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structure using memset.
PR 22485
* readelf.c (process_archive): Use memset to initiaise
thin_filedata structure.
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clang accepts option -g3 too. I checked the manual of xlc and icc, looks
they don't accept -g3 option, so I don't pass -g3 for them.
gdb/testsuite:
2017-11-23 Yao Qi <yao.qi@linaro.org>
* gdb.base/macscp.exp: Append -g3 to additional_flags for clang.
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opcodes/
* i386-opc.tbl: Add Disp8MemShift for AVX512 VAES instructions.
* i386-tbl.h: Regenerate.
gas/
* testsuite/gas/i386/avx512f_vaes-intel.d: Regenerate.
* testsuite/gas/i386/avx512f_vaes.d: Likewise.
* testsuite/gas/i386/avx512f_vaes-wig1-intel.d: Likewise.
* testsuite/gas/i386/avx512f_vaes-wig1.d: Likewise.
* testsuite/gas/i386/avx512vl_vaes-intel.d: Likewise.
* testsuite/gas/i386/avx512vl_vaes.d: Likewise.
* testsuite/gas/i386/x86-64-avx512f_vaes.s: Add instructions with disp8*N.
* testsuite/gas/i386/x86-64-avx512f_vaes-intel.d: Regenerate.
* testsuite/gas/i386/x86-64-avx512f_vaes.d: Likewise.
* testsuite/gas/i386/x86-64-avx512f_vaes-wig.s: Add instructions with disp8*N.
* testsuite/gas/i386/x86-64-avx512f_vaes-wig1-intel.d: Regenerate.
* testsuite/gas/i386/x86-64-avx512f_vaes-wig1.d: Likewise.
* testsuite/gas/i386/x86-64-avx512vl_vaes-intel.d: Regenerate.
* testsuite/gas/i386/x86-64-avx512vl_vaes.d: Likewise.
* testsuite/gas/i386/x86-64-avx512vl_vaes-wig.s: Add instructions with disp8*N.
* testsuite/gas/i386/x86-64-avx512vl_vaes-wig1-intel.d: Regenerate.
* testsuite/gas/i386/x86-64-avx512vl_vaes-wig1.d: Regenerate.
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I did this for powerpc64 a while ago. Not moving weak symbol
dyn_relocs to the strong alias makes for a much simpler test for
dynamic relocs in relocate_section.
This patch implements the change for powerpc and hppa. Other targets
could benefit from similar changes.
* elf32-hppa.c (pc_dynrelocs): Define.
(elf32_hppa_copy_indirect_symbol): Don't copy dyn_relocs to weakdefs.
(alias_readonly_dynrelocs): New function.
(elf32_hppa_adjust_dynamic_symbol): Don't clear non_got_ref to
indicate dyn_relocs should be discarded, discard them here.
Use alias_readonly_dynrelocs.
(allocate_dynrelocs): Don't test or clear non_got_ref.
(elf32_hppa_relocate_section): Simplify test for dynamic relocs.
* elf32-ppc.c (ppc_elf_copy_indirect_symbol): Don't copy dyn_relocs
to weakdefs.
(alias_readonly_dynrelocs, pc_dynrelocs): New functions.
(ppc_elf_adjust_dynamic_symbol): Don't clear non_got_ref to
indicate dyn_relocs should be discarded, discard them here.
Use alias_readonly_dynrelocs.
(allocate_dynrelocs): Don't test or clear non_got_ref.
(ppc_elf_relocate_section): Simplify test for dynamic relocs.
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Now that u.alias is circular, weakref just duplicates its function.
Also, function symbols shouldn't be on the alias list so there is no
need to use alias_readonly_dynrelocs with them.
* elf64-ppc.c (struct ppc_link_hash_entry): Delete weakref field.
(ppc64_elf_copy_indirect_symbol): Don't set weakref.
(alias_readonly_dynrelocs): Use u.alias rather than weakref.
(ppc64_elf_adjust_dynamic_symbol): Don't use
alias_readonly_dynrelocs for function symbols.
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This makes the elf_link_hash_entry weakdef field, currently used to
point from a weak symbol to a strong alias, a circular list so that
all aliases can be found from any of them. A new flag, is_weakalias,
distinguishes the weak symbol from a strong alias, and is used in all
places where we currently test u.weakdef != NULL.
With the original u.weakdef handling it was possible to have two or
more weak symbols pointing via u.weakdef to a strong definition.
Obviously that situation can't map to a circular list; One or more of
the weak symbols must point at another weak alias rather than the
strong definition. To handle that, I've added an accessor function to
return the strong definition.
* elf-bfd.h (struct elf_link_hash_entry): Add is_weakalias.
Rename u.weakdef to u.alias and update comment.
(weakdef): New static inline function.
* elflink.c (bfd_elf_record_link_assignment) Test is_weakalias
rather than u.weakdef != NULL, and use weakdef function.
(_bfd_elf_adjust_dynamic_symbol): Likewise.
(_bfd_elf_fix_symbol_flags): Likewise. Clear is_weakalias on
all aliases if def has been overridden in a regular object, not
u.weakdef.
(elf_link_add_object_symbols): Delete new_weakdef flag. Test
is_weakalias and use weakdef. Set is_weakalias and circular
u.alias. Update comments.
(_bfd_elf_gc_mark_rsec): Test is_weakalias rather than
u.weakdef != NULL and use weakdef function.
* elf-m10300.c (_bfd_mn10300_elf_adjust_dynamic_symbol): Test
is_weakalias rather than u.weakdef != NULL and use weakdef
function. Assert that def is strong defined.
* elf32-arc.c (elf_arc_adjust_dynamic_symbol): Likewise.
* elf32-arm.c (elf32_arm_adjust_dynamic_symbol): Likewise.
* elf32-bfin.c (elf32_bfinfdpic_adjust_dynamic_symbol): Likewise.
(bfin_adjust_dynamic_symbol): Likewise.
* elf32-cr16.c (_bfd_cr16_elf_adjust_dynamic_symbol): Likewise.
* elf32-cris.c (elf_cris_adjust_dynamic_symbol): Likewise.
* elf32-frv.c (elf32_frvfdpic_adjust_dynamic_symbol): Likewise.
* elf32-hppa.c (elf32_hppa_adjust_dynamic_symbol): Likewise.
* elf32-i370.c (i370_elf_adjust_dynamic_symbol): Likewise.
* elf32-lm32.c (lm32_elf_adjust_dynamic_symbol): Likewise.
* elf32-m32r.c (m32r_elf_adjust_dynamic_symbol): Likewise.
* elf32-m68k.c (elf_m68k_adjust_dynamic_symbol): Likewise.
* elf32-metag.c (elf_metag_adjust_dynamic_symbol): Likewise.
* elf32-microblaze.c (microblaze_elf_adjust_dynamic_symbol): Likewise.
* elf32-nds32.c (nds32_elf_adjust_dynamic_symbol): Likewise.
* elf32-nios2.c (nios2_elf32_adjust_dynamic_symbol): Likewise.
* elf32-or1k.c (or1k_elf_adjust_dynamic_symbol): Likewise.
* elf32-ppc.c (ppc_elf_adjust_dynamic_symbol): Likewise.
* elf32-s390.c (elf_s390_adjust_dynamic_symbol): Likewise.
* elf32-score.c (s3_bfd_score_elf_adjust_dynamic_symbol): Likewise.
* elf32-score7.c (s7_bfd_score_elf_adjust_dynamic_symbol): Likewise.
* elf32-sh.c (sh_elf_adjust_dynamic_symbol): Likewise.
* elf32-tic6x.c (elf32_tic6x_adjust_dynamic_symbol): Likewise.
* elf32-tilepro.c (tilepro_elf_gc_mark_hook): Likewise.
(tilepro_elf_adjust_dynamic_symbol): Likewise.
* elf32-vax.c (elf_vax_adjust_dynamic_symbol): Likewise.
* elf32-xtensa.c (elf_xtensa_adjust_dynamic_symbol): Likewise.
* elf64-alpha.c (elf64_alpha_adjust_dynamic_symbol): Likewise.
* elf64-hppa.c (elf64_hppa_adjust_dynamic_symbol): Likewise.
