+#!/usr/bin/perl
+
use strict;
use warnings;
use Digest::SHA;
+use Carp;
sub id()
{
{
return { a => 'inglobalvec', isreturn => 1 };
}
+ if($op eq 'STATE')
+ {
+ return { a => 'inglobal', b => 'inglobalfunc' };
+ }
+ if($op =~ /^INVALID#/)
+ {
+ return { isinvalid => 1 };
+ }
return { a => 'inglobal', b => 'inglobal', c => 'outglobal' };
}
[uchar8 => 'parm_size'],
];
+use constant LNOHEADER_T => [
+ [int => 'lnotype'],
+ [int => 'version'],
+ [int => 'numglobaldefs'],
+ [int => 'numglobals'],
+ [int => 'numfielddefs'],
+ [int => 'numstatements'],
+];
+
+use constant LNO_T => [
+ [int => 'v'],
+];
+
sub get_section($$$)
{
my ($fh, $start, $len) = @_;
seek $fh, $start, 0
or die "seek: $!";
$len == read $fh, my $buf, $len
- or die "short read";
+ or die "short read from $start length $len (malformed progs header)";
return $buf;
}
my @out = map
{
$itemlen == read $fh, my $buf, $itemlen
- or die "short read";
+ or die "short read from $start length $cnt * $itemlen $(malformed progs header)";
my %h = ();
@h{@packnames} = unpack $packspec, $buf;
$h{$_->[1]} = TYPES->{$_->[0]}->[2]->($h{$_->[1]})
elsif($c->{iscall})
{
my $func = $s->{a};
- my $funcid = $progs->{globals}[$func]{v}{int};
last
- if $progs->{error_func}{$funcid};
+ if $progs->{builtins}{error}{$func};
$ip += 1;
}
elsif($c->{isjump})
$nfa->($ip, $copy_handler->($state));
}
-sub get_constant($$)
+sub get_constant($$$)
{
- my ($progs, $g) = @_;
- if($g->{int} == 0)
- {
- return 0;
- }
- elsif($g->{int} > 0 && $g->{int} < 8388608)
- {
- if($g->{int} < length $progs->{strings} && $g->{int} > 0)
- {
- return str($progs->{getstring}->($g->{int}));
- }
- else
- {
- return $g->{int} . "i";
- }
- }
- else
- {
- return $g->{float};
+ my ($progs, $g, $type) = @_;
+
+ if (!defined $type) {
+ $type = 'float';
+ $type = 'int'
+ if $g->{int} > 0 && $g->{int} < 8388608;
+ $type = 'string'
+ if $g->{int} > 0 && $g->{int} < length $progs->{strings};
}
+
+ return str($progs->{getstring}->($g->{int}))
+ if $type eq 'string';
+ return $g->{float}
+ if $type eq 'float';
+ return "'$g->{float} _ _'"
+ if $type eq 'vector';
+ return "entity $g->{int}"
+ if $type eq 'entity';
+ return ".$progs->{entityfieldnames}[$g->{int}][0]"
+ if $type eq 'field' and defined $progs->{entityfieldnames}[$g->{int}][0];
+ return "$g->{int}i"
+ if $type eq 'int';
+
+ return "$type($g->{int})";
}
use constant PRE_MARK_STATEMENT => "";
return "\"$str\"";
}
+sub debugpos($$$) {
+ my ($progs, $func, $ip) = @_;
+ my $s = $func->{debugname};
+ if ($progs->{cno}) {
+ my $column = $progs->{cno}[$ip]{v};
+ $s =~ s/:/:$column:/;
+ }
+ if ($progs->{lno}) {
+ my $line = $progs->{lno}[$ip]{v};
+ $s =~ s/:/:$line:/;
+ }
+ return $s;
+}
+
sub disassemble_function($$;$)
{
my ($progs, $func, $highlight) = @_;
print "$func->{debugname}:\n";
+ if($func->{first_statement} < 0) # builtin
+ {
+ printf INSTRUCTION_FORMAT, '', '', '.BUILTIN';
+ printf OPERAND_FORMAT, -$func->{first_statement};
+ print INSTRUCTION_SEPARATOR;
+ return;
+ }
+
my $initializer = sub
{
my ($ofs) = @_;
- my $g = get_constant($progs, $progs->{globals}[$ofs]{v});
+ # TODO: Can we know its type?
