# Copyright 2012-2020 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 . # Contributed by Mentor Graphics, written by Maciej W. Rozycki. # Test MIPS16 thunk support. # This should work on any targets that support MIPS16 execution, including # Linux and bare-iron ones, but not all of them do, for example MIPS16 # support has been added to Linux relatively late in the game. Also besides # environment support, the target processor has to support the MIPS16 ASE. # Finally as of this writing MIPS16 support has only been implemented in the # toolchain for a subset of ABIs, so we need to check that a MIPS16 # executable can be built and run at all before we attempt the actual test. if { ![istarget "mips*-*-*"] } then { verbose "Skipping MIPS16 thunk support tests." return } # A helper to set caller's SRCFILE and OBJFILE based on FILENAME and SUFFIX. proc set_src_and_obj { filename { suffix "" } } { upvar srcfile srcfile upvar objfile objfile global srcdir global subdir if ![string equal "$suffix" ""] then { set suffix "-$suffix" } set srcfile ${srcdir}/${subdir}/${filename}.c set objfile [standard_output_file ${filename}${suffix}.o] } # First check if a trivial MIPS16 program can be built and debugged. This # verifies environment and processor support, any failure here must be # classed as the lack of support. set testname mips16-thunks-main set_src_and_obj mips16-thunks-inmain set options [list debug nowarnings additional_flags=-mips16] set objfiles ${objfile} gdb_compile ${srcfile} ${objfile} object ${options} set_src_and_obj mips16-thunks-main set options [list debug nowarnings additional_flags=-mips16] lappend objfiles ${objfile} gdb_compile ${srcfile} ${objfile} object ${options} set binfile [standard_output_file ${testname}] set options [list debug nowarnings] if { [gdb_compile ${objfiles} ${binfile} executable ${options}] != "" } then { unsupported "no MIPS16 support in the toolchain." return } clean_restart ${testname} gdb_breakpoint inmain gdb_run_cmd gdb_test_multiple "" "check for MIPS16 support in the processor" { -re "Breakpoint 1.*inmain .*$gdb_prompt $" { gdb_test_multiple "finish" \ "check for MIPS16 support in the processor" { -re "Value returned is \\\$\[0-9\]+ = 0\[^0-9\].*$gdb_prompt $" { verbose "MIPS16 support check successful." } -re "$gdb_prompt $" { unsupported "no MIPS16 support in the processor." return } default { unsupported "no MIPS16 support in the processor." return } } } -re "$gdb_prompt $" { unsupported "no MIPS16 support in the processor." return } default { unsupported "no MIPS16 support in the processor." return } } # Check if MIPS16 PIC code can be built and debugged. We want to check # PIC and MIPS16 thunks are handled correctly together if possible, but # on targets that do not support PIC code, e.g. bare iron, we still want # to test the rest of functionality. set testname mips16-thunks-pic set picflag "" set_src_and_obj mips16-thunks-inmain pic set options [list \ debug nowarnings additional_flags=-mips16 additional_flags=-fPIC] set objfiles ${objfile} gdb_compile ${srcfile} ${objfile} object ${options} set_src_and_obj mips16-thunks-main pic set options [list \ debug nowarnings additional_flags=-mips16 additional_flags=-fPIC] lappend objfiles ${objfile} gdb_compile ${srcfile} ${objfile} object ${options} set binfile [standard_output_file ${testname}] set options [list debug nowarnings additional_flags=-fPIC] if { [gdb_compile ${objfiles} ${binfile} executable ${options}] == "" } then { clean_restart ${testname} gdb_breakpoint inmain gdb_run_cmd gdb_test_multiple "" "check for PIC support" { -re "Breakpoint 1.*inmain .*$gdb_prompt $" { note "PIC support present, will make additional PIC thunk checks." set picflag additional_flags=-fPIC } -re "$gdb_prompt $" { note "No PIC support, skipping additional PIC thunk checks." } default { note "No PIC support, skipping additional PIC thunk checks." } } } else { note "No PIC support, skipping additional PIC thunk checks." } # OK, build the twisted executable. This program contains the following # MIPS16 thunks: # - __call_stub_fp_sin, # - __call_stub_fp_sinblah, # - __call_stub_fp_sinfrob, # - __call_stub_fp_sinhelper, # - __call_stub_lsinhelper, # - __fn_stub_lsinmips16, # - __fn_stub_sinblah16, # - __fn_stub_sinfrob16, # - __fn_stub_sinmips16, # - __mips16_call_stub_df_2, # - __mips16_ret_df. # Additionally, if PIC code is supported, it contains the following PIC thunks: # - .pic.