* elf64-ia64-vms.c (elf64_ia64_adjust_dynamic_symbol): Likewise.
* elf64-ppc.c (ppc64_elf_gc_mark_hook): Likewise.
(ppc64_elf_adjust_dynamic_symbol): Likewise.
* elf64-s390.c (elf_s390_adjust_dynamic_symbol): Likewise.
* elf64-sh64.c (sh64_elf64_adjust_dynamic_symbol): Likewise.
* elfnn-aarch64.c (elfNN_aarch64_adjust_dynamic_symbol): Likewise.
* elfnn-ia64.c (elfNN_ia64_adjust_dynamic_symbol): Likewise.
* elfnn-riscv.c (riscv_elf_adjust_dynamic_symbol): Likewise.
* elfxx-mips.c (_bfd_mips_elf_adjust_dynamic_symbol): Likewise.
* elfxx-sparc.c (_bfd_sparc_elf_gc_mark_hook): Likewise.
(_bfd_sparc_elf_adjust_dynamic_symbol): Likewise.
* elfxx-tilegx.c (tilegx_elf_gc_mark_hook): Likewise.
(tilegx_elf_adjust_dynamic_symbol): Likewise.
* elfxx-x86.c (_bfd_x86_elf_adjust_dynamic_symbol): Likewise.
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which the automatic generation of exported variables should be disabled.
In the latest git version of mingw-w64, one can set the default
libmsvcrt.a to actually be the import library of another CRT version,
to facilitate switching to ucrtbase.dll. In these versions, the
traditional libmsvcrt.a (for linking to msvcrt.dll) is also provided
with the name libmsvcrt-os.a.
The import libraries for the CRT also contain a number of compatibility
wrapper functions. The ones in libmsvcrt.a have so far been excluded
automatically since they in most cases come with a corresponding
__imp_foo function. None of these make sense to export automatically
from a DLL though, so add these libraries to the exclude list.
libucrtbase.a contains a number of compatibility wrapper functions
that don't have a corresponding __imp_foo symbol, which cause
these symbols to be exported from DLLs.
This can be worked around on the mingw-w64 side by adding extra
__imp_ symbols, but since they aren't strictly necessary for linking
to succeed, it's probably better long-term to add these libraries to
the exclusion list.
ld * pe-dll.c (autofilter_liblist): Add libmsvcrt, libmsvcrt-os and
libucrtbase.
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Despite EVEX encodings not being available in real and VM86 modes,
16-bit addressing still needs to be handled properly for 16-bit
protected mode as well as 16-bit addressing in 32-bit mode. Neither
should displacements be dropped silently by the assembler, nor should
the disassembler fail to correctly scale 8-bit displacements.
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Except for %eip-relative addressing, where we don't have a suitable
relocation type silently wrapping at the 4G boundary, consistently
force use of R_X86_64_32 (in ELF terms) instead of its sign-extending
counterpart. This wasn't right in case there was no base register in
the addressing expression.
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The vecsib && !base_reg case is already being handled (in a more correct
manner) by earlier code.
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Make the assembler recognize UD0, supporting only the newer form
expecting a ModR/M byte.
Make assembler and disassembler properly emit / expect a ModR/M byte for
UD1.
For the testsuite, as arch-4 already tests all UDn, avoid producing a
huge delta for other tests using UD2B by making them use UD2 instead.
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Multiple errors are more confusing than helpful, as the more generic
one often implies a sufficiently different adjustment than would
actually be needed to fix the code. Additionally it makes it more
cumbersome to add missing error checks, as the testsuite then needs
extra updating.
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This patch converts the DTrace probe
interface (gdb/dtrace-probe.[ch]) to C++, and also performs some
cleanups that were on my TODO list for a while.
The main changes were the conversion of 'struct dtrace_probe' to 'class
dtrace_probe', and a new 'class dtrace_static_probe_ops' to replace the
use of 'dtrace_probe_ops'. Both classes implement the virtual methods
exported by their parents, 'class probe' and 'class static_probe_ops',
respectively. I believe it's now a bit simpler to understand the
logic behind the dtrace-probe interface.
There are several helper functions used to parse parts of a dtrace
probe, and since they are generic and don't need to know about the
probe they're working on, I decided to leave them as simple static
functions (instead of e.g. converting them to class methods).
I've also converted a few uses of "VEC" to "std::vector", which makes
the code simpler and easier to maintain. And, as usual, some cleanups
here and there.
Even though I'm sending a series of patches, they need to be tested
and committed as a single unit, because of inter-dependencies. But it
should be easier to review in separate logical units.
I wasn't able to test these modifications because the current test
framework for DTrace probes is not working. See
<https://sourceware.org/bugzilla/show_bug.cgi?id=22420>.
gdb/ChangeLog:
2017-11-22 Sergio Durigan Junior <sergiodj@redhat.com>
* dtrace-probe.c (struct probe_ops dtrace_probe_ops): Delete.
(struct dtrace_probe_arg) <dtrace_probe_arg>: New constructor.
<type_str>: Convert to 'std::string'.
<expr>: Convert to 'expression_up'.
(dtrace_probe_arg_s): Delete type and VEC.
(dtrace_probe_enabler_s): Likewise.
(struct dtrace_probe): Replace by...
(class dtrace_static_probe_ops): ...this and...
(class dtrace_probe): ...this.
(dtrace_probe_is_linespec): Rename to...
(dtrace_static_probe_ops::is_linespec): ...this. Adjust code
to reflect change.
(dtrace_process_dof_probe): Use 'std::vector' instead of VEC.
Adjust code. Create new instance of 'dtrace_probe'.
(dtrace_build_arg_exprs): Rename to...
(dtrace_probe::build_arg_exprs): ...this. Adjust code to
reflect change.
(dtrace_get_probes): Rename to...
(dtrace_static_probe_ops::get_probes): ...this. Adjust code
to reflect change.
(dtrace_get_arg): Rename to...
(dtrace_probe::get_arg_by_number): ...this. Adjust code to
reflect change.
(dtrace_probe_is_enabled): Rename to...
(dtrace_probe::is_enabled): ...this. Adjust code to reflect
change.
(dtrace_get_probe_address): Rename to...
(dtrace_probe::get_relocated_address): ...this. Adjust code
to reflect change.
(dtrace_get_probe_argument_count): Rename to...
(dtrace_probe::get_argument_count): ...this. Adjust code to
reflect change.
(dtrace_can_evaluate_probe_arguments): Rename to...
(dtrace_probe::can_evaluate_arguments): ...this. Adjust code
to reflect change.
(dtrace_evaluate_probe_argument): Rename to...
(dtrace_probe::evaluate_argument): ...this. Adjust code to
reflect change.
(dtrace_compile_to_ax): Rename to...
(dtrace_probe::compile_to_ax): ...this. Adjust code to
reflect change.
(dtrace_probe_destroy): Delete.
(dtrace_type_name): Rename to...
(dtrace_static_probe_ops::type_name): ...this. Adjust code to
reflect change.
(dtrace_probe::get_static_ops): New method.
(dtrace_gen_info_probes_table_header): Rename to...
(dtrace_static_probe_ops::gen_info_probes_table_header):
...this. Adjust code to reflect change.
(dtrace_gen_info_probes_table_values): Rename to...
(dtrace_probe::gen_info_probes_table_values): ...this. Adjust
code to reflect change.
(dtrace_enable_probe): Rename to...
(dtrace_probe::enable_probe): ...this. Adjust code to reflect
change.
(dtrace_disable_probe): Rename to...
(dtrace_probe::disable_probe): ...this. Adjust code to reflect
change.
(struct probe_ops dtrace_probe_ops): Delete.
(info_probes_dtrace_command): Call 'info_probes_for_spops'
instead of 'info_probes_for_ops'.
(_initialize_dtrace_probe): Use 'all_static_probe_ops' instead
of 'all_probe_ops'.
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This patch converts the SystemTap probe
interface (gdb/stap-probe.[ch]) to C++, and also performs some
cleanups that were on my TODO list for a while.
The main changes were the conversion of 'struct stap_probe' to 'class
stap_probe', and a new 'class stap_static_probe_ops' to replace the
use of 'stap_probe_ops'. Both classes implement the virtual methods
exported by their parents, 'class probe' and 'class static_probe_ops',
respectively. I believe it's now a bit simpler to understand the
logic behind the stap-probe interface.
