# Copyright 2017-2024 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 reading/writing variables with non-trivial DWARF locations. In # particular the test uses register- and memory locations as well as # composite locations with register- and memory pieces. load_lib dwarf.exp # This test can only be run on targets which support DWARF-2 and use gas. require dwarf2_support # Choose suitable integer registers for the test. set dwarf_regnum {0 1} if { [is_aarch64_target] } { set regname {x0 x1} } elseif { [is_aarch32_target] || [istarget "s390*-*-*" ] || [istarget "powerpc*-*-*"] || [istarget "rs6000*-*-aix*"] } { set regname {r0 r1} } elseif { [is_x86_like_target] } { set regname {eax ecx} } elseif { [is_amd64_regs_target] } { set regname {rax rdx} } else { verbose "Skipping $gdb_test_file_name." return } standard_testfile .c -dw.S # Make some DWARF for the test. set asm_file [standard_output_file $srcfile2] Dwarf::assemble $asm_file { global dwarf_regnum regname srcfile set buf_var [gdb_target_symbol buf] cu {} { DW_TAG_compile_unit { {DW_AT_name $srcfile} {DW_AT_comp_dir /tmp} } { declare_labels char_type_label declare_labels int_type_label short_type_label declare_labels array_a8_label struct_s_label struct_t_label declare_labels struct_st_label # char char_type_label: base_type { {name "char"} {encoding @DW_ATE_unsigned_char} {byte_size 1 DW_FORM_sdata} } # int int_type_label: base_type { {name "int"} {encoding @DW_ATE_signed} {byte_size 4 DW_FORM_sdata} } # char [8] array_a8_label: array_type { {type :$char_type_label} } { subrange_type { {type :$int_type_label} {upper_bound 7 DW_FORM_udata} } } # struct s { char a, b, c, d; }; struct_s_label: structure_type { {name "s"} {byte_size 4 DW_FORM_sdata} } { member { {name "a"} {type :$char_type_label} {data_member_location 0 DW_FORM_udata} } member { {name "b"} {type :$char_type_label} {data_member_location 1 DW_FORM_udata} } member { {name "c"} {type :$char_type_label} {data_member_location 2 DW_FORM_udata} } member { {name "d"} {type :$char_type_label} {data_member_location 3 DW_FORM_udata} } } # struct t { int u, x:9, y:13, z:10; }; struct_t_label: structure_type { {name "t"} {byte_size 8 DW_FORM_sdata} } { member { {name "u"} {type :$int_type_label} } member { {name "x"} {type :$int_type_label} {data_member_location 4 DW_FORM_udata} {bit_size 9 DW_FORM_udata} } member { {name "y"} {type :$int_type_label} {data_bit_offset 41 DW_FORM_udata} {bit_size 13 DW_FORM_udata} } member { {name "z"} {type :$int_type_label} {data_bit_offset 54 DW_FORM_udata} {bit_size 10 DW_FORM_udata} } } # struct st { struct s s; struct t t; }; struct_st_label: structure_type { {name "st"} {byte_size 12 DW_FORM_udata} } { member { {name "s"} {type :$struct_s_label} } member { {name "t"} {type :$struct_t_label} {data_member_location 4 DW_FORM_udata} } } DW_TAG_subprogram { {MACRO_AT_func { main }} {DW_AT_external 1 flag} } { # Simple memory location. DW_TAG_variable { {name "a"} {type :$array_a8_label} {location { addr $buf_var } SPECIAL_expr} } # Memory pieces: two bytes from &buf[2], and two bytes # from &buf[0]. DW_TAG_variable { {name "s1"} {type :$struct_s_label} {location { addr $buf_var plus_uconst 2 piece 2 addr $buf_var piece 2 } SPECIAL_expr} } # Register- and memory pieces: one byte each from r0, # &buf[4], r1, and &buf[5]. DW_TAG_variable { {name "s2"} {type :$struct_s_label} {location { regx [lindex $dwarf_regnum 0] piece 1 addr "$buf_var + 4" piece 1 regx [lindex $dwarf_regnum 1] piece 1 addr "$buf_var + 5" piece 1 } SPECIAL_expr} } # Memory pieces for bitfield access: 8 bytes optimized # out, 3 bytes from &buf[3], and 1 byte from &buf[1]. DW_TAG_variable { {name "st1"} {type :$struct_st_label} {location { piece 8 addr "$buf_var + 3" piece 3 addr "$buf_var + 1" piece 1 } SPECIAL_expr} } # Register pieces for bitfield access: 4 bytes optimized # out, 3 bytes from r0, and 