# Copyright 1999-2002, 2004-2005, 2007-2012 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 Machine interface (MI) operations for disassembly. # # The goal is not to test gdb functionality, which is done by other tests, # but to verify the correct output response to MI operations. # load_lib mi-support.exp set MIFLAGS "-i=mi" gdb_exit if [mi_gdb_start] { continue } set testfile "basics" set srcfile ${testfile}.c set binfile ${objdir}/${subdir}/mi-disassemble if { [gdb_compile "${srcdir}/${subdir}/${srcfile}" "${binfile}" executable {debug additional_flags=-DFAKEARGV}] != "" } { untested mi-disassemble.exp return -1 } proc test_disassembly_only {} { global mi_gdb_prompt global hex global decimal set line_main_head [gdb_get_line_number "main ("] set line_main_body [expr $line_main_head + 2] # Test disassembly more only for the current function. # Tests: # -data-disassemble -s $pc -e "$pc+8" -- 0 # -data-disassembly -f basics.c -l $line_main_body -- 0 mi_gdb_test "print/x \$pc" "" "" mi_gdb_test "111-data-disassemble -s \$pc -e \"\$pc + 12\" -- 0" \ "111\\^done,asm_insns=\\\[\{address=\"$hex\",func-name=\"main\",offset=\"$decimal\",inst=\".*\"\},\{address=\"$hex\",func-name=\"main\",offset=\"$decimal\",inst=\".*\"\}.*\]" \ "data-disassemble from pc to pc+12 assembly only" mi_gdb_test "222-data-disassemble -f basics.c -l $line_main_body -- 0" \ "222\\^done,asm_insns=\\\[\{address=\"$hex\",func-name=\"main\",offset=\"0\",inst=\".*\"\},.*,\{address=\"$hex\",func-name=\"main\",offset=\"$decimal\",inst=\".*\"\}\\\]" \ "data-disassemble file & line, assembly only" } proc test_disassembly_with_opcodes {} { global mi_gdb_prompt global hex global decimal set line_main_head [gdb_get_line_number "main ("] set line_main_body [expr $line_main_head + 2] # Test disassembly with opcodes for the current function. # Tests: # -data-disassemble -s $pc -e "$pc+8" -- 2 # -data-disassembly -f basics.c -l $line_main_body -- 2 mi_gdb_test "print/x \$pc" "" "" mi_gdb_test "111-data-disassemble -s \$pc -e \"\$pc + 12\" -- 2" \ "111\\^done,asm_insns=\\\[\{address=\"$hex\",func-name=\"main\",offset=\"$decimal\",opcodes=\".*\",inst=\".*\"\},\{address=\"$hex\",func-name=\"main\",offset=\"$decimal\",opcodes=\".*\",inst=\".*\"\}.*\]" \ "data-disassemble from pc to pc+12 assembly with opcodes" mi_gdb_test "222-data-disassemble -f basics.c -l $line_main_body -- 2" \ "222\\^done,asm_insns=\\\[\{address=\"$hex\",func-name=\"main\",offset=\"0\",opcodes=\".*\",inst=\".*\"\},.*,\{address=\"$hex\",func-name=\"main\",offset=\"$decimal\",opcodes=\".*\",inst=\".*\"\}\\\]" \ "data-disassemble file & line, assembly with opcodes" } proc test_disassembly_lines_limit {} { global mi_gdb_prompt global hex global decimal set line_main_head [gdb_get_line_number "main ("] set line_main_body [expr $line_main_head + 2] # Test disassembly more only for the current function. # Tests: # -data-disassembly -f basics.c -l $line_main_body -n 20 -- 0 # -data-disassembly -f basics.c -l $line_main_body -n 0 -- 0 # -data-disassembly -f basics.c -l $line_main_body -n 50 -- 0 mi_gdb_test "print/x \$pc" "" "" mi_gdb_test "222-data-disassemble -f basics.c -l $line_main_body -n 20 -- 0" \ "222\\^done,asm_insns=\\\[\{address=\"$hex\",func-name=\"main\",offset=\"0\",inst=\".*\"\},.