gdb/testsuite/gdb.base/gnu-ifunc.exp - binutils-gdb - Git at Google

 # Copyright (C) 2009-2020 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/>.

 if {[skip_shlib_tests]} {
     return 0
 }

 if {[skip_ifunc_tests]} {
     return 0
 }

 standard_testfile .c
 set staticexecutable ${testfile}-static
 set staticbinfile [standard_output_file ${staticexecutable}]

 set libfile "${testfile}-lib"
 set libsrc ${libfile}.c

 set final_file "${testfile}-final"
 set final_src ${final_file}.c

 if [get_compiler_info] {
     return -1
 }

 # Return the binary suffix appended to program and library names to
 # make each testcase variant unique.
 proc make_binsuffix {resolver_attr resolver_debug final_debug} {
     return "$resolver_attr-$resolver_debug-$final_debug"
 }

 # Compile the testcase.  RESOLVER_ATTR is true if we're testing with
 # an ifunc resolver that has a different name from the user symbol,
 # specified with GCC's __attribute__ ifunc.  RESOLVER_DEBUG is true
 # iff the resolver was compiled with debug info.  FINAL_DEBUG is true
 # iff the target function was compiled with debug info.
 proc build {resolver_attr resolver_debug final_debug} {
     global srcdir subdir srcfile binfile
     global libsrc lib_so libfile
     global exec_opts executable
     global hex gdb_prompt
     global final_file final_src

     set suffix [make_binsuffix $resolver_attr $resolver_debug $final_debug]

     set lib_so [standard_output_file ${libfile}-$suffix.so]
     # $lib_o must not have {debug}, it would override the STT_GNU_IFUNC ELF markers.
     set lib_o [standard_output_file ${libfile}-$suffix.o]

     set exec_opts [list debug shlib=$lib_so]

     set lib_opts {}
     set final_opts {}

     if {$resolver_attr} {
 	lappend lib_opts "additional_flags=-DIFUNC_RESOLVER_ATTR"
     }

     if {$resolver_debug} {
 	lappend lib_opts "debug"
     }

     if {$final_debug} {
 	lappend final_opts "debug"
     }

     set final_o [standard_output_file $final_file-$suffix.o]

     if { [gdb_compile_shlib ${srcdir}/${subdir}/$libsrc \
 	      $lib_so $lib_opts] != ""
 	 || [gdb_compile ${srcdir}/${subdir}/$final_src \
 		 $final_o object $final_opts] != ""
 	 || [gdb_compile [list ${srcdir}/${subdir}/$srcfile $final_o] \
 		 $binfile-$suffix executable $exec_opts] != ""} {
 	untested "failed to compile testcase"
 	return 0
     }

     return 1
 }

 # Test setting a breakpoint on a ifunc function before and after the
 # ifunc is resolved.  For the description of RESOLVER_ATTR,
 # RESOLVER_DEBUG and FINAL_DEBUG, see the "build" procedure above.
 proc_with_prefix set-break {resolver_attr resolver_debug final_debug} {
     global binfile libfile lib_so
     global hex decimal
     global gdb_prompt

     set suffix [make_binsuffix $resolver_attr $resolver_debug $final_debug]

     set lib_so [standard_output_file ${libfile}-$suffix.so]
     clean_restart $binfile-$suffix
     gdb_load_shlib ${lib_so}

     if ![runto_main] then {
 	fail "can't run to main"
 	return 1
     }

     gdb_breakpoint [gdb_get_line_number "break-at-call"]
     gdb_continue_to_breakpoint "break-at-call" ".*break-at-call.*"

     set ws "\[ \t\]+"
     set dot "\\.?"

     if {$resolver_attr} {
 	set gnu_ifunc_resolver "gnu_ifunc_resolver"
     } else {
 	set gnu_ifunc_resolver "gnu_ifunc"
     }

     if {!$resolver_debug} {
 	set gnu_ifunc_resolver "${dot}${gnu_ifunc_resolver}"
     }

     if {!$final_debug} {
 	set final "${dot}final"
     } else {
 	set final "final"
     }

     with_test_prefix "before resolving" {
 	delete_breakpoints
 	gdb_test "break gnu_ifunc" \
 	    "Breakpoint $decimal at gnu-indirect-function resolver at $hex"
 	gdb_test "info breakpoints" \
 	    "$decimal${ws}STT_GNU_IFUNC resolver${ws}keep${ws}y${ws}$hex <${gnu_ifunc_resolver}>"

