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jlog_sanity_check.pl
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jlog_sanity_check.pl
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#!/opt/msys/3rdParty/bin/perl
use strict;
use warnings;
use Fcntl;
my $le = undef;
my $jlog_endian = shift;
if (defined $jlog_endian) {
if ($jlog_endian =~ /^(little|le)$/) {
$le = 1;
} elsif ($jlog_endian =~ /^(big|be)$/) {
$le = 0;
}
}
my $jlog = shift;
if (!defined $le or !defined $jlog) {
print "Usage: $0 <jlog endianness (be or le)> <path to jlog>\n";
exit 1;
}
sub unpack_32 {
if ($le) {
return unpack('V1', $_[0]);
} else {
return unpack('N1', $_[0]);
}
}
# we have to use 2 numbers to represent a 64-bit value so this works on 32-bit
sub unpack_64 {
if ($le) {
return unpack('V1', substr($_[0], 4, 4)), unpack('V1', substr($_[0], 0, 4));
} else {
return unpack('N1', substr($_[0], 0, 4)), unpack('N1', substr($_[0], 4, 4));
}
}
opendir(DIR, $jlog) or die "could not opendir $jlog: $!";
my $files = [ readdir(DIR) ];
closedir DIR;
my $metastore = grep /^metastore$/, @$files;
$files = [ grep !/^metastore$/, @$files ];
my $checkpoints = [ grep /^cp[.]/, @$files ];
$files = [ grep !/^cp[.]/, @$files ];
my $segments = [ sort { hex $a <=> hex $b } grep /^[0-9A-Fa-f]{8}$/, @$files ];
$files = [ grep !/^[0-9A-Fa-f]{8}$/, @$files ];
my $indexes = [ grep /^[0-9A-Fa-f]{8}.idx$/, @$files ];
$files = [ grep !/^[0-9A-Fa-f]{8}.idx$/, @$files ];
if (!$metastore) {
die "no metastore found\n";
}
$files = [ grep !/^[.]{1,2}$/, @$files ];
foreach (@$files) {
print "unexpected file found: $_ (skipping)\n";
}
undef $files;
if ((stat "$jlog/metastore")[7] != 12) {
die "metastore has invalid size\n";
}
my ($current_segment, $unit_limit, $safety);
sysopen(META, "$jlog/metastore", O_RDONLY)
or die "could not sysopen $jlog/metastore: $!";
my $data;
sysread(META, $data, 4) == 4 or die "metastore read error: $!";
$current_segment = unpack_32($data);
sysread(META, $data, 4) == 4 or die "metastore read error: $!";
$unit_limit = unpack_32($data);
sysread(META, $data, 4) == 4 or die "metastore read error: $!";
$safety = unpack_32($data);
close META;
my $oldest_cp_segment = 0xffffffff;
my $cpbyname = {};
foreach my $cp (@$checkpoints) {
my $cpname = $cp;
$cpname =~ s/^cp[.]//;
$cpname = pack('H*', $cpname);
if ((stat "$jlog/$cp")[7] != 8) {
print "checkpoint $cpname has invalid size\n";
next;
}
sysopen(CP, "$jlog/$cp", O_RDONLY) or die "could not sysopen $jlog/$cp: $!";
sysread(CP, $data, 4) == 4 or die "checkpoint $cpname: read error: $!";
my $segment = unpack_32($data);
sysread(CP, $data, 4) == 4 or die "checkpoint $cpname: read error: $!";
my $marker = unpack_32($data);
close CP;
if ($segment > $current_segment) {
print "checkpoint $cpname points to segment newer than current segment\n";
next;
}
$oldest_cp_segment = $segment if ($segment < $oldest_cp_segment);
$segment = sprintf "%08x", $segment;
$cpbyname->{$cpname} = {
segment => $segment,
marker => $marker,
};
}
if (!scalar keys %$cpbyname) {
die "no valid checkpoints\n";
}
my $lastnum = $oldest_cp_segment;
foreach my $seg (@$segments) {
my $num = hex $seg;
if ($num < $oldest_cp_segment) {
print "segment $seg is older than any checkpoint\n";
}
if ($num > $current_segment) {
print "segment $seg is newer than the current segment\n";
}
if ($num > $lastnum + 1) {
if ($num > $lastnum + 2) {
printf "segments %08x though %08x missing\n", $lastnum + 1, $num - 1;
} else {
printf "segment %08x missing\n", $lastnum + 1;
}
}
if ($num > $lastnum) {
$lastnum = $num;
}
my ($idx) = grep /$seg[.]idx/i, @$indexes;
$indexes = [ grep !/$seg[.]idx/i, @$indexes ];
$seg = [ $seg, $idx ];
}
