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The GNU coding standards said the comments should be complete sentences
and end with a period and two spaces. But sometimes it should be more
cleaner when the comments only include a word or codes. Therefore, I made
the following changes after referring to other target/generic codes,
* Try to write sentences in comments, must end with a period and two spaces.
* End with two spaces without a period for codes/instructions only.
* End with one space without a period for a single word/variable only.
Besids, also rewrite/remove some comments which are obsolete or too long,
and fix indents for comments.
bfd/
* elfnn-riscv.c: Comments tidy and improvement.
* elfxx-riscv.c: Likewise.
* elfxx-riscv.h: Likewise.
gas/
* config/tc-riscv.c: Comments tidy and improvement. Also update
comment "fallthru" to "Fall through" that end with a period and
two spaces.
include/
* elf/riscv.h: Comments tidy and improvement.
* opcode/riscv-opc.h: Likewise.
* opcode/riscv.h: Likewise.
opcodes/
* riscv-dis.c: Comments tidy and improvement.
* riscv-opc.c: Likewise.
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Now that we've moved all ports to dejagnu & testsuite/sim/, the only
thing the testsuite/configure script has been doing is filling in the
sim_arch field in the testsuite/Makefile. We can simply let the top
sim/configure script do that for us now. This simplifies & speeds up
the build a bit by killing an entire configure script.
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This is the only target using a dir directly under testsuite/. All
others use sim/<arch>/ instead. Relocate it so all targets look the
same, and so we can leverage the common test harness.
We drop loop.s in the process because it was never referenced and
was just 2 lines of code.
All other test files are moved & have directives added to the top so
that the test harness can invoke them correctly.
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No tests were ever added in here in the ~22 years since it was first
created. Seems unlikely any tests will be added at this rate, and
the sim/mips/ testdir already has some (light) coverage for this
target. So punt the tree.
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The frv-elf subdir contained five tests:
* cache: A cache test of some sort.
* exit47: A program to test exit status of 47 from sim.
* grloop: Some basic limited loop test program.
* hello: Standard "hello world" output program.
* loop: An infinite loop program.
The loop.s test is never referenced anywhere, and is all of 2 lines.
Anyone who really needs a while(1); test case and re-implement it
themselves locally.
The cache.s code isn't referenced anywhere because it requires some
custom args to the run program, and when this testcase was added, we
didn't have any support for that. We do now, so we can add a header
to enable that. Turns out the code crashes even with those, so turn
around and mark it xfail. Maybe someone someday will care.
That leaves the small exit47, grloop, and hello tests. Now that the
sim test harness supports testing for custom exit status, we can move
them all to sim/frv/ to maintain test coverage.
The remaining differences between frv-elf & sim/frv are:
* frv-elf/ runs for frv-*-elf while sim/frv/ runs for frv*-*-*.
* frv-elf/ runs "*.s" files while sim/frv/ only has .cgs and such.
On closer inspection, these are also meaningless distinctions:
* There is nothing specific to the tests that require an *-elf
target. Normally that would mean newlib+libgloss type stuff,
but there's no such requirement in frv-elf/.
* The ".s" suffix is the standard "this is an assembly file" suffix.
Since FRV is a CGEN target, we can reuse the existing convention of
".ms" to mean "miscellaneous .s" as in "this is an assembly file,
and run/bucket its test results in the miscellaneous category".
So moving frv-elf/{cache,exit47,grloop,hello}.s to sim/frv/*.ms makes
sense and simplifies things quite a bit for the target while also
slightly increasing the coverage for some tuples.
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The m32r-elf subdir contained three tests:
* exit47: A program to test exit status of 47 from sim.
* hello: Standard "hello world" output program.
* loop: An infinite loop program.
There's already a sim/m32r/hello.ms test that does exactly the same
thing as m32r-elf/hello.s, so we can delete that.
The loop.s test is never referenced anywhere, and is all of 2 lines.
Anyone who really needs a while(1); test case and re-implement it
themselves locally.
That leaves the single exit47 test. Now that the sim test harness
supports testing for custom exit status, we can easily move that to
sim/m32r/exit47.ms to maintain test coverage.
The remaining differences between m32r-elf & sim/m32r are:
* m32r-elf/ runs for m32r-*-elf while sim/m32r/ runs for m32r*-*-*.
* m32r-elf/ runs "*.s" files while sim/m32r/ runs "*.ms" files.
On closer inspection, these are also meaningless distinctions:
* There is nothing specific to the tests that require an *-elf
target. Normally that would mean newlib+libgloss type stuff,
but there's no such requirement in m32r-elf/.