 	# Make the breakpoint conditional on a condition that always
 	# fails.  This is so that when the ifunc-resolver breakpoint
 	# triggers, GDB resumes the program immediately.
 	gdb_test_no_output "condition \$bpnum 0"
     }

     global final_src

     with_test_prefix "resolve" {
 	gdb_breakpoint [gdb_get_line_number "break-at-exit"]
 	gdb_continue_to_breakpoint "break-at-exit" ".*break-at-exit.*"
     }

     with_test_prefix "after resolving" {
 	if {!$final_debug} {
 	    # Set a breakpoint both at the ifunc, and at the ifunc's
 	    # target.  GDB should resolve both to the same address.
 	    # Start with the ifunc's target.
 	    set addr "-"
 	    set test "break final"
 	    # Extract the address without the leading "0x", because
 	    # addresses in "info break" output include leading 0s
 	    # (like "0x0000ADDR").
 	    set hex_number {[0-9a-fA-F][0-9a-fA-F]*}
 	    gdb_test_multiple $test $test {
 		-re "Breakpoint .* at 0x($hex_number)\r\n$gdb_prompt $" {
 		    set addr $expect_out(1,string)
 		    pass $test
 		}
 	    }

 	    # Now set a break at the ifunc.
 	    gdb_test "break gnu_ifunc" "Breakpoint .* at 0x$addr"
 	    set location "$decimal${ws}breakpoint${ws}keep${ws}y${ws}0x0*$addr${ws}<${final}\\+.*>"
 	} else {
 	    set lineno -1
 	    set test "break final"
 	    gdb_test_multiple $test $test {
 		-re "Breakpoint .* at $hex: file .*$final_src, line ($decimal)\\.\r\n$gdb_prompt $" {
 		    set lineno $expect_out(1,string)
 		    pass $test
 		}
 	    }
 	    gdb_test "break gnu_ifunc" "Breakpoint .* at $hex: file .*$final_src, line $lineno\\."
 	    set location "$decimal${ws}breakpoint${ws}keep${ws}y${ws}$hex in final at .*$final_src:$lineno"
 	}

 	# The first location here is for the breakpoint that was set
 	# before the ifunc was resolved.  It should be resolved by
 	# now, and it should have the exact same address/line as the
 	# other two locations.
 	gdb_test "info breakpoints" "$location\r\n.*$location\r\n$location"
     }
 }

 # Misc GNU ifunc tests.  For the description of RESOLVER_ATTR,
 # RESOLVER_DEBUG and FINAL_DEBUG, see the "build" procedure above.
 proc misc_tests {resolver_attr resolver_debug final_debug} {
     global srcdir subdir srcfile binfile
     global libsrc lib_so libfile
     global exec_opts executable
     global hex gdb_prompt
     global final_file final_src

     set suffix [make_binsuffix $resolver_attr $resolver_debug $final_debug]

     if {$resolver_attr} {
 	set gnu_ifunc_resolver "gnu_ifunc_resolver"
     } else {
 	set gnu_ifunc_resolver "gnu_ifunc"
     }

     set dot "\\.?"

     if {!$resolver_debug} {
 	set gnu_ifunc_resolver "${dot}${gnu_ifunc_resolver}"
     }

     if {!$final_debug} {
 	set final "${dot}final"
     } else {
 	set final "final"
     }

     # Start with a fresh gdb.

     clean_restart $binfile-$suffix
     gdb_load_shlib ${lib_so}

     if ![runto_main] then {
 	fail "can't run to main"
 	return 1
     }

     # The "if" condition is artifical to test regression of a former patch.
     gdb_breakpoint "[gdb_get_line_number "break-at-nextcall"] if i && (int) gnu_ifunc (i) != 42"

     gdb_breakpoint [gdb_get_line_number "break-at-call"]
     gdb_continue_to_breakpoint "break-at-call" ".*break-at-call.*"

