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author | Tamar Christina <tamar.christina@arm.com> | 2018-05-15 16:11:42 +0100 |
---|---|---|
committer | Tamar Christina <tamar.christina@arm.com> | 2018-05-15 17:17:36 +0100 |
commit | 561a72d4ddf825ffaf8e88551e9bd6707cd6c59f (patch) | |
tree | d5c5505b2507538d55ef585a948c4945fadca16c /opcodes/aarch64-dis.c | |
parent | 4e6ff0e1b86f736ba20a5034509ffe9f8f05b971 (diff) | |
download | binutils-561a72d4ddf825ffaf8e88551e9bd6707cd6c59f.zip binutils-561a72d4ddf825ffaf8e88551e9bd6707cd6c59f.tar.gz binutils-561a72d4ddf825ffaf8e88551e9bd6707cd6c59f.tar.bz2 |
Modify AArch64 Assembly and disassembly functions to be able to fail and report why.
This patch if the first patch in a series to add the ability to add constraints
to system registers that an instruction must adhere to in order for the register
to be usable with that instruction.
These constraints can also be used to disambiguate between registers with the
same encoding during disassembly.
This patch adds a new flags entry in the sysreg structures and ensures it is
filled in and read out during assembly/disassembly. It also adds the ability for
the assemble and disassemble functions to be able to gracefully fail and re-use
the existing error reporting infrastructure.
The return type of these functions are changed to a boolean to denote success or
failure and the error structure is passed around to them. This requires
aarch64-gen changes so a lot of the changes here are just mechanical.
gas/
PR binutils/21446
* config/tc-aarch64.c (parse_sys_reg): Return register flags.
(parse_operands): Fill in register flags.
gdb/
PR binutils/21446
* aarch64-tdep.c (aarch64_analyze_prologue,
aarch64_software_single_step, aarch64_displaced_step_copy_insn):
Indicate not interested in errors.
include/
PR binutils/21446
* opcode/aarch64.h (aarch64_opnd_info): Change sysreg to struct.
(aarch64_decode_insn): Accept error struct.
opcodes/
PR binutils/21446
* aarch64-asm.h (aarch64_insert_operand, aarch64_##x): Return boolean
and take error struct.
* aarch64-asm.c (aarch64_ext_regno, aarch64_ins_reglane,
aarch64_ins_reglist, aarch64_ins_ldst_reglist,
aarch64_ins_ldst_reglist_r, aarch64_ins_ldst_elemlist,
aarch64_ins_advsimd_imm_shift, aarch64_ins_imm, aarch64_ins_imm_half,
aarch64_ins_advsimd_imm_modified, aarch64_ins_fpimm,
aarch64_ins_imm_rotate1, aarch64_ins_imm_rotate2, aarch64_ins_fbits,
aarch64_ins_aimm, aarch64_ins_limm_1, aarch64_ins_limm,
aarch64_ins_inv_limm, aarch64_ins_ft, aarch64_ins_addr_simple,
aarch64_ins_addr_regoff, aarch64_ins_addr_offset, aarch64_ins_addr_simm,
aarch64_ins_addr_simm10, aarch64_ins_addr_uimm12,
aarch64_ins_simd_addr_post, aarch64_ins_cond, aarch64_ins_sysreg,
aarch64_ins_pstatefield, aarch64_ins_sysins_op, aarch64_ins_barrier,
aarch64_ins_prfop, aarch64_ins_hint, aarch64_ins_reg_extended,
aarch64_ins_reg_shifted, aarch64_ins_sve_addr_ri_s4xvl,
aarch64_ins_sve_addr_ri_s6xvl, aarch64_ins_sve_addr_ri_s9xvl,
aarch64_ins_sve_addr_ri_s4, aarch64_ins_sve_addr_ri_u6,
aarch64_ins_sve_addr_rr_lsl, aarch64_ins_sve_addr_rz_xtw,
aarch64_ins_sve_addr_zi_u5, aarch64_ext_sve_addr_zz,
aarch64_ins_sve_addr_zz_lsl, aarch64_ins_sve_addr_zz_sxtw,
aarch64_ins_sve_addr_zz_uxtw, aarch64_ins_sve_aimm,
aarch64_ins_sve_asimm, aarch64_ins_sve_index, aarch64_ins_sve_limm_mov,
aarch64_ins_sve_quad_index, aarch64_ins_sve_reglist,
aarch64_ins_sve_scale, aarch64_ins_sve_shlimm, aarch64_ins_sve_shrimm,
aarch64_ins_sve_float_half_one, aarch64_ins_sve_float_half_two,
aarch64_ins_sve_float_zero_one, aarch64_opcode_encode): Likewise.
* aarch64-dis.h (aarch64_extract_operand, aarch64_##x): Likewise.
* aarch64-dis.c (aarch64_ext_regno, aarch64_ext_reglane,
aarch64_ext_reglist, aarch64_ext_ldst_reglist,
aarch64_ext_ldst_reglist_r, aarch64_ext_ldst_elemlist,
aarch64_ext_advsimd_imm_shift, aarch64_ext_imm, aarch64_ext_imm_half,
aarch64_ext_advsimd_imm_modified, aarch64_ext_fpimm,
aarch64_ext_imm_rotate1, aarch64_ext_imm_rotate2, aarch64_ext_fbits,
aarch64_ext_aimm, aarch64_ext_limm_1, aarch64_ext_limm, decode_limm,
aarch64_ext_inv_limm, aarch64_ext_ft, aarch64_ext_addr_simple,
aarch64_ext_addr_regoff, aarch64_ext_addr_offset, aarch64_ext_addr_simm,
aarch64_ext_addr_simm10, aarch64_ext_addr_uimm12,
aarch64_ext_simd_addr_post, aarch64_ext_cond, aarch64_ext_sysreg,
aarch64_ext_pstatefield, aarch64_ext_sysins_op, aarch64_ext_barrier,
aarch64_ext_prfop, aarch64_ext_hint, aarch64_ext_reg_extended,
aarch64_ext_reg_shifted, aarch64_ext_sve_addr_ri_s4xvl,
aarch64_ext_sve_addr_ri_s6xvl, aarch64_ext_sve_addr_ri_s9xvl,
aarch64_ext_sve_addr_ri_s4, aarch64_ext_sve_addr_ri_u6,
aarch64_ext_sve_addr_rr_lsl, aarch64_ext_sve_addr_rz_xtw,
aarch64_ext_sve_addr_zi_u5, aarch64_ext_sve_addr_zz,
aarch64_ext_sve_addr_zz_lsl, aarch64_ext_sve_addr_zz_sxtw,
aarch64_ext_sve_addr_zz_uxtw, aarch64_ext_sve_aimm,
aarch64_ext_sve_asimm, aarch64_ext_sve_index, aarch64_ext_sve_limm_mov,
aarch64_ext_sve_quad_index, aarch64_ext_sve_reglist,
aarch64_ext_sve_scale, aarch64_ext_sve_shlimm, aarch64_ext_sve_shrimm,
aarch64_ext_sve_float_half_one, aarch64_ext_sve_float_half_two,
aarch64_ext_sve_float_zero_one, aarch64_opcode_decode): Likewise.
