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|
/* tc-arc.c -- Assembler for the ARC
Copyright (C) 1994-2016 Free Software Foundation, Inc.
Contributor: Claudiu Zissulescu <claziss@synopsys.com>
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 "subsegs.h"
#include "struc-symbol.h"
#include "dwarf2dbg.h"
#include "dw2gencfi.h"
#include "safe-ctype.h"
#include "opcode/arc.h"
#include "elf/arc.h"
#include "../opcodes/arc-ext.h"
/* Defines section. */
#define MAX_INSN_FIXUPS 2
#define MAX_CONSTR_STR 20
#define FRAG_MAX_GROWTH 8
#ifdef DEBUG
# define pr_debug(fmt, args...) fprintf (stderr, fmt, ##args)
#else
# define pr_debug(fmt, args...)
#endif
#define MAJOR_OPCODE(x) (((x) & 0xF8000000) >> 27)
#define SUB_OPCODE(x) (((x) & 0x003F0000) >> 16)
#define LP_INSN(x) ((MAJOR_OPCODE (x) == 0x4) \
&& (SUB_OPCODE (x) == 0x28))
/* Equal to MAX_PRECISION in atof-ieee.c. */
#define MAX_LITTLENUMS 6
#ifndef TARGET_WITH_CPU
#define TARGET_WITH_CPU "arc700"
#endif /* TARGET_WITH_CPU */
/* Enum used to enumerate the relaxable ins operands. */
enum rlx_operand_type
{
EMPTY = 0,
REGISTER,
REGISTER_S, /* Register for short instruction(s). */
REGISTER_NO_GP, /* Is a register but not gp register specifically. */
REGISTER_DUP, /* Duplication of previous operand of type register. */
IMMEDIATE,
BRACKET
};
enum arc_rlx_types
{
ARC_RLX_NONE = 0,
ARC_RLX_BL_S,
ARC_RLX_BL,
ARC_RLX_B_S,
ARC_RLX_B,
ARC_RLX_ADD_U3,
ARC_RLX_ADD_U6,
ARC_RLX_ADD_LIMM,
ARC_RLX_LD_U7,
ARC_RLX_LD_S9,
ARC_RLX_LD_LIMM,
ARC_RLX_MOV_U8,
ARC_RLX_MOV_S12,
ARC_RLX_MOV_LIMM,
ARC_RLX_SUB_U3,
ARC_RLX_SUB_U6,
ARC_RLX_SUB_LIMM,
ARC_RLX_MPY_U6,
ARC_RLX_MPY_LIMM,
ARC_RLX_MOV_RU6,
ARC_RLX_MOV_RLIMM,
ARC_RLX_ADD_RRU6,
ARC_RLX_ADD_RRLIMM,
};
/* Macros section. */
#define regno(x) ((x) & 0x3F)
#define is_ir_num(x) (((x) & ~0x3F) == 0)
#define is_code_density_p(sc) (((sc) == CD1 || (sc) == CD2))
#define is_spfp_p(op) (((sc) == SPX))
#define is_dpfp_p(op) (((sc) == DPX))
#define is_fpuda_p(op) (((sc) == DPA))
#define is_br_jmp_insn_p(op) (((op)->insn_class == BRANCH \
|| (op)->insn_class == JUMP))
#define is_kernel_insn_p(op) (((op)->insn_class == KERNEL))
#define is_nps400_p(op) (((sc) == NPS400))
/* Generic assembler global variables which must be defined by all
targets. */
/* Characters which always start a comment. */
const char comment_chars[] = "#;";
/* Characters which start a comment at the beginning of a line. */
const char line_comment_chars[] = "#";
/* Characters which may be used to separate multiple commands on a
single line. */
const char line_separator_chars[] = "`";
/* Characters which are used to indicate an exponent in a floating
point number. */
const char EXP_CHARS[] = "eE";
/* Chars that mean this number is a floating point constant
As in 0f12.456 or 0d1.2345e12. */
const char FLT_CHARS[] = "rRsSfFdD";
/* Byte order. */
extern int target_big_endian;
const char *arc_target_format = DEFAULT_TARGET_FORMAT;
static int byte_order = DEFAULT_BYTE_ORDER;
/* Arc extension section. */
static segT arcext_section;
/* By default relaxation is disabled. */
static int relaxation_state = 0;
extern int arc_get_mach (char *);
/* Forward declarations. */
static void arc_lcomm (int);
static void arc_option (int);
static void arc_extra_reloc (int);
static void arc_extinsn (int);
static void arc_extcorereg (int);
const pseudo_typeS md_pseudo_table[] =
{
/* Make sure that .word is 32 bits. */
{ "word", cons, 4 },
{ "align", s_align_bytes, 0 }, /* Defaulting is invalid (0). */
{ "lcomm", arc_lcomm, 0 },
{ "lcommon", arc_lcomm, 0 },
{ "cpu", arc_option, 0 },
{ "extinstruction", arc_extinsn, 0 },
{ "extcoreregister", arc_extcorereg, EXT_CORE_REGISTER },
{ "extauxregister", arc_extcorereg, EXT_AUX_REGISTER },
{ "extcondcode", arc_extcorereg, EXT_COND_CODE },
{ "tls_gd_ld", arc_extra_reloc, BFD_RELOC_ARC_TLS_GD_LD },
{ "tls_gd_call", arc_extra_reloc, BFD_RELOC_ARC_TLS_GD_CALL },
{ NULL, NULL, 0 }
};
const char *md_shortopts = "";
enum options
{
OPTION_EB = OPTION_MD_BASE,
OPTION_EL,
OPTION_ARC600,
OPTION_ARC601,
OPTION_ARC700,
OPTION_ARCEM,
OPTION_ARCHS,
OPTION_MCPU,
OPTION_CD,
OPTION_RELAX,
OPTION_NPS400,
OPTION_SPFP,
OPTION_DPFP,
OPTION_FPUDA,
/* The following options are deprecated and provided here only for
compatibility reasons. */
OPTION_USER_MODE,
OPTION_LD_EXT_MASK,
OPTION_SWAP,
OPTION_NORM,
OPTION_BARREL_SHIFT,
OPTION_MIN_MAX,
OPTION_NO_MPY,
OPTION_EA,
OPTION_MUL64,
OPTION_SIMD,
OPTION_XMAC_D16,
OPTION_XMAC_24,
OPTION_DSP_PACKA,
OPTION_CRC,
OPTION_DVBF,
OPTION_TELEPHONY,
OPTION_XYMEMORY,
OPTION_LOCK,
OPTION_SWAPE,
OPTION_RTSC
};
struct option md_longopts[] =
{
{ "EB", no_argument, NULL, OPTION_EB },
{ "EL", no_argument, NULL, OPTION_EL },
{ "mcpu", required_argument, NULL, OPTION_MCPU },
{ "mA6", no_argument, NULL, OPTION_ARC600 },
{ "mARC600", no_argument, NULL, OPTION_ARC600 },
{ "mARC601", no_argument, NULL, OPTION_ARC601 },
{ "mARC700", no_argument, NULL, OPTION_ARC700 },
{ "mA7", no_argument, NULL, OPTION_ARC700 },
{ "mEM", no_argument, NULL, OPTION_ARCEM },
{ "mHS", no_argument, NULL, OPTION_ARCHS },
{ "mcode-density", no_argument, NULL, OPTION_CD },
{ "mrelax", no_argument, NULL, OPTION_RELAX },
{ "mnps400", no_argument, NULL, OPTION_NPS400 },
/* Floating point options */
{ "mspfp", no_argument, NULL, OPTION_SPFP},
{ "mspfp-compact", no_argument, NULL, OPTION_SPFP},
{ "mspfp_compact", no_argument, NULL, OPTION_SPFP},
{ "mspfp-fast", no_argument, NULL, OPTION_SPFP},
{ "mspfp_fast", no_argument, NULL, OPTION_SPFP},
{ "mdpfp", no_argument, NULL, OPTION_DPFP},
{ "mdpfp-compact", no_argument, NULL, OPTION_DPFP},
{ "mdpfp_compact", no_argument, NULL, OPTION_DPFP},
{ "mdpfp-fast", no_argument, NULL, OPTION_DPFP},
{ "mdpfp_fast", no_argument, NULL, OPTION_DPFP},
{ "mfpuda", no_argument, NULL, OPTION_FPUDA},
/* The following options are deprecated and provided here only for
compatibility reasons. */
{ "mav2em", no_argument, NULL, OPTION_ARCEM },
{ "mav2hs", no_argument, NULL, OPTION_ARCHS },
{ "muser-mode-only", no_argument, NULL, OPTION_USER_MODE },
{ "mld-extension-reg-mask", required_argument, NULL, OPTION_LD_EXT_MASK },
{ "mswap", no_argument, NULL, OPTION_SWAP },
{ "mnorm", no_argument, NULL, OPTION_NORM },
{ "mbarrel-shifter", no_argument, NULL, OPTION_BARREL_SHIFT },
{ "mbarrel_shifter", no_argument, NULL, OPTION_BARREL_SHIFT },
{ "mmin-max", no_argument, NULL, OPTION_MIN_MAX },
{ "mmin_max", no_argument, NULL, OPTION_MIN_MAX },
{ "mno-mpy", no_argument, NULL, OPTION_NO_MPY },
{ "mea", no_argument, NULL, OPTION_EA },
{ "mEA", no_argument, NULL, OPTION_EA },
{ "mmul64", no_argument, NULL, OPTION_MUL64 },
{ "msimd", no_argument, NULL, OPTION_SIMD},
{ "mmac-d16", no_argument, NULL, OPTION_XMAC_D16},
{ "mmac_d16", no_argument, NULL, OPTION_XMAC_D16},
{ "mmac-24", no_argument, NULL, OPTION_XMAC_24},
{ "mmac_24", no_argument, NULL, OPTION_XMAC_24},
{ "mdsp-packa", no_argument, NULL, OPTION_DSP_PACKA},
{ "mdsp_packa", no_argument, NULL, OPTION_DSP_PACKA},
{ "mcrc", no_argument, NULL, OPTION_CRC},
{ "mdvbf", no_argument, NULL, OPTION_DVBF},
{ "mtelephony", no_argument, NULL, OPTION_TELEPHONY},
{ "mxy", no_argument, NULL, OPTION_XYMEMORY},
{ "mlock", no_argument, NULL, OPTION_LOCK},
{ "mswape", no_argument, NULL, OPTION_SWAPE},
{ "mrtsc", no_argument, NULL, OPTION_RTSC},
{ NULL, no_argument, NULL, 0 }
};
size_t md_longopts_size = sizeof (md_longopts);
/* Local data and data types. */
/* Used since new relocation types are introduced in this
file (DUMMY_RELOC_LITUSE_*). */
typedef int extended_bfd_reloc_code_real_type;
struct arc_fixup
{
expressionS exp;
extended_bfd_reloc_code_real_type reloc;
/* index into arc_operands. */
unsigned int opindex;
/* PC-relative, used by internals fixups. */
unsigned char pcrel;
/* TRUE if this fixup is for LIMM operand. */
bfd_boolean islong;
};
struct arc_insn
{
unsigned int insn;
int nfixups;
struct arc_fixup fixups[MAX_INSN_FIXUPS];
long limm;
bfd_boolean short_insn; /* Boolean value: TRUE if current insn is
short. */
bfd_boolean has_limm; /* Boolean value: TRUE if limm field is
valid. */
bfd_boolean relax; /* Boolean value: TRUE if needs
relaxation. */
};
/* Structure to hold any last two instructions. */
static struct arc_last_insn
{
/* Saved instruction opcode. */
const struct arc_opcode *opcode;
/* Boolean value: TRUE if current insn is short. */
bfd_boolean has_limm;
/* Boolean value: TRUE if current insn has delay slot. */
bfd_boolean has_delay_slot;
} arc_last_insns[2];
/* Extension instruction suffix classes. */
typedef struct
{
const char *name;
int len;
int attr_class;
} attributes_t;
static const attributes_t suffixclass[] =
{
{ "SUFFIX_FLAG", 11, ARC_SUFFIX_FLAG },
{ "SUFFIX_COND", 11, ARC_SUFFIX_COND },
{ "SUFFIX_NONE", 11, ARC_SUFFIX_NONE }
};
/* Extension instruction syntax classes. */
static const attributes_t syntaxclass[] =
{
{ "SYNTAX_3OP", 10, ARC_SYNTAX_3OP },
{ "SYNTAX_2OP", 10, ARC_SYNTAX_2OP },
{ "SYNTAX_1OP", 10, ARC_SYNTAX_1OP },
{ "SYNTAX_NOP", 10, ARC_SYNTAX_NOP }
};
/* Extension instruction syntax classes modifiers. */
static const attributes_t syntaxclassmod[] =
{
{ "OP1_IMM_IMPLIED" , 15, ARC_OP1_IMM_IMPLIED },
{ "OP1_MUST_BE_IMM" , 15, ARC_OP1_MUST_BE_IMM }
};
/* Extension register type. */
typedef struct
{
char *name;
int number;
int imode;
} extRegister_t;
/* A structure to hold the additional conditional codes. */
static struct
{
struct arc_flag_operand *arc_ext_condcode;
int size;
} ext_condcode = { NULL, 0 };
/* Structure to hold an entry in ARC_OPCODE_HASH. */
struct arc_opcode_hash_entry
{
/* The number of pointers in the OPCODE list. */
size_t count;
/* Points to a list of opcode pointers. */
const struct arc_opcode **opcode;
};
/* Structure used for iterating through an arc_opcode_hash_entry. */
struct arc_opcode_hash_entry_iterator
{
/* Index into the OPCODE element of the arc_opcode_hash_entry. */
size_t index;
/* The specific ARC_OPCODE from the ARC_OPCODES table that was last
returned by this iterator. */
const struct arc_opcode *opcode;
};
/* Forward declaration. */
static void assemble_insn
(const struct arc_opcode *, const expressionS *, int,
const struct arc_flags *, int, struct arc_insn *);
/* The cpu for which we are generating code. */
static unsigned arc_target;
static const char *arc_target_name;
static unsigned arc_features;
/* The default architecture. */
static int arc_mach_type;
/* TRUE if the cpu type has been explicitly specified. */
static bfd_boolean mach_type_specified_p = FALSE;
/* The hash table of instruction opcodes. */
static struct hash_control *arc_opcode_hash;
/* The hash table of register symbols. */
static struct hash_control *arc_reg_hash;
/* The hash table of aux register symbols. */
static struct hash_control *arc_aux_hash;
/* The hash table of address types. */
static struct hash_control *arc_addrtype_hash;
/* A table of CPU names and opcode sets. */
static const struct cpu_type
{
const char *name;
unsigned flags;
int mach;
unsigned eflags;
unsigned features;
}
cpu_types[] =
{
{ "arc600", ARC_OPCODE_ARC600, bfd_mach_arc_arc600,
E_ARC_MACH_ARC600, 0x00},
{ "arc700", ARC_OPCODE_ARC700, bfd_mach_arc_arc700,
E_ARC_MACH_ARC700, 0x00},
{ "nps400", ARC_OPCODE_ARC700 , bfd_mach_arc_arc700,
E_ARC_MACH_ARC700, ARC_NPS400},
{ "arcem", ARC_OPCODE_ARCv2EM, bfd_mach_arc_arcv2,
EF_ARC_CPU_ARCV2EM, 0x00},
{ "archs", ARC_OPCODE_ARCv2HS, bfd_mach_arc_arcv2,
EF_ARC_CPU_ARCV2HS, ARC_CD},
{ 0, 0, 0, 0, 0 }
};
/* Used by the arc_reloc_op table. Order is important. */
#define O_gotoff O_md1 /* @gotoff relocation. */
#define O_gotpc O_md2 /* @gotpc relocation. */
#define O_plt O_md3 /* @plt relocation. */
#define O_sda O_md4 /* @sda relocation. */
#define O_pcl O_md5 /* @pcl relocation. */
#define O_tlsgd O_md6 /* @tlsgd relocation. */
#define O_tlsie O_md7 /* @tlsie relocation. */
#define O_tpoff9 O_md8 /* @tpoff9 relocation. */
#define O_tpoff O_md9 /* @tpoff relocation. */
#define O_dtpoff9 O_md10 /* @dtpoff9 relocation. */
#define O_dtpoff O_md11 /* @dtpoff relocation. */
#define O_last O_dtpoff
/* Used to define a bracket as operand in tokens. */
#define O_bracket O_md32
/* Used to define a colon as an operand in tokens. */
#define O_colon O_md31
/* Used to define address types in nps400. */
#define O_addrtype O_md30
/* Dummy relocation, to be sorted out. */
#define DUMMY_RELOC_ARC_ENTRY (BFD_RELOC_UNUSED + 1)
#define USER_RELOC_P(R) ((R) >= O_gotoff && (R) <= O_last)
/* A table to map the spelling of a relocation operand into an appropriate
bfd_reloc_code_real_type type. The table is assumed to be ordered such
that op-O_literal indexes into it. */
#define ARC_RELOC_TABLE(op) \
(&arc_reloc_op[ ((!USER_RELOC_P (op)) \
? (abort (), 0) \
: (int) (op) - (int) O_gotoff) ])
#define DEF(NAME, RELOC, REQ) \
{ #NAME, sizeof (#NAME)-1, O_##NAME, RELOC, REQ}
static const struct arc_reloc_op_tag
{
/* String to lookup. */
const char *name;
/* Size of the string. */
size_t length;
/* Which operator to use. */
operatorT op;
extended_bfd_reloc_code_real_type reloc;
/* Allows complex relocation expression like identifier@reloc +
const. */
unsigned int complex_expr : 1;
}
arc_reloc_op[] =
{
DEF (gotoff, BFD_RELOC_ARC_GOTOFF, 1),
DEF (gotpc, BFD_RELOC_ARC_GOTPC32, 0),
DEF (plt, BFD_RELOC_ARC_PLT32, 0),
DEF (sda, DUMMY_RELOC_ARC_ENTRY, 1),
DEF (pcl, BFD_RELOC_ARC_PC32, 1),
DEF (tlsgd, BFD_RELOC_ARC_TLS_GD_GOT, 0),
DEF (tlsie, BFD_RELOC_ARC_TLS_IE_GOT, 0),
DEF (tpoff9, BFD_RELOC_ARC_TLS_LE_S9, 0),
DEF (tpoff, BFD_RELOC_ARC_TLS_LE_32, 1),
DEF (dtpoff9, BFD_RELOC_ARC_TLS_DTPOFF_S9, 0),
DEF (dtpoff, BFD_RELOC_ARC_TLS_DTPOFF, 1),
};
static const int arc_num_reloc_op
= sizeof (arc_reloc_op) / sizeof (*arc_reloc_op);
/* Structure for relaxable instruction that have to be swapped with a
smaller alternative instruction. */
struct arc_relaxable_ins
{
/* Mnemonic that should be checked. */
const char *mnemonic_r;
/* Operands that should be checked.
