# Copyright 2015-2024 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 . # Test thread ID parsing and display. load_lib gdb-python.exp standard_testfile # Multiple inferiors are needed, therefore both native and extended # gdbserver modes are supported. Only non-extended gdbserver is not # supported. require !use_gdb_stub if { [prepare_for_testing "failed to prepare" ${testfile} ${srcfile} {pthreads debug}] } { return -1 } if {![runto_main]} { return -1 } # Issue "thread apply TID_LIST p 1234" and expect EXP_TID_LIST (a list # of thread ids) to be displayed. proc thread_apply {tid_list exp_tid_list {message ""}} { global decimal set any "\[^\r\n\]*" set expected [string_to_regexp $exp_tid_list] set r "" foreach tid $expected { append r "\[\r\n\]+" append r "Thread $tid $any:\r\n" append r "\\$$decimal = 1234" } set cmd "thread apply $tid_list" if {$message != ""} { gdb_test "$cmd p 1234" $r $message return } gdb_test "$cmd p 1234" $r } # Issue "info threads TID_LIST" and expect EXP_TID_LIST (a list of # thread ids) to be displayed. proc info_threads {tid_list exp_tid_list {message ""}} { set any "\[^\r\n\]*" set expected [string_to_regexp $exp_tid_list] set r [join $expected " ${any}\r\n${any} "] set r "${any} $r ${any}" set cmd "info threads $tid_list" if {$message != ""} { gdb_test $cmd $r $message return } gdb_test $cmd $r } # Issue "info threads TID_LIST" and expect INFO_THR output. Then # issue "thread apply TID_LIST" and expect THR_APPLY output. If # THR_APPLY is omitted, INFO_THR is expected instead. proc thr_apply_info_thr {tid_list info_thr {thr_apply ""}} { if {$thr_apply == ""} { set thr_apply $info_thr } info_threads $tid_list $info_thr thread_apply $tid_list $thr_apply } # Issue both "thread apply TID_LIST" and "info threads TID_LIST" and # expect commands to error out with EXP_ERROR_APPLY and EXP_ERROR_INFO. # If EXP_ERROR_INFO is missing, default to EXP_ERROR_APPLY. proc thr_apply_info_thr_error {tid_list exp_error_apply {exp_error_info ""}} { if { "$exp_error_info" == "" } { set exp_error_info "$exp_error_apply" } gdb_test "info threads $tid_list" \ $exp_error_info gdb_test "thread apply $tid_list" \ $exp_error_apply } # Issue both "info threads TID_LIST" and "thread apply TID_LIST" and # expect the command to error out with "Invalid thread ID: $EXPECTED". # EXPECTED is a literal string, not a regexp. If EXPECTED is omitted, # TID_LIST is expected instead. proc thr_apply_info_thr_invalid {tid_list {expected ""}} { if {$expected == ""} { set expected $tid_list } set expected [string_to_regexp $expected] gdb_test "info threads $tid_list" \ "Invalid thread ID: $expected" gdb_test "thread apply $tid_list p 1234" \ "Invalid thread ID: $expected p 1234" \ "thread apply $tid_list" } # "info threads" while there's only inferior 1 should show # single-number thread IDs. with_test_prefix "single inferior" { info_threads "" "1" gdb_test "thread" "Current thread is 1 .*" gdb_test "print \$_inferior_thread_count" " = 1" } # "info threads" while there are multiple inferiors should show # qualified thread IDs. with_test_prefix "two inferiors" { # Add another inferior. gdb_test "add-inferior" "Added inferior 2.*" "add empty inferior 2" # Now that we've added another inferior, thread IDs now show the # inferior number. info_threads "" "1.1" gdb_test "thread" "Current thread is 1\.1 .*" gdb_test "inferior 2" "Switching to inferior 2 .