diff options
Diffstat (limited to 'lib')
-rw-r--r-- | lib/hipe/cerl/erl_bif_types.erl | 66 | ||||
-rw-r--r-- | lib/hipe/llvm/hipe_llvm_main.erl | 17 | ||||
-rw-r--r-- | lib/hipe/llvm/hipe_rtl_to_llvm.erl | 29 | ||||
-rw-r--r-- | lib/hipe/rtl/hipe_rtl_primops.erl | 3 | ||||
-rw-r--r-- | lib/hipe/rtl/hipe_tagscheme.erl | 14 | ||||
-rw-r--r-- | lib/kernel/src/code_server.erl | 26 | ||||
-rw-r--r-- | lib/kernel/src/hipe_unified_loader.erl | 346 | ||||
-rw-r--r-- | lib/kernel/test/code_SUITE.erl | 31 | ||||
-rw-r--r-- | lib/kernel/test/code_SUITE_data/upgrade_client.erl | 87 | ||||
-rw-r--r-- | lib/kernel/test/code_SUITE_data/upgradee.erl | 12 |
10 files changed, 306 insertions, 325 deletions
diff --git a/lib/hipe/cerl/erl_bif_types.erl b/lib/hipe/cerl/erl_bif_types.erl index c9cc1cfe25..42a038f2d1 100644 --- a/lib/hipe/cerl/erl_bif_types.erl +++ b/lib/hipe/cerl/erl_bif_types.erl @@ -1004,8 +1004,8 @@ type(erlang, tuple_to_list, 1, Xs, Opaques) -> %%-- hipe_bifs ---------------------------------------------------------------- type(hipe_bifs, add_ref, 2, Xs, Opaques) -> strict(hipe_bifs, add_ref, 2, Xs, fun (_) -> t_nil() end, Opaques); -type(hipe_bifs, alloc_data, 2, Xs, Opaques) -> - strict(hipe_bifs, alloc_data, 2, Xs, +type(hipe_bifs, alloc_data, 3, Xs, Opaques) -> + strict(hipe_bifs, alloc_data, 3, Xs, fun (_) -> t_integer() end, Opaques); % address type(hipe_bifs, array, 2, Xs, Opaques) -> strict(hipe_bifs, array, 2, Xs, fun (_) -> t_immarray() end, Opaques); @@ -1052,16 +1052,16 @@ type(hipe_bifs, call_count_on, 1, Xs, Opaques) -> fun (_) -> t_sup(t_atom('true'), t_nil()) end, Opaques); type(hipe_bifs, check_crc, 1, Xs, Opaques) -> strict(hipe_bifs, check_crc, 1, Xs, fun (_) -> t_boolean() end, Opaques); -type(hipe_bifs, enter_code, 2, Xs, Opaques) -> - strict(hipe_bifs, enter_code, 2, Xs, +type(hipe_bifs, enter_code, 3, Xs, Opaques) -> + strict(hipe_bifs, enter_code, 3, Xs, fun (_) -> t_tuple([t_integer(), %% XXX: The tuple below contains integers and %% is of size same as the length of the MFA list t_sup(t_nil(), t_binary())]) end, Opaques); -type(hipe_bifs, enter_sdesc, 1, Xs, Opaques) -> - strict(hipe_bifs, enter_sdesc, 1, Xs, fun (_) -> t_nil() end, Opaques); -type(hipe_bifs, find_na_or_make_stub, 2, Xs, Opaques) -> - strict(hipe_bifs, find_na_or_make_stub, 2, Xs, +type(hipe_bifs, enter_sdesc, 2, Xs, Opaques) -> + strict(hipe_bifs, enter_sdesc, 2, Xs, fun (_) -> t_nil() end, Opaques); +type(hipe_bifs, find_na_or_make_stub, 1, Xs, Opaques) -> + strict(hipe_bifs, find_na_or_make_stub, 1, Xs, fun (_) -> t_integer() end, Opaques); % address type(hipe_bifs, fun_to_address, 1, Xs, Opaques) -> strict(hipe_bifs, fun_to_address, 1, Xs, @@ -1071,12 +1071,6 @@ type(hipe_bifs, get_fe, 2, Xs, Opaques) -> type(hipe_bifs, get_rts_param, 1, Xs, Opaques) -> strict(hipe_bifs, get_rts_param, 1, Xs, fun (_) -> t_sup(t_integer(), t_nil()) end, Opaques); -type(hipe_bifs, invalidate_funinfo_native_addresses, 1, Xs, Opaques) -> - strict(hipe_bifs, invalidate_funinfo_native_addresses, 1, Xs, - fun (_) -> t_nil() end, Opaques); -type(hipe_bifs, mark_referred_from, 1, Xs, Opaques) -> - strict(hipe_bifs, mark_referred_from, 1, Xs, - fun (_) -> t_nil() end, Opaques); type(hipe_bifs, merge_term, 1, Xs, Opaques) -> strict(hipe_bifs, merge_term, 1, Xs, fun ([X]) -> X end, Opaques); type(hipe_bifs, nstack_used_size, 0, _, _Opaques) -> @@ -1088,9 +1082,6 @@ type(hipe_bifs, patch_insn, 3, Xs, Opaques) -> type(hipe_bifs, primop_address, 1, Xs, Opaques) -> strict(hipe_bifs, primop_address, 1, Xs, fun (_) -> t_sup(t_integer(), t_atom('false')) end, Opaques); -type(hipe_bifs, redirect_referred_from, 1, Xs, Opaques) -> - strict(hipe_bifs, redirect_referred_from, 1, Xs, - fun (_) -> t_nil() end, Opaques); type(hipe_bifs, ref, 1, Xs, Opaques) -> strict(hipe_bifs, ref, 1, Xs, fun (_) -> t_immarray() end, Opaques); type(hipe_bifs, ref_get, 1, Xs, Opaques) -> @@ -1103,6 +1094,9 @@ type(hipe_bifs, remove_refs_from, 1, Xs, Opaques) -> type(hipe_bifs, set_funinfo_native_address, 3, Xs, Opaques) -> strict(hipe_bifs, set_funinfo_native_address, 3, Xs, fun (_) -> t_nil() end, Opaques); +type(hipe_bifs, commit_patch_load, 1, Xs, Opaques) -> + strict(hipe_bifs, commit_patch_load, 1, Xs, + fun (_) -> t_atom() end, Opaques); type(hipe_bifs, set_native_address, 3, Xs, Opaques) -> strict(hipe_bifs, set_native_address, 3, Xs, fun (_) -> t_nil() end, Opaques); @@ -1114,15 +1108,14 @@ type(hipe_bifs, system_crc, 0, _, _Opaques) -> type(hipe_bifs, term_to_word, 1, Xs, Opaques) -> strict(hipe_bifs, term_to_word, 1, Xs, fun (_) -> t_integer() end, Opaques); -type(hipe_bifs, update_code_size, 3, Xs, Opaques) -> - strict(hipe_bifs, update_code_size, 3, Xs, - fun (_) -> t_nil() end, Opaques); type(hipe_bifs, write_u8, 2, Xs, Opaques) -> strict(hipe_bifs, write_u8, 2, Xs, fun (_) -> t_nil() end, Opaques); type(hipe_bifs, write_u32, 2, Xs, Opaques) -> strict(hipe_bifs, write_u32, 2, Xs, fun (_) -> t_nil() end, Opaques); type(hipe_bifs, write_u64, 2, Xs, Opaques) -> strict(hipe_bifs, write_u64, 2, Xs, fun (_) -> t_nil() end, Opaques); +type(hipe_bifs, alloc_loader_state, 1, Xs, Opaques) -> + strict(hipe_bifs, alloc_loader_state, 1, Xs, fun (_) -> t_binary() end, Opaques); %%-- lists -------------------------------------------------------------------- type(lists, all, 2, Xs, Opaques) -> strict(lists, all, 2, Xs, @@ -2470,9 +2463,10 @@ arg_types(hipe_bifs, add_ref, 2) -> t_integer(), t_sup(t_atom('call'), t_atom('load_mfa')), t_trampoline(), - t_sup(t_atom('remote'), t_atom('local'))])]; -arg_types(hipe_bifs, alloc_data, 2) -> - [t_integer(), t_integer()]; + t_atom(), + t_binary()])]; +arg_types(hipe_bifs, alloc_data, 3) -> + [t_integer(), t_integer(), t_binary()]; arg_types(hipe_bifs, array, 2) -> [t_non_neg_fixnum(), t_immediate()]; arg_types(hipe_bifs, array_length, 1) -> @@ -2507,22 +2501,19 @@ arg_types(hipe_bifs, call_count_on, 1) -> [t_mfa()]; arg_types(hipe_bifs, check_crc, 1) -> [t_crc32()]; -arg_types(hipe_bifs, enter_code, 2) -> - [t_binary(), t_sup(t_nil(), t_tuple())]; -arg_types(hipe_bifs, enter_sdesc, 1) -> - [t_tuple([t_integer(), t_integer(), t_integer(), t_integer(), t_integer(), t_mfa()])]; -arg_types(hipe_bifs, find_na_or_make_stub, 2) -> - [t_mfa(), t_boolean()]; +arg_types(hipe_bifs, enter_code, 3) -> + [t_binary(), t_sup(t_nil(), t_tuple()), t_binary()]; +arg_types(hipe_bifs, enter_sdesc, 2) -> + [t_tuple([t_integer(), t_integer(), t_integer(), t_integer(), t_integer(), t_mfa(), t_atom()]), + t_binary()]; +arg_types(hipe_bifs, find_na_or_make_stub, 1) -> + [t_mfa()]; arg_types(hipe_bifs, fun_to_address, 1) -> [t_mfa()]; arg_types(hipe_bifs, get_fe, 2) -> [t_atom(), t_tuple([t_integer(), t_integer(), t_integer()])]; arg_types(hipe_bifs, get_rts_param, 