(determine_disassembling_preference, aarch64_decode_insn,
print_insn_aarch64_word, print_insn_data): Take errors struct.
(print_insn_aarch64): Use errors.
* aarch64-asm-2.c: Regenerate.
* aarch64-dis-2.c: Regenerate.
* aarch64-gen.c (print_operand_inserter): Use errors and change type to
boolean in aarch64_insert_operan.
(print_operand_extractor): Likewise.
* aarch64-opc.c (aarch64_print_operand): Use sysreg struct.
Diffstat (limited to 'opcodes/aarch64-dis.c')
-rw-r--r-- | opcodes/aarch64-dis.c | 532 |
1 files changed, 299 insertions, 233 deletions
diff --git a/opcodes/aarch64-dis.c b/opcodes/aarch64-dis.c index e7bece9..5994b2b 100644 --- a/opcodes/aarch64-dis.c +++ b/opcodes/aarch64-dis.c @@ -242,31 +242,34 @@ get_expected_qualifier (const aarch64_inst *inst, int i) /* Operand extractors. */ -int +bfd_boolean aarch64_ext_regno (const aarch64_operand *self, aarch64_opnd_info *info, const aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { info->reg.regno = extract_field (self->fields[0], code, 0); - return 1; + return TRUE; } -int +bfd_boolean aarch64_ext_regno_pair (const aarch64_operand *self ATTRIBUTE_UNUSED, aarch64_opnd_info *info, const aarch64_insn code ATTRIBUTE_UNUSED, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { assert (info->idx == 1 || info->idx ==3); info->reg.regno = inst->operands[info->idx - 1].reg.regno + 1; - return 1; + return TRUE; } /* e.g. IC <ic_op>{, <Xt>}. */ -int +bfd_boolean aarch64_ext_regrt_sysins (const aarch64_operand *self, aarch64_opnd_info *info, const aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { info->reg.regno = extract_field (self->fields[0], code, 0); assert (info->idx == 1 @@ -277,14 +280,15 @@ aarch64_ext_regrt_sysins (const aarch64_operand *self, aarch64_opnd_info *info, not. */ info->present = aarch64_sys_ins_reg_has_xt (inst->operands[0].sysins_op); - return 1; + return TRUE; } /* e.g. SQDMLAL <Va><d>, <Vb><n>, <Vm>.<Ts>[<index>]. */ -int +bfd_boolean aarch64_ext_reglane (const aarch64_operand *self, aarch64_opnd_info *info, const aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { /* regno */ info->reglane.regno = extract_field (self->fields[0], code, @@ -320,7 +324,7 @@ aarch64_ext_reglane (const aarch64_operand *self, aarch64_opnd_info *info, while (++pos <= 3 && (value & 0x1) == 0) value >>= 1; if (pos > 3) - return 0; + return FALSE; info->qualifier = get_sreg_qualifier_from_value (pos); info->reglane.index = (unsigned) (value >> 1); } @@ -337,7 +341,7 @@ aarch64_ext_reglane (const aarch64_operand *self, aarch64_opnd_info *info, info->reglane.regno &= 0x1f; break; default: - return 0; + return FALSE; } } else if (inst->opcode->iclass == cryptosm3) @@ -369,38 +373,40 @@ aarch64_ext_reglane (const aarch64_operand *self, aarch64_opnd_info *info, info->reglane.index = extract_field (FLD_H, code, 0); break; default: - return 0; + return FALSE; } if (inst->opcode->op == OP_FCMLA_ELEM) { /* Complex operand takes two elements. */ if (info->reglane.index & 1) - return 0; + return FALSE; info->reglane.index /= 2; } } - return 1; + return TRUE; } -int +bfd_boolean aarch64_ext_reglist (const aarch64_operand *self, aarch64_opnd_info *info, const aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { /* R */ info->reglist.first_regno = extract_field (self->fields[0], code, 0); /* len */ info->reglist.num_regs = extract_field (FLD_len, code, 0) + 1; - return 1; + return TRUE; } /* Decode Rt and opcode fields of Vt in AdvSIMD load/store instructions. */ -int +bfd_boolean aarch64_ext_ldst_reglist (const aarch64_operand *self ATTRIBUTE_UNUSED, aarch64_opnd_info *info, const aarch64_insn code, - const aarch64_inst *inst) + const aarch64_inst *inst, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { aarch64_insn value; /* Number of elements in each structure to be loaded/stored. */ @@ -431,20 +437,21 @@ aarch64_ext_ldst_reglist (const aarch64_operand *self ATTRIBUTE_UNUSED, value = extract_field (FLD_opcode, code, 0); /* PR 21595: Check for a bogus value. */ if (value >= ARRAY_SIZE (data)) - return 0; + return FALSE; if (expected_num != data[value].num_elements || data[value].is_reserved) - return 0; + return FALSE; info->reglist.num_regs = data[value].num_regs; - return 1; + return TRUE; } /* Decode Rt and S fields of Vt in AdvSIMD load single structure to all lanes instructions. */ -int +bfd_boolean aarch64_ext_ldst_reglist_r (const aarch64_operand *self ATTRIBUTE_UNUSED, aarch64_opnd_info *info, const aarch64_insn code, - const aarch64_inst *inst) + const aarch64_inst *inst, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { aarch64_insn value; @@ -462,15 +469,16 @@ aarch64_ext_ldst_reglist_r (const aarch64_operand *self ATTRIBUTE_UNUSED, if (info->reglist.num_regs == 1 && value == (aarch64_insn) 1) info->reglist.num_regs = 2; - return 1; + return TRUE; } /* Decode Q, opcode<2:1>, S, size and Rt fields of Vt in AdvSIMD load/store single element instructions. */ -int +bfd_boolean aarch64_ext_ldst_elemlist (const aarch64_operand *self ATTRIBUTE_UNUSED, aarch64_opnd_info *info, const aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { aarch64_field field = {0, 0}; aarch64_insn QSsize; /* fields Q:S:size. */ @@ -493,7 +501,7 @@ aarch64_ext_ldst_elemlist (const aarch64_operand *self ATTRIBUTE_UNUSED, case 0x1: if (QSsize & 0x1) /* UND. */ - return 0; + return FALSE; info->qualifier = AARCH64_OPND_QLF_S_H; /* Index encoded in "Q:S:size<1>". */ info->reglist.index = QSsize >> 1; @@ -501,7 +509,7 @@ aarch64_ext_ldst_elemlist (const aarch64_operand *self ATTRIBUTE_UNUSED, case 0x2: if ((QSsize >> 1) & 0x1) /* UND. */ - return 0; + return FALSE; if ((QSsize & 0x1) == 0) { info->qualifier = AARCH64_OPND_QLF_S_S; @@ -512,14 +520,14 @@ aarch64_ext_ldst_elemlist (const aarch64_operand *self ATTRIBUTE_UNUSED, { if (extract_field (FLD_S, code, 0)) /* UND */ - return 0; + return FALSE; info->qualifier = AARCH64_OPND_QLF_S_D; /* Index encoded in "Q". */ info->reglist.index = QSsize >> 3; } break; default: - return 0; + return FALSE; } info->reglist.has_index = 1; @@ -529,17 +537,18 @@ aarch64_ext_ldst_elemlist (const aarch64_operand *self ATTRIBUTE_UNUSED, info->reglist.num_regs = get_opcode_dependent_value (inst->opcode); assert (info->reglist.num_regs >= 1 && info->reglist.num_regs <= 4); - return 1; + return TRUE; } /* Decode fields immh:immb and/or Q for e.g. SSHR <Vd>.