Indexes of operands from operand array. */
enum rlx_operand_type operands[6];
/* Flags that should be checked. */
unsigned flag_classes[5];
/* Mnemonic (smaller) alternative to be used later for relaxation. */
const char *mnemonic_alt;
/* Index of operand that generic relaxation has to check. */
unsigned opcheckidx;
/* Base subtype index used. */
enum arc_rlx_types subtype;
};
#define RELAX_TABLE_ENTRY(BITS, ISSIGNED, SIZE, NEXT) \
{ (ISSIGNED) ? ((1 << ((BITS) - 1)) - 1) : ((1 << (BITS)) - 1), \
(ISSIGNED) ? -(1 << ((BITS) - 1)) : 0, \
(SIZE), \
(NEXT) } \
#define RELAX_TABLE_ENTRY_MAX(ISSIGNED, SIZE, NEXT) \
{ (ISSIGNED) ? 0x7FFFFFFF : 0xFFFFFFFF, \
(ISSIGNED) ? -(0x7FFFFFFF) : 0, \
(SIZE), \
(NEXT) } \
/* ARC relaxation table. */
const relax_typeS md_relax_table[] =
{
/* Fake entry. */
{0, 0, 0, 0},
/* BL_S s13 ->
BL s25. */
RELAX_TABLE_ENTRY (13, 1, 2, ARC_RLX_BL),
RELAX_TABLE_ENTRY (25, 1, 4, ARC_RLX_NONE),
/* B_S s10 ->
B s25. */
RELAX_TABLE_ENTRY (10, 1, 2, ARC_RLX_B),
RELAX_TABLE_ENTRY (25, 1, 4, ARC_RLX_NONE),
/* ADD_S c,b, u3 ->
ADD<.f> a,b,u6 ->
ADD<.f> a,b,limm. */
RELAX_TABLE_ENTRY (3, 0, 2, ARC_RLX_ADD_U6),
RELAX_TABLE_ENTRY (6, 0, 4, ARC_RLX_ADD_LIMM),
RELAX_TABLE_ENTRY_MAX (0, 8, ARC_RLX_NONE),
/* LD_S a, [b, u7] ->
LD<zz><.x><.aa><.di> a, [b, s9] ->
LD<zz><.x><.aa><.di> a, [b, limm] */
RELAX_TABLE_ENTRY (7, 0, 2, ARC_RLX_LD_S9),
RELAX_TABLE_ENTRY (9, 1, 4, ARC_RLX_LD_LIMM),
RELAX_TABLE_ENTRY_MAX (1, 8, ARC_RLX_NONE),
/* MOV_S b, u8 ->
MOV<.f> b, s12 ->
MOV<.f> b, limm. */
RELAX_TABLE_ENTRY (8, 0, 2, ARC_RLX_MOV_S12),
RELAX_TABLE_ENTRY (8, 0, 4, ARC_RLX_MOV_LIMM),
RELAX_TABLE_ENTRY_MAX (0, 8, ARC_RLX_NONE),
/* SUB_S c, b, u3 ->
SUB<.f> a, b, u6 ->
SUB<.f> a, b, limm. */
RELAX_TABLE_ENTRY (3, 0, 2, ARC_RLX_SUB_U6),
RELAX_TABLE_ENTRY (6, 0, 4, ARC_RLX_SUB_LIMM),
RELAX_TABLE_ENTRY_MAX (0, 8, ARC_RLX_NONE),
/* MPY<.f> a, b, u6 ->
MPY<.f> a, b, limm. */
RELAX_TABLE_ENTRY (6, 0, 4, ARC_RLX_MPY_LIMM),
RELAX_TABLE_ENTRY_MAX (0, 8, ARC_RLX_NONE),
/* MOV<.f><.cc> b, u6 ->
MOV<.f><.cc> b, limm. */
RELAX_TABLE_ENTRY (6, 0, 4, ARC_RLX_MOV_RLIMM),
RELAX_TABLE_ENTRY_MAX (0, 8, ARC_RLX_NONE),
/* ADD<.f><.cc> b, b, u6 ->
ADD<.f><.cc> b, b, limm. */
RELAX_TABLE_ENTRY (6, 0, 4, ARC_RLX_ADD_RRLIMM),
RELAX_TABLE_ENTRY_MAX (0, 8, ARC_RLX_NONE),
};
/* Order of this table's entries matters! */
const struct arc_relaxable_ins arc_relaxable_insns[] =
{
{ "bl", { IMMEDIATE }, { 0 }, "bl_s", 0, ARC_RLX_BL_S },
{ "b", { IMMEDIATE }, { 0 }, "b_s", 0, ARC_RLX_B_S },
{ "add", { REGISTER, REGISTER_DUP, IMMEDIATE }, { 5, 1, 0 }, "add",
2, ARC_RLX_ADD_RRU6},
{ "add", { REGISTER_S, REGISTER_S, IMMEDIATE }, { 0 }, "add_s", 2,
ARC_RLX_ADD_U3 },
{ "add", { REGISTER, REGISTER, IMMEDIATE }, { 5, 0 }, "add", 2,
ARC_RLX_ADD_U6 },
{ "ld", { REGISTER_S, BRACKET, REGISTER_S, IMMEDIATE, BRACKET },
{ 0 }, "ld_s", 3, ARC_RLX_LD_U7 },
{ "ld", { REGISTER, BRACKET, REGISTER_NO_GP, IMMEDIATE, BRACKET },
{ 11, 4, 14, 17, 0 }, "ld", 3, ARC_RLX_LD_S9 },
{ "mov", { REGISTER_S, IMMEDIATE }, { 0 }, "mov_s", 1, ARC_RLX_MOV_U8 },
{ "mov", { REGISTER, IMMEDIATE }, { 5, 0 }, "mov", 1, ARC_RLX_MOV_S12 },
{ "mov", { REGISTER, IMMEDIATE }, { 5, 1, 0 },"mov", 1, ARC_RLX_MOV_RU6 },
{ "sub", { REGISTER_S, REGISTER_S, IMMEDIATE }, { 0 }, "sub_s", 2,
ARC_RLX_SUB_U3 },
{ "sub", { REGISTER, REGISTER, IMMEDIATE }, { 5, 0 }, "sub", 2,
ARC_RLX_SUB_U6 },
{ "mpy", { REGISTER, REGISTER, IMMEDIATE }, { 5, 0 }, "mpy", 2,
ARC_RLX_MPY_U6 },
};
const unsigned arc_num_relaxable_ins = ARRAY_SIZE (arc_relaxable_insns);
/* Flags to set in the elf header. */
static flagword arc_eflag = 0x00;
/* Pre-defined "_GLOBAL_OFFSET_TABLE_". */
symbolS * GOT_symbol = 0;
/* Set to TRUE when we assemble instructions. */
static bfd_boolean assembling_insn = FALSE;
/* Functions implementation. */
/* Return a pointer to ARC_OPCODE_HASH_ENTRY that identifies all
ARC_OPCODE entries in ARC_OPCODE_HASH that match NAME, or NULL if there
are no matching entries in ARC_OPCODE_HASH. */
static const struct arc_opcode_hash_entry *
arc_find_opcode (const char *name)
{
const struct arc_opcode_hash_entry *entry;
entry = hash_find (arc_opcode_hash, name);
return entry;
}
/* Initialise the iterator ITER. */
static void
arc_opcode_hash_entry_iterator_init (struct arc_opcode_hash_entry_iterator *iter)
{
iter->index = 0;
iter->opcode = NULL;
}
/* Return the next ARC_OPCODE from ENTRY, using ITER to hold state between
calls to this function. Return NULL when all ARC_OPCODE entries have
been returned. */
static const struct arc_opcode *
arc_opcode_hash_entry_iterator_next (const struct arc_opcode_hash_entry *entry,
struct arc_opcode_hash_entry_iterator *iter)
{
if (iter->opcode == NULL && iter->index == 0)
{
gas_assert (entry->count > 0);
iter->opcode = entry->opcode[iter->index];
}
else if (iter->opcode != NULL)
{
const char *old_name = iter->opcode->name;
iter->opcode++;
if (iter->opcode->name == NULL
|| strcmp (old_name, iter->opcode->name) != 0)
{
iter->index++;
if (iter->index == entry->count)
iter->opcode = NULL;
else
iter->opcode = entry->opcode[iter->index];
}
}
return iter->opcode;
}
/* Insert an opcode into opcode hash structure. */
static void
arc_insert_opcode (const struct arc_opcode *opcode)
{
const char *name, *retval;
struct arc_opcode_hash_entry *entry;
name = opcode->name;
entry = hash_find (arc_opcode_hash, name);
if (entry == NULL)
{
entry = XNEW (struct arc_opcode_hash_entry);
entry->count = 0;
entry->opcode = NULL;
retval = hash_insert (arc_opcode_hash, name, (void *) entry);
if (retval)
as_fatal (_("internal error: can't hash opcode '%s': %s"),
name, retval);
}
entry->opcode = XRESIZEVEC (const struct arc_opcode *, entry->opcode,
entry->count + 1);
if (entry->opcode == NULL)
as_fatal (_("Virtual memory exhausted"));
entry->opcode[entry->count] = opcode;
entry->count++;
}
/* Like md_number_to_chars but used for limms. The 4-byte limm value,
is encoded as 'middle-endian' for a little-endian target. FIXME!
this function is used for regular 4 byte instructions as well. */
static void
md_number_to_chars_midend (char *buf, valueT val, int n)
{
if (n == 4)
{
md_number_to_chars (buf, (val & 0xffff0000) >> 16, 2);
md_number_to_chars (buf + 2, (val & 0xffff), 2);
}
else
{
md_number_to_chars (buf, val, n);
}
}
/* Select an appropriate entry from CPU_TYPES based on ARG and initialise
the relevant static global variables. */
static void
arc_select_cpu (const char *arg)
{
int cpu_flags = 0;
int i;
for (i = 0; cpu_types[i].name; ++i)
{
if (!strcasecmp (cpu_types[i].name, arg))
{
arc_target = cpu_types[i].flags;
arc_target_name = cpu_types[i].name;
arc_features = cpu_types[i].features;
arc_mach_type = cpu_types[i].mach;
cpu_flags = cpu_types[i].eflags;
break;
}
}
if (!cpu_types[i].name)
as_fatal (_("unknown architecture: %s\n"), arg);
gas_assert (cpu_flags != 0);
arc_eflag = (arc_eflag & ~EF_ARC_MACH_MSK) | cpu_flags;
}
/* Here ends all the ARCompact extension instruction assembling
stuff. */
static void
arc_extra_reloc (int r_type)
{
char *sym_name, c;
symbolS *sym, *lab = NULL;
if (*input_line_pointer == '@')
input_line_pointer++;
c = get_symbol_name (&sym_name);
sym = symbol_find_or_make (sym_name);
restore_line_pointer (c);
if (c == ',' && r_type == BFD_RELOC_ARC_TLS_GD_LD)
{
++input_line_pointer;
char *lab_name;
c = get_symbol_name (&lab_name);
lab = symbol_find_or_make (lab_name);
restore_line_pointer (c);
}
/* These relocations exist as a mechanism for the compiler to tell the
linker how to patch the code if the tls model is optimised. However,
the relocation itself does not require any space within the assembler
fragment, and so we pass a size of 0.
The lines that generate these relocations look like this:
.tls_gd_ld @.tdata`bl __tls_get_addr@plt
The '.tls_gd_ld @.tdata' is processed first and generates the
additional relocation, while the 'bl __tls_get_addr@plt' is processed
second and generates the additional branch.
It is possible that the additional relocation generated by the
'.tls_gd_ld @.tdata' will be attached at the very end of one fragment,
while the 'bl __tls_get_addr@plt' will be generated as the first thing
in the next fragment. This will be fine; both relocations will still
appear to be at the same address in the generated object file.
