PR symtab/12535 points out that gdb.decode_line("") will cause a
valgrind report.
I think the empty linespec does not really make sense. So, this patch
changes gdb.decode_line to treat a whitespace-only linespec the same
as a non-existing argument.
gdb/ChangeLog
2020-01-14 Tom Tromey <tom@tromey.com>
PR symtab/12535:
* python/python.c (gdbpy_decode_line): Treat empty string the same
as no argument.
gdb/testsuite/ChangeLog
2020-01-14 Tom Tromey <tom@tromey.com>
PR symtab/12535:
* gdb.python/python.exp: Test decode_line with empty string
argument.
Change-Id: I1d95812b4b7a21d69a3e9afd05b9e3141a931897
Previously always the outermost function block was used, but
since skip is now able to skip over inline functions it is more
natural to skip the inline function that the program is currently
executing.
gdb:
2020-01-14 Bernd Edlinger <bernd.edlinger@hotmail.de>
* skip.c (skip_function_command): Make skip w/o arguments use the
name of the inlined function if pc is inside any inlined function.
gdb/testsuite:
2020-01-14 Bernd Edlinger <bernd.edlinger@hotmail.de>
* gdb.base/skip-inline.exp: Extend test.
I ended up debugging a malformed ELF where a section containing
executable code was not correctly marked as allocatable. Before
realising the ELF was corrupted I tried to place a breakpoint on a
symbol in the non-allocatable, executable section, and GDB crashed.
Though trying to debug such an ELF clearly isn't going to go well I
would prefer, as far as possible, that any input, no matter how
corrupted, not crash GDB.
The crash occurs when trying to set a breakpoint on the name of a
function from the corrupted section. GDB converts the symbol to a
symtab_and_line, and looks up a suitable section for this.
The problem is that the section is actually an obj_section, which is
stored in the table within the objfile, and we only initialise this
table for allocatable sections (see add_to_objfile_sections_full in
objfiles.c). So, if the symbol is in a non-allocatable section then
we end up referencing an uninitialised obj_section.
Later we call get_sal_arch on the symtab_and_line, which calls
get_objfile_arch, which uses the objfile from the uninitialised
obj_section, which will be nullptr, at which point GDB crashes.
The fix I propose here is that when we setup the section references on
msymbols, we should check if the bfd_section being referenced is
allocatable or not. If it is not then we should set the section
reference back to the default 0 section (see how MSYMBOL_OBJ_SECTION
and SYMBOL_OBJ_SECTION treat the 0 section index).
With this fix in place GDB no longer crashes. Instead GDB creates the
breakpoint at the non-allocated address, and then fails, with an
error, when it tries to insert the breakpoint.
gdb/ChangeLog:
* elfread.c (record_minimal_symbol): Set section index to 0 for
non-allocatable sections.
gdb/testsuite/ChangeLog:
* gdb.dwarf2/dw2-bad-elf-other.S: New file.
* gdb.dwarf2/dw2-bad-elf.c: New file.
* gdb.dwarf2/dw2-bad-elf.exp: New file.
Change-Id: Ie05436ab4c6a71440304d20ee639dfb021223f8b
Fixes a bug in the DWARF assembler that prevents multiple line tables
from being created in a test. We currently don't initialise a couple
of flags, as a result we will only ever generate one end of file list,
and one end of header, in the first line table. Any additional line
tables will be missing these parts, and will therefore be corrupt.
This fix will be required for a later commit. There should be no
change in the testsuite after this commit.
gdb/testsuite/ChangeLog:
* lib/dwarf.exp (Dwarf::lines): Reset _line_saw_program and
_line_saw_file.
Change-Id: Id7123f217a036f26ee32d608db3064dd43164596
In tui-wingeneral.c:box_win () a comment suggest we should display
titles like this:
+-WINDOW TITLE GOES HERE-+
However, we actually display them like this:
+--WINDOW TITLE GOES HERE+
The former seems nicer to me, so that's what this commit does. Short
titles will appear as:
+-SHORT TITLE------------+
We previously didn't test the horizontal windows borders in the test
suite, however, I've updated things so that we do now check for the
'+-' and '-+' on the upper border, this will give us some protection.
gdb/ChangeLog:
* tui/tui-wingeneral.c (box_win): Position the title in the center
of the border.
gdb/testsuite/ChangeLog:
* lib/tuiterm.exp (Term::_check_box): Check some parts of the top
border.
Change-Id: Iead6910e3b4e68bdf6871f861f23d2efd699faf0
GDB uses the 'current_top_target' when displaying the description of
an inferior. This leads to same target being used for each inferior
and, in turn, yields incorrect output when the inferior has a target
that is supposed to give a specialized output. For instance, the
remote target outputs "Remote target" instead of "process XYZ" as the
description if the multi-process feature is not supported or turned
off.
E.g.: Suppose we have a native and a remote target, and the native is
the current inferior. The remote target does not support multi-process.
For "info inferiors", we would expect to see:
~~~
(gdb) i inferiors
Num Description Connection Executable
* 1 process 29060 1 (native) /a/path
2 Remote target 2 (remote ...)
~~~
but instead we get
~~~
(gdb) i inferiors
Num Description Connection Executable
* 1 process 29060 1 (native) /a/path
2 process 42000 2 (remote ...)
~~~
Similarly, if the current inferior is the remote one, we would expect
to see
~~~
(gdb) i inferiors
Num Description Connection Executable
1 process 29060 1 (native) /a/path
* 2 Remote target 2 (remote ...)
~~~
but we get
~~~
(gdb) i inferiors
Num Description Connection Executable
* 1 Remote target 1 (native) /a/path
2 Remote target 2 (remote ...)
~~~
With this patch, we switch to the inferior when outputting its
description, so that the current_top_target will be aligned to the
inferior we are displaying.
For testing, this patch expands the "info inferiors" test for the
multi-target feature. The test was checking for the output of the
info commands after setup, only when the current inferior is the last
added inferior.
This patch does the following to the testcase:
1. The "info inferiors" and "info connections" test is extracted out
from the "setup" procedure to a separate procedure.
2. The test is enriched to check the output after switching to each
inferior, not just the last one.
3. The test is performed twice; one for when the multi-process feature
is turned on, one for off.
gdb/ChangeLog:
2020-01-10 Tankut Baris Aktemur <tankut.baris.aktemur@intel.com>
* inferior.c (print_inferior): Switch inferior before printing it.
gdb/testsuite/ChangeLog:
2020-01-10 Tankut Baris Aktemur <tankut.baris.aktemur@intel.com>
* gdb.multi/multi-target.exp (setup): Factor out "info
connections" and "info inferiors" tests to ...
(test_info_inferiors): ... this new procedure.
(top level): Run new "info-inferiors" tests.
With multi-target, each inferior now has its own target connection.
The problem in switch_to_program_space_and_thread is that in the
current state GDB switches to "no thread" and also sets the program
space but because the inferior is not switched, potentially an
incorrect target remains selected.
Here is a sample scenario that exploits this flow:
On terminal 1, start a gdbserver on a program named foo:
$ gdbserver :1234 ./foo
On terminal 2, start gdb on a program named bar. Suppose foo and bar
are compiled from foo.c and bar.c. They are completely separate. So,
bar.c:2 has no meaning for foo.
$ gdb -q ./bar
Reading symbols from ./bar...
(gdb) add-inferior
[New inferior 2]
Added inferior 2
(gdb) inferior 2
[Switching to inferior 2 [<null>] (<noexec>)]
(gdb) target remote :1234
...
(gdb) set debug remote 2
(gdb) break bar.c:2
Sending packet: $Hgp0.0#ad...Packet received: OK
Sending packet: $m5fa,12#f8...Packet received: E01
Sending packet: $m5fa,1#c6...Packet received: E01
Sending packet: $m5fb,3#c9...Packet received: E01
Sending packet: $m5fe,1#ca...Packet received: E01
Breakpoint 1 at 0x5fe: file bar.c, line 2.
(gdb)
Here we have an unnecessary sending of the packets to the gdbserver.
With this fix in progspace-and-thread.c, we'll get this:
(gdb) break bar.c:2
Breakpoint 1 at 0x5fe: file bar.c, line 2.