1 byte from r1. DW_TAG_variable { {name "t2"} {type :$struct_t_label} {location { piece 4 regx [lindex $dwarf_regnum 0] piece 3 regx [lindex $dwarf_regnum 1] piece 1 } SPECIAL_expr} } # One piece per bitfield, using piece offsets: 32 bits of # an implicit value, 9 bits of a stack value, 13 bits of # r0, and 10 bits of buf. DW_TAG_variable { {name "t3"} {type :$struct_t_label} {location { implicit_value 0x12 0x34 0x56 0x78 0x9a bit_piece 32 4 const2s -280 stack_value bit_piece 9 2 regx [lindex $dwarf_regnum 0] bit_piece 13 14 addr $buf_var bit_piece 10 42 } SPECIAL_expr} } } } } } if { [prepare_for_testing ${testfile}.exp ${testfile} \ [list $srcfile $asm_file] {nodebug}] } { return -1 } if ![runto_main] { return -1 } # Determine byte order. set endian [get_endianness] # Byte-aligned memory pieces. gdb_test "print/d s1" " = \\{a = 2, b = 3, c = 0, d = 1\\}" \ "s1 == re-ordered buf" gdb_test_no_output "set var s1.a = 63" gdb_test "print/d s1" " = \\{a = 63, b = 3, c = 0, d = 1\\}" \ "verify s1.a" gdb_test "print/d a" " = \\{0, 1, 63, 3, 4, 5, 6, 7\\}" \ "verify s1.a through a" gdb_test_no_output "set var s1.b = 42" gdb_test "print/d s1" " = \\{a = 63, b = 42, c = 0, d = 1\\}" \ "verify s1.b" gdb_test "print/d a" " = \\{0, 1, 63, 42, 4, 5, 6, 7\\}" \ "verify s1.b through a" # Byte-aligned register- and memory pieces. gdb_test_no_output "set var \$[lindex $regname 0] = 81" \ "init reg for s2.a" gdb_test_no_output "set var \$[lindex $regname 1] = 28" \ "init reg for s2.c" gdb_test "print/u s2" " = \\{a = 81, b = 4, c = 28, d = 5\\}" \ "initialized s2 from mem and regs" gdb_test_no_output "set var s2.c += s2.a + s2.b - s2.d" gdb_test "print/u s2" " = \\{a = 81, b = 4, c = 108, d = 5\\}" \ "verify s2.c" gdb_test "print/u \$[lindex $regname 1]" " = 108" \ "verify s2.c through reg" gdb_test_no_output "set var s2 = {191, 73, 231, 123}" \ "re-initialize s2" gdb_test "print/u s2" " = \\{a = 191, b = 73, c = 231, d = 123\\}" \ "verify re-initialized s2" # Unaligned bitfield access through byte-aligned pieces. gdb_test_no_output "set var a = { 0 }" gdb_test_no_output "set var st1.t.x = -7" gdb_test_no_output "set var st1.t.z = 340" gdb_test_no_output "set var st1.t.y = 1234" gdb_test "print st1.t" " = \\{u = , x = -7, y = 1234, z = 340\\}" \ "verify st1.t" switch $endian { little {set val "0x55, 0x0, 0xf9, 0xa5, 0x9"} big {set val "0x54, 0x0, 0xfc, 0x93, 0x49"} } # | -- | z:2-9 | -- | x:0-7 | x:8 y:0-6 | y:7-12 z:0-1 | -- | -- | # \_______________________________________________/ # val gdb_test "print/x a" " = \\{0x0, ${val}, 0x0, 0x0\\}" \ "verify st1 through a" switch $endian { big {set val 0x7ffc} little {set val 0x3ffe00} } gdb_test_no_output "set var \$[lindex $regname 0] = $val" \ "init t2, first piece" gdb_test_no_output "set var \$[lindex $regname 1] = 0" \ "init t2, second piece" gdb_test "print/d t2" " = \\{u = , x = 0, y = -1, z = 0\\}" \ "initialized t2 from regs" gdb_test_no_output "set var t2.y = 2641" gdb_test_no_output "set var t2.z = -400" gdb_test_no_output "set var t2.x = 200" gdb_test "print t2.x + t2.y + t2.z" " = 2441" # Bitfield access through pieces with nonzero piece offsets. gdb_test_no_output "set var \$[lindex $regname 0] = 0xa8000" \ "init reg for t3.y" gdb_test_no_output "set var *(char \[2\] *) (a + 5) = { 70, 82 }" \ "init mem for t3.z" switch $endian { little {set val "u = -1484430527, x = -70, y = 42, z = 145"} big {set val "u = 591751049, x = -70, y = 42, z = 101"} } gdb_test "print t3" " = \\{$val\\}" \ "initialized t3 from reg and mem" gdb_test_no_output "set var t3.y = -1" \ "overwrite t3.y" gdb_test "print/x \$[lindex $regname 0]" " = 0x7ffc000" \ "verify t3.y through reg" gdb_test_no_output "set var t3.z = -614" \ "overwrite t3.z" switch $endian {big {set val "0x59, 0xa2"} little {set val "0x6a, 0x56"}} gdb_test "print/x *(char \[2\] *) (a + 5)" " = \\{$val\\}" \ "verify t3.z through mem"