src/fabric_doc_update.erl - couchdb-fabric - Git at Google

 % 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.

 -module(fabric_doc_update).

 -export([go/3]).

 -include_lib("fabric/include/fabric.hrl").
 -include_lib("mem3/include/mem3.hrl").
 -include_lib("couch/include/couch_db.hrl").

 go(_, [], _) ->
     {ok, []};
 go(DbName, AllDocs0, Opts) ->
     AllDocs1 = before_doc_update(DbName, AllDocs0, Opts),
     AllDocs = tag_docs(AllDocs1),
     validate_atomic_update(DbName, AllDocs, lists:member(all_or_nothing, Opts)),
     Options = lists:delete(all_or_nothing, Opts),
     GroupedDocs = lists:map(fun({#shard{name=Name, node=Node} = Shard, Docs}) ->
         Docs1 = untag_docs(Docs),
         Ref = rexi:cast(Node, {fabric_rpc, update_docs, [Name,Docs1,Options]}),
         {Shard#shard{ref=Ref}, Docs}
     end, group_docs_by_shard(DbName, AllDocs)),
     {Workers, _} = lists:unzip(GroupedDocs),
     RexiMon = fabric_util:create_monitors(Workers),
     W = couch_util:get_value(w, Options, integer_to_list(mem3:quorum(DbName))),
     Acc0 = {length(Workers), length(AllDocs), list_to_integer(W), GroupedDocs,
         dict:new()},
     Timeout = fabric_util:request_timeout(),
     try rexi_utils:recv(Workers, #shard.ref, fun handle_message/3, Acc0, infinity, Timeout) of
     {ok, {Health, Results}} when Health =:= ok; Health =:= accepted ->
         {Health, [R || R <- couch_util:reorder_results(AllDocs, Results), R =/= noreply]};
     {timeout, Acc} ->
         {_, _, W1, GroupedDocs1, DocReplDict} = Acc,
         {DefunctWorkers, _} = lists:unzip(GroupedDocs1),
         fabric_util:log_timeout(DefunctWorkers, "update_docs"),
         {Health, _, Resp} = dict:fold(fun force_reply/3, {ok, W1, []},
             DocReplDict),
         {Health, [R || R <- couch_util:reorder_results(AllDocs, Resp), R =/= noreply]};
     Else ->
         Else
     after
         rexi_monitor:stop(RexiMon)
     end.

 handle_message({rexi_DOWN, _, {_,NodeRef},_}, _Worker, Acc0) ->
     {_, LenDocs, W, GroupedDocs, DocReplyDict} = Acc0,
     NewGrpDocs = [X || {#shard{node=N}, _} = X <- GroupedDocs, N =/= NodeRef],
     skip_message({length(NewGrpDocs), LenDocs, W, NewGrpDocs, DocReplyDict});

 handle_message({rexi_EXIT, _}, Worker, Acc0) ->
     {WC,LenDocs,W,GrpDocs,DocReplyDict} = Acc0,
     NewGrpDocs = lists:keydelete(Worker,1,GrpDocs),
     skip_message({WC-1,LenDocs,W,NewGrpDocs,DocReplyDict});
 handle_message(internal_server_error, Worker, Acc0) ->
     % happens when we fail to load validation functions in an RPC worker
     {WC,LenDocs,W,GrpDocs,DocReplyDict} = Acc0,
     NewGrpDocs = lists:keydelete(Worker,1,GrpDocs),
     skip_message({WC-1,LenDocs,W,NewGrpDocs,DocReplyDict});
 handle_message(attachment_chunk_received, _Worker, Acc0) ->
     {ok, Acc0};
 handle_message({ok, Replies}, Worker, Acc0) ->
     {WaitingCount, DocCount, W, GroupedDocs, DocReplyDict0} = Acc0,
     {value, {_, Docs}, NewGrpDocs} = lists:keytake(Worker, 1, GroupedDocs),
     DocReplyDict = append_update_replies(Docs, Replies, DocReplyDict0),
     case {WaitingCount, dict:size(DocReplyDict)} of
     {1, _} ->
         % last message has arrived, we need to conclude things
         {Health, W, Reply} = dict:fold(fun force_reply/3, {ok, W, []},
            DocReplyDict),
         {stop, {Health, Reply}};
     {_, DocCount} ->
         % we've got at least one reply for each document, let's take a look
         case dict:fold(fun maybe_reply/3, {stop,W,[]}, DocReplyDict) of
         continue ->
             {ok, {WaitingCount - 1, DocCount, W, NewGrpDocs, DocReplyDict}};
         {stop, W, FinalReplies} ->
             {stop, {ok, FinalReplies}}
         end;
     _ ->
         {ok, {WaitingCount - 1, DocCount, W, NewGrpDocs, DocReplyDict}}
     end;
 handle_message({missing_stub, Stub}, _, _) ->
     throw({missing_stub, Stub});
 handle_message({not_found, no_db_file} = X, Worker, Acc0) ->
     {_, _, _, GroupedDocs, _} = Acc0,
     Docs = couch_util:get_value(Worker, GroupedDocs),
     handle_message({ok, [X || _D <- Docs]}, Worker, Acc0);
 handle_message({bad_request, Msg}, _, _) ->
     throw({bad_request, Msg}).