* The ".s" suffix is the standard "this is an assembly file"
suffix. Turns out ".ms" is just how sim/m32r/ (and a few other
CGEN based targets) categorize/bucket test cases. It simply
means "miscellaneous .s" as in "this is an assembly file, and
run/bucket its test results in the miscellaneous category".
So moving m32r-elf/exit47.s to sim/m32r/exit47.ms makes sense and
simplifies things quite a bit for the target while also slightly
increasing the coverage for some tuples.
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Some tests want to verify they can control the exit status, and
allowing any non-zero value would allow tests to silently fail:
if it crashed & exited 1, or forced all non-zero to 1, then we
wouldn't be able to differentiate with a test exiting with a
status like 47.
Extend the test harness to allow tests to declare their expected
exit status that would be defined as a "pass". This requires a
small tweak to the sim_run API to return the status directly, but
that shouldn't be a big deal as it's only used by sim code.
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Like the PR15356 fix for the same leak in bfd, but for readelf.c
PR 26539
* readelf.c (uncompress_section_contents): Always call inflateEnd.
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These aren't specific to ELF at all, and seem generally useful.
So pull them out of the ELF backend and into the common core.
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gdb/ChangeLog:
* MAINTAINERS (Wrate After Approval): Add myself.
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for binutils/ChangeLog
* MAINTAINERS: Update my email address.
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Since is_trivially_default_constructible was not implemented before gcc-5
it cannot be used with gcc-4.x.
Fix the build by using conditional compilation around that line.
Use the equivalent is_trivially_constructible<T> instead, since
we already have HAVE_IS_TRIVIALLY_CONSTRUCTIBLE for that purpose.
Fixes: 098caef485a ("Refactor struct trad_frame_saved_regs")
gdb:
2021-01-14 Bernd Edlinger <bernd.edlinger@hotmail.de>
* trad-frame.c (trad_frame_alloc_saved_regs): Avoid compile-error
because is_trivially_default_constructible was first implemented with
gcc-5.
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Linker should never generate dynamic relocations for relocations in
non-SEC_ALLOC section which has no impact on run-time behavior. Such
relocations should be resolved to 0.
PR ld/26688
* elf32-bfin.c (bfinfdpic_relocate_section): Skip non SEC_ALLOC
section for R_BFIN_FUNCDESC.
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Consider the following test-case small.c:
...
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
int main (void) {
int *p = (int *)malloc (sizeof(int) * 4);
memset (p, 0, sizeof(p));
printf ("p[0] = %d; p[3] = %d\n", p[0], p[3]);
return 0;
}
...
On Ubuntu 20.04, we get:
...
$ gcc -O0 -g small.c
$ gdb -batch a.out -ex start -ex step
Temporary breakpoint 1, main () at small.c:6
6 int *p = (int *) malloc(sizeof(int) * 4);
p[0] = 0; p[3] = 0
[Inferior 1 (process $dec) exited normally]
...
but after switching off the on-by-default fcf-protection, we get the desired
behaviour:
...
$ gcc -O0 -g small.c -fcf-protection=none
$ gdb -batch a.out -ex start -ex step
Temporary breakpoint 1, main () at small.c:6
6 int *p = (int *) malloc(sizeof(int) * 4);
7 memset (p, 0, sizeof(p));
...
Using "set debug infrun 1", the first observable difference between the two
debug sessions is that with -fcf-protection=none we get:
...
[infrun] process_event_stop_test: stepped into dynsym resolve code
...
In this case, "in_solib_dynsym_resolve_code (malloc@plt)" returns true because
"in_plt_section (malloc@plt)" returns true.
With -fcf-protection=full, "in_solib_dynsym_resolve_code (malloc@plt)" returns
false because "in_plt_section (malloc@plt)" returns false, because the section
name for malloc@plt is .plt.sec instead of .plt, which is not handled in
in_plt_section:
...
static inline int
in_plt_section (CORE_ADDR pc)
{
return pc_in_section (pc, ".plt");
}
...
Fix this by handling .plt.sec in in_plt_section.
Tested on x86_64-linux.
[ Another requirement to be able to reproduce this is to have a dynamic linker
with a "malloc" minimal symbol, which causes find_solib_trampoline_target to
find it, such that skip_language_trampoline returns the address for the
dynamic linkers malloc. This causes the step machinery to set a breakpoint
there, and to continue, expecting to hit it. Obviously, we execute glibc's
malloc instead, so the breakpoint is not hit and we continue to program
completion. ]
gdb/ChangeLog:
2021-01-14 Tom de Vries <tdevries@suse.de>
PR breakpoints/27151
* objfiles.h (in_plt_section): Handle .plt.sec.
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When running test-case gdb.base/style.exp with target board unix/-m32, we run
into (stripped styling from output, shortened file name):
...
