gdb/testsuite/gdb.hp/gdb.base-hp/reg.exp - binutils-gdb - Git at Google

 # This test script is part of GDB, the GNU debugger.

 # Copyright 1998, 1999, 2001, 2004,
 # 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/>.  */

 # Tests of wide register displays for GDB on HPPA 2.0 machines

 # use this to debug:
 #log_user 1

 if $tracelevel then {
 	strace $tracelevel
 	}

 if { [skip_hp_tests] } then { continue }

 set testfile "reg"

 if [istarget "hppa64-hp-hpux*"] {
     verbose "reg.exp is not for PA2.0W."
     return 0
 }
 set srcfile ${testfile}.s
 set binfile ${objdir}/${subdir}/${testfile}

 # To build a pa 2.0 executable
 #
 #     as -o reg reg.s
 # or
 #     cc -g -o reg reg.s
 #
 # The +DA2.0N flag doesn't seem to be needed.
 #
 # Don't reject if there are warnings, as we expect this warning:
 #
 #    (Warning) At least one PA 2.0 object file (pa2.0_test2.o) was detected.
 #    The linked output may not run on a PA 1.x system.
 #

 if  { [gdb_compile "${srcdir}/${subdir}/${srcfile}" "${binfile}" executable {debug}] != "" } {
      untested reg.exp
      return -1
 }

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

 # test machine--there's no 2.0n architecture, so we have
 # to try to run the app.
 #
 send_gdb "break main\n"
     gdb_expect {
         -re "Breakpoint.*$gdb_prompt $" {
             pass "initial set-up"
         }
         -re ".*$gdb_prompt $" {
             fail "initial set-up"
         }
         timeout {
             fail "initial set-up (timeout)"
         }
     }

 send_gdb "run\n"
     gdb_expect {
         -re ".*Executable file incompatible with hardware.*$gdb_prompt $" {
             # Not hppa2.0 machine
             #
             return 0
         }
         -re "Cannot exec.*$gdb_prompt $" {
             # Not hppa2.0 machine
             #
             return 0
         }
         -re ".*Starting program:.*$gdb_prompt $" {
             pass "Ready to start test"
         }
         timeout {
             fail "initial set-up, part 2 (timeout)"
             return 0
         }
     }

 # Let the program set known values.  This secretly deletes
 # the breakpoint at main and re-runs to mainend.
 #
 runto mainend

 # Look for known values
 #
 # The output format changed between gdb 6.1.1 and gdb HEAD 2004-06-01.
 #
 #   gdb 6.1.1:
 #   (gdb) info reg r1
 #   r1 1
 #
 #   gdb HEAD 2004-06-01:
 #   (gdb) info reg r1
 #   r1             0x1     1
 #
 # For now, I accept both formats.  In the future, you can remove
 # the old gdb 6.1.1 format.
 #
 # -- chastain 2004-06-26

 set ws "\[\r\n\t \]+"

 proc hp_integer_reg {regname vhex vdec} {
   global ws
   set value_611 "$regname${ws}$vhex"
   set value_new "$regname${ws}0x$vhex${ws}$vdec"
   gdb_test "info reg $regname" "$value_611|$value_new"
 }

 hp_integer_reg "r1"      "1"     "1"
 hp_integer_reg "r4"      "2"     "2"
 hp_integer_reg "r5"      "4"     "4"
 hp_integer_reg "r6"      "8"     "8"
 hp_integer_reg "r7"     "10"    "16"
 hp_integer_reg "r8"     "20"    "32"
 hp_integer_reg "r9"     "40"    "64"
 hp_integer_reg "r10"    "80"   "128"
 hp_integer_reg "r11"   "100"   "256"
 hp_integer_reg "r12"   "200"   "512"
 hp_integer_reg "r13"   "400"  "1024"
 hp_integer_reg "r14"   "800"  "2048"
 hp_integer_reg "r15"  "1000"  "4096"
 hp_integer_reg "r16"  "2000"  "8192"

 # Two odd variants that GDB supports are:
 #   "1" means "r1", and
 #   "$1" means "r1"

 hp_integer_reg "1" "1" "1"
 hp_integer_reg "4" "2" "2"

 set name "info reg \$1"
 gdb_test_multiple "info reg \$1" "$name" {
     -re "r1${ws}1\r\n$gdb_prompt $" {
 	pass "$name"
     }
     -re "r1${ws}0x1${ws}1\r\n$gdb_prompt $" {
 	pass "$name"
     }
 }

 # Verify that GDB responds gracefully to a register ID number that
 # is out of range.

 gdb_test "info reg 999" "Invalid register.*999.*"

