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|
/* MMIX-specific support for 64-bit ELF.
Copyright 2001, 2002 Free Software Foundation, Inc.
Contributed by Hans-Peter Nilsson <hp@bitrange.com>
This file is part of BFD, the Binary File Descriptor library.
This program 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 of the License, or
(at your option) any later version.
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. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */
/* No specific ABI or "processor-specific supplement" defined. */
/* TODO:
- Linker relaxation. */
#include "bfd.h"
#include "sysdep.h"
#include "libbfd.h"
#include "elf-bfd.h"
#include "elf/mmix.h"
#include "opcode/mmix.h"
#define MINUS_ONE (((bfd_vma) 0) - 1)
/* Put these everywhere in new code. */
#define FATAL_DEBUG \
_bfd_abort (__FILE__, __LINE__, \
"Internal: Non-debugged code (test-case missing)")
#define BAD_CASE(x) \
_bfd_abort (__FILE__, __LINE__, \
"bad case for " #x)
/* For each section containing a base-plus-offset (BPO) reloc, we attach
this struct as elf_section_data (section)->tdata, which is otherwise
NULL. */
struct bpo_reloc_section_info
{
/* The base is 1; this is the first number in this section. */
size_t first_base_plus_offset_reloc;
/* Number of BPO-relocs in this section. */
size_t n_bpo_relocs_this_section;
/* Running index, used at relocation time. */
size_t bpo_index;
/* We don't have access to the bfd_link_info struct in
mmix_final_link_relocate. What we really want to get at is the
global single struct greg_relocation, so we stash it here. */
asection *bpo_greg_section;
};
/* Helper struct (in global context) for the one below.
There's one of these created for every BPO reloc. */
struct bpo_reloc_request
{
bfd_vma value;
/* Valid after relaxation. The base is 0; the first register number
must be added. The offset is in range 0..255. */
size_t regindex;
size_t offset;
/* The order number for this BPO reloc, corresponding to the order in
which BPO relocs were found. Used to create an index after reloc
requests are sorted. */
size_t bpo_reloc_no;
/* Set when the value is computed. Better than coding "guard values"
into the other members. Is false only for BPO relocs in a GC:ed
section. */
boolean valid;
};
/* We attach this as elf_section_data (sec)->tdata in the linker-allocated
greg contents section (MMIX_LD_ALLOCATED_REG_CONTENTS_SECTION_NAME),
which is linked into the register contents section
(MMIX_REG_CONTENTS_SECTION_NAME). This section is created by the
linker; using the same hook as for usual with BPO relocs does not
collide. */
struct bpo_greg_section_info
{
/* After GC, this reflects the number of remaining, non-excluded
BPO-relocs. */
size_t n_bpo_relocs;
/* This is the number of allocated bpo_reloc_requests; the size of
sorted_indexes. Valid after the check.*relocs functions are called
for all incoming sections. It includes the number of BPO relocs in
sections that were GC:ed. */
size_t n_max_bpo_relocs;
/* A counter used to find out when to fold the BPO gregs, since we
don't have a single "after-relaxation" hook. */
size_t n_remaining_bpo_relocs_this_relaxation_round;
/* The number of linker-allocated GREGs resulting from BPO relocs.
This is an approximation after _bfd_mmix_allocated_gregs_init and
supposedly accurate after mmix_elf_relax_section is called for all
incoming non-collected sections. */
size_t n_allocated_bpo_gregs;
/* Index into reloc_request[], sorted on increasing "value", secondary
by increasing index for strict sorting order. */
size_t *bpo_reloc_indexes;
/* An array of all relocations, with the "value" member filled in by
the relaxation function. */
struct bpo_reloc_request *reloc_request;
};
static boolean mmix_elf_link_output_symbol_hook
PARAMS ((bfd *, struct bfd_link_info *, const char *,
Elf_Internal_Sym *, asection *));
static bfd_reloc_status_type mmix_elf_reloc
PARAMS ((bfd *, arelent *, asymbol *, PTR, asection *, bfd *, char **));
static reloc_howto_type *bfd_elf64_bfd_reloc_type_lookup
PARAMS ((bfd *, bfd_reloc_code_real_type));
static void mmix_info_to_howto_rela
PARAMS ((bfd *, arelent *, Elf64_Internal_Rela *));
static int mmix_elf_sort_relocs PARAMS ((const PTR, const PTR));
static boolean mmix_elf_check_relocs
PARAMS ((bfd *, struct bfd_link_info *, asection *,
const Elf_Internal_Rela *));
static boolean mmix_elf_check_common_relocs
PARAMS ((bfd *, struct bfd_link_info *, asection *,
const Elf_Internal_Rela *));
static boolean mmix_elf_relocate_section
PARAMS ((bfd *, struct bfd_link_info *, bfd *, asection *, bfd_byte *,
Elf_Internal_Rela *, Elf_Internal_Sym *, asection **));
static asection * mmix_elf_gc_mark_hook
PARAMS ((bfd *, struct bfd_link_info *, Elf_Internal_Rela *,
struct elf_link_hash_entry *, Elf_Internal_Sym *));
static boolean mmix_elf_gc_sweep_hook
PARAMS ((bfd *, struct bfd_link_info *, asection *,
const Elf_Internal_Rela *));
static bfd_reloc_status_type mmix_final_link_relocate
PARAMS ((reloc_howto_type *, asection *, bfd_byte *,
bfd_vma, bfd_signed_vma, bfd_vma, const char *, asection *));
static bfd_reloc_status_type mmix_elf_perform_relocation
PARAMS ((asection *, reloc_howto_type *, PTR, bfd_vma, bfd_vma));
static boolean mmix_elf_section_from_bfd_section
PARAMS ((bfd *, asection *, int *));
static boolean mmix_elf_add_symbol_hook
PARAMS ((bfd *, struct bfd_link_info *, const Elf_Internal_Sym *,
const char **, flagword *, asection **, bfd_vma *));
static boolean mmix_elf_is_local_label_name
PARAMS ((bfd *, const char *));
static int bpo_reloc_request_sort_fn PARAMS ((const PTR, const PTR));
static boolean mmix_elf_relax_section
PARAMS ((bfd *abfd, asection *sec, struct bfd_link_info *link_info,
boolean *again));
extern boolean mmix_elf_final_link PARAMS ((bfd *, struct bfd_link_info *));
extern void mmix_elf_symbol_processing PARAMS ((bfd *, asymbol *));
/* Only intended to be called from a debugger. */
extern void mmix_dump_bpo_gregs
PARAMS ((struct bfd_link_info *, bfd_error_handler_type));
/* Watch out: this currently needs to have elements with the same index as
their R_MMIX_ number. */
static reloc_howto_type elf_mmix_howto_table[] =
{
/* This reloc does nothing. */
HOWTO (R_MMIX_NONE, /* type */
0, /* rightshift */
2, /* size (0 = byte, 1 = short, 2 = long) */
32, /* bitsize */
false, /* pc_relative */
0, /* bitpos */
complain_overflow_bitfield, /* complain_on_overflow */
bfd_elf_generic_reloc, /* special_function */
"R_MMIX_NONE", /* name */
false, /* partial_inplace */
0, /* src_mask */
0, /* dst_mask */
false), /* pcrel_offset */
/* An 8 bit absolute relocation. */
HOWTO (R_MMIX_8, /* type */
0, /* rightshift */
0, /* size (0 = byte, 1 = short, 2 = long) */
8, /* bitsize */
false, /* pc_relative */
0, /* bitpos */
complain_overflow_bitfield, /* complain_on_overflow */
bfd_elf_generic_reloc, /* special_function */
"R_MMIX_8", /* name */
false, /* partial_inplace */
0, /* src_mask */
0xff, /* dst_mask */
false), /* pcrel_offset */
/* An 16 bit absolute relocation. */
HOWTO (R_MMIX_16, /* type */
0, /* rightshift */
1, /* size (0 = byte, 1 = short, 2 = long) */
16, /* bitsize */
false, /* pc_relative */
0, /* bitpos */
complain_overflow_bitfield, /* complain_on_overflow */
bfd_elf_generic_reloc, /* special_function */
"R_MMIX_16", /* name */
false, /* partial_inplace */
0, /* src_mask */
0xffff, /* dst_mask */
false), /* pcrel_offset */
/* An 24 bit absolute relocation. */
HOWTO (R_MMIX_24, /* type */
0, /* rightshift */
2, /* size (0 = byte, 1 = short, 2 = long) */
24, /* bitsize */
false, /* pc_relative */
0, /* bitpos */
complain_overflow_bitfield, /* complain_on_overflow */
bfd_elf_generic_reloc, /* special_function */
"R_MMIX_24", /* name */
false, /* partial_inplace */
~0xffffff, /* src_mask */
0xffffff, /* dst_mask */
false), /* pcrel_offset */
/* A 32 bit absolute relocation. */
HOWTO (R_MMIX_32, /* type */
0, /* rightshift */
2, /* size (0 = byte, 1 = short, 2 = long) */
32, /* bitsize */
false, /* pc_relative */
0, /* bitpos */
complain_overflow_bitfield, /* complain_on_overflow */
bfd_elf_generic_reloc, /* special_function */
"R_MMIX_32", /* name */
false, /* partial_inplace */
0, /* src_mask */
0xffffffff, /* dst_mask */
false), /* pcrel_offset */
/* 64 bit relocation. */
HOWTO (R_MMIX_64, /* type */
0, /* rightshift */
4, /* size (0 = byte, 1 = short, 2 = long) */
64, /* bitsize */
false, /* pc_relative */
0, /* bitpos */
complain_overflow_bitfield, /* complain_on_overflow */
bfd_elf_generic_reloc, /* special_function */
"R_MMIX_64", /* name */
false, /* partial_inplace */
0, /* src_mask */
MINUS_ONE, /* dst_mask */
false), /* pcrel_offset */
/* An 8 bit PC-relative relocation. */
HOWTO (R_MMIX_PC_8, /* type */
0, /* rightshift */
0, /* size (0 = byte, 1 = short, 2 = long) */
8, /* bitsize */
true, /* pc_relative */
0, /* bitpos */
complain_overflow_bitfield, /* complain_on_overflow */
bfd_elf_generic_reloc, /* special_function */
