In microblaze_analyze_prologue in gdb/microblaze-tdep.c I came across:
...
microblaze_debug ("got addi r1,r1,%d; contnuing\n", imm);
...
Fix this by using "continuing".
Reviewed-By: Tom Tromey <tom@tromey.com>
In gdb/python/py-value.c, in the value_object_methods array I noticed:
...
{ "const_value", valpy_const_value, METH_NOARGS,
"Return a 'const' qualied version of the same value." },
...
Fix the qualied -> qualified typo.
Reviewed-By: Tom Tromey <tom@tromey.com>
In gdb/guile/scm-value.c, I noticed in the value_functions array initializer:
...
{ "value-optimized-out?", 1, 0, 0,
as_a_scm_t_subr (gdbscm_value_optimized_out_p),
"\
Return #t if the value has been optimizd out." },
...
There's a typo in the doc string.
Fix this by using "optimized".
Reviewed-By: Tom Tromey <tom@tromey.com>
I noticed:
...
(gdb) help show tui tab-width
Show the tab witdh, in characters, for the TUI.
This variable controls how many spaces are used to display a tab character.
...
a typo: "witdh".
Fix this by using "width" instead.
Reviewed-By: Tom Tromey <tom@tromey.com>
I noticed a typo:
...
(gdb) help maint info target-sections
List GDB's internal section table.
Print the current targets section list. This is a sub-set of all
sections, from all objects currently loaded. Usually the ALLOC
sectoins.
...
Fix this by using "sections".
Reviewed-By: Tom Tromey <tom@tromey.com>
I noticed here:
...
(gdb) help maint set ignore-prologue-end-flag
Set if the PROLOGUE-END flag is ignored.
The PROLOGUE-END flag from the line-table entries is used to place \
breakpoints past the prologue of functions. Disabeling its use use forces \
the use of prologue scanners.
...
a typo in "Disabeling" and accidental word repetition "use use".
Fix by replacing with "Disabling" and "use".
Reviewed-By: Tom Tromey <tom@tromey.com>
In compile_object_load in gdb/compile/compile-object-load.c I came across:
...
"Connectiong ELF symbol \"%s\" to the .toc section (%s)\n",
...
Fix this typo by using "Connecting" instead.
Reviewed-By: Tom Tromey <tom@tromey.com>
Two functions use the argument name bounds_prefered_p.
This misspells "preferred".
Fix this by using bounds_preferred_p instead.
Tested on x86_64-linux.
Reviewed-By: Tom Tromey <tom@tromey.com>
Caught this during emulator testing.
Fix the constants. They should be 0xa and 0xb as opposed to 0x10 and
0x11. There was a thinko while defining them.
Obvious enough.
Tested on aarch64-linux Ubuntu 20.04/22.04.
I found the documentation for -dprintf-insert a bit unclear. It
didn't mention the possibility of multiple arguments, and I also
noticed that it implied that the format parameter is optional, which
it is not.
While looking into this I also noticed a few comments in the
implementation that could also be improved.
Then, I noticed a repeated call to strlen in a loop condition, so I
fixed this up as well.
Reviewed-By: Eli Zaretskii <eliz@gnu.org>
I noticed a couple instance of this warning when rebuilding the gdb
info files:
warning: undefined flag: GDB
The problem is that the wrong argument was passed to @value. This
patch fixes the problem.
When running the test-case gdb.tui/wrap-line.exp with a build configured with
--disable-tui, we run into:
...
(gdb) PASS: gdb.tui/wrap-line.exp: width-hard-coded: set width 50
tui new-layout command-layout cmd 1^M
Undefined command: "tui". Try "help".^M
(gdb) ERROR: Undefined command "tui new-layout command-layout cmd 1".
...
Fix this by guarding the command with allow_tui_tests.
Tested on x86_64-linux.
When running test-case gdb.tui/pr30056.exp with target board
native-extended-gdbserver, I run into:
...
Quit^[[K^M^[[B(gdb) PASS: gdb.tui/pr30056.exp: Control-C
Remote debugging from host ::1, port 38810^M
^M(failed reverse-i-search)`xyz': ^M(gdb) target extended-remote \
localhost:2346^[[7GWARNING: Timed out waiting for EOF in server after \
monitor exit
...
This is due to the fact that ^C doesn't abort the reverse-i-search. This
appears to be due to a readline problem. A PR is open about this: PR
cli/30498.
