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2016-09-21[AArch64][SVE 30/32] Add SVE instruction classesRichard Sandiford7-0/+236
The main purpose of the SVE aarch64_insn_classes is to describe how an index into an aarch64_opnd_qualifier_seq_t is represented in the instruction encoding. Other instructions usually use flags for this information, but (a) we're running out of those and (b) the iclass would otherwise be unused for SVE. include/ * opcode/aarch64.h (sve_cpy, sve_index, sve_limm, sve_misc) (sve_movprfx, sve_pred_zm, sve_shift_pred, sve_shift_unpred) (sve_size_bhs, sve_size_bhsd, sve_size_hsd, sve_size_sd): New aarch64_insn_classes. opcodes/ * aarch64-opc.h (FLD_SVE_M_4, FLD_SVE_M_14, FLD_SVE_M_16) (FLD_SVE_sz, FLD_SVE_tsz, FLD_SVE_tszl_8, FLD_SVE_tszl_19): New aarch64_field_kinds. * aarch64-opc.c (fields): Add corresponding entries. * aarch64-asm.c (aarch64_get_variant): New function. (aarch64_encode_variant_using_iclass): Likewise. (aarch64_opcode_encode): Call it. * aarch64-dis.c (aarch64_decode_variant_using_iclass): New function. (aarch64_opcode_decode): Call it.
2016-09-21[AArch64][SVE 29/32] Add new SVE core & FP register operandsRichard Sandiford11-20/+98
SVE uses some new fields to store W, X and scalar FP registers. This patch adds corresponding operands. include/ * opcode/aarch64.h (AARCH64_OPND_SVE_Rm): New aarch64_opnd. (AARCH64_OPND_SVE_Rn_SP, AARCH64_OPND_SVE_VZn, AARCH64_OPND_SVE_Vd) (AARCH64_OPND_SVE_Vm, AARCH64_OPND_SVE_Vn): Likewise. opcodes/ * aarch64-tbl.h (AARCH64_OPERANDS): Add entries for the new SVE core and FP register operands. * aarch64-opc.h (FLD_SVE_Rm, FLD_SVE_Rn, FLD_SVE_Vd, FLD_SVE_Vm) (FLD_SVE_Vn): New aarch64_field_kinds. * aarch64-opc.c (fields): Add corresponding entries. (aarch64_print_operand): Handle the new SVE core and FP register operands. * aarch64-opc-2.c: Regenerate. * aarch64-asm-2.c: Likewise. * aarch64-dis-2.c: Likewise. gas/ * config/tc-aarch64.c (parse_operands): Handle the new SVE core and FP register operands.
2016-09-21[AArch64][SVE 28/32] Add SVE FP immediate operandsRichard Sandiford15-53/+293
This patch adds support for the new SVE floating-point immediate operands. One operand uses the same 8-bit encoding as base AArch64, but in a different position. The others use a single bit to select between two values. One of the single-bit operands is a choice between 0 and 1, where 0 is not a valid 8-bit encoding. I think the cleanest way of handling these single-bit immediates is therefore to use the IEEE float encoding itself as the immediate value and select between the two possible values when encoding and decoding. As described in the covering note for the patch that added F_STRICT, we get better error messages by accepting unsuffixed vector registers and leaving the qualifier matching code to report an error. This means that we carry on parsing the other operands, and so can try to parse FP immediates for invalid instructions like: fcpy z0, #2.5 In this case there is no suffix to tell us whether the immediate should be treated as single or double precision. Again, we get better error messages by picking one (arbitrary) immediate size and reporting an error for the missing suffix later. include/ * opcode/aarch64.h (AARCH64_OPND_SVE_FPIMM8): New aarch64_opnd. (AARCH64_OPND_SVE_I1_HALF_ONE, AARCH64_OPND_SVE_I1_HALF_TWO) (AARCH64_OPND_SVE_I1_ZERO_ONE): Likewise. opcodes/ * aarch64-tbl.h (AARCH64_OPERANDS): Add entries for the new SVE FP immediate operands. * aarch64-opc.h (FLD_SVE_i1): New aarch64_field_kind. * aarch64-opc.c (fields): Add corresponding entry. (operand_general_constraint_met_p): Handle the new SVE FP immediate operands. (aarch64_print_operand): Likewise. * aarch64-opc-2.c: Regenerate. * aarch64-asm.h (ins_sve_float_half_one, ins_sve_float_half_two) (ins_sve_float_zero_one): New inserters. * aarch64-asm.c (aarch64_ins_sve_float_half_one): New function. (aarch64_ins_sve_float_half_two): Likewise. (aarch64_ins_sve_float_zero_one): Likewise. * aarch64-asm-2.c: Regenerate. * aarch64-dis.h (ext_sve_float_half_one, ext_sve_float_half_two) (ext_sve_float_zero_one): New extractors. * aarch64-dis.c (aarch64_ext_sve_float_half_one): New function. (aarch64_ext_sve_float_half_two): Likewise. (aarch64_ext_sve_float_zero_one): Likewise. * aarch64-dis-2.c: Regenerate. gas/ * config/tc-aarch64.c (double_precision_operand_p): New function. (parse_operands): Use it to calculate the dp_p input to parse_aarch64_imm_float. Handle the new SVE FP immediate operands.
2016-09-21[AArch64][SVE 27/32] Add SVE integer immediate operandsRichard Sandiford15-100/+714
This patch adds the new SVE integer immediate operands. There are three kinds: - simple signed and unsigned ranges, but with new widths and positions. - 13-bit logical immediates. These have the same form as in base AArch64, but at a different bit position. In the case of the "MOV Zn.<T>, #<limm>" alias of DUPM, the logical immediate <limm> is not allowed to be a valid DUP immediate, since DUP is preferred over DUPM for constants that both instructions can handle. - a new 9-bit arithmetic immediate, of the form "<imm8>{, LSL #8}". In some contexts the operand is signed and in others it's unsigned. As an extension, we allow shifted immediates to be written as a single integer, e.g. "#256" is equivalent to "#1, LSL #8". We also use the shiftless form as the preferred disassembly, except for the special case of "#0, LSL #8" (a redundant encoding of 0). include/ * opcode/aarch64.h (AARCH64_OPND_SIMM5): New aarch64_opnd. (AARCH64_OPND_SVE_AIMM, AARCH64_OPND_SVE_ASIMM) (AARCH64_OPND_SVE_INV_LIMM, AARCH64_OPND_SVE_LIMM) (AARCH64_OPND_SVE_LIMM_MOV, AARCH64_OPND_SVE_SHLIMM_PRED) (AARCH64_OPND_SVE_SHLIMM_UNPRED, AARCH64_OPND_SVE_SHRIMM_PRED) (AARCH64_OPND_SVE_SHRIMM_UNPRED, AARCH64_OPND_SVE_SIMM5) (AARCH64_OPND_SVE_SIMM5B, AARCH64_OPND_SVE_SIMM6) (AARCH64_OPND_SVE_SIMM8, AARCH64_OPND_SVE_UIMM3) (AARCH64_OPND_SVE_UIMM7, AARCH64_OPND_SVE_UIMM8) (AARCH64_OPND_SVE_UIMM8_53): Likewise. (aarch64_sve_dupm_mov_immediate_p): Declare. opcodes/ * aarch64-tbl.h (AARCH64_OPERANDS): Add entries for the new SVE integer immediate operands. * aarch64-opc.h (FLD_SVE_immN, FLD_SVE_imm3, FLD_SVE_imm5) (FLD_SVE_imm5b, FLD_SVE_imm7, FLD_SVE_imm8, FLD_SVE_imm9) (FLD_SVE_immr, FLD_SVE_imms, FLD_SVE_tszh): New aarch64_field_kinds. * aarch64-opc.c (fields): Add corresponding entries. (operand_general_constraint_met_p): Handle the new SVE integer immediate operands. (aarch64_print_operand): Likewise. (aarch64_sve_dupm_mov_immediate_p): New function. * aarch64-opc-2.c: Regenerate. * aarch64-asm.h (ins_inv_limm, ins_sve_aimm, ins_sve_asimm) (ins_sve_limm_mov, ins_sve_shlimm, ins_sve_shrimm): New inserters. * aarch64-asm.c (aarch64_ins_limm_1): New function, split out from... (aarch64_ins_limm): ...here. (aarch64_ins_inv_limm): New function. (aarch64_ins_sve_aimm): Likewise. (aarch64_ins_sve_asimm): Likewise. (aarch64_ins_sve_limm_mov): Likewise. (aarch64_ins_sve_shlimm): Likewise. (aarch64_ins_sve_shrimm): Likewise. * aarch64-asm-2.c: Regenerate. * aarch64-dis.h (ext_inv_limm, ext_sve_aimm, ext_sve_asimm) (ext_sve_limm_mov, ext_sve_shlimm, ext_sve_shrimm): New extractors. * aarch64-dis.c (decode_limm): New function, split out from... (aarch64_ext_limm): ...here. (aarch64_ext_inv_limm): New function. (decode_sve_aimm): Likewise. (aarch64_ext_sve_aimm): Likewise. (aarch64_ext_sve_asimm): Likewise. (aarch64_ext_sve_limm_mov): Likewise. (aarch64_top_bit): Likewise. (aarch64_ext_sve_shlimm): Likewise. (aarch64_ext_sve_shrimm): Likewise. * aarch64-dis-2.c: Regenerate. gas/ * config/tc-aarch64.c (parse_operands): Handle the new SVE integer immediate operands.
