aboutsummaryrefslogtreecommitdiff
path: root/opcodes
AgeCommit message (Collapse)AuthorFilesLines
2022-08-04Don't use BFD_VMA_FMT in binutilsAlan Modra1-3/+3
BFD_VMA_FMT can't be used in format strings that need to be translated, because the translation won't work when the type of bfd_vma differs from the machine used to compile .pot files. We've known about this for a long time, but patches slip through review. So just get rid of BFD_VMA_FMT, instead using the appropriate PRId64, PRIu64, PRIx64 or PRIo64 and SCN variants for scanf. The patch is mostly mechanical, the only thing requiring any thought is casts needed to preserve PRId64 output from bfd_vma values, or to preserve one of the unsigned output formats from bfd_signed_vma values.
2022-08-03x86: properly mark i386-only insnsJan Beulich2-30/+30
Just like all Size64 insns are marked Cpu64, all Size32 insns ought to be marked Cpu386.
2022-08-03x86: also use D for MOVBEJan Beulich3-19/+3
First of all rename the meanwhile misleading Opcode_SIMD_FloatD, as it has also been used for KMOV* and BNDMOV. Then simplify the condition selecting which form if "reversing" to use - except for the MOV to/from control/debug/test registers all extended opcode space insns use bit 0 (rather than bit 1) to indicate the direction (from/to memory) of an operation. With that, D can simply be set on the first of the two templates, while the other can be dropped.
2022-08-02x86: XOP shift insns don't really allow B suffixJan Beulich2-20/+20
By mistake it was permitted to be used from the very introduction of XOP support.
2022-08-01x86: SKINIT with operand needs IgnoreSizeJan Beulich2-2/+2
Without it in 16-bit mode a pointless operand size prefix would be emitted.
2022-08-01opcodes: LoongArch: add "ret" instruction to reduce typingWANG Xuerui1-0/+1
This syntactic sugar is present in both classical and emerging architectures, like Alpha, SPARC and RISC-V, and assembler macros doing the same thing can already be found in the wild e.g. [1], proving the feature's popularity. It's better to provide support directly in the assembler so downstream users wouldn't have to re-invent this over and over again. [1]: https://sourceware.org/git/?p=glibc.git;a=blob;f=sysdeps/unix/sysv/linux/loongarch/sysdep.h;h=c586df819cd90;hb=HEAD#l28
2022-08-01opcodes: LoongArch: make all non-native jumps desugar to canonical ↵WANG Xuerui1-19/+12
b{lt/ge}[u] forms Also re-order the jump/branch opcodes while at it, so that insns are sorted in ascending order according to opcodes, and the label form preceding the real definition.
2022-08-01Get rid of fprintf_vma and sprintf_vmaAlan Modra5-50/+17
These two macros print either a 16 digit hex number or an 8 digit hex number. Unfortunately they depend on both target and host, which means that the output for 32-bit targets may be either 8 or 16 hex digits. Replace them in most cases with code that prints a bfd_vma using PRIx64. In some cases, deliberately lose the leading zeros. This change some output, notably in base/offset fields of m68k disassembly which I think looks better that way, and in error messages. I've kept leading zeros in symbol dumps (objdump -t) and in PE header dumps. bfd/ * bfd-in.h (fprintf_vma, sprintf_vma, printf_vma): Delete. * bfd-in2.h: Regenerate. * bfd.c (bfd_sprintf_vma): Don't use sprintf_vma. (bfd_fprintf_vma): Don't use fprintf_vma. * coff-rs6000.c (xcoff_reloc_type_tls): Don't use sprintf_vma. Instead use PRIx64 to print bfd_vma values. (xcoff_ppc_relocate_section): Likewise. * cofflink.c (_bfd_coff_write_global_sym): Likewise. * mmo.c (mmo_write_symbols_and_terminator): Likewise. * srec.c (srec_write_symbols): Likewise. * elf32-xtensa.c (print_r_reloc): Similarly for fprintf_vma. * pei-x86_64.c (pex64_dump_xdata): Likewise. (pex64_bfd_print_pdata_section): Likewise. * som.c (som_print_symbol): Likewise. * ecoff.c (_bfd_ecoff_print_symbol): Use bfd_fprintf_vma. opcodes/ * dis-buf.c (perror_memory, generic_print_address): Don't use sprintf_vma. Instead use PRIx64 to print bfd_vma values. * i386-dis.c (print_operand_value, print_displacement): Likewise. * m68k-dis.c (print_base, print_indexed): Likewise. * ns32k-dis.c (print_insn_arg): Likewise. * ia64-gen.c (_opcode_int64_low, _opcode_int64_high): Delete. (opcode_fprintf_vma): Delete. (print_main_table): Use PRIx64 to print opcode. binutils/ * od-macho.c: Replace all uses of printf_vma with bfd_printf_vma. * objcopy.c (copy_object): Don't use sprintf_vma. Instead use PRIx64 to print bfd_vma values. (copy_main): Likewise. * readelf.c (CHECK_ENTSIZE_VALUES): Likewise. (dynamic_section_mips_val): Likewise. (print_vma): Don't use printf_vma. Instead use PRIx64 to print bfd_vma values. (dump_ia64_vms_dynamic_fixups): Likewise. (process_version_sections): Likewise. * rddbg.c (stab_context): Likewise. gas/ * config/tc-i386.c (offset_in_range): Don't use sprintf_vma. Instead use PRIx64 to print bfd_vma values. (md_assemble): Likewise. * config/tc-mips.c (load_register, macro): Likewise. * messages.c (as_internal_value_out_of_range): Likewise. * read.c (emit_expr_with_reloc): Likewise. * config/tc-ia64.c (note_register_values): Don't use fprintf_vma. Instead use PRIx64 to print bfd_vma values. (print_dependency): Likewise. * listing.c (list_symbol_table): Use bfd_sprintf_vma. * symbols.c (print_symbol_value_1): Use %p to print pointers. (print_binary): Likewise. (print_expr_1): Use PRIx64 to print bfd_vma values. * write.c (print_fixup): Use %p to print pointers. Don't use fprintf_vma. * testsuite/gas/all/overflow.l: Update expected output. * testsuite/gas/m68k/mcf-mov3q.d: Likewise. * testsuite/gas/m68k/operands.d: Likewise. * testsuite/gas/s12z/truncated.d: Likewise. ld/ * deffilep.y (def_file_print): Don't use fprintf_vma. Instead use PRIx64 to print bfd_vma values. * emultempl/armelf.em (gld${EMULATION_NAME}_finish): Don't use sprintf_vma. Instead use PRIx64 to print bfd_vma values. * emultempl/pe.em (gld${EMULATION_NAME}_finish): Likewise. * ldlang.c (lang_map): Use %V to print region origin. (lang_one_common): Don't use sprintf_vma. * ldmisc.c (vfinfo): Don't use fprintf_vma or sprintf_vma. * pe-dll.c (pe_dll_generate_def_file): Likewise. gdb/ * remote.c (remote_target::trace_set_readonly_regions): Replace uses of sprintf_vma with bfd_sprintf_vma.
2022-07-29libopcodes/aarch64: add support for disassembler stylingAndrew Burgess3-177/+516
This commit enables disassembler styling for AArch64. After this commit it is possible to have objdump style AArch64 disassembler output (using --disassembler-color option). Once the required GDB patches are merged, GDB will also style the disassembler output. The changes to support styling are mostly split between two files opcodes/aarch64-dis.c and opcodes/aarch64-opc.c. The entry point for the AArch64 disassembler can be found in aarch64-dis.c, this file handles printing the instruction mnemonics, and assembler directives (e.g. '.byte', '.word', etc). Some operands, mostly relating to assembler directives are also printed from this file. This commit changes all of this to pass through suitable styling information. However, for most "normal" instructions, the instruction operands are printed using a two step process. From aarch64-dis.c, in the print_operands function, the function aarch64_print_operand is called, this function is in aarch64-opc.c, and converts an instruction operand into a string. Then, back in print_operands (aarch64-dis.c), the operand string is printed. Unfortunately, the string returned by aarch64_print_operand can be quite complex, it will include syntax elements, like '[' and ']', in addition to register names and immediate values. In some cases, a single operand will expand into what will appear (to the user) as multiple operands separated with a ','. This makes the task of styling more complex, all these different components need to by styled differently, so we need to get the styling information out of aarch64_print_operand in some way. The solution that I propose here is similar to the solution that I used for the i386 disassembler. Currently, aarch64_print_operand uses snprintf to write the operand text into a buffer provided by the caller. What I propose is that we pass an extra argument to the aarch64_print_operand function, this argument will be a structure, the structure contains a callback function and some state. When aarch64_print_operand needs to format part of its output this can be done by using the callback function within the new structure, this callback returns a string with special embedded markers that indicate which mode should be used for each piece of text. Back in aarch64-dis.c we can spot these special style markers and use this to split the disassembler output up and apply the correct style to each piece. To make aarch64-opc.c clearer a series of new static functions have been added, e.g. 'style_reg', 'style_imm', etc. Each of these functions formats a piece of text in a different style, 'register' and 'immediate' in this case. Here's an example taken from aarch64-opc.c of the new functions in use: snprintf (buf, size, "[%s, %s]!", style_reg (styler, base), style_imm (styler, "#%d", opnd->addr.offset.imm)); The aarch64_print_operand function is also called from the assembler to aid in printing diagnostic messages. Right now I have no plans to add styling to the assembler output, and so, the callback function used in the assembler ignores the styling information and just returns an plain string. I've used the source files in gas/testsuite/gas/aarch64/ for testing, and have manually gone through and checked that the styling looks reasonable, however, I'm not an AArch64 expert, so it is possible that the odd piece is styled incorrectly. Please point out any mistakes I've made. With objdump disassembler color turned off, there should be no change in the output after this commit.
2022-07-29x86: drop stray NoRex64 from KeyLocker insnsJan Beulich2-6/+6
It's entirely unclear why some of the KeyLocker insns had NoRex64 on them - there's nothing here which could cause emission of REX.W (except of course a user-specified "rex.w", which we ought to honor anyway).