if ($current_segment > $lastnum + 1) {
if ($current_segment > $lastnum + 2) {
printf "segments %08x though %08x missing\n",
$lastnum + 1, $current_segment - 1;
} else {
printf "segment %08x missing\n", $lastnum + 1;
}
}
foreach my $idx (@$indexes) {
print "index $idx doesn't correspond to any segment (skipping)\n";
}
foreach my $segdata (@$segments) {
my ($seg, $idx) = @$segdata;
my $last_marker = 0;
my $last_tv_sec = 0;
my $last_tv_usec = 0;
my $warned_timewarp = 0;
my $warned_toobig = 0;
my $data_off = 0;
my $idx_off = 0;
sysopen(SEG, "$jlog/$seg", O_RDONLY) or die "could not sysopen $jlog/$seg: $!";
my $data_len = (stat SEG)[7];
my $idx_len;
if ($idx) {
sysopen(IDX, "$jlog/$idx", O_RDONLY) or die "could not sysopen $jlog/$idx: $!";
$idx_len = (stat IDX)[7];
}
while ($data_off < $data_len) {
if (!$warned_toobig and ($data_off > $unit_limit)) {
print "segment $seg has message offset larger than unit limit\n";
$warned_toobig = 1;
}
if ($data_off + 16 > $data_len) {
print "segment $seg offset $data_off: not enough room for message header\n";
last;
}
sysread(SEG, $data, 16) == 16
or die "segment $seg offset $data_off: read error: $!";
my $reserved = unpack_32(substr $data, 0, 4);
my $tv_sec = unpack_32(substr $data, 4, 4);
my $tv_usec = unpack_32(substr $data, 8, 4);
my $mlen = unpack_32(substr $data, 12, 4);
if ($reserved) {
print "segment $seg offset $data_off: reserved field not 0\n";
last;
}
if (!$warned_timewarp) {
if ($tv_sec < $last_tv_sec or
($tv_sec == $last_tv_sec and $tv_usec < $last_tv_usec))
{
print "segment $seg offset $data_off: time goes backwards\n";
$warned_timewarp = 1;
} else {
$last_tv_sec = $tv_sec;
$last_tv_usec = $tv_usec;
}
}
if ($data_off + $mlen > $data_len) {
print "segment $seg offset $data_off: not enough room for message body\n";
last;
}
sysread(SEG, $data, $mlen) == $mlen
or die "segment $seg offset $data_off + 16: read error: $!";
$last_marker++;
if ($idx) {
if ($idx_off == $idx_len) {
if ($current_segment > hex $seg) {
print "index $idx is incomplete (not an error)\n";
}
close IDX;
undef $idx;
} elsif ($idx_off + 8 > $idx_len) {
print "index $idx offset $idx_off: no room for next offset\n";
close IDX;
undef $idx;
} else {
sysread(IDX, $data, 8) == 8
or die "index $idx offset $idx_off: read error: $!";
my ($offh, $offl) = unpack_64($data);
if ($offh != 0 or $offl != $data_off) {
print "index $idx offset $idx_off: index points to wrong offset\n";
close IDX;
undef $idx;
} else {
$idx_off += 8;
}
}
}
$data_off += 16 + $mlen;
}
if ($data_off == $data_len) {
$segdata->[2] = $last_marker;
} else {
close IDX;
undef $idx;
}
close SEG;
if ($idx) {
if ($idx_off == $idx_len) {
if (hex $seg < $current_segment) {
print "index $idx not current or closed\n";
}
} elsif ($idx_off + 8 > $idx_len) {
print "index $idx offset $idx_off: no room for closing index\n";
} elsif ($idx_off + 8 < $idx_len) {
print "index $idx offset $idx_off: index too long\n";
} else {
sysread(IDX, $data, 8) == 8
or die "index $idx offset $idx_off: read error: $!";
my ($offh, $offl) = unpack_64($data);
if ($offh != 0 or $offl != 0) {
print "index $idx offset $idx_off: closing offset not 0\n";
}
}
close IDX;
}
}
foreach my $cp (keys %$cpbyname) {
if ($cpbyname->{$cp}{segment} ne '00000000' or
$cpbyname->{$cp}{marker} != 0)
{
my ($segdata) = grep { $_->[0] eq $cpbyname->{$cp}{segment} } @$segments;
if (!defined $segdata) {
if (hex $cpbyname->{$cp}{segment} != $current_segment) {
printf "checkpoint $cp points to nonexistent segment\n";
}
} elsif (!defined $segdata->[2]) {
print "checkpoint $cp points to a damaged segment\n";
} elsif ($cpbyname->{$cp}{marker} > $segdata->[2]) {
print "checkpoint $cp points past the end of segment\n";
}
}
}