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This patch changes the opcodes CGEN support code in order to support
base instructions with opcodes past the least significative 32 bits.
Note that the masks have been adapted in a previous patch.
include/ChangeLog:
2023-05-10 Jose E. Marchesi <jose.marchesi@oracle.com>
* opcode/cgen.h (CGEN_IVALUE): Make room for 64-bit base values.
opcodes/ChangeLog:
2023-05-10 Jose E. Marchesi <jose.marchesi@oracle.com>
* cgen-dis.in (print_insn): Use CGEN_INSN_LGUINT for instruction
base values.
* cgen-dis.c (cgen_dis_lookup_insn): Likewise.
* cgen-opc.c (cgen_macro_insn_count): Likewise.
* epiphany-dis.c: Regenerate.
* fr30-dis.c: Likewise.
* frv-dis.c: Likewise.
* ip2k-dis.c: Likewise.
* iq2000-dis.c: Likewise.
* lm32-dis.c: Likewise.
* m32c-dis.c: Likewise.
* m32r-dis.c: Likewise.
* mep-dis.c: Likewise.
* mt-dis.c: Likewise.
* or1k-dis.c: Likewise.
* xstormy16-dis.c: Likewise.
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Ventana Micro has published the specification for their
XVentanaCondOps ("conditional ops") extension at
https://github.com/ventanamicro/ventana-custom-extensions/releases/download/v1.0.0/ventana-custom-extensions-v1.0.0.pdf
which contains two new instructions
- vt.maskc
- vt.maskcn
that can be used in constructing branchless sequences for
various conditional-arithmetic, conditional-logical, and
conditional-select operations.
To support such vendor-defined instructions in the mainline binutils,
this change also adds a riscv_supported_vendor_x_ext secondary
dispatch table (but also keeps the behaviour of allowing any unknow
X-extension to be specified in addition to the known ones from this
table).
As discussed, this change already includes the planned/agreed future
requirements for X-extensions (which are likely to be captured in the
riscv-toolchain-conventions repository):
- a public specification document is available (see above) and is
referenced from the gas-documentation
- the naming follows chapter 27 of the RISC-V ISA specification
- instructions are prefixed by a vendor-prefix (vt for Ventana)
to ensure that they neither conflict with future standard
extensions nor clash with other vendors
bfd/ChangeLog:
* elfxx-riscv.c (riscv_get_default_ext_version): Add riscv_supported_vendor_x_ext.
(riscv_multi_subset_supports): Recognize INSN_CLASS_XVENTANACONDOPS.
gas/ChangeLog:
* doc/c-riscv.texi: Add section to list custom extensions and
their documentation URLs.
* testsuite/gas/riscv/x-ventana-condops.d: New test.
* testsuite/gas/riscv/x-ventana-condops.s: New test.
include/ChangeLog:
* opcode/riscv-opc.h Add vt.maskc and vt.maskcn.
* opcode/riscv.h (enum riscv_insn_class): Add INSN_CLASS_XVENTANACONDOPS.
opcodes/ChangeLog:
* riscv-opc.c: Add vt.maskc and vt.maskcn.
Series-version: 1
Series-to: binutils@sourceware.org
Series-cc: Kito Cheng <kito.cheng@sifive.com>
Series-cc: Nelson Chu <nelson.chu@sifive.com>
Series-cc: Greg Favor <gfavor@ventanamicro.com>
Series-cc: Christoph Muellner <cmuellner@gcc.gnu.org>
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rs6000-coff archives use a linked list of file offsets, where each
element points to the next element. The idea is to allow updating of
large archives quickly without rewriting the whole archive. (binutils
ar does not do this.) Unfortunately this is an easy target for
fuzzers to create an archive that will cause ar or any other tool
processing archives to hang. I'd implemented guards against pointing
back to the previous element, but of course that didn't last long.
So this patch implements a scheme to keep track of file offset ranges
used by elements as _bfd_read_ar_hdr is called for each element. See
the add_range function comment. I needed a place to stash the list,
so chose the obvious artdata.tdata backend extension to archive's
tdata, already used by xcoff. That involved a little cleanup, because
while it would be possible to continue using different artdata.tdata
for the big and small archives, it's nicer to use a union.
