#!/usr/bin/perl -w # See copyright, etc in below POD section. ###################################################################### require 5.005; use FindBin qw($RealBin); use lib "$RealBin/blib/arch"; use lib "$RealBin/blib/lib"; use lib "$RealBin"; use File::Copy; use FindBin qw($RealBin); use Getopt::Long; use IO::Dir; use IO::File; use POSIX qw(); use Pod::Usage; use strict "vars"; use Verilog::Parser; use Verilog::Getopt; use vars qw ($VERSION $Debug $Opt %Vpassert_Conversions $Vpassert_Conversions_Regexp $Opt_Synthcov $Opt_Vericov @Endmodule_Inserts $Last_Parser $Last_Module $Last_Task $ReqAck_Num $Vericov_Enabled $Got_Change @Sendout %Insure_Symbols %Files %Files_Read %File_Dest ); $VERSION = '3.418'; ###################################################################### # configuration # Hash with key of macro to convert and value of the function to call when it occurs # Avoid having a token that is a substring of a standard function, for example # $wr would be bad (beginning of $write). That would slow down the parsing. %Vpassert_Conversions = (## U versions, to avoid conflicts with SystemVerilog '$uassert' => \&ins_uassert, '$uassert_amone' => sub {shift; uassert_hot(0,@_); }, # atmost one hot '$uassert_onehot' => sub {shift; uassert_hot(1,@_); }, '$uassert_req_ack' => \&ins_uassert_req_ack, '$uassert_info' => \&ins_uassert_info, '$ucheck_ilevel' => \&ins_ucheck_ilevel, '$uerror' => \&ins_uerror, #'$ui' => # Used inside ucover_foreach_clk '$uinfo' => \&ins_uinfo, '$uwarn' => \&ins_uwarn, #'$uassert_clk' => sub {shift; my $clk=shift; my $cond=shift; umessage_clk('%%E', $cond,$clk,@_); }, # May be confusing, try without '$uerror_clk' => sub {shift; umessage_clk('%%E', 0, @_); }, '$uwarn_clk' => sub {shift; umessage_clk('%%W', 0, @_); }, '$ucover_clk' => sub {shift; ucover_clk(@_); }, '$ucover_foreach_clk' => sub {shift; ucover_foreach_clk(@_); }, ); ###################################################################### # main $Debug = 0; my $output_dirname = ".vpassert/"; my $Opt_Quiet = 0; # Don't blab about what files are being worked on my $Opt_Axiom; # Athdl my $Opt_AllFiles = 0; # Preprocess all files my $Opt_Call_Error; my $Opt_Call_Info; my $Opt_Call_Warn; my $Opt_Date = 0; # Check dates my $Opt_NoPli = 0; # Delete all pli calls $Opt_Vericov = 0; # Add vericov on/off comments (messes up line # counts) my $Opt_RealIntent; # RealIntent my $Opt_Stop = 1; # Put $stop in error messages my $Opt_Verilator; # Verilator my $Opt_Vcs; # Vcs my $Last_ArgsDiffer; # Last run's Opt_* mismatch my $Opt_Minimum; # Include `__message_minimum my @Opt_Exclude; my $Opt_Timeformat_Units = undef; my $Opt_Timeformat_Precision = 0; my $Opt_Line; my $Total_Files = 0; my @files = (); my @instance_tests_list = (); my $Prog_Mtime = 0; # Time program last changed, so we bag cache on change (-r "$RealBin/vpassert") or die "%Error: Where'd the vpassert source code go?"; $Prog_Mtime = (stat("$RealBin/vpassert"))[9]; autoflush STDOUT 1; Getopt::Long::config ("no_auto_abbrev","pass_through"); GetOptions ("debug" => \&debug); # Snarf --debug ASAP, before parse -f files $Opt = new Verilog::Getopt(); @ARGV = $Opt->parameter(@ARGV); # Strip -y, +incdir+, etc Getopt::Long::config ("no_auto_abbrev","no_pass_through"); if (! GetOptions ( # When add flags, update _switch_line also as appropriate "-o=s" => \$output_dirname, "allfiles!" => \$Opt_AllFiles, "axiom!" => \$Opt_Axiom, "call-error=s" => \$Opt_Call_Error, "call-info=s" => \$Opt_Call_Info, "call-warn=s" => \$Opt_Call_Warn, "date!" => \$Opt_Date, "debug" => \&debug, "exclude=s" => sub {shift; push @Opt_Exclude, shift;}, "help" => \&usage, "language=s" => sub { shift; Verilog::Language::language_standard(shift); }, "line!" => \$Opt_Line, "minimum!" => \$Opt_Minimum, "nopli!" => \$Opt_NoPli, "realintent!" => \$Opt_RealIntent, "quiet!" => \$Opt_Quiet, "stop!" => \$Opt_Stop, "synthcov!" => \$Opt_Synthcov, "timeformat-precision=s" => \$Opt_Timeformat_Precision, "timeformat-units=s" => \$Opt_Timeformat_Units, "vericov!" => \$Opt_Vericov, "verilator!" => \$Opt_Verilator, "version" => sub { print "Version $VERSION\n"; exit(0); }, "vcs!" => \$Opt_Vcs, "<>" => \¶meter, )) { die "%Error: Bad usage, try 'vpassert --help'\n"; } sub _switch_line { # If any of these flags change, we must regenerate output my $sw = ""; $sw .= " --axiom" if $Opt_Axiom; $sw .= " --call-error=$Opt_Call_Error" if $Opt_Call_Error; $sw .= " --call-info=$Opt_Call_Info" if $Opt_Call_Info; $sw .= " --call-warn=$Opt_Call_Warn" if $Opt_Call_Warn; $sw .= " --line" if $Opt_Line; $sw .= " --minimum=$Opt_Minimum" if defined $Opt_Minimum; $sw .= " --nopli" if $Opt_NoPli; $sw .= " --realintent" if $Opt_RealIntent; $sw .= " --stop" if $Opt_Stop; $sw .= " --synthcov" if $Opt_Synthcov; $sw .= " --timeformat-precision=$Opt_Timeformat_Precision" if $Opt_Timeformat_Precision; $sw .= " --timeformat-units=$Opt_Timeformat_Units" if $Opt_Timeformat_Units; $sw .= " --vericov" if $Opt_Vericov; $sw .= " --verilator" if $Opt_Verilator; $sw .= " --vcs" if $Opt_Vcs; return $sw; } if (!defined $Opt_Line) { $Opt_Line = $Opt_Verilator || Verilog::Language::is_compdirect("`line"); # uses language_standard() } push @files, ($Opt->incdir(), $Opt->library(), $Opt->module_dir()); @files = $Opt->remove_duplicates(@files); (@files) or die "%Error: No directories or files specified for processing, try --help\n"; if ($#files >= 0) { (!-f $output_dirname) or die "%Error: $output_dirname already exists as a file, should be a directory.