# Copyright 1997-2016 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 . # Various tests of gdb's ability to follow the parent or child of a # Unix vfork system call. A vfork parent is blocked until the child # either execs or exits --- since those events take somewhat different # code paths in GDB, both variants are exercised. # Until "set follow-fork-mode" and "catch vfork" are implemented on # other targets... # if {![istarget "*-linux*"]} then { continue } standard_testfile set compile_options debug if {[build_executable $testfile.exp $testfile $srcfile $compile_options] == -1} { untested "failed to compile $testfile" return -1 } set testfile2 "vforked-prog" set srcfile2 ${testfile2}.c if {[build_executable $testfile.exp $testfile2 $srcfile2 $compile_options] == -1} { untested "failed to compile $testfile2" return -1 } # A few of these tests require a little more time than the standard # timeout allows. set oldtimeout $timeout set timeout [expr "$timeout + 10"] # Start with a fresh GDB, with verbosity enabled, and run to main. On # error, behave as "return", so we don't try to continue testing with # a borked session. proc setup_gdb {} { global testfile srcfile clean_restart $testfile # The "Detaching..." and "Attaching..." messages may be hidden by # default. gdb_test_no_output "set verbose" if ![runto_main] { return -code return } set tbreak_line [gdb_get_line_number " VFORK " $srcfile] gdb_test "tbreak ${tbreak_line}" gdb_continue_to_breakpoint ".*" } proc check_vfork_catchpoints {} { global gdb_prompt global has_vfork_catchpoints setup_gdb # Verify that the system supports "catch vfork". gdb_test "catch vfork" "Catchpoint \[0-9\]* \\(vfork\\)" "insert first vfork catchpoint" set has_vfork_catchpoints 0 gdb_test_multiple "continue" "continue to first vfork catchpoint" { -re ".*Your system does not support this type\r\nof catchpoint.*$gdb_prompt $" { unsupported "continue to first vfork catchpoint" } -re ".*Catchpoint.*$gdb_prompt $" { set has_vfork_catchpoints 1 pass "continue to first vfork catchpoint" } } if {$has_vfork_catchpoints == 0} { unsupported "vfork catchpoints" return -code return } } proc vfork_parent_follow_through_step {} { with_test_prefix "vfork parent follow, through step" { global gdb_prompt setup_gdb gdb_test_no_output "set follow-fork parent" set test "step" gdb_test_multiple "next" $test { -re "Detaching after vfork from.*if \\(pid == 0\\).*$gdb_prompt " { pass $test } } # The child has been detached; allow time for any output it might # generate to arrive, so that output doesn't get confused with # any gdb_expected debugger output from a subsequent testpoint. # exec sleep 1 }} proc vfork_parent_follow_to_bp {} { with_test_prefix "vfork parent follow, to bp" { global gdb_prompt global srcfile setup_gdb gdb_test_no_output "set follow-fork parent" set bp_location [gdb_get_line_number "printf (\"I'm the proud parent of child"] gdb_test "break ${srcfile}:${bp_location}" ".*" "break, vfork to bp" set test "continue to bp" gdb_test_multiple "continue" $test { -re ".*Detaching after vfork from child process.*Breakpoint.*${bp_location}.*$gdb_prompt " { pass $test } } # The child has been detached; allow time for any output it might # generate to arrive, so that output doesn't get confused with # any expected debugger output from a subsequent testpoint. # exec sleep 1 }} proc vfork_child_follow_to_exit {} { with_test_prefix "vfork child follow, to exit" { global gdb_prompt setup_gdb gdb_test_no_output "set follow-fork child" set test "continue to child exit" gdb_test_multiple "continue" $test { -re "Couldn't get registers.*$gdb_prompt " { # PR gdb/14766 fail "$test" } -re "Attaching after.* vfork to.*Detaching vfork parent .* after child exit.*$gdb_prompt " { pass $test } } # The parent has been detached; allow time for any output it might # generate to arrive, so that output doesn't get confused with # any gdb_expected debugger output from a subsequent testpoint. # exec sleep 1 }} proc vfork_and_exec_child_follow_to_main_bp {} { with_test_prefix "vfork and exec child follow, to main bp" { global gdb_prompt global srcfile2 setup_gdb gdb_test_no_output "set follow-fork child" set linenum [gdb_get_line_number "printf(\"Hello from vforked-prog" ${srcfile2}] set test "continue to bp" gdb_test_multiple "continue" $test { -re "Attaching after.* vfork to.*Detaching vfork parent.*xecuting new program.*Breakpoint.*vforked-prog.c:${linenum}.