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binutils-gdb/gdb/testsuite/gdb.base/catch-syscall.exp
Andrew Burgess 3d38b301bb gdb: remove print_sys_errmsg 
This started with me running into this comment in symfile.c:

  /* FIXME, should use print_sys_errmsg but it's not filtered.  */
  gdb_printf (_("`%ps' has disappeared; keeping its symbols.\n"),
              styled_string (file_name_style.style (), filename));

In this particular case I think I disagree with the comment; I think
the output should be a warning rather than just a message printed to
gdb_stdout, I think when the executable, or some other objfile that is
currently being debugged, disappears from disk, this is likely an
unexpected situation, and worth warning the user about.

So, in theory, I could just call print_sys_errmsg and remove the
comment, but that would mean loosing the filename styling in the
output... so in the end I remove the comment and updated the code to
call warning.

But that got me looking at print_sys_errmsg and how it's used.

Currently the function takes a string and an errno, and prints, to
stderr, the string followed by the result of calling strerror on the
errno.

In some places the string passed to print_sys_errmsg is just a
filename, and this is used when something goes wrong.  In these cases,
I think calling warning rather than gdb_printf to gdb_stderr, would be
better, and in fact, in a couple of places we manually print a
"warning" prefix, and then call print_sys_errmsg.  And so, for these
users I have added a new function warning_filename_and_errno, which
takes a filename, which is printed with styling, and an errno, which
is passed through strerror and the resulting string printed.  This new
function calls warning to print its output.  I then updated some of
the print_sys_errmsg users to use this new function.

Some other users of print_sys_errmsg are also emitting what is clearly
a warning, however, the string being passed in is more than just a
filename, so the new warning_filename_and_errno function can't be
used, it would style the whole string.  For these users I have
switched to calling warning directly, this allows me to style the
warning message correctly.

Finally, in inflow.c there is one last call to print_sys_errmsg, in
this case I just inlined the definition of print_sys_errmsg.  This is
a really weird case, as after printing this message GDB just does a
hard exit.  This is pretty old code, dating back to the initial GDB
import, I guess it should be updated to call error() maybe, but I'm
reluctant to make this change as part of this commit, just in case
there's some reason why we can't throw an error at this point.

With that done there are now no users of print_sys_errmsg, and so the
old function can be removed.

While I was doing all of the above I added some additional filename
styling in soure.c, this is in an else block where the if contained
the print_sys_errmsg call, so these felt related.

And finally, while I was updating the uses of print_sys_errmsg in
procfs.c, I noticed that we used a static errmsg buffer to format some
error strings.  As the above changes got rid of one of the users of
errmsg I also removed the other two users, and the static buffer.

There were a couple of tests that depended on the existing output
message format that needed updating.  In one case we gained an extra
'warning: ' prefix, and in the other 'Warning: ' becomes 'warning: ',
I think in both cases the new output is an improvement.

