tools/ag-wipe - pub/scm/fs/xfs/xfstests-dev - Git at Google

 #!/usr/bin/perl -w
 # SPDX-License-Identifier: GPL-2.0
 # Copyright (c) 2003-2004 Silicon Graphics, Inc.  All Rights Reserved.
 #
 use strict;
 use IO::File;
 use Getopt::Std;
 #
 #
 # Modify a filesystem's superblock and AGF metadata structures
 # so that only a subset of the allocation groups will be used.
 # Intended use is in testing large virtual devices (eg. loop)
 # with extremely large filesystems, where we want to ensure
 # high allocation groups are used as much as possible (where
 # the block addresses are large).
 #

 my %opt;
 getopts('cf:l:qr:v', \%opt);

 die "Usage: $0 [-f AG] [-l AG] [-r bytes] [-cqv] device\n" unless (@ARGV == 1);
 my $device = shift @ARGV;
 die "$device: no such file\n" unless (-e $device);

 my $clearall = defined($opt{'c'}) ? 1 : 0;
 my $retain = defined($opt{'r'}) ? $opt{'r'} : -1;
 my $quiet = defined($opt{'q'}) ? 1 : 0;
 my $verbose = defined($opt{'v'}) ? 1 : 0;
 my $nagfirst = defined($opt{'f'}) ? $opt{'f'} : 0;
 my $naglast = defined($opt{'l'}) ? $opt{'l'} : 0;

 #
 # "clearall" means clear everything barring the final AG.
 # "retain" means clearall and retain a specified amount in the
 # second-from-last AG as well (value is the number of bytes).
 # [NB: retain with a value of zero is now the same as clearall].
 #
 if ($retain >= 0) {
 	$clearall = 1;
 }

 sub xfs_db {
 	my $xfsdb = 'xfs_db -x';
 	my %hash;

 	foreach (@_) {
 		$xfsdb .= ' -c ' . $_;
 	}
 	print $xfsdb, ' ', $device, "\n" if ($verbose);

 	die unless open(DB, "$xfsdb $device 2>/dev/null |");
 	while (<DB>) {
 		if (/^(\S+) = (.*)$/) {
 			print if ($verbose);
 			$hash{$1} = $2;
 		}
 	}
 	return %hash;
 }


 #
 # Stage 1: Get control information from the superblock
 #

 my @sbprint = ( '"print fdblocks"', '"print agcount"', '"print blocksize"' );
 my @agffree = ( '"print freeblks"' );

 my %sb = xfs_db 'sb', @sbprint;
 print "=== Initially ", $sb{'fdblocks'}, " blocks free across ",
 	$sb{'agcount'}, " AGs\n" unless $quiet;
 if ($clearall && ($nagfirst || $naglast)) {
 	print STDERR "  o Clearall/retain specified with first/last AG\n";
 	exit(1);
 }
 if ($nagfirst >= $sb{'agcount'}) {
 	print STDERR "  o First AG number is too large\n";
 	exit(1);
 }
 if ($naglast >= $sb{'agcount'}) {
 	print STDERR "  o Last AG number is too large\n";
 	exit(1);
 }
 if ($naglast - $nagfirst < 0) {
 	print STDERR "  o No AGs to clear\n";
 	exit(1);
 }
 if ($clearall) {
 	$naglast = $sb{'agcount'} - 2;
 	if ($retain > 0) {
 		my %check;

 		$naglast--;
 		$retain /= $sb{'blocksize'};	# convert to fsblocks
 		%check = xfs_db "'agf $naglast'", @agffree;
 		if ($check{'freeblks'} < $retain) {
 			print STDERR "  o Insufficient space to retain\n";
 			exit(1);
 		}
 	}
 }


 #
 # Stage 2: Wipe out all completely masked allocation groups.
 #

 my @agfprint = ( '"print freeblks"', '"print flcount"' );
 my @agfcommands = ( '"write freeblks 0"',
 			'"write longest 0"', '"write flcount 0"',
 			'"write bnolevel 1"', '"write cntlevel 1"',
 			'"write flfirst 0"', '"write fllast 0"' );
 my @bnoprint = ( '"addr bnoroot"', '"print numrecs"' );
 my @bnocommands = ( '"addr bnoroot"', '"write numrecs 0"',
 			'"write leftsib -1"', '"write rightsib -1"' );
 my @cntprint = ( '"addr cntroot"', '"print numrecs"' );
 my @cntcommands = ( '"addr cntroot"', '"write numrecs 0"',
 			'"write leftsib -1"', '"write rightsib -1"' );

