must be at least 100 bytes -define(TELLER_FILLER, {123456789012345678901234567890123456789012345678901234567890, 123456789012345678901234567890123456789012345678901234567890, 1234567890123456789012345678901234567890123456789012345678}). %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%% History record, total size must be at least 50 bytes -define(HISTORY_FILLER, 1234567890). %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% -record(tab_config, { db_nodes = [node()], replica_nodes = [node()], replica_type = ram_copies, use_running_mnesia = false, n_branches = 1, n_tellers_per_branch = 10, %% Must be 10 n_accounts_per_branch = 100000, %% Must be 100000 branch_filler = ?BRANCH_FILLER, account_filler = ?ACCOUNT_FILLER, teller_filler = ?TELLER_FILLER }). %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % stolen from mnesia_tpcb.erl: list2rec(List, Fields, DefaultTuple) -> [Name|Defaults] = tuple_to_list(DefaultTuple), List2 = list2rec(List, Fields, Defaults, []), list_to_tuple([Name] ++ List2). list2rec(_List, [], [], Acc) -> Acc; list2rec(List, [F|Fields], [D|Defaults], Acc) -> {Val, List2} = case lists:keysearch(F, 1, List) of false -> {D, List}; {value, {F, NewVal}} -> {NewVal, lists:keydelete(F, 1, List)} end, list2rec(List2, Fields, Defaults, Acc ++ [Val]). %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% tpcb_config(ReplicaType, _NodeConfig, Nodes, NoDriverNodes) -> [{n_branches, 10}, {n_drivers_per_node, 10}, {replica_nodes, Nodes}, {driver_nodes, Nodes -- NoDriverNodes}, {use_running_mnesia, true}, {report_interval, infinity}, {n_accounts_per_branch, 100}, {replica_type, ReplicaType}, {reuse_history_id, true}]. %% Stolen from mnesia_tpcb:dist tpcb_config_dist(ReplicaType, _NodeConfig, Nodes, _Config) -> [{db_nodes, Nodes}, {driver_nodes, Nodes}, {replica_nodes, Nodes}, {n_drivers_per_node, 10}, {n_branches, 1}, {use_running_mnesia, true}, {n_accounts_per_branch, 10}, {replica_type, ReplicaType}, {stop_after, timer:minutes(15)}, {report_interval, timer:seconds(10)}, {reuse_history_id, true}]. %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % stolen from mnesia_recovery_test.erl: receive_messages([]) -> []; receive_messages(ListOfMsgs) -> receive {Pid, Msg} -> case lists:member(Msg, ListOfMsgs) of false -> ?warning("I (~p) have received unexpected msg~n ~p ~n", [self(),{Pid, Msg}]), receive_messages(ListOfMsgs); true -> ?verbose("I (~p) got msg ~p from ~p ~n", [self(),Msg, Pid]), [{Pid, Msg} | receive_messages(ListOfMsgs -- [Msg])] end; Else -> ?warning("Recevied unexpected Msg~n ~p ~n", [Else]) after timer:minutes(3) -> ?error("Timeout in receive msgs while waiting for ~p~n", [ListOfMsgs]) end. %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% consistency_after_restart(suite) -> [ consistency_after_restart_1_ram, consistency_after_restart_1_disc, consistency_after_restart_1_disc_only, consistency_after_restart_2_ram, consistency_after_restart_2_disc, consistency_after_restart_2_disc_only ]. consistency_after_restart_1_ram(suite) -> []; consistency_after_restart_1_ram(Config) when is_list(Config) -> consistency_after_restart(ram_copies, 2, Config). consistency_after_restart_1_disc(suite) -> []; consistency_after_restart_1_disc(Config) when is_list(Config) -> consistency_after_restart(disc_copies, 2, Config). consistency_after_restart_1_disc_only(suite) -> []; consistency_after_restart_1_disc_only(Config) when is_list(Config) -> consistency_after_restart(disc_only_copies, 2, Config). consistency_after_restart_2_ram(suite) -> []; consistency_after_restart_2_ram(Config) when is_list(Config) -> consistency_after_restart(ram_copies, 3, Config). consistency_after_restart_2_disc(suite) -> []; consistency_after_restart_2_disc(Config) when is_list(Config) -> consistency_after_restart(disc_copies, 3, Config). consistency_after_restart_2_disc_only(suite) -> []; consistency_after_restart_2_disc_only(Config) when is_list(Config) -> consistency_after_restart(disc_only_copies, 3, Config). consistency_after_restart(ReplicaType, NodeConfig, Config) -> [Node1 | _] = Nodes = ?acquire_nodes(NodeConfig, Config), {success, [A]} = ?start_activities([Node1]), ?log("consistency_after_restart with ~p on ~p~n", [ReplicaType, Nodes]), TpcbConfig = tpcb_config(ReplicaType, NodeConfig, Nodes, [Node1]), mnesia_tpcb:init(TpcbConfig), A ! fun () -> mnesia_tpcb:run(TpcbConfig) end, timer:sleep(timer:seconds(10)), mnesia_test_lib:kill_mnesia([Node1]), %% Start and wait for tables to be loaded on all nodes timer:sleep(timer:seconds(3)), ?match([], mnesia_test_lib:start_mnesia(Nodes,[account,branch,teller, history])), mnesia_tpcb:stop(), ?match(ok, mnesia_tpcb:verify_tabs()), ?verify_mnesia(Nodes, []). %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% consistency_after_dump_tables(suite) -> [ consistency_after_dump_tables_1_ram, consistency_after_dump_tables_2_ram ]. consistency_after_dump_tables_1_ram(suite) -> []; consistency_after_dump_tables_1_ram(Config) when is_list(Config) -> consistency_after_dump_tables(ram_copies, 1, Config). consistency_after_dump_tables_2_ram(suite) -> []; consistency_after_dump_tables_2_ram(Config) when is_list(Config) -> consistency_after_dump_tables(ram_copies, 2, Config). consistency_after_dump_tables(ReplicaType, NodeConfig, Config) -> [Node1 | _] = Nodes = ?acquire_nodes(NodeConfig, Config), {success, [A]} = ?start_activities([Node1]), ?log("consistency_after_dump_tables with ~p on ~p~n", [ReplicaType, Nodes]), TpcbConfig = tpcb_config(ReplicaType, NodeConfig, Nodes, []), mnesia_tpcb:init(TpcbConfig), A ! fun() -> mnesia_tpcb:run(TpcbConfig) end, timer:sleep(timer:seconds(10)), ?match({atomic, ok}, rpc:call(Node1, mnesia, dump_tables, [[branch, teller, account, history]])), mnesia_tpcb:stop(), ?match(ok, mnesia_tpcb:verify_tabs()), mnesia_test_lib:kill_mnesia(Nodes), timer:sleep(timer:seconds(1)), ?match([], mnesia_test_lib:start_mnesia(Nodes,[account, branch, teller, history])), mnesia_tpcb:stop(), ?match(ok, mnesia_tpcb:verify_tabs()), ?verify_mnesia(Nodes, []). %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% consistency_after_add_replica(suite) -> [ consistency_after_add_replica_2_ram, consistency_after_add_replica_2_disc, consistency_after_add_replica_2_disc_only, consistency_after_add_replica_3_ram, consistency_after_add_replica_3_disc, consistency_after_add_replica_3_disc_only ]. consistency_after_add_replica_2_ram(suite) -> []; consistency_after_add_replica_2_ram(Config) when is_list(Config) -> consistency_after_add_replica(ram_copies, 2, Config). consistency_after_add_replica_2_disc(suite) -> []; consistency_after_add_replica_2_disc(Config) when is_list(Config) -> consistency_after_add_replica(disc_copies, 2, Config). consistency_after_add_replica_2_disc_only(suite) -> []; consistency_after_add_replica_2_disc_only(Config) when is_list(Config) -> consistency_after_add_replica(disc_only_copies, 2, Config). consistency_after_add_replica_3_ram(suite) -> []; consistency_after_add_replica_3_ram(Config) when is_list(Config) -> consistency_after_add_replica(ram_copies, 3, Config). consistency_after_add_replica_3_disc(suite) -> []; consistency_after_add_replica_3_disc(Config) when is_list(Config) -> consistency_after_add_replica(disc_copies, 3, Config). consistency_after_add_replica_3_disc_only(suite) -> []; consistency_after_add_replica_3_disc_only(Config) when is_list(Config) -> consistency_after_add_replica(disc_only_copies, 3, Config). consistency_after_add_replica(ReplicaType, NodeConfig, Config) -> Nodes0 = ?acquire_nodes(NodeConfig, Config), AddNode = lists:last(Nodes0), Nodes = Nodes0 -- [AddNode], Node1 = hd(Nodes), {success, [A]} = ?start_activities([Node1]), ?log("consistency_after_add_replica with ~p on ~p~n", [ReplicaType, Nodes0]), TpcbConfig = tpcb_config(ReplicaType, NodeConfig, Nodes, []), mnesia_tpcb:init(TpcbConfig), A ! fun () -> mnesia_tpcb:run(TpcbConfig) end, timer:sleep(timer:seconds(10)), ?match({atomic, ok}, mnesia:add_table_copy(account, AddNode, ReplicaType)), mnesia_tpcb:stop(), ?match(ok, mnesia_tpcb:verify_tabs()), ?verify_mnesia(Nodes0, []). %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% consistency_after_del_replica(suite) -> [ consistency_after_del_replica_2_ram, consistency_after_del_replica_2_disc, consistency_after_del_replica_2_disc_only, consistency_after_del_replica_3_ram, consistency_after_del_replica_3_disc, consistency_after_del_replica_3_disc_only ]. consistency_after_del_replica_2_ram(suite) -> []; consistency_after_del_replica_2_ram(Config) when is_list(Config) -> consistency_after_del_replica(ram_copies, 2, Config). consistency_after_del_replica_2_disc(suite) -> []; consistency_after_del_replica_2_disc(Config) when is_list(Config) -> consistency_after_del_replica(disc_copies, 2, Config). consistency_after_del_replica_2_disc_only(suite) -> []; consistency_after_del_replica_2_disc_only(Config) when is_list(Config) -> consistency_after_del_replica(disc_only_copies, 2, Config). consistency_after_del_replica_3_ram(suite) -> []; consistency_after_del_replica_3_ram(Config) when is_list(Config) -> consistency_after_del_replica(ram_copies, 3, Config). consistency_after_del_replica_3_disc(suite) -> []; consistency_after_del_replica_3_disc(Config) when is_list(Config) -> consistency_after_del_replica(disc_copies, 3, Config). consistency_after_del_replica_3_disc_only(suite) -> []; consistency_after_del_replica_3_disc_only(Config) when is_list(Config) -> consistency_after_del_replica(disc_only_copies, 3, Config). consistency_after_del_replica(ReplicaType, NodeConfig, Config) -> Nodes = ?acquire_nodes(NodeConfig, Config), Node1 = hd(Nodes), Node2 = lists:last(Nodes), {success, [A]} = ?start_activities([Node1]), ?log("consistency_after_del_replica with ~p on ~p~n", [ReplicaType, Nodes]), TpcbConfig = tpcb_config(ReplicaType, NodeConfig, Nodes, []), mnesia_tpcb:init(TpcbConfig), A ! fun () -> mnesia_tpcb:run(TpcbConfig) end, timer:sleep(timer:seconds(10)), ?match({atomic, ok}, mnesia:del_table_copy(account, Node2)), mnesia_tpcb:stop(), ?match(ok, mnesia_tpcb:verify_tabs()), ?verify_mnesia(Nodes, []). %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% consistency_after_move_replica(suite) -> [ consistency_after_move_replica_2_ram, consistency_after_move_replica_2_disc, consistency_after_move_replica_2_disc_only, consistency_after_move_replica_3_ram, consistency_after_move_replica_3_disc, consistency_after_move_replica_3_disc_only ]. consistency_after_move_replica_2_ram(suite) -> []; consistency_after_move_replica_2_ram(Config) when is_list(Config) -> consistency_after_move_replica(ram_copies, 2, Config). consistency_after_move_replica_2_disc(suite) -> []; consistency_after_move_replica_2_disc(Config) when is_list(Config) -> consistency_after_move_replica(disc_copies, 2, Config). consistency_after_move_replica_2_disc_only(suite) -> []; consistency_after_move_replica_2_disc_only(Config) when is_list(Config) -> consistency_after_move_replica(disc_only_copies, 2, Config). consistency_after_move_replica_3_ram(suite) -> []; consistency_after_move_replica_3_ram(Config) when is_list(Config) -> consistency_after_move_replica(ram_copies, 3, Config). consistency_after_move_replica_3_disc(suite) -> []; consistency_after_move_replica_3_disc(Config) when is_list(Config) -> consistency_after_move_replica(disc_copies, 3, Config). consistency_after_move_replica_3_disc_only(suite) -> []; consistency_after_move_replica_3_disc_only(Config) when is_list(Config) -> consistency_after_move_replica(disc_only_copies, 3, Config). consistency_after_move_replica(ReplicaType, NodeConfig, Config) -> Nodes = ?acquire_nodes(NodeConfig, Config ++ [{tc_timeout, timer:minutes(10)}]), Node1 = hd(Nodes), Node2 = lists:last(Nodes), {success, [A]} = ?start_activities([Node1]), ?log("consistency_after_move_replica with ~p on ~p~n", [ReplicaType, Nodes]), TpcbConfig = tpcb_config(ReplicaType, NodeConfig, Nodes -- [Node2], []), mnesia_tpcb:init(TpcbConfig), A ! fun () -> mnesia_tpcb:run(TpcbConfig) end, timer:sleep(timer:seconds(10)), ?match({atomic, ok}, mnesia:move_table_copy(account, Node1, Node2)), ?log("First move completed from node ~p to ~p ~n", [Node1, Node2]), ?match({atomic, ok}, mnesia:move_table_copy(account, Node2, Node1)), mnesia_tpcb:stop(), ?match(ok, mnesia_tpcb:verify_tabs()), ?verify_mnesia(Nodes, []). %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% consistency_after_transform_table(doc) -> ["Check that the database is consistent after transform_table.", " While applications are updating the involved tables. "]; consistency_after_transform_table(suite) -> [ consistency_after_transform_table_ram, consistency_after_transform_table_disc, consistency_after_transform_table_disc_only ]. consistency_after_transform_table_ram(suite) -> []; consistency_after_transform_table_ram(Config) when is_list(Config) -> consistency_after_transform_table(ram_copies, Config). consistency_after_transform_table_disc(suite) -> []; consistency_after_transform_table_disc(Config) when is_list(Config) -> consistency_after_transform_table(disc_copies, Config). consistency_after_transform_table_disc_only(suite) -> []; consistency_after_transform_table_disc_only(Config) when is_list(Config) -> consistency_after_transform_table(disc_only_copies, Config). consistency_after_transform_table(Type, Config) -> Nodes = [N1, N2,_N3] = ?acquire_nodes(3, Config), ?match({atomic, ok}, mnesia:create_table(tab1, [{index, [3]}, {Type, [N1]}])), ?match({atomic, ok}, mnesia:create_table(tab2, [{index, [3]}, {Type, [N1,N2]}])), ?match({atomic, ok}, mnesia:create_table(tab3, [{index, [3]}, {Type, Nodes}])), ?match({atomic, ok}, mnesia:create_table(empty, [{index, [3]},{Type, Nodes}])), Tabs = lists:sort([tab1, tab2, tab3, empty]), [[mnesia:dirty_write({Tab, N, N}) || N <- lists:seq(1,10)] || Tab <- Tabs -- [empty, tab4]], mnesia:dump_log(), Ok = lists:duplicate(4, {atomic, ok}), ?match(Ok, [mnesia:transform_table(Tab, fun({T, N, N}) -> {T, N, N, ok} end, [k,a,n]) || Tab <- Tabs]), [?match([k,a,n], mnesia:table_info(Tab, attributes)) || Tab <- Tabs], Filter = fun(Tab) -> mnesia:foldl(fun(A, Acc) when size(A) == 3 -> [A|Acc]; (A, Acc) when size(A) == 4 -> Acc end, [], Tab) end, ?match([[],[],[],[]], [element(2,mnesia:transaction(Filter, [Tab])) || Tab <- Tabs]), mnesia_test_lib:kill_mnesia(Nodes), mnesia_test_lib:start_mnesia(Nodes, Tabs), ?match([Tabs, Tabs, Tabs], [lists:sort(rpc:call(Node, mnesia,system_info, [tables]) -- [schema]) || Node <- Nodes]), ?match([[],[],[],[]], [element(2,mnesia:transaction(Filter, [Tab])) || Tab <- Tabs]), [?match([k,a,n], mnesia:table_info(Tab, attributes)) || Tab <- Tabs], ?verify_mnesia(Nodes, []). %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% consistency_after_change_table_copy_type(doc) -> ["Check that the database is consistent after change of copy type.", " While applications are updating the involved tables. "]. %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% consistency_after_fallback(doc) -> ["Check that installed fallbacks are consistent. Check this by starting ", "some nodes, run tpcb on them, take a backup at any time, install it ", "as a fallback, kill all nodes, start mnesia again and check for ", "any inconsistencies"]; consistency_after_fallback(suite) -> [ consistency_after_fallback_2_ram, consistency_after_fallback_2_disc, consistency_after_fallback_2_disc_only, consistency_after_fallback_3_ram, consistency_after_fallback_3_disc , consistency_after_fallback_3_disc_only ]. consistency_after_fallback_2_ram(suite) -> []; consistency_after_fallback_2_ram(Config) when is_list(Config) -> consistency_after_fallback(ram_copies, 2, Config). consistency_after_fallback_2_disc(suite) -> []; consistency_after_fallback_2_disc(Config) when is_list(Config) -> consistency_after_fallback(disc_copies, 2, Config). consistency_after_fallback_2_disc_only(suite) -> []; consistency_after_fallback_2_disc_only(Config) when is_list(Config) -> consistency_after_fallback(disc_only_copies, 2, Config). consistency_after_fallback_3_ram(suite) -> []; consistency_after_fallback_3_ram(Config) when is_list(Config) -> consistency_after_fallback(ram_copies, 3, Config). consistency_after_fallback_3_disc(suite) -> []; consistency_after_fallback_3_disc(Config) when is_list(Config) -> consistency_after_fallback(disc_copies, 3, Config). consistency_after_fallback_3_disc_only(suite) -> []; consistency_after_fallback_3_disc_only(Config) when is_list(Config) -> consistency_after_fallback(disc_only_copies, 3, Config). consistency_after_fallback(ReplicaType, NodeConfig, Config) -> %%?verbose("Starting consistency_after_fallback2 at ~p~n", [self()]), Delay = 5, Nodes = ?acquire_nodes(NodeConfig, [{tc_timeout, timer:minutes(10)} | Config]), Node1 = hd(Nodes), %%?verbose("Mnesia info: ~p~n", [mnesia:info()]), {success, [A]} = ?start_activities([Node1]), ?log("consistency_after_fallback with ~p on ~p~n", [ReplicaType, Nodes]), TpcbConfig = tpcb_config(ReplicaType, NodeConfig, Nodes, []), mnesia_tpcb:init(TpcbConfig), A ! fun () -> mnesia_tpcb:run(TpcbConfig) end, timer:sleep(timer:seconds(Delay)), %% Make a backup ?verbose("Doing backup~n", []), ?match(ok, mnesia:backup(consistency_after_fallback2)), %% Install the backup as a fallback ?verbose("Doing fallback~n", []), ?match(ok, mnesia:install_fallback(consistency_after_fallback2)), timer:sleep(timer:seconds(Delay)), %% Stop tpcb ?verbose("Stopping TPC-B~n", []), mnesia_tpcb:stop(), ?match(ok, mnesia_tpcb:verify_tabs()), %% Stop and then start mnesia and check table consistency %%?verbose("Restarting Mnesia~n", []), mnesia_test_lib:kill_mnesia(Nodes), mnesia_test_lib:start_mnesia(Nodes,[account,branch,teller,history]), ?match(ok, mnesia_tpcb:verify_tabs()), if ReplicaType == ram_copies -> %% Test that change_table_copy work i.e. no account.dcd file exists. ?match({atomic, ok}, mnesia:change_table_copy_type(account, node(), disc_copies)); true -> ignore end, file:delete(consistency_after_fallback2), ?verify_mnesia(Nodes, []). %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% consistency_after_restore(doc) -> ["Verify consistency after restore operations."]; consistency_after_restore(suite) -> [ consistency_after_restore_clear_ram, consistency_after_restore_clear_disc, consistency_after_restore_clear_disc_only, consistency_after_restore_recreate_ram, consistency_after_restore_recreate_disc, consistency_after_restore_recreate_disc_only ]. consistency_after_restore_clear_ram(suite) -> []; consistency_after_restore_clear_ram(Config) when is_list(Config) -> consistency_after_restore(ram_copies, clear_tables, Config). consistency_after_restore_clear_disc(suite) -> []; consistency_after_restore_clear_disc(Config) when is_list(Config) -> consistency_after_restore(disc_copies, clear_tables, Config). consistency_after_restore_clear_disc_only(suite) -> []; consistency_after_restore_clear_disc_only(Config) when is_list(Config) -> consistency_after_restore(disc_only_copies, clear_tables, Config). consistency_after_restore_recreate_ram(suite) -> []; consistency_after_restore_recreate_ram(Config) when is_list(Config) -> consistency_after_restore(ram_copies, recreate_tables, Config). consistency_after_restore_recreate_disc(suite) -> []; consistency_after_restore_recreate_disc(Config) when is_list(Config) -> consistency_after_restore(disc_copies, recreate_tables, Config). consistency_after_restore_recreate_disc_only(suite) -> []; consistency_after_restore_recreate_disc_only(Config) when is_list(Config) -> consistency_after_restore(disc_only_copies, recreate_tables, Config). consistency_after_restore(ReplicaType, Op, Config) -> Delay = 1, Nodes = ?acquire_nodes(3, [{tc_timeout, timer:minutes(10)} | Config]), [Node1, Node2, _Node3] = Nodes, File = "cons_backup_restore", ?log("consistency_after_restore with ~p on ~p~n", [ReplicaType, Nodes]), Tabs = [carA, carB, carC, carD], ?match({atomic, ok}, mnesia:create_table(carA, [{ReplicaType, Nodes}])), ?match({atomic, ok}, mnesia:create_table(carB, [{ReplicaType, Nodes -- [Node1]}])), ?match({atomic, ok}, mnesia:create_table(carC, [{ReplicaType, Nodes -- [Node2]}])), ?match({atomic, ok}, mnesia:create_table(carD, [{ReplicaType, [Node2]}])), NList = lists:seq(0, 20), [lists:foreach(fun(E) -> ok = mnesia:dirty_write({Tab, E, 1}) end, NList) || Tab <- Tabs], {ok, Name, _} = mnesia:activate_checkpoint([{max, [schema | Tabs]}, {ram_overrides_dump, true}]), ?verbose("Doing backup~n", []), ?match(ok, mnesia:backup_checkpoint(Name, File)), ?match(ok, mnesia:deactivate_checkpoint(Name)), [lists:foreach(fun(E) -> ok = mnesia:dirty_write({Tab, E, 2}) end, NList) || Tab <- Tabs], Pids1 = [{'EXIT', spawn_link(?MODULE, change_tab, [self(), carA, Op]), ok} || _ <- lists:seq(1, 5)], Pids2 = [{'EXIT', spawn_link(?MODULE, change_tab, [self(), carB, Op]), ok} || _ <- lists:seq(1, 5)], Pids3 = [{'EXIT', spawn_link(?MODULE, change_tab, [self(), carC, Op]), ok} || _ <- lists:seq(1, 5)], Pids4 = [{'EXIT', spawn_link(?MODULE, change_tab, [self(), carD, Op]), ok} || _ <- lists:seq(1, 5)], AllPids = Pids1 ++ Pids2 ++ Pids3 ++ Pids4, Restore = fun(F, Args) -> case mnesia:restore(F, Args) of {atomic, List} -> lists:sort(List); Else -> Else end end, timer:sleep(timer:seconds(Delay)), %% Let changers grab locks ?verbose("Doing restore~n", []), ?match(Tabs, Restore(File, [{default_op, Op}])), timer:sleep(timer:seconds(Delay)), %% Let em die ?match_multi_receive(AllPids), case ?match(ok, restore_verify_tabs(Tabs)) of {success, ok} -> file:delete(File); _ -> {T, M, S} = time(), File2 = ?flat_format("consistency_error~w~w~w.BUP", [T, M, S]), file:rename(File, File2) end, ?verify_mnesia(Nodes, []). change_tab(Father, Tab, Test) -> Key = random:uniform(20), Update = fun() -> case mnesia:read({Tab, Key}) of [{Tab, Key, 1}] -> quit; [{Tab, Key, _N}] -> mnesia:write({Tab, Key, 3}) end end, case mnesia:transaction(Update) of {atomic, quit} -> exit(ok); {aborted, {no_exists, Tab}} when Test == recreate_tables ->%% I'll allow this change_tab(Father, Tab, Test); {atomic, ok} -> change_tab(Father, Tab, Test) end. restore_verify_tabs([Tab | R]) -> ?match({atomic, ok}, mnesia:transaction(fun() -> mnesia:foldl(fun({_, _, 1}, ok) -> ok; (Else, Acc) -> [Else|Acc] end, ok, Tab) end)), restore_verify_tabs(R); restore_verify_tabs([]) -> ok. %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% consistency_after_rename_of_node(doc) -> ["Skipped because it is an unimportant case."]. %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% checkpoint_retainer_consistency(doc) -> ["Verify that the contents of a checkpoint retainer has the expected", "contents in various situations."]; checkpoint_retainer_consistency(suite) -> [ updates_during_checkpoint_activation, updates_during_checkpoint_iteration, load_table_with_activated_checkpoint, add_table_copy_to_table_with_activated_checkpoint ]. %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% updates_during_checkpoint_activation(doc) -> ["Perform updates while the checkpoint getting activated", "and verify that all checkpoint retainers associated with", "different replicas of the same table really has the same", "contents."]; updates_during_checkpoint_activation(suite) -> [ updates_during_checkpoint_activation_2_ram, updates_during_checkpoint_activation_2_disc, updates_during_checkpoint_activation_2_disc_only, updates_during_checkpoint_activation_3_ram, updates_during_checkpoint_activation_3_disc , updates_during_checkpoint_activation_3_disc_only ]. updates_during_checkpoint_activation_2_ram(suite) -> []; updates_during_checkpoint_activation_2_ram(Config) when is_list(Config) -> updates_during_checkpoint_activation(ram_copies, 2, Config). updates_during_checkpoint_activation_2_disc(suite) -> []; updates_during_checkpoint_activation_2_disc(Config) when is_list(Config) -> updates_during_checkpoint_activation(disc_copies, 2, Config). updates_during_checkpoint_activation_2_disc_only(suite) -> []; updates_during_checkpoint_activation_2_disc_only(Config) when is_list(Config) -> updates_during_checkpoint_activation(disc_only_copies, 2, Config). updates_during_checkpoint_activation_3_ram(suite) -> []; updates_during_checkpoint_activation_3_ram(Config) when is_list(Config) -> updates_during_checkpoint_activation(ram_copies, 3, Config). updates_during_checkpoint_activation_3_disc(suite) -> []; updates_during_checkpoint_activation_3_disc(Config) when is_list(Config) -> updates_during_checkpoint_activation(disc_copies, 3, Config). updates_during_checkpoint_activation_3_disc_only(suite) -> []; updates_during_checkpoint_activation_3_disc_only(Config) when