Approved-By: Tom Tromey <tom@tromey.com>
2023-10-05 12:21:46 +01:00

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# Copyright 1997-2023 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 3 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, see <http://www.gnu.org/licenses/>.
# This program tests the 'catch syscall' functionality.
#
# It was written by Sergio Durigan Junior <sergiodj@linux.vnet.ibm.com>
# on September/2008.
standard_testfile
if { [prepare_for_testing "failed to prepare" $testfile ${testfile}.c] } {
return -1
}
# Check target supports catch syscall or not.
if {![runto_main]} {
return
}
set test "catch syscall"
gdb_test_multiple $test $test {
-re "The feature \'catch syscall\' is not supported.*\r\n$gdb_prompt $" {
unsupported "catch syscall isn't supported"
return -1
}
-re ".*$gdb_prompt $" {
pass $test
}
}
set test "check catch syscall"
gdb_test_multiple "continue" $test {
-re ".*Your system does not support this type\r\nof catchpoint.*$gdb_prompt $" {
unsupported "catch syscall isn't supported"
return -1
}
-re ".*Catchpoint.*$gdb_prompt $" {
pass $test
}
}
# Test-case for PR27313. Verify that negative syscall numbers are refused.
gdb_test "catch syscall -1" "Unknown syscall number '-1'\\."
# All (but the last) syscalls from the example code. It is filled in
# proc setup_all_syscalls.
set all_syscalls { }
set all_syscalls_numbers { }
# The last syscall (exit()) does not return, so
# we cannot expect the catchpoint to be triggered
# twice. It is a special case.
set last_syscall { }
set last_syscall_number { }
set vfork_syscalls "(vfork|clone2?)"
set unknown_syscall_number { }
# Internal procedure used to check if, after issuing a 'catch syscall'
# command (without arguments), the 'info breakpoints' command displays
# that '"any syscall"' is to be caught.
proc check_info_bp_any_syscall {} {
# Verifying that the catchpoint appears in the 'info breakpoints'
# command, but with "<any syscall>".
set thistest "catch syscall appears in 'info breakpoints'"
gdb_test "info breakpoints" ".*catchpoint.*keep y.*syscall \"<any syscall>\".*" $thistest
}
# Internal procedure used to check if, after issuing a 'catch syscall X'
# command (with arguments), the 'info breakpoints' command displays
# that the syscall 'X' is to be caught.
proc check_info_bp_specific_syscall { syscall } {
set thistest "syscall(s) $syscall appears in 'info breakpoints'"
gdb_test "info breakpoints" ".*catchpoint.*keep y.*syscall(\[(\]s\[)\])? (.)?${syscall}(.)?.*" $thistest
}
# Internal procedure used to check if, after issuing a 'catch syscall X'
# command (with many arguments), the 'info breakpoints' command displays
# that the syscalls 'X' are to be caught.
proc check_info_bp_many_syscalls { syscalls } {
set filter_str ""
foreach name $syscalls {
set filter_str "${filter_str}${name}, "
}
set filter_str [ string trimright $filter_str ", " ]
set thistest "syscalls $filter_str appears in 'info breakpoints'"
gdb_test "info breakpoints" ".*catchpoint.*keep y.*syscalls (.)?${filter_str}(.)?.*" $thistest
}
# This procedure checks if there was a call to a syscall. The optional
# pattern can match syscalls that vary in implementation, like vfork.
proc check_call_to_syscall { syscall { pattern "" } } {
global decimal
if { $pattern eq "" } {
set pattern "${syscall}"
}
set thistest "program has called $syscall"
gdb_test "continue" "Catchpoint $decimal \\(call to syscall .?${pattern}.?\\).*" $thistest
}
# This procedure checks if the syscall returned. The optional pattern
# can match syscalls that vary in implementation, like vfork.
proc check_return_from_syscall { syscall { pattern "" } } {
global decimal
if { $pattern eq "" } {
set pattern "${syscall}"
}
set thistest "syscall $syscall has returned"
if { $pattern eq "execve" } {
gdb_test_multiple "continue" $thistest {
