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path: root/lib/mnesia/src/mnesia_locker.erl
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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%
%%

%%
-module(mnesia_locker).

-export([
	 get_held_locks/0, get_held_locks/1,
	 get_lock_queue/0,
	 global_lock/5,
	 ixrlock/5,
	 init/1,
	 release_tid/1,
	 mnesia_down/2,
	 async_release_tid/2,
	 send_release_tid/2,
	 receive_release_tid_acc/2,
	 rlock/3,
	 rlock_table/3,
	 rwlock/3,
	 sticky_rwlock/3,
	 start/0,
	 sticky_wlock/3,
	 sticky_wlock_table/3,
	 wlock/3,
	 wlock_no_exist/4,
	 wlock_table/3,
	 load_lock_table/3
	]).

%% sys callback functions
-export([system_continue/3,
	 system_terminate/4,
	 system_code_change/4
	]).

-compile({no_auto_import,[error/2]}).

-include("mnesia.hrl").
-import(mnesia_lib, [dbg_out/2, error/2, verbose/2]).

-define(dbg(S,V), ok).
%-define(dbg(S,V), dbg_out("~p:~p: " ++ S, [?MODULE, ?LINE] ++ V)).

-define(ALL, '______WHOLETABLE_____').
-define(STICK, '______STICK_____').
-define(GLOBAL, '______GLOBAL_____').

-record(state, {supervisor}).

-record(queue, {oid, tid, op, pid, lucky}).

%% mnesia_held_locks: contain       {Oid, MaxLock, [{Op, Tid}]} entries
-define(match_oid_held_locks(Oid),  {Oid, '_', '_'}).
%% mnesia_tid_locks: contain        {Tid, Oid, Op} entries  (bag)
-define(match_oid_tid_locks(Tid),   {Tid, '_', '_'}).
%% mnesia_sticky_locks: contain     {Oid, Node} entries and {Tab, Node} entries (set)
-define(match_oid_sticky_locks(Oid),{Oid, '_'}).
%% mnesia_lock_queue: contain       {queue, Oid, Tid, Op, ReplyTo, WaitForTid} entries (bag)
-define(match_oid_lock_queue(Oid),  #queue{oid=Oid, tid='_', op = '_', pid = '_', lucky = '_'}).
%% mnesia_lock_counter:             {{write, Tab}, Number} &&
%%                                  {{read, Tab}, Number} entries  (set)

start() ->
    mnesia_monitor:start_proc(?MODULE, ?MODULE, init, [self()]).

init(Parent) ->
    register(?MODULE, self()),
    process_flag(trap_exit, true),
    ?ets_new_table(mnesia_held_locks, [ordered_set, private, named_table]),
    ?ets_new_table(mnesia_tid_locks, [ordered_set, private, named_table]),
    ?ets_new_table(mnesia_sticky_locks, [set, private, named_table]),
    ?ets_new_table(mnesia_lock_queue, [bag, private, named_table, {keypos, 2}]),

    proc_lib:init_ack(Parent, {ok, self()}),
    case ?catch_val(pid_sort_order) of
	r9b_plain -> put(pid_sort_order, r9b_plain);
	standard ->  put(pid_sort_order, standard);
	_ -> ignore
    end,
    loop(#state{supervisor = Parent}).

val(Var) ->
    case ?catch_val(Var) of
	{'EXIT', _} -> mnesia_lib:other_val(Var);
	_VaLuE_ -> _VaLuE_
    end.

reply(From, R) ->
    From ! {?MODULE, node(), R},
    true. %% Quiets dialyzer

l_request(Node, X, Store) ->
    {?MODULE, Node} ! {self(), X},
    l_req_rec(Node, Store).

l_req_rec(Node, Store) ->
    ?ets_insert(Store, {nodes, Node}),
    receive
	{?MODULE, Node, Reply} ->
	    Reply;
	{mnesia_down, Node} ->
	    {not_granted, {node_not_running, Node}}
    end.

release_tid(Tid) ->
    ?MODULE ! {release_tid, Tid}.

async_release_tid(Nodes, Tid) ->
    rpc:abcast(Nodes, ?MODULE, {release_tid, Tid}).

send_release_tid(Nodes, Tid) ->
    rpc:abcast(Nodes, ?MODULE, {self(), {sync_release_tid, Tid}}).

receive_release_tid_acc([Node | Nodes], Tid) ->
    receive
	{?MODULE, Node, {tid_released, Tid}} ->
	    receive_release_tid_acc(Nodes, Tid)
    after 0 ->
	    receive
		{?MODULE, Node, {tid_released, Tid}} ->
		    receive_release_tid_acc(Nodes, Tid);
		{mnesia_down, Node} ->
		    receive_release_tid_acc(Nodes, Tid)
	    end
    end;
receive_release_tid_acc([], _Tid) ->
    ok.

mnesia_down(Node, Pending) ->
    case whereis(?MODULE) of
	undefined -> {error, node_not_running};
	Pid ->
	    Ref = make_ref(),
	    Pid ! {{self(), Ref}, {release_remote_non_pending, Node, Pending}},
	    receive   %% No need to wait for anything else if process dies we die soon
		{Ref,ok} -> ok
	    end
    end.

loop(State) ->
    receive
	{From, {write, Tid, Oid}} ->
	    try_sticky_lock(Tid, write, From, Oid),
	    loop(State);

	%% If Key == ?ALL it's a request to lock the entire table
	%%

	{From, {read, Tid, Oid}} ->
	    try_sticky_lock(Tid, read, From, Oid),
	    loop(State);

	%% Really do a  read, but get hold of a write lock
	%% used by mnesia:wread(Oid).

