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|
%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 1996-2016. All Rights Reserved.
%%
%% Licensed under the Apache License, Version 2.0 (the "License");
%% you may not use this file except in compliance with the License.
%% You may obtain a copy of the License at
%%
%% http://www.apache.org/licenses/LICENSE-2.0
%%
%% Unless required by applicable law or agreed to in writing, software
%% distributed under the License is distributed on an "AS IS" BASIS,
%% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
%% See the License for the specific language governing permissions and
%% limitations under the License.
%%
%% %CopyrightEnd%
%%
%%
%% Purpose: Handles index functionality in mnesia
-module(mnesia_index).
-export([read/5,
add_index/6,
delete_index/4,
del_object_index/5,
clear_index/4,
dirty_match_object/3,
dirty_select/3,
dirty_read/3,
dirty_read2/3,
db_put/2,
db_get/2,
db_match_erase/2,
get_index_table/2,
get_index_table/3,
tab2filename/2,
init_index/2,
init_indecies/3,
del_transient/2,
del_transient/3,
del_index_table/3,
index_info/2,
ext_index_instances/1]).
-import(mnesia_lib, [val/1, verbose/2]).
-include("mnesia.hrl").
-record(index, {setorbag, pos_list}).
%% read an object list through its index table
%% we assume that table Tab has index on attribute number Pos
read(Tid, Store, Tab, IxKey, Pos) ->
ResList = mnesia_locker:ixrlock(Tid, Store, Tab, IxKey, Pos),
%% Remove all tuples which don't include Ixkey, happens when Tab is a bag
case val({Tab, setorbag}) of
bag ->
mnesia_lib:key_search_all(IxKey, Pos, ResList);
_ ->
ResList
end.
ext_index_instances(Tab) ->
#index{pos_list = PosL} = val({Tab, index_info}),
lists:foldr(
fun({_, {{ext,Alias,Mod}, Tag}}, Acc) ->
[{Alias, Mod, Tag}|Acc];
(_, Acc) ->
Acc
end, [], PosL).
add_index(#index{pos_list = PosL, setorbag = SorB},
Storage, Tab, Key, Obj, Old) ->
add_index2(PosL, SorB, Storage, Tab, Key, Obj, Old).
add_index2([{{Pos,Type}, Ixt} |Tail], bag, Storage, Tab, K, Obj, OldRecs) ->
ValsF = index_vals_f(Storage, Tab, Pos),
Vals = ValsF(Obj),
put_index_vals(Type, Ixt, Vals, K),
add_index2(Tail, bag, Storage, Tab, K, Obj, OldRecs);
add_index2([{{Pos, Type}, Ixt} |Tail], SorB, Storage, Tab, K, Obj, OldRecs0) ->
%% Remove old tuples in index if Tab is updated
ValsF = index_vals_f(Storage, Tab, Pos), NewVals = ValsF(Obj),
OldRecs1 = case OldRecs0 of
undefined -> mnesia_lib:db_get(Storage, Tab, K);
_ -> OldRecs0
end,
IdxVal = ValsF(Obj),
case [Old || Old <- OldRecs1, ValsF(Old) =/= IdxVal] of
[] when OldRecs1 =:= [] -> % Write
put_index_vals(Type, Ixt, NewVals, K),
add_index2(Tail, SorB, Storage, Tab, K, Obj, OldRecs1);
[] -> %% when OldRecs1 =/= [] Update without modifying index field
add_index2(Tail, SorB, Storage, Tab, K, Obj, OldRecs1);
OldRecs -> %% Update
put_index_vals(Type, Ixt, NewVals, K),
[del_ixes(Type, Ixt, ValsF, OldObj, K) || OldObj <- OldRecs],
add_index2(Tail, SorB, Storage, Tab, K, Obj, OldRecs1)
end;
add_index2([], _, _, _Tab, _K, _Obj, _) -> ok.
delete_index(Index, Storage, Tab, K) ->
delete_index2(Index#index.pos_list, Storage, Tab, K).