__mips16_call_stub_df_2, # - .pic.__mips16_ret_df, # - .pic.sinblah, # - .pic.sinblah16, # - .pic.sinfrob, # - .pic.sinfrob16. set testname mips16-thunks-sin set_src_and_obj mips16-thunks-sinmain set options [list debug nowarnings additional_flags=-mips16] set objfiles ${objfile} gdb_compile ${srcfile} ${objfile} object ${options} set_src_and_obj mips16-thunks-sin set options [list debug nowarnings additional_flags=-mno-mips16] lappend objfiles ${objfile} gdb_compile ${srcfile} ${objfile} object ${options} set_src_and_obj mips16-thunks-sinmips16 set options [list debug nowarnings additional_flags=-mips16] lappend objfiles ${objfile} gdb_compile ${srcfile} ${objfile} object ${options} set_src_and_obj mips16-thunks-sinfrob set options [list \ debug nowarnings additional_flags=-mno-mips16 ${picflag}] lappend objfiles ${objfile} gdb_compile ${srcfile} ${objfile} object ${options} set_src_and_obj mips16-thunks-sinfrob16 set options [list \ debug nowarnings additional_flags=-mips16 ${picflag}] lappend objfiles ${objfile} gdb_compile ${srcfile} ${objfile} object ${options} set binfile [standard_output_file ${testname}] set options [list debug nowarnings] gdb_compile ${objfiles} ${binfile} executable ${options} clean_restart ${testname} if ![runto_main] then { fail "running test program, MIPS16 thunk tests aborted" return } # Build some useful regular expressions out of a list of functions FUNCS # to be used to match against backtraces. proc build_frames_re { funcs } { upvar anyframe anyframe upvar frames frames upvar frame frame upvar func func set fid 0 set argsandsource " +\\\(.*\\\) +at +\[^\r\n\]+\r\n" set addrin "(?:\[^ \]+ +in +)?" set anyframe "#${fid} +${addrin}(\[^ \]+)${argsandsource}" set frame "#${fid} +${addrin}${func}${argsandsource}" set frames "$frame" foreach f [lrange $funcs 1 end] { incr fid append frames "#${fid} +${addrin}${f}${argsandsource}" } } # Single-step through the function that is at the head of function list # FUNCS until a different function (frame) is reached. Before each step # check the backtrace against FUNCS. ID is used for reporting, to tell # apart different calls to this procedure for the same function. If # successful, then return the name of the function we have stopped in. proc step_through { id funcs } { global gdb_prompt set func [lindex $funcs 0] build_frames_re "$funcs" set msg "single-stepping through \"${func}\" ($id)" # Arbitrarily limit the maximium number of steps made to avoid looping # indefinitely in the case something goes wrong, increase as (if) # necessary. set count 8 while { $count > 0 } { if { [gdb_test_multiple "backtrace" "$msg (backtrace)" { -re "${frames}$gdb_prompt $" { if { [gdb_test_multiple "step" "$msg (step)" { -re "$gdb_prompt $" { if { [gdb_test_multiple "frame" "$msg (frame)" { -re "${frame}.*$gdb_prompt $" { } -re "${anyframe}.*$gdb_prompt $" { pass "$msg" return $expect_out(1,string) } }] != 0 } then { return "" } } }] != 0 } then { return "" } } }] != 0 } then { return "" } incr count -1 } fail "$msg (too many steps)" return "" } # Finish the current function that must be one that is at the head of # function list FUNCS. Before that check the backtrace against FUNCS. # ID is used for reporting, to tell apart different calls to this # procedure for the same function. If successful, then return the name # of the function we have stopped in. proc finish_through { id funcs } { global gdb_prompt set func [lindex $funcs 0] build_frames_re "$funcs" set msg "finishing \"${func}\" ($id)" gdb_test_multiple "backtrace" "$msg (backtrace)" { -re "${frames}$gdb_prompt $" { gdb_test_multiple "finish" "$msg (finish)" { -re "Run till exit from ${frame}.*$gdb_prompt $" { gdb_test_multiple "frame" "$msg (frame)" { -re "${anyframe}.