2022-07-25libopcodes/ppc: add support for disassembler stylingAndrew Burgess2-30/+86
This commit adds disassembler styling to the libopcodes ppc disassembler. This conversion was pretty straight forward, I just converted the fprintf_func calls to fprintf_styled_func calls and added an appropriate style. For testing the new styling I just assembled then disassembled the source files in gas/testsuite/gas/ppc and manually checked that the styling looked reasonable. I think the only slightly weird case was how things like '4*cr1+eq' are styled. As best I can tell, this construct, used for example in this instruction: crand 4*cr1+lt,4*cr1+gt,4*cr1+eq is used to access a field of a control register. I initially tried styling this whole construct as a register[1], but during review it was suggested that instead different parts of the text should have different styles. In this commit I propose styling '4*cr1+lt' like this: 4 - immediate, * - text, cr1 - register + - text lt - sub-mnemonic If the user does not request styled output from objdump, then there should be no change in the disassembler output after this commit. [1] https://sourceware.org/pipermail/binutils/2022-July/121771.html
2022-07-25LoongArch:opcodes: Add new reloc types.liuzhensong1-170/+242
opcodes: Replace old insns with news and generate new relocate types while macro insns expanding. opcodes/ loongarch-opc.c
2022-07-21Add ChangeLog entry from previous commitPeter Bergner1-0/+10
2022-07-21PowerPC: Create new MMA instruction masks and use themPeter Bergner1-33/+39
The MMA instructions use XX3_MASK|3<<21 as an instruction mask, but that misses the RC bit/bit 31, so if we disassemble a .long that represents an MMA instruction except that it also has bit 31 set, we will erroneously disassemble it to that MMA instruction. We create new masks defines that contain bit 31 so that doesn't happen anymore. opcodes/ * ppc-opc.c (XACC_MASK, XX3ACC_MASK): New defines. (P_GER_MASK, xxmfacc, xxmtacc, xxsetaccz, xvi8ger4pp, xvi8ger4, xvf16ger2pp, xvf16ger2, xvf32gerpp, xvf32ger, xvi4ger8pp, xvi4ger8, xvi16ger2spp, xvi16ger2s, xvbf16ger2pp, xvbf16ger2, xvf64gerpp, xvf64ger, xvi16ger2, xvf16ger2np, xvf32gernp, xvi8ger4spp, xvi16ger2pp, xvbf16ger2np, xvf64gernp, xvf16ger2pn, xvf32gerpn, xvbf16ger2pn, xvf64gerpn, xvf16ger2nn, xvf32gernn, xvbf16ger2nn, xvf64gernn: Use them.
2022-07-21x86: replace wrong attributes on VCVTDQ2PH{X,Y}Jan Beulich2-4/+4
A standalone (without SAE) StaticRounding attribute is meaningless, and indeed all other similar insns have ATTSyntax there instead. I can only assume this was some strange copy-and-paste mistake.
2022-07-21x86/Intel: correct AVX512F scatter insn element sizesJan Beulich2-8/+8
I clearly screwed up in 6ff00b5e12e7 ("x86/Intel: correct permitted operand sizes for AVX512 scatter/gather") giving all AVX512F scatter insns Dword element size. Update testcases (also their gather parts), utilizing that there previously were two identical lines each (for no apparent reason).
2022-07-20Re: opcodes/arc: Implement style support in the disassemblerAlan Modra1-1/+1
* arc-dis.c (print_insn_arc): Fix thinko.
2022-07-18opcodes/arc: Implement style support in the disassemblerClaudiu Zissulescu3-46/+117
Update the ARC disassembler to supply style information to the disassembler output. The output formatting remains unchanged. opcodes/ChangeLog: * disassemble.c (disassemble_init_for_target): Set created_styled_output for ARC based targets. * arc-dis.c (find_format_from_table): Use fprintf_styled_ftype instead of fprintf_ftype throughout. (find_format): Likewise. (print_flags): Likewise. (print_insn_arc): Likewise. Signed-off-by: Claudiu Zissulescu <claziss@gmail.com>
2022-07-18x86: correct VMOVSH attributesJan Beulich2-5/+5
Both forms were missing VexW0 (thus allowing Evex.W=1 to be encoded by suitable means, which would cause #UD). The memory operand form further was using the wrong Masking value, thus allowing zeroing-masking to be encoded for the store form (which would again cause #UD).
2022-07-18x86: re-order insn template fieldsJan Beulich3-3720/+3728
This saves quite a number of shift instructions: The "operands" field can now be retrieved by just masking (no shift), and extracting the "extension_opcode" field now only requires a (signed) right shift, with no prereq left one. (Of course there may be architectures where, in a cross build, there might be no difference at all, e.g. when there are suitable bitfield extraction insns.)
2022-07-09Regenerate with automake-1.15.1Alan Modra3-901/+422
Until we update the recommended versions of autoconf/automake, files should be regenerated with automake-1.15.1 and autoconf-2.69. That's not because we think those versions are golden, and newer versions are bad. It's simply because maintainers want to be able to update configury files without trouble, and if someone regenerates files with automake-1.16.5 then --enable-maintainer-mode builds will hit errors: checking that generated files are newer than configure... configure.ac:26: error: version mismatch. This is Automake 1.15.1, configure.ac:26: but the definition used by this AM_INIT_AUTOMAKE configure.ac:26: comes from Automake 1.16.5. You should recreate configure.ac:26: aclocal.m4 with aclocal and run automake again. WARNING: 'automake-1.15' is probably too old. Correcting this requires regenerating the files by hand.
