This patch generalizes varobj iterator, in a python-independent way.
Note varobj_item is still a typedef of PyObject, we can only focus on
API changes, and leave the data type changes to the next patch. As a
result, we include "varobj-iter.h" after the typedef of PyObject in
varobj.c, but it is an intermediate state. Finally, varobj-iter.h is
independent of PyObject.
This change is helpful to move some python-related code out of
varobj.c.
V2:
- Fix a missing cleanup.
- Fix typos.
- Use XNEW.
- Check against NULL explicitly.
- Update copyright year for new added files.
V3:
- Call PyGILState_Ensure before Py_XDECREF.
- Use CPYCHECKER_STEALS_REFERENCE_TO_ARG.
- Code indentation.
V4:
- use varobj_ensure_python_env instead of PyGILState_Ensure.
gdb:
2014-06-12 Pedro Alves <pedro@codesourcery.com>
Yao Qi <yao@codesourcery.com>
* Makefile.in (SUBDIR_PYTHON_OBS): Add "py-varobj.o".
(SUBDIR_PYTHON_SRCS): Add "python/py-varobj.c".
(HFILES_NO_SRCDIR): Add "varobj-iter.h".
(py-varobj.o): New rule.
* python/py-varobj.c: New file.
* python/python-internal.h (py_varobj_get_iterator): Declare.
* varobj-iter.h: New file.
* varobj.c: Include "varobj-iter.h"
(struct varobj) <child_iter>: Change its type from "PyObject *"
to "struct varobj_iter *".
<saved_item>: Likewise.
[HAVE_PYTHON] (varobj_ensure_python_env): Make it extern.
[HAVE_PYTHON] (varobj_get_iterator): New function.
(update_dynamic_varobj_children) [HAVE_PYTHON]: Move
python-specific code to python/py-varobj.c.
(install_visualizer): Call varobj_iter_delete instead of
Py_XDECREF.
* varobj.h (varobj_ensure_python_env): Declare.
Hi,
name and value pair is widely used in varobj.c. This patch is to add
a new struct varobj_item to represent them, so that the number of
function arguments can be reduced. Finally, the iteration is done on
'struct varobj_item' instead of PyObject after this patch series.
V2:
- Fix changelog entry.
- Fix one grammatical mistake.
gdb:
2014-06-12 Yao Qi <yao@codesourcery.com>
* varobj.c (struct varobj_item): New structure.
(create_child_with_value): Update declaration.
(varobj_add_child): Replace arguments 'name' and 'value' with
'item'. All callers updated.
(install_dynamic_child): Likewise.
(update_dynamic_varobj_children): Likewise.
(varobj_add_child): Likewise.
(create_child_with_value): Likewise.
Now that the GDB 7.8 branch has been created, we can
bump the version number.
gdb/ChangeLog:
GDB 7.8 branch created (173373c6f6):
* version.in: Bump version to 7.8.50.DATE-cvs.
A call to demangle_template might allocate storage within a temporary
string even if the call to demangle_template eventually returns
failure.
This will never cause the demangler to crash, but does leak memory, as
a result I've not added any tests for this.
Calling string_delete is safe, even if nothing is allocated into the
string, the string is initialised with string_init, so we know the
internal pointers are NULL.
libiberty/ChangeLog
* cplus-dem.c (do_type): Call string_delete even if the call to
demangle_template fails.
Since target-async was turned on by default, debugging on Windows
using GDB+GDBserver sometimes hangs while waiting for a RSP reply.
The problem is a race in the gdb_select machinery.
This is what we see for a faulty next on the GDB side:
(gdb) n
infrun: clear_proceed_status_thread (Thread 4424)
infrun: proceed (addr=0xffffffff, signal=GDB_SIGNAL_DEFAULT, step=1)
(...)
infrun: resume (step=1, signal=GDB_SIGNAL_0), ...
Sending packet: $vCont;s:1148;c#5e...