*$gdb_prompt " { pass $test } } # The parent has been detached; allow time for any output it might # generate to arrive, so that output doesn't get confused with # any gdb_expected debugger output from a subsequent testpoint. # exec sleep 1 }} proc vfork_and_exec_child_follow_through_step {} { with_test_prefix "vfork and exec child follow, through step" { global gdb_prompt global srcfile2 setup_gdb gdb_test_no_output "set follow-fork child" set test "step over vfork" # The ideal support is to be able to debug the child even # before it execs. Thus, "next" lands on the next line after # the vfork. gdb_test_multiple "next" $test { -re "Attaching after .* vfork to child.*if \\(pid == 0\\).*$gdb_prompt " { pass "$test" } } # The parent has been detached; allow time for any output it might # generate to arrive, so that output doesn't get confused with # any expected debugger output from a subsequent testpoint. # exec sleep 1 }} proc continue_to_vfork {} { global gdb_prompt # A vfork catchpoint may stop in either "vfork" or "_vfork". set test "continue to vfork" gdb_test_multiple "continue" $test { -re "vfork \\(\\) at .*$gdb_prompt $" { pass $test } -re "0x\[0-9a-fA-F\]*.*(vfork|__kernel_v?syscall).*$gdb_prompt " { pass $test } } } proc tcatch_vfork_then_parent_follow {} { with_test_prefix "vfork parent follow, finish after tcatch vfork" { global gdb_prompt global srcfile setup_gdb gdb_test_no_output "set follow-fork parent" gdb_test "tcatch vfork" "Catchpoint .*(vfork).*" continue_to_vfork set linenum [gdb_get_line_number "pid = vfork ();"] set test "finish" gdb_test_multiple "finish" $test { -re "Run till exit from.*vfork.*0x\[0-9a-fA-F\]* in main .* at .*${srcfile}:${linenum}.*$gdb_prompt " { pass $test } -re "Run till exit from.*__kernel_v?syscall.*0x\[0-9a-fA-F\]* in vfork .*$gdb_prompt " { send_gdb "finish\n" exp_continue } } # The child has been detached; allow time for any output it might # generate to arrive, so that output doesn't get confused with # any expected debugger output from a subsequent testpoint. # exec sleep 1 }} proc tcatch_vfork_then_child_follow_exec {} { with_test_prefix "vfork child follow, finish after tcatch vfork" { global gdb_prompt global srcfile global srcfile2 setup_gdb gdb_test_no_output "set follow-fork child" gdb_test "tcatch vfork" "Catchpoint .*(vfork).*" continue_to_vfork set linenum1 [gdb_get_line_number "pid = vfork ();"] set linenum2 [gdb_get_line_number "printf(\"Hello from vforked-prog" ${srcfile2}] set test "finish" gdb_test_multiple "finish" $test { -re "Run till exit from.*vfork.*${srcfile}:${linenum1}.*$gdb_prompt " { pass $test } -re "Run till exit from.*__kernel_v?syscall.*0x\[0-9a-fA-F\]* in vfork .*$gdb_prompt " { send_gdb "finish\n" exp_continue } -re "Run till exit from.*vfork.*${srcfile2}:${linenum2}.*$gdb_prompt " { pass "$test (followed exec)" } } # The parent has been detached; allow time for any output it might # generate to arrive, so that output doesn't get confused with # any expected debugger output from a subsequent testpoint. # exec sleep 1 }} proc tcatch_vfork_then_child_follow_exit {} { with_test_prefix "vfork child follow, finish after tcatch vfork" { global gdb_prompt global srcfile setup_gdb gdb_test_no_output "set follow-fork child" gdb_test "tcatch vfork" "Catchpoint .*(vfork).*" continue_to_vfork set test "finish" gdb_test_multiple "finish" $test { -re "Run till exit from.*vfork.*exited normally.*$gdb_prompt " { setup_kfail "gdb/14762" *-*-* fail $test } -re "Run till exit from.*vfork.*pid = vfork \\(\\).*$gdb_prompt " { pass $test } -re "Run till exit from.*__kernel_v?syscall.*0x\[0-9a-fA-F\]* in vfork .*$gdb_prompt " { send_gdb "finish\n" exp_continue } } # The parent has been detached; allow time for any output it might # generate to arrive, so that output doesn't get confused with # any expected debugger output from a subsequent testpoint. # exec sleep 1 }} proc vfork_relations_in_info_inferiors { variant } { with_test_prefix "vfork relations in info inferiors" { global gdb_prompt setup_gdb gdb_test_no_output "set follow-fork child" set test "step over vfork" gdb_test_multiple "next" $test { -re "Attaching after .* vfork to child.*if \\(pid == 0\\).*$gdb_prompt " { pass "$test" } } gdb_test "info inferiors" \ ".*is vfork parent of inferior 2.*is vfork child of inferior 1" \ "info inferiors shows vfork parent/child relation" if { $variant == "exec" } { global srcfile2 set linenum [gdb_get_line_number "printf(\"Hello from vforked-prog" ${srcfile2}] set test "continue to bp" gdb_test_multiple "continue" $test { -re ".