2016-09-21[AArch64][SVE 26/32] Add SVE MUL VL addressing modesRichard Sandiford14-53/+373
This patch adds support for addresses of the form: [<base>, #<offset>, MUL VL] This involves adding a new AARCH64_MOD_MUL_VL modifier, which is why I split it out from the other addressing modes. For LD2, LD3 and LD4, the offset must be a multiple of the structure size, so for LD3 the possible values are 0, 3, 6, .... The patch therefore extends value_aligned_p to handle non-power-of-2 alignments. include/ * opcode/aarch64.h (AARCH64_OPND_SVE_ADDR_RI_S4xVL): New aarch64_opnd. (AARCH64_OPND_SVE_ADDR_RI_S4x2xVL, AARCH64_OPND_SVE_ADDR_RI_S4x3xVL) (AARCH64_OPND_SVE_ADDR_RI_S4x4xVL, AARCH64_OPND_SVE_ADDR_RI_S6xVL) (AARCH64_OPND_SVE_ADDR_RI_S9xVL): Likewise. (AARCH64_MOD_MUL_VL): New aarch64_modifier_kind. opcodes/ * aarch64-tbl.h (AARCH64_OPERANDS): Add entries for new MUL VL operands. * aarch64-opc.c (aarch64_operand_modifiers): Initialize the AARCH64_MOD_MUL_VL entry. (value_aligned_p): Cope with non-power-of-two alignments. (operand_general_constraint_met_p): Handle the new MUL VL addresses. (print_immediate_offset_address): Likewise. (aarch64_print_operand): Likewise. * aarch64-opc-2.c: Regenerate. * aarch64-asm.h (ins_sve_addr_ri_s4xvl, ins_sve_addr_ri_s6xvl) (ins_sve_addr_ri_s9xvl): New inserters. * aarch64-asm.c (aarch64_ins_sve_addr_ri_s4xvl): New function. (aarch64_ins_sve_addr_ri_s6xvl): Likewise. (aarch64_ins_sve_addr_ri_s9xvl): Likewise. * aarch64-asm-2.c: Regenerate. * aarch64-dis.h (ext_sve_addr_ri_s4xvl, ext_sve_addr_ri_s6xvl) (ext_sve_addr_ri_s9xvl): New extractors. * aarch64-dis.c (aarch64_ext_sve_addr_reg_mul_vl): New function. (aarch64_ext_sve_addr_ri_s4xvl): Likewise. (aarch64_ext_sve_addr_ri_s6xvl): Likewise. (aarch64_ext_sve_addr_ri_s9xvl): Likewise. * aarch64-dis-2.c: Regenerate. gas/ * config/tc-aarch64.c (SHIFTED_NONE, SHIFTED_MUL_VL): New parse_shift_modes. (parse_shift): Handle SHIFTED_MUL_VL. (parse_address_main): Add an imm_shift_mode parameter. (parse_address, parse_sve_address): Update accordingly. (parse_operands): Handle MUL VL addressing modes.
2016-09-21[AArch64][SVE 25/32] Add support for SVE addressing modesRichard Sandiford15-64/+1035
This patch adds most of the new SVE addressing modes and associated operands. A follow-on patch adds MUL VL, since handling it separately makes the changes easier to read. The patch also introduces a new "operand-dependent data" field to the operand flags, based closely on the existing one for opcode flags. For SVE this new field needs only 2 bits, but it could be widened in future if necessary. include/ * opcode/aarch64.h (AARCH64_OPND_SVE_ADDR_RI_U6): New aarch64_opnd. (AARCH64_OPND_SVE_ADDR_RI_U6x2, AARCH64_OPND_SVE_ADDR_RI_U6x4) (AARCH64_OPND_SVE_ADDR_RI_U6x8, AARCH64_OPND_SVE_ADDR_RR) (AARCH64_OPND_SVE_ADDR_RR_LSL1, AARCH64_OPND_SVE_ADDR_RR_LSL2) (AARCH64_OPND_SVE_ADDR_RR_LSL3, AARCH64_OPND_SVE_ADDR_RX) (AARCH64_OPND_SVE_ADDR_RX_LSL1, AARCH64_OPND_SVE_ADDR_RX_LSL2) (AARCH64_OPND_SVE_ADDR_RX_LSL3, AARCH64_OPND_SVE_ADDR_RZ) (AARCH64_OPND_SVE_ADDR_RZ_LSL1, AARCH64_OPND_SVE_ADDR_RZ_LSL2) (AARCH64_OPND_SVE_ADDR_RZ_LSL3, AARCH64_OPND_SVE_ADDR_RZ_XTW_14) (AARCH64_OPND_SVE_ADDR_RZ_XTW_22, AARCH64_OPND_SVE_ADDR_RZ_XTW1_14) (AARCH64_OPND_SVE_ADDR_RZ_XTW1_22, AARCH64_OPND_SVE_ADDR_RZ_XTW2_14) (AARCH64_OPND_SVE_ADDR_RZ_XTW2_22, AARCH64_OPND_SVE_ADDR_RZ_XTW3_14) (AARCH64_OPND_SVE_ADDR_RZ_XTW3_22, AARCH64_OPND_SVE_ADDR_ZI_U5) (AARCH64_OPND_SVE_ADDR_ZI_U5x2, AARCH64_OPND_SVE_ADDR_ZI_U5x4) (AARCH64_OPND_SVE_ADDR_ZI_U5x8, AARCH64_OPND_SVE_ADDR_ZZ_LSL) (AARCH64_OPND_SVE_ADDR_ZZ_SXTW, AARCH64_OPND_SVE_ADDR_ZZ_UXTW): Likewise. opcodes/ * aarch64-tbl.h (AARCH64_OPERANDS): Add entries for the new SVE address operands. * aarch64-opc.h (FLD_SVE_imm6, FLD_SVE_msz, FLD_SVE_xs_14) (FLD_SVE_xs_22): New aarch64_field_kinds. (OPD_F_OD_MASK, OPD_F_OD_LSB, OPD_F_NO_ZR): New flags. (get_operand_specific_data): New function. * aarch64-opc.c (fields): Add entries for FLD_SVE_imm6, FLD_SVE_msz, FLD_SVE_xs_14 and FLD_SVE_xs_22. (operand_general_constraint_met_p): Handle the new SVE address operands. (sve_reg): New array. (get_addr_sve_reg_name): New function. (aarch64_print_operand): Handle the new SVE address operands. * aarch64-opc-2.c: Regenerate. * aarch64-asm.h (ins_sve_addr_ri_u6, ins_sve_addr_rr_lsl) (ins_sve_addr_rz_xtw, ins_sve_addr_zi_u5, ins_sve_addr_zz_lsl) (ins_sve_addr_zz_sxtw, ins_sve_addr_zz_uxtw): New inserters. * aarch64-asm.c (aarch64_ins_sve_addr_ri_u6): New function. (aarch64_ins_sve_addr_rr_lsl): Likewise. (aarch64_ins_sve_addr_rz_xtw): Likewise. (aarch64_ins_sve_addr_zi_u5): Likewise. (aarch64_ins_sve_addr_zz): Likewise. (aarch64_ins_sve_addr_zz_lsl): Likewise. (aarch64_ins_sve_addr_zz_sxtw): Likewise. (aarch64_ins_sve_addr_zz_uxtw): Likewise. * aarch64-asm-2.c: Regenerate. * aarch64-dis.h (ext_sve_addr_ri_u6, ext_sve_addr_rr_lsl) (ext_sve_addr_rz_xtw, ext_sve_addr_zi_u5, ext_sve_addr_zz_lsl) (ext_sve_addr_zz_sxtw, ext_sve_addr_zz_uxtw): New