kolibrios-gitea/programs/develop/oberon07/Source/MSCOFF.ob07

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(*
BSD 2-Clause License
Copyright (c) 2018-2020, Anton Krotov
All rights reserved.
*)
MODULE MSCOFF;
IMPORT BIN, PE32, KOS, WR := WRITER, UTILS, ERRORS, LISTS, CHL := CHUNKLISTS;
CONST
SIZE_OF_DWORD = 4;
(* SectionHeader.Characteristics *)
SHC_flat = 040500020H;
SHC_data = 0C0500040H;
SHC_bss = 0C03000C0H;
TYPE
FH = PE32.IMAGE_FILE_HEADER;
SH = PE32.IMAGE_SECTION_HEADER;
PROCEDURE WriteReloc (File: WR.FILE; VirtualAddress, SymbolTableIndex, Type: INTEGER);
BEGIN
WR.Write32LE(File, VirtualAddress);
WR.Write32LE(File, SymbolTableIndex);
WR.Write16LE(File, Type)
END WriteReloc;
PROCEDURE Reloc (program: BIN.PROGRAM; File: WR.FILE);
VAR
reloc: BIN.RELOC;
BEGIN
reloc := program.rel_list.first(BIN.RELOC);
WHILE reloc # NIL DO
CASE reloc.opcode OF
|BIN.RIMP,
BIN.IMPTAB: WriteReloc(File, reloc.offset, 4, 6)
|BIN.RBSS: WriteReloc(File, reloc.offset, 5, 6)
|BIN.RDATA: WriteReloc(File, reloc.offset, 2, 6)
|BIN.RCODE: WriteReloc(File, reloc.offset, 1, 6)
END;
reloc := reloc.next(BIN.RELOC)
END;
END Reloc;
PROCEDURE RelocCount (program: BIN.PROGRAM): INTEGER;
VAR
reloc: BIN.RELOC;
iproc: BIN.IMPRT;
res, L: INTEGER;
code: CHL.BYTELIST;
BEGIN
res := 0;
code := program.code;
reloc := program.rel_list.first(BIN.RELOC);
WHILE reloc # NIL DO
INC(res);
IF reloc.opcode = BIN.RIMP THEN
L := BIN.get32le(code, reloc.offset);
iproc := BIN.GetIProc(program, L);
BIN.put32le(code, reloc.offset, iproc.label)
END;
IF reloc.opcode = BIN.RCODE THEN
L := BIN.get32le(code, reloc.offset);
BIN.put32le(code, reloc.offset, BIN.GetLabel(program, L))
END;
reloc := reloc.next(BIN.RELOC)
END
RETURN res
END RelocCount;
PROCEDURE write* (program: BIN.PROGRAM; FileName: ARRAY OF CHAR; ver: INTEGER);
VAR
File: WR.FILE;
exp: BIN.EXPRT;
n, i: INTEGER;
szversion: PE32.NAME;
ImportTable: CHL.INTLIST;
ILen, LibCount, isize: INTEGER;
ExpCount: INTEGER;
icount, ecount, dcount, ccount: INTEGER;
FileHeader: FH;
flat, data, edata, idata, bss: SH;
PROCEDURE ICount (ImportTable: CHL.INTLIST; ILen: INTEGER): INTEGER;
VAR
i, res: INTEGER;
BEGIN
res := 0;
FOR i := 0 TO ILen - 1 DO
IF CHL.GetInt(ImportTable, i) # 0 THEN
INC(res)
END
END
RETURN res
END ICount;
PROCEDURE SetNumberOfRelocations (VAR section: SH; NumberOfRelocations: INTEGER);
BEGIN
IF NumberOfRelocations >= 65536 THEN
ERRORS.Error(202)
END;
section.NumberOfRelocations := WCHR(NumberOfRelocations)
END SetNumberOfRelocations;
BEGIN
szversion := "version";
ASSERT(LENGTH(szversion) = 7);
KOS.Import(program, 0, ImportTable, ILen, LibCount, isize);
ExpCount := LISTS.count(program.exp_list);
icount := CHL.Length(program.import);
dcount := CHL.Length(program.data);
ccount := CHL.Length(program.code);
ecount := CHL.Length(program.export);
FileHeader.Machine := 014CX;
FileHeader.NumberOfSections := 5X;
FileHeader.TimeDateStamp := UTILS.UnixTime();
(* FileHeader.PointerToSymbolTable := 0; *)
FileHeader.NumberOfSymbols := 6;
FileHeader.SizeOfOptionalHeader := 0X;
FileHeader.Characteristics := 0184X;
flat.Name := ".flat";
flat.VirtualSize := 0;
flat.VirtualAddress := 0;
flat.SizeOfRawData := ccount;
flat.PointerToRawData := ORD(FileHeader.NumberOfSections) * PE32.SIZE_OF_IMAGE_SECTION_HEADER + PE32.SIZE_OF_IMAGE_FILE_HEADER;
(* flat.PointerToRelocations := 0; *)
flat.PointerToLinenumbers := 0;
SetNumberOfRelocations(flat, RelocCount(program));
flat.NumberOfLinenumbers := 0X;
flat.Characteristics := SHC_flat;
data.Name := ".data";
