fpc/rtl/inc/exeinfo.pp

{
    This file is part of the Free Pascal run time library.
    Copyright (c) 2008 by Peter Vreman

    Executable file reading functions

    See the file COPYING.FPC, included in this distribution,
    for details about the copyright.

    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.

 **********************************************************************}
{
  This unit should not be compiled in objfpc mode, since this would make it
  dependent on objpas unit.
}
unit exeinfo;
interface

{$S-}

type
  TExeFile=record
    f : file;
    // cached filesize
    size      : int64;
    isopen    : boolean;
    nsects    : longint;
    sechdrofs,
    secstrofs : ptruint;
    processaddress : ptruint;
    FunctionRelative: boolean;
    // Offset of the binary image forming permanent offset to all retrieved values
    ImgOffset: ptruint;
    filename  : string;
    // Allocate static buffer for reading data
    buf       : array[0..4095] of byte;
    bufsize,
    bufcnt    : longint;
  end;

function OpenExeFile(var e:TExeFile;const fn:string):boolean;
function FindExeSection(var e:TExeFile;const secname:string;var secofs,seclen:longint):boolean;
function CloseExeFile(var e:TExeFile):boolean;
function ReadDebugLink(var e:TExeFile;var dbgfn:string):boolean;

procedure GetModuleByAddr(addr: pointer; var baseaddr: pointer; var filename: string);

implementation

uses
  strings{$ifdef windows},windows{$endif windows};

{$ifdef unix}

  procedure GetModuleByAddr(addr: pointer; var baseaddr: pointer; var filename: string);
    begin
      if assigned(UnixGetModuleByAddrHook) then
        UnixGetModuleByAddrHook(addr,baseaddr,filename)
      else
        begin
          baseaddr:=nil;
          filename:=ParamStr(0);
        end;
    end;

{$else unix}
{$ifdef windows}

  var
    Tmm: TMemoryBasicInformation;
{$ifdef FPC_OS_UNICODE}
    TST: array[0..Max_Path] of WideChar;
{$else}
    TST: array[0..Max_Path] of Char;
{$endif FPC_OS_UNICODE}
  procedure GetModuleByAddr(addr: pointer; var baseaddr: pointer; var filename: string);
    begin
      baseaddr:=nil;
      if VirtualQuery(addr, @Tmm, SizeOf(Tmm))<>sizeof(Tmm) then
        filename:=ParamStr(0)
      else
        begin
          baseaddr:=Tmm.AllocationBase;
          TST[0]:= #0;
          GetModuleFileName(THandle(Tmm.AllocationBase), TST, Length(TST));
{$ifdef FPC_OS_UNICODE}
          filename:= String(PWideChar(@TST));
{$else}
          filename:= String(PChar(@TST));
{$endif FPC_OS_UNICODE}
        end;
    end;

{$else windows}

  procedure GetModuleByAddr(addr: pointer; var baseaddr: pointer; var filename: string);
    begin
      baseaddr:= nil;
      filename:=ParamStr(0);
    end;

{$endif windows}
{$endif unix}

{****************************************************************************
                             Executable Loaders
****************************************************************************}

{$if defined(freebsd) or defined(netbsd) or defined (openbsd) or defined(linux) or defined(sunos) or defined(android)}
  {$ifdef cpu64}
    {$define ELF64}
  {$else}
    {$define ELF32}
  {$endif}
{$endif}

{$if defined(win32) or defined(wince)}
  {$define PE32}
{$endif}

{$if defined(win64)}
  {$define PE32PLUS}
{$endif}

{$ifdef netwlibc}
  {$define netware}
{$endif}

{$IFDEF OS2}
  {$DEFINE EMX}
{$ENDIF OS2}


{****************************************************************************
                              DOS Stub
****************************************************************************}

{$if defined(EMX) or defined(PE32) or defined(PE32PLUS) or defined(GO32V2)}
type
  tdosheader = packed record
     e_magic : word;
     e_cblp : word;
     e_cp : word;
     e_crlc : word;
     e_cparhdr : word;
     e_minalloc : word;
     e_maxalloc : word;
     e_ss : word;
     e_sp : word;
     e_csum : word;
     e_ip : word;
     e_cs : word;
     e_lfarlc : word;
     e_ovno : word;
     e_res : array[0..3] of word;
     e_oemid : word;
     e_oeminfo : word;
     e_res2 : array[0..9] of word;
     e_lfanew : longint;
  end;
{$endif EMX or PE32 or PE32PLUS or GO32v2}


{****************************************************************************
                                  NLM
****************************************************************************}