2022-07-08libopcodes/s390: add support for disassembler stylingAndrew Burgess2-16/+72
This commit adds disassembler style to the libopcodes s390 disassembler. This conversion was pretty straight forward, I just converted the fprintf_func calls to fprintf_styled_func calls and added an appropriate style. For testing the new styling I just assembled then disassembled the source files in gas/testsuite/gas/s390 and manually checked that the styling looked reasonable. If the user does not request styled output from objdump, then there should be no change in the disassembler output after this commit.
2022-07-08Update version to 2.39.50 and regenerate filesNick Clifton4-590/+1026
2022-07-08Add markers for 2.39 branchNick Clifton1-0/+4
2022-07-07RISC-V: Added Zfhmin and Zhinxmin.Tsukasa OI1-63/+63
This commit adds Zfhmin and Zhinxmin extensions (subsets of Zfh and Zhinx extensions, respectively). In the process supporting Zfhmin and Zhinxmin extension, this commit also changes how instructions are categorized considering Zfhmin, Zhinx and Zhinxmin extensions. Detailed changes, * From INSN_CLASS_ZFH to INSN_CLASS_ZFHMIN: flh, fsh, fmv.x.h and fmv.h.x. * From INSN_CLASS_ZFH to INSN_CLASS_ZFH_OR_ZHINX: fmv.h. * From INSN_CLASS_ZFH_OR_ZHINX to INSN_CLASS_ZFH_OR_ZHINX: fneg.h, fabs.h, fsgnj.h, fsgnjn.h, fsgnjx.h, fadd.h, fsub.h, fmul.h, fdiv.h, fsqrt.h, fmin.h, fmax.h, fmadd.h, fnmadd.h, fmsub.h, fnmsub.h, fcvt.w.h, fcvt.wu.h, fcvt.h.w, fcvt.h.wu, fcvt.l.h, fcvt.lu.h, fcvt.h.l, fcvt.h.lu, feq.h, flt.h, fle.h, fgt.h, fge.h, fclass.h. * From INSN_CLASS_ZFH_OR_ZHINX to INSN_CLASS_ZFHMIN_OR_ZHINXMIN: fcvt.s.h and fcvt.h.s. * From INSN_CLASS_D_AND_ZFH_INX to INSN_CLASS_ZFHMIN_AND_D: fcvt.d.h and fcvt.h.d. * From INSN_CLASS_Q_AND_ZFH_INX to INSN_CLASS_ZFHMIN_AND_Q: fcvt.q.h and fcvt.h.q. bfd/ChangeLog: * elfxx-riscv.c (riscv_implicit_subsets): Change implicit subsets. Zfh->Zicsr is not needed and Zfh->F is replaced with Zfh->Zfhmin and Zfhmin->F. Zhinx->Zicsr is not needed and Zhinx->Zfinx is replaced with Zhinx->Zhinxmin and Zhinxmin->Zfinx. (riscv_supported_std_z_ext): Added zfhmin and zhinxmin. (riscv_multi_subset_supports): Rewrite handling for new instruction classes. (riscv_multi_subset_supports_ext): Updated. (riscv_parse_check_conflicts): Change error message to include zfh and zfhmin extensions. gas/ChangeLog: * testsuite/gas/riscv/zfhmin-d-insn-class-fail.s: New complex error handling test. * testsuite/gas/riscv/zfhmin-d-insn-class-fail-1.d: Likewise. * testsuite/gas/riscv/zfhmin-d-insn-class-fail-1.l: Likewise. * testsuite/gas/riscv/zfhmin-d-insn-class-fail-2.d: Likewise. * testsuite/gas/riscv/zfhmin-d-insn-class-fail-2.l: Likewise. * testsuite/gas/riscv/zfhmin-d-insn-class-fail-3.d: Likewise. * testsuite/gas/riscv/zfhmin-d-insn-class-fail-3.l: Likewise. * testsuite/gas/riscv/zfhmin-d-insn-class-fail-4.d: Likewise. * testsuite/gas/riscv/zfhmin-d-insn-class-fail-4.l: Likewise. * testsuite/gas/riscv/zfhmin-d-insn-class-fail-5.d: Likewise. * testsuite/gas/riscv/zfhmin-d-insn-class-fail-5.l: Likewise. * testsuite/gas/riscv/zhinx.d: Renamed from fp-zhinx-insns.d and refactored. * testsuite/gas/riscv/zhinx.s: Likewise. include/ChangeLog: * opcode/riscv.h (enum riscv_insn_class): Removed INSN_CLASS_ZFH, INSN_CLASS_D_AND_ZFH_INX and INSN_CLASS_Q_AND_ZFH_INX. Added INSN_CLASS_ZFHMIN, INSN_CLASS_ZFHMIN_OR_ZHINXMIN, INSN_CLASS_ZFHMIN_AND_D and INSN_CLASS_ZFHMIN_AND_Q. opcodes/ChangeLog: * riscv-opc.c (riscv_opcodes): Change instruction classes for Zfh and Zfhmin instructions. Fix `fcvt.h.lu' instruction (two operand variant) mask.
