# Copyright (C) 1996-2023 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 . # This file was written by Daniel Jacobowitz # (parts based on pthreads.exp by Fred Fish (fnf@cygnus.com). # # This test covers the various forms of "set scheduler-locking". # This test requires sending ^C to interrupt the running target. if [target_info exists gdb,nointerrupts] { verbose "Skipping schedlock.exp because of nointerrupts." return } standard_testfile # The number of threads, including the main thread. set NUM 2 if {[gdb_compile_pthreads "${srcdir}/${subdir}/${srcfile}" "${binfile}" executable debug] != "" } { return -1 } # Now we can proceed with the real testing. # Get the current contents of the `args` array in the test program. # Description is appended to the test message. proc get_args { description } { global gdb_prompt global NUM set pattern "(\[0-9\]+)" for {set i 1} {[expr $i < $NUM]} {incr i} { append pattern ", (\[0-9\]+)" } set test "listed args ($description)" gdb_test_multiple "print args" $test { -re "\\\$\[0-9\]+ = {$pattern}.*$gdb_prompt $" { pass $test set result "" for {set i 1} {[expr $i <= $NUM]} {incr i} { lappend result $expect_out($i,string) } return $result } } } proc stop_process { description } { global gdb_prompt # For this to work we must be sure to consume the "Continuing." # message first, or GDB's signal handler may not be in place. after 1000 {send_gdb "\003"} gdb_expect { -re "Thread .* received signal SIGINT.*$gdb_prompt $" { pass $description } timeout { fail "$description (timeout)" } } } proc get_current_thread { description } { global gdb_prompt set test "find current thread ($description)" gdb_test_multiple "bt" $test { -re "thread_function \\(arg=0x(\[0-9\])\\).*$gdb_prompt $" { pass $test return $expect_out(1,string) } } return "" } # Make sure we're stopped in the loop, in one of the non-main threads. proc goto_loop { msg } { gdb_breakpoint [concat [gdb_get_line_number "schedlock.exp: main loop"] " if arg != 0"] set test "return to loop" if {$msg != ""} { set test "$test ($msg)" } gdb_continue_to_breakpoint $test delete_breakpoints } proc my_continue { msg } { set test "continue ($msg)" gdb_test_multiple "continue" $test { -re "Continuing" { pass $test } } stop_process "stop all threads ($msg)" goto_loop $msg } # Use CMD to step the loop 10 times. CMD may be "step" or "next". proc step_ten_loops { cmd } { global gdb_prompt for {set i 0} {[expr $i < 10]} {set i [expr $i + 1]} { set other_step 0 set test "$cmd to increment ($i)" gdb_test_multiple $cmd $test { -re ".*myp\\) \\+\\+;\[\r\n\]+$gdb_prompt $" { pass $test } -re "$gdb_prompt $" { if {$other_step == 0} { set other_step 1 send_gdb "$cmd\n" exp_continue } else { fail $test # FIXME cascade? } } } } } clean_restart # We'll need this when we send_gdb a ^C to GDB. Need to do it before we # run the program and gdb starts saving and restoring tty states. gdb_test "shell stty intr '^C'" ".*" gdb_load ${binfile} gdb_test_no_output "set print sevenbit-strings" gdb_test_no_output "set width 0" runto_main # See if scheduler locking is available on this target. global gdb_prompt gdb_test_multiple "set scheduler-locking off" "scheduler locking set to none" { -re "Target .* cannot support this command" { unsupported "target does not support scheduler locking" return } -re "$gdb_prompt $" { pass "scheduler locking set to none" } timeout { unsupported "target does not support scheduler locking (timeout)" return } } gdb_breakpoint [gdb_get_line_number "schedlock.exp: last thread start"] gdb_continue_to_breakpoint "all threads started" set start_args [get_args "before initial"] # First make sure that all threads are alive. my_continue "initial" set cont_args [get_args "after initial"] set bad 0 for {set i 0} {[expr $i < $NUM]} {set i [expr $i + 1]} { if {[lindex $start_args $i] == [lindex $cont_args $i]} { incr bad } } if { $bad == 0 } { pass "all threads alive" } else { fail "all threads alive ($bad/$NUM did not run)" } # Compare the previous thread and args with the current thread and # args. Check that we didn't switch threads, and that the threads # incremented their args counter the amounts expected. CMD is the # command being tested. BEFORE_THREAD is the thread that was selected # before the command was run. BEFORE_ARGS is the value of the # thread's args before the command was run. LOCKED indicates whether # we expect threads other than the selected thread remained locked. proc check_result { cmd before_thread before_args locked } { global NUM # Make sure we're still in the same thread. set newthread [get_current_thread "after"] set test "$cmd does not change thread" if {$before_thread == $newthread} { pass "$test" } else { fail "$test (switched to thread $newthread)" } set after_args [get_args "after"] set test "current thread advanced" if { $locked } { set test "$test - locked" } else { set test "$test - unlocked" } set num_other_threads 0 for {set i 0} {$i < $NUM} {incr i} { if {[lindex $before_args $i] == [lindex $after_args $i]} { if {$i == $before_thread} { fail "$test (didn't run)" } } else { if {$i == $before_thread} { if {$cmd == "continue" || [lindex $before_args $i] == [expr [lindex $after_args $i] - 10]} { pass "$test" } else { fail "$test (wrong amount)" } } else { incr num_other_threads } } } if { $locked } { gdb_assert {$num_other_threads == 0} "other threads didn't run - locked" } else { gdb_assert {$num_other_threads > 0} "other threads ran - unlocked" } } with_test_prefix "schedlock=on: cmd=continue" { # Use whichever we stopped in. set curthread [get_current_thread "before"] # Test continue with scheduler locking. gdb_test "set scheduler-locking on" "" my_continue "with lock" check_result "continue" $curthread $cont_args 1 } # Test stepping/nexting with different modes of scheduler locking. proc test_step { schedlock cmd call_function } { global NUM gdb_test_no_output "set scheduler-locking off" goto_loop "" set curthread [get_current_thread "before"] # No need to set to off again. This avoids a duplicate message. if {$schedlock != "off"} { gdb_test_no_output "set scheduler-locking $schedlock" } gdb_test "print call_function = $call_function" \ " = $call_function" set before_args [get_args "before"] step_ten_loops $cmd if { $schedlock == "on" || $schedlock == "step" } { set locked 1 } else { set locked 0 } check_result $cmd $curthread $before_args $locked } # Test stepping/nexting with different modes of scheduler locking. foreach schedlock {"off" "step" "on"} { with_test_prefix "schedlock=$schedlock" { with_test_prefix "cmd=step" { test_step $schedlock "step" 0 } with_test_prefix "cmd=next" { # In GDB <= 7.9, with schedlock "step", "next" would # unlock threads when stepping over a function call. This # exercises "next" with and without a function call. WRT # "schedlock step", "next" should behave just like "step". foreach call_function {0 1} { with_test_prefix "call_function=$call_function" { test_step $schedlock "next" $call_function } } } } }