(gdb) frame
argv=0xffffc714) at src/gdb/testsuite/gdb.base/style.c:45
45 return some_called_function (); /* break here */
(gdb) FAIL: gdb.base/style.exp: frame when width=20
...
while with native we have instead:
...
(gdb) frame
argv=0x7fffffffd478)
at src/gdb/testsuite/gdb.base/style.c:45
45 return some_called_function (); /* break here */
(gdb) PASS: gdb.base/style.exp: frame when width=20
...
The problem is that due to argv having a different length for -m32, we get a
different layout, and the test-case doesn't accommodate for that.
Fix this by using a different regexp depending on the length of argv.
Tested on x86_64-linux.
gdb/testsuite/ChangeLog:
2021-01-14 Tom de Vries <tdevries@suse.de>
PR testsuite/24590
* gdb.base/style.exp: Handle shorter argv in frame command output.
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* elf.c (elfcore_grok_win32pstatus): Check for a note type of 0.
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The Blackfin ELF compiler requires the user to explicitly select a CPU
target else it will fail:
bfin-elf-gcc: error: no processor type specified for linking
Select the sim target for these tests since we should (hopefully) have
access to the simulator. At least, it's more likely than having access
to a real development board.
This makes the pass/fail numbers increase by a lot:
-# of expected passes 398
-# of unexpected failures 6
+# of expected passes 587
+# of unexpected failures 109
It looks like the vast majority of new failures are due to our omission
of COPY relocations:
/* Bfin does not currently have a COPY reloc. */
if ((h->root.u.def.section->flags & SEC_ALLOC) != 0)
{
_bfd_error_handler (_("the bfin target does not currently support the generation of copy relocations"));
return FALSE;
}
There doesn't seem to be a way to easily disable tests that cause copy
relocations though, lets just take the hit for now.
* testsuite/config/default.exp [bfin*-elf*] (gcc_B_opt): Append -msim.
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The makefile has comments about old versions of bison/yacc generating
warnings, but that doesn't apply to the lexer which comes from flex.
As far as I can tell, the warnings in the Blackfin lexer can be fixed
with defines that have been supported back through flex in 2002. So
lets turn on -Werror for it and see if anyone notices. If they do,
they can report their exact tool versions so we can record that here.
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The h8300 sim has its own implementation for memory handling that I'd
like to replace with the common sim memory code. However, it's got a
weird bit of code it calls "eightbit mem" that makes this not as easy
as it would otherwise be. The code has this comment:
/* These define the size of main memory for the simulator.
Note the size of main memory for the H8/300H is only 256k. Keeping it
small makes the simulator run much faster and consume less memory.
The linker knows about the limited size of the simulator's main memory
on the H8/300H (via the h8300h.sc linker script). So if you change
H8300H_MSIZE, be sure to fix the linker script too.
Also note that there's a separate "eightbit" area aside from main
memory. For simplicity, the simulator assumes any data memory reference
outside of main memory refers to the eightbit area (in theory, this
can only happen when simulating H8/300H programs). We make no attempt
to catch overlapping addresses, wrapped addresses, etc etc. */
I've read the H8/300 Programming Manual and the H8/300H Software Manual
and can't find documentation on it. The closest I can find is the bits
about the exception vectors, but that sounds like a convention where the
first 256 bytes of memory are used for a special purpose. The sim will
actually allocate a sep memory buffer of 256 bytes and you address it by
accessing anywhere outside of main memory. e.g. I would expect code to
access it like:
uint32_t *data = (void *)0;
data[0] = reset_exception_vector;
not like the sim expects like:
uint8_t *data = (void *)0x1000000;
data[0] = ...;
The gcc manual has an "eightbit_data" attribute:
Use this attribute on the H8/300, H8/300H, and H8S to indicate that
the specified variable should be placed into the eight-bit data
section. The compiler generates more efficient code for certain
operations on data in the eight-bit data area. Note the eight-bit
data area is limited to 256 bytes of data.
And the gcc code implies that it's accessed via special addressing:
eightbit_data: This variable lives in the 8-bit data area and can
be referenced with 8-bit absolute memory addresses.
I'm fairly certain these are referring to the 8-bit addressing modes
that allow access to 0xff00 - 0xffff with only an 8-bit immediate.
They aren't completely separate address spaces which this eightbit
memory buffer occupies.
But the sim doesn't access its eightbit memory based on specific insns,
it does it purely on the addresses requested.
Unfortunately, much of this code was authored by Michael Snyder, so I
can't ask him :(. I asked Renesas support and they didn't know:
https://renesasrulz.com/the_vault/f/archive-forum/6952/question-about-eightbit-memory
So I've come to the conclusion that this was a little sim-specific hack
done for <some convenience> and has no relation to real hardware. And
as such, let's drop it until someone notices and can provide a reason
for why we need to support it.