*" "switch to inferior 2" gdb_test "file ${binfile}" ".*" "load file in inferior 2" gdb_test "print \$_inferior_thread_count" " = 0" \ "no threads before we start the second inferior" runto_main gdb_test "print \$_inferior_thread_count" " = 1" \ "no other threads started yet" # Now that we've added another inferior, thread IDs now show the # inferior number. info_threads "" "1.1 2.1" \ "info threads show inferior numbers" gdb_test "thread" "Current thread is 2\.1 .*" \ "switch to thread using extended thread ID" gdb_breakpoint "thread_function1" gdb_continue_to_breakpoint "once" gdb_test "print \$_inferior_thread_count" " = 2" \ "second thread started in inferior 2" gdb_test "inferior 1" "Switching to inferior 1 .*" gdb_test "print \$_inferior_thread_count" " = 1" \ "still only one thread in inferior 1" gdb_continue_to_breakpoint "twice" gdb_test "print \$_inferior_thread_count" " = 2" \ "second thread started in inferior 1" info_threads "" "1.1 1.2 2.1 2.2" \ "info threads again" # Same, but show the global ID. gdb_test "info threads -gid" \ [multi_line \ " 1\.1 +1 +.*" \ "\\* 1\.2 +4 +.* thread_function1 .* at .*$srcfile:.*" \ " 2\.1 +2 +.*" \ " 2\.2 +3 +.* thread_function1 .* at .*$srcfile:.*"] # Confirm the convenience variables show the expected numbers. gdb_test "p \$_thread == 2" " = 1" gdb_test "p \$_gthread == 4" " = 1" # Without an explicit inferior component, GDB defaults to the # current inferior. Make sure we don't refer to a thread by # global ID by mistake. gdb_test "thread 4" "Unknown thread 1.4\\." # Test thread ID list parsing. Test qualified and unqualified # IDs; qualified and unqualified ranges; invalid IDs and invalid # ranges. # First spawn a couple more threads so ranges includes more than # two threads. with_test_prefix "more threads" { gdb_breakpoint "thread_function2" gdb_test "inferior 2" "Switching to inferior 2 .*" gdb_continue_to_breakpoint "once" gdb_test "print \$_inferior_thread_count" " = 3" \ "third thread started in inferior 2" gdb_test "inferior 1" "Switching to inferior 1 .*" gdb_test "print \$_inferior_thread_count" " = 2" \ "still only two threads in inferior 1" gdb_continue_to_breakpoint "twice" gdb_test "print \$_inferior_thread_count" " = 3" \ "third thread started in inferior 1" } thr_apply_info_thr "1" \ "1.1" thr_apply_info_thr "1.1" \ "1.1" thr_apply_info_thr "1 2 3" \ "1.1 1.2 1.3" # Same, but with qualified thread IDs. thr_apply_info_thr "1.1 1.2 1.3 2.1 2.2" \ "1.1 1.2 1.3 2.1 2.2" # Test a thread number range. thr_apply_info_thr "1-3" \ "1.1 1.2 1.3" # Same, but using a qualified range. thr_apply_info_thr "1.1-3" \ "1.1 1.2 1.3" # A mix of qualified and unqualified thread IDs/ranges. thr_apply_info_thr "1.1 2-3" \ "1.1 1.2 1.3" thr_apply_info_thr "1 1.2-3" \ "1.1 1.2 1.3" # Likewise, but mix inferiors too. thr_apply_info_thr "2.1 2-3" \ "1.2 1.3 2.1" \ "2.1 1.2 1.3" # Multiple ranges with mixed explicit inferiors. thr_apply_info_thr "1.1-2 2.2-3" \ "1.1 1.2 2.2 2.3" # All threads. thread_apply "all" \ "2.3 2.2 2.1 1.3 1.2 1.1" thread_apply "all -ascending" \ "1.1 1.2 1.3 2.1 2.2 2.3" # Now test using GDB convenience variables. gdb_test "p \$inf = 1" " = 1" gdb_test "p \$thr_start = 2" " = 2" gdb_test "p \$thr_end = 3" " = 3" # Convenience variable for the inferior number, only. thr_apply_info_thr "\$inf.2" \ "1.2" thr_apply_info_thr "\$inf.2-3" \ "1.2 1.3" # Convenience variables for thread numbers as well. foreach prefix {"" "1." "\$inf."