If anyone is concerned this list of element ranges might grow large
and thus significantly slow down the tools, adjacent ranges are
merged. In fact something like "ar t" will only ever have one range
on xcoff archives generated by binutils/ar. I agree there might still
be a problem with ld random element access via the armap.
include/
* coff/xcoff.h (SIZEOF_AR_FILE_HDR): Use sizeof.
(SIZEOF_AR_FILE_HDR_BIG, SIZEOF_AR_HDR, SIZEOF_AR_HDR_BIG): Likewise.
(struct ar_ranges, struct xcoff_artdata): New.
(x_artdata): Define.
(xcoff_big_format_p): Rewrite.
(xcoff_ardata, xcoff_ardata_big): Delete.
bfd/
* coff-rs6000.c: Replace uses of xcoff_ardata and
xcoff_ardata_big throughout file.
(_bfd_xcoff_archive_p): Adjust artdata.tdata allocation.
(add_range): New function.
(_bfd_xcoff_read_ar_hdr): Use it here. Fix memory leak.
(_bfd_xcoff_openr_next_archived_file): Remove old sanity
checks. Set up range for header.
(xcoff_write_archive_contents_old): Make the temporary
artdata.tdata used here to pass info down to
_bfd_compute_and_write_armap a struct xcoff_artdata.
(xcoff_write_archive_contents_big): Likewise.
* coff64-rs6000.c: Replace uses of xcoff_ardata and
xcoff_ardata_big throughout file.
(xcoff64_archive_p): Adjust artdata.tdata allocation.
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include/
* sframe.h: Correct a typo.
libsframe/
* sframe.c: Likewise.
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Sorry for not catching this during testing. I was using a
host compiler that predated the switch to -fno-common.
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This patch adds the RPRFM (range prefetch) instruction.
It was introduced as part of SME2, but it belongs to the
prefetch hint space and so doesn't require any specific
ISA flags.
The aarch64_rprfmop_array initialiser (deliberately) only
fills in the leading non-null elements.
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This patch adds the SVE FDOT, SDOT and UDOT instructions,
which are available when FEAT_SME2 is implemented. The patch
also reorders the existing SVE_Zm3_22_INDEX to keep the
operands numerically sorted.
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There are two instruction formats here:
- SQRSHR, SQRSHRU and UQRSHR, which operate on lists of two
or four registers.
- SQRSHRN, SQRSHRUN and UQRSHRN, which operate on lists of
four registers.
These are the first SME2 instructions to have immediate operands.
The patch makes sure that, when parsing SME2 instructions with
immediate operands, the new predicate-as-counter registers are
parsed as registers rather than as #-less immediates.
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There are two instruction formats here:
- SQCVT, SQCVTU and UQCVT, which operate on lists of two or
four registers.
- SQCVTN, SQCVTUN and UQCVTN, which operate on lists of
four registers.
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SMLALL, SMLSLL, UMLALL and UMLSLL have the same format.
USMLALL and SUMLALL allow the same operand types as those
instructions, except that SUMLALL does not have the multi-vector
x multi-vector forms (which would be redundant with USMLALL).
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The {BF,F,S,U}MLAL and {BF,F,S,U}MLSL instructions share the same
encoding. They are the first instance of a ZA (as opposed to ZA tile)
operand having a range of offsets. As with ZA tiles, the expected
range size is encoded in the operand-specific data field.
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This patch adds the SME2 multi-register forms of F{MAX,MIN}{,NM}
and {S,U}{MAX,MIN}. SQDMULH, SRSHL and URSHL have the same form
as SMAX etc., so the patch adds them too.
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Add support for the SME2 ADD. SUB, FADD and FSUB instructions.
SUB and FSUB have the same form as ADD and FADD, except that
ADD also has a 2-operand accumulating form.
The 64-bit ADD/SUB instructions require FEAT_SME_I16I64 and the
64-bit FADD/FSUB instructions require FEAT_SME_F64F64.
These are the first instructions to have tied register list
operands, as opposed to tied single registers.
The parse_operands change prevents unsuffixed Z registers (width==-1)
from being treated as though they had an Advanced SIMD-style suffix
(.4s etc.). It means that:
Error: expected element type rather than vector type at operand 2 -- `add za\.s\[w8,0\],{z0-z1}'
becomes:
Error: missing type suffix at operand 2 -- `add za\.s\[w8,0\],{z0-z1}'
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SME2 adds lookup table instructions for quantisation. They use
a new lookup table register called ZT0.