*,\{address=\"$hex\",func-name=\"main\",offset=\"$decimal\",inst=\".*\"\}\\\]" \ "data-disassemble file, line, number assembly only" mi_gdb_test "222-data-disassemble -f basics.c -l $line_main_body -n 0 -- 0" \ "222\\^done,asm_insns=\\\[\\\]" \ "data-disassemble file, line, number (zero lines) assembly only" mi_gdb_test "222-data-disassemble -f basics.c -l $line_main_body -n 50 -- 0" \ "222\\^done,asm_insns=\\\[\{address=\"$hex\",func-name=\"main\",offset=\"0\",inst=\".*\"\},.*,\{address=\"$hex\",func-name=\"main\",offset=\"$decimal\",inst=\".*\"\}\\\]" \ "data-disassemble file, line, number (more than main lines) assembly only" } proc test_disassembly_mixed {} { global mi_gdb_prompt global hex global decimal set line_callee2_head [gdb_get_line_number "callee2 ("] set line_callee2_open_brace [expr $line_callee2_head + 1] # Test disassembly more only for the current function. # Tests: # -data-disassembly -f basics.c -l $line_callee2_open_brace -- 1 # -data-disassembly -s $pc -e "$pc+8" -- 1 mi_gdb_test "002-data-disassemble -f basics.c -l $line_callee2_open_brace -- 1" \ "002\\^done,asm_insns=\\\[src_and_asm_line=\{line=\"$line_callee2_open_brace\",file=\".*basics.c\",line_asm_insn=\\\[\{address=\"$hex\",func-name=\"callee2\",offset=\"0\",inst=\".*\"\}.*\\\]\}.*,src_and_asm_line=\{line=\"$decimal\",file=\".*basics.c\",line_asm_insn=\\\[.*\{address=\"$hex\",func-name=\"callee2\",offset=\"$decimal\",inst=\".*\"\}\\\]\}\\\]" \ "data-disassemble file, line assembly mixed" # # In mixed mode, the lowest level of granularity is the source line. # So we are going to get the disassembly for the source line at # which we are now, even if we have specified that the range is only 2 insns. # mi_gdb_test "003-data-disassemble -s \$pc -e \"\$pc+4\" -- 1" \ "003\\^done,asm_insns=\\\[src_and_asm_line=\{line=\"$decimal\",file=\".*basics.c\",line_asm_insn=\\\[\{address=\"$hex\",func-name=\"main\",offset=\"$decimal\",inst=\".*\"\}.*\{address=\"$hex\",func-name=\"main\",offset=\"$decimal\",inst=\".*\"\}\\\]\}\\\]" \ "data-disassemble range assembly mixed" } proc test_disassembly_mixed_with_opcodes {} { global mi_gdb_prompt global hex global decimal set line_callee2_head [gdb_get_line_number "callee2 ("] set line_callee2_open_brace [expr $line_callee2_head + 1] # Test disassembly mixed with opcodes for the current function. # Tests: # -data-disassembly -f basics.c -l $line_callee2_open_brace -- 3 # -data-disassembly -s $pc -e "$pc+8" -- 3 mi_gdb_test "002-data-disassemble -f basics.c -l $line_callee2_open_brace -- 3" \ "002\\^done,asm_insns=\\\[src_and_asm_line=\{line=\"$line_callee2_open_brace\",file=\".*basics.c\",line_asm_insn=\\\[\{address=\"$hex\",func-name=\"callee2\",offset=\"0\",opcodes=\".*\",inst=\".*\"\}.*\\\]\}.*,src_and_asm_line=\{line=\"$decimal\",file=\".*basics.c\",line_asm_insn=\\\[.*\{address=\"$hex\",func-name=\"callee2\",offset=\"$decimal\",opcodes=\".*\",inst=\".*\"\}\\\]\}\\\]" \ "data-disassemble file, line assembly mixed with opcodes" # # In mixed mode, the lowest level of granularity is the source line. # So we are going to get the disassembly for the source line at # which we are now, even if we have specified that the range is only 2 insns. # mi_gdb_test "003-data-disassemble -s \$pc -e \"\$pc+4\" -- 3" \ "003\\^done,asm_insns=\\\[src_and_asm_line=\{line=\"$decimal\",file=\".