-re -wrap "Catchpoint $decimal \\(returned from syscall ${pattern}\\).*" {
pass $thistest
return 1
}
-re -wrap ".*Breakpoint $decimal, main .*" {
# On Powerpc the kernel does not report the returned from
# syscall as expected by the test. GDB bugzilla 28623.
if { [istarget "powerpc64*-linux*"] } {
xfail $thistest
} else {
fail $thistest
}
return 0
}
}
} else {
gdb_test "continue" "Catchpoint $decimal \\(returned from syscall ${pattern}\\).*" $thistest
return 1
}
}
# Internal procedure that performs two 'continue' commands and checks if
# a syscall call AND return occur. The optional pattern can match
# syscalls that vary in implementation, like vfork.
proc check_continue { syscall { pattern "" } } {
# Testing if the 'continue' stops at the
# specified syscall_name. If it does, then it should
# first print that the infeior has called the syscall,
# and after print that the syscall has returned.
# Testing if the inferior has called the syscall.
check_call_to_syscall $syscall $pattern
# And now, that the syscall has returned.
return [check_return_from_syscall $syscall $pattern]
}
# Inserts a syscall catchpoint with an argument.
proc insert_catch_syscall_with_arg { syscall } {
global decimal
# Trying to set the catchpoint
set thistest "catch syscall with arguments ($syscall)"
gdb_test "catch syscall $syscall" "Catchpoint $decimal \\(syscall \'?${syscall}\'?( \[${decimal}\])?\\)" $thistest
check_info_bp_specific_syscall $syscall
}
# Inserts a syscall catchpoint with many arguments.
proc insert_catch_syscall_with_many_args { syscalls numbers } {
global decimal
set catch [ join $syscalls " " ]
set filter_str ""
foreach name $syscalls number $numbers {
set filter_str "${filter_str}'${name}' \\\[${number}\\\] "
}
set filter_str [ string trimright $filter_str " " ]
# Trying to set the catchpoint
set thistest "catch syscall with arguments ($filter_str)"
gdb_test "catch syscall $catch" "Catchpoint $decimal \\(syscalls ${filter_str}\\).*" $thistest
check_info_bp_many_syscalls $syscalls
}
proc check_for_program_end {} {
# Deleting the catchpoints
delete_breakpoints
gdb_continue_to_end "" continue 1
}
proc test_catch_syscall_without_args {} {
global all_syscalls last_syscall vfork_syscalls unknown_syscall_number decimal
with_test_prefix "without arguments" {
# Trying to set the syscall.
gdb_test "catch syscall" "Catchpoint $decimal \\(any syscall\\)"
check_info_bp_any_syscall
# We have to check every syscall.
foreach name $all_syscalls {
check_continue $name
}
check_continue "vfork" $vfork_syscalls
with_test_prefix "ENOSYS" {
check_continue $unknown_syscall_number
}
# At last but not least, we check if the inferior has called
# the last (exit) syscall.
check_call_to_syscall $last_syscall
# Now let's see if the inferior correctly finishes.
check_for_program_end
}
}
proc test_catch_syscall_with_args {} {
with_test_prefix "with arguments" {
set syscall_name "close"
insert_catch_syscall_with_arg $syscall_name
# Can we continue until we catch the syscall?
check_continue $syscall_name
# Now let's see if the inferior correctly finishes.
check_for_program_end
}
}
proc test_catch_syscall_with_many_args {} {
with_test_prefix "with many arguments" {
global all_syscalls all_syscalls_numbers
insert_catch_syscall_with_many_args $all_syscalls $all_syscalls_numbers
# Can we continue until we catch the syscalls?
foreach name $all_syscalls {
check_continue $name
}
# Now let's see if the inferior correctly finishes.
check_for_program_end
}
}
proc test_catch_syscall_with_wrong_args {} {
with_test_prefix "wrong args" {
# mlock is not called from the source
set syscall_name "mlock"
insert_catch_syscall_with_arg $syscall_name
