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|
/* tc-rx.c -- Assembler for the Renesas RX
Copyright 2008-2013 Free Software Foundation, Inc.
This file is part of GAS, the GNU Assembler.
GAS 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 3, or (at your option)
any later version.
GAS 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 GAS; see the file COPYING. If not, write to the Free
Software Foundation, 51 Franklin Street - Fifth Floor, Boston, MA
02110-1301, USA. */
#include "as.h"
#include "struc-symbol.h"
#include "obstack.h"
#include "safe-ctype.h"
#include "dwarf2dbg.h"
#include "libbfd.h"
#include "elf/common.h"
#include "elf/rx.h"
#include "rx-defs.h"
#include "filenames.h"
#include "listing.h"
#include "sb.h"
#include "macro.h"
#define RX_OPCODE_BIG_ENDIAN 0
const char comment_chars[] = ";";
/* Note that input_file.c hand checks for '#' at the beginning of the
first line of the input file. This is because the compiler outputs
#NO_APP at the beginning of its output. */
const char line_comment_chars[] = "#";
const char line_separator_chars[] = "!";
const char EXP_CHARS[] = "eE";
const char FLT_CHARS[] = "dD";
/* ELF flags to set in the output file header. */
static int elf_flags = E_FLAG_RX_ABI;
bfd_boolean rx_use_conventional_section_names = FALSE;
static bfd_boolean rx_use_small_data_limit = FALSE;
static bfd_boolean rx_pid_mode = FALSE;
static int rx_num_int_regs = 0;
int rx_pid_register;
int rx_gp_register;
enum rx_cpu_types rx_cpu = RX600;
static void rx_fetchalign (int ignore ATTRIBUTE_UNUSED);
enum options
{
OPTION_BIG = OPTION_MD_BASE,
OPTION_LITTLE,
OPTION_32BIT_DOUBLES,
OPTION_64BIT_DOUBLES,
OPTION_CONVENTIONAL_SECTION_NAMES,
OPTION_RENESAS_SECTION_NAMES,
OPTION_SMALL_DATA_LIMIT,
OPTION_RELAX,
OPTION_PID,
OPTION_INT_REGS,
OPTION_USES_GCC_ABI,
OPTION_USES_RX_ABI,
OPTION_CPU,
};
#define RX_SHORTOPTS ""
const char * md_shortopts = RX_SHORTOPTS;
/* Assembler options. */
struct option md_longopts[] =
{
{"mbig-endian-data", no_argument, NULL, OPTION_BIG},
{"mlittle-endian-data", no_argument, NULL, OPTION_LITTLE},
/* The next two switches are here because the
generic parts of the linker testsuite uses them. */
{"EB", no_argument, NULL, OPTION_BIG},
{"EL", no_argument, NULL, OPTION_LITTLE},
{"m32bit-doubles", no_argument, NULL, OPTION_32BIT_DOUBLES},
{"m64bit-doubles", no_argument, NULL, OPTION_64BIT_DOUBLES},
/* This option is here mainly for the binutils testsuites,
as many of their tests assume conventional section naming. */
{"muse-conventional-section-names", no_argument, NULL, OPTION_CONVENTIONAL_SECTION_NAMES},
{"muse-renesas-section-names", no_argument, NULL, OPTION_RENESAS_SECTION_NAMES},
{"msmall-data-limit", no_argument, NULL, OPTION_SMALL_DATA_LIMIT},
{"relax", no_argument, NULL, OPTION_RELAX},
{"mpid", no_argument, NULL, OPTION_PID},
{"mint-register", required_argument, NULL, OPTION_INT_REGS},
{"mgcc-abi", no_argument, NULL, OPTION_USES_GCC_ABI},
{"mrx-abi", no_argument, NULL, OPTION_USES_RX_ABI},
{"mcpu",required_argument,NULL,OPTION_CPU},
{NULL, no_argument, NULL, 0}
};
size_t md_longopts_size = sizeof (md_longopts);
int
md_parse_option (int c ATTRIBUTE_UNUSED, char * arg ATTRIBUTE_UNUSED)
{
switch (c)
{
case OPTION_BIG:
target_big_endian = 1;
return 1;
case OPTION_LITTLE:
target_big_endian = 0;
return 1;
case OPTION_32BIT_DOUBLES:
elf_flags &= ~ E_FLAG_RX_64BIT_DOUBLES;
return 1;
case OPTION_64BIT_DOUBLES:
elf_flags |= E_FLAG_RX_64BIT_DOUBLES;
return 1;
case OPTION_CONVENTIONAL_SECTION_NAMES:
rx_use_conventional_section_names = TRUE;
return 1;
case OPTION_RENESAS_SECTION_NAMES:
rx_use_conventional_section_names = FALSE;
return 1;
case OPTION_SMALL_DATA_LIMIT:
rx_use_small_data_limit = TRUE;
return 1;
case OPTION_RELAX:
linkrelax = 1;
return 1;
case OPTION_PID:
rx_pid_mode = TRUE;
elf_flags |= E_FLAG_RX_PID;
return 1;
case OPTION_INT_REGS:
rx_num_int_regs = atoi (optarg);
return 1;
case OPTION_USES_GCC_ABI:
elf_flags &= ~ E_FLAG_RX_ABI;
return 1;
case OPTION_USES_RX_ABI:
elf_flags |= E_FLAG_RX_ABI;
return 1;
case OPTION_CPU:
if (strcasecmp (arg, "rx100") == 0)
rx_cpu = RX100;
else if (strcasecmp (arg, "rx200") == 0)
rx_cpu = RX200;
else if (strcasecmp (arg, "rx600") == 0)
rx_cpu = RX600;
else if (strcasecmp (arg, "rx610") == 0)
rx_cpu = RX610;
else
{
as_warn (_("unrecognised RX CPU type %s"), arg);
break;
}
return 1;
}
return 0;
}
void
md_show_usage (FILE * stream)
{
fprintf (stream, _(" RX specific command line options:\n"));
fprintf (stream, _(" --mbig-endian-data\n"));
fprintf (stream, _(" --mlittle-endian-data [default]\n"));
fprintf (stream, _(" --m32bit-doubles [default]\n"));
fprintf (stream, _(" --m64bit-doubles\n"));
fprintf (stream, _(" --muse-conventional-section-names\n"));
fprintf (stream, _(" --muse-renesas-section-names [default]\n"));
fprintf (stream, _(" --msmall-data-limit\n"));
fprintf (stream, _(" --mrelax\n"));
fprintf (stream, _(" --mpid\n"));
fprintf (stream, _(" --mint-register=<value>\n"));
fprintf (stream, _(" --mcpu=<rx100|rx200|rx600|rx610>\n"));
}
static void
s_bss (int ignore ATTRIBUTE_UNUSED)
{
int temp;
temp = get_absolute_expression ();
subseg_set (bss_section, (subsegT) temp);
demand_empty_rest_of_line ();
}
static void
rx_float_cons (int ignore ATTRIBUTE_UNUSED)
{
if (elf_flags & E_FLAG_RX_64BIT_DOUBLES)
return float_cons ('d');
return float_cons ('f');
}
static char *
rx_strcasestr (const char *string, const char *sub)
{
int subl;
int strl;
if (!sub || !sub[0])
return (char *)string;
subl = strlen (sub);
strl = strlen (string);
while (strl >= subl)
{
/* strncasecmp is in libiberty. */
if (strncasecmp (string, sub, subl) == 0)
return (char *)string;
string ++;
strl --;
}
return NULL;
}
static void
rx_include (int ignore)
{
FILE * try;
char * path;
char * filename;
char * current_filename;
char * last_char;
char * p;
char * d;
char * f;
char end_char;
size_t len;
/* The RX version of the .INCLUDE pseudo-op does not
have to have the filename inside double quotes. */
SKIP_WHITESPACE ();
if (*input_line_pointer == '"')
{
/* Treat as the normal GAS .include pseudo-op. */
s_include (ignore);
return;
}
/* Get the filename. Spaces are allowed, NUL characters are not. */
filename = input_line_pointer;
last_char = find_end_of_line (filename, FALSE);
input_line_pointer = last_char;
while (last_char >= filename && (* last_char == ' ' || * last_char == '\n'))
-- last_char;
end_char = *(++ last_char);
* last_char = 0;
if (last_char == filename)
{
as_bad (_("no filename following .INCLUDE pseudo-op"));
* last_char = end_char;
return;
}
as_where (& current_filename, NULL);
f = (char *) xmalloc (strlen (current_filename) + strlen (filename) + 1);
/* Check the filename. If [@]..FILE[@] is found then replace
this with the current assembler source filename, stripped
of any directory prefixes or extensions. */
if ((p = rx_strcasestr (filename, "..file")) != NULL)
{
char * c;
len = 6; /* strlen ("..file"); */
if (p > filename && p[-1] == '@')
-- p, ++len;
if (p[len] == '@')
len ++;
for (d = c = current_filename; *c; c++)
if (IS_DIR_SEPARATOR (* c))
d = c + 1;
for (c = d; *c; c++)
if (*c == '.')
break;
sprintf (f, "%.*s%.*s%.*s", (int) (p - filename), filename,
(int) (c - d), d,
(int) (strlen (filename) - ((p + len) - filename)),
p + len);
}
else
strcpy (f, filename);
/* RX .INCLUDE semantics say that 'filename' is located by:
1. If filename is absolute, just try that. Otherwise...
2. If the current source file includes a directory component
then prepend that to the filename and try. Otherwise...
3. Try any directories specified by the -I command line
option(s).