+ my $g = get_constant($progs, $progs->{globals}[$ofs]{v}, undef);
print " = $g"
if defined $g;
};
my $ipt = $progs->{statements}[$ip];
my $opprop = checkop $op;
+ if($highlight and $highlight->{$ip})
+ {
+ for(values %{$highlight->{$ip}})
+ {
+ for(sort keys %$_)
+ {
+ print PRE_MARK_STATEMENT;
+ printf INSTRUCTION_FORMAT, '', '<!>', '.WARN';
+ my $pos = debugpos $progs, $func, $ip;
+ printf OPERAND_FORMAT, "$_ (in $pos)";
+ print INSTRUCTION_SEPARATOR;
+ }
+ }
+ }
+
print PRE_MARK_STATEMENT
if $highlight and $highlight->{$ip};
my $showip = $opprop->{isjump};
- printf INSTRUCTION_FORMAT, $showip ? $ip : '', $highlight->{$ip} ? "<!>" : "", $op;
+ printf INSTRUCTION_FORMAT, $showip ? $ip : '', $highlight->{$ip} ? '<!>' : '', $op;
my $cnt = 0;
for my $o(qw(a b c))
{
my ($progs, $func) = @_;
-
return
if $func->{first_statement} < 0; # builtin
for(keys %{$progs->{temps}})
{
- $watchme{$_} = WATCHME_T | WATCHME_X
- if not exists $watchme{$_};
+ next
+ if exists $watchme{$_};
+ if($progs->{temps}{$_})
+ {
+ # shared temp
+ $watchme{$_} = WATCHME_T | WATCHME_X
+ }
+ else
+ {
+ # unique temp
+ $watchme{$_} = WATCHME_X
+ }
}
$watchme{$_} |= WATCHME_R
$watchme{$_}{valid} = [1, undef, undef]
if defined $watchme{$_};
}
- # an initial run of STORE instruction is for receiving extra parameters
- # (beyond 8). Only possible if the function is declared as having 8 params.
- # Extra parameters behave otherwise like temps, but are initialized at
- # startup.
- for($func->{first_statement} .. (@{$progs->{statements}}-1))
- {
- my $s = $progs->{statements}[$_];
- if($s->{op} eq 'STORE_V')
- {
- $watchme{$s->{a}}{valid} = [1, undef, undef]
- if defined $watchme{$s->{a}};
- $watchme{$s->{a}+1}{valid} = [1, undef, undef]
- if defined $watchme{$s->{a}+1};
- $watchme{$s->{a}+2}{valid} = [1, undef, undef]
- if defined $watchme{$s->{a}+2};
- }
- elsif($s->{op} =~ /^STORE_/)
- {
- $watchme{$s->{a}}{valid} = [1, undef, undef]
- if defined $watchme{$s->{a}};
- }
- else
- {
- last;
- }
- }
my %warned = ();
my %ip_seen = ();
my ($ip, $state, $s, $c) = @_;
my $op = $s->{op};
+ # QCVM BUG: RETURN always takes vector, there is no float equivalent
my $return_hack = $c->{isreturn} // 0;
+ if($op eq 'STORE_V')
+ {
+ # COMPILER BUG of QCC: params are always copied using STORE_V
+ if($s->{b} >= 4 && $s->{b} < 28) # parameter range
+ {
+ $return_hack = 1;
+ }
+ }
+
+ if($c->{isinvalid})
+ {
+ ++$warned{$ip}{''}{"Invalid opcode"};
+ }
for(qw(a b c))
{
my $type = $c->{$_};
my $valid = $state->{$ofs}{valid};
if($valid->[0] == 0)
{
- if($return_hack <= 2 and ($op ne 'OR' && $op ne 'AND' || $_ ne 'b')) # fteqcc logicops cause this
+ # COMPILER BUG of FTEQCC: AND and OR may take uninitialized as second argument (logicops)
+ if($return_hack <= 2 and ($op ne 'OR' && $op ne 'AND' || $_ ne 'b'))
{
- print "; Use of uninitialized value $ofs in $func->{debugname} at $ip.$_\n";
- ++$warned{$ip}{$_};
+ ++$warned{$ip}{$_}{"Use of uninitialized value"};
}
}
elsif($valid->[0] < 0)