"R_MMIX_PC_8", /* name */
false, /* partial_inplace */
0, /* src_mask */
0xff, /* dst_mask */
true), /* pcrel_offset */
/* An 16 bit PC-relative relocation. */
HOWTO (R_MMIX_PC_16, /* type */
0, /* rightshift */
1, /* size (0 = byte, 1 = short, 2 = long) */
16, /* bitsize */
true, /* pc_relative */
0, /* bitpos */
complain_overflow_bitfield, /* complain_on_overflow */
bfd_elf_generic_reloc, /* special_function */
"R_MMIX_PC_16", /* name */
false, /* partial_inplace */
0, /* src_mask */
0xffff, /* dst_mask */
true), /* pcrel_offset */
/* An 24 bit PC-relative relocation. */
HOWTO (R_MMIX_PC_24, /* type */
0, /* rightshift */
2, /* size (0 = byte, 1 = short, 2 = long) */
24, /* bitsize */
true, /* pc_relative */
0, /* bitpos */
complain_overflow_bitfield, /* complain_on_overflow */
bfd_elf_generic_reloc, /* special_function */
"R_MMIX_PC_24", /* name */
false, /* partial_inplace */
~0xffffff, /* src_mask */
0xffffff, /* dst_mask */
true), /* pcrel_offset */
/* A 32 bit absolute PC-relative relocation. */
HOWTO (R_MMIX_PC_32, /* type */
0, /* rightshift */
2, /* size (0 = byte, 1 = short, 2 = long) */
32, /* bitsize */
true, /* pc_relative */
0, /* bitpos */
complain_overflow_bitfield, /* complain_on_overflow */
bfd_elf_generic_reloc, /* special_function */
"R_MMIX_PC_32", /* name */
false, /* partial_inplace */
0, /* src_mask */
0xffffffff, /* dst_mask */
true), /* pcrel_offset */
/* 64 bit PC-relative relocation. */
HOWTO (R_MMIX_PC_64, /* type */
0, /* rightshift */
4, /* size (0 = byte, 1 = short, 2 = long) */
64, /* bitsize */
true, /* pc_relative */
0, /* bitpos */
complain_overflow_bitfield, /* complain_on_overflow */
bfd_elf_generic_reloc, /* special_function */
"R_MMIX_PC_64", /* name */
false, /* partial_inplace */
0, /* src_mask */
MINUS_ONE, /* dst_mask */
true), /* pcrel_offset */
/* GNU extension to record C++ vtable hierarchy. */
HOWTO (R_MMIX_GNU_VTINHERIT, /* type */
0, /* rightshift */
0, /* size (0 = byte, 1 = short, 2 = long) */
0, /* bitsize */
false, /* pc_relative */
0, /* bitpos */
complain_overflow_dont, /* complain_on_overflow */
NULL, /* special_function */
"R_MMIX_GNU_VTINHERIT", /* name */
false, /* partial_inplace */
0, /* src_mask */
0, /* dst_mask */
true), /* pcrel_offset */
/* GNU extension to record C++ vtable member usage. */
HOWTO (R_MMIX_GNU_VTENTRY, /* type */
0, /* rightshift */
0, /* size (0 = byte, 1 = short, 2 = long) */
0, /* bitsize */
false, /* pc_relative */
0, /* bitpos */
complain_overflow_dont, /* complain_on_overflow */
_bfd_elf_rel_vtable_reloc_fn, /* special_function */
"R_MMIX_GNU_VTENTRY", /* name */
false, /* partial_inplace */
0, /* src_mask */
0, /* dst_mask */
false), /* pcrel_offset */
/* The GETA relocation is supposed to get any address that could
possibly be reached by the GETA instruction. It can silently expand
to get a 64-bit operand, but will complain if any of the two least
significant bits are set. The howto members reflect a simple GETA. */
HOWTO (R_MMIX_GETA, /* type */
2, /* rightshift */
2, /* size (0 = byte, 1 = short, 2 = long) */
19, /* bitsize */
true, /* pc_relative */
0, /* bitpos */
complain_overflow_signed, /* complain_on_overflow */
mmix_elf_reloc, /* special_function */
"R_MMIX_GETA", /* name */
false, /* partial_inplace */
~0x0100ffff, /* src_mask */
0x0100ffff, /* dst_mask */
true), /* pcrel_offset */
HOWTO (R_MMIX_GETA_1, /* type */
2, /* rightshift */
2, /* size (0 = byte, 1 = short, 2 = long) */
19, /* bitsize */
true, /* pc_relative */
0, /* bitpos */
complain_overflow_signed, /* complain_on_overflow */
mmix_elf_reloc, /* special_function */
"R_MMIX_GETA_1", /* name */
false, /* partial_inplace */
~0x0100ffff, /* src_mask */
0x0100ffff, /* dst_mask */
true), /* pcrel_offset */
HOWTO (R_MMIX_GETA_2, /* type */
2, /* rightshift */
2, /* size (0 = byte, 1 = short, 2 = long) */
19, /* bitsize */
true, /* pc_relative */
0, /* bitpos */
complain_overflow_signed, /* complain_on_overflow */
mmix_elf_reloc, /* special_function */
"R_MMIX_GETA_2", /* name */
false, /* partial_inplace */
~0x0100ffff, /* src_mask */
0x0100ffff, /* dst_mask */
true), /* pcrel_offset */
HOWTO (R_MMIX_GETA_3, /* type */
2, /* rightshift */
2, /* size (0 = byte, 1 = short, 2 = long) */
19, /* bitsize */
true, /* pc_relative */
0, /* bitpos */
complain_overflow_signed, /* complain_on_overflow */
mmix_elf_reloc, /* special_function */
"R_MMIX_GETA_3", /* name */
false, /* partial_inplace */
~0x0100ffff, /* src_mask */
0x0100ffff, /* dst_mask */
true), /* pcrel_offset */
/* The conditional branches are supposed to reach any (code) address.
It can silently expand to a 64-bit operand, but will emit an error if
any of the two least significant bits are set. The howto members
reflect a simple branch. */
HOWTO (R_MMIX_CBRANCH, /* type */
2, /* rightshift */
2, /* size (0 = byte, 1 = short, 2 = long) */
19, /* bitsize */
true, /* pc_relative */
0, /* bitpos */
complain_overflow_signed, /* complain_on_overflow */
mmix_elf_reloc, /* special_function */
"R_MMIX_CBRANCH", /* name */
false, /* partial_inplace */
~0x0100ffff, /* src_mask */
0x0100ffff, /* dst_mask */
true), /* pcrel_offset */
HOWTO (R_MMIX_CBRANCH_J, /* type */
2, /* rightshift */
2, /* size (0 = byte, 1 = short, 2 = long) */
19, /* bitsize */
true, /* pc_relative */
0, /* bitpos */
complain_overflow_signed, /* complain_on_overflow */
mmix_elf_reloc, /* special_function */
"R_MMIX_CBRANCH_J", /* name */
false, /* partial_inplace */
~0x0100ffff, /* src_mask */
0x0100ffff, /* dst_mask */
true), /* pcrel_offset */
HOWTO (R_MMIX_CBRANCH_1, /* type */
2, /* rightshift */
2, /* size (0 = byte, 1 = short, 2 = long) */
19, /* bitsize */
true, /* pc_relative */
0, /* bitpos */
complain_overflow_signed, /* complain_on_overflow */
mmix_elf_reloc, /* special_function */
"R_MMIX_CBRANCH_1", /* name */
false, /* partial_inplace */
~0x0100ffff, /* src_mask */
0x0100ffff, /* dst_mask */
true), /* pcrel_offset */
HOWTO (R_MMIX_CBRANCH_2, /* type */
2, /* rightshift */
2, /* size (0 = byte, 1 = short, 2 = long) */
19, /* bitsize */
true, /* pc_relative */
0, /* bitpos */
complain_overflow_signed, /* complain_on_overflow */
mmix_elf_reloc, /* special_function */
"R_MMIX_CBRANCH_2", /* name */
false, /* partial_inplace */
~0x0100ffff, /* src_mask */
0x0100ffff, /* dst_mask */
true), /* pcrel_offset */
HOWTO (R_MMIX_CBRANCH_3, /* type */
2, /* rightshift */
2, /* size (0 = byte, 1 = short, 2 = long) */
19, /* bitsize */
true, /* pc_relative */
0, /* bitpos */
complain_overflow_signed, /* complain_on_overflow */
mmix_elf_reloc, /* special_function */
"R_MMIX_CBRANCH_3", /* name */
false, /* partial_inplace */
~0x0100ffff, /* src_mask */
0x0100ffff, /* dst_mask */
true), /* pcrel_offset */
/* The PUSHJ instruction can reach any (code) address, as long as it's
the beginning of a function (no usable restriction). It can silently
expand to a 64-bit operand, but will emit an error if any of the two
least significant bits are set. The howto members reflect a simple
PUSHJ. */
HOWTO (R_MMIX_PUSHJ, /* type */
2, /* rightshift */
2, /* size (0 = byte, 1 = short, 2 = long) */
19, /* bitsize */
true, /* pc_relative */
0, /* bitpos */
complain_overflow_signed, /* complain_on_overflow */
mmix_elf_reloc, /* special_function */
"R_MMIX_PUSHJ", /* name */
false, /* partial_inplace */
~0x0100ffff, /* src_mask */
0x0100ffff, /* dst_mask */
true), /* pcrel_offset */
HOWTO (R_MMIX_PUSHJ_1, /* type */
2, /* rightshift */
2, /* size (0 = byte, 1 = short, 2 = long) */
19, /* bitsize */
true, /* pc_relative */
0, /* bitpos */
complain_overflow_signed, /* complain_on_overflow */
mmix_elf_reloc, /* special_function */
"R_MMIX_PUSHJ_1", /* name */
false, /* partial_inplace */
~0x0100ffff, /* src_mask */
0x0100ffff, /* dst_mask */
true), /* pcrel_offset */
HOWTO (R_MMIX_PUSHJ_2, /* type */
2, /* rightshift */
2, /* size (0 = byte, 1 = short, 2 = long) */
19, /* bitsize */
true, /* pc_relative */
0, /* bitpos */
complain_overflow_signed, /* complain_on_overflow */
mmix_elf_reloc, /* special_function */
"R_MMIX_PUSHJ_2", /* name */
false, /* partial_inplace */
~0x0100ffff, /* src_mask */
0x0100ffff, /* dst_mask */
true), /* pcrel_offset */
HOWTO (R_MMIX_PUSHJ_3, /* type */
2, /* rightshift */
2, /* size (0 = byte, 1 = short, 2 = long) */
19, /* bitsize */
true, /* pc_relative */
0, /* bitpos */
complain_overflow_signed, /* complain_on_overflow */
mmix_elf_reloc, /* special_function */
"R_MMIX_PUSHJ_3", /* name */
false, /* partial_inplace */
~0x0100ffff, /* src_mask */
0x0100ffff, /* dst_mask */
true), /* pcrel_offset */
/* A JMP is supposed to reach any (code) address. By itself, it can
reach +-64M; the expansion can reach all 64 bits. Note that the 64M
limit is soon reached if you link the program in wildly different
memory segments. The howto members reflect a trivial JMP. */
HOWTO (R_MMIX_JMP, /* type */
2, /* rightshift */
2, /* size (0 = byte, 1 = short, 2 = long) */