<T>, <Vn>.<T>, #<shift> or SSHR <V><d>, <V><n>, #<shift>. */ -int +bfd_boolean aarch64_ext_advsimd_imm_shift (const aarch64_operand *self ATTRIBUTE_UNUSED, aarch64_opnd_info *info, const aarch64_insn code, - const aarch64_inst *inst) + const aarch64_inst *inst, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { int pos; aarch64_insn Q, imm, immh; @@ -547,7 +556,7 @@ aarch64_ext_advsimd_imm_shift (const aarch64_operand *self ATTRIBUTE_UNUSED, immh = extract_field (FLD_immh, code, 0); if (immh == 0) - return 0; + return FALSE; imm = extract_fields (code, 0, 2, FLD_immh, FLD_immb); pos = 4; /* Get highest set bit in immh. */ @@ -595,14 +604,15 @@ aarch64_ext_advsimd_imm_shift (const aarch64_operand *self ATTRIBUTE_UNUSED, 1xxx (UInt(immh:immb)-64) */ info->imm.value = imm - (8 << pos); - return 1; + return TRUE; } /* Decode shift immediate for e.g. sshr (imm). */ -int +bfd_boolean aarch64_ext_shll_imm (const aarch64_operand *self ATTRIBUTE_UNUSED, aarch64_opnd_info *info, const aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { int64_t imm; aarch64_insn val; @@ -612,18 +622,19 @@ aarch64_ext_shll_imm (const aarch64_operand *self ATTRIBUTE_UNUSED, case 0: imm = 8; break; case 1: imm = 16; break; case 2: imm = 32; break; - default: return 0; + default: return FALSE; } info->imm.value = imm; - return 1; + return TRUE; } /* Decode imm for e.g. BFM <Wd>, <Wn>, #<immr>, #<imms>. value in the field(s) will be extracted as unsigned immediate value. */ -int +bfd_boolean aarch64_ext_imm (const aarch64_operand *self, aarch64_opnd_info *info, const aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { int64_t imm; @@ -639,28 +650,30 @@ aarch64_ext_imm (const aarch64_operand *self, aarch64_opnd_info *info, imm <<= 12; info->imm.value = imm; - return 1; + return TRUE; } /* Decode imm and its shifter for e.g. MOVZ <Wd>, #<imm16>{, LSL #<shift>}. */ -int +bfd_boolean aarch64_ext_imm_half (const aarch64_operand *self, aarch64_opnd_info *info, const aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors) { - aarch64_ext_imm (self, info, code, inst); + aarch64_ext_imm (self, info, code, inst, errors); info->shifter.kind = AARCH64_MOD_LSL; info->shifter.amount = extract_field (FLD_hw, code, 0) << 4; - return 1; + return TRUE; } /* Decode cmode and "a:b:c:d:e:f:g:h" for e.g. MOVI <Vd>.<T>, #<imm8> {, LSL #<amount>}. */ -int +bfd_boolean aarch64_ext_advsimd_imm_modified (const aarch64_operand *self ATTRIBUTE_UNUSED, aarch64_opnd_info *info, const aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { uint64_t imm; enum aarch64_opnd_qualifier opnd0_qualifier = inst->operands[0].qualifier; @@ -704,7 +717,7 @@ aarch64_ext_advsimd_imm_modified (const aarch64_operand *self ATTRIBUTE_UNUSED, case 4: gen_sub_field (FLD_cmode, 1, 2, &field); break; /* per word */ case 2: gen_sub_field (FLD_cmode, 1, 1, &field); break; /* per half */ case 1: gen_sub_field (FLD_cmode, 1, 0, &field); break; /* per byte */ - default: assert (0); return 0; + default: assert (0); return FALSE; } /* 00: 0; 01: 8; 10:16; 11:24. */ info->shifter.amount = extract_field_2 (&field, code, 0) << 3; @@ -717,63 +730,68 @@ aarch64_ext_advsimd_imm_modified (const aarch64_operand *self ATTRIBUTE_UNUSED, break; default: assert (0); - return 0; + return FALSE; } - return 1; + return TRUE; } /* Decode an 8-bit floating-point immediate. */ -int +bfd_boolean aarch64_ext_fpimm (const aarch64_operand *self, aarch64_opnd_info *info, const aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { info->imm.value = extract_all_fields (self, code); info->imm.is_fp = 1; - return 1; + return TRUE; } /* Decode a 1-bit rotate immediate (#90 or #270). */ -int +bfd_boolean aarch64_ext_imm_rotate1 (const aarch64_operand *self, aarch64_opnd_info *info, const aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { uint64_t rot = extract_field (self->fields[0], code, 0); assert (rot < 2U); info->imm.value = rot * 180 + 90; - return 1; + return TRUE; } /* Decode a 2-bit rotate immediate (#0, #90, #180 or #270). */ -int +bfd_boolean aarch64_ext_imm_rotate2 (const aarch64_operand *self, aarch64_opnd_info *info, const aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { uint64_t rot = extract_field (self->fields[0], code, 0); assert (rot < 4U); info->imm.value = rot * 90; - return 1; + return TRUE; } /* Decode scale for e.g. SCVTF <Dd>, <Wn>, #<fbits>. */ -int +bfd_boolean aarch64_ext_fbits (const aarch64_operand *self ATTRIBUTE_UNUSED, aarch64_opnd_info *info, const aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { info->imm.value = 64- extract_field (FLD_scale, code, 0); - return 1; + return TRUE; } /* Decode arithmetic immediate for e.g. SUBS <Wd>, <Wn|WSP>, #<imm> {, <shift>}. */ -int +bfd_boolean aarch64_ext_aimm (const aarch64_operand *self ATTRIBUTE_UNUSED, aarch64_opnd_info *info, const aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { aarch64_insn value; @@ -781,18 +799,18 @@ aarch64_ext_aimm (const aarch64_operand *self ATTRIBUTE_UNUSED, /* shift */ value = extract_field (FLD_shift, code, 0); if (value >= 2) - return 0; + return FALSE; info->shifter.amount = value ? 12 : 0; /* imm12 (unsigned) */ info->imm.value = extract_field (FLD_imm12, code, 0); - return 1; + return TRUE; } /* Return true if VALUE is a valid logical immediate encoding, storing the decoded value in *RESULT if so. ESIZE is the number of bytes in the decoded immediate. */ -static int +static bfd_boolean decode_limm (uint32_t esize, aarch64_insn value, int64_t *result) { uint64_t imm, mask; @@ -820,7 +838,7 @@ decode_limm (uint32_t esize, aarch64_insn value, int64_t *result) case 0x30 ... 0x37: /* 110xxx */ simd_size = 8; S &= 0x7; break; case 0x38 ... 0x3b: /* 1110xx */ simd_size = 4; S &= 0x3; break; case 0x3c ... 