old-cross-binutils/gdb/testsuite/gdb.base/signals.exp

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# Copyright 1997, 1998, 1999, 2003 Free Software Foundation, Inc.
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
# Please email any bugs, comments, and/or additions to this file to:
# bug-gdb@prep.ai.mit.edu
if [target_info exists gdb,nosignals] {
verbose "Skipping signals.exp because of nosignals."
continue
}
if $tracelevel then {
strace $tracelevel
}
set prms_id 0
set bug_id 0
set testfile signals
set srcfile ${testfile}.c
set binfile ${objdir}/${subdir}/${testfile}
if { [gdb_compile "${srcdir}/${subdir}/${srcfile}" "${binfile}" executable {debug}] != "" } {
gdb_suppress_entire_file "Testcase compile failed, so all tests in this file will automatically fail."
}
# Create and source the file that provides information about the compiler
# used to compile the test case.
if [get_compiler_info ${binfile}] {
return -1;
}
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if {$hp_cc_compiler} {
set void 0
} else {
set void void
}
proc signal_tests_1 {} {
global gdb_prompt
if [runto_main] then {
gdb_test "next" "signal \\(SIGUSR1.*" \
"next over signal (SIGALRM, handler)"
gdb_test "next" "alarm \\(.*" \
"next over signal (SIGUSR1, handler)"
gdb_test "next" "\\+\\+count; /\\* first \\*/" \
"next over alarm (1)"
# An alarm has been signaled, give the signal time to get delivered.
sleep 2
# i386 BSD currently fails the next test with a SIGTRAP.
setup_xfail "i*86-*-bsd*"
# But Dynix has a DECR_PC_AFTER_BREAK of zero, so the failure
# is shadowed by hitting the through_sigtramp_breakpoint.
clear_xfail "i*86-sequent-bsd*"
# Univel SVR4 i386 continues instead of stepping.
setup_xfail "i*86-univel-sysv4*"
# lynx fails with "next" acting like "continue"
setup_xfail "*-*-*lynx*"
# linux (aout versions) also fails with "next" acting like "continue"
# this is probably more dependant on the kernel version than on the
# object file format or utils. (sigh)
setup_xfail "i*86-pc-linuxaout-gnu" "i*86-pc-linuxoldld-gnu"
send_gdb "next\n"