extractors. * aarch64-dis.c (aarch64_ext_sve_add_reg_imm): New function. (aarch64_ext_sve_addr_ri_u6): Likewise. (aarch64_ext_sve_addr_rr_lsl): Likewise. (aarch64_ext_sve_addr_rz_xtw): Likewise. (aarch64_ext_sve_addr_zi_u5): Likewise. (aarch64_ext_sve_addr_zz): Likewise. (aarch64_ext_sve_addr_zz_lsl): Likewise. (aarch64_ext_sve_addr_zz_sxtw): Likewise. (aarch64_ext_sve_addr_zz_uxtw): Likewise. * aarch64-dis-2.c: Regenerate. gas/ * config/tc-aarch64.c (REG_TYPE_SVE_BASE, REG_TYPE_SVE_OFFSET): New register types. (get_reg_expected_msg): Handle them. (aarch64_addr_reg_parse): New function, split out from aarch64_reg_parse_32_64. Handle Z registers too. (aarch64_reg_parse_32_64): Call it. (parse_address_main): Add base_qualifier, offset_qualifier, base_type and offset_type parameters. Handle SVE base and offset registers. (parse_address): Update call to parse_address_main. (parse_sve_address): New function. (parse_operands): Parse the new SVE address operands.
2016-09-21[AArch64][SVE 24/32] Add AARCH64_OPND_SVE_PATTERN_SCALEDRichard Sandiford15-19/+186
Some SVE instructions count the number of elements in a given vector pattern and allow a scale factor of [1, 16] to be applied to the result. This scale factor is written ", MUL #n", where "MUL" is a new operator. E.g.: UQINCD X0, POW2, MUL #2 This patch adds support for this kind of operand. All existing operators were shifts of some kind, so there was a natural range of [0, 63] regardless of context. This was then narrowered further by later checks (e.g. to [0, 31] when used for 32-bit values). In contrast, MUL doesn't really have a natural context-independent range. Rather than pick one arbitrarily, it seemed better to make the "shift" amount a full 64-bit value and leave the range test to the usual operand-checking code. I've rearranged the fields of aarch64_opnd_info so that this doesn't increase the size of the structure (although I don't think its size is critical anyway). include/ * opcode/aarch64.h (AARCH64_OPND_SVE_PATTERN_SCALED): New aarch64_opnd. (AARCH64_MOD_MUL): New aarch64_modifier_kind. (aarch64_opnd_info): Make shifter.amount an int64_t and rearrange the fields. opcodes/ * aarch64-tbl.h (AARCH64_OPERANDS): Add an entry for AARCH64_OPND_SVE_PATTERN_SCALED. * aarch64-opc.h (FLD_SVE_imm4): New aarch64_field_kind. * aarch64-opc.c (fields): Add a corresponding entry. (set_multiplier_out_of_range_error): New function. (aarch64_operand_modifiers): Add entry for AARCH64_MOD_MUL. (operand_general_constraint_met_p): Handle AARCH64_OPND_SVE_PATTERN_SCALED. (print_register_offset_address): Use PRIi64 to print the shift amount. (aarch64_print_operand): Likewise. Handle AARCH64_OPND_SVE_PATTERN_SCALED. * aarch64-opc-2.c: Regenerate. * aarch64-asm.h (ins_sve_scale): New inserter. * aarch64-asm.c (aarch64_ins_sve_scale): New function. * aarch64-asm-2.c: Regenerate. * aarch64-dis.h (ext_sve_scale): New inserter. * aarch64-dis.c (aarch64_ext_sve_scale): New function. * aarch64-dis-2.c: Regenerate. gas/ * config/tc-aarch64.c (SHIFTED_MUL): New parse_shift_mode. (parse_shift): Handle it. Reject AARCH64_MOD_MUL for all other shift modes. Skip range tests for AARCH64_MOD_MUL. (process_omitted_operand): Handle AARCH64_OPND_SVE_PATTERN_SCALED. (parse_operands): Likewise.
2016-09-21[AArch64][SVE 23/32] Add SVE pattern and prfop operandsRichard Sandiford11-11/+210
The SVE instructions have two enumerated operands: one to select a vector pattern and another to select a prefetch operation. The latter is a cut-down version of the base AArch64 prefetch operation. Both types of operand can also be specified as raw enum values such as #31. Reserved values can only be specified this way. If it hadn't been for the pattern operand, I would have been tempted to use the existing parsing for prefetch operations and add extra checks for SVE. However, since the patterns needed new enum parsing code anyway, it seeemed cleaner to reuse it for the prefetches too. Because of the small number of enum values, I don't think we'd gain anything by using hash tables. include/ * opcode/aarch64.h (AARCH64_OPND_SVE_PATTERN): New aarch64_opnd. (AARCH64_OPND_SVE_PRFOP): Likewise. (aarch64_sve_pattern_array): Declare. (aarch64_sve_prfop_array): Likewise. opcodes/ * aarch64-tbl.h (AARCH64_OPERANDS): Add entries for AARCH64_OPND_SVE_PATTERN and AARCH64_OPND_SVE_PRFOP. * aarch64-opc.h (FLD_SVE_pattern): New aarch64_field_kind. (FLD_SVE_prfop): Likewise. * aarch64-opc.c: Include libiberty.h. (aarch64_sve_pattern_array): New variable. (aarch64_sve_prfop_array): Likewise. (fields): Add entries for FLD_SVE_pattern and FLD_SVE_prfop. (aarch64_print_operand): Handle AARCH64_OPND_SVE_PATTERN and AARCH64_OPND_SVE_PRFOP. * aarch64-asm-2.c: Regenerate. * aarch64-dis-2.c: Likewise. * aarch64-opc-2.c: Likewise. gas/ * config/tc-aarch64.c (parse_enum_string): New function. (po_enum_or_fail): New macro. (parse_operands): Handle AARCH64_OPND_SVE_PATTERN and AARCH64_OPND_SVE_PRFOP.