*xecuting new program.*Breakpoint.*vforked-prog.c:${linenum}.*$gdb_prompt " { pass $test } } } else { set test "continue to child exit" gdb_test_multiple "continue" $test { -re "exited normally.*$gdb_prompt " { pass $test } } } set test "vfork relation no longer appears in info inferiors" gdb_test_multiple "info inferiors" $test { -re "is vfork child of inferior 1.*$gdb_prompt $" { fail $test } -re "is vfork parent of inferior 2.*$gdb_prompt $" { fail $test } -re "$gdb_prompt $" { pass $test } } }} proc do_vfork_and_follow_parent_tests {} { global gdb_prompt # Try following the parent process by stepping through a call to # vfork. Do this without catchpoints. vfork_parent_follow_through_step # Try following the parent process by setting a breakpoint on the # other side of a vfork, and running to that point. Do this # without catchpoints. vfork_parent_follow_to_bp # Try catching a vfork, and stepping out to the parent. # tcatch_vfork_then_parent_follow } proc do_vfork_and_follow_child_tests_exec {} { # Try following the child process by just continuing through the # vfork, and letting the parent's breakpoint on "main" be auto- # magically reset in the child. # vfork_and_exec_child_follow_to_main_bp # Try following the child process by stepping through a call to # vfork. The child also executes an exec. Since the child cannot # be debugged until after it has exec'd, and since there's a bp on # "main" in the parent, and since the bp's for the parent are # recomputed in the exec'd child, the step through a vfork should # land us in the "main" for the exec'd child, too. # vfork_and_exec_child_follow_through_step # Try catching a vfork, and stepping out to the child. # tcatch_vfork_then_child_follow_exec # Test the ability to follow both child and parent of a vfork. Do # this without catchpoints. # ??rehrauer: NYI. Will add testpoints here when implemented. # # Test the ability to have the debugger ask the user at vfork-time # whether to follow the parent, child or both. Do this without # catchpoints. # ??rehrauer: NYI. Will add testpoints here when implemented. # # Step over a vfork in the child, do "info inferiors" and check the # parent/child relation is displayed. Run the child over the exec, # and confirm the relation is no longer displayed in "info # inferiors". # vfork_relations_in_info_inferiors "exec" } proc do_vfork_and_follow_child_tests_exit {} { # Try following the child process by just continuing through the # vfork, and letting the child exit. # vfork_child_follow_to_exit # Try catching a vfork, and stepping out to the child. # tcatch_vfork_then_child_follow_exit # Step over a vfork in the child, do "info inferiors" and check the # parent/child relation is displayed. Run the child to completion, # and confirm the relation is no longer displayed in "info # inferiors". # vfork_relations_in_info_inferiors "exit" } with_test_prefix "check vfork support" { # Check that vfork catchpoints are supported, as an indicator for # whether vfork-following is supported. check_vfork_catchpoints } # Follow parent and follow child vfork tests with a child that execs. with_test_prefix "exec" { # These are tests of gdb's ability to follow the parent of a Unix # vfork system call. The child will subsequently call a variant # of the Unix exec system call. do_vfork_and_follow_parent_tests # These are tests of gdb's ability to follow the child of a Unix # vfork system call. The child will subsequently call a variant # of a Unix exec system call. # do_vfork_and_follow_child_tests_exec } # Switch to test the case of the child exiting. We can't use # standard_testfile here because we don't want to overwrite the binary # of the previous tests. set testfile "foll-vfork-exit" set srcfile ${testfile}.c set binfile [standard_output_file ${testfile}] if {[build_executable $testfile.exp $testfile $srcfile] == -1} { untested "failed to build $testfile" return } # Follow parent and follow child vfork tests with a child that exits. with_test_prefix "exit" { # These are tests of gdb's ability to follow the parent of a Unix # vfork system call. The child will subsequently exit. do_vfork_and_follow_parent_tests # These are tests of gdb's ability to follow the child of a Unix # vfork system call. The child will subsequently exit. # do_vfork_and_follow_child_tests_exit } set timeout $oldtimeout return 0