gdb_expect {
-re "alarm .*$gdb_prompt $" { pass "next to 2nd alarm (1)" }
-re "Program received signal SIGTRAP.*first.*$gdb_prompt $" {
# This can happen on machines that have a trace flag
# in their PS register.
# The trace flag in the PS register will be set due to
# the `next' command.
# Before calling the signal handler, the PS register
# is pushed along with the context on the user stack.
# When the signal handler has finished, it reenters the
# the kernel via a sigreturn syscall, which restores the
# PS register along with the context.
# If the kernel erroneously does not clear the trace flag
# in the pushed context, gdb will receive a SIGTRAP from
# the set trace flag in the restored context after the
# signal handler has finished.
# I do not yet understand why the SIGTRAP does not occur
# after stepping the instruction at the restored PC on
# i386 BSDI 1.0 systems.
# Note that the vax under Ultrix also exhibits
# this behaviour (it is uncovered by the `continue from
# a break in a signal handler' test below).
# With this test the failure is shadowed by hitting the
# through_sigtramp_breakpoint upon return from the signal
# handler.
# SVR4 and Linux based i*86 systems exhibit this behaviour
# as well (it is uncovered by the `continue from a break
# in a signal handler' test below).
# As these systems use procfs, where we tell the kernel not
# to tell gdb about `pass' signals, and the trace flag is
# cleared by the kernel before entering the sigtramp
# routine, GDB will not notice the execution of the signal
# handler.
# Upon return from the signal handler, GDB will receive
# a SIGTRAP from the set trace flag in the restored context.
# The SIGTRAP marks the end of a (albeit long winded)
# single step for GDB, causing this test to pass.
fail "next to 2nd alarm (1) (probably kernel bug)"
gdb_test "next" "alarm.*" "next to 2nd alarm (1)"
}
-re "Program exited with code.*$gdb_prompt $" {
# This is apparently a bug in the UnixWare kernel (but
# has not been investigated beyond the
# resume/target_wait level, and has not been reported
# to Univel). If it steps when a signal is pending,
# it does a continue instead. I don't know whether
# there is a workaround.
# Perhaps this problem exists on other SVR4 systems;
# but (a) we have no reason to think so, and (b) if we
# put a wrong xfail here, we never get an XPASS to let
# us know that it was incorrect (and then if such a
# configuration regresses we have no way of knowing).
# Solaris is not a relevant data point either way
# because it lacks single stepping.
# fnf: I don't agree with the above philosophy. We
# can never be sure that any particular XFAIL is
# specified 100% correctly in that no systems with
# the bug are missed and all systems without the bug
# are excluded. If we include an XFAIL that isn't
# appropriate for a particular system, then when that
# system gets tested it will XPASS, and someone should
# investigate and fix the setup_xfail as appropriate,
# or more preferably, the actual bug. Each such case
# adds more data to narrowing down the scope of the
# problem and ultimately fixing it.
setup_xfail "i*86-*-sysv4*"
fail "'next' behaved as 'continue (known SVR4 bug)'"
return 0
}
-re ".*$gdb_prompt $" { fail "next to 2nd alarm (1)" }
timeout { fail "next to 2nd alarm (1); (timeout)" }
eof { fail "next to 2nd alarm (1); (eof)" }
}
gdb_test "break handler" "Breakpoint \[0-9\]+ .*"
gdb_test "next" "\\+\\+count; /\\* second \\*/" \
"next to 2nd ++count in signals_tests_1"
# An alarm has been signaled, give the signal time to get delivered.
sleep 2
set bash_bug 0
send_gdb "next\n"
gdb_expect {
-re "Breakpoint.*handler.*$gdb_prompt $" {
pass "next to handler in signals_tests_1"
}
-re "Program received signal SIGEMT.*$gdb_prompt $" {
# Bash versions before 1.13.5 cause this behaviour
# by blocking SIGTRAP.
fail "next to handler in signals_tests_1 (known problem with bash versions before 1.13.5)"
set bash_bug 1
gdb_test "signal 0" "Breakpoint.*handler.*"
}
-re ".*$gdb_prompt $" { fail "next to handler in signals_tests_1" }
timeout { fail "next to handler in signals_tests_1 (timeout)" }
eof { fail "next to handler in signals_tests_1 (eof)" }
}
# This doesn't test that main is frame #2, just that main is frame
# #2, #3, or higher. At some point this should be fixed (but
# it quite possibly would introduce new FAILs on some systems).
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setup_xfail "i*86-*-bsdi2.0"
gdb_test "backtrace 10" "#0.*handler.*#1.*signal handler.*#2.* main .*" \
"backtrace in signals_tests_1"
gdb_test "break func1" "Breakpoint \[0-9\]+ .*"
gdb_test "break func2" "Breakpoint \[0-9\]+ .*"
# Vax Ultrix and i386 BSD currently fail the next test with
# a SIGTRAP, but with different symptoms.
setup_xfail "vax-*-ultrix*"
setup_xfail "i*86-*-bsd*"
setup_xfail "i*86-*-freebsd*"
setup_xfail "i*86-pc-linux-gnu*"
setup_xfail "i*86-*-solaris2*"
send_gdb "continue\n"
