{ Copyright (c) 2002-2010 by Florian Klaempfl and Jonas Maebe This unit contains the CPU specific part of tprocinfo This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. **************************************************************************** } unit cpupi; {$i fpcdefs.inc} interface uses cutils,globtype,aasmdata,aasmcpu,aasmtai, procinfo,cpubase,cpuinfo, symtype,aasmbase,cgbase, psub, cclasses; type { tcpuprocinfo } tcpuprocinfo=class(tcgprocinfo) private FFuncType: TWasmFuncType; FLocals: array of TWasmBasicType; FParametersCount: Integer; FFirstFreeLocal: Integer; FAllocatedLocals: array of TWasmBasicType; FGotoTargets: TFPHashObjectList; function ConvertBranchTargetNumbersToLabels(ai: tai; blockstack: twasmstruc_stack): TAsmMapFuncResult; function ConvertIfToBrIf(ai: tai; blockstack: twasmstruc_stack): TAsmMapFuncResult; function ConvertLoopToBr(ai: tai; blockstack: twasmstruc_stack): TAsmMapFuncResult; function StripBlockInstructions(ai: tai; blockstack: twasmstruc_stack): TAsmMapFuncResult; { used for allocating locals during the postprocess_code stage (i.e. after register allocation) } function AllocWasmLocal(wbt: TWasmBasicType): Integer; function GetLocalType(localidx: Integer): TWasmBasicType; public { label to the nearest local exception handler } CurrRaiseLabel : tasmlabel; constructor create(aparent: tprocinfo); override; destructor destroy; override; function calc_stackframe_size : longint;override; procedure setup_eh; override; procedure generate_exit_label(list: tasmlist); override; procedure postprocess_code; override; procedure set_first_temp_offset;override; procedure add_goto_target(l : tasmlabel); function is_goto_target(l : tasmsymbol): Boolean; end; implementation uses systems,verbose,globals,tgcpu,cgexcept, tgobj,paramgr,symconst,symdef,symtable,symcpu,cgutils,pass_2,parabase, fmodule,hlcgobj,hlcgcpu,defutil,itcpugas; {***************************************************************************** twasmexceptionstatehandler_noexceptions *****************************************************************************} type { twasmexceptionstatehandler_noexceptions } twasmexceptionstatehandler_noexceptions = class(tcgexceptionstatehandler) class procedure get_exception_temps(list:TAsmList;var t:texceptiontemps); override; class procedure unget_exception_temps(list:TAsmList;const t:texceptiontemps); override; class procedure new_exception(list:TAsmList;const t:texceptiontemps; const exceptframekind: texceptframekind; out exceptstate: texceptionstate); override; class procedure free_exception(list: TAsmList; const t: texceptiontemps; const s: texceptionstate; a: aint; endexceptlabel: tasmlabel; onlyfree:boolean); override; class procedure handle_nested_exception(list:TAsmList;var t:texceptiontemps;var entrystate: texceptionstate); override; end; class procedure twasmexceptionstatehandler_noexceptions.get_exception_temps(list:TAsmList;var t:texceptiontemps); begin if not assigned(exceptionreasontype) then exceptionreasontype:=search_system_proc('fpc_setjmp').returndef; reference_reset(t.envbuf,0,[]); reference_reset(t.jmpbuf,0,[]); tg.gethltemp(list,exceptionreasontype,exceptionreasontype.size,tt_persistent,t.reasonbuf); end; class procedure twasmexceptionstatehandler_noexceptions.unget_exception_temps(list:TAsmList;const t:texceptiontemps); begin tg.ungettemp(list,t.reasonbuf); end; class procedure twasmexceptionstatehandler_noexceptions.new_exception(list:TAsmList;const t:texceptiontemps; const exceptframekind: texceptframekind; out exceptstate: texceptionstate); begin exceptstate.exceptionlabel:=nil; exceptstate.oldflowcontrol:=flowcontrol; exceptstate.finallycodelabel:=nil; flowcontrol:=[fc_inflowcontrol,fc_catching_exceptions]; end; class procedure twasmexceptionstatehandler_noexceptions.free_exception(list: TAsmList; const t: texceptiontemps; const s: texceptionstate; a: aint; endexceptlabel: tasmlabel; onlyfree:boolean); begin end; class procedure twasmexceptionstatehandler_noexceptions.handle_nested_exception(list:TAsmList;var