 before_doc_update(DbName, Docs, Opts) ->
     case {fabric_util:is_replicator_db(DbName), fabric_util:is_users_db(DbName)} of
         {true, _} ->
             %% fake db is expensive to create so we only do it if we have to
             Db = fabric_util:fake_db(DbName, Opts),
             [couch_replicator_manager:before_doc_update(Doc, Db) || Doc <- Docs];
         {_, true} ->
             %% fake db is expensive to create so we only do it if we have to
             Db = fabric_util:fake_db(DbName, Opts),
             [couch_users_db:before_doc_update(Doc, Db) || Doc <- Docs];
         _ ->
             Docs
     end.

 tag_docs([]) ->
     [];
 tag_docs([#doc{meta=Meta}=Doc | Rest]) ->
     [Doc#doc{meta=[{ref, make_ref()} | Meta]} | tag_docs(Rest)].

 untag_docs([]) ->
     [];
 untag_docs([#doc{meta=Meta}=Doc | Rest]) ->
     [Doc#doc{meta=lists:keydelete(ref, 1, Meta)} | untag_docs(Rest)].

 force_reply(Doc, [], {_, W, Acc}) ->
     {error, W, [{Doc, {error, internal_server_error}} | Acc]};
 force_reply(Doc, [FirstReply|_] = Replies, {Health, W, Acc}) ->
     case update_quorum_met(W, Replies) of
     {true, Reply} ->
         {Health, W, [{Doc,Reply} | Acc]};
     false ->
         case [Reply || {ok, Reply} <- Replies] of
         [] ->
             % check if all errors are identical, if so inherit health
             case lists:all(fun(E) -> E =:= FirstReply end, Replies) of
             true ->
                 CounterKey = [fabric, doc_update, errors],
                 couch_stats:increment_counter(CounterKey),
                 {Health, W, [{Doc, FirstReply} | Acc]};
             false ->
                 CounterKey = [fabric, doc_update, mismatched_errors],
                 couch_stats:increment_counter(CounterKey),
                 {error, W, [{Doc, FirstReply} | Acc]}
             end;
         [AcceptedRev | _] ->
             CounterKey = [fabric, doc_update, write_quorum_errors],
             couch_stats:increment_counter(CounterKey),
             NewHealth = case Health of ok -> accepted; _ -> Health end,
             {NewHealth, W, [{Doc, {accepted,AcceptedRev}} | Acc]}
         end
     end.

 maybe_reply(_, _, continue) ->
     % we didn't meet quorum for all docs, so we're fast-forwarding the fold
     continue;
 maybe_reply(Doc, Replies, {stop, W, Acc}) ->
     case update_quorum_met(W, Replies) of
     {true, Reply} ->
         {stop, W, [{Doc, Reply} | Acc]};
     false ->
         continue
     end.

 update_quorum_met(W, Replies) ->
     Counters = lists:foldl(fun(R,D) -> orddict:update_counter(R,1,D) end,
         orddict:new(), Replies),
     GoodReplies = lists:filter(fun good_reply/1, Counters),
     case lists:dropwhile(fun({_, Count}) -> Count < W end, GoodReplies) of
     [] ->
         false;
     [{FinalReply, _} | _] ->
         {true, FinalReply}
     end.

 good_reply({{ok, _}, _}) ->
     true;
 good_reply({noreply, _}) ->
     true;
 good_reply(_) ->
     false.

