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author | Dan Gudmundsson <[email protected]> | 2010-06-08 13:24:21 +0200 |
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committer | Erlang/OTP <[email protected]> | 2010-06-08 13:24:21 +0200 |
commit | cc362ea3985f3d5f20d8f5316059c5ede04e6851 (patch) | |
tree | 1aa5d79c99260940af209657294bfec3db835b54 /lib/mnesia/test/mnesia_evil_coverage_test.erl | |
parent | b8b646ff6780ce1a3d128b22fb90d4ddd75f2ca6 (diff) | |
download | otp-cc362ea3985f3d5f20d8f5316059c5ede04e6851.tar.gz otp-cc362ea3985f3d5f20d8f5316059c5ede04e6851.tar.bz2 otp-cc362ea3985f3d5f20d8f5316059c5ede04e6851.zip |
Release mnesia tests
Diffstat (limited to 'lib/mnesia/test/mnesia_evil_coverage_test.erl')
-rw-r--r-- | lib/mnesia/test/mnesia_evil_coverage_test.erl | 2401 |
1 files changed, 2401 insertions, 0 deletions
diff --git a/lib/mnesia/test/mnesia_evil_coverage_test.erl b/lib/mnesia/test/mnesia_evil_coverage_test.erl new file mode 100644 index 0000000000..4fbf1b4003 --- /dev/null +++ b/lib/mnesia/test/mnesia_evil_coverage_test.erl @@ -0,0 +1,2401 @@ +%% +%% %CopyrightBegin% +%% +%% Copyright Ericsson AB 1996-2010. 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_evil_coverage_test). +-author('[email protected]'). +-include("mnesia_test_lib.hrl"). + +-compile([export_all]). + +-define(cleanup(N, Config), + mnesia_test_lib:prepare_test_case([{reload_appls, [mnesia]}], + N, Config, ?FILE, ?LINE)). +init_per_testcase(Func, Conf) -> + mnesia_test_lib:init_per_testcase(Func, Conf). + +fin_per_testcase(Func, Conf) -> + mnesia_test_lib:fin_per_testcase(Func, Conf). + +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +all(doc) -> + ["Evil usage of the API.", + "Invoke all functions in the API and try to cover all legal uses", + "cases as well the illegal dito. This is a complement to the", + "other more explicit test cases."]; +all(suite) -> + [ + system_info, + table_info, + error_description, + db_node_lifecycle, + evil_delete_db_node, + start_and_stop, + checkpoint, + table_lifecycle, + add_copy_conflict, + add_copy_when_going_down, + replica_management, + schema_availability, + local_content, + table_access_modifications, + replica_location, + table_sync, + user_properties, + unsupp_user_props, + record_name, + snmp_access, + subscriptions, + iteration, + debug_support, + sorted_ets, + {mnesia_dirty_access_test, all}, + {mnesia_trans_access_test, all}, + {mnesia_evil_backup, all} + ]. + + +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +%% Get meta info about Mnesia + +system_info(suite) -> []; +system_info(Config) when is_list(Config) -> + Nodes = ?acquire_nodes(all, Config), + Ns = ?sort(Nodes), + ?match(yes, mnesia:system_info(is_running)), + ?match(Ns, ?sort(mnesia:system_info(db_nodes))), + ?match(Ns, ?sort(mnesia:system_info(running_db_nodes))), + ?match(A when is_atom(A), mnesia:system_info(debug)), + ?match(L when is_list(L), mnesia:system_info(directory)), + ?match(L when is_list(L), mnesia:system_info(log_version)), + ?match({_, _}, mnesia:system_info(schema_version)), + ?match(L when is_list(L), mnesia:system_info(tables)), + ?match(L when is_list(L), mnesia:system_info(local_tables)), + ?match(L when is_list(L), mnesia:system_info(held_locks)), + ?match(L when is_list(L), mnesia:system_info(lock_queue)), + ?match(L when is_list(L), mnesia:system_info(transactions)), + ?match(I when is_integer(I), mnesia:system_info(transaction_failures)), + ?match(I when is_integer(I), mnesia:system_info(transaction_commits)), + ?match(I when is_integer(I), mnesia:system_info(transaction_restarts)), + ?match(L when is_list(L), mnesia:system_info(checkpoints)), + ?match(A when is_atom(A), mnesia:system_info(backup_module)), + ?match(true, mnesia:system_info(auto_repair)), + ?match({_, _}, mnesia:system_info(dump_log_interval)), + ?match(A when is_atom(A), mnesia:system_info(dump_log_update_in_place)), + ?match(I when is_integer(I), mnesia:system_info(transaction_log_writes)), + ?match(I when is_integer(I), mnesia:system_info(send_compressed)), + ?match(L when is_list(L), mnesia:system_info(all)), + ?match({'EXIT', {aborted, Reason }} when element(1, Reason) == badarg + , mnesia:system_info(ali_baba)), + ?verify_mnesia(Nodes, []). + +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +%% Get meta info about table + +table_info(suite) -> []; +table_info(Config) when is_list(Config) -> + [Node1, Node2, Node3] = Nodes = ?acquire_nodes(3, Config), + + Tab = table_info, + Type = bag, + ValPos = 3, + Attrs = [k, v], + Arity = length(Attrs) +1, + + Schema = + case mnesia_test_lib:diskless(Config) of + true -> [{type, Type}, {attributes, Attrs}, {index, [ValPos]}, + {ram_copies, Nodes}]; + false -> + [{type, Type}, {attributes, Attrs}, {index, [ValPos]}, + {disc_only_copies, [Node1]}, {ram_copies, [Node2]}, + {disc_copies, [Node3]}] + end, + ?match({atomic, ok}, mnesia:create_table(Tab, Schema)), + + Size = 10, + Keys = lists:seq(1, Size), + Records = [{Tab, A, 7} || A <- Keys], + lists:foreach(fun(Rec) -> ?match(ok, mnesia:dirty_write(Rec)) end, Records), + ?match(Mem when is_integer(Mem), mnesia:table_info(Tab, memory)), + ?match(Size, mnesia:table_info(Tab, size)), + ?match(Type, mnesia:table_info(Tab, type)), + + case mnesia_test_lib:diskless(Config) of + true -> + ?match(Nodes, mnesia:table_info(Tab, ram_copies)); + false -> + ?match([Node3], mnesia:table_info(Tab, mnesia_test_lib:storage_type(disc_copies, Config))), + ?match([Node2], mnesia:table_info(Tab, ram_copies)), + ?match([Node1], mnesia:table_info(Tab, mnesia_test_lib:storage_type(disc_only_copies, Config))) + end, + Read = [Node1, Node2, Node3], + ?match(true, lists:member(mnesia:table_info(Tab, where_to_read), Read)), + Write = ?sort([Node1, Node2, Node3]), + ?match(Write, ?sort(mnesia:table_info(Tab, where_to_write))), + ?match([ValPos], mnesia:table_info(Tab, index)), + ?match(Arity, mnesia:table_info(Tab, arity)), + ?match(Attrs, mnesia:table_info(Tab, attributes)), + ?match({Tab, '_', '_'}, mnesia:table_info(Tab, wild_pattern)), + ?match({atomic, Attrs}, mnesia:transaction(fun() -> + mnesia:table_info(Tab, attributes) end)), + + ?match(L when is_list(L), mnesia:table_info(Tab, all)), + + %% Table info when table not loaded + ?match({atomic, ok}, + mnesia:create_table(tab_info, Schema)), + ?match(stopped, mnesia:stop()), + ?match(stopped, rpc:call(Node2, mnesia, stop, [])), + ?match(ok, mnesia:start()), + ?match(ok, mnesia:wait_for_tables([tab_info], 5000)), + ?match(0, mnesia:table_info(tab_info, size)), + ?verify_mnesia([Node1, Node3], [Node2]). + + +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +%% Check the error descriptions + +error_description(suite) -> []; +error_description(Config) when is_list(Config) -> + ?acquire_nodes(1, Config), + Errors = [nested_transaction, badarg, no_transaction, combine_error, + bad_index, already_exists, index_exists, no_exists, system_limit, + mnesia_down, not_a_db_node, bad_type, node_not_running, + truncated_binary_file, active, illegal + ], + ?match(X when is_atom(X), mnesia:error_description({error, bad_error_msg})), + ?match(X when is_tuple(X), mnesia:error_description({'EXIT', pid, bad})), + %% This is real error msg + ?match(X when is_tuple(X), mnesia:error_description( + {error, + {"Cannot prepare checkpoint (bad reply)", + {{877,957351,758147},a@legolas}, + {error,{node_not_running,a1@legolas}}}})), + check_errors(error, Errors), + check_errors(aborted, Errors), + check_errors('EXIT', Errors). + +check_errors(_Err, []) -> ok; +check_errors(Err, [Desc|R]) -> + ?match(X when is_list(X), mnesia:error_description({Err, Desc})), + check_errors(Err, R). + +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +%% Add and drop db nodes + +db_node_lifecycle(suite) -> []; +db_node_lifecycle(Config) when is_list(Config) -> + [Node1, Node2, Node3] = AllNodes = ?acquire_nodes(3, Config), + Tab = db_node_lifecycle, + + Who = fun(T) -> + L1 = mnesia:table_info(T, ram_copies), + L2 = mnesia:table_info(T, disc_copies), + L3 = mnesia:table_info(T, disc_only_copies), + L1 ++ L2 ++ L3 + end, + + SNs = ?sort(AllNodes), + + Schema = [{name, Tab}, {ram_copies, [Node1, Node2]}], + ?match({atomic, ok}, mnesia:create_table(Schema)), + + ?match([], mnesia_test_lib:stop_mnesia(AllNodes)), + ?match(ok, mnesia:delete_schema(AllNodes)), + ?match({error, _}, mnesia:create_schema(foo)), + ?match({error, _}, mnesia:create_schema([foo])), + ?match({error, _}, mnesia:create_schema([foo@bar])), + ?match(ok, mnesia:start()), + ?match(false, mnesia:system_info(use_dir)), + ?match({atomic, ok}, mnesia:create_table(Tab, [])), + ?match({aborted, {has_no_disc, Node1}}, mnesia:dump_tables([Tab])), + ?match({aborted, {has_no_disc, Node1}}, mnesia:change_table_copy_type(Tab, node(), disc_copies)), + ?match({aborted, {has_no_disc, Node1}}, mnesia:change_table_copy_type(Tab, node(), disc_only_copies)), + + ?match(stopped, mnesia:stop()), + + ?match(ok, mnesia:create_schema(AllNodes)), + ?match([], mnesia_test_lib:start_mnesia(AllNodes)), + + ?match([SNs, SNs, SNs], + lists:map({lists, sort}, + element(1, rpc:multicall(AllNodes, mnesia, table_info, + [schema, disc_copies])))), + + ?match({aborted, {already_exists, schema, Node2, _}}, + mnesia:change_table_copy_type(schema, Node2, disc_copies)), + ?match({atomic, ok}, + mnesia:change_table_copy_type(schema, Node2, ram_copies)), + ?match({aborted, {already_exists, schema, Node2, _}}, + mnesia:change_table_copy_type(schema, Node2, ram_copies)), + + ?match({atomic, ok}, + mnesia:change_table_copy_type(schema, Node2, disc_copies)), + + ?match([SNs, SNs, SNs], + lists:map({lists, sort}, + element(1, rpc:multicall(AllNodes, mnesia, table_info, + [schema, disc_copies])))), + + %% Delete the DB + + Tab2 = disk_tab, + Tab3 = not_local, + Tab4 = local, + Tab5 = remote, + + Tabs = [Schema, + [{name, Tab2}, {disc_copies, AllNodes}], + [{name, Tab3}, {ram_copies, [Node2, Node3]}], + [{name, Tab4}, {disc_only_copies, [Node1]}], + [{name, Tab5}, {disc_only_copies, [Node2]}]], + + [?match({atomic, ok}, mnesia:create_table(T)) || T <- Tabs ], + + ?match({aborted, {active, _, Node2}}, + mnesia:del_table_copy(schema, Node2)), + + ?match([], mnesia_test_lib:stop_mnesia([Node1])), + ?match({aborted, {node_not_running, Node1}}, + mnesia:del_table_copy(schema, Node2)), + + ?match([], mnesia_test_lib:start_mnesia([Node1],[Tab2,Tab4])), + ?match([], mnesia_test_lib:stop_mnesia([Node2])), + ?match({atomic, ok}, + mnesia:del_table_copy(schema, Node2)), + + %% Check + RemNodes = AllNodes -- [Node2], + + ?match(RemNodes, mnesia:system_info(db_nodes)), + ?match([Node1], Who(Tab)), + ?match(RemNodes, Who(Tab2)), + ?match([Node3], Who(Tab3)), + ?match([Node1], Who(Tab4)), + ?match({'EXIT', {aborted, {no_exists, _, _}}}, Who(Tab5)), + + ?match({atomic, ok}, + mnesia:change_table_copy_type(Tab2, Node3, ram_copies)), + + ?match({atomic, ok}, + mnesia:change_table_copy_type(schema, Node3, ram_copies)), + + ?match([], mnesia_test_lib:stop_mnesia([Node3])), + ?match({atomic, ok}, + mnesia:del_table_copy(schema, Node3)), + ?match([Node1], mnesia:system_info(db_nodes)), + ?match([Node1], Who(Tab)), + ?match([Node1], Who(Tab2)), + ?match({'EXIT', {aborted, {no_exists, _, _}}}, Who(Tab3)), + ?match([Node1], Who(Tab4)), + ?match({'EXIT', {aborted, {no_exists, _, _}}}, Who(Tab5)), + + ?verify_mnesia([Node1], []). + +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +%% Drop a db node when several disk resident nodes are down + +evil_delete_db_node(suite) -> []; +evil_delete_db_node(Config) when is_list(Config) -> + [Node1, Node2, Node3] = AllNodes = ?acquire_nodes(3, Config), + Tab = evil_delete_db_node, + + ?match({atomic, ok}, mnesia:create_table(Tab, [{disc_copies, AllNodes}])), + + ?match([], mnesia_test_lib:stop_mnesia([Node2, Node3])), + + ?match({atomic, ok}, mnesia:del_table_copy(schema, Node2)), + + RemNodes = AllNodes -- [Node2], + + ?match(RemNodes, mnesia:system_info(db_nodes)), + ?match(RemNodes, mnesia:table_info(Tab, disc_copies)), + + ?verify_mnesia([Node1], []). + +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +%% Start and stop the system + +start_and_stop(suite) -> []; +start_and_stop(Config) when is_list(Config) -> + [Node1 | _] = Nodes = ?acquire_nodes(all, Config), + + ?match(stopped, rpc:call(Node1, mnesia, stop, [])), + ?match(stopped, rpc:call(Node1, mnesia, stop, [])), + ?match(ok, rpc:call(Node1, mnesia, start, [])), + ?match(ok, rpc:call(Node1, mnesia, start, [])), + ?match(stopped, rpc:call(Node1, mnesia, stop, [])), + ?verify_mnesia(Nodes -- [Node1], [Node1]), + ?match([], mnesia_test_lib:start_mnesia(Nodes)), + ?verify_mnesia(Nodes, []). + +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +%% Checkpoints and backup management + +checkpoint(suite) -> []; +checkpoint(Config) when is_list(Config) -> + checkpoint(2, Config), + checkpoint(3, Config). + +checkpoint(NodeConfig, Config) -> + [Node1 | _] = TabNodes = ?acquire_nodes(NodeConfig, Config), + CreateTab = fun(Type, N, Ns) -> + Tab0 = lists:concat(["local_checkpoint_", Type, N]), + Tab = list_to_atom(Tab0), + catch mnesia:delete_table(Tab), + ?match({atomic, ok}, + mnesia:create_table(Tab, [{Type, Ns}])), + Tab + end, + CreateTabs = fun(Type, Acc) -> + [CreateTab(Type, 1, [hd(TabNodes)]), + CreateTab(Type, 2, TabNodes), + CreateTab(Type, 3, [lists:last(TabNodes)])] ++ + Acc + end, + Types = [ram_copies, disc_copies, disc_only_copies], + Tabs = lists:foldl(CreateTabs, [], Types), + Recs = ?sort([{T, N, N} || T <- Tabs, N <- lists:seq(1, 10)]), + lists:foreach(fun(R) -> ?match(ok, mnesia:dirty_write(R)) end, Recs), + + CpName = a_checkpoint_name, + MinArgs = [{name, CpName}, {min, Tabs}, {allow_remote, false}], + ?match({error, _}, rpc:call(Node1, mnesia, activate_checkpoint, [MinArgs])), + + MaxArgs = [{name, CpName}, {max, Tabs}, {allow_remote, true}], + ?match({ok, CpName, L} when is_list(L), + rpc:call(Node1, mnesia, activate_checkpoint, [MaxArgs])), + ?match(ok, rpc:call(Node1, mnesia, deactivate_checkpoint, [CpName])), + + Args = [{name, CpName}, {min, Tabs}, {allow_remote, true}], + ?match({ok, CpName, L} when is_list(L), + rpc:call(Node1, mnesia, activate_checkpoint, [Args])), + Recs2 = ?sort([{T, K, 0} || {T, K, _} <- Recs]), + lists:foreach(fun(R) -> ?match(ok, mnesia:dirty_write(R)) end, Recs2), + ?match(ok, rpc:call(Node1, mnesia, deactivate_checkpoint, [CpName])), + + ?match({error, Reason1 } when element(1, Reason1) == no_exists, + mnesia:deactivate_checkpoint(CpName)), + ?match({error, Reason2 } when element(1, Reason2) == badarg, + mnesia:activate_checkpoint(foo)), + ?match({error, Reason3 } when element(1, Reason3) == badarg, + mnesia:activate_checkpoint([{foo, foo}])), + ?match({error, Reason4 } when element(1, Reason4) == badarg, + mnesia:activate_checkpoint([{max, foo}])), + ?match({error, Reason5 } when element(1, Reason5) == badarg, + mnesia:activate_checkpoint([{min, foo}])), + ?match({error, _}, mnesia:activate_checkpoint([{min, [foo@bar]}])), + ?match({error, Reason6 } when element(1, Reason6) == badarg, + mnesia:activate_checkpoint([{allow_remote, foo}])), + + Fun = fun(Tab) -> ?match({atomic, ok}, mnesia:delete_table(Tab)) end, + lists:foreach(Fun, Tabs), + ?verify_mnesia(TabNodes, []). + +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +%% Create and delete tables + +%% Get meta info about table + +-define(vrl, mnesia_test_lib:verify_replica_location). + +replica_location(suite) -> []; +replica_location(Config) when is_list(Config) -> + [Node1, Node2, Node3] = Nodes = ?acquire_nodes(3, Config), + Tab = replica_location, + + %% Create three replicas + Schema = [{name, Tab}, {disc_only_copies, [Node1]}, + {ram_copies, [Node2]}, {disc_copies, [Node3]}], + ?match({atomic, ok}, mnesia:create_table(Schema)), + ?match([], ?vrl(Tab, [Node1], [Node2], [Node3], Nodes)), + + %% Delete one replica + ?match({atomic, ok}, mnesia:del_table_copy(Tab, Node2)), + ?match([], ?vrl(Tab, [Node1], [], [Node3], Nodes)), + + %% Move one replica + ?match({atomic, ok}, mnesia:move_table_copy(Tab, Node1, Node2)), + ?match([], ?vrl(Tab, [Node2], [], [Node3], Nodes)), + + %% Change replica type + ?match({atomic, ok}, mnesia:change_table_copy_type(Tab, Node2, ram_copies)), + ?match([], ?vrl(Tab, [], [Node2], [Node3], Nodes)), + + ?verify_mnesia(Nodes, []). + +table_lifecycle(suite) -> []; +table_lifecycle(Config) when is_list(Config) -> + [Node1, Node2] = Nodes = ?acquire_nodes(2, Config), + + ?match({atomic, ok}, mnesia:create_table([{type, bag}, + {ram_copies, [Node1]}, + {attributes, [rajtan, tajtan]}, + {name, order_of_args}])), + ?match([], mnesia:dirty_read({order_of_args, 4711})), + ?match({atomic, ok}, mnesia:create_table([{name, already_exists}, + {ram_copies, [Node1]}])), + ?match({aborted, Reason23 } when element(1, Reason23) ==already_exists, + mnesia:create_table([{name, already_exists}, + {ram_copies, [Node1]}])), + ?match({aborted, Reason21 } when element(1, Reason21) == bad_type, + mnesia:create_table([{name, bad_node}, {ram_copies, ["foo"]}])), + ?match({aborted, Reason2} when element(1, Reason2) == bad_type, + mnesia:create_table([{name, zero_arity}, {attributes, []}])), + ?match({aborted, Reason3} when element(1, Reason3) == badarg, + mnesia:create_table([])), + ?match({aborted, Reason4} when element(1, Reason4) == badarg, + mnesia:create_table(atom)), + ?match({aborted, Reason5} when element(1, Reason5) == badarg, + mnesia:create_table({cstruct, table_name_as_atom})), + ?match({aborted, Reason6 } when element(1, Reason6) == bad_type, + mnesia:create_table([{name, no_host}, {ram_copies, foo}])), + ?match({aborted, Reason7 } when element(1, Reason7) == bad_type, + mnesia:create_table([{name, no_host}, {disc_only_copies, foo}])), + ?match({aborted, Reason8} when element(1, Reason8) == bad_type, + mnesia:create_table([{name, no_host}, {disc_copies, foo}])), + + CreateFun = + fun() -> ?match({aborted, nested_transaction}, + mnesia:create_table([{name, nested_trans}])), ok + end, + ?match({atomic, ok}, mnesia:transaction(CreateFun)), + ?match({atomic, ok}, mnesia:create_table([{name, remote_tab}, + {ram_copies, [Node2]}])), + + ?match({atomic, ok}, mnesia:create_table([{name, a_brand_new_tab}, + {ram_copies, [Node1]}])), + ?match([], mnesia:dirty_read({a_brand_new_tab, 4711})), + ?match({atomic, ok}, mnesia:delete_table(a_brand_new_tab)), + ?match({'EXIT', {aborted, Reason31}} when element(1, Reason31) == no_exists, + mnesia:dirty_read({a_brand_new_tab, 4711})), + ?match({aborted, Reason41} when element(1, Reason41) == no_exists, + mnesia:delete_table(a_brand_new_tab)), + ?match({aborted, Reason9} when element(1, Reason9) == badarg, + mnesia:create_table([])), + + ?match({atomic, ok}, mnesia:create_table([{name, nested_del_trans}, + {ram_copies, [Node1]}])), + + DeleteFun = fun() -> ?match({aborted, nested_transaction}, + mnesia:delete_table(nested_del_trans)), ok end, + ?match({atomic, ok}, mnesia:transaction(DeleteFun)), + + ?match({aborted, Reason10} when element(1, Reason10) == bad_type, + mnesia:create_table([{name, create_with_index}, {index, 2}])), + ?match({aborted, Reason32} when element(1, Reason32) == bad_type, + mnesia:create_table([{name, create_with_index}, {index, [-1]}])), + ?match({aborted, Reason33} when element(1, Reason33) == bad_type, + mnesia:create_table([{name, create_with_index}, {index, [0]}])), + ?match({aborted, Reason34} when element(1, Reason34) == bad_type, + mnesia:create_table([{name, create_with_index}, {index, [1]}])), + ?match({aborted, Reason35} when element(1, Reason35) == bad_type, + mnesia:create_table([{name, create_with_index}, {index, [2]}])), + ?match({atomic, ok}, + mnesia:create_table([{name, create_with_index}, {index, [3]}, + {ram_copies, [Node1]}])), + ets:new(ets_table, [named_table]), + + ?match({aborted, _}, mnesia:create_table(ets_table, [{ram_copies, Nodes}])), + + ?verify_mnesia(Nodes, []). + +add_copy_conflict(suite) -> []; +add_copy_conflict(doc) -> + ["Verify that OTP-5065 doesn't happen again, whitebox testing"]; +add_copy_conflict(Config) when is_list(Config) -> + Nodes = [Node1, Node2] = + ?acquire_nodes(2, Config ++ [{tc_timeout, timer:minutes(2)}]), + + ?match({atomic, ok}, mnesia:create_table(a, [{ram_copies, Nodes}])), + ?match({atomic, ok}, mnesia:create_table(b, [{ram_copies, Nodes}])), + ?match({atomic, ok}, mnesia:create_table(test, [{ram_copies, [Node2]}])), + mnesia:stop(), + ?match(ok,mnesia:start([{no_table_loaders, 1}])), + + verify_ll_queue(10), + + Self = self(), + Test = fun() -> + Res = mnesia:add_table_copy(test, Node1, ram_copies), + Self ! {test, Res} + end, + %% Create conflict with loader queue. + spawn_link(Test), + ?match_receive(timeout), + %% Conflict ok + mnesia_controller:unblock_controller(), + + ?match_receive({test, {atomic,ok}}), + + ?verify_mnesia(Nodes, []), + ?cleanup(1, Config). + +verify_ll_queue(0) -> + ?error("Couldn't find anything in queue~n",[]); +verify_ll_queue(N) -> + ?match(granted,mnesia_controller:block_controller()), + case mnesia_controller:get_info(1000) of + {info,{state,_,true,[],_Loader,[],[],[],_,_,_,_,_,_}} -> + %% Very slow SMP machines havn't loaded it yet.. + mnesia_controller:unblock_controller(), + timer:sleep(10), + verify_ll_queue(N-1); + {info,{state,_,true,[],Loader,LL,[],[],_,_,_,_,_,_}} -> + io:format("~p~n", [{Loader,LL}]), + ?match([_], LL); %% Verify that something is in the loader queue + Else -> + ?error("No match ~p maybe the internal format has changed~n",[Else]) + end. + +add_copy_when_going_down(suite) -> []; +add_copy_when_going_down(doc) -> + ["Tests abort when node we load from goes down"]; +add_copy_when_going_down(Config) -> + [Node1, Node2] = + ?acquire_nodes(2, Config ++ [{tc_timeout, timer:minutes(2)}]), + ?match({atomic, ok}, mnesia:create_table(a, [{ram_copies, [Node1]}])), + %% Grab a write lock + WriteAndWait = fun() -> + mnesia:write({a,1,1}), + receive continue -> ok + end + end, + _Lock = spawn(fun() -> mnesia:transaction(WriteAndWait) end), + Tester = self(), + spawn_link(fun() -> Res = rpc:call(Node2,mnesia, add_table_copy, + [a, Node2, ram_copies]), + Tester ! {test, Res} + end), + %% We have a lock here we should get a timeout + ?match_receive(timeout), + mnesia_test_lib:kill_mnesia([Node1]), + ?match_receive({test,{aborted,_}}), + ?verify_mnesia([Node2], []). + + +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +%% Add, drop and move replicas, change storage types +%% Change table layout (only arity change supported) + +-record(replica_management, {k, v}). +-record(new_replica_management, {k, v, extra}). + +-define(SS(R), lists:sort(element(1,R))). + +replica_management(doc) -> + "Add, drop and move replicas, change storage types."; +replica_management(suite) -> + []; +replica_management(Config) when is_list(Config) -> + %% add_table_copy/3, del_table_copy/2, move_table_copy/3, + %% change_table_copy_type/3, transform_table/3 + + Nodes = [Node1, Node2, Node3] = ?acquire_nodes(3, Config), + + Tab = replica_management, + Attrs = record_info(fields, replica_management), + + %% + %% Add, delete and change replicas + %% + ?match({atomic, ok}, + mnesia:create_table([{name, Tab}, {attributes, Attrs}, + {ram_copies, [Node1, Node3]}])), + [?match(ok, mnesia:dirty_write({Tab, K, K + 2})) || K <-lists:seq(1, 10)], + ?match([], ?vrl(Tab, [], [Node1, Node3], [], Nodes)), + %% R - - + ?match({atomic, ok}, mnesia:dump_tables([Tab])), + ?match({aborted, Reason50 } when element(1, Reason50) == combine_error, + mnesia:add_table_copy(Tab, Node2, disc_copies)), + ?match({aborted, Reason51 } when element(1, Reason51) == combine_error, + mnesia:change_table_copy_type(Tab, Node1, disc_copies)), + ?match({atomic, ok}, mnesia:clear_table(Tab)), + SyncedCheck = fun() -> + mnesia:lock({record,Tab,0}, write), + ?match([0,0,0], ?SS(rpc:multicall(Nodes, mnesia, table_info, [Tab, size]))) + end, + mnesia:transaction(SyncedCheck), + + ?match({[0,0,0], []}, rpc:multicall(Nodes, mnesia, table_info, [Tab, size])), + ?match({atomic, ok}, mnesia:del_table_copy(Tab, Node1)), + ?match({atomic, ok}, mnesia:del_table_copy(Tab, Node3)), + ?match([], ?vrl(Tab, [], [], [], Nodes)), + %% - - - + ?match({aborted,Reason52} when element(1, Reason52) == no_exists, + mnesia:add_table_copy(Tab, Node3, ram_copies)), + + ?match({atomic, ok}, mnesia:create_table([{name, Tab}, + {attributes, Attrs}, + {disc_copies, [Node1]}])), + ?match([], ?vrl(Tab, [], [], [Node1], Nodes)), + %% D - - + [?match(ok, mnesia:dirty_write({Tab, K, K + 2})) || K <-lists:seq(1, 10)], + + ?match({aborted, Reason53} when element(1, Reason53) == badarg, + mnesia:add_table_copy(Tab, Node2, bad_storage_type)), + ?match({atomic, ok}, mnesia:add_table_copy(Tab, Node2, disc_only_copies)), + ?match([], ?vrl(Tab, [Node2], [], [Node1], Nodes)), + ?match([0,10,10], ?SS(rpc:multicall(Nodes, mnesia, table_info, [Tab, size]))), + %% D DO - + ?match({atomic, ok}, mnesia:add_table_copy(Tab, Node3, ram_copies)), + ?match([], ?vrl(Tab, [Node2], [Node3], [Node1], Nodes)), + ?match([10,10,10], ?SS(rpc:multicall(Nodes, mnesia, table_info, [Tab, size]))), + %% D DO R + ?match({atomic, ok}, + mnesia:change_table_copy_type(Tab, Node1, disc_only_copies)), + ?match([], ?vrl(Tab, [Node1, Node2], [Node3], [], Nodes)), + ?match([10,10,10], ?SS(rpc:multicall(Nodes, mnesia, table_info, [Tab, size]))), + %% DO DO R + ?match({aborted, Reason54} when element(1, Reason54) == already_exists, + mnesia:add_table_copy(Tab, Node3, ram_copies)), + ?match({atomic, ok}, mnesia:del_table_copy(Tab, Node1)), + ?match([], ?vrl(Tab, [Node2], [Node3], [], Nodes)), + %% - DO R + ?match({aborted, _}, mnesia:del_table_copy(Tab, Node1)), + ?match(Tab, ets:new(Tab, [named_table])), + ?match({aborted, _}, mnesia:add_table_copy(Tab, Node1, disc_copies)), + ?match(true, ets:delete(Tab)), + ?match({atomic, ok}, mnesia:add_table_copy(Tab, Node1, disc_copies)), + ?match([], ?vrl(Tab, [Node2], [Node3], [Node1], Nodes)), + ?match([10,10,10], ?SS(rpc:multicall(Nodes, mnesia, table_info, [Tab, size]))), + %% D DO R + ?match({atomic, ok},mnesia:change_table_copy_type(Tab, Node3, disc_only_copies)), + ?match([], ?vrl(Tab, [Node2, Node3], [], [Node1], Nodes)), + ?match([10,10,10], ?SS(rpc:multicall(Nodes, mnesia, table_info, [Tab, size]))), + + %% D DO D0 + ?match({atomic, ok}, mnesia:change_table_copy_type(Tab, Node3, ram_copies)), + ?match([], ?vrl(Tab, [Node2], [Node3], [Node1], Nodes)), + ?match([10,10,10], ?SS(rpc:multicall(Nodes, mnesia, table_info, [Tab, size]))), + %% D DO R + ?match({atomic, ok}, + mnesia:change_table_copy_type(Tab, Node2, disc_copies)), + ?match([], ?vrl(Tab, [], [Node3], [Node1,Node2], Nodes)), + ?match([10,10,10], ?SS(rpc:multicall(Nodes, mnesia, table_info, [Tab, size]))), + + %% D D R + ?match({atomic, ok}, mnesia:change_table_copy_type(Tab, Node1, disc_only_copies)), + ?match([], ?vrl(Tab, [Node1], [Node3], [Node2], Nodes)), + ?match([10,10,10], ?SS(rpc:multicall(Nodes, mnesia, table_info, [Tab, size]))), + + %% DO D R + ?match(Tab, ets:new(Tab, [named_table])), + ?match({aborted, _}, mnesia:change_table_copy_type(Tab, Node1, ram_copies)), + ?match(true, ets:delete(Tab)), + ?match({atomic, ok}, mnesia:change_table_copy_type(Tab, Node1, ram_copies)), + ?match([], ?vrl(Tab, [], [Node3,Node1], [Node2], Nodes)), + ?match([10,10,10], ?SS(rpc:multicall(Nodes, mnesia, table_info, [Tab, size]))), + %% R D R + ?match({atomic, ok}, mnesia:change_table_copy_type(Tab, Node1, disc_copies)), + ?match([], ?vrl(Tab, [], [Node3], [Node2,Node1], Nodes)), + ?match([10,10,10], ?SS(rpc:multicall(Nodes, mnesia, table_info, [Tab, size]))), + + %% D D R + ?match({atomic, ok}, mnesia:change_table_copy_type(Tab, Node2, disc_only_copies)), + ?match([], ?vrl(Tab, [Node2], [Node3], [Node1], Nodes)), + ?match([10,10,10], ?SS(rpc:multicall(Nodes, mnesia, table_info, [Tab, size]))), + + %% D DO R + ?match({atomic, ok}, mnesia:change_table_copy_type(Tab, Node3, disc_only_copies)), + ?match([], ?vrl(Tab, [Node2, Node3], [], [Node1], Nodes)), + ?match([10,10,10], ?SS(rpc:multicall(Nodes, mnesia, table_info, [Tab, size]))), + %% D DO DO + %% test clear + ?match({atomic, ok}, mnesia:clear_table(Tab)), + mnesia:transaction(SyncedCheck), + + %% rewrite for rest of testcase + [?match(ok, mnesia:dirty_write({Tab, K, K + 2})) || K <-lists:seq(1, 10)], + + %% D DO DO + ?match({atomic, ok}, mnesia:del_table_copy(Tab, Node2)), + ?match([], ?vrl(Tab, [Node3], [], [Node1], Nodes)), + %% D - DO + ?match({aborted, Reason55} when element(1, Reason55) == already_exists, + mnesia:change_table_copy_type(Tab, Node1, disc_copies)), + + %% + %% Move replica + %% + ?match({atomic, ok}, mnesia:move_table_copy(Tab, Node1, Node2)), + ?match([], ?vrl(Tab, [Node3], [], [Node2], Nodes)), + ?match([0,10,10], ?SS(rpc:multicall(Nodes, mnesia, table_info, [Tab, size]))), + %% - D DO + ?match({aborted, _}, mnesia:move_table_copy(Tab, Node1, Node2)), + ?match([], mnesia_test_lib:stop_mnesia([Node3])), + ?match({atomic,ok}, mnesia:transaction(fun() -> mnesia:write({Tab, 43, sync_me}) end)), + ?match([], ?vrl(Tab, [Node3], [], [Node2],Nodes -- [Node3])), + %% - D DO + ?match({aborted,Reason56} when element(1, Reason56) == not_active, + mnesia:move_table_copy(Tab, Node3, Node1)), + ?match([], ?vrl(Tab, [Node3], [], [Node2],Nodes -- [Node3])), + %% DO D - + ?match([], mnesia_test_lib:start_mnesia([Node3])), + ?match([], ?vrl(Tab, [Node3], [], [Node2], Nodes)), + %% DO D - + + %% + %% Transformer + %% + + NewAttrs = record_info(fields, new_replica_management), + Transformer = + fun(Rec) when is_record(Rec, replica_management) -> + #new_replica_management{k = Rec#replica_management.k, + v = Rec#replica_management.v, + extra = Rec#replica_management.k * 2} + end, + ?match({atomic, ok}, mnesia:transform_table(Tab, fun(R) -> R end, Attrs)), + ?match({atomic, ok}, mnesia:transform_table(Tab, Transformer, NewAttrs, new_replica_management)), + + ERlist = [#new_replica_management{k = K, v = K+2, extra = K*2} || K <- lists:seq(1, 10)], + ARlist = [hd(mnesia:dirty_read(Tab, K)) || K <- lists:seq(1, 10)], + + ?match(ERlist, ARlist), + + ?match({aborted, Reason56} when element(1, Reason56) == bad_type, + mnesia:transform_table(Tab, Transformer, 0)), + ?match({aborted, Reason57} when element(1, Reason57) == bad_type, + mnesia:transform_table(Tab, Transformer, -1)), + ?match({aborted, Reason58} when element(1, Reason58) == bad_type, + mnesia:transform_table(Tab, Transformer, [])), + ?match({aborted, Reason59} when element(1, Reason59) == bad_type, + mnesia:transform_table(Tab, no_fun, NewAttrs)), + ?match({aborted, Reason59} when element(1, Reason59) == bad_type, + mnesia:transform_table(Tab, fun(X) -> X end, NewAttrs, {tuple})), + + %% OTP-3878 + ?match({atomic, ok}, mnesia:transform_table(Tab, ignore, + NewAttrs ++ [dummy])), + ?match({atomic, ok}, mnesia:transform_table(Tab, ignore, + NewAttrs ++ [dummy], last_rec)), + + ARlist = [hd(mnesia:dirty_read(Tab, K)) || K <- lists:seq(1, 10)], + ?match({'EXIT',{aborted,{bad_type,_}}}, + mnesia:dirty_write(Tab, #new_replica_management{})), + ?match(ok, mnesia:dirty_write(Tab, {last_rec, k, v, e, dummy})), + + ?verify_mnesia(Nodes, []). + +schema_availability(doc) -> + ["Test that schema succeeds (or fails) as intended when some db nodes are down."]; +schema_availability(suite) -> + []; +schema_availability(Config) when is_list(Config) -> + [N1, _N2, N3] = Nodes = ?acquire_nodes(3, Config), + Tab = schema_availability, + Storage = mnesia_test_lib:storage_type(ram_copies, Config), + Def1 = [{Storage, [N1, N3]}], + ?match({atomic, ok}, mnesia:create_table(Tab, Def1)), + + N = 10, + ?match(ok, mnesia:sync_dirty(fun() -> [mnesia:write({Tab, K, K + 2}) || K <- lists:seq(1, N)], ok end)), + ?match({[N,0,N], []}, rpc:multicall(Nodes, mnesia, table_info, [Tab, size])), + ?match([], mnesia_test_lib:kill_mnesia([N3])), + ?match({[N,0,0], []}, rpc:multicall(Nodes, mnesia, table_info, [Tab, size])), + + ?match([], mnesia_test_lib:start_mnesia([N3], [Tab])), + ?match({[N,0,N], []}, rpc:multicall(Nodes, mnesia, table_info, [Tab, size])), + ?match([], mnesia_test_lib:kill_mnesia([N3])), + + ?match({atomic, ok}, mnesia:clear_table(Tab)), + ?match({[0,0,0], []}, rpc:multicall(Nodes, mnesia, table_info, [Tab, size])), + + ?match([], mnesia_test_lib:start_mnesia([N3], [Tab])), + ?match({[0,0,0], []}, rpc:multicall(Nodes, mnesia, table_info, [Tab, size])), + + ?verify_mnesia(Nodes, []). + +-define(badrpc(Tab), {badrpc, {'EXIT', {aborted,{no_exists,Tab}}}}). + +local_content(doc) -> + ["Test local_content functionality, we want to see that correct" + " properties gets propageted correctly between nodes"]; +local_content(suite) -> []; +local_content(Config) when is_list(Config) -> + [Node1, Node2, Node3] = Nodes = ?acquire_nodes(3, Config), + Tab1 = local1, + Def1 = [{local_content, true}, {ram_copies, Nodes}], + Tab2 = local2, + Def2 = [{local_content, true}, {disc_copies, [Node1]}], + Tab3 = local3, + Def3 = [{local_content, true}, {disc_only_copies, [Node1]}], + Tab4 = local4, + Def4 = [{local_content, true}, {ram_copies, [Node1]}], + + ?match({atomic, ok}, mnesia:create_table(Tab1, Def1)), + ?match({atomic, ok}, mnesia:create_table(Tab2, Def2)), + ?match({atomic, ok}, mnesia:create_table(Tab3, Def3)), + ?match({atomic, ok}, mnesia:create_table(Tab4, Def4)), + + ?match(ok, rpc:call(Node1, mnesia, dirty_write, [{Tab1, 1, Node1}])), + ?match(ok, rpc:call(Node2, mnesia, dirty_write, [{Tab1, 1, Node2}])), + ?match(ok, rpc:call(Node3, mnesia, dirty_write, [{Tab1, 1, Node3}])), + ?match(ok, rpc:call(Node1, mnesia, dirty_write, [{Tab2, 1, Node1}])), + ?match(ok, rpc:call(Node1, mnesia, dirty_write, [{Tab3, 1, Node1}])), + ?match(ok, rpc:call(Node1, mnesia, dirty_write, [{Tab4, 1, Node1}])), + + ?match(?badrpc(Tab2), rpc:call(Node2, mnesia, dirty_write, [{Tab2, 1, Node2}])), + ?match(?badrpc(Tab3), rpc:call(Node2, mnesia, dirty_write, [{Tab3, 1, Node2}])), + ?match(?badrpc(Tab4), rpc:call(Node2, mnesia, dirty_write, [{Tab4, 1, Node2}])), + + ?match({atomic, ok}, rpc:call(Node1, mnesia, add_table_copy, [Tab2, Node2, ram_copies])), + ?match({atomic, ok}, rpc:call(Node2, mnesia, add_table_copy, [Tab3, Node2, disc_copies])), + ?match({atomic, ok}, rpc:call(Node3, mnesia, add_table_copy, [Tab4, Node2, disc_only_copies])), + ?match([], rpc:call(Node2, mnesia, dirty_read, [{Tab2, 1}])), + ?match([], rpc:call(Node2, mnesia, dirty_read, [{Tab3, 1}])), + ?match([], rpc:call(Node2, mnesia, dirty_read, [{Tab4, 