/* Constants for known architecture features. */
static const arm_feature_set fpu_default = FPU_DEFAULT;
-static const arm_feature_set fpu_arch_vfp_v1 = FPU_ARCH_VFP_V1;
+static const arm_feature_set fpu_arch_vfp_v1 ATTRIBUTE_UNUSED = FPU_ARCH_VFP_V1;
static const arm_feature_set fpu_arch_vfp_v2 = FPU_ARCH_VFP_V2;
-static const arm_feature_set fpu_arch_vfp_v3 = FPU_ARCH_VFP_V3;
-static const arm_feature_set fpu_arch_neon_v1 = FPU_ARCH_NEON_V1;
+static const arm_feature_set fpu_arch_vfp_v3 ATTRIBUTE_UNUSED = FPU_ARCH_VFP_V3;
+static const arm_feature_set fpu_arch_neon_v1 ATTRIBUTE_UNUSED = FPU_ARCH_NEON_V1;
static const arm_feature_set fpu_arch_fpa = FPU_ARCH_FPA;
static const arm_feature_set fpu_any_hard = FPU_ANY_HARD;
+#ifdef OBJ_ELF
static const arm_feature_set fpu_arch_maverick = FPU_ARCH_MAVERICK;
+#endif
static const arm_feature_set fpu_endian_pure = FPU_ARCH_ENDIAN_PURE;
#ifdef CPU_DEFAULT
static const arm_feature_set arm_ext_v7 = ARM_FEATURE_CORE_LOW (ARM_EXT_V7);
static const arm_feature_set arm_ext_v7a = ARM_FEATURE_CORE_LOW (ARM_EXT_V7A);
static const arm_feature_set arm_ext_v7r = ARM_FEATURE_CORE_LOW (ARM_EXT_V7R);
+#ifdef OBJ_ELF
static const arm_feature_set arm_ext_v7m = ARM_FEATURE_CORE_LOW (ARM_EXT_V7M);
+#endif
static const arm_feature_set arm_ext_v8 = ARM_FEATURE_CORE_LOW (ARM_EXT_V8);
static const arm_feature_set arm_ext_m =
- ARM_FEATURE_CORE (ARM_EXT_V6M | ARM_EXT_OS | ARM_EXT_V7M, ARM_EXT2_V8M);
+ ARM_FEATURE_CORE (ARM_EXT_V6M | ARM_EXT_OS | ARM_EXT_V7M,
+ ARM_EXT2_V8M | ARM_EXT2_V8M_MAIN);
static const arm_feature_set arm_ext_mp = ARM_FEATURE_CORE_LOW (ARM_EXT_MP);
static const arm_feature_set arm_ext_sec = ARM_FEATURE_CORE_LOW (ARM_EXT_SEC);
static const arm_feature_set arm_ext_os = ARM_FEATURE_CORE_LOW (ARM_EXT_OS);
static const arm_feature_set arm_ext_virt = ARM_FEATURE_CORE_LOW (ARM_EXT_VIRT);
static const arm_feature_set arm_ext_pan = ARM_FEATURE_CORE_HIGH (ARM_EXT2_PAN);
static const arm_feature_set arm_ext_v8m = ARM_FEATURE_CORE_HIGH (ARM_EXT2_V8M);
+static const arm_feature_set arm_ext_v8m_main =
+ ARM_FEATURE_CORE_HIGH (ARM_EXT2_V8M_MAIN);
+/* Instructions in ARMv8-M only found in M profile architectures. */
+static const arm_feature_set arm_ext_v8m_m_only =
+ ARM_FEATURE_CORE_HIGH (ARM_EXT2_V8M | ARM_EXT2_V8M_MAIN);
static const arm_feature_set arm_ext_v6t2_v8m =
ARM_FEATURE_CORE_HIGH (ARM_EXT2_V6T2_V8M);
/* Instructions shared between ARMv8-A and ARMv8-M. */
static const arm_feature_set arm_ext_atomics =
ARM_FEATURE_CORE_HIGH (ARM_EXT2_ATOMICS);
-static const arm_feature_set arm_ext_v8_2 =
- ARM_FEATURE_CORE_HIGH (ARM_EXT2_V8_2A);
+#ifdef OBJ_ELF
+/* DSP instructions Tag_DSP_extension refers to. */
+static const arm_feature_set arm_ext_dsp =
+ ARM_FEATURE_CORE_LOW (ARM_EXT_V5E | ARM_EXT_V5ExP | ARM_EXT_V6_DSP);
+#endif
+static const arm_feature_set arm_ext_ras =
+ ARM_FEATURE_CORE_HIGH (ARM_EXT2_RAS);
+/* FP16 instructions. */
+static const arm_feature_set arm_ext_fp16 =
+ ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST);
static const arm_feature_set arm_arch_any = ARM_ANY;
-static const arm_feature_set arm_arch_full = ARM_FEATURE (-1, -1, -1);
+static const arm_feature_set arm_arch_full ATTRIBUTE_UNUSED = ARM_FEATURE (-1, -1, -1);
static const arm_feature_set arm_arch_t2 = ARM_ARCH_THUMB2;
static const arm_feature_set arm_arch_none = ARM_ARCH_NONE;
+#ifdef OBJ_ELF
static const arm_feature_set arm_arch_v6m_only = ARM_ARCH_V6M_ONLY;
+#endif
static const arm_feature_set arm_cext_iwmmxt2 =
ARM_FEATURE_COPROC (ARM_CEXT_IWMMXT2);
ARM_FEATURE_COPROC (FPU_NEON_EXT_V1);
static const arm_feature_set fpu_vfp_v3_or_neon_ext =
ARM_FEATURE_COPROC (FPU_NEON_EXT_V1 | FPU_VFP_EXT_V3);
+#ifdef OBJ_ELF
static const arm_feature_set fpu_vfp_fp16 =
ARM_FEATURE_COPROC (FPU_VFP_EXT_FP16);
static const arm_feature_set fpu_neon_ext_fma =
ARM_FEATURE_COPROC (FPU_NEON_EXT_FMA);
+#endif
static const arm_feature_set fpu_vfp_ext_fma =
ARM_FEATURE_COPROC (FPU_VFP_EXT_FMA);
static const arm_feature_set fpu_vfp_ext_armv8 =
static const arm_feature_set crc_ext_armv8 =
ARM_FEATURE_COPROC (CRC_EXT_ARMV8);
static const arm_feature_set fpu_neon_ext_v8_1 =
- ARM_FEATURE_COPROC (FPU_NEON_EXT_ARMV8 | FPU_NEON_EXT_RDMA);
+ ARM_FEATURE_COPROC (FPU_NEON_EXT_RDMA);
static int mfloat_abi_opt = -1;
/* Record user cpu selection for object attributes. */
struct reloc_entry
{
- char * name;
+ const char * name;
bfd_reloc_code_real_type reloc;
};
_("cannot use register index with PC-relative addressing")
#define BAD_PC_WRITEBACK \
_("cannot use writeback with PC-relative addressing")
-#define BAD_RANGE _("branch out of range")
+#define BAD_RANGE _("branch out of range")
+#define BAD_FP16 _("selected processor does not support fp16 instruction")
#define UNPRED_REG(R) _("using " R " results in unpredictable behaviour")
+#define THUMB1_RELOC_ONLY _("relocation valid in thumb1 code only")
static struct hash_control * arm_ops_hsh;
static struct hash_control * arm_cond_hsh;
??? The format of 12 byte floats is uncertain according to gcc's arm.h. */
-char *
+const char *
md_atof (int type, char * litP, int * sizeP)
{
int prec;
const char *const incr_error = _("register stride must be 1 or 2");
const char *const type_error = _("mismatched element/structure types in list");
struct neon_typed_alias firsttype;
+ firsttype.defined = 0;
+ firsttype.eltype.type = NT_invtype;
+ firsttype.eltype.size = -1;
+ firsttype.index = -1;
if (skip_past_char (&ptr, '{') == SUCCESS)
leading_brace = 1;
}
name = xstrdup (str);
- new_reg = (struct reg_entry *) xmalloc (sizeof (struct reg_entry));
+ new_reg = XNEW (struct reg_entry);
new_reg->name = name;
new_reg->number = number;
if (atype)
{
- reg->neon = (struct neon_typed_alias *)
- xmalloc (sizeof (struct neon_typed_alias));
+ reg->neon = XNEW (struct neon_typed_alias);
*reg->neon = *atype;
}
}
nlen = strlen (newname);
#endif
- nbuf = (char *) alloca (nlen + 1);
- memcpy (nbuf, newname, nlen);
- nbuf[nlen] = '\0';
+ nbuf = xmemdup0 (newname, nlen);
/* Create aliases under the new name as stated; an all-lowercase
version of the new name; and an all-uppercase version of the new
the artificial FOO alias because it has already been created by the
first .req. */
if (insert_reg_alias (nbuf, old->number, old->type) == NULL)
- return TRUE;
+ {
+ free (nbuf);
+ return TRUE;
+ }
}
for (p = nbuf; *p; p++)
insert_reg_alias (nbuf, old->number, old->type);
}
+ free (nbuf);
return TRUE;
}
namelen = strlen (newname);
#endif
- namebuf = (char *) alloca (namelen + 1);
- strncpy (namebuf, newname, namelen);
- namebuf[namelen] = '\0';
+ namebuf = xmemdup0 (newname, namelen);
insert_neon_reg_alias (namebuf, basereg->number, basetype,
typeinfo.defined != 0 ? &typeinfo : NULL);
insert_neon_reg_alias (namebuf, basereg->number, basetype,
typeinfo.defined != 0 ? &typeinfo : NULL);
+ free (namebuf);
return TRUE;
}
if (S_IS_LOCAL (symbolP) || name[0] == '.')
return symbolP;
- real_start = ACONCAT ((STUB_NAME, name, NULL));
+ real_start = concat (STUB_NAME, name, NULL);
new_target = symbol_find (real_start);
+ free (real_start);
if (new_target == NULL)
{
if (pool == NULL)
{
/* Create a new pool. */
- pool = (literal_pool *) xmalloc (sizeof (* pool));
+ pool = XNEW (literal_pool);
if (! pool)
return NULL;
}
pool->literals[entry] = inst.reloc.exp;
+ pool->literals[entry].X_op = O_constant;
pool->literals[entry].X_add_number = 0;
pool->literals[entry++].X_md = (PADDING_SLOT << 8) | 4;
pool->next_free_entry += 1;
XXX Surely there is a cleaner way to do this. */
char *p = input_line_pointer;
int offset;
- char *save_buf = (char *) alloca (input_line_pointer - base);
+ char *save_buf = XNEWVEC (char, input_line_pointer - base);
+
memcpy (save_buf, base, input_line_pointer - base);
memmove (base + (input_line_pointer - before_reloc),
base, before_reloc - base);
memset (p, 0, nbytes);
fix_new_exp (frag_now, p - frag_now->fr_literal + offset,
size, &exp, 0, (enum bfd_reloc_code_real) reloc);
+ free (save_buf);
}
}
}
return c->value;
}
+/* Record a use of the given feature. */
+static void
+record_feature_use (const arm_feature_set *feature)
+{
+ if (thumb_mode)
+ ARM_MERGE_FEATURE_SETS (thumb_arch_used, thumb_arch_used, *feature);
+ else
+ ARM_MERGE_FEATURE_SETS (arm_arch_used, arm_arch_used, *feature);
+}
+
/* If the given feature available in the selected CPU, mark it as used.