delete_index2([{{Pos, Type}, Ixt} | Tail], Storage, Tab, K) ->
DelObjs = mnesia_lib:db_get(Storage, Tab, K),
ValsF = index_vals_f(Storage, Tab, Pos),
[del_ixes(Type, Ixt, ValsF, Obj, K) || Obj <- DelObjs],
delete_index2(Tail, Storage, Tab, K);
delete_index2([], _Storage, _Tab, _K) -> ok.
put_index_vals(ordered, Ixt, Vals, K) ->
[db_put(Ixt, {{V, K}}) || V <- Vals];
put_index_vals(bag, Ixt, Vals, K) ->
[db_put(Ixt, {V, K}) || V <- Vals].
del_ixes(bag, Ixt, ValsF, Obj, Key) ->
Vals = ValsF(Obj),
[db_match_erase(Ixt, {V, Key}) || V <- Vals];
del_ixes(ordered, Ixt, ValsF, Obj, Key) ->
Vals = ValsF(Obj),
[db_erase(Ixt, {V,Key}) || V <- Vals].
del_object_index(#index{pos_list = PosL, setorbag = SorB}, Storage, Tab, K, Obj) ->
del_object_index2(PosL, SorB, Storage, Tab, K, Obj).
del_object_index2([], _, _Storage, _Tab, _K, _Obj) -> ok;
del_object_index2([{{Pos, Type}, Ixt} | Tail], SoB, Storage, Tab, K, Obj) ->
ValsF = index_vals_f(Storage, Tab, Pos),
case SoB of
bag ->
del_object_bag(Type, ValsF, Tab, K, Obj, Ixt);
_ -> %% If set remove the tuple in index table
del_ixes(Type, Ixt, ValsF, Obj, K)
end,
del_object_index2(Tail, SoB, Storage, Tab, K, Obj).
del_object_bag(Type, ValsF, Tab, Key, Obj, Ixt) ->
IxKeys = ValsF(Obj),
Found = [{X, ValsF(X)} || X <- mnesia_lib:db_get(Tab, Key)],
del_object_bag_(IxKeys, Found, Type, Tab, Key, Obj, Ixt).
del_object_bag_([IxK|IxKs], Found, Type, Tab, Key, Obj, Ixt) ->
case [X || {X, Ixes} <- Found, lists:member(IxK, Ixes)] of
[Old] when Old =:= Obj ->
case Type of
bag ->
db_match_erase(Ixt, {IxK, Key});
ordered ->
db_erase(Ixt, {{IxK, Key}})
end;
_ ->
ok
end,
del_object_bag_(IxKs, Found, Type, Tab, Key, Obj, Ixt);
del_object_bag_([], _, _, _, _, _, _) ->
ok.
clear_index(Index, Tab, K, Obj) ->
clear_index2(Index#index.pos_list, Tab, K, Obj).
clear_index2([], _Tab, _K, _Obj) -> ok;
clear_index2([{_Pos, Ixt} | Tail], Tab, K, Obj) ->
db_match_erase(Ixt, Obj),
clear_index2(Tail, Tab, K, Obj).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
dirty_match_object(Tab, Pat, Pos) when is_integer(Pos) ->
%% Assume that we are on the node where the replica is
%% Cannot use index plugins here, as they don't map to match patterns
case element(2, Pat) of
'_' ->
IxKey = element(Pos, Pat),
RealKeys = realkeys(Tab, Pos, IxKey),
merge(RealKeys, Tab, Pat, []);
_Else ->
mnesia_lib:db_match_object(Tab, Pat)
end.
merge([{_IxKey, RealKey} | Tail], Tab, Pat, Ack) ->
%% Assume that we are on the node where the replica is
Pat2 = setelement(2, Pat, RealKey),
Recs = mnesia_lib:db_match_object(Tab, Pat2),
merge(Tail, Tab, Pat, Recs ++ Ack);
merge([], _, _, Ack) ->
Ack.