Add a KFAIL for the PR, and ensure that the isearch is aborted by using ^G,
such that we have a responsive prompt to handle the "monitor exit" command
that native-extended-gdbserver issues.
Tested on x86_64-linux.
I added a cmd-only layout:
...
(gdb) tui new-layout cmd cmd 1
...
and set it:
...
(gdb) layout cmd
...
which gave me the expect result: only the cmd window in the screen.
However, after going back to layout src:
...
(gdb) layout src
...
I got a source window with only one line in it, and the cmd window taking most
of the screen.
I traced this back to tui_set_layout, where for both the old and the new
layout the fingerprint of the cmd window in the layout is taken. If the
fingerprint is the same, an effort will be done to preserve the command
window size.
The fingerprint is "VC" for both the old (cmd) and new (src) layouts, which
explains the behaviour.
I think this is essentially a bug in the finger print calculation, and it
should be "C" for the cmd layout.
Fix this by not adding a V or H in the fingerprint if the list size is one.
Tested on x86_64-linux.
Reviewed-By: Tom Tromey <tom@tromey.com>
This commit adds a new format for the printf and dprintf commands:
'%V'. This new format takes any GDB expression and formats it as a
string, just as GDB would for a 'print' command, e.g.:
(gdb) print a1
$a = {2, 4, 6, 8, 10, 12, 14, 16, 18, 20}
(gdb) printf "%V\n", a1
{2, 4, 6, 8, 10, 12, 14, 16, 18, 20}
(gdb)
It is also possible to pass the same options to %V as you might pass
to the print command, e.g.:
(gdb) print -elements 3 -- a1
$4 = {2, 4, 6...}
(gdb) printf "%V[-elements 3]\n", a1
{2, 4, 6...}
(gdb)
This new feature would effectively replace an existing feature of GDB,
the $_as_string builtin convenience function. However, the
$_as_string function has a few problems which this new feature solves:
1. $_as_string doesn't currently work when the inferior is not
running, e.g:
(gdb) printf "%s", $_as_string(a1)
You can't do that without a process to debug.
(gdb)
The reason for this is that $_as_string returns a value object with
string type. When we try to print this we call value_as_address,
which ends up trying to push the string into the inferior's address
space.
Clearly we could solve this problem, the string data exists in GDB, so
there's no reason why we have to push it into the inferior, but this
is an existing problem that would need solving.
2. $_as_string suffers from the fact that C degrades arrays to
pointers, e.g.:
(gdb) printf "%s\n", $_as_string(a1)
0x404260 <a1>
(gdb)
The implementation of $_as_string is passed a gdb.Value object that is
a pointer, it doesn't understand that it's actually an array. Solving
this would be harder than issue #1 I think. The whole array to
pointer transformation is part of our expression evaluation. And in
most cases this is exactly what we want. It's not clear to me how
we'd (easily) tell GDB that we didn't want this reduction in _some_
cases. But I'm sure this is solvable if we really wanted to.
3. $_as_string is a gdb.Function sub-class, and as such is passed
gdb.Value objects. There's no super convenient way to pass formatting
options to $_as_string. By this I mean that the new %V feature
supports print formatting options. Ideally, we might want to add this
feature to $_as_string, we might imagine it working something like:
(gdb) printf "%s\n", $_as_string(a1,
elements = 3,
array_indexes = True)
where the first item is the value to print, while the remaining
options are the print formatting options. However, this relies on
Python calling syntax, which isn't something that convenience
functions handle. We could possibly rely on strictly positional
arguments, like:
(gdb) printf "%s\n", $_as_string(a1, 3, 1)
But that's clearly terrible as there's far more print formatting
options, and if you needed to set the 9th option you'd need to fill in
all the previous options.
And right now, the only way to pass these options to a gdb.Function is
to have GDB first convert them all into gdb.Value objects, which is
really overkill for what we want.
The new %V format solves all these problems: the string is computed
and printed entirely on the GDB side, we are able to print arrays as
actual arrays rather than pointers, and we can pass named format
arguments.
Finally, the $_as_string is sold in the manual as allowing users to
print the string representation of flag enums, so given:
enum flags
{
FLAG_A = (1 << 0),
FLAG_B = (1 << 1),
FLAG_C = (1 << 1)
};
enum flags ff = FLAG_B;
We can:
(gdb) printf "%s\n", $_as_string(ff)
FLAG_B
This works just fine with %V too:
(gdb) printf "%V\n", ff
FLAG_B
So all functionality of $_as_string is replaced by %V. I'm not
proposing to remove $_as_string, there might be users currently
depending on it, but I am proposing that we don't push $_as_string in
the documentation.