t:texceptiontemps;var entrystate: texceptionstate); begin list.Concat(tai_comment.Create(strpnew('TODO: handle_nested_exception'))); end; {***************************************************************************** twasmexceptionstatehandler_jsexceptions *****************************************************************************} type twasmexceptionstatehandler_jsexceptions = class(tcgexceptionstatehandler) class procedure get_exception_temps(list:TAsmList;var t:texceptiontemps); override; class procedure unget_exception_temps(list:TAsmList;const t:texceptiontemps); override; class procedure new_exception(list:TAsmList;const t:texceptiontemps; const exceptframekind: texceptframekind; out exceptstate: texceptionstate); override; class procedure free_exception(list: TAsmList; const t: texceptiontemps; const s: texceptionstate; a: aint; endexceptlabel: tasmlabel; onlyfree:boolean); override; class procedure handle_nested_exception(list:TAsmList;var t:texceptiontemps;var entrystate: texceptionstate); override; end; class procedure twasmexceptionstatehandler_jsexceptions.get_exception_temps(list:TAsmList;var t:texceptiontemps); begin if not assigned(exceptionreasontype) then exceptionreasontype:=search_system_proc('fpc_setjmp').returndef; reference_reset(t.envbuf,0,[]); reference_reset(t.jmpbuf,0,[]); tg.gethltemp(list,exceptionreasontype,exceptionreasontype.size,tt_persistent,t.reasonbuf); end; class procedure twasmexceptionstatehandler_jsexceptions.unget_exception_temps(list:TAsmList;const t:texceptiontemps); begin tg.ungettemp(list,t.reasonbuf); end; class procedure twasmexceptionstatehandler_jsexceptions.new_exception(list:TAsmList;const t:texceptiontemps; const exceptframekind: texceptframekind; out exceptstate: texceptionstate); begin exceptstate.exceptionlabel:=nil; exceptstate.oldflowcontrol:=flowcontrol; exceptstate.finallycodelabel:=nil; flowcontrol:=[fc_inflowcontrol,fc_catching_exceptions]; end; class procedure twasmexceptionstatehandler_jsexceptions.free_exception(list: TAsmList; const t: texceptiontemps; const s: texceptionstate; a: aint; endexceptlabel: tasmlabel; onlyfree:boolean); begin end; class procedure twasmexceptionstatehandler_jsexceptions.handle_nested_exception(list:TAsmList;var t:texceptiontemps;var entrystate: texceptionstate); begin list.Concat(tai_comment.Create(strpnew('TODO: handle_nested_exception'))); end; {***************************************************************************** twasmexceptionstatehandler_nativeexceptions *****************************************************************************} type { twasmexceptionstatehandler_nativeexceptions } twasmexceptionstatehandler_nativeexceptions = class(tcgexceptionstatehandler) class procedure new_exception(list:TAsmList;const t:texceptiontemps; const exceptframekind: texceptframekind; out exceptstate: texceptionstate); override; class procedure free_exception(list: TAsmList; const t: texceptiontemps; const s: texceptionstate; a: aint; endexceptlabel: tasmlabel; onlyfree:boolean); override; class procedure handle_nested_exception(list:TAsmList;var t:texceptiontemps;var entrystate: texceptionstate); override; { start of an "on" (catch) block } class procedure begin_catch(list: TAsmList; excepttype: tobjectdef; nextonlabel: tasmlabel; out exceptlocdef: tdef; out exceptlocreg: tregister); override; { end of an "on" (catch) block } class procedure end_catch(list: TAsmList); override; end; class procedure twasmexceptionstatehandler_nativeexceptions.new_exception(list:TAsmList;const t:texceptiontemps; const exceptframekind: texceptframekind; out exceptstate: texceptionstate); begin exceptstate.exceptionlabel:=nil; exceptstate.oldflowcontrol:=flowcontrol; exceptstate.finallycodelabel:=nil; flowcontrol:=[fc_inflowcontrol,fc_catching_exceptions]; end; class procedure twasmexceptionstatehandler_nativeexceptions.free_exception(list: TAsmList; const t: texceptiontemps; const s: texceptionstate; a: aint; endexceptlabel: tasmlabel; onlyfree:boolean); begin end; class procedure