is_list(Config) -> updates_during_checkpoint_activation(disc_only_copies, 3, Config). updates_during_checkpoint_activation(ReplicaType,NodeConfig,Config) -> %%?verbose("updates_during_checkpoint_activation2 at ~p~n", [self()]), Delay = 5, Nodes = ?acquire_nodes(NodeConfig, Config), Node1 = hd(Nodes), %%?verbose("Mnesia info: ~p~n", [mnesia:info()]), {success, [A]} = ?start_activities([Node1]), ?log("consistency_after_fallback with ~p on ~p~n", [ReplicaType, Nodes]), TpcbConfig = tpcb_config_dist(ReplicaType, NodeConfig, Nodes, Config), %%TpcbConfig = tpcb_config(ReplicaType, NodeConfig, Nodes), mnesia_tpcb:init(TpcbConfig), A ! fun () -> mnesia_tpcb:run(TpcbConfig) end, timer:sleep(timer:seconds(Delay)), {ok, CPName, _NodeList} = mnesia:activate_checkpoint([{max, mnesia:system_info(tables)}]), timer:sleep(timer:seconds(Delay)), %% Stop tpcb ?verbose("Stopping TPC-B~n", []), mnesia_tpcb:stop(), ?match(ok, mnesia_tpcb:verify_tabs()), ?match(ok, mnesia:backup_checkpoint(CPName, updates_during_checkpoint_activation2)), timer:sleep(timer:seconds(Delay)), ?match(ok, mnesia:install_fallback(updates_during_checkpoint_activation2)), %% Stop and then start mnesia and check table consistency %%?verbose("Restarting Mnesia~n", []), mnesia_test_lib:kill_mnesia(Nodes), file:delete(updates_during_checkpoint_activation2), mnesia_test_lib:start_mnesia(Nodes,[account,branch,teller, history]), ?match(ok, mnesia_tpcb:verify_tabs()), ?verify_mnesia(Nodes, []). %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% updates_during_checkpoint_iteration(doc) -> ["Perform updates while someone is iterating over a checkpoint", "and verify that the iterator really finds the expected data", "regardless of ongoing upates."]; updates_during_checkpoint_iteration(suite) -> [ updates_during_checkpoint_iteration_2_ram, updates_during_checkpoint_iteration_2_disc , updates_during_checkpoint_iteration_2_disc_only ]. updates_during_checkpoint_iteration_2_ram(suite) -> []; updates_during_checkpoint_iteration_2_ram(Config) when is_list(Config) -> updates_during_checkpoint_iteration(ram_copies, 2, Config). updates_during_checkpoint_iteration_2_disc(suite) -> []; updates_during_checkpoint_iteration_2_disc(Config) when is_list(Config) -> updates_during_checkpoint_iteration(disc_copies, 2, Config). updates_during_checkpoint_iteration_2_disc_only(suite) -> []; updates_during_checkpoint_iteration_2_disc_only(Config) when is_list(Config) -> updates_during_checkpoint_iteration(disc_only_copies, 2, Config). updates_during_checkpoint_iteration(ReplicaType,NodeConfig,Config) -> %?verbose("updates_during_checkpoint_iteration2 at ~p~n", [self()]), Delay = 5, Nodes = ?acquire_nodes(NodeConfig, Config), Node1 = hd(Nodes), %?verbose("Mnesia info: ~p~n", [mnesia:info()]), File = updates_during_checkpoint_iteration2, {success, [A]} = ?start_activities([Node1]), ?log("updates_during_checkpoint_iteration with ~p on ~p~n", [ReplicaType, Nodes]), TpcbConfig = tpcb_config_dist(ReplicaType, NodeConfig, Nodes, Config), %%TpcbConfig = tpcb_config(ReplicaType, NodeConfig, Nodes), TpcbConfigRec = list2rec(TpcbConfig, record_info(fields,tab_config), #tab_config{}), mnesia_tpcb:init(TpcbConfig), ?match(ok, mnesia_tpcb:verify_tabs()), {ok, CPName, _NodeList} = mnesia:activate_checkpoint([{max, mnesia:system_info(tables)}, {ram_overrides_dump,true}]), A ! fun () -> mnesia:backup_checkpoint(CPName, File) end, do_changes_during_backup(TpcbConfigRec), ?match_receive({A,ok}), timer:sleep(timer:seconds(Delay)), ?match(ok, mnesia:install_fallback(File)), timer:sleep(timer:seconds(Delay)), ?match({error,{"Bad balance",_,_}}, mnesia_tpcb:verify_tabs()), mnesia_test_lib:kill_mnesia(Nodes), mnesia_test_lib:start_mnesia(Nodes,[account,branch,teller, history]), ?match(ok, mnesia_tpcb:verify_tabs()), ?match(ok, file:delete(File)), ?verify_mnesia(Nodes, []). do_changes_during_backup(TpcbConfig) -> loop_branches(TpcbConfig#tab_config.n_branches, TpcbConfig#tab_config.n_accounts_per_branch). loop_branches(N_br,N_acc) when N_br >= 1 -> loop_accounts(N_br,N_acc), loop_branches(N_br-1,N_acc); loop_branches(_,_) -> done. loop_accounts(N_br, N_acc) when N_acc >= 1 -> A = #account{id=N_acc, branch_id=N_br, balance = 4711}, ok = mnesia:dirty_write(A), loop_accounts(N_br, N_acc-1); loop_accounts(_,_) -> done. %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% load_table_with_activated_checkpoint(doc) -> ["Load a table with a checkpoint attached to it and verify that the", "newly loaded replica also gets a checkpoint retainer attached to it", "and that it is consistent with the original retainer."]; load_table_with_activated_checkpoint(suite) -> [ load_table_with_activated_checkpoint_ram, load_table_with_activated_checkpoint_disc, load_table_with_activated_checkpoint_disc_only ]. load_table_with_activated_checkpoint_ram(suite) -> []; load_table_with_activated_checkpoint_ram(Config) when is_list(Config) -> load_table_with_activated_checkpoint(ram_copies, Config). load_table_with_activated_checkpoint_disc(suite) -> []; load_table_with_activated_checkpoint_disc(Config) when is_list(Config) -> load_table_with_activated_checkpoint(disc_copies, Config). load_table_with_activated_checkpoint_disc_only(suite) -> []; load_table_with_activated_checkpoint_disc_only(Config) when is_list(Config) -> load_table_with_activated_checkpoint(disc_only_copies, Config). load_table_with_activated_checkpoint(Type, Config) -> Nodes = ?acquire_nodes(2, Config), Node1 = hd(Nodes), Tab = load_test, Def = [{attributes, [key, value]}, {Type, Nodes}], %% ??? important that RAM ??? ?match({atomic, ok}, mnesia:create_table(Tab, Def)), ?match(ok, mnesia:dirty_write({Tab, 1, 4711})), ?match(ok, mnesia:dirty_write({Tab, 2, 42})), ?match(ok, mnesia:dirty_write({Tab, 3, 256})), timer:sleep(timer:seconds(1)), {ok, CPName, _NodeList} = mnesia:activate_checkpoint([{max, mnesia:system_info(tables)}, {ram_overrides_dump,true}]), mnesia_test_lib:stop_mnesia([Node1]), mnesia_test_lib:start_mnesia([Node1],[Tab]), %%--- check, whether the checkpiont is attached to both replicas {success, [A,B]} = ?start_activities(Nodes), A ! fun () -> mnesia:table_info(Tab,checkpoints) end, ?match_receive({A,[CPName]}), B ! fun () -> mnesia:table_info(Tab,checkpoints) end, ?match_receive({B,[CPName]}), %%--- check, whether both retainers are consistent ?match(ok, mnesia:dirty_write({Tab, 1, 815})), A ! fun () -> mnesia:backup_checkpoint(CPName, load_table_a) end, ?match_receive({A,ok}), B ! fun () -> mnesia:backup_checkpoint(CPName, load_table_b) end, ?match_receive({B,ok}), Mod = mnesia_backup, %% Assume local files List_a = view(load_table_a, Mod), List_b = view(load_table_b, Mod), ?match(List_a, List_b), ?match(ok,file:delete(load_table_a)), ?match(ok,file:delete(load_table_b)), ?verify_mnesia(Nodes, []). view(Source, Mod) -> View = fun(Item, Acc) -> ?verbose("tab - item : ~p ~n",[Item]), case Item of {schema, Tab, Cs} -> %% Remove cookie information NewCs = lists:keyreplace(cookie, 1, Cs, {cookie, skip_cookie}), Item2 = {schema, Tab, NewCs}, {[Item], [Item2|Acc]}; _ -> {[Item], [Item|Acc]} end end, {ok,TabList} = mnesia:traverse_backup(Source, Mod, dummy, read_only, View, []), lists:sort(TabList). %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% add_table_copy_to_table_with_activated_checkpoint(doc) -> ["Add a replica to a table with a checkpoint attached to it", "and verify that the new replica also gets a checkpoint", "retainer attached to it and that it is consistent with the", "original retainer."]; add_table_copy_to_table_with_activated_checkpoint(suite) -> [ add_table_copy_to_table_with_activated_checkpoint_ram, add_table_copy_to_table_with_activated_checkpoint_disc, add_table_copy_to_table_with_activated_checkpoint_disc_only ]. add_table_copy_to_table_with_activated_checkpoint_ram(suite) -> []; add_table_copy_to_table_with_activated_checkpoint_ram(Config) when is_list(Config) -> add_table_copy_to_table_with_activated_checkpoint(ram_copies, Config). add_table_copy_to_table_with_activated_checkpoint_disc(suite) -> []; add_table_copy_to_table_with_activated_checkpoint_disc(Config) when is_list(Config) -> add_table_copy_to_table_with_activated_checkpoint(disc_copies, Config). add_table_copy_to_table_with_activated_checkpoint_disc_only(suite) -> []; add_table_copy_to_table_with_activated_checkpoint_disc_only(Config) when is_list(Config) -> add_table_copy_to_table_with_activated_checkpoint(disc_only_copies, Config). add_table_copy_to_table_with_activated_checkpoint(Type,Config) -> Nodes = ?acquire_nodes(2, Config), %?verbose("NODES = ~p ~n",[Nodes]), [Node1,Node2] = Nodes, Tab = add_test, Def = [{attributes, [key, value]}, {Type, [Node1]}], %% ??? important that RAM ??? ?match({atomic, ok}, mnesia:create_table(Tab, Def)), ?match(ok, mnesia:dirty_write({Tab, 1, 4711})), ?match(ok, mnesia:dirty_write({Tab, 2, 42})), ?match(ok, mnesia:dirty_write({Tab, 3, 256})), {ok, CPName, _NodeList} = mnesia:activate_checkpoint([{max, mnesia:system_info(tables)}, {ram_overrides_dump,true}]), ?match({atomic,ok},mnesia:add_table_copy(Tab,Node2,ram_copies)), %%--- check, whether the checkpiont is attached to both replicas {success, [A,B]} = ?start_activities(Nodes), A ! fun () -> mnesia:table_info(Tab,checkpoints) end, ?match_receive({A,[CPName]}), B ! fun () -> mnesia:table_info(Tab,checkpoints) end, ?match_receive({B,[CPName]}), %%--- check, whether both retainers are consistent ?match(ok, mnesia:dirty_write({Tab, 1, 815})), ?match(ok, mnesia:dirty_write({Tab, 2, 815})), A ! fun () -> mnesia:backup_checkpoint(CPName, add_table_a) end, ?match_receive({A,ok}), B ! fun () -> mnesia:backup_checkpoint(CPName, add_table_b) end, ?match_receive({B,ok}), Mod = mnesia_backup, %% Assume local files List_a = view(add_table_a, Mod), List_b = view(add_table_b, Mod), ?match(List_a, List_b), ?match(ok,file:delete(add_table_a)), ?match(ok, file:delete(add_table_b)), ?verify_mnesia(Nodes, []). %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% backup_consistency(suite) -> [ interupted_install_fallback, interupted_uninstall_fallback, mnesia_down_during_backup_causes_switch, mnesia_down_during_backup_causes_abort, schema_transactions_during_backup ]. %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% interupted_install_fallback(doc) -> ["Verify that a interrupted install_fallback really", "is performed on all nodes or none"]; interupted_install_fallback(suite) -> [ inst_fallback_process_dies, fatal_when_inconsistency ]. inst_fallback_process_dies(suite) -> []; inst_fallback_process_dies(Config) when is_list(Config) -> ?is_debug_compiled, Nodes = ?acquire_nodes(3, Config ++ [{tc_timeout, timer:minutes(2)}]), {success, [A,_B,_C]} = ?start_activities(Nodes), TestPid = self(), DebugId = {mnesia_bup, fallback_receiver_loop, pre_swap}, DebugFun = fun(PrevContext, _EvalContext) -> ?verbose("fallback_receiver_loop - pre_swap pid ~p #~p~n", [self(),PrevContext]), TestPid ! {self(),fallback_preswap}, case receive_messages([fallback_continue]) of [{TestPid,fallback_continue}] -> ?deactivate_debug_fun(DebugId), PrevContext+1 end end, ?activate_debug_fun(DebugId, DebugFun, 1), Tab = install_table, Def = [{attributes, [key, value]}, {disc_copies, Nodes}], ?match({atomic, ok}, mnesia:create_table(Tab, Def)), ?match(ok, mnesia:dirty_write({Tab, 1, 4711})), ?match(ok, mnesia:dirty_write({Tab, 2, 42})), ?match(ok, mnesia:dirty_write({Tab, 3, 256})), {ok, CPName, _NodeList} = mnesia:activate_checkpoint([{max, mnesia:system_info(tables)}, {ram_overrides_dump,true}]), ?match(ok, mnesia:backup_checkpoint(CPName, install_backup)), A ! fun() -> mnesia:install_fallback(install_backup) end, [{AnsPid,fallback_preswap}] = receive_messages([fallback_preswap]), exit(A, kill), AnsPid ! {self(), fallback_continue}, ?match_receive({'EXIT', A, killed}), timer:sleep(2000), %% Wait till fallback is installed everywhere mnesia_test_lib:kill_mnesia(Nodes), ?verbose("~n---->Mnesia is stopped everywhere<-----~n", []), ?match([], mnesia_test_lib:start_mnesia(Nodes,[Tab])), check_data(Nodes, Tab), ?match(ok, file:delete(install_backup)), ?verify_mnesia(Nodes, []). check_data([N1 | R], Tab) -> ?match([{Tab, 1, 4711}], rpc:call(N1, mnesia, dirty_read, [{Tab, 1}])), ?match([{Tab, 2, 