	{From, {read_write, Tid, Oid}} ->
	    try_sticky_lock(Tid, read_write, From, Oid),
	    loop(State);

	%% Tid has somehow terminated, clear up everything
	%% and pass locks on to queued processes.
	%% This is the purpose of the mnesia_tid_locks table

	{release_tid, Tid} ->
	    do_release_tid(Tid),
	    loop(State);

	%% stick lock, first tries this to the where_to_read Node
	{From, {test_set_sticky, Tid, {Tab, _} = Oid, Lock}} ->
	    case ?ets_lookup(mnesia_sticky_locks, Tab) of
		[] ->
		    reply(From, not_stuck),
		    loop(State);
		[{_,Node}] when Node == node() ->
		    %% Lock is stuck here, see now if we can just set
		    %% a regular write lock
		    try_lock(Tid, Lock, From, Oid),
		    loop(State);
		[{_,Node}] ->
		    reply(From, {stuck_elsewhere, Node}),
		    loop(State)
	    end;

	%% If test_set_sticky fails, we send this to all nodes
	%% after aquiring a real write lock on Oid

	{stick, {Tab, _}, N} ->
	    ?ets_insert(mnesia_sticky_locks, {Tab, N}),
	    loop(State);

	%% The caller which sends this message, must have first
	%% aquired a write lock on the entire table
	{unstick, Tab} ->
	    ?ets_delete(mnesia_sticky_locks, Tab),
	    loop(State);

	{From, {ix_read, Tid, Tab, IxKey, Pos}} ->
	    case ?ets_lookup(mnesia_sticky_locks, Tab) of
		[] ->
		    set_read_lock_on_all_keys(Tid,From,Tab,IxKey,Pos),
		    loop(State);
		[{_,N}] when N == node() ->
		    set_read_lock_on_all_keys(Tid,From,Tab,IxKey,Pos),
		    loop(State);
		[{_,N}] ->
		    Req = {From, {ix_read, Tid, Tab, IxKey, Pos}},
		    From ! {?MODULE, node(), {switch, N, Req}},
		    loop(State)
	    end;

	{From, {sync_release_tid, Tid}} ->
	    do_release_tid(Tid),
	    reply(From, {tid_released, Tid}),
	    loop(State);

	{{From, Ref},{release_remote_non_pending, Node, Pending}} ->
	    release_remote_non_pending(Node, Pending),
	    From ! {Ref, ok},
	    loop(State);

	{From, {is_locked, Oid}} ->
	    Held = ?ets_lookup(mnesia_held_locks, Oid),
	    reply(From, Held),
	    loop(State);

	{'EXIT', Pid, _} when Pid == State#state.supervisor ->
	    do_stop();

	{system, From, Msg} ->
	    verbose("~p got {system, ~p, ~p}~n", [?MODULE, From, Msg]),
	    Parent = State#state.supervisor,
	    sys:handle_system_msg(Msg, From, Parent, ?MODULE, [], State);

	{get_table, From, LockTable} ->
	    From ! {LockTable, ?ets_match_object(LockTable, '_')},
	    loop(State);

	Msg ->
	    error("~p got unexpected message: ~p~n", [?MODULE, Msg]),
	    loop(State)
    end.

set_lock(Tid, Oid, Op, []) ->
    ?ets_insert(mnesia_tid_locks, {{Tid, Oid, Op}}),
    ?ets_insert(mnesia_held_locks, {Oid, Op, [{Op, Tid}]});
set_lock(Tid, Oid, read, [{Oid, Prev, Items}]) ->
    ?ets_insert(mnesia_tid_locks, {{Tid, Oid, read}}),
    ?ets_insert(mnesia_held_locks, {Oid, Prev, [{read, Tid}|Items]});
set_lock(Tid, Oid, write, [{Oid, _Prev, Items}]) ->
    ?ets_insert(mnesia_tid_locks, {{Tid, Oid, write}}),
    ?ets_insert(mnesia_held_locks, {Oid, write, [{write, Tid}|Items]});
set_lock(Tid, Oid, Op, undefined) ->
    set_lock(Tid, Oid, Op, ?ets_lookup(mnesia_held_locks, Oid)).

%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% Acquire locks

try_sticky_lock(Tid, Op, Pid, {Tab, _} = Oid) ->
    case ?ets_lookup(mnesia_sticky_locks, Tab) of
	[] ->
	    try_lock(Tid, Op, Pid, Oid);
	[{_,N}] when N == node() ->
	    try_lock(Tid, Op, Pid, Oid);
	[{_,N}] ->
	    Req = {Pid, {Op, Tid, Oid}},
	    Pid ! {?MODULE, node(), {switch, N, Req}},
	    true
    end.

try_lock(Tid, read_write, Pid, Oid) ->
    try_lock(Tid, read_write, read, write, Pid, Oid);
try_lock(Tid, Op, Pid, Oid) ->
    try_lock(Tid, Op, Op, Op, Pid, Oid).

try_lock(Tid, Op, SimpleOp, Lock, Pid, Oid) ->
    case can_lock(Tid, Lock, Oid, {no, bad_luck}) of
	{yes, Default} ->
	    Reply = grant_lock(Tid, SimpleOp, Lock, Oid, Default),
	    reply(Pid, Reply);
	{{no, Lucky},_} ->
	    C = #cyclic{op = SimpleOp, lock = Lock, oid = Oid, lucky = Lucky},
	    ?dbg("Rejected ~p ~p ~p ~p ~n", [Tid, Oid, Lock, Lucky]),
	    reply(Pid, {not_granted, C});
	{{queue, Lucky},_} ->
	    ?dbg("Queued ~p ~p ~p ~p ~n", [Tid, Oid, Lock, Lucky]),
	    %% Append to queue: Nice place for trace output
	    ?ets_insert(mnesia_lock_queue,
			#queue{oid = Oid, tid = Tid, op = Op,
			       pid = Pid, lucky = Lucky}),
	    ?ets_insert(mnesia_tid_locks, {{Tid, Oid, {queued, Op}}})
    end.

grant_lock(Tid, read, Lock, Oid = {Tab, Key}, Default)
  when Key /= ?ALL, Tab /= ?GLOBAL ->
    case node(Tid#tid.pid) == node() of
	true ->
	    set_lock(Tid, Oid, Lock, Default),
	    {granted, lookup_in_client};
	false ->
	    try
		Val = mnesia_lib:db_get(Tab, Key), %% lookup as well
		set_lock(Tid, Oid, Lock, Default),
		{granted, Val}
	    catch _:_Reason ->
		    %% Table has been deleted from this node,
		    %% restart the transaction.
		    C = #cyclic{op = read, lock = Lock, oid = Oid,
				lucky = nowhere},
		    {not_granted, C}
	    end
    end;
grant_lock(Tid, {ix_read,IxKey,Pos}, Lock, Oid = {Tab, _}, Default) ->
    try
	Res = ix_read_res(Tab, IxKey,Pos),
	set_lock(Tid, Oid, Lock, Default),
	{granted, Res, [?ALL]}
    catch _:_ ->
	    {not_granted, {no_exists, Tab, {index, [Pos]}}}
    end;
grant_lock(Tid, read, Lock, Oid, Default) ->
    set_lock(Tid, Oid, Lock, Default),
    {granted, ok};
grant_lock(Tid, write, Lock, Oid, Default) ->
    set_lock(Tid, Oid, Lock, Default),
    granted.