*$gdb_prompt $" { pass "$msg" return $expect_out(1,string) } } } } } } return "" } # Report PASS if VAL is equal to EXP, otherwise report FAIL, using MSG. proc pass_if_eq { val exp msg } { if [string equal "$val" "$exp"] then { pass "$msg" } else { fail "$msg" } } # Check if FUNC is equal to WANT. If not, then assume that we have stepped # into a library call. In this case finish it, then step out of the caller. # ID is used for reporting, to tell apart different calls to this procedure # for the same function. If successful, then return the name of the # function we have stopped in. proc finish_if_ne { id func want funcs } { if ![string equal "$func" "$want"] then { set call "$func" set want [lindex $funcs 0] set func [finish_through "$id" [linsert $funcs 0 "$func"]] pass_if_eq "$func" "$want" "\"${call}\" finishing to \"${want}\" ($id)" set func [step_through "$id" $funcs] } return "$func" } # Now single-step through the program, making sure all thunks are correctly # stepped over and omitted from backtraces. set id 1 set func [step_through $id [list main]] pass_if_eq "$func" sinfrob16 "stepping from \"main\" into \"sinfrob16\" ($id)" incr id set func [step_through $id [list sinfrob16 main]] set func [finish_if_ne $id "$func" main [list sinfrob16 main]] pass_if_eq "$func" main "stepping from \"sinfrob16\" back to \"main\" ($id)" incr id set func [step_through $id [list main]] pass_if_eq "$func" sinfrob "stepping from \"main\" into \"sinfrob\" ($id)" incr id set func [step_through $id [list sinfrob main]] set func [finish_if_ne $id "$func" main [list sinfrob main]] pass_if_eq "$func" main "stepping from \"sinfrob\" back to \"main\" ($id)" # 5 incr id set func [step_through $id [list main]] pass_if_eq "$func" sinhelper "stepping from \"main\" into \"sinhelper\" ($id)" incr id set func [step_through $id [list sinhelper main]] set func [finish_if_ne $id "$func" sinfrob16 [list sinhelper main]] pass_if_eq "$func" sinfrob16 \ "stepping from \"sinhelper\" into \"sinfrob16\" ($id)" incr id set func [step_through $id [list sinfrob16 sinhelper main]] set func [finish_if_ne $id "$func" sinhelper [list sinfrob16 sinhelper main]] pass_if_eq "$func" sinhelper \ "stepping from \"sinfrob16\" back to \"sinhelper\" ($id)" incr id set func [step_through $id [list sinhelper main]] pass_if_eq "$func" sinfrob "stepping from \"sinhelper\" into \"sinfrob\" ($id)" incr id set func [step_through $id [list sinfrob sinhelper main]] set func [finish_if_ne $id "$func" sinhelper [list sinfrob sinhelper main]] pass_if_eq "$func" sinhelper \ "stepping from \"sinfrob\" back to \"sinhelper\" ($id)" # 10 incr id set func [step_through $id [list sinhelper main]] pass_if_eq "$func" sinmips16 \ "stepping from \"sinhelper\" into \"sinmips16\" ($id)" incr id set func [step_through $id [list sinmips16 sinhelper main]] set func [finish_if_ne $id "$func" sinfrob16 [list sinmips16 sinhelper main]] pass_if_eq "$func" sinfrob16 \ "stepping from \"sinmips16\" into \"sinfrob16\" ($id)" incr id set func [step_through $id [list sinfrob16 sinmips16 sinhelper main]] set func [finish_if_ne $id "$func" sinmips16 \ [list sinfrob16 sinmips16 sinhelper main]] pass_if_eq "$func" sinmips16 \ "stepping from \"sinfrob16\" back to \"sinmips16\" ($id)" incr id set func [step_through $id [list sinmips16 sinhelper main]] pass_if_eq "$func" sinfrob "stepping from \"sinmips16\" into \"sinfrob\" ($id)" incr id set func [step_through $id [list sinfrob sinmips16 sinhelper main]] set func [finish_if_ne $id "$func" sinhelper \ [list sinfrob sinmips16 sinhelper main]] pass_if_eq "$func" sinmips16 \ "stepping from \"sinfrob\" back to \"sinmips16\" ($id)" # 15 incr id set func [step_through $id [list sinmips16 sinhelper main]] pass_if_eq "$func" sinfrob16 \ "stepping from \"sinmips16\" into \"sinfrob16\" (indirectly) ($id)" incr id set func [step_through $id [list sinfrob16 sinmips16 sinhelper main]] set func [finish_if_ne $id "$func" sinmips16 \ [list sinfrob16 sinmips16 sinhelper main]] pass_if_eq "$func" sinmips16 \ "stepping from \"sinfrob16\" back to \"sinmips16\" (indirectly) ($id)" incr id set func [step_through $id [list sinmips16 sinhelper main]] pass_if_eq "$func" sinfrob \ "stepping from \"sinmips16\" into \"sinfrob\" (indirectly) ($id)" incr id set func [step_through $id [list sinfrob sinmips16 sinhelper main]] set func [finish_if_ne $id "$func" sinhelper \ [list sinfrob sinmips16 sinhelper main]] pass_if_eq "$func" sinmips16 \ "stepping