*hang*
At this point, attaching a debugger to the hanging GDB confirms that
it is blocked, waiting for a socket event:
#6 0x757841d8 in WaitForMultipleObjects ()
from C:\Windows\syswow64\kernel32.dll
#7 0x004708e7 in gdb_select (n=469, readfds=0x88ca50 <gdb_notifier+784>,
writefds=0x88cb54 <gdb_notifier+1044>,
exceptfds=0x88cc58 <gdb_notifier+1304>, timeout=0x0)
at /[...]/gdb/mingw-hdep.c:172
#8 0x00527926 in gdb_wait_for_event (block=1)
at /[...]/gdb/event-loop.c:831
#9 0x00526ff1 in gdb_do_one_event ()
at /[...]/gdb/event-loop.c:403
However, on the GDBserver side, we see that GDBserver already sent a
T05 packet reply:
gdbserver: kernel event EXCEPTION_DEBUG_EVENT for pid=4968 tid=1148
EXCEPTION_SINGLE_STEP
Child Stopped with signal = 5
Writing resume reply for LWP 4968.4424:1
DEBUG: write_prim ($T0505:c8fe2800;04:a0fe2800;08:38164000;thread:1148;#f0)
-> 55
To recap, on Windows, 'select' only works with sockets, so we have a
wrapper, gdb_select, that uses the GDB serial abstraction to handle
sockets, consoles, pipes, and serial ports. Each serial descriptor
has a thread associated (we call those the select threads), and those
threads communicate with the main thread by means of standard Windows
events.
It basically goes like this: gdb_select first loops through all fds of
interest, calling their wait_handle hooks, which returns an event that
WaitForMultipleObjects can wait on. gdb_select then blocks in
WaitForMultipleObjects with all those event handles. The wait_handle
hook is responsible for arranging for the returned event to become set
once data is available. This is done by setting the descriptor's
helper thread running, which itself knows how to wait for data from
the type of handle it manages (sockets, pipes, consoles, files, etc.).
Once data arrives, the select thread sets the corresponding event
which unblocks WaitForMultipleObjects within gdb_select. However, the
wait_handle hook can also apply an optimization: if data is already
pending, then there's no need to set the thread running, and the
descriptors event can be set immediately. It's around this latter
aspect that lies the bug/race.
Adding some ad hoc debug logs to ser-mingw.c and mingw-hdep.c, we see
the following sequence of events, right after sending
"$vCont;s:1148;c#5e". Thread 1 is the main thread, and thread 2 is
the socket's helper/select thread. gdb_select was only passed one
descriptor to wait on, the remote target's socket.
net_windows_select_thread is the entry point of the select threads for
sockets.
#1 - thread 1: gdb_select: enter
#2 - thread 2: net_windows_select_thread: WaitForMultipleObjects blocking
gdb_select walked over the wait_handle hooks, and woke up the socket's
helper thread. The helper thread is now blocked waiting for socket
events.
#3 - thread 1: gdb_select: WaitForMultipleObjects polling (timeout=0ms)
#4 - thread 1: gdb_select: WaitForMultipleObjects returned 102 (WAIT_TIMEOUT)
There was no pending data available yet, and gdb_select was passed
timeout==0ms, and so WaitForMultipleObjects times out immediately.
#5 - thread 2: net_windows_select_thread: WaitForMultipleObjects returned 1
Just afterwards, socket data arrives, and thread 2 wakes up. Thread 2
calls WSAEnumNetworkEvents, which clears state->sock_event, and marks
the serial's read_event event, telling the main thread that data is
available.
#6 - thread 1: gdb_select: call serial_done_wait_handle on each serial
gdb_select stops all the helper/select threads.
#7 - thread 1: gdb_select: return 0 (WAIT_TIMEOUT)
gdb_select in the main thread returns to the caller.
Note that at this point, data is pending on the socket, the serial's
read_event is set, but the socket's sock_event event is not set, until
_further_ data arrives.
