# Copyright 1997-2014 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 . # Test that GDB properly ignores invalid stabs. # Also test that GDB can debug a .o file, and that it doesn't mind # a file that's more minimal than what a compiler normally puts out. set testfile weird set srcfile [standard_output_file weird.s] set binfile [standard_output_file weirdx.o] if { [ get_compiler_info ] } { return -1 } if { $hp_cc_compiler || $hp_aCC_compiler } { # The native hp-ux assembler does not support stabs at all. # If the compiler is native hp-ux, of course the assembler is too. # But if someone builds gcc with the native assembler (not recommended) # rather than the gnu assembler, then this logic will not suppress it. # -- chastain 2004-01-07 unsupported "stabs with hp-ux assembler" continue } proc do_tests {} { global binfile global gdb_prompt # Mips/alpha targets that use gcc with mips-tfile put out the stabs # assembler directives embedded in comments. If the assembler # file is then processed with native cc, all stabs directives # will be lost. # Skip the rest of the stabs tests for this case. send_gdb "ptype inttype\n" gdb_expect { -re "^ptype inttype\r*\ntype = inttype.*$gdb_prompt $" { pass "stabs found" } -re ".*$gdb_prompt $" { setup_xfail "mips-*-*" setup_xfail "alpha-*-*" fail "stabs not found" return } default { fail "checking for stabs" } } print_weird_var var0 print_weird_var var1 print_weird_var var2 print_weird_var var3 print_weird_var attr32 print_weird_var attr33 print_weird_var attr35 print_weird_var attr36 print_weird_var attr37 print_weird_var attr38 print_weird_var attr39 print_weird_var attr41 print_weird_var attr42 print_weird_var attr43 print_weird_var attr44 print_weird_var attr46 print_weird_var attr47 print_weird_var attr58 print_weird_var attr59 print_weird_var attr60 print_weird_var attr61 print_weird_var attr62 print_weird_var attr63 print_weird_var attr64 print_weird_var attr65 print_weird_var attr66 print_weird_var attr67 print_weird_var attr68 print_weird_var attr69 print_weird_var attr70 print_weird_var attr71 print_weird_var attr72 print_weird_var attr73 print_weird_var attr74 print_weird_var attr75 print_weird_var attr76 print_weird_var attr77 print_weird_var attr78 print_weird_var attr79 print_weird_var attr80 print_weird_var attr81 print_weird_var attr82 print_weird_var attr83 print_weird_var attr84 print_weird_var attr85 print_weird_var attr86 print_weird_var attr87 print_weird_var attr88 print_weird_var attr89 print_weird_var attr90 print_weird_var attr91 print_weird_var attr92 print_weird_var attr93 print_weird_var attr94 print_weird_var attr95 print_weird_var attr96 print_weird_var attr97 print_weird_var attr98 print_weird_var attr99 print_weird_var attr100 print_weird_var attr101 print_weird_var attr102 print_weird_var attr103 print_weird_var attr104 print_weird_var attr105 print_weird_var attr106 print_weird_var attr107 print_weird_var attr108 print_weird_var attr109 print_weird_var attr110 print_weird_var attr111 print_weird_var attr112 print_weird_var attr113 print_weird_var attr114 print_weird_var attr115 print_weird_var attr116 print_weird_var attr117 print_weird_var attr118 print_weird_var attr119 print_weird_var attr120 print_weird_var attr121 print_weird_var attr122 print_weird_var attr123 print_weird_var attr124 print_weird_var attr125 print_weird_var attr126 gdb_test "p const69" " = 69" "'e' constant on non-enum type" gdb_test "whatis const69" "type = (unsigned int|inttype)" "whatis const69" gdb_test "p sizeof (const70)" " = 2" "'e' constant with embedded type" gdb_test "p constchar" " = 97 'a'" "char constant" gdb_test "p constString1" " = \"Single quote String1\"" "String constant 1" gdb_test "p constString2" " = \"Double quote String2\"" "String constant 2" gdb_test "p constString3" " = \"String3 with embedded quote ' in the middle\"" "String constant 3" gdb_test "p constString4" { = "String4 with embedded quote \\" in the middle"} "String constant 4" gdb_test "p bad_neg0" " = \{field0 = 42, field2 =.*field3 = 45\}" "p bad_neg0" gdb_test "ptype inttype" "type = (unsigned int|inttype)" "ptype on inttype" gdb_test "p sizeof (float72type)" " = 9" "unrecognized floating point type" # This big number needs to be kept as one piece gdb_test "p/x int256var" " = 0x0*2a0000002b0000002c0000002d0000002d0000002c0000002b0000002a" "print very big integer" gdb_test "whatis consth" "type = inttype" "whatis consth" gdb_test "whatis consth2" "type = inttype" "whatis consth2" # GDB does not yet understand S constants setup_xfail "*-*-*" gdb_test "p/x bad_neg0const" " = \{field0 = 0x11222211, field2 =.