0x3d: /* 11110x */ simd_size = 2; S &= 0x1; break; - default: return 0; + default: return FALSE; } mask = (1ull << simd_size) - 1; /* Top bits are IGNORED. */ @@ -828,11 +846,11 @@ decode_limm (uint32_t esize, aarch64_insn value, int64_t *result) } if (simd_size > esize * 8) - return 0; + return FALSE; /* NOTE: if S = simd_size - 1 we get 0xf..f which is rejected. */ if (S == simd_size - 1) - return 0; + return FALSE; /* S+1 consecutive bits to 1. */ /* NOTE: S can't be 63 due to detection above. */ imm = (1ull << (S + 1)) - 1; @@ -858,14 +876,15 @@ decode_limm (uint32_t esize, aarch64_insn value, int64_t *result) *result = imm & ~((uint64_t) -1 << (esize * 4) << (esize * 4)); - return 1; + return TRUE; } /* Decode a logical immediate for e.g. ORR <Wd|WSP>, <Wn>, #<imm>. */ -int +bfd_boolean aarch64_ext_limm (const aarch64_operand *self, aarch64_opnd_info *info, const aarch64_insn code, - const aarch64_inst *inst) + const aarch64_inst *inst, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { uint32_t esize; aarch64_insn value; @@ -877,23 +896,25 @@ aarch64_ext_limm (const aarch64_operand *self, } /* Decode a logical immediate for the BIC alias of AND (etc.). */ -int +bfd_boolean aarch64_ext_inv_limm (const aarch64_operand *self, aarch64_opnd_info *info, const aarch64_insn code, - const aarch64_inst *inst) + const aarch64_inst *inst, + aarch64_operand_error *errors) { - if (!aarch64_ext_limm (self, info, code, inst)) - return 0; + if (!aarch64_ext_limm (self, info, code, inst, errors)) + return FALSE; info->imm.value = ~info->imm.value; - return 1; + return TRUE; } /* Decode Ft for e.g. STR <Qt>, [<Xn|SP>, <R><m>{, <extend> {<amount>}}] or LDP <Qt1>, <Qt2>, [<Xn|SP>], #<imm>. */ -int +bfd_boolean aarch64_ext_ft (const aarch64_operand *self ATTRIBUTE_UNUSED, aarch64_opnd_info *info, - const aarch64_insn code, const aarch64_inst *inst) + const aarch64_insn code, const aarch64_inst *inst, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { aarch64_insn value; @@ -913,7 +934,7 @@ aarch64_ext_ft (const aarch64_operand *self ATTRIBUTE_UNUSED, case 0: qualifier = AARCH64_OPND_QLF_S_S; break; case 1: qualifier = AARCH64_OPND_QLF_S_D; break; case 2: qualifier = AARCH64_OPND_QLF_S_Q; break; - default: return 0; + default: return FALSE; } info->qualifier = qualifier; } @@ -922,31 +943,33 @@ aarch64_ext_ft (const aarch64_operand *self ATTRIBUTE_UNUSED, /* opc1:size */ value = extract_fields (code, 0, 2, FLD_opc1, FLD_ldst_size); if (value > 0x4) - return 0; + return FALSE; info->qualifier = get_sreg_qualifier_from_value (value); } - return 1; + return TRUE; } /* Decode the address operand for e.g. STXRB <Ws>, <Wt>, [<Xn|SP>{,#0}]. */ -int +bfd_boolean aarch64_ext_addr_simple (const aarch64_operand *self ATTRIBUTE_UNUSED, aarch64_opnd_info *info, aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { /* Rn */ info->addr.base_regno = extract_field (FLD_Rn, code, 0); - return 1; + return TRUE; } /* Decode the address operand for e.g. stlur <Xt>, [<Xn|SP>{, <amount>}]. */ -int +bfd_boolean aarch64_ext_addr_offset (const aarch64_operand *self ATTRIBUTE_UNUSED, aarch64_opnd_info *info, - aarch64_insn code, const aarch64_inst *inst) + aarch64_insn code, const aarch64_inst *inst, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { info->qualifier = get_expected_qualifier (inst, info->idx); @@ -960,15 +983,16 @@ aarch64_ext_addr_offset (const aarch64_operand *self ATTRIBUTE_UNUSED, info->addr.writeback = 1; info->addr.preind = 1; } - return 1; + return TRUE; } /* Decode the address operand for e.g. STR <Qt>, [<Xn|SP>, <R><m>{, <extend> {<amount>}}]. */ -int +bfd_boolean aarch64_ext_addr_regoff (const aarch64_operand *self ATTRIBUTE_UNUSED, aarch64_opnd_info *info, - aarch64_insn code, const aarch64_inst *inst) + aarch64_insn code, const aarch64_inst *inst, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { aarch64_insn S, value; @@ -1004,13 +1028,14 @@ aarch64_ext_addr_regoff (const aarch64_operand *self ATTRIBUTE_UNUSED, info->shifter.amount_present = 1; } - return 1; + return TRUE; } /* Decode the address operand for e.g. LDRSW <Xt>, [<Xn|SP>], #<simm>. */ -int +bfd_boolean aarch64_ext_addr_simm (const aarch64_operand *self, aarch64_opnd_info *info, - aarch64_insn code, const aarch64_inst *inst) + aarch64_insn code, const aarch64_inst *inst, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { aarch64_insn imm; info->qualifier = get_expected_qualifier (inst, info->idx); @@ -1039,14 +1064,15 @@ aarch64_ext_addr_simm (const aarch64_operand *self, aarch64_opnd_info *info, info->addr.postind = 1; } - return 1; + return TRUE; } /* Decode the address operand for e.g. LDRSW <Xt>, [<Xn|SP>{, #<simm>}]. */ -int +bfd_boolean aarch64_ext_addr_uimm12 (const aarch64_operand *self, aarch64_opnd_info *info, aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { int shift; info->qualifier = get_expected_qualifier (inst, info->idx); @@ -1055,14 +1081,15 @@ aarch64_ext_addr_uimm12 (const aarch64_operand *self, aarch64_opnd_info *info, info->addr.base_regno = extract_field (self->fields[0], code, 0); /* uimm12 */ info->addr.offset.imm = extract_field (self->fields[1], code, 0) << shift; - return 1; + return TRUE; } /* Decode the address operand for e.g. LDRAA <Xt>, [<Xn|SP>{, #<simm>}]. */ -int +bfd_boolean aarch64_ext_addr_simm10 (const aarch64_operand *self, aarch64_opnd_info *info, aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { aarch64_insn imm; @@ -1076,15 +1103,16 @@ aarch64_ext_addr_simm10 (const aarch64_operand *self, aarch64_opnd_info *info, info->addr.writeback = 1; info->addr.preind = 1; } - return 1; + return TRUE; } /* Decode the address operand for e.g. LD1 {<Vt>.<T>, <Vt2>.<T>, <Vt3>.