1) -> [t_fixnum()]; -arg_types(hipe_bifs, invalidate_funinfo_native_addresses, 1) -> - [t_list(t_mfa())]; -arg_types(hipe_bifs, mark_referred_from, 1) -> - [t_mfa()]; arg_types(hipe_bifs, merge_term, 1) -> [t_any()]; arg_types(hipe_bifs, nstack_used_size, 0) -> @@ -2533,8 +2524,6 @@ arg_types(hipe_bifs, patch_insn, 3) -> [t_integer(), t_integer(), t_insn_type()]; arg_types(hipe_bifs, primop_address, 1) -> [t_atom()]; -arg_types(hipe_bifs, redirect_referred_from, 1) -> - [t_mfa()]; arg_types(hipe_bifs, ref, 1) -> [t_immediate()]; arg_types(hipe_bifs, ref_get, 1) -> @@ -2545,6 +2534,8 @@ arg_types(hipe_bifs, remove_refs_from, 1) -> [t_sup([t_mfa(), t_atom('all')])]; arg_types(hipe_bifs, set_funinfo_native_address, 3) -> arg_types(hipe_bifs, set_native_address, 3); +arg_types(hipe_bifs, commit_patch_load, 1) -> + [t_binary()]; arg_types(hipe_bifs, set_native_address, 3) -> [t_mfa(), t_integer(), t_boolean()]; arg_types(hipe_bifs, set_native_address_in_fe, 2) -> @@ -2553,14 +2544,15 @@ arg_types(hipe_bifs, system_crc, 0) -> []; arg_types(hipe_bifs, term_to_word, 1) -> [t_any()]; -arg_types(hipe_bifs, update_code_size, 3) -> - [t_atom(), t_sup(t_nil(), t_binary()), t_integer()]; arg_types(hipe_bifs, write_u8, 2) -> [t_integer(), t_byte()]; arg_types(hipe_bifs, write_u32, 2) -> [t_integer(), t_integer()]; arg_types(hipe_bifs, write_u64, 2) -> [t_integer(), t_integer()]; +arg_types(hipe_bifs, alloc_loader_state, 1) -> + [t_atom()]; + %%------- lists --------------------------------------------------------------- arg_types(lists, all, 2) -> [t_fun([t_any()], t_boolean()), t_list()]; diff --git a/lib/hipe/llvm/hipe_llvm_main.erl b/lib/hipe/llvm/hipe_llvm_main.erl index 476d6fb49c..164ccf20ef 100644 --- a/lib/hipe/llvm/hipe_llvm_main.erl +++ b/lib/hipe/llvm/hipe_llvm_main.erl @@ -257,15 +257,11 @@ fix_relocations(Relocs, RelocsDict, MFA) -> fix_reloc(#elf_rel{symbol=#elf_sym{name=Name, section=undefined, type=notype}, offset=Offset, type=?PCREL_T, addend=?PCREL_A}, - RelocsDict, {ModName,_,_}) when Name =/= "" -> + RelocsDict, {_,_,_}) when Name =/= "" -> case dict:fetch(Name, RelocsDict) of - {call, {bif, BifName, _}} -> {?CALL_LOCAL, Offset, BifName}; - %% MFA calls to functions in the same module are of type 3, while all - %% other MFA calls are of type 2. - %% XXX: Does this code break hot code loading (by transforming external - %% calls into local calls?) - {call, {ModName,_F,_A}=CallMFA} -> {?CALL_LOCAL, Offset, CallMFA}; - {call, CallMFA} -> {?CALL_REMOTE, Offset, CallMFA} + {call, _, {bif, BifName, _}} -> {?CALL_LOCAL, Offset, BifName}; + {call, not_remote, CallMFA} -> {?CALL_LOCAL, Offset, CallMFA}; + {call, remote, CallMFA} -> {?CALL_REMOTE, Offset, CallMFA} end; fix_reloc(#elf_rel{symbol=#elf_sym{name=Name, section=undefined, type=notype}, offset=Offset, type=?ABS_T, addend=?ABS_A}, @@ -280,7 +276,8 @@ fix_reloc(#elf_rel{symbol=#elf_sym{name=Name, section=#elf_shdr{name=?TEXT}, offset=Offset, type=?PCREL_T, addend=?PCREL_A}, RelocsDict, MFA) when Name =/= "" -> case dict:fetch(Name, RelocsDict) of - {call, MFA} -> {?CALL_LOCAL, Offset, MFA} + {call, not_remote, MFA} -> {?CALL_LOCAL, Offset, MFA}; + {call, remote, MFA} -> {?CALL_REMOTE, Offset, MFA} end; fix_reloc(#elf_rel{symbol=#elf_sym{name=Name, section=#elf_shdr{name=?RODATA}, type=object}, @@ -408,7 +405,7 @@ calls_with_stack_args(Dict) -> calls_with_stack_args(dict:to_list(Dict), []). calls_with_stack_args([], Calls) -> Calls; -calls_with_stack_args([ {_Name, {call, {M, F, A}}} | Rest], Calls) +calls_with_stack_args([ {_Name, {call, _, {M, F, A}}} | Rest], Calls) when A > ?NR_ARG_REGS -> Call = case M of diff --git a/lib/hipe/llvm/hipe_rtl_to_llvm.erl b/lib/hipe/llvm/hipe_rtl_to_llvm.erl index 66b2e10fb8..55ab6a3db1 100644 --- a/lib/hipe/llvm/hipe_rtl_to_llvm.erl +++ b/lib/hipe/llvm/hipe_rtl_to_llvm.erl @@ -257,7 +257,7 @@ trans_alub_overflow(I, Sign, Relocs) -> RtlDst = hipe_rtl:alub_dst(I), TmpDst = mk_temp(), Name = trans_alub_op(I, Sign), - NewRelocs = relocs_store(Name, {call, {llvm, Name, 2}}, Relocs), + NewRelocs = relocs_store(Name, {call, remote, {llvm, Name, 2}}, Relocs), WordTy = hipe_llvm:mk_int(?WORD_WIDTH), ReturnType = hipe_llvm:mk_struct([WordTy, hipe_llvm:mk_int(1)]), T1 = mk_temp(), @@ -364,7 +364,7 @@ trans_call(I, Relocs) -> {LoadedFixedRegs, I2} = load_fixed_regs(FixedRegs), FinalArgs = fix_reg_args(LoadedFixedRegs) ++ CallArgs, {Name, I3, Relocs2} = - trans_call_name(RtlCallName, Relocs1, CallArgs, FinalArgs), + trans_call_name(RtlCallName, hipe_rtl:call_type(I), Relocs1, CallArgs, FinalArgs), T1 = mk_temp(), WordTy = hipe_llvm:mk_int(?WORD_WIDTH), FunRetTy = hipe_llvm:mk_struct(lists:duplicate(?NR_PINNED_REGS + 1, WordTy)), @@ -430,17 +430,21 @@ expose_closure(CallName, CallArgs, Relocs) -> {[], Relocs} end. -trans_call_name(RtlCallName, Relocs, CallArgs, FinalArgs) -> +trans_call_name(RtlCallName, RtlCallType, Relocs, CallArgs, FinalArgs) -> case RtlCallName of PrimOp when is_atom(PrimOp) -> LlvmName = trans_prim_op(PrimOp), Relocs1 = - relocs_store(LlvmName, {call, {bif, PrimOp, length(CallArgs)}}, Relocs), + relocs_store(LlvmName, {call, not_remote, {bif, PrimOp, length(CallArgs)}}, Relocs), {"@" ++ LlvmName, [], Relocs1}; {M, F, A} when is_atom(M), is_atom(F), is_integer(A) -> LlvmName = trans_mfa_name({M, F, A}), + ok = case RtlCallType of + not_remote -> ok; + remote -> ok + end, Relocs1 = - relocs_store(LlvmName, {call, {M, F, length(CallArgs)}}, Relocs), + relocs_store(LlvmName, {call, RtlCallType, {M, F, length(CallArgs)}}, Relocs), {"@" ++ LlvmName, [], Relocs1}; Reg -> case hipe_rtl:is_reg(Reg) of @@ -501,7 +505,7 @@ trans_enter(I, Relocs) -> {LoadedFixedRegs, I1} = load_fixed_regs(FixedRegs), FinalArgs = fix_reg_args(LoadedFixedRegs) ++ CallArgs, {Name, I2, NewRelocs} = - trans_call_name(hipe_rtl:enter_fun(I), Relocs, CallArgs, FinalArgs), + trans_call_name(hipe_rtl:enter_fun(I), hipe_rtl:enter_type(I), Relocs, CallArgs, FinalArgs), T1 = mk_temp(), WordTy = hipe_llvm:mk_int(?WORD_WIDTH), FunRetTy = hipe_llvm:mk_struct(lists:duplicate(?NR_PINNED_REGS + 1, WordTy)), @@ -1457,9 +1461,9 @@ handle_relocations(Relocs, Data, Fun) -> Relocs2 = lists:foldl(fun const_to_dict/2, Relocs1, ConstLabels), %% Temporary Store inc_stack and llvm_fix_pinned_regs to Dictionary %% TODO: Remove this - Relocs3 = dict:store("inc_stack_0", {call, {bif, inc_stack_0, 0}}, Relocs2), + Relocs3 = dict:store("inc_stack_0", {call, remote, {bif, inc_stack_0, 0}}, Relocs2), Relocs4 = dict:store("hipe_bifs.llvm_fix_pinned_regs.0", - {call, {hipe_bifs, llvm_fix_pinned_regs, 0}}, Relocs3), + {call, remote, {hipe_bifs, llvm_fix_pinned_regs, 0}}, Relocs3), BranchMetaData = [ hipe_llvm:mk_meta(?BRANCH_META_TAKEN, ["branch_weights", 99, 1]) , hipe_llvm:mk_meta(?BRANCH_META_NOT_TAKEN, ["branch_weights", 