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The default watchpoint handler is NULL. That means any port that
sets the STATE_WATCHPOINTS->pc field will crash if you try to use
the --watch options but don't configure the interrupt handler. In
the past, you had to setup STATE_WATCHPOINTS->pc if you wanted to
support PC profiling, and while that was fixed a while ago, we have
a lot of ports who still configure it.
We already add a default set of interrupts (just "int") if the port
doesn't define any. Let's also add a default handler that raises a
SIGTRAP. When connected to gdb, this is a breakpoint which is what
people would expect. When running standalone, it'll abort the sim,
but it's unclear whether there's anything better to do there. This
really is just to make the watchpoint module more usable out of the
box for most ports with very little setup, at least inside of gdb.
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This commit builds on work started in the following two commits:
commit 24ed6739b699f329c2c45aedee5f8c7d2f54e493
Date: Thu Jan 30 14:35:40 2020 +0000
gdb/remote: Restore support for 'S' stop reply packet
commit cada5fc921e39a1945c422eea055c8b326d8d353
Date: Wed Mar 11 12:30:13 2020 +0000
gdb: Handle W and X remote packets without giving a warning
This is related to how GDB handles remote targets that send back 'S'
packets.
In the first of the above commits we fixed GDB's ability to handle a
single process, single threaded target that sends back 'S' packets.
Although the 'T' packet would always be preferred to 'S' these days,
there's nothing really wrong with 'S' for this situation.
The second commit above fixed an oversight in the first commit, a
single-process, multi-threaded target can send back a process wide
event, for example the process exited event 'W' without including a
process-id, this also is fine as there is no ambiguity in this case.
In PR gdb/26819 we run into yet another problem with the above
commits. In this case we have a single process with two threads, GDB
hits a breakpoint in thread 2 and then performs a stepi:
(gdb) b main
Breakpoint 1 at 0x1212340830: file infinite_loop.S, line 10.
(gdb) c
Continuing.
Thread 2 hit Breakpoint 1, main () at infinite_loop.S:10
10 in infinite_loop.S
(gdb) set debug remote 1
(gdb) stepi
Sending packet: $vCont;s:2#24...Packet received: S05
../binutils-gdb/gdb/infrun.c:5807: internal-error: int finish_step_over(execution_control_state*): Assertion `ecs->event_thread->control.trap_expected' failed.
What happens in this case is that on the RISC-V target displaced
stepping is not supported, so when the stepi is issued GDB steps just
thread 2. As only a single thread was set running the target decides
that is can get away with sending back an 'S' packet without a
thread-id. GDB then associates the stop with thread 1 (the first
non-exited thread), but as thread 1 was not previously set executing
the assertion seen above triggers.
As an aside I am surprised that the target sends pack 'S' in this
situation. The target is happy to send back 'T' (including thread-id)
when multiple threads are set running, so (to me) it would seem easier
to just always use the 'T' packet when multiple threads are in use.
However, the target only uses 'T' when multiple threads are actually
executing, otherwise an 'S' packet it used.
Still, when looking at the above situation we can see that GDB should
be able to understand which thread the 'S' reply is referring too.
The problem is that is that in commit 24ed6739b699 (above) when a stop
reply comes in with no thread-id we look for the first non-exited
thread and select that as the thread the stop applies too.
What we should really do is select the first non-exited, resumed thread,
and associate the stop event with this thread. In the above example
both thread 1 and 2 are non-exited, but only thread 2 is resumed, so
this is what we should use.
There's a test for this issue included which works with stock
gdbserver by disabling use of the 'T' packet, and enabling
'scheduler-locking' within GDB so only one thread is set running.
gdb/ChangeLog:
PR gdb/26819
* remote.c
(remote_target::select_thread_for_ambiguous_stop_reply): New
member function.
(remote_target::process_stop_reply): Call
select_thread_for_ambiguous_stop_reply.
gdb/testsuite/ChangeLog:
PR gdb/26819
* gdb.server/stop-reply-no-thread-multi.c: New file.
* gdb.server/stop-reply-no-thread-multi.exp: New file.
Change-Id: I9b49d76c2a99063dcc76203fa0f5270a72825d15
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The previous patch made the commit_resume implementations in the record
targets unnecessary, as the remote target's commit_resume implementation
won't commit-resume threads for which it didn't see a resume. This
patch removes them.
gdb/ChangeLog:
* record-btrace.c (class record_btrace_target): Remove.
(record_btrace_target::commit_resume): Remove.
* record-full.c (class record_full_target): Remove.
(record_full_target::commit_resume): Remove.