{$ifdef netware}

function getByte(var f:file):byte;
  begin
    BlockRead (f,getByte,1);
  end;

  procedure Skip (var f:file; bytes : longint);
  var i : longint;
  begin
    for i := 1 to bytes do getbyte(f);
  end;
  
  function get0String (var f:file) : string;
  var c : char;
  begin
    get0String := '';
    c := char (getbyte(f));
    while (c <> #0) do
    begin
      get0String := get0String + c;
      c := char (getbyte(f));
    end;
  end;
  
  function getint32 (var f:file): longint;
  begin
    blockread (F, getint32, 4);
  end;


const SIZE_OF_NLM_INTERNAL_FIXED_HEADER = 130;
      SIZE_OF_NLM_INTERNAL_VERSION_HEADER = 32;
      SIZE_OF_NLM_INTERNAL_EXTENDED_HEADER = 124;

function openNetwareNLM(var e:TExeFile):boolean;
var valid : boolean;
    name  : string;
    hdrLength,
    dataOffset,
    dataLength : longint;
  

  function getLString : String;
  var Res:string;
  begin
    blockread (e.F, res, 1);
    if length (res) > 0 THEN
      blockread (e.F, res[1], length (res));
    getbyte(e.f);
    getLString := res;
  end;

  function getFixString (Len : byte) : string;
  var i : byte;
  begin
    getFixString := '';
    for I := 1 to Len do
      getFixString := getFixString + char (getbyte(e.f));
  end;


  function getword : word;
  begin
    blockread (e.F, getword, 2);
  end;

  

begin
  e.sechdrofs := 0;
  openNetwareNLM:=false;
  
  // read and check header
  Skip (e.f,SIZE_OF_NLM_INTERNAL_FIXED_HEADER);
  getLString;  // NLM Description
  getInt32(e.f);    // Stacksize
  getInt32(e.f);    // Reserved
  skip(e.f,5);     // old Thread Name
  getLString;  // Screen Name
  getLString;  // Thread Name
  hdrLength := -1;
  dataOffset := -1;
  dataLength := -1;
  valid := true;
  repeat
    name := getFixString (8);
    if (name = 'VeRsIoN#') then
    begin
      Skip (e.f,SIZE_OF_NLM_INTERNAL_VERSION_HEADER-8);
    end else
    if (name = 'CoPyRiGh') then
    begin
      getword;     // T=
      getLString;  // Copyright String
    end else
    if (name = 'MeSsAgEs') then
    begin
      skip (e.f,SIZE_OF_NLM_INTERNAL_EXTENDED_HEADER - 8);
    end else
    if (name = 'CuStHeAd') then
    begin
      hdrLength := getInt32(e.f);
      dataOffset := getInt32(e.f);
      dataLength := getInt32(e.f);
      Skip (e.f,8); // dateStamp
      Valid := false;
    end else
      Valid := false;
  until not valid;
  if (hdrLength = -1) or (dataOffset = -1) or (dataLength = -1) then
    exit;

  Seek (e.F, dataOffset);
  e.sechdrofs := dataOffset;
  openNetwareNLM := (e.sechdrofs > 0);
end;

function FindSectionNetwareNLM(var e:TExeFile;const asecname:string;var secofs,seclen:longint):boolean;
var name : string;
    alignAmount : longint;
begin
  seek(e.f,e.sechdrofs);
    (* The format of the section information is:
       null terminated section name
       zeroes to adjust to 4 byte boundary
       4 byte section data file pointer
       4 byte section size *)
  Repeat
    Name := Get0String(e.f);
    alignAmount := 4 - ((length (Name) + 1) MOD 4);
    Skip (e.f,AlignAmount);
    if (Name = asecname) then
    begin
      secOfs := getInt32(e.f);
      secLen := getInt32(e.f);
    end else
      Skip(e.f,8);
  until (Name = '') or (Name = asecname);
  FindSectionNetwareNLM := (Name=asecname);
end;

{$endif}


{****************************************************************************
                               COFF
****************************************************************************}

{$if defined(PE32) or defined(PE32PLUS) or defined(GO32V2)}
type
  tcoffsechdr=packed record
    name     : array[0..7] of char;
    vsize    : longint;
    rvaofs   : longint;
    datalen  : longint;
    datapos  : longint;
    relocpos : longint;
    lineno1  : longint;
    nrelocs  : word;
    lineno2  : word;
    flags    : longint;
  end;
  coffsymbol=packed record
    name    : array[0..3] of char; { real is [0..7], which overlaps the strofs ! }
    strofs  : longint;
    value   : longint;
    section : smallint;
    empty   : word;
    typ     : byte;
    aux     : byte;
  end;

