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|
-- Binary file ELF writer.
-- Copyright (C) 2006 Tristan Gingold
--
-- GHDL 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, or (at your option) any later
-- version.
--
-- GHDL 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 GCC; see the file COPYING. If not, write to the Free
-- Software Foundation, 59 Temple Place - Suite 330, Boston, MA
-- 02111-1307, USA.
with Ada.Text_IO; use Ada.Text_IO;
with Ada.Characters.Latin_1;
with Elf_Common;
with Elf32;
package body Binary_File.Elf is
NUL : Character renames Ada.Characters.Latin_1.NUL;
type Arch_Bool is array (Arch_Kind) of Boolean;
Is_Rela : constant Arch_Bool := (Arch_Unknown => False,
Arch_X86 => False,
Arch_Sparc => True,
Arch_Ppc => True);
procedure Write_Elf (Fd : GNAT.OS_Lib.File_Descriptor)
is
use Elf_Common;
use Elf32;
use GNAT.OS_Lib;
procedure Xwrite (Data : System.Address; Len : Natural) is
begin
if Write (Fd, Data, Len) /= Len then
raise Write_Error;
end if;
end Xwrite;
procedure Check_File_Pos (Off : Elf32_Off)
is
L : Long_Integer;
begin
L := File_Length (Fd);
if L /= Long_Integer (Off) then
Put_Line (Standard_Error, "check_file_pos error: expect "
& Elf32_Off'Image (Off) & ", found "
& Long_Integer'Image (L));
raise Write_Error;
end if;
end Check_File_Pos;
function Sect_Align (V : Elf32_Off) return Elf32_Off
is
Tmp : Elf32_Off;
begin
Tmp := V + 2 ** 2 - 1;
return Tmp - (Tmp mod 2 ** 2);
end Sect_Align;
type Section_Info_Type is record
Sect : Section_Acc;
-- Index of the section symbol (in symtab).
Sym : Elf32_Word;
-- Number of relocs to write.
--Nbr_Relocs : Natural;
end record;
type Section_Info_Array is array (Natural range <>) of Section_Info_Type;
Sections : Section_Info_Array (0 .. 3 + 2 * Nbr_Sections);
type Elf32_Shdr_Array is array (Natural range <>) of Elf32_Shdr;
Shdr : Elf32_Shdr_Array (0 .. 3 + 2 * Nbr_Sections);
Nbr_Sect : Natural;
Sect : Section_Acc;
-- The first 4 sections are always present.
Sect_Null : constant Natural := 0;
Sect_Shstrtab : constant Natural := 1;
Sect_Symtab : constant Natural := 2;
Sect_Strtab : constant Natural := 3;
Sect_First : constant Natural := 4;
Offset : Elf32_Off;
-- Size of a relocation entry.
Rel_Size : Natural;
-- If true, do local relocs.
Flag_Reloc : constant Boolean := True;
-- If true, discard local symbols;
Flag_Discard_Local : Boolean := True;
-- Number of symbols.
Nbr_Symbols : Natural := 0;
begin
-- If relocations are not performs, then local symbols cannot be
-- discarded.
if not Flag_Reloc then
Flag_Discard_Local := False;
end if;
-- Set size of a relocation entry. This avoids severals conditionnal.
if Is_Rela (Arch) then
Rel_Size := Elf32_Rela_Size;
else
Rel_Size := Elf32_Rel_Size;
end if;
-- Set section header.
-- SHT_NULL.
Shdr (Sect_Null) :=
Elf32_Shdr'(Sh_Name => 0,
Sh_Type => SHT_NULL,
Sh_Flags => 0,
Sh_Addr => 0,
Sh_Offset => 0,
Sh_Size => 0,
Sh_Link => 0,
Sh_Info => 0,
Sh_Addralign => 0,
Sh_Entsize => 0);
-- shstrtab.
Shdr (Sect_Shstrtab) :=
Elf32_Shdr'(Sh_Name => 1,
Sh_Type => SHT_STRTAB,
Sh_Flags => 0,
Sh_Addr => 0,
Sh_Offset => 0, -- Filled latter.
-- NUL: 1, .symtab: 8, .strtab: 8 and .shstrtab: 10.
Sh_Size => 1 + 10 + 8 + 8,
Sh_Link => 0,
Sh_Info => 0,
Sh_Addralign => 1,
Sh_Entsize => 0);
-- Symtab
Shdr (Sect_Symtab) :=
Elf32_Shdr'(Sh_Name => 11,
Sh_Type => SHT_SYMTAB,
Sh_Flags => 0,
Sh_Addr => 0,
Sh_Offset => 0,
Sh_Size => 0,
Sh_Link => Elf32_Word (Sect_Strtab),
Sh_Info => 0, -- FIXME
Sh_Addralign => 4,
Sh_Entsize => Elf32_Word (Elf32_Sym_Size));
-- strtab.