Change-Id: I3a68d3d726fb09d8b7165b4edefc330d27803b27
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The next patch moves the target commit_resume method to be a
process_stratum_target-only method. The only non-process targets that
currently implement the commit_resume method are the btrace and full
record targets. The only reason they need to do so is to prevent a
commit resume from reaching the beneath (process) target if they are
currently replaying.
This is important if a record target is used on top of the remote target
(the only process target implementing the commit_resume method).
Currently, the remote target checks the `thread_info::executing` flag of
a thread to know if it should commit resume that thread:
if (!tp->executing || remote_thr->vcont_resumed)
continue;
The `tp->executing` flag is set by infrun when it has asked the target
stack to resume the thread, and therefore if the thread is executing,
from its point of view. It _not_ equivalent to whether the remote
target was asked to resume this thread.
Indeed, if infrun asks the target stack to resume some thread while the
record target is replaying, the record target won't forward the resume
request the remote target beneath, because we don't actually want to
resume the thread on the execution target. But the `tp->executing` flag
is still set, because from the point of view of infrun, the thread
executes. So, if the commit_resume call wasn't intercepted by the
record target as it is today and did reach the remote target, the remote
target would say "Oh, this thread should be executing and I haven't
vCont-resumed it! I must vCont-resume it!". But that would be wrong,
because it was never asked to resume this thread, the resume request did
not reach it. This is why the record targets currently need to
implement commit_resume: to prevent the beneath target from
commit_resuming threads it wasn't asked to resume.
Since commit_resume will become a method on process_stratum_target in
the following patch, record targets won't have a chance to intercept the
calls and that would result in the remote target commit_resuming threads
it shouldn't. To avoid this, this patch makes the remote target track
its own thread resumption state. That means, tracking which threads it
was asked to resume via target_ops::resume. Regardless of the context
of this patch, I think this change makes it easier to understand how
resume / commit_resume works in the remote target. It makes the target
more self-contained, as it only depends on what it gets asked to do via
the target methods, and not on tp->executing, which is a flag maintained
from the point of view of infrun.
I initially made it so this state was only used when the remote target
operates in non-stop mode, since commit_resume is only used when the
target is non-stop. However, it's more consistent and it can be useful
to maintain this state even in all-stop too. In all-stop, receiving a
stop notification for one thread means all threads of the target are
considered stopped.
From the point of view of the remote target, there are three states a
thread can be in:
1. not resumed
2. resumed but pending vCont-resume
3. resumed
State 2 only exists when the target is non-stop.
As of this patch, valid state transitions are:
- 1 -> 2 (through the target resume method if in non-stop)
- 2 -> 3 (through the target commit_resume method if in non-stop)
- 1 -> 3 (through the target resume method if in all-stop)
- 3 -> 1 (through a remote stop notification / reporting an event to the
event loop)
A subsequent patch will make it possible to go from 2 to 1, in case
infrun asks to stop a thread that was resumed but not commit-resumed
yet. I don't think it can happen as of now.
In terms of code, this patch replaces the vcont_resumed field with an
enumeration that explicitly represents the three states described above.
The last_resume_sig and last_resume_step fields are moved to a structure
which is clearly identified as only used when the thread is in the
"resumed but pending vCont-resume" state.
gdb/ChangeLog:
* remote.c (enum class resume_state): New.
(struct resumed_pending_vcont_info): New.
(struct remote_thread_info) <resume_state, set_not_resumed,
set_resumed_pending_vcont, resumed_pending_vcont_info,
set_resumed, m_resume_state, m_resumed_pending_vcont_info>:
New.
<last_resume_step, last_resume_sig, vcont_resumed>: Remove.
(remote_target::remote_add_thread): Adjust.
(remote_target::process_initial_stop_replies): Adjust.
(remote_target::resume): Adjust.
(remote_target::commit_resume): Rely on state in
remote_thread_info and not on tp->executing.
(remote_target::process_stop_reply): Adjust.
Change-Id: I10480919ccb4552faa62575e447a36dbe7c2d523
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PR 27160
* ldelfgen.c (compare_link_order): Protect access of ELF section
data.
(add_link_order_input_section): Remove redundant NULL check.
Use bfd_get_flavour.
(ldelf_map_segments): Use bfd_get_flavour.
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Add the standard arc_debug_printf, but also arc_linux_debug_printf,
arc_linux_nat_debug_printf and arc_newlib_debug_printf to match the
prefixes currently used in the debug messages.
gdb/ChangeLog:
* arc-tdep.h (arc_debug_printf): New.
* arc-tdep.c: Use arc_debug_printf.
* arc-linux-nat.c (arc_linux_nat_debug_printf): Add and use.
* arc-linux-tdep.c (arc_linux_debug_printf): Add and use.
* arc-newlib-tdep.c (arc_newlib_debug_printf): Add and use.