{
- if($return_hack <= 2 and ($op ne 'OR' && $op ne 'AND' || $_ ne 'b')) # fteqcc logicops cause this
+ # COMPILER BUG of FTEQCC: AND and OR may take uninitialized as second argument (logicops)
+ if($return_hack <= 2 and ($op ne 'OR' && $op ne 'AND' || $_ ne 'b'))
{
- print "; Use of temporary $ofs across CALL in $func->{debugname} at $ip.$_\n";
- ++$warned{$ip}{$_};
+ ++$warned{$ip}{$_}{"Use of temporary across CALL"};
}
}
else
$write->($ofs+1);
$write->($ofs+2);
}
+ elsif($type eq 'ipoffset')
+ {
+ ++$warned{$ip}{$_}{"Endless loop"}
+ if $ofs == 0;
+ ++$warned{$ip}{$_}{"No-operation jump"}
+ if $ofs == 1;
+ }
}
if($c->{iscall})
{
if(!$isread)
{
- print "; Value is never used in $func->{debugname} at $ip.$operand\n";
- ++$warned{$ip}{$operand};
+ ++$warned{$ip}{$operand}{"Value is never used"};
}
}
}
-
+
+ my %solid_seen = ();
+ run_nfa $progs, $func->{first_statement}, do { my $state = -1; \$state; },
+ sub
+ {
+ my $state = ${$_[0]};
+ return \$state;
+ },
+ sub
+ {
+ my ($ip, $state) = @_;
+ return $solid_seen{"$ip $$state"}++;
+ },
+ sub
+ {
+ my ($ip, $state, $s, $c) = @_;
+
+ if($s->{op} eq 'ADDRESS')
+ {
+ my $field_ptr_ofs = $s->{b};
+ my $def = $progs->{globaldef_byoffset}->($field_ptr_ofs);
+ use Data::Dumper;
+ if (($def->{globaltype} eq 'read_only' || $def->{globaltype} eq 'const') &&
+ grep { $_ eq 'solid' } @{$progs->{entityfieldnames}[$progs->{globals}[$field_ptr_ofs]{v}{int}]})
+ {
+ # Taking address of 'solid' for subsequent write!
+ # TODO check if this address is then actually used in STOREP.
+ $$state = $ip;
+ }
+ }
+
+ if($c->{iscall})
+ {
+ # TODO check if the entity passed is actually the one on which solid was set.
+ my $func = $s->{a};
+ if ($progs->{builtins}{setmodel}{$func} || $progs->{builtins}{setmodelindex}{$func} || $progs->{builtins}{setorigin}{$func} || $progs->{builtins}{setsize}{$func})
+ {
+ # All is clean.
+ $$state = -1;
+ }
+ }
+
+ if($c->{isreturn})
+ {
+ if ($$state >= 0) {
+ ++$warned{$$state}{''}{"Changing .solid without setmodel/setmodelindex/setorigin/setsize breaks area grid linking in Quake [write is here]"};
+ ++$warned{$ip}{''}{"Changing .solid without setmodel/setmodelindex/setorigin/setsize breaks area grid linking in Quake [return is here]"};
+ }
+ }
+
+ return 0;
+ };
+
disassemble_function($progs, $func, \%warned)
if keys %warned;
}
use constant GLOBALFLAG_N => 16; # named
use constant GLOBALFLAG_Q => 32; # unique to function
use constant GLOBALFLAG_U => 64; # unused
- my @globalflags = (GLOBALFLAG_Q | GLOBALFLAG_U) x @{$progs->{globals}};
+ use constant GLOBALFLAG_P => 128; # possibly parameter passing
+ use constant GLOBALFLAG_D => 256; # has a def
+ my @globalflags = (GLOBALFLAG_Q | GLOBALFLAG_U) x (@{$progs->{globals}} + 2);
for(@{$progs->{functions}})
{
for(keys %{$_->{globals_used}})
{
- if($globalflags[$_] & GLOBALFLAG_Q)
+ if($globalflags[$_] & GLOBALFLAG_U)
{
- $globalflags[$_] &= ~GLOBALFLAG_Q;
+ $globalflags[$_] &= ~GLOBALFLAG_U;
}
- else
