: # -*-Mode: perl;-*- use perl, wherever it is eval 'exec perl -wS $0 ${1+"$@"}' if 0; ###################################################################### # # Copyright 2003-2016 by Wilson Snyder. This program is free software; you # can redistribute it and/or modify it under the terms of either the GNU # Lesser General Public License Version 3 or the Perl Artistic License # Version 2.0. # # 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. # ###################################################################### require 5.006_001; use warnings; BEGIN { if ($ENV{DIRPROJECT} && $ENV{DIRPROJECT_PERL_BOOT}) { # Magic to allow author testing of perl packages in local directory require $ENV{DIRPROJECT}."/".$ENV{DIRPROJECT_PERL_BOOT}; } } use Getopt::Long; use FindBin qw($RealBin $RealScript); use IO::File; use Pod::Usage; use Cwd qw(abs_path getcwd); use strict; use vars qw ($Debug @Opt_Verilator_Sw); ####################################################################### ####################################################################### # main autoflush STDOUT 1; autoflush STDERR 1; $Debug = 0; # No arguments can't do anything useful. Give help if ($#ARGV < 0) { pod2usage(-exitstatus=>2, -verbose=>0); } # We sneak a look at the flags so we can do some pre-environment checks # All flags will hit verilator... foreach my $sw (@ARGV) { $sw = "'$sw'" if $sw =~ m![^---a-zA-Z0-9_/\\:.+]!; push @Opt_Verilator_Sw, $sw; } Getopt::Long::config ("no_auto_abbrev","pass_through"); if (! GetOptions ( # Major operating modes "help" => \&usage, "debug:s" => \&debug, # "version!" => \&version, # Also passthru'ed # Additional parameters "<>" => sub {}, # Ignored )) { pod2usage(-exitstatus=>2, -verbose=>0); } # Normal, non gdb run (verilator_coverage_bin() ." ".join(' ',@Opt_Verilator_Sw)); #---------------------------------------------------------------------- sub usage { pod2usage(-verbose=>2, -exitval=>2, -output=>\*STDOUT); } sub debug { shift; my $level = shift; $Debug = $level||3; } ####################################################################### ####################################################################### # Builds sub verilator_coverage_bin { my $bin = ""; # Use VERILATOR_ROOT if defined, else assume verilator_bin is in the search path my $basename = ($ENV{VERILATOR_COVERAGE_BIN} || "verilator_coverage_bin_dbg"); if (defined($ENV{VERILATOR_ROOT})) { my $dir = $ENV{VERILATOR_ROOT}; if (-x "$dir/bin/$basename") { # From a "make install" into VERILATOR_ROOT $bin = "$dir/bin/$basename"; } else { $bin = "$dir/$basename"; # From pointing to kit directory } } else { if (-x "$RealBin/$basename") { $bin = "$RealBin/$basename"; # From path/to/verilator with verilator_bin installed } else { $bin = $basename; # Find in PATH } # Note we don't look under bin/$basename which would be right if running # in the kit dir. Running that would likely break, since # VERILATOR_ROOT wouldn't be set and Verilator won't find internal files. } return $bin; } ####################################################################### ####################################################################### # Utilities sub run { # Run command, check errors my $command = shift; $! = undef; # Cleanup -x print "\t$command\n" if $Debug>=3; system($command); my $status = $?; if ($status) { if ($! =~ /no such file or directory/i) { warn "%Error: verilator_coverage: Misinstalled, or VERILATOR_ROOT might need to be in environment\n"; } if ($Debug) { # For easy rerunning warn "%Error: export VERILATOR_ROOT=".($ENV{VERILATOR_ROOT}||"")."\n"; warn "%Error: $command\n"; } if ($status & 127) { if (($status & 127) == 8 || ($status & 127) == 11) { # SIGFPA or SIGSEGV warn "%Error: Verilator_coverage internal fault, sorry.\n" if !$Debug; } elsif (($status & 127) == 6) { # SIGABRT warn "%Error: Verilator_coverage aborted.\n" if !$Debug; } else { warn "%Error: Verilator_coverage threw signal $status.\n" if !$Debug; } } die "%Error: Command Failed $command\n"; } } ####################################################################### ####################################################################### package main; __END__ =pod =head1 NAME verilator_coverage - Verilator coverage analyzer =head1 SYNOPSIS verilator_coverage --help verilator_coverage --version verilator_coverage --annotate verilator_coverage -write merged.dat -read ... Verilator_coverage processes Verilator coverage reports. With --anotate, it reads the specified data file and generates annotated source code with coverage metrics annotated. If multiple coverage points exist on the same line, additional lines will be inserted to report the additional points. Additional Verilog-standard arguments specify the search paths necessary to find the source code that the coverage analysis was performed on. To get correct coverage percentages, you may wish to read logs/coverage.pl into Emacs and do a M-x keep-lines to include only those statistics of interest. For Verilog conditions that should never occur, you should add a $stop statement. This will remove the coverage during the next build. =head1 ARGUMENTS =over 4 =item I Specify input data file, may be repeated to read multiple inputs. If no data file is specified, by default coverage.dat is read. =item --annotate I Sprcifies the directory name that source files with annotated coverage data should be written to. =item --annotate-all Specifies all files should be shown. By default, only those source files which have low coverage are written to the output directory. =item --annotate-min I Specifies the minimum occurrence count that should be flagged if the coverage point does not include a specified threshold. Defaults to 10. =item --help Displays this message and program version and exits. =item --rank Print an experimental report listing the relative importance of each test in covering all of the coverage points. The report shows "Covered" which indicates the number of points that test covers; a test is considered to cover a point if it has a bucket count of at least 1. The "rank" column has a higher number t indicate the test is more important, and rank 0 means the test does not need to be run to cover the points. "RankPts" indicates the number of coverage points this test will contribute to overall coverage if all tests are run in the order of highest to lowest rank. =item --unlink When using --write to combine coverage data, unlink all input files after the output has been created. =item --version Displays program version and exits. =item --write I Specifies the aggregate coverage results, summed across all the files, should be written to the given filename. This is useful in scripts to combine many sequential runs into one master coverage file. =back =head1 VERILOG ARGUMENTS The following arguments are compatible with GCC, VCS and most Verilog programs. =over 4 =item +libext+I+I... Defines the extensions for Verilog files. =item +define+I+I =item -DI=I Defines the given variable. =item +incdir+I =item -II Specifies a directory for finding include files. =item -f I Specifies a file containing additional command line arguments. =item -y I Specifies a module search directory. =back =head1 DISTRIBUTION The latest version is available from L. Copyright 2003-2016 by Wilson Snyder. Verilator is free software; you can redistribute it and/or modify the Verilator internals under the terms of either the GNU Lesser General Public License Version 3 or the Perl Artistic License Version 2.0. =head1 AUTHORS Wilson Snyder =head1 SEE ALSO C L which is the source for this document. =cut ######################################################################