There are several helper functions used to parse parts of a stap
probe, and since they are generic and don't need to know about the
probe they're working on, I decided to leave them as simple static
functions (instead of e.g. converting them to class methods).
I've also converted a few uses of "VEC" to "std::vector", which makes
the code simpler and easier to maintain. And, as usual, some cleanups
here and there.
Even though I'm sending a series of patches, they need to be tested
and committed as a single unit, because of inter-dependencies. But it
should be easier to review in separate logical units.
I've regtested this patch on BuildBot, no regressions found.
gdb/ChangeLog:
2017-11-22 Sergio Durigan Junior <sergiodj@redhat.com>
Simon Marchi <simark@simark.ca>
* stap-probe.c (struct probe_ops stap_probe_ops): Delete
variable.
(struct stap_probe_arg) <stap_probe_arg>: New constructor.
<aexpr>: Change type to 'expression_up'.
(stap_probe_arg_s): Delete type and VEC.
(struct stap_probe): Delete. Replace by...
(class stap_static_probe_ops): ...this and...
(class stap_probe): ...this. Rename variables to add 'm_'
prefix. Do not use 'union' for arguments anymore.
(stap_get_expected_argument_type): Receive probe name instead
of 'struct stap_probe'. Adjust code.
(stap_parse_probe_arguments): Rename to...
(stap_probe::parse_arguments): ...this. Adjust code to
reflect change.
(stap_get_probe_address): Rename to...
(stap_probe::get_relocated_address): ...this. Adjust code
to reflect change.
(stap_get_probe_argument_count): Rename to...
(stap_probe::get_argument_count): ...this. Adjust code
to reflect change.
(stap_get_arg): Rename to...
(stap_probe::get_arg_by_number'): ...this. Adjust code to
reflect change.
(can_evaluate_probe_arguments): Rename to...
(stap_probe::can_evaluate_arguments): ...this. Adjust code
to reflect change.
(stap_evaluate_probe_argument): Rename to...
(stap_probe::evaluate_argument): ...this. Adjust code
to reflect change.
(stap_compile_to_ax): Rename to...
(stap_probe::compile_to_ax): ...this. Adjust code to
reflect change.
(stap_probe_destroy): Delete.
(stap_modify_semaphore): Adjust comment.
(stap_set_semaphore): Rename to...
(stap_probe::set_semaphore): ...this. Adjust code to reflect
change.
(stap_clear_semaphore): Rename to...
(stap_probe::clear_semaphore): ...this. Adjust code to
reflect change.
(stap_probe::get_static_ops): New method.
(handle_stap_probe): Adjust code to create instance of
'stap_probe'.
(stap_get_probes): Rename to...
(stap_static_probe_ops::get_probes): ...this. Adjust code to
reflect change.
(stap_probe_is_linespec): Rename to...
(stap_static_probe_ops::is_linespec): ...this. Adjust code to
reflect change.
(stap_type_name): Rename to...
(stap_static_probe_ops::type_name): ...this. Adjust code to
reflect change.
(stap_gen_info_probes_table_header): Rename to...
(stap_static_probe_ops::gen_info_probes_table_header):
...this. Adjust code to reflect change.
(stap_gen_info_probes_table_values): Rename to...
(stap_probe::gen_info_probes_table_values): ...this. Adjust
code to reflect change.
(struct probe_ops stap_probe_ops): Delete.
(info_probes_stap_command): Use 'info_probes_for_spops'
instead of 'info_probes_for_ops'.
(_initialize_stap_probe): Use 'all_static_probe_ops' instead
of 'all_probe_ops'.
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This patch converts the generic probe interface (gdb/probe.[ch]) to
C++, and also performs some cleanups that were on my TODO list for a
while.
The main changes were the conversion of 'struct probe' to 'class
probe', and 'struct probe_ops' to 'class static_probe_ops'. The
former now contains all the "dynamic", generic methods that act on a
probe + the generic data related to it; the latter encapsulates a
bunch of "static" methods that relate to the probe type, but not to a
specific probe itself.
I've had to do a few renamings (e.g., on 'struct bound_probe' the
field is called 'probe *prob' now, instead of 'struct probe *probe')
because GCC was complaining about naming the field using the same name
as the class. Nothing major, though. Generally speaking, the logic
behind and the design behind the code are the same.
Even though I'm sending a series of patches, they need to be tested
and committed as a single unit, because of inter-dependencies. But it
should be easier to review in separate logical units.
I've regtested this patch on BuildBot, no regressions found.
gdb/ChangeLog:
2017-11-22 Sergio Durigan Junior <sergiodj@redhat.com>
* break-catch-throw.c (fetch_probe_arguments): Use
'probe.prob' instead of 'probe.probe'.
* breakpoint.c (create_longjmp_master_breakpoint): Call
'can_evaluate_arguments' and 'get_relocated_address' methods
from probe.
(create_exception_master_breakpoint): Likewise.
(add_location_to_breakpoint): Use 'sal->prob' instead of
'sal->probe'.
(bkpt_probe_insert_location): Call 'set_semaphore' method from
probe.
(bkpt_probe_remove_location): Likewise, for 'clear_semaphore'.
* elfread.c (elf_get_probes): Use 'static_probe_ops' instead
of 'probe_ops'.
(probe_key_free): Call 'delete' on probe.
(check_exception_resume): Use 'probe.prob' instead of
'probe.probe'.
* location.c (string_to_event_location_basic): Call
'probe_linespec_to_static_ops'.
* probe.c (class any_static_probe_ops): New class.
(any_static_probe_ops any_static_probe_ops): New variable.
(parse_probes_in_pspace): Receive 'static_probe_ops' as
argument. Adjust code to reflect change.
(parse_probes): Use 'static_probe_ops' instead of
'probe_ops'. Adjust code to reflect change.
(find_probes_in_objfile): Call methods to get name and
provider from probe.
(find_probe_by_pc): Use 'result.prob' instead of
'result.probe'. Call 'get_relocated_address' method from
probe.
(collect_probes): Adjust comment and argument list to receive
'static_probe_ops' instead of 'probe_ops'. Adjust code to
reflect change. Call necessary methods from probe.
(compare_probes): Call methods to get name and provider from
probes.
(gen_ui_out_table_header_info): Receive 'static_probe_ops'
instead of 'probe_ops'. Use 'std::vector' instead of VEC,
adjust code accordingly.
(print_ui_out_not_applicables): Likewise.
(info_probes_for_ops): Rename to...
(info_probes_for_spops): ...this. Receive 'static_probe_ops'
as argument instead of 'probe_ops'. Adjust code. Call
necessary methods from probe.
(info_probes_command): Use 'info_probes_for_spops'.
(enable_probes_command): Pass correct argument to
'collect_probes'. Call methods from probe.
(disable_probes_command): Likewise.
(get_probe_address): Move to 'any_static_probe_ops::get_address'.
(get_probe_argument_count): Move to
'any_static_probe_ops::get_argument_count'.
(can_evaluate_probe_arguments): Move to
'any_static_probe_ops::can_evaluate_arguments'.
(evaluate_probe_argument): Move to
'any_static_probe_ops::evaluate_argument'.
(probe_safe_evaluate_at_pc): Use 'probe.prob' instead of
'probe.probe'.
(probe_linespec_to_ops): Rename to...
(probe_linespec_to_static_ops): ...this. Adjust code.
(probe_any_is_linespec): Rename to...
(any_static_probe_ops::is_linespec): ...this.
(probe_any_get_probes): Rename to...
(any_static_probe_ops::get_probes): ...this.
(any_static_probe_ops::type_name): New method.
(any_static_probe_ops::gen_info_probes_table_header): New
method.
(compute_probe_arg): Use 'pc_probe.prob' instead of
'pc_probe.probe'. Call methods from probe.
(compile_probe_arg): Likewise.
(std::vector<const probe_ops *> all_probe_ops): Delete.
(std::vector<const static_probe_ops *> all_static_probe_ops):
New variable.
(_initialize_probe): Use 'all_static_probe_ops' instead of
'all_probe_ops'.
* probe.h (struct info_probe_column) <field_name>: Delete
extraneous newline
(info_probe_column_s): Delete type and VEC.