Shdr (Sect_Strtab) :=
Elf32_Shdr'(Sh_Name => 19,
Sh_Type => SHT_STRTAB,
Sh_Flags => 0,
Sh_Addr => 0,
Sh_Offset => 0,
Sh_Size => 0,
Sh_Link => 0,
Sh_Info => 0,
Sh_Addralign => 1,
Sh_Entsize => 0);
-- Fill sections.
Sect := Section_Chain;
Nbr_Sect := Sect_First;
Nbr_Symbols := 1;
while Sect /= null loop
Sections (Nbr_Sect) := (Sect => Sect,
Sym => Elf32_Word (Nbr_Symbols));
Nbr_Symbols := Nbr_Symbols + 1;
Sect.Number := Nbr_Sect;
Shdr (Nbr_Sect) :=
Elf32_Shdr'(Sh_Name => Shdr (Sect_Shstrtab).Sh_Size,
Sh_Type => SHT_PROGBITS,
Sh_Flags => 0,
Sh_Addr => Elf32_Addr (Sect.Vaddr),
Sh_Offset => 0,
Sh_Size => 0,
Sh_Link => 0,
Sh_Info => 0,
Sh_Addralign => 2 ** Sect.Align,
Sh_Entsize => Elf32_Word (Sect.Esize));
if Sect.Data = null then
Shdr (Nbr_Sect).Sh_Type := SHT_NOBITS;
end if;
if (Sect.Flags and Section_Read) /= 0 then
Shdr (Nbr_Sect).Sh_Flags :=
Shdr (Nbr_Sect).Sh_Flags or SHF_ALLOC;
end if;
if (Sect.Flags and Section_Exec) /= 0 then
Shdr (Nbr_Sect).Sh_Flags :=
Shdr (Nbr_Sect).Sh_Flags or SHF_EXECINSTR;
end if;
if (Sect.Flags and Section_Write) /= 0 then
Shdr (Nbr_Sect).Sh_Flags :=
Shdr (Nbr_Sect).Sh_Flags or SHF_WRITE;
end if;
if Sect.Flags = Section_Strtab then
Shdr (Nbr_Sect).Sh_Type := SHT_STRTAB;
Shdr (Nbr_Sect).Sh_Addralign := 1;
Shdr (Nbr_Sect).Sh_Entsize := 0;
end if;
Shdr (Sect_Shstrtab).Sh_Size := Shdr (Sect_Shstrtab).Sh_Size
+ Sect.Name'Length + 1; -- 1 for Nul.
Nbr_Sect := Nbr_Sect + 1;
if Flag_Reloc then
if Sect.First_Reloc /= null then
Do_Intra_Section_Reloc (Sect);
end if;
end if;
if Sect.First_Reloc /= null then
-- Add a section for the relocs.
Shdr (Nbr_Sect) := Elf32_Shdr'
(Sh_Name => Shdr (Sect_Shstrtab).Sh_Size,
Sh_Type => SHT_NULL,
Sh_Flags => 0,
Sh_Addr => 0,
Sh_Offset => 0,
Sh_Size => 0,
Sh_Link => Elf32_Word (Sect_Symtab),
Sh_Info => Elf32_Word (Nbr_Sect - 1),
Sh_Addralign => 4,
Sh_Entsize => Elf32_Word (Rel_Size));
if Is_Rela (Arch) then
Shdr (Nbr_Sect).Sh_Type := SHT_RELA;
else
Shdr (Nbr_Sect).Sh_Type := SHT_REL;
end if;
Shdr (Sect_Shstrtab).Sh_Size := Shdr (Sect_Shstrtab).Sh_Size
+ Sect.Name'Length + 4 -- 4 for ".rel"
+ Boolean'Pos (Is_Rela (Arch)) + 1; -- 1 for 'a', 1 for Nul.
Nbr_Sect := Nbr_Sect + 1;
end if;
Sect := Sect.Next;
end loop;
-- Lay-out sections.
Offset := Elf32_Off (Elf32_Ehdr_Size);
-- Section table
Offset := Offset + Elf32_Off (Nbr_Sect * Elf32_Shdr_Size);
-- shstrtab.