1, 99]) @@ -1477,9 +1481,10 @@ seperate_relocs([], CallAcc, AtomAcc, ClosureAcc, LabelAcc, JmpTableAcc) -> {CallAcc, AtomAcc, ClosureAcc, LabelAcc, JmpTableAcc}; seperate_relocs([R|Rs], CallAcc, AtomAcc, ClosureAcc, LabelAcc, JmpTableAcc) -> case R of - {_, {call, _}} -> + {_, {call, _, _}} -> seperate_relocs(Rs, [R | CallAcc], AtomAcc, ClosureAcc, LabelAcc, JmpTableAcc); + {_, {atom, _}} -> seperate_relocs(Rs, CallAcc, [R | AtomAcc], ClosureAcc, LabelAcc, JmpTableAcc); @@ -1554,13 +1559,13 @@ declare_closure_labels(ClosureLabels, Relocs, Fun) -> hipe_llvm:mk_const_decl("@table_closures", "constant", TableType, List4), {[ConstDecl], Relocs1}. -%% @doc A call is treated as non external only in a case of a recursive +%% @doc A call is treated as non external only in a case of a local recursive %% function. -is_external_call({_, {call, Fun}}, Fun) -> false; +is_external_call({_, {call, _, MFA}}, MFA) -> false; is_external_call(_, _) -> true. %% @doc External declaration of a function. -call_to_decl({Name, {call, MFA}}) -> +call_to_decl({Name, {call, _, MFA}}) -> {M, _F, A} = MFA, CConv = "cc 11", WordTy = hipe_llvm:mk_int(?WORD_WIDTH), diff --git a/lib/hipe/rtl/hipe_rtl_primops.erl b/lib/hipe/rtl/hipe_rtl_primops.erl index 835f489ec0..154c2a8c57 100644 --- a/lib/hipe/rtl/hipe_rtl_primops.erl +++ b/lib/hipe/rtl/hipe_rtl_primops.erl @@ -760,12 +760,9 @@ gen_fun_thing_skeleton(FunP, FunName={_Mod,_FunId,Arity}, NumFree, %% And creates a fe (at load time). FeVar = hipe_rtl:mk_new_reg(), PidVar = hipe_rtl:mk_new_reg_gcsafe(), - NativeVar = hipe_rtl:mk_new_reg(), [hipe_rtl:mk_load_address(FeVar, {FunName, MagicNr, Index}, closure), store_struct_field(FunP, ?EFT_FE, FeVar), - load_struct_field(NativeVar, FeVar, ?EFE_NATIVE_ADDRESS), - store_struct_field(FunP, ?EFT_NATIVE_ADDRESS, NativeVar), store_struct_field(FunP, ?EFT_ARITY, hipe_rtl:mk_imm(Arity-NumFree)), diff --git a/lib/hipe/rtl/hipe_tagscheme.erl b/lib/hipe/rtl/hipe_tagscheme.erl index 8825a3ade3..8cf45772b5 100644 --- a/lib/hipe/rtl/hipe_tagscheme.erl +++ b/lib/hipe/rtl/hipe_tagscheme.erl @@ -68,9 +68,7 @@ -include("hipe_rtl.hrl"). -include("hipe_literals.hrl"). --ifdef(EFT_NATIVE_ADDRESS). -export([if_fun_get_arity_and_address/5]). --endif. -undef(TAG_PRIMARY_BOXED). -undef(TAG_IMMED2_MASK). @@ -282,7 +280,6 @@ test_ref(X, TrueLab, FalseLab, Pred) -> TrueLab, FalseLab, Pred) ]. --ifdef(EFT_NATIVE_ADDRESS). test_closure(X, TrueLab, FalseLab, Pred) -> Tmp = hipe_rtl:mk_new_reg_gcsafe(), HalfTrueLab = hipe_rtl:mk_new_label(), @@ -291,7 +288,6 @@ test_closure(X, TrueLab, FalseLab, Pred) -> get_header(Tmp, X), mask_and_compare(Tmp, ?TAG_HEADER_MASK, ?TAG_HEADER_FUN, TrueLab, FalseLab, Pred)]. --endif. test_fun(X, TrueLab, FalseLab, Pred) -> Hdr = hipe_rtl:mk_new_reg_gcsafe(), @@ -781,10 +777,9 @@ tag_fun(Res, X) -> %% untag_fun(Res, X) -> %% hipe_rtl:mk_alu(Res, X, 'sub', hipe_rtl:mk_imm(?TAG_PRIMARY_BOXED)). --ifdef(EFT_NATIVE_ADDRESS). if_fun_get_arity_and_address(ArityReg, AddressReg, FunP, BadFunLab, Pred) -> %% EmuAddressPtrReg = hipe_rtl:mk_new_reg(), - %% FEPtrReg = hipe_rtl:mk_new_reg(), + FEPtrReg = hipe_rtl:mk_new_reg(), %% ArityReg = hipe_rtl:mk_new_reg(), %% NumFreeReg = hipe_rtl:mk_new_reg(), %% RealArityReg = hipe_rtl:mk_new_reg(), @@ -797,11 +792,12 @@ if_fun_get_arity_and_address(ArityReg, AddressReg, FunP, BadFunLab, Pred) -> hipe_rtl:mk_load(ArityReg, FunP, hipe_rtl:mk_imm(-(?TAG_PRIMARY_BOXED)+ ?EFT_ARITY)), - hipe_rtl:mk_load(AddressReg, FunP, + hipe_rtl:mk_load(FEPtrReg, FunP, hipe_rtl:mk_imm(-(?TAG_PRIMARY_BOXED)+ - ?EFT_NATIVE_ADDRESS))], + ?EFT_FE)), + hipe_rtl:mk_load(AddressReg, FEPtrReg, + hipe_rtl:mk_imm(?EFE_NATIVE_ADDRESS))], IsFunCode ++ GetArityCode. --endif. %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %% diff --git a/lib/kernel/src/code_server.erl b/lib/kernel/src/code_server.erl index 835b7eb588..418b0c50e1 100644 --- a/lib/kernel/src/code_server.erl +++ b/lib/kernel/src/code_server.erl @@ -1130,19 +1130,18 @@ try_load_module_2(File, Mod, Bin, From, Architecture, #state{moddb=Db}=St) -> case catch hipe_unified_loader:load_native_code(Mod, Bin, Architecture) of {module,Mod} = Module -> - ets:insert(Db, [{{native,Mod},true},{Mod,File}]), + ets:insert(Db, {Mod,File}), {reply,Module,St}; no_native -> try_load_module_3(File, Mod, Bin, From, Architecture, St); Error -> error_msg("Native loading of ~ts failed: ~p\n", [File,Error]), - {reply,ok,St} + {reply,{error,Error},St} end. -try_load_module_3(File, Mod, Bin, From, Architecture, St0) -> +try_load_module_3(File, Mod, Bin, From, _Architecture, St0) -> Action = fun({module,_}=Module, #state{moddb=Db}=S) -> ets:insert(Db, {Mod,File}), - post_beam_load([Mod], Architecture, S), {reply,Module,S}; ({error,on_load_failure}=Error, S) -> {reply,Error,S}; @@ -1153,24 +1152,14 @@ try_load_module_3(File, Mod, Bin, From, Architecture, St0) -> Res = erlang:load_module(Mod, Bin), handle_on_load(Res, Action, Mod, From, St0). -hipe_result_to_status(Result, #state{moddb=Db}) -> +hipe_result_to_status(Result, #state{}) -> case Result of - {module,Mod} -> - ets:insert(Db, [{{native,Mod},true}]), + {module,_} -> Result; _ -> {error,Result} end. -post_beam_load(_, undefined, _) -> - %% HiPE is disabled. - ok; -post_beam_load(Mods0, _Architecture, #state{moddb=Db}) -> - %% post_beam_load/2 can potentially be very expensive because it - %% blocks multi-scheduling. Therefore, we only want to call - %% it with modules that are known to have native code loaded. - Mods = [M || M <- Mods0, ets:member(Db, {native,M})], - hipe_unified_loader:post_beam_load(Mods). int_list([H|T]) when is_integer(H) -> int_list(T); int_list([_|_]) -> false; @@ -1313,15 +1302,12 @@ abort_if_sticky(L, Db) -> [_|_] -> {error,Sticky} end. -do_finish_loading(Prepared, #state{moddb=Db}=St) -> +do_finish_loading(Prepared, #state{moddb=Db}) -> MagicBins = [B || {_,{B,_}} <- Prepared], case erlang:finish_loading(MagicBins) of ok -> MFs = [{M,F} || {M,{_,F}} <- Prepared], true = ets:insert(Db, MFs), - Ms = [M || {M,_} <- MFs], - Architecture = erlang:system_info(hipe_architecture), - post_beam_load(Ms, Architecture, St), ok; {Reason,Ms} -> {error,[{M,Reason} || M <- Ms]} diff --git a/lib/kernel/src/hipe_unified_loader.erl b/lib/kernel/src/hipe_unified_loader.erl index 087cceb5d8..03116758de 100644 --- a/lib/kernel/src/hipe_unified_loader.erl +++ b/lib/kernel/src/hipe_unified_loader.erl @@ -41,10 +41,11 @@ % I think the real solution would be to let BIF erlang:load_module/2 redirect all % hipe calls to the module and thereby remove post_beam_load. +% SVERK: Can we remove -compile(no_native) now when post_beam_load is gone? + -export([chunk_name/1, %% Only the code and code_server modules may call the entries