<T>}, [<Xn|SP>], <Xm|#<amount>>. */ -int +bfd_boolean aarch64_ext_simd_addr_post (const aarch64_operand *self ATTRIBUTE_UNUSED, aarch64_opnd_info *info, - aarch64_insn code, const aarch64_inst *inst) + aarch64_insn code, const aarch64_inst *inst, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { /* The opcode dependent area stores the number of elements in each structure to be loaded/stored. */ @@ -1110,57 +1138,61 @@ aarch64_ext_simd_addr_post (const aarch64_operand *self ATTRIBUTE_UNUSED, info->addr.offset.is_reg = 1; info->addr.writeback = 1; - return 1; + return TRUE; } /* Decode the condition operand for e.g. CSEL <Xd>, <Xn>, <Xm>, <cond>. */ -int +bfd_boolean aarch64_ext_cond (const aarch64_operand *self ATTRIBUTE_UNUSED, aarch64_opnd_info *info, - aarch64_insn code, const aarch64_inst *inst ATTRIBUTE_UNUSED) + aarch64_insn code, const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { aarch64_insn value; /* cond */ value = extract_field (FLD_cond, code, 0); info->cond = get_cond_from_value (value); - return 1; + return TRUE; } /* Decode the system register operand for e.g. MRS <Xt>, <systemreg>. */ -int +bfd_boolean aarch64_ext_sysreg (const aarch64_operand *self ATTRIBUTE_UNUSED, aarch64_opnd_info *info, aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { /* op0:op1:CRn:CRm:op2 */ - info->sysreg = extract_fields (code, 0, 5, FLD_op0, FLD_op1, FLD_CRn, - FLD_CRm, FLD_op2); + info->sysreg.value = extract_fields (code, 0, 5, FLD_op0, FLD_op1, FLD_CRn, + FLD_CRm, FLD_op2); return 1; } /* Decode the PSTATE field operand for e.g. MSR <pstatefield>, #<imm>. */ -int +bfd_boolean aarch64_ext_pstatefield (const aarch64_operand *self ATTRIBUTE_UNUSED, aarch64_opnd_info *info, aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { int i; /* op1:op2 */ info->pstatefield = extract_fields (code, 0, 2, FLD_op1, FLD_op2); for (i = 0; aarch64_pstatefields[i].name != NULL; ++i) if (aarch64_pstatefields[i].value == (aarch64_insn)info->pstatefield) - return 1; + return TRUE; /* Reserved value in <pstatefield>. */ - return 0; + return FALSE; } /* Decode the system instruction op operand for e.g. AT <at_op>, <Xt>. */ -int +bfd_boolean aarch64_ext_sysins_op (const aarch64_operand *self ATTRIBUTE_UNUSED, aarch64_opnd_info *info, aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { int i; aarch64_insn value; @@ -1176,7 +1208,7 @@ aarch64_ext_sysins_op (const aarch64_operand *self ATTRIBUTE_UNUSED, case AARCH64_OPND_SYSREG_DC: sysins_ops = aarch64_sys_regs_dc; break; case AARCH64_OPND_SYSREG_IC: sysins_ops = aarch64_sys_regs_ic; break; case AARCH64_OPND_SYSREG_TLBI: sysins_ops = aarch64_sys_regs_tlbi; break; - default: assert (0); return 0; + default: assert (0); return FALSE; } for (i = 0; sysins_ops[i].name != NULL; ++i) @@ -1187,46 +1219,49 @@ aarch64_ext_sysins_op (const aarch64_operand *self ATTRIBUTE_UNUSED, info->sysins_op->name, (unsigned)info->sysins_op->value, aarch64_sys_ins_reg_has_xt (info->sysins_op), i); - return 1; + return TRUE; } - return 0; + return FALSE; } /* Decode the memory barrier option operand for e.g. DMB <option>|#<imm>. */ -int +bfd_boolean aarch64_ext_barrier (const aarch64_operand *self ATTRIBUTE_UNUSED, aarch64_opnd_info *info, aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { /* CRm */ info->barrier = aarch64_barrier_options + extract_field (FLD_CRm, code, 0); - return 1; + return TRUE; } /* Decode the prefetch operation option operand for e.g. PRFM <prfop>, [<Xn|SP>{, #<pimm>}]. */ -int +bfd_boolean aarch64_ext_prfop (const aarch64_operand *self ATTRIBUTE_UNUSED, aarch64_opnd_info *info, - aarch64_insn code, const aarch64_inst *inst ATTRIBUTE_UNUSED) + aarch64_insn code, const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { /* prfop in Rt */ info->prfop = aarch64_prfops + extract_field (FLD_Rt, code, 0); - return 1; + return TRUE; } /* Decode the hint number for an alias taking an operand. Set info->hint_option to the matching name/value pair in aarch64_hint_options. */ -int +bfd_boolean aarch64_ext_hint (const aarch64_operand *self ATTRIBUTE_UNUSED, aarch64_opnd_info *info, aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { /* CRm:op2. */ unsigned hint_number; @@ -1239,20 +1274,21 @@ aarch64_ext_hint (const aarch64_operand *self ATTRIBUTE_UNUSED, if (hint_number == aarch64_hint_options[i].value) { info->hint_option = &(aarch64_hint_options[i]); - return 1; + return TRUE; } } - return 0; + return FALSE; } /* Decode the extended register operand for e.g. STR <Qt>, [<Xn|SP>, <R><m>{, <extend> {<amount>}}]. */ -int +bfd_boolean aarch64_ext_reg_extended (const aarch64_operand *self ATTRIBUTE_UNUSED, aarch64_opnd_info *info, aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { aarch64_insn value; @@ -1276,16 +1312,17 @@ aarch64_ext_reg_extended (const aarch64_operand *self ATTRIBUTE_UNUSED, || info->shifter.kind == AARCH64_MOD_SXTX)) info->qualifier = AARCH64_OPND_QLF_X; - return 1; + return TRUE; } /* Decode the shifted register operand for e.g. SUBS <Xd>, <Xn>, <Xm> {, <shift> #<amount>}. */ -int +bfd_boolean aarch64_ext_reg_shifted (const aarch64_operand *self ATTRIBUTE_UNUSED, aarch64_opnd_info *info, aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { aarch64_insn value; @@ -1299,21 +1336,21 @@ aarch64_ext_reg_shifted (const aarch64_operand *self ATTRIBUTE_UNUSED, && inst->opcode->iclass != log_shift) /* ROR is not available for the shifted register operand in arithmetic instructions. */ - return 0; + return FALSE; /* imm6 */ info->shifter.amount = extract_field (FLD_imm6, code, 0); /* This makes the constraint checking happy. */ info->shifter.operator_present = 1; - return 1; + return TRUE; } /* Decode an SVE address [<base>, #<offset>*<factor>, MUL VL], where <offset> is given by the OFFSET parameter and where <factor> is 1 plus SELF's operand-dependent value. fields[0] specifies the field that holds <base>. */ -static int +static bfd_boolean aarch64_ext_sve_addr_reg_mul_vl (const aarch64_operand *self, aarch64_opnd_info *info, aarch64_insn code, int64_t offset) @@ -1328,17 +1365,18 @@ aarch64_ext_sve_addr_reg_mul_vl (const aarch64_operand *self, info->shifter.amount = 1; info->shifter.operator_present = (info->addr.offset.imm != 0); info->shifter.amount_present = FALSE; - return 1; + return TRUE; } /* Decode an SVE address [<base>, #<simm4>*<factor>, MUL VL], where <simm4> is a 4-bit signed value and where <factor> is 1 plus SELF's operand-dependent value. fields[0] specifies the field that holds <base>. <simm4> is encoded in the SVE_imm4 field. */ -int +bfd_boolean aarch64_ext_sve_addr_ri_s4xvl (const aarch64_operand *self, aarch64_opnd_info *info, aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { int offset; @@ -1351,10 +1389,11 @@ aarch64_ext_sve_addr_ri_s4xvl (const aarch64_operand *self, where <simm6> is a 6-bit signed value and where <factor> is 1 plus SELF's operand-dependent value. fields[0] specifies the field that holds <base>. <simm6> is