For testing, it's sometimes convenient to be able to request that
DWARF reading be done synchronously. This patch adds a new "maint"
setting for this purpose.
Reviewed-By: Eli Zaretskii <eliz@gnu.org>
This adds a new compute_main_name method to quick_symbol_functions.
Currently there are no implementations of this, but a subsequent patch
will add one.
When DWARF reading is done in the background,
read_addrmap_from_aranges will be called from a worker thread.
Because warnings can't be emitted from these threads, this patch adds
a new deferred_warnings parameter to the function, letting the caller
control exactly how the warnings are emitted.
This patch changes the way complaint works in a background thread.
The new approach requires installing a complaint interceptor in each
worker, and then the resulting complaints are treated as one of the
results of the computation. This change is needed for a subsequent
patch, where installing a complaint interceptor around a parallel-for
is no longer a viable approach.
This changes gdb to ensure that gdb's BFD cache is guarded by a lock.
This avoids any races when multiple threads might open a BFD (and thus
use the BFD cache) at the same time.
Currently, this change is not needed because the the main thread waits
for some DWARF scanning to be completed before returning. The only
locking that's required is when opening DWO files, and there's a local
lock to this end in dwarf2/read.c.
However, in the coming patches, the DWARF reader will begin its work
earlier, in the background. This means there is the potential for the
DWARF reader and other code on the main thread to both attempt to open
BFDs at the same time.
This adds a couple of calls to bfd_cache_close at points where a BFD
isn't actively needed by gdb. Normally at these points, all the
needed section data is already mapped, so we can simply close the file
descriptor. This is harmless at worst, because if this is needed
after all, the BFD file descriptor cache will reopen it.
This changes the DWZ code to pre-read the section data and somewhat
simplify the DWZ API. This makes it easier to add the bfd_cache_close
call to the new dwarf2_read_dwz_file function -- after this is done,
there shouldn't be a reason to keep the BFD's file descriptor open.
The DWO code in the DWARF reader currently uses objfile::intern. This
accesses a shared data structure and so would be racy when used from
multiple threads. I don't believe this can happen right now, but
background reading could provoke this, and in any case it's better to
avoid this, just to be sure.
This patch changes this code to just use a std::string. A new type is
introduced to do hash table lookups, to avoid unnecessary copies.
This logic dates back to the original import, and seems to be for
handling systems where `rm -f` (i.e. no files) would error out.
None of that is relevant for us with current automake, so drop it.
Some compilers don't understand the semctl API and think it's an input
argument even when it's used as an output, and then complains that it
is being used uninitialized. Zero it out explicitly to workaround it.
This adds some runtime overhead, but should be fairly minor as it's a
small stack buffer, and shouldn't be that relevant relative to all the
other logic in these functions.
The cgen code uses DI as int64_t and UDI as uint64_t. The DI macros
are used to construct 64-bit values from 32-bit values (for the low
and high parts). The MAKEDI macro casts the high 32-bit value to a
signed 32-bit value before shifting. If this created a negative
value, this would be undefined behavior according to the C standard.
All we care about is shifting the 32-bits as they are to the high
32-bits, not caring about sign extension (since there's nothing left
to shift into), and the low 32-bits being empty. This is what we
get from shifting an unsigned value, so cast it to unsigned 32-bit
to avoid undefined behavior.
While we're here, change the SETLODI macro to truncate the lower
value to 32-bits before we set it. If it was passing in a 64-bit
value, those high bits would get included too, and that's not what
we want.
Similarly, tweak the SETHIDI macro to cast the value to an unsigned
64-bit instead of a signed 64-bit. If the value was only 32-bits,
the behavior would be the same. If it happened to be signed 64-bit,
it would trigger the undefined behavior too.
This patch adds linker support to patch R_BPF_64_NODYLD32 relocations.
The implementation was based on comments and code in LLVM, as the GNU
toolchain does not uses this relocation type.
Currently, only mipsisa32-linux and mipsisa32el-linux is marked
as addr32, which make mipsisa32rN(el) not marked.