Change-Id: I5d937566ed7a1925f7982e8809802c8f0560d8c6
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Shahab suggested we get rid of the verbosity level for the ARC debug
logging [1]. This patch does that, before doing any other change.
gdb/ChangeLog:
* arc-tdep.h (arc_debug): Change type to bool.
* arc-tdep.c (arc_debug): Change type to bool.
(arc_analyze_prologue): Adjust.
(_initialize_arc_tdep): Use add_setshow_boolean_cmd.
* arc-linux-nat.c (ps_get_thread_area): Adjust.
[1] https://sourceware.org/pipermail/gdb-patches/2021-January/175075.html
Change-Id: I16688bd42ed8978ae1acf57012c8d41a943044a5
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Bool-ify the return type of maybe_add_script_text and
maybe_add_script_file, the loaded parameter and related things.
gdb/ChangeLog:
* auto-load.c (struct loaded_script) <loaded>: Change to bool.
(maybe_add_script_file): Change return type to bool.
(maybe_add_script_text): Change return type and
loaded parameter to bool.
(source_script_file): Adjust.
(execute_script_contents): Adjust.
Change-Id: I59ab5862796fa7d154721b56e2ff8612ad5d734b
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A previous patch missed those.
gdb/ChangeLog:
* auto-load.c (auto_load_objfile_script_1): Use bool.
(execute_script_contents): Use bool.
Change-Id: I214bf7ed25af36ced375eb3ec5a403ded2fa572e
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Make it and related functions return bool. Move function comments to
header where applicable.
gdb/ChangeLog:
* auto-load.h (auto_load_gdb_scripts_enabled): Return bool, move
comment here.
* auto-load.c (auto_load_gdb_scripts_enabled): Return bool, move
comment to header.
* extension-priv.h (struct extension_language_script_ops)
<auto_load_enabled>: Return bool.
* extension.h (ext_lang_auto_load_enabled): Return bool, move
comment here.
* extension.c (ext_lang_auto_load_enabled): Return bool, move
comment to header.
* guile/guile-header.h (gdbscm_auto_load_enabled): Return bool,
move comment here.
* guile/scm-auto-load.c (gdbscm_auto_load_enabled): Return bool,
move comment to header.
* python/python-header.h (gdbpy_auto_load_enabled): Return bool,
move comment here.
* python/py-auto-load.c (gdbpy_auto_load_enabled): Return bool,
move comment to header.
Change-Id: I657a17d2dab77a36884a137ce9b23a2cc6d53140
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Make it return bool and change the advice_printed to bool as well. Move
doc to header file.
gdb/ChangeLog:
* auto-load.h (file_is_auto_load_safe): Change return type to
bool, move comment here.
* auto-load.c (file_is_auto_load_safe): Change return type and
advice_printed to bool. Move comment to header.
Change-Id: Ia7395e7cea8880377800240833316e4be5251d49
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Here's a sample output, with infrun debug enabled as well to show
nesting:
[infrun] fetch_inferior_event: enter
[infrun] print_target_wait_results: target_wait (-1.0.0 [process -1], status) =
[infrun] print_target_wait_results: 4116727.4116727.0 [process 4116727],
[infrun] print_target_wait_results: status->kind = stopped, signal = GDB_SIGNAL_TRAP
[infrun] handle_inferior_event: status->kind = stopped, signal = GDB_SIGNAL_TRAP
[infrun] start_step_over: enter
[infrun] start_step_over: stealing global queue of threads to step, length = 0
[infrun] operator(): step-over queue now empty
[infrun] start_step_over: exit
[infrun] handle_signal_stop: stop_pc=0x555555555229
[infrun] handle_jit_event: handling bp_jit_event
[jit] jit_read_descriptor: descriptor_addr = 0x5555555580b0
[jit] jit_register_code: symfile_addr = 0x7000000, symfile_size = 15560
[jit] jit_bfd_try_read_symtab: symfile_addr = 0x7000000, symfile_size = 15560
[jit] jit_breakpoint_re_set_internal: breakpoint_addr = 0x555555555229
[infrun] process_event_stop_test: BPSTAT_WHAT_SINGLE
[infrun] process_event_stop_test: no stepping, continue
[infrun] resume_1: step=1, signal=GDB_SIGNAL_0, trap_expected=1, current thread [process 4116727] at 0x555555555229
[infrun] prepare_to_wait: prepare_to_wait
[infrun] fetch_inferior_event: exit
gdb/ChangeLog:
* jit.c (jit_debug_printf): New, use throughout file.