function FindSectionCoff(var e:TExeFile;const asecname:string;var secofs,seclen:longint):boolean;
var
  i : longint;
  sechdr     : tcoffsechdr;
  secname    : string;
  secnamebuf : array[0..255] of char;
  code,
  oldofs,
  bufsize    : longint;
  strofs     : cardinal;
begin
  FindSectionCoff:=false;
  { read section info }
  seek(e.f,e.sechdrofs);
  for i:=1 to e.nsects do
   begin
     blockread(e.f,sechdr,sizeof(sechdr),bufsize);
     move(sechdr.name,secnamebuf,8);
     secnamebuf[8]:=#0;
     secname:=strpas(secnamebuf);
     if secname[1]='/' then
       begin
         Val(Copy(secname,2,8),strofs,code);
         if code=0 then
           begin
             fillchar(secnamebuf,sizeof(secnamebuf),0);
             oldofs:=filepos(e.f);
             seek(e.f,e.secstrofs+strofs);
             blockread(e.f,secnamebuf,sizeof(secnamebuf),bufsize);
             seek(e.f,oldofs);
             secname:=strpas(secnamebuf);
           end
         else
           secname:='';
       end;
     if asecname=secname then
       begin
         secofs:=cardinal(sechdr.datapos) + E.ImgOffset;
{$ifdef GO32V2}
         seclen:=sechdr.datalen;
{$else GO32V2}
         { In PECOFF, datalen includes file padding up to the next section.
           vsize is the actual payload size if it does not exceed datalen,
           otherwise it is .bss (or alike) section that we should ignore.  }
         if sechdr.vsize<=sechdr.datalen then
           seclen:=sechdr.vsize
         else
           exit;
{$endif GO32V2}
         FindSectionCoff:=true;
         exit;
       end;
   end;
end;
{$endif PE32 or PE32PLUS or GO32V2}


{$ifdef go32v2}
function OpenGo32Coff(var e:TExeFile):boolean;
type
  tgo32coffheader=packed record
    mach   : word;
    nsects : word;
    time   : longint;
    sympos : longint;
    syms   : longint;
    opthdr : word;
    flag   : word;
    other  : array[0..27] of byte;
  end;
const
  ParagraphSize = 512;
var
  coffheader : tgo32coffheader;
  DosHeader: TDosHeader;
  BRead: cardinal;
begin
  OpenGo32Coff:=false;
  { read and check header }
  if E.Size < SizeOf (DosHeader) then
   Exit;
  BlockRead (E.F, DosHeader, SizeOf (DosHeader), BRead);
  if BRead <> SizeOf (DosHeader) then
   Exit;
  if DosHeader.E_Magic = $5A4D then
  begin
   E.ImgOffset := DosHeader.e_cp * ParagraphSize;
   if DosHeader.e_cblp > 0 then
    E.ImgOffset := E.ImgOffset + DosHeader.e_cblp - ParagraphSize;
  end;
  if e.size < E.ImgOffset + sizeof(coffheader) then
   exit;
  seek(e.f,E.ImgOffset);
  blockread(e.f,coffheader,sizeof(coffheader));
  if coffheader.mach<>$14c then
    exit;
  e.sechdrofs:=filepos(e.f);
  e.nsects:=coffheader.nsects;
  e.secstrofs:=coffheader.sympos+coffheader.syms*sizeof(coffsymbol)+4;
  if e.secstrofs>e.size then
    exit;
  OpenGo32Coff:=true;
end;
{$endif Go32v2}


{$ifdef PE32}
function OpenPeCoff(var e:TExeFile):boolean;
type
  tpeheader = packed record
     PEMagic : longint;
     Machine : word;
     NumberOfSections : word;
     TimeDateStamp : longint;
     PointerToSymbolTable : longint;
     NumberOfSymbols : longint;
     SizeOfOptionalHeader : word;
     Characteristics : word;
     Magic : word;
     MajorLinkerVersion : byte;
     MinorLinkerVersion : byte;
     SizeOfCode : longint;
     SizeOfInitializedData : longint;
     SizeOfUninitializedData : longint;
     AddressOfEntryPoint : longint;
     BaseOfCode : longint;
     BaseOfData : longint;
     ImageBase : longint;
     SectionAlignment : longint;
     FileAlignment : longint;
     MajorOperatingSystemVersion : word;
     MinorOperatingSystemVersion : word;
     MajorImageVersion : word;
     MinorImageVersion : word;
     MajorSubsystemVersion : word;
     MinorSubsystemVersion : word;
     Reserved1 : longint;
     SizeOfImage : longint;
     SizeOfHeaders : longint;
     CheckSum : longint;
     Subsystem : word;
     DllCharacteristics : word;
     SizeOfStackReserve : longint;
     SizeOfStackCommit : longint;
     SizeOfHeapReserve : longint;
     SizeOfHeapCommit : longint;
     LoaderFlags : longint;
     NumberOfRvaAndSizes : longint;
     DataDirectory : array[1..$80] of byte;
  end;
var
  dosheader  : tdosheader;
  peheader   : tpeheader;
begin
  OpenPeCoff:=false;
  { read and check header }
  if e.size<sizeof(dosheader) then
    exit;
  blockread(e.f,dosheader,sizeof(tdosheader));
  seek(e.f,dosheader.e_lfanew);
  blockread(e.f,peheader,sizeof(tpeheader));
  if peheader.pemagic<>$4550 then
    exit;
  e.sechdrofs:=filepos(e.f);
  e.nsects:=peheader.NumberOfSections;
  e.secstrofs:=peheader.PointerToSymbolTable+peheader.NumberOfSymbols*sizeof(coffsymbol);
  if e.secstrofs>e.size then
    exit;
  e.processaddress:=peheader.ImageBase;
  OpenPeCoff:=true;
end;
{$endif PE32}