+ elsif($globalflags[$_] & GLOBALFLAG_Q)
{
- $globalflags[$_] &= ~GLOBALFLAG_U;
+ $globalflags[$_] &= ~GLOBALFLAG_Q;
}
}
$globalflags[$_] |= GLOBALFLAG_R
for keys %{$_->{globals_read}};
$globalflags[$_] |= GLOBALFLAG_W
for keys %{$_->{globals_written}};
+ next
+ if $_->{first_statement} < 0;
+ for my $ip($_->{first_statement} .. (@{$progs->{statements}}-1))
+ {
+ my $s = $progs->{statements}[$ip];
+ if($s->{op} eq 'STORE_V')
+ {
+ $globalflags[$s->{a}] |= GLOBALFLAG_P
+ if $s->{b} >= $_->{parm_start} and $s->{b} < $_->{parm_start} + $_->{locals};
+ $globalflags[$s->{a}+1] |= GLOBALFLAG_P
+ if $s->{b}+1 >= $_->{parm_start} and $s->{b}+1 < $_->{parm_start} + $_->{locals};
+ $globalflags[$s->{a}+2] |= GLOBALFLAG_P
+ if $s->{b}+2 >= $_->{parm_start} and $s->{b}+2 < $_->{parm_start} + $_->{locals};
+ }
+ elsif($s->{op} =~ /^STORE_/)
+ {
+ $globalflags[$s->{a}] |= GLOBALFLAG_P
+ if $s->{b} >= $_->{parm_start} and $s->{b} < $_->{parm_start} + $_->{locals};
+ }
+ else
+ {
+ last;
+ }
+ }
+ }
+
+ # parameter passing globals are only ever used in STORE_ instructions
+ for my $s(@{$progs->{statements}})
+ {
+ next
+ if $s->{op} =~ /^STORE_/;
+
+ my $c = checkop $s->{op};
+
+ for(qw(a b c))
+ {
+ my $type = $c->{$_};
+ next
+ unless defined $type;
+
+ my $ofs = $s->{$_};
+ if($type eq 'inglobal' || $type eq 'inglobalfunc' || $type eq 'outglobal')
+ {
+ $globalflags[$ofs] &= ~GLOBALFLAG_P;
+ }
+ if($type eq 'inglobalvec' || $type eq 'outglobalvec')
+ {
+ $globalflags[$ofs] &= ~GLOBALFLAG_P;
+ $globalflags[$ofs+1] &= ~GLOBALFLAG_P;
+ $globalflags[$ofs+2] &= ~GLOBALFLAG_P;
+ }
+ }
}
my %offsets_saved = ();
{
my $type = $_->{type};
my $name = $progs->{getstring}->($_->{s_name});
+ $name = ''
+ if $name eq 'IMMEDIATE'; # for fteqcc I had: or $name =~ /^\./;
+ $_->{debugname} = $name
+ if $name ne '';
+ $globalflags[$_->{ofs}] |= GLOBALFLAG_D;
if($type->{save})
{
- for my $i(0..(typesize($_->{type}{type})-1))
- {
- $globalflags[$_->{ofs}] |= GLOBALFLAG_S;
- }
+ $globalflags[$_->{ofs}] |= GLOBALFLAG_S;
}
- if($name ne "")
+ if(defined $_->{debugname})
+ {
+ $globalflags[$_->{ofs}] |= GLOBALFLAG_N;
+ }
+ }
+ # fix up vectors
+ my @extradefs = ();
+ for(@{$progs->{globaldefs}})
+ {
+ my $type = $_->{type};
+ for my $i(1..(typesize($type->{type})-1))
{
- for my $i(0..(typesize($_->{type}{type})-1))
+ # add missing def
+ if(!($globalflags[$_->{ofs}+$i] & GLOBALFLAG_D))
{
- $globalflags[$_->{ofs}] |= GLOBALFLAG_N;
+ print "Missing globaldef for a component@{[defined $_->{debugname} ? ' of ' . $_->{debugname} : '']} at $_->{ofs}+$i\n";
+ push @extradefs, {
+ type => {
+ saved => 0,
+ type => 'float'
+ },
+ ofs => $_->{ofs} + $i,
+ debugname => defined $_->{debugname} ? $_->{debugname} . "[$i]" : undef
+ };
}
+ # "saved" and "named" states hit adjacent globals too
+ $globalflags[$_->{ofs}+$i] |= $globalflags[$_->{ofs}] & (GLOBALFLAG_S | GLOBALFLAG_N | GLOBALFLAG_D);
}
}
+ push @{$progs->{globaldefs}}, @extradefs;
+
my %offsets_initialized = ();