     # Test GDB will automatically indirect the call.

     if {!$resolver_debug && !$final_debug} {
 	gdb_test "p gnu_ifunc()" \
 	    "'${dot}final' has unknown return type; cast the call to its declared return type"
 	gdb_test "p gnu_ifunc (3)" \
 	    "'${dot}final' has unknown return type; cast the call to its declared return type"
 	gdb_test "p (int) gnu_ifunc (3)" " = 4"
     } else {
 	gdb_test "p gnu_ifunc()" "Too few arguments in function call\\."
 	gdb_test "p gnu_ifunc (3)" " = 4"
     }

     # Test that the resolver received its argument.

     set actual_hwcap "0x0"
     set test "info auxv"
     gdb_test_multiple $test $test {
 	-re "\r\n\\d+\\s+AT_HWCAP\[^\r\n\]+($hex)\r\n.*$gdb_prompt $" {
 	    set actual_hwcap $expect_out(1,string)
 	}
 	-re ".*$gdb_prompt $" {
 	    pass "$test (no HWCAP)"
 	}
     }

     gdb_test "p/x resolver_hwcap" "= $actual_hwcap" "resolver received HWCAP"

     # Test GDB will skip the gnu_ifunc resolver on first call.

     # Even if the resolver has debug info, stepping into an ifunc call
     # should skip the resolver.
     if {!$final_debug} {
 	# Make GDB stop stepping even if it steps into a function with
 	# no debug info.
 	gdb_test_no_output "set step-mode on"
 	gdb_test "step" "$hex in ${dot}final \\\(\\\)"
     } else {
 	gdb_test "step" "\r\nfinal .*"
     }

     # Test GDB will not break before the final chosen implementation.

     # Also test a former patch regression:
     # Continuing.
     # Error in testing breakpoint condition:
     # Attempt to take address of value not located in memory.
     #
     # Breakpoint 2, main () at ./gdb.base/gnu-ifunc.c:33

     gdb_test "continue" \
 	"Continuing.\r\n\r\nBreakpoint .* (at|in) .*break-at-nextcall.*" \
 	"continue to break-at-nextcall"

     gdb_breakpoint "gnu_ifunc"

     gdb_continue_to_breakpoint "nextcall gnu_ifunc"

     gdb_test "frame" \
 	"#0 +(0x\[0-9a-f\]+ in +)?${final} \\(.*" "nextcall gnu_ifunc skipped"

     # Check any commands not doing an inferior call access the address of the
     # STT_GNU_IFUNC resolver, not the target function.

     if {[istarget powerpc64-*] && [is_lp64_target]} {
 	# With only minimal symbols GDB provides the function descriptors.  With
 	# full debug info the function code would be displayed.
     }

     gdb_test "p gnu_ifunc" \
 	" = {<text gnu-indirect-function variable, no debug info>} 0x\[0-9a-f\]+ <${gnu_ifunc_resolver}>" \
 	"p gnu_ifunc executing"
     gdb_test "info sym gnu_ifunc" \
 	"${gnu_ifunc_resolver} in section .*" \
 	"info sym gnu_ifunc executing"

     set test "info addr gnu_ifunc"
     if {!$resolver_attr && $resolver_debug} {
 	gdb_test_multiple $test $test {
 	    -re "Symbol \"gnu_ifunc\" is a function at address (0x\[0-9a-f\]+).*$gdb_prompt $" {
 		pass $test
 	    }
 	}
     } else {
 	gdb_test_multiple $test $test {
 	    -re "Symbol \"gnu_ifunc\" is at (0x\[0-9a-f\]+) in .*$gdb_prompt $" {
 		pass $test
 	    }
 	}
     }
     gdb_test "info sym $expect_out(1,string)" \
 	"${gnu_ifunc_resolver} in section .*" \
 	"info sym <gnu_ifunc-address>"

     # Test calling the resolver directly instead of the ifunc symbol.
     # Can only do that if the ifunc and the ifunc resolver have
     # different names.
     if {$resolver_attr} {
 	if {$resolver_debug} {
 	    if {[istarget powerpc64-*] && [is_lp64_target]} {
 		gdb_test "p gnu_ifunc_resolver(0)" \
 		    " = \\(int \\(\\*\\)\\(int\\)\\) @$hex: $hex <${final}>"
 	    } else {
 		gdb_test "p gnu_ifunc_resolver(0)" \
 		    " = \\(int \\(\\*\\)\\(int\\)\\) $hex <final>"
 	    }
 	} else {
 	    gdb_test "p gnu_ifunc_resolver(0)" \
 		"'${gnu_ifunc_resolver}' has unknown return type; cast the call to its declared return type"
 	    gdb_test "p (void *) gnu_ifunc_resolver(0)" \
 		" = \\(void \\*\\) $hex <${final}>"
 	}
     }
 }