4 .Try a directory specifed by the INC100 environment variable. */
if (IS_ABSOLUTE_PATH (f))
try = fopen (path = f, FOPEN_RT);
else
{
char * env = getenv ("INC100");
try = NULL;
len = strlen (current_filename);
if ((size_t) include_dir_maxlen > len)
len = include_dir_maxlen;
if (env && strlen (env) > len)
len = strlen (env);
path = (char *) xmalloc (strlen (f) + len + 5);
if (current_filename != NULL)
{
for (d = NULL, p = current_filename; *p; p++)
if (IS_DIR_SEPARATOR (* p))
d = p;
if (d != NULL)
{
sprintf (path, "%.*s/%s", (int) (d - current_filename), current_filename,
f);
try = fopen (path, FOPEN_RT);
}
}
if (try == NULL)
{
int i;
for (i = 0; i < include_dir_count; i++)
{
sprintf (path, "%s/%s", include_dirs[i], f);
if ((try = fopen (path, FOPEN_RT)) != NULL)
break;
}
}
if (try == NULL && env != NULL)
{
sprintf (path, "%s/%s", env, f);
try = fopen (path, FOPEN_RT);
}
free (f);
}
if (try == NULL)
{
as_bad (_("unable to locate include file: %s"), filename);
free (path);
}
else
{
fclose (try);
register_dependency (path);
input_scrub_insert_file (path);
}
* last_char = end_char;
}
static void
parse_rx_section (char * name)
{
asection * sec;
int type;
int attr = SHF_ALLOC | SHF_EXECINSTR;
int align = 2;
char end_char;
do
{
char * p;
SKIP_WHITESPACE ();
for (p = input_line_pointer; *p && strchr ("\n\t, =", *p) == NULL; p++)
;
end_char = *p;
*p = 0;
if (strcasecmp (input_line_pointer, "ALIGN") == 0)
{
*p = end_char;
if (end_char == ' ')
while (ISSPACE (*p))
p++;
if (*p == '=')
{
++ p;
while (ISSPACE (*p))
p++;
switch (*p)
{
case '2': align = 2; break;
case '4': align = 4; break;
case '8': align = 8; break;
default:
as_bad (_("unrecognised alignment value in .SECTION directive: %s"), p);
ignore_rest_of_line ();
return;
}
++ p;
}
end_char = *p;
}
else if (strcasecmp (input_line_pointer, "CODE") == 0)
attr = SHF_ALLOC | SHF_EXECINSTR;
else if (strcasecmp (input_line_pointer, "DATA") == 0)
attr = SHF_ALLOC | SHF_WRITE;
else if (strcasecmp (input_line_pointer, "ROMDATA") == 0)
attr = SHF_ALLOC;
else
{
as_bad (_("unknown parameter following .SECTION directive: %s"),
input_line_pointer);
*p = end_char;
input_line_pointer = p + 1;
ignore_rest_of_line ();
return;
}
*p = end_char;
input_line_pointer = p + 1;
}
while (end_char != '\n' && end_char != 0);
if ((sec = bfd_get_section_by_name (stdoutput, name)) == NULL)
{
if (strcmp (name, "B") && strcmp (name, "B_1") && strcmp (name, "B_2"))
type = SHT_NULL;
else
type = SHT_NOBITS;
obj_elf_change_section (name, type, attr, 0, NULL, FALSE, FALSE);
}
else /* Try not to redefine a section, especially B_1. */
{
int flags = sec->flags;
type = elf_section_type (sec);
attr = ((flags & SEC_READONLY) ? 0 : SHF_WRITE)
| ((flags & SEC_ALLOC) ? SHF_ALLOC : 0)
| ((flags & SEC_CODE) ? SHF_EXECINSTR : 0)
| ((flags & SEC_MERGE) ? SHF_MERGE : 0)
| ((flags & SEC_STRINGS) ? SHF_STRINGS : 0)
| ((flags & SEC_THREAD_LOCAL) ? SHF_TLS : 0);
obj_elf_change_section (name, type, attr, 0, NULL, FALSE, FALSE);
}
bfd_set_section_alignment (stdoutput, now_seg, align);
}
static void
rx_section (int ignore)
{
char * p;
/* The as100 assembler supports a different syntax for the .section
pseudo-op. So check for it and handle it here if necessary. */
SKIP_WHITESPACE ();
/* Peek past the section name to see if arguments follow. */
for (p = input_line_pointer; *p; p++)
if (*p == ',' || *p == '\n')
break;
if (*p == ',')
{
int len = p - input_line_pointer;
while (ISSPACE (*++p))
;
if (*p != '"' && *p != '#')
{
char * name = (char *) xmalloc (len + 1);
strncpy (name, input_line_pointer, len);
name[len] = 0;
input_line_pointer = p;
parse_rx_section (name);
return;
}
}
obj_elf_section (ignore);
}
static void
rx_list (int ignore ATTRIBUTE_UNUSED)
{
SKIP_WHITESPACE ();
if (strncasecmp (input_line_pointer, "OFF", 3))
listing_list (0);
else if (strncasecmp (input_line_pointer, "ON", 2))
listing_list (1);
else
as_warn (_("expecting either ON or OFF after .list"));
}
/* Like the .rept pseudo op, but supports the
use of ..MACREP inside the repeated region. */
static void
rx_rept (int ignore ATTRIBUTE_UNUSED)
{
int count = get_absolute_expression ();
do_repeat_with_expander (count, "MREPEAT", "ENDR", "..MACREP");
}
/* Like cons() accept that strings are allowed. */
static void
rx_cons (int size)
{
SKIP_WHITESPACE ();
if (* input_line_pointer == '"')
stringer (8+0);
else
cons (size);
}
static void
rx_nop (int ignore ATTRIBUTE_UNUSED)
{
ignore_rest_of_line ();
}
static void
rx_unimp (int idx)
{
as_warn (_("The \".%s\" pseudo-op is not implemented\n"),
md_pseudo_table[idx].poc_name);
ignore_rest_of_line ();
}
/* The target specific pseudo-ops which we support. */
const pseudo_typeS md_pseudo_table[] =
{
/* These are unimplemented. They're listed first so that we can use
the poc_value as the index into this array, to get the name of
the pseudo. So, keep these (1) first, and (2) in order, with (3)
the poc_value's in sequence. */
{ "btglb", rx_unimp, 0 },
{ "call", rx_unimp, 1 },
{ "einsf", rx_unimp, 2 },
{ "fb", rx_unimp, 3 },
{ "fbsym", rx_unimp, 4 },
{ "id", rx_unimp, 5 },
{ "initsct", rx_unimp, 6 },
{ "insf", rx_unimp, 7 },
{ "instr", rx_unimp, 8 },
{ "lbba", rx_unimp, 9 },
{ "len", rx_unimp, 10 },
{ "optj", rx_unimp, 11 },
{ "rvector", rx_unimp, 12 },
{ "sb", rx_unimp, 13 },
{ "sbbit", rx_unimp, 14 },
{ "sbsym", rx_unimp, 15 },
{ "sbsym16", rx_unimp, 16 },
/* These are the do-nothing pseudos. */
{ "stk", rx_nop, 0 },
/* The manual documents ".stk" but the compiler emits ".stack". */
{ "stack", rx_nop, 0 },
/* These are Renesas as100 assembler pseudo-ops that we do support. */
{ "addr", rx_cons, 3 },
{ "align", s_align_bytes, 2 },
{ "byte", rx_cons, 1 },
{ "fixed", float_cons, 'f' },
{ "form", listing_psize, 0 },
{ "glb", s_globl, 0 },
{ "include", rx_include, 0 },
{ "list", rx_list, 0 },
{ "lword", rx_cons, 4 },
{ "mrepeat", rx_rept, 0 },
{ "section", rx_section, 0 },
/* FIXME: The following pseudo-ops place their values (and associated
label if present) in the data section, regardless of whatever
section we are currently in. At the moment this code does not
implement that part of the semantics. */
{ "blka", s_space, 3 },
{ "blkb", s_space, 1 },
{ "blkd", s_space, 8 },
{ "blkf", s_space, 4 },
{ "blkl", s_space, 4 },
{ "blkw", s_space, 2 },
/* Our "standard" pseudos. */
{ "double", rx_float_cons, 0 },
{ "bss", s_bss, 0 },
{ "3byte", cons, 3 },
{ "int", cons, 4 },
{ "word", cons, 4 },
{ "fetchalign", rx_fetchalign, 0 },
/* End of list marker. */
{ NULL, NULL, 0 }
};
static asymbol * gp_symbol;
static asymbol * rx_pid_symbol;
static symbolS * rx_pidreg_symbol;
static symbolS * rx_gpreg_symbol;
void
md_begin (void)
{
/* Make the __gp and __pid_base symbols now rather
than after the symbol table is frozen. We only do this
when supporting small data limits because otherwise we
pollute the symbol table. */
/* The meta-registers %pidreg and %gpreg depend on what other
options are specified. The __rx_*_defined symbols exist so we
can .ifdef asm code based on what options were passed to gas,
without needing a preprocessor */
if (rx_pid_mode)
{
rx_pid_register = 13 - rx_num_int_regs;
rx_pid_symbol = symbol_get_bfdsym (symbol_find_or_make ("__pid_base"));
rx_pidreg_symbol = symbol_find_or_make ("__rx_pidreg_defined");
S_SET_VALUE (rx_pidreg_symbol, rx_pid_register);
S_SET_SEGMENT (rx_pidreg_symbol, absolute_section);
}
if (rx_use_small_data_limit)
{
if (rx_pid_mode)
rx_gp_register = rx_pid_register - 1;
else
rx_gp_register = 13 - rx_num_int_regs;
gp_symbol = symbol_get_bfdsym (symbol_find_or_make ("__gp"));
rx_gpreg_symbol = symbol_find_or_make ("__rx_gpreg_defined");
S_SET_VALUE (rx_gpreg_symbol, rx_gp_register);
S_SET_SEGMENT (rx_gpreg_symbol, absolute_section);
}
}
char * rx_lex_start;
char * rx_lex_end;
/* These negative numbers are found in rx_bytesT.n_base for non-opcode
md_frags */
#define RX_NBASE_FETCHALIGN -1
typedef struct rx_bytesT
{
char base[4];
/* If this is negative, it's a special-purpose frag as per the defines above. */
int n_base;
char ops[8];
int n_ops;
struct
{
expressionS exp;