LUTI2 takes an unsuffixed SVE vector index of the form Zn[<imm>],
which is the first time that this syntax has been used.
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Implementation-wise, the main things to note here are:
- the WHILE* instructions have forms that return a pair of predicate
registers. This is the first time that we've had lists of predicate
registers, and they wrap around after register 15 rather than after
register 31.
- the predicate-as-counter WHILE* instructions have a fourth operand
that specifies the vector length. We can treat this as an enumeration,
except that immediate values aren't allowed.
- PEXT takes an unsuffixed predicate index of the form PN<n>[<imm>].
This is the first instance of a vector/predicate index having
no suffix.
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SME2 adds LD1 and ST1 variants for lists of 2 and 4 registers.
The registers can be consecutive or strided. In the strided case,
2-register lists have a stride of 8, starting at register x0xxx.
4-register lists have a stride of 4, starting at register x00xx.
The instructions are predicated on a predicate-as-counter register in
the range pn8-pn15. Although we already had register fields with upper
bounds of 7 and 15, this is the first plain register operand to have a
nonzero lower bound. The patch uses the operand-specific data field
to record the minimum value, rather than having separate inserters
and extractors for each lower bound. This in turn required adding
an extra bit to the field.
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SME2 defines new MOVA instructions for moving multiple registers
to and from ZA. As with SME, the instructions are also available
through MOV aliases.
One notable feature of these instructions (and many other SME2
instructions) is that some register lists must start at a multiple
of the list's size. The patch uses the general error "start register
out of range" when this constraint isn't met, rather than an error
specifically about multiples. This ensures that the error is
consistent between these simple consecutive lists and later
strided lists, for which the requirements aren't a simple multiple.
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SME2 adds a new format for the existing SVE predicate registers:
predicates as counters rather than predicates as masks. In assembly
code, operands that interpret predicates as counters are written
pn<N> rather than p<N>.
This patch adds support for these registers and extends some
existing instructions to support them. Since the new forms
are just a programmer convenience, there's no need to make them
more restrictive than the earlier predicate-as-mask forms.
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Some SME2 instructions operate on a range of consecutive ZA vectors.
This is indicated by syntax such as:
za[<Wv>, <imml>:<immh>]
Like with the earlier vgx2 and vgx4 support, we get better error
messages if the parser allows all ZA indices to have a range.
We can then reject invalid cases during constraint checking.
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Many SME2 instructions operate on groups of 2 or 4 ZA vectors.
This is indicated by adding a "vgx2" or "vgx4" group size to the
ZA index. The group size is optional in assembly but preferred
for disassembly.
There is not a binary distinction between mnemonics that have
group sizes and mnemonics that don't, nor between mnemonics that
take vgx2 and mnemonics that take vgx4. We therefore get better
error messages if we allow any ZA index to have a group size
during parsing, and wait until constraint checking to reject
invalid sizes.
A quirk of the way errors are reported means that if an instruction
is wrong both in its qualifiers and its use of a group size, we'll
print suggested alternative instructions that also have an incorrect
group size. But that's a general property that also applies to
things like out-of-range immediates. It's also not obviously the
wrong thing to do. We need to be relatively confident that we're
looking at the right opcode before reporting detailed operand-specific
errors, so doing qualifier checking first seems resonable.
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SME2 adds various new fields that are similar to
AARCH64_OPND_SME_ZA_array, but are distinguished by the size of
their offset fields. This patch adds _off4 to the name of the
field that we already have.
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This patch adds bare-bones support for +sme2. Later patches
fill in the rest.
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SME2 has instructions that accept strided register lists,
such as { z0.s, z4.s, z8.s, z12.s }. The purpose of this
patch is to extend binutils to support such lists.
The parsing code already had (unused) support for strides of 2.
The idea here is instead to accept all strides during parsing
and reject invalid strides during constraint checking.
The SME2 instructions that accept strided operands also have
non-strided forms. The errors about invalid strides therefore
take a bitmask of acceptable strides, which allows multiple
possibilities to be summed up in a single message.
I've tried to update all code that handles register lists.
