# Copyright 1997-2021 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 . # This program tests the 'catch syscall' functionality. # # It was written by Sergio Durigan Junior # on September/2008. standard_testfile if { [prepare_for_testing "failed to prepare" $testfile ${testfile}.c] } { return -1 } # Check target supports catch syscall or not. clean_restart $binfile if ![runto_main] then { fail "can't run to 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 "exit_group" 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 "". set thistest "catch syscall appears in 'info breakpoints'" gdb_test "info breakpoints" ".*catchpoint.*keep y.*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" gdb_test "continue" "Catchpoint $decimal \\(returned from syscall ${pattern}\\).*" $thistest } # 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. 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" check_continue "execve" # 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] then { test_catch_syscall_without_args } # Testing the 'catch syscall' command with arguments. # This test should only catch the specified syscall. if [runto_main] then { test_catch_syscall_with_args } # Testing the 'catch syscall' command with many arguments. # This test should catch $all_syscalls. if [runto_main] then { test_catch_syscall_with_many_args } # Testing the 'catch syscall' command with WRONG arguments. # This test should not trigger any catchpoints. if [runto_main] then { test_catch_syscall_with_wrong_args } # Testing the 'catch syscall' command during a restart of # the inferior. if [runto_main] then { 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] then { test_catch_syscall_skipping_return } # Testing the 'catch syscall' command starting mid-vfork. if [runto_main] then { test_catch_syscall_mid_vfork } # Testing that 'catch syscall' entry/return tracks across execve. if [runto_main] then { test_catch_syscall_execve } # Testing if the 'catch syscall' command works when switching to # different architectures on-the-fly (PR gdb/10737). if [runto_main] then { test_catch_syscall_multi_arch } # Testing the 'catch' syscall command for a group of syscalls. if [runto_main] then { 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 {} { global decimal binfile if { [istarget "i*86-*-*"] || [istarget "x86_64-*-*"] } { set arch1 "i386" set arch2 "i386:x86-64" set syscall1_name "exit" set syscall2_name "write" set syscall_number 1 } elseif { [istarget "powerpc-*-linux*"] \ || [istarget "powerpc64-*-linux*"] } { set arch1 "powerpc:common" set arch2 "powerpc:common64" set syscall1_name "openat" set syscall2_name "unlinkat" set syscall_number 286 } elseif { [istarget "sparc-*-linux*"] \ || [istarget "sparc64-*-linux*"] } { set arch1 "sparc" set arch2 "sparc:v9" set syscall1_name "setresuid32" set syscall2_name "setresuid" set syscall_number 108 } elseif { [istarget "mips*-linux*"] } { # MIPS does not use the same numbers for syscalls on 32 and 64 # bits. verbose "Not testing MIPS for multi-arch syscall support" return } elseif { [istarget "arm*-linux*"] } { # catch syscall supports only 32-bit ARM for now. verbose "Not testing ARM for multi-arch syscall support" return } elseif { [istarget "aarch64*-linux*"] } { set arch1 "aarch64" set arch2 "arm" set syscall1_name "reboot" set syscall2_name "_newselect" set syscall_number 142 } elseif { [istarget "s390*-linux*"] } { set arch1 "s390:31-bit" set arch2 "s390:64-bit" set syscall1_name "_newselect" set syscall2_name "select" set syscall_number 142 } with_test_prefix "multiple targets" { # 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 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" 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] then { 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] then { 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] then { 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 last_syscall_number unknown_syscall_number all_syscalls foreach syscall $all_syscalls { lappend all_syscalls_numbers [get_integer_valueof "${syscall}_syscall" -1] } set last_syscall_number [get_integer_valueof "exit_group_syscall" -1] set unknown_syscall_number [get_integer_valueof "unknown_syscall" -1] } # Set up the vector all_syscalls. proc setup_all_syscalls {} { global all_syscalls global gdb_prompt # They are ordered according to the file, so do not change this. lappend all_syscalls "close" lappend all_syscalls "chroot" # SYS_pipe doesn't exist on aarch64 kernel. set test "check SYS_pipe" gdb_test_multiple "p pipe_syscall" $test { -re " = .*$gdb_prompt $" { pass $test lappend all_syscalls "pipe" } -re "No symbol .*$gdb_prompt $" { pass $test # SYS_pipe isn't defined, use SYS_pipe2 instead. lappend all_syscalls "pipe2" } } lappend all_syscalls "write" lappend all_syscalls "read" } setup_all_syscalls # Fill all the syscalls numbers before starting anything. fill_all_syscalls_numbers # Execute the tests, using XML support gdb_exit if { ![gdb_skip_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