gdb/testsuite/gdb.trace/entry-values.exp - third_party/binutils-gdb - Git at Google

 # Copyright 2013-2016 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 <http://www.gnu.org/licenses/>.
 load_lib dwarf.exp

 # This test can only be run on targets which support DWARF-2 and use gas.
 if {![dwarf2_support]} {
     return 0
 }

 standard_testfile .c entry-values-dw.S

 if  {[gdb_compile ${srcdir}/${subdir}/${srcfile} ${binfile}1.o \
 	  object {nodebug}] != ""} {
     return -1
 }

 if  {[gdb_compile [list ${binfile}1.o] \
 	  "${binfile}1" executable {}] != ""} {
     return -1
 }

 # Start GDB and load executable file, compute the offset of the
 # instruction in bar returned from foo.  It is needed in the Dwarf
 # Assembler.

 gdb_exit
 gdb_start
 gdb_reinitialize_dir $srcdir/$subdir
 gdb_load ${binfile}1

 set returned_from_foo ""

 if { [istarget "arm*-*-*"] || [istarget "aarch64*-*-*"] } {
     set call_insn "bl"
 } elseif { [istarget "s390*-*-*"] } {
     set call_insn "brasl"
 } elseif { [istarget "powerpc*-*-*"] } {
     set call_insn "bl"
 } elseif { [istarget "mips*-*-*"] } {
     # Skip the delay slot after the instruction used to make a call
     # (which can be a jump or a branch) if it has one.
     #
     #  JUMP (or BRANCH) foo
     #  insn1
     #  insn2
     #
     # Most MIPS instructions used to make calls have a delay slot.
     # These include JAL, JALS, JALX, JALR, JALRS, BAL and BALS.
     # In this case the program continues from `insn2' when `foo'
     # returns.  The only exception is JALRC, in which case execution
     # resumes from `insn1' instead.
     set call_insn {jalrc|[jb]al[sxr]*[ \t][^\r\n]+\r\n}
 } elseif [is_amd64_regs_target] {
     set call_insn "callq"
 } else {
     set call_insn "call"
 }

 # Calculate the offset of the instruction in bar returned from foo.
 set test "disassemble bar"
 gdb_test_multiple $test $test {
     -re ".*$hex <\\+$decimal>:\[ \t\]+\\y$call_insn\\y\[^\r\n\]+\r\n\[ \]+$hex <\\+($decimal)>:.*$gdb_prompt $" {
 	set returned_from_foo $expect_out(1,string)
     }
     -re ".*$gdb_prompt $" {
 	fail $test
     }
 }

 if { [string equal $returned_from_foo ""] } {
     fail "Find the call or branch instruction offset in bar"
     # The following test makes no sense if the offset is unknown.  We need
     # to update the pattern above to match call or branch instruction for
     # the target architecture.
     return -1
 }

 gdb_exit

 # Make some DWARF for the test.
 set asm_file [standard_output_file $srcfile2]
 Dwarf::assemble $asm_file {
     declare_labels int_label foo_label
     global returned_from_foo
     global srcdir subdir srcfile

     set bar_result [function_range bar ${srcdir}/${subdir}/${srcfile}]
     set bar_start [lindex $bar_result 0]
     set bar_length [lindex $bar_result 1]

     cu {} {
 	compile_unit {{language @DW_LANG_C}} {
 	    int_label: base_type {
 		{name int}
 		{encoding @DW_ATE_signed}
 		{byte_size 4 DW_FORM_sdata}
 	    }

 	    foo_label: subprogram {
 		{decl_file 1 sdata}
 		{MACRO_AT_func { foo ${srcdir}/${subdir}/${srcfile} }}
 	    } {
 		formal_parameter {
 		    {type :$int_label}
 		    {name i}
 		    {location {DW_OP_reg0} SPECIAL_expr}
 		}
 		formal_parameter {
 		    {type :$int_label}
 		    {name j}
 		    {location {DW_OP_reg1} SPECIAL_expr}
 		}
 	    }

 	    subprogram {
 		{name bar}
 		{decl_file 1 sdata}
 		{low_pc $bar_start addr}
 		{high_pc "$bar_start + $bar_length" addr}
 		{GNU_all_call_sites 1 sdata}
 	    } {
 		formal_parameter {
 		    {type :$int_label}
 		    {name i}
 		}