 # Test all the combinations of:
 #
 # - An ifunc resolver with the same name as the ifunc symbol vs an
 #   ifunc resolver with a different name as the ifunc symbol.
 #
 # - ifunc resolver compiled with and without debug info.  This ensures
 #   that GDB understands that a function not a regular function by
 #   looking at the STT_GNU_IFUNC type in the elf symbols.  DWARF has
 #   no way to express the STT_GNU_IFUNC type.
 #
 # - ifunc target function (resolved) compiled with and without debug
 #   info.
 foreach_with_prefix resolver_attr {0 1} {
     foreach_with_prefix resolver_debug {0 1} {
 	foreach_with_prefix final_debug {0 1} {
 	    if { [build $resolver_attr $resolver_debug $final_debug] != 0 } {
 		misc_tests $resolver_attr $resolver_debug $final_debug
 		set-break $resolver_attr $resolver_debug $final_debug
 	    }
 	}
     }
 }

 # Test statically linked ifunc resolving during inferior start.
 # https://bugzilla.redhat.com/show_bug.cgi?id=624967

 with_test_prefix "static" {
     # Compile $staticbinfile separately as it may exit on error
     # (ld/12595).

     set lib_o [standard_output_file ${libfile}.o]
     set final_o [standard_output_file ${final_file}.o]
     if { [gdb_compile ${srcdir}/${subdir}/$libsrc $lib_o object {}] != ""
 	 || [gdb_compile ${srcdir}/${subdir}/$final_src $final_o object {}] != ""
 	 || [gdb_compile "${srcdir}/${subdir}/$srcfile $lib_o $final_o" \
 		 $staticbinfile executable {debug}] != "" } {
 	untested "failed to compile second testcase"
 	return -1
     }

     clean_restart $staticexecutable

     gdb_breakpoint "gnu_ifunc"
     gdb_breakpoint "main"
     gdb_run_cmd
     gdb_test "" "Breakpoint \[0-9\]*, main .*" "static gnu_ifunc"
 }
	# Copyright (C) 2009-2020 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/>.

	if {[skip_shlib_tests]} {
	return 0
	}

	if {[skip_ifunc_tests]} {
	return 0
	}

	standard_testfile .c
	set staticexecutable ${testfile}-static
	set staticbinfile [standard_output_file ${staticexecutable}]

	set libfile "${testfile}-lib"
	set libsrc ${libfile}.c

	set final_file "${testfile}-final"
	set final_src ${final_file}.c

	if [get_compiler_info] {
	return -1
	}

	# Return the binary suffix appended to program and library names to
	# make each testcase variant unique.
	proc make_binsuffix {resolver_attr resolver_debug final_debug} {
	return "$resolver_attr-$resolver_debug-$final_debug"
	}

	# Compile the testcase. RESOLVER_ATTR is true if we're testing with
	# an ifunc resolver that has a different name from the user symbol,
	# specified with GCC's __attribute__ ifunc. RESOLVER_DEBUG is true
	# iff the resolver was compiled with debug info. FINAL_DEBUG is true
	# iff the target function was compiled with debug info.
	proc build {resolver_attr resolver_debug final_debug} {
	global srcdir subdir srcfile binfile
	global libsrc lib_so libfile
	global exec_opts executable
	global hex gdb_prompt
	global final_file final_src

	set suffix [make_binsuffix $resolver_attr $resolver_debug $final_debug]

	set lib_so [standard_output_file ${libfile}-$suffix.so]
	# $lib_o must not have {debug}, it would override the STT_GNU_IFUNC ELF markers.
	set lib_o [standard_output_file ${libfile}-$suffix.o]

	set exec_opts [list debug shlib=$lib_so]

	set lib_opts {}
	set final_opts {}

	if {$resolver_attr} {
	lappend lib_opts "additional_flags=-DIFUNC_RESOLVER_ATTR"
	}