1}])), + + ?match(ok, rpc:call(Node2, mnesia, dirty_write, [{Tab2, 1, Node2}])), + ?match(ok, rpc:call(Node2, mnesia, dirty_write, [{Tab3, 1, Node2}])), + ?match(ok, rpc:call(Node2, mnesia, dirty_write, [{Tab4, 1, Node2}])), + + ?match([{Tab1, 1, Node1}], rpc:call(Node1, mnesia, dirty_read, [{Tab1, 1}])), + ?match([{Tab2, 1, Node1}], rpc:call(Node1, mnesia, dirty_read, [{Tab2, 1}])), + ?match([{Tab3, 1, Node1}], rpc:call(Node1, mnesia, dirty_read, [{Tab3, 1}])), + ?match([{Tab4, 1, Node1}], rpc:call(Node1, mnesia, dirty_read, [{Tab4, 1}])), + + ?match([{Tab1, 1, Node2}], rpc:call(Node2, mnesia, dirty_read, [{Tab1, 1}])), + ?match([{Tab2, 1, Node2}], rpc:call(Node2, mnesia, dirty_read, [{Tab2, 1}])), + ?match([{Tab3, 1, Node2}], rpc:call(Node2, mnesia, dirty_read, [{Tab3, 1}])), + ?match([{Tab4, 1, Node2}], rpc:call(Node2, mnesia, dirty_read, [{Tab4, 1}])), + + ?match([{Tab1, 1, Node3}], rpc:call(Node3, mnesia, dirty_read, [{Tab1, 1}])), + ?match(?badrpc([_Tab2, 1]), rpc:call(Node3, mnesia, dirty_read, [{Tab2, 1}])), + ?match(?badrpc([_Tab3, 1]), rpc:call(Node3, mnesia, dirty_read, [{Tab3, 1}])), + ?match(?badrpc([_Tab4, 1]), rpc:call(Node3, mnesia, dirty_read, [{Tab4, 1}])), + + ?match({atomic, ok}, + mnesia:change_table_copy_type(schema, Node3, ram_copies)), + ?match([], mnesia_test_lib:stop_mnesia([Node3])), + + %% Added for OTP-44306 + ?match(ok, rpc:call(Node3, mnesia, start, [])), + ?match({ok, _}, mnesia:change_config(extra_db_nodes, [Node3])), + + mnesia_test_lib:sync_tables([Node3], [Tab1]), + + ?match([], rpc:call(Node3, mnesia, dirty_read, [{Tab1, 1}])), + + ?match({atomic, ok}, rpc:call(Node1, mnesia, clear_table, [Tab1])), + + SyncedCheck = fun(Tab) -> + mnesia:lock({record,Tab,0}, write), + {OK, []} = rpc:multicall(Nodes, mnesia, table_info, [Tab, size]), + OK + end, + ?match({atomic, [0,1,0]}, mnesia:transaction(SyncedCheck, [Tab1])), + ?match({atomic, ok}, rpc:call(Node2, mnesia, clear_table, [Tab2])), + ?match({atomic, [1,0,0]}, mnesia:transaction(SyncedCheck, [Tab2])), + ?match({atomic, ok}, rpc:call(Node2, mnesia, clear_table, [Tab3])), + ?match({atomic, [1,0,0]}, mnesia:transaction(SyncedCheck, [Tab3])), + + ?verify_mnesia(Nodes, []). + +table_access_modifications(suite) -> + [ + change_table_access_mode, + change_table_load_order, + set_master_nodes, + offline_set_master_nodes + ]. + +change_table_access_mode(suite) -> []; +change_table_access_mode(Config) when is_list(Config) -> + [Node1, Node2, Node3] = Nodes = ?acquire_nodes(3, Config), + Tab = test_access_mode_tab, + + Def = case mnesia_test_lib:diskless(Config) of + true -> [{name, Tab}, {ram_copies, Nodes}]; + false -> [{name, Tab}, {ram_copies, [Node1]}, + {disc_copies, [Node2]}, + {disc_only_copies, [Node3]}] + end, + ?match({atomic, ok}, mnesia:create_table(Def)), + + Write = fun(What) -> mnesia:write({Tab, 1, What}) end, + Read = fun() -> mnesia:read({Tab, 1}) end, + + ?match({atomic, ok}, mnesia:transaction(Write, [test_ok])), + %% test read_only + ?match({atomic, ok}, mnesia:change_table_access_mode(Tab, read_only)), + ?match({aborted, _}, mnesia:transaction(Write, [nok])), + ?match({'EXIT', {aborted, _}}, mnesia:dirty_write({Tab, 1, [nok]})), + ?match({aborted, _}, rpc:call(Node2, mnesia, transaction, [Write, [nok]])), + ?match({aborted, _}, rpc:call(Node3, mnesia, transaction, [Write, [nok]])), + ?match({atomic, [{Tab, 1, test_ok}]}, mnesia:transaction(Read)), + %% test read_write + ?match({atomic, ok}, mnesia:change_table_access_mode(Tab, read_write)), + ?match({atomic, ok}, mnesia:transaction(Write, [test_ok1])), + ?match({atomic, [{Tab, 1, test_ok1}]}, mnesia:transaction(Read)), + ?match({atomic, ok}, rpc:call(Node2, mnesia, transaction, [Write, [test_ok2]])), + ?match({atomic, [{Tab, 1, test_ok2}]}, mnesia:transaction(Read)), + ?match({atomic, ok}, rpc:call(Node3, mnesia, transaction, [Write, [test_ok3]])), + ?match({atomic, [{Tab, 1, test_ok3}]}, mnesia:transaction(Read)), + + ?match({atomic, ok}, mnesia:delete_table(Tab)), + + Def4 = [{name, Tab}, {access_mode, read_only_bad}], + ?match({aborted, {bad_type, _, _}}, mnesia:create_table(Def4)), + + Def2 = [{name, Tab}, {access_mode, read_only}], + ?match({atomic, ok}, mnesia:create_table(Def2)), + ?match({aborted, _}, mnesia:transaction(Write, [nok])), + + ?match({atomic, ok}, mnesia:change_table_access_mode(Tab, read_write)), + ?match({atomic, ok}, mnesia:delete_table(Tab)), + + Def3 = [{name, Tab}, {mnesia_test_lib:storage_type(disc_copies, Config), + [Node1, Node2]}, + {access_mode, read_write}], + ?match({atomic, ok}, mnesia:create_table(Def3)), + ?match({atomic, ok}, mnesia:transaction(Write, [ok])), + ?match({atomic, ok}, mnesia:change_table_access_mode(Tab, read_only)), + ?match({aborted, _}, mnesia:del_table_copy(Tab, Node2)), + ?match({aborted, _}, mnesia:del_table_copy(Tab, Node1)), + ?match({aborted, _}, mnesia:delete_table(Tab)), + ?match({atomic, ok}, mnesia:change_table_access_mode(Tab, read_write)), + + ?match({aborted, {bad_type, _, _}}, + mnesia:change_table_access_mode(Tab, strange_atom)), + ?match({atomic, ok}, mnesia:delete_table(Tab)), + + ?match({aborted, {no_exists, _}}, + mnesia:change_table_access_mode(err_tab, read_only)), + ?match({aborted, {no_exists, _}}, + mnesia:change_table_access_mode([Tab], read_only)), + ?verify_mnesia(Nodes, []). + +change_table_load_order(suite) -> []; +change_table_load_order(Config) when is_list(Config) -> + [Node1, Node2, Node3] = Nodes = ?acquire_nodes(3, Config), + Tab1 = load_order_tab1, + Tab2 = load_order_tab2, + Tab3 = load_order_tab3, + + Def = case mnesia_test_lib:diskless(Config) of + true -> [{ram_copies, Nodes}]; + false -> + [{ram_copies, [Node1]}, + {disc_copies, [Node2]}, + {disc_only_copies, [Node3]}] + end, + ?match({atomic, ok}, mnesia:create_table(Tab1, Def)), + ?match({atomic, ok}, mnesia:create_table(Tab2, Def)), + ?match({atomic, ok}, mnesia:create_table(Tab3, Def)), + + ?match({aborted, _}, mnesia:change_table_load_order(Tab1, should_be_integer)), + ?match({aborted, _}, mnesia:change_table_load_order(err_tab, 5)), + ?match({aborted, _}, mnesia:change_table_load_order([err_tab], 5)), + ?match({atomic, ok}, mnesia:change_table_load_order(Tab1, 5)), + ?match({atomic, ok}, mnesia:change_table_load_order(Tab2, 4)), + ?match({atomic, ok}, mnesia:change_table_load_order(Tab3, 73)), + + ?match({aborted, _}, mnesia:change_table_load_order(schema, -32)), + + ?verify_mnesia(Nodes, []). + +set_master_nodes(suite) -> []; +set_master_nodes(Config) when is_list(Config) -> + [Node1, Node2, Node3] = Nodes = ?acquire_nodes(3, Config), + Tab1 = master_node_tab1, + Tab2 = master_node_tab2, + Tab3 = master_node_tab3, + Def1 = [{ram_copies, [Node1, Node2]}], + Def2 = [{disc_copies, [Node2, Node3]}], + Def3 = [{disc_only_copies, [Node3, Node1]}], + ?match({atomic, ok}, mnesia:create_table(Tab1, Def1)), + ?match({atomic, ok}, mnesia:create_table(Tab2, Def2)), + ?match({atomic, ok}, mnesia:create_table(Tab3, Def3)), + + ?match({error, _}, mnesia:set_master_nodes(schema, ['[email protected]'])), + ?match({error, _}, mnesia:set_master_nodes(badtab, [Node2, Node3])), + ?match({error, _}, mnesia:set_master_nodes(Tab1, [Node3])), + ?match([], mnesia:table_info(Tab1, master_nodes)), + + ?match(ok, mnesia:set_master_nodes(schema, [Node3, Node1])), + ?match([Node3, Node1], mnesia:table_info(schema, master_nodes)), + ?match(ok, mnesia:set_master_nodes(Tab1, [Node2])), + ?match([Node2], mnesia:table_info(Tab1, master_nodes)), + ?match(ok, mnesia:set_master_nodes(Tab1, [Node2, Node1])), + ?match([Node2, Node1], mnesia:table_info(Tab1, master_nodes)), + ?match(ok, mnesia:set_master_nodes(Tab2, [Node2])), % Should set where_to_read to Node2! + ?match([Node2], mnesia:table_info(Tab2, master_nodes)), + ?match(ok, mnesia:set_master_nodes(Tab3, [Node3])), + ?match([Node3], mnesia:table_info(Tab3, master_nodes)), + ?match(ok, mnesia:set_master_nodes(Tab3, [])), + ?match([], mnesia:table_info(Tab3, master_nodes)), + + ?match(ok, mnesia:set_master_nodes([Node1])), + ?match([Node1], mnesia:table_info(schema, master_nodes)), + ?match([Node1], mnesia:table_info(Tab1, master_nodes)), + ?match([], mnesia:table_info(Tab2, master_nodes)), + ?match([Node1], mnesia:table_info(Tab3, master_nodes)), + + ?match(ok, mnesia:set_master_nodes([Node1, Node2])), + ?match([Node1, Node2], mnesia:table_info(schema, master_nodes)), + ?match([Node1, Node2], mnesia:table_info(Tab1, master_nodes)), + ?match([Node2], mnesia:table_info(Tab2, master_nodes)), + ?match([Node1], mnesia:table_info(Tab3, master_nodes)), + + ?verify_mnesia(Nodes, []). + +offline_set_master_nodes(suite) -> []; +offline_set_master_nodes(Config) when is_list(Config) -> + [Node] = Nodes = ?acquire_nodes(1, Config), + Tab1 = offline_master_node_tab1, + Tab2 = offline_master_node_tab2, + Tab3 = offline_master_node_tab3, + Tabs = ?sort([Tab1, Tab2, Tab3]), + Def1 = [{ram_copies, [Node]}], + Def2 = [{disc_copies, [Node]}], + Def3 = [{disc_only_copies, [Node]}], + ?match({atomic, ok}, mnesia:create_table(Tab1, Def1)), + ?match({atomic, ok}, mnesia:create_table(Tab2, Def2)), + ?match({atomic, ok}, mnesia:create_table(Tab3, Def3)), + ?match([], mnesia:system_info(master_node_tables)), + ?match([], mnesia_test_lib:stop_mnesia([Node])), + + ?match(ok, mnesia:set_master_nodes(Tab1, [Node])), + ?match(ok, mnesia:set_master_nodes(Tab2, [Node])), + ?match(ok, mnesia:set_master_nodes(Tab3, [Node])), + ?match([], mnesia_test_lib:start_mnesia([Node])), + ?match(Tabs, ?sort(mnesia:system_info(master_node_tables))), + + ?match([], mnesia_test_lib:stop_mnesia([Node])), + ?match(ok, mnesia:set_master_nodes(Tab1, [])), + ?match(ok, mnesia:set_master_nodes(Tab2, [])), + ?match(ok, mnesia:set_master_nodes(Tab3, [])), + ?match([], mnesia_test_lib:start_mnesia([Node])), + ?match([], mnesia:system_info(master_node_tables)), + + ?match([], mnesia_test_lib:stop_mnesia([Node])), + ?match(ok, mnesia:set_master_nodes([Node])), + ?match([], mnesia_test_lib:start_mnesia([Node])), + AllTabs = ?sort([schema | Tabs]), + ?match(AllTabs, ?sort(mnesia:system_info(master_node_tables))), + + ?match([], mnesia_test_lib:stop_mnesia([Node])), + ?match(ok, mnesia:set_master_nodes([])), + ?match([], mnesia_test_lib:start_mnesia([Node])), + ?match([], mnesia:system_info(master_node_tables)), + + ?verify_mnesia(Nodes, []). + +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +%% Syncronize table with log or disc +%% +table_sync(suite) -> + [ + dump_tables, + dump_log, + wait_for_tables, + force_load_table + ]. + +%% Dump ram tables on disc +dump_tables(suite) -> []; +dump_tables(Config) when is_list(Config) -> + [Node1, Node2] = Nodes = ?acquire_nodes(2, Config), + Tab = dump_tables, + Schema = [{name, Tab}, {attributes, [k, v]}, {ram_copies, [Node2]}], + ?match({atomic, ok}, mnesia:create_table(Schema)), + + %% Dump 10 records + Size = 10, + Keys = lists:seq(1, Size), + Records = [{Tab, A, 7} || A <- Keys], + lists:foreach(fun(Rec) -> ?match(ok, mnesia:dirty_write(Rec)) end, Records), + + AllKeys = fun() -> ?sort(mnesia:all_keys(Tab)) end, + + ?match({atomic, Keys}, mnesia:transaction(AllKeys)), + ?match({atomic, ok}, mnesia:dump_tables([Tab])), + + %% Delete one record + ?match(ok, mnesia:dirty_delete({Tab, 5})), + Keys2 = lists:delete(5, Keys), + + ?match({atomic, Keys2}, mnesia:transaction(AllKeys)), + + %% Check that all 10 is restored after a stop + ?match([], mnesia_test_lib:stop_mnesia([Node1, Node2])), + ?match([], mnesia_test_lib:start_mnesia([Node1, Node2])), + ?match(ok, mnesia:wait_for_tables([Tab], infinity)), + + ?match({atomic, Keys}, mnesia:transaction(AllKeys)), + + ?match({aborted,Reason} when element(1, Reason) == no_exists, + mnesia:dump_tables([foo])), + ?verify_mnesia(Nodes, []). + +dump_log(suite) -> []; +dump_log(Config) when is_list(Config) -> + [Node1, Node2] = Nodes = ?acquire_nodes(2, Config), + Tab = dump_log, + Schema = [{name, Tab}, {attributes, [k, v]}, {ram_copies, [Node1, Node2]}], + ?match({atomic, ok}, mnesia:create_table(Schema)), + Tab1 = dump_log1, + Schema1 = [{name, Tab1}, {attributes, [k, v]}, {disc_copies, [Node1]}], + ?match({atomic, ok}, mnesia:create_table(Schema1)), + Tab2 = dump_log2, + Schema2 = [{name, Tab2}, {attributes, [k, v]}, {disc_only_copies, [Node1]}], + ?match({atomic, ok}, mnesia:create_table(Schema2)), + + ?match(ok, mnesia:dirty_write({Tab, 1, ok})), + ?match(ok, mnesia:dirty_write({Tab1, 1, ok})), + ?match(ok, mnesia:dirty_write({Tab2, 1, ok})), + + ?match(dumped, mnesia:dump_log()), + ?match(dumped, rpc:call(Node2, mnesia, dump_log, [])), + + ?match({atomic, ok}, mnesia:change_table_copy_type(schema, Node2, ram_copies)), + ?match(dumped, rpc:call(Node2, mnesia, dump_log, [])), + + Self = self(), + spawn(fun() -> dump_log(100, Self) end), + spawn(fun() -> dump_log(100, Self) end), + + ?match(ok, receive finished -> ok after 3000 -> timeout end), + ?match(ok, receive finished -> ok after 3000 -> timeout end), + + ?verify_mnesia(Nodes, []). + +dump_log(N, Tester) when N > 0 -> + mnesia:dump_log(), + dump_log(N-1, Tester); +dump_log(_, Tester) -> + Tester ! finished. + + +wait_for_tables(doc) -> + ["Intf. test of wait_for_tables, see also force_load_table"]; +wait_for_tables(suite) -> []; +wait_for_tables(Config) when is_list(Config) -> + [Node1, Node2] = Nodes = ?acquire_nodes(2, Config), + Tab = wf_tab, + Schema = [{name, Tab}, {ram_copies, [Node1, Node2]}], + ?match({atomic, ok}, mnesia:create_table(Schema)), + ?match(ok, mnesia:wait_for_tables([wf_tab], infinity)), + ?match(ok, mnesia:wait_for_tables([], timer:seconds(5))), + ?match({timeout, [bad_tab]}, mnesia:wait_for_tables([bad_tab], timer:seconds(5))), + ?match(ok, mnesia:wait_for_tables([wf_tab], 0)), + ?match({error,_}, mnesia:wait_for_tables([wf_tab], -1)), + ?verify_mnesia(Nodes, []). + +force_load_table(suite) -> []; +force_load_table(Config) when is_list(Config) -> + [Node1, Node2] = ?acquire_nodes(2, Config), + Tab = wf_tab, + + Schema = [{name, Tab}, {disc_copies, [Node1, Node2]}], + ?match({atomic, ok}, mnesia:create_table(Schema)), + ?match(ok, mnesia:dirty_write({Tab, 1, test_ok})), + mnesia_test_lib:kill_mnesia([Node1]), + ?match(ok, rpc:call(Node2, mnesia, dirty_write, [{Tab, 1, test_nok}])), + mnesia_test_lib:kill_mnesia([Node2]), + %% timer:sleep(timer:seconds(5)), + ?match(ok, mnesia:start()), + ?match({timeout, [Tab]}, mnesia:wait_for_tables([Tab], 5)), + ?match({'EXIT', _}, mnesia:dirty_read({Tab, 1})), + ?match(yes, mnesia:force_load_table(Tab)), + ?match([{Tab, 1, test_ok}], mnesia:dirty_read({Tab, 1})), + + ?match({error, _}, mnesia:force_load_table(error_tab)), + ?verify_mnesia([Node1], [Node2]). + +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% + +user_properties(doc) -> + ["Test of reading, writing and deletion of user properties", + "Plus initialization of user properties when a table is created", + "Do also test mnesia:table_info(Tab, user_properties)"]; +user_properties(suite) -> []; +user_properties(Config) when is_list(Config) -> + [Node] = Nodes = ?acquire_nodes(1, Config), + Tab1 = user_properties_1, + Tab2 = user_properties_2, + Tab3 = user_properties_3, + Def1 = [{ram_copies, [Node]}, {user_properties, []}], + Def2 = [{mnesia_test_lib:storage_type(disc_copies, Config), [Node]}], + Def3 = [{mnesia_test_lib:storage_type(disc_only_copies, Config), [Node]}, + {user_properties, []}], + + PropKey = my_prop, + Prop = {PropKey, some, elements}, + Prop2 = {PropKey, some, other, elements}, + YourProp= {your_prop}, + ?match({atomic, ok}, mnesia:create_table(Tab1, Def1)), + ?match({atomic, ok}, mnesia:create_table(Tab2, Def2)), + ?match({atomic, ok}, mnesia:create_table(Tab3, Def3)), + + ?match([], mnesia:table_info(Tab1, user_properties)), + ?match([], mnesia:table_info(Tab2, user_properties)), + ?match([], mnesia:table_info(Tab3, user_properties)), + + ?match({'EXIT', {no_exists, {Tab1, user_property, PropKey}}}, + mnesia:read_table_property(Tab1, PropKey)), + ?match({'EXIT', {no_exists, {Tab2, user_property, PropKey}}}, + mnesia:read_table_property(Tab2, PropKey)), + ?match({'EXIT', {no_exists, {Tab3, user_property, PropKey}}}, + mnesia:read_table_property(Tab3, PropKey)), + + ?match({atomic, ok}, mnesia:write_table_property(Tab1, Prop)), + ?match({atomic, ok}, mnesia:write_table_property(Tab2, Prop)), + ?match({atomic, ok}, mnesia:write_table_property(Tab3, Prop)), + ?match({atomic, ok}, mnesia:write_table_property(Tab1, YourProp)), + ?match({atomic, ok}, mnesia:write_table_property(Tab2, YourProp)), + ?match({atomic, ok}, mnesia:write_table_property(Tab3, YourProp)), + + ?match(Prop, mnesia:read_table_property(Tab1, PropKey)), + ?match(Prop, mnesia:read_table_property(Tab2, PropKey)), + ?match(Prop, mnesia:read_table_property(Tab3, PropKey)), + + ?match({atomic, ok}, mnesia:write_table_property(Tab1, Prop2)), + ?match({atomic, ok}, mnesia:write_table_property(Tab2, Prop2)), + ?match({atomic, ok}, mnesia:write_table_property(Tab3, Prop2)), + ?match(Prop2, mnesia:read_table_property(Tab1, PropKey)), + ?match(Prop2, mnesia:read_table_property(Tab2, PropKey)), + ?match(Prop2, mnesia:read_table_property(Tab3, PropKey)), + + ?match({atomic, ok}, mnesia:delete_table_property(Tab1, PropKey)), + ?match({atomic, ok}, mnesia:delete_table_property(Tab2, PropKey)), + ?match({atomic, ok}, mnesia:delete_table_property(Tab3, PropKey)), + + ?match([YourProp], mnesia:table_info(Tab1, user_properties)), + ?match([YourProp], mnesia:table_info(Tab2, user_properties)), + ?match([YourProp], mnesia:table_info(Tab3, user_properties)), + + Tab4 = user_properties_4, + ?match({atomic, ok}, + mnesia:create_table(Tab4, [{user_properties, [Prop]}])), + + ?match([Prop], mnesia:table_info(Tab4, user_properties)), + + %% Some error cases + + ?match({aborted, {bad_type, Tab1, {}}}, + mnesia:write_table_property(Tab1, {})), + ?match({aborted, {bad_type, Tab1, ali}}, + mnesia:write_table_property(Tab1, ali)), + + Tab5 = user_properties_5, + ?match({aborted, {bad_type, Tab5, {user_properties, {}}}}, + mnesia:create_table(Tab5, [{user_properties, {}}])), + ?match({aborted, {bad_type, Tab5, {user_properties, ali}}}, + mnesia:create_table(Tab5, [{user_properties, ali}])), + ?match({aborted, {bad_type, Tab5, {user_properties, [{}]}}}, + mnesia:create_table(Tab5, [{user_properties, [{}]}])), + ?match({aborted, {bad_type, Tab5, {user_properties, [ali]}}}, + mnesia:create_table(Tab5, [{user_properties, [ali]}])), + + ?verify_mnesia(Nodes, []). + + +unsupp_user_props(doc) -> + ["Simple test of adding user props in a schema_transaction"]; +unsupp_user_props(suite) -> []; +unsupp_user_props(Config) when is_list(Config) -> + [Node1] = ?acquire_nodes(1, Config), + Tab1 = silly1, + Tab2 = silly2, + Storage = mnesia_test_lib:storage_type(ram_copies, Config), + + ?match({atomic, ok}, rpc:call(Node1, mnesia, + create_table, [Tab1, [{Storage, [Node1]}]])), + ?match({atomic, ok}, rpc:call(Node1, mnesia, + create_table, [Tab2, [{Storage, [Node1]}]])), + + F1 = fun() -> + mnesia_schema:do_write_table_property( + silly1, {prop, propval1}), + mnesia_schema:do_write_table_property( + silly2, {prop, propval2}), % same key as above + mnesia_schema:do_write_table_property( + schema, {prop, propval3}) % same key as above + end, + ?match({atomic, ok}, rpc:call(Node1, mnesia_schema, + schema_transaction, [F1])), + + ?match([{prop,propval1}], rpc:call(Node1, mnesia, + table_info, [silly1, user_properties])), + ?match([{prop,propval2}], rpc:call(Node1, mnesia, + table_info, [silly2, user_properties])), + ?match([{prop,propval3}], rpc:call(Node1, mnesia, + table_info, [schema, user_properties])), + + F2 = fun() -> + mnesia_schema:do_write_table_property( + silly1, {prop, propval1a}), + mnesia_schema:do_write_table_property( + silly1, {prop, propval1b}) % same key as above + end, + ?match({atomic, ok}, rpc:call(Node1, mnesia_schema, + schema_transaction, [F2])), + + ?match([{prop,propval1b}], rpc:call(Node1, mnesia, + table_info, + [silly1, user_properties])), + ?verify_mnesia([Node1], []). + + +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% + +snmp_access(doc) -> + ["Make Mnesia table accessible via SNMP"]; + +snmp_access(suite) -> + [ + snmp_open_table, + snmp_close_table, + snmp_get_next_index, + snmp_get_row, + snmp_get_mnesia_key, + snmp_update_counter, + snmp_order + ]. + +snmp_open_table(suite) -> []; +snmp_open_table(Config) when is_list(Config) -> + [Node1, Node2] = Nodes = ?acquire_nodes(2, Config), + Tab1 = local_snmp_table, + + Storage = mnesia_test_lib:storage_type(disc_copies, Config), + Def1 = + case mnesia_test_lib:diskless(Config) of + true -> [{ram_copies, Nodes}]; + false -> + [{disc_copies, [Node1]}, {ram_copies, [Node2]}] + end, + + Tab2 = ext_snmp_table, + Def2 = [{Storage, [Node2]}], + ErrTab = non_existing_tab, + ?match({atomic, ok}, mnesia:create_table(Tab1, Def1)), + ?match({atomic, ok}, mnesia:create_table(Tab2, Def2)), + ?match({atomic, ok}, mnesia:snmp_open_table(Tab1, [{key, integer}])), + ?match({atomic, ok}, mnesia:snmp_open_table(Tab2, [{key, integer}])), + ?match({aborted, _}, mnesia:snmp_open_table(ErrTab, [{key, integer}])), + ?verify_mnesia(Nodes, []). + +snmp_close_table(suite) -> []; +snmp_close_table(Config) when is_list(Config) -> + [Node1, Node2] = Nodes = ?acquire_nodes(2, Config), + Tab1 = local_snmp_table, + Storage = mnesia_test_lib:storage_type(disc_copies, Config), + Def1 = + case mnesia_test_lib:diskless(Config) of + true -> [{ram_copies, Nodes}]; + false -> + [{disc_copies, [Node1]}, {ram_copies, [Node2]}] + end, + + Tab2 = ext_snmp_table, + Def2 = [{snmp, [{key, integer}]}, {Storage, [Node2]}], + ErrTab = non_existing_tab, + ?match({atomic, ok}, mnesia:create_table(Tab1, Def1)), + ?match({atomic, ok}, mnesia:create_table(Tab2, Def2)), + ?match({atomic, ok}, mnesia:create_table(no_snmp_tab, [])), + add_some_records(Tab1, Tab2, 3), + ?match({atomic, ok}, mnesia:snmp_open_table(Tab1, [{key, integer}])), + add_some_records(Tab1, Tab2, 5), + ?match({atomic, ok}, mnesia:snmp_close_table(Tab1)), + + Transform = fun(Tab, Key) -> + [{T,K,V}] = mnesia:read(Tab, Key, write), + mnesia:delete(T,K, write), + mnesia:write({T, {K,K}, V, 43+V}) + end, + + ?match({atomic, ok}, mnesia:transform_table(Tab1, ignore, [key,val,new])), + ?match({atomic, ok}, + mnesia:transaction(fun() -> + mnesia:write_lock_table(Tab1), + Keys = mnesia:select(Tab1, [{{'_','$1','_'}, [], + ['$1']}]), + [Transform(Tab1, Key) || Key <- Keys], + ok + end)), + ?match([{Tab1, {1, 1}, 1, 44}], mnesia:dirty_read(Tab1, {1, 1})), + ?match({atomic, ok}, mnesia:snmp_open_table(Tab1, [{key,{integer,integer}}])), + + ?match({atomic, ok}, mnesia:snmp_close_table(Tab2)), + ?match({atomic, ok}, mnesia:transform_table(Tab2, ignore, [key,val,new])), + ?match({atomic, ok}, + mnesia:transaction(fun() -> + mnesia:write_lock_table(Tab2), + Keys = mnesia:select(Tab2, [{{'_','$1','_'}, [], + ['$1']}]), + [Transform(Tab2, Key) || Key <- Keys], + ok + end)), + + ?match({atomic, ok}, mnesia:snmp_open_table(Tab2, [{key,{integer,integer}}])), + + %% Should