 		GNU_call_site {
 		    {low_pc "$bar_start + $returned_from_foo" addr}
 		    {abstract_origin :$foo_label}
 		} {
 		    # Faked entry values are reference to variables 'global1'
 		    # and 'global2' and faked locations are register 0 and
 		    # register 1.
 		    GNU_call_site_parameter {
 			{location {DW_OP_reg0} SPECIAL_expr}
 			{GNU_call_site_value {
 			    addr global1
 			    deref_size 4
 			} SPECIAL_expr}
 		    }
 		    GNU_call_site_parameter {
 			{location {DW_OP_reg1} SPECIAL_expr}
 			{GNU_call_site_value {
 			    addr global2
 			    deref_size 4
 			} SPECIAL_expr}
 		    }
 		}
 	    }
 	}
     }
 }

 if  {[gdb_compile $asm_file ${binfile}2.o object {nodebug}] != ""} {
     return -1
 }

 if  {[gdb_compile [list ${binfile}1.o ${binfile}2.o] \
 	  "${binfile}" executable {}] != ""} {
     return -1
 }

 clean_restart ${testfile}

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

 gdb_breakpoint "foo"

 gdb_continue_to_breakpoint "foo"

 gdb_test_no_output "set print entry-values both"

 gdb_test_sequence "bt" "bt (1)" {
     "\[\r\n\]#0 .* foo \\(i=[-]?[0-9]+, i@entry=2, j=[-]?[0-9]+, j@entry=3\\)"
     "\[\r\n\]#1 .* bar \\(i=<optimized out>, i@entry=<optimized out>\\)"
     "\[\r\n\]#2 .* \.?main \\(\\)"
 }

 # Update global variables 'global1' and 'global2' and test that the
 # entry values are updated too.

 gdb_test_no_output "set var global1=10"
 gdb_test_no_output "set var global2=11"

 gdb_test_sequence "bt" "bt (2)" {
     "\[\r\n\]#0 .* foo \\(i=[-]?[0-9]+, i@entry=10, j=[-]?[0-9]+, j@entry=11\\)"
     "\[\r\n\]#1 .* bar \\(i=<optimized out>, i@entry=<optimized out>\\)"
     "\[\r\n\]#2 .* \.?main \\(\\)"
 }

 # Restart GDB and trace.

 clean_restart $binfile

 load_lib "trace-support.exp"

 if ![runto_main] {
     fail "Can't run to main to check for trace support"
     return -1
 }

 if ![gdb_target_supports_trace] {
     unsupported "target does not support trace"
     return -1
 }

 gdb_test "trace foo" "Tracepoint $decimal at .*"

 # Collect arguments i and j.  Collect 'global1' which is entry value
 # of argument i.  Don't collect 'global2' to test the entry value of
 # argument j.

 gdb_trace_setactions "set action for tracepoint 1" "" \
     "collect i, j, global1, \(\*\(void \*\*\) \(\$$spreg\)\) @ 128" "^$"

 gdb_test_no_output "tstart"

 gdb_breakpoint "end"
 gdb_continue_to_breakpoint "end"

 gdb_test_no_output "tstop"

 gdb_test "tfind" "Found trace frame 0, .*" "tfind start"

 # Since 'global2' is not collected, j@entry is expected to be 'unavailable'.
 gdb_test "bt 1" "#0 .* foo \\(i=\[-\]?$decimal, i@entry=2, j=\[-\]?$decimal, j@entry=<unavailable>\\).*"

 # Test that unavailable "j@entry" is not shown when command option
 # --skip-unavailable is used.
 gdb_test "interpreter-exec mi \"-stack-list-arguments --skip-unavailable --simple-values\"" \
     "\r\n\\^done,stack-args=\\\[frame={level=\"0\",args=\\\[{name=\"i\",type=\"int\",value=\".*\"},{name=\"i@entry\",type=\"int\",value=\"2\"},{name=\"j\",type=\"int\",value=\".*\"}\\\]},frame=.*\\\].*"

 gdb_test "tfind" "Target failed to find requested trace frame\..*"
	# Copyright 2013-2016 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 <http://www.gnu.org/licenses/>.
	load_lib dwarf.exp