char offset;
char nbits;
char type; /* RXREL_*. */
int reloc;
fixS * fixP;
} fixups[2];
int n_fixups;
struct
{
char type;
char field_pos;
char val_ofs;
} relax[2];
int n_relax;
int link_relax;
fixS *link_relax_fixP;
char times_grown;
char times_shrank;
} rx_bytesT;
static rx_bytesT rx_bytes;
/* We set n_ops to be "size of next opcode" if the next opcode doesn't relax. */
static rx_bytesT *fetchalign_bytes = NULL;
static void
rx_fetchalign (int ignore ATTRIBUTE_UNUSED)
{
char * bytes;
fragS * frag_then;
memset (& rx_bytes, 0, sizeof (rx_bytes));
rx_bytes.n_base = RX_NBASE_FETCHALIGN;
bytes = frag_more (8);
frag_then = frag_now;
frag_variant (rs_machine_dependent,
0 /* max_chars */,
0 /* var */,
0 /* subtype */,
0 /* symbol */,
0 /* offset */,
0 /* opcode */);
frag_then->fr_opcode = bytes;
frag_then->fr_subtype = 0;
fetchalign_bytes = frag_then->tc_frag_data;
}
void
rx_relax (int type, int pos)
{
rx_bytes.relax[rx_bytes.n_relax].type = type;
rx_bytes.relax[rx_bytes.n_relax].field_pos = pos;
rx_bytes.relax[rx_bytes.n_relax].val_ofs = rx_bytes.n_base + rx_bytes.n_ops;
rx_bytes.n_relax ++;
}
void
rx_linkrelax_dsp (int pos)
{
switch (pos)
{
case 4:
rx_bytes.link_relax |= RX_RELAXA_DSP4;
break;
case 6:
rx_bytes.link_relax |= RX_RELAXA_DSP6;
break;
case 14:
rx_bytes.link_relax |= RX_RELAXA_DSP14;
break;
}
}
void
rx_linkrelax_imm (int pos)
{
switch (pos)
{
case 6:
rx_bytes.link_relax |= RX_RELAXA_IMM6;
break;
case 12:
rx_bytes.link_relax |= RX_RELAXA_IMM12;
break;
}
}
void
rx_linkrelax_branch (void)
{
rx_bytes.link_relax |= RX_RELAXA_BRA;
}
static void
rx_fixup (expressionS exp, int offsetbits, int nbits, int type)
{
rx_bytes.fixups[rx_bytes.n_fixups].exp = exp;
rx_bytes.fixups[rx_bytes.n_fixups].offset = offsetbits;
rx_bytes.fixups[rx_bytes.n_fixups].nbits = nbits;
rx_bytes.fixups[rx_bytes.n_fixups].type = type;
rx_bytes.fixups[rx_bytes.n_fixups].reloc = exp.X_md;
rx_bytes.n_fixups ++;
}
#define rx_field_fixup(exp, offset, nbits, type) \
rx_fixup (exp, offset, nbits, type)
#define rx_op_fixup(exp, offset, nbits, type) \
rx_fixup (exp, offset + 8 * rx_bytes.n_base, nbits, type)
void
rx_base1 (int b1)
{
rx_bytes.base[0] = b1;
rx_bytes.n_base = 1;
}
void
rx_base2 (int b1, int b2)
{
rx_bytes.base[0] = b1;
rx_bytes.base[1] = b2;
rx_bytes.n_base = 2;
}
void
rx_base3 (int b1, int b2, int b3)
{
rx_bytes.base[0] = b1;
rx_bytes.base[1] = b2;
rx_bytes.base[2] = b3;
rx_bytes.n_base = 3;
}
void
rx_base4 (int b1, int b2, int b3, int b4)
{
rx_bytes.base[0] = b1;
rx_bytes.base[1] = b2;
rx_bytes.base[2] = b3;
rx_bytes.base[3] = b4;
rx_bytes.n_base = 4;
}
/* This gets complicated when the field spans bytes, because fields
are numbered from the MSB of the first byte as zero, and bits are
stored LSB towards the LSB of the byte. Thus, a simple four-bit
insertion of 12 at position 4 of 0x00 yields: 0x0b. A three-bit
insertion of b'MXL at position 7 is like this:
- - - - - - - - - - - - - - - -
M X L */
void
rx_field (int val, int pos, int sz)
{
int valm;
int bytep, bitp;
if (sz > 0)
{
if (val < 0 || val >= (1 << sz))
as_bad (_("Value %d doesn't fit in unsigned %d-bit field"), val, sz);
}
else
{
sz = - sz;
if (val < -(1 << (sz - 1)) || val >= (1 << (sz - 1)))
as_bad (_("Value %d doesn't fit in signed %d-bit field"), val, sz);
}
/* This code points at 'M' in the above example. */
bytep = pos / 8;
bitp = pos % 8;
while (bitp + sz > 8)
{
int ssz = 8 - bitp;
int svalm;
svalm = val >> (sz - ssz);
svalm = svalm & ((1 << ssz) - 1);
svalm = svalm << (8 - bitp - ssz);
gas_assert (bytep < rx_bytes.n_base);
rx_bytes.base[bytep] |= svalm;
bitp = 0;
sz -= ssz;
bytep ++;
}
valm = val & ((1 << sz) - 1);
valm = valm << (8 - bitp - sz);
gas_assert (bytep < rx_bytes.n_base);
rx_bytes.base[bytep] |= valm;
}
/* Special case of the above, for 3-bit displacements of 2..9. */
void
rx_disp3 (expressionS exp, int pos)
{
rx_field_fixup (exp, pos, 3, RXREL_PCREL);
}
/* Special case of the above, for split 5-bit displacements. Assumes
the displacement has been checked with rx_disp5op. */
/* ---- -432 1--- 0--- */
void
rx_field5s (expressionS exp)
{
int val;
val = exp.X_add_number;
rx_bytes.base[0] |= val >> 2;
rx_bytes.base[1] |= (val << 6) & 0x80;
rx_bytes.base[1] |= (val << 3) & 0x08;
}
/* ---- ---- 4--- 3210 */
void
rx_field5s2 (expressionS exp)
{
int val;
val = exp.X_add_number;
rx_bytes.base[1] |= (val << 3) & 0x80;
rx_bytes.base[1] |= (val ) & 0x0f;
}
#define OP(x) rx_bytes.ops[rx_bytes.n_ops++] = (x)
#define F_PRECISION 2
void
rx_op (expressionS exp, int nbytes, int type)
{
int v = 0;
if ((exp.X_op == O_constant || exp.X_op == O_big)
&& type != RXREL_PCREL)
{
if (exp.X_op == O_big && exp.X_add_number <= 0)
{
LITTLENUM_TYPE w[2];
char * ip = rx_bytes.ops + rx_bytes.n_ops;
gen_to_words (w, F_PRECISION, 8);
#if RX_OPCODE_BIG_ENDIAN
ip[0] = w[0] >> 8;
ip[1] = w[0];
ip[2] = w[1] >> 8;
ip[3] = w[1];
#else
ip[3] = w[0] >> 8;
ip[2] = w[0];
ip[1] = w[1] >> 8;
ip[0] = w[1];
#endif
rx_bytes.n_ops += 4;
}
else
{
v = exp.X_add_number;
while (nbytes)
{
#if RX_OPCODE_BIG_ENDIAN
OP ((v >> (8 * (nbytes - 1))) & 0xff);
#else
OP (v & 0xff);
v >>= 8;
#endif
nbytes --;
}
}
}
else
{
rx_op_fixup (exp, rx_bytes.n_ops * 8, nbytes * 8, type);
memset (rx_bytes.ops + rx_bytes.n_ops, 0, nbytes);
rx_bytes.n_ops += nbytes;
}
}
int
rx_wrap (void)
{
return 0;
}
#define APPEND(B, N_B) \
if (rx_bytes.N_B) \
{ \
memcpy (bytes + idx, rx_bytes.B, rx_bytes.N_B); \
idx += rx_bytes.N_B; \
}
void
rx_frag_init (fragS * fragP)
{
if (rx_bytes.n_relax || rx_bytes.link_relax || rx_bytes.n_base < 0)
{
fragP->tc_frag_data = malloc (sizeof (rx_bytesT));
memcpy (fragP->tc_frag_data, & rx_bytes, sizeof (rx_bytesT));
}
else
fragP->tc_frag_data = 0;
}
/* Handle the as100's version of the .equ pseudo-op. It has the syntax:
<symbol_name> .equ <expression> */
static void
rx_equ (char * name, char * expression)
{
char saved_name_end_char;
char * name_end;
char * saved_ilp;
while (ISSPACE (* name))
name ++;
for (name_end = name + 1; *name_end; name_end ++)
if (! ISALNUM (* name_end))
break;
saved_name_end_char = * name_end;
* name_end = 0;
saved_ilp = input_line_pointer;
input_line_pointer = expression;
equals (name, 1);
input_line_pointer = saved_ilp;
* name_end = saved_name_end_char;
}
/* Look for Renesas as100 pseudo-ops that occur after a symbol name
rather than at the start of a line. (eg .EQU or .DEFINE). If one
is found, process it and return TRUE otherwise return FALSE. */
static bfd_boolean
scan_for_infix_rx_pseudo_ops (char * str)
{
char * p;
char * pseudo_op;
char * dot = strchr (str, '.');
if (dot == NULL || dot == str)
return FALSE;
/* A real pseudo-op must be preceeded by whitespace. */
if (dot[-1] != ' ' && dot[-1] != '\t')
return FALSE;
pseudo_op = dot + 1;
if (!ISALNUM (* pseudo_op))
return FALSE;
for (p = pseudo_op + 1; ISALNUM (* p); p++)
;
if (strncasecmp ("EQU", pseudo_op, p - pseudo_op) == 0)
rx_equ (str, p);
else if (strncasecmp ("DEFINE", pseudo_op, p - pseudo_op) == 0)
as_warn (_("The .DEFINE pseudo-op is not implemented"));
else if (strncasecmp ("MACRO", pseudo_op, p - pseudo_op) == 0)
as_warn (_("The .MACRO pseudo-op is not implemented"));
else if (strncasecmp ("BTEQU", pseudo_op, p - pseudo_op) == 0)
as_warn (_("The .BTEQU pseudo-op is not implemented."));
else
return FALSE;
return TRUE;
}
void
md_assemble (char * str)
{
char * bytes;
int idx = 0;
int i, rel;
fragS * frag_then = frag_now;
expressionS *exp;
memset (& rx_bytes, 0, sizeof (rx_bytes));
rx_lex_init (str, str + strlen (str));
if (scan_for_infix_rx_pseudo_ops (str))
return;
rx_parse ();
/* This simplifies the relaxation code. */
if (rx_bytes.n_relax || rx_bytes.link_relax)
{
/* We do it this way because we want the frag to have the
rx_bytes in it, which we initialize above. */
bytes = frag_more (12);
frag_then = frag_now;
frag_variant (rs_machine_dependent,
0 /* max_chars */,
0 /* var */,
0 /* subtype */,
0 /* symbol */,
0 /* offset */,
0 /* opcode */);
frag_then->fr_opcode = bytes;
frag_then->fr_fix += rx_bytes.n_base + rx_bytes.n_ops;
frag_then->fr_subtype = rx_bytes.n_base + rx_bytes.n_ops;
