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[risu,3/4] s390x: Add basic risugen perl module for s390x

Message ID 20230904140040.33153-4-thuth@redhat.com
State New
Headers show
Series Add support for s390x to RISU | expand

Commit Message

Thomas Huth Sept. 4, 2023, 2 p.m. UTC
This implements support for simple 16-bit and 32-bit instructions.
Support for 48-bit instructions and support for load/store memory
instructions is not implemented yet.

Signed-off-by: Thomas Huth <thuth@redhat.com>
---
 risugen_s390x.pm | 194 +++++++++++++++++++++++++++++++++++++++++++++++
 1 file changed, 194 insertions(+)
 create mode 100644 risugen_s390x.pm
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Patch

diff --git a/risugen_s390x.pm b/risugen_s390x.pm
new file mode 100644
index 0000000..c58d3c1
--- /dev/null
+++ b/risugen_s390x.pm
@@ -0,0 +1,194 @@ 
+#!/usr/bin/perl -w
+###############################################################################
+# Copyright 2023 Red Hat Inc.
+# All rights reserved. This program and the accompanying materials
+# are made available under the terms of the Eclipse Public License v1.0
+# which accompanies this distribution, and is available at
+# http://www.eclipse.org/legal/epl-v10.html
+#
+# Contributors:
+#     Thomas Huth - initial implementation (based on risugen_ppc64.pm etc.)
+###############################################################################
+
+# risugen -- generate a test binary file for use with risu
+# See 'risugen --help' for usage information.
+package risugen_s390x;
+
+use strict;
+use warnings;
+
+use risugen_common;
+
+require Exporter;
+
+our @ISA    = qw(Exporter);
+our @EXPORT = qw(write_test_code);
+
+my $periodic_reg_random = 1;
+
+# Maximum alignment restriction permitted for a memory op.
+my $MAXALIGN = 64;
+
+sub write_mov_ri($$$)
+{
+    my ($r, $imm_h, $imm_l) = @_;
+
+    # LGFI
+    insn16(0xc0 << 8 | $r << 4 | 0x1);
+    insn32($imm_l);
+    # IIHF r,imm_high
+    insn16(0xc0 << 8 | $r << 4 | 0x8);
+    insn32($imm_h);
+}
+
+sub write_mov_fp($$)
+{
+    my ($r, $imm) = @_;
+
+    write_mov_ri(0, ~$imm, $imm);
+    # LDGR
+    insn32(0xb3c1 << 16 | $r << 4);
+}
+
+sub write_random_regdata()
+{
+    # Floating point registers
+    for (my $i = 0; $i < 16; $i++) {
+        write_mov_fp($i, rand(0xffffffff));
+    }
+
+    # Load FPC (via r0)
+    write_mov_ri(0, 0, (rand(0xffffffff) & 0xfcfcff77));
+    insn32(0xb3840000);
+
+    # general purpose registers (except return addr in r14 and the stack in r15)
+    for (my $i = 0; $i < 14; $i++) {
+        write_mov_ri($i, rand(0xffffffff), rand(0xffffffff));
+    }
+}
+
+my $OP_COMPARE = 0;        # compare registers
+my $OP_TESTEND = 1;        # end of test, stop
+
+sub write_random_register_data()
+{
+    write_random_regdata();
+    write_risuop($OP_COMPARE);
+}
+
+sub gen_one_insn($$)
+{
+    # Given an instruction-details array, generate an instruction
+    my $constraintfailures = 0;
+
+    INSN: while(1) {
+        my ($forcecond, $rec) = @_;
+        my $insn = int(rand(0xffffffff));
+        my $insnname = $rec->{name};
+        my $insnwidth = $rec->{width};
+        my $fixedbits = $rec->{fixedbits};
+        my $fixedbitmask = $rec->{fixedbitmask};
+        my $constraint = $rec->{blocks}{"constraints"};
+        my $memblock = $rec->{blocks}{"memory"};
+
+        $insn &= ~$fixedbitmask;
+        $insn |= $fixedbits;
+
+        for my $tuple (@{ $rec->{fields} }) {
+            my ($var, $pos, $mask) = @$tuple;
+            my $val = ($insn >> $pos) & $mask;
+            # Check constraints here: Do not allow to use or modify
+            # the return address (r14) or stack pointer (r15)
+            next INSN if ($var =~ /^r/ && (($val == 14) || ($val == 15)));
+        }
+
+        if (defined $constraint) {
+            # user-specified constraint: evaluate in an environment
+            # with variables set corresponding to the variable fields.
+            my $v = eval_with_fields($insnname, $insn, $rec, "constraints", $constraint);
+            if (!$v) {
+                $constraintfailures++;
+                if ($constraintfailures > 10000) {
+                    print "10000 consecutive constraint failures for $insnname constraints string:\n$constraint\n";
+                    exit (1);
+                }
+                next INSN;
+            }
+        }
+
+        # OK, we got a good one
+        $constraintfailures = 0;
+
+        my $basereg;
+
+        if (defined $memblock) {
+            die "memblock handling has not been implemented yet."
+        }
+
+        if ($insnwidth == 16) {
+            insn16(($insn >> 16) & 0xffff);
+        } else {
+            insn32($insn);
+        }
+
+        return;
+    }
+}
+
+sub write_risuop($)
+{
+    my ($op) = @_;
+    insn32(0x835a0f00 | $op);
+}
+
+sub write_test_code($)
+{
+    my ($params) = @_;
+
+    my $condprob = $params->{ 'condprob' };
+    my $numinsns = $params->{ 'numinsns' };
+    my $outfile = $params->{ 'outfile' };
+
+    my %insn_details = %{ $params->{ 'details' } };
+    my @keys = @{ $params->{ 'keys' } };
+
+    set_endian(1);
+
+    open_bin($outfile);
+
+    # convert from probability that insn will be conditional to
+    # probability of forcing insn to unconditional
+    $condprob = 1 - $condprob;
+
+    # TODO better random number generator?
+    srand(0);
+
+    print "Generating code using patterns: @keys...\n";
+    progress_start(78, $numinsns);
+
+    if (grep { defined($insn_details{$_}->{blocks}->{"memory"}) } @keys) {
+        write_memblock_setup();
+    }
+
+    # memblock setup doesn't clean its registers, so this must come afterwards.
+    write_random_register_data();
+
+    for my $i (1..$numinsns) {
+        my $insn_enc = $keys[int rand (@keys)];
+        #dump_insn_details($insn_enc, $insn_details{$insn_enc});
+        my $forcecond = (rand() < $condprob) ? 1 : 0;
+        gen_one_insn($forcecond, $insn_details{$insn_enc});
+        write_risuop($OP_COMPARE);
+        # Rewrite the registers periodically. This avoids the tendency
+        # for the VFP registers to decay to NaNs and zeroes.
+        if ($periodic_reg_random && ($i % 100) == 0) {
+            write_random_register_data();
+        }
+        progress_update($i);
+    }
+    write_risuop($OP_TESTEND);
+    progress_end();
+    close_bin();
+}
+
+1;