%% 1) Impose an ordering on all transactions favour old (low tid) transactions
%%    newer (higher tid) transactions may never wait on older ones,
%% 2) When releasing the tids from the queue always begin with youngest (high tid)
%%    because of 1) it will avoid the deadlocks.
%% 3) TabLocks is the problem :-) They should not starve and not deadlock
%%    handle tablocks in queue as they had locks on unlocked records.

can_lock(Tid, read, Oid = {Tab, Key}, AlreadyQ) when Key /= ?ALL ->
    ObjLocks = ?ets_lookup(mnesia_held_locks, Oid),
    TabLocks = ?ets_lookup(mnesia_held_locks, {Tab, ?ALL}),
    {check_lock(Tid, Oid,
		filter_write(ObjLocks),
		filter_write(TabLocks),
		yes, AlreadyQ, read),
     ObjLocks};

can_lock(Tid, read, Oid, AlreadyQ) -> % Whole tab
    Tab = element(1, Oid),
    ObjLocks = ?ets_match_object(mnesia_held_locks, {{Tab, '_'}, write, '_'}),
    {check_lock(Tid, Oid, ObjLocks, [], yes, AlreadyQ, read), undefined};

can_lock(Tid, write, Oid = {Tab, Key}, AlreadyQ) when Key /= ?ALL ->
    ObjLocks = ?ets_lookup(mnesia_held_locks, Oid),
    TabLocks = ?ets_lookup(mnesia_held_locks, {Tab, ?ALL}),
    {check_lock(Tid, Oid, ObjLocks, TabLocks, yes, AlreadyQ, write), ObjLocks};

can_lock(Tid, write, Oid, AlreadyQ) -> % Whole tab
    Tab = element(1, Oid),
    ObjLocks = ?ets_match_object(mnesia_held_locks, ?match_oid_held_locks({Tab, '_'})),
    {check_lock(Tid, Oid, ObjLocks, [], yes, AlreadyQ, write), undefined}.

filter_write([{_, read, _}]) -> [];
filter_write(Res) -> Res.

%% Check held locks for conflicting locks
check_lock(Tid, Oid, [{_, _, Lock} | Locks], TabLocks, _X, AlreadyQ, Type) ->
    case can_queue(Lock, Tid, Oid, _X) of
	{no, _} = Res ->
	    Res;
	Res ->
	    check_lock(Tid, Oid, Locks, TabLocks, Res, AlreadyQ, Type)
    end;

check_lock(_, _, [], [], X, {queue, bad_luck}, _) ->
    X;  %% The queue should be correct already no need to check it again

check_lock(_, _, [], [], X = {queue, _Tid}, _AlreadyQ, _) ->
    X;

check_lock(Tid, Oid = {Tab, Key}, [], [], X, AlreadyQ, Type) ->
    if
	Type == write ->
	    check_queue(Tid, Tab, X, AlreadyQ);
	Key == ?ALL ->
	    %% hmm should be solvable by a clever select expr but not today...
	    check_queue(Tid, Tab, X, AlreadyQ);
	true ->
	    %% If there is a queue on that object, read_lock shouldn't be granted
	    ObjLocks = ets:lookup(mnesia_lock_queue, Oid),
	    case max(ObjLocks) of
		empty ->
		    check_queue(Tid, Tab, X, AlreadyQ);
		ObjL ->
		    case allowed_to_be_queued(ObjL,Tid) of
			false ->
			    %% Starvation Preemption (write waits for read)
			    {no, ObjL};
			true ->
			    check_queue(Tid, Tab, {queue, ObjL}, AlreadyQ)
		    end
	    end
    end;

check_lock(Tid, Oid, [], TabLocks, X, AlreadyQ, Type) ->
    check_lock(Tid, Oid, TabLocks, [], X, AlreadyQ, Type).

can_queue([{_Op, Tid}|Locks], Tid, Oid, Res) ->
    can_queue(Locks, Tid, Oid, Res);
can_queue([{Op, WaitForTid}|Locks], Tid, Oid = {Tab, _}, _) ->
    case allowed_to_be_queued(WaitForTid,Tid) of
	true when Tid#tid.pid == WaitForTid#tid.pid ->
	    dbg_out("Spurious lock conflict ~w ~w: ~w -> ~w~n",
		    [Oid, Op, Tid, WaitForTid]),
	    HaveQ = (ets:lookup(mnesia_lock_queue, Oid) /= [])
		orelse (ets:lookup(mnesia_lock_queue,{Tab,?ALL}) /= []),
	    case HaveQ of
		true -> {no, WaitForTid};
		false ->  can_queue(Locks, Tid, Oid, {queue, WaitForTid})
	    end;
	true ->
	    can_queue(Locks, Tid, Oid, {queue, WaitForTid});
	false ->
	    {no, WaitForTid}
    end;
can_queue([], _, _, Res) -> Res.

%% True if  WaitForTid > Tid -> % Important order
allowed_to_be_queued(WaitForTid, Tid) ->
    case get(pid_sort_order) of
	undefined -> WaitForTid > Tid;
	r9b_plain ->
	    cmp_tid(true, WaitForTid, Tid) =:= 1;
	standard  ->
	    cmp_tid(false, WaitForTid, Tid) =:= 1
    end.

%% Check queue for conflicting locks
%% Assume that all queued locks belongs to other tid's

check_queue(Tid, Tab, X, AlreadyQ) ->
    TabLocks = ets:lookup(mnesia_lock_queue, {Tab,?ALL}),
    Greatest = max(TabLocks),
    case Greatest of
	empty ->  X;
	Tid ->    X;
	WaitForTid ->
	    case allowed_to_be_queued(WaitForTid,Tid) of
		true ->
		    {queue, WaitForTid};
		false when AlreadyQ =:= {no, bad_luck} ->
		    {no, WaitForTid}
	    end
    end.

sort_queue(QL) ->
    case get(pid_sort_order) of
	undefined ->
	    lists:reverse(lists:keysort(#queue.tid, QL));
	r9b_plain ->
	    lists:sort(fun(#queue{tid=X},#queue{tid=Y}) ->
			       cmp_tid(true, X, Y) == 1
		       end, QL);
	standard  ->
	    lists:sort(fun(#queue{tid=X},#queue{tid=Y}) ->
			       cmp_tid(false, X, Y) == 1
		       end, QL)
    end.

max([]) ->                 empty;
max([#queue{tid=Max}]) ->  Max;
max(L) ->
    [#queue{tid=Max}|_] = sort_queue(L),
    Max.

set_read_lock_on_all_keys(Tid, From, Tab, IxKey, Pos) ->
    Oid = {Tab,?ALL},
    Op = {ix_read,IxKey, Pos},
    Lock = read,
    case can_lock(Tid, Lock, Oid, {no, bad_luck}) of
	{yes, Default} ->
	    Reply = grant_lock(Tid, Op, Lock, Oid, Default),
	    reply(From, Reply);
	{{no, Lucky},_} ->
	    C = #cyclic{op = Op, lock = Lock, oid = Oid, lucky = Lucky},
	    ?dbg("Rejected ~p ~p ~p ~p ~n", [Tid, Oid, Lock, Lucky]),
	    reply(From, {not_granted, C});
	{{queue, Lucky},_} ->
	    ?dbg("Queued ~p ~p ~p ~p ~n", [Tid, Oid, Lock, Lucky]),
	    %% Append to queue: Nice place for trace output
	    ?ets_insert(mnesia_lock_queue,
			#queue{oid = Oid, tid = Tid, op = Op,
			       pid = From, lucky = Lucky}),
	    ?ets_insert(mnesia_tid_locks, {{Tid, Oid, {queued, Op}}})
    end.

