File: getbw

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lmbench 3.0-a9%2Bdebian.1-6
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# Extract the bandwith information.
# Usage: getbw file file....
#
# Hacked into existence by Larry McVoy (lm@sun.com now lm@sgi.com).
# Copyright (c) 1994 Larry McVoy.  GPLed software.
# $Id$
eval 'exec perl -Ssw $0 "$@"'
	if 0;

#
# Default is file bandwidth which lists: mem read, file read (both),
# mmap read (both), bcopy.
#
# -mem turns off the file stuff but turns on rd, wr, rdwr, frd, fwr, 
# bcopy, bzero, cp, fcp.
#
foreach $file (@ARGV) {
	open(FD, $file);
	&cache;
	open(FD, $file);
	($f = $file) =~ s|/|-|;
	if ($mem || $all) {
		print "tmp/bwmem.$f\n";
		open(OUT, ">tmp/bwmem.$f");
	} else {
		print "tmp/bwfile.$f\n";
		open(OUT, ">tmp/bwfile.$f");
	}
	print OUT "%X Memory size \n%Y Bandwidth in MB/sec\n";
	while (<FD>) {
		chop;
		if (/^\[lmbench/) {
			@_ = split;
			if ($_[3] eq "SunOS") {
				$_[3] .= "-$_[5]";
			}
			$uname = "@_";
		}
		if (/^\d+.*Mhz/) {
			@_ = split;
			$mhz = $_[0];
			$tmp = &getinfo("$uname", $mhz);
			if ($mem) {
				print OUT "%T Memory bandwidth for $tmp\n";
			} else {
				print OUT "%T Reread bandwidth for $tmp\n";
			}
		}
		if (/MHZ/) {
			@_ = split;
			$mhz = $_[1];
			chop($mhz) if $mhz =~ /]$/;
			$tmp = &getinfo("$uname", $mhz);
			if ($mem) {
				print OUT "%T Memory bandwidth for $tmp\n";
			} else {
				print OUT "%T Reread bandwidth for $tmp\n";
			}
		}
		if ((!$all && !$mem) && /^"read bandwidth/) {
			print OUT "\"File reread\n";
			while (<FD>) {
				last if /^\s*$/;
			    	print OUT;
			}
			print OUT "\n";
			next;
		}
		if ((!$all && !$mem) && /^"read open2close bandwidth/) {
			print OUT "\"File open2close reread\n";
			while (<FD>) {
				last if /^\s*$/;
			    	print OUT;
			}
			print OUT "\n";
			next;
		}
		if ((!$all && !$mem) && /^"Mmap read bandwidth/) {
			print OUT "\"File mmap reread\n";
			while (<FD>) {
				last if /^\s*$/;
			    	print OUT;
			}
			print OUT "\n";
			next;
		}
		if ((!$all && !$mem) && /^"Mmap read open2close bandwidth/) {
			print OUT "\"File mmap open2close reread\n";
			while (<FD>) {
				last if /^\s*$/;
			    	print OUT;
			}
			print OUT "\n";
			next;
		}
		if ($all && /^"libc bcopy aligned/) {
			print OUT "\"libc bcopy aligned\n";
			while (<FD>) {
				last if /^\s*$/;
			    	print OUT;
			}
			print OUT "\n";
			next;
		}
		if (/^"libc bcopy unaligned/) {
			print OUT "\"libc bcopy unaligned\n";
			while (<FD>) {
				last if /^\s*$/;
			    	print OUT;
			}
			print OUT "\n";
			next;
		}
		if ($all && /^"unrolled bcopy aligned/) {
			print OUT "\"libc bcopy unaligned\n";
			while (<FD>) {
				last if /^\s*$/;
			    	print OUT;
			}
			print OUT "\n";
			next;
		}
		if (($all || $mem) && /^"unrolled bcopy unaligned/) {
			print OUT "\"unrolled bcopy unaligned\n";
			while (<FD>) {
				last if /^\s*$/;
			    	print OUT;
			}
			print OUT "\n";
			next;
		}
		if (($all || $mem) && /^"unrolled partial bcopy unaligned/) {
			print OUT "\"unrolled partial bcopy unaligned\n";
			while (<FD>) {
				last if /^\s*$/;
				@_ = split; next unless $_[0] > $cache;
			    	print OUT;
			}
			print OUT "\n";
			next;
		}
		if (/^Memory read bandwidth/) {
			print OUT "\"$_\n";
			while (<FD>) {
				last if /^\s*$/;
			    	print OUT;
			}
			print OUT "\n";
			next;
		}
		if (($all || $mem) && /^Memory partial read bandwidth/) {
			print OUT "\"$_\n";
			while (<FD>) {
				last if /^\s*$/;
				@_ = split; next unless $_[0] > $cache;
			    	print OUT;
			}
			print OUT "\n";
			next;
		}
		if (($all || $mem) && /^Memory partial read.write bandwidth/) {
			print OUT "\"$_\n";
			while (<FD>) {
				last if /^\s*$/;
				@_ = split; next unless $_[0] > $cache;
			    	print OUT;
			}
			print OUT "\n";
			next;
		}
		if (($all || $mem) && /^Memory partial write bandwidth/) {
			print OUT "\"$_\n";
			while (<FD>) {
				last if /^\s*$/;
				@_ = split; next unless $_[0] > $cache;
			    	print OUT;
			}
			print OUT "\n";
			next;
		}
		if (($all || $mem) && /^Memory write bandwidth/) {
			print OUT "\"$_\n";
			while (<FD>) {
				last if /^\s*$/;
			    	print OUT;
			}
			print OUT "\n";
			next;
		}
		if (($all || $mem) && /^Memory bzero bandwidth/) {
			print OUT "\"$_\n";
			while (<FD>) {
				last if /^\s*$/;
			    	print OUT;
			}
			print OUT "\n";
			next;
		}
	}
}

# Paw through the data and figure out how big the L1 cache is.
# We look at the memory read performance and look for cluster breaks
# at 4, 8, 16, 32, 64, 126, and 256k.
sub cache
{
	local($in) = 0;
	local($n, $sum, $avg) = (0,0,0);

	$cache = 0;
	while (<FD>) {
		if (/^Memory partial read bandwidth/) {
			$in = 1;
			next;
		}
		next unless $in;
		@_ = split;
		if ($n == 0) {
			$sum += $_[1];
			$n++;
			next;
		}
		$avg = $sum/$n;
		if ($_[1] < .75*$avg) {
			$cache = $last;
			return;
		}
		$last = $_[0];
		$sum += $_[1];
		$n++;
	}
}

# Try and create sensible names from uname -a output
sub getinfo
{
	local(@info);
	local($name);
	local($mhz);

	$mhz = $_[1];
	$_ = $_[0];
	@info = split;
	$name = pop(@info);
	chop($name);
	if ($name eq "unknown") {
		$name = pop(@info);
	}
	if ($name eq "mips") {
		$name = "$info[$#info]\@$mhz";
	} elsif ($_[0] =~ /HP-UX/) {
		$name = "$info[7]\@$mhz";
	} elsif ($_[0] =~ /SunOS/) {
		$name = "$info[7]\@$mhz";
	} else {
		$name .= "\@$mhz";
	}
	"$info[3] $name";
}