	if {$resolver_debug} {
	lappend lib_opts "debug"
	}

	if {$final_debug} {
	lappend final_opts "debug"
	}

	set final_o [standard_output_file $final_file-$suffix.o]

	if { [gdb_compile_shlib ${srcdir}/${subdir}/$libsrc \
	$lib_so $lib_opts] != ""
	\|\| [gdb_compile ${srcdir}/${subdir}/$final_src \
	$final_o object $final_opts] != ""
	\|\| [gdb_compile [list ${srcdir}/${subdir}/$srcfile $final_o] \
	$binfile-$suffix executable $exec_opts] != ""} {
	untested "failed to compile testcase"
	return 0
	}

	return 1
	}

	# Test setting a breakpoint on a ifunc function before and after the
	# ifunc is resolved. For the description of RESOLVER_ATTR,
	# RESOLVER_DEBUG and FINAL_DEBUG, see the "build" procedure above.
	proc_with_prefix set-break {resolver_attr resolver_debug final_debug} {
	global binfile libfile lib_so
	global hex decimal
	global gdb_prompt

	set suffix [make_binsuffix $resolver_attr $resolver_debug $final_debug]

	set lib_so [standard_output_file ${libfile}-$suffix.so]
	clean_restart $binfile-$suffix
	gdb_load_shlib ${lib_so}

	if ![runto_main] then {
	fail "can't run to main"
	return 1
	}

	gdb_breakpoint [gdb_get_line_number "break-at-call"]
	gdb_continue_to_breakpoint "break-at-call" ".break-at-call."

	set ws "\[ \t\]+"
	set dot "\\.?"

	if {$resolver_attr} {
	set gnu_ifunc_resolver "gnu_ifunc_resolver"
	} else {
	set gnu_ifunc_resolver "gnu_ifunc"
	}

	if {!$resolver_debug} {
	set gnu_ifunc_resolver "${dot}${gnu_ifunc_resolver}"
	}

	if {!$final_debug} {
	set final "${dot}final"
	} else {
	set final "final"
	}

	with_test_prefix "before resolving" {
	delete_breakpoints
	gdb_test "break gnu_ifunc" \
	"Breakpoint $decimal at gnu-indirect-function resolver at $hex"
	gdb_test "info breakpoints" \
	"$decimal${ws}STT_GNU_IFUNC resolver${ws}keep${ws}y${ws}$hex <${gnu_ifunc_resolver}>"

	# Make the breakpoint conditional on a condition that always
	# fails. This is so that when the ifunc-resolver breakpoint
	# triggers, GDB resumes the program immediately.
	gdb_test_no_output "condition \$bpnum 0"
	}

	global final_src

	with_test_prefix "resolve" {
	gdb_breakpoint [gdb_get_line_number "break-at-exit"]
	gdb_continue_to_breakpoint "break-at-exit" ".break-at-exit."
	}

	with_test_prefix "after resolving" {
	if {!$final_debug} {
	# Set a breakpoint both at the ifunc, and at the ifunc's
	# target. GDB should resolve both to the same address.
	# Start with the ifunc's target.
	set addr "-"
	set test "break final"
	# Extract the address without the leading "0x", because
	# addresses in "info break" output include leading 0s
	# (like "0x0000ADDR").
	set hex_number {[0-9a-fA-F][0-9a-fA-F]*}
	gdb_test_multiple $test $test {
	-re "Breakpoint .* at 0x($hex_number)\r\n$gdb_prompt $" {
	set addr $expect_out(1,string)
	pass $test
	}
	}

	# Now set a break at the ifunc.
	gdb_test "break gnu_ifunc" "Breakpoint .* at 0x$addr"
	set location "$decimal${ws}breakpoint${ws}keep${ws}y${ws}0x0$addr${ws}<${final}\\+.>"
	} else {
	set lineno -1
	set test "break final"
	gdb_test_multiple $test $test {
	-re "Breakpoint .* at $hex: file .*$final_src, line ($decimal)\\.\r\n$gdb_prompt $" {
	set lineno $expect_out(1,string)
	pass $test
	}
	}
	gdb_test "break gnu_ifunc" "Breakpoint .* at $hex: file .*$final_src, line $lineno\\."
	set location "$decimal${ws}breakpoint${ws}keep${ws}y${ws}$hex in final at .*$final_src:$lineno"
	}