This change can fix 2 test failures on mipsisa32rN(el)-linux:
FAIL: MIPS MIPS64 MIPS-3D ASE instructions (-mips3d flag)
FAIL: MIPS MIPS64 MDMX ASE instructions (-mdmx flag)
These failures don't happen for mipsisa32rN-mti-elf etc,
due to that, the output is set as NO_ABI instead of O32, then
gas won't warn:
`fp=64' used with a 32-bit ABI
Maybe, we should change this behaivour in future.
This patch adds AArch32 support for -march=armv8.9-a and
-march=armv9.4-a. The behaviour of the new options can be
expressed using a combination of existing feature flags
and tables.
The cpu_arch_ver entries for ARM_ARCH_V9_4A and ARM_ARCH_V8_9A
are technically redundant but it including them for macro code
consistency across architectures.
When running test-case gdb.base/vfork-follow-parent.exp it passes fine, but
when running it with "taskset -c 0" I run into:
...
(gdb) inferior 1^M
[Switching to inferior 1 [process 26606] (vfork-follow-parent-exit)]^M
[Switching to thread 1.1 (process 26606)]^M
(gdb) Reading symbols from vfork-follow-parent-exit...^M
FAIL: $exp: exec_file=vfork-follow-parent-exit: target-non-stop=on: \
non-stop=off: resolution_method=schedule-multiple: inferior 1 (timeout)
...
Fix this by using -no-prompt-anchor.
Tested on x86_64-linux.
PR testsuite/31166
Bug: https://sourceware.org/bugzilla/show_bug.cgi?id=31166
Also recognized are aarch64-*-gnu tagrets, e.g. aarch64-pc-gnu or
aarch64-unknown-gnu.
The ld/emulparams/aarch64gnu.sh file is (for now) identical to aarch64fbsd.sh,
or to aarch64linux.sh with Linux-specific logic removed; and mainly different
from the generic aarch64elf.sh in that it does not set EMBEDDED=yes.
Coupled with a corresponding GCC patch, this produces a toolchain that can
sucessfully build working binaries targeting aarch64-gnu.
Signed-off-by: Sergey Bugaev <bugaevc@gmail.com>
On aarch64-linux, with gcc 13.2.1, I run into:
...
(gdb) backtrace^M
#0 break_here () at solib-search.c:30^M
#1 0x0000fffff7f20194 in lib2_func4 () at solib-search-lib2.c:50^M
#2 0x0000fffff7f70194 in lib1_func3 () at solib-search-lib1.c:50^M
#3 0x0000fffff7f20174 in lib2_func2 () at solib-search-lib2.c:30^M
#4 0x0000fffff7f70174 in lib1_func1 () at solib-search-lib1.c:30^M
#5 0x00000000004101b4 in main () at solib-search.c:23^M
(gdb) PASS: gdb.base/solib-search.exp: \
backtrace (with wrong libs) (data collection)
FAIL: gdb.base/solib-search.exp: backtrace (with wrong libs)
...
The FAIL is generated by this code in the test-case:
...
if { $expect_fail } {
# If the backtrace output is correct the test isn't sufficiently
# testing what it should.
if { $count == $total_expected } {
set fail 1
}
...
The test-case:
- builds two versions of two shared libs, a "right" and "wrong" version, the
difference being an additional dummy function (called spacer function),
- uses the "right" version to generate a core file,
- uses the "wrong" version to interpret the core file, and
- generates a backtrace.
The intent is that the backtrace is incorrect due to using the "wrong"
version, but actually it's correct. This is because the spacer functions
aren't large enough.
Fix this by increasing the size of the spacer functions by adding a dummy
loop, after which we have, as expected, an incorrect backtrace:
...