	# This test can only be run on targets which support DWARF-2 and use gas.
	if {![dwarf2_support]} {
	return 0
	}

	standard_testfile .c entry-values-dw.S

	if {[gdb_compile ${srcdir}/${subdir}/${srcfile} ${binfile}1.o \
	object {nodebug}] != ""} {
	return -1
	}

	if {[gdb_compile [list ${binfile}1.o] \
	"${binfile}1" executable {}] != ""} {
	return -1
	}

	# Start GDB and load executable file, compute the offset of the
	# instruction in bar returned from foo. It is needed in the Dwarf
	# Assembler.

	gdb_exit
	gdb_start
	gdb_reinitialize_dir $srcdir/$subdir
	gdb_load ${binfile}1

	set returned_from_foo ""

	if { [istarget "arm--"] \|\| [istarget "aarch64--"] } {
	set call_insn "bl"
	} elseif { [istarget "s390--*"] } {
	set call_insn "brasl"
	} elseif { [istarget "powerpc--*"] } {
	set call_insn "bl"
	} elseif { [istarget "mips--*"] } {
	# Skip the delay slot after the instruction used to make a call
	# (which can be a jump or a branch) if it has one.
	#
	# JUMP (or BRANCH) foo
	# insn1
	# insn2
	#
	# Most MIPS instructions used to make calls have a delay slot.
	# These include JAL, JALS, JALX, JALR, JALRS, BAL and BALS.
	# In this case the program continues from `insn2' when `foo'
	# returns. The only exception is JALRC, in which case execution
	# resumes from `insn1' instead.
	set call_insn {jalrc\|[jb]al[sxr]*[ \t][^\r\n]+\r\n}
	} elseif [is_amd64_regs_target] {
	set call_insn "callq"
	} else {
	set call_insn "call"
	}

	# Calculate the offset of the instruction in bar returned from foo.
	set test "disassemble bar"
	gdb_test_multiple $test $test {
	-re ".$hex <\\+$decimal>:\[ \t\]+\\y$call_insn\\y\[^\r\n\]+\r\n\[ \]+$hex <\\+($decimal)>:.$gdb_prompt $" {
	set returned_from_foo $expect_out(1,string)
	}
	-re ".*$gdb_prompt $" {
	fail $test
	}
	}

	if { [string equal $returned_from_foo ""] } {
	fail "Find the call or branch instruction offset in bar"
	# The following test makes no sense if the offset is unknown. We need
	# to update the pattern above to match call or branch instruction for
	# the target architecture.
	return -1
	}

	gdb_exit

	# Make some DWARF for the test.
	set asm_file [standard_output_file $srcfile2]
	Dwarf::assemble $asm_file {
	declare_labels int_label foo_label
	global returned_from_foo
	global srcdir subdir srcfile

	set bar_result [function_range bar ${srcdir}/${subdir}/${srcfile}]
	set bar_start [lindex $bar_result 0]
	set bar_length [lindex $bar_result 1]

	cu {} {
	compile_unit {{language @DW_LANG_C}} {
	int_label: base_type {
	{name int}
	{encoding @DW_ATE_signed}
	{byte_size 4 DW_FORM_sdata}
	}

	foo_label: subprogram {
	{decl_file 1 sdata}
	{MACRO_AT_func { foo ${srcdir}/${subdir}/${srcfile} }}
	} {
	formal_parameter {
	{type :$int_label}
	{name i}
	{location {DW_OP_reg0} SPECIAL_expr}
	}
	formal_parameter {
	{type :$int_label}
	{name j}
	{location {DW_OP_reg1} SPECIAL_expr}
	}
	}

	subprogram {
	{name bar}
	{decl_file 1 sdata}
	{low_pc $bar_start addr}
	{high_pc "$bar_start + $bar_length" addr}
	{GNU_all_call_sites 1 sdata}
	} {
	formal_parameter {
	{type :$int_label}
	{name i}
	}