below! load_native_code/3, - post_beam_load/1, load_module/4, load/3]). @@ -101,15 +102,13 @@ word_size(Architecture) -> load_native_code(_Mod, _Bin, undefined) -> no_native; load_native_code(Mod, Bin, Architecture) when is_atom(Mod), is_binary(Bin) -> - %% patch_to_emu(Mod), case code:get_chunk(Bin, chunk_name(Architecture)) of undefined -> no_native; NativeCode when is_binary(NativeCode) -> erlang:system_flag(multi_scheduling, block_normal), try - OldReferencesToPatch = patch_to_emu_step1(Mod), - case load_module(Mod, NativeCode, Bin, OldReferencesToPatch, - Architecture) of + put(hipe_patch_closures, false), + case load_common(Mod, NativeCode, Bin, Architecture) of bad_crc -> no_native; Result -> Result end @@ -120,22 +119,6 @@ load_native_code(Mod, Bin, Architecture) when is_atom(Mod), is_binary(Bin) -> %%======================================================================== --spec post_beam_load([module()]) -> 'ok'. - -post_beam_load([])-> - ok; -post_beam_load([_|_]=Mods) -> - erlang:system_flag(multi_scheduling, block_normal), - try - _ = [patch_to_emu(Mod) || Mod <- Mods], - ok - after - erlang:system_flag(multi_scheduling, unblock_normal) - end, - ok. - -%%======================================================================== - version_check(Version, Mod) when is_atom(Mod) -> Ver = ?VERSION_STRING(), case Version < Ver of @@ -153,19 +136,12 @@ version_check(Version, Mod) when is_atom(Mod) -> load_module(Mod, Bin, Beam, Architecture) -> erlang:system_flag(multi_scheduling, block_normal), try - load_module_nosmp(Mod, Bin, Beam, Architecture) + put(hipe_patch_closures, false), + load_common(Mod, Bin, Beam, Architecture) after erlang:system_flag(multi_scheduling, unblock_normal) end. -load_module_nosmp(Mod, Bin, Beam, Architecture) -> - load_module(Mod, Bin, Beam, [], Architecture). - -load_module(Mod, Bin, Beam, OldReferencesToPatch, Architecture) -> - ?debug_msg("************ Loading Module ~w ************\n",[Mod]), - %% Loading a whole module, let the BEAM loader patch closures. - put(hipe_patch_closures, false), - load_common(Mod, Bin, Beam, OldReferencesToPatch, Architecture). %%======================================================================== @@ -175,20 +151,17 @@ load_module(Mod, Bin, Beam, OldReferencesToPatch, Architecture) -> load(Mod, Bin, Architecture) -> erlang:system_flag(multi_scheduling, block_normal), try - load_nosmp(Mod, Bin, Architecture) + ?debug_msg("********* Loading funs in module ~w *********\n",[Mod]), + %% Loading just some functions in a module; patch closures separately. + put(hipe_patch_closures, true), + load_common(Mod, Bin, [], Architecture) after erlang:system_flag(multi_scheduling, unblock_normal) end. -load_nosmp(Mod, Bin, Architecture) -> - ?debug_msg("********* Loading funs in module ~w *********\n",[Mod]), - %% Loading just some functions in a module; patch closures separately. - put(hipe_patch_closures, true), - load_common(Mod, Bin, [], [], Architecture). - %%------------------------------------------------------------------------ -load_common(Mod, Bin, Beam, OldReferencesToPatch, Architecture) -> +load_common(Mod, Bin, Beam, Architecture) -> %% Unpack the binary. [{Version, CheckSum}, ConstAlign, ConstSize, ConstMap, LabelMap, ExportMap, @@ -215,29 +188,31 @@ load_common(Mod, Bin, Beam, OldReferencesToPatch, Architecture) -> put(closures_to_patch, []), WordSize = word_size(Architecture), WriteWord = write_word_fun(WordSize), + LoaderState = hipe_bifs:alloc_loader_state(Mod), + put(hipe_loader_state, LoaderState), %% Create data segment {ConstAddr,ConstMap2} = - create_data_segment(ConstAlign, ConstSize, ConstMap, WriteWord), + create_data_segment(ConstAlign, ConstSize, ConstMap, WriteWord, + LoaderState), %% Find callees for which we may need trampolines. CalleeMFAs = find_callee_mfas(Refs, Architecture), %% Write the code to memory. {CodeAddress,Trampolines} = - enter_code(CodeSize, CodeBinary, CalleeMFAs, Mod, Beam), + enter_code(CodeSize, CodeBinary, CalleeMFAs, LoaderState), %% Construct CalleeMFA-to-trampoline mapping. TrampolineMap = mk_trampoline_map(CalleeMFAs, Trampolines, Architecture), %% Patch references to code labels in data seg. ok = patch_consts(LabelMap, ConstAddr, CodeAddress, WriteWord), + %% Find out which functions are being loaded (and where). - %% Note: Addresses are sorted descending. - {MFAs,Addresses} = exports(ExportMap, CodeAddress), - %% Remove references to old versions of the module. - ReferencesToPatch = get_refs_from(MFAs, []), - %% io:format("References to patch: ~w~n", [ReferencesToPatch]), - ok = remove_refs_from(MFAs), + %% Note: FunDefs are sorted descending address order. + FunDefs = exports(ExportMap, CodeAddress), + %% Patch all dynamic references in the code. %% Function calls, Atoms, Constants, System calls - ok = patch(Refs, CodeAddress, ConstMap2, Addresses, TrampolineMap), + + ok = patch(Refs, CodeAddress, ConstMap2, FunDefs, TrampolineMap), %% Tell the system where the loaded funs are. %% (patches the BEAM code to redirect to native.) @@ -250,25 +225,22 @@ load_common(Mod, Bin, Beam, OldReferencesToPatch, Architecture) -> lists:foreach(fun({FE, DestAddress}) -> hipe_bifs:set_native_address_in_fe(FE, DestAddress) end, erase(closures_to_patch)), - export_funs(Addresses), + ok = hipe_bifs:commit_patch_load(LoaderState), + set_beam_call_traps(FunDefs), ok; BeamBinary when is_binary(BeamBinary) -> %% Find all closures in the code. [] = erase(closures_to_patch), %Clean up, assertion. ClosurePatches = find_closure_patches(Refs), AddressesOfClosuresToPatch = - calculate_addresses(ClosurePatches, CodeAddress, Addresses), - export_funs(Addresses), - export_funs(Mod, MD5, BeamBinary, - Addresses, AddressesOfClosuresToPatch) + calculate_addresses(ClosurePatches, CodeAddress, FunDefs), + export_funs(FunDefs), + make_beam_stub(Mod, LoaderState, MD5, BeamBinary, FunDefs, + AddressesOfClosuresToPatch) end, - %% Redirect references to the old module to the new module's BEAM stub. - patch_to_emu_step2(OldReferencesToPatch), - %% Patch referring functions to call the new function - %% The call to export_funs/1 above updated the native addresses - %% for the targets, so passing 'Addresses' is not needed. - redirect(ReferencesToPatch), + %% Final clean up. + _ = erase(hipe_loader_state), _ = erase(hipe_patch_closures), _ = erase(hipe_assert_code_area), ?debug_msg("****************Loader Finished****************\n", []), @@ -371,31 +343,31 @@ trampoline_map_lookup(Primop, Map) -> is_exported :: boolean()}). exports(ExportMap, BaseAddress) -> - exports(ExportMap, BaseAddress, [], []). + exports(ExportMap, BaseAddress, []). -exports([Offset,M,F,A,IsClosure,IsExported|Rest], BaseAddress, MFAs, Addresses) -> +exports([Offset,M,F,A,IsClosure,IsExported|Rest], BaseAddress, FunDefs) -> case