(gdb)
Now there is no sending of the packets to gdbserver.
The changes around clear_symtab_users calls are necessary because
otherwise we regress gdb.base/step-over-exit.exp, hitting the new
assertion in switch_to_program_space_and_thread. The problem is, a
forked child terminates, and when GDB decides to auto-purge that
inferior, GDB tries to switch to the pspace of that no-longer-existing
inferior.
The root of the problem is within the program_space destructor:
program_space::~program_space ()
{
...
set_current_program_space (this); # (1)
...
breakpoint_program_space_exit (this); # (2)
...
free_all_objfiles (); # (3)
...
}
We get here from delete_inferior -> delete_program_space.
So we're deleting an inferior, and the inferior to be
deleted is no longer in the inferior list.
At (2), we've deleted all the breakpoints and locations for the
program space being deleted.
The crash happens while doing a breakpoint re-set, called by
clear_symtab_users at the tail end of (3). That is, while recreating
breakpoints for the current program space, which is the program space
we're tearing down. During breakpoint re-set, we try to switch to the
new location's pspace (the current pspace set in (1), so the pspace
we're tearing down) with switch_to_program_space_and_thread, and that
hits the failed assertion. It's the fact that we recreate breakpoints
in the program_space destructor that is the latent bug here. Just
don't do that, and we don't end up in the crash situation.
My first approach to fix this added a symfile_add_flags parameter to
program_space::free_all_objfiles, and then passed that down to
clear_symtab_users. The program_space dtor would then pass down
SYMFILE_DEFER_BP_RESET to free_all_objfiles. I couldn't help feeling
that adding that parameter to free_all_objfiles looked a little
awkward, so I settled on something a little different -- hoist the
clear_symtab_users call to the callers. There are only two callers.
I felt that that didn't look as odd, particularly since
remove_symbol_file_command also does:
objf->unlink ();
clear_symtab_users (0);
I.e., objfile deletion is already separate from calling
clear_symtab_users in some places.
gdb/ChangeLog:
2020-01-10 Aleksandar Paunovic <aleksandar.paunovic@intel.com>
Pedro Alves <palves@redhat.com>
* progspace-and-thread.c (switch_to_program_space_and_thread):
Assert there's an inferior for PSPACE. Use
switch_to_inferior_no_thread to switch the inferior too.
* progspace.c (program_space::~program_space): Call
clear_symtab_users here, with SYMFILE_DEFER_BP_RESET.
(program_space::free_all_objfiles): Don't call clear_symtab_users
here.
* symfile.c (symbol_file_clear): Call clear_symtab_users here.
gdb/testsuite/ChangeLog:
2020-01-10 Pedro Alves <palves@redhat.com>
* gdb.server/bkpt-other-inferior.exp: New file.
This commit extends the CLI a bit for multi-target, in three ways.
#1 - New "info connections" command.
This is a new command that lists the open connections (process_stratum
targets). For example, if you're debugging two remote connections, a
couple local/native processes, and a core dump, all at the same time,
you might see something like this:
(gdb) info connections
Num What Description
1 remote 192.168.0.1:9999 Remote serial target in gdb-specific protocol
2 remote 192.168.0.2:9998 Remote serial target in gdb-specific protocol
* 3 native Native process
4 core Local core dump file
#2 - New "info inferiors" "Connection" column
You'll also see a new matching "Connection" column in "info
inferiors", showing you which connection an inferior is bound to:
(gdb) info inferiors
Num Description Connection Executable
1 process 18526 1 (remote 192.168.0.1:9999) target:/tmp/a.out
2 process 18531 2 (remote 192.168.0.2:9998) target:/tmp/a.out
3 process 19115 3 (native) /tmp/prog1
4 process 6286 4 (core) myprogram
* 5 process 19122 3 (native) /bin/hello
#3 - Makes "add-inferior" show the inferior's target connection
"add-inferior" now shows you the connection you've just bound the
inferior to, which is the current process_stratum target:
(gdb) add-inferior
[New inferior 2]
Added inferior 2 on connection 1 (extended-remote localhost:2346)
gdb/ChangeLog:
2020-01-10 Pedro Alves <palves@redhat.com>
* Makefile.in (COMMON_SFILES): Add target-connection.c.
* inferior.c (uiout_field_connection): New function.
(print_inferior): Add new "connection-id" column.
(add_inferior_command): Show connection number/string of added
inferior.
* process-stratum-target.h
(process_stratum_target::connection_string): New virtual method.
(process_stratum_target::connection_number): New field.
* remote.c (remote_target::connection_string): New override.
* target-connection.c: New file.
* target-connection.h: New file.
* target.c (decref_target): Remove process_stratum targets from
the connection list.
(target_stack::push): Add process_stratum targets to the
connection list.
gdb/testsuite/ChangeLog:
2020-01-10 Pedro Alves <palves@redhat.com>
* gdb.base/kill-detach-inferiors-cmd.exp: Adjust expected output
of "add-inferior".
* gdb.base/quit-live.exp: Likewise.
* gdb.base/remote-exec-file.exp: Likewise.
* gdb.guile/scm-progspace.exp: Likewise.
* gdb.linespec/linespec.exp: Likewise.
* gdb.mi/new-ui-mi-sync.exp: Likewise.
* gdb.mi/user-selected-context-sync.exp: Likewise.
* gdb.multi/multi-target.exp (setup): Add "info connection" and
"info inferiors" tests.
* gdb.multi/remove-inferiors.exp: Adjust expected output of
"add-inferior".
* gdb.multi/watchpoint-multi.exp: Likewise.
* gdb.python/py-inferior.exp: Likewise.
* gdb.server/extended-remote-restart.exp: Likewise.
* gdb.threads/fork-plus-threads.exp: Adjust expected output of
"info inferiors".
* gdb.threads/forking-threads-plus-breakpoint.exp: Likewise.
* gdb.trace/report.exp: Likewise.
This adds a testcase exercising multi-target features. It spawns 6
inferiors, like this:
inferior 1 -> native
inferior 2 -> extended-remote 1
inferior 3 -> core
inferior 4 -> native
inferior 5 -> extended-remote 2
inferior 6 -> core
and then tests various details, including:
- running to breakpoints
- interrupting with Ctrl-C and "interrupt -a"
- "next" bouncing between two breakpoints in two threads running in
different targets.
- since we have cores and live inferiors mixed in the same session,
this makes sure that gdb doesn't try to remove a core dump's
threads.
- all-stop and non-stop modes.
This testcase caught a _lot_ of bugs in development.
gdb/testsuite/ChangeLog:
2020-01-10 Pedro Alves <palves@redhat.com>
* gdb.multi/multi-target.c: New file.
* gdb.multi/multi-target.exp: New file.
* lib/gdbserver-support.exp (gdb_target_cmd): Handle "Non-stop
mode requested, but remote does not support non-stop".
The multi-target patch will change the remote target's behavior when:
- the current inferior is connected to an extended-remote target.
- the current inferior is attached to any process.
- some other inferior than than the current one is live.
In current master, we get:
(gdb) tar extended-remote :9999
A program is being debugged already. Kill it? (y or n)
While after multi-target, since each inferior may have its own target
connection, we'll get:
(gdb) tar extended-remote :9999
Already connected to a remote target. Disconnect? (y or n)
That change made gdb.server/extended-remote-restart.exp expose a gdb
bug, because it made "target remote", via gdb_reconnect, just
disconnect from the previous connection, while in current master that
command would kill the inferior before disconnecting. In turn, that
would make a multi-target gdb find processes already running under
control of gdbserver as soon as it reconnects, while in current master
there is never any process around when gdb reconnects, since they'd
all been killed prior to disconnection.
The bug this exposed is that remote_target::remote_add_inferior was
always reusing current_inferior() for the new process, even if the
current inferior was already bound to a process. In the testcase's
case, when we reconnect, the remote is debugging two processes. So
we'd bind the first remote process to the empty current inferior the
first time, and then bind the second remote process to the same
inferior again, essencially losing track of the first process. That
resulted in failed assertions when we look up the inferior for the
first process by PID. The fix is to still prefer binding to the
current inferior (so that plain "target remote" keeps doing what you'd
expect), but not reuse the current inferior if it is already bound to
a process.
