# Copyright 2009-2020 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 multi-exec / multi-process features that work for all configurations, # even ones that cannot run multiple processes simultaneously. set testfile "multi-arch-exec" # The plain remote target can't do multiple inferiors. if [use_gdb_stub] { return } # The 64-bit compile may succeed for i386-linux, but gdb won't be able # to load the file. if [istarget "i?86-*linux*"] { return } # The testcase builds two programs, each of its own architecture. For # example, one built with -m64, another with -m32. The exact compiler # options depends on target triplet. We generically refer to the # architectures simply as 'architecture 1' and 'architecture 2'. Each # program is actually built twice, once for each architecture, because # we test both execing from arch1 to arch2 and from arch2 to arch1. # The architecture of the executable that execs is encoded in the # binaries' names, like so: # # $first_arch-multi-arch-exec # execing program # $first_arch-multi-arch-exec-hello # execed program # Append the options necessary to build a program for architecture 1 # to the OPTIONS_VAR list. proc append_arch1_options {options_var} { upvar 1 $options_var options if { [istarget "aarch64*-*-*"] } { return 1 } lappend options "additional_flags=-m64" return 1 } # Append the options necessary to build a program for architecture 2 # to the OPTIONS_VAR list. proc append_arch2_options {options_var} { upvar 1 $options_var options if { [istarget "aarch64*-*-*"] } { if {[info exists ARM_CC_FOR_TARGET]} { lappend options "compiler=${ARM_CC_FOR_TARGET}" return 1 } else { unsupported "ARM compiler is not known" return 0 } } if [istarget "s390*-*-*"] { set march "-m31" } else { set march "-m32" } lappend options "additional_flags=${march}" return 1 } # Append the options necessary to build a program for architecture # ARCH to the OPTIONS_VAR list. Returns true on success. proc append_arch_options {arch options_var} { upvar 1 $options_var options if {$arch == 1} { return [append_arch1_options options] } elseif {$arch == 2} { return [append_arch2_options options] } else { error "unhandled architecture: $arch" } } # Build the executables for testing with FIRST_ARCH (either 1 or 2) as # the architecture before the exec. Returns true on success. proc build_executables { first_arch } { # Can't use standard_testfile, we want executables with specialized # names. set from_exec "$first_arch-multi-arch-exec" set from_srcfile multi-arch-exec.c set from_binfile [standard_output_file ${from_exec}] set to_exec "$first_arch-multi-arch-exec-hello" set to_srcfile hello.c set to_binfile [standard_output_file ${to_exec}] # Build two executables, one for each arch. if {$first_arch == 1} { set from_arch 1 set to_arch 2 } elseif {$first_arch == 2} { set from_arch 2 set to_arch 1 } else { error "unhandled first architecture: $first_arch" } set from_options [list debug pthreads] if {![append_arch_options $from_arch from_options]} { return 0 } if { [build_executable "failed to prepare" ${from_exec} "${from_srcfile}" \ $from_options] } { return 0 } set to_options [list debug] if {![append_arch_options $to_arch to_options]} { return 0 } if { [build_executable "failed to prepare" ${to_exec} "${to_srcfile}" \ $to_options] } { return 0 } return 1 } proc do_test { first_arch mode selected_thread } { set from_exec "$first_arch-multi-arch-exec" clean_restart ${from_exec} if ![runto all_started] then { fail "couldn't run to all_started" return -1 } # Delete the breakpoint at 'all_started' otherwise GDB may # switch context back to thread 1 to step over the breakpoint. delete_breakpoints # A location for this breakpoint should be found in the new # post-exec image too. gdb_breakpoint main gdb_test "thread $selected_thread" "Switching to thread $selected_thread .*" gdb_test_no_output "set follow-exec-mode $mode" # Test that GDB updates the target description / arch successfuly # after the exec. gdb_test "continue" "Breakpoint 2, main.*" "continue across exec that changes architecture" } # Test both arch1=>arch2 and arch2=>arch1. foreach_with_prefix first_arch {1 2} { if {![build_executables $first_arch]} { continue } # Test handling the exec event with either the main thread or the # second thread selected. This tries to ensure that GDB doesn't read # registers off of the execing thread before figuring out its # architecture. foreach_with_prefix selected_thread {1 2} { foreach_with_prefix follow_exec_mode {"same" "new"} { do_test $first_arch $follow_exec_mode $selected_thread } } }