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binutils-gdb/opcodes/aarch64-opc.h
Tamar Christina 6456d318aa AArch64: Add verifier for By elem Single and Double sized instructions. 
The AArch64 instruction set has cut-outs inside instructions encodings for
when a given encoding that would normally fall within the encoding space of
an instruction is instead undefined.

This updates the first few instructions FMLA, FMLA, FMUL and FMULX in the case
where sz:L == 11.

gas/ChangeLog:

	PR binutils/23212
	* testsuite/gas/aarch64/undefined_by_elem_sz_l.s: New test.
	* testsuite/gas/aarch64/undefined_by_elem_sz_l.d: New test.

opcodes/ChangeLog:

	PR binutils/23212
	* aarch64-opc.h (enum aarch64_field_kind): Add FLD_sz.
	* aarch64-opc.c (verify_elem_sd): New.
	(fields): Add FLD_sz entr.
	* aarch64-tbl.h (_SIMD_INSN): New.
	(aarch64_opcode_table): Add elem_sd verifier to fmla, fmls, fmul and
	fmulx scalar and vector by element isns.
2019-02-07 16:56:35 +00:00

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/* aarch64-opc.h -- Header file for aarch64-opc.c and aarch64-opc-2.c.
Copyright (C) 2012-2019 Free Software Foundation, Inc.
Contributed by ARM Ltd.
This file is part of the GNU opcodes library.
This library 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.
It is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public
License for more details.
You should have received a copy of the GNU General Public License
along with this program; see the file COPYING3. If not,
see <http://www.gnu.org/licenses/>. */
#ifndef OPCODES_AARCH64_OPC_H
#define OPCODES_AARCH64_OPC_H
#include <string.h>
#include "opcode/aarch64.h"
/* Instruction fields.
Keep synced with fields. */
enum aarch64_field_kind
{
FLD_NIL,
FLD_cond2,
FLD_nzcv,
FLD_defgh,
FLD_abc,
FLD_imm19,
FLD_immhi,
FLD_immlo,
FLD_size,
FLD_vldst_size,
FLD_op,
FLD_Q,
FLD_Rt,
FLD_Rd,
FLD_Rn,
FLD_Rt2,
FLD_Ra,
FLD_op2,
FLD_CRm,
FLD_CRn,
FLD_op1,
FLD_op0,
FLD_imm3,
FLD_cond,
FLD_opcode,
FLD_cmode,
FLD_asisdlso_opcode,
FLD_len,
FLD_Rm,
FLD_Rs,
FLD_option,
FLD_S,
FLD_hw,
FLD_opc,
FLD_opc1,
FLD_shift,
FLD_type,
FLD_ldst_size,
FLD_imm6,
FLD_imm6_2,
FLD_imm4,
FLD_imm4_2,
FLD_imm4_3,
FLD_imm5,
FLD_imm7,
FLD_imm8,
FLD_imm9,
FLD_imm12,
FLD_imm14,
FLD_imm16,
FLD_imm26,
FLD_imms,
FLD_immr,
FLD_immb,
FLD_immh,
FLD_S_imm10,
FLD_N,
FLD_index,
FLD_index2,
FLD_sf,
FLD_lse_sz,
FLD_H,
FLD_L,
FLD_M,
FLD_b5,
FLD_b40,
FLD_scale,
FLD_SVE_M_4,
FLD_SVE_M_14,
FLD_SVE_M_16,
FLD_SVE_N,
FLD_SVE_Pd,
FLD_SVE_Pg3,
FLD_SVE_Pg4_5,
FLD_SVE_Pg4_10,
FLD_SVE_Pg4_16,
FLD_SVE_Pm,
FLD_SVE_Pn,
FLD_SVE_Pt,
FLD_SVE_Rm,
FLD_SVE_Rn,
FLD_SVE_Vd,
FLD_SVE_Vm,
FLD_SVE_Vn,
FLD_SVE_Za_5,
FLD_SVE_Za_16,
FLD_SVE_Zd,
FLD_SVE_Zm_5,
FLD_SVE_Zm_16,
FLD_SVE_Zn,
FLD_SVE_Zt,
FLD_SVE_i1,
FLD_SVE_i3h,
FLD_SVE_imm3,
FLD_SVE_imm4,
FLD_SVE_imm5,
FLD_SVE_imm5b,
FLD_SVE_imm6,
FLD_SVE_imm7,
FLD_SVE_imm8,
FLD_SVE_imm9,
FLD_SVE_immr,
FLD_SVE_imms,
FLD_SVE_msz,
FLD_SVE_pattern,
FLD_SVE_prfop,
FLD_SVE_rot1,
FLD_SVE_rot2,
FLD_SVE_sz,
FLD_SVE_tsz,
FLD_SVE_tszh,
FLD_SVE_tszl_8,
FLD_SVE_tszl_19,
FLD_SVE_xs_14,
FLD_SVE_xs_22,
FLD_rotate1,
FLD_rotate2,
FLD_rotate3,
FLD_SM3_imm2,
FLD_sz
};
/* Field description. */
struct aarch64_field
{
int lsb;
int width;
};
typedef struct aarch64_field aarch64_field;
extern const aarch64_field fields[];
/* Operand description. */
struct aarch64_operand
{
enum aarch64_operand_class op_class;