for(0..(@{$progs->{globals}}-1))
{
{
$globaltypes[$_] = "global";
}
- elsif(($globalflags[$_] & (GLOBALFLAG_S | GLOBALFLAG_I | GLOBALFLAG_Q)) == GLOBALFLAG_Q)
- {
- $globaltypes[$_] = "uniquetemp";
- }
- elsif(($globalflags[$_] & (GLOBALFLAG_S | GLOBALFLAG_I | GLOBALFLAG_Q)) == 0)
+ elsif(($globalflags[$_] & (GLOBALFLAG_S | GLOBALFLAG_I)) == 0)
{
- $globaltypes[$_] = "temp";
- ++$istemp{$_};
+ if($globalflags[$_] & GLOBALFLAG_P)
+ {
+ $globaltypes[$_] = "OFS_PARM";
+ }
+ elsif($globalflags[$_] & GLOBALFLAG_Q)
+ {
+ $globaltypes[$_] = "uniquetemp";
+ $istemp{$_} = 0;
+ }
+ else
+ {
+ $globaltypes[$_] = "temp";
+ $istemp{$_} = 1;
+ }
}
elsif(($globalflags[$_] & (GLOBALFLAG_S | GLOBALFLAG_I)) == GLOBALFLAG_I)
{
$progs->{temps} = \%istemp;
# globaldefs
- my @globaldefs = (undef) x @{$progs->{globaldefs}};
- for(@{$progs->{globaldefs}})
- {
- my $s = $progs->{getstring}->($_->{s_name});
- $_->{debugname} //= "\$" . "$s"
- if length $s;
- }
+ my @globaldefs = (undef) x @{$progs->{globals}};
for(@{$progs->{globaldefs}})
{
$globaldefs[$_->{ofs}] //= $_
$globaldefs[$_] //= {
ofs => $_,
s_name => undef,
- debugname => undef
+ debugname => undef,
+ type => undef
};
}
for(0..(@{(DEFAULTGLOBALS)}-1))
}
elsif($_->{globaltype} eq 'const')
{
- $_->{debugname} = get_constant($progs, $progs->{globals}[$_->{ofs}]{v});
+ $_->{debugname} = get_constant($progs, $progs->{globals}[$_->{ofs}]{v}, $_->{type}{type});
}
else
{
for(@globaldefs)
{
next
- if $globaldefs_namecount{$_->{debugname}} <= 1;
+ if $globaldefs_namecount{$_->{debugname}} <= 1 && !$ENV{FORCE_OFFSETS};
#print "Not unique: $_->{debugname} at $_->{ofs}\n";
$_->{debugname} .= "\@$_->{ofs}";
}
};
}
-sub parse_progs($)
+sub parse_progs($$)
{
- my ($fh) = @_;
+ my ($fh, $lnofh) = @_;
my %p = ();
print STDERR "Parsing header...\n";
$p{header} = parse_section $fh, DPROGRAMS_T, 0, undef, 1;
+ if (defined $lnofh) {
+ print STDERR "Parsing LNO...\n";
+ my $lnoheader = parse_section $lnofh, LNOHEADER_T, 0, undef, 1;
+ eval {
+ die "Not a LNOF"
+ if $lnoheader->{lnotype} != unpack 'V', 'LNOF';
+ die "Not version 1"
+ if $lnoheader->{version} != 1;
+ die "Not same count of globaldefs"
+ if $lnoheader->{numglobaldefs} != $p{header}{numglobaldefs};
+ die "Not same count of globals"
+ if $lnoheader->{numglobals} != $p{header}{numglobals};
+ die "Not same count of fielddefs"
+ if $lnoheader->{numfielddefs} != $p{header}{numfielddefs};
+ die "Not same count of statements"
+ if $lnoheader->{numstatements} != $p{header}{numstatements};
+ $p{lno} = [parse_section $lnofh, LNO_T, 24, undef, $lnoheader->{numstatements}];
+ eval {
+ $p{lno} = [parse_section $lnofh, LNO_T, 24, undef, $lnoheader->{numstatements} * 2];
+ $p{cno} = [splice $p{lno}, $lnoheader->{numstatements}];
+ print STDERR "Cool, this LNO even has column number info!\n";
+ };
+ } or warn "Skipping LNO: $@";
+ }
+
print STDERR "Parsing strings...\n";
$p{strings} = get_section $fh, $p{header}{ofs_strings}, $p{header}{numstrings};
$p{getstring} = sub
