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mirror of https://github.com/processone/ejabberd.git synced 2024-12-26 17:38:45 +01:00
xmpp.chapril.org-ejabberd/src/ejabberd_mnesia.erl
2019-01-08 22:53:27 +01:00

474 lines
14 KiB
Erlang

%%%----------------------------------------------------------------------
%%% File : mnesia_mnesia.erl
%%% Author : Christophe Romain <christophe.romain@process-one.net>
%%% Purpose : Handle configurable mnesia schema
%%% Created : 17 Nov 2016 by Christophe Romain <christophe.romain@process-one.net>
%%%
%%%
%%% ejabberd, Copyright (C) 2002-2019 ProcessOne
%%%
%%% This program is free software; you can redistribute it and/or
%%% modify it under the terms of the GNU General Public License as
%%% published by the Free Software Foundation; either version 2 of the
%%% License, or (at your option) any later version.
%%%
%%% This program is distributed in the hope that it will be useful,
%%% but WITHOUT ANY WARRANTY; without even the implied warranty of
%%% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
%%% General Public License for more details.
%%%
%%% You should have received a copy of the GNU General Public License along
%%% with this program; if not, write to the Free Software Foundation, Inc.,
%%% 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
%%%
%%%----------------------------------------------------------------------
%%% This module should be used everywhere ejabberd creates a mnesia table
%%% to make the schema customizable without code change
%%% Just apply this change in ejabberd modules
%%% s/ejabberd_mnesia:create(?MODULE, /ejabberd_mnesia:create(?MODULE, /
-module(ejabberd_mnesia).
-author('christophe.romain@process-one.net').
-behaviour(gen_server).
-export([start/0, create/3, update/2, transform/2, transform/3,
dump_schema/0]).
%% gen_server callbacks
-export([init/1, handle_call/3, handle_cast/2, handle_info/2,
terminate/2, code_change/3]).
-define(STORAGE_TYPES, [disc_copies, disc_only_copies, ram_copies]).
-define(NEED_RESET, [local_content, type]).
-include("logger.hrl").
-include("ejabberd_stacktrace.hrl").
-record(state, {tables = #{} :: map(),
schema = [] :: [{atom(), [{atom(), any()}]}]}).
start() ->
gen_server:start_link({local, ?MODULE}, ?MODULE, [], []).
-spec create(module(), atom(), list()) -> any().
create(Module, Name, TabDef) ->
gen_server:call(?MODULE, {create, Module, Name, TabDef},
%% Huge timeout is need to have enough
%% time to transform huge tables
timer:minutes(30)).
init([]) ->
ejabberd_config:env_binary_to_list(mnesia, dir),
MyNode = node(),
DbNodes = mnesia:system_info(db_nodes),
case lists:member(MyNode, DbNodes) of
true ->
case mnesia:system_info(extra_db_nodes) of
[] -> mnesia:create_schema([node()]);
_ -> ok
end,
ejabberd:start_app(mnesia, permanent),
?DEBUG("Waiting for Mnesia tables synchronization...", []),
mnesia:wait_for_tables(mnesia:system_info(local_tables), infinity),
Schema = read_schema_file(),
{ok, #state{schema = Schema}};
false ->
?CRITICAL_MSG("Node name mismatch: I'm [~s], "
"the database is owned by ~p", [MyNode, DbNodes]),
?CRITICAL_MSG("Either set ERLANG_NODE in ejabberdctl.cfg "
"or change node name in Mnesia", []),
{stop, node_name_mismatch}
end.
handle_call({create, Module, Name, TabDef}, _From, State) ->
case maps:get(Name, State#state.tables, undefined) of
{TabDef, Result} ->
{reply, Result, State};
_ ->
Result = do_create(Module, Name, TabDef, State#state.schema),
Tables = maps:put(Name, {TabDef, Result}, State#state.tables),
{reply, Result, State#state{tables = Tables}}
end;
handle_call(_Request, _From, State) ->
{noreply, State}.
handle_cast(_Msg, State) ->
{noreply, State}.
handle_info(_Info, State) ->
{noreply, State}.
terminate(_Reason, _State) ->
ok.
