# Copyright 2021-2023 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 . # This test exercises the gdb-gdb.py helper script that is generated # into the GDB build directory. This script is intended for use by # developers to make debugging GDB easier. load_lib selftest-support.exp require {!target_info exists gdb,noinferiorio} require allow_python_tests standard_testfile .cc if { [build_executable "failed to build" $testfile $srcfile {debug c++}] } { return -1 } # Find the helper script in the GDB build directory. set py_helper_script [file dirname $GDB]/gdb-gdb.py if { ![file readable $py_helper_script] \ || [file type $py_helper_script] != "file" } { untested "failed to find gdb-gdb.py helper script" return } # The main test. This is called by the self-test framework once GDB # has been started on a copy of itself. proc test_python_helper {} { global py_helper_script decimal hex gdb_prompt bkptno_numopt_re global inferior_spawn_id # Source the python helper script. This script registers the # pretty printer for the object file called 'gdb', however, in our # selftests we rename 'gdb' to 'xgdb', so the pretty printer # doesn't get registered by default. # # So, after sourcing the script we do our own objfile scan and # register the pretty printer for the objfile called 'xgdb'. gdb_test_no_output "source $py_helper_script" \ "source gdb-gdb.py helper script" gdb_test [multi_line_input \ "python" \ "for objfile in gdb.objfiles():" \ " if os.path.basename(objfile.filename) == \"xgdb\":" \ " objfile.pretty_printers.append(type_lookup_function)" \ "end"] ".*" \ "register the type pretty printer" # Now place breakpoints somewhere useful. These locations can be # any function that: # # (a) is easy to reach by issuing a simple gdb command, and # (b) is unlikely to be modified very often within gdb, and # (c) has a parameter that is either a 'struct type *' or a 'struct value *'. gdb_breakpoint value_print qualified gdb_breakpoint c_print_type qualified # With gdb build with -O2 -flto=auto and gcc 7.5.0, we can get the mangled # names due to a problem in the debug info, so we work around this by less # strict matching. set fn_name_value_print "\[^\r\n\]*value_print\[^\r\n\]*" set fn_name_c_print_type "\[^\r\n\]*c_print_type\[^\r\n\]*" # Disable all breakpoints until after we have loaded the test # binary into the inner GDB. gdb_test_no_output "disable breakpoints" set outer_prompt_re "\\(outer-gdb\\) $" # Adjust the prompt on the outer gdb, this just makes things a # little clearer when trying to unpick which GDB is active. gdb_test_no_output -prompt $outer_prompt_re "set prompt (outer-gdb) " "set outer gdb prompt" # Send a command to the outer GDB to continue the inner GDB. The # stop is being detected from the inner GDB, hence the use of -i # here. gdb_test_multiple "continue" "start inner gdb" { -re "received signal SIGSEGV.* in GC_.*$outer_prompt_re" { # Some versions of the GC used by Guile cause a SEGV # during stack probing. Ignore this and carry on. send_gdb "continue\n" exp_continue } -i "$inferior_spawn_id" -re "\r\n$gdb_prompt $" { pass $gdb_test_name } } # Load the test executable into the inner GDB. The output here is # being read from the inner GDB, hence the use of -i here. send_inferior "file -readnow $::binfile\n" gdb_test_multiple "" "loading test binary into inner GDB" { -i "$inferior_spawn_id" -re "Reading symbols from.*\r\n$gdb_prompt $" { pass $gdb_test_name } } # Send Ctrl-C to the inner GDB, this should kick us back to the # prompt of the outer GDB. send_inferior "\003" gdb_test -prompt $outer_prompt_re "" "" "interrupted the inner" # Now enable all breakpoints within the outer GDB. gdb_test_no_output -prompt $outer_prompt_re "enable breakpoints" # We need to resume the inner GDB after interrupting it, this is # done by sending 'continue'. However, GDB will not redisplay the # prompt in this case, so we have nothing that we can detect in # order to know this continue was successful. Still, if this # didn't work, then later tests should fail. send_gdb "continue\n" # Control is back with the inner GDB. Send a command to the inner # GDB, this should result in the outer GDB stopping at one of the # breakpoints we created.. send_inferior "print 1\n" gdb_test -prompt $outer_prompt_re "" \ "Breakpoint $bkptno_numopt_re, $fn_name_value_print.