be aborted ???? + ?match({atomic, ok}, mnesia:snmp_close_table(no_snmp_tab)), + ?match({aborted, _}, mnesia:snmp_close_table(ErrTab)), + ?verify_mnesia(Nodes, []). + +snmp_get_next_index(suite) -> []; +snmp_get_next_index(Config) when is_list(Config) -> + [Node1, Node2] = Nodes = ?acquire_nodes(2, Config), + Tab1 = local_snmp_table, + Storage = mnesia_test_lib:storage_type(disc_copies, Config), + Def1 = + case mnesia_test_lib:diskless(Config) of + true -> [{ram_copies, Nodes}]; + false -> + [{disc_copies, [Node1]}, {ram_copies, [Node2]}] + end, + + Tab2 = ext_snmp_table, + Def2 = [{Storage, [Node2]}], + ?match({atomic, ok}, mnesia:create_table(Tab1, Def1)), + ?match({atomic, ok}, mnesia:create_table(Tab2, Def2)), + ?match({atomic, ok}, mnesia:snmp_open_table(Tab1, [{key, integer}])), + ?match({atomic, ok}, mnesia:snmp_open_table(Tab2, [{key, integer}])), + add_some_records(Tab1, Tab2, 1), + Test = + fun() -> + %% Test local tables + {success, Res11} = ?match({ok, _}, mnesia:snmp_get_next_index(Tab1,[])), + {ok, Index11} = Res11, + {success, _Res12} = + ?match(endOfTable, mnesia:snmp_get_next_index(Tab1, Index11)), + ?match({'EXIT',_}, mnesia:snmp_get_next_index(Tab1, endOfTable)), + + %% Test external table + {success, Res21} = + ?match({ok, _}, mnesia:snmp_get_next_index(Tab2, [])), + {ok, Index21} = Res21, + {success, _Res22} = + ?match(endOfTable, mnesia:snmp_get_next_index(Tab2, Index21)), + + {ok, Row} = mnesia:snmp_get_row(Tab1, Index11), + ?match(ok, mnesia:dirty_delete(Tab1, hd(Index11))), + + ?match(endOfTable, mnesia:snmp_get_next_index(Tab1,[])), + + ok = mnesia:dirty_write(Row), %% Reset to coming tests + + %% Test of non existing table + %%?match(endOfTable, mnesia:snmp_get_next_index(ErrTab, [])), + ok + end, + ?match(ok, Test()), + ?match({atomic,ok}, mnesia:transaction(Test)), + ?match(ok, mnesia:sync_dirty(Test)), + ?match(ok, mnesia:activity(transaction,Test,mnesia)), + + %%io:format("**********Before ~p~n", [mnesia_lib:val({Tab1,snmp})]), + %%io:format(" ~p ~n", [ets:tab2list(mnesia_lib:val({local_snmp_table,{index,snmp}}))]), + ?match([], mnesia_test_lib:stop_mnesia(Nodes)), + ?match([], mnesia_test_lib:start_mnesia(Nodes, [Tab1, Tab2])), + %%io:format("**********After ~p~n", [mnesia_lib:val({Tab1,snmp})]), + %%io:format(" ~p ~n", [ets:tab2list(mnesia_lib:val({local_snmp_table,{index,snmp}}))]), + + ?match(ok, Test()), + ?match({atomic,ok}, mnesia:transaction(Test)), + ?match(ok, mnesia:sync_dirty(Test)), + ?match(ok, mnesia:activity(transaction,Test,mnesia)), + + ?verify_mnesia(Nodes, []). + +add_some_records(Tab1, Tab2, N) -> + Recs1 = [{Tab1, I, I} || I <- lists:reverse(lists:seq(1, N))], + Recs2 = [{Tab2, I, I} || I <- lists:reverse(lists:seq(20, 20+N-1))], + lists:foreach(fun(R) -> mnesia:dirty_write(R) end, Recs1), + Fun = fun(R) -> mnesia:write(R) end, + Trans = fun() -> lists:foreach(Fun, Recs2) end, + {atomic, ok} = mnesia:transaction(Trans), + %% Sync things, so everything gets everywhere! + {atomic, ok} = mnesia:sync_transaction(fun() -> mnesia:write(lists:last(Recs1)) end), + {atomic, ok} = mnesia:sync_transaction(fun() -> mnesia:write(lists:last(Recs2)) end), + ?sort(Recs1 ++ Recs2). + +snmp_get_row(suite) -> []; +snmp_get_row(Config) when is_list(Config) -> + [Node1, Node2] = Nodes = ?acquire_nodes(2, Config), + Tab1 = local_snmp_table, + Storage = mnesia_test_lib:storage_type(disc_copies, Config), + Def1 = + case mnesia_test_lib:diskless(Config) of + true -> [{ram_copies, Nodes}]; + false -> + [{disc_copies, [Node1]}, {ram_copies, [Node2]}] + end, + Tab2 = ext_snmp_table, + Def2 = [{Storage, [Node2]}], + Tab3 = snmp_table, + Def3 = [{Storage, [Node1]}, + {attributes, [key, data1, data2]}], + + Setup = fun() -> + ?match({atomic, ok}, mnesia:create_table(Tab1, Def1)), + ?match({atomic, ok}, mnesia:create_table(Tab2, Def2)), + ?match({atomic, ok}, mnesia:create_table(Tab3, Def3)), + ?match({atomic, ok}, mnesia:snmp_open_table(Tab1, [{key, integer}])), + ?match({atomic, ok}, mnesia:snmp_open_table(Tab2, [{key, integer}])), + ?match({atomic, ok}, mnesia:snmp_open_table( + Tab3, [{key, {fix_string,integer}}])), + add_some_records(Tab1, Tab2, 1) + end, + Clear = fun() -> + ?match({atomic, ok}, mnesia:delete_table(Tab1)), + ?match({atomic, ok}, mnesia:delete_table(Tab2)), + ?match({atomic, ok}, mnesia:delete_table(Tab3)) + end, + Test = + fun() -> + %% Test local tables + {success, Res11} = + ?match({ok, [1]}, mnesia:snmp_get_next_index(Tab1,[])), + {ok, Index11} = Res11, + ?match({ok, {Tab1,1,1}}, mnesia:snmp_get_row(Tab1, Index11)), + ?match(endOfTable, mnesia:snmp_get_next_index(Tab1, Index11)), + ?match({'EXIT',_}, mnesia:snmp_get_row(Tab1, endOfTable)), + ?match(undefined, mnesia:snmp_get_row(Tab1, [73])), + + Add = fun() -> mnesia:write({Tab3, {"f_string", 3}, data1, data2}) end, + ?match({atomic, ok}, mnesia:transaction(Add)), + {success, {ok, Index31}} = ?match({ok, RowIndex31} when is_list(RowIndex31), + mnesia:snmp_get_next_index(Tab3,[])), + ?match({ok, Row31} when is_tuple(Row31), + mnesia:snmp_get_row(Tab3, Index31)), + ?match(endOfTable, mnesia:snmp_get_next_index(Tab3, Index31)), + Del = fun() -> mnesia:delete({Tab3,{"f_string",3}}) end, + ?match({atomic, ok}, mnesia:transaction(Del)), + ?match(undefined, mnesia:snmp_get_row(Tab3, "f_string" ++ [3])), + ?match(undefined, mnesia:snmp_get_row(Tab3, "f_string" ++ [73])), + + %% Test external table + {success, Res21} = ?match({ok,[20]}, mnesia:snmp_get_next_index(Tab2, [])), + {ok, Index21} = Res21, + ?match({ok, Row2} when is_tuple(Row2), mnesia:snmp_get_row(Tab2, Index21)), + ?match(endOfTable, mnesia:snmp_get_next_index(Tab2, Index21)), + %% Test of non existing table + %% ?match(endOfTable, mnesia:snmp_get_next_index(ErrTab, [])), + ok + end, + Setup(), + ?match(ok, Test()), + Clear(), Setup(), + ?match({atomic,ok}, mnesia:transaction(Test)), + Clear(), Setup(), + ?match(ok, mnesia:sync_dirty(Test)), + Clear(), Setup(), + ?match(ok, mnesia:activity(transaction,Test,mnesia)), + + Clear(), Setup(), + ?match([], mnesia_test_lib:stop_mnesia(Nodes)), + ?match([], mnesia_test_lib:start_mnesia(Nodes, [Tab1, Tab2])), + ?match(ok, Test()), + Clear(), Setup(), + ?match([], mnesia_test_lib:stop_mnesia(Nodes)), + ?match([], mnesia_test_lib:start_mnesia(Nodes, [Tab1, Tab2])), + ?match({atomic,ok}, mnesia:transaction(Test)), + + ?verify_mnesia(Nodes, []). + +snmp_get_mnesia_key(suite) -> []; +snmp_get_mnesia_key(Config) when is_list(Config) -> + [Node1, Node2] = Nodes = ?acquire_nodes(2, Config), + Tab1 = local_snmp_table, + Storage = mnesia_test_lib:storage_type(disc_copies, Config), + Def1 = + case mnesia_test_lib:diskless(Config) of + true -> [{ram_copies, Nodes}]; + false -> + [{disc_copies, [Node1]}, {ram_copies, [Node2]}] + end, + + Tab2 = ext_snmp_table, + Def2 = [{Storage, [Node2]}], + + Tab3 = fix_string, + Setup = fun() -> + ?match({atomic, ok}, mnesia:create_table(Tab1, Def1)), + ?match({atomic, ok}, mnesia:create_table(Tab2, Def2)), + ?match({atomic, ok}, mnesia:create_table(Tab3, Def1)), + ?match({atomic, ok}, mnesia:snmp_open_table(Tab1, [{key, integer}])), + ?match({atomic, ok}, mnesia:snmp_open_table(Tab2, [{key, integer}])), + ?match({atomic, ok}, mnesia:snmp_open_table(Tab3, [{key, {fix_string,integer}}])), + + add_some_records(Tab1, Tab2, 1) + end, + Clear = fun() -> + ?match({atomic, ok}, mnesia:delete_table(Tab1)), + ?match({atomic, ok}, mnesia:delete_table(Tab2)), + ?match({atomic, ok}, mnesia:delete_table(Tab3)) + end, + Test = + fun() -> + %% Test local tables + {success, Res11} = + ?match({ok, [1]}, mnesia:snmp_get_next_index(Tab1,[])), + {ok, Index11} = Res11, + ?match({ok, 1}, mnesia:snmp_get_mnesia_key(Tab1, Index11)), + %% Test external tables + {success, Res21} = + ?match({ok, [20]}, mnesia:snmp_get_next_index(Tab2, [])), + {ok, Index21} = Res21, + ?match({ok, 20}, mnesia:snmp_get_mnesia_key(Tab2, Index21)), + ?match(undefined, mnesia:snmp_get_mnesia_key(Tab2, [97])), + ?match({'EXIT', _}, mnesia:snmp_get_mnesia_key(Tab2, 97)), + + ?match({atomic,ok}, mnesia:transaction(fun() -> mnesia:delete({Tab1,1}) end)), + ?match(undefined, mnesia:snmp_get_mnesia_key(Tab1, Index11)), + + ?match({atomic,ok},mnesia:transaction(fun() -> mnesia:write({Tab1,73,7}) end)), + ?match({ok, 73}, mnesia:snmp_get_mnesia_key(Tab1, [73])), + ?match({atomic,ok}, mnesia:transaction(fun() -> mnesia:delete({Tab1,73}) end)), + ?match(undefined, mnesia:snmp_get_mnesia_key(Tab1, [73])), + + ?match({atomic,ok},mnesia:transaction(fun() -> mnesia:write({Tab3,{"S",5},7}) end)), + ?match({ok,{"S",5}}, mnesia:snmp_get_mnesia_key(Tab3, [$S,5])), + ?match({atomic,ok},mnesia:transaction(fun() -> mnesia:delete({Tab3,{"S",5}}) end)), + ?match(undefined, mnesia:snmp_get_mnesia_key(Tab3, [$S,5])), + + ok + end, + Setup(), + ?match(ok, Test()), + Clear(), Setup(), + ?match({atomic,ok}, mnesia:transaction(Test)), + Clear(), Setup(), + ?match(ok, mnesia:sync_dirty(Test)), + Clear(), Setup(), + ?match(ok, mnesia:activity(transaction,Test,mnesia)), + ?verify_mnesia(Nodes, []). + +snmp_update_counter(doc) -> + ["Verify that counters may be updated for tables with SNMP property"]; +snmp_update_counter(suite) -> []; +snmp_update_counter(Config) when is_list(Config) -> + [Node1] = Nodes = ?acquire_nodes(1, Config), + Tab = snmp_update_counter, + Def = [{attributes, [key, value]}, + {snmp, [{key, integer}]}, + {ram_copies, [Node1]} + ], + ?match({atomic, ok}, mnesia:create_table(Tab, Def)), + Oid = {Tab, 1}, + ?match([], mnesia:dirty_read(Oid)), + ?match(ok, mnesia:dirty_write({Tab, 1, 1})), + ?match([{Tab, _Key, 1}], mnesia:dirty_read(Oid)), + ?match(3, mnesia:dirty_update_counter(Oid, 2)), + ?match([{Tab, _Key, 3}], mnesia:dirty_read(Oid)), + ?verify_mnesia(Nodes, []). + +snmp_order(doc) -> + ["Verify that sort order is correct in transactions and dirty variants"]; +snmp_order(suite) -> []; +snmp_order(Config) when is_list(Config) -> + [Node1] = Nodes = ?acquire_nodes(1, Config), + Tab = snmp_order, + Def = [{attributes, [key, value]}, + {snmp, [{key, {integer, integer, integer}}]}, + {ram_copies, [Node1]} + ], + ?match({atomic, ok}, mnesia:create_table(Tab, Def)), + Oid = {Tab, 1}, + ?match([], mnesia:dirty_read(Oid)), + ?match({'EXIT', {aborted, _}}, mnesia:dirty_write({Tab, 1, 1})), + [mnesia:dirty_write({Tab, {A,B,2}, default}) || + A <- lists:seq(1, 9, 2), + B <- lists:seq(2, 8, 2)], + + Test1 = fun() -> + Keys0 = get_keys(Tab, []), + ?match(Keys0, lists:sort(Keys0)), + ?match([[1,2,2]|_], Keys0), + Keys1 = get_keys(Tab, [5]), + ?match(Keys1, lists:sort(Keys1)), + ?match([[5,2,2]|_], Keys1), + Keys2 = get_keys(Tab, [7, 4]), + ?match(Keys2, lists:sort(Keys2)), + ?match([[7,4,2]|_], Keys2), + ok + end, + ?match(ok, Test1()), + ?match({atomic, ok},mnesia:transaction(Test1)), + ?match(ok,mnesia:sync_dirty(Test1)), + + Test2 = fun() -> + mnesia:write(Tab, {Tab,{0,0,2},updated}, write), + mnesia:write(Tab, {Tab,{5,3,2},updated}, write), + mnesia:write(Tab, {Tab,{10,10,2},updated}, write), + Keys0 = get_keys(Tab, []), + ?match([[0,0,2],[1,2,2]|_], Keys0), + ?match(Keys0, lists:sort(Keys0)), + + Keys1 = get_keys(Tab, [5]), + ?match([[5,2,2],[5,3,2]|_], Keys1), + ?match(Keys1, lists:sort(Keys1)), + + Keys2 = get_keys(Tab, [7,4]), + ?match([[7,4,2]|_], Keys2), + ?match(Keys2, lists:sort(Keys2)), + ?match([10,10,2], lists:last(Keys0)), + ?match([10,10,2], lists:last(Keys1)), + ?match([10,10,2], lists:last(Keys2)), + + ?match([[10,10,2]], get_keys(Tab, [10])), + ok + end, + + ?match({atomic, ok},mnesia:transaction(Test2)), + + ?verify_mnesia(Nodes, []). + +get_keys(Tab, Key) -> + case mnesia:snmp_get_next_index(Tab, Key) of + endOfTable -> []; + {ok, Next} -> + [Next|get_keys(Tab, Next)] + end. + + +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% + +-record(tab, {i, e1, e2}). % Simple test table + +subscriptions(doc) -> + ["Test the event subscription mechanism"]; +subscriptions(suite) -> + [subscribe_standard, + subscribe_extended]. + +subscribe_extended(doc) -> + ["Test the extended set of events, test with and without checkpoints. "]; +subscribe_extended(suite) -> + []; +subscribe_extended(Config) when is_list(Config) -> + [N1, N2]=Nodes=?acquire_nodes(2, Config), + Tab1 = etab, + Storage = mnesia_test_lib:storage_type(ram_copies, Config), + Def1 = [{Storage, [N1, N2]}, {attributes, record_info(fields, tab)}], + ?match({atomic, ok}, mnesia:create_table(Tab1, Def1)), + + Tab2 = bag, + Def2 = [{Storage, [N1, N2]}, + {type, bag}, + {record_name, Tab1}, + {attributes, record_info(fields, tab)}], + ?match({atomic, ok}, mnesia:create_table(Tab2, Def2)), + + ?match({ok, N1}, mnesia:subscribe({table, Tab1, detailed})), + ?match({ok, N1}, mnesia:subscribe({table, Tab2, detailed})), + + ?match({error, {already_exists, _}}, mnesia:subscribe({table, Tab1, simple})), + ?match({error, {badarg, {table, Tab1, bad}}}, mnesia:subscribe({table, Tab1, bad})), + + ?match({ok, N1}, mnesia:subscribe(activity)), + test_ext_sub(Tab1, Tab2), + + ?match({ok, N1}, mnesia:unsubscribe(activity)), + ?match({ok, N1}, mnesia:subscribe({table, Tab1, detailed})), + ?match({atomic, ok}, mnesia:clear_table(Tab1)), + ?match({mnesia_table_event, {delete, schema, {schema, Tab1}, [{schema, Tab1, _}],_}}, recv_event()), + ?match({mnesia_table_event, {write, schema, {schema, Tab1, _}, [], _}}, recv_event()), + + ?match({atomic, ok}, mnesia_schema:clear_table(Tab2)), + ?match({mnesia_table_event, {delete, schema, {schema, Tab2}, [{schema, Tab2, _}],_}}, + recv_event()), + ?match({mnesia_table_event, {write, schema, {schema, Tab2, _}, [], _}}, recv_event()), + + ?match({ok, N1}, mnesia:unsubscribe({table, Tab2, detailed})), + {ok, _, _} = mnesia:activate_checkpoint([{name, testing}, + {ram_overrides_dump, true}, + {max, [Tab1, Tab2]}]), + ?match({ok, N1}, mnesia:subscribe({table, Tab2, detailed})), + ?match({ok, N1}, mnesia:subscribe(activity)), + test_ext_sub(Tab1, Tab2), + + ?verify_mnesia(Nodes, []). + +test_ext_sub(Tab1, Tab2) -> + %% The basics + Rec1 = {Tab1, 1, 0, 0}, + Rec2 = {Tab1, 1, 1, 0}, + Rec3 = {Tab1, 2, 1, 0}, + Rec4 = {Tab1, 2, 2, 0}, + + Write = fun(Tab, Rec) -> + mnesia:transaction(fun() -> mnesia:write(Tab, Rec, write) + end) + end, + Delete = fun(Tab, Rec) -> + mnesia:transaction(fun() -> mnesia:delete(Tab, Rec, write) + end) + end, + DelObj = fun(Tab, Rec) -> + mnesia:transaction(fun() -> mnesia:delete_object(Tab, Rec, write) + end) + end, + + S = self(), + D = {dirty, self()}, + %% SET + ?match(ok, mnesia:dirty_write(Rec1)), + ?match({mnesia_table_event, {write, Tab1, Rec1, [], D}}, recv_event()), + ?match(ok, mnesia:dirty_write(Rec3)), + ?match({mnesia_table_event, {write, Tab1, Rec3, [], D}}, recv_event()), + ?match(ok, mnesia:dirty_write(Rec1)), + ?match({mnesia_table_event, {write, Tab1, Rec1, [Rec1], D}}, recv_event()), + ?match({atomic, ok}, Write(Tab1, Rec2)), + ?match({mnesia_table_event, {write, Tab1, Rec2, [Rec1], {tid,_,S}}}, recv_event()), + ?match({mnesia_activity_event, {complete, {tid,_,S}}}, recv_event()), + ?match(ok, mnesia:dirty_delete({Tab1, 2})), + ?match({mnesia_table_event, {delete, Tab1, {Tab1, 2}, [Rec3], D}}, recv_event()), + ?match({atomic, ok}, DelObj(Tab1, Rec2)), + ?match({mnesia_table_event, {delete, Tab1, Rec2, [Rec2], {tid,_,S}}}, recv_event()), + ?match({mnesia_activity_event, {complete, {tid,_,S}}}, recv_event()), + + ?match({atomic, ok}, Delete(Tab1, 1)), + ?match({mnesia_table_event, {delete, Tab1, {Tab1, 1}, [], {tid,_,S}}}, recv_event()), + ?match({mnesia_activity_event, {complete, {tid,_,S}}}, recv_event()), + + ?match({ok, _N1}, mnesia:unsubscribe({table, Tab1, detailed})), + + %% BAG + + ?match({atomic, ok}, Write(Tab2, Rec1)), + ?match({mnesia_table_event, {write, Tab2, Rec1, [], {tid,_,S}}}, recv_event()), + ?match({mnesia_activity_event, {complete, {tid,_,S}}}, recv_event()), + ?match({atomic, ok}, Write(Tab2, Rec4)), + ?match({mnesia_table_event, {write, Tab2, Rec4, [], {tid,_,S}}}, recv_event()), + ?match({mnesia_activity_event, {complete, {tid,_,S}}}, recv_event()), + ?match({atomic, ok}, Write(Tab2, Rec3)), + ?match({mnesia_table_event, {write, Tab2, Rec3, [Rec4], {tid,_,S}}}, recv_event()), + ?match({mnesia_activity_event, {complete, {tid,_,S}}}, recv_event()), + ?match({atomic, ok}, Write(Tab2, Rec2)), + ?match({mnesia_table_event, {write, Tab2, Rec2, [Rec1], {tid,_,S}}}, recv_event()), + ?match({mnesia_activity_event, {complete, {tid,_,S}}}, recv_event()), + ?match({atomic, ok}, Write(Tab2, Rec1)), + ?match({mnesia_table_event, {write, Tab2, Rec1, [Rec1, Rec2], {tid,_,S}}}, recv_event()), + ?match({mnesia_activity_event, {complete, {tid,_,S}}}, recv_event()), + ?match({atomic, ok}, DelObj(Tab2, Rec2)), + ?match({mnesia_table_event, {delete, Tab2, Rec2, [Rec2], {tid,_,S}}}, recv_event()), + ?match({mnesia_activity_event, {complete, {tid,_,S}}}, recv_event()), + ?match({atomic, ok}, Delete(Tab2, 1)), + ?match({mnesia_table_event, {delete, Tab2, {Tab2, 1}, [Rec1], {tid,_,S}}}, recv_event()), + ?match({mnesia_activity_event, {complete, {tid,_,S}}}, recv_event()), + ?match({atomic, ok}, Delete(Tab2, 2)), + ?match({mnesia_table_event, {delete, Tab2, {Tab2, 2}, [Rec4, Rec3], {tid,_,S}}}, recv_event()), + ?match({mnesia_activity_event, {complete, {tid,_,S}}}, recv_event()), + ok. + + +subscribe_standard(doc) -> + ["Tests system events and the orignal table events"]; +subscribe_standard(suite) -> []; +subscribe_standard(Config) when is_list(Config)-> + [N1, N2]=?acquire_nodes(2, Config), + Tab = tab, + + Storage = mnesia_test_lib:storage_type(disc_copies, Config), + Def = [{Storage, [N1, N2]}, {attributes, record_info(fields, tab)}], + + ?match({atomic, ok}, mnesia:create_table(Tab, Def)), + + %% Check system events + ?match({ok, N1}, mnesia:subscribe(system)), + ?match({ok, N1}, mnesia:subscribe(activity)), + + ?match([], mnesia_test_lib:kill_mnesia([N2])), + ?match({mnesia_system_event, {mnesia_down, N2}}, recv_event()), + ?match(timeout, recv_event()), + + ?match([], mnesia_test_lib:start_mnesia([N2], [Tab])), + ?match({mnesia_activity_event, _}, recv_event()), + ?match({mnesia_system_event,{mnesia_up, N2}}, recv_event()), + + ?match(true, lists:member(self(), mnesia:system_info(subscribers))), + ?match([], mnesia_test_lib:kill_mnesia([N1])), + timer:sleep(500), + mnesia_test_lib:flush(), + ?match([], mnesia_test_lib:start_mnesia([N1], [Tab])), + ?match(timeout, recv_event()), + + ?match({ok, N1}, mnesia:subscribe(system)), + ?match({error, {already_exists, system}}, mnesia:subscribe(system)), + ?match(stopped, mnesia:stop()), + ?match({mnesia_system_event, {mnesia_down, N1}}, recv_event()), + ?match({error, {node_not_running, N1}}, mnesia:subscribe(system)), + ?match([], mnesia_test_lib:start_mnesia([N1, N2], [Tab])), + + %% Check table events + ?match({ok, N1}, mnesia:subscribe(activity)), + Old_Level = mnesia:set_debug_level(trace), + ?match({ok, N1}, mnesia:subscribe({table,Tab})), + + ?match({atomic, ok}, + mnesia:transaction(fun() -> mnesia:write(#tab{i=155}) end)), + Self = self(), + ?match({mnesia_table_event, {write, _, _}}, recv_event()), + ?match({mnesia_activity_event, {complete, {tid, _, Self}}}, recv_event()), + + ?match({ok, N1}, mnesia:unsubscribe({table,Tab})), + ?match({ok, N1}, mnesia:unsubscribe(activity)), + + ?match({atomic, ok}, + mnesia:transaction(fun() -> mnesia:write(#tab{i=255}) end)), + + ?match(timeout, recv_event()), + mnesia:set_debug_level(Old_Level), + + %% Check deletion of replica + + ?match({ok, N1}, mnesia:subscribe({table,Tab})), + ?match({ok, N1}, mnesia:subscribe(activity)), + ?match(ok, mnesia:dirty_write(#tab{i=355})), + ?match({mnesia_table_event, {write, _, _}}, recv_event()), + ?match({atomic, ok}, mnesia:del_table_copy(Tab, N1)), + ?match({mnesia_activity_event, _}, recv_event()), + ?match(ok, mnesia:dirty_write(#tab{i=455})), + ?match(timeout, recv_event()), + + ?match({atomic, ok}, mnesia:move_table_copy(Tab, N2, N1)), + ?match({mnesia_activity_event, _}, recv_event()), + ?match({ok, N1}, mnesia:subscribe({table,Tab})), + ?match(ok, mnesia:dirty_write(#tab{i=555})), + ?match({mnesia_table_event, {write, _, _}}, recv_event()), + ?match({atomic, ok}, mnesia:move_table_copy(Tab, N1, N2)), + ?match({mnesia_activity_event, _}, recv_event()), + ?match(ok, mnesia:dirty_write(#tab{i=655})), + ?match(timeout, recv_event()), + + ?match({atomic, ok}, mnesia:add_table_copy(Tab, N1, ram_copies)), + ?match({mnesia_activity_event, _}, recv_event()), + ?match({ok, N1}, mnesia:subscribe({table,Tab})), + ?match({error, {already_exists, {table,Tab, simple}}}, + mnesia:subscribe({table,Tab})), + ?match(ok, mnesia:dirty_write(#tab{i=755})), + ?match({mnesia_table_event, {write, _, _}}, recv_event()), + + ?match({atomic, ok}, mnesia:delete_table(Tab)), + ?match({mnesia_activity_event, _}, recv_event()), + ?match(timeout, recv_event()), + + mnesia_test_lib:kill_mnesia([N1]), + + ?verify_mnesia([N2], [N1]). + +recv_event() -> + receive + Event -> Event + after 1000 -> + timeout + end. + +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +iteration(doc) -> + ["Verify that the iteration functions works as expected"]; +iteration(suite) -> + [foldl]. + + +foldl(suite) -> + []; +foldl(doc) -> + [""]; +foldl(Config) when is_list(Config) -> + Nodes = [_N1, N2] = ?acquire_nodes(2, Config), + Tab1 = fold_local, + Tab2 = fold_remote, + Tab3 = fold_ordered, + ?match({atomic, ok}, mnesia:create_table(Tab1, [{ram_copies, Nodes}])), + ?match({atomic, ok}, mnesia:create_table(Tab2, [{ram_copies, [N2]}, {type, bag}])), + ?match({atomic, ok}, mnesia:create_table(Tab3, [{ram_copies, Nodes}, + {type, ordered_set}])), + + Tab1Els = [{Tab1, N, N} || N <- lists:seq(1, 10)], + Tab2Els = ?sort([{Tab2, 1, 2} | [{Tab2, N, N} || N <- lists:seq(1, 10)]]), + Tab3Els = [{Tab3, N, N} || N <- lists:seq(1, 10)], + + [mnesia:sync_transaction(fun() -> mnesia:write(E) end) || E <- Tab1Els], + [mnesia:sync_transaction(fun() -> mnesia:write(E) end) || E <- Tab2Els], + [mnesia:sync_transaction(fun() -> mnesia:write(E) end) || E <- Tab3Els], + + Fold = fun(Tab) -> + lists:reverse(mnesia:foldl(fun(E, A) -> [E | A] end, [], Tab)) + end, + Fold2 = fun(Tab, Lock) -> + lists:reverse(mnesia:foldl(fun(E, A) -> [E | A] end, [], Tab, Lock)) + end, + Exit = fun(Tab) -> + lists:reverse(mnesia:foldl(fun(_E, _A) -> exit(testing) end, [], Tab)) + end, + %% Errors + ?match({aborted, _}, mnesia:transaction(Fold, [error])), + ?match({aborted, _}, mnesia:transaction(fun(Tab) -> mnesia:foldl(badfun,[],Tab) end, + [Tab1])), + ?match({aborted, testing}, mnesia:transaction(Exit, [Tab1])), + ?match({aborted, _}, mnesia:transaction(Fold2, [Tab1, read_lock])), + + %% Success + ?match({atomic, Tab1Els}, sort_res(mnesia:transaction(Fold, [Tab1]))), + ?match({atomic, Tab2Els}, sort_res(mnesia:transaction(Fold, [Tab2]))), + ?match({atomic, Tab3Els}, mnesia:transaction(Fold, [Tab3])), + + ?match({atomic, Tab1Els}, sort_res(mnesia:transaction(Fold2, [Tab1, read]))), + ?match({atomic, Tab1Els}, sort_res(mnesia:transaction(Fold2, [Tab1, write]))), + + ?match(Tab1Els, sort_res(mnesia:sync_dirty(Fold, [Tab1]))), + ?match(Tab2Els, sort_res(mnesia:async_dirty(Fold, [Tab2]))), + + ?verify_mnesia(Nodes, []). + +sort_res({atomic, List}) -> + {atomic, ?sort(List)}; +sort_res(Else) when is_list(Else) -> + ?sort(Else); +sort_res(Else) -> + Else. + +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +debug_support(doc) -> + ["Check that the debug support has not decayed."]; +debug_support(suite) -> + [ + info, + schema_0, + schema_1, + view_0, + view_1, + view_2, + lkill, + kill + ]. + +info(suite) -> []; +info(Config) when is_list(Config) -> + Nodes = ?acquire_nodes(1, Config), + ?match(ok, mnesia:info()), + ?verify_mnesia(Nodes, []). + +schema_0(suite) -> []; +schema_0(Config) when is_list(Config) -> + Nodes = ?acquire_nodes(1, Config), + ?match(ok, mnesia:schema()), + ?verify_mnesia(Nodes, []). + +schema_1(suite) -> []; +schema_1(Config) when is_list(Config) -> + Nodes = ?acquire_nodes(1, Config), + Tab = schema_1, + ?match({atomic, ok}, mnesia:create_table(Tab, [])), + ?match(ok, mnesia:schema(Tab)), + ?verify_mnesia(Nodes, []). + +view_0(suite) -> []; +view_0(Config) when is_list(Config) -> + Nodes = ?acquire_nodes(1, Config), + ?match(ok, mnesia_lib:view()), + ?verify_mnesia(Nodes, []). + +view_1(suite) -> []; +view_1(Config) when is_list(Config) -> + Nodes = ?acquire_nodes(1, Config), + BinCore = mnesia_lib:mkcore({crashinfo, "Just testing..."