2022-07-07RISC-V: Fix disassembling Zfinx with -M numericTsukasa OI1-1/+1
This commit fixes floating point operand register names from ABI ones to dynamically set ones. gas/ChangeLog: * testsuite/gas/riscv/zfinx-dis-numeric.s: Test new behavior of Zfinx extension and -M numeric disassembler option. * testsuite/gas/riscv/zfinx-dis-numeric.d: Likewise. opcodes/ChangeLog: * riscv-dis.c (riscv_disassemble_insn): Use dynamically set GPR names to disassemble Zfinx instructions.
2022-07-06x86: make D attribute usable for XOP and FMA4 insnsJan Beulich3-706/+62
This once again allows to reduce redundancy in (and size of) the opcode table. Don't go as far as also making D work on the two 5-operand XOP insns: This would significantly complicate the code, as there the first (immediate) operand would need special treatment in several places. Note that the .s suffix isn't being enabled to have any effect, for being deprecated. Whereas neither {load} nor {store} pseudo prefixes make sense here, as the respective operands are inputs (loads) only anyway, regardless of order. Hence there is (as before) no way for the programmer to request the alternative encoding to be used for register- only insns. Note further that it is always the first original template which is retained (and altered), to make sure the same encoding as before is used for register-only insns. This has the slightly odd (but pre- existing) effect of XOP register-only insns having XOP.W clear, but FMA4 ones having VEX.W set.
2022-07-04opcodes/avr: Implement style support in the disassemblerMarcus Nilsson3-10/+55
* disassemble.c: (disassemble_init_for_target): Set created_styled_output for AVR based targets. * avr-dis.c: (print_insn_avr): Use fprintf_styled_ftype instead of fprintf_ftype throughout. (avr_operand): Pass in and fill disassembler_style when parsing operands.
2022-07-04x86: fold Disp32S and Disp32Jan Beulich5-12883/+12886
The only case where 64-bit code uses non-sign-extended (can also be considered zero-extended) displacements is when an address size override is in place for a memory operand (i.e. particularly excluding displacements of direct branches, which - if at all - are controlled by operand size, and then are still sign-extended, just from 16 bits). Hence the distinction in templates is unnecessary, allowing code to be simplified in a number of places. The only place where logic becomes more complicated is when signed-ness of relocations is determined in output_disp(). The other caveat is that Disp64 cannot be specified anymore in an insn template at the same time as Disp32. Unlike for non-64-bit mode, templates don't specify displacements for both possible addressing modes; the necessary adjustment to the expected ones has already been done in match_template() anyway (but of course the logic there needs tweaking now). Hence the single template so far doing so is split.
2022-07-04x86: restore masking of displacement kindsJan Beulich2-12/+12
Commit 7d5e4556a375 rendered the check near the end of what is now i386_finalize_displacement() entirely dead for AT&T mode, since for operands involving a displacement .unspecified will always be set. But the logic there is bogus anyway - Intel syntax operand size specifiers are of no interest there either. The only thing which matters in the "displacement only" determination is .baseindex. Of course when masking displacement kinds we should not at the same time also mask off other attributes. Furthermore the type mask returned by lex_got() also needs to be adjusted: The only case where we want Disp32 (rather than Disp32S) is when dealing with 32-bit addressing mode in 64-bit code.
2022-06-29opcodes/aarch64: split off creation of comment text in disassemblerAndrew Burgess2-8/+29
The function aarch64_print_operand (aarch64-opc.c) is responsible for converting an instruction operand into the textual representation of that operand. In some cases, a comment is included in the operand representation, though this (currently) only happens for the last operand of the instruction. In a future commit I would like to enable the new libopcodes styling for AArch64, this will allow objdump and GDB[1] to syntax highlight the disassembler output, however, having operands and comments combined in a single string like this makes such styling harder. In this commit, I propose to extend aarch64_print_operand to take a second buffer. Any comments for the instruction are written into this extra buffer. The two callers of aarch64_print_operand are then updated to pass an extra buffer, and print any resulting comment. In this commit no styling is added, that will come later. However, I have adjusted the output slightly. Before this commit some comments would be separated from the instruction operands with a tab character, while in other cases the comment was separated with two single spaces. After this commit I use a single tab character in all cases. This means a few test cases needed updated. If people would prefer me to move everyone to use the two spaces, then just let me know. Or maybe there was a good reason why we used a mix of styles, I could probably figure out a way to maintain the old output exactly if that is critical. Other than that, there should be no user visible changes after this commit. [1] GDB patches have not been merged yet, but have been posted to the GDB mailing list: https://sourceware.org/pipermail/gdb-patches/2022-June/190142.html
2022-06-29x86: drop stray NoRex64 from XBEGINJan Beulich2-2/+2
Presumably this being there was a result of taking CALL as a reference when adding the RTM insns. But with No_qSuf the attribute has no effect.
2022-06-27drop XC16x bitsJan Beulich14-10784/+4
Commit 04f096fb9e25 ("Move the xc16x target to the obsolete list") moved the architecture from the "obsolete but still available" to the "obsolete / support removed" list in config.bfd, making the architecture impossible to enable (except maybe via "enable everything" options"). Note that I didn't touch */po/*.po{,t} on the assumption that these would be updated by some (half)automatic means.
