bb0974456e
The Linux kernel disables the FPU upon returning to userland. This introduces spurious failures in the register preservation tests in callfuncs.exp, since the pstate.PEF bit gets cleared after system calls. This patch filters out the pstate register in sparc64-*-linux-gnu targets, so the relevant tests are no longer fooled and pass. gdb/testsuite/ChangeLog: 2015-11-20 Jose E. Marchesi <jose.marchesi@oracle.com> * gdb.base/callfuncs.exp (fetch_all_registers): Filter out the pstate register when comparing registers values in sparc64-*-linux-gnu targets to avoid spurious differences.
521 lines
21 KiB
Text
521 lines
21 KiB
Text
# Copyright 1992-2015 Free Software Foundation, Inc.
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# This program is free software; you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation; either version 3 of the License, or
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# (at your option) any later version.
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#
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License
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# along with this program. If not, see <http://www.gnu.org/licenses/>.
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# This file was written by Fred Fish. (fnf@cygnus.com)
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# and modified by Bob Manson. (manson@cygnus.com)
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standard_testfile
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set compile_flags {debug}
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if [support_complex_tests] {
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lappend compile_flags "additional_flags=-DTEST_COMPLEX"
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}
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# Some targets can't do function calls, so don't even bother with this
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# test.
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if [target_info exists gdb,cannot_call_functions] {
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setup_xfail "*-*-*" 2416
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fail "This target can not call functions"
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continue
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}
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# FIXME: Before calling this proc, we should probably verify that
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# we can call inferior functions and get a valid integral value
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# returned.
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# Note that it is OK to check for 0 or 1 as the returned values, because C
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# specifies that the numeric value of a relational or logical expression
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# (computed in the inferior) is 1 for true and 0 for false.
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proc do_function_calls {} {
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global gdb_prompt
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# We need to up this because this can be really slow on some boards.
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set timeout 60
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# If any of these calls segv we don't want to affect subsequent tests.
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# E.g., we want to ensure register values are restored.
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gdb_test_no_output "set unwindonsignal on"
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gdb_test "p t_char_values(0,0)" " = 0"
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gdb_test "p t_char_values('a','b')" " = 1"
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gdb_test "p t_char_values(char_val1,char_val2)" " = 1"
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gdb_test "p t_char_values('a',char_val2)" " = 1"
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gdb_test "p t_char_values(char_val1,'b')" " = 1"
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gdb_test "p t_short_values(0,0)" " = 0"
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gdb_test "p t_short_values(10,-23)" " = 1"
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gdb_test "p t_short_values(short_val1,short_val2)" " = 1"
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gdb_test "p t_short_values(10,short_val2)" " = 1"
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gdb_test "p t_short_values(short_val1,-23)" " = 1"
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gdb_test "p t_int_values(0,0)" " = 0"
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gdb_test "p t_int_values(87,-26)" " = 1"
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gdb_test "p t_int_values(int_val1,int_val2)" " = 1"
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gdb_test "p t_int_values(87,int_val2)" " = 1"
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gdb_test "p t_int_values(int_val1,-26)" " = 1"
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gdb_test "p t_long_values(0,0)" " = 0"
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gdb_test "p t_long_values(789,-321)" " = 1"
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gdb_test "p t_long_values(long_val1,long_val2)" " = 1"
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gdb_test "p t_long_values(789,long_val2)" " = 1"
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gdb_test "p t_long_values(long_val1,-321)" " = 1"
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if ![target_info exists gdb,skip_float_tests] {
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gdb_test "p t_float_values(0.0,0.0)" " = 0"
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# These next four tests fail on the mn10300.
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# The first value is passed in regs, the other in memory.
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# Gcc emits different stabs for the two parameters; the first is
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# claimed to be a float, the second a double.
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# dbxout.c in gcc claims this is the desired behavior.
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# These tests also fail for RealView, because GDB can not tell that
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# the function is unprototyped.
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setup_xfail "mn10300-*-*"
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if { [test_compiler_info "armcc-*"] } { setup_xfail "*-*-*" }
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gdb_test "p t_float_values(3.14159,-2.3765)" " = 1"
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setup_xfail "mn10300-*-*"
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if { [test_compiler_info "armcc-*"] } { setup_xfail "*-*-*" }
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gdb_test "p t_float_values(float_val1,float_val2)" " = 1"
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setup_xfail "mn10300-*-*"
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if { [test_compiler_info "armcc-*"] } { setup_xfail "*-*-*" }
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gdb_test "p t_float_values(3.14159,float_val2)" " = 1"
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setup_xfail "mn10300-*-*"
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if { [test_compiler_info "armcc-*"] } { setup_xfail "*-*-*" }
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gdb_test "p t_float_values(float_val1,-2.3765)" " = 1"
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# Test passing of arguments which might not be widened.