\n"; vpassert_recursive_prelude($output_dirname); file: foreach my $file (@files) { next if $file eq $output_dirname; foreach my $exclude (@Opt_Exclude) { next file if $file =~ /^$exclude/; } vpassert_recursive ($file, $output_dirname); } vpassert_recursive_postlude($output_dirname); } print "\tVPASSERT generated $Total_Files new file(s)\n"; exit (0); ###################################################################### sub usage { print "Version $VERSION\n"; print "\nThe following tokens are converted:\n"; foreach my $tok (sort keys %Vpassert_Conversions ) { print "\tToken $tok\n"; } print "\n"; pod2usage(-verbose=>2, -exitval=>2, -output=>\*STDOUT, -noperldoc=>1); exit (1); } sub debug { $Debug = 1; $Verilog::Parser::Debug = 1; $Opt_Quiet = 0; } sub parameter { my $param = shift; (-r $param) or die "%Error: Can't open $param"; push @files, "$param"; # Must quote to convert Getopt to string, bug298 } ###################################################################### ###################################################################### ###################################################################### ###################################################################### ###################################################################### ###################################################################### # Functions that transform the tokens # Note -I is specially detected below sub ins_uinfo { shift; sendout( message (get_lineinfo(), 1, '-I', 1, "", @_)); } sub ins_uwarn { shift; sendout( message (get_lineinfo(), 1, '%%W', 1, "", @_)); } sub ins_uerror { shift; sendout( message (get_lineinfo(), 1, '%%E', 1, "", @_)); } sub ins_uassert { shift; my $cond = shift; my @params = @_; sendout( message (get_lineinfo(), 1, '%%E', $cond, "", 0, @params)); } sub ins_uassert_info { shift; my $cond = shift; my @params = @_; # Lower case -i indicates it's a assert vs. a info sendout( message (get_lineinfo(), 1, "-i", $cond, "", 0, @params)); } sub check_signame { my $sig = shift; return undef if !$sig; return $1 if ($sig =~ /^\s*([a-zA-Z_\$][a-z0-9A-Z_\$]*)\s*$/); return undef; } sub ins_uassert_req_ack { shift; my @params = @_; # Check parameters my $req = check_signame(shift @params); my $ack = check_signame(shift @params); ($req && $ack) or die "%Error: ".$Last_Parser->fileline.": Format of \$uassert_req_ack boggled.\n"; @params = map { my $ipar = $_; $ipar = check_signame($ipar); ($ipar) or die "%Error: ".$Last_Parser->fileline.": Parameter $ipar isn't a signal\n"; $ipar; } @params; # Form new variables $ReqAck_Num or die "%Error: ".$Last_Parser->fileline.": \$uassert_req_ack can't find module statement\n"; my $busy = "_assertreqack${ReqAck_Num}_busy_r"; $Insure_Symbols{$Last_Module}{$busy} = ['reg', 0]; # Make this symbol exist if doesn't # We make a parity across all data signals, as we don't have the width # of the original signal, and I'm too lazy to add code to find it out. my @dholds = (); for (my $n=0; $n<=$#params; $n++) { my $dhold = "_assertreqack${ReqAck_Num}_data${n}_r"; push @dholds, $dhold; $Insure_Symbols{$Last_Module}{$dhold} = ['reg', 0]; } # Output it sendout(message_header()); push @Sendout, [$Last_Parser->lineno, ""]; # Make sure message_header newlines leave us in right place sendout("if (`__message_on) begin "); # Need to wait till after reset, so FSM doesn't start sendout("casez({($busy),($req),($ack)}) "); sendout(" 3'b000: ;"); sendout(" 3'b010: $busy<=1'b1;"); sendout(" 3'b011: "); ins_uerror(0,"\"Unexpected $req coincident with $ack\\n\""); sendout(" 3'b001: "); ins_uerror(0,"\"Unexpected $ack with no request pending\\n\""); sendout(" 3'b100: ;"); sendout(" 3'b11?: "); ins_uerror(0,"\"Unexpected $req with request already pending\\n\""); sendout(" 3'b101: $busy<=1'b0;"); sendout("endcase "); if ($#params>=0) { sendout(" if (($req)||($busy)) begin"); sendout(" if (($busy)) begin"); for (my $n=0; $n<=$#params; $n++) { sendout(" if ($dholds[$n] != ^($params[$n])) "); ins_uerror(0,"\"Unexpected transition of $params[$n] during transaction\\n\""); } sendout(" end"); # Save state of signals for (my $n=0; $n<=$#params; $n++) { sendout(" $dholds[$n] <= ^($params[$n]);"); } sendout(" end "); } sendout(" end "); sendout(message_trailer()); $ReqAck_Num++; } sub ins_ucheck_ilevel { shift; # $ucheck_ilevel my $level = shift; my $chk = "/*vpassert*/if ((`__message_on) && "; $chk .= ' && (`__message_minimum >= (' . $level . '))' if $Opt_Minimum; $chk = $chk . '(__message >= (' . $level . ')))'; sendout ($chk); } sub uassert_hot { my $check_nohot = shift; my @params = @_; my $text = ""; my ($elem,$i,$ptemp,$plist,$pnone); my $len = 0; my @cl = (); while ($elem = shift @params){ $elem =~ s/^\s*//; if ($elem =~ /^\"/){ # beginning quote $elem =~ s/\"//g; $text .= $elem; last; }else{ foreach my $subel (split ',', $elem) { $len = $len + bitwidth($subel); } push @cl, $elem; }; } # We use === so that x's will properly cause error messages my $vec = "({".join(",",@cl)."})"; sendout("if (($vec & ($vec - ${len}'b1)) !== ${len}'b0 && `__message_on) "); ins_uerror(0,"\"MULTIPLE ACTIVE %b --> $text\\n\"",$vec); if ($check_nohot==1){ sendout("if ($vec === ${len}'b0 && `__message_on) "); ins_uerror(0,"\"NONE ACTIVE %b --> $text\\n\"",$vec); } } sub umessage_clk { my $char = shift; my $cond = shift; my $clk = shift; my @params = @_; $params[0] = convert_concat_string($params[0]); ($params[0] =~ /^\s*\"/) or die "%Error: ".