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[external/binutils.git] / include / coff / sh.h

/*** coff information for Hitachi SH */

/********************** FILE HEADER **********************/

struct external_filehdr {
        char f_magic[2];        /* magic number                 */
        char f_nscns[2];        /* number of sections           */
        char f_timdat[4];       /* time & date stamp            */
        char f_symptr[4];       /* file pointer to symtab       */
        char f_nsyms[4];        /* number of symtab entries     */
        char f_opthdr[2];       /* sizeof(optional hdr)         */
        char f_flags[2];        /* flags                        */
};



#define SH_ARCH_MAGIC_BIG       0x0500
#define SH_ARCH_MAGIC_LITTLE    0x0550  /* Little endian SH */
#define SH_ARCH_MAGIC_WINCE     0x01a2  /* Windows CE - little endian */
#define SH_PE_MAGIC             0x010b


#define SHBADMAG(x) \
 (((x).f_magic!=SH_ARCH_MAGIC_BIG) && \
  ((x).f_magic!=SH_ARCH_MAGIC_WINCE) && \
  ((x).f_magic!=SH_ARCH_MAGIC_LITTLE))

#define FILHDR  struct external_filehdr
#define FILHSZ  20


/********************** AOUT "OPTIONAL HEADER" **********************/


typedef struct 
{
  char  magic[2];               /* type of file                         */
  char  vstamp[2];              /* version stamp                        */
  char  tsize[4];               /* text size in bytes, padded to FW bdry*/
  char  dsize[4];               /* initialized data "  "                */
  char  bsize[4];               /* uninitialized data "   "             */
  char  entry[4];               /* entry pt.                            */
  char  text_start[4];          /* base of text used for this file */
  char  data_start[4];          /* base of data used for this file */
}
AOUTHDR;


#define AOUTHDRSZ 28
#define AOUTSZ 28



/* Define some NT default values.  */
/*  #define NT_IMAGE_BASE        0x400000 moved to internal.h */
#define NT_SECTION_ALIGNMENT 0x1000
#define NT_FILE_ALIGNMENT    0x200
#define NT_DEF_RESERVE       0x100000
#define NT_DEF_COMMIT        0x1000

/********************** SECTION HEADER **********************/


struct external_scnhdr {
        char            s_name[8];      /* section name                 */
        char            s_paddr[4];     /* physical address, aliased s_nlib */
        char            s_vaddr[4];     /* virtual address              */
        char            s_size[4];      /* section size                 */
        char            s_scnptr[4];    /* file ptr to raw data for section */
        char            s_relptr[4];    /* file ptr to relocation       */
        char            s_lnnoptr[4];   /* file ptr to line numbers     */
        char            s_nreloc[2];    /* number of relocation entries */
        char            s_nlnno[2];     /* number of line number entries*/
        char            s_flags[4];     /* flags                        */
};

/*
 * names of "special" sections
 */
#define _TEXT   ".text"
#define _DATA   ".data"
#define _BSS    ".bss"


#define SCNHDR  struct external_scnhdr
#define SCNHSZ  40


/********************** LINE NUMBERS **********************/

/* 1 line number entry for every "breakpointable" source line in a section.
 * Line numbers are grouped on a per function basis; first entry in a function
 * grouping will have l_lnno = 0 and in place of physical address will be the
 * symbol table index of the function name.
 */
struct external_lineno {
        union {
                char l_symndx[4];       /* function name symbol index, iff l_lnno == 0*/
                char l_paddr[4];        /* (physical) address of line number    */
        } l_addr;
#ifdef COFF_WITH_PE
        char l_lnno[2]; /* line number          */
#else
        char l_lnno[4]; /* line number          */
#endif
};

#define GET_LINENO_LNNO(abfd, ext) bfd_h_get_32(abfd, (bfd_byte *) (ext->l_lnno));
#define PUT_LINENO_LNNO(abfd,val, ext) bfd_h_put_32(abfd,val,  (bfd_byte *) (ext->l_lnno));

#define LINENO  struct external_lineno
#ifdef COFF_WITH_PE
#define LINESZ  6
#undef GET_LINENO_LNNO
#define GET_LINENO_LNNO(abfd, ext) bfd_h_get_16(abfd, (bfd_byte *) (ext->l_lnno));
#undef PUT_LINENO_LNNO
#define PUT_LINENO_LNNO(abfd,val, ext) bfd_h_put_16(abfd,val,  (bfd_byte *) (ext->l_lnno));
#else
#define LINESZ  8
#endif


/********************** SYMBOLS **********************/

#define E_SYMNMLEN      8       /* # characters in a symbol name        */
#define E_FILNMLEN      14      /* # characters in a file name          */
#define E_DIMNUM        4       /* # array dimensions in auxiliary entry */

struct external_syment 
{
  union {
    char e_name[E_SYMNMLEN];
    struct {
      char e_zeroes[4];
      char e_offset[4];
    } e;
  } e;
  char e_value[4];
  char e_scnum[2];
  char e_type[2];
  char e_sclass[1];
  char e_numaux[1];
};