2022-06-22RISC-V: Use single h extension to control hypervisor CSRs and instructions.Nelson Chu1-19/+19
According to the picture 28.1 in the current ISA spec, h is no larger the multi-letter extension, it is a single extension after v. Therefore, this patch fix the implementation, and use the single h to control hypervisor CSRs and instructions, which we promised to do before. bfd/ * elfxx-riscv.c (riscv_supported_std_ext): Added h with version 1.0 after v. (riscv_supported_std_h_ext): Removed. (riscv_all_supported_ext): Updated since riscv_supported_std_h_ext is removed. (riscv_prefix_ext_class): Removed RV_ISA_CLASS_H. (parse_config): Updated since riscv_prefix_ext_class is removed. (riscv_recognized_prefixed_ext): Likewise. (riscv_get_default_ext_version): Likewise. (riscv_multi_subset_supports): Handle INSN_CLASS_H for hypervisor instructions. (riscv_multi_subset_supports_ext): Likewise. gas/ * config/tc-riscv.c (riscv_csr_class): Added CSR_CLASS_H and CSR_CLASS_H_32 for hypervisor CSRs. (riscv_csr_address): Likewise. * testsuite/gas/riscv/csr-version-1p10.d: Updated since hypervisor CSRs are controlled by single h extension for now. * testsuite/gas/riscv/csr-version-1p10.l: Likewise. * testsuite/gas/riscv/csr-version-1p11.d: Likewise. * testsuite/gas/riscv/csr-version-1p11.l: Likewise. * testsuite/gas/riscv/csr-version-1p12.d: Likewise. * testsuite/gas/riscv/csr-version-1p12.l: Likewise. * testsuite/gas/riscv/csr-version-1p9p1.d: Likewise. * testsuite/gas/riscv/csr-version-1p9p1.l: Likewise. * testsuite/gas/riscv/h-ext-32.d: Added h to architecture string. * testsuite/gas/riscv/h-ext-64.d: Likewise. * testsuite/gas/riscv/march-fail-single-prefix-h: Removed since h is no longer multi-letter extension. * testsuite/gas/riscv/march-fail-unknown-h.d: Likewise. include/ * opcode/riscv-opc.h: Control hypervisor CSRs by h extension, rather than the privileged spec verisons. * opcode/riscv.h (riscv_insn_class): Added INSN_CLASS_H. opcodes/ * riscv-opc.c (riscv_opcodes): Control hypervisor instructions by h extension.
2022-06-15x86: drop print_operand_value()'s "hex" parameterJan Beulich1-55/+16
For quite some time all callers have been passing 1 / true. While there fold the final oappend_with_style() calls.
2022-06-13x86: fix incorrect indirectionJan Beulich1-1/+1
Commit 384e201e5aec ("x86: properly initialize struct instr_info instance(s)") was based on an improperly refreshed patch. Correct the oversight.
2022-06-13x86: replace global scratch bufferJan Beulich1-126/+97
With its movement to the stack, and with the subsequent desire to initialize the entire instr_info instances, this has become doubly inefficient. Individual users have better knowledge of how big a buffer they need, and in a number of cases going through an intermediate buffer can be avoided altogether. Having got confirmation that it wasn't intentional to print memory operand displacements with inconsistent style, print_displacement() is now using dis_style_address_offset consistently (eliminating the need for callers to pass in a style). While touching print_operand_value() also convert its "hex" parameter to bool. And while altering (and moving) oappend_immediate(), fold oappend_maybe_intel_with_style() into its only remaining caller. Finally where doing adjustments, use snprintf() in favor of sprintf().
2022-06-13x86: avoid string copy when swapping Vex.W controlled operandsJan Beulich1-6/+8
Now that op_out[] is an array of pointers, there's no need anymore to copy strings. Simply swap the pointers.
2022-06-13x86: shrink prefix related disassembler state fieldsJan Beulich1-27/+28
By changing the values used for "artificial" prefix values, all_prefixes[] can be shrunk to array of unsigned char. All that additionally needs adjusting is the printing of possible apparently standalone prefixes when recovering from longjmp(): Simply check whether any prefixes were successfully decoded, to avoid converting opcode bytes matching the "artificial" values to prefix mnemonics. Similarly by re-arranging the bits assigned to PREFIX_* mask values we can fit all segment register masks in a byte and hence shrink active_seg_prefix to unsigned char. Somewhat similarly with last_*_prefix representing offsets into the opcode being disassembled, signed char is sufficient to hold all possible values.
2022-06-13x86: properly initialize struct instr_info instance(s)Jan Beulich1-257/+235
Commit 39fb369834a3 ("opcodes: Make i386-dis.c thread-safe") introduced a lot of uninitialized data. Alan has in particular observed ubsan taking issue with the loop inverting the order of operands, where op_riprel[] - an array of bool - can hold values other than 0 or 1. Move instantiation of struct instr_info into print_insn() (thus having just a single central point), and make use of C99 dedicated initializers to fill fields right in the initializer where possible. This way all fields not explicitly initialized will be zero-filled, which in turn allows dropping of some other explicit initialization later in the function or in ckprefix(). Additionally this removes a lot of indirection, as all "ins->info" uses can simply become "info". Make one further arrangement though, to limit the amount of data needing (zero)initializing on every invocation: Convert the op_out structure member to just an array of pointers, with the actual arrays living inside print_insn() (and, as befoe, having just their 1st char filled with nul). While there, instead of adjusting print_insn()'s forward declaration, arrange for no such declaration to be needed in the first place.