 # Make sure the floating point status and error registers
 # don't show up as floating point numbers!

 hp_integer_reg "fpsr" "0" "0"
 hp_integer_reg "fpe1" "0" "0"
 hp_integer_reg "fpe2" "0" "0"
 hp_integer_reg "fpe3" "0" "0"
 hp_integer_reg "fpe4" "0" "0"
 hp_integer_reg "fpe5" "0" "0"
 hp_integer_reg "fpe6" "0" "0"
 hp_integer_reg "fpe7" "0" "0"

 # Floating point registers.
 # TODO: these are old format only.

 gdb_test "info reg fr4"  ".*fr4.*(double precision).* 1"
 gdb_test "info reg fr5"  ".*fr5.*(double precision).* 2"
 gdb_test "info reg fr6"  ".*fr6.*(double precision).* 2"
 gdb_test "info reg fr7"  ".*fr7.*(double precision).* 4"
 gdb_test "info reg fr8"  ".*fr8.*(double precision).* 8"
 gdb_test "info reg fr9"  ".*fr9.*(double precision).* 32"
 gdb_test "info reg fr10" ".*fr10.*(double precision).* 256"

 # An integer register with a 64-bit value.

 set name "info reg r19"
 gdb_test_multiple "info reg r19" "$name" {
     -re "r19${ws}deadbeefbadcadee\r\n$gdb_prompt $" {
 	# old gdb 6.1.1 format, good result
 	pass "$name"
     }
     -re "r19${ws}badcadee\r\n$gdb_prompt $" {
 	# old gdb 6.1.1 format, bad result
 	fail "$name (32-bit truncation)"
     }
     -re "r19${ws}0xdeadbeefbadcadee${ws}16045690984232431086\r\n$gdb_prompt $" {
 	# new gdb HEAD 2004-06-01 format, good result
 	pass "$name"
     }
     -re "r19${ws}0xbadcadee${ws}3135024622\r\n$gdb_prompt $" {
 	# new gdb HEAD 2004-06-01 format, 32 bit truncation
 	fail "$name (32-bit truncation)"
     }
 }

 set name "print /x \$r19"
 gdb_test_multiple "print /x \$r19" "$name" {
     -re "= 0xdeadbeefbadcadee\r\n$gdb_prompt $" {
 	pass "$name"
     }
     -re "= 0xbadcadee\r\n$gdb_prompt $" {
 	# this was a PASS in the last version so keep it PASS for now
 	# -- chastain 2004-06-26
 	pass "$name (32-bit truncation)"
     }
 }

 # Need to add tests of setting wide regs too.  E.g.
 #
 # set $r4 = 0x1234567890123456
 # p/x $r4
 #

 # done
 #
 gdb_exit

 return 0
	# This test script is part of GDB, the GNU debugger.

	# Copyright 1998, 1999, 2001, 2004,
	# 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/>. */

	# Tests of wide register displays for GDB on HPPA 2.0 machines

	# use this to debug:
	#log_user 1

	if $tracelevel then {
	strace $tracelevel
	}

	if { [skip_hp_tests] } then { continue }

	set testfile "reg"

	if [istarget "hppa64-hp-hpux*"] {
	verbose "reg.exp is not for PA2.0W."
	return 0
	}
	set srcfile ${testfile}.s
	set binfile ${objdir}/${subdir}/${testfile}

	# To build a pa 2.0 executable
	#
	# as -o reg reg.s
	# or
	# cc -g -o reg reg.s
	#
	# The +DA2.0N flag doesn't seem to be needed.
	#
	# Don't reject if there are warnings, as we expect this warning:
	#
	# (Warning) At least one PA 2.0 object file (pa2.0_test2.o) was detected.
	# The linked output may not run on a PA 1.x system.
	#

	if { [gdb_compile "${srcdir}/${subdir}/${srcfile}" "${binfile}" executable {debug}] != "" } {
	untested reg.exp
	return -1
	}

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

	# test machine--there's no 2.0n architecture, so we have
	# to try to run the app.
	#
	send_gdb "break main\n"
	gdb_expect {
	-re "Breakpoint.*$gdb_prompt $" {
	pass "initial set-up"
	}
	-re ".*$gdb_prompt $" {
	fail "initial set-up"
	}
	timeout {
	fail "initial set-up (timeout)"
	}
	}

	send_gdb "run\n"
	gdb_expect {
	-re ".Executable file incompatible with hardware.$gdb_prompt $" {
	# Not hppa2.0 machine
	#
	return 0
	}
	-re "Cannot exec.*$gdb_prompt $" {
	# Not hppa2.0 machine
	#
	return 0
	}
	-re ".Starting program:.$gdb_prompt $" {
	pass "Ready to start test"
	}
	timeout {
	fail "initial set-up, part 2 (timeout)"
	return 0
	}
	}

	# Let the program set known values. This secretly deletes
	# the breakpoint at main and re-runs to mainend.
	#
	runto mainend