(struct probe_ops): Delete. Replace with...
(class static_probe_ops): ...this and...
(clas probe): ...this.
(struct bound_probe) <bound_probe>: Delete extraneous
newline. Adjust constructor to receive 'probe' instead of
'struct probe'.
<probe>: Rename to...
<prob>: ...this. Delete extraneous newline.
<objfile>: Delete extraneous newline.
(register_probe_ops): Delete unused prototype.
(info_probes_for_ops): Rename to...
(info_probes_for_spops): ...this. Adjust comment.
(get_probe_address): Move to 'probe::get_address'.
(get_probe_argument_count): Move to
'probe::get_argument_count'.
(can_evaluate_probe_arguments): Move to
'probe::can_evaluate_arguments'.
(evaluate_probe_argument): Move to 'probe::evaluate_argument'.
* solib-svr4.c (struct svr4_info): Adjust comment.
(struct probe_and_action) <probe>: Rename to...
<prob>: ...this.
(register_solib_event_probe): Receive 'probe' instead of
'struct probe' as argument. Use 'prob' instead of 'probe'
when applicable.
(solib_event_probe_action): Call 'get_argument_count' method
from probe. Adjust comment.
(svr4_handle_solib_event): Adjust comment. Call
'evaluate_argument' method from probe.
(svr4_create_probe_breakpoints): Call 'get_relocated_address'
from probe.
(svr4_create_solib_event_breakpoints): Use 'probe' instead of
'struct probe'. Call 'can_evaluate_arguments' from probe.
* symfile.h: Forward declare 'class probe' instead of 'struct
probe'.
* symtab.h: Likewise.
(struct symtab_and_line) <probe>: Rename to...
<prob>: ...this.
* tracepoint.c (start_tracing): Use 'prob' when applicable.
Call probe methods.
(stop_tracing): Likewise.
|
|
|
|
A recent patch introduced a call to warning, and the string used
had a trailing newline, which is not correct; the nightly ARI run
caught it, so this patch removes it.
gdb/ChangeLog:
* ravenscar-thread.c (ravenscar_inferior_created): Remove
trailing newline at end of string in call to warning.
Tested on powerpc-eabispe, no regression.
|
|
This patch c++ifies the osdata structure: osdata_column, osdata_item and
osdata. char* are replaced with std::string and VEC are replaced with
std::vector. This allows to get rid of a great deal of cleanup and
free'ing code.
I replaced the splay tree in list_available_thread_groups with an
std::map. Unless there's a good advantage to keep using a splay tree,
I think using the standard type should make things simpler to
understand.
gdb/ChangeLog:
* osdata.h: Include vector isntead of vec.h.
(osdata_column_s): Remove typedef.
(struct osdata_column): Add constructor.
<name, value>: Change type to std::string.
(DEF_VEC_O (osdata_column_s)): Remove.
(osdata_item_s): Remove typedef.
(struct osdata_item) <columns>: Change type to std::vector.
(DEF_VEC_O (osdata_item_s)): Remove.
(struct osdata): Add constructor.
<type>: Change type to std::string.
<items>: Change type to std::vector.
(osdata_p): Remove typedef.
(DEF_VEC_P (osdata_p)): Remove.
(osdata_parse): Return a unique_ptr.
(osdata_free): Remove.
(make_cleanup_osdata_free): Remove.
(get_osdata): Return a unique_ptr.
(get_osdata_column): Return pointer to std::string, take a
reference to osdata_item as parameter.
* osdata.c (struct osdata_parsing_data) <osdata>: Change type to
unique_ptr.
<property_name>: Change type to std::string.
(osdata_start_osdata): Allocate osdata with new and adjust.
(osdata_start_item): Adjust.
(osdata_start_column): Adjust.
(osdata_end_column): Adjust.
(clear_parsing_data): Remove.
(osdata_parse): Return a unique_ptr and adjust, remove cleanup.
(osdata_item_clear): Remove.
(get_osdata): return a unique_ptr and adjust.
(get_osdata_column): Return a pointer to std::string and adjust.
(info_osdata): Adjust.
* mi/mi-main.c: Include <map>.
(free_vector_of_osdata_items): Remove.
(list_available_thread_groups): Adjust, use std::map instead of
splay tree.
|
|
Currently, optimized out variables are not shown when doing "info
locals". Some users found that confusing, thinking GDB forgot to print
their variable. This patch adds them to the "info locals" output. I
added a test in gdb.dwarf2 to test for that behavior. I think doing a
synthetic DWARF test is the easiest way to have an optimized out local
variable for sure.
However, this change reveals what I think is a bug in GDB, see:
http://lists.dwarfstd.org/pipermail/dwarf-discuss-dwarfstd.org/2017-September/004394.html
This patch marks the tests in inline-locals.exp that start failing as
KFAIL. I'd like to tackle this bug eventually, but I don't have the
time right now. I think it's still better to show an extra erroneous
entry than to not show the optimized out variables at all. I haven't
created a bug in bugzilla yet, but if we agree it's indeed a bug, I'll
create one and update the setup_kfail lines with the actual bug number
before pushing.
gdb/ChangeLog:
* stack.c (iterate_over_block_locals): Add LOC_OPTIMIZED_OUT
case in switch.
gdb/testsuite/ChangeLog:
* gdb.opt/inline-locals.exp: Mark tests as KFAIL.
* gdb.dwarf2/info-locals-optimized-out.exp: New file.
* gdb.dwarf2/info-locals-optimized-out.c: New file.
|
|
The last patch removed the last usage of this type, so we can remove it.
gdb/ChangeLog:
* varobj.h (DEF_VEC_P (varobj_p)): Remove.
|
|
This patch replaces makes varobj_update return an std::vector, and
updates the fallouts.
To make that easier, the varobj_update_result is c++ified a bit. I
added a constructor and initialized its fields in-class. The newobj
vector is also made an std::vector, so that it's automatically freed
when varobj_update_result is destroyed and handled correctly by the
default move constructor. I disabled copy constructor and assignment
for that structure, because normally it never needs to be copied, only
moved.
As a result, the newobj parameter of update_dynamic_varobj_children must
be changed to an std::vector. The patch converts the other vector
parameters of update_dynamic_varobj_children to std::vector. It's not
strictly necessary to do it in the same patch, but I think it makes
sense to do it.
gdb/ChangeLog:
* varobj.h (struct varobj_update_result): Add constructor, add
move constructor, disable copy and assign, initialize fields.
<newobj>: Change type to std::vector.
(varobj_update): Return std::vector.
* varobj.c (install_dynamic_child): Change VEC parameters to
std::vector and adjust.
(update_dynamic_varobj_children): Likewise.
(varobj_update): Return std::vector and adjust.
* mi/mi-cmd-var.c (varobj_update_one): Adjust to vector changes.
|
|
This patch makes the children field of varobj an std::vector, and
updates the fallout.
One note is that varobj::parent must be made non-const. The reason is
that when a child deletes itself, it modifies its writes NULL to its
slot in its parent's children vector. With the VEC, the const didn't
made the parent's children vector content const, only the pointer to it,
but with std::vector, even the content is.
gdb/ChangeLog:
* varobj.h (struct varobj) <parent>: Remove const.
<children>: Change type to std::vector.
(varobj_list_children): Return std::vector const reference.
(varobj_restrict_range): Change parameter type to std::vector
const reference.
* varobj.c (varobj_has_more): Adjust.
(varobj_restrict_range): Change parameter type to std::vector
const reference and adjust.
(install_dynamic_child): Adjust.
(update_dynamic_varobj_children): Adjust.
(varobj_list_children): Return std::vector const reference and
adjust.
(varobj_add_child): Adjust.
(update_type_if_necessary): Adjust.
(varobj_update): Adjust.
(delete_variable_1): Adjust.
* ada-varobj.c (ada_value_has_mutated): Adjust.
* mi/mi-cmd-var.c (mi_cmd_var_list_children): Adjust.
|
|
This patch does a basic c++ification or the varobj data structure.