{$ifdef PE32PLUS}
function OpenPePlusCoff(var e:TExeFile):boolean;
type
  tpeheader = packed record
     PEMagic : longint;
     Machine : word;
     NumberOfSections : word;
     TimeDateStamp : longint;
     PointerToSymbolTable : longint;
     NumberOfSymbols : longint;
     SizeOfOptionalHeader : word;
     Characteristics : word;
     Magic : word;
     MajorLinkerVersion : byte;
     MinorLinkerVersion : byte;
     SizeOfCode : longint;
     SizeOfInitializedData : longint;
     SizeOfUninitializedData : longint;
     AddressOfEntryPoint : longint;
     BaseOfCode : longint;
     ImageBase : qword;
     SectionAlignment : longint;
     FileAlignment : longint;
     MajorOperatingSystemVersion : word;
     MinorOperatingSystemVersion : word;
     MajorImageVersion : word;
     MinorImageVersion : word;
     MajorSubsystemVersion : word;
     MinorSubsystemVersion : word;
     Reserved1 : longint;
     SizeOfImage : longint;
     SizeOfHeaders : longint;
     CheckSum : longint;
     Subsystem : word;
     DllCharacteristics : word;
     SizeOfStackReserve : qword;
     SizeOfStackCommit : qword;
     SizeOfHeapReserve : qword;
     SizeOfHeapCommit : qword;
     LoaderFlags : longint;
     NumberOfRvaAndSizes : longint;
     DataDirectory : array[1..$80] of byte;
  end;
var
  dosheader  : tdosheader;
  peheader   : tpeheader;
begin
  OpenPePlusCoff:=false;
  { read and check header }
  if E.Size<sizeof(dosheader) then
   exit;
  blockread(E.F,dosheader,sizeof(tdosheader));
  seek(E.F,dosheader.e_lfanew);
  blockread(E.F,peheader,sizeof(tpeheader));
  if peheader.pemagic<>$4550 then
   exit;
  e.sechdrofs:=filepos(e.f);
  e.nsects:=peheader.NumberOfSections;
  e.secstrofs:=peheader.PointerToSymbolTable+peheader.NumberOfSymbols*sizeof(coffsymbol);
  if e.secstrofs>e.size then
    exit;
  e.processaddress:=peheader.ImageBase;
  OpenPePlusCoff:=true;
end;
{$endif PE32PLUS}


{****************************************************************************
                                 AOUT
****************************************************************************}

{$IFDEF EMX}
type
  TEmxHeader = packed record
     Version: array [1..16] of char;
     Bound: word;
     AoutOfs: longint;
     Options: array [1..42] of char;
  end;

  TAoutHeader = packed record
     Magic: word;
     Machine: byte;
     Flags: byte;
     TextSize: longint;
     DataSize: longint;
     BssSize: longint;
     SymbSize: longint;
     EntryPoint: longint;
     TextRelocSize: longint;
     DataRelocSize: longint;
  end;

const
 PageSizeFill = $FFF;

var
 DosHeader: TDosHeader;
 EmxHeader: TEmxHeader;
 AoutHeader: TAoutHeader;
 StabOfs: PtrUInt;
 S4: string [4];