Returns TRUE iff feature is available. */
static bfd_boolean
/* Add the appropriate architecture feature for the barrier option used.
*/
- if (thumb_mode)
- ARM_MERGE_FEATURE_SETS (thumb_arch_used, thumb_arch_used, *feature);
- else
- ARM_MERGE_FEATURE_SETS (arm_arch_used, arm_arch_used, *feature);
+ record_feature_use (feature);
return TRUE;
}
#define rotate_left(v, n) (v << (n & 31) | v >> ((32 - n) & 31))
+/* If the current inst is scalar ARMv8.2 fp16 instruction, do special encoding.
+
+ The only binary encoding difference is the Coprocessor number. Coprocessor
+ 9 is used for half-precision calculations or conversions. The format of the
+ instruction is the same as the equivalent Coprocessor 10 instuction that
+ exists for Single-Precision operation. */
+
+static void
+do_scalar_fp16_v82_encode (void)
+{
+ if (inst.cond != COND_ALWAYS)
+ as_warn (_("ARMv8.2 scalar fp16 instruction cannot be conditional,"
+ " the behaviour is UNPREDICTABLE"));
+ constraint (!ARM_CPU_HAS_FEATURE (cpu_variant, arm_ext_fp16),
+ _(BAD_FP16));
+
+ inst.instruction = (inst.instruction & 0xfffff0ff) | 0x900;
+ mark_feature_used (&arm_ext_fp16);
+}
+
/* If VAL can be encoded in the immediate field of an ARM instruction,
return the encoded form. Otherwise, return FAIL. */
return TRUE;
}
}
- else if (t == CONST_VEC)
+ else if (t == CONST_VEC && ARM_CPU_HAS_FEATURE (cpu_variant, fpu_neon_ext_v1))
{
int op = 0;
unsigned immbits = 0;
inst.instruction |= inst.operands[0].reg << 12;
}
+static void
+do_rn (void)
+{
+ inst.instruction |= inst.operands[0].reg << 16;
+}
+
static void
do_rd_rm (void)
{
static void
do_arit (void)
{
+ constraint (inst.reloc.type >= BFD_RELOC_ARM_THUMB_ALU_ABS_G0_NC
+ && inst.reloc.type <= BFD_RELOC_ARM_THUMB_ALU_ABS_G3_NC ,
+ THUMB1_RELOC_ONLY);
if (!inst.operands[1].present)
inst.operands[1].reg = inst.operands[0].reg;
inst.instruction |= inst.operands[0].reg << 12;
static void
do_mov (void)
{
+ constraint (inst.reloc.type >= BFD_RELOC_ARM_THUMB_ALU_ABS_G0_NC
+ && inst.reloc.type <= BFD_RELOC_ARM_THUMB_ALU_ABS_G3_NC ,
+ THUMB1_RELOC_ONLY);
inst.instruction |= inst.operands[0].reg << 12;
encode_arm_shifter_operand (1);
}
inst.instruction |= (Rd << 4) | Rs;
if (inst.reloc.type < BFD_RELOC_ARM_THUMB_ALU_ABS_G0_NC
|| inst.reloc.type > BFD_RELOC_ARM_THUMB_ALU_ABS_G3_NC)
- inst.reloc.type = BFD_RELOC_ARM_THUMB_ADD;
- if (inst.size_req != 2)
- inst.relax = opcode;
+ {
+ if (inst.size_req == 2)
+ inst.reloc.type = BFD_RELOC_ARM_THUMB_ADD;
+ else
+ inst.relax = opcode;
+ }
}
else
constraint (inst.size_req == 2, BAD_HIREG);
if (inst.size_req == 4
|| (inst.size_req != 2 && !opcode))
{
+ constraint (inst.reloc.type >= BFD_RELOC_ARM_THUMB_ALU_ABS_G0_NC
+ && inst.reloc.type <= BFD_RELOC_ARM_THUMB_ALU_ABS_G3_NC ,
+ THUMB1_RELOC_ONLY);
if (Rd == REG_PC)
{
constraint (add, BAD_PC);
{
int opcode;
int cond;
- int reloc;
+ bfd_reloc_code_real_type reloc;
cond = inst.cond;
set_it_insn_type (IF_INSIDE_IT_LAST_INSN);
{
inst.instruction = THUMB_OP16 (opcode);
inst.instruction |= Rn << 8;
- if (inst.size_req == 2)
+ if (inst.reloc.type < BFD_RELOC_ARM_THUMB_ALU_ABS_G0_NC
+ || inst.reloc.type > BFD_RELOC_ARM_THUMB_ALU_ABS_G3_NC)
{
- if (inst.reloc.type < BFD_RELOC_ARM_THUMB_ALU_ABS_G0_NC
- || inst.reloc.type > BFD_RELOC_ARM_THUMB_ALU_ABS_G3_NC)
+ if (inst.size_req == 2)
inst.reloc.type = BFD_RELOC_ARM_THUMB_IMM;
+ else
+ inst.relax = opcode;
}
- else
- inst.relax = opcode;
}
else
{
+ constraint (inst.reloc.type >= BFD_RELOC_ARM_THUMB_ALU_ABS_G0_NC
+ && inst.reloc.type <= BFD_RELOC_ARM_THUMB_ALU_ABS_G3_NC ,
+ THUMB1_RELOC_ONLY);
+
inst.instruction = THUMB_OP32 (inst.instruction);
inst.instruction = (inst.instruction & 0xe1ffffff) | 0x10000000;
inst.instruction |= Rn << r0off;
if (inst.size_req != 4 && (mask & ~0xff) == 0)
inst.instruction = THUMB_OP16 (inst.instruction) | mask;
else if (inst.size_req != 4
- && (mask & ~0xff) == (1 << (inst.instruction == T_MNEM_push
+ && (mask & ~0xff) == (1U << (inst.instruction == T_MNEM_push
? REG_LR : REG_PC)))
{
inst.instruction = THUMB_OP16 (inst.instruction);
X(2, (S, R), SINGLE), \
X(2, (R, S), SINGLE), \
X(2, (F, R), SINGLE), \
- X(2, (R, F), SINGLE)
+ X(2, (R, F), SINGLE), \
+/* Half float shape supported so far. */\
+ X (2, (H, D), MIXED), \
+ X (2, (D, H), MIXED), \
+ X (2, (H, F), MIXED), \
+ X (2, (F, H), MIXED), \
+ X (2, (H, H), HALF), \
+ X (2, (H, R), HALF), \
+ X (2, (R, H), HALF), \
+ X (2, (H, I), HALF), \
+ X (3, (H, H, H), HALF), \
+ X (3, (H, F, I), MIXED), \
+ X (3, (F, H, I), MIXED)
#define S2(A,B) NS_##A##B
#define S3(A,B,C) NS_##A##B##C
enum neon_shape_class
{
+ SC_HALF,
SC_SINGLE,
SC_DOUBLE,
SC_QUAD,
enum neon_shape_el
{
+ SE_H,
SE_F,
SE_D,
SE_Q,
/* Register widths of above. */
static unsigned neon_shape_el_size[] =
{
+ 16,
32,
64,
128,
#define N_SU_ALL (N_S8 | N_S16 | N_S32 | N_S64 | N_U8 | N_U16 | N_U32 | N_U64)
#define N_SU_32 (N_S8 | N_S16 | N_S32 | N_U8 | N_U16 | N_U32)
#define N_SU_16_64 (N_S16 | N_S32 | N_S64 | N_U16 | N_U32 | N_U64)
-#define N_SUF_32 (N_SU_32 | N_F32)
+#define N_S_32 (N_S8 | N_S16 | N_S32)
+#define N_F_16_32 (N_F16 | N_F32)
+#define N_SUF_32 (N_SU_32 | N_F_16_32)
#define N_I_ALL (N_I8 | N_I16 | N_I32 | N_I64)
-#define N_IF_32 (N_I8 | N_I16 | N_I32 | N_F32)
+#define N_IF_32 (N_I8 | N_I16 | N_I32 | N_F16 | N_F32)
+#define N_F_ALL (N_F16 | N_F32 | N_F64)
/* Pass this as the first type argument to neon_check_type to ignore types
altogether. */
switch (neon_shape_tab[shape].el[j])
{
+ /* If a .f16, .16, .u16, .s16 type specifier is given over
+ a VFP single precision register operand, it's essentially
+ means only half of the register is used.
+
+ If the type specifier is given after the mnemonics, the
+ information is stored in inst.vectype. If the type specifier
+ is given after register operand, the information is stored
+ in inst.operands[].vectype.
+
+ When there is only one type specifier, and all the register
+ operands are the same type of hardware register, the type
+ specifier applies to all register operands.
+
+ If no type specifier is given, the shape is inferred from
+ operand information.