Now GDB does its thing and goes back to the event loop. That calls
gdb_select, but with timeout==INFINITE.
Again, gdb_select calls the socket serial's wait_handle hook. It
first clears its events, starting from a clean slate:
ResetEvent (state->base.read_event);
ResetEvent (state->base.except_event);
ResetEvent (state->base.stop_select);
That cleared read_event, which was previously set in #5 above. And
then it checks for pending events, in the sock_event event:
/* Check any pending events. This both avoids starting the thread
unnecessarily, and handles stray FD_READ events (see below). */
if (WaitForSingleObject (state->sock_event, 0) == WAIT_OBJECT_0)
{
That also fails because state->sock_event was cleared in #5 too...
So the wait_handle hook erroneously decides that it needs to start the
helper thread to wait for input:
#8 - thread 2: net_windows_select_thread: WaitForMultipleObjects blocking
#9 - thread 1: gdb_select: WaitForMultipleObjects blocking (INFINITE)
But, GDBserver already sent all it had to send, so both threads waits
forever...
At first I thought that net_windows_wait_handle shouldn't be resetting
state->base.read_event or state->base.except_event, but looking
deeper, the pipe and console wait_handle hooks reset all events too.
It actually makes sense that way -- consuming an event from different
threads is bad practice, and, we should always be able to query
pending state without looking at the state->sock_event from within
net_windows_wait_handle. The end result is much simpler, and makes
net_windows_select_thread look a lot like console_select_thread,
actually.
gdb/
2014-06-11 Pedro Alves <palves@redhat.com>
PR remote/17028
* ser-mingw.c (net_windows_socket_check_pending): New function.
(net_windows_select_thread): Ignore spurious wakeups. Use
net_windows_socket_check_pending.
(net_windows_wait_handle): Check for pending events with
ioctlsocket, through net_windows_socket_check_pending, instead of
checking the socket's event.
This is done to avoid errors when compiled with -Werror against Python-2.4
which did not have the const qualifier for the second argument of these
functions.
gdb/
* python/python-internal.h (gdb_PyObject_GetAttrString)
(gdb_PyObject_HasAttrString): New inline function definitions.
* py-value.c (get_field_flag): Remove the now unnecessary cast to
char * of the second argument to PyObject_GetAttrString.
Fixes issues with dwz multi-file (-m) and ld's -wrap option.
Symbols referenced from DWARF debug info in a separate file, eg. to
specify low and high pc, must use the real symbol. The DWARF info
is specifying attributes of the real function, not one interposed
with --wrap.
include/
* bfdlink.h (unwrap_hash_lookup): Declare.
bfd/
* linker.c (unwrap_hash_lookup): New function.
* elf-bfd (RELOC_FOR_GLOBAL_SYMBOL): Call unwrap_hash_lookup.
* elf32-i370.c (i370_elf_relocate_section): Likewise.
* elf32-m32c.c (m32c_elf_relocate_section): Likewise.
* elf32-m32r.c (m32r_elf_relocate_section): Likewise.
* elf32-score.c (s3_bfd_score_elf_relocate_section): Likewise.
* elf32-score7.c (s7_bfd_score_elf_relocate_section): Likewise.
* elf32-spu.c (spu_elf_relocate_section): Likewise.
* elf64-hppa.c (elf64_hppa_relocate_section): Likewise.
I noticed that, when using 'set debug serial 1', the "write" traces
would always be NUL characters:
[
w \x00][\x00][\x00][\x00][\x00][etc]
This is due to a small thinko in the loop that output each character,
where we accidently used the loop boundary instead of the loop index
to index the character to be printed.
After this patch is applied, the output now becomes:
[
w $][v][C][o][n][t][?][#][4][9]
gdb/ChangeLog:
* serial.c (serial_write): Fix index of character to be printed
in call to serial_logchar when serial debug traces are enabled.
