# Copyright (C) 2023-2024 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 . # Exercise the following: # - Printing ZA registers when there is no ZA state. # - Setting values of ZA registers when there is no ZA state. # - Validating ZA state is activated when we write to ZA registers. # - Validate that reading ZT0 without an active ZA state works as expected. load_lib aarch64-scalable.exp # # Validate that the ZA registers have the expected state. # proc_with_prefix check_regs { vl svl } { # Check VG to make sure it is correct set expected_vg [expr $vl / 8] gdb_test "print \$vg" "= ${expected_vg}" # Check SVG to make sure it is correct set expected_svg [expr $svl / 8] gdb_test "print \$svg" "= ${expected_svg}" # Make sure there is no SM or ZA state. if [gdb_test "print \$svcr" "= \\\[ \\\]"] { fail "incorrect ZA state" return -1 } # Check the size of ZA. set expected_za_size [expr $svl * $svl] gdb_test "print sizeof \$za" " = $expected_za_size" # Check the size of Z0. gdb_test "print sizeof \$z0" " = $vl" # Set the expected ZA pattern. set za_pattern [string_to_regexp [2d_array_value_pattern 0 $svl $svl]] # Check ZA. gdb_test "print \$za" $za_pattern # Exercise reading/writing the tile slice pseudo-registers. set last_tile 1 set last_slice $svl set elements $svl set expected_size $svl foreach_with_prefix granularity {"b" "h" "s" "d" "q"} { set pattern [string_to_regexp [1d_array_value_pattern 0 $elements]] for {set tile 0} {$tile < $last_tile} {incr tile} { for {set slice 0} {$slice < $last_slice} {incr slice} { foreach_with_prefix direction {"h" "v"} { set register_name "\$za${tile}${direction}${granularity}${slice}" # Test the size. gdb_test "print sizeof ${register_name}" " = ${expected_size}" gdb_test "print ${register_name}" $pattern } } } set last_tile [expr $last_tile * 2] set last_slice [expr ($last_slice / 2)] set elements [expr ($elements / 2)] } # Exercise reading/writing the tile pseudo-registers. set last_tile 1 set elements $svl set expected_size [expr $svl * $svl] foreach_with_prefix granularity {"b" "h" "s" "d" "q"} { set pattern [string_to_regexp [2d_array_value_pattern 0 $elements $elements]] for {set tile 0} {$tile < $last_tile} {incr tile} { set register_name "\$za${tile}${granularity}" # Test the size. gdb_test "print sizeof ${register_name}" " = ${expected_size}" gdb_test "print ${register_name}" $pattern } set last_tile [expr $last_tile * 2] set expected_size [expr $expected_size / 2] set elements [expr ($elements / 2)] } # Exercise reading from SME2 registers. if [is_sme2_available] { # The target supports SME2. set zt_size 64 gdb_test "print sizeof \$zt0" " = $zt_size" # If ZA is not active, ZT0 will always be zero. set zt_pattern [string_to_regexp [1d_array_value_pattern 0 $zt_size]] gdb_test "print \$zt0" " = $zt_pattern" } } # # Cycle through all ZA registers and pseudo-registers and validate that their # contents are unavailable (zeroed out) for vector length SVL. # proc test_sme_registers_unavailable { id_start id_end } { set compile_flags {"debug" "macros"} lappend compile_flags "additional_flags=-DID_START=${id_start}" lappend compile_flags "additional_flags=-DID_END=${id_end}" standard_testfile ${::srcdir}/${::subdir}/aarch64-sme-regs-unavailable.c set executable "${::testfile}-${id_start}-${id_end}" if {[prepare_for_testing "failed to prepare" ${executable} ${::srcfile} ${compile_flags}]} { return -1 } set binfile [standard_output_file ${executable}] # Check if we are talking to a remote target. If so, bail out, as right now # remote targets can't communicate vector length (vl or svl) changes to gdb # via the RSP. When this restriction is lifted, we can remove this guard. if {[gdb_protocol_is_remote]} { unsupported "aarch64 sve/sme tests not supported for remote targets" return -1 } if ![runto_main] { untested "could not run to main" return -1 } gdb_test_no_output "set print repeats 1" set prctl_breakpoint "stop 1" gdb_breakpoint [gdb_get_line_number $prctl_breakpoint] for {set id $id_start} {$id <= $id_end} {incr id} { set vl [test_id_to_vl $id] set svl [test_id_to_svl $id] set skip_unsupported 0 if {![aarch64_supports_sve_vl $vl] || ![aarch64_supports_sme_svl $svl]} { # We have a vector length or streaming vector length that # is not supported by this target. Skip to the next iteration # since it is no use running tests for an unsupported vector # length. if {![aarch64_supports_sve_vl $vl]} { verbose -log "SVE vector length $vl not supported." } elseif {![aarch64_supports_sme_svl $svl]} { verbose -log "SME streaming vector length $svl not supported." } verbose -log "Skipping test." set skip_unsupported 1 } with_test_prefix "prctl, vl=${vl} svl=${svl}" { # If the SVE or SME vector length is not supported, just skip # these next tests. if {$skip_unsupported} { untested "unsupported configuration on target" continue } # Run the program until it has adjusted svl. gdb_continue_to_breakpoint $prctl_breakpoint check_regs $vl $svl } } set non_prctl_breakpoint "stop 2" gdb_breakpoint [gdb_get_line_number $non_prctl_breakpoint] gdb_continue_to_breakpoint $non_prctl_breakpoint for {set id $id_start} {$id <= $id_end} {incr id} { set vl [test_id_to_vl $id] set svl [test_id_to_svl $id] set skip_unsupported 0 if {![aarch64_supports_sve_vl $vl] || ![aarch64_supports_sme_svl $svl]} { # We have a vector length or streaming vector length that # is not supported by this target. Skip to the next iteration # since it is no use running tests for an unsupported vector # length. if {![aarch64_supports_sve_vl $vl]} { verbose -log "SVE vector length $vl not supported." } elseif {![aarch64_supports_sme_svl $svl]} { verbose -log "SME streaming vector length $svl not supported." } verbose -log "Skipping test." set skip_unsupported 1 } with_test_prefix "gdb, vl=${vl} svl=${svl}" { # If the SVE or SME vector length is not supported, just skip # these next tests. if {$skip_unsupported} { untested "unsupported configuration on target" continue } # Adjust vg and svg. set vg_value [expr $vl / 8] set svg_value [expr $svl / 8] gdb_test_no_output "set \$vg = ${vg_value}" gdb_test_no_output "set \$svg = ${svg_value}" check_regs $vl $svl } } } require is_aarch64_target require allow_aarch64_sve_tests require allow_aarch64_sme_tests test_sme_registers_unavailable $id_start $id_end