IsExported andalso erlang:is_builtin(M, F, A) of true -> - exports(Rest, BaseAddress, MFAs, Addresses); + exports(Rest, BaseAddress, FunDefs); _false -> MFA = {M,F,A}, Address = BaseAddress + Offset, FunDef = #fundef{address=Address, mfa=MFA, is_closure=IsClosure, is_exported=IsExported}, - exports(Rest, BaseAddress, [MFA|MFAs], [FunDef|Addresses]) + exports(Rest, BaseAddress, [FunDef|FunDefs]) end; -exports([], _, MFAs, Addresses) -> - {MFAs, Addresses}. +exports([], _, FunDefs) -> + FunDefs. mod({M,_F,_A}) -> M. %%------------------------------------------------------------------------ -calculate_addresses(PatchOffsets, Base, Addresses) -> +calculate_addresses(PatchOffsets, Base, FunDefs) -> RemoteOrLocal = local, % closure code refs are local [{Data, offsets_to_addresses(Offsets, Base), - get_native_address(DestMFA, Addresses, RemoteOrLocal)} || + get_native_address(DestMFA, FunDefs, RemoteOrLocal)} || {{DestMFA,_,_}=Data,Offsets} <- PatchOffsets]. offsets_to_addresses(Os, Base) -> @@ -424,9 +396,9 @@ find_closure_refs([], Refs) -> %%------------------------------------------------------------------------ -export_funs([FunDef | Addresses]) -> +set_beam_call_traps([FunDef | FunDefs]) -> #fundef{address=Address, mfa=MFA, is_closure=IsClosure, - is_exported=IsExported} = FunDef, + is_exported=_IsExported} = FunDef, ?IF_DEBUG({M,F,A} = MFA, no_debug), ?IF_DEBUG( case IsClosure of @@ -437,21 +409,38 @@ export_funs([FunDef | Addresses]) -> ?debug_msg("LINKING: ~w:~w/~w to closure (0x~.16b)\n", [M,F,A, Address]) end, no_debug), - hipe_bifs:set_funinfo_native_address(MFA, Address, IsExported), hipe_bifs:set_native_address(MFA, Address, IsClosure), - export_funs(Addresses); + set_beam_call_traps(FunDefs); +set_beam_call_traps([]) -> + ok. + +export_funs([FunDef | FunDefs]) -> + #fundef{address=Address, mfa=MFA, is_closure=_IsClosure, + is_exported=IsExported} = FunDef, + ?IF_DEBUG({M,F,A} = MFA, no_debug), + ?IF_DEBUG( + case _IsClosure of + false -> + ?debug_msg("LINKING: ~w:~w/~w to (0x~.16b)\n", + [M,F,A, Address]); + true -> + ?debug_msg("LINKING: ~w:~w/~w to closure (0x~.16b)\n", + [M,F,A, Address]) + end, no_debug), + hipe_bifs:set_funinfo_native_address(MFA, Address, IsExported), + export_funs(FunDefs); export_funs([]) -> ok. -export_funs(Mod, MD5, Beam, Addresses, ClosuresToPatch) -> - Fs = [{F,A,Address} || #fundef{address=Address, mfa={_M,F,A}} <- Addresses], - Mod = code:make_stub_module(Mod, Beam, {Fs,ClosuresToPatch,MD5}), +make_beam_stub(Mod, LoaderState, MD5, Beam, FunDefs, ClosuresToPatch) -> + Fs = [{F,A,Address} || #fundef{address=Address, mfa={_M,F,A}} <- FunDefs], + Mod = code:make_stub_module(LoaderState, Beam, {Fs,ClosuresToPatch,MD5}), ok. %%======================================================================== %% Patching %% @spec patch(refs(), BaseAddress::integer(), ConstAndZone::term(), -%% Addresses::term(), TrampolineMap::term()) -> 'ok'. +%% FunDefs::term(), TrampolineMap::term()) -> 'ok'. %% @type refs()=[{RefType::integer(), Reflist::reflist()} | refs()] %% %% @type reflist()= [{Data::term(), Offsets::offests()}|reflist()] @@ -463,39 +452,39 @@ export_funs(Mod, MD5, Beam, Addresses, ClosuresToPatch) -> %% (we use this to look up the address of a referred function only once). %% -patch([{Type,SortedRefs}|Rest], CodeAddress, ConstMap2, Addresses, TrampolineMap) -> +patch([{Type,SortedRefs}|Rest], CodeAddress, ConstMap2, FunDefs, TrampolineMap) -> ?debug_msg("Patching ~w at [~w+offset] with ~w\n", [Type,CodeAddress,SortedRefs]), case ?EXT2PATCH_TYPE(Type) of call_local -> - patch_call(SortedRefs, CodeAddress, Addresses, 'local', TrampolineMap); + patch_call(SortedRefs, CodeAddress, FunDefs, 'local', TrampolineMap); call_remote -> - patch_call(SortedRefs, CodeAddress, Addresses, 'remote', TrampolineMap); + patch_call(SortedRefs, CodeAddress, FunDefs, 'remote', TrampolineMap); Other -> - patch_all(Other, SortedRefs, CodeAddress, {ConstMap2,CodeAddress}, Addresses) + patch_all(Other, SortedRefs, CodeAddress, {ConstMap2,CodeAddress}, FunDefs) end, - patch(Rest, CodeAddress, ConstMap2, Addresses, TrampolineMap); + patch(Rest, CodeAddress, ConstMap2, FunDefs, TrampolineMap); patch([], _, _, _, _) -> ok. %%---------------------------------------------------------------- %% Handle a 'call_local' or 'call_remote' patch. %% -patch_call([{DestMFA,Offsets}|SortedRefs], BaseAddress, Addresses, RemoteOrLocal, TrampolineMap) -> +patch_call([{DestMFA,Offsets}|SortedRefs], BaseAddress, FunDefs, RemoteOrLocal, TrampolineMap) -> case bif_address(DestMFA) of false -> - %% Previous code used mfa_to_address(DestMFA, Addresses) + %% Previous code used mfa_to_address(DestMFA, FunDefs) %% here for local calls. That is wrong because even local - %% destinations may not be present in Addresses: they may + %% destinations may not be present in FunDefs: they may %% not have been compiled yet, or they may be BEAM-only %% functions (e.g. module_info). - DestAddress = get_native_address(DestMFA, Addresses, RemoteOrLocal), + DestAddress = get_native_address(DestMFA, FunDefs, RemoteOrLocal), Trampoline = trampoline_map_get(DestMFA, TrampolineMap), - patch_mfa_call_list(Offsets, BaseAddress, DestMFA, DestAddress, Addresses, RemoteOrLocal, Trampoline); + patch_mfa_call_list(Offsets, BaseAddress, DestMFA, DestAddress, FunDefs, RemoteOrLocal, Trampoline); BifAddress when is_integer(BifAddress) -> Trampoline = trampoline_map_lookup(DestMFA, TrampolineMap), patch_bif_call_list(Offsets, BaseAddress, BifAddress, Trampoline) end, - patch_call(SortedRefs, BaseAddress, Addresses, RemoteOrLocal, TrampolineMap); + patch_call(SortedRefs, BaseAddress, FunDefs, RemoteOrLocal, TrampolineMap); patch_call([], _, _, _, _) -> ok. @@ -506,49 +495,48 @@ patch_bif_call_list([Offset|Offsets], BaseAddress, BifAddress, Trampoline) -> patch_bif_call_list(Offsets, BaseAddress, BifAddress, Trampoline); patch_bif_call_list([], _, _, _) -> ok. -patch_mfa_call_list([Offset|Offsets], BaseAddress, DestMFA, DestAddress, Addresses, RemoteOrLocal, Trampoline) -> +patch_mfa_call_list([Offset|Offsets], BaseAddress, DestMFA, DestAddress, FunDefs, RemoteOrLocal, Trampoline) -> CallAddress = BaseAddress+Offset, - add_ref(DestMFA, CallAddress, Addresses, 'call', Trampoline, RemoteOrLocal), + add_ref(DestMFA, CallAddress, FunDefs, 'call', Trampoline, RemoteOrLocal), ?ASSERT(assert_local_patch(CallAddress)), patch_call_insn(CallAddress, DestAddress, Trampoline), - patch_mfa_call_list(Offsets, BaseAddress, DestMFA, DestAddress, Addresses, RemoteOrLocal, Trampoline); + patch_mfa_call_list(Offsets, BaseAddress, DestMFA, DestAddress, FunDefs, RemoteOrLocal, Trampoline); patch_mfa_call_list([], _, _, _, _, _, _) -> ok. patch_call_insn(CallAddress, DestAddress, Trampoline) -> - %% This