This patch tweaks the test to explicitly disconnect before
reconnecting, to avoid GDB killing processes, thus making current GDB
behave the same as it will behave when the multi-target work lands.
That change alone without the GDB fix exposes the bug like so:
(gdb) PASS: gdb.server/extended-remote-restart.exp: kill: 0, follow-child 0: disconnect
target extended-remote localhost:2350
Remote debugging using localhost:2350
src/gdb/thread.c:93: internal-error: thread_info* inferior_thread(): Assertion `tp' failed.
A problem internal to GDB has been detected,
further debugging may prove unreliable.
Quit this debugging session? (y or n)
The original bug that the testcase was written for was related to
killing, (git 9d4a934ce6 ("gdb: Fix assert for extended-remote
target (PR gdb/18050)")), but since the testcase tries reconnecting
with both explicitly killing and not explicitly killing, I think we're
covering the original bug with this testcase change.
gdb/ChangeLog:
2020-01-10 Pedro Alves <palves@redhat.com>
* remote.c (remote_target::remote_add_inferior): Don't bind a
process to the current inferior if the current inferior is already
bound to a process.
gdb/testsuite/ChangeLog:
2020-01-10 Pedro Alves <palves@redhat.com>
* gdb.server/extended-remote-restart.exp (test_reload): Explicitly
disconnect before reconnecting.
The multi-target patch makes inferior_ptid point to null_ptid before
calling into target_wait, which catches bad uses of inferior_ptid,
since the current selected thread in gdb shouldn't have much relation
to the thread that reports an event.
One such bad use is found in remote_target::remote_parse_stop_reply,
where we handle the 'W' or 'X' packets (process exit), and the remote
target does not support the multi-process extensions, i.e., it does
not report the PID of the process that exited.
With the multi-target patch, that would result in a failed assertion,
trying to find the inferior for process pid 0.
gdb/ChangeLog:
2020-01-10 Tankut Baris Aktemur <tankut.baris.aktemur@intel.com>
Pedro Alves <palves@redhat.com>
* remote.c (remote_target::remote_parse_stop_reply) <W/X packets>:
If no process is specified, return null_ptid instead of
inferior_ptid.
(remote_target::wait_as): Handle TARGET_WAITKIND_EXITED /
TARGET_WAITKIND_SIGNALLED with no pid.
gdb/testsuite/ChangeLog:
2020-01-10 Tankut Baris Aktemur <tankut.baris.aktemur@intel.com>
Pedro Alves <palves@redhat.com>
* gdb.server/connect-without-multi-process.exp: Also test
continuing to end.
The "set remote exec-file" setting is per-inferior, but the "show
remote exec-file" command always shows the last set exec-file,
irrespective of the current inferior. E.g.:
# Set inferior 1's exec-file:
(gdb) set remote exec-file prog1
# Add inferior 2, switch to it, and set its exec-file:
(gdb) add-inferior
Added inferior 2
(gdb) inferior 2
(gdb) set remote exec-file prog2
# Switch back to inferior 1, and show its exec-file:
(gdb) inferior 1
(gdb) show remote exec-file
prog2
^^^^^ should show "prog1" instead here.
gdb/ChangeLog:
2020-01-10 Pedro Alves <palves@redhat.com>
* remote.c (show_remote_exec_file): Show the current inferior's
exec-file instead of the command variable's value.
gdb/testsuite/ChangeLog:
2020-01-10 Pedro Alves <palves@redhat.com>
* gdb.base/remote-exec-file.exp: New file.
In non-stop mode, if you resume the program in the background (with
"continue&", for example), then gdb makes sure to not switch the
current thread behind your back. That means that you can be sure that
the commands you type apply to the thread you selected, even if some
other thread that was running in the background hits some event just
while you're typing.
In all-stop mode, however, if you resume the program in the
background, gdb let's the current thread switch behind your back.
This is bogus, of course. All-stop and non-stop background
resumptions should behave the same.
This patch fixes that, and adds a testcase that exposes the bad
behavior in current master.
The fork-running-state.exp changes are necessary because that
preexisting testcase was expecting the old behavior:
Before:
continue &
Continuing.
(gdb)
[Attaching after process 8199 fork to child process 8203]
[New inferior 2 (process 8203)]
info threads
Id Target Id Frame
1.1 process 8199 "fork-running-st" (running)
* 2.1 process 8203 "fork-running-st" (running)
(gdb)
After:
continue &
Continuing.
(gdb)
[Attaching after process 24660 fork to child process 24664]
[New inferior 2 (process 24664)]
info threads
Id Target Id Frame
* 1.1 process 24660 "fork-running-st" (running)
2.1 process 24664 "fork-running-st" (running)
(gdb)
Here we see that before this patch GDB switches current inferior to
the new inferior behind the user's back, as a side effect of handling
the fork.
The delete_exited_threads call in inferior_appeared is there to fix an
issue that Baris found in a previous version of this patch. The
fetch_inferior_event change increases the refcount of the current
thread, and in case the fetched inferior event denotes a thread exit,
the thread will not be deleted right away. A non-deleted but exited
thread stays in the inferior's thread list. This, in turn, causes the
"init_thread_list" call in inferior.c to be skipped. A consequence is
that the global thread ID counter is not restarted if the current
thread exits, and then the inferior is restarted:
(gdb) start
Temporary breakpoint 1 at 0x4004d6: file main.c, line 21.
Starting program: /tmp/main
Temporary breakpoint 1, main () at main.c:21
21 foo ();
(gdb) info threads -gid
Id GId Target Id Frame
* 1 1 process 16106 "main" main () at main.c:21
(gdb) c
Continuing.
[Inferior 1 (process 16106) exited normally]
(gdb) start
Temporary breakpoint 2 at 0x4004d6: file main.c, line 21.
Starting program: /tmp/main
Temporary breakpoint 2, main () at main.c:21
21 foo ();
(gdb) info threads -gid
Id GId Target Id Frame
* 1 2 process 16138 "main" main () at main.c:21
^^^
Notice that GId == 2 above. It should have been "1" instead.
The new tids-git-reset.exp testcase exercises the problem above.
gdb/ChangeLog:
2020-01-10 Pedro Alves <palves@redhat.com>
* gdbthread.h (scoped_restore_current_thread)
<dont_restore, restore, m_dont_restore>: Declare.
* thread.c (thread_alive): Add assertion. Return bool.
(switch_to_thread_if_alive): New.
(prune_threads): Switch inferior/thread.
(print_thread_info_1): Switch thread before calling target methods.
(scoped_restore_current_thread::restore): New, factored out from
...
(scoped_restore_current_thread::~scoped_restore_current_thread):
... this.
(scoped_restore_current_thread::scoped_restore_current_thread):
Add assertion.
(thread_apply_all_command, thread_select): Use
switch_to_thread_if_alive.
gdb/testsuite/ChangeLog:
2020-01-10 Pedro Alves <palves@redhat.com>
* gdb.base/fork-running-state.exp (do_test): Adjust expected
output.
* gdb.threads/async.c: New.
* gdb.threads/async.exp: New.
* gdb.multi/tids-gid-reset.c: New.
* gdb.multi/tids-gid-reset.exp: New.
According to the SystemTap documentation on user-space probes[0], stap
probe points without semaphores are denoted by setting the semaphore
address in the probe's note to zero. At present the code does do a
comparison of the semaphore address against zero, but only after it's
been relocated; as such it will (almost?) always fail, commonly
resulting in GDB trying to overwrite the ELF magic located at the
image's base address.
This commit tests the address as specified in the SDT note rather than
the relocated value in order to correctly detect absent probe
semaphores.
[0]: https://sourceware.org/systemtap/wiki/UserSpaceProbeImplementation
gdb/Changelog:
2020-01-11 George Barrett <bob@bob131.so>
* stap-probe.c (stap_modify_semaphore): Don't check for null
semaphores.
(stap_probe::set_semaphore, stap_probe::clear_semaphore): Check
for null semaphores.
gdb/testsuite/ChangeLog:
2020-01-11 George Barrett <bob@bob131.so>
* gdb.base/stap-probe.c (relocation_marker): Add dummy variable
to help in finding the image relocation offset.