encoded in the SVE_imm6 field. */ -int +bfd_boolean aarch64_ext_sve_addr_ri_s6xvl (const aarch64_operand *self, aarch64_opnd_info *info, aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { int offset; @@ -1368,11 +1407,12 @@ aarch64_ext_sve_addr_ri_s6xvl (const aarch64_operand *self, SELF's operand-dependent value. fields[0] specifies the field that holds <base>. <simm9> is encoded in the concatenation of the SVE_imm6 and imm3 fields, with imm3 being the less-significant part. */ -int +bfd_boolean aarch64_ext_sve_addr_ri_s9xvl (const aarch64_operand *self, aarch64_opnd_info *info, aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { int offset; @@ -1384,7 +1424,7 @@ aarch64_ext_sve_addr_ri_s9xvl (const aarch64_operand *self, /* Decode an SVE address [<base>, #<offset> << <shift>], where <offset> is given by the OFFSET parameter and where <shift> is SELF's operand- dependent value. fields[0] specifies the base register field <base>. */ -static int +static bfd_boolean aarch64_ext_sve_addr_reg_imm (const aarch64_operand *self, aarch64_opnd_info *info, aarch64_insn code, int64_t offset) @@ -1396,16 +1436,17 @@ aarch64_ext_sve_addr_reg_imm (const aarch64_operand *self, info->addr.preind = TRUE; info->shifter.operator_present = FALSE; info->shifter.amount_present = FALSE; - return 1; + return TRUE; } /* Decode an SVE address [X<n>, #<SVE_imm4> << <shift>], where <SVE_imm4> is a 4-bit signed number and where <shift> is SELF's operand-dependent value. fields[0] specifies the base register field. */ -int +bfd_boolean aarch64_ext_sve_addr_ri_s4 (const aarch64_operand *self, aarch64_opnd_info *info, aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { int offset = sign_extend (extract_field (FLD_SVE_imm4, code, 0), 3); return aarch64_ext_sve_addr_reg_imm (self, info, code, offset); @@ -1414,10 +1455,11 @@ aarch64_ext_sve_addr_ri_s4 (const aarch64_operand *self, /* Decode an SVE address [X<n>, #<SVE_imm6> << <shift>], where <SVE_imm6> is a 6-bit unsigned number and where <shift> is SELF's operand-dependent value. fields[0] specifies the base register field. */ -int +bfd_boolean aarch64_ext_sve_addr_ri_u6 (const aarch64_operand *self, aarch64_opnd_info *info, aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { int offset = extract_field (FLD_SVE_imm6, code, 0); return aarch64_ext_sve_addr_reg_imm (self, info, code, offset); @@ -1426,16 +1468,17 @@ aarch64_ext_sve_addr_ri_u6 (const aarch64_operand *self, /* Decode an SVE address [X<n>, X<m>{, LSL #<shift>}], where <shift> is SELF's operand-dependent value. fields[0] specifies the base register field and fields[1] specifies the offset register field. */ -int +bfd_boolean aarch64_ext_sve_addr_rr_lsl (const aarch64_operand *self, aarch64_opnd_info *info, aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { int index_regno; index_regno = extract_field (self->fields[1], code, 0); if (index_regno == 31 && (self->flags & OPD_F_NO_ZR) != 0) - return 0; + return FALSE; info->addr.base_regno = extract_field (self->fields[0], code, 0); info->addr.offset.regno = index_regno; @@ -1446,17 +1489,18 @@ aarch64_ext_sve_addr_rr_lsl (const aarch64_operand *self, info->shifter.amount = get_operand_specific_data (self); info->shifter.operator_present = (info->shifter.amount != 0); info->shifter.amount_present = (info->shifter.amount != 0); - return 1; + return TRUE; } /* Decode an SVE address [X<n>, Z<m>.<T>, (S|U)XTW {#<shift>}], where <shift> is SELF's operand-dependent value. fields[0] specifies the base register field, fields[1] specifies the offset register field and fields[2] is a single-bit field that selects SXTW over UXTW. */ -int +bfd_boolean aarch64_ext_sve_addr_rz_xtw (const aarch64_operand *self, aarch64_opnd_info *info, aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { info->addr.base_regno = extract_field (self->fields[0], code, 0); info->addr.offset.regno = extract_field (self->fields[1], code, 0); @@ -1470,16 +1514,17 @@ aarch64_ext_sve_addr_rz_xtw (const aarch64_operand *self, info->shifter.amount = get_operand_specific_data (self); info->shifter.operator_present = TRUE; info->shifter.amount_present = (info->shifter.amount != 0); - return 1; + return TRUE; } /* Decode an SVE address [Z<n>.<T>, #<imm5> << <shift>], where <imm5> is a 5-bit unsigned number and where <shift> is SELF's operand-dependent value. fields[0] specifies the base register field. */ -int +bfd_boolean aarch64_ext_sve_addr_zi_u5 (const aarch64_operand *self, aarch64_opnd_info *info, aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { int offset = extract_field (FLD_imm5, code, 0); return aarch64_ext_sve_addr_reg_imm (self, info, code, offset); @@ -1489,7 +1534,7 @@ aarch64_ext_sve_addr_zi_u5 (const aarch64_operand *self, where <modifier> is given by KIND and where <msz> is a 2-bit unsigned number. fields[0] specifies the base register field and fields[1] specifies the offset register field. */ -static int +static bfd_boolean aarch64_ext_sve_addr_zz (const aarch64_operand *self, aarch64_opnd_info *info, aarch64_insn code, enum aarch64_modifier_kind kind) { @@ -1503,16 +1548,17 @@ aarch64_ext_sve_addr_zz (const aarch64_operand *self, aarch64_opnd_info *info, info->shifter.operator_present = (kind != AARCH64_MOD_LSL || info->shifter.amount != 0); info->shifter.amount_present = (info->shifter.amount != 0); - return 1; + return TRUE; } /* Decode an SVE address [Z<n>.<T>, Z<m>.<T>{, LSL #<msz>}], where <msz> is a 2-bit unsigned number. fields[0] specifies the base register field and fields[1] specifies the offset register field. */ -int +bfd_boolean aarch64_ext_sve_addr_zz_lsl (const aarch64_operand *self, aarch64_opnd_info *info, aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { return aarch64_ext_sve_addr_zz (self, info, code, AARCH64_MOD_LSL); } @@ -1520,10 +1566,11 @@ aarch64_ext_sve_addr_zz_lsl (const aarch64_operand *self, /* Decode an SVE address [Z<n>.<T>, Z<m>.<T>, SXTW {#<msz>}], where <msz> is a 2-bit unsigned number. fields[0] specifies the base register field and fields[1] specifies the offset register field. */ -int +bfd_boolean aarch64_ext_sve_addr_zz_sxtw (const aarch64_operand *self, aarch64_opnd_info *info, aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { return aarch64_ext_sve_addr_zz (self, info, code, AARCH64_MOD_SXTW); } @@ -1531,17 +1578,18 @@ aarch64_ext_sve_addr_zz_sxtw (const aarch64_operand *self, /* Decode an SVE address [Z<n>.