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Currently on software single-step Linux targets we get: (gdb) PASS: gdb.threads/stepi-random-signal.exp: before stepi: get hexadecimal valueof "$pc" stepi infrun: clear_proceed_status_thread (Thread 0x7ffff7fca700 (LWP 7073)) infrun: clear_proceed_status_thread (Thread 0x7ffff7fcb740 (LWP 7069)) infrun: proceed (addr=0xffffffffffffffff, signal=GDB_SIGNAL_DEFAULT, step=1) infrun: resume (step=1, signal=GDB_SIGNAL_0), trap_expected=0, current thread [Thread 0x7ffff7fcb740 (LWP 7069)] at 0x400700 infrun: wait_for_inferior () infrun: target_wait (-1, status) = infrun: 7069 [Thread 0x7ffff7fcb740 (LWP 7069)], infrun: status->kind = stopped, signal = GDB_SIGNAL_TRAP infrun: infwait_normal_state infrun: TARGET_WAITKIND_STOPPED infrun: stop_pc = 0x400704 infrun: software single step trap for Thread 0x7ffff7fcb740 (LWP 7069) infrun: stepi/nexti infrun: stop_stepping 44 while (counter != 0) (gdb) FAIL: gdb.threads/stepi-random-signal.exp: stepi (no random signal) Vs hardware-step targets: (gdb) PASS: gdb.threads/stepi-random-signal.exp: before stepi: get hexadecimal valueof "$pc" stepi infrun: clear_proceed_status_thread (Thread 0x7ffff7fca700 (LWP 9565)) infrun: clear_proceed_status_thread (Thread 0x7ffff7fcb740 (LWP 9561)) infrun: proceed (addr=0xffffffffffffffff, signal=GDB_SIGNAL_DEFAULT, step=1) infrun: resume (step=1, signal=GDB_SIGNAL_0), trap_expected=0, current thread [Thread 0x7ffff7fcb740 (LWP 9561)] at 0x400700 infrun: wait_for_inferior () infrun: target_wait (-1, status) = infrun: 9561 [Thread 0x7ffff7fcb740 (LWP 9561)], infrun: status->kind = stopped, signal = GDB_SIGNAL_CHLD infrun: infwait_normal_state infrun: TARGET_WAITKIND_STOPPED infrun: stop_pc = 0x400700 infrun: random signal (GDB_SIGNAL_CHLD) infrun: random signal, keep going infrun: resume (step=1, signal=GDB_SIGNAL_CHLD), trap_expected=0, current thread [Thread 0x7ffff7fcb740 (LWP 9561)] at 0x400700 infrun: prepare_to_wait infrun: target_wait (-1, status) = infrun: 9561 [Thread 0x7ffff7fcb740 (LWP 9561)], infrun: status->kind = stopped, signal = GDB_SIGNAL_TRAP infrun: infwait_normal_state infrun: TARGET_WAITKIND_STOPPED infrun: stop_pc = 0x400704 infrun: stepi/nexti infrun: stop_stepping 44 while (counter != 0) (gdb) PASS: gdb.threads/stepi-random-signal.exp: stepi The test turns on infrun debug, does a stepi while a SIGCHLD is pending, and checks whether the "random signal" paths in infrun.c are taken. On the software single-step variant above, those paths were not taken. This is a test bug. The Linux backend short-circuits reporting signals that are set to pass/nostop/noprint. But _only_ if the thread is _not_ single-stepping. So on hardware-step targets, even though the signal is set to pass/nostop/noprint by default, the thread is indeed told to single-step, and so the core sees the signal. On the other hand, on software single-step architectures, the backend never actually gets a single-step request (steps are emulated by setting a breakpoint at the next pc, and then the target told to continue, not step). So the short-circuiting code triggers and the core doesn't see the signal. The fix is to make the test be sure the target doesn't bypass reporting the signal to the core. Tested on x86_64 Fedora 17, both with and without a series that implements software single-step for x86_64. gdb/testsuite/ 2014-02-07 Pedro Alves <palves@redhat.com> * gdb.threads/stepi-random-signal.exp: Set SIGCHLD to print. |
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| bfd | ||
| binutils | ||
| config | ||
| cpu | ||
| elfcpp | ||
| etc | ||
| gas | ||
| gdb | ||
| gold | ||
| gprof | ||
| include | ||
| intl | ||
| ld | ||
| libdecnumber | ||
| libiberty | ||
| opcodes | ||
| readline | ||
| sim | ||
| texinfo | ||
| .cvsignore | ||
| .gitignore | ||
| ChangeLog | ||
| compile | ||
| config-ml.in | ||
| config.guess | ||
| config.rpath | ||
| config.sub | ||
| configure | ||
| configure.ac | ||
| COPYING | ||
| COPYING3 | ||
| COPYING3.LIB | ||
| COPYING.LIB | ||
| COPYING.LIBGLOSS | ||
| COPYING.NEWLIB | ||
| depcomp | ||
| djunpack.bat | ||
| install-sh | ||
| libtool.m4 | ||
| lt~obsolete.m4 | ||
| ltgcc.m4 | ||
| ltmain.sh | ||
| ltoptions.m4 | ||
| ltsugar.m4 | ||
| ltversion.m4 | ||
| MAINTAINERS | ||
| Makefile.def | ||
| Makefile.in | ||
| Makefile.tpl | ||
| makefile.vms | ||
| missing | ||
| mkdep | ||
| mkinstalldirs | ||
| move-if-change | ||
| README | ||
| README-maintainer-mode | ||
| setup.com | ||
| src-release | ||
| symlink-tree | ||
| ylwrap | ||
README for GNU development tools This directory contains various GNU compilers, assemblers, linkers, debuggers, etc., plus their support routines, definitions, and documentation. If you are receiving this as part of a GDB release, see the file gdb/README. If with a binutils release, see binutils/README; if with a libg++ release, see libg++/README, etc. That'll give you info about this package -- supported targets, how to use it, how to report bugs, etc. It is now possible to automatically configure and build a variety of tools with one command. To build all of the tools contained herein, run the ``configure'' script here, e.g.: ./configure make To install them (by default in /usr/local/bin, /usr/local/lib, etc), then do: make install (If the configure script can't determine your type of computer, give it the name as an argument, for instance ``./configure sun4''. You can use the script ``config.sub'' to test whether a name is recognized; if it is, config.sub translates it to a triplet specifying CPU, vendor, and OS.) If you have more than one compiler on your system, it is often best to explicitly set CC in the environment before running configure, and to also set CC when running make. For example (assuming sh/bash/ksh): CC=gcc ./configure make A similar example using csh: setenv CC gcc ./configure make Much of the code and documentation enclosed is copyright by the Free Software Foundation, Inc. See the file COPYING or COPYING.LIB in the various directories, for a description of the GNU General Public License terms under which you can copy the files. REPORTING BUGS: Again, see gdb/README, binutils/README, etc., for info on where and how to report problems.