I'm seeing a ton of new FAILs in fork-related tests. Like, these and
many more:
+FAIL: gdb.base/disp-step-syscall.exp: vfork: continue to vfork (2nd time) (timeout)
+FAIL: gdb.base/disp-step-syscall.exp: vfork: display/i $pc (timeout)
...
-PASS: gdb.base/foll-vfork.exp: exec: vfork parent follow, through step: step
+FAIL: gdb.base/foll-vfork.exp: exec: vfork parent follow, through step: step (timeout)
-PASS: gdb.base/foll-vfork.exp: exec: vfork parent follow, to bp: continue to bp
+FAIL: gdb.base/foll-vfork.exp: exec: vfork parent follow, to bp: continue to bp (timeout)
...
FAIL: gdb.threads/watchpoint-fork.exp: parent: multithreaded: breakpoint (A) after the first fork (timeout)
FAIL: gdb.threads/watchpoint-fork.exp: parent: multithreaded: watchpoint A after the first fork (timeout)
FAIL: gdb.base/fileio.exp: System(3) call (timeout)
FAIL: gdb.threads/watchpoint-fork.exp: parent: multithreaded: watchpoint B after the first fork (timeout)
-PASS: gdb.base/multi-forks.exp: run to exit 2
+FAIL: gdb.base/multi-forks.exp: run to exit 2 (timeout)
...
PASS: gdb.base/watch-vfork.exp: Watchpoint on global variable (hw)
-PASS: gdb.base/watch-vfork.exp: Watchpoint triggers after vfork (hw)
+FAIL: gdb.base/watch-vfork.exp: Watchpoint triggers after vfork (hw) (timeout)
PASS: gdb.base/watch-vfork.exp: Watchpoint on global variable (sw)
-PASS: gdb.base/watch-vfork.exp: Watchpoint triggers after vfork (sw)
+FAIL: gdb.base/watch-vfork.exp: Watchpoint triggers after vfork (sw) (timeout)
Three issues with
https://sourceware.org/ml/gdb-patches/2014-06/msg00348.html
(c077881a).
- The inner 'status' local is shadowing the outer 'status' local,
thus PTRACE_DETACH is never seeing the status it intends to pass on
the inferior.
- With that fixed, we then try to pass down the SIGTRAP that results
from the step to the inferior. Need to filter out signals that are
in nopass state.
- For software single-step archs, the current code is equivalent to:
int status = 0;
if (WIFSTOPPED (status))
ptrace (PTRACE_DETACH, child_pid, 0, WSTOPSIG (status));
... and status == 0 is WIFEXITED, not WIFSTOPPED, so we're never
detaching.
gdb/
2014-06-09 Pedro Alves <palves@redhat.com>
* linux-nat.c (linux_child_follow_fork): Initialize status with
W_STOPCODE (0) instead of 0. Remove shodowing 'status' local from
inner block. Only pass the signal to PTRACE_DETACH if in pass
state.
This commit reorders various pieces of code to separate ANSI-standard
signals from other signals that need checking. Comments are added to
document this, and to document the ordering of the signals.
gdb/
2014-06-09 Gary Benson <gbenson@redhat.com>
* common/signals.c (gdb_signal_from_host): Reorder to separate
the always-available ANSI-standard signals from the signals that
require checking.
(do_gdb_signal_to_host): Likewise.
* proc-events.c (signal_table): Likewise.
gdb/testsuite/
2014-06-09 Gary Benson <gbenson@redhat.com>
* gdb.base/sigall.c [Functions to send signals]: Reorder to
separate the always-available ANSI-standard signals from the
signals that require checking.
(main): Likewise.
* gdb.reverse/sigall-reverse.c [Functions to send signals]:
Likewise.
(main): Likewise.
https://sourceware.org/ml/gdb-patches/2014-04/msg00047.html
Got gdb.base/watch-vfork.exp: Watchpoint triggers after vfork (sw)
(timeout) with Linux 2.6.32 and older version.