*\ field3 = 0x77888877\}" "print struct constant" gdb_test "ptype bad_type0" "type = .*" "print bad_type0" gdb_test "ptype bad_type1" "type = .*" "print bad_type1" # GDB does not yet support arrays indexed by anything at all unusual setup_xfail "*-*-*" gdb_test "p array0" " = \\{42, 43, 44, 45, 46, 47\\}" "array0 with strange index" setup_xfail "*-*-*" gdb_test "p array1" " = \\{42, 43, 44\\}" "array1 with strange index" # GDB does not yet support this feature gdb_test "whatis one_var" "type = inttype_one" \ "whatis one_var (known failure in gdb 4.10)" # But do make sure that it prints as something reasonable gdb_test "whatis one_var" "type = inttype(|_one)" \ "whatis one_var test 2" gdb_test "whatis two_var" "type = inttype_two" \ "whatis two_var (known failure in gdb 4.10)" # But do make sure that it prints as something reasonable gdb_test "whatis two_var" "type = inttype(|_two)" \ "whatis two_var test 2" setup_xfail "*-*-*" gdb_test "whatis pointer_to_int_var" "type = int \[*\]" setup_xfail "*-*-*" gdb_test "whatis intp_var" "type = intp" gdb_test "p common0var0" "= 42" # GDB seems to only understand common blocks local to a function. # These variables never get relocated to be relative to the common # block. # I'm not sure whether it is valid to have a common block which # is not local to a function. setup_xfail "*-*-*" gdb_test "p common0var1" "= 24" setup_xfail "*-*-*" gdb_test "p common0var2" "= 22" } proc print_weird_var { var } { global gdb_prompt # Make sure that the variable gets printed out correctly, without # any sort of warning message. gdb_test_multiple "print $var" "variable $var printed property" { -re "^print $var\r*\n.\[0-9\]* = 42.*$gdb_prompt $" { pass "variable $var printed properly" } -re ".*$gdb_prompt $" { fail "variable $var printed properly" } } # Make sure that the stabs did get loaded in a sensible way. # If somehow the stabs got skipped, then the above test can # pass because GDB assumes int for variables without a stab. # This doesn't work because 32=45 doesn't preserve the name in # gdb (as of 14 Sep 93 anyway). #gdb_test "whatis $var" "type = (unsigned int|inttype)" # But the size should be right. gdb_test "print sizeof ($var)" "= 4" } # Don't use gdb_load; it doesn't bitch if the loading produced some # error messages during symbol reading. global target_os set sedscript ${srcdir}/${subdir}/aout.sed set sedoptions "" switch -glob ${target_triplet} { "hppa*-*-*" { set sedscript ${srcdir}/${subdir}/hppa.sed } "mips-*-ecoff" { set sedscript ${srcdir}/${subdir}/ecoff.sed } "powerpc-*-aix*" { set sedscript ${srcdir}/${subdir}/xcoff.sed set sedoptions "-r" } "rs6000-*-aix*" { set sedscript ${srcdir}/${subdir}/xcoff.sed set sedoptions "-r" } "*-*-aout" { set sedscript ${srcdir}/${subdir}/aout.sed } "*-*-xcoff" { set sedscript ${srcdir}/${subdir}/xcoff.sed set sedoptions "-r" } "alpha-*-*" { set sedscript ${srcdir}/${subdir}/ecoff.sed } } # Hope this is a Unix box. set exec_output [remote_exec build "sed" "${sedoptions} -f ${sedscript}" "${srcdir}/${subdir}/weird.def" "${srcfile}"] if { [lindex $exec_output 0] != 0 } { perror "Couldn't make test case. $exec_output" return -1 } if { [gdb_compile "${srcfile}" "${binfile}" object ""] != "" } { untested weird.exp return -1 } remote_file build delete ${srcfile} # Start with a fresh gdb gdb_exit gdb_start gdb_reinitialize_dir $srcdir/$subdir set binfile [gdb_remote_download host ${binfile} \ [standard_output_file object.o]] send_gdb "file $binfile\n" # If $binfile is very long, a \r (but not a \n) will echo in the # middle of the echo of the command. So to match the echo, we # would like to match anything not containing \n # (we would prefer to be sure not to match any warning message). # But \[^\n\]* doesn't seem to work, so instead use the heuristic # that a filename won't contain a space and a warning message will. # But spaces following by backspaces aren't really spaces. gdb_expect 60 { -re "^file (\[^ \]| +\008)*\r*\n" { exp_continue } -re "A program is being debugged already.\[\r\n\]+Are you sure you want to change the file\\? \\(y or n\\)" { send_gdb "y\n" exp_continue } -re "^Reading symbols from .*$binfile\\.\\.\\.done\.(|\r\nUsing host libthread_db library .*libthread_db.so.*\\.)\r\n$gdb_prompt $" { pass "weirdx.o read without error" } -re ".*$gdb_prompt $" { fail "Errors reading weirdx.o" } timeout { perror "couldn't load $binfile into $GDB (timed out)." return -1 } eof { fail "(eof) cannot read weirdx.o" } } do_tests remote_file host delete ${binfile} return 0