function OpenEMXaout (var E: TExeFile): boolean;
begin
 OpenEMXaout := false;
{ GDB after 4.18 uses offset to function begin
  in text section but OS/2 version still uses 4.16 PM }
 E.FunctionRelative := false;
{ read and check header }
 if E.Size > SizeOf (DosHeader) then
 begin
  BlockRead (E.F, DosHeader, SizeOf (TDosHeader));
{$IFDEF DEBUG_LINEINFO}
  WriteLn (StdErr, 'DosHeader.E_CParHdr = ', DosHeader.E_cParHdr);
{$ENDIF DEBUG_LINEINFO}
  if E.Size > DosHeader.e_cparhdr shl 4 + SizeOf (TEmxHeader) then
  begin
   Seek (E.F, DosHeader.e_cparhdr shl 4);
   BlockRead (E.F, EmxHeader, SizeOf (TEmxHeader));
  S4 [0] := #4;
  Move (EmxHeader.Version, S4 [1], 4);
   if (S4 = 'emx ') and
                       (E.Size > EmxHeader.AoutOfs + SizeOf (TAoutHeader)) then
   begin
{$IFDEF DEBUG_LINEINFO}
    WriteLn (StdErr, 'EmxHeader.AoutOfs = ', EmxHeader.AoutOfs, '/', HexStr (pointer (EmxHeader.AoutOfs)));
{$ENDIF DEBUG_LINEINFO}
    Seek (E.F, EmxHeader.AoutOfs);
    BlockRead (E.F, AoutHeader, SizeOf (TAoutHeader));
{$IFDEF DEBUG_LINEINFO}
    WriteLn (StdErr, 'AoutHeader.Magic = ', AoutHeader.Magic);
{$ENDIF DEBUG_LINEINFO}
{    if AOutHeader.Magic = $10B then}
    StabOfs := (EmxHeader.AoutOfs or PageSizeFill) + 1
                 + AoutHeader.TextSize
                 + AoutHeader.DataSize
                 + AoutHeader.TextRelocSize
                 + AoutHeader.DataRelocSize;
{$IFDEF DEBUG_LINEINFO}
    WriteLn (StdErr, 'AoutHeader.TextSize = ', AoutHeader.TextSize, '/', HexStr (pointer (AoutHeader.TextSize)));
    WriteLn (StdErr, 'AoutHeader.DataSize = ', AoutHeader.DataSize, '/', HexStr (pointer (AoutHeader.DataSize)));
    WriteLn (StdErr, 'AoutHeader.TextRelocSize = ', AoutHeader.TextRelocSize, '/', HexStr (pointer (AoutHeader.TextRelocSize)));
    WriteLn (StdErr, 'AoutHeader.DataRelocSize = ', AoutHeader.DataRelocSize, '/', HexStr (pointer (AoutHeader.DataRelocSize)));
    WriteLn (StdErr, 'AoutHeader.SymbSize = ', AoutHeader.SymbSize, '/', HexStr (pointer (AoutHeader.SymbSize)));
    WriteLn (StdErr, 'StabOfs = ', StabOfs, '/', HexStr (pointer (StabOfs)));
{$ENDIF DEBUG_LINEINFO}
    if E.Size > StabOfs + AoutHeader.SymbSize then
     OpenEMXaout := true;
   end;
  end;
 end;
end;


function FindSectionEMXaout (var E: TExeFile; const ASecName: string;
                                         var SecOfs, SecLen: longint): boolean;
begin
 FindSectionEMXaout := false;
 if ASecName = '.stab' then
 begin
  SecOfs := StabOfs;
  SecLen := AoutHeader.SymbSize;
  FindSectionEMXaout := true;
 end else
 if ASecName = '.stabstr' then
 begin
  SecOfs := StabOfs + AoutHeader.SymbSize;
  SecLen := E.Size - Pred (SecOfs);
  FindSectionEMXaout := true;
 end;
end;
{$ENDIF EMX}


{****************************************************************************
                                 ELF
****************************************************************************}

