diff options
Diffstat (limited to 'erts/preloaded/src/erlang.erl')
-rw-r--r-- | erts/preloaded/src/erlang.erl | 410 |
1 files changed, 403 insertions, 7 deletions
diff --git a/erts/preloaded/src/erlang.erl b/erts/preloaded/src/erlang.erl index 5deb69edab..4affc9bffe 100644 --- a/erts/preloaded/src/erlang.erl +++ b/erts/preloaded/src/erlang.erl @@ -35,14 +35,15 @@ -export([delay_trap/2]). -export([set_cookie/2, get_cookie/0]). -export([nodes/0]). --export([concat_binary/1]). + -export([list_to_integer/2,integer_to_list/2]). -export([flush_monitor_message/2]). -export([set_cpu_topology/1, format_cpu_topology/1]). -export([await_proc_exit/3]). +-export([memory/0, memory/1]). +-export([alloc_info/1, alloc_sizes/1]). -deprecated([hash/2]). --deprecated([concat_binary/1]). % Get rid of autoimports of spawn to avoid clashes with ourselves. -compile({no_auto_import,[spawn/1]}). @@ -535,11 +536,6 @@ set_cookie(Node, C) when Node =/= nonode@nohost, is_atom(Node) -> get_cookie() -> auth:get_cookie(). --spec concat_binary(ListOfBinaries) -> binary() when - ListOfBinaries :: iolist(). -concat_binary(List) -> - list_to_binary(List). - -spec integer_to_list(Integer, Base) -> string() when Integer :: integer(), Base :: 2..36. @@ -806,3 +802,403 @@ min(A, _) -> A. Maximum :: term(). max(A, B) when A < B -> B; max(A, _) -> A. + + +%% +%% erlang:memory/[0,1] +%% +%% NOTE! When updating these functions, make sure to also update +%% erts_memory() in $ERL_TOP/erts/emulator/beam/erl_alloc.c +%% + +-type memory_type() :: 'total' | 'processes' | 'processes_used' | 'system' | 'atom' | 'atom_used' | 'binary' | 'code' | 'ets' | 'low' | 'maximum'. + +-define(CARRIER_ALLOCS, [mseg_alloc, sbmbc_alloc, sbmbc_low_alloc]). +-define(LOW_ALLOCS, [sbmbc_low_alloc, ll_low_alloc, std_low_alloc]). +-define(ALL_NEEDED_ALLOCS, (erlang:system_info(alloc_util_allocators) + -- ?CARRIER_ALLOCS)). + +-record(memory, {total = 0, + processes = 0, + processes_used = 0, + system = 0, + atom = 0, + atom_used = 0, + binary = 0, + code = 0, + ets = 0, + low = 0, + maximum = 0}). + +-spec memory() -> [{memory_type(), non_neg_integer()}]. +memory() -> + case aa_mem_data(au_mem_data(?ALL_NEEDED_ALLOCS)) of + notsup -> + erlang:error(notsup); + Mem -> + InstrTail = case Mem#memory.maximum of + 0 -> []; + _ -> [{maximum, Mem#memory.maximum}] + end, + Tail = case Mem#memory.low of + 0 -> InstrTail; + _ -> [{low, Mem#memory.low} | InstrTail] + end, + [{total, Mem#memory.total}, + {processes, Mem#memory.processes}, + {processes_used, Mem#memory.processes_used}, + {system, Mem#memory.system}, + {atom, Mem#memory.atom}, + {atom_used, Mem#memory.atom_used}, + {binary, Mem#memory.binary}, + {code, Mem#memory.code}, + {ets, Mem#memory.ets} | Tail] + end. + +-spec memory(memory_type()|[memory_type()]) -> non_neg_integer() | [{memory_type(), non_neg_integer()}]. +memory(Type) when is_atom(Type) -> + {AA, ALCU, ChkSup, BadArgZero} = need_mem_info(Type), + case get_mem_data(ChkSup, ALCU, AA) of + notsup -> + erlang:error(notsup, [Type]); + Mem -> + Value = get_memval(Type, Mem), + case {BadArgZero, Value} of + {true, 0} -> erlang:error(badarg, [Type]); + _ -> Value + end + end; +memory(Types) when is_list(Types) -> + {AA, ALCU, ChkSup, BadArgZeroList} = need_mem_info_list(Types), + case get_mem_data(ChkSup, ALCU, AA) of + notsup -> + erlang:error(notsup, [Types]); + Mem -> + case memory_result_list(Types, BadArgZeroList, Mem) of + badarg -> erlang:error(badarg, [Types]); + Result -> Result + end + end. + +memory_result_list([], [], _Mem) -> + []; +memory_result_list([T|Ts], [BAZ|BAZs], Mem) -> + case memory_result_list(Ts, BAZs, Mem) of + badarg -> badarg; + TVs -> + V = get_memval(T, Mem), + case {BAZ, V} of + {true, 0} -> badarg; + _ -> [{T, V}| TVs] + end + end. + +get_mem_data(true, AlcUAllocs, NeedAllocatedAreas) -> + case memory_is_supported() of + false -> notsup; + true -> get_mem_data(false, AlcUAllocs, NeedAllocatedAreas) + end; +get_mem_data(false, AlcUAllocs, NeedAllocatedAreas) -> + AlcUMem = case AlcUAllocs of + [] -> #memory{}; + _ -> + au_mem_data(AlcUAllocs) + end, + case NeedAllocatedAreas of + true -> aa_mem_data(AlcUMem); + false -> AlcUMem + end. + +need_mem_info_list([]) -> + {false, [], false, []}; +need_mem_info_list([T|Ts]) -> + {MAA, MALCU, MChkSup, MBadArgZero} = need_mem_info_list(Ts), + {AA, ALCU, ChkSup, BadArgZero} = need_mem_info(T), + {case AA of + true -> true; + _ -> MAA + end, + ALCU ++ (MALCU -- ALCU), + case ChkSup of + true -> true; + _ -> MChkSup + end, + [BadArgZero|MBadArgZero]}. + +need_mem_info(Type) when Type == total; + Type == system -> + {true, ?ALL_NEEDED_ALLOCS, false, false}; +need_mem_info(Type) when Type == processes; + Type == processes_used -> + {true, [eheap_alloc, fix_alloc], true, false}; +need_mem_info(Type) when Type == atom; + Type == atom_used; + Type == code -> + {true, [], true, false}; +need_mem_info(binary) -> + {false, [binary_alloc], true, false}; +need_mem_info(ets) -> + {true, [ets_alloc], true, false}; +need_mem_info(low) -> + LowAllocs = ?LOW_ALLOCS -- ?CARRIER_ALLOCS, + {_, _, FeatureList, _} = erlang:system_info(allocator), + AlcUAllocs = case LowAllocs -- FeatureList of + [] -> LowAllocs; + _ -> [] + end, + {false, AlcUAllocs, true, true}; +need_mem_info(maximum) -> + {true, [], true, true}; +need_mem_info(_) -> + {false, [], false, true}. + +get_memval(total, #memory{total = V}) -> V; +get_memval(processes, #memory{processes = V}) -> V; +get_memval(processes_used, #memory{processes_used = V}) -> V; +get_memval(system, #memory{system = V}) -> V; +get_memval(atom, #memory{atom = V}) -> V; +get_memval(atom_used, #memory{atom_used = V}) -> V; +get_memval(binary, #memory{binary = V}) -> V; +get_memval(code, #memory{code = V}) -> V; +get_memval(ets, #memory{ets = V}) -> V; +get_memval(low, #memory{low = V}) -> V; +get_memval(maximum, #memory{maximum = V}) -> V; +get_memval(_, #memory{}) -> 0. + +memory_is_supported() -> + {_, _, FeatureList, _} = erlang:system_info(allocator), + case ((erlang:system_info(alloc_util_allocators) + -- ?CARRIER_ALLOCS) + -- FeatureList) of + [] -> true; + _ -> false + end. + +get_blocks_size([{blocks_size, Sz, _, _} | Rest], Acc) -> + get_blocks_size(Rest, Acc+Sz); +get_blocks_size([{_, _, _, _} | Rest], Acc) -> + get_blocks_size(Rest, Acc); +get_blocks_size([], Acc) -> + Acc. + +blocks_size([{Carriers, SizeList} | Rest], Acc) when Carriers == mbcs; + Carriers == sbcs; + Carriers == sbmbcs -> + blocks_size(Rest, get_blocks_size(SizeList, Acc)); +blocks_size([_ | Rest], Acc) -> + blocks_size(Rest, Acc); +blocks_size([], Acc) -> + Acc. + +get_fix_proc([{ProcType, A1, U1}| Rest], {A0, U0}) when ProcType == proc; + ProcType == monitor_sh; + ProcType == nlink_sh; + ProcType == msg_ref -> + get_fix_proc(Rest, {A0+A1, U0+U1}); +get_fix_proc([_|Rest], Acc) -> + get_fix_proc(Rest, Acc); +get_fix_proc([], Acc) -> + Acc. + +fix_proc([{fix_types, SizeList} | _Rest], Acc) -> + get_fix_proc(SizeList, Acc); +fix_proc([_ | Rest], Acc) -> + fix_proc(Rest, Acc); +fix_proc([], Acc) -> + Acc. + +is_low_alloc(_A, []) -> + false; +is_low_alloc(A, [A|_As]) -> + true; +is_low_alloc(A, [_A|As]) -> + is_low_alloc(A, As). + +is_low_alloc(A) -> + is_low_alloc(A, ?LOW_ALLOCS). + +au_mem_data(notsup, _) -> + notsup; +au_mem_data(_, [{_, false} | _]) -> + notsup; +au_mem_data(#memory{total = Tot, + processes = Proc, + processes_used = ProcU} = Mem, + [{eheap_alloc, _, Data} | Rest]) -> + Sz = blocks_size(Data, 0), + au_mem_data(Mem#memory{total = Tot+Sz, + processes = Proc+Sz, + processes_used = ProcU+Sz}, + Rest); +au_mem_data(#memory{total = Tot, + system = Sys, + ets = Ets} = Mem, + [{ets_alloc, _, Data} | Rest]) -> + Sz = blocks_size(Data, 0), + au_mem_data(Mem#memory{total = Tot+Sz, + system = Sys+Sz, + ets = Ets+Sz}, + Rest); +au_mem_data(#memory{total = Tot, + system = Sys, + binary = Bin} = Mem, + [{binary_alloc, _, Data} | Rest]) -> + Sz = blocks_size(Data, 0), + au_mem_data(Mem#memory{total = Tot+Sz, + system = Sys+Sz, + binary = Bin+Sz}, + Rest); +au_mem_data(#memory{total = Tot, + processes = Proc, + processes_used = ProcU, + system = Sys} = Mem, + [{fix_alloc, _, Data} | Rest]) -> + {A, U} = fix_proc(Data, {0, 0}), + Sz = blocks_size(Data, 0), + au_mem_data(Mem#memory{total = Tot+Sz, + processes = Proc+A, + processes_used = ProcU+U, + system = Sys+Sz-A}, + Rest); +au_mem_data(#memory{total = Tot, + system = Sys, + low = Low} = Mem, + [{A, _, Data} | Rest]) -> + Sz = blocks_size(Data, 0), + au_mem_data(Mem#memory{total = Tot+Sz, + system = Sys+Sz, + low = case is_low_alloc(A) of + true -> Low+Sz; + false -> Low + end}, + Rest); +au_mem_data(EMD, []) -> + EMD. + +au_mem_data(Allocs) -> + Ref = make_ref(), + erlang:system_info({allocator_sizes, Ref, Allocs}), + receive_emd(Ref). + +receive_emd(_Ref, EMD, 0) -> + EMD; +receive_emd(Ref, EMD, N) -> + receive + {Ref, _, Data} -> + receive_emd(Ref, au_mem_data(EMD, Data), N-1) + end. + +receive_emd(Ref) -> + receive_emd(Ref, #memory{}, erlang:system_info(schedulers)). + +aa_mem_data(#memory{} = Mem, + [{maximum, Max} | Rest]) -> + aa_mem_data(Mem#memory{maximum = Max}, + Rest); +aa_mem_data(#memory{} = Mem, + [{total, Tot} | Rest]) -> + aa_mem_data(Mem#memory{total = Tot, + system = 0}, % system will be adjusted later + Rest); +aa_mem_data(#memory{atom = Atom, + atom_used = AtomU} = Mem, + [{atom_space, Alloced, Used} | Rest]) -> + aa_mem_data(Mem#memory{atom = Atom+Alloced, + atom_used = AtomU+Used}, + Rest); +aa_mem_data(#memory{atom = Atom, + atom_used = AtomU} = Mem, + [{atom_table, Sz} | Rest]) -> + aa_mem_data(Mem#memory{atom = Atom+Sz, + atom_used = AtomU+Sz}, + Rest); +aa_mem_data(#memory{ets = Ets} = Mem, + [{ets_misc, Sz} | Rest]) -> + aa_mem_data(Mem#memory{ets = Ets+Sz}, + Rest); +aa_mem_data(#memory{processes = Proc, + processes_used = ProcU, + system = Sys} = Mem, + [{ProcData, Sz} | Rest]) when ProcData == bif_timer; + ProcData == link_lh; + ProcData == process_table -> + aa_mem_data(Mem#memory{processes = Proc+Sz, + processes_used = ProcU+Sz, + system = Sys-Sz}, + Rest); +aa_mem_data(#memory{code = Code} = Mem, + [{CodeData, Sz} | Rest]) when CodeData == module_table; + CodeData == export_table; + CodeData == export_list; + CodeData == fun_table; + CodeData == module_refs; + CodeData == loaded_code -> + aa_mem_data(Mem#memory{code = Code+Sz}, + Rest); +aa_mem_data(EMD, [{_, _} | Rest]) -> + aa_mem_data(EMD, Rest); +aa_mem_data(#memory{total = Tot, + processes = Proc, + system = Sys} = Mem, + []) when Sys =< 0 -> + %% Instrumented runtime system -> Sys = Tot - Proc + Mem#memory{system = Tot - Proc}; +aa_mem_data(EMD, []) -> + EMD. + +aa_mem_data(notsup) -> + notsup; +aa_mem_data(EMD) -> + aa_mem_data(EMD, erlang:system_info(allocated_areas)). + +%% +%% alloc_info/1 and alloc_sizes/1 are for internal use only (used by +%% erlang:system_info({allocator|allocator_sizes, _})). +%% + +alloc_info(Allocs) -> + get_alloc_info(allocator, Allocs). + +alloc_sizes(Allocs) -> + get_alloc_info(allocator_sizes, Allocs). + +get_alloc_info(Type, AAtom) when is_atom(AAtom) -> + [{AAtom, Result}] = get_alloc_info(Type, [AAtom]), + Result; +get_alloc_info(Type, AList) when is_list(AList) -> + Ref = make_ref(), + erlang:system_info({Type, Ref, AList}), + receive_allocator(Ref, + erlang:system_info(schedulers), + mk_res_list(AList)). + +mk_res_list([]) -> + []; +mk_res_list([Alloc | Rest]) -> + [{Alloc, []} | mk_res_list(Rest)]. + +insert_instance(I, N, []) -> + [{instance, N, I}]; +insert_instance(I, N, [{instance, M, _}|_] = Rest) when N < M -> + [{instance, N, I} | Rest]; +insert_instance(I, N, [Prev|Rest]) -> + [Prev | insert_instance(I, N, Rest)]. + +insert_info([], Ys) -> + Ys; +insert_info([{A, false}|Xs], [{A, _IList}|Ys]) -> + insert_info(Xs, [{A, false}|Ys]); +insert_info([{A, N, I}|Xs], [{A, IList}|Ys]) -> + insert_info(Xs, [{A, insert_instance(I, N, IList)}|Ys]); +insert_info([{A1, _}|_] = Xs, [{A2, _} = Y | Ys]) when A1 /= A2 -> + [Y | insert_info(Xs, Ys)]; +insert_info([{A1, _, _}|_] = Xs, [{A2, _} = Y | Ys]) when A1 /= A2 -> + [Y | insert_info(Xs, Ys)]. + +receive_allocator(_Ref, 0, Acc) -> + Acc; +receive_allocator(Ref, N, Acc) -> + receive + {Ref, _, InfoList} -> + receive_allocator(Ref, N-1, insert_info(InfoList, Acc)) + end. |