data.VirtualSize := 0;
data.VirtualAddress := 0;
data.SizeOfRawData := dcount;
data.PointerToRawData := flat.PointerToRawData + flat.SizeOfRawData;
data.PointerToRelocations := 0;
data.PointerToLinenumbers := 0;
data.NumberOfRelocations := 0X;
data.NumberOfLinenumbers := 0X;
data.Characteristics := SHC_data;
edata.Name := ".edata";
edata.VirtualSize := 0;
edata.VirtualAddress := 0;
edata.SizeOfRawData := ((ExpCount + 1) * 2 + 1) * SIZE_OF_DWORD + LENGTH(szversion) + 1 + ecount;
edata.PointerToRawData := data.PointerToRawData + data.SizeOfRawData;
(* edata.PointerToRelocations := 0; *)
edata.PointerToLinenumbers := 0;
SetNumberOfRelocations(edata, ExpCount * 2 + 1);
edata.NumberOfLinenumbers := 0X;
edata.Characteristics := SHC_data;
idata.Name := ".idata";
idata.VirtualSize := 0;
idata.VirtualAddress := 0;
idata.SizeOfRawData := isize;
idata.PointerToRawData := edata.PointerToRawData + edata.SizeOfRawData;
(* idata.PointerToRelocations := 0; *)
idata.PointerToLinenumbers := 0;
SetNumberOfRelocations(idata, ICount(ImportTable, ILen));
idata.NumberOfLinenumbers := 0X;
idata.Characteristics := SHC_data;
bss.Name := ".bss";
bss.VirtualSize := 0;
bss.VirtualAddress := 0;
bss.SizeOfRawData := program.bss;
bss.PointerToRawData := 0;
bss.PointerToRelocations := 0;
bss.PointerToLinenumbers := 0;
bss.NumberOfRelocations := 0X;
bss.NumberOfLinenumbers := 0X;
bss.Characteristics := SHC_bss;
flat.PointerToRelocations := idata.PointerToRawData + idata.SizeOfRawData;
edata.PointerToRelocations := flat.PointerToRelocations + ORD(flat.NumberOfRelocations) * 10;
idata.PointerToRelocations := edata.PointerToRelocations + ORD(edata.NumberOfRelocations) * 10;
FileHeader.PointerToSymbolTable := idata.PointerToRelocations + ORD(idata.NumberOfRelocations) * 10;
File := WR.Create(FileName);
PE32.WriteFileHeader(File, FileHeader);
PE32.WriteSectionHeader(File, flat);
PE32.WriteSectionHeader(File, data);
PE32.WriteSectionHeader(File, edata);
PE32.WriteSectionHeader(File, idata);
PE32.WriteSectionHeader(File, bss);
CHL.WriteToFile(File, program.code);
CHL.WriteToFile(File, program.data);
exp := program.exp_list.first(BIN.EXPRT);
WHILE exp # NIL DO
WR.Write32LE(File, exp.nameoffs + edata.SizeOfRawData - ecount);
WR.Write32LE(File, exp.label);
exp := exp.next(BIN.EXPRT)
END;
WR.Write32LE(File, ((ExpCount + 1) * 2 + 1) * SIZE_OF_DWORD);
WR.Write32LE(File, ver);
WR.Write32LE(File, 0);
PE32.WriteName(File, szversion);
CHL.WriteToFile(File, program.export);
FOR i := 0 TO ILen - 1 DO
WR.Write32LE(File, CHL.GetInt(ImportTable, i))
END;
CHL.WriteToFile(File, program.import);
Reloc(program, File);
n := 0;
exp := program.exp_list.first(BIN.EXPRT);
WHILE exp # NIL DO
WriteReloc(File, n, 3, 6);
INC(n, 4);
WriteReloc(File, n, 1, 6);
INC(n, 4);
exp := exp.next(BIN.EXPRT)
END;
WriteReloc(File, n, 3, 6);
i := 0;
WHILE i < LibCount * 2 DO
WriteReloc(File, i * SIZE_OF_DWORD, 4, 6);
INC(i);
WriteReloc(File, i * SIZE_OF_DWORD, 4, 6);
INC(i)
END;
FOR i := LibCount * 2 TO ILen - 1 DO
IF CHL.GetInt(ImportTable, i) # 0 THEN
WriteReloc(File, i * SIZE_OF_DWORD, 4, 6)
END
END;
PE32.WriteName(File, "EXPORTS");
WriteReloc(File, 0, 3, 2);
PE32.WriteName(File, ".flat");
WriteReloc(File, 0, 1, 3);
PE32.WriteName(File, ".data");
WriteReloc(File, 0, 2, 3);
PE32.WriteName(File, ".edata");
WriteReloc(File, 0, 3, 3);
PE32.WriteName(File, ".idata");
WriteReloc(File, 0, 4, 3);
PE32.WriteName(File, ".bss");
WriteReloc(File, 0, 5, 3);
WR.Write32LE(File, 4);
WR.Close(File)
END write;
END MSCOFF.