Shdr (Sect_Shstrtab).Sh_Offset := Offset;
Offset := Sect_Align (Offset + Shdr (Sect_Shstrtab).Sh_Size);
-- user-sections and relocation.
for I in Sect_First .. Nbr_Sect - 1 loop
Sect := Sections (I).Sect;
if Sect /= null then
Sect.Pc := Pow_Align (Sect.Pc, Sect.Align);
Shdr (Sect.Number).Sh_Size := Elf32_Word (Sect.Pc);
if Sect.Data /= null then
-- Set data offset.
Shdr (Sect.Number).Sh_Offset := Offset;
Offset := Offset + Shdr (Sect.Number).Sh_Size;
-- Set relocs offset.
if Sect.First_Reloc /= null then
Shdr (Sect.Number + 1).Sh_Offset := Offset;
Shdr (Sect.Number + 1).Sh_Size :=
Elf32_Word (Sect.Nbr_Relocs * Rel_Size);
Offset := Offset + Shdr (Sect.Number + 1).Sh_Size;
end if;
end if;
-- Set link.
if Sect.Link /= null then
Shdr (Sect.Number).Sh_Link := Elf32_Word (Sect.Link.Number);
end if;
end if;
end loop;
-- Number symbols, put local before globals.
Nbr_Symbols := 1 + Nbr_Sections;
-- First local symbols.
for I in Symbols.First .. Symbols.Last loop
case Get_Scope (I) is
when Sym_Private =>
Set_Number (I, Nbr_Symbols);
Nbr_Symbols := Nbr_Symbols + 1;
when Sym_Local =>
if not Flag_Discard_Local then
Set_Number (I, Nbr_Symbols);
Nbr_Symbols := Nbr_Symbols + 1;
end if;
when Sym_Undef
| Sym_Global =>
null;
end case;
end loop;
Shdr (Sect_Symtab).Sh_Info := Elf32_Word (Nbr_Symbols);
-- Then globals.
for I in Symbols.First .. Symbols.Last loop
case Get_Scope (I) is
when Sym_Private
| Sym_Local =>
null;
when Sym_Undef =>
if Get_Used (I) then
Set_Number (I, Nbr_Symbols);
Nbr_Symbols := Nbr_Symbols + 1;
end if;
when Sym_Global =>
Set_Number (I, Nbr_Symbols);
Nbr_Symbols := Nbr_Symbols + 1;
end case;
end loop;
-- Symtab.
Shdr (Sect_Symtab).Sh_Offset := Offset;
-- 1 for nul.
Shdr (Sect_Symtab).Sh_Size := Elf32_Word (Nbr_Symbols * Elf32_Sym_Size);
Offset := Offset + Shdr (Sect_Symtab).Sh_Size;
-- Strtab offset.
Shdr (Sect_Strtab).Sh_Offset := Offset;
Shdr (Sect_Strtab).Sh_Size := 1;
-- Compute length of strtab.
-- First, sections names.
Sect := Section_Chain;
-- while Sect /= null loop
-- Shdr (Sect_Strtab).Sh_Size :=
-- Shdr (Sect_Strtab).Sh_Size + Sect.Name'Length + 1;
-- Sect := Sect.Prev;
-- end loop;
-- Then symbols.
declare
Len : Natural;
L : Natural;
begin
Len := 0;
for I in Symbols.First .. Symbols.Last loop
L := Get_Symbol_Name_Length (I) + 1;
case Get_Scope (I) is
when Sym_Local =>
if Flag_Discard_Local then
L := 0;
end if;
when Sym_Private =>
null;
when Sym_Global =>
null;
when Sym_Undef =>
if not Get_Used (I) then
L := 0;
end if;
end case;
Len := Len + L;
end loop;
Shdr (Sect_Strtab).Sh_Size :=
Shdr (Sect_Strtab).Sh_Size + Elf32_Word (Len);
end;
-- Write file header.
declare
Ehdr : Elf32_Ehdr;
begin
Ehdr := (E_Ident => (EI_MAG0 => ELFMAG0,
EI_MAG1 => ELFMAG1,
EI_MAG2 => ELFMAG2,
EI_MAG3 => ELFMAG3,
EI_CLASS => ELFCLASS32,
EI_DATA => ELFDATANONE,
EI_VERSION => EV_CURRENT,
EI_PAD .. 15 => 0),
E_Type => ET_REL,
E_Machine => EM_NONE,
E_Version => Elf32_Word (EV_CURRENT),
E_Entry => 0,
E_Phoff => 0,
E_Shoff => Elf32_Off (Elf32_Ehdr_Size),
E_Flags => 0,
E_Ehsize => Elf32_Half (Elf32_Ehdr_Size),
E_Phentsize => 0,
E_Phnum => 0,
E_Shentsize => Elf32_Half (Elf32_Shdr_Size),
E_Shnum => Elf32_Half (Nbr_Sect),
E_Shstrndx => 1);
case Arch is
when Arch_X86 =>
Ehdr.E_Ident (EI_DATA) := ELFDATA2LSB;
Ehdr.E_Machine := EM_386;
when Arch_Sparc =>
Ehdr.E_Ident (EI_DATA) := ELFDATA2MSB;
Ehdr.E_Machine := EM_SPARC;
when others =>
raise Program_Error;
end case;
Xwrite (Ehdr'Address, Elf32_Ehdr_Size);
end;
-- Write shdr.