return substr $p{strings}, $startpos, $endpos - $startpos;
};
+ print STDERR "Parsing globals...\n";
+ $p{globals} = [parse_section $fh, DGLOBAL_T, $p{header}{ofs_globals}, undef, $p{header}{numglobals}];
+
+ print STDERR "Parsing globaldefs...\n";
+ $p{globaldefs} = [parse_section $fh, DDEF_T, $p{header}{ofs_globaldefs}, undef, $p{header}{numglobaldefs}];
+
+ print STDERR "Range checking globaldefs...\n";
+ for(0 .. (@{$p{globaldefs}}-1))
+ {
+ my $g = $p{globaldefs}[$_];
+ die "Out of range name in globaldef $_"
+ if $g->{s_name} < 0 || $g->{s_name} >= length $p{strings};
+ my $name = $p{getstring}->($g->{s_name});
+ die "Out of range ofs $g->{ofs} in globaldef $_ (name: \"$name\")"
+ if $g->{ofs} >= $p{globals};
+ }
+
+ print STDERR "Parsing fielddefs...\n";
+ $p{fielddefs} = [parse_section $fh, DDEF_T, $p{header}{ofs_fielddefs}, undef, $p{header}{numfielddefs}];
+
+ print STDERR "Range checking fielddefs...\n";
+ for(0 .. (@{$p{fielddefs}}-1))
+ {
+ my $g = $p{fielddefs}[$_];
+ die "Out of range name in fielddef $_"
+ if $g->{s_name} < 0 || $g->{s_name} >= length $p{strings};
+ my $name = $p{getstring}->($g->{s_name});
+ die "Out of range ofs $g->{ofs} in fielddef $_ (name: \"$name\")"
+ if $g->{ofs} >= $p{header}{entityfields};
+ push @{$p{entityfieldnames}[$g->{ofs}]}, $name;
+ }
+
print STDERR "Parsing statements...\n";
$p{statements} = [parse_section $fh, DSTATEMENT_T, $p{header}{ofs_statements}, undef, $p{header}{numstatements}];
- print STDERR "Fixing statements...\n";
- for my $s(@{$p{statements}})
+ print STDERR "Parsing functions...\n";
+ $p{functions} = [parse_section $fh, DFUNCTION_T, $p{header}{ofs_functions}, undef, $p{header}{numfunctions}];
+
+ print STDERR "Range checking functions...\n";
+ for(0 .. (@{$p{functions}} - 1))
{
+ my $f = $p{functions}[$_];
+ die "Out of range name in function $_"
+ if $f->{s_name} < 0 || $f->{s_name} >= length $p{strings};
+ my $name = $p{getstring}->($f->{s_name});
+ die "Out of range file in function $_"
+ if $f->{s_file} < 0 || $f->{s_file} >= length $p{strings};
+ my $file = $p{getstring}->($f->{s_file});
+ die "Out of range first_statement in function $_ (name: \"$name\", file: \"$file\", first statement: $f->{first_statement})"
+ if $f->{first_statement} >= @{$p{statements}};
+ if($f->{first_statement} >= 0)
+ {
+ die "Out of range parm_start in function $_ (name: \"$name\", file: \"$file\", first statement: $f->{first_statement})"
+ if $f->{parm_start} < 0 || $f->{parm_start} >= @{$p{globals}};
+ die "Out of range locals in function $_ (name: \"$name\", file: \"$file\", first statement: $f->{first_statement})"
+ if $f->{locals} < 0 || $f->{parm_start} + $f->{locals} > @{$p{globals}};
+ die "Out of range numparms $f->{numparms} in function $_ (name: \"$name\", file: \"$file\", first statement: $f->{first_statement})"
+ if $f->{numparms} < 0 || $f->{numparms} > 8;
+ my $totalparms = 0;
+ for(0..($f->{numparms}-1))
+ {