27, /* bitsize */
true, /* pc_relative */
0, /* bitpos */
complain_overflow_signed, /* complain_on_overflow */
mmix_elf_reloc, /* special_function */
"R_MMIX_JMP", /* name */
false, /* partial_inplace */
~0x1ffffff, /* src_mask */
0x1ffffff, /* dst_mask */
true), /* pcrel_offset */
HOWTO (R_MMIX_JMP_1, /* type */
2, /* rightshift */
2, /* size (0 = byte, 1 = short, 2 = long) */
27, /* bitsize */
true, /* pc_relative */
0, /* bitpos */
complain_overflow_signed, /* complain_on_overflow */
mmix_elf_reloc, /* special_function */
"R_MMIX_JMP_1", /* name */
false, /* partial_inplace */
~0x1ffffff, /* src_mask */
0x1ffffff, /* dst_mask */
true), /* pcrel_offset */
HOWTO (R_MMIX_JMP_2, /* type */
2, /* rightshift */
2, /* size (0 = byte, 1 = short, 2 = long) */
27, /* bitsize */
true, /* pc_relative */
0, /* bitpos */
complain_overflow_signed, /* complain_on_overflow */
mmix_elf_reloc, /* special_function */
"R_MMIX_JMP_2", /* name */
false, /* partial_inplace */
~0x1ffffff, /* src_mask */
0x1ffffff, /* dst_mask */
true), /* pcrel_offset */
HOWTO (R_MMIX_JMP_3, /* type */
2, /* rightshift */
2, /* size (0 = byte, 1 = short, 2 = long) */
27, /* bitsize */
true, /* pc_relative */
0, /* bitpos */
complain_overflow_signed, /* complain_on_overflow */
mmix_elf_reloc, /* special_function */
"R_MMIX_JMP_3", /* name */
false, /* partial_inplace */
~0x1ffffff, /* src_mask */
0x1ffffff, /* dst_mask */
true), /* pcrel_offset */
/* When we don't emit link-time-relaxable code from the assembler, or
when relaxation has done all it can do, these relocs are used. For
GETA/PUSHJ/branches. */
HOWTO (R_MMIX_ADDR19, /* type */
2, /* rightshift */
2, /* size (0 = byte, 1 = short, 2 = long) */
19, /* bitsize */
true, /* pc_relative */
0, /* bitpos */
complain_overflow_signed, /* complain_on_overflow */
mmix_elf_reloc, /* special_function */
"R_MMIX_ADDR19", /* name */
false, /* partial_inplace */
~0x0100ffff, /* src_mask */
0x0100ffff, /* dst_mask */
true), /* pcrel_offset */
/* For JMP. */
HOWTO (R_MMIX_ADDR27, /* type */
2, /* rightshift */
2, /* size (0 = byte, 1 = short, 2 = long) */
27, /* bitsize */
true, /* pc_relative */
0, /* bitpos */
complain_overflow_signed, /* complain_on_overflow */
mmix_elf_reloc, /* special_function */
"R_MMIX_ADDR27", /* name */
false, /* partial_inplace */
~0x1ffffff, /* src_mask */
0x1ffffff, /* dst_mask */
true), /* pcrel_offset */
/* A general register or the value 0..255. If a value, then the
instruction (offset -3) needs adjusting. */
HOWTO (R_MMIX_REG_OR_BYTE, /* type */
0, /* rightshift */
1, /* size (0 = byte, 1 = short, 2 = long) */
8, /* bitsize */
false, /* pc_relative */
0, /* bitpos */
complain_overflow_bitfield, /* complain_on_overflow */
mmix_elf_reloc, /* special_function */
"R_MMIX_REG_OR_BYTE", /* name */
false, /* partial_inplace */
0, /* src_mask */
0xff, /* dst_mask */
false), /* pcrel_offset */
/* A general register. */
HOWTO (R_MMIX_REG, /* type */
0, /* rightshift */
1, /* size (0 = byte, 1 = short, 2 = long) */
8, /* bitsize */
false, /* pc_relative */
0, /* bitpos */
complain_overflow_bitfield, /* complain_on_overflow */
mmix_elf_reloc, /* special_function */
"R_MMIX_REG", /* name */
false, /* partial_inplace */
0, /* src_mask */
0xff, /* dst_mask */
false), /* pcrel_offset */
/* A register plus an index, corresponding to the relocation expression.
The sizes must correspond to the valid range of the expression, while
the bitmasks correspond to what we store in the image. */
HOWTO (R_MMIX_BASE_PLUS_OFFSET, /* type */
0, /* rightshift */
4, /* size (0 = byte, 1 = short, 2 = long) */
64, /* bitsize */
false, /* pc_relative */
0, /* bitpos */
complain_overflow_bitfield, /* complain_on_overflow */
mmix_elf_reloc, /* special_function */
"R_MMIX_BASE_PLUS_OFFSET", /* name */
false, /* partial_inplace */
0, /* src_mask */
0xffff, /* dst_mask */
false), /* pcrel_offset */
/* A "magic" relocation for a LOCAL expression, asserting that the
expression is less than the number of global registers. No actual
modification of the contents is done. Implementing this as a
relocation was less intrusive than e.g. putting such expressions in a
section to discard *after* relocation. */
HOWTO (R_MMIX_LOCAL, /* type */
0, /* rightshift */
0, /* size (0 = byte, 1 = short, 2 = long) */
0, /* bitsize */
false, /* pc_relative */
0, /* bitpos */
complain_overflow_dont, /* complain_on_overflow */
mmix_elf_reloc, /* special_function */
"R_MMIX_LOCAL", /* name */
false, /* partial_inplace */
0, /* src_mask */
0, /* dst_mask */
false), /* pcrel_offset */
};
/* Map BFD reloc types to MMIX ELF reloc types. */
struct mmix_reloc_map
{
bfd_reloc_code_real_type bfd_reloc_val;
enum elf_mmix_reloc_type elf_reloc_val;
};
static const struct mmix_reloc_map mmix_reloc_map[] =
{
{BFD_RELOC_NONE, R_MMIX_NONE},
{BFD_RELOC_8, R_MMIX_8},
{BFD_RELOC_16, R_MMIX_16},
{BFD_RELOC_24, R_MMIX_24},
{BFD_RELOC_32, R_MMIX_32},
{BFD_RELOC_64, R_MMIX_64},
{BFD_RELOC_8_PCREL, R_MMIX_PC_8},
{BFD_RELOC_16_PCREL, R_MMIX_PC_16},
{BFD_RELOC_24_PCREL, R_MMIX_PC_24},
{BFD_RELOC_32_PCREL, R_MMIX_PC_32},
{BFD_RELOC_64_PCREL, R_MMIX_PC_64},
{BFD_RELOC_VTABLE_INHERIT, R_MMIX_GNU_VTINHERIT},
{BFD_RELOC_VTABLE_ENTRY, R_MMIX_GNU_VTENTRY},
{BFD_RELOC_MMIX_GETA, R_MMIX_GETA},
{BFD_RELOC_MMIX_CBRANCH, R_MMIX_CBRANCH},
{BFD_RELOC_MMIX_PUSHJ, R_MMIX_PUSHJ},
{BFD_RELOC_MMIX_JMP, R_MMIX_JMP},
{BFD_RELOC_MMIX_ADDR19, R_MMIX_ADDR19},
{BFD_RELOC_MMIX_ADDR27, R_MMIX_ADDR27},
{BFD_RELOC_MMIX_REG_OR_BYTE, R_MMIX_REG_OR_BYTE},
{BFD_RELOC_MMIX_REG, R_MMIX_REG},
{BFD_RELOC_MMIX_BASE_PLUS_OFFSET, R_MMIX_BASE_PLUS_OFFSET},
{BFD_RELOC_MMIX_LOCAL, R_MMIX_LOCAL}
};
static reloc_howto_type *
bfd_elf64_bfd_reloc_type_lookup (abfd, code)
bfd *abfd ATTRIBUTE_UNUSED;
bfd_reloc_code_real_type code;
{
unsigned int i;
for (i = 0;
i < sizeof (mmix_reloc_map) / sizeof (mmix_reloc_map[0]);
i++)
{
if (mmix_reloc_map[i].bfd_reloc_val == code)
return &elf_mmix_howto_table[mmix_reloc_map[i].elf_reloc_val];
}
return NULL;
}
/* This function performs the actual bitfiddling and sanity check for a
final relocation. Each relocation gets its *worst*-case expansion
in size when it arrives here; any reduction in size should have been
caught in linker relaxation earlier. When we get here, the relocation
looks like the smallest instruction with SWYM:s (nop:s) appended to the
max size. We fill in those nop:s.
R_MMIX_GETA: (FIXME: Relaxation should break this up in 1, 2, 3 tetra)
GETA $N,foo
->
SETL $N,foo & 0xffff
INCML $N,(foo >> 16) & 0xffff
INCMH $N,(foo >> 32) & 0xffff
INCH $N,(foo >> 48) & 0xffff
R_MMIX_CBRANCH: (FIXME: Relaxation should break this up, but
condbranches needing relaxation might be rare enough to not be
worthwhile.)
[P]Bcc $N,foo
->
[~P]B~cc $N,.+20
SETL $255,foo & ...
INCML ...
INCMH ...
INCH ...
GO $255,$255,0
R_MMIX_PUSHJ: (FIXME: Relaxation...)
PUSHJ $N,foo
->
SETL $255,foo & ...
INCML ...
INCMH ...
INCH ...
PUSHGO $N,$255,0
R_MMIX_JMP: (FIXME: Relaxation...)
JMP foo
->
SETL $255,foo & ...
INCML ...
INCMH ...
INCH ...
GO $255,$255,0
R_MMIX_ADDR19 and R_MMIX_ADDR27 are just filled in. */
static bfd_reloc_status_type
mmix_elf_perform_relocation (isec, howto, datap, addr, value)
asection *isec;
reloc_howto_type *howto;
PTR datap;
bfd_vma addr ATTRIBUTE_UNUSED;
bfd_vma value;
{
bfd *abfd = isec->owner;
bfd_reloc_status_type flag = bfd_reloc_ok;
bfd_reloc_status_type r;
int offs = 0;
int reg = 255;
/* The worst case bits are all similar SETL/INCML/INCMH/INCH sequences.
We handle the differences here and the common sequence later. */
switch (howto->type)
{
case R_MMIX_GETA:
offs = 0;
reg = bfd_get_8 (abfd, (bfd_byte *) datap + 1);
/* We change to an absolute value. */
value += addr;
break;
case R_MMIX_CBRANCH:
{
int in1 = bfd_get_16 (abfd, (bfd_byte *) datap) << 16;
/* Invert the condition and prediction bit, and set the offset
to five instructions ahead.
We *can* do better if we want to. If the branch is found to be
within limits, we could leave the branch as is; there'll just
be a bunch of NOP:s after it. But we shouldn't see this
sequence often enough that it's worth doing it. */
bfd_put_32 (abfd,
(((in1 ^ ((PRED_INV_BIT | COND_INV_BIT) << 24)) & ~0xffff)
| (24/4)),
(bfd_byte *) datap);
/* Put a "GO $255,$255,0" after the common sequence. */
bfd_put_32 (abfd,
((GO_INSN_BYTE | IMM_OFFSET_BIT) << 24) | 0xffff00,
(bfd_byte *) datap + 20);
/* Common sequence starts at offset 4. */
offs = 4;
/* We change to an absolute value. */
value += addr;
}
break;
case R_MMIX_PUSHJ:
{
int inreg = bfd_get_8 (abfd, (bfd_byte *) datap + 1);
/* Put a "PUSHGO $N,$255,0" after the common sequence. */
bfd_put_32 (abfd,
((PUSHGO_INSN_BYTE | IMM_OFFSET_BIT) << 24)
| (inreg << 16)
| 0xff00,
(bfd_byte *) datap + 16);
/* We change to an absolute value. */
value += addr;
}
break;
case R_MMIX_JMP:
/* This one is a little special. If we get here on a non-relaxing
link, and the destination is actually in range, we don't need to
execute the nops.