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gdb_test "p t_float_values2(0.0,0.0)" " = 0"
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gdb_test "p t_float_values2(3.14159,float_val2)" " = 1"
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gdb_test "p t_float_many_args (float_val1, float_val2, float_val3, float_val4, float_val5, float_val6, float_val7, float_val8, float_val9, float_val10, float_val11, float_val12, float_val13, float_val14, float_val15)" " = 1" "Call function with many float arguments."
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gdb_test "p t_small_values(1,2,3,4,5,6,7,8,9,10)" " = 55"
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gdb_test "p t_double_values(0.0,0.0)" " = 0"
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gdb_test "p t_double_values(45.654,-67.66)" " = 1"
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gdb_test "p t_double_values(double_val1,double_val2)" " = 1"
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gdb_test "p t_double_values(45.654,double_val2)" " = 1"
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gdb_test "p t_double_values(double_val1,-67.66)" " = 1"
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gdb_test "p t_double_many_args (double_val1, double_val2, double_val3, double_val4, double_val5, double_val6, double_val7, double_val8, double_val9, double_val10, double_val11, double_val12, double_val13, double_val14, double_val15)" " = 1" "Call function with many double arguments."
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gdb_test "p t_double_int(99.0, 1)" " = 0"
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gdb_test "p t_double_int(99.0, 99)" " = 1"
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gdb_test "p t_int_double(99, 1.0)" " = 0"
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gdb_test "p t_int_double(99, 99.0)" " = 1"
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}
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if [support_complex_tests] {
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gdb_test "p t_float_complex_values(fc1, fc2)" " = 1"
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gdb_test "p t_float_complex_values(fc3, fc4)" " = 0"
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gdb_test "p t_float_complex_many_args(fc1, fc2, fc3, fc4, fc1, fc2, fc3, fc4, fc1, fc2, fc3, fc4, fc1, fc2, fc3, fc4)" " = 1"
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gdb_test "p t_float_complex_many_args(fc1, fc1, fc1, fc1, fc1, fc1, fc1, fc1, fc1, fc1, fc1, fc1, fc1, fc1, fc1, fc1)" " = 0"
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gdb_test "p t_double_complex_values(dc1, dc2)" " = 1"
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gdb_test "p t_double_complex_values(dc3, dc4)" " = 0"
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gdb_test "p t_double_complex_many_args(dc1, dc2, dc3, dc4, dc1, dc2, dc3, dc4, dc1, dc2, dc3, dc4, dc1, dc2, dc3, dc4)" " = 1"
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gdb_test "p t_double_complex_many_args(dc1, dc1, dc1, dc1, dc1, dc1, dc1, dc1, dc1, dc1, dc1, dc1, dc1, dc1, dc1, dc1)" " = 0"
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gdb_test "p t_long_double_complex_values(ldc1, ldc2)" " = 1"
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gdb_test "p t_long_double_complex_values(ldc3, ldc4)" " = 0"
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gdb_test "p t_long_double_complex_many_args(ldc1, ldc2, ldc3, ldc4, ldc1, ldc2, ldc3, ldc4, ldc1, ldc2, ldc3, ldc4, ldc1, ldc2, ldc3, ldc4)" " = 1"
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gdb_test "p t_long_double_complex_many_args(ldc1, ldc1, ldc1, ldc1, ldc1, ldc1, ldc1,ldc1, ldc1, ldc1, ldc1, ldc1, ldc1, ldc1, ldc1, ldc1)" " = 0"
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}
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gdb_test "p t_string_values(string_val2,string_val1)" " = 0"
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gdb_test "p t_string_values(string_val1,string_val2)" " = 1"
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gdb_test "p t_string_values(\"string 1\",\"string 2\")" " = 1"
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gdb_test "p t_string_values(\"string 1\",string_val2)" " = 1"
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gdb_test "p t_string_values(string_val1,\"string 2\")" " = 1"
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gdb_test "p t_char_array_values(char_array_val2,char_array_val1)" " = 0"
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gdb_test "p t_char_array_values(char_array_val1,char_array_val2)" " = 1"
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gdb_test "p t_char_array_values(\"carray 1\",\"carray 2\")" " = 1"
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gdb_test "p t_char_array_values(\"carray 1\",char_array_val2)" " = 1"
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gdb_test "p t_char_array_values(char_array_val1,\"carray 2\")" " = 1"
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gdb_test "p doubleit(4)" " = 8"
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gdb_test "p add(4,5)" " = 9"
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gdb_test "p t_func_values(func_val2,func_val1)" " = 0"
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gdb_test "p t_func_values(func_val1,func_val2)" " = 1"
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gdb_test "p function_struct.func(5)" " = 10"
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gdb_test "p function_struct_ptr->func(10)" " = 20"
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# GDB currently screws up the passing of function parameters for
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# ABIs that use function descriptors. Instead of passing the
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# address of te function descriptor, GDB passes the address of the
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# function body. This results in the called function treating the
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# first few instructions of the function proper as a descriptor
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# and attempting a jump through that (a totally random address).