from \"sinfrob\" back to \"sinmips16\" (indirectly) ($id)" incr id set func [step_through $id [list sinmips16 sinhelper main]] pass_if_eq "$func" sinhelper \ "stepping from \"sinmips16\" back to \"sinhelper\" ($id)" # 20 incr id set func [step_through $id [list sinhelper main]] pass_if_eq "$func" main "stepping from \"sinhelper\" back to \"main\" ($id)" incr id set func [step_through $id [list main]] pass_if_eq "$func" sinblah "stepping from \"main\" into \"sinblah\" ($id)" incr id set func [step_through $id [list sinblah main]] set func [finish_if_ne $id "$func" main [list sinblah main]] pass_if_eq "$func" main "stepping from \"sinblah\" back to \"main\" ($id)" incr id set func [step_through $id [list main]] pass_if_eq "$func" sinblah16 "stepping from \"main\" into \"sinblah16\" ($id)" incr id set func [step_through $id [list sinblah16 main]] set func [finish_if_ne $id "$func" main [list sinblah16 main]] pass_if_eq "$func" main "stepping from \"sinblah16\" back to \"main\" ($id)" # 25 incr id set func [step_through $id [list main]] pass_if_eq "$func" lsinhelper \ "stepping from \"main\" into \"lsinhelper\" ($id)" incr id set func [step_through $id [list lsinhelper main]] set func [finish_if_ne $id "$func" sinblah [list lsinhelper main]] pass_if_eq "$func" sinblah \ "stepping from \"lsinhelper\" into \"sinblah\" ($id)" incr id set func [step_through $id [list sinblah lsinhelper main]] set func [finish_if_ne $id "$func" lsinhelper [list sinblah lsinhelper main]] pass_if_eq "$func" lsinhelper \ "stepping from \"sinblah\" back to \"lsinhelper\" ($id)" incr id set func [step_through $id [list lsinhelper main]] pass_if_eq "$func" sinblah16 \ "stepping from \"lsinhelper\" into \"sinblah16\" ($id)" incr id set func [step_through $id [list sinblah16 lsinhelper main]] set func [finish_if_ne $id "$func" lsinhelper [list sinblah16 lsinhelper main]] pass_if_eq "$func" lsinhelper \ "stepping from \"sinblah16\" back to \"lsinhelper\" ($id)" # 30 incr id set func [step_through $id [list lsinhelper main]] pass_if_eq "$func" lsinmips16 \ "stepping from \"lsinhelper\" into \"lsinmips16\" ($id)" incr id set func [step_through $id [list lsinmips16 lsinhelper main]] set func [finish_if_ne $id "$func" sinblah [list lsinmips16 lsinhelper main]] pass_if_eq "$func" sinblah \ "stepping from \"lsinmips16\" into \"sinblah\" ($id)" incr id set func [step_through $id [list sinblah lsinmips16 lsinhelper main]] set func [finish_if_ne $id "$func" lsinmips16 \ [list sinblah lsinmips16 lsinhelper main]] pass_if_eq "$func" lsinmips16 \ "stepping from \"sinblah\" back to \"lsinmips16\" ($id)" incr id set func [step_through $id [list lsinmips16 lsinhelper main]] pass_if_eq "$func" sinblah16 \ "stepping from \"lsinmips16\" into \"sinblah16\" ($id)" incr id set func [step_through $id [list sinblah16 lsinmips16 lsinhelper main]] set func [finish_if_ne $id "$func" lsinhelper \ [list sinblah16 lsinmips16 lsinhelper main]] pass_if_eq "$func" lsinmips16 \ "stepping from \"sinblah16\" back to \"lsinmips16\" ($id)" # 35 incr id set func [step_through $id [list lsinmips16 lsinhelper main]] pass_if_eq "$func" sinblah \ "stepping from \"lsinmips16\" into \"sinblah\" (indirectly) ($id)" incr id set func [step_through $id [list sinblah lsinmips16 lsinhelper main]] set func [finish_if_ne $id "$func" lsinmips16 \ [list sinblah lsinmips16 lsinhelper main]] pass_if_eq "$func" lsinmips16 \ "stepping from \"sinblah\" back to \"lsinmips16\" (indirectly) ($id)" incr id set func [step_through $id [list lsinmips16 lsinhelper main]] pass_if_eq "$func" sinblah16 \ "stepping from \"lsinmips16\" into \"sinblah16\" (indirectly) ($id)" incr id set func [step_through $id [list sinblah16 lsinmips16 lsinhelper main]] set func [finish_if_ne $id "$func" lsinhelper \ [list sinblah16 lsinmips16 lsinhelper main]] pass_if_eq "$func" lsinmips16 \ "stepping from \"sinblah16\" back to \"lsinmips16\" (indirectly) ($id)" incr id set func [step_through $id [list lsinmips16 lsinhelper main]] pass_if_eq "$func" lsinhelper \ "stepping from \"lsinmips16\" back to \"lsinhelper\" ($id)" # 40 incr id set func [step_through $id [list lsinhelper main]] pass_if_eq "$func" main "stepping from \"lsinhelper\" back to \"main\" ($id)"