*basics.c\",line_asm_insn=\\\[\{address=\"$hex\",func-name=\"main\",offset=\"$decimal\",opcodes=\".*\",inst=\".*\"\}.*\{address=\"$hex\",func-name=\"main\",offset=\"$decimal\",opcodes=\".*\",inst=\".*\"\}\\\]\}\\\]" \ "data-disassemble range assembly mixed with opcodes" } proc test_disassembly_mixed_lines_limit {} { global mi_gdb_prompt global hex global decimal set line_main_head [gdb_get_line_number "main ("] set line_main_open_brace [expr $line_main_head + 1] set line_main_body [expr $line_main_head + 2] # Test disassembly more only for the current function. # Tests: # -data-disassembly -f basics.c -l $line_main_body -n 20 -- 1 # -data-disassembly -f basics.c -l $line_main_body -n 0 -- 1 # -data-disassembly -f basics.c -l $line_main_body -n 50 -- 1 mi_gdb_test "print/x \$pc" "" "" mi_gdb_test "222-data-disassemble -f basics.c -l $line_main_body -n 20 -- 1" \ "222\\^done,asm_insns=\\\[src_and_asm_line=\{line=\"$decimal\",file=\".*basics.c\",line_asm_insn=\\\[\{address=\"$hex\",func-name=\"main\",offset=\"0\",inst=\".*\"\},.*,\{address=\"$hex\",func-name=\"main\",offset=\"$decimal\",inst=\".*\"\}\\\]\}\]" \ "data-disassemble file, line, number assembly mixed" mi_gdb_test "222-data-disassemble -f basics.c -l $line_main_body -n 0 -- 1" \ "222\\^done,asm_insns=\\\[src_and_asm_line=\{line=\"$line_main_open_brace\",file=\".*basics.c\",line_asm_insn=\\\[\\\]\}\\\]" \ "data-disassemble file, line, number (zero lines) assembly mixed" mi_gdb_test "222-data-disassemble -f basics.c -l $line_main_body -n 50 -- 1" \ "222\\^done,asm_insns=\\\[src_and_asm_line=\{line=\"$decimal\",file=\".*basics.c\",line_asm_insn=\\\[\{address=\"$hex\",func-name=\"main\",offset=\"0\",inst=\".*\"\}.*,\{address=\"$hex\",func-name=\"main\",offset=\"$decimal\",inst=\".*\"\}\\\]\}\]" \ "data-disassemble file, line, number (more than main lines) assembly mixed" } proc test_disassembly_bogus_args {} { global mi_gdb_prompt global hex set line_main_head [gdb_get_line_number "main ("] set line_main_body [expr $line_main_head + 2] # Test that bogus input to disassembly command is rejected. # Tests: # -data-disassembly -f foo -l abc -n 0 -- 0 # -data-disassembly -s foo -e bar -- 0 # -data-disassembly -s $pc -f basics.c -- 0 # -data-disassembly -f basics.c -l 32 -- 9 mi_gdb_test "123-data-disassemble -f foo -l abc -n 0 -- 0" \ "123\\^error,msg=\"-data-disassemble: Invalid filename.\"" \ "data-disassemble bogus filename" mi_gdb_test "321-data-disassemble -s foo -e bar -- 0" \ "321\\^error,msg=\"No symbol \\\\\"foo\\\\\" in current context.\"" \ "data-disassemble bogus address" mi_gdb_test "456-data-disassemble -s \$pc -f basics.c -- 0" \ "456\\^error,msg=\"-data-disassemble: Usage: \\( .-f filename -l linenum .-n howmany.. \\| .-s startaddr -e endaddr.\\) .--. mode.\"" \ "data-disassemble mix different args" mi_gdb_test "789-data-disassemble -f basics.c -l $line_main_body -- 9" \ "789\\^error,msg=\"-data-disassemble: Mode argument must be 0, 1, 2, or 3.\"" \ "data-disassemble wrong mode arg" } mi_run_to_main test_disassembly_only test_disassembly_with_opcodes test_disassembly_mixed test_disassembly_mixed_with_opcodes test_disassembly_bogus_args test_disassembly_lines_limit test_disassembly_mixed_lines_limit mi_gdb_exit return 0