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setup_kfail gdb/1457 "rs6000*-*-aix*"
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setup_kfail gdb/1457 "powerpc*-*-aix*"
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setup_kfail gdb/1457 hppa*-*-hpux*
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gdb_test "p t_func_values(add,func_val2)" " = 1"
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setup_kfail gdb/1457 "rs6000*-*-aix*"
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setup_kfail gdb/1457 "powerpc*-*-aix*"
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setup_kfail gdb/1457 hppa*-*-hpux*
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gdb_test "p t_func_values(func_val1,doubleit)" " = 1"
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setup_kfail gdb/1457 "rs6000*-*-aix*"
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setup_kfail gdb/1457 "powerpc*-*-aix*"
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setup_kfail gdb/1457 hppa*-*-hpux*
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gdb_test "p t_call_add(add,3,4)" " = 7"
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gdb_test "p t_call_add(func_val1,3,4)" " = 7"
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gdb_test "p t_enum_value1(enumval1)" " = 1"
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gdb_test "p t_enum_value1(enum_val1)" " = 1"
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gdb_test "p t_enum_value1(enum_val2)" " = 0"
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gdb_test "p t_enum_value2(enumval2)" " = 1"
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gdb_test "p t_enum_value2(enum_val2)" " = 1"
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gdb_test "p t_enum_value2(enum_val1)" " = 0"
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gdb_test "p sum_args(1,{2})" " = 2"
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gdb_test "p sum_args(2,{2,3})" " = 5"
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gdb_test "p sum_args(3,{2,3,4})" " = 9"
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gdb_test "p sum_args(4,{2,3,4,5})" " = 14"
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gdb_test "p sum10 (1, 2, 3, 4, 5, 6, 7, 8, 9, 10)" " = 55"
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gdb_test "p cmp10 (0, 1, 2, 3, 4, 5, 6, 7, 8, 9)" " = 1"
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gdb_test "p t_structs_c(struct_val1)" "= 120 'x'" \
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"call inferior func with struct - returns char"
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gdb_test "p t_structs_s(struct_val1)" "= 87" \
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"call inferior func with struct - returns short"
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gdb_test "p t_structs_i(struct_val1)" "= 76" \
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"call inferior func with struct - returns int"
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gdb_test "p t_structs_l(struct_val1)" "= 51" \
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"call inferior func with struct - returns long"
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if ![target_info exists gdb,skip_float_tests] {
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gdb_test "p t_structs_f(struct_val1)" "= 2.12.*" \
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"call inferior func with struct - returns float"
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gdb_test "p t_structs_d(struct_val1)" "= 9.87.*" \
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"call inferior func with struct - returns double"
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}
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if [support_complex_tests] {
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gdb_test "p t_structs_fc(struct_val1)" ".*= 3 \\+ 3 \\* I" \
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"call inferior func with struct - returns float _Complex"
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gdb_test "p t_structs_dc(struct_val1)" ".*= 4 \\+ 4 \\* I" \
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"call inferior func with struct - returns double _Complex"
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gdb_test "p t_structs_ldc(struct_val1)" "= 5 \\+ 5 \\* I" \
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"call inferior func with struct - returns long double _Complex"
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}
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gdb_test "p t_structs_a(struct_val1)" "= (.unsigned char .. )?<.*buf.*> \"foo\"" \
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"call inferior func with struct - returns char *"
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# Restore default value.
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gdb_test_no_output "set unwindonsignal off"
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}
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# Procedure to get current content of all registers.
