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-module(mem3_util).
-export([hash/1, name_shard/1, create_partition_map/4, build_shards/2,
n_val/2, to_atom/1, to_integer/1, write_db_doc/1, delete_db_doc/1,
load_shards_from_disk/1, load_shards_from_disk/2]).
-define(RINGTOP, 2 bsl 31). % CRC32 space
-include("mem3.hrl").
hash(Item) when is_binary(Item) ->
erlang:crc32(Item);
hash(Item) ->
erlang:crc32(term_to_binary(Item)).
name_shard(#shard{dbname = DbName, range=[B,E]} = Shard) ->
Name = ["shards/", couch_util:to_hex(<<B:32/integer>>), "-",
couch_util:to_hex(<<E:32/integer>>), "/", DbName],
Shard#shard{name = ?l2b(Name)}.
create_partition_map(DbName, N, Q, Nodes) ->
UniqueShards = make_key_ranges((?RINGTOP) div Q, 0, []),
Shards0 = lists:flatten([lists:duplicate(N, S) || S <- UniqueShards]),
Shards1 = attach_nodes(Shards0, [], Nodes, []),
[name_shard(S#shard{dbname=DbName}) || S <- Shards1].
make_key_ranges(_, CurrentPos, Acc) when CurrentPos >= ?RINGTOP ->
Acc;
make_key_ranges(Increment, Start, Acc) ->
case Start + 2*Increment of
X when X > ?RINGTOP ->
End = ?RINGTOP - 1;
_ ->
End = Start + Increment - 1
end,
make_key_ranges(Increment, End+1, [#shard{range=[Start, End]} | Acc]).
attach_nodes([], Acc, _, _) ->
lists:reverse(Acc);
attach_nodes(Shards, Acc, [], UsedNodes) ->
attach_nodes(Shards, Acc, lists:reverse(UsedNodes), []);
attach_nodes([S | Rest], Acc, [Node | Nodes], UsedNodes) ->
attach_nodes(Rest, [S#shard{node=Node} | Acc], Nodes, [Node | UsedNodes]).
write_db_doc(Doc) ->
{ok, Db} = couch_db:open(<<"dbs">>, []),
try
update_db_doc(Db, Doc)
catch conflict ->
?LOG_ERROR("conflict writing db doc, must be a race", [])
after
couch_db:close(Db)
end.
update_db_doc(Db, #doc{id=Id, body=Body} = Doc) ->
case couch_db:open_doc(Db, Id, []) of
{not_found, _} ->
{ok, _} = couch_db:update_doc(Db, Doc, []);
{ok, #doc{body=Body}} ->
ok;
{ok, OldDoc} ->
{ok, _} = couch_db:update_doc(Db, OldDoc#doc{body=Body}, [])
end.
delete_db_doc(DocId) ->
{ok, Db} = couch_db:open(<<"dbs">>, []),
try
delete_db_doc(Db, DocId)
catch conflict ->
ok
after
couch_db:close(Db)
end.
delete_db_doc(Db, DocId) ->
case couch_db:open_doc(Db, DocId, []) of
{not_found, _} ->
ok;
{ok, OldDoc} ->
{ok, _} = couch_db:update_doc(Db, OldDoc#doc{deleted=true}, [])
end.
build_shards(DbName, DocProps) ->
{ByNode} = couch_util:get_value(<<"by_node">>, DocProps, {[]}),
lists:flatmap(fun({Node, Ranges}) ->
lists:map(fun(Range) ->
[B,E] = string:tokens(?b2l(Range), "-"),
Beg = httpd_util:hexlist_to_integer(B),
End = httpd_util:hexlist_to_integer(E),
name_shard(#shard{
dbname = DbName,
node = to_atom(Node),
range = [Beg, End]
})
end, Ranges)
end, ByNode).
to_atom(Node) when is_binary(Node) ->
list_to_atom(binary_to_list(Node));
to_atom(Node) when is_atom(Node) ->
Node.
to_integer(N) when is_integer(N) ->
N;
to_integer(N) when is_binary(N) ->
list_to_integer(binary_to_list(N));
to_integer(N) when is_list(N) ->
list_to_integer(N).
n_val(undefined, NodeCount) ->
n_val(couch_config:get("cluster", "n", "3"), NodeCount);
n_val(N, NodeCount) when is_list(N) ->
n_val(list_to_integer(N), NodeCount);
n_val(N, NodeCount) when is_integer(NodeCount), N > NodeCount ->
?LOG_ERROR("Request to create N=~p DB but only ~p node(s)", [N, NodeCount]),
NodeCount;
n_val(N, _) ->
N.
load_shards_from_disk(DbName) when is_binary(DbName) ->
{ok, Db} = couch_db:open(<<"dbs">>, []),
try load_shards_from_db(Db, DbName) after couch_db:close(Db) end.
load_shards_from_db(#db{} = ShardDb, DbName) ->
case couch_db:open_doc(ShardDb, DbName, []) of
{ok, #doc{body = {Props}}} ->
?LOG_INFO("dbs cache miss for ~s", [DbName]),
build_shards(DbName, Props);
{not_found, _} ->
erlang:error(database_does_not_exist)
end.
load_shards_from_disk(DbName, DocId)->
Shards = load_shards_from_disk(DbName),
HashKey = hash(DocId),
[S || #shard{range = [B,E]} = S <- Shards, B < HashKey, HashKey =< E].
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