* gdb.base/stap-probe.exp (stap_test): Accept arbitrary compile
options in arguments.
(stap_test_no_debuginfo): Likewise.
(stap-probe-nosem-noopt-pie, stap-probe-nosem-noopt-nopie): Add
test variants.
(stap_test): Add null semaphore relocation test.
This patch resolves a couple of issues with the test case for SystemTap
user-space probe points:
1. The preprocessor macro guarding the semaphore variables in the C
file is (rather confusingly) named USE_PROBES. This has been
renamed to USE_SEMAPHORES, to better reflect its function.
2. The test procedures in the expect file improperly pass the flag
defining USE_PROBES to prepare_for_testing; as such, the test
binary that's supposed to have probes with semaphores is the same
as the one without. This has also been fixed.
3. No test is performed to check that `info probes' returns
information about probe semaphores. Such a test is included in this
patch.
gdb/testsuite/ChangeLog
2020-01-10 George Barrett <bob@bob131.so>
* gdb.base/stap-probe.c: Rename USE_PROBES to USE_SEMAPHORES.
* gdb.base/stap-probe.exp: Likewise.
(stap_test): Pass argument as an additional flag.
(stap_test_no_debuginfo): Likewise.
(stap_test): Check `info probes stap' output for semaphore
addresses if the test binary is supposed to have them.
Until recently when the source window was scrolled the assembler
window would scroll in sync - keeping the disassembly for the current
line in view.
This was broken in commit:
commit b4b49dcbff
Date: Wed Nov 13 16:47:58 2019 -0700
Don't call tui_show_source from tui_ui_out
This commit restores the synchronised scrolling and also maintains the
horizontal scroll within the source view when it is vertically
scrolled, something that was broken before.
This commit does not mean that scrolling the assembler view scrolls
the source view. The connection this way never existed, though maybe
it should, but I'll leave adding this feature for a separate commit.
gdb/ChangeLog:
* tui/tui-source.c (tui_source_window::do_scroll_vertical): Update
all source windows, and maintain horizontal scroll status while
doing so.
gdb/testsuite/ChangeLog:
* gdb.tui/basic.exp: Add more scrolling tests.
Change-Id: I250114a3bc670040a6a759d41905776771b2f818
Hannes Domani pointed out that my previous patch to fix the "list"
command in the TUI instead broke vertical scrolling. While looking at
this, I found that do_scroll_vertical calls print_source_lines, which
seems like a very roundabout way to change the source window. This
patch removes this oddity and fixes the bug at the same time.
I've added a new test case. This is somewhat tricky, because the
obvious approach of sending a dummy command after the scroll did not
work -- due to how the TUI works, sennding a command causes the scroll
to take effect.
gdb/ChangeLog
2019-12-22 Tom Tromey <tom@tromey.com>
PR tui/18932:
* tui/tui-source.c (tui_source_window::do_scroll_vertical): Call
update_source_window, not print_source_lines.
gdb/testsuite/ChangeLog
2019-12-22 Tom Tromey <tom@tromey.com>
PR tui/18932:
* lib/tuiterm.exp (Term::wait_for): Rename from _accept. Return a
meangingful value.
(Term::command, Term::resize): Update.
* gdb.tui/basic.exp: Add scrolling test.
Change-Id: I9636a7c8a8cade37431c6165ee996a9d556ef1c8
Currently if a user starts the tui with 'layout asm' then they will be
presented with the 'src' layout.
What happens is:
1. Layout command enables TUI, selecting the SRC layout by default.
2. As part of tui_enable we call tui_display_main, which calls
tui_get_begin_asm_address, which calls
set_default_source_symtab_and_line. This changes core GDBs
current symtab and line, which triggers a call to the symtab
changed hook tui_symtab_changed, which sets the flag
from_source_symtab.
3. Back in the layout command, the layout is changed from SRC to
ASM. After this the layout command completes and we return to
core GDB which prints the prompt, however...
4. The before prompt hook is called which sees the
from_source_symtab flag is set and forces the SRC window to be
displayed. This switches us back to SRC view.
The solution I propose here is to delay installing the hooks into core
GDB until after we have finished setting up the tui and selecting the
default frame to view. In this way we effectively ignore the first
symtab changed event triggered when making main the default symtab.
gdb/ChangeLog:
* tui/tui.c (tui_enable): Register tui hooks after calling
tui_display_main.
gdb/testsuite/ChangeLog:
* gdb.tui/tui-layout-asm.exp: New file.
Change-Id: I858ab81a17ffb4aa72deb3f36c3755228a9c9d9a
A new test procedure for matching the contents of one screen box
against a regexp. This can be used to match the contents of one TUI
window against a regexp without any of the borders, or other windows
being included in the matched output (as is currently the case with
check_contents).
This will be used in a later commit.
gdb/testsuite/ChangeLog:
* lib/tuiterm.exp (Term::check_box_contents): New proc.
Change-Id: Icf795bf38dd9295e282a34eecc318a9cdbc73926
Split Term::enter_tui into two procedures, a core which does the
setup, but doesn't actually enable tui mode, and the old enter_tui
that calls the new core, and then enables tui mode.
This is going to be useful in a later commit.
gdb/testsuite/ChangeLog:
* lib/tuiterm.exp (Term::prepare_for_tui): New proc.
(Term::enter_tui): Use Term::prepare_for_tui.
Change-Id: I501dfb2ddaa4a4e7246a5ad319ab428e4f42b3af
The Term::dump_screen routine currently dumps the screen using calls
to 'verbose', this means it will only dump the screen when the
testsuite is running in verbose mode.
However, the Term::dump_screen is most often called when a test fails,
in this case I think it is useful to have the screen dumped even when
we're not in verbose mode.
This commit changes the calls to 'verbose' to be 'verbose -log' so we
always get the screen dump.
gdb/testsuite/ChangeLog:
* lib/tuiterm.exp (Term::dump_screen): Always dump the screen when
called.
Change-Id: I5f0a7f5ac2ece04d6fe6e9c5a28ea2a0dda38955
In this commit:
commit 5024637fac
Date: Sun Dec 15 11:05:47 2019 +0100
Fix skip.exp test failure observed with gcc-9.2.0
A race condition was introduced into the gdb.base/skip.exp test when
this line:
gdb_test "step" "foo \\(\\) at.*" "step 3"
Was changed to this:
gdb_test "step" "foo \\(\\) at.*" "step 3" "main \\(\\) at .*" "step"
Before the above change we expected GDB to behave like this:
(gdb) step
foo () at /path/to/gdb/testsuite/gdb.base/skip.c:42
42 return 0;
(gdb)
However, when the test is compiled with GCC 9.2.0 we get a different
behaviour, and so we need a second 'step', like this:
(gdb) step
main () at /path/to/gdb.base/skip.c:32
32 x = baz ((bar (), foo ()));
(gdb) step
foo () at /path/to/gdb/testsuite/gdb.base/skip.c:42
42 return 0;
(gdb)
Now the change to the test matches against 'main () at .*', however if
GDB or expect is being slow then we might only get to see output like
this:
(gdb) step
main () at /path/to/g
This will happily match the question pattern, so we send 'step' to GDB
again. Now GDB continues to produce output which expect accepts, we
now see this:
b.base/skip.c:32
32 x = baz ((bar (), foo ()));
(gdb)
This has carried on from where the previous block of output left off.
This doesn't match the final pattern 'foo \\(\\) at.*', but it does
match the prompt pattern that gdb_test_multiple adds, and so we report
the test as failing.
The solution is to simply ensure that the question consumes everything
up to, and including the prompt. This ensures that the prompt can't
then match the failure case. The new test line becomes:
gdb_test "step" "foo \\(\\) at.*" "step 3" \
"main \\(\\) at .*\r\n$gdb_prompt " "step"
gdb/testsuite/ChangeLog:
* gdb.base/skip.exp: Fix race condition in test.