# Now, we must verify if the program stops with a continue.
# If it doesn't, everything is right (since we don't have
# a syscall named "mlock" in it). Otherwise, this is a failure.
set thistest "catch syscall with unused syscall ($syscall_name)"
gdb_continue_to_end $thistest continue 1
}
}
proc test_catch_syscall_restarting_inferior {} {
with_test_prefix "restarting inferior" {
set syscall_name "chroot"
with_test_prefix "entry" {
insert_catch_syscall_with_arg $syscall_name
# Let's first reach the entry of the syscall.
check_call_to_syscall $syscall_name
}
with_test_prefix "entry/return" {
# Now, restart the program.
rerun_to_main
# And check for entry/return.
check_continue $syscall_name
# Can we finish?
check_for_program_end
}
}
}
proc test_catch_syscall_skipping_return {} {
with_test_prefix "skipping return" {
with_test_prefix "entry" {
set syscall_name "write"
insert_catch_syscall_with_arg $syscall_name
# Let's first reach the entry of the syscall.
check_call_to_syscall $syscall_name
# Now purposely skip the syscall return.
delete_breakpoints
gdb_test "stepi" ".*" "step over syscall return"
}
# With a naive entry/return toggle, gdb will still think
# the target is due for a syscall return.
with_test_prefix "entry/return" {
set syscall_name "read"
insert_catch_syscall_with_arg $syscall_name
# Check for entry first, then return.
check_continue $syscall_name
# Can we finish?
check_for_program_end
}
}
}
proc test_catch_syscall_mid_vfork {} {
global gdb_prompt decimal vfork_syscalls
with_test_prefix "mid-vfork" {
# Verify that the system supports "catch vfork".
gdb_test "catch vfork" "Catchpoint $decimal \\(vfork\\)" "insert first vfork catchpoint"
gdb_test_multiple "continue" "continue to first vfork catchpoint" {
-re ".*Your system does not support this type\r\nof catchpoint.*$gdb_prompt $" {
unsupported "continue to first vfork catchpoint"
return
}
-re ".*Catchpoint $decimal \\(vforked process $decimal\\).*$gdb_prompt $" {
pass "continue to first vfork catchpoint"
}
}
# Check that we now reach vfork return only.
# (The actual syscall used varies by architecture.)
gdb_test "catch syscall" "Catchpoint $decimal \\(any syscall\\)"
check_return_from_syscall "vfork" $vfork_syscalls
# Can we finish?
check_for_program_end
}
}
proc test_catch_syscall_execve {} {
global gdb_prompt decimal
with_test_prefix "execve" {
# Tell the test program we want an execve.
gdb_test_no_output "set do_execve = 1"
# Check for entry/return across the execve, making sure that the
# syscall_state isn't lost when turning into a new process.
insert_catch_syscall_with_arg "execve"
if [check_continue "execve"] {
# The check_continue test generates an XFAIL on Powerpc. In
# that case, gdb is already at main so don't do the continue.
# Continue to main so extended-remote can read files as needed.
# (Otherwise that "Reading" output confuses gdb_continue_to_end.)
gdb_continue "main"
}
# Now can we finish?
check_for_program_end
}
}
proc test_catch_syscall_fail_nodatadir {} {
with_test_prefix "fail no datadir" {
# Sanitizing.
delete_breakpoints
# Make sure GDB doesn't load the syscalls xml from the system
# data directory.
gdb_test "set data-directory /the/path/to/nowhere" \
"warning: /the/path/to/nowhere: .*"
# Testing to see if we receive a warning when calling "catch
# syscall" without XML support (without datadir).
set thistest "catch syscall displays a warning when there is no XML support"
gdb_test "catch syscall" \
"warning: Could not load the syscall XML file.*warning: GDB will not be able to display syscall names nor to verify if.*any provided syscall numbers are valid.*Catchpoint .*(syscall).*" \
$thistest
# Since the catchpoint was set, we must check if it's present
# in "info breakpoints" output.
check_info_bp_any_syscall
# Sanitizing.
delete_breakpoints
}
}
proc test_catch_syscall_group {} {
global decimal
set sysnum "\\\[${decimal}\\\]"
gdb_test "catch syscall g:process" \