} { thr_apply_info_thr "${prefix}\$thr_start" \ "1.2" thr_apply_info_thr "${prefix}\$thr_start-\$thr_end" \ "1.2 1.3" thr_apply_info_thr "${prefix}2-\$thr_end" \ "1.2 1.3" thr_apply_info_thr "${prefix}\$thr_start-3" \ "1.2 1.3" # Undefined convenience variable. set prefix_re [string_to_regexp $prefix] thr_apply_info_thr_error "${prefix}\$conv123" \ [multi_line \ "Convenience variable must have integer value\." \ "Invalid thread ID: ${prefix_re}\\\$conv123"] } # Convenience variables pointing at an inexisting thread and/or # inferior. gdb_test "p \$inf = 30" " = 30" gdb_test "p \$thr = 20" " = 20" # Try both the convenience variable and the literal number. foreach thr {"\$thr" "20" "1.20" "\$inf.1" "30.1" } { set expected [string_to_regexp $thr] gdb_test "info threads $thr" "No threads match '${expected}'." # "info threads" works like a filter. If there's any other # valid thread in the list, there's no error. info_threads "$thr 1.1" "1.1" info_threads "1.1 $thr" "1.1" } gdb_test "thread apply \$thr p 1234" \ "warning: Unknown thread 1.20" \ "thread apply \$thr" gdb_test "thread apply \$inf.1 p 1234" \ "warning: Unknown thread 30.1" \ "thread apply \$inf.1" # Star ranges. thr_apply_info_thr "1.*" \ "1.1 1.2 1.3" thr_apply_info_thr "*" \ "1.1 1.2 1.3" thr_apply_info_thr "1.* 2.1" \ "1.1 1.2 1.3 2.1" thr_apply_info_thr "2.1 1.*" \ "1.1 1.2 1.3 2.1" \ "2.1 1.1 1.2 1.3" thr_apply_info_thr "1.* 2.*" \ "1.1 1.2 1.3 2.1 2.2 2.3" thr_apply_info_thr "2.* 1.*" \ "1.1 1.2 1.3 2.1 2.2 2.3" \ "2.1 2.2 2.3 1.1 1.2 1.3" # There's no inferior 3, but "info threads" treats the thread list # as a filter, so it's OK. "thread apply" complains about the # unknown inferior through. info_threads "1.1 3.*" \ "1.1" gdb_test "thread apply 1.1 3.* p 1" \ "Thread 1.1.*warning: Unknown inferior 3" # Now test a set of invalid thread IDs/ranges. thr_apply_info_thr_invalid "1." \ "1." thr_apply_info_thr_invalid "1-3 1." \ "1." thr_apply_info_thr_invalid "1.1.1" \ "1.1.1" thr_apply_info_thr_invalid "2 1.1.1" \ "1.1.1" thr_apply_info_thr_invalid "1.1.1 2" \ "1.1.1 2" thr_apply_info_thr_invalid "1-2.1" \ "1-2.1" gdb_test "p \$zero = 0" " = 0" gdb_test "p \$one = 1" " = 1" gdb_test "p \$minus_one = -11" " = -11" foreach prefix {"" "1." "$one."} { set prefix_re [string_to_regexp $prefix] thr_apply_info_thr_invalid "${prefix}foo" thr_apply_info_thr_invalid "${prefix}1foo" thr_apply_info_thr_invalid "${prefix}foo1" thr_apply_info_thr_error "${prefix}1-0" "inverted range" thr_apply_info_thr_error "${prefix}1-\$zero" "inverted range" thr_apply_info_thr_error "${prefix}\$one-0" "inverted range" thr_apply_info_thr_error "${prefix}\$one-\$zero" "inverted range" thr_apply_info_thr_error "${prefix}1-" "inverted range" thr_apply_info_thr_error "${prefix}2-1" "inverted range" thr_apply_info_thr_error "${prefix}2-\$one" "inverted range" if {$prefix == ""} { thr_apply_info_thr_error "${prefix}-1" "Invalid thread ID: -1" \ "Unrecognized option at: -1" thr_apply_info_thr_error "${prefix}-\$one" \ "Invalid thread ID: -\\\$one" "Unrecognized option at: -\\\$one" } else { thr_apply_info_thr_error "${prefix}-1" "negative value" thr_apply_info_thr_error "${prefix}-\$one" "negative value" } thr_apply_info_thr_error "${prefix}\$minus_one" \ "negative value: ${prefix_re}\\\$minus_one" thr_apply_info_thr_error "${prefix}1-*" "inverted