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proc fetch_all_registers {test} {
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global gdb_prompt
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set all_registers_lines {}
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set bad -1
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# Former trailing `\[\r\n\]+' may eat just \r leaving \n in the buffer
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# corrupting the next matches.
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if {[gdb_test_multiple "info all-registers" $test {
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-re "info all-registers\r\n" {
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exp_continue
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}
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-ex "The program has no registers now" {
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set bad 1
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exp_continue
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}
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-re "^bspstore\[ \t\]+\[^\r\n\]+\r\n" {
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if [istarget "ia64-*-*"] {
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# Filter out bspstore which is specially tied to bsp,
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# giving spurious differences.
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} else {
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lappend all_registers_lines $expect_out(0,string)
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}
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exp_continue
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}
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-re "^pstate\[ \t\]+\[^\r\n\]+\r\n" {
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if [istarget "sparc64-*-linux-gnu"] {
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# Filter out the pstate register, since in sparc64
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# targets the Linux kernel disables pstate.PEF when
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# returning from traps, giving spurious differences.
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} else {
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lappend all_registers_lines $expect_out(0,string)
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}
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exp_continue
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}
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-re "^last_break\[ \t\]+\[^\r\n\]+\r\n" {
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if [istarget "s390*-*-*"] {
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# Filter out last_break which is read-only,
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# giving spurious differences.
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} else {
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lappend all_registers_lines $expect_out(0,string)
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}
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exp_continue
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}
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-re "^\[^ \t\]+\[ \t\]+\[^\r\n\]+\r\n" {
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lappend all_registers_lines $expect_out(0,string)
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exp_continue
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}
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-re "$gdb_prompt $" {
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incr bad
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}
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-re "^\[^\r\n\]+\r\n" {
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if {!$bad} {
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warning "Unrecognized output: $expect_out(0,string)"
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set bad 1
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}
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exp_continue
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}
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}] != 0} {
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return {}
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}
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if {$bad} {
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fail $test
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return {}
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}
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pass $test
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return $all_registers_lines
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}
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proc rerun_and_prepare {} {
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global hp_aCC_compiler
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if { ![runto_main] } {
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gdb_suppress_tests
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}
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if { $hp_aCC_compiler } {
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# Do not set language explicitly to 'C'. This will cause aCC
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# tests to fail because promotion rules are different. Just let
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# the language be set to the default.
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# However, turn off overload-resolution for aCC. Having it on causes
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# a lot of failures.
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gdb_test_no_output "set overload-resolution 0"
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} else {
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gdb_test_no_output "set language c"
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}
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get_debug_format
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# Make sure that malloc gets called and that the floating point unit
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# is initialized via a call to t_double_values.
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gdb_test "next" "t_double_values\\(double_val1, double_val2\\);.*" \
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"next to t_double_values"
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gdb_test "next" "t_structs_c\\(struct_val1\\);.*" \
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"next to t_structs_c"
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}
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proc perform_all_tests {} {
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gdb_test_no_output "set print sevenbit-strings"
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gdb_test_no_output "set print address off"
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gdb_test_no_output "set width 0"
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rerun_and_prepare
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# Save all register contents.
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set old_reg_content [fetch_all_registers "retrieve original register contents"]
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# Perform function calls.
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do_function_calls
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# Check if all registers still have the same value.
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set new_reg_content [fetch_all_registers \
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"register contents after gdb function calls"]
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if {$old_reg_content == $new_reg_content} then {
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pass "gdb function calls preserve register contents"
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} else {
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set old_reg_content $new_reg_content
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fail "gdb function calls preserve register contents"
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}
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rerun_and_prepare
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# Save all register contents.
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set old_reg_content [fetch_all_registers "retrieve original register contents"]
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# Set breakpoint at a function we will call from gdb.
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gdb_breakpoint add
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# Call function (causing a breakpoint hit in the call dummy) and do a continue,
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# make sure we are back at main and still have the same register contents.
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gdb_test "print add(4,5)" \
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"The program being debugged stopped while.*" \
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"stop at breakpoint in call dummy function"
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gdb_test "continue" "Continuing.*" "continue from call dummy breakpoint"
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if ![gdb_test "bt 2" \
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"#0 main.*" \
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"bt after continuing from call dummy breakpoint"] then {
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set new_reg_content [fetch_all_registers \
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"register contents after stop in call dummy"]
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if {$old_reg_content == $new_reg_content} then {
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pass "continue after stop in call dummy preserves register contents"
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} else {
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fail "continue after stop in call dummy preserves register contents"
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}
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}
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rerun_and_prepare
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# Set breakpoint at a function we will call from gdb.