 print "=== Wiping ", $naglast - $nagfirst + 1,
 	" AGs starting from AG #", $nagfirst, "\n" unless $quiet;

 my $ag = $nagfirst;
 while ($ag <= $naglast) {
 	print "  o AG#", $ag, " AGF fields\n" unless $quiet;

 	my %agf = xfs_db "'agf $ag'", @agfprint;
 	xfs_db "'agf $ag'", @agfcommands;

 	my $blockcnt = $agf{'freeblks'} + $agf{'flcount'};
 	$sb{'fdblocks'} -= $blockcnt;
 	print "     cleared ", $blockcnt, " blocks from AG#", $ag, "\n"
 		unless $quiet;

 	my %btree = xfs_db "'agf $ag'", @bnoprint;
 	xfs_db "'agf $ag'", @bnocommands, "'agf $ag'", @cntcommands;
 	print "     cleared ", $btree{'numrecs'}, " BNO/CNT btree recs in AG#",
 		$ag, "\n" unless $quiet;

 	$ag++;
 }


 #
 # Stage 3: Wipe out any partially masked allocation group.
 #

 if ($retain > 0) {
 	print "  o AG#", $ag, " AGF fields (partial)\n" unless $quiet;

 	my %ragf = xfs_db "'agf $ag'", '"print freeblks"',
 		'"addr bnoroot"', '"print recs[1].startblock"';
 	my $maskblks = $ragf{'freeblks'} - $retain;
 	my $newstart = $ragf{'recs[1].startblock'} + $maskblks;
 	xfs_db "'agf $ag'",
 		"'write freeblks $retain'", "'write longest $retain'",
 		"'agf $ag'", '"addr bnoroot"',
 		"'write recs[1].startblock $newstart'",
 		"'write recs[1].blockcount $retain'",
 		"'agf $ag'", '"addr cntroot"',
 		"'write recs[1].startblock $newstart'",
 		"'write recs[1].blockcount $retain'";

 	$sb{'fdblocks'} -= $maskblks;
 	print "     cleared ", $maskblks, " blocks from AG#", $ag, "\n"
 		unless $quiet;
 }

 print "=== Updating final freespace count, ", $sb{'fdblocks'}, " blocks\n"
 	unless $quiet;
 xfs_db "'sb 0'", "'write fdblocks $sb{'fdblocks'}'"
	#!/usr/bin/perl -w
	# SPDX-License-Identifier: GPL-2.0
	# Copyright (c) 2003-2004 Silicon Graphics, Inc. All Rights Reserved.
	#
	use strict;
	use IO::File;
	use Getopt::Std;
	#
	#
	# Modify a filesystem's superblock and AGF metadata structures
	# so that only a subset of the allocation groups will be used.
	# Intended use is in testing large virtual devices (eg. loop)
	# with extremely large filesystems, where we want to ensure
	# high allocation groups are used as much as possible (where
	# the block addresses are large).
	#

	my %opt;
	getopts('cf:l:qr:v', \%opt);

	die "Usage: $0 [-f AG] [-l AG] [-r bytes] [-cqv] device\n" unless (@ARGV == 1);
	my $device = shift @ARGV;
	die "$device: no such file\n" unless (-e $device);

	my $clearall = defined($opt{'c'}) ? 1 : 0;
	my $retain = defined($opt{'r'}) ? $opt{'r'} : -1;
	my $quiet = defined($opt{'q'}) ? 1 : 0;
	my $verbose = defined($opt{'v'}) ? 1 : 0;
	my $nagfirst = defined($opt{'f'}) ? $opt{'f'} : 0;
	my $naglast = defined($opt{'l'}) ? $opt{'l'} : 0;

	#
	# "clearall" means clear everything barring the final AG.
	# "retain" means clearall and retain a specified amount in the
	# second-from-last AG as well (value is the number of bytes).
	# [NB: retain with a value of zero is now the same as clearall].
	#
	if ($retain >= 0) {
	$clearall = 1;
	}

	sub xfs_db {
	my $xfsdb = 'xfs_db -x';
	my %hash;

	foreach (@_) {
	$xfsdb .= ' -c ' . $_;
	}
	print $xfsdb, ' ', $device, "\n" if ($verbose);

	die unless open(DB, "$xfsdb $device 2>/dev/null \|");
	while (<DB>) {
	if (/^(\S+) = (.*)$/) {
	print if ($verbose);
	$hash{$1} = $2;
	}
	}
	return %hash;
	}