	# Look for known values
	#
	# The output format changed between gdb 6.1.1 and gdb HEAD 2004-06-01.
	#
	# gdb 6.1.1:
	# (gdb) info reg r1
	# r1 1
	#
	# gdb HEAD 2004-06-01:
	# (gdb) info reg r1
	# r1 0x1 1
	#
	# For now, I accept both formats. In the future, you can remove
	# the old gdb 6.1.1 format.
	#
	# -- chastain 2004-06-26

	set ws "\[\r\n\t \]+"

	proc hp_integer_reg {regname vhex vdec} {
	global ws
	set value_611 "$regname${ws}$vhex"
	set value_new "$regname${ws}0x$vhex${ws}$vdec"
	gdb_test "info reg $regname" "$value_611\|$value_new"
	}

	hp_integer_reg "r1" "1" "1"
	hp_integer_reg "r4" "2" "2"
	hp_integer_reg "r5" "4" "4"
	hp_integer_reg "r6" "8" "8"
	hp_integer_reg "r7" "10" "16"
	hp_integer_reg "r8" "20" "32"
	hp_integer_reg "r9" "40" "64"
	hp_integer_reg "r10" "80" "128"
	hp_integer_reg "r11" "100" "256"
	hp_integer_reg "r12" "200" "512"
	hp_integer_reg "r13" "400" "1024"
	hp_integer_reg "r14" "800" "2048"
	hp_integer_reg "r15" "1000" "4096"
	hp_integer_reg "r16" "2000" "8192"

	# Two odd variants that GDB supports are:
	# "1" means "r1", and
	# "$1" means "r1"

	hp_integer_reg "1" "1" "1"
	hp_integer_reg "4" "2" "2"

	set name "info reg \$1"
	gdb_test_multiple "info reg \$1" "$name" {
	-re "r1${ws}1\r\n$gdb_prompt $" {
	pass "$name"
	}
	-re "r1${ws}0x1${ws}1\r\n$gdb_prompt $" {
	pass "$name"
	}
	}

	# Verify that GDB responds gracefully to a register ID number that
	# is out of range.

	gdb_test "info reg 999" "Invalid register.999."

	# Make sure the floating point status and error registers
	# don't show up as floating point numbers!

	hp_integer_reg "fpsr" "0" "0"
	hp_integer_reg "fpe1" "0" "0"
	hp_integer_reg "fpe2" "0" "0"
	hp_integer_reg "fpe3" "0" "0"
	hp_integer_reg "fpe4" "0" "0"
	hp_integer_reg "fpe5" "0" "0"
	hp_integer_reg "fpe6" "0" "0"
	hp_integer_reg "fpe7" "0" "0"

	# Floating point registers.
	# TODO: these are old format only.

	gdb_test "info reg fr4" ".fr4.(double precision).* 1"
	gdb_test "info reg fr5" ".fr5.(double precision).* 2"
	gdb_test "info reg fr6" ".fr6.(double precision).* 2"
	gdb_test "info reg fr7" ".fr7.(double precision).* 4"
	gdb_test "info reg fr8" ".fr8.(double precision).* 8"
	gdb_test "info reg fr9" ".fr9.(double precision).* 32"
	gdb_test "info reg fr10" ".fr10.(double precision).* 256"

	# An integer register with a 64-bit value.

	set name "info reg r19"
	gdb_test_multiple "info reg r19" "$name" {
	-re "r19${ws}deadbeefbadcadee\r\n$gdb_prompt $" {
	# old gdb 6.1.1 format, good result
	pass "$name"
	}
	-re "r19${ws}badcadee\r\n$gdb_prompt $" {
	# old gdb 6.1.1 format, bad result
	fail "$name (32-bit truncation)"
	}
	-re "r19${ws}0xdeadbeefbadcadee${ws}16045690984232431086\r\n$gdb_prompt $" {
	# new gdb HEAD 2004-06-01 format, good result
	pass "$name"
	}
	-re "r19${ws}0xbadcadee${ws}3135024622\r\n$gdb_prompt $" {
	# new gdb HEAD 2004-06-01 format, 32 bit truncation
	fail "$name (32-bit truncation)"
	}
	}

	set name "print /x \$r19"
	gdb_test_multiple "print /x \$r19" "$name" {
	-re "= 0xdeadbeefbadcadee\r\n$gdb_prompt $" {
	pass "$name"
	}
	-re "= 0xbadcadee\r\n$gdb_prompt $" {
	# this was a PASS in the last version so keep it PASS for now
	# -- chastain 2004-06-26
	pass "$name (32-bit truncation)"
	}
	}

	# Need to add tests of setting wide regs too. E.g.
	#
	# set $r4 = 0x1234567890123456
	# p/x $r4
	#

	# done
	#
	gdb_exit

	return 0