Xwrite (Shdr'Address, Nbr_Sect * Elf32_Shdr_Size);
-- Write shstrtab
Check_File_Pos (Shdr (Sect_Shstrtab).Sh_Offset);
declare
Str : String :=
NUL & ".shstrtab" & NUL & ".symtab" & NUL & ".strtab" & NUL;
Rela : String := NUL & ".rela";
begin
Xwrite (Str'Address, Str'Length);
Sect := Section_Chain;
while Sect /= null loop
Xwrite (Sect.Name.all'Address, Sect.Name'Length);
if Sect.First_Reloc /= null then
if Is_Rela (Arch) then
Xwrite (Rela'Address, Rela'Length);
else
Xwrite (Rela'Address, Rela'Length - 1);
end if;
Xwrite (Sect.Name.all'Address, Sect.Name'Length);
end if;
Xwrite (NUL'Address, 1);
Sect := Sect.Next;
end loop;
end;
-- Pad.
declare
Delt : Elf32_Word;
Nul_Str : String (1 .. 4) := (others => NUL);
begin
Delt := Shdr (Sect_Shstrtab).Sh_Size and 3;
if Delt /= 0 then
Xwrite (Nul_Str'Address, Natural (4 - Delt));
end if;
end;
-- Write sections content and reloc.
for I in 1 .. Nbr_Sect loop
Sect := Sections (I).Sect;
if Sect /= null then
if Sect.Data /= null then
Check_File_Pos (Shdr (Sect.Number).Sh_Offset);
Xwrite (Sect.Data (0)'Address, Natural (Sect.Pc));
end if;
declare
R : Reloc_Acc;
Rel : Elf32_Rel;
Rela : Elf32_Rela;
S : Elf32_Word;
Nbr_Reloc : Natural;
begin
R := Sect.First_Reloc;
Nbr_Reloc := 0;
while R /= null loop
if R.Done then
S := Sections (Get_Section (R.Sym).Number).Sym;
else
S := Elf32_Word (Get_Number (R.Sym));
end if;
if Is_Rela (Arch) then
case R.Kind is
when Reloc_Disp22 =>
Rela.R_Info := Elf32_R_Info (S, R_SPARC_WDISP22);
when Reloc_Disp30 =>
Rela.R_Info := Elf32_R_Info (S, R_SPARC_WDISP30);
when Reloc_Hi22 =>
Rela.R_Info := Elf32_R_Info (S, R_SPARC_HI22);
when Reloc_Lo10 =>
Rela.R_Info := Elf32_R_Info (S, R_SPARC_LO10);
when Reloc_32 =>
Rela.R_Info := Elf32_R_Info (S, R_SPARC_32);
when Reloc_Ua_32 =>
Rela.R_Info := Elf32_R_Info (S, R_SPARC_UA32);
when others =>
raise Program_Error;
end case;
Rela.R_Addend := 0;
Rela.R_Offset := Elf32_Addr (R.Addr);
Xwrite (Rela'Address, Elf32_Rela_Size);
else
case R.Kind is
when Reloc_32 =>
Rel.R_Info := Elf32_R_Info (S, R_386_32);
when Reloc_Pc32 =>
Rel.R_Info := Elf32_R_Info (S, R_386_PC32);
when others =>
raise Program_Error;
end case;
Rel.R_Offset := Elf32_Addr (R.Addr);
Xwrite (Rel'Address, Elf32_Rel_Size);
end if;
Nbr_Reloc := Nbr_Reloc + 1;
R := R.Sect_Next;
end loop;
if Nbr_Reloc /= Sect.Nbr_Relocs then
raise Program_Error;
end if;
end;
end if;
end loop;
-- Write symbol table.
