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# Copyright (C) 1992 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 2 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, write to the Free Software
# Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */
# Please email any bugs, comments, and/or additions to this file to:
# bug-gdb@prep.ai.mit.edu
# This file was written by Fred Fish. (fnf@cygnus.com)
# Rob Savoye changed it to use gdb_test (rob@cygnus.com)
if $tracelevel then {
strace $tracelevel
}
set prms_id 0
set bug_id 0
# FIXME: The configure.in for this test should look for --with-targets
# and deal accordingly. Until that has been done, skip the whole thing.
# With a minimal bfd (the default), few if any of these tests work.
verbose "FIXME: all the crossload tests ignored"
continue
# FIXME: These tests don't work for the i960, because
# bfd/config/i960-bout.mt sets SELECT_VECS. I could use setup_xfail
# for each test, but rebooting the board between each one takes a long
# time so I'm just punting the whole file.
if [istarget "i960-*-*"] then {
if $verbose>1 then {
warning "FIXME: crossload test case doesn't run on the i960."
}
continue
}
# FIXME: These tests don't work for the a29k, because SELECT_VECS is
# used when compiling bfd. It would be nice if there were some better
# way of detecting this case.
if [istarget "a29k-*-*"] then {
if $verbose>1 then {
warning "FIXME: crossload test case doesn't run on the a29k."
}
continue
}
# Test if gdb can automatically determine the bfd format of an
# executable and read it's symbols.
proc bfddefault {} {
global GDB
global GDBFLAGS
global prompt
global objdir
global subdir
global binfile
global bfdformat
global file_loaded
gdb_unload
set file_loaded 0
send "file $objdir/$subdir/$binfile\n"
expect {
-re "A program is being debugged already. Kill it.*y or n." {
send "y\n"
exp_continue
}
-re "Reading symbols from $objdir/$subdir/$binfile\[.\]+done\..*$prompt $" {
pass "$binfile ($bfdformat) auto format"
}
-re "Reading symbols from $objdir/$subdir/$binfile\[.\]+.no debugging symbols found.\[.\]+done\..*$prompt $" {
pass "$binfile ($bfdformat) auto format (but no symbols found)"
}
-re "File format not recognized.*$prompt $" {
fail "$binfile ($bfdformat) auto format (format not recognized)"
return
}
-re "File format is ambiguous.*$prompt $" {
fail "$binfile ($bfdformat) auto format (format is ambiguous)"
return
}
-re "$prompt $" {
fail "$binfile ($bfdformat) auto format"
return
}
timeout {
fail "(timeout) $binfile ($bfdformat) auto format"
return
}
}
if [gdb_test "info target" ".*file type $bfdformat" ""]==0 then {
set file_loaded 1
} else {
fail "$binfile ($bfdformat) wrong format found"
}
}
# Test if gdb can read symbols from an executable when the bfd format
# is explicitly set via the environment variable GNUTARGET.
proc bfdexplicit {} {
global GDB
global GDBFLAGS
global prompt
global subdir
global objdir
global det_file
global binfile
global bfdformat
global file_loaded
gdb_unload
set file_loaded 0
# Once GDB 4.10 (the last to lack `set gnutarget') is forgotten,
# change this to use set gnutarget.
if [gdb_test "set env GNUTARGET=$bfdformat" "" ""]!=0 then {
fail "setting GNUTARGET=$bfdformat in environment"
return
}
send "file $objdir/$subdir/$binfile\n"
expect {
-re "A program is being debugged already. Kill it.*y or n." {
send "y\n"
exp_continue
}
-re "Reading symbols from $objdir/$subdir/$binfile\[.\]+done\..*$prompt $" {
pass "$binfile ($bfdformat) explicit format"
}
-re "Invalid target.*$prompt $" {
fail "$binfile ($bfdformat) explicit format (invalid target)"
return
}
-re "$prompt $" {
fail "$binfile ($bfdformat) explicit format"
return
}
timeout {
fail "(timeout) $binfile ($bfdformat) explicit format"
return
}
}
set file_loaded 1
}
proc test_ptype_functions {} {
global prompt
global binfile
global bfdformat
global det_file
send "ptype main\n"
expect {
-re "type = int \[)(\]+\r\n$prompt $" {}
timeout { fail "$binfile ($bfdformat) function main" ; return }
}
# set up a list of lists of command and patterns
set command [list { "ptype v_char_func" "type =(\ unsigned\ |\ signed\ |\ )char \[)(\]+" }\
{ "ptype v_short_func" "type = (short|short int) \[)(\]+" } \
{ "ptype v_int_func" "type = int \[)(\]+" } \
{ "ptype v_long_func" "type = (long|long int|int) \[)(\]+" } \
{ "ptype v_float_func" "type = float \[)(\]+" } \
{ "ptype v_double_func" "type = double \[)(\]+" } ]
foreach i $command {
if [gdb_test [lindex $i 0] [lindex $i 1] ""] then {
fail "$binfile ($bfdformat) \"[lindex $i 0]\" function types"
return
}
}
pass "$binfile ($bfdformat) ptype function types"
}
# Note that plain chars can be either signed or unsigned.
proc test_ptype_plain_types {} {
global prompt
global binfile
global bfdformat
# set up a list of lists of command and patterns
set command [list { "ptype v_char" "type =(\ unsigned\ |\ signed\ |\ )char" }\
{ "ptype v_short" "type = short" } \
{ "ptype v_int" "type = int" } \
{ "ptype v_long" "type = long" } \
{ "ptype v_float" "type = float" } \
{ "ptype v_double" "type = double" } ]
foreach i $command {
if [gdb_test [lindex $i 0] [lindex $i 1] ""] then {
fail "$binfile ($bfdformat) \"[lindex $i 0]\" plain C types"
return
}
}
pass "$binfile ($bfdformat) ptype plain C types"