}
else
{
bytes = frag_more (rx_bytes.n_base + rx_bytes.n_ops);
frag_then = frag_now;
if (fetchalign_bytes)
fetchalign_bytes->n_ops = rx_bytes.n_base + rx_bytes.n_ops;
}
fetchalign_bytes = NULL;
APPEND (base, n_base);
APPEND (ops, n_ops);
if (rx_bytes.link_relax && rx_bytes.n_fixups)
{
fixS * f;
f = fix_new (frag_then,
(char *) bytes - frag_then->fr_literal,
0,
abs_section_sym,
rx_bytes.link_relax | rx_bytes.n_fixups,
0,
BFD_RELOC_RX_RELAX);
frag_then->tc_frag_data->link_relax_fixP = f;
}
for (i = 0; i < rx_bytes.n_fixups; i ++)
{
/* index: [nbytes][type] */
static int reloc_map[5][4] =
{
{ 0, 0, 0, BFD_RELOC_RX_DIR3U_PCREL },
{ BFD_RELOC_8, BFD_RELOC_RX_8U, BFD_RELOC_RX_NEG8, BFD_RELOC_8_PCREL },
{ BFD_RELOC_RX_16_OP, BFD_RELOC_RX_16U, BFD_RELOC_RX_NEG16, BFD_RELOC_16_PCREL },
{ BFD_RELOC_RX_24_OP, BFD_RELOC_RX_24U, BFD_RELOC_RX_NEG24, BFD_RELOC_24_PCREL },
{ BFD_RELOC_RX_32_OP, BFD_RELOC_32, BFD_RELOC_RX_NEG32, BFD_RELOC_32_PCREL },
};
fixS * f;
idx = rx_bytes.fixups[i].offset / 8;
rel = reloc_map [rx_bytes.fixups[i].nbits / 8][(int) rx_bytes.fixups[i].type];
if (rx_bytes.fixups[i].reloc)
rel = rx_bytes.fixups[i].reloc;
if (frag_then->tc_frag_data)
exp = & frag_then->tc_frag_data->fixups[i].exp;
else
exp = & rx_bytes.fixups[i].exp;
f = fix_new_exp (frag_then,
(char *) bytes + idx - frag_then->fr_literal,
rx_bytes.fixups[i].nbits / 8,
exp,
rx_bytes.fixups[i].type == RXREL_PCREL ? 1 : 0,
rel);
if (frag_then->tc_frag_data)
frag_then->tc_frag_data->fixups[i].fixP = f;
}
dwarf2_emit_insn (idx);
}
void
rx_md_end (void)
{
}
/* Write a value out to the object file, using the appropriate endianness. */
void
md_number_to_chars (char * buf, valueT val, int n)
{
if (target_big_endian)
number_to_chars_bigendian (buf, val, n);
else
number_to_chars_littleendian (buf, val, n);
}
static struct
{
char * fname;
int reloc;
}
reloc_functions[] =
{
{ "gp", BFD_RELOC_GPREL16 },
{ 0, 0 }
};
void
md_operand (expressionS * exp ATTRIBUTE_UNUSED)
{
int reloc = 0;
int i;
for (i = 0; reloc_functions[i].fname; i++)
{
int flen = strlen (reloc_functions[i].fname);
if (input_line_pointer[0] == '%'
&& strncasecmp (input_line_pointer + 1, reloc_functions[i].fname, flen) == 0
&& input_line_pointer[flen + 1] == '(')
{
reloc = reloc_functions[i].reloc;
input_line_pointer += flen + 2;
break;
}
}
if (reloc == 0)
return;
expression (exp);
if (* input_line_pointer == ')')
input_line_pointer ++;
exp->X_md = reloc;
}
valueT
md_section_align (segT segment, valueT size)
{
int align = bfd_get_section_alignment (stdoutput, segment);
return ((size + (1 << align) - 1) & (-1 << align));
}
/* NOP - 1 cycle */
static unsigned char nop_1[] = { 0x03};
/* MOV.L R0,R0 - 1 cycle */
static unsigned char nop_2[] = { 0xef, 0x00};
/* MAX R0,R0 - 1 cycle */
static unsigned char nop_3[] = { 0xfc, 0x13, 0x00 };
/* MUL #1,R0 - 1 cycle */
static unsigned char nop_4[] = { 0x76, 0x10, 0x01, 0x00 };
/* MUL #1,R0 - 1 cycle */
static unsigned char nop_5[] = { 0x77, 0x10, 0x01, 0x00, 0x00 };
/* MUL #1,R0 - 1 cycle */
static unsigned char nop_6[] = { 0x74, 0x10, 0x01, 0x00, 0x00, 0x00 };
/* BRA.S .+7 - 1 cycle */
static unsigned char nop_7[] = { 0x0F, 0x03, 0x03, 0x03, 0x03, 0x03, 0x03 };
static unsigned char *nops[] = { NULL, nop_1, nop_2, nop_3, nop_4, nop_5, nop_6, nop_7 };
#define BIGGEST_NOP 7
/* When relaxing, we need to output a reloc for any .align directive
so that we can retain this alignment as we adjust opcode sizes. */
void
rx_handle_align (fragS * frag)
{
/* If handling an alignment frag, use an optimal NOP pattern.
Only do this if a fill value has not already been provided.
FIXME: This test fails if the provided fill value is zero. */
if ((frag->fr_type == rs_align
|| frag->fr_type == rs_align_code)
&& subseg_text_p (now_seg))
{
int count = (frag->fr_next->fr_address
- frag->fr_address
- frag->fr_fix);
unsigned char *base = (unsigned char *)frag->fr_literal + frag->fr_fix;
if (* base == 0)
{
if (count > BIGGEST_NOP)
{
base[0] = 0x2e;
base[1] = count;
frag->fr_var = 2;
}
else if (count > 0)
{
memcpy (base, nops[count], count);
frag->fr_var = count;
}
}
}
if (linkrelax
&& (frag->fr_type == rs_align
|| frag->fr_type == rs_align_code)
&& frag->fr_address + frag->fr_fix > 0
&& frag->fr_offset > 0
&& now_seg != bss_section)
{
fix_new (frag, frag->fr_fix, 0,
&abs_symbol, RX_RELAXA_ALIGN + frag->fr_offset,
0, BFD_RELOC_RX_RELAX);
/* For the purposes of relaxation, this relocation is attached
to the byte *after* the alignment - i.e. the byte that must
remain aligned. */
fix_new (frag->fr_next, 0, 0,
&abs_symbol, RX_RELAXA_ELIGN + frag->fr_offset,
0, BFD_RELOC_RX_RELAX);
}
}
char *
md_atof (int type, char * litP, int * sizeP)
{
return ieee_md_atof (type, litP, sizeP, target_big_endian);
}
symbolS *
md_undefined_symbol (char * name ATTRIBUTE_UNUSED)
{
return NULL;
}
/*----------------------------------------------------------------------*/
/* To recap: we estimate everything based on md_estimate_size, then
adjust based on rx_relax_frag. When it all settles, we call
md_convert frag to update the bytes. The relaxation types and
relocations are in fragP->tc_frag_data, which is a copy of that
rx_bytes.
Our scheme is as follows: fr_fix has the size of the smallest
opcode (like BRA.S). We store the number of total bytes we need in
fr_subtype. When we're done relaxing, we use fr_subtype and the
existing opcode bytes to figure out what actual opcode we need to
put in there. If the fixup isn't resolvable now, we use the
maximal size. */
#define TRACE_RELAX 0
#define tprintf if (TRACE_RELAX) printf
typedef enum
{
OT_other,
OT_bra,
OT_beq,
OT_bne,
OT_bsr,
OT_bcc
} op_type_T;
/* We're looking for these types of relaxations:
BRA.S 00001dsp
BRA.B 00101110 dspppppp
BRA.W 00111000 dspppppp pppppppp
BRA.A 00000100 dspppppp pppppppp pppppppp
BEQ.S 00010dsp
BEQ.B 00100000 dspppppp
BEQ.W 00111010 dspppppp pppppppp
BNE.S 00011dsp
BNE.B 00100001 dspppppp
BNE.W 00111011 dspppppp pppppppp
BSR.W 00111001 dspppppp pppppppp
BSR.A 00000101 dspppppp pppppppp pppppppp
Bcc.B 0010cond dspppppp
Additionally, we can synthesize longer conditional branches using
pairs of opcodes, one with an inverted conditional (flip LSB):
Bcc.W 0010ncnd 00000110 00111000 dspppppp pppppppp
Bcc.A 0010ncnd 00000111 00000100 dspppppp pppppppp pppppppp
BEQ.A 00011100 00000100 dspppppp pppppppp pppppppp
BNE.A 00010100 00000100 dspppppp pppppppp pppppppp */
/* Given the opcode bytes at OP, figure out which opcode it is and
return the type of opcode. We use this to re-encode the opcode as
a different size later. */
static op_type_T
rx_opcode_type (char * op)
{
unsigned char b = (unsigned char) op[0];
switch (b & 0xf8)
{
case 0x08: return OT_bra;
case 0x10: return OT_beq;
case 0x18: return OT_bne;
}
switch (b)
{
case 0x2e: return OT_bra;
case 0x38: return OT_bra;
case 0x04: return OT_bra;
case 0x20: return OT_beq;
case 0x3a: return OT_beq;
case 0x21: return OT_bne;
case 0x3b: return OT_bne;
case 0x39: return OT_bsr;
case 0x05: return OT_bsr;
}
if ((b & 0xf0) == 0x20)
return OT_bcc;
return OT_other;
}
/* Returns zero if *addrP has the target address. Else returns nonzero
if we cannot compute the target address yet. */
static int
rx_frag_fix_value (fragS * fragP,
segT segment,
int which,
addressT * addrP,
int need_diff,
addressT * sym_addr)
{
addressT addr = 0;
rx_bytesT * b = fragP->tc_frag_data;
expressionS * exp = & b->fixups[which].exp;
if (need_diff && exp->X_op != O_subtract)
return 1;
if (exp->X_add_symbol)
{
if (S_FORCE_RELOC (exp->X_add_symbol, 1))
return 1;
if (S_GET_SEGMENT (exp->X_add_symbol) != segment)
return 1;
addr += S_GET_VALUE (exp->X_add_symbol);
}
if (exp->X_op_symbol)
{
if (exp->X_op != O_subtract)
return 1;
if (S_FORCE_RELOC (exp->X_op_symbol, 1))
return 1;
if (S_GET_SEGMENT (exp->X_op_symbol) != segment)
return 1;
addr -= S_GET_VALUE (exp->X_op_symbol);
}
if (sym_addr)
* sym_addr = addr;
addr += exp->X_add_number;
* addrP = addr;
return 0;
}
/* Estimate how big the opcode is after this relax pass. The return
value is the difference between fr_fix and the actual size. We