code_change(_OldVsn, State, _Extra) ->
{ok, State}.
do_create(Module, Name, TabDef, TabDefs) ->
code:ensure_loaded(Module),
Schema = schema(Name, TabDef, TabDefs),
{attributes, Attrs} = lists:keyfind(attributes, 1, Schema),
case catch mnesia:table_info(Name, attributes) of
{'EXIT', _} ->
create(Name, TabDef);
Attrs ->
case need_reset(Name, Schema) of
true ->
reset(Name, Schema);
false ->
case update(Name, Attrs, Schema) of
{atomic, ok} ->
transform(Module, Name, Attrs, Attrs);
Err ->
Err
end
end;
OldAttrs ->
transform(Module, Name, OldAttrs, Attrs)
end.
reset(Name, TabDef) ->
?INFO_MSG("Deleting Mnesia table '~s'", [Name]),
mnesia_op(delete_table, [Name]),
create(Name, TabDef).
update(Name, TabDef) ->
{attributes, Attrs} = lists:keyfind(attributes, 1, TabDef),
update(Name, Attrs, TabDef).
update(Name, Attrs, TabDef) ->
case change_table_copy_type(Name, TabDef) of
{atomic, ok} ->
CurrIndexes = [lists:nth(N-1, Attrs) ||
N <- mnesia:table_info(Name, index)],
NewIndexes = proplists:get_value(index, TabDef, []),
case delete_indexes(Name, CurrIndexes -- NewIndexes) of
{atomic, ok} ->
add_indexes(Name, NewIndexes -- CurrIndexes);
Err ->
Err
end;
Err ->
Err
end.
change_table_copy_type(Name, TabDef) ->
CurrType = mnesia:table_info(Name, storage_type),
NewType = case lists:filter(fun is_storage_type_option/1, TabDef) of
[{Type, _}|_] -> Type;
[] -> CurrType
end,
if NewType /= CurrType ->
?INFO_MSG("Changing Mnesia table '~s' from ~s to ~s",
[Name, CurrType, NewType]),
mnesia_op(change_table_copy_type, [Name, node(), NewType]);
true ->
{atomic, ok}
end.
delete_indexes(Name, [Index|Indexes]) ->
?INFO_MSG("Deleting index '~s' from Mnesia table '~s'", [Index, Name]),
case mnesia_op(del_table_index, [Name, Index]) of
{atomic, ok} ->
delete_indexes(Name, Indexes);
Err ->
Err
end;
delete_indexes(_Name, []) ->
{atomic, ok}.
add_indexes(Name, [Index|Indexes]) ->
?INFO_MSG("Adding index '~s' to Mnesia table '~s'", [Index, Name]),
case mnesia_op(add_table_index, [Name, Index]) of
{atomic, ok} ->
add_indexes(Name, Indexes);
Err ->
Err
end;
add_indexes(_Name, []) ->
{atomic, ok}.
%
% utilities
%
schema(Name, Default, Schema) ->
case lists:keyfind(Name, 1, Schema) of
{_, Custom} ->
TabDefs = merge(Custom, Default),
?DEBUG("Using custom schema for table '~s': ~p",
[Name, TabDefs]),
TabDefs;
false ->
?DEBUG("No custom Mnesia schema for table '~s' found",
[Name]),
Default
end.
read_schema_file() ->
File = schema_path(),
case fast_yaml:decode_from_file(File, [plain_as_atom]) of
{ok, [Defs|_]} ->
?INFO_MSG("Using custom Mnesia schema from ~s", [File]),
lists:flatmap(
fun({Tab, Opts}) ->
case validate_schema_opts(File, Opts) of
{ok, NewOpts} ->
[{Tab, lists:ukeysort(1, NewOpts)}];
error ->
[]
end
end, Defs);
{ok, []} ->
?WARNING_MSG("Mnesia schema file ~s is empty", [File]),
[];
{error, enoent} ->
?DEBUG("No custom Mnesia schema file found", []),
[];
{error, Reason} ->
?ERROR_MSG("Failed to read Mnesia schema file ~s: ~s",
[File, fast_yaml:format_error(Reason)]),
[]
end.