 -spec group_docs_by_shard(binary(), [#doc{}]) -> [{#shard{}, [#doc{}]}].
 group_docs_by_shard(DbName, Docs) ->
     dict:to_list(lists:foldl(fun(#doc{id=Id} = Doc, D0) ->
         lists:foldl(fun(Shard, D1) ->
             dict:append(Shard, Doc, D1)
         end, D0, mem3:shards(DbName,Id))
     end, dict:new(), Docs)).

 append_update_replies([], [], DocReplyDict) ->
     DocReplyDict;
 append_update_replies([Doc|Rest], [], Dict0) ->
     % icky, if replicated_changes only errors show up in result
     append_update_replies(Rest, [], dict:append(Doc, noreply, Dict0));
 append_update_replies([Doc|Rest1], [Reply|Rest2], Dict0) ->
     append_update_replies(Rest1, Rest2, dict:append(Doc, Reply, Dict0)).

 skip_message({0, _, W, _, DocReplyDict}) ->
     {Health, W, Reply} = dict:fold(fun force_reply/3, {ok, W, []}, DocReplyDict),
     {stop, {Health, Reply}};
 skip_message(Acc0) ->
     {ok, Acc0}.

 validate_atomic_update(_, _, false) ->
     ok;
 validate_atomic_update(_DbName, AllDocs, true) ->
     % TODO actually perform the validation.  This requires some hackery, we need
     % to basically extract the prep_and_validate_updates function from couch_db
     % and only run that, without actually writing in case of a success.
     Error = {not_implemented, <<"all_or_nothing is not supported">>},
     PreCommitFailures = lists:map(fun(#doc{id=Id, revs = {Pos,Revs}}) ->
         case Revs of [] -> RevId = <<>>; [RevId|_] -> ok end,
         {{Id, {Pos, RevId}}, Error}
     end, AllDocs),
     throw({aborted, PreCommitFailures}).

 % eunits
 doc_update1_test() ->
     meck:new(couch_stats),
     meck:expect(couch_stats, increment_counter, fun(_) -> ok end),
     meck:new(couch_log),
     meck:expect(couch_log, warning, fun(_,_) -> ok end),

     Doc1 = #doc{revs = {1,[<<"foo">>]}},
     Doc2 = #doc{revs = {1,[<<"bar">>]}},
     Docs = [Doc1],
     Docs2 = [Doc2, Doc1],
     Dict = dict:from_list([{Doc,[]} || Doc <- Docs]),
     Dict2 = dict:from_list([{Doc,[]} || Doc <- Docs2]),

     Shards =
         mem3_util:create_partition_map("foo",3,1,["node1","node2","node3"]),
     GroupedDocs = group_docs_by_shard_hack(<<"foo">>,Shards,Docs),


     % test for W = 2
     AccW2 = {length(Shards), length(Docs), list_to_integer("2"), GroupedDocs,
         Dict},

     {ok,{WaitingCountW2_1,_,_,_,_}=AccW2_1} =
         handle_message({ok, [{ok, Doc1}]},hd(Shards),AccW2),
     ?assertEqual(WaitingCountW2_1,2),
     {stop, FinalReplyW2 } =
         handle_message({ok, [{ok, Doc1}]},lists:nth(2,Shards),AccW2_1),
     ?assertEqual({ok, [{Doc1, {ok,Doc1}}]},FinalReplyW2),

     % test for W = 3
     AccW3 = {length(Shards), length(Docs), list_to_integer("3"), GroupedDocs,
         Dict},

     {ok,{WaitingCountW3_1,_,_,_,_}=AccW3_1} =
         handle_message({ok, [{ok, Doc1}]},hd(Shards),AccW3),
     ?assertEqual(WaitingCountW3_1,2),

     {ok,{WaitingCountW3_2,_,_,_,_}=AccW3_2} =
         handle_message({ok, [{ok, Doc1}]},lists:nth(2,Shards),AccW3_1),
     ?assertEqual(WaitingCountW3_2,1),

     {stop, FinalReplyW3 } =
         handle_message({ok, [{ok, Doc1}]},lists:nth(3,Shards),AccW3_2),
     ?assertEqual({ok, [{Doc1, {ok,Doc1}}]},FinalReplyW3),

     % test w quorum > # shards, which should fail immediately

     Shards2 = mem3_util:create_partition_map("foo",1,1,["node1"]),
     GroupedDocs2 = group_docs_by_shard_hack(<<"foo">>,Shards2,Docs),

     AccW4 =
         {length(Shards2), length(Docs), list_to_integer("2"), GroupedDocs2, Dict},
     Bool =
     case handle_message({ok, [{ok, Doc1}]},hd(Shards2),AccW4) of
         {stop, _Reply} ->
             true;
         _ -> false
     end,
     ?assertEqual(Bool,true),