twasmexceptionstatehandler_nativeexceptions.handle_nested_exception(list:TAsmList;var t:texceptiontemps;var entrystate: texceptionstate); begin Message1(parser_f_unsupported_feature,'nested exception'); end; class procedure twasmexceptionstatehandler_nativeexceptions.begin_catch(list: TAsmList; excepttype: tobjectdef; nextonlabel: tasmlabel; out exceptlocdef: tdef; out exceptlocreg: tregister); var pd: tprocdef; href2: treference; fpc_catches_res, paraloc1: tcgpara; exceptloc: tlocation; indirect: boolean; otherunit: boolean; begin paraloc1.init; otherunit:=findunitsymtable(excepttype.owner).moduleid<>findunitsymtable(current_procinfo.procdef.owner).moduleid; indirect:=(tf_supports_packages in target_info.flags) and (target_info.system in systems_indirect_var_imports) and (cs_imported_data in current_settings.localswitches) and otherunit; { send the vmt parameter } pd:=search_system_proc('fpc_catches'); reference_reset_symbol(href2, current_asmdata.RefAsmSymbol(excepttype.vmt_mangledname, AT_DATA, indirect), 0, sizeof(pint), []); if otherunit then current_module.add_extern_asmsym(excepttype.vmt_mangledname, AB_EXTERNAL, AT_DATA); paramanager.getcgtempparaloc(list, pd, 1, paraloc1); hlcg.a_loadaddr_ref_cgpara(list, excepttype.vmt_def, href2, paraloc1); paramanager.freecgpara(list, paraloc1); fpc_catches_res:=hlcg.g_call_system_proc(list, pd, [@paraloc1], nil); location_reset(exceptloc, LOC_REGISTER, def_cgsize(fpc_catches_res.def)); exceptloc.register:=hlcg.getaddressregister(list, fpc_catches_res.def); hlcg.gen_load_cgpara_loc(list, fpc_catches_res.def, fpc_catches_res, exceptloc, true); { is it this catch? } thlcgwasm(hlcg).a_cmp_const_reg_stack(list, fpc_catches_res.def, OC_NE, 0, exceptloc.register); current_asmdata.CurrAsmList.concat(taicpu.op_none(a_if)); thlcgwasm(hlcg).decstack(current_asmdata.CurrAsmList,1); paraloc1.done; exceptlocdef:=fpc_catches_res.def; exceptlocreg:=exceptloc.register; end; class procedure twasmexceptionstatehandler_nativeexceptions.end_catch(list: TAsmList); begin current_asmdata.CurrAsmList.concat(taicpu.op_none(a_end_if)); end; {***************************************************************************** twasmexceptionstatehandler_bfexceptions *****************************************************************************} type { twasmexceptionstatehandler_bfexceptions } twasmexceptionstatehandler_bfexceptions = class(tcgexceptionstatehandler) class procedure new_exception(list:TAsmList;const t:texceptiontemps; const exceptframekind: texceptframekind; out exceptstate: texceptionstate); override; class procedure free_exception(list: TAsmList; const t: texceptiontemps; const s: texceptionstate; a: aint; endexceptlabel: tasmlabel; onlyfree:boolean); override; class procedure handle_nested_exception(list:TAsmList;var t:texceptiontemps;var entrystate: texceptionstate); override; { start of an "on" (catch) block } class procedure begin_catch(list: TAsmList; excepttype: tobjectdef; nextonlabel: tasmlabel; out exceptlocdef: tdef; out exceptlocreg: tregister); override; { end of an "on" (catch) block } class procedure end_catch(list: TAsmList); override; end; class procedure twasmexceptionstatehandler_bfexceptions.new_exception(list:TAsmList;const t:texceptiontemps; const exceptframekind: texceptframekind; out exceptstate: texceptionstate); begin exceptstate.exceptionlabel:=nil; exceptstate.oldflowcontrol:=flowcontrol; exceptstate.finallycodelabel:=nil; flowcontrol:=[fc_inflowcontrol,fc_catching_exceptions]; end; class procedure twasmexceptionstatehandler_bfexceptions.free_exception(list: TAsmList; const t: texceptiontemps; const s: texceptionstate; a: aint; endexceptlabel: tasmlabel; onlyfree:boolean); begin end; class procedure twasmexceptionstatehandler_bfexceptions.handle_nested_exception(list:TAsmList;var t:texceptiontemps;var entrystate: texceptionstate); begin Message1(parser_f_unsupported_feature,'nested exception'); end; class procedure twasmexceptionstatehandler_bfexceptions.begin_catch(list: TAsmList; excepttype: tobjectdef; nextonlabel: tasmlabel; out exceptlocdef: tdef; out exceptlocreg: tregister); var pd: tprocdef; href2: treference; fpc_catches_res, paraloc1: tcgpara; exceptloc: tlocation; indirect: boolean; otherunit: boolean; begin paraloc1.init; otherunit:=findunitsymtable(excepttype.owner).moduleid<>findunitsymtable(current_procinfo.procdef.owner).moduleid; indirect:=(tf_supports_packages in target_info.flags) and (target_info.system in systems_indirect_var_imports) and (cs_imported_data in current_settings.localswitches) and otherunit; { send the vmt parameter } pd:=search_system_proc('fpc_catches'); reference_reset_symbol(href2, current_asmdata.RefAsmSymbol(excepttype.vmt_mangledname, AT_DATA, indirect), 0, sizeof(pint), []); if otherunit then current_module.add_extern_asmsym(excepttype.vmt_mangledname, AB_EXTERNAL, AT_DATA); paramanager.getcgtempparaloc(list, pd, 1, paraloc1); hlcg.a_loadaddr_ref_cgpara(list, excepttype.vmt_def, href2, paraloc1); paramanager.freecgpara(list, paraloc1); fpc_catches_res:=hlcg.g_call_system_proc(list, pd, [@paraloc1], nil); location_reset(exceptloc, LOC_REGISTER, def_cgsize(fpc_catches_res.def)); exceptloc.register:=hlcg.getaddressregister(list, fpc_catches_res.def); hlcg.gen_load_cgpara_loc(list, fpc_catches_res.def, fpc_catches_res, exceptloc, true); { is it this catch? } thlcgwasm(hlcg).a_cmp_const_reg_stack(list, fpc_catches_res.def, OC_NE, 0, exceptloc.register); current_asmdata.CurrAsmList.concat(taicpu.op_none(a_if)); thlcgwasm(hlcg).decstack(current_asmdata.CurrAsmList,1); paraloc1.done; exceptlocdef:=fpc_catches_res.def; exceptlocreg:=exceptloc.register; end; class procedure twasmexceptionstatehandler_bfexceptions.end_catch(list: TAsmList); begin current_asmdata.CurrAsmList.concat(taicpu.op_none(a_end_if)); end; {***************************************************************************** twasmblockitem *****************************************************************************} type { twasmblockitem } twasmblockitem = class(TLinkedListItem) blockstart: taicpu; elseinstr: taicpu; constructor Create(ablockstart: taicpu); end; constructor twasmblockitem.Create(ablockstart: taicpu); begin blockstart:=ablockstart; end; {***************************************************************************** twasmblockstack *****************************************************************************} type { twasmblockstack } twasmblockstack = class(tlinkedlist) end; {***************************************************************************** tcpuprocinfo *****************************************************************************} function tcpuprocinfo.ConvertBranchTargetNumbersToLabels(ai: tai; blockstack: twasmstruc_stack): TAsmMapFuncResult; var instr: taicpu; bl: taicpu_wasm_structured_instruction; l: TAsmLabel; begin result.typ:=amfrtNoChange; if ai.typ<>ait_instruction then exit; instr:=taicpu(ai); if not (instr.opcode in [a_br,a_br_if]) then exit; if instr.ops<>1 then internalerror(2023101601); if instr.oper[0]^.typ<>top_const then exit; bl:=blockstack[instr.oper[0]^.val]; l:=bl.getlabel; instr.loadsymbol(0,l,0); end; function tcpuprocinfo.ConvertIfToBrIf(ai: tai; blockstack: twasmstruc_stack): TAsmMapFuncResult; begin result.typ:=amfrtNoChange; if (ai.typ=ait_wasm_structured_instruction) and (taicpu_wasm_structured_instruction(ai).wstyp=aitws_if) then begin result.typ:=amfrtNewList; result.newlist:=TAsmList.Create; tai_wasmstruc_if(ai).ConvertToBrIf(result.newlist,@AllocWasmLocal); end; end; function tcpuprocinfo.ConvertLoopToBr(ai: tai; blockstack: twasmstruc_stack): TAsmMapFuncResult; begin result.typ:=amfrtNoChange; if (ai.typ=ait_wasm_structured_instruction) and (taicpu_wasm_structured_instruction(ai).wstyp=aitws_loop) then begin result.typ:=amfrtNewList; result.newlist:=TAsmList.Create; tai_wasmstruc_loop(ai).ConvertToBr(result.newlist); end; end; function tcpuprocinfo.StripBlockInstructions(ai: tai; blockstack: twasmstruc_stack): TAsmMapFuncResult; var instr: taicpu; begin result.typ:=amfrtNoChange; if ai.typ<>ait_instruction then