compute the total size in rx_relax_frag and store it in fr_subtype,
sowe only need to subtract fx_fix and return it. */
int
md_estimate_size_before_relax (fragS * fragP ATTRIBUTE_UNUSED, segT segment ATTRIBUTE_UNUSED)
{
int opfixsize;
int delta;
tprintf ("\033[32m est frag: addr %08lx fix %ld var %ld ofs %ld lit %p opc %p type %d sub %d\033[0m\n",
(unsigned long) (fragP->fr_address
+ (fragP->fr_opcode - fragP->fr_literal)),
(long) fragP->fr_fix, (long) fragP->fr_var, (long) fragP->fr_offset,
fragP->fr_literal, fragP->fr_opcode, fragP->fr_type, fragP->fr_subtype);
/* This is the size of the opcode that's accounted for in fr_fix. */
opfixsize = fragP->fr_fix - (fragP->fr_opcode - fragP->fr_literal);
/* This is the size of the opcode that isn't. */
delta = (fragP->fr_subtype - opfixsize);
tprintf (" -> opfixsize %d delta %d\n", opfixsize, delta);
return delta;
}
/* Given a frag FRAGP, return the "next" frag that contains an
opcode. Assumes the next opcode is relaxable, and thus rs_machine_dependent. */
static fragS *
rx_next_opcode (fragS *fragP)
{
do {
fragP = fragP->fr_next;
} while (fragP && fragP->fr_type != rs_machine_dependent);
return fragP;
}
/* Given the new addresses for this relax pass, figure out how big
each opcode must be. We store the total number of bytes needed in
fr_subtype. The return value is the difference between the size
after the last pass and the size after this pass, so we use the old
fr_subtype to calculate the difference. */
int
rx_relax_frag (segT segment ATTRIBUTE_UNUSED, fragS * fragP, long stretch)
{
addressT addr0, sym_addr;
addressT mypc;
int disp;
int oldsize = fragP->fr_subtype;
int newsize = oldsize;
op_type_T optype;
/* Index of relaxation we care about. */
int ri;
tprintf ("\033[36mrelax frag: addr %08lx fix %ld var %ld ofs %ld lit %p opc %p type %d sub %d str %ld\033[0m\n",
(unsigned long) (fragP->fr_address
+ (fragP->fr_opcode - fragP->fr_literal)),
(long) fragP->fr_fix, (long) fragP->fr_var, (long) fragP->fr_offset,
fragP->fr_literal, fragP->fr_opcode, fragP->fr_type, fragP->fr_subtype, stretch);
mypc = fragP->fr_address + (fragP->fr_opcode - fragP->fr_literal);
if (fragP->tc_frag_data->n_base == RX_NBASE_FETCHALIGN)
{
unsigned int next_size;
if (fragP->fr_next == NULL)
return 0;
next_size = fragP->tc_frag_data->n_ops;
if (next_size == 0)
{
fragS *n = rx_next_opcode (fragP);
next_size = n->fr_subtype;
}
fragP->fr_subtype = (8-(mypc & 7)) & 7;
tprintf("subtype %u\n", fragP->fr_subtype);
if (fragP->fr_subtype >= next_size)
fragP->fr_subtype = 0;
tprintf ("\033[34m -> mypc %lu next_size %u new %d old %d delta %d (fetchalign)\033[0m\n",
mypc & 7,
next_size, fragP->fr_subtype, oldsize, fragP->fr_subtype-oldsize);
newsize = fragP->fr_subtype;
return newsize - oldsize;
}
optype = rx_opcode_type (fragP->fr_opcode);
/* In the one case where we have both a disp and imm relaxation, we want
the imm relaxation here. */
ri = 0;
if (fragP->tc_frag_data->n_relax > 1
&& fragP->tc_frag_data->relax[0].type == RX_RELAX_DISP)
ri = 1;
/* Try to get the target address. */
if (rx_frag_fix_value (fragP, segment, ri, & addr0,
fragP->tc_frag_data->relax[ri].type != RX_RELAX_BRANCH,
& sym_addr))
{
/* If we don't, we must use the maximum size for the linker.
Note that we don't use synthetically expanded conditionals
for this. */
switch (fragP->tc_frag_data->relax[ri].type)
{
case RX_RELAX_BRANCH:
switch (optype)
{
case OT_bra:
case OT_bsr:
newsize = 4;
break;
case OT_beq:
case OT_bne:
newsize = 3;
break;
case OT_bcc:
newsize = 2;
break;
case OT_other:
newsize = oldsize;
break;
}
break;
case RX_RELAX_IMM:
newsize = fragP->tc_frag_data->relax[ri].val_ofs + 4;
break;
}
fragP->fr_subtype = newsize;
tprintf (" -> new %d old %d delta %d (external)\n", newsize, oldsize, newsize-oldsize);
return newsize - oldsize;
}
if (sym_addr > mypc)
addr0 += stretch;
switch (fragP->tc_frag_data->relax[ri].type)
{
case RX_RELAX_BRANCH:
tprintf ("branch, addr %08lx pc %08lx disp %ld\n",
(unsigned long) addr0, (unsigned long) mypc,
(long) (addr0 - mypc));
disp = (int) addr0 - (int) mypc;
switch (optype)
{
case OT_bcc:
if (disp >= -128 && (disp - (oldsize-2)) <= 127)
/* bcc.b */
newsize = 2;
else if (disp >= -32768 && (disp - (oldsize-5)) <= 32767)
/* bncc.b/bra.w */
newsize = 5;
else
/* bncc.b/bra.a */
newsize = 6;
break;
case OT_beq:
case OT_bne:
if ((disp - (oldsize-1)) >= 3 && (disp - (oldsize-1)) <= 10 && !linkrelax)
/* beq.s */
newsize = 1;
else if (disp >= -128 && (disp - (oldsize-2)) <= 127)
/* beq.b */
newsize = 2;
else if (disp >= -32768 && (disp - (oldsize-3)) <= 32767)
/* beq.w */
newsize = 3;
else
/* bne.s/bra.a */
newsize = 5;
break;
case OT_bra:
case OT_bsr:
if ((disp - (oldsize-1)) >= 3 && (disp - (oldsize-1)) <= 10 && !linkrelax)
/* bra.s */
newsize = 1;
else if (disp >= -128 && (disp - (oldsize-2)) <= 127)
/* bra.b */
newsize = 2;
else if (disp >= -32768 && (disp - (oldsize-3)) <= 32767)
/* bra.w */
newsize = 3;
else
/* bra.a */
newsize = 4;
break;
case OT_other:
break;
}
tprintf (" - newsize %d\n", newsize);
break;
case RX_RELAX_IMM:
tprintf ("other, addr %08lx pc %08lx LI %d OF %d\n",
(unsigned long) addr0, (unsigned long) mypc,
fragP->tc_frag_data->relax[ri].field_pos,
fragP->tc_frag_data->relax[ri].val_ofs);
newsize = fragP->tc_frag_data->relax[ri].val_ofs;
if ((long) addr0 >= -128 && (long) addr0 <= 127)
newsize += 1;
else if ((long) addr0 >= -32768 && (long) addr0 <= 32767)
newsize += 2;
else if ((long) addr0 >= -8388608 && (long) addr0 <= 8388607)
newsize += 3;
else
newsize += 4;
break;
default:
break;
}
if (fragP->tc_frag_data->relax[ri].type == RX_RELAX_BRANCH)
switch (optype)
{
case OT_bra:
case OT_bcc:
case OT_beq:
case OT_bne:
break;
case OT_bsr:
if (newsize < 3)
newsize = 3;
break;
case OT_other:
break;
}
/* This prevents infinite loops in align-heavy sources. */
if (newsize < oldsize)
{
if (fragP->tc_frag_data->times_shrank > 10
&& fragP->tc_frag_data->times_grown > 10)
newsize = oldsize;
if (fragP->tc_frag_data->times_shrank < 20)
fragP->tc_frag_data->times_shrank ++;
}
else if (newsize > oldsize)
{
if (fragP->tc_frag_data->times_grown < 20)
fragP->tc_frag_data->times_grown ++;
}
fragP->fr_subtype = newsize;
tprintf (" -> new %d old %d delta %d\n", newsize, oldsize, newsize-oldsize);
return newsize - oldsize;
}
/* This lets us test for the opcode type and the desired size in a
switch statement. */
#define OPCODE(type,size) ((type) * 16 + (size))
/* Given the opcode stored in fr_opcode and the number of bytes we
think we need, encode a new opcode. We stored a pointer to the
fixup for this opcode in the tc_frag_data structure. If we can do
the fixup here, we change the relocation type to "none" (we test
for that in tc_gen_reloc) else we change it to the right type for
the new (biggest) opcode. */
void
md_convert_frag (bfd * abfd ATTRIBUTE_UNUSED,
segT segment ATTRIBUTE_UNUSED,
fragS * fragP ATTRIBUTE_UNUSED)
{
rx_bytesT * rxb = fragP->tc_frag_data;
addressT addr0, mypc;
int disp;
int reloc_type, reloc_adjust;
char * op = fragP->fr_opcode;
int keep_reloc = 0;
int ri;
int fi = (rxb->n_fixups > 1) ? 1 : 0;
fixS * fix = rxb->fixups[fi].fixP;
tprintf ("\033[31mconvrt frag: addr %08lx fix %ld var %ld ofs %ld lit %p opc %p type %d sub %d\033[0m\n",
(unsigned long) (fragP->fr_address
+ (fragP->fr_opcode - fragP->fr_literal)),
(long) fragP->fr_fix, (long) fragP->fr_var, (long) fragP->fr_offset,
fragP->fr_literal, fragP->fr_opcode, fragP->fr_type,
fragP->fr_subtype);
#if TRACE_RELAX
{
int i;
printf ("lit 0x%p opc 0x%p", fragP->fr_literal, fragP->fr_opcode);
for (i = 0; i < 10; i++)
printf (" %02x", (unsigned char) (fragP->fr_opcode[i]));
printf ("\n");
}
#endif
if (fragP->tc_frag_data->n_base == RX_NBASE_FETCHALIGN)
{
int count = fragP->fr_subtype;
if (count == 0)
;
else if (count > BIGGEST_NOP)
{
op[0] = 0x2e;
op[1] = count;
}
else if (count > 0)
{
memcpy (op, nops[count], count);
}
}
/* In the one case where we have both a disp and imm relaxation, we want
the imm relaxation here. */
ri = 0;
if (fragP->tc_frag_data->n_relax > 1