- varobj: add constructor and destructor, initialize fields
- varobj_root: initialize fields
- varobj_dynamic: initialize fields
This allows getting rid of new_variable, new_root_variable.
free_variable essentially becomes varobj's destructor. This also allows
getting rid of a cleanup, make_cleanup_free_variable, which was only
used in varobj_create in case the varobj creation fails. It is replaced
with a unique_ptr.
gdb/ChangeLog:
* varobj.h (struct varobj): Add constructor and destructor,
initialize fields.
* varobj.c (struct varobj_root): Initialize fields.
(struct varobj_dynamic): Initialize fields.
(varobj_create): Use unique_ptr instead of cleanup. Create
varobj with new instead of new_root_variable.
(delete_variable_1): Free variable with delete instead of
free_variable.
(create_child_with_value): Create variable with new instead of
new_variable.
(varobj::varobj): New.
(varobj::~varobj): New (body mostly coming from free_variable).
(new_variable): Remove.
(free_variable): Remove.
(do_free_variable_cleanup): Remove.
(make_cleanup_free_variable): Remove.
|
|
* as.c: Include write.h.
(common_emul_init): Use FAKE_LABEL_NAME.
* ecoff.c (add_file, ecoff_directive_end, ecoff_directive_loc):
Likewise.
(ecoff_build_symbols): Use FAKE_LABEL_CHAR.
* expr.c (get_symbol_name): Use FAKE_LABEL_CHAR. Accept only if
input_from_string is TRUE.
* read.c (input_from_string): New.
(read_symbol_name): Use FAKE_LABEL_CHAR. Accept only if
input_from_string is TRUE.
(temp_ilp): Set input_from_string to TRUE.
(restore_ilp): Set input_from_string to FALSE.
* read.h (input_from_string): Declare.
* symbols.c: Include write.h
(S_IS_LOCAL): Check for FAKE_LABEL_CHAR.
(symbol_relc_make_sym): Fix comment refering to default fake label
string.
* write.h (FAKE_LABEL_CHAR): New.
* config/tc-riscv.h (FAKE_LABEL_CHAR): Define.
* testsuite/gas/all/err-fakelabel.s: New.
|
|
gas/
* doc/as.texinfo (.align): Change some to most for text nop fill.
(.balign, .p2align): Likewise.
|
|
The last target that used core-regset.c (FreeBSD/alpha) has been
removed with GDB 8.0, and since then this file is obsolete.
|
|
"pthreads" in the right flag to pass in prepare_for_testing to linker,
instead of additional_flags. Without this patch, the test case can't be
complied by clang.
gdb compile failed, clang: warning: -lpthread: 'linker' input unused
gdb/testsuite:
2017-11-22 Yao Qi <yao.qi@linaro.org>
* gdb.base/info-os.exp: Pass pthreads.
* gdb.multi/multi-attach.exp: Likewise.
|
|
gdb.dwarf2/pr10770.exp can be used for non-gcc compiler, at least clang.
This patch removes the restriction to only use gcc. If other compilers,
like xlc or icc, can't compile the .c file, test result is not changed.
gdb/testsuite:
2017-11-22 Yao Qi <yao.qi@linaro.org>
* gdb.dwarf2/pr10770.exp: Remove code skipping non-gcc
compiler.
|
|
* i386-opc.tbl: Remove Vec_Disp8 from vgf2p8mulb.
* i386-tbl.h: Regenerate.
|
|
-pie is a linker flag, it should be passed via "ldflags", instead
of "additional_flags". Otherwise, clang complains,
clang: warning: argument unused during compilation: '-pie'
gdb/testsuite:
2017-11-22 Yao Qi <yao.qi@linaro.org>
* gdb.base/attach-pie-noexec.exp: Pass "-pie" in ldflags.
* gdb.base/break-interp.exp: Likewise.
* gdb.base/jit-attach-pie.exp: Likewise.
|
|
|
|
* i386-opc.tbl: Remove Vec_Disp8 from vpcompressb and vpexpandb.
* i386-tbl.h: Regenerate.
|
|
Uses of reg_expected_msgs rely on each arm_reg_type enumerator to have a
message entry in the same order as the enumerator declaration. This is
not clearly stated in the definition of both the arm_reg_type enum and
the reg_expected_msgs. Worse, there is nothing to ensure both are kept
in sync.
As an attempt towards this, this patch uses C99 array designators to
ensure that each message is associated with the right arm_reg_type. A
comment is also added near the definition of arm_reg_type to point to
the reg_expected_msgs array. Finally, the array is synced with
arm_reg_type by adding the missing error message for REG_TYPE_RNB.
2017-11-22 Thomas Preud'homme <thomas.preudhomme@arm.com>
gas/
* config/tc-arm.c (arm_reg_type): Comment on the link with
reg_expected_msgs.
(reg_expected_msgs): Initialize using array designators with
arm_reg_type index.
|
|
This second patch introduces mfpr_float_ops, an new implementation
of target_float_ops. This implements precise emulation of target
floating-point formats using the MPFR library. This is then used
to perform operations on types that do not match any host type.
Note that use of MPFR is still not required. The patch adds
a configure option --with-mpfr similar to --with-expat. If use of
MPFR is disabled via the option or MPFR is not available, code will
fall back to current behavior. This means that operations on types
that do not match any host type will be implemented on the host
long double type instead.
A new test case verifies that we can correctly print the largest
__float128 value now.
gdb/ChangeLog:
2017-11-22 Ulrich Weigand <uweigand@de.ibm.com>
* NEWS: Document use of GNU MPFR.
* README: Likewise.
* Makefile.in (LIBMPFR): Add define.
(CLIBS): Add $(LIBMPFR).
* configure.ac: Add --with-mpfr configure option.
* configure: Regenerate.
* config.in: Regenerate.
* target-float.c [HAVE_LIBMPFR]: Include <mpfr.h>.
(class mpfr_float_ops): New type.
(mpfr_float_ops::from_target): Two new overloaded functions.
(mpfr_float_ops::to_target): Likewise.
(mpfr_float_ops::to_string): New function.
(mpfr_float_ops::from_string): Likewise.
(mpfr_float_ops::to_longest): Likewise.
(mpfr_float_ops::from_longest): Likewise.
(mpfr_float_ops::from_ulongest): Likewise.
(mpfr_float_ops::to_host_double): Likewise.
(mpfr_float_ops::from_host_double): Likewise.
(mpfr_float_ops::convert): Likewise.
(mpfr_float_ops::binop): Likewise.
(mpfr_float_ops::compare): Likewise.
(get_target_float_ops): Use mpfr_float_ops if available.
gdb/doc/ChangeLog:
2017-11-22 Ulrich Weigand <uweigand@de.ibm.com>
* gdb.texinfo (Requirements): Document use of GNU MPFR.
gdb/testsuite/ChangeLog:
2017-11-22 Ulrich Weigand <uweigand@de.ibm.com>
* gdb.base/float128.c (large128): New variable.
* gdb.base/float128.exp: Add test to print largest __float128 value.
|
|
Prepare for using MPFR to implement floating-point arithmetic by
refactoring the way host floating-point arithmetic is currently used.
In particular, fix the following two problems that cause different
(and incorrect) results due to using host arithmetic:
- Current processing always uses host "long double", and then converts
back to the actual target format. This may introduce rounding errors.
- Conversion of FP values to LONGEST simply does a host C++ type cast.
However the result of such a cast is undefined if the source value
is outside the representable range. MPFR always has defined behavior
here (returns the minimum or maximum representable value).
To fix the first issue, I've now created not just one set of routines
using host FP arithmetic (on long double), but instead three different
sets of routines, one each for host float, double, and long double.
Operations can then be performed in the desired type directly, avoiding
the extra rounding step. Using C++ templates, the three sets can all
share the same source code without duplication.
To fix the second issue, I'm simply enforcing the same conversion rule
(which makes sense anyway) when converting out-of-range values from
FP to LONGEST.
To contain the code complexity with the variety of options now possible,
I've created a new class "target_float_ops". There are a total of five
separate implementations of this:
host_float_ops<float> Implemented via host FP in given type
host_float_ops<double>
host_float_ops<long double>
mpfr_float_ops Implemented via MPFR if available
decimal_float_ops Implemented via libdecnumber
Note instead of using the DOUBLEST define, this always just uses the
"long double" data type. But since we now require C++11 anyway, this
type must in any case be avaialble unconditionally.