Change-Id: I9f0b0b52ef1b4f980bfaa8fe405ff06d520f3482
In this commit:
commit ec8e2b6d30
Date: Fri Jun 14 23:43:00 2019 +0100
gdb: Don't allow annotations to influence what else GDB prints
A change was accidentally made that moved a call to do_gdb_disassembly
out of an if block guarded by 'if (source_print && sal.symtab)'. The
result was that if a user has 'set disassemble-next-line on' then the
backtrace would now include some disassembly of a few instructions in
each frame.
This change was not intentional, but was not spotted by any tests.
This commit restores the old behaviour and adds a test to ensure this
doesn't break again in the future.
gdb/ChangeLog:
* stack.c (print_frame_info): Move disassemble_next_line code
inside source_print block.
gdb/testsuite/ChangeLog:
* gdb.base/backtrace.c: New file.
* gdb.base/backtrace.exp: New file.
Change-Id: I47c52a202fa74be138382646b695827940178689
When calling tui_add_win_to_layout, use tui_set_layout not show_layout
so that window focus is correctly updated. If the focus is not
correctly maintained then GDB can be crashed like this:
start
tui enable
layout asm
list SOME_FUNCTION
At this point GDB will have "popped up" the source window to
display SOME_FUNCTION. Previously no window would have focus at this
point, and so if the user now does 'focus next' or 'focus prev', then
GDB would crash.
Calling tui_set_layout ensures that focus is correctly calculated as
the source window is "popped up", and this fixes the issue.
gdb/ChangeLog:
* tui/tui-layout.c (tui_add_win_to_layout): Use tui_set_layout not
show_layout.
gdb/testsuite/ChangeLog:
* gdb.tui/list.exp: Test 'focus next' after 'list main'.
Change-Id: Id0b13f99b0e889261efedfd0adabe82020202f44
While handling the comments of Tom related to
[RFC] Have an option to tell GDB to detect and possibly handle mismatched exec-files.
https://sourceware.org/ml/gdb-patches/2019-12/msg00621.html
I saw that GDB warnings are produced ignoring the given styles.
This patch:
* ensures that style markups are properly handled by "warning".
* changes 'set/show data-directory' so that file style is used
in warnings and in 'show message'
* changes all other messages in top.c to use file style when appropriate.
* Uses the above data-directory changes in gdb.base/style.exp
2020-01-03 Philippe Waroquiers <philippe.waroquiers@skynet.be>
* ui-file.c (stdio_file::can_emit_style_escape)
(tee_file::can_emit_style_escape): Ensure style is used also on
gdb_stderr when gdb_stderr is a tty supporting styling, similarly
to gdb_stdout.
* main.c (set_gdb_data_directory): Use file style to output the
warning that the given pathname is not a directory.
* top.c (show_history_filename, gdb_safe_append_history)
(show_gdb_datadir): Use file style.
2020-01-03 Philippe Waroquiers <philippe.waroquiers@skynet.be>
* gdb.base/style.exp: Test that warnings are styled.
This removes code that was present from the very first git revisison
7b4ac7e1ed from 1988. It was in the
gdb/dbxread.c at the time (and makes more sense for dbx line info format
since line numbers are 16-bit entities in that debug format and debugging
files with more than 65535 lines would not work anyway) but moved from
there to gdb/buildsym.c which is used for dwarf line info as well, and
excluding an arbitrary line number does certainly not make sense nowadays.
Add a test case for line 65535
gdb:
2019-12-29 Bernd Edlinger <bernd.edlinger@hotmail.de>
* buildsym.c (buildsym_compunit::record_line): Do no longer ignore
line 65535.
gdb/testsuite:
2019-12-29 Bernd Edlinger <bernd.edlinger@hotmail.de>
* gdb.base/line65535.exp: New file.
* gdb.base/line65535.c: New file.
This test verifies that GDB correctly identifies the run-time type of
"s" as being the type "Circle". However, that can only be done
correctly if the GNAT runtime has been compiled and shipped with debug
information, so that GDB can poke in its internal data structures.
Currently the test fails when when running against a GNAT runtime
without debug info. This is the case, for example, on Arch Linux using
the distribution package.
This patch adds a helper in lib/ada.exp to check whether the GNAT
runtime has debug info or not. It then uses it in
gdb.ada/ptype_tagged_param.exp to expect a different result, depending
on whether we have debug info or not in the runtime.
At first, I made it so we would XFAIL the test, in the absence of debug
info, but then I thought that we might as well test for the output we
expect in the absence of debug info instead.
gdb/testsuite/ChangeLog:
* lib/ada.exp (gnat_runtime_has_debug_info): New proc.
* lib/gnat_debug_info_test.adb: New file.
* gdb.ada/ptype_tagged_param.exp: Use
gnat_runtime_has_debug_info, expect a different output if
runtime does not have debug info.
In my previous commit, I missed this other spot that is missing a
quote...
gdb/testsuite/ChangeLog:
* lib/sym-info-cmds.exp (GDBInfoSymbols::check_no_entry): Add
(another) quote in test name.
Extend testcases for GDB's infcall of call-by-value functions that
take aggregate values as parameters. In particular, existing test has
been substantially extended with class definitions whose definitions
of copy constructor, destructor, and move constructor functions are a
combination of
(1) explicitly defined by the user,
(2) defaulted inside the class declaration,
(3) defaulted outside the class declaration,
(4) deleted
(5) not defined in the source.
For each combination, a small and a large class is generated as well
as a derived class and a container class. Additionally, the following
manually-written cases are provided:
- a dynamic class (i.e. class with a virtual method)
- classes that contain an array field
- a class whose copy ctor is inlined
- a class whose destructor is deleted
- classes with multiple copy and/or move ctors
Test cases check whether GDB makes the right decision to pass an
object by value or implicitly by reference, whether really a copy of
the argument is passed, and whether the copy constructor and
destructor of the clone of the argument are invoked properly.
The input program pass-by-ref.cc is generated in the test's output
directory. The input program pass-by-ref-2.cc is manually-written.
Tests have been verified on the X86_64 architecture with
GCC 7.4.0, 8.2.0, and 9.2.1.
gdb/testsuite/ChangeLog:
2019-12-20 Tankut Baris Aktemur <tankut.baris.aktemur@intel.com>
* gdb.cp/pass-by-ref.cc: Delete. Generated in the output
directory instead.
* gdb.cp/pass-by-ref.exp: Extend with more cases.
* gdb.cp/pass-by-ref-2.cc: New file.
* gdb.cp/pass-by-ref-2.exp: New file.
Change-Id: Ie8ab1f260c6ad5ee4eb34b2c1597ce24af04abb6
PR tui/18932 notes that "list" no longer works in the TUI. At some
point in the past, it switched the TUI source window to show the
specified source; but now this source briefly flashes before the TUI
reverts to showing the current stack frame's source.
This patch fixes this bug by introducing a new observer that notices
when the user selected context has changed. Then, the existing
before-prompt observer is updated to request the correct update:
either one based on the current stack frame, or one based on the
user's source symtab_and_line.
gdb/ChangeLog
2019-12-20 Tom Tromey <tom@tromey.com>
PR tui/18932:
* tui/tui-hooks.c (tui_refresh_frame_and_register_information):
Rename parameters. Handle the not-from-stack-frame case.
(from_stack, from_source_symtab): New globals.
(tui_before_prompt, tui_normal_stop): Update.
(tui_context_changed, tui_symtab_changed): New functions.
(tui_attach_detach_observers): Attach new observers.
gdb/testsuite/ChangeLog
2019-12-20 Tom Tromey <tom@tromey.com>
* gdb.tui/list-before.exp: New file.
Change-Id: I62013825f6c1afdd568a1c7a8c019b0c881131af
I noticed that even when there's a symbol file, "tui enable" won't
show "main" by default. I think it should, and this patch fixes this.
gdb/ChangeLog
2019-12-20 Tom Tromey <tom@tromey.com>
* tui/tui.c (tui_enable): Call tui_display_main.
gdb/testsuite/ChangeLog
2019-12-20 Tom Tromey <tom@tromey.com>
* gdb.tui/list.exp: Check for source on initial listing.
Change-Id: Ic7bfc930e1179f5b61111e30a2dae46a98b00064
xml-support.c uses FOPEN_RT, but then reads the entire contents of the
file and verifies that the number of bytes read matches the length.