     % Docs with no replies should end up as {error, internal_server_error}
     SA1 = #shard{node=a, range=1},
     SB1 = #shard{node=b, range=1},
     SA2 = #shard{node=a, range=2},
     SB2 = #shard{node=b, range=2},
     GroupedDocs3 = [{SA1,[Doc1]}, {SB1,[Doc1]}, {SA2,[Doc2]}, {SB2,[Doc2]}],
     StW5_0 = {length(GroupedDocs3), length(Docs2), 2, GroupedDocs3, Dict2},
     {ok, StW5_1} = handle_message({ok, [{ok, "A"}]}, SA1, StW5_0),
     {ok, StW5_2} = handle_message({rexi_EXIT, nil}, SB1, StW5_1),
     {ok, StW5_3} = handle_message({rexi_EXIT, nil}, SA2, StW5_2),
     {stop, ReplyW5} = handle_message({rexi_EXIT, nil}, SB2, StW5_3),
     ?assertEqual(
         {error, [{Doc1,{accepted,"A"}},{Doc2,{error,internal_server_error}}]},
         ReplyW5
     ),
     meck:unload(couch_log),
     meck:unload(couch_stats).


 doc_update2_test() ->
     meck:new(couch_stats),
     meck:expect(couch_stats, increment_counter, fun(_) -> ok end),
     meck:new(couch_log),
     meck:expect(couch_log, warning, fun(_,_) -> ok end),

     Doc1 = #doc{revs = {1,[<<"foo">>]}},
     Doc2 = #doc{revs = {1,[<<"bar">>]}},
     Docs = [Doc2, Doc1],
     Shards =
         mem3_util:create_partition_map("foo",3,1,["node1","node2","node3"]),
     GroupedDocs = group_docs_by_shard_hack(<<"foo">>,Shards,Docs),
     Acc0 = {length(Shards), length(Docs), list_to_integer("2"), GroupedDocs,
         dict:from_list([{Doc,[]} || Doc <- Docs])},

     {ok,{WaitingCount1,_,_,_,_}=Acc1} =
         handle_message({ok, [{ok, Doc1},{ok, Doc2}]},hd(Shards),Acc0),
     ?assertEqual(WaitingCount1,2),

     {ok,{WaitingCount2,_,_,_,_}=Acc2} =
         handle_message({rexi_EXIT, 1},lists:nth(2,Shards),Acc1),
     ?assertEqual(WaitingCount2,1),

     {stop, Reply} =
         handle_message({rexi_EXIT, 1},lists:nth(3,Shards),Acc2),

     ?assertEqual({accepted, [{Doc1,{accepted,Doc2}}, {Doc2,{accepted,Doc1}}]},
         Reply),
     meck:unload(couch_log),
     meck:unload(couch_stats).

 doc_update3_test() ->
     Doc1 = #doc{revs = {1,[<<"foo">>]}},
     Doc2 = #doc{revs = {1,[<<"bar">>]}},
     Docs = [Doc2, Doc1],
     Shards =
         mem3_util:create_partition_map("foo",3,1,["node1","node2","node3"]),
     GroupedDocs = group_docs_by_shard_hack(<<"foo">>,Shards,Docs),
     Acc0 = {length(Shards), length(Docs), list_to_integer("2"), GroupedDocs,
         dict:from_list([{Doc,[]} || Doc <- Docs])},

     {ok,{WaitingCount1,_,_,_,_}=Acc1} =
         handle_message({ok, [{ok, Doc1},{ok, Doc2}]},hd(Shards),Acc0),
     ?assertEqual(WaitingCount1,2),

     {ok,{WaitingCount2,_,_,_,_}=Acc2} =
         handle_message({rexi_EXIT, 1},lists:nth(2,Shards),Acc1),
     ?assertEqual(WaitingCount2,1),

     {stop, Reply} =
         handle_message({ok, [{ok, Doc1},{ok, Doc2}]},lists:nth(3,Shards),Acc2),

     ?assertEqual({ok, [{Doc1, {ok, Doc2}},{Doc2, {ok,Doc1}}]},Reply).

 % needed for testing to avoid having to start the mem3 application
 group_docs_by_shard_hack(_DbName, Shards, Docs) ->
     dict:to_list(lists:foldl(fun(#doc{id=_Id} = Doc, D0) ->
         lists:foldl(fun(Shard, D1) ->
             dict:append(Shard, Doc, D1)
         end, D0, Shards)
     end, dict:new(), Docs)).
	% 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.