(gdb) backtrace^M
#0 break_here () at solib-search.c:30^M
#1 0x0000fffff7f201c0 in ?? ()^M
#2 0x0000fffff7f20174 in lib2_func2 () at solib-search-lib2.c:30^M
#3 0x0000fffff7f20174 in lib2_func2 () at solib-search-lib2.c:30^M
#4 0x0000fffff7f70174 in lib1_func1 () at solib-search-lib1.c:30^M
#5 0x00000000004101b4 in main () at solib-search.c:23^M
(gdb) PASS: gdb.base/solib-search.exp: \
backtrace (with wrong libs) (data collection)
PASS: gdb.base/solib-search.exp: backtrace (with wrong libs)
...
Tested on aarch64-linux.
Since 0x66 is the opcode prefix for adcx, it is wrong to use the 'S'
prefix:
'S' => print 'w', 'l' or 'q' if suffix_always is true
on adcx. Add
'L' => print 'l' or 'q' if suffix_always is true
replace S with L on adcx and adox.
gas/
PR binutils/31219
* testsuite/gas/i386/suffix.d: Updated.
* testsuite/gas/i386/x86-64-suffix.d: Likewise.
* testsuite/gas/i386/suffix.s: Add tests for adcx and adox.
* testsuite/gas/i386/x86-64-suffix.s: Likewise.
opcodes/
PR binutils/31219
* i386-dis.c: Add the 'L' suffix.
(prefix_table): Replace S with L on adcx and adox.
(putop): Handle the 'L' suffix.
Rename the temp var to avoid shadowing another one:
.../sim/cris/semcrisv10f-switch.c:11032:22: error: declaration of ‘tmp_tmpb’ shadows a previous local [-Werror=shadow=compatible-local]
11032 | tmp_tmpb = ({ SI tmp_tmpb;
| ^~~~~~~~
.../sim/cris/semcrisv10f-switch.c:11031:24: note: shadowed declaration is here
11031 | tmp_tmpres = ({ SI tmp_tmpb;
| ^~~~~~~~
The condition & swap code decoder only checks known bits and sets
based on that. If the variable is out of range, it ends up returning
uninitialized data. Turn that case into a hard error.
This fixes build warnings like:
sim/cris/semcrisv10f-switch.c:13115:11: error:
variable 'tmp_condres' is used uninitialized whenever 'if' condition is false [-Werror,-Wsometimes-uninitialized]
There are a number of issues with 734dfd1cc9 ("x86: pack CPU flags in
opcode table"):
- the condition when two array slots need writing wasn't correct (with
enough new Cpu* added an out of bounds array access would validly have
been complained about by the compiler),
- table generation didn't take into account CpuAttrUnused and CpuUnused
being independent, and hence there not always (not) being an "unused"
bitfield member in both structures,
- cpu_flags_from_attr() wasn't ready for use on big-endian hosts,
- there were two style violations.
Various targets have / had overrides for .bss. Make sure that in such
cases
- .previous still works correctly (requiring such targets to invoke
obj_elf_section_change_hook() from their overriding handlers),
- sub-section specifiers are accepted as far as feasible (mandated by
the doc).
It doesn't look to be a good idea to override the custom handlers that
ELF and COFF have; afaict doing so broke .previous on ELF, and a sub-
section specifier wasn't accepted either.
The comment in s_bss() looks bogus (perhaps simply stale, or wrongly
copied from another target). It also doesn't look to be a good idea to
override the custom handler that ELF has (afaict doing so broke
.previous as well as sub-section specification).
The override for .skip is simply pointless, for read.c having exactly
the same.
While there also drop two adjacent redundant (with read.h) declarations
(which would be outright dangerous if read.h wasn't included anyway).
While there doesn't look to be anything wrong with this override,
there's also no apparent reason why this override would be needed. Drop
it, reducing overall size a tiny bit.
The comment looks bogus (perhaps simply stale, or wrongly copied from
another target). It also doesn't look to be a good idea to override the
custom handler that ELF has (afaict doing so broke .previous as well as
sub-section specification).
While there also fold the identical handlers for .text (there likely is
more room for such folding).
The comment looks bogus (perhaps simply stale), and there are also no
other precautions against subsections being used on ELF with .bss. It
also doesn't look to be a good idea to override the custom handler that
ELF has (afaict doing so further broke .previous).