However, this only works as the additional relocation is generated
with size of 0 bytes. */
fixS *fixP
= fix_new (frag_now, /* Which frag? */
frag_now_fix (), /* Where in that frag? */
0, /* size: 1, 2, or 4 usually. */
sym, /* X_add_symbol. */
0, /* X_add_number. */
FALSE, /* TRUE if PC-relative relocation. */
r_type /* Relocation type. */);
fixP->fx_subsy = lab;
}
static symbolS *
arc_lcomm_internal (int ignore ATTRIBUTE_UNUSED,
symbolS *symbolP, addressT size)
{
addressT align = 0;
SKIP_WHITESPACE ();
if (*input_line_pointer == ',')
{
align = parse_align (1);
if (align == (addressT) -1)
return NULL;
}
else
{
if (size >= 8)
align = 3;
else if (size >= 4)
align = 2;
else if (size >= 2)
align = 1;
else
align = 0;
}
bss_alloc (symbolP, size, align);
S_CLEAR_EXTERNAL (symbolP);
return symbolP;
}
static void
arc_lcomm (int ignore)
{
symbolS *symbolP = s_comm_internal (ignore, arc_lcomm_internal);
if (symbolP)
symbol_get_bfdsym (symbolP)->flags |= BSF_OBJECT;
}
/* Select the cpu we're assembling for. */
static void
arc_option (int ignore ATTRIBUTE_UNUSED)
{
int mach = -1;
char c;
char *cpu;
c = get_symbol_name (&cpu);
mach = arc_get_mach (cpu);
if (mach == -1)
goto bad_cpu;
if (!mach_type_specified_p)
{
if ((!strcmp ("ARC600", cpu))
|| (!strcmp ("ARC601", cpu))
|| (!strcmp ("A6", cpu)))
{
md_parse_option (OPTION_MCPU, "arc600");
}
else if ((!strcmp ("ARC700", cpu))
|| (!strcmp ("A7", cpu)))
{
md_parse_option (OPTION_MCPU, "arc700");
}
else if (!strcmp ("EM", cpu))
{
md_parse_option (OPTION_MCPU, "arcem");
}
else if (!strcmp ("HS", cpu))
{
md_parse_option (OPTION_MCPU, "archs");
}
else if (!strcmp ("NPS400", cpu))
{
md_parse_option (OPTION_MCPU, "nps400");
}
else
as_fatal (_("could not find the architecture"));
if (!bfd_set_arch_mach (stdoutput, bfd_arch_arc, mach))
as_fatal (_("could not set architecture and machine"));
/* Set elf header flags. */
bfd_set_private_flags (stdoutput, arc_eflag);
}
else
if (arc_mach_type != mach)
as_warn (_("Command-line value overrides \".cpu\" directive"));
restore_line_pointer (c);
demand_empty_rest_of_line ();
return;
bad_cpu:
restore_line_pointer (c);
as_bad (_("invalid identifier for \".cpu\""));
ignore_rest_of_line ();
}
/* Smartly print an expression. */
static void
debug_exp (expressionS *t)
{
const char *name ATTRIBUTE_UNUSED;
const char *namemd ATTRIBUTE_UNUSED;
pr_debug ("debug_exp: ");
switch (t->X_op)
{
default: name = "unknown"; break;
case O_illegal: name = "O_illegal"; break;
case O_absent: name = "O_absent"; break;
case O_constant: name = "O_constant"; break;
case O_symbol: name = "O_symbol"; break;
case O_symbol_rva: name = "O_symbol_rva"; break;
case O_register: name = "O_register"; break;
case O_big: name = "O_big"; break;
case O_uminus: name = "O_uminus"; break;
case O_bit_not: name = "O_bit_not"; break;
case O_logical_not: name = "O_logical_not"; break;
case O_multiply: name = "O_multiply"; break;
case O_divide: name = "O_divide"; break;
case O_modulus: name = "O_modulus"; break;
case O_left_shift: name = "O_left_shift"; break;
case O_right_shift: name = "O_right_shift"; break;
case O_bit_inclusive_or: name = "O_bit_inclusive_or"; break;
case O_bit_or_not: name = "O_bit_or_not"; break;
case O_bit_exclusive_or: name = "O_bit_exclusive_or"; break;
case O_bit_and: name = "O_bit_and"; break;
case O_add: name = "O_add"; break;
case O_subtract: name = "O_subtract"; break;
case O_eq: name = "O_eq"; break;
case O_ne: name = "O_ne"; break;
case O_lt: name = "O_lt"; break;
case O_le: name = "O_le"; break;
case O_ge: name = "O_ge"; break;
case O_gt: name = "O_gt"; break;
case O_logical_and: name = "O_logical_and"; break;
case O_logical_or: name = "O_logical_or"; break;
case O_index: name = "O_index"; break;
case O_bracket: name = "O_bracket"; break;
case O_colon: name = "O_colon"; break;
case O_addrtype: name = "O_addrtype"; break;
}
switch (t->X_md)
{
default: namemd = "unknown"; break;
case O_gotoff: namemd = "O_gotoff"; break;
case O_gotpc: namemd = "O_gotpc"; break;
case O_plt: namemd = "O_plt"; break;
case O_sda: namemd = "O_sda"; break;
case O_pcl: namemd = "O_pcl"; break;
case O_tlsgd: namemd = "O_tlsgd"; break;
case O_tlsie: namemd = "O_tlsie"; break;
case O_tpoff9: namemd = "O_tpoff9"; break;
case O_tpoff: namemd = "O_tpoff"; break;
case O_dtpoff9: namemd = "O_dtpoff9"; break;
case O_dtpoff: namemd = "O_dtpoff"; break;
}
pr_debug ("%s (%s, %s, %d, %s)", name,
(t->X_add_symbol) ? S_GET_NAME (t->X_add_symbol) : "--",
(t->X_op_symbol) ? S_GET_NAME (t->X_op_symbol) : "--",
(int) t->X_add_number,
(t->X_md) ? namemd : "--");
pr_debug ("\n");
fflush (stderr);
}
/* Parse the arguments to an opcode. */
static int
tokenize_arguments (char *str,
expressionS *tok,
int ntok)
{
char *old_input_line_pointer;
bfd_boolean saw_comma = FALSE;
bfd_boolean saw_arg = FALSE;
int brk_lvl = 0;
int num_args = 0;
int i;
size_t len;
const struct arc_reloc_op_tag *r;
expressionS tmpE;
char *reloc_name, c;
memset (tok, 0, sizeof (*tok) * ntok);
/* Save and restore input_line_pointer around this function. */
old_input_line_pointer = input_line_pointer;
input_line_pointer = str;
while (*input_line_pointer)
{
SKIP_WHITESPACE ();
switch (*input_line_pointer)
{
case '\0':
goto fini;
case ',':
input_line_pointer++;
if (saw_comma || !saw_arg)
goto err;
saw_comma = TRUE;
break;
case '}':
case ']':
++input_line_pointer;
--brk_lvl;
if (!saw_arg || num_args == ntok)
goto err;
tok->X_op = O_bracket;
++tok;
++num_args;
break;
case '{':
case '[':
input_line_pointer++;
if (brk_lvl || num_args == ntok)
goto err;
++brk_lvl;
tok->X_op = O_bracket;
++tok;
++num_args;
break;
case ':':
input_line_pointer++;
if (!saw_arg || num_args == ntok)
goto err;
tok->X_op = O_colon;
saw_arg = FALSE;
++tok;
++num_args;
break;
case '@':
/* We have labels, function names and relocations, all
starting with @ symbol. Sort them out. */
if ((saw_arg && !saw_comma) || num_args == ntok)
goto err;
/* Parse @label. */
tok->X_op = O_symbol;
tok->X_md = O_absent;
expression (tok);
if (*input_line_pointer != '@')
goto normalsymbol; /* This is not a relocation. */
relocationsym:
/* A relocation opernad has the following form
@identifier@relocation_type. The identifier is already
in tok! */
if (tok->X_op != O_symbol)
{
as_bad (_("No valid label relocation operand"));
goto err;
}
/* Parse @relocation_type. */
input_line_pointer++;
c = get_symbol_name (&reloc_name);
len = input_line_pointer - reloc_name;
if (len == 0)
{
as_bad (_("No relocation operand"));
goto err;
}
/* Go through known relocation and try to find a match. */
r = &arc_reloc_op[0];
for (i = arc_num_reloc_op - 1; i >= 0; i--, r++)
if (len == r->length
&& memcmp (reloc_name, r->name, len) == 0)
break;
if (i < 0)
{
as_bad (_("Unknown relocation operand: @%s"), reloc_name);
goto err;
}
*input_line_pointer = c;
SKIP_WHITESPACE_AFTER_NAME ();
/* Extra check for TLS: base. */
if (*input_line_pointer == '@')
{
symbolS *base;
if (tok->X_op_symbol != NULL
|| tok->X_op != O_symbol)
{
as_bad (_("Unable to parse TLS base: %s"),
input_line_pointer);
goto err;
}
input_line_pointer++;
char *sym_name;
c = get_symbol_name (&sym_name);
base = symbol_find_or_make (sym_name);
tok->X_op = O_subtract;
tok->X_op_symbol = base;
restore_line_pointer (c);
tmpE.X_add_number = 0;
}
if ((*input_line_pointer != '+')
&& (*input_line_pointer != '-'))
{
tmpE.X_add_number = 0;
}
else
{
/* Parse the constant of a complex relocation expression
like @identifier@reloc +/- const. */
if (! r->complex_expr)
{
as_bad (_("@%s is not a complex relocation."), r->name);
goto err;
}
expression (&tmpE);
if (tmpE.X_op != O_constant)
{
as_bad (_("Bad expression: @%s + %s."),
r->name, input_line_pointer);
goto err;
}
}
tok->X_md = r->op;
tok->X_add_number = tmpE.X_add_number;
debug_exp (tok);
saw_comma = FALSE;
saw_arg = TRUE;
tok++;
num_args++;
break;
case '%':
/* Can be a register. */
++input_line_pointer;
/* Fall through. */
default:
if ((saw_arg && !saw_comma) || num_args == ntok)
goto err;
tok->X_op = O_absent;
tok->X_md = O_absent;
expression (tok);
/* Legacy: There are cases when we have
identifier@relocation_type, if it is the case parse the
relocation type as well. */
if (*input_line_pointer == '@')
goto relocationsym;
normalsymbol:
debug_exp (tok);
if (tok->X_op == O_illegal
|| tok->X_op == O_absent
|| num_args == ntok)
goto err;
saw_comma = FALSE;
saw_arg = TRUE;
tok++;
num_args++;
break;
}
}
fini:
if (saw_comma || brk_lvl)
goto err;
input_line_pointer = old_input_line_pointer;
return num_args;
err:
if (brk_lvl)
as_bad (_("Brackets in operand field incorrect"));
else if (saw_comma)
as_bad (_("extra comma"));
else if (!saw_arg)
as_bad (_("missing argument"));
else
as_bad (_("missing comma or colon"));
input_line_pointer = old_input_line_pointer;
return -1;
}
/* Parse the flags to a structure. */
static int
tokenize_flags (const char *str,
struct arc_flags flags[],
int nflg)
{
char *old_input_line_pointer;
bfd_boolean saw_flg = FALSE;
bfd_boolean saw_dot = FALSE;
int num_flags = 0;
size_t flgnamelen;
memset (flags, 0, sizeof (*flags) * nflg);
/* Save and restore input_line_pointer around this function. */
old_input_line_pointer = input_line_pointer;
input_line_pointer = (char *) str;
while (*input_line_pointer)
{
switch (*input_line_pointer)
{
case ' ':
case '\0':
goto fini;
case '.':
input_line_pointer++;
if (saw_dot)
goto err;
saw_dot = TRUE;
saw_flg = FALSE;
break;
default:
if (saw_flg && !saw_dot)
goto err;
if (num_flags >= nflg)
goto err;
flgnamelen = strspn (input_line_pointer,
"abcdefghijklmnopqrstuvwxyz0123456789");
if (flgnamelen > MAX_FLAG_NAME_LENGTH)
goto err;
memcpy (flags->name, input_line_pointer, flgnamelen);
input_line_pointer += flgnamelen;
flags++;
saw_dot = FALSE;
saw_flg = TRUE;
num_flags++;
break;
}
}
fini:
input_line_pointer = old_input_line_pointer;
return num_flags;
err:
if (saw_dot)
as_bad (_("extra dot"));
else if (!saw_flg)
as_bad (_("unrecognized flag"));
else
as_bad (_("failed to parse flags"));
input_line_pointer = old_input_line_pointer;
return -1;
}
/* Apply the fixups in order. */
static void
apply_fixups (struct arc_insn *insn, fragS *fragP, int fix)
{
int i;
for (i = 0; i < insn->nfixups; i++)
{
struct arc_fixup *fixup = &insn->fixups[i];
int size, pcrel, offset = 0;
/* FIXME! the reloc size is wrong in the BFD file.
When it is fixed please delete me. */
size = (insn->short_insn && !fixup->islong) ? 2 : 4;
if (fixup->islong)
offset = (insn->short_insn) ? 2 : 4;
/* Some fixups are only used internally, thus no howto. */
if ((int) fixup->reloc == 0)
as_fatal (_("Unhandled reloc type"));
if ((int) fixup->reloc < 0)
{
/* FIXME! the reloc size is wrong in the BFD file.
When it is fixed please enable me.
size = (insn->short_insn && !fixup->islong) ? 2 : 4; */
pcrel = fixup->pcrel;
}
else
{
reloc_howto_type *reloc_howto =
bfd_reloc_type_lookup (stdoutput,
(bfd_reloc_code_real_type) fixup->reloc);
gas_assert (reloc_howto);
/* FIXME! the reloc size is wrong in the BFD file.
When it is fixed please enable me.
size = bfd_get_reloc_size (reloc_howto); */
pcrel = reloc_howto->pc_relative;
}
pr_debug ("%s:%d: apply_fixups: new %s fixup (PCrel:%s) of size %d @ \
offset %d + %d\n",
fragP->fr_file, fragP->fr_line,
(fixup->reloc < 0) ? "Internal" :
bfd_get_reloc_code_name (fixup->reloc),
pcrel ? "Y" : "N",
size, fix, offset);
fix_new_exp (fragP, fix + offset,
size, &fixup->exp, pcrel, fixup->reloc);
/* Check for ZOLs, and update symbol info if any. */
if (LP_INSN (insn->insn))
{
gas_assert (fixup->exp.X_add_symbol);
ARC_SET_FLAG (fixup->exp.X_add_symbol, ARC_FLAG_ZOL);
}
}
}
/* Actually output an instruction with its fixup. */
static void
emit_insn0 (struct arc_insn *insn, char *where, bfd_boolean relax)
{
char *f = where;
pr_debug ("Emit insn : 0x%x\n", insn->insn);
pr_debug ("\tShort : 0x%d\n", insn->short_insn);
pr_debug ("\tLong imm: 0x%lx\n", insn->limm);
/* Write out the instruction. */
if (insn->short_insn)
{
if (insn->has_limm)
{
if (!relax)
f = frag_more (6);
md_number_to_chars (f, insn->insn, 2);
md_number_to_chars_midend (f + 2, insn->limm, 4);
dwarf2_emit_insn (6);
}
else
{
if (!relax)
f = frag_more (2);
md_number_to_chars (f, insn->insn, 2);
dwarf2_emit_insn (2);
}
}
else
{
if (insn->has_limm)
{
if (!relax)
f = frag_more (8);
md_number_to_chars_midend (f, insn->insn, 4);
md_number_to_chars_midend (f + 4, insn->limm, 4);
dwarf2_emit_insn (8);
}
else
{
if (!relax)
f = frag_more (4);
md_number_to_chars_midend (f, insn->insn, 4);
dwarf2_emit_insn (4);
}
}
if (!relax)
apply_fixups (insn, frag_now, (f - frag_now->fr_literal));
}
static void
emit_insn1 (struct arc_insn *insn)
{
/* How frag_var's args are currently configured:
- rs_machine_dependent, to dictate it's a relaxation frag.
- FRAG_MAX_GROWTH, maximum size of instruction
- 0, variable size that might grow...unused by generic relaxation.
- frag_now->fr_subtype, fr_subtype starting value, set previously.
- s, opand expression.
- 0, offset but it's unused.
- 0, opcode but it's unused. */
symbolS *s = make_expr_symbol (&insn->fixups[0].exp);
frag_now->tc_frag_data.pcrel = insn->fixups[0].pcrel;
if (frag_room () < FRAG_MAX_GROWTH)
{
/* Handle differently when frag literal memory is exhausted.
This is used because when there's not enough memory left in
the current frag, a new frag is created and the information
we put into frag_now->tc_frag_data is disregarded. */
struct arc_relax_type relax_info_copy;
relax_substateT subtype = frag_now->fr_subtype;
memcpy (&relax_info_copy, &frag_now->tc_frag_data,
sizeof (struct arc_relax_type));
frag_wane (frag_now);
frag_grow (FRAG_MAX_GROWTH);
memcpy (&frag_now->tc_frag_data, &relax_info_copy,
sizeof (struct arc_relax_type));
frag_var (rs_machine_dependent, FRAG_MAX_GROWTH, 0,
subtype, s, 0, 0);
}
else
frag_var (rs_machine_dependent, FRAG_MAX_GROWTH, 0,
frag_now->fr_subtype, s, 0, 0);
}
static void
emit_insn (struct arc_insn *insn)
{
if (insn->relax)
emit_insn1 (insn);
else
emit_insn0 (insn, NULL, FALSE);
}
/* Check whether a symbol involves a register. */
static bfd_boolean
contains_register (symbolS *sym)
{
if (sym)
{
expressionS *ex = symbol_get_value_expression (sym);
return ((O_register == ex->X_op)
&& !contains_register (ex->X_add_symbol)
&& !contains_register (ex->X_op_symbol));
}
return FALSE;
}
/* Returns the register number within a symbol. */
static int
get_register (symbolS *sym)
{
if (!contains_register (sym))
return -1;
expressionS *ex = symbol_get_value_expression (sym);