$Last_Parser->fileline.": Non-string \$message second argument: $params[0]\n"; $ReqAck_Num or die "%Error: ".$Last_Parser->fileline.": \$uassert_req_ack can't find module statement\n"; my $sig = "_umessageclk${ReqAck_Num}"; $Insure_Symbols{$Last_Module}{$sig} = ['reg', 0]; # Make this symbol exist if doesn't $ReqAck_Num++; if ($cond eq '0') { sendout("/*vpassert*/$sig=1'b1;/*vpassert*/"); } else { sendout("/*vpassert*/$sig=!($cond);/*vpassert*/"); } _insert_always_begin('assert', "/*vpassert*/ $sig=1'b0; /*vpassert*/"); my $bot = (" always @ (posedge $clk) if ($sig) " .message (get_lineinfo(), 1, $char, 1, "", @_) ." "); push @Endmodule_Inserts, [0, $bot]; } sub ucover_foreach_clk { my $clk = shift; my $label = shift; my $range = shift; my $expr = shift; $#_==-1 or die "%Error: ".$Last_Parser->fileline.": Extra arguments to \$ucover_foreach_clk: $_[0]\n"; # We require quotes around the label so synthesis tools won't gripe if not wrapping in vpassert # (Otherwise it would look like a system call with a variable of the name of the label.) ($label =~ s/^\s*\"([a-zA-Z][a-zA-Z0-9_]+)\"\s*$/$1/) or die "%Error: ".$Last_Parser->fileline.": Non-string label \$ucover_clk second argument: $label\n"; ($range =~ s/^\s*\"\s*(\d[0-9,:]+)\s*\"\s*$/$1/) or die "%Error: ".$Last_Parser->fileline.": Can't parse msb:lsb in \$ucover_foreach_clk: $range\n"; my @values = _convert_foreach_comma($range); foreach my $i (@values) { my $nexpr = $expr; $nexpr =~ s/\$ui\b/($i)/g or die "%Error: ".$Last_Parser->fileline.": No \$ui in \$ucover_foreach_clk expression: $expr\n"; _ucover_clk_guts($clk, $label."__".$i, "(${nexpr})"); } } sub ucover_clk { my $clk = shift; my $label = shift; $#_==-1 or die "%Error: ".$Last_Parser->fileline.": Extra arguments to \$ucover_clk: $_[0]\n"; # We require quotes around the label so synthesis tools won't gripe if not wrapping in vpassert # (Otherwise it would look like a system call with a variable of the name of the label.) ($label =~ s/^\s*\"([a-zA-Z][a-zA-Z0-9_]+)\"\s*$/$1/) or die "%Error: ".$Last_Parser->fileline.": Non-string label \$ucover_clk second argument: $label\n"; _ucover_clk_guts($clk,$label, "1'b1"); } sub _ucover_clk_guts { my $clk = shift; my $label = shift; my $expr = shift; $ReqAck_Num or die "%Error: ".$Last_Parser->fileline.": \$ucover_clk can't find module statement\n"; my $sig = "_ucoverclk${ReqAck_Num}"; $Insure_Symbols{$Last_Module}{$sig} = ['reg', 0]; # Make this symbol exist if doesn't $ReqAck_Num++; sendout("/*vpassert*/$sig=${expr};/*vpassert*/"); _insert_always_begin('cover', "/*vpassert*/ $sig=1'b0; /*vpassert*/"); # Note correct `line is required to see correct cover point push @Endmodule_Inserts, [$Last_Parser->lineno," $label: cover property (@(posedge $clk) ($sig));\n"]; } sub _insert_always_begin { my $for_assert = shift; my $text = shift; my $beginl; for (my $l = $#Sendout; $l>=0; $l--) { my $tok = $Sendout[$l][1]; #print "HUNT $l: ".($beginl||"").": $tok\n"; # Fortunately all comments must be a single array entry $tok =~ s!//.*?\n!!go; $tok =~ s!/\*.*?\*/$!!go; if ($tok =~ /\bbegin\b/) { $beginl = $l; } if ($tok =~ /\b(if|initial|final)\b/) { $beginl = undef; } if ($tok =~ /\bposedge\b/) { if ($for_assert ne 'cover') { die "%Error: ".$Last_Parser->fileline.": \$uerror_clk is under a posedge clk, use \$uerror instead\n"; } } if ($tok =~ /\balways\b/) { last if !defined $beginl; # And die below my $insert = $text; $Sendout[$beginl][1] =~ s/(\bbegin\b)/$1$insert/; return; } } die "%Error: ".$Last_Parser->fileline.": \$uerror_clk is not somewhere under an 'always begin' block\n"; } sub get_lineinfo { # Align the lineinfo so that right hand sides are aligned my $message_filename = $Last_Parser->filename; $message_filename =~ s/^.*\///g; my $lineinfo = substr ($message_filename, 0, 17); # Don't make too long $lineinfo = $lineinfo . sprintf(":%04d:", $Last_Parser->lineno ); $lineinfo = sprintf ("%-21s", $lineinfo); } use vars qw($Msg_Header_Level); sub coverage_off { my $subcall = shift; my $out = ""; if (!$Msg_Header_Level) { $out .= "/*summit modcovoff -bpen*/\n" if $Vericov_Enabled; $out .= "/*ri userpass BE on*/\n" if $Opt_RealIntent; $out .= "/*VCS coverage off*/\n" if $Opt_Vcs; $out .= "/*ax_line_coverage_off*/\n" if $Opt_Axiom; $out .= "/*verilator coverage_off*/\n" if $Opt_Verilator && !$subcall; $out = "\n".$out if $out; $out .= "/*vpassert*/"; $Got_Change = 1; } $Msg_Header_Level++; return $out; } sub coverage_on { my $subcall = shift; my $out = ""; if ((--$Msg_Header_Level)==0) { $out .= "/*verilator coverage_on*/\n" if $Opt_Verilator && !$subcall; $out .= "/*VCS coverage on*/\n" if $Opt_Vcs; $out .= "/*ax_line_coverage_on*/\n" if $Opt_Axiom; $out .= "/*ri userpass BE off*/\n" if $Opt_RealIntent; $out .= "/*summit modcovon -bpen*/\n" if $Vericov_Enabled; $out = "\n".$out if $out; $out = '/*vpassert*/'.$out; } return $out; } sub message_header { my $off = coverage_off(1); my $out = $off; $out .= "begin "; $out .= "/*verilator coverage_block_off*/" if ($Opt_Verilator && $off); return $out; } sub message_trailer { my $out = 'end '; $out .= coverage_on(1); return $out; } sub message { my $lineinfo = shift; my $show_id = shift; my $char = shift; my $cond = shift; my $otherargs = shift; my @params = @_; # Level, printf string, args if ($params[0] =~ /^\s*\"/) { # No digit in first parameter # Push new parameter [0] as a 0. unshift @params, '0'; } $params[1] = convert_concat_string($params[1]); unless ($char =~ /^-I/i) { if ($params[1] =~ s/\s*\"\s*$//) { # For a well-formed message, $params[1] now ends in "\\n". $params[1] .