Check_File_Pos (Shdr (Sect_Symtab).Sh_Offset);
declare
Str_Off : Elf32_Word;
procedure Gen_Sym (S : Symbol)
is
Sym : Elf32_Sym;
Bind : Elf32_Uchar;
Typ : Elf32_Uchar;
begin
Sym := Elf32_Sym'(St_Name => Str_Off,
St_Value => Elf32_Addr (Get_Symbol_Value (S)),
St_Size => 0,
St_Info => 0,
St_Other => 0,
St_Shndx => SHN_UNDEF);
if Get_Section (S) /= null then
Sym.St_Shndx := Elf32_Half (Get_Section (S).Number);
end if;
case Get_Scope (S) is
when Sym_Private
| Sym_Local =>
Bind := STB_LOCAL;
Typ := STT_NOTYPE;
when Sym_Global =>
Bind := STB_GLOBAL;
if Get_Section (S) /= null
and then (Get_Section (S).Flags and Section_Exec) /= 0
then
Typ := STT_FUNC;
else
Typ := STT_OBJECT;
end if;
when Sym_Undef =>
Bind := STB_GLOBAL;
Typ := STT_NOTYPE;
end case;
Sym.St_Info := Elf32_St_Info (Bind, Typ);
Xwrite (Sym'Address, Elf32_Sym_Size);
Str_Off := Str_Off + Elf32_Off (Get_Symbol_Name_Length (S) + 1);
end Gen_Sym;
Sym : Elf32_Sym;
begin
Str_Off := 1;
-- write null entry
Sym := Elf32_Sym'(St_Name => 0,
St_Value => 0,
St_Size => 0,
St_Info => 0,
St_Other => 0,
St_Shndx => SHN_UNDEF);
Xwrite (Sym'Address, Elf32_Sym_Size);
-- write section entries
Sect := Section_Chain;
while Sect /= null loop
-- Sym := Elf32_Sym'(St_Name => Str_Off,
-- St_Value => 0,
-- St_Size => 0,
-- St_Info => Elf32_St_Info (STB_LOCAL,
-- STT_NOTYPE),
-- St_Other => 0,
-- St_Shndx => Elf32_Half (Sect.Number));
-- Xwrite (Sym'Address, Elf32_Sym_Size);
-- Str_Off := Str_Off + Sect.Name'Length + 1;
Sym := Elf32_Sym'(St_Name => 0,
St_Value => 0,
St_Size => 0,
St_Info => Elf32_St_Info (STB_LOCAL,
STT_SECTION),
St_Other => 0,
St_Shndx => Elf32_Half (Sect.Number));
Xwrite (Sym'Address, Elf32_Sym_Size);
Sect := Sect.Next;
end loop;
-- First local symbols.
for I in Symbols.First .. Symbols.Last loop
case Get_Scope (I) is
when Sym_Private =>
Gen_Sym (I);
when Sym_Local =>
if not Flag_Discard_Local then
Gen_Sym (I);
end if;
when Sym_Global
| Sym_Undef =>
null;
end case;
end loop;
-- Then global symbols.
for I in Symbols.First .. Symbols.Last loop
case Get_Scope (I) is
when Sym_Global =>
Gen_Sym (I);
when Sym_Undef =>
if Get_Used (I) then
Gen_Sym (I);
end if;
when Sym_Private
| Sym_Local =>
null;
end case;
end loop;
end;
-- Write strtab.
Check_File_Pos (Shdr (Sect_Strtab).Sh_Offset);
-- First is NUL.
Xwrite (NUL'Address, 1);
-- Then the sections name.
-- Sect := Section_List;
-- while Sect /= null loop
-- Xwrite (Sect.Name.all'Address, Sect.Name'Length);
-- Xwrite (NUL'Address, 1);
-- Sect := Sect.Prev;
-- end loop;
-- Then the symbols name.
declare
procedure Write_Sym_Name (S : Symbol)
is
Str : String := Get_Symbol_Name (S) & NUL;
begin
Xwrite (Str'Address, Str'Length);
end Write_Sym_Name;
begin
-- First locals.
for I in Symbols.First .. Symbols.Last loop
case Get_Scope (I) is
when Sym_Private =>
Write_Sym_Name (I);
when Sym_Local =>
if not Flag_Discard_Local then
Write_Sym_Name (I);
end if;
when Sym_Global
| Sym_Undef =>
null;
end case;
end loop;
-- Then global symbols.
for I in Symbols.First .. Symbols.Last loop
case Get_Scope (I) is
when Sym_Global =>
Write_Sym_Name (I);
when Sym_Undef =>
if Get_Used (I) then
Write_Sym_Name (I);
end if;
when Sym_Private
| Sym_Local =>
null;
end case;
end loop;
end;
end Write_Elf;
end Binary_File.Elf;
|