range" thr_apply_info_thr_invalid "${prefix}*1" thr_apply_info_thr_invalid "${prefix}*foo" thr_apply_info_thr_invalid "${prefix}foo*" } # Check that a valid thread ID list with a missing command errors # out. with_test_prefix "missing command" { set output "Please specify a command following the thread ID list" gdb_test "thread apply 1" $output gdb_test "thread apply 1.1" $output gdb_test "thread apply 1.1 1.2" $output gdb_test "thread apply 1-2" $output gdb_test "thread apply 1.1-2" $output gdb_test "thread apply $thr" $output gdb_test "thread apply 1.*" $output } # Check that thread ID list parsing stops at the non-number token # "foo" in a corner case where the "foo" is followed by hyphens. # In this corner case, GDB used to skip past "foo", and then parse # "--1" as a tid range for the current inferior. gdb_test "thread apply 1 foo --1" \ "Undefined command: \"foo\". Try \"help\"\\." # Check that we do parse the inferior number and don't confuse it. gdb_test "info threads 3.1" \ "No threads match '3.1'\." } if { [allow_python_tests] } { with_test_prefix "python" { # Check that InferiorThread.num and InferiorThread.global_num # return the expected numbers. gdb_py_test_silent_cmd "python t0 = gdb.selected_thread ()" \ "test gdb.selected_thread" 1 gdb_test "python print ('result = %s' % t0.num)" " = 3" \ "test InferiorThread.num" gdb_test "python print ('result = %s' % t0.global_num)" " = 6" \ "test InferiorThread.global_num" # Breakpoint.thread expects global IDs. Confirm that that # works as expected. delete_breakpoints gdb_breakpoint "thread_function1" gdb_py_test_silent_cmd "python bp = gdb.breakpoints()\[0\]" \ "get python breakpoint" 0 gdb_test_no_output "python bp.thread = 6" \ "make breakpoint thread-specific with python" # Check that the inferior-qualified ID is correct. gdb_test "info breakpoint" \ [multi_line \ "$decimal\\s+\[^\r\n\]+ in thread_function1 at \[^\r\n\]+" \ "\\s+stop only in thread 1\\.3"] \ "thread specific breakpoint right thread" } } # Remove the second inferior and confirm that GDB goes back to showing # single-number thread IDs. with_test_prefix "back to one inferior" { gdb_test "kill inferior 2" "" "kill inferior 2" gdb_test "thread 1.1" "Switching to thread 1\.1 .*" gdb_test "remove-inferior 2" ".*" "remove inferior 2" # "info threads" while there's only inferior 1 should show # single-number thread IDs. info_threads "" "1 2 3" gdb_test "thread" "Current thread is 1 .*" } # Add another inferior and remove inferior 1. Since even though # there's a single inferior, its number is not 1, GDB should show # inferior-qualified thread IDs. with_test_prefix "single-inferior but not initial" { # Add another inferior. gdb_test "add-inferior" "Added inferior 3.*" "add empty inferior" # Now that we'd added another inferior, thread IDs should show the # inferior number. info_threads "" "1.1 1.2 1.3" \ "info threads with multiple inferiors" gdb_test "thread" "Current thread is 1\.1 .*" gdb_test "inferior 3" "Switching to inferior 3 .*" "switch to inferior 3" gdb_test "file ${binfile}" ".*" "load file in inferior 3" runto_main gdb_test "remove-inferior 1" ".*" "remove inferior 1" # Even though we have a single inferior, its number is > 1, so # thread IDs should include the inferior number. info_threads "" "3.1" \ "info threads with single inferior" gdb_test "thread" "Current thread is 3\.1 .*" "thread again" }