{$if defined(ELF32) or defined(BEOS)}
type
  telfheader=packed record
      magic0123         : longint;
      file_class        : byte;
      data_encoding     : byte;
      file_version      : byte;
      padding           : array[$07..$0f] of byte;
      e_type            : word;
      e_machine         : word;
      e_version         : longword;
      e_entry           : longword;                  // entrypoint
      e_phoff           : longword;                  // program header offset
      e_shoff           : longword;                  // sections header offset
      e_flags           : longword;
      e_ehsize          : word;             // elf header size in bytes
      e_phentsize       : word;             // size of an entry in the program header array
      e_phnum           : word;             // 0..e_phnum-1 of entrys
      e_shentsize       : word;             // size of an entry in sections header array
      e_shnum           : word;             // 0..e_shnum-1 of entrys
      e_shstrndx        : word;             // index of string section header
  end;
  telfsechdr=packed record
      sh_name           : longword;
      sh_type           : longword;
      sh_flags          : longword;
      sh_addr           : longword;
      sh_offset         : longword;
      sh_size           : longword;
      sh_link           : longword;
      sh_info           : longword;
      sh_addralign      : longword;
      sh_entsize        : longword;
    end;
{$endif ELF32 or BEOS}
{$ifdef ELF64}
type
  telfheader=packed record
      magic0123         : longint;
      file_class        : byte;
      data_encoding     : byte;
      file_version      : byte;
      padding           : array[$07..$0f] of byte;
      e_type            : word;
      e_machine         : word;
      e_version         : longword;
      e_entry           : int64;                  // entrypoint
      e_phoff           : int64;                  // program header offset
      e_shoff           : int64;                  // sections header offset
      e_flags           : longword;
      e_ehsize          : word;             // elf header size in bytes
      e_phentsize       : word;             // size of an entry in the program header array
      e_phnum           : word;             // 0..e_phnum-1 of entrys
      e_shentsize       : word;             // size of an entry in sections header array
      e_shnum           : word;             // 0..e_shnum-1 of entrys
      e_shstrndx        : word;             // index of string section header
  end;
type
  telfsechdr=packed record
      sh_name           : longword;
      sh_type           : longword;
      sh_flags          : int64;
      sh_addr           : int64;
      sh_offset         : int64;
      sh_size           : int64;
      sh_link           : longword;
      sh_info           : longword;
      sh_addralign      : int64;
      sh_entsize        : int64;
    end;
{$endif ELF64}


{$if defined(ELF32) or defined(ELF64) or defined(BEOS)}
function OpenElf(var e:TExeFile):boolean;
var
  elfheader : telfheader;
  elfsec    : telfsechdr;
begin
  OpenElf:=false;
  { read and check header }
  if e.size<sizeof(telfheader) then
   exit;
  blockread(e.f,elfheader,sizeof(telfheader));
 if elfheader.magic0123<>{$ifdef ENDIAN_LITTLE}$464c457f{$else}$7f454c46{$endif} then
   exit;
  if elfheader.e_shentsize<>sizeof(telfsechdr) then
   exit;
  { read section names }
  seek(e.f,elfheader.e_shoff+elfheader.e_shstrndx*cardinal(sizeof(telfsechdr)));
  blockread(e.f,elfsec,sizeof(telfsechdr));
  e.secstrofs:=elfsec.sh_offset;
  e.sechdrofs:=elfheader.e_shoff;
  e.nsects:=elfheader.e_shnum;
  OpenElf:=true;
end;


function FindSectionElf(var e:TExeFile;const asecname:string;var secofs,seclen:longint):boolean;
var
  elfsec     : telfsechdr;
  secname    : string;
  secnamebuf : array[0..255] of char;
  oldofs,
  bufsize,i  : longint;
begin
  FindSectionElf:=false;
  seek(e.f,e.sechdrofs);
  for i:=1 to e.nsects do
   begin
     blockread(e.f,elfsec,sizeof(telfsechdr));
     fillchar(secnamebuf,sizeof(secnamebuf),0);
     oldofs:=filepos(e.f);
     seek(e.f,e.secstrofs+elfsec.sh_name);
     blockread(e.f,secnamebuf,sizeof(secnamebuf)-1,bufsize);
     seek(e.f,oldofs);
     secname:=strpas(secnamebuf);
     if asecname=secname then
       begin
         secofs:=elfsec.sh_offset;
         seclen:=elfsec.sh_size;
         FindSectionElf:=true;
         exit;
       end;
   end;
end;
{$endif ELF32 or ELF64 or BEOS}


{$ifdef beos}

{$i ptypes.inc}

type
  // Descriptive formats
  status_t = Longint;
  team_id   = Longint;
  image_id = Longint;

    { image types }
const
   B_APP_IMAGE     = 1;
   B_LIBRARY_IMAGE = 2;
   B_ADD_ON_IMAGE  = 3;
   B_SYSTEM_IMAGE  = 4;
   B_OK = 0;
   
type
    image_info = packed record
     id      : image_id;
     _type   : longint;
     sequence: longint;
     init_order: longint;
     init_routine: pointer;
     term_routine: pointer;
     device: dev_t;
     node: ino_t;
     name: array[0..MAXPATHLEN-1] of char;
{     name: string[255];
     name2: string[255];
     name3: string[255];
     name4: string[255];
     name5: string[5];
}
     text: pointer;
     data: pointer;
     text_size: longint;
     data_size: longint;
    end;

function get_next_image_info(team: team_id; var cookie:longint; var info:image_info; size: size_t) : status_t;cdecl; external 'root' name '_get_next_image_info';

function OpenElf32Beos(var e:TExeFile):boolean;
var
  cookie    : longint;
  info      : image_info;
begin
  // The only BeOS specific part is setting the processaddress
  cookie := 0;
  OpenElf32Beos:=false;
  fillchar(info, sizeof(image_info), 0);
  while get_next_image_info(0,cookie,info,sizeof(info))=B_OK do
    begin
        if e.filename=String(pchar(@info.name)) then
          begin
              if (info._type = B_APP_IMAGE) then
                e.processaddress := cardinal(info.text)
             else
                e.processaddress := 0;
             OpenElf32Beos := OpenElf(e);
             exit;
         end;
    end;
end;
{$endif beos}