%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% Release of locks

%% Release remote non-pending nodes
release_remote_non_pending(Node, Pending) ->
    %% Clear the mnesia_sticky_locks table first, to avoid
    %% unnecessary requests to the failing node
    ?ets_match_delete(mnesia_sticky_locks, {'_' , Node}),

    %% Then we have to release all locks held by processes
    %% running at the failed node and also simply remove all
    %% queue'd requests back to the failed node

    AllTids0 = ?ets_match(mnesia_tid_locks, {{'$1', '_', '_'}}),
    AllTids  = lists:usort(AllTids0),
    Tids = [T || [T] <- AllTids, Node == node(T#tid.pid), not lists:member(T, Pending)],
    do_release_tids(Tids).

do_release_tids([Tid | Tids]) ->
    do_release_tid(Tid),
    do_release_tids(Tids);
do_release_tids([]) ->
    ok.

do_release_tid(Tid) ->
    Objects = ets:select(mnesia_tid_locks, [{{{Tid, '_', '_'}}, [], ['$_']}]),
    Locks = lists:map(fun({L}) -> L end, Objects),
    ?dbg("Release ~p ~p ~n", [Tid, Locks]),
    [?ets_delete(mnesia_tid_locks, L) || L <- Locks],
    release_locks(Locks),
    %% Removed queued locks which has had locks
    UniqueLocks = keyunique(lists:sort(Locks),[]),
    rearrange_queue(UniqueLocks).

keyunique([{_Tid, Oid, _Op}|R], Acc = [{_, Oid, _}|_]) ->
    keyunique(R, Acc);
keyunique([H|R], Acc) ->
    keyunique(R, [H|Acc]);
keyunique([], Acc) ->
    Acc.

release_locks([Lock | Locks]) ->
    release_lock(Lock),
    release_locks(Locks);
release_locks([]) ->
    ok.

release_lock({Tid, Oid, {queued, _}}) ->
    ?ets_match_delete(mnesia_lock_queue, #queue{oid=Oid, tid = Tid, op = '_',
						pid = '_', lucky = '_'});
release_lock({_Tid, Oid, write}) ->
    ?ets_delete(mnesia_held_locks, Oid);
release_lock({Tid, Oid, read}) ->
    case ?ets_lookup(mnesia_held_locks, Oid) of
	[{Oid, Prev, Locks0}] ->
	    case remove_tid(Locks0, Tid, []) of
		[] -> ?ets_delete(mnesia_held_locks, Oid);
		Locks -> ?ets_insert(mnesia_held_locks, {Oid, Prev, Locks})
	    end;
	[] -> ok
    end.

remove_tid([{_Op, Tid}|Ls], Tid, Acc) ->
    remove_tid(Ls,Tid, Acc);
remove_tid([Keep|Ls], Tid, Acc) ->
    remove_tid(Ls,Tid, [Keep|Acc]);
remove_tid([], _, Acc) -> Acc.

rearrange_queue([{_Tid, {Tab, Key}, _} | Locks]) ->
    if
	Key /= ?ALL->
	    Queue =
		ets:lookup(mnesia_lock_queue, {Tab, ?ALL}) ++
		ets:lookup(mnesia_lock_queue, {Tab, Key}),
	    case Queue of
		[] ->
		    ok;
		_ ->
		    Sorted = sort_queue(Queue),
		    try_waiters_obj(Sorted)
	    end;
	true ->
	    Pat = ?match_oid_lock_queue({Tab, '_'}),
	    Queue = ?ets_match_object(mnesia_lock_queue, Pat),
	    Sorted = sort_queue(Queue),
	    try_waiters_tab(Sorted)
    end,
    ?dbg("RearrQ ~p~n", [Queue]),
    rearrange_queue(Locks);
rearrange_queue([]) ->
    ok.

try_waiters_obj([W | Waiters]) ->
    case try_waiter(W) of
	queued ->
	    no;
	_ ->
	    try_waiters_obj(Waiters)
    end;
try_waiters_obj([]) ->
    ok.

try_waiters_tab([W | Waiters]) ->
    case W#queue.oid of
	{_Tab, ?ALL} ->
	    case try_waiter(W) of
		queued ->
		    no;
		_ ->
		    try_waiters_tab(Waiters)
	    end;
	Oid ->
	    case try_waiter(W) of
		queued ->
		    Rest = key_delete_all(Oid, #queue.oid, Waiters),
		    try_waiters_tab(Rest);
		_ ->
		    try_waiters_tab(Waiters)
	    end
    end;
try_waiters_tab([]) ->
    ok.

try_waiter({queue, Oid, Tid, read_write, ReplyTo, _}) ->
    try_waiter(Oid, read_write, read, write, ReplyTo, Tid);
try_waiter({queue, Oid, Tid, IXR = {ix_read,_,_}, ReplyTo, _}) ->
    try_waiter(Oid, IXR, IXR, read, ReplyTo, Tid);
try_waiter({queue, Oid, Tid, Op, ReplyTo, _}) ->
    try_waiter(Oid, Op, Op, Op, ReplyTo, Tid).