42}], rpc:call(N1, mnesia, dirty_read, [{Tab, 2}])), ?match([{Tab, 3, 256}], rpc:call(N1, mnesia, dirty_read, [{Tab, 3}])), check_data(R, Tab); check_data([], _Tab) -> ok. %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% fatal_when_inconsistency(suite) -> []; fatal_when_inconsistency(Config) when is_list(Config) -> ?is_debug_compiled, [Node1, Node2, Node3] = Nodes = ?acquire_nodes(3, Config ++ [{tc_timeout, timer:minutes(2)}]), {success, [A,_B,_C]} = ?start_activities(Nodes), TestPid = self(), DebugId = {mnesia_bup, fallback_receiver_loop, pre_swap}, DebugFun = fun(PrevContext, _EvalContext) -> ?verbose("fallback_receiver_loop - pre_swap pid ~p #~p~n", [self(),PrevContext]), TestPid ! {self(),fallback_preswap}, case receive_messages([fallback_continue]) of [{TestPid,fallback_continue}] -> ?deactivate_debug_fun(DebugId), PrevContext+1 end end, ?activate_debug_fun(DebugId, DebugFun, 1), Tab = install_table, Def = [{attributes, [key, value]}, {disc_copies, Nodes}], ?match({atomic, ok}, mnesia:create_table(Tab, Def)), ?match(ok, mnesia:dirty_write({Tab, 1, 4711})), ?match(ok, mnesia:dirty_write({Tab, 2, 42})), ?match(ok, mnesia:dirty_write({Tab, 3, 256})), {ok, CPName, _NodeList} = mnesia:activate_checkpoint([{max, mnesia:system_info(tables)}, {ram_overrides_dump,true}]), ?match(ok, mnesia:backup_checkpoint(CPName, install_backup)), ?match(ok, mnesia:dirty_write({Tab, 2, 42424242})), A ! fun() -> mnesia:install_fallback(install_backup) end, [{AnsPid,fallback_preswap}] = receive_messages([fallback_preswap]), exit(AnsPid, kill), %% Kill install-fallback on local node will AnsPid ! {self(), fallback_continue}, ?deactivate_debug_fun(DebugId), ?match_receive({A,{error,{"Cannot install fallback", {'EXIT',AnsPid,killed}}}}), mnesia_test_lib:kill_mnesia(Nodes), ?verbose("EXPECTING FATAL from 2 nodes WITH CORE DUMP~n", []), ?match([], mnesia_test_lib:start_mnesia([Node1],[])), is_running(Node1, yes), ?match([{Node2, mnesia, _}], mnesia_test_lib:start_mnesia([Node2],[])), is_running(Node2, no), ?match([{Node3, mnesia, _}], mnesia_test_lib:start_mnesia([Node3],[])), is_running(Node3, no), mnesia_test_lib:kill_mnesia(Nodes), ?match(ok, mnesia:install_fallback(install_backup)), mnesia_test_lib:start_mnesia(Nodes,[Tab]), check_data(Nodes, Tab), ?match(ok,file:delete(install_backup)), ?verify_mnesia(Nodes, []). is_running(Node, Shouldbe) -> timer:sleep(1000), Running = rpc:call(Node, mnesia, system_info, [is_running]), case Running of Shouldbe -> ok; _ -> is_running(Node, Shouldbe) end. %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% interupted_uninstall_fallback(doc) -> ["Verify that a interrupted uninstall_fallback really", "is performed on all nodes or none"]; interupted_uninstall_fallback(suite) -> [ after_delete ]. %%%%%%%%%%%%%%%%%%%%%%%%%%%%%% after_delete(doc) -> ["interrupt the uninstall after deletion of ", "fallback files - there shall be no fallback"]; after_delete(suite) -> []; after_delete(Config) when is_list(Config) -> do_uninstall(Config, post_delete). %%%%%%%%%%%%%%%%%%%%%%%%% do_uninstall(Config,DebugPoint) -> ?is_debug_compiled, Nodes = ?acquire_nodes(3, Config), %%?verbose("NODES = ~p ~n",[Nodes]), {success, [P1,P2,P3]} = ?start_activities(Nodes), NP1 = node(P1), NP2 = node(P2), {A,B,C} = case node() of NP1 -> %%?verbose("first case ~n"), {P3,P2,P1}; NP2 -> %%?verbose("second case ~n"), {P3, P1, P2}; _ -> { P1, P2, P3} end, Node1 = node(A), Node2 = node(B), Node3 = node(C), ?verbose(" A pid:~p node:~p ~n",[A,Node1]), ?verbose(" B pid:~p node:~p ~n",[B,Node2]), ?verbose(" C pid:~p node:~p ~n",[C,Node3]), TestPid = self(), %%?verbose("TestPid : ~p~n",[TestPid]), DebugId = {mnesia_bup, uninstall_fallback2, DebugPoint}, DebugFun = fun(PrevContext, _EvalContext) -> ?verbose("uninstall_fallback pid ~p #~p~n" ,[self(),PrevContext]), TestPid ! {self(),uninstall_predelete}, case receive_messages([uninstall_continue]) of [{TestPid,uninstall_continue}] -> ?deactivate_debug_fun(DebugId), %%?verbose("uninstall_fallback continues~n"), PrevContext+1 end end, ?remote_activate_debug_fun(Node1,DebugId, DebugFun, 1), Tab = install_table, Def = [{attributes, [key, value]}, {ram_copies, Nodes}], %% necessary to test different types ??? ?match({atomic, ok}, mnesia:create_table(Tab, Def)), ?match(ok, mnesia:dirty_write({Tab, 1, 4711})), ?match(ok, mnesia:dirty_write({Tab, 2, 42})), ?match(ok, mnesia:dirty_write({Tab, 3, 256})), {ok, CPName, _NodeList} = mnesia:activate_checkpoint([{max, mnesia:system_info(tables)}, {ram_overrides_dump,true}]), ?match(ok, mnesia:backup_checkpoint(CPName,install_backup)), timer:sleep(timer:seconds(1)), A ! fun () -> mnesia:install_fallback(install_backup) end, ?match_receive({A,ok}), A ! fun () -> mnesia:uninstall_fallback() end, %% %% catch the debug entry in mnesia and kill one Mnesia node %% [{AnsPid,uninstall_predelete}] = receive_messages([uninstall_predelete]), ?verbose("AnsPid : ~p~n",[AnsPid]), mnesia_test_lib:kill_mnesia([Node2]), timer:sleep(timer:seconds(1)), AnsPid ! {self(),uninstall_continue}, ?match_receive({A,ok}), mnesia_test_lib:kill_mnesia(Nodes) , mnesia_test_lib:start_mnesia(Nodes,[Tab]), A ! fun () -> R1 = mnesia:dirty_read({Tab,1}), R2 = mnesia:dirty_read({Tab,2}), R3 = mnesia:dirty_read({Tab,3}), {R1,R2,R3} end, ?match_receive({ A, {[],[],[]} }), B ! fun () -> R1 = mnesia:dirty_read({Tab,1}), R2 = mnesia:dirty_read({Tab,2}), R3 = mnesia:dirty_read({Tab,3}), {R1,R2,R3} end, ?match_receive({ B, {[],[],[]} }), C ! fun () -> R1 = mnesia:dirty_read({Tab,1}), R2 = mnesia:dirty_read({Tab,2}), R3 = mnesia:dirty_read({Tab,3}), {R1,R2,R3} end, ?match_receive({ C, {[],[],[]} }), ?match(ok,file:delete(install_backup)), ?verify_mnesia(Nodes, []). %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% mnesia_down_during_backup_causes_switch(doc) -> ["Verify that an ongoing backup is not disturbed", "even if the node hosting the replica that currently", "is being backup'ed is stopped. The backup utility", "is expected to switch over to another replica and", "fulfill the backup."]; mnesia_down_during_backup_causes_switch(suite) -> [ cause_switch_before, cause_switch_after ]. %%%%%%%%%%%%%%% cause_switch_before(doc) -> ["interrupt the backup before iterating the retainer"]; cause_switch_before(suite) -> []; cause_switch_before(Config) when is_list(Config) -> do_something_during_backup(cause_switch,pre,Config). %%%%%%%%%%%%%%% cause_switch_after(doc) -> ["interrupt the backup after iterating the retainer"]; cause_switch_after(suite) -> []; cause_switch_after(Config) when is_list(Config) -> do_something_during_backup(cause_switch,post,Config). %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% mnesia_down_during_backup_causes_abort(doc) -> ["Verify that an ongoing backup is aborted nicely", "without leaving any backup file if the last replica", "of a table becomes unavailable due to a node down", "or some crash."]; mnesia_down_during_backup_causes_abort(suite) -> [ cause_abort_before, cause_abort_after ]. %%%%%%%%%%%%%%%%%% cause_abort_before(doc) -> ["interrupt the backup before iterating the retainer"]; cause_abort_before(suite) -> []; cause_abort_before(Config) when is_list(Config) -> do_something_during_backup(cause_abort,pre,Config). %%%%%%%%%%%%%%%%%% cause_abort_after(doc) -> ["interrupt the backup after iterating the retainer"]; cause_abort_after(suite) -> []; cause_abort_after(Config) when is_list(Config) -> do_something_during_backup(cause_abort,post,Config). %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% schema_transactions_during_backup(doc) -> ["Verify that an schema transactions does not", "affect an ongoing backup."]; schema_transactions_during_backup(suite) -> [ change_schema_before, change_schema_after ]. %%%%%%%%%%%%% change_schema_before(doc) -> ["interrupt the backup before iterating the retainer"]; change_schema_before(suite) -> []; change_schema_before(Config) when is_list(Config) -> do_something_during_backup(change_schema,pre,Config). %%%%%%%%%%%%%%%% change_schema_after(doc) -> ["interrupt the backup after iterating the retainer"]; change_schema_after(suite) -> []; change_schema_after(Config) when is_list(Config) -> do_something_during_backup(change_schema,post,Config). %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% do_something_during_backup(Action,DebugPoint,Config) -> ?is_debug_compiled, Nodes = ?acquire_nodes(3, Config), {success, [A,B,C]} = ?start_activities(Nodes), Node1 = node(A), Node2 = node(B), Node3 = node(C), TestPid = self(), %%?verbose("TestPid : ~p~n",[TestPid]), Tab = interrupt_table, Bak = interrupt_backup, Def = [{attributes, [key, value]}, {ram_copies, [Node2,Node3]}], %% necessary to test different types ??? ?match({atomic, ok}, mnesia:create_table(Tab, Def)), DebugId = {mnesia_log, tab_copier, DebugPoint}, DebugFun = fun(PrevContext, EvalContext) -> ?verbose("interrupt backup pid ~p #~p ~n context ~p ~n" ,[self(),PrevContext,EvalContext]), TestPid ! {self(),interrupt_backup_pre}, global:set_lock({{lock_for_backup, Tab}, self()}, Nodes, infinity), %%?verbose("interrupt backup - continues ~n"), ?deactivate_debug_fun(DebugId), PrevContext+1 end, ?remote_activate_debug_fun(Node1,DebugId, DebugFun, 1), ?match(ok, mnesia:dirty_write({Tab, 1, 4711})), ?match(ok, mnesia:dirty_write({Tab, 2, 42})), ?match(ok, mnesia:dirty_write({Tab, 3, 256})), {ok, CPName, _NodeList} = mnesia:activate_checkpoint([{max, mnesia:system_info(tables)}, {ram_overrides_dump,true}]), A ! fun () -> %%?verbose("node: ~p pid: ~p ~n",[node(),self()]), mnesia:table_info(Tab,where_to_read) end, ReadNode_a = receive { A, ReadNode_a_tmp } -> ReadNode_a_tmp end, ?verbose("ReadNode ~p ~n",[ReadNode_a]), global:set_lock({{lock_for_backup, Tab}, self()}, Nodes, infinity), A ! fun () -> %% A shall perform the backup, so the test proc is %% able to do further actions in between mnesia:backup_checkpoint(CPName, Bak) end, %% catch the debug function of mnesia, stop the backup process %% kill the node ReadNode_a and continue the backup process %% As there is a second replica of the table, the backup shall continue case receive_messages([interrupt_backup_pre]) of [{_AnsPid,interrupt_backup_pre}] -> ok end, case Action of cause_switch -> mnesia_test_lib:kill_mnesia([ReadNode_a]), timer:sleep(timer:seconds(1)); cause_abort -> mnesia_test_lib:kill_mnesia([Node2,Node3]), timer:sleep(timer:seconds(1)); change_schema -> Tab2 = second_interrupt_table, Def2 = [{attributes, [key, value]}, {ram_copies, Nodes}], ?match({atomic, ok}, mnesia:create_table(Tab2, Def2)) end, %% AnsPid ! {self(),interrupt_backup_continue}, global:del_lock({{lock_for_backup, Tab}, self()}, Nodes), case Action of cause_abort -> %% answer of A when finishing the backup ?match_receive({A,{error, _}}), ?match({error,{"Cannot install fallback",_}}, mnesia:install_fallback(Bak)); _ -> %% cause_switch, change_schema ?match_receive({A,ok}), %% answer of A when finishing the backup %% send a fun to that node where mnesia is still running WritePid = case ReadNode_a of Node2 -> C; %% node(C) == Node3 Node3 -> B end, WritePid ! fun () -> ?match(ok, mnesia:dirty_write({Tab, 1, 815})), ?match(ok, mnesia:dirty_write({Tab, 2, 816})), ok end, ?match_receive({ WritePid, ok }), ?match(ok, mnesia:install_fallback(Bak)) end, %% Stop and then start mnesia and check table consistency %%?verbose("Restarting Mnesia~n", []), mnesia_test_lib:kill_mnesia(Nodes), mnesia_test_lib:start_mnesia(Nodes,[Tab]), case Action of cause_switch -> %% the backup should exist cross_check_tables([A,B,C],Tab,{[{Tab,1,4711}], [{Tab,2,42}], [{Tab,3,256}] }), ?match(ok,file:delete(Bak)); cause_abort -> %% the backup should NOT exist cross_check_tables([A,B,C],Tab,{[],[],[]}), %% file does not exist ?match({error, _},file:delete(Bak)); change_schema -> %% the backup should exist cross_check_tables([A,B,C],Tab,{[{Tab,1,4711}], [{Tab,2,42}], [{Tab,3,256}] }), ?match(ok,file:delete(Bak)) end, ?verify_mnesia(Nodes, []). %% check the contents of the table cross_check_tables([],_tab,_elements) -> ok; cross_check_tables([Pid|Rest],Tab,{Val1,Val2,Val3}) -> Pid ! fun () -> R1 = mnesia:dirty_read({Tab,1}), R2 = mnesia:dirty_read({Tab,2}), R3 = mnesia:dirty_read({Tab,3}), {R1,R2,R3} end, ?match_receive({ Pid, {Val1, Val2, Val3 } }), cross_check_tables(Rest,Tab,{Val1,Val2,Val3} ).