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Quite a lot of SME2 instructions have an opcode bit that selects
between 32-bit and 64-bit forms of an instruction, with the 32-bit
forms being part of base SME2 and with the 64-bit forms being part
of an optional extension. It's nevertheless useful to have a single
opcode entry for both forms since (a) that matches the ISA definition
and (b) it tends to improve error reporting.
This patch therefore adds a libopcodes function called
aarch64_cpu_supports_inst_p that tests whether the target
supports a particular instruction. In future it will depend
on internal libopcodes routines.
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SVE register lists were classified as SVE_REG, since there had been
no particular reason to separate them out. However, some SME2
instructions have tied register list operands, and so we need to
distinguish registers and register lists when checking whether two
operands match.
Also, the register list operands used a general error message,
even though we already have a dedicated error code for register
lists that are the wrong length.
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libopcodes currently reports out-of-range registers as a general
AARCH64_OPDE_OTHER_ERROR. However, this means that each register
range needs its own hard-coded string, which is a bit cumbersome
if the range is determined programmatically. This patch therefore
adds a dedicated error type for out-of-range errors.
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SME2 has many instructions that take a list of SVE registers.
There are often multiple forms, with different forms taking
different numbers of registers.
This means that if, after a successful parse and qualifier match,
we find that the number of registers does not match the opcode entry,
the associated error should have a lower priority/severity than other
errors reported at the same stage. For example, if there are 2-register
and 4-register forms of an instruction, and if the assembly code uses
the 2-register form with an out-of-range value, the out-of-range value
error against the 2-register instruction should have a higher priority
than the "wrong number of registers" error against the 4-register
instruction.
This is tested by the main SME2 patches, but seemed worth splitting out.
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The contents of operand_mismatch_kind_names were out of sync
with the enum.
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This patch moves the range checks on ZA vector select offsets from
gas to libopcodes. Doing the checks there means that the error
messages contain the expected range. It also fits in better
with the error severity scheme, which becomes important later.
(This is because out-of-range indices are treated as more severe than
syntax errors, on the basis that parsing must have succeeded if we get
to the point of checking the completed opcode.)
The patch also adds a new check_za_access function for checking
ZA accesses. That's a bit over the top for one offset check, but the
function becomes more complex with later patches.
sme-9-illegal.s checked for an invalid .q suffix using:
psel p1, p15, p3.q[w15]
but this is doubly invalid because it misses the immediate part
of the index. The patch keeps that test but adds another with
a zero index, so that .q is the only thing wrong.
The aarch64-tbl.h change includes neatening up the backslash
positions.
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A later patch moves the range checking for ZA vector select
offsets from gas to libopcodes. That in turn requires the
immediate field to be big enough to support all parsed values.
This shouldn't be a particularly size-sensitive structure,
so there should be no memory problems with doing this.
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za_tile_vector is also used for indexing ZA as a whole, rather than
just for indexing tiles. The former is more common than the latter
in SME2, so this patch generalises the name to "indexed_za".
The patch also names the associated structure, so that later patches
can reuse it during parsing.
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This patch makes all SME instructions use F_STRICT, so that qualifiers
have to be provided explicitly rather than being inferred from other
operands. The main change is to move the qualifier setting from the
operand-level decoders to the opcode level.
This is one step towards consolidating the ZA parsing code and
extending it to handle SME2.
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Most extension flags are named after the associated architectural
FEAT_* flags, but sme-i64 and sme-f64 were exceptions. This patch
adds sme-i16i64 and sme-f64f64 aliases, but keeps the old names too
for compatibility.
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long is a poor choice of type to store 32-bit values read from
objects files by H_GET_32. H_GET_32 doesn't sign extend so tests like
that in gdb/coffread.c for "negative" values won't work if long is
larger than 32 bits. If long is 32-bit then code needs to be careful
to not accidentally index negative array elements. (I'd rather see a
segfault on an unmapped 4G array index than silently reading bogus
data.) long is also a poor choice for x_sect.s_scnlen, which might
have 64-bit values. It's better to use unsigned exact width types to
avoid surprises.