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gdb_breakpoint add
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# Save all register contents.
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set old_reg_content [fetch_all_registers "retrieve original register contents"]
|
|
|
|
# Call function (causing a breakpoint hit in the call dummy) and do a finish,
|
|
# make sure we are back at main and still have the same register contents.
|
|
gdb_test "print add(4,5)" "The program being debugged stopped while.*" \
|
|
"call function causing a breakpoint then do a finish"
|
|
gdb_test "finish" \
|
|
"Value returned is .* = 9" \
|
|
"finish from call dummy breakpoint returns correct value"
|
|
if ![gdb_test "bt 2" \
|
|
"#0 main.*" \
|
|
"bt after finishing from call dummy breakpoint"] then {
|
|
set new_reg_content [fetch_all_registers \
|
|
"register contents after finish in call dummy"]
|
|
if {$old_reg_content == $new_reg_content} then {
|
|
pass "finish after stop in call dummy preserves register contents"
|
|
} else {
|
|
fail "finish after stop in call dummy preserves register contents"
|
|
}
|
|
}
|
|
|
|
rerun_and_prepare
|
|
# Set breakpoint at a function we will call from gdb.
|
|
gdb_breakpoint add
|
|
# Save all register contents.
|
|
set old_reg_content [fetch_all_registers "retrieve original register contents"]
|
|
|
|
# Call function (causing a breakpoint hit in the call dummy) and do a return
|
|
# with a value, make sure we are back at main with the same register contents.
|
|
gdb_test "print add(4,5)" "The program being debugged stopped while.*" \
|
|
"call function causing a breakpoint and then do a return"
|
|
if ![gdb_test "return 7" \
|
|
"#0 main.*" \
|
|
"back at main after return from call dummy breakpoint" \
|
|
"Make add return now. .y or n.*" \
|
|
"y"] then {
|
|
set new_reg_content [fetch_all_registers \
|
|
"register contents after return in call dummy"]
|
|
if {$old_reg_content == $new_reg_content} then {
|
|
pass "return after stop in call dummy preserves register contents"
|
|
} else {
|
|
fail "return after stop in call dummy preserves register contents"
|
|
}
|
|
}
|
|
|
|
rerun_and_prepare
|
|
# Set breakpoint at a function we will call from gdb.
|
|
gdb_breakpoint add
|
|
set old_reg_content [fetch_all_registers "retrieve original register contents"]
|
|
|
|
# Call function (causing a breakpoint hit in the call dummy), and
|
|
# call another function from the call dummy frame (thereby setting up
|
|
# several nested call dummy frames). Test that backtrace and finish
|
|
# work when several call dummies are nested.
|
|
gdb_breakpoint sum10
|
|
gdb_breakpoint t_small_values
|
|
gdb_test "print add(2,3)" "The program being debugged stopped while.*" \
|
|
"stop at nested call level 1"
|
|
gdb_test "backtrace" \
|
|
"\#0 add \\(a=2, b=3\\).*\#1 <function called from gdb>.*\#2 main.*" \
|
|
"backtrace at nested call level 1"
|
|
gdb_test "print add(4,5)" "The program being debugged stopped while.*" \
|
|
"stop at nested call level 2"
|
|
gdb_test "backtrace" \
|
|
"\#0 add \\(a=4, b=5\\).*\#1 <function called from gdb>.*\#2 add \\(a=2, b=3\\).*\#3 <function called from gdb>.*\#4 main.*" \
|
|
"backtrace at nested call level 2"
|
|
gdb_test "print sum10(2,4,6,8,10,12,14,16,18,20)" \
|
|
"The program being debugged stopped while.*" \
|
|
"stop at nested call level 3"
|
|
gdb_test "backtrace" \
|
|