2016-09-21[AArch64][SVE 22/32] Add qualifiers for merging and zeroing predicationRichard Sandiford6-4/+82
This patch adds qualifiers to represent /z and /m suffixes on predicate registers. include/ * opcode/aarch64.h (AARCH64_OPND_QLF_P_Z): New aarch64_opnd_qualifier. (AARCH64_OPND_QLF_P_M): Likewise. opcodes/ * aarch64-opc.c (aarch64_opnd_qualifiers): Add entries for AARCH64_OPND_QLF_P_[ZM]. (aarch64_print_operand): Print /z and /m where appropriate. gas/ * config/tc-aarch64.c (vector_el_type): Add NT_zero and NT_merge. (parse_vector_type_for_operand): Assert that the skipped character is a '.'. (parse_predication_for_operand): New function. (parse_typed_reg): Parse /z and /m suffixes for predicate registers. (vectype_to_qualifier): Handle NT_zero and NT_merge.
2016-09-21[AArch64][SVE 21/32] Add Zn and Pn registersRichard Sandiford15-32/+473
This patch adds the Zn and Pn registers, and associated fields and operands. include/ * opcode/aarch64.h (AARCH64_OPND_CLASS_SVE_REG): New aarch64_operand_class. (AARCH64_OPND_CLASS_PRED_REG): Likewise. (AARCH64_OPND_SVE_Pd, AARCH64_OPND_SVE_Pg3, AARCH64_OPND_SVE_Pg4_5) (AARCH64_OPND_SVE_Pg4_10, AARCH64_OPND_SVE_Pg4_16) (AARCH64_OPND_SVE_Pm, AARCH64_OPND_SVE_Pn, AARCH64_OPND_SVE_Pt) (AARCH64_OPND_SVE_Za_5, AARCH64_OPND_SVE_Za_16, AARCH64_OPND_SVE_Zd) (AARCH64_OPND_SVE_Zm_5, AARCH64_OPND_SVE_Zm_16, AARCH64_OPND_SVE_Zn) (AARCH64_OPND_SVE_Zn_INDEX, AARCH64_OPND_SVE_ZnxN) (AARCH64_OPND_SVE_Zt, AARCH64_OPND_SVE_ZtxN): New aarch64_opnds. opcodes/ * aarch64-tbl.h (AARCH64_OPERANDS): Add entries for new SVE operands. * aarch64-opc.h (FLD_SVE_Pd, FLD_SVE_Pg3, FLD_SVE_Pg4_5) (FLD_SVE_Pg4_10, FLD_SVE_Pg4_16, FLD_SVE_Pm, FLD_SVE_Pn, FLD_SVE_Pt) (FLD_SVE_Za_5, FLD_SVE_Za_16, FLD_SVE_Zd, FLD_SVE_Zm_5, FLD_SVE_Zm_16) (FLD_SVE_Zn, FLD_SVE_Zt, FLD_SVE_tzsh): New aarch64_field_kinds. * aarch64-opc.c (fields): Add corresponding entries here. (operand_general_constraint_met_p): Check that SVE register lists have the correct length. Check the ranges of SVE index registers. Check for cases where p8-p15 are used in 3-bit predicate fields. (aarch64_print_operand): Handle the new SVE operands. * aarch64-opc-2.c: Regenerate. * aarch64-asm.h (ins_sve_index, ins_sve_reglist): New inserters. * aarch64-asm.c (aarch64_ins_sve_index): New function. (aarch64_ins_sve_reglist): Likewise. * aarch64-asm-2.c: Regenerate. * aarch64-dis.h (ext_sve_index, ext_sve_reglist): New extractors. * aarch64-dis.c (aarch64_ext_sve_index): New function. (aarch64_ext_sve_reglist): Likewise. * aarch64-dis-2.c: Regenerate. gas/ * config/tc-aarch64.c (NTA_HASVARWIDTH): New macro. (AARCH64_REG_TYPES): Add ZN and PN. (get_reg_expected_msg): Handle them. (parse_vector_type_for_operand): Add a reg_type parameter. Skip the width for Zn and Pn registers. (parse_typed_reg): Extend vector handling to Zn and Pn. Update the call to parse_vector_type_for_operand. Set HASVARTYPE for Zn and Pn, expecting the width to be 0. (parse_vector_reg_list): Restrict error about [BHSD]nn operands to REG_TYPE_VN. (vectype_to_qualifier): Use S_[BHSD] qualifiers for NTA_HASVARWIDTH. (parse_operands): Handle the new Zn and Pn operands. (REGSET16): New macro, split out from... (REGSET31): ...here. (reg_names): Add Zn and Pn entries.
2016-09-21[AArch64][SVE 20/32] Add support for tied operandsRichard Sandiford7-16/+65
SVE has some instructions in which the same register appears twice in the assembly string, once as an input and once as an output. This patch adds a general mechanism for that. The patch needs to add new information to the instruction entries. One option would have been to extend the flags field of the opcode to 64 bits (since we already rely on 64-bit integers being available on the host). However, the *_INSN macros mean that it's easy to add new information as top-level fields without affecting the existing table entries too much. Going for that option seemed to give slightly neater code. include/ * opcode/aarch64.h (aarch64_opcode): Add a tied_operand field. (AARCH64_OPDE_UNTIED_OPERAND): New aarch64_operand_error_kind. opcodes/ * aarch64-tbl.h (CORE_INSN, __FP_INSN, SIMD_INSN, CRYP_INSN) (_CRC_INSN, _LSE_INSN, _LOR_INSN, RDMA_INSN, FP16_INSN, SF16_INSN) (V8_2_INSN, aarch64_opcode_table): Initialize tied_operand field. * aarch64-opc.c (aarch64_match_operands_constraint): Check for tied operands. gas/ * config/tc-aarch64.c (output_operand_error_record): Handle AARCH64_OPDE_UNTIED_OPERAND.
2016-09-21[AArch64][SVE 19/32] Refactor address-printing codeRichard Sandiford2-36/+65
SVE adds addresses in which the base or offset are vector registers. The addresses otherwise have the same kind of form as normal AArch64 addresses, including things like SXTW with or without a shift, UXTW with or without a shift, and LSL. This patch therefore refactors the address-printing code so that it can cope with both scalar and vector registers. opcodes/ * aarch64-opc.c (get_offset_int_reg_name): New function. (print_immediate_offset_address): Likewise. (print_register_offset_address): Take the base and offset registers as parameters. (aarch64_print_operand): Update caller accordingly. Use print_immediate_offset_address.
2016-09-21[AArch64][SVE 18/32] Tidy definition of aarch64-opc.c:int_regRichard Sandiford2-18/+17
Use a macro to define 31 regular registers followed by a supplied value for 0b11111. The SVE code will also use this for vector base and offset registers. opcodes/ * aarch64-opc.c (BANK): New macro. (R32, R64): Take a register number as argument (int_reg): Use BANK.
2016-09-21[AArch64][SVE 17/32] Add a prefix parameter to print_register_listRichard Sandiford2-13/+21
This patch generalises the interface to print_register_list so that it can print register lists involving SVE z registers as well as AdvSIMD v ones. opcodes/ * aarch64-opc.c (print_register_list): Add a prefix parameter. (aarch64_print_operand): Update accordingly.