&& fragP->tc_frag_data->relax[0].type == RX_RELAX_DISP)
ri = 1;
/* We used a new frag for this opcode, so the opcode address should
be the frag address. */
mypc = fragP->fr_address + (fragP->fr_opcode - fragP->fr_literal);
/* Try to get the target address. If we fail here, we just use the
largest format. */
if (rx_frag_fix_value (fragP, segment, 0, & addr0,
fragP->tc_frag_data->relax[ri].type != RX_RELAX_BRANCH, 0))
{
/* We don't know the target address. */
keep_reloc = 1;
addr0 = 0;
disp = 0;
}
else
{
/* We know the target address, and it's in addr0. */
disp = (int) addr0 - (int) mypc;
}
if (linkrelax)
keep_reloc = 1;
reloc_type = BFD_RELOC_NONE;
reloc_adjust = 0;
tprintf ("convert, op is %d, disp %d (%lx-%lx)\n",
rx_opcode_type (fragP->fr_opcode), disp,
(unsigned long) addr0, (unsigned long) mypc);
switch (fragP->tc_frag_data->relax[ri].type)
{
case RX_RELAX_BRANCH:
switch (OPCODE (rx_opcode_type (fragP->fr_opcode), fragP->fr_subtype))
{
case OPCODE (OT_bra, 1): /* BRA.S - no change. */
op[0] = 0x08 + (disp & 7);
break;
case OPCODE (OT_bra, 2): /* BRA.B - 8 bit. */
op[0] = 0x2e;
op[1] = disp;
reloc_type = keep_reloc ? BFD_RELOC_8_PCREL : BFD_RELOC_NONE;
reloc_adjust = 1;
break;
case OPCODE (OT_bra, 3): /* BRA.W - 16 bit. */
op[0] = 0x38;
#if RX_OPCODE_BIG_ENDIAN
op[1] = (disp >> 8) & 0xff;
op[2] = disp;
#else
op[2] = (disp >> 8) & 0xff;
op[1] = disp;
#endif
reloc_adjust = 1;
reloc_type = keep_reloc ? BFD_RELOC_16_PCREL : BFD_RELOC_NONE;
break;
case OPCODE (OT_bra, 4): /* BRA.A - 24 bit. */
op[0] = 0x04;
#if RX_OPCODE_BIG_ENDIAN
op[1] = (disp >> 16) & 0xff;
op[2] = (disp >> 8) & 0xff;
op[3] = disp;
#else
op[3] = (disp >> 16) & 0xff;
op[2] = (disp >> 8) & 0xff;
op[1] = disp;
#endif
reloc_type = keep_reloc ? BFD_RELOC_24_PCREL : BFD_RELOC_NONE;
reloc_adjust = 1;
break;
case OPCODE (OT_beq, 1): /* BEQ.S - no change. */
op[0] = 0x10 + (disp & 7);
break;
case OPCODE (OT_beq, 2): /* BEQ.B - 8 bit. */
op[0] = 0x20;
op[1] = disp;
reloc_adjust = 1;
reloc_type = keep_reloc ? BFD_RELOC_8_PCREL : BFD_RELOC_NONE;
break;
case OPCODE (OT_beq, 3): /* BEQ.W - 16 bit. */
op[0] = 0x3a;
#if RX_OPCODE_BIG_ENDIAN
op[1] = (disp >> 8) & 0xff;
op[2] = disp;
#else
op[2] = (disp >> 8) & 0xff;
op[1] = disp;
#endif
reloc_type = keep_reloc ? BFD_RELOC_16_PCREL : BFD_RELOC_NONE;
reloc_adjust = 1;
break;
case OPCODE (OT_beq, 5): /* BEQ.A - synthetic. */
op[0] = 0x1d; /* bne.s .+5. */
op[1] = 0x04; /* bra.a dsp:24. */
disp -= 1;
#if RX_OPCODE_BIG_ENDIAN
op[2] = (disp >> 16) & 0xff;
op[3] = (disp >> 8) & 0xff;
op[4] = disp;
#else
op[4] = (disp >> 16) & 0xff;
op[3] = (disp >> 8) & 0xff;
op[2] = disp;
#endif
reloc_type = keep_reloc ? BFD_RELOC_24_PCREL : BFD_RELOC_NONE;
reloc_adjust = 2;
break;
case OPCODE (OT_bne, 1): /* BNE.S - no change. */
op[0] = 0x18 + (disp & 7);
break;
case OPCODE (OT_bne, 2): /* BNE.B - 8 bit. */
op[0] = 0x21;
op[1] = disp;
reloc_adjust = 1;
reloc_type = keep_reloc ? BFD_RELOC_8_PCREL : BFD_RELOC_NONE;
break;
case OPCODE (OT_bne, 3): /* BNE.W - 16 bit. */
op[0] = 0x3b;
#if RX_OPCODE_BIG_ENDIAN
op[1] = (disp >> 8) & 0xff;
op[2] = disp;
#else
op[2] = (disp >> 8) & 0xff;
op[1] = disp;
#endif
reloc_type = keep_reloc ? BFD_RELOC_16_PCREL : BFD_RELOC_NONE;
reloc_adjust = 1;
break;
case OPCODE (OT_bne, 5): /* BNE.A - synthetic. */
op[0] = 0x15; /* beq.s .+5. */
op[1] = 0x04; /* bra.a dsp:24. */
disp -= 1;
#if RX_OPCODE_BIG_ENDIAN
op[2] = (disp >> 16) & 0xff;
op[3] = (disp >> 8) & 0xff;
op[4] = disp;
#else
op[4] = (disp >> 16) & 0xff;
op[3] = (disp >> 8) & 0xff;
op[2] = disp;
#endif
reloc_type = keep_reloc ? BFD_RELOC_24_PCREL : BFD_RELOC_NONE;
reloc_adjust = 2;
break;
case OPCODE (OT_bsr, 3): /* BSR.W - 16 bit. */
op[0] = 0x39;
#if RX_OPCODE_BIG_ENDIAN
op[1] = (disp >> 8) & 0xff;
op[2] = disp;
#else
op[2] = (disp >> 8) & 0xff;
op[1] = disp;
#endif
reloc_type = keep_reloc ? BFD_RELOC_16_PCREL : BFD_RELOC_NONE;
reloc_adjust = 0;
break;
case OPCODE (OT_bsr, 4): /* BSR.A - 24 bit. */
op[0] = 0x05;
#if RX_OPCODE_BIG_ENDIAN
op[1] = (disp >> 16) & 0xff;
op[2] = (disp >> 8) & 0xff;
op[3] = disp;
#else
op[3] = (disp >> 16) & 0xff;
op[2] = (disp >> 8) & 0xff;
op[1] = disp;
#endif
reloc_type = keep_reloc ? BFD_RELOC_24_PCREL : BFD_RELOC_NONE;
reloc_adjust = 0;
break;
case OPCODE (OT_bcc, 2): /* Bcond.B - 8 bit. */
op[1] = disp;
reloc_type = keep_reloc ? BFD_RELOC_8_PCREL : BFD_RELOC_NONE;
break;
case OPCODE (OT_bcc, 5): /* Bcond.W - synthetic. */
op[0] ^= 1; /* Invert condition. */
op[1] = 5; /* Displacement. */
op[2] = 0x38;
disp -= 2;
#if RX_OPCODE_BIG_ENDIAN
op[3] = (disp >> 8) & 0xff;
op[4] = disp;
#else
op[4] = (disp >> 8) & 0xff;
op[3] = disp;
#endif
reloc_type = keep_reloc ? BFD_RELOC_16_PCREL : BFD_RELOC_NONE;
reloc_adjust = 2;
break;
case OPCODE (OT_bcc, 6): /* Bcond.S - synthetic. */
op[0] ^= 1; /* Invert condition. */
op[1] = 6; /* Displacement. */
op[2] = 0x04;
disp -= 2;
#if RX_OPCODE_BIG_ENDIAN
op[3] = (disp >> 16) & 0xff;
op[4] = (disp >> 8) & 0xff;
op[5] = disp;
#else
op[5] = (disp >> 16) & 0xff;
op[4] = (disp >> 8) & 0xff;
op[3] = disp;
#endif
reloc_type = keep_reloc ? BFD_RELOC_24_PCREL : BFD_RELOC_NONE;
reloc_adjust = 2;
break;
default:
/* These are opcodes we'll relax in th linker, later. */
if (rxb->n_fixups)
reloc_type = rxb->fixups[ri].fixP->fx_r_type;
break;
}
break;
case RX_RELAX_IMM:
{
int nbytes = fragP->fr_subtype - fragP->tc_frag_data->relax[ri].val_ofs;
int li;
char * imm = op + fragP->tc_frag_data->relax[ri].val_ofs;
switch (nbytes)
{
case 1:
li = 1;
imm[0] = addr0;
reloc_type = BFD_RELOC_8;
break;
case 2:
li = 2;
#if RX_OPCODE_BIG_ENDIAN
imm[1] = addr0;
imm[0] = addr0 >> 8;
#else
imm[0] = addr0;
imm[1] = addr0 >> 8;
#endif
reloc_type = BFD_RELOC_RX_16_OP;
break;
case 3:
li = 3;
#if RX_OPCODE_BIG_ENDIAN
imm[2] = addr0;
imm[1] = addr0 >> 8;
imm[0] = addr0 >> 16;
#else
imm[0] = addr0;
imm[1] = addr0 >> 8;
imm[2] = addr0 >> 16;
#endif
reloc_type = BFD_RELOC_RX_24_OP;
break;
case 4:
li = 0;
#if RX_OPCODE_BIG_ENDIAN
imm[3] = addr0;
imm[2] = addr0 >> 8;
imm[1] = addr0 >> 16;
imm[0] = addr0 >> 24;
#else
imm[0] = addr0;
imm[1] = addr0 >> 8;
imm[2] = addr0 >> 16;
imm[3] = addr0 >> 24;
#endif
reloc_type = BFD_RELOC_RX_32_OP;
break;
default:
as_bad (_("invalid immediate size"));
li = -1;
}
switch (fragP->tc_frag_data->relax[ri].field_pos)
{
case 6:
op[0] &= 0xfc;
op[0] |= li;
break;
case 12:
op[1] &= 0xf3;
op[1] |= li << 2;
break;
case 20:
op[2] &= 0xf3;
op[2] |= li << 2;
break;
default:
as_bad (_("invalid immediate field position"));
}
}
break;
default:
if (rxb->n_fixups)
{
reloc_type = fix->fx_r_type;
reloc_adjust = 0;
}
break;
}
if (rxb->n_fixups)
{
fix->fx_r_type = reloc_type;
fix->fx_where += reloc_adjust;
switch (reloc_type)
{
case BFD_RELOC_NONE:
fix->fx_size = 0;
break;
case BFD_RELOC_8:
fix->fx_size = 1;
break;
case BFD_RELOC_16_PCREL:
case BFD_RELOC_RX_16_OP:
fix->fx_size = 2;
break;
case BFD_RELOC_24_PCREL:
case BFD_RELOC_RX_24_OP:
fix->fx_size = 3;
break;
case BFD_RELOC_RX_32_OP:
fix->fx_size = 4;
break;
}
}
fragP->fr_fix = fragP->fr_subtype + (fragP->fr_opcode - fragP->fr_literal);
tprintf ("fragP->fr_fix now %ld (%d + (%p - %p)\n", (long) fragP->fr_fix,
fragP->fr_subtype, fragP->fr_opcode, fragP->fr_literal);
fragP->fr_var = 0;
if (fragP->fr_next != NULL
&& ((offsetT) (fragP->fr_next->fr_address - fragP->fr_address)
!= fragP->fr_fix))
as_bad (_("bad frag at %p : fix %ld addr %ld %ld \n"), fragP,
(long) fragP->fr_fix,
(long) fragP->fr_address, (long) fragP->fr_next->fr_address);
}
#undef OPCODE
int
rx_validate_fix_sub (struct fix * f)
{
/* We permit the subtraction of two symbols in a few cases. */
/* mov #sym1-sym2, R3 */
if (f->fx_r_type == BFD_RELOC_RX_32_OP)
return 1;
/* .long sym1-sym2 */
if (f->fx_r_type == BFD_RELOC_RX_DIFF
&& ! f->fx_pcrel
&& (f->fx_size == 4 || f->fx_size == 2 || f->fx_size == 1))
return 1;
return 0;
}
long
md_pcrel_from_section (fixS * fixP, segT sec)
{
long rv;
if (fixP->fx_addsy != NULL
&& (! S_IS_DEFINED (fixP->fx_addsy)
|| S_GET_SEGMENT (fixP->fx_addsy) != sec))
/* The symbol is undefined (or is defined but not in this section).