= "\\n" if $params[1] !~ /\\n$/; $params[1] = $params[1]."${char}: In %m\\n\""; } } ($params[0] =~ /^\s*[0-9]/) or die "%Error: ".$Last_Parser->fileline.": Non-numeric \$message first argument: $params[0]\n"; ($params[1] =~ /^\s*\"/) or die "%Error: ".$Last_Parser->fileline.": Non-string \$message second argument: $params[1]\n"; my $out = message_header(); # These long lines without breaks are intentional; I want to preserve line numbers my $is_warn = (($char eq '%%E') || ($char eq '%%W') || ($char eq "-i")); if ($cond ne "1") { # Conditional code, for $uassert # Note this will only work in RTL code! $out .= "if (!($cond) && (`__message_on)) "; } elsif ($params[0] =~ /^\s*0\s*$/) { # Always enabled if ($is_warn) { $out .= "if (`__message_on) "; } } else { # Complex test $Insure_Symbols{$Last_Module}{__message} = ['integer',5]; # Make this symbol exist if doesn't my $chk = 'if ((__message >= (' . $params[0] . '))'; $chk .= ' && (`__message_minimum >= (' . $params[0] . '))' if $Opt_Minimum; $chk .= " && (`__message_on) " if $is_warn; $chk .= ') '; $out .= $chk; } my $task; my $call; if (($char eq '-I') || ($char eq '-i')) { if ($Opt_Call_Info) { $call = $Opt_Call_Info; } } elsif ($char eq '%%E') { if ($Opt_Call_Error) { $call = $Opt_Call_Error; } else { $task = ($Opt_Stop ? '$stop;' : "`pli.errors = `pli.errors+1;"); } } elsif ($char eq '%%W') { if ($Opt_Call_Error) { $call = $Opt_Call_Warn; } else { $task = ($Opt_Stop ? '$stop;' : "`pli.warnings = `pli.warnings+1;"); } } else { die "%Error: Unknown message character class '$char'\n"; } { # if's body $out .= "begin"; $out .= " \$timeformat($Opt_Timeformat_Units, $Opt_Timeformat_Precision,\"\",20);" if defined $Opt_Timeformat_Units; $out .= " \$write (\"[%0t] ${char}:${lineinfo} " if !$call; $out .= " ${call} (\"" if $call; my $par = $params[1]; $par =~ s/^\s*\"//; $out .= "$par"; $out .= ",\$time" if !$call; $out .= $otherargs; for my $parn (2 .. $#params) { my $p = $params[$parn]; $out .= ", $p"; print "MESSAGE $char, Parameter $p\n" if ($Debug); } $out .= ');'; $out .= $task if $task; $out .= ' end '; } $out .= message_trailer(); return $out; } ###################################################################### sub _convert_foreach_comma { my $in = shift; # Similar to Verilog::Language::split_bus my @out; $in =~ s/\s+//g; while ($in =~ s!,?(((\d+):(\d+))|(\d+))!!) { if (defined $3 && defined $4) { if ($3<$4) { foreach (my $i=$3; $i<=$4; $i++) { push @out, $i; } } else { foreach (my $i=$3; $i>=$4; $i--) { push @out, $i; } } } elsif (defined $5) { push @out, $5; } } $in eq "" or die "%Error: ".$Last_Parser->fileline.": Strange range expression: $in\n"; return @out; } sub convert_concat_string { my $string = shift; # Convert {"string"} or {"str","in","g"} to just "string" # Beware embedded quotes "\"" return $string if ($string !~ /^\s*\{\s*(\".*)\s*\}\s*$/); my $in = $1; my $out = ""; my $quote; my $slash; for (my $i=0; $ilineno, $string]; $Got_Change = 1; } ###################################################################### ###################################################################### ###################################################################### ###################################################################### sub form_conversions_regexp { # Create $Vpassert_Conversions_Regexp, a regexp that matches any of the conversions # This regexp will allow us to quickly look at the file and ignore it if no matches my $re = ''; my $last_tok = "\$ignore"; foreach my $tok (sort (keys %Vpassert_Conversions)) { ($tok =~ s/^\$//) or die "%Error: Vpassert_Conversion $tok doesn't have leading \$\n"; if (substr ($tok, 0, length($last_tok)) eq $last_tok) { #print "Suppress $tok $last_tok\n" if $Debug; } else { $re .= "|" if $re; $re .= '\$'.$tok; $last_tok = $tok; } } if ($Opt_NoPli) { $re .= "|" if $re; $re .= '\$'; } if ($Opt_Synthcov) { $re .= "|" if $re; $re .= 'SYNTHESIS'; } $re = "(".$re.")"; $re = "\$NEVER_MATCH_ANYTHING" if $re eq '\$()'; #print "CV REGEXP $re\n" if $Debug; $Vpassert_Conversions_Regexp = qr/$re/; } sub vpassert_process { # Read all signals in this filename # Return TRUE if the file changed my $filename = shift; my $outname = shift; $Got_Change = shift; # True if should always write output, not only if have change if ($outname =~ /[\/\\]$/) { # Directory, not file, so append filename my $basename = $filename; $basename =~ s/.*[\/\\]//g; $outname .= $basename; } print "vpassert_process ($filename, $outname, $Got_Change)\n" if ($Debug); ($filename ne $outname) or die "%Error: $filename: Would overwrite self."; @Sendout = (); $Msg_Header_Level = 0; @instance_tests_list = (); # Set up parsing my $parser = new Verilog::Vpassert::Parser; $parser->filename($filename); $parser->lineno(1); $Last_Parser = $parser; # Open file for reading and parse it my $fh = IO::File->new("<$filename") or die "%Error: $! $filename."; if (!$Got_Change) { while (<$fh>) { goto diff if (/$Vpassert_Conversions_Regexp/); } print "$filename: No dollars, not processing\n" if ($Debug); return; diff: $fh->seek(0,0); $. = 1; } while (my $line = $fh->getline() ) { $parser->parse ($line); } $parser->eof; push @Sendout, [$Last_Parser->lineno, $parser->unreadback()]; $parser->unreadback(''); $fh->close; # Hack the output text to add in the messages variable foreach my $mod (sort keys %Insure_Symbols) { my $insert=""; my $n=0; # Some compilers choke if lines get too long; foreach my $sym (sort keys %{$Insure_Symbols{$mod}}) { #if ! $module_symbols{$sym} # For now always put it in my $type = $Insure_Symbols{$mod}{$sym}[0]; my $value = $Insure_Symbols{$mod}{$sym}[1]; $insert .