return regno (ex->X_add_number);
}
/* Return true if a RELOC is generic. A generic reloc is PC-rel of a
simple ME relocation (e.g. RELOC_ARC_32_ME, BFD_RELOC_ARC_PC32. */
static bfd_boolean
generic_reloc_p (extended_bfd_reloc_code_real_type reloc)
{
if (!reloc)
return FALSE;
switch (reloc)
{
case BFD_RELOC_ARC_SDA_LDST:
case BFD_RELOC_ARC_SDA_LDST1:
case BFD_RELOC_ARC_SDA_LDST2:
case BFD_RELOC_ARC_SDA16_LD:
case BFD_RELOC_ARC_SDA16_LD1:
case BFD_RELOC_ARC_SDA16_LD2:
case BFD_RELOC_ARC_SDA16_ST2:
case BFD_RELOC_ARC_SDA32_ME:
return FALSE;
default:
return TRUE;
}
}
/* Allocates a tok entry. */
static int
allocate_tok (expressionS *tok, int ntok, int cidx)
{
if (ntok > MAX_INSN_ARGS - 2)
return 0; /* No space left. */
if (cidx > ntok)
return 0; /* Incorect args. */
memcpy (&tok[ntok+1], &tok[ntok], sizeof (*tok));
if (cidx == ntok)
return 1; /* Success. */
return allocate_tok (tok, ntok - 1, cidx);
}
/* Check if an particular ARC feature is enabled. */
static bfd_boolean
check_cpu_feature (insn_subclass_t sc)
{
if (is_code_density_p (sc) && !(arc_features & ARC_CD))
return FALSE;
if (is_spfp_p (sc) && !(arc_features & ARC_SPFP))
return FALSE;
if (is_dpfp_p (sc) && !(arc_features & ARC_DPFP))
return FALSE;
if (is_fpuda_p (sc) && !(arc_features & ARC_FPUDA))
return FALSE;
if (is_nps400_p (sc) && !(arc_features & ARC_NPS400))
return FALSE;
return TRUE;
}
/* Parse the flags described by FIRST_PFLAG and NFLGS against the flag
operands in OPCODE. Stores the matching OPCODES into the FIRST_PFLAG
array and returns TRUE if the flag operands all match, otherwise,
returns FALSE, in which case the FIRST_PFLAG array may have been
modified. */
static bfd_boolean
parse_opcode_flags (const struct arc_opcode *opcode,
int nflgs,
struct arc_flags *first_pflag)
{
int lnflg, i;
const unsigned char *flgidx;
lnflg = nflgs;
for (i = 0; i < nflgs; i++)
first_pflag[i].flgp = NULL;
/* Check the flags. Iterate over the valid flag classes. */
for (flgidx = opcode->flags; *flgidx; ++flgidx)
{
/* Get a valid flag class. */
const struct arc_flag_class *cl_flags = &arc_flag_classes[*flgidx];
const unsigned *flgopridx;
int cl_matches = 0;
struct arc_flags *pflag = NULL;
/* Check for extension conditional codes. */
if (ext_condcode.arc_ext_condcode
&& cl_flags->flag_class & F_CLASS_EXTEND)
{
struct arc_flag_operand *pf = ext_condcode.arc_ext_condcode;
while (pf->name)
{
pflag = first_pflag;
for (i = 0; i < nflgs; i++, pflag++)
{
if (!strcmp (pf->name, pflag->name))
{
if (pflag->flgp != NULL)
return FALSE;
/* Found it. */
cl_matches++;
pflag->flgp = pf;
lnflg--;
break;
}
}
pf++;
}
}
for (flgopridx = cl_flags->flags; *flgopridx; ++flgopridx)
{
const struct arc_flag_operand *flg_operand;
pflag = first_pflag;
flg_operand = &arc_flag_operands[*flgopridx];
for (i = 0; i < nflgs; i++, pflag++)
{
/* Match against the parsed flags. */
if (!strcmp (flg_operand->name, pflag->name))
{
if (pflag->flgp != NULL)
return FALSE;
cl_matches++;
pflag->flgp = flg_operand;
lnflg--;
break; /* goto next flag class and parsed flag. */
}
}
}
if ((cl_flags->flag_class & F_CLASS_REQUIRED) && cl_matches == 0)
return FALSE;
if ((cl_flags->flag_class & F_CLASS_OPTIONAL) && cl_matches > 1)
return FALSE;
}
/* Did I check all the parsed flags? */
return lnflg ? FALSE : TRUE;
}
/* Search forward through all variants of an opcode looking for a
syntax match. */
static const struct arc_opcode *
find_opcode_match (const struct arc_opcode_hash_entry *entry,
expressionS *tok,
int *pntok,
struct arc_flags *first_pflag,
int nflgs,
int *pcpumatch)
{
const struct arc_opcode *opcode;
struct arc_opcode_hash_entry_iterator iter;
int ntok = *pntok;
int got_cpu_match = 0;
expressionS bktok[MAX_INSN_ARGS];
int bkntok;
expressionS emptyE;
arc_opcode_hash_entry_iterator_init (&iter);
memset (&emptyE, 0, sizeof (emptyE));
memcpy (bktok, tok, MAX_INSN_ARGS * sizeof (*tok));
bkntok = ntok;
for (opcode = arc_opcode_hash_entry_iterator_next (entry, &iter);
opcode != NULL;
opcode = arc_opcode_hash_entry_iterator_next (entry, &iter))
{
const unsigned char *opidx;
int tokidx = 0;
const expressionS *t = &emptyE;
pr_debug ("%s:%d: find_opcode_match: trying opcode 0x%08X ",
frag_now->fr_file, frag_now->fr_line, opcode->opcode);
/* Don't match opcodes that don't exist on this
architecture. */
if (!(opcode->cpu & arc_target))
goto match_failed;
if (!check_cpu_feature (opcode->subclass))
goto match_failed;
got_cpu_match = 1;
pr_debug ("cpu ");
/* Check the operands. */
for (opidx = opcode->operands; *opidx; ++opidx)
{
const struct arc_operand *operand = &arc_operands[*opidx];
/* Only take input from real operands. */
if (ARC_OPERAND_IS_FAKE (operand))
continue;
/* When we expect input, make sure we have it. */
if (tokidx >= ntok)
goto match_failed;
/* Match operand type with expression type. */
switch (operand->flags & ARC_OPERAND_TYPECHECK_MASK)
{
case ARC_OPERAND_ADDRTYPE:
/* Check to be an address type. */
if (tok[tokidx].X_op != O_addrtype)
goto match_failed;
break;
case ARC_OPERAND_IR:
/* Check to be a register. */
if ((tok[tokidx].X_op != O_register
|| !is_ir_num (tok[tokidx].X_add_number))
&& !(operand->flags & ARC_OPERAND_IGNORE))
goto match_failed;
/* If expect duplicate, make sure it is duplicate. */
if (operand->flags & ARC_OPERAND_DUPLICATE)
{
/* Check for duplicate. */
if (t->X_op != O_register
|| !is_ir_num (t->X_add_number)
|| (regno (t->X_add_number) !=
regno (tok[tokidx].X_add_number)))
goto match_failed;
}
/* Special handling? */
if (operand->insert)
{
const char *errmsg = NULL;
(*operand->insert)(0,
regno (tok[tokidx].X_add_number),
&errmsg);
if (errmsg)
{
if (operand->flags & ARC_OPERAND_IGNORE)
{
/* Missing argument, create one. */
if (!allocate_tok (tok, ntok - 1, tokidx))
goto match_failed;
tok[tokidx].X_op = O_absent;
++ntok;
}
else
goto match_failed;
}
}
t = &tok[tokidx];
break;
case ARC_OPERAND_BRAKET:
/* Check if bracket is also in opcode table as
operand. */
if (tok[tokidx].X_op != O_bracket)
goto match_failed;
break;
case ARC_OPERAND_COLON:
/* Check if colon is also in opcode table as operand. */
if (tok[tokidx].X_op != O_colon)
goto match_failed;
break;
case ARC_OPERAND_LIMM:
case ARC_OPERAND_SIGNED:
case ARC_OPERAND_UNSIGNED:
switch (tok[tokidx].X_op)
{
case O_illegal:
case O_absent:
case O_register:
goto match_failed;
case O_bracket:
/* Got an (too) early bracket, check if it is an
ignored operand. N.B. This procedure works only
when bracket is the last operand! */
if (!(operand->flags & ARC_OPERAND_IGNORE))
goto match_failed;
/* Insert the missing operand. */
if (!allocate_tok (tok, ntok - 1, tokidx))
goto match_failed;
tok[tokidx].X_op = O_absent;
++ntok;
break;
case O_symbol:
{
const char *p;
const struct arc_aux_reg *auxr;
if (opcode->insn_class != AUXREG)
goto de_fault;
p = S_GET_NAME (tok[tokidx].X_add_symbol);
auxr = hash_find (arc_aux_hash, p);
if (auxr)
{
/* We modify the token array here, safe in the
knowledge, that if this was the wrong
choice then the original contents will be
restored from BKTOK. */
tok[tokidx].X_op = O_constant;
tok[tokidx].X_add_number = auxr->address;
ARC_SET_FLAG (tok[tokidx].X_add_symbol, ARC_FLAG_AUX);
}
if (tok[tokidx].X_op != O_constant)
goto de_fault;
}
/* Fall through. */
case O_constant:
/* Check the range. */
if (operand->bits != 32
&& !(operand->flags & ARC_OPERAND_NCHK))
{
offsetT min, max, val;
val = tok[tokidx].X_add_number;
if (operand->flags & ARC_OPERAND_SIGNED)
{
max = (1 << (operand->bits - 1)) - 1;
min = -(1 << (operand->bits - 1));
}
else
{
max = (1 << operand->bits) - 1;
min = 0;
}
if (val < min || val > max)
goto match_failed;
/* Check alignmets. */
if ((operand->flags & ARC_OPERAND_ALIGNED32)
&& (val & 0x03))
goto match_failed;
if ((operand->flags & ARC_OPERAND_ALIGNED16)
&& (val & 0x01))
goto match_failed;
}
else if (operand->flags & ARC_OPERAND_NCHK)
{
if (operand->insert)
{
const char *errmsg = NULL;
(*operand->insert)(0,
tok[tokidx].X_add_number,
&errmsg);
if (errmsg)
goto match_failed;
}
else if (!(operand->flags & ARC_OPERAND_IGNORE))
goto match_failed;
}
break;
case O_subtract:
/* Check if it is register range. */
if ((tok[tokidx].X_add_number == 0)
&& contains_register (tok[tokidx].X_add_symbol)
&& contains_register (tok[tokidx].X_op_symbol))
{
int regs;
regs = get_register (tok[tokidx].X_add_symbol);
regs <<= 16;
regs |= get_register (tok[tokidx].X_op_symbol);
if (operand->insert)
{
const char *errmsg = NULL;
(*operand->insert)(0,
regs,
&errmsg);
if (errmsg)
goto match_failed;
}
else
goto match_failed;
break;
}
/* Fall through. */
default:
de_fault:
if (operand->default_reloc == 0)
goto match_failed; /* The operand needs relocation. */
/* Relocs requiring long immediate. FIXME! make it
generic and move it to a function. */
switch (tok[tokidx].X_md)
{
case O_gotoff:
case O_gotpc:
case O_pcl:
case O_tpoff:
case O_dtpoff:
case O_tlsgd:
case O_tlsie:
if (!(operand->flags & ARC_OPERAND_LIMM))
goto match_failed;
/* Fall through. */
case O_absent:
if (!generic_reloc_p (operand->default_reloc))
goto match_failed;
break;
default:
break;
}
break;
}
/* If expect duplicate, make sure it is duplicate. */
if (operand->flags & ARC_OPERAND_DUPLICATE)
{
if (t->X_op == O_illegal
|| t->X_op == O_absent
|| t->X_op == O_register
|| (t->X_add_number != tok[tokidx].X_add_number))
goto match_failed;
}
t = &tok[tokidx];
break;
default:
/* Everything else should have been fake. */
abort ();
}
++tokidx;
}
pr_debug ("opr ");
/* Setup ready for flag parsing. */
if (!parse_opcode_flags (opcode, nflgs, first_pflag))
goto match_failed;
pr_debug ("flg");
/* Possible match -- did we use all of our input? */
if (tokidx == ntok)
{
*pntok = ntok;
pr_debug ("\n");
return opcode;
}
match_failed:;
pr_debug ("\n");
/* Restore the original parameters. */
memcpy (tok, bktok, MAX_INSN_ARGS * sizeof (*tok));
ntok = bkntok;
}
if (*pcpumatch)
*pcpumatch = got_cpu_match;
return NULL;
}
/* Swap operand tokens. */
static void
swap_operand (expressionS *operand_array,
unsigned source,
unsigned destination)
{
expressionS cpy_operand;
expressionS *src_operand;
expressionS *dst_operand;
size_t size;
if (source == destination)
return;
src_operand = &operand_array[source];
dst_operand = &operand_array[destination];
size = sizeof (expressionS);
/* Make copy of operand to swap with and swap. */
memcpy (&cpy_operand, dst_operand, size);
memcpy (dst_operand, src_operand, size);
memcpy (src_operand, &cpy_operand, size);
}
/* Check if *op matches *tok type.
Returns FALSE if they don't match, TRUE if they match. */
static bfd_boolean
pseudo_operand_match (const expressionS *tok,
const struct arc_operand_operation *op)
{
offsetT min, max, val;
bfd_boolean ret;
const struct arc_operand *operand_real = &arc_operands[op->operand_idx];
ret = FALSE;
switch (tok->X_op)
{
case O_constant:
if (operand_real->bits == 32 && (operand_real->flags & ARC_OPERAND_LIMM))
ret = 1;
else if (!(operand_real->flags & ARC_OPERAND_IR))
{
val = tok->X_add_number + op->count;
if (operand_real->flags & ARC_OPERAND_SIGNED)
{
max = (1 << (operand_real->bits - 1)) - 1;
min = -(1 << (operand_real->bits - 1));
}
else
{
max = (1 << operand_real->bits) - 1;
min = 0;
}
if (min <= val && val <= max)
ret = TRUE;
}
break;
case O_symbol:
/* Handle all symbols as long immediates or signed 9. */
if (operand_real->flags & ARC_OPERAND_LIMM
|| ((operand_real->flags & ARC_OPERAND_SIGNED)
&& operand_real->bits == 9))
ret = TRUE;
break;
case O_register:
if (operand_real->flags & ARC_OPERAND_IR)
ret = TRUE;
break;
case O_bracket:
if (operand_real->flags & ARC_OPERAND_BRAKET)
ret = TRUE;
break;
default:
/* Unknown. */
break;
}
return ret;
}
/* Find pseudo instruction in array. */
static const struct arc_pseudo_insn *
find_pseudo_insn (const char *opname,
int ntok,
const expressionS *tok)
{
const struct arc_pseudo_insn *pseudo_insn = NULL;
const struct arc_operand_operation *op;
unsigned int i;
int j;
for (i = 0; i < arc_num_pseudo_insn; ++i)
{
pseudo_insn = &arc_pseudo_insns[i];
if (strcmp (pseudo_insn->mnemonic_p, opname) == 0)
{
op = pseudo_insn->operand;
for (j = 0; j < ntok; ++j)
if (!pseudo_operand_match (&tok[j], &op[j]))
break;
/* Found the right instruction. */
if (j == ntok)
return pseudo_insn;
}
}
return NULL;
}
/* Assumes the expressionS *tok is of sufficient size. */
static const struct arc_opcode_hash_entry *
find_special_case_pseudo (const char *opname,
int *ntok,
expressionS *tok,
int *nflgs,
struct arc_flags *pflags)
{
const struct arc_pseudo_insn *pseudo_insn = NULL;
const struct arc_operand_operation *operand_pseudo;
const struct arc_operand *operand_real;
unsigned i;
char construct_operand[MAX_CONSTR_STR];
/* Find whether opname is in pseudo instruction array. */
pseudo_insn = find_pseudo_insn (opname, *ntok, tok);
if (pseudo_insn == NULL)
return NULL;
/* Handle flag, Limited to one flag at the moment. */
if (pseudo_insn->flag_r != NULL)
*nflgs += tokenize_flags (pseudo_insn->flag_r, &pflags[*nflgs],
MAX_INSN_FLGS - *nflgs);
/* Handle operand operations. */
for (i = 0; i < pseudo_insn->operand_cnt; ++i)
{
operand_pseudo = &pseudo_insn->operand[i];
operand_real = &arc_operands[operand_pseudo->operand_idx];
if (operand_real->flags & ARC_OPERAND_BRAKET
&& !operand_pseudo->needs_insert)
continue;
/* Has to be inserted (i.e. this token does not exist yet). */
if (operand_pseudo->needs_insert)
{
if (operand_real->flags & ARC_OPERAND_BRAKET)
{
tok[i].X_op = O_bracket;
++(*ntok);
continue;
}
/* Check if operand is a register or constant and handle it
by type. */
if (operand_real->flags & ARC_OPERAND_IR)
snprintf (construct_operand, MAX_CONSTR_STR, "r%d",
operand_pseudo->count);
else
snprintf (construct_operand, MAX_CONSTR_STR, "%d",
operand_pseudo->count);
tokenize_arguments (construct_operand, &tok[i], 1);
++(*ntok);
}
else if (operand_pseudo->count)
{
/* Operand number has to be adjusted accordingly (by operand
type). */
switch (tok[i].X_op)
{
case O_constant:
tok[i].X_add_number += operand_pseudo->count;
break;
case O_symbol:
break;
default:
/* Ignored. */
break;
}
}
}
/* Swap operands if necessary. Only supports one swap at the
moment. */
for (i = 0; i < pseudo_insn->operand_cnt; ++i)
{
operand_pseudo = &pseudo_insn->operand[i];
if (operand_pseudo->swap_operand_idx == i)
continue;
swap_operand (tok, i, operand_pseudo->swap_operand_idx);
/* Prevent a swap back later by breaking out. */
break;
}
return arc_find_opcode (pseudo_insn->mnemonic_r);
}