validate_schema_opts(File, Opts) ->
try {ok, lists:map(
fun({storage_type, Type}) when Type == ram_copies;
Type == disc_copies;
Type == disc_only_copies ->
{Type, [node()]};
({storage_type, _} = Opt) ->
erlang:error({invalid_value, Opt});
({local_content, Bool}) when is_boolean(Bool) ->
{local_content, Bool};
({local_content, _} = Opt) ->
erlang:error({invalid_value, Opt});
({type, Type}) when Type == set;
Type == ordered_set;
Type == bag ->
{type, Type};
({type, _} = Opt) ->
erlang:error({invalid_value, Opt});
({attributes, Attrs} = Opt) ->
try lists:all(fun is_atom/1, Attrs) of
true -> {attributes, Attrs};
false -> erlang:error({invalid_value, Opt})
catch _:_ -> erlang:error({invalid_value, Opt})
end;
({index, Indexes} = Opt) ->
try lists:all(fun is_atom/1, Indexes) of
true -> {index, Indexes};
false -> erlang:error({invalid_value, Opt})
catch _:_ -> erlang:error({invalid_value, Opt})
end;
(Opt) ->
erlang:error({unknown_option, Opt})
end, Opts)}
catch _:{invalid_value, {Opt, Val}} ->
?ERROR_MSG("Mnesia schema ~s is incorrect: invalid value ~p of "
"option '~s'", [File, Val, Opt]),
error;
_:{unknown_option, Opt} ->
?ERROR_MSG("Mnesia schema ~s is incorrect: unknown option ~p",
[File, Opt]),
error
end.
create(Name, TabDef) ->
?INFO_MSG("Creating Mnesia table '~s'", [Name]),
case mnesia_op(create_table, [Name, TabDef]) of
{atomic, ok} ->
add_table_copy(Name);
Err ->
Err
end.
%% The table MUST exist, otherwise the function would fail
add_table_copy(Name) ->
Type = mnesia:table_info(Name, storage_type),
Nodes = mnesia:table_info(Name, Type),
case lists:member(node(), Nodes) of
true ->
{atomic, ok};
false ->
mnesia_op(add_table_copy, [Name, node(), Type])
end.
merge(Custom, Default) ->
NewDefault = case lists:any(fun is_storage_type_option/1, Custom) of
true ->
lists:filter(
fun(O) ->
not is_storage_type_option(O)
end, Default);
false ->
Default
end,
lists:ukeymerge(1, Custom, lists:ukeysort(1, NewDefault)).
need_reset(Table, TabDef) ->
ValuesF = [mnesia:table_info(Table, Key) || Key <- ?NEED_RESET],
ValuesT = [proplists:get_value(Key, TabDef) || Key <- ?NEED_RESET],
lists:foldl(
fun({Val, Val}, Acc) -> Acc;
({_, undefined}, Acc) -> Acc;
({_, _}, _) -> true
end, false, lists:zip(ValuesF, ValuesT)).
transform(Module, Name) ->
try mnesia:table_info(Name, attributes) of
Attrs ->
transform(Module, Name, Attrs, Attrs)
catch _:{aborted, _} = Err ->
Err
end.
transform(Module, Name, NewAttrs) ->
try mnesia:table_info(Name, attributes) of
OldAttrs ->
transform(Module, Name, OldAttrs, NewAttrs)
catch _:{aborted, _} = Err ->
Err
end.
transform(Module, Name, Attrs, Attrs) ->
case need_transform(Module, Name) of
true ->
?INFO_MSG("Transforming table '~s', this may take a while", [Name]),
transform_table(Module, Name);
false ->
{atomic, ok}
end;
transform(Module, Name, OldAttrs, NewAttrs) ->
Fun = case erlang:function_exported(Module, transform, 1) of
true -> transform_fun(Module, Name);
false -> fun(Old) -> do_transform(OldAttrs, NewAttrs, Old) end
end,
mnesia_op(transform_table, [Name, Fun, NewAttrs]).