+ die "Out of range parm_size[$_] in function $_ (name: \"$name\", file: \"$file\", first statement: $f->{first_statement})"
+ unless { 0 => 1, 1 => 1, 3 => 1 }->{$f->{parm_size}[$_]};
+ $totalparms += $f->{parm_size}[$_];
+ }
+ die "Out of range parms in function $_ (name: \"$name\", file: \"$file\", first statement: $f->{first_statement})"
+ if $f->{parm_start} + $totalparms > @{$p{globals}};
+ die "More parms than locals in function $_ (name: \"$name\", file: \"$file\", first statement: $f->{first_statement})"
+ if $totalparms > $f->{locals};
+ }
+ }
+
+ print STDERR "Range checking statements...\n";
+ for my $ip(0 .. (@{$p{statements}}-1))
+ {
+ my $s = $p{statements}[$ip];
my $c = checkop $s->{op};
for(qw(a b c))
if($type eq 'inglobal' || $type eq 'inglobalfunc')
{
$s->{$_} &= 0xFFFF;
+ die "Out of range global offset in statement $ip - cannot continue"
+ if $s->{$_} >= @{$p{globals}};
}
elsif($type eq 'inglobalvec')
{
$s->{$_} &= 0xFFFF;
+ if($c->{isreturn})
+ {
+ die "Out of range global offset in statement $ip - cannot continue"
+ if $s->{$_} >= @{$p{globals}};
+ print "Potentially out of range global offset in statement $ip - may crash engines"
+ if $s->{$_} >= @{$p{globals}}-2;
+ }
+ else
+ {
+ die "Out of range global offset in statement $ip - cannot continue"
+ if $s->{$_} >= @{$p{globals}}-2;
+ }
}
elsif($type eq 'outglobal')
{
$s->{$_} &= 0xFFFF;
+ die "Out of range global offset in statement $ip - cannot continue"
+ if $s->{$_} >= @{$p{globals}};
}
elsif($type eq 'outglobalvec')
{
$s->{$_} &= 0xFFFF;
+ die "Out of range global offset in statement $ip - cannot continue"
+ if $s->{$_} >= @{$p{globals}}-2;
+ }
+ elsif($type eq 'ipoffset')
+ {
+ die "Out of range GOTO/IF/IFNOT in statement $ip - cannot continue"
+ if $ip + $s->{$_} < 0 || $ip + $s->{$_} >= @{$p{statements}};
}
}
-
}
- print STDERR "Parsing globaldefs...\n";
- $p{globaldefs} = [parse_section $fh, DDEF_T, $p{header}{ofs_globaldefs}, undef, $p{header}{numglobaldefs}];
-
- print STDERR "Parsing fielddefs...\n";
- $p{fielddefs} = [parse_section $fh, DDEF_T, $p{header}{ofs_fielddefs}, undef, $p{header}{numfielddefs}];
-
- print STDERR "Parsing globals...\n";
- $p{globals} = [parse_section $fh, DGLOBAL_T, $p{header}{ofs_globals}, undef, $p{header}{numglobals}];
-
- print STDERR "Parsing functions...\n";
- $p{functions} = [parse_section $fh, DFUNCTION_T, $p{header}{ofs_functions}, undef, $p{header}{numfunctions}];
-
- print STDERR "Looking for error()...\n";
- $p{error_func} = {};
+ print STDERR "Looking for error(), setmodel(), setmodelindex(), setorigin(), setsize()...\n";
+ $p{builtins} = { error => {}, setmodel => {}, setmodelindex => {}, setorigin => {}, setsize => {} };
for(@{$p{globaldefs}})
{
+ my $name = $p{getstring}($_->{s_name});
next
- if $p{getstring}($_->{s_name}) ne 'error';
+ if not exists $p{builtins}{$name};
my $v = $p{globals}[$_->{ofs}]{v}{int};
next
if $v <= 0 || $v >= @{$p{functions}};
my $first = $p{functions}[$v]{first_statement};
next
if $first >= 0;