= "$type $sym; initial $sym = $value;"; if (++$n > 10) { $insert .= "\n"; $n=0; } } if ($insert) { my $hit; for (my $l = $#Sendout; $l>=0; $l--) { my $tok = $Sendout[$l][1]; if ($tok =~ m%/\*vpassert beginmodule $mod\*/%) { my $lineno = $Sendout[$l][0]; if ($Opt_Line) { $insert .= "\n`line ".$lineno." \"".$Last_Parser->filename."\" 0\n"; } $tok =~ s%/\*vpassert beginmodule $mod\*/%/*vpassert*/$insert%g or die; # Must exist, found above! $Sendout[$l][1] = $tok; $hit = 1; # Don't exit the loop, keep looking for more. # It's possible there's a `ifdef with multiple "module x" headers } } $hit or die "vpassert %Error: $filename: Couldn't find symbol insertion point in $mod\n"; } } $#Endmodule_Inserts < 0 or die "vpassert %Error: $filename: Couldn't find endmodule\n"; # Put out the processed file print "Got_Change? $Got_Change $outname\n" if ($Debug); if ($Got_Change) { my $date = localtime; $fh->open(">$outname") or die "%Error: Can't write $outname."; my $curline = -1; my $needline = 1; # No newline so line counts not affected print $fh "/* Generated by vpassert; File:\"$filename\" */"; my @out; foreach my $outref (@Sendout) { #print "CL $curline WL $outref->[0] TT $outref->[1]\n"; if ($outref->[0]) { $needline = $outref->[0]; } if ($curline != $needline) { push @out, "\n`line $needline \"$filename\" 0\n" if $Opt_Line; $curline = $needline; } push @out, $outref->[1]; $curline++ while ($outref->[1] =~ /\n/g); } my $out = join('',@out); # Simplify redundant `lines to save space $out =~ s%(\`line[^\n]*)\n[ \t\n]*(\`line[^\n]*\n)%$2%mg; $out =~ s%\n+(\n\`line[^\n]*)%$1%mg; print $fh $out; $fh->close; if (defined $Files{$filename}{mtime}) { utime $Files{$filename}{mtime}, $Files{$filename}{mtime}, $outname; } } return $Got_Change; } #---------------------------------------------------------------------- sub bitwidth { # Take a string like "{foo[5:0],bar} and return bit width (7 in this case) my $statement = shift; my $bits = 0; foreach my $sig (split /,\{\]/, $statement) { if ($sig =~ /[a-z].* \[ (-?[0-9]+) : (-?[0-9]+) \]/x) { $bits += ($1 - $2) + 1; } elsif ($sig =~ /[a-z]/) { $bits ++; } } return $bits; } #---------------------------------------------------------------------- #---------------------------------------------------------------------- #---------------------------------------------------------------------- sub vpassert_db_read_file { # Read when the unprocessed files were last known to not need processing my $filename = shift; my $fh = IO::File->new("<$filename") or return; # no error if fails while (my $line = $fh->getline) { chomp $line; if ($line =~ /^switch\s*(.*$)/) { my $old = $1; my $now = _switch_line(); $old =~ s/\s+//g; $now =~ s/\s+//g; $Last_ArgsDiffer = ($old ne $now); } else { my ($tt_cmd, $tt_file, $tt_mtime, $tt_size) = split(/\t/,$line); $tt_cmd .= ""; # Warning removal $Files_Read{$tt_file}{mtime} = $tt_mtime; $Files_Read{$tt_file}{size} = $tt_size; } } $fh->close; } sub vpassert_db_write_file { # Save which unprocessed files did not need processing my $filename = shift; my $fh = IO::File->new(">$filename") or die "%Error: $! $filename.\n"; $fh->print ("switch\t"._switch_line()."\n"); foreach my $file (sort (keys %Files)) { next if !$Files{$file}{mtime}; $fh->print ("unproc\t$file\t$Files{$file}{mtime}\t$Files{$file}{size}\n"); } $fh->close; } #---------------------------------------------------------------------- sub vpassert_recursive_prelude { # What to do before processing any files my $destdir = shift; $destdir .= "/" if ($destdir !~ /[\\\/]$/); %Files = (); %Files_Read = (); vpassert_db_read_file ("${destdir}/.vpassert_skipped_times"); form_conversions_regexp(); if (! -d $destdir) { mkdir ($destdir,0777) or die "%Error: Can't mkdir $destdir\n"; } # Don't include directory in time saving, as path may change dep how run my $dest_mtime = $Files_Read{"vpassert"}{mtime} || 0; if (!$Opt_Date || ($Prog_Mtime > $dest_mtime) || $Last_ArgsDiffer) { # Flush the whole read cache %Files_Read = (); print "\t VPASSERT (or overall flags) changed... Two minutes...\n"; print "\t Mtime = $Prog_Mtime\n" if $Debug; } #print "FF $Opt_Date, $Prog_Mtime, $dest_mtime, $Opt_Vericov, $Last_Vericov\n"; $Files{"vpassert"}{mtime} = $Prog_Mtime; $Files{"vpassert"}{size} = 1; } sub vpassert_recursive_postlude { my $destdir = shift; $destdir .= "/" if ($destdir !~ /[\\\/]$/); # What to do after processing all files # Check for deletions foreach my $srcfile (sort keys %Files_Read) { if ($Files_Read{$srcfile}{mtime} && !$Files{$srcfile}{mtime}) { (my $basefile = $srcfile) =~ s/.*\///; my $destfile = "$destdir$basefile"; # A file with the same basename may now be in a different dir, # and already processed, so don't delete it. if (!$File_Dest{$destfile}) { print "\t vpassert: Deleted? $srcfile\n" if !$Opt_Quiet; unlink $destfile; } } } vpassert_db_write_file ("${destdir}/.vpassert_skipped_times"); } sub vpassert_recursive { # Recursively process this directory or file argument my $srcdir = shift; my $destdir = shift; print "Recursing $srcdir $destdir\n" if ($Debug); if (-d $srcdir) { $srcdir .= "/" if ($srcdir !~ /[\\\/]$/); $destdir .= "/" if ($destdir !~ /[\\\/]$/); my $dh = new IO::Dir $srcdir or die "%Error: Could not directory $srcdir.