static const struct arc_opcode_hash_entry *
find_special_case_flag (const char *opname,
int *nflgs,
struct arc_flags *pflags)
{
unsigned int i;
const char *flagnm;
unsigned flag_idx, flag_arr_idx;
size_t flaglen, oplen;
const struct arc_flag_special *arc_flag_special_opcode;
const struct arc_opcode_hash_entry *entry;
/* Search for special case instruction. */
for (i = 0; i < arc_num_flag_special; i++)
{
arc_flag_special_opcode = &arc_flag_special_cases[i];
oplen = strlen (arc_flag_special_opcode->name);
if (strncmp (opname, arc_flag_special_opcode->name, oplen) != 0)
continue;
/* Found a potential special case instruction, now test for
flags. */
for (flag_arr_idx = 0;; ++flag_arr_idx)
{
flag_idx = arc_flag_special_opcode->flags[flag_arr_idx];
if (flag_idx == 0)
break; /* End of array, nothing found. */
flagnm = arc_flag_operands[flag_idx].name;
flaglen = strlen (flagnm);
if (strcmp (opname + oplen, flagnm) == 0)
{
entry = arc_find_opcode (arc_flag_special_opcode->name);
if (*nflgs + 1 > MAX_INSN_FLGS)
break;
memcpy (pflags[*nflgs].name, flagnm, flaglen);
pflags[*nflgs].name[flaglen] = '\0';
(*nflgs)++;
return entry;
}
}
}
return NULL;
}
/* The long instructions are not stored in a hash (there's not many of
them) and so there's no arc_opcode_hash_entry structure to return. This
helper function for find_special_case_long_opcode takes an arc_opcode
result and places it into a fake arc_opcode_hash_entry that points to
the single arc_opcode OPCODE, which is then returned. */
static const struct arc_opcode_hash_entry *
build_fake_opcode_hash_entry (const struct arc_opcode *opcode)
{
static struct arc_opcode_hash_entry entry;
static struct arc_opcode tmp[2];
static const struct arc_opcode *ptr[2];
memcpy (&tmp[0], opcode, sizeof (struct arc_opcode));
memset (&tmp[1], 0, sizeof (struct arc_opcode));
entry.count = 1;
entry.opcode = ptr;
ptr[0] = tmp;
ptr[1] = NULL;
return &entry;
}
/* Used by the assembler to match the list of tokens against a long (48 or
64 bits) instruction. If a matching long instruction is found, then
some of the tokens are consumed in this function and converted into a
single LIMM value, which is then added to the end of the token list,
where it will be consumed by a LIMM operand that exists in the base
opcode of the long instruction. */
static const struct arc_opcode_hash_entry *
find_special_case_long_opcode (const char *opname,
int *ntok ATTRIBUTE_UNUSED,
expressionS *tok ATTRIBUTE_UNUSED,
int *nflgs,
struct arc_flags *pflags)
{
unsigned i;
if (*ntok == MAX_INSN_ARGS)
return NULL;
for (i = 0; i < arc_num_long_opcodes; ++i)
{
struct arc_opcode fake_opcode;
const struct arc_opcode *opcode;
struct arc_insn insn;
expressionS *limm_token;
opcode = &arc_long_opcodes[i].base_opcode;
if (!(opcode->cpu & arc_target))
continue;
if (!check_cpu_feature (opcode->subclass))
continue;
if (strcmp (opname, opcode->name) != 0)
continue;
/* Check that the flags are a match. */
if (!parse_opcode_flags (opcode, *nflgs, pflags))
continue;
/* Parse the LIMM operands into the LIMM template. */
memset (&fake_opcode, 0, sizeof (fake_opcode));
fake_opcode.name = "fake limm";
fake_opcode.opcode = arc_long_opcodes[i].limm_template;
fake_opcode.mask = arc_long_opcodes[i].limm_mask;
fake_opcode.cpu = opcode->cpu;
fake_opcode.insn_class = opcode->insn_class;
fake_opcode.subclass = opcode->subclass;
memcpy (&fake_opcode.operands[0],
&arc_long_opcodes[i].operands,
MAX_INSN_ARGS);
/* Leave fake_opcode.flags as zero. */
pr_debug ("Calling assemble_insn to build fake limm value\n");
assemble_insn (&fake_opcode, tok, *ntok,
NULL, 0, &insn);
pr_debug (" got limm value: 0x%x\n", insn.insn);
/* Now create a new token at the end of the token array (We know this
is safe as the token array is always created with enough space for
MAX_INSN_ARGS, and we check at the start at the start of this
function that we're not there yet). This new token will
correspond to a LIMM operand that will be contained in the
base_opcode of the arc_long_opcode. */
limm_token = &tok[(*ntok)];
(*ntok)++;
/* Modify the LIMM token to hold the constant. */
limm_token->X_op = O_constant;
limm_token->X_add_number = insn.insn;
/* Return the base opcode. */
return build_fake_opcode_hash_entry (opcode);
}
return NULL;
}
/* Used to find special case opcode. */
static const struct arc_opcode_hash_entry *
find_special_case (const char *opname,
int *nflgs,
struct arc_flags *pflags,
expressionS *tok,
int *ntok)
{
const struct arc_opcode_hash_entry *entry;
entry = find_special_case_pseudo (opname, ntok, tok, nflgs, pflags);
if (entry == NULL)
entry = find_special_case_flag (opname, nflgs, pflags);
if (entry == NULL)
entry = find_special_case_long_opcode (opname, ntok, tok, nflgs, pflags);
return entry;
}
/* Given an opcode name, pre-tockenized set of argumenst and the
opcode flags, take it all the way through emission. */
static void
assemble_tokens (const char *opname,
expressionS *tok,
int ntok,
struct arc_flags *pflags,
int nflgs)
{
bfd_boolean found_something = FALSE;
const struct arc_opcode_hash_entry *entry;
int cpumatch = 1;
/* Search opcodes. */
entry = arc_find_opcode (opname);
/* Couldn't find opcode conventional way, try special cases. */
if (entry == NULL)
entry = find_special_case (opname, &nflgs, pflags, tok, &ntok);
if (entry != NULL)
{
const struct arc_opcode *opcode;
pr_debug ("%s:%d: assemble_tokens: %s\n",
frag_now->fr_file, frag_now->fr_line, opname);
found_something = TRUE;
opcode = find_opcode_match (entry, tok, &ntok, pflags,
nflgs, &cpumatch);
if (opcode != NULL)
{
struct arc_insn insn;
assemble_insn (opcode, tok, ntok, pflags, nflgs, &insn);
emit_insn (&insn);
return;
}
}
if (found_something)
{
if (cpumatch)
as_bad (_("inappropriate arguments for opcode '%s'"), opname);
else
as_bad (_("opcode '%s' not supported for target %s"), opname,
arc_target_name);
}
else
as_bad (_("unknown opcode '%s'"), opname);
}
/* The public interface to the instruction assembler. */
void
md_assemble (char *str)
{
char *opname;
expressionS tok[MAX_INSN_ARGS];
int ntok, nflg;
size_t opnamelen;
struct arc_flags flags[MAX_INSN_FLGS];
/* Split off the opcode. */
opnamelen = strspn (str, "abcdefghijklmnopqrstuvwxyz_0123468");
opname = xmemdup0 (str, opnamelen);
/* Signalize we are assmbling the instructions. */
assembling_insn = TRUE;
/* Tokenize the flags. */
if ((nflg = tokenize_flags (str + opnamelen, flags, MAX_INSN_FLGS)) == -1)
{
as_bad (_("syntax error"));
return;
}
/* Scan up to the end of the mnemonic which must end in space or end
of string. */
str += opnamelen;
for (; *str != '\0'; str++)
if (*str == ' ')
break;
/* Tokenize the rest of the line. */
if ((ntok = tokenize_arguments (str, tok, MAX_INSN_ARGS)) < 0)
{
as_bad (_("syntax error"));
return;
}
/* Finish it off. */
assemble_tokens (opname, tok, ntok, flags, nflg);
assembling_insn = FALSE;
}
/* Callback to insert a register into the hash table. */
static void
declare_register (const char *name, int number)
{
const char *err;
symbolS *regS = symbol_create (name, reg_section,
number, &zero_address_frag);
err = hash_insert (arc_reg_hash, S_GET_NAME (regS), (void *) regS);
if (err)
as_fatal (_("Inserting \"%s\" into register table failed: %s"),
name, err);
}
/* Construct symbols for each of the general registers. */
static void
declare_register_set (void)
{
int i;
for (i = 0; i < 64; ++i)
{
char name[7];
sprintf (name, "r%d", i);
declare_register (name, i);
if ((i & 0x01) == 0)
{
sprintf (name, "r%dr%d", i, i+1);
declare_register (name, i);
}
}
}
/* Construct a symbol for an address type. */
static void
declare_addrtype (const char *name, int number)
{
const char *err;
symbolS *addrtypeS = symbol_create (name, undefined_section,
number, &zero_address_frag);
err = hash_insert (arc_addrtype_hash, S_GET_NAME (addrtypeS),
(void *) addrtypeS);
if (err)
as_fatal (_("Inserting \"%s\" into address type table failed: %s"),
name, err);
}
/* Port-specific assembler initialization. This function is called
once, at assembler startup time. */
void
md_begin (void)
{
const struct arc_opcode *opcode = arc_opcodes;
if (!mach_type_specified_p)
arc_select_cpu (TARGET_WITH_CPU);
/* The endianness can be chosen "at the factory". */
target_big_endian = byte_order == BIG_ENDIAN;
if (!bfd_set_arch_mach (stdoutput, bfd_arch_arc, arc_mach_type))
as_warn (_("could not set architecture and machine"));
/* Set elf header flags. */
bfd_set_private_flags (stdoutput, arc_eflag);
/* Set up a hash table for the instructions. */
arc_opcode_hash = hash_new ();
if (arc_opcode_hash == NULL)
as_fatal (_("Virtual memory exhausted"));
/* Initialize the hash table with the insns. */
do
{
const char *name = opcode->name;
arc_insert_opcode (opcode);
while (++opcode && opcode->name
&& (opcode->name == name
|| !strcmp (opcode->name, name)))
continue;
}while (opcode->name);
/* Register declaration. */
arc_reg_hash = hash_new ();
if (arc_reg_hash == NULL)
as_fatal (_("Virtual memory exhausted"));
declare_register_set ();
declare_register ("gp", 26);
declare_register ("fp", 27);
declare_register ("sp", 28);
declare_register ("ilink", 29);
declare_register ("ilink1", 29);
declare_register ("ilink2", 30);
declare_register ("blink", 31);
/* XY memory registers. */
declare_register ("x0_u0", 32);
declare_register ("x0_u1", 33);
declare_register ("x1_u0", 34);
declare_register ("x1_u1", 35);
declare_register ("x2_u0", 36);
declare_register ("x2_u1", 37);
declare_register ("x3_u0", 38);
declare_register ("x3_u1", 39);
declare_register ("y0_u0", 40);
declare_register ("y0_u1", 41);
declare_register ("y1_u0", 42);
declare_register ("y1_u1", 43);
declare_register ("y2_u0", 44);
declare_register ("y2_u1", 45);
declare_register ("y3_u0", 46);
declare_register ("y3_u1", 47);
declare_register ("x0_nu", 48);
declare_register ("x1_nu", 49);
declare_register ("x2_nu", 50);
declare_register ("x3_nu", 51);
declare_register ("y0_nu", 52);
declare_register ("y1_nu", 53);
declare_register ("y2_nu", 54);
declare_register ("y3_nu", 55);
declare_register ("mlo", 57);
declare_register ("mmid", 58);
declare_register ("mhi", 59);
declare_register ("acc1", 56);
declare_register ("acc2", 57);
declare_register ("lp_count", 60);
declare_register ("pcl", 63);
/* Initialize the last instructions. */
memset (&arc_last_insns[0], 0, sizeof (arc_last_insns));
/* Aux register declaration. */
arc_aux_hash = hash_new ();
if (arc_aux_hash == NULL)
as_fatal (_("Virtual memory exhausted"));
const struct arc_aux_reg *auxr = &arc_aux_regs[0];
unsigned int i;
for (i = 0; i < arc_num_aux_regs; i++, auxr++)
{
const char *retval;
if (!(auxr->cpu & arc_target))
continue;
if ((auxr->subclass != NONE)
&& !check_cpu_feature (auxr->subclass))
continue;
retval = hash_insert (arc_aux_hash, auxr->name, (void *) auxr);
if (retval)
as_fatal (_("internal error: can't hash aux register '%s': %s"),
auxr->name, retval);
}
/* Address type declaration. */
arc_addrtype_hash = hash_new ();
if (arc_addrtype_hash == NULL)
as_fatal (_("Virtual memory exhausted"));
declare_addrtype ("bd", ARC_NPS400_ADDRTYPE_BD);
declare_addrtype ("jid", ARC_NPS400_ADDRTYPE_JID);
declare_addrtype ("lbd", ARC_NPS400_ADDRTYPE_LBD);
declare_addrtype ("mbd", ARC_NPS400_ADDRTYPE_MBD);
declare_addrtype ("sd", ARC_NPS400_ADDRTYPE_SD);
declare_addrtype ("sm", ARC_NPS400_ADDRTYPE_SM);
declare_addrtype ("xa", ARC_NPS400_ADDRTYPE_XA);
declare_addrtype ("xd", ARC_NPS400_ADDRTYPE_XD);
declare_addrtype ("cd", ARC_NPS400_ADDRTYPE_CD);
declare_addrtype ("cbd", ARC_NPS400_ADDRTYPE_CBD);
declare_addrtype ("cjid", ARC_NPS400_ADDRTYPE_CJID);
declare_addrtype ("clbd", ARC_NPS400_ADDRTYPE_CLBD);
declare_addrtype ("cm", ARC_NPS400_ADDRTYPE_CM);
declare_addrtype ("csd", ARC_NPS400_ADDRTYPE_CSD);
declare_addrtype ("cxa", ARC_NPS400_ADDRTYPE_CXA);
declare_addrtype ("cxd", ARC_NPS400_ADDRTYPE_CXD);
}
/* 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);
}
/* Round up a section size to the appropriate boundary. */
valueT
md_section_align (segT segment,
valueT size)
{
int align = bfd_get_section_alignment (stdoutput, segment);
return ((size + (1 << align) - 1) & (-((valueT) 1 << align)));
}
/* The location from which a PC relative jump should be calculated,
given a PC relative reloc. */
long
md_pcrel_from_section (fixS *fixP,
segT sec)
{
offsetT base = fixP->fx_where + fixP->fx_frag->fr_address;
pr_debug ("pcrel_from_section, fx_offset = %d\n", (int) fixP->fx_offset);
if (fixP->fx_addsy != (symbolS *) NULL
&& (!S_IS_DEFINED (fixP->fx_addsy)
|| S_GET_SEGMENT (fixP->fx_addsy) != sec))
{
pr_debug ("Unknown pcrel symbol: %s\n", S_GET_NAME (fixP->fx_addsy));
/* The symbol is undefined (or is defined but not in this section).
Let the linker figure it out. */
return 0;
}
if ((int) fixP->fx_r_type < 0)
{
/* These are the "internal" relocations. Align them to
32 bit boundary (PCL), for the moment. */
base &= ~3;
}
else
{
switch (fixP->fx_r_type)
{
case BFD_RELOC_ARC_PC32:
/* The hardware calculates relative to the start of the
insn, but this relocation is relative to location of the
LIMM, compensate. The base always needs to be
substracted by 4 as we do not support this type of PCrel
relocation for short instructions. */
base -= 4;
/* Fall through. */
case BFD_RELOC_ARC_PLT32:
case BFD_RELOC_ARC_S25H_PCREL_PLT:
case BFD_RELOC_ARC_S21H_PCREL_PLT:
case BFD_RELOC_ARC_S25W_PCREL_PLT:
case BFD_RELOC_ARC_S21W_PCREL_PLT:
case BFD_RELOC_ARC_S21H_PCREL:
case BFD_RELOC_ARC_S25H_PCREL:
case BFD_RELOC_ARC_S13_PCREL:
case BFD_RELOC_ARC_S21W_PCREL:
case BFD_RELOC_ARC_S25W_PCREL:
base &= ~3;
break;
default:
as_bad_where (fixP->fx_file, fixP->fx_line,
_("unhandled reloc %s in md_pcrel_from_section"),
bfd_get_reloc_code_name (fixP->fx_r_type));
break;
}
}
pr_debug ("pcrel from %"BFD_VMA_FMT"x + %lx = %"BFD_VMA_FMT"x, "
"symbol: %s (%"BFD_VMA_FMT"x)\n",
fixP->fx_frag->fr_address, fixP->fx_where, base,
fixP->fx_addsy ? S_GET_NAME (fixP->fx_addsy) : "(null)",
fixP->fx_addsy ? S_GET_VALUE (fixP->fx_addsy) : 0);
return base;
}
/* Given a BFD relocation find the coresponding operand. */
static const struct arc_operand *
find_operand_for_reloc (extended_bfd_reloc_code_real_type reloc)
{
unsigned i;
for (i = 0; i < arc_num_operands; i++)
if (arc_operands[i].default_reloc == reloc)
return &arc_operands[i];
return NULL;
}
/* Insert an operand value into an instruction. */
static unsigned
insert_operand (unsigned insn,
const struct arc_operand *operand,
offsetT val,
const char *file,