As %V is a feature of printf, GDB's dprintf breakpoints naturally gain
access to this feature too. dprintf breakpoints can be operated in
three different styles 'gdb' (use GDB's printf), 'call' (call a
function in the inferior), or 'agent' (perform the dprintf on the
remote).
The use of '%V' will work just fine when dprintf-style is 'gdb'.
When dprintf-style is 'call' the format string and arguments are
passed to an inferior function (printf by default). In this case GDB
doesn't prevent use of '%V', but the documentation makes it clear that
support for '%V' will depend on the inferior function being called.
I chose this approach because the current implementation doesn't place
any restrictions on the format string when operating in 'call' style.
That is, the user might already be calling a function that supports
custom print format specifiers (maybe including '%V') so, I claim, it
would be wrong to block use of '%V' in this case. The documentation
does make it clear that users shouldn't expect this to "just work"
though.
When dprintf-style is 'agent' then GDB does no support the use of
'%V' (right now). This is handled at the point when GDB tries to
process the format string and send the dprintf command to the remote,
here's an example:
Reading symbols from /tmp/hello.x...
(gdb) dprintf call_me, "%V", a1
Dprintf 1 at 0x401152: file /tmp/hello.c, line 8.
(gdb) set sysroot /
(gdb) target remote | gdbserver --once - /tmp/hello.x
Remote debugging using | gdbserver --once - /tmp/hello.x
stdin/stdout redirected
Process /tmp/hello.x created; pid = 3088822
Remote debugging using stdio
Reading symbols from /lib64/ld-linux-x86-64.so.2...
(No debugging symbols found in /lib64/ld-linux-x86-64.so.2)
0x00007ffff7fd3110 in _start () from /lib64/ld-linux-x86-64.so.2
(gdb) set dprintf-style agent
(gdb) c
Continuing.
Unrecognized format specifier 'V' in printf
Command aborted.
(gdb)
This is exactly how GDB would handle any other invalid format
specifier, for example:
Reading symbols from /tmp/hello.x...
(gdb) dprintf call_me, "%Q", a1
Dprintf 1 at 0x401152: file /tmp/hello.c, line 8.
(gdb) set sysroot /
(gdb) target remote | gdbserver --once - /tmp/hello.x
Remote debugging using | gdbserver --once - /tmp/hello.x
stdin/stdout redirected
Process /tmp/hello.x created; pid = 3089193
Remote debugging using stdio
Reading symbols from /lib64/ld-linux-x86-64.so.2...
(No debugging symbols found in /lib64/ld-linux-x86-64.so.2)
0x00007ffff7fd3110 in _start () from /lib64/ld-linux-x86-64.so.2
(gdb) set dprintf-style agent
(gdb) c
Continuing.
Unrecognized format specifier 'Q' in printf
Command aborted.
(gdb)
The error message isn't the greatest, but improving that can be put
off for another day I hope.
Reviewed-By: Eli Zaretskii <eliz@gnu.org>
Acked-By: Simon Marchi <simon.marchi@efficios.com>
Same idea as previous patches, but for about_to_proceed. We only need
(and want, as far as the mi_interp implementation is concerned) to
notify the interpreter that caused the proceed.
Change-Id: Id259bca10dbc3d43d46607ff7b95243a9cbe2f89
Same idea as previous patches, but for inferior_disappeared.
For symmetry with on_inferior_appeared, I named this one
on_inferior_disappeared, despite the observer being called
inferior_exit. This is called when detaching an inferior, so I think
that calling it "disappeared" is a bit less misleading (the observer
should probably be renamed later).
Change-Id: I372101586bc9454997953c1e540a2a6685f53ef6
Same idea as previous patches, but for inferior_added.
mi_interp::init avoided using mi_inferior_added, since, as the comment
used to say, it would notify all MI interpreters. Now, it's easy to
only notify the new interpreter, so it's possible to just call the
on_inferior_added method in mi_interp::init.
Change-Id: I0eddbd5367217d1c982516982089913019ef309f
Same as previous patches, but for sync_execution_done. Except that
here, we only want to notify the interpreter that is executing the
command, not all interpreters.