I decided to change the field names too, which makes most of this
patch simply renaming. Besides that there are a few places where
casts are no longer needed, and where printf format strings or tests
need adjusting.
include/
* coff/internal.h (union internal_auxent): Use unsigned stdint
types. Rename l fields to u32 and u64 as appropriate.
bfd/
* coff-bfd.c,
* coff-rs6000.c,
* coff64-rs6000.c,
* coffcode.h,
* coffgen.c,
* cofflink.c,
* coffswap.h,
* peXXigen.c,
* xcofflink.c: Adjust to suit internal_auxent changes.
binutils/
* rdcoff.c: Adjust to suit internal_auxent changes.
gas/
* config/obj-coff.h,
* config/tc-ppc.c: Adjust to suit internal_auxent changes.
gdb/
* coffread.c,
* xcoffread.c: Adjust to suit internal_auxent changes.
ld/
* pe-dll.c: Adjust to suit internal_auxent changes.
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binutils * readelf.c (get_segment_type): Handle PT_OPENBSD_MUTABLE segment type.
include * elf/common.h (PT_OPENBSD_MUTABLE): Define.
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QNX provides some .note subsections. QNT_STACK is the one controling
the stack allocation.
bfd/ChangeLog:
* elf.c (BFD_QNT_CORE_INFO): Delete.
(BFD_QNT_CORE_STATUS): Likewise.
(BFD_QNT_CORE_GREG): Likewise.
(BFD_QNT_CORE_FPREG): Likewise.
(elfcore_grok_nto_note): Replace BFD_QNT_* by QNT_*.
binutils/ChangeLog:
* readelf.c (get_qnx_elfcore_note_type): New function.
(print_qnx_note): New function.
(process_note): Add support for QNX support.
include/ChangeLog:
* elf/common.h (QNT_DEBUG_FULLPATH): New define.
(QNT_DEBUG_RELOC): New define.
(QNT_STACK): New define.
(QNT_GENERATOR): New define.
(QNT_DEFAULT_LIB): New define.
(QNT_CORE_SYSINFO): New define.
(QNT_CORE_INFO): New define.
(QNT_CORE_STATUS): New define.
(QNT_CORE_GREG): New define.
(QNT_CORE_FPREG): New define.
(QNT_LINK_MAP): New define.
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- Removed not needed relocations.
- Renamed relocations to match llvm and linux kernel.
Relocation changes:
R_BPF_INSN_64 => R_BPF_64_64
R_BPF_INSN_DISP32 => R_BPF_64_32
R_BPF_DATA_32 => R_BPF_64_ABS32
R_BPF_DATA_64 => R_BPF_64_ABS64
ChangeLog:
* bfd/bpf-reloc.def: Created file with BPF_HOWTO macro entries.
* bfd/reloc.c: Removed non needed relocations.
* bfd/bfd-in2.h: regenerated.
* bfd/libbfd.h: regenerated.
* bfd/elf64-bpf.c: Changed relocations.
* include/elf/bpf.h: Adapted relocation values/names.
* gas/config/tc-bpf.c: Changed relocation mapping.
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When building with clang 16, we get:
CXX gdb.o
In file included from /home/smarchi/src/binutils-gdb/gdb/gdb.c:19:
In file included from /home/smarchi/src/binutils-gdb/gdb/defs.h:65:
/home/smarchi/src/binutils-gdb/gdb/../gdbsupport/enum-flags.h:95:52: error: integer value -1 is outside the valid range of values [0, 15] for this enumeration type [-Wenum-constexpr-conversion]
integer_for_size<sizeof (T), static_cast<bool>(T (-1) < T (0))>::type
^
The error message does not make it clear in the context of which enum
flag this fails (i.e. what is T in this context), but it doesn't really
matter, we have similar warning/errors for many of them, if we let the
build go through.
clang is right that the value -1 is invalid for the enum type we cast -1
to. However, we do need this expression in order to select an integer
type with the appropriate signedness. That is, with the same signedness
as the underlying type of the enum.