If so, we fall through to the bit-fiddling relocs.
FIXME: bfd_check_overflow seems broken; the relocation is
rightshifted before testing, so supply a zero rightshift. */
if (! ((value & 3) == 0
&& (r = bfd_check_overflow (complain_overflow_signed,
howto->bitsize,
0,
bfd_arch_bits_per_address (abfd),
value)) == bfd_reloc_ok))
{
/* If the relocation doesn't fit in a JMP, we let the NOP:s be
modified below, and put a "GO $255,$255,0" after the
address-loading sequence. */
bfd_put_32 (abfd,
((GO_INSN_BYTE | IMM_OFFSET_BIT) << 24)
| 0xffff00,
(bfd_byte *) datap + 16);
/* We change to an absolute value. */
value += addr;
break;
}
/* FALLTHROUGH. */
case R_MMIX_ADDR19:
case R_MMIX_ADDR27:
/* These must be in range, or else we emit an error. */
if ((value & 3) == 0
/* Note rightshift 0; see above. */
&& (r = bfd_check_overflow (complain_overflow_signed,
howto->bitsize,
0,
bfd_arch_bits_per_address (abfd),
value)) == bfd_reloc_ok)
{
bfd_vma in1
= bfd_get_32 (abfd, (bfd_byte *) datap);
bfd_vma highbit;
if ((bfd_signed_vma) value < 0)
{
highbit = (1 << 24);
value += (1 << (howto->bitsize - 1));
}
else
highbit = 0;
value >>= 2;
bfd_put_32 (abfd,
(in1 & howto->src_mask)
| highbit
| (value & howto->dst_mask),
(bfd_byte *) datap);
return bfd_reloc_ok;
}
else
return bfd_reloc_overflow;
case R_MMIX_BASE_PLUS_OFFSET:
{
struct bpo_reloc_section_info *bpodata
= (struct bpo_reloc_section_info *)
elf_section_data (isec)->tdata;
asection *bpo_greg_section
= bpodata->bpo_greg_section;
struct bpo_greg_section_info *gregdata
= (struct bpo_greg_section_info *)
elf_section_data (bpo_greg_section)->tdata;
size_t bpo_index
= gregdata->bpo_reloc_indexes[bpodata->bpo_index++];
/* A consistency check: The value we now have in "relocation" must
be the same as the value we stored for that relocation. It
doesn't cost much, so can be left in at all times. */
if (value != gregdata->reloc_request[bpo_index].value)
{
(*_bfd_error_handler)
(_("%s: Internal inconsistency error for value for\n\
linker-allocated global register: linked: 0x%lx%08lx != relaxed: 0x%lx%08lx\n"),
bfd_get_filename (isec->owner),
(unsigned long) (value >> 32), (unsigned long) value,
(unsigned long) (gregdata->reloc_request[bpo_index].value
>> 32),
(unsigned long) gregdata->reloc_request[bpo_index].value);
bfd_set_error (bfd_error_bad_value);
return bfd_reloc_overflow;
}
/* Then store the register number and offset for that register
into datap and datap + 1 respectively. */
bfd_put_8 (abfd,
gregdata->reloc_request[bpo_index].regindex
+ bpo_greg_section->output_section->vma / 8,
datap);
bfd_put_8 (abfd,
gregdata->reloc_request[bpo_index].offset,
((unsigned char *) datap) + 1);
return bfd_reloc_ok;
}
case R_MMIX_REG_OR_BYTE:
case R_MMIX_REG:
if (value > 255)
return bfd_reloc_overflow;
bfd_put_8 (abfd, value, datap);
return bfd_reloc_ok;
default:
BAD_CASE (howto->type);
}
/* This code adds the common SETL/INCML/INCMH/INCH worst-case
sequence. */
/* Lowest two bits must be 0. We return bfd_reloc_overflow for
everything that looks strange. */
if (value & 3)
flag = bfd_reloc_overflow;
bfd_put_32 (abfd,
(SETL_INSN_BYTE << 24) | (value & 0xffff) | (reg << 16),
(bfd_byte *) datap + offs);
bfd_put_32 (abfd,
(INCML_INSN_BYTE << 24) | ((value >> 16) & 0xffff) | (reg << 16),
(bfd_byte *) datap + offs + 4);
bfd_put_32 (abfd,
(INCMH_INSN_BYTE << 24) | ((value >> 32) & 0xffff) | (reg << 16),
(bfd_byte *) datap + offs + 8);
bfd_put_32 (abfd,
(INCH_INSN_BYTE << 24) | ((value >> 48) & 0xffff) | (reg << 16),
(bfd_byte *) datap + offs + 12);
return flag;
}
/* Set the howto pointer for an MMIX ELF reloc (type RELA). */
static void
mmix_info_to_howto_rela (abfd, cache_ptr, dst)
bfd *abfd ATTRIBUTE_UNUSED;
arelent *cache_ptr;
Elf64_Internal_Rela *dst;
{
unsigned int r_type;
r_type = ELF64_R_TYPE (dst->r_info);
BFD_ASSERT (r_type < (unsigned int) R_MMIX_max);
cache_ptr->howto = &elf_mmix_howto_table[r_type];
}
/* Any MMIX-specific relocation gets here at assembly time or when linking
to other formats (such as mmo); this is the relocation function from
the reloc_table. We don't get here for final pure ELF linking. */
static bfd_reloc_status_type
mmix_elf_reloc (abfd, reloc_entry, symbol, data, input_section,
output_bfd, error_message)
bfd *abfd;
arelent *reloc_entry;
asymbol *symbol;
PTR data;
asection *input_section;
bfd *output_bfd;
char **error_message ATTRIBUTE_UNUSED;
{
bfd_vma relocation;
bfd_reloc_status_type r;
asection *reloc_target_output_section;
bfd_reloc_status_type flag = bfd_reloc_ok;
bfd_vma output_base = 0;
bfd_vma addr;
r = bfd_elf_generic_reloc (abfd, reloc_entry, symbol, data,
input_section, output_bfd, error_message);
/* If that was all that was needed (i.e. this isn't a final link, only
some segment adjustments), we're done. */
if (r != bfd_reloc_continue)
return r;
if (bfd_is_und_section (symbol->section)
&& (symbol->flags & BSF_WEAK) == 0
&& output_bfd == (bfd *) NULL)
return bfd_reloc_undefined;
/* Is the address of the relocation really within the section? */
if (reloc_entry->address > input_section->_cooked_size)
return bfd_reloc_outofrange;
/* Work out which section the relocation is targetted at and the
initial relocation command value. */
/* Get symbol value. (Common symbols are special.) */
if (bfd_is_com_section (symbol->section))
relocation = 0;
else
relocation = symbol->value;
reloc_target_output_section = bfd_get_output_section (symbol);
/* Here the variable relocation holds the final address of the symbol we
are relocating against, plus any addend. */
if (output_bfd)
output_base = 0;
else
output_base = reloc_target_output_section->vma;
relocation += output_base + symbol->section->output_offset;
/* Get position of relocation. */
addr = (reloc_entry->address + input_section->output_section->vma
+ input_section->output_offset);
if (output_bfd != (bfd *) NULL)
{
/* Add in supplied addend. */
relocation += reloc_entry->addend;
/* This is a partial relocation, and we want to apply the
relocation to the reloc entry rather than the raw data.
Modify the reloc inplace to reflect what we now know. */
reloc_entry->addend = relocation;
reloc_entry->address += input_section->output_offset;
return flag;
}
return mmix_final_link_relocate (reloc_entry->howto, input_section,
data, reloc_entry->address,
reloc_entry->addend, relocation,
bfd_asymbol_name (symbol),
reloc_target_output_section);
}
/* Relocate an MMIX ELF section. Modified from elf32-fr30.c; look to it
for guidance if you're thinking of copying this. */
static boolean
mmix_elf_relocate_section (output_bfd, info, input_bfd, input_section,
contents, relocs, local_syms, local_sections)
bfd *output_bfd ATTRIBUTE_UNUSED;
struct bfd_link_info *info;
bfd *input_bfd;
asection *input_section;
bfd_byte *contents;
Elf_Internal_Rela *relocs;
Elf_Internal_Sym *local_syms;
asection **local_sections;
{
Elf_Internal_Shdr *symtab_hdr;
struct elf_link_hash_entry **sym_hashes;
Elf_Internal_Rela *rel;
Elf_Internal_Rela *relend;
symtab_hdr = &elf_tdata (input_bfd)->symtab_hdr;
sym_hashes = elf_sym_hashes (input_bfd);
relend = relocs + input_section->reloc_count;
for (rel = relocs; rel < relend; rel ++)
{
reloc_howto_type *howto;
unsigned long r_symndx;
Elf_Internal_Sym *sym;
asection *sec;
struct elf_link_hash_entry *h;
bfd_vma relocation;
bfd_reloc_status_type r;
const char *name = NULL;
int r_type;
boolean undefined_signalled = false;
r_type = ELF64_R_TYPE (rel->r_info);
if (r_type == R_MMIX_GNU_VTINHERIT
|| r_type == R_MMIX_GNU_VTENTRY)
continue;
r_symndx = ELF64_R_SYM (rel->r_info);
if (info->relocateable)
{
/* This is a relocateable link. We don't have to change
anything, unless the reloc is against a section symbol,
in which case we have to adjust according to where the
section symbol winds up in the output section. */
if (r_symndx < symtab_hdr->sh_info)
{
sym = local_syms + r_symndx;
if (ELF_ST_TYPE (sym->st_info) == STT_SECTION)
{
sec = local_sections [r_symndx];
rel->r_addend += sec->output_offset + sym->st_value;
}
}
continue;
}
/* This is a final link. */
howto = elf_mmix_howto_table + ELF64_R_TYPE (rel->r_info);
h = NULL;
sym = NULL;
sec = NULL;
if (r_symndx < symtab_hdr->sh_info)
{
sym = local_syms + r_symndx;
sec = local_sections [r_symndx];
relocation = _bfd_elf_rela_local_sym (output_bfd, sym, sec, rel);
name = bfd_elf_string_from_elf_section
(input_bfd, symtab_hdr->sh_link, sym->st_name);
name = (name == NULL) ? bfd_section_name (input_bfd, sec) : name;
}
else
{
h = sym_hashes [r_symndx - symtab_hdr->sh_info];
while (h->root.type == bfd_link_hash_indirect
|| h->root.type == bfd_link_hash_warning)
h = (struct elf_link_hash_entry *) h->root.u.i.link;
name = h->root.root.string;
if (h->root.type == bfd_link_hash_defined
|| h->root.type == bfd_link_hash_defweak)
{
sec = h->root.u.def.section;
relocation = (h->root.u.def.value
+ sec->output_section->vma
+ sec->output_offset);
}
else if (h->root.type == bfd_link_hash_undefweak)
relocation = 0;
else if (info->shared
&& ELF_ST_VISIBILITY (h->other) == STV_DEFAULT)
relocation = 0;
else
{
/* The test on undefined_signalled is redundant at the
moment, but kept for symmetry. */
if (! undefined_signalled
&& ! ((*info->callbacks->undefined_symbol)
(info, h->root.root.string, input_bfd,