/* Name of the operand code; used mainly for the purpose of internal
debugging. */
const char *name;
unsigned int flags;
/* The associated instruction bit-fields; no operand has more than 4
bit-fields */
enum aarch64_field_kind fields[4];
/* Brief description */
const char *desc;
};
typedef struct aarch64_operand aarch64_operand;
extern const aarch64_operand aarch64_operands[];
enum err_type
verify_constraints (const struct aarch64_inst *, const aarch64_insn, bfd_vma,
bfd_boolean, aarch64_operand_error *, aarch64_instr_sequence*);
/* Operand flags. */
#define OPD_F_HAS_INSERTER 0x00000001
#define OPD_F_HAS_EXTRACTOR 0x00000002
#define OPD_F_SEXT 0x00000004 /* Require sign-extension. */
#define OPD_F_SHIFT_BY_2 0x00000008 /* Need to left shift the field
value by 2 to get the value
of an immediate operand. */
#define OPD_F_MAYBE_SP 0x00000010 /* May potentially be SP. */
#define OPD_F_OD_MASK 0x000000e0 /* Operand-dependent data. */
#define OPD_F_OD_LSB 5
#define OPD_F_NO_ZR 0x00000100 /* ZR index not allowed. */
#define OPD_F_SHIFT_BY_4 0x00000200 /* Need to left shift the field
value by 4 to get the value
of an immediate operand. */
/* Register flags. */
#undef F_DEPRECATED
#define F_DEPRECATED (1 << 0) /* Deprecated system register. */
#undef F_ARCHEXT
#define F_ARCHEXT (1 << 1) /* Architecture dependent system register. */
#undef F_HASXT
#define F_HASXT (1 << 2) /* System instruction register <Xt>
operand. */
#undef F_REG_READ
#define F_REG_READ (1 << 3) /* Register can only be used to read values
out of. */
#undef F_REG_WRITE
#define F_REG_WRITE (1 << 4) /* Register can only be written to but not
read from. */
/* HINT operand flags. */
#define HINT_OPD_F_NOPRINT (1 << 0) /* Should not be printed. */
/* Encode 7-bit HINT #imm in the lower 8 bits. Use higher bits for flags. */
#define HINT_ENCODE(flag, val) ((flag << 8) | val)
#define HINT_FLAG(val) (val >> 8)
#define HINT_VAL(val) (val & 0xff)
static inline bfd_boolean
operand_has_inserter (const aarch64_operand *operand)
{
return (operand->flags & OPD_F_HAS_INSERTER) ? TRUE : FALSE;
}
static inline bfd_boolean
operand_has_extractor (const aarch64_operand *operand)
{
return (operand->flags & OPD_F_HAS_EXTRACTOR) ? TRUE : FALSE;
}
static inline bfd_boolean
operand_need_sign_extension (const aarch64_operand *operand)
{
return (operand->flags & OPD_F_SEXT) ? TRUE : FALSE;
}
static inline bfd_boolean
operand_need_shift_by_two (const aarch64_operand *operand)
{
return (operand->flags & OPD_F_SHIFT_BY_2) ? TRUE : FALSE;
}
static inline bfd_boolean
operand_need_shift_by_four (const aarch64_operand *operand)
{
return (operand->flags & OPD_F_SHIFT_BY_4) ? TRUE : FALSE;
}
static inline bfd_boolean
operand_maybe_stack_pointer (const aarch64_operand *operand)
{
return (operand->flags & OPD_F_MAYBE_SP) ? TRUE : FALSE;
}
/* Return the value of the operand-specific data field (OPD_F_OD_MASK). */
static inline unsigned int
get_operand_specific_data (const aarch64_operand *operand)
{
return (operand->flags & OPD_F_OD_MASK) >> OPD_F_OD_LSB;
}
/* Return the width of field number N of operand *OPERAND. */
static inline unsigned
get_operand_field_width (const aarch64_operand *operand, unsigned n)
{
assert (operand->fields[n] != FLD_NIL);
return fields[operand->fields[n]].width;
}
/* Return the total width of the operand *OPERAND. */
static inline unsigned