-spec need_transform(module(), atom()) -> boolean().
need_transform(Module, Name) ->
case erlang:function_exported(Module, need_transform, 1) of
true ->
do_need_transform(Module, Name, mnesia:dirty_first(Name));
false ->
false
end.
do_need_transform(_Module, _Name, '$end_of_table') ->
false;
do_need_transform(Module, Name, Key) ->
Objs = mnesia:dirty_read(Name, Key),
case lists:foldl(
fun(_, true) -> true;
(Obj, _) -> Module:need_transform(Obj)
end, undefined, Objs) of
true -> true;
false -> false;
_ ->
do_need_transform(Module, Name, mnesia:dirty_next(Name, Key))
end.
do_transform(OldAttrs, Attrs, Old) ->
[Name|OldValues] = tuple_to_list(Old),
Before = lists:zip(OldAttrs, OldValues),
After = lists:foldl(
fun(Attr, Acc) ->
case lists:keyfind(Attr, 1, Before) of
false -> [{Attr, undefined}|Acc];
Value -> [Value|Acc]
end
end, [], lists:reverse(Attrs)),
{Attrs, NewRecord} = lists:unzip(After),
list_to_tuple([Name|NewRecord]).
transform_fun(Module, Name) ->
fun(Obj) ->
try Module:transform(Obj)
catch ?EX_RULE(E, R, St) ->
StackTrace = ?EX_STACK(St),
?ERROR_MSG("Failed to transform Mnesia table ~s:~n"
"** Record: ~p~n"
"** Reason: ~p~n"
"** StackTrace: ~p",
[Name, Obj, R, StackTrace]),
erlang:raise(E, R, StackTrace)
end
end.
transform_table(Module, Name) ->
Type = mnesia:table_info(Name, type),
Attrs = mnesia:table_info(Name, attributes),
TmpTab = list_to_atom(atom_to_list(Name) ++ "_backup"),
StorageType = if Type == ordered_set -> disc_copies;
true -> disc_only_copies
end,
mnesia:create_table(TmpTab,
[{StorageType, [node()]},
{type, Type},
{local_content, true},
{record_name, Name},
{attributes, Attrs}]),
mnesia:clear_table(TmpTab),
Fun = transform_fun(Module, Name),
Res = mnesia_op(
transaction,
[fun() -> do_transform_table(Name, Fun, TmpTab, mnesia:first(Name)) end]),
mnesia:delete_table(TmpTab),
Res.
do_transform_table(Name, _Fun, TmpTab, '$end_of_table') ->
mnesia:foldl(
fun(Obj, _) ->
mnesia:write(Name, Obj, write)
end, ok, TmpTab);
do_transform_table(Name, Fun, TmpTab, Key) ->
Next = mnesia:next(Name, Key),
Objs = mnesia:read(Name, Key),
lists:foreach(
fun(Obj) ->
mnesia:write(TmpTab, Fun(Obj), write),
mnesia:delete_object(Obj)
end, Objs),
do_transform_table(Name, Fun, TmpTab, Next).
mnesia_op(Fun, Args) ->
case apply(mnesia, Fun, Args) of
{atomic, ok} ->
{atomic, ok};
Other ->
?ERROR_MSG("failure on mnesia ~s ~p: ~p",
[Fun, Args, Other]),
Other
end.
schema_path() ->
Dir = case os:getenv("EJABBERD_MNESIA_SCHEMA") of
false -> mnesia:system_info(directory);
Path -> Path
end,
filename:join(Dir, "ejabberd.schema").
is_storage_type_option({O, _}) ->
O == ram_copies orelse O == disc_copies orelse O == disc_only_copies.
dump_schema() ->
File = schema_path(),
Schema = lists:flatmap(
fun(schema) ->
[];
(Tab) ->
[{Tab, [{storage_type,
mnesia:table_info(Tab, storage_type)},
{local_content,
mnesia:table_info(Tab, local_content)}]}]
end, mnesia:system_info(tables)),
case file:write_file(File, [fast_yaml:encode(Schema), io_lib:nl()]) of
ok ->
io:format("Mnesia schema is written to ~s~n", [File]);
{error, Reason} ->
io:format("Failed to write Mnesia schema to ~s: ~s",
[File, file:format_error(Reason)])
end.