}), + CoreFile = lists:concat(["MnesiaCore.", node(), ".view_1.", ?MODULE]), + ?match(ok, file:write_file(CoreFile, BinCore)), + ?match(ok, mnesia_lib:view(CoreFile)), + ?match(ok, file:delete(CoreFile)), + + ?match(stopped, mnesia:stop()), + Dir = mnesia:system_info(directory), + ?match(eof, mnesia_lib:view(filename:join(Dir, "LATEST.LOG"))), + ?match(ok, mnesia_lib:view(filename:join(Dir, "schema.DAT"))), + ?verify_mnesia([], Nodes). + +view_2(suite) -> []; +view_2(Config) when is_list(Config) -> + Nodes = ?acquire_nodes(1, Config), + BinCore = mnesia_lib:mkcore({crashinfo, "More testing..."}), + File = lists:concat([?MODULE, "view_2.", node()]), + ?match(ok, file:write_file(File, BinCore)), + ?match(ok, mnesia_lib:view(File, core)), + ?match(ok, file:delete(File)), + + ?match(stopped, mnesia:stop()), + Dir = mnesia:system_info(directory), + ?match(ok, file:rename(filename:join(Dir, "LATEST.LOG"), File)), + ?match(eof, mnesia_lib:view(File, log)), + ?match(ok, file:delete(File)), + + ?match(ok, file:rename(filename:join(Dir, "schema.DAT"), File)), + ?match(ok, mnesia_lib:view(File, dat)), + ?match(ok, file:delete(File)), + ?verify_mnesia([], Nodes). + +lkill(suite) -> []; +lkill(Config) when is_list(Config) -> + [Node1, Node2] = ?acquire_nodes(2, Config), + + ?match(yes, rpc:call(Node1, mnesia, system_info, [is_running])), + ?match(yes, rpc:call(Node2, mnesia, system_info, [is_running])), + ?match(ok, rpc:call(Node2, mnesia, lkill, [])), + ?match(yes, rpc:call(Node1, mnesia, system_info, [is_running])), + ?match(no, rpc:call(Node2, mnesia, system_info, [is_running])), + ?verify_mnesia([Node1], [Node2]). + +kill(suite) -> []; +kill(Config) when is_list(Config) -> + [Node1, Node2] = ?acquire_nodes(2, Config), + + ?match(yes, rpc:call(Node1, mnesia, system_info, [is_running])), + ?match(yes, rpc:call(Node2, mnesia, system_info, [is_running])), + ?match({_, []}, rpc:call(Node2, mnesia, kill, [])), + ?match(no, rpc:call(Node1, mnesia, system_info, [is_running])), + ?match(no, rpc:call(Node2, mnesia, system_info, [is_running])), + ?verify_mnesia([], [Node1, Node2]). + +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% + +record_name(doc) -> + ["Verify that record names may be differ from the name of ", + "the hosting table. Check at least access, restore, " + "registry, subscriptions and traveres_backup"]; +record_name(suite) -> + [ + record_name_dirty_access + ]. + +record_name_dirty_access(suite) -> + [ + record_name_dirty_access_ram, + record_name_dirty_access_disc, + record_name_dirty_access_disc_only + ]. + +record_name_dirty_access_ram(suite) -> + []; +record_name_dirty_access_ram(Config) when is_list(Config) -> + record_name_dirty_access(ram_copies, Config). + +record_name_dirty_access_disc(suite) -> + []; +record_name_dirty_access_disc(Config) when is_list(Config) -> + record_name_dirty_access(disc_copies, Config). + +record_name_dirty_access_disc_only(suite) -> + []; +record_name_dirty_access_disc_only(Config) when is_list(Config) -> + record_name_dirty_access(disc_only_copies, Config). + +record_name_dirty_access(Storage, Config) -> + [Node1, _Node2] = Nodes = ?acquire_nodes(2, Config), + + List = lists:concat([record_name_dirty_access_, Storage]), + Tab = list_to_atom(List), + RecName = some_record, + Attr = val, + TabDef = [{type, bag}, + {record_name, RecName}, + {index, [Attr]}, + {Storage, Nodes}], + ?match({atomic, ok}, mnesia:create_table(Tab, TabDef)), + + ?match(RecName, mnesia:table_info(Tab, record_name)), + + ?match(ok, mnesia:dirty_write(Tab, {RecName, 2, 20})), + ?match(ok, mnesia:dirty_write(Tab, {RecName, 2, 21})), + ?match(ok, mnesia:dirty_write(Tab, {RecName, 2, 22})), + + %% Backup test + BupFile = List ++ ".BUP", + CpName = cpname, + CpArgs = [{name, CpName}, {min, [Tab]}, {ram_overrides_dump, true}], + ?match({ok, CpName, _}, mnesia:activate_checkpoint(CpArgs)), + ?match(ok, mnesia:backup_checkpoint(CpName, BupFile)), + ?match(ok, mnesia:deactivate_checkpoint(CpName)), + + ?match(ok, mnesia:dirty_write(Tab, {RecName, 1, 10})), + ?match({ok, Node1}, mnesia:subscribe({table, Tab})), + ?match(ok, mnesia:dirty_write(Tab, {RecName, 3, 10})), + + Twos =?sort( [{RecName, 2, 20}, {RecName, 2, 21}, {RecName, 2, 22}]), + ?match(Twos, ?sort(mnesia:dirty_read(Tab, 2))), + + ?match(ok, mnesia:dirty_delete_object(Tab, {RecName, 2, 21})), + + Tens = ?sort([{RecName, 1, 10}, {RecName, 3, 10}]), + TenPat = {RecName, '_', 10}, + ?match(Tens, ?sort(mnesia:dirty_match_object(Tab, TenPat))), + ?match(Tens, ?sort(mnesia:dirty_select(Tab, [{TenPat, [], ['$_']}]))), + + %% Subscription test + E = mnesia_table_event, + ?match_receive({E, {write, {Tab, 3, 10}, _}}), + ?match_receive({E, {delete_object, {Tab, 2, 21}, _}}), + ?match({ok, Node1}, mnesia:unsubscribe({table, Tab})), + + ?match([], mnesia_test_lib:stop_mnesia([Node1])), + ?match([], mnesia_test_lib:start_mnesia(Nodes, [Tab])), + + ?match(Tens, ?sort(mnesia:dirty_index_match_object(Tab, TenPat, Attr) )), + ?match(Tens, ?sort(mnesia:dirty_index_read(Tab, 10, Attr))), + + ?match([1, 2, 3], ?sort(mnesia:dirty_all_keys(Tab))), + + ?match({ok, Node1}, mnesia:subscribe({table, Tab})), + ?match(ok, mnesia:dirty_delete(Tab, 2)), + ?match([], mnesia:dirty_read(Tab, 2)), + + ?match_receive({E, {delete, {Tab, 2}, _}}), + ?match([], mnesia_test_lib:flush()), + ?match({ok, Node1}, mnesia:unsubscribe({table, Tab})), + + %% Restore test + ?match({atomic, [Tab]}, mnesia:restore(BupFile, [{recreate_tables, [Tab]}])), + ?match(RecName, mnesia:table_info(Tab, record_name)), + + ?match(Twos, ?sort(mnesia:dirty_match_object(Tab, mnesia:table_info(Tab, wild_pattern)))), + ?match(Twos, ?sort(mnesia:dirty_select(Tab, + [{mnesia:table_info(Tab, wild_pattern), + [],['$_']}]))), + + %% Traverse backup test + + Fun = fun(Rec, {Good, Bad}) -> + ?verbose("BUP: ~p~n", [Rec]), + case Rec of + {T, K, V} when T == Tab -> + Good2 = Good ++ [{RecName, K, V}], + {[Rec], {?sort(Good2), Bad}}; + {T, K} when T == Tab -> + Good2 = [G || G <- Good, element(2, G) /= K], + {[Rec], {?sort(Good2), Bad}}; + _ when element(1, Rec) == schema -> + {[Rec], {Good, Bad}}; + _ -> + Bad2 = Bad ++ [Rec], + {[Rec], {Good, ?sort(Bad2)}} + end + end, + + ?match({ok, {Twos, []}}, mnesia:traverse_backup(BupFile, mnesia_backup, + dummy, read_only, + Fun, {[], []})), + ?match(ok, file:delete(BupFile)), + + %% Update counter test + + CounterTab = list_to_atom(lists:concat([Tab, "_counter"])), + CounterTabDef = [{record_name, some_counter}], + C = my_counter, + ?match({atomic, ok}, mnesia:create_table(CounterTab, CounterTabDef)), + ?match(some_counter, mnesia:table_info(CounterTab, record_name)), + ?match(0, mnesia:dirty_update_counter(CounterTab, gurka, -10)), + ?match(10, mnesia:dirty_update_counter(CounterTab, C, 10)), + ?match(11, mnesia:dirty_update_counter(CounterTab, C, 1)), + ?match(4711, mnesia:dirty_update_counter(CounterTab, C, 4700)), + ?match([{some_counter, C, 4711}], mnesia:dirty_read(CounterTab, C)), + ?match(0, mnesia:dirty_update_counter(CounterTab, C, -4747)), + + %% Registry tests + + RegTab = list_to_atom(lists:concat([Tab, "_registry"])), + RegTabDef = [{record_name, some_reg}], + ?match(ok, mnesia_registry:create_table(RegTab, RegTabDef)), + ?match(some_reg, mnesia:table_info(RegTab, record_name)), + {success, RegRecs} = + ?match([_ | _], mnesia_registry_test:dump_registry(node(), RegTab)), + + R = ?sort(RegRecs), + ?match(R, ?sort(mnesia_registry_test:restore_registry(node(), RegTab))), + + ?verify_mnesia(Nodes, []). + +sorted_ets(suite) -> + []; +sorted_ets(Config) when is_list(Config) -> + [N1, N2, N3] = All = ?acquire_nodes(3, Config), + + Tab = sorted_tab, + Def = case mnesia_test_lib:diskless(Config) of + true -> [{name, Tab}, {type, ordered_set}, {ram_copies, All}]; + false -> [{name, Tab}, {type, ordered_set}, + {ram_copies, [N1]}, + {disc_copies,[N2, N3]}] + end, + + ?match({atomic, ok}, mnesia:create_table(Def)), + ?match({aborted, _}, mnesia:create_table(fel, [{disc_only_copies, N1}])), + + ?match([ok | _], + [mnesia:dirty_write({Tab, {dirty, N}, N}) || N <- lists:seq(1, 10)]), + ?match({atomic, _}, + mnesia:sync_transaction(fun() -> + [mnesia:write({Tab, {trans, N}, N}) || + N <- lists:seq(1, 10)] + end)), + + List = mnesia:dirty_match_object({Tab, '_', '_'}), + ?match(List, ?sort(List)), + ?match(List, rpc:call(N2, mnesia, dirty_match_object, [{Tab, '_', '_'}])), + ?match(List, rpc:call(N3, mnesia, dirty_match_object, [{Tab, '_', '_'}])), + + mnesia_test_lib:stop_mnesia(All), + mnesia_test_lib:start_mnesia(All, [sorted_tab]), + + List = mnesia:dirty_match_object({Tab, '_', '_'}), + ?match(List, ?sort(List)), + ?match(List, rpc:call(N2, mnesia, dirty_match_object, [{Tab, '_', '_'}])), + ?match(List, rpc:call(N3, mnesia, dirty_match_object, [{Tab, '_', '_'}])), + + ?match(List, rpc:call(N3, mnesia, dirty_select, [Tab, [{{Tab, '_', '_'},[],['$_']}]])), + + TransMatch = fun() -> + mnesia:write({Tab, {trans, 0}, 0}), + mnesia:write({Tab, {trans, 11}, 11}), + mnesia:match_object({Tab, '_', '_'}) + end, + TransSelect = fun() -> + mnesia:write({Tab, {trans, 0}, 0}), + mnesia:write({Tab, {trans, 11}, 11}), + mnesia:select(Tab, [{{Tab, '_', '_'},[],['$_']}]) + end, + + TList = mnesia:transaction(TransMatch), + STList = ?sort(TList), + ?match(STList, TList), + ?match(STList, rpc:call(N2, mnesia, transaction, [TransMatch])), + ?match(STList, rpc:call(N3, mnesia, transaction, [TransMatch])), + + TSel = mnesia:transaction(TransSelect), + ?match(STList, TSel), + ?match(STList, rpc:call(N2, mnesia, transaction, [TransSelect])), + ?match(STList, rpc:call(N3, mnesia, transaction, [TransSelect])), + + ?match({atomic, ok}, mnesia:create_table(rec, [{type, ordered_set}])), + [ok = mnesia:dirty_write(R) || R <- [{rec,1,1}, {rec,2,1}]], + ?match({atomic, ok}, mnesia:add_table_index(rec, 3)), + TestIt = fun() -> + ok = mnesia:write({rec,1,1}), + mnesia:index_read(rec, 1, 3) + end, + ?match({atomic, [{rec,1,1}, {rec,2,1}]}, mnesia:transaction(TestIt)). + + |