get_operand_fields_width (const aarch64_operand *operand)
{
int i = 0;
unsigned width = 0;
while (operand->fields[i] != FLD_NIL)
width += fields[operand->fields[i++]].width;
assert (width > 0 && width < 32);
return width;
}
static inline const aarch64_operand *
get_operand_from_code (enum aarch64_opnd code)
{
return aarch64_operands + code;
}
/* Operand qualifier and operand constraint checking. */
int aarch64_match_operands_constraint (aarch64_inst *,
aarch64_operand_error *);
/* Operand qualifier related functions. */
const char* aarch64_get_qualifier_name (aarch64_opnd_qualifier_t);
unsigned char aarch64_get_qualifier_nelem (aarch64_opnd_qualifier_t);
aarch64_insn aarch64_get_qualifier_standard_value (aarch64_opnd_qualifier_t);
int aarch64_find_best_match (const aarch64_inst *,
const aarch64_opnd_qualifier_seq_t *,
int, aarch64_opnd_qualifier_t *);
static inline void
reset_operand_qualifier (aarch64_inst *inst, int idx)
{
assert (idx >=0 && idx < aarch64_num_of_operands (inst->opcode));
inst->operands[idx].qualifier = AARCH64_OPND_QLF_NIL;
}
/* Inline functions operating on instruction bit-field(s). */
/* Generate a mask that has WIDTH number of consecutive 1s. */
static inline aarch64_insn
gen_mask (int width)
{
return ((aarch64_insn) 1 << width) - 1;
}
/* LSB_REL is the relative location of the lsb in the sub field, starting from 0. */
static inline int
gen_sub_field (enum aarch64_field_kind kind, int lsb_rel, int width, aarch64_field *ret)
{
const aarch64_field *field = &fields[kind];
if (lsb_rel < 0 || width <= 0 || lsb_rel + width > field->width)
return 0;
ret->lsb = field->lsb + lsb_rel;
ret->width = width;
return 1;
}
/* Insert VALUE into FIELD of CODE. MASK can be zero or the base mask
of the opcode. */
static inline void
insert_field_2 (const aarch64_field *field, aarch64_insn *code,
aarch64_insn value, aarch64_insn mask)
{
assert (field->width < 32 && field->width >= 1 && field->lsb >= 0
&& field->lsb + field->width <= 32);
value &= gen_mask (field->width);
value <<= field->lsb;
/* In some opcodes, field can be part of the base opcode, e.g. the size
field in FADD. The following helps avoid corrupt the base opcode. */
value &= ~mask;
*code |= value;
}
/* Extract FIELD of CODE and return the value. MASK can be zero or the base
mask of the opcode. */
static inline aarch64_insn
extract_field_2 (const aarch64_field *field, aarch64_insn code,
aarch64_insn mask)
{
aarch64_insn value;
/* Clear any bit that is a part of the base opcode. */
code &= ~mask;
value = (code >> field->lsb) & gen_mask (field->width);
return value;
}
/* Insert VALUE into field KIND of CODE. MASK can be zero or the base mask
of the opcode. */
static inline void
insert_field (enum aarch64_field_kind kind, aarch64_insn *code,
aarch64_insn value, aarch64_insn mask)
{
insert_field_2 (&fields[kind], code, value, mask);
}
/* Extract field KIND of CODE and return the value. MASK can be zero or the
base mask of the opcode. */
static inline aarch64_insn
extract_field (enum aarch64_field_kind kind, aarch64_insn code,
aarch64_insn mask)
{
return extract_field_2 (&fields[kind], code, mask);
}
extern aarch64_insn
extract_fields (aarch64_insn code, aarch64_insn mask, ...);
/* Inline functions selecting operand to do the encoding/decoding for a
certain instruction bit-field. */
/* Select the operand to do the encoding/decoding of the 'sf' field.