+
+ for example:
+ vadd.f16 s0, s1, s2: NS_HHH
+ vabs.f16 s0, s1: NS_HH
+ vmov.f16 s0, r1: NS_HR
+ vmov.f16 r0, s1: NS_RH
+ vcvt.f16 r0, s1: NS_RH
+ vcvt.f16.s32 s2, s2, #29: NS_HFI
+ vcvt.f16.s32 s2, s2: NS_HF
+ */
+ case SE_H:
+ if (!(inst.operands[j].isreg
+ && inst.operands[j].isvec
+ && inst.operands[j].issingle
+ && !inst.operands[j].isquad
+ && ((inst.vectype.elems == 1
+ && inst.vectype.el[0].size == 16)
+ || (inst.vectype.elems > 1
+ && inst.vectype.el[j].size == 16)
+ || (inst.vectype.elems == 0
+ && inst.operands[j].vectype.type != NT_invtype
+ && inst.operands[j].vectype.size == 16))))
+ matches = 0;
+ break;
+
case SE_F:
if (!(inst.operands[j].isreg
&& inst.operands[j].isvec
&& inst.operands[j].issingle
- && !inst.operands[j].isquad))
+ && !inst.operands[j].isquad
+ && ((inst.vectype.elems == 1 && inst.vectype.el[0].size == 32)
+ || (inst.vectype.elems > 1 && inst.vectype.el[j].size == 32)
+ || (inst.vectype.elems == 0
+ && (inst.operands[j].vectype.size == 32
+ || inst.operands[j].vectype.type == NT_invtype)))))
matches = 0;
break;
*type = NT_untyped;
else if ((mask & (N_P8 | N_P16 | N_P64)) != 0)
*type = NT_poly;
- else if ((mask & (N_F16 | N_F32 | N_F64)) != 0)
+ else if ((mask & (N_F_ALL)) != 0)
*type = NT_float;
else
return FAIL;
k_type = g_type;
k_size = g_size;
key_allowed = thisarg & ~N_KEY;
+
+ /* Check architecture constraint on FP16 extension. */
+ if (k_size == 16
+ && k_type == NT_float
+ && ! ARM_CPU_HAS_FEATURE (cpu_variant, arm_ext_fp16))
+ {
+ inst.error = _(BAD_FP16);
+ return badtype;
+ }
}
}
else
else
match = g_size;
+ /* FP16 will use a single precision register. */
+ if (regwidth == 32 && match == 16)
+ {
+ if (ARM_CPU_HAS_FEATURE (cpu_variant, arm_ext_fp16))
+ match = regwidth;
+ else
+ {
+ inst.error = _(BAD_FP16);
+ return badtype;
+ }
+ }
+
if (regwidth != match)
{
first_error (_("operand size must match register width"));
{
int is_add = (inst.instruction & 0x0fffffff) == N_MNEM_vadd;
- if (rs == NS_FFF)
+ if (rs == NS_FFF || rs == NS_HHH)
{
if (is_add)
do_vfp_nsyn_opcode ("fadds");
else
do_vfp_nsyn_opcode ("fsubs");
+
+ /* ARMv8.2 fp16 instruction. */
+ if (rs == NS_HHH)
+ do_scalar_fp16_v82_encode ();
}
else
{
switch (args)
{
case 2:
- rs = neon_select_shape (NS_FF, NS_DD, NS_NULL);
- et = neon_check_type (2, rs,
- N_EQK | N_VFP, N_F32 | N_F64 | N_KEY | N_VFP);
+ rs = neon_select_shape (NS_HH, NS_FF, NS_DD, NS_NULL);
+ et = neon_check_type (2, rs, N_EQK | N_VFP, N_F_ALL | N_KEY | N_VFP);
break;
case 3:
- rs = neon_select_shape (NS_FFF, NS_DDD, NS_NULL);
- et = neon_check_type (3, rs,
- N_EQK | N_VFP, N_EQK | N_VFP, N_F32 | N_F64 | N_KEY | N_VFP);
+ rs = neon_select_shape (NS_HHH, NS_FFF, NS_DDD, NS_NULL);
+ et = neon_check_type (3, rs, N_EQK | N_VFP, N_EQK | N_VFP,
+ N_F_ALL | N_KEY | N_VFP);
break;
default:
{
int is_mla = (inst.instruction & 0x0fffffff) == N_MNEM_vmla;
- if (rs == NS_FFF)
+ if (rs == NS_FFF || rs == NS_HHH)
{
if (is_mla)
do_vfp_nsyn_opcode ("fmacs");
else
do_vfp_nsyn_opcode ("fnmacs");
+
+ /* ARMv8.2 fp16 instruction. */
+ if (rs == NS_HHH)
+ do_scalar_fp16_v82_encode ();
}
else
{
{
int is_fma = (inst.instruction & 0x0fffffff) == N_MNEM_vfma;
- if (rs == NS_FFF)
+ if (rs == NS_FFF || rs == NS_HHH)
{
if (is_fma)
do_vfp_nsyn_opcode ("ffmas");
else
do_vfp_nsyn_opcode ("ffnmas");
+
+ /* ARMv8.2 fp16 instruction. */
+ if (rs == NS_HHH)
+ do_scalar_fp16_v82_encode ();
}
else
{
static void
do_vfp_nsyn_mul (enum neon_shape rs)
{
- if (rs == NS_FFF)
- do_vfp_nsyn_opcode ("fmuls");
+ if (rs == NS_FFF || rs == NS_HHH)
+ {
+ do_vfp_nsyn_opcode ("fmuls");
+
+ /* ARMv8.2 fp16 instruction. */
+ if (rs == NS_HHH)
+ do_scalar_fp16_v82_encode ();
+ }
else
do_vfp_nsyn_opcode ("fmuld");
}
do_vfp_nsyn_abs_neg (enum neon_shape rs)
{
int is_neg = (inst.instruction & 0x80) != 0;
- neon_check_type (2, rs, N_EQK | N_VFP, N_F32 | N_F64 | N_VFP | N_KEY);
+ neon_check_type (2, rs, N_EQK | N_VFP, N_F_ALL | N_VFP | N_KEY);
- if (rs == NS_FF)
+ if (rs == NS_FF || rs == NS_HH)
{
if (is_neg)
do_vfp_nsyn_opcode ("fnegs");
else
do_vfp_nsyn_opcode ("fabss");
+
+ /* ARMv8.2 fp16 instruction. */
+ if (rs == NS_HH)
+ do_scalar_fp16_v82_encode ();
}
else
{
static void
do_vfp_nsyn_sqrt (void)
{
- enum neon_shape rs = neon_select_shape (NS_FF, NS_DD, NS_NULL);
- neon_check_type (2, rs, N_EQK | N_VFP, N_F32 | N_F64 | N_KEY | N_VFP);
+ enum neon_shape rs = neon_select_shape (NS_HH, NS_FF, NS_DD, NS_NULL);
+ neon_check_type (2, rs, N_EQK | N_VFP, N_F_ALL | N_KEY | N_VFP);
+
+ if (rs == NS_FF || rs == NS_HH)
+ {
+ do_vfp_nsyn_opcode ("fsqrts");
- if (rs == NS_FF)
- do_vfp_nsyn_opcode ("fsqrts");
+ /* ARMv8.2 fp16 instruction. */
+ if (rs == NS_HH)
+ do_scalar_fp16_v82_encode ();
+ }
else
do_vfp_nsyn_opcode ("fsqrtd");
}
static void
do_vfp_nsyn_div (void)
{
- enum neon_shape rs = neon_select_shape (NS_FFF, NS_DDD, NS_NULL);
+ enum neon_shape rs = neon_select_shape (NS_HHH, NS_FFF, NS_DDD, NS_NULL);
neon_check_type (3, rs, N_EQK | N_VFP, N_EQK | N_VFP,
- N_F32 | N_F64 | N_KEY | N_VFP);
+ N_F_ALL | N_KEY | N_VFP);
+
+ if (rs == NS_FFF || rs == NS_HHH)
+ {
+ do_vfp_nsyn_opcode ("fdivs");
- if (rs == NS_FFF)
- do_vfp_nsyn_opcode ("fdivs");
+ /* ARMv8.2 fp16 instruction. */
+ if (rs == NS_HHH)
+ do_scalar_fp16_v82_encode ();
+ }
else
do_vfp_nsyn_opcode ("fdivd");
}
static void
do_vfp_nsyn_nmul (void)
{
- enum neon_shape rs = neon_select_shape (NS_FFF, NS_DDD, NS_NULL);
+ enum neon_shape rs = neon_select_shape (NS_HHH, NS_FFF, NS_DDD, NS_NULL);
neon_check_type (3, rs, N_EQK | N_VFP, N_EQK | N_VFP,
- N_F32 | N_F64 | N_KEY | N_VFP);
+ N_F_ALL | N_KEY | N_VFP);
- if (rs == NS_FFF)
+ if (rs == NS_FFF || rs == NS_HHH)
{
NEON_ENCODE (SINGLE, inst);
do_vfp_sp_dyadic ();
+
+ /* ARMv8.2 fp16 instruction. */
+ if (rs == NS_HHH)
+ do_scalar_fp16_v82_encode ();
}
else
{
do_vfp_dp_rd_rn_rm ();
}
do_vfp_cond_or_thumb ();
+
}
static void
do_vfp_nsyn_cmp (void)
{
+ enum neon_shape rs;
if (inst.operands[1].isreg)
{
- enum neon_shape rs = neon_select_shape (NS_FF, NS_DD, NS_NULL);
- neon_check_type (2, rs, N_EQK | N_VFP, N_F32 | N_F64 | N_KEY | N_VFP);
+ rs = neon_select_shape (NS_HH, NS_FF, NS_DD, NS_NULL);
+ neon_check_type (2, rs, N_EQK | N_VFP, N_F_ALL | N_KEY | N_VFP);
- if (rs == NS_FF)
+ if (rs == NS_FF || rs == NS_HH)
{
NEON_ENCODE (SINGLE, inst);
do_vfp_sp_monadic ();
}
else
{
- enum neon_shape rs = neon_select_shape (NS_FI, NS_DI, NS_NULL);
- neon_check_type (2, rs, N_F32 | N_F64 | N_KEY | N_VFP, N_EQK);
+ rs = neon_select_shape (NS_HI, NS_FI, NS_DI, NS_NULL);
+ neon_check_type (2, rs, N_F_ALL | N_KEY | N_VFP, N_EQK);
switch (inst.instruction & 0x0fffffff)
{
abort ();
}
- if (rs == NS_FI)
+ if (rs == NS_FI || rs == NS_HI)
{
NEON_ENCODE (SINGLE, inst);
do_vfp_sp_compare_z ();
}
}
do_vfp_cond_or_thumb ();
+
+ /* ARMv8.2 fp16 instruction. */
+ if (rs == NS_HI || rs == NS_HH)
+ do_scalar_fp16_v82_encode ();
}
static void
if (et.type == NT_float)
{
NEON_ENCODE (FLOAT, inst);
- neon_three_same (neon_quad (rs), 0, -1);
+ neon_three_same (neon_quad (rs), 0, et.size == 16 ? (int) et.size : -1);
}
else
{
static void
neon_exchange_operands (void)
{
- void *scratch = alloca (sizeof (inst.operands[0]));
if (inst.operands[1].present)
{
+ void *scratch = xmalloc (sizeof (inst.operands[0]));
+
/* Swap operands[1] and operands[2]. */
memcpy (scratch, &inst.operands[1], sizeof (inst.operands[0]));
inst.operands[1] = inst.operands[2];
memcpy (&inst.operands[2], scratch, sizeof (inst.operands[0]));
+ free (scratch);
}
else
{
static void
do_neon_cmp (void)
{
- neon_compare (N_SUF_32, N_S8 | N_S16 | N_S32 | N_F32, FALSE);
+ neon_compare (N_SUF_32, N_S_32 | N_F_16_32, FALSE);
}
static void
do_neon_cmp_inv (void)
{
- neon_compare (N_SUF_32, N_S8 | N_S16 | N_S32 | N_F32, TRUE);
+ neon_compare (N_SUF_32, N_S_32 | N_F_16_32, TRUE);
}
static void
