# Copyright 2018-2020 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 . if {![istarget "riscv*-*-*"]} { verbose "Skipping ${gdb_test_file_name}." return } standard_testfile if {[prepare_for_testing "failed to prepare" $testfile $srcfile debug]} { return -1 } if ![runto_main] then { fail "can't run to main" return 0 } # A list for all the integer register names and their aliases. The format is # a list with each entry being itself a list, the first item being the primary # name of a register (the name GDB uses by default), and the second entry # being a list of register aliases. set xreg_names \ { { ra {x1} } { sp {x2} } { gp {x3} } { tp {x4} } { t0 {x5} } \ { t1 {x6} } { t2 {x7} } { fp {x8 s0} } { s1 {x9} } { a0 {x10} } \ { a1 {x11} } { a2 {x12} } { a3 {x13} } { a4 {x14} } { a5 {x15} } \ { a6 {x16} } { a7 {x17} } { s2 {x18} } { s3 {x19} } { s4 {x20} } \ { s5 {x21} } { s6 {x22} } { s7 {x23} } { s8 {x24} } { s9 {x25} } \ { s10 {x26} } { s11 {x27} } { t3 {x28} } { t4 {x29} } { t5 {x30} } \ { t6 {x31} } } # This is just like XREG_NAMES, except it contains all the floating point # register names and their aliases. set freg_names \ { { ft0 {f0} } { ft1 {f1} } { ft2 {f2} } { ft3 {f3} } { ft4 {f4} } \ { ft5 {f5} } { ft6 {f6} } { ft7 {f7} } { fs0 {f8} } { fs1 {f9} } \ { fa0 {f10} } { fa1 {f11} } { fa2 {f12} } { fa3 {f13} } { fa4 {f14} } \ { fa5 {f15} } { fa6 {f16} } { fa7 {f17} } { fs2 {f18} } { fs3 {f19} } \ { fs4 {f20} } { fs5 {f21} } { fs6 {f22} } { fs7 {f23} } { fs8 {f24} } \ { fs9 {f25} } { fs10 {f26} } { fs11 {f27} } { ft8 {f28} } { ft9 {f29} } \ { ft10 {f30} } { ft11 {f31} } } # Check that the zero register (and its x0 alias) both contain the # value 0. proc check_zero_register_value {testname} { gdb_test "p/d \$zero" " = 0" "check \$zero: ${testname}" gdb_test "p/d \$x0" " = 0" "check \$x0: ${testname}" } # Set all of the registers in REG_SET to zero. Confirm that the value of zero # can be read back using the primary name, and from all of the alias names. # # For some architectures (RV64, RV128) the float registers have union type, # and we need to read/write using a ".float" extension. This is passed in # REG_EXTENSION. If no extension is needed then REG_EXTENSION is the empty # string. proc check_setting_registers_to_zero { reg_set reg_extension } { foreach reg_desc ${reg_set} { set primary_name [lindex ${reg_desc} 0] set alias_names [lindex ${reg_desc} 1] gdb_test_no_output "set \$${primary_name}${reg_extension} = 0" \ "set register ${primary_name} to an initial value of zero" gdb_test "p/d \$${primary_name}${reg_extension}" " = 0" \ "check the initial value of ${primary_name} is now zero" foreach reg_alias ${alias_names} { gdb_test "p/d \$${reg_alias}${reg_extension}" " = 0" \ "check the initial value of ${reg_alias} is now zero" } } } # Set all of the registers in REG_SET to a new value (the value starts at # REG_VALUE and is incremented after each test). Then confirm that the new # value can be read back using the primary name, and from all of the alias # names. # # Next, set each register in REG_SET using each of its alias names, then # confirm that the value can be read back using both the primary name, and all # of the aliases. # # The REG_EXTENSION field is used as in CHECK_SETTING_REGISTERS_TO_ZERO. proc check_setting_registers_to_value { reg_set reg_extension reg_value } { foreach reg_desc ${reg_set} { set primary_name [lindex ${reg_desc} 0] set alias_names [lindex ${reg_desc} 1] # Set value through the primary register name, and check that all # the aliases see the same value. set reg_value [incr reg_value] gdb_test_no_output "set \$${primary_name}${reg_extension} = $reg_value" \ "write non-zero value to ${primary_name}" gdb_test "p/d \$${primary_name}${reg_extension}" " = $reg_value" \ "read ${primary_name} after non-zero write to ${primary_name}" foreach reg_alias ${alias_names} { gdb_test "p/d \$${reg_alias}${reg_extension}" " = $reg_value" \ "read ${reg_alias} after non-zero write to ${primary_name}" } # For each alias, set a new value, and check that the primary # register name, and all the other aliases, see the new value. foreach reg_alias ${alias_names} { set reg_value [incr reg_value] gdb_test_no_output "set \$${reg_alias}${reg_extension} = $reg_value" \ "write non-zero value to ${reg_alias}" gdb_test "p/d \$${primary_name}${reg_extension}" " = $reg_value" \ "read ${primary_name} after non-zero write to ${reg_alias}" foreach other_reg_alias ${alias_names} { gdb_test "p/d \$${other_reg_alias}${reg_extension}" " = $reg_value" \ "read ${other_reg_alias} after non-zero write to ${reg_alias}" } } } } # First, some testing of the zero register. This register should # always read as zero, and should swallow any attempt to write a # non-zero value to the register. check_zero_register_value "before any writes" gdb_test_no_output "set \$zero = 123" \ "write to the \$zero register" check_zero_register_value "after write to \$zero" gdb_test_no_output "set \$x0 = 123" \ "write to the \$x0 register" check_zero_register_value "after write to \$x0" # Some RISC-V variants model the fregs as a union (RV64, RV128). In this case # we should access the register using 'REG_NAME.float'. In the following we # figure out if the field name is needed or not by looking at how GDB prints # on register. set skip_freg_tests 0 set freg_extension "INVALID" set message "check format of float registers" gdb_test_multiple "info registers \$ft0" $message { -re "Invalid register `ft0'\r\n$gdb_prompt $" { set skip_freg_tests 1 set freg_extension "NONE" pass $message } -re "ft0 \+\[0-9\]\+.*\r\n$gdb_prompt $" { set freg_extension "" pass $message } -re "ft0 \+\{float = .*\r\n$gdb_prompt $" { set freg_extension ".float" pass $message } } gdb_assert ![string eq "${freg_extension}" "INVALID"] \ "check that floating point format has been understood" # Now check that we can write zero, and read zero back to all of the integer # and floating point registers. check_setting_registers_to_zero ${xreg_names} "" if { ! $skip_freg_tests } { check_setting_registers_to_zero ${freg_names} ${freg_extension} } # Set each register in turn to a new value, and confirm that the new value can # be read back from the primary name, and from all of the alias names. The # value passed in to each test invocation here is arbitrary, they are # significantly different so that the float tests don't reuse value from the # integer tests. check_setting_registers_to_value ${xreg_names} "" 100 if { ! $skip_freg_tests } { check_setting_registers_to_value ${freg_names} ${freg_extension} 500 }