Let the linker figure it out. */
return 0;
rv = fixP->fx_frag->fr_address + fixP->fx_where;
switch (fixP->fx_r_type)
{
case BFD_RELOC_RX_DIR3U_PCREL:
return rv;
default:
return rv - 1;
}
}
void
rx_cons_fix_new (fragS * frag,
int where,
int size,
expressionS * exp)
{
bfd_reloc_code_real_type type;
switch (size)
{
case 1:
type = BFD_RELOC_8;
break;
case 2:
type = BFD_RELOC_16;
break;
case 3:
type = BFD_RELOC_24;
break;
case 4:
type = BFD_RELOC_32;
break;
default:
as_bad (_("unsupported constant size %d\n"), size);
return;
}
if (exp->X_op == O_subtract && exp->X_op_symbol)
{
if (size != 4 && size != 2 && size != 1)
as_bad (_("difference of two symbols only supported with .long, .short, or .byte"));
else
type = BFD_RELOC_RX_DIFF;
}
fix_new_exp (frag, where, (int) size, exp, 0, type);
}
void
md_apply_fix (struct fix * f ATTRIBUTE_UNUSED,
valueT * t ATTRIBUTE_UNUSED,
segT s ATTRIBUTE_UNUSED)
{
/* Instruction bytes are always little endian. */
char * op;
unsigned long val;
if (f->fx_addsy && S_FORCE_RELOC (f->fx_addsy, 1))
return;
if (f->fx_subsy && S_FORCE_RELOC (f->fx_subsy, 1))
return;
#define OP2(x) op[target_big_endian ? 1-x : x]
#define OP3(x) op[target_big_endian ? 2-x : x]
#define OP4(x) op[target_big_endian ? 3-x : x]
op = f->fx_frag->fr_literal + f->fx_where;
val = (unsigned long) * t;
/* Opcode words are always the same endian. Data words are either
big or little endian. */
switch (f->fx_r_type)
{
case BFD_RELOC_NONE:
break;
case BFD_RELOC_RX_RELAX:
f->fx_done = 1;
break;
case BFD_RELOC_RX_DIR3U_PCREL:
if (val < 3 || val > 10)
as_bad_where (f->fx_file, f->fx_line,
_("jump not 3..10 bytes away (is %d)"), (int) val);
op[0] &= 0xf8;
op[0] |= val & 0x07;
break;
case BFD_RELOC_8:
case BFD_RELOC_8_PCREL:
case BFD_RELOC_RX_8U:
op[0] = val;
break;
case BFD_RELOC_16:
OP2(1) = val & 0xff;
OP2(0) = (val >> 8) & 0xff;
break;
case BFD_RELOC_16_PCREL:
case BFD_RELOC_RX_16_OP:
case BFD_RELOC_RX_16U:
#if RX_OPCODE_BIG_ENDIAN
op[1] = val & 0xff;
op[0] = (val >> 8) & 0xff;
#else
op[0] = val & 0xff;
op[1] = (val >> 8) & 0xff;
#endif
break;
case BFD_RELOC_24:
OP3(0) = val & 0xff;
OP3(1) = (val >> 8) & 0xff;
OP3(2) = (val >> 16) & 0xff;
break;
case BFD_RELOC_24_PCREL:
case BFD_RELOC_RX_24_OP:
case BFD_RELOC_RX_24U:
#if RX_OPCODE_BIG_ENDIAN
op[2] = val & 0xff;
op[1] = (val >> 8) & 0xff;
op[0] = (val >> 16) & 0xff;
#else
op[0] = val & 0xff;
op[1] = (val >> 8) & 0xff;
op[2] = (val >> 16) & 0xff;
#endif
break;
case BFD_RELOC_RX_DIFF:
switch (f->fx_size)
{
case 1:
op[0] = val & 0xff;
break;
case 2:
OP2(0) = val & 0xff;
OP2(1) = (val >> 8) & 0xff;
break;
case 4:
OP4(0) = val & 0xff;
OP4(1) = (val >> 8) & 0xff;
OP4(2) = (val >> 16) & 0xff;
OP4(3) = (val >> 24) & 0xff;
break;
}
break;
case BFD_RELOC_32:
OP4(0) = val & 0xff;
OP4(1) = (val >> 8) & 0xff;
OP4(2) = (val >> 16) & 0xff;
OP4(3) = (val >> 24) & 0xff;
break;
case BFD_RELOC_RX_32_OP:
#if RX_OPCODE_BIG_ENDIAN
op[3] = val & 0xff;
op[2] = (val >> 8) & 0xff;
op[1] = (val >> 16) & 0xff;
op[0] = (val >> 24) & 0xff;
#else
op[0] = val & 0xff;
op[1] = (val >> 8) & 0xff;
op[2] = (val >> 16) & 0xff;
op[3] = (val >> 24) & 0xff;
#endif
break;
case BFD_RELOC_RX_NEG8:
op[0] = - val;
break;
case BFD_RELOC_RX_NEG16:
val = -val;
#if RX_OPCODE_BIG_ENDIAN
op[1] = val & 0xff;
op[0] = (val >> 8) & 0xff;
#else
op[0] = val & 0xff;
op[1] = (val >> 8) & 0xff;
#endif
break;
case BFD_RELOC_RX_NEG24:
val = -val;
#if RX_OPCODE_BIG_ENDIAN
op[2] = val & 0xff;
op[1] = (val >> 8) & 0xff;
op[0] = (val >> 16) & 0xff;
#else
op[0] = val & 0xff;
op[1] = (val >> 8) & 0xff;
op[2] = (val >> 16) & 0xff;
#endif
break;
case BFD_RELOC_RX_NEG32:
val = -val;
#if RX_OPCODE_BIG_ENDIAN
op[3] = val & 0xff;
op[2] = (val >> 8) & 0xff;
op[1] = (val >> 16) & 0xff;
op[0] = (val >> 24) & 0xff;
#else
op[0] = val & 0xff;
op[1] = (val >> 8) & 0xff;
op[2] = (val >> 16) & 0xff;
op[3] = (val >> 24) & 0xff;
#endif
break;
case BFD_RELOC_RX_GPRELL:
val >>= 1;
case BFD_RELOC_RX_GPRELW:
val >>= 1;
case BFD_RELOC_RX_GPRELB:
#if RX_OPCODE_BIG_ENDIAN
op[1] = val & 0xff;
op[0] = (val >> 8) & 0xff;
#else
op[0] = val & 0xff;
op[1] = (val >> 8) & 0xff;
#endif
break;
default:
as_bad (_("Unknown reloc in md_apply_fix: %s"),
bfd_get_reloc_code_name (f->fx_r_type));
break;
}
if (f->fx_addsy == NULL)
f->fx_done = 1;
}
arelent **
tc_gen_reloc (asection * sec ATTRIBUTE_UNUSED, fixS * fixp)
{
static arelent * reloc[5];
bfd_boolean is_opcode = FALSE;
if (fixp->fx_r_type == BFD_RELOC_NONE)
{
reloc[0] = NULL;
return reloc;
}
if (fixp->fx_subsy
&& S_GET_SEGMENT (fixp->fx_subsy) == absolute_section)
{
fixp->fx_offset -= S_GET_VALUE (fixp->fx_subsy);
fixp->fx_subsy = NULL;
}
reloc[0] = (arelent *) xmalloc (sizeof (arelent));
reloc[0]->sym_ptr_ptr = (asymbol **) xmalloc (sizeof (asymbol *));
* reloc[0]->sym_ptr_ptr = symbol_get_bfdsym (fixp->fx_addsy);
reloc[0]->address = fixp->fx_frag->fr_address + fixp->fx_where;
reloc[0]->addend = fixp->fx_offset;
if (fixp->fx_r_type == BFD_RELOC_RX_32_OP
&& fixp->fx_subsy)
{
fixp->fx_r_type = BFD_RELOC_RX_DIFF;
is_opcode = TRUE;
}
else if (sec)
is_opcode = sec->flags & SEC_CODE;
/* Certain BFD relocations cannot be translated directly into
a single (non-Red Hat) RX relocation, but instead need
multiple RX relocations - handle them here. */
switch (fixp->fx_r_type)
{
case BFD_RELOC_RX_DIFF:
reloc[0]->howto = bfd_reloc_type_lookup (stdoutput, BFD_RELOC_RX_SYM);
reloc[1] = (arelent *) xmalloc (sizeof (arelent));
reloc[1]->sym_ptr_ptr = (asymbol **) xmalloc (sizeof (asymbol *));
* reloc[1]->sym_ptr_ptr = symbol_get_bfdsym (fixp->fx_subsy);
reloc[1]->address = fixp->fx_frag->fr_address + fixp->fx_where;
reloc[1]->addend = 0;
reloc[1]->howto = bfd_reloc_type_lookup (stdoutput, BFD_RELOC_RX_SYM);
reloc[2] = (arelent *) xmalloc (sizeof (arelent));
reloc[2]->howto = bfd_reloc_type_lookup (stdoutput, BFD_RELOC_RX_OP_SUBTRACT);
reloc[2]->addend = 0;
reloc[2]->sym_ptr_ptr = reloc[1]->sym_ptr_ptr;
reloc[2]->address = fixp->fx_frag->fr_address + fixp->fx_where;
reloc[3] = (arelent *) xmalloc (sizeof (arelent));
switch (fixp->fx_size)
{
case 1:
reloc[3]->howto = bfd_reloc_type_lookup (stdoutput, BFD_RELOC_RX_ABS8);
break;
case 2:
if (!is_opcode && target_big_endian)