This can fail on Windows, where the read will translate line
terminators.
This patch fixes the bug by changing xml-support.c to use FOPEN_RB.
This works because expat correctly handles \r\n line terminators.
gdb/ChangeLog
2019-12-11 Tom Tromey <tromey@adacore.com>
* xml-support.c (xml_fetch_content_from_file): Use FOPEN_RB.
gdb/testsuite/ChangeLog
2019-12-11 Tom Tromey <tromey@adacore.com>
* gdb.xml/tdesc-arch.exp (set_arch): Add "trans_mode" parameter.
Add crlf test.
Change-Id: I548438f33eed284dde1de8babf755eaa1a40319d
Now that the version number in master has been bumped to 10, I get this
failure:
FAIL: gdb.base/default.exp: show convenience ($_gdb_major = 9 not found)
Update the test accordingly.
gdb/testsuite/ChangeLog:
* gdb.base/default.exp: Update value of $_gdb_major.
We need to step a second time with this gcc version.
The first step jumps back to main before entering foo.
Previously the control flow was from bar directly to foo.
Further ananlysis suggests, that this change in behavior started
with gcc-8.1.0 when -gcolumn-info was enabled by default.
The option -gcolumn-info was first implemented in gcc-7.1.0 but
default-disabled, so you can get the altered behavior already with
gcc-7 if you manually enable -gcolumn-info.
Previously there was just one point where line 30 (of skip.c) started:
[0x00000032] Advance Line by 27 to 28
[0x00000034] Copy
[0x00000035] Special opcode 63: advance Address by 4 to 0x4004cb and Line by 2 to 30
[0x00000036] Advance PC by constant 17 to 0x4004dc
[0x00000037] Special opcode 7: advance Address by 0 to 0x4004dc and Line by 2 to 32
But with -gcolumn-info enabled, we have line 30 three times with different column:
[0x00000034] Advance Line by 27 to 28
[0x00000036] Copy
[0x00000037] Set column to 9
[0x00000039] Special opcode 63: advance Address by 4 to 0x4004c6 and Line by 2 to 30
[0x0000003a] Set column to 17
[0x0000003c] Special opcode 75: advance Address by 5 to 0x4004cb and Line by 0 to 30
[0x0000003d] Set column to 3
[0x0000003f] Special opcode 75: advance Address by 5 to 0x4004d0 and Line by 0 to 30
[0x00000040] Special opcode 105: advance Address by 7 to 0x4004d7 and Line by 2 to 32
That could probably be filtered in dwarf2read.c to keep the old behavior, but
the new behavior makes still sense, even if we cannot really make use of the
column in the line number info for now.
A double-free happens when using a JIT debug info reader that creates
more than one block. In the loop that frees blocks in finalize_symtab,
at the very end, the gdb_block_iter_tmp variable is set initially, but
not changed as the loop advances. If we have two blocks, the first
iteration frees the first block, the second iteration frees the second
block, but the third iteration tries to free the second block again, as
gdb_block_iter_tmp keeps pointing on the second block.
Fix it by assigning the gdb_block_iter_tmp variable in the loop.
I have improved the jit-reader.exp test to cover this case, by adding a
second "JIT-ed" function and creating a block for it. I have renamed
the existing function to something I find a bit more descriptive. There
are no significant changes to jit-reader.exp itself, only updates
following the renaming. The important changes are in jithost.c
(generate a new function) and in jitreader.c (create a gdb_block for
that function).
This was found because of an ASan report:
$ ./gdb testsuite/outputs/gdb.base/jit-reader/jit-reader -ex "jit-reader-load /home/simark/build/binutils-gdb/gdb/testsuite/outputs/gdb.base/jit-reader/jitreader.so" -ex r
Reading symbols from testsuite/outputs/gdb.base/jit-reader/jit-reader...
Starting program: /home/simark/build/binutils-gdb/gdb/testsuite/outputs/gdb.base/jit-reader/jit-reader
=================================================================
==1751048==ERROR: AddressSanitizer: heap-use-after-free on address 0x604000042eb8 at pc 0x5650ef8eec88 bp 0x7ffe52767290 sp 0x7ffe52767280
READ of size 8 at 0x604000042eb8 thread T0
#0 0x5650ef8eec87 in finalize_symtab /home/simark/src/binutils-gdb/gdb/jit.c:768
#1 0x5650ef8eef88 in jit_object_close_impl /home/simark/src/binutils-gdb/gdb/jit.c:797
#2 0x7fbbda986278 in read_debug_info /home/simark/src/binutils-gdb/gdb/testsuite/gdb.base/jitreader.c:71
#3 0x5650ef8ef56b in jit_reader_try_read_symtab /home/simark/src/binutils-gdb/gdb/jit.c:850
#4 0x5650ef8effe3 in jit_register_code /home/simark/src/binutils-gdb/gdb/jit.c:948
#5 0x5650ef8f2c92 in jit_event_handler(gdbarch*) /home/simark/src/binutils-gdb/gdb/jit.c:1396
#6 0x5650ef0d137e in handle_jit_event /home/simark/src/binutils-gdb/gdb/breakpoint.c:5470
[snip]
0x604000042eb8 is located 40 bytes inside of 48-byte region [0x604000042e90,0x604000042ec0)
freed by thread T0 here:
#0 0x7fbbe57376b0 in __interceptor_free /build/gcc/src/gcc/libsanitizer/asan/asan_malloc_linux.cc:122
#1 0x5650ef8f350b in xfree<gdb_block> /home/simark/src/binutils-gdb/gdb/gdbsupport/common-utils.h:62
#2 0x5650ef8eeca9 in finalize_symtab /home/simark/src/binutils-gdb/gdb/jit.c:769
#3 0x5650ef8eef88 in jit_object_close_impl /home/simark/src/binutils-gdb/gdb/jit.c:797
#4 0x7fbbda986278 in read_debug_info /home/simark/src/binutils-gdb/gdb/testsuite/gdb.base/jitreader.c:71
#5 0x5650ef8ef56b in jit_reader_try_read_symtab /home/simark/src/binutils-gdb/gdb/jit.c:850
#6 0x5650ef8effe3 in jit_register_code /home/simark/src/binutils-gdb/gdb/jit.c:948
#7 0x5650ef8f2c92 in jit_event_handler(gdbarch*) /home/simark/src/binutils-gdb/gdb/jit.c:1396
#8 0x5650ef0d137e in handle_jit_event /home/simark/src/binutils-gdb/gdb/breakpoint.c:5470
[snip]
previously allocated by thread T0 here:
#0 0x7fbbe5737cd8 in __interceptor_calloc /build/gcc/src/gcc/libsanitizer/asan/asan_malloc_linux.cc:153
#1 0x5650eef662f3 in xcalloc /home/simark/src/binutils-gdb/gdb/alloc.c:100
#2 0x5650ef8f34ea in xcnew<gdb_block> /home/simark/src/binutils-gdb/gdb/gdbsupport/poison.h:122
#3 0x5650ef8ed467 in jit_block_open_impl /home/simark/src/binutils-gdb/gdb/jit.c:557
#4 0x7fbbda98620a in read_debug_info /home/simark/src/binutils-gdb/gdb/testsuite/gdb.base/jitreader.c:60
#5 0x5650ef8ef56b in jit_reader_try_read_symtab /home/simark/src/binutils-gdb/gdb/jit.c:850
#6 0x5650ef8effe3 in jit_register_code /home/simark/src/binutils-gdb/gdb/jit.c:948
#7 0x5650ef8f2c92 in jit_event_handler(gdbarch*) /home/simark/src/binutils-gdb/gdb/jit.c:1396
#8 0x5650ef0d137e in handle_jit_event /home/simark/src/binutils-gdb/gdb/breakpoint.c:5470
[snip]
gdb/ChangeLog:
* jit.c (finalize_symtab): Set gdb_block_iter_tmp in loop.
gdb/testsuite/ChangeLog:
* gdb.base/jit-reader.exp (jit_reader_test): Rename
jit_function_00 to jit_function_stack_mangle.