Change-Id: I729c719447b5c5f29af65dbf6fed9132e2cd308b
Same as previous patch, but for exited. Remove the exited observable,
since nothing uses it anymore, and we don't have anything coming that
will use it.
Change-Id: I358cbea0159af56752dfee7510d6a86191e722bb
Same as previous patch, but for signal_exited. Remove the signal_exited
observable, since nothing uses it anymore, and we don't have anything
coming that will use it.
Change-Id: I0dca1eab76338bf27be755786e3dad3241698b10
Instead of having the interpreter code registering observers for the
signal_received observable, add a "signal_received" virtual method to
struct interp. Add a interps_notify_signal_received function that loops
over all UIs and calls the signal_received method on the interpreter.
Finally, add a notify_signal_received function that calls
interps_notify_signal_received and then notifies the observers. Replace
all existing notifications to the signal_received observers with calls
to notify_signal_received.
Before this patch, the CLI and MI code both register a signal_received
observer. These observer go over all UIs, and, for those that have a
interpreter of the right kind, print the stop notifiation.
After this patch, we have just one "loop over all UIs", inside
interps_notify_signal_received. Since the interp::on_signal_received
method gets called once for each interpreter, the implementations only
need to deal with the current interpreter (the "this" pointer).
The motivation for this patch comes from a future patch, that makes the
amdgpu code register an observer to print a warning after the CLI's
signal stop message. Since the amdgpu and the CLI code both use
observers, the order of the two messages is not stable, unless we define
the priority using the observer dependency system. However, the
approach of using virtual methods on the interpreters seems like a good
change anyway, I think it's more straightforward and simple to
understand than the current solution that uses observers. We are sure
that the amdgpu message gets printed after the CLI message, since
observers are notified after interpreters.
Keep the signal_received, even if nothing uses if, because we will be
using it in the upcoming amdgpu patch implementing the warning described
above.
Change-Id: I4d8614bb8f6e0717f4bfc2a59abded3702f23ac4
Simon reported that the new test-case gdb.tui/pr30056.exp fails with system
readline.
This is because the test-case requires a fix in readline that's present in our
in-repo copy of readline, but most likely not in any system readline yet.
Fix this by:
- mentioning --with-system-readline or --without-system-readline in the
configuration string.
- adding a new proc with_system_readline that makes this information available
in the testsuite.
- using this in test-case gdb.tui/pr30056.exp to declare it unsupported for
--with-system-readline.
Tested on x86_64-linux.
Reported-By: Simon Marchi <simon.marchi@efficios.com>
Approved-By: Simon Marchi <simon.marchi@efficios.com>
I came across a bug in the implementation of line feed in tuiterm, and added a
unit test that exposes it.
Before sending the line feed we have:
...
Screen Dump (size 8 columns x 4 rows, cursor at column 0, row 3):
0 abcdefgh
1 ijklmnop
2 qrstuvwx
3 yz01234
...
and after it we have:
...
Screen Dump (size 8 columns x 4 rows, cursor at column 0, row 1):
0 ijklmnop
1 qrstuvwx
2 yz01234
3 yz01234
...
Note how the cursor started at row 3 and after the line feed ended up at
row 1, while it should have stayed in row 3.
Fix this by moving "incr _cur_row -1" one level up in the loop nest in
proc _ctl_0x0a.
Tested on x86_64-linux.
I stumbled on the mi_proceeded and running_result_record_printed
globals, which are shared by all MI interpreter instances (it's unlikely
that people use multiple MI interpreter instances, but it's possible).
After poking at it, I found this bug:
1. Start GDB in MI mode
2. Add a second MI interpreter with the new-ui command
3. Use -exec-run on the second interpreter
This is the output I get on the first interpreter:
=thread-group-added,id="i1"
~"Reading symbols from a.out...\n"
~"New UI allocated\n"
(gdb)
=thread-group-started,id="i1",pid="94718"
=thread-created,id="1",group-id="i1"
^running
*running,thread-id="all"
And this is the output I get on the second intepreter:
=thread-group-added,id="i1"
(gdb)
-exec-run
=thread-group-started,id="i1",pid="94718"
=thread-created,id="1",group-id="i1"
*running,thread-id="all"
The problem here is that the `^running` reply to the -exec-run command
is printed on the wrong UI. It is printed on the first one, it should
be printed on the second (the one on which we sent the -exec-run).