unsigned line)
{
offsetT min = 0, max = 0;
if (operand->bits != 32
&& !(operand->flags & ARC_OPERAND_NCHK)
&& !(operand->flags & ARC_OPERAND_FAKE))
{
if (operand->flags & ARC_OPERAND_SIGNED)
{
max = (1 << (operand->bits - 1)) - 1;
min = -(1 << (operand->bits - 1));
}
else
{
max = (1 << operand->bits) - 1;
min = 0;
}
if (val < min || val > max)
as_bad_value_out_of_range (_("operand"),
val, min, max, file, line);
}
pr_debug ("insert field: %ld <= %ld <= %ld in 0x%08x\n",
min, val, max, insn);
if ((operand->flags & ARC_OPERAND_ALIGNED32)
&& (val & 0x03))
as_bad_where (file, line,
_("Unaligned operand. Needs to be 32bit aligned"));
if ((operand->flags & ARC_OPERAND_ALIGNED16)
&& (val & 0x01))
as_bad_where (file, line,
_("Unaligned operand. Needs to be 16bit aligned"));
if (operand->insert)
{
const char *errmsg = NULL;
insn = (*operand->insert) (insn, val, &errmsg);
if (errmsg)
as_warn_where (file, line, "%s", errmsg);
}
else
{
if (operand->flags & ARC_OPERAND_TRUNCATE)
{
if (operand->flags & ARC_OPERAND_ALIGNED32)
val >>= 2;
if (operand->flags & ARC_OPERAND_ALIGNED16)
val >>= 1;
}
insn |= ((val & ((1 << operand->bits) - 1)) << operand->shift);
}
return insn;
}
/* Apply a fixup to the object code. At this point all symbol values
should be fully resolved, and we attempt to completely resolve the
reloc. If we can not do that, we determine the correct reloc code
and put it back in the fixup. To indicate that a fixup has been
eliminated, set fixP->fx_done. */
void
md_apply_fix (fixS *fixP,
valueT *valP,
segT seg)
{
char * const fixpos = fixP->fx_frag->fr_literal + fixP->fx_where;
valueT value = *valP;
unsigned insn = 0;
symbolS *fx_addsy, *fx_subsy;
offsetT fx_offset;
segT add_symbol_segment = absolute_section;
segT sub_symbol_segment = absolute_section;
const struct arc_operand *operand = NULL;
extended_bfd_reloc_code_real_type reloc;
pr_debug ("%s:%u: apply_fix: r_type=%d (%s) value=0x%lX offset=0x%lX\n",
fixP->fx_file, fixP->fx_line, fixP->fx_r_type,
((int) fixP->fx_r_type < 0) ? "Internal":
bfd_get_reloc_code_name (fixP->fx_r_type), value,
fixP->fx_offset);
fx_addsy = fixP->fx_addsy;
fx_subsy = fixP->fx_subsy;
fx_offset = 0;
if (fx_addsy)
{
add_symbol_segment = S_GET_SEGMENT (fx_addsy);
}
if (fx_subsy
&& fixP->fx_r_type != BFD_RELOC_ARC_TLS_DTPOFF
&& fixP->fx_r_type != BFD_RELOC_ARC_TLS_DTPOFF_S9
&& fixP->fx_r_type != BFD_RELOC_ARC_TLS_GD_LD)
{
resolve_symbol_value (fx_subsy);
sub_symbol_segment = S_GET_SEGMENT (fx_subsy);
if (sub_symbol_segment == absolute_section)
{
/* The symbol is really a constant. */
fx_offset -= S_GET_VALUE (fx_subsy);
fx_subsy = NULL;
}
else
{
as_bad_where (fixP->fx_file, fixP->fx_line,
_("can't resolve `%s' {%s section} - `%s' {%s section}"),
fx_addsy ? S_GET_NAME (fx_addsy) : "0",
segment_name (add_symbol_segment),
S_GET_NAME (fx_subsy),
segment_name (sub_symbol_segment));
return;
}
}
if (fx_addsy
&& !S_IS_WEAK (fx_addsy))
{
if (add_symbol_segment == seg
&& fixP->fx_pcrel)
{
value += S_GET_VALUE (fx_addsy);
value -= md_pcrel_from_section (fixP, seg);
fx_addsy = NULL;
fixP->fx_pcrel = FALSE;
}
else if (add_symbol_segment == absolute_section)
{
value = fixP->fx_offset;
fx_offset += S_GET_VALUE (fixP->fx_addsy);
fx_addsy = NULL;
fixP->fx_pcrel = FALSE;
}
}
if (!fx_addsy)
fixP->fx_done = TRUE;
if (fixP->fx_pcrel)
{
if (fx_addsy
&& ((S_IS_DEFINED (fx_addsy)
&& S_GET_SEGMENT (fx_addsy) != seg)
|| S_IS_WEAK (fx_addsy)))
value += md_pcrel_from_section (fixP, seg);
switch (fixP->fx_r_type)
{
case BFD_RELOC_ARC_32_ME:
/* This is a pc-relative value in a LIMM. Adjust it to the
address of the instruction not to the address of the
LIMM. Note: it is not anylonger valid this afirmation as
the linker consider ARC_PC32 a fixup to entire 64 bit
insn. */
fixP->fx_offset += fixP->fx_frag->fr_address;
/* Fall through. */
case BFD_RELOC_32:
fixP->fx_r_type = BFD_RELOC_ARC_PC32;
/* Fall through. */
case BFD_RELOC_ARC_PC32:
/* fixP->fx_offset += fixP->fx_where - fixP->fx_dot_value; */
break;
default:
if ((int) fixP->fx_r_type < 0)
as_fatal (_("PC relative relocation not allowed for (internal) type %d"),
fixP->fx_r_type);
break;
}
}
pr_debug ("%s:%u: apply_fix: r_type=%d (%s) value=0x%lX offset=0x%lX\n",
fixP->fx_file, fixP->fx_line, fixP->fx_r_type,
((int) fixP->fx_r_type < 0) ? "Internal":
bfd_get_reloc_code_name (fixP->fx_r_type), value,
fixP->fx_offset);
/* Now check for TLS relocations. */
reloc = fixP->fx_r_type;
switch (reloc)
{
case BFD_RELOC_ARC_TLS_DTPOFF:
case BFD_RELOC_ARC_TLS_LE_32:
if (fixP->fx_done)
break;
/* Fall through. */
case BFD_RELOC_ARC_TLS_GD_GOT:
case BFD_RELOC_ARC_TLS_IE_GOT:
S_SET_THREAD_LOCAL (fixP->fx_addsy);
break;
case BFD_RELOC_ARC_TLS_GD_LD:
gas_assert (!fixP->fx_offset);
if (fixP->fx_subsy)
fixP->fx_offset
= (S_GET_VALUE (fixP->fx_subsy)
- fixP->fx_frag->fr_address- fixP->fx_where);
fixP->fx_subsy = NULL;
/* Fall through. */
case BFD_RELOC_ARC_TLS_GD_CALL:
/* These two relocs are there just to allow ld to change the tls
model for this symbol, by patching the code. The offset -
and scale, if any - will be installed by the linker. */
S_SET_THREAD_LOCAL (fixP->fx_addsy);
break;
case BFD_RELOC_ARC_TLS_LE_S9:
case BFD_RELOC_ARC_TLS_DTPOFF_S9:
as_bad (_("TLS_*_S9 relocs are not supported yet"));
break;
default:
break;
}
if (!fixP->fx_done)
{
return;
}
/* Addjust the value if we have a constant. */
value += fx_offset;
/* For hosts with longs bigger than 32-bits make sure that the top
bits of a 32-bit negative value read in by the parser are set,
so that the correct comparisons are made. */
if (value & 0x80000000)
value |= (-1UL << 31);
reloc = fixP->fx_r_type;
switch (reloc)
{
case BFD_RELOC_8:
case BFD_RELOC_16:
case BFD_RELOC_24:
case BFD_RELOC_32:
case BFD_RELOC_64:
case BFD_RELOC_ARC_32_PCREL:
md_number_to_chars (fixpos, value, fixP->fx_size);
return;
case BFD_RELOC_ARC_GOTPC32:
/* I cannot fix an GOTPC relocation because I need to relax it
from ld rx,[pcl,@sym@gotpc] to add rx,pcl,@sym@gotpc. */
as_bad (_("Unsupported operation on reloc"));
return;
case BFD_RELOC_ARC_TLS_DTPOFF:
case BFD_RELOC_ARC_TLS_LE_32:
gas_assert (!fixP->fx_addsy);
gas_assert (!fixP->fx_subsy);
/* Fall through. */
case BFD_RELOC_ARC_GOTOFF:
case BFD_RELOC_ARC_32_ME:
case BFD_RELOC_ARC_PC32:
md_number_to_chars_midend (fixpos, value, fixP->fx_size);
return;
case BFD_RELOC_ARC_PLT32:
md_number_to_chars_midend (fixpos, value, fixP->fx_size);
return;
case BFD_RELOC_ARC_S25H_PCREL_PLT:
reloc = BFD_RELOC_ARC_S25W_PCREL;
goto solve_plt;
case BFD_RELOC_ARC_S21H_PCREL_PLT:
reloc = BFD_RELOC_ARC_S21H_PCREL;
goto solve_plt;
case BFD_RELOC_ARC_S25W_PCREL_PLT:
reloc = BFD_RELOC_ARC_S25W_PCREL;
goto solve_plt;
case BFD_RELOC_ARC_S21W_PCREL_PLT:
reloc = BFD_RELOC_ARC_S21W_PCREL;
/* Fall through. */
case BFD_RELOC_ARC_S25W_PCREL:
case BFD_RELOC_ARC_S21W_PCREL:
case BFD_RELOC_ARC_S21H_PCREL:
case BFD_RELOC_ARC_S25H_PCREL:
case BFD_RELOC_ARC_S13_PCREL:
solve_plt:
operand = find_operand_for_reloc (reloc);
gas_assert (operand);
break;
default:
{
if ((int) fixP->fx_r_type >= 0)
as_fatal (_("unhandled relocation type %s"),
bfd_get_reloc_code_name (fixP->fx_r_type));
/* The rest of these fixups needs to be completely resolved as
constants. */
if (fixP->fx_addsy != 0
&& S_GET_SEGMENT (fixP->fx_addsy) != absolute_section)
as_bad_where (fixP->fx_file, fixP->fx_line,
_("non-absolute expression in constant field"));
gas_assert (-(int) fixP->fx_r_type < (int) arc_num_operands);
operand = &arc_operands[-(int) fixP->fx_r_type];
break;
}
}
if (target_big_endian)
{
switch (fixP->fx_size)
{
case 4:
insn = bfd_getb32 (fixpos);
break;
case 2:
insn = bfd_getb16 (fixpos);
break;
default:
as_bad_where (fixP->fx_file, fixP->fx_line,
_("unknown fixup size"));
}
}
else
{
insn = 0;
switch (fixP->fx_size)
{
case 4:
insn = bfd_getl16 (fixpos) << 16 | bfd_getl16 (fixpos + 2);
break;
case 2:
insn = bfd_getl16 (fixpos);
break;
default:
as_bad_where (fixP->fx_file, fixP->fx_line,
_("unknown fixup size"));
}
}
insn = insert_operand (insn, operand, (offsetT) value,
fixP->fx_file, fixP->fx_line);
md_number_to_chars_midend (fixpos, insn, fixP->fx_size);
}
/* Prepare machine-dependent frags for relaxation.
Called just before relaxation starts. Any symbol that is now undefined
will not become defined.
Return the correct fr_subtype in the frag.
Return the initial "guess for fr_var" to caller. The guess for fr_var
is *actually* the growth beyond fr_fix. Whatever we do to grow fr_fix
or fr_var contributes to our returned value.
Although it may not be explicit in the frag, pretend
fr_var starts with a value. */
int
md_estimate_size_before_relax (fragS *fragP,
segT segment)
{
int growth;
/* If the symbol is not located within the same section AND it's not
an absolute section, use the maximum. OR if the symbol is a
constant AND the insn is by nature not pc-rel, use the maximum.
OR if the symbol is being equated against another symbol, use the
maximum. OR if the symbol is weak use the maximum. */
if ((S_GET_SEGMENT (fragP->fr_symbol) != segment
&& S_GET_SEGMENT (fragP->fr_symbol) != absolute_section)
|| (symbol_constant_p (fragP->fr_symbol)
&& !fragP->tc_frag_data.pcrel)
|| symbol_equated_p (fragP->fr_symbol)
|| S_IS_WEAK (fragP->fr_symbol))
{
while (md_relax_table[fragP->fr_subtype].rlx_more != ARC_RLX_NONE)
++fragP->fr_subtype;
}
growth = md_relax_table[fragP->fr_subtype].rlx_length;
fragP->fr_var = growth;
pr_debug ("%s:%d: md_estimate_size_before_relax: %d\n",
fragP->fr_file, fragP->fr_line, growth);
return growth;
}
/* Translate internal representation of relocation info to BFD target
format. */
arelent *
tc_gen_reloc (asection *section ATTRIBUTE_UNUSED,
fixS *fixP)
{
arelent *reloc;
bfd_reloc_code_real_type code;
reloc = XNEW (arelent);
reloc->sym_ptr_ptr = XNEW (asymbol *);
*reloc->sym_ptr_ptr = symbol_get_bfdsym (fixP->fx_addsy);
reloc->address = fixP->fx_frag->fr_address + fixP->fx_where;
/* Make sure none of our internal relocations make it this far.
They'd better have been fully resolved by this point. */
gas_assert ((int) fixP->fx_r_type > 0);
code = fixP->fx_r_type;
/* if we have something like add gp, pcl,
_GLOBAL_OFFSET_TABLE_@gotpc. */
if (code == BFD_RELOC_ARC_GOTPC32
&& GOT_symbol
&& fixP->fx_addsy == GOT_symbol)
code = BFD_RELOC_ARC_GOTPC;
reloc->howto = bfd_reloc_type_lookup (stdoutput, code);
if (reloc->howto == NULL)
{
as_bad_where (fixP->fx_file, fixP->fx_line,
_("cannot represent `%s' relocation in object file"),
bfd_get_reloc_code_name (code));
return NULL;
}
if (!fixP->fx_pcrel != !reloc->howto->pc_relative)
as_fatal (_("internal error? cannot generate `%s' relocation"),
bfd_get_reloc_code_name (code));
gas_assert (!fixP->fx_pcrel == !reloc->howto->pc_relative);
reloc->addend = fixP->fx_offset;
return reloc;
}
/* Perform post-processing of machine-dependent frags after relaxation.
Called after relaxation is finished.
In: Address of frag.
fr_type == rs_machine_dependent.
fr_subtype is what the address relaxed to.
Out: Any fixS:s and constants are set up. */
void
md_convert_frag (bfd *abfd ATTRIBUTE_UNUSED,
segT segment ATTRIBUTE_UNUSED,
fragS *fragP)
{
const relax_typeS *table_entry;
char *dest;
const struct arc_opcode *opcode;
struct arc_insn insn;
int size, fix;
struct arc_relax_type *relax_arg = &fragP->tc_frag_data;
fix = (fragP->fr_fix < 0 ? 0 : fragP->fr_fix);
dest = fragP->fr_literal + fix;
table_entry = TC_GENERIC_RELAX_TABLE + fragP->fr_subtype;
pr_debug ("%s:%d: md_convert_frag, subtype: %d, fix: %d, "
"var: %"BFD_VMA_FMT"d\n",
fragP->fr_file, fragP->fr_line,
fragP->fr_subtype, fix, fragP->fr_var);
if (fragP->fr_subtype <= 0
&& fragP->fr_subtype >= arc_num_relax_opcodes)
as_fatal (_("no relaxation found for this instruction."));
opcode = &arc_relax_opcodes[fragP->fr_subtype];
assemble_insn (opcode, relax_arg->tok, relax_arg->ntok, relax_arg->pflags,
relax_arg->nflg, &insn);
apply_fixups (&insn, fragP, fix);
size = insn.short_insn ? (insn.has_limm ? 6 : 2) : (insn.has_limm ? 8 : 4);
gas_assert (table_entry->rlx_length == size);
emit_insn0 (&insn, dest, TRUE);
fragP->fr_fix += table_entry->rlx_length;
fragP->fr_var = 0;
}
/* We have no need to default values of symbols. We could catch
register names here, but that is handled by inserting them all in
the symbol table to begin with. */
symbolS *
md_undefined_symbol (char *name)
{
/* The arc abi demands that a GOT[0] should be referencible as
[pc+_DYNAMIC@gotpc]. Hence we convert a _DYNAMIC@gotpc to a
GOTPC reference to _GLOBAL_OFFSET_TABLE_. */
if (((*name == '_')
&& (*(name+1) == 'G')
&& (strcmp (name, GLOBAL_OFFSET_TABLE_NAME) == 0))
|| ((*name == '_')
&& (*(name+1) == 'D')
&& (strcmp (name, DYNAMIC_STRUCT_NAME) == 0)))
{
if (!GOT_symbol)
{
if (symbol_find (name))
as_bad ("GOT already in symbol table");
GOT_symbol = symbol_new (GLOBAL_OFFSET_TABLE_NAME, undefined_section,
(valueT) 0, &zero_address_frag);
};
return GOT_symbol;
}
return NULL;
}
/* Turn a string in input_line_pointer into a floating point constant
of type type, and store the appropriate bytes in *litP. The number
of LITTLENUMS emitted is stored in *sizeP. An error message is
returned, or NULL on OK. */
const char *
md_atof (int type, char *litP, int *sizeP)
{
return ieee_md_atof (type, litP, sizeP, target_big_endian);
}
/* Called for any expression that can not be recognized. When the
function is called, `input_line_pointer' will point to the start of
the expression. */
void
md_operand (expressionS *expressionP ATTRIBUTE_UNUSED)
{
char *p = input_line_pointer;
if (*p == '@')
{
input_line_pointer++;
expressionP->X_op = O_symbol;
expression (expressionP);
}
}
/* This function is called from the function 'expression', it attempts
to parse special names (in our case register names). It fills in
the expression with the identified register. It returns TRUE if
it is a register and FALSE otherwise. */
bfd_boolean
arc_parse_name (const char *name,
struct expressionS *e)
{
struct symbol *sym;
if (!assembling_insn)
return FALSE;
/* Handle only registers and address types. */
if (e->X_op != O_absent)
return FALSE;
sym = hash_find (arc_reg_hash, name);
if (sym)
{
e->X_op = O_register;
e->X_add_number = S_GET_VALUE (sym);
return TRUE;
}
sym = hash_find (arc_addrtype_hash, name);
if (sym)
{
e->X_op = O_addrtype;
e->X_add_number = S_GET_VALUE (sym);
return TRUE;
}
return FALSE;
}
/* md_parse_option
Invocation line includes a switch not recognized by the base assembler.
See if it's a processor-specific option.