	# The first location here is for the breakpoint that was set
	# before the ifunc was resolved. It should be resolved by
	# now, and it should have the exact same address/line as the
	# other two locations.
	gdb_test "info breakpoints" "$location\r\n.*$location\r\n$location"
	}
	}

	# Misc GNU ifunc tests. For the description of RESOLVER_ATTR,
	# RESOLVER_DEBUG and FINAL_DEBUG, see the "build" procedure above.
	proc misc_tests {resolver_attr resolver_debug final_debug} {
	global srcdir subdir srcfile binfile
	global libsrc lib_so libfile
	global exec_opts executable
	global hex gdb_prompt
	global final_file final_src

	set suffix [make_binsuffix $resolver_attr $resolver_debug $final_debug]

	if {$resolver_attr} {
	set gnu_ifunc_resolver "gnu_ifunc_resolver"
	} else {
	set gnu_ifunc_resolver "gnu_ifunc"
	}

	set dot "\\.?"

	if {!$resolver_debug} {
	set gnu_ifunc_resolver "${dot}${gnu_ifunc_resolver}"
	}

	if {!$final_debug} {
	set final "${dot}final"
	} else {
	set final "final"
	}

	# Start with a fresh gdb.

	clean_restart $binfile-$suffix
	gdb_load_shlib ${lib_so}

	if ![runto_main] then {
	fail "can't run to main"
	return 1
	}

	# The "if" condition is artifical to test regression of a former patch.
	gdb_breakpoint "[gdb_get_line_number "break-at-nextcall"] if i && (int) gnu_ifunc (i) != 42"

	gdb_breakpoint [gdb_get_line_number "break-at-call"]
	gdb_continue_to_breakpoint "break-at-call" ".break-at-call."

	# Test GDB will automatically indirect the call.

	if {!$resolver_debug && !$final_debug} {
	gdb_test "p gnu_ifunc()" \
	"'${dot}final' has unknown return type; cast the call to its declared return type"
	gdb_test "p gnu_ifunc (3)" \
	"'${dot}final' has unknown return type; cast the call to its declared return type"
	gdb_test "p (int) gnu_ifunc (3)" " = 4"
	} else {
	gdb_test "p gnu_ifunc()" "Too few arguments in function call\\."
	gdb_test "p gnu_ifunc (3)" " = 4"
	}

	# Test that the resolver received its argument.

	set actual_hwcap "0x0"
	set test "info auxv"
	gdb_test_multiple $test $test {
	-re "\r\n\\d+\\s+AT_HWCAP\[^\r\n\]+($hex)\r\n.*$gdb_prompt $" {
	set actual_hwcap $expect_out(1,string)
	}
	-re ".*$gdb_prompt $" {
	pass "$test (no HWCAP)"
	}
	}

	gdb_test "p/x resolver_hwcap" "= $actual_hwcap" "resolver received HWCAP"

	# Test GDB will skip the gnu_ifunc resolver on first call.

	# Even if the resolver has debug info, stepping into an ifunc call
	# should skip the resolver.
	if {!$final_debug} {
	# Make GDB stop stepping even if it steps into a function with
	# no debug info.
	gdb_test_no_output "set step-mode on"
	gdb_test "step" "$hex in ${dot}final \\\(\\\)"
	} else {
	gdb_test "step" "\r\nfinal .*"
	}

	# Test GDB will not break before the final chosen implementation.

	# Also test a former patch regression:
	# Continuing.
	# Error in testing breakpoint condition:
	# Attempt to take address of value not located in memory.
	#
	# Breakpoint 2, main () at ./gdb.base/gnu-ifunc.c:33

	gdb_test "continue" \
	"Continuing.\r\n\r\nBreakpoint .* (at\|in) .break-at-nextcall." \
	"continue to break-at-nextcall"

	gdb_breakpoint "gnu_ifunc"

	gdb_continue_to_breakpoint "nextcall gnu_ifunc"

	gdb_test "frame" \
	"#0 +(0x\[0-9a-f\]+ in +)?${final} \\(.*" "nextcall gnu_ifunc skipped"