{
enum neon_shape rs = neon_select_shape (NS_DDS, NS_QQS, NS_NULL);
struct neon_type_el et = neon_check_type (3, rs,
- N_EQK, N_EQK, N_I16 | N_I32 | N_F32 | N_KEY);
+ N_EQK, N_EQK, N_I16 | N_I32 | N_F_16_32 | N_KEY);
NEON_ENCODE (SCALAR, inst);
neon_mul_mac (et, neon_quad (rs));
}
if (inst.operands[2].isscalar)
do_neon_mac_maybe_scalar ();
else
- neon_dyadic_misc (NT_poly, N_I8 | N_I16 | N_I32 | N_F32 | N_P8, 0);
+ neon_dyadic_misc (NT_poly, N_I8 | N_I16 | N_I32 | N_F16 | N_F32 | N_P8, 0);
}
static void
}
}
+static void
+do_neon_qrdmlah (void)
+{
+ /* Check we're on the correct architecture. */
+ if (!mark_feature_used (&fpu_neon_ext_armv8))
+ inst.error =
+ _("instruction form not available on this architecture.");
+ else if (!mark_feature_used (&fpu_neon_ext_v8_1))
+ {
+ as_warn (_("this instruction implies use of ARMv8.1 AdvSIMD."));
+ record_feature_use (&fpu_neon_ext_v8_1);
+ }
+
+ if (inst.operands[2].isscalar)
+ {
+ enum neon_shape rs = neon_select_shape (NS_DDS, NS_QQS, NS_NULL);
+ struct neon_type_el et = neon_check_type (3, rs,
+ N_EQK, N_EQK, N_S16 | N_S32 | N_KEY);
+ NEON_ENCODE (SCALAR, inst);
+ neon_mul_mac (et, neon_quad (rs));
+ }
+ else
+ {
+ enum neon_shape rs = neon_select_shape (NS_DDD, NS_QQQ, NS_NULL);
+ struct neon_type_el et = neon_check_type (3, rs,
+ N_EQK, N_EQK, N_S16 | N_S32 | N_KEY);
+ NEON_ENCODE (INTEGER, inst);
+ /* The U bit (rounding) comes from bit mask. */
+ neon_three_same (neon_quad (rs), 0, et.size);
+ }
+}
+
static void
do_neon_fcmp_absolute (void)
{
enum neon_shape rs = neon_select_shape (NS_DDD, NS_QQQ, NS_NULL);
- neon_check_type (3, rs, N_EQK, N_EQK, N_F32 | N_KEY);
+ struct neon_type_el et = neon_check_type (3, rs, N_EQK, N_EQK,
+ N_F_16_32 | N_KEY);
/* Size field comes from bit mask. */
- neon_three_same (neon_quad (rs), 1, -1);
+ neon_three_same (neon_quad (rs), 1, et.size == 16 ? (int) et.size : -1);
}
static void
do_neon_step (void)
{
enum neon_shape rs = neon_select_shape (NS_DDD, NS_QQQ, NS_NULL);
- neon_check_type (3, rs, N_EQK, N_EQK, N_F32 | N_KEY);
- neon_three_same (neon_quad (rs), 0, -1);
+ struct neon_type_el et = neon_check_type (3, rs, N_EQK, N_EQK,
+ N_F_16_32 | N_KEY);
+ neon_three_same (neon_quad (rs), 0, et.size == 16 ? (int) et.size : -1);
}
static void
return;
rs = neon_select_shape (NS_DD, NS_QQ, NS_NULL);
- et = neon_check_type (2, rs, N_EQK, N_S8 | N_S16 | N_S32 | N_F32 | N_KEY);
+ et = neon_check_type (2, rs, N_EQK, N_S_32 | N_F_16_32 | N_KEY);
inst.instruction |= LOW4 (inst.operands[0].reg) << 12;
inst.instruction |= HI1 (inst.operands[0].reg) << 22;
CVT_VAR (f32_s32, N_F32, N_S32, whole_reg, "fsltos", "fsitos", NULL) \
CVT_VAR (f32_u32, N_F32, N_U32, whole_reg, "fultos", "fuitos", NULL) \
/* Half-precision conversions. */ \
+ CVT_VAR (s16_f16, N_S16, N_F16 | N_KEY, whole_reg, NULL, NULL, NULL) \
+ CVT_VAR (u16_f16, N_U16, N_F16 | N_KEY, whole_reg, NULL, NULL, NULL) \
+ CVT_VAR (f16_s16, N_F16 | N_KEY, N_S16, whole_reg, NULL, NULL, NULL) \
+ CVT_VAR (f16_u16, N_F16 | N_KEY, N_U16, whole_reg, NULL, NULL, NULL) \
CVT_VAR (f32_f16, N_F32, N_F16, whole_reg, NULL, NULL, NULL) \
CVT_VAR (f16_f32, N_F16, N_F32, whole_reg, NULL, NULL, NULL) \
+ /* New VCVT instructions introduced by ARMv8.2 fp16 extension. \
+ Compared with single/double precision variants, only the co-processor \
+ field is different, so the encoding flow is reused here. */ \
+ CVT_VAR (f16_s32, N_F16 | N_KEY, N_S32, N_VFP, "fsltos", "fsitos", NULL) \
+ CVT_VAR (f16_u32, N_F16 | N_KEY, N_U32, N_VFP, "fultos", "fuitos", NULL) \
+ CVT_VAR (u32_f16, N_U32, N_F16 | N_KEY, N_VFP, "ftouls", "ftouis", "ftouizs")\
+ CVT_VAR (s32_f16, N_S32, N_F16 | N_KEY, N_VFP, "ftosls", "ftosis", "ftosizs")\
/* VFP instructions. */ \
CVT_VAR (f32_f64, N_F32, N_F64, N_VFP, NULL, "fcvtsd", NULL) \
CVT_VAR (f64_f32, N_F64, N_F32, N_VFP, NULL, "fcvtds", NULL) \
{
const char *opname = 0;
- if (rs == NS_DDI || rs == NS_QQI || rs == NS_FFI)
+ if (rs == NS_DDI || rs == NS_QQI || rs == NS_FFI
+ || rs == NS_FHI || rs == NS_HFI)
{
/* Conversions with immediate bitshift. */
const char *enc[] =
if (opname)
do_vfp_nsyn_opcode (opname);
+
+ /* ARMv8.2 fp16 VCVT instruction. */
+ if (flavour == neon_cvt_flavour_s32_f16
+ || flavour == neon_cvt_flavour_u32_f16
+ || flavour == neon_cvt_flavour_f16_u32
+ || flavour == neon_cvt_flavour_f16_s32)
+ do_scalar_fp16_v82_encode ();
}
static void
do_vfp_nsyn_cvtz (void)
{
- enum neon_shape rs = neon_select_shape (NS_FF, NS_FD, NS_NULL);
+ enum neon_shape rs = neon_select_shape (NS_FH, NS_FF, NS_FD, NS_NULL);
enum neon_cvt_flavour flavour = get_neon_cvt_flavour (rs);
const char *enc[] =
{
constraint (!ARM_CPU_HAS_FEATURE (cpu_variant, fpu_vfp_ext_armv8),
_(BAD_FPU));
+ if (flavour == neon_cvt_flavour_s32_f16
+ || flavour == neon_cvt_flavour_u32_f16)
+ constraint (!ARM_CPU_HAS_FEATURE (cpu_variant, arm_ext_fp16),
+ _(BAD_FP16));
+
set_it_insn_type (OUTSIDE_IT_INSN);
switch (flavour)
sz = 0;
op = 1;
break;
+ case neon_cvt_flavour_s32_f16:
+ sz = 0;
+ op = 1;
+ break;
case neon_cvt_flavour_u32_f64:
sz = 1;
op = 0;
sz = 0;
op = 0;
break;
+ case neon_cvt_flavour_u32_f16:
+ sz = 0;
+ op = 0;
+ break;
default:
first_error (_("invalid instruction shape"));
return;
encode_arm_vfp_reg (inst.operands[0].reg, VFP_REG_Sd);
encode_arm_vfp_reg (inst.operands[1].reg, sz == 1 ? VFP_REG_Dm : VFP_REG_Sm);
inst.instruction |= sz << 8;
+
+ /* ARMv8.2 fp16 VCVT instruction. */
+ if (flavour == neon_cvt_flavour_s32_f16
+ ||flavour == neon_cvt_flavour_u32_f16)
+ do_scalar_fp16_v82_encode ();
inst.instruction |= op << 7;
inst.instruction |= rm << 16;
inst.instruction |= 0xf0000000;
do_neon_cvt_1 (enum neon_cvt_mode mode)
{
enum neon_shape rs = neon_select_shape (NS_DDI, NS_QQI, NS_FFI, NS_DD, NS_QQ,
- NS_FD, NS_DF, NS_FF, NS_QD, NS_DQ, NS_NULL);
+ NS_FD, NS_DF, NS_FF, NS_QD, NS_DQ,
+ NS_FH, NS_HF, NS_FHI, NS_HFI,
+ NS_NULL);
enum neon_cvt_flavour flavour = get_neon_cvt_flavour (rs);
+ if (flavour == neon_cvt_flavour_invalid)
+ return;
+
/* PR11109: Handle round-to-zero for VCVT conversions. */
if (mode == neon_cvt_mode_z
&& ARM_CPU_HAS_FEATURE (cpu_variant, fpu_arch_vfp_v2)
- && (flavour == neon_cvt_flavour_s32_f32
+ && (flavour == neon_cvt_flavour_s16_f16
+ || flavour == neon_cvt_flavour_u16_f16
+ || flavour == neon_cvt_flavour_s32_f32
|| flavour == neon_cvt_flavour_u32_f32
|| flavour == neon_cvt_flavour_s32_f64
|| flavour == neon_cvt_flavour_u32_f64)
return;
}
+ /* ARMv8.2 fp16 VCVT conversions. */
+ if (mode == neon_cvt_mode_z
+ && ARM_CPU_HAS_FEATURE (cpu_variant, arm_ext_fp16)
+ && (flavour == neon_cvt_flavour_s32_f16
+ || flavour == neon_cvt_flavour_u32_f16)
+ && (rs == NS_FH))
+ {
+ do_vfp_nsyn_cvtz ();
+ do_scalar_fp16_v82_encode ();
+ return;
+ }
+
/* VFP rather than Neon conversions. */
if (flavour >= neon_cvt_flavour_first_fp)
{
case NS_QQI:
{
unsigned immbits;
- unsigned enctab[] = { 0x0000100, 0x1000100, 0x0, 0x1000000 };
+ unsigned enctab[] = {0x0000100, 0x1000100, 0x0, 0x1000000,
+ 0x0000100, 0x1000100, 0x0, 0x1000000};
if (vfp_or_neon_is_neon (NEON_CHECK_CC | NEON_CHECK_ARCH) == FAIL)
return;
integer conversion. */
if (inst.operands[2].present && inst.operands[2].imm == 0)
goto int_encode;
- immbits = 32 - inst.operands[2].imm;
NEON_ENCODE (IMMED, inst);
if (flavour != neon_cvt_flavour_invalid)
inst.instruction |= enctab[flavour];
inst.instruction |= HI1 (inst.operands[1].reg) << 5;
inst.instruction |= neon_quad (rs) << 6;
inst.instruction |= 1 << 21;
- inst.instruction |= immbits << 16;
+ if (flavour < neon_cvt_flavour_s16_f16)
+ {
+ inst.instruction |= 1 << 21;
+ immbits = 32 - inst.operands[2].imm;
+ inst.instruction |= immbits << 16;
+ }
+ else
+ {
+ inst.instruction |= 3 << 20;
+ immbits = 16 - inst.operands[2].imm;
+ inst.instruction |= immbits << 16;
+ inst.instruction &= ~(1 << 9);