gdb_expect {
-re "Breakpoint.*func1.*$gdb_prompt $" { pass "continue to func1" }
-re "Program received signal SIGTRAP.*second.*$gdb_prompt $" {
# See explanation for `next to 2nd alarm (1)' fail above.
# We did step into the signal handler, hit a breakpoint
# in the handler and continued from the breakpoint.
# The set trace flag in the restored context is causing
# the SIGTRAP, without stepping an instruction.
fail "continue to func1 (probably kernel bug)"
gdb_test "continue" "Breakpoint.*func1.*" \
"extra continue to func1"
}
-re "Program received signal SIGTRAP.*func1 ..;.*$gdb_prompt $" {
# On the vax under Ultrix the set trace flag in the restored
# context is causing the SIGTRAP, but after stepping one
# instruction, as expected.
fail "continue to func1 (probably kernel bug)"
gdb_test "continue" "Breakpoint.*func1.*" \
"extra continue to func1"
}
-re ".*$gdb_prompt $" { fail "continue to func1" }
default { fail "continue to func1" }
}
setup_xfail "*-*-irix*"
send_gdb "signal SIGUSR1\n"
gdb_expect {
-re "Breakpoint.*handler.*$gdb_prompt $" { pass "signal SIGUSR1" }
-re "Program received signal SIGUSR1.*$gdb_prompt $" {
# This is what irix4 and irix5 do.
# It would appear to be a kernel bug.
fail "signal SIGUSR1"
gdb_test "continue" "Breakpoint.*handler.*" "pass it SIGUSR1"
}
-re ".*$gdb_prompt $" { fail "signal SIGUSR1" }
default { fail "signal SIGUSR1" }
}
# Will tend to wrongly require an extra continue.
# The problem here is that the breakpoint at func1 will be
# inserted, and when the system finishes with the signal
# handler it will try to execute there. For GDB to try to
# remember that it was going to step over a breakpoint when a
# signal happened, distinguish this case from the case where
# func1 is called from the signal handler, etc., seems
# exceedingly difficult. So don't expect this to get fixed
# anytime soon.
setup_xfail "*-*-*"
send_gdb "continue\n"
gdb_expect {
-re "Breakpoint.*func2.*$gdb_prompt $" { pass "continue to func2" }
-re "Breakpoint.*func1.*$gdb_prompt $" {
fail "continue to func2"
gdb_test "continue" "Breakpoint.*func2.*" \
"extra continue to func2"
}
-re ".*$gdb_prompt $" { fail "continue to func2" }
default { fail "continue to func2" }
}
sleep 2
# GDB yanks out the breakpoints to step over the breakpoint it
# stopped at, which means the breakpoint at handler is yanked.
# But if SOFTWARE_SINGLE_STEP_P, we won't get another chance to
# reinsert them (at least not with procfs, where we tell the kernel
# not to tell gdb about `pass' signals). So the fix would appear to
# be to just yank that one breakpoint when we step over it.
setup_xfail "sparc*-*-*"
setup_xfail "rs6000-*-*"
setup_xfail "powerpc-*-*"
# A faulty bash will not step the inferior into sigtramp on sun3.
if {$bash_bug} then {
setup_xfail "m68*-*-sunos4*"
}
setup_xfail "i*86-pc-linux-gnu*"
setup_xfail "i*86-*-solaris2*"
gdb_test "continue" "Breakpoint.*handler.*" "continue to handler"
# If the SOFTWARE_SINGLE_STEP_P failure happened, we have already
# exited.
# If we succeeded a continue will return from the handler to func2.
# GDB now has `forgotten' that it intended to step over the
# breakpoint at func2 and will stop at func2.
setup_xfail "*-*-*"
# The sun3 with a faulty bash will also be `forgetful' but it
# already got the spurious stop at func2 and this continue will work.
if {$bash_bug} then {
clear_xfail "m68*-*-sunos4*"
}
gdb_test "continue" "Program exited with code 010\\." \
"continue to exit in signals_tests_1 "