realkeys(Tab, Pos, IxKey) ->
Index = get_index_table(Tab, Pos),
db_get(Index, IxKey). % a list on the form [{IxKey, RealKey1} , ....
dirty_select(Tab, Spec, Pos) when is_integer(Pos) ->
%% Assume that we are on the node where the replica is
%% Returns the records without applying the match spec
%% The actual filtering is handled by the caller
IxKey = element(Pos, Spec),
RealKeys = realkeys(Tab, Pos, IxKey),
StorageType = val({Tab, storage_type}),
lists:append([mnesia_lib:db_get(StorageType, Tab, Key) || {_,Key} <- RealKeys]).
dirty_read(Tab, IxKey, Pos) ->
mnesia:dirty_rpc(Tab, ?MODULE, dirty_read2,
[Tab, IxKey, Pos]).
dirty_read2(Tab, IxKey, Pos) ->
#index{pos_list = PosL} = val({Tab, index_info}),
Storage = val({Tab, storage_type}),
{Type, Ixt} = pick_index(PosL, Tab, Pos),
Pat = case Type of
ordered -> [{{{IxKey, '$1'}}, [], ['$1']}];
bag -> [{{IxKey, '$1'}, [], ['$1']}]
end,
Keys = db_select(Ixt, Pat),
ValsF = index_vals_f(Storage, Tab, Pos),
lists:reverse(
lists:foldl(
fun(K, Acc) ->
lists:foldl(
fun(Obj, Acc1) ->
case lists:member(IxKey, ValsF(Obj)) of
true -> [Obj|Acc1];
false -> Acc1
end
end, Acc, mnesia_lib:db_get(Storage, Tab, K))
end, [], Keys)).
pick_index([{{{Pfx,_},IxType}, Ixt}|_], _Tab, {_} = Pfx) ->
{IxType, Ixt};
pick_index([{{Pos,IxType}, Ixt}|_], _Tab, Pos) ->
{IxType, Ixt};
pick_index([_|T], Tab, Pos) ->
pick_index(T, Tab, Pos);
pick_index([], Tab, Pos) ->
mnesia:abort({no_exist, Tab, {index, Pos}}).
%%%%%%% Creation, Init and deletion routines for index tables
%% We can have several indexes on the same table
%% this can be a fairly costly operation if table is *very* large
tab2filename(Tab, {A}) when is_atom(A) ->
mnesia_lib:dir(Tab) ++ "_-" ++ atom_to_list(A) ++ "-.DAT";
tab2filename(Tab, T) when is_tuple(T) ->
tab2filename(Tab, element(1, T));
tab2filename(Tab, Pos) when is_integer(Pos) ->
mnesia_lib:dir(Tab) ++ "_" ++ integer_to_list(Pos) ++ ".DAT".
init_index(Tab, Storage) ->
Cs = val({Tab, cstruct}),
PosList = Cs#cstruct.index,
init_indecies(Tab, Storage, PosList).
init_indecies(Tab, Storage, PosList) ->
case Storage of
unknown ->
ignore;
{ext, Alias, Mod} ->
init_ext_index(Tab, Storage, Alias, Mod, PosList);
disc_only_copies ->
init_disc_index(Tab, Storage, PosList);
ram_copies ->
make_ram_index(Tab, Storage, PosList);
disc_copies ->
make_ram_index(Tab, Storage, PosList)
end.
%% works for both ram and disc indexes
del_index_table(_, unknown, _) ->
ignore;
del_index_table(Tab, Storage, {_} = Pos) ->
delete_transient_index(Tab, Pos, Storage),
mnesia_lib:del({Tab, index}, Pos);
del_index_table(Tab, Storage, Pos) when is_integer(Pos) ->
delete_transient_index(Tab, Pos, Storage),
mnesia_lib:del({Tab, index}, Pos).
del_transient(Tab, Storage) ->
PosList = val({Tab, index}),
del_transient(Tab, PosList, Storage).
del_transient(_, [], _) -> ok;
del_transient(Tab, [Pos | Tail], Storage) ->
delete_transient_index(Tab, Pos, Storage),
del_transient(Tab, Tail, Storage).