The rootcause is after the test use "set can-use-hw-watchpoints 0" let GDB
doesn't use hardware breakpoint and set a watchpoint on "global", GDB
continue will keep single step inside function "vfork".
The Linux 2.6.32 and older version doesn't have commit
6580807da14c423f0d0a708108e6df6ebc8bc83d (get more info please goto
http://git.kernel.org/cgit/linux/kernel/git/stable/linux-stable.git/commit/?id=6580807da14c423f0d0a708108e6df6ebc8bc83d).
When the function "vfork" do syscall, the single step flag TIF_SINGLESTEP
will copy to child process.
Then GDB detach it, child process and parent process will be hanged.
So I make a patch that do a single step before detach. Then TIF_SINGLESTEP
of child process in old Linux kernel will be cleared before detach.
Child process in new Linux kernel will not be affected by this single step.
2014-06-08 Hui Zhu <hui@codesourcery.com>
* common/linux-ptrace.c (linux_disable_event_reporting): New
function.
* common/linux-ptrace.h (linux_disable_event_reporting): New
declaration.
* linux-nat.c (linux_child_follow_fork): Do a single step before
detach.
There are legitimate reasons to allow a signed value in a cmpli insn
field, for example to test for a "stw r1,lock@sdarel(r13)" instruction
in user code, a kernel might use
subis r3,r3,STW_R1_0R13@ha # subtract off high part
cmplwi r3,lock@sdarel # is low part accessing lock?
Since the lock@sdarel may take a range of -32768 to 32767,
the allowed range of cmpli immediate must be at least [-32768,65535].
bfd/
* elf32-ppc.c (ppc_elf_relocate_section): Treat field of cmpli
insn as a bitfield; Use complain_overflow_bitfield.
* elf64-ppc.c (ppc64_elf_relocate_section): Likewise.
opcodes/
* ppc-opc.c (UISIGNOPT): Define and use with cmpli.
gas/
* config/tc-ppc.c (ppc_insert_operand): Handle PPC_OPERAND_SIGNOPT
on unsigned fields. Comment on PPC_OPERAND_SIGNOPT signed fields
in 64-bit mode.
gold/
* powerpc.cc (relocate): Treat field of cmpli insn as a bitfield.
When not stripping those sections, there was a bug where gold was incorrectly
adjusting section-relative offsets by the offset of the input section within
the output section. That adjustment was both unnecessary and wrong, causing
gold to miss a number of debug entries that should have been added to
.gdb_index. (With stripping, the adjustment was always 0, so the bug in
dwarf_reader.cc would have been hidden by the change to layout.cc.)
gold/
* dwarf_reader.h (Dwarf_pubnames_table): Remove output_section_offset_.
* dwarf_reader.cc (Dwarf_pubnames_table::read_section): Likewise.
(Dwarf_pubnames_table::read_header): Likewise.
* layout.cc (gdb_fast_lookup_sections): Add .debug_gnu_pubnames and
.debug_gnu_pubtypes.
I noticed that sss-bp-on-user-bp-2.exp is racy on native GNU/Linux. I
sometimes still see an int3 in the disassembly:
(gdb) PASS: gdb.base/sss-bp-on-user-bp-2.exp: set debug target 0
disassemble test
Dump of assembler code for function test:
0x0000000000400590 <+0>: push %rbp
0x0000000000400591 <+1>: mov %rsp,%rbp
0x0000000000400594 <+4>: nop
=> 0x0000000000400595 <+5>: int3
0x0000000000400596 <+6>: pop %rbp
0x0000000000400597 <+7>: retq
End of assembler dump.
(gdb) FAIL: gdb.base/sss-bp-on-user-bp-2.exp: before/after disassembly matches
Enabling infrun/target debug logs, we can see the problem.