}
}
# On a few losing systems, ptrace (PT_CONTINUE) or ptrace (PT_STEP)
# causes pending signals to be cleared, which causes these tests to
# get nowhere fast. This is totally losing behavior (perhaps there
# are cases in which is it useful but the user needs more control,
# which they mostly have in GDB), but some people apparently think it
# is a feature. It is documented in the ptrace manpage on Motorola
# Delta Series sysV68 R3V7.1 and on HPUX 9.0. Even the non-HPUX PA
# OSes (BSD and OSF/1) seem to have figured they had to copy this
# braindamage.
if {[ istarget "m68*-motorola-*" ] || [ istarget "hppa*-*-bsd*" ] ||
[ istarget "hppa*-*-osf*" ]} then {
setup_xfail "*-*-*"
fail "ptrace loses on signals on this target"
return 0
}
# lynx2.2.2 doesn't lose signals, instead it screws up the stack pointer
# in some of these tests leading to massive problems. I've
# reported this to lynx, hopefully it'll be fixed in lynx2.3.
# Severe braindamage.
if [ istarget "*-*-*lynx*" ] then {
setup_xfail "*-*-*"
fail "kernel scroggs stack pointer in signal tests on this target"
return 0
}
gdb_exit
gdb_start
# This will need to be updated as the exact list of signals changes,
# but I want to test that TARGET_SIGNAL_0, TARGET_SIGNAL_DEFAULT, and
# TARGET_SIGNAL_UNKNOWN are skipped.
proc test_handle_all_print {} {
global timeout
# Increase timeout and expect input buffer for large output from gdb.
# Allow blank or TAB as whitespace characters.
set oldtimeout $timeout
set timeout [expr "$timeout + 360"]
verbose "Timeout is now $timeout seconds" 2
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if { ![istarget "*-*-linux*"]
&& ( [istarget "*-*-gnu*"]
|| [istarget "*-*-mach*"] ) } {
gdb_test "handle all print" "Signal\[ \]+Stop\[ \]+Print\[ \]+Pass to program\[ \]+Description\r\nSIGHUP\[ \]+Yes\[ \]+Yes\[ \]+Yes\[ \]+Hangup.*SIG63\[ \]+Yes\[ \]+Yes\[ \]+Yes\[ \]+Real-time event 63.*EXC_BREAKPOINT\[ \]+Yes\[ \]+Yes\[ \]+Yes\[ \]+Breakpoint"
} else {
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gdb_test "handle all print" "Signal\[ \]+Stop\[ \]+Print\[ \]+Pass to program\[ \]+Description\r\nSIGHUP\[ \]+Yes\[ \]+Yes\[ \]+Yes\[ \]+Hangup.*SIG63\[ \]+Yes\[ \]+Yes\[ \]+Yes\[ \]+Real-time event 63.*"
}
set timeout $oldtimeout
verbose "Timeout restored to $timeout seconds" 2
}
test_handle_all_print
gdb_exit
gdb_start
gdb_reinitialize_dir $srcdir/$subdir
gdb_load $binfile
signal_tests_1
# Force a resync, so we're looking at the right prompt. On SCO we
# were getting out of sync (I don't understand why).
send_gdb "p 1+1\n"
gdb_expect {
-re "= 2.*$gdb_prompt $" {}
-re ".*$gdb_prompt $" { perror "sync trouble in signals.exp" }
default { perror "sync trouble in signals.exp" }
}
if [runto_main] then {
# Since count is a static variable outside main, runto_main
# is no guarantee that count will be 0 at this point.
gdb_test "set variable count = 0" ""
gdb_test "break handler if 0" "Breakpoint \[0-9\]+ .*"
gdb_test "set \$handler_breakpoint_number = \$bpnum" ""
# Get to the point where a signal is waiting to be delivered
gdb_test "next" "signal \\(SIGUSR1.*" "next to signal in signals.exp"
gdb_test "next" "alarm \\(.*" "next to alarm #1 in signals.exp"
gdb_test "next" "\\+\\+count; /\\* first \\*/" \
"next to ++count #1 in signals.exp"