- print STDERR "Detected error() at offset $_->{ofs} (builtin #@{[-$first]})\n";
- $p{error_func}{$_->{ofs}} = 1;
+ print STDERR "Detected $name() at offset $_->{ofs} (builtin #@{[-$first]})\n";
+ $p{builtins}{$name}{$_->{ofs}} = 1;
}
print STDERR "Scanning functions...\n";
my %globals_written = ();
my %globals_used = ();
- run_nfa \%p, $_->{first_statement}, "", id, nfa_default_state_checker,
- sub
- {
- my ($ip, $state, $s, $c) = @_;
- ++$statements{$ip};
-
- if(my $j = $c->{isjump})
- {
- my $t = $ip + $s->{$j};
- $come_from{$t}{$ip} = $c->{isconditional};
- $go_to{$ip}{$t} = $c->{isconditional};
- }
-
- for my $o(qw(a b c))
+ if($_->{first_statement} >= 0)
+ {
+ run_nfa \%p, $_->{first_statement}, "", id, nfa_default_state_checker,
+ sub
{
- my $type = $c->{$o}
- or next;
- my $ofs = $s->{$o};
-
- my $read = sub
- {
- my ($ofs) = @_;
- $globals_read{$ofs}{$ip}{$o} = 1;
- $globals_used{$ofs} = 1;
- };
- my $write = sub
- {
- my ($ofs) = @_;
- $globals_written{$ofs}{$ip}{$o} = 1;
- $globals_used{$ofs} = 1;
- };
+ my ($ip, $state, $s, $c) = @_;
+ ++$statements{$ip};
- if($type eq 'inglobal' || $type eq 'inglobalfunc')
- {
- $read->($ofs);
- }
- elsif($type eq 'inglobalvec')
+ if(my $j = $c->{isjump})
{
- $read->($ofs);
- $read->($ofs+1);
- $read->($ofs+2);
+ my $t = $ip + $s->{$j};
+ $come_from{$t}{$ip} = $c->{isconditional};
+ $go_to{$ip}{$t} = $c->{isconditional};
}
- elsif($type eq 'outglobal')
- {
- $write->($ofs);
- }
- elsif($type eq 'outglobalvec')
+
+ for my $o(qw(a b c))
{
- $write->($ofs);
- $write->($ofs+1);
- $write->($ofs+2);
+ my $type = $c->{$o}
+ or next;
+ my $ofs = $s->{$o};
+
+ my $read = sub
+ {
+ my ($ofs) = @_;
+ $globals_read{$ofs}{$ip}{$o} = 1;
+ $globals_used{$ofs} = 1;
+ };
+ my $write = sub
+ {
+ my ($ofs) = @_;
+ $globals_written{$ofs}{$ip}{$o} = 1;
+ $globals_used{$ofs} = 1;
+ };
+
+ if($type eq 'inglobal' || $type eq 'inglobalfunc')
+ {
+ $read->($ofs);
+ }
+ elsif($type eq 'inglobalvec')
+ {
+ $read->($ofs);
+ $read->($ofs+1);
+ $read->($ofs+2);
+ }
+ elsif($type eq 'outglobal')
+ {
+ $write->($ofs);
+ }
+ elsif($type eq 'outglobalvec')
+ {
+ $write->($ofs);
+ $write->($ofs+1);
+ $write->($ofs+2);
+ }
}
- }
- return 0;
- };
+ return 0;
+ };
+ }
$_->{statements} = \%statements;
$_->{come_from} = \%come_from;
print STDERR "Detecting constants and temps, and naming...\n";
detect_constants \%p;
+ if($ENV{DUMP})
+ {
+ use Data::Dumper;
+ print Dumper \%p;
+ return;
+ }
+
# what do we want to do?
my $checkfunc = \&find_uninitialized_locals;
- #my $checkfunc = \&disassemble_function;
+ if($ENV{DISASSEMBLE})
+ {
+ $checkfunc = \&disassemble_function;
+ }
for(sort { $a->{debugname} cmp $b->{debugname} } @{$p{functions}})
{
$checkfunc->(\%p, $_);
}
}
-open my $fh, '<', $ARGV[0];
-parse_progs $fh;
+for my $progs (@ARGV) {
+ my $lno = "$progs.lno";
+ $lno =~ s/\.dat\.lno$/.lno/;
+
+ open my $fh, '<', $progs
+ or die "$progs: $!";
+
+ open my $lnofh, '<', $lno
+ or warn "$lno: $!";
+
+ parse_progs $fh, $lnofh;
+}