* gdb.base/jithost.c (jit_function_t): Rename to...
(jit_function_stack_mangle_t): ... this.
(jit_function_add_t): New typedef.
(jit_function_00_code): Rename to...
(jit_function_stack_mangle_code): ... this, make static.
(jit_function_add_code): New.
(main): Generate "add" function and call it. Adjust to changes
in jithost_abi.
* gdb.base/jithost.h (struct jithost_abi_bounds): New.
(struct jithost_abi) <begin, end>: Remove fields.
<object, function_stack_mangle, function_add>: New fields.
* gdb.base/jitreader.c (struct reader_state) <code_begin,
code_end>: Remove fields.
<func_stack_mangle>: New field.
(read_debug_info): Adjust to renaming, create block for "add"
function.
(read_sp, unwind_frame, get_frame_id): Adjust to other changes.
Testing on another TUI series showed that some of the regexps in the
TUI test suite have been incorrect for a while. In particular, "|"
was meant literally in these tests, but was interpreted as pattern
alternation due to lack of quoting.
This patch fixes the bad tests. I am checking this in.
gdb/testsuite/ChangeLog
2019-12-11 Tom Tromey <tom@tromey.com>
* gdb.tui/resize.exp: Fix regexp.
* gdb.tui/regs.exp: Fix regexps.
* gdb.tui/main.exp: Fix regexp.
Change-Id: Ib6661361171ac120bb92f4a8aec7efa4bcaa36b9
The TUI has separate code for each possible layout to handle the case
where the terminal window is resized. With the new layout code, this
can all be replaced with a call to tui_apply_current_layout, which
simply re-applies the current layout.
This results in some small differences in behavior when resizing, so
some tests are updated.
gdb/ChangeLog
2019-12-11 Tom Tromey <tom@tromey.com>
* tui/tui-win.c (tui_resize_all): Remove code, call
tui_apply_current_layout.
gdb/testsuite/ChangeLog
2019-12-11 Tom Tromey <tom@tromey.com>
* gdb.tui/resize.exp: Update.
* gdb.tui/empty.exp (layouts): Update.
Change-Id: I3dc6c02a753d495d9ab5e8213d550a147198ce6f
This patch introduces the first use of tui_layout, by changing
show_layout to clone and use the appropriate tui_layout.
This resulted in one minor layout change, and also in the unintended
-- but good -- side effect that the title of each boxed window is now
visible.
gdb/ChangeLog
2019-12-11 Tom Tromey <tom@tromey.com>
* tui/tui-layout.h (tui_apply_current_layout): Declare.
* tui/tui-layout.c (standard_layouts, applied_layout): New
globals.
(tui_apply_current_layout): New function.
(show_layout): Set applied_layout. Call
tui_apply_current_layout.
(show_source_command, show_disasm_command)
(show_source_disasm_command, show_data)
(show_source_or_disasm_and_command): Remove.
(initialize_layouts): New function.
(_initialize_tui_layout): Call initialize_layouts.
gdb/testsuite/ChangeLog
2019-12-11 Tom Tromey <tom@tromey.com>
* gdb.tui/regs.exp: Update.
* gdb.tui/empty.exp (layouts): Update.
* gdb.tui/basic.exp: Update.
* lib/tuiterm.exp (_check_box): Don't check bottom border.
Change-Id: If1ee06ee58f4803e8c213f4ab0f5bb59f4650ec2
The option framework documentation was speaking about a 'print -raw'
option, but this option does not exist.
This patch implements -raw-values option that tells to ignore the
active pretty printers when printing a value.
As we already have -raw-frame-arguments, I thought -raw-values
was more clear, in particular to differentiate
set print raw-values and set print raw-frame-arguments.
gdb/doc/ChangeLog
2019-12-11 Philippe Waroquiers <philippe.waroquiers@skynet.be>
* gdb.texinfo (Command Options): Use -p and -pretty in the example,
as -r is ambiguous. Update the print - TAB TAB completion result.
(Data): Document new option -raw-values. Use -p and -pretty in the
example, as -r is ambiguous.
(Print Settings): Document set print raw values.
(Pretty-Printer Commands): Document interaction between enabled
pretty printers and -raw-values/-raw-frame-arguments.
gdb/ChangeLog
2019-12-11 Philippe Waroquiers <philippe.waroquiers@skynet.be>
* NEWS: Document -raw-values option and the related setting commands.
* printcmd.c (print_command_parse_format): Do not set opts->raw off,
only set it on when /r is given.
* valprint.c (value_print_option_defs): New element raw-values.
* Makefile.in: Add the new file.
gdb/testsuite/ChangeLog
2019-12-11 Philippe Waroquiers <philippe.waroquiers@skynet.be>
* gdb.base/options.exp: Add -raw-values in the print completion list.
* gdb.python/py-prettyprint.exp: Add tests for -raw-values.
Add tests which check for accessibility of variables from within
various OpenMP parallel regions.
Tested on Fedora 27, 28, 29, 30, and 31. I also tested with my OpenMP
work on Fedora 30. The test has been annotated with setup_xfail and
setup_kfail statements so that there are no unexpected failures on any
of these platforms when using gcc. Better still, for my own testing
anyway, is that there are also no XPASSes or KPASSes either. So,
regardless of platform, when using gcc, and regardless of whether my
(not yet public) OpenMP work is used, seeing a FAIL indicates a real
problem.
Fedora 27 results:
# of expected passes 85
# of expected failures 65
(Note: I have not retested F27 since v1 of the patch; it's possible
that the numbers will be slightly different for v2.)
Fedora 28, 29, 30 results:
# of expected passes 131
# of expected failures 4
# of known failures 16
Fedora 30, 31 results w/ my OpenMP work:
# of expected passes 151
The above results all use gcc, either the system gcc or a development
gcc (when testing against my OpenMP work in GDB). I've also tested
with clang 9.0.0 and icc 19.0.5.281 20190815 on Fedora 31.