assertion is false when we're called from redirect/2. - %% ?ASSERT(assert_local_patch(CallAddress)), + ?ASSERT(assert_local_patch(CallAddress)), hipe_bifs:patch_call(CallAddress, DestAddress, Trampoline). %% ____________________________________________________________________ %% -patch_all(Type, [{Dest,Offsets}|Rest], BaseAddress, ConstAndZone, Addresses)-> - patch_all_offsets(Type, Dest, Offsets, BaseAddress, ConstAndZone, Addresses), - patch_all(Type, Rest, BaseAddress, ConstAndZone, Addresses); +patch_all(Type, [{Dest,Offsets}|Rest], BaseAddress, ConstAndZone, FunDefs)-> + patch_all_offsets(Type, Dest, Offsets, BaseAddress, ConstAndZone, FunDefs), + patch_all(Type, Rest, BaseAddress, ConstAndZone, FunDefs); patch_all(_, [], _, _, _) -> ok. patch_all_offsets(Type, Data, [Offset|Offsets], BaseAddress, - ConstAndZone, Addresses) -> + ConstAndZone, FunDefs) -> ?debug_msg("Patching ~w at [~w+~w] with ~w\n", [Type,BaseAddress,Offset, Data]), Address = BaseAddress + Offset, - patch_offset(Type, Data, Address, ConstAndZone, Addresses), + patch_offset(Type, Data, Address, ConstAndZone, FunDefs), ?debug_msg("Patching done\n",[]), - patch_all_offsets(Type, Data, Offsets, BaseAddress, ConstAndZone, Addresses); + patch_all_offsets(Type, Data, Offsets, BaseAddress, ConstAndZone, FunDefs); patch_all_offsets(_, _, [], _, _, _) -> ok. %%---------------------------------------------------------------- %% Handle any patch type except 'call_local' or 'call_remote'. %% -patch_offset(Type, Data, Address, ConstAndZone, Addresses) -> +patch_offset(Type, Data, Address, ConstAndZone, FunDefs) -> case Type of load_address -> - patch_load_address(Data, Address, ConstAndZone, Addresses); + patch_load_address(Data, Address, ConstAndZone, FunDefs); load_atom -> Atom = Data, patch_atom(Address, Atom); sdesc -> - patch_sdesc(Data, Address, ConstAndZone, Addresses); + patch_sdesc(Data, Address, ConstAndZone, FunDefs); x86_abs_pcrel -> patch_instr(Address, Data, x86_abs_pcrel) %% _ -> @@ -561,37 +549,38 @@ patch_atom(Address, Atom) -> patch_instr(Address, hipe_bifs:atom_to_word(Atom), atom). patch_sdesc(?STACK_DESC(SymExnRA, FSize, Arity, Live), - Address, {_ConstMap2,CodeAddress}, _Addresses) -> + Address, {_ConstMap2,CodeAddress}, FunDefs) -> ExnRA = case SymExnRA of [] -> 0; % No catch LabelOffset -> CodeAddress + LabelOffset end, ?ASSERT(assert_local_patch(Address)), - DBG_MFA = ?IF_DEBUG(address_to_mfa_lth(Address, _Addresses), {undefined,undefined,0}), - hipe_bifs:enter_sdesc({Address, ExnRA, FSize, Arity, Live, DBG_MFA}). + MFA = address_to_mfa_lth(Address, FunDefs), + hipe_bifs:enter_sdesc({Address, ExnRA, FSize, Arity, Live, MFA}, + get(hipe_loader_state)). %%---------------------------------------------------------------- %% Handle a 'load_address'-type patch. %% -patch_load_address(Data, Address, ConstAndZone, Addresses) -> +patch_load_address(Data, Address, ConstAndZone, FunDefs) -> case Data of {local_function,DestMFA} -> - patch_load_mfa(Address, DestMFA, Addresses, 'local'); + patch_load_mfa(Address, DestMFA, FunDefs, 'local'); {remote_function,DestMFA} -> - patch_load_mfa(Address, DestMFA, Addresses, 'remote'); + patch_load_mfa(Address, DestMFA, FunDefs, 'remote'); {constant,Name} -> {ConstMap2,_CodeAddress} = ConstAndZone, ConstAddress = find_const(Name, ConstMap2), patch_instr(Address, ConstAddress, constant); {closure,{DestMFA,Uniq,Index}} -> - patch_closure(DestMFA, Uniq, Index, Address, Addresses); + patch_closure(DestMFA, Uniq, Index, Address, FunDefs); {c_const,CConst} -> patch_instr(Address, bif_address(CConst), c_const) end. -patch_closure(DestMFA, Uniq, Index, Address, Addresses) -> +patch_closure(DestMFA, Uniq, Index, Address, FunDefs) -> case get(hipe_patch_closures) of false -> []; % This is taken care of when registering the module. @@ -602,7 +591,7 @@ patch_closure(DestMFA, Uniq, Index, Address, Addresses) -> %% address into the fun entry to ensure that the native code cannot %% be called until it has been completely fixed up. RemoteOrLocal = local, % closure code refs are local - DestAddress = get_native_address(DestMFA, Addresses, RemoteOrLocal), + DestAddress = get_native_address(DestMFA, FunDefs, RemoteOrLocal), BEAMAddress = hipe_bifs:fun_to_address(DestMFA), FE = hipe_bifs:get_fe(mod(DestMFA), {Uniq, Index, BEAMAddress}), put(closures_to_patch, [{FE,DestAddress}|get(closures_to_patch)]), @@ -616,17 +605,17 @@ patch_closure(DestMFA, Uniq, Index, Address, Addresses) -> %% Patch an instruction loading the address of an MFA. %% RemoteOrLocal ::= 'remote' | 'local' %% -patch_load_mfa(CodeAddress, DestMFA, Addresses, RemoteOrLocal) -> +patch_load_mfa(CodeAddress, DestMFA, FunDefs, RemoteOrLocal) -> + ?ASSERT(assert_local_patch(CodeAddress)), DestAddress = case bif_address(DestMFA) of false -> - NativeAddress = get_native_address(DestMFA, Addresses, RemoteOrLocal), - add_ref(DestMFA, CodeAddress, Addresses, 'load_mfa', [], RemoteOrLocal), + NativeAddress = get_native_address(DestMFA, FunDefs, RemoteOrLocal), + add_ref(DestMFA, CodeAddress, FunDefs, 'load_mfa', [], RemoteOrLocal), NativeAddress; BifAddress when is_integer(BifAddress) -> BifAddress end, - ?ASSERT(assert_local_patch(CodeAddress)), patch_instr(CodeAddress, DestAddress, 'load_mfa'). %%---------------------------------------------------------------- @@ -702,9 +691,9 @@ bif_address(Name) when is_atom(Name) -> %% memory, and produces a ConstMap2 mapping each constant's ConstNo to %% its runtime address, tagged if the constant is a term. %% -create_data_segment(DataAlign, DataSize, DataList, WriteWord) -> +create_data_segment(DataAlign, DataSize, DataList, WriteWord, LoaderState) -> %%io:format("create_data_segment: \nDataAlign: ~p\nDataSize: ~p\nDataList: ~p\n",[DataAlign,DataSize,DataList]), - DataAddress = hipe_bifs:alloc_data(DataAlign, DataSize), + DataAddress = hipe_bifs:alloc_data(DataAlign, DataSize, LoaderState), enter_data(DataList, [], DataAddress, DataSize, WriteWord). enter_data(List, ConstMap2, DataAddress, DataSize, WriteWord) -> @@ -772,7 +761,7 @@ find_const(ConstNo, []) -> %%---------------------------------------------------------------- %% Record that the code at address 'Address' has a reference %% of type 'RefType' ('call' or 'load_mfa') to 'CalleeMFA'. -%% 'Addresses' must be an address-descending list from exports/2. +%% 'FunDefs' must be an address-descending list from exports/2. %% %% If 'RefType' is 'call', then 'Trampoline' may be the address %% of a stub branching to 'CalleeMFA', where the stub is reachable @@ -781,23 +770,18 @@ find_const(ConstNo, []) -> %% RemoteOrLocal ::= 'remote' | 'local'. %% -%% -%% -record(ref, {caller_mfa, address, ref_type, trampoline, remote_or_local}). -%% - -add_ref(CalleeMFA, Address, Addresses, RefType, Trampoline, RemoteOrLocal) -> - CallerMFA = address_to_mfa_lth(Address, Addresses), - %% just a sanity assertion below - true = case RemoteOrLocal of - local -> - {M1,_,_} = CalleeMFA, - {M2,_,_} = CallerMFA, - M1 =:= M2; - remote -> - true - end, - %% io:format("Adding ref ~w\n",[{CallerMFA, CalleeMFA, Address, RefType}]), - hipe_bifs:add_ref(CalleeMFA, {CallerMFA,Address,RefType,Trampoline,RemoteOrLocal}). +add_ref(CalleeMFA, Address, FunDefs, RefType, Trampoline, RemoteOrLocal) -> + CallerMFA = address_to_mfa_lth(Address, FunDefs), + case RemoteOrLocal of + local -> + %% just a sanity assertion + {M,_,_} = CalleeMFA, + {M,_,_} = CallerMFA; + remote -> + hipe_bifs:add_ref(CalleeMFA, {CallerMFA,Address,RefType,Trampoline, + get(hipe_loader_state)}) + end, + ok. % For FunDefs sorted from low to high addresses address_to_mfa_lth(Address, FunDefs) -> @@ -825,100 +809,26 @@ address_to_mfa_lth(_Address, [], Prev) -> %% ?error_msg("Local adddress not found ~w\n",[Address]), %% exit({?MODULE, local_address_not_found}). -%%---------------------------------------------------------------- -%% Change callers of the given module to instead trap to BEAM. -%% load_native_code/3 calls this just before loading native code. -%% -patch_to_emu(Mod) -> - patch_to_emu_step2(patch_to_emu_step1(Mod)). - -%% Step 1 must occur before the loading of native code updates -%% references information or creates a new BEAM stub module. -patch_to_emu_step1(Mod) -> - case is_loaded(Mod) of - true -> - %% Get exported functions - MFAs = [{Mod,Fun,Arity} || {Fun,Arity} <- Mod:module_info(exports)], - %% get_refs_from/2 only finds references from compiled static - %% call sites to the module, but some native address entries - %% were added as the result of dynamic apply calls. We must - %% purge them too, but we have no explicit record of them. - %% Therefore invalidate all native addresses for the module. - hipe_bifs:invalidate_funinfo_native_addresses(MFAs), - %% Find all call sites that call these MFAs. As a side-effect, - %% create native stubs for any MFAs that are referred. - ReferencesToPatch = get_refs_from(MFAs, []), - ok = remove_refs_from(MFAs), - ReferencesToPatch; - false -> - %% The first time we load the module, no redirection needs to be done. - [] - end. - -%% Step 2 must occur after the new BEAM stub module is created. -patch_to_emu_step2(ReferencesToPatch) -> - redirect(ReferencesToPatch). - --spec is_loaded(Module::atom()) -> boolean(). -%% @doc Checks whether a module is loaded or not. -is_loaded(M) when is_atom(M) -> - try hipe_bifs:fun_to_address({M,module_info,0}) of - I when is_integer(I) -> true - catch _:_ -> false - end. - -%%-------------------------------------------------------------------- -%% Given a list of MFAs, tag them with their referred_from references. -%% The resulting {MFA,Refs} list is later passed to redirect/1, once -%% the MFAs have been bound to (possibly new) native-code addresses. -%% -get_refs_from(MFAs, []) -> - mark_referred_from(MFAs), - MFAs. - -mark_referred_from(MFAs) -> - lists:foreach(fun(MFA) -> hipe_bifs:mark_referred_from(MFA) end, MFAs). - -%%-------------------------------------------------------------------- -%% Given a list of MFAs with referred_from references, update their -%% callers to refer to their new native-code addresses. -%% -%% The {MFA,Refs} list must come from get_refs_from/2. -%% -redirect(MFAs) -> - lists:foreach(fun(MFA) -> hipe_bifs:redirect_referred_from(MFA) end, MFAs). - -%%-------------------------------------------------------------------- -%% Given a list of MFAs, remove all referred_from references having -%% any of them as CallerMFA. -%% -%% This is the only place using refers_to. Whenever a reference is -%% added from CallerMFA to CalleeMFA, CallerMFA is added to CalleeMFA's -%% referred_from list, and CalleeMFA is added to CallerMFA's refers_to -%% list. The refers_to list is used here to find the CalleeMFAs whose -%% referred_from lists should be updated. -%% -remove_refs_from(MFAs) -> - lists:foreach(fun(MFA) -> hipe_bifs:remove_refs_from(MFA) end, MFAs). %%-------------------------------------------------------------------- %% To find the native code of an MFA we need to look in 3 places: -%% 1. If it is compiled now look in the Addresses data structure. +%% 1. If it is compiled now look in the FunDefs data structure. %% 2. Then look in native_addresses from module info. %% 3. Then (the function might have been singled compiled) look in %% hipe_funinfo %% If all else fails create a native stub for the MFA -get_native_address(MFA, Addresses, RemoteOrLocal) -> - case mfa_to_address(MFA, Addresses, RemoteOrLocal) of +get_native_address(MFA, FunDefs, RemoteOrLocal) -> + case mfa_to_address(MFA, FunDefs, RemoteOrLocal) of Adr when is_integer(Adr) -> Adr; false -> - IsRemote = case RemoteOrLocal of - remote -> true; - local -> false - end, - hipe_bifs:find_na_or_make_stub(MFA, IsRemote) + remote -> + hipe_bifs:find_na_or_make_stub(MFA); + local -> + ?error_msg("Local function ~p not found\n",[MFA]), + exit({function_not_found,MFA}) + end end. mfa_to_address(MFA, [#fundef{address=Adr, mfa=MFA, @@ -960,10 +870,10 @@ assert_local_patch(Address) when is_integer(Address) -> %% Beam: nil() | binary() (used as a flag) -enter_code(CodeSize, CodeBinary, CalleeMFAs, Mod, Beam) -> +enter_code(CodeSize, CodeBinary, CalleeMFAs, LoaderState) -> true = byte_size(CodeBinary) =:= CodeSize, - hipe_bifs:update_code_size(Mod, Beam, CodeSize), - {CodeAddress,Trampolines} = hipe_bifs:enter_code(CodeBinary, CalleeMFAs), + {CodeAddress,Trampolines} = hipe_bifs:enter_code(CodeBinary, CalleeMFAs, + LoaderState), ?init_assert_patch(CodeAddress, byte_size(CodeBinary)), {CodeAddress,Trampolines}. diff --git a/lib/kernel/test/code_SUITE.erl b/lib/kernel/test/code_SUITE.erl index c5167efa56..96f8ff2c5f 100644 --- a/lib/kernel/test/code_SUITE.erl +++ b/lib/kernel/test/code_SUITE.erl @@ -483,23 +483,26 @@ load_binary(Config) when is_list(Config) -> code:delete(code_b_test), ok. + upgrade(Config) -> DataDir = proplists:get_value(data_dir, Config), - %%T = [beam, hipe], - T = [beam], - - [upgrade_do(DataDir, Client, U1, U2, O1, O2) - || Client<-T, U1<-T, U2<-T, O1<-T, O2<-T], + T = case erlang:system_info(hipe_architecture) of + undefined -> [beam]; + _ -> [beam,hipe] + end, + [upgrade_do(DataDir, Client, T) || Client <- T], ok. -upgrade_do(DataDir, Client, U1, U2, O1, O2) -> +upgrade_do(DataDir, Client, T) -> compile_load(upgrade_client, DataDir, undefined, Client), - upgrade_client:run(DataDir, U1, U2, O1, O2), + [upgrade_client:run(DataDir, U1, U2, O1, O2) + || U1<-T, U2<-T, O1<-T, O2<-T], ok. compile_load(Mod, Dir, Ver, CodeType) -> + erlang:display({"{{{{{{{{{{{{{{{{Loading",Mod,Ver,CodeType}), Version = case Ver of undefined -> io:format("Compiling '~p' as ~p\n", [Mod, CodeType]), @@ -516,9 +519,15 @@ compile_load(Mod, Dir, Ver, CodeType) -> CompOpts = [binary, report] ++ Target ++ Version, Src = filename:join(Dir, atom_to_list(Mod) ++ ".erl"), + T1 = erlang:now(), {ok,Mod,Code} = compile:file(Src, CompOpts), + T2 = erlang:now(), ObjFile = filename:basename(Src,".erl") ++ ".beam", {module,Mod} = code:load_binary(Mod, ObjFile, Code), + T3 = erlang:now(), + io:format("Compile time ~p ms, Load time ~p ms\n", + [timer:now_diff(T2,T1) div 1000, timer:now_diff(T3,T2) div 1000]), + erlang:display({"}}}}}}}}}}}}}}}Loaded",Mod,Ver,CodeType}), ok. dir_req(Config) when is_list(Config) -> @@ -810,8 +819,6 @@ check_funs({'$M_EXPR','$F_EXPR',_}, {code_server,start_link,1}]) -> 0; check_funs({'$M_EXPR','$F_EXPR',_}, [{erlang,spawn_link,1},{code_server,start_link,1}]) -> 0; -check_funs({'$M_EXPR',module_info,1}, - [{hipe_unified_loader,patch_to_emu_step1,1} | _]) -> 0; check_funs({'$M_EXPR','$F_EXPR',2}, [{hipe_unified_loader,write_words,3} | _]) -> 0; check_funs({'$M_EXPR','$F_EXPR',2}, @@ -823,11 +830,7 @@ check_funs({'$M_EXPR','$F_EXPR',2}, {hipe_unified_loader,sort_and_write,5} | _]) -> 0; check_funs({'$M_EXPR','$F_EXPR',1}, [{lists,foreach,2}, - {hipe_unified_loader,patch_consts,3} | _]) -> 0; -check_funs({'$M_EXPR','$F_EXPR',1}, - [{lists,foreach,2}, - {hipe_unified_loader,mark_referred_from,1}, - {hipe_unified_loader,get_refs_from,2}| _]) -> 0; + {hipe_unified_loader,patch_consts,4} | _]) -> 0; check_funs({'$M_EXPR',warning_msg,2}, [{code_server,finish_on_load_report,2} | _]) -> 0; check_funs({'$M_EXPR','$F_EXPR',1}, diff --git a/lib/kernel/test/code_SUITE_data/upgrade_client.erl b/lib/kernel/test/code_SUITE_data/upgrade_client.erl index bb655e01d3..98d36f6014 100644 --- a/lib/kernel/test/code_SUITE_data/upgrade_client.erl +++ b/lib/kernel/test/code_SUITE_data/upgrade_client.erl @@ -9,6 +9,8 @@ run(Dir, Upgradee1, Upgradee2, Other1, Other2) -> %% Load version 1 of upgradee code_SUITE:compile_load(upgradee, Dir, 1, Upgradee1), + Tracer = start_tracing(), + ?line 1 = upgradee:exp1(), ?line 1 = upgradee:exp1exp2(), ?line 1 = upgradee:exp1loc2(), @@ -56,6 +58,15 @@ run(Dir, Upgradee1, Upgradee2, Other1, Other2) -> ?line {'EXIT',{undef,_}} = proxy_call(P, other, loc1), ?line {'EXIT',{undef,_}} = proxy_call(P, other, loc2), + Env1 = "Env1", + put(loc1_fun, upgradee:get_local_fun(Env1)), + ?line {1,Env1} = (get(loc1_fun))(), + + put(exp1exp2_fun, upgradee:get_exp1exp2_fun()), + ?line 1 = (get(exp1exp2_fun))(), + + ?line 13 = check_tracing(Tracer), + %% %% Load version 1 of other %% @@ -78,6 +89,8 @@ run(Dir, Upgradee1, Upgradee2, Other1, Other2) -> ?line {'EXIT',{undef,_}} = proxy_call(P, other, exp2), ?line {'EXIT',{undef,_}} = proxy_call(P, other, loc2), + ?line 5 = check_tracing(Tracer), + %% %% Load version 2 of upgradee %% @@ -130,6 +143,15 @@ run(Dir, Upgradee1, Upgradee2, Other1, Other2) -> ?line {'EXIT',{undef,_}} = proxy_call(P, other, exp2), ?line {'EXIT',{undef,_}} = proxy_call(P, other, loc2), + ?line {1,Env1} = (get(loc1_fun))(), + Env2 = "Env2", + put(loc2_fun, upgradee:get_local_fun(Env2)), + ?line {2,Env2} = (get(loc2_fun))(), + + ?line 2 = (get(exp1exp2_fun))(), + + ?line 10 = check_tracing(Tracer), + %% %% Load version 2 of other %% @@ -182,17 +204,26 @@ run(Dir, Upgradee1, Upgradee2, Other1, Other2) -> ?line {'EXIT',{undef,_}} = proxy_call(P, other, loc1loc2), ?line {'EXIT',{undef,_}} = proxy_call(P, other, loc2), + ?line {1,Env1} = (get(loc1_fun))(), + ?line {2,Env2} = (get(loc2_fun))(), + ?line 2 = (get(exp1exp2_fun))(), + + ?line 10 = check_tracing(Tracer), %% %% Upgrade proxy to version 2 %% P ! upgrade_order, - %% - io:format("Delete version 2 of 'upgradee'\n",[]), + io:format("Purge version 1 of 'upgradee'\n",[]), %% + put(loc1_fun,undefined), code:purge(upgradee), + + %% + io:format("Delete version 2 of 'upgradee'\n",[]), + %% code:delete(upgradee), ?line {'EXIT',{undef,_}} = (catch upgradee:exp2()), @@ -239,17 +270,24 @@ run(Dir, Upgradee1, Upgradee2, Other1, Other2) -> ?line {'EXIT',{undef,_}} = proxy_call(P, other, exp1loc2), ?line {'EXIT',{undef,_}} = proxy_call(P, other, loc1loc2), ?line {'EXIT',{undef,_}} = proxy_call(P, other, loc2), + + ?line {'EXIT',{undef,_}} = (catch (get(exp1exp2_fun))()), + ?line 14 = check_tracing(Tracer), + unlink(P), exit(P, die_please), io:format("Purge 'upgradee'\n",[]), + put(loc2_fun,undefined), code:purge(upgradee), io:format("Delete and purge 'other'\n",[]), code:purge(other), code:delete(other), code:purge(other), + + stop_tracing(Tracer), ok. proxy_call(Pid, CallType, Func) -> @@ -257,3 +295,48 @@ proxy_call(Pid, CallType, Func) -> receive {Pid, call_result, Func, Ret} -> Ret end. + + +start_tracing() -> + Self = self(), + {Tracer,_} = spawn_opt(fun() -> tracer_loop(Self) end, [link,monitor]), + ?line 1 = erlang:trace_pattern({error_handler,undefined_function,3}, + true, [global]), + ?line 1 = erlang:trace(Self, true, [call,{tracer,Tracer}]), + Tracer. + + +tracer_loop(Receiver) -> + receive + die_please -> + ok; + {do_trace_delivered, Tracee} -> + _ = erlang:trace_delivered(Tracee), + tracer_loop(Receiver); + + Msg -> + Receiver ! Msg, + tracer_loop(Receiver) + end. + +check_tracing(Tracer) -> + Tracer ! {do_trace_delivered, self()}, + check_tracing_loop(0). + +check_tracing_loop(N) -> + Self = self(), + receive + {trace, _Pid, call, {_M, _F, _Args}} = Msg -> + io:format("Trace: ~p\n",[Msg]), + check_tracing_loop(N+1); + {trace_delivered, Self, _} -> + N + end. + + +stop_tracing(Tracer) -> + erlang:trace(self(), false, [call]), + Tracer ! die_please, + receive + {'DOWN', _, process, Tracer, _} -> ok + end. diff --git a/lib/kernel/test/code_SUITE_data/upgradee.erl b/lib/kernel/test/code_SUITE_data/upgradee.erl index 62b1d95e30..8ca660c19c 100644 --- a/lib/kernel/test/code_SUITE_data/upgradee.erl +++ b/lib/kernel/test/code_SUITE_data/upgradee.erl @@ -8,6 +8,9 @@ -export([exp1/0]). % only exported in v1 -export([exp1loc2/0]). % exported in v1, local in v2 -export([exp1exp2/0]). % exported in v1 and v2 +-export([get_local_fun/1]). +-export([get_exp1exp2_fun/0]). +-export([exp1exp2_fun/0]). exp1() -> ?VERSION. loc1() -> ?VERSION. @@ -20,6 +23,9 @@ loc1() -> ?VERSION. -export([exp2/0]). -export([loc1exp2/0]). -export([exp1exp2/0]). +-export([get_local_fun/1]). +-export([get_exp1exp2_fun/0]). +-export([exp1exp2_fun/0]). exp2() -> ?VERSION. loc2() -> ?VERSION. @@ -31,6 +37,12 @@ exp1loc2() -> ?VERSION. loc1exp2() -> ?VERSION. loc1loc2() -> ?VERSION. +get_local_fun(Env) -> fun() -> {?VERSION,Env} end. +get_exp1exp2_fun() -> fun ?MODULE:exp1exp2_fun/0. + +exp1exp2_fun() -> + ?VERSION. + dispatch_loop() -> receive upgrade_order -> |