delete_transient_index(Tab, Pos, {ext, Alias, Mod}) ->
PosInfo = case Pos of
_ when is_integer(Pos) ->
Cs = val({Tab, cstruct}),
lists:keyfind(Pos, 1, Cs#cstruct.index);
{P, T} -> {P, T}
end,
Tag = {Tab, index, PosInfo},
Mod:close_table(Alias, Tag),
Mod:delete_table(Alias, Tag),
del_index_info(Tab, Pos),
mnesia_lib:unset({Tab, {index, Pos}});
delete_transient_index(Tab, Pos, disc_only_copies) ->
Tag = {Tab, index, Pos},
mnesia_monitor:unsafe_close_dets(Tag),
_ = file:delete(tab2filename(Tab, Pos)),
del_index_info(Tab, Pos), %% Uses val(..)
mnesia_lib:unset({Tab, {index, Pos}});
delete_transient_index(Tab, Pos, _Storage) ->
Ixt = val({Tab, {index, Pos}}),
?ets_delete_table(Ixt),
del_index_info(Tab, Pos),
mnesia_lib:unset({Tab, {index, Pos}}).
%%%%% misc functions for the index create/init/delete functions above
%% assuming that the file exists.
init_disc_index(_Tab, _Storage, []) ->
done;
init_disc_index(Tab, disc_only_copies, [{Pos,_Pref} | Tail]) ->
PosInfo = {Pos, bag},
Fn = tab2filename(Tab, Pos),
IxTag = {Tab, index, PosInfo},
_ = file:delete(Fn),
Args = [{file, Fn}, {keypos, 1}, {type, bag}],
mnesia_monitor:open_dets(IxTag, Args),
Storage = disc_only_copies,
Key = mnesia_lib:db_first(Storage, Tab),
Recs = mnesia_lib:db_get(Storage, Tab, Key),
BinSize = size(term_to_binary(Recs)),
KeysPerChunk = (4000 div BinSize) + 1,
Init = {start, KeysPerChunk},
mnesia_lib:db_fixtable(Storage, Tab, true),
ok = dets:init_table(IxTag, create_fun(Init, Tab, Pos)),
mnesia_lib:db_fixtable(Storage, Tab, false),
mnesia_lib:set({Tab, {index, PosInfo}}, IxTag),
add_index_info(Tab, val({Tab, setorbag}), {PosInfo, {dets, IxTag}}),
init_disc_index(Tab, Storage, Tail).
init_ext_index(_, _, _, _, []) ->
done;
init_ext_index(Tab, Storage, Alias, Mod, [{Pos,Type} | Tail]) ->
PosInfo = {Pos, Type},
IxTag = {Tab, index, PosInfo},
CS = val({Tab, cstruct}),
CsList = mnesia_schema:cs2list(CS),
_Res = mnesia_monitor:unsafe_create_external(IxTag, Alias, Mod, CsList),
Mod:load_table(Alias, IxTag, init_index, CsList),
case Mod:is_index_consistent(Alias, IxTag) of
false ->
Mod:index_is_consistent(Alias, IxTag, false),
Mod:match_delete(Alias, IxTag, '_'),
IxValsF = index_vals_f(Storage, Tab, Pos),
IxObjF = case Type of
bag -> fun(IxVal, Key) -> {IxVal, Key} end;
ordered -> fun(IxVal, Key) -> {{IxVal, Key}} end
end,
mnesia_lib:db_fixtable(Storage, Tab, true),
mnesia_lib:db_foldl(
Storage,
fun(Rec, Acc) ->
Key = element(2, Rec),
lists:foreach(
fun(V) ->
IxObj = IxObjF(V, Key),
Mod:insert(Alias, IxTag, IxObj)
end, IxValsF(Rec)),
Acc
end, ok, Tab,
[{'_', [], ['$_']}], 100),
Mod:index_is_consistent(Alias, IxTag, true);
true ->
ignore
end,
mnesia_lib:set({Tab, {index, PosInfo}}, IxTag),
add_index_info(Tab, val({Tab, setorbag}), {PosInfo, {Storage, IxTag}}),
init_ext_index(Tab, Storage, Alias, Mod, Tail).