	# Check any commands not doing an inferior call access the address of the
	# STT_GNU_IFUNC resolver, not the target function.

	if {[istarget powerpc64-*] && [is_lp64_target]} {
	# With only minimal symbols GDB provides the function descriptors. With
	# full debug info the function code would be displayed.
	}

	gdb_test "p gnu_ifunc" \
	" = {<text gnu-indirect-function variable, no debug info>} 0x\[0-9a-f\]+ <${gnu_ifunc_resolver}>" \
	"p gnu_ifunc executing"
	gdb_test "info sym gnu_ifunc" \
	"${gnu_ifunc_resolver} in section .*" \
	"info sym gnu_ifunc executing"

	set test "info addr gnu_ifunc"
	if {!$resolver_attr && $resolver_debug} {
	gdb_test_multiple $test $test {
	-re "Symbol \"gnu_ifunc\" is a function at address (0x\[0-9a-f\]+).*$gdb_prompt $" {
	pass $test
	}
	}
	} else {
	gdb_test_multiple $test $test {
	-re "Symbol \"gnu_ifunc\" is at (0x\[0-9a-f\]+) in .*$gdb_prompt $" {
	pass $test
	}
	}
	}
	gdb_test "info sym $expect_out(1,string)" \
	"${gnu_ifunc_resolver} in section .*" \
	"info sym <gnu_ifunc-address>"

	# Test calling the resolver directly instead of the ifunc symbol.
	# Can only do that if the ifunc and the ifunc resolver have
	# different names.
	if {$resolver_attr} {
	if {$resolver_debug} {
	if {[istarget powerpc64-*] && [is_lp64_target]} {
	gdb_test "p gnu_ifunc_resolver(0)" \
	" = \\(int \\(\\*\\)\\(int\\)\\) @$hex: $hex <${final}>"
	} else {
	gdb_test "p gnu_ifunc_resolver(0)" \
	" = \\(int \\(\\*\\)\\(int\\)\\) $hex <final>"
	}
	} else {
	gdb_test "p gnu_ifunc_resolver(0)" \
	"'${gnu_ifunc_resolver}' has unknown return type; cast the call to its declared return type"
	gdb_test "p (void *) gnu_ifunc_resolver(0)" \
	" = \\(void \\*\\) $hex <${final}>"
	}
	}
	}

	# Test all the combinations of:
	#
	# - An ifunc resolver with the same name as the ifunc symbol vs an
	# ifunc resolver with a different name as the ifunc symbol.
	#
	# - ifunc resolver compiled with and without debug info. This ensures
	# that GDB understands that a function not a regular function by
	# looking at the STT_GNU_IFUNC type in the elf symbols. DWARF has
	# no way to express the STT_GNU_IFUNC type.
	#
	# - ifunc target function (resolved) compiled with and without debug
	# info.
	foreach_with_prefix resolver_attr {0 1} {
	foreach_with_prefix resolver_debug {0 1} {
	foreach_with_prefix final_debug {0 1} {
	if { [build $resolver_attr $resolver_debug $final_debug] != 0 } {
	misc_tests $resolver_attr $resolver_debug $final_debug
	set-break $resolver_attr $resolver_debug $final_debug
	}
	}
	}
	}

	# Test statically linked ifunc resolving during inferior start.
	# https://bugzilla.redhat.com/show_bug.cgi?id=624967

	with_test_prefix "static" {
	# Compile $staticbinfile separately as it may exit on error
	# (ld/12595).

	set lib_o [standard_output_file ${libfile}.o]
	set final_o [standard_output_file ${final_file}.o]
	if { [gdb_compile ${srcdir}/${subdir}/$libsrc $lib_o object {}] != ""
	\|\| [gdb_compile ${srcdir}/${subdir}/$final_src $final_o object {}] != ""
	\|\| [gdb_compile "${srcdir}/${subdir}/$srcfile $lib_o $final_o" \
	$staticbinfile executable {debug}] != "" } {
	untested "failed to compile second testcase"
	return -1
	}

	clean_restart $staticexecutable

	gdb_breakpoint "gnu_ifunc"
	gdb_breakpoint "main"
	gdb_run_cmd
	gdb_test "" "Breakpoint \[0-9\], main ." "static gnu_ifunc"
	}