New options (supported) are:
-mcpu=<cpu name> Assemble for selected processor
-EB/-mbig-endian Big-endian
-EL/-mlittle-endian Little-endian
-mrelax Enable relaxation
The following CPU names are recognized:
arc600, arc700, arcem, archs, nps400. */
int
md_parse_option (int c, const char *arg ATTRIBUTE_UNUSED)
{
switch (c)
{
case OPTION_ARC600:
case OPTION_ARC601:
return md_parse_option (OPTION_MCPU, "arc600");
case OPTION_ARC700:
return md_parse_option (OPTION_MCPU, "arc700");
case OPTION_ARCEM:
return md_parse_option (OPTION_MCPU, "arcem");
case OPTION_ARCHS:
return md_parse_option (OPTION_MCPU, "archs");
case OPTION_MCPU:
{
arc_select_cpu (arg);
mach_type_specified_p = TRUE;
break;
}
case OPTION_EB:
arc_target_format = "elf32-bigarc";
byte_order = BIG_ENDIAN;
break;
case OPTION_EL:
arc_target_format = "elf32-littlearc";
byte_order = LITTLE_ENDIAN;
break;
case OPTION_CD:
/* This option has an effect only on ARC EM. */
if (arc_target & ARC_OPCODE_ARCv2EM)
arc_features |= ARC_CD;
else
as_warn (_("Code density option invalid for selected CPU"));
break;
case OPTION_RELAX:
relaxation_state = 1;
break;
case OPTION_NPS400:
arc_features |= ARC_NPS400;
break;
case OPTION_SPFP:
arc_features |= ARC_SPFP;
break;
case OPTION_DPFP:
arc_features |= ARC_DPFP;
break;
case OPTION_FPUDA:
/* This option has an effect only on ARC EM. */
if (arc_target & ARC_OPCODE_ARCv2EM)
arc_features |= ARC_FPUDA;
else
as_warn (_("FPUDA invalid for selected CPU"));
break;
/* Dummy options are accepted but have no effect. */
case OPTION_USER_MODE:
case OPTION_LD_EXT_MASK:
case OPTION_SWAP:
case OPTION_NORM:
case OPTION_BARREL_SHIFT:
case OPTION_MIN_MAX:
case OPTION_NO_MPY:
case OPTION_EA:
case OPTION_MUL64:
case OPTION_SIMD:
case OPTION_XMAC_D16:
case OPTION_XMAC_24:
case OPTION_DSP_PACKA:
case OPTION_CRC:
case OPTION_DVBF:
case OPTION_TELEPHONY:
case OPTION_XYMEMORY:
case OPTION_LOCK:
case OPTION_SWAPE:
case OPTION_RTSC:
break;
default:
return 0;
}
return 1;
}
void
md_show_usage (FILE *stream)
{
fprintf (stream, _("ARC-specific assembler options:\n"));
fprintf (stream, " -mcpu=<cpu name>\t assemble for CPU <cpu name> "
"(default: %s)\n", TARGET_WITH_CPU);
fprintf (stream, " -mcpu=nps400\t\t same as -mcpu=arc700 -mnps400\n");
fprintf (stream, " -mA6/-mARC600/-mARC601 same as -mcpu=arc600\n");
fprintf (stream, " -mA7/-mARC700\t\t same as -mcpu=arc700\n");
fprintf (stream, " -mEM\t\t\t same as -mcpu=arcem\n");
fprintf (stream, " -mHS\t\t\t same as -mcpu=archs\n");
fprintf (stream, " -mnps400\t\t enable NPS-400 extended instructions\n");
fprintf (stream, " -mspfp\t\t enable single-precision floating point instructions\n");
fprintf (stream, " -mdpfp\t\t enable double-precision floating point instructions\n");
fprintf (stream, " -mfpuda\t\t enable double-precision assist floating "
"point\n\t\t\t instructions for ARC EM\n");
fprintf (stream,
" -mcode-density\t enable code density option for ARC EM\n");
fprintf (stream, _("\
-EB assemble code for a big-endian cpu\n"));
fprintf (stream, _("\
-EL assemble code for a little-endian cpu\n"));
fprintf (stream, _("\
-mrelax enable relaxation\n"));
fprintf (stream, _("The following ARC-specific assembler options are "
"deprecated and are accepted\nfor compatibility only:\n"));
fprintf (stream, _(" -mEA\n"
" -mbarrel-shifter\n"
" -mbarrel_shifter\n"
" -mcrc\n"
" -mdsp-packa\n"
" -mdsp_packa\n"
" -mdvbf\n"
" -mld-extension-reg-mask\n"
" -mlock\n"
" -mmac-24\n"
" -mmac-d16\n"
" -mmac_24\n"
" -mmac_d16\n"
" -mmin-max\n"
" -mmin_max\n"
" -mmul64\n"
" -mno-mpy\n"
" -mnorm\n"
" -mrtsc\n"
" -msimd\n"
" -mswap\n"
" -mswape\n"
" -mtelephony\n"
" -muser-mode-only\n"
" -mxy\n"));
}
/* Find the proper relocation for the given opcode. */
static extended_bfd_reloc_code_real_type
find_reloc (const char *name,
const char *opcodename,
const struct arc_flags *pflags,
int nflg,
extended_bfd_reloc_code_real_type reloc)
{
unsigned int i;
int j;
bfd_boolean found_flag, tmp;
extended_bfd_reloc_code_real_type ret = BFD_RELOC_UNUSED;
for (i = 0; i < arc_num_equiv_tab; i++)
{
const struct arc_reloc_equiv_tab *r = &arc_reloc_equiv[i];
/* Find the entry. */
if (strcmp (name, r->name))
continue;
if (r->mnemonic && (strcmp (r->mnemonic, opcodename)))
continue;
if (r->flags[0])
{
if (!nflg)
continue;
found_flag = FALSE;
unsigned * psflg = (unsigned *)r->flags;
do
{
tmp = FALSE;
for (j = 0; j < nflg; j++)
if (!strcmp (pflags[j].name,
arc_flag_operands[*psflg].name))
{
tmp = TRUE;
break;
}
if (!tmp)
{
found_flag = FALSE;
break;
}
else
{
found_flag = TRUE;
}
++ psflg;
} while (*psflg);
if (!found_flag)
continue;
}
if (reloc != r->oldreloc)
continue;
/* Found it. */
ret = r->newreloc;
break;
}
if (ret == BFD_RELOC_UNUSED)
as_bad (_("Unable to find %s relocation for instruction %s"),
name, opcodename);
return ret;
}
/* All the symbol types that are allowed to be used for
relaxation. */
static bfd_boolean
may_relax_expr (expressionS tok)
{
/* Check if we have unrelaxable relocs. */
switch (tok.X_md)
{
default:
break;
case O_plt:
return FALSE;
}
switch (tok.X_op)
{
case O_symbol:
case O_multiply:
case O_divide:
case O_modulus:
case O_add:
case O_subtract:
break;
default:
return FALSE;
}
return TRUE;
}
/* Checks if flags are in line with relaxable insn. */
static bfd_boolean
relaxable_flag (const struct arc_relaxable_ins *ins,
const struct arc_flags *pflags,
int nflgs)
{
unsigned flag_class,
flag,
flag_class_idx = 0,
flag_idx = 0;
const struct arc_flag_operand *flag_opand;
int i, counttrue = 0;
/* Iterate through flags classes. */
while ((flag_class = ins->flag_classes[flag_class_idx]) != 0)
{
/* Iterate through flags in flag class. */
while ((flag = arc_flag_classes[flag_class].flags[flag_idx])
!= 0)
{
flag_opand = &arc_flag_operands[flag];
/* Iterate through flags in ins to compare. */
for (i = 0; i < nflgs; ++i)
{
if (strcmp (flag_opand->name, pflags[i].name) == 0)
++counttrue;
}
++flag_idx;
}
++flag_class_idx;
flag_idx = 0;
}
/* If counttrue == nflgs, then all flags have been found. */
return (counttrue == nflgs ? TRUE : FALSE);
}
/* Checks if operands are in line with relaxable insn. */
static bfd_boolean
relaxable_operand (const struct arc_relaxable_ins *ins,
const expressionS *tok,
int ntok)
{
const enum rlx_operand_type *operand = &ins->operands[0];
int i = 0;
while (*operand != EMPTY)
{
const expressionS *epr = &tok[i];
if (i != 0 && i >= ntok)
return FALSE;
switch (*operand)
{
case IMMEDIATE:
if (!(epr->X_op == O_multiply
|| epr->X_op == O_divide
|| epr->X_op == O_modulus
|| epr->X_op == O_add
|| epr->X_op == O_subtract
|| epr->X_op == O_symbol))
return FALSE;
break;
case REGISTER_DUP:
if ((i <= 0)
|| (epr->X_add_number != tok[i - 1].X_add_number))
return FALSE;
/* Fall through. */
case REGISTER:
if (epr->X_op != O_register)
return FALSE;
break;
case REGISTER_S:
if (epr->X_op != O_register)
return FALSE;
switch (epr->X_add_number)
{
case 0: case 1: case 2: case 3:
case 12: case 13: case 14: case 15:
break;
default:
return FALSE;
}
break;
case REGISTER_NO_GP:
if ((epr->X_op != O_register)
|| (epr->X_add_number == 26)) /* 26 is the gp register. */
return FALSE;
break;
case BRACKET:
if (epr->X_op != O_bracket)
return FALSE;
break;
default:
/* Don't understand, bail out. */
return FALSE;
break;
}
++i;
operand = &ins->operands[i];
}
return (i == ntok ? TRUE : FALSE);
}
/* Return TRUE if this OPDCODE is a candidate for relaxation. */
static bfd_boolean
relax_insn_p (const struct arc_opcode *opcode,
const expressionS *tok,
int ntok,
const struct arc_flags *pflags,
int nflg)
{
unsigned i;
bfd_boolean rv = FALSE;
/* Check the relaxation table. */
for (i = 0; i < arc_num_relaxable_ins && relaxation_state; ++i)
{
const struct arc_relaxable_ins *arc_rlx_ins = &arc_relaxable_insns[i];
if ((strcmp (opcode->name, arc_rlx_ins->mnemonic_r) == 0)
&& may_relax_expr (tok[arc_rlx_ins->opcheckidx])
&& relaxable_operand (arc_rlx_ins, tok, ntok)
&& relaxable_flag (arc_rlx_ins, pflags, nflg))
{
rv = TRUE;
frag_now->fr_subtype = arc_relaxable_insns[i].subtype;
memcpy (&frag_now->tc_frag_data.tok, tok,
sizeof (expressionS) * ntok);
memcpy (&frag_now->tc_frag_data.pflags, pflags,
sizeof (struct arc_flags) * nflg);
frag_now->tc_frag_data.nflg = nflg;
frag_now->tc_frag_data.ntok = ntok;
break;
}
}
return rv;
}
/* Turn an opcode description and a set of arguments into
an instruction and a fixup. */
static void
assemble_insn (const struct arc_opcode *opcode,
const expressionS *tok,
int ntok,
const struct arc_flags *pflags,
int nflg,
struct arc_insn *insn)
{
const expressionS *reloc_exp = NULL;
unsigned image;
const unsigned char *argidx;
int i;
int tokidx = 0;
unsigned char pcrel = 0;
bfd_boolean needGOTSymbol;
bfd_boolean has_delay_slot = FALSE;
extended_bfd_reloc_code_real_type reloc = BFD_RELOC_UNUSED;
memset (insn, 0, sizeof (*insn));
image = opcode->opcode;
pr_debug ("%s:%d: assemble_insn: %s using opcode %x\n",
frag_now->fr_file, frag_now->fr_line, opcode->name,
opcode->opcode);
/* Handle operands. */
for (argidx = opcode->operands; *argidx; ++argidx)
{
const struct arc_operand *operand = &arc_operands[*argidx];
const expressionS *t = (const expressionS *) 0;
if (ARC_OPERAND_IS_FAKE (operand))
continue;
if (operand->flags & ARC_OPERAND_DUPLICATE)
{
/* Duplicate operand, already inserted. */
tokidx ++;
continue;
}
if (tokidx >= ntok)
{
abort ();
}
else
t = &tok[tokidx++];
/* Regardless if we have a reloc or not mark the instruction
limm if it is the case. */
if (operand->flags & ARC_OPERAND_LIMM)
insn->has_limm = TRUE;
switch (t->X_op)
{
case O_register:
image = insert_operand (image, operand, regno (t->X_add_number),
NULL, 0);
break;
case O_constant:
image = insert_operand (image, operand, t->X_add_number, NULL, 0);
reloc_exp = t;
if (operand->flags & ARC_OPERAND_LIMM)
insn->limm = t->X_add_number;
break;
case O_bracket:
case O_colon:
case O_addrtype:
/* Ignore brackets, colons, and address types. */
break;
case O_absent:
gas_assert (operand->flags & ARC_OPERAND_IGNORE);
break;
case O_subtract:
/* Maybe register range. */
if ((t->X_add_number == 0)
&& contains_register (t->X_add_symbol)
&& contains_register (t->X_op_symbol))
{
int regs;
regs = get_register (t->X_add_symbol);
regs <<= 16;
regs |= get_register (t->X_op_symbol);
image = insert_operand (image, operand, regs, NULL, 0);
break;
}
/* Fall through. */
default:
/* This operand needs a relocation. */
needGOTSymbol = FALSE;
switch (t->X_md)
{
case O_plt:
if (opcode->insn_class == JUMP)
as_bad_where (frag_now->fr_file, frag_now->fr_line,
_("Unable to use @plt relocatio for insn %s"),
opcode->name);
needGOTSymbol = TRUE;
reloc = find_reloc ("plt", opcode->name,
pflags, nflg,
operand->default_reloc);
break;
case O_gotoff:
case O_gotpc:
needGOTSymbol = TRUE;
reloc = ARC_RELOC_TABLE (t->X_md)->reloc;
break;
case O_pcl:
reloc = ARC_RELOC_TABLE (t->X_md)->reloc;
if (ARC_SHORT (opcode->mask) || opcode->insn_class == JUMP)
as_bad_where (frag_now->fr_file, frag_now->fr_line,
_("Unable to use @pcl relocation for insn %s"),
opcode->name);
break;
case O_sda:
reloc = find_reloc ("sda", opcode->name,
pflags, nflg,
operand->default_reloc);
break;
case O_tlsgd:
case O_tlsie:
needGOTSymbol = TRUE;
/* Fall-through. */
case O_tpoff:
case O_dtpoff:
reloc = ARC_RELOC_TABLE (t->X_md)->reloc;
break;
case O_tpoff9: /*FIXME! Check for the conditionality of
the insn. */
case O_dtpoff9: /*FIXME! Check for the conditionality of
the insn. */
as_bad (_("TLS_*_S9 relocs are not supported yet"));
break;
default:
/* Just consider the default relocation. */
reloc = operand->default_reloc;
break;
}
if (needGOTSymbol && (GOT_symbol == NULL))
GOT_symbol = symbol_find_or_make (GLOBAL_OFFSET_TABLE_NAME);
reloc_exp = t;
#if 0
if (reloc > 0)
{
/* sanity checks. */
reloc_howto_type *reloc_howto
= bfd_reloc_type_lookup (stdoutput,
(bfd_reloc_code_real_type) reloc);
unsigned reloc_bitsize = reloc_howto->bitsize;
if (reloc_howto->rightshift)
reloc_bitsize -= reloc_howto->rightshift;
if (reloc_bitsize != operand->bits)
{
as_bad (_("invalid relocation %s for field"),
bfd_get_reloc_code_name (reloc));
return;
}
}
#endif
if (insn->nfixups >= MAX_INSN_FIXUPS)
as_fatal (_("too many fixups"));
struct arc_fixup *fixup;
fixup = &insn->fixups[insn->nfixups++];
fixup->exp = *t;
fixup->reloc = reloc;
pcrel = (operand->flags & ARC_OPERAND_PCREL) ? 1 : 0;
fixup->pcrel = pcrel;
fixup->islong = (operand->flags & ARC_OPERAND_LIMM) ?