I first wondered if that was really needed, if we couldn't use
std::underlying_type for that. It turns out that the comment just above
says:
/* Note that std::underlying_type<enum_type> is not what we want here,
since that returns unsigned int even when the enum decays to signed
int. */
I was surprised, because std::is_signed<std::underlying_type<enum_type>>
returns the right thing. So I tried replacing all this with
std::underlying_type, see if that would work. Doing so causes some
build failures in unittests/enum-flags-selftests.c:
CXX unittests/enum-flags-selftests.o
/home/smarchi/src/binutils-gdb/gdb/unittests/enum-flags-selftests.c:254:1: error: static assertion failed due to requirement 'gdb::is_same<selftests::enum_flags_tests::check_valid_expr254::archetype<enum_flags<s
elftests::enum_flags_tests::RE>, selftests::enum_flags_tests::RE, enum_flags<selftests::enum_flags_tests::RE2>, selftests::enum_flags_tests::RE2, enum_flags<selftests::enum_flags_tests::URE>, selftests::enum_fla
gs_tests::URE, int>, selftests::enum_flags_tests::check_valid_expr254::archetype<enum_flags<selftests::enum_flags_tests::RE>, selftests::enum_flags_tests::RE, enum_flags<selftests::enum_flags_tests::RE2>, selfte
sts::enum_flags_tests::RE2, enum_flags<selftests::enum_flags_tests::URE>, selftests::enum_flags_tests::URE, unsigned int>>::value == true':
CHECK_VALID (true, int, true ? EF () : EF2 ())
^~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
/home/smarchi/src/binutils-gdb/gdb/unittests/enum-flags-selftests.c:91:3: note: expanded from macro 'CHECK_VALID'
CHECK_VALID_EXPR_6 (EF, RE, EF2, RE2, UEF, URE, VALID, EXPR_TYPE, EXPR)
^~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
/home/smarchi/src/binutils-gdb/gdb/../gdbsupport/valid-expr.h:105:3: note: expanded from macro 'CHECK_VALID_EXPR_6'
CHECK_VALID_EXPR_INT (ESC_PARENS (typename T1, typename T2, \
^~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
/home/smarchi/src/binutils-gdb/gdb/../gdbsupport/valid-expr.h:66:3: note: expanded from macro 'CHECK_VALID_EXPR_INT'
static_assert (gdb::is_detected_exact<archetype<TYPES, EXPR_TYPE>, \
^ ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
This is a bit hard to decode, but basically enumerations have the
following funny property that they decay into a signed int, even if
their implicit underlying type is unsigned. This code:
enum A {};
enum B {};
int main() {
std::cout << std::is_signed<std::underlying_type<A>::type>::value
<< std::endl;
std::cout << std::is_signed<std::underlying_type<B>::type>::value
<< std::endl;
auto result = true ? A() : B();
std::cout << std::is_signed<decltype(result)>::value << std::endl;
}
produces:
0
0
1
So, the "CHECK_VALID" above checks that this property works for enum flags the
same way as it would if you were using their underlying enum types. And
somehow, changing integer_for_size to use std::underlying_type breaks that.
Since the current code does what we want, and I don't see any way of doing it
differently, ignore -Wenum-constexpr-conversion around it.
Change-Id: Ibc82ae7bbdb812102ae3f1dd099fc859dc6f3cc2
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I don't see much point in cluttering the source with the PROGRESS
macros, which of course do nothing at all with the definitions in
progress.h. progress.h is unchanged apart from the copyright comment
since commit d4d4c53c68f0 in 1994.
binutils/
* ar.c: Don't include progress.h, or invoke PROGRESS macros.
* nm.c: Likewise.
* objcopy.c: Likewise.
* objdump.c: Likewise.
gas/
* as.h: Don't include progress.h.
* as.c: Don't invoke PROGRESS macros.
* write.c: Likewise.
include/
* progress.h: Delete.
ld/
* ldmain.c: Don't include progress.h, or invoke PROGRESS macros.
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When using a bss-plt we'll always trigger the RWX warning, which
disturbs gcc test results. On the other hand, there may be reason to
want the warning when gcc is configured with --enable-secureplt.
So turning off the warning entirely for powerpc might not be the best
solution. Instead, we'll turn off the warning whenever a bss-plt is
generated, unless the user explicitly asked for the warning.
bfd/
* elf32-ppc.c (ppc_elf_select_plt_layout): Set
no_warn_rwx_segments on generating a bss plt, unless explicity
enabled by the user. Also show the bss-plt warning when
--warn-rwx-segments is given without --bss-plt.
include/
* bfdlink.h (struct bfd_link_info): Add user_warn_rwx_segments.
ld/
* lexsup.c (parse_args): Set user_warn_rwx_segments.
* testsuite/ld-elf/elf.exp: Pass --secure-plt for powerpc to
the rwx tests.