\n"; while (defined (my $basefile = $dh->read)) { my $srcfile = $srcdir . $basefile; if ($Opt->libext_matches($srcfile)) { next if -d $srcfile; vpassert_process_one($srcfile, $destdir); } } $dh->close(); } else { # Plain file vpassert_process_one ($srcdir, $destdir, 1); } } use vars (qw(%file_directory)); sub vpassert_process_one { # Process one file, keeping cache consistent my $srcfile = shift; my $destdir = shift; (my $basefile = $srcfile) =~ s!.*[/\\]!!; my $destfile = "$destdir$basefile"; $File_Dest{$destfile} = 1; my @stat = (stat($srcfile)); my $src_mtime = $stat[9] || 0; my $src_size = $stat[7] || 0; my $dest_mtime = $Files_Read{$srcfile}{mtime} || 0; # Mark times #print "BCK $basefile $src_mtime, $dest_mtime\n"; $Files{$srcfile}{mtime} = $src_mtime; $Files{$srcfile}{size} = $src_size; if ($src_mtime != $dest_mtime || $src_size != $Files_Read{$srcfile}{size}) { my $no_output = 0; unlink $destfile; $Total_Files++; if (! vpassert_process ($srcfile, $destfile, $Opt_AllFiles)) { # Didn't need to do processing $no_output = 1; print "nooutput: vpassert_process ($srcfile, $destfile,0 )\n" if ($Debug); nochange_copy($srcfile,$destfile); } else { # Make sure didn't clobber another directory's file print "madenew: vpassert_process ($srcfile, $destfile,0 )\n" if ($Debug); if ($file_directory{$destfile}) { my $old = $file_directory{$destfile}; die "%Error: Two files with same basename: $srcfile, $old\n"; # This warning is to prevent search order dependence in the # verilog search path. It also makes sure we don't clobber # one file with another by the same name in the .vpassert directory } } if (!$Opt_Quiet) { print " VPASSERT'ing file ($Total_Files) $srcfile ", ($dest_mtime ? "(Changed)":"(New)"), ($no_output ? " (no-output)" : ""),"\n"; } } $file_directory{$destfile} = $srcfile; } sub nochange_copy { my $srcfile = shift; my $dstfile = shift; my $fhw = IO::File->new(">$dstfile"); my $fhr = IO::File->new("<$srcfile"); if (!$fhr) { warn "%Warning: $! $srcfile\n"; return; } $fhw->print("`line 1 \"$srcfile\" 0\n") if $Opt_Line; # Unfortunately File::Copy::copy overwrites our line statement. my $eof; my $chunk = POSIX::BUFSIZ; # On 5.8.8 this isn't a number but text $chunk = 8*1024 if $chunk !~ /^\d+$/; while (!$eof) { my $data = ''; $!=undef; my $rv = $fhr->sysread($data, $chunk, 0); #print "RRV=$rv b=$!\n" if $Debug; $eof = 1 if !$rv || (!$fhr || ($! && $! != POSIX::EWOULDBLOCK)); $fhw->print($data); } } ###################################################################### ###################################################################### ###################################################################### ###################################################################### # Parser functions called by Verilog::Parser package Verilog::Vpassert::Parser; ## no critic require Exporter; use Verilog::Parser; use base qw(Verilog::Parser); BEGIN { # Symbols to alias to global scope use vars qw(@GLOBALS); @GLOBALS = qw ( $Debug @Sendout $Last_Task $Last_Module $Opt_Vericov $Opt_Synthcov $ReqAck_Num $Vericov_Enabled %Vpassert_Conversions %Insure_Symbols @Endmodule_Inserts ); foreach (@GLOBALS) { my ($type,$sym) = /^(.)(.*)$/; *{"$sym"} = \${"::$sym"} if ($type eq "\$"); *{"$sym"} = \%{"::$sym"} if ($type eq "%"); *{"$sym"} = \@{"::$sym"} if ($type eq "@"); } } use strict; use vars (@GLOBALS, qw ( $Last_Keyword $Last_Lineno $Last_Prekwd @Last_Symbols @Last_Number_Ops $Need_Vpassert_Symbols @Params $Param_Num $Parens $PreLevel @PreCovOff $In_Message )); use Verilog::Parser; sub new { my $class = shift; my $self = $class->SUPER::new(); bless $self, $class; # State of the parser # These could be put under the class, but this is faster and we only parse # one file at a time @Endmodule_Inserts = (); $Last_Keyword = ""; $Last_Lineno = 0; $Last_Prekwd = 0; @Last_Symbols = (); @Last_Number_Ops = (); $Last_Task = ""; $Last_Module = ""; $Vericov_Enabled = $Opt_Vericov; $Need_Vpassert_Symbols = 0; $Param_Num = 0; $Parens = 0; $PreLevel = 0; @PreCovOff = (); $In_Message = 0; #%module_symbols = (); %Insure_Symbols = (); @Params = (); return $self; } sub keyword { # Callback from parser when a keyword occurs my ($parser, $token) = @_; my $since = $parser->unreadback(); $parser->unreadback(''); $Last_Keyword = $token; @Last_Symbols = (); @Last_Number_Ops = (); if ($Opt_Vericov && (($token eq "case") || ($token eq "casex") || ($token eq "casez"))) { push @Sendout, [$Last_Lineno, $since]; push @Sendout, [$Last_Lineno, "\n/*summit implicit off*/\n"] if $Vericov_Enabled; push @Sendout, [$Last_Lineno, $token]; } elsif ($Opt_Vericov && ($token eq "endcase")) { push @Sendout, [$Last_Lineno, $since . $token]; push @Sendout, [$Last_Lineno, "\n/*summit implicit on*/\n"] if $Vericov_Enabled; } elsif ($token eq "endmodule") { if ($#Endmodule_Inserts >= 0) { push @Sendout, @Endmodule_Inserts; @Endmodule_Inserts = (); } push @Sendout, [$Last_Lineno, $since . $token]; } else { push @Sendout, [$Last_Lineno, $since . $token]; } $Last_Lineno = $parser->lineno; } sub symbol { # Callback from parser when a symbol occurs my ($parser, $token) = @_; my $since = $parser->unreadback(); $parser->unreadback(''); if ($In_Message) { $Params[$Param_Num] .