2016-09-21[AArch64][SVE 16/32] Use specific insert/extract methods for fpimmRichard Sandiford8-6/+40
FPIMM used the normal "imm" insert/extract methods, with a specific test for FPIMM in the extract method. SVE needs to use the same extractors, so rather than add extra checks for specific operand types, it seemed cleaner to use a separate insert/extract method. opcodes/ * aarch64-tbl.h (AARCH64_OPERNADS): Use fpimm rather than imm for FPIMM. * aarch64-asm.h (ins_fpimm): New inserter. * aarch64-asm.c (aarch64_ins_fpimm): New function. * aarch64-asm-2.c: Regenerate. * aarch64-dis.h (ext_fpimm): New extractor. * aarch64-dis.c (aarch64_ext_imm): Remove fpimm test. (aarch64_ext_fpimm): New function. * aarch64-dis-2.c: Regenerate.
2016-09-21[AArch64][SVE 15/32] Add {insert,extract}_all_fields helpersRichard Sandiford3-14/+50
Several of the SVE operands use the aarch64_operand fields array to store the fields that make up the operand, rather than hard-coding the names in the C code. This patch adds helpers for inserting and extracting those fields. opcodes/ * aarch64-asm.c: Include libiberty.h. (insert_fields): New function. (aarch64_ins_imm): Use it. * aarch64-dis.c (extract_fields): New function. (aarch64_ext_imm): Use it.
2016-09-21[AArch64][SVE 14/32] Make aarch64_logical_immediate_p take an element sizeRichard Sandiford3-29/+39
SVE supports logical immediate operations on 8-bit, 16-bit and 32-bit elements, treating them as aliases of operations on 64-bit elements in which the immediate is replicated. This patch therefore replaces the "32-bit/64-bit" input to aarch64_logical_immediate_p with a more general "number of bytes" input. opcodes/ * aarch64-opc.c (aarch64_logical_immediate_p): Replace is32 with an esize parameter. (operand_general_constraint_met_p): Update accordingly. Fix misindented code. * aarch64-asm.c (aarch64_ins_limm): Update call to aarch64_logical_immediate_p.
2016-09-21[AArch64][SVE 13/32] Add an F_STRICT flagRichard Sandiford6-6/+27
SVE predicate operands can appear in three forms: 1. unsuffixed: "Pn" 2. with a predication type: "Pn/[ZM]" 3. with a size suffix: "Pn.[BHSD]" No variation is allowed: unsuffixed operands cannot have a (redundant) suffix, and the suffixes can never be dropped. Unsuffixed Pn are used in LDR and STR, but they are also used for Pg operands in cases where the result is scalar and where there is therefore no choice to be made between "merging" and "zeroing". This means that some Pg operands have suffixes and others don't. It would be possible to use context-sensitive parsing to handle this difference. The tc-aarch64.c code would then raise an error if the wrong kind of suffix is used for a particular instruction. However, we get much more user-friendly error messages if we parse all three forms for all SVE instructions and record the suffix as a qualifier. The normal qualifier matching code can then report cases where the wrong kind of suffix is used. This is a slight extension of existing usage, which really only checks for the wrong choice of suffix within a particular kind of suffix. The only catch is a that a "NIL" entry in the qualifier list specifically means "no suffix should be present" (case 1 above). NIL isn't a wildcard here. It also means that an instruction that requires all-NIL qualifiers can fail to match (because a suffix was supplied when it shouldn't have been); this requires a slight change to find_best_match. This patch adds an F_STRICT flag to select this behaviour. The flag will be set for all SVE instructions. The behaviour for other instructions doesn't change. include/ * opcode/aarch64.h (F_STRICT): New flag. opcodes/ * aarch64-opc.c (match_operands_qualifier): Handle F_STRICT. gas/ * config/tc-aarch64.c (find_best_match): Simplify, allowing an instruction with all-NIL qualifiers to fail to match.
2016-09-21[AArch64][SVE 12/32] Remove boolean parameters from parse_address_mainRichard Sandiford4-24/+57
In the review of the original version of this series, Richard didn't like the use of boolean parameters to parse_address_main. I think we can just get rid of them and leave the callers to check the addressing modes. As it happens, the handling of ADDR_SIMM9{,_2} already did this for relocation operators (i.e. it used parse_address_reloc and then rejected relocations). The callers are already set up to reject invalid register post-indexed addressing, so we can simply remove the accept_reg_post_index parameter without adding any more checks. This again creates a corner case where: .equ x2, 1 ldr w0, [x1], x2 was previously an acceptable way of writing "ldr w0, [x1], #1" but is now rejected. Removing the "reloc" parameter means that two cases need to check explicitly for relocation operators. ADDR_SIMM9_2 appers to be unused. I'll send a separate patch to remove it. This patch makes parse_address temporarily equivalent to parse_address_main, but later patches in the series will need to keep the distinction. gas/ * config/tc-aarch64.c (parse_address_main): Remove reloc and accept_reg_post_index parameters. Parse relocations and register post indexes unconditionally. (parse_address): Remove accept_reg_post_index parameter. Update call to parse_address_main. (parse_address_reloc): Delete. (parse_operands): Call parse_address instead of parse_address_main. Update existing callers of parse_address and make them check inst.reloc.type where appropriate. * testsuite/gas/aarch64/diagnostic.s: Add tests for relocations in ADDR_SIMPLE, SIMD_ADDR_SIMPLE, ADDR_SIMM7 and ADDR_SIMM9 addresses. Also test for invalid uses of post-index register addressing. * testsuite/gas/aarch64/diagnostic.l: Update accordingly.
2016-09-21[AArch64][SVE 11/32] Tweak aarch64_reg_parse_32_64 interfaceRichard Sandiford5-339/+371
aarch64_reg_parse_32_64 is currently used to parse address registers, among other things. It returns two bits of information about the register: whether it's W rather than X, and whether it's a zero register. SVE adds addressing modes in which the base or offset can be a vector register instead of a scalar, so a choice between W and X is no longer enough. It's more convenient to pass the type of register around as a qualifier instead. As it happens, two callers of aarch64_reg_parse_32_64 already wanted the information in the form of a qualifier, so the change feels pretty natural even without SVE. Also, the function took two parameters to control whether {W}SP and (W|X)ZR should be accepted. We tend to get slightly better error messages by accepting them regardless and getting the caller to do the check, rather than potentially treating "xzr", "sp" etc. as constants. This is easier to do if the function returns the reg_entry rather than just the register number. This does create a corner case where: .equ sp, 1 ldr w0, [x0, sp] was previously an acceptable way of writing "ldr w0, [x0, #1]", but I don't think it's important to continue supporting that. We already rejected things like: .equ sp, 1 add x0, x1, sp To ensure these new error messages "win" when matching against several candidate instruction entries, we need to use the same address-parsing code for all addresses, including ADDR_SIMPLE and SIMD_ADDR_SIMPLE. The next patch also relies on this. Finally, aarcch64_check_reg_type was written in a pretty conservative way. It should always be equivalent to a single bit test. gas/ * config/tc-aarch64.c (REG_TYPE_R_Z, REG_TYPE_R_SP): New register types. (get_reg_expected_msg): Handle them and REG_TYPE_R64_SP. (aarch64_check_reg_type): Simplify. (aarch64_reg_parse_32_64): Return the reg_entry instead of the register number. Return the type as a qualifier rather than an "isreg32" boolean. Remove reject_sp, reject_rz and isregzero parameters. (parse_shifter_operand): Update call to aarch64_parse_32_64_reg. Use get_reg_expected_msg. (parse_address_main): Likewise. Use aarch64_check_reg_type. (po_int_reg_or_fail): Replace reject_sp and reject_rz parameters with a reg_type parameter. Update call to aarch64_parse_32_64_reg. Use aarch64_check_reg_type to test the result. (parse_operands): Update after the above changes. Parse ADDR_SIMPLE addresses normally before enforcing the syntax restrictions. * testsuite/gas/aarch64/diagnostic.s: Add tests for a post-index zero register and for a stack pointer index. * testsuite/gas/aarch64/diagnostic.l: Update accordingly. Also update existing diagnostic messages after the above changes. * testsuite/gas/aarch64/illegal-lse.l: Update the error message for 32-bit register bases.