create_fun(Cont, Tab, Pos) ->
IxF = index_vals_f(disc_only_copies, Tab, Pos),
fun(read) ->
Data =
case Cont of
{start, KeysPerChunk} ->
mnesia_lib:db_init_chunk(
disc_only_copies, Tab, KeysPerChunk);
'$end_of_table' ->
'$end_of_table';
_Else ->
mnesia_lib:db_chunk(disc_only_copies, Cont)
end,
case Data of
'$end_of_table' ->
end_of_input;
{Recs, Next} ->
IdxElems = lists:flatmap(
fun(Obj) ->
PrimK = element(2, Obj),
[{V, PrimK} || V <- IxF(Obj)]
end, Recs),
{IdxElems, create_fun(Next, Tab, Pos)}
end;
(close) ->
ok
end.
make_ram_index(_, _, []) ->
done;
make_ram_index(Tab, Storage, [Pos | Tail]) ->
add_ram_index(Tab, Storage, Pos),
make_ram_index(Tab, Storage, Tail).
add_ram_index(Tab, Storage, {Pos, _Pref}) ->
Type = ordered,
verbose("Creating index for ~w ~p ~p~n", [Tab, Pos, Type]),
SetOrBag = val({Tab, setorbag}),
IxValsF = index_vals_f(Storage, Tab, Pos),
IxFun = fun(Val, Key) -> {{Val, Key}} end,
Index = mnesia_monitor:mktab(mnesia_index, [ordered_set, public]),
Insert = fun(Rec, _Acc) ->
PrimK = element(2, Rec),
true = ?ets_insert(
Index, [IxFun(V, PrimK)
|| V <- IxValsF(Rec)])
end,
mnesia_lib:db_fixtable(ram_copies, Tab, true),
true = mnesia_lib:db_foldl(Storage, Insert, true, Tab),
mnesia_lib:db_fixtable(ram_copies, Tab, false),
mnesia_lib:set({Tab, {index, Pos}}, Index),
add_index_info(Tab, SetOrBag, {{Pos, Type}, {ram, Index}});
add_ram_index(_Tab, _, snmp) ->
ok.
index_info(SetOrBag, PosList) ->
IxPlugins = mnesia_schema:index_plugins(),
ExpPosList = lists:map(
fun({{P,Type},Ixt} = PI) ->
case P of
{_} = IxN ->
{_, M, F} =
lists:keyfind(IxN, 1, IxPlugins),
{{{IxN,M,F}, Type}, Ixt};
_ ->
PI
end
end, PosList),
#index{setorbag = SetOrBag, pos_list = ExpPosList}.
add_index_info(Tab, SetOrBag, IxElem) ->
Commit = val({Tab, commit_work}),
case lists:keysearch(index, 1, Commit) of
false ->
IndexInfo = index_info(SetOrBag, [IxElem]),
%% Check later if mnesia_tm is sensitive about the order
mnesia_lib:set({Tab, index_info}, IndexInfo),
mnesia_lib:set({Tab, index}, index_positions(IndexInfo)),
mnesia_lib:set({Tab, commit_work},
mnesia_lib:sort_commit([IndexInfo | Commit]));
{value, Old} ->
%% We could check for consistency here
Index = Old#index{pos_list = [IxElem | Old#index.pos_list]},
mnesia_lib:set({Tab, index_info}, Index),
mnesia_lib:set({Tab, index}, index_positions(Index)),
NewC = lists:keyreplace(index, 1, Commit, Index),
mnesia_lib:set({Tab, commit_work},
mnesia_lib:sort_commit(NewC))
end.
index_positions(#index{pos_list = PL}) ->
[P || {{P,_},_} <- PL].