	-module(fabric_doc_update).

	-export([go/3]).

	-include_lib("fabric/include/fabric.hrl").
	-include_lib("mem3/include/mem3.hrl").
	-include_lib("couch/include/couch_db.hrl").

	go(_, [], _) ->
	{ok, []};
	go(DbName, AllDocs0, Opts) ->
	AllDocs1 = before_doc_update(DbName, AllDocs0, Opts),
	AllDocs = tag_docs(AllDocs1),
	validate_atomic_update(DbName, AllDocs, lists:member(all_or_nothing, Opts)),
	Options = lists:delete(all_or_nothing, Opts),
	GroupedDocs = lists:map(fun({#shard{name=Name, node=Node} = Shard, Docs}) ->
	Docs1 = untag_docs(Docs),
	Ref = rexi:cast(Node, {fabric_rpc, update_docs, [Name,Docs1,Options]}),
	{Shard#shard{ref=Ref}, Docs}
	end, group_docs_by_shard(DbName, AllDocs)),
	{Workers, _} = lists:unzip(GroupedDocs),
	RexiMon = fabric_util:create_monitors(Workers),
	W = couch_util:get_value(w, Options, integer_to_list(mem3:quorum(DbName))),
	Acc0 = {length(Workers), length(AllDocs), list_to_integer(W), GroupedDocs,
	dict:new()},
	Timeout = fabric_util:request_timeout(),
	try rexi_utils:recv(Workers, #shard.ref, fun handle_message/3, Acc0, infinity, Timeout) of
	{ok, {Health, Results}} when Health =:= ok; Health =:= accepted ->
	{Health, [R \|\| R <- couch_util:reorder_results(AllDocs, Results), R =/= noreply]};
	{timeout, Acc} ->
	{_, _, W1, GroupedDocs1, DocReplDict} = Acc,
	{DefunctWorkers, _} = lists:unzip(GroupedDocs1),
	fabric_util:log_timeout(DefunctWorkers, "update_docs"),
	{Health, _, Resp} = dict:fold(fun force_reply/3, {ok, W1, []},
	DocReplDict),
	{Health, [R \|\| R <- couch_util:reorder_results(AllDocs, Resp), R =/= noreply]};
	Else ->
	Else
	after
	rexi_monitor:stop(RexiMon)
	end.

	handle_message({rexi_DOWN, _, {_,NodeRef},_}, _Worker, Acc0) ->
	{_, LenDocs, W, GroupedDocs, DocReplyDict} = Acc0,
	NewGrpDocs = [X \|\| {#shard{node=N}, _} = X <- GroupedDocs, N =/= NodeRef],
	skip_message({length(NewGrpDocs), LenDocs, W, NewGrpDocs, DocReplyDict});

	handle_message({rexi_EXIT, _}, Worker, Acc0) ->
	{WC,LenDocs,W,GrpDocs,DocReplyDict} = Acc0,
	NewGrpDocs = lists:keydelete(Worker,1,GrpDocs),
	skip_message({WC-1,LenDocs,W,NewGrpDocs,DocReplyDict});
	handle_message(internal_server_error, Worker, Acc0) ->
	% happens when we fail to load validation functions in an RPC worker
	{WC,LenDocs,W,GrpDocs,DocReplyDict} = Acc0,
	NewGrpDocs = lists:keydelete(Worker,1,GrpDocs),
	skip_message({WC-1,LenDocs,W,NewGrpDocs,DocReplyDict});
	handle_message(attachment_chunk_received, _Worker, Acc0) ->
	{ok, Acc0};
	handle_message({ok, Replies}, Worker, Acc0) ->
	{WaitingCount, DocCount, W, GroupedDocs, DocReplyDict0} = Acc0,
	{value, {_, Docs}, NewGrpDocs} = lists:keytake(Worker, 1, GroupedDocs),
	DocReplyDict = append_update_replies(Docs, Replies, DocReplyDict0),
	case {WaitingCount, dict:size(DocReplyDict)} of
	{1, _} ->
	% last message has arrived, we need to conclude things
	{Health, W, Reply} = dict:fold(fun force_reply/3, {ok, W, []},
	DocReplyDict),
	{stop, {Health, Reply}};
	{_, DocCount} ->
	% we've got at least one reply for each document, let's take a look
	case dict:fold(fun maybe_reply/3, {stop,W,[]}, DocReplyDict) of
	continue ->
	{ok, {WaitingCount - 1, DocCount, W, NewGrpDocs, DocReplyDict}};
	{stop, W, FinalReplies} ->
	{stop, {ok, FinalReplies}}
	end;
	_ ->
	{ok, {WaitingCount - 1, DocCount, W, NewGrpDocs, DocReplyDict}}
	end;
	handle_message({missing_stub, Stub}, _, _) ->
	throw({missing_stub, Stub});
	handle_message({not_found, no_db_file} = X, Worker, Acc0) ->
	{_, _, _, GroupedDocs, _} = Acc0,
	Docs = couch_util:get_value(Worker, GroupedDocs),
	handle_message({ok, [X \|\| _D <- Docs]}, Worker, Acc0);
	handle_message({bad_request, Msg}, _, _) ->
	throw({bad_request, Msg}).