"Catchpoint $decimal \\(syscalls (\'(clone|fork|execve|exit)\' $sysnum)+.*" \
"set catchpoint on a group of syscalls"
gdb_test "catch syscall group:process read" \
"Catchpoint $decimal \\(syscalls (\'(clone|fork|execve|exit)\' $sysnum)+.*read.*\\)" \
"set catchpoints on a group of syscalls and on a single syscall"
gdb_test "catch syscall group:" \
"Unknown syscall group ''\." \
"set catchpoints on an invalid group"
gdb_test "catch syscall g:junk" \
"Unknown syscall group 'junk'\." \
"set catchpoints on an unknown group."
gdb_test "complete catch syscall g:proc" \
"catch syscall g:process" \
"complete catch syscall group with 'g:' prefix"
gdb_test "complete catch syscall group:proc" \
"catch syscall group:process" \
"complete catch syscall group with 'group:' prefix"
gdb_test_sequence "complete catch syscall g" \
"complete catch syscall group suggests 'group:' prefix" {
"group:descriptor" "group:file" "group:ipc" "group:memory"
"group:network" "group:process" "group:signal"
}
}
proc do_syscall_tests {} {
# NOTE: We don't have to point gdb at the correct data-directory.
# For the build tree that is handled by INTERNAL_GDBFLAGS.
# Verify that the 'catch syscall' help is available
gdb_test "help catch syscall" "Catch system calls.*"
# Try to set a catchpoint to a nonsense syscall
set thistest "catch syscall to a nonsense syscall is prohibited"
gdb_test "catch syscall nonsense_syscall" "Unknown syscall name .*" $thistest
# Regression test for syscall completer bug.
gdb_test "complete catch syscall close chroo" \
"catch syscall close chroot" \
"complete catch syscall with multiple words"
# Testing the 'catch syscall' command without arguments.
# This test should catch any syscalls.
if {[runto_main]} { test_catch_syscall_without_args }
# Testing the 'catch syscall' command with arguments.
# This test should only catch the specified syscall.
if {[runto_main]} { test_catch_syscall_with_args }
# Testing the 'catch syscall' command with many arguments.
# This test should catch $all_syscalls.
if {[runto_main]} { test_catch_syscall_with_many_args }
# Testing the 'catch syscall' command with WRONG arguments.
# This test should not trigger any catchpoints.
if {[runto_main]} { test_catch_syscall_with_wrong_args }
# Testing the 'catch syscall' command during a restart of
# the inferior.
if {[runto_main]} { test_catch_syscall_restarting_inferior }
# Testing the 'catch syscall' command toggling off past a
# syscall return, then resuming entry/return as normal.
if {[runto_main]} { test_catch_syscall_skipping_return }
# Testing the 'catch syscall' command starting mid-vfork.
if {[runto_main]} { test_catch_syscall_mid_vfork }
# Testing that 'catch syscall' entry/return tracks across execve.
if {[runto_main]} { test_catch_syscall_execve }
# Testing if the 'catch syscall' command works when switching to
# different architectures on-the-fly (PR gdb/10737).
if {[istarget *-linux*] && [runto_main]} { test_catch_syscall_multi_arch }
# Testing the 'catch' syscall command for a group of syscalls.
if {[runto_main]} { test_catch_syscall_group }
}
proc test_catch_syscall_without_args_noxml {} {
with_test_prefix "without args noxml" {
# We will need the syscall names even not using it because we
# need to know know many syscalls are in the example file.
global decimal all_syscalls last_syscall_number unknown_syscall_number all_syscalls_numbers
delete_breakpoints
gdb_test "catch syscall" "Catchpoint .*(syscall).*"
# Now, we should be able to set a catchpoint, and GDB shall
# not display the warning anymore.
foreach name $all_syscalls number $all_syscalls_numbers {
with_test_prefix "$name" {
check_continue $number
}
}
check_continue "vfork" $decimal
with_test_prefix "ENOSYS" {
check_continue $unknown_syscall_number
}
