gdb/testsuite/gdb.base/sss-bp-on-user-bp-2.exp - binutils-gdb - Git at Google

 # Copyright (C) 2014-2021 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 <http://www.gnu.org/licenses/>.

 # Test that GDB doesn't get confused in the following scenario
 # (PR breakpoints/17000).  Say, we have this program:
 #
 #  =>  0xff000001  INSN1
 #      0xff000002  INSN2
 #
 # The PC currently points at INSN1.
 #
 # 1 - User sets a breakpoint at 0xff000002 (INSN2).
 #
 # 2 - User steps.  On software single-step archs, this sets a software
 #     single-step breakpoint at 0xff000002 (INSN2) too.
 #
 # 3 - User deletes breakpoint (INSN2) before the single-step finishes.
 #
 # 4 - The single-step finishes, and GDB removes the single-step
 #     breakpoint.

 # Test relies on checking gdb debug output. Do not run if gdb debug is
 # enabled as any debug will be redirected to the log.
 if [gdb_debug_enabled] {
     untested "debug is enabled"
     return 0
 }

 standard_testfile

 if {[prepare_for_testing "failed to prepare" $testfile $srcfile debug]} {
     return -1
 }

 if ![runto_main] {
     return 0
 }

 delete_breakpoints

 # With the all-stop RSP, we can't talk to the target while it's
 # running, until we get back the stop reply.  If not using single-step
 # breakpoints, then the "del" in stepi_del_break below will try to
 # delete the user breakpoint from the target, which will fail, with
 # "Cannot execute this command while the target is running.".  On
 # software single-step targets, that del shouldn't trigger any RSP
 # traffic.  Hardware-step targets that can't access memory while the
 # target is running, either remote or native, are likewise affected.
 # So we just skip the test if not using software single-stepping.  We
 # detect that by looking for 'to_resume (..., step)' in "debug
 # target" output.

 # Probe for software single-step breakpoint use.

 gdb_test_no_output "set debug target 1"
 set hardware_step 0
 set test "probe target hardware step"
 gdb_test_multiple "si" $test {
     -re "resume \\(\[^\r\n\]+, step, .*$gdb_prompt $" {
 	set hardware_step 1
 	pass $test
     }
     -re "$gdb_prompt $" {
 	pass $test
     }
 }

 if { $hardware_step } {
     unsupported "target doesn't use software single-stepping"
     return
 }

 gdb_test "set debug target 0" "->log_command.*\\)"

 set line_re "\[^\r\n\]*"

 gdb_test "b test:label" "Breakpoint .*"
 gdb_continue_to_breakpoint "run past setup"
 delete_breakpoints

 # So we can precisely control breakpoint insertion order.
 gdb_test_no_output "set breakpoint always-inserted on"

 # Capture disassembly output.  PREFIX is used as test prefix.  The
 # current instruction indicator (=>) is stripped away.
 proc disassemble { prefix } {
     with_test_prefix "$prefix" {
 	set output [capture_command_output "disassemble test" ""]
 	return [string map {"=>" "  "} $output]
     }
 }

 # Issue a stepi and immediately delete the user breakpoint that is set
 # at the same address as the software single-step breakpoint.  Do this
 # in a user defined command, so that the stepi's trap doesn't have a
 # chance to be handled before further input is processed.  We then
 # compare before/after disassembly.  GDB should be able to handle
 # deleting the user breakpoint before deleting the single-step
 # breakpoint.  E.g., we shouldn't see breakpoint instructions in the
 # disassembly.

 set disasm_before [disassemble "before"]

 gdb_test "b test:label2" ".*" "set breakpoint where si will land"

 set test "define stepi_del_break"
 gdb_test_multiple $test $test {
     -re "Type commands for definition of \"stepi_del_break\".\r\nEnd with a line saying just \"end\".\r\n>$" {
 	gdb_test "si&\ndel \$bpnum\nend" "" $test
     }
 }

 set command "stepi_del_break"
 set test $command
 gdb_test_multiple $command $test {
     -re "^$command\r\n$gdb_prompt " {
 	# Note no end anchor, because "si&" finishes and prints the
 	# current frame/line after the prompt is printed.
 	pass $test
     }
 }

 # Now consume the output of the finished "si&".
 set test "si& finished"
 gdb_test_multiple "" $test {
     -re "must be a single line \\\*/\r\n" {
 	pass $test
     }
 }

 set disasm_after [disassemble "after"]

 set test "before/after disassembly matches"
 if ![string compare $disasm_before $disasm_after]  {
     pass $test
 } else {
     fail $test
 }
	# Copyright (C) 2014-2021 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 <http://www.gnu.org/licenses/>.