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[-Werror=overflow]
Regenerating BPF target using the maintainer mode emits:
.../opcodes/bpf-opc.c:57:11: error: conversion from ‘long unsigned int’ to ‘unsigned int’ changes value from ‘18446744073709486335’ to ‘4294902015’ [-Werror=overflow]
57 | 64, 64, 0xffffffffffff00ff, { { F (F_IMM32) }, { F (F_OFFSET16) }, { F (F_SRCLE) }, { F (F_OP_CODE) }, { F (F_DSTLE) }, { F (F_OP_SRC) }, { F (F_OP_CLASS) }, { 0 } }
The use of a narrow size to handle the mask CGEN in instruction format
is causing this error. Additionally eBPF `call' instructions
constructed by expressions using symbols (BPF_PSEUDO_CALL) emits
annotations in `src' field of the instruction, used to identify BPF
target endianness.
cpu/
* bpf.cpu (define-call-insn): Remove `src' field from
instruction mask.
include/
*opcode/cge.h (CGEN_IFMT): Adjust mask bit width.
opcodes/
* bpf-opc.c: Regenerate.
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SFrame format is meant for generating stack traces only.
bfd/
* elf-bfd.h: Replace the use of "unwind" with "stack trace".
* elf-sframe.c: Likewise.
* elf64-x86-64.c: Likewise.
* elfxx-x86.c: Likewise.
include/
* elf/common.h: Likewise.
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SFrame format is meant for generating stack traces only.
include/
* sframe.h: Fix comments in the header file.
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The verbose argument has always been an int treated as a bool, so
convert it to an explicit bool. Further, update the API docs to
match the reality that the verbose value is actually used by some
of the internal modules.
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When defining a format it helps to a) get the endianness right when you
explicitly state what it is and b) define things in terms of fields that
exist rather than fields that don't.
(A bunch of changes of names during implementation were not reflected in
these comments...)
Thanks to Jose "Eye of the Eagle" Marchesi for spotting these.
include/
* ctf.h (struct ctf_archive) [ctfa_ctfs]: The size element of
this is in little-endian byte order, not network byte order.
(struct ctf_archive_modent): This is positioned right after the
end fo the struct ctf_archive, not at the offset of a
nonexistent field. The number of elements in the array depends
on ctfa_ndicts, not another nonexistent field.
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This patch series finishes off the work by Jedidiah Thompson, and adds
support for creating aarch64 PE images.
This should be essentially complete: I've used this to create a "hello
world" Windows program in asm, and (with GCC patches) a UEFI program in
C. I think the only things missing are the .secidx relocation, which is
needed for PDBs, and the SEH pseudos used for C++ exceptions.
This first patch fixes the size of RELSZ; I'm not sure why it was 14 in
the first place. This is the size of the "Base Relocation Block" in
https://learn.microsoft.com/en-us/windows/win32/debug/pe-format, and
AFAIK should be 10 for everything.
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An earlier commit 3f107464 defined the SFRAME_FRE_TYPE_*_LIMIT
constants. These constants are used (by gas and libsframe) to pick an
SFrame FRE type based on the function size. Those constants, however,
were buggy, causing the generated SFrame sections to be bloated as
SFRAME_FRE_TYPE_ADDR2/SFRAME_FRE_TYPE_ADDR4 got chosen more often than
necessary.
gas/
* sframe-opt.c (sframe_estimate_size_before_relax): Use
typecast.
(sframe_convert_frag): Likewise.
libsframe/
* sframe.c (sframe_calc_fre_type): Use a more appropriate type
for argument. Adjust the check for SFRAME_FRE_TYPE_ADDR4_LIMIT
to keep it warning-free but meaningful.
include/
* sframe-api.h (sframe_calc_fre_type): Use a more appropriate
type for the argument.
* sframe.h (SFRAME_FRE_TYPE_ADDR1_LIMIT): Correct the constant.
(SFRAME_FRE_TYPE_ADDR2_LIMIT): Likewise.
(SFRAME_FRE_TYPE_ADDR4_LIMIT): Likewise.
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The newer update-copyright.py fixes file encoding too, removing cr/lf
on binutils/bfdtest2.c and ld/testsuite/ld-cygwin/exe-export.exp, and
embedded cr in binutils/testsuite/binutils-all/ar.exp string match.
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