# At last but not least, we check if the inferior has called
# the last (exit) syscall.
check_call_to_syscall $last_syscall_number
delete_breakpoints
}
}
proc test_catch_syscall_with_args_noxml {} {
with_test_prefix "with args noxml" {
global all_syscalls_numbers
delete_breakpoints
# Inserting all syscalls numbers to be caught
foreach syscall_number $all_syscalls_numbers {
insert_catch_syscall_with_arg $syscall_number
}
# Checking that all syscalls are caught.
foreach syscall_number $all_syscalls_numbers {
check_continue $syscall_number
}
delete_breakpoints
}
}
proc test_catch_syscall_with_wrong_args_noxml {} {
with_test_prefix "with wrong args noxml" {
delete_breakpoints
# Even without XML support, GDB should not accept unknown
# syscall names for the catchpoint.
gdb_test "catch syscall nonsense_syscall" \
"Unknown syscall name .nonsense_syscall.*"
delete_breakpoints
}
}
proc test_catch_syscall_multi_arch_1 {
arch1 arch2 syscall1_name syscall2_name syscall_number
} {
global decimal
with_test_prefix "multiple targets: $arch1 vs $arch2" {
# We are not interested in loading any binary here, and in
# some systems (PowerPC, for example), if we load a binary
# there is no way to set other architecture.
gdb_exit
gdb_start
set supported 1
foreach arch [list $arch1 $arch2] {
gdb_test_multiple "set architecture $arch" "" {
-re -wrap "Undefined item: \"$arch\"\\." {
set supported 0
unsupported $gdb_test_name
}
-re -wrap "The target architecture is set to \"$arch\"\\." {
}
}
}
if { $supported == 0 } {
return
}
gdb_test "set architecture $arch1" \
"The target architecture is set to \"$arch1\"\\."
gdb_test "catch syscall $syscall_number" \
"Catchpoint $decimal \\(syscall .${syscall1_name}. \\\[${syscall_number}\\\]\\)" \
"insert catch syscall on syscall $syscall_number -- $syscall1_name on $arch1"
gdb_test "set architecture $arch2" \
"The target architecture is set to \"$arch2\"\\."
gdb_test "catch syscall $syscall_number" \
"Catchpoint $decimal \\(syscall .${syscall2_name}. \\\[${syscall_number}\\\]\\)" \
"insert catch syscall on syscall $syscall_number -- $syscall2_name on $arch2"
}
}
proc test_catch_syscall_multi_arch {} {
global binfile
set arch1 "i386"
set arch2 "i386:x86-64"
set syscall1_name "exit"
set syscall2_name "write"
set syscall_number 1
test_catch_syscall_multi_arch_1 $arch1 $arch2 $syscall1_name \
$syscall2_name $syscall_number
set arch1 "powerpc:common"
set arch2 "powerpc:common64"
set syscall1_name "fstatat64"
set syscall2_name "newfstatat"
set syscall_number 291
test_catch_syscall_multi_arch_1 $arch1 $arch2 $syscall1_name \
$syscall2_name $syscall_number
set arch1 "sparc"
set arch2 "sparc:v9"
set syscall1_name "setresuid32"
set syscall2_name "setresuid"
set syscall_number 108
test_catch_syscall_multi_arch_1 $arch1 $arch2 $syscall1_name \
$syscall2_name $syscall_number
set arch1 "aarch64"
set arch2 "arm"
set syscall1_name "reboot"
set syscall2_name "_newselect"
set syscall_number 142
test_catch_syscall_multi_arch_1 $arch1 $arch2 $syscall1_name \
$syscall2_name $syscall_number
set arch1 "s390:31-bit"
set arch2 "s390:64-bit"
set syscall1_name "_newselect"
set syscall2_name "select"
set syscall_number 142
test_catch_syscall_multi_arch_1 $arch1 $arch2 $syscall1_name \
$syscall2_name $syscall_number
clean_restart $binfile
}
proc do_syscall_tests_without_xml {} {
# Make sure GDB doesn't load the syscalls xml from the system data
# directory.
gdb_test "set data-directory /the/path/to/nowhere" \
"warning: /the/path/to/nowhere: .*"
# Let's test if we can catch syscalls without XML support.
# We should succeed, but GDB is not supposed to print syscall names.
if {[runto_main]} { test_catch_syscall_without_args_noxml }
# The only valid argument "catch syscall" should accept is the
# syscall number, and not the name (since it can't translate a
# name to a number).
if {[runto_main]} { test_catch_syscall_with_args_noxml }