del_index_info(Tab, Pos) ->
Commit = val({Tab, commit_work}),
case lists:keysearch(index, 1, Commit) of
false ->
%% Something is wrong ignore
skip;
{value, Old} ->
case lists:filter(fun({P,_}) ->
element(1,P)=/=Pos
end,
Old#index.pos_list) of
[] ->
IndexInfo = index_info(Old#index.setorbag,[]),
mnesia_lib:set({Tab, index_info}, IndexInfo),
mnesia_lib:set({Tab, index}, index_positions(IndexInfo)),
NewC = lists:keydelete(index, 1, Commit),
mnesia_lib:set({Tab, commit_work},
mnesia_lib:sort_commit(NewC));
New ->
Index = Old#index{pos_list = New},
mnesia_lib:set({Tab, index_info}, Index),
mnesia_lib:set({Tab, index}, index_positions(Index)),
NewC = lists:keyreplace(index, 1, Commit, Index),
mnesia_lib:set({Tab, commit_work},
mnesia_lib:sort_commit(NewC))
end
end.
db_put({ram, Ixt}, V) ->
true = ?ets_insert(Ixt, V);
db_put({{ext, _, _} = Ext, Ixt}, V) ->
mnesia_lib:db_put(Ext, Ixt, V);
db_put({dets, Ixt}, V) ->
ok = dets:insert(Ixt, V).
db_get({ram, _}=Ixt, IxKey) ->
Pat = [{{{IxKey, '$1'}}, [], [{element, 1, '$_'}]}],
db_select(Ixt, Pat);
db_get({{ext,_,_} = _Storage, {_,_,{_,Type}}} = Ixt, IxKey) ->
Pat = case Type of
ordered -> [{{{IxKey, '$1'}}, [], [{element, 1, '$_'}]}];
bag -> [{{IxKey, '_'}, [], ['$_']}]
end,
db_select(Ixt, Pat);
db_get({dets, Ixt}, K) ->
dets:lookup(Ixt, K).
db_erase({ram, Ixt}, K) ->
?ets_delete(Ixt, K);
db_erase({{ext,_,_} = Ext, Ixt}, K) ->
mnesia_lib:db_erase(Ext, Ixt, K);
db_erase({dets, Ixt}, K) ->
dets:delete(Ixt, K).
db_match_erase({ram, Ixt}, Pat) ->
true = ?ets_match_delete(Ixt, Pat);
db_match_erase({{ext,_,_} = Ext, Ixt}, Pat) ->
mnesia_lib:db_match_erase(Ext, Ixt, Pat);
db_match_erase({dets, Ixt}, Pat) ->
ok = dets:match_delete(Ixt, Pat).
db_select({ram, Ixt}, Pat) ->
ets:select(Ixt, Pat);
db_select({{ext,_,_} = Ext, Ixt}, Pat) ->
mnesia_lib:db_select(Ext, Ixt, Pat);
db_select({dets, Ixt}, Pat) ->
dets:select(Ixt, Pat).
get_index_table(Tab, Pos) ->
get_index_table(Tab, val({Tab, storage_type}), Pos).
get_index_table(Tab, _Storage, Pos) ->
#index{pos_list = PosL} = val({Tab, index_info}),
{_IxType, Ixt} = pick_index(PosL, Tab, Pos),
Ixt.
index_vals_f(Storage, Tab, {_} = Pos) ->
index_vals_f(Storage, Tab,
lists:keyfind(Pos, 1, mnesia_schema:index_plugins()));
index_vals_f(_Storage, Tab, {Pos,M,F}) ->
fun(Obj) ->
M:F(Tab, Pos, Obj)
end;
index_vals_f(Storage, Tab, Pos) when is_integer(Pos) ->
case mnesia_lib:semantics(Storage, index_fun) of
undefined ->
fun(Obj) ->
[element(Pos, Obj)]
end;
F when is_function(F, 4) ->
{ext, Alias, _Mod} = Storage,
fun(Obj) ->
F(Alias, Tab, Pos, Obj)
end
end.
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