# Copyright 2013-2022 Free Software Foundation, Inc. # # Contributed by Intel Corp. # # 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 . if { ![istarget i?86-*-*] && ![istarget x86_64-*-* ] } { verbose "Skipping x86 MPX tests." return } standard_testfile if { ![istarget i?86-*-*] && ![istarget x86_64-*-* ] } { verbose "Skipping x86 MPX tests." return } if { ![supports_mpx_check_pointer_bounds] } { return -1 } if { ![have_mpx] } { unsupported "processor does not support MPX" return -1 } set comp_flags "-mmpx -fcheck-pointer-bounds -I${srcdir}/../nat/" if { [prepare_for_testing "failed to prepare" ${testfile} ${srcfile} \ [list debug nowarnings additional_flags=${comp_flags}]] } { return -1 } if ![runto_main] { return -1 } # Test bndcfg register and bndstatus at startup set test_string "\\\{raw = 0x\[0-9a-f\]+, config = \\\{base = \[0-9\]+,\ reserved = \[0-9\]+, preserved = \[0-9\]+, enabled = \[0-9\]+\\\}\\\}" gdb_test "print \$bndcfgu" $test_string "bndcfgu formating" gdb_test "print \$bndcfgu.config.enabled" "= 1" "test if bndstatus is enabled" gdb_test "print \$bndstatus" "\\\{raw = 0x0, status = \\\{bde = 0, error = 0\\\}\\\}" \ "bndstatus formating" gdb_test "print \$bndstatus.raw" "= \\\(void \\\*\\\) 0x0" "bndstatus is zero by startup" # Read values from pseudo registers. gdb_breakpoint [ gdb_get_line_number "break here" ] gdb_continue_to_breakpoint "break here" ".*break here.*" set test_string ".*\\\{lbound = 0xa, ubound = 0x13\\\}.*" gdb_test "info register bnd0" ".*bnd0$test_string" "pure bnd0 register" set test_string ".*\\\{lbound = 0x14, ubound = 0x1d\\\}.*" gdb_test "info register bnd1" ".*bnd1$test_string" "pure bnd1 register" set test_string ".*\\\{lbound = 0x1e, ubound = 0x27\\\}.*" gdb_test "info register bnd2" ".*bnd2$test_string" "pure bnd2 register" set test_string ".*\\\{lbound = 0x28, ubound = 0x31\\\}.*" gdb_test "info register bnd3" ".*bnd3$test_string" "pure bnd3 register" # Read value from registers bndrs. set test_string ".*\\\{lbound = 0xa, ubound_raw = 0x\[f\]+ec\\\}.*" gdb_test "info register bnd0raw" ".*bnd0$test_string" "pure bnd0r register" set test_string ".*\\\{lbound = 0x14, ubound_raw = 0x\[f\]+e2\\\}.*" gdb_test "info register bnd1raw" ".*bnd1$test_string" "pure bnd1r register" set test_string ".*\\\{lbound = 0x1e, ubound_raw = 0x\[f\]+d8\\\}.*" gdb_test "info register bnd2raw" ".*bnd2$test_string" "pure bnd2r register" set test_string ".*\\\{lbound = 0x28, ubound_raw = 0x\[f\]+ce\\\}.*" gdb_test "info register bnd3raw" ".*bnd3$test_string" "pure bnd3r register" # Setting fields on bnds set test_string ".*\\\{lbound = 0xa, ubound = 0x400\\\}.*" gdb_test "print \$bnd0.ubound = 0x400" "= \\\(void \\\*\\\) 0x400" "set value for bnd0.ubound" gdb_test "print \$bnd0" "$test_string" "after setting bnd0.ubound" set test_string ".*\\\{lbound = 0xa, ubound_raw = 0x\[f\]+bff\\\}.*" gdb_test "print /x \$bnd0raw" "$test_string" "bnd0raw after set bnd0.ubound" set test_string ".*\\\{lbound = 0x1, ubound = 0x400\\\}.*" gdb_test "print \$bnd0.lbound = 0x1" "= \\\(void \\\*\\\) 0x1" "set value for bnd0.lbound" gdb_test "print \$bnd0" "$test_string" "after setting bnd0.lbound" set test_string ".*\\\{lbound = 0x1, ubound_raw = 0x\[f\]+bff\\\}.*" gdb_test "print /x \$bnd0raw" "$test_string" "bnd0raw after set bnd0.lbound" # Setting fields on bnd0raw. set test_string ".*\\\{lbound = 0x1, ubound_raw = 0x600\\\}.*" gdb_test "print /x \$bnd0raw.ubound_raw = 0x600" "= 0x600" "set value for bnd0raw.ubound" gdb_test "print /x \$bnd0raw" "$test_string" "bnd0raw after setting bnd0raw.ubound" set test_string ".*\\\{lbound = 0x1, ubound = 0x\[f\]+9ff\\\}.*" gdb_test "print /x \$bnd0" "$test_string" "bnd0 after set bnd0raw.ubound" set test_string ".*\\\{lbound = 0x100, ubound_raw = 0x600\\\}.*" gdb_test "print /x \$bnd0raw.lbound = 0x100" "= 0x100" "set value for bnd0raw.lbound" gdb_test "print /x \$bnd0raw" "$test_string" "bnd0raw after setting bnd0raw.lbound" set test_string ".*\\\{lbound = 0x100, ubound = 0x\[f\]+9ff\\\}.*" gdb_test "print /x \$bnd0" "$test_string" "bnd0 after set bnd0raw.lbound" # Set full value bnd raw set test_string ".*\\\{lbound = 0x10, ubound_raw = 0x\[f\]+cff\\\}.*" gdb_test "print /x \$bnd0raw = {0x10, ~0x300}" "$test_string" "set full value for bnd0raw" set test_string ".*\\\{lbound = 0x10, ubound = 0x300\\\}.*" gdb_test "print /x \$bnd0" "$test_string" "bnd0raw after setting full bnd0raw" # Set full value bnd set test_string ".*\\\{lbound = 0x10, ubound = 0x300\\\}.*" gdb_test "print /x \$bnd0 = {0x10, 0x300}" "$test_string" "set full value for bnd0" set test_string ".*\\\{lbound = 0x10, ubound_raw = 0x\[f\]+cff\\\}.*" gdb_test "print /x \$bnd0raw" "$test_string" "bnd0raw after setting full bnd0" # Test bndcfg register and bndstatus after a failure on bndstr gdb_test "print \$bndstatus.status.error" "= 2" "bndstatus error is 2\ after a failure on allocating an entry" # Going to test the python extension for lenght. if { [skip_python_tests] } { continue } # Verify if size is right set test_string ".*\\\: size 17.*" gdb_test "print /x \$bnd0 = {0x10, 0x20}" "$test_string" "verify size for bnd0"