2022-06-08libopcodes: extend the styling within the i386 disassemblerAndrew Burgess1-137/+286
The i386 disassembler is pretty complex. Most disassembly is done indirectly; operands are built into buffers within a struct instr_info instance, before finally being printed later in the disassembly process. Sometimes the operand buffers are built in a different order to the order in which they will eventually be printed. Each operand can contain multiple components, e.g. multiple registers, immediates, other textual elements (commas, brackets, etc). When looking for how to apply styling I guess the ideal solution would be to move away from the operands being a single string that is built up, and instead have each operand be a list of "parts", where each part is some text and a style. Then, when we eventually print the operand we would loop over the parts and print each part with the correct style. But it feels like a huge amount of work to move from where we are now to that potentially ideal solution. Plus, the above solution would be pretty complex. So, instead I propose a .... different solution here, one that works with the existing infrastructure. As each operand is built up, piece be piece, we pass through style information. This style information is then encoded into the operand buffer (see below for details). After this the code can continue to operate as it does right now in order to manage the set of operand buffers. Then, as each operand is printed we can split the operand buffer into chunks at the style marker boundaries, with each chunk being printed with the correct style. For encoding the style information I use a single character, currently \002, followed by the style encoded as a single hex digit, followed again by the \002 character. This of course relies on there not being more than 16 styles, but that is currently true, and hopefully will remain true for the foreseeable future. The other major concern that has arisen around this work is whether the escape character could ever be encountered in output naturally generated by the disassembler. If this did happen then the escape characters would be stripped from the output, and the wrong styling would be applied. However, I don't believe that this is currently a problem. Disassembler content comes from a number of sources. First there's content that copied directly from the i386-dis.c file, this is things like register names, and other syntax elements (brackets, commas, etc). We can easily check that the i386-dis.c file doesn't contain our special character. The next source of content are immediate operands. The text for these operands is generated by calls into libc. By selecting a non-printable character we can be confident that this is not something that libc will generate as part of an immediate representation. The other output that appears to be from the disassembler is operands that contain addresses and (possibly) symbol names. It is quite possible that a symbol name might contain any special character we could imagine, so is this a problem? I don't think it is, we don't actually print address and symbol operands through the disassembler, instead, the disassembler calls back to the user (objdump, gdb, etc) to print the address and symbol on its behalf. This content is printed directly to the output stream, it does not pass through the i386 disassembler output buffers. As a result, we never check this particular output for styling escape characters. In some (not very scientific) benchmarking on my machine, disassembling a reasonably large (142M) shared library, I'm not seeing any significant slow down in disassembler speed with this change. Most instructions are now being fully syntax highlighted when I disassemble using the --disassembler-color=extended-color option. I'm sure that there are probably still a few corner cases that need fixing up, but we can come back to them later I think. When disassembler syntax highlighting is not being used, then there should be no user visible changes after this commit.
2022-05-30RISC-V: Add zhinx extension supports.jiawei1-56/+56
The zhinx extension is a sub-extension in zfinx, corresponding to zfh extension but use GPRs instead of FPRs. This patch expanded the zfh insn class define, since zfh and zhinx use the same opcodes, thanks for Nelson's works. changelog in V2: Add missing classes of 'zfh' and 'zhinx' in "riscv_multi_subset_supports_ext". bfd/ChangeLog: * elfxx-riscv.c (riscv_multi_subset_supports): New extensions. (riscv_multi_subset_supports_ext): New extensions. gas/ChangeLog: * testsuite/gas/riscv/fp-zhinx-insns.d: New test. * testsuite/gas/riscv/fp-zhinx-insns.s: New test. include/ChangeLog: * opcode/riscv.h (enum riscv_insn_class): New INSN classes. opcodes/ChangeLog: * riscv-opc.c: Modify INSN_CLASS.