exit; instr:=taicpu(ai); if instr.opcode in [a_block,a_end_block] then result.typ:=amfrtDeleteAi; end; function tcpuprocinfo.AllocWasmLocal(wbt: TWasmBasicType): Integer; begin SetLength(FAllocatedLocals,Length(FAllocatedLocals)+1); FAllocatedLocals[High(FAllocatedLocals)]:=wbt; result:=High(FAllocatedLocals)+FFirstFreeLocal; SetLength(FLocals,Length(FLocals)+1); FLocals[High(FLocals)]:=wbt; end; function tcpuprocinfo.GetLocalType(localidx: Integer): TWasmBasicType; begin if (localidxHigh(FLocals)) then internalerror(2024022601); result:=FLocals[localidx]; end; constructor tcpuprocinfo.create(aparent: tprocinfo); begin inherited create(aparent); FGotoTargets:=TFPHashObjectList.Create(false); if ts_wasm_bf_exceptions in current_settings.targetswitches then current_asmdata.getjumplabel(CurrRaiseLabel); end; destructor tcpuprocinfo.destroy; begin FGotoTargets.Free; inherited destroy; end; function tcpuprocinfo.calc_stackframe_size: longint; begin { the stack frame in WebAssembly should always have a 16-byte alignment } Result:=Align(inherited calc_stackframe_size,16); end; procedure tcpuprocinfo.setup_eh; begin if ts_wasm_native_exceptions in current_settings.targetswitches then cexceptionstatehandler:=twasmexceptionstatehandler_nativeexceptions else if ts_wasm_js_exceptions in current_settings.targetswitches then cexceptionstatehandler:=twasmexceptionstatehandler_jsexceptions else if ts_wasm_no_exceptions in current_settings.targetswitches then cexceptionstatehandler:=twasmexceptionstatehandler_noexceptions else if ts_wasm_bf_exceptions in current_settings.targetswitches then cexceptionstatehandler:=twasmexceptionstatehandler_bfexceptions else internalerror(2021091701); end; procedure tcpuprocinfo.generate_exit_label(list: tasmlist); begin if not (po_assembler in current_procinfo.procdef.procoptions) then list.concat(taicpu.op_none(a_end_block)); inherited generate_exit_label(list); end; procedure tcpuprocinfo.postprocess_code; function findfirst_tai_functype(asmlist: TAsmList): tai_functype; var hp: tai; begin result:=nil; if not assigned(asmlist) then exit; hp:=tai(asmlist.first); while assigned(hp) do begin if hp.typ=ait_functype then begin result:=tai_functype(hp); exit; end; hp:=tai(hp.Next); end; end; procedure replace_local_frame_pointer(asmlist: TAsmList); var hp: tai; instr: taicpu; l: Integer; begin if not assigned(asmlist) then exit; hp:=tai(asmlist.first); while assigned(hp) do begin if hp.typ=ait_instruction then begin instr:=taicpu(hp); for l:=0 to instr.ops-1 do if (instr.oper[l]^.typ=top_reg) and (instr.oper[l]^.reg=NR_LOCAL_FRAME_POINTER_REG) then instr.loadref(l,tcpuprocdef(current_procinfo.procdef).frame_pointer_ref); end; hp:=tai(hp.Next); end; end; function FindNextInstruction(hp: tai): taicpu; begin result:=nil; if not assigned(hp) then exit; repeat hp:=tai(hp.next); until not assigned(hp) or (hp.typ=ait_instruction); if assigned(hp) then result:=taicpu(hp); end; procedure resolve_labels_pass1(asmlist: TAsmList); var hp: tai; lastinstr, nextinstr: taicpu; cur_nesting_depth: longint; lbl: tai_label; blockstack: twasmblockstack; cblock: twasmblockitem; begin blockstack:=twasmblockstack.create; cur_nesting_depth:=0; lastinstr:=nil; hp:=tai(asmlist.first); while assigned(hp) do begin case hp.typ of ait_instruction: begin lastinstr:=taicpu(hp); case lastinstr.opcode of a_block, a_loop, a_if, a_try: begin blockstack.Concat(twasmblockitem.create(lastinstr)); inc(cur_nesting_depth); end; a_else: begin cblock:=twasmblockitem(blockstack.Last); if (cblock=nil) or (cblock.blockstart.opcode<>a_if) or assigned(cblock.elseinstr) then Message1(parser_f_unsupported_feature,'misplaced a_else'); cblock.elseinstr:=lastinstr; end; a_end_block, a_end_loop, a_end_if, a_end_try: begin dec(cur_nesting_depth); if cur_nesting_depth<0 then Message1(parser_f_unsupported_feature,'negative nesting level'); cblock:=twasmblockitem(blockstack.GetLast); if (cblock=nil) or ((cblock.blockstart.opcode=a_block) and (lastinstr.opcode<>a_end_block)) or ((cblock.blockstart.opcode=a_loop) and (lastinstr.opcode<>a_end_loop)) or ((cblock.blockstart.opcode=a_if) and (lastinstr.opcode<>a_end_if)) or ((cblock.blockstart.opcode=a_try) and (lastinstr.opcode<>a_end_try)) then Message1(parser_f_unsupported_feature,'incompatible nesting level'); cblock.free; end; else ; end; end; ait_label: begin lbl:=tai_label(hp); lbl.labsym.nestingdepth:=-1; nextinstr:=FindNextInstruction(hp); if assigned(nextinstr) and (nextinstr.opcode in [a_end_block,a_end_try,a_end_if]) then lbl.labsym.nestingdepth:=cur_nesting_depth else if assigned(lastinstr) and (lastinstr.opcode=a_loop) then lbl.labsym.nestingdepth:=cur_nesting_depth else if assigned(lastinstr) and (lastinstr.opcode in [a_end_block,a_end_try,a_end_if]) then lbl.labsym.nestingdepth:=cur_nesting_depth+1 else if assigned(nextinstr) and (nextinstr.opcode=a_loop) then lbl.labsym.nestingdepth:=cur_nesting_depth+1; end; else ; end; hp:=tai(hp.Next); end; if cur_nesting_depth<>0 then Message1(parser_f_unsupported_feature,'unbalanced nesting level'); blockstack.free; end; function resolve_labels_pass2(asmlist: TAsmList): Boolean; var hp: tai; instr: taicpu; hlabel: tasmsymbol; cur_nesting_depth: longint; begin Result:=true; cur_nesting_depth:=0; hp:=tai(asmlist.first); while assigned(hp) do begin if hp.typ=ait_instruction then begin instr:=taicpu(hp); case instr.opcode of a_block, a_loop, a_if, a_try: inc(cur_nesting_depth); a_end_block, a_end_loop, a_end_if, a_end_try: begin dec(cur_nesting_depth); if cur_nesting_depth<0 then Message1(parser_f_unsupported_feature,'negative nesting level'); end; a_br, a_br_if: begin if instr.ops<>1 then Message1(parser_f_unsupported_feature,'a_br or a_br_if with wrong operand count'); if instr.oper[0]^.typ=top_ref then begin if not assigned(instr.oper[0]^.ref^.symbol) then Message1(parser_f_unsupported_feature,'a_br or a_br_if with wrong ref operand'); if (instr.oper[0]^.ref^.base<>NR_NO) or (instr.oper[0]^.ref^.index<>NR_NO) or (instr.oper[0]^.ref^.offset<>0) then Message1(parser_f_unsupported_feature,'a_br or a_br_if with wrong ref type'); if (instr.oper[0]^.ref^.symbol.nestingdepth<>-1) and (cur_nesting_depth>=instr.oper[0]^.ref^.symbol.nestingdepth) then instr.loadconst(0,cur_nesting_depth-instr.oper[0]^.ref^.symbol.nestingdepth) else begin result:=false; hlabel:=tasmsymbol(instr.oper[0]^.ref^.symbol); asmlist.insertafter(tai_comment.create(strpnew('Unable to find destination of label '+hlabel.name)),hp); end; end; end; else ; end; end; hp:=tai(hp.Next); end; if cur_nesting_depth<>0 then Message1(parser_f_unsupported_feature,'unbalanced nesting level'); end; function resolve_labels_simple(asmlist: TAsmList): Boolean; begin if not assigned(asmlist) then exit(true); resolve_labels_pass1(asmlist); result:=resolve_labels_pass2(asmlist); end; procedure resolve_labels_via_state_machine(asmlist: TAsmList); var blocks: TFPHashObjectList; curr_block, tmplist: TAsmList; hp, hpnext: tai; block_nr, machine_state, target_block_index: Integer; state_machine_loop_start_label, state_machine_exit: TAsmLabel; begin blocks:=TFPHashObjectList.Create; curr_block:=TAsmList.Create; blocks.Add('.start',curr_block); repeat hp:=tai(asmlist.First); if assigned(hp) then begin asmlist.Remove(hp); if hp.typ=ait_label then begin if (tai_label(hp).labsym.is_used) then begin curr_block:=TAsmList.Create; blocks.Add(tai_label(hp).labsym.Name,curr_block); end; end else curr_block.Concat(hp); end; until not assigned(hp); { asmlist is now empty } asmlist.Concat(tai_comment.Create(strpnew('labels resolved via state machine'))); machine_state:=AllocWasmLocal(wbt_i32); asmlist.Concat(tai_comment.Create(strpnew('machine state is in local '+tostr(machine_state)))); asmlist.Concat(taicpu.op_const(a_i32_const,0)); asmlist.Concat(taicpu.op_const(a_local_set,machine_state)); asmlist.Concat(taicpu.op_none(a_block)); asmlist.Concat(taicpu.op_none(a_loop)); current_asmdata.getjumplabel(state_machine_loop_start_label); asmlist.concat(tai_label.create(state_machine_loop_start_label)); current_asmdata.getjumplabel(state_machine_exit); for