Simplified, that's:
(gdb) PASS: gdb.base/sss-bp-on-user-bp-2.exp: define stepi_del_break
stepi_del_break
infrun: clear_proceed_status_thread (process 25311)
infrun: resume (step=1, signal=GDB_SIGNAL_0), trap_expected=0, current thread [process 25311] at 0x400594
LLR: PTRACE_SINGLESTEP process 25311, 0 (resume event thread)
target_resume (25311, step, 0)
native:target_xfer_partial (3, (null), 0x0, 0x32dce4c, 0x400595, 1) = 0, 0
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
(gdb) linux_nat_wait: [process -1], [TARGET_WNOHANG]
0x400595 is the address of the breakpoint, and "= 0" is
TARGET_XFER_EOF. That's default_memory_remove_breakpoint trying to
remove the breakpoint, but failing.
The problem is that we had just resumed the target and the native
GNU/Linux target can't read memory off of a running thread. Most of
the time, we get "lucky", because we manage to read memory before the
kernel actually schedules the target to run.
So just give up and skip the test on any target that uses hardware
stepping, not just remote targets.
gdb/testsuite/
2014-06-06 Pedro Alves <palves@redhat.com>
* gdb.base/sss-bp-on-user-bp-2.exp: Look for target_resume(step)
in target debug output instead of looking at RSP packets,
disabling the test on any target that uses hardware stepping.
Update comments.
I see the following fail in some thumb multi-lib in arm-none-linux-gnueabi,
info function jit_function^M
All functions matching regular expression "jit_function":^M
^M
Non-debugging symbols:^M
0x00000790 __real_jit_function_XXXX^M
0x0000079c __jit_function_XXXX_from_arm^M
0x0000079c jit_function_0000^M
0x00000790 __real_jit_function_XXXX^M
0x0000079c __jit_function_XXXX_from_arm^M
0x0000079c jit_function_0001^M
(gdb) FAIL: gdb.base/jit.exp: one_jit_test-2: info function jit_function
the test expects to see only jit_function_0000 and jit_function_0001
one_jit_test 2 "${hex} jit_function_0000\[\r\n\]+${hex} jit_function_0001"
Symbols with the prefix "__real_" or suffix "_from_arm" is generated
by gcc/ld for arm/thumb interworking.
This patch is to restrict the pattern from "jit_function" to
"^jit_function", the output becomes expected.
gdb/testsuite:
2014-06-06 Yao Qi <yao@codesourcery.com>
* gdb.base/jit.exp (one_jit_test): Restrict the pattern
from "jit_function" to "^jit_function".
I see two fails in async.exp on arm-none-eabi target:
nexti&^M
(gdb) 0x000001ba 14 x = 5; x = 5;^M
completed.^M
FAIL: gdb.base/async.exp: nexti&
finish&^M
Run till exit from #0 0x000001ba in foo () at /scratch/yqi/arm-none-eabi-lite/src/gdb-trunk/gdb/testsuite/gdb.base/async.c:14^M
(gdb) 0x000001e6 in main () at /scratch/yqi/arm-none-eabi-lite/src/gdb-trunk/gdb/testsuite/gdb.base/async.c:32^M
32 y = foo ();^M
Value returned is $1 = 8^M
completed.^M
FAIL: gdb.base/async.exp: finish&
The corresponding test is "test_background "nexti&" "" ".*y = 3.*"",
and it assumes that GDB "nexti" into the next source line. It is wrong
on arm. After "nexti", it still stops at the same source line, and it
fails.
When gdb does "finish", if the PC is in the middle of a source line,
the PC address is printed too. See stack.c:print_frame,
if (opts.addressprint)
if (!sal.symtab
|| frame_show_address (frame, sal)
|| print_what == LOC_AND_ADDRESS)
{
annotate_frame_address ();
if (pc_p)
ui_out_field_core_addr (uiout, "addr", gdbarch, pc);
else
ui_out_field_string (uiout, "addr", "<unavailable>");
annotate_frame_address_end ();
ui_out_text (uiout, " in ");
}
frame_show_address checks whether PC is the middle of a source line.