try_waiter(Oid, Op, SimpleOp, Lock, ReplyTo, Tid) ->
    case can_lock(Tid, Lock, Oid, {queue, bad_luck}) of
	{yes, Default} ->
	    %% Delete from queue: Nice place for trace output
	    ?ets_match_delete(mnesia_lock_queue,
			      #queue{oid=Oid, tid = Tid, op = Op,
				     pid = ReplyTo, lucky = '_'}),
	    Reply = grant_lock(Tid, SimpleOp, Lock, Oid, Default),
	    reply(ReplyTo,Reply),
	    locked;
	{{queue, _Why}, _} ->
	    ?dbg("Keep ~p ~p ~p ~p~n", [Tid, Oid, Lock, _Why]),
	    queued; % Keep waiter in queue
	{{no, Lucky}, _} ->
	    C = #cyclic{op = SimpleOp, lock = Lock, oid = Oid, lucky = Lucky},
	    verbose("** WARNING ** Restarted transaction, possible deadlock in lock queue ~w: cyclic = ~w~n",
		    [Tid, C]),
	    ?ets_match_delete(mnesia_lock_queue,
			      #queue{oid=Oid, tid = Tid, op = Op,
				     pid = ReplyTo, lucky = '_'}),
	    Reply = {not_granted, C},
	    reply(ReplyTo,Reply),
	    removed
    end.

key_delete_all(Key, Pos, TupleList) ->
    key_delete_all(Key, Pos, TupleList, []).
key_delete_all(Key, Pos, [H|T], Ack) when element(Pos, H) == Key ->
    key_delete_all(Key, Pos, T, Ack);
key_delete_all(Key, Pos, [H|T], Ack) ->
    key_delete_all(Key, Pos, T, [H|Ack]);
key_delete_all(_, _, [], Ack) ->
    lists:reverse(Ack).

ix_read_res(Tab,IxKey,Pos) ->
    Index = mnesia_index:get_index_table(Tab, Pos),
    Rks = mnesia_lib:elems(2,mnesia_index:db_get(Index, IxKey)),
    lists:append(lists:map(fun(Real) -> mnesia_lib:db_get(Tab, Real) end, Rks)).

%% ********************* end server code ********************
%% The following code executes at the client side of a transactions

%% Aquire a write lock, but do a read, used by
%% mnesia:wread/1

rwlock(Tid, Store, Oid) ->
    {Tab, Key} = Oid,
    case val({Tab, where_to_read}) of
	nowhere ->
	    mnesia:abort({no_exists, Tab});
	Node ->
	    Lock = write,
	    case need_lock(Store, Tab, Key, Lock)  of
		yes ->
		    {Ns0, Majority} = w_nodes(Tab),
		    Ns = [Node|lists:delete(Node,Ns0)],
		    check_majority(Majority, Tab, Ns),
		    Res = get_rwlocks_on_nodes(Ns, make_ref(), Store, Tid, Oid),
		    ?ets_insert(Store, {{locks, Tab, Key}, Lock}),
		    Res;
		no ->
		    if
			Key == ?ALL ->
			    element(2, w_nodes(Tab));
			Tab == ?GLOBAL ->
			    element(2, w_nodes(Tab));
			true ->
			    dirty_rpc(Node, Tab, Key, Lock)
		    end
	    end
    end.

%% Return a list of nodes or abort transaction
%% WE also insert any additional where_to_write nodes
%% in the local store under the key == nodes

w_nodes(Tab) ->
    case ?catch_val({Tab, where_to_wlock}) of
	{[_ | _], _} = Where -> Where;
	_ ->  mnesia:abort({no_exists, Tab})
    end.

%% If the table has the 'majority' flag set, we can
%% only take a write lock if we see a majority of the
%% nodes.


check_majority(true, Tab, HaveNs) ->
    check_majority(Tab, HaveNs);
check_majority(false, _, _) ->
    ok.

check_majority(Tab, HaveNs) ->
    case ?catch_val({Tab, majority}) of
	true ->
	    case mnesia_lib:have_majority(Tab, HaveNs) of
		true ->
		    ok;
		false ->
		    mnesia:abort({no_majority, Tab})
	    end;
	_ ->
	    ok
    end.

%% aquire a sticky wlock, a sticky lock is a lock
%% which remains at this node after the termination of the
%% transaction.

sticky_wlock(Tid, Store, Oid) ->
    sticky_lock(Tid, Store, Oid, write).

sticky_rwlock(Tid, Store, Oid) ->
    sticky_lock(Tid, Store, Oid, read_write).

sticky_lock(Tid, Store, {Tab, Key} = Oid, Lock) ->
    N = val({Tab, where_to_read}),
    if
	node() == N ->
	    case need_lock(Store, Tab, Key, write) of
	    	yes ->
		    do_sticky_lock(Tid, Store, Oid, Lock);
		no ->
		    dirty_sticky_lock(Tab, Key, [N], Lock)
	    end;
	true ->
	    mnesia:abort({not_local, Tab})
    end.

do_sticky_lock(Tid, Store, {Tab, Key} = Oid, Lock) ->
    {WNodes, Majority} = w_nodes(Tab),
    sticky_check_majority(Lock, Tab, Majority, WNodes),
    ?MODULE ! {self(), {test_set_sticky, Tid, Oid, Lock}},
    N = node(),
    receive
	{?MODULE, N, granted} ->
	    ?ets_insert(Store, {{locks, Tab, Key}, write}),
	    [?ets_insert(Store, {nodes, Node}) || Node <- WNodes],
	    granted;
	{?MODULE, N, {granted, Val}} -> %% for rwlocks
	    case opt_lookup_in_client(Val, Oid, write) of
		C = #cyclic{} ->
		    exit({aborted, C});
		Val2 ->
		    ?ets_insert(Store, {{locks, Tab, Key}, write}),
		    [?ets_insert(Store, {nodes, Node}) || Node <- WNodes],
		    Val2
	    end;
	{?MODULE, N, {not_granted, Reason}} ->
	    exit({aborted, Reason});
	{?MODULE, N, not_stuck} ->
	    not_stuck(Tid, Store, Tab, Key, Oid, Lock, N),
	    dirty_sticky_lock(Tab, Key, [N], Lock);
	{mnesia_down, Node} ->
	    EMsg = {aborted, {node_not_running, Node}},
	    flush_remaining([N], Node, EMsg);
	{?MODULE, N, {stuck_elsewhere, _N2}} ->
	    stuck_elsewhere(Tid, Store, Tab, Key, Oid, Lock),
	    dirty_sticky_lock(Tab, Key, [N], Lock)
    end.

sticky_check_majority(W, Tab, true, WNodes) when W==write; W==read_write ->
    case mnesia_lib:have_majority(Tab, WNodes) of
	true ->
	    ok;
	false ->
	    mnesia:abort({no_majority, Tab})
    end;
sticky_check_majority(_, _, _, _) ->
    ok.