# Give the signal time to get delivered
sleep 2
# Now call a function. When GDB tries to run the stack dummy,
# it will hit the breakpoint at handler. Provided it doesn't
# lose its cool, this is not a problem, it just has to note
# that the breakpoint condition is false and keep going.
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gdb_test "p func1 ()" "^p func1 \\(\\)\r\n.\[0-9\]* = $void" \
"p func1 () #1 in signals.exp"
# Make sure the count got incremented.
# Haven't investigated this xfail
setup_xfail "rs6000-*-*"
setup_xfail "powerpc-*-*"
gdb_test "p count" "= 2" "p count #1 in signals.exp"
if { [istarget "rs6000-*-*"] || [istarget "powerpc-*-*"] } { return 0 }
gdb_test "condition \$handler_breakpoint_number" "now unconditional\\."
gdb_test "next" "alarm \\(.*" "next to alarm #2 in signals.exp"
gdb_test "next" "\\+\\+count; /\\* second \\*/" \
"next to ++count #2 in signals.exp"
sleep 2
# This time we stop when GDB tries to run the stack dummy.
# So it is OK that we do not print the return value from the function.
gdb_test "p func1 ()" \
"Breakpoint \[0-9\]*, handler.*
The program being debugged stopped while in a function called from GDB.*" \
"p func1 () #2 in signals.exp"
# But we should be able to backtrace...
# On alpha-*-osf2.0 this test works when run manually but sometime fails when
# run under dejagnu, making it very hard to debug the problem. Weird...
gdb_test "bt 10" "#0.*handler.*#1.*signal handler.*#2.* main .*" "bt in signals.exp"
# ...and continue...
gdb_test "continue" "Continuing\\." "continue in signals.exp"
# ...and then count should have been incremented
gdb_test "p count" "= 5" "p count #2 in signals.exp"
# Verify that "info signals" produces reasonable output.
#
send_gdb "info signals\n"
gdb_expect {
-re "SIGHUP.*SIGINT.*SIGQUIT.*SIGILL.*SIGTRAP.*SIGABRT.*SIGEMT.*SIGFPE.*SIGKILL.*SIGBUS.*SIGSEGV.*SIGSYS.*SIGPIPE.*SIGALRM.*SIGTERM.*SIGURG.*SIGSTOP.*SIGTSTP.*SIGCONT.*SIGCHLD.*SIGTTIN.*SIGTTOU.*SIGIO.*SIGXCPU.*SIGXFSZ.*SIGVTALRM.*SIGPROF.*SIGWINCH.*SIGLOST.*SIGUSR1.*SIGUSR2.*SIGPWR.*SIGPOLL.*SIGWIND.*SIGPHONE.*SIGWAITING.*SIGLWP.*SIGDANGER.*SIGGRANT.*SIGRETRACT.*SIGMSG.*SIGSOUND.*SIGSAK.*SIGPRIO.*SIG33.*SIG34.*SIG35.*SIG36.*SIG37.*SIG38.*SIG39.*SIG40.*SIG41.*SIG42.*SIG43.*SIG44.*SIG45.*SIG46.*SIG47.*SIG48.*SIG49.*SIG50.*SIG51.*SIG52.*SIG53.*SIG54.*SIG55.*SIG56.*SIG57.*SIG58.*SIG59.*SIG60.*SIG61.*SIG62.*SIG63.*Use the \"handle\" command to change these tables.*$gdb_prompt $"\