	before_doc_update(DbName, Docs, Opts) ->
	case {fabric_util:is_replicator_db(DbName), fabric_util:is_users_db(DbName)} of
	{true, _} ->
	%% fake db is expensive to create so we only do it if we have to
	Db = fabric_util:fake_db(DbName, Opts),
	[couch_replicator_manager:before_doc_update(Doc, Db) \|\| Doc <- Docs];
	{_, true} ->
	%% fake db is expensive to create so we only do it if we have to
	Db = fabric_util:fake_db(DbName, Opts),
	[couch_users_db:before_doc_update(Doc, Db) \|\| Doc <- Docs];
	_ ->
	Docs
	end.

	tag_docs([]) ->
	[];
	tag_docs([#doc{meta=Meta}=Doc \| Rest]) ->
	[Doc#doc{meta=[{ref, make_ref()} \| Meta]} \| tag_docs(Rest)].

	untag_docs([]) ->
	[];
	untag_docs([#doc{meta=Meta}=Doc \| Rest]) ->
	[Doc#doc{meta=lists:keydelete(ref, 1, Meta)} \| untag_docs(Rest)].

	force_reply(Doc, [], {_, W, Acc}) ->
	{error, W, [{Doc, {error, internal_server_error}} \| Acc]};
	force_reply(Doc, [FirstReply\|_] = Replies, {Health, W, Acc}) ->
	case update_quorum_met(W, Replies) of
	{true, Reply} ->
	{Health, W, [{Doc,Reply} \| Acc]};
	false ->
	case [Reply \|\| {ok, Reply} <- Replies] of
	[] ->
	% check if all errors are identical, if so inherit health
	case lists:all(fun(E) -> E =:= FirstReply end, Replies) of
	true ->
	CounterKey = [fabric, doc_update, errors],
	couch_stats:increment_counter(CounterKey),
	{Health, W, [{Doc, FirstReply} \| Acc]};
	false ->
	CounterKey = [fabric, doc_update, mismatched_errors],
	couch_stats:increment_counter(CounterKey),
	{error, W, [{Doc, FirstReply} \| Acc]}
	end;
	[AcceptedRev \| _] ->
	CounterKey = [fabric, doc_update, write_quorum_errors],
	couch_stats:increment_counter(CounterKey),
	NewHealth = case Health of ok -> accepted; _ -> Health end,
	{NewHealth, W, [{Doc, {accepted,AcceptedRev}} \| Acc]}
	end
	end.

	maybe_reply(_, _, continue) ->
	% we didn't meet quorum for all docs, so we're fast-forwarding the fold
	continue;
	maybe_reply(Doc, Replies, {stop, W, Acc}) ->
	case update_quorum_met(W, Replies) of
	{true, Reply} ->
	{stop, W, [{Doc, Reply} \| Acc]};
	false ->
	continue
	end.

	update_quorum_met(W, Replies) ->
	Counters = lists:foldl(fun(R,D) -> orddict:update_counter(R,1,D) end,
	orddict:new(), Replies),
	GoodReplies = lists:filter(fun good_reply/1, Counters),
	case lists:dropwhile(fun({_, Count}) -> Count < W end, GoodReplies) of
	[] ->
	false;
	[{FinalReply, _} \| _] ->
	{true, FinalReply}
	end.

	good_reply({{ok, _}, _}) ->
	true;
	good_reply({noreply, _}) ->
	true;
	good_reply(_) ->
	false.