*" \ "hit breakpoint in outer gdb" # Now inspect the type of parameter VAL, this should trigger the # pretty printers. set answer [multi_line \ "${decimal} = " \ "\{pointer_type = 0x0," \ " reference_type = 0x0," \ " chain = 0x0," \ " instance_flags = 0," \ " length = $decimal," \ " main_type = $hex\}"] gdb_test -prompt $outer_prompt_re "print *val->m_type" $answer "pretty print type" set answer [multi_line \ "$decimal = " \ "\{name = $hex \"int\"," \ " code = TYPE_CODE_INT," \ " flags = \[^\r\n\]+," \ " owner = $hex \\(gdbarch\\)," \ " target_type = 0x0," \ " int_stuff = \{ bit_size = $decimal, bit_offset = $decimal \}\}"] gdb_test -prompt $outer_prompt_re "print *val->m_type->main_type" $answer "pretty print type->main_type" # Send the continue to the outer GDB, which resumes the inner GDB, # we then detect the prompt from the inner GDB, hence the use of # -i here. gdb_test_multiple "continue" "resume inner gdb" { -i $inferior_spawn_id -re "\r\n$gdb_prompt $" { pass $gdb_test_name } } # Now print an integer that was created from the DWARF # information, this will include the TYPE_SPECIFIC_INT # information. send_inferior "print global_c.m_val\n" gdb_test -prompt $outer_prompt_re "" \ "Breakpoint $bkptno_numopt_re, $fn_name_value_print.*" \ "print integer from DWARF info" set answer [multi_line \ "$decimal = " \ "\{name = $hex \"int\"," \ " code = TYPE_CODE_INT," \ " flags = \[^\r\n\]+," \ " owner = $hex \\(objfile\\)," \ " target_type = 0x0," \ " int_stuff = \{ bit_size = $decimal, bit_offset = $decimal \}\}"] gdb_test -prompt $outer_prompt_re "print *val->m_type->main_type" $answer "pretty print type->main_type for DWARF type" # Send the continue to the outer GDB, which resumes the inner GDB, # we then detect the prompt from the inner GDB, hence the use of # -i here. gdb_test_multiple "continue" "resume inner gdb again" { -i $inferior_spawn_id -re "\r\n$gdb_prompt $" { pass $gdb_test_name } } # Send a command to the inner GDB, this should result in the outer # GDB stopping at the value_print breakpoint again. send_inferior "ptype global_c\n" set test "hit breakpoint in outer gdb again" set in_outer_gdb 0 gdb_test_multiple "" $test -prompt $outer_prompt_re { -re -wrap "Breakpoint $bkptno_numopt_re, $fn_name_c_print_type.*" { pass $gdb_test_name set in_outer_gdb 1 } -re "\r\n$gdb_prompt $" { unsupported $gdb_test_name } } if { ! $in_outer_gdb } { return 0 } set cmd "print *type->main_type" set cmd_supported 1 foreach sub_expr { type type->main_type } { set ok 0 gdb_test_multiple "print $sub_expr" "" -prompt $outer_prompt_re { -re -wrap " = \\(\[^\r\n\]+ \\*\\) $hex" { set ok 1 } -re -wrap "" { } } if { ! $ok } { set cmd_supported 0 break } } if { $cmd_supported } { set answer [multi_line \ "$decimal = " \ "\{name = $hex \"CC\"," \ " code = TYPE_CODE_STRUCT," \ " flags = \[^\r\n\]+," \ " owner = $hex \\(objfile\\)," \ " target_type = 0x0," \ " flds_bnds\\.fields\\\[0\\\]:" \ " \{m_name = $hex \"m_val\"," \ " m_type = $hex," \ " m_loc_kind = FIELD_LOC_KIND_BITPOS," \ " bitsize = 0," \ " bitpos = 0\}," \ " cplus_stuff = $hex\}"] gdb_test -prompt $outer_prompt_re $cmd $answer } else { unsupported $cmd } # Test the htab_t pretty-printer. gdb_test -prompt $outer_prompt_re "print all_bfds" "htab_t with ${::decimal} elements = \\{${::hex}.*\\}" return 0 } # Use the self-test framework to run the test. do_self_tests captured_main test_python_helper