"\#0 sum10 \\(i0=2, i1=4, i2=6, i3=8, i4=10, i5=12, i6=14, i7=16, i8=18, i9=20\\).*\#1 <function called from gdb>.*\#2 add \\(a=4, b=5\\).*\#3 <function called from gdb>.*\#4 add \\(a=2, b=3\\).*\#5 <function called from gdb>.*\#6 main.*" \
|
|
"backtrace at nested call level 3"
|
|
gdb_test "print t_small_values(1,3,5,7,9,11,13,15,17,19)" \
|
|
"The program being debugged stopped while.*" \
|
|
"stop at nested call level 4"
|
|
gdb_test "backtrace" \
|
|
"\#0 t_small_values \\(arg1=1 '.001', arg2=3, arg3=5, arg4=7 '.a', arg5=9, arg6=11 '.v', arg7=13, arg8=15, arg9=17, arg10=19\\).*\#2 sum10 \\(i0=2, i1=4, i2=6, i3=8, i4=10, i5=12, i6=14, i7=16, i8=18, i9=20\\).*\#3 <function called from gdb>.*\#4 add \\(a=4, b=5\\).*\#5 <function called from gdb>.*\#6 add \\(a=2, b=3\\).*\#7 <function called from gdb>.*\#8 main.*" \
|
|
"backtrace at nested call level 4"
|
|
gdb_test "finish" "Value returned is .* = 100" \
|
|
"Finish from nested call level 4"
|
|
gdb_test "backtrace" \
|
|
"\#0 sum10 \\(i0=2, i1=4, i2=6, i3=8, i4=10, i5=12, i6=14, i7=16, i8=18, i9=20\\).*\#1 <function called from gdb>.*\#2 add \\(a=4, b=5\\).*\#3 <function called from gdb>.*\#4 add \\(a=2, b=3\\).*\#5 <function called from gdb>.*\#6 main.*" \
|
|
"backtrace after finish from nested call level 4"
|
|
gdb_test "finish" "Value returned is .* = 110" \
|
|
"Finish from nested call level 3"
|
|
gdb_test "backtrace" \
|
|
"\#0 add \\(a=4, b=5\\).*\#1 <function called from gdb>.*\#2 add \\(a=2, b=3\\).*\#3 <function called from gdb>.*\#4 main.*" \
|
|
"backtrace after finish from nested call level 3"
|
|
gdb_test "finish" "Value returned is .* = 9" \
|
|
"Finish from nested call level 2"
|
|
gdb_test "backtrace" \
|
|
"\#0 add \\(a=2, b=3\\).*\#1 <function called from gdb>.*\#2 main.*" \
|
|
"backtrace after finish from nested call level 2"
|
|
gdb_test "finish" "Value returned is .* = 5" \
|
|
"Finish from nested call level 1"
|
|
gdb_test "backtrace" "\#0 main .*" \
|
|
"backtrace after finish from nested call level 1"
|
|
|
|
set new_reg_content [fetch_all_registers \
|
|
"register contents after nested call dummies"]
|
|
if {$old_reg_content == $new_reg_content} then {
|
|
pass "nested call dummies preserve register contents"
|
|
} else {
|
|
fail "nested call dummies preserve register contents"
|
|
}
|
|
|
|
# GDB should not crash by internal error on $sp underflow during the inferior
|
|
# call. It is OK it will stop on some: Cannot access memory at address 0x$hex.
|
|
|
|
if {![target_info exists gdb,nosignals] && ![istarget "*-*-uclinux*"]} {
|
|
gdb_test {set $old_sp = $sp}
|
|
|
|
gdb_test {set $sp = 0}
|
|
gdb_test "call doubleit (1)" ".*" "sp == 0: call doubleit (1)"
|
|
|
|
gdb_test {set $sp = -1}
|
|
gdb_test "call doubleit (1)" ".*" "sp == -1: call doubleit (1)"
|
|
|
|
gdb_test {set $sp = $old_sp}
|
|
}
|
|
|
|
# Test function descriptor resolution - the separate debug info .opd section
|
|
# handling vs. local labels `.L'... as `Lcallfunc' starts with `L'.
|
|
|
|
gdb_test "print callfunc (Lcallfunc, 5)" " = 12"
|
|
|
|
# Regression test for function pointer cast.
|
|
gdb_test "print *((int *(*) (void)) voidfunc)()" " = 23"
|
|
}
|
|
|
|
# Perform all tests with and without function prototypes.
|
|
|
|
if { ![prepare_for_testing ${testfile}.exp $testfile $srcfile "$compile_flags additional_flags=-DPROTOTYPES"] } {
|
|
perform_all_tests
|
|
}
|
|
|
|
if { ![prepare_for_testing ${testfile}.exp $testfile $srcfile "$compile_flags additional_flags=-DNO_PROTOTYPES"] } {
|
|
with_test_prefix "noproto" perform_all_tests
|
|
}
|