block_nr:=0 to blocks.Count-1 do asmlist.Concat(taicpu.op_none(a_block)); for block_nr:=0 to blocks.Count-1 do begin { TODO: this sequence can be replaced with a single br_table instruction } asmlist.Concat(taicpu.op_const(a_local_get,machine_state)); asmlist.Concat(taicpu.op_const(a_i32_const,block_nr)); asmlist.Concat(taicpu.op_none(a_i32_eq)); asmlist.Concat(taicpu.op_const(a_br_if,block_nr)); end; asmlist.Concat(taicpu.op_none(a_unreachable)); tmplist:=TAsmList.Create; for block_nr:=0 to blocks.Count-1 do begin asmlist.Concat(taicpu.op_none(a_end_block)); asmlist.Concat(tai_comment.Create(strpnew('block '+tostr(block_nr)+' for label '+blocks.NameOfIndex(block_nr)))); curr_block:=TAsmList(blocks[block_nr]); hp:=tai(curr_block.First); while assigned(hp) do begin hpnext:=tai(hp.next); if (hp.typ=ait_instruction) and (taicpu(hp).opcode in [a_br,a_br_if]) and (taicpu(hp).ops=1) and (taicpu(hp).oper[0]^.typ=top_ref) and assigned(taicpu(hp).oper[0]^.ref^.symbol) then begin target_block_index:=blocks.FindIndexOf(taicpu(hp).oper[0]^.ref^.symbol.Name); curr_block.InsertBefore(tai_comment.Create(strpnew( 'branch '+gas_op2str[taicpu(hp).opcode]+ ' '+taicpu(hp).oper[0]^.ref^.symbol.Name+ ' target_block_index='+tostr(target_block_index))),hp); if target_block_index<>-1 then begin tmplist.Clear; if taicpu(hp).opcode=a_br_if then tmplist.Concat(taicpu.op_none(a_if)); tmplist.Concat(taicpu.op_const(a_i32_const,target_block_index)); tmplist.Concat(taicpu.op_const(a_local_set,machine_state)); tmplist.Concat(taicpu.op_sym(a_br,state_machine_loop_start_label)); if taicpu(hp).opcode=a_br_if then tmplist.Concat(taicpu.op_none(a_end_if)); curr_block.insertListAfter(hp,tmplist); curr_block.Remove(hp); end; end; hp:=hpnext; end; if block_nr<(blocks.Count-1) then begin curr_block.Concat(taicpu.op_const(a_i32_const,block_nr+1)); curr_block.Concat(taicpu.op_const(a_local_set,machine_state)); curr_block.Concat(taicpu.op_sym(a_br,state_machine_loop_start_label)); end else curr_block.Concat(taicpu.op_sym(a_br,state_machine_exit)); asmlist.concatList(curr_block); end; tmplist.Free; asmlist.Concat(taicpu.op_none(a_end_loop)); asmlist.Concat(taicpu.op_none(a_end_block)); asmlist.concat(tai_label.create(state_machine_exit)); end; procedure filter_start_exit_code(asmlist: TAsmList; out entry_code, proc_body, exit_code: TAsmList); var hp, hpnext, hpprev: tai; begin entry_code:=TAsmList.Create; proc_body:=TAsmList.Create; exit_code:=TAsmList.Create; repeat hp:=tai(asmlist.First); if assigned(hp) then begin hpnext:=tai(hp.next); if (hp.typ=ait_instruction) and (taicpu(hp).opcode=a_block) then break; asmlist.Remove(hp); entry_code.Concat(hp); hp:=hpnext; end; until not assigned(hp); repeat hp:=tai(asmlist.Last); if assigned(hp) then begin hpprev:=tai(hp.Previous); if (hp.typ=ait_instruction) and (taicpu(hp).opcode=a_end_block) then break; asmlist.Remove(hp); exit_code.Insert(hp); hp:=hpprev; end; until not assigned(hp); proc_body.insertList(asmlist); end; procedure resolve_labels_of_asmlist_with_try_blocks_recursive(asmlist: TAsmList); var hp: tai; i: Integer; begin if not assigned(asmlist) then exit; hp:=tai(asmlist.First); while assigned(hp) do begin if hp.typ=ait_wasm_structured_instruction then begin if not (taicpu_wasm_structured_instruction(hp).wstyp in [aitws_try_catch,aitws_try_delegate]) then internalerror(2023102201); resolve_labels_of_asmlist_with_try_blocks_recursive(tai_wasmstruc_try(hp).try_asmlist); if taicpu_wasm_structured_instruction(hp).wstyp=aitws_try_catch then with tai_wasmstruc_try_catch(hp) do begin for i:=low(catch_list) to high(catch_list) do resolve_labels_of_asmlist_with_try_blocks_recursive(catch_list[i].asmlist); resolve_labels_of_asmlist_with_try_blocks_recursive(catch_all_asmlist); end else if taicpu_wasm_structured_instruction(hp).wstyp=aitws_try_delegate then {nothing} else internalerror(2023102202); end; hp:=tai(hp.next); end; resolve_labels_via_state_machine(asmlist); end; procedure resolve_labels_complex(var asmlist: TAsmList); var entry_code, proc_body, exit_code: TAsmList; begin filter_start_exit_code(asmlist,entry_code,proc_body,exit_code); asmlist.Free; asmlist:=proc_body; proc_body:=nil; wasm_convert_to_structured_asmlist(asmlist); map_structured_asmlist(asmlist,@ConvertBranchTargetNumbersToLabels); map_structured_asmlist(asmlist,@ConvertIfToBrIf); map_structured_asmlist(asmlist,@ConvertLoopToBr); wasm_convert_to_flat_asmlist(asmlist); map_structured_asmlist(asmlist,@StripBlockInstructions); wasm_convert_to_structured_asmlist(asmlist); resolve_labels_of_asmlist_with_try_blocks_recursive(asmlist); wasm_convert_to_flat_asmlist(asmlist); asmlist.insertList(entry_code); entry_code.free; asmlist.concatList(exit_code); exit_code.free; if not resolve_labels_simple(asmlist) then internalerror(2023102101); end; function prepare_locals: TAsmList; var local: tai_local; l : TWasmLocal; begin result:=TAsmList.create; local:=tai_local.create([]); result.Concat(local); l:=ttgwasm(tg).localvars.first; FFuncType:=findfirst_tai_functype(aktproccode).functype; FLocals:=Copy(FFuncType.params); FParametersCount:=Length(FLocals); FFirstFreeLocal:=FParametersCount; while Assigned(l) do begin SetLength(FLocals,Length(FLocals)+1); FLocals[High(FLocals)]:=l.typ; local.AddLocal(l.typ); l:=l.nextseq; Inc(FFirstFreeLocal); end; end; procedure add_extra_allocated_locals(localslist: TAsmList); begin if tai(localslist.First).typ<>ait_local then internalerror(2024081501); tai_local(localslist.First).AddLocals(FAllocatedLocals); end; procedure insert_localslist(destlist,localslist: TAsmList); begin if assigned(localslist) then destlist.insertListAfter(findfirst_tai_functype(destlist),localslist); end; procedure check_goto_br_instructions(list: TAsmList; out HasGotoBrInstructions: boolean); var hp: tai; begin HasGotoBrInstructions:=False; hp:=tai(list.first); while assigned(hp) do begin if (hp.typ=ait_instruction) and (taicpu(hp).is_br_generated_by_goto) then begin HasGotoBrInstructions:=True; if (taicpu(hp).opcode<>a_br) or (taicpu(hp).ops<>1) or (taicpu(hp).oper[0]^.typ<>top_ref) or (taicpu(hp).oper[0]^.ref^.offset<>0) or (taicpu(hp).oper[0]^.ref^.base<>NR_NO) or (taicpu(hp).oper[0]^.ref^.index<>NR_NO) or (taicpu(hp).oper[0]^.ref^.symbol=nil) then internalerror(2023102203); if not is_goto_target(taicpu(hp).oper[0]^.ref^.symbol) then internalerror(2023102204); end; hp:=tai(hp.next); end; end; procedure validate_code; var vs: TWasmValidationStacks; hp: tai; begin vs:=TWasmValidationStacks.Create(@GetLocalType,FFuncType); hp:=tai(aktproccode.first); while assigned(hp) do begin if hp.typ=ait_instruction then vs.Validate(taicpu(hp)); hp:=tai(hp.next); end; vs.Free; end; procedure postprocess_code_assembler; begin aktproccode.InsertAfter(tai_local.create([]),findfirst_tai_functype(aktproccode)); end; var localslist: TAsmList; labels_resolved, has_goto: Boolean; begin if po_assembler in procdef.procoptions then begin postprocess_code_assembler; exit; end; check_goto_br_instructions(aktproccode,has_goto); localslist:=prepare_locals; replace_local_frame_pointer(aktproccode); labels_resolved:=false; if not has_goto then { TODO: make resolve_labels_simple handle goto labels correctly } labels_resolved:=resolve_labels_simple(aktproccode); {$ifndef DEBUG_WASM_GOTO} if not labels_resolved then {$endif DEBUG_WASM_GOTO} resolve_labels_complex(aktproccode); add_extra_allocated_locals(localslist); insert_localslist(aktproccode,localslist); localslist.Free; {$ifdef DEBUG_WASM_VALIDATION} validate_code; {$endif DEBUG_WASM_VALIDATION} inherited postprocess_code; end; procedure tcpuprocinfo.set_first_temp_offset; var sz : integer; i : integer; sym: tsym; begin { Stackframe layout: sp: sp+first_temp_offset: } procdef.init_paraloc_info(calleeside); sz := procdef.calleeargareasize; tg.setfirsttemp(sz); end; procedure tcpuprocinfo.add_goto_target(l: tasmlabel); begin FGotoTargets.Add(l.Name,l); end; function tcpuprocinfo.is_goto_target(l: tasmsymbol): Boolean; begin result:=FGotoTargets.FindIndexOf(l.Name)<>-1; end; initialization cprocinfo:=tcpuprocinfo; end.