+ }
neon_dp_fixup (&inst);
}
inst.instruction |= LOW4 (inst.operands[1].reg);
inst.instruction |= HI1 (inst.operands[1].reg) << 5;
inst.instruction |= neon_quad (rs) << 6;
- inst.instruction |= (flavour == neon_cvt_flavour_u32_f32) << 7;
+ inst.instruction |= (flavour == neon_cvt_flavour_u16_f16
+ || flavour == neon_cvt_flavour_u32_f32) << 7;
inst.instruction |= mode << 8;
+ if (flavour == neon_cvt_flavour_u16_f16
+ || flavour == neon_cvt_flavour_s16_f16)
+ /* Mask off the original size bits and reencode them. */
+ inst.instruction = ((inst.instruction & 0xfff3ffff) | (1 << 18));
+
if (thumb_mode)
inst.instruction |= 0xfc000000;
else
{
int_encode:
{
- unsigned enctab[] = { 0x100, 0x180, 0x0, 0x080 };
+ unsigned enctab[] = { 0x100, 0x180, 0x0, 0x080,
+ 0x100, 0x180, 0x0, 0x080};
NEON_ENCODE (INTEGER, inst);
inst.instruction |= LOW4 (inst.operands[1].reg);
inst.instruction |= HI1 (inst.operands[1].reg) << 5;
inst.instruction |= neon_quad (rs) << 6;
- inst.instruction |= 2 << 18;
+ if (flavour >= neon_cvt_flavour_s16_f16
+ && flavour <= neon_cvt_flavour_f16_u16)
+ /* Half precision. */
+ inst.instruction |= 1 << 18;
+ else
+ inst.instruction |= 2 << 18;
neon_dp_fixup (&inst);
}
static void
do_neon_cvttb_1 (bfd_boolean t)
{
- enum neon_shape rs = neon_select_shape (NS_FF, NS_FD, NS_DF, NS_NULL);
+ enum neon_shape rs = neon_select_shape (NS_HF, NS_HD, NS_FH, NS_FF, NS_FD,
+ NS_DF, NS_DH, NS_NULL);
if (rs == NS_NULL)
return;
do_neon_mov (void)
{
enum neon_shape rs = neon_select_shape (NS_RRFF, NS_FFRR, NS_DRR, NS_RRD,
- NS_QQ, NS_DD, NS_QI, NS_DI, NS_SR, NS_RS, NS_FF, NS_FI, NS_RF, NS_FR,
- NS_NULL);
+ NS_QQ, NS_DD, NS_QI, NS_DI, NS_SR,
+ NS_RS, NS_FF, NS_FI, NS_RF, NS_FR,
+ NS_HR, NS_RH, NS_HI, NS_NULL);
struct neon_type_el et;
const char *ldconst = 0;
do_vfp_nsyn_opcode ("fcpys");
break;
+ case NS_HI:
case NS_FI: /* case 10 (fconsts). */
ldconst = "fconsts";
encode_fconstd:
{
inst.operands[1].imm = neon_qfloat_bits (inst.operands[1].imm);
do_vfp_nsyn_opcode (ldconst);
+
+ /* ARMv8.2 fp16 vmov.f16 instruction. */
+ if (rs == NS_HI)
+ do_scalar_fp16_v82_encode ();
}
else
first_error (_("immediate out of range"));
break;
+ case NS_RH:
case NS_RF: /* case 12 (fmrs). */
do_vfp_nsyn_opcode ("fmrs");
+ /* ARMv8.2 fp16 vmov.f16 instruction. */
+ if (rs == NS_RH)
+ do_scalar_fp16_v82_encode ();
break;
+ case NS_HR:
case NS_FR: /* case 13 (fmsr). */
do_vfp_nsyn_opcode ("fmsr");
+ /* ARMv8.2 fp16 vmov.f16 instruction. */
+ if (rs == NS_HR)
+ do_scalar_fp16_v82_encode ();
break;
/* The encoders for the fmrrs and fmsrr instructions expect three operands
et.size - imm);
}
+static void
+do_neon_movhf (void)
+{
+ enum neon_shape rs = neon_select_shape (NS_HH, NS_NULL);
+ constraint (rs != NS_HH, _("invalid suffix"));
+
+ constraint (!ARM_CPU_HAS_FEATURE (cpu_variant, fpu_vfp_ext_armv8),
+ _(BAD_FPU));
+
+ do_vfp_sp_monadic ();
+
+ inst.is_neon = 1;
+ inst.instruction |= 0xf0000000;
+}
+
static void
do_neon_movl (void)
{
{
enum neon_shape rs = neon_select_shape (NS_DD, NS_QQ, NS_NULL);
struct neon_type_el et = neon_check_type (2, rs,
- N_EQK | N_FLT, N_F32 | N_U32 | N_KEY);
+ N_EQK | N_FLT, N_F_16_32 | N_U32 | N_KEY);
inst.instruction |= (et.type == NT_float) << 8;
neon_two_same (neon_quad (rs), 1, et.size);
}
do_vfp_nsyn_opcode ("flds");
else
do_vfp_nsyn_opcode ("fsts");
+
+ /* ARMv8.2 vldr.16/vstr.16 instruction. */
+ if (inst.vectype.el[0].size == 16)
+ do_scalar_fp16_v82_encode ();
}
else
{
values, terminated with -1. */
static int
-neon_alignment_bit (int size, int align, int *do_align, ...)
+neon_alignment_bit (int size, int align, int *do_alignment, ...)
{
va_list ap;
int result = FAIL, thissize, thisalign;
if (!inst.operands[1].immisalign)
{
- *do_align = 0;
+ *do_alignment = 0;
return SUCCESS;
}
- va_start (ap, do_align);
+ va_start (ap, do_alignment);
do
{
va_end (ap);
if (result == SUCCESS)
- *do_align = 1;
+ *do_alignment = 1;
else
first_error (_("unsupported alignment for instruction"));
do_neon_ld_st_lane (void)
{
struct neon_type_el et = neon_check_type (1, NS_NULL, N_8 | N_16 | N_32);
- int align_good, do_align = 0;
+ int align_good, do_alignment = 0;
int logsize = neon_logbits (et.size);
int align = inst.operands[1].imm >> 8;
int n = (inst.instruction >> 8) & 3;
switch (n)
{
case 0: /* VLD1 / VST1. */
- align_good = neon_alignment_bit (et.size, align, &do_align, 16, 16,
+ align_good = neon_alignment_bit (et.size, align, &do_alignment, 16, 16,
32, 32, -1);
if (align_good == FAIL)
return;
- if (do_align)
+ if (do_alignment)
{
unsigned alignbits = 0;
switch (et.size)
break;
case 1: /* VLD2 / VST2. */
- align_good = neon_alignment_bit (et.size, align, &do_align, 8, 16, 16, 32,
- 32, 64, -1);
+ align_good = neon_alignment_bit (et.size, align, &do_alignment, 8, 16,
+ 16, 32, 32, 64, -1);
if (align_good == FAIL)
return;
- if (do_align)
+ if (do_alignment)
inst.instruction |= 1 << 4;
break;
break;
case 3: /* VLD4 / VST4. */
- align_good = neon_alignment_bit (et.size, align, &do_align, 8, 32,
+ align_good = neon_alignment_bit (et.size, align, &do_alignment, 8, 32,
16, 64, 32, 64, 32, 128, -1);
if (align_good == FAIL)
return;
- if (do_align)
+ if (do_alignment)
{
unsigned alignbits = 0;
switch (et.size)
do_neon_ld_dup (void)
{
struct neon_type_el et = neon_check_type (1, NS_NULL, N_8 | N_16 | N_32);
- int align_good, do_align = 0;
+ int align_good, do_alignment = 0;
if (et.type == NT_invtype)
return;
case 0: /* VLD1. */
gas_assert (NEON_REG_STRIDE (inst.operands[0].imm) != 2);
align_good = neon_alignment_bit (et.size, inst.operands[1].imm >> 8,
- &do_align, 16, 16, 32, 32, -1);
+ &do_alignment, 16, 16, 32, 32, -1);
if (align_good == FAIL)
return;
switch (NEON_REGLIST_LENGTH (inst.operands[0].imm))
case 1: /* VLD2. */
align_good = neon_alignment_bit (et.size, inst.operands[1].imm >> 8,
- &do_align, 8, 16, 16, 32, 32, 64, -1);
+ &do_alignment, 8, 16, 16, 32, 32, 64,
+ -1);
if (align_good == FAIL)
return;
constraint (NEON_REGLIST_LENGTH (inst.operands[0].imm) != 2,
case 3: /* VLD4. */
{
int align = inst.operands[1].imm >> 8;
- align_good = neon_alignment_bit (et.size, align, &do_align, 8, 32,
+ align_good = neon_alignment_bit (et.size, align, &do_alignment, 8, 32,
16, 64, 32, 64, 32, 128, -1);
if (align_good == FAIL)
return;
default: ;
}
- inst.instruction |= do_align << 4;
+ inst.instruction |= do_alignment << 4;
}
/* Disambiguate VLD<n> and VST<n> instructions, and fill in common bits (those
NEON_ENCODE (FPV8, inst);
- if (rs == NS_FFF)
- do_vfp_sp_dyadic ();
+ if (rs == NS_FFF || rs == NS_HHH)
+ {
+ do_vfp_sp_dyadic ();
+
+ /* ARMv8.2 fp16 instruction. */
+ if (rs == NS_HHH)
+ do_scalar_fp16_v82_encode ();
+ }
else
do_vfp_dp_rd_rn_rm ();
if (vfp_or_neon_is_neon (NEON_CHECK_CC | NEON_CHECK_ARCH8) == FAIL)
return;
- neon_dyadic_misc (NT_untyped, N_F32, 0);
+ neon_dyadic_misc (NT_untyped, N_F_16_32, 0);
}
static void
do_vrint_1 (enum neon_cvt_mode mode)
{
- enum neon_shape rs = neon_select_shape (NS_FF, NS_DD, NS_QQ, NS_NULL);
+ enum neon_shape rs = neon_select_shape (NS_HH, NS_FF, NS_DD, NS_QQ, NS_NULL);
struct neon_type_el et;
if (rs == NS_NULL)
constraint (!ARM_CPU_HAS_FEATURE (cpu_variant, fpu_vfp_ext_armv8),
_(BAD_FPU));
- et = neon_check_type (2, rs, N_EQK | N_VFP, N_F32 | N_F64 | N_KEY | N_VFP);
+ et = neon_check_type (2, rs, N_EQK | N_VFP, N_F_ALL | N_KEY
+ | N_VFP);
if (et.type != NT_invtype)
{
/* VFP encodings. */
set_it_insn_type (OUTSIDE_IT_INSN);
NEON_ENCODE (FPV8, inst);
- if (rs == NS_FF)
+ if (rs == NS_FF || rs == NS_HH)
do_vfp_sp_monadic ();
else
do_vfp_dp_rd_rm ();
inst.instruction |= (rs == NS_DD) << 8;
do_vfp_cond_or_thumb ();
+
+ /* ARMv8.2 fp16 vrint instruction. */
+ if (rs == NS_HH)
+ do_scalar_fp16_v82_encode ();
}
else
{
/* Neon encodings (or something broken...). */
inst.error = NULL;