	# Test that GDB doesn't get confused in the following scenario
	# (PR breakpoints/17000). Say, we have this program:
	#
	# => 0xff000001 INSN1
	# 0xff000002 INSN2
	#
	# The PC currently points at INSN1.
	#
	# 1 - User sets a breakpoint at 0xff000002 (INSN2).
	#
	# 2 - User steps. On software single-step archs, this sets a software
	# single-step breakpoint at 0xff000002 (INSN2) too.
	#
	# 3 - User deletes breakpoint (INSN2) before the single-step finishes.
	#
	# 4 - The single-step finishes, and GDB removes the single-step
	# breakpoint.

	# Test relies on checking gdb debug output. Do not run if gdb debug is
	# enabled as any debug will be redirected to the log.
	if [gdb_debug_enabled] {
	untested "debug is enabled"
	return 0
	}

	standard_testfile

	if {[prepare_for_testing "failed to prepare" $testfile $srcfile debug]} {
	return -1
	}

	if ![runto_main] {
	return 0
	}

	delete_breakpoints

	# With the all-stop RSP, we can't talk to the target while it's
	# running, until we get back the stop reply. If not using single-step
	# breakpoints, then the "del" in stepi_del_break below will try to
	# delete the user breakpoint from the target, which will fail, with
	# "Cannot execute this command while the target is running.". On
	# software single-step targets, that del shouldn't trigger any RSP
	# traffic. Hardware-step targets that can't access memory while the
	# target is running, either remote or native, are likewise affected.
	# So we just skip the test if not using software single-stepping. We
	# detect that by looking for 'to_resume (..., step)' in "debug
	# target" output.

	# Probe for software single-step breakpoint use.

	gdb_test_no_output "set debug target 1"
	set hardware_step 0
	set test "probe target hardware step"
	gdb_test_multiple "si" $test {
	-re "resume \\(\[^\r\n\]+, step, .*$gdb_prompt $" {
	set hardware_step 1
	pass $test
	}
	-re "$gdb_prompt $" {
	pass $test
	}
	}

	if { $hardware_step } {
	unsupported "target doesn't use software single-stepping"
	return
	}

	gdb_test "set debug target 0" "->log_command.*\\)"

	set line_re "\[^\r\n\]*"

	gdb_test "b test:label" "Breakpoint .*"
	gdb_continue_to_breakpoint "run past setup"
	delete_breakpoints

	# So we can precisely control breakpoint insertion order.
	gdb_test_no_output "set breakpoint always-inserted on"

	# Capture disassembly output. PREFIX is used as test prefix. The
	# current instruction indicator (=>) is stripped away.
	proc disassemble { prefix } {
	with_test_prefix "$prefix" {
	set output [capture_command_output "disassemble test" ""]
	return [string map {"=>" " "} $output]
	}
	}

	# Issue a stepi and immediately delete the user breakpoint that is set
	# at the same address as the software single-step breakpoint. Do this
	# in a user defined command, so that the stepi's trap doesn't have a
	# chance to be handled before further input is processed. We then
	# compare before/after disassembly. GDB should be able to handle
	# deleting the user breakpoint before deleting the single-step
	# breakpoint. E.g., we shouldn't see breakpoint instructions in the
	# disassembly.

	set disasm_before [disassemble "before"]

	gdb_test "b test:label2" ".*" "set breakpoint where si will land"

	set test "define stepi_del_break"
	gdb_test_multiple $test $test {
	-re "Type commands for definition of \"stepi_del_break\".\r\nEnd with a line saying just \"end\".\r\n>$" {
	gdb_test "si&\ndel \$bpnum\nend" "" $test
	}
	}

	set command "stepi_del_break"
	set test $command
	gdb_test_multiple $command $test {
	-re "^$command\r\n$gdb_prompt " {
	# Note no end anchor, because "si&" finishes and prints the
	# current frame/line after the prompt is printed.
	pass $test
	}
	}

	# Now consume the output of the finished "si&".
	set test "si& finished"
	gdb_test_multiple "" $test {
	-re "must be a single line \\\*/\r\n" {
	pass $test
	}
	}

	set disasm_after [disassemble "after"]

	set test "before/after disassembly matches"
	if ![string compare $disasm_before $disasm_after] {
	pass $test
	} else {
	fail $test
	}