not_stuck(Tid, Store, Tab, _Key, Oid, _Lock, N) ->
    rlock(Tid, Store, {Tab, ?ALL}),   %% needed?
    wlock(Tid, Store, Oid),           %% perfect sync
    wlock(Tid, Store, {Tab, ?STICK}), %% max one sticker/table
    Ns = val({Tab, where_to_write}),
    rpc:abcast(Ns, ?MODULE, {stick, Oid, N}).

stuck_elsewhere(Tid, Store, Tab, _Key, Oid, _Lock) ->
    rlock(Tid, Store, {Tab, ?ALL}),   %% needed?
    wlock(Tid, Store, Oid),           %% perfect sync
    wlock(Tid, Store, {Tab, ?STICK}), %% max one sticker/table
    Ns = val({Tab, where_to_write}),
    rpc:abcast(Ns, ?MODULE, {unstick, Tab}).

dirty_sticky_lock(Tab, Key, Nodes, Lock) ->
    if
	Lock == read_write ->
	    mnesia_lib:db_get(Tab, Key);
	Key == ?ALL ->
	    Nodes;
	Tab == ?GLOBAL ->
	    Nodes;
	true ->
	    ok
    end.

sticky_wlock_table(Tid, Store, Tab) ->
    sticky_lock(Tid, Store, {Tab, ?ALL}, write).

%% aquire a wlock on Oid
%% We store a {Tabname, write, Tid} in all locktables
%% on all nodes containing a copy of Tabname
%% We also store an item {{locks, Tab, Key}, write} in the
%% local store when we have aquired the lock.
%%
wlock(Tid, Store, Oid) ->
    wlock(Tid, Store, Oid, _CheckMajority = true).

wlock(Tid, Store, Oid, CheckMajority) ->
    {Tab, Key} = Oid,
    case need_lock(Store, Tab, Key, write) of
	yes ->
	    {Ns, Majority} = w_nodes(Tab),
	    if CheckMajority ->
		    check_majority(Majority, Tab, Ns);
	       true ->
		    ignore
	    end,
	    Op = {self(), {write, Tid, Oid}},
	    ?ets_insert(Store, {{locks, Tab, Key}, write}),
	    get_wlocks_on_nodes(Ns, Ns, Store, Op, Oid);
	no when Key /= ?ALL, Tab /= ?GLOBAL ->
	    [];
	no ->
	    element(2, w_nodes(Tab))
    end.

wlock_table(Tid, Store, Tab) ->
    wlock(Tid, Store, {Tab, ?ALL}).

load_lock_table(Tid, Store, Tab) ->
    wlock(Tid, Store, {Tab, ?ALL}, _CheckMajority = false).

%% Write lock even if the table does not exist

wlock_no_exist(Tid, Store, Tab, Ns) ->
    Oid = {Tab, ?ALL},
    Op = {self(), {write, Tid, Oid}},
    get_wlocks_on_nodes(Ns, Ns, Store, Op, Oid).

need_lock(Store, Tab, Key, LockPattern) ->
    TabL = ?ets_match_object(Store, {{locks, Tab, ?ALL}, LockPattern}),
    if
	TabL == [] ->
	    KeyL = ?ets_match_object(Store, {{locks, Tab, Key}, LockPattern}),
	    if
		KeyL == [] ->
		    yes;
		true  ->
		    no
	    end;
	true ->
	    no
    end.

add_debug(Nodes) ->  % Use process dictionary for debug info
    put(mnesia_wlock_nodes, Nodes).

del_debug() ->
    erase(mnesia_wlock_nodes).

%% We first send lock request to the local node if it is part of the lockers
%% then the first sorted node then to the rest of the lockmanagers on all
%% nodes holding a copy of the table

get_wlocks_on_nodes([Node | Tail], Orig, Store, Request, Oid) ->
    {?MODULE, Node} ! Request,
    ?ets_insert(Store, {nodes, Node}),
    receive_wlocks([Node], undefined, Store, Oid),
    case node() of
	Node -> %% Local done try one more
	    get_wlocks_on_nodes(Tail, Orig, Store, Request, Oid);
	_ ->    %% The first succeded cont with the rest
	    get_wlocks_on_nodes(Tail, Store, Request),
	    receive_wlocks(Tail, Orig, Store, Oid)
    end;
get_wlocks_on_nodes([], Orig, _Store, _Request, _Oid) ->
    Orig.

get_wlocks_on_nodes([Node | Tail], Store, Request) ->
    {?MODULE, Node} ! Request,
    ?ets_insert(Store,{nodes, Node}),
    get_wlocks_on_nodes(Tail, Store, Request);
get_wlocks_on_nodes([], _, _) ->
    ok.

get_rwlocks_on_nodes([ReadNode|Tail], Ref, Store, Tid, Oid) ->
    Op = {self(), {read_write, Tid, Oid}},
    {?MODULE, ReadNode} ! Op,
    ?ets_insert(Store, {nodes, ReadNode}),
    case receive_wlocks([ReadNode], Ref, Store, Oid) of
	Ref ->
	    get_rwlocks_on_nodes(Tail, Ref, Store, Tid, Oid);
	Res ->
	    get_wlocks_on_nodes(Tail, Res, Store, {self(), {write, Tid, Oid}}, Oid)
    end;
get_rwlocks_on_nodes([],Res,_,_,_) ->
    Res.

receive_wlocks([], Res, _Store, _Oid) ->
    del_debug(),
    Res;
receive_wlocks(Nodes = [This|Ns], Res, Store, Oid) ->
    add_debug(Nodes),
    receive
	{?MODULE, Node, granted} ->
	    receive_wlocks(lists:delete(Node,Nodes), Res, Store, Oid);
	{?MODULE, Node, {granted, Val}} -> %% for rwlocks
	    case opt_lookup_in_client(Val, Oid, write) of
		C = #cyclic{} ->
		    flush_remaining(Nodes, Node, {aborted, C});
		Val2 ->
		    receive_wlocks(lists:delete(Node,Nodes), Val2, Store, Oid)
	    end;
	{?MODULE, Node, {not_granted, Reason}} ->
	    Reason1 = {aborted, Reason},
	    flush_remaining(Nodes,Node,Reason1);
	{?MODULE, Node, {switch, Sticky, _Req}} -> %% for rwlocks
	    Tail = lists:delete(Node,Nodes),
	    Nonstuck = lists:delete(Sticky,Tail),
	    [?ets_insert(Store, {nodes, NSNode}) || NSNode <- Nonstuck],
	    case lists:member(Sticky,Tail) of
		true ->
		    sticky_flush(Nonstuck,Store),
		    receive_wlocks([Sticky], Res, Store, Oid);
		false ->
		    sticky_flush(Nonstuck,Store),
		    Res
	    end;
	{mnesia_down, This} ->  % Only look for down from Nodes in list
	    Reason1 = {aborted, {node_not_running, This}},
	    flush_remaining(Ns, This, Reason1)
    end.