- et = neon_check_type (2, rs, N_EQK, N_F32 | N_KEY);
+ et = neon_check_type (2, rs, N_EQK, N_F_16_32 | N_KEY);
if (et.type == NT_invtype)
return;
inst.instruction |= LOW4 (inst.operands[1].reg);
inst.instruction |= HI1 (inst.operands[1].reg) << 5;
inst.instruction |= neon_quad (rs) << 6;
+ /* Mask off the original size bits and reencode them. */
+ inst.instruction = ((inst.instruction & 0xfff3ffff)
+ | neon_logbits (et.size) << 18);
+
switch (mode)
{
case neon_cvt_mode_z: inst.instruction |= 3 << 7; break;
|| ARM_CPU_HAS_FEATURE (*opcode->tvariant, arm_ext_barrier))
return TRUE;
- /* Wide-only instruction added to ARMv8-M. */
- if (ARM_CPU_HAS_FEATURE (*opcode->tvariant, arm_ext_v8m)
+ /* Wide-only instruction added to ARMv8-M Baseline. */
+ if (ARM_CPU_HAS_FEATURE (*opcode->tvariant, arm_ext_v8m_m_only)
|| ARM_CPU_HAS_FEATURE (*opcode->tvariant, arm_ext_atomics)
|| ARM_CPU_HAS_FEATURE (*opcode->tvariant, arm_ext_v6t2_v8m)
|| ARM_CPU_HAS_FEATURE (*opcode->tvariant, arm_ext_div))
{"ipsr", 5 }, {"IPSR", 5 },
{"epsr", 6 }, {"EPSR", 6 },
{"iepsr", 7 }, {"IEPSR", 7 },
- {"msp", 8 }, {"MSP", 8 },
- {"psp", 9 }, {"PSP", 9 },
+ {"msp", 8 }, {"MSP", 8 }, {"msp_s", 8 }, {"MSP_S", 8 },
+ {"psp", 9 }, {"PSP", 9 }, {"psp_s", 9 }, {"PSP_S", 9 },
{"primask", 16}, {"PRIMASK", 16},
{"basepri", 17}, {"BASEPRI", 17},
{"basepri_max", 18}, {"BASEPRI_MAX", 18},
{"basepri_max", 18}, {"BASEPRI_MASK", 18}, /* Typo, preserved for backwards compatibility. */
{"faultmask", 19}, {"FAULTMASK", 19},
- {"control", 20}, {"CONTROL", 20}
+ {"control", 20}, {"CONTROL", 20},
+ {"msp_ns", 0x88}, {"MSP_NS", 0x88},
+ {"psp_ns", 0x89}, {"PSP_NS", 0x89}
};
/* Table of all shift-in-operand names. */
/* ARMv8.2 RAS extension. */
#undef ARM_VARIANT
-#define ARM_VARIANT & arm_ext_v8_2
+#define ARM_VARIANT & arm_ext_ras
#undef THUMB_VARIANT
-#define THUMB_VARIANT & arm_ext_v8_2
+#define THUMB_VARIANT & arm_ext_ras
TUE ("esb", 320f010, f3af8010, 0, (), noargs, noargs),
#undef ARM_VARIANT
NCE(vmov, 0, 1, (VMOV), neon_mov),
NCE(vmovq, 0, 1, (VMOV), neon_mov),
+#undef ARM_VARIANT
+#define ARM_VARIANT & arm_ext_fp16
+#undef THUMB_VARIANT
+#define THUMB_VARIANT & arm_ext_fp16
+ /* New instructions added from v8.2, allowing the extraction and insertion of
+ the upper 16 bits of a 32-bit vector register. */
+ NCE (vmovx, eb00a40, 2, (RVS, RVS), neon_movhf),
+ NCE (vins, eb00ac0, 2, (RVS, RVS), neon_movhf),
+
#undef THUMB_VARIANT
#define THUMB_VARIANT & fpu_neon_ext_v1
#undef ARM_VARIANT
NUF(vbitq, 1200110, 3, (RNQ, RNQ, RNQ), neon_bitfield),
NUF(vbif, 1300110, 3, (RNDQ, RNDQ, RNDQ), neon_bitfield),
NUF(vbifq, 1300110, 3, (RNQ, RNQ, RNQ), neon_bitfield),
- /* Int and float variants, types S8 S16 S32 U8 U16 U32 F32. */
+ /* Int and float variants, types S8 S16 S32 U8 U16 U32 F16 F32. */
nUF(vabd, _vabd, 3, (RNDQ, oRNDQ, RNDQ), neon_dyadic_if_su),
nUF(vabdq, _vabd, 3, (RNQ, oRNQ, RNQ), neon_dyadic_if_su),
nUF(vmax, _vmax, 3, (RNDQ, oRNDQ, RNDQ), neon_dyadic_if_su),
NUF(vrsqrts, 0200f10, 3, (RNDQ, oRNDQ, RNDQ), neon_step),
NUF(vrsqrtsq, 0200f10, 3, (RNQ, oRNQ, RNQ), neon_step),
/* ARM v8.1 extension. */
- nUF(vqrdmlah, _vqrdmlah, 3, (RNDQ, oRNDQ, RNDQ_RNSC), neon_qdmulh),
- nUF(vqrdmlahq, _vqrdmlah, 3, (RNQ, oRNQ, RNDQ_RNSC), neon_qdmulh),
- nUF(vqrdmlsh, _vqrdmlsh, 3, (RNDQ, oRNDQ, RNDQ_RNSC), neon_qdmulh),
- nUF(vqrdmlshq, _vqrdmlsh, 3, (RNQ, oRNQ, RNDQ_RNSC), neon_qdmulh),
+ nUF (vqrdmlah, _vqrdmlah, 3, (RNDQ, oRNDQ, RNDQ_RNSC), neon_qrdmlah),
+ nUF (vqrdmlahq, _vqrdmlah, 3, (RNQ, oRNQ, RNDQ_RNSC), neon_qrdmlah),
+ nUF (vqrdmlsh, _vqrdmlsh, 3, (RNDQ, oRNDQ, RNDQ_RNSC), neon_qrdmlah),
+ nUF (vqrdmlshq, _vqrdmlsh, 3, (RNQ, oRNQ, RNDQ_RNSC), neon_qrdmlah),
/* Two address, int/float. Types S8 S16 S32 F32. */
NUF(vabsq, 1b10300, 2, (RNQ, RNQ), neon_abs_neg),
NUF(vpadalq, 1b00600, 2, (RNQ, RNQ), neon_pair_long),
NUF(vpaddl, 1b00200, 2, (RNDQ, RNDQ), neon_pair_long),
NUF(vpaddlq, 1b00200, 2, (RNQ, RNQ), neon_pair_long),
- /* Reciprocal estimates. Types U32 F32. */
+ /* Reciprocal estimates. Types U32 F16 F32. */
NUF(vrecpe, 1b30400, 2, (RNDQ, RNDQ), neon_recip_est),
NUF(vrecpeq, 1b30400, 2, (RNQ, RNQ), neon_recip_est),
NUF(vrsqrte, 1b30480, 2, (RNDQ, RNDQ), neon_recip_est),
cCE("cfmadda32", e200600, 4, (RMAX, RMAX, RMFX, RMFX), mav_quad),
cCE("cfmsuba32", e300600, 4, (RMAX, RMAX, RMFX, RMFX), mav_quad),
+ /* ARMv8-M instructions. */
#undef ARM_VARIANT
#define ARM_VARIANT NULL
#undef THUMB_VARIANT
#define THUMB_VARIANT & arm_ext_v8m
+ TUE("sg", 0, e97fe97f, 0, (), 0, noargs),
+ TUE("blxns", 0, 4784, 1, (RRnpc), 0, t_blx),
+ TUE("bxns", 0, 4704, 1, (RRnpc), 0, t_bx),
TUE("tt", 0, e840f000, 2, (RRnpc, RRnpc), 0, tt),
TUE("ttt", 0, e840f040, 2, (RRnpc, RRnpc), 0, tt),
+ TUE("tta", 0, e840f080, 2, (RRnpc, RRnpc), 0, tt),
+ TUE("ttat", 0, e840f0c0, 2, (RRnpc, RRnpc), 0, tt),
+
+ /* FP for ARMv8-M Mainline. Enabled for ARMv8-M Mainline because the
+ instructions behave as nop if no VFP is present. */
+#undef THUMB_VARIANT
+#define THUMB_VARIANT & arm_ext_v8m_main
+ TUEc("vlldm", 0, ec300a00, 1, (RRnpc), rn),
+ TUEc("vlstm", 0, ec200a00, 1, (RRnpc), rn),
};
#undef ARM_VARIANT
#undef THUMB_VARIANT
void
arm_handle_align (fragS * fragP)
{
- static char const arm_noop[2][2][4] =
+ static unsigned char const arm_noop[2][2][4] =
{
{ /* ARMv1 */
{0x00, 0x00, 0xa0, 0xe1}, /* LE */
{0xe3, 0x20, 0xf0, 0x00}, /* BE */
},
};
- static char const thumb_noop[2][2][2] =
+ static unsigned char const thumb_noop[2][2][2] =
{
{ /* Thumb-1 */
{0xc0, 0x46}, /* LE */
{0xbf, 0x00} /* BE */
}
};
- static char const wide_thumb_noop[2][4] =
+ static unsigned char const wide_thumb_noop[2][4] =
{ /* Wide Thumb-2 */
{0xaf, 0xf3, 0x00, 0x80}, /* LE */
{0xf3, 0xaf, 0x80, 0x00}, /* BE */
unsigned bytes, fix, noop_size;
char * p;
- const char * noop;
- const char *narrow_noop = NULL;
+ const unsigned char * noop;
+ const unsigned char *narrow_noop = NULL;
#ifdef OBJ_ELF
enum mstate state;
#endif
{
unwind.opcode_alloc += ARM_OPCODE_CHUNK_SIZE;
if (unwind.opcodes)
- unwind.opcodes = (unsigned char *) xrealloc (unwind.opcodes,
- unwind.opcode_alloc);
+ unwind.opcodes = XRESIZEVEC (unsigned char, unwind.opcodes,
+ unwind.opcode_alloc);
else
- unwind.opcodes = (unsigned char *) xmalloc (unwind.opcode_alloc);
+ unwind.opcodes = XNEWVEC (unsigned char, unwind.opcode_alloc);
}
while (length > 0)
{
const char * prefix;
const char * prefix_once;
const char * group_name;
- size_t prefix_len;
- size_t text_len;
char * sec_name;
- size_t sec_name_len;
int type;
int flags;
int linkonce;
text_name += strlen (".gnu.linkonce.t.");
}
- prefix_len = strlen (prefix);
- text_len = strlen (text_name);
- sec_name_len = prefix_len + text_len;
- sec_name = (char *) xmalloc (sec_name_len + 1);
- memcpy (sec_name, prefix, prefix_len);
- memcpy (sec_name + prefix_len, text_name, text_len);
- sec_name[prefix_len + text_len] = '\0';
+ sec_name = concat (prefix, text_name, (char *) NULL);
flags = SHF_ALLOC;
linkonce = 0;
case BFD_RELOC_ARM_CP_OFF_IMM:
case BFD_RELOC_ARM_T32_CP_OFF_IMM:
- if (value < -1023 || value > 1023 || (value & 3))
+ if (fixP->fx_r_type == BFD_RELOC_ARM_CP_OFF_IMM)
+ newval = md_chars_to_number (buf, INSN_SIZE);
+ else
+ newval = get_thumb32_insn (buf);
+ if ((newval & 0x0f200f00) == 0x0d000900)
+ {
+ /* This is a fp16 vstr/vldr. The immediate offset in the mnemonic
+ has permitted values that are multiples of 2, in the range 0
+ to 510. */
+ if (value < -510 || value > 510 || (value & 1))
+ as_bad_where (fixP->fx_file, fixP->fx_line,
+ _("co-processor offset out of range"));
+ }
+ else if (value < -1023 || value > 1023 || (value & 3))
as_bad_where (fixP->fx_file, fixP->fx_line,
_("co-processor offset out of range"));
cp_off_common:
else
{
newval &= 0xff7fff00;
+ if ((newval & 0x0f200f00) == 0x0d000900)
+ {
+ /* This is a fp16 vstr/vldr.