2016-09-21[AArch64][SVE 10/32] Move range check out of parse_aarch64_imm_floatRichard Sandiford2-8/+11
Since some SVE constants are no longer explicitly tied to the 8-bit FP immediate format, it seems better to move the range checks out of parse_aarch64_imm_float and into the callers. gas/ * config/tc-aarch64.c (parse_aarch64_imm_float): Remove range check. (parse_operands): Check the range of 8-bit FP immediates here instead.
2016-09-21[AArch64][SVE 09/32] Improve error messages for invalid floatsRichard Sandiford4-6/+34
Previously: fmov d0, #2 would give an error: Operand 2 should be an integer register whereas the user probably just forgot to add the ".0" to make: fmov d0, #2.0 This patch reports an invalid floating point constant unless the operand is obviously a register. The FPIMM8 handling is only relevant for SVE. Without it: fmov z0, z1 would try to parse z1 as an integer immediate zero (the res2 path), whereas it's more likely that the user forgot the predicate. This is tested by the final patch. gas/ * config/tc-aarch64.c (parse_aarch64_imm_float): Report a specific low-severity error for registers. (parse_operands): Report an invalid floating point constant for if parsing an FPIMM8 fails, and if no better error has been recorded. * testsuite/gas/aarch64/diagnostic.s, testsuite/gas/aarch64/diagnostic.l: Add tests for integer operands to FMOV.
2016-09-21[AArch64][SVE 08/32] Generalise aarch64_double_precision_fmovableRichard Sandiford2-33/+37
SVE has single-bit floating-point constants that don't really have any relation to the AArch64 8-bit floating-point encoding. (E.g. one of the constants selects between 0 and 1.) The easiest way of representing them in the aarch64_opnd_info seemed to be to use the IEEE float representation directly, rather than invent some new scheme. This patch paves the way for that by making the code that converts IEEE doubles to IEEE floats accept any value in the range of an IEEE float, not just zero and 8-bit floats. It leaves the range checking to the caller (which already handles it). gas/ * config/tc-aarch64.c (aarch64_double_precision_fmovable): Rename to... (can_convert_double_to_float): ...this. Accept any double-precision value that converts to single precision without loss of precision. (parse_aarch64_imm_float): Update accordingly.
2016-09-21[AArch64][SVE 07/32] Replace hard-coded uses of REG_TYPE_R_Z_BHSDQ_VRichard Sandiford2-22/+43
To remove parsing ambiguities and to avoid register names being accidentally added to the symbol table, the immediate parsing routines reject things like: .equ x0, 0 add v0.4s, v0.4s, x0 An explicit '#' must be used instead: .equ x0, 0 add v0.4s, v0.4s, #x0 Of course, it wasn't possible to predict what other register names might be added in future, so this behaviour was restricted to the register names that were defined at the time. For backwards compatibility, we should continue to allow things like: .equ p0, 0 add v0.4s, v0.4s, p0 even though p0 is now an SVE register. However, it seems reasonable to extend the x0 behaviour above to SVE registers when parsing SVE instructions, especially since none of the SVE immediate formats are relocatable. Doing so removes the same parsing ambiguity for SVE instructions as the x0 behaviour removes for base AArch64 instructions. As a prerequisite, we then need to be able to tell the parsing routines which registers to reject. This patch changes the interface to make that possible, although the set of rejected registers doesn't change at this stage. gas/ * config/tc-aarch64.c (parse_immediate_expression): Add a reg_type parameter. (parse_constant_immediate): Likewise, and update calls. (parse_aarch64_imm_float): Likewise. (parse_big_immediate): Likewise. (po_imm_nc_or_fail): Update accordingly, passing down a new imm_reg_type variable. (po_imm_of_fail): Likewise. (parse_operands): Likewise.
2016-09-21[AArch64][SVE 06/32] Generalise parse_neon_reg_listRichard Sandiford2-5/+15
Rename parse_neon_reg_list to parse_vector_reg_list and take in the required register type as an argument. Later patches will reuse the function for SVE registers. gas/ * config/tc-aarch64.c (parse_neon_reg_list): Rename to... (parse_vector_reg_list): ...this and take a register type as input. (parse_operands): Update accordingly.
2016-09-21[AArch64][SVE 05/32] Rename parse_neon_type_for_operandRichard Sandiford2-2/+8
Generalise the name of parse_neon_type_for_operand to parse_vector_type_for_operand. Later patches will add SVEisms to it. gas/ * config/tc-aarch64.c (parse_neon_type_for_operand): Rename to... (parse_vector_type_for_operand): ...this. (parse_typed_reg): Update accordingly.
2016-09-21[AArch64][SVE 04/32] Rename neon_type_el to vector_type_elRichard Sandiford2-16/+29
Similar to the previous patch, but this time for the neon_type_el structure. gas/ * config/tc-aarch64.c (neon_type_el): Rename to... (vector_type_el): ...this. (parse_neon_type_for_operand): Update accordingly. (parse_typed_reg): Likewise. (aarch64_reg_parse): Likewise. (vectype_to_qualifier): Likewise. (parse_operands): Likewise. (eq_neon_type_el): Likewise. Rename to... (eq_vector_type_el): ...this. (parse_neon_reg_list): Update accordingly.
2016-09-21[AArch64][SVE 03/32] Rename neon_el_type to vector_el_typeRichard Sandiford2-4/+12
Later patches will add SVEisms to neon_el_type, so this patch renames it to something more generic. gas/ * config/tc-aarch64.c (neon_el_type: Rename to... (vector_el_type): ...this. (neon_type_el): Update accordingly. (parse_neon_type_for_operand): Likewise. (vectype_to_qualifier): Likewise.
2016-09-21[AArch64][SVE 02/32] Avoid hard-coded limit in indented_printRichard Sandiford2-5/+5
The maximum indentation needed by aarch64-gen.c grows as more instructions are added to aarch64-tbl.h. Rather than having to increase the indentation limit to a higher value, it seemed better to replace it with "%*s". opcodes/ * aarch64-gen.c (indented_print): Avoid hard-coded indentation limit.
2016-09-21[AArch64][SVE 01/32] Remove parse_neon_operand_typeRichard Sandiford2-27/+9
A false return from parse_neon_operand_type had an overloaded meaning: either the parsing failed, or there was nothing to parse (which isn't necessarily an error). The only caller, parse_typed_reg, would therefore not consume the suffix if it was invalid but instead (successfully) parse the register without a suffix. It would still leave inst.parsing_error with an error about the invalid suffix. It seems wrong for a successful parse to leave an error message, so this patch makes parse_typed_reg return PARSE_FAIL instead. The patch doesn't seem to make much difference in practice. Most possible follow-on errors use set_first_error and so the error about the suffix tended to win despite the successful parse. gas/ * config/tc-aarch64.c (parse_neon_operand_type): Delete. (parse_typed_reg): Call parse_neon_type_for_operand directly.