input_section, rel->r_offset, true)))
return false;
undefined_signalled = true;
relocation = 0;
}
}
r = mmix_final_link_relocate (howto, input_section,
contents, rel->r_offset,
rel->r_addend, relocation, name, sec);
if (r != bfd_reloc_ok)
{
boolean check_ok = true;
const char * msg = (const char *) NULL;
switch (r)
{
case bfd_reloc_overflow:
check_ok = info->callbacks->reloc_overflow
(info, name, howto->name, (bfd_vma) 0,
input_bfd, input_section, rel->r_offset);
break;
case bfd_reloc_undefined:
/* We may have sent this message above. */
if (! undefined_signalled)
check_ok = info->callbacks->undefined_symbol
(info, name, input_bfd, input_section, rel->r_offset,
true);
undefined_signalled = true;
break;
case bfd_reloc_outofrange:
msg = _("internal error: out of range error");
break;
case bfd_reloc_notsupported:
msg = _("internal error: unsupported relocation error");
break;
case bfd_reloc_dangerous:
msg = _("internal error: dangerous relocation");
break;
default:
msg = _("internal error: unknown error");
break;
}
if (msg)
check_ok = info->callbacks->warning
(info, msg, name, input_bfd, input_section, rel->r_offset);
if (! check_ok)
return false;
}
}
return true;
}
/* Perform a single relocation. By default we use the standard BFD
routines. A few relocs we have to do ourselves. */
static bfd_reloc_status_type
mmix_final_link_relocate (howto, input_section, contents,
r_offset, r_addend, relocation, symname, symsec)
reloc_howto_type *howto;
asection *input_section;
bfd_byte *contents;
bfd_vma r_offset;
bfd_signed_vma r_addend;
bfd_vma relocation;
const char *symname;
asection *symsec;
{
bfd_reloc_status_type r = bfd_reloc_ok;
bfd_vma addr
= (input_section->output_section->vma
+ input_section->output_offset
+ r_offset);
bfd_signed_vma srel
= (bfd_signed_vma) relocation + r_addend;
switch (howto->type)
{
/* All these are PC-relative. */
case R_MMIX_PUSHJ:
case R_MMIX_CBRANCH:
case R_MMIX_ADDR19:
case R_MMIX_GETA:
case R_MMIX_ADDR27:
case R_MMIX_JMP:
contents += r_offset;
srel -= (input_section->output_section->vma
+ input_section->output_offset
+ r_offset);
r = mmix_elf_perform_relocation (input_section, howto, contents,
addr, srel);
break;
case R_MMIX_BASE_PLUS_OFFSET:
if (symsec == NULL)
return bfd_reloc_undefined;
/* Check that we're not relocating against a register symbol. */
if (strcmp (bfd_get_section_name (symsec->owner, symsec),
MMIX_REG_CONTENTS_SECTION_NAME) == 0
|| strcmp (bfd_get_section_name (symsec->owner, symsec),
MMIX_REG_SECTION_NAME) == 0)
{
/* Note: This is separated out into two messages in order
to ease the translation into other languages. */
if (symname == NULL || *symname == 0)
(*_bfd_error_handler)
(_("%s: base-plus-offset relocation against register symbol: (unknown) in %s"),
bfd_get_filename (input_section->owner),
bfd_get_section_name (symsec->owner, symsec));
else
(*_bfd_error_handler)
(_("%s: base-plus-offset relocation against register symbol: %s in %s"),
bfd_get_filename (input_section->owner), symname,
bfd_get_section_name (symsec->owner, symsec));
return bfd_reloc_overflow;
}
goto do_mmix_reloc;
case R_MMIX_REG_OR_BYTE:
case R_MMIX_REG:
/* For now, we handle these alike. They must refer to an register
symbol, which is either relative to the register section and in
the range 0..255, or is in the register contents section with vma
regno * 8. */
/* FIXME: A better way to check for reg contents section?
FIXME: Postpone section->scaling to mmix_elf_perform_relocation? */
if (symsec == NULL)
return bfd_reloc_undefined;
if (strcmp (bfd_get_section_name (symsec->owner, symsec),
MMIX_REG_CONTENTS_SECTION_NAME) == 0)
{
if ((srel & 7) != 0 || srel < 32*8 || srel > 255*8)
{
/* The bfd_reloc_outofrange return value, though intuitively
a better value, will not get us an error. */
return bfd_reloc_overflow;
}
srel /= 8;
}
else if (strcmp (bfd_get_section_name (symsec->owner, symsec),
MMIX_REG_SECTION_NAME) == 0)
{
if (srel < 0 || srel > 255)
/* The bfd_reloc_outofrange return value, though intuitively a
better value, will not get us an error. */
return bfd_reloc_overflow;
}
else
{
/* Note: This is separated out into two messages in order
to ease the translation into other languages. */
if (symname == NULL || *symname == 0)
(*_bfd_error_handler)
(_("%s: register relocation against non-register symbol: (unknown) in %s"),
bfd_get_filename (input_section->owner),
bfd_get_section_name (symsec->owner, symsec));
else
(*_bfd_error_handler)
(_("%s: register relocation against non-register symbol: %s in %s"),
bfd_get_filename (input_section->owner), symname,
bfd_get_section_name (symsec->owner, symsec));
/* The bfd_reloc_outofrange return value, though intuitively a
better value, will not get us an error. */
return bfd_reloc_overflow;
}
do_mmix_reloc:
contents += r_offset;
r = mmix_elf_perform_relocation (input_section, howto, contents,
addr, srel);
break;
case R_MMIX_LOCAL:
/* This isn't a real relocation, it's just an assertion that the
final relocation value corresponds to a local register. We
ignore the actual relocation; nothing is changed. */
{
asection *regsec
= bfd_get_section_by_name (input_section->output_section->owner,
MMIX_REG_CONTENTS_SECTION_NAME);
bfd_vma first_global;
/* Check that this is an absolute value, or a reference to the
register contents section or the register (symbol) section.
Absolute numbers can get here as undefined section. Undefined
symbols are signalled elsewhere, so there's no conflict in us
accidentally handling it. */
if (!bfd_is_abs_section (symsec)
&& !bfd_is_und_section (symsec)
&& strcmp (bfd_get_section_name (symsec->owner, symsec),
MMIX_REG_CONTENTS_SECTION_NAME) != 0
&& strcmp (bfd_get_section_name (symsec->owner, symsec),
MMIX_REG_SECTION_NAME) != 0)
{
(*_bfd_error_handler)
(_("%s: directive LOCAL valid only with a register or absolute value"),
bfd_get_filename (input_section->owner));
return bfd_reloc_overflow;
}
/* If we don't have a register contents section, then $255 is the
first global register. */
if (regsec == NULL)
first_global = 255;
else
{
first_global = bfd_get_section_vma (abfd, regsec) / 8;
if (strcmp (bfd_get_section_name (symsec->owner, symsec),
MMIX_REG_CONTENTS_SECTION_NAME) == 0)
{
if ((srel & 7) != 0 || srel < 32*8 || srel > 255*8)
/* The bfd_reloc_outofrange return value, though
intuitively a better value, will not get us an error. */
return bfd_reloc_overflow;
srel /= 8;
}
}
if ((bfd_vma) srel >= first_global)
{
/* FIXME: Better error message. */
(*_bfd_error_handler)
(_("%s: LOCAL directive: Register $%ld is not a local register. First global register is $%ld."),
bfd_get_filename (input_section->owner), (long) srel, (long) first_global);
return bfd_reloc_overflow;
}
}
r = bfd_reloc_ok;
break;
default:
r = _bfd_final_link_relocate (howto, input_section->owner, input_section,
contents, r_offset,
relocation, r_addend);
}
return r;
}
/* Return the section that should be marked against GC for a given
relocation. */
static asection *
mmix_elf_gc_mark_hook (abfd, info, rel, h, sym)
bfd *abfd;
struct bfd_link_info *info ATTRIBUTE_UNUSED;
Elf_Internal_Rela *rel;
struct elf_link_hash_entry *h;
Elf_Internal_Sym *sym;
{
if (h != NULL)
{
switch (ELF64_R_TYPE (rel->r_info))
{
case R_MMIX_GNU_VTINHERIT:
case R_MMIX_GNU_VTENTRY:
break;
default:
switch (h->root.type)
{
case bfd_link_hash_defined:
case bfd_link_hash_defweak:
return h->root.u.def.section;
case bfd_link_hash_common:
return h->root.u.c.p->section;
default:
break;
}
}
}
else
{
return bfd_section_from_elf_index (abfd, sym->st_shndx);
}
return NULL;
}
/* Update relocation info for a GC-excluded section. We could supposedly
perform the allocation after GC, but there's no suitable hook between
GC (or section merge) and the point when all input sections must be
present. Better to waste some memory and (perhaps) a little time. */
static boolean
mmix_elf_gc_sweep_hook (abfd, info, sec, relocs)
bfd *abfd ATTRIBUTE_UNUSED;
struct bfd_link_info *info ATTRIBUTE_UNUSED;
asection *sec ATTRIBUTE_UNUSED;
const Elf_Internal_Rela *relocs ATTRIBUTE_UNUSED;
{
struct bpo_reloc_section_info *bpodata
= (struct bpo_reloc_section_info *)
elf_section_data (sec)->tdata;
asection *allocated_gregs_section;
/* If no bpodata here, we have nothing to do. */
if (bpodata == NULL)
return true;
allocated_gregs_section = bpodata->bpo_greg_section;
((struct bpo_greg_section_info *)
elf_section_data (allocated_gregs_section)->tdata)
->n_bpo_relocs
-= bpodata->n_bpo_relocs_this_section;
return true;
}
/* Sort register relocs to come before expanding relocs. */
static int
mmix_elf_sort_relocs (p1, p2)
const PTR p1;
const PTR p2;
{
const Elf_Internal_Rela *r1 = (const Elf_Internal_Rela *) p1;
const Elf_Internal_Rela *r2 = (const Elf_Internal_Rela *) p2;
int r1_is_reg, r2_is_reg;
/* Sort primarily on r_offset & ~3, so relocs are done to consecutive
insns. */
if ((r1->r_offset & ~(bfd_vma) 3) > (r2->r_offset & ~(bfd_vma) 3))
return 1;
else if ((r1->r_offset & ~(bfd_vma) 3) < (r2->r_offset & ~(bfd_vma) 3))
return -1;
r1_is_reg
= (ELF64_R_TYPE (r1->r_info) == R_MMIX_REG_OR_BYTE
|| ELF64_R_TYPE (r1->r_info) == R_MMIX_REG);
r2_is_reg
= (ELF64_R_TYPE (r2->r_info) == R_MMIX_REG_OR_BYTE
|| ELF64_R_TYPE (r2->r_info) == R_MMIX_REG);
if (r1_is_reg != r2_is_reg)
