# Copyright 2009-2014 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 Machine interface (MI) operations # Verify that, using the MI, we can run a simple program in both forward # and reverse directions with the following execution commands: # - exec-continue # - exec-finish # - exec-next # - exec-step # - exec-next-instruction # - exec-step-instruction # The goal is not to test gdb functionality, which is done by other tests, # but to verify the correct output response to MI operations. # if ![supports_reverse] { return } load_lib mi-support.exp set MIFLAGS "-i=mi" gdb_exit if [mi_gdb_start] { continue } standard_testfile basics.c if { [gdb_compile "${srcdir}/${subdir}/${srcfile}" "${binfile}" executable {debug}] != "" } { untested ${testfile}.exp return -1 } mi_run_to_main if [supports_process_record] { # Activate process record/replay if [mi_gdb_test "-interpreter-exec console record" \ "=record-started,thread-group=\"i1\"\r\n\\^done" \ "Turn on process record"] { warning "Fail to activate process record/replay, tests in this group will not be performed.\n" return -1 } } # Locate line numbers in basics.c. set line_callee4_head [gdb_get_line_number "callee4 ("] set line_callee4_body [expr $line_callee4_head + 2] set line_callee3_head [gdb_get_line_number "callee3 ("] set line_callee3_body [expr $line_callee3_head + 2] set line_callee3_close [expr $line_callee3_head + 3] set line_callee2_head [gdb_get_line_number "callee2 ("] set line_callee2_body [expr $line_callee2_head + 2] set line_callee2_close [expr $line_callee2_head + 3] set line_callee1_head [gdb_get_line_number "callee1 ("] set line_callee1_body [expr $line_callee1_head + 2] set line_callee1_close [expr $line_callee1_head + 3] set line_callme_head [gdb_get_line_number "callme"] set line_callme_body [expr $line_callme_head + 2] set line_main_head [gdb_get_line_number "main ("] set line_main_body [expr $line_main_head + 2] set line_main_hello [gdb_get_line_number "Hello, World!"] set line_main_callme_1 [gdb_get_line_number "callme (1"] # Forward execute to the callme() function, so that we can # execute backward from there. mi_continue_to callme mi_delete_breakpoints proc test_controlled_execution_reverse {} { global mi_gdb_prompt global srcfile global hex global line_callee4_head line_callee4_body global line_callee3_head line_callee3_body line_callee3_close global line_callee2_head line_callee2_body line_callee2_close global line_callee1_head line_callee1_body line_callee1_close global line_main_head line_main_body global line_main_hello line_main_callme_1 # Test exec-reverse-finish mi_execute_to "exec-finish --reverse" \ "end-stepping-range" "main" "" \ "basics.c" $line_main_callme_1 "" \ "reverse finish from callme" # Test exec-reverse-next # It takes two steps to get back to the previous line, # as the first step moves us to the start of the current line, # and the one after that moves back to the previous line. mi_execute_to "exec-next --reverse 2" \ "end-stepping-range" "main" "" \ "basics.c" $line_main_hello "" \ "reverse next to get over the call to do_nothing" # Test exec-reverse-step mi_execute_to "exec-step --reverse" \ "end-stepping-range" "callee1" \ "\{name=\"intarg\",value=\"2\"\},\{name=\"strarg\",value=\"$hex \\\\\"A string argument\.\\\\\"\"\},\{name=\"fltarg\",value=\"3.5\"\}" \ "basics.c" $line_callee1_close "" \ "reverse step to callee1" mi_execute_to "exec-step --reverse" \ "end-stepping-range" "callee2" \ "\{name=\"intarg\",value=\"2\"\},\{name=\"strarg\",value=\"$hex \\\\\"A string argument\.\\\\\"\"\}" \ "basics.c" $line_callee2_close "" \ "reverse step to callee2" mi_execute_to "exec-step --reverse" \ "end-stepping-range" "callee3" \ "\{name=\"strarg\",value=\"$hex \\\\\"A string argument\.\\\\\"\"\}" \ "basics.c" $line_callee3_close "" \ "reverse step to callee3" mi_execute_to "exec-step --reverse" \ "end-stepping-range" "callee4" "" \ "basics.c" "\[0-9\]+" "" \ "reverse step to callee4" # Test exec-reverse-[step|next]-instruction mi_execute_to "exec-step-instruction --reverse" \ "end-stepping-range" "callee4" "" \ "basics.c" "\[0-9\]+" "" \ "reverse-step-instruction at callee4" mi_execute_to "exec-next-instruction --reverse" \ "end-stepping-range" "callee4" "" \ "basics.c" "\[0-9\]+" "" \ "reverse-next-instruction at callee4" # Test exec-reverse-continue mi_create_breakpoint "-t basics.c:$line_callee3_head" \ 3 del callee3 ".*basics.c" $line_callee3_head $hex \ "insert temp breakpoint at basics.c:$line_callee3_head" mi_execute_to "exec-continue --reverse" \ "breakpoint-hit" "callee3" \ "\{name=\"strarg\",value=\"$hex \\\\\"A string argument\.\\\\\"\"\}" \ "basics.c" "\[0-9\]+" \ { "" "disp=\"del\""} \ "reverse-continue at callee3" mi_execute_to "exec-continue --reverse" \ "" "main" "" \ "basics.c" $line_main_body "" \ "reverse-continue at main" } test_controlled_execution_reverse mi_gdb_exit return 0