	-spec group_docs_by_shard(binary(), [#doc{}]) -> [{#shard{}, [#doc{}]}].
	group_docs_by_shard(DbName, Docs) ->
	dict:to_list(lists:foldl(fun(#doc{id=Id} = Doc, D0) ->
	lists:foldl(fun(Shard, D1) ->
	dict:append(Shard, Doc, D1)
	end, D0, mem3:shards(DbName,Id))
	end, dict:new(), Docs)).

	append_update_replies([], [], DocReplyDict) ->
	DocReplyDict;
	append_update_replies([Doc\|Rest], [], Dict0) ->
	% icky, if replicated_changes only errors show up in result
	append_update_replies(Rest, [], dict:append(Doc, noreply, Dict0));
	append_update_replies([Doc\|Rest1], [Reply\|Rest2], Dict0) ->
	append_update_replies(Rest1, Rest2, dict:append(Doc, Reply, Dict0)).

	skip_message({0, _, W, _, DocReplyDict}) ->
	{Health, W, Reply} = dict:fold(fun force_reply/3, {ok, W, []}, DocReplyDict),
	{stop, {Health, Reply}};
	skip_message(Acc0) ->
	{ok, Acc0}.

	validate_atomic_update(_, _, false) ->
	ok;
	validate_atomic_update(_DbName, AllDocs, true) ->
	% TODO actually perform the validation. This requires some hackery, we need
	% to basically extract the prep_and_validate_updates function from couch_db
	% and only run that, without actually writing in case of a success.
	Error = {not_implemented, <<"all_or_nothing is not supported">>},
	PreCommitFailures = lists:map(fun(#doc{id=Id, revs = {Pos,Revs}}) ->
	case Revs of [] -> RevId = <<>>; [RevId\|_] -> ok end,
	{{Id, {Pos, RevId}}, Error}
	end, AllDocs),
	throw({aborted, PreCommitFailures}).

	% eunits
	doc_update1_test() ->
	meck:new(couch_stats),
	meck:expect(couch_stats, increment_counter, fun(_) -> ok end),
	meck:new(couch_log),
	meck:expect(couch_log, warning, fun(_,_) -> ok end),

	Doc1 = #doc{revs = {1,[<<"foo">>]}},
	Doc2 = #doc{revs = {1,[<<"bar">>]}},
	Docs = [Doc1],
	Docs2 = [Doc2, Doc1],
	Dict = dict:from_list([{Doc,[]} \|\| Doc <- Docs]),
	Dict2 = dict:from_list([{Doc,[]} \|\| Doc <- Docs2]),

	Shards =
	mem3_util:create_partition_map("foo",3,1,["node1","node2","node3"]),
	GroupedDocs = group_docs_by_shard_hack(<<"foo">>,Shards,Docs),


	% test for W = 2
	AccW2 = {length(Shards), length(Docs), list_to_integer("2"), GroupedDocs,
	Dict},

	{ok,{WaitingCountW2_1,_,_,_,_}=AccW2_1} =
	handle_message({ok, [{ok, Doc1}]},hd(Shards),AccW2),
	?assertEqual(WaitingCountW2_1,2),
	{stop, FinalReplyW2 } =
	handle_message({ok, [{ok, Doc1}]},lists:nth(2,Shards),AccW2_1),
	?assertEqual({ok, [{Doc1, {ok,Doc1}}]},FinalReplyW2),

	% test for W = 3
	AccW3 = {length(Shards), length(Docs), list_to_integer("3"), GroupedDocs,
	Dict},

	{ok,{WaitingCountW3_1,_,_,_,_}=AccW3_1} =
	handle_message({ok, [{ok, Doc1}]},hd(Shards),AccW3),
	?assertEqual(WaitingCountW3_1,2),

	{ok,{WaitingCountW3_2,_,_,_,_}=AccW3_2} =
	handle_message({ok, [{ok, Doc1}]},lists:nth(2,Shards),AccW3_1),
	?assertEqual(WaitingCountW3_2,1),

	{stop, FinalReplyW3 } =
	handle_message({ok, [{ok, Doc1}]},lists:nth(3,Shards),AccW3_2),
	?assertEqual({ok, [{Doc1, {ok,Doc1}}]},FinalReplyW3),

	% test w quorum > # shards, which should fail immediately

	Shards2 = mem3_util:create_partition_map("foo",1,1,["node1"]),
	GroupedDocs2 = group_docs_by_shard_hack(<<"foo">>,Shards2,Docs),

	AccW4 =
	{length(Shards2), length(Docs), list_to_integer("2"), GroupedDocs2, Dict},
	Bool =
	case handle_message({ok, [{ok, Doc1}]},hd(Shards2),AccW4) of
	{stop, _Reply} ->
	true;
	_ -> false
	end,
	?assertEqual(Bool,true),