return r2_is_reg - r1_is_reg;
/* Neither or both are register relocs. Then sort on full offset. */
if (r1->r_offset > r2->r_offset)
return 1;
else if (r1->r_offset < r2->r_offset)
return -1;
return 0;
}
/* Subset of mmix_elf_check_relocs, common to ELF and mmo linking. */
static boolean
mmix_elf_check_common_relocs (abfd, info, sec, relocs)
bfd *abfd;
struct bfd_link_info *info;
asection *sec;
const Elf_Internal_Rela *relocs;
{
bfd *bpo_greg_owner = NULL;
asection *allocated_gregs_section = NULL;
struct bpo_greg_section_info *gregdata = NULL;
struct bpo_reloc_section_info *bpodata = NULL;
const Elf_Internal_Rela *rel;
const Elf_Internal_Rela *rel_end;
if (info->relocateable)
return true;
/* We currently have to abuse this COFF-specific member, since there's
no target-machine-dedicated member. There's no alternative outside
the bfd_link_info struct; we can't specialize a hash-table since
they're different between ELF and mmo. */
bpo_greg_owner = (bfd *) info->base_file;
rel_end = relocs + sec->reloc_count;
for (rel = relocs; rel < rel_end; rel++)
{
switch (ELF64_R_TYPE (rel->r_info))
{
/* This relocation causes a GREG allocation. We need to count
them, and we need to create a section for them, so we need an
object to fake as the owner of that section. We can't use
the ELF dynobj for this, since the ELF bits assume lots of
DSO-related stuff if that member is non-NULL. */
case R_MMIX_BASE_PLUS_OFFSET:
if (bpo_greg_owner == NULL)
{
bpo_greg_owner = abfd;
info->base_file = (PTR) bpo_greg_owner;
}
if (allocated_gregs_section == NULL)
allocated_gregs_section
= bfd_get_section_by_name (bpo_greg_owner,
MMIX_LD_ALLOCATED_REG_CONTENTS_SECTION_NAME);
if (allocated_gregs_section == NULL)
{
allocated_gregs_section
= bfd_make_section (bpo_greg_owner,
MMIX_LD_ALLOCATED_REG_CONTENTS_SECTION_NAME);
/* Setting both SEC_ALLOC and SEC_LOAD means the section is
treated like any other section, and we'd get errors for
address overlap with the text section. Let's set none of
those flags, as that is what currently happens for usual
GREG allocations, and that works. */
if (allocated_gregs_section == NULL
|| !bfd_set_section_flags (bpo_greg_owner,
allocated_gregs_section,
(SEC_HAS_CONTENTS
| SEC_IN_MEMORY
| SEC_LINKER_CREATED))
|| !bfd_set_section_alignment (bpo_greg_owner,
allocated_gregs_section,
3))
return false;
gregdata = (struct bpo_greg_section_info *)
bfd_zalloc (bpo_greg_owner, sizeof (struct bpo_greg_section_info));
if (gregdata == NULL)
return false;
elf_section_data (allocated_gregs_section)->tdata = gregdata;
}
else if (gregdata == NULL)
gregdata = elf_section_data (allocated_gregs_section)->tdata;
/* Get ourselves some auxiliary info for the BPO-relocs. */
if (bpodata == NULL)
{
/* No use doing a separate iteration pass to find the upper
limit - just use the number of relocs. */
bpodata = (struct bpo_reloc_section_info *)
bfd_alloc (bpo_greg_owner,
sizeof (struct bpo_reloc_section_info)
* (sec->reloc_count + 1));
if (bpodata == NULL)
return false;
elf_section_data (sec)->tdata = bpodata;
bpodata->first_base_plus_offset_reloc
= bpodata->bpo_index
= gregdata->n_max_bpo_relocs;
bpodata->bpo_greg_section
= allocated_gregs_section;
bpodata->n_bpo_relocs_this_section = 0;
}
bpodata->n_bpo_relocs_this_section++;
gregdata->n_max_bpo_relocs++;
/* We don't get another chance to set this before GC; we've not
set up set up any hook that runs before GC. */
gregdata->n_bpo_relocs
= gregdata->n_max_bpo_relocs;
break;
}
}
return true;
}
/* Look through the relocs for a section during the first phase. */
static boolean
mmix_elf_check_relocs (abfd, info, sec, relocs)
bfd *abfd;
struct bfd_link_info *info;
asection *sec;
const Elf_Internal_Rela *relocs;
{
Elf_Internal_Shdr *symtab_hdr;
struct elf_link_hash_entry **sym_hashes, **sym_hashes_end;
const Elf_Internal_Rela *rel;
const Elf_Internal_Rela *rel_end;
if (info->relocateable)
return true;
symtab_hdr = &elf_tdata (abfd)->symtab_hdr;
sym_hashes = elf_sym_hashes (abfd);
sym_hashes_end = sym_hashes + symtab_hdr->sh_size/sizeof(Elf64_External_Sym);
if (!elf_bad_symtab (abfd))
sym_hashes_end -= symtab_hdr->sh_info;
/* First we sort the relocs so that any register relocs come before
expansion-relocs to the same insn. FIXME: Not done for mmo. */
qsort ((PTR) relocs, sec->reloc_count, sizeof (Elf_Internal_Rela),
mmix_elf_sort_relocs);
/* Do the common part. */
if (!mmix_elf_check_common_relocs (abfd, info, sec, relocs))
return false;
rel_end = relocs + sec->reloc_count;
for (rel = relocs; rel < rel_end; rel++)
{
struct elf_link_hash_entry *h;
unsigned long r_symndx;
r_symndx = ELF64_R_SYM (rel->r_info);
if (r_symndx < symtab_hdr->sh_info)
h = NULL;
else
h = sym_hashes[r_symndx - symtab_hdr->sh_info];
switch (ELF64_R_TYPE (rel->r_info))
{
/* This relocation describes the C++ object vtable hierarchy.
Reconstruct it for later use during GC. */
case R_MMIX_GNU_VTINHERIT:
if (!_bfd_elf64_gc_record_vtinherit (abfd, sec, h, rel->r_offset))
return false;
break;
/* This relocation describes which C++ vtable entries are actually
used. Record for later use during GC. */
case R_MMIX_GNU_VTENTRY:
if (!_bfd_elf64_gc_record_vtentry (abfd, sec, h, rel->r_addend))
return false;
break;
}
}
return true;
}
/* Wrapper for mmix_elf_check_common_relocs, called when linking to mmo.
Copied from elf_link_add_object_symbols. */
boolean
_bfd_mmix_check_all_relocs (abfd, info)
bfd *abfd;
struct bfd_link_info *info;
{
asection *o;
for (o = abfd->sections; o != NULL; o = o->next)
{
Elf_Internal_Rela *internal_relocs;
boolean ok;
if ((o->flags & SEC_RELOC) == 0
|| o->reloc_count == 0
|| ((info->strip == strip_all || info->strip == strip_debugger)
&& (o->flags & SEC_DEBUGGING) != 0)
|| bfd_is_abs_section (o->output_section))
continue;
internal_relocs
= _bfd_elf64_link_read_relocs (abfd, o, (PTR) NULL,
(Elf_Internal_Rela *) NULL,
info->keep_memory);
if (internal_relocs == NULL)
return false;
ok = mmix_elf_check_common_relocs (abfd, info, o, internal_relocs);
if (! info->keep_memory)
free (internal_relocs);
if (! ok)
return false;
}
return true;
}
/* Change symbols relative to the reg contents section to instead be to
the register section, and scale them down to correspond to the register
number. */
static boolean
mmix_elf_link_output_symbol_hook (abfd, info, name, sym, input_sec)
bfd *abfd ATTRIBUTE_UNUSED;
struct bfd_link_info *info ATTRIBUTE_UNUSED;
const char *name ATTRIBUTE_UNUSED;
Elf_Internal_Sym *sym;
asection *input_sec;
{
if (input_sec != NULL
&& input_sec->name != NULL
&& ELF_ST_TYPE (sym->st_info) != STT_SECTION
&& strcmp (input_sec->name, MMIX_REG_CONTENTS_SECTION_NAME) == 0)
{
sym->st_value /= 8;
sym->st_shndx = SHN_REGISTER;
}
return true;
}
/* We fake a register section that holds values that are register numbers.
Having a SHN_REGISTER and register section translates better to other
formats (e.g. mmo) than for example a STT_REGISTER attribute.
This section faking is based on a construct in elf32-mips.c. */
static asection mmix_elf_reg_section;
static asymbol mmix_elf_reg_section_symbol;
static asymbol *mmix_elf_reg_section_symbol_ptr;
/* Handle the special MIPS section numbers that a symbol may use.
This is used for both the 32-bit and the 64-bit ABI. */
void
mmix_elf_symbol_processing (abfd, asym)
bfd *abfd ATTRIBUTE_UNUSED;
asymbol *asym;
{
elf_symbol_type *elfsym;
elfsym = (elf_symbol_type *) asym;
switch (elfsym->internal_elf_sym.st_shndx)
{
case SHN_REGISTER:
if (mmix_elf_reg_section.name == NULL)
{
/* Initialize the register section. */
mmix_elf_reg_section.name = MMIX_REG_SECTION_NAME;
mmix_elf_reg_section.flags = SEC_NO_FLAGS;
mmix_elf_reg_section.output_section = &mmix_elf_reg_section;
mmix_elf_reg_section.symbol = &mmix_elf_reg_section_symbol;
mmix_elf_reg_section.symbol_ptr_ptr = &mmix_elf_reg_section_symbol_ptr;
mmix_elf_reg_section_symbol.name = MMIX_REG_SECTION_NAME;
mmix_elf_reg_section_symbol.flags = BSF_SECTION_SYM;
mmix_elf_reg_section_symbol.section = &mmix_elf_reg_section;
mmix_elf_reg_section_symbol_ptr = &mmix_elf_reg_section_symbol;
}
asym->section = &mmix_elf_reg_section;
break;
default:
break;
}
}
/* Given a BFD section, try to locate the corresponding ELF section
index. */
static boolean
mmix_elf_section_from_bfd_section (abfd, sec, retval)
bfd * abfd ATTRIBUTE_UNUSED;
asection * sec;
int * retval;
{
if (strcmp (bfd_get_section_name (abfd, sec), MMIX_REG_SECTION_NAME) == 0)
*retval = SHN_REGISTER;
else
return false;
return true;
}
/* Hook called by the linker routine which adds symbols from an object
file. We must handle the special SHN_REGISTER section number here.
We also check that we only have *one* each of the section-start
symbols, since otherwise having two with the same value would cause
them to be "merged", but with the contents serialized. */
boolean
mmix_elf_add_symbol_hook (abfd, info, sym, namep, flagsp, secp, valp)
bfd *abfd;
struct bfd_link_info *info ATTRIBUTE_UNUSED;
const Elf_Internal_Sym *sym;
const char **namep ATTRIBUTE_UNUSED;
flagword *flagsp ATTRIBUTE_UNUSED;
asection **secp;
bfd_vma *valp ATTRIBUTE_UNUSED;
{
if (sym->st_shndx == SHN_REGISTER)
*secp = bfd_make_section_old_way (abfd, MMIX_REG_SECTION_NAME);
else if ((*namep)[0] == '_' && (*namep)[1] == '_' && (*namep)[2] == '.'