# Now, we'll try to provide a syscall name (valid or not) to the command,
# and expect it to fail.
if {[runto_main]} { test_catch_syscall_with_wrong_args_noxml }
}
# This procedure fills the vector "all_syscalls_numbers" with the proper
# numbers for the used syscalls according to the architecture.
proc fill_all_syscalls_numbers {} {
global all_syscalls_numbers unknown_syscall_number all_syscalls
foreach syscall $all_syscalls {
lappend all_syscalls_numbers [get_integer_valueof "${syscall}_syscall" -1]
}
set unknown_syscall_number [get_integer_valueof "unknown_syscall" -1]
}
# Set up the vector all_syscalls. Returns 1 upon success, 0 upon failure.
proc setup_all_syscalls {} {
global all_syscalls
global gdb_prompt
global decimal
global last_syscall last_syscall_number
# They are ordered according to the file, so do not change this.
lappend all_syscalls "close"
lappend all_syscalls "chroot"
if { ![runto_main] } {
return 0
}
# SYS_pipe doesn't exist on aarch64 kernel.
set test "check SYS_pipe"
set have_SYS_pipe 0
set SYS_pipe -1
gdb_test_multiple "p pipe_syscall" $test {
-re -wrap " = ($decimal)" {
pass $test
set have_SYS_pipe 1
set SYS_pipe $expect_out(1,string)
}
-re -wrap "No symbol .*" {
pass $test
}
}
set test "check SYS_pipe2"
set have_SYS_pipe2 0
set SYS_pipe2 -1
gdb_test_multiple "p pipe2_syscall" $test {
-re -wrap " = ($decimal)" {
pass $test
set have_SYS_pipe2 1
set SYS_pipe2 $expect_out(1,string)
}
-re -wrap "No symbol .*" {
pass $test
}
}
if { $have_SYS_pipe == 0 && $have_SYS_pipe2 == 0 } {
return 0
}
with_test_prefix "determine pipe syscall" {
set line [gdb_get_line_number "pipe (fd)"]
gdb_test "break $line"
gdb_continue_to_breakpoint "before pipe call"
if { $have_SYS_pipe } {
gdb_test "catch syscall $SYS_pipe"
}
if { $have_SYS_pipe2 } {
gdb_test "catch syscall $SYS_pipe2"
}
set ok 0
gdb_test_multiple "continue" "" {
-re -wrap "Catchpoint $decimal \\(call to syscall (pipe|$SYS_pipe)\\).*" {
lappend all_syscalls pipe
pass $gdb_test_name
set ok 1
}
-re -wrap "Catchpoint $decimal \\(call to syscall (pipe2|$SYS_pipe)\\).*" {
lappend all_syscalls pipe2
pass $gdb_test_name
set ok 1
}
-re -wrap "" {
fail $gdb_test_name
}
}
if { ! $ok } {
return 0
}
}
lappend all_syscalls "write"
lappend all_syscalls "read"
# Determine the right syscall to use for exit()
set test "check SYS_exit"
set have_SYS_exit 0
set SYS_exit -1
gdb_test_multiple "p exit_syscall" $test {
-re -wrap " = ($decimal)" {
pass $test
set have_SYS_exit 1
set SYS_exit $expect_out(1,string)
}
-re -wrap "No symbol .*" {
pass $test
}
}
set test "check SYS_exit_group"
set have_SYS_exit_group 0
set SYS_exit_group -1
gdb_test_multiple "p exit_group_syscall" $test {
-re -wrap " = ($decimal)" {
pass $test
set have_SYS_exit_group 1
set SYS_exit_group $expect_out(1,string)
}
-re -wrap "No symbol .*" {
pass $test
}
}
if { $have_SYS_exit == 0 && $have_SYS_exit_group == 0 } {
return 0
}
if { $have_SYS_exit } {
set last_syscall "exit"
set last_syscall_number $SYS_exit
} else {
set last_syscall "exit_group"
set last_syscall_number $SYS_exit_group
}
return 1
}
if { ![setup_all_syscalls] } {
return -1
}
# Fill all the syscalls numbers before starting anything.
fill_all_syscalls_numbers
# Execute the tests, using XML support
gdb_exit
if { [allow_xml_test] } {
clean_restart $binfile
do_syscall_tests
# Now, we have to see if GDB displays a warning when we
# don't set the data-directory but try to use catch syscall
# anyway. For that, we must restart GDB first.
clean_restart $binfile
test_catch_syscall_fail_nodatadir
}
# Restart gdb
clean_restart $binfile
# Execute the tests, without XML support. In this case, GDB will
# only display syscall numbers, and not syscall names.
do_syscall_tests_without_xml
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