sticky_flush([], _) ->
    del_debug(),
    ok;
sticky_flush(Ns=[Node | Tail], Store) ->
    add_debug(Ns),
    receive
	{?MODULE, Node, _} ->
	    sticky_flush(Tail, Store);
	{mnesia_down, Node} ->
	    Reason1 = {aborted, {node_not_running, Node}},
	    flush_remaining(Tail, Node, Reason1)
    end.

flush_remaining([], _SkipNode, Res) ->
    del_debug(),
    exit(Res);
flush_remaining(Ns=[SkipNode | Tail ], SkipNode, Res) ->
    add_debug(Ns),
    receive
	{?MODULE, SkipNode, _} ->
	    flush_remaining(Tail, SkipNode, Res)
    after 0 ->
	    flush_remaining(Tail, SkipNode, Res)
    end;
flush_remaining(Ns=[Node | Tail], SkipNode, Res) ->
    add_debug(Ns),
    receive
	{?MODULE, Node, _} ->
	    flush_remaining(Tail, SkipNode, Res);
	{mnesia_down, Node} ->
	    flush_remaining(Tail, SkipNode, {aborted, {node_not_running, Node}})
    end.

opt_lookup_in_client(lookup_in_client, Oid, Lock) ->
    {Tab, Key} = Oid,
    try mnesia_lib:db_get(Tab, Key)
    catch error:_ ->
	    %% Table has been deleted from this node,
	    %% restart the transaction.
	    #cyclic{op = read, lock = Lock, oid = Oid, lucky = nowhere}
    end;
opt_lookup_in_client(Val, _Oid, _Lock) ->
    Val.

return_granted_or_nodes({_, ?ALL}   , Nodes) -> Nodes;
return_granted_or_nodes({?GLOBAL, _}, Nodes) -> Nodes;
return_granted_or_nodes(_           , _Nodes) -> granted.

%% We store a {Tab, read, From} item in the
%% locks table on the node where we actually do pick up the object
%% and we also store an item {lock, Oid, read} in our local store
%% so that we can release any locks we hold when we commit.
%% This function not only aquires a read lock, but also reads the object

%% Oid's are always {Tab, Key} tuples
rlock(Tid, Store, Oid) ->
    {Tab, Key} = Oid,
    case val({Tab, where_to_read}) of
	nowhere ->
	    mnesia:abort({no_exists, Tab});
	Node ->
	    case need_lock(Store, Tab, Key, '_') of
		yes ->
		    R = l_request(Node, {read, Tid, Oid}, Store),
		    rlock_get_reply(Node, Store, Oid, R);
		no ->
		    if
			Key == ?ALL ->
			    [Node];
			Tab == ?GLOBAL ->
			    [Node];
			true ->
			    dirty_rpc(Node, Tab, Key, read)
		    end
	    end
    end.

dirty_rpc(nowhere, Tab, Key, _Lock) ->
    mnesia:abort({no_exists, {Tab, Key}});
dirty_rpc(Node, _Tab, ?ALL, _Lock) ->
    [Node];
dirty_rpc(Node, ?GLOBAL, _Key, _Lock) ->
    [Node];
dirty_rpc(Node, Tab, Key, Lock) ->
    Args = [Tab, Key],
    case rpc:call(Node, mnesia_lib, db_get, Args) of
	{badrpc, Reason} ->
	    case val({Tab, where_to_read}) of
		Node ->
		    ErrorTag = mnesia_lib:dirty_rpc_error_tag(Reason),
		    mnesia:abort({ErrorTag, Args});
		_NewNode ->
		    %% Table has been deleted from the node,
		    %% restart the transaction.
		    C = #cyclic{op = read, lock = Lock, oid = {Tab, Key}, lucky = nowhere},
		    exit({aborted, C})
	    end;
	Other ->
	    Other
    end.

rlock_get_reply(Node, Store, Oid, {granted, V}) ->
    {Tab, Key} = Oid,
    ?ets_insert(Store, {{locks, Tab, Key}, read}),
    ?ets_insert(Store, {nodes, Node}),
    case opt_lookup_in_client(V, Oid, read) of
	C = #cyclic{} ->
	    mnesia:abort(C);
	Val ->
	    Val
    end;
rlock_get_reply(Node, Store, Oid, granted) ->
    {Tab, Key} = Oid,
    ?ets_insert(Store, {{locks, Tab, Key}, read}),
    ?ets_insert(Store, {nodes, Node}),
    return_granted_or_nodes(Oid, [Node]);
rlock_get_reply(Node, Store, Tab, {granted, V, RealKeys}) ->
    %% Kept for backwards compatibility, keep until no old nodes
    %% are available
    L = fun(K) -> ?ets_insert(Store, {{locks, Tab, K}, read}) end,
    lists:foreach(L, RealKeys),
    ?ets_insert(Store, {nodes, Node}),
    V;
rlock_get_reply(_Node, _Store, _Oid, {not_granted, Reason}) ->
    exit({aborted, Reason});

rlock_get_reply(_Node, Store, Oid, {switch, N2, Req}) ->
    ?ets_insert(Store, {nodes, N2}),
    {?MODULE, N2} ! Req,
    rlock_get_reply(N2, Store, Oid, l_req_rec(N2, Store)).

rlock_table(Tid, Store, Tab) ->
    rlock(Tid, Store, {Tab, ?ALL}).

ixrlock(Tid, Store, Tab, IxKey, Pos) ->
    case val({Tab, where_to_read}) of
	nowhere ->
	    mnesia:abort({no_exists, Tab});
	Node ->
	    %%% Old code
	    %% R = l_request(Node, {ix_read, Tid, Tab, IxKey, Pos}, Store),
	    %% rlock_get_reply(Node, Store, Tab, R)

	    case need_lock(Store, Tab, ?ALL, read) of
		no when Node =:= node() ->
		    ix_read_res(Tab,IxKey,Pos);
		_ -> %% yes or need to get the result from other node
		    R = l_request(Node, {ix_read, Tid, Tab, IxKey, Pos}, Store),
		    rlock_get_reply(Node, Store, Tab, R)
	    end
    end.