Most target floating-point operations simply dispatch to a (virtual)
member routine of this class. Which implementation to choose is
determined from the target types involved, and whether they match
some host type or not. E.g. any operation on a single type that
matches a host type is performed in that type. Operations involving
two types that both match host types are performed in the larger one
(according to C/C++ implicit conversion rules). Operations that
involve any type that does not match a host type are performed using
MPFR. (And of course operations involving decimal FP are performed
using libdecnumber.)
This first patch implements the refactoring of target-float.c as
described above, introduing the host_float_ops and decimal_float_ops
classes, and using them. Use of MPFR is introduced in the second patch.
A bit of special-case handling code is moved around to as to avoid
code duplication between host_float_ops and mpfr_float_ops.
Note that due to the changes mentioned above, I've had to update (fix)
the floating-point register values tested in the gdb.arch/vsx-regs.exp
test case. (The new values now work both with host arithmetic and MPFR.)
gdb/ChangeLog:
2017-11-22 Ulrich Weigand <uweigand@de.ibm.com>
* target-float.c: Do not include <math.h>.
Include <cmath> and <limits>.
(DOUBLEST): Do not define.
(class target_float_ops): New type.
(class host_float_ops): New templated type.
(class decimal_float_ops): New type.
(floatformat_to_doublest): Rename to ...
(host_float_ops<T>::from_target): ... this. Use template type T
instead of DOUBLEST. Use C++ math routines. Update recursive calls.
(host_float_ops<T>::from_target): New overload using a type argument.
(floatformat_from_doublest): Rename to ...
(host_float_ops<T>::to_target): ... this. Use template type T
instead of DOUBLEST. Use C++ math routines. Update recursive calls.
(host_float_ops<T>::to_target): New overload using a type argument.
(floatformat_printf_format): New function.
(struct printf_length_modifier): New templated type.
(floatformat_to_string): Rename to ...
(host_float_ops<T>::to_string): ... this. Use type instead of
floatformat argument. Use floatformat_printf_format and
printf_length_modifier. Remove special handling of invalid numbers,
infinities and NaN (moved to target_float_to_string).
(struct scanf_length_modifier): New templated type.
(floatformat_from_string): Rename to ...
(host_float_ops<T>::from_string): ... this. Use type instead of
floatformat argument. Use scanf_length_modifier.
(floatformat_to_longest): Rename to ...
(host_float_ops<T>::to_longest): ... this. Use type instead of
floatformat argument. Handle out-of-range values deterministically.
(floatformat_from_longest): Rename to ...
(host_float_ops<T>::from_longest): ... this. Use type instead of
floatformat argument.
(floatformat_from_ulongest): Rename to ...
(host_float_ops<T>::from_ulongest): ... this. Use type instead of
floatformat argument.
(floatformat_to_host_double): Rename to ...
(host_float_ops<T>::to_host_double): ... this. Use type instead of
floatformat argument.
(floatformat_from_host_double): Rename to ...
(host_float_ops<T>::from_host_double): ... this. Use type instead of
floatformat argument.
(floatformat_convert): Rename to ...
(host_float_ops<T>::convert): ... this. Use type instead of
floatformat arguments. Remove handling of no-op conversions.
(floatformat_binop): Rename to ...
(host_float_ops<T>::binop): ... this. Use type instead of
floatformat arguments.
(floatformat_compare): Rename to ...
(host_float_ops<T>::compare): ... this. Use type instead of
floatformat arguments.
(match_endianness): Use type instead of length/byte_order arguments.
(set_decnumber_context): Likewise.
(decimal_from_number): Likewise. Update calls.
(decimal_to_number): Likewise.
(decimal_is_zero): Likewise. Update calls. Move to earlier in file.
(decimal_float_ops::to_host_double): New dummy function.
(decimal_float_ops::from_host_double): Likewise.
(decimal_to_string): Rename to ...
(decimal_float_ops::to_string): ... this. Use type instead of
length/byte_order arguments. Update calls.
(decimal_from_string): Rename to ...
(decimal_float_ops::from_string): ... this. Use type instead of
length/byte_order arguments. Update calls.
(decimal_from_longest): Rename to ...
(decimal_float_ops::from_longest): ... this. Use type instead of
length/byte_order arguments. Update calls.
(decimal_from_ulongest): Rename to ...
(decimal_float_ops::from_ulongest): ... this. Use type instead of
length/byte_order arguments. Update calls.
(decimal_to_longest): Rename to ...
(decimal_float_ops::to_longest): ... this. Use type instead of
length/byte_order arguments. Update calls.
(decimal_binop): Rename to ...
(decimal_float_ops::binop): ... this. Use type instead of
length/byte_order arguments. Update calls.
(decimal_compare): Rename to ...
(decimal_float_ops::compare): ... this. Use type instead of
length/byte_order arguments. Update calls.
(decimal_convert): Rename to ...
(decimal_float_ops::convert): ... this. Use type instead of
length/byte_order arguments. Update calls.
(target_float_same_category_p): New function.
(target_float_same_format_p): Likewise.
(target_float_format_length): Likewise.
(enum target_float_ops_kind): New type.
(get_target_float_ops_kind): New function.
(get_target_float_ops): Three new overloaded functions.
(target_float_is_zero): Update call.
(target_float_to_string): Add special handling of invalid numbers,
infinities and NaN (moved from floatformat_to_string). Use
target_float_ops callback.
(target_float_from_string): Use target_float_ops callback.
(target_float_to_longest): Likewise.
(target_float_from_longest): Likewise.
(target_float_from_ulongest): Likewise.
(target_float_to_host_double): Likewise.
(target_float_from_host_double): Likewise.
(target_float_convert): Add special case for no-op conversions.
Use target_float_ops callback.
(target_float_binop): Use target_float_ops callback.
(target_float_compare): Likewise.
gdb/testsuite/ChangeLog:
2017-11-22 Ulrich Weigand <uweigand@de.ibm.com>
* gdb.arch/vsx-regs.exp: Update register content checks.
|
|
Recent gcc 8 trunk emits the warning below,
../../binutils-gdb/gdb/python/py-gdb-readline.c:79:15: error: ‘char* strncpy(char*, const char*, size_t)’ output truncated before terminating nul copying as many bytes from a string as its length [-Werror=stringop-truncation]
strncpy (q, p, n);
~~~~~~~~^~~~~~~~~
../../binutils-gdb/gdb/python/py-gdb-readline.c:73:14: note: length computed here
n = strlen (p);
~~~~~~~^~~
gdb:
2017-11-22 Yao Qi <yao.qi@linaro.org>
* python/py-gdb-readline.c (gdbpy_readline_wrapper): Use strcpy.
|
|
Recent gcc 8 trunk emits the warning below,
../../../binutils-gdb/gdb/gdbserver/remote-utils.c:1204:14: error: ‘char* strncpy(char*, const char*, size_t)’ output truncated before terminating nul copying 6 bytes from a string of the same length [-Werror=stringop-truncation]
strncpy (buf, "watch:", 6);
~~~~~~~~^~~~~~~~~~~~~~~~~~
../../binutils-gdb/gdb/cli/cli-decode.c:1118:15: error: ‘char* strncpy(char*, const char*, size_t)’ specified bound depends on the length of the source argument [-Werror=stringop-overflow=]
strncpy (cmdtype1 + 1, cmdtype, len - 1);
~~~~~~~~^~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
../../binutils-gdb/gdb/cli/cli-decode.c:1110:16: note: length computed here
len = strlen (cmdtype);
~~~~~~~^~~~~~~~~
../../binutils-gdb/gdb/cli/cli-decode.c:1120:15: error: ‘char* strncpy(char*, const char*, size_t)’ specified bound depends on the length of the source argument [-Werror=stringop-overflow=]
strncpy (cmdtype2, cmdtype, len - 1);
~~~~~~~~^~~~~~~~~~~~~~~~~~~~~~~~~~~~
../../binutils-gdb/gdb/cli/cli-decode.c:1110:16: note: length computed here
len = strlen (cmdtype);
~~~~~~~^~~~~~~~~
../../binutils-gdb/gdb/cp-namespace.c:1071:11: error: ‘char* strncpy(char*, const char*, size_t)’ output truncated before terminating nul copying 2 bytes from a string of the same length [-Werror=stringop-truncation]
strncpy (full_name + scope_length, "::", 2);
~~~~~~~~^~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
This patch fixes it by using memcpy instead of strncpy.
gdb:
2017-11-22 Yao Qi <yao.qi@linaro.org>
* cli/cli-decode.c (help_list): Use memcpy instead of strncpy.