Change-Id: Ic0f5eb3ffc926fb555de4914e7dc1076ada63a97
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commit b209b5a6b8a accesses ELF section data without checking if input is
ELF. It caused:
sh: line 1: 1355479 Segmentation fault (core dumped) /export/build/gnu/tools-build/binutils-gitlab-x32/build-x86_64-linux-gnux32/ld/ld-new -o tmpdir/pe-x86-64-1 -z norelro -L/export/gnu/import/git/gitlab/x86-binutils/ld/testsuite/ld-x86-64 -m elf_x86_64 --entry=begin tmpdir/pe-x86-64-1a.obj tmpdir/pe-x86-64-1b.obj tmpdir/pe-x86-64-1c.obj 2>&1
FAIL: Build pe-x86-64-1
on Linux/x86-64 with PE/x86-64 inputs. Add check for ELF input before
accessing ELF section data.
* ldelfgen.c (add_link_order_input_section): Check for ELF input
before accessing ELF section data.
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Don't generate the _GLOBAL_OFFSET_TABLE_ symbol for PLT relocations
since it isn't needed.
PR gas/27178
* config/tc-i386.c (lex_got::gotrel): Add need_GOT_symbol.
Don't generate GOT_symbol for PLT relocations.
* testsuite/gas/i386/i386.exp: Run PR gas/27178 tests.
* testsuite/gas/i386/no-got.d: New file.
* testsuite/gas/i386/no-got.s: Likewise.
* testsuite/gas/i386/x86-64-no-got.d: Likewise.
* testsuite/gas/i386/x86-64-no-got.s: Likewise.
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bfd/
* Makefile.in: Regenerate.
* doc/Makefile.in: Regenerate.
binutils/
* Makefile.in: Regenerate.
* doc/Makefile.in: Regenerate.
gas/
* Makefile.in: Regenerate.
* Makefile.in: Regenerate.
gprof/
* Makefile.in: Regenerate.
ld/
* Makefile.in: Regenerate.
libctf/
* Makefile.in: Regenerate.
opcodes/
* Makefile.in: Regenerate.
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This moves the SHF_LINK_ORDER sorting from bfd_elf_final_link to
the linker which means generic ELF targets now support SHF_LINK_ORDER
and we cope with odd cases that require resizing of output sections.
The patch also fixes two bugs in the current implementation,
introduced by commit cd6d537c48fa. The pattern test used by that
commit meant that sections matching something like
"*(.IA_64.unwind* .gnu.linkonce.ia64unw.*)" would not properly sort a
mix of sections matching the two wildcards. That commit also assumed
a stable qsort.
bfd/
PR 27160
* section.c (struct bfd_section): Remove pattern field.
(BFD_FAKE_SECTION): Adjust to suit.
* bfd-in2.h: Regenerate.
* elflink.c (compare_link_order, elf_fixup_link_order): Delete.
(bfd_elf_final_link): Don't call elf_fixup_link_order.
ld/
PR 27160
* ldlang.h (lang_output_section_statement_type): Add data field.
(lang_input_section_type, lang_section_bst_type): Add pattern field.
(statement_list): Declare.
(lang_add_section): Adjust prototype.
* emultempl/aarch64elf.em: Adjust lang_add_section calls.
* emultempl/armelf.em: Likewise.
* emultempl/beos.em: Likewise.
* emultempl/cskyelf.em: Likewise.
* emultempl/hppaelf.em: Likewise.
* emultempl/m68hc1xelf.em: Likewise.
* emultempl/metagelf.em: Likewise.
* emultempl/mipself.em: Likewise.
* emultempl/mmo.em: Likewise.
* emultempl/msp430.em: Likewise.
* emultempl/nios2elf.em: Likewise.
* emultempl/pe.em: Likewise.
* emultempl/pep.em: Likewise.
* emultempl/ppc64elf.em: Likewise.
* emultempl/spuelf.em: Likewise.
* emultempl/vms.em: Likewise.
* ldelf.c: Likewise.
* ldelfgen.c: Include ldctor.h.
(struct os_sections): New.
(add_link_order_input_section, link_order_scan): New functions.
(compare_link_order, fixup_link_order): New functions.
(ldelf_map_segments): Call link_order_scan and fixup_link_order.
* ldlang.c (statement_list): Make global.
(output_section_callback_fast): Save pattern in tree node.
(lang_add_section): Add pattern parameter, save in lang_input_section.
(output_section_callback_tree_to_list): Adjust lang_add_section calls.
(lang_insert_orphan, output_section_callback): Likewise.
(ldlang_place_orphan): Likewise.
(gc_section_callback): Don't set section->pattern
* testsuite/ld-elf/pr26256-2a.d: Don't xfail generic.
* testsuite/ld-elf/pr26256-3b.d: Likewise.
* testsuite/ld-elf/pr26256-2b.d: Likewise. notarget xgate.
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* ldlang.h (callback_t): Remove flag_info function parameter.