#define N_BTMASK        (017)
#define N_TMASK         (060)
#define N_BTSHFT        (4)
#define N_TSHIFT        (2)
  

union external_auxent {
        struct {
                char x_tagndx[4];       /* str, un, or enum tag indx */
                union {
                        struct {
                            char  x_lnno[2]; /* declaration line number */
                            char  x_size[2]; /* str/union/array size */
                        } x_lnsz;
                        char x_fsize[4];        /* size of function */
                } x_misc;
                union {
                        struct {                /* if ISFCN, tag, or .bb */
                            char x_lnnoptr[4];  /* ptr to fcn line # */
                            char x_endndx[4];   /* entry ndx past block end */
                        } x_fcn;
                        struct {                /* if ISARY, up to 4 dimen. */
                            char x_dimen[E_DIMNUM][2];
                        } x_ary;
                } x_fcnary;
                char x_tvndx[2];                /* tv index */
        } x_sym;

        union {
                char x_fname[E_FILNMLEN];
                struct {
                        char x_zeroes[4];
                        char x_offset[4];
                } x_n;
        } x_file;

        struct {
                char x_scnlen[4];                       /* section length */
                char x_nreloc[2];       /* # relocation entries */
                char x_nlinno[2];       /* # line numbers */
                char x_checksum[4];     /* section COMDAT checksum */
                char x_associated[2];   /* COMDAT associated section index */
                char x_comdat[1];       /* COMDAT selection number */
        } x_scn;

        struct {
                char x_tvfill[4];       /* tv fill value */
                char x_tvlen[2];        /* length of .tv */
                char x_tvran[2][2];     /* tv range */
        } x_tv;         /* info about .tv section (in auxent of symbol .tv)) */


};

#define SYMENT  struct external_syment
#define SYMESZ  18      
#define AUXENT  union external_auxent
#define AUXESZ  18



/********************** RELOCATION DIRECTIVES **********************/

/* The external reloc has an offset field, because some of the reloc
   types on the h8 don't have room in the instruction for the entire
   offset - eg the strange jump and high page addressing modes */

#ifndef COFF_WITH_PE
struct external_reloc {
  char r_vaddr[4];
  char r_symndx[4];
  char r_offset[4];
  char r_type[2];
  char r_stuff[2];
};
#else
struct external_reloc {
  char r_vaddr[4];
  char r_symndx[4];
  char r_type[2];
};
#endif


#define RELOC struct external_reloc
#ifdef COFF_WITH_PE
#define RELSZ 10
#else
#define RELSZ 16
#endif

/* SH relocation types.  Not all of these are actually used.  */

#define R_SH_UNUSED     0               /* only used internally */
#define R_SH_IMM32CE    2               /* 32 bit immediate for WinCE */
#define R_SH_PCREL8     3               /*  8 bit pcrel         */
#define R_SH_PCREL16    4               /* 16 bit pcrel         */
#define R_SH_HIGH8      5               /* high 8 bits of 24 bit address */
#define R_SH_LOW16      7               /* low 16 bits of 24 bit immediate */
#define R_SH_IMM24      6               /* 24 bit immediate */
#define R_SH_PCDISP8BY4 9               /* PC rel 8 bits *4 +ve */
#define R_SH_PCDISP8BY2 10              /* PC rel 8 bits *2 +ve */
#define R_SH_PCDISP8    11              /* 8 bit branch */
#define R_SH_PCDISP     12              /* 12 bit branch */
#define R_SH_IMM32      14              /* 32 bit immediate */
#define R_SH_IMM8       16              /* 8 bit immediate */
#define R_SH_IMAGEBASE  16              /* Windows CE */
#define R_SH_IMM8BY2    17              /* 8 bit immediate *2 */
#define R_SH_IMM8BY4    18              /* 8 bit immediate *4 */
#define R_SH_IMM4       19              /* 4 bit immediate */
#define R_SH_IMM4BY2    20              /* 4 bit immediate *2 */
#define R_SH_IMM4BY4    21              /* 4 bit immediate *4 */
#define R_SH_PCRELIMM8BY2   22          /* PC rel 8 bits *2 unsigned */
#define R_SH_PCRELIMM8BY4   23          /* PC rel 8 bits *4 unsigned */
#define R_SH_IMM16      24              /* 16 bit immediate */

/* The switch table reloc types are used for relaxing.  They are
   generated for expressions such as
     .word L1 - L2
   The r_offset field holds the difference between the reloc address
   and L2.  */
#define R_SH_SWITCH8    33              /* 8 bit switch table entry */
#define R_SH_SWITCH16   25              /* 16 bit switch table entry */
#define R_SH_SWITCH32   26              /* 32 bit switch table entry */

/* The USES reloc type is used for relaxing.  The compiler will
   generate .uses pseudo-ops when it finds a function call which it
   can relax.  The r_offset field of the USES reloc holds the PC
   relative offset to the instruction which loads the register used in
   the function call.  */
#define R_SH_USES       27              /* .uses pseudo-op */

/* The COUNT reloc type is used for relaxing.  The assembler will
   generate COUNT relocs for addresses referred to by the register
   loads associated with USES relocs.  The r_offset field of the COUNT
   reloc holds the number of times the address is referenced in the
   object file.  */
#define R_SH_COUNT      28              /* Count of constant pool uses */

/* The ALIGN reloc type is used for relaxing.  The r_offset field is
   the power of two to which subsequent portions of the object file
   must be aligned.  */
#define R_SH_ALIGN      29              /* .align pseudo-op */

/* The CODE and DATA reloc types are used for aligning load and store
   instructions.  The assembler will generate a CODE reloc before a
   block of instructions.  It will generate a DATA reloc before data.
   A section should be processed assuming it contains data, unless a
   CODE reloc is seen.  The only relevant pieces of information in the
   CODE and DATA relocs are the section and the address.  The symbol
   and offset are meaningless.  */
#define R_SH_CODE       30              /* start of code */
#define R_SH_DATA       31              /* start of data */

/* The LABEL reloc type is used for aligning load and store
   instructions.  The assembler will generate a LABEL reloc for each
   label within a block of instructions.  This permits the linker to
   avoid swapping instructions which are the targets of branches.  */
#define R_SH_LABEL      32              /* label */

/* NB: R_SH_SWITCH8 is 33 */

#define R_SH_LOOP_START 34
#define R_SH_LOOP_END   35