+
+ It requires the immediate offset in the instruction is shifted
+ left by 1 to be a half-word offset.
+
+ Here, left shift by 1 first, and later right shift by 2
+ should get the right offset. */
+ value <<= 1;
+ }
newval |= (value >> 2) | (sign ? INDEX_UP : 0);
}
if (fixP->fx_r_type == BFD_RELOC_ARM_CP_OFF_IMM
arelent * reloc;
bfd_reloc_code_real_type code;
- reloc = (arelent *) xmalloc (sizeof (arelent));
+ reloc = XNEW (arelent);
- reloc->sym_ptr_ptr = (asymbol **) xmalloc (sizeof (asymbol *));
+ 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;
default:
{
- char * type;
+ const char * type;
switch (fixp->fx_r_type)
{
/* If it's a .thumb_func, declare it as so,
otherwise tag label as .code 16. */
if (THUMB_IS_FUNC (sym))
- elf_sym->internal_elf_sym.st_target_internal
- = ST_BRANCH_TO_THUMB;
+ ARM_SET_SYM_BRANCH_TYPE (elf_sym->internal_elf_sym.st_target_internal,
+ ST_BRANCH_TO_THUMB);
else if (EF_ARM_EABI_VERSION (meabi_flags) < EF_ARM_EABI_VER4)
elf_sym->internal_elf_sym.st_info =
ELF_ST_INFO (bind, STT_ARM_16BIT);
struct arm_option_table
{
- char *option; /* Option name to match. */
- char *help; /* Help information. */
+ const char *option; /* Option name to match. */
+ const char *help; /* Help information. */
int *var; /* Variable to change. */
int value; /* What to change it to. */
- char *deprecated; /* If non-null, print this message. */
+ const char *deprecated; /* If non-null, print this message. */
};
struct arm_option_table arm_opts[] =
struct arm_legacy_option_table
{
- char *option; /* Option name to match. */
+ const char *option; /* Option name to match. */
const arm_feature_set **var; /* Variable to change. */
const arm_feature_set value; /* What to change it to. */
- char *deprecated; /* If non-null, print this message. */
+ const char *deprecated; /* If non-null, print this message. */
};
const struct arm_legacy_option_table arm_legacy_opts[] =
struct arm_cpu_option_table
{
- char *name;
+ const char *name;
size_t name_len;
const arm_feature_set value;
/* For some CPUs we assume an FPU unless the user explicitly sets
"Cortex-A15"),
ARM_CPU_OPT ("cortex-a17", ARM_ARCH_V7VE, FPU_ARCH_NEON_VFP_V4,
"Cortex-A17"),
+ ARM_CPU_OPT ("cortex-a32", ARM_ARCH_V8A, FPU_ARCH_CRYPTO_NEON_VFP_ARMV8,
+ "Cortex-A32"),
ARM_CPU_OPT ("cortex-a35", ARM_ARCH_V8A, FPU_ARCH_CRYPTO_NEON_VFP_ARMV8,
"Cortex-A35"),
ARM_CPU_OPT ("cortex-a53", ARM_ARCH_V8A, FPU_ARCH_CRYPTO_NEON_VFP_ARMV8,
"Cortex-A57"),
ARM_CPU_OPT ("cortex-a72", ARM_ARCH_V8A, FPU_ARCH_CRYPTO_NEON_VFP_ARMV8,
"Cortex-A72"),
+ ARM_CPU_OPT ("cortex-a73", ARM_ARCH_V8A, FPU_ARCH_CRYPTO_NEON_VFP_ARMV8,
+ "Cortex-A73"),
ARM_CPU_OPT ("cortex-r4", ARM_ARCH_V7R, FPU_NONE, "Cortex-R4"),
ARM_CPU_OPT ("cortex-r4f", ARM_ARCH_V7R, FPU_ARCH_VFP_V3D16,
"Cortex-R4F"),
ARM_CPU_OPT ("cortex-r7", ARM_ARCH_V7R_IDIV,
FPU_ARCH_VFP_V3D16,
"Cortex-R7"),
+ ARM_CPU_OPT ("cortex-r8", ARM_ARCH_V7R_IDIV,
+ FPU_ARCH_VFP_V3D16,
+ "Cortex-R8"),
ARM_CPU_OPT ("cortex-m7", ARM_ARCH_V7EM, FPU_NONE, "Cortex-M7"),
ARM_CPU_OPT ("cortex-m4", ARM_ARCH_V7EM, FPU_NONE, "Cortex-M4"),
ARM_CPU_OPT ("cortex-m3", ARM_ARCH_V7M, FPU_NONE, "Cortex-M3"),
struct arm_arch_option_table
{
- char *name;
+ const char *name;
size_t name_len;
const arm_feature_set value;
const arm_feature_set default_fpu;
/* ISA extensions in the co-processor and main instruction set space. */
struct arm_option_extension_value_table
{
- char *name;
+ const char *name;
size_t name_len;
const arm_feature_set merge_value;
const arm_feature_set clear_value;
- const arm_feature_set allowed_archs;
+ /* List of architectures for which an extension is available. ARM_ARCH_NONE
+ indicates that an extension is available for all architectures while
+ ARM_ANY marks an empty entry. */
+ const arm_feature_set allowed_archs[2];
};
/* The following table must be in alphabetical order with a NULL last entry.
*/
-#define ARM_EXT_OPT(N, M, C, AA) { N, sizeof (N) - 1, M, C, AA }
+#define ARM_EXT_OPT(N, M, C, AA) { N, sizeof (N) - 1, M, C, { AA, ARM_ANY } }
+#define ARM_EXT_OPT2(N, M, C, AA1, AA2) { N, sizeof (N) - 1, M, C, {AA1, AA2} }
static const struct arm_option_extension_value_table arm_extensions[] =
{
ARM_EXT_OPT ("crc", ARCH_CRC_ARMV8, ARM_FEATURE_COPROC (CRC_EXT_ARMV8),
ARM_EXT_OPT ("crypto", FPU_ARCH_CRYPTO_NEON_VFP_ARMV8,
ARM_FEATURE_COPROC (FPU_CRYPTO_ARMV8),
ARM_FEATURE_CORE_LOW (ARM_EXT_V8)),
+ ARM_EXT_OPT ("dsp", ARM_FEATURE_CORE_LOW (ARM_EXT_V5ExP | ARM_EXT_V6_DSP),
+ ARM_FEATURE_CORE_LOW (ARM_EXT_V5ExP | ARM_EXT_V6_DSP),
+ ARM_FEATURE_CORE (ARM_EXT_V7M, ARM_EXT2_V8M)),
ARM_EXT_OPT ("fp", FPU_ARCH_VFP_ARMV8, ARM_FEATURE_COPROC (FPU_VFP_ARMV8),
ARM_FEATURE_CORE_LOW (ARM_EXT_V8)),
- ARM_EXT_OPT ("idiv", ARM_FEATURE_CORE_LOW (ARM_EXT_ADIV | ARM_EXT_DIV),
+ ARM_EXT_OPT ("fp16", ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
+ ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
+ ARM_ARCH_V8_2A),
+ ARM_EXT_OPT2 ("idiv", ARM_FEATURE_CORE_LOW (ARM_EXT_ADIV | ARM_EXT_DIV),
ARM_FEATURE_CORE_LOW (ARM_EXT_ADIV | ARM_EXT_DIV),
- ARM_FEATURE_CORE_LOW (ARM_EXT_V7A | ARM_EXT_V7R)),
+ ARM_FEATURE_CORE_LOW (ARM_EXT_V7A),
+ ARM_FEATURE_CORE_LOW (ARM_EXT_V7R)),
ARM_EXT_OPT ("iwmmxt",ARM_FEATURE_COPROC (ARM_CEXT_IWMMXT),
- ARM_FEATURE_COPROC (ARM_CEXT_IWMMXT), ARM_ANY),
+ ARM_FEATURE_COPROC (ARM_CEXT_IWMMXT), ARM_ARCH_NONE),
ARM_EXT_OPT ("iwmmxt2", ARM_FEATURE_COPROC (ARM_CEXT_IWMMXT2),
- ARM_FEATURE_COPROC (ARM_CEXT_IWMMXT2), ARM_ANY),
+ ARM_FEATURE_COPROC (ARM_CEXT_IWMMXT2), ARM_ARCH_NONE),
ARM_EXT_OPT ("maverick", ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
- ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK), ARM_ANY),
- ARM_EXT_OPT ("mp", ARM_FEATURE_CORE_LOW (ARM_EXT_MP),
+ ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK), ARM_ARCH_NONE),
+ ARM_EXT_OPT2 ("mp", ARM_FEATURE_CORE_LOW (ARM_EXT_MP),
ARM_FEATURE_CORE_LOW (ARM_EXT_MP),
- ARM_FEATURE_CORE_LOW (ARM_EXT_V7A | ARM_EXT_V7R)),
- ARM_EXT_OPT ("simd", FPU_ARCH_NEON_VFP_ARMV8,
- ARM_FEATURE_COPROC (FPU_NEON_ARMV8),
- ARM_FEATURE_CORE_LOW (ARM_EXT_V8)),
+ ARM_FEATURE_CORE_LOW (ARM_EXT_V7A),
+ ARM_FEATURE_CORE_LOW (ARM_EXT_V7R)),
ARM_EXT_OPT ("os", ARM_FEATURE_CORE_LOW (ARM_EXT_OS),
ARM_FEATURE_CORE_LOW (ARM_EXT_OS),
ARM_FEATURE_CORE_LOW (ARM_EXT_V6M)),
ARM_EXT_OPT ("pan", ARM_FEATURE_CORE_HIGH (ARM_EXT2_PAN),
ARM_FEATURE (ARM_EXT_V8, ARM_EXT2_PAN, 0),
ARM_FEATURE_CORE_LOW (ARM_EXT_V8)),
- ARM_EXT_OPT ("sec", ARM_FEATURE_CORE_LOW (ARM_EXT_SEC),
+ ARM_EXT_OPT ("ras", ARM_FEATURE_CORE_HIGH (ARM_EXT2_RAS),
+ ARM_FEATURE (ARM_EXT_V8, ARM_EXT2_RAS, 0),
+ ARM_FEATURE_CORE_LOW (ARM_EXT_V8)),
+ ARM_EXT_OPT ("rdma", FPU_ARCH_NEON_VFP_ARMV8_1,
+ ARM_FEATURE_COPROC (FPU_NEON_ARMV8 | FPU_NEON_EXT_RDMA),
+ ARM_FEATURE_CORE_LOW (ARM_EXT_V8)),
+ ARM_EXT_OPT2 ("sec", ARM_FEATURE_CORE_LOW (ARM_EXT_SEC),
ARM_FEATURE_CORE_LOW (ARM_EXT_SEC),
- ARM_FEATURE_CORE_LOW (ARM_EXT_V6K | ARM_EXT_V7A)),
+ ARM_FEATURE_CORE_LOW (ARM_EXT_V6K),
+ ARM_FEATURE_CORE_LOW (ARM_EXT_V7A)),
+ ARM_EXT_OPT ("simd", FPU_ARCH_NEON_VFP_ARMV8,
+ ARM_FEATURE_COPROC (FPU_NEON_ARMV8),
+ ARM_FEATURE_CORE_LOW (ARM_EXT_V8)),
ARM_EXT_OPT ("virt", ARM_FEATURE_CORE_LOW (ARM_EXT_VIRT | ARM_EXT_ADIV
| ARM_EXT_DIV),
ARM_FEATURE_CORE_LOW (ARM_EXT_VIRT),
ARM_FEATURE_CORE_LOW (ARM_EXT_V7A)),
- ARM_EXT_OPT ("rdma", FPU_ARCH_NEON_VFP_ARMV8,
- ARM_FEATURE_COPROC (FPU_NEON_ARMV8 | FPU_NEON_EXT_RDMA),
- ARM_FEATURE_CORE_LOW (ARM_EXT_V8)),
ARM_EXT_OPT ("xscale",ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