&& strncmp (*namep, MMIX_LOC_SECTION_START_SYMBOL_PREFIX,
strlen (MMIX_LOC_SECTION_START_SYMBOL_PREFIX)) == 0)
{
/* See if we have another one. */
struct bfd_link_hash_entry *h = bfd_link_hash_lookup (info->hash,
*namep,
false,
false,
false);
if (h != NULL && h->type != bfd_link_hash_undefined)
{
/* How do we get the asymbol (or really: the filename) from h?
h->u.def.section->owner is NULL. */
((*_bfd_error_handler)
(_("%s: Error: multiple definition of `%s'; start of %s is set in a earlier linked file\n"),
bfd_get_filename (abfd), *namep,
*namep + strlen (MMIX_LOC_SECTION_START_SYMBOL_PREFIX)));
bfd_set_error (bfd_error_bad_value);
return false;
}
}
return true;
}
/* We consider symbols matching "L.*:[0-9]+" to be local symbols. */
boolean
mmix_elf_is_local_label_name (abfd, name)
bfd *abfd;
const char *name;
{
const char *colpos;
int digits;
/* Also include the default local-label definition. */
if (_bfd_elf_is_local_label_name (abfd, name))
return true;
if (*name != 'L')
return false;
/* If there's no ":", or more than one, it's not a local symbol. */
colpos = strchr (name, ':');
if (colpos == NULL || strchr (colpos + 1, ':') != NULL)
return false;
/* Check that there are remaining characters and that they are digits. */
if (colpos[1] == 0)
return false;
digits = strspn (colpos + 1, "0123456789");
return digits != 0 && colpos[1 + digits] == 0;
}
/* We get rid of the register section here. */
boolean
mmix_elf_final_link (abfd, info)
bfd *abfd;
struct bfd_link_info *info;
{
/* We never output a register section, though we create one for
temporary measures. Check that nobody entered contents into it. */
asection *reg_section;
asection **secpp;
reg_section = bfd_get_section_by_name (abfd, MMIX_REG_SECTION_NAME);
if (reg_section != NULL)
{
/* FIXME: Pass error state gracefully. */
if (bfd_get_section_flags (abfd, reg_section) & SEC_HAS_CONTENTS)
_bfd_abort (__FILE__, __LINE__, _("Register section has contents\n"));
/* Really remove the section. */
for (secpp = &abfd->sections;
*secpp != reg_section;
secpp = &(*secpp)->next)
;
bfd_section_list_remove (abfd, secpp);
--abfd->section_count;
}
if (! bfd_elf64_bfd_final_link (abfd, info))
return false;
/* Since this section is marked SEC_LINKER_CREATED, it isn't output by
the regular linker machinery. We do it here, like other targets with
special sections. */
if (info->base_file != NULL)
{
asection *greg_section
= bfd_get_section_by_name ((bfd *) info->base_file,
MMIX_LD_ALLOCATED_REG_CONTENTS_SECTION_NAME);
if (!bfd_set_section_contents (abfd,
greg_section->output_section,
greg_section->contents,
(file_ptr) greg_section->output_offset,
greg_section->_cooked_size))
return false;
}
return true;
}
/* Initialize stuff for the linker-generated GREGs to match
R_MMIX_BASE_PLUS_OFFSET relocs seen by the linker. */
boolean
_bfd_mmix_prepare_linker_allocated_gregs (abfd, info)
bfd *abfd ATTRIBUTE_UNUSED;
struct bfd_link_info *info;
{
asection *bpo_gregs_section;
bfd *bpo_greg_owner;
struct bpo_greg_section_info *gregdata;
size_t n_gregs;
bfd_vma gregs_size;
size_t i;
size_t *bpo_reloc_indexes;
/* The bpo_greg_owner bfd is supposed to have been set by
mmix_elf_check_relocs when the first R_MMIX_BASE_PLUS_OFFSET is seen.
If there is no such object, there was no R_MMIX_BASE_PLUS_OFFSET. */
bpo_greg_owner = (bfd *) info->base_file;
if (bpo_greg_owner == NULL)
return true;
bpo_gregs_section
= bfd_get_section_by_name (bpo_greg_owner,
MMIX_LD_ALLOCATED_REG_CONTENTS_SECTION_NAME);
if (bpo_gregs_section == NULL)
return true;
/* We use the target-data handle in the ELF section data. */
gregdata = (struct bpo_greg_section_info *)
elf_section_data (bpo_gregs_section)->tdata;
if (gregdata == NULL)
return false;
n_gregs = gregdata->n_bpo_relocs;
gregdata->n_allocated_bpo_gregs = n_gregs;
/* When this reaches zero during relaxation, all entries have been
filled in and the size of the linker gregs can be calculated. */
gregdata->n_remaining_bpo_relocs_this_relaxation_round = n_gregs;
/* Set the zeroth-order estimate for the GREGs size. */
gregs_size = n_gregs * 8;
if (!bfd_set_section_size (bpo_greg_owner, bpo_gregs_section, gregs_size))
return false;
/* Allocate and set up the GREG arrays. They're filled in at relaxation
time. Note that we must use the max number ever noted for the array,
since the index numbers were created before GC. */
gregdata->reloc_request
= bfd_zalloc (bpo_greg_owner,
sizeof (struct bpo_reloc_request)
* gregdata->n_max_bpo_relocs);
gregdata->bpo_reloc_indexes
= bpo_reloc_indexes
= bfd_alloc (bpo_greg_owner,
gregdata->n_max_bpo_relocs
* sizeof (size_t));
if (bpo_reloc_indexes == NULL)
return false;
/* The default order is an identity mapping. */
for (i = 0; i < gregdata->n_max_bpo_relocs; i++)
{
bpo_reloc_indexes[i] = i;
gregdata->reloc_request[i].bpo_reloc_no = i;
}
return true;
}
/* Fill in contents in the linker allocated gregs. Everything is
calculated at this point; we just move the contents into place here. */
boolean
_bfd_mmix_finalize_linker_allocated_gregs (abfd, link_info)
bfd *abfd ATTRIBUTE_UNUSED;
struct bfd_link_info *link_info;
{
asection *bpo_gregs_section;
bfd *bpo_greg_owner;
struct bpo_greg_section_info *gregdata;
size_t n_gregs;
size_t i, j;
size_t lastreg;
bfd_byte *contents;
/* The bpo_greg_owner bfd is supposed to have been set by mmix_elf_check_relocs
when the first R_MMIX_BASE_PLUS_OFFSET is seen. If there is no such
object, there was no R_MMIX_BASE_PLUS_OFFSET. */
bpo_greg_owner = (bfd *) link_info->base_file;
if (bpo_greg_owner == NULL)
return true;
bpo_gregs_section
= bfd_get_section_by_name (bpo_greg_owner,
MMIX_LD_ALLOCATED_REG_CONTENTS_SECTION_NAME);
/* This can't happen without DSO handling. When DSOs are handled
without any R_MMIX_BASE_PLUS_OFFSET seen, there will be no such
section. */
if (bpo_gregs_section == NULL)
return true;
/* We use the target-data handle in the ELF section data. */
gregdata = (struct bpo_greg_section_info *)
elf_section_data (bpo_gregs_section)->tdata;
if (gregdata == NULL)
return false;
n_gregs = gregdata->n_allocated_bpo_gregs;
bpo_gregs_section->contents
= contents = bfd_alloc (bpo_greg_owner, bpo_gregs_section->_cooked_size);
if (contents == NULL)
return false;
/* Sanity check: If these numbers mismatch, some relocation has not been
accounted for and the rest of gregdata is probably inconsistent.
It's a bug, but it's more helpful to identify it than segfaulting
below. */
if (gregdata->n_remaining_bpo_relocs_this_relaxation_round
!= gregdata->n_bpo_relocs)
{
(*_bfd_error_handler)
(_("Internal inconsistency: remaining %u != max %u.\n\
Please report this bug."),
gregdata->n_remaining_bpo_relocs_this_relaxation_round,
gregdata->n_bpo_relocs);
return false;
}
for (lastreg = 255, i = 0, j = 0; j < n_gregs; i++)
if (gregdata->reloc_request[i].regindex != lastreg)
{
bfd_put_64 (bpo_greg_owner, gregdata->reloc_request[i].value,
contents + j * 8);
lastreg = gregdata->reloc_request[i].regindex;
j++;
}
return true;
}
/* Sort valid relocs to come before non-valid relocs, then on increasing
value. */
static int
bpo_reloc_request_sort_fn (p1, p2)
const PTR p1;
const PTR p2;
{
const struct bpo_reloc_request *r1 = (const struct bpo_reloc_request *) p1;
const struct bpo_reloc_request *r2 = (const struct bpo_reloc_request *) p2;
/* Primary function is validity; non-valid relocs sorted after valid
ones. */
if (r1->valid != r2->valid)
return r2->valid - r1->valid;
/* Then sort on value. Don't simplify and return just the difference of
the values: the upper bits of the 64-bit value would be truncated on
a host with 32-bit ints. */
if (r1->value != r2->value)
return r1->value > r2->value ? 1 : -1;
/* As a last re-sort, use the address so we get a stable sort. */
return r1 > r2 ? 1 : (r1 < r2 ? -1 : 0);
}
/* For debug use only. Dumps the global register allocations resulting
from base-plus-offset relocs. */
void
mmix_dump_bpo_gregs (link_info, pf)
struct bfd_link_info *link_info;
bfd_error_handler_type pf;
{
bfd *bpo_greg_owner;
asection *bpo_gregs_section;
struct bpo_greg_section_info *gregdata;
unsigned int i;
if (link_info == NULL || link_info->base_file == NULL)
return;
bpo_greg_owner = (bfd *) link_info->base_file;
bpo_gregs_section
= bfd_get_section_by_name (bpo_greg_owner,
MMIX_LD_ALLOCATED_REG_CONTENTS_SECTION_NAME);
if (bpo_gregs_section == NULL)
return;
gregdata = (struct bpo_greg_section_info *)
elf_section_data (bpo_gregs_section)->tdata;
if (gregdata == NULL)
return;
if (pf == NULL)
pf = _bfd_error_handler;
/* These format strings are not translated. They are for debug purposes
only and never displayed to an end user. Should they escape, we
surely want them in original. */
(*pf) (" n_bpo_relocs: %u\n n_max_bpo_relocs: %u\n n_remain...round: %u\n\
n_allocated_bpo_gregs: %u\n", gregdata->n_bpo_relocs,
gregdata->n_max_bpo_relocs,
gregdata->n_remaining_bpo_relocs_this_relaxation_round,
gregdata->n_allocated_bpo_gregs);
if (gregdata->reloc_request)
for (i = 0; i < gregdata->n_max_bpo_relocs; i++)
(*pf) ("%4u (%4u)/%4u#%u: 0x%08lx%08lx r: %3u o: %3u\n",
i,
gregdata->bpo_reloc_indexes != NULL
? gregdata->bpo_reloc_indexes[i] : -1,
gregdata->reloc_request[i].bpo_reloc_no,
gregdata->reloc_request[i].valid,
(unsigned long) (gregdata->reloc_request[i].value >> 32),
(unsigned long) gregdata->reloc_request[i].value,
gregdata->reloc_request[i].regindex,
gregdata->reloc_request[i].offset);
}
/* This links all R_MMIX_BASE_PLUS_OFFSET relocs into a special array, and
when the last such reloc is done, an index-array is sorted according to
the values and iterated over to produce register numbers (indexed by 0
from the first allocated register number) and offsets for use in real
relocation.