= $since . $token; } else { if ($Vpassert_Conversions {$token} || ($Opt_NoPli && $token =~ /^\$/ && $Parens==0)) { push @Sendout, [$Last_Lineno, $since]; print "Callback SYMBOL $token\n" if ($Debug); $In_Message = 1; $Param_Num = 1; @Params = (); $Params[0] = $token; } else { # Actually a keyword; we check for that too push @Sendout, [$Last_Lineno, $since . $token]; } } if ($Last_Keyword eq "task") { $Last_Task = $token; $Last_Keyword = ""; $Parens = 0; } if ($Last_Keyword eq "module") { $Last_Module = $token; $Last_Keyword = ""; $Need_Vpassert_Symbols = 1; $ReqAck_Num = 1; $Parens = 0; } if ($Last_Prekwd) { if ($Last_Prekwd eq "`ifdef" || $Last_Prekwd eq "`elsif" || $Last_Prekwd eq "`ifndef") { if ($token eq "SYNTHESIS") { my $ndef = ($Last_Prekwd eq "`ifndef"); $PreCovOff[$PreLevel] = $ndef; if ($PreCovOff[$PreLevel] && $Opt_Synthcov) { push @Sendout, [0, ::coverage_off(0)]; } } else { $PreCovOff[$PreLevel] = 0; } } $Last_Prekwd = 0; } push @Last_Symbols, $token; $Last_Lineno = $parser->lineno; } sub number { # Callback from parser when a number occurs my ($parser, $token) = @_; my $since = $parser->unreadback(); $parser->unreadback(''); if ($In_Message) { print "Callback NUMBER $token\n" if ($Debug); $Params[$Param_Num] .= $since . $token; } else { push @Sendout, [$Last_Lineno, $since . $token]; } push @Last_Number_Ops, $token; $Last_Lineno = $parser->lineno; } sub operator { # Callback from parser when a operator occurs my ($parser, $token) = @_; my $since = $parser->unreadback(); $parser->unreadback(''); if ($In_Message) { print "Callback OPERATOR $token ($Parens, $Param_Num)\n" if ($Debug); if (($token eq ',') && ($Parens==1)) { # Top level comma $Params[$Param_Num] .= $since; $Param_Num ++; } elsif (($token eq ';' && ($Parens==0))) { # Final statement close if ($In_Message) { if ($Opt_NoPli) { # "" doesn't work, as need semi for "if (1) $x()" # ";" doesn't work, as need empty for "begin $x() end" ::sendout ("begin end "); for (my $p=0; $p<=$#Params; $p++) { while ($Params[$p]=~/\n/g) { ::sendout("\n"); } } } elsif (defined $Vpassert_Conversions {$Params[0]}) { #print " CALLPRE ",join(':',@Params),"\n" if $Debug; my $nl = ""; for (my $p=0; $p<=$#Params; $p++) { while ($Params[$p]=~/\n/g) { $nl .= "\n"; } $Params[$p] = Verilog::Language::strip_comments($Params[$p]); $Params[$p]=~ s/\n//g; } my $func = $Vpassert_Conversions {$Params[0]}; print " CALL ",join(':',@Params),"\n" if $Debug; &$func (@Params); ::sendout ($nl) if $nl; # Adjust for \n's in params } else { ::sendout (""); } } $In_Message=0; } elsif (($token eq ')' || $token eq '}') && ($Parens==1)) { # Final paren $Params[$Param_Num] .= $since; } elsif ($token eq ')' || $token eq '}') { # Other paren $Params[$Param_Num] .= $since . $token; } elsif ($token eq '(' || $token eq '{') { if ($Parens!=0) { $Params[$Param_Num] .= $since . $token; } } else { $Params[$Param_Num] .= $since . $token; } } elsif ($Need_Vpassert_Symbols && ($token eq ';')) { $Need_Vpassert_Symbols = 0; # Squeeze it after module (..); push @Sendout, [$Last_Lineno, $since . $token . '/*vpassert beginmodule '.$Last_Module.'*/']; } else { push @Sendout, [$Last_Lineno, $since . $token]; } # Track parens if ($token eq '(' || $token eq '{') { $Parens++; } elsif ($token eq ')' || $token eq '}') { $Parens--; } push @Last_Number_Ops, $token; $Last_Lineno = $parser->lineno; } sub string { # Callback from parser when a string occurs my ($parser, $token) = @_; my $since = $parser->unreadback(); $parser->unreadback(''); if ($In_Message) { print "Callback STRING $token\n" if ($Debug); $Params[$Param_Num] .= $since . $token; } else { push @Sendout, [$Last_Lineno, $since . $token]; if (($Last_Keyword eq "`include") && ($token =~ /\//)) { print STDERR "%Warning: ".$parser->fileline.": `include has directory," . " remove and add +incdir+ to input.vc\n"; } } $Last_Lineno = $parser->lineno; } sub comment { # Callback from parser when a comment # *** To speed things up, this is only invoked when doing vericov my ($parser, $token) = @_; if (!$Opt_Vericov && $token !~ /_coverage_/) { $parser->unreadback($parser->unreadback() . $token); return; } my $since = $parser->unreadback(); $parser->unreadback(''); if ($Opt_Vericov) { if ($token =~ /summit\s+modcovon/ || $token =~ /simtech\s+modcovon/) { $Vericov_Enabled = 1; } elsif ($token =~ /summit\s+modcovoff/ || $token =~ /simtech\s+modcovoff/) { $Vericov_Enabled = 0; } } push @Sendout, [$Last_Lineno, $since . $token]; if ($token =~ /\b(cn|vp)_coverage_(off|on)/) { if ($2 eq 'off') { push @Sendout, [0, ::coverage_off(0)]; } else { push @Sendout, [0, ::coverage_on(0)]; } } $Last_Lineno = $parser->lineno; } sub preproc { my ($self, $token) = @_; if (Verilog::Language::is_compdirect($token)) { my $since = $self->unreadback(); $self->unreadback(''); # Close previous endif if ($Opt_Synthcov) { # Else accelerate if ($token eq "`elsif" || $token eq "`else" || $token eq "`endif") { if ($PreCovOff[$PreLevel] && $Opt_Synthcov) { push @Sendout, [0, ::coverage_on(0)]; } $PreLevel--; } } # Current token push @Sendout, [$Last_Lineno, $since . $token]; # Begin new endif if ($Opt_Synthcov) { # Else accelerate if ($token eq "`ifdef" || $token eq "`ifndef" || $token eq "`elsif") { $PreLevel++; $Last_Prekwd = $token; } elsif ($token eq "`else") { $PreLevel++; $PreCovOff[$PreLevel] = !