Fedora 31, clang:
FAIL: gdb.threads/omp-par-scope.exp: single_scope: first thread: print s1
FAIL: gdb.threads/omp-par-scope.exp: single_scope: first thread: print s3
FAIL: gdb.threads/omp-par-scope.exp: single_scope: first thread: print i1
FAIL: gdb.threads/omp-par-scope.exp: single_scope: first thread: print i3
FAIL: gdb.threads/omp-par-scope.exp: single_scope: second thread: print s1
FAIL: gdb.threads/omp-par-scope.exp: single_scope: second thread: print s3
FAIL: gdb.threads/omp-par-scope.exp: single_scope: second thread: print i1
FAIL: gdb.threads/omp-par-scope.exp: multi_scope: first thread: print i02
FAIL: gdb.threads/omp-par-scope.exp: multi_scope: first thread: print i11
FAIL: gdb.threads/omp-par-scope.exp: multi_scope: first thread: print i12
FAIL: gdb.threads/omp-par-scope.exp: multi_scope: first thread: print i22
FAIL: gdb.threads/omp-par-scope.exp: multi_scope: first thread: print file_scope_var
FAIL: gdb.threads/omp-par-scope.exp: multi_scope: second thread: print i11
FAIL: gdb.threads/omp-par-scope.exp: multi_scope: second thread: print file_scope_var
FAIL: gdb.threads/omp-par-scope.exp: multi_scope: after parallel: print file_scope_var
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: inner_threads: 1st stop: print file_scope_var
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: inner_threads: 1st stop: print num
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: inner_threads: 1st stop: print l
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: inner_threads: 1st stop: print k
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: inner_threads: 2nd stop: print file_scope_var
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: inner_threads: 2nd stop: print num
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: inner_threads: 3rd stop: print file_scope_var
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: inner_threads: 3rd stop: print num
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: inner_threads: 3rd stop: print l
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: inner_threads: 3rd stop: print k
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: inner_threads: 4th stop: print file_scope_var
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: inner_threads: 4th stop: print num
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: outer_threads: outer stop: print file_scope_var
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: outer_threads: outer stop: print i
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: outer_threads: outer stop: print j
Fedora 31, icc:
FAIL: gdb.threads/omp-par-scope.exp: multi_scope: first thread: print i12
FAIL: gdb.threads/omp-par-scope.exp: multi_scope: first thread: print i22
FAIL: gdb.threads/omp-par-scope.exp: nested_func: 1st call: 1st thread: print s1
FAIL: gdb.threads/omp-par-scope.exp: nested_func: 1st call: 1st thread: print i
FAIL: gdb.threads/omp-par-scope.exp: nested_func: 1st call: 1st thread: print j
FAIL: gdb.threads/omp-par-scope.exp: nested_func: 1st call: 2nd thread: print s1
FAIL: gdb.threads/omp-par-scope.exp: nested_func: 1st call: 2nd thread: print i
FAIL: gdb.threads/omp-par-scope.exp: nested_func: 1st call: 2nd thread: print j
FAIL: gdb.threads/omp-par-scope.exp: nested_func: 1st call: 2nd thread: print k
FAIL: gdb.threads/omp-par-scope.exp: nested_func: 1st call: 2nd thread: print z
FAIL: gdb.threads/omp-par-scope.exp: nested_func: 2nd call: 1st thread: print s1
FAIL: gdb.threads/omp-par-scope.exp: nested_func: 2nd call: 1st thread: print i
FAIL: gdb.threads/omp-par-scope.exp: nested_func: 2nd call: 1st thread: print j
FAIL: gdb.threads/omp-par-scope.exp: nested_func: 2nd call: 2nd thread: print s1
FAIL: gdb.threads/omp-par-scope.exp: nested_func: 2nd call: 2nd thread: print i
FAIL: gdb.threads/omp-par-scope.exp: nested_func: 2nd call: 2nd thread: print j
FAIL: gdb.threads/omp-par-scope.exp: nested_func: 2nd call: 2nd thread: print k
FAIL: gdb.threads/omp-par-scope.exp: nested_func: 2nd call: 2nd thread: print z
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: inner_threads: 1st stop: print l
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: inner_threads: 1st stop: print k
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: inner_threads: 3rd stop: print l
FAIL: gdb.threads/omp-par-scope.exp: nested_parallel: inner_threads: 3rd stop: print k
For both clang and icc, it turns out that there are some problems with
the DWARF that these compilers generate. Of the two, icc does at
least nest the subprogram of the outlined function representing the
parallel region within the function that it's defined, but does not
handle inner scopes if they exist. clang places the subprogram for
the outlined function at the same level as the containing function, so
variables declared within the function aren't visible at all.
I could call setup_xfail to avoid FAILs for clang and icc also, but I don't
want to further complicate the test.
gdb/testsuite/ChangeLog:
* gdb.threads/omp-par-scope.c: New file.
* gdb/threads/omp-par-scope.exp: New file.
Change-Id: Icb9c991730d84ca7509380af817dfcc778e764ea
This commit adds the gdb_caching_proc, support_nested_function_tests,
to lib/gdb.exp. It tests to see whether or not the C compiler has
support for nested function calls.
gdb/testsuite/ChangeLog:
* lib/gdb.exp (support_nested_function_tests): New proc.
Change-Id: Ic2c93bc4cc200e07e104a2398f89a9c0514bdc75
Sometimes -- notably with unchecked unions -- the Ada "ptype" code
will print a "?" or "??" to indicate something unknown. The choice of
what was printed was somewhat arbitrary, and in one case, Ada would
print an empty string rather than "?".
This patch normalizes the Ada code to use "?" rather than an empty
string or "??". My reasoning here is that a single question mark is
enough to convey unknown-ness.
gdb/ChangeLog
2019-12-10 Tom Tromey <tromey@adacore.com>
* ada-typeprint.c (print_choices): Use a single "?".
(print_variant_part): Print "?" if the discriminant name
is not known.
gdb/testsuite/ChangeLog
2019-12-10 Tom Tromey <tromey@adacore.com>
* gdb.ada/unchecked_union.exp: New file.
* gdb.ada/unchecked_union/pck.adb: New file.
* gdb.ada/unchecked_union/pck.ads: New file.
* gdb.ada/unchecked_union/unchecked_union.adb: New file.
* gdb-utils.exp (string_to_regexp): Also quote "?".
Change-Id: I3403040780a155ffa2c44c8e6a04ba86bc810e29
The documentation for make-breakpoint from the Guile API and the `spec'
variant of the gdb.Breakpoint constructor from the Python API state that
the format acceptable for location strings is the same as that accepted
by the break command. However, using the -probe qualifier at the
beginning of the location string causes a GDB internal error as it
attempts to decode a probe location in the wrong code path. Without this
functionality, there doesn't appear to be another way to set breakpoints
on probe points from Python or Guile scripts.
This patch introduces a new helper function that returns a
breakpoint_ops instance appropriate for a parsed location and updates
the Guile and Python bindings to use said function, rather than the
current hard-coded use of bkpt_breakpoint_ops. Since this logic is
duplicated in the handling of the `break' and `trace' commands, those
are also updated to call into the new helper function.
gdb/ChangeLog:
2019-12-10 George Barrett <bob@bob131.so>
Fix scripted probe breakpoints.
* breakpoint.c (tracepoint_probe_breakpoint_ops): Move
declaration forward.
(breakpoint_ops_for_event_location_type)
(breakpoint_ops_for_event_location): Add function definitions.
(break_command_1, trace_command): Use
breakpoint_ops_for_event_location.
* breakpoint.h (breakpoint_ops_for_event_location): Add function
declarations.
* guile/scm-breakpoint.c (gdbscm_register_breakpoint_x): Use
breakpoint_ops_for_event_location.
* python/py-breakpoint.c (bppy_init): Use
breakpoint_ops_for_event_location.
gdb/testsuite/ChangeLog:
2019-12-10 George Barrett <bob@bob131.so>
Test scripted probe breakpoints.
* gdb.guile/scm-breakpoint.c (main): Add probe point.
* gdb.python/py-breakpoint.c (main): Likewise.
* gdb.guile/scm-breakpoint.exp (test_bkpt_probe): Add probe
specifier test.
* gdb.python/py-breakpoint.exp (test_bkpt_probe): Likewise.
Passing an lvalue argument to a function that takes an rvalue parameter
is not allowed per C++ rules. Consider this function:
int g (int &&x) { return x; }
Calling g as in
int i = 5;
int j = g (i);
is illegal. For instance, GCC 9.2.1 yields
~~~
test.cpp: In function ‘int main()’:
test.cpp:6:14: error: cannot bind rvalue reference of type ‘int&&’ to
lvalue of type ‘int’
6 | int j = g (i);
| ^
~~~
GDB currently allows this function call:
~~~
(gdb) print g(i)
$1 = 5
~~~
Fix this by ranking an lvalue argument incompatible with an rvalue
parameter. The behavior after this patch is:
~~~
(gdb) print g(i)
Cannot resolve function g to any overloaded instance
~~~
Tested with GCC 9.2.1.
gdb/ChangeLog:
2019-12-09 Tankut Baris Aktemur <tankut.baris.aktemur@intel.com>
* gdbtypes.c (rank_one_type): Return INCOMPATIBLE_TYPE_BADNESS
when ranking an lvalue argument for an rvalue parameter.
gdb/testsuite/ChangeLog:
2019-12-09 Tankut Baris Aktemur <tankut.baris.aktemur@intel.com>
* gdb.cp/rvalue-ref-overload.cc (g): New function that takes
an rvalue parameter.
* gdb.cp/rvalue-ref-overload.exp: Test calling it with an lvalue
parameter.
Change-Id: I4a6dfc7dac63efa1e3b9f8f391e4b736fbdccdc1
Extend the output pattern in mi-fortran-modules.exp to skip some
system modules that appear with versions of GFortran after 7.x.x.
gdb/testsuite/ChangeLog:
* gdb.mi/mi-fortran-modules.exp: Add patterns to skip system
modules.
Change-Id: I64aaa395e554a32e8267ffa096faee53c19c0b9e
Tom Tromey
Bernd Edlinger
Andrew Burgess
Tankut Baris Aktemur
Pedro Alves
George Barrett
Philippe Waroquiers
Joel Brobecker
Simon Marchi
Simon Marchi
Tom Tromey
Kevin Buettner