What happens under the hood is that captured_mi_execute_command, while
executing a command for the second intepreter, clears the
running_result_record_printed and mi_proceeded globals.
mi_about_to_proceed then sets mi_proceeded. Then, mi_on_resume_1 gets
called for the first intepreter first. Since the
!running_result_record_printed && mi_proceeded
condition is true, it prints a ^running, and sets
running_result_record_printed. When mi_on_resume_1 gets called for the
second interpreter, running_result_record_printed is already set, so
^running is not printed there.
It took me a while to understand the relationship between these two
variables. I think that in the end, this is what we want to track:
1. When executing an MI command, take note if that command causes a
"proceed". This is done in mi_about_to_proceed.
2. In mi_on_resume_1, if the command indeed caused a "proceed", we want
to output a ^running record. And we want to remember that we did,
because...
3. Back in captured_mi_execute_command, if we did not output a
^running, we want to output a ^done.
Moving those two variables to the mi_interp struture appears to fix it.
Only for the interpreter doing the -exec-run command does the
running_result_record_printed flag get cleared, and therefore only or
that one does the ^running record get printed.
Add a new test for this, that does pretty much what the reproducer above
shows. Without the fix, the test fails because
mi_send_resuming_command_raw never sees the ^running record.
Change-Id: I63ea30e6cb61a8e1dd5ef03377e6003381a9209b
Tested-By: Alexandra Petlanova Hajkova <ahajkova@redhat.com>
Consider the following scenario. We start gdb in TUI mode:
...
$ gdb -q -tui
...
and type ^R which gives us the reverse-isearch prompt in the cmd window:
...
(reverse-i-search)`':
...
and then type "foo", right-arrow-key, and ^C.
In TUI mode, gdb uses a custom rl_getc_function tui_getc.
When pressing the right-arrow-key, tui_getc:
- attempts to scroll the TUI src window, without any effect, and
- returns 0.
The intention of returning 0 is mentioned here in tui_dispatch_ctrl_char:
...
/* We intercepted the control character, so return 0 (which readline
will interpret as a no-op). */
return 0;
...
However, after this 0 is returned by the rl_read_key () call in
_rl_search_getchar, _rl_read_mbstring is called, which incorrectly interprets
0 as the first part of an utf-8 multibyte char, and tries to read the next
char.
In this state, the ^C takes effect and we run into a double free because
_rl_isearch_cleanup is called twice.
Both these issues need fixing independently, though after fixing the first we
no longer trigger the second.
The first issue is caused by the subtle difference between:
- a char array containing 0 chars, which is zero-terminated, and
- a char array containing 1 char, which is zero.
In mbrtowc terms, this is the difference between:
...
mbrtowc (&wc, "", 0, &ps);
...
which returns -2, and:
...
mbrtowc (&wc, "", 1, &ps);
...
which returns 0.
Note that _rl_read_mbstring calls _rl_get_char_len without passing it an
explicit length parameter, and consequently it cannot distinguish between the
two, and defaults to the "0 chars" choice.
Note that the same problem doesn't exist in _rl_read_mbchar.
Fix this by defaulting to the "1 char" choice in _rl_get_char_len:
...
- if (_rl_utf8locale && l > 0 && UTF8_SINGLEBYTE(*src))
+ if (_rl_utf8locale && l >= 0 && UTF8_SINGLEBYTE(*src))
...
The second problem happens when the call to _rl_search_getchar in
_rl_isearch_callback returns. At that point _rl_isearch_cleanup has already
been called from the signal handler, but we proceed regardless, using a cxt
pointer that has been freed.
Fix this by checking for "RL_ISSTATE (RL_STATE_ISEARCH)" after the call to
_rl_search_getchar:
...
c = _rl_search_getchar (cxt);
+ if (!RL_ISSTATE (RL_STATE_ISEARCH))
+ return 1;
...
Tested on x86_64-linux.
Approved-By: Chet Ramey <chet.ramey@case.edu>
PR tui/30056
Bug: https://sourceware.org/bugzilla/show_bug.cgi?id=30056
Add a test-case that sets a prompt with color in TUI.
The line containing the prompt is shown by get_line_with_attrs as follows:
...
<fg:31>(gdb) <fg:default>
...
The 31 means red, but only for foreground colors, for background colors 41
means red.
Make this more readable by using color names for both foreground and
background, such that we have instead:
....
<fg:red>(gdb) <fg:default>
...
Tested on x86_64-linux.