{pass "info signals"}
-re "$gdb_prompt $"\
{fail "info signals"}
timeout {fail "(timeout) info signals"}
}
# Verify that "info signal" correctly handles an argument, be it a
# symbolic signal name, or an integer ID.
#
send_gdb "info signal SIGTRAP\n"
gdb_expect {
-re ".*SIGTRAP\[ \t\]*Yes\[ \t\]*Yes\[ \t\]*No\[ \t\]*Trace/breakpoint trap.*$gdb_prompt $"\
{pass "info signal SIGTRAP"}
-re "$gdb_prompt $"\
{fail "info signal SIGTRAP"}
timeout {fail "(timeout) info signal SIGTRAP"}
}
send_gdb "info signal 5\n"
gdb_expect {
-re ".*SIGTRAP\[ \t\]*Yes\[ \t\]*Yes\[ \t\]*No\[ \t\]*Trace/breakpoint trap.*$gdb_prompt $"\
{pass "info signal 5"}
-re "$gdb_prompt $"\
{fail "info signal 5"}
timeout {fail "(timeout) info signal 5"}
}
# Verify that "handle" with illegal arguments is gracefully, um, handled.
#
send_gdb "handle\n"
gdb_expect {
-re "Argument required .signal to handle.*$gdb_prompt $"\
{pass "handle without arguments"}
-re "$gdb_prompt $"\
{fail "handle without arguments"}
timeout {fail "(timeout) handle without arguments"}
}
send_gdb "handle SIGFOO\n"
gdb_expect {
-re "Unrecognized or ambiguous flag word: \"SIGFOO\".*$gdb_prompt $"\
{pass "handle with bogus SIG"}
-re "$gdb_prompt $"\
{fail "handle with bogus SIG"}
timeout {fail "(timeout) handle with bogus SIG"}
}
send_gdb "handle SIGHUP frump\n"
gdb_expect {
-re "Unrecognized or ambiguous flag word: \"frump\".*$gdb_prompt $"\
{pass "handle SIG with bogus action"}
-re "$gdb_prompt $"\
{fail "handle SIG with bogus action"}
timeout {fail "(timeout) handle SIG with bogus action"}
}
# Verify that "handle" can take multiple actions per SIG, and that in
# the case of conflicting actions, that the rightmost action "wins".
#
send_gdb "handle SIGHUP print noprint\n"
gdb_expect {
-re ".*SIGHUP\[ \t\]*No\[ \t\]*No\[ \t\]*Yes\[ \t\]*Hangup.*$gdb_prompt $"\
{pass "handle SIG with multiple conflicting actions"}
-re "$gdb_prompt $"\
{fail "handle SIG with multiple conflicting actions"}
timeout {fail "(timeout) handle SIG with multiple conflicting actions"}
}
# Exercise all the various actions. (We don't care what the outcome
# is, this is just to ensure that they all can be parsed.)
#
send_gdb "handle SIGHUP print noprint stop nostop ignore noignore pass nopass\n"
gdb_expect {
-re ".*Signal.*$gdb_prompt $"\
{pass "handle SIG parses all legal actions"}
-re "$gdb_prompt $"\
{fail "handle SIG parses all legal actions"}
timeout {fail "(timeout) handle SIG parses all legal actions"}
}
# Verify that we can "handle" multiple signals at once, interspersed
# with actions.
#
send_gdb "handle SIG63 print SIGILL\n"
gdb_expect {
-re ".*SIGILL\[ \t\]*Yes\[ \t\]*Yes\[ \t\]*Yes\[ \t\]*Illegal instruction.*SIG63\[ \t\]*Yes\[ \t\]*Yes\[ \t\]*Yes\[ \t\]*Real-time event 63.*$gdb_prompt $"\