}
# Note that if compiled with pre-ANSI compilers, the "signed" keywords are
# defined away and the variables default to plain types. So accept either.
proc test_ptype_signed_types {} {
global prompt
global binfile
global bfdformat
global det_file
# set up a list of lists of command and patterns
set command [list { "ptype v_signed_char" "type =(\ signed\ |\ )char" }\
{ "ptype v_signed_short" "type =(\ signed\ |\ )short" } \
{ "ptype v_signed_int" "type =(\ signed\ |\ )int" } \
{ "ptype v_signed_long" "type =(\ signed\ |\ )long" } ]
foreach i $command {
if [gdb_test [lindex $i 0] [lindex $i 1] ""] then {
if [expr [string match "ecoff-bigmips" $bfdformat]+[string match "ptype v_signed_char" [lindex $i 0]]]==2 then {
setup_xfail "*-*-*"
}
fail "$binfile ($bfdformat) \"[lindex $i 0]\" signed C types"
return
}
}
pass "$binfile ($bfdformat) ptype signed C types"
}
proc test_ptype_unsigned_types {} {
global prompt
global binfile
global bfdformat
global det_file
# set up a list of lists of command and patterns
set command [list { "ptype v_unsigned_char" "type = unsigned char" }\
{ "ptype v_unsigned_short" \
"type = (unsigned short|short unsigned int)" } \
{ "ptype v_unsigned_int" "type = unsigned int" } \
{ "ptype v_unsigned_long" \
"type = (unsigned long|long unsigned int)" } ]
foreach i $command {
if [gdb_test [lindex $i 0] [lindex $i 1] ""] then {
fail "$binfile ($bfdformat) \"[lindex $i 0]\" unsigned C types"
return
}
}
pass "$binfile ($bfdformat) ptype unsigned C types"
}
# Note that plain chars can be either signed or unsigned.
proc test_ptype_array_types {} {
global prompt
global binfile
global bfdformat
global det_file
# set up a list of lists of command and patterns
set command [list { "ptype v_char_array" "type =(\ unsigned\ |\ signed\ |\ )char \\\[2\\\]" }\
{ "ptype v_short_array" \
"type = (short|short int) \\\[2\\\]" } \
{ "ptype v_int_array" "type = int \\\[2\\\]" } \
{ "ptype v_long_array" "type = (long|long int) \\\[2\\\]" } \
{ "ptype v_float_array" "type = float \\\[2\\\]" } \
{ "ptype v_double_array" "type = double \\\[2\\\]" } ]
foreach i $command {
if [gdb_test [lindex $i 0] [lindex $i 1] ""] then {
fail "$binfile ($bfdformat) \"[lindex $i 0]\" C array types"
return
}
}
pass "$binfile ($bfdformat) ptype C array types"
}
proc test_ptype_pointer_types {} {
global prompt
global binfile
global bfdformat
global det_file
# set up a list of lists of command and patterns
set command [list { "ptype v_char_pointer" "type =(\ unsigned\ |\ signed\ |\ )char \*" }\
{ "ptype v_short_pointer" "type = (short|short int) \*" } \
{ "ptype v_int_pointer" "type = int \*" } \
{ "ptype v_long_pointer" "type = (long|long int) \*" } \
{ "ptype v_float_pointer" "type = float \*" } \
{ "ptype v_double_pointer" "type = double \*" } ]
foreach i $command {
if [gdb_test [lindex $i 0] [lindex $i 1] ""] then {
fail "$binfile ($bfdformat) \"[lindex $i 0]\" C pointer types"
return
}
}
pass "$binfile ($bfdformat) ptype C pointer types"
}
proc loadandtest { args } {
global verbose
global GDB
global GDBFLAGS
global prompt
global subdir
global objdir
global binfile
global bfdformat
global file_loaded
set binfile [ lindex $args 0 ]
set bfdformat [ lindex $args 1 ]
set fixme [ lindex $args 2 ]
if ![file exists $objdir/$subdir/$binfile] then {
perror "$objdir/$subdir/$binfile does not exist"
return 0
}
gdb_exit
gdb_start
if $fixme then { setup_xfail "*-*-*" }
bfddefault
if $fixme then { setup_xfail "*-*-*" }
if [string match $bfdformat "elf-big"] then {
if [string match $binfile "i860-elf"] then {
setup_xfail "*-*-*"
}
}
bfdexplicit
if $file_loaded==1 then {
test_ptype_functions
if $fixme then { setup_xfail "*-*-*" }
test_ptype_plain_types
if $fixme then { setup_xfail "*-*-*" }
test_ptype_signed_types
if $fixme then { setup_xfail "*-*-*" }
test_ptype_unsigned_types
if $fixme then { setup_xfail "*-*-*" }
test_ptype_array_types
if $fixme then { setup_xfail "*-*-*" }
test_ptype_pointer_types
}
}
# Run tests for each of the test executables.
# If the third argument is 1, the tests will be expected to fail.
# We should extract the information about available tests and bfd formats
# from the makefile or some other control file (FIXME).
loadandtest m68k-elf "elf32-m68k" 0
# I'm getting an XPASS for explicit format on this one
loadandtest m68k-aout "a.out-newsos3" 1
loadandtest m68k-aout2 "a.out-sunos-big" 0
loadandtest mips-ecoff "ecoff-bigmips" 0
loadandtest i486-elf "elf32-i386" 0
loadandtest sparc-aout "a.out-sunos-big" 0
loadandtest sparc-elf "elf32-sparc" 0
#FIXME: i860 support is unlikely to be working in the near future
# so suppress this test until it is working. -fnf
#loadandtest i860-elf "elf32-i860" 0
gdb_test "set gnutarget auto" ""
|