$PreCovOff[$PreLevel]; if ($PreCovOff[$PreLevel] && $Opt_Synthcov) { push @Sendout, [0, ::coverage_off(0)]; } } } $Last_Lineno = $self->lineno; } else { $self->symbol($token); } } package main; ###################################################################### ###################################################################### ###################################################################### __END__ =pod =head1 NAME vpassert - Preprocess Verilog code assertions =head1 SYNOPSIS B [ B<--help> ] [ B<--date> ] [ B<--quiet> ] [ -y B ] [ B ] =head1 DESCRIPTION Vpassert will read the specified Verilog files and preprocess special PLI assertions. The files are written to the directory named .vpassert unless another name is given with B<-o>. If a directory is passed, all files in that directory will be preprocessed. =head1 ARGUMENTS Standard VCS and GCC-like parameters are used to specify the files to be preprocessed: +libext+I+I... Specify extensions to be processed -f I Parse parameters in file -v I Parse the library file (I) -y I Parse all files in the directory (I) -II Parse all files in the directory (I) +incdir+I Parse all files in the directory (I) To prevent recursion and allow reuse of the input.vc being passed to the simulator, if the output directory is requested to be preprocessed, that directory is simply ignored. =over 4 =item --allfiles Preprocess and write out files that do not have any macros that need expanding. By default, files that do not need processing are not written out. This option may speed up simulator compile times; the file will always be found in the preprocessed directory, saving the compiler from having to search a large number of -v directories to find it. =item --axiom Special Axiom ATHDL enables/disables added around unreachable code. =item --call-error When $uerror (or $uassert etc.) wants to display a message, call the specified function instead of $display and $stop. =item --call-info When $uinfo wants to display a message, call the specified function instead of $display. =item --call-warn When $uwarn (or $uwarn_clk etc.) wants to display a message, call the specified function instead of $display and $stop. =item --date Check file dates and sizes versus the last run of vpassert and don't process if the given source file has not changed. =item --exclude Exclude processing any files which begin with the specified prefix. =item --help Displays this message and program version and exits. =item --language <1364-1995|1364-2001|1364-2005|1800-2005|1800-2009|1800-2012> Set the language standard for the files. This determines which tokens are signals versus keywords, such as the ever-common "do" (data-out signal, versus a do-while loop keyword). =item --minimum Include `__message_minimum in the $uinfo test, so that by defining __message_minimum=1 some uinfos may be optimized away at compile time. =item --noline Do not emit `line directives. If not specified they will be used under --language 1364-2001 and later. =item --nopli Delete all 'simple' PLI calls. PLI function calls inside parenthesis will not be changed, and thus may still need to be manually ifdef'ed out. Useful for reducing the amount of `ifdef's required to feed non-PLI competent synthesis programs. =item --nostop By default, $error and $warn insert a $stop statement. With --nostop, this is replaced by incrementing a variable, which may then be used to conditionally halt simulation. =item --o I Use the given filename for output instead of the input name .vpassert. If the name ends in a / it is used as a output directory with the default name. =item --quiet Suppress messages about what files are being preprocessed. =item --realintent Special RealIntent enable/disables added around unreachable code. =item --synthcov When "ifdef SYNTHESIS" is seen, disable coverage. Resume on the `else or `endif. This does NOT follow child defines, for example: `ifdef SYNTHSIS `define MYSYNTH `endif `ifdef MYSYNTH // This will not be coveraged-off =item --timeformat-units I If specified, include Verilog $timeformat calls before all messages. Use the provided argument as the units. Units is in powers of 10, so -9 indicates to use nanoseconds. =item --timeformat-precision I When using --timeformat-units, use this as the precision value, the number of digits after the decimal point. Defaults to zero. =item --vericov Special Vericov enable/disables added around unreachable code. =item --verilator Special Verilator translations enabled. =item --version Displays program version and exits. =item --vcs Special Synopsys VCS enables/disables added around unreachable code. =back =head1 FUNCTIONS These Verilog pseudo-pli calls are expanded: =over 4 =item /*vp_coverage_off*/ Disable coverage for all tools starting at this point. Does not need to be on a unique line. =item /*vp_coverage_on*/ Re-enable coverage after a vp_coverage_off. Does not need to be on a unique line. =item $uassert (I, "message", [I...] ) Report a $uerror if the given case is FALSE. (Like assert() in C.) =item $uassert_amone (I, [I...], "message", [I...] ) Report a $uerror if more than one signal is asserted, or any are X. (None asserted is ok.) The error message will include a binary display of the signal values. =item $uassert_info (I, "message", [I...] ) Report a $uinfo if the given case is FALSE. (Like assert() in C.) =item $uassert_onehot (I, [I...], "message", [I...] ) Report a $uerror if other than one signal is asserted, or any are X. The error message will include a binary display of the signal values. =item $uassert_req_ack (I, I, [I,...] ) Check for a single cycle request pulse, followed by a single cycle acknowledgment pulse. Do not allow any of the data signals to change between the request and acknowledgement. =item $ucheck_ilevel (I ) Return true if the __message level is greater or equal to the given level, and that global messages are turned on. =item $ucover_clk (I, I