<T>, Z<m>.<T>, UXTW {#<msz>}], where <msz> is a 2-bit unsigned number. fields[0] specifies the base register field and fields[1] specifies the offset register field. */ -int +bfd_boolean aarch64_ext_sve_addr_zz_uxtw (const aarch64_operand *self, aarch64_opnd_info *info, aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { return aarch64_ext_sve_addr_zz (self, info, code, AARCH64_MOD_UXTW); } /* Finish decoding an SVE arithmetic immediate, given that INFO already has the raw field value and that the low 8 bits decode to VALUE. */ -static int +static bfd_boolean decode_sve_aimm (aarch64_opnd_info *info, int64_t value) { info->shifter.kind = AARCH64_MOD_LSL; @@ -1557,82 +1605,88 @@ decode_sve_aimm (aarch64_opnd_info *info, int64_t value) info->shifter.operator_present = (info->shifter.amount != 0); info->shifter.amount_present = (info->shifter.amount != 0); info->imm.value = value; - return 1; + return TRUE; } /* Decode an SVE ADD/SUB immediate. */ -int +bfd_boolean aarch64_ext_sve_aimm (const aarch64_operand *self, aarch64_opnd_info *info, const aarch64_insn code, - const aarch64_inst *inst) + const aarch64_inst *inst, + aarch64_operand_error *errors) { - return (aarch64_ext_imm (self, info, code, inst) + return (aarch64_ext_imm (self, info, code, inst, errors) && decode_sve_aimm (info, (uint8_t) info->imm.value)); } /* Decode an SVE CPY/DUP immediate. */ -int +bfd_boolean aarch64_ext_sve_asimm (const aarch64_operand *self, aarch64_opnd_info *info, const aarch64_insn code, - const aarch64_inst *inst) + const aarch64_inst *inst, + aarch64_operand_error *errors) { - return (aarch64_ext_imm (self, info, code, inst) + return (aarch64_ext_imm (self, info, code, inst, errors) && decode_sve_aimm (info, (int8_t) info->imm.value)); } /* Decode a single-bit immediate that selects between #0.5 and #1.0. The fields array specifies which field to use. */ -int +bfd_boolean aarch64_ext_sve_float_half_one (const aarch64_operand *self, aarch64_opnd_info *info, aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { if (extract_field (self->fields[0], code, 0)) info->imm.value = 0x3f800000; else info->imm.value = 0x3f000000; info->imm.is_fp = TRUE; - return 1; + return TRUE; } /* Decode a single-bit immediate that selects between #0.5 and #2.0. The fields array specifies which field to use. */ -int +bfd_boolean aarch64_ext_sve_float_half_two (const aarch64_operand *self, aarch64_opnd_info *info, aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { if (extract_field (self->fields[0], code, 0)) info->imm.value = 0x40000000; else info->imm.value = 0x3f000000; info->imm.is_fp = TRUE; - return 1; + return TRUE; } /* Decode a single-bit immediate that selects between #0.0 and #1.0. The fields array specifies which field to use. */ -int +bfd_boolean aarch64_ext_sve_float_zero_one (const aarch64_operand *self, aarch64_opnd_info *info, aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { if (extract_field (self->fields[0], code, 0)) info->imm.value = 0x3f800000; else info->imm.value = 0x0; info->imm.is_fp = TRUE; - return 1; + return TRUE; } /* Decode Zn[MM], where MM has a 7-bit triangular encoding. The fields array specifies which field to use for Zn. MM is encoded in the concatenation of imm5 and SVE_tszh, with imm5 being the less significant part. */ -int +bfd_boolean aarch64_ext_sve_index (const aarch64_operand *self, aarch64_opnd_info *info, aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { int val; @@ -1643,66 +1697,69 @@ aarch64_ext_sve_index (const aarch64_operand *self, while ((val & 1) == 0) val /= 2; info->reglane.index = val / 2; - return 1; + return TRUE; } /* Decode a logical immediate for the MOV alias of SVE DUPM. */ -int +bfd_boolean aarch64_ext_sve_limm_mov (const aarch64_operand *self, aarch64_opnd_info *info, const aarch64_insn code, - const aarch64_inst *inst) + const aarch64_inst *inst, + aarch64_operand_error *errors) { int esize = aarch64_get_qualifier_esize (inst->operands[0].qualifier); - return (aarch64_ext_limm (self, info, code, inst) + return (aarch64_ext_limm (self, info, code, inst, errors) && aarch64_sve_dupm_mov_immediate_p (info->imm.value, esize)); } /* Decode Zn[MM], where Zn occupies the least-significant part of the field and where MM occupies the most-significant part. The operand-dependent value specifies the number of bits in Zn. */ -int +bfd_boolean aarch64_ext_sve_quad_index (const aarch64_operand *self, aarch64_opnd_info *info, aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { unsigned int reg_bits = get_operand_specific_data (self); unsigned int val = extract_all_fields (self, code); info->reglane.regno = val & ((1 << reg_bits) - 1); info->reglane.index = val >> reg_bits; - return 1; + return TRUE; } /* Decode {Zn.<T> - Zm.<T>}. The fields array specifies which field to use for Zn. The opcode-dependent value specifies the number of registers in the list. */ -int +bfd_boolean aarch64_ext_sve_reglist (const aarch64_operand *self, aarch64_opnd_info *info, aarch64_insn code, - const aarch64_inst *inst ATTRIBUTE_UNUSED) + const aarch64_inst *inst ATTRIBUTE_UNUSED, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { info->reglist.first_regno = extract_field (self->fields[0], code, 0); info->reglist.num_regs = get_opcode_dependent_value (inst->opcode); - return 1; + return TRUE; } /* Decode <pattern>{, MUL #<amount>}. The fields array specifies which fields to use for <pattern>. <amount> - 1 is encoded in the SVE_imm4 field. */ -int +bfd_boolean aarch64_ext_sve_scale (const aarch64_operand *self, aarch64_opnd_info *info, aarch64_insn code, - const aarch64_inst *inst) + const aarch64_inst *inst, aarch64_operand_error *errors) { int val; - if (!aarch64_ext_imm (self, info, code, inst)) - return 0; + if (!aarch64_ext_imm (self, info, code, inst, errors)) + return FALSE; val = extract_field (FLD_SVE_imm4, code, 0); info->shifter.kind = AARCH64_MOD_MUL; info->shifter.amount = val + 1; info->shifter.operator_present = (val != 0); info->shifter.amount_present = (val != 0); - return 1; + return TRUE; } /* Return the top set bit in VALUE, which is expected to be relatively @@ -1716,31 +1773,31 @@ get_top_bit (uint64_t value) } /* Decode an SVE shift-left immediate. */ -int +bfd_boolean aarch64_ext_sve_shlimm (const aarch64_operand *self, aarch64_opnd_info *info, const aarch64_insn code, - const aarch64_inst *inst) + const aarch64_inst *inst, aarch64_operand_error *errors) { - if (!aarch64_ext_imm (self, info, code, inst) + if (!aarch64_ext_imm (self, info, code, inst, errors) || info->imm.value == 0) - return 0; + return FALSE; info->imm.value -= get_top_bit (info->imm.value); - return 1; + return TRUE; } /* Decode an SVE shift-right immediate. */ -int +bfd_boolean aarch64_ext_sve_shrimm (const aarch64_operand *self, aarch64_opnd_info *info, const aarch64_insn code, - const aarch64_inst *inst) + const aarch64_inst *inst, aarch64_operand_error *errors) { - if (!aarch64_ext_imm (self, info, code, inst) + if (!aarch64_ext_imm (self, info, code, inst, errors) || info->imm.value == 0) - return 0; + return FALSE; info->imm.value = get_top_bit (info->imm.value) * 2 - info->imm.value; - return 1; + return TRUE; } /* Bitfields that are commonly used to encode certain operands' information @@ -2474,8 +2531,9 @@ convert_to_alias (aarch64_inst *inst, const aarch64_opcode *alias) } } -static int aarch64_opcode_decode (const aarch64_opcode *, const aarch64_insn, - aarch64_inst *, int); +static bfd_boolean +aarch64_opcode_decode (const aarch64_opcode *, const aarch64_insn, + aarch64_inst *, int, aarch64_operand_error *errors); /* Given the instruction information in *INST, check if the instruction has any alias form that can be used to represent *INST. If the answer is yes, @@ -2531,7 +2589,8 @@ static int aarch64_opcode_decode (const aarch64_opcode *, const aarch64_insn, aarch64_find_next_alias_opcode (in opcodes/aarch64-dis-2.c) to help. */ static void -determine_disassembling_preference (struct aarch64_inst *inst) +determine_disassembling_preference (struct aarch64_inst *inst, + aarch64_operand_error *errors) { const aarch64_opcode *opcode; const aarch64_opcode *alias; @@ -2606,7 +2665,7 @@ determine_disassembling_preference (struct aarch64_inst *inst) /* Directly decode the alias opcode. */ aarch64_inst temp; memset (&temp, '\0', sizeof (aarch64_inst)); - if (aarch64_opcode_decode (alias, inst->value, &temp, 1) == 1) + if (aarch64_opcode_decode (alias, inst->value, &temp, 1, errors) == 1) { DEBUG_TRACE ("succeed with %s via direct decoding", alias->name); memcpy (inst, &temp, sizeof (aarch64_inst)); @@ -2723,9 +2782,10 @@ aarch64_decode_variant_using_iclass (aarch64_inst *inst) determined and used to disassemble CODE; this is done just before the return. */ -static int +static bfd_boolean aarch64_opcode_decode (const aarch64_opcode *opcode, const aarch64_insn code, - aarch64_inst *inst, int noaliases_p) + aarch64_inst *inst, int noaliases_p, + aarch64_operand_error *errors) { int i; @@ -2781,7 +2841,8 @@ aarch64_opcode_decode (const aarch64_opcode *opcode, const aarch64_insn code, break; opnd = &aarch64_operands[type]; if (operand_has_extractor (opnd) - && (! aarch64_extract_operand (opnd, &inst->operands[i], code, inst))) + && (! aarch64_extract_operand (opnd, &inst->operands[i], code, inst, + errors))) { DEBUG_TRACE ("operand decoder FAIL at operand %d", i); goto decode_fail; @@ -2804,9 +2865,9 @@ aarch64_opcode_decode (const aarch64_opcode *opcode, const aarch64_insn code, alias and should be disassembled in the form of its alias instead. If the answer is yes, *INST will be updated. */ if (!noaliases_p) - determine_disassembling_preference (inst); + determine_disassembling_preference (inst, errors); DEBUG_TRACE ("SUCCESS"); - return 1; + return TRUE; } else { @@ -2814,7 +2875,7 @@ aarch64_opcode_decode (const aarch64_opcode *opcode, const aarch64_insn code, } decode_fail: - return 0; + return FALSE; } /* This does some user-friendly fix-up to *INST. It is currently focus on @@ -2846,7 +2907,8 @@ user_friendly_fixup (aarch64_inst *inst) int aarch64_decode_insn (aarch64_insn insn, aarch64_inst *inst, - bfd_boolean noaliases_p) + bfd_boolean noaliases_p, + aarch64_operand_error *errors) { const aarch64_opcode *opcode = aarch64_opcode_lookup (insn); @@ -2873,7 +2935,7 @@ aarch64_decode_insn (aarch64_insn insn, aarch64_inst *inst, { /* But only one opcode can be decoded successfully for, as the decoding routine will check the constraint carefully. */ - if (aarch64_opcode_decode (opcode, insn, inst, noaliases_p) == 1) + if (aarch64_opcode_decode (opcode, insn, inst, noaliases_p, errors) == 1) return ERR_OK; opcode = aarch64_find_next_opcode (opcode); } @@ -2988,7 +3050,8 @@ print_aarch64_insn (bfd_vma pc, const aarch64_inst *inst, static void print_insn_aarch64_word (bfd_vma pc, uint32_t word, - struct disassemble_info *info) + struct disassemble_info *info, + aarch64_operand_error *errors) { static const char *err_msg[6] = { @@ -3015,7 +3078,7 @@ print_insn_aarch64_word (bfd_vma pc, addresses, since the addend is not currently pc-relative. */ pc = 0; - ret = aarch64_decode_insn (word, &inst, no_aliases); + ret = aarch64_decode_insn (word, &inst, no_aliases, errors); if (((word >> 21) & 0x3ff) == 1) { @@ -3068,7 +3131,8 @@ aarch64_symbol_is_valid (asymbol * sym, static void print_insn_data (bfd_vma pc ATTRIBUTE_UNUSED, uint32_t word, - struct disassemble_info *info) + struct disassemble_info *info, + aarch64_operand_error *errors ATTRIBUTE_UNUSED) { switch (info->bytes_per_chunk) { @@ -3132,10 +3196,12 @@ print_insn_aarch64 (bfd_vma pc, { bfd_byte buffer[INSNLEN]; int status; - void (*printer) (bfd_vma, uint32_t, struct disassemble_info *); + void (*printer) (bfd_vma, uint32_t, struct disassemble_info *, + aarch64_operand_error *); bfd_boolean found = FALSE; unsigned int size = 4; unsigned long data; + aarch64_operand_error errors; if (info->disassembler_options) { @@ -3253,7 +3319,7 @@ print_insn_aarch64 (bfd_vma pc, data = bfd_get_bits (buffer, size * 8, info->display_endian == BFD_ENDIAN_BIG); - (*printer) (pc, data, info); + (*printer) (pc, data, info, &errors); return size; } |