	GNU_call_site {
	{low_pc "$bar_start + $returned_from_foo" addr}
	{abstract_origin :$foo_label}
	} {
	# Faked entry values are reference to variables 'global1'
	# and 'global2' and faked locations are register 0 and
	# register 1.
	GNU_call_site_parameter {
	{location {DW_OP_reg0} SPECIAL_expr}
	{GNU_call_site_value {
	addr global1
	deref_size 4
	} SPECIAL_expr}
	}
	GNU_call_site_parameter {
	{location {DW_OP_reg1} SPECIAL_expr}
	{GNU_call_site_value {
	addr global2
	deref_size 4
	} SPECIAL_expr}
	}
	}
	}
	}
	}
	}

	if {[gdb_compile $asm_file ${binfile}2.o object {nodebug}] != ""} {
	return -1
	}

	if {[gdb_compile [list ${binfile}1.o ${binfile}2.o] \
	"${binfile}" executable {}] != ""} {
	return -1
	}

	clean_restart ${testfile}

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

	gdb_breakpoint "foo"

	gdb_continue_to_breakpoint "foo"

	gdb_test_no_output "set print entry-values both"

	gdb_test_sequence "bt" "bt (1)" {
	"\[\r\n\]#0 .* foo \\(i=[-]?[0-9]+, i@entry=2, j=[-]?[0-9]+, j@entry=3\\)"
	"\[\r\n\]#1 .* bar \\(i=<optimized out>, i@entry=<optimized out>\\)"
	"\[\r\n\]#2 .* \.?main \\(\\)"
	}

	# Update global variables 'global1' and 'global2' and test that the
	# entry values are updated too.

	gdb_test_no_output "set var global1=10"
	gdb_test_no_output "set var global2=11"

	gdb_test_sequence "bt" "bt (2)" {
	"\[\r\n\]#0 .* foo \\(i=[-]?[0-9]+, i@entry=10, j=[-]?[0-9]+, j@entry=11\\)"
	"\[\r\n\]#1 .* bar \\(i=<optimized out>, i@entry=<optimized out>\\)"
	"\[\r\n\]#2 .* \.?main \\(\\)"
	}

	# Restart GDB and trace.

	clean_restart $binfile

	load_lib "trace-support.exp"

	if ![runto_main] {
	fail "Can't run to main to check for trace support"
	return -1
	}

	if ![gdb_target_supports_trace] {
	unsupported "target does not support trace"
	return -1
	}

	gdb_test "trace foo" "Tracepoint $decimal at .*"

	# Collect arguments i and j. Collect 'global1' which is entry value
	# of argument i. Don't collect 'global2' to test the entry value of
	# argument j.

	gdb_trace_setactions "set action for tracepoint 1" "" \
	"collect i, j, global1, \(\\(void \\*\) \(\$$spreg\)\) @ 128" "^$"

	gdb_test_no_output "tstart"

	gdb_breakpoint "end"
	gdb_continue_to_breakpoint "end"

	gdb_test_no_output "tstop"

	gdb_test "tfind" "Found trace frame 0, .*" "tfind start"

	# Since 'global2' is not collected, j@entry is expected to be 'unavailable'.
	gdb_test "bt 1" "#0 .* foo \\(i=\[-\]?$decimal, i@entry=2, j=\[-\]?$decimal, j@entry=<unavailable>\\).*"

	# Test that unavailable "j@entry" is not shown when command option
	# --skip-unavailable is used.
	gdb_test "interpreter-exec mi \"-stack-list-arguments --skip-unavailable --simple-values\"" \
	"\r\n\\^done,stack-args=\\\[frame={level=\"0\",args=\\\[{name=\"i\",type=\"int\",value=\".\"},{name=\"i@entry\",type=\"int\",value=\"2\"},{name=\"j\",type=\"int\",value=\".\"}\\\]},frame=.\\\]."

	gdb_test "tfind" "Target failed to find requested trace frame\..*"