2016-09-21MIPS/testsuite: mips16-thunks: Use `standard_output_file'Maciej W. Rozycki2-5/+9
Correct a commit 2151ccc56c74 ("Always organize test artifacts in a directory hierarchy") regression causing: Running .../gdb/testsuite/gdb.arch/mips16-thunks.exp ... gdb compile failed, Assembler messages: Fatal error: can't create .../gdb/testsuite/gdb.arch/mips16-thunks-inmain.o: No such file or directory gdb compile failed, Assembler messages: Fatal error: can't create .../gdb/testsuite/gdb.arch/mips16-thunks-main.o: No such file or directory gdb compile failed, mips-mti-linux-gnu-gcc: error: .../gdb/testsuite/gdb.arch/mips16-thunks-inmain.o: No such file or directory mips-mti-linux-gnu-gcc: error: .../gdb/testsuite/gdb.arch/mips16-thunks-main.o: No such file or directory UNSUPPORTED: gdb.arch/mips16-thunks.exp: No MIPS16 support in the toolchain. by using `standard_output_file' to construct output file names throughout. gdb/testsuite/ * gdb.arch/mips16-thunks.exp: Use `standard_output_file' throughout.
2016-09-21Keep reserved bits in CPSR on writeYao Qi4-2/+23
In patch https://sourceware.org/ml/gdb-patches/2016-04/msg00529.html I cleared reserved bits when reading CPSR. It makes a problem that these bits (zero) are written back to kernel through ptrace, and it changes the state of the processor on some recent kernel, which is unexpected. In this patch, I keep these reserved bits when write CPSR back to hardware. gdb: 2016-09-21 Yao Qi <yao.qi@linaro.org> * aarch32-linux-nat.c (aarch32_gp_regcache_collect): Keep bits 20 to 23. gdb/gdbserver: 2016-09-21 Yao Qi <yao.qi@linaro.org> * linux-aarch32-low.c (arm_fill_gregset): Keep bits 20 to 23.
2016-09-21Automatic date update in version.inGDB Administrator1-1/+1
2016-09-20Avoid -Wduplicated-cond warnings in gdb/pythonTom Tromey3-0/+11
I tried building gdb with -Wduplicated-cond. This patch fixes the simpler issue that was found. In Python 3, "int" and "long" are synonyms, so code like: else if (PyLong_Check (obj)) ... else if (PyInt_Check (obj)) .... will trigger this warning. The fix is to conditionalize the PyInt_Check branches on Python 2. Tested by rebuilding, with both version of Python, on x86-64 Fedora 24. 2016-09-20 Tom Tromey <tom@tromey.com> * python/py-value.c (convert_value_from_python): Make PyInt_Check conditional on Python 2. * python/py-arch.c (archpy_disassemble): Make PyInt_Check conditional on Python 2.
2016-09-20ppc: Fix record support of Store String Word instructionsEdjunior Barbosa Machado2-3/+12
gdb/ChangeLog 2016-09-20 Edjunior Barbosa Machado <emachado@linux.vnet.ibm.com> * rs6000-tdep.c (ppc_process_record_op31): Fix record of Store String Word instructions.
2016-09-20ld: Fix mistake in ChangeLogAndrew Burgess1-1/+1
The previous commit contained a small mistake in the ChangeLog, fixed in this commit.
2016-09-20ld: Extend documentation for EXCLUDE_FILEAndrew Burgess2-0/+20
There was a gap in the documentation of EXCLUDE_FILE that could cause confusion to a user. When writing an input section specifier like this: *(EXCLUDE_FILE (somefile.o) .text .text.*) this could mean one of the following: 1. All '.text' and '.text.*' from all files except for 'somefile.o', or 2. All '.text' from all files except 'somefile.o', and all '.text.*' sections from all files. It turns out that the second interpretation is correct, but the manual does not make this clear (to me at least). Hopefully this patch makes things clearer. ld/ChangeLog: * ld/ld.texinfo (Input Section Basics): Expand the description of EXCLUDE_FILE.
2016-09-20Use 'event_ptid' instead of 'resume_ptid' on startup_inferior (fix for ↵Sergio Durigan Junior2-2/+8
regression on my last commit) Pedro pointed out a regression happening on gdb.mi/mi-exec-run.exp, and as it turned out, this was a thinko when dealing with some events on startup_inferior. Basically, one needs to pass 'event_ptid' to target_mourn_inferior, but I mistakenly passed 'resume_ptid'. This commit fixes it. Built and regtested on BuildBot, now with fixed e-mail notifications! gdb/ChangeLog: 2016-09-20 Sergio Durigan Junior <sergiodj@redhat.com> * fork-inferior.c (startup_inferior): Pass 'event_ptid' instead of 'resume_ptid' to 'target_mourn_inferior'. Fix regression introduced by my last commit.
2016-09-20Automatic date update in version.inGDB Administrator1-1/+1
2016-09-19gdb: Fix build breakage with GCC 4.1 and --disable-nlsPedro Alves3-5/+9
Ref: https://sourceware.org/ml/gdb-patches/2016-09/msg00203.html The std::{min,max} patch caused build failures when configuring GDB with with --disable-nls and using GCC 4.1. The reason is this bit in common/gdb_locale.h: #ifdef ENABLE_NLS ... #else # define gettext(Msgid) (Msgid) ... #endif This causes problems if the <libintl.h> header is first included at any point after "gdb_locale.h". Specifically, the gettext&co declarations in libintl.h: extern char *gettext (__const char *__msgid) __THROW __attribute_format_arg__ (1); end up broken after preprocessing: extern char *(__const char *__msgid) throw () __attribute__ ((__format_arg__ (1))); After the std::min/std::max change to include <algorithm>, this now happens with at least the GCC 4.1 copy of <algorithm>, which includes <libintl.h> via <bits/stl_algobase.h>, <iosfwd>, and <bits/c++locale.h>. The fix is to simply remove the troublesome *gettext and *textdomain macros, leaving only the _ and N_ ones. gdb/ChangeLog: 2016-09-19 Pedro Alves <palves@redhat.com> * common/gdb_locale.h [!ENABLE_NLS] (gettext, dgettext, dcgettext, textdomain, bindtextdomain): Delete macros. * main.c (captured_main) [!ENABLE_NLS]: Skip bintextdomain and textdomain calls.
2016-09-19bfd: allow negative offsets to _GLOBAL_OFFSET_TABLE_ in elf64 SPARCJose E. Marchesi2-8/+14
The code compiled with the -fpic model in SPARC uses 13-bit signed immediate PC-relative loads to fetch entries from the GOT table. In theory this would allow using a GOT table (.got section) containing up to 1024 entries in elf32 or 512 entries in elf64. However, in elf64 sparc GNU targets _GLOBAL_OFFSET_TABLE_ is always placed at the beginning of the .got section, making it impossible to use negative offsets. This limits the usage of -fpic to GOT tables containing a maximum of 257 entries in elf64. This patch activates an optimization that is already used in sparc-elf32 also in sparc-elf64, that sets _GLOBAL_OFFSET_TABLE_ to point 0x1000 into the .got section if the section size is bigger than 0x1000. 2016-09-19 Jose E. Marchesi <jose.marchesi@oracle.com> * elfxx-sparc.c (_bfd_sparc_elf_size_dynamic_sections): Allow negative offsets to _GLOBAL_OFFSET_TABLE_ if the .got section is bigger than 0x1000 bytes.
2016-09-19nm handling of synthetic symbolsAlan Modra2-17/+16
Symbol sorting means we can't assume that the last n symbols are synthetic. * nm.c (print_symbol): Remove is_synthetic param. Test sym->flags instead. (print_size_symbols, print_symbols): Adjust to suit, deleting now unused synth_count param and fromsynth var. (display_rel_file): Adjust, localizing synth_count.