The heuristic-based rule is that the result operand is respected more. */
static inline int
select_operand_for_sf_field_coding (const aarch64_opcode *opcode)
{
int idx = -1;
if (aarch64_get_operand_class (opcode->operands[0])
== AARCH64_OPND_CLASS_INT_REG)
/* normal case. */
idx = 0;
else if (aarch64_get_operand_class (opcode->operands[1])
== AARCH64_OPND_CLASS_INT_REG)
/* e.g. float2fix. */
idx = 1;
else
{ assert (0); abort (); }
return idx;
}
/* Select the operand to do the encoding/decoding of the 'type' field in
the floating-point instructions.
The heuristic-based rule is that the source operand is respected more. */
static inline int
select_operand_for_fptype_field_coding (const aarch64_opcode *opcode)
{
int idx;
if (aarch64_get_operand_class (opcode->operands[1])
== AARCH64_OPND_CLASS_FP_REG)
/* normal case. */
idx = 1;
else if (aarch64_get_operand_class (opcode->operands[0])
== AARCH64_OPND_CLASS_FP_REG)
/* e.g. float2fix. */
idx = 0;
else
{ assert (0); abort (); }
return idx;
}
/* Select the operand to do the encoding/decoding of the 'size' field in
the AdvSIMD scalar instructions.
The heuristic-based rule is that the destination operand is respected
more. */
static inline int
select_operand_for_scalar_size_field_coding (const aarch64_opcode *opcode)
{
int src_size = 0, dst_size = 0;
if (aarch64_get_operand_class (opcode->operands[0])
== AARCH64_OPND_CLASS_SISD_REG)
dst_size = aarch64_get_qualifier_esize (opcode->qualifiers_list[0][0]);
if (aarch64_get_operand_class (opcode->operands[1])
== AARCH64_OPND_CLASS_SISD_REG)
src_size = aarch64_get_qualifier_esize (opcode->qualifiers_list[0][1]);
if (src_size == dst_size && src_size == 0)
{ assert (0); abort (); }
/* When the result is not a sisd register or it is a long operantion. */
if (dst_size == 0 || dst_size == src_size << 1)
return 1;
else
return 0;
}
/* Select the operand to do the encoding/decoding of the 'size:Q' fields in
the AdvSIMD instructions. */
int aarch64_select_operand_for_sizeq_field_coding (const aarch64_opcode *);
/* Miscellaneous. */
aarch64_insn aarch64_get_operand_modifier_value (enum aarch64_modifier_kind);
enum aarch64_modifier_kind
aarch64_get_operand_modifier_from_value (aarch64_insn, bfd_boolean);
bfd_boolean aarch64_wide_constant_p (int64_t, int, unsigned int *);
bfd_boolean aarch64_logical_immediate_p (uint64_t, int, aarch64_insn *);
int aarch64_shrink_expanded_imm8 (uint64_t);
/* Copy the content of INST->OPERANDS[SRC] to INST->OPERANDS[DST]. */
static inline void
copy_operand_info (aarch64_inst *inst, int dst, int src)
{
assert (dst >= 0 && src >= 0 && dst < AARCH64_MAX_OPND_NUM
&& src < AARCH64_MAX_OPND_NUM);
memcpy (&inst->operands[dst], &inst->operands[src],
sizeof (aarch64_opnd_info));
inst->operands[dst].idx = dst;
}
/* A primitive log caculator. */
static inline unsigned int
get_logsz (unsigned int size)
{
const unsigned char ls[16] =
{0, 1, -1, 2, -1, -1, -1, 3, -1, -1, -1, -1, -1, -1, -1, 4};
if (size > 16)
{
assert (0);
return -1;
}
assert (ls[size - 1] != (unsigned char)-1);
return ls[size - 1];
}
#endif /* OPCODES_AARCH64_OPC_H */
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