Symbol- and reloc-reading infrastructure copied from elf-m10200.c. */
static boolean
mmix_elf_relax_section (abfd, sec, link_info, again)
bfd *abfd;
asection *sec;
struct bfd_link_info *link_info;
boolean *again;
{
Elf_Internal_Shdr *symtab_hdr;
Elf_Internal_Shdr *shndx_hdr;
Elf_Internal_Rela *internal_relocs;
Elf_Internal_Rela *free_relocs = NULL;
Elf_Internal_Rela *irel, *irelend;
asection *bpo_gregs_section = NULL;
struct bpo_greg_section_info *gregdata;
struct bpo_reloc_section_info *bpodata
= (struct bpo_reloc_section_info *)
elf_section_data (sec)->tdata;
size_t bpono;
bfd *bpo_greg_owner;
Elf64_External_Sym *extsyms = NULL;
Elf64_External_Sym *free_extsyms = NULL;
Elf_External_Sym_Shndx *shndx_buf = NULL;
/* Assume nothing changes. */
*again = false;
/* If this is the first time we have been called for this section,
initialize the cooked size. */
if (sec->_cooked_size == 0)
sec->_cooked_size = sec->_raw_size;
/* We don't have to do anything for a relocateable link, if
this section does not have relocs, or if this is not a
code section. */
if (link_info->relocateable
|| (sec->flags & SEC_RELOC) == 0
|| sec->reloc_count == 0
|| (sec->flags & SEC_CODE) == 0
|| (sec->flags & SEC_LINKER_CREATED) != 0
/* If no R_MMIX_BASE_PLUS_OFFSET relocs, then nothing to do. */
|| bpodata == NULL)
return true;
symtab_hdr = &elf_tdata (abfd)->symtab_hdr;
shndx_hdr = &elf_tdata (abfd)->symtab_shndx_hdr;
bpo_greg_owner = (bfd *) link_info->base_file;
bpo_gregs_section = bpodata->bpo_greg_section;
gregdata = (struct bpo_greg_section_info *)
elf_section_data (bpo_gregs_section)->tdata;
bpono = bpodata->first_base_plus_offset_reloc;
/* Get a copy of the native relocations. */
internal_relocs
= _bfd_elf64_link_read_relocs (abfd, sec, (PTR) NULL,
(Elf_Internal_Rela *) NULL,
link_info->keep_memory);
if (internal_relocs == NULL)
goto error_return;
if (! link_info->keep_memory)
free_relocs = internal_relocs;
/* Walk through them looking for relaxing opportunities. */
irelend = internal_relocs + sec->reloc_count;
for (irel = internal_relocs; irel < irelend; irel++)
{
bfd_vma symval;
if (ELF64_R_TYPE (irel->r_info) != (int) R_MMIX_BASE_PLUS_OFFSET)
continue;
/* Read this BFD's symbols if we haven't done so already. */
if (extsyms == NULL)
{
/* Get cached copy if it exists. */
if (symtab_hdr->contents != NULL)
extsyms = (Elf64_External_Sym *) symtab_hdr->contents;
else
{
/* Go get them off disk. */
bfd_size_type amt;
amt = symtab_hdr->sh_info;
amt *= sizeof (Elf64_External_Sym);
extsyms = (Elf64_External_Sym *) bfd_malloc (amt);
if (extsyms == NULL)
goto error_return;
free_extsyms = extsyms;
if (bfd_seek (abfd, symtab_hdr->sh_offset, SEEK_SET) != 0
|| bfd_bread ((PTR) extsyms, amt, abfd) != amt)
goto error_return;
symtab_hdr->contents = (bfd_byte *) extsyms;
}
/* If >64k sections, this presumable happens. No test-case. */
if (shndx_hdr->sh_size != 0)
{
bfd_size_type amt;
amt = symtab_hdr->sh_info;
amt *= sizeof (Elf_External_Sym_Shndx);
shndx_buf = (Elf_External_Sym_Shndx *) bfd_malloc (amt);
if (shndx_buf == NULL)
goto error_return;
if (bfd_seek (abfd, shndx_hdr->sh_offset, SEEK_SET) != 0
|| bfd_bread ((PTR) shndx_buf, amt, abfd) != amt)
goto error_return;
shndx_hdr->contents = (bfd_byte *) shndx_buf;
}
}
/* Get the value of the symbol referred to by the reloc. */
if (ELF64_R_SYM (irel->r_info) < symtab_hdr->sh_info)
{
/* A local symbol. */
Elf64_External_Sym *esym;
Elf_External_Sym_Shndx *shndx;
Elf_Internal_Sym isym;
asection *sym_sec;
esym = extsyms + ELF64_R_SYM (irel->r_info);
shndx = shndx_buf + (shndx_buf
? ELF64_R_SYM (irel->r_info) : 0);
bfd_elf64_swap_symbol_in (abfd, esym, shndx, &isym);
if (isym.st_shndx == SHN_UNDEF)
sym_sec = bfd_und_section_ptr;
else if (isym.st_shndx == SHN_ABS)
sym_sec = bfd_abs_section_ptr;
else if (isym.st_shndx == SHN_COMMON)
sym_sec = bfd_com_section_ptr;
else
sym_sec = bfd_section_from_elf_index (abfd, isym.st_shndx);
symval = (isym.st_value
+ sym_sec->output_section->vma
+ sym_sec->output_offset);
}
else
{
unsigned long indx;
struct elf_link_hash_entry *h;
/* An external symbol. */
indx = ELF64_R_SYM (irel->r_info) - symtab_hdr->sh_info;
h = elf_sym_hashes (abfd)[indx];
BFD_ASSERT (h != NULL);
if (h->root.type != bfd_link_hash_defined
&& h->root.type != bfd_link_hash_defweak)
{
/* This appears to be a reference to an undefined symbol.
Just ignore it--it will be caught by the regular reloc
processing. We need to keep BPO reloc accounting
consistent, though. */
gregdata->n_remaining_bpo_relocs_this_relaxation_round--;
bpono++;
continue;
}
symval = (h->root.u.def.value
+ h->root.u.def.section->output_section->vma
+ h->root.u.def.section->output_offset);
}
gregdata->reloc_request[gregdata->bpo_reloc_indexes[bpono]].value
= symval + irel->r_addend;
gregdata->reloc_request[gregdata->bpo_reloc_indexes[bpono++]].valid = true;
gregdata->n_remaining_bpo_relocs_this_relaxation_round--;
}
/* Check if that was the last BPO-reloc. If so, sort the values and
calculate how many registers we need to cover them. Set the size of
the linker gregs, and if the number of registers changed, indicate
that we need to relax some more because we have more work to do. */
if (gregdata->n_remaining_bpo_relocs_this_relaxation_round == 0)
{
size_t i;
bfd_vma prev_base;
size_t regindex;
/* First, reset the remaining relocs for the next round. */
gregdata->n_remaining_bpo_relocs_this_relaxation_round
= gregdata->n_bpo_relocs;
qsort ((PTR) gregdata->reloc_request,
gregdata->n_max_bpo_relocs,
sizeof (struct bpo_reloc_request),
bpo_reloc_request_sort_fn);
/* Recalculate indexes. When we find a change (however unlikely
after the initial iteration), we know we need to relax again,
since items in the GREG-array are sorted by increasing value and
stored in the relaxation phase. */
for (i = 0; i < gregdata->n_max_bpo_relocs; i++)
if (gregdata->bpo_reloc_indexes[gregdata->reloc_request[i].bpo_reloc_no]
!= i)
{
gregdata->bpo_reloc_indexes[gregdata->reloc_request[i].bpo_reloc_no]
= i;
*again = true;
}
/* Allocate register numbers (indexing from 0). Stop at the first
non-valid reloc. */
for (i = 0, regindex = 0, prev_base = gregdata->reloc_request[0].value;
i < gregdata->n_bpo_relocs;
i++)
{
if (gregdata->reloc_request[i].value > prev_base + 255)
{
regindex++;
prev_base = gregdata->reloc_request[i].value;
}
gregdata->reloc_request[i].regindex = regindex;
gregdata->reloc_request[i].offset
= gregdata->reloc_request[i].value - prev_base;
}
/* If it's not the same as the last time, we need to relax again,
because the size of the section has changed. I'm not sure we
actually need to do any adjustments since the shrinking happens
at the start of this section, but better safe than sorry. */
if (gregdata->n_allocated_bpo_gregs != regindex + 1)
{
gregdata->n_allocated_bpo_gregs = regindex + 1;
*again = true;
}
bpo_gregs_section->_cooked_size = (regindex + 1) * 8;
}
if (free_relocs != NULL)
free (free_relocs);
if (shndx_buf != NULL)
{
shndx_hdr->contents = NULL;
free (shndx_buf);
}
if (free_extsyms != NULL)
{
if (! link_info->keep_memory)
{
symtab_hdr->contents = NULL;
free (free_extsyms);
}
}
return true;
error_return:
if (free_relocs != NULL)
free (free_relocs);
if (shndx_buf != NULL)
{
shndx_hdr->contents = NULL;
free (shndx_buf);
}
if (free_extsyms != NULL)
{
symtab_hdr->contents = NULL;
free (free_extsyms);
}
return false;
}
#define ELF_ARCH bfd_arch_mmix
#define ELF_MACHINE_CODE EM_MMIX
/* According to mmix-doc page 36 (paragraph 45), this should be (1LL << 48LL).
However, that's too much for something somewhere in the linker part of
BFD; perhaps the start-address has to be a non-zero multiple of this
number, or larger than this number. The symptom is that the linker
complains: "warning: allocated section `.text' not in segment". We
settle for 64k; the page-size used in examples is 8k.
#define ELF_MAXPAGESIZE 0x10000
Unfortunately, this causes excessive padding in the supposedly small
for-education programs that are the expected usage (where people would
inspect output). We stick to 256 bytes just to have *some* default
alignment. */
#define ELF_MAXPAGESIZE 0x100
#define TARGET_BIG_SYM bfd_elf64_mmix_vec
#define TARGET_BIG_NAME "elf64-mmix"
#define elf_info_to_howto_rel NULL
#define elf_info_to_howto mmix_info_to_howto_rela
#define elf_backend_relocate_section mmix_elf_relocate_section
#define elf_backend_gc_mark_hook mmix_elf_gc_mark_hook
#define elf_backend_gc_sweep_hook mmix_elf_gc_sweep_hook
#define elf_backend_link_output_symbol_hook \
mmix_elf_link_output_symbol_hook
#define elf_backend_add_symbol_hook mmix_elf_add_symbol_hook
#define elf_backend_check_relocs mmix_elf_check_relocs
#define elf_backend_symbol_processing mmix_elf_symbol_processing
#define bfd_elf64_bfd_is_local_label_name \
mmix_elf_is_local_label_name
#define elf_backend_may_use_rel_p 0
#define elf_backend_may_use_rela_p 1
#define elf_backend_default_use_rela_p 1
#define elf_backend_can_gc_sections 1
#define elf_backend_section_from_bfd_section \
mmix_elf_section_from_bfd_section
#define bfd_elf64_bfd_final_link mmix_elf_final_link
#define bfd_elf64_bfd_relax_section mmix_elf_relax_section
#include "elf64-target.h"
|