* ldlang.c (walk_wild_consider_section): Adjust to suit.
(walk_wild_section_general): Likewise.
(output_section_callback_fast, output_section_callback): Likewise.
(check_section_callback, gc_section_callback): Likewise.
(find_relro_section_callback): Likewise.
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PR 27037
* dlltool.c (i386_trampoline): Adjust %rsp immediately on entry
and before exit.
(i386_x64_trampoline): Add SEH annotations.
(struct mac): Add how_seh field.
(make_delay_head): If how_set field is true add SEh instructions.
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The code supports a <start>[,<end>] syntax, but the logic for handling
the <end> check was broken: it would detect the first byte was ",", but
then include that in the strtoul call meaning the result is always 0.
Further, it (re)assigned to arg0 when it meant arg1 which means this
code always processed a range expression as 0,0. Oops.
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My change 1ac72f0659d64d6a14da862242db0d841d2878d0 ("sim: convert to
bfd_endian") subtly broke the watchpoint module on little endian host
systems. The old code used 0 to mean "whatever the host endian is",
and while that was changed to use BFD_ENDIAN_UNKNOWN, this caller was
missed. Since its API used an int instead of an enum, the coercion
from 0 to the BFD endian enum was silently missed, and 0 happens to
be BFD_ENDIAN_BIG.
Instead of restoring the old logic by passing in BFD_ENDIAN_UNKNOWN,
we know the right host endian at compile time, so use that directly.
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The indentation of the body of the nested statements got out of sync
leading to the entire function being indented incorrectly and looking
like it's part of the for loop.
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gdb/ChangeLog:
* infrun.c (normal_stop): Fix indentation.
Change-Id: Icbae5272188f6ddb464b585a9194abd611f5ad27
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... since they are defined in symfile.c.
gdb/ChangeLog:
* top.h (readnow_symbol_files, readnever_symbol_files): Move
declarations to ...
* symfile.h: ... here.
* symfile.c: Update doc.
Change-Id: Ie35a80d236bea70947bc496f66f62c8c621670b4
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They are currently in target.h, it would make more sense to have them in
serial.h, since they are defined in serial.c.
gdb/ChangeLog:
* target.h (baud_rate, serial_parity): Move declarations...
* serial.h: ... here.
* main.c: Include serial.h.
* serial.c (baud_rate, serial_parity): Update doc.
Change-Id: Idc983c154c80ccc29b07ce68df3483cefe03fb71
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The sources for the test-cases gdb.arch/i386-mpx*.exp contain have_mpx
functions that test whether the processor supports mpx instructions.
OTOH, the test-cases are compiled using -mmpx -fcheck-pointer-bounds, which
instrument all functions with mpx instructions.
So, the function that is supposed to test whether mpx instruction are
supported contains mpx instructions, which is a bit odd.
We could fix this by:
- factoring out the have_mpx function into a single source file, and
- compiling it without "-mmpx -fcheck-pointer-bounds".
But having the mpx support test as part of the test-cases seems like an
unnecessary complication that makes the test-cases more difficult to analyze,
reason about and modify.
So we go one step further and factor out the mpx support test in into a
gdb_caching_proc.
Tested on x86_64-linux.
gdb/testsuite/ChangeLog:
2021-01-12 Tom de Vries <tdevries@suse.de>
* gdb.arch/i386-mpx-call.c (have_mpx): Remove.
(main): Remove call to have_mpx.
* gdb.arch/i386-mpx-call.exp: Use have_mpx.
* gdb.arch/i386-mpx-map.c (have_mpx): Remove.
(main): Remote call to have_mpx.
* gdb.arch/i386-mpx-map.exp: Use have_mpx.
* gdb.arch/i386-mpx-sigsegv.c (have_mpx): Remove.
(main): Remove call to have_mpx.
* gdb.arch/i386-mpx-sigsegv.exp: Use have_mpx.
* gdb.arch/i386-mpx-simple_segv.c (have_mpx): Remove.
(main): Remove call to have_mpx.
* gdb.arch/i386-mpx-simple_segv.exp: Use have_mpx.
* gdb.arch/i386-mpx.c (have_mpx): Remove.
(main): Remote call to have_mpx.
* gdb.arch/i386-mpx.exp: Use have_mpx.
* lib/gdb.exp (have_mpx): New proc.
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This hook appears to be unused. I guess it was used from insight or
something like that at some point. But I grepped in today's source of
insight [1] and there was no match. So I think it's safe to remove.
gdb/ChangeLog:
* top.c (pre_init_ui_hook): Remove.
[1] https://sourceware.org/git/?p=insight.git
Change-Id: Ia14499a4b6b9d79bb9a526d635fe44a654ef2a27
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