* cp-namespace.c (cp_lookup_transparent_type_loop): Likewise.
gdb/gdbserver:
2017-11-22 Yao Qi <yao.qi@linaro.org>
* remote-utils.c (prepare_resume_reply): Use memcpy.
|
|
For ARCv2, h-regs are only valid unitl r31.
gas/
2017-11-21 Claudiu Zissulescu <claziss@synopsys.com>
* testsuite/gas/arc/hregs-err.s: New test.
opcodes/
2017-11-21 Claudiu Zissulescu <claziss@synopsys.com>
* arc-opc.c (insert_rhv2): Check h-regs range.
|
|
The -n command-line of x86 assembler disables optimization of alignment
directives, like ".balign 8, 0x90", with multi-byte nop instructions
such as leal 0(%esi),%esi.
PR gas/22464
* testsuite/gas/i386/align-1.s: New file.
* testsuite/gas/i386/align-1a.d: Likewise.
* testsuite/gas/i386/align-1b.d: Likewise.
* testsuite/gas/i386/i386.exp: Run align-1a and align-1b.
|
|
|
|
When debugging a program using a ravenscar runtime, the thread
layer sometimes gets confused, and even missing some threads.
This was traced to an assumption that ravenscar_wait was making,
which is that calling the "to_wait" target_ops method would
set the inferior_ptid, so that we could then use that assumption
to update our thread_list and current ptid. However, this has not
been the case for quite a while now. This patch fixes the problem
by assigning inferior_ptid the ptid returned by "to_wait".
gdb/ChangeLog:
* ravenscar-thread.c (ravenscar_wait): Update inferior ptid
with event ptid from the lower layer before doing the
ravenscar-specific update.
|
|
Connecting to a TSIM simulator over the remote protocol causes GDB
to crash with the following failed assertion:
(gdb) tar remote :1234
Remote debugging using :1234
/[...]/gdb/ravenscar-thread.c:182: internal-error: ravenscar_update_inferior_ptid: Assertion `!is_ravenscar_task (inferior_ptid)' failed.
A problem internal to GDB has been detected,
further debugging may prove unreliable.
Quit this debugging session? (y or n) y
What happens is the following. Upon connection to the target, GDB
sends a 'qfThreadInfo' query, which is the query asking the target
for the ID of the first thread, and TSIM replies 'm0':
Sending packet: $qfThreadInfo#bb...Ack
Packet received: m0
As a result of this, GDB takes the '0' as the TID, and because of it,
constructs a ptid whose value is {42000, 0, 0}. This trips our
!is_ravenscar_task check, because all it does to identify threads
corresponding to ravenscar tasks is that their lwp is null, because
that's how we construct their ptid.
But this is unfortunatly not sufficient when debugging with TSIM,
because the thread ID that TSIM returns causes the creation of
a ptid whose lwp is zero, which matches the current identification
scheme and yet is clearly not a ravenscar task.
The fix is to also make sure that the ptid's tid field is nonzero.
gdb/ChangeLog:
* ravenscar-thread.c (is_ravenscar_task): Also verify that
the ptid's TID is nonzero.
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Trying to debug a program using a stripped version of the ravenscar
runtime, we can get the following error:
(gdb) cont
Continuing.
Cannot find Ada_Task_Control_Block type. Aborting
This is because the ravenscar-thread layer makes the assumption that
the runtime is built the way we expect it, meaning that the Ada tasking
units we rely on for Ada tasking debugging, are built with debugging
information, and that this debug information has not been stripped from
the runtime.
When this assumption is not true, resuming such a program can trigger
the error above, which then leads GDB a little confused. For instance,
we can see things like:
(gdb) bt
Target is executing.
This patch fixes the issue by disabling the ravenscar thread layer
if we detect that the runtime is missing some of the debugging info
we need in order to support Ada task debugging. This is the best
we can do, as the ravenscar-thread layer actually depends on the
ada-tasks layer to implement thread debugging.
gdb/ChangeLog:
* ada-lang.h (ada_get_tcb_types_info): Add declaration.
* ada-tasks.c (ada_get_tcb_types_info): Renames get_tcb_types_info.
Make non-static. Change return type to char *. Adjust code
accordingly. Rewrite the function's documentation.
(read_atcb): Adjust call to get_tcb_types_info accordingly.
* ravenscar-thread.c (ravenscar_inferior_created): Check that
we have enough debugging information in the runtime to support
Ada task debugging before we enable the ravenscar-thread layer.
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This patch reworks the ravenscar-thread layer to remove the
assumption that the target only has 1 CPU. In particular,
when connected to a QEMU target over the remote protocol,
QEMU reports each CPU as one thread. This patch adapts
the ravenscar-thread layer to this, and adds a large comment
explaining the general design of this unit.
gdb/ChangeLog:
* ada-lang.h (ada_get_task_info_from_ptid): Add declaration.
* ada-tasks.c (ada_get_task_info_from_ptid): New function.
* ravenscar-thread.c: Add into comment.
(base_magic_null_ptid): Delete.
(base_ptid): Change documentation.
(ravenscar_active_task): Renames ravenscar_running_thread.
All callers updated throughout.
(is_ravenscar_task, ravenscar_get_thread_base_cpu): New function.
(ravenscar_task_is_currently_active): Likewise.
(get_base_thread_from_ravenscar_task): Ditto.
(ravenscar_update_inferior_ptid): Adjust to handle multiple CPUs.
(ravenscar_runtime_initialized): Likewise.
(get_running_thread_id): Add new parameter "cpu". Adjust
implementation to handle this new parameter.
(ravenscar_fetch_registers): Small adjustment to use
is_ravenscar_task and ravenscar_task_is_currently_active in
order to decide whether to use the target beneath or this
module's arch_ops.
(ravenscar_store_registers, ravenscar_prepare_to_store): Likewise.
(ravenscar_stopped_by_sw_breakpoint): Use
get_base_thread_from_ravenscar_task to get the underlying
thread, rather than using base_ptid.
(ravenscar_stopped_by_hw_breakpoint, ravenscar_stopped_by_watchpoint)
(ravenscar_stopped_data_address, ravenscar_core_of_thread):
Likewise.
(ravenscar_inferior_created): Do not set base_magic_null_ptid.
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At the user level, this patch enhances the debugger to print the ID
of the base CPU a task is running on:
(gdb) info task 3
Ada Task: 0x13268
Name: raven1
Thread: 0x13280
LWP: 0
!!!-> Base CPU: 1
No parent
Base Priority: 127
State: Runnable
This new field is only printed when the base CPU is nonzero or, in
other words, if the base CPU info is being provided by the runtime.
For instance, on native systems, where threads/processes can "jump"
from CPU to CPU, the info is not available, and the output of the
command above then remains unchanged.
At the internal level, the real purpose of this change is to prepare
the way for ravenscar-thread to start handling SMP systems. For that,
we'll need to know which CPU each task is running on... More info
on that in the commit that actually adds support for it.
gdb/ChangeLog:
* ada-lang.h (struct ada_task_info) <base_cpu>: New field.
* ada-lang.c (struct atcb_fieldno) <base_cpu>: New field.
(get_tcb_types_info): Set fieldnos.base_cpu.
(read_atcb): Set task_info->base_cpu.
(info_task): Print "Base CPU" info if set by runtime.
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We have noticed a regression in our watchpoint support when debugging
through the remote protocol a program running on a bare metal platform,
when the program uses what we call the Ravenscar Runtime.
This runtime is a subset of the Ada runtime defined by the Ravenscar
Profile. One of the nice things about this runtime is that it provides
tasking, which is equivalent to the concept of threads in C (it is
actually often mapped to threads, when available). For bare metal
targets, however, there is no OS, and therefore no thread layer.
What we did, then, was add a ravenscar-thread layer, which has insider
knowledge of the runtime to get the list of threads, but also all
necessary info to perform thread switching.