{****************************************************************************
                                 MACHO
****************************************************************************}

{$ifdef darwin}
type
  MachoFatHeader= packed record
    magic: longint;
    nfatarch: longint;
  end;
  MachoHeader=packed record
    magic: longword;
    cpu_type_t: longint;
    cpu_subtype_t: longint;
    filetype: longint;
    ncmds: longint;
    sizeofcmds: longint;
    flags: longint;
  end;
  cmdblock=packed record
    cmd: longint;
    cmdsize: longint;
  end;
  symbSeg=packed record
    symoff :      longint;
    nsyms  :      longint;
    stroff :      longint;
    strsize:      longint;
  end;
  tstab=packed record
    strpos  : longint;
    ntype   : byte;
    nother  : byte;
    ndesc   : word;
    nvalue  : dword;
  end;


function OpenMachO32PPC(var e:TExeFile):boolean;
var
   mh:MachoHeader;
begin
  OpenMachO32PPC:= false;
  E.FunctionRelative:=false;
  if e.size<sizeof(mh) then
    exit;
  blockread (e.f, mh, sizeof(mh));
  e.sechdrofs:=filepos(e.f);
  e.nsects:=mh.ncmds;
  OpenMachO32PPC:=true;
end;


function FindSectionMachO32PPC(var e:TExeFile;const asecname:string;var secofs,seclen:longint):boolean;
var
   i: longint;
   block:cmdblock;
   symbolsSeg: symbSeg;
begin
  FindSectionMachO32PPC:=false;
  seek(e.f,e.sechdrofs);
  for i:= 1 to e.nsects do
    begin
      {$I-}
      blockread (e.f, block, sizeof(block));
      {$I+}
      if IOResult <> 0 then
        Exit;
      if block.cmd = $2   then
      begin
          blockread (e.f, symbolsSeg, sizeof(symbolsSeg));
          if asecname='.stab' then
            begin
              secofs:=symbolsSeg.symoff;
              { the caller will divide again by sizeof(tstab) }
              seclen:=symbolsSeg.nsyms*sizeof(tstab);
              FindSectionMachO32PPC:=true;
            end
          else if asecname='.stabstr' then
            begin
              secofs:=symbolsSeg.stroff;
              seclen:=symbolsSeg.strsize;
              FindSectionMachO32PPC:=true;
            end;
          exit;
      end;
      Seek(e.f, FilePos (e.f) + block.cmdsize - sizeof(block));
    end;
end;
{$endif darwin}


{****************************************************************************
                                   CRC
****************************************************************************}

var
  Crc32Tbl : array[0..255] of cardinal;

procedure MakeCRC32Tbl;
var
  crc : cardinal;
  i,n : integer;
begin
  for i:=0 to 255 do
   begin
     crc:=i;
     for n:=1 to 8 do
      if (crc and 1)<>0 then
       crc:=(crc shr 1) xor cardinal($edb88320)
      else
       crc:=crc shr 1;
     Crc32Tbl[i]:=crc;
   end;
end;


Function UpdateCrc32(InitCrc:cardinal;const InBuf;InLen:LongInt):cardinal;
var
  i : LongInt;
  p : pchar;
begin
  if Crc32Tbl[1]=0 then
   MakeCrc32Tbl;
  p:=@InBuf;
  UpdateCrc32:=not InitCrc;
  for i:=1 to InLen do
   begin
     UpdateCrc32:=Crc32Tbl[byte(UpdateCrc32) xor byte(p^)] xor (UpdateCrc32 shr 8);
     inc(p);
   end;
  UpdateCrc32:=not UpdateCrc32;
end;


{****************************************************************************
                         Generic Executable Open/Close
****************************************************************************}

type
  TOpenProc=function(var e:TExeFile):boolean;
  TFindSectionProc=function(var e:TExeFile;const asecname:string;var secofs,seclen:longint):boolean;