	% Docs with no replies should end up as {error, internal_server_error}
	SA1 = #shard{node=a, range=1},
	SB1 = #shard{node=b, range=1},
	SA2 = #shard{node=a, range=2},
	SB2 = #shard{node=b, range=2},
	GroupedDocs3 = [{SA1,[Doc1]}, {SB1,[Doc1]}, {SA2,[Doc2]}, {SB2,[Doc2]}],
	StW5_0 = {length(GroupedDocs3), length(Docs2), 2, GroupedDocs3, Dict2},
	{ok, StW5_1} = handle_message({ok, [{ok, "A"}]}, SA1, StW5_0),
	{ok, StW5_2} = handle_message({rexi_EXIT, nil}, SB1, StW5_1),
	{ok, StW5_3} = handle_message({rexi_EXIT, nil}, SA2, StW5_2),
	{stop, ReplyW5} = handle_message({rexi_EXIT, nil}, SB2, StW5_3),
	?assertEqual(
	{error, [{Doc1,{accepted,"A"}},{Doc2,{error,internal_server_error}}]},
	ReplyW5
	),
	meck:unload(couch_log),
	meck:unload(couch_stats).


	doc_update2_test() ->
	meck:new(couch_stats),
	meck:expect(couch_stats, increment_counter, fun(_) -> ok end),
	meck:new(couch_log),
	meck:expect(couch_log, warning, fun(_,_) -> ok end),

	Doc1 = #doc{revs = {1,[<<"foo">>]}},
	Doc2 = #doc{revs = {1,[<<"bar">>]}},
	Docs = [Doc2, Doc1],
	Shards =
	mem3_util:create_partition_map("foo",3,1,["node1","node2","node3"]),
	GroupedDocs = group_docs_by_shard_hack(<<"foo">>,Shards,Docs),
	Acc0 = {length(Shards), length(Docs), list_to_integer("2"), GroupedDocs,
	dict:from_list([{Doc,[]} \|\| Doc <- Docs])},

	{ok,{WaitingCount1,_,_,_,_}=Acc1} =
	handle_message({ok, [{ok, Doc1},{ok, Doc2}]},hd(Shards),Acc0),
	?assertEqual(WaitingCount1,2),

	{ok,{WaitingCount2,_,_,_,_}=Acc2} =
	handle_message({rexi_EXIT, 1},lists:nth(2,Shards),Acc1),
	?assertEqual(WaitingCount2,1),

	{stop, Reply} =
	handle_message({rexi_EXIT, 1},lists:nth(3,Shards),Acc2),

	?assertEqual({accepted, [{Doc1,{accepted,Doc2}}, {Doc2,{accepted,Doc1}}]},
	Reply),
	meck:unload(couch_log),
	meck:unload(couch_stats).

	doc_update3_test() ->
	Doc1 = #doc{revs = {1,[<<"foo">>]}},
	Doc2 = #doc{revs = {1,[<<"bar">>]}},
	Docs = [Doc2, Doc1],
	Shards =
	mem3_util:create_partition_map("foo",3,1,["node1","node2","node3"]),
	GroupedDocs = group_docs_by_shard_hack(<<"foo">>,Shards,Docs),
	Acc0 = {length(Shards), length(Docs), list_to_integer("2"), GroupedDocs,
	dict:from_list([{Doc,[]} \|\| Doc <- Docs])},

	{ok,{WaitingCount1,_,_,_,_}=Acc1} =
	handle_message({ok, [{ok, Doc1},{ok, Doc2}]},hd(Shards),Acc0),
	?assertEqual(WaitingCount1,2),

	{ok,{WaitingCount2,_,_,_,_}=Acc2} =
	handle_message({rexi_EXIT, 1},lists:nth(2,Shards),Acc1),
	?assertEqual(WaitingCount2,1),

	{stop, Reply} =
	handle_message({ok, [{ok, Doc1},{ok, Doc2}]},lists:nth(3,Shards),Acc2),

	?assertEqual({ok, [{Doc1, {ok, Doc2}},{Doc2, {ok,Doc1}}]},Reply).

	% needed for testing to avoid having to start the mem3 application
	group_docs_by_shard_hack(_DbName, Shards, Docs) ->
	dict:to_list(lists:foldl(fun(#doc{id=_Id} = Doc, D0) ->
	lists:foldl(fun(Shard, D1) ->
	dict:append(Shard, Doc, D1)
	end, D0, Shards)
	end, dict:new(), Docs)).