- ARM_FEATURE_COPROC (ARM_CEXT_XSCALE), ARM_ANY),
- { NULL, 0, ARM_ARCH_NONE, ARM_ARCH_NONE, ARM_ARCH_NONE }
+ ARM_FEATURE_COPROC (ARM_CEXT_XSCALE), ARM_ARCH_NONE),
+ { NULL, 0, ARM_ARCH_NONE, ARM_ARCH_NONE, { ARM_ARCH_NONE, ARM_ARCH_NONE } }
};
#undef ARM_EXT_OPT
/* ISA floating-point and Advanced SIMD extensions. */
struct arm_option_fpu_value_table
{
- char *name;
+ const char *name;
const arm_feature_set value;
};
struct arm_option_value_table
{
- char *name;
+ const char *name;
long value;
};
struct arm_long_option_table
{
- char * option; /* Substring to match. */
- char * help; /* Help information. */
- int (* func) (char * subopt); /* Function to decode sub-option. */
- char * deprecated; /* If non-null, print this message. */
+ const char * option; /* Substring to match. */
+ const char * help; /* Help information. */
+ int (* func) (const char * subopt); /* Function to decode sub-option. */
+ const char * deprecated; /* If non-null, print this message. */
};
static bfd_boolean
-arm_parse_extension (char *str, const arm_feature_set **opt_p)
+arm_parse_extension (const char *str, const arm_feature_set **opt_p)
{
- arm_feature_set *ext_set = (arm_feature_set *)
- xmalloc (sizeof (arm_feature_set));
+ arm_feature_set *ext_set = XNEW (arm_feature_set);
/* We insist on extensions being specified in alphabetical order, and with
extensions being added before being removed. We achieve this by having
or removing it (0) and only allowing it to change in the order
-1 -> 1 -> 0. */
const struct arm_option_extension_value_table * opt = NULL;
+ const arm_feature_set arm_any = ARM_ANY;
int adding_value = -1;
/* Copy the feature set, so that we can modify it. */
while (str != NULL && *str != 0)
{
- char *ext;
+ const char *ext;
size_t len;
if (*str != '+')
for (; opt->name != NULL; opt++)
if (opt->name_len == len && strncmp (opt->name, str, len) == 0)
{
+ int i, nb_allowed_archs =
+ sizeof (opt->allowed_archs) / sizeof (opt->allowed_archs[0]);
/* Check we can apply the extension to this architecture. */
- if (!ARM_CPU_HAS_FEATURE (*ext_set, opt->allowed_archs))
+ for (i = 0; i < nb_allowed_archs; i++)
+ {
+ /* Empty entry. */
+ if (ARM_FEATURE_EQUAL (opt->allowed_archs[i], arm_any))
+ continue;
+ if (ARM_FSET_CPU_SUBSET (opt->allowed_archs[i], *ext_set))
+ break;
+ }
+ if (i == nb_allowed_archs)
{
as_bad (_("extension does not apply to the base architecture"));
return FALSE;
}
static bfd_boolean
-arm_parse_cpu (char *str)
+arm_parse_cpu (const char *str)
{
const struct arm_cpu_option_table *opt;
- char *ext = strchr (str, '+');
+ const char *ext = strchr (str, '+');
size_t len;
if (ext != NULL)
}
static bfd_boolean
-arm_parse_arch (char *str)
+arm_parse_arch (const char *str)
{
const struct arm_arch_option_table *opt;
- char *ext = strchr (str, '+');
+ const char *ext = strchr (str, '+');
size_t len;
if (ext != NULL)
}
static bfd_boolean
-arm_parse_fpu (char * str)
+arm_parse_fpu (const char * str)
{
const struct arm_option_fpu_value_table * opt;
}
static bfd_boolean
-arm_parse_float_abi (char * str)
+arm_parse_float_abi (const char * str)
{
const struct arm_option_value_table * opt;
#ifdef OBJ_ELF
static bfd_boolean
-arm_parse_eabi (char * str)
+arm_parse_eabi (const char * str)
{
const struct arm_option_value_table *opt;
#endif
static bfd_boolean
-arm_parse_it_mode (char * str)
+arm_parse_it_mode (const char * str)
{
bfd_boolean ret = TRUE;
}
static bfd_boolean
-arm_ccs_mode (char * unused ATTRIBUTE_UNUSED)
+arm_ccs_mode (const char * unused ATTRIBUTE_UNUSED)
{
codecomposer_syntax = TRUE;
arm_comment_chars[0] = ';';
};
int
-md_parse_option (int c, char * arg)
+md_parse_option (int c, const char * arg)
{
struct arm_option_table *opt;
const struct arm_legacy_option_table *fopt;
char profile;
int virt_sec = 0;
int fp16_optional = 0;
+ arm_feature_set arm_arch = ARM_ARCH_NONE;
arm_feature_set flags;
arm_feature_set tmp;
arm_feature_set arm_arch_v8m_base = ARM_ARCH_V8M_BASE;
if (ARM_CPU_HAS_FEATURE (tmp, p->flags))
{
arch = p->val;
+ arm_arch = p->flags;
ARM_CLEAR_FEATURE (tmp, tmp, p->flags);
}
}
&& !ARM_CPU_HAS_FEATURE (flags, arm_ext_v7a)
&& ARM_CPU_HAS_FEATURE (flags, arm_ext_v7m)
&& ARM_CPU_HAS_FEATURE (flags, arm_ext_v6_dsp))
- arch = TAG_CPU_ARCH_V7E_M;
+ {
+ arch = TAG_CPU_ARCH_V7E_M;
+ arm_arch = (arm_feature_set) ARM_ARCH_V7EM;
+ }
ARM_CLEAR_FEATURE (tmp, flags, arm_arch_v8m_base);
if (arch == TAG_CPU_ARCH_V8M_BASE && ARM_CPU_HAS_FEATURE (tmp, arm_arch_any))
- arch = TAG_CPU_ARCH_V8M_MAIN;
+ {
+ arch = TAG_CPU_ARCH_V8M_MAIN;
+ arm_arch = (arm_feature_set) ARM_ARCH_V8M_MAIN;
+ }
/* In cpu_arch_ver ARMv8-A is before ARMv8-M for atomics to be detected as
coming from ARMv8-A. However, since ARMv8-A has more instructions than
ARMv8-M, -march=all must be detected as ARMv8-A. */
if (arch == TAG_CPU_ARCH_V8M_MAIN
&& ARM_FEATURE_CORE_EQUAL (selected_cpu, arm_arch_any))
- arch = TAG_CPU_ARCH_V8;
+ {
+ arch = TAG_CPU_ARCH_V8;
+ arm_arch = (arm_feature_set) ARM_ARCH_V8A;
+ }
/* Tag_CPU_name. */
if (selected_cpu_name[0])
if (ARM_CPU_HAS_FEATURE (flags, arm_ext_v7a)
|| ARM_CPU_HAS_FEATURE (flags, arm_ext_v8)
|| (ARM_CPU_HAS_FEATURE (flags, arm_ext_atomics)
- && !ARM_CPU_HAS_FEATURE (flags, arm_ext_v8m)))
+ && !ARM_CPU_HAS_FEATURE (flags, arm_ext_v8m_m_only)))
profile = 'A';
else if (ARM_CPU_HAS_FEATURE (flags, arm_ext_v7r))
profile = 'R';
if (profile != '\0')
aeabi_set_attribute_int (Tag_CPU_arch_profile, profile);
+ /* Tag_DSP_extension. */
+ if (ARM_CPU_HAS_FEATURE (flags, arm_ext_dsp))
+ {
+ arm_feature_set ext;
+
+ /* DSP instructions not in architecture. */
+ ARM_CLEAR_FEATURE (ext, flags, arm_arch);
+ if (ARM_CPU_HAS_FEATURE (ext, arm_ext_dsp))
+ aeabi_set_attribute_int (Tag_DSP_extension, 1);
+ }
+
/* Tag_ARM_ISA_use. */
if (ARM_CPU_HAS_FEATURE (flags, arm_ext_v1)
|| arch == 0)
int thumb_isa_use;
if (!ARM_CPU_HAS_FEATURE (flags, arm_ext_v8)
- && ARM_CPU_HAS_FEATURE (flags, arm_ext_v8m))
+ && ARM_CPU_HAS_FEATURE (flags, arm_ext_v8m_m_only))
thumb_isa_use = 3;
else if (ARM_CPU_HAS_FEATURE (flags, arm_arch_t2))
thumb_isa_use = 2;
aeabi_set_attribute_int (Tag_WMMX_arch, 1);
/* Tag_Advanced_SIMD_arch (formerly Tag_NEON_arch). */
- if (ARM_CPU_HAS_FEATURE (flags, fpu_neon_ext_armv8))
+ if (ARM_CPU_HAS_FEATURE (flags, fpu_neon_ext_v8_1))
+ aeabi_set_attribute_int (Tag_Advanced_SIMD_arch, 4);
+ else if (ARM_CPU_HAS_FEATURE (flags, fpu_neon_ext_armv8))
aeabi_set_attribute_int (Tag_Advanced_SIMD_arch, 3);
else if (ARM_CPU_HAS_FEATURE (flags, fpu_neon_ext_v1))
{
s_arm_arch_extension (int ignored ATTRIBUTE_UNUSED)
{
const struct arm_option_extension_value_table *opt;
+ const arm_feature_set arm_any = ARM_ANY;
char saved_char;
char *name;
int adding_value = 1;
for (opt = arm_extensions; opt->name != NULL; opt++)
if (streq (opt->name, name))
{
- if (!ARM_CPU_HAS_FEATURE (*mcpu_cpu_opt, opt->allowed_archs))
+ int i, nb_allowed_archs =
+ sizeof (opt->allowed_archs) / sizeof (opt->allowed_archs[i]);
+ for (i = 0; i < nb_allowed_archs; i++)
+ {
+ /* Empty entry. */
+ if (ARM_FEATURE_EQUAL (opt->allowed_archs[i], arm_any))
+ continue;
+ if (ARM_FSET_CPU_SUBSET (opt->allowed_archs[i], *mcpu_cpu_opt))
+ break;
+ }
+
+ if (i == nb_allowed_archs)
{
as_bad (_("architectural extension `%s' is not allowed for the "
"current base architecture"), name);
T (Tag_conformance),
T (Tag_T2EE_use),
T (Tag_Virtualization_use),
+ T (Tag_DSP_extension),
/* We deliberately do not include Tag_MPextension_use_legacy. */
#undef T
};
projects / deliverable / binutils-gdb.git / blobdiff