Since after "nexti", the inferior stops at the middle of a source line,
when we do "finish" the PC address is displayed.
In sum, GDB works well, but test case needs update. This patch is to
add a statement at the same line to make sure "nexti" doesn't go to
the new line, match the next instruction address in the output and
match the hex address the output of "finish".
gdb/testsuite:
2014-06-06 Yao Qi <yao@codesourcery.com>
* gdb.base/async.c (foo): Add one statement.
* gdb.base/async.exp: Get the next instruction address and
match the output of "nexti" by instruction address. Match
the hex address in the output of "finish".
The six signals SIGINT, SIGILL, SIGABRT, SIGFPE, SIGSEGV and SIGTERM
are ANSI-standard and thus guaranteed to be available. This patch
removes all preprocessor conditionals relating to these symbols.
gdb/
2014-06-06 Gary Benson <gbenson@redhat.com>
* common/signals.c: Remove preprocessor conditionals for
always-defined signals SIGINT, SIGILL, SIGABRT, SIGFPE,
SIGSEGV and SIGTERM.
* proc-events.c: Likewise.
gdb/testsuite/
2014-06-06 Gary Benson <gbenson@redhat.com>
* gdb.base/call-signals.c: Remove preprocessor conditionals
for always-defined signals SIGINT, SIGILL, SIGABRT, SIGFPE,
SIGSEGV and SIGTERM.
* gdb.base/sigall.c: Likewise.
* gdb.base/unwindonsignal.c: Likewise.
* gdb.reverse/sigall-reverse.c: Likewise.
hbreak-unmapped.exp assumes that memory at address 0 is unmapped or
unreadable, but on bare metal or uclinux targets, memory at address
0 is readable. For example, on arm-none-eabi, the vector table base
address is 0x0.
hbreak *0^M
Hardware assisted breakpoint 3 at 0x0: file
/scratch/yqi/arm-none-eabi-lite/obj/cs3-2014.11-999999-arm-none-eabi-i686-pc-linux-gnu/generated/arm-vector.S,
line 25.^M
(gdb) FAIL: gdb.base/hbreak-unmapped.exp: hbreak *0
info break^M
Num Type Disp Enb Address What^M
3 hw breakpoint keep y 0x00000000
/scratch/yqi/arm-none-eabi-lite/obj/cs3-2014.11-999999-arm-none-eabi-i686-pc-linux-gnu/generated/arm-vector.S:25^M
(gdb) FAIL: gdb.base/hbreak-unmapped.exp: info break shows hw breakpoint
delete $bpnum
This patch is to check whether address 0 is readable via command 'x 0'.
If it is, skip the test.
gdb/testsuite:
2014-06-06 Yao Qi <yao@codesourcery.com>
* gdb.base/hbreak-unmapped.exp: Read memory at address 0. If
readable, skip the test.
Target sections added by the add-symbol-file-from-memory command are not
removed when the process exits. In fact, they are not removed, at all.
This causes GDB to crash in gdb.base/break-interp.exp.
Change the owner of those target sections to the object file generated in
symbol_file_add_from_memory and generalize the free_objfile observer in
symfile.c to remove target sections of any freed object file.
The code in gdb.threads/staticthreads.exp about checking the value of
tlsvar in main thread is racy, because when child thread hits
breakpoint, the main thread may not go into pthread_join yet, and
may not be unwind to main.
This patch is to move the line setting breakpoint on after sem_wait,
so that the child thread will hit breakpoint after main thread calls
sem_post. IOW, when child thread hits breakpoint, the main thread is
in either sem_post or pthread_join. "up 10" can unwind main thread to
main.
gdb/testsuite:
2014-06-06 Yao Qi <yao@codesourcery.com>
* gdb.threads/staticthreads.c (thread_function): Move the line
setting breakpoint on forward.
* gdb.threads/staticthreads.exp: Update comments.