TRUE : FALSE;
break;
}
}
/* Handle flags. */
for (i = 0; i < nflg; i++)
{
const struct arc_flag_operand *flg_operand = pflags[i].flgp;
/* Check if the instruction has a delay slot. */
if (!strcmp (flg_operand->name, "d"))
has_delay_slot = TRUE;
/* There is an exceptional case when we cannot insert a flag
just as it is. The .T flag must be handled in relation with
the relative address. */
if (!strcmp (flg_operand->name, "t")
|| !strcmp (flg_operand->name, "nt"))
{
unsigned bitYoperand = 0;
/* FIXME! move selection bbit/brcc in arc-opc.c. */
if (!strcmp (flg_operand->name, "t"))
if (!strcmp (opcode->name, "bbit0")
|| !strcmp (opcode->name, "bbit1"))
bitYoperand = arc_NToperand;
else
bitYoperand = arc_Toperand;
else
if (!strcmp (opcode->name, "bbit0")
|| !strcmp (opcode->name, "bbit1"))
bitYoperand = arc_Toperand;
else
bitYoperand = arc_NToperand;
gas_assert (reloc_exp != NULL);
if (reloc_exp->X_op == O_constant)
{
/* Check if we have a constant and solved it
immediately. */
offsetT val = reloc_exp->X_add_number;
image |= insert_operand (image, &arc_operands[bitYoperand],
val, NULL, 0);
}
else
{
struct arc_fixup *fixup;
if (insn->nfixups >= MAX_INSN_FIXUPS)
as_fatal (_("too many fixups"));
fixup = &insn->fixups[insn->nfixups++];
fixup->exp = *reloc_exp;
fixup->reloc = -bitYoperand;
fixup->pcrel = pcrel;
fixup->islong = FALSE;
}
}
else
image |= (flg_operand->code & ((1 << flg_operand->bits) - 1))
<< flg_operand->shift;
}
insn->relax = relax_insn_p (opcode, tok, ntok, pflags, nflg);
/* Short instruction? */
insn->short_insn = ARC_SHORT (opcode->mask) ? TRUE : FALSE;
insn->insn = image;
/* Update last insn status. */
arc_last_insns[1] = arc_last_insns[0];
arc_last_insns[0].opcode = opcode;
arc_last_insns[0].has_limm = insn->has_limm;
arc_last_insns[0].has_delay_slot = has_delay_slot;
/* Check if the current instruction is legally used. */
if (arc_last_insns[1].has_delay_slot
&& is_br_jmp_insn_p (arc_last_insns[0].opcode))
as_bad_where (frag_now->fr_file, frag_now->fr_line,
_("A jump/branch instruction in delay slot."));
}
void
arc_handle_align (fragS* fragP)
{
if ((fragP)->fr_type == rs_align_code)
{
char *dest = (fragP)->fr_literal + (fragP)->fr_fix;
valueT count = ((fragP)->fr_next->fr_address
- (fragP)->fr_address - (fragP)->fr_fix);
(fragP)->fr_var = 2;
if (count & 1)/* Padding in the gap till the next 2-byte
boundary with 0s. */
{
(fragP)->fr_fix++;
*dest++ = 0;
}
/* Writing nop_s. */
md_number_to_chars (dest, NOP_OPCODE_S, 2);
}
}
/* Here we decide which fixups can be adjusted to make them relative
to the beginning of the section instead of the symbol. Basically
we need to make sure that the dynamic relocations are done
correctly, so in some cases we force the original symbol to be
used. */
int
tc_arc_fix_adjustable (fixS *fixP)
{
/* Prevent all adjustments to global symbols. */
if (S_IS_EXTERNAL (fixP->fx_addsy))
return 0;
if (S_IS_WEAK (fixP->fx_addsy))
return 0;
/* Adjust_reloc_syms doesn't know about the GOT. */
switch (fixP->fx_r_type)
{
case BFD_RELOC_ARC_GOTPC32:
case BFD_RELOC_ARC_PLT32:
case BFD_RELOC_ARC_S25H_PCREL_PLT:
case BFD_RELOC_ARC_S21H_PCREL_PLT:
case BFD_RELOC_ARC_S25W_PCREL_PLT:
case BFD_RELOC_ARC_S21W_PCREL_PLT:
return 0;
default:
break;
}
return 1;
}
/* Compute the reloc type of an expression EXP. */
static void
arc_check_reloc (expressionS *exp,
bfd_reloc_code_real_type *r_type_p)
{
if (*r_type_p == BFD_RELOC_32
&& exp->X_op == O_subtract
&& exp->X_op_symbol != NULL
&& exp->X_op_symbol->bsym->section == now_seg)
*r_type_p = BFD_RELOC_ARC_32_PCREL;
}
/* Add expression EXP of SIZE bytes to offset OFF of fragment FRAG. */
void
arc_cons_fix_new (fragS *frag,
int off,
int size,
expressionS *exp,
bfd_reloc_code_real_type r_type)
{
r_type = BFD_RELOC_UNUSED;
switch (size)
{
case 1:
r_type = BFD_RELOC_8;
break;
case 2:
r_type = BFD_RELOC_16;
break;
case 3:
r_type = BFD_RELOC_24;
break;
case 4:
r_type = BFD_RELOC_32;
arc_check_reloc (exp, &r_type);
break;
case 8:
r_type = BFD_RELOC_64;
break;
default:
as_bad (_("unsupported BFD relocation size %u"), size);
r_type = BFD_RELOC_UNUSED;
}
fix_new_exp (frag, off, size, exp, 0, r_type);
}
/* The actual routine that checks the ZOL conditions. */
static void
check_zol (symbolS *s)
{
switch (arc_mach_type)
{
case bfd_mach_arc_arcv2:
if (arc_target & ARC_OPCODE_ARCv2EM)
return;
if (is_br_jmp_insn_p (arc_last_insns[0].opcode)
|| arc_last_insns[1].has_delay_slot)
as_bad (_("Jump/Branch instruction detected at the end of the ZOL label @%s"),
S_GET_NAME (s));
break;
case bfd_mach_arc_arc600:
if (is_kernel_insn_p (arc_last_insns[0].opcode))
as_bad (_("Kernel instruction detected at the end of the ZOL label @%s"),
S_GET_NAME (s));
if (arc_last_insns[0].has_limm
&& is_br_jmp_insn_p (arc_last_insns[0].opcode))
as_bad (_("A jump instruction with long immediate detected at the \
end of the ZOL label @%s"), S_GET_NAME (s));
/* Fall through. */
case bfd_mach_arc_arc700:
if (arc_last_insns[0].has_delay_slot)
as_bad (_("An illegal use of delay slot detected at the end of the ZOL label @%s"),
S_GET_NAME (s));
break;
default:
break;
}
}
/* If ZOL end check the last two instruction for illegals. */
void
arc_frob_label (symbolS * sym)
{
if (ARC_GET_FLAG (sym) & ARC_FLAG_ZOL)
check_zol (sym);
dwarf2_emit_label (sym);
}
/* Used because generic relaxation assumes a pc-rel value whilst we
also relax instructions that use an absolute value resolved out of
relative values (if that makes any sense). An example: 'add r1,
r2, @.L2 - .' The symbols . and @.L2 are relative to the section
but if they're in the same section we can subtract the section
offset relocation which ends up in a resolved value. So if @.L2 is
.text + 0x50 and . is .text + 0x10, we can say that .text + 0x50 -
.text + 0x40 = 0x10. */
int
arc_pcrel_adjust (fragS *fragP)
{
if (!fragP->tc_frag_data.pcrel)
return fragP->fr_address + fragP->fr_fix;
return 0;
}
/* Initialize the DWARF-2 unwind information for this procedure. */
void
tc_arc_frame_initial_instructions (void)
{
/* Stack pointer is register 28. */
cfi_add_CFA_def_cfa (28, 0);
}
int
tc_arc_regname_to_dw2regnum (char *regname)
{
struct symbol *sym;
sym = hash_find (arc_reg_hash, regname);
if (sym)
return S_GET_VALUE (sym);
return -1;
}
/* Adjust the symbol table. Delete found AUX register symbols. */
void
arc_adjust_symtab (void)
{
symbolS * sym;
for (sym = symbol_rootP; sym != NULL; sym = symbol_next (sym))
{
/* I've created a symbol during parsing process. Now, remove
the symbol as it is found to be an AUX register. */
if (ARC_GET_FLAG (sym) & ARC_FLAG_AUX)
symbol_remove (sym, &symbol_rootP, &symbol_lastP);
}
/* Now do generic ELF adjustments. */
elf_adjust_symtab ();
}
static void
tokenize_extinsn (extInstruction_t *einsn)
{
char *p, c;
char *insn_name;
unsigned char major_opcode;
unsigned char sub_opcode;
unsigned char syntax_class = 0;
unsigned char syntax_class_modifiers = 0;
unsigned char suffix_class = 0;
unsigned int i;
SKIP_WHITESPACE ();
/* 1st: get instruction name. */
p = input_line_pointer;
c = get_symbol_name (&p);
insn_name = xstrdup (p);
restore_line_pointer (c);
/* 2nd: get major opcode. */
if (*input_line_pointer != ',')
{
as_bad (_("expected comma after instruction name"));
ignore_rest_of_line ();
return;
}
input_line_pointer++;
major_opcode = get_absolute_expression ();
/* 3rd: get sub-opcode. */
SKIP_WHITESPACE ();
if (*input_line_pointer != ',')
{
as_bad (_("expected comma after major opcode"));
ignore_rest_of_line ();
return;
}
input_line_pointer++;
sub_opcode = get_absolute_expression ();
/* 4th: get suffix class. */
SKIP_WHITESPACE ();
if (*input_line_pointer != ',')
{
as_bad ("expected comma after sub opcode");
ignore_rest_of_line ();
return;
}
input_line_pointer++;
while (1)
{
SKIP_WHITESPACE ();
for (i = 0; i < ARRAY_SIZE (suffixclass); i++)
{
if (!strncmp (suffixclass[i].name, input_line_pointer,
suffixclass[i].len))
{
suffix_class |= suffixclass[i].attr_class;
input_line_pointer += suffixclass[i].len;
break;
}
}
if (i == ARRAY_SIZE (suffixclass))
{
as_bad ("invalid suffix class");
ignore_rest_of_line ();
return;
}
SKIP_WHITESPACE ();
if (*input_line_pointer == '|')
input_line_pointer++;
else
break;
}
/* 5th: get syntax class and syntax class modifiers. */
if (*input_line_pointer != ',')
{
as_bad ("expected comma after suffix class");
ignore_rest_of_line ();
return;
}
input_line_pointer++;
while (1)
{
SKIP_WHITESPACE ();
for (i = 0; i < ARRAY_SIZE (syntaxclassmod); i++)
{
if (!strncmp (syntaxclassmod[i].name,
input_line_pointer,
syntaxclassmod[i].len))
{
syntax_class_modifiers |= syntaxclassmod[i].attr_class;
input_line_pointer += syntaxclassmod[i].len;
break;
}
}
if (i == ARRAY_SIZE (syntaxclassmod))
{
for (i = 0; i < ARRAY_SIZE (syntaxclass); i++)
{
if (!strncmp (syntaxclass[i].name,
input_line_pointer,
syntaxclass[i].len))
{
syntax_class |= syntaxclass[i].attr_class;
input_line_pointer += syntaxclass[i].len;
break;
}
}
if (i == ARRAY_SIZE (syntaxclass))
{
as_bad ("missing syntax class");
ignore_rest_of_line ();
return;
}
}
SKIP_WHITESPACE ();
if (*input_line_pointer == '|')
input_line_pointer++;
else
break;
}
demand_empty_rest_of_line ();
einsn->name = insn_name;
einsn->major = major_opcode;
einsn->minor = sub_opcode;
einsn->syntax = syntax_class;
einsn->modsyn = syntax_class_modifiers;
einsn->suffix = suffix_class;
einsn->flags = syntax_class
| (syntax_class_modifiers & ARC_OP1_IMM_IMPLIED ? 0x10 : 0);
}
/* Generate an extension section. */
static int
arc_set_ext_seg (void)
{
if (!arcext_section)
{
arcext_section = subseg_new (".arcextmap", 0);
bfd_set_section_flags (stdoutput, arcext_section,
SEC_READONLY | SEC_HAS_CONTENTS);
}
else
subseg_set (arcext_section, 0);
return 1;
}
/* Create an extension instruction description in the arc extension
section of the output file.
The structure for an instruction is like this:
[0]: Length of the record.
[1]: Type of the record.
[2]: Major opcode.
[3]: Sub-opcode.
[4]: Syntax (flags).
[5]+ Name instruction.
The sequence is terminated by an empty entry. */
static void
create_extinst_section (extInstruction_t *einsn)
{
segT old_sec = now_seg;
int old_subsec = now_subseg;
char *p;
int name_len = strlen (einsn->name);
arc_set_ext_seg ();
p = frag_more (1);
*p = 5 + name_len + 1;
p = frag_more (1);
*p = EXT_INSTRUCTION;
p = frag_more (1);
*p = einsn->major;
p = frag_more (1);
*p = einsn->minor;
p = frag_more (1);
*p = einsn->flags;
p = frag_more (name_len + 1);
strcpy (p, einsn->name);
subseg_set (old_sec, old_subsec);
}
/* Handler .extinstruction pseudo-op. */
static void
arc_extinsn (int ignore ATTRIBUTE_UNUSED)
{
extInstruction_t einsn;
struct arc_opcode *arc_ext_opcodes;
const char *errmsg = NULL;
unsigned char moplow, mophigh;
memset (&einsn, 0, sizeof (einsn));
tokenize_extinsn (&einsn);
/* Check if the name is already used. */
if (arc_find_opcode (einsn.name))
as_warn (_("Pseudocode already used %s"), einsn.name);
/* Check the opcode ranges. */
moplow = 0x05;
mophigh = (arc_target & (ARC_OPCODE_ARCv2EM
| ARC_OPCODE_ARCv2HS)) ? 0x07 : 0x0a;
if ((einsn.major > mophigh) || (einsn.major < moplow))
as_fatal (_("major opcode not in range [0x%02x - 0x%02x]"), moplow, mophigh);
if ((einsn.minor > 0x3f) && (einsn.major != 0x0a)
&& (einsn.major != 5) && (einsn.major != 9))
as_fatal (_("minor opcode not in range [0x00 - 0x3f]"));
switch (einsn.syntax & ARC_SYNTAX_MASK)
{
case ARC_SYNTAX_3OP:
if (einsn.modsyn & ARC_OP1_IMM_IMPLIED)
as_fatal (_("Improper use of OP1_IMM_IMPLIED"));
break;
case ARC_SYNTAX_2OP:
case ARC_SYNTAX_1OP:
case ARC_SYNTAX_NOP:
if (einsn.modsyn & ARC_OP1_MUST_BE_IMM)
as_fatal (_("Improper use of OP1_MUST_BE_IMM"));
break;
default:
break;
}
arc_ext_opcodes = arcExtMap_genOpcode (&einsn, arc_target, &errmsg);
if (arc_ext_opcodes == NULL)
{
if (errmsg)
as_fatal ("%s", errmsg);
else
as_fatal (_("Couldn't generate extension instruction opcodes"));
}
else if (errmsg)
as_warn ("%s", errmsg);
/* Insert the extension instruction. */
arc_insert_opcode ((const struct arc_opcode *) arc_ext_opcodes);
create_extinst_section (&einsn);
}
static void
tokenize_extregister (extRegister_t *ereg, int opertype)
{
char *name;
char *mode;
char c;
char *p;
int number, imode = 0;
bfd_boolean isCore_p = (opertype == EXT_CORE_REGISTER) ? TRUE : FALSE;
bfd_boolean isReg_p = (opertype == EXT_CORE_REGISTER
|| opertype == EXT_AUX_REGISTER) ? TRUE : FALSE;
/* 1st: get register name. */
SKIP_WHITESPACE ();
p = input_line_pointer;
c = get_symbol_name (&p);
name = xstrdup (p);
restore_line_pointer (c);
/* 2nd: get register number. */
SKIP_WHITESPACE ();
if (*input_line_pointer != ',')
{
as_bad (_("expected comma after register name"));
ignore_rest_of_line ();
free (name);
return;
}
input_line_pointer++;
number = get_absolute_expression ();
if (number < 0)
{
as_bad (_("negative operand number %d"), number);
ignore_rest_of_line ();
free (name);
return;
}
if (isReg_p)
{
/* 3rd: get register mode. */
SKIP_WHITESPACE ();
if (*input_line_pointer != ',')
{
as_bad (_("expected comma after register number"));
ignore_rest_of_line ();
free (name);
return;
}
input_line_pointer++;
mode = input_line_pointer;
if (!strncmp (mode, "r|w", 3))
{
imode = 0;
input_line_pointer += 3;
}
else if (!strncmp (mode, "r", 1))
{
imode = ARC_REGISTER_READONLY;
input_line_pointer += 1;
}
else if (strncmp (mode, "w", 1))
{
as_bad (_("invalid mode"));
ignore_rest_of_line ();
free (name);
return;
}
else
{
imode = ARC_REGISTER_WRITEONLY;
input_line_pointer += 1;
}
}
if (isCore_p)
{
/* 4th: get core register shortcut. */
SKIP_WHITESPACE ();
if (*input_line_pointer != ',')
{
as_bad (_("expected comma after register mode"));
ignore_rest_of_line ();
free (name);
return;
}
input_line_pointer++;
if (!strncmp (input_line_pointer, "cannot_shortcut", 15))
{
imode |= ARC_REGISTER_NOSHORT_CUT;
input_line_pointer += 15;
}
else if (strncmp (input_line_pointer, "can_shortcut", 12))
{
as_bad (_("shortcut designator invalid"));
ignore_rest_of_line ();
free (name);
return;
}
else
{
input_line_pointer += 12;
}
}
demand_empty_rest_of_line ();
ereg->name = name;
ereg->number = number;
ereg->imode = imode;
}
/* Create an extension register/condition description in the arc
extension section of the output file.
The structure for an instruction is like this:
[0]: Length of the record.
[1]: Type of the record.
For core regs and condition codes:
[2]: Value.
[3]+ Name.
For auxilirary registers:
[2..5]: Value.
[6]+ Name
The sequence is terminated by an empty entry. */
static void
create_extcore_section (extRegister_t *ereg, int opertype)
{
segT old_sec = now_seg;
int old_subsec = now_subseg;
char *p;
int name_len = strlen (ereg->name);
arc_set_ext_seg ();
switch (opertype)
{
case EXT_COND_CODE:
case EXT_CORE_REGISTER:
p = frag_more (1);
*p = 3 + name_len + 1;
p = frag_more (1);
*p = opertype;
p = frag_more (1);
*p = ereg->number;
break;
case EXT_AUX_REGISTER:
p = frag_more (1);
*p = 6 + name_len + 1;
p = frag_more (1);
*p = EXT_AUX_REGISTER;
p = frag_more (1);
*p = (ereg->number >> 24) & 0xff;
p = frag_more (1);
*p = (ereg->number >> 16) & 0xff;
p = frag_more (1);
*p = (ereg->number >> 8) & 0xff;
p = frag_more (1);
*p = (ereg->number) & 0xff;
break;
default:
break;
}
p = frag_more (name_len + 1);
strcpy (p, ereg->name);
subseg_set (old_sec, old_subsec);
}
/* Handler .extCoreRegister pseudo-op. */
static void
arc_extcorereg (int opertype)
{
extRegister_t ereg;
struct arc_aux_reg *auxr;
const char *retval;
struct arc_flag_operand *ccode;
memset (&ereg, 0, sizeof (ereg));
tokenize_extregister (&ereg, opertype);
switch (opertype)
{
case EXT_CORE_REGISTER:
/* Core register. */
if (ereg.number > 60)
as_bad (_("core register %s value (%d) too large"), ereg.name,
ereg.number);
declare_register (ereg.name, ereg.number);
break;
case EXT_AUX_REGISTER:
/* Auxiliary register. */
auxr = XNEW (struct arc_aux_reg);
auxr->name = ereg.name;
auxr->cpu = arc_target;
auxr->subclass = NONE;
auxr->address = ereg.number;
retval = hash_insert (arc_aux_hash, auxr->name, (void *) auxr);
if (retval)
as_fatal (_("internal error: can't hash aux register '%s': %s"),
auxr->name, retval);
break;
case EXT_COND_CODE:
/* Condition code. */
if (ereg.number > 31)
as_bad (_("condition code %s value (%d) too large"), ereg.name,
ereg.number);
ext_condcode.size ++;
ext_condcode.arc_ext_condcode =
XRESIZEVEC (struct arc_flag_operand, ext_condcode.arc_ext_condcode,
ext_condcode.size + 1);
if (ext_condcode.arc_ext_condcode == NULL)
as_fatal (_("Virtual memory exhausted"));
ccode = ext_condcode.arc_ext_condcode + ext_condcode.size - 1;
ccode->name = ereg.name;
ccode->code = ereg.number;
ccode->bits = 5;
ccode->shift = 0;
ccode->favail = 0; /* not used. */
ccode++;
memset (ccode, 0, sizeof (struct arc_flag_operand));
break;
default:
as_bad (_("Unknown extension"));
break;
}
create_extcore_section (&ereg, opertype);
}
/* Local variables:
eval: (c-set-style "gnu")
indent-tabs-mode: t
End: */
|