2022-05-27opcodes/i386: remove trailing whitespace from insns with zero operandsAndrew Burgess1-5/+22
While working on another patch[1] I had need to touch this code in i386-dis.c: ins->obufp = ins->mnemonicendp; for (i = strlen (ins->obuf) + prefix_length; i < 6; i++) oappend (ins, " "); oappend (ins, " "); (*ins->info->fprintf_styled_func) (ins->info->stream, dis_style_mnemonic, "%s", ins->obuf); What this code does is add whitespace after the instruction mnemonic and before the instruction operands. The problem I ran into when working on this code can be seen by assembling this input file: .text nop retq Now, when I disassemble, here's the output. I've replaced trailing whitespace with '_' so that the issue is clearer: Disassembly of section .text: 0000000000000000 <.text>: 0: 90 nop 1: c3 retq___ Notice that there's no trailing whitespace after 'nop', but there are three spaces after 'retq'! What happens is that instruction mnemonics are emitted into a buffer instr_info::obuf, then instr_info::mnemonicendp is setup to point to the '\0' character at the end of the mnemonic. When we emit the whitespace, this is then added starting at the mnemonicendp position. Lets consider 'retq', first the buffer is setup like this: 'r' 'e' 't' 'q' '\0' Then we add whitespace characters at the '\0', converting the buffer to this: 'r' 'e' 't' 'q' ' ' ' ' ' ' '\0' However, 'nop' is actually an alias for 'xchg %rax,%rax', so, initially, the buffer is setup like this: 'x' 'c' 'h' 'g' '\0' Then in NOP_Fixup we spot that we have an instruction that is an alias for 'nop', and adjust the buffer to this: 'n' 'o' 'p' '\0' '\0' The second '\0' is left over from the original buffer contents. However, when we rewrite the buffer, we don't afjust mnemonicendp, which still points at the second '\0' character. Now, when we insert whitespace we get: 'n' 'o' 'p' '\0' ' ' ' ' ' ' ' ' '\0' Notice the whitespace is inserted after the first '\0', so, when we print the buffer, the whitespace is not printed. The fix for this is pretty easy, I can change NOP_Fixup to adjust mnemonicendp, but now a bunch of tests start failing, we now produce whitespace after the 'nop', which the tests don't expect. So, I could update the tests to expect the whitespace.... ...except I'm not a fan of trailing whitespace, so I'd really rather not. Turns out, I can pretty easily update the whitespace emitting code to spot instructions that have zero operands and just not emit any whitespace in this case. So this is what I've done. I've left in the fix for NOP_Fixup, I think updating mnemonicendp is probably a good thing, though this is not really required any more. I've then updated all the tests that I saw failing to adjust the expected patterns to account for the change in whitespace. [1] https://sourceware.org/pipermail/binutils/2022-April/120610.html
2022-05-27Remove use of bfd_uint64_t and similarAlan Modra3-4/+4
Requiring C99 means that uses of bfd_uint64_t can be replaced with uint64_t, and similarly for bfd_int64_t, BFD_HOST_U_64_BIT, and BFD_HOST_64_BIT. This patch does that, removes #ifdef BFD_HOST_* and tidies a few places that print 64-bit values.
2022-05-27x86: re-work AVX512 embedded rounding / SAEJan Beulich2-11453/+853
As a preparatory step to allowing proper non-operand forms of specifying embedded rounding / SAE, convert the internal representation to non- operand form. While retaining properties (and in a few cases perhaps providing more meaningful diagnostics), this means doing away with a few hundred standalone templates, thus - as a nice side effect - reducing memory consumption / cache occupancy.
2022-05-27x86/Intel: adjust representation of embedded rounding / SAEJan Beulich1-0/+17
MASM doesn't consider {sae} and alike a separate operand; it is attached to the last register operand instead, just like spelled out by the SDM. Make the disassembler follow this first, before also adjusting the assembler (such that it'll be easy to see that the assembler change doesn't alter generated code).
2022-05-27x86/Intel: adjust representation of embedded broadcastJan Beulich1-4/+11
MASM doesn't support the {1to<n>} form; DWORD BCST (paralleling DWORD PTR) and alike are to be used there instead. Make the disassembler follow this first, before also adjusting the assembler (such that it'll be easy to see that the assembler change doesn't alter generated code). For VFPCLASSP{S,D,H} and vector conversions with shrinking element sizes the original {1to<n>} operand suffix is retained, to disambiguate output. I have no insight (yet) into how MASM expects those to be disambiguated.
2022-05-25opcodes: introduce BC field; fix iselDmitry Selyutin1-2/+5
Per Power ISA Version 3.1B 3.3.12, isel uses BC field rather than CRB field present in binutils sources. Also, per 1.6.2, BC has the same semantics as BA and BB fields, so this should keep the same flags and mask, only with the different offset. opcodes/ * ppc-opc.c (BC): Define new field, with the same definition as CRB field, but with the PPC_OPERAND_CR_BIT flag present. gas/ * testsuite/gas/ppc/476.d: Update. * testsuite/gas/ppc/a2.d: Update. * testsuite/gas/ppc/e500.d: Update. * testsuite/gas/ppc/power7.d: Update.
2022-05-25ppc: extend opindex to 16 bitsDmitry Selyutin1-6/+6
With the upcoming SVP64 extension[0] to PowerPC architecture, it became evident that PowerPC operand indices no longer fit 8 bits. This patch switches the underlying type to uint16_t, also introducing a special typedef so that any future extension goes even smoother. [0] https://libre-soc.org include/ * opcode/ppc.h (ppc_opindex_t): New typedef. (struct powerpc_opcode): Use it. (PPC_OPINDEX_MAX): Define. gas/ * write.h (struct fix): Increase size of fx_pcrel_adjust. Reorganise. * config/tc-ppc.c (insn_validate): Use ppc_opindex_t for operands. (md_assemble): Likewise. (md_apply_fix): Likewise. Mask fx_pcrel_adjust with PPC_OPINDEX_MAX. (ppc_setup_opcodes): Adjust opcode index assertion. opcodes/ * ppc-dis.c (skip_optional_operands): Use ppc_opindex_t for operand pointer. (lookup_powerpc, lookup_prefix, lookup_vle, lookup_spe2): Likewise. (print_insn_powerpc): Likewise.
2022-05-20RISC-V: Update zfinx implement with zicsr.Jia-Wei Chen1-14/+14
Update zfinx implement with zicsr, fix missing fcsr use by zfinx. add zicsr imply by zfinx. bfd/ChangeLog: * elfxx-riscv.c: New imply. gas/ChangeLog: * testsuite/gas/riscv/csr-insns-pseudo-zfinx.d: New test. opcodes/ChangeLog: * riscv-opc.c: Update insn class.