{pass "handle multiple SIGs"}
-re "$gdb_prompt $"\
{fail "handle multiple SIGs"}
timeout {fail "(timeout) handle multiple SIGs"}
}
# Verify that "handle" can take a numeric argument for the signal ID,
# rather than a symbolic name. (This may not be portable; works for
# HP-UX.)
#
# Also note that this testpoint overrides SIGTRAP, which on HP-UX at
# least, is used to implement single-steps and breakpoints. Don't
# expect to run the inferior after this!
#
send_gdb "handle 5 nopass\n"
gdb_expect {
-re ".*SIGTRAP is used by the debugger.*Are you sure you want to change it.*y or n.*"\
{send_gdb "y\n"
gdb_expect {
-re ".*SIGTRAP\[ \t\]*Yes\[ \t\]*Yes\[ \t\]*No\[ \t\]*Trace/breakpoint trap.*$gdb_prompt $"\
{pass "override SIGTRAP (#5)"}
-re "$gdb_prompt $"\
{fail "override SIGTRAP (#5)"}
timeout {fail "(timeout) override SIGTRAP (#5)"}
}
}
-re "$gdb_prompt $"\
{fail "override SIGTRAP (#5)"}
timeout {fail "(timeout) override SIGTRAP (#5)"}
}
# GDB doesn't seem to allow numeric signal IDs larger than 15. Verify
# that restriction. ??rehrauer: Not sure if this is a feature or a
# bug, actually. Why is the range 1-15?
#
send_gdb "handle 58\n"
gdb_expect {
-re "Only signals 1-15 are valid as numeric signals.*Use \"info signals\" for a list of symbolic signals.*$gdb_prompt $"\
{pass "invalid signal number rejected"}
-re "$gdb_prompt $"\
{fail "invalid signal number rejected"}
timeout {fail "(timeout) invalid signal number rejected"}
}
# Verify that we can accept a signal ID range (number-number).
# ??rehrauer: This feature isn't documented on the quick-reference
# card.
#
send_gdb "handle 13-15\n"
gdb_expect {
-re ".*SIGPIPE.*SIGALRM.*SIGTERM.*$gdb_prompt $"\
{pass "handle multiple SIGs via integer range"}
-re "$gdb_prompt $"\
{fail "handle multiple SIGs via integer range"}
timeout {fail "(timeout) handle multiple SIGs via integer range"}
}
# Bizarrely enough, GDB also allows you to reverse the range
# stat, stop IDs. E.g., "3-1" and "1-3" mean the same thing.
# Probably this isn't documented, but the code anticipates it,
# so we'd best test it...
#
send_gdb "handle 15-13\n"
gdb_expect {
-re ".*SIGPIPE.*SIGALRM.*SIGTERM.*$gdb_prompt $"\
{pass "handle multiple SIGs via integer range"}
-re "$gdb_prompt $"\
{fail "handle multiple SIGs via integer range"}
timeout {fail "(timeout) handle multiple SIGs via integer range"}
}
# SIGINT is used by the debugger as well. Verify that we can change
# our minds about changing it.
#
send_gdb "handle SIGINT nopass\n"
gdb_expect {
-re ".*SIGINT is used by the debugger.*Are you sure you want to change it.*y or n.*"\
{send_gdb "n\n"
# ??rehrauer: When you answer "n", the header for the signal info is
# printed, but not the actual handler settings. Probably a bug.
#
gdb_expect {
-re "Not confirmed, unchanged.*Signal.*$gdb_prompt $"\
{pass "override SIGINT"}
-re "$gdb_prompt $"\
{fail "override SIGINT"}
timeout {fail "(timeout) override SIGINT"}
}
}
-re "$gdb_prompt $"\
{fail "override SIGINT"}
timeout {fail "(timeout) override SIGINT"}
}
# Verify that GDB responds gracefully to the "signal" command with
# a missing argument.
#
send_gdb "signal\n"
gdb_expect {
-re "Argument required .signal number..*$gdb_prompt $"\
{pass "signal without arguments disallowed"}
-re "$gdb_prompt $"\
{fail "signal without arguments disallowed"}
timeout {fail "(timeout) signal without arguments disallowed"}
}
# Verify that we can successfully send a signal other than 0 to
# the inferior. (This probably causes the inferior to run away.
# Be prepared to rerun to main for further testing.)
#
send_gdb "signal 5\n"
gdb_expect {
-re "Continuing with signal SIGTRAP.*$gdb_prompt $"\
{pass "sent signal 5"}
-re "$gdb_prompt $"\
{fail "sent signal 5"}
timeout {fail "(timeout) sent signal 5"}
}
}
return 0