reloc[3]->howto = bfd_reloc_type_lookup (stdoutput, BFD_RELOC_RX_ABS16_REV);
else if (is_opcode)
reloc[3]->howto = bfd_reloc_type_lookup (stdoutput, BFD_RELOC_RX_ABS16UL);
else
reloc[3]->howto = bfd_reloc_type_lookup (stdoutput, BFD_RELOC_RX_ABS16);
break;
case 4:
if (!is_opcode && target_big_endian)
reloc[3]->howto = bfd_reloc_type_lookup (stdoutput, BFD_RELOC_RX_ABS32_REV);
else
reloc[3]->howto = bfd_reloc_type_lookup (stdoutput, BFD_RELOC_RX_ABS32);
break;
}
reloc[3]->addend = 0;
reloc[3]->sym_ptr_ptr = reloc[1]->sym_ptr_ptr;
reloc[3]->address = fixp->fx_frag->fr_address + fixp->fx_where;
reloc[4] = NULL;
break;
case BFD_RELOC_RX_GPRELL:
reloc[0]->howto = bfd_reloc_type_lookup (stdoutput, BFD_RELOC_RX_SYM);
reloc[1] = (arelent *) xmalloc (sizeof (arelent));
reloc[1]->sym_ptr_ptr = (asymbol **) xmalloc (sizeof (asymbol *));
if (gp_symbol == NULL)
{
if (symbol_table_frozen)
{
symbolS * gp;
gp = symbol_find ("__gp");
if (gp == NULL)
as_bad (("unable to create __gp symbol: please re-assemble with the -msmall-data-limit option specified"));
else
gp_symbol = symbol_get_bfdsym (gp);
}
else
gp_symbol = symbol_get_bfdsym (symbol_find_or_make ("__gp"));
}
* reloc[1]->sym_ptr_ptr = gp_symbol;
reloc[1]->address = fixp->fx_frag->fr_address + fixp->fx_where;
reloc[1]->addend = 0;
reloc[1]->howto = bfd_reloc_type_lookup (stdoutput, BFD_RELOC_RX_SYM);
reloc[2] = (arelent *) xmalloc (sizeof (arelent));
reloc[2]->howto = bfd_reloc_type_lookup (stdoutput, BFD_RELOC_RX_OP_SUBTRACT);
reloc[2]->addend = 0;
reloc[2]->sym_ptr_ptr = reloc[1]->sym_ptr_ptr;
reloc[2]->address = fixp->fx_frag->fr_address + fixp->fx_where;
reloc[3] = (arelent *) xmalloc (sizeof (arelent));
reloc[3]->howto = bfd_reloc_type_lookup (stdoutput, BFD_RELOC_RX_ABS16UL);
reloc[3]->addend = 0;
reloc[3]->sym_ptr_ptr = reloc[1]->sym_ptr_ptr;
reloc[3]->address = fixp->fx_frag->fr_address + fixp->fx_where;
reloc[4] = NULL;
break;
case BFD_RELOC_RX_GPRELW:
reloc[0]->howto = bfd_reloc_type_lookup (stdoutput, BFD_RELOC_RX_SYM);
reloc[1] = (arelent *) xmalloc (sizeof (arelent));
reloc[1]->sym_ptr_ptr = (asymbol **) xmalloc (sizeof (asymbol *));
if (gp_symbol == NULL)
{
if (symbol_table_frozen)
{
symbolS * gp;
gp = symbol_find ("__gp");
if (gp == NULL)
as_bad (("unable to create __gp symbol: please re-assemble with the -msmall-data-limit option specified"));
else
gp_symbol = symbol_get_bfdsym (gp);
}
else
gp_symbol = symbol_get_bfdsym (symbol_find_or_make ("__gp"));
}
* reloc[1]->sym_ptr_ptr = gp_symbol;
reloc[1]->address = fixp->fx_frag->fr_address + fixp->fx_where;
reloc[1]->addend = 0;
reloc[1]->howto = bfd_reloc_type_lookup (stdoutput, BFD_RELOC_RX_SYM);
reloc[2] = (arelent *) xmalloc (sizeof (arelent));
reloc[2]->howto = bfd_reloc_type_lookup (stdoutput, BFD_RELOC_RX_OP_SUBTRACT);
reloc[2]->addend = 0;
reloc[2]->sym_ptr_ptr = reloc[1]->sym_ptr_ptr;
reloc[2]->address = fixp->fx_frag->fr_address + fixp->fx_where;
reloc[3] = (arelent *) xmalloc (sizeof (arelent));
reloc[3]->howto = bfd_reloc_type_lookup (stdoutput, BFD_RELOC_RX_ABS16UW);
reloc[3]->addend = 0;
reloc[3]->sym_ptr_ptr = reloc[1]->sym_ptr_ptr;
reloc[3]->address = fixp->fx_frag->fr_address + fixp->fx_where;
reloc[4] = NULL;
break;
case BFD_RELOC_RX_GPRELB:
reloc[0]->howto = bfd_reloc_type_lookup (stdoutput, BFD_RELOC_RX_SYM);
reloc[1] = (arelent *) xmalloc (sizeof (arelent));
reloc[1]->sym_ptr_ptr = (asymbol **) xmalloc (sizeof (asymbol *));
if (gp_symbol == NULL)
{
if (symbol_table_frozen)
{
symbolS * gp;
gp = symbol_find ("__gp");
if (gp == NULL)
as_bad (("unable to create __gp symbol: please re-assemble with the -msmall-data-limit option specified"));
else
gp_symbol = symbol_get_bfdsym (gp);
}
else
gp_symbol = symbol_get_bfdsym (symbol_find_or_make ("__gp"));
}
* reloc[1]->sym_ptr_ptr = gp_symbol;
reloc[1]->address = fixp->fx_frag->fr_address + fixp->fx_where;
reloc[1]->addend = 0;
reloc[1]->howto = bfd_reloc_type_lookup (stdoutput, BFD_RELOC_RX_SYM);
reloc[2] = (arelent *) xmalloc (sizeof (arelent));
reloc[2]->howto = bfd_reloc_type_lookup (stdoutput, BFD_RELOC_RX_OP_SUBTRACT);
reloc[2]->addend = 0;
reloc[2]->sym_ptr_ptr = reloc[1]->sym_ptr_ptr;
reloc[2]->address = fixp->fx_frag->fr_address + fixp->fx_where;
reloc[3] = (arelent *) xmalloc (sizeof (arelent));
reloc[3]->howto = bfd_reloc_type_lookup (stdoutput, BFD_RELOC_RX_ABS16U);
reloc[3]->addend = 0;
reloc[3]->sym_ptr_ptr = reloc[1]->sym_ptr_ptr;
reloc[3]->address = fixp->fx_frag->fr_address + fixp->fx_where;
reloc[4] = NULL;
break;
case BFD_RELOC_RX_NEG32:
reloc[0]->howto = bfd_reloc_type_lookup (stdoutput, BFD_RELOC_RX_SYM);
reloc[1] = (arelent *) xmalloc (sizeof (arelent));
reloc[1]->howto = bfd_reloc_type_lookup (stdoutput, BFD_RELOC_RX_OP_NEG);
reloc[1]->addend = 0;
reloc[1]->sym_ptr_ptr = reloc[0]->sym_ptr_ptr;
reloc[1]->address = fixp->fx_frag->fr_address + fixp->fx_where;
reloc[2] = (arelent *) xmalloc (sizeof (arelent));
reloc[2]->howto = bfd_reloc_type_lookup (stdoutput, BFD_RELOC_RX_ABS32);
reloc[2]->addend = 0;
reloc[2]->sym_ptr_ptr = reloc[0]->sym_ptr_ptr;
reloc[2]->address = fixp->fx_frag->fr_address + fixp->fx_where;
reloc[3] = NULL;
break;
default:
reloc[0]->howto = bfd_reloc_type_lookup (stdoutput, fixp->fx_r_type);
reloc[1] = NULL;
break;
}
return reloc;
}
/* Set the ELF specific flags. */
void
rx_elf_final_processing (void)
{
elf_elfheader (stdoutput)->e_flags |= elf_flags;
}
/* Scan the current input line for occurances of Renesas
local labels and replace them with the GAS version. */
void
rx_start_line (void)
{
int in_double_quote = 0;
int in_single_quote = 0;
int done = 0;
char * p = input_line_pointer;
/* Scan the line looking for question marks. Skip past quote enclosed regions. */
do
{
switch (*p)
{
case '\n':
case 0:
done = 1;
break;
case '"':
in_double_quote = ! in_double_quote;
break;
case '\'':
in_single_quote = ! in_single_quote;
break;
case '?':
if (in_double_quote || in_single_quote)
break;
if (p[1] == ':')
*p = '1';
else if (p[1] == '+')
{
p[0] = '1';
p[1] = 'f';
}
else if (p[1] == '-')
{
p[0] = '1';
p[1] = 'b';
}
break;
default:
break;
}
p ++;
}
while (! done);
}
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