2016-09-19Consolidate target_mourn_inferior between GDB and gdbserverSergio Durigan Junior20-28/+72
This patch consolidates the API of target_mourn_inferior between GDB and gdbserver, in my continuing efforts to make sharing the fork_inferior function possible between both. GDB's version of the function did not care about the inferior's ptid being mourned, but gdbserver's needed to know this information. Since it actually makes sense to pass the ptid as an argument, instead of depending on a global value directly (which GDB's version did), I decided to make the generic API to accept it. I then went on and extended all calls being made on GDB to include a ptid argument (which ended up being inferior_ptid most of the times, anyway), and now we have a more sane interface. On GDB's side, after talking to Pedro a bit about it, we decided that just an assertion to make sure that the ptid being passed is equal to inferior_ptid would be enough for now, on the GDB side. We can remove the assertion and perform more operations later if we ever pass anything different than inferior_ptid. Regression tested on our BuildBot, everything OK. I'd appreciate a special look at gdb/windows-nat.c's modification because I wasn't really sure what to do there. It seemed to me that maybe I should build a ptid out of the process information there, but then I am almost sure the assertion on GDB's side would trigger. gdb/ChangeLog: 2016-09-19 Sergio Durigan Junior <sergiodj@redhat.com> * darwin-nat.c (darwin_kill_inferior): Adjusting call to target_mourn_inferior to include ptid_t argument. * fork-child.c (startup_inferior): Likewise. * gnu-nat.c (gnu_kill_inferior): Likewise. * inf-ptrace.c (inf_ptrace_kill): Likewise. * infrun.c (handle_inferior_event_1): Likewise. * linux-nat.c (linux_nat_attach): Likewise. (linux_nat_kill): Likewise. * nto-procfs.c (interrupt_query): Likewise. (procfs_interrupt): Likewise. (procfs_kill_inferior): Likewise. * procfs.c (procfs_kill_inferior): Likewise. * record.c (record_mourn_inferior): Likewise. * remote-sim.c (gdbsim_kill): Likewise. * remote.c (remote_detach_1): Likewise. (remote_kill): Likewise. * target.c (target_mourn_inferior): Change declaration to accept new ptid_t argument; use gdb_assert on it. * target.h (target_mourn_inferior): Move function prototype from here... * target/target.h (target_mourn_inferior): ... to here. Adjust it to accept new ptid_t argument. * windows-nat.c (get_windows_debug_event): Adjusting call to target_mourn_inferior to include ptid_t argument. gdb/gdbserver/ChangeLog: 2016-09-19 Sergio Durigan Junior <sergiodj@redhat.com> * server.c (start_inferior): Call target_mourn_inferior instead of mourn_inferior; pass ptid_t argument to it. (resume): Likewise. (handle_target_event): Likewise. * target.c (target_mourn_inferior): New function. * target.h (mourn_inferior): Delete macro.
2016-09-19Automatic date update in version.inGDB Administrator1-1/+1
2016-09-19gdb/s390: Fix build breakage due to std::min/std::max usage without headerPedro Alves2-0/+5
[...] .../gdb/s390-linux-nat.c: In function 'void s390_prepare_to_resume(lwp_info*)': .../gdb/s390-linux-nat.c:703:20: error: 'min' is not a member of 'std' watch_lo_addr = std::min (watch_lo_addr, area->lo_addr); [...] gdb/ChangeLog: 2016-09-18 Pedro Alves <palves@redhat.com> * s390-linux-nat.c: Include <algorithm>.
2016-09-18gdb: Fix std::{min, max}-related build breakage on 32-bit hostsPedro Alves5-5/+13
Building on a 32-bit host fails currently with errors like: .../src/gdb/exec.c: In function ‘target_xfer_status section_table_read_available_memory(gdb_byte*, ULONGEST, ULONGEST, ULONGEST*)’: .../src/gdb/exec.c:801:54: error: no matching function for call to ‘min(ULONGEST, long unsigned int)’ end = std::min (offset + len, r->start + r->length); ^ In file included from /usr/include/c++/5.3.1/algorithm:61:0, from .../src/gdb/exec.c:46: /usr/include/c++/5.3.1/bits/stl_algobase.h:195:5: note: candidate: template<class _Tp> const _Tp& std::min(const _Tp&, const _Tp&) min(const _Tp& __a, const _Tp& __b) ^ /usr/include/c++/5.3.1/bits/stl_algobase.h:195:5: note: template argument deduction/substitution failed: .../src/gdb/exec.c:801:54: note: deduced conflicting types for parameter ‘const _Tp’ (‘long long unsigned int’ and ‘long unsigned int’) end = std::min (offset + len, r->start + r->length); ^ In file included from /usr/include/c++/5.3.1/algorithm:61:0, from .../src/gdb/exec.c:46: /usr/include/c++/5.3.1/bits/stl_algobase.h:243:5: note: candidate: template<class _Tp, class _Compare> const _Tp& std::min(const _Tp&, const _Tp&, _Compare) min(const _Tp& __a, const _Tp& __b, _Compare __comp) ^ The problem is that the std::min/std::max function templates use the same type for both parameters. When the argument types are different, the compiler can't automatically deduce which template specialization to pick from the arguments' types. Fix that by specifying the specialization we want explicitly. gdb/ChangeLog: 2016-09-18 Pedro Alves <palves@redhat.com> * breakpoint.c (hardware_watchpoint_inserted_in_range): Explicitly specify the std:min/std::max specialization. * exec.c (section_table_read_available_memory): Likewise. * remote.c (remote_read_qxfer): Likewise. * target.c (simple_verify_memory): Likewise.
2016-09-18Automatic date update in version.inGDB Administrator1-1/+1
2016-09-17Improve MinGW support in ReadlineEli Zaretskii14-11/+125
These changes were already accepted upstream in Readline, but GDB did not yet import a newer Readline version. readline/Changelog.gdb: * util.c: Include rlshell.h. (_rl_tropen) [_WIN32 && !__CYGWIN__]: Open the trace file in the user's temporary directory. * tcap.h [HAVE_NCURSES_TERMCAP_H]: Include ncurses/termcap.h. * input.c (w32_isatty) [_WIN32 && !__CYGWIN__]: New function, to replace isatty that is not reliable enough on MS-Windows. (isatty) [_WIN32 && !__CYGWIN__]: Redirect to w32_isatty. (rl_getc): Call _getch, not getch, which could be an ncurses function when linked with ncurses, in which case getch will return EOF for any keystroke, because there's no curses window. * tilde.c (tilde_expand_word) [_WIN32]: * histfile.c (history_filename) [_WIN32]: Windows-specific environment variable to replace HOME if that is undefined. * funmap.c (default_funmap): Compile rl_paste_from_clipboard on all Windows platforms, not just Cygwin. * readline.h (rl_paste_from_clipboard): Include declaration for all Windows platforms. * display.c (insert_some_chars, delete_chars): Don't use the MinGW-specific code if linked with ncurses. * configure.in: * config.h.in: Support ncurses/termcap.h. The configure script was updated accordingly. * complete.c [_WIN32 && !__CYGWIN__]: Initialize _rl_completion_case_fold to 1. (printable_part, rl_filename_completion_function) [_WIN32 && !__CYGWIN__]: Handle the drive letter.
2016-09-17Automatic date update in version.inGDB Administrator1-1/+1
2016-09-16Introduce cleanup to restore current_uioutSimon Marchi7-38/+38
Make a globally available cleanup from a pre-existing one in infrun.c. This is used in a following patch. gdb/ChangeLog: * infrun.c (restore_current_uiout_cleanup): Move to ui-out.c. (print_stop_event): Use make_cleanup_restore_current_uiout. * python/python.c (execute_gdb_command): Likewise. * ui-out.c (restore_current_uiout_cleanup): Move from infrun.c. (make_cleanup_restore_current_uiout): New function definition. * ui-out.h (make_cleanup_restore_current_uiout): New function declaration. * utils.c (do_restore_ui_out): Remove. (make_cleanup_restore_ui_out): Remove. * utils.h (make_cleanup_restore_ui_out): Remove.