For the record, the commit which caused the regression is:
commit 799a2abe613be0645b84f5aaa050f2f91e6ae3f7
Date: Mon Nov 30 16:05:16 2015 +0000
Subject: remote: stop reason and watchpoint data address per thread
Running local-watch-wrong-thread.exp with "maint set target-non-stop
on" exposes that gdb/remote.c only records whether the target stopped
for a breakpoint/watchpoint plus the watchpoint data address *for the
last reported remote event*. But in non-stop mode, we need to keep
that info per-thread, as each thread can end up with its own
last-status pending.
Our testcase is very simple. We have a package defining a global
variable named "Watch"...
package Pck is
Watch : Integer := 1974;
end Pck;
... and a main subprogram which changes its value
procedure Foo is
begin
Pck.Watch := Pck.Watch + 1;
end Foo;
To reproduce, we built our program as usual, started it in QEMU,
and then connected GDB to QEMU...
(gdb) target remote :4444
(gdb) break _ada_foo
(gdb) cont <--- this is to make sure the program is started
and the variable we want to watch is initialized
... at which point we try to use a watchpoint on our global variable:
(gdb) watch watch
... but, upon resuming the execution with a "cont", we expected to
get a watchpoint-hit notification, such as...
(gdb) cont
Hardware watchpoint 2: watch
Old value = 1974
New value = 1975
0xfff00258 in foo () at /[...]/foo.adb:6
6 end Foo;
... but unfortunately, we get a SIGTRAP instead:
(gdb) cont
Program received signal SIGTRAP, Trace/breakpoint trap.
foo () at /[...]/foo.adb:6
6 end Foo;
What happens is that, on the one hand, the change in remote.c
now stores the watchpoint-hit notification info in the thread
that received it; and on the other hand, we have a ravenscar-thread
layer which manages the thread list on top of the remote protocol
layer. The two of them get disconnected, and this eventually results
in GDB not realizing that we hit a watchpoint. Below is how:
First, once connected and just before inserting our watchpoint,
we have the ravenscar-thread layer which built the list of threads
by extracting some info from inferior memory, giving us the following
two threads:
(gdb) info threads
Id Target Id Frame
1 Thread 0 "0Q@" (Ravenscar task) foo () at /[...]/foo.adb:5
* 2 Thread 0x24618 (Ravenscar task) foo () at /[...]/foo.adb:5
The first thread is the only thread QEMU told GDB about. The second
one is a thread that the ravenscar-thread added. QEMU has now way
to know about those threads, since they are really embedded inside
the program; that's why we have the ravenscar layer, which uses
inside-knowledge to extract the list of threads.
Next, we insert a watchpoint, which applies to all threads. No problem
so far.
Then, we continue; meaning that GDB sends a Z2 packet to QEMU to
get the watchpoint inserted, then a vCont to resume the program's
execution. The program hits the watchpoints, and thererfore QEMU
reports it back:
Packet received: T05thread:01;watch:000022c4;
Since QEMU knows about one thread and one thread only, it stands
to reason that it would say that the event applies to thread:01,
which is our first thread in the "info threads" listing. That
thread has a ptid of {42000, lwp=1, tid=0}.
This is where Pedro's change kicks in: Seeing this event, and
having determined that the event was reported for thread 01,
and therefore ptid {42000, lwp=1, tid=0}, it saves the watchpoint-hit
event info in the private area of that thread/ptid. Once this is
done, remote.c's event-wait layer returns.
Enter the ravenscar-thread layer of the event-wait, which does
a little dance to delegate the wait to underlying layers with
ptids that those layers know about, and then when the target_beneath's
to_wait is done, tries to figure out which thread is now the active
thread. The code looks like this:
1. inferior_ptid = base_ptid;
2. beneath->to_wait (beneath, base_ptid, status, 0);
3. [...]
4. ravenscar_update_inferior_ptid ();
5.
6. return inferior_ptid;
Line 1 is where we reset inferior_ptid to the ptid that
the target_beneath layer knows about, allowing us to then
call its to_wait implementation (line 2). And then, upon
return, we call ravenscar_update_inferior_ptid, which reads
inferior memory to determine which thread is actually active,
setting inferior_ptid accordingly. Then we return that
inferior_ptid (which, again, neither QEMU and therefore nor
the remote.c layer knows about).
Upon return, we eventually arrive to the part where we try
to handle the inferior event: we discover that we got a SIGTRAP
and, as part of its handling, we call watchpoints_triggered,
which calls target_stopped_by_watchpoint, which eventually
remote_stopped_by_watchpoint, where Pedro's change kicks in
again:
struct thread_info *thread = inferior_thread ();
return (thread->priv != NULL
&& thread->priv->stop_reason == TARGET_STOPPED_BY_WATCHPOINT);
Because the ravenscar-thread layer changed the inferior_ptid
to the ptid of the active thread, inferior_thread now returns
the private data of that thread. This is not the thread that
QEMU reported the watchpoint-hit on, and thus, the function
returns "no watchpoint hit, mister". Hence GDB not understanding
the SIGTRAP, thus reporting it verbatim.
The way we chose to fix the issue is by making sure that the
ravenscar-thread layer doesn't let the remote layer be called
with inferior_ptid being set to a thread that the remote layer
does not know about.
gdb/ChangeLog:
* ravenscar-thread.c (ravenscar_stopped_by_sw_breakpoint)
(ravenscar_stopped_by_hw_breakpoint, ravenscar_stopped_by_watchpoint)
(ravenscar_stopped_data_address, ravenscar_core_of_thread):
New functions.
(init_ravenscar_thread_ops): Set the to_stopped_by_sw_breakpoint,
to_stopped_by_hw_breakpoint, to_stopped_by_watchpoint,
to_stopped_data_address and to_core_of_thread fields of
ravenscar_ops.
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Check in the object file generated from the older assembler as a
compressed file.
PR binutils/22451
* testsuite/binutils-all/x86-64/objects.exp: New file.
* testsuite/binutils-all/x86-64/pr22451.o.bz2: Likewise.
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Current versions of GCC support switching the format used for "long double"
to either IBM double double or IEEE-128. The resulting binary is marked
via different setting of the Tag_GNU_Power_ABI_FP GNU attribute.
This patch checks this attribute to detect the format of the default
"long double" type and sets GDB's notion of the format accordingly.
The patch also adds support for the "__ibm128" type, which always uses
IBM double double format independent of the format used for "long double".
A new test case verifies that all three types, "long double", "__float128",
and "__ibm128" are correctly detected in all three compiler settings,
the default setting, -mabi=ieeelongdouble, and -mabi=ibmlongdouble.
gdb/ChangeLog:
2017-11-21 Ulrich Weigand <uweigand@de.ibm.com>
* ppc-tdep.h (enum powerpc_long_double_abi): New data type.
(struct gdbarch_tdep): New member long_double_abi.
* rs6000-tdep.c (rs6000_gdbarch_init): Initialize long_double_abi
member of tdep struct based on Tag_GNU_Power_ABI_FP attribute.
* ppc-linux-tdep.c (ppc_linux_init_abi): Install long double data
format depending on long_double_abi tdep member.
(ppc_floatformat_for_type): Handle __ibm128 type.
gdb/testsuite/ChangeLog:
2017-11-21 Ulrich Weigand <uweigand@de.ibm.com>
* gdb.arch/ppc-longdouble.exp: New file.
* gdb.arch/ppc-longdouble.c: Likewise.
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This new testcase has a test that fails like this here:
$1 = (<data variable, no debug info> *) 0x60208c <some_minsym>
(gdb) FAIL: gdb.ada/minsyms.exp: print &some_minsym
The problem is that the testcase hardcodes an expected address for the
"some_minsym" variable, which obviously isn't stable.
Fix that by expecting $hex instead.
gdb/testsuite/ChangeLog:
2017-11-21 Pedro Alves <palves@redhat.com>
* gdb.ada/minsyms.exp: Accept any address for 'some_minsym'.
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PR 22419
* emultempl/v850elf.em (v850_create_output_section_statements):
New function. Generate an error if attempting to convert the
format of the output file.
* testsuite/ld-unique/pr21529.d: Skip for the V850.
* testsuite/ld-elf/pr21884.d: Skip for the V850.
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