  TExeProcRec=record
    openproc : TOpenProc;
    findproc : TFindSectionProc;
  end;

const
  ExeProcs : TExeProcRec = (
{$ifdef go32v2}
     openproc : @OpenGo32Coff;
     findproc : @FindSectionCoff;
{$endif}
{$ifdef PE32}
     openproc : @OpenPeCoff;
     findproc : @FindSectionCoff;
{$endif}
{$ifdef PE32PLUS}
     openproc : @OpenPePlusCoff;
     findproc : @FindSectionCoff;
{$endif PE32PLUS}
{$if defined(ELF32) or defined(ELF64)}
     openproc : @OpenElf;
     findproc : @FindSectionElf;
{$endif ELF32 or ELF64}
{$ifdef BEOS}
     openproc : @OpenElf32Beos;
     findproc : @FindSectionElf;
{$endif BEOS}
{$ifdef darwin}
     openproc : @OpenMachO32PPC;
     findproc : @FindSectionMachO32PPC;
{$endif darwin}
{$IFDEF EMX}
     openproc : @OpenEMXaout;
     findproc : @FindSectionEMXaout;
{$ENDIF EMX}
{$ifdef netware}
     openproc : @OpenNetwareNLM;
     findproc : @FindSectionNetwareNLM;
{$endif}
   );

function OpenExeFile(var e:TExeFile;const fn:string):boolean;
var
  ofm : word;
begin
  OpenExeFile:=false;
  fillchar(e,sizeof(e),0);
  e.bufsize:=sizeof(e.buf);
  e.filename:=fn;
  if fn='' then   // we don't want to read stdin
    exit;
  assign(e.f,fn);
  {$I-}
   ofm:=filemode;
   filemode:=$40;
   reset(e.f,1);
   filemode:=ofm;
  {$I+}
  if ioresult<>0 then
   exit;
  e.isopen:=true;
  // cache filesize
  e.size:=filesize(e.f);

  E.FunctionRelative := true;
  E.ImgOffset := 0;
  if ExeProcs.OpenProc<>nil then
    OpenExeFile:=ExeProcs.OpenProc(e);
end;


function CloseExeFile(var e:TExeFile):boolean;
begin
  CloseExeFile:=false;
  if not e.isopen then
    exit;
  e.isopen:=false;
  close(e.f);
  CloseExeFile:=true;
end;


function FindExeSection(var e:TExeFile;const secname:string;var secofs,seclen:longint):boolean;
begin
  FindExeSection:=false;
  if not e.isopen then
    exit;
  if ExeProcs.FindProc<>nil then
    FindExeSection:=ExeProcs.FindProc(e,secname,secofs,seclen);
end;



function CheckDbgFile(var e:TExeFile;const fn:string;dbgcrc:cardinal):boolean;
var
  c      : cardinal;
  ofm    : word;
  g      : file;
begin
  CheckDbgFile:=false;
  assign(g,fn);
  {$I-}
   ofm:=filemode;
   filemode:=$40;
   reset(g,1);
   filemode:=ofm;
  {$I+}
  if ioresult<>0 then
   exit;
  { We reuse the buffer from e here to prevent too much stack allocation }
  c:=0;
  repeat
    blockread(g,e.buf,e.bufsize,e.bufcnt);
    c:=UpdateCrc32(c,e.buf,e.bufcnt);
  until e.bufcnt<e.bufsize;
  close(g);
  CheckDbgFile:=(dbgcrc=c);
end;


function ReadDebugLink(var e:TExeFile;var dbgfn:string):boolean;
var
  dbglink : array[0..255] of char;
  i,
  dbglinklen,
  dbglinkofs : longint;
  dbgcrc     : cardinal;
begin
  ReadDebugLink:=false;
  if not FindExeSection(e,'.gnu_debuglink',dbglinkofs,dbglinklen) then
    exit;
  if dbglinklen>sizeof(dbglink)-1 then
    exit;
  fillchar(dbglink,sizeof(dbglink),0);
  seek(e.f,dbglinkofs);
  blockread(e.f,dbglink,dbglinklen);
  dbgfn:=strpas(dbglink);
  if length(dbgfn)=0 then
    exit;
  i:=align(length(dbgfn)+1,4);
  if (i+4)>dbglinklen then
    exit;
  move(dbglink[i],dbgcrc,4);
  { current dir }
  if CheckDbgFile(e,dbgfn,dbgcrc) then
    begin
      ReadDebugLink:=true;
      exit;
    end;
  { executable dir }
  i:=length(e.filename);
  while (i>0) and not(e.filename[i] in AllowDirectorySeparators) do
    dec(i);
  if i>0 then
    begin
      dbgfn:=copy(e.filename,1,i)+dbgfn;
      if CheckDbgFile(e,dbgfn,dbgcrc) then
        begin
          ReadDebugLink:=true;
          exit;
        end;
    end;
end;


end.