%% Grabs the locks or exits
global_lock(Tid, Store, Item, write, Ns) ->
    Oid = {?GLOBAL, Item},
    Op = {self(), {write, Tid, Oid}},
    get_wlocks_on_nodes(Ns, Ns, Store, Op, Oid);
global_lock(Tid, Store, Item, read, Ns) ->
    Oid = {?GLOBAL, Item},
    send_requests(Ns, {read, Tid, Oid}),
    rec_requests(Ns, Oid, Store),
    Ns.

send_requests([Node | Nodes], X) ->
    {?MODULE, Node} ! {self(), X},
    send_requests(Nodes, X);
send_requests([], _X) ->
    ok.

rec_requests([Node | Nodes], Oid, Store) ->
    Res = l_req_rec(Node, Store),
    try rlock_get_reply(Node, Store, Oid, Res) of
	_ -> rec_requests(Nodes, Oid, Store)
    catch _:Reason ->
	    flush_remaining(Nodes, Node, Reason)
    end;
rec_requests([], _Oid, _Store) ->
    ok.

get_held_locks() ->
    ?MODULE ! {get_table, self(), mnesia_held_locks},
    Locks = receive {mnesia_held_locks, Ls} -> Ls after 5000 -> [] end,
    rewrite_locks(Locks, []).

%% Mnesia internal usage only
get_held_locks(Tab) when is_atom(Tab) ->
    Oid = {Tab, ?ALL},
    ?MODULE ! {self(), {is_locked, Oid}},
    receive
	{?MODULE, _Node, Locks} ->
	    case Locks of
		[] -> [];
		[{Oid, _Prev, What}] -> What
	    end
    end.


rewrite_locks([{Oid, _, Ls}|Locks], Acc0) ->
    Acc = rewrite_locks(Ls, Oid, Acc0),
    rewrite_locks(Locks, Acc);
rewrite_locks([], Acc) ->
    lists:reverse(Acc).

rewrite_locks([{Op, Tid}|Ls], Oid, Acc) ->
    rewrite_locks(Ls, Oid, [{Oid, Op, Tid}|Acc]);
rewrite_locks([], _, Acc) ->
    Acc.

get_lock_queue() ->
    ?MODULE ! {get_table, self(), mnesia_lock_queue},
    Q = receive {mnesia_lock_queue, Locks} -> Locks after 5000 -> [] end,
    [{Oid, Op, Pid, Tid, WFT} || {queue, Oid, Tid, Op, Pid, WFT} <- Q].

do_stop() ->
    exit(shutdown).

%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% System upgrade

system_continue(_Parent, _Debug, State) ->
    loop(State).

-spec system_terminate(_, _, _, _) -> no_return().
system_terminate(_Reason, _Parent, _Debug, _State) ->
    do_stop().

system_code_change(State, _Module, _OldVsn, _Extra) ->
    {ok, State}.


%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% AXD301 patch sort pids according to R9B sort order
%%%%%%%%%%%%%%%%%%%%%%%%%%%

%% Om R9B == true, the comparison is done as in R9B plain.
%% Om R9B == false, the comparison is done as in any other release.
%% cmp_tid(T1, T2) returns -1 if T1 < T2, 0 if T1 = T2 and 1 if T1 > T2.

-define(VERSION_MAGIC,       131).
-define(ATOM_EXT,            100).
-define(PID_EXT,             103).

-record(pid_info, {serial, number, nodename, creation}).

cmp_tid(R9B,
	#tid{} = T,
	#tid{} = T) when R9B == true; R9B == false ->
    0;
cmp_tid(R9B,
	#tid{counter = C, pid = Pid1},
	#tid{counter = C, pid = Pid2}) when R9B == true; R9B == false ->
    cmp_pid_info(R9B, pid_to_pid_info(Pid1), pid_to_pid_info(Pid2));
cmp_tid(R9B,
	#tid{counter = C1},
	#tid{counter = C2}) when R9B == true; R9B == false ->
    cmp(C1, C2).

cmp_pid_info(_, #pid_info{} = PI, #pid_info{} = PI) ->
    0;
cmp_pid_info(false,
	     #pid_info{serial = S, number = N, nodename = NN, creation = C1},
	     #pid_info{serial = S, number = N, nodename = NN, creation = C2}) ->
    cmp(C1, C2);
cmp_pid_info(false,
	     #pid_info{serial = S, number = N, nodename = NN1},
	     #pid_info{serial = S, number = N, nodename = NN2}) ->
    cmp(NN1, NN2);
cmp_pid_info(false,
	     #pid_info{serial = S, number = N1},
	     #pid_info{serial = S, number = N2}) ->
    cmp(N1, N2);
cmp_pid_info(false, #pid_info{serial = S1}, #pid_info{serial = S2}) ->
    cmp(S1, S2);
cmp_pid_info(true,
	     #pid_info{nodename = NN, creation = C, serial = S, number = N1},
	     #pid_info{nodename = NN, creation = C, serial = S, number = N2}) ->
    cmp(N1, N2);
cmp_pid_info(true,
	     #pid_info{nodename = NN, creation = C, serial = S1},
	     #pid_info{nodename = NN, creation = C, serial = S2}) ->
    cmp(S1, S2);
cmp_pid_info(true,
	     #pid_info{nodename = NN, creation = C1},
	     #pid_info{nodename = NN, creation = C2}) ->
    cmp(C1, C2);
cmp_pid_info(true, #pid_info{nodename = NN1}, #pid_info{nodename = NN2}) ->
    cmp(NN1, NN2).

cmp(X, X) -> 0;
cmp(X1, X2) when X1 < X2 -> -1;
cmp(_X1, _X2) -> 1.

pid_to_pid_info(Pid) when is_pid(Pid) ->
    [?VERSION_MAGIC, ?PID_EXT, ?ATOM_EXT, NNL1, NNL0 | Rest]
	= binary_to_list(term_to_binary(Pid)),
    [N3, N2, N1, N0, S3, S2, S1, S0, Creation] = drop(bytes2int(NNL1, NNL0),
						      Rest),
    #pid_info{serial = bytes2int(S3, S2, S1, S0),
	      number = bytes2int(N3, N2, N1, N0),
	      nodename = node(Pid),
	      creation = Creation}.

drop(0, L) -> L;
drop(N, [_|L]) when is_integer(N), N > 0 -> drop(N-1, L);
drop(N, []) when is_integer(N), N > 0 -> [].

bytes2int(N1, N0) when 0 =< N1, N1 =< 255,
		       0 =< N0, N0 =< 255 ->
    (N1 bsl 8) bor N0.
bytes2int(N3, N2, N1, N0) when 0 =< N3, N3 =< 255,
			       0 =< N2, N2 =< 255,
			       0 =< N1, N1 =< 255,
			       0 =< N0, N0 =< 255 ->
    (N3 bsl 24) bor (N2 bsl 16) bor (N1 bsl 8) bor N0.