	#
	# Stage 1: Get control information from the superblock
	#

	my @sbprint = ( '"print fdblocks"', '"print agcount"', '"print blocksize"' );
	my @agffree = ( '"print freeblks"' );

	my %sb = xfs_db 'sb', @sbprint;
	print "=== Initially ", $sb{'fdblocks'}, " blocks free across ",
	$sb{'agcount'}, " AGs\n" unless $quiet;
	if ($clearall && ($nagfirst \|\| $naglast)) {
	print STDERR " o Clearall/retain specified with first/last AG\n";
	exit(1);
	}
	if ($nagfirst >= $sb{'agcount'}) {
	print STDERR " o First AG number is too large\n";
	exit(1);
	}
	if ($naglast >= $sb{'agcount'}) {
	print STDERR " o Last AG number is too large\n";
	exit(1);
	}
	if ($naglast - $nagfirst < 0) {
	print STDERR " o No AGs to clear\n";
	exit(1);
	}
	if ($clearall) {
	$naglast = $sb{'agcount'} - 2;
	if ($retain > 0) {
	my %check;

	$naglast--;
	$retain /= $sb{'blocksize'}; # convert to fsblocks
	%check = xfs_db "'agf $naglast'", @agffree;
	if ($check{'freeblks'} < $retain) {
	print STDERR " o Insufficient space to retain\n";
	exit(1);
	}
	}
	}


	#
	# Stage 2: Wipe out all completely masked allocation groups.
	#

	my @agfprint = ( '"print freeblks"', '"print flcount"' );
	my @agfcommands = ( '"write freeblks 0"',
	'"write longest 0"', '"write flcount 0"',
	'"write bnolevel 1"', '"write cntlevel 1"',
	'"write flfirst 0"', '"write fllast 0"' );
	my @bnoprint = ( '"addr bnoroot"', '"print numrecs"' );
	my @bnocommands = ( '"addr bnoroot"', '"write numrecs 0"',
	'"write leftsib -1"', '"write rightsib -1"' );
	my @cntprint = ( '"addr cntroot"', '"print numrecs"' );
	my @cntcommands = ( '"addr cntroot"', '"write numrecs 0"',
	'"write leftsib -1"', '"write rightsib -1"' );

	print "=== Wiping ", $naglast - $nagfirst + 1,
	" AGs starting from AG #", $nagfirst, "\n" unless $quiet;

	my $ag = $nagfirst;
	while ($ag <= $naglast) {
	print " o AG#", $ag, " AGF fields\n" unless $quiet;

	my %agf = xfs_db "'agf $ag'", @agfprint;
	xfs_db "'agf $ag'", @agfcommands;

	my $blockcnt = $agf{'freeblks'} + $agf{'flcount'};
	$sb{'fdblocks'} -= $blockcnt;
	print " cleared ", $blockcnt, " blocks from AG#", $ag, "\n"
	unless $quiet;

	my %btree = xfs_db "'agf $ag'", @bnoprint;
	xfs_db "'agf $ag'", @bnocommands, "'agf $ag'", @cntcommands;
	print " cleared ", $btree{'numrecs'}, " BNO/CNT btree recs in AG#",
	$ag, "\n" unless $quiet;

	$ag++;
	}


	#
	# Stage 3: Wipe out any partially masked allocation group.
	#

	if ($retain > 0) {
	print " o AG#", $ag, " AGF fields (partial)\n" unless $quiet;

	my %ragf = xfs_db "'agf $ag'", '"print freeblks"',
	'"addr bnoroot"', '"print recs[1].startblock"';
	my $maskblks = $ragf{'freeblks'} - $retain;
	my $newstart = $ragf{'recs[1].startblock'} + $maskblks;
	xfs_db "'agf $ag'",
	"'write freeblks $retain'", "'write longest $retain'",
	"'agf $ag'", '"addr bnoroot"',
	"'write recs[1].startblock $newstart'",
	"'write recs[1].blockcount $retain'",
	"'agf $ag'", '"addr cntroot"',
	"'write recs[1].startblock $newstart'",
	"'write recs[1].blockcount $retain'";

	$sb{'fdblocks'} -= $maskblks;
	print " cleared ", $maskblks, " blocks from AG#", $ag, "\n"
	unless $quiet;
	}

	print "=== Updating final freespace count, ", $sb{'fdblocks'}, " blocks\n"
	unless $quiet;
	xfs_db "'sb 0'", "'write fdblocks $sb{'fdblocks'}'"